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bitaudit_verification_dataset / smart_contract_dataset /timestamp dependency /10159.sol
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 pragma solidity ^0.4.21;
interface Token {
function totalSupply() constant external returns (uint256 ts);
function balanceOf(address _owner) constant external returns (uint256 balance);
function transfer(address _to, uint256 _value) external returns (bool success);
function transferFrom(address _from, address _to, uint256 _value) external returns (bool success);
function approve(address _spender, uint256 _value) external returns (bool success);
function allowance(address _owner, address _spender) constant external returns (uint256 remaining);
event Transfer(address indexed _from, address indexed _to, uint256 _value);
event Approval(address indexed _owner, address indexed _spender, uint256 _value);
}
interface XPAAssetToken {
function create(address user_, uint256 amount_) external returns(bool success);
function burn(uint256 amount_) external returns(bool success);
function burnFrom(address user_, uint256 amount_) external returns(bool success);
function getDefaultExchangeRate() external returns(uint256);
function getSymbol() external returns(bytes32);
}
interface Baliv {
function getPrice(address fromToken_, address toToken_) external view returns(uint256);
}
interface FundAccount {
function burn(address Token_, uint256 Amount_) external view returns(bool);
}
interface TokenFactory {
function createToken(string symbol_, string name_, uint256 defaultExchangeRate_) external returns(address);
function getPrice(address token_) external view returns(uint256);
function getAssetLength() external view returns(uint256);
function getAssetToken(uint256 index_) external view returns(address);
}
contract SafeMath {
function safeAdd(uint x, uint y)
internal
pure
returns(uint) {
uint256 z = x + y;
require((z >= x) && (z >= y));
return z;
}
function safeSub(uint x, uint y)
internal
pure
returns(uint) {
require(x >= y);
uint256 z = x - y;
return z;
}
function safeMul(uint x, uint y)
internal
pure
returns(uint) {
uint z = x * y;
require((x == 0) || (z / x == y));
return z;
}
function safeDiv(uint x, uint y)
internal
pure
returns(uint) {
require(y > 0);
return x / y;
}
function random(uint N, uint salt)
internal
view
returns(uint) {
bytes32 hash = keccak256(block.number, msg.sender, salt);
return uint(hash) % N;
}
}
contract Authorization {
mapping(address => address) public agentBooks;
address public owner;
address public operator;
address public bank;
bool public powerStatus = true;
bool public forceOff = false;
function Authorization()
public
{
owner = msg.sender;
operator = msg.sender;
bank = msg.sender;
}
modifier onlyOwner
{
assert(msg.sender == owner);
_;
}
modifier onlyOperator
{
assert(msg.sender == operator || msg.sender == owner);
_;
}
modifier onlyActive
{
assert(powerStatus);
_;
}
function powerSwitch(
bool onOff_
)
public
onlyOperator
{
if(forceOff) {
powerStatus = false;
} else {
powerStatus = onOff_;
}
}
function transferOwnership(address newOwner_)
onlyOwner
public
{
owner = newOwner_;
}
function assignOperator(address user_)
public
onlyOwner
{
operator = user_;
agentBooks[bank] = user_;
}
function assignBank(address bank_)
public
onlyOwner
{
bank = bank_;
}
function assignAgent(
address agent_
)
public
{
agentBooks[msg.sender] = agent_;
}
function isRepresentor(
address representor_
)
public
view
returns(bool) {
return agentBooks[representor_] == msg.sender;
}
function getUser(
address representor_
)
internal
view
returns(address) {
return isRepresentor(representor_) ? representor_ : msg.sender;
}
}
contract XPAAssets is SafeMath, Authorization {
string public version = "0.5.0";
address public XPA = 0x0090528aeb3a2b736b780fd1b6c478bb7e1d643170;
address public oldXPAAssets = 0x00D0F7d665996B745b2399a127D5d84DAcd42D251f;
address public newXPAAssets = address(0);
address public tokenFactory = 0x001393F1fb2E243Ee68Efe172eBb6831772633A926;
uint256 public maxForceOffsetAmount = 1000000 ether;
uint256 public minForceOffsetAmount = 10000 ether;
event eMortgage(address, uint256);
event eWithdraw(address, address, uint256);
event eRepayment(address, address, uint256);
event eOffset(address, address, uint256);
event eExecuteOffset(uint256, address, uint256);
event eMigrate(address);
event eMigrateAmount(address);
mapping(address => uint256) public fromAmountBooks;
mapping(address => mapping(address => uint256)) public toAmountBooks;
mapping(address => uint256) public forceOffsetBooks;
mapping(address => bool) public migrateBooks;
address[] public xpaAsset;
address public fundAccount;
uint256 public profit = 0;
mapping(address => uint256) public unPaidFundAccount;
uint256 public initCanOffsetTime = 0;
uint256 public withdrawFeeRate = 0.02 ether;
uint256 public offsetFeeRate = 0.02 ether;
uint256 public forceOffsetBasicFeeRate = 0.02 ether;
uint256 public forceOffsetExecuteFeeRate = 0.01 ether;
uint256 public forceOffsetExtraFeeRate = 0.05 ether;
uint256 public forceOffsetExecuteMaxFee = 1000 ether;
function XPAAssets(
uint256 initCanOffsetTime_,
address XPAAddr,
address factoryAddr,
address oldXPAAssetsAddr
) public {
initCanOffsetTime = initCanOffsetTime_;
XPA = XPAAddr;
tokenFactory = factoryAddr;
oldXPAAssets = oldXPAAssetsAddr;
}
function setFundAccount(
address fundAccount_
)
public
onlyOperator
{
if(fundAccount_ != address(0)) {
fundAccount = fundAccount_;
}
}
function createToken(
string symbol_,
string name_,
uint256 defaultExchangeRate_
)
public
onlyOperator
{
address newAsset = TokenFactory(tokenFactory).createToken(symbol_, name_, defaultExchangeRate_);
for(uint256 i = 0; i < xpaAsset.length; i++) {
if(xpaAsset[i] == newAsset){
return;
}
}
xpaAsset.push(newAsset);
}
function mortgage(
address representor_
)
onlyActive
public
{
address user = getUser(representor_);
uint256 amount_ = Token(XPA).allowance(msg.sender, this);
if(
amount_ >= 100 ether &&
Token(XPA).transferFrom(msg.sender, this, amount_)
){
fromAmountBooks[user] = safeAdd(fromAmountBooks[user], amount_);
emit eMortgage(user,amount_);
}
}
function withdraw(
address token_,
uint256 amount_,
address representor_
)
onlyActive
public
{
address user = getUser(representor_);
if(
token_ != XPA &&
amount_ > 0 &&
amount_ <= safeDiv(safeMul(safeDiv(safeMul(getUsableXPA(user), getPrice(token_)), 1 ether), getHighestMortgageRate()), 1 ether)
){
toAmountBooks[user][token_] = safeAdd(toAmountBooks[user][token_],amount_);
uint256 withdrawFee = safeDiv(safeMul(amount_,withdrawFeeRate),1 ether);
XPAAssetToken(token_).create(user, safeSub(amount_, withdrawFee));
XPAAssetToken(token_).create(this, withdrawFee);
emit eWithdraw(user, token_, amount_);
}
}
function withdrawXPA(
uint256 amount_,
address representor_
)
onlyActive
public
{
address user = getUser(representor_);
if(
amount_ >= 100 ether &&
amount_ <= getUsableXPA(user)
){
fromAmountBooks[user] = safeSub(fromAmountBooks[user], amount_);
require(Token(XPA).transfer(user, amount_));
emit eWithdraw(user, XPA, amount_);
}
}
function repayment(
address token_,
uint256 amount_,
address representor_
)
onlyActive
public
{
address user = getUser(representor_);
if(
XPAAssetToken(token_).burnFrom(user, amount_)
) {
toAmountBooks[user][token_] = safeSub(toAmountBooks[user][token_],amount_);
emit eRepayment(user, token_, amount_);
}
}
function offset(
address user_,
address token_
)
onlyActive
public
{
uint256 userFromAmount = fromAmountBooks[user_] >= maxForceOffsetAmount ? maxForceOffsetAmount : fromAmountBooks[user_];
require(block.timestamp > initCanOffsetTime);
require(userFromAmount > 0);
address user = getUser(user_);
if(
user_ == user &&
getLoanAmount(user, token_) > 0
){
emit eOffset(user, user_, userFromAmount);
uint256 remainingXPA = executeOffset(user_, userFromAmount, token_, offsetFeeRate);
if(remainingXPA > 0){
require(Token(XPA).transfer(fundAccount, safeDiv(safeMul(safeSub(userFromAmount, remainingXPA), 1 ether), safeAdd(1 ether, offsetFeeRate))));
} else {
require(Token(XPA).transfer(fundAccount, safeDiv(safeMul(safeSub(userFromAmount, remainingXPA), safeSub(1 ether, offsetFeeRate)), 1 ether)));
}
fromAmountBooks[user_] = safeSub(fromAmountBooks[user_], safeSub(userFromAmount, remainingXPA));
}else if(
user_ != user &&
block.timestamp > (forceOffsetBooks[user_] + 28800) &&
getMortgageRate(user_) >= getClosingLine()
){
forceOffsetBooks[user_] = block.timestamp;
uint256 punishXPA = getPunishXPA(user_);
emit eOffset(user, user_, punishXPA);
uint256[3] memory forceOffsetFee;
forceOffsetFee[0] = safeDiv(safeMul(punishXPA, forceOffsetBasicFeeRate), 1 ether);
forceOffsetFee[1] = safeDiv(safeMul(punishXPA, forceOffsetExtraFeeRate), 1 ether);
forceOffsetFee[2] = safeDiv(safeMul(punishXPA, forceOffsetExecuteFeeRate), 1 ether);
forceOffsetFee[2] = forceOffsetFee[2] > forceOffsetExecuteMaxFee ? forceOffsetExecuteMaxFee : forceOffsetFee[2];
profit = safeAdd(profit, forceOffsetFee[0]);
uint256 allFee = safeAdd(forceOffsetFee[2],safeAdd(forceOffsetFee[0], forceOffsetFee[1]));
remainingXPA = safeSub(punishXPA,allFee);
for(uint256 i = 0; i < xpaAsset.length; i++) {
if(getLoanAmount(user_, xpaAsset[i]) > 0){
remainingXPA = executeOffset(user_, remainingXPA, xpaAsset[i],0);
if(remainingXPA == 0){
break;
}
}
}
fromAmountBooks[user_] = safeSub(fromAmountBooks[user_], safeSub(punishXPA, remainingXPA));
require(Token(XPA).transfer(fundAccount, safeAdd(forceOffsetFee[1],safeSub(safeSub(punishXPA, allFee), remainingXPA))));
require(Token(XPA).transfer(msg.sender, forceOffsetFee[2]));
}
}
function executeOffset(
address user_,
uint256 xpaAmount_,
address xpaAssetToken,
uint256 feeRate
)
internal
returns(uint256){
uint256 fromXPAAsset = safeDiv(safeMul(xpaAmount_,getPrice(xpaAssetToken)),1 ether);
uint256 userToAmount = toAmountBooks[user_][xpaAssetToken];
uint256 fee = safeDiv(safeMul(userToAmount, feeRate), 1 ether);
uint256 burnXPA;
uint256 burnXPAAsset;
if(fromXPAAsset >= safeAdd(userToAmount, fee)){
burnXPA = safeDiv(safeMul(safeAdd(userToAmount, fee), 1 ether), getPrice(xpaAssetToken));
emit eExecuteOffset(burnXPA, xpaAssetToken, safeAdd(userToAmount, fee));
xpaAmount_ = safeSub(xpaAmount_, burnXPA);
toAmountBooks[user_][xpaAssetToken] = 0;
profit = safeAdd(profit, safeDiv(safeMul(fee,1 ether), getPrice(xpaAssetToken)));
if(
!FundAccount(fundAccount).burn(xpaAssetToken, userToAmount)
){
unPaidFundAccount[xpaAssetToken] = safeAdd(unPaidFundAccount[xpaAssetToken],userToAmount);
}
}else{
fee = safeDiv(safeMul(xpaAmount_, feeRate), 1 ether);
profit = safeAdd(profit, fee);
burnXPAAsset = safeDiv(safeMul(safeSub(xpaAmount_, fee),getPrice(xpaAssetToken)),1 ether);
toAmountBooks[user_][xpaAssetToken] = safeSub(userToAmount, burnXPAAsset);
emit eExecuteOffset(xpaAmount_, xpaAssetToken, burnXPAAsset);
xpaAmount_ = 0;
if(
!FundAccount(fundAccount).burn(xpaAssetToken, burnXPAAsset)
){
unPaidFundAccount[xpaAssetToken] = safeAdd(unPaidFundAccount[xpaAssetToken], burnXPAAsset);
}
}
return xpaAmount_;
}
function getPunishXPA(
address user_
)
internal
view
returns(uint256){
uint256 userFromAmount = fromAmountBooks[user_];
uint256 punishXPA = safeDiv(safeMul(userFromAmount, 0.1 ether),1 ether);
if(userFromAmount <= safeAdd(minForceOffsetAmount, 100 ether)){
return userFromAmount;
}else if(punishXPA < minForceOffsetAmount){
return minForceOffsetAmount;
}else if(punishXPA > maxForceOffsetAmount){
return maxForceOffsetAmount;
}else{
return punishXPA;
}
}
function getMortgageRate(
address user_
)
public
view
returns(uint256){
if(fromAmountBooks[user_] != 0){
uint256 totalLoanXPA = 0;
for(uint256 i = 0; i < xpaAsset.length; i++) {
totalLoanXPA = safeAdd(totalLoanXPA, safeDiv(safeMul(getLoanAmount(user_,xpaAsset[i]), 1 ether), getPrice(xpaAsset[i])));
}
return safeDiv(safeMul(totalLoanXPA,1 ether),fromAmountBooks[user_]);
}else{
return 0;
}
}
function getHighestMortgageRate()
public
view
returns(uint256){
uint256 totalXPA = Token(XPA).totalSupply();
uint256 issueRate = safeDiv(safeMul(Token(XPA).balanceOf(this), 1 ether), totalXPA);
if(issueRate >= 0.7 ether){
return 0.7 ether;
}else if(issueRate >= 0.6 ether){
return 0.6 ether;
}else if(issueRate >= 0.5 ether){
return 0.5 ether;
}else if(issueRate >= 0.3 ether){
return 0.3 ether;
}else{
return 0.1 ether;
}
}
function getClosingLine()
public
view
returns(uint256){
uint256 highestMortgageRate = getHighestMortgageRate();
if(highestMortgageRate >= 0.6 ether){
return safeAdd(highestMortgageRate, 0.1 ether);
}else{
return 0.6 ether;
}
}
function getPrice(
address token_
)
public
view
returns(uint256){
return TokenFactory(tokenFactory).getPrice(token_);
}
function getUsableXPA(
address user_
)
public
view
returns(uint256) {
uint256 totalLoanXPA = 0;
for(uint256 i = 0; i < xpaAsset.length; i++) {
totalLoanXPA = safeAdd(totalLoanXPA, safeDiv(safeMul(getLoanAmount(user_,xpaAsset[i]), 1 ether), getPrice(xpaAsset[i])));
}
if(fromAmountBooks[user_] > safeDiv(safeMul(totalLoanXPA, 1 ether), getHighestMortgageRate())){
return safeSub(fromAmountBooks[user_], safeDiv(safeMul(totalLoanXPA, 1 ether), getHighestMortgageRate()));
}else{
return 0;
}
}
function getLoanAmount(
address user_,
address token_
)
public
view
returns(uint256) {
return toAmountBooks[user_][token_];
}
function getRemainingAmount(
address user_,
address token_
)
public
view
returns(uint256) {
uint256 amount = safeDiv(safeMul(getUsableXPA(user_), getPrice(token_)), 1 ether);
return safeDiv(safeMul(amount, getHighestMortgageRate()), 1 ether);
}
function burnFundAccount(
address token_,
uint256 amount_
)
onlyOperator
public
{
if(
FundAccount(fundAccount).burn(token_, amount_)
){
unPaidFundAccount[token_] = safeSub(unPaidFundAccount[token_], amount_);
}
}
function transferProfit(
address token_,
uint256 amount_
)
onlyOperator
public
{
require(amount_ > 0);
if(
XPA != token_ &&
Token(token_).balanceOf(this) >= amount_
) {
require(Token(token_).transfer(bank, amount_));
}
if(
XPA == token_ &&
Token(XPA).balanceOf(this) >= amount_
) {
profit = safeSub(profit,amount_);
require(Token(token_).transfer(bank, amount_));
}
}
function setFeeRate(
uint256 withDrawFeerate_,
uint256 offsetFeerate_,
uint256 forceOffsetBasicFeerate_,
uint256 forceOffsetExecuteFeerate_,
uint256 forceOffsetExtraFeerate_,
uint256 forceOffsetExecuteMaxFee_
)
onlyOperator
public
{
require(withDrawFeerate_ < 0.05 ether);
require(offsetFeerate_ < 0.05 ether);
require(forceOffsetBasicFeerate_ < 0.05 ether);
require(forceOffsetExecuteFeerate_ < 0.05 ether);
require(forceOffsetExtraFeerate_ < 0.05 ether);
withdrawFeeRate = withDrawFeerate_;
offsetFeeRate = offsetFeerate_;
forceOffsetBasicFeeRate = forceOffsetBasicFeerate_;
forceOffsetExecuteFeeRate = forceOffsetExecuteFeerate_;
forceOffsetExtraFeeRate = forceOffsetExtraFeerate_;
forceOffsetExecuteMaxFee = forceOffsetExecuteMaxFee_;
}
function setForceOffsetAmount(
uint256 maxForceOffsetAmount_,
uint256 minForceOffsetAmount_
)
onlyOperator
public
{
maxForceOffsetAmount = maxForceOffsetAmount_;
minForceOffsetAmount = minForceOffsetAmount_;
}
function migrate(
address newContract_
)
public
onlyOwner
{
require(newContract_ != address(0));
if(
newXPAAssets == address(0) &&
XPAAssets(newContract_).transferXPAAssetAndProfit(xpaAsset, profit) &&
Token(XPA).transfer(newContract_, Token(XPA).balanceOf(this))
) {
forceOff = true;
powerStatus = false;
newXPAAssets = newContract_;
for(uint256 i = 0; i < xpaAsset.length; i++) {
XPAAssets(newContract_).transferUnPaidFundAccount(xpaAsset[i], unPaidFundAccount[xpaAsset[i]]);
}
emit eMigrate(newContract_);
}
}
function transferXPAAssetAndProfit(
address[] xpaAsset_,
uint256 profit_
)
public
onlyOperator
returns(bool) {
require(msg.sender == oldXPAAssets);
xpaAsset = xpaAsset_;
profit = profit_;
return true;
}
function transferUnPaidFundAccount(
address xpaAsset_,
uint256 unPaidAmount_
)
public
onlyOperator
returns(bool) {
require(msg.sender == oldXPAAssets);
unPaidFundAccount[xpaAsset_] = unPaidAmount_;
return true;
}
function migratingAmountBooks(
address user_,
address newContract_
)
public
onlyOperator
{
XPAAssets(newContract_).migrateAmountBooks(user_);
}
function migrateAmountBooks(
address user_
)
public
onlyOperator
{
require(msg.sender == oldXPAAssets);
require(!migrateBooks[user_]);
migrateBooks[user_] = true;
fromAmountBooks[user_] = safeAdd(fromAmountBooks[user_],XPAAssets(oldXPAAssets).getFromAmountBooks(user_));
forceOffsetBooks[user_] = XPAAssets(oldXPAAssets).getForceOffsetBooks(user_);
for(uint256 i = 0; i < xpaAsset.length; i++) {
toAmountBooks[user_][xpaAsset[i]] = safeAdd(toAmountBooks[user_][xpaAsset[i]], XPAAssets(oldXPAAssets).getLoanAmount(user_,xpaAsset[i]));
}
emit eMigrateAmount(user_);
}
function getFromAmountBooks(
address user_
)
public
view
returns(uint256) {
return fromAmountBooks[user_];
}
function getForceOffsetBooks(
address user_
)
public
view
returns(uint256) {
return forceOffsetBooks[user_];
}
}