pragma solidity ^0.7.0; pragma experimental ABIEncoderV2; interface IGovernorBravo { function _acceptAdmin() external; function _setVotingDelay(uint newVotingDelay) external; function _setVotingPeriod(uint newVotingPeriod) external; function _acceptAdminOnTimelock() external; function _setImplementation(address implementation_) external; function propose( address[] memory targets, uint[] memory values, string[] memory signatures, bytes[] memory calldatas, string memory description ) external returns (uint); function admin() external view returns (address); function pendingAdmin() external view returns (address); function timelock() external view returns (address); function votingDelay() external view returns (uint256); function votingPeriod() external view returns (uint256); } interface ITimelock { function acceptAdmin() external; function setDelay(uint delay_) external; function setPendingAdmin(address pendingAdmin_) external; function queueTransaction( address target, uint value, string memory signature, bytes memory data, uint eta ) external returns (bytes32); function executeTransaction( address target, uint value, string memory signature, bytes memory data, uint eta ) external payable returns (bytes memory); function pendingAdmin() external view returns (address); function admin() external view returns (address); function delay() external view returns (uint256); } interface IInstaIndex { function changeMaster(address _newMaster) external; function updateMaster() external; function master() external view returns (address); } interface ILite { function setAdmin(address newAdmin) external; function getAdmin() external view returns (address); function removeImplementation(address implementation_) external; function addImplementation( address implementation_, bytes4[] calldata sigs_ ) external; function setDummyImplementation(address newDummyImplementation_) external; function updateMaxRiskRatio( uint8[] memory protocolId_, uint256[] memory newRiskRatio_ ) external; function updateAggrMaxVaultRatio(uint256 newAggrMaxVaultRatio_) external; } interface IDSAV2 { function cast( string[] memory _targetNames, bytes[] memory _datas, address _origin ) external payable returns (bytes32); function isAuth(address user) external view returns (bool); } contract PayloadIGP8 { uint256 public constant PROPOSAL_ID = 8; address public constant PROPOSER = 0xA45f7bD6A5Ff45D31aaCE6bCD3d426D9328cea01; IGovernorBravo public constant GOVERNOR = IGovernorBravo(0x0204Cd037B2ec03605CFdFe482D8e257C765fA1B); ITimelock public immutable TIMELOCK = ITimelock(0x2386DC45AdDed673317eF068992F19421B481F4c); address public immutable ADDRESS_THIS; ILite public constant LITE = ILite(0xA0D3707c569ff8C87FA923d3823eC5D81c98Be78); address internal constant OLD_USER_MODULE = 0xFF93C10FB34f7069071D0679c45ed77A98f37f21; address internal constant OLD_ADMIN_MODULE = 0x06feaa505193e987B12f161F1dB73b1D4d604001; address internal constant OLD_LEVERAGE_MODULE = 0xA18519a6bb1282954e933DA0A775924E4CcE6019; address internal constant OLD_REBALANCER_MODULE = 0xc6639CE123d779fE6eA545B70CbDc1dCA421740d; address internal constant OLD_REFINANCE_MODULE = 0x390936658cB9B73ca75c6c02D5EF88b958D38241; address internal constant OLD_DSA_MODULE = 0xE38d5938d6D75ceF2c3Fc63Dc4AB32cD103E10df; address internal constant OLD_WITHDRAWALS_MODULE = 0xbd45DfF3320b0d832C61fb41489fdd3a1b960067; address internal constant NEW_VIEW_MODULE = 0x645b137ACa041B85c057a4A396086789cFD99041; address internal constant NEW_USER_MODULE = 0x7ee8b5C11b578DD1E8c02D641508A305281Bd173; address internal constant NEW_ADMIN_MODULE = 0xA7dC9540f00358a7ca46780de2FdEBD7F673C127; address internal constant NEW_LEVERAGE_MODULE = 0x5b94f032799CC36fFd3E8CA9BCeA2bA5af40d43E; address internal constant NEW_REBALANCER_MODULE = 0x871176C000603665Ce1133C0aAC783B79257E9C6; address internal constant NEW_REFINANCE_MODULE = 0x4e05681632e1401a89335EDaB3E36612Ae8E1D1E; address internal constant NEW_DSA_MODULE = 0xC30b9D5b582C00C6Bf2b7b274AaA7Cc06f1420bD; address internal constant NEW_WITHDRAWALS_MODULE = 0x6A64A3E0af38279ac7455c85b2C683f5621cE2e7; address internal constant NEW_DUMMY_IMPLEMENTATION = 0x3AC94ba5465BF3429fE237468EaBa5aa20072d61; constructor() { ADDRESS_THIS = address(this); } function propose(string memory description) external { require(msg.sender == PROPOSER, "msg.sender-not-proposer"); uint256 totalActions = 1; address[] memory targets = new address[](totalActions); uint256[] memory values = new uint256[](totalActions); string[] memory signatures = new string[](totalActions); bytes[] memory calldatas = new bytes[](totalActions); // Action 1: call executePayload on timelock contract to execute payload related to lite targets[0] = address(TIMELOCK); values[0] = 0; signatures[0] = "executePayload(address,string,bytes)"; calldatas[0] = abi.encode(ADDRESS_THIS, "execute()", abi.encode()); uint256 proposedId = GOVERNOR.propose( targets, values, signatures, calldatas, description ); require(proposedId == PROPOSAL_ID, "PROPOSAL_IS_NOT_SAME"); } function execute() external { // Action 1: remove Implementations action1(); // Action 2: add implementations action2(); // Action 3: set dummy implementations action3(); // Action 4: Change ratios action4(); } function verifyProposal() external view {} /***********************************| | Proposal Payload Actions | |__________________________________*/ /// @notice Action 1: Remove all old implementations function action1() internal { LITE.removeImplementation(OLD_USER_MODULE); LITE.removeImplementation(OLD_ADMIN_MODULE); LITE.removeImplementation(OLD_LEVERAGE_MODULE); LITE.removeImplementation(OLD_REBALANCER_MODULE); LITE.removeImplementation(OLD_REFINANCE_MODULE); LITE.removeImplementation(OLD_DSA_MODULE); LITE.removeImplementation(OLD_WITHDRAWALS_MODULE); } /// @notice Action 2: Add new implementations function action2() internal { LITE.addImplementation(NEW_USER_MODULE, userSigs()); LITE.addImplementation(NEW_VIEW_MODULE, viewSigs()); LITE.addImplementation(NEW_ADMIN_MODULE, adminSigs()); LITE.addImplementation(NEW_LEVERAGE_MODULE, leverageSigs()); LITE.addImplementation(NEW_REBALANCER_MODULE, rebalancerSigs()); LITE.addImplementation(NEW_REFINANCE_MODULE, refinanceSigs()); LITE.addImplementation(NEW_DSA_MODULE, dsaSigs()); LITE.addImplementation(NEW_WITHDRAWALS_MODULE, withdrawalsSigs()); } /// @notice Action 3: Change dummy implementation. function action3() internal { LITE.setDummyImplementation(NEW_DUMMY_IMPLEMENTATION); } /// @notice Action 4: Change ratios function action4() internal { // Update max aggr ratio from 78.5 to 83.5 LITE.updateAggrMaxVaultRatio(83.5 * 1e4); // 83.5% or 83.5 * 1e4 // Update max risk ratio of different protocols { uint8[] memory protocolIds_ = new uint8[](4); uint256[] memory newRiskRatios_ = new uint256[](4); // Spark Risk Ratio from 88% to 89%. Protocol Id: 7 protocolIds_[0] = 7; newRiskRatios_[0] = 89 * 1e4; // Aave V3 Risk Ratio from 88% to 91%. Protocol Id: 2 protocolIds_[1] = 2; newRiskRatios_[1] = 91 * 1e4; // Morpho Aave v3 Risk Ratio from 88% to 89%. Protocol Id: 6 protocolIds_[2] = 6; newRiskRatios_[2] = 89 * 1e4; // Fluid Risk Ratio from 88% to 91%. Protocol Id: 8 protocolIds_[3] = 8; newRiskRatios_[3] = 91 * 1e4; LITE.updateMaxRiskRatio(protocolIds_, newRiskRatios_); } } /***********************************| | Function Signatures | |__________________________________*/ function userSigs() public pure returns (bytes4[] memory sigs_) { sigs_ = new bytes4[](28); sigs_[0] = bytes4(keccak256("allowance(address,address)")); sigs_[1] = bytes4(keccak256("approve(address,uint256)")); sigs_[2] = bytes4(keccak256("balanceOf(address)")); sigs_[3] = bytes4(keccak256("decreaseAllowance(address,uint256)")); sigs_[4] = bytes4(keccak256("increaseAllowance(address,uint256)")); sigs_[5] = bytes4(keccak256("name()")); sigs_[6] = bytes4(keccak256("symbol()")); sigs_[7] = bytes4(keccak256("totalSupply()")); sigs_[8] = bytes4(keccak256("transfer(address,uint256)")); sigs_[9] = bytes4(keccak256("transferFrom(address,address,uint256)")); sigs_[10] = bytes4(keccak256("asset()")); sigs_[11] = bytes4(keccak256("convertToAssets(uint256)")); sigs_[12] = bytes4(keccak256("convertToShares(uint256)")); sigs_[13] = bytes4(keccak256("decimals()")); sigs_[14] = bytes4(keccak256("maxDeposit(address)")); sigs_[15] = bytes4(keccak256("maxMint(address)")); sigs_[16] = bytes4(keccak256("maxRedeem(address)")); sigs_[17] = bytes4(keccak256("maxWithdraw(address)")); sigs_[18] = bytes4(keccak256("previewDeposit(uint256)")); sigs_[19] = bytes4(keccak256("previewMint(uint256)")); sigs_[20] = bytes4(keccak256("previewRedeem(uint256)")); sigs_[21] = bytes4(keccak256("previewWithdraw(uint256)")); sigs_[22] = bytes4(keccak256("deposit(uint256,address)")); sigs_[23] = bytes4( keccak256("importPosition(uint256,uint256,uint256,address)") ); sigs_[24] = bytes4(keccak256("mint(uint256,address)")); sigs_[25] = bytes4(keccak256("redeem(uint256,address,address)")); sigs_[26] = bytes4(keccak256("totalAssets()")); sigs_[27] = bytes4(keccak256("withdraw(uint256,address,address)")); } function viewSigs() public pure returns (bytes4[] memory sigs_) { sigs_ = new bytes4[](28); sigs_[0] = bytes4(keccak256("getRatioAaveV2()")); sigs_[1] = bytes4(keccak256("getRatioAaveV3(uint256)")); sigs_[2] = bytes4(keccak256("getRatioCompoundV3(uint256)")); sigs_[3] = bytes4(keccak256("getRatioEuler(uint256)")); sigs_[4] = bytes4(keccak256("getRatioMorphoAaveV2()")); sigs_[5] = bytes4(keccak256("getRatioMorphoAaveV3(uint256)")); sigs_[6] = bytes4(keccak256("getRatioSpark(uint256)")); sigs_[7] = bytes4(keccak256("getRatioFluid(uint256)")); sigs_[8] = bytes4(keccak256("getProtocolRatio(uint8)")); sigs_[9] = bytes4(keccak256("getNetAssets()")); sigs_[10] = bytes4(keccak256("getWithdrawFee(uint256)")); sigs_[11] = bytes4(keccak256("vaultDSA()")); sigs_[12] = bytes4(keccak256("leverageMaxUnitAmountLimit()")); sigs_[13] = bytes4(keccak256("secondaryAuth()")); sigs_[14] = bytes4(keccak256("exchangePrice()")); sigs_[15] = bytes4(keccak256("revenueExchangePrice()")); sigs_[16] = bytes4(keccak256("isRebalancer(address)")); sigs_[17] = bytes4(keccak256("maxRiskRatio(uint8)")); sigs_[18] = bytes4(keccak256("aggrMaxVaultRatio()")); sigs_[19] = bytes4(keccak256("withdrawFeeAbsoluteMin()")); sigs_[20] = bytes4(keccak256("withdrawalFeePercentage()")); sigs_[21] = bytes4(keccak256("revenueFeePercentage()")); sigs_[22] = bytes4(keccak256("revenue()")); sigs_[23] = bytes4(keccak256("treasury()")); sigs_[24] = bytes4(keccak256("borrowBalanceMorphoAaveV3(address)")); sigs_[25] = bytes4(keccak256("collateralBalanceMorphoAaveV3(address)")); sigs_[26] = bytes4(keccak256("queuedWithdrawStEth()")); sigs_[27] = bytes4(keccak256("readFromStorage(bytes32)")); } function adminSigs() public pure returns (bytes4[] memory sigs_) { sigs_ = new bytes4[](10); sigs_[0] = bytes4(keccak256("changeVaultStatus(uint8)")); sigs_[1] = bytes4(keccak256("reduceAggrMaxVaultRatio(uint256)")); sigs_[2] = bytes4(keccak256("reduceMaxRiskRatio(uint8[],uint256[])")); sigs_[3] = bytes4(keccak256("updateAggrMaxVaultRatio(uint256)")); sigs_[4] = bytes4(keccak256("updateFees(uint256,uint256,uint256)")); sigs_[5] = bytes4( keccak256("updateLeverageMaxUnitAmountLimit(uint256)") ); sigs_[6] = bytes4(keccak256("updateMaxRiskRatio(uint8[],uint256[])")); sigs_[7] = bytes4(keccak256("updateRebalancer(address,bool)")); sigs_[8] = bytes4(keccak256("updateSecondaryAuth(address)")); sigs_[9] = bytes4(keccak256("updateTreasury(address)")); } function leverageSigs() public pure returns (bytes4[] memory sigs_) { sigs_ = new bytes4[](1); sigs_[0] = bytes4( keccak256( "leverage(uint8,uint256,uint256,uint256,address[],uint256[],uint256,uint256,bytes)" ) ); } function rebalancerSigs() public pure returns (bytes4[] memory sigs_) { sigs_ = new bytes4[](6); sigs_[0] = bytes4(keccak256("collectRevenue(uint256)")); sigs_[1] = bytes4(keccak256("fillVaultAvailability(uint8,uint256)")); sigs_[2] = bytes4(keccak256("sweepEthToSteth()")); sigs_[3] = bytes4(keccak256("sweepWethToSteth()")); sigs_[4] = bytes4(keccak256("updateExchangePrice()")); sigs_[5] = bytes4(keccak256("vaultToProtocolDeposit(uint8,uint256)")); } function refinanceSigs() public pure returns (bytes4[] memory sigs_) { sigs_ = new bytes4[](1); sigs_[0] = bytes4( keccak256("refinance(uint8,uint8,uint256,uint256,uint256,uint256)") ); } function dsaSigs() public pure returns (bytes4[] memory sigs_) { sigs_ = new bytes4[](2); sigs_[0] = bytes4(keccak256("addDSAAuth(address)")); sigs_[1] = bytes4(keccak256("spell(address,bytes,uint256,uint256)")); } function withdrawalsSigs() public pure returns (bytes4[] memory sigs_) { sigs_ = new bytes4[](4); // new functions sigs_[0] = bytes4( keccak256("onERC721Received(address,address,uint256,bytes)") ); sigs_[1] = bytes4(keccak256("queueEthWithdrawal(uint256,uint8)")); sigs_[2] = bytes4(keccak256("paybackDebt(uint8)")); sigs_[3] = bytes4(keccak256("claimEthWithdrawal(uint256,uint8)")); } }