pragma solidity ^0.4.24; pragma experimental "v0.5.0"; pragma experimental ABIEncoderV2; library Math { struct Fraction { uint256 numerator; uint256 denominator; } function isPositive(Fraction memory fraction) internal pure returns (bool) { return fraction.numerator > 0 && fraction.denominator > 0; } function mul(uint256 a, uint256 b) internal pure returns (uint256 r) { r = a * b; require((a == 0) || (r / a == b)); } function div(uint256 a, uint256 b) internal pure returns (uint256 r) { r = a / b; } function sub(uint256 a, uint256 b) internal pure returns (uint256 r) { require((r = a - b) <= a); } function add(uint256 a, uint256 b) internal pure returns (uint256 r) { require((r = a + b) >= a); } function min(uint256 x, uint256 y) internal pure returns (uint256 r) { return x <= y ? x : y; } function max(uint256 x, uint256 y) internal pure returns (uint256 r) { return x >= y ? x : y; } function mulDiv(uint256 value, uint256 m, uint256 d) internal pure returns (uint256 r) { r = value * m; if (r / value == m) { r /= d; } else { r = mul(value / d, m); } } function mulDivCeil(uint256 value, uint256 m, uint256 d) internal pure returns (uint256 r) { r = value * m; if (r / value == m) { if (r % d == 0) { r /= d; } else { r = (r / d) + 1; } } else { r = mul(value / d, m); if (value % d != 0) { r += 1; } } } function mul(uint256 x, Fraction memory f) internal pure returns (uint256) { return mulDiv(x, f.numerator, f.denominator); } function mulCeil(uint256 x, Fraction memory f) internal pure returns (uint256) { return mulDivCeil(x, f.numerator, f.denominator); } function div(uint256 x, Fraction memory f) internal pure returns (uint256) { return mulDiv(x, f.denominator, f.numerator); } function divCeil(uint256 x, Fraction memory f) internal pure returns (uint256) { return mulDivCeil(x, f.denominator, f.numerator); } function mul(Fraction memory x, Fraction memory y) internal pure returns (Math.Fraction) { return Math.Fraction({ numerator: mul(x.numerator, y.numerator), denominator: mul(x.denominator, y.denominator) }); } } contract FsTKColdWallet { using Math for uint256; event ConfirmationNeeded(address indexed initiator, bytes32 indexed operation, address indexed to, uint256 value, bytes data); event Confirmation(address indexed authority, bytes32 indexed operation); event Revoke(address indexed authority, bytes32 indexed operation); event AuthorityChanged(address indexed oldAuthority, address indexed newAuthority); event AuthorityAdded(address authority); event AuthorityRemoved(address authority); event RequirementChanged(uint256 required); event DayLimitChanged(uint256 dayLimit); event SpentTodayReset(uint256 spentToday); event Deposit(address indexed from, uint256 value); event SingleTransaction(address indexed authority, address indexed to, uint256 value, bytes data, address created); event MultiTransaction(address indexed authority, bytes32 indexed operation, address indexed to, uint256 value, bytes data, address created); struct TransactionInfo { address to; uint256 value; bytes data; } struct PendingTransactionState { TransactionInfo info; uint256 confirmNeeded; uint256 confirmBitmap; uint256 index; } modifier onlyAuthority { require(isAuthority(msg.sender)); _; } modifier confirmAndRun(bytes32 operation) { if (confirmAndCheck(operation)) { _; } } uint256 constant MAX_AUTHORITIES = 250; uint256 public requiredAuthorities; uint256 public numAuthorities; uint256 public dailyLimit; uint256 public spentToday; uint256 public lastDay; address[256] public authorities; mapping(address => uint256) public authorityIndex; mapping(bytes32 => PendingTransactionState) public pendingTransaction; bytes32[] public pendingOperation; constructor(address[] _authorities, uint256 required, uint256 _daylimit) public { require( required > 0 && authorities.length >= required ); numAuthorities = _authorities.length; for (uint256 i = 0; i < _authorities.length; i += 1) { authorities[1 + i] = _authorities[i]; authorityIndex[_authorities[i]] = 1 + i; } requiredAuthorities = required; dailyLimit = _daylimit; lastDay = today(); } function() external payable { if (msg.value > 0) { emit Deposit(msg.sender, msg.value); } } function getAuthority(uint256 index) public view returns (address) { return authorities[index + 1]; } function getAuthorityIndex(address authority) public view returns (uint256 index) { index = authorityIndex[authority]; require(index > 0); } function isAuthority(address authority) public view returns (bool) { return authorityIndex[authority] > 0; } function hasConfirmed(bytes32 operation, address _address) public view returns (bool) { return (pendingTransaction[operation].confirmBitmap & (1 << getAuthorityIndex(_address))) != 0; } function changeAuthority(address from, address to) public confirmAndRun(keccak256(msg.data)) { require(!isAuthority(to)); uint256 index = getAuthorityIndex(from); authorities[index] = to; authorityIndex[to] = index; delete authorityIndex[from]; clearPending(); emit AuthorityChanged(from, to); } function addAuthority(address authority) public confirmAndRun(keccak256(msg.data)) { require(!isAuthority(authority)); if (numAuthorities >= MAX_AUTHORITIES) { reOrganizeAuthorities(); } require(numAuthorities < MAX_AUTHORITIES); numAuthorities += 1; authorities[numAuthorities] = authority; authorityIndex[authority] = numAuthorities; clearPending(); emit AuthorityAdded(authority); } function removeAuthority(address authority) public confirmAndRun(keccak256(msg.data)) { require(numAuthorities > requiredAuthorities); uint256 index = getAuthorityIndex(authority); delete authorities[index]; delete authorityIndex[authority]; clearPending(); reOrganizeAuthorities(); emit AuthorityRemoved(authority); } function setRequirement(uint256 required) public confirmAndRun(keccak256(msg.data)) { require(numAuthorities >= requiredAuthorities); clearPending(); emit RequirementChanged(requiredAuthorities = required); } function setDailyLimit(uint256 _dailyLimit) public confirmAndRun(keccak256(msg.data)) { clearPending(); emit DayLimitChanged(dailyLimit = _dailyLimit); } function resetSpentToday() public confirmAndRun(keccak256(msg.data)) { clearPending(); emit SpentTodayReset(spentToday); delete spentToday; } function propose( address to, uint256 value, bytes data ) public onlyAuthority returns (bytes32 operation) { if ((data.length == 0 && checkAndUpdateLimit(value)) || requiredAuthorities == 1) { emit SingleTransaction(msg.sender, to, value, data, execute0(to, value, data)); } else { operation = keccak256(abi.encodePacked(msg.data, pendingOperation.length)); PendingTransactionState storage status = pendingTransaction[operation]; if (status.info.to == 0 && status.info.value == 0 && status.info.data.length == 0) { status.info = TransactionInfo({ to: to, value: value, data: data }); } if (!confirm(operation)) { emit ConfirmationNeeded(msg.sender, operation, to, value, data); } } } function revoke(bytes32 operation) public { uint256 confirmFlag = 1 << getAuthorityIndex(msg.sender); PendingTransactionState storage state = pendingTransaction[operation]; if (state.confirmBitmap & confirmFlag > 0) { state.confirmNeeded += 1; state.confirmBitmap &= ~confirmFlag; emit Revoke(msg.sender, operation); } } function confirm(bytes32 operation) public confirmAndRun(operation) returns (bool) { PendingTransactionState storage status = pendingTransaction[operation]; if (status.info.to != 0 || status.info.value != 0 || status.info.data.length != 0) { emit MultiTransaction( msg.sender, operation, status.info.to, status.info.value, status.info.data, execute0(status.info.to, status.info.value, status.info.data) ); delete pendingTransaction[operation].info; return true; } } function execute0( address to, uint256 value, bytes data ) private returns (address created) { if (to == 0) { created = create0(value, data); } else { require(to.call.value(value)(data)); } } function create0(uint256 value, bytes code) internal returns (address _address) { assembly { _address := create(value, add(code, 0x20), mload(code)) if iszero(extcodesize(_address)) { revert(0, 0) } } } function confirmAndCheck(bytes32 operation) private returns (bool) { PendingTransactionState storage pending = pendingTransaction[operation]; if (pending.confirmNeeded == 0) { pending.confirmNeeded = requiredAuthorities; delete pending.confirmBitmap; pending.index = pendingOperation.length; pendingOperation.push(operation); } uint256 confirmFlag = 1 << getAuthorityIndex(msg.sender); if (pending.confirmBitmap & confirmFlag == 0) { emit Confirmation(msg.sender, operation); if (pending.confirmNeeded <= 1) { delete pendingOperation[pending.index]; delete pending.confirmNeeded; delete pending.confirmBitmap; delete pending.index; return true; } else { pending.confirmNeeded -= 1; pending.confirmBitmap |= confirmFlag; } } } function checkAndUpdateLimit(uint256 value) private returns (bool) { if (today() > lastDay) { spentToday = 0; lastDay = today(); } uint256 _spentToday = spentToday.add(value); if (_spentToday <= dailyLimit) { spentToday = _spentToday; return true; } return false; } function today() private view returns (uint256) { return block.timestamp / 1 days; } function reOrganizeAuthorities() private { uint256 free = 1; while (free < numAuthorities) { while (free < numAuthorities && authorities[free] != 0) { free += 1; } while (numAuthorities > 1 && authorities[numAuthorities] == 0) { numAuthorities -= 1; } if (free < numAuthorities && authorities[numAuthorities] != 0 && authorities[free] == 0) { authorities[free] = authorities[numAuthorities]; authorityIndex[authorities[free]] = free; delete authorities[numAuthorities]; } } } function clearPending() private { for (uint256 i = 0; i < pendingOperation.length; i += 1) { delete pendingTransaction[pendingOperation[i]]; } delete pendingOperation; } }