pragma solidity ^0.4.17; import "./ERC725.sol"; import "./ERC735.sol"; contract Identity is ERC725, ERC735 { mapping (bytes32 => Key) keys; mapping (uint256 => bytes32[]) keysByPurpose; mapping (bytes32 => Claim) claims; mapping (uint256 => bytes32[]) claimsByType; mapping (bytes32 => uint256) indexes; mapping (uint => Transaction) txx; mapping (uint256 => uint256) minimumApprovalsByKeyPurpose; bytes32[] pendingTransactions; uint nonce = 0; address recoveryContract; address recoveryManager; struct Transaction { address to; uint value; bytes data; uint nonce; uint approverCount; mapping(bytes32 => bool) approvals; } modifier managerOnly { require( isKeyPurpose(bytes32(msg.sender), MANAGEMENT_KEY) ); _; } modifier managementOnly { if(msg.sender == address(this)) { _; } else { require(isKeyPurpose(bytes32(msg.sender), MANAGEMENT_KEY)); if (minimumApprovalsByKeyPurpose[MANAGEMENT_KEY] == 1) { _; } else { execute(address(this), 0, msg.data); } } } modifier recoveryOnly { require( recoveryContract != address(0) && msg.sender == address(recoveryContract) ); _; } modifier keyPurposeOnly(bytes32 _key, uint256 _purpose) { require(isKeyPurpose(_key, _purpose)); _; } modifier managerOrActor(bytes32 _key) { require( isKeyPurpose(_key, MANAGEMENT_KEY) || isKeyPurpose(_key, ACTION_KEY) ); _; } modifier validECDSAKey ( bytes32 _key, bytes32 _signHash, uint8 _v, bytes32 _r, bytes32 _s ) { require( address(_key) == ecrecover( keccak256("\x19Ethereum Signed Message:\n32", _signHash), _v, _r, _s ) ); require(keys[_key].purpose != 0); _; } function Identity() public { _constructIdentity(msg.sender); } function () public payable { } function managerReset(address _newKey) public recoveryOnly { recoveryManager = _newKey; _addKey(bytes32(recoveryManager), MANAGEMENT_KEY, 0); minimumApprovalsByKeyPurpose[MANAGEMENT_KEY] = keysByPurpose[MANAGEMENT_KEY].length; } function processManagerReset(uint256 _limit) public { require(recoveryManager != address(0)); uint limit = _limit; bytes32 newKey = bytes32(recoveryManager); bytes32[] memory managers = keysByPurpose[MANAGEMENT_KEY]; uint256 totalManagers = managers.length; if (limit == 0) { limit = totalManagers; } minimumApprovalsByKeyPurpose[MANAGEMENT_KEY] = totalManagers - limit + 1; for (uint256 i = 0; i < limit; i++) { bytes32 manager = managers[i]; if (manager != newKey) { _removeKey(manager, MANAGEMENT_KEY); totalManagers--; } } if (totalManagers == 1) { recoveryManager = address(0); } } function addKey( bytes32 _key, uint256 _purpose, uint256 _type ) public managementOnly returns (bool success) { _addKey(_key, _purpose, _type); return true; } function replaceKey( bytes32 _oldKey, bytes32 _newKey, uint256 _newType ) public managementOnly returns (bool success) { uint256 purpose = keys[_oldKey].purpose; _addKey(_newKey, purpose, _newType); _removeKey(_oldKey, purpose); return true; } function removeKey( bytes32 _key, uint256 _purpose ) public managementOnly returns (bool success) { _removeKey(_key, _purpose); return true; } function execute( address _to, uint256 _value, bytes _data ) public returns (uint256 executionId) { uint256 requiredKey = _to == address(this) ? MANAGEMENT_KEY : ACTION_KEY; if (minimumApprovalsByKeyPurpose[requiredKey] == 1) { executionId = nonce; //(?) useless in this case nonce++; //(?) should increment require(isKeyPurpose(bytes32(msg.sender), requiredKey)); _to.call.value(_value)(_data); //(?) success not used emit Executed(executionId, _to, _value, _data); //no information on success } else { executionId = _execute(_to, _value, _data); approve(executionId, true); } } function approve(uint256 _id, bool _approval) public managerOrActor(bytes32(msg.sender)) returns (bool success) { return _approve(bytes32(msg.sender), _id, _approval); } function setMinimumApprovalsByKeyType( uint256 _purpose, uint256 _minimumApprovals ) public managementOnly { require(_minimumApprovals > 0); require(_minimumApprovals <= keysByPurpose[_purpose].length); minimumApprovalsByKeyPurpose[_purpose] = _minimumApprovals; } function addClaim( uint256 _claimType, uint256 _scheme, address _issuer, bytes _signature, bytes _data, string _uri ) public returns (bytes32 claimHash) { claimHash = keccak256(_issuer, _claimType); if (msg.sender == address(this)) { if (claims[claimHash].claimType > 0) { _modifyClaim(claimHash, _claimType, _scheme, _issuer, _signature, _data, _uri); } else { _includeClaim(claimHash, _claimType, _scheme, _issuer, _signature, _data, _uri); } } else { require(_issuer == msg.sender); require(isKeyPurpose(bytes32(msg.sender), CLAIM_SIGNER_KEY)); _execute(address(this), 0, msg.data); emit ClaimRequested( claimHash, _claimType, _scheme, _issuer, _signature, _data, _uri ); } } function removeClaim(bytes32 _claimId) public returns (bool success) { Claim memory c = claims[_claimId]; require( msg.sender == c.issuer || msg.sender == address(this) ); // MUST only be done by the issuer of the claim, or KEYS OF PURPOSE 1, or the identity itself. // TODO If its the identity itself, the approval process will determine its approval. uint claimIdTypePos = indexes[_claimId]; delete indexes[_claimId]; bytes32[] storage claimsTypeArr = claimsByType[c.claimType]; bytes32 replacer = claimsTypeArr[claimsTypeArr.length-1]; claimsTypeArr[claimIdTypePos] = replacer; indexes[replacer] = claimIdTypePos; delete claims[_claimId]; claimsTypeArr.length--; return true; } function getKey( bytes32 _key, uint256 _purpose ) public constant returns(uint256 purpose, uint256 keyType, bytes32 key) { Key storage myKey = keys[keccak256(_key, _purpose)]; return (myKey.purpose, myKey.keyType, myKey.key); } function isKeyPurpose(bytes32 _key, uint256 _type) public constant returns (bool) { return keys[keccak256(_key, _type)].purpose == _type; } function getKeyPurpose(bytes32 _key) public constant returns(uint256[] purpose) { uint256[] memory purposeHolder = new uint256[](4); uint8 counter = 0; if (isKeyPurpose(_key, MANAGEMENT_KEY)) { purposeHolder[counter] = MANAGEMENT_KEY; counter++; } if (isKeyPurpose(_key, ACTION_KEY)) { purposeHolder[counter] = ACTION_KEY; counter++; } if (isKeyPurpose(_key, CLAIM_SIGNER_KEY)) { purposeHolder[counter] = CLAIM_SIGNER_KEY; counter++; } if (isKeyPurpose(_key, ENCRYPTION_KEY)) { purposeHolder[counter] = ENCRYPTION_KEY; counter++; } uint256[] memory result = new uint256[](counter); for (uint8 i = 0; i < counter; i++) { result[i] = purposeHolder[i]; } return result; } function getKeysByPurpose(uint256 _purpose) public constant returns(bytes32[]) { return keysByPurpose[_purpose]; } function getClaim(bytes32 _claimId) public constant returns( uint256 claimType, uint256 scheme, address issuer, bytes signature, bytes data, string uri ) { Claim memory _claim = claims[_claimId]; return (_claim.claimType, _claim.scheme, _claim.issuer, _claim.signature, _claim.data, _claim.uri); } function getClaimIdsByType(uint256 _claimType) public constant returns(bytes32[] claimIds) { return claimsByType[_claimType]; } function approveECDSA( uint256 _id, bool _approval, bytes32 _key, uint8 _v, bytes32 _r, bytes32 _s ) public validECDSAKey( _key, keccak256( address(this), bytes4(keccak256("approve(uint256,bool)")), _id, _approval ), _v, _r, _s ) managerOrActor(_key) returns (bool success) { return _approve(_key, _id, _approval); } function executeECDSA( address _to, uint256 _value, bytes _data, uint _nonce, bytes32 _key, uint8 _v, bytes32 _r, bytes32 _s ) public validECDSAKey( _key, keccak256( address(this), bytes4(keccak256("execute(address,uint256,bytes)")), _to, _value, _data, _nonce ), _v, _r, _s ) managerOrActor(_key) returns (uint256 executionId) { executionId = _execute(_to, _value, _data); _approve(_key, executionId, true); } function setupRecovery(address _recoveryContract) public managementOnly { require(recoveryContract == address(0)); recoveryContract = _recoveryContract; } function _constructIdentity(address _manager) internal { require(keysByPurpose[MANAGEMENT_KEY].length == 0); require(minimumApprovalsByKeyPurpose[MANAGEMENT_KEY] == 0); _addKey(bytes32(_manager), MANAGEMENT_KEY, 0); minimumApprovalsByKeyPurpose[MANAGEMENT_KEY] = 1; minimumApprovalsByKeyPurpose[ACTION_KEY] = 1; } function _execute( address _to, uint256 _value, bytes _data ) private returns (uint256 executionId) { executionId = nonce; nonce++; txx[executionId] = Transaction({ to: _to, value: _value, data: _data, nonce: nonce, approverCount: 0 }); emit ExecutionRequested(executionId, _to, _value, _data); } function _approve( bytes32 _key, uint256 _id, bool _approval ) private returns(bool success) //(?) should return approved instead of success? { Transaction storage trx = txx[_id]; uint256 approvalCount; uint256 requiredKeyPurpose; if (trx.to == address(this)) { require(isKeyPurpose(_key, MANAGEMENT_KEY)); bytes32 managerKeyHash = keccak256(_key, MANAGEMENT_KEY); requiredKeyPurpose = MANAGEMENT_KEY; approvalCount = _calculateApprovals(managerKeyHash, _approval, trx); } else { require(isKeyPurpose(_key, ACTION_KEY)); bytes32 actorKeyHash = keccak256(_key, ACTION_KEY); requiredKeyPurpose = ACTION_KEY; approvalCount = _calculateApprovals(actorKeyHash, _approval, trx); } emit Approved(_id, _approval); if (approvalCount >= minimumApprovalsByKeyPurpose[requiredKeyPurpose]) { //(?) success should be included in event? success = trx.to.call.value(trx.value)(trx.data); emit Executed(_id, trx.to, trx.value, trx.data); } } function _addKey( bytes32 _key, uint256 _purpose, uint256 _type ) private { bytes32 keyHash = keccak256(_key, _purpose); require(keys[keyHash].purpose == 0); require( _purpose == MANAGEMENT_KEY || _purpose == ACTION_KEY || _purpose == CLAIM_SIGNER_KEY || _purpose == ENCRYPTION_KEY ); keys[keyHash] = Key(_purpose, _type, _key); indexes[keyHash] = keysByPurpose[_purpose].push(_key) - 1; emit KeyAdded(_key, _purpose, _type); } function _removeKey( bytes32 _key, uint256 _purpose ) private { if (_purpose == MANAGEMENT_KEY) { require(keysByPurpose[MANAGEMENT_KEY].length > minimumApprovalsByKeyPurpose[MANAGEMENT_KEY]); } bytes32 keyHash = keccak256(_key, _purpose); Key memory myKey = keys[keyHash]; uint index = indexes[keyHash]; bytes32 indexReplacer = keysByPurpose[_purpose][keysByPurpose[_purpose].length - 1]; keysByPurpose[_purpose][index] = indexReplacer; indexes[keccak256(indexReplacer, _purpose)] = index; keysByPurpose[_purpose].length--; delete indexes[keyHash]; delete keys[keyHash]; emit KeyRemoved(myKey.key, myKey.purpose, myKey.keyType); } function _calculateApprovals( bytes32 _keyHash, bool _approval, Transaction storage trx ) private returns (uint256 approvalCount) { require(trx.approvals[_keyHash] != _approval); trx.approvals[_keyHash] = _approval; if (_approval) { trx.approverCount++; } else { trx.approverCount--; } return trx.approverCount; } function _includeClaim( bytes32 _claimHash, uint256 _claimType, uint256 _scheme, address _issuer, bytes _signature, bytes _data, string _uri ) private { claims[_claimHash] = Claim( { claimType: _claimType, scheme: _scheme, issuer: _issuer, signature: _signature, data: _data, uri: _uri } ); indexes[_claimHash] = claimsByType[_claimType].length; claimsByType[_claimType].push(_claimHash); emit ClaimAdded( _claimHash, _claimType, _scheme, _issuer, _signature, _data, _uri ); } function _modifyClaim( bytes32 _claimHash, uint256 _claimType, uint256 _scheme, address _issuer, bytes _signature, bytes _data, string _uri ) private { require(msg.sender == _issuer); claims[_claimHash] = Claim({ claimType: _claimType, scheme: _scheme, issuer: _issuer, signature: _signature, data: _data, uri: _uri }); emit ClaimChanged( _claimHash, _claimType, _scheme, _issuer, _signature, _data, _uri ); } }