// SPDX-License-Identifier: MIT // OpenZeppelin Contracts (last updated v5.3.0) (account/utils/draft-ERC4337Utils.sol) pragma solidity ^0.8.20; import {IEntryPoint, PackedUserOperation} from "../../interfaces/draft-IERC4337.sol"; import {Math} from "../../utils/math/Math.sol"; import {Calldata} from "../../utils/Calldata.sol"; import {Packing} from "../../utils/Packing.sol"; /// @dev This is available on all entrypoint since v0.4.0, but is not formally part of the ERC. interface IEntryPointExtra { function getUserOpHash(PackedUserOperation calldata userOp) external view returns (bytes32); } /** * @dev Library with common ERC-4337 utility functions. * * See https://eips.ethereum.org/EIPS/eip-4337[ERC-4337]. */ library ERC4337Utils { using Packing for *; /// @dev Address of the entrypoint v0.7.0 IEntryPoint internal constant ENTRYPOINT_V07 = IEntryPoint(0x0000000071727De22E5E9d8BAf0edAc6f37da032); /// @dev Address of the entrypoint v0.8.0 IEntryPoint internal constant ENTRYPOINT_V08 = IEntryPoint(0x4337084D9E255Ff0702461CF8895CE9E3b5Ff108); /// @dev For simulation purposes, validateUserOp (and validatePaymasterUserOp) return this value on success. uint256 internal constant SIG_VALIDATION_SUCCESS = 0; /// @dev For simulation purposes, validateUserOp (and validatePaymasterUserOp) must return this value in case of signature failure, instead of revert. uint256 internal constant SIG_VALIDATION_FAILED = 1; /// @dev Parses the validation data into its components. See {packValidationData}. function parseValidationData( uint256 validationData ) internal pure returns (address aggregator, uint48 validAfter, uint48 validUntil) { validAfter = uint48(bytes32(validationData).extract_32_6(0)); validUntil = uint48(bytes32(validationData).extract_32_6(6)); aggregator = address(bytes32(validationData).extract_32_20(12)); if (validUntil == 0) validUntil = type(uint48).max; } /// @dev Packs the validation data into a single uint256. See {parseValidationData}. function packValidationData( address aggregator, uint48 validAfter, uint48 validUntil ) internal pure returns (uint256) { return uint256(bytes6(validAfter).pack_6_6(bytes6(validUntil)).pack_12_20(bytes20(aggregator))); } /// @dev Same as {packValidationData}, but with a boolean signature success flag. function packValidationData(bool sigSuccess, uint48 validAfter, uint48 validUntil) internal pure returns (uint256) { return packValidationData( address(uint160(Math.ternary(sigSuccess, SIG_VALIDATION_SUCCESS, SIG_VALIDATION_FAILED))), validAfter, validUntil ); } /** * @dev Combines two validation data into a single one. * * The `aggregator` is set to {SIG_VALIDATION_SUCCESS} if both are successful, while * the `validAfter` is the maximum and the `validUntil` is the minimum of both. */ function combineValidationData(uint256 validationData1, uint256 validationData2) internal pure returns (uint256) { (address aggregator1, uint48 validAfter1, uint48 validUntil1) = parseValidationData(validationData1); (address aggregator2, uint48 validAfter2, uint48 validUntil2) = parseValidationData(validationData2); bool success = aggregator1 == address(uint160(SIG_VALIDATION_SUCCESS)) && aggregator2 == address(uint160(SIG_VALIDATION_SUCCESS)); uint48 validAfter = uint48(Math.max(validAfter1, validAfter2)); uint48 validUntil = uint48(Math.min(validUntil1, validUntil2)); return packValidationData(success, validAfter, validUntil); } /// @dev Returns the aggregator of the `validationData` and whether it is out of time range. function getValidationData(uint256 validationData) internal view returns (address aggregator, bool outOfTimeRange) { (address aggregator_, uint48 validAfter, uint48 validUntil) = parseValidationData(validationData); return (aggregator_, block.timestamp < validAfter || validUntil < block.timestamp); } /// @dev Get the hash of a user operation for a given entrypoint function hash(PackedUserOperation calldata self, address entrypoint) internal view returns (bytes32) { // NOTE: getUserOpHash is available since v0.4.0 // // Prior to v0.8.0, this was easy to replicate for any entrypoint and chainId. Since v0.8.0 of the // entrypoint, this depends on the Entrypoint's domain separator, which cannot be hardcoded and is complex // to recompute. Domain separator could be fetch using the `getDomainSeparatorV4` getter, or recomputed from // the ERC-5267 getter, but both operation would require doing a view call to the entrypoint. Overall it feels // simpler and less error prone to get that functionality from the entrypoint directly. return IEntryPointExtra(entrypoint).getUserOpHash(self); } /// @dev Returns `factory` from the {PackedUserOperation}, or address(0) if the initCode is empty or not properly formatted. function factory(PackedUserOperation calldata self) internal pure returns (address) { return self.initCode.length < 20 ? address(0) : address(bytes20(self.initCode[0:20])); } /// @dev Returns `factoryData` from the {PackedUserOperation}, or empty bytes if the initCode is empty or not properly formatted. function factoryData(PackedUserOperation calldata self) internal pure returns (bytes calldata) { return self.initCode.length < 20 ? Calldata.emptyBytes() : self.initCode[20:]; } /// @dev Returns `verificationGasLimit` from the {PackedUserOperation}. function verificationGasLimit(PackedUserOperation calldata self) internal pure returns (uint256) { return uint128(self.accountGasLimits.extract_32_16(0)); } /// @dev Returns `callGasLimit` from the {PackedUserOperation}. function callGasLimit(PackedUserOperation calldata self) internal pure returns (uint256) { return uint128(self.accountGasLimits.extract_32_16(16)); } /// @dev Returns the first section of `gasFees` from the {PackedUserOperation}. function maxPriorityFeePerGas(PackedUserOperation calldata self) internal pure returns (uint256) { return uint128(self.gasFees.extract_32_16(0)); } /// @dev Returns the second section of `gasFees` from the {PackedUserOperation}. function maxFeePerGas(PackedUserOperation calldata self) internal pure returns (uint256) { return uint128(self.gasFees.extract_32_16(16)); } /// @dev Returns the total gas price for the {PackedUserOperation} (ie. `maxFeePerGas` or `maxPriorityFeePerGas + basefee`). function gasPrice(PackedUserOperation calldata self) internal view returns (uint256) { unchecked { // Following values are "per gas" uint256 maxPriorityFee = maxPriorityFeePerGas(self); uint256 maxFee = maxFeePerGas(self); return Math.min(maxFee, maxPriorityFee + block.basefee); } } /// @dev Returns the first section of `paymasterAndData` from the {PackedUserOperation}. function paymaster(PackedUserOperation calldata self) internal pure returns (address) { return self.paymasterAndData.length < 52 ? address(0) : address(bytes20(self.paymasterAndData[0:20])); } /// @dev Returns the second section of `paymasterAndData` from the {PackedUserOperation}. function paymasterVerificationGasLimit(PackedUserOperation calldata self) internal pure returns (uint256) { return self.paymasterAndData.length < 52 ? 0 : uint128(bytes16(self.paymasterAndData[20:36])); } /// @dev Returns the third section of `paymasterAndData` from the {PackedUserOperation}. function paymasterPostOpGasLimit(PackedUserOperation calldata self) internal pure returns (uint256) { return self.paymasterAndData.length < 52 ? 0 : uint128(bytes16(self.paymasterAndData[36:52])); } /// @dev Returns the fourth section of `paymasterAndData` from the {PackedUserOperation}. function paymasterData(PackedUserOperation calldata self) internal pure returns (bytes calldata) { return self.paymasterAndData.length < 52 ? Calldata.emptyBytes() : self.paymasterAndData[52:]; } }