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// This contract is part of Zellic’s smart contract dataset, which is a collection of publicly available contract code gathered as of March 2023.
pragma solidity 0.8.12;
interface ICauldron {
function COLLATERIZATION_RATE() external view returns (uint256);
function exchangeRate() external view returns (uint256);
function oracle() external view returns (IOracle);
function oracleData() external view returns (bytes memory);
function updateExchangeRate() external returns (bool updated, uint256 rate);
function masterContract() external view returns (address);
}
interface IOracle {
/// @notice Check the last exchange rate without any state changes.
/// @param data Usually abi encoded, implementation specific data that contains information and arguments to & about the oracle.
/// For example:
/// (string memory collateralSymbol, string memory assetSymbol, uint256 division) = abi.decode(data, (string, string, uint256));
/// @return success if no valid (recent) rate is available, return false else true.
/// @return rate The rate of the requested asset / pair / pool.
function peek(bytes calldata data) external view returns (bool success, uint256 rate);
}
interface ICheckForOracleUpdate {
function updateCauldrons(ICauldron[] memory cauldrons_) external;
}
contract CheckForOracleUpdate is ICheckForOracleUpdate {
uint256 private constant EXCHANGERATE_PRECISION = 1e18;
uint256 private constant COLLATERIZATION_RATE_PRECISION = 1e5;
mapping(address => uint256) public oldCollaterization;
ICauldron[] public cauldrons;
constructor(ICauldron[] memory cauldrons_) {
cauldrons = cauldrons_;
}
function updateCauldrons(ICauldron[] memory cauldrons_) external override {
for (uint i; i< cauldrons_.length; i++) {
cauldrons_[i].updateExchangeRate();
}
oldCollaterization[0x469a991a6bB8cbBfEe42E7aB846eDEef1bc0B3d3] = 90000;
oldCollaterization[0x4a9Cb5D0B755275Fd188f87c0A8DF531B0C7c7D2] = 75000;
}
function checker()
external
view
returns (bool canExec, bytes memory execPayload)
{
canExec = false;
uint256 len;
bool[] memory isToBeUpdated = new bool[](cauldrons.length);
for (uint i; i < cauldrons.length; i++) {
ICauldron cauldron = cauldrons[i];
address masterContract = cauldron.masterContract();
uint256 collaterization = oldCollaterization[masterContract] != 0 ? oldCollaterization[masterContract] : cauldron.COLLATERIZATION_RATE();
uint256 collateralizationDelta = COLLATERIZATION_RATE_PRECISION - collaterization;
( ,uint256 currentRate) = cauldron.oracle().peek(cauldron.oracleData());
uint256 staleRate = cauldron.exchangeRate();
if (staleRate + staleRate * collateralizationDelta / COLLATERIZATION_RATE_PRECISION / 2 < currentRate) {
canExec = true;
isToBeUpdated[i] = true;
len++;
}
}
ICauldron[] memory toBeUpdated = new ICauldron[](len);
for (uint i; i < cauldrons.length; i++) {
if(isToBeUpdated[i]) {
toBeUpdated[toBeUpdated.length - len] = cauldrons[i];
}
}
execPayload = abi.encodeCall(ICheckForOracleUpdate.updateCauldrons, (toBeUpdated));
}
} |