index
int64 0
66.5k
| func_name
stringlengths 2
5.36k
| func_dep
stringlengths 16
2.19k
| func
stringlengths 8
55.3k
| test
stringlengths 0
7.07k
| opt
stringclasses 4
values | language
stringclasses 2
values | asm
stringlengths 0
45.4k
| ida_asm
stringlengths 0
44.7k
| ida_pseudo
stringlengths 0
44.3k
| ghidra_asm
stringlengths 0
49.1k
| ghidra_pseudo
stringlengths 0
64.7k
|
|---|---|---|---|---|---|---|---|---|---|---|---|
4,400 | my_interval_timer | eloqsql/mysys/my_getsystime.c | ulonglong my_interval_timer()
{
#ifdef HAVE_CLOCK_GETTIME
struct timespec tp;
clock_gettime(CLOCK_MONOTONIC, &tp);
return tp.tv_sec*1000000000ULL+tp.tv_nsec;
#elif defined(HAVE_GETHRTIME)
return gethrtime();
#elif defined(_WIN32)
DBUG_ASSERT(query_performance_frequency);
LARGE_INTEGER t_cnt;
QueryPerformanceCounter(&t_cnt);
return (t_cnt.QuadPart / query_performance_frequency * 1000000000ULL) +
((t_cnt.QuadPart % query_performance_frequency) * 1000000000ULL /
query_performance_frequency);
#else
/* TODO: check for other possibilities for hi-res timestamping */
struct timeval tv;
gettimeofday(&tv,NULL);
return tv.tv_sec*1000000000ULL+tv.tv_usec*1000ULL;
#endif
} | O3 | c | my_interval_timer:
pushq %rbp
movq %rsp, %rbp
pushq %rbx
subq $0x18, %rsp
leaq -0x18(%rbp), %rbx
movl $0x1, %edi
movq %rbx, %rsi
callq 0x292a0
imulq $0x3b9aca00, (%rbx), %rax # imm = 0x3B9ACA00
addq 0x8(%rbx), %rax
addq $0x18, %rsp
popq %rbx
popq %rbp
retq
| my_interval_timer:
push rbp
mov rbp, rsp
push rbx
sub rsp, 18h
lea rbx, [rbp+var_18]
mov edi, 1
mov rsi, rbx
call _clock_gettime
imul rax, [rbx], 3B9ACA00h
add rax, [rbx+8]
add rsp, 18h
pop rbx
pop rbp
retn
| long long my_interval_timer()
{
_QWORD v1[3]; // [rsp+8h] [rbp-18h] BYREF
clock_gettime(1LL, v1);
return v1[1] + 1000000000LL * v1[0];
}
| my_interval_timer:
PUSH RBP
MOV RBP,RSP
PUSH RBX
SUB RSP,0x18
LEA RBX,[RBP + -0x18]
MOV EDI,0x1
MOV RSI,RBX
CALL 0x001292a0
IMUL RAX,qword ptr [RBX],0x3b9aca00
ADD RAX,qword ptr [RBX + 0x8]
ADD RSP,0x18
POP RBX
POP RBP
RET
|
long my_interval_timer(void)
{
timespec local_20;
clock_gettime(1,&local_20);
return local_20.tv_sec * 1000000000 + local_20.tv_nsec;
}
|
|
4,401 | llama_data_write::write_kv_cache(llama_context const*, int) | monkey531[P]llama/src/llama-context.cpp | void write_kv_cache(const struct llama_context * ctx, llama_seq_id seq_id = -1) {
const struct llama_kv_cache & kv_self = ctx->kv_self;
std::vector<std::pair<uint32_t, uint32_t>> cell_ranges; // ranges, from inclusive, to exclusive
uint32_t cell_count = 0;
// Count the number of cells with the specified seq_id
// Find all the ranges of cells with this seq id (or all, when -1)
uint32_t cell_range_begin = kv_self.size;
for (uint32_t i = 0; i < kv_self.size; ++i) {
const auto & cell = kv_self.cells[i];
if ((seq_id == -1 && !cell.is_empty()) || cell.has_seq_id(seq_id)) {
++cell_count;
if (cell_range_begin == kv_self.size) {
cell_range_begin = i;
}
} else {
if (cell_range_begin != kv_self.size) {
cell_ranges.emplace_back(cell_range_begin, i);
cell_range_begin = kv_self.size;
}
}
}
if (cell_range_begin != kv_self.size) {
cell_ranges.emplace_back(cell_range_begin, kv_self.size);
}
// DEBUG CHECK: Sum of cell counts in ranges should equal the total cell count
uint32_t cell_count_check = 0;
for (const auto & range : cell_ranges) {
cell_count_check += range.second - range.first;
}
GGML_ASSERT(cell_count == cell_count_check);
write(&cell_count, sizeof(cell_count));
write_kv_cache_meta(kv_self, cell_ranges, seq_id);
write_kv_cache_data(ctx, cell_ranges);
} | O3 | cpp | llama_data_write::write_kv_cache(llama_context const*, int):
pushq %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x38, %rsp
movl %edx, %ebp
movq %rsi, %rbx
movq %rdi, %r14
xorps %xmm0, %xmm0
movaps %xmm0, 0x10(%rsp)
movq $0x0, 0x20(%rsp)
xorl %r12d, %r12d
movl %r12d, 0xc(%rsp)
movl 0x164(%rsi), %eax
movl %eax, 0x4(%rsp)
movl %r12d, 0x8(%rsp)
testl %eax, %eax
je 0xa064e
movq %r14, 0x30(%rsp)
leaq 0x164(%rbx), %r15
leaq 0x4(%rsp), %r13
leaq 0x8(%rsp), %r14
movl %eax, %ecx
movl %eax, %esi
movl %eax, %edi
xorl %edx, %edx
movl %edx, %r8d
shlq $0x6, %r8
addq 0x178(%rbx), %r8
cmpl $-0x1, %ebp
je 0xa05f5
movq 0x20(%r8), %r9
testq %r9, %r9
je 0xa05eb
addq $0x18, %r8
movq %r8, %r10
xorl %r11d, %r11d
cmpl %ebp, 0x20(%r9)
setl %r11b
cmovgeq %r9, %r10
movq 0x10(%r9,%r11,8), %r9
testq %r9, %r9
jne 0xa05c7
cmpq %r8, %r10
je 0xa05eb
cmpl %ebp, 0x20(%r10)
jle 0xa05fc
cmpl %ecx, %esi
jne 0xa0614
movl %ecx, %esi
movl %ecx, %edi
jmp 0xa0635
cmpq $0x0, 0x38(%r8)
je 0xa05b7
incl %r12d
movl %r12d, 0xc(%rsp)
cmpl %ecx, %edi
jne 0xa0635
movl %edx, 0x4(%rsp)
movl %edx, %eax
movl %edx, %esi
movl %edx, %edi
jmp 0xa0635
leaq 0x10(%rsp), %rdi
movq %r13, %rsi
movq %r14, %rdx
callq 0x69b00
movl (%r15), %eax
movl %eax, 0x4(%rsp)
movl 0x8(%rsp), %edx
movl %eax, %ecx
movl %eax, %esi
movl %eax, %edi
incl %edx
movl %edx, 0x8(%rsp)
cmpl %ecx, %edx
jb 0xa05a4
cmpl %ecx, %eax
jne 0xa0653
movq 0x30(%rsp), %r14
jmp 0xa066a
xorl %r12d, %r12d
jmp 0xa066a
leaq 0x10(%rsp), %rdi
leaq 0x4(%rsp), %rsi
movq %r15, %rdx
callq 0x6b2a0
movq 0x30(%rsp), %r14
movq 0x10(%rsp), %rcx
movq 0x18(%rsp), %rdx
xorl %eax, %eax
cmpq %rdx, %rcx
je 0xa0686
addl 0x4(%rcx), %eax
subl (%rcx), %eax
addq $0x8, %rcx
jmp 0xa0676
cmpl %eax, %r12d
jne 0xa06e9
movq (%r14), %rax
leaq 0xc(%rsp), %rsi
movl $0x4, %edx
movq %r14, %rdi
callq *(%rax)
leaq 0x158(%rbx), %rsi
leaq 0x10(%rsp), %rdx
movq %r14, %rdi
movl %ebp, %ecx
callq 0x64a40
leaq 0x10(%rsp), %rdx
movq %r14, %rdi
movq %rbx, %rsi
callq 0x68fc0
movq 0x10(%rsp), %rdi
testq %rdi, %rdi
je 0xa06da
movq 0x20(%rsp), %rsi
subq %rdi, %rsi
callq 0x681a0
addq $0x38, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
leaq 0x73cd8(%rip), %rdi # 0x1143c8
leaq 0x6fccd(%rip), %rdx # 0x1103c4
leaq 0x744d2(%rip), %rcx # 0x114bd0
movl $0x411, %esi # imm = 0x411
xorl %eax, %eax
callq 0x6af70
jmp 0xa070e
jmp 0xa070e
movq %rax, %rbx
movq 0x10(%rsp), %rdi
testq %rdi, %rdi
je 0xa0728
movq 0x20(%rsp), %rsi
subq %rdi, %rsi
callq 0x681a0
movq %rbx, %rdi
callq 0x6b5d0
| _ZN16llama_data_write14write_kv_cacheEPK13llama_contexti:
push rbp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 38h
mov ebp, edx
mov rbx, rsi
mov r14, rdi
xorps xmm0, xmm0
movaps xmmword ptr [rsp+68h+var_58], xmm0
mov [rsp+68h+var_48], 0
xor r12d, r12d
mov [rsp+68h+var_5C], r12d
mov eax, [rsi+164h]
mov [rsp+68h+var_64], eax
mov [rsp+68h+var_60], r12d
test eax, eax
jz loc_A064E
mov [rsp+68h+var_38], r14
lea r15, [rbx+164h]
lea r13, [rsp+68h+var_64]
lea r14, [rsp+68h+var_60]
mov ecx, eax
mov esi, eax
mov edi, eax
xor edx, edx
loc_A05A4:
mov r8d, edx
shl r8, 6
add r8, [rbx+178h]
cmp ebp, 0FFFFFFFFh
jz short loc_A05F5
loc_A05B7:
mov r9, [r8+20h]
test r9, r9
jz short loc_A05EB
add r8, 18h
mov r10, r8
loc_A05C7:
xor r11d, r11d
cmp [r9+20h], ebp
setl r11b
cmovge r10, r9
mov r9, [r9+r11*8+10h]
test r9, r9
jnz short loc_A05C7
cmp r10, r8
jz short loc_A05EB
cmp [r10+20h], ebp
jle short loc_A05FC
loc_A05EB:
cmp esi, ecx
jnz short loc_A0614
mov esi, ecx
mov edi, ecx
jmp short loc_A0635
loc_A05F5:
cmp qword ptr [r8+38h], 0
jz short loc_A05B7
loc_A05FC:
inc r12d
mov [rsp+68h+var_5C], r12d
cmp edi, ecx
jnz short loc_A0635
mov [rsp+68h+var_64], edx
mov eax, edx
mov esi, edx
mov edi, edx
jmp short loc_A0635
loc_A0614:
lea rdi, [rsp+68h+var_58]
mov rsi, r13
mov rdx, r14
call __ZNSt6vectorISt4pairIjjESaIS1_EE12emplace_backIJRjS5_EEERS1_DpOT_; std::vector<std::pair<uint,uint>>::emplace_back<uint &,uint &>(uint &,uint &)
mov eax, [r15]
mov [rsp+68h+var_64], eax
mov edx, [rsp+68h+var_60]
mov ecx, eax
mov esi, eax
mov edi, eax
loc_A0635:
inc edx
mov [rsp+68h+var_60], edx
cmp edx, ecx
jb loc_A05A4
cmp eax, ecx
jnz short loc_A0653
mov r14, [rsp+68h+var_38]
jmp short loc_A066A
loc_A064E:
xor r12d, r12d
jmp short loc_A066A
loc_A0653:
lea rdi, [rsp+68h+var_58]
lea rsi, [rsp+68h+var_64]
mov rdx, r15
call __ZNSt6vectorISt4pairIjjESaIS1_EE12emplace_backIJRjRKjEEERS1_DpOT_; std::vector<std::pair<uint,uint>>::emplace_back<uint &,uint const&>(uint &,uint const&)
mov r14, [rsp+68h+var_38]
loc_A066A:
mov rcx, [rsp+68h+var_58]
mov rdx, [rsp+68h+var_58+8]
xor eax, eax
loc_A0676:
cmp rcx, rdx
jz short loc_A0686
add eax, [rcx+4]
sub eax, [rcx]
add rcx, 8
jmp short loc_A0676
loc_A0686:
cmp r12d, eax
jnz short loc_A06E9
mov rax, [r14]
lea rsi, [rsp+68h+var_5C]
mov edx, 4
mov rdi, r14
call qword ptr [rax]
lea rsi, [rbx+158h]
lea rdx, [rsp+68h+var_58]
mov rdi, r14
mov ecx, ebp
call __ZN16llama_data_write19write_kv_cache_metaERK14llama_kv_cacheRKSt6vectorISt4pairIjjESaIS5_EEi; llama_data_write::write_kv_cache_meta(llama_kv_cache const&,std::vector<std::pair<uint,uint>> const&,int)
lea rdx, [rsp+68h+var_58]
mov rdi, r14
mov rsi, rbx
call __ZN16llama_data_write19write_kv_cache_dataEPK13llama_contextRKSt6vectorISt4pairIjjESaIS5_EE; llama_data_write::write_kv_cache_data(llama_context const*,std::vector<std::pair<uint,uint>> const&)
mov rdi, [rsp+68h+var_58]; void *
test rdi, rdi
jz short loc_A06DA
mov rsi, [rsp+68h+var_48]
sub rsi, rdi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_A06DA:
add rsp, 38h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
loc_A06E9:
lea rdi, aWorkspaceLlm4b_3; "/workspace/llm4binary/github/2025_star3"...
lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed"
lea rcx, aCellCountCellC; "cell_count == cell_count_check"
mov esi, 411h
xor eax, eax
call _ggml_abort
jmp short loc_A070E
jmp short $+2
loc_A070E:
mov rbx, rax
mov rdi, [rsp+68h+var_58]; void *
test rdi, rdi
jz short loc_A0728
mov rsi, [rsp+68h+var_48]
sub rsi, rdi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_A0728:
mov rdi, rbx
call __Unwind_Resume
| void llama_data_write::write_kv_cache(llama_data_write *this, const llama_context *a2, signed int a3)
{
llama_data_write *v5; // r14
int v6; // r12d
unsigned int v7; // eax
int *v8; // r15
unsigned int v9; // ecx
unsigned int v10; // esi
unsigned int v11; // edi
unsigned int i; // edx
unsigned long long v13; // r8
unsigned long long v14; // r9
unsigned long long v15; // r8
unsigned long long v16; // r10
_DWORD *v17; // rcx
int v18; // eax
long long v19; // rax
long long v20; // rbx
unsigned int v21; // [rsp+4h] [rbp-64h] BYREF
unsigned int v22; // [rsp+8h] [rbp-60h] BYREF
int v23; // [rsp+Ch] [rbp-5Ch] BYREF
void *v24[2]; // [rsp+10h] [rbp-58h] BYREF
long long v25; // [rsp+20h] [rbp-48h]
llama_data_write *v26; // [rsp+30h] [rbp-38h]
v5 = this;
*(_OWORD *)v24 = 0LL;
v25 = 0LL;
v6 = 0;
v23 = 0;
v7 = *((_DWORD *)a2 + 89);
v21 = v7;
v22 = 0;
if ( v7 )
{
v26 = this;
v8 = (int *)((char *)a2 + 356);
v9 = v7;
v10 = v7;
v11 = v7;
for ( i = 0; i < v9; v22 = i )
{
v13 = *((_QWORD *)a2 + 47) + ((unsigned long long)i << 6);
if ( a3 == -1 && *(_QWORD *)(v13 + 56) )
goto LABEL_14;
v14 = *(_QWORD *)(v13 + 32);
if ( !v14 )
goto LABEL_11;
v15 = v13 + 24;
v16 = v15;
do
{
if ( *(_DWORD *)(v14 + 32) >= a3 )
v16 = v14;
v14 = *(_QWORD *)(v14 + 8LL * (*(_DWORD *)(v14 + 32) < a3) + 16);
}
while ( v14 );
if ( v16 != v15 && *(_DWORD *)(v16 + 32) <= a3 )
{
LABEL_14:
v23 = ++v6;
if ( v11 == v9 )
{
v21 = i;
v7 = i;
v10 = i;
v11 = i;
}
}
else
{
LABEL_11:
if ( v10 == v9 )
{
v10 = v9;
v11 = v9;
}
else
{
std::vector<std::pair<unsigned int,unsigned int>>::emplace_back<unsigned int &,unsigned int &>(
v24,
&v21,
&v22);
v7 = *v8;
v21 = v7;
i = v22;
v9 = v7;
v10 = v7;
v11 = v7;
}
}
++i;
}
if ( v7 != v9 )
std::vector<std::pair<unsigned int,unsigned int>>::emplace_back<unsigned int &,unsigned int const&>(
v24,
&v21,
(char *)a2 + 356);
v5 = v26;
}
else
{
v6 = 0;
}
v17 = v24[0];
v18 = 0;
while ( v17 != v24[1] )
{
v18 = v17[1] + v18 - *v17;
v17 += 2;
}
if ( v6 != v18 )
{
ggml_abort(
"/workspace/llm4binary/github/2025_star3/monkey531[P]llama/src/llama-context.cpp",
1041LL,
"GGML_ASSERT(%s) failed",
"cell_count == cell_count_check");
v20 = v19;
if ( v24[0] )
operator delete(v24[0], v25 - (unsigned long long)v24[0]);
_Unwind_Resume(v20);
}
(**(void ( ***)(llama_data_write *, int *, long long))v5)(v5, &v23, 4LL);
llama_data_write::write_kv_cache_meta(v5, (char *)a2 + 344, v24, (unsigned int)a3);
llama_data_write::write_kv_cache_data(v5, a2, v24);
if ( v24[0] )
operator delete(v24[0], v25 - (unsigned long long)v24[0]);
}
| write_kv_cache:
PUSH RBP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x38
MOV EBP,EDX
MOV RBX,RSI
MOV R14,RDI
XORPS XMM0,XMM0
MOVAPS xmmword ptr [RSP + 0x10],XMM0
MOV qword ptr [RSP + 0x20],0x0
XOR R12D,R12D
MOV dword ptr [RSP + 0xc],R12D
MOV EAX,dword ptr [RSI + 0x164]
MOV dword ptr [RSP + 0x4],EAX
MOV dword ptr [RSP + 0x8],R12D
TEST EAX,EAX
JZ 0x001a064e
MOV qword ptr [RSP + 0x30],R14
LEA R15,[RBX + 0x164]
LEA R13,[RSP + 0x4]
LEA R14,[RSP + 0x8]
MOV ECX,EAX
MOV ESI,EAX
MOV EDI,EAX
XOR EDX,EDX
LAB_001a05a4:
MOV R8D,EDX
SHL R8,0x6
ADD R8,qword ptr [RBX + 0x178]
CMP EBP,-0x1
JZ 0x001a05f5
LAB_001a05b7:
MOV R9,qword ptr [R8 + 0x20]
TEST R9,R9
JZ 0x001a05eb
ADD R8,0x18
MOV R10,R8
LAB_001a05c7:
XOR R11D,R11D
CMP dword ptr [R9 + 0x20],EBP
SETL R11B
CMOVGE R10,R9
MOV R9,qword ptr [R9 + R11*0x8 + 0x10]
TEST R9,R9
JNZ 0x001a05c7
CMP R10,R8
JZ 0x001a05eb
CMP dword ptr [R10 + 0x20],EBP
JLE 0x001a05fc
LAB_001a05eb:
CMP ESI,ECX
JNZ 0x001a0614
MOV ESI,ECX
MOV EDI,ECX
JMP 0x001a0635
LAB_001a05f5:
CMP qword ptr [R8 + 0x38],0x0
JZ 0x001a05b7
LAB_001a05fc:
INC R12D
MOV dword ptr [RSP + 0xc],R12D
CMP EDI,ECX
JNZ 0x001a0635
MOV dword ptr [RSP + 0x4],EDX
MOV EAX,EDX
MOV ESI,EDX
MOV EDI,EDX
JMP 0x001a0635
LAB_001a0614:
LEA RDI,[RSP + 0x10]
MOV RSI,R13
MOV RDX,R14
CALL 0x00169b00
MOV EAX,dword ptr [R15]
MOV dword ptr [RSP + 0x4],EAX
MOV EDX,dword ptr [RSP + 0x8]
MOV ECX,EAX
MOV ESI,EAX
MOV EDI,EAX
LAB_001a0635:
INC EDX
MOV dword ptr [RSP + 0x8],EDX
CMP EDX,ECX
JC 0x001a05a4
CMP EAX,ECX
JNZ 0x001a0653
MOV R14,qword ptr [RSP + 0x30]
JMP 0x001a066a
LAB_001a064e:
XOR R12D,R12D
JMP 0x001a066a
LAB_001a0653:
LEA RDI,[RSP + 0x10]
LEA RSI,[RSP + 0x4]
MOV RDX,R15
CALL 0x0016b2a0
MOV R14,qword ptr [RSP + 0x30]
LAB_001a066a:
MOV RCX,qword ptr [RSP + 0x10]
MOV RDX,qword ptr [RSP + 0x18]
XOR EAX,EAX
LAB_001a0676:
CMP RCX,RDX
JZ 0x001a0686
ADD EAX,dword ptr [RCX + 0x4]
SUB EAX,dword ptr [RCX]
ADD RCX,0x8
JMP 0x001a0676
LAB_001a0686:
CMP R12D,EAX
JNZ 0x001a06e9
MOV RAX,qword ptr [R14]
LAB_001a068e:
LEA RSI,[RSP + 0xc]
MOV EDX,0x4
MOV RDI,R14
CALL qword ptr [RAX]
LEA RSI,[RBX + 0x158]
LEA RDX,[RSP + 0x10]
MOV RDI,R14
MOV ECX,EBP
CALL 0x00164a40
LEA RDX,[RSP + 0x10]
MOV RDI,R14
MOV RSI,RBX
CALL 0x00168fc0
MOV RDI,qword ptr [RSP + 0x10]
TEST RDI,RDI
JZ 0x001a06da
MOV RSI,qword ptr [RSP + 0x20]
SUB RSI,RDI
CALL 0x001681a0
LAB_001a06da:
ADD RSP,0x38
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
LAB_001a06e9:
LEA RDI,[0x2143c8]
LEA RDX,[0x2103c4]
LEA RCX,[0x214bd0]
MOV ESI,0x411
XOR EAX,EAX
CALL 0x0016af70
|
/* llama_data_write::write_kv_cache(llama_context const*, int) */
void __thiscall
llama_data_write::write_kv_cache(llama_data_write *this,llama_context *param_1,int param_2)
{
uint uVar1;
int iVar2;
uint uVar3;
int *piVar4;
uint uVar5;
uint uVar6;
long lVar7;
long lVar8;
long lVar9;
int iVar10;
llama_data_write *this_00;
bool bVar11;
uint local_64;
uint local_60;
int local_5c;
int *local_58;
int *piStack_50;
long local_48;
llama_data_write *local_38;
local_58 = (int *)0x0;
piStack_50 = (int *)0x0;
local_48 = 0;
iVar10 = 0;
local_5c = 0;
uVar3 = *(uint *)(param_1 + 0x164);
local_60 = 0;
local_64 = uVar3;
if (uVar3 == 0) {
iVar10 = 0;
this_00 = this;
}
else {
uVar5 = uVar3;
uVar6 = uVar3;
local_38 = this;
uVar1 = uVar3;
do {
lVar7 = (ulong)local_60 * 0x40 + *(long *)(param_1 + 0x178);
if ((param_2 == -1) && (*(long *)(lVar7 + 0x38) != 0)) {
LAB_001a05fc:
iVar10 = iVar10 + 1;
local_5c = iVar10;
if (uVar6 == uVar3) {
uVar5 = local_60;
uVar6 = local_60;
local_64 = local_60;
uVar1 = local_60;
}
}
else {
lVar8 = *(long *)(lVar7 + 0x20);
if (lVar8 != 0) {
lVar9 = lVar7 + 0x18;
do {
if (param_2 <= *(int *)(lVar8 + 0x20)) {
lVar9 = lVar8;
}
lVar8 = *(long *)(lVar8 + 0x10 + (ulong)(*(int *)(lVar8 + 0x20) < param_2) * 8);
} while (lVar8 != 0);
if ((lVar9 != lVar7 + 0x18) && (*(int *)(lVar9 + 0x20) <= param_2)) goto LAB_001a05fc;
}
bVar11 = uVar5 != uVar3;
uVar5 = uVar3;
uVar6 = uVar3;
if (bVar11) {
/* try { // try from 001a0614 to 001a0623 has its CatchHandler @ 001a070e */
std::
vector<std::pair<unsigned_int,unsigned_int>,std::allocator<std::pair<unsigned_int,unsigned_int>>>
::emplace_back<unsigned_int&,unsigned_int&>
((vector<std::pair<unsigned_int,unsigned_int>,std::allocator<std::pair<unsigned_int,unsigned_int>>>
*)&local_58,&local_64,&local_60);
uVar3 = *(uint *)(param_1 + 0x164);
uVar5 = uVar3;
uVar6 = uVar3;
local_64 = uVar3;
uVar1 = uVar3;
}
}
local_60 = local_60 + 1;
} while (local_60 < uVar3);
this_00 = local_38;
if (uVar1 != uVar3) {
/* try { // try from 001a0653 to 001a0664 has its CatchHandler @ 001a070a */
std::
vector<std::pair<unsigned_int,unsigned_int>,std::allocator<std::pair<unsigned_int,unsigned_int>>>
::emplace_back<unsigned_int&,unsigned_int_const&>
((vector<std::pair<unsigned_int,unsigned_int>,std::allocator<std::pair<unsigned_int,unsigned_int>>>
*)&local_58,&local_64,(uint *)(param_1 + 0x164));
this_00 = local_38;
}
}
iVar2 = 0;
for (piVar4 = local_58; piVar4 != piStack_50; piVar4 = piVar4 + 2) {
iVar2 = (iVar2 + piVar4[1]) - *piVar4;
}
if (iVar10 != iVar2) {
/* WARNING: Subroutine does not return */
ggml_abort("/workspace/llm4binary/github/2025_star3/monkey531[P]llama/src/llama-context.cpp",
0x411,"GGML_ASSERT(%s) failed","cell_count == cell_count_check");
}
/* try { // try from 001a068e to 001a0709 has its CatchHandler @ 001a070c */
(*(code *)**(int8 **)this_00)(this_00,&local_5c,4);
write_kv_cache_meta(this_00,(llama_kv_cache *)(param_1 + 0x158),(vector *)&local_58,param_2);
write_kv_cache_data(this_00,param_1,(vector *)&local_58);
if (local_58 != (int *)0x0) {
operator_delete(local_58,local_48 - (long)local_58);
}
return;
}
|
|
4,402 | uf_zerofill_skip_zero | eloqsql/storage/myisam/mi_packrec.c | static void uf_zerofill_skip_zero(MI_COLUMNDEF *rec, MI_BIT_BUFF *bit_buff,
uchar *to, uchar *end)
{
if (get_bit(bit_buff))
bzero((char*) to,(uint) (end-to));
else
{
end-=rec->space_length_bits;
decode_bytes(rec,bit_buff,to,end);
bzero((char*) end,rec->space_length_bits);
}
} | O0 | c | uf_zerofill_skip_zero:
pushq %rbp
movq %rsp, %rbp
subq $0x20, %rsp
movq %rdi, -0x8(%rbp)
movq %rsi, -0x10(%rbp)
movq %rdx, -0x18(%rbp)
movq %rcx, -0x20(%rbp)
movq -0x10(%rbp), %rax
cmpl $0x0, 0x4(%rax)
je 0x48ae7
movq -0x10(%rbp), %rax
movl (%rax), %eax
movq -0x10(%rbp), %rdx
movl 0x4(%rdx), %ecx
addl $-0x1, %ecx
movl %ecx, 0x4(%rdx)
movl $0x1, %edx
shll %cl, %edx
movl %edx, %ecx
andl %ecx, %eax
cmpl $0x0, %eax
jne 0x48b0b
jmp 0x48b27
movq -0x10(%rbp), %rdi
callq 0x48640
movq -0x10(%rbp), %rax
movl $0x1f, 0x4(%rax)
movq -0x10(%rbp), %rax
movl (%rax), %eax
andl $0x80000000, %eax # imm = 0x80000000
cmpl $0x0, %eax
je 0x48b27
movq -0x18(%rbp), %rdi
movq -0x20(%rbp), %rax
movq -0x18(%rbp), %rcx
subq %rcx, %rax
movl %eax, %eax
movl %eax, %edx
xorl %esi, %esi
callq 0x291f0
jmp 0x48b6b
movq -0x8(%rbp), %rax
movl 0x1c(%rax), %ecx
movq -0x20(%rbp), %rax
movl %ecx, %ecx
movl %ecx, %edx
xorl %ecx, %ecx
subq %rdx, %rcx
addq %rcx, %rax
movq %rax, -0x20(%rbp)
movq -0x8(%rbp), %rdi
movq -0x10(%rbp), %rsi
movq -0x18(%rbp), %rdx
movq -0x20(%rbp), %rcx
callq 0x48d50
movq -0x20(%rbp), %rdi
movq -0x8(%rbp), %rax
movl 0x1c(%rax), %eax
movl %eax, %edx
xorl %esi, %esi
callq 0x291f0
addq $0x20, %rsp
popq %rbp
retq
nopw %cs:(%rax,%rax)
| uf_zerofill_skip_zero:
push rbp
mov rbp, rsp
sub rsp, 20h
mov [rbp+var_8], rdi
mov [rbp+var_10], rsi
mov [rbp+var_18], rdx
mov [rbp+var_20], rcx
mov rax, [rbp+var_10]
cmp dword ptr [rax+4], 0
jz short loc_48AE7
mov rax, [rbp+var_10]
mov eax, [rax]
mov rdx, [rbp+var_10]
mov ecx, [rdx+4]
add ecx, 0FFFFFFFFh
mov [rdx+4], ecx
mov edx, 1
shl edx, cl
mov ecx, edx
and eax, ecx
cmp eax, 0
jnz short loc_48B0B
jmp short loc_48B27
loc_48AE7:
mov rdi, [rbp+var_10]
call fill_buffer
mov rax, [rbp+var_10]
mov dword ptr [rax+4], 1Fh
mov rax, [rbp+var_10]
mov eax, [rax]
and eax, 80000000h
cmp eax, 0
jz short loc_48B27
loc_48B0B:
mov rdi, [rbp+var_18]
mov rax, [rbp+var_20]
mov rcx, [rbp+var_18]
sub rax, rcx
mov eax, eax
mov edx, eax
xor esi, esi
call _memset
jmp short loc_48B6B
loc_48B27:
mov rax, [rbp+var_8]
mov ecx, [rax+1Ch]
mov rax, [rbp+var_20]
mov ecx, ecx
mov edx, ecx
xor ecx, ecx
sub rcx, rdx
add rax, rcx
mov [rbp+var_20], rax
mov rdi, [rbp+var_8]
mov rsi, [rbp+var_10]
mov rdx, [rbp+var_18]
mov rcx, [rbp+var_20]
call decode_bytes
mov rdi, [rbp+var_20]
mov rax, [rbp+var_8]
mov eax, [rax+1Ch]
mov edx, eax
xor esi, esi
call _memset
loc_48B6B:
add rsp, 20h
pop rbp
retn
| long long uf_zerofill_skip_zero(long long a1, int *a2, long long a3, long long a4)
{
int v4; // eax
int v5; // ecx
long long v8; // [rsp+0h] [rbp-20h]
if ( a2[1] )
{
v4 = *a2;
v5 = a2[1] - 1;
a2[1] = v5;
if ( ((1 << v5) & v4) == 0 )
goto LABEL_6;
return memset(a3, 0LL, (unsigned int)(a4 - a3));
}
fill_buffer((long long)a2);
a2[1] = 31;
if ( *a2 < 0 )
return memset(a3, 0LL, (unsigned int)(a4 - a3));
LABEL_6:
v8 = a4 - *(unsigned int *)(a1 + 28);
decode_bytes(a1, a2, a3, v8);
return memset(v8, 0LL, *(unsigned int *)(a1 + 28));
}
| uf_zerofill_skip_zero:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x20
MOV qword ptr [RBP + -0x8],RDI
MOV qword ptr [RBP + -0x10],RSI
MOV qword ptr [RBP + -0x18],RDX
MOV qword ptr [RBP + -0x20],RCX
MOV RAX,qword ptr [RBP + -0x10]
CMP dword ptr [RAX + 0x4],0x0
JZ 0x00148ae7
MOV RAX,qword ptr [RBP + -0x10]
MOV EAX,dword ptr [RAX]
MOV RDX,qword ptr [RBP + -0x10]
MOV ECX,dword ptr [RDX + 0x4]
ADD ECX,-0x1
MOV dword ptr [RDX + 0x4],ECX
MOV EDX,0x1
SHL EDX,CL
MOV ECX,EDX
AND EAX,ECX
CMP EAX,0x0
JNZ 0x00148b0b
JMP 0x00148b27
LAB_00148ae7:
MOV RDI,qword ptr [RBP + -0x10]
CALL 0x00148640
MOV RAX,qword ptr [RBP + -0x10]
MOV dword ptr [RAX + 0x4],0x1f
MOV RAX,qword ptr [RBP + -0x10]
MOV EAX,dword ptr [RAX]
AND EAX,0x80000000
CMP EAX,0x0
JZ 0x00148b27
LAB_00148b0b:
MOV RDI,qword ptr [RBP + -0x18]
MOV RAX,qword ptr [RBP + -0x20]
MOV RCX,qword ptr [RBP + -0x18]
SUB RAX,RCX
MOV EAX,EAX
MOV EDX,EAX
XOR ESI,ESI
CALL 0x001291f0
JMP 0x00148b6b
LAB_00148b27:
MOV RAX,qword ptr [RBP + -0x8]
MOV ECX,dword ptr [RAX + 0x1c]
MOV RAX,qword ptr [RBP + -0x20]
MOV ECX,ECX
MOV EDX,ECX
XOR ECX,ECX
SUB RCX,RDX
ADD RAX,RCX
MOV qword ptr [RBP + -0x20],RAX
MOV RDI,qword ptr [RBP + -0x8]
MOV RSI,qword ptr [RBP + -0x10]
MOV RDX,qword ptr [RBP + -0x18]
MOV RCX,qword ptr [RBP + -0x20]
CALL 0x00148d50
MOV RDI,qword ptr [RBP + -0x20]
MOV RAX,qword ptr [RBP + -0x8]
MOV EAX,dword ptr [RAX + 0x1c]
MOV EDX,EAX
XOR ESI,ESI
CALL 0x001291f0
LAB_00148b6b:
ADD RSP,0x20
POP RBP
RET
|
void uf_zerofill_skip_zero(long param_1,uint *param_2,void *param_3,long param_4)
{
uint uVar1;
void *__s;
if (param_2[1] == 0) {
fill_buffer(param_2);
param_2[1] = 0x1f;
uVar1 = *param_2 & 0x80000000;
}
else {
uVar1 = param_2[1];
param_2[1] = uVar1 - 1;
uVar1 = *param_2 & 1 << ((byte)(uVar1 - 1) & 0x1f);
}
if (uVar1 == 0) {
__s = (void *)(param_4 - (ulong)*(uint *)(param_1 + 0x1c));
decode_bytes(param_1,param_2,param_3,__s);
memset(__s,0,(ulong)*(uint *)(param_1 + 0x1c));
}
else {
memset(param_3,0,(ulong)(uint)((int)param_4 - (int)param_3));
}
return;
}
|
|
4,403 | js_async_function_resolve_call | bluesky950520[P]quickjs/quickjs.c | static JSValue js_async_function_resolve_call(JSContext *ctx,
JSValue func_obj,
JSValue this_obj,
int argc, JSValue *argv,
int flags)
{
JSObject *p = JS_VALUE_GET_OBJ(func_obj);
JSAsyncFunctionData *s = p->u.async_function_data;
BOOL is_reject = p->class_id - JS_CLASS_ASYNC_FUNCTION_RESOLVE;
JSValue arg;
if (argc > 0)
arg = argv[0];
else
arg = JS_UNDEFINED;
s->func_state.throw_flag = is_reject;
if (is_reject) {
JS_Throw(ctx, js_dup(arg));
} else {
/* return value of await */
s->func_state.frame.cur_sp[-1] = js_dup(arg);
}
js_async_function_resume(ctx, s);
return JS_UNDEFINED;
} | O0 | c | js_async_function_resolve_call:
subq $0xb8, %rsp
movl 0xc8(%rsp), %eax
movq 0xc0(%rsp), %rax
movq %rsi, 0x98(%rsp)
movq %rdx, 0xa0(%rsp)
movq %rcx, 0x88(%rsp)
movq %r8, 0x90(%rsp)
movq %rdi, 0x80(%rsp)
movl %r9d, 0x7c(%rsp)
movq 0x98(%rsp), %rax
movq %rax, 0x70(%rsp)
movq 0x70(%rsp), %rax
movq 0x30(%rax), %rax
movq %rax, 0x68(%rsp)
movq 0x70(%rsp), %rax
movzwl 0x6(%rax), %eax
subl $0x35, %eax
movl %eax, 0x64(%rsp)
cmpl $0x0, 0x7c(%rsp)
jle 0x540a0
movq 0xc0(%rsp), %rax
movq (%rax), %rcx
movq %rcx, 0x50(%rsp)
movq 0x8(%rax), %rax
movq %rax, 0x58(%rsp)
jmp 0x540c5
movl $0x0, 0x40(%rsp)
movq $0x3, 0x48(%rsp)
movq 0x40(%rsp), %rax
movq %rax, 0x50(%rsp)
movq 0x48(%rsp), %rax
movq %rax, 0x58(%rsp)
movl 0x64(%rsp), %ecx
movq 0x68(%rsp), %rax
movl %ecx, 0x54(%rax)
cmpl $0x0, 0x64(%rsp)
je 0x5411e
movq 0x80(%rsp), %rax
movq %rax, 0x8(%rsp)
movq 0x50(%rsp), %rdi
movq 0x58(%rsp), %rsi
callq 0x216d0
movq 0x8(%rsp), %rdi
movq %rax, 0x30(%rsp)
movq %rdx, 0x38(%rsp)
movq 0x30(%rsp), %rsi
movq 0x38(%rsp), %rdx
callq 0x2cf00
movq %rax, 0x20(%rsp)
movq %rdx, 0x28(%rsp)
jmp 0x54160
movq 0x68(%rsp), %rax
movq 0xa0(%rax), %rax
movq %rax, (%rsp)
movq 0x50(%rsp), %rdi
movq 0x58(%rsp), %rsi
callq 0x216d0
movq %rax, %rcx
movq (%rsp), %rax
movq %rcx, 0x10(%rsp)
movq %rdx, 0x18(%rsp)
movq 0x10(%rsp), %rcx
movq %rcx, -0x10(%rax)
movq 0x18(%rsp), %rcx
movq %rcx, -0x8(%rax)
movq 0x80(%rsp), %rdi
movq 0x68(%rsp), %rsi
callq 0x92620
movl $0x0, 0xa8(%rsp)
movq $0x3, 0xb0(%rsp)
movq 0xa8(%rsp), %rax
movq 0xb0(%rsp), %rdx
addq $0xb8, %rsp
retq
nopw %cs:(%rax,%rax)
| js_async_function_resolve_call:
sub rsp, 0B8h
mov eax, [rsp+0B8h+arg_8]
mov rax, [rsp+0B8h+arg_0]
mov [rsp+0B8h+var_20], rsi
mov [rsp+0B8h+var_18], rdx
mov [rsp+0B8h+var_30], rcx
mov [rsp+0B8h+var_28], r8
mov [rsp+0B8h+var_38], rdi
mov [rsp+0B8h+var_3C], r9d
mov rax, [rsp+0B8h+var_20]
mov [rsp+0B8h+var_48], rax
mov rax, [rsp+0B8h+var_48]
mov rax, [rax+30h]
mov [rsp+0B8h+var_50], rax
mov rax, [rsp+0B8h+var_48]
movzx eax, word ptr [rax+6]
sub eax, 35h ; '5'
mov [rsp+0B8h+var_54], eax
cmp [rsp+0B8h+var_3C], 0
jle short loc_540A0
mov rax, [rsp+0B8h+arg_0]
mov rcx, [rax]
mov [rsp+0B8h+var_68], rcx
mov rax, [rax+8]
mov [rsp+0B8h+var_60], rax
jmp short loc_540C5
loc_540A0:
mov dword ptr [rsp+0B8h+var_78], 0
mov [rsp+0B8h+var_70], 3
mov rax, [rsp+0B8h+var_78]
mov [rsp+0B8h+var_68], rax
mov rax, [rsp+0B8h+var_70]
mov [rsp+0B8h+var_60], rax
loc_540C5:
mov ecx, [rsp+0B8h+var_54]
mov rax, [rsp+0B8h+var_50]
mov [rax+54h], ecx
cmp [rsp+0B8h+var_54], 0
jz short loc_5411E
mov rax, [rsp+0B8h+var_38]
mov [rsp+0B8h+var_B0], rax
mov rdi, [rsp+0B8h+var_68]
mov rsi, [rsp+0B8h+var_60]
call js_dup
mov rdi, [rsp+0B8h+var_B0]
mov [rsp+0B8h+var_88], rax
mov [rsp+0B8h+var_80], rdx
mov rsi, [rsp+0B8h+var_88]
mov rdx, [rsp+0B8h+var_80]
call JS_Throw
mov [rsp+0B8h+var_98], rax
mov [rsp+0B8h+var_90], rdx
jmp short loc_54160
loc_5411E:
mov rax, [rsp+0B8h+var_50]
mov rax, [rax+0A0h]
mov [rsp+0B8h+var_B8], rax
mov rdi, [rsp+0B8h+var_68]
mov rsi, [rsp+0B8h+var_60]
call js_dup
mov rcx, rax
mov rax, [rsp+0B8h+var_B8]
mov [rsp+0B8h+var_A8], rcx
mov [rsp+0B8h+var_A0], rdx
mov rcx, [rsp+0B8h+var_A8]
mov [rax-10h], rcx
mov rcx, [rsp+0B8h+var_A0]
mov [rax-8], rcx
loc_54160:
mov rdi, [rsp+0B8h+var_38]
mov rsi, [rsp+0B8h+var_50]
call js_async_function_resume
mov dword ptr [rsp+0B8h+var_10], 0
mov [rsp+0B8h+var_8], 3
mov rax, [rsp+0B8h+var_10]
mov rdx, [rsp+0B8h+var_8]
add rsp, 0B8h
retn
| long long js_async_function_resolve_call(
long long a1,
long long a2,
long long a3,
long long a4,
long long a5,
int a6,
long long a7)
{
long long v7; // rdx
long long v8; // rdx
long long v10; // [rsp+0h] [rbp-B8h]
_DWORD *v11; // [rsp+30h] [rbp-88h]
_DWORD *v12; // [rsp+40h] [rbp-78h]
_DWORD *v13; // [rsp+50h] [rbp-68h]
long long v14; // [rsp+58h] [rbp-60h]
int v15; // [rsp+64h] [rbp-54h]
long long v16; // [rsp+68h] [rbp-50h]
long long v17; // [rsp+A8h] [rbp-10h]
v16 = *(_QWORD *)(a2 + 48);
v15 = *(unsigned __int16 *)(a2 + 6) - 53;
if ( a6 <= 0 )
{
LODWORD(v12) = 0;
v13 = v12;
LODWORD(v14) = 3;
}
else
{
v13 = *(_DWORD **)a7;
v14 = *(_QWORD *)(a7 + 8);
}
*(_DWORD *)(v16 + 84) = v15;
if ( v15 )
{
v11 = js_dup(v13, v14);
JS_Throw(a1, (long long)v11, v7);
}
else
{
v10 = *(_QWORD *)(v16 + 160);
*(_QWORD *)(v10 - 16) = js_dup(v13, v14);
*(_QWORD *)(v10 - 8) = v8;
}
js_async_function_resume(a1, v16);
LODWORD(v17) = 0;
return v17;
}
| js_async_function_resolve_call:
SUB RSP,0xb8
MOV EAX,dword ptr [RSP + 0xc8]
MOV RAX,qword ptr [RSP + 0xc0]
MOV qword ptr [RSP + 0x98],RSI
MOV qword ptr [RSP + 0xa0],RDX
MOV qword ptr [RSP + 0x88],RCX
MOV qword ptr [RSP + 0x90],R8
MOV qword ptr [RSP + 0x80],RDI
MOV dword ptr [RSP + 0x7c],R9D
MOV RAX,qword ptr [RSP + 0x98]
MOV qword ptr [RSP + 0x70],RAX
MOV RAX,qword ptr [RSP + 0x70]
MOV RAX,qword ptr [RAX + 0x30]
MOV qword ptr [RSP + 0x68],RAX
MOV RAX,qword ptr [RSP + 0x70]
MOVZX EAX,word ptr [RAX + 0x6]
SUB EAX,0x35
MOV dword ptr [RSP + 0x64],EAX
CMP dword ptr [RSP + 0x7c],0x0
JLE 0x001540a0
MOV RAX,qword ptr [RSP + 0xc0]
MOV RCX,qword ptr [RAX]
MOV qword ptr [RSP + 0x50],RCX
MOV RAX,qword ptr [RAX + 0x8]
MOV qword ptr [RSP + 0x58],RAX
JMP 0x001540c5
LAB_001540a0:
MOV dword ptr [RSP + 0x40],0x0
MOV qword ptr [RSP + 0x48],0x3
MOV RAX,qword ptr [RSP + 0x40]
MOV qword ptr [RSP + 0x50],RAX
MOV RAX,qword ptr [RSP + 0x48]
MOV qword ptr [RSP + 0x58],RAX
LAB_001540c5:
MOV ECX,dword ptr [RSP + 0x64]
MOV RAX,qword ptr [RSP + 0x68]
MOV dword ptr [RAX + 0x54],ECX
CMP dword ptr [RSP + 0x64],0x0
JZ 0x0015411e
MOV RAX,qword ptr [RSP + 0x80]
MOV qword ptr [RSP + 0x8],RAX
MOV RDI,qword ptr [RSP + 0x50]
MOV RSI,qword ptr [RSP + 0x58]
CALL 0x001216d0
MOV RDI,qword ptr [RSP + 0x8]
MOV qword ptr [RSP + 0x30],RAX
MOV qword ptr [RSP + 0x38],RDX
MOV RSI,qword ptr [RSP + 0x30]
MOV RDX,qword ptr [RSP + 0x38]
CALL 0x0012cf00
MOV qword ptr [RSP + 0x20],RAX
MOV qword ptr [RSP + 0x28],RDX
JMP 0x00154160
LAB_0015411e:
MOV RAX,qword ptr [RSP + 0x68]
MOV RAX,qword ptr [RAX + 0xa0]
MOV qword ptr [RSP],RAX
MOV RDI,qword ptr [RSP + 0x50]
MOV RSI,qword ptr [RSP + 0x58]
CALL 0x001216d0
MOV RCX,RAX
MOV RAX,qword ptr [RSP]
MOV qword ptr [RSP + 0x10],RCX
MOV qword ptr [RSP + 0x18],RDX
MOV RCX,qword ptr [RSP + 0x10]
MOV qword ptr [RAX + -0x10],RCX
MOV RCX,qword ptr [RSP + 0x18]
MOV qword ptr [RAX + -0x8],RCX
LAB_00154160:
MOV RDI,qword ptr [RSP + 0x80]
MOV RSI,qword ptr [RSP + 0x68]
CALL 0x00192620
MOV dword ptr [RSP + 0xa8],0x0
MOV qword ptr [RSP + 0xb0],0x3
MOV RAX,qword ptr [RSP + 0xa8]
MOV RDX,qword ptr [RSP + 0xb0]
ADD RSP,0xb8
RET
|
int1 [16] js_async_function_resolve_call(int8 param_1,long param_2)
{
long lVar1;
long lVar2;
int iVar3;
int in_R9D;
int1 auVar4 [16];
long *in_stack_00000008;
uint uStack_74;
long local_68;
long local_60;
uint uStack_c;
lVar1 = *(long *)(param_2 + 0x30);
iVar3 = *(ushort *)(param_2 + 6) - 0x35;
if (in_R9D < 1) {
local_68 = (ulong)uStack_74 << 0x20;
local_60 = 3;
}
else {
local_68 = *in_stack_00000008;
local_60 = in_stack_00000008[1];
}
*(int *)(lVar1 + 0x54) = iVar3;
if (iVar3 == 0) {
lVar2 = *(long *)(lVar1 + 0xa0);
auVar4 = js_dup(local_68,local_60);
*(int1 (*) [16])(lVar2 + -0x10) = auVar4;
}
else {
auVar4 = js_dup(local_68,local_60);
JS_Throw(param_1,auVar4._0_8_,auVar4._8_8_);
}
js_async_function_resume(param_1,lVar1);
auVar4._8_8_ = 3;
auVar4._0_8_ = (ulong)uStack_c << 0x20;
return auVar4;
}
|
|
4,404 | js_async_function_resolve_call | bluesky950520[P]quickjs/quickjs.c | static JSValue js_async_function_resolve_call(JSContext *ctx,
JSValue func_obj,
JSValue this_obj,
int argc, JSValue *argv,
int flags)
{
JSObject *p = JS_VALUE_GET_OBJ(func_obj);
JSAsyncFunctionData *s = p->u.async_function_data;
BOOL is_reject = p->class_id - JS_CLASS_ASYNC_FUNCTION_RESOLVE;
JSValue arg;
if (argc > 0)
arg = argv[0];
else
arg = JS_UNDEFINED;
s->func_state.throw_flag = is_reject;
if (is_reject) {
JS_Throw(ctx, js_dup(arg));
} else {
/* return value of await */
s->func_state.frame.cur_sp[-1] = js_dup(arg);
}
js_async_function_resume(ctx, s);
return JS_UNDEFINED;
} | O1 | c | js_async_function_resolve_call:
pushq %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
pushq %rax
movq %rdi, %r14
movq 0x30(%rsi), %rbx
movzwl 0x6(%rsi), %eax
addl $-0x35, %eax
testl %r9d, %r9d
jle 0x36678
movq 0x40(%rsp), %rcx
movq (%rcx), %rdx
movq 0x8(%rcx), %r12
movabsq $-0x100000000, %r13 # imm = 0xFFFFFFFF00000000
andq %rdx, %r13
movl %edx, %ecx
jmp 0x36683
movl $0x3, %r12d
xorl %ecx, %ecx
xorl %r13d, %r13d
movl %eax, 0x54(%rbx)
testl %eax, %eax
je 0x366c7
orq %rcx, %r13
movq %r13, (%rsp)
cmpl $-0x9, %r12d
jb 0x3669d
movq (%rsp), %rax
incl (%rax)
movq 0x18(%r14), %r15
leaq 0xf8(%r15), %rbp
movq 0xf0(%r15), %rsi
movq 0xf8(%r15), %rdx
movq %r15, %rdi
callq 0x1d8c6
movq %r13, 0xf0(%r15)
jmp 0x366e9
movq 0xa0(%rbx), %rbp
orq %rcx, %r13
movq %r13, (%rsp)
cmpl $-0x9, %r12d
jb 0x366e1
movq (%rsp), %rax
incl (%rax)
movq %r13, -0x10(%rbp)
addq $-0x8, %rbp
movq %r12, (%rbp)
movq %r14, %rdi
movq %rbx, %rsi
callq 0x53037
movl $0x3, %edx
xorl %eax, %eax
addq $0x8, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
| js_async_function_resolve_call:
push rbp
push r15
push r14
push r13
push r12
push rbx
push rax
mov r14, rdi
mov rbx, [rsi+30h]
movzx eax, word ptr [rsi+6]
add eax, 0FFFFFFCBh
test r9d, r9d
jle short loc_36678
mov rcx, [rsp+38h+arg_0]
mov rdx, [rcx]
mov r12, [rcx+8]
mov r13, 0FFFFFFFF00000000h
and r13, rdx
mov ecx, edx
jmp short loc_36683
loc_36678:
mov r12d, 3
xor ecx, ecx
xor r13d, r13d
loc_36683:
mov [rbx+54h], eax
test eax, eax
jz short loc_366C7
or r13, rcx
mov [rsp+38h+var_38], r13
cmp r12d, 0FFFFFFF7h
jb short loc_3669D
mov rax, [rsp+38h+var_38]
inc dword ptr [rax]
loc_3669D:
mov r15, [r14+18h]
lea rbp, [r15+0F8h]
mov rsi, [r15+0F0h]
mov rdx, [r15+0F8h]
mov rdi, r15
call JS_FreeValueRT
mov [r15+0F0h], r13
jmp short loc_366E9
loc_366C7:
mov rbp, [rbx+0A0h]
or r13, rcx
mov [rsp+38h+var_38], r13
cmp r12d, 0FFFFFFF7h
jb short loc_366E1
mov rax, [rsp+38h+var_38]
inc dword ptr [rax]
loc_366E1:
mov [rbp-10h], r13
add rbp, 0FFFFFFFFFFFFFFF8h
loc_366E9:
mov [rbp+0], r12
mov rdi, r14
mov rsi, rbx
call js_async_function_resume
mov edx, 3
xor eax, eax
add rsp, 8
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
| long long js_async_function_resolve_call(
long long a1,
long long a2,
long long a3,
long long a4,
long long a5,
int a6,
long long *a7)
{
long long v7; // rbx
int v8; // eax
long long v9; // r12
unsigned long long v10; // r13
long long v11; // rcx
_DWORD *v12; // r13
long long v13; // r15
long long *v14; // rbp
long long v15; // rbp
_DWORD *v16; // r13
v7 = *(_QWORD *)(a2 + 48);
v8 = *(unsigned __int16 *)(a2 + 6) - 53;
if ( a6 <= 0 )
{
v9 = 3LL;
v11 = 0LL;
v10 = 0LL;
}
else
{
a3 = *a7;
v9 = a7[1];
v10 = *a7 & 0xFFFFFFFF00000000LL;
v11 = (unsigned int)*a7;
}
*(_DWORD *)(v7 + 84) = v8;
if ( v8 )
{
v12 = (_DWORD *)(v11 | v10);
if ( (unsigned int)v9 >= 0xFFFFFFF7 )
++*v12;
v13 = *(_QWORD *)(a1 + 24);
v14 = (long long *)(v13 + 248);
JS_FreeValueRT(v13, *(_DWORD **)(v13 + 240), *(_QWORD *)(v13 + 248));
*(_QWORD *)(v13 + 240) = v12;
}
else
{
v15 = *(_QWORD *)(v7 + 160);
v16 = (_DWORD *)(v11 | v10);
if ( (unsigned int)v9 >= 0xFFFFFFF7 )
++*v16;
*(_QWORD *)(v15 - 16) = v16;
v14 = (long long *)(v15 - 8);
}
*v14 = v9;
js_async_function_resume(a1, v7, a3);
return 0LL;
}
| |||
4,405 | js_async_function_resolve_call | bluesky950520[P]quickjs/quickjs.c | static JSValue js_async_function_resolve_call(JSContext *ctx,
JSValue func_obj,
JSValue this_obj,
int argc, JSValue *argv,
int flags)
{
JSObject *p = JS_VALUE_GET_OBJ(func_obj);
JSAsyncFunctionData *s = p->u.async_function_data;
BOOL is_reject = p->class_id - JS_CLASS_ASYNC_FUNCTION_RESOLVE;
JSValue arg;
if (argc > 0)
arg = argv[0];
else
arg = JS_UNDEFINED;
s->func_state.throw_flag = is_reject;
if (is_reject) {
JS_Throw(ctx, js_dup(arg));
} else {
/* return value of await */
s->func_state.frame.cur_sp[-1] = js_dup(arg);
}
js_async_function_resume(ctx, s);
return JS_UNDEFINED;
} | O3 | c | js_async_function_resolve_call:
pushq %r14
pushq %rbx
pushq %rax
movq %rdi, %r14
movq 0x30(%rsi), %rbx
movzwl 0x6(%rsi), %eax
addl $-0x35, %eax
testl %r9d, %r9d
jle 0x378ec
movq 0x20(%rsp), %rcx
movq (%rcx), %rdi
movq 0x8(%rcx), %rdx
movabsq $-0x100000000, %rsi # imm = 0xFFFFFFFF00000000
andq %rdi, %rsi
movl %edi, %ecx
jmp 0x378f5
movl $0x3, %edx
xorl %ecx, %ecx
xorl %esi, %esi
movl %eax, 0x54(%rbx)
testl %eax, %eax
je 0x37910
orq %rcx, %rsi
cmpl $-0x9, %edx
jb 0x37906
incl (%rsi)
movq %r14, %rdi
callq 0x22b53
jmp 0x37929
movq 0xa0(%rbx), %rax
orq %rcx, %rsi
cmpl $-0x9, %edx
jb 0x37921
incl (%rsi)
movq %rsi, -0x10(%rax)
movq %rdx, -0x8(%rax)
movq %r14, %rdi
movq %rbx, %rsi
callq 0x55b1a
movl $0x3, %edx
xorl %eax, %eax
addq $0x8, %rsp
popq %rbx
popq %r14
retq
| js_async_function_resolve_call:
push r14
push rbx
push rax
mov r14, rdi
mov rbx, [rsi+30h]
movzx eax, word ptr [rsi+6]
add eax, 0FFFFFFCBh
test r9d, r9d
jle short loc_378EC
mov rcx, [rsp+18h+arg_0]
mov rdi, [rcx]
mov rdx, [rcx+8]
mov rsi, 0FFFFFFFF00000000h
and rsi, rdi
mov ecx, edi
jmp short loc_378F5
loc_378EC:
mov edx, 3
xor ecx, ecx
xor esi, esi
loc_378F5:
mov [rbx+54h], eax
test eax, eax
jz short loc_37910
or rsi, rcx
cmp edx, 0FFFFFFF7h
jb short loc_37906
inc dword ptr [rsi]
loc_37906:
mov rdi, r14
call JS_Throw
jmp short loc_37929
loc_37910:
mov rax, [rbx+0A0h]
or rsi, rcx
cmp edx, 0FFFFFFF7h
jb short loc_37921
inc dword ptr [rsi]
loc_37921:
mov [rax-10h], rsi
mov [rax-8], rdx
loc_37929:
mov rdi, r14
mov rsi, rbx
call js_async_function_resume
mov edx, 3
xor eax, eax
add rsp, 8
pop rbx
pop r14
retn
| long long js_async_function_resolve_call(
long long a1,
long long a2,
long long a3,
long long a4,
long long a5,
int a6,
_QWORD *a7)
{
long long v7; // rbx
int v8; // eax
long long v9; // rdx
unsigned long long v10; // rsi
long long v11; // rcx
_DWORD *v12; // rsi
long long v13; // rax
_DWORD *v14; // rsi
v7 = *(_QWORD *)(a2 + 48);
v8 = *(unsigned __int16 *)(a2 + 6) - 53;
if ( a6 <= 0 )
{
v9 = 3LL;
v11 = 0LL;
v10 = 0LL;
}
else
{
v9 = a7[1];
v10 = *a7 & 0xFFFFFFFF00000000LL;
v11 = (unsigned int)*a7;
}
*(_DWORD *)(v7 + 84) = v8;
if ( v8 )
{
v12 = (_DWORD *)(v11 | v10);
if ( (unsigned int)v9 >= 0xFFFFFFF7 )
++*v12;
JS_Throw(a1, (long long)v12, v9);
}
else
{
v13 = *(_QWORD *)(v7 + 160);
v14 = (_DWORD *)(v11 | v10);
if ( (unsigned int)v9 >= 0xFFFFFFF7 )
++*v14;
*(_QWORD *)(v13 - 16) = v14;
*(_QWORD *)(v13 - 8) = v9;
}
js_async_function_resume(a1, v7, v9);
return 0LL;
}
| js_async_function_resolve_call:
PUSH R14
PUSH RBX
PUSH RAX
MOV R14,RDI
MOV RBX,qword ptr [RSI + 0x30]
MOVZX EAX,word ptr [RSI + 0x6]
ADD EAX,-0x35
TEST R9D,R9D
JLE 0x001378ec
MOV RCX,qword ptr [RSP + 0x20]
MOV RDI,qword ptr [RCX]
MOV RDX,qword ptr [RCX + 0x8]
MOV RSI,-0x100000000
AND RSI,RDI
MOV ECX,EDI
JMP 0x001378f5
LAB_001378ec:
MOV EDX,0x3
XOR ECX,ECX
XOR ESI,ESI
LAB_001378f5:
MOV dword ptr [RBX + 0x54],EAX
TEST EAX,EAX
JZ 0x00137910
OR RSI,RCX
CMP EDX,-0x9
JC 0x00137906
INC dword ptr [RSI]
LAB_00137906:
MOV RDI,R14
CALL 0x00122b53
JMP 0x00137929
LAB_00137910:
MOV RAX,qword ptr [RBX + 0xa0]
OR RSI,RCX
CMP EDX,-0x9
JC 0x00137921
INC dword ptr [RSI]
LAB_00137921:
MOV qword ptr [RAX + -0x10],RSI
MOV qword ptr [RAX + -0x8],RDX
LAB_00137929:
MOV RDI,R14
MOV RSI,RBX
CALL 0x00155b1a
MOV EDX,0x3
XOR EAX,EAX
ADD RSP,0x8
POP RBX
POP R14
RET
|
int1 [16] js_async_function_resolve_call(int8 param_1,long param_2)
{
long lVar1;
long lVar2;
int iVar3;
ulong uVar4;
ulong uVar5;
ulong uVar6;
int *piVar7;
int in_R9D;
ulong *in_stack_00000008;
lVar1 = *(long *)(param_2 + 0x30);
iVar3 = *(ushort *)(param_2 + 6) - 0x35;
if (in_R9D < 1) {
uVar5 = 3;
uVar4 = 0;
uVar6 = 0;
}
else {
uVar5 = in_stack_00000008[1];
uVar6 = *in_stack_00000008 & 0xffffffff00000000;
uVar4 = *in_stack_00000008 & 0xffffffff;
}
*(int *)(lVar1 + 0x54) = iVar3;
if (iVar3 == 0) {
lVar2 = *(long *)(lVar1 + 0xa0);
piVar7 = (int *)(uVar6 | uVar4);
if (0xfffffff6 < (uint)uVar5) {
*piVar7 = *piVar7 + 1;
}
*(int **)(lVar2 + -0x10) = piVar7;
*(ulong *)(lVar2 + -8) = uVar5;
}
else {
if (0xfffffff6 < (uint)uVar5) {
*(int *)(uVar6 | uVar4) = *(int *)(uVar6 | uVar4) + 1;
}
JS_Throw(param_1);
}
js_async_function_resume(param_1,lVar1);
return ZEXT816(3) << 0x40;
}
|
|
4,406 | google::protobuf::(anonymous namespace)::FieldValuePrinterWrapper::PrintString(std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>> const&, google::protobuf::TextFormat::BaseTextGenerator*) const | aimrt_mujoco_sim/_deps/protobuf-src/src/google/protobuf/text_format.cc | void PrintString(const std::string& val,
TextFormat::BaseTextGenerator* generator) const override {
generator->PrintString(delegate_->PrintString(val));
} | O3 | cpp | google::protobuf::(anonymous namespace)::FieldValuePrinterWrapper::PrintString(std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>> const&, google::protobuf::TextFormat::BaseTextGenerator*) const:
pushq %r14
pushq %rbx
subq $0x28, %rsp
movq %rdx, %rbx
movq %rsi, %rdx
movq 0x8(%rdi), %rsi
movq (%rsi), %rax
leaq 0x8(%rsp), %r14
movq %r14, %rdi
callq *0x48(%rax)
movq (%r14), %rsi
movq 0x8(%r14), %rdx
movq (%rbx), %rax
movq %rbx, %rdi
callq *0x28(%rax)
leaq 0x18(%rsp), %rax
movq -0x10(%rax), %rdi
cmpq %rax, %rdi
je 0x801fe
callq 0xf330
addq $0x28, %rsp
popq %rbx
popq %r14
retq
movq %rax, %rbx
leaq 0x18(%rsp), %rax
movq -0x10(%rax), %rdi
cmpq %rax, %rdi
je 0x8021c
callq 0xf330
movq %rbx, %rdi
callq 0xf570
| _ZNK6google8protobuf12_GLOBAL__N_124FieldValuePrinterWrapper11PrintStringERKNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEPNS0_10TextFormat17BaseTextGeneratorE:
push r14
push rbx
sub rsp, 28h
mov rbx, rdx
mov rdx, rsi
mov rsi, [rdi+8]
mov rax, [rsi]
lea r14, [rsp+38h+var_30]
mov rdi, r14
call qword ptr [rax+48h]
mov rsi, [r14]
mov rdx, [r14+8]
mov rax, [rbx]
mov rdi, rbx
call qword ptr [rax+28h]
lea rax, [rsp+38h+var_20]
mov rdi, [rax-10h]; void *
cmp rdi, rax
jz short loc_801FE
call __ZdlPv; operator delete(void *)
loc_801FE:
add rsp, 28h
pop rbx
pop r14
retn
mov rbx, rax
lea rax, [rsp+arg_10]
mov rdi, [rax-10h]; void *
cmp rdi, rax
jz short loc_8021C
call __ZdlPv; operator delete(void *)
loc_8021C:
mov rdi, rbx
call __Unwind_Resume
| void google::protobuf::`anonymous namespace'::FieldValuePrinterWrapper::PrintString(
long long a1,
long long a2,
long long a3)
{
void *v4[2]; // [rsp+8h] [rbp-30h] BYREF
char v5; // [rsp+18h] [rbp-20h] BYREF
(*(void ( **)(void **, _QWORD, long long))(**(_QWORD **)(a1 + 8) + 72LL))(v4, *(_QWORD *)(a1 + 8), a2);
(*(void ( **)(long long, void *, void *))(*(_QWORD *)a3 + 40LL))(a3, v4[0], v4[1]);
if ( v4[0] != &v5 )
operator delete(v4[0]);
}
| PrintString:
PUSH R14
PUSH RBX
SUB RSP,0x28
MOV RBX,RDX
MOV RDX,RSI
MOV RSI,qword ptr [RDI + 0x8]
MOV RAX,qword ptr [RSI]
LEA R14,[RSP + 0x8]
MOV RDI,R14
CALL qword ptr [RAX + 0x48]
MOV RSI,qword ptr [R14]
MOV RDX,qword ptr [R14 + 0x8]
MOV RAX,qword ptr [RBX]
LAB_001801e5:
MOV RDI,RBX
CALL qword ptr [RAX + 0x28]
LAB_001801eb:
LEA RAX,[RSP + 0x18]
MOV RDI,qword ptr [RAX + -0x10]
CMP RDI,RAX
JZ 0x001801fe
CALL 0x0010f330
LAB_001801fe:
ADD RSP,0x28
POP RBX
POP R14
RET
|
/* google::protobuf::(anonymous
namespace)::FieldValuePrinterWrapper::PrintString(std::__cxx11::string const&,
google::protobuf::TextFormat::BaseTextGenerator*) const */
void __thiscall
google::protobuf::(anonymous_namespace)::FieldValuePrinterWrapper::PrintString
(FieldValuePrinterWrapper *this,string *param_1,BaseTextGenerator *param_2)
{
int1 *local_30;
int8 local_28;
int1 local_20 [16];
(**(code **)(**(long **)(this + 8) + 0x48))(&local_30,*(long **)(this + 8),param_1);
/* try { // try from 001801e5 to 001801ea has its CatchHandler @ 00180206 */
(**(code **)(*(long *)param_2 + 0x28))(param_2,local_30,local_28);
if (local_30 != local_20) {
operator_delete(local_30);
}
return;
}
|
|
4,407 | end_simple_key_cache | eloqsql/mysys/mf_keycache.c | static
void end_simple_key_cache(SIMPLE_KEY_CACHE_CB *keycache, my_bool cleanup)
{
DBUG_ENTER("end_simple_key_cache");
DBUG_PRINT("enter", ("key_cache: %p", keycache));
if (!keycache->key_cache_inited)
DBUG_VOID_RETURN;
if (keycache->disk_blocks > 0)
{
if (keycache->block_mem)
{
my_large_free((uchar*) keycache->block_mem, keycache->allocated_mem_size);
keycache->block_mem= NULL;
my_free(keycache->block_root);
keycache->block_root= NULL;
}
keycache->disk_blocks= -1;
/* Reset blocks_changed to be safe if flush_all_key_blocks is called */
keycache->blocks_changed= 0;
}
DBUG_PRINT("status", ("used: %lu changed: %lu w_requests: %lu "
"writes: %lu r_requests: %lu reads: %lu",
keycache->blocks_used, keycache->global_blocks_changed,
(ulong) keycache->global_cache_w_requests,
(ulong) keycache->global_cache_write,
(ulong) keycache->global_cache_r_requests,
(ulong) keycache->global_cache_read));
/*
Reset these values to be able to detect a disabled key cache.
See Bug#44068 (RESTORE can disable the MyISAM Key Cache).
*/
keycache->blocks_used= 0;
keycache->blocks_unused= 0;
if (cleanup)
{
mysql_mutex_destroy(&keycache->cache_lock);
keycache->key_cache_inited= keycache->can_be_used= 0;
KEYCACHE_DEBUG_CLOSE;
}
DBUG_VOID_RETURN;
} | O3 | c | end_simple_key_cache:
cmpb $0x0, (%rdi)
je 0x9bb32
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %rbx
pushq %rax
movl %esi, %r14d
movq %rdi, %rbx
cmpl $0x0, 0x48(%rdi)
jle 0x9bae2
movq 0xa8(%rbx), %rdi
testq %rdi, %rdi
je 0x9bad3
movq 0x10(%rbx), %rsi
callq 0xace33
xorl %r15d, %r15d
movq %r15, 0xa8(%rbx)
movq 0xa0(%rbx), %rdi
callq 0xa4926
movq %r15, 0xa0(%rbx)
movl $0xffffffff, 0x48(%rbx) # imm = 0xFFFFFFFF
movq $0x0, 0x60(%rbx)
xorps %xmm0, %xmm0
movups %xmm0, 0x50(%rbx)
testb %r14b, %r14b
je 0x9bb28
leaq 0xc0(%rbx), %r14
movq 0x100(%rbx), %rdi
testq %rdi, %rdi
je 0x9bb19
leaq 0x2f08c0(%rip), %rax # 0x38c3c8
movq (%rax), %rax
callq *0x48(%rax)
movq $0x0, 0x100(%rbx)
movq %r14, %rdi
callq 0x2a0e0
xorl %eax, %eax
movb %al, 0x3(%rbx)
movb %al, (%rbx)
addq $0x8, %rsp
popq %rbx
popq %r14
popq %r15
popq %rbp
retq
| end_simple_key_cache:
cmp byte ptr [rdi], 0
jz locret_9BB32
push rbp
mov rbp, rsp
push r15
push r14
push rbx
push rax
mov r14d, esi
mov rbx, rdi
cmp dword ptr [rdi+48h], 0
jle short loc_9BAE2
mov rdi, [rbx+0A8h]
test rdi, rdi
jz short loc_9BAD3
mov rsi, [rbx+10h]
call my_large_free
xor r15d, r15d
mov [rbx+0A8h], r15
mov rdi, [rbx+0A0h]
call my_free
mov [rbx+0A0h], r15
loc_9BAD3:
mov dword ptr [rbx+48h], 0FFFFFFFFh
mov qword ptr [rbx+60h], 0
loc_9BAE2:
xorps xmm0, xmm0
movups xmmword ptr [rbx+50h], xmm0
test r14b, r14b
jz short loc_9BB28
lea r14, [rbx+0C0h]
mov rdi, [rbx+100h]
test rdi, rdi
jz short loc_9BB19
lea rax, PSI_server
mov rax, [rax]
call qword ptr [rax+48h]
mov qword ptr [rbx+100h], 0
loc_9BB19:
mov rdi, r14
call _pthread_mutex_destroy
xor eax, eax
mov [rbx+3], al
mov [rbx], al
loc_9BB28:
add rsp, 8
pop rbx
pop r14
pop r15
pop rbp
locret_9BB32:
retn
| long long end_simple_key_cache(long long a1, char a2)
{
long long v3; // rdi
long long result; // rax
long long v5; // rdi
if ( *(_BYTE *)a1 )
{
if ( *(int *)(a1 + 72) > 0 )
{
v3 = *(_QWORD *)(a1 + 168);
if ( v3 )
{
my_large_free(v3, *(_QWORD *)(a1 + 16));
*(_QWORD *)(a1 + 168) = 0LL;
result = my_free(*(_QWORD *)(a1 + 160));
*(_QWORD *)(a1 + 160) = 0LL;
}
*(_DWORD *)(a1 + 72) = -1;
*(_QWORD *)(a1 + 96) = 0LL;
}
*(_OWORD *)(a1 + 80) = 0LL;
if ( a2 )
{
v5 = *(_QWORD *)(a1 + 256);
if ( v5 )
{
((void ( *)(long long))PSI_server[9])(v5);
*(_QWORD *)(a1 + 256) = 0LL;
}
pthread_mutex_destroy(a1 + 192);
result = 0LL;
*(_BYTE *)(a1 + 3) = 0;
*(_BYTE *)a1 = 0;
}
}
return result;
}
| end_simple_key_cache:
CMP byte ptr [RDI],0x0
JZ 0x0019bb32
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH RBX
PUSH RAX
MOV R14D,ESI
MOV RBX,RDI
CMP dword ptr [RDI + 0x48],0x0
JLE 0x0019bae2
MOV RDI,qword ptr [RBX + 0xa8]
TEST RDI,RDI
JZ 0x0019bad3
MOV RSI,qword ptr [RBX + 0x10]
CALL 0x001ace33
XOR R15D,R15D
MOV qword ptr [RBX + 0xa8],R15
MOV RDI,qword ptr [RBX + 0xa0]
CALL 0x001a4926
MOV qword ptr [RBX + 0xa0],R15
LAB_0019bad3:
MOV dword ptr [RBX + 0x48],0xffffffff
MOV qword ptr [RBX + 0x60],0x0
LAB_0019bae2:
XORPS XMM0,XMM0
MOVUPS xmmword ptr [RBX + 0x50],XMM0
TEST R14B,R14B
JZ 0x0019bb28
LEA R14,[RBX + 0xc0]
MOV RDI,qword ptr [RBX + 0x100]
TEST RDI,RDI
JZ 0x0019bb19
LEA RAX,[0x48c3c8]
MOV RAX,qword ptr [RAX]
CALL qword ptr [RAX + 0x48]
MOV qword ptr [RBX + 0x100],0x0
LAB_0019bb19:
MOV RDI,R14
CALL 0x0012a0e0
XOR EAX,EAX
MOV byte ptr [RBX + 0x3],AL
MOV byte ptr [RBX],AL
LAB_0019bb28:
ADD RSP,0x8
POP RBX
POP R14
POP R15
POP RBP
LAB_0019bb32:
RET
|
void end_simple_key_cache(char *param_1,char param_2)
{
if (*param_1 != '\0') {
if (0 < *(int *)(param_1 + 0x48)) {
if (*(long *)(param_1 + 0xa8) != 0) {
my_large_free(*(long *)(param_1 + 0xa8),*(int8 *)(param_1 + 0x10));
param_1[0xa8] = '\0';
param_1[0xa9] = '\0';
param_1[0xaa] = '\0';
param_1[0xab] = '\0';
param_1[0xac] = '\0';
param_1[0xad] = '\0';
param_1[0xae] = '\0';
param_1[0xaf] = '\0';
my_free(*(int8 *)(param_1 + 0xa0));
param_1[0xa0] = '\0';
param_1[0xa1] = '\0';
param_1[0xa2] = '\0';
param_1[0xa3] = '\0';
param_1[0xa4] = '\0';
param_1[0xa5] = '\0';
param_1[0xa6] = '\0';
param_1[0xa7] = '\0';
}
param_1[0x48] = -1;
param_1[0x49] = -1;
param_1[0x4a] = -1;
param_1[0x4b] = -1;
param_1[0x60] = '\0';
param_1[0x61] = '\0';
param_1[0x62] = '\0';
param_1[99] = '\0';
param_1[100] = '\0';
param_1[0x65] = '\0';
param_1[0x66] = '\0';
param_1[0x67] = '\0';
}
param_1[0x50] = '\0';
param_1[0x51] = '\0';
param_1[0x52] = '\0';
param_1[0x53] = '\0';
param_1[0x54] = '\0';
param_1[0x55] = '\0';
param_1[0x56] = '\0';
param_1[0x57] = '\0';
param_1[0x58] = '\0';
param_1[0x59] = '\0';
param_1[0x5a] = '\0';
param_1[0x5b] = '\0';
param_1[0x5c] = '\0';
param_1[0x5d] = '\0';
param_1[0x5e] = '\0';
param_1[0x5f] = '\0';
if (param_2 != '\0') {
if (*(long *)(param_1 + 0x100) != 0) {
(**(code **)(PSI_server + 0x48))();
param_1[0x100] = '\0';
param_1[0x101] = '\0';
param_1[0x102] = '\0';
param_1[0x103] = '\0';
param_1[0x104] = '\0';
param_1[0x105] = '\0';
param_1[0x106] = '\0';
param_1[0x107] = '\0';
}
pthread_mutex_destroy((pthread_mutex_t *)(param_1 + 0xc0));
param_1[3] = '\0';
*param_1 = '\0';
}
}
return;
}
|
|
4,408 | ModbusClientPort::getCommEventLog(ModbusObject*, unsigned char, unsigned short*, unsigned short*, unsigned short*, unsigned char*, unsigned char*) | serhmarch[P]ModbusBridge/modbus/src/ModbusClientPort.cpp | Modbus::StatusCode ModbusClientPort::getCommEventLog(ModbusObject *client, uint8_t unit, uint16_t *status, uint16_t *eventCount, uint16_t *messageCount, uint8_t *eventBuffSize, uint8_t *eventBuff)
{
ModbusClientPortPrivate *d = d_ModbusClientPort(d_ptr);
const uint16_t szBuff = 300;
uint8_t buff[szBuff], byteCount;
Modbus::StatusCode r;
uint16_t szOutBuff;
ModbusClientPort::RequestStatus rstatus = this->getRequestStatus(client);
switch (rstatus)
{
case ModbusClientPort::Enable:
// no need break
case ModbusClientPort::Process:
r = this->request(unit, // unit ID
MBF_GET_COMM_EVENT_LOG, // modbus function number
buff, // in-out buffer
0, // count of input data bytes
szBuff, // maximum size of buffer
&szOutBuff); // count of output data bytes
if ((r != Status_Good) || d->isBroadcast())
return r;
if (szOutBuff < 7)
return d->setError(Status_BadNotCorrectResponse, StringLiteral("Incorrect received data size"));
byteCount = buff[0];
if (szOutBuff != (byteCount+1))
return d->setError(Status_BadNotCorrectResponse, StringLiteral("'ByteCount' doesn't match with received data size"));
*status = buff[2] | (buff[1] << 8);
*eventCount = buff[4] | (buff[3] << 8);
*messageCount = buff[6] | (buff[5] << 8);
byteCount = byteCount-6;
if (byteCount > GET_COMM_EVENT_LOG_MAX)
return d->setError(Status_BadNotCorrectResponse, StringLiteral("'EventCount' is bigger than 64"));
*eventBuffSize = byteCount;
memcpy(eventBuff, &buff[7], byteCount);
return d->setGoodStatus();
default:
return Status_Processing;
}
} | O3 | cpp | ModbusClientPort::getCommEventLog(ModbusObject*, unsigned char, unsigned short*, unsigned short*, unsigned short*, unsigned char*, unsigned char*):
pushq %rbp
pushq %r15
pushq %r14
pushq %r12
pushq %rbx
subq $0x160, %rsp # imm = 0x160
movq %r9, %r14
movq %r8, %r15
movq %rcx, %r12
movq 0x8(%rdi), %rbx
movq 0x78(%rbx), %rax
testq %rax, %rax
je 0xbb6f
movl $0x80000000, %ebp # imm = 0x80000000
cmpq %rsi, %rax
jne 0xbd1b
jmp 0xbb73
movq %rsi, 0x78(%rbx)
leaq 0xe(%rsp), %rax
movq %rax, (%rsp)
movzbl %dl, %esi
leaq 0x30(%rsp), %rcx
movl $0xc, %edx
xorl %r8d, %r8d
movl $0x12c, %r9d # imm = 0x12C
callq 0xa5b2
movl %eax, %ebp
testl %eax, %eax
jne 0xbd1b
cmpb $0x0, 0x6c(%rbx)
jne 0xbbb7
testb $0x1, 0x1c4(%rbx)
je 0xbbb7
xorl %ebp, %ebp
jmp 0xbd1b
movzwl 0xe(%rsp), %ecx
cmpl $0x6, %ecx
ja 0xbc15
leaq 0x20(%rsp), %r14
movq %r14, -0x10(%r14)
leaq 0xd249(%rip), %rsi # 0x18e1a
leaq 0xd25e(%rip), %rdx # 0x18e36
leaq 0x10(%rsp), %rdi
callq 0x92a8
movabsq $0x100010301000103, %rax # imm = 0x100010301000103
movq %rax, 0x184(%rbx)
leaq 0x190(%rbx), %rdi
leaq 0x10(%rsp), %rsi
callq 0x51c0
movb $0x0, 0x1b0(%rbx)
callq 0xfb5a
jmp 0xbcf8
movzbl 0x30(%rsp), %eax
leal 0x1(%rax), %edx
cmpl %ecx, %edx
jne 0xbca9
movzwl 0x31(%rsp), %ecx
rolw $0x8, %cx
movw %cx, (%r12)
movzwl 0x33(%rsp), %ecx
rolw $0x8, %cx
movw %cx, (%r15)
movzwl 0x35(%rsp), %ecx
rolw $0x8, %cx
movw %cx, (%r14)
addb $-0x6, %al
cmpb $0x41, %al
jb 0xbd2d
leaq 0x20(%rsp), %r14
movq %r14, -0x10(%r14)
leaq 0xd3e7(%rip), %rsi # 0x1904e
leaq 0xd3fe(%rip), %rdx # 0x1906c
leaq 0x10(%rsp), %rdi
callq 0x92a8
leaq 0x10(%rsp), %rdx
movq %rbx, %rdi
movl $0x1000103, %esi # imm = 0x1000103
callq 0xd950
movl %eax, %ebp
movq 0x10(%rsp), %rdi
cmpq %r14, %rdi
je 0xbd1b
movq 0x20(%rsp), %rsi
incq %rsi
callq 0x5310
jmp 0xbd1b
leaq 0x20(%rsp), %r14
movq %r14, -0x10(%r14)
leaq 0xd363(%rip), %rsi # 0x1901c
leaq 0xd38d(%rip), %rdx # 0x1904d
leaq 0x10(%rsp), %rdi
callq 0x92a8
movabsq $0x100010301000103, %rax # imm = 0x100010301000103
movq %rax, 0x184(%rbx)
leaq 0x190(%rbx), %rdi
leaq 0x10(%rsp), %rsi
callq 0x51c0
movb $0x0, 0x1b0(%rbx)
callq 0xfb5a
movq %rax, 0x1b8(%rbx)
movq 0x10(%rsp), %rdi
cmpq %r14, %rdi
je 0xbd16
movq 0x20(%rsp), %rsi
incq %rsi
callq 0x5310
movl $0x1000103, %ebp # imm = 0x1000103
movl %ebp, %eax
addq $0x160, %rsp # imm = 0x160
popq %rbx
popq %r12
popq %r14
popq %r15
popq %rbp
retq
movq 0x198(%rsp), %rdi
movq 0x190(%rsp), %rcx
movb %al, (%rcx)
leaq 0x37(%rsp), %rsi
movzbl %al, %edx
callq 0x52a0
movl $0x0, 0x184(%rbx)
jmp 0xbbb0
jmp 0xbd68
jmp 0xbd63
jmp 0xbd63
jmp 0xbd68
movq %rax, %rbx
jmp 0xbd82
movq %rax, %rbx
movq 0x10(%rsp), %rdi
cmpq %r14, %rdi
je 0xbd82
movq 0x20(%rsp), %rsi
incq %rsi
callq 0x5310
movq %rbx, %rdi
callq 0x5550
| _ZN16ModbusClientPort15getCommEventLogEP12ModbusObjecthPtS2_S2_PhS3_:
push rbp
push r15
push r14
push r12
push rbx
sub rsp, 160h
mov r14, r9
mov r15, r8
mov r12, rcx
mov rbx, [rdi+8]
mov rax, [rbx+78h]
test rax, rax
jz short loc_BB6F
mov ebp, 80000000h
cmp rax, rsi
jnz loc_BD1B
jmp short loc_BB73
loc_BB6F:
mov [rbx+78h], rsi
loc_BB73:
lea rax, [rsp+188h+var_17A]
mov [rsp+188h+var_188], rax; unsigned __int16 *
movzx esi, dl; unsigned __int8
lea rcx, [rsp+188h+var_158]; unsigned __int8 *
mov edx, 0Ch; unsigned __int8
xor r8d, r8d; unsigned __int16
mov r9d, 12Ch; unsigned __int16
call _ZN16ModbusClientPort7requestEhhPhttPt; ModbusClientPort::request(uchar,uchar,uchar *,ushort,ushort,ushort *)
mov ebp, eax
test eax, eax
jnz loc_BD1B
cmp byte ptr [rbx+6Ch], 0
jnz short loc_BBB7
test byte ptr [rbx+1C4h], 1
jz short loc_BBB7
loc_BBB0:
xor ebp, ebp
jmp loc_BD1B
loc_BBB7:
movzx ecx, [rsp+188h+var_17A]
cmp ecx, 6
ja short loc_BC15
lea r14, [rsp+188h+var_168]
mov [r14-10h], r14
lea rsi, aIncorrectRecei; "Incorrect received data size"
lea rdx, aIncorrectRecei+1Ch; ""
lea rdi, [rsp+188h+var_178]
call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE12_M_constructIPKcEEvT_S8_St20forward_iterator_tag; std::string::_M_construct<char const*>(char const*,char const*,std::forward_iterator_tag)
mov rax, 100010301000103h
mov [rbx+184h], rax
lea rdi, [rbx+190h]
lea rsi, [rsp+188h+var_178]
call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE9_M_assignERKS4_; std::string::_M_assign(std::string const&)
mov byte ptr [rbx+1B0h], 0
call currentTimestamp
jmp loc_BCF8
loc_BC15:
movzx eax, [rsp+188h+var_158]
lea edx, [rax+1]
cmp edx, ecx
jnz loc_BCA9
movzx ecx, [rsp+188h+var_157]
rol cx, 8
mov [r12], cx
movzx ecx, [rsp+188h+var_155]
rol cx, 8
mov [r15], cx
movzx ecx, [rsp+188h+var_153]
rol cx, 8
mov [r14], cx
add al, 0FAh
cmp al, 41h ; 'A'
jb loc_BD2D
lea r14, [rsp+188h+var_168]
mov [r14-10h], r14
lea rsi, aEventcountIsBi; "'EventCount' is bigger than 64"
lea rdx, aEventcountIsBi+1Eh; ""
lea rdi, [rsp+188h+var_178]
call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE12_M_constructIPKcEEvT_S8_St20forward_iterator_tag; std::string::_M_construct<char const*>(char const*,char const*,std::forward_iterator_tag)
lea rdx, [rsp+188h+var_178]
mov rdi, rbx
mov esi, 1000103h
call _ZN23ModbusClientPortPrivate8setErrorEN6Modbus10StatusCodeEONSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE; ModbusClientPortPrivate::setError(Modbus::StatusCode,std::string &&)
mov ebp, eax
mov rdi, [rsp+188h+var_178]; void *
cmp rdi, r14
jz loc_BD1B
mov rsi, [rsp+188h+var_168]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
jmp short loc_BD1B
loc_BCA9:
lea r14, [rsp+188h+var_168]
mov [r14-10h], r14
lea rsi, aBytecountDoesn; "'ByteCount' doesn't match with received"...
lea rdx, aBytecountDoesn+31h; ""
lea rdi, [rsp+188h+var_178]
call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE12_M_constructIPKcEEvT_S8_St20forward_iterator_tag; std::string::_M_construct<char const*>(char const*,char const*,std::forward_iterator_tag)
mov rax, 100010301000103h
mov [rbx+184h], rax
lea rdi, [rbx+190h]
lea rsi, [rsp+188h+var_178]
call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE9_M_assignERKS4_; std::string::_M_assign(std::string const&)
mov byte ptr [rbx+1B0h], 0
call currentTimestamp
loc_BCF8:
mov [rbx+1B8h], rax
mov rdi, [rsp+188h+var_178]; void *
cmp rdi, r14
jz short loc_BD16
mov rsi, [rsp+188h+var_168]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_BD16:
mov ebp, 1000103h
loc_BD1B:
mov eax, ebp
add rsp, 160h
pop rbx
pop r12
pop r14
pop r15
pop rbp
retn
loc_BD2D:
mov rdi, [rsp+188h+arg_8]
mov rcx, [rsp+188h+arg_0]
mov [rcx], al
lea rsi, [rsp+188h+var_151]
movzx edx, al
call _memcpy
mov dword ptr [rbx+184h], 0
jmp loc_BBB0
jmp short loc_BD68
jmp short loc_BD63
jmp short loc_BD63
jmp short loc_BD68
loc_BD63:
mov rbx, rax
jmp short loc_BD82
loc_BD68:
mov rbx, rax
mov rdi, [rsp+arg_8]; void *
cmp rdi, r14
jz short loc_BD82
mov rsi, [rsp+arg_18]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_BD82:
mov rdi, rbx
call __Unwind_Resume
| long long ModbusClientPort::getCommEventLog(
ModbusClientPort *this,
ModbusObject *a2,
unsigned __int8 a3,
unsigned __int16 *a4,
unsigned __int16 *a5,
unsigned __int16 *a6,
unsigned __int8 *a7,
unsigned __int8 *a8)
{
long long v11; // rbx
ModbusObject *v12; // rax
unsigned int v13; // ebp
long long v14; // rax
unsigned __int8 v15; // al
unsigned __int8 v16; // al
unsigned __int16 v18; // [rsp+Eh] [rbp-17Ah] BYREF
void *v19[2]; // [rsp+10h] [rbp-178h] BYREF
_QWORD v20[2]; // [rsp+20h] [rbp-168h] BYREF
unsigned __int8 v21; // [rsp+30h] [rbp-158h] BYREF
__int16 v22; // [rsp+31h] [rbp-157h]
__int16 v23; // [rsp+33h] [rbp-155h]
__int16 v24; // [rsp+35h] [rbp-153h]
_BYTE v25[337]; // [rsp+37h] [rbp-151h] BYREF
v11 = *((_QWORD *)this + 1);
v12 = *(ModbusObject **)(v11 + 120);
if ( v12 )
{
v13 = 0x80000000;
if ( v12 != a2 )
return v13;
}
else
{
*(_QWORD *)(v11 + 120) = a2;
}
v13 = ModbusClientPort::request(this, a3, 0xCu, &v21, 0, 0x12Cu, &v18);
if ( v13 )
return v13;
if ( !*(_BYTE *)(v11 + 108) && (*(_BYTE *)(v11 + 452) & 1) != 0 )
return 0;
if ( v18 <= 6u )
{
v19[0] = v20;
std::string::_M_construct<char const*>((long long)v19, "Incorrect received data size", (long long)"");
*(_QWORD *)(v11 + 388) = 0x100010301000103LL;
std::string::_M_assign(v11 + 400, v19);
*(_BYTE *)(v11 + 432) = 0;
v14 = currentTimestamp(v11 + 400, v19);
LABEL_16:
*(_QWORD *)(v11 + 440) = v14;
if ( v19[0] != v20 )
operator delete(v19[0], v20[0] + 1LL);
return 16777475;
}
v15 = v21;
if ( v21 + 1 != v18 )
{
v19[0] = v20;
std::string::_M_construct<char const*>(
(long long)v19,
"'ByteCount' doesn't match with received data size",
(long long)"");
*(_QWORD *)(v11 + 388) = 0x100010301000103LL;
std::string::_M_assign(v11 + 400, v19);
*(_BYTE *)(v11 + 432) = 0;
v14 = currentTimestamp(v11 + 400, v19);
goto LABEL_16;
}
*a4 = __ROL2__(v22, 8);
*a5 = __ROL2__(v23, 8);
*a6 = __ROL2__(v24, 8);
v16 = v15 - 6;
if ( v16 < 0x41u )
{
*a7 = v16;
memcpy(a8, v25, v16);
*(_DWORD *)(v11 + 388) = 0;
return 0;
}
v19[0] = v20;
std::string::_M_construct<char const*>((long long)v19, "'EventCount' is bigger than 64", (long long)"");
v13 = ModbusClientPortPrivate::setError(v11, 16777475LL, v19);
if ( v19[0] != v20 )
operator delete(v19[0], v20[0] + 1LL);
return v13;
}
| getCommEventLog:
PUSH RBP
PUSH R15
PUSH R14
PUSH R12
PUSH RBX
SUB RSP,0x160
MOV R14,R9
MOV R15,R8
MOV R12,RCX
MOV RBX,qword ptr [RDI + 0x8]
MOV RAX,qword ptr [RBX + 0x78]
TEST RAX,RAX
JZ 0x0010bb6f
MOV EBP,0x80000000
CMP RAX,RSI
JNZ 0x0010bd1b
JMP 0x0010bb73
LAB_0010bb6f:
MOV qword ptr [RBX + 0x78],RSI
LAB_0010bb73:
LEA RAX,[RSP + 0xe]
MOV qword ptr [RSP],RAX
MOVZX ESI,DL
LEA RCX,[RSP + 0x30]
MOV EDX,0xc
XOR R8D,R8D
MOV R9D,0x12c
CALL 0x0010a5b2
MOV EBP,EAX
TEST EAX,EAX
JNZ 0x0010bd1b
CMP byte ptr [RBX + 0x6c],0x0
JNZ 0x0010bbb7
TEST byte ptr [RBX + 0x1c4],0x1
JZ 0x0010bbb7
LAB_0010bbb0:
XOR EBP,EBP
JMP 0x0010bd1b
LAB_0010bbb7:
MOVZX ECX,word ptr [RSP + 0xe]
CMP ECX,0x6
JA 0x0010bc15
LEA R14,[RSP + 0x20]
MOV qword ptr [R14 + -0x10],R14
LAB_0010bbca:
LEA RSI,[0x118e1a]
LEA RDX,[0x118e36]
LEA RDI,[RSP + 0x10]
CALL 0x001092a8
MOV RAX,0x100010301000103
MOV qword ptr [RBX + 0x184],RAX
LEA RDI,[RBX + 0x190]
LAB_0010bbfa:
LEA RSI,[RSP + 0x10]
CALL 0x001051c0
MOV byte ptr [RBX + 0x1b0],0x0
CALL 0x0010fb5a
JMP 0x0010bcf8
LAB_0010bc15:
MOVZX EAX,byte ptr [RSP + 0x30]
LEA EDX,[RAX + 0x1]
CMP EDX,ECX
JNZ 0x0010bca9
MOVZX ECX,word ptr [RSP + 0x31]
ROL CX,0x8
MOV word ptr [R12],CX
MOVZX ECX,word ptr [RSP + 0x33]
ROL CX,0x8
MOV word ptr [R15],CX
MOVZX ECX,word ptr [RSP + 0x35]
ROL CX,0x8
MOV word ptr [R14],CX
ADD AL,0xfa
CMP AL,0x41
JC 0x0010bd2d
LEA R14,[RSP + 0x20]
MOV qword ptr [R14 + -0x10],R14
LAB_0010bc60:
LEA RSI,[0x11904e]
LEA RDX,[0x11906c]
LEA RDI,[RSP + 0x10]
CALL 0x001092a8
LAB_0010bc78:
LEA RDX,[RSP + 0x10]
MOV RDI,RBX
MOV ESI,0x1000103
CALL 0x0010d950
MOV EBP,EAX
MOV RDI,qword ptr [RSP + 0x10]
CMP RDI,R14
JZ 0x0010bd1b
MOV RSI,qword ptr [RSP + 0x20]
INC RSI
CALL 0x00105310
JMP 0x0010bd1b
LAB_0010bca9:
LEA R14,[RSP + 0x20]
MOV qword ptr [R14 + -0x10],R14
LAB_0010bcb2:
LEA RSI,[0x11901c]
LEA RDX,[0x11904d]
LEA RDI,[RSP + 0x10]
CALL 0x001092a8
MOV RAX,0x100010301000103
MOV qword ptr [RBX + 0x184],RAX
LEA RDI,[RBX + 0x190]
LAB_0010bce2:
LEA RSI,[RSP + 0x10]
CALL 0x001051c0
MOV byte ptr [RBX + 0x1b0],0x0
CALL 0x0010fb5a
LAB_0010bcf8:
MOV qword ptr [RBX + 0x1b8],RAX
MOV RDI,qword ptr [RSP + 0x10]
CMP RDI,R14
JZ 0x0010bd16
MOV RSI,qword ptr [RSP + 0x20]
INC RSI
CALL 0x00105310
LAB_0010bd16:
MOV EBP,0x1000103
LAB_0010bd1b:
MOV EAX,EBP
ADD RSP,0x160
POP RBX
POP R12
POP R14
POP R15
POP RBP
RET
LAB_0010bd2d:
MOV RDI,qword ptr [RSP + 0x198]
MOV RCX,qword ptr [RSP + 0x190]
MOV byte ptr [RCX],AL
LEA RSI,[RSP + 0x37]
MOVZX EDX,AL
CALL 0x001052a0
MOV dword ptr [RBX + 0x184],0x0
JMP 0x0010bbb0
|
/* ModbusClientPort::getCommEventLog(ModbusObject*, unsigned char, unsigned short*, unsigned short*,
unsigned short*, unsigned char*, unsigned char*) */
int __thiscall
ModbusClientPort::getCommEventLog
(ModbusClientPort *this,ModbusObject *param_1,uchar param_2,ushort *param_3,
ushort *param_4,ushort *param_5,uchar *param_6,uchar *param_7)
{
long lVar1;
int iVar2;
int8 uVar3;
ushort local_17a;
long *local_178 [2];
long local_168 [2];
byte local_158;
ushort local_157;
ushort local_155;
ushort local_153;
int1 local_151 [297];
lVar1 = *(long *)(this + 8);
if (*(ModbusObject **)(lVar1 + 0x78) == (ModbusObject *)0x0) {
*(ModbusObject **)(lVar1 + 0x78) = param_1;
}
else if (*(ModbusObject **)(lVar1 + 0x78) != param_1) {
return -0x80000000;
}
iVar2 = request(this,param_2,'\f',&local_158,0,300,&local_17a);
if (iVar2 != 0) {
return iVar2;
}
if ((*(char *)(lVar1 + 0x6c) == '\0') && ((*(byte *)(lVar1 + 0x1c4) & 1) != 0)) {
LAB_0010bbb0:
iVar2 = 0;
}
else {
if (local_17a < 7) {
local_178[0] = local_168;
/* try { // try from 0010bbca to 0010bbe1 has its CatchHandler @ 0010bd63 */
std::__cxx11::string::_M_construct<char_const*>(local_178,"Incorrect received data size","");
*(int8 *)(lVar1 + 0x184) = 0x100010301000103;
/* try { // try from 0010bbfa to 0010bc0f has its CatchHandler @ 0010bd68 */
std::__cxx11::string::_M_assign((string *)(lVar1 + 400));
*(int1 *)(lVar1 + 0x1b0) = 0;
uVar3 = currentTimestamp();
}
else {
if ((ushort)(local_158 + 1) == local_17a) {
*param_3 = local_157 << 8 | local_157 >> 8;
*param_4 = local_155 << 8 | local_155 >> 8;
*param_5 = local_153 << 8 | local_153 >> 8;
local_158 = local_158 - 6;
if (0x40 < local_158) {
/* try { // try from 0010bc60 to 0010bc77 has its CatchHandler @ 0010bd5d */
local_178[0] = local_168;
std::__cxx11::string::_M_construct<char_const*>
(local_178,"\'EventCount\' is bigger than 64","");
/* try { // try from 0010bc78 to 0010bc89 has its CatchHandler @ 0010bd5b */
iVar2 = ModbusClientPortPrivate::setError(lVar1,0x1000103,local_178);
if (local_178[0] == local_168) {
return iVar2;
}
operator_delete(local_178[0],local_168[0] + 1);
return iVar2;
}
*param_6 = local_158;
memcpy(param_7,local_151,(ulong)local_158);
*(int4 *)(lVar1 + 0x184) = 0;
goto LAB_0010bbb0;
}
local_178[0] = local_168;
/* try { // try from 0010bcb2 to 0010bcc9 has its CatchHandler @ 0010bd5f */
std::__cxx11::string::_M_construct<char_const*>
(local_178,"\'ByteCount\' doesn\'t match with received data size","");
*(int8 *)(lVar1 + 0x184) = 0x100010301000103;
/* try { // try from 0010bce2 to 0010bcf7 has its CatchHandler @ 0010bd61 */
std::__cxx11::string::_M_assign((string *)(lVar1 + 400));
*(int1 *)(lVar1 + 0x1b0) = 0;
uVar3 = currentTimestamp();
}
*(int8 *)(lVar1 + 0x1b8) = uVar3;
if (local_178[0] != local_168) {
operator_delete(local_178[0],local_168[0] + 1);
}
iVar2 = 0x1000103;
}
return iVar2;
}
|
|
4,409 | CLI::CallForAllHelp::CallForAllHelp() | MikePodsytnik[P]TCRtrie/build_O1/_deps/cli11-src/include/CLI/Error.hpp | CallForAllHelp()
: CallForAllHelp("This should be caught in your main function, see examples", ExitCodes::Success) {} | O1 | cpp | CLI::CallForAllHelp::CallForAllHelp():
pushq %r15
pushq %r14
pushq %rbx
subq $0x20, %rsp
movq %rdi, %rbx
leaq 0x10(%rsp), %r15
movq %r15, -0x10(%r15)
leaq 0x12cab(%rip), %rsi # 0x37997
leaq 0x12cdd(%rip), %rdx # 0x379d0
movq %rsp, %r14
movq %r14, %rdi
callq 0x12040
movq %rbx, %rdi
movq %r14, %rsi
xorl %edx, %edx
callq 0x24dc8
movq (%rsp), %rdi
cmpq %r15, %rdi
je 0x24d21
movq 0x10(%rsp), %rsi
incq %rsi
callq 0x7430
addq $0x20, %rsp
popq %rbx
popq %r14
popq %r15
retq
movq %rax, %rbx
movq (%rsp), %rdi
cmpq %r15, %rdi
je 0x24d44
movq 0x10(%rsp), %rsi
incq %rsi
callq 0x7430
movq %rbx, %rdi
callq 0x7780
| _ZN3CLI14CallForAllHelpC2Ev:
push r15
push r14
push rbx
sub rsp, 20h
mov rbx, rdi
lea r15, [rsp+38h+var_28]
mov [r15-10h], r15
lea rsi, aThisShouldBeCa; "This should be caught in your main func"...
lea rdx, aThisShouldBeCa+39h; ""
mov r14, rsp
mov rdi, r14
call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE12_M_constructIPKcEEvT_S8_St20forward_iterator_tag; std::string::_M_construct<char const*>(char const*,char const*,std::forward_iterator_tag)
mov rdi, rbx; int
mov rsi, r14
xor edx, edx
call _ZN3CLI14CallForAllHelpC2ENSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEENS_9ExitCodesE; CLI::CallForAllHelp::CallForAllHelp(std::string,CLI::ExitCodes)
mov rdi, [rsp+38h+var_38]; void *
cmp rdi, r15
jz short loc_24D21
mov rsi, [rsp+38h+var_28]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_24D21:
add rsp, 20h
pop rbx
pop r14
pop r15
retn
mov rbx, rax
mov rdi, [rsp+0]; void *
cmp rdi, r15
jz short loc_24D44
mov rsi, [rsp+arg_8]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_24D44:
mov rdi, rbx
call __Unwind_Resume
| void CLI::CallForAllHelp::CallForAllHelp(CLI::CallForAllHelp *this)
{
void *v1[2]; // [rsp+0h] [rbp-38h] BYREF
long long v2; // [rsp+10h] [rbp-28h] BYREF
char v3; // [rsp+18h] [rbp-20h]
v1[0] = &v2;
std::string::_M_construct<char const*>(v1, "This should be caught in your main function, see examples", (long long)"");
CLI::CallForAllHelp::CallForAllHelp((int)this, (int)v1[0], (long long)v1[1], v2, v3);
if ( v1[0] != &v2 )
operator delete(v1[0], v2 + 1);
}
| CallForAllHelp:
PUSH R15
PUSH R14
PUSH RBX
SUB RSP,0x20
MOV RBX,RDI
LEA R15,[RSP + 0x10]
MOV qword ptr [R15 + -0x10],R15
LEA RSI,[0x137997]
LEA RDX,[0x1379d0]
MOV R14,RSP
MOV RDI,R14
CALL 0x00112040
LAB_00124cfe:
MOV RDI,RBX
MOV RSI,R14
XOR EDX,EDX
CALL 0x00124dc8
LAB_00124d0b:
MOV RDI,qword ptr [RSP]
CMP RDI,R15
JZ 0x00124d21
MOV RSI,qword ptr [RSP + 0x10]
INC RSI
CALL 0x00107430
LAB_00124d21:
ADD RSP,0x20
POP RBX
POP R14
POP R15
RET
|
/* CLI::CallForAllHelp::CallForAllHelp() */
void __thiscall CLI::CallForAllHelp::CallForAllHelp(CallForAllHelp *this)
{
long *local_38 [2];
long local_28 [2];
local_38[0] = local_28;
std::__cxx11::string::_M_construct<char_const*>
(local_38,"This should be caught in your main function, see examples","");
/* try { // try from 00124cfe to 00124d0a has its CatchHandler @ 00124d2b */
CallForAllHelp(this,local_38,0);
if (local_38[0] != local_28) {
operator_delete(local_38[0],local_28[0] + 1);
}
return;
}
|
|
4,410 | mysql_next_result_start_internal | eloqsql/libmariadb/libmariadb/mariadb_async.c | static void
mysql_next_result_start_internal(void *d)
{
MK_ASYNC_INTERNAL_BODY(
mysql_next_result,
(parms->mysql),
parms->mysql,
int,
r_int)
} | O3 | c | mysql_next_result_start_internal:
pushq %rbp
movq %rsp, %rbp
pushq %rbx
pushq %rax
movq (%rdi), %rdi
movq 0x480(%rdi), %rax
movq 0x28(%rax), %rbx
callq 0x19a5d
movl %eax, 0x8(%rbx)
movl $0x0, (%rbx)
addq $0x8, %rsp
popq %rbx
popq %rbp
retq
| mysql_next_result_start_internal:
push rbp
mov rbp, rsp
push rbx
push rax
mov rdi, [rdi]
mov rax, [rdi+480h]
mov rbx, [rax+28h]
call mysql_next_result
mov [rbx+8], eax
mov dword ptr [rbx], 0
add rsp, 8
pop rbx
pop rbp
retn
| long long mysql_next_result_start_internal(long long *a1)
{
long long v1; // rdi
_DWORD *v2; // rbx
long long result; // rax
v1 = *a1;
v2 = *(_DWORD **)(*(_QWORD *)(v1 + 1152) + 40LL);
result = mysql_next_result(v1);
v2[2] = result;
*v2 = 0;
return result;
}
| mysql_next_result_start_internal:
PUSH RBP
MOV RBP,RSP
PUSH RBX
PUSH RAX
MOV RDI,qword ptr [RDI]
MOV RAX,qword ptr [RDI + 0x480]
MOV RBX,qword ptr [RAX + 0x28]
CALL 0x00119a5d
MOV dword ptr [RBX + 0x8],EAX
MOV dword ptr [RBX],0x0
ADD RSP,0x8
POP RBX
POP RBP
RET
|
void mysql_next_result_start_internal(long *param_1)
{
int4 *puVar1;
int4 uVar2;
puVar1 = *(int4 **)(*(long *)(*param_1 + 0x480) + 0x28);
uVar2 = mysql_next_result();
puVar1[2] = uVar2;
*puVar1 = 0;
return;
}
|
|
4,411 | get_charset_number | eloqsql/mysys/charset.c | uint get_charset_number(const char *charset_name, uint cs_flags, myf flags)
{
uint id;
const char *new_charset_name= flags & MY_UTF8_IS_UTF8MB3 ? "utf8mb3" :
"utf8mb4";
my_pthread_once(&charsets_initialized, init_available_charsets);
if ((id= get_charset_number_internal(charset_name, cs_flags)))
return id;
if ((charset_name= !my_strcasecmp(&my_charset_latin1, charset_name, "utf8") ?
new_charset_name : NULL))
return get_charset_number_internal(charset_name, cs_flags);
return 0;
} | O0 | c | get_charset_number:
pushq %rbp
movq %rsp, %rbp
subq $0x40, %rsp
movq %rdi, -0x10(%rbp)
movl %esi, -0x14(%rbp)
movq %rdx, -0x20(%rbp)
movq -0x20(%rbp), %rdx
andq $0x400, %rdx # imm = 0x400
leaq 0x1d45d(%rip), %rax # 0x7d092
leaq 0x1d44e(%rip), %rcx # 0x7d08a
cmpq $0x0, %rdx
cmovneq %rcx, %rax
movq %rax, -0x30(%rbp)
leaq 0x32ed85(%rip), %rdi # 0x38e9d4
leaq -0x306(%rip), %rsi # 0x5f950
callq 0x24270
movq -0x10(%rbp), %rdi
movl -0x14(%rbp), %esi
callq 0x5fcf0
movl %eax, -0x24(%rbp)
cmpl $0x0, %eax
je 0x5fc77
movl -0x24(%rbp), %eax
movl %eax, -0x4(%rbp)
jmp 0x5fcda
leaq 0x16e6ca(%rip), %rax # 0x1ce348
movq 0xc0(%rax), %rax
movq 0x40(%rax), %rax
movq -0x10(%rbp), %rsi
leaq 0x16e6b4(%rip), %rdi # 0x1ce348
leaq 0x1d3ff(%rip), %rdx # 0x7d09a
callq *%rax
cmpl $0x0, %eax
jne 0x5fcac
movq -0x30(%rbp), %rax
movq %rax, -0x38(%rbp)
jmp 0x5fcb4
xorl %eax, %eax
movq %rax, -0x38(%rbp)
jmp 0x5fcb4
movq -0x38(%rbp), %rax
movq %rax, -0x10(%rbp)
cmpq $0x0, %rax
je 0x5fcd3
movq -0x10(%rbp), %rdi
movl -0x14(%rbp), %esi
callq 0x5fcf0
movl %eax, -0x4(%rbp)
jmp 0x5fcda
movl $0x0, -0x4(%rbp)
movl -0x4(%rbp), %eax
addq $0x40, %rsp
popq %rbp
retq
nopw %cs:(%rax,%rax)
| get_charset_number:
push rbp
mov rbp, rsp
sub rsp, 40h
mov [rbp+var_10], rdi
mov [rbp+var_14], esi
mov [rbp+var_20], rdx
mov rdx, [rbp+var_20]
and rdx, 400h
lea rax, aUtf8mb4; "utf8mb4"
lea rcx, aUtf8mb3; "utf8mb3"
cmp rdx, 0
cmovnz rax, rcx
mov [rbp+var_30], rax
lea rdi, charsets_initialized
lea rsi, init_available_charsets
call _pthread_once
mov rdi, [rbp+var_10]
mov esi, [rbp+var_14]
call get_charset_number_internal
mov [rbp+var_24], eax
cmp eax, 0
jz short loc_5FC77
mov eax, [rbp+var_24]
mov [rbp+var_4], eax
jmp short loc_5FCDA
loc_5FC77:
lea rax, my_charset_latin1
mov rax, [rax+0C0h]
mov rax, [rax+40h]
mov rsi, [rbp+var_10]
lea rdi, my_charset_latin1
lea rdx, aUtf8; "utf8"
call rax
cmp eax, 0
jnz short loc_5FCAC
mov rax, [rbp+var_30]
mov [rbp+var_38], rax
jmp short loc_5FCB4
loc_5FCAC:
xor eax, eax
mov [rbp+var_38], rax
jmp short $+2
loc_5FCB4:
mov rax, [rbp+var_38]
mov [rbp+var_10], rax
cmp rax, 0
jz short loc_5FCD3
mov rdi, [rbp+var_10]
mov esi, [rbp+var_14]
call get_charset_number_internal
mov [rbp+var_4], eax
jmp short loc_5FCDA
loc_5FCD3:
mov [rbp+var_4], 0
loc_5FCDA:
mov eax, [rbp+var_4]
add rsp, 40h
pop rbp
retn
| long long get_charset_number(long long a1, unsigned int a2, __int16 a3)
{
const char *v3; // rax
const char *v5; // [rsp+8h] [rbp-38h]
const char *v6; // [rsp+10h] [rbp-30h]
unsigned int charset_number_internal; // [rsp+1Ch] [rbp-24h]
v3 = "utf8mb4";
if ( (a3 & 0x400) != 0 )
v3 = "utf8mb3";
v6 = v3;
pthread_once(&charsets_initialized, init_available_charsets);
charset_number_internal = get_charset_number_internal(a1, a2);
if ( charset_number_internal )
{
return charset_number_internal;
}
else
{
if ( (*(unsigned int ( **)(void *, long long, const char *))(*((_QWORD *)&my_charset_latin1 + 24) + 64LL))(
&my_charset_latin1,
a1,
"utf8") )
{
v5 = 0LL;
}
else
{
v5 = v6;
}
if ( v5 )
return (unsigned int)get_charset_number_internal(v5, a2);
else
return 0;
}
}
| get_charset_number:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x40
MOV qword ptr [RBP + -0x10],RDI
MOV dword ptr [RBP + -0x14],ESI
MOV qword ptr [RBP + -0x20],RDX
MOV RDX,qword ptr [RBP + -0x20]
AND RDX,0x400
LEA RAX,[0x17d092]
LEA RCX,[0x17d08a]
CMP RDX,0x0
CMOVNZ RAX,RCX
MOV qword ptr [RBP + -0x30],RAX
LEA RDI,[0x48e9d4]
LEA RSI,[0x15f950]
CALL 0x00124270
MOV RDI,qword ptr [RBP + -0x10]
MOV ESI,dword ptr [RBP + -0x14]
CALL 0x0015fcf0
MOV dword ptr [RBP + -0x24],EAX
CMP EAX,0x0
JZ 0x0015fc77
MOV EAX,dword ptr [RBP + -0x24]
MOV dword ptr [RBP + -0x4],EAX
JMP 0x0015fcda
LAB_0015fc77:
LEA RAX,[0x2ce348]
MOV RAX,qword ptr [RAX + 0xc0]
MOV RAX,qword ptr [RAX + 0x40]
MOV RSI,qword ptr [RBP + -0x10]
LEA RDI,[0x2ce348]
LEA RDX,[0x17d09a]
CALL RAX
CMP EAX,0x0
JNZ 0x0015fcac
MOV RAX,qword ptr [RBP + -0x30]
MOV qword ptr [RBP + -0x38],RAX
JMP 0x0015fcb4
LAB_0015fcac:
XOR EAX,EAX
MOV qword ptr [RBP + -0x38],RAX
JMP 0x0015fcb4
LAB_0015fcb4:
MOV RAX,qword ptr [RBP + -0x38]
MOV qword ptr [RBP + -0x10],RAX
CMP RAX,0x0
JZ 0x0015fcd3
MOV RDI,qword ptr [RBP + -0x10]
MOV ESI,dword ptr [RBP + -0x14]
CALL 0x0015fcf0
MOV dword ptr [RBP + -0x4],EAX
JMP 0x0015fcda
LAB_0015fcd3:
MOV dword ptr [RBP + -0x4],0x0
LAB_0015fcda:
MOV EAX,dword ptr [RBP + -0x4]
ADD RSP,0x40
POP RBP
RET
|
int get_charset_number(int8 param_1,int4 param_2,ulong param_3)
{
int iVar1;
char *local_40;
int local_c;
local_40 = "utf8mb4";
if ((param_3 & 0x400) != 0) {
local_40 = "utf8mb3";
}
pthread_once(&charsets_initialized,init_available_charsets);
local_c = get_charset_number_internal(param_1,param_2);
if (local_c == 0) {
iVar1 = (**(code **)(PTR_my_collation_8bit_simple_ci_handler_002ce408 + 0x40))
(&my_charset_latin1,param_1,&DAT_0017d09a);
if (iVar1 != 0) {
local_40 = (char *)0x0;
}
if (local_40 == (char *)0x0) {
local_c = 0;
}
else {
local_c = get_charset_number_internal(local_40,param_2);
}
}
return local_c;
}
|
|
4,412 | my_once_alloc | eloqsql/mysys/my_once.c | void* my_once_alloc(size_t Size, myf MyFlags)
{
size_t get_size, max_left;
uchar* point;
reg1 USED_MEM *next;
reg2 USED_MEM **prev;
Size= ALIGN_SIZE(Size);
prev= &my_once_root_block;
max_left=0;
for (next=my_once_root_block ; next && next->left < Size ; next= next->next)
{
if (next->left > max_left)
max_left=next->left;
prev= &next->next;
}
if (! next)
{ /* Time to alloc new block */
get_size= Size+ALIGN_SIZE(sizeof(USED_MEM));
if (max_left*4 < my_once_extra && get_size < my_once_extra)
get_size=my_once_extra; /* Normal alloc */
if ((next = (USED_MEM*) malloc(get_size)) == 0)
{
my_errno=errno;
if (MyFlags & (MY_FAE+MY_WME))
my_error(EE_OUTOFMEMORY, MYF(ME_BELL+ME_FATAL), get_size);
return((uchar*) 0);
}
DBUG_PRINT("test",("my_once_malloc %lu byte malloced", (ulong) get_size));
next->next= 0;
next->size= get_size;
next->left= get_size-ALIGN_SIZE(sizeof(USED_MEM));
*prev=next;
}
point= (uchar*) ((char*) next+ (next->size-next->left));
next->left-= Size;
if (MyFlags & MY_ZEROFILL)
bzero(point, Size);
return((void*) point);
} | O0 | c | my_once_alloc:
pushq %rbp
movq %rsp, %rbp
subq $0x50, %rsp
movq %rdi, -0x10(%rbp)
movq %rsi, -0x18(%rbp)
movq -0x10(%rbp), %rax
addq $0x8, %rax
subq $0x1, %rax
andq $-0x8, %rax
movq %rax, -0x10(%rbp)
leaq 0x378895(%rip), %rax # 0x3f8b30
movq %rax, -0x40(%rbp)
movq $0x0, -0x28(%rbp)
leaq 0x378882(%rip), %rax # 0x3f8b30
movq (%rax), %rax
movq %rax, -0x38(%rbp)
xorl %eax, %eax
cmpq $0x0, -0x38(%rbp)
movb %al, -0x41(%rbp)
je 0x802d3
movq -0x38(%rbp), %rax
movq 0x8(%rax), %rax
cmpq -0x10(%rbp), %rax
setb %al
movb %al, -0x41(%rbp)
movb -0x41(%rbp), %al
testb $0x1, %al
jne 0x802dc
jmp 0x8030b
movq -0x38(%rbp), %rax
movq 0x8(%rax), %rax
cmpq -0x28(%rbp), %rax
jbe 0x802f6
movq -0x38(%rbp), %rax
movq 0x8(%rax), %rax
movq %rax, -0x28(%rbp)
movq -0x38(%rbp), %rax
movq %rax, -0x40(%rbp)
movq -0x38(%rbp), %rax
movq (%rax), %rax
movq %rax, -0x38(%rbp)
jmp 0x802b5
cmpq $0x0, -0x38(%rbp)
jne 0x803e4
movq -0x10(%rbp), %rax
addq $0x18, %rax
movq %rax, -0x20(%rbp)
movq -0x28(%rbp), %rax
shlq $0x2, %rax
leaq 0x1b878f(%rip), %rcx # 0x238ac0
movl (%rcx), %ecx
cmpq %rcx, %rax
jae 0x80357
movq -0x20(%rbp), %rax
leaq 0x1b877d(%rip), %rcx # 0x238ac0
movl (%rcx), %ecx
cmpq %rcx, %rax
jae 0x80357
leaq 0x1b876f(%rip), %rax # 0x238ac0
movl (%rax), %eax
movq %rax, -0x20(%rbp)
movq -0x20(%rbp), %rdi
callq 0x284b0
movq %rax, -0x38(%rbp)
cmpq $0x0, %rax
jne 0x803ae
callq 0x28040
movl (%rax), %eax
movl %eax, -0x48(%rbp)
callq 0x82360
movl -0x48(%rbp), %ecx
movl %ecx, (%rax)
movq -0x18(%rbp), %rax
andq $0x18, %rax
cmpq $0x0, %rax
je 0x803a1
movq -0x20(%rbp), %rdx
movl $0x5, %edi
movl $0x1004, %esi # imm = 0x1004
movb $0x0, %al
callq 0x7bff0
movq $0x0, -0x8(%rbp)
jmp 0x80437
jmp 0x803b0
jmp 0x803b2
movq -0x38(%rbp), %rax
movq $0x0, (%rax)
movq -0x20(%rbp), %rcx
movq -0x38(%rbp), %rax
movq %rcx, 0x10(%rax)
movq -0x20(%rbp), %rcx
subq $0x18, %rcx
movq -0x38(%rbp), %rax
movq %rcx, 0x8(%rax)
movq -0x38(%rbp), %rcx
movq -0x40(%rbp), %rax
movq %rcx, (%rax)
movq -0x38(%rbp), %rax
movq -0x38(%rbp), %rcx
movq 0x10(%rcx), %rcx
movq -0x38(%rbp), %rdx
subq 0x8(%rdx), %rcx
addq %rcx, %rax
movq %rax, -0x30(%rbp)
movq -0x10(%rbp), %rdx
movq -0x38(%rbp), %rax
movq 0x8(%rax), %rcx
subq %rdx, %rcx
movq %rcx, 0x8(%rax)
movq -0x18(%rbp), %rax
andq $0x20, %rax
cmpq $0x0, %rax
je 0x8042f
movq -0x30(%rbp), %rdi
movq -0x10(%rbp), %rdx
xorl %esi, %esi
callq 0x281d0
movq -0x30(%rbp), %rax
movq %rax, -0x8(%rbp)
movq -0x8(%rbp), %rax
addq $0x50, %rsp
popq %rbp
retq
nopw %cs:(%rax,%rax)
| my_once_alloc:
push rbp
mov rbp, rsp
sub rsp, 50h
mov [rbp+var_10], rdi
mov [rbp+var_18], rsi
mov rax, [rbp+var_10]
add rax, 8
sub rax, 1
and rax, 0FFFFFFFFFFFFFFF8h
mov [rbp+var_10], rax
lea rax, my_once_root_block
mov [rbp+var_40], rax
mov [rbp+var_28], 0
lea rax, my_once_root_block
mov rax, [rax]
mov [rbp+var_38], rax
loc_802B5:
xor eax, eax
cmp [rbp+var_38], 0
mov [rbp+var_41], al
jz short loc_802D3
mov rax, [rbp+var_38]
mov rax, [rax+8]
cmp rax, [rbp+var_10]
setb al
mov [rbp+var_41], al
loc_802D3:
mov al, [rbp+var_41]
test al, 1
jnz short loc_802DC
jmp short loc_8030B
loc_802DC:
mov rax, [rbp+var_38]
mov rax, [rax+8]
cmp rax, [rbp+var_28]
jbe short loc_802F6
mov rax, [rbp+var_38]
mov rax, [rax+8]
mov [rbp+var_28], rax
loc_802F6:
mov rax, [rbp+var_38]
mov [rbp+var_40], rax
mov rax, [rbp+var_38]
mov rax, [rax]
mov [rbp+var_38], rax
jmp short loc_802B5
loc_8030B:
cmp [rbp+var_38], 0
jnz loc_803E4
mov rax, [rbp+var_10]
add rax, 18h
mov [rbp+var_20], rax
mov rax, [rbp+var_28]
shl rax, 2
lea rcx, my_once_extra
mov ecx, [rcx]
cmp rax, rcx
jnb short loc_80357
mov rax, [rbp+var_20]
lea rcx, my_once_extra
mov ecx, [rcx]
cmp rax, rcx
jnb short loc_80357
lea rax, my_once_extra
mov eax, [rax]
mov [rbp+var_20], rax
loc_80357:
mov rdi, [rbp+var_20]
call _malloc
mov [rbp+var_38], rax
cmp rax, 0
jnz short loc_803AE
call ___errno_location
mov eax, [rax]
mov [rbp+var_48], eax
call _my_thread_var
mov ecx, [rbp+var_48]
mov [rax], ecx
mov rax, [rbp+var_18]
and rax, 18h
cmp rax, 0
jz short loc_803A1
mov rdx, [rbp+var_20]
mov edi, 5
mov esi, 1004h
mov al, 0
call my_error
loc_803A1:
mov [rbp+var_8], 0
jmp loc_80437
loc_803AE:
jmp short $+2
loc_803B0:
jmp short $+2
loc_803B2:
mov rax, [rbp+var_38]
mov qword ptr [rax], 0
mov rcx, [rbp+var_20]
mov rax, [rbp+var_38]
mov [rax+10h], rcx
mov rcx, [rbp+var_20]
sub rcx, 18h
mov rax, [rbp+var_38]
mov [rax+8], rcx
mov rcx, [rbp+var_38]
mov rax, [rbp+var_40]
mov [rax], rcx
loc_803E4:
mov rax, [rbp+var_38]
mov rcx, [rbp+var_38]
mov rcx, [rcx+10h]
mov rdx, [rbp+var_38]
sub rcx, [rdx+8]
add rax, rcx
mov [rbp+var_30], rax
mov rdx, [rbp+var_10]
mov rax, [rbp+var_38]
mov rcx, [rax+8]
sub rcx, rdx
mov [rax+8], rcx
mov rax, [rbp+var_18]
and rax, 20h
cmp rax, 0
jz short loc_8042F
mov rdi, [rbp+var_30]
mov rdx, [rbp+var_10]
xor esi, esi
call _memset
loc_8042F:
mov rax, [rbp+var_30]
mov [rbp+var_8], rax
loc_80437:
mov rax, [rbp+var_8]
add rsp, 50h
pop rbp
retn
| char * my_once_alloc(long long a1, const char *a2)
{
int v3; // [rsp+8h] [rbp-48h]
bool v4; // [rsp+Fh] [rbp-41h]
_QWORD *v5; // [rsp+10h] [rbp-40h]
_QWORD *i; // [rsp+18h] [rbp-38h]
char *v7; // [rsp+20h] [rbp-30h]
unsigned long long v8; // [rsp+28h] [rbp-28h]
unsigned long long v9; // [rsp+30h] [rbp-20h]
unsigned long long v10; // [rsp+40h] [rbp-10h]
v10 = (a1 + 7) & 0xFFFFFFFFFFFFFFF8LL;
v5 = &my_once_root_block;
v8 = 0LL;
for ( i = (_QWORD *)my_once_root_block; ; i = (_QWORD *)*i )
{
v4 = 0;
if ( i )
v4 = i[1] < v10;
if ( !v4 )
break;
if ( i[1] > v8 )
v8 = i[1];
v5 = i;
}
if ( !i )
{
v9 = v10 + 24;
if ( 4 * v8 < my_once_extra && v9 < my_once_extra )
v9 = my_once_extra;
i = (_QWORD *)malloc(v9);
if ( !i )
{
v3 = *(_DWORD *)__errno_location();
*(_DWORD *)my_thread_var(v9, a2) = v3;
if ( ((unsigned __int8)a2 & 0x18) != 0 )
my_error(5u, 4100LL, v9);
return 0LL;
}
*i = 0LL;
i[2] = v9;
i[1] = v9 - 24;
*v5 = i;
}
v7 = (char *)i + i[2] - i[1];
i[1] -= v10;
if ( ((unsigned __int8)a2 & 0x20) != 0 )
memset(v7, 0LL, v10);
return v7;
}
| my_once_alloc:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x50
MOV qword ptr [RBP + -0x10],RDI
MOV qword ptr [RBP + -0x18],RSI
MOV RAX,qword ptr [RBP + -0x10]
ADD RAX,0x8
SUB RAX,0x1
AND RAX,-0x8
MOV qword ptr [RBP + -0x10],RAX
LEA RAX,[0x4f8b30]
MOV qword ptr [RBP + -0x40],RAX
MOV qword ptr [RBP + -0x28],0x0
LEA RAX,[0x4f8b30]
MOV RAX,qword ptr [RAX]
MOV qword ptr [RBP + -0x38],RAX
LAB_001802b5:
XOR EAX,EAX
CMP qword ptr [RBP + -0x38],0x0
MOV byte ptr [RBP + -0x41],AL
JZ 0x001802d3
MOV RAX,qword ptr [RBP + -0x38]
MOV RAX,qword ptr [RAX + 0x8]
CMP RAX,qword ptr [RBP + -0x10]
SETC AL
MOV byte ptr [RBP + -0x41],AL
LAB_001802d3:
MOV AL,byte ptr [RBP + -0x41]
TEST AL,0x1
JNZ 0x001802dc
JMP 0x0018030b
LAB_001802dc:
MOV RAX,qword ptr [RBP + -0x38]
MOV RAX,qword ptr [RAX + 0x8]
CMP RAX,qword ptr [RBP + -0x28]
JBE 0x001802f6
MOV RAX,qword ptr [RBP + -0x38]
MOV RAX,qword ptr [RAX + 0x8]
MOV qword ptr [RBP + -0x28],RAX
LAB_001802f6:
MOV RAX,qword ptr [RBP + -0x38]
MOV qword ptr [RBP + -0x40],RAX
MOV RAX,qword ptr [RBP + -0x38]
MOV RAX,qword ptr [RAX]
MOV qword ptr [RBP + -0x38],RAX
JMP 0x001802b5
LAB_0018030b:
CMP qword ptr [RBP + -0x38],0x0
JNZ 0x001803e4
MOV RAX,qword ptr [RBP + -0x10]
ADD RAX,0x18
MOV qword ptr [RBP + -0x20],RAX
MOV RAX,qword ptr [RBP + -0x28]
SHL RAX,0x2
LEA RCX,[0x338ac0]
MOV ECX,dword ptr [RCX]
CMP RAX,RCX
JNC 0x00180357
MOV RAX,qword ptr [RBP + -0x20]
LEA RCX,[0x338ac0]
MOV ECX,dword ptr [RCX]
CMP RAX,RCX
JNC 0x00180357
LEA RAX,[0x338ac0]
MOV EAX,dword ptr [RAX]
MOV qword ptr [RBP + -0x20],RAX
LAB_00180357:
MOV RDI,qword ptr [RBP + -0x20]
CALL 0x001284b0
MOV qword ptr [RBP + -0x38],RAX
CMP RAX,0x0
JNZ 0x001803ae
CALL 0x00128040
MOV EAX,dword ptr [RAX]
MOV dword ptr [RBP + -0x48],EAX
CALL 0x00182360
MOV ECX,dword ptr [RBP + -0x48]
MOV dword ptr [RAX],ECX
MOV RAX,qword ptr [RBP + -0x18]
AND RAX,0x18
CMP RAX,0x0
JZ 0x001803a1
MOV RDX,qword ptr [RBP + -0x20]
MOV EDI,0x5
MOV ESI,0x1004
MOV AL,0x0
CALL 0x0017bff0
LAB_001803a1:
MOV qword ptr [RBP + -0x8],0x0
JMP 0x00180437
LAB_001803ae:
JMP 0x001803b0
LAB_001803b0:
JMP 0x001803b2
LAB_001803b2:
MOV RAX,qword ptr [RBP + -0x38]
MOV qword ptr [RAX],0x0
MOV RCX,qword ptr [RBP + -0x20]
MOV RAX,qword ptr [RBP + -0x38]
MOV qword ptr [RAX + 0x10],RCX
MOV RCX,qword ptr [RBP + -0x20]
SUB RCX,0x18
MOV RAX,qword ptr [RBP + -0x38]
MOV qword ptr [RAX + 0x8],RCX
MOV RCX,qword ptr [RBP + -0x38]
MOV RAX,qword ptr [RBP + -0x40]
MOV qword ptr [RAX],RCX
LAB_001803e4:
MOV RAX,qword ptr [RBP + -0x38]
MOV RCX,qword ptr [RBP + -0x38]
MOV RCX,qword ptr [RCX + 0x10]
MOV RDX,qword ptr [RBP + -0x38]
SUB RCX,qword ptr [RDX + 0x8]
ADD RAX,RCX
MOV qword ptr [RBP + -0x30],RAX
MOV RDX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RBP + -0x38]
MOV RCX,qword ptr [RAX + 0x8]
SUB RCX,RDX
MOV qword ptr [RAX + 0x8],RCX
MOV RAX,qword ptr [RBP + -0x18]
AND RAX,0x20
CMP RAX,0x0
JZ 0x0018042f
MOV RDI,qword ptr [RBP + -0x30]
MOV RDX,qword ptr [RBP + -0x10]
XOR ESI,ESI
CALL 0x001281d0
LAB_0018042f:
MOV RAX,qword ptr [RBP + -0x30]
MOV qword ptr [RBP + -0x8],RAX
LAB_00180437:
MOV RAX,qword ptr [RBP + -0x8]
ADD RSP,0x50
POP RBP
RET
|
void * my_once_alloc(long param_1,ulong param_2)
{
int iVar1;
ulong __n;
int *piVar2;
void *__s;
bool bVar3;
int8 *local_48;
int8 *local_40;
ulong local_30;
size_t local_28;
__n = param_1 + 7U & 0xfffffffffffffff8;
local_48 = &my_once_root_block;
local_30 = 0;
local_40 = my_once_root_block;
while( true ) {
bVar3 = false;
if (local_40 != (int8 *)0x0) {
bVar3 = (ulong)local_40[1] < __n;
}
if (!bVar3) break;
if (local_30 < (ulong)local_40[1]) {
local_30 = local_40[1];
}
local_48 = local_40;
local_40 = (int8 *)*local_40;
}
if (local_40 == (int8 *)0x0) {
local_28 = __n + 0x18;
if ((local_30 << 2 < (ulong)my_once_extra) && (local_28 < my_once_extra)) {
local_28 = (size_t)my_once_extra;
}
local_40 = (int8 *)malloc(local_28);
if (local_40 == (int8 *)0x0) {
piVar2 = __errno_location();
iVar1 = *piVar2;
piVar2 = (int *)_my_thread_var();
*piVar2 = iVar1;
if ((param_2 & 0x18) != 0) {
my_error(5,0x1004,local_28);
}
return (void *)0x0;
}
*local_40 = 0;
local_40[2] = local_28;
local_40[1] = local_28 - 0x18;
*local_48 = local_40;
}
__s = (void *)((long)local_40 + (local_40[2] - local_40[1]));
local_40[1] = local_40[1] - __n;
if ((param_2 & 0x20) != 0) {
memset(__s,0,__n);
}
return __s;
}
|
|
4,413 | lf_alloc_new | eloqsql/mysys/lf_alloc-pin.c | void *lf_alloc_new(LF_PINS *pins)
{
LF_ALLOCATOR *allocator= (LF_ALLOCATOR *)(pins->pinbox->free_func_arg);
uchar *node;
for (;;)
{
do
{
node= allocator->top;
lf_pin(pins, 0, node);
} while (node != allocator->top && LF_BACKOFF());
if (!node)
{
node= (void *)my_malloc(key_memory_lf_node, allocator->element_size,
MYF(MY_WME));
if (allocator->constructor)
allocator->constructor(node);
#ifdef MY_LF_EXTRA_DEBUG
if (likely(node != 0))
my_atomic_add32(&allocator->mallocs, 1);
#endif
break;
}
if (my_atomic_casptr((void **)(char *)&allocator->top,
(void *)&node, anext_node(node)))
break;
}
lf_unpin(pins, 0);
return node;
} | O0 | c | lf_alloc_new:
pushq %rbp
movq %rsp, %rbp
subq $0x50, %rsp
movq %rdi, -0x8(%rbp)
movq -0x8(%rbp), %rax
movq 0x20(%rax), %rax
movq 0x30(%rax), %rax
movq %rax, -0x10(%rbp)
jmp 0xfc94e
movq -0x10(%rbp), %rax
movq 0x48(%rax), %rax
movq %rax, -0x18(%rbp)
jmp 0xfc95c
jmp 0xfc95e
movq -0x8(%rbp), %rcx
movq -0x18(%rbp), %rax
movq %rax, -0x20(%rbp)
movq -0x20(%rbp), %rax
xchgq %rax, (%rcx)
jmp 0xfc973
movq -0x18(%rbp), %rcx
movq -0x10(%rbp), %rax
movq 0x48(%rax), %rdx
xorl %eax, %eax
cmpq %rdx, %rcx
movb %al, -0x39(%rbp)
je 0xfc997
callq 0xfca60
cmpl $0x0, %eax
setne %al
movb %al, -0x39(%rbp)
movb -0x39(%rbp), %al
testb $0x1, %al
jne 0xfc94e
cmpq $0x0, -0x18(%rbp)
jne 0xfc9e0
leaq 0xb86604(%rip), %rax # 0xc82fb0
movl (%rax), %edi
movq -0x10(%rbp), %rax
movl 0x50(%rax), %eax
movl %eax, %esi
movl $0x10, %edx
callq 0xf3820
movq %rax, -0x18(%rbp)
movq -0x10(%rbp), %rax
cmpq $0x0, 0x58(%rax)
je 0xfc9de
movq -0x10(%rbp), %rax
movq 0x58(%rax), %rax
movq -0x18(%rbp), %rdi
callq *%rax
jmp 0xfca2f
movq -0x10(%rbp), %rcx
movq -0x18(%rbp), %rax
movl 0x38(%rcx), %edx
movq (%rax,%rdx), %rax
movq %rax, -0x28(%rbp)
movq -0x18(%rbp), %rax
movq -0x28(%rbp), %rdx
lock
cmpxchgq %rdx, 0x48(%rcx)
movq %rax, %rcx
sete %al
movb %al, -0x49(%rbp)
movq %rcx, -0x48(%rbp)
testb $0x1, %al
jne 0xfca1a
movq -0x48(%rbp), %rax
movq %rax, -0x18(%rbp)
movb -0x49(%rbp), %al
andb $0x1, %al
movb %al, -0x29(%rbp)
testb $0x1, -0x29(%rbp)
je 0xfca2a
jmp 0xfca2f
jmp 0xfc94c
jmp 0xfca31
jmp 0xfca33
jmp 0xfca35
movq -0x8(%rbp), %rcx
movq $0x0, -0x38(%rbp)
movq -0x38(%rbp), %rax
xchgq %rax, (%rcx)
movq -0x18(%rbp), %rax
addq $0x50, %rsp
popq %rbp
retq
nopw %cs:(%rax,%rax)
| lf_alloc_new:
push rbp
mov rbp, rsp
sub rsp, 50h
mov [rbp+var_8], rdi
mov rax, [rbp+var_8]
mov rax, [rax+20h]
mov rax, [rax+30h]
mov [rbp+var_10], rax
loc_FC94C:
jmp short $+2
loc_FC94E:
mov rax, [rbp+var_10]
mov rax, [rax+48h]
mov [rbp+var_18], rax
jmp short $+2
loc_FC95C:
jmp short $+2
loc_FC95E:
mov rcx, [rbp+var_8]
mov rax, [rbp+var_18]
mov [rbp+var_20], rax
mov rax, [rbp+var_20]
xchg rax, [rcx]
jmp short $+2
loc_FC973:
mov rcx, [rbp+var_18]
mov rax, [rbp+var_10]
mov rdx, [rax+48h]
xor eax, eax
cmp rcx, rdx
mov [rbp+var_39], al
jz short loc_FC997
call LF_BACKOFF
cmp eax, 0
setnz al
mov [rbp+var_39], al
loc_FC997:
mov al, [rbp+var_39]
test al, 1
jnz short loc_FC94E
cmp [rbp+var_18], 0
jnz short loc_FC9E0
lea rax, key_memory_lf_node
mov edi, [rax]
mov rax, [rbp+var_10]
mov eax, [rax+50h]
mov esi, eax
mov edx, 10h
call my_malloc
mov [rbp+var_18], rax
mov rax, [rbp+var_10]
cmp qword ptr [rax+58h], 0
jz short loc_FC9DE
mov rax, [rbp+var_10]
mov rax, [rax+58h]
mov rdi, [rbp+var_18]
call rax
loc_FC9DE:
jmp short loc_FCA2F
loc_FC9E0:
mov rcx, [rbp+var_10]
mov rax, [rbp+var_18]
mov edx, [rcx+38h]
mov rax, [rax+rdx]
mov [rbp+var_28], rax
mov rax, [rbp+var_18]
mov rdx, [rbp+var_28]
lock cmpxchg [rcx+48h], rdx
mov rcx, rax
setz al
mov [rbp+var_49], al
mov [rbp+var_48], rcx
test al, 1
jnz short loc_FCA1A
mov rax, [rbp+var_48]
mov [rbp+var_18], rax
loc_FCA1A:
mov al, [rbp+var_49]
and al, 1
mov [rbp+var_29], al
test [rbp+var_29], 1
jz short loc_FCA2A
jmp short loc_FCA2F
loc_FCA2A:
jmp loc_FC94C
loc_FCA2F:
jmp short $+2
loc_FCA31:
jmp short $+2
loc_FCA33:
jmp short $+2
loc_FCA35:
mov rcx, [rbp+var_8]
mov [rbp+var_38], 0
mov rax, [rbp+var_38]
xchg rax, [rcx]
mov rax, [rbp+var_18]
add rsp, 50h
pop rbp
retn
| long long lf_alloc_new(long long a1)
{
signed long long v1; // rcx
bool v3; // [rsp+7h] [rbp-49h]
bool v4; // [rsp+17h] [rbp-39h]
long long v5; // [rsp+38h] [rbp-18h]
long long v6; // [rsp+40h] [rbp-10h]
v6 = *(_QWORD *)(*(_QWORD *)(a1 + 32) + 48LL);
while ( 1 )
{
do
{
v5 = *(_QWORD *)(v6 + 72);
_InterlockedExchange64((volatile long long *)a1, v5);
v4 = 0;
if ( v5 != *(_QWORD *)(v6 + 72) )
v4 = (unsigned int)LF_BACKOFF() != 0;
}
while ( v4 );
if ( !v5 )
break;
v1 = _InterlockedCompareExchange64(
(volatile signed long long *)(v6 + 72),
*(_QWORD *)(v5 + *(unsigned int *)(v6 + 56)),
v5);
v3 = v5 == v1;
if ( v5 != v1 )
v5 = v1;
if ( v3 )
goto LABEL_12;
}
v5 = my_malloc(key_memory_lf_node, (const char *)*(unsigned int *)(v6 + 80), 16);
if ( *(_QWORD *)(v6 + 88) )
(*(void ( **)(long long))(v6 + 88))(v5);
LABEL_12:
_InterlockedExchange64((volatile long long *)a1, 0LL);
return v5;
}
| lf_alloc_new:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x50
MOV qword ptr [RBP + -0x8],RDI
MOV RAX,qword ptr [RBP + -0x8]
MOV RAX,qword ptr [RAX + 0x20]
MOV RAX,qword ptr [RAX + 0x30]
MOV qword ptr [RBP + -0x10],RAX
LAB_001fc94c:
JMP 0x001fc94e
LAB_001fc94e:
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x48]
MOV qword ptr [RBP + -0x18],RAX
JMP 0x001fc95c
LAB_001fc95c:
JMP 0x001fc95e
LAB_001fc95e:
MOV RCX,qword ptr [RBP + -0x8]
MOV RAX,qword ptr [RBP + -0x18]
MOV qword ptr [RBP + -0x20],RAX
MOV RAX,qword ptr [RBP + -0x20]
XCHG qword ptr [RCX],RAX
JMP 0x001fc973
LAB_001fc973:
MOV RCX,qword ptr [RBP + -0x18]
MOV RAX,qword ptr [RBP + -0x10]
MOV RDX,qword ptr [RAX + 0x48]
XOR EAX,EAX
CMP RCX,RDX
MOV byte ptr [RBP + -0x39],AL
JZ 0x001fc997
CALL 0x001fca60
CMP EAX,0x0
SETNZ AL
MOV byte ptr [RBP + -0x39],AL
LAB_001fc997:
MOV AL,byte ptr [RBP + -0x39]
TEST AL,0x1
JNZ 0x001fc94e
CMP qword ptr [RBP + -0x18],0x0
JNZ 0x001fc9e0
LEA RAX,[0xd82fb0]
MOV EDI,dword ptr [RAX]
MOV RAX,qword ptr [RBP + -0x10]
MOV EAX,dword ptr [RAX + 0x50]
MOV ESI,EAX
MOV EDX,0x10
CALL 0x001f3820
MOV qword ptr [RBP + -0x18],RAX
MOV RAX,qword ptr [RBP + -0x10]
CMP qword ptr [RAX + 0x58],0x0
JZ 0x001fc9de
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x58]
MOV RDI,qword ptr [RBP + -0x18]
CALL RAX
LAB_001fc9de:
JMP 0x001fca2f
LAB_001fc9e0:
MOV RCX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RBP + -0x18]
MOV EDX,dword ptr [RCX + 0x38]
MOV RAX,qword ptr [RAX + RDX*0x1]
MOV qword ptr [RBP + -0x28],RAX
MOV RAX,qword ptr [RBP + -0x18]
MOV RDX,qword ptr [RBP + -0x28]
CMPXCHG.LOCK qword ptr [RCX + 0x48],RDX
MOV RCX,RAX
SETZ AL
MOV byte ptr [RBP + -0x49],AL
MOV qword ptr [RBP + -0x48],RCX
TEST AL,0x1
JNZ 0x001fca1a
MOV RAX,qword ptr [RBP + -0x48]
MOV qword ptr [RBP + -0x18],RAX
LAB_001fca1a:
MOV AL,byte ptr [RBP + -0x49]
AND AL,0x1
MOV byte ptr [RBP + -0x29],AL
TEST byte ptr [RBP + -0x29],0x1
JZ 0x001fca2a
JMP 0x001fca2f
LAB_001fca2a:
JMP 0x001fc94c
LAB_001fca2f:
JMP 0x001fca31
LAB_001fca31:
JMP 0x001fca33
LAB_001fca33:
JMP 0x001fca35
LAB_001fca35:
MOV RCX,qword ptr [RBP + -0x8]
MOV qword ptr [RBP + -0x38],0x0
MOV RAX,qword ptr [RBP + -0x38]
XCHG qword ptr [RCX],RAX
MOV RAX,qword ptr [RBP + -0x18]
ADD RSP,0x50
POP RBP
RET
|
long lf_alloc_new(long *param_1)
{
long lVar1;
int iVar2;
bool bVar3;
long local_20;
lVar1 = *(long *)(param_1[4] + 0x30);
do {
do {
local_20 = *(long *)(lVar1 + 0x48);
LOCK();
*param_1 = local_20;
UNLOCK();
bVar3 = false;
if (local_20 != *(long *)(lVar1 + 0x48)) {
iVar2 = LF_BACKOFF();
bVar3 = iVar2 != 0;
}
} while (bVar3);
if (local_20 == 0) {
local_20 = my_malloc(key_memory_lf_node,*(int4 *)(lVar1 + 0x50),0x10);
if (*(long *)(lVar1 + 0x58) != 0) {
(**(code **)(lVar1 + 0x58))(local_20);
}
break;
}
LOCK();
bVar3 = local_20 == *(long *)(lVar1 + 0x48);
if (bVar3) {
*(long *)(lVar1 + 0x48) = *(long *)(local_20 + (ulong)*(uint *)(lVar1 + 0x38));
}
UNLOCK();
} while (!bVar3);
LOCK();
*param_1 = 0;
UNLOCK();
return local_20;
}
|
|
4,414 | FloatToHalf | csit-sgu[P]mit-game-2025_1/Libraries/raylib/src/rtextures.c | static unsigned short FloatToHalf(float x)
{
unsigned short result = 0;
const unsigned int b = (*(unsigned int*) & x) + 0x00001000; // Round-to-nearest-even: add last bit after truncated mantissa
const unsigned int e = (b & 0x7F800000) >> 23; // Exponent
const unsigned int m = b & 0x007FFFFF; // Mantissa; in line below: 0x007FF000 = 0x00800000-0x00001000 = decimal indicator flag - initial rounding
result = (b & 0x80000000) >> 16 | (e > 112)*((((e - 112) << 10) & 0x7C00) | m >> 13) | ((e < 113) & (e > 101))*((((0x007FF000 + m) >> (125 - e)) + 1) >> 1) | (e > 143)*0x7FFF; // sign : normalized : denormalized : saturate
return result;
} | O2 | c | FloatToHalf:
movd %xmm0, %ecx
addl $0x1000, %ecx # imm = 0x1000
movl %ecx, %eax
shrl $0x17, %eax
movzbl %al, %eax
movl %ecx, %edx
andl $0x7fffff, %edx # imm = 0x7FFFFF
movl %ecx, %esi
shrl $0x10, %esi
andl $0x8000, %esi # imm = 0x8000
shrl $0xd, %ecx
andl $0x7c00, %ecx # imm = 0x7C00
movl %edx, %edi
shrl $0xd, %edi
orl %ecx, %edi
xorl $0x4000, %edi # imm = 0x4000
xorl %r8d, %r8d
cmpl $0x71, %eax
cmovbl %r8d, %edi
leal -0x66(%rax), %r9d
addl $0x7ff000, %edx # imm = 0x7FF000
movb $0x7d, %cl
subb %al, %cl
shrl %cl, %edx
incl %edx
shrl %edx
cmpl $0xb, %r9d
cmovael %r8d, %edx
cmpl $0x90, %eax
movl $0x7fff, %eax # imm = 0x7FFF
cmovbl %r8d, %eax
orl %esi, %eax
orl %edi, %eax
orl %edx, %eax
retq
| FloatToHalf:
movd ecx, xmm0
add ecx, 1000h
mov eax, ecx
shr eax, 17h
movzx eax, al
mov edx, ecx
and edx, 7FFFFFh
mov esi, ecx
shr esi, 10h
and esi, 8000h
shr ecx, 0Dh
and ecx, 7C00h
mov edi, edx
shr edi, 0Dh
or edi, ecx
xor edi, 4000h
xor r8d, r8d
cmp eax, 71h ; 'q'
cmovb edi, r8d
lea r9d, [rax-66h]
add edx, 7FF000h
mov cl, 7Dh ; '}'
sub cl, al
shr edx, cl
inc edx
shr edx, 1
cmp r9d, 0Bh
cmovnb edx, r8d
cmp eax, 90h
mov eax, 7FFFh
cmovb eax, r8d
or eax, esi
or eax, edi
or eax, edx
retn
| long long FloatToHalf(__m128i a1)
{
unsigned int v1; // ecx
unsigned int v2; // eax
unsigned int v3; // edi
unsigned int v4; // edx
bool v5; // cf
int v6; // eax
v1 = _mm_cvtsi128_si32(a1) + 4096;
v2 = (unsigned __int8)(v1 >> 23);
v3 = ((v1 >> 13) & 0x7C00 | ((v1 & 0x7FFFFF) >> 13)) ^ 0x4000;
if ( v2 < 0x71 )
v3 = 0;
v4 = ((((v1 & 0x7FFFFF) + 8384512) >> (125 - v2)) + 1) >> 1;
if ( v2 - 102 >= 0xB )
v4 = 0;
v5 = v2 < 0x90;
v6 = 0x7FFF;
if ( v5 )
v6 = 0;
return v4 | v3 | HIWORD(v1) & 0x8000 | v6;
}
| FloatToHalf:
MOVD ECX,XMM0
ADD ECX,0x1000
MOV EAX,ECX
SHR EAX,0x17
MOVZX EAX,AL
MOV EDX,ECX
AND EDX,0x7fffff
MOV ESI,ECX
SHR ESI,0x10
AND ESI,0x8000
SHR ECX,0xd
AND ECX,0x7c00
MOV EDI,EDX
SHR EDI,0xd
OR EDI,ECX
XOR EDI,0x4000
XOR R8D,R8D
CMP EAX,0x71
CMOVC EDI,R8D
LEA R9D,[RAX + -0x66]
ADD EDX,0x7ff000
MOV CL,0x7d
SUB CL,AL
SHR EDX,CL
INC EDX
SHR EDX,0x1
CMP R9D,0xb
CMOVNC EDX,R8D
CMP EAX,0x90
MOV EAX,0x7fff
CMOVC EAX,R8D
OR EAX,ESI
OR EAX,EDI
OR EAX,EDX
RET
|
uint FloatToHalf(int param_1)
{
uint uVar1;
uint uVar2;
uint uVar3;
uint uVar4;
uint uVar5;
uVar3 = param_1 + 0x1000;
uVar1 = uVar3 >> 0x17 & 0xff;
uVar5 = ((uVar3 & 0x7fffff) >> 0xd | uVar3 >> 0xd & 0x7c00) ^ 0x4000;
if (uVar1 < 0x71) {
uVar5 = 0;
}
uVar4 = ((uVar3 & 0x7fffff) + 0x7ff000 >> (0x7dU - (char)(uVar3 >> 0x17) & 0x1f)) + 1 >> 1;
if (10 < uVar1 - 0x66) {
uVar4 = 0;
}
uVar2 = 0x7fff;
if (uVar1 < 0x90) {
uVar2 = 0;
}
return uVar2 | uVar3 >> 0x10 & 0x8000 | uVar5 | uVar4;
}
|
|
4,415 | FloatToHalf | csit-sgu[P]mit-game-2025_1/Libraries/raylib/src/rtextures.c | static unsigned short FloatToHalf(float x)
{
unsigned short result = 0;
const unsigned int b = (*(unsigned int*) & x) + 0x00001000; // Round-to-nearest-even: add last bit after truncated mantissa
const unsigned int e = (b & 0x7F800000) >> 23; // Exponent
const unsigned int m = b & 0x007FFFFF; // Mantissa; in line below: 0x007FF000 = 0x00800000-0x00001000 = decimal indicator flag - initial rounding
result = (b & 0x80000000) >> 16 | (e > 112)*((((e - 112) << 10) & 0x7C00) | m >> 13) | ((e < 113) & (e > 101))*((((0x007FF000 + m) >> (125 - e)) + 1) >> 1) | (e > 143)*0x7FFF; // sign : normalized : denormalized : saturate
return result;
} | O3 | c | FloatToHalf:
movd %xmm0, %ecx
addl $0x1000, %ecx # imm = 0x1000
movl %ecx, %eax
shrl $0x17, %eax
movzbl %al, %eax
movl %ecx, %edx
andl $0x7fffff, %edx # imm = 0x7FFFFF
movl %ecx, %esi
shrl $0x10, %esi
andl $0x8000, %esi # imm = 0x8000
shrl $0xd, %ecx
andl $0x7c00, %ecx # imm = 0x7C00
movl %edx, %edi
shrl $0xd, %edi
orl %ecx, %edi
xorl $0x4000, %edi # imm = 0x4000
xorl %r8d, %r8d
cmpl $0x71, %eax
cmovbl %r8d, %edi
leal -0x66(%rax), %r9d
addl $0x7ff000, %edx # imm = 0x7FF000
movb $0x7d, %cl
subb %al, %cl
shrl %cl, %edx
incl %edx
shrl %edx
cmpl $0xb, %r9d
cmovael %r8d, %edx
cmpl $0x90, %eax
movl $0x7fff, %eax # imm = 0x7FFF
cmovbl %r8d, %eax
orl %esi, %eax
orl %edi, %eax
orl %edx, %eax
retq
| FloatToHalf:
movd ecx, xmm0
add ecx, 1000h
mov eax, ecx
shr eax, 17h
movzx eax, al
mov edx, ecx
and edx, 7FFFFFh
mov esi, ecx
shr esi, 10h
and esi, 8000h
shr ecx, 0Dh
and ecx, 7C00h
mov edi, edx
shr edi, 0Dh
or edi, ecx
xor edi, 4000h
xor r8d, r8d
cmp eax, 71h ; 'q'
cmovb edi, r8d
lea r9d, [rax-66h]
add edx, 7FF000h
mov cl, 7Dh ; '}'
sub cl, al
shr edx, cl
inc edx
shr edx, 1
cmp r9d, 0Bh
cmovnb edx, r8d
cmp eax, 90h
mov eax, 7FFFh
cmovb eax, r8d
or eax, esi
or eax, edi
or eax, edx
retn
| long long FloatToHalf(__m128i a1)
{
unsigned int v1; // ecx
unsigned int v2; // eax
unsigned int v3; // edi
unsigned int v4; // edx
bool v5; // cf
int v6; // eax
v1 = _mm_cvtsi128_si32(a1) + 4096;
v2 = (unsigned __int8)(v1 >> 23);
v3 = ((v1 >> 13) & 0x7C00 | ((v1 & 0x7FFFFF) >> 13)) ^ 0x4000;
if ( v2 < 0x71 )
v3 = 0;
v4 = ((((v1 & 0x7FFFFF) + 8384512) >> (125 - v2)) + 1) >> 1;
if ( v2 - 102 >= 0xB )
v4 = 0;
v5 = v2 < 0x90;
v6 = 0x7FFF;
if ( v5 )
v6 = 0;
return v4 | v3 | HIWORD(v1) & 0x8000 | v6;
}
| FloatToHalf:
MOVD ECX,XMM0
ADD ECX,0x1000
MOV EAX,ECX
SHR EAX,0x17
MOVZX EAX,AL
MOV EDX,ECX
AND EDX,0x7fffff
MOV ESI,ECX
SHR ESI,0x10
AND ESI,0x8000
SHR ECX,0xd
AND ECX,0x7c00
MOV EDI,EDX
SHR EDI,0xd
OR EDI,ECX
XOR EDI,0x4000
XOR R8D,R8D
CMP EAX,0x71
CMOVC EDI,R8D
LEA R9D,[RAX + -0x66]
ADD EDX,0x7ff000
MOV CL,0x7d
SUB CL,AL
SHR EDX,CL
INC EDX
SHR EDX,0x1
CMP R9D,0xb
CMOVNC EDX,R8D
CMP EAX,0x90
MOV EAX,0x7fff
CMOVC EAX,R8D
OR EAX,ESI
OR EAX,EDI
OR EAX,EDX
RET
|
uint FloatToHalf(int param_1)
{
uint uVar1;
uint uVar2;
uint uVar3;
uint uVar4;
uint uVar5;
uVar3 = param_1 + 0x1000;
uVar1 = uVar3 >> 0x17 & 0xff;
uVar5 = ((uVar3 & 0x7fffff) >> 0xd | uVar3 >> 0xd & 0x7c00) ^ 0x4000;
if (uVar1 < 0x71) {
uVar5 = 0;
}
uVar4 = ((uVar3 & 0x7fffff) + 0x7ff000 >> (0x7dU - (char)(uVar3 >> 0x17) & 0x1f)) + 1 >> 1;
if (10 < uVar1 - 0x66) {
uVar4 = 0;
}
uVar2 = 0x7fff;
if (uVar1 < 0x90) {
uVar2 = 0;
}
return uVar2 | uVar3 >> 0x10 & 0x8000 | uVar5 | uVar4;
}
|
|
4,416 | thr_abort_locks | eloqsql/mysys/thr_lock.c | void thr_abort_locks(THR_LOCK *lock, my_bool upgrade_lock)
{
THR_LOCK_DATA *data;
DBUG_ENTER("thr_abort_locks");
mysql_mutex_lock(&lock->mutex);
for (data=lock->read_wait.data; data ; data=data->next)
{
data->type=TL_UNLOCK; /* Mark killed */
/* It's safe to signal the cond first: we're still holding the mutex. */
mysql_cond_signal(data->cond);
data->cond=0; /* Removed from list */
}
for (data=lock->write_wait.data; data ; data=data->next)
{
data->type=TL_UNLOCK;
mysql_cond_signal(data->cond);
data->cond=0;
}
lock->read_wait.last= &lock->read_wait.data;
lock->write_wait.last= &lock->write_wait.data;
lock->read_wait.data=lock->write_wait.data=0;
if (upgrade_lock && lock->write.data)
lock->write.data->type=TL_WRITE_ONLY;
mysql_mutex_unlock(&lock->mutex);
DBUG_VOID_RETURN;
} | O3 | c | thr_abort_locks:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x18, %rsp
movl %esi, -0x2c(%rbp)
movq %rdi, %r14
addq $0x18, %rdi
cmpq $0x0, 0x58(%r14)
movq %rdi, -0x38(%rbp)
jne 0xa3593
callq 0x29200
movq 0x60(%r14), %r15
testq %r15, %r15
je 0xa34ee
leaq 0x2e2b5e(%rip), %rbx # 0x386010
movl $0x0, 0x40(%r15)
movq 0x20(%r15), %r12
movq 0x30(%r12), %rdi
testq %rdi, %rdi
jne 0xa34e3
movq %r12, %rdi
callq 0x295b0
movq $0x0, 0x20(%r15)
movq 0x8(%r15), %r15
testq %r15, %r15
jne 0xa34b2
jmp 0xa34ee
movq (%rbx), %rax
callq *0x170(%rax)
jmp 0xa34c8
leaq 0x60(%r14), %r13
leaq 0x80(%r14), %r15
movq 0x80(%r14), %rbx
testq %rbx, %rbx
je 0xa3542
movl $0x0, 0x40(%rbx)
movq 0x20(%rbx), %r12
movq 0x30(%r12), %rdi
testq %rdi, %rdi
jne 0xa3530
movq %r12, %rdi
callq 0x295b0
movq $0x0, 0x20(%rbx)
movq 0x8(%rbx), %rbx
jmp 0xa3500
leaq 0x2e2ad9(%rip), %rax # 0x386010
movq (%rax), %rax
callq *0x170(%rax)
jmp 0xa351a
movq %r13, 0x68(%r14)
movq %r15, 0x88(%r14)
xorl %eax, %eax
movq %rax, 0x80(%r14)
movq %rax, 0x60(%r14)
cmpb $0x0, -0x2c(%rbp)
je 0xa3573
movq 0x90(%r14), %rax
testq %rax, %rax
je 0xa3573
movl $0xe, 0x40(%rax)
movq 0x58(%r14), %rdi
testq %rdi, %rdi
jne 0xa35a9
movq -0x38(%rbp), %rdi
addq $0x18, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
jmp 0x291c0
leaq 0x38f14(%rip), %rsi # 0xdc4ae
movl $0x520, %edx # imm = 0x520
callq 0x2eb6f
jmp 0xa34a2
leaq 0x2e2a60(%rip), %rax # 0x386010
movq (%rax), %rax
callq *0x160(%rax)
jmp 0xa357c
| thr_abort_locks:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 18h
mov [rbp+var_2C], esi
mov r14, rdi
add rdi, 18h
cmp qword ptr [r14+58h], 0
mov [rbp+var_38], rdi
jnz loc_A3593
call _pthread_mutex_lock
loc_A34A2:
mov r15, [r14+60h]
test r15, r15
jz short loc_A34EE
lea rbx, PSI_server
loc_A34B2:
mov dword ptr [r15+40h], 0
mov r12, [r15+20h]
mov rdi, [r12+30h]
test rdi, rdi
jnz short loc_A34E3
loc_A34C8:
mov rdi, r12
call _pthread_cond_signal
mov qword ptr [r15+20h], 0
mov r15, [r15+8]
test r15, r15
jnz short loc_A34B2
jmp short loc_A34EE
loc_A34E3:
mov rax, [rbx]
call qword ptr [rax+170h]
jmp short loc_A34C8
loc_A34EE:
lea r13, [r14+60h]
lea r15, [r14+80h]
mov rbx, [r14+80h]
loc_A3500:
test rbx, rbx
jz short loc_A3542
mov dword ptr [rbx+40h], 0
mov r12, [rbx+20h]
mov rdi, [r12+30h]
test rdi, rdi
jnz short loc_A3530
loc_A351A:
mov rdi, r12
call _pthread_cond_signal
mov qword ptr [rbx+20h], 0
mov rbx, [rbx+8]
jmp short loc_A3500
loc_A3530:
lea rax, PSI_server
mov rax, [rax]
call qword ptr [rax+170h]
jmp short loc_A351A
loc_A3542:
mov [r14+68h], r13
mov [r14+88h], r15
xor eax, eax
mov [r14+80h], rax
mov [r14+60h], rax
cmp byte ptr [rbp+var_2C], 0
jz short loc_A3573
mov rax, [r14+90h]
test rax, rax
jz short loc_A3573
mov dword ptr [rax+40h], 0Eh
loc_A3573:
mov rdi, [r14+58h]
test rdi, rdi
jnz short loc_A35A9
loc_A357C:
mov rdi, [rbp+var_38]
add rsp, 18h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
jmp _pthread_mutex_unlock
loc_A3593:
lea rsi, aWorkspaceLlm4b_23; "/workspace/llm4binary/github2025/eloqsq"...
mov edx, 520h
call psi_mutex_lock
jmp loc_A34A2
loc_A35A9:
lea rax, PSI_server
mov rax, [rax]
call qword ptr [rax+160h]
jmp short loc_A357C
| long long thr_abort_locks(_QWORD *a1, char a2)
{
long long v3; // rdi
long long i; // r15
long long v5; // r12
long long j; // rbx
long long v7; // r12
long long v8; // rax
v3 = (long long)(a1 + 3);
if ( a1[11] )
psi_mutex_lock(v3, (long long)"/workspace/llm4binary/github2025/eloqsql/mysys/thr_lock.c", 0x520u);
else
pthread_mutex_lock(v3);
for ( i = a1[12]; i; i = *(_QWORD *)(i + 8) )
{
*(_DWORD *)(i + 64) = 0;
v5 = *(_QWORD *)(i + 32);
if ( *(_QWORD *)(v5 + 48) )
PSI_server[46]();
pthread_cond_signal(v5);
*(_QWORD *)(i + 32) = 0LL;
}
for ( j = a1[16]; j; j = *(_QWORD *)(j + 8) )
{
*(_DWORD *)(j + 64) = 0;
v7 = *(_QWORD *)(j + 32);
if ( *(_QWORD *)(v7 + 48) )
PSI_server[46]();
pthread_cond_signal(v7);
*(_QWORD *)(j + 32) = 0LL;
}
a1[13] = a1 + 12;
a1[17] = a1 + 16;
a1[16] = 0LL;
a1[12] = 0LL;
if ( a2 )
{
v8 = a1[18];
if ( v8 )
*(_DWORD *)(v8 + 64) = 14;
}
if ( a1[11] )
PSI_server[44]();
return pthread_mutex_unlock(v3);
}
| thr_abort_locks:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x18
MOV dword ptr [RBP + -0x2c],ESI
MOV R14,RDI
ADD RDI,0x18
CMP qword ptr [R14 + 0x58],0x0
MOV qword ptr [RBP + -0x38],RDI
JNZ 0x001a3593
CALL 0x00129200
LAB_001a34a2:
MOV R15,qword ptr [R14 + 0x60]
TEST R15,R15
JZ 0x001a34ee
LEA RBX,[0x486010]
LAB_001a34b2:
MOV dword ptr [R15 + 0x40],0x0
MOV R12,qword ptr [R15 + 0x20]
MOV RDI,qword ptr [R12 + 0x30]
TEST RDI,RDI
JNZ 0x001a34e3
LAB_001a34c8:
MOV RDI,R12
CALL 0x001295b0
MOV qword ptr [R15 + 0x20],0x0
MOV R15,qword ptr [R15 + 0x8]
TEST R15,R15
JNZ 0x001a34b2
JMP 0x001a34ee
LAB_001a34e3:
MOV RAX,qword ptr [RBX]
CALL qword ptr [RAX + 0x170]
JMP 0x001a34c8
LAB_001a34ee:
LEA R13,[R14 + 0x60]
LEA R15,[R14 + 0x80]
MOV RBX,qword ptr [R14 + 0x80]
LAB_001a3500:
TEST RBX,RBX
JZ 0x001a3542
MOV dword ptr [RBX + 0x40],0x0
MOV R12,qword ptr [RBX + 0x20]
MOV RDI,qword ptr [R12 + 0x30]
TEST RDI,RDI
JNZ 0x001a3530
LAB_001a351a:
MOV RDI,R12
CALL 0x001295b0
MOV qword ptr [RBX + 0x20],0x0
MOV RBX,qword ptr [RBX + 0x8]
JMP 0x001a3500
LAB_001a3530:
LEA RAX,[0x486010]
MOV RAX,qword ptr [RAX]
CALL qword ptr [RAX + 0x170]
JMP 0x001a351a
LAB_001a3542:
MOV qword ptr [R14 + 0x68],R13
MOV qword ptr [R14 + 0x88],R15
XOR EAX,EAX
MOV qword ptr [R14 + 0x80],RAX
MOV qword ptr [R14 + 0x60],RAX
CMP byte ptr [RBP + -0x2c],0x0
JZ 0x001a3573
MOV RAX,qword ptr [R14 + 0x90]
TEST RAX,RAX
JZ 0x001a3573
MOV dword ptr [RAX + 0x40],0xe
LAB_001a3573:
MOV RDI,qword ptr [R14 + 0x58]
TEST RDI,RDI
JNZ 0x001a35a9
LAB_001a357c:
MOV RDI,qword ptr [RBP + -0x38]
ADD RSP,0x18
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
JMP 0x001291c0
LAB_001a3593:
LEA RSI,[0x1dc4ae]
MOV EDX,0x520
CALL 0x0012eb6f
JMP 0x001a34a2
LAB_001a35a9:
LEA RAX,[0x486010]
MOV RAX,qword ptr [RAX]
CALL qword ptr [RAX + 0x160]
JMP 0x001a357c
|
void thr_abort_locks(long param_1,char param_2)
{
pthread_cond_t *ppVar1;
long lVar2;
pthread_mutex_t *__mutex;
__mutex = (pthread_mutex_t *)(param_1 + 0x18);
if (*(long *)(param_1 + 0x58) == 0) {
pthread_mutex_lock(__mutex);
}
else {
psi_mutex_lock(__mutex,"/workspace/llm4binary/github2025/eloqsql/mysys/thr_lock.c",0x520);
}
for (lVar2 = *(long *)(param_1 + 0x60); lVar2 != 0; lVar2 = *(long *)(lVar2 + 8)) {
*(int4 *)(lVar2 + 0x40) = 0;
ppVar1 = *(pthread_cond_t **)(lVar2 + 0x20);
if (ppVar1[1].__align != 0) {
(**(code **)(PSI_server + 0x170))();
}
pthread_cond_signal(ppVar1);
*(int8 *)(lVar2 + 0x20) = 0;
}
for (lVar2 = *(long *)(param_1 + 0x80); lVar2 != 0; lVar2 = *(long *)(lVar2 + 8)) {
*(int4 *)(lVar2 + 0x40) = 0;
ppVar1 = *(pthread_cond_t **)(lVar2 + 0x20);
if (ppVar1[1].__align != 0) {
(**(code **)(PSI_server + 0x170))();
}
pthread_cond_signal(ppVar1);
*(int8 *)(lVar2 + 0x20) = 0;
}
*(long *)(param_1 + 0x68) = param_1 + 0x60;
*(long *)(param_1 + 0x88) = param_1 + 0x80;
*(int8 *)(param_1 + 0x80) = 0;
*(int8 *)(param_1 + 0x60) = 0;
if ((param_2 != '\0') && (*(long *)(param_1 + 0x90) != 0)) {
*(int4 *)(*(long *)(param_1 + 0x90) + 0x40) = 0xe;
}
if (*(long *)(param_1 + 0x58) != 0) {
(**(code **)(PSI_server + 0x160))();
}
pthread_mutex_unlock(__mutex);
return;
}
|
|
4,417 | extent_to_bitmap_blocks | eloqsql/storage/maria/ma_blockrec.c | static my_bool extent_to_bitmap_blocks(MARIA_HA *info,
MARIA_BITMAP_BLOCKS *blocks,
pgcache_page_no_t head_page,
uint extent_count,
const uchar *extent_info)
{
MARIA_BITMAP_BLOCK *block, *start_block;
MARIA_SHARE *share= info->s;
uint i, tail_page;
DBUG_ENTER("extent_to_bitmap_blocks");
if (allocate_dynamic(&info->bitmap_blocks, extent_count + 2))
DBUG_RETURN(1);
block= blocks->block= dynamic_element(&info->bitmap_blocks, 0,
MARIA_BITMAP_BLOCK*);
blocks->count= extent_count + 1;
blocks->tail_page_skipped= blocks->page_skipped= 0;
block->page= head_page;
block->page_count= 1;
block->used= BLOCKUSED_USED | BLOCKUSED_USE_ORG_BITMAP;
/* Impossible value, will force storage of real value */
block->org_bitmap_value= 255;
start_block= block++;
for (i=0 ;
i++ < extent_count ;
block++, extent_info+= ROW_EXTENT_SIZE)
{
uint page_count= uint2korr(extent_info + ROW_EXTENT_PAGE_SIZE);
if (page_count & START_EXTENT_BIT)
{
page_count&= ~START_EXTENT_BIT;
start_block->sub_blocks= (uint) (block - start_block);
start_block= block;
}
block->page= page_korr(extent_info);
block->page_count= page_count;
block->sub_blocks= 0;
if (block->page_count == 0)
{
/* Extend allocated but not used by write_block_record() */
DBUG_ASSERT(block->page == 0);
/* This is the last block */
blocks->count= i;
break;
}
if ((tail_page= page_count & TAIL_BIT))
page_count= 1;
/* Check if wrong data */
if (block->page == 0 || page_count == 0 ||
(block->page + page_count) * share->block_size >
share->state.state.data_file_length)
{
DBUG_PRINT("error", ("page: %lu page_count: %u tail: %u length: %ld data_length: %ld",
(ulong) block->page,
(block->page_count & ~TAIL_BIT),
(uint) MY_TEST(block->page_count & TAIL_BIT),
(ulong) ((block->page + (page_count & ~TAIL_BIT)) *
share->block_size),
(ulong) share->state.state.data_file_length));
DBUG_RETURN(1);
}
if (tail_page)
{
block->org_bitmap_value= _ma_bitmap_get_page_bits(info, &share->bitmap,
block->page);
block->used= (BLOCKUSED_TAIL | BLOCKUSED_USED |
BLOCKUSED_USE_ORG_BITMAP);
}
else
{
my_bool res;
mysql_mutex_lock(&share->bitmap.bitmap_lock);
res= _ma_bitmap_set_full_page_bits(info, &share->bitmap,
block->page, page_count);
mysql_mutex_unlock(&share->bitmap.bitmap_lock);
if (res)
DBUG_RETURN(1);
block->used= BLOCKUSED_USED;
}
}
start_block->sub_blocks= (uint) (block - start_block);
DBUG_RETURN(0);
} | O0 | c | extent_to_bitmap_blocks:
pushq %rbp
movq %rsp, %rbp
subq $0x60, %rsp
movq %rdi, -0x10(%rbp)
movq %rsi, -0x18(%rbp)
movq %rdx, -0x20(%rbp)
movl %ecx, -0x24(%rbp)
movq %r8, -0x30(%rbp)
movq -0x10(%rbp), %rax
movq (%rax), %rax
movq %rax, -0x48(%rbp)
movq -0x10(%rbp), %rdi
addq $0x2c0, %rdi # imm = 0x2C0
movl -0x24(%rbp), %esi
addl $0x2, %esi
callq 0xdfc60
cmpb $0x0, %al
je 0x5a7fb
jmp 0x5a7f2
movb $0x1, -0x1(%rbp)
jmp 0x5aa51
movq -0x10(%rbp), %rax
movq 0x2c0(%rax), %rax
movq -0x18(%rbp), %rcx
movq %rax, (%rcx)
movq %rax, -0x38(%rbp)
movl -0x24(%rbp), %ecx
addl $0x1, %ecx
movq -0x18(%rbp), %rax
movl %ecx, 0x8(%rax)
movq -0x18(%rbp), %rax
movb $0x0, 0xd(%rax)
movq -0x18(%rbp), %rax
movb $0x0, 0xc(%rax)
movq -0x20(%rbp), %rcx
movq -0x38(%rbp), %rax
movq %rcx, (%rax)
movq -0x38(%rbp), %rax
movl $0x1, 0x8(%rax)
movq -0x38(%rbp), %rax
movb $0x3, 0x14(%rax)
movq -0x38(%rbp), %rax
movb $-0x1, 0x15(%rax)
movq -0x38(%rbp), %rax
movq %rax, %rcx
addq $0x18, %rcx
movq %rcx, -0x38(%rbp)
movq %rax, -0x40(%rbp)
movl $0x0, -0x4c(%rbp)
movl -0x4c(%rbp), %eax
movl %eax, %ecx
addl $0x1, %ecx
movl %ecx, -0x4c(%rbp)
cmpl -0x24(%rbp), %eax
jae 0x5aa2f
movq -0x30(%rbp), %rax
movzwl 0x5(%rax), %eax
movl %eax, -0x54(%rbp)
movl -0x54(%rbp), %eax
andl $0x4000, %eax # imm = 0x4000
cmpl $0x0, %eax
je 0x5a8cb
movl -0x54(%rbp), %eax
andl $0xffffbfff, %eax # imm = 0xFFFFBFFF
movl %eax, -0x54(%rbp)
movq -0x38(%rbp), %rax
movq -0x40(%rbp), %rcx
subq %rcx, %rax
movl $0x18, %ecx
cqto
idivq %rcx
movl %eax, %ecx
movq -0x40(%rbp), %rax
movl %ecx, 0x10(%rax)
movq -0x38(%rbp), %rax
movq %rax, -0x40(%rbp)
movq -0x30(%rbp), %rdi
callq 0x57f30
movq %rax, %rcx
movq -0x38(%rbp), %rax
movq %rcx, (%rax)
movl -0x54(%rbp), %ecx
movq -0x38(%rbp), %rax
movl %ecx, 0x8(%rax)
movq -0x38(%rbp), %rax
movl $0x0, 0x10(%rax)
movq -0x38(%rbp), %rax
cmpl $0x0, 0x8(%rax)
jne 0x5a910
jmp 0x5a8ff
jmp 0x5a901
movl -0x4c(%rbp), %ecx
movq -0x18(%rbp), %rax
movl %ecx, 0x8(%rax)
jmp 0x5aa2f
movl -0x54(%rbp), %eax
andl $0x8000, %eax # imm = 0x8000
movl %eax, -0x50(%rbp)
cmpl $0x0, %eax
je 0x5a927
movl $0x1, -0x54(%rbp)
movq -0x38(%rbp), %rax
cmpq $0x0, (%rax)
je 0x5a95c
cmpl $0x0, -0x54(%rbp)
je 0x5a95c
movq -0x38(%rbp), %rax
movq (%rax), %rax
movl -0x54(%rbp), %ecx
addq %rcx, %rax
movq -0x48(%rbp), %rcx
movl 0x7bc(%rcx), %ecx
imulq %rcx, %rax
movq -0x48(%rbp), %rcx
cmpq 0x40(%rcx), %rax
jbe 0x5a96b
jmp 0x5a95e
jmp 0x5a960
jmp 0x5a962
movb $0x1, -0x1(%rbp)
jmp 0x5aa51
cmpl $0x0, -0x50(%rbp)
je 0x5a99f
movq -0x10(%rbp), %rdi
movq -0x48(%rbp), %rsi
addq $0xa10, %rsi # imm = 0xA10
movq -0x38(%rbp), %rax
movq (%rax), %rdx
callq 0x61480
movb %al, %cl
movq -0x38(%rbp), %rax
movb %cl, 0x15(%rax)
movq -0x38(%rbp), %rax
movb $0x7, 0x14(%rax)
jmp 0x5aa10
movq -0x48(%rbp), %rdi
addq $0xa10, %rdi # imm = 0xA10
addq $0x88, %rdi
leaq 0x10234d(%rip), %rsi # 0x15cd05
movl $0x97d, %edx # imm = 0x97D
callq 0x58c50
movq -0x10(%rbp), %rdi
movq -0x48(%rbp), %rsi
addq $0xa10, %rsi # imm = 0xA10
movq -0x38(%rbp), %rax
movq (%rax), %rdx
movl -0x54(%rbp), %ecx
callq 0x617a0
movb %al, -0x55(%rbp)
movq -0x48(%rbp), %rdi
addq $0xa10, %rdi # imm = 0xA10
addq $0x88, %rdi
callq 0x58cc0
cmpb $0x0, -0x55(%rbp)
je 0x5aa08
jmp 0x5aa02
movb $0x1, -0x1(%rbp)
jmp 0x5aa51
movq -0x38(%rbp), %rax
movb $0x1, 0x14(%rax)
jmp 0x5aa12
movq -0x38(%rbp), %rax
addq $0x18, %rax
movq %rax, -0x38(%rbp)
movq -0x30(%rbp), %rax
addq $0x7, %rax
movq %rax, -0x30(%rbp)
jmp 0x5a86e
movq -0x38(%rbp), %rax
movq -0x40(%rbp), %rcx
subq %rcx, %rax
movl $0x18, %ecx
cqto
idivq %rcx
movl %eax, %ecx
movq -0x40(%rbp), %rax
movl %ecx, 0x10(%rax)
movb $0x0, -0x1(%rbp)
movb -0x1(%rbp), %al
addq $0x60, %rsp
popq %rbp
retq
nopw (%rax,%rax)
| extent_to_bitmap_blocks:
push rbp
mov rbp, rsp
sub rsp, 60h
mov [rbp+var_10], rdi
mov [rbp+var_18], rsi
mov [rbp+var_20], rdx
mov [rbp+var_24], ecx
mov [rbp+var_30], r8
mov rax, [rbp+var_10]
mov rax, [rax]
mov [rbp+var_48], rax
mov rdi, [rbp+var_10]
add rdi, 2C0h
mov esi, [rbp+var_24]
add esi, 2
call allocate_dynamic
cmp al, 0
jz short loc_5A7FB
jmp short $+2
loc_5A7F2:
mov [rbp+var_1], 1
jmp loc_5AA51
loc_5A7FB:
mov rax, [rbp+var_10]
mov rax, [rax+2C0h]
mov rcx, [rbp+var_18]
mov [rcx], rax
mov [rbp+var_38], rax
mov ecx, [rbp+var_24]
add ecx, 1
mov rax, [rbp+var_18]
mov [rax+8], ecx
mov rax, [rbp+var_18]
mov byte ptr [rax+0Dh], 0
mov rax, [rbp+var_18]
mov byte ptr [rax+0Ch], 0
mov rcx, [rbp+var_20]
mov rax, [rbp+var_38]
mov [rax], rcx
mov rax, [rbp+var_38]
mov dword ptr [rax+8], 1
mov rax, [rbp+var_38]
mov byte ptr [rax+14h], 3
mov rax, [rbp+var_38]
mov byte ptr [rax+15h], 0FFh
mov rax, [rbp+var_38]
mov rcx, rax
add rcx, 18h
mov [rbp+var_38], rcx
mov [rbp+var_40], rax
mov [rbp+var_4C], 0
loc_5A86E:
mov eax, [rbp+var_4C]
mov ecx, eax
add ecx, 1
mov [rbp+var_4C], ecx
cmp eax, [rbp+var_24]
jnb loc_5AA2F
mov rax, [rbp+var_30]
movzx eax, word ptr [rax+5]
mov [rbp+var_54], eax
mov eax, [rbp+var_54]
and eax, 4000h
cmp eax, 0
jz short loc_5A8CB
mov eax, [rbp+var_54]
and eax, 0FFFFBFFFh
mov [rbp+var_54], eax
mov rax, [rbp+var_38]
mov rcx, [rbp+var_40]
sub rax, rcx
mov ecx, 18h
cqo
idiv rcx
mov ecx, eax
mov rax, [rbp+var_40]
mov [rax+10h], ecx
mov rax, [rbp+var_38]
mov [rbp+var_40], rax
loc_5A8CB:
mov rdi, [rbp+var_30]
call uint5korr_0
mov rcx, rax
mov rax, [rbp+var_38]
mov [rax], rcx
mov ecx, [rbp+var_54]
mov rax, [rbp+var_38]
mov [rax+8], ecx
mov rax, [rbp+var_38]
mov dword ptr [rax+10h], 0
mov rax, [rbp+var_38]
cmp dword ptr [rax+8], 0
jnz short loc_5A910
jmp short $+2
loc_5A8FF:
jmp short $+2
loc_5A901:
mov ecx, [rbp+var_4C]
mov rax, [rbp+var_18]
mov [rax+8], ecx
jmp loc_5AA2F
loc_5A910:
mov eax, [rbp+var_54]
and eax, 8000h
mov [rbp+var_50], eax
cmp eax, 0
jz short loc_5A927
mov [rbp+var_54], 1
loc_5A927:
mov rax, [rbp+var_38]
cmp qword ptr [rax], 0
jz short loc_5A95C
cmp [rbp+var_54], 0
jz short loc_5A95C
mov rax, [rbp+var_38]
mov rax, [rax]
mov ecx, [rbp+var_54]
add rax, rcx
mov rcx, [rbp+var_48]
mov ecx, [rcx+7BCh]
imul rax, rcx
mov rcx, [rbp+var_48]
cmp rax, [rcx+40h]
jbe short loc_5A96B
loc_5A95C:
jmp short $+2
loc_5A95E:
jmp short $+2
loc_5A960:
jmp short $+2
loc_5A962:
mov [rbp+var_1], 1
jmp loc_5AA51
loc_5A96B:
cmp [rbp+var_50], 0
jz short loc_5A99F
mov rdi, [rbp+var_10]
mov rsi, [rbp+var_48]
add rsi, 0A10h
mov rax, [rbp+var_38]
mov rdx, [rax]
call _ma_bitmap_get_page_bits
mov cl, al
mov rax, [rbp+var_38]
mov [rax+15h], cl
mov rax, [rbp+var_38]
mov byte ptr [rax+14h], 7
jmp short loc_5AA10
loc_5A99F:
mov rdi, [rbp+var_48]
add rdi, 0A10h
add rdi, 88h
lea rsi, aWorkspaceLlm4b_10; "/workspace/llm4binary/github2025/eloqsq"...
mov edx, 97Dh
call inline_mysql_mutex_lock_6
mov rdi, [rbp+var_10]
mov rsi, [rbp+var_48]
add rsi, 0A10h
mov rax, [rbp+var_38]
mov rdx, [rax]
mov ecx, [rbp+var_54]
call _ma_bitmap_set_full_page_bits
mov [rbp+var_55], al
mov rdi, [rbp+var_48]
add rdi, 0A10h
add rdi, 88h
call inline_mysql_mutex_unlock_6
cmp [rbp+var_55], 0
jz short loc_5AA08
jmp short $+2
loc_5AA02:
mov [rbp+var_1], 1
jmp short loc_5AA51
loc_5AA08:
mov rax, [rbp+var_38]
mov byte ptr [rax+14h], 1
loc_5AA10:
jmp short $+2
loc_5AA12:
mov rax, [rbp+var_38]
add rax, 18h
mov [rbp+var_38], rax
mov rax, [rbp+var_30]
add rax, 7
mov [rbp+var_30], rax
jmp loc_5A86E
loc_5AA2F:
mov rax, [rbp+var_38]
mov rcx, [rbp+var_40]
sub rax, rcx
mov ecx, 18h
cqo
idiv rcx
mov ecx, eax
mov rax, [rbp+var_40]
mov [rax+10h], ecx
mov [rbp+var_1], 0
loc_5AA51:
mov al, [rbp+var_1]
add rsp, 60h
pop rbp
retn
| char extent_to_bitmap_blocks(long long *a1, long long a2, long long a3, unsigned int a4, long long a5)
{
long long v5; // rax
unsigned int v6; // eax
char v8; // [rsp+Bh] [rbp-55h]
unsigned int v9; // [rsp+Ch] [rbp-54h]
int v10; // [rsp+10h] [rbp-50h]
unsigned int v11; // [rsp+14h] [rbp-4Ch]
long long v12; // [rsp+18h] [rbp-48h]
unsigned long long *v13; // [rsp+20h] [rbp-40h]
unsigned long long *v14; // [rsp+28h] [rbp-38h]
v12 = *a1;
if ( (unsigned __int8)allocate_dynamic(a1 + 88, a4 + 2) )
return 1;
v5 = a1[88];
*(_QWORD *)a2 = v5;
*(_DWORD *)(a2 + 8) = a4 + 1;
*(_BYTE *)(a2 + 13) = 0;
*(_BYTE *)(a2 + 12) = 0;
*(_QWORD *)v5 = a3;
*(_DWORD *)(v5 + 8) = 1;
*(_BYTE *)(v5 + 20) = 3;
*(_BYTE *)(v5 + 21) = -1;
v14 = (unsigned long long *)(v5 + 24);
v13 = (unsigned long long *)v5;
v11 = 0;
while ( 1 )
{
v6 = v11++;
if ( v6 >= a4 )
break;
v9 = *(unsigned __int16 *)(a5 + 5);
if ( (v9 & 0x4000) != 0 )
{
v9 &= ~0x4000u;
*((_DWORD *)v13 + 4) = ((char *)v14 - (char *)v13) / 24;
v13 = v14;
}
*v14 = uint5korr_0((unsigned int *)a5);
*((_DWORD *)v14 + 2) = v9;
*((_DWORD *)v14 + 4) = 0;
if ( !*((_DWORD *)v14 + 2) )
{
*(_DWORD *)(a2 + 8) = v11;
break;
}
v10 = v9 & 0x8000;
if ( (v9 & 0x8000) != 0 )
v9 = 1;
if ( !*v14 || !v9 || *(unsigned int *)(v12 + 1980) * (v9 + *v14) > *(_QWORD *)(v12 + 64) )
return 1;
if ( v10 )
{
*((_BYTE *)v14 + 21) = ma_bitmap_get_page_bits(a1, v12 + 2576, *v14);
*((_BYTE *)v14 + 20) = 7;
}
else
{
inline_mysql_mutex_lock_6(
v12 + 2712,
(long long)"/workspace/llm4binary/github2025/eloqsql/storage/maria/ma_blockrec.c",
0x97Du);
v8 = ma_bitmap_set_full_page_bits(a1, v12 + 2576, *v14, v9);
inline_mysql_mutex_unlock_6(v12 + 2712);
if ( v8 )
return 1;
*((_BYTE *)v14 + 20) = 1;
}
v14 += 3;
a5 += 7LL;
}
*((_DWORD *)v13 + 4) = ((char *)v14 - (char *)v13) / 24;
return 0;
}
| extent_to_bitmap_blocks:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x60
MOV qword ptr [RBP + -0x10],RDI
MOV qword ptr [RBP + -0x18],RSI
MOV qword ptr [RBP + -0x20],RDX
MOV dword ptr [RBP + -0x24],ECX
MOV qword ptr [RBP + -0x30],R8
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX]
MOV qword ptr [RBP + -0x48],RAX
MOV RDI,qword ptr [RBP + -0x10]
ADD RDI,0x2c0
MOV ESI,dword ptr [RBP + -0x24]
ADD ESI,0x2
CALL 0x001dfc60
CMP AL,0x0
JZ 0x0015a7fb
JMP 0x0015a7f2
LAB_0015a7f2:
MOV byte ptr [RBP + -0x1],0x1
JMP 0x0015aa51
LAB_0015a7fb:
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x2c0]
MOV RCX,qword ptr [RBP + -0x18]
MOV qword ptr [RCX],RAX
MOV qword ptr [RBP + -0x38],RAX
MOV ECX,dword ptr [RBP + -0x24]
ADD ECX,0x1
MOV RAX,qword ptr [RBP + -0x18]
MOV dword ptr [RAX + 0x8],ECX
MOV RAX,qword ptr [RBP + -0x18]
MOV byte ptr [RAX + 0xd],0x0
MOV RAX,qword ptr [RBP + -0x18]
MOV byte ptr [RAX + 0xc],0x0
MOV RCX,qword ptr [RBP + -0x20]
MOV RAX,qword ptr [RBP + -0x38]
MOV qword ptr [RAX],RCX
MOV RAX,qword ptr [RBP + -0x38]
MOV dword ptr [RAX + 0x8],0x1
MOV RAX,qword ptr [RBP + -0x38]
MOV byte ptr [RAX + 0x14],0x3
MOV RAX,qword ptr [RBP + -0x38]
MOV byte ptr [RAX + 0x15],0xff
MOV RAX,qword ptr [RBP + -0x38]
MOV RCX,RAX
ADD RCX,0x18
MOV qword ptr [RBP + -0x38],RCX
MOV qword ptr [RBP + -0x40],RAX
MOV dword ptr [RBP + -0x4c],0x0
LAB_0015a86e:
MOV EAX,dword ptr [RBP + -0x4c]
MOV ECX,EAX
ADD ECX,0x1
MOV dword ptr [RBP + -0x4c],ECX
CMP EAX,dword ptr [RBP + -0x24]
JNC 0x0015aa2f
MOV RAX,qword ptr [RBP + -0x30]
MOVZX EAX,word ptr [RAX + 0x5]
MOV dword ptr [RBP + -0x54],EAX
MOV EAX,dword ptr [RBP + -0x54]
AND EAX,0x4000
CMP EAX,0x0
JZ 0x0015a8cb
MOV EAX,dword ptr [RBP + -0x54]
AND EAX,0xffffbfff
MOV dword ptr [RBP + -0x54],EAX
MOV RAX,qword ptr [RBP + -0x38]
MOV RCX,qword ptr [RBP + -0x40]
SUB RAX,RCX
MOV ECX,0x18
CQO
IDIV RCX
MOV ECX,EAX
MOV RAX,qword ptr [RBP + -0x40]
MOV dword ptr [RAX + 0x10],ECX
MOV RAX,qword ptr [RBP + -0x38]
MOV qword ptr [RBP + -0x40],RAX
LAB_0015a8cb:
MOV RDI,qword ptr [RBP + -0x30]
CALL 0x00157f30
MOV RCX,RAX
MOV RAX,qword ptr [RBP + -0x38]
MOV qword ptr [RAX],RCX
MOV ECX,dword ptr [RBP + -0x54]
MOV RAX,qword ptr [RBP + -0x38]
MOV dword ptr [RAX + 0x8],ECX
MOV RAX,qword ptr [RBP + -0x38]
MOV dword ptr [RAX + 0x10],0x0
MOV RAX,qword ptr [RBP + -0x38]
CMP dword ptr [RAX + 0x8],0x0
JNZ 0x0015a910
JMP 0x0015a8ff
LAB_0015a8ff:
JMP 0x0015a901
LAB_0015a901:
MOV ECX,dword ptr [RBP + -0x4c]
MOV RAX,qword ptr [RBP + -0x18]
MOV dword ptr [RAX + 0x8],ECX
JMP 0x0015aa2f
LAB_0015a910:
MOV EAX,dword ptr [RBP + -0x54]
AND EAX,0x8000
MOV dword ptr [RBP + -0x50],EAX
CMP EAX,0x0
JZ 0x0015a927
MOV dword ptr [RBP + -0x54],0x1
LAB_0015a927:
MOV RAX,qword ptr [RBP + -0x38]
CMP qword ptr [RAX],0x0
JZ 0x0015a95c
CMP dword ptr [RBP + -0x54],0x0
JZ 0x0015a95c
MOV RAX,qword ptr [RBP + -0x38]
MOV RAX,qword ptr [RAX]
MOV ECX,dword ptr [RBP + -0x54]
ADD RAX,RCX
MOV RCX,qword ptr [RBP + -0x48]
MOV ECX,dword ptr [RCX + 0x7bc]
IMUL RAX,RCX
MOV RCX,qword ptr [RBP + -0x48]
CMP RAX,qword ptr [RCX + 0x40]
JBE 0x0015a96b
LAB_0015a95c:
JMP 0x0015a95e
LAB_0015a95e:
JMP 0x0015a960
LAB_0015a960:
JMP 0x0015a962
LAB_0015a962:
MOV byte ptr [RBP + -0x1],0x1
JMP 0x0015aa51
LAB_0015a96b:
CMP dword ptr [RBP + -0x50],0x0
JZ 0x0015a99f
MOV RDI,qword ptr [RBP + -0x10]
MOV RSI,qword ptr [RBP + -0x48]
ADD RSI,0xa10
MOV RAX,qword ptr [RBP + -0x38]
MOV RDX,qword ptr [RAX]
CALL 0x00161480
MOV CL,AL
MOV RAX,qword ptr [RBP + -0x38]
MOV byte ptr [RAX + 0x15],CL
MOV RAX,qword ptr [RBP + -0x38]
MOV byte ptr [RAX + 0x14],0x7
JMP 0x0015aa10
LAB_0015a99f:
MOV RDI,qword ptr [RBP + -0x48]
ADD RDI,0xa10
ADD RDI,0x88
LEA RSI,[0x25cd05]
MOV EDX,0x97d
CALL 0x00158c50
MOV RDI,qword ptr [RBP + -0x10]
MOV RSI,qword ptr [RBP + -0x48]
ADD RSI,0xa10
MOV RAX,qword ptr [RBP + -0x38]
MOV RDX,qword ptr [RAX]
MOV ECX,dword ptr [RBP + -0x54]
CALL 0x001617a0
MOV byte ptr [RBP + -0x55],AL
MOV RDI,qword ptr [RBP + -0x48]
ADD RDI,0xa10
ADD RDI,0x88
CALL 0x00158cc0
CMP byte ptr [RBP + -0x55],0x0
JZ 0x0015aa08
JMP 0x0015aa02
LAB_0015aa02:
MOV byte ptr [RBP + -0x1],0x1
JMP 0x0015aa51
LAB_0015aa08:
MOV RAX,qword ptr [RBP + -0x38]
MOV byte ptr [RAX + 0x14],0x1
LAB_0015aa10:
JMP 0x0015aa12
LAB_0015aa12:
MOV RAX,qword ptr [RBP + -0x38]
ADD RAX,0x18
MOV qword ptr [RBP + -0x38],RAX
MOV RAX,qword ptr [RBP + -0x30]
ADD RAX,0x7
MOV qword ptr [RBP + -0x30],RAX
JMP 0x0015a86e
LAB_0015aa2f:
MOV RAX,qword ptr [RBP + -0x38]
MOV RCX,qword ptr [RBP + -0x40]
SUB RAX,RCX
MOV ECX,0x18
CQO
IDIV RCX
MOV ECX,EAX
MOV RAX,qword ptr [RBP + -0x40]
MOV dword ptr [RAX + 0x10],ECX
MOV byte ptr [RBP + -0x1],0x0
LAB_0015aa51:
MOV AL,byte ptr [RBP + -0x1]
ADD RSP,0x60
POP RBP
RET
|
int1
extent_to_bitmap_blocks(long *param_1,long *param_2,long param_3,uint param_4,long param_5)
{
long lVar1;
long *plVar2;
char cVar3;
int1 uVar4;
uint uVar5;
long lVar6;
ulong uVar7;
uint local_5c;
uint local_54;
long *local_48;
long *local_40;
long local_38;
int1 local_9;
lVar1 = *param_1;
cVar3 = allocate_dynamic(param_1 + 0x58,param_4 + 2);
if (cVar3 == '\0') {
local_48 = (long *)param_1[0x58];
*param_2 = (long)local_48;
*(uint *)(param_2 + 1) = param_4 + 1;
*(int1 *)((long)param_2 + 0xd) = 0;
*(int1 *)((long)param_2 + 0xc) = 0;
*local_48 = param_3;
*(int4 *)(local_48 + 1) = 1;
*(int1 *)((long)local_48 + 0x14) = 3;
*(int1 *)((long)local_48 + 0x15) = 0xff;
local_54 = 0;
local_38 = param_5;
plVar2 = local_48;
while( true ) {
local_40 = plVar2 + 3;
if (param_4 <= local_54) break;
local_5c = (uint)*(ushort *)(local_38 + 5);
if ((*(ushort *)(local_38 + 5) & 0x4000) != 0) {
local_5c = local_5c & 0xffffbfff;
*(int *)(local_48 + 2) = (int)(((long)local_40 - (long)local_48) / 0x18);
local_48 = local_40;
}
lVar6 = uint5korr(local_38);
*local_40 = lVar6;
*(uint *)(plVar2 + 4) = local_5c;
*(int4 *)(plVar2 + 5) = 0;
if ((int)plVar2[4] == 0) {
*(uint *)(param_2 + 1) = local_54 + 1;
break;
}
uVar5 = local_5c & 0x8000;
if (uVar5 != 0) {
local_5c = 1;
}
if (((*local_40 == 0) || (local_5c == 0)) ||
(uVar7 = (*local_40 + (ulong)local_5c) * (ulong)*(uint *)(lVar1 + 0x7bc),
*(ulong *)(lVar1 + 0x40) <= uVar7 && uVar7 - *(ulong *)(lVar1 + 0x40) != 0)) {
return 1;
}
if (uVar5 == 0) {
inline_mysql_mutex_lock
(lVar1 + 0xa98,
"/workspace/llm4binary/github2025/eloqsql/storage/maria/ma_blockrec.c",0x97d);
cVar3 = _ma_bitmap_set_full_page_bits(param_1,lVar1 + 0xa10,*local_40,local_5c);
inline_mysql_mutex_unlock(lVar1 + 0xa98);
if (cVar3 != '\0') {
return 1;
}
*(int1 *)((long)plVar2 + 0x2c) = 1;
}
else {
uVar4 = _ma_bitmap_get_page_bits(param_1,lVar1 + 0xa10,*local_40);
*(int1 *)((long)plVar2 + 0x2d) = uVar4;
*(int1 *)((long)plVar2 + 0x2c) = 7;
}
local_38 = local_38 + 7;
local_54 = local_54 + 1;
plVar2 = local_40;
}
*(int *)(local_48 + 2) = (int)(((long)local_40 - (long)local_48) / 0x18);
local_9 = 0;
}
else {
local_9 = 1;
}
return local_9;
}
|
|
4,418 | mi_mark_file_changed | eloqsql/storage/myisam/mi_locking.c | int _mi_mark_file_changed(MI_INFO *info)
{
uchar buff[3];
register MYISAM_SHARE *share=info->s;
DBUG_ENTER("_mi_mark_file_changed");
if (!(share->state.changed & STATE_CHANGED) || ! share->global_changed)
{
share->state.changed|=(STATE_CHANGED | STATE_NOT_ANALYZED |
STATE_NOT_OPTIMIZED_KEYS);
if (!share->global_changed)
{
share->global_changed=1;
share->state.open_count++;
}
if (!share->temporary)
{
mi_int2store(buff,share->state.open_count);
buff[2]=1; /* Mark that it's changed */
DBUG_RETURN((int)mysql_file_pwrite(share->kfile, buff, sizeof(buff),
sizeof(share->state.header),
MYF(MY_NABP)));
}
}
DBUG_RETURN(0);
} | O0 | c | mi_mark_file_changed:
pushq %rbp
movq %rsp, %rbp
subq $0x30, %rsp
movq %rdi, -0x10(%rbp)
movq -0x10(%rbp), %rax
movq (%rax), %rax
movq %rax, -0x20(%rbp)
movq -0x20(%rbp), %rax
movzbl 0xf0(%rax), %eax
andl $0x1, %eax
cmpl $0x0, %eax
je 0xb13bb
movq -0x20(%rbp), %rax
cmpb $0x0, 0x380(%rax)
jne 0xb1461
movq -0x20(%rbp), %rax
movzbl 0xf0(%rax), %ecx
orl $0x19, %ecx
movb %cl, 0xf0(%rax)
movq -0x20(%rbp), %rax
cmpb $0x0, 0x380(%rax)
jne 0xb13fa
movq -0x20(%rbp), %rax
movb $0x1, 0x380(%rax)
movq -0x20(%rbp), %rax
movl 0xec(%rax), %ecx
addl $0x1, %ecx
movl %ecx, 0xec(%rax)
movq -0x20(%rbp), %rax
cmpb $0x0, 0x382(%rax)
jne 0xb145f
movq -0x20(%rbp), %rax
movl 0xec(%rax), %eax
movl %eax, -0x24(%rbp)
movl -0x24(%rbp), %eax
movb %al, -0x12(%rbp)
movl -0x24(%rbp), %eax
shrl $0x8, %eax
movb %al, -0x13(%rbp)
movb $0x1, -0x11(%rbp)
movq -0x20(%rbp), %rax
movl 0x350(%rax), %edx
leaq -0x13(%rbp), %rcx
leaq 0xa26af(%rip), %rdi # 0x153aeb
movl $0x26f, %esi # imm = 0x26F
movl $0x3, %r8d
movl $0x18, %r9d
movq $0x4, (%rsp)
callq 0xb1480
movl %eax, -0x4(%rbp)
jmp 0xb146a
jmp 0xb1461
jmp 0xb1463
movl $0x0, -0x4(%rbp)
movl -0x4(%rbp), %eax
addq $0x30, %rsp
popq %rbp
retq
nopw %cs:(%rax,%rax)
| _mi_mark_file_changed:
push rbp
mov rbp, rsp
sub rsp, 30h
mov [rbp+var_10], rdi
mov rax, [rbp+var_10]
mov rax, [rax]
mov [rbp+var_20], rax
mov rax, [rbp+var_20]
movzx eax, byte ptr [rax+0F0h]
and eax, 1
cmp eax, 0
jz short loc_B13BB
mov rax, [rbp+var_20]
cmp byte ptr [rax+380h], 0
jnz loc_B1461
loc_B13BB:
mov rax, [rbp+var_20]
movzx ecx, byte ptr [rax+0F0h]
or ecx, 19h
mov [rax+0F0h], cl
mov rax, [rbp+var_20]
cmp byte ptr [rax+380h], 0
jnz short loc_B13FA
mov rax, [rbp+var_20]
mov byte ptr [rax+380h], 1
mov rax, [rbp+var_20]
mov ecx, [rax+0ECh]
add ecx, 1
mov [rax+0ECh], ecx
loc_B13FA:
mov rax, [rbp+var_20]
cmp byte ptr [rax+382h], 0
jnz short loc_B145F
mov rax, [rbp+var_20]
mov eax, [rax+0ECh]
mov [rbp+var_24], eax
mov eax, [rbp+var_24]
mov [rbp+var_12], al
mov eax, [rbp+var_24]
shr eax, 8
mov [rbp+var_13], al
mov [rbp+var_11], 1
mov rax, [rbp+var_20]
mov edx, [rax+350h]
lea rcx, [rbp+var_13]
lea rdi, aWorkspaceLlm4b_27; "/workspace/llm4binary/github2025/eloqsq"...
mov esi, 26Fh
mov r8d, 3
mov r9d, 18h
mov [rsp+30h+var_30], 4
call inline_mysql_file_pwrite_1
mov [rbp+var_4], eax
jmp short loc_B146A
loc_B145F:
jmp short $+2
loc_B1461:
jmp short $+2
loc_B1463:
mov [rbp+var_4], 0
loc_B146A:
mov eax, [rbp+var_4]
add rsp, 30h
pop rbp
retn
| long long mi_mark_file_changed(long long *a1)
{
__int16 v1; // kr00_2
long long v3; // [rsp+10h] [rbp-20h]
_BYTE v4[3]; // [rsp+1Dh] [rbp-13h] BYREF
long long *v5; // [rsp+20h] [rbp-10h]
v5 = a1;
v3 = *a1;
if ( (*(_BYTE *)(*a1 + 240) & 1) != 0 && *(_BYTE *)(v3 + 896) )
return 0;
*(_BYTE *)(v3 + 240) |= 0x19u;
if ( !*(_BYTE *)(v3 + 896) )
{
*(_BYTE *)(v3 + 896) = 1;
++*(_DWORD *)(v3 + 236);
}
if ( *(_BYTE *)(v3 + 898) )
{
return 0;
}
else
{
v1 = *(_DWORD *)(v3 + 236);
v4[0] = HIBYTE(v1);
v4[1] = v1;
v4[2] = 1;
return (unsigned int)inline_mysql_file_pwrite_1(
(unsigned int)"/workspace/llm4binary/github2025/eloqsql/storage/myisam/mi_locking.c",
623,
*(_DWORD *)(v3 + 848),
(unsigned int)v4,
3,
24,
4LL);
}
}
| _mi_mark_file_changed:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x30
MOV qword ptr [RBP + -0x10],RDI
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX]
MOV qword ptr [RBP + -0x20],RAX
MOV RAX,qword ptr [RBP + -0x20]
MOVZX EAX,byte ptr [RAX + 0xf0]
AND EAX,0x1
CMP EAX,0x0
JZ 0x001b13bb
MOV RAX,qword ptr [RBP + -0x20]
CMP byte ptr [RAX + 0x380],0x0
JNZ 0x001b1461
LAB_001b13bb:
MOV RAX,qword ptr [RBP + -0x20]
MOVZX ECX,byte ptr [RAX + 0xf0]
OR ECX,0x19
MOV byte ptr [RAX + 0xf0],CL
MOV RAX,qword ptr [RBP + -0x20]
CMP byte ptr [RAX + 0x380],0x0
JNZ 0x001b13fa
MOV RAX,qword ptr [RBP + -0x20]
MOV byte ptr [RAX + 0x380],0x1
MOV RAX,qword ptr [RBP + -0x20]
MOV ECX,dword ptr [RAX + 0xec]
ADD ECX,0x1
MOV dword ptr [RAX + 0xec],ECX
LAB_001b13fa:
MOV RAX,qword ptr [RBP + -0x20]
CMP byte ptr [RAX + 0x382],0x0
JNZ 0x001b145f
MOV RAX,qword ptr [RBP + -0x20]
MOV EAX,dword ptr [RAX + 0xec]
MOV dword ptr [RBP + -0x24],EAX
MOV EAX,dword ptr [RBP + -0x24]
MOV byte ptr [RBP + -0x12],AL
MOV EAX,dword ptr [RBP + -0x24]
SHR EAX,0x8
MOV byte ptr [RBP + -0x13],AL
MOV byte ptr [RBP + -0x11],0x1
MOV RAX,qword ptr [RBP + -0x20]
MOV EDX,dword ptr [RAX + 0x350]
LEA RCX,[RBP + -0x13]
LEA RDI,[0x253aeb]
MOV ESI,0x26f
MOV R8D,0x3
MOV R9D,0x18
MOV qword ptr [RSP],0x4
CALL 0x001b1480
MOV dword ptr [RBP + -0x4],EAX
JMP 0x001b146a
LAB_001b145f:
JMP 0x001b1461
LAB_001b1461:
JMP 0x001b1463
LAB_001b1463:
MOV dword ptr [RBP + -0x4],0x0
LAB_001b146a:
MOV EAX,dword ptr [RBP + -0x4]
ADD RSP,0x30
POP RBP
RET
|
int4 _mi_mark_file_changed(long *param_1)
{
long lVar1;
int4 uVar2;
int1 local_1b;
int1 local_1a;
int1 local_19;
long *local_18;
lVar1 = *param_1;
if (((*(byte *)(lVar1 + 0xf0) & 1) == 0) || (*(char *)(lVar1 + 0x380) == '\0')) {
*(byte *)(lVar1 + 0xf0) = *(byte *)(lVar1 + 0xf0) | 0x19;
if (*(char *)(lVar1 + 0x380) == '\0') {
*(int1 *)(lVar1 + 0x380) = 1;
*(int *)(lVar1 + 0xec) = *(int *)(lVar1 + 0xec) + 1;
}
if (*(char *)(lVar1 + 0x382) == '\0') {
local_1a = (int1)*(int4 *)(lVar1 + 0xec);
local_1b = (int1)((uint)*(int4 *)(lVar1 + 0xec) >> 8);
local_19 = 1;
local_18 = param_1;
uVar2 = inline_mysql_file_pwrite
("/workspace/llm4binary/github2025/eloqsql/storage/myisam/mi_locking.c",
0x26f,*(int4 *)(lVar1 + 0x350),&local_1b,3,0x18,4);
return uVar2;
}
}
return 0;
}
|
|
4,419 | ma_ck_real_delete | eloqsql/storage/maria/ma_delete.c | my_bool _ma_ck_real_delete(register MARIA_HA *info, MARIA_KEY *key,
my_off_t *root)
{
int error;
my_bool result= 0, buff_alloced;
my_off_t old_root;
uchar *root_buff;
MARIA_KEYDEF *keyinfo= key->keyinfo;
MARIA_PAGE page;
DBUG_ENTER("_ma_ck_real_delete");
if ((old_root=*root) == HA_OFFSET_ERROR)
{
_ma_set_fatal_error(info, HA_ERR_CRASHED);
DBUG_RETURN(1);
}
alloc_on_stack(*info->stack_end_ptr, root_buff, buff_alloced,
(keyinfo->block_length + keyinfo->max_store_length*2));
if (!root_buff)
DBUG_RETURN(1);
DBUG_PRINT("info",("root_page: %lu",
(ulong) (old_root / keyinfo->block_length)));
if (_ma_fetch_keypage(&page, info, keyinfo, old_root,
PAGECACHE_LOCK_WRITE, DFLT_INIT_HITS, root_buff, 0))
{
result= 1;
goto err;
}
if ((error= d_search(info, key, (keyinfo->flag & HA_FULLTEXT ?
SEARCH_FIND | SEARCH_UPDATE | SEARCH_INSERT:
SEARCH_SAME),
&page)))
{
if (error < 0)
result= 1;
else if (error == 2)
{
DBUG_PRINT("test",("Enlarging of root when deleting"));
if (_ma_enlarge_root(info, key, root))
result= 1;
}
else /* error == 1 */
{
MARIA_SHARE *share= info->s;
page_mark_changed(info, &page);
if (page.size <= page.node + share->keypage_header + 1)
{
DBUG_ASSERT(page.size == page.node + share->keypage_header);
if (page.node)
*root= _ma_kpos(page.node, root_buff +share->keypage_header +
page.node);
else
*root=HA_OFFSET_ERROR;
if (_ma_dispose(info, old_root, 0))
result= 1;
}
else if (_ma_write_keypage(&page, PAGECACHE_LOCK_LEFT_WRITELOCKED,
DFLT_INIT_HITS))
result= 1;
}
}
err:
stack_alloc_free(root_buff, buff_alloced);
DBUG_PRINT("exit",("Return: %d",result));
DBUG_RETURN(result);
} | O3 | c | ma_ck_real_delete:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x58, %rsp
movq %rdi, %rbx
movq %fs:0x28, %rax
movq %rax, -0x30(%rbp)
movq (%rdx), %r15
cmpq $-0x1, %r15
je 0x6e0f9
movq %rdx, %r13
movq %rsi, -0x48(%rbp)
movq 0x8(%rsi), %r14
movzwl 0xa6(%r14), %eax
movzwl 0xb0(%r14), %ecx
leaq (%rax,%rcx,2), %rsi
leaq -0x80(%rbp), %rcx
movq %rsi, (%rcx)
movq 0x78(%rbx), %rax
movq (%rax), %rax
subq %rcx, %rax
subq %rsi, %rax
jbe 0x6e09d
cmpq $0x10000, %rax # imm = 0x10000
ja 0x6e083
cmpl $0x1000, %esi # imm = 0x1000
jb 0x6e09d
cmpq $0x8001, %rax # imm = 0x8001
jb 0x6e09d
movq %r13, -0x40(%rbp)
movq %rsp, %r12
addl $0xf, %esi
andl $-0x10, %esi
subq %rsi, %r12
movq %r12, %rsp
movb $0x1, %al
movl %eax, -0x34(%rbp)
jmp 0x6e0bc
movl $0x0, -0x34(%rbp)
movl $0x10010, %edx # imm = 0x10010
xorl %edi, %edi
callq 0xbf321
testq %rax, %rax
je 0x6e106
movq %rax, %r12
movq %r13, -0x40(%rbp)
leaq -0x80(%rbp), %rdi
movq %rbx, %rsi
movq %r14, %rdx
movq %r15, %rcx
movl $0x4, %r8d
movl $0x3, %r9d
pushq $0x0
pushq %r12
callq 0x5fbfe
addq $0x10, %rsp
movb $0x1, %r13b
testb %al, %al
je 0x6e12e
cmpb $0x0, -0x34(%rbp)
jne 0x6e109
movq %r12, %rdi
callq 0xbf54e
jmp 0x6e109
movq %rbx, %rdi
movl $0x7e, %esi
callq 0x5cab0
movb $0x1, %r13b
movq %fs:0x28, %rax
cmpq -0x30(%rbp), %rax
jne 0x6e1f2
movl %r13d, %eax
leaq -0x28(%rbp), %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
cmpb $0x0, 0xa2(%r14)
movl $0x20041, %edx # imm = 0x20041
movl $0x4, %eax
cmovnsl %eax, %edx
leaq -0x80(%rbp), %rcx
movq %rbx, %rdi
movq -0x48(%rbp), %r14
movq %r14, %rsi
callq 0x6e34b
testl %eax, %eax
je 0x6e172
js 0x6e0e9
cmpl $0x2, %eax
jne 0x6e17a
movq %rbx, %rdi
movq %r14, %rsi
movq -0x40(%rbp), %rdx
callq 0x6b814
jmp 0x6e1ba
xorl %r13d, %r13d
jmp 0x6e0e9
movq (%rbx), %rax
movq 0x2e8(%rbx), %rcx
movl -0x50(%rbp), %edx
leaq (%rdx,%rdx,2), %rdx
movb $0x1, 0x10(%rcx,%rdx,8)
movl -0x58(%rbp), %edi
movl 0x744(%rax), %esi
leal (%rdi,%rsi), %eax
incl %eax
cmpl %eax, -0x60(%rbp)
movq -0x40(%rbp), %r14
jbe 0x6e1be
leaq -0x80(%rbp), %rdi
movl $0x2, %esi
movl $0x3, %edx
callq 0x5fd3d
testb %al, %al
jmp 0x6e1e9
testq %rdi, %rdi
je 0x6e1d0
addq %r12, %rsi
addq %rdi, %rsi
callq 0x5dc0f
jmp 0x6e1d7
movq $-0x1, %rax
movq %rax, (%r14)
movq %rbx, %rdi
movq %r15, %rsi
xorl %edx, %edx
callq 0x5fe05
testl %eax, %eax
setne %r13b
jmp 0x6e0e9
callq 0x2a280
| _ma_ck_real_delete:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 58h
mov rbx, rdi
mov rax, fs:28h
mov [rbp+var_30], rax
mov r15, [rdx]
cmp r15, 0FFFFFFFFFFFFFFFFh
jz loc_6E0F9
mov r13, rdx
mov [rbp+var_48], rsi
mov r14, [rsi+8]
movzx eax, word ptr [r14+0A6h]
movzx ecx, word ptr [r14+0B0h]
lea rsi, [rax+rcx*2]
lea rcx, [rbp+var_80]
mov [rcx], rsi
mov rax, [rbx+78h]
mov rax, [rax]
sub rax, rcx
sub rax, rsi
jbe short loc_6E09D
cmp rax, 10000h
ja short loc_6E083
cmp esi, 1000h
jb short loc_6E09D
cmp rax, 8001h
jb short loc_6E09D
loc_6E083:
mov [rbp+var_40], r13
mov r12, rsp
add esi, 0Fh
and esi, 0FFFFFFF0h
sub r12, rsi
mov rsp, r12
mov al, 1
mov [rbp+var_34], eax
jmp short loc_6E0BC
loc_6E09D:
mov [rbp+var_34], 0
mov edx, 10010h
xor edi, edi
call my_malloc
test rax, rax
jz short loc_6E106
mov r12, rax
mov [rbp+var_40], r13
loc_6E0BC:
lea rdi, [rbp+var_80]
mov rsi, rbx
mov rdx, r14
mov rcx, r15
mov r8d, 4
mov r9d, 3
push 0
push r12
call _ma_fetch_keypage
add rsp, 10h
mov r13b, 1
test al, al
jz short loc_6E12E
loc_6E0E9:
cmp byte ptr [rbp+var_34], 0
jnz short loc_6E109
mov rdi, r12
call my_free
jmp short loc_6E109
loc_6E0F9:
mov rdi, rbx
mov esi, 7Eh ; '~'
call _ma_set_fatal_error
loc_6E106:
mov r13b, 1
loc_6E109:
mov rax, fs:28h
cmp rax, [rbp+var_30]
jnz loc_6E1F2
mov eax, r13d
lea rsp, [rbp-28h]
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
loc_6E12E:
cmp byte ptr [r14+0A2h], 0
mov edx, 20041h
mov eax, 4
cmovns edx, eax
lea rcx, [rbp+var_80]
mov rdi, rbx
mov r14, [rbp+var_48]
mov rsi, r14
call d_search
test eax, eax
jz short loc_6E172
js short loc_6E0E9
cmp eax, 2
jnz short loc_6E17A
mov rdi, rbx
mov rsi, r14
mov rdx, [rbp+var_40]
call _ma_enlarge_root
jmp short loc_6E1BA
loc_6E172:
xor r13d, r13d
jmp loc_6E0E9
loc_6E17A:
mov rax, [rbx]
mov rcx, [rbx+2E8h]
mov edx, [rbp+var_50]
lea rdx, [rdx+rdx*2]
mov byte ptr [rcx+rdx*8+10h], 1
mov edi, [rbp+var_58]
mov esi, [rax+744h]
lea eax, [rdi+rsi]
inc eax
cmp [rbp+var_60], eax
mov r14, [rbp+var_40]
jbe short loc_6E1BE
lea rdi, [rbp+var_80]
mov esi, 2
mov edx, 3
call _ma_write_keypage
loc_6E1BA:
test al, al
jmp short loc_6E1E9
loc_6E1BE:
test rdi, rdi
jz short loc_6E1D0
add rsi, r12
add rsi, rdi
call _ma_kpos
jmp short loc_6E1D7
loc_6E1D0:
mov rax, 0FFFFFFFFFFFFFFFFh
loc_6E1D7:
mov [r14], rax
mov rdi, rbx
mov rsi, r15
xor edx, edx
call _ma_dispose
test eax, eax
loc_6E1E9:
setnz r13b
jmp loc_6E0E9
loc_6E1F2:
call ___stack_chk_fail
| long long ma_ck_real_delete(long long a1, long long a2, unsigned long long *a3, long long a4, long long a5, int a6)
{
unsigned long long *v6; // r13
unsigned long long v7; // r15
long long v8; // r14
long long *v9; // rsi
unsigned long long v10; // rax
bool v11; // cc
unsigned long long v12; // rax
char *v13; // r12
long long v14; // rax
long long v16; // rdx
long long v17; // r14
int v18; // eax
char v19; // al
long long v20; // rax
long long v21; // rsi
unsigned long long *v22; // r14
bool v23; // zf
long long v24; // rax
long long *v25[4]; // [rsp+0h] [rbp-80h] BYREF
unsigned int v26; // [rsp+20h] [rbp-60h]
unsigned int v27; // [rsp+28h] [rbp-58h]
unsigned int v28; // [rsp+30h] [rbp-50h]
long long v29; // [rsp+38h] [rbp-48h]
unsigned long long *v30; // [rsp+40h] [rbp-40h]
int v31; // [rsp+4Ch] [rbp-34h]
unsigned long long v32; // [rsp+50h] [rbp-30h]
v32 = __readfsqword(0x28u);
v7 = *a3;
if ( *a3 == -1LL )
{
ma_set_fatal_error((_DWORD *)a1, 126, (long long)a3, a4, a5, a6);
goto LABEL_13;
}
v6 = a3;
v29 = a2;
v8 = *(_QWORD *)(a2 + 8);
v9 = (long long *)(*(unsigned __int16 *)(v8 + 166) + 2LL * *(unsigned __int16 *)(v8 + 176));
v25[0] = v9;
v10 = **(_QWORD **)(a1 + 120) - (_QWORD)v25;
v11 = v10 <= (unsigned long long)v9;
v12 = v10 - (_QWORD)v9;
if ( !v11 && (v12 > 0x10000 || (unsigned int)v9 >= 0x1000 && v12 >= 0x8001) )
{
v30 = a3;
v13 = (char *)v25 - (((_DWORD)v9 + 15) & 0xFFFFFFF0);
LOBYTE(v12) = 1;
v31 = v12;
goto LABEL_9;
}
v31 = 0;
v14 = my_malloc(0LL, v9, 65552LL);
if ( !v14 )
{
LABEL_13:
LOBYTE(v6) = 1;
return (unsigned int)v6;
}
v13 = (char *)v14;
v30 = v6;
LABEL_9:
LOBYTE(v6) = 1;
if ( ma_fetch_keypage((long long)v25, a1, v8, v7, 4u, 3, (long long)v13) )
goto LABEL_10;
v16 = 131137LL;
if ( *(char *)(v8 + 162) >= 0 )
v16 = 4LL;
v17 = v29;
v18 = d_search(a1, v29, v16, v25);
if ( !v18 )
{
LODWORD(v6) = 0;
goto LABEL_10;
}
if ( v18 < 0 )
goto LABEL_10;
if ( v18 == 2 )
{
v19 = ma_enlarge_root((long long *)a1, v17, v30);
}
else
{
v20 = *(_QWORD *)a1;
*(_BYTE *)(*(_QWORD *)(a1 + 744) + 24LL * v28 + 16) = 1;
v21 = *(unsigned int *)(v20 + 1860);
v22 = v30;
if ( v26 <= v27 + (unsigned int)v21 + 1 )
{
if ( v27 )
v24 = ma_kpos(v27, (long long)&v13[v21 + v27]);
else
v24 = -1LL;
*v22 = v24;
v23 = (unsigned int)ma_dispose((_QWORD *)a1, v7, 0) == 0;
goto LABEL_29;
}
v19 = ma_write_keypage(v25, 2u, 3);
}
v23 = v19 == 0;
LABEL_29:
LOBYTE(v6) = !v23;
LABEL_10:
if ( !(_BYTE)v31 )
my_free(v13);
return (unsigned int)v6;
}
| _ma_ck_real_delete:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x58
MOV RBX,RDI
MOV RAX,qword ptr FS:[0x28]
MOV qword ptr [RBP + -0x30],RAX
MOV R15,qword ptr [RDX]
CMP R15,-0x1
JZ 0x0016e0f9
MOV R13,RDX
MOV qword ptr [RBP + -0x48],RSI
MOV R14,qword ptr [RSI + 0x8]
MOVZX EAX,word ptr [R14 + 0xa6]
MOVZX ECX,word ptr [R14 + 0xb0]
LEA RSI,[RAX + RCX*0x2]
LEA RCX,[RBP + -0x80]
MOV qword ptr [RCX],RSI
MOV RAX,qword ptr [RBX + 0x78]
MOV RAX,qword ptr [RAX]
SUB RAX,RCX
SUB RAX,RSI
JBE 0x0016e09d
CMP RAX,0x10000
JA 0x0016e083
CMP ESI,0x1000
JC 0x0016e09d
CMP RAX,0x8001
JC 0x0016e09d
LAB_0016e083:
MOV qword ptr [RBP + -0x40],R13
MOV R12,RSP
ADD ESI,0xf
AND ESI,0xfffffff0
SUB R12,RSI
MOV RSP,R12
MOV AL,0x1
MOV dword ptr [RBP + -0x34],EAX
JMP 0x0016e0bc
LAB_0016e09d:
MOV dword ptr [RBP + -0x34],0x0
MOV EDX,0x10010
XOR EDI,EDI
CALL 0x001bf321
TEST RAX,RAX
JZ 0x0016e106
MOV R12,RAX
MOV qword ptr [RBP + -0x40],R13
LAB_0016e0bc:
LEA RDI,[RBP + -0x80]
MOV RSI,RBX
MOV RDX,R14
MOV RCX,R15
MOV R8D,0x4
MOV R9D,0x3
PUSH 0x0
PUSH R12
CALL 0x0015fbfe
ADD RSP,0x10
MOV R13B,0x1
TEST AL,AL
JZ 0x0016e12e
LAB_0016e0e9:
CMP byte ptr [RBP + -0x34],0x0
JNZ 0x0016e109
MOV RDI,R12
CALL 0x001bf54e
JMP 0x0016e109
LAB_0016e0f9:
MOV RDI,RBX
MOV ESI,0x7e
CALL 0x0015cab0
LAB_0016e106:
MOV R13B,0x1
LAB_0016e109:
MOV RAX,qword ptr FS:[0x28]
CMP RAX,qword ptr [RBP + -0x30]
JNZ 0x0016e1f2
MOV EAX,R13D
LEA RSP,[RBP + -0x28]
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
LAB_0016e12e:
CMP byte ptr [R14 + 0xa2],0x0
MOV EDX,0x20041
MOV EAX,0x4
CMOVNS EDX,EAX
LEA RCX,[RBP + -0x80]
MOV RDI,RBX
MOV R14,qword ptr [RBP + -0x48]
MOV RSI,R14
CALL 0x0016e34b
TEST EAX,EAX
JZ 0x0016e172
JS 0x0016e0e9
CMP EAX,0x2
JNZ 0x0016e17a
MOV RDI,RBX
MOV RSI,R14
MOV RDX,qword ptr [RBP + -0x40]
CALL 0x0016b814
JMP 0x0016e1ba
LAB_0016e172:
XOR R13D,R13D
JMP 0x0016e0e9
LAB_0016e17a:
MOV RAX,qword ptr [RBX]
MOV RCX,qword ptr [RBX + 0x2e8]
MOV EDX,dword ptr [RBP + -0x50]
LEA RDX,[RDX + RDX*0x2]
MOV byte ptr [RCX + RDX*0x8 + 0x10],0x1
MOV EDI,dword ptr [RBP + -0x58]
MOV ESI,dword ptr [RAX + 0x744]
LEA EAX,[RDI + RSI*0x1]
INC EAX
CMP dword ptr [RBP + -0x60],EAX
MOV R14,qword ptr [RBP + -0x40]
JBE 0x0016e1be
LEA RDI,[RBP + -0x80]
MOV ESI,0x2
MOV EDX,0x3
CALL 0x0015fd3d
LAB_0016e1ba:
TEST AL,AL
JMP 0x0016e1e9
LAB_0016e1be:
TEST RDI,RDI
JZ 0x0016e1d0
ADD RSI,R12
ADD RSI,RDI
CALL 0x0015dc0f
JMP 0x0016e1d7
LAB_0016e1d0:
MOV RAX,-0x1
LAB_0016e1d7:
MOV qword ptr [R14],RAX
MOV RDI,RBX
MOV RSI,R15
XOR EDX,EDX
CALL 0x0015fe05
TEST EAX,EAX
LAB_0016e1e9:
SETNZ R13B
JMP 0x0016e0e9
LAB_0016e1f2:
CALL 0x0012a280
|
ulong _ma_ck_real_delete(long *param_1,long param_2,long *param_3)
{
uint uVar1;
long lVar2;
long lVar3;
long *plVar4;
ulong *puVar5;
char cVar6;
int iVar7;
ulong uVar8;
int1 *puVar9;
long lVar10;
int8 uVar11;
ulong *puVar12;
long *unaff_R13;
int7 uVar13;
long in_FS_OFFSET;
bool bVar14;
ulong local_88 [4];
uint local_68;
uint local_60;
uint local_58;
long local_50;
long *local_48;
int4 local_3c;
long local_38;
puVar12 = local_88;
local_38 = *(long *)(in_FS_OFFSET + 0x28);
lVar2 = *param_3;
if (lVar2 == -1) {
_ma_set_fatal_error(param_1,0x7e);
LAB_0016e106:
uVar8 = CONCAT71((int7)((ulong)unaff_R13 >> 8),1);
goto LAB_0016e109;
}
lVar10 = *(long *)(param_2 + 8);
local_88[0] = (ulong)*(ushort *)(lVar10 + 0xa6) + (ulong)*(ushort *)(lVar10 + 0xb0) * 2;
uVar8 = (*(long *)param_1[0xf] - (long)local_88) - local_88[0];
local_50 = param_2;
if (((ulong)(*(long *)param_1[0xf] - (long)local_88) < local_88[0] || uVar8 == 0) ||
((uVar8 < 0x10001 && (((uint)local_88[0] < 0x1000 || (uVar8 < 0x8001)))))) {
local_3c = 0;
puVar9 = (int1 *)my_malloc(0,local_88[0],0x10010);
puVar5 = local_88;
unaff_R13 = param_3;
if (puVar9 == (int1 *)0x0) goto LAB_0016e106;
}
else {
puVar9 = (int1 *)((long)local_88 - (ulong)((uint)local_88[0] + 0xf & 0xfffffff0));
local_3c = (int4)CONCAT71((int7)(uVar8 >> 8),1);
puVar5 = (ulong *)puVar9;
}
puVar12 = puVar5;
local_48 = param_3;
*(int8 *)((long)puVar12 + -8) = 0;
*(int1 **)((long)puVar12 + -0x10) = puVar9;
*(int8 *)((long)puVar12 + -0x18) = 0x16e0de;
cVar6 = _ma_fetch_keypage(local_88,param_1,lVar10,lVar2,4,3);
lVar3 = local_50;
uVar13 = (int7)((ulong)param_3 >> 8);
uVar8 = CONCAT71(uVar13,1);
if (cVar6 == '\0') {
uVar11 = 0x20041;
if (-1 < *(char *)(lVar10 + 0xa2)) {
uVar11 = 4;
}
*(int8 *)((long)puVar12 + -8) = 0x16e156;
iVar7 = d_search(param_1,lVar3,uVar11,local_88);
plVar4 = local_48;
if (iVar7 == 0) {
uVar8 = 0;
}
else if (-1 < iVar7) {
if (iVar7 == 2) {
*(int8 *)((long)puVar12 + -8) = 0x16e170;
cVar6 = _ma_enlarge_root(param_1,lVar3,plVar4);
LAB_0016e1ba:
bVar14 = cVar6 == '\0';
}
else {
lVar10 = *param_1;
*(int1 *)(param_1[0x5d] + 0x10 + (ulong)local_58 * 0x18) = 1;
uVar8 = (ulong)local_60;
uVar1 = *(uint *)(lVar10 + 0x744);
if (local_60 + uVar1 + 1 < local_68) {
*(int8 *)((long)puVar12 + -8) = 0x16e1ba;
cVar6 = _ma_write_keypage(local_88,2,3);
goto LAB_0016e1ba;
}
if (uVar8 == 0) {
lVar10 = -1;
}
else {
*(int8 *)((long)puVar12 + -8) = 0x16e1ce;
lVar10 = _ma_kpos(uVar8,puVar9 + uVar8 + uVar1);
}
*plVar4 = lVar10;
*(int8 *)((long)puVar12 + -8) = 0x16e1e7;
iVar7 = _ma_dispose(param_1,lVar2,0);
bVar14 = iVar7 == 0;
}
uVar8 = CONCAT71(uVar13,!bVar14);
}
}
if ((char)local_3c == '\0') {
*(int8 *)((long)puVar12 + -8) = 0x16e0f7;
my_free(puVar9);
}
LAB_0016e109:
if (*(long *)(in_FS_OFFSET + 0x28) != local_38) {
/* WARNING: Subroutine does not return */
*(code **)((long)puVar12 + -8) = _ma_write_undo_key_delete;
__stack_chk_fail();
}
return uVar8 & 0xffffffff;
}
|
|
4,420 | my_stmt_result | eloqsql/libmariadb/unittest/libmariadb/my_test.h | int my_stmt_result(MYSQL *mysql, const char *buff)
{
MYSQL_STMT *stmt;
int row_count= 0;
int rc;
stmt= mysql_stmt_init(mysql);
rc= mysql_stmt_prepare(stmt, buff, (unsigned long)strlen(buff));
FAIL_IF(rc, mysql_stmt_error(stmt));
rc= mysql_stmt_execute(stmt);
FAIL_IF(rc, mysql_stmt_error(stmt));
while (mysql_stmt_fetch(stmt) != MYSQL_NO_DATA)
row_count++;
mysql_stmt_close(stmt);
return row_count;
} | O3 | c | my_stmt_result:
pushq %rbp
movq %rsp, %rbp
pushq %r14
pushq %rbx
movq %rsi, %r14
callq 0x245a0
movq %rax, %rbx
movq %r14, %rdi
callq 0x131c0
movq %rbx, %rdi
movq %r14, %rsi
movq %rax, %rdx
callq 0x24964
testl %eax, %eax
je 0x13b80
movq %rbx, %rdi
callq 0x24040
leaq 0x24499(%rip), %rdi # 0x38008
leaq 0x244ba(%rip), %rdx # 0x38030
movq %rax, %rsi
movl $0x156, %ecx # imm = 0x156
jmp 0x13baa
movq %rbx, %rdi
callq 0x25535
testl %eax, %eax
je 0x13bbf
movq %rbx, %rdi
callq 0x24040
leaq 0x2446d(%rip), %rdi # 0x38008
leaq 0x2448e(%rip), %rdx # 0x38030
movq %rax, %rsi
movl $0x159, %ecx # imm = 0x159
xorl %eax, %eax
callq 0x187d7
movl $0x1, %r14d
movl %r14d, %eax
popq %rbx
popq %r14
popq %rbp
retq
movl $0xffffffff, %r14d # imm = 0xFFFFFFFF
movq %rbx, %rdi
callq 0x2405b
incl %r14d
cmpl $0x64, %eax
jne 0x13bc5
movq %rbx, %rdi
callq 0x23fb1
jmp 0x13bb7
| my_stmt_result:
push rbp
mov rbp, rsp
push r14
push rbx
mov r14, rsi
call mysql_stmt_init
mov rbx, rax
mov rdi, r14
call _strlen
mov rdi, rbx
mov rsi, r14
mov rdx, rax
call mysql_stmt_prepare
test eax, eax
jz short loc_13B80
mov rdi, rbx
call mysql_stmt_error
lea rdi, aErrorSSD; "Error: %s (%s: %d)"
lea rdx, aWorkspaceLlm4b; "/workspace/llm4binary/github2025/eloqsq"...
mov rsi, rax
mov ecx, 156h
jmp short loc_13BAA
loc_13B80:
mov rdi, rbx
call mysql_stmt_execute
test eax, eax
jz short loc_13BBF
mov rdi, rbx
call mysql_stmt_error
lea rdi, aErrorSSD; "Error: %s (%s: %d)"
lea rdx, aWorkspaceLlm4b; "/workspace/llm4binary/github2025/eloqsq"...
mov rsi, rax
mov ecx, 159h
loc_13BAA:
xor eax, eax
call diag
mov r14d, 1
loc_13BB7:
mov eax, r14d
pop rbx
pop r14
pop rbp
retn
loc_13BBF:
mov r14d, 0FFFFFFFFh
loc_13BC5:
mov rdi, rbx
call mysql_stmt_fetch
inc r14d
cmp eax, 64h ; 'd'
jnz short loc_13BC5
mov rdi, rbx
call mysql_stmt_close
jmp short loc_13BB7
| long long my_stmt_result(long long a1, long long a2)
{
long long v2; // rbx
long long v3; // rax
int v4; // esi
int v5; // r8d
int v6; // r9d
int v7; // ecx
unsigned int v8; // r14d
v2 = mysql_stmt_init();
v3 = strlen(a2);
if ( (unsigned int)mysql_stmt_prepare(v2, a2, v3) )
{
v4 = mysql_stmt_error(v2);
v7 = 342;
LABEL_5:
diag(
(unsigned int)"Error: %s (%s: %d)",
v4,
(unsigned int)"/workspace/llm4binary/github2025/eloqsql/libmariadb/unittest/libmariadb/my_test.h",
v7,
v5,
v6);
return 1;
}
if ( (unsigned int)mysql_stmt_execute(v2) )
{
v4 = mysql_stmt_error(v2);
v7 = 345;
goto LABEL_5;
}
v8 = -1;
do
++v8;
while ( (unsigned int)mysql_stmt_fetch(v2) != 100 );
mysql_stmt_close(v2);
return v8;
}
| my_stmt_result:
PUSH RBP
MOV RBP,RSP
PUSH R14
PUSH RBX
MOV R14,RSI
CALL 0x001245a0
MOV RBX,RAX
MOV RDI,R14
CALL 0x001131c0
MOV RDI,RBX
MOV RSI,R14
MOV RDX,RAX
CALL 0x00124964
TEST EAX,EAX
JZ 0x00113b80
MOV RDI,RBX
CALL 0x00124040
LEA RDI,[0x138008]
LEA RDX,[0x138030]
MOV RSI,RAX
MOV ECX,0x156
JMP 0x00113baa
LAB_00113b80:
MOV RDI,RBX
CALL 0x00125535
TEST EAX,EAX
JZ 0x00113bbf
MOV RDI,RBX
CALL 0x00124040
LEA RDI,[0x138008]
LEA RDX,[0x138030]
MOV RSI,RAX
MOV ECX,0x159
LAB_00113baa:
XOR EAX,EAX
CALL 0x001187d7
MOV R14D,0x1
LAB_00113bb7:
MOV EAX,R14D
POP RBX
POP R14
POP RBP
RET
LAB_00113bbf:
MOV R14D,0xffffffff
LAB_00113bc5:
MOV RDI,RBX
CALL 0x0012405b
INC R14D
CMP EAX,0x64
JNZ 0x00113bc5
MOV RDI,RBX
CALL 0x00123fb1
JMP 0x00113bb7
|
int my_stmt_result(int8 param_1,char *param_2)
{
int iVar1;
int iVar2;
int8 uVar3;
size_t sVar4;
int8 uVar5;
uVar3 = mysql_stmt_init();
sVar4 = strlen(param_2);
iVar1 = mysql_stmt_prepare(uVar3,param_2,sVar4);
if (iVar1 == 0) {
iVar1 = mysql_stmt_execute(uVar3);
if (iVar1 == 0) {
iVar1 = -1;
do {
iVar2 = mysql_stmt_fetch(uVar3);
iVar1 = iVar1 + 1;
} while (iVar2 != 100);
mysql_stmt_close(uVar3);
return iVar1;
}
uVar3 = mysql_stmt_error(uVar3);
uVar5 = 0x159;
}
else {
uVar3 = mysql_stmt_error(uVar3);
uVar5 = 0x156;
}
diag("Error: %s (%s: %d)",uVar3,
"/workspace/llm4binary/github2025/eloqsql/libmariadb/unittest/libmariadb/my_test.h",uVar5);
return 1;
}
|
|
4,421 | Balloc | eloqsql/libmariadb/libmariadb/ma_dtoa.c | static Bigint *Balloc(int k, Stack_alloc *alloc)
{
Bigint *rv;
DBUG_ASSERT(k <= Kmax);
if (k <= Kmax && alloc->freelist[k])
{
rv= alloc->freelist[k];
alloc->freelist[k]= rv->p.next;
}
else
{
int x, len;
x= 1 << k;
len= MY_ALIGN(sizeof(Bigint) + x * sizeof(ULong), SIZEOF_CHARP);
if (alloc->free + len <= alloc->end)
{
rv= (Bigint*) alloc->free;
alloc->free+= len;
}
else
rv= (Bigint*) malloc(len);
rv->k= k;
rv->maxwds= x;
}
rv->sign= rv->wds= 0;
rv->p.x= (ULong*) (rv + 1);
return rv;
} | O0 | c | Balloc:
pushq %rbp
movq %rsp, %rbp
subq $0x20, %rsp
movl %edi, -0x4(%rbp)
movq %rsi, -0x10(%rbp)
cmpl $0xf, -0x4(%rbp)
jg 0x39c8f
movq -0x10(%rbp), %rax
movslq -0x4(%rbp), %rcx
cmpq $0x0, 0x18(%rax,%rcx,8)
je 0x39c8f
movq -0x10(%rbp), %rax
movslq -0x4(%rbp), %rcx
movq 0x18(%rax,%rcx,8), %rax
movq %rax, -0x18(%rbp)
movq -0x18(%rbp), %rax
movq (%rax), %rdx
movq -0x10(%rbp), %rax
movslq -0x4(%rbp), %rcx
movq %rdx, 0x18(%rax,%rcx,8)
jmp 0x39d14
movl -0x4(%rbp), %ecx
movl $0x1, %eax
shll %cl, %eax
movl %eax, -0x1c(%rbp)
movslq -0x1c(%rbp), %rax
shlq $0x2, %rax
addq $0x18, %rax
addq $0x8, %rax
subq $0x1, %rax
andq $-0x8, %rax
movl %eax, -0x20(%rbp)
movq -0x10(%rbp), %rax
movq 0x8(%rax), %rax
movslq -0x20(%rbp), %rcx
addq %rcx, %rax
movq -0x10(%rbp), %rcx
cmpq 0x10(%rcx), %rax
ja 0x39cf3
movq -0x10(%rbp), %rax
movq 0x8(%rax), %rax
movq %rax, -0x18(%rbp)
movl -0x20(%rbp), %edx
movq -0x10(%rbp), %rax
movq 0x8(%rax), %rcx
movslq %edx, %rdx
addq %rdx, %rcx
movq %rcx, 0x8(%rax)
jmp 0x39d00
movslq -0x20(%rbp), %rdi
callq 0x135b0
movq %rax, -0x18(%rbp)
movl -0x4(%rbp), %ecx
movq -0x18(%rbp), %rax
movl %ecx, 0x8(%rax)
movl -0x1c(%rbp), %ecx
movq -0x18(%rbp), %rax
movl %ecx, 0xc(%rax)
movq -0x18(%rbp), %rax
movl $0x0, 0x14(%rax)
movq -0x18(%rbp), %rax
movl $0x0, 0x10(%rax)
movq -0x18(%rbp), %rcx
addq $0x18, %rcx
movq -0x18(%rbp), %rax
movq %rcx, (%rax)
movq -0x18(%rbp), %rax
addq $0x20, %rsp
popq %rbp
retq
nopw %cs:(%rax,%rax)
| Balloc:
push rbp
mov rbp, rsp
sub rsp, 20h
mov [rbp+var_4], edi
mov [rbp+var_10], rsi
cmp [rbp+var_4], 0Fh
jg short loc_39C8F
mov rax, [rbp+var_10]
movsxd rcx, [rbp+var_4]
cmp qword ptr [rax+rcx*8+18h], 0
jz short loc_39C8F
mov rax, [rbp+var_10]
movsxd rcx, [rbp+var_4]
mov rax, [rax+rcx*8+18h]
mov [rbp+var_18], rax
mov rax, [rbp+var_18]
mov rdx, [rax]
mov rax, [rbp+var_10]
movsxd rcx, [rbp+var_4]
mov [rax+rcx*8+18h], rdx
jmp loc_39D14
loc_39C8F:
mov ecx, [rbp+var_4]
mov eax, 1
shl eax, cl
mov [rbp+var_1C], eax
movsxd rax, [rbp+var_1C]
shl rax, 2
add rax, 18h
add rax, 8
sub rax, 1
and rax, 0FFFFFFFFFFFFFFF8h
mov [rbp+var_20], eax
mov rax, [rbp+var_10]
mov rax, [rax+8]
movsxd rcx, [rbp+var_20]
add rax, rcx
mov rcx, [rbp+var_10]
cmp rax, [rcx+10h]
ja short loc_39CF3
mov rax, [rbp+var_10]
mov rax, [rax+8]
mov [rbp+var_18], rax
mov edx, [rbp+var_20]
mov rax, [rbp+var_10]
mov rcx, [rax+8]
movsxd rdx, edx
add rcx, rdx
mov [rax+8], rcx
jmp short loc_39D00
loc_39CF3:
movsxd rdi, [rbp+var_20]
call _malloc
mov [rbp+var_18], rax
loc_39D00:
mov ecx, [rbp+var_4]
mov rax, [rbp+var_18]
mov [rax+8], ecx
mov ecx, [rbp+var_1C]
mov rax, [rbp+var_18]
mov [rax+0Ch], ecx
loc_39D14:
mov rax, [rbp+var_18]
mov dword ptr [rax+14h], 0
mov rax, [rbp+var_18]
mov dword ptr [rax+10h], 0
mov rcx, [rbp+var_18]
add rcx, 18h
mov rax, [rbp+var_18]
mov [rax], rcx
mov rax, [rbp+var_18]
add rsp, 20h
pop rbp
retn
| long long Balloc(int a1, long long a2)
{
signed int v3; // [rsp+0h] [rbp-20h]
long long v4; // [rsp+8h] [rbp-18h]
if ( a1 <= 15 && *(_QWORD *)(a2 + 8LL * a1 + 24) )
{
v4 = *(_QWORD *)(a2 + 8LL * a1 + 24);
*(_QWORD *)(a2 + 8LL * a1 + 24) = *(_QWORD *)v4;
}
else
{
v3 = (4 * (1 << a1) + 31) & 0xFFFFFFF8;
if ( (unsigned long long)(v3 + *(_QWORD *)(a2 + 8)) > *(_QWORD *)(a2 + 16) )
{
v4 = malloc(v3);
}
else
{
v4 = *(_QWORD *)(a2 + 8);
*(_QWORD *)(a2 + 8) = v3 + v4;
}
*(_DWORD *)(v4 + 8) = a1;
*(_DWORD *)(v4 + 12) = 1 << a1;
}
*(_DWORD *)(v4 + 20) = 0;
*(_DWORD *)(v4 + 16) = 0;
*(_QWORD *)v4 = v4 + 24;
return v4;
}
| Balloc:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x20
MOV dword ptr [RBP + -0x4],EDI
MOV qword ptr [RBP + -0x10],RSI
CMP dword ptr [RBP + -0x4],0xf
JG 0x00139c8f
MOV RAX,qword ptr [RBP + -0x10]
MOVSXD RCX,dword ptr [RBP + -0x4]
CMP qword ptr [RAX + RCX*0x8 + 0x18],0x0
JZ 0x00139c8f
MOV RAX,qword ptr [RBP + -0x10]
MOVSXD RCX,dword ptr [RBP + -0x4]
MOV RAX,qword ptr [RAX + RCX*0x8 + 0x18]
MOV qword ptr [RBP + -0x18],RAX
MOV RAX,qword ptr [RBP + -0x18]
MOV RDX,qword ptr [RAX]
MOV RAX,qword ptr [RBP + -0x10]
MOVSXD RCX,dword ptr [RBP + -0x4]
MOV qword ptr [RAX + RCX*0x8 + 0x18],RDX
JMP 0x00139d14
LAB_00139c8f:
MOV ECX,dword ptr [RBP + -0x4]
MOV EAX,0x1
SHL EAX,CL
MOV dword ptr [RBP + -0x1c],EAX
MOVSXD RAX,dword ptr [RBP + -0x1c]
SHL RAX,0x2
ADD RAX,0x18
ADD RAX,0x8
SUB RAX,0x1
AND RAX,-0x8
MOV dword ptr [RBP + -0x20],EAX
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x8]
MOVSXD RCX,dword ptr [RBP + -0x20]
ADD RAX,RCX
MOV RCX,qword ptr [RBP + -0x10]
CMP RAX,qword ptr [RCX + 0x10]
JA 0x00139cf3
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x8]
MOV qword ptr [RBP + -0x18],RAX
MOV EDX,dword ptr [RBP + -0x20]
MOV RAX,qword ptr [RBP + -0x10]
MOV RCX,qword ptr [RAX + 0x8]
MOVSXD RDX,EDX
ADD RCX,RDX
MOV qword ptr [RAX + 0x8],RCX
JMP 0x00139d00
LAB_00139cf3:
MOVSXD RDI,dword ptr [RBP + -0x20]
CALL 0x001135b0
MOV qword ptr [RBP + -0x18],RAX
LAB_00139d00:
MOV ECX,dword ptr [RBP + -0x4]
MOV RAX,qword ptr [RBP + -0x18]
MOV dword ptr [RAX + 0x8],ECX
MOV ECX,dword ptr [RBP + -0x1c]
MOV RAX,qword ptr [RBP + -0x18]
MOV dword ptr [RAX + 0xc],ECX
LAB_00139d14:
MOV RAX,qword ptr [RBP + -0x18]
MOV dword ptr [RAX + 0x14],0x0
MOV RAX,qword ptr [RBP + -0x18]
MOV dword ptr [RAX + 0x10],0x0
MOV RCX,qword ptr [RBP + -0x18]
ADD RCX,0x18
MOV RAX,qword ptr [RBP + -0x18]
MOV qword ptr [RAX],RCX
MOV RAX,qword ptr [RBP + -0x18]
ADD RSP,0x20
POP RBP
RET
|
int8 * Balloc(int param_1,long param_2)
{
int iVar1;
uint uVar2;
int8 *local_20;
if ((param_1 < 0x10) && (*(long *)(param_2 + 0x18 + (long)param_1 * 8) != 0)) {
local_20 = *(int8 **)(param_2 + 0x18 + (long)param_1 * 8);
*(int8 *)(param_2 + 0x18 + (long)param_1 * 8) = *local_20;
}
else {
iVar1 = 1 << ((byte)param_1 & 0x1f);
uVar2 = iVar1 * 4 + 0x1fU & 0xfffffff8;
if (*(ulong *)(param_2 + 0x10) < (ulong)(*(long *)(param_2 + 8) + (long)(int)uVar2)) {
local_20 = (int8 *)malloc((long)(int)uVar2);
}
else {
local_20 = *(int8 **)(param_2 + 8);
*(long *)(param_2 + 8) = *(long *)(param_2 + 8) + (long)(int)uVar2;
}
*(int *)(local_20 + 1) = param_1;
*(int *)((long)local_20 + 0xc) = iVar1;
}
*(int4 *)((long)local_20 + 0x14) = 0;
*(int4 *)(local_20 + 2) = 0;
*local_20 = local_20 + 3;
return local_20;
}
|
|
4,422 | SpatialTransformer::calculate_mem_size(ggml_type) | 7CodeWizard[P]stablediffusion/unet.hpp | size_t calculate_mem_size(ggml_type wtype) {
double mem_size = 0;
mem_size += 2 * in_channels * ggml_type_sizef(GGML_TYPE_F32); // norm_w/norm_b
mem_size += 2 * in_channels * in_channels * 1 * 1 * ggml_type_sizef(GGML_TYPE_F16); // proj_in_w/proj_out_w
mem_size += 2 * in_channels * ggml_type_sizef(GGML_TYPE_F32); // proj_in_b/proj_out_b
// transformer
for (auto& transformer : transformers) {
mem_size += 6 * in_channels * ggml_type_sizef(GGML_TYPE_F32); // norm1-3_w/b
mem_size += 6 * in_channels * in_channels * ggml_type_sizef(wtype); // attn1_q/k/v/out_w attn2_q/out_w
mem_size += 2 * in_channels * context_dim * ggml_type_sizef(wtype); // attn2_k/v_w
mem_size += in_channels * 4 * 2 * in_channels * ggml_type_sizef(wtype); // ff_0_proj_w
mem_size += in_channels * 4 * 2 * ggml_type_sizef(GGML_TYPE_F32); // ff_0_proj_b
mem_size += in_channels * 4 * in_channels * ggml_type_sizef(wtype); // ff_2_w
mem_size += in_channels * ggml_type_sizef(GGML_TYPE_F32); // ff_2_b
}
return static_cast<size_t>(mem_size);
} | O1 | cpp | SpatialTransformer::calculate_mem_size(ggml_type):
pushq %r15
pushq %r14
pushq %r12
pushq %rbx
subq $0x28, %rsp
movl %esi, %ebx
movq %rdi, %r14
movl (%rdi), %eax
addl %eax, %eax
cvtsi2sd %eax, %xmm0
movsd %xmm0, 0x8(%rsp)
xorl %edi, %edi
callq 0x8e19d
mulsd 0x8(%rsp), %xmm0
xorpd %xmm1, %xmm1
addsd %xmm0, %xmm1
movsd %xmm1, 0x8(%rsp)
movl (%r14), %eax
imull %eax, %eax
addl %eax, %eax
xorps %xmm0, %xmm0
cvtsi2sd %eax, %xmm0
movsd %xmm0, 0x10(%rsp)
movl $0x1, %edi
callq 0x8e19d
mulsd 0x10(%rsp), %xmm0
addsd 0x8(%rsp), %xmm0
movsd %xmm0, 0x8(%rsp)
movl (%r14), %eax
addl %eax, %eax
xorps %xmm0, %xmm0
cvtsi2sd %eax, %xmm0
movsd %xmm0, 0x10(%rsp)
xorl %edi, %edi
callq 0x8e19d
mulsd 0x10(%rsp), %xmm0
addsd 0x8(%rsp), %xmm0
movq 0x38(%r14), %r15
movq 0x40(%r14), %r12
cmpq %r12, %r15
je 0x3a148
movapd %xmm0, 0x10(%rsp)
movl (%r14), %eax
addl %eax, %eax
leal (%rax,%rax,2), %eax
xorps %xmm1, %xmm1
cvtsi2sd %eax, %xmm1
movsd %xmm1, 0x8(%rsp)
xorl %edi, %edi
callq 0x8e19d
mulsd 0x8(%rsp), %xmm0
addsd 0x10(%rsp), %xmm0
movsd %xmm0, 0x8(%rsp)
movl (%r14), %eax
imull %eax, %eax
addl %eax, %eax
leal (%rax,%rax,2), %eax
xorps %xmm0, %xmm0
cvtsi2sd %eax, %xmm0
movsd %xmm0, 0x10(%rsp)
movl %ebx, %edi
callq 0x8e19d
mulsd 0x10(%rsp), %xmm0
movl (%r14), %eax
imull 0x10(%r14), %eax
addsd 0x8(%rsp), %xmm0
movsd %xmm0, 0x8(%rsp)
addl %eax, %eax
xorps %xmm0, %xmm0
cvtsi2sd %eax, %xmm0
movsd %xmm0, 0x10(%rsp)
movl %ebx, %edi
callq 0x8e19d
mulsd 0x10(%rsp), %xmm0
addsd 0x8(%rsp), %xmm0
movsd %xmm0, 0x8(%rsp)
movl (%r14), %eax
imull %eax, %eax
shll $0x3, %eax
xorps %xmm0, %xmm0
cvtsi2sd %eax, %xmm0
movsd %xmm0, 0x10(%rsp)
movl %ebx, %edi
callq 0x8e19d
mulsd 0x10(%rsp), %xmm0
addsd 0x8(%rsp), %xmm0
movsd %xmm0, 0x8(%rsp)
movl (%r14), %eax
shll $0x3, %eax
xorps %xmm0, %xmm0
cvtsi2sd %eax, %xmm0
movsd %xmm0, 0x10(%rsp)
xorl %edi, %edi
callq 0x8e19d
mulsd 0x10(%rsp), %xmm0
addsd 0x8(%rsp), %xmm0
movsd %xmm0, 0x8(%rsp)
movl (%r14), %eax
imull %eax, %eax
shll $0x2, %eax
xorps %xmm0, %xmm0
cvtsi2sd %eax, %xmm0
movsd %xmm0, 0x10(%rsp)
movl %ebx, %edi
callq 0x8e19d
mulsd 0x10(%rsp), %xmm0
addsd 0x8(%rsp), %xmm0
movsd %xmm0, 0x8(%rsp)
xorps %xmm0, %xmm0
cvtsi2sdl (%r14), %xmm0
movsd %xmm0, 0x10(%rsp)
xorl %edi, %edi
callq 0x8e19d
mulsd 0x10(%rsp), %xmm0
addsd 0x8(%rsp), %xmm0
addq $0xa0, %r15
jmp 0x39ff3
cvttsd2si %xmm0, %rcx
movq %rcx, %rdx
subsd 0x83948(%rip), %xmm0 # 0xbdaa0
cvttsd2si %xmm0, %rax
sarq $0x3f, %rdx
andq %rdx, %rax
orq %rcx, %rax
addq $0x28, %rsp
popq %rbx
popq %r12
popq %r14
popq %r15
retq
nop
| _ZN18SpatialTransformer18calculate_mem_sizeE9ggml_type:
push r15
push r14
push r12
push rbx
sub rsp, 28h
mov ebx, esi
mov r14, rdi
mov eax, [rdi]
add eax, eax
cvtsi2sd xmm0, eax
movsd [rsp+48h+var_40], xmm0
xor edi, edi
call ggml_type_sizef
mulsd xmm0, [rsp+48h+var_40]
xorpd xmm1, xmm1
addsd xmm1, xmm0
movsd [rsp+48h+var_40], xmm1
mov eax, [r14]
imul eax, eax
add eax, eax
xorps xmm0, xmm0
cvtsi2sd xmm0, eax
movsd qword ptr [rsp+48h+var_38], xmm0
mov edi, 1
call ggml_type_sizef
mulsd xmm0, qword ptr [rsp+48h+var_38]
addsd xmm0, [rsp+48h+var_40]
movsd [rsp+48h+var_40], xmm0
mov eax, [r14]
add eax, eax
xorps xmm0, xmm0
cvtsi2sd xmm0, eax
movsd qword ptr [rsp+48h+var_38], xmm0
xor edi, edi
call ggml_type_sizef
mulsd xmm0, qword ptr [rsp+48h+var_38]
addsd xmm0, [rsp+48h+var_40]
mov r15, [r14+38h]
mov r12, [r14+40h]
loc_39FF3:
cmp r15, r12
jz loc_3A148
movapd [rsp+48h+var_38], xmm0
mov eax, [r14]
add eax, eax
lea eax, [rax+rax*2]
xorps xmm1, xmm1
cvtsi2sd xmm1, eax
movsd [rsp+48h+var_40], xmm1
xor edi, edi
call ggml_type_sizef
mulsd xmm0, [rsp+48h+var_40]
addsd xmm0, qword ptr [rsp+48h+var_38]
movsd [rsp+48h+var_40], xmm0
mov eax, [r14]
imul eax, eax
add eax, eax
lea eax, [rax+rax*2]
xorps xmm0, xmm0
cvtsi2sd xmm0, eax
movsd qword ptr [rsp+48h+var_38], xmm0
mov edi, ebx
call ggml_type_sizef
mulsd xmm0, qword ptr [rsp+48h+var_38]
mov eax, [r14]
imul eax, [r14+10h]
addsd xmm0, [rsp+48h+var_40]
movsd [rsp+48h+var_40], xmm0
add eax, eax
xorps xmm0, xmm0
cvtsi2sd xmm0, eax
movsd qword ptr [rsp+48h+var_38], xmm0
mov edi, ebx
call ggml_type_sizef
mulsd xmm0, qword ptr [rsp+48h+var_38]
addsd xmm0, [rsp+48h+var_40]
movsd [rsp+48h+var_40], xmm0
mov eax, [r14]
imul eax, eax
shl eax, 3
xorps xmm0, xmm0
cvtsi2sd xmm0, eax
movsd qword ptr [rsp+48h+var_38], xmm0
mov edi, ebx
call ggml_type_sizef
mulsd xmm0, qword ptr [rsp+48h+var_38]
addsd xmm0, [rsp+48h+var_40]
movsd [rsp+48h+var_40], xmm0
mov eax, [r14]
shl eax, 3
xorps xmm0, xmm0
cvtsi2sd xmm0, eax
movsd qword ptr [rsp+48h+var_38], xmm0
xor edi, edi
call ggml_type_sizef
mulsd xmm0, qword ptr [rsp+48h+var_38]
addsd xmm0, [rsp+48h+var_40]
movsd [rsp+48h+var_40], xmm0
mov eax, [r14]
imul eax, eax
shl eax, 2
xorps xmm0, xmm0
cvtsi2sd xmm0, eax
movsd qword ptr [rsp+48h+var_38], xmm0
mov edi, ebx
call ggml_type_sizef
mulsd xmm0, qword ptr [rsp+48h+var_38]
addsd xmm0, [rsp+48h+var_40]
movsd [rsp+48h+var_40], xmm0
xorps xmm0, xmm0
cvtsi2sd xmm0, dword ptr [r14]
movsd qword ptr [rsp+48h+var_38], xmm0
xor edi, edi
call ggml_type_sizef
mulsd xmm0, qword ptr [rsp+48h+var_38]
addsd xmm0, [rsp+48h+var_40]
add r15, 0A0h
jmp loc_39FF3
loc_3A148:
cvttsd2si rcx, xmm0
mov rdx, rcx
subsd xmm0, cs:qword_BDAA0
cvttsd2si rax, xmm0
sar rdx, 3Fh
and rax, rdx
or rax, rcx
add rsp, 28h
pop rbx
pop r12
pop r14
pop r15
retn
| long long SpatialTransformer::calculate_mem_size(long long a1, unsigned int a2)
{
double v2; // xmm0_8
long long v3; // r15
long long v4; // r12
double v6; // [rsp+8h] [rbp-40h]
double v7; // [rsp+8h] [rbp-40h]
double v8; // [rsp+8h] [rbp-40h]
double v9; // [rsp+8h] [rbp-40h]
double v10; // [rsp+8h] [rbp-40h]
double v11; // [rsp+8h] [rbp-40h]
double v12; // [rsp+8h] [rbp-40h]
double v13; // [rsp+8h] [rbp-40h]
double v14; // [rsp+8h] [rbp-40h]
double v15; // [rsp+8h] [rbp-40h]
double v16; // [rsp+10h] [rbp-38h]
double v17; // [rsp+10h] [rbp-38h]
double v18; // [rsp+10h] [rbp-38h]
double v19; // [rsp+10h] [rbp-38h]
double v20; // [rsp+10h] [rbp-38h]
double v21; // [rsp+10h] [rbp-38h]
double v22; // [rsp+10h] [rbp-38h]
double v23; // [rsp+10h] [rbp-38h]
v6 = (double)(2 * *(_DWORD *)a1);
v7 = ggml_type_sizef(0LL) * v6 + 0.0;
v16 = (double)(2 * *(_DWORD *)a1 * *(_DWORD *)a1);
v8 = ggml_type_sizef(1LL) * v16 + v7;
v17 = (double)(2 * *(_DWORD *)a1);
v2 = ggml_type_sizef(0LL) * v17 + v8;
v3 = *(_QWORD *)(a1 + 56);
v4 = *(_QWORD *)(a1 + 64);
while ( v3 != v4 )
{
v9 = (double)(6 * *(_DWORD *)a1);
v10 = ggml_type_sizef(0LL) * v9 + v2;
v18 = (double)(6 * *(_DWORD *)a1 * *(_DWORD *)a1);
v11 = ggml_type_sizef(a2) * v18 + v10;
v19 = (double)(2 * *(_DWORD *)(a1 + 16) * *(_DWORD *)a1);
v12 = ggml_type_sizef(a2) * v19 + v11;
v20 = (double)(8 * *(_DWORD *)a1 * *(_DWORD *)a1);
v13 = ggml_type_sizef(a2) * v20 + v12;
v21 = (double)(8 * *(_DWORD *)a1);
v14 = ggml_type_sizef(0LL) * v21 + v13;
v22 = (double)(4 * *(_DWORD *)a1 * *(_DWORD *)a1);
v15 = ggml_type_sizef(a2) * v22 + v14;
v23 = (double)*(int *)a1;
v2 = ggml_type_sizef(0LL) * v23 + v15;
v3 += 160LL;
}
return (unsigned int)(int)v2;
}
| |||
4,423 | SpatialTransformer::calculate_mem_size(ggml_type) | 7CodeWizard[P]stablediffusion/unet.hpp | size_t calculate_mem_size(ggml_type wtype) {
double mem_size = 0;
mem_size += 2 * in_channels * ggml_type_sizef(GGML_TYPE_F32); // norm_w/norm_b
mem_size += 2 * in_channels * in_channels * 1 * 1 * ggml_type_sizef(GGML_TYPE_F16); // proj_in_w/proj_out_w
mem_size += 2 * in_channels * ggml_type_sizef(GGML_TYPE_F32); // proj_in_b/proj_out_b
// transformer
for (auto& transformer : transformers) {
mem_size += 6 * in_channels * ggml_type_sizef(GGML_TYPE_F32); // norm1-3_w/b
mem_size += 6 * in_channels * in_channels * ggml_type_sizef(wtype); // attn1_q/k/v/out_w attn2_q/out_w
mem_size += 2 * in_channels * context_dim * ggml_type_sizef(wtype); // attn2_k/v_w
mem_size += in_channels * 4 * 2 * in_channels * ggml_type_sizef(wtype); // ff_0_proj_w
mem_size += in_channels * 4 * 2 * ggml_type_sizef(GGML_TYPE_F32); // ff_0_proj_b
mem_size += in_channels * 4 * in_channels * ggml_type_sizef(wtype); // ff_2_w
mem_size += in_channels * ggml_type_sizef(GGML_TYPE_F32); // ff_2_b
}
return static_cast<size_t>(mem_size);
} | O2 | cpp | SpatialTransformer::calculate_mem_size(ggml_type):
pushq %r15
pushq %r14
pushq %r12
pushq %rbx
subq $0x28, %rsp
movl %esi, %ebx
movq %rdi, %r14
movl (%rdi), %eax
addl %eax, %eax
cvtsi2sd %eax, %xmm0
movsd %xmm0, 0x8(%rsp)
xorl %edi, %edi
callq 0x67bc7
mulsd 0x8(%rsp), %xmm0
xorpd %xmm1, %xmm1
addsd %xmm0, %xmm1
movsd %xmm1, 0x8(%rsp)
movl (%r14), %eax
imull %eax, %eax
addl %eax, %eax
cvtsi2sd %eax, %xmm0
movsd %xmm0, 0x10(%rsp)
pushq $0x1
popq %rdi
callq 0x67bc7
mulsd 0x10(%rsp), %xmm0
addsd 0x8(%rsp), %xmm0
movsd %xmm0, 0x8(%rsp)
movl (%r14), %eax
addl %eax, %eax
cvtsi2sd %eax, %xmm0
movsd %xmm0, 0x10(%rsp)
xorl %edi, %edi
callq 0x67bc7
mulsd 0x10(%rsp), %xmm0
addsd 0x8(%rsp), %xmm0
movq 0x38(%r14), %r15
movq 0x40(%r14), %r12
cmpq %r12, %r15
je 0x236c9
imull $0x6, (%r14), %eax
cvtsi2sd %eax, %xmm1
movsd %xmm1, 0x8(%rsp)
xorl %edi, %edi
movapd %xmm0, 0x10(%rsp)
callq 0x67bc7
mulsd 0x8(%rsp), %xmm0
addsd 0x10(%rsp), %xmm0
movsd %xmm0, 0x8(%rsp)
movl (%r14), %eax
imull %eax, %eax
imull $0x6, %eax, %eax
cvtsi2sd %eax, %xmm0
movsd %xmm0, 0x10(%rsp)
movl %ebx, %edi
callq 0x67bc7
mulsd 0x10(%rsp), %xmm0
movl (%r14), %eax
imull 0x10(%r14), %eax
addsd 0x8(%rsp), %xmm0
movsd %xmm0, 0x8(%rsp)
addl %eax, %eax
cvtsi2sd %eax, %xmm0
movsd %xmm0, 0x10(%rsp)
movl %ebx, %edi
callq 0x67bc7
mulsd 0x10(%rsp), %xmm0
addsd 0x8(%rsp), %xmm0
movsd %xmm0, 0x8(%rsp)
movl (%r14), %eax
imull %eax, %eax
shll $0x3, %eax
cvtsi2sd %eax, %xmm0
movsd %xmm0, 0x10(%rsp)
movl %ebx, %edi
callq 0x67bc7
mulsd 0x10(%rsp), %xmm0
addsd 0x8(%rsp), %xmm0
movsd %xmm0, 0x8(%rsp)
movl (%r14), %eax
shll $0x3, %eax
cvtsi2sd %eax, %xmm0
movsd %xmm0, 0x10(%rsp)
xorl %edi, %edi
callq 0x67bc7
mulsd 0x10(%rsp), %xmm0
addsd 0x8(%rsp), %xmm0
movsd %xmm0, 0x8(%rsp)
movl (%r14), %eax
imull %eax, %eax
shll $0x2, %eax
cvtsi2sd %eax, %xmm0
movsd %xmm0, 0x10(%rsp)
movl %ebx, %edi
callq 0x67bc7
mulsd 0x10(%rsp), %xmm0
addsd 0x8(%rsp), %xmm0
movsd %xmm0, 0x8(%rsp)
cvtsi2sdl (%r14), %xmm0
movsd %xmm0, 0x10(%rsp)
xorl %edi, %edi
callq 0x67bc7
mulsd 0x10(%rsp), %xmm0
addsd 0x8(%rsp), %xmm0
addq $0xa0, %r15
jmp 0x2358f
cvttsd2si %xmm0, %rcx
movq %rcx, %rdx
subsd 0x762f7(%rip), %xmm0 # 0x999d0
cvttsd2si %xmm0, %rax
sarq $0x3f, %rdx
andq %rdx, %rax
orq %rcx, %rax
addq $0x28, %rsp
popq %rbx
popq %r12
popq %r14
popq %r15
retq
| _ZN18SpatialTransformer18calculate_mem_sizeE9ggml_type:
push r15
push r14
push r12
push rbx
sub rsp, 28h
mov ebx, esi
mov r14, rdi
mov eax, [rdi]
add eax, eax
cvtsi2sd xmm0, eax
movsd [rsp+48h+var_40], xmm0
xor edi, edi
call ggml_type_sizef
mulsd xmm0, [rsp+48h+var_40]
xorpd xmm1, xmm1
addsd xmm1, xmm0
movsd [rsp+48h+var_40], xmm1
mov eax, [r14]
imul eax, eax
add eax, eax
cvtsi2sd xmm0, eax
movsd qword ptr [rsp+48h+var_38], xmm0
push 1
pop rdi
call ggml_type_sizef
mulsd xmm0, qword ptr [rsp+48h+var_38]
addsd xmm0, [rsp+48h+var_40]
movsd [rsp+48h+var_40], xmm0
mov eax, [r14]
add eax, eax
cvtsi2sd xmm0, eax
movsd qword ptr [rsp+48h+var_38], xmm0
xor edi, edi
call ggml_type_sizef
mulsd xmm0, qword ptr [rsp+48h+var_38]
addsd xmm0, [rsp+48h+var_40]
mov r15, [r14+38h]
mov r12, [r14+40h]
loc_2358F:
cmp r15, r12
jz loc_236C9
imul eax, [r14], 6
cvtsi2sd xmm1, eax
movsd [rsp+48h+var_40], xmm1
xor edi, edi
movapd [rsp+48h+var_38], xmm0
call ggml_type_sizef
mulsd xmm0, [rsp+48h+var_40]
addsd xmm0, qword ptr [rsp+48h+var_38]
movsd [rsp+48h+var_40], xmm0
mov eax, [r14]
imul eax, eax
imul eax, 6
cvtsi2sd xmm0, eax
movsd qword ptr [rsp+48h+var_38], xmm0
mov edi, ebx
call ggml_type_sizef
mulsd xmm0, qword ptr [rsp+48h+var_38]
mov eax, [r14]
imul eax, [r14+10h]
addsd xmm0, [rsp+48h+var_40]
movsd [rsp+48h+var_40], xmm0
add eax, eax
cvtsi2sd xmm0, eax
movsd qword ptr [rsp+48h+var_38], xmm0
mov edi, ebx
call ggml_type_sizef
mulsd xmm0, qword ptr [rsp+48h+var_38]
addsd xmm0, [rsp+48h+var_40]
movsd [rsp+48h+var_40], xmm0
mov eax, [r14]
imul eax, eax
shl eax, 3
cvtsi2sd xmm0, eax
movsd qword ptr [rsp+48h+var_38], xmm0
mov edi, ebx
call ggml_type_sizef
mulsd xmm0, qword ptr [rsp+48h+var_38]
addsd xmm0, [rsp+48h+var_40]
movsd [rsp+48h+var_40], xmm0
mov eax, [r14]
shl eax, 3
cvtsi2sd xmm0, eax
movsd qword ptr [rsp+48h+var_38], xmm0
xor edi, edi
call ggml_type_sizef
mulsd xmm0, qword ptr [rsp+48h+var_38]
addsd xmm0, [rsp+48h+var_40]
movsd [rsp+48h+var_40], xmm0
mov eax, [r14]
imul eax, eax
shl eax, 2
cvtsi2sd xmm0, eax
movsd qword ptr [rsp+48h+var_38], xmm0
mov edi, ebx
call ggml_type_sizef
mulsd xmm0, qword ptr [rsp+48h+var_38]
addsd xmm0, [rsp+48h+var_40]
movsd [rsp+48h+var_40], xmm0
cvtsi2sd xmm0, dword ptr [r14]
movsd qword ptr [rsp+48h+var_38], xmm0
xor edi, edi
call ggml_type_sizef
mulsd xmm0, qword ptr [rsp+48h+var_38]
addsd xmm0, [rsp+48h+var_40]
add r15, 0A0h
jmp loc_2358F
loc_236C9:
cvttsd2si rcx, xmm0
mov rdx, rcx
subsd xmm0, cs:qword_999D0
cvttsd2si rax, xmm0
sar rdx, 3Fh
and rax, rdx
or rax, rcx
add rsp, 28h
pop rbx
pop r12
pop r14
pop r15
retn
| long long SpatialTransformer::calculate_mem_size(long long a1, unsigned int a2)
{
double v2; // xmm0_8
long long v3; // r15
long long v4; // r12
double v6; // [rsp+8h] [rbp-40h]
double v7; // [rsp+8h] [rbp-40h]
double v8; // [rsp+8h] [rbp-40h]
double v9; // [rsp+8h] [rbp-40h]
double v10; // [rsp+8h] [rbp-40h]
double v11; // [rsp+8h] [rbp-40h]
double v12; // [rsp+8h] [rbp-40h]
double v13; // [rsp+8h] [rbp-40h]
double v14; // [rsp+8h] [rbp-40h]
double v15; // [rsp+8h] [rbp-40h]
double v16; // [rsp+10h] [rbp-38h]
double v17; // [rsp+10h] [rbp-38h]
double v18; // [rsp+10h] [rbp-38h]
double v19; // [rsp+10h] [rbp-38h]
double v20; // [rsp+10h] [rbp-38h]
double v21; // [rsp+10h] [rbp-38h]
double v22; // [rsp+10h] [rbp-38h]
double v23; // [rsp+10h] [rbp-38h]
v6 = (double)(2 * *(_DWORD *)a1);
v7 = ggml_type_sizef(0LL) * v6 + 0.0;
v16 = (double)(2 * *(_DWORD *)a1 * *(_DWORD *)a1);
v8 = ggml_type_sizef(1LL) * v16 + v7;
v17 = (double)(2 * *(_DWORD *)a1);
v2 = ggml_type_sizef(0LL) * v17 + v8;
v3 = *(_QWORD *)(a1 + 56);
v4 = *(_QWORD *)(a1 + 64);
while ( v3 != v4 )
{
v9 = (double)(6 * *(_DWORD *)a1);
v10 = ggml_type_sizef(0LL) * v9 + v2;
v18 = (double)(6 * *(_DWORD *)a1 * *(_DWORD *)a1);
v11 = ggml_type_sizef(a2) * v18 + v10;
v19 = (double)(2 * *(_DWORD *)(a1 + 16) * *(_DWORD *)a1);
v12 = ggml_type_sizef(a2) * v19 + v11;
v20 = (double)(8 * *(_DWORD *)a1 * *(_DWORD *)a1);
v13 = ggml_type_sizef(a2) * v20 + v12;
v21 = (double)(8 * *(_DWORD *)a1);
v14 = ggml_type_sizef(0LL) * v21 + v13;
v22 = (double)(4 * *(_DWORD *)a1 * *(_DWORD *)a1);
v15 = ggml_type_sizef(a2) * v22 + v14;
v23 = (double)*(int *)a1;
v2 = ggml_type_sizef(0LL) * v23 + v15;
v3 += 160LL;
}
return (unsigned int)(int)v2;
}
| calculate_mem_size:
PUSH R15
PUSH R14
PUSH R12
PUSH RBX
SUB RSP,0x28
MOV EBX,ESI
MOV R14,RDI
MOV EAX,dword ptr [RDI]
ADD EAX,EAX
CVTSI2SD XMM0,EAX
MOVSD qword ptr [RSP + 0x8],XMM0
XOR EDI,EDI
CALL 0x00167bc7
MULSD XMM0,qword ptr [RSP + 0x8]
XORPD XMM1,XMM1
ADDSD XMM1,XMM0
MOVSD qword ptr [RSP + 0x8],XMM1
MOV EAX,dword ptr [R14]
IMUL EAX,EAX
ADD EAX,EAX
CVTSI2SD XMM0,EAX
MOVSD qword ptr [RSP + 0x10],XMM0
PUSH 0x1
POP RDI
CALL 0x00167bc7
MULSD XMM0,qword ptr [RSP + 0x10]
ADDSD XMM0,qword ptr [RSP + 0x8]
MOVSD qword ptr [RSP + 0x8],XMM0
MOV EAX,dword ptr [R14]
ADD EAX,EAX
CVTSI2SD XMM0,EAX
MOVSD qword ptr [RSP + 0x10],XMM0
XOR EDI,EDI
CALL 0x00167bc7
MULSD XMM0,qword ptr [RSP + 0x10]
ADDSD XMM0,qword ptr [RSP + 0x8]
MOV R15,qword ptr [R14 + 0x38]
MOV R12,qword ptr [R14 + 0x40]
LAB_0012358f:
CMP R15,R12
JZ 0x001236c9
IMUL EAX,dword ptr [R14],0x6
CVTSI2SD XMM1,EAX
MOVSD qword ptr [RSP + 0x8],XMM1
XOR EDI,EDI
MOVAPD xmmword ptr [RSP + 0x10],XMM0
CALL 0x00167bc7
MULSD XMM0,qword ptr [RSP + 0x8]
ADDSD XMM0,qword ptr [RSP + 0x10]
MOVSD qword ptr [RSP + 0x8],XMM0
MOV EAX,dword ptr [R14]
IMUL EAX,EAX
IMUL EAX,EAX,0x6
CVTSI2SD XMM0,EAX
MOVSD qword ptr [RSP + 0x10],XMM0
MOV EDI,EBX
CALL 0x00167bc7
MULSD XMM0,qword ptr [RSP + 0x10]
MOV EAX,dword ptr [R14]
IMUL EAX,dword ptr [R14 + 0x10]
ADDSD XMM0,qword ptr [RSP + 0x8]
MOVSD qword ptr [RSP + 0x8],XMM0
ADD EAX,EAX
CVTSI2SD XMM0,EAX
MOVSD qword ptr [RSP + 0x10],XMM0
MOV EDI,EBX
CALL 0x00167bc7
MULSD XMM0,qword ptr [RSP + 0x10]
ADDSD XMM0,qword ptr [RSP + 0x8]
MOVSD qword ptr [RSP + 0x8],XMM0
MOV EAX,dword ptr [R14]
IMUL EAX,EAX
SHL EAX,0x3
CVTSI2SD XMM0,EAX
MOVSD qword ptr [RSP + 0x10],XMM0
MOV EDI,EBX
CALL 0x00167bc7
MULSD XMM0,qword ptr [RSP + 0x10]
ADDSD XMM0,qword ptr [RSP + 0x8]
MOVSD qword ptr [RSP + 0x8],XMM0
MOV EAX,dword ptr [R14]
SHL EAX,0x3
CVTSI2SD XMM0,EAX
MOVSD qword ptr [RSP + 0x10],XMM0
XOR EDI,EDI
CALL 0x00167bc7
MULSD XMM0,qword ptr [RSP + 0x10]
ADDSD XMM0,qword ptr [RSP + 0x8]
MOVSD qword ptr [RSP + 0x8],XMM0
MOV EAX,dword ptr [R14]
IMUL EAX,EAX
SHL EAX,0x2
CVTSI2SD XMM0,EAX
MOVSD qword ptr [RSP + 0x10],XMM0
MOV EDI,EBX
CALL 0x00167bc7
MULSD XMM0,qword ptr [RSP + 0x10]
ADDSD XMM0,qword ptr [RSP + 0x8]
MOVSD qword ptr [RSP + 0x8],XMM0
CVTSI2SD XMM0,dword ptr [R14]
MOVSD qword ptr [RSP + 0x10],XMM0
XOR EDI,EDI
CALL 0x00167bc7
MULSD XMM0,qword ptr [RSP + 0x10]
ADDSD XMM0,qword ptr [RSP + 0x8]
ADD R15,0xa0
JMP 0x0012358f
LAB_001236c9:
CVTTSD2SI RCX,XMM0
MOV RDX,RCX
SUBSD XMM0,qword ptr [0x001999d0]
CVTTSD2SI RAX,XMM0
SAR RDX,0x3f
AND RAX,RDX
OR RAX,RCX
ADD RSP,0x28
POP RBX
POP R12
POP R14
POP R15
RET
|
/* SpatialTransformer::calculate_mem_size(ggml_type) */
ulong __thiscall SpatialTransformer::calculate_mem_size(SpatialTransformer *this,int4 param_2)
{
int iVar1;
int iVar2;
int iVar3;
int iVar4;
int iVar5;
int iVar6;
int iVar7;
int iVar8;
long lVar9;
long lVar10;
double dVar11;
double dVar12;
double dVar13;
double dVar14;
double dVar15;
double dVar16;
double dVar17;
double dVar18;
iVar1 = *(int *)this;
dVar11 = (double)ggml_type_sizef(0);
iVar2 = *(int *)this;
dVar12 = (double)ggml_type_sizef(1);
iVar3 = *(int *)this;
dVar13 = (double)ggml_type_sizef(0);
dVar11 = dVar13 * (double)(iVar3 * 2) +
dVar12 * (double)(iVar2 * iVar2 * 2) + dVar11 * (double)(iVar1 * 2) + 0.0;
lVar9 = *(long *)(this + 0x40);
for (lVar10 = *(long *)(this + 0x38); lVar10 != lVar9; lVar10 = lVar10 + 0xa0) {
iVar1 = *(int *)this;
dVar12 = (double)ggml_type_sizef(0);
iVar2 = *(int *)this;
dVar13 = (double)ggml_type_sizef(param_2);
iVar3 = *(int *)this;
iVar4 = *(int *)(this + 0x10);
dVar14 = (double)ggml_type_sizef(param_2);
iVar5 = *(int *)this;
dVar15 = (double)ggml_type_sizef(param_2);
iVar6 = *(int *)this;
dVar16 = (double)ggml_type_sizef(0);
iVar7 = *(int *)this;
dVar17 = (double)ggml_type_sizef();
iVar8 = *(int *)this;
dVar18 = (double)ggml_type_sizef();
dVar11 = dVar18 * (double)iVar8 +
dVar17 * (double)(iVar7 * iVar7 * 4) +
dVar16 * (double)(iVar6 << 3) +
dVar15 * (double)(iVar5 * iVar5 * 8) +
dVar14 * (double)(iVar3 * iVar4 * 2) +
dVar13 * (double)(iVar2 * iVar2 * 6) + dVar12 * (double)(iVar1 * 6) + dVar11;
}
return (long)(dVar11 - DAT_001999d0) & (long)dVar11 >> 0x3f | (long)dVar11;
}
|
|
4,424 | SpatialTransformer::calculate_mem_size(ggml_type) | 7CodeWizard[P]stablediffusion/unet.hpp | size_t calculate_mem_size(ggml_type wtype) {
double mem_size = 0;
mem_size += 2 * in_channels * ggml_type_sizef(GGML_TYPE_F32); // norm_w/norm_b
mem_size += 2 * in_channels * in_channels * 1 * 1 * ggml_type_sizef(GGML_TYPE_F16); // proj_in_w/proj_out_w
mem_size += 2 * in_channels * ggml_type_sizef(GGML_TYPE_F32); // proj_in_b/proj_out_b
// transformer
for (auto& transformer : transformers) {
mem_size += 6 * in_channels * ggml_type_sizef(GGML_TYPE_F32); // norm1-3_w/b
mem_size += 6 * in_channels * in_channels * ggml_type_sizef(wtype); // attn1_q/k/v/out_w attn2_q/out_w
mem_size += 2 * in_channels * context_dim * ggml_type_sizef(wtype); // attn2_k/v_w
mem_size += in_channels * 4 * 2 * in_channels * ggml_type_sizef(wtype); // ff_0_proj_w
mem_size += in_channels * 4 * 2 * ggml_type_sizef(GGML_TYPE_F32); // ff_0_proj_b
mem_size += in_channels * 4 * in_channels * ggml_type_sizef(wtype); // ff_2_w
mem_size += in_channels * ggml_type_sizef(GGML_TYPE_F32); // ff_2_b
}
return static_cast<size_t>(mem_size);
} | O3 | cpp | SpatialTransformer::calculate_mem_size(ggml_type):
pushq %r15
pushq %r14
pushq %r12
pushq %rbx
subq $0x28, %rsp
movl %esi, %ebx
movq %rdi, %r14
movl (%rdi), %eax
addl %eax, %eax
cvtsi2sd %eax, %xmm0
movsd %xmm0, 0x8(%rsp)
xorl %edi, %edi
callq 0x8cf2e
mulsd 0x8(%rsp), %xmm0
xorpd %xmm1, %xmm1
addsd %xmm0, %xmm1
movsd %xmm1, 0x8(%rsp)
movl (%r14), %eax
imull %eax, %eax
addl %eax, %eax
xorps %xmm0, %xmm0
cvtsi2sd %eax, %xmm0
movsd %xmm0, 0x10(%rsp)
movl $0x1, %edi
callq 0x8cf2e
mulsd 0x10(%rsp), %xmm0
addsd 0x8(%rsp), %xmm0
movsd %xmm0, 0x8(%rsp)
movl (%r14), %eax
addl %eax, %eax
xorps %xmm0, %xmm0
cvtsi2sd %eax, %xmm0
movsd %xmm0, 0x10(%rsp)
xorl %edi, %edi
callq 0x8cf2e
mulsd 0x10(%rsp), %xmm0
addsd 0x8(%rsp), %xmm0
movq 0x38(%r14), %r15
movq 0x40(%r14), %r12
cmpq %r12, %r15
je 0x395ec
movapd %xmm0, 0x10(%rsp)
movl (%r14), %eax
addl %eax, %eax
leal (%rax,%rax,2), %eax
xorps %xmm1, %xmm1
cvtsi2sd %eax, %xmm1
movsd %xmm1, 0x8(%rsp)
xorl %edi, %edi
callq 0x8cf2e
mulsd 0x8(%rsp), %xmm0
addsd 0x10(%rsp), %xmm0
movsd %xmm0, 0x8(%rsp)
movl (%r14), %eax
imull %eax, %eax
addl %eax, %eax
leal (%rax,%rax,2), %eax
xorps %xmm0, %xmm0
cvtsi2sd %eax, %xmm0
movsd %xmm0, 0x10(%rsp)
movl %ebx, %edi
callq 0x8cf2e
mulsd 0x10(%rsp), %xmm0
movl (%r14), %eax
imull 0x10(%r14), %eax
addsd 0x8(%rsp), %xmm0
movsd %xmm0, 0x8(%rsp)
addl %eax, %eax
xorps %xmm0, %xmm0
cvtsi2sd %eax, %xmm0
movsd %xmm0, 0x10(%rsp)
movl %ebx, %edi
callq 0x8cf2e
mulsd 0x10(%rsp), %xmm0
addsd 0x8(%rsp), %xmm0
movsd %xmm0, 0x8(%rsp)
movl (%r14), %eax
imull %eax, %eax
shll $0x3, %eax
xorps %xmm0, %xmm0
cvtsi2sd %eax, %xmm0
movsd %xmm0, 0x10(%rsp)
movl %ebx, %edi
callq 0x8cf2e
mulsd 0x10(%rsp), %xmm0
addsd 0x8(%rsp), %xmm0
movsd %xmm0, 0x8(%rsp)
movl (%r14), %eax
shll $0x3, %eax
xorps %xmm0, %xmm0
cvtsi2sd %eax, %xmm0
movsd %xmm0, 0x10(%rsp)
xorl %edi, %edi
callq 0x8cf2e
mulsd 0x10(%rsp), %xmm0
addsd 0x8(%rsp), %xmm0
movsd %xmm0, 0x8(%rsp)
movl (%r14), %eax
imull %eax, %eax
shll $0x2, %eax
xorps %xmm0, %xmm0
cvtsi2sd %eax, %xmm0
movsd %xmm0, 0x10(%rsp)
movl %ebx, %edi
callq 0x8cf2e
mulsd 0x10(%rsp), %xmm0
addsd 0x8(%rsp), %xmm0
movsd %xmm0, 0x8(%rsp)
xorps %xmm0, %xmm0
cvtsi2sdl (%r14), %xmm0
movsd %xmm0, 0x10(%rsp)
xorl %edi, %edi
callq 0x8cf2e
mulsd 0x10(%rsp), %xmm0
addsd 0x8(%rsp), %xmm0
addq $0xa0, %r15
jmp 0x39497
cvttsd2si %xmm0, %rcx
movq %rcx, %rdx
subsd 0x834b4(%rip), %xmm0 # 0xbcab0
cvttsd2si %xmm0, %rax
sarq $0x3f, %rdx
andq %rdx, %rax
orq %rcx, %rax
addq $0x28, %rsp
popq %rbx
popq %r12
popq %r14
popq %r15
retq
nop
| _ZN18SpatialTransformer18calculate_mem_sizeE9ggml_type:
push r15
push r14
push r12
push rbx
sub rsp, 28h
mov ebx, esi
mov r14, rdi
mov eax, [rdi]
add eax, eax
cvtsi2sd xmm0, eax
movsd [rsp+48h+var_40], xmm0
xor edi, edi
call ggml_type_sizef
mulsd xmm0, [rsp+48h+var_40]
xorpd xmm1, xmm1
addsd xmm1, xmm0
movsd [rsp+48h+var_40], xmm1
mov eax, [r14]
imul eax, eax
add eax, eax
xorps xmm0, xmm0
cvtsi2sd xmm0, eax
movsd qword ptr [rsp+48h+var_38], xmm0
mov edi, 1
call ggml_type_sizef
mulsd xmm0, qword ptr [rsp+48h+var_38]
addsd xmm0, [rsp+48h+var_40]
movsd [rsp+48h+var_40], xmm0
mov eax, [r14]
add eax, eax
xorps xmm0, xmm0
cvtsi2sd xmm0, eax
movsd qword ptr [rsp+48h+var_38], xmm0
xor edi, edi
call ggml_type_sizef
mulsd xmm0, qword ptr [rsp+48h+var_38]
addsd xmm0, [rsp+48h+var_40]
mov r15, [r14+38h]
mov r12, [r14+40h]
loc_39497:
cmp r15, r12
jz loc_395EC
movapd [rsp+48h+var_38], xmm0
mov eax, [r14]
add eax, eax
lea eax, [rax+rax*2]
xorps xmm1, xmm1
cvtsi2sd xmm1, eax
movsd [rsp+48h+var_40], xmm1
xor edi, edi
call ggml_type_sizef
mulsd xmm0, [rsp+48h+var_40]
addsd xmm0, qword ptr [rsp+48h+var_38]
movsd [rsp+48h+var_40], xmm0
mov eax, [r14]
imul eax, eax
add eax, eax
lea eax, [rax+rax*2]
xorps xmm0, xmm0
cvtsi2sd xmm0, eax
movsd qword ptr [rsp+48h+var_38], xmm0
mov edi, ebx
call ggml_type_sizef
mulsd xmm0, qword ptr [rsp+48h+var_38]
mov eax, [r14]
imul eax, [r14+10h]
addsd xmm0, [rsp+48h+var_40]
movsd [rsp+48h+var_40], xmm0
add eax, eax
xorps xmm0, xmm0
cvtsi2sd xmm0, eax
movsd qword ptr [rsp+48h+var_38], xmm0
mov edi, ebx
call ggml_type_sizef
mulsd xmm0, qword ptr [rsp+48h+var_38]
addsd xmm0, [rsp+48h+var_40]
movsd [rsp+48h+var_40], xmm0
mov eax, [r14]
imul eax, eax
shl eax, 3
xorps xmm0, xmm0
cvtsi2sd xmm0, eax
movsd qword ptr [rsp+48h+var_38], xmm0
mov edi, ebx
call ggml_type_sizef
mulsd xmm0, qword ptr [rsp+48h+var_38]
addsd xmm0, [rsp+48h+var_40]
movsd [rsp+48h+var_40], xmm0
mov eax, [r14]
shl eax, 3
xorps xmm0, xmm0
cvtsi2sd xmm0, eax
movsd qword ptr [rsp+48h+var_38], xmm0
xor edi, edi
call ggml_type_sizef
mulsd xmm0, qword ptr [rsp+48h+var_38]
addsd xmm0, [rsp+48h+var_40]
movsd [rsp+48h+var_40], xmm0
mov eax, [r14]
imul eax, eax
shl eax, 2
xorps xmm0, xmm0
cvtsi2sd xmm0, eax
movsd qword ptr [rsp+48h+var_38], xmm0
mov edi, ebx
call ggml_type_sizef
mulsd xmm0, qword ptr [rsp+48h+var_38]
addsd xmm0, [rsp+48h+var_40]
movsd [rsp+48h+var_40], xmm0
xorps xmm0, xmm0
cvtsi2sd xmm0, dword ptr [r14]
movsd qword ptr [rsp+48h+var_38], xmm0
xor edi, edi
call ggml_type_sizef
mulsd xmm0, qword ptr [rsp+48h+var_38]
addsd xmm0, [rsp+48h+var_40]
add r15, 0A0h
jmp loc_39497
loc_395EC:
cvttsd2si rcx, xmm0
mov rdx, rcx
subsd xmm0, cs:qword_BCAB0
cvttsd2si rax, xmm0
sar rdx, 3Fh
and rax, rdx
or rax, rcx
add rsp, 28h
pop rbx
pop r12
pop r14
pop r15
retn
| long long SpatialTransformer::calculate_mem_size(long long a1, unsigned int a2)
{
double v2; // xmm0_8
long long v3; // r15
long long v4; // r12
double v6; // [rsp+8h] [rbp-40h]
double v7; // [rsp+8h] [rbp-40h]
double v8; // [rsp+8h] [rbp-40h]
double v9; // [rsp+8h] [rbp-40h]
double v10; // [rsp+8h] [rbp-40h]
double v11; // [rsp+8h] [rbp-40h]
double v12; // [rsp+8h] [rbp-40h]
double v13; // [rsp+8h] [rbp-40h]
double v14; // [rsp+8h] [rbp-40h]
double v15; // [rsp+8h] [rbp-40h]
double v16; // [rsp+10h] [rbp-38h]
double v17; // [rsp+10h] [rbp-38h]
double v18; // [rsp+10h] [rbp-38h]
double v19; // [rsp+10h] [rbp-38h]
double v20; // [rsp+10h] [rbp-38h]
double v21; // [rsp+10h] [rbp-38h]
double v22; // [rsp+10h] [rbp-38h]
double v23; // [rsp+10h] [rbp-38h]
v6 = (double)(2 * *(_DWORD *)a1);
v7 = ggml_type_sizef(0LL) * v6 + 0.0;
v16 = (double)(2 * *(_DWORD *)a1 * *(_DWORD *)a1);
v8 = ggml_type_sizef(1LL) * v16 + v7;
v17 = (double)(2 * *(_DWORD *)a1);
v2 = ggml_type_sizef(0LL) * v17 + v8;
v3 = *(_QWORD *)(a1 + 56);
v4 = *(_QWORD *)(a1 + 64);
while ( v3 != v4 )
{
v9 = (double)(6 * *(_DWORD *)a1);
v10 = ggml_type_sizef(0LL) * v9 + v2;
v18 = (double)(6 * *(_DWORD *)a1 * *(_DWORD *)a1);
v11 = ggml_type_sizef(a2) * v18 + v10;
v19 = (double)(2 * *(_DWORD *)(a1 + 16) * *(_DWORD *)a1);
v12 = ggml_type_sizef(a2) * v19 + v11;
v20 = (double)(8 * *(_DWORD *)a1 * *(_DWORD *)a1);
v13 = ggml_type_sizef(a2) * v20 + v12;
v21 = (double)(8 * *(_DWORD *)a1);
v14 = ggml_type_sizef(0LL) * v21 + v13;
v22 = (double)(4 * *(_DWORD *)a1 * *(_DWORD *)a1);
v15 = ggml_type_sizef(a2) * v22 + v14;
v23 = (double)*(int *)a1;
v2 = ggml_type_sizef(0LL) * v23 + v15;
v3 += 160LL;
}
return (unsigned int)(int)v2;
}
| |||
4,425 | tailoring_append_abbreviation | eloqsql/strings/ctype.c | static int
tailoring_append_abbreviation(MY_XML_PARSER *st,
const char *fmt, size_t len, const char *attr)
{
size_t clen;
const char *attrend= attr + len;
my_wc_t wc;
for ( ; (clen= scan_one_character(attr, attrend, &wc)) > 0; attr+= clen)
{
DBUG_ASSERT(attr < attrend);
if (tailoring_append(st, fmt, clen, attr) != MY_XML_OK)
return MY_XML_ERROR;
}
return MY_XML_OK;
} | O0 | c | tailoring_append_abbreviation:
pushq %rbp
movq %rsp, %rbp
subq $0x40, %rsp
movq %rdi, -0x10(%rbp)
movq %rsi, -0x18(%rbp)
movq %rdx, -0x20(%rbp)
movq %rcx, -0x28(%rbp)
movq -0x28(%rbp), %rax
addq -0x20(%rbp), %rax
movq %rax, -0x38(%rbp)
movq -0x28(%rbp), %rdi
movq -0x38(%rbp), %rsi
leaq -0x40(%rbp), %rdx
callq 0x74a20
movq %rax, -0x30(%rbp)
cmpq $0x0, %rax
jbe 0x74a06
jmp 0x749d1
jmp 0x749d3
movq -0x10(%rbp), %rdi
movq -0x18(%rbp), %rsi
movq -0x30(%rbp), %rdx
movq -0x28(%rbp), %rcx
callq 0x744c0
cmpl $0x0, %eax
je 0x749f6
movl $0x1, -0x4(%rbp)
jmp 0x74a0d
jmp 0x749f8
movq -0x30(%rbp), %rax
addq -0x28(%rbp), %rax
movq %rax, -0x28(%rbp)
jmp 0x749b4
movl $0x0, -0x4(%rbp)
movl -0x4(%rbp), %eax
addq $0x40, %rsp
popq %rbp
retq
nopw %cs:(%rax,%rax)
| tailoring_append_abbreviation:
push rbp
mov rbp, rsp
sub rsp, 40h
mov [rbp+var_10], rdi
mov [rbp+var_18], rsi
mov [rbp+var_20], rdx
mov [rbp+var_28], rcx
mov rax, [rbp+var_28]
add rax, [rbp+var_20]
mov [rbp+var_38], rax
loc_749B4:
mov rdi, [rbp+var_28]
mov rsi, [rbp+var_38]
lea rdx, [rbp+var_40]
call scan_one_character
mov [rbp+var_30], rax
cmp rax, 0
jbe short loc_74A06
jmp short $+2
loc_749D1:
jmp short $+2
loc_749D3:
mov rdi, [rbp+var_10]
mov rsi, [rbp+var_18]
mov rdx, [rbp+var_30]
mov rcx, [rbp+var_28]
call tailoring_append
cmp eax, 0
jz short loc_749F6
mov [rbp+var_4], 1
jmp short loc_74A0D
loc_749F6:
jmp short $+2
loc_749F8:
mov rax, [rbp+var_30]
add rax, [rbp+var_28]
mov [rbp+var_28], rax
jmp short loc_749B4
loc_74A06:
mov [rbp+var_4], 0
loc_74A0D:
mov eax, [rbp+var_4]
add rsp, 40h
pop rbp
retn
| long long tailoring_append_abbreviation(long long a1, const char *a2, long long a3, long long a4)
{
_BYTE v5[8]; // [rsp+0h] [rbp-40h] BYREF
long long v6; // [rsp+8h] [rbp-38h]
long long v7; // [rsp+10h] [rbp-30h]
long long v8; // [rsp+18h] [rbp-28h]
long long v9; // [rsp+20h] [rbp-20h]
const char *v10; // [rsp+28h] [rbp-18h]
long long v11; // [rsp+30h] [rbp-10h]
v11 = a1;
v10 = a2;
v9 = a3;
v8 = a4;
v6 = a3 + a4;
while ( 1 )
{
v7 = scan_one_character(v8, v6, v5);
if ( !v7 )
break;
if ( (unsigned int)tailoring_append(v11, v10, v7, v8) )
return 1;
v8 += v7;
}
return 0;
}
| tailoring_append_abbreviation:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x40
MOV qword ptr [RBP + -0x10],RDI
MOV qword ptr [RBP + -0x18],RSI
MOV qword ptr [RBP + -0x20],RDX
MOV qword ptr [RBP + -0x28],RCX
MOV RAX,qword ptr [RBP + -0x28]
ADD RAX,qword ptr [RBP + -0x20]
MOV qword ptr [RBP + -0x38],RAX
LAB_001749b4:
MOV RDI,qword ptr [RBP + -0x28]
MOV RSI,qword ptr [RBP + -0x38]
LEA RDX,[RBP + -0x40]
CALL 0x00174a20
MOV qword ptr [RBP + -0x30],RAX
CMP RAX,0x0
JBE 0x00174a06
JMP 0x001749d1
LAB_001749d1:
JMP 0x001749d3
LAB_001749d3:
MOV RDI,qword ptr [RBP + -0x10]
MOV RSI,qword ptr [RBP + -0x18]
MOV RDX,qword ptr [RBP + -0x30]
MOV RCX,qword ptr [RBP + -0x28]
CALL 0x001744c0
CMP EAX,0x0
JZ 0x001749f6
MOV dword ptr [RBP + -0x4],0x1
JMP 0x00174a0d
LAB_001749f6:
JMP 0x001749f8
LAB_001749f8:
MOV RAX,qword ptr [RBP + -0x30]
ADD RAX,qword ptr [RBP + -0x28]
MOV qword ptr [RBP + -0x28],RAX
JMP 0x001749b4
LAB_00174a06:
MOV dword ptr [RBP + -0x4],0x0
LAB_00174a0d:
MOV EAX,dword ptr [RBP + -0x4]
ADD RSP,0x40
POP RBP
RET
|
int4
tailoring_append_abbreviation(int8 param_1,int8 param_2,long param_3,long param_4)
{
int iVar1;
int1 local_48 [8];
long local_40;
long local_38;
long local_30;
long local_28;
int8 local_20;
int8 local_18;
local_40 = param_4 + param_3;
local_30 = param_4;
local_28 = param_3;
local_20 = param_2;
local_18 = param_1;
while( true ) {
local_38 = scan_one_character(local_30,local_40,local_48);
if (local_38 == 0) {
return 0;
}
iVar1 = tailoring_append(local_18,local_20,local_38,local_30);
if (iVar1 != 0) break;
local_30 = local_38 + local_30;
}
return 1;
}
|
|
4,426 | my_uca_generate_pages | eloqsql/strings/ctype-uca.c | static my_bool
my_uca_generate_pages(MY_CHARSET_LOADER *loader,
MY_UCA_WEIGHT_LEVEL *dst,
const MY_UCA_WEIGHT_LEVEL *src,
uint npages)
{
uint page;
for (page= 0; page < npages; page++)
{
if (dst->weights[page])
{
/* A page with explicit weights with no special rules */
continue;
}
if (!dst->lengths[page])
{
/*
A page with implicit weights with no special rules.
Keep dst->weights[page]==NULL and dst->lengths[page]==0.
Weights for this page will be generated at run time algorithmically,
using my_uca_scanner_next_implicit().
*/
continue;
}
/* Found a page with some special rules. */
if (my_uca_generate_page(loader, dst, src, page))
return TRUE;
}
return FALSE;
} | O0 | c | my_uca_generate_pages:
pushq %rbp
movq %rsp, %rbp
subq $0x30, %rsp
movq %rdi, -0x10(%rbp)
movq %rsi, -0x18(%rbp)
movq %rdx, -0x20(%rbp)
movl %ecx, -0x24(%rbp)
movl $0x0, -0x28(%rbp)
movl -0x28(%rbp), %eax
cmpl -0x24(%rbp), %eax
jae 0x58ac8
movq -0x18(%rbp), %rax
movq 0x10(%rax), %rax
movl -0x28(%rbp), %ecx
cmpq $0x0, (%rax,%rcx,8)
je 0x58a8a
jmp 0x58abd
movq -0x18(%rbp), %rax
movq 0x8(%rax), %rax
movl -0x28(%rbp), %ecx
cmpb $0x0, (%rax,%rcx)
jne 0x58a9d
jmp 0x58abd
movq -0x10(%rbp), %rdi
movq -0x18(%rbp), %rsi
movq -0x20(%rbp), %rdx
movl -0x28(%rbp), %ecx
callq 0x58e30
cmpb $0x0, %al
je 0x58abb
movb $0x1, -0x1(%rbp)
jmp 0x58acc
jmp 0x58abd
movl -0x28(%rbp), %eax
addl $0x1, %eax
movl %eax, -0x28(%rbp)
jmp 0x58a6e
movb $0x0, -0x1(%rbp)
movb -0x1(%rbp), %al
addq $0x30, %rsp
popq %rbp
retq
nopw %cs:(%rax,%rax)
| my_uca_generate_pages:
push rbp
mov rbp, rsp
sub rsp, 30h
mov [rbp+var_10], rdi
mov [rbp+var_18], rsi
mov [rbp+var_20], rdx
mov [rbp+var_24], ecx
mov [rbp+var_28], 0
loc_58A6E:
mov eax, [rbp+var_28]
cmp eax, [rbp+var_24]
jnb short loc_58AC8
mov rax, [rbp+var_18]
mov rax, [rax+10h]
mov ecx, [rbp+var_28]
cmp qword ptr [rax+rcx*8], 0
jz short loc_58A8A
jmp short loc_58ABD
loc_58A8A:
mov rax, [rbp+var_18]
mov rax, [rax+8]
mov ecx, [rbp+var_28]
cmp byte ptr [rax+rcx], 0
jnz short loc_58A9D
jmp short loc_58ABD
loc_58A9D:
mov rdi, [rbp+var_10]
mov rsi, [rbp+var_18]
mov rdx, [rbp+var_20]
mov ecx, [rbp+var_28]
call my_uca_generate_page
cmp al, 0
jz short loc_58ABB
mov [rbp+var_1], 1
jmp short loc_58ACC
loc_58ABB:
jmp short $+2
loc_58ABD:
mov eax, [rbp+var_28]
add eax, 1
mov [rbp+var_28], eax
jmp short loc_58A6E
loc_58AC8:
mov [rbp+var_1], 0
loc_58ACC:
mov al, [rbp+var_1]
add rsp, 30h
pop rbp
retn
| char my_uca_generate_pages(long long a1, long long a2, long long a3, unsigned int a4)
{
unsigned int i; // [rsp+8h] [rbp-28h]
for ( i = 0; i < a4; ++i )
{
if ( !*(_QWORD *)(*(_QWORD *)(a2 + 16) + 8LL * i)
&& *(_BYTE *)(*(_QWORD *)(a2 + 8) + i)
&& (unsigned __int8)my_uca_generate_page(a1, a2, a3, i) )
{
return 1;
}
}
return 0;
}
| my_uca_generate_pages:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x30
MOV qword ptr [RBP + -0x10],RDI
MOV qword ptr [RBP + -0x18],RSI
MOV qword ptr [RBP + -0x20],RDX
MOV dword ptr [RBP + -0x24],ECX
MOV dword ptr [RBP + -0x28],0x0
LAB_00158a6e:
MOV EAX,dword ptr [RBP + -0x28]
CMP EAX,dword ptr [RBP + -0x24]
JNC 0x00158ac8
MOV RAX,qword ptr [RBP + -0x18]
MOV RAX,qword ptr [RAX + 0x10]
MOV ECX,dword ptr [RBP + -0x28]
CMP qword ptr [RAX + RCX*0x8],0x0
JZ 0x00158a8a
JMP 0x00158abd
LAB_00158a8a:
MOV RAX,qword ptr [RBP + -0x18]
MOV RAX,qword ptr [RAX + 0x8]
MOV ECX,dword ptr [RBP + -0x28]
CMP byte ptr [RAX + RCX*0x1],0x0
JNZ 0x00158a9d
JMP 0x00158abd
LAB_00158a9d:
MOV RDI,qword ptr [RBP + -0x10]
MOV RSI,qword ptr [RBP + -0x18]
MOV RDX,qword ptr [RBP + -0x20]
MOV ECX,dword ptr [RBP + -0x28]
CALL 0x00158e30
CMP AL,0x0
JZ 0x00158abb
MOV byte ptr [RBP + -0x1],0x1
JMP 0x00158acc
LAB_00158abb:
JMP 0x00158abd
LAB_00158abd:
MOV EAX,dword ptr [RBP + -0x28]
ADD EAX,0x1
MOV dword ptr [RBP + -0x28],EAX
JMP 0x00158a6e
LAB_00158ac8:
MOV byte ptr [RBP + -0x1],0x0
LAB_00158acc:
MOV AL,byte ptr [RBP + -0x1]
ADD RSP,0x30
POP RBP
RET
|
int1 my_uca_generate_pages(int8 param_1,long param_2,int8 param_3,uint param_4)
{
char cVar1;
uint local_30;
local_30 = 0;
while( true ) {
if (param_4 <= local_30) {
return 0;
}
if (((*(long *)(*(long *)(param_2 + 0x10) + (ulong)local_30 * 8) == 0) &&
(*(char *)(*(long *)(param_2 + 8) + (ulong)local_30) != '\0')) &&
(cVar1 = my_uca_generate_page(param_1,param_2,param_3,local_30), cVar1 != '\0')) break;
local_30 = local_30 + 1;
}
return 1;
}
|
|
4,427 | parse_cpu_mask(std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>> const&, bool (&) [512]) | monkey531[P]llama/common/common.cpp | bool parse_cpu_mask(const std::string & mask, bool (&boolmask)[GGML_MAX_N_THREADS]) {
// Discard potential 0x prefix
size_t start_i = 0;
if (mask.length() >= 2 && mask.substr(0, 2) == "0x") {
start_i = 2;
}
size_t num_digits = mask.length() - start_i;
if (num_digits > 128) num_digits = 128;
size_t end_i = num_digits + start_i;
for (size_t i = start_i, n = (num_digits*4 - 1); i < end_i; i++, n-=4) {
char c = mask.at(i);
int8_t id = c;
if ((c >= '0' && c <= '9')) {
id -= '0';
} else if (c >= 'a' && c <= 'f') {
id -= 'a' - 10;
} else if (c >= 'A' && c <= 'F') {
id -= 'A' - 10;
} else {
LOG_ERR("Invalid hex character '%c' at position %d\n", c, int32_t(i));
return false;
}
boolmask[ n ] = boolmask[ n ] || ((id & 8) != 0);
boolmask[n - 1] = boolmask[n - 1] || ((id & 4) != 0);
boolmask[n - 2] = boolmask[n - 2] || ((id & 2) != 0);
boolmask[n - 3] = boolmask[n - 3] || ((id & 1) != 0);
}
return true;
} | O0 | cpp | parse_cpu_mask(std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>> const&, bool (&) [512]):
subq $0x98, %rsp
movq %rdi, 0x88(%rsp)
movq %rsi, 0x80(%rsp)
movq $0x0, 0x78(%rsp)
movq 0x88(%rsp), %rdi
callq 0x5a9f0
movq %rax, %rcx
movb $0x0, 0x57(%rsp)
xorl %eax, %eax
cmpq $0x2, %rcx
movb %al, 0x1d(%rsp)
jb 0xec227
movq 0x88(%rsp), %rsi
xorl %eax, %eax
movl %eax, %edx
leaq 0x58(%rsp), %rdi
movq %rdi, 0x10(%rsp)
movl $0x2, %ecx
callq 0x5b130
movq 0x10(%rsp), %rdi
movb $0x1, 0x57(%rsp)
leaq 0x130273(%rip), %rsi # 0x21c485
callq 0x8d760
movb %al, 0x1c(%rsp)
jmp 0xec21d
movb 0x1c(%rsp), %al
movb %al, 0x1d(%rsp)
jmp 0xec227
movb 0x1d(%rsp), %al
movb %al, 0xf(%rsp)
testb $0x1, 0x57(%rsp)
jne 0xec238
jmp 0xec242
leaq 0x58(%rsp), %rdi
callq 0x5b588
movb 0xf(%rsp), %al
testb $0x1, %al
jne 0xec24c
jmp 0xec27d
movq $0x2, 0x78(%rsp)
jmp 0xec27d
movq %rax, %rcx
movl %edx, %eax
movq %rcx, 0x48(%rsp)
movl %eax, 0x44(%rsp)
testb $0x1, 0x57(%rsp)
jne 0xec26e
jmp 0xec278
leaq 0x58(%rsp), %rdi
callq 0x5b588
jmp 0xec510
movq 0x88(%rsp), %rdi
callq 0x5a9f0
subq 0x78(%rsp), %rax
movq %rax, 0x38(%rsp)
cmpq $0x80, 0x38(%rsp)
jbe 0xec2a8
movq $0x80, 0x38(%rsp)
movq 0x38(%rsp), %rax
addq 0x78(%rsp), %rax
movq %rax, 0x30(%rsp)
movq 0x78(%rsp), %rax
movq %rax, 0x28(%rsp)
movq 0x38(%rsp), %rax
shlq $0x2, %rax
subq $0x1, %rax
movq %rax, 0x20(%rsp)
movq 0x28(%rsp), %rax
cmpq 0x30(%rsp), %rax
jae 0xec4f7
movq 0x88(%rsp), %rdi
movq 0x28(%rsp), %rsi
callq 0x5ade0
movb (%rax), %al
movb %al, 0x1f(%rsp)
movb 0x1f(%rsp), %al
movb %al, 0x1e(%rsp)
movsbl 0x1f(%rsp), %eax
cmpl $0x30, %eax
jl 0xec328
movsbl 0x1f(%rsp), %eax
cmpl $0x39, %eax
jg 0xec328
movsbl 0x1e(%rsp), %eax
subl $0x30, %eax
movb %al, 0x1e(%rsp)
jmp 0xec3b6
movsbl 0x1f(%rsp), %eax
cmpl $0x61, %eax
jl 0xec34a
movsbl 0x1f(%rsp), %eax
cmpl $0x66, %eax
jg 0xec34a
movsbl 0x1e(%rsp), %eax
subl $0x57, %eax
movb %al, 0x1e(%rsp)
jmp 0xec3b4
movsbl 0x1f(%rsp), %eax
cmpl $0x41, %eax
jl 0xec36c
movsbl 0x1f(%rsp), %eax
cmpl $0x46, %eax
jg 0xec36c
movsbl 0x1e(%rsp), %eax
subl $0x37, %eax
movb %al, 0x1e(%rsp)
jmp 0xec3b2
jmp 0xec36e
xorl %eax, %eax
leaq 0x1ba2a1(%rip), %rcx # 0x2a6618
cmpl (%rcx), %eax
jg 0xec3a3
callq 0x1be7b0
movq %rax, %rdi
movsbl 0x1f(%rsp), %ecx
movq 0x28(%rsp), %rax
movl %eax, %r8d
movl $0x4, %esi
leaq 0x1261da(%rip), %rdx # 0x212576
movb $0x0, %al
callq 0x1be8a0
jmp 0xec3a5
movb $0x0, 0x97(%rsp)
jmp 0xec4ff
jmp 0xec3b4
jmp 0xec3b6
movq 0x80(%rsp), %rcx
movq 0x20(%rsp), %rdx
movb $0x1, %al
testb $0x1, (%rcx,%rdx)
movb %al, 0xe(%rsp)
jne 0xec3e1
movsbl 0x1e(%rsp), %eax
andl $0x8, %eax
cmpl $0x0, %eax
setne %al
movb %al, 0xe(%rsp)
movb 0xe(%rsp), %dl
movq 0x80(%rsp), %rax
movq 0x20(%rsp), %rcx
andb $0x1, %dl
movb %dl, (%rax,%rcx)
movq 0x80(%rsp), %rcx
movq 0x20(%rsp), %rdx
subq $0x1, %rdx
movb $0x1, %al
testb $0x1, (%rcx,%rdx)
movb %al, 0xd(%rsp)
jne 0xec427
movsbl 0x1e(%rsp), %eax
andl $0x4, %eax
cmpl $0x0, %eax
setne %al
movb %al, 0xd(%rsp)
movb 0xd(%rsp), %dl
movq 0x80(%rsp), %rax
movq 0x20(%rsp), %rcx
subq $0x1, %rcx
andb $0x1, %dl
movb %dl, (%rax,%rcx)
movq 0x80(%rsp), %rcx
movq 0x20(%rsp), %rdx
subq $0x2, %rdx
movb $0x1, %al
testb $0x1, (%rcx,%rdx)
movb %al, 0xc(%rsp)
jne 0xec471
movsbl 0x1e(%rsp), %eax
andl $0x2, %eax
cmpl $0x0, %eax
setne %al
movb %al, 0xc(%rsp)
movb 0xc(%rsp), %dl
movq 0x80(%rsp), %rax
movq 0x20(%rsp), %rcx
subq $0x2, %rcx
andb $0x1, %dl
movb %dl, (%rax,%rcx)
movq 0x80(%rsp), %rcx
movq 0x20(%rsp), %rdx
subq $0x3, %rdx
movb $0x1, %al
testb $0x1, (%rcx,%rdx)
movb %al, 0xb(%rsp)
jne 0xec4bb
movsbl 0x1e(%rsp), %eax
andl $0x1, %eax
cmpl $0x0, %eax
setne %al
movb %al, 0xb(%rsp)
movb 0xb(%rsp), %dl
movq 0x80(%rsp), %rax
movq 0x20(%rsp), %rcx
subq $0x3, %rcx
andb $0x1, %dl
movb %dl, (%rax,%rcx)
movq 0x28(%rsp), %rax
addq $0x1, %rax
movq %rax, 0x28(%rsp)
movq 0x20(%rsp), %rax
subq $0x4, %rax
movq %rax, 0x20(%rsp)
jmp 0xec2d3
movb $0x1, 0x97(%rsp)
movb 0x97(%rsp), %al
andb $0x1, %al
addq $0x98, %rsp
retq
movq 0x48(%rsp), %rdi
callq 0x5aba0
nopw (%rax,%rax)
| _Z14parse_cpu_maskRKNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEERA512_b:
sub rsp, 98h
mov [rsp+98h+var_10], rdi
mov [rsp+98h+var_18], rsi
mov [rsp+98h+var_20], 0
mov rdi, [rsp+98h+var_10]
call __ZNKSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE6lengthEv; std::string::length(void)
mov rcx, rax
mov [rsp+98h+var_41], 0
xor eax, eax
cmp rcx, 2
mov [rsp+98h+var_7B], al
jb short loc_EC227
mov rsi, [rsp+98h+var_10]
xor eax, eax
mov edx, eax
lea rdi, [rsp+98h+var_40]
mov [rsp+98h+var_88], rdi
mov ecx, 2
call __ZNKSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE6substrEmm; std::string::substr(ulong,ulong)
mov rdi, [rsp+98h+var_88]
mov [rsp+98h+var_41], 1
lea rsi, aInvalidByte0x+0Eh; "0x"
call _ZSteqIcSt11char_traitsIcESaIcEEbRKNSt7__cxx1112basic_stringIT_T0_T1_EEPKS5_; std::operator==<char>(std::string const&,char const*)
mov [rsp+98h+var_7C], al
jmp short $+2
loc_EC21D:
mov al, [rsp+98h+var_7C]
mov [rsp+98h+var_7B], al
jmp short $+2
loc_EC227:
mov al, [rsp+98h+var_7B]
mov [rsp+98h+var_89], al
test [rsp+98h+var_41], 1
jnz short loc_EC238
jmp short loc_EC242
loc_EC238:
lea rdi, [rsp+98h+var_40]; void *
call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEED1Ev; std::string::~string()
loc_EC242:
mov al, [rsp+98h+var_89]
test al, 1
jnz short loc_EC24C
jmp short loc_EC27D
loc_EC24C:
mov [rsp+98h+var_20], 2
jmp short loc_EC27D
mov rcx, rax
mov eax, edx
mov [rsp+arg_40], rcx
mov [rsp+arg_3C], eax
test [rsp+arg_4F], 1
jnz short loc_EC26E
jmp short loc_EC278
loc_EC26E:
lea rdi, [rsp+arg_50]; void *
call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEED1Ev; std::string::~string()
loc_EC278:
jmp loc_EC510
loc_EC27D:
mov rdi, [rsp+98h+var_10]
call __ZNKSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE6lengthEv; std::string::length(void)
sub rax, [rsp+98h+var_20]
mov [rsp+98h+var_60], rax
cmp [rsp+98h+var_60], 80h
jbe short loc_EC2A8
mov [rsp+98h+var_60], 80h
loc_EC2A8:
mov rax, [rsp+98h+var_60]
add rax, [rsp+98h+var_20]
mov [rsp+98h+var_68], rax
mov rax, [rsp+98h+var_20]
mov [rsp+98h+var_70], rax
mov rax, [rsp+98h+var_60]
shl rax, 2
sub rax, 1
mov [rsp+98h+var_78], rax
loc_EC2D3:
mov rax, [rsp+98h+var_70]
cmp rax, [rsp+98h+var_68]
jnb loc_EC4F7
mov rdi, [rsp+98h+var_10]
mov rsi, [rsp+98h+var_70]
call __ZNKSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE2atEm; std::string::at(ulong)
mov al, [rax]
mov [rsp+98h+var_79], al
mov al, [rsp+98h+var_79]
mov [rsp+98h+var_7A], al
movsx eax, [rsp+98h+var_79]
cmp eax, 30h ; '0'
jl short loc_EC328
movsx eax, [rsp+98h+var_79]
cmp eax, 39h ; '9'
jg short loc_EC328
movsx eax, [rsp+98h+var_7A]
sub eax, 30h ; '0'
mov [rsp+98h+var_7A], al
jmp loc_EC3B6
loc_EC328:
movsx eax, [rsp+98h+var_79]
cmp eax, 61h ; 'a'
jl short loc_EC34A
movsx eax, [rsp+98h+var_79]
cmp eax, 66h ; 'f'
jg short loc_EC34A
movsx eax, [rsp+98h+var_7A]
sub eax, 57h ; 'W'
mov [rsp+98h+var_7A], al
jmp short loc_EC3B4
loc_EC34A:
movsx eax, [rsp+98h+var_79]
cmp eax, 41h ; 'A'
jl short loc_EC36C
movsx eax, [rsp+98h+var_79]
cmp eax, 46h ; 'F'
jg short loc_EC36C
movsx eax, [rsp+98h+var_7A]
sub eax, 37h ; '7'
mov [rsp+98h+var_7A], al
jmp short loc_EC3B2
loc_EC36C:
jmp short $+2
loc_EC36E:
xor eax, eax
lea rcx, common_log_verbosity_thold
cmp eax, [rcx]
jg short loc_EC3A3
call _Z15common_log_mainv; common_log_main(void)
mov rdi, rax
movsx ecx, [rsp+98h+var_79]
mov rax, [rsp+98h+var_70]
mov r8d, eax
mov esi, 4
lea rdx, aInvalidHexChar; "Invalid hex character '%c' at position "...
mov al, 0
call _Z14common_log_addP10common_log14ggml_log_levelPKcz; common_log_add(common_log *,ggml_log_level,char const*,...)
loc_EC3A3:
jmp short $+2
loc_EC3A5:
mov [rsp+98h+var_1], 0
jmp loc_EC4FF
loc_EC3B2:
jmp short $+2
loc_EC3B4:
jmp short $+2
loc_EC3B6:
mov rcx, [rsp+98h+var_18]
mov rdx, [rsp+98h+var_78]
mov al, 1
test byte ptr [rcx+rdx], 1
mov [rsp+98h+var_8A], al
jnz short loc_EC3E1
movsx eax, [rsp+98h+var_7A]
and eax, 8
cmp eax, 0
setnz al
mov [rsp+98h+var_8A], al
loc_EC3E1:
mov dl, [rsp+98h+var_8A]
mov rax, [rsp+98h+var_18]
mov rcx, [rsp+98h+var_78]
and dl, 1
mov [rax+rcx], dl
mov rcx, [rsp+98h+var_18]
mov rdx, [rsp+98h+var_78]
sub rdx, 1
mov al, 1
test byte ptr [rcx+rdx], 1
mov [rsp+98h+var_8B], al
jnz short loc_EC427
movsx eax, [rsp+98h+var_7A]
and eax, 4
cmp eax, 0
setnz al
mov [rsp+98h+var_8B], al
loc_EC427:
mov dl, [rsp+98h+var_8B]
mov rax, [rsp+98h+var_18]
mov rcx, [rsp+98h+var_78]
sub rcx, 1
and dl, 1
mov [rax+rcx], dl
mov rcx, [rsp+98h+var_18]
mov rdx, [rsp+98h+var_78]
sub rdx, 2
mov al, 1
test byte ptr [rcx+rdx], 1
mov [rsp+98h+var_8C], al
jnz short loc_EC471
movsx eax, [rsp+98h+var_7A]
and eax, 2
cmp eax, 0
setnz al
mov [rsp+98h+var_8C], al
loc_EC471:
mov dl, [rsp+98h+var_8C]
mov rax, [rsp+98h+var_18]
mov rcx, [rsp+98h+var_78]
sub rcx, 2
and dl, 1
mov [rax+rcx], dl
mov rcx, [rsp+98h+var_18]
mov rdx, [rsp+98h+var_78]
sub rdx, 3
mov al, 1
test byte ptr [rcx+rdx], 1
mov [rsp+98h+var_8D], al
jnz short loc_EC4BB
movsx eax, [rsp+98h+var_7A]
and eax, 1
cmp eax, 0
setnz al
mov [rsp+98h+var_8D], al
loc_EC4BB:
mov dl, [rsp+98h+var_8D]
mov rax, [rsp+98h+var_18]
mov rcx, [rsp+98h+var_78]
sub rcx, 3
and dl, 1
mov [rax+rcx], dl
mov rax, [rsp+98h+var_70]
add rax, 1
mov [rsp+98h+var_70], rax
mov rax, [rsp+98h+var_78]
sub rax, 4
mov [rsp+98h+var_78], rax
jmp loc_EC2D3
loc_EC4F7:
mov [rsp+98h+var_1], 1
loc_EC4FF:
mov al, [rsp+98h+var_1]
and al, 1
add rsp, 98h
retn
loc_EC510:
mov rdi, [rsp+arg_40]
call __Unwind_Resume
| char parse_cpu_mask(long long a1, long long a2)
{
long long v2; // rax
int v3; // eax
int v4; // r9d
bool v6; // [rsp+Bh] [rbp-8Dh]
bool v7; // [rsp+Ch] [rbp-8Ch]
bool v8; // [rsp+Dh] [rbp-8Bh]
bool v9; // [rsp+Eh] [rbp-8Ah]
bool v10; // [rsp+1Dh] [rbp-7Bh]
char v11; // [rsp+1Eh] [rbp-7Ah]
char v12; // [rsp+1Fh] [rbp-79h]
long long i; // [rsp+20h] [rbp-78h]
unsigned long long v14; // [rsp+28h] [rbp-70h]
unsigned long long v15; // [rsp+30h] [rbp-68h]
long long v16; // [rsp+38h] [rbp-60h]
char v17; // [rsp+57h] [rbp-41h]
_BYTE v18[32]; // [rsp+58h] [rbp-40h] BYREF
long long v19; // [rsp+78h] [rbp-20h]
long long v20; // [rsp+80h] [rbp-18h]
long long v21; // [rsp+88h] [rbp-10h]
v21 = a1;
v20 = a2;
v19 = 0LL;
v17 = 0;
v10 = 0;
if ( (unsigned long long)std::string::length(a1) >= 2 )
{
std::string::substr(v18, v21, 0LL, 2LL);
v17 = 1;
v10 = std::operator==<char>((long long)v18, (long long)"0x");
}
if ( (v17 & 1) != 0 )
std::string::~string(v18);
if ( v10 )
v19 = 2LL;
v2 = std::string::length(v21);
v16 = v2 - v19;
if ( (unsigned long long)(v2 - v19) > 0x80 )
v16 = 128LL;
v15 = v19 + v16;
v14 = v19;
for ( i = 4 * v16 - 1; ; i -= 4LL )
{
if ( v14 >= v15 )
return 1;
v12 = *(_BYTE *)std::string::at(v21, v14);
if ( v12 >= 48 && v12 <= 57 )
{
v11 = v12 - 48;
goto LABEL_23;
}
if ( v12 >= 97 && v12 <= 102 )
{
v11 = v12 - 87;
goto LABEL_23;
}
if ( v12 < 65 || v12 > 70 )
break;
v11 = v12 - 55;
LABEL_23:
v9 = 1;
if ( (*(_BYTE *)(v20 + i) & 1) == 0 )
v9 = (v11 & 8) != 0;
*(_BYTE *)(v20 + i) = v9;
v8 = 1;
if ( (*(_BYTE *)(v20 + i - 1) & 1) == 0 )
v8 = (v11 & 4) != 0;
*(_BYTE *)(v20 + i - 1) = v8;
v7 = 1;
if ( (*(_BYTE *)(v20 + i - 2) & 1) == 0 )
v7 = (v11 & 2) != 0;
*(_BYTE *)(v20 + i - 2) = v7;
v6 = 1;
if ( (*(_BYTE *)(v20 + i - 3) & 1) == 0 )
v6 = (v11 & 1) != 0;
*(_BYTE *)(v20 + i - 3) = v6;
++v14;
}
if ( common_log_verbosity_thold >= 0 )
{
v3 = common_log_main();
common_log_add(v3, 4, (unsigned int)"Invalid hex character '%c' at position %d\n", v12, v14, v4);
}
return 0;
}
| parse_cpu_mask:
SUB RSP,0x98
MOV qword ptr [RSP + 0x88],RDI
MOV qword ptr [RSP + 0x80],RSI
MOV qword ptr [RSP + 0x78],0x0
MOV RDI,qword ptr [RSP + 0x88]
CALL 0x0015a9f0
MOV RCX,RAX
MOV byte ptr [RSP + 0x57],0x0
XOR EAX,EAX
CMP RCX,0x2
MOV byte ptr [RSP + 0x1d],AL
JC 0x001ec227
MOV RSI,qword ptr [RSP + 0x88]
XOR EAX,EAX
MOV EDX,EAX
LEA RDI,[RSP + 0x58]
MOV qword ptr [RSP + 0x10],RDI
MOV ECX,0x2
CALL 0x0015b130
MOV RDI,qword ptr [RSP + 0x10]
MOV byte ptr [RSP + 0x57],0x1
LAB_001ec20b:
LEA RSI,[0x31c485]
CALL 0x0018d760
LAB_001ec217:
MOV byte ptr [RSP + 0x1c],AL
JMP 0x001ec21d
LAB_001ec21d:
MOV AL,byte ptr [RSP + 0x1c]
MOV byte ptr [RSP + 0x1d],AL
JMP 0x001ec227
LAB_001ec227:
MOV AL,byte ptr [RSP + 0x1d]
MOV byte ptr [RSP + 0xf],AL
TEST byte ptr [RSP + 0x57],0x1
JNZ 0x001ec238
JMP 0x001ec242
LAB_001ec238:
LEA RDI,[RSP + 0x58]
CALL 0x0015b588
LAB_001ec242:
MOV AL,byte ptr [RSP + 0xf]
TEST AL,0x1
JNZ 0x001ec24c
JMP 0x001ec27d
LAB_001ec24c:
MOV qword ptr [RSP + 0x78],0x2
JMP 0x001ec27d
LAB_001ec27d:
MOV RDI,qword ptr [RSP + 0x88]
CALL 0x0015a9f0
SUB RAX,qword ptr [RSP + 0x78]
MOV qword ptr [RSP + 0x38],RAX
CMP qword ptr [RSP + 0x38],0x80
JBE 0x001ec2a8
MOV qword ptr [RSP + 0x38],0x80
LAB_001ec2a8:
MOV RAX,qword ptr [RSP + 0x38]
ADD RAX,qword ptr [RSP + 0x78]
MOV qword ptr [RSP + 0x30],RAX
MOV RAX,qword ptr [RSP + 0x78]
MOV qword ptr [RSP + 0x28],RAX
MOV RAX,qword ptr [RSP + 0x38]
SHL RAX,0x2
SUB RAX,0x1
MOV qword ptr [RSP + 0x20],RAX
LAB_001ec2d3:
MOV RAX,qword ptr [RSP + 0x28]
CMP RAX,qword ptr [RSP + 0x30]
JNC 0x001ec4f7
MOV RDI,qword ptr [RSP + 0x88]
MOV RSI,qword ptr [RSP + 0x28]
CALL 0x0015ade0
MOV AL,byte ptr [RAX]
MOV byte ptr [RSP + 0x1f],AL
MOV AL,byte ptr [RSP + 0x1f]
MOV byte ptr [RSP + 0x1e],AL
MOVSX EAX,byte ptr [RSP + 0x1f]
CMP EAX,0x30
JL 0x001ec328
MOVSX EAX,byte ptr [RSP + 0x1f]
CMP EAX,0x39
JG 0x001ec328
MOVSX EAX,byte ptr [RSP + 0x1e]
SUB EAX,0x30
MOV byte ptr [RSP + 0x1e],AL
JMP 0x001ec3b6
LAB_001ec328:
MOVSX EAX,byte ptr [RSP + 0x1f]
CMP EAX,0x61
JL 0x001ec34a
MOVSX EAX,byte ptr [RSP + 0x1f]
CMP EAX,0x66
JG 0x001ec34a
MOVSX EAX,byte ptr [RSP + 0x1e]
SUB EAX,0x57
MOV byte ptr [RSP + 0x1e],AL
JMP 0x001ec3b4
LAB_001ec34a:
MOVSX EAX,byte ptr [RSP + 0x1f]
CMP EAX,0x41
JL 0x001ec36c
MOVSX EAX,byte ptr [RSP + 0x1f]
CMP EAX,0x46
JG 0x001ec36c
MOVSX EAX,byte ptr [RSP + 0x1e]
SUB EAX,0x37
MOV byte ptr [RSP + 0x1e],AL
JMP 0x001ec3b2
LAB_001ec36c:
JMP 0x001ec36e
LAB_001ec36e:
XOR EAX,EAX
LEA RCX,[0x3a6618]
CMP EAX,dword ptr [RCX]
JG 0x001ec3a3
CALL 0x002be7b0
MOV RDI,RAX
MOVSX ECX,byte ptr [RSP + 0x1f]
MOV RAX,qword ptr [RSP + 0x28]
MOV R8D,EAX
MOV ESI,0x4
LEA RDX,[0x312576]
MOV AL,0x0
CALL 0x002be8a0
LAB_001ec3a3:
JMP 0x001ec3a5
LAB_001ec3a5:
MOV byte ptr [RSP + 0x97],0x0
JMP 0x001ec4ff
LAB_001ec3b2:
JMP 0x001ec3b4
LAB_001ec3b4:
JMP 0x001ec3b6
LAB_001ec3b6:
MOV RCX,qword ptr [RSP + 0x80]
MOV RDX,qword ptr [RSP + 0x20]
MOV AL,0x1
TEST byte ptr [RCX + RDX*0x1],0x1
MOV byte ptr [RSP + 0xe],AL
JNZ 0x001ec3e1
MOVSX EAX,byte ptr [RSP + 0x1e]
AND EAX,0x8
CMP EAX,0x0
SETNZ AL
MOV byte ptr [RSP + 0xe],AL
LAB_001ec3e1:
MOV DL,byte ptr [RSP + 0xe]
MOV RAX,qword ptr [RSP + 0x80]
MOV RCX,qword ptr [RSP + 0x20]
AND DL,0x1
MOV byte ptr [RAX + RCX*0x1],DL
MOV RCX,qword ptr [RSP + 0x80]
MOV RDX,qword ptr [RSP + 0x20]
SUB RDX,0x1
MOV AL,0x1
TEST byte ptr [RCX + RDX*0x1],0x1
MOV byte ptr [RSP + 0xd],AL
JNZ 0x001ec427
MOVSX EAX,byte ptr [RSP + 0x1e]
AND EAX,0x4
CMP EAX,0x0
SETNZ AL
MOV byte ptr [RSP + 0xd],AL
LAB_001ec427:
MOV DL,byte ptr [RSP + 0xd]
MOV RAX,qword ptr [RSP + 0x80]
MOV RCX,qword ptr [RSP + 0x20]
SUB RCX,0x1
AND DL,0x1
MOV byte ptr [RAX + RCX*0x1],DL
MOV RCX,qword ptr [RSP + 0x80]
MOV RDX,qword ptr [RSP + 0x20]
SUB RDX,0x2
MOV AL,0x1
TEST byte ptr [RCX + RDX*0x1],0x1
MOV byte ptr [RSP + 0xc],AL
JNZ 0x001ec471
MOVSX EAX,byte ptr [RSP + 0x1e]
AND EAX,0x2
CMP EAX,0x0
SETNZ AL
MOV byte ptr [RSP + 0xc],AL
LAB_001ec471:
MOV DL,byte ptr [RSP + 0xc]
MOV RAX,qword ptr [RSP + 0x80]
MOV RCX,qword ptr [RSP + 0x20]
SUB RCX,0x2
AND DL,0x1
MOV byte ptr [RAX + RCX*0x1],DL
MOV RCX,qword ptr [RSP + 0x80]
MOV RDX,qword ptr [RSP + 0x20]
SUB RDX,0x3
MOV AL,0x1
TEST byte ptr [RCX + RDX*0x1],0x1
MOV byte ptr [RSP + 0xb],AL
JNZ 0x001ec4bb
MOVSX EAX,byte ptr [RSP + 0x1e]
AND EAX,0x1
CMP EAX,0x0
SETNZ AL
MOV byte ptr [RSP + 0xb],AL
LAB_001ec4bb:
MOV DL,byte ptr [RSP + 0xb]
MOV RAX,qword ptr [RSP + 0x80]
MOV RCX,qword ptr [RSP + 0x20]
SUB RCX,0x3
AND DL,0x1
MOV byte ptr [RAX + RCX*0x1],DL
MOV RAX,qword ptr [RSP + 0x28]
ADD RAX,0x1
MOV qword ptr [RSP + 0x28],RAX
MOV RAX,qword ptr [RSP + 0x20]
SUB RAX,0x4
MOV qword ptr [RSP + 0x20],RAX
JMP 0x001ec2d3
LAB_001ec4f7:
MOV byte ptr [RSP + 0x97],0x1
LAB_001ec4ff:
MOV AL,byte ptr [RSP + 0x97]
AND AL,0x1
ADD RSP,0x98
RET
|
/* parse_cpu_mask(std::__cxx11::string const&, bool (&) [512]) */
int1 parse_cpu_mask(string *param_1,bool *param_2)
{
char cVar1;
ulong uVar2;
long lVar3;
char *pcVar4;
int8 uVar5;
bool local_8d;
bool local_8c;
bool local_8b;
bool local_8a;
bool local_7b;
byte local_7a;
long local_78;
ulong local_70;
ulong local_60;
string local_40 [32];
ulong local_20;
bool *local_18;
string *local_10;
local_20 = 0;
local_18 = param_2;
local_10 = param_1;
uVar2 = std::__cxx11::string::length();
local_7b = false;
if (1 < uVar2) {
std::__cxx11::string::substr((ulong)local_40,(ulong)local_10);
/* try { // try from 001ec20b to 001ec216 has its CatchHandler @ 001ec257 */
local_7b = std::operator==(local_40,"0x");
std::__cxx11::string::~string(local_40);
}
if (local_7b != false) {
local_20 = 2;
}
lVar3 = std::__cxx11::string::length();
local_60 = lVar3 - local_20;
if (0x80 < local_60) {
local_60 = 0x80;
}
uVar2 = local_60 + local_20;
local_70 = local_20;
local_78 = local_60 * 4 + -1;
do {
if (uVar2 <= local_70) {
return 1;
}
pcVar4 = (char *)std::__cxx11::string::at((ulong)local_10);
cVar1 = *pcVar4;
if ((cVar1 < '0') || ('9' < cVar1)) {
if ((cVar1 < 'a') || ('f' < cVar1)) {
if ((cVar1 < 'A') || ('F' < cVar1)) {
if (-1 < common_log_verbosity_thold) {
uVar5 = common_log_main();
common_log_add(uVar5,4,"Invalid hex character \'%c\' at position %d\n",(int)cVar1,
local_70 & 0xffffffff);
}
return 0;
}
local_7a = cVar1 - 0x37;
}
else {
local_7a = cVar1 + 0xa9;
}
}
else {
local_7a = cVar1 - 0x30;
}
local_8a = (local_18[local_78] & 1U) != 0 || (local_7a & 8) != 0;
local_18[local_78] = local_8a;
local_8b = (local_18[local_78 + -1] & 1U) != 0 || (local_7a & 4) != 0;
local_18[local_78 + -1] = local_8b;
local_8c = (local_18[local_78 + -2] & 1U) != 0 || (local_7a & 2) != 0;
local_18[local_78 + -2] = local_8c;
local_8d = (local_18[local_78 + -3] & 1U) != 0 || (local_7a & 1) != 0;
local_18[local_78 + -3] = local_8d;
local_70 = local_70 + 1;
local_78 = local_78 + -4;
} while( true );
}
|
|
4,428 | maria_ft_simple_get_word | eloqsql/storage/maria/ma_ft_parser.c | uchar maria_ft_simple_get_word(CHARSET_INFO *cs, uchar **start,
const uchar *end, FT_WORD *word,
my_bool skip_stopwords)
{
uchar *doc= *start;
uint mwc, length;
int ctype, mbl;
DBUG_ENTER("maria_ft_simple_get_word");
do
{
for (;; doc+= (mbl > 0 ? mbl : (mbl < 0 ? -mbl : 1)))
{
if (doc >= end)
DBUG_RETURN(0);
mbl= my_ci_ctype(cs, &ctype, doc, end);
if (true_word_char(ctype, *doc))
break;
}
mwc= length= 0;
for (word->pos= doc; doc < end; length++,
doc+= (mbl > 0 ? mbl : (mbl < 0 ? -mbl : 1)))
{
mbl= my_ci_ctype(cs, &ctype, doc, end);
if (true_word_char(ctype, *doc))
mwc= 0;
else if (!misc_word_char(*doc) || mwc)
break;
else
mwc++;
}
word->len= (uint)(doc-word->pos) - mwc;
if (skip_stopwords == FALSE ||
(length >= ft_min_word_len && length < ft_max_word_len &&
!is_stopword((char *) word->pos, word->len)))
{
*start= doc;
DBUG_RETURN(1);
}
} while (doc < end);
DBUG_RETURN(0);
} | O3 | c | maria_ft_simple_get_word:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x18, %rsp
movl %r8d, -0x30(%rbp)
movq %rcx, -0x38(%rbp)
movq %rdx, %r12
movq %rdi, %r13
movq %rsi, -0x40(%rbp)
movq (%rsi), %r15
leaq -0x2c(%rbp), %rbx
movl $0x1, %r14d
cmpq %r12, %r15
jae 0x4656a
movq 0xb8(%r13), %rax
movq %r13, %rdi
movq %rbx, %rsi
movq %r15, %rdx
movq %r12, %rcx
callq *0x38(%rax)
testb $0x7, -0x2c(%rbp)
jne 0x464c0
cmpb $0x5f, (%r15)
je 0x464c0
movl %eax, %ecx
negl %ecx
testl %eax, %eax
cmovel %r14d, %ecx
cmovgl %eax, %ecx
addq %rcx, %r15
jmp 0x46483
movq -0x38(%rbp), %rcx
movq %r15, (%rcx)
xorl %r14d, %r14d
cmpq %r12, %r15
jae 0x46511
movq 0xb8(%r13), %rax
movq %r13, %rdi
movq %rbx, %rsi
movq %r15, %rdx
movq %r12, %rcx
callq *0x38(%rax)
testb $0x7, -0x2c(%rbp)
jne 0x464f1
cmpb $0x5f, (%r15)
jne 0x46518
incl %r14d
movl %eax, %ecx
negl %ecx
testl %eax, %eax
movl $0x1, %edx
cmovel %edx, %ecx
cmovgl %eax, %ecx
addq %rcx, %r15
cmpq %r12, %r15
jb 0x464cf
xorl %edx, %edx
jmp 0x4651a
movq %r15, %rdi
xorl %edx, %edx
jmp 0x46524
movb $0x1, %dl
movq -0x38(%rbp), %rcx
movq (%rcx), %rdi
movl %r14d, %r14d
movq %r15, %rax
subq %rdi, %rax
movl %eax, 0x8(%rcx)
cmpb $0x0, -0x30(%rbp)
je 0x4657b
leaq 0x33dca6(%rip), %rcx # 0x3841e0
cmpq %r14, (%rcx)
ja 0x4655c
leaq 0x33dca2(%rip), %rcx # 0x3841e8
cmpq %r14, (%rcx)
jbe 0x4655c
movl %eax, %esi
movq %rdx, %r14
callq 0x71819
movq %r14, %rdx
testl %eax, %eax
je 0x4657b
testb %dl, %dl
movl $0x1, %r14d
jne 0x46483
xorl %eax, %eax
addq $0x18, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
movq -0x40(%rbp), %rax
movq %r15, (%rax)
movb $0x1, %al
jmp 0x4656c
| maria_ft_simple_get_word:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 18h
mov [rbp+var_30], r8d
mov [rbp+var_38], rcx
mov r12, rdx
mov r13, rdi
mov [rbp+var_40], rsi
mov r15, [rsi]
lea rbx, [rbp+var_2C]
mov r14d, 1
loc_46483:
cmp r15, r12
jnb loc_4656A
mov rax, [r13+0B8h]
mov rdi, r13
mov rsi, rbx
mov rdx, r15
mov rcx, r12
call qword ptr [rax+38h]
test [rbp+var_2C], 7
jnz short loc_464C0
cmp byte ptr [r15], 5Fh ; '_'
jz short loc_464C0
mov ecx, eax
neg ecx
test eax, eax
cmovz ecx, r14d
cmovg ecx, eax
add r15, rcx
jmp short loc_46483
loc_464C0:
mov rcx, [rbp+var_38]
mov [rcx], r15
xor r14d, r14d
cmp r15, r12
jnb short loc_46511
loc_464CF:
mov rax, [r13+0B8h]
mov rdi, r13
mov rsi, rbx
mov rdx, r15
mov rcx, r12
call qword ptr [rax+38h]
test [rbp+var_2C], 7
jnz short loc_464F1
cmp byte ptr [r15], 5Fh ; '_'
jnz short loc_46518
loc_464F1:
inc r14d
mov ecx, eax
neg ecx
test eax, eax
mov edx, 1
cmovz ecx, edx
cmovg ecx, eax
add r15, rcx
cmp r15, r12
jb short loc_464CF
xor edx, edx
jmp short loc_4651A
loc_46511:
mov rdi, r15
xor edx, edx
jmp short loc_46524
loc_46518:
mov dl, 1
loc_4651A:
mov rcx, [rbp+var_38]
mov rdi, [rcx]
mov r14d, r14d
loc_46524:
mov rax, r15
sub rax, rdi
mov [rcx+8], eax
cmp byte ptr [rbp+var_30], 0
jz short loc_4657B
lea rcx, ft_min_word_len
cmp [rcx], r14
ja short loc_4655C
lea rcx, ft_max_word_len
cmp [rcx], r14
jbe short loc_4655C
mov esi, eax
mov r14, rdx
call is_stopword
mov rdx, r14
test eax, eax
jz short loc_4657B
loc_4655C:
test dl, dl
mov r14d, 1
jnz loc_46483
loc_4656A:
xor eax, eax
loc_4656C:
add rsp, 18h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
loc_4657B:
mov rax, [rbp+var_40]
mov [rax], r15
mov al, 1
jmp short loc_4656C
| char maria_ft_simple_get_word(long long a1, _BYTE **a2, unsigned long long a3, _QWORD *a4, char a5)
{
_BYTE *v7; // r15
int v8; // eax
long long v9; // rcx
_QWORD *v10; // rcx
unsigned long long v11; // r14
int v12; // eax
long long v13; // rcx
char v14; // dl
_BYTE *v15; // rdi
char v16; // r14
int v17; // eax
_BYTE v21[44]; // [rsp+14h] [rbp-2Ch] BYREF
v7 = *a2;
while ( 1 )
{
while ( 1 )
{
if ( (unsigned long long)v7 >= a3 )
return 0;
v8 = (*(long long ( **)(long long, _BYTE *, _BYTE *, unsigned long long))(*(_QWORD *)(a1 + 184) + 56LL))(
a1,
v21,
v7,
a3);
if ( (v21[0] & 7) != 0 || *v7 == 95 )
break;
v9 = (unsigned int)-v8;
if ( !v8 )
v9 = 1LL;
if ( v8 > 0 )
v9 = (unsigned int)v8;
v7 += v9;
}
v10 = a4;
*a4 = v7;
v11 = 0LL;
if ( (unsigned long long)v7 >= a3 )
{
v15 = v7;
v14 = 0;
}
else
{
while ( 1 )
{
v12 = (*(long long ( **)(long long, _BYTE *, _BYTE *, unsigned long long))(*(_QWORD *)(a1 + 184) + 56LL))(
a1,
v21,
v7,
a3);
if ( (v21[0] & 7) == 0 && *v7 != 95 )
break;
LODWORD(v11) = v11 + 1;
v13 = (unsigned int)-v12;
if ( !v12 )
v13 = 1LL;
if ( v12 > 0 )
v13 = (unsigned int)v12;
v7 += v13;
if ( (unsigned long long)v7 >= a3 )
{
v14 = 0;
goto LABEL_21;
}
}
v14 = 1;
LABEL_21:
v10 = a4;
v15 = (_BYTE *)*a4;
v11 = (unsigned int)v11;
}
*((_DWORD *)v10 + 2) = (_DWORD)v7 - (_DWORD)v15;
if ( !a5 )
break;
if ( ft_min_word_len <= v11 && ft_max_word_len > v11 )
{
v16 = v14;
v17 = is_stopword(v15, (unsigned int)((_DWORD)v7 - (_DWORD)v15));
v14 = v16;
if ( !v17 )
break;
}
if ( !v14 )
return 0;
}
*a2 = v7;
return 1;
}
| maria_ft_simple_get_word:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x18
MOV dword ptr [RBP + -0x30],R8D
MOV qword ptr [RBP + -0x38],RCX
MOV R12,RDX
MOV R13,RDI
MOV qword ptr [RBP + -0x40],RSI
MOV R15,qword ptr [RSI]
LEA RBX,[RBP + -0x2c]
MOV R14D,0x1
LAB_00146483:
CMP R15,R12
JNC 0x0014656a
MOV RAX,qword ptr [R13 + 0xb8]
MOV RDI,R13
MOV RSI,RBX
MOV RDX,R15
MOV RCX,R12
CALL qword ptr [RAX + 0x38]
TEST byte ptr [RBP + -0x2c],0x7
JNZ 0x001464c0
CMP byte ptr [R15],0x5f
JZ 0x001464c0
MOV ECX,EAX
NEG ECX
TEST EAX,EAX
CMOVZ ECX,R14D
CMOVG ECX,EAX
ADD R15,RCX
JMP 0x00146483
LAB_001464c0:
MOV RCX,qword ptr [RBP + -0x38]
MOV qword ptr [RCX],R15
XOR R14D,R14D
CMP R15,R12
JNC 0x00146511
LAB_001464cf:
MOV RAX,qword ptr [R13 + 0xb8]
MOV RDI,R13
MOV RSI,RBX
MOV RDX,R15
MOV RCX,R12
CALL qword ptr [RAX + 0x38]
TEST byte ptr [RBP + -0x2c],0x7
JNZ 0x001464f1
CMP byte ptr [R15],0x5f
JNZ 0x00146518
LAB_001464f1:
INC R14D
MOV ECX,EAX
NEG ECX
TEST EAX,EAX
MOV EDX,0x1
CMOVZ ECX,EDX
CMOVG ECX,EAX
ADD R15,RCX
CMP R15,R12
JC 0x001464cf
XOR EDX,EDX
JMP 0x0014651a
LAB_00146511:
MOV RDI,R15
XOR EDX,EDX
JMP 0x00146524
LAB_00146518:
MOV DL,0x1
LAB_0014651a:
MOV RCX,qword ptr [RBP + -0x38]
MOV RDI,qword ptr [RCX]
MOV R14D,R14D
LAB_00146524:
MOV RAX,R15
SUB RAX,RDI
MOV dword ptr [RCX + 0x8],EAX
CMP byte ptr [RBP + -0x30],0x0
JZ 0x0014657b
LEA RCX,[0x4841e0]
CMP qword ptr [RCX],R14
JA 0x0014655c
LEA RCX,[0x4841e8]
CMP qword ptr [RCX],R14
JBE 0x0014655c
MOV ESI,EAX
MOV R14,RDX
CALL 0x00171819
MOV RDX,R14
TEST EAX,EAX
JZ 0x0014657b
LAB_0014655c:
TEST DL,DL
MOV R14D,0x1
JNZ 0x00146483
LAB_0014656a:
XOR EAX,EAX
LAB_0014656c:
ADD RSP,0x18
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
LAB_0014657b:
MOV RAX,qword ptr [RBP + -0x40]
MOV qword ptr [RAX],R15
MOV AL,0x1
JMP 0x0014656c
|
int8
maria_ft_simple_get_word
(long param_1,int8 *param_2,char *param_3,int8 *param_4,char param_5)
{
bool bVar1;
uint uVar2;
int iVar3;
ulong uVar4;
ulong uVar5;
uint uVar6;
char *pcVar7;
char *pcVar8;
byte local_34 [4];
pcVar7 = (char *)*param_2;
do {
while( true ) {
if (param_3 <= pcVar7) {
return 0;
}
uVar2 = (**(code **)(*(long *)(param_1 + 0xb8) + 0x38))(param_1,local_34,pcVar7,param_3);
if (((local_34[0] & 7) != 0) || (*pcVar7 == '_')) break;
uVar4 = (ulong)-uVar2;
if (uVar2 == 0) {
uVar4 = 1;
}
if (0 < (int)uVar2) {
uVar4 = (ulong)uVar2;
}
pcVar7 = pcVar7 + uVar4;
}
*param_4 = pcVar7;
uVar4 = 0;
if (pcVar7 < param_3) {
do {
uVar6 = (uint)uVar4;
uVar2 = (**(code **)(*(long *)(param_1 + 0xb8) + 0x38))(param_1,local_34,pcVar7,param_3);
if (((local_34[0] & 7) == 0) && (*pcVar7 != '_')) {
bVar1 = true;
pcVar8 = pcVar7;
goto LAB_0014651a;
}
uVar6 = uVar6 + 1;
uVar4 = (ulong)uVar6;
uVar5 = (ulong)-uVar2;
if (uVar2 == 0) {
uVar5 = 1;
}
if (0 < (int)uVar2) {
uVar5 = (ulong)uVar2;
}
pcVar7 = pcVar7 + uVar5;
} while (pcVar7 < param_3);
bVar1 = false;
pcVar8 = pcVar7;
LAB_0014651a:
pcVar7 = (char *)*param_4;
uVar4 = (ulong)uVar6;
}
else {
bVar1 = false;
pcVar8 = pcVar7;
}
*(int *)(param_4 + 1) = (int)((long)pcVar8 - (long)pcVar7);
if ((param_5 == '\0') ||
(((ft_min_word_len <= uVar4 && (uVar4 < ft_max_word_len)) &&
(iVar3 = is_stopword(pcVar7,(long)pcVar8 - (long)pcVar7 & 0xffffffff), iVar3 == 0)))) {
*param_2 = pcVar8;
return 1;
}
pcVar7 = pcVar8;
if (!bVar1) {
return 0;
}
} while( true );
}
|
|
4,429 | my_uca_charcmp_onelevel | eloqsql/strings/ctype-uca.c | static int my_uca_charcmp_onelevel(CHARSET_INFO *cs, my_wc_t wc1,
my_wc_t wc2, uint level)
{
size_t length1, length2;
const uint16 *weight1= my_char_weight_addr(&cs->uca->level[level], wc1);
const uint16 *weight2= my_char_weight_addr(&cs->uca->level[level], wc2);
if (!weight1 || !weight2)
return wc1 != wc2;
/* Quickly compare first weights */
if (weight1[0] != weight2[0])
return 1;
/* Thoroughly compare all weights */
length1= cs->uca->level[level].lengths[wc1 >> MY_UCA_PSHIFT];
length2= cs->uca->level[level].lengths[wc2 >> MY_UCA_PSHIFT];
if (length1 > length2)
return memcmp((const void*)weight1, (const void*)weight2, length2*2) ?
1: weight1[length2];
if (length1 < length2)
return memcmp((const void*)weight1, (const void*)weight2, length1*2) ?
1 : weight2[length1];
return memcmp((const void*)weight1, (const void*)weight2, length1*2);
} | O0 | c | my_uca_charcmp_onelevel:
pushq %rbp
movq %rsp, %rbp
subq $0x50, %rsp
movq %rdi, -0x10(%rbp)
movq %rsi, -0x18(%rbp)
movq %rdx, -0x20(%rbp)
movl %ecx, -0x24(%rbp)
movq -0x10(%rbp), %rax
movq 0x60(%rax), %rdi
movl -0x24(%rbp), %eax
imulq $0x38, %rax, %rax
addq %rax, %rdi
movq -0x18(%rbp), %rax
movl %eax, %esi
callq 0x5d1c0
movq %rax, -0x40(%rbp)
movq -0x10(%rbp), %rax
movq 0x60(%rax), %rdi
movl -0x24(%rbp), %eax
imulq $0x38, %rax, %rax
addq %rax, %rdi
movq -0x20(%rbp), %rax
movl %eax, %esi
callq 0x5d1c0
movq %rax, -0x48(%rbp)
cmpq $0x0, -0x40(%rbp)
je 0x5d087
cmpq $0x0, -0x48(%rbp)
jne 0x5d09f
movq -0x18(%rbp), %rax
cmpq -0x20(%rbp), %rax
setne %al
andb $0x1, %al
movzbl %al, %eax
movl %eax, -0x4(%rbp)
jmp 0x5d1a8
movq -0x40(%rbp), %rax
movzwl (%rax), %eax
movq -0x48(%rbp), %rcx
movzwl (%rcx), %ecx
cmpl %ecx, %eax
je 0x5d0bd
movl $0x1, -0x4(%rbp)
jmp 0x5d1a8
movq -0x10(%rbp), %rax
movq 0x60(%rax), %rax
movl -0x24(%rbp), %ecx
imulq $0x38, %rcx, %rcx
addq %rcx, %rax
movq 0x8(%rax), %rax
movq -0x18(%rbp), %rcx
shrq $0x8, %rcx
movzbl (%rax,%rcx), %eax
movq %rax, -0x30(%rbp)
movq -0x10(%rbp), %rax
movq 0x60(%rax), %rax
movl -0x24(%rbp), %ecx
imulq $0x38, %rcx, %rcx
addq %rcx, %rax
movq 0x8(%rax), %rax
movq -0x20(%rbp), %rcx
shrq $0x8, %rcx
movzbl (%rax,%rcx), %eax
movq %rax, -0x38(%rbp)
movq -0x30(%rbp), %rax
cmpq -0x38(%rbp), %rax
jbe 0x5d14d
movq -0x40(%rbp), %rdi
movq -0x48(%rbp), %rsi
movq -0x38(%rbp), %rdx
shlq %rdx
callq 0x29160
cmpl $0x0, %eax
je 0x5d136
movl $0x1, %eax
movl %eax, -0x4c(%rbp)
jmp 0x5d145
movq -0x40(%rbp), %rax
movq -0x38(%rbp), %rcx
movzwl (%rax,%rcx,2), %eax
movl %eax, -0x4c(%rbp)
movl -0x4c(%rbp), %eax
movl %eax, -0x4(%rbp)
jmp 0x5d1a8
movq -0x30(%rbp), %rax
cmpq -0x38(%rbp), %rax
jae 0x5d191
movq -0x40(%rbp), %rdi
movq -0x48(%rbp), %rsi
movq -0x30(%rbp), %rdx
shlq %rdx
callq 0x29160
cmpl $0x0, %eax
je 0x5d17a
movl $0x1, %eax
movl %eax, -0x50(%rbp)
jmp 0x5d189
movq -0x48(%rbp), %rax
movq -0x30(%rbp), %rcx
movzwl (%rax,%rcx,2), %eax
movl %eax, -0x50(%rbp)
movl -0x50(%rbp), %eax
movl %eax, -0x4(%rbp)
jmp 0x5d1a8
movq -0x40(%rbp), %rdi
movq -0x48(%rbp), %rsi
movq -0x30(%rbp), %rdx
shlq %rdx
callq 0x29160
movl %eax, -0x4(%rbp)
movl -0x4(%rbp), %eax
addq $0x50, %rsp
popq %rbp
retq
nopw %cs:(%rax,%rax)
| my_uca_charcmp_onelevel:
push rbp
mov rbp, rsp
sub rsp, 50h
mov [rbp+var_10], rdi
mov [rbp+var_18], rsi
mov [rbp+var_20], rdx
mov [rbp+var_24], ecx
mov rax, [rbp+var_10]
mov rdi, [rax+60h]
mov eax, [rbp+var_24]
imul rax, 38h ; '8'
add rdi, rax
mov rax, [rbp+var_18]
mov esi, eax
call my_char_weight_addr
mov [rbp+var_40], rax
mov rax, [rbp+var_10]
mov rdi, [rax+60h]
mov eax, [rbp+var_24]
imul rax, 38h ; '8'
add rdi, rax
mov rax, [rbp+var_20]
mov esi, eax
call my_char_weight_addr
mov [rbp+var_48], rax
cmp [rbp+var_40], 0
jz short loc_5D087
cmp [rbp+var_48], 0
jnz short loc_5D09F
loc_5D087:
mov rax, [rbp+var_18]
cmp rax, [rbp+var_20]
setnz al
and al, 1
movzx eax, al
mov [rbp+var_4], eax
jmp loc_5D1A8
loc_5D09F:
mov rax, [rbp+var_40]
movzx eax, word ptr [rax]
mov rcx, [rbp+var_48]
movzx ecx, word ptr [rcx]
cmp eax, ecx
jz short loc_5D0BD
mov [rbp+var_4], 1
jmp loc_5D1A8
loc_5D0BD:
mov rax, [rbp+var_10]
mov rax, [rax+60h]
mov ecx, [rbp+var_24]
imul rcx, 38h ; '8'
add rax, rcx
mov rax, [rax+8]
mov rcx, [rbp+var_18]
shr rcx, 8
movzx eax, byte ptr [rax+rcx]
mov [rbp+var_30], rax
mov rax, [rbp+var_10]
mov rax, [rax+60h]
mov ecx, [rbp+var_24]
imul rcx, 38h ; '8'
add rax, rcx
mov rax, [rax+8]
mov rcx, [rbp+var_20]
shr rcx, 8
movzx eax, byte ptr [rax+rcx]
mov [rbp+var_38], rax
mov rax, [rbp+var_30]
cmp rax, [rbp+var_38]
jbe short loc_5D14D
mov rdi, [rbp+var_40]
mov rsi, [rbp+var_48]
mov rdx, [rbp+var_38]
shl rdx, 1
call _memcmp
cmp eax, 0
jz short loc_5D136
mov eax, 1
mov [rbp+var_4C], eax
jmp short loc_5D145
loc_5D136:
mov rax, [rbp+var_40]
mov rcx, [rbp+var_38]
movzx eax, word ptr [rax+rcx*2]
mov [rbp+var_4C], eax
loc_5D145:
mov eax, [rbp+var_4C]
mov [rbp+var_4], eax
jmp short loc_5D1A8
loc_5D14D:
mov rax, [rbp+var_30]
cmp rax, [rbp+var_38]
jnb short loc_5D191
mov rdi, [rbp+var_40]
mov rsi, [rbp+var_48]
mov rdx, [rbp+var_30]
shl rdx, 1
call _memcmp
cmp eax, 0
jz short loc_5D17A
mov eax, 1
mov [rbp+var_50], eax
jmp short loc_5D189
loc_5D17A:
mov rax, [rbp+var_48]
mov rcx, [rbp+var_30]
movzx eax, word ptr [rax+rcx*2]
mov [rbp+var_50], eax
loc_5D189:
mov eax, [rbp+var_50]
mov [rbp+var_4], eax
jmp short loc_5D1A8
loc_5D191:
mov rdi, [rbp+var_40]
mov rsi, [rbp+var_48]
mov rdx, [rbp+var_30]
shl rdx, 1
call _memcmp
mov [rbp+var_4], eax
loc_5D1A8:
mov eax, [rbp+var_4]
add rsp, 50h
pop rbp
retn
| long long my_uca_charcmp_onelevel(long long a1, unsigned long long a2, unsigned long long a3, unsigned int a4)
{
unsigned __int16 *v7; // [rsp+8h] [rbp-48h]
unsigned __int16 *v8; // [rsp+10h] [rbp-40h]
unsigned long long v9; // [rsp+18h] [rbp-38h]
unsigned long long v10; // [rsp+20h] [rbp-30h]
v8 = (unsigned __int16 *)my_char_weight_addr(56LL * a4 + *(_QWORD *)(a1 + 96), (unsigned int)a2);
v7 = (unsigned __int16 *)my_char_weight_addr(56LL * a4 + *(_QWORD *)(a1 + 96), (unsigned int)a3);
if ( v8 && v7 )
{
if ( *v8 == *v7 )
{
v10 = *(unsigned __int8 *)(*(_QWORD *)(56LL * a4 + *(_QWORD *)(a1 + 96) + 8) + (a2 >> 8));
v9 = *(unsigned __int8 *)(*(_QWORD *)(56LL * a4 + *(_QWORD *)(a1 + 96) + 8) + (a3 >> 8));
if ( v10 <= v9 )
{
if ( v10 >= v9 )
{
return (unsigned int)memcmp(v8, v7, 2 * v10);
}
else if ( !(unsigned int)memcmp(v8, v7, 2 * v10) )
{
return v7[v10];
}
else
{
return 1;
}
}
else if ( !(unsigned int)memcmp(v8, v7, 2 * v9) )
{
return v8[v9];
}
else
{
return 1;
}
}
else
{
return 1;
}
}
else
{
return a2 != a3;
}
}
| my_uca_charcmp_onelevel:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x50
MOV qword ptr [RBP + -0x10],RDI
MOV qword ptr [RBP + -0x18],RSI
MOV qword ptr [RBP + -0x20],RDX
MOV dword ptr [RBP + -0x24],ECX
MOV RAX,qword ptr [RBP + -0x10]
MOV RDI,qword ptr [RAX + 0x60]
MOV EAX,dword ptr [RBP + -0x24]
IMUL RAX,RAX,0x38
ADD RDI,RAX
MOV RAX,qword ptr [RBP + -0x18]
MOV ESI,EAX
CALL 0x0015d1c0
MOV qword ptr [RBP + -0x40],RAX
MOV RAX,qword ptr [RBP + -0x10]
MOV RDI,qword ptr [RAX + 0x60]
MOV EAX,dword ptr [RBP + -0x24]
IMUL RAX,RAX,0x38
ADD RDI,RAX
MOV RAX,qword ptr [RBP + -0x20]
MOV ESI,EAX
CALL 0x0015d1c0
MOV qword ptr [RBP + -0x48],RAX
CMP qword ptr [RBP + -0x40],0x0
JZ 0x0015d087
CMP qword ptr [RBP + -0x48],0x0
JNZ 0x0015d09f
LAB_0015d087:
MOV RAX,qword ptr [RBP + -0x18]
CMP RAX,qword ptr [RBP + -0x20]
SETNZ AL
AND AL,0x1
MOVZX EAX,AL
MOV dword ptr [RBP + -0x4],EAX
JMP 0x0015d1a8
LAB_0015d09f:
MOV RAX,qword ptr [RBP + -0x40]
MOVZX EAX,word ptr [RAX]
MOV RCX,qword ptr [RBP + -0x48]
MOVZX ECX,word ptr [RCX]
CMP EAX,ECX
JZ 0x0015d0bd
MOV dword ptr [RBP + -0x4],0x1
JMP 0x0015d1a8
LAB_0015d0bd:
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x60]
MOV ECX,dword ptr [RBP + -0x24]
IMUL RCX,RCX,0x38
ADD RAX,RCX
MOV RAX,qword ptr [RAX + 0x8]
MOV RCX,qword ptr [RBP + -0x18]
SHR RCX,0x8
MOVZX EAX,byte ptr [RAX + RCX*0x1]
MOV qword ptr [RBP + -0x30],RAX
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x60]
MOV ECX,dword ptr [RBP + -0x24]
IMUL RCX,RCX,0x38
ADD RAX,RCX
MOV RAX,qword ptr [RAX + 0x8]
MOV RCX,qword ptr [RBP + -0x20]
SHR RCX,0x8
MOVZX EAX,byte ptr [RAX + RCX*0x1]
MOV qword ptr [RBP + -0x38],RAX
MOV RAX,qword ptr [RBP + -0x30]
CMP RAX,qword ptr [RBP + -0x38]
JBE 0x0015d14d
MOV RDI,qword ptr [RBP + -0x40]
MOV RSI,qword ptr [RBP + -0x48]
MOV RDX,qword ptr [RBP + -0x38]
SHL RDX,0x1
CALL 0x00129160
CMP EAX,0x0
JZ 0x0015d136
MOV EAX,0x1
MOV dword ptr [RBP + -0x4c],EAX
JMP 0x0015d145
LAB_0015d136:
MOV RAX,qword ptr [RBP + -0x40]
MOV RCX,qword ptr [RBP + -0x38]
MOVZX EAX,word ptr [RAX + RCX*0x2]
MOV dword ptr [RBP + -0x4c],EAX
LAB_0015d145:
MOV EAX,dword ptr [RBP + -0x4c]
MOV dword ptr [RBP + -0x4],EAX
JMP 0x0015d1a8
LAB_0015d14d:
MOV RAX,qword ptr [RBP + -0x30]
CMP RAX,qword ptr [RBP + -0x38]
JNC 0x0015d191
MOV RDI,qword ptr [RBP + -0x40]
MOV RSI,qword ptr [RBP + -0x48]
MOV RDX,qword ptr [RBP + -0x30]
SHL RDX,0x1
CALL 0x00129160
CMP EAX,0x0
JZ 0x0015d17a
MOV EAX,0x1
MOV dword ptr [RBP + -0x50],EAX
JMP 0x0015d189
LAB_0015d17a:
MOV RAX,qword ptr [RBP + -0x48]
MOV RCX,qword ptr [RBP + -0x30]
MOVZX EAX,word ptr [RAX + RCX*0x2]
MOV dword ptr [RBP + -0x50],EAX
LAB_0015d189:
MOV EAX,dword ptr [RBP + -0x50]
MOV dword ptr [RBP + -0x4],EAX
JMP 0x0015d1a8
LAB_0015d191:
MOV RDI,qword ptr [RBP + -0x40]
MOV RSI,qword ptr [RBP + -0x48]
MOV RDX,qword ptr [RBP + -0x30]
SHL RDX,0x1
CALL 0x00129160
MOV dword ptr [RBP + -0x4],EAX
LAB_0015d1a8:
MOV EAX,dword ptr [RBP + -0x4]
ADD RSP,0x50
POP RBP
RET
|
uint my_uca_charcmp_onelevel(long param_1,ulong param_2,ulong param_3,uint param_4)
{
int iVar1;
short *__s1;
short *__s2;
ulong uVar2;
ulong uVar3;
uint local_58;
uint local_54;
uint local_c;
__s1 = (short *)my_char_weight_addr(*(long *)(param_1 + 0x60) + (ulong)param_4 * 0x38,
param_2 & 0xffffffff);
__s2 = (short *)my_char_weight_addr(*(long *)(param_1 + 0x60) + (ulong)param_4 * 0x38,
param_3 & 0xffffffff);
if ((__s1 == (short *)0x0) || (__s2 == (short *)0x0)) {
local_c = (uint)(param_2 != param_3);
}
else if (*__s1 == *__s2) {
uVar2 = (ulong)*(byte *)(*(long *)(*(long *)(param_1 + 0x60) + (ulong)param_4 * 0x38 + 8) +
(param_2 >> 8));
uVar3 = (ulong)*(byte *)(*(long *)(*(long *)(param_1 + 0x60) + (ulong)param_4 * 0x38 + 8) +
(param_3 >> 8));
if (uVar3 < uVar2) {
iVar1 = memcmp(__s1,__s2,uVar3 << 1);
if (iVar1 == 0) {
local_54 = (uint)(ushort)__s1[uVar3];
}
else {
local_54 = 1;
}
local_c = local_54;
}
else if (uVar2 < uVar3) {
iVar1 = memcmp(__s1,__s2,uVar2 << 1);
if (iVar1 == 0) {
local_58 = (uint)(ushort)__s2[uVar2];
}
else {
local_58 = 1;
}
local_c = local_58;
}
else {
local_c = memcmp(__s1,__s2,uVar2 << 1);
}
}
else {
local_c = 1;
}
return local_c;
}
|
|
4,430 | intx::uint<256u> intx::exp<256u>(intx::uint<256u>, intx::uint<256u>) | corpus-core[P]colibri-stateless/build_O0/_deps/intx-src/include/intx/intx.hpp | inline constexpr uint<N> exp(uint<N> base, uint<N> exponent) noexcept
{
auto result = uint<N>{1};
if (base == 2)
return result << exponent;
while (exponent != 0)
{
if ((exponent & 1) != 0)
result *= base;
base *= base;
exponent >>= 1;
}
return result;
} | O0 | cpp | intx::uint<256u> intx::exp<256u>(intx::uint<256u>, intx::uint<256u>):
pushq %rbp
movq %rsp, %rbp
subq $0x90, %rsp
movq %rdi, -0x90(%rbp)
movq %rdi, -0x88(%rbp)
leaq 0x30(%rbp), %rax
movq %rax, -0x80(%rbp)
leaq 0x10(%rbp), %rax
movq %rax, -0x78(%rbp)
leaq -0x20(%rbp), %rdi
movl $0x1, %esi
callq 0x60670
movq -0x78(%rbp), %rdi
movl $0x2, -0x24(%rbp)
leaq -0x24(%rbp), %rsi
callq 0x65a10
testb $0x1, %al
jne 0x65881
jmp 0x6589a
movq -0x80(%rbp), %rdx
movq -0x90(%rbp), %rdi
leaq -0x20(%rbp), %rsi
callq 0x65a50
jmp 0x65947
jmp 0x6589c
movq -0x80(%rbp), %rdi
movl $0x0, -0x28(%rbp)
leaq -0x28(%rbp), %rsi
callq 0x605d0
testb $0x1, %al
jne 0x658b6
jmp 0x65921
leaq -0x68(%rbp), %rdi
movl $0x1, %esi
callq 0x60670
movq -0x80(%rbp), %rsi
leaq -0x48(%rbp), %rdi
leaq -0x68(%rbp), %rdx
callq 0x63760
movl $0x0, -0x6c(%rbp)
leaq -0x48(%rbp), %rdi
leaq -0x6c(%rbp), %rsi
callq 0x605d0
testb $0x1, %al
jne 0x658ef
jmp 0x658fc
movq -0x78(%rbp), %rsi
leaq -0x20(%rbp), %rdi
callq 0x5fe60
movq -0x78(%rbp), %rsi
movq %rsi, %rdi
callq 0x5fe60
movq -0x80(%rbp), %rdi
movl $0x1, -0x70(%rbp)
leaq -0x70(%rbp), %rsi
callq 0x65af0
jmp 0x6589c
movq -0x90(%rbp), %rax
movq -0x20(%rbp), %rcx
movq %rcx, (%rax)
movq -0x18(%rbp), %rcx
movq %rcx, 0x8(%rax)
movq -0x10(%rbp), %rcx
movq %rcx, 0x10(%rax)
movq -0x8(%rbp), %rcx
movq %rcx, 0x18(%rax)
movq -0x88(%rbp), %rax
addq $0x90, %rsp
popq %rbp
retq
nopw (%rax,%rax)
| _ZN4intx3expILj256EEENS_4uintIXT_EEES2_S2_:
push rbp
mov rbp, rsp
sub rsp, 90h
mov [rbp+var_90], rdi
mov [rbp+var_88], rdi
lea rax, [rbp+arg_20]
mov [rbp+var_80], rax
lea rax, [rbp+arg_0]
mov [rbp+var_78], rax
lea rdi, [rbp+var_20]
mov esi, 1
call _ZN4intx4uintILj256EEC2IJiEvEEDpT_; intx::uint<256u>::uint<int,void>(int)
mov rdi, [rbp+var_78]
mov [rbp+var_24], 2
lea rsi, [rbp+var_24]
call _ZN4intxeqILj256EivEEbRKNS_4uintIXT_EEERKT0_; intx::operator==<256u,int,void>(intx::uint<256u> const&,int const&)
test al, 1
jnz short loc_65881
jmp short loc_6589A
loc_65881:
mov rdx, [rbp+var_80]
mov rdi, [rbp+var_90]
lea rsi, [rbp+var_20]
call _ZN4intxlsILj256EEENS_4uintIXT_EEERKS2_S4_; intx::operator<<<256u>(intx::uint<256u> const&,intx::uint<256u> const&)
jmp loc_65947
loc_6589A:
jmp short $+2
loc_6589C:
mov rdi, [rbp+var_80]
mov [rbp+var_28], 0
lea rsi, [rbp+var_28]
call _ZN4intxneILj256EivEEbRKNS_4uintIXT_EEERKT0_; intx::operator!=<256u,int,void>(intx::uint<256u> const&,int const&)
test al, 1
jnz short loc_658B6
jmp short loc_65921
loc_658B6:
lea rdi, [rbp+var_68]
mov esi, 1
call _ZN4intx4uintILj256EEC2IJiEvEEDpT_; intx::uint<256u>::uint<int,void>(int)
mov rsi, [rbp+var_80]
lea rdi, [rbp+var_48]
lea rdx, [rbp+var_68]
call _ZN4intxanERKNS_4uintILj256EEES3_; intx::operator&(intx::uint<256u> const&,intx::uint<256u> const&)
mov [rbp+var_6C], 0
lea rdi, [rbp+var_48]
lea rsi, [rbp+var_6C]
call _ZN4intxneILj256EivEEbRKNS_4uintIXT_EEERKT0_; intx::operator!=<256u,int,void>(intx::uint<256u> const&,int const&)
test al, 1
jnz short loc_658EF
jmp short loc_658FC
loc_658EF:
mov rsi, [rbp+var_78]
lea rdi, [rbp+var_20]
call _ZN4intx4uintILj256EEmLERKS1_; intx::uint<256u>::operator*=(intx::uint<256u> const&)
loc_658FC:
mov rsi, [rbp+var_78]
mov rdi, rsi
call _ZN4intx4uintILj256EEmLERKS1_; intx::uint<256u>::operator*=(intx::uint<256u> const&)
mov rdi, [rbp+var_80]
mov [rbp+var_70], 1
lea rsi, [rbp+var_70]
call _ZN4intxrSILj256EivEERNS_4uintIXT_EEES3_RKT0_; intx::operator>>=<256u,int,void>(intx::uint<256u> &,int const&)
jmp loc_6589C
loc_65921:
mov rax, [rbp+var_90]
mov rcx, [rbp+var_20]
mov [rax], rcx
mov rcx, [rbp+var_18]
mov [rax+8], rcx
mov rcx, [rbp+var_10]
mov [rax+10h], rcx
mov rcx, [rbp+var_8]
mov [rax+18h], rcx
loc_65947:
mov rax, [rbp+var_88]
add rsp, 90h
pop rbp
retn
| _QWORD * intx::exp<256u>(
_QWORD *a1,
_DWORD a2,
_DWORD a3,
_DWORD a4,
_DWORD a5,
_DWORD a6,
long long a7,
int a8,
int a9,
int a10,
char a11)
{
int v12; // [rsp+20h] [rbp-70h] BYREF
unsigned int v13; // [rsp+24h] [rbp-6Ch] BYREF
_QWORD v14[4]; // [rsp+28h] [rbp-68h] BYREF
_QWORD v15[4]; // [rsp+48h] [rbp-48h] BYREF
unsigned int v16; // [rsp+68h] [rbp-28h] BYREF
int v17; // [rsp+6Ch] [rbp-24h] BYREF
_QWORD v18[4]; // [rsp+70h] [rbp-20h] BYREF
intx::uint<256u>::uint<int,void>(v18, 1);
v17 = 2;
if ( (intx::operator==<256u,int,void>(&a7, &v17) & 1) != 0 )
{
intx::operator<<<256u>(a1, v18, &a11);
}
else
{
while ( 1 )
{
v16 = 0;
if ( (intx::operator!=<256u,int,void>((long long)&a11, &v16) & 1) == 0 )
break;
intx::uint<256u>::uint<int,void>(v14, 1);
intx::operator&(v15, (long long)&a11, (long long)v14);
v13 = 0;
if ( (intx::operator!=<256u,int,void>((long long)v15, &v13) & 1) != 0 )
intx::uint<256u>::operator*=(v18, (long long)&a7);
intx::uint<256u>::operator*=(&a7, (long long)&a7);
v12 = 1;
intx::operator>>=<256u,int,void>(&a11, &v12);
}
*a1 = v18[0];
a1[1] = v18[1];
a1[2] = v18[2];
a1[3] = v18[3];
}
return a1;
}
| exp<256u>:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x90
MOV qword ptr [RBP + -0x90],RDI
MOV qword ptr [RBP + -0x88],RDI
LEA RAX,[RBP + 0x30]
MOV qword ptr [RBP + -0x80],RAX
LEA RAX,[RBP + 0x10]
MOV qword ptr [RBP + -0x78],RAX
LEA RDI,[RBP + -0x20]
MOV ESI,0x1
CALL 0x00160670
MOV RDI,qword ptr [RBP + -0x78]
MOV dword ptr [RBP + -0x24],0x2
LEA RSI,[RBP + -0x24]
CALL 0x00165a10
TEST AL,0x1
JNZ 0x00165881
JMP 0x0016589a
LAB_00165881:
MOV RDX,qword ptr [RBP + -0x80]
MOV RDI,qword ptr [RBP + -0x90]
LEA RSI,[RBP + -0x20]
CALL 0x00165a50
JMP 0x00165947
LAB_0016589a:
JMP 0x0016589c
LAB_0016589c:
MOV RDI,qword ptr [RBP + -0x80]
MOV dword ptr [RBP + -0x28],0x0
LEA RSI,[RBP + -0x28]
CALL 0x001605d0
TEST AL,0x1
JNZ 0x001658b6
JMP 0x00165921
LAB_001658b6:
LEA RDI,[RBP + -0x68]
MOV ESI,0x1
CALL 0x00160670
MOV RSI,qword ptr [RBP + -0x80]
LEA RDI,[RBP + -0x48]
LEA RDX,[RBP + -0x68]
CALL 0x00163760
MOV dword ptr [RBP + -0x6c],0x0
LEA RDI,[RBP + -0x48]
LEA RSI,[RBP + -0x6c]
CALL 0x001605d0
TEST AL,0x1
JNZ 0x001658ef
JMP 0x001658fc
LAB_001658ef:
MOV RSI,qword ptr [RBP + -0x78]
LEA RDI,[RBP + -0x20]
CALL 0x0015fe60
LAB_001658fc:
MOV RSI,qword ptr [RBP + -0x78]
MOV RDI,RSI
CALL 0x0015fe60
MOV RDI,qword ptr [RBP + -0x80]
MOV dword ptr [RBP + -0x70],0x1
LEA RSI,[RBP + -0x70]
CALL 0x00165af0
JMP 0x0016589c
LAB_00165921:
MOV RAX,qword ptr [RBP + -0x90]
MOV RCX,qword ptr [RBP + -0x20]
MOV qword ptr [RAX],RCX
MOV RCX,qword ptr [RBP + -0x18]
MOV qword ptr [RAX + 0x8],RCX
MOV RCX,qword ptr [RBP + -0x10]
MOV qword ptr [RAX + 0x10],RCX
MOV RCX,qword ptr [RBP + -0x8]
MOV qword ptr [RAX + 0x18],RCX
LAB_00165947:
MOV RAX,qword ptr [RBP + -0x88]
ADD RSP,0x90
POP RBP
RET
|
/* intx::uint<256u> intx::exp<256u>(intx::uint<256u>, intx::uint<256u>) */
intx * intx::exp<256u>(intx *param_1)
{
bool bVar1;
int local_78 [2];
uint<256u> local_70 [32];
intx local_50 [32];
int local_30 [2];
int8 local_28;
int8 local_20;
int8 local_18;
int8 local_10;
uint<256u>::uint<int,void>((uint<256u> *)&local_28,1);
local_30[1] = 2;
bVar1 = operator==((uint *)&stack0x00000008,local_30 + 1);
if (bVar1) {
operator<<(param_1,(uint *)&local_28,(uint *)&stack0x00000028);
}
else {
while( true ) {
local_30[0] = 0;
bVar1 = operator!=((uint *)&stack0x00000028,local_30);
if (!bVar1) break;
uint<256u>::uint<int,void>(local_70,1);
operator&(local_50,(uint *)&stack0x00000028,(uint *)local_70);
local_78[1] = 0;
bVar1 = operator!=((uint *)local_50,local_78 + 1);
if (bVar1) {
uint<256u>::operator*=((uint<256u> *)&local_28,(uint *)&stack0x00000008);
}
uint<256u>::operator*=((uint<256u> *)&stack0x00000008,(uint *)&stack0x00000008);
local_78[0] = 1;
operator>>=((uint *)&stack0x00000028,local_78);
}
*(int8 *)param_1 = local_28;
*(int8 *)(param_1 + 8) = local_20;
*(int8 *)(param_1 + 0x10) = local_18;
*(int8 *)(param_1 + 0x18) = local_10;
}
return param_1;
}
|
|
4,431 | partition_table_item::to_words(item_writer_context&) const | msxemulator/build_O0/_deps/picotool-src/bintool/metadata.h | std::vector<uint32_t> to_words(item_writer_context& ctx) const override {
std::vector<uint32_t> partition_words;
for (auto p : partitions) {
auto words = p.to_words();
partition_words.insert(partition_words.end(), words.begin(), words.end());
}
std::vector<uint32_t> ret = {
encode_type_and_size(2 + partition_words.size()) | (singleton << 31) | ((uint8_t)partitions.size() << 24),
unpartitioned_flags
};
ret.insert(ret.end(), partition_words.begin(), partition_words.end());
return ret;
} | O0 | c | partition_table_item::to_words(item_writer_context&) const:
subq $0x198, %rsp # imm = 0x198
movq %rdi, 0x48(%rsp)
movq %rdi, %rax
movq %rax, 0x50(%rsp)
movq %rdi, 0x190(%rsp)
movq %rsi, 0x188(%rsp)
movq %rdx, 0x180(%rsp)
movq 0x188(%rsp), %rax
movq %rax, 0x58(%rsp)
leaq 0x168(%rsp), %rdi
callq 0x5b0e0
movq 0x58(%rsp), %rax
addq $0x10, %rax
movq %rax, 0x160(%rsp)
movq 0x160(%rsp), %rdi
callq 0x914d0
movq %rax, 0x158(%rsp)
movq 0x160(%rsp), %rdi
callq 0x91500
movq %rax, 0x150(%rsp)
leaq 0x158(%rsp), %rdi
leaq 0x150(%rsp), %rsi
callq 0x91530
testb $0x1, %al
jne 0x910af
jmp 0x91204
leaq 0x158(%rsp), %rdi
callq 0x91570
movq %rax, %rsi
leaq 0x100(%rsp), %rdi
callq 0x8e330
jmp 0x910ce
leaq 0xd8(%rsp), %rdi
leaq 0x100(%rsp), %rsi
callq 0x91580
jmp 0x910e5
leaq 0x168(%rsp), %rdi
movq %rdi, 0x38(%rsp)
callq 0x61370
movq %rax, 0xc8(%rsp)
leaq 0xd0(%rsp), %rdi
leaq 0xc8(%rsp), %rsi
callq 0x8ee10
leaq 0xd8(%rsp), %rdi
movq %rdi, 0x30(%rsp)
callq 0x61340
movq 0x30(%rsp), %rdi
movq %rax, 0xc0(%rsp)
callq 0x61370
movq 0x38(%rsp), %rdi
movq %rax, 0xb8(%rsp)
movq 0xd0(%rsp), %rsi
movq 0xc0(%rsp), %rdx
movq 0xb8(%rsp), %rcx
callq 0x91a40
movq %rax, 0x40(%rsp)
jmp 0x91169
movq 0x40(%rsp), %rax
movq %rax, 0xb0(%rsp)
leaq 0xd8(%rsp), %rdi
callq 0x5b130
leaq 0x100(%rsp), %rdi
callq 0x63770
leaq 0x158(%rsp), %rdi
callq 0x91b00
jmp 0x91091
movq %rax, %rcx
movl %edx, %eax
movq %rcx, 0xf8(%rsp)
movl %eax, 0xf4(%rsp)
jmp 0x913bd
movq %rax, %rcx
movl %edx, %eax
movq %rcx, 0xf8(%rsp)
movl %eax, 0xf4(%rsp)
jmp 0x911f2
movq %rax, %rcx
movl %edx, %eax
movq %rcx, 0xf8(%rsp)
movl %eax, 0xf4(%rsp)
leaq 0xd8(%rsp), %rdi
callq 0x5b130
leaq 0x100(%rsp), %rdi
callq 0x63770
jmp 0x913bd
movb $0x0, 0xaf(%rsp)
leaq 0x168(%rsp), %rdi
callq 0x5aef0
movq 0x58(%rsp), %rdi
movl %eax, %esi
addl $0x2, %esi
movq (%rdi), %rax
movq 0x20(%rax), %rax
callq *%rax
movl %eax, 0x2c(%rsp)
jmp 0x91232
movq 0x58(%rsp), %rdi
movl 0x2c(%rsp), %eax
movl 0xc(%rdi), %ecx
shll $0x1f, %ecx
orl %ecx, %eax
movl %eax, 0x1c(%rsp)
addq $0x10, %rdi
callq 0x8e2f0
movl 0x1c(%rsp), %ecx
movq %rax, %rdx
movq 0x58(%rsp), %rax
shll $0x18, %edx
orl %edx, %ecx
movl %ecx, 0x90(%rsp)
movl 0x8(%rax), %eax
movl %eax, 0x94(%rsp)
leaq 0x90(%rsp), %rax
movq %rax, 0x98(%rsp)
movq $0x2, 0xa0(%rsp)
leaq 0x8f(%rsp), %rdi
movq %rdi, 0x20(%rsp)
callq 0x91b20
movq 0x48(%rsp), %rdi
movq 0x20(%rsp), %rcx
movq 0x98(%rsp), %rsi
movq 0xa0(%rsp), %rdx
callq 0x91b30
jmp 0x912c1
leaq 0x8f(%rsp), %rdi
callq 0x91bc0
movq 0x48(%rsp), %rdi
callq 0x61370
movq %rax, 0x78(%rsp)
leaq 0x80(%rsp), %rdi
leaq 0x78(%rsp), %rsi
callq 0x8ee10
leaq 0x168(%rsp), %rdi
movq %rdi, 0x8(%rsp)
callq 0x61340
movq 0x8(%rsp), %rdi
movq %rax, 0x70(%rsp)
callq 0x61370
movq 0x48(%rsp), %rdi
movq %rax, 0x68(%rsp)
movq 0x80(%rsp), %rsi
movq 0x70(%rsp), %rdx
movq 0x68(%rsp), %rcx
callq 0x91a40
movq %rax, 0x10(%rsp)
jmp 0x91338
movq 0x10(%rsp), %rax
movq %rax, 0x60(%rsp)
movb $0x1, 0xaf(%rsp)
testb $0x1, 0xaf(%rsp)
jne 0x913a3
jmp 0x91399
movq %rax, %rcx
movl %edx, %eax
movq %rcx, 0xf8(%rsp)
movl %eax, 0xf4(%rsp)
leaq 0x8f(%rsp), %rdi
callq 0x91bc0
jmp 0x913bd
movq 0x48(%rsp), %rdi
movq %rax, %rcx
movl %edx, %eax
movq %rcx, 0xf8(%rsp)
movl %eax, 0xf4(%rsp)
callq 0x5b130
jmp 0x913bd
movq 0x48(%rsp), %rdi
callq 0x5b130
leaq 0x168(%rsp), %rdi
callq 0x5b130
movq 0x50(%rsp), %rax
addq $0x198, %rsp # imm = 0x198
retq
leaq 0x168(%rsp), %rdi
callq 0x5b130
movq 0xf8(%rsp), %rdi
callq 0xf9e0
nopw (%rax,%rax)
| _ZNK20partition_table_item8to_wordsER19item_writer_context:
sub rsp, 198h
mov [rsp+198h+var_150], rdi
mov rax, rdi
mov [rsp+198h+var_148], rax
mov [rsp+198h+var_8], rdi
mov [rsp+198h+var_10], rsi
mov [rsp+198h+var_18], rdx
mov rax, [rsp+198h+var_10]
mov [rsp+198h+var_140], rax
lea rdi, [rsp+198h+var_30]
call _ZNSt6vectorIjSaIjEEC2Ev; std::vector<uint>::vector(void)
mov rax, [rsp+198h+var_140]
add rax, 10h
mov [rsp+198h+var_38], rax
mov rdi, [rsp+198h+var_38]
call _ZNKSt6vectorIN20partition_table_item9partitionESaIS1_EE5beginEv; std::vector<partition_table_item::partition>::begin(void)
mov [rsp+198h+var_40], rax
mov rdi, [rsp+198h+var_38]
call _ZNKSt6vectorIN20partition_table_item9partitionESaIS1_EE3endEv; std::vector<partition_table_item::partition>::end(void)
mov [rsp+198h+var_48], rax
loc_91091:
lea rdi, [rsp+198h+var_40]
lea rsi, [rsp+198h+var_48]
call _ZN9__gnu_cxxneIPKN20partition_table_item9partitionESt6vectorIS2_SaIS2_EEEEbRKNS_17__normal_iteratorIT_T0_EESD_; __gnu_cxx::operator!=<partition_table_item::partition const*,std::vector<partition_table_item::partition>>(__gnu_cxx::__normal_iterator<partition_table_item::partition const*,std::vector<partition_table_item::partition>> const&,__gnu_cxx::__normal_iterator<partition_table_item::partition const*,std::vector<partition_table_item::partition>> const&)
test al, 1
jnz short loc_910AF
jmp loc_91204
loc_910AF:
lea rdi, [rsp+198h+var_40]
call _ZNK9__gnu_cxx17__normal_iteratorIPKN20partition_table_item9partitionESt6vectorIS2_SaIS2_EEEdeEv; __gnu_cxx::__normal_iterator<partition_table_item::partition const*,std::vector<partition_table_item::partition>>::operator*(void)
mov rsi, rax; partition_table_item::partition *
lea rdi, [rsp+198h+var_98]; this
call _ZN20partition_table_item9partitionC2ERKS0_; partition_table_item::partition::partition(partition_table_item::partition const&)
jmp short $+2
loc_910CE:
lea rdi, [rsp+198h+var_C0]; this
lea rsi, [rsp+198h+var_98]
call _ZNK20partition_table_item9partition8to_wordsEv; partition_table_item::partition::to_words(void)
jmp short $+2
loc_910E5:
lea rdi, [rsp+198h+var_30]
mov [rsp+198h+var_160], rdi
call _ZNSt6vectorIjSaIjEE3endEv; std::vector<uint>::end(void)
mov [rsp+198h+var_D0], rax
lea rdi, [rsp+198h+var_C8]
lea rsi, [rsp+198h+var_D0]
call _ZN9__gnu_cxx17__normal_iteratorIPKjSt6vectorIjSaIjEEEC2IPjEERKNS0_IT_NS_11__enable_ifIXsr3std10__are_sameIS9_S8_EE7__valueES5_E6__typeEEE
lea rdi, [rsp+198h+var_C0]
mov [rsp+198h+var_168], rdi
call _ZNSt6vectorIjSaIjEE5beginEv; std::vector<uint>::begin(void)
mov rdi, [rsp+198h+var_168]
mov [rsp+198h+var_D8], rax
call _ZNSt6vectorIjSaIjEE3endEv; std::vector<uint>::end(void)
mov rdi, [rsp+198h+var_160]
mov [rsp+198h+var_E0], rax
mov rsi, [rsp+198h+var_C8]
mov rdx, [rsp+198h+var_D8]
mov rcx, [rsp+198h+var_E0]
call _ZNSt6vectorIjSaIjEE6insertIN9__gnu_cxx17__normal_iteratorIPjS1_EEvEES6_NS4_IPKjS1_EET_SA_; std::vector<uint>::insert<__gnu_cxx::__normal_iterator<uint *,std::vector<uint>>,void>(__gnu_cxx::__normal_iterator<uint const*,std::vector<uint>>,__gnu_cxx::__normal_iterator<uint *,std::vector<uint>>,__gnu_cxx::__normal_iterator<uint *,std::vector<uint>>)
mov [rsp+198h+var_158], rax
jmp short $+2
loc_91169:
mov rax, [rsp+198h+var_158]
mov [rsp+198h+var_E8], rax
lea rdi, [rsp+198h+var_C0]
call _ZNSt6vectorIjSaIjEED2Ev; std::vector<uint>::~vector()
lea rdi, [rsp+198h+var_98]; this
call _ZN20partition_table_item9partitionD2Ev; partition_table_item::partition::~partition()
lea rdi, [rsp+198h+var_40]
call _ZN9__gnu_cxx17__normal_iteratorIPKN20partition_table_item9partitionESt6vectorIS2_SaIS2_EEEppEv; __gnu_cxx::__normal_iterator<partition_table_item::partition const*,std::vector<partition_table_item::partition>>::operator++(void)
jmp loc_91091
mov rcx, rax
mov eax, edx
mov [rsp+arg_F0], rcx
mov [rsp+arg_EC], eax
jmp loc_913BD
mov rcx, rax
mov eax, edx
mov [rsp+arg_F0], rcx
mov [rsp+arg_EC], eax
jmp short loc_911F2
mov rcx, rax
mov eax, edx
mov [rsp+arg_F0], rcx
mov [rsp+arg_EC], eax
lea rdi, [rsp+arg_D0]
call _ZNSt6vectorIjSaIjEED2Ev; std::vector<uint>::~vector()
loc_911F2:
lea rdi, [rsp+arg_F8]; this
call _ZN20partition_table_item9partitionD2Ev; partition_table_item::partition::~partition()
jmp loc_913BD
loc_91204:
mov [rsp+198h+var_E9], 0
lea rdi, [rsp+198h+var_30]
call _ZNKSt6vectorIjSaIjEE4sizeEv; std::vector<uint>::size(void)
mov rdi, [rsp+198h+var_140]
mov esi, eax
add esi, 2
mov rax, [rdi]
mov rax, [rax+20h]
call rax
mov [rsp+198h+var_16C], eax
jmp short $+2
loc_91232:
mov rdi, [rsp+198h+var_140]
mov eax, [rsp+198h+var_16C]
mov ecx, [rdi+0Ch]
shl ecx, 1Fh
or eax, ecx
mov [rsp+198h+var_17C], eax
add rdi, 10h
call _ZNKSt6vectorIN20partition_table_item9partitionESaIS1_EE4sizeEv; std::vector<partition_table_item::partition>::size(void)
mov ecx, [rsp+198h+var_17C]
mov rdx, rax
mov rax, [rsp+198h+var_140]
shl edx, 18h
or ecx, edx
mov [rsp+198h+var_108], ecx
mov eax, [rax+8]
mov [rsp+198h+var_104], eax
lea rax, [rsp+198h+var_108]
mov [rsp+198h+var_100], rax
mov [rsp+198h+var_F8], 2
lea rdi, [rsp+198h+var_109]
mov [rsp+198h+var_178], rdi
call _ZNSaIjEC2Ev; std::allocator<uint>::allocator(void)
mov rdi, [rsp+198h+var_150]
mov rcx, [rsp+198h+var_178]
mov rsi, [rsp+198h+var_100]
mov rdx, [rsp+198h+var_F8]
call _ZNSt6vectorIjSaIjEEC2ESt16initializer_listIjERKS0_; std::vector<uint>::vector(std::initializer_list<uint>,std::allocator<uint> const&)
jmp short $+2
loc_912C1:
lea rdi, [rsp+198h+var_109]
call _ZNSaIjED2Ev; std::allocator<uint>::~allocator()
mov rdi, [rsp+198h+var_150]
call _ZNSt6vectorIjSaIjEE3endEv; std::vector<uint>::end(void)
mov [rsp+198h+var_120], rax
lea rdi, [rsp+198h+var_118]
lea rsi, [rsp+198h+var_120]
call _ZN9__gnu_cxx17__normal_iteratorIPKjSt6vectorIjSaIjEEEC2IPjEERKNS0_IT_NS_11__enable_ifIXsr3std10__are_sameIS9_S8_EE7__valueES5_E6__typeEEE
lea rdi, [rsp+198h+var_30]
mov [rsp+198h+var_190], rdi
call _ZNSt6vectorIjSaIjEE5beginEv; std::vector<uint>::begin(void)
mov rdi, [rsp+198h+var_190]
mov [rsp+198h+var_128], rax
call _ZNSt6vectorIjSaIjEE3endEv; std::vector<uint>::end(void)
mov rdi, [rsp+198h+var_150]
mov [rsp+198h+var_130], rax
mov rsi, [rsp+198h+var_118]
mov rdx, [rsp+198h+var_128]
mov rcx, [rsp+198h+var_130]
call _ZNSt6vectorIjSaIjEE6insertIN9__gnu_cxx17__normal_iteratorIPjS1_EEvEES6_NS4_IPKjS1_EET_SA_; std::vector<uint>::insert<__gnu_cxx::__normal_iterator<uint *,std::vector<uint>>,void>(__gnu_cxx::__normal_iterator<uint const*,std::vector<uint>>,__gnu_cxx::__normal_iterator<uint *,std::vector<uint>>,__gnu_cxx::__normal_iterator<uint *,std::vector<uint>>)
mov [rsp+198h+var_188], rax
jmp short $+2
loc_91338:
mov rax, [rsp+198h+var_188]
mov [rsp+198h+var_138], rax
mov [rsp+198h+var_E9], 1
test [rsp+198h+var_E9], 1
jnz short loc_913A3
jmp short loc_91399
mov rcx, rax
mov eax, edx
mov [rsp+arg_F0], rcx
mov [rsp+arg_EC], eax
lea rdi, [rsp+arg_87]
call _ZNSaIjED2Ev; std::allocator<uint>::~allocator()
jmp short loc_913BD
mov rdi, [rsp+arg_40]
mov rcx, rax
mov eax, edx
mov [rsp+arg_F0], rcx
mov [rsp+arg_EC], eax
call _ZNSt6vectorIjSaIjEED2Ev; std::vector<uint>::~vector()
jmp short loc_913BD
loc_91399:
mov rdi, [rsp+198h+var_150]
call _ZNSt6vectorIjSaIjEED2Ev; std::vector<uint>::~vector()
loc_913A3:
lea rdi, [rsp+198h+var_30]
call _ZNSt6vectorIjSaIjEED2Ev; std::vector<uint>::~vector()
mov rax, [rsp+198h+var_148]
add rsp, 198h
retn
loc_913BD:
lea rdi, [rsp+arg_160]
call _ZNSt6vectorIjSaIjEED2Ev; std::vector<uint>::~vector()
mov rdi, [rsp+arg_F0]
call __Unwind_Resume
| partition_table_item * partition_table_item::to_words(
partition_table_item *this,
item_writer_context *a2,
long long a3)
{
const partition_table_item::partition *v3; // rax
int v4; // eax
int v5; // r8d
int v6; // r9d
int v8; // [rsp+1Ch] [rbp-17Ch]
long long v9; // [rsp+68h] [rbp-130h]
long long v10; // [rsp+70h] [rbp-128h]
long long v11; // [rsp+78h] [rbp-120h] BYREF
long long v12; // [rsp+80h] [rbp-118h] BYREF
char v13; // [rsp+8Fh] [rbp-109h] BYREF
_DWORD v14[2]; // [rsp+90h] [rbp-108h] BYREF
_DWORD *v15; // [rsp+98h] [rbp-100h]
long long v16; // [rsp+A0h] [rbp-F8h]
char v17; // [rsp+AFh] [rbp-E9h]
long long v18; // [rsp+B0h] [rbp-E8h]
long long v19; // [rsp+B8h] [rbp-E0h]
long long v20; // [rsp+C0h] [rbp-D8h]
long long v21; // [rsp+C8h] [rbp-D0h] BYREF
long long v22; // [rsp+D0h] [rbp-C8h] BYREF
long long v23[5]; // [rsp+D8h] [rbp-C0h] BYREF
_BYTE v24[80]; // [rsp+100h] [rbp-98h] BYREF
long long v25; // [rsp+150h] [rbp-48h] BYREF
_QWORD v26[2]; // [rsp+158h] [rbp-40h] BYREF
long long v27[6]; // [rsp+168h] [rbp-30h] BYREF
v27[5] = (long long)this;
v27[4] = (long long)a2;
v27[3] = a3;
std::vector<unsigned int>::vector((long long)v27);
v26[1] = (char *)a2 + 16;
v26[0] = std::vector<partition_table_item::partition>::begin((char *)a2 + 16);
v25 = std::vector<partition_table_item::partition>::end((char *)a2 + 16);
while ( (__gnu_cxx::operator!=<partition_table_item::partition const*,std::vector<partition_table_item::partition>>(
v26,
&v25) & 1) != 0 )
{
v3 = (const partition_table_item::partition *)__gnu_cxx::__normal_iterator<partition_table_item::partition const*,std::vector<partition_table_item::partition>>::operator*(v26);
partition_table_item::partition::partition((partition_table_item::partition *)v24, v3);
partition_table_item::partition::to_words((partition_table_item::partition *)v23);
v21 = std::vector<unsigned int>::end((long long)v27);
__gnu_cxx::__normal_iterator<unsigned int const*,std::vector<unsigned int>>::__normal_iterator<unsigned int *>(
&v22,
(long long)&v21);
v20 = std::vector<unsigned int>::begin((long long)v23);
v19 = std::vector<unsigned int>::end((long long)v23);
v18 = std::vector<unsigned int>::insert<__gnu_cxx::__normal_iterator<unsigned int *,std::vector<unsigned int>>,void>(
v27,
v22,
v20,
v19);
std::vector<unsigned int>::~vector(v23);
partition_table_item::partition::~partition((partition_table_item::partition *)v24);
__gnu_cxx::__normal_iterator<partition_table_item::partition const*,std::vector<partition_table_item::partition>>::operator++(v26);
}
v17 = 0;
v4 = std::vector<unsigned int>::size(v27);
v8 = (*((_DWORD *)a2 + 3) << 31) | (*(long long ( **)(item_writer_context *, _QWORD))(*(_QWORD *)a2 + 32LL))(
a2,
(unsigned int)(v4 + 2));
v14[0] = ((unsigned int)std::vector<partition_table_item::partition>::size((_QWORD *)a2 + 2) << 24) | v8;
v14[1] = *((_DWORD *)a2 + 2);
v15 = v14;
v16 = 2LL;
std::allocator<unsigned int>::allocator();
std::vector<unsigned int>::vector((_DWORD)this, (_DWORD)v15, v16, (unsigned int)&v13, v5, v6);
std::allocator<unsigned int>::~allocator(&v13);
v11 = std::vector<unsigned int>::end((long long)this);
__gnu_cxx::__normal_iterator<unsigned int const*,std::vector<unsigned int>>::__normal_iterator<unsigned int *>(
&v12,
(long long)&v11);
v10 = std::vector<unsigned int>::begin((long long)v27);
v9 = std::vector<unsigned int>::end((long long)v27);
std::vector<unsigned int>::insert<__gnu_cxx::__normal_iterator<unsigned int *,std::vector<unsigned int>>,void>(
this,
v12,
v10,
v9);
v17 = 1;
std::vector<unsigned int>::~vector(v27);
return this;
}
| to_words:
SUB RSP,0x198
MOV qword ptr [RSP + 0x48],RDI
MOV RAX,RDI
MOV qword ptr [RSP + 0x50],RAX
MOV qword ptr [RSP + 0x190],RDI
MOV qword ptr [RSP + 0x188],RSI
MOV qword ptr [RSP + 0x180],RDX
MOV RAX,qword ptr [RSP + 0x188]
MOV qword ptr [RSP + 0x58],RAX
LEA RDI,[RSP + 0x168]
CALL 0x0015b0e0
MOV RAX,qword ptr [RSP + 0x58]
ADD RAX,0x10
MOV qword ptr [RSP + 0x160],RAX
MOV RDI,qword ptr [RSP + 0x160]
CALL 0x001914d0
MOV qword ptr [RSP + 0x158],RAX
MOV RDI,qword ptr [RSP + 0x160]
CALL 0x00191500
MOV qword ptr [RSP + 0x150],RAX
LAB_00191091:
LEA RDI,[RSP + 0x158]
LEA RSI,[RSP + 0x150]
CALL 0x00191530
TEST AL,0x1
JNZ 0x001910af
JMP 0x00191204
LAB_001910af:
LEA RDI,[RSP + 0x158]
CALL 0x00191570
MOV RSI,RAX
LAB_001910bf:
LEA RDI,[RSP + 0x100]
CALL 0x0018e330
JMP 0x001910ce
LAB_001910ce:
LEA RDI,[RSP + 0xd8]
LEA RSI,[RSP + 0x100]
CALL 0x00191580
JMP 0x001910e5
LAB_001910e5:
LEA RDI,[RSP + 0x168]
MOV qword ptr [RSP + 0x38],RDI
CALL 0x00161370
MOV qword ptr [RSP + 0xc8],RAX
LEA RDI,[RSP + 0xd0]
LEA RSI,[RSP + 0xc8]
CALL 0x0018ee10
LEA RDI,[RSP + 0xd8]
MOV qword ptr [RSP + 0x30],RDI
CALL 0x00161340
MOV RDI,qword ptr [RSP + 0x30]
MOV qword ptr [RSP + 0xc0],RAX
CALL 0x00161370
MOV RDI,qword ptr [RSP + 0x38]
MOV qword ptr [RSP + 0xb8],RAX
MOV RSI,qword ptr [RSP + 0xd0]
MOV RDX,qword ptr [RSP + 0xc0]
MOV RCX,qword ptr [RSP + 0xb8]
LAB_0019115d:
CALL 0x00191a40
MOV qword ptr [RSP + 0x40],RAX
JMP 0x00191169
LAB_00191169:
MOV RAX,qword ptr [RSP + 0x40]
MOV qword ptr [RSP + 0xb0],RAX
LEA RDI,[RSP + 0xd8]
CALL 0x0015b130
LEA RDI,[RSP + 0x100]
CALL 0x00163770
LEA RDI,[RSP + 0x158]
CALL 0x00191b00
JMP 0x00191091
LAB_00191204:
MOV byte ptr [RSP + 0xaf],0x0
LEA RDI,[RSP + 0x168]
CALL 0x0015aef0
MOV RDI,qword ptr [RSP + 0x58]
MOV ESI,EAX
ADD ESI,0x2
MOV RAX,qword ptr [RDI]
MOV RAX,qword ptr [RAX + 0x20]
LAB_0019122a:
CALL RAX
MOV dword ptr [RSP + 0x2c],EAX
JMP 0x00191232
LAB_00191232:
MOV RDI,qword ptr [RSP + 0x58]
MOV EAX,dword ptr [RSP + 0x2c]
MOV ECX,dword ptr [RDI + 0xc]
SHL ECX,0x1f
OR EAX,ECX
MOV dword ptr [RSP + 0x1c],EAX
ADD RDI,0x10
CALL 0x0018e2f0
MOV ECX,dword ptr [RSP + 0x1c]
MOV RDX,RAX
MOV RAX,qword ptr [RSP + 0x58]
SHL EDX,0x18
OR ECX,EDX
MOV dword ptr [RSP + 0x90],ECX
MOV EAX,dword ptr [RAX + 0x8]
MOV dword ptr [RSP + 0x94],EAX
LEA RAX,[RSP + 0x90]
MOV qword ptr [RSP + 0x98],RAX
MOV qword ptr [RSP + 0xa0],0x2
LEA RDI,[RSP + 0x8f]
MOV qword ptr [RSP + 0x20],RDI
CALL 0x00191b20
MOV RDI,qword ptr [RSP + 0x48]
MOV RCX,qword ptr [RSP + 0x20]
MOV RSI,qword ptr [RSP + 0x98]
MOV RDX,qword ptr [RSP + 0xa0]
LAB_001912ba:
CALL 0x00191b30
JMP 0x001912c1
LAB_001912c1:
LEA RDI,[RSP + 0x8f]
CALL 0x00191bc0
MOV RDI,qword ptr [RSP + 0x48]
CALL 0x00161370
MOV qword ptr [RSP + 0x78],RAX
LEA RDI,[RSP + 0x80]
LEA RSI,[RSP + 0x78]
CALL 0x0018ee10
LEA RDI,[RSP + 0x168]
MOV qword ptr [RSP + 0x8],RDI
CALL 0x00161340
MOV RDI,qword ptr [RSP + 0x8]
MOV qword ptr [RSP + 0x70],RAX
CALL 0x00161370
MOV RDI,qword ptr [RSP + 0x48]
MOV qword ptr [RSP + 0x68],RAX
MOV RSI,qword ptr [RSP + 0x80]
MOV RDX,qword ptr [RSP + 0x70]
MOV RCX,qword ptr [RSP + 0x68]
LAB_0019132c:
CALL 0x00191a40
LAB_00191331:
MOV qword ptr [RSP + 0x10],RAX
JMP 0x00191338
LAB_00191338:
MOV RAX,qword ptr [RSP + 0x10]
MOV qword ptr [RSP + 0x60],RAX
MOV byte ptr [RSP + 0xaf],0x1
TEST byte ptr [RSP + 0xaf],0x1
JNZ 0x001913a3
JMP 0x00191399
LAB_00191399:
MOV RDI,qword ptr [RSP + 0x48]
CALL 0x0015b130
LAB_001913a3:
LEA RDI,[RSP + 0x168]
CALL 0x0015b130
MOV RAX,qword ptr [RSP + 0x50]
ADD RSP,0x198
RET
|
/* WARNING: Removing unreachable block (ram,0x00191354) */
/* partition_table_item::to_words(item_writer_context&) const */
item_writer_context * partition_table_item::to_words(item_writer_context *param_1)
{
bool bVar1;
int iVar2;
uint uVar3;
int iVar4;
partition *ppVar5;
int8 uVar6;
int8 uVar7;
long *in_RSI;
int8 local_120;
int8 local_118;
allocator<unsigned_int> local_109;
uint local_108;
int4 local_104;
uint *local_100;
int8 local_f8;
int1 local_e9;
int8 local_e8;
int8 local_e0;
int8 local_d8;
int8 local_d0;
int8 local_c8;
vector<unsigned_int,std::allocator<unsigned_int>> local_c0 [40];
partition local_98 [80];
int8 local_48;
int8 local_40;
vector<partition_table_item::partition,std::allocator<partition_table_item::partition>> *local_38;
vector<unsigned_int,std::allocator<unsigned_int>> local_30 [40];
item_writer_context *local_8;
local_8 = param_1;
std::vector<unsigned_int,std::allocator<unsigned_int>>::vector(local_30);
local_38 = (vector<partition_table_item::partition,std::allocator<partition_table_item::partition>>
*)(in_RSI + 2);
local_40 = std::
vector<partition_table_item::partition,std::allocator<partition_table_item::partition>>
::begin(local_38);
local_48 = std::
vector<partition_table_item::partition,std::allocator<partition_table_item::partition>>
::end(local_38);
while (bVar1 = __gnu_cxx::operator!=
((__normal_iterator *)&local_40,(__normal_iterator *)&local_48), bVar1) {
ppVar5 = (partition *)
__gnu_cxx::
__normal_iterator<partition_table_item::partition_const*,std::vector<partition_table_item::partition,std::allocator<partition_table_item::partition>>>
::operator*((__normal_iterator<partition_table_item::partition_const*,std::vector<partition_table_item::partition,std::allocator<partition_table_item::partition>>>
*)&local_40);
/* try { // try from 001910bf to 001910cb has its CatchHandler @ 001911a2 */
partition::partition(local_98,ppVar5);
/* try { // try from 001910ce to 001910e2 has its CatchHandler @ 001911bb */
partition::to_words();
local_d0 = std::vector<unsigned_int,std::allocator<unsigned_int>>::end(local_30);
__gnu_cxx::
__normal_iterator<unsigned_int_const*,std::vector<unsigned_int,std::allocator<unsigned_int>>>::
__normal_iterator<unsigned_int*>
((__normal_iterator<unsigned_int_const*,std::vector<unsigned_int,std::allocator<unsigned_int>>>
*)&local_c8,(__normal_iterator *)&local_d0);
local_d8 = std::vector<unsigned_int,std::allocator<unsigned_int>>::begin(local_c0);
local_e0 = std::vector<unsigned_int,std::allocator<unsigned_int>>::end(local_c0);
/* try { // try from 0019115d to 00191161 has its CatchHandler @ 001911d1 */
local_e8 = std::vector<unsigned_int,std::allocator<unsigned_int>>::
insert<__gnu_cxx::__normal_iterator<unsigned_int*,std::vector<unsigned_int,std::allocator<unsigned_int>>>,void>
(local_30,local_c8,local_d8,local_e0);
std::vector<unsigned_int,std::allocator<unsigned_int>>::~vector(local_c0);
partition::~partition(local_98);
__gnu_cxx::
__normal_iterator<partition_table_item::partition_const*,std::vector<partition_table_item::partition,std::allocator<partition_table_item::partition>>>
::operator++((__normal_iterator<partition_table_item::partition_const*,std::vector<partition_table_item::partition,std::allocator<partition_table_item::partition>>>
*)&local_40);
}
local_e9 = 0;
iVar2 = std::vector<unsigned_int,std::allocator<unsigned_int>>::size(local_30);
/* try { // try from 0019122a to 0019122b has its CatchHandler @ 001911a2 */
uVar3 = (**(code **)(*in_RSI + 0x20))(in_RSI,iVar2 + 2);
iVar2 = *(int *)((long)in_RSI + 0xc);
iVar4 = std::
vector<partition_table_item::partition,std::allocator<partition_table_item::partition>>::
size((vector<partition_table_item::partition,std::allocator<partition_table_item::partition>>
*)(in_RSI + 2));
local_108 = uVar3 | iVar2 << 0x1f | iVar4 << 0x18;
local_104 = (int4)in_RSI[1];
local_100 = &local_108;
local_f8 = 2;
std::allocator<unsigned_int>::allocator(&local_109);
/* try { // try from 001912ba to 001912be has its CatchHandler @ 00191356 */
std::vector<unsigned_int,std::allocator<unsigned_int>>::vector
(param_1,local_100,local_f8,&local_109);
std::allocator<unsigned_int>::~allocator(&local_109);
local_120 = std::vector<unsigned_int,std::allocator<unsigned_int>>::end
((vector<unsigned_int,std::allocator<unsigned_int>> *)param_1);
__gnu_cxx::
__normal_iterator<unsigned_int_const*,std::vector<unsigned_int,std::allocator<unsigned_int>>>::
__normal_iterator<unsigned_int*>
((__normal_iterator<unsigned_int_const*,std::vector<unsigned_int,std::allocator<unsigned_int>>>
*)&local_118,(__normal_iterator *)&local_120);
uVar6 = std::vector<unsigned_int,std::allocator<unsigned_int>>::begin(local_30);
uVar7 = std::vector<unsigned_int,std::allocator<unsigned_int>>::end(local_30);
/* try { // try from 0019132c to 00191330 has its CatchHandler @ 00191379 */
std::vector<unsigned_int,std::allocator<unsigned_int>>::
insert<__gnu_cxx::__normal_iterator<unsigned_int*,std::vector<unsigned_int,std::allocator<unsigned_int>>>,void>
((vector<unsigned_int,std::allocator<unsigned_int>> *)param_1,local_118,uVar6,uVar7);
local_e9 = 1;
std::vector<unsigned_int,std::allocator<unsigned_int>>::~vector(local_30);
return param_1;
}
|
|
4,432 | nglog::AddLogSink(nglog::LogSink*) | ng-log[P]ng-log/src/logging.cc | void AddLogSink(LogSink* destination) {
LogDestination::AddLogSink(destination);
} | O1 | cpp | nglog::AddLogSink(nglog::LogSink*):
pushq %rbx
subq $0x10, %rsp
movq %rdi, 0x8(%rsp)
leaq 0x2b2a3(%rip), %rdi # 0x471b8
callq 0x8a20
cmpl $0x23, %eax
je 0x1bf84
cmpq $0x0, 0x2b289(%rip) # 0x471b0
jne 0x1bf48
movl $0x18, %edi
callq 0xa980
xorps %xmm0, %xmm0
movups %xmm0, (%rax)
movq $0x0, 0x10(%rax)
movq %rax, 0x2b268(%rip) # 0x471b0
movq 0x2b261(%rip), %rdi # 0x471b0
movq 0x8(%rdi), %rsi
cmpq 0x10(%rdi), %rsi
je 0x1bf68
movq 0x8(%rsp), %rax
movq %rax, (%rsi)
addq $0x8, 0x8(%rdi)
jmp 0x1bf72
leaq 0x8(%rsp), %rdx
callq 0x2229c
leaq 0x2b23f(%rip), %rdi # 0x471b8
callq 0x8860
addq $0x10, %rsp
popq %rbx
retq
movl $0x23, %edi
callq 0x83f0
jmp 0x1bf90
movq %rax, %rbx
leaq 0x2b21e(%rip), %rdi # 0x471b8
callq 0x8860
movq %rbx, %rdi
callq 0x8bb0
| _ZN5nglog10AddLogSinkEPNS_7LogSinkE:
push rbx
sub rsp, 10h
mov [rsp+18h+var_10], rdi
lea rdi, _ZN5nglog14LogDestination11sink_mutex_E; nglog::LogDestination::sink_mutex_
call _pthread_rwlock_wrlock
cmp eax, 23h ; '#'
jz short loc_1BF84
cmp cs:_ZN5nglog14LogDestination6sinks_E, 0; nglog::LogDestination::sinks_
jnz short loc_1BF48
mov edi, 18h; unsigned __int64
call _Znwm; operator new(ulong)
xorps xmm0, xmm0
movups xmmword ptr [rax], xmm0
mov qword ptr [rax+10h], 0
mov cs:_ZN5nglog14LogDestination6sinks_E, rax; nglog::LogDestination::sinks_
loc_1BF48:
mov rdi, cs:_ZN5nglog14LogDestination6sinks_E; nglog::LogDestination::sinks_
mov rsi, [rdi+8]
cmp rsi, [rdi+10h]
jz short loc_1BF68
mov rax, [rsp+18h+var_10]
mov [rsi], rax
add qword ptr [rdi+8], 8
jmp short loc_1BF72
loc_1BF68:
lea rdx, [rsp+18h+var_10]
call _ZNSt6vectorIPN5nglog7LogSinkESaIS2_EE17_M_realloc_insertIJRKS2_EEEvN9__gnu_cxx17__normal_iteratorIPS2_S4_EEDpOT_; std::vector<nglog::LogSink *>::_M_realloc_insert<nglog::LogSink * const&>(__gnu_cxx::__normal_iterator<nglog::LogSink **,std::vector<nglog::LogSink *>>,nglog::LogSink * const&)
loc_1BF72:
lea rdi, _ZN5nglog14LogDestination11sink_mutex_E; nglog::LogDestination::sink_mutex_
call _pthread_rwlock_unlock
add rsp, 10h
pop rbx
retn
loc_1BF84:
mov edi, 23h ; '#'; int
call __ZSt20__throw_system_errori; std::__throw_system_error(int)
jmp short $+2
loc_1BF90:
mov rbx, rax
lea rdi, _ZN5nglog14LogDestination11sink_mutex_E; nglog::LogDestination::sink_mutex_
call _pthread_rwlock_unlock
mov rdi, rbx
call __Unwind_Resume
| long long nglog::AddLogSink(nglog *this, nglog::LogSink *a2)
{
long long v2; // rax
long long v3; // rdi
nglog **v4; // rsi
nglog *v6; // [rsp+8h] [rbp-10h] BYREF
v6 = this;
if ( (unsigned int)pthread_rwlock_wrlock(&nglog::LogDestination::sink_mutex_) == 35 )
std::__throw_system_error(35);
if ( !nglog::LogDestination::sinks_ )
{
v2 = operator new(24LL);
*(_OWORD *)v2 = 0LL;
*(_QWORD *)(v2 + 16) = 0LL;
nglog::LogDestination::sinks_ = v2;
}
v3 = nglog::LogDestination::sinks_;
v4 = *(nglog ***)(nglog::LogDestination::sinks_ + 8);
if ( v4 == *(nglog ***)(nglog::LogDestination::sinks_ + 16) )
{
std::vector<nglog::LogSink *>::_M_realloc_insert<nglog::LogSink * const&>(nglog::LogDestination::sinks_, v4, &v6);
}
else
{
*v4 = v6;
*(_QWORD *)(v3 + 8) += 8LL;
}
return pthread_rwlock_unlock(&nglog::LogDestination::sink_mutex_);
}
| AddLogSink:
PUSH RBX
SUB RSP,0x10
MOV qword ptr [RSP + 0x8],RDI
LEA RDI,[0x1471b8]
CALL 0x00108a20
CMP EAX,0x23
JZ 0x0011bf84
CMP qword ptr [0x001471b0],0x0
JNZ 0x0011bf48
LAB_0011bf29:
MOV EDI,0x18
CALL 0x0010a980
XORPS XMM0,XMM0
MOVUPS xmmword ptr [RAX],XMM0
MOV qword ptr [RAX + 0x10],0x0
MOV qword ptr [0x001471b0],RAX
LAB_0011bf48:
MOV RDI,qword ptr [0x001471b0]
MOV RSI,qword ptr [RDI + 0x8]
CMP RSI,qword ptr [RDI + 0x10]
JZ 0x0011bf68
MOV RAX,qword ptr [RSP + 0x8]
MOV qword ptr [RSI],RAX
ADD qword ptr [RDI + 0x8],0x8
JMP 0x0011bf72
LAB_0011bf68:
LEA RDX,[RSP + 0x8]
CALL 0x0012229c
LAB_0011bf72:
LEA RDI,[0x1471b8]
CALL 0x00108860
ADD RSP,0x10
POP RBX
RET
LAB_0011bf84:
MOV EDI,0x23
CALL 0x001083f0
|
/* nglog::AddLogSink(nglog::LogSink*) */
void nglog::AddLogSink(LogSink *param_1)
{
int8 *puVar1;
vector<nglog::LogSink*,std::allocator<nglog::LogSink*>> *pvVar2;
int iVar3;
LogSink *local_10;
local_10 = param_1;
iVar3 = pthread_rwlock_wrlock((pthread_rwlock_t *)LogDestination::sink_mutex_);
if (iVar3 != 0x23) {
if (LogDestination::sinks_ == (vector<nglog::LogSink*,std::allocator<nglog::LogSink*>> *)0x0) {
/* try { // try from 0011bf29 to 0011bf32 has its CatchHandler @ 0011bf90 */
LogDestination::sinks_ =
(vector<nglog::LogSink*,std::allocator<nglog::LogSink*>> *)operator_new(0x18);
*(int8 *)LogDestination::sinks_ = 0;
*(int8 *)(LogDestination::sinks_ + 8) = 0;
*(int8 *)(LogDestination::sinks_ + 0x10) = 0;
}
pvVar2 = LogDestination::sinks_;
puVar1 = *(int8 **)(LogDestination::sinks_ + 8);
if (puVar1 == *(int8 **)(LogDestination::sinks_ + 0x10)) {
/* try { // try from 0011bf68 to 0011bf71 has its CatchHandler @ 0011bf8e */
std::vector<nglog::LogSink*,std::allocator<nglog::LogSink*>>::
_M_realloc_insert<nglog::LogSink*const&>(LogDestination::sinks_,puVar1,&local_10);
}
else {
*puVar1 = local_10;
*(long *)(pvVar2 + 8) = *(long *)(pvVar2 + 8) + 8;
}
pthread_rwlock_unlock((pthread_rwlock_t *)LogDestination::sink_mutex_);
return;
}
/* WARNING: Subroutine does not return */
std::__throw_system_error(0x23);
}
|
|
4,433 | nglog::AddLogSink(nglog::LogSink*) | ng-log[P]ng-log/src/logging.cc | void AddLogSink(LogSink* destination) {
LogDestination::AddLogSink(destination);
} | O3 | cpp | nglog::AddLogSink(nglog::LogSink*):
pushq %rbx
subq $0x10, %rsp
movq %rdi, %rbx
movq %rdi, 0x8(%rsp)
leaq 0x2b113(%rip), %rdi # 0x461b8
callq 0x8a20
cmpl $0x23, %eax
je 0x1b10d
movq 0x2b0fa(%rip), %rax # 0x461b0
testq %rax, %rax
jne 0x1b0da
movl $0x18, %edi
callq 0xa850
xorps %xmm0, %xmm0
movups %xmm0, (%rax)
movq $0x0, 0x10(%rax)
movq %rax, 0x2b0d6(%rip) # 0x461b0
movq 0x8(%rax), %rsi
cmpq 0x10(%rax), %rsi
je 0x1b0ee
movq %rbx, (%rsi)
addq $0x8, 0x8(%rax)
jmp 0x1b0fb
leaq 0x8(%rsp), %rdx
movq %rax, %rdi
callq 0x2124c
leaq 0x2b0b6(%rip), %rdi # 0x461b8
callq 0x8860
addq $0x10, %rsp
popq %rbx
retq
movl $0x23, %edi
callq 0x83f0
jmp 0x1b119
movq %rax, %rbx
leaq 0x2b095(%rip), %rdi # 0x461b8
callq 0x8860
movq %rbx, %rdi
callq 0x8bb0
| _ZN5nglog10AddLogSinkEPNS_7LogSinkE:
push rbx
sub rsp, 10h
mov rbx, rdi
mov [rsp+18h+var_10], rdi
lea rdi, _ZN5nglog14LogDestination11sink_mutex_E; nglog::LogDestination::sink_mutex_
call _pthread_rwlock_wrlock
cmp eax, 23h ; '#'
jz short loc_1B10D
mov rax, cs:_ZN5nglog14LogDestination6sinks_E; nglog::LogDestination::sinks_
test rax, rax
jnz short loc_1B0DA
mov edi, 18h; unsigned __int64
call _Znwm; operator new(ulong)
xorps xmm0, xmm0
movups xmmword ptr [rax], xmm0
mov qword ptr [rax+10h], 0
mov cs:_ZN5nglog14LogDestination6sinks_E, rax; nglog::LogDestination::sinks_
loc_1B0DA:
mov rsi, [rax+8]
cmp rsi, [rax+10h]
jz short loc_1B0EE
mov [rsi], rbx
add qword ptr [rax+8], 8
jmp short loc_1B0FB
loc_1B0EE:
lea rdx, [rsp+18h+var_10]
mov rdi, rax
call _ZNSt6vectorIPN5nglog7LogSinkESaIS2_EE17_M_realloc_insertIJRKS2_EEEvN9__gnu_cxx17__normal_iteratorIPS2_S4_EEDpOT_; std::vector<nglog::LogSink *>::_M_realloc_insert<nglog::LogSink * const&>(__gnu_cxx::__normal_iterator<nglog::LogSink **,std::vector<nglog::LogSink *>>,nglog::LogSink * const&)
loc_1B0FB:
lea rdi, _ZN5nglog14LogDestination11sink_mutex_E; nglog::LogDestination::sink_mutex_
call _pthread_rwlock_unlock
add rsp, 10h
pop rbx
retn
loc_1B10D:
mov edi, 23h ; '#'; int
call __ZSt20__throw_system_errori; std::__throw_system_error(int)
jmp short $+2
loc_1B119:
mov rbx, rax
lea rdi, _ZN5nglog14LogDestination11sink_mutex_E; nglog::LogDestination::sink_mutex_
call _pthread_rwlock_unlock
mov rdi, rbx
call __Unwind_Resume
| long long nglog::AddLogSink(nglog *this, nglog::LogSink *a2)
{
long long v2; // rax
_QWORD *v3; // rsi
nglog *v5; // [rsp+8h] [rbp-10h] BYREF
v5 = this;
if ( (unsigned int)pthread_rwlock_wrlock(&nglog::LogDestination::sink_mutex_) == 35 )
std::__throw_system_error(35);
v2 = nglog::LogDestination::sinks_;
if ( !nglog::LogDestination::sinks_ )
{
v2 = operator new(24LL);
*(_OWORD *)v2 = 0LL;
*(_QWORD *)(v2 + 16) = 0LL;
nglog::LogDestination::sinks_ = v2;
}
v3 = *(_QWORD **)(v2 + 8);
if ( v3 == *(_QWORD **)(v2 + 16) )
{
std::vector<nglog::LogSink *>::_M_realloc_insert<nglog::LogSink * const&>(v2, v3, &v5);
}
else
{
*v3 = this;
*(_QWORD *)(v2 + 8) += 8LL;
}
return pthread_rwlock_unlock(&nglog::LogDestination::sink_mutex_);
}
| AddLogSink:
PUSH RBX
SUB RSP,0x10
MOV RBX,RDI
MOV qword ptr [RSP + 0x8],RDI
LEA RDI,[0x1461b8]
CALL 0x00108a20
CMP EAX,0x23
JZ 0x0011b10d
MOV RAX,qword ptr [0x001461b0]
TEST RAX,RAX
JNZ 0x0011b0da
LAB_0011b0bb:
MOV EDI,0x18
CALL 0x0010a850
XORPS XMM0,XMM0
MOVUPS xmmword ptr [RAX],XMM0
MOV qword ptr [RAX + 0x10],0x0
MOV qword ptr [0x001461b0],RAX
LAB_0011b0da:
MOV RSI,qword ptr [RAX + 0x8]
CMP RSI,qword ptr [RAX + 0x10]
JZ 0x0011b0ee
MOV qword ptr [RSI],RBX
ADD qword ptr [RAX + 0x8],0x8
JMP 0x0011b0fb
LAB_0011b0ee:
LEA RDX,[RSP + 0x8]
MOV RDI,RAX
CALL 0x0012124c
LAB_0011b0fb:
LEA RDI,[0x1461b8]
CALL 0x00108860
ADD RSP,0x10
POP RBX
RET
LAB_0011b10d:
MOV EDI,0x23
CALL 0x001083f0
|
/* nglog::AddLogSink(nglog::LogSink*) */
void nglog::AddLogSink(LogSink *param_1)
{
int8 *puVar1;
vector<nglog::LogSink*,std::allocator<nglog::LogSink*>> *pvVar2;
int iVar3;
LogSink *local_10;
local_10 = param_1;
iVar3 = pthread_rwlock_wrlock((pthread_rwlock_t *)LogDestination::sink_mutex_);
if (iVar3 != 0x23) {
if (LogDestination::sinks_ == (vector<nglog::LogSink*,std::allocator<nglog::LogSink*>> *)0x0) {
/* try { // try from 0011b0bb to 0011b0c4 has its CatchHandler @ 0011b119 */
LogDestination::sinks_ =
(vector<nglog::LogSink*,std::allocator<nglog::LogSink*>> *)operator_new(0x18);
*(int8 *)LogDestination::sinks_ = 0;
*(int8 *)(LogDestination::sinks_ + 8) = 0;
*(int8 *)(LogDestination::sinks_ + 0x10) = 0;
}
pvVar2 = LogDestination::sinks_;
puVar1 = *(int8 **)(LogDestination::sinks_ + 8);
if (puVar1 == *(int8 **)(LogDestination::sinks_ + 0x10)) {
/* try { // try from 0011b0ee to 0011b0fa has its CatchHandler @ 0011b117 */
std::vector<nglog::LogSink*,std::allocator<nglog::LogSink*>>::
_M_realloc_insert<nglog::LogSink*const&>(LogDestination::sinks_,puVar1,&local_10);
}
else {
*puVar1 = param_1;
*(long *)(pvVar2 + 8) = *(long *)(pvVar2 + 8) + 8;
}
pthread_rwlock_unlock((pthread_rwlock_t *)LogDestination::sink_mutex_);
return;
}
/* WARNING: Subroutine does not return */
std::__throw_system_error(0x23);
}
|
|
4,434 | set_default_charset | eloqsql/libmariadb/libmariadb/mariadb_charset.c | my_bool set_default_charset(uint cs, myf flags __attribute__((unused)))
{
MARIADB_CHARSET_INFO *new_charset;
new_charset = mysql_get_charset_by_nr(cs);
if (!new_charset)
{
return(TRUE); /* error */
}
ma_default_charset_info = new_charset;
return(FALSE);
} | O0 | c | set_default_charset:
pushq %rbp
movq %rsp, %rbp
subq $0x20, %rsp
movl %edi, -0x8(%rbp)
movl %esi, -0xc(%rbp)
movl -0x8(%rbp), %edi
callq 0x4b320
movq %rax, -0x18(%rbp)
cmpq $0x0, -0x18(%rbp)
jne 0x4b3e7
movb $0x1, -0x1(%rbp)
jmp 0x4b3f9
movq -0x18(%rbp), %rcx
leaq 0x1bc46(%rip), %rax # 0x67038
movq %rcx, (%rax)
movb $0x0, -0x1(%rbp)
movb -0x1(%rbp), %al
addq $0x20, %rsp
popq %rbp
retq
nopw %cs:(%rax,%rax)
| set_default_charset:
push rbp
mov rbp, rsp
sub rsp, 20h
mov [rbp+var_8], edi
mov [rbp+var_C], esi
mov edi, [rbp+var_8]
call mysql_get_charset_by_nr
mov [rbp+var_18], rax
cmp [rbp+var_18], 0
jnz short loc_4B3E7
mov [rbp+var_1], 1
jmp short loc_4B3F9
loc_4B3E7:
mov rcx, [rbp+var_18]
lea rax, ma_default_charset_info
mov [rax], rcx
mov [rbp+var_1], 0
loc_4B3F9:
mov al, [rbp+var_1]
add rsp, 20h
pop rbp
retn
| char set_default_charset(int a1)
{
char *charset_by_nr; // [rsp+8h] [rbp-18h]
charset_by_nr = mysql_get_charset_by_nr(a1);
if ( !charset_by_nr )
return 1;
ma_default_charset_info = charset_by_nr;
return 0;
}
| set_default_charset:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x20
MOV dword ptr [RBP + -0x8],EDI
MOV dword ptr [RBP + -0xc],ESI
MOV EDI,dword ptr [RBP + -0x8]
CALL 0x0014b320
MOV qword ptr [RBP + -0x18],RAX
CMP qword ptr [RBP + -0x18],0x0
JNZ 0x0014b3e7
MOV byte ptr [RBP + -0x1],0x1
JMP 0x0014b3f9
LAB_0014b3e7:
MOV RCX,qword ptr [RBP + -0x18]
LEA RAX,[0x167038]
MOV qword ptr [RAX],RCX
MOV byte ptr [RBP + -0x1],0x0
LAB_0014b3f9:
MOV AL,byte ptr [RBP + -0x1]
ADD RSP,0x20
POP RBP
RET
|
int8 set_default_charset(int4 param_1)
{
long lVar1;
int8 *puVar2;
bool local_9;
lVar1 = mysql_get_charset_by_nr(param_1);
if (lVar1 != 0) {
puVar2 = &ma_default_charset_info;
ma_default_charset_info = lVar1;
}
else {
puVar2 = (int8 *)0x0;
}
local_9 = lVar1 == 0;
return CONCAT71((int7)((ulong)puVar2 >> 8),local_9);
}
|
|
4,435 | google::protobuf::compiler::java::ImmutableEnumOneofFieldGenerator::GenerateMembers(google::protobuf::io::Printer*) const | aimrt_mujoco_sim/_deps/protobuf-src/src/google/protobuf/compiler/java/enum_field.cc | void ImmutableEnumOneofFieldGenerator::GenerateMembers(
io::Printer* printer) const {
PrintExtraFieldInfo(variables_, printer);
GOOGLE_DCHECK(HasHazzer(descriptor_));
WriteFieldAccessorDocComment(printer, descriptor_, HAZZER);
printer->Print(variables_,
"$deprecation$public boolean ${$has$capitalized_name$$}$() {\n"
" return $has_oneof_case_message$;\n"
"}\n");
printer->Annotate("{", "}", descriptor_);
if (SupportUnknownEnumValue(descriptor_->file())) {
WriteFieldEnumValueAccessorDocComment(printer, descriptor_, GETTER);
printer->Print(
variables_,
"$deprecation$public int ${$get$capitalized_name$Value$}$() {\n"
" if ($has_oneof_case_message$) {\n"
" return (java.lang.Integer) $oneof_name$_;\n"
" }\n"
" return $default_number$;\n"
"}\n");
printer->Annotate("{", "}", descriptor_);
}
WriteFieldAccessorDocComment(printer, descriptor_, GETTER);
printer->Print(variables_,
"$deprecation$public $type$ ${$get$capitalized_name$$}$() {\n"
" if ($has_oneof_case_message$) {\n"
" $type$ result = $type$.forNumber(\n"
" (java.lang.Integer) $oneof_name$_);\n"
" return result == null ? $unknown$ : result;\n"
" }\n"
" return $default$;\n"
"}\n");
printer->Annotate("{", "}", descriptor_);
} | O3 | cpp | google::protobuf::compiler::java::ImmutableEnumOneofFieldGenerator::GenerateMembers(google::protobuf::io::Printer*) const:
pushq %r15
pushq %r14
pushq %rbx
movq %rsi, %rbx
movq %rdi, %r14
leaq 0x18(%rdi), %r15
movq %r15, %rdi
callq 0xd5ca2
movq 0x8(%r14), %rsi
movq %rbx, %rdi
xorl %edx, %edx
xorl %ecx, %ecx
callq 0xcff9a
leaq 0xe569c(%rip), %rdx # 0x1da2dc
movq %rbx, %rdi
movq %r15, %rsi
callq 0x16cd32
movq 0x8(%r14), %rcx
leaq 0xfb483(%rip), %rsi # 0x1f00d9
leaq 0xeba70(%rip), %rdx # 0x1e06cd
movq %rbx, %rdi
callq 0xafc7e
movq 0x8(%r14), %rsi
movq 0x10(%rsi), %rax
cmpb $0x3, 0x3(%rax)
jne 0xf4cb2
movq %rbx, %rdi
movl $0x1, %edx
xorl %ecx, %ecx
callq 0xd0175
leaq 0xf5acc(%rip), %rdx # 0x1ea755
movq %rbx, %rdi
movq %r15, %rsi
callq 0x16cd32
movq 0x8(%r14), %rcx
leaq 0xfb43a(%rip), %rsi # 0x1f00d9
leaq 0xeba27(%rip), %rdx # 0x1e06cd
movq %rbx, %rdi
callq 0xafc7e
movq 0x8(%r14), %rsi
movq %rbx, %rdi
movl $0x1, %edx
xorl %ecx, %ecx
callq 0xcff9a
leaq 0xf3c3d(%rip), %rdx # 0x1e8905
movq %rbx, %rdi
movq %r15, %rsi
callq 0x16cd32
movq 0x8(%r14), %rcx
leaq 0xfb3fb(%rip), %rsi # 0x1f00d9
leaq 0xeb9e8(%rip), %rdx # 0x1e06cd
movq %rbx, %rdi
popq %rbx
popq %r14
popq %r15
jmp 0xafc7e
| _ZNK6google8protobuf8compiler4java32ImmutableEnumOneofFieldGenerator15GenerateMembersEPNS0_2io7PrinterE:
push r15; char
push r14; int
push rbx; void *
mov rbx, rsi
mov r14, rdi
lea r15, [rdi+18h]
mov rdi, r15
call _ZN6google8protobuf8compiler4java19PrintExtraFieldInfoERKSt3mapINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEES9_St4lessIS9_ESaISt4pairIKS9_S9_EEEPNS0_2io7PrinterE; google::protobuf::compiler::java::PrintExtraFieldInfo(std::map<std::string,std::string> const&,google::protobuf::io::Printer *)
mov rsi, [r14+8]; google::protobuf::FieldDescriptor *
mov rdi, rbx; this
xor edx, edx
xor ecx, ecx
call _ZN6google8protobuf8compiler4java28WriteFieldAccessorDocCommentEPNS0_2io7PrinterEPKNS0_15FieldDescriptorENS2_17FieldAccessorTypeEb; google::protobuf::compiler::java::WriteFieldAccessorDocComment(google::protobuf::io::Printer *,google::protobuf::FieldDescriptor const*,google::protobuf::compiler::java::FieldAccessorType,bool)
lea rdx, aJavaLangOverri_61+14h; "$deprecation$public boolean ${$has$capi"...
mov rdi, rbx; this
mov rsi, r15
call _ZN6google8protobuf2io7Printer5PrintERKSt3mapINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEES9_St4lessIS9_ESaISt4pairIKS9_S9_EEEPKc; google::protobuf::io::Printer::Print(std::map<std::string,std::string> const&,char const*)
mov rcx, [r14+8]
lea rsi, a0oneof1+0Bh; "{"
lea rdx, aKotlinJvmJvmsy_32+0E3h; "}"
mov rdi, rbx
call _ZN6google8protobuf2io7Printer8AnnotateINS0_15FieldDescriptorEEEvPKcS6_PKT_; google::protobuf::io::Printer::Annotate<google::protobuf::FieldDescriptor>(char const*,char const*,google::protobuf::FieldDescriptor const*)
mov rsi, [r14+8]; google::protobuf::FieldDescriptor *
mov rax, [rsi+10h]
cmp byte ptr [rax+3], 3
jnz short loc_F4CB2
mov rdi, rbx; this
mov edx, 1
xor ecx, ecx
call _ZN6google8protobuf8compiler4java37WriteFieldEnumValueAccessorDocCommentEPNS0_2io7PrinterEPKNS0_15FieldDescriptorENS2_17FieldAccessorTypeEb; google::protobuf::compiler::java::WriteFieldEnumValueAccessorDocComment(google::protobuf::io::Printer *,google::protobuf::FieldDescriptor const*,google::protobuf::compiler::java::FieldAccessorType,bool)
lea rdx, aJavaLangOverri_112+14h; "$deprecation$public int ${$get$capitali"...
mov rdi, rbx; this
mov rsi, r15
call _ZN6google8protobuf2io7Printer5PrintERKSt3mapINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEES9_St4lessIS9_ESaISt4pairIKS9_S9_EEEPKc; google::protobuf::io::Printer::Print(std::map<std::string,std::string> const&,char const*)
mov rcx, [r14+8]
lea rsi, a0oneof1+0Bh; "{"
lea rdx, aKotlinJvmJvmsy_32+0E3h; "}"
mov rdi, rbx
call _ZN6google8protobuf2io7Printer8AnnotateINS0_15FieldDescriptorEEEvPKcS6_PKT_; google::protobuf::io::Printer::Annotate<google::protobuf::FieldDescriptor>(char const*,char const*,google::protobuf::FieldDescriptor const*)
mov rsi, [r14+8]; google::protobuf::FieldDescriptor *
loc_F4CB2:
mov rdi, rbx; this
mov edx, 1
xor ecx, ecx
call _ZN6google8protobuf8compiler4java28WriteFieldAccessorDocCommentEPNS0_2io7PrinterEPKNS0_15FieldDescriptorENS2_17FieldAccessorTypeEb; google::protobuf::compiler::java::WriteFieldAccessorDocComment(google::protobuf::io::Printer *,google::protobuf::FieldDescriptor const*,google::protobuf::compiler::java::FieldAccessorType,bool)
lea rdx, aJavaLangOverri_105+14h; "$deprecation$public $type$ ${$get$capit"...
mov rdi, rbx; this
mov rsi, r15
call _ZN6google8protobuf2io7Printer5PrintERKSt3mapINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEES9_St4lessIS9_ESaISt4pairIKS9_S9_EEEPKc; google::protobuf::io::Printer::Print(std::map<std::string,std::string> const&,char const*)
mov rcx, [r14+8]
lea rsi, a0oneof1+0Bh; "{"
lea rdx, aKotlinJvmJvmsy_32+0E3h; "}"
mov rdi, rbx
pop rbx
pop r14
pop r15
jmp _ZN6google8protobuf2io7Printer8AnnotateINS0_15FieldDescriptorEEEvPKcS6_PKT_; google::protobuf::io::Printer::Annotate<google::protobuf::FieldDescriptor>(char const*,char const*,google::protobuf::FieldDescriptor const*)
| GenerateMembers:
PUSH R15
PUSH R14
PUSH RBX
MOV RBX,RSI
MOV R14,RDI
LEA R15,[RDI + 0x18]
MOV RDI,R15
CALL 0x001d5ca2
MOV RSI,qword ptr [R14 + 0x8]
MOV RDI,RBX
XOR EDX,EDX
XOR ECX,ECX
CALL 0x001cff9a
LEA RDX,[0x2da2dc]
MOV RDI,RBX
MOV RSI,R15
CALL 0x0026cd32
MOV RCX,qword ptr [R14 + 0x8]
LEA RSI,[0x2f00d9]
LEA RDX,[0x2e06cd]
MOV RDI,RBX
CALL 0x001afc7e
MOV RSI,qword ptr [R14 + 0x8]
MOV RAX,qword ptr [RSI + 0x10]
CMP byte ptr [RAX + 0x3],0x3
JNZ 0x001f4cb2
MOV RDI,RBX
MOV EDX,0x1
XOR ECX,ECX
CALL 0x001d0175
LEA RDX,[0x2ea755]
MOV RDI,RBX
MOV RSI,R15
CALL 0x0026cd32
MOV RCX,qword ptr [R14 + 0x8]
LEA RSI,[0x2f00d9]
LEA RDX,[0x2e06cd]
MOV RDI,RBX
CALL 0x001afc7e
MOV RSI,qword ptr [R14 + 0x8]
LAB_001f4cb2:
MOV RDI,RBX
MOV EDX,0x1
XOR ECX,ECX
CALL 0x001cff9a
LEA RDX,[0x2e8905]
MOV RDI,RBX
MOV RSI,R15
CALL 0x0026cd32
MOV RCX,qword ptr [R14 + 0x8]
LEA RSI,[0x2f00d9]
LEA RDX,[0x2e06cd]
MOV RDI,RBX
POP RBX
POP R14
POP R15
JMP 0x001afc7e
|
/* google::protobuf::compiler::java::ImmutableEnumOneofFieldGenerator::GenerateMembers(google::protobuf::io::Printer*)
const */
void __thiscall
google::protobuf::compiler::java::ImmutableEnumOneofFieldGenerator::GenerateMembers
(ImmutableEnumOneofFieldGenerator *this,Printer *param_1)
{
map *pmVar1;
long lVar2;
pmVar1 = (map *)(this + 0x18);
PrintExtraFieldInfo(pmVar1,param_1);
WriteFieldAccessorDocComment(param_1,*(int8 *)(this + 8),0,0);
io::Printer::Print(param_1,pmVar1,
"$deprecation$public boolean ${$has$capitalized_name$$}$() {\n return $has_oneof_case_message$;\n}\n"
);
io::Printer::Annotate<google::protobuf::FieldDescriptor>
(param_1,"{","}",*(FieldDescriptor **)(this + 8));
lVar2 = *(long *)(this + 8);
if (*(char *)(*(long *)(lVar2 + 0x10) + 3) == '\x03') {
WriteFieldEnumValueAccessorDocComment(param_1,lVar2,1,0);
io::Printer::Print(param_1,pmVar1,
"$deprecation$public int ${$get$capitalized_name$Value$}$() {\n if ($has_oneof_case_message$) {\n return (java.lang.Integer) $oneof_name$_;\n }\n return $default_number$;\n}\n"
);
io::Printer::Annotate<google::protobuf::FieldDescriptor>
(param_1,"{","}",*(FieldDescriptor **)(this + 8));
lVar2 = *(long *)(this + 8);
}
WriteFieldAccessorDocComment(param_1,lVar2,1,0);
io::Printer::Print(param_1,pmVar1,
"$deprecation$public $type$ ${$get$capitalized_name$$}$() {\n if ($has_oneof_case_message$) {\n $type$ result = $type$.forNumber(\n (java.lang.Integer) $oneof_name$_);\n return result == null ? $unknown$ : result;\n }\n return $default$;\n}\n"
);
io::Printer::Annotate<google::protobuf::FieldDescriptor>
(param_1,"{","}",*(FieldDescriptor **)(this + 8));
return;
}
|
||
4,436 | my_casefold_ujis | eloqsql/strings/ctype-ujis.c | static size_t
my_casefold_ujis(CHARSET_INFO *cs,
const char *src, size_t srclen,
char *dst, size_t dstlen __attribute__((unused)),
const uchar * const map,
size_t is_upper)
{
const char *srcend= src + srclen, *dst0= dst;
while (src < srcend)
{
size_t mblen= my_ismbchar(cs, src, srcend);
if (mblen)
{
MY_UNICASE_CHARACTER *ch;
ch= (mblen == 2) ?
get_case_info_for_ch(cs, 0, (uchar) src[0], (uchar) src[1]) :
get_case_info_for_ch(cs, 1, (uchar) src[1], (uchar) src[2]);
if (ch)
{
int code= is_upper ? ch->toupper : ch->tolower;
src+= mblen;
if (code > 0xFFFF)
*dst++= (char) (uchar) ((code >> 16) & 0xFF);
if (code > 0xFF)
*dst++= (char) (uchar) ((code >> 8) & 0xFF);
*dst++= (char) (uchar) (code & 0xFF);
}
else
{
if (mblen == 3)
*dst++= *src++;
*dst++= *src++;
*dst++= *src++;
}
}
else
{
*dst++= (char) map[(uchar) *src++];
}
}
return (size_t) (dst - dst0);
} | O3 | c | my_casefold_ujis:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x18, %rsp
movq %r8, -0x40(%rbp)
movq %rcx, %rbx
movq %rcx, -0x30(%rbp)
testq %rdx, %rdx
jle 0x4cf2b
movq %rdx, %r15
movq %rsi, %r12
movq %rdi, %r13
addq %rsi, %r15
xorl %eax, %eax
testq %r9, %r9
sete %al
shll $0x2, %eax
movq %rax, -0x38(%rbp)
xorl %r14d, %r14d
movq -0x30(%rbp), %rbx
movq 0xb8(%r13), %rax
movq %r13, %rdi
movq %r12, %rsi
movq %r15, %rdx
callq *0xc0(%rax)
cmpl $0x2, %eax
cmovll %r14d, %eax
testl %eax, %eax
je 0x4ce85
cmpl $0x2, %eax
jne 0x4ce9b
movzbl (%r12), %ecx
movq 0x78(%r13), %rdx
movq 0x8(%rdx), %rdx
movq (%rdx,%rcx,8), %rcx
testq %rcx, %rcx
je 0x4cef5
movzbl 0x1(%r12), %edx
jmp 0x4cebc
movzbl (%r12), %eax
incq %r12
movq -0x40(%rbp), %rcx
movb (%rcx,%rax), %al
movb %al, (%rbx)
jmp 0x4cf1f
movzbl 0x1(%r12), %ecx
movq 0x78(%r13), %rdx
movq 0x8(%rdx), %rdx
movq 0x800(%rdx,%rcx,8), %rcx
testq %rcx, %rcx
je 0x4cee4
movzbl 0x2(%r12), %edx
leaq (%rdx,%rdx,2), %rdx
leaq (%rcx,%rdx,4), %rcx
testq %rcx, %rcx
je 0x4cee4
movq -0x38(%rbp), %rdx
movl (%rcx,%rdx), %ecx
cmpl $0x10000, %ecx # imm = 0x10000
jl 0x4cf0d
movl %ecx, %edx
shrl $0x10, %edx
movb %dl, (%rbx)
incq %rbx
jmp 0x4cf15
cmpl $0x3, %eax
jne 0x4cef5
movb (%r12), %al
incq %r12
movb %al, (%rbx)
incq %rbx
movb (%r12), %al
movb %al, (%rbx)
movb 0x1(%r12), %al
addq $0x2, %r12
movb %al, 0x1(%rbx)
addq $0x2, %rbx
jmp 0x4cf22
cmpl $0x100, %ecx # imm = 0x100
jl 0x4cf1a
movb %ch, (%rbx)
incq %rbx
addq %rax, %r12
movb %cl, (%rbx)
incq %rbx
cmpq %r15, %r12
jb 0x4ce41
subq -0x30(%rbp), %rbx
movq %rbx, %rax
addq $0x18, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
| my_casefold_ujis:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 18h
mov [rbp+var_40], r8
mov rbx, rcx
mov [rbp+var_30], rcx
test rdx, rdx
jle loc_4CF2B
mov r15, rdx
mov r12, rsi
mov r13, rdi
add r15, rsi
xor eax, eax
test r9, r9
setz al
shl eax, 2
mov [rbp+var_38], rax
xor r14d, r14d
mov rbx, [rbp+var_30]
loc_4CE41:
mov rax, [r13+0B8h]
mov rdi, r13
mov rsi, r12
mov rdx, r15
call qword ptr [rax+0C0h]
cmp eax, 2
cmovl eax, r14d
test eax, eax
jz short loc_4CE85
cmp eax, 2
jnz short loc_4CE9B
movzx ecx, byte ptr [r12]
mov rdx, [r13+78h]
mov rdx, [rdx+8]
mov rcx, [rdx+rcx*8]
test rcx, rcx
jz short loc_4CEF5
movzx edx, byte ptr [r12+1]
jmp short loc_4CEBC
loc_4CE85:
movzx eax, byte ptr [r12]
inc r12
mov rcx, [rbp+var_40]
mov al, [rcx+rax]
mov [rbx], al
jmp loc_4CF1F
loc_4CE9B:
movzx ecx, byte ptr [r12+1]
mov rdx, [r13+78h]
mov rdx, [rdx+8]
mov rcx, [rdx+rcx*8+800h]
test rcx, rcx
jz short loc_4CEE4
movzx edx, byte ptr [r12+2]
loc_4CEBC:
lea rdx, [rdx+rdx*2]
lea rcx, [rcx+rdx*4]
test rcx, rcx
jz short loc_4CEE4
mov rdx, [rbp+var_38]
mov ecx, [rcx+rdx]
cmp ecx, 10000h
jl short loc_4CF0D
mov edx, ecx
shr edx, 10h
mov [rbx], dl
inc rbx
jmp short loc_4CF15
loc_4CEE4:
cmp eax, 3
jnz short loc_4CEF5
mov al, [r12]
inc r12
mov [rbx], al
inc rbx
loc_4CEF5:
mov al, [r12]
mov [rbx], al
mov al, [r12+1]
add r12, 2
mov [rbx+1], al
add rbx, 2
jmp short loc_4CF22
loc_4CF0D:
cmp ecx, 100h
jl short loc_4CF1A
loc_4CF15:
mov [rbx], ch
inc rbx
loc_4CF1A:
add r12, rax
mov [rbx], cl
loc_4CF1F:
inc rbx
loc_4CF22:
cmp r12, r15
jb loc_4CE41
loc_4CF2B:
sub rbx, [rbp+var_30]
mov rax, rbx
add rsp, 18h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
| _BYTE * my_casefold_ujis(
long long a1,
unsigned __int8 *a2,
long long a3,
unsigned __int8 *a4,
long long a5,
long long a6)
{
unsigned __int8 *v6; // rbx
unsigned __int8 *v7; // r12
unsigned long long v8; // r15
long long v9; // rax
long long v10; // rcx
long long v11; // rdx
long long v12; // rax
long long v13; // rcx
int v14; // ecx
unsigned __int8 v15; // al
unsigned __int8 v16; // al
long long v19; // [rsp+8h] [rbp-38h]
v6 = a4;
if ( a3 > 0 )
{
v7 = a2;
v8 = (unsigned long long)&a2[a3];
v19 = 4 * (unsigned int)(a6 == 0);
v6 = a4;
while ( 1 )
{
v9 = (*(long long ( **)(long long, unsigned __int8 *, unsigned long long))(*(_QWORD *)(a1 + 184) + 192LL))(
a1,
v7,
v8);
if ( (int)v9 < 2 )
v9 = 0LL;
if ( !(_DWORD)v9 )
{
v12 = *v7++;
*v6 = *(_BYTE *)(a5 + v12);
goto LABEL_21;
}
if ( (_DWORD)v9 != 2 )
break;
v10 = *(_QWORD *)(*(_QWORD *)(*(_QWORD *)(a1 + 120) + 8LL) + 8LL * *v7);
if ( v10 )
{
v11 = v7[1];
LABEL_12:
v13 = v10 + 12 * v11;
if ( v13 )
{
v14 = *(_DWORD *)(v13 + v19);
if ( v14 >= 0x10000 )
{
*v6++ = BYTE2(v14);
goto LABEL_19;
}
if ( v14 >= 256 )
LABEL_19:
*v6++ = BYTE1(v14);
v7 += v9;
*v6 = v14;
LABEL_21:
++v6;
goto LABEL_22;
}
goto LABEL_15;
}
LABEL_17:
*v6 = *v7;
v16 = v7[1];
v7 += 2;
v6[1] = v16;
v6 += 2;
LABEL_22:
if ( (unsigned long long)v7 >= v8 )
return (_BYTE *)(v6 - a4);
}
v10 = *(_QWORD *)(*(_QWORD *)(*(_QWORD *)(a1 + 120) + 8LL) + 8LL * v7[1] + 2048);
if ( v10 )
{
v11 = v7[2];
goto LABEL_12;
}
LABEL_15:
if ( (_DWORD)v9 == 3 )
{
v15 = *v7++;
*v6++ = v15;
}
goto LABEL_17;
}
return (_BYTE *)(v6 - a4);
}
| my_casefold_ujis:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x18
MOV qword ptr [RBP + -0x40],R8
MOV RBX,RCX
MOV qword ptr [RBP + -0x30],RCX
TEST RDX,RDX
JLE 0x0014cf2b
MOV R15,RDX
MOV R12,RSI
MOV R13,RDI
ADD R15,RSI
XOR EAX,EAX
TEST R9,R9
SETZ AL
SHL EAX,0x2
MOV qword ptr [RBP + -0x38],RAX
XOR R14D,R14D
MOV RBX,qword ptr [RBP + -0x30]
LAB_0014ce41:
MOV RAX,qword ptr [R13 + 0xb8]
MOV RDI,R13
MOV RSI,R12
MOV RDX,R15
CALL qword ptr [RAX + 0xc0]
CMP EAX,0x2
CMOVL EAX,R14D
TEST EAX,EAX
JZ 0x0014ce85
CMP EAX,0x2
JNZ 0x0014ce9b
MOVZX ECX,byte ptr [R12]
MOV RDX,qword ptr [R13 + 0x78]
MOV RDX,qword ptr [RDX + 0x8]
MOV RCX,qword ptr [RDX + RCX*0x8]
TEST RCX,RCX
JZ 0x0014cef5
MOVZX EDX,byte ptr [R12 + 0x1]
JMP 0x0014cebc
LAB_0014ce85:
MOVZX EAX,byte ptr [R12]
INC R12
MOV RCX,qword ptr [RBP + -0x40]
MOV AL,byte ptr [RCX + RAX*0x1]
MOV byte ptr [RBX],AL
JMP 0x0014cf1f
LAB_0014ce9b:
MOVZX ECX,byte ptr [R12 + 0x1]
MOV RDX,qword ptr [R13 + 0x78]
MOV RDX,qword ptr [RDX + 0x8]
MOV RCX,qword ptr [RDX + RCX*0x8 + 0x800]
TEST RCX,RCX
JZ 0x0014cee4
MOVZX EDX,byte ptr [R12 + 0x2]
LAB_0014cebc:
LEA RDX,[RDX + RDX*0x2]
LEA RCX,[RCX + RDX*0x4]
TEST RCX,RCX
JZ 0x0014cee4
MOV RDX,qword ptr [RBP + -0x38]
MOV ECX,dword ptr [RCX + RDX*0x1]
CMP ECX,0x10000
JL 0x0014cf0d
MOV EDX,ECX
SHR EDX,0x10
MOV byte ptr [RBX],DL
INC RBX
JMP 0x0014cf15
LAB_0014cee4:
CMP EAX,0x3
JNZ 0x0014cef5
MOV AL,byte ptr [R12]
INC R12
MOV byte ptr [RBX],AL
INC RBX
LAB_0014cef5:
MOV AL,byte ptr [R12]
MOV byte ptr [RBX],AL
MOV AL,byte ptr [R12 + 0x1]
ADD R12,0x2
MOV byte ptr [RBX + 0x1],AL
ADD RBX,0x2
JMP 0x0014cf22
LAB_0014cf0d:
CMP ECX,0x100
JL 0x0014cf1a
LAB_0014cf15:
MOV byte ptr [RBX],CH
INC RBX
LAB_0014cf1a:
ADD R12,RAX
MOV byte ptr [RBX],CL
LAB_0014cf1f:
INC RBX
LAB_0014cf22:
CMP R12,R15
JC 0x0014ce41
LAB_0014cf2b:
SUB RBX,qword ptr [RBP + -0x30]
MOV RAX,RBX
ADD RSP,0x18
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
|
long my_casefold_ujis(long param_1,byte *param_2,long param_3,byte *param_4,long param_5,
long param_6)
{
byte *pbVar1;
byte bVar2;
uint uVar3;
int iVar4;
long lVar6;
byte *pbVar7;
byte *pbVar8;
ulong uVar5;
pbVar7 = param_4;
if (0 < param_3) {
pbVar8 = param_2 + param_3;
do {
uVar3 = (**(code **)(*(long *)(param_1 + 0xb8) + 0xc0))(param_1,param_2,pbVar8);
uVar5 = (ulong)uVar3;
if ((int)uVar3 < 2) {
uVar5 = 0;
}
iVar4 = (int)uVar5;
if (iVar4 == 0) {
bVar2 = *param_2;
param_2 = param_2 + 1;
*pbVar7 = *(byte *)(param_5 + (ulong)bVar2);
LAB_0014cf1f:
pbVar7 = pbVar7 + 1;
}
else {
if (iVar4 == 2) {
lVar6 = *(long *)(*(long *)(*(long *)(param_1 + 0x78) + 8) + (ulong)*param_2 * 8);
if (lVar6 != 0) {
bVar2 = param_2[1];
LAB_0014cebc:
lVar6 = lVar6 + (ulong)bVar2 * 0xc;
if (lVar6 == 0) goto LAB_0014cee4;
iVar4 = *(int *)(lVar6 + (ulong)(param_6 == 0) * 4);
if (iVar4 < 0x10000) {
if (0xff < iVar4) goto LAB_0014cf15;
}
else {
*pbVar7 = (byte)((uint)iVar4 >> 0x10);
pbVar7 = pbVar7 + 1;
LAB_0014cf15:
*pbVar7 = (byte)((uint)iVar4 >> 8);
pbVar7 = pbVar7 + 1;
}
param_2 = param_2 + uVar5;
*pbVar7 = (byte)iVar4;
goto LAB_0014cf1f;
}
}
else {
lVar6 = *(long *)(*(long *)(*(long *)(param_1 + 0x78) + 8) + 0x800 + (ulong)param_2[1] * 8
);
if (lVar6 != 0) {
bVar2 = param_2[2];
goto LAB_0014cebc;
}
LAB_0014cee4:
if (iVar4 == 3) {
bVar2 = *param_2;
param_2 = param_2 + 1;
*pbVar7 = bVar2;
pbVar7 = pbVar7 + 1;
}
}
*pbVar7 = *param_2;
pbVar1 = param_2 + 1;
param_2 = param_2 + 2;
pbVar7[1] = *pbVar1;
pbVar7 = pbVar7 + 2;
}
} while (param_2 < pbVar8);
}
return (long)pbVar7 - (long)param_4;
}
|
|
4,437 | my_numchars_utf16 | eloqsql/strings/ctype-ucs2.c | static size_t
my_numchars_utf16(CHARSET_INFO *cs,
const char *b, const char *e)
{
size_t nchars= 0;
for ( ; ; nchars++)
{
size_t charlen= my_ismbchar(cs, b, e);
if (!charlen)
break;
b+= charlen;
}
return nchars;
} | O3 | c | my_numchars_utf16:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r12
pushq %rbx
movq %rdx, %rbx
movq %rsi, %r14
movq %rdi, %r15
movq 0xb8(%rdi), %rax
callq *0xc0(%rax)
xorl %r12d, %r12d
cmpl $0x2, %eax
jl 0x4781e
movl %eax, %eax
addq %rax, %r14
incq %r12
movq 0xb8(%r15), %rax
movq %r15, %rdi
movq %r14, %rsi
movq %rbx, %rdx
callq *0xc0(%rax)
cmpl $0x1, %eax
jg 0x477fb
movq %r12, %rax
popq %rbx
popq %r12
popq %r14
popq %r15
popq %rbp
retq
| my_numchars_utf16:
push rbp
mov rbp, rsp
push r15
push r14
push r12
push rbx
mov rbx, rdx
mov r14, rsi
mov r15, rdi
mov rax, [rdi+0B8h]
call qword ptr [rax+0C0h]
xor r12d, r12d
cmp eax, 2
jl short loc_4781E
loc_477FB:
mov eax, eax
add r14, rax
inc r12
mov rax, [r15+0B8h]
mov rdi, r15
mov rsi, r14
mov rdx, rbx
call qword ptr [rax+0C0h]
cmp eax, 1
jg short loc_477FB
loc_4781E:
mov rax, r12
pop rbx
pop r12
pop r14
pop r15
pop rbp
retn
| long long my_numchars_utf16(long long a1, long long a2, long long a3)
{
int v5; // eax
long long v6; // r12
v5 = (*(long long (**)(void))(*(_QWORD *)(a1 + 184) + 192LL))();
v6 = 0LL;
if ( v5 >= 2 )
{
do
{
a2 += (unsigned int)v5;
++v6;
v5 = (*(long long ( **)(long long, long long, long long))(*(_QWORD *)(a1 + 184) + 192LL))(a1, a2, a3);
}
while ( v5 > 1 );
}
return v6;
}
| my_numchars_utf16:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R12
PUSH RBX
MOV RBX,RDX
MOV R14,RSI
MOV R15,RDI
MOV RAX,qword ptr [RDI + 0xb8]
CALL qword ptr [RAX + 0xc0]
XOR R12D,R12D
CMP EAX,0x2
JL 0x0014781e
LAB_001477fb:
MOV EAX,EAX
ADD R14,RAX
INC R12
MOV RAX,qword ptr [R15 + 0xb8]
MOV RDI,R15
MOV RSI,R14
MOV RDX,RBX
CALL qword ptr [RAX + 0xc0]
CMP EAX,0x1
JG 0x001477fb
LAB_0014781e:
MOV RAX,R12
POP RBX
POP R12
POP R14
POP R15
POP RBP
RET
|
long my_numchars_utf16(long param_1,long param_2,int8 param_3)
{
uint uVar1;
long lVar2;
uVar1 = (**(code **)(*(long *)(param_1 + 0xb8) + 0xc0))();
lVar2 = 0;
while (1 < (int)uVar1) {
param_2 = param_2 + (ulong)uVar1;
lVar2 = lVar2 + 1;
uVar1 = (**(code **)(*(long *)(param_1 + 0xb8) + 0xc0))(param_1,param_2,param_3);
}
return lVar2;
}
|
|
4,438 | mjv_defaultOption | aimrt_mujoco_sim/_deps/mujoco-src/src/engine/engine_vis_init.c | void mjv_defaultOption(mjvOption* vopt) {
vopt->label = mjLABEL_NONE;
vopt->frame = mjFRAME_NONE;
for (int i=0; i < mjNGROUP; i++) {
int state = (i < 3 ? 1 : 0);
vopt->geomgroup[i] = state;
vopt->sitegroup[i] = state;
vopt->jointgroup[i] = state;
vopt->tendongroup[i] = state;
vopt->actuatorgroup[i] = state;
vopt->flexgroup[i] = state;
vopt->skingroup[i] = state;
}
for (int i=0; i < mjNVISFLAG; i++) {
vopt->flags[i] = (mjVISSTRING[i][1][0] == '1');
}
vopt->bvh_depth = 1;
vopt->flex_layer = 0;
} | O0 | c | mjv_defaultOption:
movq %rdi, -0x8(%rsp)
movq -0x8(%rsp), %rax
movl $0x0, (%rax)
movq -0x8(%rsp), %rax
movl $0x0, 0x4(%rax)
movl $0x0, -0xc(%rsp)
cmpl $0x6, -0xc(%rsp)
jge 0x2ea100
movl -0xc(%rsp), %edx
xorl %eax, %eax
movl $0x1, %ecx
cmpl $0x3, %edx
cmovll %ecx, %eax
movl %eax, -0x10(%rsp)
movl -0x10(%rsp), %eax
movb %al, %dl
movq -0x8(%rsp), %rax
movslq -0xc(%rsp), %rcx
movb %dl, 0x8(%rax,%rcx)
movl -0x10(%rsp), %eax
movb %al, %dl
movq -0x8(%rsp), %rax
movslq -0xc(%rsp), %rcx
movb %dl, 0xe(%rax,%rcx)
movl -0x10(%rsp), %eax
movb %al, %dl
movq -0x8(%rsp), %rax
movslq -0xc(%rsp), %rcx
movb %dl, 0x14(%rax,%rcx)
movl -0x10(%rsp), %eax
movb %al, %dl
movq -0x8(%rsp), %rax
movslq -0xc(%rsp), %rcx
movb %dl, 0x1a(%rax,%rcx)
movl -0x10(%rsp), %eax
movb %al, %dl
movq -0x8(%rsp), %rax
movslq -0xc(%rsp), %rcx
movb %dl, 0x20(%rax,%rcx)
movl -0x10(%rsp), %eax
movb %al, %dl
movq -0x8(%rsp), %rax
movslq -0xc(%rsp), %rcx
movb %dl, 0x26(%rax,%rcx)
movl -0x10(%rsp), %eax
movb %al, %dl
movq -0x8(%rsp), %rax
movslq -0xc(%rsp), %rcx
movb %dl, 0x2c(%rax,%rcx)
movl -0xc(%rsp), %eax
addl $0x1, %eax
movl %eax, -0xc(%rsp)
jmp 0x2ea044
movl $0x0, -0x14(%rsp)
cmpl $0x20, -0x14(%rsp)
jge 0x2ea151
movslq -0x14(%rsp), %rcx
movq 0x30fdd5(%rip), %rax # 0x5f9ef0
imulq $0x18, %rcx, %rcx
addq %rcx, %rax
movq 0x8(%rax), %rax
movsbl (%rax), %eax
cmpl $0x31, %eax
sete %al
andb $0x1, %al
movzbl %al, %eax
movb %al, %dl
movq -0x8(%rsp), %rax
movslq -0x14(%rsp), %rcx
movb %dl, 0x32(%rax,%rcx)
movl -0x14(%rsp), %eax
addl $0x1, %eax
movl %eax, -0x14(%rsp)
jmp 0x2ea108
movq -0x8(%rsp), %rax
movl $0x1, 0x54(%rax)
movq -0x8(%rsp), %rax
movl $0x0, 0x58(%rax)
retq
nopw (%rax,%rax)
| mjv_defaultOption:
mov [rsp+var_8], rdi
mov rax, [rsp+var_8]
mov dword ptr [rax], 0
mov rax, [rsp+var_8]
mov dword ptr [rax+4], 0
mov [rsp+var_C], 0
loc_2EA044:
cmp [rsp+var_C], 6
jge loc_2EA100
mov edx, [rsp+var_C]
xor eax, eax
mov ecx, 1
cmp edx, 3
cmovl eax, ecx
mov [rsp+var_10], eax
mov eax, [rsp+var_10]
mov dl, al
mov rax, [rsp+var_8]
movsxd rcx, [rsp+var_C]
mov [rax+rcx+8], dl
mov eax, [rsp+var_10]
mov dl, al
mov rax, [rsp+var_8]
movsxd rcx, [rsp+var_C]
mov [rax+rcx+0Eh], dl
mov eax, [rsp+var_10]
mov dl, al
mov rax, [rsp+var_8]
movsxd rcx, [rsp+var_C]
mov [rax+rcx+14h], dl
mov eax, [rsp+var_10]
mov dl, al
mov rax, [rsp+var_8]
movsxd rcx, [rsp+var_C]
mov [rax+rcx+1Ah], dl
mov eax, [rsp+var_10]
mov dl, al
mov rax, [rsp+var_8]
movsxd rcx, [rsp+var_C]
mov [rax+rcx+20h], dl
mov eax, [rsp+var_10]
mov dl, al
mov rax, [rsp+var_8]
movsxd rcx, [rsp+var_C]
mov [rax+rcx+26h], dl
mov eax, [rsp+var_10]
mov dl, al
mov rax, [rsp+var_8]
movsxd rcx, [rsp+var_C]
mov [rax+rcx+2Ch], dl
mov eax, [rsp+var_C]
add eax, 1
mov [rsp+var_C], eax
jmp loc_2EA044
loc_2EA100:
mov [rsp+var_14], 0
loc_2EA108:
cmp [rsp+var_14], 20h ; ' '
jge short loc_2EA151
movsxd rcx, [rsp+var_14]
mov rax, cs:mjVISSTRING_ptr
imul rcx, 18h
add rax, rcx
mov rax, [rax+8]
movsx eax, byte ptr [rax]
cmp eax, 31h ; '1'
setz al
and al, 1
movzx eax, al
mov dl, al
mov rax, [rsp+var_8]
movsxd rcx, [rsp+var_14]
mov [rax+rcx+32h], dl
mov eax, [rsp+var_14]
add eax, 1
mov [rsp+var_14], eax
jmp short loc_2EA108
loc_2EA151:
mov rax, [rsp+var_8]
mov dword ptr [rax+54h], 1
mov rax, [rsp+var_8]
mov dword ptr [rax+58h], 0
retn
| _DWORD * mjv_defaultOption(_DWORD *a1)
{
_DWORD *result; // rax
int j; // [rsp+0h] [rbp-14h]
int i; // [rsp+8h] [rbp-Ch]
*a1 = 0;
a1[1] = 0;
for ( i = 0; i < 6; ++i )
{
*((_BYTE *)a1 + i + 8) = i < 3;
*((_BYTE *)a1 + i + 14) = i < 3;
*((_BYTE *)a1 + i + 20) = i < 3;
*((_BYTE *)a1 + i + 26) = i < 3;
*((_BYTE *)a1 + i + 32) = i < 3;
*((_BYTE *)a1 + i + 38) = i < 3;
*((_BYTE *)a1 + i + 44) = i < 3;
}
for ( j = 0; j < 32; ++j )
*((_BYTE *)a1 + j + 50) = *mjVISSTRING[3 * j + 1] == 49;
a1[21] = 1;
result = a1;
a1[22] = 0;
return result;
}
| |||
4,439 | mjv_defaultOption | aimrt_mujoco_sim/_deps/mujoco-src/src/engine/engine_vis_init.c | void mjv_defaultOption(mjvOption* vopt) {
vopt->label = mjLABEL_NONE;
vopt->frame = mjFRAME_NONE;
for (int i=0; i < mjNGROUP; i++) {
int state = (i < 3 ? 1 : 0);
vopt->geomgroup[i] = state;
vopt->sitegroup[i] = state;
vopt->jointgroup[i] = state;
vopt->tendongroup[i] = state;
vopt->actuatorgroup[i] = state;
vopt->flexgroup[i] = state;
vopt->skingroup[i] = state;
}
for (int i=0; i < mjNVISFLAG; i++) {
vopt->flags[i] = (mjVISSTRING[i][1][0] == '1');
}
vopt->bvh_depth = 1;
vopt->flex_layer = 0;
} | O3 | c | mjv_defaultOption:
movq $0x0, (%rdi)
xorl %eax, %eax
cmpq $0x3, %rax
setb 0x8(%rdi,%rax)
setb 0xe(%rdi,%rax)
setb 0x14(%rdi,%rax)
setb 0x1a(%rdi,%rax)
setb 0x20(%rdi,%rax)
setb 0x26(%rdi,%rax)
setb 0x2c(%rdi,%rax)
incq %rax
cmpq $0x6, %rax
jne 0xa63ee
movq 0x1cbadb(%rip), %rax # 0x271f00
addq $0x8, %rax
xorl %ecx, %ecx
movq (%rax), %rdx
cmpb $0x31, (%rdx)
sete 0x32(%rdi,%rcx)
incq %rcx
addq $0x18, %rax
cmpq $0x20, %rcx
jne 0xa642b
movq $0x1, 0x54(%rdi)
retq
| mjv_defaultOption:
mov qword ptr [rdi], 0
xor eax, eax
loc_A63EE:
cmp rax, 3
setb byte ptr [rdi+rax+8]
setb byte ptr [rdi+rax+0Eh]
setb byte ptr [rdi+rax+14h]
setb byte ptr [rdi+rax+1Ah]
setb byte ptr [rdi+rax+20h]
setb byte ptr [rdi+rax+26h]
setb byte ptr [rdi+rax+2Ch]
inc rax
cmp rax, 6
jnz short loc_A63EE
mov rax, cs:mjVISSTRING_ptr
add rax, 8
xor ecx, ecx
loc_A642B:
mov rdx, [rax]
cmp byte ptr [rdx], 31h ; '1'
setz byte ptr [rdi+rcx+32h]
inc rcx
add rax, 18h
cmp rcx, 20h ; ' '
jnz short loc_A642B
mov qword ptr [rdi+54h], 1
retn
| char ** mjv_defaultOption(_QWORD *a1)
{
unsigned long long i; // rax
char **result; // rax
long long j; // rcx
*a1 = 0LL;
for ( i = 0LL; i != 6; ++i )
{
*((_BYTE *)a1 + i + 8) = i < 3;
*((_BYTE *)a1 + i + 14) = i < 3;
*((_BYTE *)a1 + i + 20) = i < 3;
*((_BYTE *)a1 + i + 26) = i < 3;
*((_BYTE *)a1 + i + 32) = i < 3;
*((_BYTE *)a1 + i + 38) = i < 3;
*((_BYTE *)a1 + i + 44) = i < 3;
}
result = &mjVISSTRING[1];
for ( j = 0LL; j != 32; ++j )
{
*((_BYTE *)a1 + j + 50) = **result == 49;
result += 3;
}
*(_QWORD *)((char *)a1 + 84) = 1LL;
return result;
}
| mjv_defaultOption:
MOV qword ptr [RDI],0x0
XOR EAX,EAX
LAB_001a63ee:
CMP RAX,0x3
SETC byte ptr [RDI + RAX*0x1 + 0x8]
SETC byte ptr [RDI + RAX*0x1 + 0xe]
SETC byte ptr [RDI + RAX*0x1 + 0x14]
SETC byte ptr [RDI + RAX*0x1 + 0x1a]
SETC byte ptr [RDI + RAX*0x1 + 0x20]
SETC byte ptr [RDI + RAX*0x1 + 0x26]
SETC byte ptr [RDI + RAX*0x1 + 0x2c]
INC RAX
CMP RAX,0x6
JNZ 0x001a63ee
MOV RAX,qword ptr [0x00371f00]
ADD RAX,0x8
XOR ECX,ECX
LAB_001a642b:
MOV RDX,qword ptr [RAX]
CMP byte ptr [RDX],0x31
SETZ byte ptr [RDI + RCX*0x1 + 0x32]
INC RCX
ADD RAX,0x18
CMP RCX,0x20
JNZ 0x001a642b
MOV qword ptr [RDI + 0x54],0x1
RET
|
void mjv_defaultOption(int8 *param_1)
{
ulong uVar1;
int8 *puVar2;
long lVar3;
bool bVar4;
*param_1 = 0;
uVar1 = 0;
do {
bVar4 = uVar1 < 3;
*(bool *)((long)param_1 + uVar1 + 8) = bVar4;
*(bool *)((long)param_1 + uVar1 + 0xe) = bVar4;
*(bool *)((long)param_1 + uVar1 + 0x14) = bVar4;
*(bool *)((long)param_1 + uVar1 + 0x1a) = bVar4;
*(bool *)((long)param_1 + uVar1 + 0x20) = bVar4;
*(bool *)((long)param_1 + uVar1 + 0x26) = bVar4;
*(bool *)((long)param_1 + uVar1 + 0x2c) = bVar4;
uVar1 = uVar1 + 1;
} while (uVar1 != 6);
puVar2 = (int8 *)(PTR_mjVISSTRING_00371f00 + 8);
lVar3 = 0;
do {
*(bool *)((long)param_1 + lVar3 + 0x32) = *(char *)*puVar2 == '1';
lVar3 = lVar3 + 1;
puVar2 = puVar2 + 3;
} while (lVar3 != 0x20);
*(int8 *)((long)param_1 + 0x54) = 1;
return;
}
|
|
4,440 | typed_array_is_oob | bluesky950520[P]quickjs/quickjs.c | static BOOL typed_array_is_oob(JSObject *p)
{
JSArrayBuffer *abuf;
JSTypedArray *ta;
int len, size_elem;
int64_t end;
assert(p->class_id >= JS_CLASS_UINT8C_ARRAY);
assert(p->class_id <= JS_CLASS_FLOAT64_ARRAY);
ta = p->u.typed_array;
abuf = ta->buffer->u.array_buffer;
if (abuf->detached)
return TRUE;
len = abuf->byte_length;
if (ta->offset > len)
return TRUE;
if (ta->track_rab)
return FALSE;
if (len < (int64_t)ta->offset + ta->length)
return TRUE;
size_elem = 1 << typed_array_size_log2(p->class_id);
end = (int64_t)ta->offset + (int64_t)p->u.array.count * size_elem;
return end > len;
} | O1 | c | typed_array_is_oob:
movq 0x30(%rdi), %rcx
movq 0x18(%rcx), %rax
movq 0x30(%rax), %rdx
movl $0x1, %eax
cmpb $0x0, 0x8(%rdx)
je 0x396dc
retq
movslq (%rdx), %rdx
movl 0x20(%rcx), %esi
cmpl %edx, %esi
ja 0x396db
xorl %eax, %eax
cmpl $0x0, 0x28(%rcx)
jne 0x396db
movl 0x24(%rcx), %ecx
addq %rsi, %rcx
movl $0x1, %eax
cmpq %rdx, %rcx
jg 0x396db
movzwl 0x6(%rdi), %eax
leaq 0x641d6(%rip), %rcx # 0x9d8df
movb -0x15(%rax,%rcx), %cl
movl $0x1, %eax
shll %cl, %eax
movl 0x40(%rdi), %ecx
movslq %eax, %rdi
imulq %rcx, %rdi
addq %rsi, %rdi
xorl %eax, %eax
cmpq %rdx, %rdi
setg %al
retq
| typed_array_is_oob:
mov rcx, [rdi+30h]
mov rax, [rcx+18h]
mov rdx, [rax+30h]
mov eax, 1
cmp byte ptr [rdx+8], 0
jz short loc_396DC
locret_396DB:
retn
loc_396DC:
movsxd rdx, dword ptr [rdx]
mov esi, [rcx+20h]
cmp esi, edx
ja short locret_396DB
xor eax, eax
cmp dword ptr [rcx+28h], 0
jnz short locret_396DB
mov ecx, [rcx+24h]
add rcx, rsi
mov eax, 1
cmp rcx, rdx
jg short locret_396DB
movzx eax, word ptr [rdi+6]
lea rcx, typed_array_size_log2
mov cl, [rax+rcx-15h]
mov eax, 1
shl eax, cl
mov ecx, [rdi+40h]
movsxd rdi, eax
imul rdi, rcx
add rdi, rsi
xor eax, eax
cmp rdi, rdx
setnle al
retn
| _BOOL8 typed_array_is_oob(long long a1)
{
long long v1; // rcx
int *v2; // rdx
_BOOL8 result; // rax
signed long long v4; // rdx
long long v5; // rsi
v1 = *(_QWORD *)(a1 + 48);
v2 = *(int **)(*(_QWORD *)(v1 + 24) + 48LL);
result = 1LL;
if ( !*((_BYTE *)v2 + 8) )
{
v4 = *v2;
v5 = *(unsigned int *)(v1 + 32);
if ( (unsigned int)v5 <= (unsigned int)v4 )
{
result = 0LL;
if ( !*(_DWORD *)(v1 + 40) )
{
result = 1LL;
if ( v5 + *(unsigned int *)(v1 + 36) <= v4 )
return v5
+ *(unsigned int *)(a1 + 64) * (long long)(1 << typed_array_size_log2[*(unsigned __int16 *)(a1 + 6) - 21]) > v4;
}
}
}
return result;
}
| |||
4,441 | typed_array_is_oob | bluesky950520[P]quickjs/quickjs.c | static BOOL typed_array_is_oob(JSObject *p)
{
JSArrayBuffer *abuf;
JSTypedArray *ta;
int len, size_elem;
int64_t end;
assert(p->class_id >= JS_CLASS_UINT8C_ARRAY);
assert(p->class_id <= JS_CLASS_FLOAT64_ARRAY);
ta = p->u.typed_array;
abuf = ta->buffer->u.array_buffer;
if (abuf->detached)
return TRUE;
len = abuf->byte_length;
if (ta->offset > len)
return TRUE;
if (ta->track_rab)
return FALSE;
if (len < (int64_t)ta->offset + ta->length)
return TRUE;
size_elem = 1 << typed_array_size_log2(p->class_id);
end = (int64_t)ta->offset + (int64_t)p->u.array.count * size_elem;
return end > len;
} | O2 | c | typed_array_is_oob:
movq 0x30(%rdi), %r8
movq 0x18(%r8), %rax
movq 0x30(%rax), %rax
pushq $0x1
popq %rcx
cmpb $0x0, 0x8(%rax)
jne 0x32856
movslq (%rax), %rdx
movl 0x20(%r8), %esi
cmpl %edx, %esi
jbe 0x32859
movl %ecx, %eax
retq
xorl %eax, %eax
cmpl $0x0, 0x28(%r8)
je 0x32863
retq
movl 0x24(%r8), %r8d
addq %rsi, %r8
movl %ecx, %eax
cmpq %rdx, %r8
jg 0x32862
movzwl 0x6(%rdi), %eax
leaq 0x52003(%rip), %rcx # 0x8487f
movb -0x15(%rax,%rcx), %cl
pushq $0x1
popq %rax
shll %cl, %eax
movl 0x40(%rdi), %ecx
movslq %eax, %rdi
imulq %rcx, %rdi
addq %rsi, %rdi
xorl %eax, %eax
cmpq %rdx, %rdi
setg %al
retq
| typed_array_is_oob:
mov r8, [rdi+30h]
mov rax, [r8+18h]
mov rax, [rax+30h]
push 1
pop rcx
cmp byte ptr [rax+8], 0
jnz short loc_32856
movsxd rdx, dword ptr [rax]
mov esi, [r8+20h]
cmp esi, edx
jbe short loc_32859
loc_32856:
mov eax, ecx
retn
loc_32859:
xor eax, eax
cmp dword ptr [r8+28h], 0
jz short loc_32863
locret_32862:
retn
loc_32863:
mov r8d, [r8+24h]
add r8, rsi
mov eax, ecx
cmp r8, rdx
jg short locret_32862
movzx eax, word ptr [rdi+6]
lea rcx, typed_array_size_log2
mov cl, [rax+rcx-15h]
push 1
pop rax
shl eax, cl
mov ecx, [rdi+40h]
movsxd rdi, eax
imul rdi, rcx
add rdi, rsi
xor eax, eax
cmp rdi, rdx
setnle al
retn
| _BOOL8 typed_array_is_oob(long long a1)
{
long long v1; // r8
int *v2; // rax
signed long long v3; // rdx
long long v4; // rsi
_BOOL8 result; // rax
v1 = *(_QWORD *)(a1 + 48);
v2 = *(int **)(*(_QWORD *)(v1 + 24) + 48LL);
if ( *((_BYTE *)v2 + 8) )
return 1LL;
v3 = *v2;
v4 = *(unsigned int *)(v1 + 32);
if ( (unsigned int)v4 > (unsigned int)v3 )
return 1LL;
result = 0LL;
if ( !*(_DWORD *)(v1 + 40) )
{
result = 1LL;
if ( v4 + *(unsigned int *)(v1 + 36) <= v3 )
return v4 + *(unsigned int *)(a1 + 64) * (long long)(1 << typed_array_size_log2[*(unsigned __int16 *)(a1 + 6) - 21]) > v3;
}
return result;
}
| typed_array_is_oob:
MOV R8,qword ptr [RDI + 0x30]
MOV RAX,qword ptr [R8 + 0x18]
MOV RAX,qword ptr [RAX + 0x30]
PUSH 0x1
POP RCX
CMP byte ptr [RAX + 0x8],0x0
JNZ 0x00132856
MOVSXD RDX,dword ptr [RAX]
MOV ESI,dword ptr [R8 + 0x20]
CMP ESI,EDX
JBE 0x00132859
LAB_00132856:
MOV EAX,ECX
RET
LAB_00132859:
XOR EAX,EAX
CMP dword ptr [R8 + 0x28],0x0
JZ 0x00132863
LAB_00132862:
RET
LAB_00132863:
MOV R8D,dword ptr [R8 + 0x24]
ADD R8,RSI
MOV EAX,ECX
CMP R8,RDX
JG 0x00132862
MOVZX EAX,word ptr [RDI + 0x6]
LEA RCX,[0x18487f]
MOV CL,byte ptr [RAX + RCX*0x1 + -0x15]
PUSH 0x1
POP RAX
SHL EAX,CL
MOV ECX,dword ptr [RDI + 0x40]
MOVSXD RDI,EAX
IMUL RDI,RCX
ADD RDI,RSI
XOR EAX,EAX
CMP RDI,RDX
SETG AL
RET
|
bool typed_array_is_oob(long param_1)
{
uint uVar1;
uint uVar2;
long lVar3;
uint *puVar4;
bool bVar5;
lVar3 = *(long *)(param_1 + 0x30);
puVar4 = *(uint **)(*(long *)(lVar3 + 0x18) + 0x30);
if ((char)puVar4[2] == '\0') {
uVar1 = *puVar4;
uVar2 = *(uint *)(lVar3 + 0x20);
if (uVar2 <= uVar1) {
bVar5 = false;
if ((*(int *)(lVar3 + 0x28) == 0) &&
(bVar5 = true, (long)((ulong)*(uint *)(lVar3 + 0x24) + (ulong)uVar2) <= (long)(int)uVar1))
{
return (long)(int)uVar1 <
(long)((long)(1 << ("toSorted"[(ulong)*(ushort *)(param_1 + 6) + 6] & 0x1fU)) *
(ulong)*(uint *)(param_1 + 0x40) + (ulong)uVar2);
}
return bVar5;
}
}
return true;
}
|
|
4,442 | decimal_actual_fraction | eloqsql/strings/decimal.c | decimal_digits_t decimal_actual_fraction(const decimal_t *from)
{
decimal_digits_t frac= from->frac, i;
dec1 *buf0= from->buf + ROUND_UP(from->intg) + ROUND_UP(frac) - 1;
if (frac == 0)
return 0;
i= ((frac - 1) % DIG_PER_DEC1 + 1);
while (frac > 0 && *buf0 == 0)
{
frac-= i;
i= DIG_PER_DEC1;
buf0--;
}
if (frac > 0)
{
for (i= DIG_PER_DEC1 - ((frac - 1) % DIG_PER_DEC1);
*buf0 % powers10[i++] == 0;
frac--) {}
}
return frac;
} | O3 | c | decimal_actual_fraction:
movzwl 0x4(%rdi), %eax
testl %eax, %eax
je 0x42151
pushq %rbp
movq %rsp, %rbp
movq 0x10(%rdi), %rcx
movl (%rdi), %edx
xorl %esi, %esi
testl %edx, %edx
setg %sil
leal (%rdx,%rsi,8), %edx
movslq %edx, %rdx
imulq $0x38e38e39, %rdx, %rdx # imm = 0x38E38E39
movq %rdx, %rsi
shrq $0x3f, %rsi
shrq $0x20, %rdx
sarl %edx
addl %esi, %edx
movslq %edx, %rdi
leaq (%rcx,%rdi,4), %rdx
leal 0x8(%rax), %esi
imulq $0x1c71c71d, %rsi, %r8 # imm = 0x1C71C71D
shrq $0x20, %r8
movl -0x4(%rdx,%r8,4), %esi
testl %esi, %esi
je 0x42158
movl %eax, %ecx
jmp 0x421a8
xorl %ecx, %ecx
jmp 0x42214
leal -0x1(%rax), %edx
movl $0xffff, %esi # imm = 0xFFFF
movl %edx, %r9d
andl %esi, %r9d
imull $0xe38f, %r9d, %r9d # imm = 0xE38F
shrl $0x13, %r9d
leal (%r9,%r9,8), %r9d
subl %r9d, %edx
notl %edx
andl %esi, %edx
shlq $0x2, %rdi
leaq (%rdi,%r8,4), %rsi
leaq (%rcx,%rsi), %rdi
addq $-0x8, %rdi
movl %edx, %ecx
addl %eax, %ecx
movl %ecx, %eax
andl $0xffff, %eax # imm = 0xFFFF
je 0x42211
movl (%rdi), %esi
addq $-0x4, %rdi
movl $0xfffffff7, %edx # imm = 0xFFFFFFF7
testl %esi, %esi
je 0x4218c
movl %ecx, %r8d
decl %r8d
movl $0xffff, %eax # imm = 0xFFFF
movl %r8d, %edx
andl %eax, %edx
imull $0xe38f, %edx, %edx # imm = 0xE38F
shrl $0x13, %edx
leal (%rdx,%rdx,8), %r9d
subl %r8d, %r9d
addl $0x9, %r9d
andl %eax, %r9d
leaq 0x764aa(%rip), %rdi # 0xb8680
movl %esi, %eax
cltd
idivl (%rdi,%r9,4)
testl %edx, %edx
jne 0x42213
movzwl %r8w, %eax
imull $0xe38f, %eax, %eax # imm = 0xE38F
shrl $0x13, %eax
leal (%rax,%rax,8), %r8d
addl $0xb, %r8d
negl %ecx
leal (%r8,%rcx), %eax
movzwl %ax, %r9d
movl %esi, %eax
cltd
idivl (%rdi,%r9,4)
incl %ecx
testl %edx, %edx
je 0x421f8
negl %ecx
jmp 0x42213
xorl %ecx, %ecx
popq %rbp
movl %ecx, %eax
retq
| decimal_actual_fraction:
movzx eax, word ptr [rdi+4]
test eax, eax
jz short loc_42151
push rbp
mov rbp, rsp
mov rcx, [rdi+10h]
mov edx, [rdi]
xor esi, esi
test edx, edx
setnle sil
lea edx, [rdx+rsi*8]
movsxd rdx, edx
imul rdx, 38E38E39h
mov rsi, rdx
shr rsi, 3Fh
shr rdx, 20h
sar edx, 1
add edx, esi
movsxd rdi, edx
lea rdx, [rcx+rdi*4]
lea esi, [rax+8]
imul r8, rsi, 1C71C71Dh
shr r8, 20h
mov esi, [rdx+r8*4-4]
test esi, esi
jz short loc_42158
mov ecx, eax
jmp short loc_421A8
loc_42151:
xor ecx, ecx
jmp loc_42214
loc_42158:
lea edx, [rax-1]
mov esi, 0FFFFh
mov r9d, edx
and r9d, esi
imul r9d, 0E38Fh
shr r9d, 13h
lea r9d, [r9+r9*8]
sub edx, r9d
not edx
and edx, esi
shl rdi, 2
lea rsi, [rdi+r8*4]
lea rdi, [rcx+rsi]
add rdi, 0FFFFFFFFFFFFFFF8h
loc_4218C:
mov ecx, edx
add ecx, eax
mov eax, ecx
and eax, 0FFFFh
jz short loc_42211
mov esi, [rdi]
add rdi, 0FFFFFFFFFFFFFFFCh
mov edx, 0FFFFFFF7h
test esi, esi
jz short loc_4218C
loc_421A8:
mov r8d, ecx
dec r8d
mov eax, 0FFFFh
mov edx, r8d
and edx, eax
imul edx, 0E38Fh
shr edx, 13h
lea r9d, [rdx+rdx*8]
sub r9d, r8d
add r9d, 9
and r9d, eax
lea rdi, _ZL8powers10; powers10
mov eax, esi
cdq
idiv dword ptr [rdi+r9*4]
test edx, edx
jnz short loc_42213
movzx eax, r8w
imul eax, 0E38Fh
shr eax, 13h
lea r8d, [rax+rax*8]
add r8d, 0Bh
neg ecx
loc_421F8:
lea eax, [r8+rcx]
movzx r9d, ax
mov eax, esi
cdq
idiv dword ptr [rdi+r9*4]
inc ecx
test edx, edx
jz short loc_421F8
neg ecx
jmp short loc_42213
loc_42211:
xor ecx, ecx
loc_42213:
pop rbp
loc_42214:
mov eax, ecx
retn
| long long decimal_actual_fraction(long long a1)
{
unsigned int v1; // eax
long long v2; // rcx
long long v3; // rdi
unsigned long long v4; // r8
int v5; // esi
unsigned int v6; // ecx
int v7; // edx
int *v8; // rdi
unsigned int v9; // r8d
int v10; // ecx
v1 = *(unsigned __int16 *)(a1 + 4);
if ( *(_WORD *)(a1 + 4) )
{
v2 = *(_QWORD *)(a1 + 16);
v3 = (*(_DWORD *)a1 + 8 * (*(_DWORD *)a1 > 0)) / 9;
v4 = (477218589 * (unsigned long long)(v1 + 8)) >> 32;
v5 = *(_DWORD *)(v2 + 4 * v3 + 4 * v4 - 4);
if ( v5 )
{
v6 = v1;
LABEL_8:
if ( !(v5 % powers10[(unsigned __int16)(9 * ((unsigned __int16)(v6 - 1) / 9u) - (v6 - 1) + 9)]) )
{
v9 = 9 * ((unsigned __int16)(v6 - 1) / 9u) + 11;
v10 = -v6;
while ( !(v5 % powers10[(unsigned __int16)(v9 + v10++)]) )
;
return (unsigned int)-v10;
}
}
else
{
v7 = (unsigned __int16)~((unsigned __int16)(v1 - 1) % 9u);
v8 = (int *)(v2 + 4 * v3 + 4 * v4 - 8);
while ( 1 )
{
v6 = v1 + v7;
v1 = (unsigned __int16)(v1 + v7);
if ( !v1 )
return 0;
v5 = *v8--;
v7 = -9;
if ( v5 )
goto LABEL_8;
}
}
}
else
{
return 0;
}
return v6;
}
| decimal_actual_fraction:
MOVZX EAX,word ptr [RDI + 0x4]
TEST EAX,EAX
JZ 0x00142151
PUSH RBP
MOV RBP,RSP
MOV RCX,qword ptr [RDI + 0x10]
MOV EDX,dword ptr [RDI]
XOR ESI,ESI
TEST EDX,EDX
SETG SIL
LEA EDX,[RDX + RSI*0x8]
MOVSXD RDX,EDX
IMUL RDX,RDX,0x38e38e39
MOV RSI,RDX
SHR RSI,0x3f
SHR RDX,0x20
SAR EDX,0x1
ADD EDX,ESI
MOVSXD RDI,EDX
LEA RDX,[RCX + RDI*0x4]
LEA ESI,[RAX + 0x8]
IMUL R8,RSI,0x1c71c71d
SHR R8,0x20
MOV ESI,dword ptr [RDX + R8*0x4 + -0x4]
TEST ESI,ESI
JZ 0x00142158
MOV ECX,EAX
JMP 0x001421a8
LAB_00142151:
XOR ECX,ECX
JMP 0x00142214
LAB_00142158:
LEA EDX,[RAX + -0x1]
MOV ESI,0xffff
MOV R9D,EDX
AND R9D,ESI
IMUL R9D,R9D,0xe38f
SHR R9D,0x13
LEA R9D,[R9 + R9*0x8]
SUB EDX,R9D
NOT EDX
AND EDX,ESI
SHL RDI,0x2
LEA RSI,[RDI + R8*0x4]
LEA RDI,[RCX + RSI*0x1]
ADD RDI,-0x8
LAB_0014218c:
MOV ECX,EDX
ADD ECX,EAX
MOV EAX,ECX
AND EAX,0xffff
JZ 0x00142211
MOV ESI,dword ptr [RDI]
ADD RDI,-0x4
MOV EDX,0xfffffff7
TEST ESI,ESI
JZ 0x0014218c
LAB_001421a8:
MOV R8D,ECX
DEC R8D
MOV EAX,0xffff
MOV EDX,R8D
AND EDX,EAX
IMUL EDX,EDX,0xe38f
SHR EDX,0x13
LEA R9D,[RDX + RDX*0x8]
SUB R9D,R8D
ADD R9D,0x9
AND R9D,EAX
LEA RDI,[0x1b8680]
MOV EAX,ESI
CDQ
IDIV dword ptr [RDI + R9*0x4]
TEST EDX,EDX
JNZ 0x00142213
MOVZX EAX,R8W
IMUL EAX,EAX,0xe38f
SHR EAX,0x13
LEA R8D,[RAX + RAX*0x8]
ADD R8D,0xb
NEG ECX
LAB_001421f8:
LEA EAX,[R8 + RCX*0x1]
MOVZX R9D,AX
MOV EAX,ESI
CDQ
IDIV dword ptr [RDI + R9*0x4]
INC ECX
TEST EDX,EDX
JZ 0x001421f8
NEG ECX
JMP 0x00142213
LAB_00142211:
XOR ECX,ECX
LAB_00142213:
POP RBP
LAB_00142214:
MOV EAX,ECX
RET
|
uint decimal_actual_fraction(int *param_1)
{
ushort uVar1;
short sVar2;
int iVar3;
uint uVar4;
uint uVar5;
int iVar6;
long lVar7;
int *piVar8;
uint uVar9;
ulong uVar10;
uVar1 = *(ushort *)(param_1 + 1);
uVar9 = (uint)uVar1;
if (uVar1 == 0) {
uVar4 = 0;
}
else {
lVar7 = (long)((int)(*param_1 + (uint)(0 < *param_1) * 8) / 9);
uVar10 = (ulong)(uVar1 + 8) / 9;
iVar6 = *(int *)(*(long *)(param_1 + 4) + lVar7 * 4 + -4 + uVar10 * 4);
if (iVar6 == 0) {
uVar5 = ~((uVar1 - 1) + ((uVar1 - 1 & 0xffff) / 9) * -9) & 0xffff;
piVar8 = (int *)(*(long *)(param_1 + 4) + lVar7 * 4 + uVar10 * 4 + -8);
do {
uVar4 = uVar5 + uVar9;
uVar9 = uVar4 & 0xffff;
if (uVar9 == 0) {
return 0;
}
iVar6 = *piVar8;
piVar8 = piVar8 + -1;
uVar5 = 0xfffffff7;
} while (iVar6 == 0);
}
else {
uVar4 = (uint)uVar1;
}
uVar9 = uVar4 - 1;
if (iVar6 % (int)(&powers10)[(((uVar9 & 0xffff) / 9) * 9 - uVar9) + 9 & 0xffff] == 0) {
iVar3 = -uVar4;
do {
sVar2 = (short)iVar3;
iVar3 = iVar3 + 1;
} while (iVar6 % (int)(&powers10)[(ushort)((short)((uVar9 & 0xffff) / 9) * 9 + 0xb + sVar2)]
== 0);
uVar4 = -iVar3;
}
}
return uVar4;
}
|
|
4,443 | cli_report_progress | eloqsql/libmariadb/libmariadb/mariadb_lib.c | static int cli_report_progress(MYSQL *mysql, uchar *packet, uint length)
{
uint stage, max_stage, proc_length;
double progress;
uchar *start= packet;
if (length < 5)
return 1; /* Wrong packet */
if (!(mysql->options.extension && mysql->options.extension->report_progress))
return 0; /* No callback, ignore packet */
packet++; /* Ignore number of strings */
stage= (uint) *packet++;
max_stage= (uint) *packet++;
progress= uint3korr(packet)/1000.0;
packet+= 3;
proc_length= net_field_length(&packet);
if (packet + proc_length > start + length)
return 1; /* Wrong packet */
(*mysql->options.extension->report_progress)(mysql, stage, max_stage,
progress, (char*) packet,
proc_length);
return 0;
} | O0 | c | cli_report_progress:
pushq %rbp
movq %rsp, %rbp
subq $0x40, %rsp
movq %rdi, -0x10(%rbp)
movq %rsi, -0x18(%rbp)
movl %edx, -0x1c(%rbp)
movq -0x18(%rbp), %rax
movq %rax, -0x38(%rbp)
cmpl $0x5, -0x1c(%rbp)
jae 0x1ae8d
movl $0x1, -0x4(%rbp)
jmp 0x1af80
movq -0x10(%rbp), %rax
cmpq $0x0, 0x480(%rax)
je 0x1aeb0
movq -0x10(%rbp), %rax
movq 0x480(%rax), %rax
cmpq $0x0, 0x80(%rax)
jne 0x1aebc
movl $0x0, -0x4(%rbp)
jmp 0x1af80
movq -0x18(%rbp), %rax
incq %rax
movq %rax, -0x18(%rbp)
movq -0x18(%rbp), %rax
movq %rax, %rcx
incq %rcx
movq %rcx, -0x18(%rbp)
movzbl (%rax), %eax
movl %eax, -0x20(%rbp)
movq -0x18(%rbp), %rax
movq %rax, %rcx
incq %rcx
movq %rcx, -0x18(%rbp)
movzbl (%rax), %eax
movl %eax, -0x24(%rbp)
movq -0x18(%rbp), %rcx
movzwl (%rcx), %eax
movzbl 0x2(%rcx), %ecx
shll $0x10, %ecx
orl %ecx, %eax
cvtsi2sd %eax, %xmm0
movsd 0x377ad(%rip), %xmm1 # 0x526b8
divsd %xmm1, %xmm0
movsd %xmm0, -0x30(%rbp)
movq -0x18(%rbp), %rax
addq $0x3, %rax
movq %rax, -0x18(%rbp)
leaq -0x18(%rbp), %rdi
callq 0x1af90
movl %eax, -0x28(%rbp)
movq -0x18(%rbp), %rax
movl -0x28(%rbp), %ecx
addq %rcx, %rax
movq -0x38(%rbp), %rcx
movl -0x1c(%rbp), %edx
addq %rdx, %rcx
cmpq %rcx, %rax
jbe 0x1af4e
movl $0x1, -0x4(%rbp)
jmp 0x1af80
movq -0x10(%rbp), %rax
movq 0x480(%rax), %rax
movq 0x80(%rax), %rax
movq -0x10(%rbp), %rdi
movl -0x20(%rbp), %esi
movl -0x24(%rbp), %edx
movsd -0x30(%rbp), %xmm0
movq -0x18(%rbp), %rcx
movl -0x28(%rbp), %r8d
callq *%rax
movl $0x0, -0x4(%rbp)
movl -0x4(%rbp), %eax
addq $0x40, %rsp
popq %rbp
retq
nopl (%rax)
| cli_report_progress:
push rbp
mov rbp, rsp
sub rsp, 40h
mov [rbp+var_10], rdi
mov [rbp+var_18], rsi
mov [rbp+var_1C], edx
mov rax, [rbp+var_18]
mov [rbp+var_38], rax
cmp [rbp+var_1C], 5
jnb short loc_1AE8D
mov [rbp+var_4], 1
jmp loc_1AF80
loc_1AE8D:
mov rax, [rbp+var_10]
cmp qword ptr [rax+480h], 0
jz short loc_1AEB0
mov rax, [rbp+var_10]
mov rax, [rax+480h]
cmp qword ptr [rax+80h], 0
jnz short loc_1AEBC
loc_1AEB0:
mov [rbp+var_4], 0
jmp loc_1AF80
loc_1AEBC:
mov rax, [rbp+var_18]
inc rax
mov [rbp+var_18], rax
mov rax, [rbp+var_18]
mov rcx, rax
inc rcx
mov [rbp+var_18], rcx
movzx eax, byte ptr [rax]
mov [rbp+var_20], eax
mov rax, [rbp+var_18]
mov rcx, rax
inc rcx
mov [rbp+var_18], rcx
movzx eax, byte ptr [rax]
mov [rbp+var_24], eax
mov rcx, [rbp+var_18]
movzx eax, word ptr [rcx]
movzx ecx, byte ptr [rcx+2]
shl ecx, 10h
or eax, ecx
cvtsi2sd xmm0, eax
movsd xmm1, cs:qword_526B8
divsd xmm0, xmm1
movsd [rbp+var_30], xmm0
mov rax, [rbp+var_18]
add rax, 3
mov [rbp+var_18], rax
lea rdi, [rbp+var_18]
call net_field_length
mov [rbp+var_28], eax
mov rax, [rbp+var_18]
mov ecx, [rbp+var_28]
add rax, rcx
mov rcx, [rbp+var_38]
mov edx, [rbp+var_1C]
add rcx, rdx
cmp rax, rcx
jbe short loc_1AF4E
mov [rbp+var_4], 1
jmp short loc_1AF80
loc_1AF4E:
mov rax, [rbp+var_10]
mov rax, [rax+480h]
mov rax, [rax+80h]
mov rdi, [rbp+var_10]
mov esi, [rbp+var_20]
mov edx, [rbp+var_24]
movsd xmm0, [rbp+var_30]
mov rcx, [rbp+var_18]
mov r8d, [rbp+var_28]
call rax
mov [rbp+var_4], 0
loc_1AF80:
mov eax, [rbp+var_4]
add rsp, 40h
pop rbp
retn
| long long cli_report_progress(long long a1, unsigned __int16 *a2, unsigned int a3)
{
unsigned __int16 *v3; // rax
unsigned __int16 *v4; // rax
double v6; // [rsp+10h] [rbp-30h]
unsigned int v7; // [rsp+18h] [rbp-28h]
unsigned int v8; // [rsp+1Ch] [rbp-24h]
unsigned int v9; // [rsp+20h] [rbp-20h]
unsigned __int16 *v11; // [rsp+28h] [rbp-18h] BYREF
long long v12; // [rsp+30h] [rbp-10h]
v12 = a1;
v11 = a2;
if ( a3 >= 5 )
{
if ( *(_QWORD *)(v12 + 1152) && *(_QWORD *)(*(_QWORD *)(v12 + 1152) + 128LL) )
{
v11 = (unsigned __int16 *)((char *)v11 + 1);
v3 = v11;
v11 = (unsigned __int16 *)((char *)v11 + 1);
v9 = *(unsigned __int8 *)v3;
v4 = v11;
v11 = (unsigned __int16 *)((char *)v11 + 1);
v8 = *(unsigned __int8 *)v4;
v6 = (double)((*((unsigned __int8 *)v11 + 2) << 16) | (unsigned int)*v11) / 1000.0;
v11 = (unsigned __int16 *)((char *)v11 + 3);
v7 = net_field_length(&v11);
if ( (char *)v11 + v7 <= (char *)a2 + a3 )
{
(*(void ( **)(long long, _QWORD, _QWORD, unsigned __int16 *, _QWORD, double))(*(_QWORD *)(v12 + 1152)
+ 128LL))(
v12,
v9,
v8,
v11,
v7,
v6);
return 0;
}
else
{
return 1;
}
}
else
{
return 0;
}
}
else
{
return 1;
}
}
| cli_report_progress:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x40
MOV qword ptr [RBP + -0x10],RDI
MOV qword ptr [RBP + -0x18],RSI
MOV dword ptr [RBP + -0x1c],EDX
MOV RAX,qword ptr [RBP + -0x18]
MOV qword ptr [RBP + -0x38],RAX
CMP dword ptr [RBP + -0x1c],0x5
JNC 0x0011ae8d
MOV dword ptr [RBP + -0x4],0x1
JMP 0x0011af80
LAB_0011ae8d:
MOV RAX,qword ptr [RBP + -0x10]
CMP qword ptr [RAX + 0x480],0x0
JZ 0x0011aeb0
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x480]
CMP qword ptr [RAX + 0x80],0x0
JNZ 0x0011aebc
LAB_0011aeb0:
MOV dword ptr [RBP + -0x4],0x0
JMP 0x0011af80
LAB_0011aebc:
MOV RAX,qword ptr [RBP + -0x18]
INC RAX
MOV qword ptr [RBP + -0x18],RAX
MOV RAX,qword ptr [RBP + -0x18]
MOV RCX,RAX
INC RCX
MOV qword ptr [RBP + -0x18],RCX
MOVZX EAX,byte ptr [RAX]
MOV dword ptr [RBP + -0x20],EAX
MOV RAX,qword ptr [RBP + -0x18]
MOV RCX,RAX
INC RCX
MOV qword ptr [RBP + -0x18],RCX
MOVZX EAX,byte ptr [RAX]
MOV dword ptr [RBP + -0x24],EAX
MOV RCX,qword ptr [RBP + -0x18]
MOVZX EAX,word ptr [RCX]
MOVZX ECX,byte ptr [RCX + 0x2]
SHL ECX,0x10
OR EAX,ECX
CVTSI2SD XMM0,EAX
MOVSD XMM1,qword ptr [0x001526b8]
DIVSD XMM0,XMM1
MOVSD qword ptr [RBP + -0x30],XMM0
MOV RAX,qword ptr [RBP + -0x18]
ADD RAX,0x3
MOV qword ptr [RBP + -0x18],RAX
LEA RDI,[RBP + -0x18]
CALL 0x0011af90
MOV dword ptr [RBP + -0x28],EAX
MOV RAX,qword ptr [RBP + -0x18]
MOV ECX,dword ptr [RBP + -0x28]
ADD RAX,RCX
MOV RCX,qword ptr [RBP + -0x38]
MOV EDX,dword ptr [RBP + -0x1c]
ADD RCX,RDX
CMP RAX,RCX
JBE 0x0011af4e
MOV dword ptr [RBP + -0x4],0x1
JMP 0x0011af80
LAB_0011af4e:
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x480]
MOV RAX,qword ptr [RAX + 0x80]
MOV RDI,qword ptr [RBP + -0x10]
MOV ESI,dword ptr [RBP + -0x20]
MOV EDX,dword ptr [RBP + -0x24]
MOVSD XMM0,qword ptr [RBP + -0x30]
MOV RCX,qword ptr [RBP + -0x18]
MOV R8D,dword ptr [RBP + -0x28]
CALL RAX
MOV dword ptr [RBP + -0x4],0x0
LAB_0011af80:
MOV EAX,dword ptr [RBP + -0x4]
ADD RSP,0x40
POP RBP
RET
|
int4 cli_report_progress(long param_1,long param_2,uint param_3)
{
int1 uVar1;
int1 uVar2;
uint uVar3;
double dVar4;
long local_20;
long local_18;
int4 local_c;
if (param_3 < 5) {
local_c = 1;
}
else if ((*(long *)(param_1 + 0x480) == 0) || (*(long *)(*(long *)(param_1 + 0x480) + 0x80) == 0))
{
local_c = 0;
}
else {
uVar1 = *(int1 *)(param_2 + 1);
uVar2 = *(int1 *)(param_2 + 2);
dVar4 = (double)*(uint3 *)(param_2 + 3) / DAT_001526b8;
local_20 = param_2 + 6;
local_18 = param_1;
uVar3 = net_field_length(&local_20);
if (param_2 + (ulong)param_3 < local_20 + (ulong)uVar3) {
local_c = 1;
}
else {
(**(code **)(*(long *)(local_18 + 0x480) + 0x80))(dVar4,local_18,uVar1,uVar2,local_20,uVar3);
local_c = 0;
}
}
return local_c;
}
|
|
4,444 | r3d_shader_load_raster_depth_cube | r3d/src/r3d_state.c | void r3d_shader_load_raster_depth_cube(void)
{
R3D.shader.raster.depthCube.id = rlLoadShaderCode(
VS_RASTER_DEPTH_CUBE, FS_RASTER_DEPTH_CUBE
);
r3d_shader_get_location(raster.depthCube, uViewPosition);
r3d_shader_get_location(raster.depthCube, uMatModel);
r3d_shader_get_location(raster.depthCube, uMatMVP);
r3d_shader_get_location(raster.depthCube, uFar);
r3d_shader_get_location(raster.depthCube, uAlpha);
r3d_shader_get_location(raster.depthCube, uTexAlbedo);
r3d_shader_get_location(raster.depthCube, uAlphaScissorThreshold);
} | O3 | c | r3d_shader_load_raster_depth_cube:
pushq %rbp
movq %rsp, %rbp
leaq 0x5c0ff(%rip), %rdi # 0x11ed40
leaq 0x5c778(%rip), %rsi # 0x11f3c0
callq 0x1e52d
movl %eax, 0xee0a1(%rip) # 0x1b0cf4
leaq 0x4f56f(%rip), %rsi # 0x1121c9
movl %eax, %edi
callq 0x1e986
movl %eax, 0xee09d(%rip) # 0x1b0d04
movl 0xee087(%rip), %edi # 0x1b0cf4
leaq 0x4f3e4(%rip), %rsi # 0x112058
callq 0x1e986
movl %eax, 0xee089(%rip) # 0x1b0d08
movl 0xee06f(%rip), %edi # 0x1b0cf4
leaq 0x4f3d6(%rip), %rsi # 0x112062
callq 0x1e986
movl %eax, 0xee075(%rip) # 0x1b0d0c
movl 0xee057(%rip), %edi # 0x1b0cf4
leaq 0x4f6e8(%rip), %rsi # 0x11238c
callq 0x1e986
movl %eax, 0xee065(%rip) # 0x1b0d14
movl 0xee03f(%rip), %edi # 0x1b0cf4
leaq 0x4f6c9(%rip), %rsi # 0x112385
callq 0x1e986
movl %eax, 0xee055(%rip) # 0x1b0d1c
movl 0xee027(%rip), %edi # 0x1b0cf4
leaq 0x4f3b5(%rip), %rsi # 0x112089
callq 0x1e986
movl %eax, 0xee045(%rip) # 0x1b0d24
movl 0xee00f(%rip), %edi # 0x1b0cf4
leaq 0x4f4b3(%rip), %rsi # 0x11219f
callq 0x1e986
movl %eax, 0xee035(%rip) # 0x1b0d2c
popq %rbp
retq
| r3d_shader_load_raster_depth_cube:
push rbp
mov rbp, rsp
lea rdi, VS_RASTER_DEPTH_CUBE; "#version 330 core\nlayout(location=0)in"...
lea rsi, FS_RASTER_DEPTH_CUBE; "#version 330 core\nin vec3 vPosition;in"...
call rlLoadShaderCode
mov cs:dword_1B0CF4, eax
lea rsi, aUviewposition; "uViewPosition"
mov edi, eax
call rlGetLocationUniform
mov cs:dword_1B0D04, eax
mov edi, cs:dword_1B0CF4
lea rsi, aUmatmodel; "uMatModel"
call rlGetLocationUniform
mov cs:dword_1B0D08, eax
mov edi, cs:dword_1B0CF4
lea rsi, aUmatmvp; "uMatMVP"
call rlGetLocationUniform
mov cs:dword_1B0D0C, eax
mov edi, cs:dword_1B0CF4
lea rsi, aUfar; "uFar"
call rlGetLocationUniform
mov cs:dword_1B0D14, eax
mov edi, cs:dword_1B0CF4
lea rsi, aUalpha; "uAlpha"
call rlGetLocationUniform
mov cs:dword_1B0D1C, eax
mov edi, cs:dword_1B0CF4
lea rsi, aUtexalbedo; "uTexAlbedo"
call rlGetLocationUniform
mov cs:dword_1B0D24, eax
mov edi, cs:dword_1B0CF4
lea rsi, aUalphascissort; "uAlphaScissorThreshold"
call rlGetLocationUniform
mov cs:dword_1B0D2C, eax
pop rbp
retn
| long long r3d_shader_load_raster_depth_cube()
{
long long result; // rax
dword_1B0CF4 = rlLoadShaderCode(
(long long)"#version 330 core\n"
"layout(location=0)in vec3 aPosition;layout(location=1)in vec2 aTexCoord;layout(location=3)in"
" vec4 aColor;uniform mat4 uMatModel;uniform mat4 uMatMVP;uniform float uAlpha;out vec3 vPosi"
"tion;out vec2 vTexCoord;out float vAlpha;void main(){vPosition=vec3(uMatModel*vec4(aPosition"
",1.0));vTexCoord=aTexCoord;vAlpha=uAlpha*aColor.a;gl_Position=uMatMVP*vec4(aPosition,1.0);}",
(long long)"#version 330 core\n"
"in vec3 vPosition;in vec2 vTexCoord;in float vAlpha;uniform sampler2D uTexAlbedo;uniform flo"
"at uAlphaScissorThreshold;uniform vec3 uViewPosition;uniform float uFar;void main(){float a="
"vAlpha*texture(uTexAlbedo,vTexCoord).a;if(a < uAlphaScissorThreshold)discard;gl_FragDepth=le"
"ngth(vPosition-uViewPosition)/uFar;}");
dword_1B0D04 = rlGetLocationUniform((unsigned int)dword_1B0CF4, (long long)"uViewPosition");
dword_1B0D08 = rlGetLocationUniform((unsigned int)dword_1B0CF4, (long long)"uMatModel");
dword_1B0D0C = rlGetLocationUniform((unsigned int)dword_1B0CF4, (long long)"uMatMVP");
dword_1B0D14 = rlGetLocationUniform((unsigned int)dword_1B0CF4, (long long)"uFar");
dword_1B0D1C = rlGetLocationUniform((unsigned int)dword_1B0CF4, (long long)"uAlpha");
dword_1B0D24 = rlGetLocationUniform((unsigned int)dword_1B0CF4, (long long)"uTexAlbedo");
result = rlGetLocationUniform((unsigned int)dword_1B0CF4, (long long)"uAlphaScissorThreshold");
dword_1B0D2C = result;
return result;
}
| r3d_shader_load_raster_depth_cube:
PUSH RBP
MOV RBP,RSP
LEA RDI,[0x21ed40]
LEA RSI,[0x21f3c0]
CALL 0x0011e52d
MOV dword ptr [0x002b0cf4],EAX
LEA RSI,[0x2121c9]
MOV EDI,EAX
CALL 0x0011e986
MOV dword ptr [0x002b0d04],EAX
MOV EDI,dword ptr [0x002b0cf4]
LEA RSI,[0x212058]
CALL 0x0011e986
MOV dword ptr [0x002b0d08],EAX
MOV EDI,dword ptr [0x002b0cf4]
LEA RSI,[0x212062]
CALL 0x0011e986
MOV dword ptr [0x002b0d0c],EAX
MOV EDI,dword ptr [0x002b0cf4]
LEA RSI,[0x21238c]
CALL 0x0011e986
MOV dword ptr [0x002b0d14],EAX
MOV EDI,dword ptr [0x002b0cf4]
LEA RSI,[0x212385]
CALL 0x0011e986
MOV dword ptr [0x002b0d1c],EAX
MOV EDI,dword ptr [0x002b0cf4]
LEA RSI,[0x212089]
CALL 0x0011e986
MOV dword ptr [0x002b0d24],EAX
MOV EDI,dword ptr [0x002b0cf4]
LEA RSI,[0x21219f]
CALL 0x0011e986
MOV dword ptr [0x002b0d2c],EAX
POP RBP
RET
|
/* WARNING: Globals starting with '_' overlap smaller symbols at the same address */
void r3d_shader_load_raster_depth_cube(void)
{
DAT_002b0cf4 = rlLoadShaderCode("#version 330 core\nlayout(location=0)in vec3 aPosition;layout(location=1)in vec2 aTexCoord;layout(location=3)in vec4 aColor;uniform mat4 uMatModel;uniform mat4 uMatMVP;uniform float uAlpha;out vec3 vPosition;out vec2 vTexCoord;out float vAlpha;void main(){vPosition=vec3(uMatModel*vec4(aPosition,1.0));vTexCoord=aTexCoord;vAlpha=uAlpha*aColor.a;gl_Position=uMatMVP*vec4(aPosition,1.0);}"
,
"#version 330 core\nin vec3 vPosition;in vec2 vTexCoord;in float vAlpha;uniform sampler2D uTexAlbedo;uniform float uAlphaScissorThreshold;uniform vec3 uViewPosition;uniform float uFar;void main(){float a=vAlpha*texture(uTexAlbedo,vTexCoord).a;if(a < uAlphaScissorThreshold)discard;gl_FragDepth=length(vPosition-uViewPosition)/uFar;}"
);
DAT_002b0d04 = rlGetLocationUniform(DAT_002b0cf4,"uViewPosition");
DAT_002b0d08 = rlGetLocationUniform(DAT_002b0cf4,"uMatModel");
DAT_002b0d0c = rlGetLocationUniform(DAT_002b0cf4,"uMatMVP");
DAT_002b0d14 = rlGetLocationUniform(DAT_002b0cf4,&DAT_0021238c);
DAT_002b0d1c = rlGetLocationUniform(DAT_002b0cf4,"uAlpha");
_DAT_002b0d24 = rlGetLocationUniform(DAT_002b0cf4,"uTexAlbedo");
DAT_002b0d2c = rlGetLocationUniform(DAT_002b0cf4,"uAlphaScissorThreshold");
return;
}
|
|
4,445 | minja::Parser::parseIdentifier() | llama.cpp/common/minja/minja.hpp | std::shared_ptr<VariableExpr> parseIdentifier() {
static std::regex ident_regex(R"((?!(?:not|is|and|or|del)\b)[a-zA-Z_]\w*)");
auto location = get_location();
auto ident = consumeToken(ident_regex);
if (ident.empty())
return nullptr;
return std::make_shared<VariableExpr>(location, ident);
} | O3 | cpp | minja::Parser::parseIdentifier():
pushq %r15
pushq %r14
pushq %rbx
subq $0x40, %rsp
movq %rsi, %r15
movq %rdi, %rbx
leaq 0x85046(%rip), %rax # 0x1646d8
movb (%rax), %al
testb %al, %al
je 0xdf753
movq (%r15), %rax
movq %rax, 0x28(%rsp)
movq 0x8(%r15), %rax
movq %rax, 0x30(%rsp)
testq %rax, %rax
je 0xdf6c7
movq 0x838df(%rip), %rcx # 0x162f98
cmpb $0x0, (%rcx)
je 0xdf6c3
incl 0x8(%rax)
jmp 0xdf6c7
lock
incl 0x8(%rax)
leaq 0x30(%rsp), %r14
movq 0x20(%r15), %rax
subq 0x10(%r15), %rax
movq %rax, 0x8(%r14)
leaq 0x84fd9(%rip), %rdx # 0x1646b8
leaq 0x8(%rsp), %rdi
movq %r15, %rsi
movl $0x1, %ecx
callq 0xdef6a
cmpq $0x0, 0x10(%rsp)
je 0xdf71d
movq $0x0, (%rbx)
leaq 0x8(%rbx), %rdi
leaq 0x7(%rsp), %rdx
leaq 0x28(%rsp), %rcx
leaq 0x8(%rsp), %r8
movq %rbx, %rsi
callq 0xee882
jmp 0xdf723
xorps %xmm0, %xmm0
movups %xmm0, (%rbx)
leaq 0x18(%rsp), %rax
movq -0x10(%rax), %rdi
cmpq %rax, %rdi
je 0xdf73e
movq 0x18(%rsp), %rsi
incq %rsi
callq 0x20180
movq %r14, %rdi
callq 0x70a60
movq %rbx, %rax
addq $0x40, %rsp
popq %rbx
popq %r14
popq %r15
retq
leaq 0x84f7e(%rip), %rdi # 0x1646d8
callq 0x205a0
testl %eax, %eax
je 0xdf69c
leaq 0x84f4a(%rip), %rdi # 0x1646b8
leaq 0x42c1b(%rip), %rsi # 0x122390
movl $0x10, %edx
callq 0x6637a
leaq -0x79360(%rip), %rdi # 0x66426
leaq 0x84f2b(%rip), %rsi # 0x1646b8
leaq 0x842e4(%rip), %rdx # 0x163a78
callq 0x20ee0
leaq 0x84f38(%rip), %rdi # 0x1646d8
callq 0x20960
jmp 0xdf69c
movq %rax, %rbx
leaq 0x84f24(%rip), %rdi # 0x1646d8
callq 0x206d0
jmp 0xdf7e6
movq %rax, %rbx
leaq 0x18(%rsp), %rax
movq -0x10(%rax), %rdi
cmpq %rax, %rdi
je 0xdf7de
movq 0x18(%rsp), %rsi
incq %rsi
callq 0x20180
jmp 0xdf7de
movq %rax, %rbx
movq %r14, %rdi
callq 0x70a60
movq %rbx, %rdi
callq 0x20af0
| _ZN5minja6Parser15parseIdentifierEv:
push r15
push r14
push rbx
sub rsp, 40h
mov r15, rsi
mov rbx, rdi
lea rax, _ZGVZN5minja6Parser15parseIdentifierEvE11ident_regexB5cxx11; `guard variable for'minja::Parser::parseIdentifier(void)::ident_regex
mov al, [rax]
test al, al
jz loc_DF753
loc_DF69C:
mov rax, [r15]
mov [rsp+58h+var_30], rax
mov rax, [r15+8]
mov [rsp+58h+var_28], rax
test rax, rax
jz short loc_DF6C7
mov rcx, cs:_ZTISt19_Sp_make_shared_tag; `typeinfo for'std::_Sp_make_shared_tag
cmp byte ptr [rcx], 0
jz short loc_DF6C3
inc dword ptr [rax+8]
jmp short loc_DF6C7
loc_DF6C3:
lock inc dword ptr [rax+8]
loc_DF6C7:
lea r14, [rsp+58h+var_28]
mov rax, [r15+20h]
sub rax, [r15+10h]
mov [r14+8], rax
lea rdx, _ZZN5minja6Parser15parseIdentifierEvE11ident_regexB5cxx11; int
lea rdi, [rsp+58h+var_50]; int
mov rsi, r15; int
mov ecx, 1; int
call _ZN5minja6Parser12consumeTokenERKNSt7__cxx1111basic_regexIcNS1_12regex_traitsIcEEEENS_13SpaceHandlingE; minja::Parser::consumeToken(std::basic_regex<char,std::regex_traits<char>> const&,minja::SpaceHandling)
cmp [rsp+58h+var_48], 0
jz short loc_DF71D
mov qword ptr [rbx], 0
lea rdi, [rbx+8]
lea rdx, [rsp+58h+var_51]
lea rcx, [rsp+58h+var_30]
lea r8, [rsp+58h+var_50]
mov rsi, rbx
call _ZNSt14__shared_countILN9__gnu_cxx12_Lock_policyE2EEC2IN5minja12VariableExprESaIvEJRNS4_8LocationERNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEEEERPT_St20_Sp_alloc_shared_tagIT0_EDpOT1_; std::__shared_count<(__gnu_cxx::_Lock_policy)2>::__shared_count<minja::VariableExpr,std::allocator<void>,minja::Location &,std::string &>(minja::VariableExpr *&,std::_Sp_alloc_shared_tag<std::allocator<void>>,minja::Location &,std::string &)
jmp short loc_DF723
loc_DF71D:
xorps xmm0, xmm0
movups xmmword ptr [rbx], xmm0
loc_DF723:
lea rax, [rsp+58h+var_40]
mov rdi, [rax-10h]; void *
cmp rdi, rax
jz short loc_DF73E
mov rsi, [rsp+58h+var_40]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_DF73E:
mov rdi, r14
call _ZNSt14__shared_countILN9__gnu_cxx12_Lock_policyE2EED2Ev; std::__shared_count<(__gnu_cxx::_Lock_policy)2>::~__shared_count()
mov rax, rbx
add rsp, 40h
pop rbx
pop r14
pop r15
retn
loc_DF753:
lea rdi, _ZGVZN5minja6Parser15parseIdentifierEvE11ident_regexB5cxx11; __guard *
call ___cxa_guard_acquire
test eax, eax
jz loc_DF69C
lea rdi, _ZZN5minja6Parser15parseIdentifierEvE11ident_regexB5cxx11; minja::Parser::parseIdentifier(void)::ident_regex
lea rsi, aNotIsAndOrDelB; "(?!(?:not|is|and|or|del)\\b)[a-zA-Z_]\\"...
mov edx, 10h
call _ZNSt7__cxx1111basic_regexIcNS_12regex_traitsIcEEEC2EPKcNSt15regex_constants18syntax_option_typeE; std::basic_regex<char,std::regex_traits<char>>::basic_regex(char const*,std::regex_constants::syntax_option_type)
lea rdi, _ZNSt7__cxx1111basic_regexIcNS_12regex_traitsIcEEED2Ev; lpfunc
lea rsi, _ZZN5minja6Parser15parseIdentifierEvE11ident_regexB5cxx11; obj
lea rdx, __dso_handle; lpdso_handle
call ___cxa_atexit
lea rdi, _ZGVZN5minja6Parser15parseIdentifierEvE11ident_regexB5cxx11; __guard *
call ___cxa_guard_release
jmp loc_DF69C
mov rbx, rax
lea rdi, _ZGVZN5minja6Parser15parseIdentifierEvE11ident_regexB5cxx11; __guard *
call ___cxa_guard_abort
jmp short loc_DF7E6
mov rbx, rax
lea rax, [rsp+arg_10]
mov rdi, [rax-10h]; void *
cmp rdi, rax
jz short loc_DF7DE
mov rsi, [rsp+arg_10]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
jmp short loc_DF7DE
mov rbx, rax
loc_DF7DE:
mov rdi, r14
call _ZNSt14__shared_countILN9__gnu_cxx12_Lock_policyE2EED2Ev; std::__shared_count<(__gnu_cxx::_Lock_policy)2>::~__shared_count()
loc_DF7E6:
mov rdi, rbx
call __Unwind_Resume
| minja::Parser * minja::Parser::parseIdentifier(minja::Parser *this, long long *a2)
{
volatile signed __int32 *v2; // rax
char v4; // [rsp+7h] [rbp-51h] BYREF
void *v5[2]; // [rsp+8h] [rbp-50h] BYREF
long long v6; // [rsp+18h] [rbp-40h] BYREF
long long v7; // [rsp+28h] [rbp-30h] BYREF
volatile signed __int32 *v8[5]; // [rsp+30h] [rbp-28h] BYREF
if ( !(_BYTE)`guard variable for'minja::Parser::parseIdentifier(void)::ident_regex[abi:cxx11]
&& __cxa_guard_acquire(&`guard variable for'minja::Parser::parseIdentifier(void)::ident_regex[abi:cxx11]) )
{
std::basic_regex<char,std::regex_traits<char>>::basic_regex(
(long long)&minja::Parser::parseIdentifier(void)::ident_regex[abi:cxx11],
(long long)"(?!(?:not|is|and|or|del)\\b)[a-zA-Z_]\\w*",
0x10u);
__cxa_atexit(
(void (*)(void *))std::basic_regex<char,std::regex_traits<char>>::~basic_regex,
&minja::Parser::parseIdentifier(void)::ident_regex[abi:cxx11],
&_dso_handle);
__cxa_guard_release(&`guard variable for'minja::Parser::parseIdentifier(void)::ident_regex[abi:cxx11]);
}
v7 = *a2;
v2 = (volatile signed __int32 *)a2[1];
v8[0] = v2;
if ( v2 )
{
if ( _libc_single_threaded )
++*((_DWORD *)v2 + 2);
else
_InterlockedIncrement(v2 + 2);
}
v8[1] = (volatile signed __int32 *)(a2[4] - a2[2]);
minja::Parser::consumeToken(
v5,
(long long)a2,
(long long)&minja::Parser::parseIdentifier(void)::ident_regex[abi:cxx11],
1u);
if ( v5[1] )
{
*(_QWORD *)this = 0LL;
std::__shared_count<(__gnu_cxx::_Lock_policy)2>::__shared_count<minja::VariableExpr,std::allocator<void>,minja::Location &,std::string &>(
(char *)this + 8,
this,
&v4,
&v7,
v5);
}
else
{
*(_OWORD *)this = 0LL;
}
if ( v5[0] != &v6 )
operator delete(v5[0], v6 + 1);
std::__shared_count<(__gnu_cxx::_Lock_policy)2>::~__shared_count(v8);
return this;
}
| parseIdentifier:
PUSH R15
PUSH R14
PUSH RBX
SUB RSP,0x40
MOV R15,RSI
MOV RBX,RDI
LEA RAX,[0x2646d8]
MOV AL,byte ptr [RAX]
TEST AL,AL
JZ 0x001df753
LAB_001df69c:
MOV RAX,qword ptr [R15]
MOV qword ptr [RSP + 0x28],RAX
MOV RAX,qword ptr [R15 + 0x8]
MOV qword ptr [RSP + 0x30],RAX
TEST RAX,RAX
JZ 0x001df6c7
MOV RCX,qword ptr [0x00262f98]
CMP byte ptr [RCX],0x0
JZ 0x001df6c3
INC dword ptr [RAX + 0x8]
JMP 0x001df6c7
LAB_001df6c3:
INC.LOCK dword ptr [RAX + 0x8]
LAB_001df6c7:
LEA R14,[RSP + 0x30]
MOV RAX,qword ptr [R15 + 0x20]
SUB RAX,qword ptr [R15 + 0x10]
MOV qword ptr [R14 + 0x8],RAX
LAB_001df6d8:
LEA RDX,[0x2646b8]
LEA RDI,[RSP + 0x8]
MOV RSI,R15
MOV ECX,0x1
CALL 0x001def6a
CMP qword ptr [RSP + 0x10],0x0
JZ 0x001df71d
MOV qword ptr [RBX],0x0
LEA RDI,[RBX + 0x8]
LAB_001df704:
LEA RDX,[RSP + 0x7]
LEA RCX,[RSP + 0x28]
LEA R8,[RSP + 0x8]
MOV RSI,RBX
CALL 0x001ee882
JMP 0x001df723
LAB_001df71d:
XORPS XMM0,XMM0
MOVUPS xmmword ptr [RBX],XMM0
LAB_001df723:
LEA RAX,[RSP + 0x18]
MOV RDI,qword ptr [RAX + -0x10]
CMP RDI,RAX
JZ 0x001df73e
MOV RSI,qword ptr [RSP + 0x18]
INC RSI
CALL 0x00120180
LAB_001df73e:
MOV RDI,R14
CALL 0x00170a60
MOV RAX,RBX
ADD RSP,0x40
POP RBX
POP R14
POP R15
RET
LAB_001df753:
LEA RDI,[0x2646d8]
CALL 0x001205a0
TEST EAX,EAX
JZ 0x001df69c
LAB_001df767:
LEA RDI,[0x2646b8]
LEA RSI,[0x222390]
MOV EDX,0x10
CALL 0x0016637a
LAB_001df77f:
LEA RDI,[0x166426]
LEA RSI,[0x2646b8]
LEA RDX,[0x263a78]
CALL 0x00120ee0
LEA RDI,[0x2646d8]
CALL 0x00120960
JMP 0x001df69c
|
/* minja::Parser::parseIdentifier() */
void minja::Parser::parseIdentifier(void)
{
int iVar1;
int8 *in_RSI;
int8 *in_RDI;
long *local_50;
long local_48;
long local_40 [2];
int8 local_30;
long local_28;
long local_20;
if (parseIdentifier()::ident_regex_abi_cxx11_ == '\0') {
iVar1 = __cxa_guard_acquire(&parseIdentifier()::ident_regex_abi_cxx11_);
if (iVar1 != 0) {
/* try { // try from 001df767 to 001df77e has its CatchHandler @ 001df7aa */
std::__cxx11::basic_regex<char,std::__cxx11::regex_traits<char>>::basic_regex
((basic_regex<char,std::__cxx11::regex_traits<char>> *)
parseIdentifier()::ident_regex_abi_cxx11_,
"(?!(?:not|is|and|or|del)\\b)[a-zA-Z_]\\w*",0x10);
__cxa_atexit(std::__cxx11::basic_regex<char,std::__cxx11::regex_traits<char>>::~basic_regex,
parseIdentifier()::ident_regex_abi_cxx11_,&__dso_handle);
__cxa_guard_release(&parseIdentifier()::ident_regex_abi_cxx11_);
}
}
local_30 = *in_RSI;
local_28 = in_RSI[1];
if (local_28 != 0) {
if (*PTR___libc_single_threaded_00262f98 == '\0') {
LOCK();
*(int *)(local_28 + 8) = *(int *)(local_28 + 8) + 1;
UNLOCK();
}
else {
*(int *)(local_28 + 8) = *(int *)(local_28 + 8) + 1;
}
}
local_20 = in_RSI[4] - in_RSI[2];
/* try { // try from 001df6d8 to 001df6f0 has its CatchHandler @ 001df7db */
consumeToken(&local_50);
if (local_48 == 0) {
*in_RDI = 0;
in_RDI[1] = 0;
}
else {
*in_RDI = 0;
/* try { // try from 001df704 to 001df71a has its CatchHandler @ 001df7bb */
std::__shared_count<(__gnu_cxx::_Lock_policy)2>::
__shared_count<minja::VariableExpr,std::allocator<void>,minja::Location&,std::__cxx11::string&>
((__shared_count<(__gnu_cxx::_Lock_policy)2> *)(in_RDI + 1));
}
if (local_50 != local_40) {
operator_delete(local_50,local_40[0] + 1);
}
std::__shared_count<(__gnu_cxx::_Lock_policy)2>::~__shared_count
((__shared_count<(__gnu_cxx::_Lock_policy)2> *)&local_28);
return;
}
|
|
4,446 | ma_hash_password | eloqsql/libmariadb/libmariadb/ma_password.c | void ma_hash_password(ulong *result, const char *password, size_t len)
{
register ulong nr=1345345333L, add=7, nr2=0x12345671L;
ulong tmp;
const char *password_end= password + len;
for (; password < password_end; password++)
{
if (*password == ' ' || *password == '\t')
continue; /* skip space in password */
tmp= (ulong) (uchar) *password;
nr^= (((nr & 63)+add)*tmp)+ (nr << 8);
nr2+=(nr2 << 8) ^ nr;
add+=tmp;
}
result[0]=nr & (((ulong) 1L << 31) -1L); /* Don't use sign bit (str2int) */;
result[1]=nr2 & (((ulong) 1L << 31) -1L);
return;
} | O3 | c | ma_hash_password:
testq %rdx, %rdx
jle 0x37785
pushq %rbp
movq %rsp, %rbp
addq %rsi, %rdx
movl $0x7, %r8d
movl $0x12345671, %eax # imm = 0x12345671
movl $0x50305735, %ecx # imm = 0x50305735
movzbl (%rsi), %r9d
cmpl $0x9, %r9d
je 0x3776f
cmpl $0x20, %r9d
je 0x3776f
movl %ecx, %r10d
andl $0x3f, %r10d
addq %r8, %r10
imulq %r9, %r10
movq %rcx, %r11
shlq $0x8, %r11
addq %r10, %r11
xorq %r11, %rcx
movq %rax, %r10
shlq $0x8, %r10
xorq %rcx, %r10
addq %r10, %rax
addq %r9, %r8
incq %rsi
cmpq %rdx, %rsi
jb 0x37734
movl $0x7fffffff, %edx # imm = 0x7FFFFFFF
andq %rdx, %rcx
andq %rdx, %rax
popq %rbp
jmp 0x3778f
movl $0x50305735, %ecx # imm = 0x50305735
movl $0x12345671, %eax # imm = 0x12345671
movq %rcx, (%rdi)
movq %rax, 0x8(%rdi)
retq
| ma_hash_password:
test rdx, rdx
jle short loc_37785
push rbp
mov rbp, rsp
add rdx, rsi
mov r8d, 7
mov eax, 12345671h
mov ecx, 50305735h
loc_37734:
movzx r9d, byte ptr [rsi]
cmp r9d, 9
jz short loc_3776F
cmp r9d, 20h ; ' '
jz short loc_3776F
mov r10d, ecx
and r10d, 3Fh
add r10, r8
imul r10, r9
mov r11, rcx
shl r11, 8
add r11, r10
xor rcx, r11
mov r10, rax
shl r10, 8
xor r10, rcx
add rax, r10
add r8, r9
loc_3776F:
inc rsi
cmp rsi, rdx
jb short loc_37734
mov edx, 7FFFFFFFh
and rcx, rdx
and rax, rdx
pop rbp
jmp short loc_3778F
loc_37785:
mov ecx, 50305735h
mov eax, 12345671h
loc_3778F:
mov [rdi], rcx
mov [rdi+8], rax
retn
| long long ma_hash_password(long long *a1, unsigned __int8 *a2, long long a3)
{
unsigned __int8 *v3; // rdx
long long v4; // r8
int v5; // eax
int v6; // ecx
long long v7; // r9
long long v8; // rcx
long long result; // rax
if ( a3 <= 0 )
{
v8 = 1345345333LL;
result = 305419889LL;
}
else
{
v3 = &a2[a3];
v4 = 7LL;
v5 = 305419889;
v6 = 1345345333;
do
{
v7 = *a2;
if ( (_DWORD)v7 != 9 && (_DWORD)v7 != 32 )
{
v6 ^= v7 * (v4 + (v6 & 0x3F)) + (v6 << 8);
v5 += v6 ^ (v5 << 8);
v4 += v7;
}
++a2;
}
while ( a2 < v3 );
v8 = v6 & 0x7FFFFFFF;
result = v5 & 0x7FFFFFFF;
}
*a1 = v8;
a1[1] = result;
return result;
}
| ma_hash_password:
TEST RDX,RDX
JLE 0x00137785
PUSH RBP
MOV RBP,RSP
ADD RDX,RSI
MOV R8D,0x7
MOV EAX,0x12345671
MOV ECX,0x50305735
LAB_00137734:
MOVZX R9D,byte ptr [RSI]
CMP R9D,0x9
JZ 0x0013776f
CMP R9D,0x20
JZ 0x0013776f
MOV R10D,ECX
AND R10D,0x3f
ADD R10,R8
IMUL R10,R9
MOV R11,RCX
SHL R11,0x8
ADD R11,R10
XOR RCX,R11
MOV R10,RAX
SHL R10,0x8
XOR R10,RCX
ADD RAX,R10
ADD R8,R9
LAB_0013776f:
INC RSI
CMP RSI,RDX
JC 0x00137734
MOV EDX,0x7fffffff
AND RCX,RDX
AND RAX,RDX
POP RBP
JMP 0x0013778f
LAB_00137785:
MOV ECX,0x50305735
MOV EAX,0x12345671
LAB_0013778f:
MOV qword ptr [RDI],RCX
MOV qword ptr [RDI + 0x8],RAX
RET
|
void ma_hash_password(ulong *param_1,byte *param_2,long param_3)
{
byte bVar1;
ulong uVar2;
ulong uVar3;
byte *pbVar4;
long lVar5;
if (param_3 < 1) {
uVar3 = 0x50305735;
uVar2 = 0x12345671;
}
else {
pbVar4 = param_2 + param_3;
lVar5 = 7;
uVar2 = 0x12345671;
uVar3 = 0x50305735;
do {
bVar1 = *param_2;
if ((bVar1 != 9) && (bVar1 != 0x20)) {
uVar3 = uVar3 ^ uVar3 * 0x100 + ((ulong)((uint)uVar3 & 0x3f) + lVar5) * (ulong)bVar1;
uVar2 = uVar2 + (uVar2 << 8 ^ uVar3);
lVar5 = lVar5 + (ulong)bVar1;
}
param_2 = param_2 + 1;
} while (param_2 < pbVar4);
uVar3 = uVar3 & 0x7fffffff;
uVar2 = uVar2 & 0x7fffffff;
}
*param_1 = uVar3;
param_1[1] = uVar2;
return;
}
|
|
4,447 | js_promise_executor | bluesky950520[P]quickjs/quickjs.c | static JSValue js_promise_executor(JSContext *ctx,
JSValue this_val,
int argc, JSValue *argv,
int magic, JSValue *func_data)
{
int i;
for(i = 0; i < 2; i++) {
if (!JS_IsUndefined(func_data[i]))
return JS_ThrowTypeError(ctx, "resolving function already set");
func_data[i] = js_dup(argv[i]);
}
return JS_UNDEFINED;
} | O0 | c | js_promise_executor:
subq $0x58, %rsp
movq 0x60(%rsp), %rax
movq %rsi, 0x38(%rsp)
movq %rdx, 0x40(%rsp)
movq %rdi, 0x30(%rsp)
movl %ecx, 0x2c(%rsp)
movq %r8, 0x20(%rsp)
movl %r9d, 0x1c(%rsp)
movl $0x0, 0x18(%rsp)
cmpl $0x2, 0x18(%rsp)
jge 0x9784e
movq 0x60(%rsp), %rax
movslq 0x18(%rsp), %rcx
shlq $0x4, %rcx
addq %rcx, %rax
movq (%rax), %rdi
movq 0x8(%rax), %rsi
callq 0x34550
cmpl $0x0, %eax
jne 0x977ea
movq 0x30(%rsp), %rdi
leaq 0x7dd5a(%rip), %rsi # 0x115531
movb $0x0, %al
callq 0x335f0
movq %rax, 0x48(%rsp)
movq %rdx, 0x50(%rsp)
jmp 0x9785f
movq 0x60(%rsp), %rax
movslq 0x18(%rsp), %rcx
shlq $0x4, %rcx
addq %rcx, %rax
movq %rax, (%rsp)
movq 0x20(%rsp), %rax
movslq 0x18(%rsp), %rcx
shlq $0x4, %rcx
addq %rcx, %rax
movq (%rax), %rdi
movq 0x8(%rax), %rsi
callq 0x279c0
movq %rax, %rcx
movq (%rsp), %rax
movq %rcx, 0x8(%rsp)
movq %rdx, 0x10(%rsp)
movq 0x8(%rsp), %rcx
movq %rcx, (%rax)
movq 0x10(%rsp), %rcx
movq %rcx, 0x8(%rax)
movl 0x18(%rsp), %eax
addl $0x1, %eax
movl %eax, 0x18(%rsp)
jmp 0x9779e
movl $0x0, 0x48(%rsp)
movq $0x3, 0x50(%rsp)
movq 0x48(%rsp), %rax
movq 0x50(%rsp), %rdx
addq $0x58, %rsp
retq
nop
| js_promise_executor:
sub rsp, 58h
mov rax, [rsp+58h+arg_0]
mov [rsp+58h+var_20], rsi
mov [rsp+58h+var_18], rdx
mov [rsp+58h+var_28], rdi
mov [rsp+58h+var_2C], ecx
mov [rsp+58h+var_38], r8
mov [rsp+58h+var_3C], r9d
mov [rsp+58h+var_40], 0
loc_9779E:
cmp [rsp+58h+var_40], 2
jge loc_9784E
mov rax, [rsp+58h+arg_0]
movsxd rcx, [rsp+58h+var_40]
shl rcx, 4
add rax, rcx
mov rdi, [rax]
mov rsi, [rax+8]
call JS_IsUndefined_1
cmp eax, 0
jnz short loc_977EA
mov rdi, [rsp+58h+var_28]
lea rsi, aResolvingFunct; "resolving function already set"
mov al, 0
call JS_ThrowTypeError
mov [rsp+58h+var_10], rax
mov [rsp+58h+var_8], rdx
jmp short loc_9785F
loc_977EA:
mov rax, [rsp+58h+arg_0]
movsxd rcx, [rsp+58h+var_40]
shl rcx, 4
add rax, rcx
mov [rsp+58h+var_58], rax
mov rax, [rsp+58h+var_38]
movsxd rcx, [rsp+58h+var_40]
shl rcx, 4
add rax, rcx
mov rdi, [rax]
mov rsi, [rax+8]
call js_dup
mov rcx, rax
mov rax, [rsp+58h+var_58]
mov [rsp+58h+var_50], rcx
mov [rsp+58h+var_48], rdx
mov rcx, [rsp+58h+var_50]
mov [rax], rcx
mov rcx, [rsp+58h+var_48]
mov [rax+8], rcx
mov eax, [rsp+58h+var_40]
add eax, 1
mov [rsp+58h+var_40], eax
jmp loc_9779E
loc_9784E:
mov dword ptr [rsp+58h+var_10], 0
mov [rsp+58h+var_8], 3
loc_9785F:
mov rax, [rsp+58h+var_10]
mov rdx, [rsp+58h+var_8]
add rsp, 58h
retn
| long long js_promise_executor(
long long a1,
__m128 a2,
__m128 a3,
__m128 a4,
__m128 a5,
double a6,
double a7,
__m128 a8,
__m128 a9,
long long a10,
long long a11,
long long a12,
long long a13,
long long a14,
long long a15)
{
long long v15; // rdx
long long v16; // rcx
long long v17; // r8
long long v18; // r9
__m128 v19; // xmm4
__m128 v20; // xmm5
long long v21; // rdx
_QWORD *v23; // [rsp+0h] [rbp-58h]
int i; // [rsp+18h] [rbp-40h]
long long v26; // [rsp+48h] [rbp-10h]
for ( i = 0; i < 2; ++i )
{
if ( !JS_IsUndefined_1(*(_QWORD *)(16LL * i + a15), *(_QWORD *)(16LL * i + a15 + 8)) )
return JS_ThrowTypeError(
a1,
(long long)"resolving function already set",
v15,
v16,
v17,
v18,
a2,
a3,
a4,
a5,
v19,
v20,
a8,
a9,
(char)v23);
v23 = (_QWORD *)(16LL * i + a15);
*v23 = js_dup(*(_DWORD **)(16LL * i + a13), *(_QWORD *)(16LL * i + a13 + 8));
v23[1] = v21;
}
LODWORD(v26) = 0;
return v26;
}
| js_promise_executor:
SUB RSP,0x58
MOV RAX,qword ptr [RSP + 0x60]
MOV qword ptr [RSP + 0x38],RSI
MOV qword ptr [RSP + 0x40],RDX
MOV qword ptr [RSP + 0x30],RDI
MOV dword ptr [RSP + 0x2c],ECX
MOV qword ptr [RSP + 0x20],R8
MOV dword ptr [RSP + 0x1c],R9D
MOV dword ptr [RSP + 0x18],0x0
LAB_0019779e:
CMP dword ptr [RSP + 0x18],0x2
JGE 0x0019784e
MOV RAX,qword ptr [RSP + 0x60]
MOVSXD RCX,dword ptr [RSP + 0x18]
SHL RCX,0x4
ADD RAX,RCX
MOV RDI,qword ptr [RAX]
MOV RSI,qword ptr [RAX + 0x8]
CALL 0x00134550
CMP EAX,0x0
JNZ 0x001977ea
MOV RDI,qword ptr [RSP + 0x30]
LEA RSI,[0x215531]
MOV AL,0x0
CALL 0x001335f0
MOV qword ptr [RSP + 0x48],RAX
MOV qword ptr [RSP + 0x50],RDX
JMP 0x0019785f
LAB_001977ea:
MOV RAX,qword ptr [RSP + 0x60]
MOVSXD RCX,dword ptr [RSP + 0x18]
SHL RCX,0x4
ADD RAX,RCX
MOV qword ptr [RSP],RAX
MOV RAX,qword ptr [RSP + 0x20]
MOVSXD RCX,dword ptr [RSP + 0x18]
SHL RCX,0x4
ADD RAX,RCX
MOV RDI,qword ptr [RAX]
MOV RSI,qword ptr [RAX + 0x8]
CALL 0x001279c0
MOV RCX,RAX
MOV RAX,qword ptr [RSP]
MOV qword ptr [RSP + 0x8],RCX
MOV qword ptr [RSP + 0x10],RDX
MOV RCX,qword ptr [RSP + 0x8]
MOV qword ptr [RAX],RCX
MOV RCX,qword ptr [RSP + 0x10]
MOV qword ptr [RAX + 0x8],RCX
MOV EAX,dword ptr [RSP + 0x18]
ADD EAX,0x1
MOV dword ptr [RSP + 0x18],EAX
JMP 0x0019779e
LAB_0019784e:
MOV dword ptr [RSP + 0x48],0x0
MOV qword ptr [RSP + 0x50],0x3
LAB_0019785f:
MOV RAX,qword ptr [RSP + 0x48]
MOV RDX,qword ptr [RSP + 0x50]
ADD RSP,0x58
RET
|
int1 [16] js_promise_executor(int8 param_1)
{
int iVar1;
int8 *puVar2;
long in_R8;
int1 auVar3 [16];
long in_stack_00000008;
int local_40;
int4 local_10;
int4 uStack_c;
int8 local_8;
local_40 = 0;
do {
if (1 < local_40) {
local_10 = 0;
local_8 = 3;
LAB_0019785f:
auVar3._4_4_ = uStack_c;
auVar3._0_4_ = local_10;
auVar3._8_8_ = local_8;
return auVar3;
}
puVar2 = (int8 *)(in_stack_00000008 + (long)local_40 * 0x10);
iVar1 = JS_IsUndefined(*puVar2,puVar2[1]);
if (iVar1 == 0) {
auVar3 = JS_ThrowTypeError(param_1,"resolving function already set");
local_8 = auVar3._8_8_;
local_10 = auVar3._0_4_;
uStack_c = auVar3._4_4_;
goto LAB_0019785f;
}
puVar2 = (int8 *)(in_R8 + (long)local_40 * 0x10);
auVar3 = js_dup(*puVar2,puVar2[1]);
*(int1 (*) [16])(in_stack_00000008 + (long)local_40 * 0x10) = auVar3;
local_40 = local_40 + 1;
} while( true );
}
|
|
4,448 | js_promise_executor | bluesky950520[P]quickjs/quickjs.c | static JSValue js_promise_executor(JSContext *ctx,
JSValue this_val,
int argc, JSValue *argv,
int magic, JSValue *func_data)
{
int i;
for(i = 0; i < 2; i++) {
if (!JS_IsUndefined(func_data[i]))
return JS_ThrowTypeError(ctx, "resolving function already set");
func_data[i] = js_dup(argv[i]);
}
return JS_UNDEFINED;
} | O2 | c | js_promise_executor:
pushq %rax
movq 0x10(%rsp), %rax
xorl %ecx, %ecx
pushq $0x3
popq %rdx
cmpq $0x20, %rcx
je 0x4a759
cmpl $0x3, 0x8(%rax,%rcx)
jne 0x4a748
movq (%r8,%rcx), %rsi
movq 0x8(%r8,%rcx), %r9
cmpl $-0x9, %r9d
jb 0x4a739
incl (%rsi)
movq %rsi, (%rax,%rcx)
movq %r9, 0x8(%rax,%rcx)
addq $0x10, %rcx
jmp 0x4a71b
leaq 0x3fd30(%rip), %rsi # 0x8a47f
xorl %eax, %eax
callq 0x201fd
pushq $0x6
popq %rdx
xorl %eax, %eax
popq %rcx
retq
| js_promise_executor:
push rax
mov rax, [rsp+8+arg_0]
xor ecx, ecx
push 3
pop rdx
loc_4A71B:
cmp rcx, 20h ; ' '
jz short loc_4A759
cmp dword ptr [rax+rcx+8], 3
jnz short loc_4A748
mov rsi, [r8+rcx]
mov r9, [r8+rcx+8]
cmp r9d, 0FFFFFFF7h
jb short loc_4A739
inc dword ptr [rsi]
loc_4A739:
mov [rax+rcx], rsi
mov [rax+rcx+8], r9
add rcx, 10h
jmp short loc_4A71B
loc_4A748:
lea rsi, aResolvingFunct; "resolving function already set"
xor eax, eax
call JS_ThrowTypeError
push 6
pop rdx
loc_4A759:
xor eax, eax
pop rcx
retn
| long long js_promise_executor(
long long a1,
__m128 a2,
__m128 a3,
__m128 a4,
__m128 a5,
__m128 a6,
__m128 a7,
__m128 a8,
__m128 a9,
long long a10,
long long a11,
long long a12,
long long a13,
long long a14,
long long a15)
{
char v15; // al
long long i; // rcx
_DWORD *v17; // rsi
for ( i = 0LL; i != 32; i += 16LL )
{
if ( *(_DWORD *)(a15 + i + 8) != 3 )
{
JS_ThrowTypeError(
a1,
(long long)"resolving function already set",
3LL,
i,
a13,
a14,
a2,
a3,
a4,
a5,
a6,
a7,
a8,
a9,
v15);
return 0LL;
}
v17 = *(_DWORD **)(a13 + i);
a14 = *(_QWORD *)(a13 + i + 8);
if ( (unsigned int)a14 >= 0xFFFFFFF7 )
++*v17;
*(_QWORD *)(a15 + i) = v17;
*(_QWORD *)(a15 + i + 8) = a14;
}
return 0LL;
}
| js_promise_executor:
PUSH RAX
MOV RAX,qword ptr [RSP + 0x10]
XOR ECX,ECX
PUSH 0x3
POP RDX
LAB_0014a71b:
CMP RCX,0x20
JZ 0x0014a759
CMP dword ptr [RAX + RCX*0x1 + 0x8],0x3
JNZ 0x0014a748
MOV RSI,qword ptr [R8 + RCX*0x1]
MOV R9,qword ptr [R8 + RCX*0x1 + 0x8]
CMP R9D,-0x9
JC 0x0014a739
INC dword ptr [RSI]
LAB_0014a739:
MOV qword ptr [RAX + RCX*0x1],RSI
MOV qword ptr [RAX + RCX*0x1 + 0x8],R9
ADD RCX,0x10
JMP 0x0014a71b
LAB_0014a748:
LEA RSI,[0x18a47f]
XOR EAX,EAX
CALL 0x001201fd
PUSH 0x6
POP RDX
LAB_0014a759:
XOR EAX,EAX
POP RCX
RET
|
int1 [16] js_promise_executor(int8 param_1)
{
int *piVar1;
int8 uVar2;
int1 auVar3 [16];
long lVar4;
ulong uVar5;
long in_R8;
long in_stack_00000008;
lVar4 = 0;
uVar5 = 3;
do {
if (lVar4 == 0x20) {
LAB_0014a759:
auVar3._8_8_ = 0;
auVar3._0_8_ = uVar5;
return auVar3 << 0x40;
}
if (*(int *)(in_stack_00000008 + 8 + lVar4) != 3) {
JS_ThrowTypeError(param_1,"resolving function already set",3);
uVar5 = 6;
goto LAB_0014a759;
}
piVar1 = *(int **)(in_R8 + lVar4);
uVar2 = *(int8 *)(in_R8 + 8 + lVar4);
if (0xfffffff6 < (uint)uVar2) {
*piVar1 = *piVar1 + 1;
}
*(int **)(in_stack_00000008 + lVar4) = piVar1;
*(int8 *)(in_stack_00000008 + 8 + lVar4) = uVar2;
lVar4 = lVar4 + 0x10;
} while( true );
}
|
|
4,449 | js_map_iterator_mark | bluesky950520[P]quickjs/quickjs.c | static void js_map_iterator_mark(JSRuntime *rt, JSValue val,
JS_MarkFunc *mark_func)
{
JSObject *p = JS_VALUE_GET_OBJ(val);
JSMapIteratorData *it;
it = p->u.map_iterator_data;
if (it) {
/* the record is already marked by the object */
JS_MarkValue(rt, it->obj, mark_func);
}
} | O3 | c | js_map_iterator_mark:
movq 0x30(%rsi), %rax
testq %rax, %rax
je 0x3bbc8
movl 0x8(%rax), %edx
notl %edx
testl $0xfffffffe, %edx # imm = 0xFFFFFFFE
jne 0x3bbc8
movq (%rax), %rsi
jmpq *%rcx
retq
| js_map_iterator_mark:
mov rax, [rsi+30h]
test rax, rax
jz short locret_3BBC8
mov edx, [rax+8]
not edx
test edx, 0FFFFFFFEh
jnz short locret_3BBC8
mov rsi, [rax]
jmp rcx
locret_3BBC8:
retn
| long long js_map_iterator_mark(long long a1, long long a2, long long a3, long long ( *a4)(long long, _QWORD))
{
long long result; // rax
result = *(_QWORD *)(a2 + 48);
if ( result )
{
if ( (~*(_DWORD *)(result + 8) & 0xFFFFFFFE) == 0 )
return a4(a1, *(_QWORD *)result);
}
return result;
}
| js_map_iterator_mark:
MOV RAX,qword ptr [RSI + 0x30]
TEST RAX,RAX
JZ 0x0013bbc8
MOV EDX,dword ptr [RAX + 0x8]
NOT EDX
TEST EDX,0xfffffffe
JNZ 0x0013bbc8
MOV RSI,qword ptr [RAX]
JMP RCX
LAB_0013bbc8:
RET
|
void js_map_iterator_mark
(int8 param_1,long param_2,int8 param_3,code *UNRECOVERED_JUMPTABLE)
{
int8 *puVar1;
puVar1 = *(int8 **)(param_2 + 0x30);
if ((puVar1 != (int8 *)0x0) && ((~*(uint *)(puVar1 + 1) & 0xfffffffe) == 0)) {
/* WARNING: Could not recover jumptable at 0x0013bbc6. Too many branches */
/* WARNING: Treating indirect jump as call */
(*UNRECOVERED_JUMPTABLE)(param_1,*puVar1);
return;
}
return;
}
|
|
4,450 | init_available_charsets | eloqsql/mysys/charset.c | static void init_available_charsets(void)
{
char fname[FN_REFLEN + sizeof(MY_CHARSET_INDEX)];
struct charset_info_st **cs;
MY_CHARSET_LOADER loader;
DBUG_ENTER("init_available_charsets");
bzero((char*) &all_charsets,sizeof(all_charsets));
bzero((char*) &my_collation_statistics, sizeof(my_collation_statistics));
my_hash_init2(key_memory_charsets, &charset_name_hash, 16,
&my_charset_latin1, 64, 0, 0, get_charset_key,
0, 0, HASH_UNIQUE);
init_compiled_charsets(MYF(0));
/* Copy compiled charsets */
for (cs= (struct charset_info_st**) all_charsets;
cs < (struct charset_info_st**) all_charsets +
array_elements(all_charsets)-1 ;
cs++)
{
if (*cs)
{
DBUG_ASSERT(cs[0]->mbmaxlen <= MY_CS_MBMAXLEN);
if (cs[0]->m_ctype)
if (init_state_maps(*cs))
*cs= NULL;
}
}
my_charset_loader_init_mysys(&loader);
strmov(get_charsets_dir(fname), MY_CHARSET_INDEX);
my_read_charset_file(&loader, fname, MYF(0));
DBUG_VOID_RETURN;
} | O0 | c | init_available_charsets:
pushq %rbp
movq %rsp, %rbp
subq $0x300, %rsp # imm = 0x300
movq %fs:0x28, %rax
movq %rax, -0x8(%rbp)
leaq 0x386a31(%rip), %rdi # 0x3eff60
xorl %esi, %esi
movl $0x4000, %edx # imm = 0x4000
callq 0x281d0
leaq 0x38aa8e(%rip), %rdi # 0x3f3fd0
xorl %esi, %esi
movl $0x4000, %edx # imm = 0x4000
callq 0x281d0
leaq 0x38f657(%rip), %rax # 0x3f8bac
movl (%rax), %edi
leaq 0x38aa02(%rip), %rsi # 0x3f3f60
movl $0x10, %edx
leaq 0x275946(%rip), %rcx # 0x2deeb0
movl $0x40, %r8d
xorl %eax, %eax
movl %eax, %r9d
leaq 0x1ab4(%rip), %rax # 0x6b030
movq $0x0, (%rsp)
movq %rax, 0x8(%rsp)
movq $0x0, 0x10(%rsp)
movq $0x0, 0x18(%rsp)
movl $0x1, 0x20(%rsp)
callq 0x6b9a0
xorl %eax, %eax
movl %eax, %edi
callq 0x89e30
leaq 0x3869a8(%rip), %rax # 0x3eff60
movq %rax, -0x2d8(%rbp)
leaq 0x38699a(%rip), %rax # 0x3eff60
addq $0x4000, %rax # imm = 0x4000
addq $-0x8, %rax
cmpq %rax, -0x2d8(%rbp)
jae 0x69636
movq -0x2d8(%rbp), %rax
cmpq $0x0, (%rax)
je 0x69620
jmp 0x695e8
jmp 0x695ea
movq -0x2d8(%rbp), %rax
movq (%rax), %rax
cmpq $0x0, 0x40(%rax)
je 0x6961e
movq -0x2d8(%rbp), %rax
movq (%rax), %rdi
callq 0x6ab90
cmpb $0x0, %al
je 0x6961c
movq -0x2d8(%rbp), %rax
movq $0x0, (%rax)
jmp 0x6961e
jmp 0x69620
jmp 0x69622
movq -0x2d8(%rbp), %rax
addq $0x8, %rax
movq %rax, -0x2d8(%rbp)
jmp 0x695bf
leaq -0x2d0(%rbp), %rdi
callq 0x68b30
leaq -0x220(%rbp), %rdi
callq 0x691d0
movq %rax, %rdi
leaq 0x70297(%rip), %rsi # 0xd98ef
callq 0x28370
leaq -0x220(%rbp), %rsi
leaq -0x2d0(%rbp), %rdi
xorl %eax, %eax
movl %eax, %edx
callq 0x6b070
jmp 0x69676
movq %fs:0x28, %rax
movq -0x8(%rbp), %rcx
cmpq %rcx, %rax
jne 0x69691
addq $0x300, %rsp # imm = 0x300
popq %rbp
retq
callq 0x283b0
nopw %cs:(%rax,%rax)
| init_available_charsets:
push rbp
mov rbp, rsp
sub rsp, 300h
mov rax, fs:28h
mov [rbp+var_8], rax
lea rdi, all_charsets
xor esi, esi
mov edx, 4000h
call _memset
lea rdi, my_collation_statistics
xor esi, esi
mov edx, 4000h
call _memset
lea rax, key_memory_charsets
mov edi, [rax]
lea rsi, charset_name_hash
mov edx, 10h
lea rcx, my_charset_latin1
mov r8d, 40h ; '@'
xor eax, eax
mov r9d, eax
lea rax, get_charset_key
mov [rsp+300h+var_300], 0
mov [rsp+300h+var_2F8], rax
mov [rsp+300h+var_2F0], 0
mov [rsp+300h+var_2E8], 0
mov [rsp+300h+var_2E0], 1
call my_hash_init2
xor eax, eax
mov edi, eax
call init_compiled_charsets
lea rax, all_charsets
mov [rbp+var_2D8], rax
loc_695BF:
lea rax, all_charsets
add rax, 4000h
add rax, 0FFFFFFFFFFFFFFF8h
cmp [rbp+var_2D8], rax
jnb short loc_69636
mov rax, [rbp+var_2D8]
cmp qword ptr [rax], 0
jz short loc_69620
jmp short $+2
loc_695E8:
jmp short $+2
loc_695EA:
mov rax, [rbp+var_2D8]
mov rax, [rax]
cmp qword ptr [rax+40h], 0
jz short loc_6961E
mov rax, [rbp+var_2D8]
mov rdi, [rax]
call init_state_maps
cmp al, 0
jz short loc_6961C
mov rax, [rbp+var_2D8]
mov qword ptr [rax], 0
loc_6961C:
jmp short $+2
loc_6961E:
jmp short $+2
loc_69620:
jmp short $+2
loc_69622:
mov rax, [rbp+var_2D8]
add rax, 8
mov [rbp+var_2D8], rax
jmp short loc_695BF
loc_69636:
lea rdi, [rbp+var_2D0]
call my_charset_loader_init_mysys
lea rdi, [rbp+var_220]
call get_charsets_dir
mov rdi, rax
lea rsi, aIndexXml; "Index.xml"
call _stpcpy
lea rsi, [rbp+var_220]
lea rdi, [rbp+var_2D0]
xor eax, eax
mov edx, eax
call my_read_charset_file
jmp short $+2
loc_69676:
mov rax, fs:28h
mov rcx, [rbp+var_8]
cmp rax, rcx
jnz short loc_69691
add rsp, 300h
pop rbp
retn
loc_69691:
call ___stack_chk_fail
| unsigned long long init_available_charsets()
{
long long charsets_dir; // rax
_QWORD *i; // [rsp+28h] [rbp-2D8h]
_BYTE v3[176]; // [rsp+30h] [rbp-2D0h] BYREF
_BYTE v4[536]; // [rsp+E0h] [rbp-220h] BYREF
unsigned long long v5; // [rsp+2F8h] [rbp-8h]
v5 = __readfsqword(0x28u);
memset(all_charsets, 0LL, sizeof(all_charsets));
memset(my_collation_statistics, 0LL, sizeof(my_collation_statistics));
my_hash_init2(
key_memory_charsets,
(unsigned int)&charset_name_hash,
16,
(unsigned int)&my_charset_latin1,
64,
0,
0LL,
(long long)get_charset_key,
0LL,
0LL,
1);
init_compiled_charsets(0LL);
for ( i = all_charsets; i < &all_charsets[2047]; ++i )
{
if ( *i && *(_QWORD *)(*i + 64LL) )
{
if ( (unsigned __int8)init_state_maps(*i) )
*i = 0LL;
}
}
my_charset_loader_init_mysys((long long)v3);
charsets_dir = get_charsets_dir((long long)v4);
stpcpy(charsets_dir, "Index.xml");
my_read_charset_file(v3, v4, 0LL);
return __readfsqword(0x28u);
}
| init_available_charsets:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x300
MOV RAX,qword ptr FS:[0x28]
MOV qword ptr [RBP + -0x8],RAX
LEA RDI,[0x4eff60]
XOR ESI,ESI
MOV EDX,0x4000
CALL 0x001281d0
LEA RDI,[0x4f3fd0]
XOR ESI,ESI
MOV EDX,0x4000
CALL 0x001281d0
LEA RAX,[0x4f8bac]
MOV EDI,dword ptr [RAX]
LEA RSI,[0x4f3f60]
MOV EDX,0x10
LEA RCX,[0x3deeb0]
MOV R8D,0x40
XOR EAX,EAX
MOV R9D,EAX
LEA RAX,[0x16b030]
MOV qword ptr [RSP],0x0
MOV qword ptr [RSP + 0x8],RAX
MOV qword ptr [RSP + 0x10],0x0
MOV qword ptr [RSP + 0x18],0x0
MOV dword ptr [RSP + 0x20],0x1
CALL 0x0016b9a0
XOR EAX,EAX
MOV EDI,EAX
CALL 0x00189e30
LEA RAX,[0x4eff60]
MOV qword ptr [RBP + -0x2d8],RAX
LAB_001695bf:
LEA RAX,[0x4eff60]
ADD RAX,0x4000
ADD RAX,-0x8
CMP qword ptr [RBP + -0x2d8],RAX
JNC 0x00169636
MOV RAX,qword ptr [RBP + -0x2d8]
CMP qword ptr [RAX],0x0
JZ 0x00169620
JMP 0x001695e8
LAB_001695e8:
JMP 0x001695ea
LAB_001695ea:
MOV RAX,qword ptr [RBP + -0x2d8]
MOV RAX,qword ptr [RAX]
CMP qword ptr [RAX + 0x40],0x0
JZ 0x0016961e
MOV RAX,qword ptr [RBP + -0x2d8]
MOV RDI,qword ptr [RAX]
CALL 0x0016ab90
CMP AL,0x0
JZ 0x0016961c
MOV RAX,qword ptr [RBP + -0x2d8]
MOV qword ptr [RAX],0x0
LAB_0016961c:
JMP 0x0016961e
LAB_0016961e:
JMP 0x00169620
LAB_00169620:
JMP 0x00169622
LAB_00169622:
MOV RAX,qword ptr [RBP + -0x2d8]
ADD RAX,0x8
MOV qword ptr [RBP + -0x2d8],RAX
JMP 0x001695bf
LAB_00169636:
LEA RDI,[RBP + -0x2d0]
CALL 0x00168b30
LEA RDI,[RBP + -0x220]
CALL 0x001691d0
MOV RDI,RAX
LEA RSI,[0x1d98ef]
CALL 0x00128370
LEA RSI,[RBP + -0x220]
LEA RDI,[RBP + -0x2d0]
XOR EAX,EAX
MOV EDX,EAX
CALL 0x0016b070
JMP 0x00169676
LAB_00169676:
MOV RAX,qword ptr FS:[0x28]
MOV RCX,qword ptr [RBP + -0x8]
CMP RAX,RCX
JNZ 0x00169691
ADD RSP,0x300
POP RBP
RET
LAB_00169691:
CALL 0x001283b0
|
void init_available_charsets(void)
{
char cVar1;
char *__dest;
long in_FS_OFFSET;
long *local_2e0;
int1 local_2d8 [176];
int1 local_228 [536];
long local_10;
local_10 = *(long *)(in_FS_OFFSET + 0x28);
memset(&all_charsets,0,0x4000);
memset(my_collation_statistics,0,0x4000);
my_hash_init2(key_memory_charsets,charset_name_hash,0x10,&my_charset_latin1,0x40,0,0,
get_charset_key,0,0,1);
init_compiled_charsets(0);
for (local_2e0 = &all_charsets; local_2e0 < (long *)0x4f3f58; local_2e0 = local_2e0 + 1) {
if (((*local_2e0 != 0) && (*(long *)(*local_2e0 + 0x40) != 0)) &&
(cVar1 = init_state_maps(*local_2e0), cVar1 != '\0')) {
*local_2e0 = 0;
}
}
my_charset_loader_init_mysys(local_2d8);
__dest = (char *)get_charsets_dir(local_228);
stpcpy(__dest,"Index.xml");
my_read_charset_file(local_2d8,local_228,0);
if (*(long *)(in_FS_OFFSET + 0x28) != local_10) {
/* WARNING: Subroutine does not return */
__stack_chk_fail();
}
return;
}
|
|
4,451 | my_mb_wc_utf8mb4_quick | eloqsql/strings/ctype-utf8.h | static inline int
my_mb_wc_utf8mb4_quick(my_wc_t *pwc, const uchar *s, const uchar *e)
{
uchar c;
if (s >= e)
return MY_CS_TOOSMALL;
c= s[0];
if (c < 0x80)
{
*pwc= c;
return 1;
}
else if (c < 0xc2)
return MY_CS_ILSEQ;
else if (c < 0xe0)
{
if (s + 2 > e) /* We need 2 characters */
return MY_CS_TOOSMALL2;
if (!(IS_CONTINUATION_BYTE(s[1])))
return MY_CS_ILSEQ;
*pwc= UTF8MB2_CODE(c, s[1]);
return 2;
}
else if (c < 0xf0)
{
if (s + 3 > e) /* We need 3 characters */
return MY_CS_TOOSMALL3;
if (!IS_UTF8MB3_STEP2(c, s[1], s[2]))
return MY_CS_ILSEQ;
*pwc= UTF8MB3_CODE(c, s[1], s[2]);
return 3;
}
else if (c < 0xf5)
{
if (s + 4 > e) /* We need 4 characters */
return MY_CS_TOOSMALL4;
if (!IS_UTF8MB4_STEP2(c, s[1], s[2], s[3]))
return MY_CS_ILSEQ;
*pwc= UTF8MB4_CODE(c, s[1], s[2], s[3]);
return 4;
}
return MY_CS_ILSEQ;
} | O0 | c | my_mb_wc_utf8mb4_quick:
pushq %rbp
movq %rsp, %rbp
movq %rdi, -0x10(%rbp)
movq %rsi, -0x18(%rbp)
movq %rdx, -0x20(%rbp)
movq -0x18(%rbp), %rax
cmpq -0x20(%rbp), %rax
jb 0xc7866
movl $0xffffff9b, -0x4(%rbp) # imm = 0xFFFFFF9B
jmp 0xc7ae3
movq -0x18(%rbp), %rax
movb (%rax), %al
movb %al, -0x21(%rbp)
movzbl -0x21(%rbp), %eax
cmpl $0x80, %eax
jge 0xc7893
movzbl -0x21(%rbp), %eax
movl %eax, %ecx
movq -0x10(%rbp), %rax
movq %rcx, (%rax)
movl $0x1, -0x4(%rbp)
jmp 0xc7ae3
movzbl -0x21(%rbp), %eax
cmpl $0xc2, %eax
jge 0xc78aa
movl $0x0, -0x4(%rbp)
jmp 0xc7ae3
movzbl -0x21(%rbp), %eax
cmpl $0xe0, %eax
jge 0xc7920
movq -0x18(%rbp), %rax
addq $0x2, %rax
cmpq -0x20(%rbp), %rax
jbe 0xc78cf
movl $0xffffff9a, -0x4(%rbp) # imm = 0xFFFFFF9A
jmp 0xc7ae3
movq -0x18(%rbp), %rax
movzbl 0x1(%rax), %eax
xorl $0x80, %eax
cmpl $0x40, %eax
jl 0xc78ed
movl $0x0, -0x4(%rbp)
jmp 0xc7ae3
movzbl -0x21(%rbp), %eax
andl $0x1f, %eax
movslq %eax, %rcx
shlq $0x6, %rcx
movq -0x18(%rbp), %rax
movzbl 0x1(%rax), %eax
xorl $0x80, %eax
cltq
orq %rax, %rcx
movq -0x10(%rbp), %rax
movq %rcx, (%rax)
movl $0x2, -0x4(%rbp)
jmp 0xc7ae3
movzbl -0x21(%rbp), %eax
cmpl $0xf0, %eax
jge 0xc79dc
movq -0x18(%rbp), %rax
addq $0x3, %rax
cmpq -0x20(%rbp), %rax
jbe 0xc7949
movl $0xffffff99, -0x4(%rbp) # imm = 0xFFFFFF99
jmp 0xc7ae3
movq -0x18(%rbp), %rax
movzbl 0x1(%rax), %eax
xorl $0x80, %eax
cmpl $0x40, %eax
jge 0xc7987
movq -0x18(%rbp), %rax
movzbl 0x2(%rax), %eax
xorl $0x80, %eax
cmpl $0x40, %eax
jge 0xc7987
movzbl -0x21(%rbp), %eax
cmpl $0xe1, %eax
jge 0xc7993
movq -0x18(%rbp), %rax
movzbl 0x1(%rax), %eax
cmpl $0xa0, %eax
jge 0xc7993
movl $0x0, -0x4(%rbp)
jmp 0xc7ae3
movzbl -0x21(%rbp), %eax
andl $0xf, %eax
movslq %eax, %rcx
shlq $0xc, %rcx
movq -0x18(%rbp), %rax
movzbl 0x1(%rax), %eax
xorl $0x80, %eax
cltq
shlq $0x6, %rax
orq %rax, %rcx
movq -0x18(%rbp), %rax
movzbl 0x2(%rax), %eax
xorl $0x80, %eax
cltq
orq %rax, %rcx
movq -0x10(%rbp), %rax
movq %rcx, (%rax)
movl $0x3, -0x4(%rbp)
jmp 0xc7ae3
movzbl -0x21(%rbp), %eax
cmpl $0xf5, %eax
jge 0xc7ad4
movq -0x18(%rbp), %rax
addq $0x4, %rax
cmpq -0x20(%rbp), %rax
jbe 0xc7a05
movl $0xffffff98, -0x4(%rbp) # imm = 0xFFFFFF98
jmp 0xc7ae3
movq -0x18(%rbp), %rax
movzbl 0x1(%rax), %eax
xorl $0x80, %eax
cmpl $0x40, %eax
jge 0xc7a6f
movq -0x18(%rbp), %rax
movzbl 0x2(%rax), %eax
xorl $0x80, %eax
cmpl $0x40, %eax
jge 0xc7a6f
movq -0x18(%rbp), %rax
movzbl 0x3(%rax), %eax
xorl $0x80, %eax
cmpl $0x40, %eax
jge 0xc7a6f
movzbl -0x21(%rbp), %eax
cmpl $0xf1, %eax
jge 0xc7a55
movq -0x18(%rbp), %rax
movzbl 0x1(%rax), %eax
cmpl $0x90, %eax
jl 0xc7a6f
movzbl -0x21(%rbp), %eax
cmpl $0xf3, %eax
jle 0xc7a78
movq -0x18(%rbp), %rax
movzbl 0x1(%rax), %eax
cmpl $0x8f, %eax
jle 0xc7a78
movl $0x0, -0x4(%rbp)
jmp 0xc7ae3
movzbl -0x21(%rbp), %eax
andl $0x7, %eax
movslq %eax, %rcx
shlq $0x12, %rcx
movq -0x18(%rbp), %rax
movzbl 0x1(%rax), %eax
xorl $0x80, %eax
cltq
shlq $0xc, %rax
orq %rax, %rcx
movq -0x18(%rbp), %rax
movzbl 0x2(%rax), %eax
xorl $0x80, %eax
cltq
shlq $0x6, %rax
orq %rax, %rcx
movq -0x18(%rbp), %rax
movzbl 0x3(%rax), %eax
xorl $0x80, %eax
cltq
orq %rax, %rcx
movq -0x10(%rbp), %rax
movq %rcx, (%rax)
movl $0x4, -0x4(%rbp)
jmp 0xc7ae3
jmp 0xc7ad6
jmp 0xc7ad8
jmp 0xc7ada
jmp 0xc7adc
movl $0x0, -0x4(%rbp)
movl -0x4(%rbp), %eax
popq %rbp
retq
nopl (%rax,%rax)
| my_mb_wc_utf8mb4_quick_0:
push rbp
mov rbp, rsp
mov [rbp+var_10], rdi
mov [rbp+var_18], rsi
mov [rbp+var_20], rdx
mov rax, [rbp+var_18]
cmp rax, [rbp+var_20]
jb short loc_C7866
mov [rbp+var_4], 0FFFFFF9Bh
jmp loc_C7AE3
loc_C7866:
mov rax, [rbp+var_18]
mov al, [rax]
mov [rbp+var_21], al
movzx eax, [rbp+var_21]
cmp eax, 80h
jge short loc_C7893
movzx eax, [rbp+var_21]
mov ecx, eax
mov rax, [rbp+var_10]
mov [rax], rcx
mov [rbp+var_4], 1
jmp loc_C7AE3
loc_C7893:
movzx eax, [rbp+var_21]
cmp eax, 0C2h
jge short loc_C78AA
mov [rbp+var_4], 0
jmp loc_C7AE3
loc_C78AA:
movzx eax, [rbp+var_21]
cmp eax, 0E0h
jge short loc_C7920
mov rax, [rbp+var_18]
add rax, 2
cmp rax, [rbp+var_20]
jbe short loc_C78CF
mov [rbp+var_4], 0FFFFFF9Ah
jmp loc_C7AE3
loc_C78CF:
mov rax, [rbp+var_18]
movzx eax, byte ptr [rax+1]
xor eax, 80h
cmp eax, 40h ; '@'
jl short loc_C78ED
mov [rbp+var_4], 0
jmp loc_C7AE3
loc_C78ED:
movzx eax, [rbp+var_21]
and eax, 1Fh
movsxd rcx, eax
shl rcx, 6
mov rax, [rbp+var_18]
movzx eax, byte ptr [rax+1]
xor eax, 80h
cdqe
or rcx, rax
mov rax, [rbp+var_10]
mov [rax], rcx
mov [rbp+var_4], 2
jmp loc_C7AE3
loc_C7920:
movzx eax, [rbp+var_21]
cmp eax, 0F0h
jge loc_C79DC
mov rax, [rbp+var_18]
add rax, 3
cmp rax, [rbp+var_20]
jbe short loc_C7949
mov [rbp+var_4], 0FFFFFF99h
jmp loc_C7AE3
loc_C7949:
mov rax, [rbp+var_18]
movzx eax, byte ptr [rax+1]
xor eax, 80h
cmp eax, 40h ; '@'
jge short loc_C7987
mov rax, [rbp+var_18]
movzx eax, byte ptr [rax+2]
xor eax, 80h
cmp eax, 40h ; '@'
jge short loc_C7987
movzx eax, [rbp+var_21]
cmp eax, 0E1h
jge short loc_C7993
mov rax, [rbp+var_18]
movzx eax, byte ptr [rax+1]
cmp eax, 0A0h
jge short loc_C7993
loc_C7987:
mov [rbp+var_4], 0
jmp loc_C7AE3
loc_C7993:
movzx eax, [rbp+var_21]
and eax, 0Fh
movsxd rcx, eax
shl rcx, 0Ch
mov rax, [rbp+var_18]
movzx eax, byte ptr [rax+1]
xor eax, 80h
cdqe
shl rax, 6
or rcx, rax
mov rax, [rbp+var_18]
movzx eax, byte ptr [rax+2]
xor eax, 80h
cdqe
or rcx, rax
mov rax, [rbp+var_10]
mov [rax], rcx
mov [rbp+var_4], 3
jmp loc_C7AE3
loc_C79DC:
movzx eax, [rbp+var_21]
cmp eax, 0F5h
jge loc_C7AD4
mov rax, [rbp+var_18]
add rax, 4
cmp rax, [rbp+var_20]
jbe short loc_C7A05
mov [rbp+var_4], 0FFFFFF98h
jmp loc_C7AE3
loc_C7A05:
mov rax, [rbp+var_18]
movzx eax, byte ptr [rax+1]
xor eax, 80h
cmp eax, 40h ; '@'
jge short loc_C7A6F
mov rax, [rbp+var_18]
movzx eax, byte ptr [rax+2]
xor eax, 80h
cmp eax, 40h ; '@'
jge short loc_C7A6F
mov rax, [rbp+var_18]
movzx eax, byte ptr [rax+3]
xor eax, 80h
cmp eax, 40h ; '@'
jge short loc_C7A6F
movzx eax, [rbp+var_21]
cmp eax, 0F1h
jge short loc_C7A55
mov rax, [rbp+var_18]
movzx eax, byte ptr [rax+1]
cmp eax, 90h
jl short loc_C7A6F
loc_C7A55:
movzx eax, [rbp+var_21]
cmp eax, 0F3h
jle short loc_C7A78
mov rax, [rbp+var_18]
movzx eax, byte ptr [rax+1]
cmp eax, 8Fh
jle short loc_C7A78
loc_C7A6F:
mov [rbp+var_4], 0
jmp short loc_C7AE3
loc_C7A78:
movzx eax, [rbp+var_21]
and eax, 7
movsxd rcx, eax
shl rcx, 12h
mov rax, [rbp+var_18]
movzx eax, byte ptr [rax+1]
xor eax, 80h
cdqe
shl rax, 0Ch
or rcx, rax
mov rax, [rbp+var_18]
movzx eax, byte ptr [rax+2]
xor eax, 80h
cdqe
shl rax, 6
or rcx, rax
mov rax, [rbp+var_18]
movzx eax, byte ptr [rax+3]
xor eax, 80h
cdqe
or rcx, rax
mov rax, [rbp+var_10]
mov [rax], rcx
mov [rbp+var_4], 4
jmp short loc_C7AE3
loc_C7AD4:
jmp short $+2
loc_C7AD6:
jmp short $+2
loc_C7AD8:
jmp short $+2
loc_C7ADA:
jmp short $+2
loc_C7ADC:
mov [rbp+var_4], 0
loc_C7AE3:
mov eax, [rbp+var_4]
pop rbp
retn
| long long my_mb_wc_utf8mb4_quick_0(unsigned long long *a1, unsigned __int8 *a2, unsigned long long a3)
{
unsigned __int8 v4; // [rsp+1h] [rbp-21h]
if ( (unsigned long long)a2 < a3 )
{
v4 = *a2;
if ( *a2 >= 0x80u )
{
if ( v4 >= 0xC2u )
{
if ( v4 >= 0xE0u )
{
if ( v4 >= 0xF0u )
{
if ( v4 >= 0xF5u )
{
return 0;
}
else if ( (unsigned long long)(a2 + 4) <= a3 )
{
if ( (a2[1] ^ 0x80) < 64
&& (a2[2] ^ 0x80) < 64
&& (a2[3] ^ 0x80) < 64
&& (v4 >= 0xF1u || a2[1] >= 0x90u)
&& (v4 <= 0xF3u || a2[1] <= 0x8Fu) )
{
*a1 = a2[3] ^ 0x80u | ((long long)(a2[2] ^ 0x80u) << 6) | ((long long)(a2[1] ^ 0x80u) << 12) | ((unsigned long long)(v4 & 7) << 18);
return 4;
}
else
{
return 0;
}
}
else
{
return (unsigned int)-104;
}
}
else if ( (unsigned long long)(a2 + 3) <= a3 )
{
if ( (a2[1] ^ 0x80) < 64 && (a2[2] ^ 0x80) < 64 && (v4 >= 0xE1u || a2[1] >= 0xA0u) )
{
*a1 = a2[2] ^ 0x80u | ((long long)(a2[1] ^ 0x80u) << 6) | ((unsigned long long)(v4 & 0xF) << 12);
return 3;
}
else
{
return 0;
}
}
else
{
return (unsigned int)-103;
}
}
else if ( (unsigned long long)(a2 + 2) <= a3 )
{
if ( (a2[1] ^ 0x80) < 64 )
{
*a1 = a2[1] ^ 0x80u | ((unsigned long long)(v4 & 0x1F) << 6);
return 2;
}
else
{
return 0;
}
}
else
{
return (unsigned int)-102;
}
}
else
{
return 0;
}
}
else
{
*a1 = v4;
return 1;
}
}
else
{
return (unsigned int)-101;
}
}
| my_mb_wc_utf8mb4_quick:
PUSH RBP
MOV RBP,RSP
MOV qword ptr [RBP + -0x10],RDI
MOV qword ptr [RBP + -0x18],RSI
MOV qword ptr [RBP + -0x20],RDX
MOV RAX,qword ptr [RBP + -0x18]
CMP RAX,qword ptr [RBP + -0x20]
JC 0x001c7866
MOV dword ptr [RBP + -0x4],0xffffff9b
JMP 0x001c7ae3
LAB_001c7866:
MOV RAX,qword ptr [RBP + -0x18]
MOV AL,byte ptr [RAX]
MOV byte ptr [RBP + -0x21],AL
MOVZX EAX,byte ptr [RBP + -0x21]
CMP EAX,0x80
JGE 0x001c7893
MOVZX EAX,byte ptr [RBP + -0x21]
MOV ECX,EAX
MOV RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RAX],RCX
MOV dword ptr [RBP + -0x4],0x1
JMP 0x001c7ae3
LAB_001c7893:
MOVZX EAX,byte ptr [RBP + -0x21]
CMP EAX,0xc2
JGE 0x001c78aa
MOV dword ptr [RBP + -0x4],0x0
JMP 0x001c7ae3
LAB_001c78aa:
MOVZX EAX,byte ptr [RBP + -0x21]
CMP EAX,0xe0
JGE 0x001c7920
MOV RAX,qword ptr [RBP + -0x18]
ADD RAX,0x2
CMP RAX,qword ptr [RBP + -0x20]
JBE 0x001c78cf
MOV dword ptr [RBP + -0x4],0xffffff9a
JMP 0x001c7ae3
LAB_001c78cf:
MOV RAX,qword ptr [RBP + -0x18]
MOVZX EAX,byte ptr [RAX + 0x1]
XOR EAX,0x80
CMP EAX,0x40
JL 0x001c78ed
MOV dword ptr [RBP + -0x4],0x0
JMP 0x001c7ae3
LAB_001c78ed:
MOVZX EAX,byte ptr [RBP + -0x21]
AND EAX,0x1f
MOVSXD RCX,EAX
SHL RCX,0x6
MOV RAX,qword ptr [RBP + -0x18]
MOVZX EAX,byte ptr [RAX + 0x1]
XOR EAX,0x80
CDQE
OR RCX,RAX
MOV RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RAX],RCX
MOV dword ptr [RBP + -0x4],0x2
JMP 0x001c7ae3
LAB_001c7920:
MOVZX EAX,byte ptr [RBP + -0x21]
CMP EAX,0xf0
JGE 0x001c79dc
MOV RAX,qword ptr [RBP + -0x18]
ADD RAX,0x3
CMP RAX,qword ptr [RBP + -0x20]
JBE 0x001c7949
MOV dword ptr [RBP + -0x4],0xffffff99
JMP 0x001c7ae3
LAB_001c7949:
MOV RAX,qword ptr [RBP + -0x18]
MOVZX EAX,byte ptr [RAX + 0x1]
XOR EAX,0x80
CMP EAX,0x40
JGE 0x001c7987
MOV RAX,qword ptr [RBP + -0x18]
MOVZX EAX,byte ptr [RAX + 0x2]
XOR EAX,0x80
CMP EAX,0x40
JGE 0x001c7987
MOVZX EAX,byte ptr [RBP + -0x21]
CMP EAX,0xe1
JGE 0x001c7993
MOV RAX,qword ptr [RBP + -0x18]
MOVZX EAX,byte ptr [RAX + 0x1]
CMP EAX,0xa0
JGE 0x001c7993
LAB_001c7987:
MOV dword ptr [RBP + -0x4],0x0
JMP 0x001c7ae3
LAB_001c7993:
MOVZX EAX,byte ptr [RBP + -0x21]
AND EAX,0xf
MOVSXD RCX,EAX
SHL RCX,0xc
MOV RAX,qword ptr [RBP + -0x18]
MOVZX EAX,byte ptr [RAX + 0x1]
XOR EAX,0x80
CDQE
SHL RAX,0x6
OR RCX,RAX
MOV RAX,qword ptr [RBP + -0x18]
MOVZX EAX,byte ptr [RAX + 0x2]
XOR EAX,0x80
CDQE
OR RCX,RAX
MOV RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RAX],RCX
MOV dword ptr [RBP + -0x4],0x3
JMP 0x001c7ae3
LAB_001c79dc:
MOVZX EAX,byte ptr [RBP + -0x21]
CMP EAX,0xf5
JGE 0x001c7ad4
MOV RAX,qword ptr [RBP + -0x18]
ADD RAX,0x4
CMP RAX,qword ptr [RBP + -0x20]
JBE 0x001c7a05
MOV dword ptr [RBP + -0x4],0xffffff98
JMP 0x001c7ae3
LAB_001c7a05:
MOV RAX,qword ptr [RBP + -0x18]
MOVZX EAX,byte ptr [RAX + 0x1]
XOR EAX,0x80
CMP EAX,0x40
JGE 0x001c7a6f
MOV RAX,qword ptr [RBP + -0x18]
MOVZX EAX,byte ptr [RAX + 0x2]
XOR EAX,0x80
CMP EAX,0x40
JGE 0x001c7a6f
MOV RAX,qword ptr [RBP + -0x18]
MOVZX EAX,byte ptr [RAX + 0x3]
XOR EAX,0x80
CMP EAX,0x40
JGE 0x001c7a6f
MOVZX EAX,byte ptr [RBP + -0x21]
CMP EAX,0xf1
JGE 0x001c7a55
MOV RAX,qword ptr [RBP + -0x18]
MOVZX EAX,byte ptr [RAX + 0x1]
CMP EAX,0x90
JL 0x001c7a6f
LAB_001c7a55:
MOVZX EAX,byte ptr [RBP + -0x21]
CMP EAX,0xf3
JLE 0x001c7a78
MOV RAX,qword ptr [RBP + -0x18]
MOVZX EAX,byte ptr [RAX + 0x1]
CMP EAX,0x8f
JLE 0x001c7a78
LAB_001c7a6f:
MOV dword ptr [RBP + -0x4],0x0
JMP 0x001c7ae3
LAB_001c7a78:
MOVZX EAX,byte ptr [RBP + -0x21]
AND EAX,0x7
MOVSXD RCX,EAX
SHL RCX,0x12
MOV RAX,qword ptr [RBP + -0x18]
MOVZX EAX,byte ptr [RAX + 0x1]
XOR EAX,0x80
CDQE
SHL RAX,0xc
OR RCX,RAX
MOV RAX,qword ptr [RBP + -0x18]
MOVZX EAX,byte ptr [RAX + 0x2]
XOR EAX,0x80
CDQE
SHL RAX,0x6
OR RCX,RAX
MOV RAX,qword ptr [RBP + -0x18]
MOVZX EAX,byte ptr [RAX + 0x3]
XOR EAX,0x80
CDQE
OR RCX,RAX
MOV RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RAX],RCX
MOV dword ptr [RBP + -0x4],0x4
JMP 0x001c7ae3
LAB_001c7ad4:
JMP 0x001c7ad6
LAB_001c7ad6:
JMP 0x001c7ad8
LAB_001c7ad8:
JMP 0x001c7ada
LAB_001c7ada:
JMP 0x001c7adc
LAB_001c7adc:
MOV dword ptr [RBP + -0x4],0x0
LAB_001c7ae3:
MOV EAX,dword ptr [RBP + -0x4]
POP RBP
RET
|
int4 my_mb_wc_utf8mb4_quick(ulong *param_1,byte *param_2,byte *param_3)
{
byte bVar1;
int4 local_c;
if (param_2 < param_3) {
bVar1 = *param_2;
if (bVar1 < 0x80) {
*param_1 = (ulong)bVar1;
local_c = 1;
}
else if (bVar1 < 0xc2) {
local_c = 0;
}
else if (bVar1 < 0xe0) {
if (param_3 < param_2 + 2) {
local_c = 0xffffff9a;
}
else if ((param_2[1] ^ 0x80) < 0x40) {
*param_1 = (long)(int)(bVar1 & 0x1f) << 6 | (long)(int)(param_2[1] ^ 0x80);
local_c = 2;
}
else {
local_c = 0;
}
}
else if (bVar1 < 0xf0) {
if (param_3 < param_2 + 3) {
local_c = 0xffffff99;
}
else if ((((param_2[1] ^ 0x80) < 0x40) && ((param_2[2] ^ 0x80) < 0x40)) &&
((0xe0 < bVar1 || (0x9f < param_2[1])))) {
*param_1 = (long)(int)(bVar1 & 0xf) << 0xc | (long)(int)(param_2[1] ^ 0x80) << 6 |
(long)(int)(param_2[2] ^ 0x80);
local_c = 3;
}
else {
local_c = 0;
}
}
else if (bVar1 < 0xf5) {
if (param_3 < param_2 + 4) {
local_c = 0xffffff98;
}
else if ((((((param_2[1] ^ 0x80) < 0x40) && ((param_2[2] ^ 0x80) < 0x40)) &&
((param_2[3] ^ 0x80) < 0x40)) && ((0xf0 < bVar1 || (0x8f < param_2[1])))) &&
((bVar1 < 0xf4 || (param_2[1] < 0x90)))) {
*param_1 = (long)(int)(bVar1 & 7) << 0x12 | (long)(int)(param_2[1] ^ 0x80) << 0xc |
(long)(int)(param_2[2] ^ 0x80) << 6 | (long)(int)(param_2[3] ^ 0x80);
local_c = 4;
}
else {
local_c = 0;
}
}
else {
local_c = 0;
}
}
else {
local_c = 0xffffff9b;
}
return local_c;
}
|
|
4,452 | spdlog::logger::logger<std::shared_ptr<spdlog::sinks::sink> const*>(std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, std::shared_ptr<spdlog::sinks::sink> const*, std::shared_ptr<spdlog::sinks::sink> const*) | aimrt_mujoco_sim/_deps/spdlog_lib-src/include/spdlog/logger.h | logger(std::string name, It begin, It end)
: name_(std::move(name))
, sinks_(begin, end)
{} | O0 | c | spdlog::logger::logger<std::shared_ptr<spdlog::sinks::sink> const*>(std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>>, std::shared_ptr<spdlog::sinks::sink> const*, std::shared_ptr<spdlog::sinks::sink> const*):
subq $0x68, %rsp
movq %rdi, 0x60(%rsp)
movq %rsi, 0x58(%rsp)
movq %rdx, 0x50(%rsp)
movq %rcx, 0x48(%rsp)
movq 0x60(%rsp), %rdi
movq %rdi, 0x8(%rsp)
leaq 0x85bc7(%rip), %rax # 0x1593e0
movq %rax, (%rdi)
addq $0x8, %rdi
movq %rdi, (%rsp)
callq 0x1a430
movq 0x8(%rsp), %rax
addq $0x28, %rax
movq %rax, 0x10(%rsp)
movq 0x50(%rsp), %rax
movq %rax, 0x18(%rsp)
movq 0x48(%rsp), %rax
movq %rax, 0x20(%rsp)
leaq 0x47(%rsp), %rdi
movq %rdi, 0x28(%rsp)
callq 0xd3900
movq 0x10(%rsp), %rdi
movq 0x18(%rsp), %rsi
movq 0x20(%rsp), %rdx
movq 0x28(%rsp), %rcx
callq 0xd3910
jmp 0xd3875
leaq 0x47(%rsp), %rdi
callq 0xd39a0
movq 0x8(%rsp), %rdi
addq $0x40, %rdi
movl $0x2, %esi
callq 0xd2b70
movq 0x8(%rsp), %rdi
addq $0x44, %rdi
movl $0x6, %esi
callq 0xd2b70
movq 0x8(%rsp), %rdi
addq $0x48, %rdi
xorl %eax, %eax
movl %eax, %esi
callq 0xd39b0
movq 0x8(%rsp), %rdi
addq $0x68, %rdi
callq 0xd39f0
addq $0x68, %rsp
retq
movq %rax, %rcx
movl %edx, %eax
movq %rcx, 0x38(%rsp)
movl %eax, 0x34(%rsp)
leaq 0x47(%rsp), %rdi
callq 0xd39a0
movq (%rsp), %rdi
callq 0x19e70
movq 0x38(%rsp), %rdi
callq 0x19e80
nopw %cs:(%rax,%rax)
| _ZN6spdlog6loggerC2IPKSt10shared_ptrINS_5sinks4sinkEEEENSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEET_SE_:
sub rsp, 68h
mov [rsp+68h+var_8], rdi
mov [rsp+68h+var_10], rsi
mov [rsp+68h+var_18], rdx
mov [rsp+68h+var_20], rcx
mov rdi, [rsp+68h+var_8]
mov [rsp+68h+var_60], rdi
lea rax, off_1593E0
mov [rdi], rax
add rdi, 8
mov [rsp+68h+var_68], rdi
call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEC1EOS4_; std::string::basic_string(std::string&&)
mov rax, [rsp+68h+var_60]
add rax, 28h ; '('
mov [rsp+68h+var_58], rax
mov rax, [rsp+68h+var_18]
mov [rsp+68h+var_50], rax
mov rax, [rsp+68h+var_20]
mov [rsp+68h+var_48], rax
lea rdi, [rsp+68h+var_21]
mov [rsp+68h+var_40], rdi
call _ZNSaISt10shared_ptrIN6spdlog5sinks4sinkEEEC2Ev; std::allocator<std::shared_ptr<spdlog::sinks::sink>>::allocator(void)
mov rdi, [rsp+68h+var_58]
mov rsi, [rsp+68h+var_50]
mov rdx, [rsp+68h+var_48]
mov rcx, [rsp+68h+var_40]
call _ZNSt6vectorISt10shared_ptrIN6spdlog5sinks4sinkEESaIS4_EEC2IPKS4_vEET_SA_RKS5_; std::vector<std::shared_ptr<spdlog::sinks::sink>>::vector<std::shared_ptr<spdlog::sinks::sink> const*,void>(std::shared_ptr<spdlog::sinks::sink> const*,std::shared_ptr<spdlog::sinks::sink> const*,std::allocator<std::shared_ptr<spdlog::sinks::sink>> const&)
jmp short $+2
loc_D3875:
lea rdi, [rsp+68h+var_21]
call _ZNSaISt10shared_ptrIN6spdlog5sinks4sinkEEED2Ev; std::allocator<std::shared_ptr<spdlog::sinks::sink>>::~allocator()
mov rdi, [rsp+68h+var_60]
add rdi, 40h ; '@'
mov esi, 2
call _ZNSt6atomicIiEC2Ei; std::atomic<int>::atomic(int)
mov rdi, [rsp+68h+var_60]
add rdi, 44h ; 'D'
mov esi, 6
call _ZNSt6atomicIiEC2Ei; std::atomic<int>::atomic(int)
mov rdi, [rsp+68h+var_60]
add rdi, 48h ; 'H'
xor eax, eax
mov esi, eax
call _ZNSt8functionIFvRKNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEEEC2EDn; std::function<void ()(std::string const&)>::function(decltype(nullptr))
mov rdi, [rsp+68h+var_60]
add rdi, 68h ; 'h'; this
call _ZN6spdlog7details10backtracerC2Ev; spdlog::details::backtracer::backtracer(void)
add rsp, 68h
retn
mov rcx, rax
mov eax, edx
mov [rsp+arg_30], rcx
mov [rsp+arg_2C], eax
lea rdi, [rsp+arg_3F]
call _ZNSaISt10shared_ptrIN6spdlog5sinks4sinkEEED2Ev; std::allocator<std::shared_ptr<spdlog::sinks::sink>>::~allocator()
mov rdi, [rsp+0]
call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEED1Ev; std::string::~string()
mov rdi, [rsp+arg_30]
call __Unwind_Resume
| long long spdlog::logger::logger<std::shared_ptr<spdlog::sinks::sink> const*>(
_QWORD *a1,
long long a2,
long long a3,
long long a4)
{
double v4; // xmm0_8
int v5; // r8d
int v6; // r9d
long long v8; // [rsp+8h] [rbp-60h]
int v9; // [rsp+18h] [rbp-50h]
long long v10; // [rsp+20h] [rbp-48h]
char v11; // [rsp+47h] [rbp-21h] BYREF
long long v12; // [rsp+48h] [rbp-20h]
long long v13; // [rsp+50h] [rbp-18h]
long long v14; // [rsp+58h] [rbp-10h]
_QWORD *v15; // [rsp+60h] [rbp-8h]
v15 = a1;
v14 = a2;
v13 = a3;
v12 = a4;
*a1 = off_1593E0;
v4 = std::string::basic_string(a1 + 1, a2);
v9 = v13;
v10 = v12;
std::allocator<std::shared_ptr<spdlog::sinks::sink>>::allocator(v4);
std::vector<std::shared_ptr<spdlog::sinks::sink>>::vector<std::shared_ptr<spdlog::sinks::sink> const*,void>(
(_DWORD)a1 + 40,
v9,
v10,
(unsigned int)&v11,
v5,
v6,
(long long)(a1 + 1),
(_DWORD)a1,
(_DWORD)a1 + 40,
v9,
v10);
std::allocator<std::shared_ptr<spdlog::sinks::sink>>::~allocator(&v11);
std::atomic<int>::atomic(v8 + 64, 2u);
std::atomic<int>::atomic(v8 + 68, 6u);
std::function<void ()(std::string const&)>::function(v8 + 72, 0LL);
return spdlog::details::backtracer::backtracer((spdlog::details::backtracer *)(v8 + 104));
}
| logger<std::shared_ptr<spdlog::sinks::sink>const*>:
SUB RSP,0x68
MOV qword ptr [RSP + 0x60],RDI
MOV qword ptr [RSP + 0x58],RSI
MOV qword ptr [RSP + 0x50],RDX
MOV qword ptr [RSP + 0x48],RCX
MOV RDI,qword ptr [RSP + 0x60]
MOV qword ptr [RSP + 0x8],RDI
LEA RAX,[0x2593e0]
MOV qword ptr [RDI],RAX
ADD RDI,0x8
MOV qword ptr [RSP],RDI
CALL 0x0011a430
MOV RAX,qword ptr [RSP + 0x8]
ADD RAX,0x28
MOV qword ptr [RSP + 0x10],RAX
MOV RAX,qword ptr [RSP + 0x50]
MOV qword ptr [RSP + 0x18],RAX
MOV RAX,qword ptr [RSP + 0x48]
MOV qword ptr [RSP + 0x20],RAX
LEA RDI,[RSP + 0x47]
MOV qword ptr [RSP + 0x28],RDI
CALL 0x001d3900
MOV RDI,qword ptr [RSP + 0x10]
MOV RSI,qword ptr [RSP + 0x18]
MOV RDX,qword ptr [RSP + 0x20]
MOV RCX,qword ptr [RSP + 0x28]
LAB_001d386e:
CALL 0x001d3910
LAB_001d3873:
JMP 0x001d3875
LAB_001d3875:
LEA RDI,[RSP + 0x47]
CALL 0x001d39a0
MOV RDI,qword ptr [RSP + 0x8]
ADD RDI,0x40
MOV ESI,0x2
CALL 0x001d2b70
MOV RDI,qword ptr [RSP + 0x8]
ADD RDI,0x44
MOV ESI,0x6
CALL 0x001d2b70
MOV RDI,qword ptr [RSP + 0x8]
ADD RDI,0x48
XOR EAX,EAX
MOV ESI,EAX
CALL 0x001d39b0
MOV RDI,qword ptr [RSP + 0x8]
ADD RDI,0x68
CALL 0x001d39f0
ADD RSP,0x68
RET
|
/* spdlog::logger::logger<std::shared_ptr<spdlog::sinks::sink> const*>(std::__cxx11::string,
std::shared_ptr<spdlog::sinks::sink> const*, std::shared_ptr<spdlog::sinks::sink> const*) */
void __thiscall
spdlog::logger::logger<std::shared_ptr<spdlog::sinks::sink>const*>
(logger *this,string *param_2,shared_ptr *param_3,shared_ptr *param_4)
{
shared_ptr *psVar1;
shared_ptr *psVar2;
allocator<std::shared_ptr<spdlog::sinks::sink>> local_21;
shared_ptr *local_20;
shared_ptr *local_18;
string *local_10;
logger *local_8;
*(int ***)this = &PTR__logger_002593e0;
local_20 = param_4;
local_18 = param_3;
local_10 = param_2;
local_8 = this;
std::__cxx11::string::string((string *)(this + 8),param_2);
psVar2 = local_18;
psVar1 = local_20;
std::allocator<std::shared_ptr<spdlog::sinks::sink>>::allocator(&local_21);
/* try { // try from 001d386e to 001d3872 has its CatchHandler @ 001d38ca */
std::
vector<std::shared_ptr<spdlog::sinks::sink>,std::allocator<std::shared_ptr<spdlog::sinks::sink>>>
::vector<std::shared_ptr<spdlog::sinks::sink>const*,void>
((vector<std::shared_ptr<spdlog::sinks::sink>,std::allocator<std::shared_ptr<spdlog::sinks::sink>>>
*)(this + 0x28),psVar2,psVar1,(allocator *)&local_21);
std::allocator<std::shared_ptr<spdlog::sinks::sink>>::~allocator(&local_21);
std::atomic<int>::atomic((atomic<int> *)(this + 0x40),2);
std::atomic<int>::atomic((atomic<int> *)(this + 0x44),6);
std::function<void(std::__cxx11::string_const&)>::function
((_func_decltype_nullptr *)(this + 0x48));
details::backtracer::backtracer((backtracer *)(this + 0x68));
return;
}
|
|
4,453 | CLI::App::get_groups[abi:cxx11]() const | MikePodsytnik[P]TCRtrie/build_O2/_deps/cli11-src/include/CLI/impl/App_inl.hpp | CLI11_NODISCARD CLI11_INLINE std::vector<std::string> App::get_groups() const {
std::vector<std::string> groups;
for(const Option_p &opt : options_) {
// Add group if it is not already in there
if(std::find(groups.begin(), groups.end(), opt->get_group()) == groups.end()) {
groups.push_back(opt->get_group());
}
}
return groups;
} | O2 | cpp | CLI::App::get_groups[abi:cxx11]() const:
pushq %r15
pushq %r14
pushq %rbx
movq %rdi, %rbx
andq $0x0, 0x10(%rdi)
xorps %xmm0, %xmm0
movups %xmm0, (%rdi)
movq 0xd8(%rsi), %r14
movq 0xe0(%rsi), %r15
cmpq %r15, %r14
je 0x950e
movq (%rbx), %rdi
movq 0x8(%rbx), %rsi
movq (%r14), %rdx
callq 0xe2ce
cmpq 0x8(%rbx), %rax
jne 0x9508
movq (%r14), %rsi
movq %rbx, %rdi
callq 0xdf4e
addq $0x8, %r14
jmp 0x94e3
movq %rbx, %rax
popq %rbx
popq %r14
popq %r15
retq
jmp 0x9519
movq %rax, %r14
movq %rbx, %rdi
callq 0x99ca
movq %r14, %rdi
callq 0x7770
| _ZNK3CLI3App10get_groupsB5cxx11Ev:
push r15
push r14
push rbx
mov rbx, rdi
and qword ptr [rdi+10h], 0
xorps xmm0, xmm0
movups xmmword ptr [rdi], xmm0
mov r14, [rsi+0D8h]
mov r15, [rsi+0E0h]
loc_94E3:
cmp r14, r15
jz short loc_950E
mov rdi, [rbx]
mov rsi, [rbx+8]
mov rdx, [r14]
call _ZSt9__find_ifIN9__gnu_cxx17__normal_iteratorIPNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEESt6vectorIS7_SaIS7_EEEENS0_5__ops16_Iter_equals_valIKS7_EEET_SH_SH_T0_St26random_access_iterator_tag; std::__find_if<__gnu_cxx::__normal_iterator<std::string *,std::vector<std::string>>,__gnu_cxx::__ops::_Iter_equals_val<std::string const>>(__gnu_cxx::__normal_iterator<std::string *,std::vector<std::string>>,__gnu_cxx::__normal_iterator<std::string *,std::vector<std::string>>,__gnu_cxx::__ops::_Iter_equals_val<std::string const>,std::random_access_iterator_tag)
cmp rax, [rbx+8]
jnz short loc_9508
mov rsi, [r14]
mov rdi, rbx
call _ZNSt6vectorINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEESaIS5_EE9push_backERKS5_; std::vector<std::string>::push_back(std::string const&)
loc_9508:
add r14, 8
jmp short loc_94E3
loc_950E:
mov rax, rbx
pop rbx
pop r14
pop r15
retn
jmp short $+2
loc_9519:
mov r14, rax
mov rdi, rbx
call _ZNSt6vectorINSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEESaIS5_EED2Ev; std::vector<std::string>::~vector()
mov rdi, r14
call __Unwind_Resume
| _QWORD * CLI::App::get_groups[abi:cxx11](_QWORD *a1, long long a2)
{
_QWORD *v2; // r14
_QWORD *v3; // r15
a1[2] = 0LL;
*(_OWORD *)a1 = 0LL;
v2 = *(_QWORD **)(a2 + 216);
v3 = *(_QWORD **)(a2 + 224);
while ( v2 != v3 )
{
if ( std::__find_if<__gnu_cxx::__normal_iterator<std::string *,std::vector<std::string>>,__gnu_cxx::__ops::_Iter_equals_val<std::string const>>(
*a1,
a1[1],
*v2) == a1[1] )
std::vector<std::string>::push_back(a1, *v2);
++v2;
}
return a1;
}
| get_groups[abi:cxx11]:
PUSH R15
PUSH R14
PUSH RBX
MOV RBX,RDI
AND qword ptr [RDI + 0x10],0x0
XORPS XMM0,XMM0
MOVUPS xmmword ptr [RDI],XMM0
MOV R14,qword ptr [RSI + 0xd8]
MOV R15,qword ptr [RSI + 0xe0]
LAB_001094e3:
CMP R14,R15
JZ 0x0010950e
MOV RDI,qword ptr [RBX]
MOV RSI,qword ptr [RBX + 0x8]
MOV RDX,qword ptr [R14]
LAB_001094f2:
CALL 0x0010e2ce
CMP RAX,qword ptr [RBX + 0x8]
JNZ 0x00109508
MOV RSI,qword ptr [R14]
LAB_00109500:
MOV RDI,RBX
CALL 0x0010df4e
LAB_00109508:
ADD R14,0x8
JMP 0x001094e3
LAB_0010950e:
MOV RAX,RBX
POP RBX
POP R14
POP R15
RET
|
/* CLI::App::get_groups[abi:cxx11]() const */
void CLI::App::get_groups_abi_cxx11_(void)
{
int8 *puVar1;
long lVar2;
long in_RSI;
vector<std::__cxx11::string,std::allocator<std::__cxx11::string>> *in_RDI;
int8 *puVar3;
*(int8 *)(in_RDI + 0x10) = 0;
*(int8 *)in_RDI = 0;
*(int8 *)(in_RDI + 8) = 0;
puVar1 = *(int8 **)(in_RSI + 0xe0);
for (puVar3 = *(int8 **)(in_RSI + 0xd8); puVar3 != puVar1; puVar3 = puVar3 + 1) {
/* try { // try from 001094f2 to 001094f6 has its CatchHandler @ 00109519 */
lVar2 = std::
__find_if<__gnu_cxx::__normal_iterator<std::__cxx11::string*,std::vector<std::__cxx11::string,std::allocator<std::__cxx11::string>>>,__gnu_cxx::__ops::_Iter_equals_val<std::__cxx11::string_const>>
(*(int8 *)in_RDI,*(int8 *)(in_RDI + 8),*puVar3);
if (lVar2 == *(long *)(in_RDI + 8)) {
/* try { // try from 00109500 to 00109507 has its CatchHandler @ 00109517 */
std::vector<std::__cxx11::string,std::allocator<std::__cxx11::string>>::push_back
(in_RDI,(string *)*puVar3);
}
}
return;
}
|
|
4,454 | inline_mysql_file_chsize | eloqsql/include/mysql/psi/mysql_file.h | static inline int
inline_mysql_file_chsize(
#ifdef HAVE_PSI_FILE_INTERFACE
const char *src_file, uint src_line,
#endif
File file, my_off_t newlength, int filler, myf flags)
{
int result;
#ifdef HAVE_PSI_FILE_INTERFACE
struct PSI_file_locker *locker;
PSI_file_locker_state state;
locker= PSI_FILE_CALL(get_thread_file_descriptor_locker)(&state, file, PSI_FILE_CHSIZE);
if (psi_likely(locker != NULL))
{
PSI_FILE_CALL(start_file_wait)(locker, (size_t) newlength, src_file,
src_line);
result= my_chsize(file, newlength, filler, flags);
PSI_FILE_CALL(end_file_wait)(locker, (size_t) newlength);
return result;
}
#endif
result= my_chsize(file, newlength, filler, flags);
return result;
} | O3 | c | inline_mysql_file_chsize:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %rbx
subq $0x58, %rsp
movq %rsi, %rbx
movl %edi, %r14d
leaq 0x2f50d3(%rip), %rax # 0x386010
movq (%rax), %rax
leaq -0x68(%rbp), %rdi
movl %r14d, %esi
movl $0xd, %edx
callq *0x158(%rax)
testq %rax, %rax
jne 0x90f71
movl %r14d, %edi
movq %rbx, %rsi
xorl %edx, %edx
xorl %ecx, %ecx
callq 0x9dd80
addq $0x58, %rsp
popq %rbx
popq %r14
popq %r15
popq %rbp
retq
leaq -0x1c(%rbp), %r15
movq %rax, %rdi
movq %rbx, %rsi
movl %r14d, %edx
movq %r15, %rcx
callq 0x2e7ec
movl (%r15), %eax
jmp 0x90f66
| inline_mysql_file_chsize_1:
push rbp
mov rbp, rsp
push r15
push r14
push rbx
sub rsp, 58h
mov rbx, rsi
mov r14d, edi
lea rax, PSI_server
mov rax, [rax]
lea rdi, [rbp+var_68]
mov esi, r14d
mov edx, 0Dh
call qword ptr [rax+158h]
test rax, rax
jnz short loc_90F71
mov edi, r14d
mov rsi, rbx
xor edx, edx
xor ecx, ecx
call my_chsize
loc_90F66:
add rsp, 58h
pop rbx
pop r14
pop r15
pop rbp
retn
loc_90F71:
lea r15, [rbp+var_1C]
mov rdi, rax
mov rsi, rbx
mov edx, r14d
mov rcx, r15
call inline_mysql_file_chsize_cold_1_0
mov eax, [r15]
jmp short loc_90F66
| long long inline_mysql_file_chsize_1(unsigned int a1, long long a2)
{
long long v2; // rax
_BYTE v4[76]; // [rsp+8h] [rbp-68h] BYREF
_DWORD v5[7]; // [rsp+54h] [rbp-1Ch] BYREF
v2 = ((long long ( *)(_BYTE *, _QWORD, long long))PSI_server[43])(v4, a1, 13LL);
if ( !v2 )
return my_chsize(a1, a2, 0LL, 0LL);
inline_mysql_file_chsize_cold_1_0(v2, a2, a1, v5);
return v5[0];
}
| inline_mysql_file_chsize:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH RBX
SUB RSP,0x58
MOV RBX,RSI
MOV R14D,EDI
LEA RAX,[0x486010]
MOV RAX,qword ptr [RAX]
LEA RDI,[RBP + -0x68]
MOV ESI,R14D
MOV EDX,0xd
CALL qword ptr [RAX + 0x158]
TEST RAX,RAX
JNZ 0x00190f71
MOV EDI,R14D
MOV RSI,RBX
XOR EDX,EDX
XOR ECX,ECX
CALL 0x0019dd80
LAB_00190f66:
ADD RSP,0x58
POP RBX
POP R14
POP R15
POP RBP
RET
LAB_00190f71:
LEA R15,[RBP + -0x1c]
MOV RDI,RAX
MOV RSI,RBX
MOV EDX,R14D
MOV RCX,R15
CALL 0x0012e7ec
MOV EAX,dword ptr [R15]
JMP 0x00190f66
|
ulong inline_mysql_file_chsize(int4 param_1,int8 param_2)
{
long lVar1;
ulong uVar2;
int1 local_70 [76];
uint local_24;
lVar1 = (**(code **)(PSI_server + 0x158))(local_70,param_1,0xd);
if (lVar1 == 0) {
uVar2 = my_chsize(param_1,param_2,0,0);
}
else {
inline_mysql_file_chsize_cold_1(lVar1,param_2,param_1,&local_24);
uVar2 = (ulong)local_24;
}
return uVar2;
}
|
|
4,455 | lo0bits | eloqsql/libmariadb/libmariadb/ma_dtoa.c | static int lo0bits(ULong *y)
{
register int k;
register ULong x= *y;
if (x & 7)
{
if (x & 1)
return 0;
if (x & 2)
{
*y= x >> 1;
return 1;
}
*y= x >> 2;
return 2;
}
k= 0;
if (!(x & 0xffff))
{
k= 16;
x>>= 16;
}
if (!(x & 0xff))
{
k+= 8;
x>>= 8;
}
if (!(x & 0xf))
{
k+= 4;
x>>= 4;
}
if (!(x & 0x3))
{
k+= 2;
x>>= 2;
}
if (!(x & 1))
{
k++;
x>>= 1;
if (!x)
return 32;
}
*y= x;
return k;
} | O0 | c | lo0bits:
pushq %rbp
movq %rsp, %rbp
movq %rdi, -0x10(%rbp)
movq -0x10(%rbp), %rax
movl (%rax), %eax
movl %eax, -0x18(%rbp)
movl -0x18(%rbp), %eax
andl $0x7, %eax
cmpl $0x0, %eax
je 0x3d4ed
movl -0x18(%rbp), %eax
andl $0x1, %eax
cmpl $0x0, %eax
je 0x3d4b3
movl $0x0, -0x4(%rbp)
jmp 0x3d5a6
movl -0x18(%rbp), %eax
andl $0x2, %eax
cmpl $0x0, %eax
je 0x3d4d5
movl -0x18(%rbp), %ecx
shrl %ecx
movq -0x10(%rbp), %rax
movl %ecx, (%rax)
movl $0x1, -0x4(%rbp)
jmp 0x3d5a6
movl -0x18(%rbp), %ecx
shrl $0x2, %ecx
movq -0x10(%rbp), %rax
movl %ecx, (%rax)
movl $0x2, -0x4(%rbp)
jmp 0x3d5a6
movl $0x0, -0x14(%rbp)
movl -0x18(%rbp), %eax
andl $0xffff, %eax # imm = 0xFFFF
cmpl $0x0, %eax
jne 0x3d511
movl $0x10, -0x14(%rbp)
movl -0x18(%rbp), %eax
shrl $0x10, %eax
movl %eax, -0x18(%rbp)
movl -0x18(%rbp), %eax
andl $0xff, %eax
cmpl $0x0, %eax
jne 0x3d530
movl -0x14(%rbp), %eax
addl $0x8, %eax
movl %eax, -0x14(%rbp)
movl -0x18(%rbp), %eax
shrl $0x8, %eax
movl %eax, -0x18(%rbp)
movl -0x18(%rbp), %eax
andl $0xf, %eax
cmpl $0x0, %eax
jne 0x3d54d
movl -0x14(%rbp), %eax
addl $0x4, %eax
movl %eax, -0x14(%rbp)
movl -0x18(%rbp), %eax
shrl $0x4, %eax
movl %eax, -0x18(%rbp)
movl -0x18(%rbp), %eax
andl $0x3, %eax
cmpl $0x0, %eax
jne 0x3d56a
movl -0x14(%rbp), %eax
addl $0x2, %eax
movl %eax, -0x14(%rbp)
movl -0x18(%rbp), %eax
shrl $0x2, %eax
movl %eax, -0x18(%rbp)
movl -0x18(%rbp), %eax
andl $0x1, %eax
cmpl $0x0, %eax
jne 0x3d597
movl -0x14(%rbp), %eax
addl $0x1, %eax
movl %eax, -0x14(%rbp)
movl -0x18(%rbp), %eax
shrl %eax
movl %eax, -0x18(%rbp)
cmpl $0x0, -0x18(%rbp)
jne 0x3d595
movl $0x20, -0x4(%rbp)
jmp 0x3d5a6
jmp 0x3d597
movl -0x18(%rbp), %ecx
movq -0x10(%rbp), %rax
movl %ecx, (%rax)
movl -0x14(%rbp), %eax
movl %eax, -0x4(%rbp)
movl -0x4(%rbp), %eax
popq %rbp
retq
nopl (%rax,%rax)
| lo0bits:
push rbp
mov rbp, rsp
mov [rbp+var_10], rdi
mov rax, [rbp+var_10]
mov eax, [rax]
mov [rbp+var_18], eax
mov eax, [rbp+var_18]
and eax, 7
cmp eax, 0
jz short loc_3D4ED
mov eax, [rbp+var_18]
and eax, 1
cmp eax, 0
jz short loc_3D4B3
mov [rbp+var_4], 0
jmp loc_3D5A6
loc_3D4B3:
mov eax, [rbp+var_18]
and eax, 2
cmp eax, 0
jz short loc_3D4D5
mov ecx, [rbp+var_18]
shr ecx, 1
mov rax, [rbp+var_10]
mov [rax], ecx
mov [rbp+var_4], 1
jmp loc_3D5A6
loc_3D4D5:
mov ecx, [rbp+var_18]
shr ecx, 2
mov rax, [rbp+var_10]
mov [rax], ecx
mov [rbp+var_4], 2
jmp loc_3D5A6
loc_3D4ED:
mov [rbp+var_14], 0
mov eax, [rbp+var_18]
and eax, 0FFFFh
cmp eax, 0
jnz short loc_3D511
mov [rbp+var_14], 10h
mov eax, [rbp+var_18]
shr eax, 10h
mov [rbp+var_18], eax
loc_3D511:
mov eax, [rbp+var_18]
and eax, 0FFh
cmp eax, 0
jnz short loc_3D530
mov eax, [rbp+var_14]
add eax, 8
mov [rbp+var_14], eax
mov eax, [rbp+var_18]
shr eax, 8
mov [rbp+var_18], eax
loc_3D530:
mov eax, [rbp+var_18]
and eax, 0Fh
cmp eax, 0
jnz short loc_3D54D
mov eax, [rbp+var_14]
add eax, 4
mov [rbp+var_14], eax
mov eax, [rbp+var_18]
shr eax, 4
mov [rbp+var_18], eax
loc_3D54D:
mov eax, [rbp+var_18]
and eax, 3
cmp eax, 0
jnz short loc_3D56A
mov eax, [rbp+var_14]
add eax, 2
mov [rbp+var_14], eax
mov eax, [rbp+var_18]
shr eax, 2
mov [rbp+var_18], eax
loc_3D56A:
mov eax, [rbp+var_18]
and eax, 1
cmp eax, 0
jnz short loc_3D597
mov eax, [rbp+var_14]
add eax, 1
mov [rbp+var_14], eax
mov eax, [rbp+var_18]
shr eax, 1
mov [rbp+var_18], eax
cmp [rbp+var_18], 0
jnz short loc_3D595
mov [rbp+var_4], 20h ; ' '
jmp short loc_3D5A6
loc_3D595:
jmp short $+2
loc_3D597:
mov ecx, [rbp+var_18]
mov rax, [rbp+var_10]
mov [rax], ecx
mov eax, [rbp+var_14]
mov [rbp+var_4], eax
loc_3D5A6:
mov eax, [rbp+var_4]
pop rbp
retn
| long long lo0bits(unsigned int *a1)
{
unsigned int v2; // [rsp+0h] [rbp-18h]
unsigned int v3; // [rsp+4h] [rbp-14h]
v2 = *a1;
if ( (*a1 & 7) != 0 )
{
if ( (v2 & 1) != 0 )
{
return 0;
}
else if ( (v2 & 2) != 0 )
{
*a1 = v2 >> 1;
return 1;
}
else
{
*a1 = v2 >> 2;
return 2;
}
}
else
{
v3 = 0;
if ( !(_WORD)v2 )
{
v3 = 16;
v2 >>= 16;
}
if ( !(_BYTE)v2 )
{
v3 += 8;
v2 >>= 8;
}
if ( (v2 & 0xF) == 0 )
{
v3 += 4;
v2 >>= 4;
}
if ( (v2 & 3) == 0 )
{
v3 += 2;
v2 >>= 2;
}
if ( (v2 & 1) != 0 || (++v3, (v2 >>= 1) != 0) )
{
*a1 = v2;
return v3;
}
else
{
return 32;
}
}
}
| lo0bits:
PUSH RBP
MOV RBP,RSP
MOV qword ptr [RBP + -0x10],RDI
MOV RAX,qword ptr [RBP + -0x10]
MOV EAX,dword ptr [RAX]
MOV dword ptr [RBP + -0x18],EAX
MOV EAX,dword ptr [RBP + -0x18]
AND EAX,0x7
CMP EAX,0x0
JZ 0x0013d4ed
MOV EAX,dword ptr [RBP + -0x18]
AND EAX,0x1
CMP EAX,0x0
JZ 0x0013d4b3
MOV dword ptr [RBP + -0x4],0x0
JMP 0x0013d5a6
LAB_0013d4b3:
MOV EAX,dword ptr [RBP + -0x18]
AND EAX,0x2
CMP EAX,0x0
JZ 0x0013d4d5
MOV ECX,dword ptr [RBP + -0x18]
SHR ECX,0x1
MOV RAX,qword ptr [RBP + -0x10]
MOV dword ptr [RAX],ECX
MOV dword ptr [RBP + -0x4],0x1
JMP 0x0013d5a6
LAB_0013d4d5:
MOV ECX,dword ptr [RBP + -0x18]
SHR ECX,0x2
MOV RAX,qword ptr [RBP + -0x10]
MOV dword ptr [RAX],ECX
MOV dword ptr [RBP + -0x4],0x2
JMP 0x0013d5a6
LAB_0013d4ed:
MOV dword ptr [RBP + -0x14],0x0
MOV EAX,dword ptr [RBP + -0x18]
AND EAX,0xffff
CMP EAX,0x0
JNZ 0x0013d511
MOV dword ptr [RBP + -0x14],0x10
MOV EAX,dword ptr [RBP + -0x18]
SHR EAX,0x10
MOV dword ptr [RBP + -0x18],EAX
LAB_0013d511:
MOV EAX,dword ptr [RBP + -0x18]
AND EAX,0xff
CMP EAX,0x0
JNZ 0x0013d530
MOV EAX,dword ptr [RBP + -0x14]
ADD EAX,0x8
MOV dword ptr [RBP + -0x14],EAX
MOV EAX,dword ptr [RBP + -0x18]
SHR EAX,0x8
MOV dword ptr [RBP + -0x18],EAX
LAB_0013d530:
MOV EAX,dword ptr [RBP + -0x18]
AND EAX,0xf
CMP EAX,0x0
JNZ 0x0013d54d
MOV EAX,dword ptr [RBP + -0x14]
ADD EAX,0x4
MOV dword ptr [RBP + -0x14],EAX
MOV EAX,dword ptr [RBP + -0x18]
SHR EAX,0x4
MOV dword ptr [RBP + -0x18],EAX
LAB_0013d54d:
MOV EAX,dword ptr [RBP + -0x18]
AND EAX,0x3
CMP EAX,0x0
JNZ 0x0013d56a
MOV EAX,dword ptr [RBP + -0x14]
ADD EAX,0x2
MOV dword ptr [RBP + -0x14],EAX
MOV EAX,dword ptr [RBP + -0x18]
SHR EAX,0x2
MOV dword ptr [RBP + -0x18],EAX
LAB_0013d56a:
MOV EAX,dword ptr [RBP + -0x18]
AND EAX,0x1
CMP EAX,0x0
JNZ 0x0013d597
MOV EAX,dword ptr [RBP + -0x14]
ADD EAX,0x1
MOV dword ptr [RBP + -0x14],EAX
MOV EAX,dword ptr [RBP + -0x18]
SHR EAX,0x1
MOV dword ptr [RBP + -0x18],EAX
CMP dword ptr [RBP + -0x18],0x0
JNZ 0x0013d595
MOV dword ptr [RBP + -0x4],0x20
JMP 0x0013d5a6
LAB_0013d595:
JMP 0x0013d597
LAB_0013d597:
MOV ECX,dword ptr [RBP + -0x18]
MOV RAX,qword ptr [RBP + -0x10]
MOV dword ptr [RAX],ECX
MOV EAX,dword ptr [RBP + -0x14]
MOV dword ptr [RBP + -0x4],EAX
LAB_0013d5a6:
MOV EAX,dword ptr [RBP + -0x4]
POP RBP
RET
|
int lo0bits(uint *param_1)
{
uint local_20;
int local_1c;
int local_c;
local_20 = *param_1;
if ((local_20 & 7) == 0) {
local_1c = 0;
if ((local_20 & 0xffff) == 0) {
local_1c = 0x10;
local_20 = local_20 >> 0x10;
}
if ((local_20 & 0xff) == 0) {
local_1c = local_1c + 8;
local_20 = local_20 >> 8;
}
if ((local_20 & 0xf) == 0) {
local_1c = local_1c + 4;
local_20 = local_20 >> 4;
}
if ((local_20 & 3) == 0) {
local_1c = local_1c + 2;
local_20 = local_20 >> 2;
}
if ((local_20 & 1) == 0) {
local_1c = local_1c + 1;
local_20 = local_20 >> 1;
if (local_20 == 0) {
return 0x20;
}
}
*param_1 = local_20;
local_c = local_1c;
}
else if ((local_20 & 1) == 0) {
if ((local_20 & 2) == 0) {
*param_1 = local_20 >> 2;
local_c = 2;
}
else {
*param_1 = local_20 >> 1;
local_c = 1;
}
}
else {
local_c = 0;
}
return local_c;
}
|
|
4,456 | lo0bits | eloqsql/libmariadb/libmariadb/ma_dtoa.c | static int lo0bits(ULong *y)
{
register int k;
register ULong x= *y;
if (x & 7)
{
if (x & 1)
return 0;
if (x & 2)
{
*y= x >> 1;
return 1;
}
*y= x >> 2;
return 2;
}
k= 0;
if (!(x & 0xffff))
{
k= 16;
x>>= 16;
}
if (!(x & 0xff))
{
k+= 8;
x>>= 8;
}
if (!(x & 0xf))
{
k+= 4;
x>>= 4;
}
if (!(x & 0x3))
{
k+= 2;
x>>= 2;
}
if (!(x & 1))
{
k++;
x>>= 1;
if (!x)
return 32;
}
*y= x;
return k;
} | O3 | c | lo0bits:
pushq %rbp
movq %rsp, %rbp
movl (%rdi), %ecx
testb $0x7, %cl
je 0x2c35c
xorl %eax, %eax
testb $0x1, %cl
jne 0x2c3c3
testb $0x2, %cl
jne 0x2c3ba
shrl $0x2, %ecx
movl $0x2, %eax
jmp 0x2c3c1
movl %ecx, %eax
shrl $0x10, %eax
xorl %edx, %edx
testl $0xfff8, %ecx # imm = 0xFFF8
cmovnel %ecx, %eax
sete %dl
shll $0x4, %edx
leal 0x8(%rdx), %ecx
movl %eax, %esi
shrl $0x8, %esi
testb %al, %al
cmovnel %edx, %ecx
cmovnel %eax, %esi
leal 0x4(%rcx), %edx
movl %esi, %r8d
shrl $0x4, %r8d
testb $0xf, %sil
cmovnel %ecx, %edx
cmovnel %esi, %r8d
leal 0x2(%rdx), %eax
movl %r8d, %ecx
shrl $0x2, %ecx
testb $0x3, %r8b
cmovnel %edx, %eax
cmovnel %r8d, %ecx
testb $0x1, %cl
jne 0x2c3c1
testl %ecx, %ecx
je 0x2c3c5
incl %eax
shrl %ecx
jmp 0x2c3c1
shrl %ecx
movl $0x1, %eax
movl %ecx, (%rdi)
popq %rbp
retq
movl $0x20, %eax
jmp 0x2c3c3
| lo0bits:
push rbp
mov rbp, rsp
mov ecx, [rdi]
test cl, 7
jz short loc_2C35C
xor eax, eax
test cl, 1
jnz short loc_2C3C3
test cl, 2
jnz short loc_2C3BA
shr ecx, 2
mov eax, 2
jmp short loc_2C3C1
loc_2C35C:
mov eax, ecx
shr eax, 10h
xor edx, edx
test ecx, 0FFF8h
cmovnz eax, ecx
setz dl
shl edx, 4
lea ecx, [rdx+8]
mov esi, eax
shr esi, 8
test al, al
cmovnz ecx, edx
cmovnz esi, eax
lea edx, [rcx+4]
mov r8d, esi
shr r8d, 4
test sil, 0Fh
cmovnz edx, ecx
cmovnz r8d, esi
lea eax, [rdx+2]
mov ecx, r8d
shr ecx, 2
test r8b, 3
cmovnz eax, edx
cmovnz ecx, r8d
test cl, 1
jnz short loc_2C3C1
test ecx, ecx
jz short loc_2C3C5
inc eax
shr ecx, 1
jmp short loc_2C3C1
loc_2C3BA:
shr ecx, 1
mov eax, 1
loc_2C3C1:
mov [rdi], ecx
loc_2C3C3:
pop rbp
retn
loc_2C3C5:
mov eax, 20h ; ' '
jmp short loc_2C3C3
| long long lo0bits(unsigned int *a1)
{
unsigned int v1; // ecx
long long result; // rax
unsigned int v3; // ecx
unsigned int v4; // eax
int v5; // edx
int v6; // edx
int v7; // ecx
unsigned int v8; // esi
unsigned int v9; // edx
unsigned int v10; // r8d
v1 = *a1;
if ( (*a1 & 7) != 0 )
{
result = 0LL;
if ( (v1 & 1) != 0 )
return result;
if ( (v1 & 2) != 0 )
{
v3 = v1 >> 1;
result = 1LL;
}
else
{
v3 = v1 >> 2;
result = 2LL;
}
}
else
{
v4 = HIWORD(v1);
v5 = 0;
if ( (v1 & 0xFFF8) != 0 )
v4 = *a1;
LOBYTE(v5) = (*a1 & 0xFFF8) == 0;
v6 = 16 * v5;
v7 = v6 + 8;
v8 = v4 >> 8;
if ( (_BYTE)v4 )
{
v7 = v6;
v8 = v4;
}
v9 = v7 + 4;
v10 = v8 >> 4;
if ( (v8 & 0xF) != 0 )
{
v9 = v7;
v10 = v8;
}
result = v9 + 2;
v3 = v10 >> 2;
if ( (v10 & 3) != 0 )
{
result = v9;
v3 = v10;
}
if ( (v3 & 1) == 0 )
{
if ( !v3 )
return 32LL;
result = (unsigned int)(result + 1);
v3 >>= 1;
}
}
*a1 = v3;
return result;
}
| lo0bits:
PUSH RBP
MOV RBP,RSP
MOV ECX,dword ptr [RDI]
TEST CL,0x7
JZ 0x0012c35c
XOR EAX,EAX
TEST CL,0x1
JNZ 0x0012c3c3
TEST CL,0x2
JNZ 0x0012c3ba
SHR ECX,0x2
MOV EAX,0x2
JMP 0x0012c3c1
LAB_0012c35c:
MOV EAX,ECX
SHR EAX,0x10
XOR EDX,EDX
TEST ECX,0xfff8
CMOVNZ EAX,ECX
SETZ DL
SHL EDX,0x4
LEA ECX,[RDX + 0x8]
MOV ESI,EAX
SHR ESI,0x8
TEST AL,AL
CMOVNZ ECX,EDX
CMOVNZ ESI,EAX
LEA EDX,[RCX + 0x4]
MOV R8D,ESI
SHR R8D,0x4
TEST SIL,0xf
CMOVNZ EDX,ECX
CMOVNZ R8D,ESI
LEA EAX,[RDX + 0x2]
MOV ECX,R8D
SHR ECX,0x2
TEST R8B,0x3
CMOVNZ EAX,EDX
CMOVNZ ECX,R8D
TEST CL,0x1
JNZ 0x0012c3c1
TEST ECX,ECX
JZ 0x0012c3c5
INC EAX
SHR ECX,0x1
JMP 0x0012c3c1
LAB_0012c3ba:
SHR ECX,0x1
MOV EAX,0x1
LAB_0012c3c1:
MOV dword ptr [RDI],ECX
LAB_0012c3c3:
POP RBP
RET
LAB_0012c3c5:
MOV EAX,0x20
JMP 0x0012c3c3
|
int lo0bits(uint *param_1)
{
uint uVar1;
int iVar2;
uint uVar3;
int iVar4;
bool bVar5;
uVar3 = *param_1;
if ((uVar3 & 7) == 0) {
bVar5 = (uVar3 & 0xfff8) == 0;
uVar1 = uVar3 >> 0x10;
if (!bVar5) {
uVar1 = uVar3;
}
iVar4 = (uint)bVar5 * 0x10;
uVar3 = uVar1 >> 8;
iVar2 = iVar4 + 8;
if ((char)uVar1 != '\0') {
uVar3 = uVar1;
iVar2 = iVar4;
}
uVar1 = uVar3 >> 4;
iVar4 = iVar2 + 4;
if ((uVar3 & 0xf) != 0) {
uVar1 = uVar3;
iVar4 = iVar2;
}
uVar3 = uVar1 >> 2;
iVar2 = iVar4 + 2;
if ((uVar1 & 3) != 0) {
uVar3 = uVar1;
iVar2 = iVar4;
}
if ((uVar3 & 1) == 0) {
if (uVar3 == 0) {
return 0x20;
}
iVar2 = iVar2 + 1;
uVar3 = uVar3 >> 1;
}
}
else {
if ((uVar3 & 1) != 0) {
return 0;
}
if ((uVar3 & 2) == 0) {
uVar3 = uVar3 >> 2;
iVar2 = 2;
}
else {
uVar3 = uVar3 >> 1;
iVar2 = 1;
}
}
*param_1 = uVar3;
return iVar2;
}
|
|
4,457 | ftxui::operator|(std::shared_ptr<ftxui::ComponentBase>, std::function<std::shared_ptr<ftxui::Node> (std::shared_ptr<ftxui::Node>)>) | Andrewchistyakov[P]flashcards_lyc/build_O3/_deps/ftxui-src/src/ftxui/component/util.cpp | Component operator|(Component component, ElementDecorator decorator) {
return component | Renderer(decorator); // NOLINT
} | O3 | cpp | ftxui::operator|(std::shared_ptr<ftxui::ComponentBase>, std::function<std::shared_ptr<ftxui::Node> (std::shared_ptr<ftxui::Node>)>):
pushq %rbx
subq $0x50, %rsp
movq %rdi, %rbx
movq (%rsi), %rax
movq %rax, (%rsp)
movq 0x8(%rsi), %rax
movq %rax, 0x8(%rsp)
testq %rax, %rax
je 0x338d1
movq 0x256ed(%rip), %rcx # 0x58fb0
cmpb $0x0, (%rcx)
je 0x338cd
incl 0x8(%rax)
jmp 0x338d1
lock
incl 0x8(%rax)
leaq 0x10(%rsp), %rdi
movq %rdx, %rsi
callq 0x260c4
leaq 0x30(%rsp), %rdi
leaq 0x10(%rsp), %rsi
callq 0x2ca2f
movq %rsp, %rsi
leaq 0x30(%rsp), %rdx
movq %rbx, %rdi
callq 0x33820
movq 0x40(%rsp), %rax
testq %rax, %rax
je 0x33916
leaq 0x30(%rsp), %rdi
movq %rdi, %rsi
movl $0x3, %edx
callq *%rax
movq 0x20(%rsp), %rax
testq %rax, %rax
je 0x3392f
leaq 0x10(%rsp), %rdi
movq %rdi, %rsi
movl $0x3, %edx
callq *%rax
movq 0x8(%rsp), %rdi
testq %rdi, %rdi
je 0x3393e
callq 0x14af8
movq %rbx, %rax
addq $0x50, %rsp
popq %rbx
retq
jmp 0x33989
jmp 0x33989
movq %rax, %rbx
movq 0x40(%rsp), %rax
testq %rax, %rax
je 0x3396e
leaq 0x30(%rsp), %rdi
movq %rdi, %rsi
movl $0x3, %edx
callq *%rax
jmp 0x3396e
jmp 0x33989
movq %rax, %rbx
movq 0x20(%rsp), %rax
testq %rax, %rax
je 0x33994
leaq 0x10(%rsp), %rdi
movq %rdi, %rsi
movl $0x3, %edx
callq *%rax
jmp 0x33994
movq %rax, %rdi
callq 0x1049a
movq %rax, %rbx
movq 0x8(%rsp), %rdi
testq %rdi, %rdi
je 0x339a3
callq 0x14af8
movq %rbx, %rdi
callq 0xb780
| _ZN5ftxuiorESt10shared_ptrINS_13ComponentBaseEESt8functionIFS0_INS_4NodeEES5_EE:
push rbx
sub rsp, 50h
mov rbx, rdi
mov rax, [rsi]
mov [rsp+58h+var_58], rax
mov rax, [rsi+8]
mov [rsp+58h+var_50], rax
test rax, rax
jz short loc_338D1
mov rcx, cs:__libc_single_threaded_ptr
cmp byte ptr [rcx], 0
jz short loc_338CD
inc dword ptr [rax+8]
jmp short loc_338D1
loc_338CD:
lock inc dword ptr [rax+8]
loc_338D1:
lea rdi, [rsp+58h+var_48]
mov rsi, rdx
call _ZNSt8functionIFSt10shared_ptrIN5ftxui4NodeEES3_EEC2ERKS5_; std::function<std::shared_ptr<ftxui::Node> ()(std::shared_ptr<ftxui::Node>)>::function(std::function<std::shared_ptr<ftxui::Node> ()(std::shared_ptr<ftxui::Node>)> const&)
lea rdi, [rsp+58h+var_28]
lea rsi, [rsp+58h+var_48]
call _ZN5ftxui8RendererESt8functionIFSt10shared_ptrINS_4NodeEES3_EE; ftxui::Renderer(std::function<std::shared_ptr<ftxui::Node> ()(std::shared_ptr<ftxui::Node>)>)
mov rsi, rsp
lea rdx, [rsp+58h+var_28]
mov rdi, rbx
call _ZN5ftxuiorESt10shared_ptrINS_13ComponentBaseEESt8functionIFS2_S2_EE; ftxui::operator|(std::shared_ptr<ftxui::ComponentBase>,std::function<std::shared_ptr<ftxui::ComponentBase> ()(std::shared_ptr<ftxui::ComponentBase>)>)
mov rax, [rsp+58h+var_18]
test rax, rax
jz short loc_33916
lea rdi, [rsp+58h+var_28]
mov rsi, rdi
mov edx, 3
call rax
loc_33916:
mov rax, [rsp+58h+var_38]
test rax, rax
jz short loc_3392F
lea rdi, [rsp+58h+var_48]
mov rsi, rdi
mov edx, 3
call rax
loc_3392F:
mov rdi, [rsp+58h+var_50]
test rdi, rdi
jz short loc_3393E
call _ZNSt16_Sp_counted_baseILN9__gnu_cxx12_Lock_policyE2EE10_M_releaseEv; std::_Sp_counted_base<(__gnu_cxx::_Lock_policy)2>::_M_release(void)
loc_3393E:
mov rax, rbx
add rsp, 50h
pop rbx
retn
jmp short loc_33989
jmp short loc_33989
mov rbx, rax
mov rax, [rsp+58h+var_18]
test rax, rax
jz short loc_3396E
lea rdi, [rsp+58h+var_28]
mov rsi, rdi
mov edx, 3
call rax
jmp short loc_3396E
jmp short loc_33989
mov rbx, rax
loc_3396E:
mov rax, [rsp+58h+var_38]
test rax, rax
jz short loc_33994
lea rdi, [rsp+58h+var_48]
mov rsi, rdi
mov edx, 3
call rax
jmp short loc_33994
loc_33989:
mov rdi, rax
call __clang_call_terminate
mov rbx, rax
loc_33994:
mov rdi, [rsp+58h+var_50]
test rdi, rdi
jz short loc_339A3
call _ZNSt16_Sp_counted_baseILN9__gnu_cxx12_Lock_policyE2EE10_M_releaseEv; std::_Sp_counted_base<(__gnu_cxx::_Lock_policy)2>::_M_release(void)
loc_339A3:
mov rdi, rbx
call __Unwind_Resume
| long long ftxui::operator|(long long a1, long long *a2, long long a3)
{
volatile signed __int32 *v3; // rax
long long v5; // [rsp+0h] [rbp-58h] BYREF
volatile signed __int32 *v6; // [rsp+8h] [rbp-50h]
__int128 v7; // [rsp+10h] [rbp-48h] BYREF
void ( *v8)(__int128 *, __int128 *, long long); // [rsp+20h] [rbp-38h]
_BYTE v9[16]; // [rsp+30h] [rbp-28h] BYREF
void ( *v10)(_BYTE *, _BYTE *, long long); // [rsp+40h] [rbp-18h]
v5 = *a2;
v3 = (volatile signed __int32 *)a2[1];
v6 = v3;
if ( v3 )
{
if ( _libc_single_threaded )
++*((_DWORD *)v3 + 2);
else
_InterlockedIncrement(v3 + 2);
}
std::function<std::shared_ptr<ftxui::Node> ()(std::shared_ptr<ftxui::Node>)>::function(&v7, a3);
ftxui::Renderer((long long)v9, (long long)&v7);
ftxui::operator|(a1, &v5, (long long)v9);
if ( v10 )
v10(v9, v9, 3LL);
if ( v8 )
v8(&v7, &v7, 3LL);
if ( v6 )
std::_Sp_counted_base<(__gnu_cxx::_Lock_policy)2>::_M_release(v6);
return a1;
}
| operator|:
PUSH RBX
SUB RSP,0x50
MOV RBX,RDI
MOV RAX,qword ptr [RSI]
MOV qword ptr [RSP],RAX
MOV RAX,qword ptr [RSI + 0x8]
MOV qword ptr [RSP + 0x8],RAX
TEST RAX,RAX
JZ 0x001338d1
MOV RCX,qword ptr [0x00158fb0]
CMP byte ptr [RCX],0x0
JZ 0x001338cd
INC dword ptr [RAX + 0x8]
JMP 0x001338d1
LAB_001338cd:
INC.LOCK dword ptr [RAX + 0x8]
LAB_001338d1:
LEA RDI,[RSP + 0x10]
MOV RSI,RDX
CALL 0x001260c4
LAB_001338de:
LEA RDI,[RSP + 0x30]
LEA RSI,[RSP + 0x10]
CALL 0x0012ca2f
LAB_001338ed:
MOV RSI,RSP
LEA RDX,[RSP + 0x30]
MOV RDI,RBX
CALL 0x00133820
MOV RAX,qword ptr [RSP + 0x40]
TEST RAX,RAX
JZ 0x00133916
LAB_00133907:
LEA RDI,[RSP + 0x30]
MOV RSI,RDI
MOV EDX,0x3
CALL RAX
LAB_00133916:
MOV RAX,qword ptr [RSP + 0x20]
TEST RAX,RAX
JZ 0x0013392f
LAB_00133920:
LEA RDI,[RSP + 0x10]
MOV RSI,RDI
MOV EDX,0x3
CALL RAX
LAB_0013392f:
MOV RDI,qword ptr [RSP + 0x8]
TEST RDI,RDI
JZ 0x0013393e
CALL 0x00114af8
LAB_0013393e:
MOV RAX,RBX
ADD RSP,0x50
POP RBX
RET
|
/* ftxui::TEMPNAMEPLACEHOLDERVALUE(std::shared_ptr<ftxui::ComponentBase>,
std::function<std::shared_ptr<ftxui::Node> (std::shared_ptr<ftxui::Node>)>) */
ftxui * __thiscall ftxui::operator|(ftxui *this,int8 *param_2,function *param_3)
{
int8 local_58;
_Sp_counted_base<(__gnu_cxx::_Lock_policy)2> *local_50;
function<std::shared_ptr<ftxui::Node>(std::shared_ptr<ftxui::Node>)> local_48 [16];
code *local_38;
ftxui local_28 [16];
code *local_18;
local_58 = *param_2;
local_50 = (_Sp_counted_base<(__gnu_cxx::_Lock_policy)2> *)param_2[1];
if (local_50 != (_Sp_counted_base<(__gnu_cxx::_Lock_policy)2> *)0x0) {
if (*PTR___libc_single_threaded_00158fb0 == '\0') {
LOCK();
*(int *)(local_50 + 8) = *(int *)(local_50 + 8) + 1;
UNLOCK();
}
else {
*(int *)(local_50 + 8) = *(int *)(local_50 + 8) + 1;
}
}
/* try { // try from 001338d1 to 001338dd has its CatchHandler @ 00133991 */
std::function<std::shared_ptr<ftxui::Node>(std::shared_ptr<ftxui::Node>)>::function
(local_48,param_3);
/* try { // try from 001338de to 001338ec has its CatchHandler @ 0013396b */
Renderer(local_28,local_48);
/* try { // try from 001338ed to 001338fc has its CatchHandler @ 0013394b */
operator|(this,&local_58,local_28);
if (local_18 != (code *)0x0) {
/* try { // try from 00133907 to 00133915 has its CatchHandler @ 00133949 */
(*local_18)(local_28,local_28,3);
}
if (local_38 != (code *)0x0) {
/* try { // try from 00133920 to 0013392e has its CatchHandler @ 00133947 */
(*local_38)(local_48,local_48,3);
}
if (local_50 != (_Sp_counted_base<(__gnu_cxx::_Lock_policy)2> *)0x0) {
std::_Sp_counted_base<(__gnu_cxx::_Lock_policy)2>::_M_release(local_50);
}
return this;
}
|
|
4,458 | mysql_stmt_close_cont | eloqsql/libmariadb/libmariadb/mariadb_async.c | int STDCALL
mysql_stmt_close_cont(my_bool *ret, MYSQL_STMT *stmt, int ready_status)
{
MK_ASYNC_CONT_BODY(
stmt->mysql,
TRUE,
r_my_bool)
} | O3 | c | mysql_stmt_close_cont:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %rbx
pushq %rax
movq %rsi, %r14
movq %rdi, %rbx
movq 0x38(%rsi), %rax
movq 0x480(%rax), %rcx
movq 0x28(%rcx), %r15
cmpb $0x0, 0x15(%r15)
je 0x3dd8a
movb $0x1, 0x14(%r15)
movl %edx, 0x4(%r15)
leaq 0x38(%r15), %rdi
callq 0x3efaf
movb $0x0, 0x14(%r15)
testl %eax, %eax
jle 0x3dded
movl (%r15), %r15d
jmp 0x3de63
movl $0x7de, 0x90(%rax) # imm = 0x7DE
movl $0x297, %edi # imm = 0x297
addq 0x38(%r14), %rdi
leaq 0x24c4c(%rip), %rax # 0x629f0
movq (%rax), %rsi
movl $0x5, %edx
callq 0x14230
movq 0x38(%r14), %rax
xorl %r15d, %r15d
movb %r15b, 0x29c(%rax)
movl $0x97, %edi
addq 0x38(%r14), %rdi
leaq 0x24c31(%rip), %rax # 0x62a00
movq 0x70(%rax), %rsi
movl $0x1ff, %edx # imm = 0x1FF
callq 0x14230
movq 0x38(%r14), %rax
movb %r15b, 0x296(%rax)
movb $0x1, (%rbx)
jmp 0x3de63
movb $0x0, 0x15(%r15)
js 0x3ddfa
movb 0x8(%r15), %al
jmp 0x3de5e
movq 0x38(%r14), %rax
movl $0x7d8, 0x90(%rax) # imm = 0x7D8
movl $0x297, %edi # imm = 0x297
addq 0x38(%r14), %rdi
leaq 0x24bd8(%rip), %rax # 0x629f0
movq (%rax), %rsi
movl $0x5, %edx
callq 0x14230
movq 0x38(%r14), %rax
xorl %r15d, %r15d
movb %r15b, 0x29c(%rax)
movl $0x97, %edi
addq 0x38(%r14), %rdi
leaq 0x24bbd(%rip), %rax # 0x62a00
movq 0x40(%rax), %rsi
movl $0x1ff, %edx # imm = 0x1FF
callq 0x14230
movq 0x38(%r14), %rax
movb %r15b, 0x296(%rax)
movb $0x1, %al
movb %al, (%rbx)
xorl %r15d, %r15d
movl %r15d, %eax
addq $0x8, %rsp
popq %rbx
popq %r14
popq %r15
popq %rbp
retq
| mysql_stmt_close_cont:
push rbp
mov rbp, rsp
push r15
push r14
push rbx
push rax
mov r14, rsi
mov rbx, rdi
mov rax, [rsi+38h]
mov rcx, [rax+480h]
mov r15, [rcx+28h]
cmp byte ptr [r15+15h], 0
jz short loc_3DD8A
mov byte ptr [r15+14h], 1
mov [r15+4], edx
lea rdi, [r15+38h]
call my_context_continue
mov byte ptr [r15+14h], 0
test eax, eax
jle short loc_3DDED
mov r15d, [r15]
jmp loc_3DE63
loc_3DD8A:
mov dword ptr [rax+90h], 7DEh
mov edi, 297h
add rdi, [r14+38h]
lea rax, SQLSTATE_UNKNOWN
mov rsi, [rax]
mov edx, 5
call _strncpy
mov rax, [r14+38h]
xor r15d, r15d
mov [rax+29Ch], r15b
mov edi, 97h
add rdi, [r14+38h]
lea rax, client_errors
mov rsi, [rax+70h]
mov edx, 1FFh
call _strncpy
mov rax, [r14+38h]
mov [rax+296h], r15b
mov byte ptr [rbx], 1
jmp short loc_3DE63
loc_3DDED:
mov byte ptr [r15+15h], 0
js short loc_3DDFA
mov al, [r15+8]
jmp short loc_3DE5E
loc_3DDFA:
mov rax, [r14+38h]
mov dword ptr [rax+90h], 7D8h
mov edi, 297h
add rdi, [r14+38h]
lea rax, SQLSTATE_UNKNOWN
mov rsi, [rax]
mov edx, 5
call _strncpy
mov rax, [r14+38h]
xor r15d, r15d
mov [rax+29Ch], r15b
mov edi, 97h
add rdi, [r14+38h]
lea rax, client_errors
mov rsi, [rax+40h]
mov edx, 1FFh
call _strncpy
mov rax, [r14+38h]
mov [rax+296h], r15b
mov al, 1
loc_3DE5E:
mov [rbx], al
xor r15d, r15d
loc_3DE63:
mov eax, r15d
add rsp, 8
pop rbx
pop r14
pop r15
pop rbp
retn
| long long mysql_stmt_close_cont(char *a1, long long a2, unsigned int a3)
{
long long v3; // rax
unsigned int *v4; // r15
int v5; // eax
unsigned int v6; // r15d
char v7; // al
v3 = *(_QWORD *)(a2 + 56);
v4 = *(unsigned int **)(*(_QWORD *)(v3 + 1152) + 40LL);
if ( *((_BYTE *)v4 + 21) )
{
*((_BYTE *)v4 + 20) = 1;
v4[1] = a3;
v5 = my_context_continue(v4 + 14);
*((_BYTE *)v4 + 20) = 0;
if ( v5 <= 0 )
{
*((_BYTE *)v4 + 21) = 0;
if ( v5 < 0 )
{
*(_DWORD *)(*(_QWORD *)(a2 + 56) + 144LL) = 2008;
strncpy(*(_QWORD *)(a2 + 56) + 663LL, SQLSTATE_UNKNOWN, 5LL);
*(_BYTE *)(*(_QWORD *)(a2 + 56) + 668LL) = 0;
strncpy(*(_QWORD *)(a2 + 56) + 151LL, client_errors[8], 511LL);
*(_BYTE *)(*(_QWORD *)(a2 + 56) + 662LL) = 0;
v7 = 1;
}
else
{
v7 = *((_BYTE *)v4 + 8);
}
*a1 = v7;
return 0;
}
else
{
return *v4;
}
}
else
{
*(_DWORD *)(v3 + 144) = 2014;
strncpy(*(_QWORD *)(a2 + 56) + 663LL, SQLSTATE_UNKNOWN, 5LL);
v6 = 0;
*(_BYTE *)(*(_QWORD *)(a2 + 56) + 668LL) = 0;
strncpy(*(_QWORD *)(a2 + 56) + 151LL, client_errors[14], 511LL);
*(_BYTE *)(*(_QWORD *)(a2 + 56) + 662LL) = 0;
*a1 = 1;
}
return v6;
}
| mysql_stmt_close_cont:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH RBX
PUSH RAX
MOV R14,RSI
MOV RBX,RDI
MOV RAX,qword ptr [RSI + 0x38]
MOV RCX,qword ptr [RAX + 0x480]
MOV R15,qword ptr [RCX + 0x28]
CMP byte ptr [R15 + 0x15],0x0
JZ 0x0013dd8a
MOV byte ptr [R15 + 0x14],0x1
MOV dword ptr [R15 + 0x4],EDX
LEA RDI,[R15 + 0x38]
CALL 0x0013efaf
MOV byte ptr [R15 + 0x14],0x0
TEST EAX,EAX
JLE 0x0013dded
MOV R15D,dword ptr [R15]
JMP 0x0013de63
LAB_0013dd8a:
MOV dword ptr [RAX + 0x90],0x7de
MOV EDI,0x297
ADD RDI,qword ptr [R14 + 0x38]
LEA RAX,[0x1629f0]
MOV RSI,qword ptr [RAX]
MOV EDX,0x5
CALL 0x00114230
MOV RAX,qword ptr [R14 + 0x38]
XOR R15D,R15D
MOV byte ptr [RAX + 0x29c],R15B
MOV EDI,0x97
ADD RDI,qword ptr [R14 + 0x38]
LEA RAX,[0x162a00]
MOV RSI,qword ptr [RAX + 0x70]
MOV EDX,0x1ff
CALL 0x00114230
MOV RAX,qword ptr [R14 + 0x38]
MOV byte ptr [RAX + 0x296],R15B
MOV byte ptr [RBX],0x1
JMP 0x0013de63
LAB_0013dded:
MOV byte ptr [R15 + 0x15],0x0
JS 0x0013ddfa
MOV AL,byte ptr [R15 + 0x8]
JMP 0x0013de5e
LAB_0013ddfa:
MOV RAX,qword ptr [R14 + 0x38]
MOV dword ptr [RAX + 0x90],0x7d8
MOV EDI,0x297
ADD RDI,qword ptr [R14 + 0x38]
LEA RAX,[0x1629f0]
MOV RSI,qword ptr [RAX]
MOV EDX,0x5
CALL 0x00114230
MOV RAX,qword ptr [R14 + 0x38]
XOR R15D,R15D
MOV byte ptr [RAX + 0x29c],R15B
MOV EDI,0x97
ADD RDI,qword ptr [R14 + 0x38]
LEA RAX,[0x162a00]
MOV RSI,qword ptr [RAX + 0x40]
MOV EDX,0x1ff
CALL 0x00114230
MOV RAX,qword ptr [R14 + 0x38]
MOV byte ptr [RAX + 0x296],R15B
MOV AL,0x1
LAB_0013de5e:
MOV byte ptr [RBX],AL
XOR R15D,R15D
LAB_0013de63:
MOV EAX,R15D
ADD RSP,0x8
POP RBX
POP R14
POP R15
POP RBP
RET
|
int4 mysql_stmt_close_cont(int1 *param_1,long param_2,int4 param_3)
{
int4 *puVar1;
int1 uVar2;
int iVar3;
int4 uVar4;
puVar1 = *(int4 **)(*(long *)(*(long *)(param_2 + 0x38) + 0x480) + 0x28);
if (*(char *)((long)puVar1 + 0x15) == '\0') {
*(int4 *)(*(long *)(param_2 + 0x38) + 0x90) = 0x7de;
strncpy((char *)(*(long *)(param_2 + 0x38) + 0x297),SQLSTATE_UNKNOWN,5);
uVar4 = 0;
*(int1 *)(*(long *)(param_2 + 0x38) + 0x29c) = 0;
strncpy((char *)(*(long *)(param_2 + 0x38) + 0x97),
PTR_s_Commands_out_of_sync__you_can_t_r_00162a70,0x1ff);
*(int1 *)(*(long *)(param_2 + 0x38) + 0x296) = 0;
*param_1 = 1;
}
else {
*(int1 *)(puVar1 + 5) = 1;
puVar1[1] = param_3;
iVar3 = my_context_continue(puVar1 + 0xe);
*(int1 *)(puVar1 + 5) = 0;
if (iVar3 < 1) {
*(int1 *)((long)puVar1 + 0x15) = 0;
if (iVar3 < 0) {
*(int4 *)(*(long *)(param_2 + 0x38) + 0x90) = 0x7d8;
strncpy((char *)(*(long *)(param_2 + 0x38) + 0x297),SQLSTATE_UNKNOWN,5);
*(int1 *)(*(long *)(param_2 + 0x38) + 0x29c) = 0;
strncpy((char *)(*(long *)(param_2 + 0x38) + 0x97),PTR_s_Client_run_out_of_memory_00162a40,
0x1ff);
*(int1 *)(*(long *)(param_2 + 0x38) + 0x296) = 0;
uVar2 = 1;
}
else {
uVar2 = *(int1 *)(puVar1 + 2);
}
*param_1 = uVar2;
uVar4 = 0;
}
else {
uVar4 = *puVar1;
}
}
return uVar4;
}
|
|
4,459 | translog_new_page_header | eloqsql/storage/maria/ma_loghandler.c | static void translog_new_page_header(TRANSLOG_ADDRESS *horizon,
struct st_buffer_cursor *cursor)
{
uchar *ptr;
DBUG_ENTER("translog_new_page_header");
DBUG_ASSERT(cursor->ptr);
cursor->protected= 0;
ptr= cursor->ptr;
/* Page number */
int3store(ptr, LSN_OFFSET(*horizon) / TRANSLOG_PAGE_SIZE);
ptr+= 3;
/* File number */
int3store(ptr, LSN_FILE_NO(*horizon));
ptr+= 3;
DBUG_ASSERT(TRANSLOG_PAGE_FLAGS == (ptr - cursor->ptr));
cursor->ptr[TRANSLOG_PAGE_FLAGS]= (uchar) log_descriptor.flags;
ptr++;
if (log_descriptor.flags & TRANSLOG_PAGE_CRC)
{
#ifndef DBUG_OFF
DBUG_PRINT("info", ("write 0x11223344 CRC to " LSN_FMT,
LSN_IN_PARTS(*horizon)));
/* This will be overwritten by real CRC; This is just for debugging */
int4store(ptr, 0x11223344);
#endif
/* CRC will be put when page is finished */
ptr+= CRC_SIZE;
}
if (log_descriptor.flags & TRANSLOG_SECTOR_PROTECTION)
{
/*
translog_sector_randmo works like "random" values producer because
it is enough to have such "random" for this purpose and it will
not interfere with higher level pseudo random value generator
*/
ptr[0]= translog_sector_random++;
ptr+= TRANSLOG_PAGE_SIZE / DISK_DRIVE_SECTOR_SIZE;
}
{
size_t len= (ptr - cursor->ptr);
(*horizon)+= len; /* increasing the offset part of the address */
cursor->current_page_fill= (uint16)len;
if (!cursor->chaser)
cursor->buffer->size+= (translog_size_t)len;
}
cursor->ptr= ptr;
DBUG_PRINT("info", ("NewP buffer #%u: %p chaser: %d Size: %lu (%lu) "
"Horizon: " LSN_FMT,
(uint) cursor->buffer->buffer_no, cursor->buffer,
cursor->chaser, (ulong) cursor->buffer->size,
(ulong) (cursor->ptr - cursor->buffer->buffer),
LSN_IN_PARTS(*horizon)));
translog_check_cursor(cursor);
DBUG_VOID_RETURN;
} | O0 | c | translog_new_page_header:
pushq %rbp
movq %rsp, %rbp
subq $0x20, %rsp
movq %rdi, -0x8(%rbp)
movq %rsi, -0x10(%rbp)
jmp 0x52512
movq -0x10(%rbp), %rax
movb $0x0, 0x38(%rax)
movq -0x10(%rbp), %rax
movq 0x20(%rax), %rax
movq %rax, -0x18(%rbp)
movq -0x8(%rbp), %rcx
movabsq $0xffffffff, %rax # imm = 0xFFFFFFFF
andq (%rcx), %rax
shrq $0xd, %rax
movb %al, %cl
movq -0x18(%rbp), %rax
movb %cl, (%rax)
movq -0x8(%rbp), %rcx
movabsq $0xffffffff, %rax # imm = 0xFFFFFFFF
andq (%rcx), %rax
shrq $0xd, %rax
shrl $0x8, %eax
movb %al, %cl
movq -0x18(%rbp), %rax
movb %cl, 0x1(%rax)
movq -0x8(%rbp), %rcx
movabsq $0xffffffff, %rax # imm = 0xFFFFFFFF
andq (%rcx), %rax
shrq $0xd, %rax
shrq $0x10, %rax
movb %al, %cl
movq -0x18(%rbp), %rax
movb %cl, 0x2(%rax)
movq -0x18(%rbp), %rax
addq $0x3, %rax
movq %rax, -0x18(%rbp)
movq -0x8(%rbp), %rax
movq (%rax), %rax
sarq $0x20, %rax
movb %al, %cl
movq -0x18(%rbp), %rax
movb %cl, (%rax)
movq -0x8(%rbp), %rax
movq (%rax), %rax
sarq $0x20, %rax
shrl $0x8, %eax
movb %al, %cl
movq -0x18(%rbp), %rax
movb %cl, 0x1(%rax)
movq -0x8(%rbp), %rax
movq (%rax), %rax
sarq $0x20, %rax
shrl $0x10, %eax
movb %al, %cl
movq -0x18(%rbp), %rax
movb %cl, 0x2(%rax)
movq -0x18(%rbp), %rax
addq $0x3, %rax
movq %rax, -0x18(%rbp)
jmp 0x525e1
movl 0x425de1(%rip), %eax # 0x4783c8
movb %al, %cl
movq -0x10(%rbp), %rax
movq 0x20(%rax), %rax
movb %cl, 0x6(%rax)
movq -0x18(%rbp), %rax
addq $0x1, %rax
movq %rax, -0x18(%rbp)
movl 0x425dc2(%rip), %eax # 0x4783c8
andl $0x1, %eax
cmpl $0x0, %eax
je 0x5261a
movq -0x18(%rbp), %rax
addq $0x4, %rax
movq %rax, -0x18(%rbp)
movl 0x425da8(%rip), %eax # 0x4783c8
andl $0x2, %eax
cmpl $0x0, %eax
je 0x5264a
movb 0xc26cc6(%rip), %cl # 0xc792f4
movb %cl, %al
addb $0x1, %al
movb %al, 0xc26cbc(%rip) # 0xc792f4
movq -0x18(%rbp), %rax
movb %cl, (%rax)
movq -0x18(%rbp), %rax
addq $0x10, %rax
movq %rax, -0x18(%rbp)
movq -0x18(%rbp), %rax
movq -0x10(%rbp), %rcx
movq 0x20(%rcx), %rcx
subq %rcx, %rax
movq %rax, -0x20(%rbp)
movq -0x20(%rbp), %rcx
movq -0x8(%rbp), %rax
addq (%rax), %rcx
movq %rcx, (%rax)
movq -0x20(%rbp), %rax
movw %ax, %cx
movq -0x10(%rbp), %rax
movw %cx, 0x30(%rax)
movq -0x10(%rbp), %rax
cmpb $0x0, 0x37(%rax)
jne 0x5269e
movq -0x20(%rbp), %rax
movl %eax, %ecx
movq -0x10(%rbp), %rax
movq 0x28(%rax), %rax
addl 0x100030(%rax), %ecx
movl %ecx, 0x100030(%rax)
movq -0x18(%rbp), %rcx
movq -0x10(%rbp), %rax
movq %rcx, 0x20(%rax)
jmp 0x526ac
movq -0x10(%rbp), %rdi
callq 0x52390
jmp 0x526b7
addq $0x20, %rsp
popq %rbp
retq
nopl (%rax)
| translog_new_page_header:
push rbp
mov rbp, rsp
sub rsp, 20h
mov [rbp+var_8], rdi
mov [rbp+var_10], rsi
jmp short $+2
loc_52512:
mov rax, [rbp+var_10]
mov byte ptr [rax+38h], 0
mov rax, [rbp+var_10]
mov rax, [rax+20h]
mov [rbp+var_18], rax
mov rcx, [rbp+var_8]
mov rax, 0FFFFFFFFh
and rax, [rcx]
shr rax, 0Dh
mov cl, al
mov rax, [rbp+var_18]
mov [rax], cl
mov rcx, [rbp+var_8]
mov rax, 0FFFFFFFFh
and rax, [rcx]
shr rax, 0Dh
shr eax, 8
mov cl, al
mov rax, [rbp+var_18]
mov [rax+1], cl
mov rcx, [rbp+var_8]
mov rax, 0FFFFFFFFh
and rax, [rcx]
shr rax, 0Dh
shr rax, 10h
mov cl, al
mov rax, [rbp+var_18]
mov [rax+2], cl
mov rax, [rbp+var_18]
add rax, 3
mov [rbp+var_18], rax
mov rax, [rbp+var_8]
mov rax, [rax]
sar rax, 20h
mov cl, al
mov rax, [rbp+var_18]
mov [rax], cl
mov rax, [rbp+var_8]
mov rax, [rax]
sar rax, 20h
shr eax, 8
mov cl, al
mov rax, [rbp+var_18]
mov [rax+1], cl
mov rax, [rbp+var_8]
mov rax, [rax]
sar rax, 20h
shr eax, 10h
mov cl, al
mov rax, [rbp+var_18]
mov [rax+2], cl
mov rax, [rbp+var_18]
add rax, 3
mov [rbp+var_18], rax
jmp short $+2
loc_525E1:
mov eax, cs:dword_4783C8
mov cl, al
mov rax, [rbp+var_10]
mov rax, [rax+20h]
mov [rax+6], cl
mov rax, [rbp+var_18]
add rax, 1
mov [rbp+var_18], rax
mov eax, cs:dword_4783C8
and eax, 1
cmp eax, 0
jz short loc_5261A
mov rax, [rbp+var_18]
add rax, 4
mov [rbp+var_18], rax
loc_5261A:
mov eax, cs:dword_4783C8
and eax, 2
cmp eax, 0
jz short loc_5264A
mov cl, cs:translog_sector_random
mov al, cl
add al, 1
mov cs:translog_sector_random, al
mov rax, [rbp+var_18]
mov [rax], cl
mov rax, [rbp+var_18]
add rax, 10h
mov [rbp+var_18], rax
loc_5264A:
mov rax, [rbp+var_18]
mov rcx, [rbp+var_10]
mov rcx, [rcx+20h]
sub rax, rcx
mov [rbp+var_20], rax
mov rcx, [rbp+var_20]
mov rax, [rbp+var_8]
add rcx, [rax]
mov [rax], rcx
mov rax, [rbp+var_20]
mov cx, ax
mov rax, [rbp+var_10]
mov [rax+30h], cx
mov rax, [rbp+var_10]
cmp byte ptr [rax+37h], 0
jnz short loc_5269E
mov rax, [rbp+var_20]
mov ecx, eax
mov rax, [rbp+var_10]
mov rax, [rax+28h]
add ecx, [rax+100030h]
mov [rax+100030h], ecx
loc_5269E:
mov rcx, [rbp+var_18]
mov rax, [rbp+var_10]
mov [rax+20h], rcx
jmp short $+2
loc_526AC:
mov rdi, [rbp+var_10]
call translog_check_cursor
jmp short $+2
loc_526B7:
add rsp, 20h
pop rbp
retn
| void translog_new_page_header(_QWORD *a1, long long a2)
{
char v2; // cl
char *v3; // [rsp+0h] [rbp-20h]
_BYTE *v4; // [rsp+8h] [rbp-18h]
char *v5; // [rsp+8h] [rbp-18h]
*(_BYTE *)(a2 + 56) = 0;
v4 = *(_BYTE **)(a2 + 32);
*v4 = (unsigned long long)(unsigned int)*a1 >> 13;
v4[1] = (unsigned int)*a1 >> 21;
v4[2] = (unsigned long long)(unsigned int)*a1 >> 29;
v4 += 3;
*(_WORD *)v4 = WORD2(*a1);
v4[2] = BYTE6(*a1);
*(_BYTE *)(*(_QWORD *)(a2 + 32) + 6LL) = dword_4783C8;
v5 = v4 + 4;
if ( (dword_4783C8 & 1) != 0 )
v5 += 4;
if ( (dword_4783C8 & 2) != 0 )
{
v2 = translog_sector_random++;
*v5 = v2;
v5 += 16;
}
v3 = &v5[-*(_QWORD *)(a2 + 32)];
*a1 += v3;
*(_WORD *)(a2 + 48) = (_WORD)v3;
if ( !*(_BYTE *)(a2 + 55) )
*(_DWORD *)(*(_QWORD *)(a2 + 40) + 1048624LL) += (_DWORD)v3;
*(_QWORD *)(a2 + 32) = v5;
translog_check_cursor();
}
| translog_new_page_header:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x20
MOV qword ptr [RBP + -0x8],RDI
MOV qword ptr [RBP + -0x10],RSI
JMP 0x00152512
LAB_00152512:
MOV RAX,qword ptr [RBP + -0x10]
MOV byte ptr [RAX + 0x38],0x0
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x20]
MOV qword ptr [RBP + -0x18],RAX
MOV RCX,qword ptr [RBP + -0x8]
MOV RAX,0xffffffff
AND RAX,qword ptr [RCX]
SHR RAX,0xd
MOV CL,AL
MOV RAX,qword ptr [RBP + -0x18]
MOV byte ptr [RAX],CL
MOV RCX,qword ptr [RBP + -0x8]
MOV RAX,0xffffffff
AND RAX,qword ptr [RCX]
SHR RAX,0xd
SHR EAX,0x8
MOV CL,AL
MOV RAX,qword ptr [RBP + -0x18]
MOV byte ptr [RAX + 0x1],CL
MOV RCX,qword ptr [RBP + -0x8]
MOV RAX,0xffffffff
AND RAX,qword ptr [RCX]
SHR RAX,0xd
SHR RAX,0x10
MOV CL,AL
MOV RAX,qword ptr [RBP + -0x18]
MOV byte ptr [RAX + 0x2],CL
MOV RAX,qword ptr [RBP + -0x18]
ADD RAX,0x3
MOV qword ptr [RBP + -0x18],RAX
MOV RAX,qword ptr [RBP + -0x8]
MOV RAX,qword ptr [RAX]
SAR RAX,0x20
MOV CL,AL
MOV RAX,qword ptr [RBP + -0x18]
MOV byte ptr [RAX],CL
MOV RAX,qword ptr [RBP + -0x8]
MOV RAX,qword ptr [RAX]
SAR RAX,0x20
SHR EAX,0x8
MOV CL,AL
MOV RAX,qword ptr [RBP + -0x18]
MOV byte ptr [RAX + 0x1],CL
MOV RAX,qword ptr [RBP + -0x8]
MOV RAX,qword ptr [RAX]
SAR RAX,0x20
SHR EAX,0x10
MOV CL,AL
MOV RAX,qword ptr [RBP + -0x18]
MOV byte ptr [RAX + 0x2],CL
MOV RAX,qword ptr [RBP + -0x18]
ADD RAX,0x3
MOV qword ptr [RBP + -0x18],RAX
JMP 0x001525e1
LAB_001525e1:
MOV EAX,dword ptr [0x005783c8]
MOV CL,AL
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x20]
MOV byte ptr [RAX + 0x6],CL
MOV RAX,qword ptr [RBP + -0x18]
ADD RAX,0x1
MOV qword ptr [RBP + -0x18],RAX
MOV EAX,dword ptr [0x005783c8]
AND EAX,0x1
CMP EAX,0x0
JZ 0x0015261a
MOV RAX,qword ptr [RBP + -0x18]
ADD RAX,0x4
MOV qword ptr [RBP + -0x18],RAX
LAB_0015261a:
MOV EAX,dword ptr [0x005783c8]
AND EAX,0x2
CMP EAX,0x0
JZ 0x0015264a
MOV CL,byte ptr [0x00d792f4]
MOV AL,CL
ADD AL,0x1
MOV byte ptr [0x00d792f4],AL
MOV RAX,qword ptr [RBP + -0x18]
MOV byte ptr [RAX],CL
MOV RAX,qword ptr [RBP + -0x18]
ADD RAX,0x10
MOV qword ptr [RBP + -0x18],RAX
LAB_0015264a:
MOV RAX,qword ptr [RBP + -0x18]
MOV RCX,qword ptr [RBP + -0x10]
MOV RCX,qword ptr [RCX + 0x20]
SUB RAX,RCX
MOV qword ptr [RBP + -0x20],RAX
MOV RCX,qword ptr [RBP + -0x20]
MOV RAX,qword ptr [RBP + -0x8]
ADD RCX,qword ptr [RAX]
MOV qword ptr [RAX],RCX
MOV RAX,qword ptr [RBP + -0x20]
MOV CX,AX
MOV RAX,qword ptr [RBP + -0x10]
MOV word ptr [RAX + 0x30],CX
MOV RAX,qword ptr [RBP + -0x10]
CMP byte ptr [RAX + 0x37],0x0
JNZ 0x0015269e
MOV RAX,qword ptr [RBP + -0x20]
MOV ECX,EAX
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x28]
ADD ECX,dword ptr [RAX + 0x100030]
MOV dword ptr [RAX + 0x100030],ECX
LAB_0015269e:
MOV RCX,qword ptr [RBP + -0x18]
MOV RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RAX + 0x20],RCX
JMP 0x001526ac
LAB_001526ac:
MOV RDI,qword ptr [RBP + -0x10]
CALL 0x00152390
JMP 0x001526b7
LAB_001526b7:
ADD RSP,0x20
POP RBP
RET
|
void translog_new_page_header(ulong *param_1,long param_2)
{
int1 *puVar1;
char cVar2;
long lVar3;
char *local_20;
*(int1 *)(param_2 + 0x38) = 0;
puVar1 = *(int1 **)(param_2 + 0x20);
*puVar1 = (char)((*param_1 & 0xffffffff) >> 0xd);
puVar1[1] = (char)(((*param_1 & 0xffffffff) >> 0xd) >> 8);
puVar1[2] = (char)(((*param_1 & 0xffffffff) >> 0xd) >> 0x10);
puVar1[3] = (char)(*param_1 >> 0x20);
puVar1[4] = (char)(*param_1 >> 0x28);
puVar1[5] = (char)(*param_1 >> 0x30);
*(char *)(*(long *)(param_2 + 0x20) + 6) = (char)DAT_005783c8;
local_20 = puVar1 + 7;
if ((DAT_005783c8 & 1) != 0) {
local_20 = puVar1 + 0xb;
}
if ((DAT_005783c8 & 2) != 0) {
cVar2 = translog_sector_random + '\x01';
*local_20 = translog_sector_random;
translog_sector_random = cVar2;
local_20 = local_20 + 0x10;
}
lVar3 = (long)local_20 - *(long *)(param_2 + 0x20);
*param_1 = lVar3 + *param_1;
*(short *)(param_2 + 0x30) = (short)lVar3;
if (*(char *)(param_2 + 0x37) == '\0') {
*(int *)(Elf64_Ehdr_00100000.e_ident_pad + *(long *)(param_2 + 0x28) + 0x27) =
(int)lVar3 + *(int *)(Elf64_Ehdr_00100000.e_ident_pad + *(long *)(param_2 + 0x28) + 0x27);
}
*(char **)(param_2 + 0x20) = local_20;
translog_check_cursor(param_2);
return;
}
|
|
4,460 | my_hash_sort_ucs2_nopad_bin | eloqsql/strings/ctype-ucs2.c | static void
my_hash_sort_ucs2_nopad_bin(CHARSET_INFO *cs __attribute__((unused)),
const uchar *key, size_t len,
ulong *nr1, ulong *nr2)
{
const uchar *end= key + len;
register ulong m1= *nr1, m2= *nr2;
for ( ; key < end ; key++)
{
MY_HASH_ADD(m1, m2, (uint)*key);
}
*nr1= m1;
*nr2= m2;
} | O3 | c | my_hash_sort_ucs2_nopad_bin:
movq (%rcx), %rax
movq (%r8), %rdi
testq %rdx, %rdx
jle 0xc9395
pushq %rbp
movq %rsp, %rbp
addq %rsi, %rdx
movl %eax, %r9d
andl $0x3f, %r9d
addq %rdi, %r9
movzbl (%rsi), %r10d
imulq %r9, %r10
movq %rax, %r9
shlq $0x8, %r9
addq %r10, %r9
xorq %r9, %rax
addq $0x3, %rdi
incq %rsi
cmpq %rdx, %rsi
jb 0xc9369
popq %rbp
movq %rax, (%rcx)
movq %rdi, (%r8)
retq
| my_hash_sort_ucs2_nopad_bin:
mov rax, [rcx]
mov rdi, [r8]
test rdx, rdx
jle short loc_C9395
push rbp
mov rbp, rsp
add rdx, rsi
loc_C9369:
mov r9d, eax
and r9d, 3Fh
add r9, rdi
movzx r10d, byte ptr [rsi]
imul r10, r9
mov r9, rax
shl r9, 8
add r9, r10
xor rax, r9
add rdi, 3
inc rsi
cmp rsi, rdx
jb short loc_C9369
pop rbp
loc_C9395:
mov [rcx], rax
mov [r8], rdi
retn
| long long my_hash_sort_ucs2_nopad_bin(long long a1, unsigned __int8 *a2, long long a3, long long *a4, long long *a5)
{
long long result; // rax
long long v6; // rdi
unsigned __int8 *v7; // rdx
result = *a4;
v6 = *a5;
if ( a3 > 0 )
{
v7 = &a2[a3];
do
{
result ^= (v6 + (result & 0x3F)) * *a2 + (result << 8);
v6 += 3LL;
++a2;
}
while ( a2 < v7 );
}
*a4 = result;
*a5 = v6;
return result;
}
| my_hash_sort_ucs2_nopad_bin:
MOV RAX,qword ptr [RCX]
MOV RDI,qword ptr [R8]
TEST RDX,RDX
JLE 0x001c9395
PUSH RBP
MOV RBP,RSP
ADD RDX,RSI
LAB_001c9369:
MOV R9D,EAX
AND R9D,0x3f
ADD R9,RDI
MOVZX R10D,byte ptr [RSI]
IMUL R10,R9
MOV R9,RAX
SHL R9,0x8
ADD R9,R10
XOR RAX,R9
ADD RDI,0x3
INC RSI
CMP RSI,RDX
JC 0x001c9369
POP RBP
LAB_001c9395:
MOV qword ptr [RCX],RAX
MOV qword ptr [R8],RDI
RET
|
void my_hash_sort_ucs2_nopad_bin
(int8 param_1,byte *param_2,long param_3,ulong *param_4,long *param_5)
{
ulong uVar1;
byte *pbVar2;
long lVar3;
uVar1 = *param_4;
lVar3 = *param_5;
if (0 < param_3) {
pbVar2 = param_2 + param_3;
do {
uVar1 = uVar1 ^ uVar1 * 0x100 + (ulong)*param_2 * ((ulong)((uint)uVar1 & 0x3f) + lVar3);
lVar3 = lVar3 + 3;
param_2 = param_2 + 1;
} while (param_2 < pbVar2);
}
*param_4 = uVar1;
*param_5 = lVar3;
return;
}
|
|
4,461 | check_keys_in_record | eloqsql/storage/maria/ma_check.c | static int check_keys_in_record(HA_CHECK *param, MARIA_HA *info, int extend,
my_off_t start_recpos, uchar *record)
{
MARIA_SHARE *share= info->s;
MARIA_KEYDEF *keyinfo;
char llbuff[22+4];
uint keynr;
param->tmp_record_checksum+= (ha_checksum) start_recpos;
param->records++;
if (param->records % WRITE_COUNT == 0)
{
if (param->testflag & T_WRITE_LOOP)
{
printf("%s\r", llstr(param->records, llbuff));
fflush(stdout);
}
_ma_report_progress(param, param->records, share->state.state.records);
}
/* Check if keys match the record */
for (keynr=0, keyinfo= share->keyinfo; keynr < share->base.keys;
keynr++, keyinfo++)
{
if (maria_is_key_active(share->state.key_map, keynr))
{
MARIA_KEY key;
if (!(keyinfo->flag & HA_FULLTEXT))
{
(*keyinfo->make_key)(info, &key, keynr, info->lastkey_buff, record,
start_recpos, 0);
info->last_key.keyinfo= key.keyinfo;
if (extend)
{
/* We don't need to lock the key tree here as we don't allow
concurrent threads when running maria_chk
*/
int search_result=
#ifdef HAVE_RTREE_KEYS
(keyinfo->flag & (HA_SPATIAL | HA_RTREE_INDEX)) ?
maria_rtree_find_first(info, &key, MBR_EQUAL | MBR_DATA) :
#endif
_ma_search(info, &key, SEARCH_SAME, share->state.key_root[keynr]);
if (search_result)
{
_ma_check_print_error(param,
"Record at: %14s "
"Can't find key for index: %2d",
record_pos_to_txt(info, start_recpos,
llbuff),
keynr+1);
if (param->testflag & T_VERBOSE)
_ma_print_key(stdout, &key);
if (param->err_count++ > MAXERR || !(param->testflag & T_VERBOSE))
return -1;
}
}
else
param->tmp_key_crc[keynr]+=
maria_byte_checksum(key.data, key.data_length);
}
}
}
return 0;
} | O0 | c | check_keys_in_record:
pushq %rbp
movq %rsp, %rbp
subq $0xc0, %rsp
movq %fs:0x28, %rax
movq %rax, -0x8(%rbp)
movq %rdi, -0x40(%rbp)
movq %rsi, -0x48(%rbp)
movl %edx, -0x4c(%rbp)
movq %rcx, -0x58(%rbp)
movq %r8, -0x60(%rbp)
movq -0x48(%rbp), %rax
movq (%rax), %rax
movq %rax, -0x68(%rbp)
movq -0x58(%rbp), %rax
movl %eax, %ecx
movq -0x40(%rbp), %rax
addl 0xb00(%rax), %ecx
movl %ecx, 0xb00(%rax)
movq -0x40(%rbp), %rax
movq 0x2e0(%rax), %rcx
addq $0x1, %rcx
movq %rcx, 0x2e0(%rax)
movq -0x40(%rbp), %rax
movq 0x2e0(%rax), %rax
movl $0x2710, %ecx # imm = 0x2710
xorl %edx, %edx
divq %rcx
cmpq $0x0, %rdx
jne 0xaa268
movq -0x40(%rbp), %rcx
movabsq $0x80000000, %rax # imm = 0x80000000
andq 0xb10(%rcx), %rax
cmpq $0x0, %rax
je 0xaa24c
movq -0x40(%rbp), %rax
movq 0x2e0(%rax), %rdi
leaq -0x30(%rbp), %rsi
callq 0x176ef0
movq %rax, %rsi
leaq 0xd7934(%rip), %rdi # 0x181b6a
movb $0x0, %al
callq 0x2a070
movq 0x247d8c(%rip), %rax # 0x2f1fd0
movq (%rax), %rdi
callq 0x2a440
movq -0x40(%rbp), %rdi
movq -0x40(%rbp), %rax
movq 0x2e0(%rax), %rsi
movq -0x68(%rbp), %rax
movq 0x18(%rax), %rdx
callq 0x2b3e0
movl $0x0, -0x74(%rbp)
movq -0x68(%rbp), %rax
movq 0x570(%rax), %rax
movq %rax, -0x70(%rbp)
movl -0x74(%rbp), %eax
movq -0x68(%rbp), %rcx
cmpl 0x3e8(%rcx), %eax
jae 0xaa49f
movq -0x68(%rbp), %rax
movq 0x140(%rax), %rax
movl -0x74(%rbp), %ecx
movl $0x1, %edx
shlq %cl, %rdx
movq %rdx, %rcx
andq %rcx, %rax
cmpq $0x0, %rax
je 0xaa2be
movb $0x1, %al
testb $0x1, %al
jne 0xaa2c9
jmp 0xaa481
xorl %eax, %eax
testb $0x1, %al
jne 0xaa2c9
jmp 0xaa481
movq -0x70(%rbp), %rax
movzwl 0xa2(%rax), %eax
andl $0x80, %eax
cmpl $0x0, %eax
jne 0xaa47f
movq -0x70(%rbp), %rax
movq 0x110(%rax), %rax
movq -0x48(%rbp), %rdi
movl -0x74(%rbp), %edx
movq -0x48(%rbp), %rcx
movq 0x388(%rcx), %rcx
movq -0x60(%rbp), %r8
movq -0x58(%rbp), %r9
leaq -0x98(%rbp), %rsi
xorl %r10d, %r10d
movq $0x0, (%rsp)
callq *%rax
movq -0x90(%rbp), %rcx
movq -0x48(%rbp), %rax
movq %rcx, 0x208(%rax)
cmpl $0x0, -0x4c(%rbp)
je 0xaa454
movq -0x70(%rbp), %rax
movzwl 0xa2(%rax), %eax
andl $0x4400, %eax # imm = 0x4400
cmpl $0x0, %eax
je 0xaa369
movq -0x48(%rbp), %rdi
leaq -0x98(%rbp), %rsi
movl $0x6000, %edx # imm = 0x6000
callq 0xaeee0
movl %eax, -0xa0(%rbp)
jmp 0xaa396
movq -0x48(%rbp), %rdi
movq -0x68(%rbp), %rax
movq 0x118(%rax), %rax
movl -0x74(%rbp), %ecx
movq (%rax,%rcx,8), %rcx
leaq -0x98(%rbp), %rsi
movl $0x4, %edx
callq 0x704d0
movl %eax, -0xa0(%rbp)
movl -0xa0(%rbp), %eax
movl %eax, -0x9c(%rbp)
cmpl $0x0, -0x9c(%rbp)
je 0xaa452
movq -0x40(%rbp), %rax
movq %rax, -0xa8(%rbp)
movq -0x48(%rbp), %rdi
movq -0x58(%rbp), %rsi
leaq -0x30(%rbp), %rdx
callq 0xa0ad0
movq -0xa8(%rbp), %rdi
movq %rax, %rdx
movl -0x74(%rbp), %ecx
addl $0x1, %ecx
leaq 0xd81d9(%rip), %rsi # 0x1825bb
movb $0x0, %al
callq 0x2b640
movq -0x40(%rbp), %rax
movq 0xb10(%rax), %rax
andq $0x10000000, %rax # imm = 0x10000000
cmpq $0x0, %rax
je 0xaa416
movq 0x247bc9(%rip), %rax # 0x2f1fd0
movq (%rax), %rdi
leaq -0x98(%rbp), %rsi
callq 0xc0520
movq -0x40(%rbp), %rcx
movl 0x20990(%rcx), %eax
movl %eax, %edx
addl $0x1, %edx
movl %edx, 0x20990(%rcx)
cmpl $0x14, %eax
jg 0xaa447
movq -0x40(%rbp), %rax
movq 0xb10(%rax), %rax
andq $0x10000000, %rax # imm = 0x10000000
cmpq $0x0, %rax
jne 0xaa450
movl $0xffffffff, -0x34(%rbp) # imm = 0xFFFFFFFF
jmp 0xaa4a6
jmp 0xaa452
jmp 0xaa47d
movq -0x98(%rbp), %rdi
movl -0x88(%rbp), %esi
callq 0xa9420
movl %eax, %edx
movq -0x40(%rbp), %rax
movl -0x74(%rbp), %ecx
addl 0x704(%rax,%rcx,4), %edx
movl %edx, 0x704(%rax,%rcx,4)
jmp 0xaa47f
jmp 0xaa481
jmp 0xaa483
movl -0x74(%rbp), %eax
addl $0x1, %eax
movl %eax, -0x74(%rbp)
movq -0x70(%rbp), %rax
addq $0x118, %rax # imm = 0x118
movq %rax, -0x70(%rbp)
jmp 0xaa27e
movl $0x0, -0x34(%rbp)
movl -0x34(%rbp), %eax
movl %eax, -0xac(%rbp)
movq %fs:0x28, %rax
movq -0x8(%rbp), %rcx
cmpq %rcx, %rax
jne 0xaa4d0
movl -0xac(%rbp), %eax
addq $0xc0, %rsp
popq %rbp
retq
callq 0x2a290
nopw %cs:(%rax,%rax)
| check_keys_in_record:
push rbp
mov rbp, rsp
sub rsp, 0C0h
mov rax, fs:28h
mov [rbp+var_8], rax
mov [rbp+var_40], rdi
mov [rbp+var_48], rsi
mov [rbp+var_4C], edx
mov [rbp+var_58], rcx
mov [rbp+var_60], r8
mov rax, [rbp+var_48]
mov rax, [rax]
mov [rbp+var_68], rax
mov rax, [rbp+var_58]
mov ecx, eax
mov rax, [rbp+var_40]
add ecx, [rax+0B00h]
mov [rax+0B00h], ecx
mov rax, [rbp+var_40]
mov rcx, [rax+2E0h]
add rcx, 1
mov [rax+2E0h], rcx
mov rax, [rbp+var_40]
mov rax, [rax+2E0h]
mov ecx, 2710h
xor edx, edx
div rcx
cmp rdx, 0
jnz short loc_AA268
mov rcx, [rbp+var_40]
mov rax, 80000000h
and rax, [rcx+0B10h]
cmp rax, 0
jz short loc_AA24C
mov rax, [rbp+var_40]
mov rdi, [rax+2E0h]
lea rsi, [rbp+var_30]
call llstr
mov rsi, rax
lea rdi, aS_0; "%s\r"
mov al, 0
call _printf
mov rax, cs:stdout_ptr
mov rdi, [rax]
call _fflush
loc_AA24C:
mov rdi, [rbp+var_40]
mov rax, [rbp+var_40]
mov rsi, [rax+2E0h]
mov rax, [rbp+var_68]
mov rdx, [rax+18h]
call _ma_report_progress
loc_AA268:
mov [rbp+var_74], 0
mov rax, [rbp+var_68]
mov rax, [rax+570h]
mov [rbp+var_70], rax
loc_AA27E:
mov eax, [rbp+var_74]
mov rcx, [rbp+var_68]
cmp eax, [rcx+3E8h]
jnb loc_AA49F
mov rax, [rbp+var_68]
mov rax, [rax+140h]
mov ecx, [rbp+var_74]
mov edx, 1
shl rdx, cl
mov rcx, rdx
and rax, rcx
cmp rax, 0
jz short loc_AA2BE
mov al, 1
test al, 1
jnz short loc_AA2C9
jmp loc_AA481
loc_AA2BE:
xor eax, eax
test al, 1
jnz short loc_AA2C9
jmp loc_AA481
loc_AA2C9:
mov rax, [rbp+var_70]
movzx eax, word ptr [rax+0A2h]
and eax, 80h
cmp eax, 0
jnz loc_AA47F
mov rax, [rbp+var_70]
mov rax, [rax+110h]
mov rdi, [rbp+var_48]
mov edx, [rbp+var_74]
mov rcx, [rbp+var_48]
mov rcx, [rcx+388h]
mov r8, [rbp+var_60]
mov r9, [rbp+var_58]
lea rsi, [rbp+var_98]
xor r10d, r10d
mov [rsp+0C0h+var_C0], 0
call rax
mov rcx, [rbp+var_90]
mov rax, [rbp+var_48]
mov [rax+208h], rcx
cmp [rbp+var_4C], 0
jz loc_AA454
mov rax, [rbp+var_70]
movzx eax, word ptr [rax+0A2h]
and eax, 4400h
cmp eax, 0
jz short loc_AA369
mov rdi, [rbp+var_48]
lea rsi, [rbp+var_98]
mov edx, 6000h
call maria_rtree_find_first
mov [rbp+var_A0], eax
jmp short loc_AA396
loc_AA369:
mov rdi, [rbp+var_48]
mov rax, [rbp+var_68]
mov rax, [rax+118h]
mov ecx, [rbp+var_74]
mov rcx, [rax+rcx*8]
lea rsi, [rbp+var_98]
mov edx, 4
call _ma_search
mov [rbp+var_A0], eax
loc_AA396:
mov eax, [rbp+var_A0]
mov [rbp+var_9C], eax
cmp [rbp+var_9C], 0
jz loc_AA452
mov rax, [rbp+var_40]
mov [rbp+var_A8], rax
mov rdi, [rbp+var_48]
mov rsi, [rbp+var_58]
lea rdx, [rbp+var_30]
call record_pos_to_txt
mov rdi, [rbp+var_A8]
mov rdx, rax
mov ecx, [rbp+var_74]
add ecx, 1
lea rsi, aRecordAt14sCan; "Record at: %14s Can't find key for ind"...
mov al, 0
call _ma_check_print_error
mov rax, [rbp+var_40]
mov rax, [rax+0B10h]
and rax, 10000000h
cmp rax, 0
jz short loc_AA416
mov rax, cs:stdout_ptr
mov rdi, [rax]
lea rsi, [rbp+var_98]
call _ma_print_key
loc_AA416:
mov rcx, [rbp+var_40]
mov eax, dword ptr ds:stru_20990.r_offset[rcx]
mov edx, eax
add edx, 1
mov dword ptr ds:stru_20990.r_offset[rcx], edx
cmp eax, 14h
jg short loc_AA447
mov rax, [rbp+var_40]
mov rax, [rax+0B10h]
and rax, 10000000h
cmp rax, 0
jnz short loc_AA450
loc_AA447:
mov [rbp+var_34], 0FFFFFFFFh
jmp short loc_AA4A6
loc_AA450:
jmp short $+2
loc_AA452:
jmp short loc_AA47D
loc_AA454:
mov rdi, [rbp+var_98]
mov esi, [rbp+var_88]
call maria_byte_checksum
mov edx, eax
mov rax, [rbp+var_40]
mov ecx, [rbp+var_74]
add edx, [rax+rcx*4+704h]
mov [rax+rcx*4+704h], edx
loc_AA47D:
jmp short $+2
loc_AA47F:
jmp short $+2
loc_AA481:
jmp short $+2
loc_AA483:
mov eax, [rbp+var_74]
add eax, 1
mov [rbp+var_74], eax
mov rax, [rbp+var_70]
add rax, 118h
mov [rbp+var_70], rax
jmp loc_AA27E
loc_AA49F:
mov [rbp+var_34], 0
loc_AA4A6:
mov eax, [rbp+var_34]
mov [rbp+var_AC], eax
mov rax, fs:28h
mov rcx, [rbp+var_8]
cmp rax, rcx
jnz short loc_AA4D0
mov eax, [rbp+var_AC]
add rsp, 0C0h
pop rbp
retn
loc_AA4D0:
call ___stack_chk_fail
| long long check_keys_in_record(
long long a1,
_QWORD *a2,
int a3,
long long a4,
long long a5,
__m128 a6,
__m128 a7,
__m128 a8,
__m128 a9,
double a10,
double a11,
__m128 a12,
__m128 a13)
{
const char *v13; // rax
long long v14; // rax
long long v15; // r8
long long v16; // r9
__m128 v17; // xmm4
__m128 v18; // xmm5
int v19; // eax
int v20; // eax
long long v22; // [rsp+18h] [rbp-A8h]
int first; // [rsp+20h] [rbp-A0h]
unsigned __int8 *v24[2]; // [rsp+28h] [rbp-98h] BYREF
int v25; // [rsp+38h] [rbp-88h]
unsigned int v26; // [rsp+4Ch] [rbp-74h]
long long v27; // [rsp+50h] [rbp-70h]
long long v28; // [rsp+58h] [rbp-68h]
long long v29; // [rsp+60h] [rbp-60h]
long long v30; // [rsp+68h] [rbp-58h]
int v31; // [rsp+74h] [rbp-4Ch]
_QWORD *v32; // [rsp+78h] [rbp-48h]
long long v33; // [rsp+80h] [rbp-40h]
_BYTE v35[40]; // [rsp+90h] [rbp-30h] BYREF
unsigned long long v36; // [rsp+B8h] [rbp-8h]
v36 = __readfsqword(0x28u);
v33 = a1;
v32 = a2;
v31 = a3;
v30 = a4;
v29 = a5;
v28 = *a2;
*(_DWORD *)(a1 + 2816) += a4;
if ( !(++*(_QWORD *)(v33 + 736) % 0x2710uLL) )
{
if ( (*(_QWORD *)(v33 + 2832) & 0x80000000LL) != 0 )
{
v13 = (const char *)llstr(*(_QWORD *)(v33 + 736), v35);
*(double *)a6.m128_u64 = printf("%s\r", v13);
fflush(stdout);
}
ma_report_progress();
}
v26 = 0;
v27 = *(_QWORD *)(v28 + 1392);
while ( v26 < *(_DWORD *)(v28 + 1000) )
{
if ( ((1LL << v26) & *(_QWORD *)(v28 + 320)) != 0 && (*(_WORD *)(v27 + 162) & 0x80) == 0 )
{
(*(void ( **)(_QWORD *, unsigned __int8 **, _QWORD, _QWORD, long long, long long))(v27 + 272))(
v32,
v24,
v26,
v32[113],
v29,
v30);
v32[65] = v24[1];
if ( v31 )
{
if ( (*(_WORD *)(v27 + 162) & 0x4400) != 0 )
first = maria_rtree_find_first(v32, v24, 24576LL);
else
first = ma_search((long long)v32, (long long)v24, 4u, *(_QWORD *)(*(_QWORD *)(v28 + 280) + 8LL * v26));
if ( first )
{
v22 = v33;
v14 = record_pos_to_txt((long long)v32, v30, (long long)v35);
ma_check_print_error(
v22,
(long long)"Record at: %14s Can't find key for index: %2d",
v14,
v26 + 1,
v15,
v16,
a6,
a7,
a8,
a9,
v17,
v18,
a12,
a13,
0);
if ( (*(_QWORD *)(v33 + 2832) & 0x10000000LL) != 0 )
ma_print_key(stdout, v24);
v19 = *(_DWORD *)((char *)&stru_20990.r_offset + v33);
*(_DWORD *)((char *)&stru_20990.r_offset + v33) = v19 + 1;
if ( v19 > 20 || (*(_QWORD *)(v33 + 2832) & 0x10000000LL) == 0 )
return (unsigned int)-1;
}
}
else
{
v20 = maria_byte_checksum(v24[0], v25);
*(_DWORD *)(v33 + 4LL * v26 + 1796) += v20;
}
}
++v26;
v27 += 280LL;
}
return 0;
}
| check_keys_in_record:
PUSH RBP
MOV RBP,RSP
SUB RSP,0xc0
MOV RAX,qword ptr FS:[0x28]
MOV qword ptr [RBP + -0x8],RAX
MOV qword ptr [RBP + -0x40],RDI
MOV qword ptr [RBP + -0x48],RSI
MOV dword ptr [RBP + -0x4c],EDX
MOV qword ptr [RBP + -0x58],RCX
MOV qword ptr [RBP + -0x60],R8
MOV RAX,qword ptr [RBP + -0x48]
MOV RAX,qword ptr [RAX]
MOV qword ptr [RBP + -0x68],RAX
MOV RAX,qword ptr [RBP + -0x58]
MOV ECX,EAX
MOV RAX,qword ptr [RBP + -0x40]
ADD ECX,dword ptr [RAX + 0xb00]
MOV dword ptr [RAX + 0xb00],ECX
MOV RAX,qword ptr [RBP + -0x40]
MOV RCX,qword ptr [RAX + 0x2e0]
ADD RCX,0x1
MOV qword ptr [RAX + 0x2e0],RCX
MOV RAX,qword ptr [RBP + -0x40]
MOV RAX,qword ptr [RAX + 0x2e0]
MOV ECX,0x2710
XOR EDX,EDX
DIV RCX
CMP RDX,0x0
JNZ 0x001aa268
MOV RCX,qword ptr [RBP + -0x40]
MOV RAX,0x80000000
AND RAX,qword ptr [RCX + 0xb10]
CMP RAX,0x0
JZ 0x001aa24c
MOV RAX,qword ptr [RBP + -0x40]
MOV RDI,qword ptr [RAX + 0x2e0]
LEA RSI,[RBP + -0x30]
CALL 0x00276ef0
MOV RSI,RAX
LEA RDI,[0x281b6a]
MOV AL,0x0
CALL 0x0012a070
MOV RAX,qword ptr [0x003f1fd0]
MOV RDI,qword ptr [RAX]
CALL 0x0012a440
LAB_001aa24c:
MOV RDI,qword ptr [RBP + -0x40]
MOV RAX,qword ptr [RBP + -0x40]
MOV RSI,qword ptr [RAX + 0x2e0]
MOV RAX,qword ptr [RBP + -0x68]
MOV RDX,qword ptr [RAX + 0x18]
CALL 0x0012b3e0
LAB_001aa268:
MOV dword ptr [RBP + -0x74],0x0
MOV RAX,qword ptr [RBP + -0x68]
MOV RAX,qword ptr [RAX + 0x570]
MOV qword ptr [RBP + -0x70],RAX
LAB_001aa27e:
MOV EAX,dword ptr [RBP + -0x74]
MOV RCX,qword ptr [RBP + -0x68]
CMP EAX,dword ptr [RCX + 0x3e8]
JNC 0x001aa49f
MOV RAX,qword ptr [RBP + -0x68]
MOV RAX,qword ptr [RAX + 0x140]
MOV ECX,dword ptr [RBP + -0x74]
MOV EDX,0x1
SHL RDX,CL
MOV RCX,RDX
AND RAX,RCX
CMP RAX,0x0
JZ 0x001aa2be
MOV AL,0x1
TEST AL,0x1
JNZ 0x001aa2c9
JMP 0x001aa481
LAB_001aa2be:
XOR EAX,EAX
TEST AL,0x1
JNZ 0x001aa2c9
JMP 0x001aa481
LAB_001aa2c9:
MOV RAX,qword ptr [RBP + -0x70]
MOVZX EAX,word ptr [RAX + 0xa2]
AND EAX,0x80
CMP EAX,0x0
JNZ 0x001aa47f
MOV RAX,qword ptr [RBP + -0x70]
MOV RAX,qword ptr [RAX + 0x110]
MOV RDI,qword ptr [RBP + -0x48]
MOV EDX,dword ptr [RBP + -0x74]
MOV RCX,qword ptr [RBP + -0x48]
MOV RCX,qword ptr [RCX + 0x388]
MOV R8,qword ptr [RBP + -0x60]
MOV R9,qword ptr [RBP + -0x58]
LEA RSI,[RBP + -0x98]
XOR R10D,R10D
MOV qword ptr [RSP],0x0
CALL RAX
MOV RCX,qword ptr [RBP + -0x90]
MOV RAX,qword ptr [RBP + -0x48]
MOV qword ptr [RAX + 0x208],RCX
CMP dword ptr [RBP + -0x4c],0x0
JZ 0x001aa454
MOV RAX,qword ptr [RBP + -0x70]
MOVZX EAX,word ptr [RAX + 0xa2]
AND EAX,0x4400
CMP EAX,0x0
JZ 0x001aa369
MOV RDI,qword ptr [RBP + -0x48]
LEA RSI,[RBP + -0x98]
MOV EDX,0x6000
CALL 0x001aeee0
MOV dword ptr [RBP + -0xa0],EAX
JMP 0x001aa396
LAB_001aa369:
MOV RDI,qword ptr [RBP + -0x48]
MOV RAX,qword ptr [RBP + -0x68]
MOV RAX,qword ptr [RAX + 0x118]
MOV ECX,dword ptr [RBP + -0x74]
MOV RCX,qword ptr [RAX + RCX*0x8]
LEA RSI,[RBP + -0x98]
MOV EDX,0x4
CALL 0x001704d0
MOV dword ptr [RBP + -0xa0],EAX
LAB_001aa396:
MOV EAX,dword ptr [RBP + -0xa0]
MOV dword ptr [RBP + -0x9c],EAX
CMP dword ptr [RBP + -0x9c],0x0
JZ 0x001aa452
MOV RAX,qword ptr [RBP + -0x40]
MOV qword ptr [RBP + -0xa8],RAX
MOV RDI,qword ptr [RBP + -0x48]
MOV RSI,qword ptr [RBP + -0x58]
LEA RDX,[RBP + -0x30]
CALL 0x001a0ad0
MOV RDI,qword ptr [RBP + -0xa8]
MOV RDX,RAX
MOV ECX,dword ptr [RBP + -0x74]
ADD ECX,0x1
LEA RSI,[0x2825bb]
MOV AL,0x0
CALL 0x0012b640
MOV RAX,qword ptr [RBP + -0x40]
MOV RAX,qword ptr [RAX + 0xb10]
AND RAX,0x10000000
CMP RAX,0x0
JZ 0x001aa416
MOV RAX,qword ptr [0x003f1fd0]
MOV RDI,qword ptr [RAX]
LEA RSI,[RBP + -0x98]
CALL 0x001c0520
LAB_001aa416:
MOV RCX,qword ptr [RBP + -0x40]
MOV EAX,dword ptr [RCX + 0x20990]
MOV EDX,EAX
ADD EDX,0x1
MOV dword ptr [RCX + 0x20990],EDX
CMP EAX,0x14
JG 0x001aa447
MOV RAX,qword ptr [RBP + -0x40]
MOV RAX,qword ptr [RAX + 0xb10]
AND RAX,0x10000000
CMP RAX,0x0
JNZ 0x001aa450
LAB_001aa447:
MOV dword ptr [RBP + -0x34],0xffffffff
JMP 0x001aa4a6
LAB_001aa450:
JMP 0x001aa452
LAB_001aa452:
JMP 0x001aa47d
LAB_001aa454:
MOV RDI,qword ptr [RBP + -0x98]
MOV ESI,dword ptr [RBP + -0x88]
CALL 0x001a9420
MOV EDX,EAX
MOV RAX,qword ptr [RBP + -0x40]
MOV ECX,dword ptr [RBP + -0x74]
ADD EDX,dword ptr [RAX + RCX*0x4 + 0x704]
MOV dword ptr [RAX + RCX*0x4 + 0x704],EDX
LAB_001aa47d:
JMP 0x001aa47f
LAB_001aa47f:
JMP 0x001aa481
LAB_001aa481:
JMP 0x001aa483
LAB_001aa483:
MOV EAX,dword ptr [RBP + -0x74]
ADD EAX,0x1
MOV dword ptr [RBP + -0x74],EAX
MOV RAX,qword ptr [RBP + -0x70]
ADD RAX,0x118
MOV qword ptr [RBP + -0x70],RAX
JMP 0x001aa27e
LAB_001aa49f:
MOV dword ptr [RBP + -0x34],0x0
LAB_001aa4a6:
MOV EAX,dword ptr [RBP + -0x34]
MOV dword ptr [RBP + -0xac],EAX
MOV RAX,qword ptr FS:[0x28]
MOV RCX,qword ptr [RBP + -0x8]
CMP RAX,RCX
JNZ 0x001aa4d0
MOV EAX,dword ptr [RBP + -0xac]
ADD RSP,0xc0
POP RBP
RET
LAB_001aa4d0:
CALL 0x0012a290
|
/* WARNING: Removing unreachable block (ram,0x001aa2b9) */
int4
check_keys_in_record(long param_1,long *param_2,int param_3,int8 param_4,int8 param_5)
{
long lVar1;
int iVar2;
int8 uVar3;
long in_FS_OFFSET;
int local_a8;
int8 local_a0;
long local_98;
int4 local_90;
uint local_7c;
long local_78;
long local_70;
int8 local_68;
int8 local_60;
int local_54;
long *local_50;
long local_48;
int4 local_3c;
int1 local_38 [40];
long local_10;
local_10 = *(long *)(in_FS_OFFSET + 0x28);
local_70 = *param_2;
*(int *)(param_1 + 0xb00) = (int)param_4 + *(int *)(param_1 + 0xb00);
*(long *)(param_1 + 0x2e0) = *(long *)(param_1 + 0x2e0) + 1;
local_68 = param_5;
local_60 = param_4;
local_54 = param_3;
local_50 = param_2;
local_48 = param_1;
if (*(ulong *)(param_1 + 0x2e0) % 10000 == 0) {
if ((*(ulong *)(param_1 + 0xb10) & 0x80000000) != 0) {
uVar3 = llstr(*(int8 *)(param_1 + 0x2e0),local_38);
printf("%s\r",uVar3);
fflush(*(FILE **)PTR_stdout_003f1fd0);
}
_ma_report_progress(local_48,*(int8 *)(local_48 + 0x2e0),*(int8 *)(local_70 + 0x18))
;
}
local_7c = 0;
local_78 = *(long *)(local_70 + 0x570);
do {
if (*(uint *)(local_70 + 1000) <= local_7c) {
local_3c = 0;
LAB_001aa4a6:
if (*(long *)(in_FS_OFFSET + 0x28) == local_10) {
return local_3c;
}
/* WARNING: Subroutine does not return */
__stack_chk_fail();
}
if (((*(ulong *)(local_70 + 0x140) & 1L << ((byte)local_7c & 0x3f)) != 0) &&
((*(ushort *)(local_78 + 0xa2) & 0x80) == 0)) {
(**(code **)(local_78 + 0x110))
(local_50,&local_a0,local_7c,local_50[0x71],local_68,local_60,0);
local_50[0x41] = local_98;
if (local_54 == 0) {
iVar2 = maria_byte_checksum(local_a0,local_90);
*(int *)(local_48 + 0x704 + (ulong)local_7c * 4) =
iVar2 + *(int *)(local_48 + 0x704 + (ulong)local_7c * 4);
}
else {
if ((*(ushort *)(local_78 + 0xa2) & 0x4400) == 0) {
local_a8 = _ma_search(local_50,&local_a0,4,
*(int8 *)(*(long *)(local_70 + 0x118) + (ulong)local_7c * 8));
}
else {
local_a8 = maria_rtree_find_first(local_50,&local_a0,0x6000);
}
lVar1 = local_48;
if (local_a8 != 0) {
uVar3 = record_pos_to_txt(local_50,local_60,local_38);
_ma_check_print_error
(lVar1,"Record at: %14s Can\'t find key for index: %2d",uVar3,local_7c + 1);
if ((*(ulong *)(local_48 + 0xb10) & 0x10000000) != 0) {
_ma_print_key(*(int8 *)PTR_stdout_003f1fd0,&local_a0);
}
iVar2 = *(int *)(local_48 + 0x20990);
*(int *)(local_48 + 0x20990) = iVar2 + 1;
if ((0x14 < iVar2) || ((*(ulong *)(local_48 + 0xb10) & 0x10000000) == 0)) {
local_3c = 0xffffffff;
goto LAB_001aa4a6;
}
}
}
}
local_7c = local_7c + 1;
local_78 = local_78 + 0x118;
} while( true );
}
|
|
4,462 | check_keys_in_record | eloqsql/storage/maria/ma_check.c | static int check_keys_in_record(HA_CHECK *param, MARIA_HA *info, int extend,
my_off_t start_recpos, uchar *record)
{
MARIA_SHARE *share= info->s;
MARIA_KEYDEF *keyinfo;
char llbuff[22+4];
uint keynr;
param->tmp_record_checksum+= (ha_checksum) start_recpos;
param->records++;
if (param->records % WRITE_COUNT == 0)
{
if (param->testflag & T_WRITE_LOOP)
{
printf("%s\r", llstr(param->records, llbuff));
fflush(stdout);
}
_ma_report_progress(param, param->records, share->state.state.records);
}
/* Check if keys match the record */
for (keynr=0, keyinfo= share->keyinfo; keynr < share->base.keys;
keynr++, keyinfo++)
{
if (maria_is_key_active(share->state.key_map, keynr))
{
MARIA_KEY key;
if (!(keyinfo->flag & HA_FULLTEXT))
{
(*keyinfo->make_key)(info, &key, keynr, info->lastkey_buff, record,
start_recpos, 0);
info->last_key.keyinfo= key.keyinfo;
if (extend)
{
/* We don't need to lock the key tree here as we don't allow
concurrent threads when running maria_chk
*/
int search_result=
#ifdef HAVE_RTREE_KEYS
(keyinfo->flag & (HA_SPATIAL | HA_RTREE_INDEX)) ?
maria_rtree_find_first(info, &key, MBR_EQUAL | MBR_DATA) :
#endif
_ma_search(info, &key, SEARCH_SAME, share->state.key_root[keynr]);
if (search_result)
{
_ma_check_print_error(param,
"Record at: %14s "
"Can't find key for index: %2d",
record_pos_to_txt(info, start_recpos,
llbuff),
keynr+1);
if (param->testflag & T_VERBOSE)
_ma_print_key(stdout, &key);
if (param->err_count++ > MAXERR || !(param->testflag & T_VERBOSE))
return -1;
}
}
else
param->tmp_key_crc[keynr]+=
maria_byte_checksum(key.data, key.data_length);
}
}
}
return 0;
} | O3 | c | check_keys_in_record:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x78, %rsp
movq %r8, -0x70(%rbp)
movl %edx, -0x54(%rbp)
movq %rsi, %r12
movq %rdi, %r13
movq %fs:0x28, %rax
movq %rax, -0x30(%rbp)
movq (%rsi), %rbx
movq %rcx, -0x60(%rbp)
addl %ecx, 0xb00(%rdi)
movq 0x2e0(%rdi), %rsi
incq %rsi
movq %rsi, 0x2e0(%rdi)
movabsq $-0x2d77318fc504816f, %rax # imm = 0xD288CE703AFB7E91
imulq %rsi, %rax
rorq $0x4, %rax
movabsq $0x68db8bac710cb, %rcx # imm = 0x68DB8BAC710CB
cmpq %rcx, %rax
ja 0x82018
testb $-0x80, 0xb13(%r13)
je 0x8200c
leaq -0x50(%rbp), %rax
movq %rsi, %rdi
movq %rax, %rsi
callq 0xf5538
leaq 0x7ab23(%rip), %rsi # 0xfcb0a
movl $0x1, %edi
movq %rax, %rdx
xorl %eax, %eax
callq 0x2a8d0
movq 0x329fa3(%rip), %rax # 0x3abfa0
movq (%rax), %rdi
callq 0x2a450
movq 0x2e0(%r13), %rsi
movq 0x18(%rbx), %rdx
movq %r13, %rdi
callq 0x32db7
movl 0x3e8(%rbx), %eax
testl %eax, %eax
je 0x821ab
movq 0x570(%rbx), %r14
xorl %r15d, %r15d
movq %r12, -0x68(%rbp)
movq 0x140(%rbx), %rcx
btq %r15, %rcx
jae 0x82196
testb $-0x80, 0xa2(%r14)
jne 0x82190
movq 0x388(%r12), %rcx
movq $0x0, (%rsp)
movq %r12, %rdi
leaq -0x90(%rbp), %rsi
movl %r15d, %edx
movq -0x70(%rbp), %r8
movq -0x60(%rbp), %r9
callq *0x110(%r14)
movq -0x88(%rbp), %rax
movq %rax, 0x208(%r12)
cmpl $0x0, -0x54(%rbp)
je 0x820b4
testb $0x44, 0xa3(%r14)
je 0x820e0
movq %r12, %rdi
leaq -0x90(%rbp), %rsi
movl $0x6000, %edx # imm = 0x6000
callq 0x84d20
jmp 0x820ff
movl -0x80(%rbp), %eax
testq %rax, %rax
je 0x82186
movq -0x90(%rbp), %rdx
xorl %esi, %esi
xorl %ecx, %ecx
roll %ecx
movzbl (%rdx,%rsi), %edi
addl %edi, %ecx
incq %rsi
cmpq %rsi, %rax
jne 0x820cb
jmp 0x82188
movq 0x118(%rbx), %rax
movq (%rax,%r15,8), %rcx
movq %r12, %rdi
leaq -0x90(%rbp), %rsi
movl $0x4, %edx
callq 0x5cc1f
testl %eax, %eax
je 0x82190
movq (%r12), %rax
movl 0x7d0(%rax), %edi
movq -0x60(%rbp), %rsi
movq %r13, %r12
leaq -0x50(%rbp), %r13
movq %r13, %rdx
callq 0x7ba93
leal 0x1(%r15), %ecx
movq %r12, %rdi
leaq 0x7b429(%rip), %rsi # 0xfd55b
movq %r13, %rdx
movq %r12, %r13
xorl %eax, %eax
callq 0x32fb0
testb $0x10, 0xb13(%r12)
je 0x82160
movq 0x329e4f(%rip), %rax # 0x3abfa0
movq (%rax), %rdi
leaq -0x90(%rbp), %rsi
callq 0x8bd8c
movl 0x20990(%r13), %eax
leal 0x1(%rax), %ecx
movl %ecx, 0x20990(%r13)
cmpl $0x14, %eax
movq -0x68(%rbp), %r12
jg 0x821cb
testb $0x10, 0xb13(%r13)
jne 0x82190
jmp 0x821cb
xorl %ecx, %ecx
addl %ecx, 0x704(%r13,%r15,4)
movl 0x3e8(%rbx), %eax
incq %r15
addq $0x118, %r14 # imm = 0x118
movl %eax, %ecx
cmpq %rcx, %r15
jb 0x82034
xorl %eax, %eax
movq %fs:0x28, %rcx
cmpq -0x30(%rbp), %rcx
jne 0x821d2
addq $0x78, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
movl $0xffffffff, %eax # imm = 0xFFFFFFFF
jmp 0x821ad
callq 0x2a280
nop
| check_keys_in_record:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 78h
mov [rbp+var_70], r8
mov [rbp+var_54], edx
mov r12, rsi
mov r13, rdi
mov rax, fs:28h
mov [rbp+var_30], rax
mov rbx, [rsi]
mov [rbp+var_60], rcx
add [rdi+0B00h], ecx
mov rsi, [rdi+2E0h]
inc rsi
mov [rdi+2E0h], rsi
mov rax, 0D288CE703AFB7E91h
imul rax, rsi
ror rax, 4
mov rcx, 68DB8BAC710CBh
cmp rax, rcx
ja short loc_82018
test byte ptr [r13+0B13h], 80h
jz short loc_8200C
lea rax, [rbp+var_50]
mov rdi, rsi
mov rsi, rax
call llstr
lea rsi, aS_0; "%s\r"
mov edi, 1
mov rdx, rax
xor eax, eax
call ___printf_chk
mov rax, cs:stdout_ptr
mov rdi, [rax]
call _fflush
mov rsi, [r13+2E0h]
loc_8200C:
mov rdx, [rbx+18h]
mov rdi, r13
call _ma_report_progress
loc_82018:
mov eax, [rbx+3E8h]
test eax, eax
jz loc_821AB
mov r14, [rbx+570h]
xor r15d, r15d
mov [rbp+var_68], r12
loc_82034:
mov rcx, [rbx+140h]
bt rcx, r15
jnb loc_82196
test byte ptr [r14+0A2h], 80h
jnz loc_82190
mov rcx, [r12+388h]
mov [rsp+0A0h+var_A0], 0
mov rdi, r12
lea rsi, [rbp+var_90]
mov edx, r15d
mov r8, [rbp+var_70]
mov r9, [rbp+var_60]
call qword ptr [r14+110h]
mov rax, [rbp+var_88]
mov [r12+208h], rax
cmp [rbp+var_54], 0
jz short loc_820B4
test byte ptr [r14+0A3h], 44h
jz short loc_820E0
mov rdi, r12
lea rsi, [rbp+var_90]
mov edx, 6000h
call maria_rtree_find_first
jmp short loc_820FF
loc_820B4:
mov eax, [rbp+var_80]
test rax, rax
jz loc_82186
mov rdx, [rbp+var_90]
xor esi, esi
xor ecx, ecx
loc_820CB:
rol ecx, 1
movzx edi, byte ptr [rdx+rsi]
add ecx, edi
inc rsi
cmp rax, rsi
jnz short loc_820CB
jmp loc_82188
loc_820E0:
mov rax, [rbx+118h]
mov rcx, [rax+r15*8]
mov rdi, r12
lea rsi, [rbp+var_90]
mov edx, 4
call _ma_search
loc_820FF:
test eax, eax
jz loc_82190
mov rax, [r12]
mov edi, [rax+7D0h]
mov rsi, [rbp+var_60]
mov r12, r13
lea r13, [rbp+var_50]
mov rdx, r13
call record_pos_to_txt
lea ecx, [r15+1]
mov rdi, r12
lea rsi, aRecordAt14sCan; "Record at: %14s Can't find key for ind"...
mov rdx, r13
mov r13, r12
xor eax, eax
call _ma_check_print_error
test byte ptr [r12+0B13h], 10h
jz short loc_82160
mov rax, cs:stdout_ptr
mov rdi, [rax]
lea rsi, [rbp+var_90]
call _ma_print_key
loc_82160:
mov eax, [r13+20990h]
lea ecx, [rax+1]
mov [r13+20990h], ecx
cmp eax, 14h
mov r12, [rbp+var_68]
jg short loc_821CB
test byte ptr [r13+0B13h], 10h
jnz short loc_82190
jmp short loc_821CB
loc_82186:
xor ecx, ecx
loc_82188:
add [r13+r15*4+704h], ecx
loc_82190:
mov eax, [rbx+3E8h]
loc_82196:
inc r15
add r14, 118h
mov ecx, eax
cmp r15, rcx
jb loc_82034
loc_821AB:
xor eax, eax
loc_821AD:
mov rcx, fs:28h
cmp rcx, [rbp+var_30]
jnz short loc_821D2
add rsp, 78h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
loc_821CB:
mov eax, 0FFFFFFFFh
jmp short loc_821AD
loc_821D2:
call ___stack_chk_fail
| long long check_keys_in_record(long long a1, _QWORD *a2, int a3, unsigned long long a4, long long a5)
{
_QWORD *v5; // r12
long long v6; // rbx
long long v7; // rsi
const char *v8; // rax
unsigned int v9; // eax
long long v10; // r14
unsigned long long v11; // r15
long long v12; // rcx
int first; // eax
long long v14; // rsi
int v15; // ecx
int v16; // eax
_QWORD v18[2]; // [rsp+10h] [rbp-90h] BYREF
int v19; // [rsp+20h] [rbp-80h]
long long v20; // [rsp+30h] [rbp-70h]
_QWORD *v21; // [rsp+38h] [rbp-68h]
unsigned long long v22; // [rsp+40h] [rbp-60h]
int v23; // [rsp+4Ch] [rbp-54h]
char v24[32]; // [rsp+50h] [rbp-50h] BYREF
unsigned long long v25; // [rsp+70h] [rbp-30h]
v20 = a5;
v23 = a3;
v5 = a2;
v25 = __readfsqword(0x28u);
v6 = *a2;
v22 = a4;
*(_DWORD *)(a1 + 2816) += a4;
v7 = *(_QWORD *)(a1 + 736) + 1LL;
*(_QWORD *)(a1 + 736) = v7;
if ( __ROR8__(0xD288CE703AFB7E91LL * v7, 4) <= 0x68DB8BAC710CBuLL )
{
if ( *(char *)(a1 + 2835) < 0 )
{
v8 = (const char *)llstr(v7, v24);
__printf_chk(1LL, "%s\r", v8);
fflush(stdout);
}
ma_report_progress();
}
v9 = *(_DWORD *)(v6 + 1000);
if ( v9 )
{
v10 = *(_QWORD *)(v6 + 1392);
v11 = 0LL;
v21 = v5;
do
{
v12 = *(_QWORD *)(v6 + 320);
if ( _bittest64(&v12, v11) )
{
if ( *(char *)(v10 + 162) >= 0 )
{
(*(void ( **)(_QWORD *, _QWORD *, _QWORD, _QWORD, long long, unsigned long long, _QWORD))(v10 + 272))(
v5,
v18,
(unsigned int)v11,
v5[113],
v20,
v22,
0LL);
v5[65] = v18[1];
if ( v23 )
{
if ( (*(_BYTE *)(v10 + 163) & 0x44) != 0 )
first = maria_rtree_find_first(v5, v18, 24576LL);
else
first = ma_search((long long)v5, (long long)v18, 4LL, *(_QWORD *)(*(_QWORD *)(v6 + 280) + 8 * v11));
if ( first )
{
record_pos_to_txt(*(_DWORD *)(*v5 + 2000LL), v22, (long long)v24);
ma_check_print_error(a1, (long long)"Record at: %14s Can't find key for index: %2d", v24, v11 + 1);
if ( (*(_BYTE *)(a1 + 2835) & 0x10) != 0 )
ma_print_key(stdout, v18);
v16 = *(_DWORD *)(a1 + 133520);
*(_DWORD *)(a1 + 133520) = v16 + 1;
v5 = v21;
if ( v16 > 20 || (*(_BYTE *)(a1 + 2835) & 0x10) == 0 )
return 0xFFFFFFFFLL;
}
}
else
{
if ( v19 )
{
v14 = 0LL;
v15 = 0;
do
v15 = *(unsigned __int8 *)(v18[0] + v14++) + __ROL4__(v15, 1);
while ( v19 != v14 );
}
else
{
v15 = 0;
}
*(_DWORD *)(a1 + 4 * v11 + 1796) += v15;
}
}
v9 = *(_DWORD *)(v6 + 1000);
}
++v11;
v10 += 280LL;
}
while ( v11 < v9 );
}
return 0LL;
}
| check_keys_in_record:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x78
MOV qword ptr [RBP + -0x70],R8
MOV dword ptr [RBP + -0x54],EDX
MOV R12,RSI
MOV R13,RDI
MOV RAX,qword ptr FS:[0x28]
MOV qword ptr [RBP + -0x30],RAX
MOV RBX,qword ptr [RSI]
MOV qword ptr [RBP + -0x60],RCX
ADD dword ptr [RDI + 0xb00],ECX
MOV RSI,qword ptr [RDI + 0x2e0]
INC RSI
MOV qword ptr [RDI + 0x2e0],RSI
MOV RAX,-0x2d77318fc504816f
IMUL RAX,RSI
ROR RAX,0x4
MOV RCX,0x68db8bac710cb
CMP RAX,RCX
JA 0x00182018
TEST byte ptr [R13 + 0xb13],0x80
JZ 0x0018200c
LEA RAX,[RBP + -0x50]
MOV RDI,RSI
MOV RSI,RAX
CALL 0x001f5538
LEA RSI,[0x1fcb0a]
MOV EDI,0x1
MOV RDX,RAX
XOR EAX,EAX
CALL 0x0012a8d0
MOV RAX,qword ptr [0x004abfa0]
MOV RDI,qword ptr [RAX]
CALL 0x0012a450
MOV RSI,qword ptr [R13 + 0x2e0]
LAB_0018200c:
MOV RDX,qword ptr [RBX + 0x18]
MOV RDI,R13
CALL 0x00132db7
LAB_00182018:
MOV EAX,dword ptr [RBX + 0x3e8]
TEST EAX,EAX
JZ 0x001821ab
MOV R14,qword ptr [RBX + 0x570]
XOR R15D,R15D
MOV qword ptr [RBP + -0x68],R12
LAB_00182034:
MOV RCX,qword ptr [RBX + 0x140]
BT RCX,R15
JNC 0x00182196
TEST byte ptr [R14 + 0xa2],0x80
JNZ 0x00182190
MOV RCX,qword ptr [R12 + 0x388]
MOV qword ptr [RSP],0x0
MOV RDI,R12
LEA RSI,[RBP + -0x90]
MOV EDX,R15D
MOV R8,qword ptr [RBP + -0x70]
MOV R9,qword ptr [RBP + -0x60]
CALL qword ptr [R14 + 0x110]
MOV RAX,qword ptr [RBP + -0x88]
MOV qword ptr [R12 + 0x208],RAX
CMP dword ptr [RBP + -0x54],0x0
JZ 0x001820b4
TEST byte ptr [R14 + 0xa3],0x44
JZ 0x001820e0
MOV RDI,R12
LEA RSI,[RBP + -0x90]
MOV EDX,0x6000
CALL 0x00184d20
JMP 0x001820ff
LAB_001820b4:
MOV EAX,dword ptr [RBP + -0x80]
TEST RAX,RAX
JZ 0x00182186
MOV RDX,qword ptr [RBP + -0x90]
XOR ESI,ESI
XOR ECX,ECX
LAB_001820cb:
ROL ECX,0x1
MOVZX EDI,byte ptr [RDX + RSI*0x1]
ADD ECX,EDI
INC RSI
CMP RAX,RSI
JNZ 0x001820cb
JMP 0x00182188
LAB_001820e0:
MOV RAX,qword ptr [RBX + 0x118]
MOV RCX,qword ptr [RAX + R15*0x8]
MOV RDI,R12
LEA RSI,[RBP + -0x90]
MOV EDX,0x4
CALL 0x0015cc1f
LAB_001820ff:
TEST EAX,EAX
JZ 0x00182190
MOV RAX,qword ptr [R12]
MOV EDI,dword ptr [RAX + 0x7d0]
MOV RSI,qword ptr [RBP + -0x60]
MOV R12,R13
LEA R13,[RBP + -0x50]
MOV RDX,R13
CALL 0x0017ba93
LEA ECX,[R15 + 0x1]
MOV RDI,R12
LEA RSI,[0x1fd55b]
MOV RDX,R13
MOV R13,R12
XOR EAX,EAX
CALL 0x00132fb0
TEST byte ptr [R12 + 0xb13],0x10
JZ 0x00182160
MOV RAX,qword ptr [0x004abfa0]
MOV RDI,qword ptr [RAX]
LEA RSI,[RBP + -0x90]
CALL 0x0018bd8c
LAB_00182160:
MOV EAX,dword ptr [R13 + 0x20990]
LEA ECX,[RAX + 0x1]
MOV dword ptr [R13 + 0x20990],ECX
CMP EAX,0x14
MOV R12,qword ptr [RBP + -0x68]
JG 0x001821cb
TEST byte ptr [R13 + 0xb13],0x10
JNZ 0x00182190
JMP 0x001821cb
LAB_00182186:
XOR ECX,ECX
LAB_00182188:
ADD dword ptr [R13 + R15*0x4 + 0x704],ECX
LAB_00182190:
MOV EAX,dword ptr [RBX + 0x3e8]
LAB_00182196:
INC R15
ADD R14,0x118
MOV ECX,EAX
CMP R15,RCX
JC 0x00182034
LAB_001821ab:
XOR EAX,EAX
LAB_001821ad:
MOV RCX,qword ptr FS:[0x28]
CMP RCX,qword ptr [RBP + -0x30]
JNZ 0x001821d2
ADD RSP,0x78
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
LAB_001821cb:
MOV EAX,0xffffffff
JMP 0x001821ad
LAB_001821d2:
CALL 0x0012a280
|
int8
check_keys_in_record(long param_1,long *param_2,int param_3,int8 param_4,int8 param_5)
{
int *piVar1;
long lVar2;
uint uVar3;
int iVar4;
int8 uVar5;
long lVar6;
ulong uVar7;
ulong uVar8;
long in_FS_OFFSET;
long local_98;
long local_90;
uint local_88;
int8 local_78;
long *local_70;
int8 local_68;
int local_5c;
int1 local_58 [32];
long local_38;
local_38 = *(long *)(in_FS_OFFSET + 0x28);
lVar2 = *param_2;
*(int *)(param_1 + 0xb00) = *(int *)(param_1 + 0xb00) + (int)param_4;
lVar6 = *(long *)(param_1 + 0x2e0) + 1;
*(long *)(param_1 + 0x2e0) = lVar6;
local_78 = param_5;
local_68 = param_4;
local_5c = param_3;
if (((ulong)(lVar6 * -0x2d77318fc504816f) >> 4 | lVar6 * -0x2d77318fc504816f << 0x3c) <
0x68db8bac710cc) {
if ((*(byte *)(param_1 + 0xb13) & 0x80) != 0) {
uVar5 = llstr(lVar6,local_58);
__printf_chk(1,&DAT_001fcb0a,uVar5);
fflush(*(FILE **)PTR_stdout_004abfa0);
lVar6 = *(long *)(param_1 + 0x2e0);
}
_ma_report_progress(param_1,lVar6,*(int8 *)(lVar2 + 0x18));
}
uVar3 = *(uint *)(lVar2 + 1000);
if (uVar3 != 0) {
lVar6 = *(long *)(lVar2 + 0x570);
uVar8 = 0;
local_70 = param_2;
do {
if ((*(ulong *)(lVar2 + 0x140) >> (uVar8 & 0x3f) & 1) != 0) {
if ((*(byte *)(lVar6 + 0xa2) & 0x80) == 0) {
(**(code **)(lVar6 + 0x110))
(param_2,&local_98,uVar8 & 0xffffffff,param_2[0x71],local_78,local_68,0);
param_2[0x41] = local_90;
if (local_5c == 0) {
if ((ulong)local_88 == 0) {
iVar4 = 0;
}
else {
uVar7 = 0;
iVar4 = 0;
do {
iVar4 = (iVar4 << 1 | (uint)(iVar4 < 0)) + (uint)*(byte *)(local_98 + uVar7);
uVar7 = uVar7 + 1;
} while (local_88 != uVar7);
}
piVar1 = (int *)(param_1 + 0x704 + uVar8 * 4);
*piVar1 = *piVar1 + iVar4;
}
else {
if ((*(byte *)(lVar6 + 0xa3) & 0x44) == 0) {
iVar4 = _ma_search(param_2,&local_98,4,
*(int8 *)(*(long *)(lVar2 + 0x118) + uVar8 * 8));
}
else {
iVar4 = maria_rtree_find_first(param_2,&local_98,0x6000);
}
if (iVar4 != 0) {
record_pos_to_txt(*(int4 *)(*param_2 + 2000),local_68,local_58);
_ma_check_print_error
(param_1,"Record at: %14s Can\'t find key for index: %2d",local_58,
(int)uVar8 + 1);
if ((*(byte *)(param_1 + 0xb13) & 0x10) != 0) {
_ma_print_key(*(int8 *)PTR_stdout_004abfa0,&local_98);
}
iVar4 = *(int *)(param_1 + 0x20990);
*(int *)(param_1 + 0x20990) = iVar4 + 1;
if ((0x14 < iVar4) || (param_2 = local_70, (*(byte *)(param_1 + 0xb13) & 0x10) == 0))
{
uVar5 = 0xffffffff;
goto LAB_001821ad;
}
}
}
}
uVar3 = *(uint *)(lVar2 + 1000);
}
uVar8 = uVar8 + 1;
lVar6 = lVar6 + 0x118;
} while (uVar8 < uVar3);
}
uVar5 = 0;
LAB_001821ad:
if (*(long *)(in_FS_OFFSET + 0x28) != local_38) {
/* WARNING: Subroutine does not return */
__stack_chk_fail();
}
return uVar5;
}
|
|
4,463 | void fmt::v10::detail::handle_dynamic_spec<fmt::v10::detail::width_checker, fmt::v10::basic_format_context<fmt::v10::appender, char>>(int&, fmt::v10::detail::arg_ref<fmt::v10::basic_format_context<fmt::v10::appender, char>::char_type>, fmt::v10::basic_format_context<fmt::v10::appender, char>&) | aimrt_mujoco_sim/_deps/fmt-src/include/fmt/format.h | FMT_CONSTEXPR void handle_dynamic_spec(int& value,
arg_ref<typename Context::char_type> ref,
Context& ctx) {
switch (ref.kind) {
case arg_id_kind::none:
break;
case arg_id_kind::index:
value = detail::get_dynamic_spec<Handler>(get_arg(ctx, ref.val.index));
break;
case arg_id_kind::name:
value = detail::get_dynamic_spec<Handler>(get_arg(ctx, ref.val.name));
break;
}
} | O0 | c | void fmt::v10::detail::handle_dynamic_spec<fmt::v10::detail::width_checker, fmt::v10::basic_format_context<fmt::v10::appender, char>>(int&, fmt::v10::detail::arg_ref<fmt::v10::basic_format_context<fmt::v10::appender, char>::char_type>, fmt::v10::basic_format_context<fmt::v10::appender, char>&):
subq $0x98, %rsp
leaq 0xa0(%rsp), %rax
movq %rax, 0x20(%rsp)
movq %rdi, 0x90(%rsp)
movq %rsi, 0x88(%rsp)
movl (%rax), %eax
movl %eax, 0x2c(%rsp)
testl %eax, %eax
je 0xbd3f9
jmp 0xbd3e0
movl 0x2c(%rsp), %eax
subl $0x1, %eax
je 0xbd3fe
jmp 0xbd3eb
movl 0x2c(%rsp), %eax
subl $0x2, %eax
je 0xbd452
jmp 0xbd4bd
jmp 0xbd4bd
movq 0x20(%rsp), %rax
movq 0x88(%rsp), %rsi
movl 0x8(%rax), %edx
leaq 0x60(%rsp), %rdi
callq 0xbc920
leaq 0x60(%rsp), %rax
movq (%rax), %rcx
movq %rcx, (%rsp)
movq 0x8(%rax), %rcx
movq %rcx, 0x8(%rsp)
movq 0x10(%rax), %rcx
movq %rcx, 0x10(%rsp)
movq 0x18(%rax), %rax
movq %rax, 0x18(%rsp)
callq 0xbdfe0
movl %eax, %ecx
movq 0x90(%rsp), %rax
movl %ecx, (%rax)
jmp 0xbd4bd
movq 0x20(%rsp), %rax
movq 0x88(%rsp), %rsi
movq 0x8(%rax), %rcx
movq %rcx, 0x30(%rsp)
movq 0x10(%rax), %rax
movq %rax, 0x38(%rsp)
movq 0x30(%rsp), %rdx
movq 0x38(%rsp), %rcx
leaq 0x40(%rsp), %rdi
callq 0xbe430
leaq 0x40(%rsp), %rax
movq (%rax), %rcx
movq %rcx, (%rsp)
movq 0x8(%rax), %rcx
movq %rcx, 0x8(%rsp)
movq 0x10(%rax), %rcx
movq %rcx, 0x10(%rsp)
movq 0x18(%rax), %rax
movq %rax, 0x18(%rsp)
callq 0xbdfe0
movl %eax, %ecx
movq 0x90(%rsp), %rax
movl %ecx, (%rax)
addq $0x98, %rsp
retq
nopw %cs:(%rax,%rax)
nop
| _ZN3fmt3v106detail19handle_dynamic_specINS1_13width_checkerENS0_20basic_format_contextINS0_8appenderEcEEEEvRiNS1_7arg_refINT0_9char_typeEEERS9_:
sub rsp, 98h
lea rax, [rsp+98h+arg_0]
mov [rsp+98h+var_78], rax
mov [rsp+98h+var_8], rdi
mov [rsp+98h+var_10], rsi
mov eax, [rax]
mov [rsp+98h+var_6C], eax
test eax, eax
jz short loc_BD3F9
jmp short $+2
loc_BD3E0:
mov eax, [rsp+98h+var_6C]
sub eax, 1
jz short loc_BD3FE
jmp short $+2
loc_BD3EB:
mov eax, [rsp+98h+var_6C]
sub eax, 2
jz short loc_BD452
jmp loc_BD4BD
loc_BD3F9:
jmp loc_BD4BD
loc_BD3FE:
mov rax, [rsp+98h+var_78]
mov rsi, [rsp+98h+var_10]
mov edx, [rax+8]
lea rdi, [rsp+98h+var_38]
call _ZN3fmt3v106detail7get_argINS0_20basic_format_contextINS0_8appenderEcEEiEEDTcldtfp_3argfp0_EERT_T0_
lea rax, [rsp+98h+var_38]
mov rcx, [rax]
mov [rsp+98h+var_98], rcx
mov rcx, [rax+8]
mov [rsp+98h+var_90], rcx
mov rcx, [rax+10h]
mov [rsp+98h+var_88], rcx
mov rax, [rax+18h]
mov [rsp+98h+var_80], rax
call _ZN3fmt3v106detail16get_dynamic_specINS1_13width_checkerENS0_16basic_format_argINS0_20basic_format_contextINS0_8appenderEcEEEEEEiT0_; fmt::v10::detail::get_dynamic_spec<fmt::v10::detail::width_checker,fmt::v10::basic_format_arg<fmt::v10::basic_format_context<fmt::v10::appender,char>>>(fmt::v10::basic_format_arg<fmt::v10::basic_format_context<fmt::v10::appender,char>>)
mov ecx, eax
mov rax, [rsp+98h+var_8]
mov [rax], ecx
jmp short loc_BD4BD
loc_BD452:
mov rax, [rsp+98h+var_78]
mov rsi, [rsp+98h+var_10]
mov rcx, [rax+8]
mov [rsp+98h+var_68], rcx
mov rax, [rax+10h]
mov [rsp+98h+var_60], rax
mov rdx, [rsp+98h+var_68]
mov rcx, [rsp+98h+var_60]
lea rdi, [rsp+98h+var_58]
call _ZN3fmt3v106detail7get_argINS0_20basic_format_contextINS0_8appenderEcEENS0_17basic_string_viewIcEEEEDTcldtfp_3argfp0_EERT_T0_
lea rax, [rsp+98h+var_58]
mov rcx, [rax]
mov [rsp+98h+var_98], rcx
mov rcx, [rax+8]
mov [rsp+98h+var_90], rcx
mov rcx, [rax+10h]
mov [rsp+98h+var_88], rcx
mov rax, [rax+18h]
mov [rsp+98h+var_80], rax
call _ZN3fmt3v106detail16get_dynamic_specINS1_13width_checkerENS0_16basic_format_argINS0_20basic_format_contextINS0_8appenderEcEEEEEEiT0_; fmt::v10::detail::get_dynamic_spec<fmt::v10::detail::width_checker,fmt::v10::basic_format_arg<fmt::v10::basic_format_context<fmt::v10::appender,char>>>(fmt::v10::basic_format_arg<fmt::v10::basic_format_context<fmt::v10::appender,char>>)
mov ecx, eax
mov rax, [rsp+98h+var_8]
mov [rax], ecx
loc_BD4BD:
add rsp, 98h
retn
| long long fmt::v10::detail::handle_dynamic_spec<fmt::v10::detail::width_checker,fmt::v10::basic_format_context<fmt::v10::appender,char>>(
_DWORD *a1,
long long a2,
_DWORD a3,
_DWORD a4,
_DWORD a5,
_DWORD a6,
unsigned int a7,
long long a8,
long long a9)
{
long long result; // rax
int v10; // esi
int v11; // edx
int v12; // r8d
int v13; // r9d
int v14; // ecx
int v15; // esi
int v16; // edx
int v17; // r8d
int v18; // r9d
int v19; // ecx
_QWORD v20[2]; // [rsp+40h] [rbp-58h] BYREF
long long v21; // [rsp+50h] [rbp-48h]
long long v22; // [rsp+58h] [rbp-40h]
_QWORD v23[2]; // [rsp+60h] [rbp-38h] BYREF
long long v24; // [rsp+70h] [rbp-28h]
long long v25; // [rsp+78h] [rbp-20h]
long long v26; // [rsp+88h] [rbp-10h]
_DWORD *v27; // [rsp+90h] [rbp-8h]
v27 = a1;
v26 = a2;
result = a7;
if ( a7 )
{
if ( a7 == 1 )
{
v10 = v26;
fmt::v10::detail::get_arg<fmt::v10::basic_format_context<fmt::v10::appender,char>,int>((long long)v23, v26, a8);
v14 = fmt::v10::detail::get_dynamic_spec<fmt::v10::detail::width_checker,fmt::v10::basic_format_arg<fmt::v10::basic_format_context<fmt::v10::appender,char>>>(
(unsigned int)v23,
v10,
v11,
v24,
v12,
v13,
v23[0],
v23[1],
v24,
v25);
result = (long long)v27;
*v27 = v14;
}
else
{
result = a7 - 2;
if ( a7 == 2 )
{
v15 = v26;
fmt::v10::detail::get_arg<fmt::v10::basic_format_context<fmt::v10::appender,char>,fmt::v10::basic_string_view<char>>(
v20,
v26,
a8,
a9);
v19 = fmt::v10::detail::get_dynamic_spec<fmt::v10::detail::width_checker,fmt::v10::basic_format_arg<fmt::v10::basic_format_context<fmt::v10::appender,char>>>(
(unsigned int)v20,
v15,
v16,
v21,
v17,
v18,
v20[0],
v20[1],
v21,
v22);
result = (long long)v27;
*v27 = v19;
}
}
}
return result;
}
| handle_dynamic_spec<fmt::v10::detail::width_checker,fmt::v10::basic_format_context<fmt::v10::appender,char>>:
SUB RSP,0x98
LEA RAX,[RSP + 0xa0]
MOV qword ptr [RSP + 0x20],RAX
MOV qword ptr [RSP + 0x90],RDI
MOV qword ptr [RSP + 0x88],RSI
MOV EAX,dword ptr [RAX]
MOV dword ptr [RSP + 0x2c],EAX
TEST EAX,EAX
JZ 0x001bd3f9
JMP 0x001bd3e0
LAB_001bd3e0:
MOV EAX,dword ptr [RSP + 0x2c]
SUB EAX,0x1
JZ 0x001bd3fe
JMP 0x001bd3eb
LAB_001bd3eb:
MOV EAX,dword ptr [RSP + 0x2c]
SUB EAX,0x2
JZ 0x001bd452
JMP 0x001bd4bd
LAB_001bd3f9:
JMP 0x001bd4bd
LAB_001bd3fe:
MOV RAX,qword ptr [RSP + 0x20]
MOV RSI,qword ptr [RSP + 0x88]
MOV EDX,dword ptr [RAX + 0x8]
LEA RDI,[RSP + 0x60]
CALL 0x001bc920
LEA RAX,[RSP + 0x60]
MOV RCX,qword ptr [RAX]
MOV qword ptr [RSP],RCX
MOV RCX,qword ptr [RAX + 0x8]
MOV qword ptr [RSP + 0x8],RCX
MOV RCX,qword ptr [RAX + 0x10]
MOV qword ptr [RSP + 0x10],RCX
MOV RAX,qword ptr [RAX + 0x18]
MOV qword ptr [RSP + 0x18],RAX
CALL 0x001bdfe0
MOV ECX,EAX
MOV RAX,qword ptr [RSP + 0x90]
MOV dword ptr [RAX],ECX
JMP 0x001bd4bd
LAB_001bd452:
MOV RAX,qword ptr [RSP + 0x20]
MOV RSI,qword ptr [RSP + 0x88]
MOV RCX,qword ptr [RAX + 0x8]
MOV qword ptr [RSP + 0x30],RCX
MOV RAX,qword ptr [RAX + 0x10]
MOV qword ptr [RSP + 0x38],RAX
MOV RDX,qword ptr [RSP + 0x30]
MOV RCX,qword ptr [RSP + 0x38]
LEA RDI,[RSP + 0x40]
CALL 0x001be430
LEA RAX,[RSP + 0x40]
MOV RCX,qword ptr [RAX]
MOV qword ptr [RSP],RCX
MOV RCX,qword ptr [RAX + 0x8]
MOV qword ptr [RSP + 0x8],RCX
MOV RCX,qword ptr [RAX + 0x10]
MOV qword ptr [RSP + 0x10],RCX
MOV RAX,qword ptr [RAX + 0x18]
MOV qword ptr [RSP + 0x18],RAX
CALL 0x001bdfe0
MOV ECX,EAX
MOV RAX,qword ptr [RSP + 0x90]
MOV dword ptr [RAX],ECX
LAB_001bd4bd:
ADD RSP,0x98
RET
|
/* void fmt::v10::detail::handle_dynamic_spec<fmt::v10::detail::width_checker,
fmt::v10::basic_format_context<fmt::v10::appender, char> >(int&,
fmt::v10::detail::arg_ref<fmt::v10::basic_format_context<fmt::v10::appender, char>::char_type>,
fmt::v10::basic_format_context<fmt::v10::appender, char>&) */
void fmt::v10::detail::
handle_dynamic_spec<fmt::v10::detail::width_checker,fmt::v10::basic_format_context<fmt::v10::appender,char>>
(int *param_1,int8 param_2)
{
int iVar1;
int in_stack_00000008;
int8 in_stack_00000010;
int8 in_stack_00000018;
int1 local_58 [32];
basic_format_context local_38 [40];
int8 local_10;
int *local_8;
if (in_stack_00000008 != 0) {
local_10 = param_2;
local_8 = param_1;
if (in_stack_00000008 == 1) {
get_arg<fmt::v10::basic_format_context<fmt::v10::appender,char>,int>(local_38,(int)param_2);
iVar1 = get_dynamic_spec<fmt::v10::detail::width_checker,fmt::v10::basic_format_arg<fmt::v10::basic_format_context<fmt::v10::appender,char>>>
();
*local_8 = iVar1;
}
else if (in_stack_00000008 == 2) {
get_arg<fmt::v10::basic_format_context<fmt::v10::appender,char>,fmt::v10::basic_string_view<char>>
(local_58,param_2,in_stack_00000010,in_stack_00000018);
iVar1 = get_dynamic_spec<fmt::v10::detail::width_checker,fmt::v10::basic_format_arg<fmt::v10::basic_format_context<fmt::v10::appender,char>>>
();
*local_8 = iVar1;
}
}
return;
}
|
|
4,464 | nglog::tools::GetSectionHeaderByType(int, unsigned short, unsigned long, unsigned int, Elf64_Shdr*) | ng-log[P]ng-log/src/symbolize.cc | static ATTRIBUTE_NOINLINE bool GetSectionHeaderByType(const int fd,
ElfW(Half) sh_num,
const size_t sh_offset,
ElfW(Word) type,
ElfW(Shdr) * out) {
// Read at most 16 section headers at a time to save read calls.
ElfW(Shdr) buf[16];
for (size_t i = 0; i < sh_num;) {
const size_t num_bytes_left = (sh_num - i) * sizeof(buf[0]);
const size_t num_bytes_to_read =
(sizeof(buf) > num_bytes_left) ? num_bytes_left : sizeof(buf);
const ssize_t len = ReadFromOffset(fd, buf, num_bytes_to_read,
sh_offset + i * sizeof(buf[0]));
if (len == -1) {
return false;
}
NGLOG_SAFE_ASSERT(static_cast<size_t>(len) % sizeof(buf[0]) == 0);
const size_t num_headers_in_buf = static_cast<size_t>(len) / sizeof(buf[0]);
NGLOG_SAFE_ASSERT(num_headers_in_buf <= sizeof(buf) / sizeof(buf[0]));
for (size_t j = 0; j < num_headers_in_buf; ++j) {
if (buf[j].sh_type == type) {
*out = buf[j];
return true;
}
}
i += num_headers_in_buf;
}
return false;
} | O2 | cpp | nglog::tools::GetSectionHeaderByType(int, unsigned short, unsigned long, unsigned int, Elf64_Shdr*):
pushq %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x418, %rsp # imm = 0x418
movq %r8, 0x8(%rsp)
movl %ecx, %ebp
movq %rdx, %r8
movl %esi, %ebx
xorl %r12d, %r12d
movl $0x400, %eax # imm = 0x400
leaq 0x10(%rsp), %rsi
movq %rbx, %rdx
subq %r12, %rdx
jbe 0x1c5e1
shlq $0x6, %rdx
cmpq %rax, %rdx
cmovaeq %rax, %rdx
movq %r12, %rcx
shlq $0x6, %rcx
movq %r8, %r15
addq %r8, %rcx
movl %edi, %r13d
movq %rsi, %r14
callq 0x1bb8b
cmpq $-0x1, %rax
je 0x1c5e1
testb $0x3f, %al
jne 0x1c5e5
cmpq $0x43f, %rax # imm = 0x43F
ja 0x1c5e5
shrq $0x6, %rax
leaq 0x1(%rax), %rcx
leaq 0x14(%rsp), %rdx
decq %rcx
je 0x1c596
leaq 0x40(%rdx), %rsi
cmpl %ebp, (%rdx)
movq %rsi, %rdx
jne 0x1c584
jmp 0x1c5a9
addq %rax, %r12
movl $0x400, %eax # imm = 0x400
movq %r14, %rsi
movq %r15, %r8
movl %r13d, %edi
jmp 0x1c536
movups -0x44(%rsi), %xmm0
movups -0x34(%rsi), %xmm1
movups -0x24(%rsi), %xmm2
movups -0x14(%rsi), %xmm3
movq 0x8(%rsp), %rax
movups %xmm3, 0x30(%rax)
movups %xmm2, 0x20(%rax)
movups %xmm1, 0x10(%rax)
movups %xmm0, (%rax)
movb $0x1, %al
addq $0x418, %rsp # imm = 0x418
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
xorl %eax, %eax
jmp 0x1c5cf
callq 0x7320
| _ZN5nglog5toolsL22GetSectionHeaderByTypeEitmjP10Elf64_Shdr:
push rbp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 418h
mov [rsp+448h+var_440], r8
mov ebp, ecx
mov r8, rdx; unsigned __int64
mov ebx, esi
xor r12d, r12d
mov eax, offset stru_400
lea rsi, [rsp+448h+var_438]; int
loc_1C536:
mov rdx, rbx
sub rdx, r12
jbe loc_1C5E1
shl rdx, 6
cmp rdx, rax
cmovnb rdx, rax; void *
mov rcx, r12
shl rcx, 6
mov r15, r8
add rcx, r8; unsigned __int64
mov r13d, edi
mov r14, rsi
call _ZN5nglog5toolsL14ReadFromOffsetEiPvmm; nglog::tools::ReadFromOffset(int,void *,ulong,ulong)
cmp rax, 0FFFFFFFFFFFFFFFFh
jz short loc_1C5E1
test al, 3Fh
jnz short loc_1C5E5
cmp rax, 43Fh
ja short loc_1C5E5
shr rax, 6
lea rcx, [rax+1]
lea rdx, [rsp+448h+var_434]
loc_1C584:
dec rcx
jz short loc_1C596
lea rsi, [rdx+40h]
cmp [rdx], ebp
mov rdx, rsi
jnz short loc_1C584
jmp short loc_1C5A9
loc_1C596:
add r12, rax
mov eax, 400h
mov rsi, r14
mov r8, r15
mov edi, r13d
jmp short loc_1C536
loc_1C5A9:
movups xmm0, xmmword ptr [rsi-44h]
movups xmm1, xmmword ptr [rsi-34h]
movups xmm2, xmmword ptr [rsi-24h]
movups xmm3, xmmword ptr [rsi-14h]
mov rax, [rsp+448h+var_440]
movups xmmword ptr [rax+30h], xmm3
movups xmmword ptr [rax+20h], xmm2
movups xmmword ptr [rax+10h], xmm1
movups xmmword ptr [rax], xmm0
mov al, 1
loc_1C5CF:
add rsp, 418h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
loc_1C5E1:
xor eax, eax
jmp short loc_1C5CF
loc_1C5E5:
call _abort
| char nglog::tools::GetSectionHeaderByType(
unsigned long long a1,
unsigned int a2,
long long a3,
int a4,
_OWORD *a5)
{
unsigned long long v7; // rbx
unsigned long long v8; // r12
Elf64_Sym *v9; // rax
int *v10; // rsi
char *v11; // rdx
long long v12; // r15
int *v13; // r14
unsigned long long v14; // rax
unsigned long long v15; // rax
unsigned long long v16; // rcx
char *v17; // rdx
_DWORD *v18; // rsi
bool v19; // zf
__int128 v20; // xmm0
__int128 v21; // xmm1
__int128 v22; // xmm2
int v25; // [rsp+10h] [rbp-438h] BYREF
char v26; // [rsp+14h] [rbp-434h] BYREF
v7 = a2;
v8 = 0LL;
v9 = &stru_400;
v10 = &v25;
while ( v7 > v8 )
{
v11 = (char *)((v7 - v8) << 6);
if ( v11 >= (char *)v9 )
v11 = (char *)v9;
v12 = a3;
v13 = v10;
v14 = nglog::tools::ReadFromOffset(a1, (long long)v10, v11, a3 + (v8 << 6));
if ( v14 == -1LL )
break;
if ( (v14 & 0x3F) != 0 || v14 > 0x43F )
abort(a1);
v15 = v14 >> 6;
v16 = v15 + 1;
v17 = &v26;
while ( --v16 )
{
v18 = v17 + 64;
v19 = *(_DWORD *)v17 == a4;
v17 += 64;
if ( v19 )
{
v20 = *(_OWORD *)(v18 - 17);
v21 = *(_OWORD *)(v18 - 13);
v22 = *(_OWORD *)(v18 - 9);
a5[3] = *(_OWORD *)(v18 - 5);
a5[2] = v22;
a5[1] = v21;
*a5 = v20;
return 1;
}
}
v8 += v15;
v9 = &stru_400;
v10 = v13;
a3 = v12;
a1 = (unsigned int)a1;
}
return 0;
}
| GetSectionHeaderByType:
PUSH RBP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x418
MOV qword ptr [RSP + 0x8],R8
MOV EBP,ECX
MOV R8,RDX
MOV EBX,ESI
XOR R12D,R12D
MOV EAX,0x400
LEA RSI,[RSP + 0x10]
LAB_0011c536:
MOV RDX,RBX
SUB RDX,R12
JBE 0x0011c5e1
SHL RDX,0x6
CMP RDX,RAX
CMOVNC RDX,RAX
MOV RCX,R12
SHL RCX,0x6
MOV R15,R8
ADD RCX,R8
MOV R13D,EDI
MOV R14,RSI
CALL 0x0011bb8b
CMP RAX,-0x1
JZ 0x0011c5e1
TEST AL,0x3f
JNZ 0x0011c5e5
CMP RAX,0x43f
JA 0x0011c5e5
SHR RAX,0x6
LEA RCX,[RAX + 0x1]
LEA RDX,[RSP + 0x14]
LAB_0011c584:
DEC RCX
JZ 0x0011c596
LEA RSI,[RDX + 0x40]
CMP dword ptr [RDX],EBP
MOV RDX,RSI
JNZ 0x0011c584
JMP 0x0011c5a9
LAB_0011c596:
ADD R12,RAX
MOV EAX,0x400
MOV RSI,R14
MOV R8,R15
MOV EDI,R13D
JMP 0x0011c536
LAB_0011c5a9:
MOVUPS XMM0,xmmword ptr [RSI + -0x44]
MOVUPS XMM1,xmmword ptr [RSI + -0x34]
MOVUPS XMM2,xmmword ptr [RSI + -0x24]
MOVUPS XMM3,xmmword ptr [RSI + -0x14]
MOV RAX,qword ptr [RSP + 0x8]
MOVUPS xmmword ptr [RAX + 0x30],XMM3
MOVUPS xmmword ptr [RAX + 0x20],XMM2
MOVUPS xmmword ptr [RAX + 0x10],XMM1
MOVUPS xmmword ptr [RAX],XMM0
MOV AL,0x1
LAB_0011c5cf:
ADD RSP,0x418
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
LAB_0011c5e1:
XOR EAX,EAX
JMP 0x0011c5cf
LAB_0011c5e5:
CALL 0x00107320
|
/* nglog::tools::GetSectionHeaderByType(int, unsigned short, unsigned long, unsigned int,
Elf64_Shdr*) */
int8
nglog::tools::GetSectionHeaderByType
(int param_1,ushort param_2,ulong param_3,uint param_4,Elf64_Shdr *param_5)
{
qword qVar1;
qword qVar2;
qword qVar3;
qword qVar4;
qword qVar5;
uint uVar6;
uint uVar7;
uint uVar8;
uint uVar9;
uint *puVar10;
long lVar11;
ulong uVar12;
uint *puVar13;
ulong uVar14;
int6 in_register_00000032;
ulong uVar15;
int1 local_438 [4];
uint auStack_434 [257];
uVar14 = CONCAT62(in_register_00000032,param_2) & 0xffffffff;
uVar15 = 0;
while( true ) {
lVar11 = uVar14 - uVar15;
if (uVar14 < uVar15 || lVar11 == 0) {
return 0;
}
uVar12 = lVar11 * 0x40;
if (0x3ff < uVar12) {
uVar12 = 0x400;
}
uVar12 = ReadFromOffset(param_1,local_438,uVar12,uVar15 * 0x40 + param_3);
if (uVar12 == 0xffffffffffffffff) break;
if (((uVar12 & 0x3f) != 0) || (0x43f < uVar12)) {
/* WARNING: Subroutine does not return */
abort();
}
lVar11 = (uVar12 >> 6) + 1;
puVar10 = auStack_434;
while (puVar13 = puVar10, lVar11 = lVar11 + -1, lVar11 != 0) {
puVar10 = puVar13 + 0x10;
if (*puVar13 == param_4) {
uVar8 = puVar13[-1];
uVar9 = puVar13[0];
qVar1 = *(qword *)(puVar13 + 1);
qVar2 = *(qword *)(puVar13 + 3);
qVar3 = *(qword *)(puVar13 + 5);
qVar4 = *(qword *)(puVar13 + 7);
uVar6 = puVar13[9];
uVar7 = puVar13[10];
qVar5 = *(qword *)(puVar13 + 0xd);
param_5->sh_addralign = *(qword *)(puVar13 + 0xb);
param_5->sh_entsize = qVar5;
param_5->sh_size = qVar4;
param_5->sh_link = uVar6;
param_5->sh_info = uVar7;
param_5->sh_addr = qVar2;
param_5->sh_offset = qVar3;
param_5->sh_name = uVar8;
param_5->sh_type = uVar9;
param_5->sh_flags = qVar1;
return 1;
}
}
uVar15 = uVar15 + (uVar12 >> 6);
}
return 0;
}
|
|
4,465 | net_get_error | eloqsql/libmariadb/libmariadb/mariadb_lib.c | void net_get_error(char *buf, size_t buf_len,
char *error, size_t error_len,
unsigned int *error_no,
char *sqlstate)
{
char *p= buf;
size_t error_msg_len= 0;
if (buf_len > 2)
{
*error_no= uint2korr(p);
p+= 2;
/* since 4.1 sqlstate is following */
if (*p == '#')
{
memcpy(sqlstate, ++p, SQLSTATE_LENGTH);
p+= SQLSTATE_LENGTH;
}
error_msg_len= buf_len - (p - buf);
error_msg_len= MIN(error_msg_len, error_len - 1);
memcpy(error, p, error_msg_len);
}
else
{
*error_no= CR_UNKNOWN_ERROR;
memcpy(sqlstate, SQLSTATE_UNKNOWN, SQLSTATE_LENGTH);
}
} | O3 | c | net_get_error:
pushq %rbp
movq %rsp, %rbp
cmpq $0x3, %rsi
jb 0x26ba9
movzwl (%rdi), %eax
movl %eax, (%r8)
cmpb $0x23, 0x2(%rdi)
jne 0x26bc8
movb 0x7(%rdi), %al
movb %al, 0x4(%r9)
movl 0x3(%rdi), %eax
movl %eax, (%r9)
leaq 0x8(%rdi), %rax
jmp 0x26bcc
movl $0x7d0, (%r8) # imm = 0x7D0
leaq 0x3be39(%rip), %rax # 0x629f0
movq (%rax), %rax
movb 0x4(%rax), %cl
movb %cl, 0x4(%r9)
movl (%rax), %eax
movl %eax, (%r9)
popq %rbp
retq
leaq 0x2(%rdi), %rax
addq %rsi, %rdi
subq %rax, %rdi
decq %rcx
cmpq %rcx, %rdi
cmovbq %rdi, %rcx
movq %rdx, %rdi
movq %rax, %rsi
movq %rcx, %rdx
popq %rbp
jmp 0x143a0
| net_get_error:
push rbp
mov rbp, rsp
cmp rsi, 3
jb short loc_26BA9
movzx eax, word ptr [rdi]
mov [r8], eax
cmp byte ptr [rdi+2], 23h ; '#'
jnz short loc_26BC8
mov al, [rdi+7]
mov [r9+4], al
mov eax, [rdi+3]
mov [r9], eax
lea rax, [rdi+8]
jmp short loc_26BCC
loc_26BA9:
mov dword ptr [r8], 7D0h
lea rax, SQLSTATE_UNKNOWN
mov rax, [rax]
mov cl, [rax+4]
mov [r9+4], cl
mov eax, [rax]
mov [r9], eax
pop rbp
retn
loc_26BC8:
lea rax, [rdi+2]
loc_26BCC:
add rdi, rsi
sub rdi, rax
dec rcx
cmp rdi, rcx
cmovb rcx, rdi
mov rdi, rdx
mov rsi, rax
mov rdx, rcx
pop rbp
jmp _memcpy
| long long net_get_error(
unsigned __int16 *a1,
unsigned long long a2,
long long a3,
long long a4,
_DWORD *a5,
long long a6)
{
unsigned __int16 *v6; // rax
char *v7; // rax
long long result; // rax
char *v9; // rdi
char *v10; // rcx
if ( a2 < 3 )
{
*a5 = 2000;
v7 = SQLSTATE_UNKNOWN;
*(_BYTE *)(a6 + 4) = SQLSTATE_UNKNOWN[4];
result = *(unsigned int *)v7;
*(_DWORD *)a6 = result;
}
else
{
*a5 = *a1;
if ( *((_BYTE *)a1 + 2) == 35 )
{
*(_BYTE *)(a6 + 4) = *((_BYTE *)a1 + 7);
*(_DWORD *)a6 = *(_DWORD *)((char *)a1 + 3);
v6 = a1 + 4;
}
else
{
v6 = a1 + 1;
}
v9 = (char *)((char *)a1 + a2 - (char *)v6);
v10 = (char *)(a4 - 1);
if ( v9 < v10 )
v10 = v9;
return memcpy(a3, v6, v10);
}
return result;
}
| net_get_error:
PUSH RBP
MOV RBP,RSP
CMP RSI,0x3
JC 0x00126ba9
MOVZX EAX,word ptr [RDI]
MOV dword ptr [R8],EAX
CMP byte ptr [RDI + 0x2],0x23
JNZ 0x00126bc8
MOV AL,byte ptr [RDI + 0x7]
MOV byte ptr [R9 + 0x4],AL
MOV EAX,dword ptr [RDI + 0x3]
MOV dword ptr [R9],EAX
LEA RAX,[RDI + 0x8]
JMP 0x00126bcc
LAB_00126ba9:
MOV dword ptr [R8],0x7d0
LEA RAX,[0x1629f0]
MOV RAX,qword ptr [RAX]
MOV CL,byte ptr [RAX + 0x4]
MOV byte ptr [R9 + 0x4],CL
MOV EAX,dword ptr [RAX]
MOV dword ptr [R9],EAX
POP RBP
RET
LAB_00126bc8:
LEA RAX,[RDI + 0x2]
LAB_00126bcc:
ADD RDI,RSI
SUB RDI,RAX
DEC RCX
CMP RDI,RCX
CMOVC RCX,RDI
MOV RDI,RDX
MOV RSI,RAX
MOV RDX,RCX
POP RBP
JMP 0x001143a0
|
void net_get_error(ushort *param_1,ulong param_2,void *param_3,long param_4,uint *param_5,
int4 *param_6)
{
int *puVar1;
ushort *__src;
ulong __n;
ulong uVar2;
if (2 < param_2) {
*param_5 = (uint)*param_1;
if ((char)param_1[1] == '#') {
*(int1 *)(param_6 + 1) = *(int1 *)((long)param_1 + 7);
*param_6 = *(int4 *)((long)param_1 + 3);
__src = param_1 + 4;
}
else {
__src = param_1 + 1;
}
uVar2 = (long)param_1 + (param_2 - (long)__src);
__n = param_4 - 1U;
if (uVar2 < param_4 - 1U) {
__n = uVar2;
}
memcpy(param_3,__src,__n);
return;
}
*param_5 = 2000;
puVar1 = SQLSTATE_UNKNOWN;
*(int *)(param_6 + 1) = SQLSTATE_UNKNOWN[4];
*param_6 = *(int4 *)puVar1;
return;
}
|
|
4,466 | ftparser_call_initializer | eloqsql/storage/myisam/ft_parser.c | MYSQL_FTPARSER_PARAM *ftparser_call_initializer(MI_INFO *info,
uint keynr, uint paramnr)
{
uint32 ftparser_nr;
struct st_mysql_ftparser *parser;
if (!ftparser_alloc_param(info))
return 0;
if (keynr == NO_SUCH_KEY)
{
ftparser_nr= 0;
parser= &ft_default_parser;
}
else
{
ftparser_nr= info->s->keyinfo[keynr].ftkey_nr;
parser= info->s->keyinfo[keynr].parser;
}
DBUG_ASSERT(paramnr < MAX_PARAM_NR);
ftparser_nr= ftparser_nr*MAX_PARAM_NR + paramnr;
if (! info->ftparser_param[ftparser_nr].mysql_add_word)
{
/* Note, that mysql_add_word is used here as a flag:
mysql_add_word == 0 - parser is not initialized
mysql_add_word != 0 - parser is initialized, or no
initialization needed. */
info->ftparser_param[ftparser_nr].mysql_add_word=
(int (*)(struct st_mysql_ftparser_param *, const char *, int,
MYSQL_FTPARSER_BOOLEAN_INFO *)) 1;
if (parser->init && parser->init(&info->ftparser_param[ftparser_nr]))
return 0;
}
return &info->ftparser_param[ftparser_nr];
} | O0 | c | ftparser_call_initializer:
pushq %rbp
movq %rsp, %rbp
subq $0x30, %rsp
movq %rdi, -0x10(%rbp)
movl %esi, -0x14(%rbp)
movl %edx, -0x18(%rbp)
movq -0x10(%rbp), %rdi
callq 0xa7780
cmpq $0x0, %rax
jne 0xa783e
movq $0x0, -0x8(%rbp)
jmp 0xa7933
cmpl $-0x1, -0x14(%rbp)
jne 0xa7858
movl $0x0, -0x1c(%rbp)
leaq 0x22573e(%rip), %rax # 0x2ccf90
movq %rax, -0x28(%rbp)
jmp 0xa7896
movq -0x10(%rbp), %rax
movq (%rax), %rax
movq 0x218(%rax), %rax
movl -0x14(%rbp), %ecx
imulq $0x70, %rcx, %rcx
addq %rcx, %rax
movl 0x20(%rax), %eax
movl %eax, -0x1c(%rbp)
movq -0x10(%rbp), %rax
movq (%rax), %rax
movq 0x218(%rax), %rax
movl -0x14(%rbp), %ecx
imulq $0x70, %rcx, %rcx
addq %rcx, %rax
movq 0x38(%rax), %rax
movq %rax, -0x28(%rbp)
jmp 0xa7898
jmp 0xa789a
movl -0x1c(%rbp), %eax
shll %eax
addl -0x18(%rbp), %eax
movl %eax, -0x1c(%rbp)
movq -0x10(%rbp), %rax
movq 0xd0(%rax), %rax
movl -0x1c(%rbp), %ecx
shlq $0x6, %rcx
addq %rcx, %rax
cmpq $0x0, 0x8(%rax)
jne 0xa791a
movq -0x10(%rbp), %rax
movq 0xd0(%rax), %rax
movl -0x1c(%rbp), %ecx
shlq $0x6, %rcx
addq %rcx, %rax
movl $0x1, %ecx
movq %rcx, 0x8(%rax)
movq -0x28(%rbp), %rax
cmpq $0x0, 0x10(%rax)
je 0xa7918
movq -0x28(%rbp), %rax
movq 0x10(%rax), %rax
movq -0x10(%rbp), %rcx
movq 0xd0(%rcx), %rdi
movl -0x1c(%rbp), %ecx
shlq $0x6, %rcx
addq %rcx, %rdi
callq *%rax
cmpl $0x0, %eax
je 0xa7918
movq $0x0, -0x8(%rbp)
jmp 0xa7933
jmp 0xa791a
movq -0x10(%rbp), %rax
movq 0xd0(%rax), %rax
movl -0x1c(%rbp), %ecx
shlq $0x6, %rcx
addq %rcx, %rax
movq %rax, -0x8(%rbp)
movq -0x8(%rbp), %rax
addq $0x30, %rsp
popq %rbp
retq
nopl (%rax)
| ftparser_call_initializer:
push rbp
mov rbp, rsp
sub rsp, 30h
mov [rbp+var_10], rdi
mov [rbp+var_14], esi
mov [rbp+var_18], edx
mov rdi, [rbp+var_10]
call ftparser_alloc_param
cmp rax, 0
jnz short loc_A783E
mov [rbp+var_8], 0
jmp loc_A7933
loc_A783E:
cmp [rbp+var_14], 0FFFFFFFFh
jnz short loc_A7858
mov [rbp+var_1C], 0
lea rax, ft_default_parser
mov [rbp+var_28], rax
jmp short loc_A7896
loc_A7858:
mov rax, [rbp+var_10]
mov rax, [rax]
mov rax, [rax+218h]
mov ecx, [rbp+var_14]
imul rcx, 70h ; 'p'
add rax, rcx
mov eax, [rax+20h]
mov [rbp+var_1C], eax
mov rax, [rbp+var_10]
mov rax, [rax]
mov rax, [rax+218h]
mov ecx, [rbp+var_14]
imul rcx, 70h ; 'p'
add rax, rcx
mov rax, [rax+38h]
mov [rbp+var_28], rax
loc_A7896:
jmp short $+2
loc_A7898:
jmp short $+2
loc_A789A:
mov eax, [rbp+var_1C]
shl eax, 1
add eax, [rbp+var_18]
mov [rbp+var_1C], eax
mov rax, [rbp+var_10]
mov rax, [rax+0D0h]
mov ecx, [rbp+var_1C]
shl rcx, 6
add rax, rcx
cmp qword ptr [rax+8], 0
jnz short loc_A791A
mov rax, [rbp+var_10]
mov rax, [rax+0D0h]
mov ecx, [rbp+var_1C]
shl rcx, 6
add rax, rcx
mov ecx, 1
mov [rax+8], rcx
mov rax, [rbp+var_28]
cmp qword ptr [rax+10h], 0
jz short loc_A7918
mov rax, [rbp+var_28]
mov rax, [rax+10h]
mov rcx, [rbp+var_10]
mov rdi, [rcx+0D0h]
mov ecx, [rbp+var_1C]
shl rcx, 6
add rdi, rcx
call rax
cmp eax, 0
jz short loc_A7918
mov [rbp+var_8], 0
jmp short loc_A7933
loc_A7918:
jmp short $+2
loc_A791A:
mov rax, [rbp+var_10]
mov rax, [rax+0D0h]
mov ecx, [rbp+var_1C]
shl rcx, 6
add rax, rcx
mov [rbp+var_8], rax
loc_A7933:
mov rax, [rbp+var_8]
add rsp, 30h
pop rbp
retn
| unsigned long long ftparser_call_initializer(_QWORD *a1, unsigned int a2, int a3)
{
_QWORD *v4; // [rsp+8h] [rbp-28h]
int v5; // [rsp+14h] [rbp-1Ch]
unsigned int v6; // [rsp+14h] [rbp-1Ch]
if ( !ftparser_alloc_param(a1) )
return 0LL;
if ( a2 == -1 )
{
v5 = 0;
v4 = &ft_default_parser;
}
else
{
v5 = *(_DWORD *)(112LL * a2 + *(_QWORD *)(*a1 + 536LL) + 32);
v4 = *(_QWORD **)(112LL * a2 + *(_QWORD *)(*a1 + 536LL) + 56);
}
v6 = a3 + 2 * v5;
if ( !*(_QWORD *)(((unsigned long long)v6 << 6) + a1[26] + 8)
&& (*(_QWORD *)(((unsigned long long)v6 << 6) + a1[26] + 8) = 1LL, v4[2])
&& ((unsigned int ( *)(unsigned long long))v4[2])(((unsigned long long)v6 << 6) + a1[26]) )
{
return 0LL;
}
else
{
return ((unsigned long long)v6 << 6) + a1[26];
}
}
| ftparser_call_initializer:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x30
MOV qword ptr [RBP + -0x10],RDI
MOV dword ptr [RBP + -0x14],ESI
MOV dword ptr [RBP + -0x18],EDX
MOV RDI,qword ptr [RBP + -0x10]
CALL 0x001a7780
CMP RAX,0x0
JNZ 0x001a783e
MOV qword ptr [RBP + -0x8],0x0
JMP 0x001a7933
LAB_001a783e:
CMP dword ptr [RBP + -0x14],-0x1
JNZ 0x001a7858
MOV dword ptr [RBP + -0x1c],0x0
LEA RAX,[0x3ccf90]
MOV qword ptr [RBP + -0x28],RAX
JMP 0x001a7896
LAB_001a7858:
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX]
MOV RAX,qword ptr [RAX + 0x218]
MOV ECX,dword ptr [RBP + -0x14]
IMUL RCX,RCX,0x70
ADD RAX,RCX
MOV EAX,dword ptr [RAX + 0x20]
MOV dword ptr [RBP + -0x1c],EAX
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX]
MOV RAX,qword ptr [RAX + 0x218]
MOV ECX,dword ptr [RBP + -0x14]
IMUL RCX,RCX,0x70
ADD RAX,RCX
MOV RAX,qword ptr [RAX + 0x38]
MOV qword ptr [RBP + -0x28],RAX
LAB_001a7896:
JMP 0x001a7898
LAB_001a7898:
JMP 0x001a789a
LAB_001a789a:
MOV EAX,dword ptr [RBP + -0x1c]
SHL EAX,0x1
ADD EAX,dword ptr [RBP + -0x18]
MOV dword ptr [RBP + -0x1c],EAX
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0xd0]
MOV ECX,dword ptr [RBP + -0x1c]
SHL RCX,0x6
ADD RAX,RCX
CMP qword ptr [RAX + 0x8],0x0
JNZ 0x001a791a
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0xd0]
MOV ECX,dword ptr [RBP + -0x1c]
SHL RCX,0x6
ADD RAX,RCX
MOV ECX,0x1
MOV qword ptr [RAX + 0x8],RCX
MOV RAX,qword ptr [RBP + -0x28]
CMP qword ptr [RAX + 0x10],0x0
JZ 0x001a7918
MOV RAX,qword ptr [RBP + -0x28]
MOV RAX,qword ptr [RAX + 0x10]
MOV RCX,qword ptr [RBP + -0x10]
MOV RDI,qword ptr [RCX + 0xd0]
MOV ECX,dword ptr [RBP + -0x1c]
SHL RCX,0x6
ADD RDI,RCX
CALL RAX
CMP EAX,0x0
JZ 0x001a7918
MOV qword ptr [RBP + -0x8],0x0
JMP 0x001a7933
LAB_001a7918:
JMP 0x001a791a
LAB_001a791a:
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0xd0]
MOV ECX,dword ptr [RBP + -0x1c]
SHL RCX,0x6
ADD RAX,RCX
MOV qword ptr [RBP + -0x8],RAX
LAB_001a7933:
MOV RAX,qword ptr [RBP + -0x8]
ADD RSP,0x30
POP RBP
RET
|
long ftparser_call_initializer(long *param_1,uint param_2,int param_3)
{
uint uVar1;
int iVar2;
long lVar3;
int1 *local_30;
int local_24;
long local_10;
lVar3 = ftparser_alloc_param(param_1);
if (lVar3 == 0) {
local_10 = 0;
}
else {
if (param_2 == 0xffffffff) {
local_24 = 0;
local_30 = ft_default_parser;
}
else {
local_24 = *(int *)(*(long *)(*param_1 + 0x218) + (ulong)param_2 * 0x70 + 0x20);
local_30 = *(int1 **)(*(long *)(*param_1 + 0x218) + (ulong)param_2 * 0x70 + 0x38);
}
uVar1 = local_24 * 2 + param_3;
if (((*(long *)(param_1[0x1a] + (ulong)uVar1 * 0x40 + 8) == 0) &&
(*(int8 *)(param_1[0x1a] + (ulong)uVar1 * 0x40 + 8) = 1,
*(long *)(local_30 + 0x10) != 0)) &&
(iVar2 = (**(code **)(local_30 + 0x10))(param_1[0x1a] + (ulong)uVar1 * 0x40), iVar2 != 0)) {
local_10 = 0;
}
else {
local_10 = param_1[0x1a] + (ulong)uVar1 * 0x40;
}
}
return local_10;
}
|
|
4,467 | dirname_part | eloqsql/mysys/mf_dirname.c | size_t dirname_part(char *to, const char *name, size_t *to_res_length)
{
size_t length;
DBUG_ENTER("dirname_part");
DBUG_PRINT("enter",("'%s'",name));
length=dirname_length(name);
*to_res_length= (size_t) (convert_dirname(to, name, name+length) - to);
DBUG_RETURN(length);
} | O0 | c | dirname_part:
pushq %rbp
movq %rsp, %rbp
subq $0x30, %rsp
movq %rdi, -0x8(%rbp)
movq %rsi, -0x10(%rbp)
movq %rdx, -0x18(%rbp)
jmp 0x275b6
movq -0x10(%rbp), %rdi
callq 0x27520
movq %rax, -0x20(%rbp)
movq -0x8(%rbp), %rdi
movq -0x10(%rbp), %rsi
movq -0x10(%rbp), %rdx
addq -0x20(%rbp), %rdx
callq 0x27600
movq %rax, %rcx
movq -0x8(%rbp), %rax
subq %rax, %rcx
movq -0x18(%rbp), %rax
movq %rcx, (%rax)
movq -0x20(%rbp), %rax
movq %rax, -0x28(%rbp)
movq -0x28(%rbp), %rax
addq $0x30, %rsp
popq %rbp
retq
nopl (%rax,%rax)
| dirname_part:
push rbp
mov rbp, rsp
sub rsp, 30h
mov [rbp+var_8], rdi
mov [rbp+var_10], rsi
mov [rbp+var_18], rdx
jmp short $+2
loc_275B6:
mov rdi, [rbp+var_10]
call dirname_length
mov [rbp+var_20], rax
mov rdi, [rbp+var_8]
mov rsi, [rbp+var_10]
mov rdx, [rbp+var_10]
add rdx, [rbp+var_20]
call convert_dirname
mov rcx, rax
mov rax, [rbp+var_8]
sub rcx, rax
mov rax, [rbp+var_18]
mov [rax], rcx
mov rax, [rbp+var_20]
mov [rbp+var_28], rax
mov rax, [rbp+var_28]
add rsp, 30h
pop rbp
retn
| long long dirname_part(long long a1, _BYTE *a2, _QWORD *a3)
{
long long v4; // [rsp+10h] [rbp-20h]
v4 = dirname_length(a2);
*a3 = convert_dirname(a1, a2, &a2[v4]) - a1;
return v4;
}
| dirname_part:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x30
MOV qword ptr [RBP + -0x8],RDI
MOV qword ptr [RBP + -0x10],RSI
MOV qword ptr [RBP + -0x18],RDX
JMP 0x001275b6
LAB_001275b6:
MOV RDI,qword ptr [RBP + -0x10]
CALL 0x00127520
MOV qword ptr [RBP + -0x20],RAX
MOV RDI,qword ptr [RBP + -0x8]
MOV RSI,qword ptr [RBP + -0x10]
MOV RDX,qword ptr [RBP + -0x10]
ADD RDX,qword ptr [RBP + -0x20]
CALL 0x00127600
MOV RCX,RAX
MOV RAX,qword ptr [RBP + -0x8]
SUB RCX,RAX
MOV RAX,qword ptr [RBP + -0x18]
MOV qword ptr [RAX],RCX
MOV RAX,qword ptr [RBP + -0x20]
MOV qword ptr [RBP + -0x28],RAX
MOV RAX,qword ptr [RBP + -0x28]
ADD RSP,0x30
POP RBP
RET
|
long dirname_part(long param_1,long param_2,long *param_3)
{
long lVar1;
long lVar2;
lVar1 = dirname_length(param_2);
lVar2 = convert_dirname(param_1,param_2,param_2 + lVar1);
*param_3 = lVar2 - param_1;
return lVar1;
}
|
|
4,468 | my_time_init | eloqsql/mysys/my_getsystime.c | void my_time_init()
{
#ifdef _WIN32
compile_time_assert(sizeof(LARGE_INTEGER) ==
sizeof(query_performance_frequency));
QueryPerformanceFrequency((LARGE_INTEGER *)&query_performance_frequency);
DBUG_ASSERT(query_performance_frequency);
#endif
} | O0 | c | my_time_init:
pushq %rbp
movq %rsp, %rbp
popq %rbp
retq
nopw %cs:(%rax,%rax)
| my_time_init:
push rbp
mov rbp, rsp
pop rbp
retn
| void my_time_init()
{
;
}
| my_time_init:
PUSH RBP
MOV RBP,RSP
POP RBP
RET
|
void my_time_init(void)
{
return;
}
|
|
4,469 | psi_cond_wait | eloqsql/mysys/my_thr_init.c | ATTRIBUTE_COLD int psi_cond_wait(mysql_cond_t *that, mysql_mutex_t *mutex,
const char *file, uint line)
{
PSI_cond_locker_state state;
PSI_cond_locker *locker= PSI_COND_CALL(start_cond_wait)
(&state, that->m_psi, mutex->m_psi, PSI_COND_WAIT, file, line);
int result= my_cond_wait(&that->m_cond, &mutex->m_mutex);
if (locker)
PSI_COND_CALL(end_cond_wait)(locker, result);
return result;
} | O0 | c | psi_cond_wait:
pushq %rbp
movq %rsp, %rbp
subq $0x70, %rsp
movq %rdi, -0x8(%rbp)
movq %rsi, -0x10(%rbp)
movq %rdx, -0x18(%rbp)
movl %ecx, -0x1c(%rbp)
leaq 0x1a5512(%rip), %rax # 0x1cc8e0
movq (%rax), %rax
movq 0x1c0(%rax), %rax
movq -0x8(%rbp), %rcx
movq 0x30(%rcx), %rsi
movq -0x10(%rbp), %rcx
movq 0x40(%rcx), %rdx
movq -0x18(%rbp), %r8
movl -0x1c(%rbp), %r9d
leaq -0x58(%rbp), %rdi
xorl %ecx, %ecx
callq *%rax
movq %rax, -0x60(%rbp)
movq -0x8(%rbp), %rdi
movq -0x10(%rbp), %rsi
callq 0x24490
movl %eax, -0x64(%rbp)
cmpq $0x0, -0x60(%rbp)
je 0x2742d
leaq 0x1a54c6(%rip), %rax # 0x1cc8e0
movq (%rax), %rax
movq 0x1c8(%rax), %rax
movq -0x60(%rbp), %rdi
movl -0x64(%rbp), %esi
callq *%rax
movl -0x64(%rbp), %eax
addq $0x70, %rsp
popq %rbp
retq
nopw %cs:(%rax,%rax)
| psi_cond_wait:
push rbp
mov rbp, rsp
sub rsp, 70h
mov [rbp+var_8], rdi
mov [rbp+var_10], rsi
mov [rbp+var_18], rdx
mov [rbp+var_1C], ecx
lea rax, PSI_server
mov rax, [rax]
mov rax, [rax+1C0h]
mov rcx, [rbp+var_8]
mov rsi, [rcx+30h]
mov rcx, [rbp+var_10]
mov rdx, [rcx+40h]
mov r8, [rbp+var_18]
mov r9d, [rbp+var_1C]
lea rdi, [rbp+var_58]
xor ecx, ecx
call rax
mov [rbp+var_60], rax
mov rdi, [rbp+var_8]
mov rsi, [rbp+var_10]
call _pthread_cond_wait
mov [rbp+var_64], eax
cmp [rbp+var_60], 0
jz short loc_2742D
lea rax, PSI_server
mov rax, [rax]
mov rax, [rax+1C8h]
mov rdi, [rbp+var_60]
mov esi, [rbp+var_64]
call rax
loc_2742D:
mov eax, [rbp+var_64]
add rsp, 70h
pop rbp
retn
| long long psi_cond_wait(long long a1, long long a2, long long a3, unsigned int a4)
{
unsigned int v5; // [rsp+Ch] [rbp-64h]
long long v6; // [rsp+10h] [rbp-60h]
_BYTE v7[60]; // [rsp+18h] [rbp-58h] BYREF
unsigned int v8; // [rsp+54h] [rbp-1Ch]
long long v9; // [rsp+58h] [rbp-18h]
long long v10; // [rsp+60h] [rbp-10h]
long long v11; // [rsp+68h] [rbp-8h]
v11 = a1;
v10 = a2;
v9 = a3;
v8 = a4;
v6 = (*((long long ( **)(_BYTE *, _QWORD, _QWORD, _QWORD, long long, _QWORD))PSI_server[0] + 56))(
v7,
*(_QWORD *)(a1 + 48),
*(_QWORD *)(a2 + 64),
0LL,
a3,
a4);
v5 = pthread_cond_wait(v11, v10);
if ( v6 )
(*((void ( **)(long long, _QWORD))PSI_server[0] + 57))(v6, v5);
return v5;
}
| psi_cond_wait:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x70
MOV qword ptr [RBP + -0x8],RDI
MOV qword ptr [RBP + -0x10],RSI
MOV qword ptr [RBP + -0x18],RDX
MOV dword ptr [RBP + -0x1c],ECX
LEA RAX,[0x2cc8e0]
MOV RAX,qword ptr [RAX]
MOV RAX,qword ptr [RAX + 0x1c0]
MOV RCX,qword ptr [RBP + -0x8]
MOV RSI,qword ptr [RCX + 0x30]
MOV RCX,qword ptr [RBP + -0x10]
MOV RDX,qword ptr [RCX + 0x40]
MOV R8,qword ptr [RBP + -0x18]
MOV R9D,dword ptr [RBP + -0x1c]
LEA RDI,[RBP + -0x58]
XOR ECX,ECX
CALL RAX
MOV qword ptr [RBP + -0x60],RAX
MOV RDI,qword ptr [RBP + -0x8]
MOV RSI,qword ptr [RBP + -0x10]
CALL 0x00124490
MOV dword ptr [RBP + -0x64],EAX
CMP qword ptr [RBP + -0x60],0x0
JZ 0x0012742d
LEA RAX,[0x2cc8e0]
MOV RAX,qword ptr [RAX]
MOV RAX,qword ptr [RAX + 0x1c8]
MOV RDI,qword ptr [RBP + -0x60]
MOV ESI,dword ptr [RBP + -0x64]
CALL RAX
LAB_0012742d:
MOV EAX,dword ptr [RBP + -0x64]
ADD RSP,0x70
POP RBP
RET
|
int psi_cond_wait(pthread_cond_t *param_1,pthread_mutex_t *param_2,int8 param_3,
int4 param_4)
{
int iVar1;
long lVar2;
int1 local_60 [60];
int4 local_24;
int8 local_20;
pthread_mutex_t *local_18;
pthread_cond_t *local_10;
local_24 = param_4;
local_20 = param_3;
local_18 = param_2;
local_10 = param_1;
lVar2 = (**(code **)(PSI_server + 0x1c0))
(local_60,param_1[1].__align,*(int8 *)((long)param_2 + 0x40),0,param_3,
param_4);
iVar1 = pthread_cond_wait(local_10,local_18);
if (lVar2 != 0) {
(**(code **)(PSI_server + 0x1c8))(lVar2,iVar1);
}
return iVar1;
}
|
|
4,470 | std::vector<int, std::allocator<int>> rapidcsv::Document::GetColumn<int>(std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>> const&) const | Andrewchistyakov[P]flashcards_lyc/src/rapidcsv.h | std::vector<T> GetColumn(const std::string& pColumnName) const
{
const int columnIdx = GetColumnIdx(pColumnName);
if (columnIdx < 0)
{
throw std::out_of_range("column not found: " + pColumnName);
}
return GetColumn<T>(static_cast<size_t>(columnIdx));
} | O2 | c | std::vector<int, std::allocator<int>> rapidcsv::Document::GetColumn<int>(std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>> const&) const:
pushq %rbp
pushq %r15
pushq %r14
pushq %rbx
subq $0x28, %rsp
movq %rdx, %r14
movq %rsi, %r15
movq %rdi, %rbx
movq %rsi, %rdi
movq %rdx, %rsi
callq 0x1a25a
testl %eax, %eax
js 0x18205
movl %eax, %edx
movq %rbx, %rdi
movq %r15, %rsi
callq 0x1a2ae
movq %rbx, %rax
addq $0x28, %rsp
popq %rbx
popq %r14
popq %r15
popq %rbp
retq
pushq $0x10
popq %rdi
callq 0xc210
movq %rax, %rbx
leaq 0x1a9cb(%rip), %rsi # 0x32be2
leaq 0x8(%rsp), %rdi
movq %r14, %rdx
callq 0x139b7
movb $0x1, %bpl
leaq 0x8(%rsp), %rsi
movq %rbx, %rdi
callq 0xc6f0
xorl %ebp, %ebp
movq 0x39d5b(%rip), %rsi # 0x51f98
movq 0x39d2c(%rip), %rdx # 0x51f70
movq %rbx, %rdi
callq 0xc7c0
movq %rax, %r14
leaq 0x8(%rsp), %rdi
callq 0xc8c8
testb %bpl, %bpl
jne 0x18263
jmp 0x1826b
movq %rax, %r14
movq %rbx, %rdi
callq 0xc340
movq %r14, %rdi
callq 0xc7f0
nop
| _ZNK8rapidcsv8Document9GetColumnIiEESt6vectorIT_SaIS3_EERKNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE:
push rbp
push r15
push r14
push rbx
sub rsp, 28h
mov r14, rdx
mov r15, rsi
mov rbx, rdi
mov rdi, rsi
mov rsi, rdx
call _ZNK8rapidcsv8Document12GetColumnIdxERKNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE; rapidcsv::Document::GetColumnIdx(std::string const&)
test eax, eax
js short loc_18205
mov edx, eax
mov rdi, rbx
mov rsi, r15
call _ZNK8rapidcsv8Document9GetColumnIiEESt6vectorIT_SaIS3_EEm; rapidcsv::Document::GetColumn<int>(ulong)
mov rax, rbx
add rsp, 28h
pop rbx
pop r14
pop r15
pop rbp
retn
loc_18205:
push 10h
pop rdi; thrown_size
call ___cxa_allocate_exception
mov rbx, rax
lea rsi, aColumnNotFound; "column not found: "
lea rdi, [rsp+48h+var_40]
mov rdx, r14
call _ZStplIcSt11char_traitsIcESaIcEENSt7__cxx1112basic_stringIT_T0_T1_EEPKS5_RKS8_; std::operator+<char>(char const*,std::string const&)
mov bpl, 1
lea rsi, [rsp+48h+var_40]
mov rdi, rbx
call __ZNSt12out_of_rangeC1ERKNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE; std::out_of_range::out_of_range(std::string const&)
xor ebp, ebp
mov rsi, cs:lptinfo; lptinfo
mov rdx, cs:_ZNSt12out_of_rangeD1Ev_ptr; void (*)(void *)
mov rdi, rbx; void *
call ___cxa_throw
mov r14, rax
lea rdi, [rsp+48h+var_40]; void *
call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEED2Ev; std::string::~string()
test bpl, bpl
jnz short loc_18263
jmp short loc_1826B
mov r14, rax
loc_18263:
mov rdi, rbx; void *
call ___cxa_free_exception
loc_1826B:
mov rdi, r14
call __Unwind_Resume
| long long rapidcsv::Document::GetColumn<int>(long long a1, long long a2, long long a3)
{
int ColumnIdx; // eax
void *exception; // rbx
_BYTE v7[64]; // [rsp+8h] [rbp-40h] BYREF
ColumnIdx = rapidcsv::Document::GetColumnIdx(a2, a3);
if ( ColumnIdx < 0 )
{
exception = __cxa_allocate_exception(0x10uLL);
std::operator+<char>((long long)v7, (long long)"column not found: ", a3);
std::out_of_range::out_of_range(exception, v7);
__cxa_throw(
exception,
(struct type_info *)&`typeinfo for'std::out_of_range,
(void (*)(void *))&std::out_of_range::~out_of_range);
}
rapidcsv::Document::GetColumn<int>(a1, a2, (unsigned int)ColumnIdx);
return a1;
}
| GetColumn<int>:
PUSH RBP
PUSH R15
PUSH R14
PUSH RBX
SUB RSP,0x28
MOV R14,RDX
MOV R15,RSI
MOV RBX,RDI
MOV RDI,RSI
MOV RSI,RDX
CALL 0x0011a25a
TEST EAX,EAX
JS 0x00118205
MOV EDX,EAX
MOV RDI,RBX
MOV RSI,R15
CALL 0x0011a2ae
MOV RAX,RBX
ADD RSP,0x28
POP RBX
POP R14
POP R15
POP RBP
RET
LAB_00118205:
PUSH 0x10
POP RDI
CALL 0x0010c210
MOV RBX,RAX
LAB_00118210:
LEA RSI,[0x132be2]
LEA RDI,[RSP + 0x8]
MOV RDX,R14
CALL 0x001139b7
MOV BPL,0x1
LAB_00118227:
LEA RSI,[RSP + 0x8]
MOV RDI,RBX
CALL 0x0010c6f0
XOR EBP,EBP
MOV RSI,qword ptr [0x00151f98]
MOV RDX,qword ptr [0x00151f70]
MOV RDI,RBX
CALL 0x0010c7c0
|
/* std::vector<int, std::allocator<int> > rapidcsv::Document::GetColumn<int>(std::__cxx11::string
const&) const */
string * rapidcsv::Document::GetColumn<int>(string *param_1)
{
int iVar1;
out_of_range *this;
string *in_RDX;
Document *in_RSI;
string local_40 [32];
iVar1 = GetColumnIdx(in_RSI,in_RDX);
if (-1 < iVar1) {
GetColumn<int>((ulong)param_1);
return param_1;
}
this = (out_of_range *)__cxa_allocate_exception(0x10);
/* try { // try from 00118210 to 00118223 has its CatchHandler @ 00118260 */
std::operator+((char *)local_40,(string *)"column not found: ");
/* try { // try from 00118227 to 0011824b has its CatchHandler @ 0011824c */
std::out_of_range::out_of_range(this,local_40);
/* WARNING: Subroutine does not return */
__cxa_throw(this,PTR_typeinfo_00151f98,PTR__out_of_range_00151f70);
}
|
|
4,471 | std::vector<int, std::allocator<int>> rapidcsv::Document::GetColumn<int>(std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>> const&) const | Andrewchistyakov[P]flashcards_lyc/src/rapidcsv.h | std::vector<T> GetColumn(const std::string& pColumnName) const
{
const int columnIdx = GetColumnIdx(pColumnName);
if (columnIdx < 0)
{
throw std::out_of_range("column not found: " + pColumnName);
}
return GetColumn<T>(static_cast<size_t>(columnIdx));
} | O3 | c | std::vector<int, std::allocator<int>> rapidcsv::Document::GetColumn<int>(std::__cxx11::basic_string<char, std::char_traits<char>, std::allocator<char>> const&) const:
pushq %rbp
pushq %r15
pushq %r14
pushq %rbx
subq $0x28, %rsp
movq %rdx, %r14
movq %rsi, %r15
movq %rdi, %rbx
movq %rsi, %rdi
movq %rdx, %rsi
callq 0x1f1fa
testl %eax, %eax
js 0x1cee5
movl %eax, %edx
movq %rbx, %rdi
movq %r15, %rsi
callq 0x1f250
movq %rbx, %rax
addq $0x28, %rsp
popq %rbx
popq %r14
popq %r15
popq %rbp
retq
movl $0x10, %edi
callq 0xb1b0
movq %rax, %rbx
leaq 0x1fd19(%rip), %rsi # 0x3cc12
leaq 0x8(%rsp), %rdi
movq %r14, %rdx
callq 0x14eb7
movb $0x1, %bpl
leaq 0x8(%rsp), %rsi
movq %rbx, %rdi
callq 0xb660
xorl %ebp, %ebp
movq 0x3c0a9(%rip), %rsi # 0x58fc8
movq 0x3c09a(%rip), %rdx # 0x58fc0
movq %rbx, %rdi
callq 0xb740
movq %rax, %r14
leaq 0x18(%rsp), %rax
movq -0x10(%rax), %rdi
cmpq %rax, %rdi
je 0x1cf4c
movq 0x18(%rsp), %rsi
incq %rsi
callq 0xb400
testb %bpl, %bpl
jne 0x1cf56
jmp 0x1cf5e
movq %rax, %r14
movq %rbx, %rdi
callq 0xb2d0
movq %r14, %rdi
callq 0xb780
| _ZNK8rapidcsv8Document9GetColumnIiEESt6vectorIT_SaIS3_EERKNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE:
push rbp
push r15
push r14
push rbx
sub rsp, 28h
mov r14, rdx
mov r15, rsi
mov rbx, rdi
mov rdi, rsi
mov rsi, rdx
call _ZNK8rapidcsv8Document12GetColumnIdxERKNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE; rapidcsv::Document::GetColumnIdx(std::string const&)
test eax, eax
js short loc_1CEE5
mov edx, eax
mov rdi, rbx
mov rsi, r15
call _ZNK8rapidcsv8Document9GetColumnIiEESt6vectorIT_SaIS3_EEm; rapidcsv::Document::GetColumn<int>(ulong)
mov rax, rbx
add rsp, 28h
pop rbx
pop r14
pop r15
pop rbp
retn
loc_1CEE5:
mov edi, 10h; thrown_size
call ___cxa_allocate_exception
mov rbx, rax
lea rsi, aColumnNotFound; "column not found: "
lea rdi, [rsp+48h+var_40]
mov rdx, r14
call _ZStplIcSt11char_traitsIcESaIcEENSt7__cxx1112basic_stringIT_T0_T1_EEPKS5_RKS8_; std::operator+<char>(char const*,std::string const&)
mov bpl, 1
lea rsi, [rsp+48h+var_40]
mov rdi, rbx
call __ZNSt12out_of_rangeC1ERKNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE; std::out_of_range::out_of_range(std::string const&)
xor ebp, ebp
mov rsi, cs:lptinfo; lptinfo
mov rdx, cs:_ZNSt12out_of_rangeD1Ev_ptr; void (*)(void *)
mov rdi, rbx; void *
call ___cxa_throw
mov r14, rax
lea rax, [rsp+48h+var_30]
mov rdi, [rax-10h]; void *
cmp rdi, rax
jz short loc_1CF4C
mov rsi, [rsp+48h+var_30]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_1CF4C:
test bpl, bpl
jnz short loc_1CF56
jmp short loc_1CF5E
mov r14, rax
loc_1CF56:
mov rdi, rbx; void *
call ___cxa_free_exception
loc_1CF5E:
mov rdi, r14
call __Unwind_Resume
| long long rapidcsv::Document::GetColumn<int>(long long a1, long long a2, _QWORD *a3)
{
int ColumnIdx; // eax
void *exception; // rbx
_BYTE v7[16]; // [rsp+8h] [rbp-40h] BYREF
ColumnIdx = rapidcsv::Document::GetColumnIdx(a2, a3);
if ( ColumnIdx < 0 )
{
exception = __cxa_allocate_exception(0x10uLL);
std::operator+<char>((long long)v7, (long long)"column not found: ", a3);
std::out_of_range::out_of_range(exception, v7);
__cxa_throw(
exception,
(struct type_info *)&`typeinfo for'std::out_of_range,
(void (*)(void *))&std::out_of_range::~out_of_range);
}
rapidcsv::Document::GetColumn<int>(a1, a2, (unsigned int)ColumnIdx);
return a1;
}
| GetColumn<int>:
PUSH RBP
PUSH R15
PUSH R14
PUSH RBX
SUB RSP,0x28
MOV R14,RDX
MOV R15,RSI
MOV RBX,RDI
MOV RDI,RSI
MOV RSI,RDX
CALL 0x0011f1fa
TEST EAX,EAX
JS 0x0011cee5
MOV EDX,EAX
MOV RDI,RBX
MOV RSI,R15
CALL 0x0011f250
MOV RAX,RBX
ADD RSP,0x28
POP RBX
POP R14
POP R15
POP RBP
RET
LAB_0011cee5:
MOV EDI,0x10
CALL 0x0010b1b0
MOV RBX,RAX
LAB_0011cef2:
LEA RSI,[0x13cc12]
LEA RDI,[RSP + 0x8]
MOV RDX,R14
CALL 0x00114eb7
MOV BPL,0x1
LAB_0011cf09:
LEA RSI,[RSP + 0x8]
MOV RDI,RBX
CALL 0x0010b660
XOR EBP,EBP
MOV RSI,qword ptr [0x00158fc8]
MOV RDX,qword ptr [0x00158fc0]
MOV RDI,RBX
CALL 0x0010b740
|
/* std::vector<int, std::allocator<int> > rapidcsv::Document::GetColumn<int>(std::__cxx11::string
const&) const */
string * rapidcsv::Document::GetColumn<int>(string *param_1)
{
int iVar1;
out_of_range *this;
string *in_RDX;
Document *in_RSI;
string local_40 [32];
iVar1 = GetColumnIdx(in_RSI,in_RDX);
if (-1 < iVar1) {
GetColumn<int>((ulong)param_1);
return param_1;
}
this = (out_of_range *)__cxa_allocate_exception(0x10);
/* try { // try from 0011cef2 to 0011cf05 has its CatchHandler @ 0011cf53 */
std::operator+((char *)local_40,(string *)"column not found: ");
/* try { // try from 0011cf09 to 0011cf2d has its CatchHandler @ 0011cf2e */
std::out_of_range::out_of_range(this,local_40);
/* WARNING: Subroutine does not return */
__cxa_throw(this,PTR_typeinfo_00158fc8,PTR__out_of_range_00158fc0);
}
|
|
4,472 | Acore::Impl::StringConvertImpl::For<double, void>::FromString(std::basic_string_view<char, std::char_traits<char>>, int) | SylCore-WoTLK/src/common/Utilities/StringConvert.h | static Optional<T> FromString(std::string_view str, int base = 0)
{
try
{
if (str.empty())
{
return std::nullopt;
}
if ((base == 10) && StringEqualI(str.substr(0, 2), "0x"))
{
return std::nullopt;
}
std::string tmp;
if (base == 16)
{
tmp.append("0x");
}
tmp.append(str);
std::size_t n;
T val = static_cast<T>(std::stold(tmp, &n));
if (n != tmp.length())
{
return std::nullopt;
}
return val;
}
catch (...) { return std::nullopt; }
} | O0 | c | Acore::Impl::StringConvertImpl::For<double, void>::FromString(std::basic_string_view<char, std::char_traits<char>>, int):
subq $0xd8, %rsp
movq %rdi, 0xb8(%rsp)
movq %rsi, 0xc0(%rsp)
movl %edx, 0xb4(%rsp)
leaq 0xb8(%rsp), %rdi
callq 0x91350
testb $0x1, %al
jne 0xfb1a1
jmp 0xfb1b3
leaq 0xc8(%rsp), %rdi
callq 0xfb3a0
jmp 0xfb37a
cmpl $0xa, 0xb4(%rsp)
jne 0xfb26e
xorl %eax, %eax
movl %eax, %esi
leaq 0xb8(%rsp), %rdi
movl $0x2, %edx
callq 0x91270
movq %rdx, 0x20(%rsp)
movq %rax, 0x28(%rsp)
jmp 0xfb1e3
movq 0x20(%rsp), %rax
movq 0x28(%rsp), %rcx
movq %rcx, 0xa0(%rsp)
movq %rax, 0xa8(%rsp)
leaq 0x21b783(%rip), %rsi # 0x316987
leaq 0x80(%rsp), %rdi
callq 0x2e0e0
movq 0xa0(%rsp), %rdi
movq 0xa8(%rsp), %rsi
movq 0x80(%rsp), %rdx
movq 0x88(%rsp), %rcx
callq 0x1f7f60
movb %al, 0x1f(%rsp)
jmp 0xfb23c
movb 0x1f(%rsp), %al
testb $0x1, %al
jne 0xfb246
jmp 0xfb26e
leaq 0xc8(%rsp), %rdi
callq 0xfb3a0
jmp 0xfb37a
movq %rax, %rcx
movl %edx, %eax
movq %rcx, 0x98(%rsp)
movl %eax, 0x94(%rsp)
jmp 0xfb2b5
leaq 0x58(%rsp), %rdi
callq 0x6bfd0
cmpl $0x10, 0xb4(%rsp)
jne 0xfb2e1
leaq 0x21b6fe(%rip), %rsi # 0x316987
leaq 0x58(%rsp), %rdi
callq 0x3d120
jmp 0xfb295
jmp 0xfb2e1
movq %rax, %rcx
movl %edx, %eax
movq %rcx, 0x98(%rsp)
movl %eax, 0x94(%rsp)
leaq 0x58(%rsp), %rdi
callq 0x2de90
movq 0x98(%rsp), %rdi
callq 0x21100
leaq 0xc8(%rsp), %rdi
callq 0xfb3a0
movl $0x1, 0x40(%rsp)
callq 0x22040
jmp 0xfb37a
leaq 0x58(%rsp), %rdi
leaq 0xb8(%rsp), %rsi
callq 0x315a0
jmp 0xfb2f5
leaq 0x58(%rsp), %rdi
leaq 0x50(%rsp), %rsi
callq 0xfaea0
fstpt 0x14(%rsp)
jmp 0xfb30a
fldt 0x14(%rsp)
fstpl 0x30(%rsp)
movsd 0x30(%rsp), %xmm0
movsd %xmm0, 0x48(%rsp)
movq 0x50(%rsp), %rax
movq %rax, 0x8(%rsp)
leaq 0x58(%rsp), %rdi
callq 0x309b0
movq %rax, %rcx
movq 0x8(%rsp), %rax
cmpq %rcx, %rax
je 0xfb356
leaq 0xc8(%rsp), %rdi
callq 0xfb3a0
movl $0x1, 0x40(%rsp)
jmp 0xfb370
leaq 0xc8(%rsp), %rdi
leaq 0x48(%rsp), %rsi
callq 0xfb3c0
movl $0x1, 0x40(%rsp)
leaq 0x58(%rsp), %rdi
callq 0x2de90
movsd 0xc8(%rsp), %xmm0
movb 0xd0(%rsp), %al
addq $0xd8, %rsp
retq
nopw %cs:(%rax,%rax)
nopl (%rax)
| _ZN5Acore4Impl17StringConvertImpl3ForIdvE10FromStringESt17basic_string_viewIcSt11char_traitsIcEEi:
sub rsp, 0D8h
mov [rsp+0D8h+var_20], rdi
mov [rsp+0D8h+var_18], rsi
mov [rsp+0D8h+var_24], edx
lea rdi, [rsp+0D8h+var_20]
call _ZNKSt17basic_string_viewIcSt11char_traitsIcEE5emptyEv; std::string_view::empty(void)
test al, 1
jnz short loc_FB1A1
jmp short loc_FB1B3
loc_FB1A1:
lea rdi, [rsp+0D8h+var_10]
call _ZNSt8optionalIdEC2ESt9nullopt_t; std::optional<double>::optional(std::nullopt_t)
jmp loc_FB37A
loc_FB1B3:
cmp [rsp+0D8h+var_24], 0Ah
jnz loc_FB26E
xor eax, eax
mov esi, eax
lea rdi, [rsp+0D8h+var_20]
mov edx, 2
call _ZNKSt17basic_string_viewIcSt11char_traitsIcEE6substrEmm; std::string_view::substr(ulong,ulong)
mov [rsp+0D8h+var_B8], rdx
mov [rsp+0D8h+var_B0], rax
jmp short $+2
loc_FB1E3:
mov rax, [rsp+0D8h+var_B8]
mov rcx, [rsp+0D8h+var_B0]
mov [rsp+0D8h+var_38], rcx
mov [rsp+0D8h+var_30], rax
lea rsi, a0x; "0x"
lea rdi, [rsp+0D8h+var_58]
call _ZNSt17basic_string_viewIcSt11char_traitsIcEEC2EPKc; std::string_view::basic_string_view(char const*)
mov rdi, [rsp+0D8h+var_38]
mov rsi, [rsp+0D8h+var_30]
mov rdx, [rsp+0D8h+var_58]
mov rcx, [rsp+0D8h+var_50]
call _Z12StringEqualISt17basic_string_viewIcSt11char_traitsIcEES2_; StringEqualI(std::string_view,std::string_view)
mov [rsp+0D8h+var_B9], al
jmp short $+2
loc_FB23C:
mov al, [rsp+0D8h+var_B9]
test al, 1
jnz short loc_FB246
jmp short loc_FB26E
loc_FB246:
lea rdi, [rsp+0D8h+var_10]
call _ZNSt8optionalIdEC2ESt9nullopt_t; std::optional<double>::optional(std::nullopt_t)
jmp loc_FB37A
mov rcx, rax
mov eax, edx
mov [rsp+0D8h+var_40], rcx
mov [rsp+0D8h+var_44], eax
jmp short loc_FB2B5
loc_FB26E:
lea rdi, [rsp+0D8h+var_80]
call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEC2Ev; std::string::basic_string(void)
cmp [rsp+0D8h+var_24], 10h
jnz short loc_FB2E1
lea rsi, a0x; "0x"
lea rdi, [rsp+0D8h+var_80]
call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE6appendEPKc; std::string::append(char const*)
jmp short $+2
loc_FB295:
jmp short loc_FB2E1
mov rcx, rax
mov eax, edx
mov [rsp+0D8h+var_40], rcx
mov [rsp+0D8h+var_44], eax
lea rdi, [rsp+0D8h+var_80]; void *
call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEED2Ev; std::string::~string()
loc_FB2B5:
mov rdi, [rsp+0D8h+var_40]; void *
call ___cxa_begin_catch
lea rdi, [rsp+0D8h+var_10]
call _ZNSt8optionalIdEC2ESt9nullopt_t; std::optional<double>::optional(std::nullopt_t)
mov [rsp+0D8h+var_98], 1
call ___cxa_end_catch
jmp loc_FB37A
loc_FB2E1:
lea rdi, [rsp+0D8h+var_80]
lea rsi, [rsp+0D8h+var_20]
call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE6appendISt17basic_string_viewIcS2_EEENSt9enable_ifIXsr6__and_ISt14is_convertibleIRKT_S7_ESt6__not_IS9_IPSB_PKS4_EESE_IS9_ISC_PKcEEEE5valueERS4_E4typeESC_
jmp short $+2
loc_FB2F5:
lea rdi, [rsp+0D8h+var_80]
lea rsi, [rsp+0D8h+var_88]
call _ZNSt7__cxx115stoldERKNS_12basic_stringIcSt11char_traitsIcESaIcEEEPm; std::stold(std::string const&,ulong *)
fstp [rsp+0D8h+var_C4]
jmp short $+2
loc_FB30A:
fld [rsp+0D8h+var_C4]
fstp [rsp+0D8h+var_A8]
movsd xmm0, [rsp+0D8h+var_A8]
movsd [rsp+0D8h+var_90], xmm0
mov rax, [rsp+0D8h+var_88]
mov [rsp+0D8h+var_D0], rax
lea rdi, [rsp+0D8h+var_80]
call _ZNKSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE6lengthEv; std::string::length(void)
mov rcx, rax
mov rax, [rsp+0D8h+var_D0]
cmp rax, rcx
jz short loc_FB356
lea rdi, [rsp+0D8h+var_10]
call _ZNSt8optionalIdEC2ESt9nullopt_t; std::optional<double>::optional(std::nullopt_t)
mov [rsp+0D8h+var_98], 1
jmp short loc_FB370
loc_FB356:
lea rdi, [rsp+0D8h+var_10]
lea rsi, [rsp+0D8h+var_90]
call _ZNSt8optionalIdEC2IdTnNSt9enable_ifIX7__and_vISt6__not_ISt7is_sameIS0_NSt9remove_cvINSt16remove_referenceIT_E4typeEE4typeEEES3_IS4_ISt10in_place_tSB_EESt16is_constructibleIdJS7_EESt14is_convertibleIS7_dEEEbE4typeELb1EEEOS7_
mov [rsp+0D8h+var_98], 1
loc_FB370:
lea rdi, [rsp+0D8h+var_80]; void *
call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEED2Ev; std::string::~string()
loc_FB37A:
movsd xmm0, [rsp+0D8h+var_10]
mov al, [rsp+0D8h+var_8]
add rsp, 0D8h
retn
| char Acore::Impl::StringConvertImpl::For<double,void>::FromString(long long a1, long long a2, int a3)
{
long long v3; // rdx
long long v5; // [rsp+8h] [rbp-D0h]
double v6; // [rsp+48h] [rbp-90h] BYREF
long long v7; // [rsp+50h] [rbp-88h] BYREF
_QWORD v8[5]; // [rsp+58h] [rbp-80h] BYREF
long long v9[2]; // [rsp+80h] [rbp-58h] BYREF
long long v10; // [rsp+A0h] [rbp-38h]
long long v11; // [rsp+A8h] [rbp-30h]
int v12; // [rsp+B4h] [rbp-24h]
_QWORD v13[2]; // [rsp+B8h] [rbp-20h] BYREF
long long v14; // [rsp+C8h] [rbp-10h] BYREF
char v15; // [rsp+D0h] [rbp-8h]
v13[0] = a1;
v13[1] = a2;
v12 = a3;
if ( std::string_view::empty(v13) )
{
std::optional<double>::optional(&v14);
}
else if ( v12 == 10
&& (v10 = std::string_view::substr(v13, 0LL, 2LL),
v11 = v3,
std::string_view::basic_string_view(v9, (long long)"0x"),
(StringEqualI(v10, v11, v9[0], v9[1]) & 1) != 0) )
{
std::optional<double>::optional(&v14);
}
else
{
std::string::basic_string(v8);
if ( v12 == 16 )
std::string::append(v8, (long long)"0x");
std::string::append<std::string_view>((long long)v8, v13);
v6 = std::stold((long long)v8, (long long)&v7);
v5 = v7;
if ( v5 == std::string::length((long long)v8) )
ZNSt8optionalIdEC2IdTnNSt9enable_ifIX7__and_vISt6__not_ISt7is_sameIS0_NSt9remove_cvINSt16remove_referenceIT_E4typeEE4typeEEES3_IS4_ISt10in_place_tSB_EESt16is_constructibleIdJS7_EESt14is_convertibleIS7_dEEEbE4typeELb1EEEOS7_(
&v14,
&v6);
else
std::optional<double>::optional(&v14);
std::string::~string(v8);
}
return v15;
}
| FromString:
SUB RSP,0xd8
MOV qword ptr [RSP + 0xb8],RDI
MOV qword ptr [RSP + 0xc0],RSI
MOV dword ptr [RSP + 0xb4],EDX
LEA RDI,[RSP + 0xb8]
CALL 0x00191350
TEST AL,0x1
JNZ 0x001fb1a1
JMP 0x001fb1b3
LAB_001fb1a1:
LEA RDI,[RSP + 0xc8]
CALL 0x001fb3a0
JMP 0x001fb37a
LAB_001fb1b3:
CMP dword ptr [RSP + 0xb4],0xa
JNZ 0x001fb26e
LAB_001fb1c1:
XOR EAX,EAX
MOV ESI,EAX
LEA RDI,[RSP + 0xb8]
MOV EDX,0x2
CALL 0x00191270
MOV qword ptr [RSP + 0x20],RDX
MOV qword ptr [RSP + 0x28],RAX
JMP 0x001fb1e3
LAB_001fb1e3:
MOV RAX,qword ptr [RSP + 0x20]
MOV RCX,qword ptr [RSP + 0x28]
MOV qword ptr [RSP + 0xa0],RCX
MOV qword ptr [RSP + 0xa8],RAX
LEA RSI,[0x416987]
LEA RDI,[RSP + 0x80]
CALL 0x0012e0e0
MOV RDI,qword ptr [RSP + 0xa0]
MOV RSI,qword ptr [RSP + 0xa8]
MOV RDX,qword ptr [RSP + 0x80]
MOV RCX,qword ptr [RSP + 0x88]
CALL 0x002f7f60
MOV byte ptr [RSP + 0x1f],AL
JMP 0x001fb23c
LAB_001fb23c:
MOV AL,byte ptr [RSP + 0x1f]
TEST AL,0x1
JNZ 0x001fb246
JMP 0x001fb26e
LAB_001fb246:
LEA RDI,[RSP + 0xc8]
CALL 0x001fb3a0
JMP 0x001fb37a
LAB_001fb26e:
LEA RDI,[RSP + 0x58]
CALL 0x0016bfd0
CMP dword ptr [RSP + 0xb4],0x10
JNZ 0x001fb2e1
LAB_001fb282:
LEA RSI,[0x416987]
LEA RDI,[RSP + 0x58]
CALL 0x0013d120
LAB_001fb293:
JMP 0x001fb295
LAB_001fb295:
JMP 0x001fb2e1
LAB_001fb2e1:
LEA RDI,[RSP + 0x58]
LEA RSI,[RSP + 0xb8]
CALL 0x001315a0
JMP 0x001fb2f5
LAB_001fb2f5:
LEA RDI,[RSP + 0x58]
LEA RSI,[RSP + 0x50]
CALL 0x001faea0
FSTP tword ptr [RSP + 0x14]
JMP 0x001fb30a
LAB_001fb30a:
FLD tword ptr [RSP + 0x14]
FSTP qword ptr [RSP + 0x30]
MOVSD XMM0,qword ptr [RSP + 0x30]
MOVSD qword ptr [RSP + 0x48],XMM0
MOV RAX,qword ptr [RSP + 0x50]
MOV qword ptr [RSP + 0x8],RAX
LEA RDI,[RSP + 0x58]
CALL 0x001309b0
MOV RCX,RAX
MOV RAX,qword ptr [RSP + 0x8]
CMP RAX,RCX
JZ 0x001fb356
LEA RDI,[RSP + 0xc8]
CALL 0x001fb3a0
MOV dword ptr [RSP + 0x40],0x1
JMP 0x001fb370
LAB_001fb356:
LEA RDI,[RSP + 0xc8]
LEA RSI,[RSP + 0x48]
CALL 0x001fb3c0
MOV dword ptr [RSP + 0x40],0x1
LAB_001fb370:
LEA RDI,[RSP + 0x58]
CALL 0x0012de90
LAB_001fb37a:
MOVSD XMM0,qword ptr [RSP + 0xc8]
MOV AL,byte ptr [RSP + 0xd0]
ADD RSP,0xd8
RET
|
/* Acore::Impl::StringConvertImpl::For<double, void>::FromString(std::basic_string_view<char,
std::char_traits<char> >, int) */
int1 __thiscall
Acore::Impl::StringConvertImpl::For<double,void>::FromString
(For<double,void> *this,int8 param_2,int param_3)
{
byte bVar1;
ulong uVar2;
longdouble in_ST0;
double local_90;
ulong local_88;
string local_80 [40];
int8 local_58;
int8 local_50;
int1 local_38 [16];
int local_24;
For<double,void> *local_20;
int8 local_18;
int1 local_10 [8];
int1 local_8;
local_24 = param_3;
local_20 = this;
local_18 = param_2;
uVar2 = std::basic_string_view<char,std::char_traits<char>>::empty
((basic_string_view<char,std::char_traits<char>> *)&local_20);
if ((uVar2 & 1) == 0) {
if (local_24 == 10) {
/* try { // try from 001fb1c1 to 001fb235 has its CatchHandler @ 001fb258 */
local_38 = std::basic_string_view<char,std::char_traits<char>>::substr
((basic_string_view<char,std::char_traits<char>> *)&local_20,0,2);
std::basic_string_view<char,std::char_traits<char>>::basic_string_view
((basic_string_view<char,std::char_traits<char>> *)&local_58,"0x");
bVar1 = StringEqualI(local_38._0_8_,local_38._8_8_,local_58,local_50);
if ((bVar1 & 1) != 0) {
std::optional<double>::optional(local_10);
return local_8;
}
}
std::__cxx11::string::string(local_80);
if (local_24 == 0x10) {
/* try { // try from 001fb282 to 001fb292 has its CatchHandler @ 001fb297 */
std::__cxx11::string::append(local_80,"0x");
}
/* try { // try from 001fb2e1 to 001fb303 has its CatchHandler @ 001fb297 */
std::__cxx11::string::append<std::basic_string_view<char,std::char_traits<char>>>
(local_80,(basic_string_view *)&local_20);
std::__cxx11::stold(local_80,&local_88);
local_90 = (double)in_ST0;
uVar2 = std::__cxx11::string::length(local_80);
if (local_88 == uVar2) {
_ZNSt8optionalIdEC2IdTnNSt9enable_ifIX7__and_vISt6__not_ISt7is_sameIS0_NSt9remove_cvINSt16remove_referenceIT_E4typeEE4typeEEES3_IS4_ISt10in_place_tSB_EESt16is_constructibleIdJS7_EESt14is_convertibleIS7_dEEEbE4typeELb1EEEOS7_
(local_10,&local_90);
}
else {
std::optional<double>::optional(local_10);
}
std::__cxx11::string::~string(local_80);
}
else {
std::optional<double>::optional(local_10);
}
return local_8;
}
|
|
4,473 | R3D_GetBlackTexture | r3d/src/r3d_utils.c | Texture2D R3D_GetBlackTexture(void)
{
Texture2D texture = { 0 };
texture.id = R3D.texture.black;
texture.width = 1;
texture.height = 1;
texture.mipmaps = 1;
texture.format = PIXELFORMAT_UNCOMPRESSED_GRAYSCALE;
return texture;
} | O3 | c | R3D_GetBlackTexture:
pushq %rbp
movq %rsp, %rbp
movq %rdi, %rax
leaq 0xf1822(%rip), %rcx # 0x1affb0
movl 0x1534(%rcx), %ecx
movl %ecx, (%rdi)
movaps 0x22e03(%rip), %xmm0 # 0xe15a0
movups %xmm0, 0x4(%rdi)
popq %rbp
retq
| R3D_GetBlackTexture:
push rbp
mov rbp, rsp
mov rax, rdi
lea rcx, R3D
mov ecx, [rcx+1534h]
mov [rdi], ecx
movaps xmm0, cs:xmmword_E15A0
movups xmmword ptr [rdi+4], xmm0
pop rbp
retn
| long long R3D_GetBlackTexture(long long a1)
{
long long result; // rax
result = a1;
*(_DWORD *)a1 = *((_DWORD *)&R3D + 1357);
*(_OWORD *)(a1 + 4) = xmmword_E15A0;
return result;
}
| R3D_GetBlackTexture:
PUSH RBP
MOV RBP,RSP
MOV RAX,RDI
LEA RCX,[0x2affb0]
MOV ECX,dword ptr [RCX + 0x1534]
MOV dword ptr [RDI],ECX
MOVAPS XMM0,xmmword ptr [0x001e15a0]
MOVUPS xmmword ptr [RDI + 0x4],XMM0
POP RBP
RET
|
/* WARNING: Globals starting with '_' overlap smaller symbols at the same address */
int4 * R3D_GetBlackTexture(int4 *param_1)
{
int8 uVar1;
*param_1 = DAT_002b14e4;
uVar1 = _UNK_001e15a8;
*(int8 *)(param_1 + 1) = _DAT_001e15a0;
*(int8 *)(param_1 + 3) = uVar1;
return param_1;
}
|
|
4,474 | qshell_wget | navaro[P]qoraal-tictactoe/build_O3/_deps/qoraal_http-src/src/qshell/httpcmds.c | int32_t qshell_wget(SVC_SHELL_IF_T *pif, char **argv, int argc)
{
HTTP_CLIENT_T client;
int32_t status;
uint8_t *response;
int32_t res;
uint32_t ip;
struct sockaddr_in addr;
int https, port;
char *host, *path, *credentials;
FILE *file = NULL;
if (argc < 2) {
return SVC_SHELL_CMD_E_PARMS;
}
// Parse the URL
res = httpparse_url_parse(argv[1], &https, &port, &host, &path, &credentials);
if (res != EOK) {
svc_shell_print(pif, SVC_SHELL_OUT_STD, "Failed to parse URL: %s\n", argv[1]);
return res;
}
// Extract the filename
const char *filename = "index.html" ;
if (path) {
filename = strrchr(path, '/');
filename = (filename && *(filename + 1)) ? filename + 1 : path;
}
// Open file for writing
file = fopen(filename, "wb");
if (!file) {
svc_shell_print(pif, SVC_SHELL_OUT_STD, "Failed to open file: %s\n", filename);
return -1;
}
// Resolve hostname
memset(&addr, 0, sizeof(addr));
addr.sin_family = AF_INET;
addr.sin_port = htons(port);
if (resolve_hostname(host, &ip) != EOK) {
svc_shell_print(pif, SVC_SHELL_OUT_STD, "HTTP : : resolving %s failed!\n", host);
fclose(file);
return HTTP_CLIENT_E_HOST;
}
addr.sin_addr.s_addr = ip;
// initialise the client
httpclient_init (&client, 0) ;
// for name-based virtual hosting
httpclient_set_hostname (&client, host) ;
// Connect to the server
res = httpclient_connect(&client, &addr, https);
if (res != HTTP_CLIENT_E_OK) {
svc_shell_print(pif, SVC_SHELL_OUT_STD, "Failed to connect to server\n");
fclose(file);
httpclient_close(&client);
return res;
}
// Send GET request
res = httpclient_get(&client, path, credentials);
if (res < 0) {
svc_shell_print(pif, SVC_SHELL_OUT_STD, "GET %s failed\n", path);
fclose(file);
httpclient_close(&client);
return res;
}
// Read response and headers
res = httpclient_read_response_ex(&client, 5000, &status);
if (res < 0 || status / 100 != 2) {
svc_shell_print(pif, SVC_SHELL_OUT_STD,
"Failed to read response status %d result %d\n", status, res);
if (res < 0) {
fclose(file);
httpclient_close(&client);
return res;
}
}
// Read response body and write to file
while ((res = httpclient_read_next_ex(&client, 5000, &response)) > 0) {
fwrite(response, 1, res, file);
}
// Clean up
fclose(file);
httpclient_close(&client);
svc_shell_print(pif, SVC_SHELL_OUT_STD, "Download complete: %s\n", filename);
return res >= EOK ? SVC_SHELL_CMD_E_OK : res;
} | O3 | c | qshell_wget:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0xe8, %rsp
movl $0xfffffffd, %r12d # imm = 0xFFFFFFFD
cmpl $0x2, %edx
jl 0x1f933
movq %rsi, %r14
movq %rdi, %rbx
movq 0x8(%rsi), %rdi
leaq -0x40(%rbp), %rsi
leaq -0x3c(%rbp), %rdx
leaq -0x38(%rbp), %rcx
leaq -0x30(%rbp), %r8
leaq -0x58(%rbp), %r9
callq 0x1ece3
testl %eax, %eax
je 0x1f948
movl %eax, %r12d
movq 0x8(%r14), %rcx
leaq 0x1389c(%rip), %rdx # 0x331c0
movq %rbx, %rdi
movl $0x1, %esi
xorl %eax, %eax
callq 0x17c60
movl %r12d, %eax
addq $0xe8, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
movq -0x30(%rbp), %r15
testq %r15, %r15
je 0x1f971
movq %r15, %rdi
movl $0x2f, %esi
callq 0x6230
testq %rax, %rax
je 0x1f978
cmpb $0x0, 0x1(%rax)
je 0x1f978
incq %rax
movq %rax, %r15
jmp 0x1f978
leaq 0x13861(%rip), %r15 # 0x331d9
leaq 0x13865(%rip), %rsi # 0x331e4
movq %r15, %rdi
callq 0x6490
testq %rax, %rax
je 0x1f9e7
movq %rax, %r14
movq $0x0, -0x60(%rbp)
movw $0x2, -0x68(%rbp)
movzwl -0x3c(%rbp), %eax
rolw $0x8, %ax
movw %ax, -0x66(%rbp)
movq -0x38(%rbp), %rdi
leaq -0x44(%rbp), %rsi
callq 0x1fb99
testl %eax, %eax
je 0x1fa0b
movq -0x38(%rbp), %rcx
leaq 0x1383b(%rip), %rdx # 0x33200
movq %rbx, %rdi
movl $0x1, %esi
xorl %eax, %eax
callq 0x17c60
movq %r14, %rdi
callq 0x6160
movl $0xfffffff7, %r12d # imm = 0xFFFFFFF7
jmp 0x1f933
leaq 0x137f9(%rip), %rdx # 0x331e7
movq %rbx, %rdi
movl $0x1, %esi
movq %r15, %rcx
xorl %eax, %eax
callq 0x17c60
movl $0xffffffff, %r12d # imm = 0xFFFFFFFF
jmp 0x1f933
movl -0x44(%rbp), %eax
leaq -0x68(%rbp), %r12
movl %eax, 0x4(%r12)
leaq -0x108(%rbp), %r13
movq %r13, %rdi
xorl %esi, %esi
callq 0x1fc04
movq -0x38(%rbp), %rsi
movq %r13, %rdi
callq 0x1fd0f
movl -0x40(%rbp), %edx
movq %r13, %rdi
movq %r12, %rsi
callq 0x1fc31
testl %eax, %eax
je 0x1fa78
movl %eax, %r12d
leaq 0x137d0(%rip), %rdx # 0x33220
movq %rbx, %rdi
movl $0x1, %esi
xorl %eax, %eax
callq 0x17c60
movq %r14, %rdi
callq 0x6160
leaq -0x108(%rbp), %rdi
callq 0x1fdaa
jmp 0x1f933
movq -0x30(%rbp), %rsi
movq -0x58(%rbp), %rdx
leaq -0x108(%rbp), %rdi
callq 0x1fdd7
testl %eax, %eax
js 0x1fb59
leaq -0x108(%rbp), %rdi
leaq -0x6c(%rbp), %r13
movl $0x1388, %esi # imm = 0x1388
movq %r13, %rdx
callq 0x20907
movl %eax, %r12d
movl (%r13), %ecx
testl %eax, %eax
js 0x1fb7b
leal -0xc8(%rcx), %eax
cmpl $0x64, %eax
jb 0x1fadf
leaq 0x1377f(%rip), %rdx # 0x3324c
movq %rbx, %rdi
movl $0x1, %esi
movl %r12d, %r8d
xorl %eax, %eax
callq 0x17c60
leaq -0x108(%rbp), %rdi
leaq -0x50(%rbp), %rdx
movl $0x1388, %esi # imm = 0x1388
callq 0x20b77
movl %eax, %r12d
testl %eax, %eax
jle 0x1fb2e
leaq -0x50(%rbp), %r13
movq -0x50(%rbp), %rdi
movl %r12d, %edx
movl $0x1, %esi
movq %r14, %rcx
callq 0x6510
leaq -0x108(%rbp), %rdi
movl $0x1388, %esi # imm = 0x1388
movq %r13, %rdx
callq 0x20b77
movl %eax, %r12d
testl %eax, %eax
jg 0x1faff
movq %r14, %rdi
callq 0x6160
leaq -0x108(%rbp), %rdi
callq 0x1fdaa
leaq 0x13730(%rip), %rdx # 0x33279
movq %rbx, %rdi
movl $0x1, %esi
movq %r15, %rcx
jmp 0x1f92c
movl %eax, %r12d
movq -0x30(%rbp), %rcx
leaq 0x136d6(%rip), %rdx # 0x3323d
movq %rbx, %rdi
movl $0x1, %esi
xorl %eax, %eax
callq 0x17c60
jmp 0x1fa5f
leaq 0x136ca(%rip), %rdx # 0x3324c
movq %rbx, %rdi
movl $0x1, %esi
movl %r12d, %r8d
xorl %eax, %eax
callq 0x17c60
jmp 0x1fa5f
| qshell_wget:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 0E8h
mov r12d, 0FFFFFFFDh
cmp edx, 2
jl short loc_1F933
mov r14, rsi
mov rbx, rdi
mov rdi, [rsi+8]
lea rsi, [rbp+var_40]
lea rdx, [rbp+var_3C]
lea rcx, [rbp+var_38]
lea r8, [rbp+var_30]
lea r9, [rbp+var_58]
call httpparse_url_parse
test eax, eax
jz short loc_1F948
mov r12d, eax
mov rcx, [r14+8]
lea rdx, aFailedToParseU; "Failed to parse URL: %s\n"
mov rdi, rbx
mov esi, 1
loc_1F92C:
xor eax, eax
call svc_shell_print
loc_1F933:
mov eax, r12d
add rsp, 0E8h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
loc_1F948:
mov r15, [rbp+var_30]
test r15, r15
jz short loc_1F971
mov rdi, r15
mov esi, 2Fh ; '/'
call _strrchr
test rax, rax
jz short loc_1F978
cmp byte ptr [rax+1], 0
jz short loc_1F978
inc rax
mov r15, rax
jmp short loc_1F978
loc_1F971:
lea r15, aIndexHtml; "index.html"
loc_1F978:
lea rsi, aWb; "wb"
mov rdi, r15
call _fopen
test rax, rax
jz short loc_1F9E7
mov r14, rax
mov [rbp+var_60], 0
mov [rbp+var_68], 2
movzx eax, [rbp+var_3C]
rol ax, 8
mov [rbp+var_66], ax
mov rdi, [rbp+var_38]
lea rsi, [rbp+var_44]
call resolve_hostname
test eax, eax
jz short loc_1FA0B
mov rcx, [rbp+var_38]
lea rdx, aHttpResolvingS; "HTTP : : resolving %s failed!\n"
mov rdi, rbx
mov esi, 1
xor eax, eax
call svc_shell_print
mov rdi, r14
call _fclose
mov r12d, 0FFFFFFF7h
jmp loc_1F933
loc_1F9E7:
lea rdx, aFailedToOpenFi; "Failed to open file: %s\n"
mov rdi, rbx
mov esi, 1
mov rcx, r15
xor eax, eax
call svc_shell_print
mov r12d, 0FFFFFFFFh
jmp loc_1F933
loc_1FA0B:
mov eax, [rbp+var_44]
lea r12, [rbp+var_68]
mov [r12+4], eax
lea r13, [rbp+var_108]
mov rdi, r13
xor esi, esi
call httpclient_init
mov rsi, [rbp+var_38]
mov rdi, r13
call httpclient_set_hostname
mov edx, [rbp+var_40]
mov rdi, r13
mov rsi, r12
call httpclient_connect
test eax, eax
jz short loc_1FA78
mov r12d, eax
lea rdx, aFailedToConnec; "Failed to connect to server\n"
mov rdi, rbx
mov esi, 1
xor eax, eax
call svc_shell_print
loc_1FA5F:
mov rdi, r14
call _fclose
lea rdi, [rbp+var_108]
call httpclient_close
jmp loc_1F933
loc_1FA78:
mov rsi, [rbp+var_30]
mov rdx, [rbp+var_58]
lea rdi, [rbp+var_108]
call httpclient_get
test eax, eax
js loc_1FB59
lea rdi, [rbp+var_108]
lea r13, [rbp+var_6C]
mov esi, 1388h
mov rdx, r13
call httpclient_read_response_ex
mov r12d, eax
mov ecx, [r13+0]
test eax, eax
js loc_1FB7B
lea eax, [rcx-0C8h]
cmp eax, 64h ; 'd'
jb short loc_1FADF
lea rdx, aFailedToReadRe; "Failed to read response status %d resul"...
mov rdi, rbx
mov esi, 1
mov r8d, r12d
xor eax, eax
call svc_shell_print
loc_1FADF:
lea rdi, [rbp+var_108]
lea rdx, [rbp+var_50]
mov esi, 1388h
call httpclient_read_next_ex
mov r12d, eax
test eax, eax
jle short loc_1FB2E
lea r13, [rbp+var_50]
loc_1FAFF:
mov rdi, [rbp+var_50]
mov edx, r12d
mov esi, 1
mov rcx, r14
call _fwrite
lea rdi, [rbp+var_108]
mov esi, 1388h
mov rdx, r13
call httpclient_read_next_ex
mov r12d, eax
test eax, eax
jg short loc_1FAFF
loc_1FB2E:
mov rdi, r14
call _fclose
lea rdi, [rbp+var_108]
call httpclient_close
lea rdx, aDownloadComple; "Download complete: %s\n"
mov rdi, rbx
mov esi, 1
mov rcx, r15
jmp loc_1F92C
loc_1FB59:
mov r12d, eax
mov rcx, [rbp+var_30]
lea rdx, aGetSFailed; "GET %s failed\n"
mov rdi, rbx
mov esi, 1
xor eax, eax
call svc_shell_print
jmp loc_1FA5F
loc_1FB7B:
lea rdx, aFailedToReadRe; "Failed to read response status %d resul"...
mov rdi, rbx
mov esi, 1
mov r8d, r12d
xor eax, eax
call svc_shell_print
jmp loc_1FA5F
| long long qshell_wget(
long long a1,
long long a2,
int a3,
__m128 a4,
__m128 a5,
__m128 a6,
__m128 a7,
double a8,
double a9,
__m128 a10,
__m128 a11)
{
unsigned int i; // r12d
unsigned int v12; // eax
long long v13; // r8
long long v14; // r9
__m128 v15; // xmm4
__m128 v16; // xmm5
long long v17; // rcx
char *v18; // rdx
char *v20; // r15
long long v21; // rax
long long v22; // rax
long long v23; // r8
long long v24; // r9
__m128 v25; // xmm4
__m128 v26; // xmm5
long long v27; // r14
long long v28; // r8
long long v29; // r9
__m128 v30; // xmm4
__m128 v31; // xmm5
unsigned int v32; // eax
long long v33; // rcx
long long v34; // r8
long long v35; // r9
__m128 v36; // xmm4
__m128 v37; // xmm5
int v38; // eax
long long v39; // r8
long long v40; // r9
__m128 v41; // xmm4
__m128 v42; // xmm5
int v43; // eax
long long v44; // r9
__m128 v45; // xmm4
__m128 v46; // xmm5
char v47; // [rsp+0h] [rbp-110h]
_BYTE v48[156]; // [rsp+8h] [rbp-108h] BYREF
unsigned int v49; // [rsp+A4h] [rbp-6Ch] BYREF
_WORD v50[2]; // [rsp+A8h] [rbp-68h] BYREF
int v51; // [rsp+ACh] [rbp-64h]
long long v52; // [rsp+B0h] [rbp-60h]
unsigned __int8 *v53; // [rsp+B8h] [rbp-58h] BYREF
long long v54; // [rsp+C0h] [rbp-50h] BYREF
int v55; // [rsp+CCh] [rbp-44h] BYREF
unsigned int v56; // [rsp+D0h] [rbp-40h] BYREF
int v57; // [rsp+D4h] [rbp-3Ch] BYREF
unsigned __int8 *v58; // [rsp+D8h] [rbp-38h] BYREF
char *v59; // [rsp+E0h] [rbp-30h] BYREF
i = -3;
if ( a3 >= 2 )
{
v12 = httpparse_url_parse(*(unsigned __int8 **)(a2 + 8), (int *)&v56, &v57, &v58, &v59, &v53);
if ( v12 )
{
i = v12;
v17 = *(_QWORD *)(a2 + 8);
v18 = aFailedToParseU;
LABEL_4:
svc_shell_print(a1, 1u, (long long)v18, v17, v13, v14, a4, a5, a6, a7, v15, v16, a10, a11, v47);
return i;
}
v20 = v59;
if ( v59 )
{
v21 = strrchr(v59, 47LL);
if ( v21 && *(_BYTE *)(v21 + 1) )
v20 = (char *)(v21 + 1);
}
else
{
v20 = aIndexHtml;
}
v22 = fopen(v20, aWb);
if ( !v22 )
{
svc_shell_print(a1, 1u, (long long)aFailedToOpenFi, (long long)v20, v23, v24, a4, a5, a6, a7, v25, v26, a10, a11, v47);
return (unsigned int)-1;
}
v27 = v22;
v52 = 0LL;
v50[0] = 2;
v50[1] = __ROL2__(v57, 8);
if ( (unsigned int)resolve_hostname(v58, &v55) )
{
svc_shell_print(a1, 1u, (long long)aHttpResolvingS, (long long)v58, v28, v29, a4, a5, a6, a7, v30, v31, a10, a11, v47);
fclose(v27);
return (unsigned int)-9;
}
v51 = v55;
httpclient_init(v48, 0LL);
httpclient_set_hostname(v48, v58);
v32 = httpclient_connect(v48, v50, v56);
if ( v32 )
{
i = v32;
svc_shell_print(a1, 1u, (long long)aFailedToConnec, v33, v34, v35, a4, a5, a6, a7, v36, v37, a10, a11, v47);
}
else
{
v38 = httpclient_get(v48, v59, v53);
if ( v38 < 0 )
{
i = v38;
svc_shell_print(a1, 1u, (long long)aGetSFailed, (long long)v59, v39, v40, a4, a5, a6, a7, v41, v42, a10, a11, v47);
}
else
{
v43 = httpclient_read_response_ex(v48, 5000LL, &v49);
i = v43;
if ( v43 >= 0 )
{
if ( v49 - 200 >= 0x64 )
svc_shell_print(
a1,
1u,
(long long)aFailedToReadRe,
v49,
(unsigned int)v43,
v44,
a4,
a5,
a6,
a7,
v45,
v46,
a10,
a11,
v47);
for ( i = httpclient_read_next_ex(v48, 5000LL, &v54); (int)i > 0; i = httpclient_read_next_ex(
v48,
5000LL,
&v54) )
fwrite(v54, 1LL, i, v27);
fclose(v27);
httpclient_close(v48);
v18 = aDownloadComple;
v17 = (long long)v20;
goto LABEL_4;
}
svc_shell_print(
a1,
1u,
(long long)aFailedToReadRe,
v49,
(unsigned int)v43,
v44,
a4,
a5,
a6,
a7,
v45,
v46,
a10,
a11,
v47);
}
}
fclose(v27);
httpclient_close(v48);
}
return i;
}
| qshell_wget:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0xe8
MOV R12D,0xfffffffd
CMP EDX,0x2
JL 0x0011f933
MOV R14,RSI
MOV RBX,RDI
MOV RDI,qword ptr [RSI + 0x8]
LEA RSI,[RBP + -0x40]
LEA RDX,[RBP + -0x3c]
LEA RCX,[RBP + -0x38]
LEA R8,[RBP + -0x30]
LEA R9,[RBP + -0x58]
CALL 0x0011ece3
TEST EAX,EAX
JZ 0x0011f948
MOV R12D,EAX
MOV RCX,qword ptr [R14 + 0x8]
LEA RDX,[0x1331c0]
MOV RDI,RBX
MOV ESI,0x1
LAB_0011f92c:
XOR EAX,EAX
CALL 0x00117c60
LAB_0011f933:
MOV EAX,R12D
ADD RSP,0xe8
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
LAB_0011f948:
MOV R15,qword ptr [RBP + -0x30]
TEST R15,R15
JZ 0x0011f971
MOV RDI,R15
MOV ESI,0x2f
CALL 0x00106230
TEST RAX,RAX
JZ 0x0011f978
CMP byte ptr [RAX + 0x1],0x0
JZ 0x0011f978
INC RAX
MOV R15,RAX
JMP 0x0011f978
LAB_0011f971:
LEA R15,[0x1331d9]
LAB_0011f978:
LEA RSI,[0x1331e4]
MOV RDI,R15
CALL 0x00106490
TEST RAX,RAX
JZ 0x0011f9e7
MOV R14,RAX
MOV qword ptr [RBP + -0x60],0x0
MOV word ptr [RBP + -0x68],0x2
MOVZX EAX,word ptr [RBP + -0x3c]
ROL AX,0x8
MOV word ptr [RBP + -0x66],AX
MOV RDI,qword ptr [RBP + -0x38]
LEA RSI,[RBP + -0x44]
CALL 0x0011fb99
TEST EAX,EAX
JZ 0x0011fa0b
MOV RCX,qword ptr [RBP + -0x38]
LEA RDX,[0x133200]
MOV RDI,RBX
MOV ESI,0x1
XOR EAX,EAX
CALL 0x00117c60
MOV RDI,R14
CALL 0x00106160
MOV R12D,0xfffffff7
JMP 0x0011f933
LAB_0011f9e7:
LEA RDX,[0x1331e7]
MOV RDI,RBX
MOV ESI,0x1
MOV RCX,R15
XOR EAX,EAX
CALL 0x00117c60
MOV R12D,0xffffffff
JMP 0x0011f933
LAB_0011fa0b:
MOV EAX,dword ptr [RBP + -0x44]
LEA R12,[RBP + -0x68]
MOV dword ptr [R12 + 0x4],EAX
LEA R13,[RBP + -0x108]
MOV RDI,R13
XOR ESI,ESI
CALL 0x0011fc04
MOV RSI,qword ptr [RBP + -0x38]
MOV RDI,R13
CALL 0x0011fd0f
MOV EDX,dword ptr [RBP + -0x40]
MOV RDI,R13
MOV RSI,R12
CALL 0x0011fc31
TEST EAX,EAX
JZ 0x0011fa78
MOV R12D,EAX
LEA RDX,[0x133220]
MOV RDI,RBX
MOV ESI,0x1
XOR EAX,EAX
CALL 0x00117c60
LAB_0011fa5f:
MOV RDI,R14
CALL 0x00106160
LEA RDI,[RBP + -0x108]
CALL 0x0011fdaa
JMP 0x0011f933
LAB_0011fa78:
MOV RSI,qword ptr [RBP + -0x30]
MOV RDX,qword ptr [RBP + -0x58]
LEA RDI,[RBP + -0x108]
CALL 0x0011fdd7
TEST EAX,EAX
JS 0x0011fb59
LEA RDI,[RBP + -0x108]
LEA R13,[RBP + -0x6c]
MOV ESI,0x1388
MOV RDX,R13
CALL 0x00120907
MOV R12D,EAX
MOV ECX,dword ptr [R13]
TEST EAX,EAX
JS 0x0011fb7b
LEA EAX,[RCX + -0xc8]
CMP EAX,0x64
JC 0x0011fadf
LEA RDX,[0x13324c]
MOV RDI,RBX
MOV ESI,0x1
MOV R8D,R12D
XOR EAX,EAX
CALL 0x00117c60
LAB_0011fadf:
LEA RDI,[RBP + -0x108]
LEA RDX,[RBP + -0x50]
MOV ESI,0x1388
CALL 0x00120b77
MOV R12D,EAX
TEST EAX,EAX
JLE 0x0011fb2e
LEA R13,[RBP + -0x50]
LAB_0011faff:
MOV RDI,qword ptr [RBP + -0x50]
MOV EDX,R12D
MOV ESI,0x1
MOV RCX,R14
CALL 0x00106510
LEA RDI,[RBP + -0x108]
MOV ESI,0x1388
MOV RDX,R13
CALL 0x00120b77
MOV R12D,EAX
TEST EAX,EAX
JG 0x0011faff
LAB_0011fb2e:
MOV RDI,R14
CALL 0x00106160
LEA RDI,[RBP + -0x108]
CALL 0x0011fdaa
LEA RDX,[0x133279]
MOV RDI,RBX
MOV ESI,0x1
MOV RCX,R15
JMP 0x0011f92c
LAB_0011fb59:
MOV R12D,EAX
MOV RCX,qword ptr [RBP + -0x30]
LEA RDX,[0x13323d]
MOV RDI,RBX
MOV ESI,0x1
XOR EAX,EAX
CALL 0x00117c60
JMP 0x0011fa5f
LAB_0011fb7b:
LEA RDX,[0x13324c]
MOV RDI,RBX
MOV ESI,0x1
MOV R8D,R12D
XOR EAX,EAX
CALL 0x00117c60
JMP 0x0011fa5f
|
ulong qshell_wget(int8 param_1,long param_2,int param_3)
{
uint uVar1;
int iVar2;
char *__filename;
FILE *__s;
char *pcVar3;
ulong __n;
int1 local_110 [156];
int local_74;
int2 local_70;
ushort local_6e;
int4 local_6c;
int8 local_68;
int8 local_60;
void *local_58;
int4 local_4c;
int4 local_48;
ushort local_44 [2];
int8 local_40;
char *local_38;
if (param_3 < 2) {
return 0xfffffffd;
}
uVar1 = httpparse_url_parse(*(int8 *)(param_2 + 8),&local_48,local_44,&local_40,&local_38,
&local_60);
__filename = local_38;
if (uVar1 == 0) {
if (local_38 == (char *)0x0) {
__filename = s_index_html_001331d9;
}
else {
pcVar3 = strrchr(local_38,0x2f);
if ((pcVar3 != (char *)0x0) && (pcVar3[1] != '\0')) {
__filename = pcVar3 + 1;
}
}
__s = fopen(__filename,&DAT_001331e4);
if (__s == (FILE *)0x0) {
svc_shell_print(param_1,1,s_Failed_to_open_file___s_001331e7,__filename);
return 0xffffffff;
}
local_68 = 0;
local_70 = 2;
local_6e = local_44[0] << 8 | local_44[0] >> 8;
iVar2 = resolve_hostname(local_40,&local_4c);
if (iVar2 != 0) {
svc_shell_print(param_1,1,s_HTTP_____resolving__s_failed__00133200,local_40);
fclose(__s);
return 0xfffffff7;
}
local_6c = local_4c;
httpclient_init(local_110,0);
httpclient_set_hostname(local_110,local_40);
uVar1 = httpclient_connect(local_110,&local_70,local_48);
if (uVar1 == 0) {
uVar1 = httpclient_get(local_110,local_38,local_60);
if ((int)uVar1 < 0) {
__n = (ulong)uVar1;
svc_shell_print(param_1,1,s_GET__s_failed_0013323d,local_38);
}
else {
uVar1 = httpclient_read_response_ex(local_110,5000,&local_74);
__n = (ulong)uVar1;
if (-1 < (int)uVar1) {
if (99 < local_74 - 200U) {
svc_shell_print(param_1,1,s_Failed_to_read_response_status___0013324c,local_74,__n);
}
uVar1 = httpclient_read_next_ex(local_110,5000,&local_58);
__n = (ulong)uVar1;
if (0 < (int)uVar1) {
do {
fwrite(local_58,1,__n,__s);
uVar1 = httpclient_read_next_ex(local_110,5000,&local_58);
__n = (ulong)uVar1;
} while (0 < (int)uVar1);
}
fclose(__s);
httpclient_close(local_110);
pcVar3 = s_Download_complete___s_00133279;
goto LAB_0011f92c;
}
svc_shell_print(param_1,1,s_Failed_to_read_response_status___0013324c,local_74,__n);
}
}
else {
__n = (ulong)uVar1;
svc_shell_print(param_1,1,s_Failed_to_connect_to_server_00133220);
}
fclose(__s);
httpclient_close(local_110);
}
else {
__n = (ulong)uVar1;
__filename = *(char **)(param_2 + 8);
pcVar3 = s_Failed_to_parse_URL___s_001331c0;
LAB_0011f92c:
svc_shell_print(param_1,1,pcVar3,__filename);
}
return __n;
}
|
|
4,475 | my_strxfrm_pad_desc_and_reverse_nopad | eloqsql/strings/ctype-simple.c | size_t
my_strxfrm_pad_desc_and_reverse_nopad(CHARSET_INFO *cs,
uchar *str, uchar *frmend, uchar *strend,
uint nweights, uint flags, uint level)
{
if (nweights && frmend < strend && (flags & MY_STRXFRM_PAD_WITH_SPACE))
{
uint fill_length= MY_MIN((uint) (strend - frmend), nweights * cs->mbminlen);
memset(frmend, 0x00, fill_length);
frmend+= fill_length;
}
my_strxfrm_desc_and_reverse(str, frmend, flags, level);
if ((flags & MY_STRXFRM_PAD_TO_MAXLEN) && frmend < strend)
{
size_t fill_length= strend - frmend;
memset(frmend, 0x00, fill_length);
frmend= strend;
}
return frmend - str;
} | O0 | c | my_strxfrm_pad_desc_and_reverse_nopad:
pushq %rbp
movq %rsp, %rbp
subq $0x40, %rsp
movl 0x10(%rbp), %eax
movq %rdi, -0x8(%rbp)
movq %rsi, -0x10(%rbp)
movq %rdx, -0x18(%rbp)
movq %rcx, -0x20(%rbp)
movl %r8d, -0x24(%rbp)
movl %r9d, -0x28(%rbp)
cmpl $0x0, -0x24(%rbp)
je 0x4b7c2
movq -0x18(%rbp), %rax
cmpq -0x20(%rbp), %rax
jae 0x4b7c2
movl -0x28(%rbp), %eax
andl $0x40, %eax
cmpl $0x0, %eax
je 0x4b7c2
movq -0x20(%rbp), %rax
movq -0x18(%rbp), %rcx
subq %rcx, %rax
movl -0x24(%rbp), %ecx
movq -0x8(%rbp), %rdx
imull 0x98(%rdx), %ecx
cmpl %ecx, %eax
jae 0x4b78b
movq -0x20(%rbp), %rax
movq -0x18(%rbp), %rcx
subq %rcx, %rax
movl %eax, -0x3c(%rbp)
jmp 0x4b79c
movl -0x24(%rbp), %eax
movq -0x8(%rbp), %rcx
imull 0x98(%rcx), %eax
movl %eax, -0x3c(%rbp)
movl -0x3c(%rbp), %eax
movl %eax, -0x2c(%rbp)
movq -0x18(%rbp), %rdi
movl -0x2c(%rbp), %eax
movl %eax, %edx
xorl %esi, %esi
callq 0x25190
movl -0x2c(%rbp), %ecx
movq -0x18(%rbp), %rax
movl %ecx, %ecx
addq %rcx, %rax
movq %rax, -0x18(%rbp)
movq -0x10(%rbp), %rdi
movq -0x18(%rbp), %rsi
movl -0x28(%rbp), %edx
movl 0x10(%rbp), %ecx
callq 0x4e9c0
movl -0x28(%rbp), %eax
andl $0x80, %eax
cmpl $0x0, %eax
je 0x4b812
movq -0x18(%rbp), %rax
cmpq -0x20(%rbp), %rax
jae 0x4b812
movq -0x20(%rbp), %rax
movq -0x18(%rbp), %rcx
subq %rcx, %rax
movq %rax, -0x38(%rbp)
movq -0x18(%rbp), %rdi
movq -0x38(%rbp), %rdx
xorl %esi, %esi
callq 0x25190
movq -0x20(%rbp), %rax
movq %rax, -0x18(%rbp)
movq -0x18(%rbp), %rax
movq -0x10(%rbp), %rcx
subq %rcx, %rax
addq $0x40, %rsp
popq %rbp
retq
nopw %cs:(%rax,%rax)
| my_strxfrm_pad_desc_and_reverse_nopad:
push rbp
mov rbp, rsp
sub rsp, 40h
mov eax, [rbp+arg_0]
mov [rbp+var_8], rdi
mov [rbp+var_10], rsi
mov [rbp+var_18], rdx
mov [rbp+var_20], rcx
mov [rbp+var_24], r8d
mov [rbp+var_28], r9d
cmp [rbp+var_24], 0
jz short loc_4B7C2
mov rax, [rbp+var_18]
cmp rax, [rbp+var_20]
jnb short loc_4B7C2
mov eax, [rbp+var_28]
and eax, 40h
cmp eax, 0
jz short loc_4B7C2
mov rax, [rbp+var_20]
mov rcx, [rbp+var_18]
sub rax, rcx
mov ecx, [rbp+var_24]
mov rdx, [rbp+var_8]
imul ecx, [rdx+98h]
cmp eax, ecx
jnb short loc_4B78B
mov rax, [rbp+var_20]
mov rcx, [rbp+var_18]
sub rax, rcx
mov [rbp+var_3C], eax
jmp short loc_4B79C
loc_4B78B:
mov eax, [rbp+var_24]
mov rcx, [rbp+var_8]
imul eax, [rcx+98h]
mov [rbp+var_3C], eax
loc_4B79C:
mov eax, [rbp+var_3C]
mov [rbp+var_2C], eax
mov rdi, [rbp+var_18]
mov eax, [rbp+var_2C]
mov edx, eax
xor esi, esi
call _memset
mov ecx, [rbp+var_2C]
mov rax, [rbp+var_18]
mov ecx, ecx
add rax, rcx
mov [rbp+var_18], rax
loc_4B7C2:
mov rdi, [rbp+var_10]
mov rsi, [rbp+var_18]
mov edx, [rbp+var_28]
mov ecx, [rbp+arg_0]
call my_strxfrm_desc_and_reverse
mov eax, [rbp+var_28]
and eax, 80h
cmp eax, 0
jz short loc_4B812
mov rax, [rbp+var_18]
cmp rax, [rbp+var_20]
jnb short loc_4B812
mov rax, [rbp+var_20]
mov rcx, [rbp+var_18]
sub rax, rcx
mov [rbp+var_38], rax
mov rdi, [rbp+var_18]
mov rdx, [rbp+var_38]
xor esi, esi
call _memset
mov rax, [rbp+var_20]
mov [rbp+var_18], rax
loc_4B812:
mov rax, [rbp+var_18]
mov rcx, [rbp+var_10]
sub rax, rcx
add rsp, 40h
pop rbp
retn
| long long my_strxfrm_pad_desc_and_reverse_nopad(
long long a1,
long long a2,
unsigned long long a3,
unsigned long long a4,
int a5,
unsigned int a6,
unsigned int a7)
{
unsigned int v8; // [rsp+4h] [rbp-3Ch]
unsigned long long v11; // [rsp+28h] [rbp-18h]
v11 = a3;
if ( a5 && a3 < a4 && (a6 & 0x40) != 0 )
{
if ( (int)a4 - (int)a3 >= (unsigned int)(*(_DWORD *)(a1 + 152) * a5) )
v8 = *(_DWORD *)(a1 + 152) * a5;
else
v8 = a4 - a3;
memset(a3, 0LL, v8);
v11 += v8;
}
my_strxfrm_desc_and_reverse(a2, v11, a6, a7);
if ( (a6 & 0x80) != 0 && v11 < a4 )
{
memset(v11, 0LL, a4 - v11);
v11 = a4;
}
return v11 - a2;
}
| my_strxfrm_pad_desc_and_reverse_nopad:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x40
MOV EAX,dword ptr [RBP + 0x10]
MOV qword ptr [RBP + -0x8],RDI
MOV qword ptr [RBP + -0x10],RSI
MOV qword ptr [RBP + -0x18],RDX
MOV qword ptr [RBP + -0x20],RCX
MOV dword ptr [RBP + -0x24],R8D
MOV dword ptr [RBP + -0x28],R9D
CMP dword ptr [RBP + -0x24],0x0
JZ 0x0014b7c2
MOV RAX,qword ptr [RBP + -0x18]
CMP RAX,qword ptr [RBP + -0x20]
JNC 0x0014b7c2
MOV EAX,dword ptr [RBP + -0x28]
AND EAX,0x40
CMP EAX,0x0
JZ 0x0014b7c2
MOV RAX,qword ptr [RBP + -0x20]
MOV RCX,qword ptr [RBP + -0x18]
SUB RAX,RCX
MOV ECX,dword ptr [RBP + -0x24]
MOV RDX,qword ptr [RBP + -0x8]
IMUL ECX,dword ptr [RDX + 0x98]
CMP EAX,ECX
JNC 0x0014b78b
MOV RAX,qword ptr [RBP + -0x20]
MOV RCX,qword ptr [RBP + -0x18]
SUB RAX,RCX
MOV dword ptr [RBP + -0x3c],EAX
JMP 0x0014b79c
LAB_0014b78b:
MOV EAX,dword ptr [RBP + -0x24]
MOV RCX,qword ptr [RBP + -0x8]
IMUL EAX,dword ptr [RCX + 0x98]
MOV dword ptr [RBP + -0x3c],EAX
LAB_0014b79c:
MOV EAX,dword ptr [RBP + -0x3c]
MOV dword ptr [RBP + -0x2c],EAX
MOV RDI,qword ptr [RBP + -0x18]
MOV EAX,dword ptr [RBP + -0x2c]
MOV EDX,EAX
XOR ESI,ESI
CALL 0x00125190
MOV ECX,dword ptr [RBP + -0x2c]
MOV RAX,qword ptr [RBP + -0x18]
MOV ECX,ECX
ADD RAX,RCX
MOV qword ptr [RBP + -0x18],RAX
LAB_0014b7c2:
MOV RDI,qword ptr [RBP + -0x10]
MOV RSI,qword ptr [RBP + -0x18]
MOV EDX,dword ptr [RBP + -0x28]
MOV ECX,dword ptr [RBP + 0x10]
CALL 0x0014e9c0
MOV EAX,dword ptr [RBP + -0x28]
AND EAX,0x80
CMP EAX,0x0
JZ 0x0014b812
MOV RAX,qword ptr [RBP + -0x18]
CMP RAX,qword ptr [RBP + -0x20]
JNC 0x0014b812
MOV RAX,qword ptr [RBP + -0x20]
MOV RCX,qword ptr [RBP + -0x18]
SUB RAX,RCX
MOV qword ptr [RBP + -0x38],RAX
MOV RDI,qword ptr [RBP + -0x18]
MOV RDX,qword ptr [RBP + -0x38]
XOR ESI,ESI
CALL 0x00125190
MOV RAX,qword ptr [RBP + -0x20]
MOV qword ptr [RBP + -0x18],RAX
LAB_0014b812:
MOV RAX,qword ptr [RBP + -0x18]
MOV RCX,qword ptr [RBP + -0x10]
SUB RAX,RCX
ADD RSP,0x40
POP RBP
RET
|
long my_strxfrm_pad_desc_and_reverse_nopad
(long param_1,long param_2,void *param_3,void *param_4,int param_5,uint param_6,
int4 param_7)
{
int4 local_44;
int8 local_20;
local_20 = param_3;
if (((param_5 != 0) && (param_3 < param_4)) && ((param_6 & 0x40) != 0)) {
if ((uint)((int)param_4 - (int)param_3) < (uint)(param_5 * *(int *)(param_1 + 0x98))) {
local_44 = (int)param_4 - (int)param_3;
}
else {
local_44 = param_5 * *(int *)(param_1 + 0x98);
}
memset(param_3,0,(ulong)local_44);
local_20 = (void *)((long)param_3 + (ulong)local_44);
}
my_strxfrm_desc_and_reverse(param_2,local_20,param_6,param_7);
if (((param_6 & 0x80) != 0) && (local_20 < param_4)) {
memset(local_20,0,(long)param_4 - (long)local_20);
local_20 = param_4;
}
return (long)local_20 - param_2;
}
|
|
4,476 | my_strxfrm_pad_desc_and_reverse_nopad | eloqsql/strings/ctype-simple.c | size_t
my_strxfrm_pad_desc_and_reverse_nopad(CHARSET_INFO *cs,
uchar *str, uchar *frmend, uchar *strend,
uint nweights, uint flags, uint level)
{
if (nweights && frmend < strend && (flags & MY_STRXFRM_PAD_WITH_SPACE))
{
uint fill_length= MY_MIN((uint) (strend - frmend), nweights * cs->mbminlen);
memset(frmend, 0x00, fill_length);
frmend+= fill_length;
}
my_strxfrm_desc_and_reverse(str, frmend, flags, level);
if ((flags & MY_STRXFRM_PAD_TO_MAXLEN) && frmend < strend)
{
size_t fill_length= strend - frmend;
memset(frmend, 0x00, fill_length);
frmend= strend;
}
return frmend - str;
} | O3 | c | my_strxfrm_pad_desc_and_reverse_nopad:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
pushq %rax
movl %r9d, %r12d
movq %rcx, %r15
movq %rdx, %r14
movq %rsi, %rbx
movl 0x10(%rbp), %ecx
testl %r8d, %r8d
sete %al
cmpq %r15, %rdx
setae %sil
testb $0x40, %r12b
sete %dl
orb %al, %dl
orb %sil, %dl
jne 0x3d011
movl %r8d, %r13d
movl %r15d, %eax
imull 0x98(%rdi), %r13d
subl %r14d, %eax
cmpl %eax, %r13d
cmovael %eax, %r13d
movq %r14, %rdi
xorl %esi, %esi
movq %r13, %rdx
callq 0x24190
movl 0x10(%rbp), %ecx
addq %r13, %r14
movq %rbx, %rdi
movq %r14, %rsi
movl %r12d, %edx
callq 0x3e852
testb %r12b, %r12b
jns 0x3d03c
cmpq %r15, %r14
jae 0x3d03c
movq %r15, %rdx
subq %r14, %rdx
movq %r14, %rdi
xorl %esi, %esi
callq 0x24190
movq %r15, %r14
subq %rbx, %r14
movq %r14, %rax
addq $0x8, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
| my_strxfrm_pad_desc_and_reverse_nopad:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
push rax
mov r12d, r9d
mov r15, rcx
mov r14, rdx
mov rbx, rsi
mov ecx, [rbp+arg_0]
test r8d, r8d
setz al
cmp rdx, r15
setnb sil
test r12b, 40h
setz dl
or dl, al
or dl, sil
jnz short loc_3D011
mov r13d, r8d
mov eax, r15d
imul r13d, [rdi+98h]
sub eax, r14d
cmp r13d, eax
cmovnb r13d, eax
mov rdi, r14
xor esi, esi
mov rdx, r13
call _memset
mov ecx, [rbp+arg_0]
add r14, r13
loc_3D011:
mov rdi, rbx
mov rsi, r14
mov edx, r12d
call my_strxfrm_desc_and_reverse
test r12b, r12b
jns short loc_3D03C
cmp r14, r15
jnb short loc_3D03C
mov rdx, r15
sub rdx, r14
mov rdi, r14
xor esi, esi
call _memset
mov r14, r15
loc_3D03C:
sub r14, rbx
mov rax, r14
add rsp, 8
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
| long long my_strxfrm_pad_desc_and_reverse_nopad(
long long a1,
long long a2,
unsigned long long a3,
unsigned long long a4,
int a5,
unsigned int a6,
unsigned int a7)
{
unsigned long long v9; // r14
long long v10; // rcx
long long v11; // r13
v9 = a3;
v10 = a7;
if ( a3 < a4 && a5 != 0 && (a6 & 0x40) != 0 )
{
v11 = (unsigned int)(*(_DWORD *)(a1 + 152) * a5);
if ( (unsigned int)v11 >= (int)a4 - (int)a3 )
v11 = (unsigned int)(a4 - a3);
memset(a3, 0LL, v11);
v10 = a7;
v9 += v11;
}
my_strxfrm_desc_and_reverse(a2, v9, a6, v10);
if ( (a6 & 0x80u) != 0 && v9 < a4 )
{
memset(v9, 0LL, a4 - v9);
v9 = a4;
}
return v9 - a2;
}
| my_strxfrm_pad_desc_and_reverse_nopad:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
PUSH RAX
MOV R12D,R9D
MOV R15,RCX
MOV R14,RDX
MOV RBX,RSI
MOV ECX,dword ptr [RBP + 0x10]
TEST R8D,R8D
SETZ AL
CMP RDX,R15
SETNC SIL
TEST R12B,0x40
SETZ DL
OR DL,AL
OR DL,SIL
JNZ 0x0013d011
MOV R13D,R8D
MOV EAX,R15D
IMUL R13D,dword ptr [RDI + 0x98]
SUB EAX,R14D
CMP R13D,EAX
CMOVNC R13D,EAX
MOV RDI,R14
XOR ESI,ESI
MOV RDX,R13
CALL 0x00124190
MOV ECX,dword ptr [RBP + 0x10]
ADD R14,R13
LAB_0013d011:
MOV RDI,RBX
MOV RSI,R14
MOV EDX,R12D
CALL 0x0013e852
TEST R12B,R12B
JNS 0x0013d03c
CMP R14,R15
JNC 0x0013d03c
MOV RDX,R15
SUB RDX,R14
MOV RDI,R14
XOR ESI,ESI
CALL 0x00124190
MOV R14,R15
LAB_0013d03c:
SUB R14,RBX
MOV RAX,R14
ADD RSP,0x8
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
|
long my_strxfrm_pad_desc_and_reverse_nopad
(long param_1,long param_2,void *param_3,void *param_4,int param_5,uint param_6,
int4 param_7)
{
uint uVar1;
uint uVar2;
if (((param_6 & 0x40) != 0 && param_5 != 0) && param_3 < param_4) {
uVar2 = param_5 * *(int *)(param_1 + 0x98);
uVar1 = (int)param_4 - (int)param_3;
if (uVar1 <= uVar2) {
uVar2 = uVar1;
}
memset(param_3,0,(ulong)uVar2);
param_3 = (void *)((long)param_3 + (ulong)uVar2);
}
my_strxfrm_desc_and_reverse(param_2,param_3,param_6,param_7);
if (((char)param_6 < '\0') && (param_3 < param_4)) {
memset(param_3,0,(long)param_4 - (long)param_3);
param_3 = param_4;
}
return (long)param_3 - param_2;
}
|
|
4,477 | my_wildcmp_8bit_impl | eloqsql/strings/ctype-simple.c | static
int my_wildcmp_8bit_impl(CHARSET_INFO *cs,
const char *str,const char *str_end,
const char *wildstr,const char *wildend,
int escape, int w_one, int w_many, int recurse_level)
{
int result= -1; /* Not found, using wildcards */
if (my_string_stack_guard && my_string_stack_guard(recurse_level))
return 1;
while (wildstr != wildend)
{
while (*wildstr != w_many && *wildstr != w_one)
{
if (*wildstr == escape && wildstr+1 != wildend)
wildstr++;
if (str == str_end || likeconv(cs,*wildstr++) != likeconv(cs,*str++))
return(1); /* No match */
if (wildstr == wildend)
return(str != str_end); /* Match if both are at end */
result=1; /* Found an anchor char */
}
if (*wildstr == w_one)
{
do
{
if (str == str_end) /* Skip one char if possible */
return(result);
INC_PTR(cs,str,str_end);
} while (++wildstr < wildend && *wildstr == w_one);
if (wildstr == wildend)
break;
}
if (*wildstr == w_many)
{ /* Found w_many */
uchar cmp;
wildstr++;
/* Remove any '%' and '_' from the wild search string */
for (; wildstr != wildend ; wildstr++)
{
if (*wildstr == w_many)
continue;
if (*wildstr == w_one)
{
if (str == str_end)
return(-1);
INC_PTR(cs,str,str_end);
continue;
}
break; /* Not a wild character */
}
if (wildstr == wildend)
return(0); /* Ok if w_many is last */
if (str == str_end)
return(-1);
if ((cmp= *wildstr) == escape && wildstr+1 != wildend)
cmp= *++wildstr;
INC_PTR(cs,wildstr,wildend); /* This is compared trough cmp */
cmp=likeconv(cs,cmp);
do
{
/*
Find the next character in the subject string equal to 'cmp', then
check recursively my_wildcmp_8bit_impl() for the pattern remainder.
*/
while (str != str_end && (uchar) likeconv(cs,*str) != cmp)
str++;
if (str++ == str_end)
return(-1); /* 'cmp' was not found in the subject string */
{
int tmp=my_wildcmp_8bit_impl(cs,str,str_end,
wildstr,wildend,escape,w_one,
w_many, recurse_level+1);
if (tmp <= 0)
return(tmp);
}
/*
The recursion call did not match. But it returned 1, which means
the pattern remainder has some non-special characters.
Continue, there is a chance that we'll find another 'cmp'
at a different position in the subject string.
*/
} while (str != str_end);
return(-1);
}
}
return(str != str_end ? 1 : 0);
} | O0 | c | my_wildcmp_8bit_impl:
pushq %rbp
movq %rsp, %rbp
subq $0x60, %rsp
movl 0x20(%rbp), %eax
movl 0x18(%rbp), %eax
movl 0x10(%rbp), %eax
movq %rdi, -0x10(%rbp)
movq %rsi, -0x18(%rbp)
movq %rdx, -0x20(%rbp)
movq %rcx, -0x28(%rbp)
movq %r8, -0x30(%rbp)
movl %r9d, -0x34(%rbp)
movl $0xffffffff, -0x38(%rbp) # imm = 0xFFFFFFFF
leaq 0xb67c39(%rip), %rax # 0xc82a50
cmpq $0x0, (%rax)
je 0x11ae3d
leaq 0xb67c2c(%rip), %rax # 0xc82a50
movq (%rax), %rax
movl 0x20(%rbp), %edi
callq *%rax
cmpl $0x0, %eax
je 0x11ae3d
movl $0x1, -0x4(%rbp)
jmp 0x11b16a
jmp 0x11ae3f
movq -0x28(%rbp), %rax
cmpq -0x30(%rbp), %rax
je 0x11b152
jmp 0x11ae4f
movq -0x28(%rbp), %rax
movsbl (%rax), %ecx
xorl %eax, %eax
cmpl 0x18(%rbp), %ecx
movb %al, -0x41(%rbp)
je 0x11ae70
movq -0x28(%rbp), %rax
movsbl (%rax), %eax
cmpl 0x10(%rbp), %eax
setne %al
movb %al, -0x41(%rbp)
movb -0x41(%rbp), %al
testb $0x1, %al
jne 0x11ae7c
jmp 0x11af26
movq -0x28(%rbp), %rax
movsbl (%rax), %eax
cmpl -0x34(%rbp), %eax
jne 0x11aea2
movq -0x28(%rbp), %rax
addq $0x1, %rax
cmpq -0x30(%rbp), %rax
je 0x11aea2
movq -0x28(%rbp), %rax
addq $0x1, %rax
movq %rax, -0x28(%rbp)
movq -0x18(%rbp), %rax
cmpq -0x20(%rbp), %rax
je 0x11aeec
movq -0x10(%rbp), %rax
movq 0x58(%rax), %rax
movq -0x28(%rbp), %rcx
movq %rcx, %rdx
addq $0x1, %rdx
movq %rdx, -0x28(%rbp)
movzbl (%rcx), %ecx
movzbl (%rax,%rcx), %eax
movq -0x10(%rbp), %rcx
movq 0x58(%rcx), %rcx
movq -0x18(%rbp), %rdx
movq %rdx, %rsi
addq $0x1, %rsi
movq %rsi, -0x18(%rbp)
movzbl (%rdx), %edx
movzbl (%rcx,%rdx), %ecx
cmpl %ecx, %eax
je 0x11aef8
movl $0x1, -0x4(%rbp)
jmp 0x11b16a
movq -0x28(%rbp), %rax
cmpq -0x30(%rbp), %rax
jne 0x11af1a
movq -0x18(%rbp), %rax
cmpq -0x20(%rbp), %rax
setne %al
andb $0x1, %al
movzbl %al, %eax
movl %eax, -0x4(%rbp)
jmp 0x11b16a
movl $0x1, -0x38(%rbp)
jmp 0x11ae4f
movq -0x28(%rbp), %rax
movsbl (%rax), %eax
cmpl 0x10(%rbp), %eax
jne 0x11af94
jmp 0x11af34
movq -0x18(%rbp), %rax
cmpq -0x20(%rbp), %rax
jne 0x11af49
movl -0x38(%rbp), %eax
movl %eax, -0x4(%rbp)
jmp 0x11b16a
movq -0x18(%rbp), %rax
addq $0x1, %rax
movq %rax, -0x18(%rbp)
movq -0x28(%rbp), %rcx
addq $0x1, %rcx
movq %rcx, -0x28(%rbp)
xorl %eax, %eax
cmpq -0x30(%rbp), %rcx
movb %al, -0x42(%rbp)
jae 0x11af7c
movq -0x28(%rbp), %rax
movsbl (%rax), %eax
cmpl 0x10(%rbp), %eax
sete %al
movb %al, -0x42(%rbp)
movb -0x42(%rbp), %al
testb $0x1, %al
jne 0x11af34
movq -0x28(%rbp), %rax
cmpq -0x30(%rbp), %rax
jne 0x11af92
jmp 0x11b152
jmp 0x11af94
movq -0x28(%rbp), %rax
movsbl (%rax), %eax
cmpl 0x18(%rbp), %eax
jne 0x11b14d
movq -0x28(%rbp), %rax
addq $0x1, %rax
movq %rax, -0x28(%rbp)
movq -0x28(%rbp), %rax
cmpq -0x30(%rbp), %rax
je 0x11b008
movq -0x28(%rbp), %rax
movsbl (%rax), %eax
cmpl 0x18(%rbp), %eax
jne 0x11afc8
jmp 0x11affa
movq -0x28(%rbp), %rax
movsbl (%rax), %eax
cmpl 0x10(%rbp), %eax
jne 0x11aff8
movq -0x18(%rbp), %rax
cmpq -0x20(%rbp), %rax
jne 0x11afea
movl $0xffffffff, -0x4(%rbp) # imm = 0xFFFFFFFF
jmp 0x11b16a
movq -0x18(%rbp), %rax
addq $0x1, %rax
movq %rax, -0x18(%rbp)
jmp 0x11affa
jmp 0x11b008
movq -0x28(%rbp), %rax
addq $0x1, %rax
movq %rax, -0x28(%rbp)
jmp 0x11afb0
movq -0x28(%rbp), %rax
cmpq -0x30(%rbp), %rax
jne 0x11b01e
movl $0x0, -0x4(%rbp)
jmp 0x11b16a
movq -0x18(%rbp), %rax
cmpq -0x20(%rbp), %rax
jne 0x11b034
movl $0xffffffff, -0x4(%rbp) # imm = 0xFFFFFFFF
jmp 0x11b16a
movq -0x28(%rbp), %rax
movb (%rax), %al
movb %al, -0x39(%rbp)
movzbl %al, %eax
cmpl -0x34(%rbp), %eax
jne 0x11b068
movq -0x28(%rbp), %rax
addq $0x1, %rax
cmpq -0x30(%rbp), %rax
je 0x11b068
movq -0x28(%rbp), %rax
movq %rax, %rcx
addq $0x1, %rcx
movq %rcx, -0x28(%rbp)
movb 0x1(%rax), %al
movb %al, -0x39(%rbp)
movq -0x28(%rbp), %rax
addq $0x1, %rax
movq %rax, -0x28(%rbp)
movq -0x10(%rbp), %rax
movq 0x58(%rax), %rax
movzbl -0x39(%rbp), %ecx
movb (%rax,%rcx), %al
movb %al, -0x39(%rbp)
jmp 0x11b088
movq -0x18(%rbp), %rcx
xorl %eax, %eax
cmpq -0x20(%rbp), %rcx
movb %al, -0x43(%rbp)
je 0x11b0b6
movq -0x10(%rbp), %rax
movq 0x58(%rax), %rax
movq -0x18(%rbp), %rcx
movzbl (%rcx), %ecx
movzbl (%rax,%rcx), %eax
movzbl -0x39(%rbp), %ecx
cmpl %ecx, %eax
setne %al
movb %al, -0x43(%rbp)
movb -0x43(%rbp), %al
testb $0x1, %al
jne 0x11b0bf
jmp 0x11b0cd
movq -0x18(%rbp), %rax
addq $0x1, %rax
movq %rax, -0x18(%rbp)
jmp 0x11b088
movq -0x18(%rbp), %rax
movq %rax, %rcx
addq $0x1, %rcx
movq %rcx, -0x18(%rbp)
cmpq -0x20(%rbp), %rax
jne 0x11b0eb
movl $0xffffffff, -0x4(%rbp) # imm = 0xFFFFFFFF
jmp 0x11b16a
movq -0x10(%rbp), %rdi
movq -0x18(%rbp), %rsi
movq -0x20(%rbp), %rdx
movq -0x28(%rbp), %rcx
movq -0x30(%rbp), %r8
movl -0x34(%rbp), %r9d
movl 0x10(%rbp), %r11d
movl 0x18(%rbp), %r10d
movl 0x20(%rbp), %eax
addl $0x1, %eax
movl %r11d, (%rsp)
movl %r10d, 0x8(%rsp)
movl %eax, 0x10(%rsp)
callq 0x11ade0
movl %eax, -0x40(%rbp)
cmpl $0x0, -0x40(%rbp)
jg 0x11b134
movl -0x40(%rbp), %eax
movl %eax, -0x4(%rbp)
jmp 0x11b16a
jmp 0x11b136
movq -0x18(%rbp), %rax
cmpq -0x20(%rbp), %rax
jne 0x11b086
movl $0xffffffff, -0x4(%rbp) # imm = 0xFFFFFFFF
jmp 0x11b16a
jmp 0x11ae3f
movq -0x18(%rbp), %rdx
movq -0x20(%rbp), %rsi
xorl %eax, %eax
movl $0x1, %ecx
cmpq %rsi, %rdx
cmovnel %ecx, %eax
movl %eax, -0x4(%rbp)
movl -0x4(%rbp), %eax
addq $0x60, %rsp
popq %rbp
retq
nopw %cs:(%rax,%rax)
| my_wildcmp_8bit_impl:
push rbp
mov rbp, rsp
sub rsp, 60h
mov eax, [rbp+arg_10]
mov eax, [rbp+arg_8]
mov eax, [rbp+arg_0]
mov [rbp+var_10], rdi
mov [rbp+var_18], rsi
mov [rbp+var_20], rdx
mov [rbp+var_28], rcx
mov [rbp+var_30], r8
mov [rbp+var_34], r9d
mov [rbp+var_38], 0FFFFFFFFh
lea rax, my_string_stack_guard
cmp qword ptr [rax], 0
jz short loc_11AE3D
lea rax, my_string_stack_guard
mov rax, [rax]
mov edi, [rbp+arg_10]
call rax
cmp eax, 0
jz short loc_11AE3D
mov [rbp+var_4], 1
jmp loc_11B16A
loc_11AE3D:
jmp short $+2
loc_11AE3F:
mov rax, [rbp+var_28]
cmp rax, [rbp+var_30]
jz loc_11B152
jmp short $+2
loc_11AE4F:
mov rax, [rbp+var_28]
movsx ecx, byte ptr [rax]
xor eax, eax
cmp ecx, [rbp+arg_8]
mov [rbp+var_41], al
jz short loc_11AE70
mov rax, [rbp+var_28]
movsx eax, byte ptr [rax]
cmp eax, [rbp+arg_0]
setnz al
mov [rbp+var_41], al
loc_11AE70:
mov al, [rbp+var_41]
test al, 1
jnz short loc_11AE7C
jmp loc_11AF26
loc_11AE7C:
mov rax, [rbp+var_28]
movsx eax, byte ptr [rax]
cmp eax, [rbp+var_34]
jnz short loc_11AEA2
mov rax, [rbp+var_28]
add rax, 1
cmp rax, [rbp+var_30]
jz short loc_11AEA2
mov rax, [rbp+var_28]
add rax, 1
mov [rbp+var_28], rax
loc_11AEA2:
mov rax, [rbp+var_18]
cmp rax, [rbp+var_20]
jz short loc_11AEEC
mov rax, [rbp+var_10]
mov rax, [rax+58h]
mov rcx, [rbp+var_28]
mov rdx, rcx
add rdx, 1
mov [rbp+var_28], rdx
movzx ecx, byte ptr [rcx]
movzx eax, byte ptr [rax+rcx]
mov rcx, [rbp+var_10]
mov rcx, [rcx+58h]
mov rdx, [rbp+var_18]
mov rsi, rdx
add rsi, 1
mov [rbp+var_18], rsi
movzx edx, byte ptr [rdx]
movzx ecx, byte ptr [rcx+rdx]
cmp eax, ecx
jz short loc_11AEF8
loc_11AEEC:
mov [rbp+var_4], 1
jmp loc_11B16A
loc_11AEF8:
mov rax, [rbp+var_28]
cmp rax, [rbp+var_30]
jnz short loc_11AF1A
mov rax, [rbp+var_18]
cmp rax, [rbp+var_20]
setnz al
and al, 1
movzx eax, al
mov [rbp+var_4], eax
jmp loc_11B16A
loc_11AF1A:
mov [rbp+var_38], 1
jmp loc_11AE4F
loc_11AF26:
mov rax, [rbp+var_28]
movsx eax, byte ptr [rax]
cmp eax, [rbp+arg_0]
jnz short loc_11AF94
jmp short $+2
loc_11AF34:
mov rax, [rbp+var_18]
cmp rax, [rbp+var_20]
jnz short loc_11AF49
mov eax, [rbp+var_38]
mov [rbp+var_4], eax
jmp loc_11B16A
loc_11AF49:
mov rax, [rbp+var_18]
add rax, 1
mov [rbp+var_18], rax
mov rcx, [rbp+var_28]
add rcx, 1
mov [rbp+var_28], rcx
xor eax, eax
cmp rcx, [rbp+var_30]
mov [rbp+var_42], al
jnb short loc_11AF7C
mov rax, [rbp+var_28]
movsx eax, byte ptr [rax]
cmp eax, [rbp+arg_0]
setz al
mov [rbp+var_42], al
loc_11AF7C:
mov al, [rbp+var_42]
test al, 1
jnz short loc_11AF34
mov rax, [rbp+var_28]
cmp rax, [rbp+var_30]
jnz short loc_11AF92
jmp loc_11B152
loc_11AF92:
jmp short $+2
loc_11AF94:
mov rax, [rbp+var_28]
movsx eax, byte ptr [rax]
cmp eax, [rbp+arg_8]
jnz loc_11B14D
mov rax, [rbp+var_28]
add rax, 1
mov [rbp+var_28], rax
loc_11AFB0:
mov rax, [rbp+var_28]
cmp rax, [rbp+var_30]
jz short loc_11B008
mov rax, [rbp+var_28]
movsx eax, byte ptr [rax]
cmp eax, [rbp+arg_8]
jnz short loc_11AFC8
jmp short loc_11AFFA
loc_11AFC8:
mov rax, [rbp+var_28]
movsx eax, byte ptr [rax]
cmp eax, [rbp+arg_0]
jnz short loc_11AFF8
mov rax, [rbp+var_18]
cmp rax, [rbp+var_20]
jnz short loc_11AFEA
mov [rbp+var_4], 0FFFFFFFFh
jmp loc_11B16A
loc_11AFEA:
mov rax, [rbp+var_18]
add rax, 1
mov [rbp+var_18], rax
jmp short loc_11AFFA
loc_11AFF8:
jmp short loc_11B008
loc_11AFFA:
mov rax, [rbp+var_28]
add rax, 1
mov [rbp+var_28], rax
jmp short loc_11AFB0
loc_11B008:
mov rax, [rbp+var_28]
cmp rax, [rbp+var_30]
jnz short loc_11B01E
mov [rbp+var_4], 0
jmp loc_11B16A
loc_11B01E:
mov rax, [rbp+var_18]
cmp rax, [rbp+var_20]
jnz short loc_11B034
mov [rbp+var_4], 0FFFFFFFFh
jmp loc_11B16A
loc_11B034:
mov rax, [rbp+var_28]
mov al, [rax]
mov [rbp+var_39], al
movzx eax, al
cmp eax, [rbp+var_34]
jnz short loc_11B068
mov rax, [rbp+var_28]
add rax, 1
cmp rax, [rbp+var_30]
jz short loc_11B068
mov rax, [rbp+var_28]
mov rcx, rax
add rcx, 1
mov [rbp+var_28], rcx
mov al, [rax+1]
mov [rbp+var_39], al
loc_11B068:
mov rax, [rbp+var_28]
add rax, 1
mov [rbp+var_28], rax
mov rax, [rbp+var_10]
mov rax, [rax+58h]
movzx ecx, [rbp+var_39]
mov al, [rax+rcx]
mov [rbp+var_39], al
loc_11B086:
jmp short $+2
loc_11B088:
mov rcx, [rbp+var_18]
xor eax, eax
cmp rcx, [rbp+var_20]
mov [rbp+var_43], al
jz short loc_11B0B6
mov rax, [rbp+var_10]
mov rax, [rax+58h]
mov rcx, [rbp+var_18]
movzx ecx, byte ptr [rcx]
movzx eax, byte ptr [rax+rcx]
movzx ecx, [rbp+var_39]
cmp eax, ecx
setnz al
mov [rbp+var_43], al
loc_11B0B6:
mov al, [rbp+var_43]
test al, 1
jnz short loc_11B0BF
jmp short loc_11B0CD
loc_11B0BF:
mov rax, [rbp+var_18]
add rax, 1
mov [rbp+var_18], rax
jmp short loc_11B088
loc_11B0CD:
mov rax, [rbp+var_18]
mov rcx, rax
add rcx, 1
mov [rbp+var_18], rcx
cmp rax, [rbp+var_20]
jnz short loc_11B0EB
mov [rbp+var_4], 0FFFFFFFFh
jmp short loc_11B16A
loc_11B0EB:
mov rdi, [rbp+var_10]
mov rsi, [rbp+var_18]
mov rdx, [rbp+var_20]
mov rcx, [rbp+var_28]
mov r8, [rbp+var_30]
mov r9d, [rbp+var_34]
mov r11d, [rbp+arg_0]
mov r10d, [rbp+arg_8]
mov eax, [rbp+arg_10]
add eax, 1
mov [rsp+60h+var_60], r11d
mov [rsp+60h+var_58], r10d
mov [rsp+60h+var_50], eax
call my_wildcmp_8bit_impl
mov [rbp+var_40], eax
cmp [rbp+var_40], 0
jg short loc_11B134
mov eax, [rbp+var_40]
mov [rbp+var_4], eax
jmp short loc_11B16A
loc_11B134:
jmp short $+2
loc_11B136:
mov rax, [rbp+var_18]
cmp rax, [rbp+var_20]
jnz loc_11B086
mov [rbp+var_4], 0FFFFFFFFh
jmp short loc_11B16A
loc_11B14D:
jmp loc_11AE3F
loc_11B152:
mov rdx, [rbp+var_18]
mov rsi, [rbp+var_20]
xor eax, eax
mov ecx, 1
cmp rdx, rsi
cmovnz eax, ecx
mov [rbp+var_4], eax
loc_11B16A:
mov eax, [rbp+var_4]
add rsp, 60h
pop rbp
retn
| long long my_wildcmp_8bit_impl(
long long a1,
unsigned __int8 *a2,
unsigned __int8 *a3,
char *a4,
char *a5,
int a6,
int a7,
int a8,
unsigned int a9)
{
char *v9; // rcx
unsigned __int8 *v10; // rdx
char *v11; // rax
unsigned __int8 *v12; // rax
bool v14; // [rsp+1Dh] [rbp-43h]
bool v15; // [rsp+1Eh] [rbp-42h]
bool v16; // [rsp+1Fh] [rbp-41h]
int v17; // [rsp+20h] [rbp-40h]
unsigned __int8 v18; // [rsp+27h] [rbp-39h]
unsigned __int8 v19; // [rsp+27h] [rbp-39h]
unsigned int v20; // [rsp+28h] [rbp-38h]
char *i; // [rsp+38h] [rbp-28h]
int v25; // [rsp+38h] [rbp-28h]
v20 = -1;
if ( my_string_stack_guard && (unsigned int)my_string_stack_guard(a9) )
{
return 1;
}
else
{
do
{
if ( a4 != a5 )
{
while ( 1 )
{
v16 = 0;
if ( *a4 != a8 )
v16 = *a4 != a7;
if ( !v16 )
break;
if ( *a4 == a6 && a4 + 1 != a5 )
++a4;
if ( a2 == a3 )
return 1;
v9 = a4++;
v10 = a2++;
if ( *(unsigned __int8 *)(*(_QWORD *)(a1 + 88) + (unsigned __int8)*v9) != *(unsigned __int8 *)(*(_QWORD *)(a1 + 88) + *v10) )
return 1;
if ( a4 == a5 )
return a2 != a3;
v20 = 1;
}
if ( *a4 != a7 )
continue;
do
{
if ( a2 == a3 )
return v20;
++a2;
++a4;
v15 = 0;
if ( a4 < a5 )
v15 = *a4 == a7;
}
while ( v15 );
if ( a4 != a5 )
continue;
}
return a2 != a3;
}
while ( *a4 != a8 );
for ( i = a4 + 1; i != a5; ++i )
{
if ( *i != a8 )
{
if ( *i != a7 )
break;
if ( a2 == a3 )
return (unsigned int)-1;
++a2;
}
}
if ( i == a5 )
{
return 0;
}
else if ( a2 == a3 )
{
return (unsigned int)-1;
}
else
{
v18 = *i;
if ( (unsigned __int8)*i == a6 && i + 1 != a5 )
{
v11 = i;
LODWORD(i) = (_DWORD)i + 1;
v18 = v11[1];
}
v25 = (_DWORD)i + 1;
v19 = *(_BYTE *)(*(_QWORD *)(a1 + 88) + v18);
do
{
while ( 1 )
{
v14 = 0;
if ( a2 != a3 )
v14 = *(unsigned __int8 *)(*(_QWORD *)(a1 + 88) + *a2) != v19;
if ( !v14 )
break;
++a2;
}
v12 = a2++;
if ( v12 == a3 )
return (unsigned int)-1;
v17 = my_wildcmp_8bit_impl(a1, (_DWORD)a2, (_DWORD)a3, v25, (_DWORD)a5, a6, a7, a8, a9 + 1);
if ( v17 <= 0 )
return (unsigned int)v17;
}
while ( a2 != a3 );
return (unsigned int)-1;
}
}
}
| |||
4,478 | my_wildcmp_8bit_impl | eloqsql/strings/ctype-simple.c | static
int my_wildcmp_8bit_impl(CHARSET_INFO *cs,
const char *str,const char *str_end,
const char *wildstr,const char *wildend,
int escape, int w_one, int w_many, int recurse_level)
{
int result= -1; /* Not found, using wildcards */
if (my_string_stack_guard && my_string_stack_guard(recurse_level))
return 1;
while (wildstr != wildend)
{
while (*wildstr != w_many && *wildstr != w_one)
{
if (*wildstr == escape && wildstr+1 != wildend)
wildstr++;
if (str == str_end || likeconv(cs,*wildstr++) != likeconv(cs,*str++))
return(1); /* No match */
if (wildstr == wildend)
return(str != str_end); /* Match if both are at end */
result=1; /* Found an anchor char */
}
if (*wildstr == w_one)
{
do
{
if (str == str_end) /* Skip one char if possible */
return(result);
INC_PTR(cs,str,str_end);
} while (++wildstr < wildend && *wildstr == w_one);
if (wildstr == wildend)
break;
}
if (*wildstr == w_many)
{ /* Found w_many */
uchar cmp;
wildstr++;
/* Remove any '%' and '_' from the wild search string */
for (; wildstr != wildend ; wildstr++)
{
if (*wildstr == w_many)
continue;
if (*wildstr == w_one)
{
if (str == str_end)
return(-1);
INC_PTR(cs,str,str_end);
continue;
}
break; /* Not a wild character */
}
if (wildstr == wildend)
return(0); /* Ok if w_many is last */
if (str == str_end)
return(-1);
if ((cmp= *wildstr) == escape && wildstr+1 != wildend)
cmp= *++wildstr;
INC_PTR(cs,wildstr,wildend); /* This is compared trough cmp */
cmp=likeconv(cs,cmp);
do
{
/*
Find the next character in the subject string equal to 'cmp', then
check recursively my_wildcmp_8bit_impl() for the pattern remainder.
*/
while (str != str_end && (uchar) likeconv(cs,*str) != cmp)
str++;
if (str++ == str_end)
return(-1); /* 'cmp' was not found in the subject string */
{
int tmp=my_wildcmp_8bit_impl(cs,str,str_end,
wildstr,wildend,escape,w_one,
w_many, recurse_level+1);
if (tmp <= 0)
return(tmp);
}
/*
The recursion call did not match. But it returned 1, which means
the pattern remainder has some non-special characters.
Continue, there is a chance that we'll find another 'cmp'
at a different position in the subject string.
*/
} while (str != str_end);
return(-1);
}
}
return(str != str_end ? 1 : 0);
} | O3 | c | my_wildcmp_8bit_impl:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x28, %rsp
movq %r8, %r12
movq %rcx, %r13
movq %rdx, %rbx
movq %rsi, %r14
movl 0x20(%rbp), %r10d
leaq 0xb53835(%rip), %rax # 0xc08e58
movq (%rax), %rax
testq %rax, %rax
je 0xb5656
movq %rbx, -0x30(%rbp)
movq %rdi, %rbx
movl %r10d, %edi
movl %r9d, %r15d
callq *%rax
movl 0x20(%rbp), %r10d
movq %rbx, %rdi
movq -0x30(%rbp), %rbx
movl %r15d, %r9d
movl $0x1, %r15d
testl %eax, %eax
jne 0xb577c
movl 0x18(%rbp), %r11d
movl 0x10(%rbp), %r8d
movl $0xffffffff, %r15d # imm = 0xFFFFFFFF
cmpq %r12, %r13
je 0xb5772
movb (%r13), %al
movsbl %al, %ecx
cmpl %r11d, %ecx
sete %sil
cmpl %r8d, %ecx
sete %dl
orb %dl, %sil
je 0xb56d3
testb %dl, %dl
je 0xb56c9
incq %r13
movq %r13, %rax
cmpq %rbx, %r14
je 0xb577c
movq %r14, %rcx
movq %rax, %r13
cmpq %r12, %rax
jae 0xb56b6
leaq 0x1(%rcx), %r14
movsbl (%r13), %edx
leaq 0x1(%r13), %rax
cmpl %r8d, %edx
je 0xb5690
incq %rcx
cmpq %r12, %r13
je 0xb576f
movb (%r13), %al
movq %rcx, %r14
movsbl %al, %eax
cmpl %r11d, %eax
jne 0xb5664
jmp 0xb5734
movl $0x1, %r15d
cmpq %rbx, %r14
je 0xb577c
leaq 0x1(%r13), %rax
cmpq %r12, %rax
cmoveq %r13, %rax
cmpl %r9d, %ecx
cmoveq %rax, %r13
movq 0x58(%rdi), %rax
movzbl (%r13), %ecx
movb (%rax,%rcx), %cl
movzbl (%r14), %edx
cmpb (%rax,%rdx), %cl
jne 0xb577c
incq %r14
incq %r13
cmpq %r12, %r13
je 0xb5772
movb (%r13), %al
movsbl %al, %ecx
cmpl %r8d, %ecx
sete %dl
cmpl %r11d, %ecx
je 0xb5686
cmpl %r8d, %ecx
jne 0xb56d3
jmp 0xb5686
leaq 0x1(%r13), %rax
xorl %r15d, %r15d
cmpq %r12, %rax
je 0xb577c
addq $0x2, %r13
movb -0x1(%r13), %al
movsbl %al, %ecx
cmpl %r11d, %ecx
je 0xb5761
cmpl %r8d, %ecx
jne 0xb578e
cmpq %rbx, %r14
je 0xb5839
incq %r14
leaq 0x1(%r13), %rax
cmpq %r12, %r13
movq %rax, %r13
jne 0xb5744
jmp 0xb577c
movq %rcx, %r14
xorl %r15d, %r15d
cmpq %rbx, %r14
setne %r15b
movl %r15d, %eax
addq $0x28, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
movl $0xffffffff, %r15d # imm = 0xFFFFFFFF
cmpq %rbx, %r14
je 0xb577c
movzbl %al, %ecx
leaq -0x1(%r13), %rdx
cmpl %r9d, %ecx
jne 0xb57b1
cmpq %r12, %r13
je 0xb57b1
movb (%r13), %al
movq %r13, %rdx
incq %rdx
movq 0x58(%rdi), %rcx
movzbl %al, %eax
movb (%rcx,%rax), %r13b
incl %r10d
cmpq %rbx, %r14
je 0xb577c
movq 0x58(%rdi), %rax
movzbl (%r14), %ecx
cmpb %r13b, (%rax,%rcx)
je 0xb57df
incq %r14
cmpq %rbx, %r14
jne 0xb57cb
jmp 0xb577c
incq %r14
subq $0x8, %rsp
movq %rdi, -0x48(%rbp)
movq %r14, %rsi
movq %rdx, %rcx
movq %rbx, %rdx
movq %rcx, -0x38(%rbp)
movq %r8, %rax
movq %r12, %r8
movl %r9d, -0x30(%rbp)
movq %r10, -0x40(%rbp)
pushq %r10
pushq %r11
pushq %rax
callq 0xb55fb
addq $0x20, %rsp
testl %eax, %eax
jle 0xb5844
cmpq %rbx, %r14
movl -0x30(%rbp), %r9d
movq -0x48(%rbp), %rdi
movq -0x40(%rbp), %r10
movl 0x18(%rbp), %r11d
movl 0x10(%rbp), %r8d
movq -0x38(%rbp), %rdx
jne 0xb57c2
jmp 0xb577c
movl $0xffffffff, %r15d # imm = 0xFFFFFFFF
jmp 0xb577c
movl %eax, %r15d
jmp 0xb577c
| my_wildcmp_8bit_impl:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 28h
mov r12, r8
mov r13, rcx
mov rbx, rdx
mov r14, rsi
mov r10d, [rbp+arg_10]
lea rax, my_string_stack_guard
mov rax, [rax]
test rax, rax
jz short loc_B5656
mov [rbp+var_30], rbx
mov rbx, rdi
mov edi, r10d
mov r15d, r9d
call rax
mov r10d, [rbp+arg_10]
mov rdi, rbx
mov rbx, [rbp+var_30]
mov r9d, r15d
mov r15d, 1
test eax, eax
jnz loc_B577C
loc_B5656:
mov r11d, [rbp+arg_8]
mov r8d, [rbp+arg_0]
mov r15d, 0FFFFFFFFh
loc_B5664:
cmp r13, r12
jz loc_B5772
mov al, [r13+0]
movsx ecx, al
cmp ecx, r11d
setz sil
cmp ecx, r8d
setz dl
or sil, dl
jz short loc_B56D3
loc_B5686:
test dl, dl
jz short loc_B56C9
inc r13
mov rax, r13
loc_B5690:
cmp r14, rbx
jz loc_B577C
mov rcx, r14
mov r13, rax
cmp rax, r12
jnb short loc_B56B6
lea r14, [rcx+1]
movsx edx, byte ptr [r13+0]
lea rax, [r13+1]
cmp edx, r8d
jz short loc_B5690
loc_B56B6:
inc rcx
cmp r13, r12
jz loc_B576F
mov al, [r13+0]
mov r14, rcx
loc_B56C9:
movsx eax, al
cmp eax, r11d
jnz short loc_B5664
jmp short loc_B5734
loc_B56D3:
mov r15d, 1
cmp r14, rbx
jz loc_B577C
lea rax, [r13+1]
cmp rax, r12
cmovz rax, r13
cmp ecx, r9d
cmovz r13, rax
mov rax, [rdi+58h]
movzx ecx, byte ptr [r13+0]
mov cl, [rax+rcx]
movzx edx, byte ptr [r14]
cmp cl, [rax+rdx]
jnz short loc_B577C
inc r14
inc r13
cmp r13, r12
jz short loc_B5772
mov al, [r13+0]
movsx ecx, al
cmp ecx, r8d
setz dl
cmp ecx, r11d
jz loc_B5686
cmp ecx, r8d
jnz short loc_B56D3
jmp loc_B5686
loc_B5734:
lea rax, [r13+1]
xor r15d, r15d
cmp rax, r12
jz short loc_B577C
add r13, 2
loc_B5744:
mov al, [r13-1]
movsx ecx, al
cmp ecx, r11d
jz short loc_B5761
cmp ecx, r8d
jnz short loc_B578E
cmp r14, rbx
jz loc_B5839
inc r14
loc_B5761:
lea rax, [r13+1]
cmp r13, r12
mov r13, rax
jnz short loc_B5744
jmp short loc_B577C
loc_B576F:
mov r14, rcx
loc_B5772:
xor r15d, r15d
cmp r14, rbx
setnz r15b
loc_B577C:
mov eax, r15d
add rsp, 28h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
loc_B578E:
mov r15d, 0FFFFFFFFh
cmp r14, rbx
jz short loc_B577C
movzx ecx, al
lea rdx, [r13-1]
cmp ecx, r9d
jnz short loc_B57B1
cmp r13, r12
jz short loc_B57B1
mov al, [r13+0]
mov rdx, r13
loc_B57B1:
inc rdx
mov rcx, [rdi+58h]
movzx eax, al
mov r13b, [rcx+rax]
inc r10d
loc_B57C2:
cmp r14, rbx
jz short loc_B577C
mov rax, [rdi+58h]
loc_B57CB:
movzx ecx, byte ptr [r14]
cmp [rax+rcx], r13b
jz short loc_B57DF
inc r14
cmp r14, rbx
jnz short loc_B57CB
jmp short loc_B577C
loc_B57DF:
inc r14
sub rsp, 8
mov [rbp+var_48], rdi
mov rsi, r14
mov rcx, rdx
mov rdx, rbx
mov [rbp+var_38], rcx
mov rax, r8
mov r8, r12
mov dword ptr [rbp+var_30], r9d
mov [rbp+var_40], r10
push r10
push r11
push rax
call my_wildcmp_8bit_impl
add rsp, 20h
test eax, eax
jle short loc_B5844
cmp r14, rbx
mov r9d, dword ptr [rbp+var_30]
mov rdi, [rbp+var_48]
mov r10, [rbp+var_40]
mov r11d, [rbp+arg_8]
mov r8d, [rbp+arg_0]
mov rdx, [rbp+var_38]
jnz short loc_B57C2
jmp loc_B577C
loc_B5839:
mov r15d, 0FFFFFFFFh
jmp loc_B577C
loc_B5844:
mov r15d, eax
jmp loc_B577C
| long long my_wildcmp_8bit_impl(
long long a1,
unsigned __int8 *a2,
unsigned __int8 *a3,
char *a4,
char *a5,
int a6,
int a7,
int a8,
unsigned int a9)
{
unsigned __int8 *v11; // rbx
unsigned int v13; // r10d
int v14; // r15d
int v15; // eax
unsigned int v16; // r15d
int v17; // r11d
int v18; // r8d
signed __int8 v19; // al
int v20; // ecx
bool v21; // dl
char *v22; // rax
unsigned __int8 *v23; // rcx
int v24; // edx
unsigned __int8 *v25; // rcx
char *v26; // rax
char *v27; // r13
unsigned __int8 v28; // al
char *v31; // rdx
_BYTE *v32; // rdx
char v33; // r13
long long v34; // r10
int v35; // eax
long long v36; // [rsp+10h] [rbp-40h]
_BYTE *v37; // [rsp+18h] [rbp-38h]
int v39; // [rsp+20h] [rbp-30h]
v11 = a3;
v13 = a9;
if ( my_string_stack_guard )
{
v14 = a6;
v15 = my_string_stack_guard(a9);
v13 = a9;
v11 = a3;
a6 = v14;
v16 = 1;
if ( v15 )
return v16;
}
v17 = a8;
v18 = a7;
v16 = -1;
do
{
if ( a4 == a5 )
return a2 != v11;
v19 = *a4;
v20 = *a4;
v21 = v20 == a7;
if ( v20 != a7 && v20 != a8 )
{
do
{
v16 = 1;
if ( a2 == v11 )
return v16;
v26 = a4 + 1;
if ( a4 + 1 == a5 )
v26 = a4;
if ( v20 == a6 )
a4 = v26;
if ( *(_BYTE *)(*(_QWORD *)(a1 + 88) + (unsigned __int8)*a4) != *(_BYTE *)(*(_QWORD *)(a1 + 88) + *a2) )
return v16;
++a2;
if ( ++a4 == a5 )
return a2 != v11;
v19 = *a4;
v20 = *a4;
v21 = v20 == a7;
}
while ( v20 != a8 && v20 != a7 );
}
if ( v21 )
{
v22 = a4 + 1;
do
{
if ( a2 == v11 )
return v16;
v23 = a2;
a4 = v22;
if ( v22 >= a5 )
break;
++a2;
v24 = *v22++;
}
while ( v24 == a7 );
v25 = v23 + 1;
if ( a4 == a5 )
{
a2 = v25;
return a2 != v11;
}
v19 = *a4;
a2 = v25;
}
}
while ( v19 != a8 );
v16 = 0;
if ( a4 + 1 == a5 )
return v16;
v27 = a4 + 2;
while ( 1 )
{
v28 = *(v27 - 1);
if ( (char)v28 == a8 )
goto LABEL_31;
if ( (char)v28 != a7 )
break;
if ( a2 == v11 )
return (unsigned int)-1;
++a2;
LABEL_31:
if ( v27++ == a5 )
return v16;
}
v16 = -1;
if ( a2 != v11 )
{
v31 = v27 - 1;
if ( v28 == a6 && v27 != a5 )
{
v28 = *v27;
v31 = v27;
}
v32 = v31 + 1;
v33 = *(_BYTE *)(*(_QWORD *)(a1 + 88) + v28);
v34 = v13 + 1;
while ( a2 != v11 )
{
while ( *(_BYTE *)(*(_QWORD *)(a1 + 88) + *a2) != v33 )
{
if ( ++a2 == v11 )
return v16;
}
++a2;
v37 = v32;
v39 = a6;
v36 = v34;
v35 = my_wildcmp_8bit_impl(a1, (_DWORD)a2, (_DWORD)v11, (_DWORD)v32, (_DWORD)a5, a6, v18, v17, v34);
if ( v35 <= 0 )
return (unsigned int)v35;
a6 = v39;
v34 = v36;
v17 = a8;
v18 = a7;
v32 = v37;
if ( a2 == v11 )
return v16;
}
}
return v16;
}
| my_wildcmp_8bit_impl:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x28
MOV R12,R8
MOV R13,RCX
MOV RBX,RDX
MOV R14,RSI
MOV R10D,dword ptr [RBP + 0x20]
LEA RAX,[0xd08e58]
MOV RAX,qword ptr [RAX]
TEST RAX,RAX
JZ 0x001b5656
MOV qword ptr [RBP + -0x30],RBX
MOV RBX,RDI
MOV EDI,R10D
MOV R15D,R9D
CALL RAX
MOV R10D,dword ptr [RBP + 0x20]
MOV RDI,RBX
MOV RBX,qword ptr [RBP + -0x30]
MOV R9D,R15D
MOV R15D,0x1
TEST EAX,EAX
JNZ 0x001b577c
LAB_001b5656:
MOV R11D,dword ptr [RBP + 0x18]
MOV R8D,dword ptr [RBP + 0x10]
MOV R15D,0xffffffff
LAB_001b5664:
CMP R13,R12
JZ 0x001b5772
MOV AL,byte ptr [R13]
MOVSX ECX,AL
CMP ECX,R11D
SETZ SIL
CMP ECX,R8D
SETZ DL
OR SIL,DL
JZ 0x001b56d3
LAB_001b5686:
TEST DL,DL
JZ 0x001b56c9
INC R13
MOV RAX,R13
LAB_001b5690:
CMP R14,RBX
JZ 0x001b577c
MOV RCX,R14
MOV R13,RAX
CMP RAX,R12
JNC 0x001b56b6
LEA R14,[RCX + 0x1]
MOVSX EDX,byte ptr [R13]
LEA RAX,[R13 + 0x1]
CMP EDX,R8D
JZ 0x001b5690
LAB_001b56b6:
INC RCX
CMP R13,R12
JZ 0x001b576f
MOV AL,byte ptr [R13]
MOV R14,RCX
LAB_001b56c9:
MOVSX EAX,AL
CMP EAX,R11D
JNZ 0x001b5664
JMP 0x001b5734
LAB_001b56d3:
MOV R15D,0x1
CMP R14,RBX
JZ 0x001b577c
LEA RAX,[R13 + 0x1]
CMP RAX,R12
CMOVZ RAX,R13
CMP ECX,R9D
CMOVZ R13,RAX
MOV RAX,qword ptr [RDI + 0x58]
MOVZX ECX,byte ptr [R13]
MOV CL,byte ptr [RAX + RCX*0x1]
MOVZX EDX,byte ptr [R14]
CMP CL,byte ptr [RAX + RDX*0x1]
JNZ 0x001b577c
INC R14
INC R13
CMP R13,R12
JZ 0x001b5772
MOV AL,byte ptr [R13]
MOVSX ECX,AL
CMP ECX,R8D
SETZ DL
CMP ECX,R11D
JZ 0x001b5686
CMP ECX,R8D
JNZ 0x001b56d3
JMP 0x001b5686
LAB_001b5734:
LEA RAX,[R13 + 0x1]
XOR R15D,R15D
CMP RAX,R12
JZ 0x001b577c
ADD R13,0x2
LAB_001b5744:
MOV AL,byte ptr [R13 + -0x1]
MOVSX ECX,AL
CMP ECX,R11D
JZ 0x001b5761
CMP ECX,R8D
JNZ 0x001b578e
CMP R14,RBX
JZ 0x001b5839
INC R14
LAB_001b5761:
LEA RAX,[R13 + 0x1]
CMP R13,R12
MOV R13,RAX
JNZ 0x001b5744
JMP 0x001b577c
LAB_001b576f:
MOV R14,RCX
LAB_001b5772:
XOR R15D,R15D
CMP R14,RBX
SETNZ R15B
LAB_001b577c:
MOV EAX,R15D
ADD RSP,0x28
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
LAB_001b578e:
MOV R15D,0xffffffff
CMP R14,RBX
JZ 0x001b577c
MOVZX ECX,AL
LEA RDX,[R13 + -0x1]
CMP ECX,R9D
JNZ 0x001b57b1
CMP R13,R12
JZ 0x001b57b1
MOV AL,byte ptr [R13]
MOV RDX,R13
LAB_001b57b1:
INC RDX
MOV RCX,qword ptr [RDI + 0x58]
MOVZX EAX,AL
MOV R13B,byte ptr [RCX + RAX*0x1]
INC R10D
LAB_001b57c2:
CMP R14,RBX
JZ 0x001b577c
MOV RAX,qword ptr [RDI + 0x58]
LAB_001b57cb:
MOVZX ECX,byte ptr [R14]
CMP byte ptr [RAX + RCX*0x1],R13B
JZ 0x001b57df
INC R14
CMP R14,RBX
JNZ 0x001b57cb
JMP 0x001b577c
LAB_001b57df:
INC R14
SUB RSP,0x8
MOV qword ptr [RBP + -0x48],RDI
MOV RSI,R14
MOV RCX,RDX
MOV RDX,RBX
MOV qword ptr [RBP + -0x38],RCX
MOV RAX,R8
MOV R8,R12
MOV dword ptr [RBP + -0x30],R9D
MOV qword ptr [RBP + -0x40],R10
PUSH R10
PUSH R11
PUSH RAX
CALL 0x001b55fb
ADD RSP,0x20
TEST EAX,EAX
JLE 0x001b5844
CMP R14,RBX
MOV R9D,dword ptr [RBP + -0x30]
MOV RDI,qword ptr [RBP + -0x48]
MOV R10,qword ptr [RBP + -0x40]
MOV R11D,dword ptr [RBP + 0x18]
MOV R8D,dword ptr [RBP + 0x10]
MOV RDX,qword ptr [RBP + -0x38]
JNZ 0x001b57c2
JMP 0x001b577c
LAB_001b5839:
MOV R15D,0xffffffff
JMP 0x001b577c
LAB_001b5844:
MOV R15D,EAX
JMP 0x001b577c
|
uint my_wildcmp_8bit_impl
(long param_1,byte *param_2,byte *param_3,byte *param_4,byte *param_5,ulong param_6,
uint param_7,uint param_8,int param_9)
{
char cVar1;
byte bVar2;
int iVar3;
uint uVar4;
byte *pbVar5;
uint uVar6;
byte *pbVar7;
bool bVar8;
if (my_string_stack_guard != (code *)0x0) {
param_6 = param_6 & 0xffffffff;
iVar3 = (*my_string_stack_guard)(param_9);
if (iVar3 != 0) {
return 1;
}
}
uVar4 = 0xffffffff;
while (param_4 != param_5) {
bVar2 = *param_4;
uVar6 = (uint)(char)bVar2;
bVar8 = uVar6 == param_7;
if (uVar6 != param_8 && !bVar8) {
do {
uVar4 = 1;
if (param_2 == param_3) {
return 1;
}
pbVar5 = param_4 + 1;
if (param_4 + 1 == param_5) {
pbVar5 = param_4;
}
if (uVar6 == (uint)param_6) {
param_4 = pbVar5;
}
if (*(char *)(*(long *)(param_1 + 0x58) + (ulong)*param_4) !=
*(char *)(*(long *)(param_1 + 0x58) + (ulong)*param_2)) {
return 1;
}
param_2 = param_2 + 1;
param_4 = param_4 + 1;
if (param_4 == param_5) goto LAB_001b5772;
bVar2 = *param_4;
uVar6 = (uint)(char)bVar2;
bVar8 = uVar6 == param_7;
} while ((uVar6 != param_8) && (uVar6 != param_7));
}
if (bVar8) {
do {
pbVar5 = param_2;
param_4 = param_4 + 1;
if (pbVar5 == param_3) {
return uVar4;
}
} while ((param_4 < param_5) && (param_2 = pbVar5 + 1, (int)(char)*param_4 == param_7));
param_2 = pbVar5 + 1;
if (param_4 == param_5) break;
bVar2 = *param_4;
}
if ((int)(char)bVar2 == param_8) {
if (param_4 + 1 != param_5) {
pbVar5 = param_4 + 2;
do {
bVar2 = pbVar5[-1];
if ((int)(char)bVar2 != param_8) {
if ((int)(char)bVar2 != param_7) {
if (param_2 == param_3) {
return 0xffffffff;
}
pbVar7 = pbVar5 + -1;
if (((uint)bVar2 == (uint)param_6) && (pbVar5 != param_5)) {
bVar2 = *pbVar5;
pbVar7 = pbVar5;
}
cVar1 = *(char *)(*(long *)(param_1 + 0x58) + (ulong)bVar2);
while( true ) {
if (param_2 == param_3) {
return 0xffffffff;
}
while (*(char *)(*(long *)(param_1 + 0x58) + (ulong)*param_2) != cVar1) {
param_2 = param_2 + 1;
if (param_2 == param_3) {
return 0xffffffff;
}
}
param_2 = param_2 + 1;
uVar4 = my_wildcmp_8bit_impl
(param_1,param_2,param_3,pbVar7 + 1,param_5,param_6,param_7,
param_8,param_9 + 1);
if ((int)uVar4 < 1) break;
param_6 = param_6 & 0xffffffff;
if (param_2 == param_3) {
return 0xffffffff;
}
}
return uVar4;
}
if (param_2 == param_3) {
return 0xffffffff;
}
param_2 = param_2 + 1;
}
bVar8 = pbVar5 != param_5;
pbVar5 = pbVar5 + 1;
} while (bVar8);
}
return 0;
}
}
LAB_001b5772:
return (uint)(param_2 != param_3);
}
|
|
4,479 | my_coll_parser_scan_reset_before | eloqsql/strings/ctype-uca.c | static int
my_coll_parser_scan_reset_before(MY_COLL_RULE_PARSER *p)
{
MY_COLL_LEXEM *lexem= my_coll_parser_curr(p);
if (!lex_cmp(lexem, C_STRING_WITH_LEN("[before primary]")) ||
!lex_cmp(lexem, C_STRING_WITH_LEN("[before 1]")))
{
p->rule.before_level= 1;
}
else if (!lex_cmp(lexem, C_STRING_WITH_LEN("[before secondary]")) ||
!lex_cmp(lexem, C_STRING_WITH_LEN("[before 2]")))
{
p->rule.before_level= 2;
}
else if (!lex_cmp(lexem, C_STRING_WITH_LEN("[before tertiary]")) ||
!lex_cmp(lexem, C_STRING_WITH_LEN("[before 3]")))
{
p->rule.before_level= 3;
}
else if (!lex_cmp(lexem, C_STRING_WITH_LEN("[before quaternary]")) ||
!lex_cmp(lexem, C_STRING_WITH_LEN("[before 4]")))
{
p->rule.before_level= 4;
}
else
{
p->rule.before_level= 0;
return 0; /* Don't scan thr next character */
}
return my_coll_parser_scan(p);
} | O0 | c | my_coll_parser_scan_reset_before:
pushq %rbp
movq %rsp, %rbp
subq $0x20, %rsp
movq %rdi, -0x10(%rbp)
movq -0x10(%rbp), %rdi
callq 0x50d90
movq %rax, -0x18(%rbp)
movq -0x18(%rbp), %rdi
leaq 0x2c4f5(%rip), %rsi # 0x7ddd9
movl $0x10, %edx
callq 0x51510
cmpl $0x0, %eax
je 0x5190d
movq -0x18(%rbp), %rdi
leaq 0x2c4ec(%rip), %rsi # 0x7ddea
movl $0xa, %edx
callq 0x51510
cmpl $0x0, %eax
jne 0x51921
movq -0x10(%rbp), %rax
movq $0x1, 0xe0(%rax)
jmp 0x51a11
movq -0x18(%rbp), %rdi
leaq 0x2c4c9(%rip), %rsi # 0x7ddf5
movl $0x12, %edx
callq 0x51510
cmpl $0x0, %eax
je 0x51955
movq -0x18(%rbp), %rdi
leaq 0x2c4c2(%rip), %rsi # 0x7de08
movl $0xa, %edx
callq 0x51510
cmpl $0x0, %eax
jne 0x51969
movq -0x10(%rbp), %rax
movq $0x2, 0xe0(%rax)
jmp 0x51a0f
movq -0x18(%rbp), %rdi
leaq 0x2c49f(%rip), %rsi # 0x7de13
movl $0x11, %edx
callq 0x51510
cmpl $0x0, %eax
je 0x5199d
movq -0x18(%rbp), %rdi
leaq 0x2c497(%rip), %rsi # 0x7de25
movl $0xa, %edx
callq 0x51510
cmpl $0x0, %eax
jne 0x519ae
movq -0x10(%rbp), %rax
movq $0x3, 0xe0(%rax)
jmp 0x51a0d
movq -0x18(%rbp), %rdi
leaq 0x2c477(%rip), %rsi # 0x7de30
movl $0x13, %edx
callq 0x51510
cmpl $0x0, %eax
je 0x519e2
movq -0x18(%rbp), %rdi
leaq 0x2c471(%rip), %rsi # 0x7de44
movl $0xa, %edx
callq 0x51510
cmpl $0x0, %eax
jne 0x519f3
movq -0x10(%rbp), %rax
movq $0x4, 0xe0(%rax)
jmp 0x51a0b
movq -0x10(%rbp), %rax
movq $0x0, 0xe0(%rax)
movl $0x0, -0x4(%rbp)
jmp 0x51a1d
jmp 0x51a0d
jmp 0x51a0f
jmp 0x51a11
movq -0x10(%rbp), %rdi
callq 0x51570
movl %eax, -0x4(%rbp)
movl -0x4(%rbp), %eax
addq $0x20, %rsp
popq %rbp
retq
nopw %cs:(%rax,%rax)
| my_coll_parser_scan_reset_before:
push rbp
mov rbp, rsp
sub rsp, 20h
mov [rbp+var_10], rdi
mov rdi, [rbp+var_10]
call my_coll_parser_curr
mov [rbp+var_18], rax
mov rdi, [rbp+var_18]
lea rsi, aBeforePrimary; "[before primary]"
mov edx, 10h
call lex_cmp
cmp eax, 0
jz short loc_5190D
mov rdi, [rbp+var_18]
lea rsi, aBefore1; "[before 1]"
mov edx, 0Ah
call lex_cmp
cmp eax, 0
jnz short loc_51921
loc_5190D:
mov rax, [rbp+var_10]
mov qword ptr [rax+0E0h], 1
jmp loc_51A11
loc_51921:
mov rdi, [rbp+var_18]
lea rsi, aBeforeSecondar; "[before secondary]"
mov edx, 12h
call lex_cmp
cmp eax, 0
jz short loc_51955
mov rdi, [rbp+var_18]
lea rsi, aBefore2; "[before 2]"
mov edx, 0Ah
call lex_cmp
cmp eax, 0
jnz short loc_51969
loc_51955:
mov rax, [rbp+var_10]
mov qword ptr [rax+0E0h], 2
jmp loc_51A0F
loc_51969:
mov rdi, [rbp+var_18]
lea rsi, aBeforeTertiary; "[before tertiary]"
mov edx, 11h
call lex_cmp
cmp eax, 0
jz short loc_5199D
mov rdi, [rbp+var_18]
lea rsi, aBefore3; "[before 3]"
mov edx, 0Ah
call lex_cmp
cmp eax, 0
jnz short loc_519AE
loc_5199D:
mov rax, [rbp+var_10]
mov qword ptr [rax+0E0h], 3
jmp short loc_51A0D
loc_519AE:
mov rdi, [rbp+var_18]
lea rsi, aBeforeQuaterna; "[before quaternary]"
mov edx, 13h
call lex_cmp
cmp eax, 0
jz short loc_519E2
mov rdi, [rbp+var_18]
lea rsi, aBefore4; "[before 4]"
mov edx, 0Ah
call lex_cmp
cmp eax, 0
jnz short loc_519F3
loc_519E2:
mov rax, [rbp+var_10]
mov qword ptr [rax+0E0h], 4
jmp short loc_51A0B
loc_519F3:
mov rax, [rbp+var_10]
mov qword ptr [rax+0E0h], 0
mov [rbp+var_4], 0
jmp short loc_51A1D
loc_51A0B:
jmp short $+2
loc_51A0D:
jmp short $+2
loc_51A0F:
jmp short $+2
loc_51A11:
mov rdi, [rbp+var_10]
call my_coll_parser_scan
mov [rbp+var_4], eax
loc_51A1D:
mov eax, [rbp+var_4]
add rsp, 20h
pop rbp
retn
| long long my_coll_parser_scan_reset_before(long long a1)
{
long long v2; // [rsp+8h] [rbp-18h]
v2 = my_coll_parser_curr(a1);
if ( !(unsigned int)lex_cmp(v2, (long long)"[before primary]", 0x10uLL)
|| !(unsigned int)lex_cmp(v2, (long long)"[before 1]", 0xAuLL) )
{
*(_QWORD *)(a1 + 224) = 1LL;
return (unsigned int)my_coll_parser_scan(a1);
}
if ( !(unsigned int)lex_cmp(v2, (long long)"[before secondary]", 0x12uLL)
|| !(unsigned int)lex_cmp(v2, (long long)"[before 2]", 0xAuLL) )
{
*(_QWORD *)(a1 + 224) = 2LL;
return (unsigned int)my_coll_parser_scan(a1);
}
if ( !(unsigned int)lex_cmp(v2, (long long)"[before tertiary]", 0x11uLL)
|| !(unsigned int)lex_cmp(v2, (long long)"[before 3]", 0xAuLL) )
{
*(_QWORD *)(a1 + 224) = 3LL;
return (unsigned int)my_coll_parser_scan(a1);
}
if ( !(unsigned int)lex_cmp(v2, (long long)"[before quaternary]", 0x13uLL)
|| !(unsigned int)lex_cmp(v2, (long long)"[before 4]", 0xAuLL) )
{
*(_QWORD *)(a1 + 224) = 4LL;
return (unsigned int)my_coll_parser_scan(a1);
}
*(_QWORD *)(a1 + 224) = 0LL;
return 0;
}
| my_coll_parser_scan_reset_before:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x20
MOV qword ptr [RBP + -0x10],RDI
MOV RDI,qword ptr [RBP + -0x10]
CALL 0x00150d90
MOV qword ptr [RBP + -0x18],RAX
MOV RDI,qword ptr [RBP + -0x18]
LEA RSI,[0x17ddd9]
MOV EDX,0x10
CALL 0x00151510
CMP EAX,0x0
JZ 0x0015190d
MOV RDI,qword ptr [RBP + -0x18]
LEA RSI,[0x17ddea]
MOV EDX,0xa
CALL 0x00151510
CMP EAX,0x0
JNZ 0x00151921
LAB_0015190d:
MOV RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RAX + 0xe0],0x1
JMP 0x00151a11
LAB_00151921:
MOV RDI,qword ptr [RBP + -0x18]
LEA RSI,[0x17ddf5]
MOV EDX,0x12
CALL 0x00151510
CMP EAX,0x0
JZ 0x00151955
MOV RDI,qword ptr [RBP + -0x18]
LEA RSI,[0x17de08]
MOV EDX,0xa
CALL 0x00151510
CMP EAX,0x0
JNZ 0x00151969
LAB_00151955:
MOV RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RAX + 0xe0],0x2
JMP 0x00151a0f
LAB_00151969:
MOV RDI,qword ptr [RBP + -0x18]
LEA RSI,[0x17de13]
MOV EDX,0x11
CALL 0x00151510
CMP EAX,0x0
JZ 0x0015199d
MOV RDI,qword ptr [RBP + -0x18]
LEA RSI,[0x17de25]
MOV EDX,0xa
CALL 0x00151510
CMP EAX,0x0
JNZ 0x001519ae
LAB_0015199d:
MOV RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RAX + 0xe0],0x3
JMP 0x00151a0d
LAB_001519ae:
MOV RDI,qword ptr [RBP + -0x18]
LEA RSI,[0x17de30]
MOV EDX,0x13
CALL 0x00151510
CMP EAX,0x0
JZ 0x001519e2
MOV RDI,qword ptr [RBP + -0x18]
LEA RSI,[0x17de44]
MOV EDX,0xa
CALL 0x00151510
CMP EAX,0x0
JNZ 0x001519f3
LAB_001519e2:
MOV RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RAX + 0xe0],0x4
JMP 0x00151a0b
LAB_001519f3:
MOV RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RAX + 0xe0],0x0
MOV dword ptr [RBP + -0x4],0x0
JMP 0x00151a1d
LAB_00151a0b:
JMP 0x00151a0d
LAB_00151a0d:
JMP 0x00151a0f
LAB_00151a0f:
JMP 0x00151a11
LAB_00151a11:
MOV RDI,qword ptr [RBP + -0x10]
CALL 0x00151570
MOV dword ptr [RBP + -0x4],EAX
LAB_00151a1d:
MOV EAX,dword ptr [RBP + -0x4]
ADD RSP,0x20
POP RBP
RET
|
int4 my_coll_parser_scan_reset_before(long param_1)
{
int iVar1;
int4 uVar2;
int8 uVar3;
uVar3 = my_coll_parser_curr(param_1);
iVar1 = lex_cmp(uVar3,"[before primary]",0x10);
if ((iVar1 == 0) || (iVar1 = lex_cmp(uVar3,"[before 1]",10), iVar1 == 0)) {
*(int8 *)(param_1 + 0xe0) = 1;
}
else {
iVar1 = lex_cmp(uVar3,"[before secondary]",0x12);
if ((iVar1 == 0) || (iVar1 = lex_cmp(uVar3,"[before 2]",10), iVar1 == 0)) {
*(int8 *)(param_1 + 0xe0) = 2;
}
else {
iVar1 = lex_cmp(uVar3,"[before tertiary]",0x11);
if ((iVar1 == 0) || (iVar1 = lex_cmp(uVar3,"[before 3]",10), iVar1 == 0)) {
*(int8 *)(param_1 + 0xe0) = 3;
}
else {
iVar1 = lex_cmp(uVar3,"[before quaternary]",0x13);
if ((iVar1 != 0) && (iVar1 = lex_cmp(uVar3,"[before 4]",10), iVar1 != 0)) {
*(int8 *)(param_1 + 0xe0) = 0;
return 0;
}
*(int8 *)(param_1 + 0xe0) = 4;
}
}
}
uVar2 = my_coll_parser_scan(param_1);
return uVar2;
}
|
|
4,480 | ggml_backend_multi_buffer_set_usage | monkey531[P]llama/ggml/src/ggml-backend.cpp | void ggml_backend_multi_buffer_set_usage(ggml_backend_buffer_t buffer, enum ggml_backend_buffer_usage usage) {
GGML_ASSERT(ggml_backend_buffer_is_multi_buffer(buffer));
ggml_backend_multi_buffer_context * ctx = (ggml_backend_multi_buffer_context *) buffer->context;
for (size_t i = 0; i < ctx->n_buffers; i++) {
ggml_backend_buffer_set_usage(ctx->buffers[i], usage);
}
} | O3 | cpp | ggml_backend_multi_buffer_set_usage:
pushq %r15
pushq %r14
pushq %r12
pushq %rbx
pushq %rax
leaq 0xad7(%rip), %r14 # 0x258ce
cmpq %r14, (%rdi)
jne 0x24e3c
movq 0x50(%rdi), %r15
movq 0x8(%r15), %rax
testq %rax, %rax
je 0x24e30
movl %esi, %ebx
xorl %r12d, %r12d
movq (%r15), %rcx
movq (%rcx,%r12,8), %rdi
movl %ebx, 0x60(%rdi)
cmpq %r14, (%rdi)
jne 0x24e28
movl %ebx, %esi
callq 0x165f0
movq 0x8(%r15), %rax
incq %r12
cmpq %rax, %r12
jb 0x24e0e
addq $0x8, %rsp
popq %rbx
popq %r12
popq %r14
popq %r15
retq
leaq 0x2843b(%rip), %rdi # 0x4d27e
leaq 0x25813(%rip), %rdx # 0x4a65d
leaq 0x2872f(%rip), %rcx # 0x4d580
movl $0x24b, %esi # imm = 0x24B
xorl %eax, %eax
callq 0x17c60
| ggml_backend_multi_buffer_set_usage:
push r15
push r14
push r12
push rbx
push rax
lea r14, _ZL37ggml_backend_multi_buffer_free_bufferP19ggml_backend_buffer; ggml_backend_multi_buffer_free_buffer(ggml_backend_buffer *)
cmp [rdi], r14
jnz short loc_24E3C
mov r15, [rdi+50h]
mov rax, [r15+8]
test rax, rax
jz short loc_24E30
mov ebx, esi
xor r12d, r12d
loc_24E0E:
mov rcx, [r15]
mov rdi, [rcx+r12*8]
mov [rdi+60h], ebx
cmp [rdi], r14
jnz short loc_24E28
mov esi, ebx
call _ggml_backend_multi_buffer_set_usage
mov rax, [r15+8]
loc_24E28:
inc r12
cmp r12, rax
jb short loc_24E0E
loc_24E30:
add rsp, 8
pop rbx
pop r12
pop r14
pop r15
retn
loc_24E3C:
lea rdi, aWorkspaceLlm4b_2; "/workspace/llm4binary/github/2025_star3"...
lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed"
lea rcx, aGgmlBackendBuf_23; "ggml_backend_buffer_is_multi_buffer(buf"...
mov esi, 24Bh
xor eax, eax
call _ggml_abort
| unsigned long long ggml_backend_multi_buffer_set_usage(
long long a1,
unsigned int a2,
long long a3,
long long a4,
int a5,
int a6)
{
_QWORD *v6; // r15
unsigned long long result; // rax
unsigned long long i; // r12
long long v9; // rdi
if ( *(long long ( **)())a1 != ggml_backend_multi_buffer_free_buffer )
ggml_abort(
(unsigned int)"/workspace/llm4binary/github/2025_star3/monkey531[P]llama/ggml/src/ggml-backend.cpp",
587,
(unsigned int)"GGML_ASSERT(%s) failed",
(unsigned int)"ggml_backend_buffer_is_multi_buffer(buffer)",
a5,
a6);
v6 = *(_QWORD **)(a1 + 80);
result = v6[1];
if ( result )
{
for ( i = 0LL; i < result; ++i )
{
v9 = *(_QWORD *)(*v6 + 8 * i);
*(_DWORD *)(v9 + 96) = a2;
if ( *(long long ( **)())v9 == ggml_backend_multi_buffer_free_buffer )
{
ggml_backend_multi_buffer_set_usage(v9, a2);
result = v6[1];
}
}
}
return result;
}
| ggml_backend_multi_buffer_set_usage:
PUSH R15
PUSH R14
PUSH R12
PUSH RBX
PUSH RAX
LEA R14,[0x1258ce]
CMP qword ptr [RDI],R14
JNZ 0x00124e3c
MOV R15,qword ptr [RDI + 0x50]
MOV RAX,qword ptr [R15 + 0x8]
TEST RAX,RAX
JZ 0x00124e30
MOV EBX,ESI
XOR R12D,R12D
LAB_00124e0e:
MOV RCX,qword ptr [R15]
MOV RDI,qword ptr [RCX + R12*0x8]
MOV dword ptr [RDI + 0x60],EBX
CMP qword ptr [RDI],R14
JNZ 0x00124e28
MOV ESI,EBX
CALL 0x001165f0
MOV RAX,qword ptr [R15 + 0x8]
LAB_00124e28:
INC R12
CMP R12,RAX
JC 0x00124e0e
LAB_00124e30:
ADD RSP,0x8
POP RBX
POP R12
POP R14
POP R15
RET
LAB_00124e3c:
LEA RDI,[0x14d27e]
LEA RDX,[0x14a65d]
LEA RCX,[0x14d580]
MOV ESI,0x24b
XOR EAX,EAX
CALL 0x00117c60
|
void ggml_backend_multi_buffer_set_usage(long *param_1,int4 param_2)
{
long *plVar1;
long *plVar2;
ulong uVar3;
ulong uVar4;
if ((code *)*param_1 == ggml_backend_multi_buffer_free_buffer) {
plVar1 = (long *)param_1[10];
uVar3 = plVar1[1];
if (uVar3 != 0) {
uVar4 = 0;
do {
plVar2 = *(long **)(*plVar1 + uVar4 * 8);
*(int4 *)(plVar2 + 0xc) = param_2;
if ((code *)*plVar2 == ggml_backend_multi_buffer_free_buffer) {
ggml_backend_multi_buffer_set_usage(plVar2,param_2);
uVar3 = plVar1[1];
}
uVar4 = uVar4 + 1;
} while (uVar4 < uVar3);
}
return;
}
/* WARNING: Subroutine does not return */
ggml_abort("/workspace/llm4binary/github/2025_star3/monkey531[P]llama/ggml/src/ggml-backend.cpp",
0x24b,"GGML_ASSERT(%s) failed","ggml_backend_buffer_is_multi_buffer(buffer)");
}
|
|
4,481 | my_strnxfrm_latin1_de | eloqsql/strings/ctype-latin1.c | static size_t
my_strnxfrm_latin1_de(CHARSET_INFO *cs,
uchar *dst, size_t dstlen, uint nweights,
const uchar* src, size_t srclen, uint flags)
{
uchar *de= dst + dstlen;
const uchar *se= src + srclen;
uchar *d0= dst;
for ( ; src < se && dst < de && nweights; src++, nweights--)
{
uchar chr= combo1map[*src];
*dst++= chr;
if ((chr= combo2map[*src]) && dst < de && nweights > 1)
{
*dst++= chr;
nweights--;
}
}
return my_strxfrm_pad_desc_and_reverse(cs, d0, dst, de, nweights, flags, 0);
} | O3 | c | my_strnxfrm_latin1_de:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
pushq %rax
movq %r9, %rax
movl %ecx, %r10d
movq %rdx, %rcx
movl 0x10(%rbp), %r9d
addq %rsi, %rcx
testq %rax, %rax
jle 0xb7d97
addq %r8, %rax
leaq 0x17169f(%rip), %r11 # 0x2293d0
leaq 0x171798(%rip), %rbx # 0x2294d0
movq %rsi, %r14
cmpq %rcx, %r14
jae 0xb7d9c
testl %r10d, %r10d
je 0xb7d9c
movzbl (%r8), %edx
movb (%rdx,%r11), %r15b
leaq 0x1(%r14), %rdx
movb %r15b, (%r14)
movzbl (%r8), %r15d
movb (%r15,%rbx), %r15b
testb %r15b, %r15b
je 0xb7d87
cmpq %rcx, %rdx
setb %r12b
cmpl $0x2, %r10d
setae %r13b
andb %r12b, %r13b
cmpb $0x1, %r13b
jne 0xb7d87
movb %r15b, 0x1(%r14)
addq $0x2, %r14
decl %r10d
movq %r14, %rdx
incq %r8
decl %r10d
movq %rdx, %r14
cmpq %rax, %r8
jb 0xb7d3b
jmp 0xb7d9f
movq %rsi, %rdx
jmp 0xb7d9f
movq %r14, %rdx
movl $0x0, (%rsp)
movl %r10d, %r8d
callq 0xb9b28
addq $0x8, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
nopl (%rax)
| my_strnxfrm_latin1_de:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
push rax
mov rax, r9
mov r10d, ecx
mov rcx, rdx
mov r9d, [rbp+arg_0]
add rcx, rsi
test rax, rax
jle short loc_B7D97
add rax, r8
lea r11, combo1map
lea rbx, combo2map
mov r14, rsi
loc_B7D3B:
cmp r14, rcx
jnb short loc_B7D9C
test r10d, r10d
jz short loc_B7D9C
movzx edx, byte ptr [r8]
mov r15b, [rdx+r11]
lea rdx, [r14+1]
mov [r14], r15b
movzx r15d, byte ptr [r8]
mov r15b, [r15+rbx]
test r15b, r15b
jz short loc_B7D87
cmp rdx, rcx
setb r12b
cmp r10d, 2
setnb r13b
and r13b, r12b
cmp r13b, 1
jnz short loc_B7D87
mov [r14+1], r15b
add r14, 2
dec r10d
mov rdx, r14
loc_B7D87:
inc r8
dec r10d
mov r14, rdx
cmp r8, rax
jb short loc_B7D3B
jmp short loc_B7D9F
loc_B7D97:
mov rdx, rsi
jmp short loc_B7D9F
loc_B7D9C:
mov rdx, r14
loc_B7D9F:
mov [rsp+30h+var_30], 0
mov r8d, r10d
call my_strxfrm_pad_desc_and_reverse
add rsp, 8
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
| long long my_strnxfrm_latin1_de(
int a1,
_BYTE *a2,
long long a3,
unsigned int a4,
unsigned __int8 *a5,
long long a6,
int a7)
{
unsigned long long v8; // rcx
unsigned __int8 *v9; // rax
_BYTE *v10; // r14
_BYTE *v11; // rdx
unsigned __int8 v12; // r15
v8 = (unsigned long long)&a2[a3];
if ( a6 <= 0 )
{
LODWORD(v11) = (_DWORD)a2;
}
else
{
v9 = &a5[a6];
v10 = a2;
while ( (unsigned long long)v10 < v8 && a4 )
{
v11 = v10 + 1;
*v10 = combo1map[*a5];
v12 = combo2map[*a5];
if ( v12 && (unsigned long long)v11 < v8 && a4 >= 2 )
{
v10[1] = v12;
--a4;
v11 = v10 + 2;
}
++a5;
--a4;
v10 = v11;
if ( a5 >= v9 )
return my_strxfrm_pad_desc_and_reverse(a1, (_DWORD)a2, (_DWORD)v11, v8, a4, a7, 0);
}
LODWORD(v11) = (_DWORD)v10;
}
return my_strxfrm_pad_desc_and_reverse(a1, (_DWORD)a2, (_DWORD)v11, v8, a4, a7, 0);
}
| my_strnxfrm_latin1_de:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
PUSH RAX
MOV RAX,R9
MOV R10D,ECX
MOV RCX,RDX
MOV R9D,dword ptr [RBP + 0x10]
ADD RCX,RSI
TEST RAX,RAX
JLE 0x001b7d97
ADD RAX,R8
LEA R11,[0x3293d0]
LEA RBX,[0x3294d0]
MOV R14,RSI
LAB_001b7d3b:
CMP R14,RCX
JNC 0x001b7d9c
TEST R10D,R10D
JZ 0x001b7d9c
MOVZX EDX,byte ptr [R8]
MOV R15B,byte ptr [RDX + R11*0x1]
LEA RDX,[R14 + 0x1]
MOV byte ptr [R14],R15B
MOVZX R15D,byte ptr [R8]
MOV R15B,byte ptr [R15 + RBX*0x1]
TEST R15B,R15B
JZ 0x001b7d87
CMP RDX,RCX
SETC R12B
CMP R10D,0x2
SETNC R13B
AND R13B,R12B
CMP R13B,0x1
JNZ 0x001b7d87
MOV byte ptr [R14 + 0x1],R15B
ADD R14,0x2
DEC R10D
MOV RDX,R14
LAB_001b7d87:
INC R8
DEC R10D
MOV R14,RDX
CMP R8,RAX
JC 0x001b7d3b
JMP 0x001b7d9f
LAB_001b7d97:
MOV RDX,RSI
JMP 0x001b7d9f
LAB_001b7d9c:
MOV RDX,R14
LAB_001b7d9f:
MOV dword ptr [RSP],0x0
MOV R8D,R10D
CALL 0x001b9b28
ADD RSP,0x8
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
|
void my_strnxfrm_latin1_de
(int8 param_1,int1 *param_2,long param_3,uint param_4,byte *param_5,
long param_6,int4 param_7)
{
ulong in_RAX;
byte *pbVar1;
int1 *puVar2;
int1 *puVar3;
int1 *puVar4;
puVar2 = param_2 + param_3;
puVar4 = param_2;
if (0 < param_6) {
pbVar1 = param_5 + param_6;
puVar3 = param_2;
do {
puVar4 = puVar3;
if ((puVar2 <= puVar3) || (param_4 == 0)) break;
puVar4 = puVar3 + 1;
*puVar3 = combo1map[*param_5];
if ((combo2map[*param_5] != '\0') && (1 < param_4 && puVar4 < puVar2)) {
puVar3[1] = combo2map[*param_5];
puVar4 = puVar3 + 2;
param_4 = param_4 - 1;
}
param_5 = param_5 + 1;
param_4 = param_4 - 1;
puVar3 = puVar4;
} while (param_5 < pbVar1);
}
my_strxfrm_pad_desc_and_reverse
(param_1,param_2,puVar4,puVar2,param_4,param_7,in_RAX & 0xffffffff00000000);
return;
}
|
|
4,482 | my_print_help | eloqsql/mysys/my_getopt.c | void my_print_help(const struct my_option *options)
{
uint col, name_space= 22, comment_space= 57;
const struct my_option *optp;
DBUG_ENTER("my_print_help");
for (optp= options; optp->name; optp++)
{
const char *typelib_help= 0;
if (!optp->comment)
continue;
if (optp->id && optp->id < 256)
{
printf(" -%c%s", optp->id, strlen(optp->name) ? ", " : " ");
col= 6;
}
else
{
printf(" ");
col= 2;
}
if (strlen(optp->name))
{
printf("--");
col+= 2 + print_name(optp);
if (optp->arg_type == NO_ARG ||
(optp->var_type & GET_TYPE_MASK) == GET_BOOL ||
(optp->var_type & GET_TYPE_MASK) == GET_BIT)
{
putchar(' ');
col++;
}
else if ((optp->var_type & GET_TYPE_MASK) == GET_STR ||
(optp->var_type & GET_TYPE_MASK) == GET_STR_ALLOC ||
(optp->var_type & GET_TYPE_MASK) == GET_ENUM ||
(optp->var_type & GET_TYPE_MASK) == GET_SET ||
(optp->var_type & GET_TYPE_MASK) == GET_FLAGSET )
{
printf("%s=name%s ", optp->arg_type == OPT_ARG ? "[" : "",
optp->arg_type == OPT_ARG ? "]" : "");
col+= (optp->arg_type == OPT_ARG) ? 8 : 6;
}
else
{
printf("%s=#%s ", optp->arg_type == OPT_ARG ? "[" : "",
optp->arg_type == OPT_ARG ? "]" : "");
col+= (optp->arg_type == OPT_ARG) ? 5 : 3;
}
}
if (optp->comment && *optp->comment)
{
uint count;
if (col > name_space)
{
putchar('\n');
col= 0;
}
col= print_comment(optp->comment, col, name_space, comment_space);
if (optp->var_type & GET_AUTO)
{
col= print_comment(" (Automatically configured unless set explicitly)",
col, name_space, comment_space);
}
switch (optp->var_type & GET_TYPE_MASK) {
case GET_ENUM:
typelib_help= ". One of: ";
count= optp->typelib->count;
break;
case GET_SET:
typelib_help= ". Any combination of: ";
count= optp->typelib->count;
break;
case GET_FLAGSET:
typelib_help= ". Takes a comma-separated list of option=value pairs, "
"where value is on, off, or default, and options are: ";
count= optp->typelib->count - 1;
break;
}
if (typelib_help &&
strstr(optp->comment, optp->typelib->type_names[0]) == NULL)
{
uint i;
col= print_comment(typelib_help, col, name_space, comment_space);
col= print_comment(optp->typelib->type_names[0], col, name_space, comment_space);
for (i= 1; i < count; i++)
{
col= print_comment(", ", col, name_space, comment_space);
col= print_comment(optp->typelib->type_names[i], col, name_space, comment_space);
}
}
}
putchar('\n');
if ((optp->var_type & GET_TYPE_MASK) == GET_BOOL ||
(optp->var_type & GET_TYPE_MASK) == GET_BIT)
{
if (optp->def_value != 0)
{
printf("%*s(Defaults to on; use --skip-", name_space, "");
print_name(optp);
printf(" to disable.)\n");
}
}
}
DBUG_VOID_RETURN;
} | O3 | c | my_print_help:
movq (%rdi), %rax
testq %rax, %rax
je 0xa2789
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
pushq %rax
movq %rdi, %rbx
leaq 0x403cb(%rip), %r15 # 0xe2824
cmpq $0x0, 0x10(%rbx)
je 0xa2718
movl 0x8(%rbx), %edx
testl %edx, %edx
sete %cl
cmpl $0x100, %edx # imm = 0x100
setge %sil
orb %cl, %sil
jne 0xa24a7
cmpb $0x0, (%rax)
movq %r15, %rcx
leaq 0x4039f(%rip), %rax # 0xe2827
cmoveq %rax, %rcx
movl $0x1, %edi
leaq 0x40384(%rip), %rsi # 0xe281c
xorl %eax, %eax
callq 0x29810
movl $0x6, %r12d
jmp 0xa24c0
movl $0x1, %edi
leaq 0x40374(%rip), %rsi # 0xe2827
xorl %eax, %eax
callq 0x29810
movl $0x2, %r12d
movq (%rbx), %rax
cmpb $0x0, (%rax)
je 0xa259d
movl $0x1, %edi
leaq 0x45571(%rip), %rsi # 0xe7a49
xorl %eax, %eax
callq 0x29810
movq (%rbx), %r14
addl %r14d, %r12d
addl $0x2, %r12d
movzbl (%r14), %eax
movl $0x2d, %edi
cmpl $0x5f, %eax
je 0xa24fe
testl %eax, %eax
je 0xa250b
movsbl %al, %edi
callq 0x29920
incq %r14
incl %r12d
jmp 0xa24e9
movq (%rbx), %r14
movl 0x38(%rbx), %eax
testl %eax, %eax
je 0xa258d
movq 0x30(%rbx), %rcx
andl $0x3f, %ecx
cmpq $0x10, %rcx
ja 0xa272b
movl $0xb600, %edx # imm = 0xB600
btq %rcx, %rdx
jae 0xa257e
cmpl $0x1, %eax
leaq 0x446f7(%rip), %rcx # 0xe6c32
movq %rcx, %rdx
leaq 0x45513(%rip), %rax # 0xe7a58
cmoveq %rax, %rdx
leaq 0x4346c(%rip), %rax # 0xe59bc
cmoveq %rax, %rcx
movl $0x1, %edi
leaq 0x402ca(%rip), %rsi # 0xe282a
xorl %eax, %eax
callq 0x29810
xorl %eax, %eax
cmpl $0x1, 0x38(%rbx)
sete %al
addl %eax, %eax
subl %r14d, %eax
addl %eax, %r12d
addl $0x6, %r12d
jmp 0xa259d
movl $0x10004, %edx # imm = 0x10004
btq %rcx, %rdx
jae 0xa272b
movl $0x20, %edi
callq 0x29920
subl %r14d, %r12d
incl %r12d
movq 0x10(%rbx), %rdi
testq %rdi, %rdi
je 0xa26a1
cmpb $0x0, (%rdi)
je 0xa26a1
cmpl $0x17, %r12d
jb 0xa25ca
movl $0xa, %edi
callq 0x29920
movq 0x10(%rbx), %rdi
xorl %r12d, %r12d
movl %r12d, %esi
callq 0xa278a
movl %eax, %r12d
movq 0x30(%rbx), %rax
testb $0x40, %al
je 0xa25f3
leaq 0x40259(%rip), %rdi # 0xe283d
movl %r12d, %esi
callq 0xa278a
movl %eax, %r12d
movq 0x30(%rbx), %rax
andl $0x3f, %eax
cmpq $0xf, %rax
je 0xa262a
cmpl $0xd, %eax
je 0xa261a
cmpl $0xc, %eax
jne 0xa26a1
movq 0x28(%rbx), %rax
movl (%rax), %r13d
leaq 0x40257(%rip), %r14 # 0xe286f
jmp 0xa263b
movq 0x28(%rbx), %rax
movl (%rax), %r13d
leaq 0x40252(%rip), %r14 # 0xe287a
jmp 0xa263b
movq 0x28(%rbx), %rax
movl (%rax), %r13d
decl %r13d
leaq 0x40256(%rip), %r14 # 0xe2891
movq 0x10(%rbx), %rdi
movq 0x10(%rax), %rax
movq (%rax), %rsi
callq 0x293e0
testq %rax, %rax
jne 0xa26a1
movq %r14, %rdi
movl %r12d, %esi
callq 0xa278a
movq 0x28(%rbx), %rcx
movq 0x10(%rcx), %rcx
movq (%rcx), %rdi
movl %eax, %esi
callq 0xa278a
cmpl $0x2, %r13d
jb 0xa26a1
movl %r13d, %r14d
movl $0x1, %r12d
movq %r15, %rdi
movl %eax, %esi
callq 0xa278a
movq 0x28(%rbx), %rcx
movq 0x10(%rcx), %rcx
movq (%rcx,%r12,8), %rdi
movl %eax, %esi
callq 0xa278a
incq %r12
cmpq %r12, %r14
jne 0xa267c
movl $0xa, %edi
callq 0x29920
movq 0x30(%rbx), %rax
andl $0x3f, %eax
cmpq $0x10, %rax
je 0xa26bd
cmpl $0x2, %eax
jne 0xa2718
cmpq $0x0, 0x40(%rbx)
je 0xa2718
movl $0x1, %edi
leaq 0x4022d(%rip), %rsi # 0xe28fd
movl $0x16, %edx
leaq 0x44556(%rip), %rcx # 0xe6c32
xorl %eax, %eax
callq 0x29810
movq (%rbx), %r14
movzbl (%r14), %eax
movl $0x2d, %edi
cmpl $0x5f, %eax
je 0xa26fb
testl %eax, %eax
je 0xa2705
movsbl %al, %edi
callq 0x29920
incq %r14
jmp 0xa26e6
movl $0x1, %edi
leaq 0x4020c(%rip), %rsi # 0xe291d
xorl %eax, %eax
callq 0x29810
movq 0x70(%rbx), %rax
addq $0x70, %rbx
testq %rax, %rax
jne 0xa2459
jmp 0xa277b
cmpl $0x1, %eax
leaq 0x444fd(%rip), %rcx # 0xe6c32
movq %rcx, %rdx
leaq 0x45319(%rip), %rax # 0xe7a58
cmoveq %rax, %rdx
leaq 0x43272(%rip), %rax # 0xe59bc
cmoveq %rax, %rcx
movl $0x1, %edi
leaq 0x400db(%rip), %rsi # 0xe2835
xorl %eax, %eax
callq 0x29810
xorl %eax, %eax
cmpl $0x1, 0x38(%rbx)
sete %al
addl %eax, %eax
subl %r14d, %eax
addl %eax, %r12d
addl $0x3, %r12d
jmp 0xa259d
addq $0x8, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
| my_print_help:
mov rax, [rdi]
test rax, rax
jz locret_A2789
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
push rax
mov rbx, rdi
lea r15, asc_E2824; ", "
loc_A2459:
cmp qword ptr [rbx+10h], 0
jz loc_A2718
mov edx, [rbx+8]
test edx, edx
setz cl
cmp edx, 100h
setnl sil
or sil, cl
jnz short loc_A24A7
cmp byte ptr [rax], 0
mov rcx, r15
lea rax, asc_E2827; " "
cmovz rcx, rax
mov edi, 1
lea rsi, aCS; " -%c%s"
xor eax, eax
call ___printf_chk
mov r12d, 6
jmp short loc_A24C0
loc_A24A7:
mov edi, 1
lea rsi, asc_E2827; " "
xor eax, eax
call ___printf_chk
mov r12d, 2
loc_A24C0:
mov rax, [rbx]
cmp byte ptr [rax], 0
jz loc_A259D
mov edi, 1
lea rsi, asc_E7A47+2; "--"
xor eax, eax
call ___printf_chk
mov r14, [rbx]
add r12d, r14d
add r12d, 2
loc_A24E9:
movzx eax, byte ptr [r14]
mov edi, 2Dh ; '-'
cmp eax, 5Fh ; '_'
jz short loc_A24FE
test eax, eax
jz short loc_A250B
movsx edi, al
loc_A24FE:
call _putchar
inc r14
inc r12d
jmp short loc_A24E9
loc_A250B:
mov r14, [rbx]
mov eax, [rbx+38h]
test eax, eax
jz short loc_A258D
mov rcx, [rbx+30h]
and ecx, 3Fh
cmp rcx, 10h
ja loc_A272B
mov edx, 0B600h
bt rdx, rcx
jnb short loc_A257E
cmp eax, 1
lea rcx, asc_E6C2E+4; ""
mov rdx, rcx
lea rax, aCdata_0+8; "["
cmovz rdx, rax
lea rax, aVersion400+0Eh; "]"
cmovz rcx, rax
mov edi, 1
lea rsi, aSNameS; "%s=name%s "
xor eax, eax
call ___printf_chk
xor eax, eax
cmp dword ptr [rbx+38h], 1
setz al
add eax, eax
sub eax, r14d
add r12d, eax
add r12d, 6
jmp short loc_A259D
loc_A257E:
mov edx, 10004h
bt rdx, rcx
jnb loc_A272B
loc_A258D:
mov edi, 20h ; ' '
call _putchar
sub r12d, r14d
inc r12d
loc_A259D:
mov rdi, [rbx+10h]
test rdi, rdi
jz loc_A26A1
cmp byte ptr [rdi], 0
jz loc_A26A1
cmp r12d, 17h
jb short loc_A25CA
mov edi, 0Ah
call _putchar
mov rdi, [rbx+10h]
xor r12d, r12d
loc_A25CA:
mov esi, r12d
call print_comment
mov r12d, eax
mov rax, [rbx+30h]
test al, 40h
jz short loc_A25F3
lea rdi, aAutomaticallyC; " (Automatically configured unless set e"...
mov esi, r12d
call print_comment
mov r12d, eax
mov rax, [rbx+30h]
loc_A25F3:
and eax, 3Fh
cmp rax, 0Fh
jz short loc_A262A
cmp eax, 0Dh
jz short loc_A261A
cmp eax, 0Ch
jnz loc_A26A1
mov rax, [rbx+28h]
mov r13d, [rax]
lea r14, aOneOf; ". One of: "
jmp short loc_A263B
loc_A261A:
mov rax, [rbx+28h]
mov r13d, [rax]
lea r14, aAnyCombination; ". Any combination of: "
jmp short loc_A263B
loc_A262A:
mov rax, [rbx+28h]
mov r13d, [rax]
dec r13d
lea r14, aTakesACommaSep; ". Takes a comma-separated list of optio"...
loc_A263B:
mov rdi, [rbx+10h]
mov rax, [rax+10h]
mov rsi, [rax]
call _strstr
test rax, rax
jnz short loc_A26A1
mov rdi, r14
mov esi, r12d
call print_comment
mov rcx, [rbx+28h]
mov rcx, [rcx+10h]
mov rdi, [rcx]
mov esi, eax
call print_comment
cmp r13d, 2
jb short loc_A26A1
mov r14d, r13d
mov r12d, 1
loc_A267C:
mov rdi, r15
mov esi, eax
call print_comment
mov rcx, [rbx+28h]
mov rcx, [rcx+10h]
mov rdi, [rcx+r12*8]
mov esi, eax
call print_comment
inc r12
cmp r14, r12
jnz short loc_A267C
loc_A26A1:
mov edi, 0Ah
call _putchar
mov rax, [rbx+30h]
and eax, 3Fh
cmp rax, 10h
jz short loc_A26BD
cmp eax, 2
jnz short loc_A2718
loc_A26BD:
cmp qword ptr [rbx+40h], 0
jz short loc_A2718
mov edi, 1
lea rsi, aSDefaultsToOnU; "%*s(Defaults to on; use --skip-"
mov edx, 16h
lea rcx, asc_E6C2E+4; ""
xor eax, eax
call ___printf_chk
mov r14, [rbx]
loc_A26E6:
movzx eax, byte ptr [r14]
mov edi, 2Dh ; '-'
cmp eax, 5Fh ; '_'
jz short loc_A26FB
test eax, eax
jz short loc_A2705
movsx edi, al
loc_A26FB:
call _putchar
inc r14
jmp short loc_A26E6
loc_A2705:
mov edi, 1
lea rsi, aToDisable; " to disable.)\n"
xor eax, eax
call ___printf_chk
loc_A2718:
mov rax, [rbx+70h]
add rbx, 70h ; 'p'
test rax, rax
jnz loc_A2459
jmp short loc_A277B
loc_A272B:
cmp eax, 1
lea rcx, asc_E6C2E+4; ""
mov rdx, rcx
lea rax, aCdata_0+8; "["
cmovz rdx, rax
lea rax, aVersion400+0Eh; "]"
cmovz rcx, rax
mov edi, 1
lea rsi, aSS; "%s=#%s "
xor eax, eax
call ___printf_chk
xor eax, eax
cmp dword ptr [rbx+38h], 1
setz al
add eax, eax
sub eax, r14d
add r12d, eax
add r12d, 3
jmp loc_A259D
loc_A277B:
add rsp, 8
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
locret_A2789:
retn
| _BYTE * my_print_help(_BYTE **a1)
{
_BYTE *result; // rax
_BYTE **v2; // rbx
long long v3; // rdx
const char *v4; // rcx
unsigned int v5; // r12d
_BYTE *v6; // r14
unsigned int i; // r12d
int v8; // eax
long long v9; // rdi
_BYTE *v10; // r14
int v11; // eax
unsigned long long v12; // rcx
long long v13; // rdx
const char *v14; // rcx
const char *v15; // rdx
long long v16; // rdx
_BYTE *v17; // rdi
unsigned int v18; // r12d
_BYTE *v19; // rax
long long v20; // rax
_BYTE *v21; // rax
unsigned int v22; // r13d
const char *v23; // r14
unsigned int v24; // eax
unsigned int v25; // eax
long long j; // r12
unsigned int v27; // eax
long long v28; // rax
_BYTE *k; // r14
int v30; // eax
long long v31; // rdi
const char *v32; // rcx
const char *v33; // rdx
result = *a1;
if ( !*a1 )
return result;
v2 = a1;
do
{
if ( !v2[2] )
goto LABEL_48;
v3 = *((unsigned int *)v2 + 2);
if ( (_DWORD)v3 == 0 || (int)v3 >= 256 )
{
__printf_chk(1LL, " ");
v5 = 2;
}
else
{
v4 = ", ";
if ( !*result )
v4 = " ";
__printf_chk(1LL, " -%c%s", v3, v4);
v5 = 6;
}
if ( !**v2 )
goto LABEL_23;
__printf_chk(1LL, "--");
v6 = *v2;
for ( i = (unsigned int)*v2 + v5 + 2; ; ++i )
{
v8 = (unsigned __int8)*v6;
v9 = 45LL;
if ( v8 == 95 )
goto LABEL_14;
if ( !*v6 )
break;
v9 = (unsigned int)(char)v8;
LABEL_14:
putchar(v9);
++v6;
}
v10 = *v2;
v11 = *((_DWORD *)v2 + 14);
if ( !v11 )
goto LABEL_22;
v12 = (unsigned long long)v2[6] & 0x3F;
if ( v12 <= 0x10 )
{
v13 = 46592LL;
if ( _bittest64(&v13, v12) )
{
v14 = "";
v15 = "";
if ( v11 == 1 )
{
v15 = "[";
v14 = "]";
}
__printf_chk(1LL, "%s=name%s ", v15, v14);
v5 = 2 * (*((_DWORD *)v2 + 14) == 1) - (_DWORD)v10 + i + 6;
goto LABEL_23;
}
v16 = 65540LL;
if ( _bittest64(&v16, v12) )
{
LABEL_22:
putchar(32LL);
v5 = i - (_DWORD)v10 + 1;
goto LABEL_23;
}
}
v32 = "";
v33 = "";
if ( v11 == 1 )
{
v33 = "[";
v32 = "]";
}
__printf_chk(1LL, "%s=#%s ", v33, v32);
v5 = 2 * (*((_DWORD *)v2 + 14) == 1) - (_DWORD)v10 + i + 3;
LABEL_23:
v17 = v2[2];
if ( !v17 || !*v17 )
goto LABEL_39;
if ( v5 >= 0x17 )
{
putchar(10LL);
v17 = v2[2];
v5 = 0;
}
v18 = print_comment(v17, v5);
v19 = v2[6];
if ( ((unsigned __int8)v19 & 0x40) != 0 )
{
v18 = print_comment(" (Automatically configured unless set explicitly)", v18);
v19 = v2[6];
}
v20 = (unsigned __int8)v19 & 0x3F;
if ( v20 == 15 )
{
v21 = v2[5];
v22 = *(_DWORD *)v21 - 1;
v23 = ". Takes a comma-separated list of option=value pairs, where value is on, off, or default, and options are: ";
goto LABEL_35;
}
if ( (_DWORD)v20 == 13 )
{
v21 = v2[5];
v22 = *(_DWORD *)v21;
v23 = ". Any combination of: ";
LABEL_35:
if ( !strstr(v2[2], **((_QWORD **)v21 + 2)) )
{
v24 = print_comment(v23, v18);
v25 = print_comment(**((_QWORD **)v2[5] + 2), v24);
if ( v22 >= 2 )
{
for ( j = 1LL; j != v22; v25 = print_comment(*(_QWORD *)(*((_QWORD *)v2[5] + 2) + 8 * j++), v27) )
v27 = print_comment(", ", v25);
}
}
goto LABEL_39;
}
if ( (_DWORD)v20 == 12 )
{
v21 = v2[5];
v22 = *(_DWORD *)v21;
v23 = ". One of: ";
goto LABEL_35;
}
LABEL_39:
putchar(10LL);
v28 = (unsigned long long)v2[6] & 0x3F;
if ( (v28 == 16 || (_DWORD)v28 == 2) && v2[8] )
{
__printf_chk(1LL, "%*s(Defaults to on; use --skip-", 22, "");
for ( k = *v2; ; ++k )
{
v30 = (unsigned __int8)*k;
v31 = 45LL;
if ( v30 != 95 )
{
if ( !*k )
{
__printf_chk(1LL, " to disable.)\n");
break;
}
v31 = (unsigned int)(char)v30;
}
putchar(v31);
}
}
LABEL_48:
result = v2[14];
v2 += 14;
}
while ( result );
return result;
}
| my_print_help:
MOV RAX,qword ptr [RDI]
TEST RAX,RAX
JZ 0x001a2789
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
PUSH RAX
MOV RBX,RDI
LEA R15,[0x1e2824]
LAB_001a2459:
CMP qword ptr [RBX + 0x10],0x0
JZ 0x001a2718
MOV EDX,dword ptr [RBX + 0x8]
TEST EDX,EDX
SETZ CL
CMP EDX,0x100
SETGE SIL
OR SIL,CL
JNZ 0x001a24a7
CMP byte ptr [RAX],0x0
MOV RCX,R15
LEA RAX,[0x1e2827]
CMOVZ RCX,RAX
MOV EDI,0x1
LEA RSI,[0x1e281c]
XOR EAX,EAX
CALL 0x00129810
MOV R12D,0x6
JMP 0x001a24c0
LAB_001a24a7:
MOV EDI,0x1
LEA RSI,[0x1e2827]
XOR EAX,EAX
CALL 0x00129810
MOV R12D,0x2
LAB_001a24c0:
MOV RAX,qword ptr [RBX]
CMP byte ptr [RAX],0x0
JZ 0x001a259d
MOV EDI,0x1
LEA RSI,[0x1e7a49]
XOR EAX,EAX
CALL 0x00129810
MOV R14,qword ptr [RBX]
ADD R12D,R14D
ADD R12D,0x2
LAB_001a24e9:
MOVZX EAX,byte ptr [R14]
MOV EDI,0x2d
CMP EAX,0x5f
JZ 0x001a24fe
TEST EAX,EAX
JZ 0x001a250b
MOVSX EDI,AL
LAB_001a24fe:
CALL 0x00129920
INC R14
INC R12D
JMP 0x001a24e9
LAB_001a250b:
MOV R14,qword ptr [RBX]
MOV EAX,dword ptr [RBX + 0x38]
TEST EAX,EAX
JZ 0x001a258d
MOV RCX,qword ptr [RBX + 0x30]
AND ECX,0x3f
CMP RCX,0x10
JA 0x001a272b
MOV EDX,0xb600
BT RDX,RCX
JNC 0x001a257e
CMP EAX,0x1
LEA RCX,[0x1e6c32]
MOV RDX,RCX
LEA RAX,[0x1e7a58]
CMOVZ RDX,RAX
LEA RAX,[0x1e59bc]
CMOVZ RCX,RAX
MOV EDI,0x1
LEA RSI,[0x1e282a]
XOR EAX,EAX
CALL 0x00129810
XOR EAX,EAX
CMP dword ptr [RBX + 0x38],0x1
SETZ AL
ADD EAX,EAX
SUB EAX,R14D
ADD R12D,EAX
ADD R12D,0x6
JMP 0x001a259d
LAB_001a257e:
MOV EDX,0x10004
BT RDX,RCX
JNC 0x001a272b
LAB_001a258d:
MOV EDI,0x20
CALL 0x00129920
SUB R12D,R14D
INC R12D
LAB_001a259d:
MOV RDI,qword ptr [RBX + 0x10]
TEST RDI,RDI
JZ 0x001a26a1
CMP byte ptr [RDI],0x0
JZ 0x001a26a1
CMP R12D,0x17
JC 0x001a25ca
MOV EDI,0xa
CALL 0x00129920
MOV RDI,qword ptr [RBX + 0x10]
XOR R12D,R12D
LAB_001a25ca:
MOV ESI,R12D
CALL 0x001a278a
MOV R12D,EAX
MOV RAX,qword ptr [RBX + 0x30]
TEST AL,0x40
JZ 0x001a25f3
LEA RDI,[0x1e283d]
MOV ESI,R12D
CALL 0x001a278a
MOV R12D,EAX
MOV RAX,qword ptr [RBX + 0x30]
LAB_001a25f3:
AND EAX,0x3f
CMP RAX,0xf
JZ 0x001a262a
CMP EAX,0xd
JZ 0x001a261a
CMP EAX,0xc
JNZ 0x001a26a1
MOV RAX,qword ptr [RBX + 0x28]
MOV R13D,dword ptr [RAX]
LEA R14,[0x1e286f]
JMP 0x001a263b
LAB_001a261a:
MOV RAX,qword ptr [RBX + 0x28]
MOV R13D,dword ptr [RAX]
LEA R14,[0x1e287a]
JMP 0x001a263b
LAB_001a262a:
MOV RAX,qword ptr [RBX + 0x28]
MOV R13D,dword ptr [RAX]
DEC R13D
LEA R14,[0x1e2891]
LAB_001a263b:
MOV RDI,qword ptr [RBX + 0x10]
MOV RAX,qword ptr [RAX + 0x10]
MOV RSI,qword ptr [RAX]
CALL 0x001293e0
TEST RAX,RAX
JNZ 0x001a26a1
MOV RDI,R14
MOV ESI,R12D
CALL 0x001a278a
MOV RCX,qword ptr [RBX + 0x28]
MOV RCX,qword ptr [RCX + 0x10]
MOV RDI,qword ptr [RCX]
MOV ESI,EAX
CALL 0x001a278a
CMP R13D,0x2
JC 0x001a26a1
MOV R14D,R13D
MOV R12D,0x1
LAB_001a267c:
MOV RDI,R15
MOV ESI,EAX
CALL 0x001a278a
MOV RCX,qword ptr [RBX + 0x28]
MOV RCX,qword ptr [RCX + 0x10]
MOV RDI,qword ptr [RCX + R12*0x8]
MOV ESI,EAX
CALL 0x001a278a
INC R12
CMP R14,R12
JNZ 0x001a267c
LAB_001a26a1:
MOV EDI,0xa
CALL 0x00129920
MOV RAX,qword ptr [RBX + 0x30]
AND EAX,0x3f
CMP RAX,0x10
JZ 0x001a26bd
CMP EAX,0x2
JNZ 0x001a2718
LAB_001a26bd:
CMP qword ptr [RBX + 0x40],0x0
JZ 0x001a2718
MOV EDI,0x1
LEA RSI,[0x1e28fd]
MOV EDX,0x16
LEA RCX,[0x1e6c32]
XOR EAX,EAX
CALL 0x00129810
MOV R14,qword ptr [RBX]
LAB_001a26e6:
MOVZX EAX,byte ptr [R14]
MOV EDI,0x2d
CMP EAX,0x5f
JZ 0x001a26fb
TEST EAX,EAX
JZ 0x001a2705
MOVSX EDI,AL
LAB_001a26fb:
CALL 0x00129920
INC R14
JMP 0x001a26e6
LAB_001a2705:
MOV EDI,0x1
LEA RSI,[0x1e291d]
XOR EAX,EAX
CALL 0x00129810
LAB_001a2718:
MOV RAX,qword ptr [RBX + 0x70]
ADD RBX,0x70
TEST RAX,RAX
JNZ 0x001a2459
JMP 0x001a277b
LAB_001a272b:
CMP EAX,0x1
LEA RCX,[0x1e6c32]
MOV RDX,RCX
LEA RAX,[0x1e7a58]
CMOVZ RDX,RAX
LEA RAX,[0x1e59bc]
CMOVZ RCX,RAX
MOV EDI,0x1
LEA RSI,[0x1e2835]
XOR EAX,EAX
CALL 0x00129810
XOR EAX,EAX
CMP dword ptr [RBX + 0x38],0x1
SETZ AL
ADD EAX,EAX
SUB EAX,R14D
ADD R12D,EAX
ADD R12D,0x3
JMP 0x001a259d
LAB_001a277b:
ADD RSP,0x8
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
LAB_001a2789:
RET
|
void my_print_help(int8 *param_1)
{
char cVar1;
int4 uVar2;
uint *puVar3;
char *pcVar4;
int *puVar5;
int iVar6;
int8 in_R8;
int8 in_R9;
int iVar7;
uint uVar8;
ulong uVar9;
int iVar10;
char *pcVar11;
char *pcVar12;
pcVar11 = (char *)*param_1;
pcVar12 = pcVar11;
joined_r0x001a243b:
if (pcVar11 == (char *)0x0) {
return;
}
if (param_1[2] != 0) {
iVar7 = *(int *)(param_1 + 1);
if (iVar7 < 0x100 && iVar7 != 0) {
puVar5 = &DAT_001e2824;
if (*pcVar11 == '\0') {
puVar5 = &DAT_001e2827;
}
__printf_chk(1," -%c%s",iVar7,puVar5,in_R8,in_R9,pcVar12);
uVar8 = 6;
}
else {
__printf_chk(1,&DAT_001e2827);
uVar8 = 2;
}
if (*(char *)*param_1 != '\0') {
__printf_chk(1,&DAT_001e7a49);
pcVar11 = (char *)*param_1;
iVar7 = uVar8 + (int)pcVar11 + 2;
do {
cVar1 = *pcVar11;
iVar6 = 0x2d;
if (cVar1 != '_') {
if (cVar1 == '\0') goto LAB_001a250b;
iVar6 = (int)cVar1;
}
putchar(iVar6);
pcVar11 = pcVar11 + 1;
iVar7 = iVar7 + 1;
} while( true );
}
goto LAB_001a259d;
}
goto LAB_001a2718;
LAB_001a250b:
iVar6 = *(int *)(param_1 + 7);
iVar10 = (int)*param_1;
if (iVar6 == 0) {
LAB_001a258d:
putchar(0x20);
uVar8 = (iVar7 - iVar10) + 1;
}
else {
uVar9 = (ulong)((uint)param_1[6] & 0x3f);
if (uVar9 < 0x11) {
if ((0xb600UL >> uVar9 & 1) != 0) {
pcVar11 = "";
puVar5 = &DAT_001e6c32;
if (iVar6 == 1) {
puVar5 = &DAT_001e7a58;
pcVar11 = "]";
}
__printf_chk(1,"%s=name%s ",puVar5,pcVar11);
uVar8 = iVar7 + ((uint)(*(int *)(param_1 + 7) == 1) * 2 - iVar10) + 6;
goto LAB_001a259d;
}
if ((0x10004UL >> uVar9 & 1) != 0) goto LAB_001a258d;
}
pcVar11 = "";
puVar5 = &DAT_001e6c32;
if (iVar6 == 1) {
puVar5 = &DAT_001e7a58;
pcVar11 = "]";
}
__printf_chk(1,&DAT_001e2835,puVar5,pcVar11);
uVar8 = iVar7 + ((uint)(*(int *)(param_1 + 7) == 1) * 2 - iVar10) + 3;
}
LAB_001a259d:
pcVar11 = (char *)param_1[2];
if ((pcVar11 != (char *)0x0) && (*pcVar11 != '\0')) {
if (0x16 < uVar8) {
putchar(10);
pcVar11 = (char *)param_1[2];
uVar8 = 0;
}
uVar2 = print_comment(pcVar11,uVar8);
uVar8 = (uint)param_1[6];
if ((param_1[6] & 0x40) != 0) {
uVar2 = print_comment(" (Automatically configured unless set explicitly)",uVar2);
uVar8 = (uint)param_1[6];
}
uVar8 = uVar8 & 0x3f;
if (uVar8 == 0xf) {
puVar3 = (uint *)param_1[5];
uVar8 = *puVar3 - 1;
pcVar11 =
". Takes a comma-separated list of option=value pairs, where value is on, off, or default, and options are: "
;
}
else if (uVar8 == 0xd) {
puVar3 = (uint *)param_1[5];
uVar8 = *puVar3;
pcVar11 = ". Any combination of: ";
}
else {
if (uVar8 != 0xc) goto LAB_001a26a1;
puVar3 = (uint *)param_1[5];
uVar8 = *puVar3;
pcVar11 = ". One of: ";
}
pcVar4 = strstr((char *)param_1[2],(char *)**(int8 **)(puVar3 + 4));
if (pcVar4 == (char *)0x0) {
uVar2 = print_comment(pcVar11,uVar2);
uVar2 = print_comment(**(int8 **)(param_1[5] + 0x10),uVar2);
if (1 < uVar8) {
uVar9 = 1;
do {
uVar2 = print_comment(&DAT_001e2824,uVar2);
uVar2 = print_comment(*(int8 *)(*(long *)(param_1[5] + 0x10) + uVar9 * 8),uVar2);
uVar9 = uVar9 + 1;
} while (uVar8 != uVar9);
}
}
}
LAB_001a26a1:
putchar(10);
uVar8 = (uint)param_1[6] & 0x3f;
if (((uVar8 == 0x10) || (uVar8 == 2)) && (param_1[8] != 0)) {
__printf_chk(1,"%*s(Defaults to on; use --skip-",0x16,&DAT_001e6c32);
pcVar11 = (char *)*param_1;
do {
cVar1 = *pcVar11;
iVar7 = 0x2d;
if (cVar1 != '_') {
if (cVar1 == '\0') goto LAB_001a2705;
iVar7 = (int)cVar1;
}
putchar(iVar7);
pcVar11 = pcVar11 + 1;
} while( true );
}
LAB_001a2718:
pcVar11 = (char *)param_1[0xe];
param_1 = param_1 + 0xe;
goto joined_r0x001a243b;
LAB_001a2705:
__printf_chk(1," to disable.)\n");
goto LAB_001a2718;
}
|
|
4,483 | my_uni_utf8mb3 | eloqsql/strings/ctype-utf8.c | static int my_uni_utf8mb3(CHARSET_INFO *cs __attribute__((unused)),
my_wc_t wc, uchar *r, uchar *e)
{
if (wc < 0x80)
{
if (r >= e)
return MY_CS_TOOSMALL;
*r= (uchar) wc;
return 1;
}
if (wc < 0x800)
{
if (r + 2 > e)
return MY_CS_TOOSMALLN(2);
/* U+0080..U+07FF: 00000xxx.xxyyyyyy -> 110xxxxx 10yyyyyy */
*r++= (uchar) (0xC0 | (wc >> 6));
*r= (uchar) (0x80 | (wc & 0x3F));
return 2;
}
if (wc < 0x10000)
{
if (r + 3 > e)
return MY_CS_TOOSMALLN(3);
/* U+0800..U+FFFF: xxxxyyyy.yyzzzzzz -> 1110xxxx 10yyyyyy 10zzzzzz */
*r++= (uchar) (0xE0 | (wc >> 12));
*r++= (uchar) (0x80 | ((wc >> 6) & 0x3f));
*r= (uchar) (0x80 | (wc & 0x3f));
return 3;
}
return MY_CS_ILUNI;
} | O0 | c | my_uni_utf8mb3:
pushq %rbp
movq %rsp, %rbp
movq %rdi, -0x10(%rbp)
movq %rsi, -0x18(%rbp)
movq %rdx, -0x20(%rbp)
movq %rcx, -0x28(%rbp)
cmpq $0x80, -0x18(%rbp)
jae 0xb49ec
movq -0x20(%rbp), %rax
cmpq -0x28(%rbp), %rax
jb 0xb49d4
movl $0xffffff9b, -0x4(%rbp) # imm = 0xFFFFFF9B
jmp 0xb4ae0
movq -0x18(%rbp), %rax
movb %al, %cl
movq -0x20(%rbp), %rax
movb %cl, (%rax)
movl $0x1, -0x4(%rbp)
jmp 0xb4ae0
cmpq $0x800, -0x18(%rbp) # imm = 0x800
jae 0xb4a53
movq -0x20(%rbp), %rax
addq $0x2, %rax
cmpq -0x28(%rbp), %rax
jbe 0xb4a10
movl $0xffffff9a, -0x4(%rbp) # imm = 0xFFFFFF9A
jmp 0xb4ae0
movq -0x18(%rbp), %rax
shrq $0x6, %rax
orq $0xc0, %rax
movb %al, %cl
movq -0x20(%rbp), %rax
movq %rax, %rdx
addq $0x1, %rdx
movq %rdx, -0x20(%rbp)
movb %cl, (%rax)
movq -0x18(%rbp), %rax
andq $0x3f, %rax
orq $0x80, %rax
movb %al, %cl
movq -0x20(%rbp), %rax
movb %cl, (%rax)
movl $0x2, -0x4(%rbp)
jmp 0xb4ae0
cmpq $0x10000, -0x18(%rbp) # imm = 0x10000
jae 0xb4ad9
movq -0x20(%rbp), %rax
addq $0x3, %rax
cmpq -0x28(%rbp), %rax
jbe 0xb4a74
movl $0xffffff99, -0x4(%rbp) # imm = 0xFFFFFF99
jmp 0xb4ae0
movq -0x18(%rbp), %rax
shrq $0xc, %rax
orq $0xe0, %rax
movb %al, %cl
movq -0x20(%rbp), %rax
movq %rax, %rdx
addq $0x1, %rdx
movq %rdx, -0x20(%rbp)
movb %cl, (%rax)
movq -0x18(%rbp), %rax
shrq $0x6, %rax
andq $0x3f, %rax
orq $0x80, %rax
movb %al, %cl
movq -0x20(%rbp), %rax
movq %rax, %rdx
addq $0x1, %rdx
movq %rdx, -0x20(%rbp)
movb %cl, (%rax)
movq -0x18(%rbp), %rax
andq $0x3f, %rax
orq $0x80, %rax
movb %al, %cl
movq -0x20(%rbp), %rax
movb %cl, (%rax)
movl $0x3, -0x4(%rbp)
jmp 0xb4ae0
movl $0x0, -0x4(%rbp)
movl -0x4(%rbp), %eax
popq %rbp
retq
nopw %cs:(%rax,%rax)
| my_uni_utf8mb3:
push rbp
mov rbp, rsp
mov [rbp+var_10], rdi
mov [rbp+var_18], rsi
mov [rbp+var_20], rdx
mov [rbp+var_28], rcx
cmp [rbp+var_18], 80h
jnb short loc_B49EC
mov rax, [rbp+var_20]
cmp rax, [rbp+var_28]
jb short loc_B49D4
mov [rbp+var_4], 0FFFFFF9Bh
jmp loc_B4AE0
loc_B49D4:
mov rax, [rbp+var_18]
mov cl, al
mov rax, [rbp+var_20]
mov [rax], cl
mov [rbp+var_4], 1
jmp loc_B4AE0
loc_B49EC:
cmp [rbp+var_18], 800h
jnb short loc_B4A53
mov rax, [rbp+var_20]
add rax, 2
cmp rax, [rbp+var_28]
jbe short loc_B4A10
mov [rbp+var_4], 0FFFFFF9Ah
jmp loc_B4AE0
loc_B4A10:
mov rax, [rbp+var_18]
shr rax, 6
or rax, 0C0h
mov cl, al
mov rax, [rbp+var_20]
mov rdx, rax
add rdx, 1
mov [rbp+var_20], rdx
mov [rax], cl
mov rax, [rbp+var_18]
and rax, 3Fh
or rax, 80h
mov cl, al
mov rax, [rbp+var_20]
mov [rax], cl
mov [rbp+var_4], 2
jmp loc_B4AE0
loc_B4A53:
cmp [rbp+var_18], 10000h
jnb short loc_B4AD9
mov rax, [rbp+var_20]
add rax, 3
cmp rax, [rbp+var_28]
jbe short loc_B4A74
mov [rbp+var_4], 0FFFFFF99h
jmp short loc_B4AE0
loc_B4A74:
mov rax, [rbp+var_18]
shr rax, 0Ch
or rax, 0E0h
mov cl, al
mov rax, [rbp+var_20]
mov rdx, rax
add rdx, 1
mov [rbp+var_20], rdx
mov [rax], cl
mov rax, [rbp+var_18]
shr rax, 6
and rax, 3Fh
or rax, 80h
mov cl, al
mov rax, [rbp+var_20]
mov rdx, rax
add rdx, 1
mov [rbp+var_20], rdx
mov [rax], cl
mov rax, [rbp+var_18]
and rax, 3Fh
or rax, 80h
mov cl, al
mov rax, [rbp+var_20]
mov [rax], cl
mov [rbp+var_4], 3
jmp short loc_B4AE0
loc_B4AD9:
mov [rbp+var_4], 0
loc_B4AE0:
mov eax, [rbp+var_4]
pop rbp
retn
| long long my_uni_utf8mb3(long long a1, unsigned long long a2, _BYTE *a3, unsigned long long a4)
{
if ( a2 >= 0x80 )
{
if ( a2 >= 0x800 )
{
if ( a2 >= 0x10000 )
{
return 0;
}
else if ( (unsigned long long)(a3 + 3) <= a4 )
{
*a3 = (a2 >> 12) | 0xE0;
a3[1] = (a2 >> 6) & 0x3F | 0x80;
a3[2] = a2 & 0x3F | 0x80;
return 3;
}
else
{
return (unsigned int)-103;
}
}
else if ( (unsigned long long)(a3 + 2) <= a4 )
{
*a3 = (a2 >> 6) | 0xC0;
a3[1] = a2 & 0x3F | 0x80;
return 2;
}
else
{
return (unsigned int)-102;
}
}
else if ( (unsigned long long)a3 < a4 )
{
*a3 = a2;
return 1;
}
else
{
return (unsigned int)-101;
}
}
| my_uni_utf8mb3:
PUSH RBP
MOV RBP,RSP
MOV qword ptr [RBP + -0x10],RDI
MOV qword ptr [RBP + -0x18],RSI
MOV qword ptr [RBP + -0x20],RDX
MOV qword ptr [RBP + -0x28],RCX
CMP qword ptr [RBP + -0x18],0x80
JNC 0x001b49ec
MOV RAX,qword ptr [RBP + -0x20]
CMP RAX,qword ptr [RBP + -0x28]
JC 0x001b49d4
MOV dword ptr [RBP + -0x4],0xffffff9b
JMP 0x001b4ae0
LAB_001b49d4:
MOV RAX,qword ptr [RBP + -0x18]
MOV CL,AL
MOV RAX,qword ptr [RBP + -0x20]
MOV byte ptr [RAX],CL
MOV dword ptr [RBP + -0x4],0x1
JMP 0x001b4ae0
LAB_001b49ec:
CMP qword ptr [RBP + -0x18],0x800
JNC 0x001b4a53
MOV RAX,qword ptr [RBP + -0x20]
ADD RAX,0x2
CMP RAX,qword ptr [RBP + -0x28]
JBE 0x001b4a10
MOV dword ptr [RBP + -0x4],0xffffff9a
JMP 0x001b4ae0
LAB_001b4a10:
MOV RAX,qword ptr [RBP + -0x18]
SHR RAX,0x6
OR RAX,0xc0
MOV CL,AL
MOV RAX,qword ptr [RBP + -0x20]
MOV RDX,RAX
ADD RDX,0x1
MOV qword ptr [RBP + -0x20],RDX
MOV byte ptr [RAX],CL
MOV RAX,qword ptr [RBP + -0x18]
AND RAX,0x3f
OR RAX,0x80
MOV CL,AL
MOV RAX,qword ptr [RBP + -0x20]
MOV byte ptr [RAX],CL
MOV dword ptr [RBP + -0x4],0x2
JMP 0x001b4ae0
LAB_001b4a53:
CMP qword ptr [RBP + -0x18],0x10000
JNC 0x001b4ad9
MOV RAX,qword ptr [RBP + -0x20]
ADD RAX,0x3
CMP RAX,qword ptr [RBP + -0x28]
JBE 0x001b4a74
MOV dword ptr [RBP + -0x4],0xffffff99
JMP 0x001b4ae0
LAB_001b4a74:
MOV RAX,qword ptr [RBP + -0x18]
SHR RAX,0xc
OR RAX,0xe0
MOV CL,AL
MOV RAX,qword ptr [RBP + -0x20]
MOV RDX,RAX
ADD RDX,0x1
MOV qword ptr [RBP + -0x20],RDX
MOV byte ptr [RAX],CL
MOV RAX,qword ptr [RBP + -0x18]
SHR RAX,0x6
AND RAX,0x3f
OR RAX,0x80
MOV CL,AL
MOV RAX,qword ptr [RBP + -0x20]
MOV RDX,RAX
ADD RDX,0x1
MOV qword ptr [RBP + -0x20],RDX
MOV byte ptr [RAX],CL
MOV RAX,qword ptr [RBP + -0x18]
AND RAX,0x3f
OR RAX,0x80
MOV CL,AL
MOV RAX,qword ptr [RBP + -0x20]
MOV byte ptr [RAX],CL
MOV dword ptr [RBP + -0x4],0x3
JMP 0x001b4ae0
LAB_001b4ad9:
MOV dword ptr [RBP + -0x4],0x0
LAB_001b4ae0:
MOV EAX,dword ptr [RBP + -0x4]
POP RBP
RET
|
int4 my_uni_utf8mb3(int8 param_1,ulong param_2,byte *param_3,byte *param_4)
{
byte bVar1;
int4 local_c;
bVar1 = (byte)param_2;
if (param_2 < 0x80) {
if (param_3 < param_4) {
*param_3 = bVar1;
local_c = 1;
}
else {
local_c = 0xffffff9b;
}
}
else if (param_2 < 0x800) {
if (param_4 < param_3 + 2) {
local_c = 0xffffff9a;
}
else {
*param_3 = (byte)(param_2 >> 6) | 0xc0;
param_3[1] = bVar1 & 0x3f | 0x80;
local_c = 2;
}
}
else if (param_2 < 0x10000) {
if (param_4 < param_3 + 3) {
local_c = 0xffffff99;
}
else {
*param_3 = (byte)(param_2 >> 0xc) | 0xe0;
param_3[1] = (byte)(param_2 >> 6) & 0x3f | 0x80;
param_3[2] = bVar1 & 0x3f | 0x80;
local_c = 3;
}
}
else {
local_c = 0;
}
return local_c;
}
|
|
4,484 | mysql_stmt_internal_reset | eloqsql/libmariadb/libmariadb/mariadb_stmt.c | static my_bool mysql_stmt_internal_reset(MYSQL_STMT *stmt, my_bool is_close)
{
MYSQL *mysql= stmt->mysql;
my_bool ret= 1;
unsigned int flags= MADB_RESET_LONGDATA | MADB_RESET_BUFFER | MADB_RESET_ERROR;
if (!mysql)
{
/* connection could be invalid, e.g. after mysql_stmt_close or failed reconnect
attempt (see bug CONC-97) */
SET_CLIENT_STMT_ERROR(stmt, CR_SERVER_LOST, SQLSTATE_UNKNOWN, 0);
return(1);
}
if (stmt->state >= MYSQL_STMT_USER_FETCHING &&
stmt->fetch_row_func == stmt_unbuffered_fetch)
flags|= MADB_RESET_BUFFER;
ret= madb_reset_stmt(stmt, flags);
if (stmt->stmt_id)
{
if ((stmt->state > MYSQL_STMT_EXECUTED &&
stmt->mysql->status != MYSQL_STATUS_READY) ||
stmt->mysql->server_status & SERVER_MORE_RESULTS_EXIST)
{
/* flush any pending (multiple) result sets */
if (stmt->state == MYSQL_STMT_WAITING_USE_OR_STORE)
{
stmt->default_rset_handler(stmt);
stmt->state = MYSQL_STMT_USER_FETCHING;
}
if (stmt->field_count)
{
while (mysql_stmt_next_result(stmt) == 0);
stmt->mysql->status= MYSQL_STATUS_READY;
}
}
if (!is_close)
ret= madb_reset_stmt(stmt, MADB_RESET_SERVER);
stmt->state= MYSQL_STMT_PREPARED;
}
else
stmt->state= MYSQL_STMT_INITTED;
stmt->upsert_status.affected_rows= mysql->affected_rows;
stmt->upsert_status.last_insert_id= mysql->insert_id;
stmt->upsert_status.server_status= mysql->server_status;
stmt->upsert_status.warning_count= mysql->warning_count;
mysql->status= MYSQL_STATUS_READY;
return(ret);
} | O0 | c | mysql_stmt_internal_reset:
pushq %rbp
movq %rsp, %rbp
subq $0x30, %rsp
movb %sil, %al
movq %rdi, -0x10(%rbp)
movb %al, -0x11(%rbp)
movq -0x10(%rbp), %rax
movq 0x38(%rax), %rax
movq %rax, -0x20(%rbp)
movb $0x1, -0x21(%rbp)
movl $0xb, -0x28(%rbp)
cmpq $0x0, -0x20(%rbp)
jne 0x35a2e
jmp 0x359c2
movq -0x10(%rbp), %rax
movl $0x7dd, 0x108(%rax) # imm = 0x7DD
movq -0x10(%rbp), %rdi
addq $0x30d, %rdi # imm = 0x30D
leaq 0x2d6be(%rip), %rax # 0x630a0
movq (%rax), %rsi
movl $0x5, %edx
callq 0x172e0
movq -0x10(%rbp), %rax
movb $0x0, 0x312(%rax)
movq -0x10(%rbp), %rdi
addq $0x10c, %rdi # imm = 0x10C
leaq 0x2d6a4(%rip), %rax # 0x630b0
movq 0x68(%rax), %rsi
movl $0x200, %edx # imm = 0x200
callq 0x172e0
movq -0x10(%rbp), %rax
movb $0x0, 0x30b(%rax)
movb $0x1, -0x1(%rbp)
jmp 0x35b91
movq -0x10(%rbp), %rax
cmpl $0x5, 0x50(%rax)
jb 0x35a55
movq -0x10(%rbp), %rax
leaq -0x2383(%rip), %rcx # 0x336c0
cmpq %rcx, 0x348(%rax)
jne 0x35a55
movl -0x28(%rbp), %eax
orl $0x8, %eax
movl %eax, -0x28(%rbp)
movq -0x10(%rbp), %rdi
movl -0x28(%rbp), %esi
callq 0x37090
movb %al, -0x21(%rbp)
movq -0x10(%rbp), %rax
cmpq $0x0, 0x40(%rax)
je 0x35b1e
movq -0x10(%rbp), %rax
cmpl $0x2, 0x50(%rax)
jbe 0x35a8e
movq -0x10(%rbp), %rax
movq 0x38(%rax), %rax
cmpl $0x0, 0x488(%rax)
jne 0x35aa4
movq -0x10(%rbp), %rax
movq 0x38(%rax), %rax
movl 0x380(%rax), %eax
andl $0x8, %eax
cmpl $0x0, %eax
je 0x35afa
movq -0x10(%rbp), %rax
cmpl $0x3, 0x50(%rax)
jne 0x35aca
movq -0x10(%rbp), %rax
movq 0x358(%rax), %rax
movq -0x10(%rbp), %rdi
callq *%rax
movq -0x10(%rbp), %rax
movl $0x5, 0x50(%rax)
movq -0x10(%rbp), %rax
cmpl $0x0, 0x60(%rax)
je 0x35af8
jmp 0x35ad6
movq -0x10(%rbp), %rdi
callq 0x171d0
cmpl $0x0, %eax
jne 0x35ae6
jmp 0x35ad6
movq -0x10(%rbp), %rax
movq 0x38(%rax), %rax
movl $0x0, 0x488(%rax)
jmp 0x35afa
cmpb $0x0, -0x11(%rbp)
jne 0x35b11
movq -0x10(%rbp), %rdi
movl $0x4, %esi
callq 0x37090
movb %al, -0x21(%rbp)
movq -0x10(%rbp), %rax
movl $0x1, 0x50(%rax)
jmp 0x35b29
movq -0x10(%rbp), %rax
movl $0x0, 0x50(%rax)
movq -0x20(%rbp), %rax
movq 0x338(%rax), %rcx
movq -0x10(%rbp), %rax
movq %rcx, 0xf8(%rax)
movq -0x20(%rbp), %rax
movq 0x340(%rax), %rcx
movq -0x10(%rbp), %rax
movq %rcx, 0x100(%rax)
movq -0x20(%rbp), %rax
movl 0x380(%rax), %ecx
movq -0x10(%rbp), %rax
movl %ecx, 0xf4(%rax)
movq -0x20(%rbp), %rax
movl 0x388(%rax), %ecx
movq -0x10(%rbp), %rax
movl %ecx, 0xf0(%rax)
movq -0x20(%rbp), %rax
movl $0x0, 0x488(%rax)
movb -0x21(%rbp), %al
movb %al, -0x1(%rbp)
movb -0x1(%rbp), %al
addq $0x30, %rsp
popq %rbp
retq
nopw (%rax,%rax)
| mysql_stmt_internal_reset:
push rbp
mov rbp, rsp
sub rsp, 30h
mov al, sil
mov [rbp+var_10], rdi
mov [rbp+var_11], al
mov rax, [rbp+var_10]
mov rax, [rax+38h]
mov [rbp+var_20], rax
mov [rbp+var_21], 1
mov [rbp+var_28], 0Bh
cmp [rbp+var_20], 0
jnz short loc_35A2E
jmp short $+2
loc_359C2:
mov rax, [rbp+var_10]
mov dword ptr [rax+108h], 7DDh
mov rdi, [rbp+var_10]
add rdi, 30Dh
lea rax, SQLSTATE_UNKNOWN
mov rsi, [rax]
mov edx, 5
call _strncpy
mov rax, [rbp+var_10]
mov byte ptr [rax+312h], 0
mov rdi, [rbp+var_10]
add rdi, 10Ch
lea rax, client_errors
mov rsi, [rax+68h]
mov edx, 200h
call _strncpy
mov rax, [rbp+var_10]
mov byte ptr [rax+30Bh], 0
mov [rbp+var_1], 1
jmp loc_35B91
loc_35A2E:
mov rax, [rbp+var_10]
cmp dword ptr [rax+50h], 5
jb short loc_35A55
mov rax, [rbp+var_10]
lea rcx, stmt_unbuffered_fetch
cmp [rax+348h], rcx
jnz short loc_35A55
mov eax, [rbp+var_28]
or eax, 8
mov [rbp+var_28], eax
loc_35A55:
mov rdi, [rbp+var_10]
mov esi, [rbp+var_28]
call madb_reset_stmt
mov [rbp+var_21], al
mov rax, [rbp+var_10]
cmp qword ptr [rax+40h], 0
jz loc_35B1E
mov rax, [rbp+var_10]
cmp dword ptr [rax+50h], 2
jbe short loc_35A8E
mov rax, [rbp+var_10]
mov rax, [rax+38h]
cmp dword ptr [rax+488h], 0
jnz short loc_35AA4
loc_35A8E:
mov rax, [rbp+var_10]
mov rax, [rax+38h]
mov eax, [rax+380h]
and eax, 8
cmp eax, 0
jz short loc_35AFA
loc_35AA4:
mov rax, [rbp+var_10]
cmp dword ptr [rax+50h], 3
jnz short loc_35ACA
mov rax, [rbp+var_10]
mov rax, [rax+358h]
mov rdi, [rbp+var_10]
call rax
mov rax, [rbp+var_10]
mov dword ptr [rax+50h], 5
loc_35ACA:
mov rax, [rbp+var_10]
cmp dword ptr [rax+60h], 0
jz short loc_35AF8
jmp short $+2
loc_35AD6:
mov rdi, [rbp+var_10]
call _mysql_stmt_next_result@libmariadbclient_18
cmp eax, 0
jnz short loc_35AE6
jmp short loc_35AD6
loc_35AE6:
mov rax, [rbp+var_10]
mov rax, [rax+38h]
mov dword ptr [rax+488h], 0
loc_35AF8:
jmp short $+2
loc_35AFA:
cmp [rbp+var_11], 0
jnz short loc_35B11
mov rdi, [rbp+var_10]
mov esi, 4
call madb_reset_stmt
mov [rbp+var_21], al
loc_35B11:
mov rax, [rbp+var_10]
mov dword ptr [rax+50h], 1
jmp short loc_35B29
loc_35B1E:
mov rax, [rbp+var_10]
mov dword ptr [rax+50h], 0
loc_35B29:
mov rax, [rbp+var_20]
mov rcx, [rax+338h]
mov rax, [rbp+var_10]
mov [rax+0F8h], rcx
mov rax, [rbp+var_20]
mov rcx, [rax+340h]
mov rax, [rbp+var_10]
mov [rax+100h], rcx
mov rax, [rbp+var_20]
mov ecx, [rax+380h]
mov rax, [rbp+var_10]
mov [rax+0F4h], ecx
mov rax, [rbp+var_20]
mov ecx, [rax+388h]
mov rax, [rbp+var_10]
mov [rax+0F0h], ecx
mov rax, [rbp+var_20]
mov dword ptr [rax+488h], 0
mov al, [rbp+var_21]
mov [rbp+var_1], al
loc_35B91:
mov al, [rbp+var_1]
add rsp, 30h
pop rbp
retn
| char mysql_stmt_internal_reset(long long a1, char a2)
{
char v3; // [rsp+Fh] [rbp-21h]
long long v4; // [rsp+10h] [rbp-20h]
v4 = *(_QWORD *)(a1 + 56);
if ( v4 )
{
v3 = madb_reset_stmt(a1, 11LL);
if ( *(_QWORD *)(a1 + 64) )
{
if ( *(_DWORD *)(a1 + 80) > 2u && *(_DWORD *)(*(_QWORD *)(a1 + 56) + 1160LL)
|| (*(_DWORD *)(*(_QWORD *)(a1 + 56) + 896LL) & 8) != 0 )
{
if ( *(_DWORD *)(a1 + 80) == 3 )
{
(*(void ( **)(long long))(a1 + 856))(a1);
*(_DWORD *)(a1 + 80) = 5;
}
if ( *(_DWORD *)(a1 + 96) )
{
while ( !(unsigned int)mysql_stmt_next_result_libmariadbclient_18(a1) )
;
*(_DWORD *)(*(_QWORD *)(a1 + 56) + 1160LL) = 0;
}
}
if ( !a2 )
v3 = madb_reset_stmt(a1, 4LL);
*(_DWORD *)(a1 + 80) = 1;
}
else
{
*(_DWORD *)(a1 + 80) = 0;
}
*(_QWORD *)(a1 + 248) = *(_QWORD *)(v4 + 824);
*(_QWORD *)(a1 + 256) = *(_QWORD *)(v4 + 832);
*(_DWORD *)(a1 + 244) = *(_DWORD *)(v4 + 896);
*(_DWORD *)(a1 + 240) = *(_DWORD *)(v4 + 904);
*(_DWORD *)(v4 + 1160) = 0;
return v3;
}
else
{
*(_DWORD *)(a1 + 264) = 2013;
strncpy(a1 + 781, SQLSTATE_UNKNOWN, 5LL);
*(_BYTE *)(a1 + 786) = 0;
strncpy(a1 + 268, client_errors[13], 512LL);
*(_BYTE *)(a1 + 779) = 0;
return 1;
}
}
| mysql_stmt_internal_reset:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x30
MOV AL,SIL
MOV qword ptr [RBP + -0x10],RDI
MOV byte ptr [RBP + -0x11],AL
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x38]
MOV qword ptr [RBP + -0x20],RAX
MOV byte ptr [RBP + -0x21],0x1
MOV dword ptr [RBP + -0x28],0xb
CMP qword ptr [RBP + -0x20],0x0
JNZ 0x00135a2e
JMP 0x001359c2
LAB_001359c2:
MOV RAX,qword ptr [RBP + -0x10]
MOV dword ptr [RAX + 0x108],0x7dd
MOV RDI,qword ptr [RBP + -0x10]
ADD RDI,0x30d
LEA RAX,[0x1630a0]
MOV RSI,qword ptr [RAX]
MOV EDX,0x5
CALL 0x001172e0
MOV RAX,qword ptr [RBP + -0x10]
MOV byte ptr [RAX + 0x312],0x0
MOV RDI,qword ptr [RBP + -0x10]
ADD RDI,0x10c
LEA RAX,[0x1630b0]
MOV RSI,qword ptr [RAX + 0x68]
MOV EDX,0x200
CALL 0x001172e0
MOV RAX,qword ptr [RBP + -0x10]
MOV byte ptr [RAX + 0x30b],0x0
MOV byte ptr [RBP + -0x1],0x1
JMP 0x00135b91
LAB_00135a2e:
MOV RAX,qword ptr [RBP + -0x10]
CMP dword ptr [RAX + 0x50],0x5
JC 0x00135a55
MOV RAX,qword ptr [RBP + -0x10]
LEA RCX,[0x1336c0]
CMP qword ptr [RAX + 0x348],RCX
JNZ 0x00135a55
MOV EAX,dword ptr [RBP + -0x28]
OR EAX,0x8
MOV dword ptr [RBP + -0x28],EAX
LAB_00135a55:
MOV RDI,qword ptr [RBP + -0x10]
MOV ESI,dword ptr [RBP + -0x28]
CALL 0x00137090
MOV byte ptr [RBP + -0x21],AL
MOV RAX,qword ptr [RBP + -0x10]
CMP qword ptr [RAX + 0x40],0x0
JZ 0x00135b1e
MOV RAX,qword ptr [RBP + -0x10]
CMP dword ptr [RAX + 0x50],0x2
JBE 0x00135a8e
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x38]
CMP dword ptr [RAX + 0x488],0x0
JNZ 0x00135aa4
LAB_00135a8e:
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x38]
MOV EAX,dword ptr [RAX + 0x380]
AND EAX,0x8
CMP EAX,0x0
JZ 0x00135afa
LAB_00135aa4:
MOV RAX,qword ptr [RBP + -0x10]
CMP dword ptr [RAX + 0x50],0x3
JNZ 0x00135aca
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x358]
MOV RDI,qword ptr [RBP + -0x10]
CALL RAX
MOV RAX,qword ptr [RBP + -0x10]
MOV dword ptr [RAX + 0x50],0x5
LAB_00135aca:
MOV RAX,qword ptr [RBP + -0x10]
CMP dword ptr [RAX + 0x60],0x0
JZ 0x00135af8
JMP 0x00135ad6
LAB_00135ad6:
MOV RDI,qword ptr [RBP + -0x10]
CALL 0x001171d0
CMP EAX,0x0
JNZ 0x00135ae6
JMP 0x00135ad6
LAB_00135ae6:
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x38]
MOV dword ptr [RAX + 0x488],0x0
LAB_00135af8:
JMP 0x00135afa
LAB_00135afa:
CMP byte ptr [RBP + -0x11],0x0
JNZ 0x00135b11
MOV RDI,qword ptr [RBP + -0x10]
MOV ESI,0x4
CALL 0x00137090
MOV byte ptr [RBP + -0x21],AL
LAB_00135b11:
MOV RAX,qword ptr [RBP + -0x10]
MOV dword ptr [RAX + 0x50],0x1
JMP 0x00135b29
LAB_00135b1e:
MOV RAX,qword ptr [RBP + -0x10]
MOV dword ptr [RAX + 0x50],0x0
LAB_00135b29:
MOV RAX,qword ptr [RBP + -0x20]
MOV RCX,qword ptr [RAX + 0x338]
MOV RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RAX + 0xf8],RCX
MOV RAX,qword ptr [RBP + -0x20]
MOV RCX,qword ptr [RAX + 0x340]
MOV RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RAX + 0x100],RCX
MOV RAX,qword ptr [RBP + -0x20]
MOV ECX,dword ptr [RAX + 0x380]
MOV RAX,qword ptr [RBP + -0x10]
MOV dword ptr [RAX + 0xf4],ECX
MOV RAX,qword ptr [RBP + -0x20]
MOV ECX,dword ptr [RAX + 0x388]
MOV RAX,qword ptr [RBP + -0x10]
MOV dword ptr [RAX + 0xf0],ECX
MOV RAX,qword ptr [RBP + -0x20]
MOV dword ptr [RAX + 0x488],0x0
MOV AL,byte ptr [RBP + -0x21]
MOV byte ptr [RBP + -0x1],AL
LAB_00135b91:
MOV AL,byte ptr [RBP + -0x1]
ADD RSP,0x30
POP RBP
RET
|
int1 mysql_stmt_internal_reset(long param_1,char param_2)
{
long lVar1;
int iVar2;
int1 local_29;
int1 local_9;
lVar1 = *(long *)(param_1 + 0x38);
if (lVar1 == 0) {
*(int4 *)(param_1 + 0x108) = 0x7dd;
strncpy((char *)(param_1 + 0x30d),SQLSTATE_UNKNOWN,5);
*(int1 *)(param_1 + 0x312) = 0;
strncpy((char *)(param_1 + 0x10c),PTR_s_Lost_connection_to_server_during_00163118,0x200);
*(int1 *)(param_1 + 0x30b) = 0;
local_9 = 1;
}
else {
local_29 = madb_reset_stmt(param_1,0xb);
if (*(long *)(param_1 + 0x40) == 0) {
*(int4 *)(param_1 + 0x50) = 0;
}
else {
if (((2 < *(uint *)(param_1 + 0x50)) && (*(int *)(*(long *)(param_1 + 0x38) + 0x488) != 0)) ||
((*(uint *)(*(long *)(param_1 + 0x38) + 0x380) & 8) != 0)) {
if (*(int *)(param_1 + 0x50) == 3) {
(**(code **)(param_1 + 0x358))(param_1);
*(int4 *)(param_1 + 0x50) = 5;
}
if (*(int *)(param_1 + 0x60) != 0) {
do {
iVar2 = mysql_stmt_next_result(param_1);
} while (iVar2 == 0);
*(int4 *)(*(long *)(param_1 + 0x38) + 0x488) = 0;
}
}
if (param_2 == '\0') {
local_29 = madb_reset_stmt(param_1,4);
}
*(int4 *)(param_1 + 0x50) = 1;
}
*(int8 *)(param_1 + 0xf8) = *(int8 *)(lVar1 + 0x338);
*(int8 *)(param_1 + 0x100) = *(int8 *)(lVar1 + 0x340);
*(int4 *)(param_1 + 0xf4) = *(int4 *)(lVar1 + 0x380);
*(int4 *)(param_1 + 0xf0) = *(int4 *)(lVar1 + 0x388);
*(int4 *)(lVar1 + 0x488) = 0;
local_9 = local_29;
}
return local_9;
}
|
|
4,485 | multadd | eloqsql/strings/dtoa.c | static Bigint *multadd(Bigint *b, int m, int a, Stack_alloc *alloc)
{
int i, wds;
ULong *x;
ULLong carry, y;
Bigint *b1;
wds= b->wds;
x= b->p.x;
i= 0;
carry= a;
do
{
y= *x * (ULLong)m + carry;
carry= y >> 32;
*x++= (ULong)(y & FFFFFFFF);
}
while (++i < wds);
if (carry)
{
if (wds >= b->maxwds)
{
b1= Balloc(b->k+1, alloc);
Bcopy(b1, b);
Bfree(b, alloc);
b= b1;
}
b->p.x[wds++]= (ULong) carry;
b->wds= wds;
}
return b;
} | O0 | c | multadd:
pushq %rbp
movq %rsp, %rbp
subq $0x40, %rsp
movq %rdi, -0x8(%rbp)
movl %esi, -0xc(%rbp)
movl %edx, -0x10(%rbp)
movq %rcx, -0x18(%rbp)
movq -0x8(%rbp), %rax
movl 0x14(%rax), %eax
movl %eax, -0x20(%rbp)
movq -0x8(%rbp), %rax
movq (%rax), %rax
movq %rax, -0x28(%rbp)
movl $0x0, -0x1c(%rbp)
movslq -0x10(%rbp), %rax
movq %rax, -0x30(%rbp)
movq -0x28(%rbp), %rax
movl (%rax), %eax
movslq -0xc(%rbp), %rcx
imulq %rcx, %rax
addq -0x30(%rbp), %rax
movq %rax, -0x38(%rbp)
movq -0x38(%rbp), %rax
shrq $0x20, %rax
movq %rax, -0x30(%rbp)
movabsq $0xffffffff, %rax # imm = 0xFFFFFFFF
andq -0x38(%rbp), %rax
movl %eax, %ecx
movq -0x28(%rbp), %rax
movq %rax, %rdx
addq $0x4, %rdx
movq %rdx, -0x28(%rbp)
movl %ecx, (%rax)
movl -0x1c(%rbp), %eax
addl $0x1, %eax
movl %eax, -0x1c(%rbp)
cmpl -0x20(%rbp), %eax
jl 0x75a2a
cmpq $0x0, -0x30(%rbp)
je 0x75b0b
movl -0x20(%rbp), %eax
movq -0x8(%rbp), %rcx
cmpl 0xc(%rcx), %eax
jl 0x75ae3
movq -0x8(%rbp), %rax
movl 0x8(%rax), %edi
addl $0x1, %edi
movq -0x18(%rbp), %rsi
callq 0x74d60
movq %rax, -0x40(%rbp)
movq -0x40(%rbp), %rdi
addq $0x10, %rdi
movq -0x8(%rbp), %rsi
addq $0x10, %rsi
movq -0x8(%rbp), %rax
movslq 0x14(%rax), %rdx
shlq $0x2, %rdx
addq $0x8, %rdx
callq 0x24260
movq -0x8(%rbp), %rdi
movq -0x18(%rbp), %rsi
callq 0x75410
movq -0x40(%rbp), %rax
movq %rax, -0x8(%rbp)
movq -0x30(%rbp), %rax
movl %eax, %edx
movq -0x8(%rbp), %rax
movq (%rax), %rax
movl -0x20(%rbp), %ecx
movl %ecx, %esi
addl $0x1, %esi
movl %esi, -0x20(%rbp)
movslq %ecx, %rcx
movl %edx, (%rax,%rcx,4)
movl -0x20(%rbp), %ecx
movq -0x8(%rbp), %rax
movl %ecx, 0x14(%rax)
movq -0x8(%rbp), %rax
addq $0x40, %rsp
popq %rbp
retq
nopw %cs:(%rax,%rax)
| multadd:
push rbp
mov rbp, rsp
sub rsp, 40h
mov [rbp+var_8], rdi
mov [rbp+var_C], esi
mov [rbp+var_10], edx
mov [rbp+var_18], rcx
mov rax, [rbp+var_8]
mov eax, [rax+14h]
mov [rbp+var_20], eax
mov rax, [rbp+var_8]
mov rax, [rax]
mov [rbp+var_28], rax
mov [rbp+var_1C], 0
movsxd rax, [rbp+var_10]
mov [rbp+var_30], rax
loc_75A2A:
mov rax, [rbp+var_28]
mov eax, [rax]
movsxd rcx, [rbp+var_C]
imul rax, rcx
add rax, [rbp+var_30]
mov [rbp+var_38], rax
mov rax, [rbp+var_38]
shr rax, 20h
mov [rbp+var_30], rax
mov rax, 0FFFFFFFFh
and rax, [rbp+var_38]
mov ecx, eax
mov rax, [rbp+var_28]
mov rdx, rax
add rdx, 4
mov [rbp+var_28], rdx
mov [rax], ecx
mov eax, [rbp+var_1C]
add eax, 1
mov [rbp+var_1C], eax
cmp eax, [rbp+var_20]
jl short loc_75A2A
cmp [rbp+var_30], 0
jz loc_75B0B
mov eax, [rbp+var_20]
mov rcx, [rbp+var_8]
cmp eax, [rcx+0Ch]
jl short loc_75AE3
mov rax, [rbp+var_8]
mov edi, [rax+8]
add edi, 1
mov rsi, [rbp+var_18]
call Balloc
mov [rbp+var_40], rax
mov rdi, [rbp+var_40]
add rdi, 10h
mov rsi, [rbp+var_8]
add rsi, 10h
mov rax, [rbp+var_8]
movsxd rdx, dword ptr [rax+14h]
shl rdx, 2
add rdx, 8
call _memcpy
mov rdi, [rbp+var_8]
mov rsi, [rbp+var_18]
call Bfree
mov rax, [rbp+var_40]
mov [rbp+var_8], rax
loc_75AE3:
mov rax, [rbp+var_30]
mov edx, eax
mov rax, [rbp+var_8]
mov rax, [rax]
mov ecx, [rbp+var_20]
mov esi, ecx
add esi, 1
mov [rbp+var_20], esi
movsxd rcx, ecx
mov [rax+rcx*4], edx
mov ecx, [rbp+var_20]
mov rax, [rbp+var_8]
mov [rax+14h], ecx
loc_75B0B:
mov rax, [rbp+var_8]
add rsp, 40h
pop rbp
retn
| unsigned long long multadd(unsigned long long a1, int a2, int a3, unsigned long long *a4)
{
unsigned int *v4; // rax
long long v6; // [rsp+0h] [rbp-40h]
unsigned long long v7; // [rsp+8h] [rbp-38h]
unsigned long long v8; // [rsp+10h] [rbp-30h]
unsigned int *v9; // [rsp+18h] [rbp-28h]
int v10; // [rsp+20h] [rbp-20h]
int v11; // [rsp+24h] [rbp-1Ch]
unsigned long long v13; // [rsp+38h] [rbp-8h]
v13 = a1;
v10 = *(_DWORD *)(a1 + 20);
v9 = *(unsigned int **)a1;
v11 = 0;
v8 = a3;
do
{
v7 = v8 + a2 * (unsigned long long)*v9;
v8 = HIDWORD(v7);
v4 = v9++;
*v4 = v7;
++v11;
}
while ( v11 < v10 );
if ( v8 )
{
if ( v10 >= *(_DWORD *)(a1 + 12) )
{
v6 = Balloc(*(_DWORD *)(a1 + 8) + 1, (long long)a4);
memcpy(v6 + 16, a1 + 16, 4LL * *(int *)(a1 + 20) + 8);
Bfree(a1, a4);
v13 = v6;
}
*(_DWORD *)(*(_QWORD *)v13 + 4LL * v10) = HIDWORD(v7);
*(_DWORD *)(v13 + 20) = v10 + 1;
}
return v13;
}
| multadd:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x40
MOV qword ptr [RBP + -0x8],RDI
MOV dword ptr [RBP + -0xc],ESI
MOV dword ptr [RBP + -0x10],EDX
MOV qword ptr [RBP + -0x18],RCX
MOV RAX,qword ptr [RBP + -0x8]
MOV EAX,dword ptr [RAX + 0x14]
MOV dword ptr [RBP + -0x20],EAX
MOV RAX,qword ptr [RBP + -0x8]
MOV RAX,qword ptr [RAX]
MOV qword ptr [RBP + -0x28],RAX
MOV dword ptr [RBP + -0x1c],0x0
MOVSXD RAX,dword ptr [RBP + -0x10]
MOV qword ptr [RBP + -0x30],RAX
LAB_00175a2a:
MOV RAX,qword ptr [RBP + -0x28]
MOV EAX,dword ptr [RAX]
MOVSXD RCX,dword ptr [RBP + -0xc]
IMUL RAX,RCX
ADD RAX,qword ptr [RBP + -0x30]
MOV qword ptr [RBP + -0x38],RAX
MOV RAX,qword ptr [RBP + -0x38]
SHR RAX,0x20
MOV qword ptr [RBP + -0x30],RAX
MOV RAX,0xffffffff
AND RAX,qword ptr [RBP + -0x38]
MOV ECX,EAX
MOV RAX,qword ptr [RBP + -0x28]
MOV RDX,RAX
ADD RDX,0x4
MOV qword ptr [RBP + -0x28],RDX
MOV dword ptr [RAX],ECX
MOV EAX,dword ptr [RBP + -0x1c]
ADD EAX,0x1
MOV dword ptr [RBP + -0x1c],EAX
CMP EAX,dword ptr [RBP + -0x20]
JL 0x00175a2a
CMP qword ptr [RBP + -0x30],0x0
JZ 0x00175b0b
MOV EAX,dword ptr [RBP + -0x20]
MOV RCX,qword ptr [RBP + -0x8]
CMP EAX,dword ptr [RCX + 0xc]
JL 0x00175ae3
MOV RAX,qword ptr [RBP + -0x8]
MOV EDI,dword ptr [RAX + 0x8]
ADD EDI,0x1
MOV RSI,qword ptr [RBP + -0x18]
CALL 0x00174d60
MOV qword ptr [RBP + -0x40],RAX
MOV RDI,qword ptr [RBP + -0x40]
ADD RDI,0x10
MOV RSI,qword ptr [RBP + -0x8]
ADD RSI,0x10
MOV RAX,qword ptr [RBP + -0x8]
MOVSXD RDX,dword ptr [RAX + 0x14]
SHL RDX,0x2
ADD RDX,0x8
CALL 0x00124260
MOV RDI,qword ptr [RBP + -0x8]
MOV RSI,qword ptr [RBP + -0x18]
CALL 0x00175410
MOV RAX,qword ptr [RBP + -0x40]
MOV qword ptr [RBP + -0x8],RAX
LAB_00175ae3:
MOV RAX,qword ptr [RBP + -0x30]
MOV EDX,EAX
MOV RAX,qword ptr [RBP + -0x8]
MOV RAX,qword ptr [RAX]
MOV ECX,dword ptr [RBP + -0x20]
MOV ESI,ECX
ADD ESI,0x1
MOV dword ptr [RBP + -0x20],ESI
MOVSXD RCX,ECX
MOV dword ptr [RAX + RCX*0x4],EDX
MOV ECX,dword ptr [RBP + -0x20]
MOV RAX,qword ptr [RBP + -0x8]
MOV dword ptr [RAX + 0x14],ECX
LAB_00175b0b:
MOV RAX,qword ptr [RBP + -0x8]
ADD RSP,0x40
POP RBP
RET
|
long * multadd(long *param_1,int param_2,int param_3,int8 param_4)
{
int iVar1;
ulong uVar2;
ulong local_38;
uint *local_30;
int local_24;
long *local_10;
iVar1 = *(int *)((long)param_1 + 0x14);
local_24 = 0;
local_38 = (ulong)param_3;
local_30 = (uint *)*param_1;
do {
uVar2 = (ulong)*local_30 * (long)param_2 + local_38;
local_38 = uVar2 >> 0x20;
*local_30 = (uint)uVar2;
local_24 = local_24 + 1;
local_30 = local_30 + 1;
} while (local_24 < iVar1);
local_10 = param_1;
if (local_38 != 0) {
if (*(int *)((long)param_1 + 0xc) <= iVar1) {
local_10 = (long *)Balloc((int)param_1[1] + 1,param_4);
memcpy(local_10 + 2,param_1 + 2,(long)*(int *)((long)param_1 + 0x14) * 4 + 8);
Bfree(param_1,param_4);
}
*(int *)(*local_10 + (long)iVar1 * 4) = (int)(uVar2 >> 0x20);
*(int *)((long)local_10 + 0x14) = iVar1 + 1;
}
return local_10;
}
|
|
4,486 | blst_scalar_from_le_bytes | corpus-core[P]colibri-stateless/build_O0/_deps/blst-src/src/exports.c | int blst_scalar_from_le_bytes(pow256 out, const unsigned char *bytes, size_t n)
{
size_t rem = (n - 1) % 32 + 1;
struct { vec256 out, digit; } t;
limb_t ret;
vec_zero(t.out, sizeof(t.out));
n -= rem;
limbs_from_le_bytes(t.out, bytes += n, rem);
mul_mont_sparse_256(t.out, BLS12_381_rRR, t.out, BLS12_381_r, r0);
while (n) {
limbs_from_le_bytes(t.digit, bytes -= 32, 32);
add_mod_256(t.out, t.out, t.digit, BLS12_381_r);
mul_mont_sparse_256(t.out, BLS12_381_rRR, t.out, BLS12_381_r, r0);
n -= 32;
}
from_mont_256(t.out, t.out, BLS12_381_r, r0);
ret = vec_is_zero(t.out, sizeof(t.out));
le_bytes_from_limbs(out, t.out, 32);
vec_zero(&t, sizeof(t));
return (int)(ret^1);
} | O0 | c | blst_scalar_from_le_bytes:
pushq %rbp
movq %rsp, %rbp
subq $0x70, %rsp
movq %rdi, -0x8(%rbp)
movq %rsi, -0x10(%rbp)
movq %rdx, -0x18(%rbp)
movq -0x18(%rbp), %rax
subq $0x1, %rax
andq $0x1f, %rax
addq $0x1, %rax
movq %rax, -0x20(%rbp)
leaq -0x60(%rbp), %rdi
movl $0x20, %esi
callq 0xa87c0
movq -0x20(%rbp), %rcx
movq -0x18(%rbp), %rax
subq %rcx, %rax
movq %rax, -0x18(%rbp)
leaq -0x60(%rbp), %rdi
movq -0x18(%rbp), %rsi
addq -0x10(%rbp), %rsi
movq %rsi, -0x10(%rbp)
movq -0x20(%rbp), %rdx
callq 0xb58e0
leaq -0x60(%rbp), %rdi
leaq -0x60(%rbp), %rdx
leaq 0x31873(%rip), %rsi # 0xe8720
leaq 0x3135c(%rip), %rcx # 0xe8210
movabsq $-0x100000001, %r8 # imm = 0xFFFFFFFEFFFFFFFF
callq 0xcc6c0
cmpq $0x0, -0x18(%rbp)
je 0xb6f37
leaq -0x60(%rbp), %rdi
addq $0x20, %rdi
movq -0x10(%rbp), %rsi
addq $-0x20, %rsi
movq %rsi, -0x10(%rbp)
movl $0x20, %edx
callq 0xb58e0
leaq -0x60(%rbp), %rdi
leaq -0x60(%rbp), %rsi
leaq -0x60(%rbp), %rdx
addq $0x20, %rdx
leaq 0x31311(%rip), %rcx # 0xe8210
callq 0xccdc0
leaq -0x60(%rbp), %rdi
leaq -0x60(%rbp), %rdx
leaq 0x3180d(%rip), %rsi # 0xe8720
leaq 0x312f6(%rip), %rcx # 0xe8210
movabsq $-0x100000001, %r8 # imm = 0xFFFFFFFEFFFFFFFF
callq 0xcc6c0
movq -0x18(%rbp), %rax
subq $0x20, %rax
movq %rax, -0x18(%rbp)
jmp 0xb6ec3
leaq -0x60(%rbp), %rdi
leaq -0x60(%rbp), %rsi
leaq 0x312ca(%rip), %rdx # 0xe8210
movabsq $-0x100000001, %rcx # imm = 0xFFFFFFFEFFFFFFFF
callq 0xccae0
leaq -0x60(%rbp), %rdi
movl $0x20, %esi
callq 0xa8cd0
movq %rax, -0x68(%rbp)
movq -0x8(%rbp), %rdi
leaq -0x60(%rbp), %rsi
movl $0x20, %edx
callq 0xb59f0
leaq -0x60(%rbp), %rdi
movl $0x40, %esi
callq 0xa87c0
movq -0x68(%rbp), %rax
xorq $0x1, %rax
addq $0x70, %rsp
popq %rbp
retq
nopw %cs:(%rax,%rax)
nop
| blst_scalar_from_le_bytes:
push rbp
mov rbp, rsp
sub rsp, 70h
mov [rbp+var_8], rdi
mov [rbp+var_10], rsi
mov [rbp+var_18], rdx
mov rax, [rbp+var_18]
sub rax, 1
and rax, 1Fh
add rax, 1
mov [rbp+var_20], rax
lea rdi, [rbp+var_60]
mov esi, 20h ; ' '
call vec_zero
mov rcx, [rbp+var_20]
mov rax, [rbp+var_18]
sub rax, rcx
mov [rbp+var_18], rax
lea rdi, [rbp+var_60]
mov rsi, [rbp+var_18]
add rsi, [rbp+var_10]
mov [rbp+var_10], rsi
mov rdx, [rbp+var_20]
call limbs_from_le_bytes
lea rdi, [rbp+var_60]
lea rdx, [rbp+var_60]
lea rsi, BLS12_381_rRR
lea rcx, BLS12_381_r
mov r8, 0FFFFFFFEFFFFFFFFh
call mul_mont_sparse_256
loc_B6EC3:
cmp [rbp+var_18], 0
jz short loc_B6F37
lea rdi, [rbp+var_60]
add rdi, 20h ; ' '
mov rsi, [rbp+var_10]
add rsi, 0FFFFFFFFFFFFFFE0h
mov [rbp+var_10], rsi
mov edx, 20h ; ' '
call limbs_from_le_bytes
lea rdi, [rbp+var_60]
lea rsi, [rbp+var_60]
lea rdx, [rbp+var_60]
add rdx, 20h ; ' '
lea rcx, BLS12_381_r
call add_mod_256
lea rdi, [rbp+var_60]
lea rdx, [rbp+var_60]
lea rsi, BLS12_381_rRR
lea rcx, BLS12_381_r
mov r8, 0FFFFFFFEFFFFFFFFh
call mul_mont_sparse_256
mov rax, [rbp+var_18]
sub rax, 20h ; ' '
mov [rbp+var_18], rax
jmp short loc_B6EC3
loc_B6F37:
lea rdi, [rbp+var_60]
lea rsi, [rbp+var_60]
lea rdx, BLS12_381_r
mov rcx, 0FFFFFFFEFFFFFFFFh
call from_mont_256
lea rdi, [rbp+var_60]
mov esi, 20h ; ' '
call vec_is_zero
mov [rbp+var_68], rax
mov rdi, [rbp+var_8]
lea rsi, [rbp+var_60]
mov edx, 20h ; ' '
call le_bytes_from_limbs
lea rdi, [rbp+var_60]
mov esi, 40h ; '@'
call vec_zero
mov rax, [rbp+var_68]
xor rax, 1
add rsp, 70h
pop rbp
retn
| long long blst_scalar_from_le_bytes(_BYTE *a1, long long a2, long long a3)
{
unsigned long long is_zero; // [rsp+8h] [rbp-68h]
_BYTE v5[32]; // [rsp+10h] [rbp-60h] BYREF
_BYTE v6[32]; // [rsp+30h] [rbp-40h] BYREF
unsigned long long v7; // [rsp+50h] [rbp-20h]
long long v8; // [rsp+58h] [rbp-18h]
long long v9; // [rsp+60h] [rbp-10h]
_BYTE *v10; // [rsp+68h] [rbp-8h]
v10 = a1;
v9 = a2;
v8 = a3;
v7 = (((_BYTE)a3 - 1) & 0x1F) + 1LL;
vec_zero((long long)v5, 0x20uLL);
v8 -= v7;
v9 += v8;
limbs_from_le_bytes((long long)v5, v9, v7);
mul_mont_sparse_256(v5, &BLS12_381_rRR, v5, &BLS12_381_r, 0xFFFFFFFEFFFFFFFFLL);
while ( v8 )
{
v9 -= 32LL;
limbs_from_le_bytes((long long)v6, v9, 0x20uLL);
add_mod_256(v5, v5, v6, &BLS12_381_r);
mul_mont_sparse_256(v5, &BLS12_381_rRR, v5, &BLS12_381_r, 0xFFFFFFFEFFFFFFFFLL);
v8 -= 32LL;
}
from_mont_256(v5, v5, &BLS12_381_r, 0xFFFFFFFEFFFFFFFFLL);
is_zero = vec_is_zero((long long)v5, 0x20uLL);
le_bytes_from_limbs(v10, v5, 0x20uLL);
vec_zero((long long)v5, 0x40uLL);
return is_zero ^ 1;
}
| blst_scalar_from_le_bytes:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x70
MOV qword ptr [RBP + -0x8],RDI
MOV qword ptr [RBP + -0x10],RSI
MOV qword ptr [RBP + -0x18],RDX
MOV RAX,qword ptr [RBP + -0x18]
SUB RAX,0x1
AND RAX,0x1f
ADD RAX,0x1
MOV qword ptr [RBP + -0x20],RAX
LEA RDI,[RBP + -0x60]
MOV ESI,0x20
CALL 0x001a87c0
MOV RCX,qword ptr [RBP + -0x20]
MOV RAX,qword ptr [RBP + -0x18]
SUB RAX,RCX
MOV qword ptr [RBP + -0x18],RAX
LEA RDI,[RBP + -0x60]
MOV RSI,qword ptr [RBP + -0x18]
ADD RSI,qword ptr [RBP + -0x10]
MOV qword ptr [RBP + -0x10],RSI
MOV RDX,qword ptr [RBP + -0x20]
CALL 0x001b58e0
LEA RDI,[RBP + -0x60]
LEA RDX,[RBP + -0x60]
LEA RSI,[0x1e8720]
LEA RCX,[0x1e8210]
MOV R8,-0x100000001
CALL 0x001cc6c0
LAB_001b6ec3:
CMP qword ptr [RBP + -0x18],0x0
JZ 0x001b6f37
LEA RDI,[RBP + -0x60]
ADD RDI,0x20
MOV RSI,qword ptr [RBP + -0x10]
ADD RSI,-0x20
MOV qword ptr [RBP + -0x10],RSI
MOV EDX,0x20
CALL 0x001b58e0
LEA RDI,[RBP + -0x60]
LEA RSI,[RBP + -0x60]
LEA RDX,[RBP + -0x60]
ADD RDX,0x20
LEA RCX,[0x1e8210]
CALL 0x001ccdc0
LEA RDI,[RBP + -0x60]
LEA RDX,[RBP + -0x60]
LEA RSI,[0x1e8720]
LEA RCX,[0x1e8210]
MOV R8,-0x100000001
CALL 0x001cc6c0
MOV RAX,qword ptr [RBP + -0x18]
SUB RAX,0x20
MOV qword ptr [RBP + -0x18],RAX
JMP 0x001b6ec3
LAB_001b6f37:
LEA RDI,[RBP + -0x60]
LEA RSI,[RBP + -0x60]
LEA RDX,[0x1e8210]
MOV RCX,-0x100000001
CALL 0x001ccae0
LEA RDI,[RBP + -0x60]
MOV ESI,0x20
CALL 0x001a8cd0
MOV qword ptr [RBP + -0x68],RAX
MOV RDI,qword ptr [RBP + -0x8]
LEA RSI,[RBP + -0x60]
MOV EDX,0x20
CALL 0x001b59f0
LEA RDI,[RBP + -0x60]
MOV ESI,0x40
CALL 0x001a87c0
MOV RAX,qword ptr [RBP + -0x68]
XOR RAX,0x1
ADD RSP,0x70
POP RBP
RET
|
ulong blst_scalar_from_le_bytes(int8 param_1,long param_2,long param_3)
{
ulong uVar1;
int1 local_68 [32];
int1 auStack_48 [32];
long local_28;
long local_20;
long local_18;
int8 local_10;
local_28 = (param_3 - 1U & 0x1f) + 1;
local_20 = param_3;
local_18 = param_2;
local_10 = param_1;
vec_zero(local_68,0x20);
local_20 = local_20 - local_28;
local_18 = local_20 + local_18;
limbs_from_le_bytes(local_68,local_18,local_28);
mul_mont_sparse_256(local_68,BLS12_381_rRR,local_68,BLS12_381_r,0xfffffffeffffffff);
for (; local_20 != 0; local_20 = local_20 + -0x20) {
local_18 = local_18 + -0x20;
limbs_from_le_bytes(auStack_48,local_18,0x20);
add_mod_256(local_68,local_68,auStack_48,BLS12_381_r);
mul_mont_sparse_256(local_68,BLS12_381_rRR,local_68,BLS12_381_r,0xfffffffeffffffff);
}
from_mont_256(local_68,local_68,BLS12_381_r,0xfffffffeffffffff);
uVar1 = vec_is_zero(local_68,0x20);
le_bytes_from_limbs(local_10,local_68,0x20);
vec_zero(local_68,0x40);
return uVar1 ^ 1;
}
|
|
4,487 | run_plugin_auth | eloqsql/libmariadb/plugins/auth/my_auth.c | int run_plugin_auth(MYSQL *mysql, char *data, uint data_len,
const char *data_plugin, const char *db)
{
const char *auth_plugin_name= NULL;
auth_plugin_t *auth_plugin;
MCPVIO_EXT mpvio;
ulong pkt_length;
int res;
/* determine the default/initial plugin to use */
if (mysql->server_capabilities & CLIENT_PLUGIN_AUTH)
{
if (mysql->options.extension && mysql->options.extension->default_auth)
auth_plugin_name= mysql->options.extension->default_auth;
else if (data_plugin)
auth_plugin_name= data_plugin;
}
if (!auth_plugin_name)
{
if (mysql->server_capabilities & CLIENT_PROTOCOL_41)
auth_plugin_name= native_password_plugin_name;
else
auth_plugin_name= "mysql_old_password";
}
if (!(auth_plugin= (auth_plugin_t*) mysql_client_find_plugin(mysql,
auth_plugin_name, MYSQL_CLIENT_AUTHENTICATION_PLUGIN)))
auth_plugin= &dummy_fallback_client_plugin;
mysql->net.last_errno= 0; /* just in case */
if (data_plugin && strcmp(data_plugin, auth_plugin_name))
{
/* data was prepared for a different plugin, so we don't
send any data */
data= 0;
data_len= 0;
}
mpvio.mysql_change_user= data_plugin == 0;
mpvio.cached_server_reply.pkt= (uchar*)data;
mpvio.cached_server_reply.pkt_len= data_len;
mpvio.read_packet= client_mpvio_read_packet;
mpvio.write_packet= client_mpvio_write_packet;
mpvio.info= client_mpvio_info;
mpvio.mysql= mysql;
mpvio.packets_read= mpvio.packets_written= 0;
mpvio.db= db;
retry:
mpvio.plugin= auth_plugin;
if (auth_plugin_name &&
mysql->options.extension &&
mysql->options.extension->restricted_auth)
{
if (!strstr(mysql->options.extension->restricted_auth, auth_plugin_name))
{
my_set_error(mysql, CR_PLUGIN_NOT_ALLOWED, SQLSTATE_UNKNOWN, 0, data_plugin);
return 1;
}
}
mysql->net.read_pos[0]= 0;
res= auth_plugin->authenticate_user((struct st_plugin_vio *)&mpvio, mysql);
if ((res == CR_ERROR && !mysql->net.buff) ||
(res > CR_OK && mysql->net.read_pos[0] != 254))
{
/*
the plugin returned an error. write it down in mysql,
unless the error code is CR_ERROR and mysql->net.last_errno
is already set (the plugin has done it)
*/
if (res > CR_ERROR)
my_set_error(mysql, res, SQLSTATE_UNKNOWN, 0);
else
if (!mysql->net.last_errno) {
my_set_error(mysql, CR_UNKNOWN_ERROR, SQLSTATE_UNKNOWN, 0);
}
return 1;
}
/* read the OK packet (or use the cached value in mysql->net.read_pos */
if (res == CR_OK)
pkt_length= ma_net_safe_read(mysql);
else /* res == CR_OK_HANDSHAKE_COMPLETE or an error */
pkt_length= mpvio.last_read_packet_len;
if (pkt_length == packet_error)
{
if (mysql->net.last_errno == CR_SERVER_LOST)
my_set_error(mysql, CR_SERVER_LOST, SQLSTATE_UNKNOWN,
ER(CR_SERVER_LOST_EXTENDED),
"reading authorization packet",
errno);
return 1;
}
if (mysql->net.read_pos[0] == 254)
{
/* The server asked to use a different authentication plugin */
if (pkt_length == 1)
{
/* old "use short scramble" packet */
auth_plugin_name= old_password_plugin_name;
mpvio.cached_server_reply.pkt= (uchar*)mysql->scramble_buff;
mpvio.cached_server_reply.pkt_len= SCRAMBLE_LENGTH + 1;
}
else
{
/* new "use different plugin" packet */
uint len;
auth_plugin_name= (char*)mysql->net.read_pos + 1;
len= (uint)strlen(auth_plugin_name); /* safe as ma_net_read always appends \0 */
mpvio.cached_server_reply.pkt_len= pkt_length - len - 2;
mpvio.cached_server_reply.pkt= mysql->net.read_pos + len + 2;
}
if (!(auth_plugin= (auth_plugin_t *) mysql_client_find_plugin(mysql,
auth_plugin_name, MYSQL_CLIENT_AUTHENTICATION_PLUGIN)))
auth_plugin= &dummy_fallback_client_plugin;
goto retry;
}
/*
net->read_pos[0] should always be 0 here if the server implements
the protocol correctly
*/
if (mysql->net.read_pos[0] == 0)
return ma_read_ok_packet(mysql, mysql->net.read_pos + 1, pkt_length);
return 1;
} | O0 | c | run_plugin_auth:
pushq %rbp
movq %rsp, %rbp
subq $0xc0, %rsp
movq %rdi, -0x10(%rbp)
movq %rsi, -0x18(%rbp)
movl %edx, -0x1c(%rbp)
movq %rcx, -0x28(%rbp)
movq %r8, -0x30(%rbp)
movq $0x0, -0x38(%rbp)
movq -0x10(%rbp), %rax
movq 0x370(%rax), %rax
andq $0x80000, %rax # imm = 0x80000
cmpq $0x0, %rax
je 0x444c5
movq -0x10(%rbp), %rax
cmpq $0x0, 0x480(%rax)
je 0x444b2
movq -0x10(%rbp), %rax
movq 0x480(%rax), %rax
cmpq $0x0, 0x8(%rax)
je 0x444b2
movq -0x10(%rbp), %rax
movq 0x480(%rax), %rax
movq 0x8(%rax), %rax
movq %rax, -0x38(%rbp)
jmp 0x444c3
cmpq $0x0, -0x28(%rbp)
je 0x444c1
movq -0x28(%rbp), %rax
movq %rax, -0x38(%rbp)
jmp 0x444c3
jmp 0x444c5
cmpq $0x0, -0x38(%rbp)
jne 0x444fd
movq -0x10(%rbp), %rax
movq 0x370(%rax), %rax
andq $0x200, %rax # imm = 0x200
cmpq $0x0, %rax
je 0x444f0
leaq 0xdec2(%rip), %rax # 0x523ac
movq %rax, -0x38(%rbp)
jmp 0x444fb
leaq 0xdea2(%rip), %rax # 0x52399
movq %rax, -0x38(%rbp)
jmp 0x444fd
movq -0x10(%rbp), %rdi
movq -0x38(%rbp), %rsi
movl $0x2, %edx
callq 0x3add0
movq %rax, -0x40(%rbp)
cmpq $0x0, %rax
jne 0x44524
leaq 0x21bf8(%rip), %rax # 0x66118
movq %rax, -0x40(%rbp)
movq -0x10(%rbp), %rax
movl $0x0, 0x90(%rax)
cmpq $0x0, -0x28(%rbp)
je 0x4455a
movq -0x28(%rbp), %rdi
movq -0x38(%rbp), %rsi
callq 0x135f0
cmpl $0x0, %eax
je 0x4455a
movq $0x0, -0x18(%rbp)
movl $0x0, -0x1c(%rbp)
cmpq $0x0, -0x28(%rbp)
sete %al
andb $0x1, %al
movzbl %al, %eax
movb %al, -0x48(%rbp)
movq -0x18(%rbp), %rax
movq %rax, -0x60(%rbp)
movl -0x1c(%rbp), %eax
movl %eax, -0x58(%rbp)
leaq 0x331(%rip), %rax # 0x448b0
movq %rax, -0x90(%rbp)
leaq 0x463(%rip), %rax # 0x449f0
movq %rax, -0x88(%rbp)
leaq 0x5a5(%rip), %rax # 0x44b40
movq %rax, -0x80(%rbp)
movq -0x10(%rbp), %rax
movq %rax, -0x78(%rbp)
movl $0x0, -0x4c(%rbp)
movl $0x0, -0x50(%rbp)
movq -0x30(%rbp), %rax
movq %rax, -0x68(%rbp)
movq -0x40(%rbp), %rax
movq %rax, -0x70(%rbp)
cmpq $0x0, -0x38(%rbp)
je 0x44640
movq -0x10(%rbp), %rax
cmpq $0x0, 0x480(%rax)
je 0x44640
movq -0x10(%rbp), %rax
movq 0x480(%rax), %rax
cmpq $0x0, 0x150(%rax)
je 0x44640
movq -0x10(%rbp), %rax
movq 0x480(%rax), %rax
movq 0x150(%rax), %rdi
movq -0x38(%rbp), %rsi
callq 0x13100
cmpq $0x0, %rax
jne 0x4463e
movq -0x10(%rbp), %rdi
leaq 0x22b35(%rip), %rax # 0x67150
movq (%rax), %rdx
movq -0x28(%rbp), %r8
movl $0x1392, %esi # imm = 0x1392
xorl %eax, %eax
movl %eax, %ecx
movb $0x0, %al
callq 0x1ab90
movl $0x1, -0x4(%rbp)
jmp 0x4489e
jmp 0x44640
movq -0x10(%rbp), %rax
movq 0x20(%rax), %rax
movb $0x0, (%rax)
movq -0x40(%rbp), %rax
movq 0x58(%rax), %rax
movq -0x10(%rbp), %rsi
leaq -0x90(%rbp), %rdi
callq *%rax
movl %eax, -0x9c(%rbp)
cmpl $0x0, -0x9c(%rbp)
jne 0x4467a
movq -0x10(%rbp), %rax
cmpq $0x0, 0x8(%rax)
je 0x44695
cmpl $-0x1, -0x9c(%rbp)
jle 0x446f8
movq -0x10(%rbp), %rax
movq 0x20(%rax), %rax
movzbl (%rax), %eax
cmpl $0xfe, %eax
je 0x446f8
cmpl $0x0, -0x9c(%rbp)
jle 0x446bf
movq -0x10(%rbp), %rdi
movl -0x9c(%rbp), %esi
leaq 0x22aa1(%rip), %rax # 0x67150
movq (%rax), %rdx
xorl %eax, %eax
movl %eax, %ecx
movb $0x0, %al
callq 0x1ab90
jmp 0x446ec
movq -0x10(%rbp), %rax
cmpl $0x0, 0x90(%rax)
jne 0x446ea
movq -0x10(%rbp), %rdi
leaq 0x22a79(%rip), %rax # 0x67150
movq (%rax), %rdx
movl $0x7d0, %esi # imm = 0x7D0
xorl %eax, %eax
movl %eax, %ecx
movb $0x0, %al
callq 0x1ab90
jmp 0x446ec
movl $0x1, -0x4(%rbp)
jmp 0x4489e
cmpl $-0x1, -0x9c(%rbp)
jne 0x44713
movq -0x10(%rbp), %rdi
callq 0x1a880
movq %rax, -0x98(%rbp)
jmp 0x4471e
movslq -0x44(%rbp), %rax
movq %rax, -0x98(%rbp)
movl $0xffffffff, %eax # imm = 0xFFFFFFFF
cmpq %rax, -0x98(%rbp)
jne 0x447a9
movq -0x10(%rbp), %rax
cmpl $0x7dd, 0x90(%rax) # imm = 0x7DD
jne 0x4479d
movq -0x10(%rbp), %rax
movq %rax, -0xb8(%rbp)
leaq 0x22a02(%rip), %rax # 0x67150
movq (%rax), %rax
movq %rax, -0xb0(%rbp)
leaq 0x22a01(%rip), %rax # 0x67160
movq 0x1b8(%rax), %rax
movq %rax, -0xa8(%rbp)
callq 0x13050
movq -0xb8(%rbp), %rdi
movq -0xb0(%rbp), %rdx
movq -0xa8(%rbp), %rcx
movl (%rax), %r9d
movl $0x7dd, %esi # imm = 0x7DD
leaq 0xe175(%rip), %r8 # 0x5290b
movb $0x0, %al
callq 0x1ab90
movl $0x1, -0x4(%rbp)
jmp 0x4489e
movq -0x10(%rbp), %rax
movq 0x20(%rax), %rax
movzbl (%rax), %eax
cmpl $0xfe, %eax
jne 0x44866
cmpq $0x1, -0x98(%rbp)
jne 0x447eb
leaq 0xdbc9(%rip), %rax # 0x52399
movq %rax, -0x38(%rbp)
movq -0x10(%rbp), %rax
addq $0x48e, %rax # imm = 0x48E
movq %rax, -0x60(%rbp)
movl $0x15, -0x58(%rbp)
jmp 0x4483a
movq -0x10(%rbp), %rax
movq 0x20(%rax), %rax
addq $0x1, %rax
movq %rax, -0x38(%rbp)
movq -0x38(%rbp), %rdi
callq 0x131a0
movl %eax, -0xa0(%rbp)
movq -0x98(%rbp), %rax
movl -0xa0(%rbp), %ecx
subq %rcx, %rax
subq $0x2, %rax
movl %eax, -0x58(%rbp)
movq -0x10(%rbp), %rax
movq 0x20(%rax), %rax
movl -0xa0(%rbp), %ecx
addq %rcx, %rax
addq $0x2, %rax
movq %rax, -0x60(%rbp)
movq -0x10(%rbp), %rdi
movq -0x38(%rbp), %rsi
movl $0x2, %edx
callq 0x3add0
movq %rax, -0x40(%rbp)
cmpq $0x0, %rax
jne 0x44861
leaq 0x218bb(%rip), %rax # 0x66118
movq %rax, -0x40(%rbp)
jmp 0x445bd
movq -0x10(%rbp), %rax
movq 0x20(%rax), %rax
movzbl (%rax), %eax
cmpl $0x0, %eax
jne 0x44897
movq -0x10(%rbp), %rdi
movq -0x10(%rbp), %rax
movq 0x20(%rax), %rsi
addq $0x1, %rsi
movq -0x98(%rbp), %rdx
callq 0x232b0
movl %eax, -0x4(%rbp)
jmp 0x4489e
movl $0x1, -0x4(%rbp)
movl -0x4(%rbp), %eax
addq $0xc0, %rsp
popq %rbp
retq
nopw (%rax,%rax)
| run_plugin_auth:
push rbp
mov rbp, rsp
sub rsp, 0C0h
mov [rbp+var_10], rdi
mov [rbp+var_18], rsi
mov [rbp+var_1C], edx
mov [rbp+var_28], rcx
mov [rbp+var_30], r8
mov [rbp+var_38], 0
mov rax, [rbp+var_10]
mov rax, [rax+370h]
and rax, 80000h
cmp rax, 0
jz short loc_444C5
mov rax, [rbp+var_10]
cmp qword ptr [rax+480h], 0
jz short loc_444B2
mov rax, [rbp+var_10]
mov rax, [rax+480h]
cmp qword ptr [rax+8], 0
jz short loc_444B2
mov rax, [rbp+var_10]
mov rax, [rax+480h]
mov rax, [rax+8]
mov [rbp+var_38], rax
jmp short loc_444C3
loc_444B2:
cmp [rbp+var_28], 0
jz short loc_444C1
mov rax, [rbp+var_28]
mov [rbp+var_38], rax
loc_444C1:
jmp short $+2
loc_444C3:
jmp short $+2
loc_444C5:
cmp [rbp+var_38], 0
jnz short loc_444FD
mov rax, [rbp+var_10]
mov rax, [rax+370h]
and rax, 200h
cmp rax, 0
jz short loc_444F0
lea rax, aMysqlNativePas; "mysql_native_password"
mov [rbp+var_38], rax
jmp short loc_444FB
loc_444F0:
lea rax, aMysqlOldPasswo; "mysql_old_password"
mov [rbp+var_38], rax
loc_444FB:
jmp short $+2
loc_444FD:
mov rdi, [rbp+var_10]
mov rsi, [rbp+var_38]
mov edx, 2
call mysql_client_find_plugin
mov [rbp+var_40], rax
cmp rax, 0
jnz short loc_44524
lea rax, dummy_fallback_client_plugin
mov [rbp+var_40], rax
loc_44524:
mov rax, [rbp+var_10]
mov dword ptr [rax+90h], 0
cmp [rbp+var_28], 0
jz short loc_4455A
mov rdi, [rbp+var_28]
mov rsi, [rbp+var_38]
call _strcmp
cmp eax, 0
jz short loc_4455A
mov [rbp+var_18], 0
mov [rbp+var_1C], 0
loc_4455A:
cmp [rbp+var_28], 0
setz al
and al, 1
movzx eax, al
mov [rbp+var_48], al
mov rax, [rbp+var_18]
mov [rbp+var_60], rax
mov eax, [rbp+var_1C]
mov [rbp+var_58], eax
lea rax, client_mpvio_read_packet
mov [rbp+var_90], rax
lea rax, client_mpvio_write_packet
mov [rbp+var_88], rax
lea rax, client_mpvio_info
mov [rbp+var_80], rax
mov rax, [rbp+var_10]
mov [rbp+var_78], rax
mov [rbp+var_4C], 0
mov [rbp+var_50], 0
mov rax, [rbp+var_30]
mov [rbp+var_68], rax
loc_445BD:
mov rax, [rbp+var_40]
mov [rbp+var_70], rax
cmp [rbp+var_38], 0
jz short loc_44640
mov rax, [rbp+var_10]
cmp qword ptr [rax+480h], 0
jz short loc_44640
mov rax, [rbp+var_10]
mov rax, [rax+480h]
cmp qword ptr [rax+150h], 0
jz short loc_44640
mov rax, [rbp+var_10]
mov rax, [rax+480h]
mov rdi, [rax+150h]
mov rsi, [rbp+var_38]
call _strstr
cmp rax, 0
jnz short loc_4463E
mov rdi, [rbp+var_10]
lea rax, SQLSTATE_UNKNOWN
mov rdx, [rax]
mov r8, [rbp+var_28]
mov esi, 1392h
xor eax, eax
mov ecx, eax
mov al, 0
call my_set_error
mov [rbp+var_4], 1
jmp loc_4489E
loc_4463E:
jmp short $+2
loc_44640:
mov rax, [rbp+var_10]
mov rax, [rax+20h]
mov byte ptr [rax], 0
mov rax, [rbp+var_40]
mov rax, [rax+58h]
mov rsi, [rbp+var_10]
lea rdi, [rbp+var_90]
call rax
mov [rbp+var_9C], eax
cmp [rbp+var_9C], 0
jnz short loc_4467A
mov rax, [rbp+var_10]
cmp qword ptr [rax+8], 0
jz short loc_44695
loc_4467A:
cmp [rbp+var_9C], 0FFFFFFFFh
jle short loc_446F8
mov rax, [rbp+var_10]
mov rax, [rax+20h]
movzx eax, byte ptr [rax]
cmp eax, 0FEh
jz short loc_446F8
loc_44695:
cmp [rbp+var_9C], 0
jle short loc_446BF
mov rdi, [rbp+var_10]
mov esi, [rbp+var_9C]
lea rax, SQLSTATE_UNKNOWN
mov rdx, [rax]
xor eax, eax
mov ecx, eax
mov al, 0
call my_set_error
jmp short loc_446EC
loc_446BF:
mov rax, [rbp+var_10]
cmp dword ptr [rax+90h], 0
jnz short loc_446EA
mov rdi, [rbp+var_10]
lea rax, SQLSTATE_UNKNOWN
mov rdx, [rax]
mov esi, 7D0h
xor eax, eax
mov ecx, eax
mov al, 0
call my_set_error
loc_446EA:
jmp short $+2
loc_446EC:
mov [rbp+var_4], 1
jmp loc_4489E
loc_446F8:
cmp [rbp+var_9C], 0FFFFFFFFh
jnz short loc_44713
mov rdi, [rbp+var_10]
call ma_net_safe_read
mov [rbp+var_98], rax
jmp short loc_4471E
loc_44713:
movsxd rax, [rbp+var_44]
mov [rbp+var_98], rax
loc_4471E:
mov eax, 0FFFFFFFFh
cmp [rbp+var_98], rax
jnz short loc_447A9
mov rax, [rbp+var_10]
cmp dword ptr [rax+90h], 7DDh
jnz short loc_4479D
mov rax, [rbp+var_10]
mov [rbp+var_B8], rax
lea rax, SQLSTATE_UNKNOWN
mov rax, [rax]
mov [rbp+var_B0], rax
lea rax, client_errors
mov rax, [rax+1B8h]
mov [rbp+var_A8], rax
call ___errno_location
mov rdi, [rbp+var_B8]
mov rdx, [rbp+var_B0]
mov rcx, [rbp+var_A8]
mov r9d, [rax]
mov esi, 7DDh
lea r8, aReadingAuthori; "reading authorization packet"
mov al, 0
call my_set_error
loc_4479D:
mov [rbp+var_4], 1
jmp loc_4489E
loc_447A9:
mov rax, [rbp+var_10]
mov rax, [rax+20h]
movzx eax, byte ptr [rax]
cmp eax, 0FEh
jnz loc_44866
cmp [rbp+var_98], 1
jnz short loc_447EB
lea rax, aMysqlOldPasswo; "mysql_old_password"
mov [rbp+var_38], rax
mov rax, [rbp+var_10]
add rax, 48Eh
mov [rbp+var_60], rax
mov [rbp+var_58], 15h
jmp short loc_4483A
loc_447EB:
mov rax, [rbp+var_10]
mov rax, [rax+20h]
add rax, 1
mov [rbp+var_38], rax
mov rdi, [rbp+var_38]
call _strlen
mov [rbp+var_A0], eax
mov rax, [rbp+var_98]
mov ecx, [rbp+var_A0]
sub rax, rcx
sub rax, 2
mov [rbp+var_58], eax
mov rax, [rbp+var_10]
mov rax, [rax+20h]
mov ecx, [rbp+var_A0]
add rax, rcx
add rax, 2
mov [rbp+var_60], rax
loc_4483A:
mov rdi, [rbp+var_10]
mov rsi, [rbp+var_38]
mov edx, 2
call mysql_client_find_plugin
mov [rbp+var_40], rax
cmp rax, 0
jnz short loc_44861
lea rax, dummy_fallback_client_plugin
mov [rbp+var_40], rax
loc_44861:
jmp loc_445BD
loc_44866:
mov rax, [rbp+var_10]
mov rax, [rax+20h]
movzx eax, byte ptr [rax]
cmp eax, 0
jnz short loc_44897
mov rdi, [rbp+var_10]
mov rax, [rbp+var_10]
mov rsi, [rax+20h]
add rsi, 1
mov rdx, [rbp+var_98]
call ma_read_ok_packet
mov [rbp+var_4], eax
jmp short loc_4489E
loc_44897:
mov [rbp+var_4], 1
loc_4489E:
mov eax, [rbp+var_4]
add rsp, 0C0h
pop rbp
retn
| long long run_plugin_auth(long long a1, long long a2, int a3, const char *a4, long long a5)
{
long long v5; // rsi
long long v6; // rdx
long long v7; // rcx
int v8; // r8d
int v9; // r9d
unsigned int *v10; // rax
long long v12; // [rsp+8h] [rbp-B8h]
char *v13; // [rsp+10h] [rbp-B0h]
char *v14; // [rsp+18h] [rbp-A8h]
unsigned int v15; // [rsp+20h] [rbp-A0h]
signed int v16; // [rsp+24h] [rbp-9Ch]
long long v17; // [rsp+28h] [rbp-98h]
_QWORD v18[6]; // [rsp+30h] [rbp-90h] BYREF
long long v19; // [rsp+60h] [rbp-60h]
int v20; // [rsp+68h] [rbp-58h]
int v21; // [rsp+70h] [rbp-50h]
int v22; // [rsp+74h] [rbp-4Ch]
bool v23; // [rsp+78h] [rbp-48h]
int v24; // [rsp+7Ch] [rbp-44h]
void (**plugin)(void); // [rsp+80h] [rbp-40h]
const char *v26; // [rsp+88h] [rbp-38h]
long long v27; // [rsp+90h] [rbp-30h]
const char *v28; // [rsp+98h] [rbp-28h]
int v29; // [rsp+A4h] [rbp-1Ch]
long long v30; // [rsp+A8h] [rbp-18h]
long long v31; // [rsp+B0h] [rbp-10h]
v31 = a1;
v30 = a2;
v29 = a3;
v28 = a4;
v27 = a5;
v26 = 0LL;
if ( (*(_QWORD *)(a1 + 880) & 0x80000LL) != 0 )
{
if ( *(_QWORD *)(v31 + 1152) && *(_QWORD *)(*(_QWORD *)(v31 + 1152) + 8LL) )
{
v26 = *(const char **)(*(_QWORD *)(v31 + 1152) + 8LL);
}
else if ( v28 )
{
v26 = v28;
}
}
if ( !v26 )
{
if ( (*(_QWORD *)(v31 + 880) & 0x200LL) != 0 )
v26 = "mysql_native_password";
else
v26 = "mysql_old_password";
}
plugin = mysql_client_find_plugin(v31, v26, 2u);
if ( !plugin )
plugin = (void (**)(void))&dummy_fallback_client_plugin;
*(_DWORD *)(v31 + 144) = 0;
if ( v28 && (unsigned int)strcmp(v28, v26) )
{
v30 = 0LL;
v29 = 0;
}
v23 = v28 == 0LL;
v19 = v30;
v20 = v29;
v18[0] = client_mpvio_read_packet;
v18[1] = client_mpvio_write_packet;
v18[2] = client_mpvio_info;
v18[3] = v31;
v22 = 0;
v21 = 0;
v18[5] = v27;
while ( 1 )
{
v18[4] = plugin;
if ( v26
&& *(_QWORD *)(v31 + 1152)
&& *(_QWORD *)(*(_QWORD *)(v31 + 1152) + 336LL)
&& !strstr(*(_QWORD *)(*(_QWORD *)(v31 + 1152) + 336LL), v26) )
{
my_set_error(v31, 0x1392u, (long long)SQLSTATE_UNKNOWN, 0LL, v28);
return 1;
}
**(_BYTE **)(v31 + 32) = 0;
v5 = v31;
v16 = ((long long ( *)(_QWORD *, long long))plugin[11])(v18, v31);
if ( !v16 && !*(_QWORD *)(v31 + 8) || v16 > -1 && **(unsigned __int8 **)(v31 + 32) != 254 )
{
if ( v16 <= 0 )
{
if ( !*(_DWORD *)(v31 + 144) )
my_set_error(v31, 0x7D0u, (long long)SQLSTATE_UNKNOWN, 0LL);
}
else
{
my_set_error(v31, v16, (long long)SQLSTATE_UNKNOWN, 0LL);
}
return 1;
}
v17 = v16 == -1 ? ma_net_safe_read(v31, v5, v6, v7, v8, v9) : v24;
if ( v17 == 0xFFFFFFFFLL )
break;
if ( **(unsigned __int8 **)(v31 + 32) != 254 )
{
if ( **(_BYTE **)(v31 + 32) )
return 1;
else
return (unsigned int)ma_read_ok_packet(v31, (unsigned __int8 *)(*(_QWORD *)(v31 + 32) + 1LL), v17);
}
if ( v17 == 1 )
{
v26 = "mysql_old_password";
v19 = v31 + 1166;
v20 = 21;
}
else
{
v26 = (const char *)(*(_QWORD *)(v31 + 32) + 1LL);
v15 = strlen(v26);
v20 = v17 - v15 - 2;
v19 = v15 + *(_QWORD *)(v31 + 32) + 2LL;
}
plugin = mysql_client_find_plugin(v31, v26, 2u);
if ( !plugin )
plugin = (void (**)(void))&dummy_fallback_client_plugin;
}
if ( *(_DWORD *)(v31 + 144) == 2013 )
{
v12 = v31;
v13 = SQLSTATE_UNKNOWN;
v14 = client_errors[55];
v10 = (unsigned int *)__errno_location();
my_set_error(v12, 0x7DDu, (long long)v13, (long long)v14, "reading authorization packet", *v10);
}
return 1;
}
| run_plugin_auth:
PUSH RBP
MOV RBP,RSP
SUB RSP,0xc0
MOV qword ptr [RBP + -0x10],RDI
MOV qword ptr [RBP + -0x18],RSI
MOV dword ptr [RBP + -0x1c],EDX
MOV qword ptr [RBP + -0x28],RCX
MOV qword ptr [RBP + -0x30],R8
MOV qword ptr [RBP + -0x38],0x0
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x370]
AND RAX,0x80000
CMP RAX,0x0
JZ 0x001444c5
MOV RAX,qword ptr [RBP + -0x10]
CMP qword ptr [RAX + 0x480],0x0
JZ 0x001444b2
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x480]
CMP qword ptr [RAX + 0x8],0x0
JZ 0x001444b2
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x480]
MOV RAX,qword ptr [RAX + 0x8]
MOV qword ptr [RBP + -0x38],RAX
JMP 0x001444c3
LAB_001444b2:
CMP qword ptr [RBP + -0x28],0x0
JZ 0x001444c1
MOV RAX,qword ptr [RBP + -0x28]
MOV qword ptr [RBP + -0x38],RAX
LAB_001444c1:
JMP 0x001444c3
LAB_001444c3:
JMP 0x001444c5
LAB_001444c5:
CMP qword ptr [RBP + -0x38],0x0
JNZ 0x001444fd
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x370]
AND RAX,0x200
CMP RAX,0x0
JZ 0x001444f0
LEA RAX,[0x1523ac]
MOV qword ptr [RBP + -0x38],RAX
JMP 0x001444fb
LAB_001444f0:
LEA RAX,[0x152399]
MOV qword ptr [RBP + -0x38],RAX
LAB_001444fb:
JMP 0x001444fd
LAB_001444fd:
MOV RDI,qword ptr [RBP + -0x10]
MOV RSI,qword ptr [RBP + -0x38]
MOV EDX,0x2
CALL 0x0013add0
MOV qword ptr [RBP + -0x40],RAX
CMP RAX,0x0
JNZ 0x00144524
LEA RAX,[0x166118]
MOV qword ptr [RBP + -0x40],RAX
LAB_00144524:
MOV RAX,qword ptr [RBP + -0x10]
MOV dword ptr [RAX + 0x90],0x0
CMP qword ptr [RBP + -0x28],0x0
JZ 0x0014455a
MOV RDI,qword ptr [RBP + -0x28]
MOV RSI,qword ptr [RBP + -0x38]
CALL 0x001135f0
CMP EAX,0x0
JZ 0x0014455a
MOV qword ptr [RBP + -0x18],0x0
MOV dword ptr [RBP + -0x1c],0x0
LAB_0014455a:
CMP qword ptr [RBP + -0x28],0x0
SETZ AL
AND AL,0x1
MOVZX EAX,AL
MOV byte ptr [RBP + -0x48],AL
MOV RAX,qword ptr [RBP + -0x18]
MOV qword ptr [RBP + -0x60],RAX
MOV EAX,dword ptr [RBP + -0x1c]
MOV dword ptr [RBP + -0x58],EAX
LEA RAX,[0x1448b0]
MOV qword ptr [RBP + -0x90],RAX
LEA RAX,[0x1449f0]
MOV qword ptr [RBP + -0x88],RAX
LEA RAX,[0x144b40]
MOV qword ptr [RBP + -0x80],RAX
MOV RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RBP + -0x78],RAX
MOV dword ptr [RBP + -0x4c],0x0
MOV dword ptr [RBP + -0x50],0x0
MOV RAX,qword ptr [RBP + -0x30]
MOV qword ptr [RBP + -0x68],RAX
LAB_001445bd:
MOV RAX,qword ptr [RBP + -0x40]
MOV qword ptr [RBP + -0x70],RAX
CMP qword ptr [RBP + -0x38],0x0
JZ 0x00144640
MOV RAX,qword ptr [RBP + -0x10]
CMP qword ptr [RAX + 0x480],0x0
JZ 0x00144640
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x480]
CMP qword ptr [RAX + 0x150],0x0
JZ 0x00144640
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x480]
MOV RDI,qword ptr [RAX + 0x150]
MOV RSI,qword ptr [RBP + -0x38]
CALL 0x00113100
CMP RAX,0x0
JNZ 0x0014463e
MOV RDI,qword ptr [RBP + -0x10]
LEA RAX,[0x167150]
MOV RDX,qword ptr [RAX]
MOV R8,qword ptr [RBP + -0x28]
MOV ESI,0x1392
XOR EAX,EAX
MOV ECX,EAX
MOV AL,0x0
CALL 0x0011ab90
MOV dword ptr [RBP + -0x4],0x1
JMP 0x0014489e
LAB_0014463e:
JMP 0x00144640
LAB_00144640:
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x20]
MOV byte ptr [RAX],0x0
MOV RAX,qword ptr [RBP + -0x40]
MOV RAX,qword ptr [RAX + 0x58]
MOV RSI,qword ptr [RBP + -0x10]
LEA RDI,[RBP + -0x90]
CALL RAX
MOV dword ptr [RBP + -0x9c],EAX
CMP dword ptr [RBP + -0x9c],0x0
JNZ 0x0014467a
MOV RAX,qword ptr [RBP + -0x10]
CMP qword ptr [RAX + 0x8],0x0
JZ 0x00144695
LAB_0014467a:
CMP dword ptr [RBP + -0x9c],-0x1
JLE 0x001446f8
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x20]
MOVZX EAX,byte ptr [RAX]
CMP EAX,0xfe
JZ 0x001446f8
LAB_00144695:
CMP dword ptr [RBP + -0x9c],0x0
JLE 0x001446bf
MOV RDI,qword ptr [RBP + -0x10]
MOV ESI,dword ptr [RBP + -0x9c]
LEA RAX,[0x167150]
MOV RDX,qword ptr [RAX]
XOR EAX,EAX
MOV ECX,EAX
MOV AL,0x0
CALL 0x0011ab90
JMP 0x001446ec
LAB_001446bf:
MOV RAX,qword ptr [RBP + -0x10]
CMP dword ptr [RAX + 0x90],0x0
JNZ 0x001446ea
MOV RDI,qword ptr [RBP + -0x10]
LEA RAX,[0x167150]
MOV RDX,qword ptr [RAX]
MOV ESI,0x7d0
XOR EAX,EAX
MOV ECX,EAX
MOV AL,0x0
CALL 0x0011ab90
LAB_001446ea:
JMP 0x001446ec
LAB_001446ec:
MOV dword ptr [RBP + -0x4],0x1
JMP 0x0014489e
LAB_001446f8:
CMP dword ptr [RBP + -0x9c],-0x1
JNZ 0x00144713
MOV RDI,qword ptr [RBP + -0x10]
CALL 0x0011a880
MOV qword ptr [RBP + -0x98],RAX
JMP 0x0014471e
LAB_00144713:
MOVSXD RAX,dword ptr [RBP + -0x44]
MOV qword ptr [RBP + -0x98],RAX
LAB_0014471e:
MOV EAX,0xffffffff
CMP qword ptr [RBP + -0x98],RAX
JNZ 0x001447a9
MOV RAX,qword ptr [RBP + -0x10]
CMP dword ptr [RAX + 0x90],0x7dd
JNZ 0x0014479d
MOV RAX,qword ptr [RBP + -0x10]
MOV qword ptr [RBP + -0xb8],RAX
LEA RAX,[0x167150]
MOV RAX,qword ptr [RAX]
MOV qword ptr [RBP + -0xb0],RAX
LEA RAX,[0x167160]
MOV RAX,qword ptr [RAX + 0x1b8]
MOV qword ptr [RBP + -0xa8],RAX
CALL 0x00113050
MOV RDI,qword ptr [RBP + -0xb8]
MOV RDX,qword ptr [RBP + -0xb0]
MOV RCX,qword ptr [RBP + -0xa8]
MOV R9D,dword ptr [RAX]
MOV ESI,0x7dd
LEA R8,[0x15290b]
MOV AL,0x0
CALL 0x0011ab90
LAB_0014479d:
MOV dword ptr [RBP + -0x4],0x1
JMP 0x0014489e
LAB_001447a9:
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x20]
MOVZX EAX,byte ptr [RAX]
CMP EAX,0xfe
JNZ 0x00144866
CMP qword ptr [RBP + -0x98],0x1
JNZ 0x001447eb
LEA RAX,[0x152399]
MOV qword ptr [RBP + -0x38],RAX
MOV RAX,qword ptr [RBP + -0x10]
ADD RAX,0x48e
MOV qword ptr [RBP + -0x60],RAX
MOV dword ptr [RBP + -0x58],0x15
JMP 0x0014483a
LAB_001447eb:
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x20]
ADD RAX,0x1
MOV qword ptr [RBP + -0x38],RAX
MOV RDI,qword ptr [RBP + -0x38]
CALL 0x001131a0
MOV dword ptr [RBP + -0xa0],EAX
MOV RAX,qword ptr [RBP + -0x98]
MOV ECX,dword ptr [RBP + -0xa0]
SUB RAX,RCX
SUB RAX,0x2
MOV dword ptr [RBP + -0x58],EAX
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x20]
MOV ECX,dword ptr [RBP + -0xa0]
ADD RAX,RCX
ADD RAX,0x2
MOV qword ptr [RBP + -0x60],RAX
LAB_0014483a:
MOV RDI,qword ptr [RBP + -0x10]
MOV RSI,qword ptr [RBP + -0x38]
MOV EDX,0x2
CALL 0x0013add0
MOV qword ptr [RBP + -0x40],RAX
CMP RAX,0x0
JNZ 0x00144861
LEA RAX,[0x166118]
MOV qword ptr [RBP + -0x40],RAX
LAB_00144861:
JMP 0x001445bd
LAB_00144866:
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x20]
MOVZX EAX,byte ptr [RAX]
CMP EAX,0x0
JNZ 0x00144897
MOV RDI,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RBP + -0x10]
MOV RSI,qword ptr [RAX + 0x20]
ADD RSI,0x1
MOV RDX,qword ptr [RBP + -0x98]
CALL 0x001232b0
MOV dword ptr [RBP + -0x4],EAX
JMP 0x0014489e
LAB_00144897:
MOV dword ptr [RBP + -0x4],0x1
LAB_0014489e:
MOV EAX,dword ptr [RBP + -0x4]
ADD RSP,0xc0
POP RBP
RET
|
int4 run_plugin_auth(long param_1,long param_2,int param_3,char *param_4,int8 param_5)
{
int *puVar1;
int *puVar2;
long lVar3;
int iVar4;
char *pcVar5;
int *piVar6;
size_t sVar7;
long local_a0;
code *local_98;
code *local_90;
code *local_88;
long local_80;
int1 *local_78;
int8 local_70;
long local_68;
int local_60;
int4 local_58;
int4 local_54;
int1 local_50;
int local_4c;
int1 *local_48;
char *local_40;
int8 local_38;
char *local_30;
int local_24;
long local_20;
long local_18;
int4 local_c;
local_40 = (char *)0x0;
if ((*(ulong *)(param_1 + 0x370) & 0x80000) != 0) {
if ((*(long *)(param_1 + 0x480) == 0) || (*(long *)(*(long *)(param_1 + 0x480) + 8) == 0)) {
if (param_4 != (char *)0x0) {
local_40 = param_4;
}
}
else {
local_40 = *(char **)(*(long *)(param_1 + 0x480) + 8);
}
}
if (local_40 == (char *)0x0) {
if ((*(ulong *)(param_1 + 0x370) & 0x200) == 0) {
local_40 = "mysql_old_password";
}
else {
local_40 = "mysql_native_password";
}
}
local_38 = param_5;
local_30 = param_4;
local_24 = param_3;
local_20 = param_2;
local_18 = param_1;
local_48 = (int1 *)mysql_client_find_plugin(param_1,local_40,2);
if (local_48 == (int1 *)0x0) {
local_48 = dummy_fallback_client_plugin;
}
*(int4 *)(local_18 + 0x90) = 0;
if ((local_30 != (char *)0x0) && (iVar4 = strcmp(local_30,local_40), iVar4 != 0)) {
local_20 = 0;
local_24 = 0;
}
local_50 = local_30 == (char *)0x0;
local_68 = local_20;
local_60 = local_24;
local_98 = client_mpvio_read_packet;
local_90 = client_mpvio_write_packet;
local_88 = client_mpvio_info;
local_80 = local_18;
local_54 = 0;
local_58 = 0;
local_70 = local_38;
while( true ) {
local_78 = local_48;
if ((((local_40 != (char *)0x0) && (*(long *)(local_18 + 0x480) != 0)) &&
(*(long *)(*(long *)(local_18 + 0x480) + 0x150) != 0)) &&
(pcVar5 = strstr(*(char **)(*(long *)(local_18 + 0x480) + 0x150),local_40),
pcVar5 == (char *)0x0)) {
my_set_error(local_18,0x1392,SQLSTATE_UNKNOWN,0,local_30);
return 1;
}
**(int1 **)(local_18 + 0x20) = 0;
iVar4 = (**(code **)(local_48 + 0x58))(&local_98,local_18);
if (((iVar4 == 0) && (*(long *)(local_18 + 8) == 0)) ||
((-1 < iVar4 && (**(char **)(local_18 + 0x20) != -2)))) {
if (iVar4 < 1) {
if (*(int *)(local_18 + 0x90) == 0) {
my_set_error(local_18,2000,SQLSTATE_UNKNOWN,0);
}
}
else {
my_set_error(local_18,iVar4,SQLSTATE_UNKNOWN,0);
}
return 1;
}
if (iVar4 == -1) {
local_a0 = ma_net_safe_read(local_18);
}
else {
local_a0 = (long)local_4c;
}
lVar3 = local_18;
puVar2 = PTR_s_Lost_connection_to_server_at___s_00167318;
puVar1 = SQLSTATE_UNKNOWN;
if (local_a0 == 0xffffffff) break;
if (**(char **)(local_18 + 0x20) != -2) {
if (**(char **)(local_18 + 0x20) == '\0') {
local_c = ma_read_ok_packet(local_18,*(long *)(local_18 + 0x20) + 1,local_a0);
}
else {
local_c = 1;
}
return local_c;
}
if (local_a0 == 1) {
local_40 = "mysql_old_password";
local_68 = local_18 + 0x48e;
local_60 = 0x15;
}
else {
local_40 = (char *)(*(long *)(local_18 + 0x20) + 1);
sVar7 = strlen(local_40);
local_60 = ((int)local_a0 - (int)sVar7) + -2;
local_68 = *(long *)(local_18 + 0x20) + (sVar7 & 0xffffffff) + 2;
}
local_48 = (int1 *)mysql_client_find_plugin(local_18,local_40,2);
if (local_48 == (int1 *)0x0) {
local_48 = dummy_fallback_client_plugin;
}
}
if (*(int *)(local_18 + 0x90) == 0x7dd) {
piVar6 = __errno_location();
my_set_error(lVar3,0x7dd,puVar1,puVar2,"reading authorization packet",*piVar6);
}
return 1;
}
|
|
4,488 | evmone::baseline::execute(evmc_vm*, evmc_host_interface const*, evmc_host_context*, evmc_revision, evmc_message const*, unsigned char const*, unsigned long) | corpus-core[P]colibri-stateless/build_O1/_deps/evmone_external-src/lib/evmone/baseline_execution.cpp | evmc_result execute(evmc_vm* c_vm, const evmc_host_interface* host, evmc_host_context* ctx,
evmc_revision rev, const evmc_message* msg, const uint8_t* code, size_t code_size) noexcept
{
auto vm = static_cast<VM*>(c_vm);
const bytes_view container{code, code_size};
const auto eof_enabled = rev >= instr::REV_EOF1;
// Since EOF validation recurses into subcontainers, it only makes sense to do for top level
// message calls. The condition for `msg->kind` inside differentiates between creation tx code
// (initcode) and already deployed code (runtime).
if (vm->validate_eof && eof_enabled && is_eof_container(container) && msg->depth == 0)
{
const auto container_kind =
(msg->kind == EVMC_EOFCREATE ? ContainerKind::initcode : ContainerKind::runtime);
if (validate_eof(rev, container_kind, container) != EOFValidationError::success)
return evmc_make_result(EVMC_CONTRACT_VALIDATION_FAILURE, 0, 0, nullptr, 0);
}
const auto code_analysis = analyze(container, eof_enabled);
return execute(*vm, *host, ctx, rev, *msg, code_analysis);
} | O1 | cpp | evmone::baseline::execute(evmc_vm*, evmc_host_interface const*, evmc_host_context*, evmc_revision, evmc_message const*, unsigned char const*, unsigned long):
pushq %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0xd8, %rsp
movq %r9, %r14
movl %r8d, %ebp
movq %rcx, %r15
movq %rdx, %r12
movq %rsi, %r13
movq %rdi, %rbx
movq 0x118(%rsp), %rsi
movq 0x110(%rsp), %rax
cmpl $0xe, %r8d
jl 0x42ad7
cmpb $0x0, 0x39(%r13)
je 0x42ad7
movq %rsi, %rdi
movq %rax, %rsi
callq 0x46a47
movq 0x118(%rsp), %rsi
testb %al, %al
movq 0x110(%rsp), %rax
je 0x42ad7
cmpl $0x0, 0x8(%r14)
je 0x42b31
movq %r14, 0x8(%rsp)
movq %r15, %r14
xorl %ecx, %ecx
cmpl $0xe, %ebp
setge %cl
leaq 0x10(%rsp), %r15
movq %r15, %rdi
movq %rax, %rdx
callq 0x545f0
movq %r15, (%rsp)
movq %rbx, %rdi
movq %r13, %rsi
movq %r12, %rdx
movq %r14, %rcx
movl %ebp, %r8d
movq 0x8(%rsp), %r9
callq 0x32024
movq %r15, %rdi
callq 0x42dcc
movq %rbx, %rax
addq $0xd8, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
xorl %esi, %esi
cmpl $0x5, (%r14)
setne %sil
movl %ebp, %edi
movq 0x118(%rsp), %rdx
movq %rax, %rcx
callq 0x46f3e
movq 0x118(%rsp), %rsi
testl %eax, %eax
movq 0x110(%rsp), %rax
je 0x42ad7
xorps %xmm0, %xmm0
movups %xmm0, (%rbx)
movups %xmm0, 0x10(%rbx)
movups %xmm0, 0x30(%rbx)
movups %xmm0, 0x20(%rbx)
movq $0x0, 0x40(%rbx)
movl $0xd, (%rbx)
movups %xmm0, 0x8(%rbx)
jmp 0x42b1c
movq %rax, %rdi
callq 0x30731
| _ZN6evmone8baseline7executeEP7evmc_vmPK19evmc_host_interfaceP17evmc_host_context13evmc_revisionPK12evmc_messagePKhm:
push rbp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 0D8h
mov r14, r9
mov ebp, r8d
mov r15, rcx
mov r12, rdx
mov r13, rsi
mov rbx, rdi
mov rsi, [rsp+108h+arg_8]
mov rax, [rsp+108h+arg_0]
cmp r8d, 0Eh
jl short loc_42AD7
cmp byte ptr [r13+39h], 0
jz short loc_42AD7
mov rdi, rsi
mov rsi, rax
call _ZN6evmone16is_eof_containerESt17basic_string_viewIhN4evmc11byte_traitsIhEEE; evmone::is_eof_container(std::basic_string_view<uchar,evmc::byte_traits<uchar>>)
mov rsi, [rsp+108h+arg_8]
test al, al
mov rax, [rsp+108h+arg_0]
jz short loc_42AD7
cmp dword ptr [r14+8], 0
jz short loc_42B31
loc_42AD7:
mov [rsp+108h+var_100], r14
mov r14, r15
xor ecx, ecx
cmp ebp, 0Eh
setnl cl
lea r15, [rsp+108h+var_F8]
mov rdi, r15
mov rdx, rax
call _ZN6evmone8baseline7analyzeESt17basic_string_viewIhN4evmc11byte_traitsIhEEEb; evmone::baseline::analyze(std::basic_string_view<uchar,evmc::byte_traits<uchar>>,bool)
mov [rsp+108h+var_108], r15
mov rdi, rbx
mov rsi, r13
mov rdx, r12
mov rcx, r14
mov r8d, ebp
mov r9, [rsp+108h+var_100]
call _ZN6evmone8baseline7executeERNS_2VMERK19evmc_host_interfaceP17evmc_host_context13evmc_revisionRK12evmc_messageRKNS0_12CodeAnalysisE; evmone::baseline::execute(evmone::VM &,evmc_host_interface const&,evmc_host_context *,evmc_revision,evmc_message const&,evmone::baseline::CodeAnalysis const&)
mov rdi, r15; this
call _ZN6evmone8baseline12CodeAnalysisD2Ev; evmone::baseline::CodeAnalysis::~CodeAnalysis()
loc_42B1C:
mov rax, rbx
add rsp, 0D8h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
loc_42B31:
xor esi, esi
cmp dword ptr [r14], 5
setnz sil
mov edi, ebp
mov rdx, [rsp+108h+arg_8]
mov rcx, rax
call _ZN6evmone12validate_eofE13evmc_revisionNS_13ContainerKindESt17basic_string_viewIhN4evmc11byte_traitsIhEEE; evmone::validate_eof(evmc_revision,evmone::ContainerKind,std::basic_string_view<uchar,evmc::byte_traits<uchar>>)
mov rsi, [rsp+108h+arg_8]
test eax, eax
mov rax, [rsp+108h+arg_0]
jz loc_42AD7
xorps xmm0, xmm0
movups xmmword ptr [rbx], xmm0
movups xmmword ptr [rbx+10h], xmm0
movups xmmword ptr [rbx+30h], xmm0
movups xmmword ptr [rbx+20h], xmm0
mov qword ptr [rbx+40h], 0
mov dword ptr [rbx], 0Dh
movups xmmword ptr [rbx+8], xmm0
jmp short loc_42B1C
mov rdi, rax
call __clang_call_terminate
| long long evmone::baseline::execute(
long long a1,
long long a2,
int a3,
int a4,
int a5,
_DWORD *a6,
long long a7,
long long a8)
{
long long v13; // rsi
long long v14; // rax
bool v15; // zf
_BYTE v17[248]; // [rsp+10h] [rbp-F8h] BYREF
v13 = a8;
v14 = a7;
if ( a5 < 14
|| !*(_BYTE *)(a2 + 57)
|| (v13 = a8, v15 = (unsigned __int8)evmone::is_eof_container(a8, a7) == 0, v14 = a7, v15)
|| a6[2]
|| (v13 = a8, v15 = (unsigned int)evmone::validate_eof((unsigned int)a5, *a6 != 5, a8, a7) == 0, v14 = a7, v15) )
{
evmone::baseline::analyze(v17, v13, v14, a5 >= 14);
evmone::baseline::execute(a1, a2, a3, a4, a5, (long long)a6, (long long)v17);
evmone::baseline::CodeAnalysis::~CodeAnalysis((evmone::baseline::CodeAnalysis *)v17);
}
else
{
*(_OWORD *)a1 = 0LL;
*(_OWORD *)(a1 + 16) = 0LL;
*(_OWORD *)(a1 + 48) = 0LL;
*(_OWORD *)(a1 + 32) = 0LL;
*(_QWORD *)(a1 + 64) = 0LL;
*(_DWORD *)a1 = 13;
*(_OWORD *)(a1 + 8) = 0LL;
}
return a1;
}
| execute:
PUSH RBP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0xd8
MOV R14,R9
MOV EBP,R8D
MOV R15,RCX
MOV R12,RDX
MOV R13,RSI
MOV RBX,RDI
MOV RSI,qword ptr [RSP + 0x118]
MOV RAX,qword ptr [RSP + 0x110]
CMP R8D,0xe
JL 0x00142ad7
CMP byte ptr [R13 + 0x39],0x0
JZ 0x00142ad7
MOV RDI,RSI
MOV RSI,RAX
CALL 0x00146a47
MOV RSI,qword ptr [RSP + 0x118]
TEST AL,AL
MOV RAX,qword ptr [RSP + 0x110]
JZ 0x00142ad7
CMP dword ptr [R14 + 0x8],0x0
JZ 0x00142b31
LAB_00142ad7:
MOV qword ptr [RSP + 0x8],R14
MOV R14,R15
XOR ECX,ECX
CMP EBP,0xe
SETGE CL
LAB_00142ae7:
LEA R15,[RSP + 0x10]
MOV RDI,R15
MOV RDX,RAX
CALL 0x001545f0
MOV qword ptr [RSP],R15
MOV RDI,RBX
MOV RSI,R13
MOV RDX,R12
MOV RCX,R14
MOV R8D,EBP
MOV R9,qword ptr [RSP + 0x8]
CALL 0x00132024
MOV RDI,R15
CALL 0x00142dcc
LAB_00142b1c:
MOV RAX,RBX
ADD RSP,0xd8
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
LAB_00142b31:
XOR ESI,ESI
CMP dword ptr [R14],0x5
SETNZ SIL
MOV EDI,EBP
MOV RDX,qword ptr [RSP + 0x118]
MOV RCX,RAX
CALL 0x00146f3e
MOV RSI,qword ptr [RSP + 0x118]
TEST EAX,EAX
MOV RAX,qword ptr [RSP + 0x110]
JZ 0x00142ad7
XORPS XMM0,XMM0
MOVUPS xmmword ptr [RBX],XMM0
MOVUPS xmmword ptr [RBX + 0x10],XMM0
MOVUPS xmmword ptr [RBX + 0x30],XMM0
MOVUPS xmmword ptr [RBX + 0x20],XMM0
MOV qword ptr [RBX + 0x40],0x0
MOV dword ptr [RBX],0xd
MOVUPS xmmword ptr [RBX + 0x8],XMM0
JMP 0x00142b1c
|
/* evmone::baseline::execute(evmc_vm*, evmc_host_interface const*, evmc_host_context*,
evmc_revision, evmc_message const*, unsigned char const*, unsigned long) */
baseline * __thiscall
evmone::baseline::execute
(baseline *this,long param_1,int8 param_2,int8 param_3,int param_5,
int *param_6,int8 param_7,evmone *param_8)
{
char cVar1;
int iVar2;
CodeAnalysis local_f8 [200];
if ((((0xd < param_5) && (*(char *)(param_1 + 0x39) != '\0')) &&
(cVar1 = is_eof_container(param_8,param_7), cVar1 != '\0')) &&
((param_6[2] == 0 && (iVar2 = validate_eof(param_5,*param_6 != 5,param_8,param_7), iVar2 != 0))
)) {
*(int8 *)this = 0;
*(int8 *)(this + 8) = 0;
*(int8 *)(this + 0x10) = 0;
*(int8 *)(this + 0x18) = 0;
*(int8 *)(this + 0x30) = 0;
*(int8 *)(this + 0x38) = 0;
*(int8 *)(this + 0x20) = 0;
*(int8 *)(this + 0x28) = 0;
*(int8 *)(this + 0x40) = 0;
*(int4 *)this = 0xd;
*(int8 *)(this + 8) = 0;
*(int8 *)(this + 0x10) = 0;
return this;
}
/* try { // try from 00142ae7 to 00142af6 has its CatchHandler @ 00142b8b */
analyze(local_f8,param_8,param_7,0xd < param_5);
execute(this,param_1,param_2,param_3,param_5,param_6,local_f8);
CodeAnalysis::~CodeAnalysis(local_f8);
return this;
}
|
|
4,489 | Balloc | eloqsql/strings/dtoa.c | static Bigint *Balloc(int k, Stack_alloc *alloc)
{
Bigint *rv;
DBUG_ASSERT(k <= Kmax);
if (k <= Kmax && alloc->freelist[k])
{
rv= alloc->freelist[k];
alloc->freelist[k]= rv->p.next;
}
else
{
int x, len;
x= 1 << k;
len= MY_ALIGN(sizeof(Bigint) + x * sizeof(ULong), SIZEOF_CHARP);
if (alloc->free + len <= alloc->end)
{
rv= (Bigint*) alloc->free;
alloc->free+= len;
}
else
rv= (Bigint*) malloc(len);
rv->k= k;
rv->maxwds= x;
}
rv->sign= rv->wds= 0;
rv->p.x= (ULong*) (rv + 1);
return rv;
} | O0 | c | Balloc:
pushq %rbp
movq %rsp, %rbp
subq $0x20, %rsp
movl %edi, -0x4(%rbp)
movq %rsi, -0x10(%rbp)
jmp 0x84231
cmpl $0xf, -0x4(%rbp)
jg 0x84271
movq -0x10(%rbp), %rax
movslq -0x4(%rbp), %rcx
cmpq $0x0, 0x18(%rax,%rcx,8)
je 0x84271
movq -0x10(%rbp), %rax
movslq -0x4(%rbp), %rcx
movq 0x18(%rax,%rcx,8), %rax
movq %rax, -0x18(%rbp)
movq -0x18(%rbp), %rax
movq (%rax), %rdx
movq -0x10(%rbp), %rax
movslq -0x4(%rbp), %rcx
movq %rdx, 0x18(%rax,%rcx,8)
jmp 0x842f6
movl -0x4(%rbp), %ecx
movl $0x1, %eax
shll %cl, %eax
movl %eax, -0x1c(%rbp)
movslq -0x1c(%rbp), %rax
shlq $0x2, %rax
addq $0x18, %rax
addq $0x8, %rax
subq $0x1, %rax
andq $-0x8, %rax
movl %eax, -0x20(%rbp)
movq -0x10(%rbp), %rax
movq 0x8(%rax), %rax
movslq -0x20(%rbp), %rcx
addq %rcx, %rax
movq -0x10(%rbp), %rcx
cmpq 0x10(%rcx), %rax
ja 0x842d5
movq -0x10(%rbp), %rax
movq 0x8(%rax), %rax
movq %rax, -0x18(%rbp)
movl -0x20(%rbp), %edx
movq -0x10(%rbp), %rax
movq 0x8(%rax), %rcx
movslq %edx, %rdx
addq %rdx, %rcx
movq %rcx, 0x8(%rax)
jmp 0x842e2
movslq -0x20(%rbp), %rdi
callq 0x25490
movq %rax, -0x18(%rbp)
movl -0x4(%rbp), %ecx
movq -0x18(%rbp), %rax
movl %ecx, 0x8(%rax)
movl -0x1c(%rbp), %ecx
movq -0x18(%rbp), %rax
movl %ecx, 0xc(%rax)
movq -0x18(%rbp), %rax
movl $0x0, 0x14(%rax)
movq -0x18(%rbp), %rax
movl $0x0, 0x10(%rax)
movq -0x18(%rbp), %rcx
addq $0x18, %rcx
movq -0x18(%rbp), %rax
movq %rcx, (%rax)
movq -0x18(%rbp), %rax
addq $0x20, %rsp
popq %rbp
retq
nopw %cs:(%rax,%rax)
| Balloc:
push rbp
mov rbp, rsp
sub rsp, 20h
mov [rbp+var_4], edi
mov [rbp+var_10], rsi
jmp short $+2
loc_84231:
cmp [rbp+var_4], 0Fh
jg short loc_84271
mov rax, [rbp+var_10]
movsxd rcx, [rbp+var_4]
cmp qword ptr [rax+rcx*8+18h], 0
jz short loc_84271
mov rax, [rbp+var_10]
movsxd rcx, [rbp+var_4]
mov rax, [rax+rcx*8+18h]
mov [rbp+var_18], rax
mov rax, [rbp+var_18]
mov rdx, [rax]
mov rax, [rbp+var_10]
movsxd rcx, [rbp+var_4]
mov [rax+rcx*8+18h], rdx
jmp loc_842F6
loc_84271:
mov ecx, [rbp+var_4]
mov eax, 1
shl eax, cl
mov [rbp+var_1C], eax
movsxd rax, [rbp+var_1C]
shl rax, 2
add rax, 18h
add rax, 8
sub rax, 1
and rax, 0FFFFFFFFFFFFFFF8h
mov [rbp+var_20], eax
mov rax, [rbp+var_10]
mov rax, [rax+8]
movsxd rcx, [rbp+var_20]
add rax, rcx
mov rcx, [rbp+var_10]
cmp rax, [rcx+10h]
ja short loc_842D5
mov rax, [rbp+var_10]
mov rax, [rax+8]
mov [rbp+var_18], rax
mov edx, [rbp+var_20]
mov rax, [rbp+var_10]
mov rcx, [rax+8]
movsxd rdx, edx
add rcx, rdx
mov [rax+8], rcx
jmp short loc_842E2
loc_842D5:
movsxd rdi, [rbp+var_20]
call _malloc
mov [rbp+var_18], rax
loc_842E2:
mov ecx, [rbp+var_4]
mov rax, [rbp+var_18]
mov [rax+8], ecx
mov ecx, [rbp+var_1C]
mov rax, [rbp+var_18]
mov [rax+0Ch], ecx
loc_842F6:
mov rax, [rbp+var_18]
mov dword ptr [rax+14h], 0
mov rax, [rbp+var_18]
mov dword ptr [rax+10h], 0
mov rcx, [rbp+var_18]
add rcx, 18h
mov rax, [rbp+var_18]
mov [rax], rcx
mov rax, [rbp+var_18]
add rsp, 20h
pop rbp
retn
| long long Balloc(int a1, long long a2)
{
signed int v3; // [rsp+0h] [rbp-20h]
long long v4; // [rsp+8h] [rbp-18h]
if ( a1 <= 15 && *(_QWORD *)(a2 + 8LL * a1 + 24) )
{
v4 = *(_QWORD *)(a2 + 8LL * a1 + 24);
*(_QWORD *)(a2 + 8LL * a1 + 24) = *(_QWORD *)v4;
}
else
{
v3 = (4 * (1 << a1) + 31) & 0xFFFFFFF8;
if ( (unsigned long long)(v3 + *(_QWORD *)(a2 + 8)) > *(_QWORD *)(a2 + 16) )
{
v4 = malloc(v3);
}
else
{
v4 = *(_QWORD *)(a2 + 8);
*(_QWORD *)(a2 + 8) = v3 + v4;
}
*(_DWORD *)(v4 + 8) = a1;
*(_DWORD *)(v4 + 12) = 1 << a1;
}
*(_DWORD *)(v4 + 20) = 0;
*(_DWORD *)(v4 + 16) = 0;
*(_QWORD *)v4 = v4 + 24;
return v4;
}
| Balloc:
PUSH RBP
MOV RBP,RSP
SUB RSP,0x20
MOV dword ptr [RBP + -0x4],EDI
MOV qword ptr [RBP + -0x10],RSI
JMP 0x00184231
LAB_00184231:
CMP dword ptr [RBP + -0x4],0xf
JG 0x00184271
MOV RAX,qword ptr [RBP + -0x10]
MOVSXD RCX,dword ptr [RBP + -0x4]
CMP qword ptr [RAX + RCX*0x8 + 0x18],0x0
JZ 0x00184271
MOV RAX,qword ptr [RBP + -0x10]
MOVSXD RCX,dword ptr [RBP + -0x4]
MOV RAX,qword ptr [RAX + RCX*0x8 + 0x18]
MOV qword ptr [RBP + -0x18],RAX
MOV RAX,qword ptr [RBP + -0x18]
MOV RDX,qword ptr [RAX]
MOV RAX,qword ptr [RBP + -0x10]
MOVSXD RCX,dword ptr [RBP + -0x4]
MOV qword ptr [RAX + RCX*0x8 + 0x18],RDX
JMP 0x001842f6
LAB_00184271:
MOV ECX,dword ptr [RBP + -0x4]
MOV EAX,0x1
SHL EAX,CL
MOV dword ptr [RBP + -0x1c],EAX
MOVSXD RAX,dword ptr [RBP + -0x1c]
SHL RAX,0x2
ADD RAX,0x18
ADD RAX,0x8
SUB RAX,0x1
AND RAX,-0x8
MOV dword ptr [RBP + -0x20],EAX
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x8]
MOVSXD RCX,dword ptr [RBP + -0x20]
ADD RAX,RCX
MOV RCX,qword ptr [RBP + -0x10]
CMP RAX,qword ptr [RCX + 0x10]
JA 0x001842d5
MOV RAX,qword ptr [RBP + -0x10]
MOV RAX,qword ptr [RAX + 0x8]
MOV qword ptr [RBP + -0x18],RAX
MOV EDX,dword ptr [RBP + -0x20]
MOV RAX,qword ptr [RBP + -0x10]
MOV RCX,qword ptr [RAX + 0x8]
MOVSXD RDX,EDX
ADD RCX,RDX
MOV qword ptr [RAX + 0x8],RCX
JMP 0x001842e2
LAB_001842d5:
MOVSXD RDI,dword ptr [RBP + -0x20]
CALL 0x00125490
MOV qword ptr [RBP + -0x18],RAX
LAB_001842e2:
MOV ECX,dword ptr [RBP + -0x4]
MOV RAX,qword ptr [RBP + -0x18]
MOV dword ptr [RAX + 0x8],ECX
MOV ECX,dword ptr [RBP + -0x1c]
MOV RAX,qword ptr [RBP + -0x18]
MOV dword ptr [RAX + 0xc],ECX
LAB_001842f6:
MOV RAX,qword ptr [RBP + -0x18]
MOV dword ptr [RAX + 0x14],0x0
MOV RAX,qword ptr [RBP + -0x18]
MOV dword ptr [RAX + 0x10],0x0
MOV RCX,qword ptr [RBP + -0x18]
ADD RCX,0x18
MOV RAX,qword ptr [RBP + -0x18]
MOV qword ptr [RAX],RCX
MOV RAX,qword ptr [RBP + -0x18]
ADD RSP,0x20
POP RBP
RET
|
int8 * Balloc(int param_1,long param_2)
{
int iVar1;
uint uVar2;
int8 *local_20;
if ((param_1 < 0x10) && (*(long *)(param_2 + 0x18 + (long)param_1 * 8) != 0)) {
local_20 = *(int8 **)(param_2 + 0x18 + (long)param_1 * 8);
*(int8 *)(param_2 + 0x18 + (long)param_1 * 8) = *local_20;
}
else {
iVar1 = 1 << ((byte)param_1 & 0x1f);
uVar2 = iVar1 * 4 + 0x1fU & 0xfffffff8;
if (*(ulong *)(param_2 + 0x10) < (ulong)(*(long *)(param_2 + 8) + (long)(int)uVar2)) {
local_20 = (int8 *)malloc((long)(int)uVar2);
}
else {
local_20 = *(int8 **)(param_2 + 8);
*(long *)(param_2 + 8) = *(long *)(param_2 + 8) + (long)(int)uVar2;
}
*(int *)(local_20 + 1) = param_1;
*(int *)((long)local_20 + 0xc) = iVar1;
}
*(int4 *)((long)local_20 + 0x14) = 0;
*(int4 *)(local_20 + 2) = 0;
*local_20 = local_20 + 3;
return local_20;
}
|
|
4,490 | Json::Value::asString[abi:cxx11]() const | aimrt_mujoco_sim/_deps/jsoncpp-src/src/lib_json/json_value.cpp | String Value::asString() const {
switch (type()) {
case nullValue:
return "";
case stringValue: {
if (value_.string_ == nullptr)
return "";
unsigned this_len;
char const* this_str;
decodePrefixedString(this->isAllocated(), this->value_.string_, &this_len,
&this_str);
return String(this_str, this_len);
}
case booleanValue:
return value_.bool_ ? "true" : "false";
case intValue:
return valueToString(value_.int_);
case uintValue:
return valueToString(value_.uint_);
case realValue:
return valueToString(value_.real_);
default:
JSON_FAIL_MESSAGE("Type is not convertible to string");
}
} | O3 | cpp | Json::Value::asString[abi:cxx11]() const:
pushq %r14
pushq %rbx
subq $0x198, %rsp # imm = 0x198
movzwl 0x8(%rsi), %eax
cmpb $0x5, %al
ja 0x77287
movq %rdi, %rbx
movzbl %al, %ecx
leaq 0x11d99(%rip), %rdx # 0x88f60
movslq (%rdx,%rcx,4), %rcx
addq %rdx, %rcx
jmpq *%rcx
movq (%rsi), %rsi
movq %rbx, %rdi
callq 0x7b838
jmp 0x77279
movq (%rsi), %r14
testq %r14, %r14
je 0x771f8
btl $0x8, %eax
jb 0x7725b
movq %r14, %rdi
callq 0x1e730
jmp 0x77262
leaq 0x10(%rbx), %rax
movq %rax, (%rbx)
leaq 0x11e3a(%rip), %rdx # 0x89040
movq %rbx, %rdi
movq %rdx, %rsi
jmp 0x77274
movq (%rsi), %rsi
movq %rbx, %rdi
callq 0x7b935
jmp 0x77279
movsd (%rsi), %xmm0
movq %rbx, %rdi
movl $0x11, %esi
xorl %edx, %edx
callq 0x7b9b3
jmp 0x77279
movzbl (%rsi), %edx
leaq 0xc6f4(%rip), %rax # 0x8392e
leaq 0xc6f2(%rip), %rsi # 0x83933
testq %rdx, %rdx
cmovneq %rax, %rsi
leaq 0x10(%rbx), %rax
movq %rax, (%rbx)
xorq $0x5, %rdx
addq %rsi, %rdx
movq %rbx, %rdi
jmp 0x77274
movl (%r14), %eax
addq $0x4, %r14
movl %eax, %edx
leaq 0x10(%rbx), %rax
movq %rax, (%rbx)
addq %r14, %rdx
movq %rbx, %rdi
movq %r14, %rsi
callq 0x1e620
movq %rbx, %rax
addq $0x198, %rsp # imm = 0x198
popq %rbx
popq %r14
retq
leaq 0x20(%rsp), %rbx
movq %rbx, %rdi
callq 0x1f750
leaq 0x11ea8(%rip), %rsi # 0x89143
movl $0x21, %edx
movq %rbx, %rdi
callq 0x1f400
leaq 0x28(%rsp), %rsi
movq %rsp, %rdi
callq 0x1fc60
movq %rsp, %rdi
callq 0x76374
movq %rax, %rbx
leaq 0x10(%rsp), %rax
movq -0x10(%rax), %rdi
cmpq %rax, %rdi
je 0x772da
callq 0x1f0e0
jmp 0x772da
jmp 0x772d7
movq %rax, %rbx
movq 0x38bc7(%rip), %rsi # 0xafea8
leaq 0x20(%rsp), %rdi
callq 0x1e900
leaq 0x90(%rsp), %rdi
callq 0x1e4d0
movq %rbx, %rdi
callq 0x1ffd0
| _ZNK4Json5Value8asStringB5cxx11Ev:
push r14
push rbx
sub rsp, 198h
movzx eax, word ptr [rsi+8]
cmp al, 5; switch 6 cases
ja def_771CE; jumptable 00000000000771CE default case
mov rbx, rdi
movzx ecx, al
lea rdx, jpt_771CE
movsxd rcx, ds:(jpt_771CE - 88F60h)[rdx+rcx*4]
add rcx, rdx
jmp rcx; switch jump
loc_771D0:
mov rsi, [rsi]; jumptable 00000000000771CE case 1
mov rdi, rbx
call _ZN4Json13valueToStringB5cxx11El; Json::valueToString(long)
jmp loc_77279
loc_771E0:
mov r14, [rsi]; jumptable 00000000000771CE case 4
test r14, r14
jz short loc_771F8; jumptable 00000000000771CE case 0
bt eax, 8
jb short loc_7725B
mov rdi, r14
call _strlen
jmp short loc_77262
loc_771F8:
lea rax, [rbx+10h]; jumptable 00000000000771CE case 0
mov [rbx], rax
lea rdx, unk_89040
mov rdi, rbx
mov rsi, rdx
jmp short loc_77274
loc_7720E:
mov rsi, [rsi]; jumptable 00000000000771CE case 2
mov rdi, rbx
call _ZN4Json13valueToStringB5cxx11Em; Json::valueToString(ulong)
jmp short loc_77279
loc_7721B:
movsd xmm0, qword ptr [rsi]; jumptable 00000000000771CE case 3
mov rdi, rbx
mov esi, 11h
xor edx, edx
call _ZN4Json13valueToStringB5cxx11EdjNS_13PrecisionTypeE; Json::valueToString(double,uint,Json::PrecisionType)
jmp short loc_77279
loc_77230:
movzx edx, byte ptr [rsi]; jumptable 00000000000771CE case 5
lea rax, aTrue; "true"
lea rsi, aFalse; "false"
test rdx, rdx
cmovnz rsi, rax
lea rax, [rbx+10h]
mov [rbx], rax
xor rdx, 5
add rdx, rsi
mov rdi, rbx
jmp short loc_77274
loc_7725B:
mov eax, [r14]
add r14, 4
loc_77262:
mov edx, eax
lea rax, [rbx+10h]
mov [rbx], rax
add rdx, r14
mov rdi, rbx
mov rsi, r14
loc_77274:
call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE12_M_constructIPKcEEvT_S8_St20forward_iterator_tag; std::string::_M_construct<char const*>(char const*,char const*,std::forward_iterator_tag)
loc_77279:
mov rax, rbx
add rsp, 198h
pop rbx
pop r14
retn
def_771CE:
lea rbx, [rsp+1A8h+var_188]; jumptable 00000000000771CE default case
mov rdi, rbx
call __ZNSt7__cxx1119basic_ostringstreamIcSt11char_traitsIcESaIcEEC1Ev; std::ostringstream::basic_ostringstream(void)
lea rsi, aTypeIsNotConve; "Type is not convertible to string"
mov edx, 21h ; '!'
mov rdi, rbx
call __ZSt16__ostream_insertIcSt11char_traitsIcEERSt13basic_ostreamIT_T0_ES6_PKS3_l; std::__ostream_insert<char,std::char_traits<char>>(std::ostream &,char const*,long)
lea rsi, [rsp+1A8h+var_180]
mov rdi, rsp
call __ZNKSt7__cxx1115basic_stringbufIcSt11char_traitsIcESaIcEE3strEv; std::stringbuf::str(void)
mov rdi, rsp
call _ZN4Json15throwLogicErrorERKNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE; Json::throwLogicError(std::string const&)
mov rbx, rax
lea rax, [rsp+1A8h+var_198]
mov rdi, [rax-10h]; void *
cmp rdi, rax
jz short loc_772DA
call __ZdlPv; operator delete(void *)
jmp short loc_772DA
jmp short $+2
loc_772D7:
mov rbx, rax
loc_772DA:
mov rsi, cs:_ZTTNSt7__cxx1119basic_ostringstreamIcSt11char_traitsIcESaIcEEE_ptr
lea rdi, [rsp+1A8h+var_188]
call __ZNSt7__cxx1119basic_ostringstreamIcSt11char_traitsIcESaIcEED2Ev; std::ostringstream::~ostringstream()
lea rdi, [rsp+1A8h+var_118]; this
call __ZNSt8ios_baseD2Ev; std::ios_base::~ios_base()
mov rdi, rbx
call __Unwind_Resume
| _QWORD * Json::Value::asString[abi:cxx11](_QWORD *a1, const char **a2)
{
const char *v2; // r14
int v3; // eax
const char *v4; // rdx
const char *v5; // rsi
long long v6; // rdx
_QWORD v8[2]; // [rsp+0h] [rbp-1A8h] BYREF
char v9[8]; // [rsp+20h] [rbp-188h] BYREF
char v10[104]; // [rsp+28h] [rbp-180h] BYREF
switch ( (unsigned __int8)*((_WORD *)a2 + 4) )
{
case 0u:
goto LABEL_6;
case 1u:
Json::valueToString[abi:cxx11](a1, *a2);
return a1;
case 2u:
Json::valueToString[abi:cxx11](a1, *a2);
return a1;
case 3u:
Json::valueToString[abi:cxx11](a1, 17LL, 0LL, *(double *)a2);
return a1;
case 4u:
v2 = *a2;
if ( *a2 )
{
if ( ((_WORD)a2[1] & 0x100) != 0 )
{
v3 = *(_DWORD *)v2;
v2 += 4;
}
else
{
v3 = strlen(*a2);
}
*a1 = a1 + 2;
v4 = &v2[v3];
v5 = v2;
}
else
{
LABEL_6:
*a1 = a1 + 2;
v4 = (const char *)&unk_89040;
v5 = (const char *)&unk_89040;
}
break;
case 5u:
v6 = *(unsigned __int8 *)a2;
v5 = "false";
if ( v6 )
v5 = "true";
*a1 = a1 + 2;
v4 = &v5[v6 ^ 5];
break;
default:
std::ostringstream::basic_ostringstream(v9);
std::__ostream_insert<char,std::char_traits<char>>(v9, "Type is not convertible to string", 33LL);
std::stringbuf::str(v8, v10);
Json::throwLogicError(v8);
}
std::string::_M_construct<char const*>(a1, v5, v4);
return a1;
}
| asString[abi:cxx11]:
PUSH R14
PUSH RBX
SUB RSP,0x198
MOVZX EAX,word ptr [RSI + 0x8]
CMP AL,0x5
JA 0x00177287
MOV RBX,RDI
MOVZX ECX,AL
LEA RDX,[0x188f60]
MOVSXD RCX,dword ptr [RDX + RCX*0x4]
ADD RCX,RDX
switchD:
JMP RCX
caseD_1:
MOV RSI,qword ptr [RSI]
MOV RDI,RBX
CALL 0x0017b838
JMP 0x00177279
caseD_4:
MOV R14,qword ptr [RSI]
TEST R14,R14
JZ 0x001771f8
BT EAX,0x8
JC 0x0017725b
MOV RDI,R14
CALL 0x0011e730
JMP 0x00177262
caseD_0:
LEA RAX,[RBX + 0x10]
MOV qword ptr [RBX],RAX
LEA RDX,[0x189040]
MOV RDI,RBX
MOV RSI,RDX
JMP 0x00177274
caseD_2:
MOV RSI,qword ptr [RSI]
MOV RDI,RBX
CALL 0x0017b935
JMP 0x00177279
caseD_3:
MOVSD XMM0,qword ptr [RSI]
MOV RDI,RBX
MOV ESI,0x11
XOR EDX,EDX
CALL 0x0017b9b3
JMP 0x00177279
caseD_5:
MOVZX EDX,byte ptr [RSI]
LEA RAX,[0x18392e]
LEA RSI,[0x183933]
TEST RDX,RDX
CMOVNZ RSI,RAX
LEA RAX,[RBX + 0x10]
MOV qword ptr [RBX],RAX
XOR RDX,0x5
ADD RDX,RSI
MOV RDI,RBX
JMP 0x00177274
LAB_0017725b:
MOV EAX,dword ptr [R14]
ADD R14,0x4
LAB_00177262:
MOV EDX,EAX
LEA RAX,[RBX + 0x10]
MOV qword ptr [RBX],RAX
ADD RDX,R14
MOV RDI,RBX
MOV RSI,R14
LAB_00177274:
CALL 0x0011e620
LAB_00177279:
MOV RAX,RBX
ADD RSP,0x198
POP RBX
POP R14
RET
default:
LEA RBX,[RSP + 0x20]
MOV RDI,RBX
CALL 0x0011f750
LAB_00177294:
LEA RSI,[0x189143]
MOV EDX,0x21
MOV RDI,RBX
CALL 0x0011f400
LEA RSI,[RSP + 0x28]
LAB_001772ad:
MOV RDI,RSP
CALL 0x0011fc60
LAB_001772b5:
MOV RDI,RSP
CALL 0x00176374
LAB_001772bd:
MOV RBX,RAX
LEA RAX,[RSP + 0x10]
MOV RDI,qword ptr [RAX + -0x10]
CMP RDI,RAX
JZ 0x001772da
CALL 0x0011f0e0
JMP 0x001772da
LAB_001772da:
MOV RSI,qword ptr [0x001afea8]
LEA RDI,[RSP + 0x20]
CALL 0x0011e900
LEA RDI,[RSP + 0x90]
CALL 0x0011e4d0
MOV RDI,RBX
CALL 0x0011ffd0
|
/* Json::Value::asString[abi:cxx11]() const */
void Json::Value::asString_abi_cxx11_(void)
{
int8 uVar1;
ulong *in_RSI;
Json *in_RDI;
int1 *local_1a8 [2];
int1 local_198 [16];
ostringstream local_188 [112];
ios_base local_118 [264];
switch((char)(ushort)in_RSI[1]) {
case '\x01':
valueToString_abi_cxx11_(in_RDI,*in_RSI);
return;
case '\x02':
valueToString_abi_cxx11_(in_RDI,*in_RSI);
return;
case '\x03':
valueToString_abi_cxx11_(*in_RSI);
return;
case '\x04':
if ((char *)*in_RSI != (char *)0x0) {
if (((ushort)in_RSI[1] >> 8 & 1) == 0) {
strlen((char *)*in_RSI);
}
*(Json **)in_RDI = in_RDI + 0x10;
break;
}
case '\0':
*(Json **)in_RDI = in_RDI + 0x10;
break;
case '\x05':
*(Json **)in_RDI = in_RDI + 0x10;
break;
default:
std::__cxx11::ostringstream::ostringstream(local_188);
/* try { // try from 00177294 to 001772a7 has its CatchHandler @ 001772d7 */
std::__ostream_insert<char,std::char_traits<char>>
((ostream *)local_188,"Type is not convertible to string",0x21);
/* try { // try from 001772ad to 001772b4 has its CatchHandler @ 001772d5 */
std::__cxx11::stringbuf::str();
/* try { // try from 001772b5 to 001772bc has its CatchHandler @ 001772bd */
uVar1 = throwLogicError((string *)local_1a8);
/* catch() { ... } // from try @ 001772b5 with catch @ 001772bd */
if (local_1a8[0] != local_198) {
operator_delete(local_1a8[0]);
}
std::__cxx11::ostringstream::~ostringstream(local_188);
std::ios_base::~ios_base(local_118);
/* WARNING: Subroutine does not return */
_Unwind_Resume(uVar1);
}
std::__cxx11::string::_M_construct<char_const*>();
return;
}
|
|
4,491 | lf_dynarray_lvalue | eloqsql/mysys/lf_dynarray.c | void *lf_dynarray_lvalue(LF_DYNARRAY *array, uint idx)
{
void * ptr, * volatile * ptr_ptr= 0;
int i;
for (i= LF_DYNARRAY_LEVELS-1; idx < dynarray_idxes_in_prev_levels[i]; i--)
/* no-op */;
ptr_ptr= &array->level[i];
idx-= dynarray_idxes_in_prev_levels[i];
for (; i > 0; i--)
{
if (!(ptr= *ptr_ptr))
{
void *alloc= my_malloc(key_memory_lf_dynarray, LF_DYNARRAY_LEVEL_LENGTH *
sizeof(void *), MYF(MY_WME|MY_ZEROFILL));
if (unlikely(!alloc))
return(NULL);
if (my_atomic_casptr(ptr_ptr, &ptr, alloc))
ptr= alloc;
else
my_free(alloc);
}
ptr_ptr= ((void **)ptr) + idx / dynarray_idxes_in_prev_level[i];
idx%= dynarray_idxes_in_prev_level[i];
}
if (!(ptr= *ptr_ptr))
{
uchar *alloc, *data;
alloc= my_malloc(key_memory_lf_dynarray,
LF_DYNARRAY_LEVEL_LENGTH * array->size_of_element +
MY_MAX(array->size_of_element, sizeof(void *)),
MYF(MY_WME|MY_ZEROFILL));
if (unlikely(!alloc))
return(NULL);
/* reserve the space for free() address */
data= alloc + sizeof(void *);
{ /* alignment */
intptr mod= ((intptr)data) % array->size_of_element;
if (mod)
data+= array->size_of_element - mod;
}
((void **)data)[-1]= alloc; /* free() will need the original pointer */
if (my_atomic_casptr(ptr_ptr, &ptr, data))
ptr= data;
else
my_free(alloc);
}
return ((uchar*)ptr) + array->size_of_element * idx;
} | O3 | c | lf_dynarray_lvalue:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
pushq %rax
movl %esi, %r14d
movl %esi, %ecx
leaq 0x20(%rdi), %r12
pushq $0x5
popq %r13
pushq $0x4
popq %rax
leaq 0xd38f6(%rip), %rdx # 0x105330
movq -0x8(%rdx,%rax,8), %rsi
decl %r13d
decq %rax
addq $-0x8, %r12
cmpq %rcx, %rsi
ja 0x31a3a
movq %rdi, -0x30(%rbp)
subl %esi, %r14d
testq %rax, %rax
jle 0x31acb
leal -0x1(%r13), %eax
movl %eax, %eax
leaq 0xd38e9(%rip), %rcx # 0x105350
leaq (%rcx,%rax,8), %rbx
pushq $0x30
popq %r15
movq (%r12), %rdi
testq %rdi, %rdi
jne 0x31aaf
leaq 0xbff59d(%rip), %rax # 0xc3101c
movl (%rax), %edi
movl $0x800, %esi # imm = 0x800
movq %r15, %rdx
callq 0xbf321
testq %rax, %rax
je 0x31b56
movq %rax, %rdi
xorl %eax, %eax
lock
cmpxchgq %rdi, (%r12)
je 0x31aaf
movq %rax, %r12
callq 0xbf54e
movq %r12, %rdi
movl %r14d, %eax
xorl %edx, %edx
divq (%rbx)
leaq (%rdi,%rax,8), %r12
decl %r13d
addq $-0x8, %rbx
movq %rdx, %r14
cmpl $0x1, %r13d
jg 0x31a6f
movq (%r12), %rcx
testq %rcx, %rcx
movq -0x30(%rbp), %rbx
jne 0x31b3c
leaq 0xbff53d(%rip), %rax # 0xc3101c
movl (%rax), %edi
movl 0x20(%rbx), %eax
movl %eax, %ecx
shll $0x8, %ecx
cmpl $0x9, %eax
pushq $0x8
popq %rsi
cmovael %eax, %esi
addq %rcx, %rsi
pushq $0x30
popq %rdx
callq 0xbf321
testq %rax, %rax
je 0x31b56
movq %rax, %rdi
addq $0x8, %rax
movl 0x20(%rbx), %esi
xorl %edx, %edx
divq %rsi
subq %rdx, %rsi
testq %rdx, %rdx
cmoveq %rdx, %rsi
leaq (%rdi,%rsi), %rcx
addq $0x8, %rcx
movq %rdi, (%rdi,%rsi)
xorl %eax, %eax
lock
cmpxchgq %rcx, (%r12)
je 0x31b3c
movq %rax, %r15
callq 0xbf54e
movq %r15, %rcx
imull 0x20(%rbx), %r14d
addq %rcx, %r14
movq %r14, %rax
addq $0x8, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
xorl %r14d, %r14d
jmp 0x31b44
| lf_dynarray_lvalue:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
push rax
mov r14d, esi
mov ecx, esi
lea r12, [rdi+20h]
push 5
pop r13
push 4
pop rax
lea rdx, dynarray_idxes_in_prev_levels
loc_31A3A:
mov rsi, [rdx+rax*8-8]
dec r13d
dec rax
add r12, 0FFFFFFFFFFFFFFF8h
cmp rsi, rcx
ja short loc_31A3A
mov [rbp+var_30], rdi
sub r14d, esi
test rax, rax
jle short loc_31ACB
lea eax, [r13-1]
mov eax, eax
lea rcx, dynarray_idxes_in_prev_level
lea rbx, [rcx+rax*8]
push 30h ; '0'
pop r15
loc_31A6F:
mov rdi, [r12]
test rdi, rdi
jnz short loc_31AAF
lea rax, key_memory_lf_dynarray
mov edi, [rax]
mov esi, 800h
mov rdx, r15
call my_malloc
test rax, rax
jz loc_31B56
mov rdi, rax
xor eax, eax
lock cmpxchg [r12], rdi
jz short loc_31AAF
mov r12, rax
call my_free
mov rdi, r12
loc_31AAF:
mov eax, r14d
xor edx, edx
div qword ptr [rbx]
lea r12, [rdi+rax*8]
dec r13d
add rbx, 0FFFFFFFFFFFFFFF8h
mov r14, rdx
cmp r13d, 1
jg short loc_31A6F
loc_31ACB:
mov rcx, [r12]
test rcx, rcx
mov rbx, [rbp+var_30]
jnz short loc_31B3C
lea rax, key_memory_lf_dynarray
mov edi, [rax]
mov eax, [rbx+20h]
mov ecx, eax
shl ecx, 8
cmp eax, 9
push 8
pop rsi
cmovnb esi, eax
add rsi, rcx
push 30h ; '0'
pop rdx
call my_malloc
test rax, rax
jz short loc_31B56
mov rdi, rax
add rax, 8
mov esi, [rbx+20h]
xor edx, edx
div rsi
sub rsi, rdx
test rdx, rdx
cmovz rsi, rdx
lea rcx, [rdi+rsi]
add rcx, 8
mov [rdi+rsi], rdi
xor eax, eax
lock cmpxchg [r12], rcx
jz short loc_31B3C
mov r15, rax
call my_free
mov rcx, r15
loc_31B3C:
imul r14d, [rbx+20h]
add r14, rcx
loc_31B44:
mov rax, r14
add rsp, 8
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
loc_31B56:
xor r14d, r14d
jmp short loc_31B44
| signed long long lf_dynarray_lvalue(long long a1, unsigned int a2)
{
unsigned long long v3; // rcx
volatile signed long long *v4; // r12
int v5; // r13d
long long v6; // rax
unsigned long long v7; // rsi
unsigned int v8; // r14d
_QWORD *v9; // rbx
volatile signed long long v10; // rdi
signed long long v11; // rax
signed long long v12; // rax
volatile signed long long v13; // r12
unsigned long long v14; // rdx
signed long long v15; // rcx
unsigned int v16; // eax
long long v17; // rsi
long long v18; // rax
long long v19; // rdi
unsigned long long v20; // rdx
unsigned long long v21; // rsi
signed long long v22; // rax
signed long long v23; // r15
v3 = a2;
v4 = (volatile signed long long *)(a1 + 32);
v5 = 5;
v6 = 4LL;
do
{
v7 = dynarray_idxes_in_prev_levels[v6 - 1];
--v5;
--v6;
--v4;
}
while ( v7 > v3 );
v8 = a2 - v7;
if ( v6 > 0 )
{
v9 = (_QWORD *)((char *)&dynarray_idxes_in_prev_level + 8 * (unsigned int)(v5 - 1));
do
{
v10 = *v4;
if ( !*v4 )
{
v11 = my_malloc(key_memory_lf_dynarray, 2048LL, 48LL);
if ( !v11 )
return 0LL;
v10 = v11;
v12 = _InterlockedCompareExchange64(v4, v11, 0LL);
if ( v12 )
{
v13 = v12;
my_free(v10);
v10 = v13;
}
}
v14 = (unsigned long long)v8 % *v9;
v4 = (volatile signed long long *)(v10 + 8 * ((unsigned long long)v8 / *v9));
--v5;
--v9;
v8 = v14;
}
while ( v5 > 1 );
}
v15 = *v4;
if ( !*v4 )
{
v16 = *(_DWORD *)(a1 + 32);
v17 = 8LL;
if ( v16 >= 9 )
v17 = v16;
v18 = my_malloc(key_memory_lf_dynarray, (unsigned int)(*(_DWORD *)(a1 + 32) << 8) + v17, 48LL);
if ( !v18 )
return 0LL;
v19 = v18;
v20 = (v18 + 8) % (unsigned long long)*(unsigned int *)(a1 + 32);
v21 = *(unsigned int *)(a1 + 32) - v20;
if ( !v20 )
v21 = 0LL;
v15 = v18 + v21 + 8;
*(_QWORD *)(v18 + v21) = v18;
v22 = _InterlockedCompareExchange64(v4, v15, 0LL);
if ( v22 )
{
v23 = v22;
my_free(v19);
v15 = v23;
}
}
return v15 + *(_DWORD *)(a1 + 32) * v8;
}
| lf_dynarray_lvalue:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
PUSH RAX
MOV R14D,ESI
MOV ECX,ESI
LEA R12,[RDI + 0x20]
PUSH 0x5
POP R13
PUSH 0x4
POP RAX
LEA RDX,[0x205330]
LAB_00131a3a:
MOV RSI,qword ptr [RDX + RAX*0x8 + -0x8]
DEC R13D
DEC RAX
ADD R12,-0x8
CMP RSI,RCX
JA 0x00131a3a
MOV qword ptr [RBP + -0x30],RDI
SUB R14D,ESI
TEST RAX,RAX
JLE 0x00131acb
LEA EAX,[R13 + -0x1]
MOV EAX,EAX
LEA RCX,[0x205350]
LEA RBX,[RCX + RAX*0x8]
PUSH 0x30
POP R15
LAB_00131a6f:
MOV RDI,qword ptr [R12]
TEST RDI,RDI
JNZ 0x00131aaf
LEA RAX,[0xd3101c]
MOV EDI,dword ptr [RAX]
MOV ESI,0x800
MOV RDX,R15
CALL 0x001bf321
TEST RAX,RAX
JZ 0x00131b56
MOV RDI,RAX
XOR EAX,EAX
CMPXCHG.LOCK qword ptr [R12],RDI
JZ 0x00131aaf
MOV R12,RAX
CALL 0x001bf54e
MOV RDI,R12
LAB_00131aaf:
MOV EAX,R14D
XOR EDX,EDX
DIV qword ptr [RBX]
LEA R12,[RDI + RAX*0x8]
DEC R13D
ADD RBX,-0x8
MOV R14,RDX
CMP R13D,0x1
JG 0x00131a6f
LAB_00131acb:
MOV RCX,qword ptr [R12]
TEST RCX,RCX
MOV RBX,qword ptr [RBP + -0x30]
JNZ 0x00131b3c
LEA RAX,[0xd3101c]
MOV EDI,dword ptr [RAX]
MOV EAX,dword ptr [RBX + 0x20]
MOV ECX,EAX
SHL ECX,0x8
CMP EAX,0x9
PUSH 0x8
POP RSI
CMOVNC ESI,EAX
ADD RSI,RCX
PUSH 0x30
POP RDX
CALL 0x001bf321
TEST RAX,RAX
JZ 0x00131b56
MOV RDI,RAX
ADD RAX,0x8
MOV ESI,dword ptr [RBX + 0x20]
XOR EDX,EDX
DIV RSI
SUB RSI,RDX
TEST RDX,RDX
CMOVZ RSI,RDX
LEA RCX,[RDI + RSI*0x1]
ADD RCX,0x8
MOV qword ptr [RDI + RSI*0x1],RDI
XOR EAX,EAX
CMPXCHG.LOCK qword ptr [R12],RCX
JZ 0x00131b3c
MOV R15,RAX
CALL 0x001bf54e
MOV RCX,R15
LAB_00131b3c:
IMUL R14D,dword ptr [RBX + 0x20]
ADD R14,RCX
LAB_00131b44:
MOV RAX,R14
ADD RSP,0x8
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
LAB_00131b56:
XOR R14D,R14D
JMP 0x00131b44
|
long lf_dynarray_lvalue(long param_1,uint param_2)
{
uint uVar1;
long lVar2;
ulong uVar3;
long lVar4;
ulong uVar5;
ulong *puVar6;
long lVar7;
long *plVar8;
int iVar9;
int iVar10;
bool bVar11;
plVar8 = (long *)(param_1 + 0x20);
lVar2 = 4;
iVar10 = 5;
do {
iVar9 = iVar10;
lVar4 = lVar2 * 8;
iVar10 = iVar9 + -1;
lVar2 = lVar2 + -1;
plVar8 = plVar8 + -1;
} while ((ulong)param_2 < *(ulong *)(write_pin_change_table + lVar4 + 0x18));
param_2 = param_2 - (int)*(ulong *)(write_pin_change_table + lVar4 + 0x18);
uVar5 = (ulong)param_2;
if (0 < lVar2) {
puVar6 = (ulong *)(dynarray_idxes_in_prev_level + (ulong)(iVar9 - 2) * 8);
do {
lVar2 = *plVar8;
if (*plVar8 == 0) {
lVar2 = my_malloc(key_memory_lf_dynarray,0x800,0x30);
if (lVar2 == 0) {
return 0;
}
LOCK();
lVar4 = *plVar8;
bVar11 = lVar4 == 0;
if (bVar11) {
*plVar8 = lVar2;
lVar4 = 0;
}
UNLOCK();
if (!bVar11) {
my_free();
lVar2 = lVar4;
}
}
uVar3 = uVar5 & 0xffffffff;
uVar5 = uVar3 % *puVar6;
param_2 = (uint)uVar5;
plVar8 = (long *)(lVar2 + (uVar3 / *puVar6) * 8);
iVar10 = iVar10 + -1;
puVar6 = puVar6 + -1;
} while (1 < iVar10);
}
lVar2 = *plVar8;
if (*plVar8 == 0) {
uVar1 = *(uint *)(param_1 + 0x20);
uVar5 = 8;
if (8 < uVar1) {
uVar5 = (ulong)uVar1;
}
lVar4 = my_malloc(key_memory_lf_dynarray,uVar5 + (uVar1 << 8),0x30);
if (lVar4 == 0) {
return 0;
}
uVar5 = (lVar4 + 8U) % (ulong)*(uint *)(param_1 + 0x20);
lVar7 = *(uint *)(param_1 + 0x20) - uVar5;
if (uVar5 == 0) {
lVar7 = 0;
}
lVar2 = lVar4 + lVar7 + 8;
*(long *)(lVar4 + lVar7) = lVar4;
LOCK();
lVar4 = *plVar8;
bVar11 = lVar4 == 0;
if (bVar11) {
*plVar8 = lVar2;
lVar4 = 0;
}
UNLOCK();
if (!bVar11) {
my_free();
lVar2 = lVar4;
}
}
return (ulong)(param_2 * *(int *)(param_1 + 0x20)) + lVar2;
}
|
|
4,492 | common_detokenize[abi:cxx11](llama_vocab const*, std::vector<int, std::allocator<int>> const&, bool) | monkey531[P]llama/common/common.cpp | std::string common_detokenize(const struct llama_vocab * vocab, const std::vector<llama_token> & tokens, bool special) {
std::string text;
text.resize(std::max(text.capacity(), tokens.size()));
int32_t n_chars = llama_detokenize(vocab, tokens.data(), (int32_t)tokens.size(), &text[0], (int32_t)text.size(), false, special);
if (n_chars < 0) {
text.resize(-n_chars);
n_chars = llama_detokenize(vocab, tokens.data(), (int32_t)tokens.size(), &text[0], (int32_t)text.size(), false, special);
GGML_ASSERT(n_chars <= (int32_t)text.size()); // whitespace trimming is performed after per-token detokenization
}
text.resize(n_chars);
// NOTE: the original tokenizer decodes bytes after collecting the pieces.
return text;
} | O0 | cpp | common_detokenize[abi:cxx11](llama_vocab const*, std::vector<int, std::allocator<int>> const&, bool):
subq $0xb8, %rsp
movq %rdi, 0x68(%rsp)
movb %cl, %al
movq %rdi, %rcx
movq %rcx, 0x60(%rsp)
movq %rdi, 0xb0(%rsp)
movq %rsi, 0xa8(%rsp)
movq %rdx, 0xa0(%rsp)
andb $0x1, %al
movb %al, 0x9f(%rsp)
movb $0x0, 0x9e(%rsp)
callq 0x504a0
movq 0x68(%rsp), %rdi
callq 0x502b0
movq %rax, 0x90(%rsp)
movq 0xa0(%rsp), %rdi
callq 0x152390
movq %rax, 0x88(%rsp)
leaq 0x90(%rsp), %rdi
leaq 0x88(%rsp), %rsi
callq 0x7e960
movq %rax, 0x70(%rsp)
jmp 0x14b0d7
movq 0x68(%rsp), %rdi
movq 0x70(%rsp), %rax
movq (%rax), %rsi
callq 0x505a0
jmp 0x14b0eb
movq 0xa8(%rsp), %rax
movq %rax, 0x40(%rsp)
movq 0xa0(%rsp), %rdi
callq 0x152bf0
movq %rax, 0x48(%rsp)
movq 0xa0(%rsp), %rdi
callq 0x152390
movq 0x68(%rsp), %rdi
movl %eax, 0x54(%rsp)
xorl %eax, %eax
movl %eax, %esi
callq 0x50fb0
movq %rax, 0x58(%rsp)
jmp 0x14b130
movq 0x68(%rsp), %rdi
callq 0x503f0
movq 0x40(%rsp), %rdi
movq 0x48(%rsp), %rsi
movl 0x54(%rsp), %edx
movq 0x58(%rsp), %rcx
movl %eax, %r8d
movzbl 0x9f(%rsp), %r9d
andl $0x1, %r9d
movq %rsp, %rax
movl %r9d, (%rax)
xorl %r9d, %r9d
callq 0x50eb0
movl %eax, 0x3c(%rsp)
jmp 0x14b171
movl 0x3c(%rsp), %eax
movl %eax, 0x78(%rsp)
cmpl $0x0, 0x78(%rsp)
jge 0x14b286
movq 0x68(%rsp), %rdi
movl 0x78(%rsp), %eax
negl %eax
movslq %eax, %rsi
callq 0x505a0
jmp 0x14b199
movq 0xa8(%rsp), %rax
movq %rax, 0x18(%rsp)
movq 0xa0(%rsp), %rdi
callq 0x152bf0
movq %rax, 0x20(%rsp)
movq 0xa0(%rsp), %rdi
callq 0x152390
movq 0x68(%rsp), %rdi
movl %eax, 0x2c(%rsp)
xorl %eax, %eax
movl %eax, %esi
callq 0x50fb0
movq %rax, 0x30(%rsp)
jmp 0x14b1de
movq 0x68(%rsp), %rdi
callq 0x503f0
movq 0x18(%rsp), %rdi
movq 0x20(%rsp), %rsi
movl 0x2c(%rsp), %edx
movq 0x30(%rsp), %rcx
movl %eax, %r8d
movzbl 0x9f(%rsp), %r9d
andl $0x1, %r9d
movq %rsp, %rax
movl %r9d, (%rax)
xorl %r9d, %r9d
callq 0x50eb0
movl %eax, 0x14(%rsp)
jmp 0x14b21f
movq 0x68(%rsp), %rdi
movl 0x14(%rsp), %eax
movl %eax, 0x78(%rsp)
movl 0x78(%rsp), %eax
movl %eax, 0x10(%rsp)
callq 0x503f0
movq %rax, %rcx
movl 0x10(%rsp), %eax
cmpl %ecx, %eax
jle 0x14b284
leaq 0x8e866(%rip), %rdi # 0x1d9ab1
leaq 0x8e8ab(%rip), %rdx # 0x1d9afd
leaq 0x8ef17(%rip), %rcx # 0x1da170
xorl %eax, %eax
movl $0x6e2, %esi # imm = 0x6E2
callq 0x50bc0
jmp 0x14b267
movq 0x68(%rsp), %rdi
movq %rax, %rcx
movl %edx, %eax
movq %rcx, 0x80(%rsp)
movl %eax, 0x7c(%rsp)
callq 0x510c0
jmp 0x14b2c0
jmp 0x14b286
movq 0x68(%rsp), %rdi
movslq 0x78(%rsp), %rsi
callq 0x505a0
jmp 0x14b297
movb $0x1, 0x9e(%rsp)
testb $0x1, 0x9e(%rsp)
jne 0x14b2b3
movq 0x68(%rsp), %rdi
callq 0x510c0
movq 0x60(%rsp), %rax
addq $0xb8, %rsp
retq
movq 0x80(%rsp), %rdi
callq 0x50940
nopl (%rax)
| _Z17common_detokenizeB5cxx11PK11llama_vocabRKSt6vectorIiSaIiEEb:
sub rsp, 0B8h
mov [rsp+0B8h+var_50], rdi
mov al, cl
mov rcx, rdi
mov [rsp+0B8h+var_58], rcx
mov [rsp+0B8h+var_8], rdi
mov [rsp+0B8h+var_10], rsi
mov [rsp+0B8h+var_18], rdx
and al, 1
mov [rsp+0B8h+var_19], al
mov [rsp+0B8h+var_1A], 0
call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEC1Ev; std::string::basic_string(void)
mov rdi, [rsp+0B8h+var_50]
call __ZNKSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE8capacityEv; std::string::capacity(void)
mov [rsp+0B8h+var_28], rax
mov rdi, [rsp+0B8h+var_18]
call _ZNKSt6vectorIiSaIiEE4sizeEv; std::vector<int>::size(void)
mov [rsp+0B8h+var_30], rax
lea rdi, [rsp+0B8h+var_28]
lea rsi, [rsp+0B8h+var_30]
call _ZSt3maxImERKT_S2_S2_; std::max<ulong>(ulong const&,ulong const&)
mov [rsp+0B8h+var_48], rax
jmp short $+2
loc_14B0D7:
mov rdi, [rsp+0B8h+var_50]
mov rax, [rsp+0B8h+var_48]
mov rsi, [rax]
call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE6resizeEm; std::string::resize(ulong)
jmp short $+2
loc_14B0EB:
mov rax, [rsp+0B8h+var_10]
mov [rsp+0B8h+var_78], rax
mov rdi, [rsp+0B8h+var_18]
call _ZNKSt6vectorIiSaIiEE4dataEv; std::vector<int>::data(void)
mov [rsp+0B8h+var_70], rax
mov rdi, [rsp+0B8h+var_18]
call _ZNKSt6vectorIiSaIiEE4sizeEv; std::vector<int>::size(void)
mov rdi, [rsp+0B8h+var_50]
mov [rsp+0B8h+var_64], eax
xor eax, eax
mov esi, eax
call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEixEm; std::string::operator[](ulong)
mov [rsp+0B8h+var_60], rax
jmp short $+2
loc_14B130:
mov rdi, [rsp+0B8h+var_50]
call __ZNKSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE4sizeEv; std::string::size(void)
mov rdi, [rsp+0B8h+var_78]
mov rsi, [rsp+0B8h+var_70]
mov edx, [rsp+0B8h+var_64]
mov rcx, [rsp+0B8h+var_60]
mov r8d, eax
movzx r9d, [rsp+0B8h+var_19]
and r9d, 1
mov rax, rsp
mov [rax], r9d
xor r9d, r9d
call _llama_detokenize
mov [rsp+0B8h+var_7C], eax
jmp short $+2
loc_14B171:
mov eax, [rsp+0B8h+var_7C]
mov [rsp+0B8h+var_40], eax
cmp [rsp+0B8h+var_40], 0
jge loc_14B286
mov rdi, [rsp+0B8h+var_50]
mov eax, [rsp+0B8h+var_40]
neg eax
movsxd rsi, eax
call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE6resizeEm; std::string::resize(ulong)
jmp short $+2
loc_14B199:
mov rax, [rsp+0B8h+var_10]
mov [rsp+0B8h+var_A0], rax
mov rdi, [rsp+0B8h+var_18]
call _ZNKSt6vectorIiSaIiEE4dataEv; std::vector<int>::data(void)
mov [rsp+0B8h+var_98], rax
mov rdi, [rsp+0B8h+var_18]
call _ZNKSt6vectorIiSaIiEE4sizeEv; std::vector<int>::size(void)
mov rdi, [rsp+0B8h+var_50]
mov [rsp+0B8h+var_8C], eax
xor eax, eax
mov esi, eax
call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEixEm; std::string::operator[](ulong)
mov [rsp+0B8h+var_88], rax
jmp short $+2
loc_14B1DE:
mov rdi, [rsp+0B8h+var_50]
call __ZNKSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE4sizeEv; std::string::size(void)
mov rdi, [rsp+0B8h+var_A0]
mov rsi, [rsp+0B8h+var_98]
mov edx, [rsp+0B8h+var_8C]
mov rcx, [rsp+0B8h+var_88]
mov r8d, eax
movzx r9d, [rsp+0B8h+var_19]
and r9d, 1
mov rax, rsp
mov [rax], r9d
xor r9d, r9d
call _llama_detokenize
mov [rsp+0B8h+var_A4], eax
jmp short $+2
loc_14B21F:
mov rdi, [rsp+0B8h+var_50]
mov eax, [rsp+0B8h+var_A4]
mov [rsp+0B8h+var_40], eax
mov eax, [rsp+0B8h+var_40]
mov [rsp+0B8h+var_A8], eax
call __ZNKSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE4sizeEv; std::string::size(void)
mov rcx, rax
mov eax, [rsp+0B8h+var_A8]
cmp eax, ecx
jle short loc_14B284
lea rdi, aWorkspaceLlm4b_2; "/workspace/llm4binary/github/2025_star3"...
lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed"
lea rcx, aNCharsInt32TTe; "n_chars <= (int32_t)text.size()"
xor eax, eax
mov esi, 6E2h
call _ggml_abort
jmp short $+2
loc_14B267:
mov rdi, [rsp+0B8h+var_50]; void *
mov rcx, rax
mov eax, edx
mov [rsp+0B8h+var_38], rcx
mov [rsp+0B8h+var_3C], eax
call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEED1Ev; std::string::~string()
jmp short loc_14B2C0
loc_14B284:
jmp short $+2
loc_14B286:
mov rdi, [rsp+0B8h+var_50]
movsxd rsi, [rsp+0B8h+var_40]
call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE6resizeEm; std::string::resize(ulong)
jmp short $+2
loc_14B297:
mov [rsp+0B8h+var_1A], 1
test [rsp+0B8h+var_1A], 1
jnz short loc_14B2B3
mov rdi, [rsp+0B8h+var_50]; void *
call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEED1Ev; std::string::~string()
loc_14B2B3:
mov rax, [rsp+0B8h+var_58]
add rsp, 0B8h
retn
loc_14B2C0:
mov rdi, [rsp+0B8h+var_38]
call __Unwind_Resume
| void * common_detokenize[abi:cxx11](void *a1, long long a2, long long a3, char a4)
{
unsigned int v4; // eax
unsigned int v5; // eax
long long v7; // [rsp+18h] [rbp-A0h]
long long v8; // [rsp+20h] [rbp-98h]
unsigned int v9; // [rsp+2Ch] [rbp-8Ch]
long long v10; // [rsp+30h] [rbp-88h]
long long v11; // [rsp+40h] [rbp-78h]
long long v12; // [rsp+48h] [rbp-70h]
unsigned int v13; // [rsp+54h] [rbp-64h]
long long v14; // [rsp+58h] [rbp-60h]
_QWORD *v15; // [rsp+70h] [rbp-48h]
int v16; // [rsp+78h] [rbp-40h]
long long v17; // [rsp+80h] [rbp-38h]
long long v18; // [rsp+88h] [rbp-30h] BYREF
long long v19; // [rsp+90h] [rbp-28h] BYREF
char v20; // [rsp+9Eh] [rbp-1Ah]
char v21; // [rsp+9Fh] [rbp-19h]
long long v22; // [rsp+A0h] [rbp-18h]
long long v23; // [rsp+A8h] [rbp-10h]
void *v24; // [rsp+B0h] [rbp-8h]
v24 = a1;
v23 = a2;
v22 = a3;
v21 = a4 & 1;
v20 = 0;
std::string::basic_string(a1);
v19 = std::string::capacity(a1);
v18 = std::vector<int>::size(v22);
v15 = std::max<unsigned long>(&v19, &v18);
std::string::resize(a1, *v15);
v11 = v23;
v12 = std::vector<int>::data(v22);
v13 = std::vector<int>::size(v22);
v14 = std::string::operator[](a1, 0LL);
v4 = std::string::size(a1);
v16 = llama_detokenize(v11, v12, v13, v14, v4, 0LL, v21 & 1);
if ( v16 < 0 )
{
std::string::resize(a1, -v16);
v7 = v23;
v8 = std::vector<int>::data(v22);
v9 = std::vector<int>::size(v22);
v10 = std::string::operator[](a1, 0LL);
v5 = std::string::size(a1);
v16 = llama_detokenize(v7, v8, v9, v10, v5, 0LL, v21 & 1);
if ( v16 > (int)std::string::size(a1) )
{
v17 = ggml_abort(
"/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/common.cpp",
1762LL,
"GGML_ASSERT(%s) failed",
"n_chars <= (int32_t)text.size()");
std::string::~string(a1);
_Unwind_Resume(v17);
}
}
std::string::resize(a1, v16);
return a1;
}
| |||
4,493 | common_detokenize[abi:cxx11](llama_vocab const*, std::vector<int, std::allocator<int>> const&, bool) | monkey531[P]llama/common/common.cpp | std::string common_detokenize(const struct llama_vocab * vocab, const std::vector<llama_token> & tokens, bool special) {
std::string text;
text.resize(std::max(text.capacity(), tokens.size()));
int32_t n_chars = llama_detokenize(vocab, tokens.data(), (int32_t)tokens.size(), &text[0], (int32_t)text.size(), false, special);
if (n_chars < 0) {
text.resize(-n_chars);
n_chars = llama_detokenize(vocab, tokens.data(), (int32_t)tokens.size(), &text[0], (int32_t)text.size(), false, special);
GGML_ASSERT(n_chars <= (int32_t)text.size()); // whitespace trimming is performed after per-token detokenization
}
text.resize(n_chars);
// NOTE: the original tokenizer decodes bytes after collecting the pieces.
return text;
} | O2 | cpp | common_detokenize[abi:cxx11](llama_vocab const*, std::vector<int, std::allocator<int>> const&, bool):
pushq %rbp
pushq %r15
pushq %r14
pushq %rbx
pushq %rax
movl %ecx, %ebp
movq %rdx, %r15
movq %rsi, %r14
movq %rdi, %rbx
leaq 0x10(%rdi), %rax
movq %rax, (%rdi)
andq $0x0, 0x8(%rdi)
movb $0x0, 0x10(%rdi)
movq 0x8(%rdx), %rax
subq (%rdx), %rax
sarq $0x2, %rax
cmpq $0x10, %rax
pushq $0xf
popq %rsi
cmovaeq %rax, %rsi
callq 0x20930
movq (%r15), %rsi
movq 0x8(%r15), %rdx
subq %rsi, %rdx
shrq $0x2, %rdx
movq (%rbx), %rcx
movl 0x8(%rbx), %r8d
movzbl %bpl, %ebp
movl %ebp, (%rsp)
movq %r14, %rdi
xorl %r9d, %r9d
callq 0x200b0
testl %eax, %eax
jns 0x6ebfc
negl %eax
movq %rbx, %rdi
movq %rax, %rsi
callq 0x20930
movq (%r15), %rsi
movq 0x8(%r15), %rdx
subq %rsi, %rdx
shrq $0x2, %rdx
movq (%rbx), %rcx
movl 0x8(%rbx), %r8d
movl %ebp, (%rsp)
movq %r14, %rdi
xorl %r9d, %r9d
callq 0x200b0
cmpl 0x8(%rbx), %eax
jg 0x6ec15
movslq %eax, %rsi
movq %rbx, %rdi
callq 0x20930
movq %rbx, %rax
addq $0x8, %rsp
popq %rbx
popq %r14
popq %r15
popq %rbp
retq
leaq 0x36efd(%rip), %rdi # 0xa5b19
leaq 0x36f42(%rip), %rdx # 0xa5b65
leaq 0x375ae(%rip), %rcx # 0xa61d8
movl $0x6e2, %esi # imm = 0x6E2
xorl %eax, %eax
callq 0x20af0
jmp 0x6ec38
movq %rax, %r14
movq %rbx, %rdi
callq 0x20d78
movq %r14, %rdi
callq 0x20b90
| _Z17common_detokenizeB5cxx11PK11llama_vocabRKSt6vectorIiSaIiEEb:
push rbp
push r15
push r14
push rbx
push rax
mov ebp, ecx
mov r15, rdx
mov r14, rsi
mov rbx, rdi
lea rax, [rdi+10h]
mov [rdi], rax
and qword ptr [rdi+8], 0
mov byte ptr [rdi+10h], 0
mov rax, [rdx+8]
sub rax, [rdx]
sar rax, 2
cmp rax, 10h
push 0Fh
pop rsi
cmovnb rsi, rax
call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE6resizeEm; std::string::resize(ulong)
mov rsi, [r15]
mov rdx, [r15+8]
sub rdx, rsi
shr rdx, 2
mov rcx, [rbx]
mov r8d, [rbx+8]
movzx ebp, bpl
mov [rsp+28h+var_28], ebp
mov rdi, r14
xor r9d, r9d
call _llama_detokenize
test eax, eax
jns short loc_6EBFC
neg eax
mov rdi, rbx
mov rsi, rax
call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE6resizeEm; std::string::resize(ulong)
mov rsi, [r15]
mov rdx, [r15+8]
sub rdx, rsi
shr rdx, 2
mov rcx, [rbx]
mov r8d, [rbx+8]
mov [rsp+28h+var_28], ebp
mov rdi, r14
xor r9d, r9d
call _llama_detokenize
cmp eax, [rbx+8]
jg short loc_6EC15
loc_6EBFC:
movsxd rsi, eax
mov rdi, rbx
call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE6resizeEm; std::string::resize(ulong)
mov rax, rbx
add rsp, 8
pop rbx
pop r14
pop r15
pop rbp
retn
loc_6EC15:
lea rdi, aWorkspaceLlm4b_2; "/workspace/llm4binary/github/2025_star3"...
lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed"
lea rcx, aNCharsInt32TTe; "n_chars <= (int32_t)text.size()"
mov esi, 6E2h
xor eax, eax
call _ggml_abort
jmp short $+2
loc_6EC38:
mov r14, rax
mov rdi, rbx; void *
call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEED2Ev; std::string::~string()
mov rdi, r14
call __Unwind_Resume
| _QWORD * common_detokenize[abi:cxx11](_QWORD *a1, long long a2, _QWORD *a3, long long a4)
{
long long v4; // rax
unsigned __int8 v5; // bp
long long v8; // rsi
int v9; // eax
long long v10; // rdx
long long v11; // rcx
long long v13; // r14
long long v14; // [rsp+0h] [rbp-28h]
long long v15; // [rsp+0h] [rbp-28h]
HIDWORD(v14) = HIDWORD(v4);
v5 = a4;
*a1 = a1 + 2;
a1[1] = 0LL;
*((_BYTE *)a1 + 16) = 0;
v8 = 15LL;
if ( (unsigned long long)((long long)(a3[1] - *a3) >> 2) >= 0x10 )
v8 = (long long)(a3[1] - *a3) >> 2;
std::string::resize(a1, v8, a3, a4);
LODWORD(v14) = v5;
v9 = llama_detokenize(a2, *a3, (a3[1] - *a3) >> 2, *a1, *((unsigned int *)a1 + 2), 0LL, v14);
if ( v9 < 0 )
{
std::string::resize(a1, (unsigned int)-v9, v10, v11);
LODWORD(v15) = v5;
v9 = llama_detokenize(a2, *a3, (a3[1] - *a3) >> 2, *a1, *((unsigned int *)a1 + 2), 0LL, v15);
if ( v9 > *((_DWORD *)a1 + 2) )
{
v13 = ggml_abort(
"/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/common.cpp",
1762LL,
"GGML_ASSERT(%s) failed",
"n_chars <= (int32_t)text.size()");
std::string::~string(a1);
_Unwind_Resume(v13);
}
}
std::string::resize(a1, v9, v10, v11);
return a1;
}
| |||
4,494 | common_detokenize[abi:cxx11](llama_vocab const*, std::vector<int, std::allocator<int>> const&, bool) | monkey531[P]llama/common/common.cpp | std::string common_detokenize(const struct llama_vocab * vocab, const std::vector<llama_token> & tokens, bool special) {
std::string text;
text.resize(std::max(text.capacity(), tokens.size()));
int32_t n_chars = llama_detokenize(vocab, tokens.data(), (int32_t)tokens.size(), &text[0], (int32_t)text.size(), false, special);
if (n_chars < 0) {
text.resize(-n_chars);
n_chars = llama_detokenize(vocab, tokens.data(), (int32_t)tokens.size(), &text[0], (int32_t)text.size(), false, special);
GGML_ASSERT(n_chars <= (int32_t)text.size()); // whitespace trimming is performed after per-token detokenization
}
text.resize(n_chars);
// NOTE: the original tokenizer decodes bytes after collecting the pieces.
return text;
} | O3 | cpp | common_detokenize[abi:cxx11](llama_vocab const*, std::vector<int, std::allocator<int>> const&, bool):
pushq %rbp
pushq %r15
pushq %r14
pushq %r12
pushq %rbx
subq $0x10, %rsp
movl %ecx, %ebp
movq %rdx, %r15
movq %rsi, %r14
movq %rdi, %rbx
leaq 0x10(%rdi), %r12
movq %r12, (%rdi)
movq $0x0, 0x8(%rdi)
movb $0x0, 0x10(%rdi)
movq 0x8(%rdx), %rax
subq (%rdx), %rax
sarq $0x2, %rax
cmpq $0x10, %rax
movl $0xf, %esi
cmovaeq %rax, %rsi
xorl %edx, %edx
callq 0x181d0
movq (%r15), %rsi
movq 0x8(%r15), %rdx
subq %rsi, %rdx
shrq $0x2, %rdx
movq (%rbx), %rcx
movl 0x8(%rbx), %r8d
movzbl %bpl, %ebp
movl %ebp, (%rsp)
movq %r14, %rdi
xorl %r9d, %r9d
callq 0x180c0
testl %eax, %eax
jns 0x7f6bc
negl %eax
movq %rbx, %rdi
movq %rax, %rsi
xorl %edx, %edx
callq 0x181d0
movq (%r15), %rsi
movq 0x8(%r15), %rdx
subq %rsi, %rdx
shrq $0x2, %rdx
movq (%rbx), %rcx
movl 0x8(%rbx), %r8d
movl %ebp, (%rsp)
movq %r14, %rdi
xorl %r9d, %r9d
callq 0x180c0
cmpl 0x8(%rbx), %eax
jg 0x7f6d9
movslq %eax, %rsi
movq %rbx, %rdi
xorl %edx, %edx
callq 0x181d0
movq %rbx, %rax
addq $0x10, %rsp
popq %rbx
popq %r12
popq %r14
popq %r15
popq %rbp
retq
leaq 0x41029(%rip), %rdi # 0xc0709
leaq 0x4106e(%rip), %rdx # 0xc0755
leaq 0x416da(%rip), %rcx # 0xc0dc8
movl $0x6e2, %esi # imm = 0x6E2
xorl %eax, %eax
callq 0x18ad0
jmp 0x7f6fc
movq %rax, %r14
movq (%rbx), %rdi
cmpq %r12, %rdi
je 0x7f713
movq (%r12), %rsi
incq %rsi
callq 0x186a0
movq %r14, %rdi
callq 0x18b90
| _Z17common_detokenizeB5cxx11PK11llama_vocabRKSt6vectorIiSaIiEEb:
push rbp
push r15
push r14
push r12
push rbx
sub rsp, 10h
mov ebp, ecx
mov r15, rdx
mov r14, rsi
mov rbx, rdi
lea r12, [rdi+10h]
mov [rdi], r12
mov qword ptr [rdi+8], 0
mov byte ptr [rdi+10h], 0
mov rax, [rdx+8]
sub rax, [rdx]
sar rax, 2
cmp rax, 10h
mov esi, 0Fh
cmovnb rsi, rax
xor edx, edx
call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE6resizeEmc; std::string::resize(ulong,char)
mov rsi, [r15]
mov rdx, [r15+8]
sub rdx, rsi
shr rdx, 2
mov rcx, [rbx]
mov r8d, [rbx+8]
movzx ebp, bpl
mov [rsp+38h+var_38], ebp
mov rdi, r14
xor r9d, r9d
call _llama_detokenize
test eax, eax
jns short loc_7F6BC
neg eax
mov rdi, rbx
mov rsi, rax
xor edx, edx
call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE6resizeEmc; std::string::resize(ulong,char)
mov rsi, [r15]
mov rdx, [r15+8]
sub rdx, rsi
shr rdx, 2
mov rcx, [rbx]
mov r8d, [rbx+8]
mov [rsp+38h+var_38], ebp
mov rdi, r14
xor r9d, r9d
call _llama_detokenize
cmp eax, [rbx+8]
jg short loc_7F6D9
loc_7F6BC:
movsxd rsi, eax
mov rdi, rbx
xor edx, edx
call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE6resizeEmc; std::string::resize(ulong,char)
mov rax, rbx
add rsp, 10h
pop rbx
pop r12
pop r14
pop r15
pop rbp
retn
loc_7F6D9:
lea rdi, aWorkspaceLlm4b_3; "/workspace/llm4binary/github/2025_star3"...
lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed"
lea rcx, aNCharsInt32TTe; "n_chars <= (int32_t)text.size()"
mov esi, 6E2h
xor eax, eax
call _ggml_abort
jmp short $+2
loc_7F6FC:
mov r14, rax
mov rdi, [rbx]; void *
cmp rdi, r12
jz short loc_7F713
mov rsi, [r12]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_7F713:
mov rdi, r14
call __Unwind_Resume
| _QWORD * common_detokenize[abi:cxx11](_QWORD *a1, long long a2, _QWORD *a3, unsigned __int8 a4)
{
_QWORD *v7; // r12
long long v8; // rsi
int v9; // eax
long long v11; // r14
v7 = a1 + 2;
*a1 = a1 + 2;
a1[1] = 0LL;
*((_BYTE *)a1 + 16) = 0;
v8 = 15LL;
if ( (unsigned long long)((long long)(a3[1] - *a3) >> 2) >= 0x10 )
v8 = (long long)(a3[1] - *a3) >> 2;
std::string::resize(a1, v8, 0LL);
v9 = llama_detokenize(a2, *a3, (a3[1] - *a3) >> 2, *a1, *((unsigned int *)a1 + 2), 0LL, a4);
if ( v9 < 0 )
{
std::string::resize(a1, (unsigned int)-v9, 0LL);
v9 = llama_detokenize(a2, *a3, (a3[1] - *a3) >> 2, *a1, *((unsigned int *)a1 + 2), 0LL, a4);
if ( v9 > *((_DWORD *)a1 + 2) )
{
v11 = ggml_abort(
"/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/common.cpp",
1762LL,
"GGML_ASSERT(%s) failed",
"n_chars <= (int32_t)text.size()");
if ( (_QWORD *)*a1 != v7 )
operator delete((void *)*a1, *v7 + 1LL);
_Unwind_Resume(v11);
}
}
std::string::resize(a1, v9, 0LL);
return a1;
}
| common_detokenize[abi:cxx11]:
PUSH RBP
PUSH R15
PUSH R14
PUSH R12
PUSH RBX
SUB RSP,0x10
MOV EBP,ECX
MOV R15,RDX
MOV R14,RSI
MOV RBX,RDI
LEA R12,[RDI + 0x10]
MOV qword ptr [RDI],R12
MOV qword ptr [RDI + 0x8],0x0
MOV byte ptr [RDI + 0x10],0x0
MOV RAX,qword ptr [RDX + 0x8]
SUB RAX,qword ptr [RDX]
SAR RAX,0x2
CMP RAX,0x10
MOV ESI,0xf
CMOVNC RSI,RAX
LAB_0017f653:
XOR EDX,EDX
CALL 0x001181d0
MOV RSI,qword ptr [R15]
MOV RDX,qword ptr [R15 + 0x8]
SUB RDX,RSI
SHR RDX,0x2
MOV RCX,qword ptr [RBX]
MOV R8D,dword ptr [RBX + 0x8]
LAB_0017f66f:
MOVZX EBP,BPL
MOV dword ptr [RSP],EBP
MOV RDI,R14
XOR R9D,R9D
CALL 0x001180c0
TEST EAX,EAX
JNS 0x0017f6bc
NEG EAX
MOV RDI,RBX
MOV RSI,RAX
XOR EDX,EDX
CALL 0x001181d0
MOV RSI,qword ptr [R15]
MOV RDX,qword ptr [R15 + 0x8]
SUB RDX,RSI
SHR RDX,0x2
MOV RCX,qword ptr [RBX]
MOV R8D,dword ptr [RBX + 0x8]
MOV dword ptr [RSP],EBP
MOV RDI,R14
XOR R9D,R9D
CALL 0x001180c0
CMP EAX,dword ptr [RBX + 0x8]
JG 0x0017f6d9
LAB_0017f6bc:
MOVSXD RSI,EAX
MOV RDI,RBX
XOR EDX,EDX
CALL 0x001181d0
MOV RAX,RBX
ADD RSP,0x10
POP RBX
POP R12
POP R14
POP R15
POP RBP
RET
LAB_0017f6d9:
LEA RDI,[0x1c0709]
LEA RDX,[0x1c0755]
LEA RCX,[0x1c0dc8]
MOV ESI,0x6e2
XOR EAX,EAX
CALL 0x00118ad0
|
/* common_detokenize[abi:cxx11](llama_vocab const*, std::vector<int, std::allocator<int> > const&,
bool) */
llama_vocab * common_detokenize_abi_cxx11_(llama_vocab *param_1,vector *param_2,bool param_3)
{
int iVar1;
ulong uVar2;
int1 in_CL;
int7 in_register_00000011;
long *plVar3;
ulong uVar4;
plVar3 = (long *)CONCAT71(in_register_00000011,param_3);
*(llama_vocab **)param_1 = param_1 + 0x10;
*(int8 *)(param_1 + 8) = 0;
param_1[0x10] = (llama_vocab)0x0;
uVar2 = plVar3[1] - *plVar3 >> 2;
uVar4 = 0xf;
if (0xf < uVar2) {
uVar4 = uVar2;
}
/* try { // try from 0017f653 to 0017f659 has its CatchHandler @ 0017f6fa */
std::__cxx11::string::resize((ulong)param_1,(char)uVar4);
/* try { // try from 0017f66f to 0017f6f9 has its CatchHandler @ 0017f6fc */
iVar1 = llama_detokenize(param_2,*plVar3,(ulong)(plVar3[1] - *plVar3) >> 2,*(int8 *)param_1,
*(int4 *)(param_1 + 8),0,in_CL);
if (iVar1 < 0) {
std::__cxx11::string::resize((ulong)param_1,-(char)iVar1);
iVar1 = llama_detokenize(param_2,*plVar3,(ulong)(plVar3[1] - *plVar3) >> 2,
*(int8 *)param_1,*(int4 *)(param_1 + 8),0,in_CL);
if (*(int *)(param_1 + 8) < iVar1) {
/* WARNING: Subroutine does not return */
ggml_abort("/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/common.cpp",0x6e2
,"GGML_ASSERT(%s) failed","n_chars <= (int32_t)text.size()");
}
}
std::__cxx11::string::resize((ulong)param_1,(char)iVar1);
return param_1;
}
|
|
4,495 | ma_apply_undo_row_insert | eloqsql/storage/maria/ma_blockrec.c | my_bool _ma_apply_undo_row_insert(MARIA_HA *info, LSN undo_lsn,
const uchar *header)
{
pgcache_page_no_t page;
uint rownr;
uchar *buff;
my_bool res;
MARIA_PINNED_PAGE page_link;
MARIA_SHARE *share= info->s;
ha_checksum checksum;
LSN lsn;
DBUG_ENTER("_ma_apply_undo_row_insert");
page= page_korr(header);
header+= PAGE_STORE_SIZE;
rownr= dirpos_korr(header);
header+= DIRPOS_STORE_SIZE;
DBUG_PRINT("enter", ("rowid: %lu page: %lu rownr: %u",
(ulong) ma_recordpos(page, rownr),
(ulong) page, rownr));
buff= pagecache_read(share->pagecache,
&info->dfile, page, 0,
0, share->page_type,
PAGECACHE_LOCK_WRITE,
&page_link.link);
page_link.unlock= PAGECACHE_LOCK_WRITE_UNLOCK;
page_link.changed= buff != 0;
push_dynamic(&info->pinned_pages, (void*) &page_link);
if (!buff)
goto err;
if (read_row_extent_info(info, buff, rownr))
goto err;
_ma_bitmap_flushable(info, 1);
if (delete_head_or_tail(info, page, rownr, 1, 1) ||
delete_tails(info, info->cur_row.tail_positions))
goto err;
if (info->cur_row.extents_count && free_full_pages(info, &info->cur_row))
goto err;
checksum= 0;
if (share->calc_checksum)
checksum= (ha_checksum) 0 - ha_checksum_korr(header);
info->last_auto_increment= ~ (ulonglong) 0;
if (_ma_write_clr(info, undo_lsn, LOGREC_UNDO_ROW_INSERT,
share->calc_checksum != 0, checksum, &lsn, (void*) 0))
goto err;
res= 0;
end:
/* The following is true only if _ma_bitmap_flushable() was called earlier */
if (info->non_flushable_state)
_ma_bitmap_flushable(info, -1);
_ma_unpin_all_pages_and_finalize_row(info, lsn);
DBUG_RETURN(res);
err:
DBUG_ASSERT(!maria_assert_if_crashed_table);
res= 1;
_ma_mark_file_crashed(share);
/*
Don't write a new LSN on the used pages. Not important as the file is
marked as crashed and need to be repaired before it can be used.
*/
lsn= LSN_IMPOSSIBLE;
goto end;
} | O3 | c | ma_apply_undo_row_insert:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x98, %rsp
movq %rsi, -0x60(%rbp)
movq %rdi, %rbx
movq (%rdi), %r12
movl (%rdx), %eax
movzbl 0x4(%rdx), %ecx
shlq $0x20, %rcx
orq %rax, %rcx
movq %rdx, -0x58(%rbp)
movzbl 0x5(%rdx), %r13d
movq 0x600(%r12), %rdi
leaq 0x470(%rbx), %rsi
movl 0x7d4(%r12), %r9d
leaq -0xb8(%rbp), %r15
movq %rcx, -0x68(%rbp)
movq %rcx, %rdx
xorl %ecx, %ecx
xorl %r8d, %r8d
pushq %r15
pushq $0x4
callq 0x3ba02
addq $0x10, %rsp
movq %rax, %r14
movl $0x6, 0x8(%r15)
testq %rax, %rax
setne 0x10(%r15)
leaq 0x2e8(%rbx), %rdi
movq %r15, %rsi
callq 0x92312
testq %r14, %r14
je 0x4f534
movq %r12, -0x40(%rbp)
movq (%rbx), %r15
xorl %r12d, %r12d
cmpb $0x0, 0x7d9(%r15)
setne -0x38(%rbp)
leaq -0x48(%rbp), %rcx
movq %r15, %rdi
movq %r14, %rsi
movl %r13d, -0x2c(%rbp)
movl %r13d, %edx
callq 0x4d3b2
testq %rax, %rax
je 0x4f374
movzbl (%rax), %ecx
movl %ecx, %edx
andl $0xf, %edx
leaq 0xbafd9a(%rip), %rsi # 0xbff090
movzbl (%rdx,%rsi), %r14d
addq %rax, %r14
xorl %r13d, %r13d
testb %cl, %cl
js 0x4f30c
xorl %edi, %edi
jmp 0x4f3fa
movzbl (%r14), %edi
cmpl $0xff, %edi
je 0x4f31d
incq %r14
jmp 0x4f32d
movzwl 0x1(%r14), %eax
rolw $0x8, %ax
movzwl %ax, %edi
addq $0x3, %r14
leal (,%rdi,8), %r13d
subl %edi, %r13d
cmpq %r13, 0x118(%rbx)
jae 0x4f37d
movb -0x38(%rbp), %al
movb %al, %r12b
shll $0x10, %r12d
orq $0x10, %r12
leaq 0x118(%rbx), %rsi
movq %rdi, -0x38(%rbp)
leaq 0x90(%rbx), %rdi
movq %r13, %rdx
movq %r12, %rcx
callq 0x6ba5b
movq -0x38(%rbp), %rdi
testb %al, %al
je 0x4f37d
movq -0x40(%rbp), %r12
jmp 0x4f534
movq 0x90(%rbx), %rax
movl (%r14), %ecx
movl 0x3(%r14), %edx
movl %edx, 0x3(%rax)
movl %ecx, (%rax)
movq 0x90(%rbx), %rcx
movq 0xa8(%rbx), %rax
movq %rcx, -0xa0(%rbp)
movl %edi, -0x78(%rbp)
movl (%rcx), %edx
movzbl 0x4(%rcx), %esi
shlq $0x20, %rsi
orq %rdx, %rsi
movq %rsi, -0x88(%rbp)
movzwl 0x5(%rcx), %edx
movl %edx, %ecx
andl $0xbfff, %ecx # imm = 0xBFFF
andl $0x8000, %edx # imm = 0x8000
movl %edx, -0x74(%rbp)
je 0x4f3e1
andl $0x3fff, %ecx # imm = 0x3FFF
movl %ecx, -0x70(%rbp)
movl $0x1, %ecx
addq $0x7, %r14
movl %ecx, -0x80(%rbp)
movq %rax, -0x90(%rbp)
movl $0x0, -0x7c(%rbp)
movb $0x1, -0x6c(%rbp)
movl %edi, 0x12c(%rbx)
cmpl $0x0, 0x3d4(%r15)
je 0x4f419
cmpb $-0x1, (%r14)
je 0x4f415
incq %r14
jmp 0x4f419
addq $0x3, %r14
cmpq $0x0, 0x6a8(%r15)
je 0x4f438
leaq 0x1(%r14), %rax
movq %rax, -0x50(%rbp)
movzbl (%r14), %ecx
movl %ecx, 0xb0(%rbx)
movq %rax, %r14
cmpl $0x2, %edi
jb 0x4f490
movl 0x3f4(%r15), %eax
movl 0x3fc(%r15), %ecx
addq %rcx, %rax
movl 0x400(%r15), %ecx
addl %ecx, %ecx
addq %rax, %rcx
addq %rcx, %r14
movq %r14, -0x50(%rbp)
movl $0x2, -0x7c(%rbp)
movq 0x90(%rbx), %rsi
addq $0x7, %rsi
leal -0x7(%r13), %edx
movl -0x48(%rbp), %eax
subl %r14d, %eax
cmpl %edx, %eax
jb 0x4f615
movq %rsi, %rdi
movq %r14, %rsi
callq 0x29080
movq 0xa8(%rbx), %rax
testl %r13d, %r13d
je 0x4f4e7
movq 0x90(%rbx), %rcx
movl %r13d, %edx
addq %rcx, %rdx
movq -0x40(%rbp), %r12
movl -0x2c(%rbp), %r14d
movzwl 0x5(%rcx), %esi
testw %si, %si
jns 0x4f4dc
movzbl 0x4(%rcx), %edi
movl (%rcx), %r8d
andl $0x3fff, %esi # imm = 0x3FFF
shlq $0x28, %rdi
orq %rsi, %rdi
shlq $0x8, %r8
orq %rdi, %r8
movq %r8, (%rax)
addq $0x8, %rax
addq $0x7, %rcx
cmpq %rdx, %rcx
jb 0x4f4b1
jmp 0x4f4ef
movq -0x40(%rbp), %r12
movl -0x2c(%rbp), %r14d
movq $0x0, (%rax)
movq %rbx, %rdi
movl $0x1, %esi
callq 0x54b05
movq %rbx, %rdi
movq -0x68(%rbp), %rsi
movl %r14d, %edx
movl $0x1, %ecx
movl $0x1, %r8d
callq 0x4bac1
testb %al, %al
jne 0x4f534
movq 0xa8(%rbx), %rsi
movq %rbx, %rdi
callq 0x4c5ac
testb %al, %al
je 0x4f593
movq %r12, %rdi
callq 0x43522
movq $0x0, -0xa0(%rbp)
movb $0x1, %r14b
cmpl $0x0, 0x644(%rbx)
je 0x4f560
movq %rbx, %rdi
movl $0xffffffff, %esi # imm = 0xFFFFFFFF
callq 0x54b05
movq -0xa0(%rbp), %rsi
movq %rbx, %rdi
callq 0x40630
movq 0x8(%rbx), %rax
movq $0x0, 0x90(%rax)
movl %r14d, %eax
addq $0x98, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
cmpl $0x0, 0x12c(%rbx)
je 0x4f5af
leaq 0x80(%rbx), %rsi
movq %rbx, %rdi
callq 0x4c613
testb %al, %al
jne 0x4f534
cmpq $0x0, 0x6a8(%r12)
je 0x4f5c7
xorl %r8d, %r8d
movq -0x58(%rbp), %rax
subl 0x6(%rax), %r8d
jmp 0x4f5ca
xorl %r8d, %r8d
movq $-0x1, 0x3e8(%rbx)
xorl %ecx, %ecx
cmpq $0x0, 0x6a8(%r12)
setne %cl
subq $0x8, %rsp
leaq -0xa0(%rbp), %r9
movq %rbx, %rdi
movq -0x60(%rbp), %rsi
movl $0x12, %edx
pushq $0x0
callq 0x406ad
addq $0x10, %rsp
testb %al, %al
jne 0x4f534
xorl %r14d, %r14d
jmp 0x4f54a
leaq -0xa0(%rbp), %rcx
leaq -0x50(%rbp), %r8
leaq -0x48(%rbp), %r9
movq %rbx, %rdi
callq 0x5201f
testb %al, %al
jne 0x4f374
jmp 0x4f490
| _ma_apply_undo_row_insert:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 98h
mov [rbp+var_60], rsi
mov rbx, rdi
mov r12, [rdi]
mov eax, [rdx]
movzx ecx, byte ptr [rdx+4]
shl rcx, 20h
or rcx, rax
mov [rbp+var_58], rdx
movzx r13d, byte ptr [rdx+5]
mov rdi, [r12+600h]
lea rsi, [rbx+470h]
mov r9d, [r12+7D4h]
lea r15, [rbp+var_B8]
mov [rbp+var_68], rcx
mov rdx, rcx
xor ecx, ecx
xor r8d, r8d
push r15
push 4
call pagecache_read
add rsp, 10h
mov r14, rax
mov dword ptr [r15+8], 6
test rax, rax
setnz byte ptr [r15+10h]
lea rdi, [rbx+2E8h]
mov rsi, r15
call insert_dynamic
test r14, r14
jz loc_4F534
mov [rbp+var_40], r12
mov r15, [rbx]
xor r12d, r12d
cmp byte ptr [r15+7D9h], 0
setnz byte ptr [rbp+var_38]
lea rcx, [rbp+var_48]
mov rdi, r15
mov rsi, r14
mov [rbp+var_2C], r13d
mov edx, r13d
call get_record_position
test rax, rax
jz loc_4F374
movzx ecx, byte ptr [rax]
mov edx, ecx
and edx, 0Fh
lea rsi, total_header_size
movzx r14d, byte ptr [rdx+rsi]
add r14, rax
xor r13d, r13d
test cl, cl
js short loc_4F30C
xor edi, edi
jmp loc_4F3FA
loc_4F30C:
movzx edi, byte ptr [r14]
cmp edi, 0FFh
jz short loc_4F31D
inc r14
jmp short loc_4F32D
loc_4F31D:
movzx eax, word ptr [r14+1]
rol ax, 8
movzx edi, ax
add r14, 3
loc_4F32D:
lea r13d, ds:0[rdi*8]
sub r13d, edi
cmp [rbx+118h], r13
jnb short loc_4F37D
mov al, byte ptr [rbp+var_38]
mov r12b, al
shl r12d, 10h
or r12, 10h
lea rsi, [rbx+118h]
mov [rbp+var_38], rdi
lea rdi, [rbx+90h]
mov rdx, r13
mov rcx, r12
call _ma_alloc_buffer
mov rdi, [rbp+var_38]
test al, al
jz short loc_4F37D
loc_4F374:
mov r12, [rbp+var_40]
jmp loc_4F534
loc_4F37D:
mov rax, [rbx+90h]
mov ecx, [r14]
mov edx, [r14+3]
mov [rax+3], edx
mov [rax], ecx
mov rcx, [rbx+90h]
mov rax, [rbx+0A8h]
mov [rbp+var_A0], rcx
mov [rbp+var_78], edi
mov edx, [rcx]
movzx esi, byte ptr [rcx+4]
shl rsi, 20h
or rsi, rdx
mov [rbp+var_88], rsi
movzx edx, word ptr [rcx+5]
mov ecx, edx
and ecx, 0BFFFh
and edx, 8000h
mov [rbp+var_74], edx
jz short loc_4F3E1
and ecx, 3FFFh
mov [rbp+var_70], ecx
mov ecx, 1
loc_4F3E1:
add r14, 7
mov [rbp+var_80], ecx
mov [rbp+var_90], rax
mov [rbp+var_7C], 0
mov [rbp+var_6C], 1
loc_4F3FA:
mov [rbx+12Ch], edi
cmp dword ptr [r15+3D4h], 0
jz short loc_4F419
cmp byte ptr [r14], 0FFh
jz short loc_4F415
inc r14
jmp short loc_4F419
loc_4F415:
add r14, 3
loc_4F419:
cmp qword ptr [r15+6A8h], 0
jz short loc_4F438
lea rax, [r14+1]
mov [rbp+var_50], rax
movzx ecx, byte ptr [r14]
mov [rbx+0B0h], ecx
mov r14, rax
loc_4F438:
cmp edi, 2
jb short loc_4F490
mov eax, [r15+3F4h]
mov ecx, [r15+3FCh]
add rax, rcx
mov ecx, [r15+400h]
add ecx, ecx
add rcx, rax
add r14, rcx
mov [rbp+var_50], r14
mov [rbp+var_7C], 2
mov rsi, [rbx+90h]
add rsi, 7
lea edx, [r13-7]
mov eax, [rbp+var_48]
sub eax, r14d
cmp eax, edx
jb loc_4F615
mov rdi, rsi
mov rsi, r14
call _memcpy
loc_4F490:
mov rax, [rbx+0A8h]
test r13d, r13d
jz short loc_4F4E7
mov rcx, [rbx+90h]
mov edx, r13d
add rdx, rcx
mov r12, [rbp+var_40]
mov r14d, [rbp+var_2C]
loc_4F4B1:
movzx esi, word ptr [rcx+5]
test si, si
jns short loc_4F4DC
movzx edi, byte ptr [rcx+4]
mov r8d, [rcx]
and esi, 3FFFh
shl rdi, 28h
or rdi, rsi
shl r8, 8
or r8, rdi
mov [rax], r8
add rax, 8
loc_4F4DC:
add rcx, 7
cmp rcx, rdx
jb short loc_4F4B1
jmp short loc_4F4EF
loc_4F4E7:
mov r12, [rbp+var_40]
mov r14d, [rbp+var_2C]
loc_4F4EF:
mov qword ptr [rax], 0
mov rdi, rbx
mov esi, 1
call _ma_bitmap_flushable
mov rdi, rbx
mov rsi, [rbp+var_68]
mov edx, r14d
mov ecx, 1
mov r8d, 1
call delete_head_or_tail
test al, al
jnz short loc_4F534
mov rsi, [rbx+0A8h]
mov rdi, rbx
call delete_tails
test al, al
jz short loc_4F593
loc_4F534:
mov rdi, r12
call _ma_mark_file_crashed
mov [rbp+var_A0], 0
mov r14b, 1
loc_4F54A:
cmp dword ptr [rbx+644h], 0
jz short loc_4F560
mov rdi, rbx
mov esi, 0FFFFFFFFh
call _ma_bitmap_flushable
loc_4F560:
mov rsi, [rbp+var_A0]
mov rdi, rbx
call _ma_unpin_all_pages
mov rax, [rbx+8]
mov qword ptr [rax+90h], 0
mov eax, r14d
add rsp, 98h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
loc_4F593:
cmp dword ptr [rbx+12Ch], 0
jz short loc_4F5AF
lea rsi, [rbx+80h]
mov rdi, rbx
call free_full_pages
test al, al
jnz short loc_4F534
loc_4F5AF:
cmp qword ptr [r12+6A8h], 0
jz short loc_4F5C7
xor r8d, r8d
mov rax, [rbp+var_58]
sub r8d, [rax+6]
jmp short loc_4F5CA
loc_4F5C7:
xor r8d, r8d
loc_4F5CA:
mov qword ptr [rbx+3E8h], 0FFFFFFFFFFFFFFFFh
xor ecx, ecx
cmp qword ptr [r12+6A8h], 0
setnz cl
sub rsp, 8
lea r9, [rbp+var_A0]
mov rdi, rbx
mov rsi, [rbp+var_60]
mov edx, 12h
push 0
call _ma_write_clr
add rsp, 10h
test al, al
jnz loc_4F534
xor r14d, r14d
jmp loc_4F54A
loc_4F615:
lea rcx, [rbp+var_A0]
lea r8, [rbp+var_50]
lea r9, [rbp+var_48]
mov rdi, rbx
call read_long_data2
test al, al
jnz loc_4F374
jmp loc_4F490
| long long ma_apply_undo_row_insert(long long a1, long long a2, unsigned int *a3)
{
long long v4; // r12
unsigned long long v5; // rcx
unsigned int v6; // r13d
long long v7; // rdi
int v8; // r9d
unsigned __int8 *v9; // r14
long long v10; // r15
int v11; // r12d
char *record_position; // rax
char *v13; // r14
unsigned long long v14; // r13
long long v15; // rdi
char v16; // al
_DWORD *v17; // rax
int v18; // ecx
signed long long v19; // rax
int v20; // ecx
long long v21; // rdx
unsigned long long *v22; // rax
unsigned int *v23; // rcx
unsigned int *v24; // rdx
int v26; // r8d
long long v27; // [rsp+8h] [rbp-B8h] BYREF
int v28; // [rsp+10h] [rbp-B0h]
bool v29; // [rsp+18h] [rbp-A8h]
signed long long v30[4]; // [rsp+20h] [rbp-A0h] BYREF
int v31; // [rsp+40h] [rbp-80h]
int v32; // [rsp+44h] [rbp-7Ch]
int v33; // [rsp+48h] [rbp-78h]
int v35; // [rsp+50h] [rbp-70h]
char v36; // [rsp+54h] [rbp-6Ch]
unsigned long long v37; // [rsp+58h] [rbp-68h]
long long v38; // [rsp+60h] [rbp-60h]
unsigned int *v39; // [rsp+68h] [rbp-58h]
unsigned __int8 *v40; // [rsp+70h] [rbp-50h] BYREF
long long v41; // [rsp+78h] [rbp-48h] BYREF
long long v42; // [rsp+80h] [rbp-40h]
long long v43; // [rsp+88h] [rbp-38h]
unsigned int v44; // [rsp+94h] [rbp-2Ch]
v38 = a2;
v4 = *(_QWORD *)a1;
v5 = *a3 | ((unsigned long long)*((unsigned __int8 *)a3 + 4) << 32);
v39 = a3;
v6 = *((unsigned __int8 *)a3 + 5);
v7 = *(_QWORD *)(v4 + 1536);
v8 = *(_DWORD *)(v4 + 2004);
v37 = v5;
v9 = (unsigned __int8 *)pagecache_read(v7, a1 + 1136, v5, 0, 0LL, v8, 4u, &v27);
v28 = 6;
v29 = v9 != 0LL;
insert_dynamic(a1 + 744, &v27);
if ( !v9 )
goto LABEL_32;
v42 = v4;
v10 = *(_QWORD *)a1;
v11 = 0;
LOBYTE(v43) = *(_BYTE *)(*(_QWORD *)a1 + 2009LL) != 0;
v44 = v6;
record_position = (char *)get_record_position(v10, (long long)v9, v6, &v41);
if ( !record_position )
goto LABEL_10;
v13 = &record_position[*((unsigned __int8 *)&total_header_size + (*record_position & 0xF))];
LODWORD(v14) = 0;
if ( *record_position < 0 )
{
v15 = (unsigned __int8)*v13;
if ( (_DWORD)v15 == 255 )
{
v15 = (unsigned __int16)__ROL2__(*(_WORD *)(v13 + 1), 8);
v9 = (unsigned __int8 *)(v13 + 3);
}
else
{
v9 = (unsigned __int8 *)(v13 + 1);
}
v14 = (unsigned int)(7 * v15);
if ( *(_QWORD *)(a1 + 280) >= v14
|| (LOBYTE(v11) = v43,
v43 = v15,
v16 = ma_alloc_buffer(a1 + 144, a1 + 280, v14, (unsigned int)(v11 << 16) | 0x10LL),
LODWORD(v15) = v43,
!v16) )
{
v17 = *(_DWORD **)(a1 + 144);
v18 = *(_DWORD *)v9;
*(_DWORD *)((char *)v17 + 3) = *(_DWORD *)(v9 + 3);
*v17 = v18;
v19 = *(_QWORD *)(a1 + 168);
v30[0] = *(_QWORD *)(a1 + 144);
v33 = v15;
v30[3] = *(unsigned int *)v30[0] | ((unsigned long long)*(unsigned __int8 *)(v30[0] + 4) << 32);
v20 = *(_WORD *)(v30[0] + 5) & 0xBFFF;
if ( *(_WORD *)(v30[0] + 5) & 0x8000 )
{
v35 = v20 & 0x3FFF;
v20 = 1;
}
v13 = (char *)(v9 + 7);
v31 = v20;
v30[2] = v19;
v32 = 0;
v36 = 1;
goto LABEL_14;
}
LABEL_10:
v4 = v42;
LABEL_32:
ma_mark_file_crashed(v4);
v30[0] = 0LL;
LOBYTE(v9) = 1;
goto LABEL_33;
}
LODWORD(v15) = 0;
LABEL_14:
*(_DWORD *)(a1 + 300) = v15;
if ( *(_DWORD *)(v10 + 980) )
{
if ( *v13 == -1 )
v13 += 3;
else
++v13;
}
if ( *(_QWORD *)(v10 + 1704) )
{
v40 = (unsigned __int8 *)(v13 + 1);
*(_DWORD *)(a1 + 176) = (unsigned __int8)*v13++;
}
if ( (unsigned int)v15 >= 2 )
{
v9 = (unsigned __int8 *)&v13[*(unsigned int *)(v10 + 1020)
+ (unsigned long long)*(unsigned int *)(v10 + 1012)
+ (unsigned int)(2 * *(_DWORD *)(v10 + 1024))];
v40 = v9;
v32 = 2;
v21 = (unsigned int)(v14 - 7);
if ( (int)v41 - (int)v9 >= (unsigned int)v21 )
{
memcpy(*(_QWORD *)(a1 + 144) + 7LL, v9, v21);
goto LABEL_23;
}
if ( (unsigned __int8)read_long_data2(a1, *(_QWORD *)(a1 + 144) + 7LL, v21, v30, &v40, &v41) )
goto LABEL_10;
}
LABEL_23:
v22 = *(unsigned long long **)(a1 + 168);
if ( (_DWORD)v14 )
{
v23 = *(unsigned int **)(a1 + 144);
v24 = (unsigned int *)((char *)v23 + (unsigned int)v14);
v4 = v42;
LODWORD(v9) = v44;
do
{
if ( *(__int16 *)((char *)v23 + 5) < 0 )
*v22++ = *(_WORD *)((_BYTE *)v23 + 5) & 0x3FFF | ((unsigned long long)*((unsigned __int8 *)v23 + 4) << 40) | ((unsigned long long)*v23 << 8);
v23 = (unsigned int *)((char *)v23 + 7);
}
while ( v23 < v24 );
}
else
{
v4 = v42;
LODWORD(v9) = v44;
}
*v22 = 0LL;
ma_bitmap_flushable(a1, 1LL);
if ( (unsigned __int8)delete_head_or_tail((_DWORD *)a1, v37, (unsigned int)v9, 1, 1)
|| (unsigned __int8)delete_tails((_DWORD *)a1, *(unsigned long long **)(a1 + 168))
|| *(_DWORD *)(a1 + 300) && free_full_pages((_QWORD *)a1, a1 + 128) )
{
goto LABEL_32;
}
v26 = *(_QWORD *)(v4 + 1704) ? -*(unsigned int *)((char *)v39 + 6) : 0;
*(_QWORD *)(a1 + 1000) = -1LL;
if ( (unsigned __int8)ma_write_clr(
(long long *)a1,
v38,
18,
*(_QWORD *)(v4 + 1704) != 0LL,
v26,
(unsigned long long)v30,
0LL) )
goto LABEL_32;
LODWORD(v9) = 0;
LABEL_33:
if ( *(_DWORD *)(a1 + 1604) )
ma_bitmap_flushable(a1, 0xFFFFFFFFLL);
ma_unpin_all_pages(a1, v30[0]);
*(_QWORD *)(*(_QWORD *)(a1 + 8) + 144LL) = 0LL;
return (unsigned int)v9;
}
| _ma_apply_undo_row_insert:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x98
MOV qword ptr [RBP + -0x60],RSI
MOV RBX,RDI
MOV R12,qword ptr [RDI]
MOV EAX,dword ptr [RDX]
MOVZX ECX,byte ptr [RDX + 0x4]
SHL RCX,0x20
OR RCX,RAX
MOV qword ptr [RBP + -0x58],RDX
MOVZX R13D,byte ptr [RDX + 0x5]
MOV RDI,qword ptr [R12 + 0x600]
LEA RSI,[RBX + 0x470]
MOV R9D,dword ptr [R12 + 0x7d4]
LEA R15,[RBP + -0xb8]
MOV qword ptr [RBP + -0x68],RCX
MOV RDX,RCX
XOR ECX,ECX
XOR R8D,R8D
PUSH R15
PUSH 0x4
CALL 0x0013ba02
ADD RSP,0x10
MOV R14,RAX
MOV dword ptr [R15 + 0x8],0x6
TEST RAX,RAX
SETNZ byte ptr [R15 + 0x10]
LEA RDI,[RBX + 0x2e8]
MOV RSI,R15
CALL 0x00192312
TEST R14,R14
JZ 0x0014f534
MOV qword ptr [RBP + -0x40],R12
MOV R15,qword ptr [RBX]
XOR R12D,R12D
CMP byte ptr [R15 + 0x7d9],0x0
SETNZ byte ptr [RBP + -0x38]
LEA RCX,[RBP + -0x48]
MOV RDI,R15
MOV RSI,R14
MOV dword ptr [RBP + -0x2c],R13D
MOV EDX,R13D
CALL 0x0014d3b2
TEST RAX,RAX
JZ 0x0014f374
MOVZX ECX,byte ptr [RAX]
MOV EDX,ECX
AND EDX,0xf
LEA RSI,[0xcff090]
MOVZX R14D,byte ptr [RDX + RSI*0x1]
ADD R14,RAX
XOR R13D,R13D
TEST CL,CL
JS 0x0014f30c
XOR EDI,EDI
JMP 0x0014f3fa
LAB_0014f30c:
MOVZX EDI,byte ptr [R14]
CMP EDI,0xff
JZ 0x0014f31d
INC R14
JMP 0x0014f32d
LAB_0014f31d:
MOVZX EAX,word ptr [R14 + 0x1]
ROL AX,0x8
MOVZX EDI,AX
ADD R14,0x3
LAB_0014f32d:
LEA R13D,[RDI*0x8]
SUB R13D,EDI
CMP qword ptr [RBX + 0x118],R13
JNC 0x0014f37d
MOV AL,byte ptr [RBP + -0x38]
MOV R12B,AL
SHL R12D,0x10
OR R12,0x10
LEA RSI,[RBX + 0x118]
MOV qword ptr [RBP + -0x38],RDI
LEA RDI,[RBX + 0x90]
MOV RDX,R13
MOV RCX,R12
CALL 0x0016ba5b
MOV RDI,qword ptr [RBP + -0x38]
TEST AL,AL
JZ 0x0014f37d
LAB_0014f374:
MOV R12,qword ptr [RBP + -0x40]
JMP 0x0014f534
LAB_0014f37d:
MOV RAX,qword ptr [RBX + 0x90]
MOV ECX,dword ptr [R14]
MOV EDX,dword ptr [R14 + 0x3]
MOV dword ptr [RAX + 0x3],EDX
MOV dword ptr [RAX],ECX
MOV RCX,qword ptr [RBX + 0x90]
MOV RAX,qword ptr [RBX + 0xa8]
MOV qword ptr [RBP + -0xa0],RCX
MOV dword ptr [RBP + -0x78],EDI
MOV EDX,dword ptr [RCX]
MOVZX ESI,byte ptr [RCX + 0x4]
SHL RSI,0x20
OR RSI,RDX
MOV qword ptr [RBP + -0x88],RSI
MOVZX EDX,word ptr [RCX + 0x5]
MOV ECX,EDX
AND ECX,0xbfff
AND EDX,0x8000
MOV dword ptr [RBP + -0x74],EDX
JZ 0x0014f3e1
AND ECX,0x3fff
MOV dword ptr [RBP + -0x70],ECX
MOV ECX,0x1
LAB_0014f3e1:
ADD R14,0x7
MOV dword ptr [RBP + -0x80],ECX
MOV qword ptr [RBP + -0x90],RAX
MOV dword ptr [RBP + -0x7c],0x0
MOV byte ptr [RBP + -0x6c],0x1
LAB_0014f3fa:
MOV dword ptr [RBX + 0x12c],EDI
CMP dword ptr [R15 + 0x3d4],0x0
JZ 0x0014f419
CMP byte ptr [R14],0xff
JZ 0x0014f415
INC R14
JMP 0x0014f419
LAB_0014f415:
ADD R14,0x3
LAB_0014f419:
CMP qword ptr [R15 + 0x6a8],0x0
JZ 0x0014f438
LEA RAX,[R14 + 0x1]
MOV qword ptr [RBP + -0x50],RAX
MOVZX ECX,byte ptr [R14]
MOV dword ptr [RBX + 0xb0],ECX
MOV R14,RAX
LAB_0014f438:
CMP EDI,0x2
JC 0x0014f490
MOV EAX,dword ptr [R15 + 0x3f4]
MOV ECX,dword ptr [R15 + 0x3fc]
ADD RAX,RCX
MOV ECX,dword ptr [R15 + 0x400]
ADD ECX,ECX
ADD RCX,RAX
ADD R14,RCX
MOV qword ptr [RBP + -0x50],R14
MOV dword ptr [RBP + -0x7c],0x2
MOV RSI,qword ptr [RBX + 0x90]
ADD RSI,0x7
LEA EDX,[R13 + -0x7]
MOV EAX,dword ptr [RBP + -0x48]
SUB EAX,R14D
CMP EAX,EDX
JC 0x0014f615
MOV RDI,RSI
MOV RSI,R14
CALL 0x00129080
LAB_0014f490:
MOV RAX,qword ptr [RBX + 0xa8]
TEST R13D,R13D
JZ 0x0014f4e7
MOV RCX,qword ptr [RBX + 0x90]
MOV EDX,R13D
ADD RDX,RCX
MOV R12,qword ptr [RBP + -0x40]
MOV R14D,dword ptr [RBP + -0x2c]
LAB_0014f4b1:
MOVZX ESI,word ptr [RCX + 0x5]
TEST SI,SI
JNS 0x0014f4dc
MOVZX EDI,byte ptr [RCX + 0x4]
MOV R8D,dword ptr [RCX]
AND ESI,0x3fff
SHL RDI,0x28
OR RDI,RSI
SHL R8,0x8
OR R8,RDI
MOV qword ptr [RAX],R8
ADD RAX,0x8
LAB_0014f4dc:
ADD RCX,0x7
CMP RCX,RDX
JC 0x0014f4b1
JMP 0x0014f4ef
LAB_0014f4e7:
MOV R12,qword ptr [RBP + -0x40]
MOV R14D,dword ptr [RBP + -0x2c]
LAB_0014f4ef:
MOV qword ptr [RAX],0x0
MOV RDI,RBX
MOV ESI,0x1
CALL 0x00154b05
MOV RDI,RBX
MOV RSI,qword ptr [RBP + -0x68]
MOV EDX,R14D
MOV ECX,0x1
MOV R8D,0x1
CALL 0x0014bac1
TEST AL,AL
JNZ 0x0014f534
MOV RSI,qword ptr [RBX + 0xa8]
MOV RDI,RBX
CALL 0x0014c5ac
TEST AL,AL
JZ 0x0014f593
LAB_0014f534:
MOV RDI,R12
CALL 0x00143522
MOV qword ptr [RBP + -0xa0],0x0
MOV R14B,0x1
LAB_0014f54a:
CMP dword ptr [RBX + 0x644],0x0
JZ 0x0014f560
MOV RDI,RBX
MOV ESI,0xffffffff
CALL 0x00154b05
LAB_0014f560:
MOV RSI,qword ptr [RBP + -0xa0]
MOV RDI,RBX
CALL 0x00140630
MOV RAX,qword ptr [RBX + 0x8]
MOV qword ptr [RAX + 0x90],0x0
MOV EAX,R14D
ADD RSP,0x98
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
LAB_0014f593:
CMP dword ptr [RBX + 0x12c],0x0
JZ 0x0014f5af
LEA RSI,[RBX + 0x80]
MOV RDI,RBX
CALL 0x0014c613
TEST AL,AL
JNZ 0x0014f534
LAB_0014f5af:
CMP qword ptr [R12 + 0x6a8],0x0
JZ 0x0014f5c7
XOR R8D,R8D
MOV RAX,qword ptr [RBP + -0x58]
SUB R8D,dword ptr [RAX + 0x6]
JMP 0x0014f5ca
LAB_0014f5c7:
XOR R8D,R8D
LAB_0014f5ca:
MOV qword ptr [RBX + 0x3e8],-0x1
XOR ECX,ECX
CMP qword ptr [R12 + 0x6a8],0x0
SETNZ CL
SUB RSP,0x8
LEA R9,[RBP + -0xa0]
MOV RDI,RBX
MOV RSI,qword ptr [RBP + -0x60]
MOV EDX,0x12
PUSH 0x0
CALL 0x001406ad
ADD RSP,0x10
TEST AL,AL
JNZ 0x0014f534
XOR R14D,R14D
JMP 0x0014f54a
LAB_0014f615:
LEA RCX,[RBP + -0xa0]
LEA R8,[RBP + -0x50]
LEA R9,[RBP + -0x48]
MOV RDI,RBX
CALL 0x0015201f
TEST AL,AL
JNZ 0x0014f374
JMP 0x0014f490
|
ulong _ma_apply_undo_row_insert(long *param_1,int8 param_2,uint5 *param_3)
{
byte bVar1;
ushort uVar2;
int4 uVar3;
long lVar4;
int4 *puVar5;
ulong uVar6;
char cVar7;
byte *pbVar8;
byte *pbVar9;
ulong *puVar10;
uint *puVar11;
uint uVar12;
uint *puVar13;
ulong uVar14;
int iVar15;
long lVar16;
ulong uVar17;
byte *pbVar18;
int1 local_c0 [8];
int4 local_b8;
int1 local_b0;
uint5 *local_a8 [2];
long local_98;
ulong local_90;
uint local_88;
int4 local_84;
uint local_80;
uint local_7c;
uint local_78;
int1 local_74;
ulong local_70;
int8 local_68;
uint5 *local_60;
byte *local_58;
int local_50 [2];
long local_48;
ulong local_40;
uint local_34;
lVar16 = *param_1;
local_70 = (ulong)*param_3;
bVar1 = *(byte *)((long)param_3 + 5);
local_68 = param_2;
local_60 = param_3;
pbVar8 = (byte *)pagecache_read(*(int8 *)(lVar16 + 0x600),param_1 + 0x8e,local_70,0,0,
*(int4 *)(lVar16 + 0x7d4),4,local_c0);
local_b8 = 6;
local_b0 = pbVar8 != (byte *)0x0;
insert_dynamic(param_1 + 0x5d,local_c0);
if (pbVar8 != (byte *)0x0) {
lVar4 = *param_1;
local_40 = CONCAT71(local_40._1_7_,*(char *)(lVar4 + 0x7d9) != '\0');
local_34 = (uint)bVar1;
local_48 = lVar16;
pbVar9 = (byte *)get_record_position(lVar4,pbVar8,local_34,local_50);
lVar16 = local_48;
if (pbVar9 != (byte *)0x0) {
pbVar18 = pbVar9 + (byte)total_header_size[*pbVar9 & 0xf];
uVar17 = 0;
if ((char)*pbVar9 < '\0') {
uVar14 = (ulong)*pbVar18;
if (*pbVar18 == 0xff) {
uVar14 = (ulong)(ushort)(*(ushort *)(pbVar18 + 1) << 8 | *(ushort *)(pbVar18 + 1) >> 8);
pbVar8 = pbVar18 + 3;
}
else {
pbVar8 = pbVar18 + 1;
}
uVar17 = (ulong)(uint)((int)uVar14 * 7);
if (((ulong)param_1[0x23] < uVar17) &&
(uVar6 = local_40 & 0xff, local_40 = uVar14,
cVar7 = _ma_alloc_buffer(param_1 + 0x12,param_1 + 0x23,uVar17,uVar6 << 0x10 | 0x10),
uVar14 = local_40, lVar16 = local_48, cVar7 != '\0')) goto LAB_0014f534;
puVar5 = (int4 *)param_1[0x12];
uVar3 = *(int4 *)pbVar8;
*(int4 *)((long)puVar5 + 3) = *(int4 *)(pbVar8 + 3);
*puVar5 = uVar3;
local_a8[0] = (uint5 *)param_1[0x12];
local_98 = param_1[0x15];
uVar12 = (uint)uVar14;
local_90 = (ulong)*local_a8[0];
uVar2 = *(ushort *)((long)local_a8[0] + 5);
local_88 = uVar2 & 0xbfff;
local_7c = uVar2 & 0x8000;
if ((uVar2 & 0x8000) != 0) {
local_78 = uVar2 & 0x3fff;
local_88 = 1;
}
pbVar18 = pbVar8 + 7;
local_84 = 0;
local_74 = 1;
local_80 = uVar12;
}
else {
uVar12 = 0;
}
*(uint *)((long)param_1 + 300) = uVar12;
if (*(int *)(lVar4 + 0x3d4) != 0) {
if (*pbVar18 == 0xff) {
pbVar18 = pbVar18 + 3;
}
else {
pbVar18 = pbVar18 + 1;
}
}
pbVar8 = pbVar18;
if (*(long *)(lVar4 + 0x6a8) != 0) {
pbVar8 = pbVar18 + 1;
*(uint *)(param_1 + 0x16) = (uint)*pbVar18;
local_58 = pbVar8;
}
if (1 < uVar12) {
pbVar8 = pbVar8 + (ulong)(uint)(*(int *)(lVar4 + 0x400) * 2) +
(ulong)*(uint *)(lVar4 + 0x3f4) + (ulong)*(uint *)(lVar4 + 0x3fc);
local_84 = 2;
uVar12 = (int)uVar17 - 7;
local_58 = pbVar8;
if ((uint)(local_50[0] - (int)pbVar8) < uVar12) {
cVar7 = read_long_data2(param_1,(void *)(param_1[0x12] + 7),(ulong)uVar12,local_a8,
&local_58,local_50);
lVar16 = local_48;
if (cVar7 != '\0') goto LAB_0014f534;
}
else {
memcpy((void *)(param_1[0x12] + 7),pbVar8,(ulong)uVar12);
}
}
lVar16 = local_48;
puVar10 = (ulong *)param_1[0x15];
if ((int)uVar17 != 0) {
puVar11 = (uint *)param_1[0x12];
puVar13 = (uint *)(uVar17 + (long)puVar11);
do {
if ((short)*(ushort *)((long)puVar11 + 5) < 0) {
*puVar10 = (ulong)*puVar11 << 8 |
(ulong)(byte)puVar11[1] << 0x28 |
(ulong)(*(ushort *)((long)puVar11 + 5) & 0x3fff);
puVar10 = puVar10 + 1;
}
puVar11 = (uint *)((long)puVar11 + 7);
} while (puVar11 < puVar13);
}
pbVar8 = (byte *)(ulong)local_34;
*puVar10 = 0;
_ma_bitmap_flushable(param_1,1);
cVar7 = delete_head_or_tail(param_1,local_70,pbVar8,1,1);
if (((cVar7 == '\0') && (cVar7 = delete_tails(param_1,param_1[0x15]), cVar7 == '\0')) &&
((*(int *)((long)param_1 + 300) == 0 ||
(cVar7 = free_full_pages(param_1,param_1 + 0x10), cVar7 == '\0')))) {
if (*(long *)(lVar16 + 0x6a8) == 0) {
iVar15 = 0;
}
else {
iVar15 = -*(int *)((long)local_60 + 6);
}
param_1[0x7d] = -1;
cVar7 = _ma_write_clr(param_1,local_68,0x12,*(long *)(lVar16 + 0x6a8) != 0,iVar15,local_a8,0
);
if (cVar7 == '\0') {
uVar17 = 0;
goto LAB_0014f54a;
}
}
}
}
LAB_0014f534:
_ma_mark_file_crashed(lVar16);
local_a8[0] = (uint5 *)0x0;
uVar17 = CONCAT71((int7)((ulong)pbVar8 >> 8),1);
LAB_0014f54a:
if (*(int *)((long)param_1 + 0x644) != 0) {
_ma_bitmap_flushable(param_1,0xffffffff);
}
_ma_unpin_all_pages(param_1,local_a8[0]);
*(int8 *)(param_1[1] + 0x90) = 0;
return uVar17 & 0xffffffff;
}
|
|
4,496 | ftb_query_add_word | eloqsql/storage/myisam/ft_boolean_search.c | static int ftb_query_add_word(MYSQL_FTPARSER_PARAM *param,
const char *word, int word_len,
MYSQL_FTPARSER_BOOLEAN_INFO *info)
{
MY_FTB_PARAM *ftb_param= param->mysql_ftparam;
FTB_WORD *ftbw;
FTB_EXPR *ftbe, *tmp_expr;
FT_WORD *phrase_word;
LIST *tmp_element;
int r= info->weight_adjust;
float weight= (float)
(info->wasign ? nwghts : wghts)[(r>5)?5:((r<-5)?-5:r)];
switch (info->type) {
case FT_TOKEN_WORD:
ftbw= (FTB_WORD *)alloc_root(&ftb_param->ftb->mem_root,
sizeof(FTB_WORD) + HA_MAX_KEY_BUFF);
ftbw->len= word_len + 1;
ftbw->flags= 0;
ftbw->off= 0;
if (info->yesno > 0) ftbw->flags|= FTB_FLAG_YES;
if (info->yesno < 0) ftbw->flags|= FTB_FLAG_NO;
if (info->trunc) ftbw->flags|= FTB_FLAG_TRUNC;
ftbw->weight= weight;
ftbw->up= ftb_param->ftbe;
ftbw->docid[0]= ftbw->docid[1]= HA_OFFSET_ERROR;
ftbw->ndepth= (info->yesno < 0) + ftb_param->depth;
ftbw->key_root= HA_OFFSET_ERROR;
memcpy(ftbw->word + 1, word, word_len);
ftbw->word[0]= word_len;
if (info->yesno > 0) ftbw->up->ythresh++;
ftb_param->ftb->queue.max_elements++;
ftbw->prev= ftb_param->ftb->last_word;
ftb_param->ftb->last_word= ftbw;
ftb_param->ftb->with_scan|= (info->trunc & FTB_FLAG_TRUNC);
for (tmp_expr= ftb_param->ftbe; tmp_expr->up; tmp_expr= tmp_expr->up)
if (! (tmp_expr->flags & FTB_FLAG_YES))
break;
ftbw->max_docid_expr= tmp_expr;
/* fall through */
case FT_TOKEN_STOPWORD:
if (! ftb_param->up_quot) break;
phrase_word= (FT_WORD *)alloc_root(&ftb_param->ftb->mem_root, sizeof(FT_WORD));
tmp_element= (LIST *)alloc_root(&ftb_param->ftb->mem_root, sizeof(LIST));
phrase_word->pos= (uchar*) word;
phrase_word->len= word_len;
tmp_element->data= (void *)phrase_word;
ftb_param->ftbe->phrase= list_add(ftb_param->ftbe->phrase, tmp_element);
/* Allocate document list at this point.
It allows to avoid huge amount of allocs/frees for each row.*/
tmp_element= (LIST *)alloc_root(&ftb_param->ftb->mem_root, sizeof(LIST));
tmp_element->data= alloc_root(&ftb_param->ftb->mem_root, sizeof(FT_WORD));
ftb_param->ftbe->document=
list_add(ftb_param->ftbe->document, tmp_element);
break;
case FT_TOKEN_LEFT_PAREN:
ftbe=(FTB_EXPR *)alloc_root(&ftb_param->ftb->mem_root, sizeof(FTB_EXPR));
ftbe->flags= 0;
if (info->yesno > 0) ftbe->flags|= FTB_FLAG_YES;
if (info->yesno < 0) ftbe->flags|= FTB_FLAG_NO;
ftbe->weight= weight;
ftbe->up= ftb_param->ftbe;
ftbe->max_docid= ftbe->ythresh= ftbe->yweaks= 0;
ftbe->docid[0]= ftbe->docid[1]= HA_OFFSET_ERROR;
ftbe->phrase= NULL;
ftbe->document= 0;
if (info->quot) ftb_param->ftb->with_scan|= 2;
if (info->yesno > 0) ftbe->up->ythresh++;
ftb_param->ftbe= ftbe;
ftb_param->depth++;
ftb_param->up_quot= (uchar*) info->quot;
break;
case FT_TOKEN_RIGHT_PAREN:
if (ftb_param->ftbe->document)
{
/* Circuit document list */
for (tmp_element= ftb_param->ftbe->document;
tmp_element->next; tmp_element= tmp_element->next) /* no-op */;
tmp_element->next= ftb_param->ftbe->document;
ftb_param->ftbe->document->prev= tmp_element;
}
info->quot= 0;
if (ftb_param->ftbe->up)
{
DBUG_ASSERT(ftb_param->depth);
ftb_param->ftbe= ftb_param->ftbe->up;
ftb_param->depth--;
ftb_param->up_quot= 0;
}
break;
case FT_TOKEN_EOF:
default:
break;
}
return(0);
} | O3 | c | ftb_query_add_word:
pushq %rbp
movq %rsp, %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x18, %rsp
movq %rcx, %rbx
movl %edx, %r14d
movq %rsi, %r15
movl (%rcx), %eax
movl 0x8(%rcx), %edx
cmpb $0x0, 0xc(%rcx)
leaq 0x7c661(%rip), %rsi # 0x10e390
leaq 0x7c5fa(%rip), %rcx # 0x10e330
cmoveq %rsi, %rcx
cmpl $-0x4, %edx
movl $0xfffffffb, %esi # imm = 0xFFFFFFFB
cmovgel %edx, %esi
cmpl $0x5, %esi
movl $0x5, %edx
cmovll %esi, %edx
decl %eax
cmpl $0x3, %eax
ja 0x9201a
movslq %edx, %rdx
cvtsd2ss 0x28(%rcx,%rdx,8), %xmm0
movq 0x18(%rdi), %r13
leaq 0x7c5b1(%rip), %rcx # 0x10e320
movslq (%rcx,%rax,4), %rax
addq %rcx, %rax
jmpq *%rax
movss %xmm0, -0x2c(%rbp)
movq (%r13), %rdi
addq $0x30, %rdi
movl $0x508, %esi # imm = 0x508
callq 0xbdfeb
movq %rax, %r12
leal 0x1(%r14), %eax
movl %eax, 0x48(%r12)
movl $0x0, 0x8(%r12)
movb $0x0, 0x4c(%r12)
movl 0x4(%rbx), %ecx
testl %ecx, %ecx
jle 0x91eba
movl $0x2, 0x8(%r12)
movl 0x4(%rbx), %ecx
movl $0x2, %eax
jmp 0x91ebc
movss %xmm0, -0x2c(%rbp)
movq (%r13), %rdi
addq $0x30, %rdi
movl $0x50, %esi
callq 0xbdfeb
movl $0x0, 0x8(%rax)
xorl %ecx, %ecx
cmpl $0x0, 0x4(%rbx)
setg %cl
addl %ecx, %ecx
movl %ecx, 0x8(%rax)
cmpl $0x0, 0x4(%rbx)
jns 0x91e03
orl $0x4, %ecx
movl %ecx, 0x8(%rax)
movd -0x2c(%rbp), %xmm0
movd %xmm0, 0x28(%rax)
movq 0x8(%r13), %rcx
movq %rcx, (%rax)
xorl %ecx, %ecx
movq %rcx, 0x48(%rax)
movq %rcx, 0x20(%rax)
pcmpeqd %xmm0, %xmm0
movdqu %xmm0, 0x10(%rax)
pxor %xmm0, %xmm0
movdqu %xmm0, 0x30(%rax)
cmpq %rcx, 0x10(%rbx)
je 0x91e41
movq (%r13), %rcx
orb $0x2, 0x344(%rcx)
cmpl $0x0, 0x4(%rbx)
jle 0x91e4d
movq (%rax), %rcx
incl 0x48(%rcx)
movq %rax, 0x8(%r13)
incl 0x18(%r13)
movq 0x10(%rbx), %rax
movq %rax, 0x10(%r13)
jmp 0x9201a
movq 0x8(%r13), %rax
movq 0x38(%rax), %rax
testq %rax, %rax
je 0x91e8d
movq %rax, %rdx
movq %rdx, %rcx
movq 0x8(%rdx), %rdx
testq %rdx, %rdx
jne 0x91e72
movq %rax, 0x8(%rcx)
movq 0x8(%r13), %rax
movq 0x38(%rax), %rax
movq %rcx, (%rax)
movq $0x0, 0x10(%rbx)
movq 0x8(%r13), %rax
movq (%rax), %rax
testq %rax, %rax
je 0x9201a
movq %rax, 0x8(%r13)
decl 0x18(%r13)
movq $0x0, 0x10(%r13)
jmp 0x9201a
xorl %eax, %eax
testl %ecx, %ecx
movd -0x2c(%rbp), %xmm0
jns 0x91ecd
orl $0x4, %eax
movl %eax, 0x8(%r12)
movq %r15, -0x38(%rbp)
cmpb $0x0, 0xd(%rbx)
je 0x91edf
orl $0x1, %eax
movl %eax, 0x8(%r12)
movd %xmm0, 0x40(%r12)
movq 0x8(%r13), %r15
movq %r15, (%r12)
pcmpeqd %xmm0, %xmm0
movdqu %xmm0, 0x10(%r12)
movl 0x4(%rbx), %eax
shrl $0x1f, %eax
addl 0x18(%r13), %eax
movl %eax, 0x44(%r12)
movq $-0x1, 0x20(%r12)
movq %r12, %rdi
addq $0x4e, %rdi
movslq %r14d, %rdx
movq -0x38(%rbp), %rsi
callq 0x2b0b0
movb %r14b, 0x4d(%r12)
cmpl $0x0, 0x4(%rbx)
jle 0x91f33
incl 0x48(%r15)
movq (%r13), %rax
incl 0x84(%rax)
movq (%r13), %rax
movq 0x28(%rax), %rax
movq %rax, 0x38(%r12)
movq (%r13), %rax
movq %r12, 0x28(%rax)
movb 0xd(%rbx), %al
andb $0x1, %al
movq (%r13), %rcx
orb %al, 0x344(%rcx)
movq 0x8(%r13), %rax
movq %rax, %rcx
movq (%rax), %rax
testq %rax, %rax
je 0x91f76
testb $0x2, 0x8(%rcx)
jne 0x91f65
movq %rcx, 0x28(%r12)
movq -0x38(%rbp), %r15
cmpq $0x0, 0x10(%r13)
je 0x9201a
movq (%r13), %rdi
addq $0x30, %rdi
movl $0x18, %esi
callq 0xbdfeb
movq %rax, %rbx
movq (%r13), %rdi
addq $0x30, %rdi
movl $0x18, %esi
callq 0xbdfeb
movq %r15, (%rbx)
movslq %r14d, %rcx
movq %rcx, 0x10(%rbx)
movq %rbx, 0x10(%rax)
movq 0x8(%r13), %rcx
movq 0x30(%rcx), %rdi
movq %rax, %rsi
callq 0xb452c
movq 0x8(%r13), %rcx
movq %rax, 0x30(%rcx)
movq (%r13), %rdi
addq $0x30, %rdi
movl $0x18, %esi
callq 0xbdfeb
movq %rax, %rbx
movq (%r13), %rdi
addq $0x30, %rdi
movl $0x18, %esi
callq 0xbdfeb
movq %rax, 0x10(%rbx)
movq 0x8(%r13), %rax
movq 0x38(%rax), %rdi
movq %rbx, %rsi
callq 0xb452c
movq 0x8(%r13), %rcx
movq %rax, 0x38(%rcx)
xorl %eax, %eax
addq $0x18, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
| ftb_query_add_word:
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 18h
mov rbx, rcx
mov r14d, edx
mov r15, rsi
mov eax, [rcx]
mov edx, [rcx+8]
cmp byte ptr [rcx+0Ch], 0
lea rsi, _wghts
lea rcx, _nwghts
cmovz rcx, rsi
cmp edx, 0FFFFFFFCh
mov esi, 0FFFFFFFBh
cmovge esi, edx
cmp esi, 5
mov edx, 5
cmovl edx, esi
dec eax; switch 4 cases
cmp eax, 3
ja def_91D76; jumptable 0000000000091D76 default case
movsxd rdx, edx
cvtsd2ss xmm0, qword ptr [rcx+rdx*8+28h]
mov r13, [rdi+18h]
lea rcx, jpt_91D76
movsxd rax, ds:(jpt_91D76 - 10E320h)[rcx+rax*4]
add rax, rcx
jmp rax; switch jump
loc_91D78:
movss [rbp+var_2C], xmm0; jumptable 0000000000091D76 case 1
mov rdi, [r13+0]
add rdi, 30h ; '0'
mov esi, 508h
call alloc_root
mov r12, rax
lea eax, [r14+1]
mov [r12+48h], eax
mov dword ptr [r12+8], 0
mov byte ptr [r12+4Ch], 0
mov ecx, [rbx+4]
test ecx, ecx
jle loc_91EBA
mov dword ptr [r12+8], 2
mov ecx, [rbx+4]
mov eax, 2
jmp loc_91EBC
loc_91DCB:
movss [rbp+var_2C], xmm0; jumptable 0000000000091D76 case 2
mov rdi, [r13+0]
add rdi, 30h ; '0'
mov esi, 50h ; 'P'
call alloc_root
mov dword ptr [rax+8], 0
xor ecx, ecx
cmp dword ptr [rbx+4], 0
setnle cl
add ecx, ecx
mov [rax+8], ecx
cmp dword ptr [rbx+4], 0
jns short loc_91E03
or ecx, 4
mov [rax+8], ecx
loc_91E03:
movd xmm0, [rbp+var_2C]
movd dword ptr [rax+28h], xmm0
mov rcx, [r13+8]
mov [rax], rcx
xor ecx, ecx
mov [rax+48h], rcx
mov [rax+20h], rcx
pcmpeqd xmm0, xmm0
movdqu xmmword ptr [rax+10h], xmm0
pxor xmm0, xmm0
movdqu xmmword ptr [rax+30h], xmm0
cmp [rbx+10h], rcx
jz short loc_91E41
mov rcx, [r13+0]
or byte ptr [rcx+344h], 2
loc_91E41:
cmp dword ptr [rbx+4], 0
jle short loc_91E4D
mov rcx, [rax]
inc dword ptr [rcx+48h]
loc_91E4D:
mov [r13+8], rax
inc dword ptr [r13+18h]
mov rax, [rbx+10h]
mov [r13+10h], rax
jmp def_91D76; jumptable 0000000000091D76 default case
loc_91E62:
mov rax, [r13+8]; jumptable 0000000000091D76 case 3
mov rax, [rax+38h]
test rax, rax
jz short loc_91E8D
mov rdx, rax
loc_91E72:
mov rcx, rdx
mov rdx, [rdx+8]
test rdx, rdx
jnz short loc_91E72
mov [rcx+8], rax
mov rax, [r13+8]
mov rax, [rax+38h]
mov [rax], rcx
loc_91E8D:
mov qword ptr [rbx+10h], 0
mov rax, [r13+8]
mov rax, [rax]
test rax, rax
jz def_91D76; jumptable 0000000000091D76 default case
mov [r13+8], rax
dec dword ptr [r13+18h]
mov qword ptr [r13+10h], 0
jmp def_91D76; jumptable 0000000000091D76 default case
loc_91EBA:
xor eax, eax
loc_91EBC:
test ecx, ecx
movd xmm0, [rbp+var_2C]
jns short loc_91ECD
or eax, 4
mov [r12+8], eax
loc_91ECD:
mov [rbp+var_38], r15
cmp byte ptr [rbx+0Dh], 0
jz short loc_91EDF
or eax, 1
mov [r12+8], eax
loc_91EDF:
movd dword ptr [r12+40h], xmm0
mov r15, [r13+8]
mov [r12], r15
pcmpeqd xmm0, xmm0
movdqu xmmword ptr [r12+10h], xmm0
mov eax, [rbx+4]
shr eax, 1Fh
add eax, [r13+18h]
mov [r12+44h], eax
mov qword ptr [r12+20h], 0FFFFFFFFFFFFFFFFh
mov rdi, r12
add rdi, 4Eh ; 'N'
movsxd rdx, r14d
mov rsi, [rbp+var_38]
call _memcpy
mov [r12+4Dh], r14b
cmp dword ptr [rbx+4], 0
jle short loc_91F33
inc dword ptr [r15+48h]
loc_91F33:
mov rax, [r13+0]
inc dword ptr [rax+84h]
mov rax, [r13+0]
mov rax, [rax+28h]
mov [r12+38h], rax
mov rax, [r13+0]
mov [rax+28h], r12
mov al, [rbx+0Dh]
and al, 1
mov rcx, [r13+0]
or [rcx+344h], al
mov rax, [r13+8]
loc_91F65:
mov rcx, rax
mov rax, [rax]
test rax, rax
jz short loc_91F76
test byte ptr [rcx+8], 2
jnz short loc_91F65
loc_91F76:
mov [r12+28h], rcx
mov r15, [rbp+var_38]
loc_91F7F:
cmp qword ptr [r13+10h], 0; jumptable 0000000000091D76 case 4
jz def_91D76; jumptable 0000000000091D76 default case
mov rdi, [r13+0]
add rdi, 30h ; '0'
mov esi, 18h
call alloc_root
mov rbx, rax
mov rdi, [r13+0]
add rdi, 30h ; '0'
mov esi, 18h
call alloc_root
mov [rbx], r15
movsxd rcx, r14d
mov [rbx+10h], rcx
mov [rax+10h], rbx
mov rcx, [r13+8]
mov rdi, [rcx+30h]
mov rsi, rax
call list_add
mov rcx, [r13+8]
mov [rcx+30h], rax
mov rdi, [r13+0]
add rdi, 30h ; '0'
mov esi, 18h
call alloc_root
mov rbx, rax
mov rdi, [r13+0]
add rdi, 30h ; '0'
mov esi, 18h
call alloc_root
mov [rbx+10h], rax
mov rax, [r13+8]
mov rdi, [rax+38h]
mov rsi, rbx
call list_add
mov rcx, [r13+8]
mov [rcx+38h], rax
def_91D76:
xor eax, eax; jumptable 0000000000091D76 default case
add rsp, 18h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
| long long ftb_query_add_word(long long a1, long long a2, int a3, int *a4)
{
int v7; // eax
int v8; // edx
bool v9; // zf
double *v10; // rcx
int v11; // esi
int v12; // edx
long long v13; // r13
long long v14; // r12
int v15; // ecx
int v16; // eax
long long v17; // rax
int v18; // ecx
long long v19; // rax
long long v20; // rdx
long long v21; // rcx
long long v22; // rax
__m128i v23; // xmm0
long long v24; // r15
_QWORD *v25; // rax
_QWORD *v26; // rcx
_QWORD *v27; // rbx
long long v28; // rax
long long v29; // rbx
long long v31; // [rsp+8h] [rbp-38h]
float v32; // [rsp+14h] [rbp-2Ch]
float v33; // [rsp+14h] [rbp-2Ch]
v7 = *a4;
v8 = a4[2];
v9 = *((_BYTE *)a4 + 12) == 0;
v10 = (double *)&nwghts;
if ( v9 )
v10 = (double *)&wghts;
v11 = -5;
if ( v8 >= -4 )
v11 = v8;
v12 = 5;
if ( v11 < 5 )
v12 = v11;
v13 = *(_QWORD *)(a1 + 24);
switch ( v7 )
{
case 1:
v32 = v10[v12 + 5];
v14 = alloc_root(*(_QWORD *)v13 + 48LL, 1288LL);
*(_DWORD *)(v14 + 72) = a3 + 1;
*(_DWORD *)(v14 + 8) = 0;
*(_BYTE *)(v14 + 76) = 0;
v15 = a4[1];
if ( v15 <= 0 )
{
v16 = 0;
}
else
{
*(_DWORD *)(v14 + 8) = 2;
v15 = a4[1];
v16 = 2;
}
v23 = _mm_cvtsi32_si128(LODWORD(v32));
if ( v15 < 0 )
{
v16 |= 4u;
*(_DWORD *)(v14 + 8) = v16;
}
v31 = a2;
if ( *((_BYTE *)a4 + 13) )
*(_DWORD *)(v14 + 8) = v16 | 1;
*(_DWORD *)(v14 + 64) = _mm_cvtsi128_si32(v23);
v24 = *(_QWORD *)(v13 + 8);
*(_QWORD *)v14 = v24;
*(_OWORD *)(v14 + 16) = -1LL;
*(_DWORD *)(v14 + 68) = *(_DWORD *)(v13 + 24) + ((unsigned int)a4[1] >> 31);
*(_QWORD *)(v14 + 32) = -1LL;
memcpy(v14 + 78, v31, a3);
*(_BYTE *)(v14 + 77) = a3;
if ( a4[1] > 0 )
++*(_DWORD *)(v24 + 72);
++*(_DWORD *)(*(_QWORD *)v13 + 132LL);
*(_QWORD *)(v14 + 56) = *(_QWORD *)(*(_QWORD *)v13 + 40LL);
*(_QWORD *)(*(_QWORD *)v13 + 40LL) = v14;
*(_BYTE *)(*(_QWORD *)v13 + 836LL) |= *((_BYTE *)a4 + 13) & 1;
v25 = *(_QWORD **)(v13 + 8);
do
{
v26 = v25;
v25 = (_QWORD *)*v25;
}
while ( v25 && (v26[1] & 2) != 0 );
*(_QWORD *)(v14 + 40) = v26;
a2 = v31;
goto LABEL_34;
case 2:
v33 = v10[v12 + 5];
v17 = alloc_root(*(_QWORD *)v13 + 48LL, 80LL);
*(_DWORD *)(v17 + 8) = 0;
v18 = 2 * (a4[1] > 0);
*(_DWORD *)(v17 + 8) = v18;
if ( a4[1] < 0 )
*(_DWORD *)(v17 + 8) = v18 | 4;
*(_DWORD *)(v17 + 40) = _mm_cvtsi128_si32(_mm_cvtsi32_si128(LODWORD(v33)));
*(_QWORD *)v17 = *(_QWORD *)(v13 + 8);
*(_QWORD *)(v17 + 72) = 0LL;
*(_QWORD *)(v17 + 32) = 0LL;
*(_OWORD *)(v17 + 16) = -1LL;
*(_OWORD *)(v17 + 48) = 0LL;
if ( *((_QWORD *)a4 + 2) )
*(_BYTE *)(*(_QWORD *)v13 + 836LL) |= 2u;
if ( a4[1] > 0 )
++*(_DWORD *)(*(_QWORD *)v17 + 72LL);
*(_QWORD *)(v13 + 8) = v17;
++*(_DWORD *)(v13 + 24);
*(_QWORD *)(v13 + 16) = *((_QWORD *)a4 + 2);
break;
case 3:
v19 = *(_QWORD *)(*(_QWORD *)(v13 + 8) + 56LL);
if ( v19 )
{
v20 = *(_QWORD *)(*(_QWORD *)(v13 + 8) + 56LL);
do
{
v21 = v20;
v20 = *(_QWORD *)(v20 + 8);
}
while ( v20 );
*(_QWORD *)(v21 + 8) = v19;
**(_QWORD **)(*(_QWORD *)(v13 + 8) + 56LL) = v21;
}
*((_QWORD *)a4 + 2) = 0LL;
v22 = **(_QWORD **)(v13 + 8);
if ( v22 )
{
*(_QWORD *)(v13 + 8) = v22;
--*(_DWORD *)(v13 + 24);
*(_QWORD *)(v13 + 16) = 0LL;
}
break;
case 4:
LABEL_34:
if ( *(_QWORD *)(v13 + 16) )
{
v27 = (_QWORD *)alloc_root(*(_QWORD *)v13 + 48LL, 24LL);
v28 = alloc_root(*(_QWORD *)v13 + 48LL, 24LL);
*v27 = a2;
v27[2] = a3;
*(_QWORD *)(v28 + 16) = v27;
*(_QWORD *)(*(_QWORD *)(v13 + 8) + 48LL) = list_add(*(_QWORD *)(*(_QWORD *)(v13 + 8) + 48LL), v28);
v29 = alloc_root(*(_QWORD *)v13 + 48LL, 24LL);
*(_QWORD *)(v29 + 16) = alloc_root(*(_QWORD *)v13 + 48LL, 24LL);
*(_QWORD *)(*(_QWORD *)(v13 + 8) + 56LL) = list_add(*(_QWORD *)(*(_QWORD *)(v13 + 8) + 56LL), v29);
}
break;
default:
return 0LL;
}
return 0LL;
}
| ftb_query_add_word:
PUSH RBP
MOV RBP,RSP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x18
MOV RBX,RCX
MOV R14D,EDX
MOV R15,RSI
MOV EAX,dword ptr [RCX]
MOV EDX,dword ptr [RCX + 0x8]
CMP byte ptr [RCX + 0xc],0x0
LEA RSI,[0x20e390]
LEA RCX,[0x20e330]
CMOVZ RCX,RSI
CMP EDX,-0x4
MOV ESI,0xfffffffb
CMOVGE ESI,EDX
CMP ESI,0x5
MOV EDX,0x5
CMOVL EDX,ESI
DEC EAX
CMP EAX,0x3
JA 0x0019201a
MOVSXD RDX,EDX
CVTSD2SS XMM0,qword ptr [RCX + RDX*0x8 + 0x28]
MOV R13,qword ptr [RDI + 0x18]
LEA RCX,[0x20e320]
MOVSXD RAX,dword ptr [RCX + RAX*0x4]
ADD RAX,RCX
switchD:
JMP RAX
caseD_1:
MOVSS dword ptr [RBP + -0x2c],XMM0
MOV RDI,qword ptr [R13]
ADD RDI,0x30
MOV ESI,0x508
CALL 0x001bdfeb
MOV R12,RAX
LEA EAX,[R14 + 0x1]
MOV dword ptr [R12 + 0x48],EAX
MOV dword ptr [R12 + 0x8],0x0
MOV byte ptr [R12 + 0x4c],0x0
MOV ECX,dword ptr [RBX + 0x4]
TEST ECX,ECX
JLE 0x00191eba
MOV dword ptr [R12 + 0x8],0x2
MOV ECX,dword ptr [RBX + 0x4]
MOV EAX,0x2
JMP 0x00191ebc
caseD_2:
MOVSS dword ptr [RBP + -0x2c],XMM0
MOV RDI,qword ptr [R13]
ADD RDI,0x30
MOV ESI,0x50
CALL 0x001bdfeb
MOV dword ptr [RAX + 0x8],0x0
XOR ECX,ECX
CMP dword ptr [RBX + 0x4],0x0
SETG CL
ADD ECX,ECX
MOV dword ptr [RAX + 0x8],ECX
CMP dword ptr [RBX + 0x4],0x0
JNS 0x00191e03
OR ECX,0x4
MOV dword ptr [RAX + 0x8],ECX
LAB_00191e03:
MOVD XMM0,dword ptr [RBP + -0x2c]
MOVD dword ptr [RAX + 0x28],XMM0
MOV RCX,qword ptr [R13 + 0x8]
MOV qword ptr [RAX],RCX
XOR ECX,ECX
MOV qword ptr [RAX + 0x48],RCX
MOV qword ptr [RAX + 0x20],RCX
PCMPEQD XMM0,XMM0
MOVDQU xmmword ptr [RAX + 0x10],XMM0
PXOR XMM0,XMM0
MOVDQU xmmword ptr [RAX + 0x30],XMM0
CMP qword ptr [RBX + 0x10],RCX
JZ 0x00191e41
MOV RCX,qword ptr [R13]
OR byte ptr [RCX + 0x344],0x2
LAB_00191e41:
CMP dword ptr [RBX + 0x4],0x0
JLE 0x00191e4d
MOV RCX,qword ptr [RAX]
INC dword ptr [RCX + 0x48]
LAB_00191e4d:
MOV qword ptr [R13 + 0x8],RAX
INC dword ptr [R13 + 0x18]
MOV RAX,qword ptr [RBX + 0x10]
MOV qword ptr [R13 + 0x10],RAX
JMP 0x0019201a
caseD_3:
MOV RAX,qword ptr [R13 + 0x8]
MOV RAX,qword ptr [RAX + 0x38]
TEST RAX,RAX
JZ 0x00191e8d
MOV RDX,RAX
LAB_00191e72:
MOV RCX,RDX
MOV RDX,qword ptr [RDX + 0x8]
TEST RDX,RDX
JNZ 0x00191e72
MOV qword ptr [RCX + 0x8],RAX
MOV RAX,qword ptr [R13 + 0x8]
MOV RAX,qword ptr [RAX + 0x38]
MOV qword ptr [RAX],RCX
LAB_00191e8d:
MOV qword ptr [RBX + 0x10],0x0
MOV RAX,qword ptr [R13 + 0x8]
MOV RAX,qword ptr [RAX]
TEST RAX,RAX
JZ 0x0019201a
MOV qword ptr [R13 + 0x8],RAX
DEC dword ptr [R13 + 0x18]
MOV qword ptr [R13 + 0x10],0x0
JMP 0x0019201a
LAB_00191eba:
XOR EAX,EAX
LAB_00191ebc:
TEST ECX,ECX
MOVD XMM0,dword ptr [RBP + -0x2c]
JNS 0x00191ecd
OR EAX,0x4
MOV dword ptr [R12 + 0x8],EAX
LAB_00191ecd:
MOV qword ptr [RBP + -0x38],R15
CMP byte ptr [RBX + 0xd],0x0
JZ 0x00191edf
OR EAX,0x1
MOV dword ptr [R12 + 0x8],EAX
LAB_00191edf:
MOVD dword ptr [R12 + 0x40],XMM0
MOV R15,qword ptr [R13 + 0x8]
MOV qword ptr [R12],R15
PCMPEQD XMM0,XMM0
MOVDQU xmmword ptr [R12 + 0x10],XMM0
MOV EAX,dword ptr [RBX + 0x4]
SHR EAX,0x1f
ADD EAX,dword ptr [R13 + 0x18]
MOV dword ptr [R12 + 0x44],EAX
MOV qword ptr [R12 + 0x20],-0x1
MOV RDI,R12
ADD RDI,0x4e
MOVSXD RDX,R14D
MOV RSI,qword ptr [RBP + -0x38]
CALL 0x0012b0b0
MOV byte ptr [R12 + 0x4d],R14B
CMP dword ptr [RBX + 0x4],0x0
JLE 0x00191f33
INC dword ptr [R15 + 0x48]
LAB_00191f33:
MOV RAX,qword ptr [R13]
INC dword ptr [RAX + 0x84]
MOV RAX,qword ptr [R13]
MOV RAX,qword ptr [RAX + 0x28]
MOV qword ptr [R12 + 0x38],RAX
MOV RAX,qword ptr [R13]
MOV qword ptr [RAX + 0x28],R12
MOV AL,byte ptr [RBX + 0xd]
AND AL,0x1
MOV RCX,qword ptr [R13]
OR byte ptr [RCX + 0x344],AL
MOV RAX,qword ptr [R13 + 0x8]
LAB_00191f65:
MOV RCX,RAX
MOV RAX,qword ptr [RAX]
TEST RAX,RAX
JZ 0x00191f76
TEST byte ptr [RCX + 0x8],0x2
JNZ 0x00191f65
LAB_00191f76:
MOV qword ptr [R12 + 0x28],RCX
MOV R15,qword ptr [RBP + -0x38]
caseD_4:
CMP qword ptr [R13 + 0x10],0x0
JZ 0x0019201a
MOV RDI,qword ptr [R13]
ADD RDI,0x30
MOV ESI,0x18
CALL 0x001bdfeb
MOV RBX,RAX
MOV RDI,qword ptr [R13]
ADD RDI,0x30
MOV ESI,0x18
CALL 0x001bdfeb
MOV qword ptr [RBX],R15
MOVSXD RCX,R14D
MOV qword ptr [RBX + 0x10],RCX
MOV qword ptr [RAX + 0x10],RBX
MOV RCX,qword ptr [R13 + 0x8]
MOV RDI,qword ptr [RCX + 0x30]
MOV RSI,RAX
CALL 0x001b452c
MOV RCX,qword ptr [R13 + 0x8]
MOV qword ptr [RCX + 0x30],RAX
MOV RDI,qword ptr [R13]
ADD RDI,0x30
MOV ESI,0x18
CALL 0x001bdfeb
MOV RBX,RAX
MOV RDI,qword ptr [R13]
ADD RDI,0x30
MOV ESI,0x18
CALL 0x001bdfeb
MOV qword ptr [RBX + 0x10],RAX
MOV RAX,qword ptr [R13 + 0x8]
MOV RDI,qword ptr [RAX + 0x38]
MOV RSI,RBX
CALL 0x001b452c
MOV RCX,qword ptr [R13 + 0x8]
MOV qword ptr [RCX + 0x38],RAX
LAB_0019201a:
XOR EAX,EAX
ADD RSP,0x18
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
|
int8 ftb_query_add_word(long param_1,void *param_2,int param_3,int *param_4)
{
int *piVar1;
double dVar2;
long *plVar3;
long *plVar4;
long lVar5;
uint uVar6;
long *plVar7;
long *plVar8;
int8 *puVar9;
long lVar10;
int8 uVar11;
int1 *puVar12;
int iVar13;
long lVar14;
int iVar15;
puVar12 = _nwghts;
if ((char)param_4[3] == '\0') {
puVar12 = _wghts;
}
iVar15 = -5;
if (-5 < param_4[2]) {
iVar15 = param_4[2];
}
iVar13 = 5;
if (iVar15 < 5) {
iVar13 = iVar15;
}
if (*param_4 - 1U < 4) {
dVar2 = *(double *)(puVar12 + (long)iVar13 * 8 + 0x28);
plVar3 = *(long **)(param_1 + 0x18);
switch(*param_4) {
case 1:
plVar7 = (long *)alloc_root(*plVar3 + 0x30,0x508);
*(int *)(plVar7 + 9) = param_3 + 1;
*(int4 *)(plVar7 + 1) = 0;
*(int1 *)((long)plVar7 + 0x4c) = 0;
iVar15 = param_4[1];
if (iVar15 < 1) {
uVar6 = 0;
}
else {
*(int4 *)(plVar7 + 1) = 2;
iVar15 = param_4[1];
uVar6 = 2;
}
if (iVar15 < 0) {
uVar6 = uVar6 | 4;
*(uint *)(plVar7 + 1) = uVar6;
}
if (*(char *)((long)param_4 + 0xd) != '\0') {
*(uint *)(plVar7 + 1) = uVar6 | 1;
}
*(float *)(plVar7 + 8) = (float)dVar2;
lVar10 = plVar3[1];
*plVar7 = lVar10;
*(int4 *)(plVar7 + 2) = 0xffffffff;
*(int4 *)((long)plVar7 + 0x14) = 0xffffffff;
*(int4 *)(plVar7 + 3) = 0xffffffff;
*(int4 *)((long)plVar7 + 0x1c) = 0xffffffff;
*(int *)((long)plVar7 + 0x44) = (int)plVar3[3] - (param_4[1] >> 0x1f);
plVar7[4] = -1;
memcpy((void *)((long)plVar7 + 0x4e),param_2,(long)param_3);
*(char *)((long)plVar7 + 0x4d) = (char)param_3;
if (0 < param_4[1]) {
piVar1 = (int *)(lVar10 + 0x48);
*piVar1 = *piVar1 + 1;
}
*(int *)(*plVar3 + 0x84) = *(int *)(*plVar3 + 0x84) + 1;
plVar7[7] = *(long *)(*plVar3 + 0x28);
*(long **)(*plVar3 + 0x28) = plVar7;
*(byte *)(*plVar3 + 0x344) = *(byte *)(*plVar3 + 0x344) | *(byte *)((long)param_4 + 0xd) & 1;
plVar4 = (long *)plVar3[1];
do {
plVar8 = plVar4;
if ((long *)*plVar8 == (long *)0x0) break;
plVar4 = (long *)*plVar8;
} while ((*(byte *)(plVar8 + 1) & 2) != 0);
plVar7[5] = (long)plVar8;
case 4:
if (plVar3[2] != 0) {
puVar9 = (int8 *)alloc_root(*plVar3 + 0x30,0x18);
lVar10 = alloc_root(*plVar3 + 0x30,0x18);
*puVar9 = param_2;
puVar9[2] = (long)param_3;
*(int8 **)(lVar10 + 0x10) = puVar9;
uVar11 = list_add(*(int8 *)(plVar3[1] + 0x30),lVar10);
*(int8 *)(plVar3[1] + 0x30) = uVar11;
lVar10 = alloc_root(*plVar3 + 0x30,0x18);
uVar11 = alloc_root(*plVar3 + 0x30,0x18);
*(int8 *)(lVar10 + 0x10) = uVar11;
uVar11 = list_add(*(int8 *)(plVar3[1] + 0x38),lVar10);
*(int8 *)(plVar3[1] + 0x38) = uVar11;
}
break;
case 2:
plVar7 = (long *)alloc_root(*plVar3 + 0x30,0x50);
*(int4 *)(plVar7 + 1) = 0;
uVar6 = (uint)(0 < param_4[1]) * 2;
*(uint *)(plVar7 + 1) = uVar6;
if (param_4[1] < 0) {
*(uint *)(plVar7 + 1) = uVar6 | 4;
}
*(float *)(plVar7 + 5) = (float)dVar2;
*plVar7 = plVar3[1];
plVar7[9] = 0;
plVar7[4] = 0;
*(int4 *)(plVar7 + 2) = 0xffffffff;
*(int4 *)((long)plVar7 + 0x14) = 0xffffffff;
*(int4 *)(plVar7 + 3) = 0xffffffff;
*(int4 *)((long)plVar7 + 0x1c) = 0xffffffff;
*(int1 (*) [16])(plVar7 + 6) = (int1 [16])0x0;
if (*(long *)(param_4 + 4) != 0) {
*(byte *)(*plVar3 + 0x344) = *(byte *)(*plVar3 + 0x344) | 2;
}
if (0 < param_4[1]) {
*(int *)(*plVar7 + 0x48) = *(int *)(*plVar7 + 0x48) + 1;
}
plVar3[1] = (long)plVar7;
*(int *)(plVar3 + 3) = (int)plVar3[3] + 1;
plVar3[2] = *(long *)(param_4 + 4);
break;
case 3:
lVar10 = *(long *)(plVar3[1] + 0x38);
lVar5 = lVar10;
if (lVar10 != 0) {
do {
lVar14 = lVar5;
lVar5 = *(long *)(lVar14 + 8);
} while (*(long *)(lVar14 + 8) != 0);
*(long *)(lVar14 + 8) = lVar10;
**(long **)(plVar3[1] + 0x38) = lVar14;
}
param_4[4] = 0;
param_4[5] = 0;
if (*(long *)plVar3[1] != 0) {
plVar3[1] = *(long *)plVar3[1];
*(int *)(plVar3 + 3) = (int)plVar3[3] + -1;
plVar3[2] = 0;
}
}
}
return 0;
}
|
|
4,497 | common_chat_params_init_functionary_v3_1_llama_3_1(minja::chat_template const&, templates_params const&) | llama.cpp/common/chat.cpp | static common_chat_params common_chat_params_init_functionary_v3_1_llama_3_1(const common_chat_template & tmpl, const struct templates_params & inputs) {
// https://github.com/MeetKai/functionary/blob/main/tests/prompt_test_v3-llama3.1.txt
common_chat_params data;
json tools = inputs.tools.is_null() ? inputs.tools : json::array();
std::string python_code_argument_name;
auto has_raw_python = false;
data.grammar_lazy = inputs.tool_choice != COMMON_CHAT_TOOL_CHOICE_REQUIRED;
data.grammar = build_grammar([&](const common_grammar_builder & builder) {
std::vector<std::string> tool_rules;
foreach_function(inputs.tools, [&](const json & tool) {
const auto & function = tool.at("function");
const auto & parameters = function.at("parameters");
std::string name = function.at("name");
if (name == "python" || name == "ipython") {
if (!parameters.contains("type")) {
throw std::runtime_error("Missing type in python tool");
}
has_raw_python = true;
const auto & type = parameters.at("type");
if (type == "object") {
auto properties = parameters.at("properties");
for (auto it = properties.begin(); it != properties.end(); ++it) {
if (it.value().at("type") == "string") {
if (!python_code_argument_name.empty()) {
throw std::runtime_error("Multiple string arguments found in python tool");
}
python_code_argument_name = it.key();
}
}
if (python_code_argument_name.empty()) {
throw std::runtime_error("No string argument found in python tool");
}
} else if (type != "string") {
throw std::runtime_error("Invalid type in python tool: " + type.dump());
}
}
tool_rules.push_back(builder.add_rule(name + "-call", "\"<function=" + name + ">\" " + builder.add_schema(name + "-args", parameters) + " \"</function>\" space"));
});
if (has_raw_python) {
tool_rules.push_back(builder.add_rule("python-call", "\"<|python_tag|>\" .*"));
data.grammar_triggers.push_back({COMMON_GRAMMAR_TRIGGER_TYPE_WORD, "<|python_tag|>"});
data.preserved_tokens.push_back("<|python_tag|>");
}
auto tool_call = builder.add_rule("tool_call", string_join(tool_rules, " | ")) + " space";
builder.add_rule("root", inputs.parallel_tool_calls ? "(" + tool_call + ")+" : tool_call);
data.grammar_triggers.push_back({COMMON_GRAMMAR_TRIGGER_TYPE_WORD, "<function="});
});
data.prompt = apply(tmpl, inputs.messages, inputs.tools.empty() ? json() : inputs.tools, inputs.add_generation_prompt);
// TODO: if (has_raw_python)
data.format = COMMON_CHAT_FORMAT_FUNCTIONARY_V3_1_LLAMA_3_1;
return data;
} | O3 | cpp | common_chat_params_init_functionary_v3_1_llama_3_1(minja::chat_template const&, templates_params const&):
pushq %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x88, %rsp
movq %rdx, %r14
movq %rsi, %rbp
movq %rdi, %rbx
movl $0x0, (%rdi)
leaq 0x18(%rdi), %rax
movq %rax, 0x8(%rdi)
xorl %eax, %eax
movq %rax, 0x10(%rdi)
movb %al, 0x18(%rdi)
leaq 0x38(%rdi), %rcx
movq %rcx, 0x28(%rdi)
movq %rax, 0x30(%rdi)
movb %al, 0x38(%rdi)
movb %al, 0x48(%rdi)
xorps %xmm0, %xmm0
movups %xmm0, 0x50(%rdi)
movups %xmm0, 0x60(%rdi)
movups %xmm0, 0x70(%rdi)
movups %xmm0, 0x80(%rdi)
movq %rax, 0x90(%rdi)
leaq 0x10(%rdx), %r12
cmpb %al, 0x10(%rdx)
je 0x3ff15
leaq 0x58(%rsp), %rdi
xorl %esi, %esi
xorl %edx, %edx
xorl %ecx, %ecx
movl $0x2, %r8d
callq 0x55646
jmp 0x3ff22
leaq 0x58(%rsp), %rdi
movq %r12, %rsi
callq 0x56230
leaq 0x78(%rsp), %r15
movq %r15, -0x10(%r15)
xorl %eax, %eax
movq %rax, -0x8(%r15)
movb %al, (%r15)
movb %al, 0x7(%rsp)
cmpl $0x1, 0x20(%r14)
setne 0x48(%rbx)
movq %rax, 0x10(%rsp)
movl $0x20, %edi
callq 0x1d1e0
movq %r14, (%rax)
leaq 0x7(%rsp), %rcx
movq %rcx, 0x8(%rax)
leaq 0x68(%rsp), %rcx
movq %rcx, 0x10(%rax)
movq %rbx, 0x18(%rax)
leaq 0x8(%rsp), %rsi
movq %rax, (%rsi)
leaq 0xb360(%rip), %rax # 0x4b2d8
movq %rax, 0x18(%rsi)
leaq 0xbb25(%rip), %rax # 0x4baa8
movq %rax, 0x10(%rsi)
leaq 0x28(%rsp), %rdx
movb $0x0, (%rdx)
leaq 0x38(%rsp), %rdi
callq 0xb788a
leaq 0x28(%rbx), %rdi
leaq 0x38(%rsp), %r13
movq %r13, %rsi
callq 0x1d720
movq (%r13), %rdi
leaq 0x48(%rsp), %rax
cmpq %rax, %rdi
je 0x3ffc5
movq 0x48(%rsp), %rsi
incq %rsi
callq 0x1d160
movq 0x18(%rsp), %rax
testq %rax, %rax
je 0x3ffde
leaq 0x8(%rsp), %rdi
movq %rdi, %rsi
movl $0x3, %edx
callq *%rax
movzbl (%r12), %eax
testl %eax, %eax
je 0x40010
cmpl $0x2, %eax
je 0x3fff1
cmpl $0x1, %eax
jne 0x3fffe
movq 0x18(%r14), %rax
movq (%rax), %rcx
cmpq 0x8(%rax), %rcx
je 0x40010
movq %rbp, %r13
leaq 0x8(%rsp), %rdi
movq %r12, %rsi
callq 0x56230
jmp 0x40040
movq %rbp, %r13
leaq 0x8(%rsp), %r12
movb $0x0, (%r12)
movq $0x0, 0x8(%r12)
movq %r12, %rdi
movl $0x1, %esi
callq 0x60b38
movq %r12, %rdi
movl $0x1, %esi
callq 0x60b38
movzbl 0x60(%r14), %ebp
leaq 0x28(%rsp), %r12
movb $0x0, (%r12)
movq $0x0, 0x8(%r12)
movq %r12, %rdi
movl $0x1, %esi
callq 0x60b38
movq %r12, %rdi
movl $0x1, %esi
callq 0x60b38
leaq 0x38(%rsp), %rdi
leaq 0x8(%rsp), %rcx
movq %r13, %rsi
movq %r14, %rdx
movl %ebp, %r8d
movq %r12, %r9
callq 0x40b85
leaq 0x8(%rbx), %rdi
leaq 0x38(%rsp), %r14
movq %r14, %rsi
callq 0x1d720
movq (%r14), %rdi
leaq 0x48(%rsp), %rax
cmpq %rax, %rdi
je 0x400b8
movq 0x48(%rsp), %rsi
incq %rsi
callq 0x1d160
leaq 0x28(%rsp), %r14
movq %r14, %rdi
xorl %esi, %esi
callq 0x60b38
movq %r14, %rdi
callq 0x60bd8
leaq 0x8(%rsp), %r14
movq %r14, %rdi
xorl %esi, %esi
callq 0x60b38
movq %r14, %rdi
callq 0x60bd8
movl $0x9, (%rbx)
movq 0x68(%rsp), %rdi
cmpq %r15, %rdi
je 0x40103
movq 0x78(%rsp), %rsi
incq %rsi
callq 0x1d160
leaq 0x58(%rsp), %rbx
movq %rbx, %rdi
xorl %esi, %esi
callq 0x60b38
movq %rbx, %rdi
callq 0x60bd8
addq $0x88, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
jmp 0x40189
jmp 0x40181
movq %rax, %r14
leaq 0x28(%rsp), %r12
movq %r12, %rdi
xorl %esi, %esi
callq 0x60b38
movq %r12, %rdi
callq 0x60bd8
leaq 0x8(%rsp), %r12
movq %r12, %rdi
xorl %esi, %esi
callq 0x60b38
movq %r12, %rdi
callq 0x60bd8
jmp 0x4018c
movq %rax, %r14
movq 0x18(%rsp), %rax
testq %rax, %rax
je 0x4018c
leaq 0x8(%rsp), %rdi
movq %rdi, %rsi
movl $0x3, %edx
callq *%rax
jmp 0x4018c
movq %rax, %rdi
callq 0x232f3
movq %rax, %r14
movq 0x68(%rsp), %rdi
cmpq %r15, %rdi
je 0x401a3
movq 0x78(%rsp), %rsi
incq %rsi
callq 0x1d160
leaq 0x58(%rsp), %r15
movq %r15, %rdi
xorl %esi, %esi
callq 0x60b38
movq %r15, %rdi
callq 0x60bd8
jmp 0x401bf
movq %rax, %r14
movq %rbx, %rdi
callq 0x3132c
movq %r14, %rdi
callq 0x1d8e0
| _ZL50common_chat_params_init_functionary_v3_1_llama_3_1RKN5minja13chat_templateERK16templates_params:
push rbp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 88h
mov r14, rdx
mov rbp, rsi
mov rbx, rdi
mov dword ptr [rdi], 0
lea rax, [rdi+18h]
mov [rdi+8], rax
xor eax, eax
mov [rdi+10h], rax
mov [rdi+18h], al
lea rcx, [rdi+38h]
mov [rdi+28h], rcx
mov [rdi+30h], rax
mov [rdi+38h], al
mov [rdi+48h], al
xorps xmm0, xmm0
movups xmmword ptr [rdi+50h], xmm0
movups xmmword ptr [rdi+60h], xmm0
movups xmmword ptr [rdi+70h], xmm0
movups xmmword ptr [rdi+80h], xmm0
mov [rdi+90h], rax
lea r12, [rdx+10h]
cmp [rdx+10h], al
jz short loc_3FF15
lea rdi, [rsp+0B8h+var_60]
xor esi, esi
xor edx, edx
xor ecx, ecx
mov r8d, 2
call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEC2ESt16initializer_listINS0_6detail8json_refISD_EEEbNSF_7value_tE; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::basic_json(std::initializer_list<nlohmann::json_abi_v3_11_3::detail::json_ref<nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>>>,bool,nlohmann::json_abi_v3_11_3::detail::value_t)
jmp short loc_3FF22
loc_3FF15:
lea rdi, [rsp+0B8h+var_60]
mov rsi, r12
call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEC2ERKSD_; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::basic_json(nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> const&)
loc_3FF22:
lea r15, [rsp+0B8h+var_40]
mov [r15-10h], r15
xor eax, eax
mov [r15-8], rax
mov [r15], al
mov [rsp+0B8h+var_B1], al
cmp dword ptr [r14+20h], 1
setnz byte ptr [rbx+48h]
mov [rsp+0B8h+var_A8], rax
mov edi, 20h ; ' '; unsigned __int64
call __Znwm; operator new(ulong)
mov [rax], r14
lea rcx, [rsp+0B8h+var_B1]
mov [rax+8], rcx
lea rcx, [rsp+0B8h+var_50]
mov [rax+10h], rcx
mov [rax+18h], rbx
lea rsi, [rsp+0B8h+var_B0]
mov [rsi], rax
lea rax, _ZNSt17_Function_handlerIFvRK22common_grammar_builderEZL50common_chat_params_init_functionary_v3_1_llama_3_1RKN5minja13chat_templateERK16templates_paramsE3$_0E9_M_invokeERKSt9_Any_dataS2_; std::_Function_handler<void ()(common_grammar_builder const&),common_chat_params_init_functionary_v3_1_llama_3_1(minja::chat_template const&,templates_params const&)::$_0>::_M_invoke(std::_Any_data const&,common_grammar_builder const&)
mov [rsi+18h], rax
lea rax, _ZNSt17_Function_handlerIFvRK22common_grammar_builderEZL50common_chat_params_init_functionary_v3_1_llama_3_1RKN5minja13chat_templateERK16templates_paramsE3$_0E10_M_managerERSt9_Any_dataRKSD_St18_Manager_operation; std::_Function_handler<void ()(common_grammar_builder const&),common_chat_params_init_functionary_v3_1_llama_3_1(minja::chat_template const&,templates_params const&)::$_0>::_M_manager(std::_Any_data &,std::_Any_data const&,std::_Manager_operation)
mov [rsi+10h], rax
lea rdx, [rsp+0B8h+var_90]
mov byte ptr [rdx], 0
lea rdi, [rsp+0B8h+var_80]
call _Z13build_grammarB5cxx11RKSt8functionIFvRK22common_grammar_builderEERK22common_grammar_options; build_grammar(std::function<void ()(common_grammar_builder const&)> const&,common_grammar_options const&)
lea rdi, [rbx+28h]
lea r13, [rsp+0B8h+var_80]
mov rsi, r13
call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEaSEOS4_; std::string::operator=(std::string&&)
mov rdi, [r13+0]; void *
lea rax, [rsp+0B8h+var_70]
cmp rdi, rax
jz short loc_3FFC5
mov rsi, [rsp+0B8h+var_70]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_3FFC5:
mov rax, [rsp+0B8h+var_A0]
test rax, rax
jz short loc_3FFDE
lea rdi, [rsp+0B8h+var_B0]
mov rsi, rdi
mov edx, 3
call rax
loc_3FFDE:
movzx eax, byte ptr [r12]
test eax, eax
jz short loc_40010
cmp eax, 2
jz short loc_3FFF1
cmp eax, 1
jnz short loc_3FFFE
loc_3FFF1:
mov rax, [r14+18h]
mov rcx, [rax]
cmp rcx, [rax+8]
jz short loc_40010
loc_3FFFE:
mov r13, rbp
lea rdi, [rsp+0B8h+var_B0]
mov rsi, r12
call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvEC2ERKSD_; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::basic_json(nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> const&)
jmp short loc_40040
loc_40010:
mov r13, rbp
lea r12, [rsp+0B8h+var_B0]
mov byte ptr [r12], 0
mov qword ptr [r12+8], 0
mov rdi, r12
mov esi, 1
call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE16assert_invariantEb; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::assert_invariant(bool)
mov rdi, r12
mov esi, 1
call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE16assert_invariantEb; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::assert_invariant(bool)
loc_40040:
movzx ebp, byte ptr [r14+60h]
lea r12, [rsp+0B8h+var_90]
mov byte ptr [r12], 0
mov qword ptr [r12+8], 0
mov rdi, r12
mov esi, 1
call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE16assert_invariantEb; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::assert_invariant(bool)
mov rdi, r12
mov esi, 1
call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE16assert_invariantEb; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::assert_invariant(bool)
lea rdi, [rsp+0B8h+var_80]
lea rcx, [rsp+0B8h+var_B0]
mov rsi, r13
mov rdx, r14
mov r8d, ebp
mov r9, r12
call _ZL5applyRKN5minja13chat_templateERKN8nlohmann16json_abi_v3_11_310basic_jsonINS4_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS4_14adl_serializerES7_IhSaIhEEvEESJ_bSJ_; apply(minja::chat_template const&,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> const&,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> const&,bool,nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void> const&)
lea rdi, [rbx+8]
lea r14, [rsp+0B8h+var_80]
mov rsi, r14
call __ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEaSEOS4_; std::string::operator=(std::string&&)
mov rdi, [r14]; void *
lea rax, [rsp+0B8h+var_70]
cmp rdi, rax
jz short loc_400B8
mov rsi, [rsp+0B8h+var_70]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_400B8:
lea r14, [rsp+0B8h+var_90]
mov rdi, r14
xor esi, esi
call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE16assert_invariantEb; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::assert_invariant(bool)
mov rdi, r14
call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE4dataD2Ev; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::data::~data()
lea r14, [rsp+0B8h+var_B0]
mov rdi, r14
xor esi, esi
call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE16assert_invariantEb; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::assert_invariant(bool)
mov rdi, r14
call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE4dataD2Ev; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::data::~data()
mov dword ptr [rbx], 9
mov rdi, [rsp+0B8h+var_50]; void *
cmp rdi, r15
jz short loc_40103
mov rsi, [rsp+0B8h+var_40]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_40103:
lea rbx, [rsp+0B8h+var_60]
mov rdi, rbx
xor esi, esi
call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE16assert_invariantEb; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::assert_invariant(bool)
mov rdi, rbx
call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE4dataD2Ev; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::data::~data()
add rsp, 88h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
jmp short loc_40189
jmp short loc_40181
mov r14, rax
lea r12, [rsp+0B8h+var_90]
mov rdi, r12
xor esi, esi
call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE16assert_invariantEb; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::assert_invariant(bool)
mov rdi, r12
call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE4dataD2Ev; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::data::~data()
lea r12, [rsp+0B8h+var_B0]
mov rdi, r12
xor esi, esi
call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE16assert_invariantEb; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::assert_invariant(bool)
mov rdi, r12
call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE4dataD2Ev; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::data::~data()
jmp short loc_4018C
mov r14, rax
mov rax, [rsp+0B8h+var_A0]
test rax, rax
jz short loc_4018C
lea rdi, [rsp+0B8h+var_B0]
mov rsi, rdi
mov edx, 3
call rax
jmp short loc_4018C
loc_40181:
mov rdi, rax
call __clang_call_terminate
loc_40189:
mov r14, rax
loc_4018C:
mov rdi, [rsp+0B8h+var_50]; void *
cmp rdi, r15
jz short loc_401A3
mov rsi, [rsp+0B8h+var_40]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_401A3:
lea r15, [rsp+0B8h+var_60]
mov rdi, r15
xor esi, esi
call _ZNK8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE16assert_invariantEb; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::assert_invariant(bool)
mov rdi, r15
call _ZN8nlohmann16json_abi_v3_11_310basic_jsonINS0_11ordered_mapESt6vectorNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEEblmdSaNS0_14adl_serializerES3_IhSaIhEEvE4dataD2Ev; nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,ulong,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<uchar>,void>::data::~data()
jmp short loc_401BF
mov r14, rax
loc_401BF:
mov rdi, rbx; this
call _ZN18common_chat_paramsD2Ev; common_chat_params::~common_chat_params()
mov rdi, r14
call __Unwind_Resume
| long long common_chat_params_init_functionary_v3_1_llama_3_1(long long a1, int a2, long long a3)
{
_BYTE *v4; // r12
_QWORD *v5; // rax
int v6; // eax
int v7; // r13d
int v8; // ebp
char v10; // [rsp+7h] [rbp-B1h] BYREF
_QWORD *v11; // [rsp+8h] [rbp-B0h] BYREF
long long v12; // [rsp+10h] [rbp-A8h]
long long ( *v13)(); // [rsp+18h] [rbp-A0h]
long long ( *v14)(); // [rsp+20h] [rbp-98h]
_BYTE v15[8]; // [rsp+28h] [rbp-90h] BYREF
long long v16; // [rsp+30h] [rbp-88h]
void *v17[2]; // [rsp+38h] [rbp-80h] BYREF
_QWORD v18[2]; // [rsp+48h] [rbp-70h] BYREF
_BYTE v19[16]; // [rsp+58h] [rbp-60h] BYREF
void *v20[2]; // [rsp+68h] [rbp-50h] BYREF
_QWORD v21[8]; // [rsp+78h] [rbp-40h] BYREF
*(_DWORD *)a1 = 0;
*(_QWORD *)(a1 + 8) = a1 + 24;
*(_QWORD *)(a1 + 16) = 0LL;
*(_BYTE *)(a1 + 24) = 0;
*(_QWORD *)(a1 + 40) = a1 + 56;
*(_QWORD *)(a1 + 48) = 0LL;
*(_BYTE *)(a1 + 56) = 0;
*(_BYTE *)(a1 + 72) = 0;
*(_OWORD *)(a1 + 80) = 0LL;
*(_OWORD *)(a1 + 96) = 0LL;
*(_OWORD *)(a1 + 112) = 0LL;
*(_OWORD *)(a1 + 128) = 0LL;
*(_QWORD *)(a1 + 144) = 0LL;
v4 = (_BYTE *)(a3 + 16);
if ( *(_BYTE *)(a3 + 16) )
nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::basic_json(
v19,
0LL,
0LL,
0LL,
2LL);
else
nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::basic_json(
v19,
a3 + 16);
v20[0] = v21;
v20[1] = 0LL;
LOBYTE(v21[0]) = 0;
v10 = 0;
*(_BYTE *)(a1 + 72) = *(_DWORD *)(a3 + 32) != 1;
v12 = 0LL;
v5 = (_QWORD *)operator new(0x20uLL);
*v5 = a3;
v5[1] = &v10;
v5[2] = v20;
v5[3] = a1;
v11 = v5;
v14 = std::_Function_handler<void ()(common_grammar_builder const&),common_chat_params_init_functionary_v3_1_llama_3_1(minja::chat_template const&,templates_params const&)::$_0>::_M_invoke;
v13 = std::_Function_handler<void ()(common_grammar_builder const&),common_chat_params_init_functionary_v3_1_llama_3_1(minja::chat_template const&,templates_params const&)::$_0>::_M_manager;
v15[0] = 0;
build_grammar[abi:cxx11](v17, &v11, v15);
std::string::operator=(a1 + 40, v17);
if ( v17[0] != v18 )
operator delete(v17[0], v18[0] + 1LL);
if ( v13 )
((void ( *)(_QWORD **, _QWORD **, long long))v13)(&v11, &v11, 3LL);
v6 = (unsigned __int8)*v4;
if ( !*v4 || (v6 == 2 || v6 == 1) && **(_QWORD **)(a3 + 24) == *(_QWORD *)(*(_QWORD *)(a3 + 24) + 8LL) )
{
v7 = a2;
LOBYTE(v11) = 0;
v12 = 0LL;
nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::assert_invariant(
&v11,
1LL);
nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::assert_invariant(
&v11,
1LL);
}
else
{
v7 = a2;
nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::basic_json(
&v11,
v4);
}
v8 = *(unsigned __int8 *)(a3 + 96);
v15[0] = 0;
v16 = 0LL;
nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::assert_invariant(
v15,
1LL);
nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::assert_invariant(
v15,
1LL);
apply((unsigned int)v17, v7, a3, (unsigned int)&v11, v8, (unsigned int)v15);
std::string::operator=(a1 + 8, v17);
if ( v17[0] != v18 )
operator delete(v17[0], v18[0] + 1LL);
nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::assert_invariant(
v15,
0LL);
nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::data::~data(v15);
nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::assert_invariant(
&v11,
0LL);
nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::data::~data(&v11);
*(_DWORD *)a1 = 9;
if ( v20[0] != v21 )
operator delete(v20[0], v21[0] + 1LL);
nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::assert_invariant(
v19,
0LL);
return nlohmann::json_abi_v3_11_3::basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::string,bool,long,unsigned long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned char>,void>::data::~data(v19);
}
| common_chat_params_init_functionary_v3_1_llama_3_1:
PUSH RBP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x88
MOV R14,RDX
MOV RBP,RSI
MOV RBX,RDI
MOV dword ptr [RDI],0x0
LEA RAX,[RDI + 0x18]
MOV qword ptr [RDI + 0x8],RAX
XOR EAX,EAX
MOV qword ptr [RDI + 0x10],RAX
MOV byte ptr [RDI + 0x18],AL
LEA RCX,[RDI + 0x38]
MOV qword ptr [RDI + 0x28],RCX
MOV qword ptr [RDI + 0x30],RAX
MOV byte ptr [RDI + 0x38],AL
MOV byte ptr [RDI + 0x48],AL
XORPS XMM0,XMM0
MOVUPS xmmword ptr [RDI + 0x50],XMM0
MOVUPS xmmword ptr [RDI + 0x60],XMM0
MOVUPS xmmword ptr [RDI + 0x70],XMM0
MOVUPS xmmword ptr [RDI + 0x80],XMM0
MOV qword ptr [RDI + 0x90],RAX
LEA R12,[RDX + 0x10]
CMP byte ptr [RDX + 0x10],AL
JZ 0x0013ff15
LAB_0013fefd:
LEA RDI,[RSP + 0x58]
XOR ESI,ESI
XOR EDX,EDX
XOR ECX,ECX
MOV R8D,0x2
CALL 0x00155646
JMP 0x0013ff22
LAB_0013ff15:
LEA RDI,[RSP + 0x58]
MOV RSI,R12
CALL 0x00156230
LAB_0013ff22:
LEA R15,[RSP + 0x78]
MOV qword ptr [R15 + -0x10],R15
XOR EAX,EAX
MOV qword ptr [R15 + -0x8],RAX
MOV byte ptr [R15],AL
MOV byte ptr [RSP + 0x7],AL
CMP dword ptr [R14 + 0x20],0x1
SETNZ byte ptr [RBX + 0x48]
MOV qword ptr [RSP + 0x10],RAX
LAB_0013ff46:
MOV EDI,0x20
CALL 0x0011d1e0
MOV qword ptr [RAX],R14
LEA RCX,[RSP + 0x7]
MOV qword ptr [RAX + 0x8],RCX
LEA RCX,[RSP + 0x68]
MOV qword ptr [RAX + 0x10],RCX
MOV qword ptr [RAX + 0x18],RBX
LEA RSI,[RSP + 0x8]
MOV qword ptr [RSI],RAX
LEA RAX,[0x14b2d8]
MOV qword ptr [RSI + 0x18],RAX
LEA RAX,[0x14baa8]
MOV qword ptr [RSI + 0x10],RAX
LEA RDX,[RSP + 0x28]
MOV byte ptr [RDX],0x0
LAB_0013ff8f:
LEA RDI,[RSP + 0x38]
CALL 0x001b788a
LEA RDI,[RBX + 0x28]
LEA R13,[RSP + 0x38]
MOV RSI,R13
CALL 0x0011d720
MOV RDI,qword ptr [R13]
LEA RAX,[RSP + 0x48]
CMP RDI,RAX
JZ 0x0013ffc5
MOV RSI,qword ptr [RSP + 0x48]
INC RSI
CALL 0x0011d160
LAB_0013ffc5:
MOV RAX,qword ptr [RSP + 0x18]
TEST RAX,RAX
JZ 0x0013ffde
LAB_0013ffcf:
LEA RDI,[RSP + 0x8]
MOV RSI,RDI
MOV EDX,0x3
CALL RAX
LAB_0013ffde:
MOVZX EAX,byte ptr [R12]
TEST EAX,EAX
JZ 0x00140010
CMP EAX,0x2
JZ 0x0013fff1
CMP EAX,0x1
JNZ 0x0013fffe
LAB_0013fff1:
MOV RAX,qword ptr [R14 + 0x18]
MOV RCX,qword ptr [RAX]
CMP RCX,qword ptr [RAX + 0x8]
JZ 0x00140010
LAB_0013fffe:
MOV R13,RBP
LEA RDI,[RSP + 0x8]
MOV RSI,R12
CALL 0x00156230
JMP 0x00140040
LAB_00140010:
MOV R13,RBP
LEA R12,[RSP + 0x8]
MOV byte ptr [R12],0x0
MOV qword ptr [R12 + 0x8],0x0
MOV RDI,R12
MOV ESI,0x1
CALL 0x00160b38
MOV RDI,R12
MOV ESI,0x1
CALL 0x00160b38
LAB_00140040:
MOVZX EBP,byte ptr [R14 + 0x60]
LEA R12,[RSP + 0x28]
MOV byte ptr [R12],0x0
MOV qword ptr [R12 + 0x8],0x0
MOV RDI,R12
MOV ESI,0x1
CALL 0x00160b38
MOV RDI,R12
MOV ESI,0x1
CALL 0x00160b38
LAB_00140072:
LEA RDI,[RSP + 0x38]
LEA RCX,[RSP + 0x8]
MOV RSI,R13
MOV RDX,R14
MOV R8D,EBP
MOV R9,R12
CALL 0x00140b85
LEA RDI,[RBX + 0x8]
LEA R14,[RSP + 0x38]
MOV RSI,R14
CALL 0x0011d720
MOV RDI,qword ptr [R14]
LEA RAX,[RSP + 0x48]
CMP RDI,RAX
JZ 0x001400b8
MOV RSI,qword ptr [RSP + 0x48]
INC RSI
CALL 0x0011d160
LAB_001400b8:
LEA R14,[RSP + 0x28]
MOV RDI,R14
XOR ESI,ESI
CALL 0x00160b38
MOV RDI,R14
CALL 0x00160bd8
LEA R14,[RSP + 0x8]
MOV RDI,R14
XOR ESI,ESI
CALL 0x00160b38
MOV RDI,R14
CALL 0x00160bd8
MOV dword ptr [RBX],0x9
MOV RDI,qword ptr [RSP + 0x68]
CMP RDI,R15
JZ 0x00140103
MOV RSI,qword ptr [RSP + 0x78]
INC RSI
CALL 0x0011d160
LAB_00140103:
LEA RBX,[RSP + 0x58]
MOV RDI,RBX
XOR ESI,ESI
CALL 0x00160b38
MOV RDI,RBX
CALL 0x00160bd8
ADD RSP,0x88
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
|
/* common_chat_params_init_functionary_v3_1_llama_3_1(minja::chat_template const&, templates_params
const&) */
void common_chat_params_init_functionary_v3_1_llama_3_1
(chat_template *param_1,templates_params *param_2)
{
basic_json *pbVar1;
basic_json bVar2;
basic_json *in_RDX;
int1 local_b1;
int8 *local_b0;
int8 local_a8;
code *local_a0;
code *local_98;
data local_90 [8];
int8 local_88;
long *local_80 [2];
long local_70 [2];
basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>
local_60 [16];
int1 *local_50;
int8 local_48;
int1 local_40;
int7 uStack_3f;
*(int4 *)param_1 = 0;
*(chat_template **)(param_1 + 8) = param_1 + 0x18;
*(int8 *)(param_1 + 0x10) = 0;
param_1[0x18] = (chat_template)0x0;
*(chat_template **)(param_1 + 0x28) = param_1 + 0x38;
*(int8 *)(param_1 + 0x30) = 0;
param_1[0x38] = (chat_template)0x0;
param_1[0x48] = (chat_template)0x0;
*(int8 *)(param_1 + 0x50) = 0;
*(int8 *)(param_1 + 0x58) = 0;
*(int8 *)(param_1 + 0x60) = 0;
*(int8 *)(param_1 + 0x68) = 0;
*(int8 *)(param_1 + 0x70) = 0;
*(int8 *)(param_1 + 0x78) = 0;
*(int8 *)(param_1 + 0x80) = 0;
*(int8 *)(param_1 + 0x88) = 0;
*(int8 *)(param_1 + 0x90) = 0;
pbVar1 = in_RDX + 0x10;
if (in_RDX[0x10] == (basic_json)0x0) {
nlohmann::json_abi_v3_11_3::
basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>
::basic_json(local_60,pbVar1);
}
else {
/* try { // try from 0013fefd to 0013ff21 has its CatchHandler @ 001401bc */
nlohmann::json_abi_v3_11_3::
basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>
::basic_json(local_60,0,0,0,2);
}
local_48 = 0;
local_40 = 0;
local_b1 = 0;
param_1[0x48] = (chat_template)(*(int *)(in_RDX + 0x20) != 1);
local_a8 = 0;
local_50 = &local_40;
/* try { // try from 0013ff46 to 0013ff4f has its CatchHandler @ 00140189 */
local_b0 = (int8 *)operator_new(0x20);
*local_b0 = in_RDX;
local_b0[1] = &local_b1;
local_b0[2] = &local_50;
local_b0[3] = param_1;
local_98 = std::
_Function_handler<void(common_grammar_builder_const&),common_chat_params_init_functionary_v3_1_llama_3_1(minja::chat_template_const&,templates_params_const&)::$_0>
::_M_invoke;
local_a0 = std::
_Function_handler<void(common_grammar_builder_const&),common_chat_params_init_functionary_v3_1_llama_3_1(minja::chat_template_const&,templates_params_const&)::$_0>
::_M_manager;
local_90[0] = (data)0x0;
/* try { // try from 0013ff8f to 0013ff98 has its CatchHandler @ 00140163 */
build_grammar_abi_cxx11_((function *)local_80,(common_grammar_options *)&local_b0);
std::__cxx11::string::operator=((string *)(param_1 + 0x28),(string *)local_80);
if (local_80[0] != local_70) {
operator_delete(local_80[0],local_70[0] + 1);
}
if (local_a0 != (code *)0x0) {
/* try { // try from 0013ffcf to 0013ffdd has its CatchHandler @ 0014012e */
(*local_a0)(&local_b0,&local_b0,3);
}
bVar2 = *pbVar1;
if ((bVar2 == (basic_json)0x0) ||
(((bVar2 == (basic_json)0x2 || (bVar2 == (basic_json)0x1)) &&
(**(long **)(in_RDX + 0x18) == (*(long **)(in_RDX + 0x18))[1])))) {
local_b0 = (int8 *)((ulong)local_b0 & 0xffffffffffffff00);
local_a8 = 0;
nlohmann::json_abi_v3_11_3::
basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>
::assert_invariant(SUB81(&local_b0,0));
nlohmann::json_abi_v3_11_3::
basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>
::assert_invariant(SUB81(&local_b0,0));
}
else {
/* try { // try from 0013fffe to 0014000d has its CatchHandler @ 0014012c */
nlohmann::json_abi_v3_11_3::
basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>
::basic_json((basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>
*)&local_b0,pbVar1);
}
bVar2 = in_RDX[0x60];
local_90[0] = (data)0x0;
local_88 = 0;
nlohmann::json_abi_v3_11_3::
basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>
::assert_invariant(SUB81(local_90,0));
nlohmann::json_abi_v3_11_3::
basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>
::assert_invariant(SUB81(local_90,0));
/* try { // try from 00140072 to 0014008c has its CatchHandler @ 00140130 */
apply((chat_template *)local_80,(basic_json *)param_2,in_RDX,SUB81(&local_b0,0),
(basic_json *)(ulong)(byte)bVar2);
std::__cxx11::string::operator=((string *)(param_1 + 8),(string *)local_80);
if (local_80[0] != local_70) {
operator_delete(local_80[0],local_70[0] + 1);
}
nlohmann::json_abi_v3_11_3::
basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>
::assert_invariant(SUB81(local_90,0));
nlohmann::json_abi_v3_11_3::
basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>
::data::~data(local_90);
nlohmann::json_abi_v3_11_3::
basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>
::assert_invariant(SUB81((data *)&local_b0,0));
nlohmann::json_abi_v3_11_3::
basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>
::data::~data((data *)&local_b0);
*(int4 *)param_1 = 9;
if (local_50 != &local_40) {
operator_delete(local_50,CONCAT71(uStack_3f,local_40) + 1);
}
nlohmann::json_abi_v3_11_3::
basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>
::assert_invariant(SUB81((data *)local_60,0));
nlohmann::json_abi_v3_11_3::
basic_json<nlohmann::json_abi_v3_11_3::ordered_map,std::vector,std::__cxx11::string,bool,long,unsigned_long,double,std::allocator,nlohmann::json_abi_v3_11_3::adl_serializer,std::vector<unsigned_char,std::allocator<unsigned_char>>,void>
::data::~data((data *)local_60);
return;
}
|
|
4,498 | minja::Parser::parseDictionary() | monkey531[P]llama/common/minja.hpp | std::shared_ptr<Expression> parseDictionary() {
if (consumeToken("{").empty()) return nullptr;
std::vector<std::pair<std::shared_ptr<Expression>, std::shared_ptr<Expression>>> elements;
if (!consumeToken("}").empty()) {
return std::make_shared<DictExpr>(get_location(), std::move(elements));
}
auto parseKeyValuePair = [&]() {
auto key = parseExpression();
if (!key) throw std::runtime_error("Expected key in dictionary");
if (consumeToken(":").empty()) throw std::runtime_error("Expected colon betweek key & value in dictionary");
auto value = parseExpression();
if (!value) throw std::runtime_error("Expected value in dictionary");
elements.emplace_back(std::pair(std::move(key), std::move(value)));
};
parseKeyValuePair();
while (it != end) {
if (!consumeToken(",").empty()) {
parseKeyValuePair();
} else if (!consumeToken("}").empty()) {
return std::make_shared<DictExpr>(get_location(), std::move(elements));
} else {
throw std::runtime_error("Expected comma or closing brace in dictionary");
}
}
throw std::runtime_error("Expected closing brace");
} | O3 | cpp | minja::Parser::parseDictionary():
pushq %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x78, %rsp
movq %rsi, %r14
movq %rdi, %r12
leaq 0x10(%rsp), %rax
movq %rax, -0x10(%rax)
leaq 0x64381(%rip), %rsi # 0xeebcd
leaq 0x6437b(%rip), %rdx # 0xeebce
movq %rsp, %rdi
callq 0x214e2
leaq 0x20(%rsp), %rdi
movq %rsp, %rdx
movq %r14, %rsi
movl $0x1, %ecx
callq 0x834d4
leaq 0x30(%rsp), %rax
movq -0x10(%rax), %rdi
movq -0x8(%rax), %rbx
cmpq %rax, %rdi
je 0x8a88f
movq 0x30(%rsp), %rsi
incq %rsi
callq 0x1a8e0
movq (%rsp), %rdi
leaq 0x10(%rsp), %rax
cmpq %rax, %rdi
je 0x8a8aa
movq 0x10(%rsp), %rsi
incq %rsi
callq 0x1a8e0
xorps %xmm0, %xmm0
testq %rbx, %rbx
je 0x8a964
movaps %xmm0, 0x40(%rsp)
movq $0x0, 0x50(%rsp)
movq %rsp, %rdi
leaq 0x10(%rsp), %rax
movq %rax, (%rdi)
leaq 0x68ad9(%rip), %rsi # 0xf33af
leaq 0x68ad3(%rip), %rdx # 0xf33b0
callq 0x214e2
leaq 0x20(%rsp), %rdi
movq %rsp, %rdx
movq %r14, %rsi
movl $0x1, %ecx
callq 0x834d4
movq 0x20(%rsp), %rdi
movq 0x28(%rsp), %rbx
leaq 0x30(%rsp), %rax
cmpq %rax, %rdi
je 0x8a918
movq 0x30(%rsp), %rsi
incq %rsi
callq 0x1a8e0
movq (%rsp), %rdi
leaq 0x10(%rsp), %rax
cmpq %rax, %rdi
je 0x8a933
movq 0x10(%rsp), %rsi
incq %rsi
callq 0x1a8e0
testq %rbx, %rbx
je 0x8a96e
movq %r12, %r13
movq (%r14), %r12
movq 0x8(%r14), %r15
testq %r15, %r15
je 0x8aac2
movq 0xa0636(%rip), %rax # 0x12af88
cmpb $0x0, (%rax)
je 0x8aabd
incl 0x8(%r15)
jmp 0x8aac2
movups %xmm0, (%r12)
jmp 0x8abe0
movq %r12, 0x60(%rsp)
leaq 0x68(%rsp), %rdi
movq %r14, (%rdi)
leaq 0x40(%rsp), %rax
movq %rax, 0x8(%rdi)
callq 0x8db8e
leaq 0x64737(%rip), %r12 # 0xef0c7
movq %rsp, %r13
leaq 0x20(%rsp), %rbp
leaq 0x68(%rsp), %rbx
movq 0x20(%r14), %rax
cmpq 0x18(%r14), %rax
je 0x8abf2
leaq 0x10(%rsp), %rax
movq %rax, (%rsp)
movq %r13, %rdi
leaq 0x64708(%rip), %rsi # 0xef0c6
movq %r12, %rdx
callq 0x214e2
movq %rbp, %rdi
movq %r14, %rsi
movq %r13, %rdx
movl $0x1, %ecx
callq 0x834d4
movq 0x20(%rsp), %rdi
movq 0x28(%rsp), %r15
leaq 0x30(%rsp), %rax
cmpq %rax, %rdi
je 0x8a9fa
movq 0x30(%rsp), %rsi
incq %rsi
callq 0x1a8e0
movq (%rsp), %rdi
leaq 0x10(%rsp), %rax
cmpq %rax, %rdi
je 0x8aa15
movq 0x10(%rsp), %rsi
incq %rsi
callq 0x1a8e0
testq %r15, %r15
je 0x8aa27
movq %rbx, %rdi
callq 0x8db8e
jmp 0x8a99d
movq %rsp, %rdi
leaq 0x10(%rsp), %rax
movq %rax, (%rdi)
leaq 0x68976(%rip), %rsi # 0xf33af
leaq 0x68970(%rip), %rdx # 0xf33b0
callq 0x214e2
leaq 0x20(%rsp), %rdi
movq %rsp, %rdx
movq %r14, %rsi
movl $0x1, %ecx
callq 0x834d4
movq 0x20(%rsp), %rdi
movq 0x28(%rsp), %rbx
leaq 0x30(%rsp), %rax
cmpq %rax, %rdi
je 0x8aa7b
movq 0x30(%rsp), %rsi
incq %rsi
callq 0x1a8e0
movq (%rsp), %rdi
leaq 0x10(%rsp), %rax
cmpq %rax, %rdi
je 0x8aa96
movq 0x10(%rsp), %rsi
incq %rsi
callq 0x1a8e0
testq %rbx, %rbx
je 0x8ac24
movq (%r14), %r12
movq 0x8(%r14), %r15
testq %r15, %r15
je 0x8ab1d
movq 0xa04d6(%rip), %rax # 0x12af88
cmpb $0x0, (%rax)
je 0x8ab18
incl 0x8(%r15)
jmp 0x8ab1d
lock
incl 0x8(%r15)
movq 0x20(%r14), %rbx
subq 0x10(%r14), %rbx
movl $0x48, %edi
callq 0x1a8c0
leaq 0x9eb2d(%rip), %rdx # 0x129608
addq $0x10, %rdx
movq %rax, %rcx
addq $0x10, %rcx
leaq 0x9e8cb(%rip), %rsi # 0x1293b8
addq $0x10, %rsi
movabsq $0x100000001, %rdi # imm = 0x100000001
movq %rdi, 0x8(%rax)
movq %rdx, (%rax)
movq %rsi, 0x10(%rax)
movq %r12, 0x18(%rax)
movq %r15, 0x20(%rax)
testq %r15, %r15
movq %r13, %r12
jne 0x8ab73
jmp 0x8ab8a
lock
incl 0x8(%r15)
movq 0x20(%r14), %rbx
subq 0x10(%r14), %rbx
movl $0x48, %edi
callq 0x1a8c0
leaq 0x9ead2(%rip), %rdx # 0x129608
addq $0x10, %rdx
movq %rax, %rcx
addq $0x10, %rcx
leaq 0x9e870(%rip), %rsi # 0x1293b8
addq $0x10, %rsi
movabsq $0x100000001, %rdi # imm = 0x100000001
movq %rdi, 0x8(%rax)
movq %rdx, (%rax)
movq %rsi, 0x10(%rax)
movq %r12, 0x18(%rax)
movq %r15, 0x20(%rax)
testq %r15, %r15
movq 0x60(%rsp), %r12
je 0x8ab8a
movq 0xa040e(%rip), %rdx # 0x12af88
cmpb $0x0, (%rdx)
je 0x8ab85
incl 0x8(%r15)
jmp 0x8ab8a
lock
incl 0x8(%r15)
leaq 0x9eac7(%rip), %rdx # 0x129658
addq $0x10, %rdx
movq %rbx, 0x28(%rax)
movq %rdx, 0x10(%rax)
movaps 0x40(%rsp), %xmm0
movups %xmm0, 0x30(%rax)
movq 0x50(%rsp), %rdx
movq %rdx, 0x40(%rax)
xorps %xmm0, %xmm0
movaps %xmm0, 0x40(%rsp)
movq $0x0, 0x50(%rsp)
movq %rcx, (%r12)
movq %rax, 0x8(%r12)
testq %r15, %r15
je 0x8abd6
movq %r15, %rdi
callq 0x6cd76
leaq 0x40(%rsp), %rdi
callq 0x8ddc6
movq %r12, %rax
addq $0x78, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
movl $0x10, %edi
callq 0x1a440
movq %rax, %r14
leaq 0x645f4(%rip), %rsi # 0xef1fa
movq %rax, %rdi
callq 0x1a320
movq 0xa03db(%rip), %rsi # 0x12aff0
movq 0xa0344(%rip), %rdx # 0x12af60
movq %r14, %rdi
callq 0x1af20
movl $0x10, %edi
callq 0x1a440
movq %rax, %r14
leaq 0x64594(%rip), %rsi # 0xef1cc
movq %rax, %rdi
callq 0x1a320
jmp 0x8ac0e
jmp 0x8ac85
jmp 0x8ac4a
jmp 0x8acab
jmp 0x8ac96
movq %rax, %rbx
testq %r15, %r15
je 0x8ac99
movq %r15, %rdi
callq 0x6cd76
jmp 0x8ac99
jmp 0x8acab
jmp 0x8ac96
movq %rax, %rbx
movq (%rsp), %rdi
leaq 0x10(%rsp), %rax
cmpq %rax, %rdi
je 0x8aca3
movq 0x10(%rsp), %rsi
incq %rsi
callq 0x1a8e0
jmp 0x8aca3
movq %rax, %rbx
jmp 0x8aca3
movq %rax, %rbx
movq %r14, %rdi
callq 0x1a690
jmp 0x8ac99
jmp 0x8ac96
jmp 0x8ac96
movq %rax, %rbx
leaq 0x40(%rsp), %rdi
callq 0x8ddc6
movq %rbx, %rdi
callq 0x1afa0
movq %rax, %rbx
movq (%rsp), %rdi
leaq 0x10(%rsp), %rax
cmpq %rax, %rdi
je 0x8ac99
movq 0x10(%rsp), %rsi
incq %rsi
callq 0x1a8e0
jmp 0x8ac99
nop
| _ZN5minja6Parser15parseDictionaryEv:
push rbp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 78h
mov r14, rsi
mov r12, rdi
lea rax, [rsp+0A8h+var_98]
mov [rax-10h], rax
lea rsi, asc_EEBCD; "{"
lea rdx, asc_EEBCD+1; ""
mov rdi, rsp
call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE12_M_constructIPKcEEvT_S8_St20forward_iterator_tag; std::string::_M_construct<char const*>(char const*,char const*,std::forward_iterator_tag)
lea rdi, [rsp+0A8h+var_88]
mov rdx, rsp
mov rsi, r14
mov ecx, 1
call _ZN5minja6Parser12consumeTokenERKNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEENS_13SpaceHandlingE; minja::Parser::consumeToken(std::string const&,minja::SpaceHandling)
lea rax, [rsp+0A8h+var_78]
mov rdi, [rax-10h]; void *
mov rbx, [rax-8]
cmp rdi, rax
jz short loc_8A88F
mov rsi, [rsp+0A8h+var_78]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_8A88F:
mov rdi, [rsp+0A8h+var_A8]; void *
lea rax, [rsp+0A8h+var_98]
cmp rdi, rax
jz short loc_8A8AA
mov rsi, [rsp+0A8h+var_98]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_8A8AA:
xorps xmm0, xmm0
test rbx, rbx
jz loc_8A964
movaps [rsp+0A8h+var_68], xmm0
mov [rsp+0A8h+var_58], 0
mov rdi, rsp
lea rax, [rsp+0A8h+var_98]
mov [rdi], rax
lea rsi, aT020+7; "}"
lea rdx, aT020+8; ""
call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE12_M_constructIPKcEEvT_S8_St20forward_iterator_tag; std::string::_M_construct<char const*>(char const*,char const*,std::forward_iterator_tag)
lea rdi, [rsp+0A8h+var_88]
mov rdx, rsp
mov rsi, r14
mov ecx, 1
call _ZN5minja6Parser12consumeTokenERKNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEENS_13SpaceHandlingE; minja::Parser::consumeToken(std::string const&,minja::SpaceHandling)
mov rdi, [rsp+0A8h+var_88]; void *
mov rbx, [rsp+0A8h+var_80]
lea rax, [rsp+0A8h+var_78]
cmp rdi, rax
jz short loc_8A918
mov rsi, [rsp+0A8h+var_78]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_8A918:
mov rdi, [rsp+0A8h+var_A8]; void *
lea rax, [rsp+0A8h+var_98]
cmp rdi, rax
jz short loc_8A933
mov rsi, [rsp+0A8h+var_98]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_8A933:
test rbx, rbx
jz short loc_8A96E
mov r13, r12
mov r12, [r14]
mov r15, [r14+8]
test r15, r15
jz loc_8AAC2
mov rax, cs:__libc_single_threaded_ptr
cmp byte ptr [rax], 0
jz loc_8AABD
inc dword ptr [r15+8]
jmp loc_8AAC2
loc_8A964:
movups xmmword ptr [r12], xmm0
jmp loc_8ABE0
loc_8A96E:
mov [rsp+0A8h+var_48], r12
lea rdi, [rsp+0A8h+var_40]
mov [rdi], r14
lea rax, [rsp+0A8h+var_68]
mov [rdi+8], rax
call _ZZN5minja6Parser15parseDictionaryEvENKUlvE_clEv; minja::Parser::parseDictionary(void)::{lambda(void)#1}::operator()(void)
lea r12, asc_EF0C6+1; ""
mov r13, rsp
lea rbp, [rsp+0A8h+var_88]
lea rbx, [rsp+0A8h+var_40]
loc_8A99D:
mov rax, [r14+20h]
cmp rax, [r14+18h]
jz loc_8ABF2
lea rax, [rsp+0A8h+var_98]
mov [rsp+0A8h+var_A8], rax
mov rdi, r13
lea rsi, asc_EF0C6; ","
mov rdx, r12
call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE12_M_constructIPKcEEvT_S8_St20forward_iterator_tag; std::string::_M_construct<char const*>(char const*,char const*,std::forward_iterator_tag)
mov rdi, rbp
mov rsi, r14
mov rdx, r13
mov ecx, 1
call _ZN5minja6Parser12consumeTokenERKNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEENS_13SpaceHandlingE; minja::Parser::consumeToken(std::string const&,minja::SpaceHandling)
mov rdi, [rsp+0A8h+var_88]; void *
mov r15, [rsp+0A8h+var_80]
lea rax, [rsp+0A8h+var_78]
cmp rdi, rax
jz short loc_8A9FA
mov rsi, [rsp+0A8h+var_78]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_8A9FA:
mov rdi, [rsp+0A8h+var_A8]; void *
lea rax, [rsp+0A8h+var_98]
cmp rdi, rax
jz short loc_8AA15
mov rsi, [rsp+0A8h+var_98]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_8AA15:
test r15, r15
jz short loc_8AA27
mov rdi, rbx
call _ZZN5minja6Parser15parseDictionaryEvENKUlvE_clEv; minja::Parser::parseDictionary(void)::{lambda(void)#1}::operator()(void)
jmp loc_8A99D
loc_8AA27:
mov rdi, rsp
lea rax, [rsp+0A8h+var_98]
mov [rdi], rax
lea rsi, aT020+7; "}"
lea rdx, aT020+8; ""
call _ZNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE12_M_constructIPKcEEvT_S8_St20forward_iterator_tag; std::string::_M_construct<char const*>(char const*,char const*,std::forward_iterator_tag)
lea rdi, [rsp+0A8h+var_88]
mov rdx, rsp
mov rsi, r14
mov ecx, 1
call _ZN5minja6Parser12consumeTokenERKNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEENS_13SpaceHandlingE; minja::Parser::consumeToken(std::string const&,minja::SpaceHandling)
mov rdi, [rsp+0A8h+var_88]; void *
mov rbx, [rsp+0A8h+var_80]
lea rax, [rsp+0A8h+var_78]
cmp rdi, rax
jz short loc_8AA7B
mov rsi, [rsp+0A8h+var_78]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_8AA7B:
mov rdi, [rsp+0A8h+var_A8]; void *
lea rax, [rsp+0A8h+var_98]
cmp rdi, rax
jz short loc_8AA96
mov rsi, [rsp+0A8h+var_98]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
loc_8AA96:
test rbx, rbx
jz loc_8AC24
mov r12, [r14]
mov r15, [r14+8]
test r15, r15
jz short loc_8AB1D
mov rax, cs:__libc_single_threaded_ptr
cmp byte ptr [rax], 0
jz short loc_8AB18
inc dword ptr [r15+8]
jmp short loc_8AB1D
loc_8AABD:
lock inc dword ptr [r15+8]
loc_8AAC2:
mov rbx, [r14+20h]
sub rbx, [r14+10h]
mov edi, 48h ; 'H'; unsigned __int64
call __Znwm; operator new(ulong)
lea rdx, _ZTVSt23_Sp_counted_ptr_inplaceIN5minja8DictExprESaIS1_ELN9__gnu_cxx12_Lock_policyE2EE; `vtable for'std::_Sp_counted_ptr_inplace<minja::DictExpr,std::allocator<minja::DictExpr>,(__gnu_cxx::_Lock_policy)2>
add rdx, 10h
mov rcx, rax
add rcx, 10h
lea rsi, _ZTVN5minja10ExpressionE; `vtable for'minja::Expression
add rsi, 10h
mov rdi, 100000001h
mov [rax+8], rdi
mov [rax], rdx
mov [rax+10h], rsi
mov [rax+18h], r12
mov [rax+20h], r15
test r15, r15
mov r12, r13
jnz short loc_8AB73
jmp short loc_8AB8A
loc_8AB18:
lock inc dword ptr [r15+8]
loc_8AB1D:
mov rbx, [r14+20h]
sub rbx, [r14+10h]
mov edi, 48h ; 'H'; unsigned __int64
call __Znwm; operator new(ulong)
lea rdx, _ZTVSt23_Sp_counted_ptr_inplaceIN5minja8DictExprESaIS1_ELN9__gnu_cxx12_Lock_policyE2EE; `vtable for'std::_Sp_counted_ptr_inplace<minja::DictExpr,std::allocator<minja::DictExpr>,(__gnu_cxx::_Lock_policy)2>
add rdx, 10h
mov rcx, rax
add rcx, 10h
lea rsi, _ZTVN5minja10ExpressionE; `vtable for'minja::Expression
add rsi, 10h
mov rdi, 100000001h
mov [rax+8], rdi
mov [rax], rdx
mov [rax+10h], rsi
mov [rax+18h], r12
mov [rax+20h], r15
test r15, r15
mov r12, [rsp+0A8h+var_48]
jz short loc_8AB8A
loc_8AB73:
mov rdx, cs:__libc_single_threaded_ptr
cmp byte ptr [rdx], 0
jz short loc_8AB85
inc dword ptr [r15+8]
jmp short loc_8AB8A
loc_8AB85:
lock inc dword ptr [r15+8]
loc_8AB8A:
lea rdx, _ZTVN5minja8DictExprE; `vtable for'minja::DictExpr
add rdx, 10h
mov [rax+28h], rbx
mov [rax+10h], rdx
movaps xmm0, [rsp+0A8h+var_68]
movups xmmword ptr [rax+30h], xmm0
mov rdx, [rsp+0A8h+var_58]
mov [rax+40h], rdx
xorps xmm0, xmm0
movaps [rsp+0A8h+var_68], xmm0
mov [rsp+0A8h+var_58], 0
mov [r12], rcx
mov [r12+8], rax
test r15, r15
jz short loc_8ABD6
mov rdi, r15
call _ZNSt16_Sp_counted_baseILN9__gnu_cxx12_Lock_policyE2EE10_M_releaseEv; std::_Sp_counted_base<(__gnu_cxx::_Lock_policy)2>::_M_release(void)
loc_8ABD6:
lea rdi, [rsp+0A8h+var_68]
call _ZNSt6vectorISt4pairISt10shared_ptrIN5minja10ExpressionEES4_ESaIS5_EED2Ev; std::vector<std::pair<std::shared_ptr<minja::Expression>,std::shared_ptr<minja::Expression>>>::~vector()
loc_8ABE0:
mov rax, r12
add rsp, 78h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
loc_8ABF2:
mov edi, 10h; thrown_size
call ___cxa_allocate_exception
mov r14, rax
lea rsi, aExpectedClosin_5; "Expected closing brace"
mov rdi, rax; this
call __ZNSt13runtime_errorC1EPKc; std::runtime_error::runtime_error(char const*)
loc_8AC0E:
mov rsi, cs:_ZTISt13runtime_error_ptr; lptinfo
mov rdx, cs:_ZTISt19_Sp_make_shared_tag; void (*)(void *)
mov rdi, r14; void *
call ___cxa_throw
loc_8AC24:
mov edi, 10h; thrown_size
call ___cxa_allocate_exception
mov r14, rax
lea rsi, aExpectedCommaO_0; "Expected comma or closing brace in dict"...
mov rdi, rax; this
call __ZNSt13runtime_errorC1EPKc; std::runtime_error::runtime_error(char const*)
jmp short loc_8AC0E
jmp short loc_8AC85
jmp short loc_8AC4A
jmp short loc_8ACAB
jmp short loc_8AC96
loc_8AC4A:
mov rbx, rax
test r15, r15
jz short loc_8AC99
mov rdi, r15
call _ZNSt16_Sp_counted_baseILN9__gnu_cxx12_Lock_policyE2EE10_M_releaseEv; std::_Sp_counted_base<(__gnu_cxx::_Lock_policy)2>::_M_release(void)
jmp short loc_8AC99
jmp short loc_8ACAB
jmp short loc_8AC96
mov rbx, rax
mov rdi, [rsp+0]; void *
lea rax, [rsp+arg_8]
cmp rdi, rax
jz short loc_8ACA3
mov rsi, [rsp+arg_8]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
jmp short loc_8ACA3
mov rbx, rax
jmp short loc_8ACA3
loc_8AC85:
mov rbx, rax
mov rdi, r14; void *
call ___cxa_free_exception
jmp short loc_8AC99
jmp short loc_8AC96
jmp short $+2
loc_8AC96:
mov rbx, rax
loc_8AC99:
lea rdi, [rsp+arg_38]
call _ZNSt6vectorISt4pairISt10shared_ptrIN5minja10ExpressionEES4_ESaIS5_EED2Ev; std::vector<std::pair<std::shared_ptr<minja::Expression>,std::shared_ptr<minja::Expression>>>::~vector()
loc_8ACA3:
mov rdi, rbx
call __Unwind_Resume
loc_8ACAB:
mov rbx, rax
mov rdi, [rsp+0]; void *
lea rax, [rsp+arg_8]
cmp rdi, rax
jz short loc_8AC99
mov rsi, [rsp+arg_8]
inc rsi; unsigned __int64
call __ZdlPvm; operator delete(void *,ulong)
jmp short loc_8AC99
| minja::Parser * minja::Parser::parseDictionary(minja::Parser *this, _QWORD *a2)
{
minja::Parser *v2; // r12
long long v3; // rbx
long long v4; // rbx
long long v5; // r12
volatile signed __int32 *v6; // r15
long long v7; // r15
long long v8; // rbx
long long v9; // r12
long long v10; // rbx
long long v11; // rax
long long v12; // rcx
std::runtime_error *exception; // r14
void *v15[2]; // [rsp+0h] [rbp-A8h] BYREF
_QWORD v16[2]; // [rsp+10h] [rbp-98h] BYREF
void *v17; // [rsp+20h] [rbp-88h] BYREF
long long v18; // [rsp+28h] [rbp-80h]
_QWORD v19[2]; // [rsp+30h] [rbp-78h] BYREF
__int128 v20; // [rsp+40h] [rbp-68h] BYREF
long long v21; // [rsp+50h] [rbp-58h]
minja::Parser *v22; // [rsp+60h] [rbp-48h]
_QWORD *v23; // [rsp+68h] [rbp-40h]
__int128 *v24; // [rsp+70h] [rbp-38h]
v2 = this;
v15[0] = v16;
std::string::_M_construct<char const*>((long long)v15, "{", (long long)"");
minja::Parser::consumeToken(&v17, (long long)a2, (_BYTE **)v15, 1u);
v3 = v18;
if ( v17 != v19 )
operator delete(v17, v19[0] + 1LL);
if ( v15[0] != v16 )
operator delete(v15[0], v16[0] + 1LL);
if ( !v3 )
{
*(_OWORD *)this = 0LL;
return v2;
}
v20 = 0LL;
v21 = 0LL;
v15[0] = v16;
std::string::_M_construct<char const*>((long long)v15, "}", (long long)"");
minja::Parser::consumeToken(&v17, (long long)a2, (_BYTE **)v15, 1u);
v4 = v18;
if ( v17 != v19 )
operator delete(v17, v19[0] + 1LL);
if ( v15[0] != v16 )
operator delete(v15[0], v16[0] + 1LL);
if ( v4 )
{
v5 = *a2;
v6 = (volatile signed __int32 *)a2[1];
if ( v6 )
{
if ( _libc_single_threaded )
++*((_DWORD *)v6 + 2);
else
_InterlockedIncrement(v6 + 2);
}
v10 = a2[4] - a2[2];
v11 = operator new(0x48uLL);
v12 = v11 + 16;
*(_QWORD *)(v11 + 8) = 0x100000001LL;
*(_QWORD *)v11 = &`vtable for'std::_Sp_counted_ptr_inplace<minja::DictExpr,std::allocator<minja::DictExpr>,(__gnu_cxx::_Lock_policy)2>
+ 2;
*(_QWORD *)(v11 + 16) = &`vtable for'minja::Expression + 2;
*(_QWORD *)(v11 + 24) = v5;
*(_QWORD *)(v11 + 32) = v6;
v2 = this;
if ( v6 )
goto LABEL_36;
goto LABEL_39;
}
v22 = this;
v23 = a2;
v24 = &v20;
minja::Parser::parseDictionary(void)::{lambda(void)#1}::operator()(0.0);
while ( 1 )
{
if ( a2[4] == a2[3] )
{
exception = (std::runtime_error *)__cxa_allocate_exception(0x10uLL);
std::runtime_error::runtime_error(exception, "Expected closing brace");
goto LABEL_44;
}
v15[0] = v16;
std::string::_M_construct<char const*>((long long)v15, ",", (long long)"");
minja::Parser::consumeToken(&v17, (long long)a2, (_BYTE **)v15, 1u);
v7 = v18;
if ( v17 != v19 )
operator delete(v17, v19[0] + 1LL);
if ( v15[0] != v16 )
operator delete(v15[0], v16[0] + 1LL);
if ( !v7 )
break;
minja::Parser::parseDictionary(void)::{lambda(void)#1}::operator()(0.0);
}
v15[0] = v16;
std::string::_M_construct<char const*>((long long)v15, "}", (long long)"");
minja::Parser::consumeToken(&v17, (long long)a2, (_BYTE **)v15, 1u);
v8 = v18;
if ( v17 != v19 )
operator delete(v17, v19[0] + 1LL);
if ( v15[0] != v16 )
operator delete(v15[0], v16[0] + 1LL);
if ( !v8 )
{
exception = (std::runtime_error *)__cxa_allocate_exception(0x10uLL);
std::runtime_error::runtime_error(exception, "Expected comma or closing brace in dictionary");
LABEL_44:
__cxa_throw(
exception,
(struct type_info *)&`typeinfo for'std::runtime_error,
(void (*)(void *))&std::runtime_error::~runtime_error);
}
v9 = *a2;
v6 = (volatile signed __int32 *)a2[1];
if ( v6 )
{
if ( _libc_single_threaded )
++*((_DWORD *)v6 + 2);
else
_InterlockedIncrement(v6 + 2);
}
v10 = a2[4] - a2[2];
v11 = operator new(0x48uLL);
v12 = v11 + 16;
*(_QWORD *)(v11 + 8) = 0x100000001LL;
*(_QWORD *)v11 = &`vtable for'std::_Sp_counted_ptr_inplace<minja::DictExpr,std::allocator<minja::DictExpr>,(__gnu_cxx::_Lock_policy)2>
+ 2;
*(_QWORD *)(v11 + 16) = &`vtable for'minja::Expression + 2;
*(_QWORD *)(v11 + 24) = v9;
*(_QWORD *)(v11 + 32) = v6;
v2 = v22;
if ( v6 )
{
LABEL_36:
if ( _libc_single_threaded )
++*((_DWORD *)v6 + 2);
else
_InterlockedIncrement(v6 + 2);
}
LABEL_39:
*(_QWORD *)(v11 + 40) = v10;
*(_QWORD *)(v11 + 16) = &`vtable for'minja::DictExpr + 2;
*(_OWORD *)(v11 + 48) = v20;
*(_QWORD *)(v11 + 64) = v21;
v20 = 0LL;
v21 = 0LL;
*(_QWORD *)v2 = v12;
*((_QWORD *)v2 + 1) = v11;
if ( v6 )
std::_Sp_counted_base<(__gnu_cxx::_Lock_policy)2>::_M_release(v6);
std::vector<std::pair<std::shared_ptr<minja::Expression>,std::shared_ptr<minja::Expression>>>::~vector(&v20);
return v2;
}
| parseDictionary:
PUSH RBP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x78
MOV R14,RSI
MOV R12,RDI
LEA RAX,[RSP + 0x10]
MOV qword ptr [RAX + -0x10],RAX
LAB_0018a845:
LEA RSI,[0x1eebcd]
LEA RDX,[0x1eebce]
MOV RDI,RSP
CALL 0x001214e2
LAB_0018a85b:
LEA RDI,[RSP + 0x20]
MOV RDX,RSP
MOV RSI,R14
MOV ECX,0x1
CALL 0x001834d4
LEA RAX,[RSP + 0x30]
MOV RDI,qword ptr [RAX + -0x10]
MOV RBX,qword ptr [RAX + -0x8]
CMP RDI,RAX
JZ 0x0018a88f
MOV RSI,qword ptr [RSP + 0x30]
INC RSI
CALL 0x0011a8e0
LAB_0018a88f:
MOV RDI,qword ptr [RSP]
LEA RAX,[RSP + 0x10]
CMP RDI,RAX
JZ 0x0018a8aa
MOV RSI,qword ptr [RSP + 0x10]
INC RSI
CALL 0x0011a8e0
LAB_0018a8aa:
XORPS XMM0,XMM0
TEST RBX,RBX
JZ 0x0018a964
MOVAPS xmmword ptr [RSP + 0x40],XMM0
MOV qword ptr [RSP + 0x50],0x0
MOV RDI,RSP
LEA RAX,[RSP + 0x10]
MOV qword ptr [RDI],RAX
LAB_0018a8cf:
LEA RSI,[0x1f33af]
LEA RDX,[0x1f33b0]
CALL 0x001214e2
LAB_0018a8e2:
LEA RDI,[RSP + 0x20]
MOV RDX,RSP
MOV RSI,R14
MOV ECX,0x1
CALL 0x001834d4
MOV RDI,qword ptr [RSP + 0x20]
MOV RBX,qword ptr [RSP + 0x28]
LEA RAX,[RSP + 0x30]
CMP RDI,RAX
JZ 0x0018a918
MOV RSI,qword ptr [RSP + 0x30]
INC RSI
CALL 0x0011a8e0
LAB_0018a918:
MOV RDI,qword ptr [RSP]
LEA RAX,[RSP + 0x10]
CMP RDI,RAX
JZ 0x0018a933
MOV RSI,qword ptr [RSP + 0x10]
INC RSI
CALL 0x0011a8e0
LAB_0018a933:
TEST RBX,RBX
JZ 0x0018a96e
MOV R13,R12
MOV R12,qword ptr [R14]
MOV R15,qword ptr [R14 + 0x8]
TEST R15,R15
JZ 0x0018aac2
MOV RAX,qword ptr [0x0022af88]
CMP byte ptr [RAX],0x0
JZ 0x0018aabd
INC dword ptr [R15 + 0x8]
JMP 0x0018aac2
LAB_0018a964:
MOVUPS xmmword ptr [R12],XMM0
JMP 0x0018abe0
LAB_0018a96e:
MOV qword ptr [RSP + 0x60],R12
LEA RDI,[RSP + 0x68]
MOV qword ptr [RDI],R14
LEA RAX,[RSP + 0x40]
MOV qword ptr [RDI + 0x8],RAX
LAB_0018a984:
CALL 0x0018db8e
LEA R12,[0x1ef0c7]
MOV R13,RSP
LEA RBP,[RSP + 0x20]
LEA RBX,[RSP + 0x68]
LAB_0018a99d:
MOV RAX,qword ptr [R14 + 0x20]
CMP RAX,qword ptr [R14 + 0x18]
JZ 0x0018abf2
LEA RAX,[RSP + 0x10]
MOV qword ptr [RSP],RAX
LAB_0018a9b4:
MOV RDI,R13
LEA RSI,[0x1ef0c6]
MOV RDX,R12
CALL 0x001214e2
LAB_0018a9c6:
MOV RDI,RBP
MOV RSI,R14
MOV RDX,R13
MOV ECX,0x1
CALL 0x001834d4
MOV RDI,qword ptr [RSP + 0x20]
MOV R15,qword ptr [RSP + 0x28]
LEA RAX,[RSP + 0x30]
CMP RDI,RAX
JZ 0x0018a9fa
MOV RSI,qword ptr [RSP + 0x30]
INC RSI
CALL 0x0011a8e0
LAB_0018a9fa:
MOV RDI,qword ptr [RSP]
LEA RAX,[RSP + 0x10]
CMP RDI,RAX
JZ 0x0018aa15
MOV RSI,qword ptr [RSP + 0x10]
INC RSI
CALL 0x0011a8e0
LAB_0018aa15:
TEST R15,R15
JZ 0x0018aa27
LAB_0018aa1a:
MOV RDI,RBX
CALL 0x0018db8e
JMP 0x0018a99d
LAB_0018aa27:
MOV RDI,RSP
LEA RAX,[RSP + 0x10]
MOV qword ptr [RDI],RAX
LAB_0018aa32:
LEA RSI,[0x1f33af]
LEA RDX,[0x1f33b0]
CALL 0x001214e2
LAB_0018aa45:
LEA RDI,[RSP + 0x20]
MOV RDX,RSP
MOV RSI,R14
MOV ECX,0x1
CALL 0x001834d4
MOV RDI,qword ptr [RSP + 0x20]
MOV RBX,qword ptr [RSP + 0x28]
LEA RAX,[RSP + 0x30]
CMP RDI,RAX
JZ 0x0018aa7b
MOV RSI,qword ptr [RSP + 0x30]
INC RSI
CALL 0x0011a8e0
LAB_0018aa7b:
MOV RDI,qword ptr [RSP]
LEA RAX,[RSP + 0x10]
CMP RDI,RAX
JZ 0x0018aa96
MOV RSI,qword ptr [RSP + 0x10]
INC RSI
CALL 0x0011a8e0
LAB_0018aa96:
TEST RBX,RBX
JZ 0x0018ac24
MOV R12,qword ptr [R14]
MOV R15,qword ptr [R14 + 0x8]
TEST R15,R15
JZ 0x0018ab1d
MOV RAX,qword ptr [0x0022af88]
CMP byte ptr [RAX],0x0
JZ 0x0018ab18
INC dword ptr [R15 + 0x8]
JMP 0x0018ab1d
LAB_0018aabd:
INC.LOCK dword ptr [R15 + 0x8]
LAB_0018aac2:
MOV RBX,qword ptr [R14 + 0x20]
SUB RBX,qword ptr [R14 + 0x10]
LAB_0018aaca:
MOV EDI,0x48
CALL 0x0011a8c0
LEA RDX,[0x229608]
ADD RDX,0x10
MOV RCX,RAX
ADD RCX,0x10
LEA RSI,[0x2293b8]
ADD RSI,0x10
MOV RDI,0x100000001
MOV qword ptr [RAX + 0x8],RDI
MOV qword ptr [RAX],RDX
MOV qword ptr [RAX + 0x10],RSI
MOV qword ptr [RAX + 0x18],R12
MOV qword ptr [RAX + 0x20],R15
TEST R15,R15
MOV R12,R13
JNZ 0x0018ab73
JMP 0x0018ab8a
LAB_0018ab18:
INC.LOCK dword ptr [R15 + 0x8]
LAB_0018ab1d:
MOV RBX,qword ptr [R14 + 0x20]
SUB RBX,qword ptr [R14 + 0x10]
LAB_0018ab25:
MOV EDI,0x48
CALL 0x0011a8c0
LAB_0018ab2f:
LEA RDX,[0x229608]
ADD RDX,0x10
MOV RCX,RAX
ADD RCX,0x10
LEA RSI,[0x2293b8]
ADD RSI,0x10
MOV RDI,0x100000001
MOV qword ptr [RAX + 0x8],RDI
MOV qword ptr [RAX],RDX
MOV qword ptr [RAX + 0x10],RSI
MOV qword ptr [RAX + 0x18],R12
MOV qword ptr [RAX + 0x20],R15
TEST R15,R15
MOV R12,qword ptr [RSP + 0x60]
JZ 0x0018ab8a
LAB_0018ab73:
MOV RDX,qword ptr [0x0022af88]
CMP byte ptr [RDX],0x0
JZ 0x0018ab85
INC dword ptr [R15 + 0x8]
JMP 0x0018ab8a
LAB_0018ab85:
INC.LOCK dword ptr [R15 + 0x8]
LAB_0018ab8a:
LEA RDX,[0x229658]
ADD RDX,0x10
MOV qword ptr [RAX + 0x28],RBX
MOV qword ptr [RAX + 0x10],RDX
MOVAPS XMM0,xmmword ptr [RSP + 0x40]
MOVUPS xmmword ptr [RAX + 0x30],XMM0
MOV RDX,qword ptr [RSP + 0x50]
MOV qword ptr [RAX + 0x40],RDX
XORPS XMM0,XMM0
MOVAPS xmmword ptr [RSP + 0x40],XMM0
MOV qword ptr [RSP + 0x50],0x0
MOV qword ptr [R12],RCX
MOV qword ptr [R12 + 0x8],RAX
TEST R15,R15
JZ 0x0018abd6
MOV RDI,R15
CALL 0x0016cd76
LAB_0018abd6:
LEA RDI,[RSP + 0x40]
CALL 0x0018ddc6
LAB_0018abe0:
MOV RAX,R12
ADD RSP,0x78
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
LAB_0018abf2:
MOV EDI,0x10
CALL 0x0011a440
MOV R14,RAX
LAB_0018abff:
LEA RSI,[0x1ef1fa]
MOV RDI,RAX
CALL 0x0011a320
LAB_0018ac0e:
MOV RSI,qword ptr [0x0022aff0]
MOV RDX,qword ptr [0x0022af60]
MOV RDI,R14
CALL 0x0011af20
LAB_0018ac24:
MOV EDI,0x10
CALL 0x0011a440
MOV R14,RAX
LAB_0018ac31:
LEA RSI,[0x1ef1cc]
MOV RDI,RAX
CALL 0x0011a320
LAB_0018ac40:
JMP 0x0018ac0e
|
/* minja::Parser::parseDictionary() */
int8 * minja::Parser::parseDictionary(void)
{
int8 uVar1;
int8 *puVar2;
runtime_error *this;
int8 *puVar3;
long lVar4;
int8 *in_RSI;
int8 *in_RDI;
_Sp_counted_base<(__gnu_cxx::_Lock_policy)2> *this_00;
long *local_a8 [2];
long local_98 [2];
long *local_88;
long local_80;
long local_78 [2];
int8 local_68;
int8 uStack_60;
int8 local_58;
int8 *local_48;
_lambda___1_ local_40 [8];
int8 *local_38;
local_a8[0] = local_98;
/* try { // try from 0018a845 to 0018a85a has its CatchHandler @ 0018ac80 */
std::__cxx11::string::_M_construct<char_const*>(local_a8,&DAT_001eebcd,&DAT_001eebce);
/* try { // try from 0018a85b to 0018a86f has its CatchHandler @ 0018ac60 */
consumeToken(&local_88);
lVar4 = local_80;
if (local_88 != local_78) {
operator_delete(local_88,local_78[0] + 1);
}
if (local_a8[0] != local_98) {
operator_delete(local_a8[0],local_98[0] + 1);
}
if (lVar4 == 0) {
*in_RDI = 0;
in_RDI[1] = 0;
}
else {
local_68 = 0;
uStack_60 = 0;
local_58 = 0;
local_a8[0] = local_98;
/* try { // try from 0018a8cf to 0018a8e1 has its CatchHandler @ 0018ac5e */
std::__cxx11::string::_M_construct<char_const*>(local_a8,&DAT_001f33af,&DAT_001f33b0);
/* try { // try from 0018a8e2 to 0018a8f6 has its CatchHandler @ 0018ac5c */
consumeToken(&local_88);
lVar4 = local_80;
if (local_88 != local_78) {
operator_delete(local_88,local_78[0] + 1);
}
if (local_a8[0] != local_98) {
operator_delete(local_a8[0],local_98[0] + 1);
}
if (lVar4 == 0) {
local_38 = &local_68;
local_48 = in_RDI;
/* try { // try from 0018a984 to 0018a988 has its CatchHandler @ 0018ac92 */
parseDictionary()::{lambda()#1}::operator()(local_40);
do {
if (in_RSI[4] == in_RSI[3]) {
this = (runtime_error *)__cxa_allocate_exception(0x10);
/* try { // try from 0018abff to 0018ac0d has its CatchHandler @ 0018ac85 */
std::runtime_error::runtime_error(this,"Expected closing brace");
LAB_0018ac0e:
/* try { // try from 0018ac0e to 0018ac23 has its CatchHandler @ 0018ac92 */
/* WARNING: Subroutine does not return */
__cxa_throw(this,PTR_typeinfo_0022aff0,PTR__runtime_error_0022af60);
}
local_a8[0] = local_98;
/* try { // try from 0018a9b4 to 0018a9c5 has its CatchHandler @ 0018ac96 */
std::__cxx11::string::_M_construct<char_const*>(local_a8,&DAT_001ef0c6,&DAT_001ef0c7);
/* try { // try from 0018a9c6 to 0018a9d8 has its CatchHandler @ 0018acab */
consumeToken(&local_88);
lVar4 = local_80;
if (local_88 != local_78) {
operator_delete(local_88,local_78[0] + 1);
}
if (local_a8[0] != local_98) {
operator_delete(local_a8[0],local_98[0] + 1);
}
if (lVar4 == 0) {
local_a8[0] = local_98;
/* try { // try from 0018aa32 to 0018aa44 has its CatchHandler @ 0018ac48 */
std::__cxx11::string::_M_construct<char_const*>(local_a8,&DAT_001f33af,&DAT_001f33b0);
/* try { // try from 0018aa45 to 0018aa59 has its CatchHandler @ 0018ac46 */
consumeToken(&local_88);
if (local_88 != local_78) {
operator_delete(local_88,local_78[0] + 1);
}
if (local_a8[0] != local_98) {
operator_delete(local_a8[0],local_98[0] + 1);
}
if (local_80 == 0) {
this = (runtime_error *)__cxa_allocate_exception(0x10);
/* try { // try from 0018ac31 to 0018ac3f has its CatchHandler @ 0018ac42 */
std::runtime_error::runtime_error(this,"Expected comma or closing brace in dictionary");
goto LAB_0018ac0e;
}
uVar1 = *in_RSI;
this_00 = (_Sp_counted_base<(__gnu_cxx::_Lock_policy)2> *)in_RSI[1];
if (this_00 != (_Sp_counted_base<(__gnu_cxx::_Lock_policy)2> *)0x0) {
if (*PTR___libc_single_threaded_0022af88 == '\0') {
LOCK();
*(int *)(this_00 + 8) = *(int *)(this_00 + 8) + 1;
UNLOCK();
}
else {
*(int *)(this_00 + 8) = *(int *)(this_00 + 8) + 1;
}
}
lVar4 = in_RSI[4] - in_RSI[2];
/* try { // try from 0018ab25 to 0018ab2e has its CatchHandler @ 0018ac44 */
puVar2 = (int8 *)operator_new(0x48);
puVar3 = puVar2 + 2;
puVar2[1] = 0x100000001;
*puVar2 = &PTR___Sp_counted_ptr_inplace_00229618;
puVar2[2] = &PTR___cxa_pure_virtual_002293c8;
puVar2[3] = uVar1;
puVar2[4] = this_00;
in_RDI = local_48;
if (this_00 == (_Sp_counted_base<(__gnu_cxx::_Lock_policy)2> *)0x0) goto LAB_0018ab8a;
goto LAB_0018ab73;
}
/* try { // try from 0018aa1a to 0018aa21 has its CatchHandler @ 0018ac94 */
parseDictionary()::{lambda()#1}::operator()(local_40);
} while( true );
}
uVar1 = *in_RSI;
this_00 = (_Sp_counted_base<(__gnu_cxx::_Lock_policy)2> *)in_RSI[1];
if (this_00 != (_Sp_counted_base<(__gnu_cxx::_Lock_policy)2> *)0x0) {
if (*PTR___libc_single_threaded_0022af88 == '\0') {
LOCK();
*(int *)(this_00 + 8) = *(int *)(this_00 + 8) + 1;
UNLOCK();
}
else {
*(int *)(this_00 + 8) = *(int *)(this_00 + 8) + 1;
}
}
lVar4 = in_RSI[4] - in_RSI[2];
/* try { // try from 0018aaca to 0018aad3 has its CatchHandler @ 0018ac4a */
puVar2 = (int8 *)operator_new(0x48);
puVar3 = puVar2 + 2;
puVar2[1] = 0x100000001;
*puVar2 = &PTR___Sp_counted_ptr_inplace_00229618;
puVar2[2] = &PTR___cxa_pure_virtual_002293c8;
puVar2[3] = uVar1;
puVar2[4] = this_00;
if (this_00 != (_Sp_counted_base<(__gnu_cxx::_Lock_policy)2> *)0x0) {
LAB_0018ab73:
if (*PTR___libc_single_threaded_0022af88 == '\0') {
LOCK();
*(int *)(this_00 + 8) = *(int *)(this_00 + 8) + 1;
UNLOCK();
}
else {
*(int *)(this_00 + 8) = *(int *)(this_00 + 8) + 1;
}
}
LAB_0018ab8a:
puVar2[5] = lVar4;
puVar2[2] = &PTR_do_evaluate_00229668;
puVar2[6] = local_68;
puVar2[7] = uStack_60;
puVar2[8] = local_58;
local_68 = 0;
uStack_60 = 0;
local_58 = 0;
*in_RDI = puVar3;
in_RDI[1] = puVar2;
if (this_00 != (_Sp_counted_base<(__gnu_cxx::_Lock_policy)2> *)0x0) {
std::_Sp_counted_base<(__gnu_cxx::_Lock_policy)2>::_M_release(this_00);
}
std::
vector<std::pair<std::shared_ptr<minja::Expression>,std::shared_ptr<minja::Expression>>,std::allocator<std::pair<std::shared_ptr<minja::Expression>,std::shared_ptr<minja::Expression>>>>
::~vector((vector<std::pair<std::shared_ptr<minja::Expression>,std::shared_ptr<minja::Expression>>,std::allocator<std::pair<std::shared_ptr<minja::Expression>,std::shared_ptr<minja::Expression>>>>
*)&local_68);
}
return in_RDI;
}
|
|
4,499 | common_sampler_sample(common_sampler*, llama_context*, int, bool) | monkey531[P]llama/common/sampling.cpp | llama_token common_sampler_sample(struct common_sampler * gsmpl, struct llama_context * ctx, int idx, bool grammar_first) {
gsmpl->set_logits(ctx, idx);
auto & grmr = gsmpl->grmr;
auto & chain = gsmpl->chain;
auto & cur_p = gsmpl->cur_p; // initialized by set_logits
if (grammar_first) {
llama_sampler_apply(grmr, &cur_p);
}
llama_sampler_apply(chain, &cur_p);
GGML_ASSERT(cur_p.selected != -1 && "no selected token during sampling - check your sampling configuration");
const llama_token id = cur_p.data[cur_p.selected].id;
if (grammar_first) {
return id;
}
// check if it the sampled token fits the grammar
{
llama_token_data single_token_data = { id, 1.0f, 0.0f };
llama_token_data_array single_token_data_array = { &single_token_data, 1, -1, false };
llama_sampler_apply(grmr, &single_token_data_array);
const bool is_valid = single_token_data_array.data[0].logit != -INFINITY;
if (is_valid) {
return id;
}
}
// resampling:
// if the token is not valid, sample again, but first apply the grammar sampler and then the sampling chain
gsmpl->set_logits(ctx, idx);
llama_sampler_apply(grmr, &cur_p);
llama_sampler_apply(chain, &cur_p);
GGML_ASSERT(cur_p.selected != -1 && "no selected token during re-sampling - check your sampling configuration");
return cur_p.data[cur_p.selected].id;
} | O3 | cpp | common_sampler_sample(common_sampler*, llama_context*, int, bool):
pushq %rbp
pushq %r15
pushq %r14
pushq %r13
pushq %r12
pushq %rbx
subq $0x38, %rsp
movl %ecx, %r12d
movl %edx, %ebp
movq %rsi, %r15
movq %rdi, %rbx
callq 0xcd9fa
leaq 0x198(%rbx), %r14
testl %r12d, %r12d
je 0xcc911
movq 0x138(%rbx), %rdi
movq %r14, %rsi
callq 0x1ad30
movq 0x140(%rbx), %rdi
movq %r14, %rsi
callq 0x1ad30
movq 0x1a8(%rbx), %rax
cmpq $-0x1, %rax
je 0xcc9f0
movq (%r14), %rcx
leaq (%rax,%rax,2), %rax
movl (%rcx,%rax,4), %r13d
testb %r12b, %r12b
jne 0xcc9de
leaq 0xc(%rsp), %rax
movl %r13d, (%rax)
movss 0x1878b(%rip), %xmm0 # 0xe50e0
movlps %xmm0, 0x4(%rax)
leaq 0x18(%rsp), %r12
movq %rax, (%r12)
movq $0x1, 0x8(%r12)
movq $-0x1, 0x10(%r12)
movb $0x0, 0x18(%r12)
movq 0x138(%rbx), %rdi
movq %r12, %rsi
callq 0x1ad30
movq (%r12), %rax
movss 0x27597(%rip), %xmm0 # 0xf3f2c
ucomiss 0x4(%rax), %xmm0
jb 0xcc9de
movq %rbx, %rdi
movq %r15, %rsi
movl %ebp, %edx
callq 0xcd9fa
movq 0x138(%rbx), %rdi
movq %r14, %rsi
callq 0x1ad30
movq 0x140(%rbx), %rdi
movq %r14, %rsi
callq 0x1ad30
movq 0x1a8(%rbx), %rax
cmpq $-0x1, %rax
je 0xcca0c
movq (%r14), %rcx
leaq (%rax,%rax,2), %rax
movl (%rcx,%rax,4), %r13d
movl %r13d, %eax
addq $0x38, %rsp
popq %rbx
popq %r12
popq %r13
popq %r14
popq %r15
popq %rbp
retq
leaq 0x276aa(%rip), %rdi # 0xf40a1
leaq 0x1e225(%rip), %rdx # 0xeac23
leaq 0x27766(%rip), %rcx # 0xf416b
movl $0x133, %esi # imm = 0x133
jmp 0xcca26
leaq 0x2768e(%rip), %rdi # 0xf40a1
leaq 0x1e209(%rip), %rdx # 0xeac23
leaq 0x277aa(%rip), %rcx # 0xf41cb
movl $0x14f, %esi # imm = 0x14F
xorl %eax, %eax
callq 0x1ae30
| _Z21common_sampler_sampleP14common_samplerP13llama_contextib:
push rbp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 38h
mov r12d, ecx
mov ebp, edx
mov r15, rsi
mov rbx, rdi
call _ZN14common_sampler10set_logitsEP13llama_contexti; common_sampler::set_logits(llama_context *,int)
lea r14, [rbx+198h]
test r12d, r12d
jz short loc_CC911
mov rdi, [rbx+138h]
mov rsi, r14
call _llama_sampler_apply
loc_CC911:
mov rdi, [rbx+140h]
mov rsi, r14
call _llama_sampler_apply
mov rax, [rbx+1A8h]
cmp rax, 0FFFFFFFFFFFFFFFFh
jz loc_CC9F0
mov rcx, [r14]
lea rax, [rax+rax*2]
mov r13d, [rcx+rax*4]
test r12b, r12b
jnz loc_CC9DE
lea rax, [rsp+68h+var_5C]
mov [rax], r13d
movss xmm0, cs:dword_E50E0
movlps qword ptr [rax+4], xmm0
lea r12, [rsp+68h+var_50]
mov [r12], rax
mov qword ptr [r12+8], 1
mov qword ptr [r12+10h], 0FFFFFFFFFFFFFFFFh
mov byte ptr [r12+18h], 0
mov rdi, [rbx+138h]
mov rsi, r12
call _llama_sampler_apply
mov rax, [r12]
movss xmm0, cs:dword_F3F2C
ucomiss xmm0, dword ptr [rax+4]
jb short loc_CC9DE
mov rdi, rbx
mov rsi, r15
mov edx, ebp
call _ZN14common_sampler10set_logitsEP13llama_contexti; common_sampler::set_logits(llama_context *,int)
mov rdi, [rbx+138h]
mov rsi, r14
call _llama_sampler_apply
mov rdi, [rbx+140h]
mov rsi, r14
call _llama_sampler_apply
mov rax, [rbx+1A8h]
cmp rax, 0FFFFFFFFFFFFFFFFh
jz short loc_CCA0C
mov rcx, [r14]
lea rax, [rax+rax*2]
mov r13d, [rcx+rax*4]
loc_CC9DE:
mov eax, r13d
add rsp, 38h
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
retn
loc_CC9F0:
lea rdi, aWorkspaceLlm4b_2; "/workspace/llm4binary/github/2025_star3"...
lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed"
lea rcx, aCurPSelected1N; "cur_p.selected != -1 && \"no selected t"...
mov esi, 133h
jmp short loc_CCA26
loc_CCA0C:
lea rdi, aWorkspaceLlm4b_2; "/workspace/llm4binary/github/2025_star3"...
lea rdx, aGgmlAssertSFai; "GGML_ASSERT(%s) failed"
lea rcx, aCurPSelected1N_0; "cur_p.selected != -1 && \"no selected t"...
mov esi, 14Fh
loc_CCA26:
xor eax, eax
call _ggml_abort
| long long common_sampler_sample(_QWORD *a1, long long a2, unsigned int a3, int a4)
{
_QWORD *v6; // r14
long long v7; // rax
unsigned int v8; // r13d
long long v9; // rax
double v11; // xmm0_8
int v12; // [rsp+Ch] [rbp-5Ch] BYREF
double v13; // [rsp+10h] [rbp-58h] BYREF
_QWORD v14[3]; // [rsp+18h] [rbp-50h] BYREF
char v15; // [rsp+30h] [rbp-38h]
((void (*)(void))common_sampler::set_logits)();
v6 = a1 + 51;
if ( a4 )
llama_sampler_apply(a1[39], a1 + 51);
llama_sampler_apply(a1[40], a1 + 51);
v7 = a1[53];
if ( v7 == -1 )
{
v11 = ggml_abort(
"/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/sampling.cpp",
307LL,
"GGML_ASSERT(%s) failed",
"cur_p.selected != -1 && \"no selected token during sampling - check your sampling configuration\"");
}
else
{
v8 = *(_DWORD *)(*v6 + 12 * v7);
if ( (_BYTE)a4 )
return v8;
v12 = *(_DWORD *)(*v6 + 12 * v7);
_mm_storel_ps(&v13, (__m128)0x3F800000u);
v14[0] = &v12;
v14[1] = 1LL;
v14[2] = -1LL;
v15 = 0;
llama_sampler_apply(a1[39], v14);
if ( *(float *)(v14[0] + 4LL) > -INFINITY )
return v8;
common_sampler::set_logits(a1, a2, a3);
llama_sampler_apply(a1[39], a1 + 51);
llama_sampler_apply(a1[40], a1 + 51);
v9 = a1[53];
if ( v9 != -1 )
return *(unsigned int *)(*v6 + 12 * v9);
v11 = ggml_abort(
"/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/sampling.cpp",
335LL,
"GGML_ASSERT(%s) failed",
"cur_p.selected != -1 && \"no selected token during re-sampling - check your sampling configuration\"");
}
return common_sampler_sample_and_accept_n(v11);
}
| common_sampler_sample:
PUSH RBP
PUSH R15
PUSH R14
PUSH R13
PUSH R12
PUSH RBX
SUB RSP,0x38
MOV R12D,ECX
MOV EBP,EDX
MOV R15,RSI
MOV RBX,RDI
CALL 0x001cd9fa
LEA R14,[RBX + 0x198]
TEST R12D,R12D
JZ 0x001cc911
MOV RDI,qword ptr [RBX + 0x138]
MOV RSI,R14
CALL 0x0011ad30
LAB_001cc911:
MOV RDI,qword ptr [RBX + 0x140]
MOV RSI,R14
CALL 0x0011ad30
MOV RAX,qword ptr [RBX + 0x1a8]
CMP RAX,-0x1
JZ 0x001cc9f0
MOV RCX,qword ptr [R14]
LEA RAX,[RAX + RAX*0x2]
MOV R13D,dword ptr [RCX + RAX*0x4]
TEST R12B,R12B
JNZ 0x001cc9de
LEA RAX,[RSP + 0xc]
MOV dword ptr [RAX],R13D
MOVSS XMM0,dword ptr [0x001e50e0]
MOVLPS qword ptr [RAX + 0x4],XMM0
LEA R12,[RSP + 0x18]
MOV qword ptr [R12],RAX
MOV qword ptr [R12 + 0x8],0x1
MOV qword ptr [R12 + 0x10],-0x1
MOV byte ptr [R12 + 0x18],0x0
MOV RDI,qword ptr [RBX + 0x138]
MOV RSI,R12
CALL 0x0011ad30
MOV RAX,qword ptr [R12]
MOVSS XMM0,dword ptr [0x001f3f2c]
UCOMISS XMM0,dword ptr [RAX + 0x4]
JC 0x001cc9de
MOV RDI,RBX
MOV RSI,R15
MOV EDX,EBP
CALL 0x001cd9fa
MOV RDI,qword ptr [RBX + 0x138]
MOV RSI,R14
CALL 0x0011ad30
MOV RDI,qword ptr [RBX + 0x140]
MOV RSI,R14
CALL 0x0011ad30
MOV RAX,qword ptr [RBX + 0x1a8]
CMP RAX,-0x1
JZ 0x001cca0c
MOV RCX,qword ptr [R14]
LEA RAX,[RAX + RAX*0x2]
MOV R13D,dword ptr [RCX + RAX*0x4]
LAB_001cc9de:
MOV EAX,R13D
ADD RSP,0x38
POP RBX
POP R12
POP R13
POP R14
POP R15
POP RBP
RET
LAB_001cc9f0:
LEA RDI,[0x1f40a1]
LEA RDX,[0x1eac23]
LEA RCX,[0x1f416b]
MOV ESI,0x133
JMP 0x001cca26
LAB_001cca0c:
LEA RDI,[0x1f40a1]
LEA RDX,[0x1eac23]
LEA RCX,[0x1f41cb]
MOV ESI,0x14f
LAB_001cca26:
XOR EAX,EAX
CALL 0x0011ae30
|
/* WARNING: Globals starting with '_' overlap smaller symbols at the same address */
/* common_sampler_sample(common_sampler*, llama_context*, int, bool) */
int4
common_sampler_sample(common_sampler *param_1,llama_context *param_2,int param_3,bool param_4)
{
common_sampler *pcVar1;
int7 in_register_00000009;
char *pcVar2;
int8 uVar3;
int4 uVar4;
int4 local_5c;
ulong local_58;
int4 *local_50;
int8 local_48;
int8 local_40;
int1 local_38;
common_sampler::set_logits(param_1,param_2,param_3);
pcVar1 = param_1 + 0x198;
if ((int)CONCAT71(in_register_00000009,param_4) != 0) {
llama_sampler_apply(*(int8 *)(param_1 + 0x138),pcVar1);
}
llama_sampler_apply(*(int8 *)(param_1 + 0x140),pcVar1);
if (*(long *)(param_1 + 0x1a8) != -1) {
uVar4 = *(int4 *)(*(long *)pcVar1 + *(long *)(param_1 + 0x1a8) * 0xc);
if (!param_4) {
local_50 = &local_5c;
local_58 = (ulong)_DAT_001e50e0;
local_48 = 1;
local_40 = 0xffffffffffffffff;
local_38 = 0;
local_5c = uVar4;
llama_sampler_apply(*(int8 *)(param_1 + 0x138),&local_50);
if ((float)local_50[1] <= DAT_001f3f2c) {
common_sampler::set_logits(param_1,param_2,param_3);
llama_sampler_apply(*(int8 *)(param_1 + 0x138),pcVar1);
llama_sampler_apply(*(int8 *)(param_1 + 0x140),pcVar1);
if (*(long *)(param_1 + 0x1a8) == -1) {
pcVar2 =
"cur_p.selected != -1 && \"no selected token during re-sampling - check your sampling configuration\""
;
uVar3 = 0x14f;
goto LAB_001cca26;
}
uVar4 = *(int4 *)(*(long *)pcVar1 + *(long *)(param_1 + 0x1a8) * 0xc);
}
}
return uVar4;
}
pcVar2 =
"cur_p.selected != -1 && \"no selected token during sampling - check your sampling configuration\""
;
uVar3 = 0x133;
LAB_001cca26:
/* WARNING: Subroutine does not return */
ggml_abort("/workspace/llm4binary/github/2025_star3/monkey531[P]llama/common/sampling.cpp",uVar3,
"GGML_ASSERT(%s) failed",pcVar2);
}
|
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