embark/dapps/tests/teller-contracts/contracts/fees/KyberFeeBurner.sol

187 lines
7.3 KiB
Solidity

/* solium-disable security/no-block-members */
pragma solidity >=0.5.0 <0.6.0;
import "../common/Ownable.sol";
import "../token/ERC20Token.sol";
import "../token/SafeTransfer.sol";
import "./KyberNetworkProxy.sol";
/**
* @title KyberFeeBurner
* @dev Contract that holds assets for the purpose of trading them to SNT and burning them
* @dev Assets come from the Escrow contract fees
*/
contract KyberFeeBurner is Ownable, SafeTransfer {
address public SNT;
address public burnAddress;
address public walletId;
KyberNetworkProxy public kyberNetworkProxy;
uint public maxSlippageRate;
// In Kyber's contracts, this is the address for ETH
address constant internal ETH_TOKEN_ADDRESS = 0xEeeeeEeeeEeEeeEeEeEeeEEEeeeeEeeeeeeeEEeE;
/**
* @param _snt Address of the SNT contract
* @param _burnAddress Address where to burn the assets
* @param _kyberNetworkProxy License contract instance address for arbitrators
* @param _walletId Wallet address to send part of the fees to (used for the fee sharing program)
* @param _maxSlippageRate Max slippage rate to accept a trade
*/
constructor(address _snt, address _burnAddress, address _kyberNetworkProxy, address _walletId, uint _maxSlippageRate) public {
SNT = _snt;
burnAddress = _burnAddress;
kyberNetworkProxy = KyberNetworkProxy(_kyberNetworkProxy);
walletId = _walletId;
setMaxSlippageRate(_maxSlippageRate);
}
event SNTAddressChanged(address sender, address prevSNTAddress, address newSNTAddress);
/**
* @dev Changes the SNT contract address
* @param _snt New SNT contract address
*/
function setSNT(address _snt) external onlyOwner {
emit SNTAddressChanged(msg.sender, SNT, _snt);
SNT = _snt;
}
event BurnAddressChanged(address sender, address prevBurnAddress, address newBurnAddress);
/**
* @dev Changes the burn address
* @param _burnAddress New burn address
*/
function setBurnAddress(address _burnAddress) external onlyOwner {
emit BurnAddressChanged(msg.sender, burnAddress, _burnAddress);
burnAddress = _burnAddress;
}
event KyberNetworkProxyAddressChanged(address sender, address prevKyberAddress, address newKyberAddress);
/**
* @dev Changes the KyberNetworkProxy contract address
* @param _kyberNetworkProxy New KyberNetworkProxy address
*/
function setKyberNetworkProxyAddress(address _kyberNetworkProxy) external onlyOwner {
emit KyberNetworkProxyAddressChanged(msg.sender, address(kyberNetworkProxy), _kyberNetworkProxy);
kyberNetworkProxy = KyberNetworkProxy(_kyberNetworkProxy);
}
event WalletIdChanged(address sender, address prevWalletId, address newWalletId);
/**
* @dev Changes the walletId address (for the fee sharing program)
* @param _walletId New walletId address
*/
function setWalletId(address _walletId) external onlyOwner {
emit WalletIdChanged(msg.sender, walletId, _walletId);
walletId = _walletId;
}
/**
* @dev Changes the current max slippage rate
* @param _newSlippageRate New slippage rate
*/
function setMaxSlippageRate(uint _newSlippageRate) public onlyOwner {
require(_newSlippageRate <= 10000, "Invalid slippage rate");
emit SlippageRateChanged(msg.sender, maxSlippageRate, _newSlippageRate);
maxSlippageRate = _newSlippageRate;
}
event SlippageRateChanged(address sender, uint oldRate, uint newRate);
event Swap(address sender, address srcToken, address destToken, uint srcAmount, uint destAmount);
/**
* @dev Swaps the total balance of the selected asset to SNT and transfers it to the burn address
* @param _token Address of the asset to trade
*/
function swap(address _token) public {
if (_token == address(0)) {
swap(_token, address(this).balance);
} else {
ERC20Token t = ERC20Token(_token);
swap(_token, t.balanceOf(address(this)));
}
}
/**
* @dev Swaps the selected asset to SNT and transfers it to the burn address
* @param _token Address of the asset to trade
* @param _amount Amount to swap
*/
function swap(address _token, uint _amount) public {
uint tokensToTradeRate;
uint ratePer1Token;
uint minAcceptedRate;
uint destAmount;
if (_token == address(0)) {
require(_amount <= address(this).balance, "Invalid amount");
(ratePer1Token,) = kyberNetworkProxy.getExpectedRate(ETH_TOKEN_ADDRESS, SNT, 1 ether);
(tokensToTradeRate,) = kyberNetworkProxy.getExpectedRate(ETH_TOKEN_ADDRESS, SNT, _amount);
minAcceptedRate = (ratePer1Token * (10000 - maxSlippageRate)) / 10000;
require(tokensToTradeRate >= minAcceptedRate, "Rate is not acceptable");
destAmount = kyberNetworkProxy.trade.value(_amount)(ETH_TOKEN_ADDRESS, _amount, SNT, burnAddress, 0 - uint256(1), tokensToTradeRate, walletId);
emit Swap(msg.sender, ETH_TOKEN_ADDRESS, SNT, _amount, destAmount);
} else {
ERC20Token t = ERC20Token(_token);
require(_amount <= t.balanceOf(address(this)), "Invalid amount");
if (_token == SNT) {
require(_safeTransfer(t, burnAddress, _amount), "SNT transfer failure");
emit Swap(msg.sender, SNT, SNT, _amount, _amount);
return;
} else {
// Mitigate ERC20 Approve front-running attack, by initially setting allowance to 0
require(ERC20Token(_token).approve(address(kyberNetworkProxy), 0), "Failed to reset approval");
// Set the spender's token allowance to tokenQty
require(ERC20Token(_token).approve(address(kyberNetworkProxy), _amount), "Failed to approve trade amount");
(ratePer1Token,) = kyberNetworkProxy.getExpectedRate(_token, SNT, 1 ether);
(tokensToTradeRate,) = kyberNetworkProxy.getExpectedRate(_token, SNT, _amount);
minAcceptedRate = (ratePer1Token * (10000 - maxSlippageRate)) / 10000;
require(tokensToTradeRate >= minAcceptedRate, "Rate is not acceptable");
destAmount = kyberNetworkProxy.trade(_token, _amount, SNT, burnAddress, 0 - uint256(1), tokensToTradeRate, walletId);
emit Swap(msg.sender, _token, SNT, _amount, destAmount);
}
}
}
event EscapeTriggered(address sender, address token, uint amount);
/**
* @dev Exits the selected asset to the owner
* @param _token Address of the asset to exit
*/
function escape(address _token) external onlyOwner {
if (_token == address(0)) {
uint ethBalance = address(this).balance;
address ownerAddr = address(uint160(owner()));
(bool success, ) = ownerAddr.call.value(ethBalance)("");
require(success, "Transfer failed.");
emit EscapeTriggered(msg.sender, _token, ethBalance);
} else {
ERC20Token t = ERC20Token(_token);
uint tokenBalance = t.balanceOf(address(this));
require(_safeTransfer(t, owner(), tokenBalance), "Token transfer error");
emit EscapeTriggered(msg.sender, _token, tokenBalance);
}
}
function() payable external {
}
}