open-bounty/contracts/MultiSigTokenWalletV1.sol

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2017-11-09 16:00:06 +00:00
pragma solidity ^0.4.15;
import "./MultiSigWallet.sol";
import "./ERC20.sol";
// @dev This contract is deprecated, use the new version.
contract MultiSigTokenWalletV1 is MultiSigWallet {
address[] public tokens;
mapping (address => uint) public tokenBalances;
mapping (address => address[]) public userList;
uint public nonce;
event TokenDeposit(address _token, address indexed _sender, uint _value);
/**
* Public functions
*
**/
/**
* @notice deposit a ERC20 token. The amount of deposit is the allowance set to this contract.
* @param _token the token contract address
* @param _data might be used by child implementations
**/
function depositToken(address _token, bytes _data)
public
{
address sender = msg.sender;
uint amount = ERC20(_token).allowance(sender, this);
deposit(sender, amount, _token, _data);
}
/**
* @notice deposit a ERC20 token. The amount of deposit is the allowance set to this contract.
* @param _token the token contract address
* @param _data might be used by child implementations
**/
function deposit(address _from, uint256 _amount, address _token, bytes _data)
public
{
if (_from == address(this))
return;
uint _nonce = nonce;
bool result = ERC20(_token).transferFrom(_from, this, _amount);
assert(result);
//ERC23 not executed _deposited tokenFallback by
if (nonce == _nonce) {
_deposited(_from, _amount, _token, _data);
}
}
/**
* @notice watches for balance in a token contract
* @param _tokenAddr the token contract address
**/
function watch(address _tokenAddr)
ownerExists(msg.sender)
{
uint oldBal = tokenBalances[_tokenAddr];
uint newBal = ERC20(_tokenAddr).balanceOf(this);
if (newBal > oldBal) {
_deposited(0x0, newBal-oldBal, _tokenAddr, new bytes(0));
}
}
function setMyTokenList(address[] _tokenList)
public
{
userList[msg.sender] = _tokenList;
}
function setTokenList(address[] _tokenList)
onlyWallet
{
tokens = _tokenList;
}
/**
* @notice ERC23 Token fallback
* @param _from address incoming token
* @param _amount incoming amount
**/
function tokenFallback(address _from, uint _amount, bytes _data)
public
{
_deposited(_from, _amount, msg.sender, _data);
}
/**
* @notice Called MiniMeToken approvesAndCall to this contract, calls deposit.
* @param _from address incoming token
* @param _amount incoming amount
* @param _token the token contract address
* @param _data (might be used by child classes)
*/
function receiveApproval(address _from, uint256 _amount, address _token, bytes _data) {
deposit(_from, _amount, _token, _data);
}
/**
* @dev gives full ownership of this wallet to `_dest` removing older owners from wallet
* @param _dest the address of new controller
**/
function releaseWallet(address _dest)
public
notNull(_dest)
ownerDoesNotExist(_dest)
onlyWallet
{
address[] memory _owners = owners;
uint numOwners = _owners.length;
addOwner(_dest);
for (uint i = 0; i < numOwners; i++) {
removeOwner(_owners[i]);
}
}
/**
* @dev withdraw all recognized tokens balances and ether to `_dest`
* @param _dest the address of receiver
**/
function withdrawEverything(address _dest)
public
notNull(_dest)
onlyWallet
{
withdrawAllTokens(_dest);
_dest.transfer(this.balance);
}
/**
* @dev withdraw all recognized tokens balances to `_dest`
* @param _dest the address of receiver
**/
function withdrawAllTokens(address _dest)
public
notNull(_dest)
onlyWallet
{
address[] memory _tokenList;
if (userList[_dest].length > 0) {
_tokenList = userList[_dest];
} else {
_tokenList = tokens;
}
uint len = _tokenList.length;
for (uint i = 0;i < len; i++) {
address _tokenAddr = _tokenList[i];
uint _amount = tokenBalances[_tokenAddr];
if (_amount > 0) {
delete tokenBalances[_tokenAddr];
ERC20(_tokenAddr).transfer(_dest, _amount);
}
}
}
/**
* @dev withdraw `_tokenAddr` `_amount` to `_dest`
* @param _tokenAddr the address of the token
* @param _dest the address of receiver
* @param _amount the number of tokens to send
**/
function withdrawToken(address _tokenAddr, address _dest, uint _amount)
public
notNull(_dest)
onlyWallet
{
require(_amount > 0);
uint _balance = tokenBalances[_tokenAddr];
require(_amount <= _balance);
tokenBalances[_tokenAddr] = _balance - _amount;
bool result = ERC20(_tokenAddr).transfer(_dest, _amount);
assert(result);
}
/**
* @dev register the deposit
**/
function _deposited(address _from, uint _amount, address _tokenAddr, bytes)
internal
{
TokenDeposit(_tokenAddr,_from,_amount);
nonce++;
if (tokenBalances[_tokenAddr] == 0) {
tokens.push(_tokenAddr);
tokenBalances[_tokenAddr] = ERC20(_tokenAddr).balanceOf(this);
} else {
tokenBalances[_tokenAddr] += _amount;
}
}
/*
* Web3 call functions
*/
/// @dev Returns list of tokens.
/// @return List of token addresses.
function getTokenList()
public
constant
returns (address[])
{
return tokens;
}
}