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Latest 25 from a total of 25 transactions
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Update Exchange | 15216554 | 871 days ago | IN | 0 ETH | 0.00037905 | ||||
Deposit ERC20Tok... | 9694832 | 1731 days ago | IN | 0 ETH | 0.00055119 | ||||
Withdraw | 8879612 | 1865 days ago | IN | 0 ETH | 0.00016968 | ||||
Withdraw | 8879602 | 1865 days ago | IN | 0 ETH | 0.00016435 | ||||
Deposit ERC20Tok... | 8784328 | 1880 days ago | IN | 0 ETH | 0.00114562 | ||||
Withdraw | 8766159 | 1883 days ago | IN | 0 ETH | 0.00019702 | ||||
Withdraw | 8766089 | 1883 days ago | IN | 0 ETH | 0.00017976 | ||||
Update Exchange | 8297017 | 1956 days ago | IN | 0 ETH | 0.00028706 | ||||
Deposit Ether | 8154177 | 1978 days ago | IN | 0.55362 ETH | 0.0007148 | ||||
Deposit Ether | 8128885 | 1982 days ago | IN | 0.17 ETH | 0.00025732 | ||||
Deposit Ether | 8010647 | 2001 days ago | IN | 0.23 ETH | 0.00014296 | ||||
Withdraw | 7988700 | 2004 days ago | IN | 0 ETH | 0.00025861 | ||||
Update Logic | 7977854 | 2006 days ago | IN | 0 ETH | 0.00060568 | ||||
Deposit Ether | 7970262 | 2007 days ago | IN | 1.1 ETH | 0.00014234 | ||||
Withdraw | 7895044 | 2019 days ago | IN | 0 ETH | 0.00033302 | ||||
Update Logic | 7868775 | 2023 days ago | IN | 0 ETH | 0.00030284 | ||||
Deposit ERC20Tok... | 7868760 | 2023 days ago | IN | 0 ETH | 0.00121641 | ||||
Deposit Ether | 7840446 | 2027 days ago | IN | 0.51 ETH | 0.00071174 | ||||
Withdraw | 7837407 | 2028 days ago | IN | 0 ETH | 0.00052032 | ||||
Deposit Ether | 7833677 | 2028 days ago | IN | 0.99 ETH | 0.00017793 | ||||
Deposit Ether | 7805959 | 2033 days ago | IN | 0.98975 ETH | 0.00014234 | ||||
Update Logic | 7773366 | 2038 days ago | IN | 0 ETH | 0.00033312 | ||||
Deposit Ether | 7763180 | 2039 days ago | IN | 1.68 ETH | 0.00050884 | ||||
Update Exchange | 7731697 | 2044 days ago | IN | 0 ETH | 0.00017223 | ||||
Update Logic | 7207161 | 2132 days ago | IN | 0 ETH | 0.00024474 |
Latest 21 internal transactions
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8879612 | 1865 days ago | 0.20839629 ETH | ||||
8803836 | 1877 days ago | 0.20750004 ETH | ||||
8799145 | 1878 days ago | 1.14807022 ETH | ||||
8798676 | 1878 days ago | 0.3195 ETH | ||||
8798018 | 1878 days ago | 1.34340703 ETH | ||||
8155017 | 1978 days ago | 0.6 ETH | ||||
8010782 | 2001 days ago | 0.36 ETH | ||||
8000599 | 2002 days ago | 0.975 ETH | ||||
7964271 | 2008 days ago | 0.5918146 ETH | ||||
7964269 | 2008 days ago | 0.25498539 ETH | ||||
7958370 | 2009 days ago | 0.83196794 ETH | ||||
7957783 | 2009 days ago | 0.36 ETH | ||||
7956559 | 2009 days ago | 0.381269 ETH | ||||
7895044 | 2019 days ago | 0.31104 ETH | ||||
7868824 | 2023 days ago | 0.232 ETH | ||||
7833690 | 2028 days ago | 0.9999999 ETH | ||||
7815285 | 2031 days ago | 1.16 ETH | ||||
7776398 | 2037 days ago | 0.29670759 ETH | ||||
7763567 | 2039 days ago | 0.74 ETH | ||||
7763554 | 2039 days ago | 0.42999999 ETH | ||||
5977021 | 2342 days ago | Contract Creation | 0 ETH |
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Similar Match Source Code This contract matches the deployed Bytecode of the Source Code for Contract 0x0409b14c...0cef72662 The constructor portion of the code might be different and could alter the actual behaviour of the contract
Contract Name:
Wallet
Compiler Version
v0.4.24+commit.e67f0147
Optimization Enabled:
Yes with 200 runs
Other Settings:
default evmVersion
Contract Source Code (Solidity)
/** *Submitted for verification at Etherscan.io on 2018-10-01 */ pragma solidity ^0.4.15; /** * @title Log Various Error Types * @author Adam Lemmon <[email protected]> * @dev Inherit this contract and your may now log errors easily * To support various error types, params, etc. */ contract LoggingErrors { /** * Events */ event LogErrorString(string errorString); /** * Error cases */ /** * @dev Default error to simply log the error message and return * @param _errorMessage The error message to log * @return ALWAYS false */ function error(string _errorMessage) internal returns(bool) { LogErrorString(_errorMessage); return false; } } /** * @title Wallet Connector * @dev Connect the wallet contract to the correct Wallet Logic version */ contract WalletConnector is LoggingErrors { /** * Storage */ address public owner_; address public latestLogic_; uint256 public latestVersion_; mapping(uint256 => address) public logicVersions_; uint256 public birthBlock_; /** * Events */ event LogLogicVersionAdded(uint256 version); event LogLogicVersionRemoved(uint256 version); /** * @dev Constructor to set the latest logic address * @param _latestVersion Latest version of the wallet logic * @param _latestLogic Latest address of the wallet logic contract */ function WalletConnector ( uint256 _latestVersion, address _latestLogic ) public { owner_ = msg.sender; latestLogic_ = _latestLogic; latestVersion_ = _latestVersion; logicVersions_[_latestVersion] = _latestLogic; birthBlock_ = block.number; } /** * Add a new version of the logic contract * @param _version The version to be associated with the new contract. * @param _logic New logic contract. * @return Success of the transaction. */ function addLogicVersion ( uint256 _version, address _logic ) external returns(bool) { if (msg.sender != owner_) return error('msg.sender != owner, WalletConnector.addLogicVersion()'); if (logicVersions_[_version] != 0) return error('Version already exists, WalletConnector.addLogicVersion()'); // Update latest if this is the latest version if (_version > latestVersion_) { latestLogic_ = _logic; latestVersion_ = _version; } logicVersions_[_version] = _logic; LogLogicVersionAdded(_version); return true; } /** * @dev Remove a version. Cannot remove the latest version. * @param _version The version to remove. */ function removeLogicVersion(uint256 _version) external { require(msg.sender == owner_); require(_version != latestVersion_); delete logicVersions_[_version]; LogLogicVersionRemoved(_version); } /** * Constants */ /** * Called from user wallets in order to upgrade their logic. * @param _version The version to upgrade to. NOTE pass in 0 to upgrade to latest. * @return The address of the logic contract to upgrade to. */ function getLogic(uint256 _version) external constant returns(address) { if (_version == 0) return latestLogic_; else return logicVersions_[_version]; } } /** * @title Wallet to hold and trade ERC20 tokens and ether * @author Adam Lemmon <[email protected]> * @dev User wallet to interact with the exchange. * all tokens and ether held in this wallet, 1 to 1 mapping to user EOAs. */ contract Wallet is LoggingErrors { /** * Storage */ // Vars included in wallet logic "lib", the order must match between Wallet and Logic address public owner_; address public exchange_; mapping(address => uint256) public tokenBalances_; address public logic_; // storage location 0x3 loaded for delegatecalls so this var must remain at index 3 uint256 public birthBlock_; // Address updated at deploy time WalletConnector private connector_ = WalletConnector(0x03d6e7b2f48120fd57a89ff0bbd56e9ec39af21c); /** * Events */ event LogDeposit(address token, uint256 amount, uint256 balance); event LogWithdrawal(address token, uint256 amount, uint256 balance); /** * @dev Contract consturtor. Set user as owner and connector address. * @param _owner The address of the user's EOA, wallets created from the exchange * so must past in the owner address, msg.sender == exchange. */ function Wallet(address _owner) public { owner_ = _owner; exchange_ = msg.sender; logic_ = connector_.latestLogic_(); birthBlock_ = block.number; } /** * @dev Fallback - Only enable funds to be sent from the exchange. * Ensures balances will be consistent. */ function () external payable { require(msg.sender == exchange_); } /** * External */ /** * @dev Deposit ether into this wallet, default to address 0 for consistent token lookup. */ function depositEther() external payable { require(logic_.delegatecall(bytes4(sha3('deposit(address,uint256)')), 0, msg.value)); } /** * @dev Deposit any ERC20 token into this wallet. * @param _token The address of the existing token contract. * @param _amount The amount of tokens to deposit. * @return Bool if the deposit was successful. */ function depositERC20Token ( address _token, uint256 _amount ) external returns(bool) { // ether if (_token == 0) return error('Cannot deposit ether via depositERC20, Wallet.depositERC20Token()'); require(logic_.delegatecall(bytes4(sha3('deposit(address,uint256)')), _token, _amount)); return true; } /** * @dev The result of an order, update the balance of this wallet. * @param _token The address of the token balance to update. * @param _amount The amount to update the balance by. * @param _subtractionFlag If true then subtract the token amount else add. * @return Bool if the update was successful. */ function updateBalance ( address _token, uint256 _amount, bool _subtractionFlag ) external returns(bool) { assembly { calldatacopy(0x40, 0, calldatasize) delegatecall(gas, sload(0x3), 0x40, calldatasize, 0, 32) return(0, 32) pop } } /** * User may update to the latest version of the exchange contract. * Note that multiple versions are NOT supported at this time and therefore if a * user does not wish to update they will no longer be able to use the exchange. * @param _exchange The new exchange. * @return Success of this transaction. */ function updateExchange(address _exchange) external returns(bool) { if (msg.sender != owner_) return error('msg.sender != owner_, Wallet.updateExchange()'); // If subsequent messages are not sent from this address all orders will fail exchange_ = _exchange; return true; } /** * User may update to a new or older version of the logic contract. * @param _version The versin to update to. * @return Success of this transaction. */ function updateLogic(uint256 _version) external returns(bool) { if (msg.sender != owner_) return error('msg.sender != owner_, Wallet.updateLogic()'); address newVersion = connector_.getLogic(_version); // Invalid version as defined by connector if (newVersion == 0) return error('Invalid version, Wallet.updateLogic()'); logic_ = newVersion; return true; } /** * @dev Verify an order that the Exchange has received involving this wallet. * Internal checks and then authorize the exchange to move the tokens. * If sending ether will transfer to the exchange to broker the trade. * @param _token The address of the token contract being sold. * @param _amount The amount of tokens the order is for. * @param _fee The fee for the current trade. * @param _feeToken The token of which the fee is to be paid in. * @return If the order was verified or not. */ function verifyOrder ( address _token, uint256 _amount, uint256 _fee, address _feeToken ) external returns(bool) { assembly { calldatacopy(0x40, 0, calldatasize) delegatecall(gas, sload(0x3), 0x40, calldatasize, 0, 32) return(0, 32) pop } } /** * @dev Withdraw any token, including ether from this wallet to an EOA. * @param _token The address of the token to withdraw. * @param _amount The amount to withdraw. * @return Success of the withdrawal. */ function withdraw(address _token, uint256 _amount) external returns(bool) { if(msg.sender != owner_) return error('msg.sender != owner, Wallet.withdraw()'); assembly { calldatacopy(0x40, 0, calldatasize) delegatecall(gas, sload(0x3), 0x40, calldatasize, 0, 32) return(0, 32) pop } } /** * Constants */ /** * @dev Get the balance for a specific token. * @param _token The address of the token contract to retrieve the balance of. * @return The current balance within this contract. */ function balanceOf(address _token) public constant returns(uint) { return tokenBalances_[_token]; } } /** * @title SafeMath * @dev Math operations with safety checks that throw on error */ library SafeMath { function mul(uint256 a, uint256 b) internal constant returns (uint256) { uint256 c = a * b; assert(a == 0 || c / a == b); return c; } function div(uint256 a, uint256 b) internal constant returns (uint256) { // assert(b > 0); // Solidity automatically throws when dividing by 0 uint256 c = a / b; // assert(a == b * c + a % b); // There is no case in which this doesn't hold return c; } function sub(uint256 a, uint256 b) internal constant returns (uint256) { assert(b <= a); return a - b; } function add(uint256 a, uint256 b) internal constant returns (uint256) { uint256 c = a + b; assert(c >= a); return c; } } contract Token { /// @return total amount of tokens function totalSupply() constant returns (uint256 supply) {} /// @param _owner The address from which the balance will be retrieved /// @return The balance function balanceOf(address _owner) constant returns (uint256 balance) {} /// @notice send `_value` token to `_to` from `msg.sender` /// @param _to The address of the recipient /// @param _value The amount of token to be transferred /// @return Whether the transfer was successful or not function transfer(address _to, uint256 _value) returns (bool success) {} /// @notice send `_value` token to `_to` from `_from` on the condition it is approved by `_from` /// @param _from The address of the sender /// @param _to The address of the recipient /// @param _value The amount of token to be transferred /// @return Whether the transfer was successful or not function transferFrom(address _from, address _to, uint256 _value) returns (bool success) {} /// @notice `msg.sender` approves `_addr` to spend `_value` tokens /// @param _spender The address of the account able to transfer the tokens /// @param _value The amount of wei to be approved for transfer /// @return Whether the approval was successful or not function approve(address _spender, uint256 _value) returns (bool success) {} /// @param _owner The address of the account owning tokens /// @param _spender The address of the account able to transfer the tokens /// @return Amount of remaining tokens allowed to spent function allowance(address _owner, address _spender) constant returns (uint256 remaining) {} event Transfer(address indexed _from, address indexed _to, uint256 _value); event Approval(address indexed _owner, address indexed _spender, uint256 _value); uint public decimals; string public name; } /** * @title Decentralized exchange for ether and ERC20 tokens. * @author Adam Lemmon <[email protected]> * @dev All trades brokered by this contract. * Orders submitted by off chain order book and this contract handles * verification and execution of orders. * All value between parties is transferred via this exchange. * Methods arranged by visibility; external, public, internal, private and alphabatized within. */ contract Exchange is LoggingErrors { using SafeMath for uint256; /** * Data Structures */ struct Order { bool active_; // True: active, False: filled or cancelled address offerToken_; uint256 offerTokenTotal_; uint256 offerTokenRemaining_; // Amount left to give address wantToken_; uint256 wantTokenTotal_; uint256 wantTokenReceived_; // Amount received, note this may exceed want total } /** * Storage */ address private orderBookAccount_; address private owner_; uint256 public minOrderEthAmount_; uint256 public birthBlock_; address public edoToken_; uint256 public edoPerWei_; uint256 public edoPerWeiDecimals_; address public eidooWallet_; mapping(bytes32 => Order) public orders_; // Map order hashes to order data struct mapping(address => address) public userAccountToWallet_; // User EOA to wallet addresses /** * Events */ event LogEdoRateSet(uint256 rate); event LogOrderExecutionSuccess(); event LogOrderFilled(bytes32 indexed orderId, uint256 fillAmount, uint256 fillRemaining); event LogUserAdded(address indexed user, address walletAddress); event LogWalletDeposit(address indexed walletAddress, address token, uint256 amount, uint256 balance); event LogWalletWithdrawal(address indexed walletAddress, address token, uint256 amount, uint256 balance); /** * @dev Contract constructor - CONFIRM matches contract name. Set owner and addr of order book. * @param _bookAccount The EOA address for the order book, will submit ALL orders. * @param _minOrderEthAmount Minimum amount of ether that each order must contain. * @param _edoToken Deployed edo token. * @param _edoPerWei Rate of edo tokens per wei. * @param _edoPerWeiDecimals Decimlas carried in edo rate. * @param _eidooWallet Wallet to pay fees to. */ function Exchange( address _bookAccount, uint256 _minOrderEthAmount, address _edoToken, uint256 _edoPerWei, uint256 _edoPerWeiDecimals, address _eidooWallet ) public { orderBookAccount_ = _bookAccount; minOrderEthAmount_ = _minOrderEthAmount; owner_ = msg.sender; birthBlock_ = block.number; edoToken_ = _edoToken; edoPerWei_ = _edoPerWei; edoPerWeiDecimals_ = _edoPerWeiDecimals; eidooWallet_ = _eidooWallet; } /** * @dev Fallback. wallets utilize to send ether in order to broker trade. */ function () external payable { } /** * External */ /** * @dev Add a new user to the exchange, create a wallet for them. * Map their account address to the wallet contract for lookup. * @param _userAccount The address of the user's EOA. * @return Success of the transaction, false if error condition met. */ function addNewUser(address _userAccount) external returns (bool) { if (userAccountToWallet_[_userAccount] != address(0)) return error('User already exists, Exchange.addNewUser()'); // Pass the userAccount address to wallet constructor so owner is not the exchange contract address userWallet = new Wallet(_userAccount); userAccountToWallet_[_userAccount] = userWallet; LogUserAdded(_userAccount, userWallet); return true; } /** * Execute orders in batches. * @param _token_and_EOA_Addresses Tokan and user addresses. * @param _amountsExpirationAndSalt Offer and want token amount and expiration and salt values. * @param _sig_v All order signature v values. * @param _sig_r_and_s All order signature r and r values. * @return The success of this transaction. */ function batchExecuteOrder( address[4][] _token_and_EOA_Addresses, uint256[8][] _amountsExpirationAndSalt, // Packing to save stack size uint8[2][] _sig_v, bytes32[4][] _sig_r_and_s ) external returns(bool) { for (uint256 i = 0; i < _amountsExpirationAndSalt.length; i++) { require(executeOrder( _token_and_EOA_Addresses[i], _amountsExpirationAndSalt[i], _sig_v[i], _sig_r_and_s[i] )); } return true; } /** * @dev Execute an order that was submitted by the external order book server. * The order book server believes it to be a match. * There are components for both orders, maker and taker, 2 signatures as well. * @param _token_and_EOA_Addresses The addresses of the maker and taker EOAs and offered token contracts. * [makerEOA, makerOfferToken, takerEOA, takerOfferToken] * @param _amountsExpirationAndSalt The amount of tokens, [makerOffer, makerWant, takerOffer, takerWant]. * and the block number at which this order expires * and a random number to mitigate replay. [makerExpiry, makerSalt, takerExpiry, takerSalt] * @param _sig_v ECDSA signature parameter v, maker 0 and taker 1. * @param _sig_r_and_s ECDSA signature parameters r ans s, maker 0, 1 and taker 2, 3. * @return Success of the transaction, false if error condition met. * Like types grouped to eliminate stack depth error */ function executeOrder ( address[4] _token_and_EOA_Addresses, uint256[8] _amountsExpirationAndSalt, // Packing to save stack size uint8[2] _sig_v, bytes32[4] _sig_r_and_s ) public returns(bool) { // Only read wallet addresses from storage once // Need one more stack slot so squashing into array Wallet[2] memory wallets = [ Wallet(userAccountToWallet_[_token_and_EOA_Addresses[0]]), // maker Wallet(userAccountToWallet_[_token_and_EOA_Addresses[2]]) // taker ]; // Basic pre-conditions, return if any input data is invalid if(!__executeOrderInputIsValid__( _token_and_EOA_Addresses, _amountsExpirationAndSalt, wallets[0], wallets[1] )) return error('Input is invalid, Exchange.executeOrder()'); // Verify Maker and Taker signatures bytes32 makerOrderHash; bytes32 takerOrderHash; (makerOrderHash, takerOrderHash) = __generateOrderHashes__(_token_and_EOA_Addresses, _amountsExpirationAndSalt); if (!__signatureIsValid__( _token_and_EOA_Addresses[0], makerOrderHash, _sig_v[0], _sig_r_and_s[0], _sig_r_and_s[1] )) return error('Maker signature is invalid, Exchange.executeOrder()'); if (!__signatureIsValid__( _token_and_EOA_Addresses[2], takerOrderHash, _sig_v[1], _sig_r_and_s[2], _sig_r_and_s[3] )) return error('Taker signature is invalid, Exchange.executeOrder()'); // Exchange Order Verification and matching. Order memory makerOrder = orders_[makerOrderHash]; Order memory takerOrder = orders_[takerOrderHash]; if (makerOrder.wantTokenTotal_ == 0) { // Check for existence makerOrder.active_ = true; makerOrder.offerToken_ = _token_and_EOA_Addresses[1]; makerOrder.offerTokenTotal_ = _amountsExpirationAndSalt[0]; makerOrder.offerTokenRemaining_ = _amountsExpirationAndSalt[0]; // Amount to give makerOrder.wantToken_ = _token_and_EOA_Addresses[3]; makerOrder.wantTokenTotal_ = _amountsExpirationAndSalt[1]; makerOrder.wantTokenReceived_ = 0; // Amount received } if (takerOrder.wantTokenTotal_ == 0) { // Check for existence takerOrder.active_ = true; takerOrder.offerToken_ = _token_and_EOA_Addresses[3]; takerOrder.offerTokenTotal_ = _amountsExpirationAndSalt[2]; takerOrder.offerTokenRemaining_ = _amountsExpirationAndSalt[2]; // Amount to give takerOrder.wantToken_ = _token_and_EOA_Addresses[1]; takerOrder.wantTokenTotal_ = _amountsExpirationAndSalt[3]; takerOrder.wantTokenReceived_ = 0; // Amount received } if (!__ordersMatch_and_AreVaild__(makerOrder, takerOrder)) return error('Orders do not match, Exchange.executeOrder()'); // Trade amounts uint256 toTakerAmount; uint256 toMakerAmount; (toTakerAmount, toMakerAmount) = __getTradeAmounts__(makerOrder, takerOrder); // TODO consider removing. Can this condition be met? if (toTakerAmount < 1 || toMakerAmount < 1) return error('Token amount < 1, price ratio is invalid! Token value < 1, Exchange.executeOrder()'); // Taker is offering edo tokens so ensure sufficient balance in order to offer edo and pay fee in edo if ( takerOrder.offerToken_ == edoToken_ && Token(edoToken_).balanceOf(wallets[1]) < __calculateFee__(makerOrder, toTakerAmount, toMakerAmount).add(toMakerAmount) ) { return error('Taker has an insufficient EDO token balance to cover the fee AND the offer, Exchange.executeOrder()'); // Taker has sufficent EDO token balance to pay the fee } else if (Token(edoToken_).balanceOf(wallets[1]) < __calculateFee__(makerOrder, toTakerAmount, toMakerAmount)) return error('Taker has an insufficient EDO token balance to cover the fee, Exchange.executeOrder()'); // Wallet Order Verification, reach out to the maker and taker wallets. if (!__ordersVerifiedByWallets__( _token_and_EOA_Addresses, toMakerAmount, toTakerAmount, wallets[0], wallets[1], __calculateFee__(makerOrder, toTakerAmount, toMakerAmount) )) return error('Order could not be verified by wallets, Exchange.executeOrder()'); // Order Execution, Order Fully Verified by this point, time to execute! // Local order structs __updateOrders__(makerOrder, takerOrder, toTakerAmount, toMakerAmount); // Write to storage then external calls // Update orders active flag if filled if (makerOrder.offerTokenRemaining_ == 0) makerOrder.active_ = false; if (takerOrder.offerTokenRemaining_ == 0) takerOrder.active_ = false; // Finally write orders to storage orders_[makerOrderHash] = makerOrder; orders_[takerOrderHash] = takerOrder; // Transfer the external value, ether <> tokens require( __executeTokenTransfer__( _token_and_EOA_Addresses, toTakerAmount, toMakerAmount, __calculateFee__(makerOrder, toTakerAmount, toMakerAmount), wallets[0], wallets[1] ) ); // Log the order id(hash), amount of offer given, amount of offer remaining LogOrderFilled(makerOrderHash, toTakerAmount, makerOrder.offerTokenRemaining_); LogOrderFilled(takerOrderHash, toMakerAmount, takerOrder.offerTokenRemaining_); LogOrderExecutionSuccess(); return true; } /** * @dev Set the rate of wei per edo token in or to calculate edo fee * @param _edoPerWei Rate of edo tokens per wei. * @return Success of the transaction. */ function setEdoRate( uint256 _edoPerWei ) external returns(bool) { if (msg.sender != owner_) return error('msg.sender != owner, Exchange.setEdoRate()'); edoPerWei_ = _edoPerWei; LogEdoRateSet(edoPerWei_); return true; } /** * @dev Set the wallet for fees to be paid to. * @param _eidooWallet Wallet to pay fees to. * @return Success of the transaction. */ function setEidooWallet( address _eidooWallet ) external returns(bool) { if (msg.sender != owner_) return error('msg.sender != owner, Exchange.setEidooWallet()'); eidooWallet_ = _eidooWallet; return true; } /** * @dev Set the minimum amount of ether required per order. * @param _minOrderEthAmount Min amount of ether required per order. * @return Success of the transaction. */ function setMinOrderEthAmount ( uint256 _minOrderEthAmount ) external returns(bool) { if (msg.sender != owner_) return error('msg.sender != owner, Exchange.setMinOrderEtherAmount()'); minOrderEthAmount_ = _minOrderEthAmount; return true; } /** * @dev Set a new order book account. * @param _account The new order book account. */ function setOrderBookAcount ( address _account ) external returns(bool) { if (msg.sender != owner_) return error('msg.sender != owner, Exchange.setOrderBookAcount()'); orderBookAccount_ = _account; return true; } /* Methods to catch events from external contracts, user wallets primarily */ /** * @dev Simply log the event to track wallet interaction off-chain * @param _token The address of the token that was deposited. * @param _amount The amount of the token that was deposited. * @param _walletBalance The updated balance of the wallet after deposit. */ function walletDeposit( address _token, uint256 _amount, uint256 _walletBalance ) external { LogWalletDeposit(msg.sender, _token, _amount, _walletBalance); } /** * @dev Simply log the event to track wallet interaction off-chain * @param _token The address of the token that was deposited. * @param _amount The amount of the token that was deposited. * @param _walletBalance The updated balance of the wallet after deposit. */ function walletWithdrawal( address _token, uint256 _amount, uint256 _walletBalance ) external { LogWalletWithdrawal(msg.sender, _token, _amount, _walletBalance); } /** * Private */ /** * Calculate the fee for the given trade. Calculated as the set % of the wei amount * converted into EDO tokens using the manually set conversion ratio. * @param _makerOrder The maker order object. * @param _toTaker The amount of tokens going to the taker. * @param _toMaker The amount of tokens going to the maker. * @return The total fee to be paid in EDO tokens. */ function __calculateFee__( Order _makerOrder, uint256 _toTaker, uint256 _toMaker ) private constant returns(uint256) { // weiAmount * (fee %) * (EDO/Wei) / (decimals in edo/wei) / (decimals in percentage) if (_makerOrder.offerToken_ == address(0)) { return _toTaker.mul(edoPerWei_).div(10**edoPerWeiDecimals_); } else { return _toMaker.mul(edoPerWei_).div(10**edoPerWeiDecimals_); } } /** * @dev Verify the input to order execution is valid. * @param _token_and_EOA_Addresses The addresses of the maker and taker EOAs and offered token contracts. * [makerEOA, makerOfferToken, takerEOA, takerOfferToken] * @param _amountsExpirationAndSalt The amount of tokens, [makerOffer, makerWant, takerOffer, takerWant]. * as well as The block number at which this order expires, maker[4] and taker[6]. * @return Success if all checks pass. */ function __executeOrderInputIsValid__( address[4] _token_and_EOA_Addresses, uint256[8] _amountsExpirationAndSalt, address _makerWallet, address _takerWallet ) private constant returns(bool) { if (msg.sender != orderBookAccount_) return error('msg.sender != orderBookAccount, Exchange.__executeOrderInputIsValid__()'); if (block.number > _amountsExpirationAndSalt[4]) return error('Maker order has expired, Exchange.__executeOrderInputIsValid__()'); if (block.number > _amountsExpirationAndSalt[6]) return error('Taker order has expired, Exchange.__executeOrderInputIsValid__()'); // Wallets if (_makerWallet == address(0)) return error('Maker wallet does not exist, Exchange.__executeOrderInputIsValid__()'); if (_takerWallet == address(0)) return error('Taker wallet does not exist, Exchange.__executeOrderInputIsValid__()'); // Tokens, addresses and amounts, ether exists if (_token_and_EOA_Addresses[1] != address(0) && _token_and_EOA_Addresses[3] != address(0)) return error('Ether omitted! Is not offered by either the Taker or Maker, Exchange.__executeOrderInputIsValid__()'); if (_token_and_EOA_Addresses[1] == address(0) && _token_and_EOA_Addresses[3] == address(0)) return error('Taker and Maker offer token are both ether, Exchange.__executeOrderInputIsValid__()'); if ( _amountsExpirationAndSalt[0] == 0 || _amountsExpirationAndSalt[1] == 0 || _amountsExpirationAndSalt[2] == 0 || _amountsExpirationAndSalt[3] == 0 ) return error('May not execute an order where token amount == 0, Exchange.__executeOrderInputIsValid__()'); // Confirm order ether amount >= min amount // Maker uint256 minOrderEthAmount = minOrderEthAmount_; // Single storage read if (_token_and_EOA_Addresses[1] == 0 && _amountsExpirationAndSalt[0] < minOrderEthAmount) return error('Maker order does not meet the minOrderEthAmount_ of ether, Exchange.__executeOrderInputIsValid__()'); // Taker if (_token_and_EOA_Addresses[3] == 0 && _amountsExpirationAndSalt[2] < minOrderEthAmount) return error('Taker order does not meet the minOrderEthAmount_ of ether, Exchange.__executeOrderInputIsValid__()'); return true; } /** * @dev Execute the external transfer of tokens. * @param _token_and_EOA_Addresses The addresses of the maker and taker EOAs and offered token contracts. * [makerEOA, makerOfferToken, takerEOA, takerOfferToken] * @param _toTakerAmount The amount of tokens to transfer to the taker. * @param _toMakerAmount The amount of tokens to transfer to the maker. * @return Success if both wallets verify the order. */ function __executeTokenTransfer__( address[4] _token_and_EOA_Addresses, uint256 _toTakerAmount, uint256 _toMakerAmount, uint256 _fee, Wallet _makerWallet, Wallet _takerWallet ) private returns (bool) { // Wallet mapping balances address makerOfferToken = _token_and_EOA_Addresses[1]; address takerOfferToken = _token_and_EOA_Addresses[3]; // Taker to pay fee before trading require(_takerWallet.updateBalance(edoToken_, _fee, true)); // Subtraction flag require(Token(edoToken_).transferFrom(_takerWallet, eidooWallet_, _fee)); // Move the toTakerAmount from the maker to the taker require(_makerWallet.updateBalance(makerOfferToken, _toTakerAmount, true)); // Subtraction flag /*return error('Unable to subtract maker token from maker wallet, Exchange.__executeTokenTransfer__()');*/ require(_takerWallet.updateBalance(makerOfferToken, _toTakerAmount, false)); /*return error('Unable to add maker token to taker wallet, Exchange.__executeTokenTransfer__()');*/ // Move the toMakerAmount from the taker to the maker require(_takerWallet.updateBalance(takerOfferToken, _toMakerAmount, true)); // Subtraction flag /*return error('Unable to subtract taker token from taker wallet, Exchange.__executeTokenTransfer__()');*/ require(_makerWallet.updateBalance(takerOfferToken, _toMakerAmount, false)); /*return error('Unable to add taker token to maker wallet, Exchange.__executeTokenTransfer__()');*/ // Contract ether balances and token contract balances // Ether to the taker and tokens to the maker if (makerOfferToken == address(0)) { _takerWallet.transfer(_toTakerAmount); require( Token(takerOfferToken).transferFrom(_takerWallet, _makerWallet, _toMakerAmount) ); assert( __tokenAndWalletBalancesMatch__(_makerWallet, _takerWallet, takerOfferToken) ); // Ether to the maker and tokens to the taker } else if (takerOfferToken == address(0)) { _makerWallet.transfer(_toMakerAmount); require( Token(makerOfferToken).transferFrom(_makerWallet, _takerWallet, _toTakerAmount) ); assert( __tokenAndWalletBalancesMatch__(_makerWallet, _takerWallet, makerOfferToken) ); // Something went wrong one had to have been ether } else revert(); return true; } /** * @dev compute the log10 of a given number, takes the floor, ie. 2.5 = 2 * @param _number The number to compute the log 10 of. * @return The floored log 10. */ function __flooredLog10__(uint _number) public constant returns (uint256) { uint unit = 0; while (_number / (10**unit) >= 10) unit++; return unit; } /** * @dev Calculates Keccak-256 hash of order with specified parameters. * @param _token_and_EOA_Addresses The addresses of the order, [makerEOA, makerOfferToken, makerWantToken]. * @param _amountsExpirationAndSalt The amount of tokens as well as * the block number at which this order expires and random salt number. * @return Keccak-256 hash of each order. */ function __generateOrderHashes__( address[4] _token_and_EOA_Addresses, uint256[8] _amountsExpirationAndSalt ) private constant returns (bytes32, bytes32) { bytes32 makerOrderHash = keccak256( address(this), _token_and_EOA_Addresses[0], // _makerEOA _token_and_EOA_Addresses[1], // offerToken _amountsExpirationAndSalt[0], // offerTokenAmount _token_and_EOA_Addresses[3], // wantToken _amountsExpirationAndSalt[1], // wantTokenAmount _amountsExpirationAndSalt[4], // expiry _amountsExpirationAndSalt[5] // salt ); bytes32 takerOrderHash = keccak256( address(this), _token_and_EOA_Addresses[2], // _makerEOA _token_and_EOA_Addresses[3], // offerToken _amountsExpirationAndSalt[2], // offerTokenAmount _token_and_EOA_Addresses[1], // wantToken _amountsExpirationAndSalt[3], // wantTokenAmount _amountsExpirationAndSalt[6], // expiry _amountsExpirationAndSalt[7] // salt ); return (makerOrderHash, takerOrderHash); } /** * @dev Returns the price ratio for this order. * The ratio is calculated with the largest value as the numerator, this aids * to significantly reduce rounding errors. * @param _makerOrder The maker order data structure. * @return The ratio to `_decimals` decimal places. */ function __getOrderPriceRatio__(Order _makerOrder, uint256 _decimals) private constant returns (uint256 orderPriceRatio) { if (_makerOrder.offerTokenTotal_ >= _makerOrder.wantTokenTotal_) { orderPriceRatio = _makerOrder.offerTokenTotal_.mul(10**_decimals).div(_makerOrder.wantTokenTotal_); } else { orderPriceRatio = _makerOrder.wantTokenTotal_.mul(10**_decimals).div(_makerOrder.offerTokenTotal_); } } /** * @dev Compute the tradeable amounts of the two verified orders. * Token amount is the min remaining between want and offer of the two orders that isn't ether. * Ether amount is then: etherAmount = tokenAmount * priceRatio, as ratio = eth / token. * @param _makerOrder The maker order data structure. * @param _takerOrder The taker order data structure. * @return The amount moving from makerOfferRemaining to takerWantRemaining and vice versa. * TODO: consider rounding errors, etc */ function __getTradeAmounts__( Order _makerOrder, Order _takerOrder ) private constant returns (uint256 toTakerAmount, uint256 toMakerAmount) { bool ratioIsWeiPerTok = __ratioIsWeiPerTok__(_makerOrder); uint256 decimals = __flooredLog10__(__max__(_makerOrder.offerTokenTotal_, _makerOrder.wantTokenTotal_)) + 1; uint256 priceRatio = __getOrderPriceRatio__(_makerOrder, decimals); // Amount left for order to receive uint256 makerAmountLeftToReceive = _makerOrder.wantTokenTotal_.sub(_makerOrder.wantTokenReceived_); uint256 takerAmountLeftToReceive = _takerOrder.wantTokenTotal_.sub(_takerOrder.wantTokenReceived_); // wei/tok and taker receiving wei or tok/wei and taker receiving tok if ( ratioIsWeiPerTok && _takerOrder.wantToken_ == address(0) || !ratioIsWeiPerTok && _takerOrder.wantToken_ != address(0) ) { // In the case that the maker is offering more than the taker wants for the same quantity being offered // For example: maker offer 20 wei for 10 tokens but taker offers 10 tokens for 10 wei // Taker receives 20 wei for the 10 tokens, both orders filled if ( _makerOrder.offerTokenRemaining_ > takerAmountLeftToReceive && makerAmountLeftToReceive <= _takerOrder.offerTokenRemaining_ ) { toTakerAmount = __max__(_makerOrder.offerTokenRemaining_, takerAmountLeftToReceive); } else { toTakerAmount = __min__(_makerOrder.offerTokenRemaining_, takerAmountLeftToReceive); } toMakerAmount = toTakerAmount.mul(10**decimals).div(priceRatio); // wei/tok and maker receiving wei or tok/wei and maker receiving tok } else { toMakerAmount = __min__(_takerOrder.offerTokenRemaining_, makerAmountLeftToReceive); toTakerAmount = toMakerAmount.mul(10**decimals).div(priceRatio); } } /** * @dev Return the maximum of two uints * @param _a Uint 1 * @param _b Uint 2 * @return The grater value or a if equal */ function __max__(uint256 _a, uint256 _b) private constant returns (uint256) { return _a < _b ? _b : _a; } /** * @dev Return the minimum of two uints * @param _a Uint 1 * @param _b Uint 2 * @return The smallest value or b if equal */ function __min__(uint256 _a, uint256 _b) private constant returns (uint256) { return _a < _b ? _a : _b; } /** * @dev Define if the ratio to be used is wei/tok to tok/wei. Largest uint will * always act as the numerator. * @param _makerOrder The maker order object. * @return If the ratio is wei/tok or not. */ function __ratioIsWeiPerTok__(Order _makerOrder) private constant returns (bool) { bool offerIsWei = _makerOrder.offerToken_ == address(0) ? true : false; // wei/tok if (offerIsWei && _makerOrder.offerTokenTotal_ >= _makerOrder.wantTokenTotal_) { return true; } else if (!offerIsWei && _makerOrder.wantTokenTotal_ >= _makerOrder.offerTokenTotal_) { return true; // tok/wei. otherwise wanting wei && offer > want, OR offer wei && want > offer } else { return false; } } /** * @dev Confirm that the orders do match and are valid. * @param _makerOrder The maker order data structure. * @param _takerOrder The taker order data structure. * @return Bool if the orders passes all checks. */ function __ordersMatch_and_AreVaild__( Order _makerOrder, Order _takerOrder ) private constant returns (bool) { // Orders still active if (!_makerOrder.active_) return error('Maker order is inactive, Exchange.__ordersMatch_and_AreVaild__()'); if (!_takerOrder.active_) return error('Taker order is inactive, Exchange.__ordersMatch_and_AreVaild__()'); // Confirm tokens match // NOTE potentially omit as matching handled upstream? if (_makerOrder.wantToken_ != _takerOrder.offerToken_) return error('Maker wanted token does not match taker offer token, Exchange.__ordersMatch_and_AreVaild__()'); if (_makerOrder.offerToken_ != _takerOrder.wantToken_) return error('Maker offer token does not match taker wanted token, Exchange.__ordersMatch_and_AreVaild__()'); // Price Ratios, to x decimal places hence * decimals, dependent on the size of the denominator. // Ratios are relative to eth, amount of ether for a single token, ie. ETH / GNO == 0.2 Ether per 1 Gnosis uint256 orderPrice; // The price the maker is willing to accept uint256 offeredPrice; // The offer the taker has given uint256 decimals = _makerOrder.offerToken_ == address(0) ? __flooredLog10__(_makerOrder.wantTokenTotal_) : __flooredLog10__(_makerOrder.offerTokenTotal_); // Ratio = larger amount / smaller amount if (_makerOrder.offerTokenTotal_ >= _makerOrder.wantTokenTotal_) { orderPrice = _makerOrder.offerTokenTotal_.mul(10**decimals).div(_makerOrder.wantTokenTotal_); offeredPrice = _takerOrder.wantTokenTotal_.mul(10**decimals).div(_takerOrder.offerTokenTotal_); // ie. Maker is offering 10 ETH for 100 GNO but taker is offering 100 GNO for 20 ETH, no match! // The taker wants more ether than the maker is offering. if (orderPrice < offeredPrice) return error('Taker price is greater than maker price, Exchange.__ordersMatch_and_AreVaild__()'); } else { orderPrice = _makerOrder.wantTokenTotal_.mul(10**decimals).div(_makerOrder.offerTokenTotal_); offeredPrice = _takerOrder.offerTokenTotal_.mul(10**decimals).div(_takerOrder.wantTokenTotal_); // ie. Maker is offering 100 GNO for 10 ETH but taker is offering 5 ETH for 100 GNO, no match! // The taker is not offering enough ether for the maker if (orderPrice > offeredPrice) return error('Taker price is less than maker price, Exchange.__ordersMatch_and_AreVaild__()'); } return true; } /** * @dev Ask each wallet to verify this order. * @param _token_and_EOA_Addresses The addresses of the maker and taker EOAs and offered token contracts. * [makerEOA, makerOfferToken, takerEOA, takerOfferToken] * @param _toMakerAmount The amount of tokens to be sent to the maker. * @param _toTakerAmount The amount of tokens to be sent to the taker. * @param _makerWallet The maker's wallet contract. * @param _takerWallet The taker's wallet contract. * @param _fee The fee to be paid for this trade, paid in full by taker. * @return Success if both wallets verify the order. */ function __ordersVerifiedByWallets__( address[4] _token_and_EOA_Addresses, uint256 _toMakerAmount, uint256 _toTakerAmount, Wallet _makerWallet, Wallet _takerWallet, uint256 _fee ) private constant returns (bool) { // Have the transaction verified by both maker and taker wallets // confirm sufficient balance to transfer, offerToken and offerTokenAmount if(!_makerWallet.verifyOrder(_token_and_EOA_Addresses[1], _toTakerAmount, 0, 0)) return error('Maker wallet could not verify the order, Exchange.__ordersVerifiedByWallets__()'); if(!_takerWallet.verifyOrder(_token_and_EOA_Addresses[3], _toMakerAmount, _fee, edoToken_)) return error('Taker wallet could not verify the order, Exchange.__ordersVerifiedByWallets__()'); return true; } /** * @dev On chain verification of an ECDSA ethereum signature. * @param _signer The EOA address of the account that supposedly signed the message. * @param _orderHash The on-chain generated hash for the order. * @param _v ECDSA signature parameter v. * @param _r ECDSA signature parameter r. * @param _s ECDSA signature parameter s. * @return Bool if the signature is valid or not. */ function __signatureIsValid__( address _signer, bytes32 _orderHash, uint8 _v, bytes32 _r, bytes32 _s ) private constant returns (bool) { address recoveredAddr = ecrecover( keccak256('\x19Ethereum Signed Message:\n32', _orderHash), _v, _r, _s ); return recoveredAddr == _signer; } /** * @dev Confirm wallet local balances and token balances match. * @param _makerWallet Maker wallet address. * @param _takerWallet Taker wallet address. * @param _token Token address to confirm balances match. * @return If the balances do match. */ function __tokenAndWalletBalancesMatch__( address _makerWallet, address _takerWallet, address _token ) private constant returns(bool) { if (Token(_token).balanceOf(_makerWallet) != Wallet(_makerWallet).balanceOf(_token)) return false; if (Token(_token).balanceOf(_takerWallet) != Wallet(_takerWallet).balanceOf(_token)) return false; return true; } /** * @dev Update the order structs. * @param _makerOrder The maker order data structure. * @param _takerOrder The taker order data structure. * @param _toTakerAmount The amount of tokens to be moved to the taker. * @param _toTakerAmount The amount of tokens to be moved to the maker. * @return Success if the update succeeds. */ function __updateOrders__( Order _makerOrder, Order _takerOrder, uint256 _toTakerAmount, uint256 _toMakerAmount ) private { // taker => maker _makerOrder.wantTokenReceived_ = _makerOrder.wantTokenReceived_.add(_toMakerAmount); _takerOrder.offerTokenRemaining_ = _takerOrder.offerTokenRemaining_.sub(_toMakerAmount); // maker => taker _takerOrder.wantTokenReceived_ = _takerOrder.wantTokenReceived_.add(_toTakerAmount); _makerOrder.offerTokenRemaining_ = _makerOrder.offerTokenRemaining_.sub(_toTakerAmount); } }
Contract Security Audit
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Deployed Bytecode
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Swarm Source
bzzr://91ab9932f462dc19180e8d269e9c4a96d60c0eb6d96e71ec4fa9987efb568c46
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A contract address hosts a smart contract, which is a set of code stored on the blockchain that runs when predetermined conditions are met. Learn more about addresses in our Knowledge Base.