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Add checks to ERC7579Utils.decodeBatch (#5353)

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Co-authored-by: Ernesto García <ernestognw@gmail.com>
Co-authored-by: Francisco Giordano <fg@frang.io>
pull/5366/head
Hadrien Croubois 2 months ago committed by GitHub
parent 5df10703cd
commit 77d4a73c87
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GPG Key ID: B5690EEEBB952194
3 changed files with 477 additions and 25 deletions
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  1. 51
      contracts/account/utils/draft-ERC7579Utils.sol
  2. 421
      test/account/utils/draft-ERC7579Utils.t.sol
  3. 28
      test/account/utils/draft-ERC7579Utils.test.js

51
contracts/account/utils/draft-ERC7579Utils.sol
Unescape View File

@ -61,10 +61,13 @@ library ERC7579Utils {
/// @dev The module type is not supported.
error ERC7579UnsupportedModuleType(uint256 moduleTypeId);
/// @dev Input calldata not properly formatted and possibly malicious.
error ERC7579DecodingError();
/// @dev Executes a single call.
function execSingle(
ExecType execType,
bytes calldata executionCalldata
bytes calldata executionCalldata,
ExecType execType
) internal returns (bytes[] memory returnData) {
(address target, uint256 value, bytes calldata callData) = decodeSingle(executionCalldata);
returnData = new bytes[](1);
@ -73,8 +76,8 @@ library ERC7579Utils {
/// @dev Executes a batch of calls.
function execBatch(
ExecType execType,
bytes calldata executionCalldata
bytes calldata executionCalldata,
ExecType execType
) internal returns (bytes[] memory returnData) {
Execution[] calldata executionBatch = decodeBatch(executionCalldata);
returnData = new bytes[](executionBatch.length);
@ -91,8 +94,8 @@ library ERC7579Utils {
/// @dev Executes a delegate call.
function execDelegateCall(
ExecType execType,
bytes calldata executionCalldata
bytes calldata executionCalldata,
ExecType execType
) internal returns (bytes[] memory returnData) {
(address target, bytes calldata callData) = decodeDelegate(executionCalldata);
returnData = new bytes[](1);
@ -169,12 +172,40 @@ library ERC7579Utils {
}
/// @dev Decodes a batch of executions. See {encodeBatch}.
///
/// NOTE: This function runs some checks and will throw a {ERC7579DecodingError} if the input is not properly formatted.
function decodeBatch(bytes calldata executionCalldata) internal pure returns (Execution[] calldata executionBatch) {
unchecked {
uint256 bufferLength = executionCalldata.length;
// Check executionCalldata is not empty.
if (bufferLength < 32) revert ERC7579DecodingError();
// Get the offset of the array (pointer to the array length).
uint256 arrayLengthPointer = uint256(bytes32(executionCalldata[0:32]));
// The array length (at arrayLengthPointer) should be 32 bytes long. We check that this is within the
// buffer bounds. Since we know bufferLength is at least 32, we can subtract with no overflow risk.
if (arrayLengthPointer > bufferLength - 32) revert ERC7579DecodingError();
// Get the array length. arrayLengthPointer + 32 is bounded by bufferLength so it does not overflow.
uint256 arrayLength = uint256(bytes32(executionCalldata[arrayLengthPointer:arrayLengthPointer + 32]));
// Check that the buffer is long enough to store the array elements as "offset pointer":
// - each element of the array is an "offset pointer" to the data.
// - each "offset pointer" (to an array element) takes 32 bytes.
// - validity of the calldata at that location is checked when the array element is accessed, so we only
// need to check that the buffer is large enough to hold the pointers.
//
// Since we know bufferLength is at least arrayLengthPointer + 32, we can subtract with no overflow risk.
// Solidity limits length of such arrays to 2**64-1, this guarantees `arrayLength * 32` does not overflow.
if (arrayLength > type(uint64).max || bufferLength - arrayLengthPointer - 32 < arrayLength * 32)
revert ERC7579DecodingError();
assembly ("memory-safe") {
let ptr := add(executionCalldata.offset, calldataload(executionCalldata.offset))
// Extract the ERC7579 Executions
executionBatch.offset := add(ptr, 32)
executionBatch.length := calldataload(ptr)
executionBatch.offset := add(add(executionCalldata.offset, arrayLengthPointer), 32)
executionBatch.length := arrayLength
}
}
}

421
test/account/utils/draft-ERC7579Utils.t.sol
Unescape View File

@ -0,0 +1,421 @@
// SPDX-License-Identifier: UNLICENSED
pragma solidity ^0.8.24;
// Parts of this test file are adapted from Adam Egyed (@adamegyed) proof of concept available at:
// https://github.com/adamegyed/erc7579-execute-vulnerability/tree/4589a30ff139e143d6c57183ac62b5c029217a90
//
// solhint-disable no-console
import {Ownable} from "@openzeppelin/contracts/access/Ownable.sol";
import {ECDSA} from "@openzeppelin/contracts/utils/cryptography/ECDSA.sol";
import {MessageHashUtils} from "@openzeppelin/contracts/utils/cryptography/MessageHashUtils.sol";
import {PackedUserOperation, IAccount, IEntryPoint} from "@openzeppelin/contracts/interfaces/draft-IERC4337.sol";
import {ERC4337Utils} from "@openzeppelin/contracts/account/utils/draft-ERC4337Utils.sol";
import {ERC7579Utils, Mode, CallType, ExecType, ModeSelector, ModePayload, Execution} from "@openzeppelin/contracts/account/utils/draft-ERC7579Utils.sol";
import {Test, Vm, console} from "forge-std/Test.sol";
contract SampleAccount is IAccount, Ownable {
using ECDSA for *;
using MessageHashUtils for *;
using ERC4337Utils for *;
using ERC7579Utils for *;
IEntryPoint internal constant ENTRY_POINT = IEntryPoint(payable(0x0000000071727De22E5E9d8BAf0edAc6f37da032));
event Log(bool duringValidation, Execution[] calls);
error UnsupportedCallType(CallType callType);
constructor(address initialOwner) Ownable(initialOwner) {}
function validateUserOp(
PackedUserOperation calldata userOp,
bytes32 userOpHash,
uint256 missingAccountFunds
) external override returns (uint256 validationData) {
require(msg.sender == address(ENTRY_POINT), "only from EP");
// Check signature
if (userOpHash.toEthSignedMessageHash().recover(userOp.signature) != owner()) {
revert OwnableUnauthorizedAccount(_msgSender());
}
// If this is an execute call with a batch operation, log the call details from the calldata
if (bytes4(userOp.callData[0x00:0x04]) == this.execute.selector) {
(CallType callType, , , ) = Mode.wrap(bytes32(userOp.callData[0x04:0x24])).decodeMode();
if (callType == ERC7579Utils.CALLTYPE_BATCH) {
// Remove the selector
bytes calldata params = userOp.callData[0x04:];
// Use the same vulnerable assignment technique here, but assert afterwards that the checks aren't
// broken here by comparing to the result of `abi.decode(...)`.
bytes calldata executionCalldata;
assembly ("memory-safe") {
let dataptr := add(params.offset, calldataload(add(params.offset, 0x20)))
executionCalldata.offset := add(dataptr, 32)
executionCalldata.length := calldataload(dataptr)
}
// Check that this decoding step is done correctly.
(, bytes memory executionCalldataMemory) = abi.decode(params, (bytes32, bytes));
require(
keccak256(executionCalldata) == keccak256(executionCalldataMemory),
"decoding during validation failed"
);
// Now, we know that we have `bytes calldata executionCalldata` as would be decoded by the solidity
// builtin decoder for the `execute` function.
// This is where the vulnerability from ExecutionLib results in a different result between validation
// andexecution.
emit Log(true, executionCalldata.decodeBatch());
}
}
if (missingAccountFunds > 0) {
(bool success, ) = payable(msg.sender).call{value: missingAccountFunds}("");
success; // Silence warning. The entrypoint should validate the result.
}
return ERC4337Utils.SIG_VALIDATION_SUCCESS;
}
function execute(Mode mode, bytes calldata executionCalldata) external payable {
require(msg.sender == address(this) || msg.sender == address(ENTRY_POINT), "not auth");
(CallType callType, ExecType execType, , ) = mode.decodeMode();
// check if calltype is batch or single
if (callType == ERC7579Utils.CALLTYPE_SINGLE) {
executionCalldata.execSingle(execType);
} else if (callType == ERC7579Utils.CALLTYPE_BATCH) {
executionCalldata.execBatch(execType);
emit Log(false, executionCalldata.decodeBatch());
} else if (callType == ERC7579Utils.CALLTYPE_DELEGATECALL) {
executionCalldata.execDelegateCall(execType);
} else {
revert UnsupportedCallType(callType);
}
}
}
contract ERC7579UtilsTest is Test {
using MessageHashUtils for *;
using ERC4337Utils for *;
using ERC7579Utils for *;
IEntryPoint private constant ENTRYPOINT = IEntryPoint(payable(0x0000000071727De22E5E9d8BAf0edAc6f37da032));
address private _owner;
uint256 private _ownerKey;
address private _account;
address private _beneficiary;
address private _recipient1;
address private _recipient2;
constructor() {
vm.etch(0x0000000071727De22E5E9d8BAf0edAc6f37da032, vm.readFileBinary("test/bin/EntryPoint070.bytecode"));
vm.etch(0xEFC2c1444eBCC4Db75e7613d20C6a62fF67A167C, vm.readFileBinary("test/bin/SenderCreator070.bytecode"));
// signing key
(_owner, _ownerKey) = makeAddrAndKey("owner");
// ERC-4337 account
_account = address(new SampleAccount(_owner));
vm.deal(_account, 1 ether);
// other
_beneficiary = makeAddr("beneficiary");
_recipient1 = makeAddr("recipient1");
_recipient2 = makeAddr("recipient2");
}
function testExecuteBatchDecodeCorrectly() public {
Execution[] memory calls = new Execution[](2);
calls[0] = Execution({target: _recipient1, value: 1 wei, callData: ""});
calls[1] = Execution({target: _recipient2, value: 1 wei, callData: ""});
PackedUserOperation[] memory userOps = new PackedUserOperation[](1);
userOps[0] = PackedUserOperation({
sender: _account,
nonce: 0,
initCode: "",
callData: abi.encodeCall(
SampleAccount.execute,
(
ERC7579Utils.encodeMode(
ERC7579Utils.CALLTYPE_BATCH,
ERC7579Utils.EXECTYPE_DEFAULT,
ModeSelector.wrap(0x00),
ModePayload.wrap(0x00)
),
ERC7579Utils.encodeBatch(calls)
)
),
accountGasLimits: _packGas(500_000, 500_000),
preVerificationGas: 0,
gasFees: _packGas(1, 1),
paymasterAndData: "",
signature: ""
});
(uint8 v, bytes32 r, bytes32 s) = vm.sign(
_ownerKey,
this.hashUserOperation(userOps[0]).toEthSignedMessageHash()
);
userOps[0].signature = abi.encodePacked(r, s, v);
vm.recordLogs();
ENTRYPOINT.handleOps(userOps, payable(_beneficiary));
assertEq(_recipient1.balance, 1 wei);
assertEq(_recipient2.balance, 1 wei);
_collectAndPrintLogs(false);
}
function testExecuteBatchDecodeEmpty() public {
bytes memory fakeCalls = abi.encodePacked(
uint256(1), // Length of execution[]
uint256(0x20), // offset
uint256(uint160(_recipient1)), // target
uint256(1), // value: 1 wei
uint256(0x60), // offset of data
uint256(0) // length of
);
PackedUserOperation[] memory userOps = new PackedUserOperation[](1);
userOps[0] = PackedUserOperation({
sender: _account,
nonce: 0,
initCode: "",
callData: abi.encodeCall(
SampleAccount.execute,
(
ERC7579Utils.encodeMode(
ERC7579Utils.CALLTYPE_BATCH,
ERC7579Utils.EXECTYPE_DEFAULT,
ModeSelector.wrap(0x00),
ModePayload.wrap(0x00)
),
abi.encodePacked(
uint256(0x70) // fake offset pointing to paymasterAndData
)
)
),
accountGasLimits: _packGas(500_000, 500_000),
preVerificationGas: 0,
gasFees: _packGas(1, 1),
paymasterAndData: abi.encodePacked(address(0), fakeCalls),
signature: ""
});
(uint8 v, bytes32 r, bytes32 s) = vm.sign(
_ownerKey,
this.hashUserOperation(userOps[0]).toEthSignedMessageHash()
);
userOps[0].signature = abi.encodePacked(r, s, v);
vm.expectRevert(
abi.encodeWithSelector(
IEntryPoint.FailedOpWithRevert.selector,
0,
"AA23 reverted",
abi.encodeWithSelector(ERC7579Utils.ERC7579DecodingError.selector)
)
);
ENTRYPOINT.handleOps(userOps, payable(_beneficiary));
_collectAndPrintLogs(false);
}
function testExecuteBatchDecodeDifferent() public {
bytes memory execCallData = abi.encodePacked(
uint256(0x20), // offset pointing to the next segment
uint256(5), // Length of execution[]
uint256(0), // offset of calls[0], and target (!!)
uint256(0x20), // offset of calls[1], and value (!!)
uint256(0), // offset of calls[2], and rel offset of data (!!)
uint256(0) // offset of calls[3].
// There is one more to read by the array length, but it's not present here. This will be
// paymasterAndData.length during validation, pointing to an all-zero call.
// During execution, the offset will be 0, pointing to a call with value.
);
PackedUserOperation[] memory userOps = new PackedUserOperation[](1);
userOps[0] = PackedUserOperation({
sender: _account,
nonce: 0,
initCode: "",
callData: abi.encodePacked(
SampleAccount.execute.selector,
ERC7579Utils.encodeMode(
ERC7579Utils.CALLTYPE_BATCH,
ERC7579Utils.EXECTYPE_DEFAULT,
ModeSelector.wrap(0x00),
ModePayload.wrap(0x00)
),
uint256(0x5c), // offset pointing to the next segment
uint224(type(uint224).max), // Padding to align the `bytes` types
// type(uint256).max, // unknown padding
uint256(execCallData.length), // Length of the data
execCallData
),
accountGasLimits: _packGas(500_000, 500_000),
preVerificationGas: 0,
gasFees: _packGas(1, 1),
paymasterAndData: abi.encodePacked(uint256(0), uint256(0)), // padding length to create an offset
signature: ""
});
(uint8 v, bytes32 r, bytes32 s) = vm.sign(
_ownerKey,
this.hashUserOperation(userOps[0]).toEthSignedMessageHash()
);
userOps[0].signature = abi.encodePacked(r, s, v);
vm.expectRevert(
abi.encodeWithSelector(
IEntryPoint.FailedOpWithRevert.selector,
0,
"AA23 reverted",
abi.encodeWithSelector(ERC7579Utils.ERC7579DecodingError.selector)
)
);
ENTRYPOINT.handleOps(userOps, payable(_beneficiary));
_collectAndPrintLogs(true);
}
function testDecodeBatch() public {
// BAD: buffer empty
vm.expectRevert(ERC7579Utils.ERC7579DecodingError.selector);
this.callDecodeBatch("");
// BAD: buffer too short
vm.expectRevert(ERC7579Utils.ERC7579DecodingError.selector);
this.callDecodeBatch(abi.encodePacked(uint128(0)));
// GOOD
this.callDecodeBatch(abi.encode(0));
// Note: Solidity also supports this even though it's odd. Offset 0 means array is at the same location, which
// is interpreted as an array of length 0, which doesn't require any more data
// solhint-disable-next-line var-name-mixedcase
uint256[] memory _1 = abi.decode(abi.encode(0), (uint256[]));
_1;
// BAD: offset is out of bounds
vm.expectRevert(ERC7579Utils.ERC7579DecodingError.selector);
this.callDecodeBatch(abi.encode(1));
// GOOD
this.callDecodeBatch(abi.encode(32, 0));
// BAD: reported array length extends beyond bounds
vm.expectRevert(ERC7579Utils.ERC7579DecodingError.selector);
this.callDecodeBatch(abi.encode(32, 1));
// GOOD
this.callDecodeBatch(abi.encode(32, 1, 0));
// GOOD
//
// 0000000000000000000000000000000000000000000000000000000000000020 (32) offset
// 0000000000000000000000000000000000000000000000000000000000000001 ( 1) array length
// 0000000000000000000000000000000000000000000000000000000000000020 (32) element 0 offset
// 000000000000000000000000xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx (recipient) target for element #0
// 000000000000000000000000000000000000000000000000000000000000002a (42) value for element #0
// 0000000000000000000000000000000000000000000000000000000000000060 (96) offset to calldata for element #0
// 000000000000000000000000000000000000000000000000000000000000000c (12) length of the calldata for element #0
// 48656c6c6f20576f726c64210000000000000000000000000000000000000000 (..) buffer for the calldata for element #0
assertEq(
bytes("Hello World!"),
this.callDecodeBatchAndGetFirstBytes(
abi.encode(32, 1, 32, _recipient1, 42, 96, 12, bytes12("Hello World!"))
)
);
// This is invalid, the first element of the array points is out of bounds
// but we allow it past initial validation, because solidity will validate later when the bytes field is accessed
//
// 0000000000000000000000000000000000000000000000000000000000000020 (32) offset
// 0000000000000000000000000000000000000000000000000000000000000001 ( 1) array length
// 0000000000000000000000000000000000000000000000000000000000000020 (32) element 0 offset
// <missing element>
bytes memory invalid = abi.encode(32, 1, 32);
this.callDecodeBatch(invalid);
vm.expectRevert();
this.callDecodeBatchAndGetFirst(invalid);
// this is invalid: the bytes field of the first element of the array is out of bounds
// but we allow it past initial validation, because solidity will validate later when the bytes field is accessed
//
// 0000000000000000000000000000000000000000000000000000000000000020 (32) offset
// 0000000000000000000000000000000000000000000000000000000000000001 ( 1) array length
// 0000000000000000000000000000000000000000000000000000000000000020 (32) element 0 offset
// 000000000000000000000000xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx (recipient) target for element #0
// 000000000000000000000000000000000000000000000000000000000000002a (42) value for element #0
// 0000000000000000000000000000000000000000000000000000000000000060 (96) offset to calldata for element #0
// <missing data>
bytes memory invalidDeeply = abi.encode(32, 1, 32, _recipient1, 42, 96);
this.callDecodeBatch(invalidDeeply);
// Note that this is ok because we don't return the value. Returning it would introduce a check that would fails.
this.callDecodeBatchAndGetFirst(invalidDeeply);
vm.expectRevert();
this.callDecodeBatchAndGetFirstBytes(invalidDeeply);
}
function callDecodeBatch(bytes calldata executionCalldata) public pure {
ERC7579Utils.decodeBatch(executionCalldata);
}
function callDecodeBatchAndGetFirst(bytes calldata executionCalldata) public pure {
ERC7579Utils.decodeBatch(executionCalldata)[0];
}
function callDecodeBatchAndGetFirstBytes(bytes calldata executionCalldata) public pure returns (bytes calldata) {
return ERC7579Utils.decodeBatch(executionCalldata)[0].callData;
}
function hashUserOperation(PackedUserOperation calldata useroperation) public view returns (bytes32) {
return useroperation.hash(address(ENTRYPOINT), block.chainid);
}
function _collectAndPrintLogs(bool includeTotalValue) internal {
Vm.Log[] memory logs = vm.getRecordedLogs();
for (uint256 i = 0; i < logs.length; i++) {
if (logs[i].emitter == _account) {
_printDecodedCalls(logs[i].data, includeTotalValue);
}
}
}
function _printDecodedCalls(bytes memory logData, bool includeTotalValue) internal pure {
(bool duringValidation, Execution[] memory calls) = abi.decode(logData, (bool, Execution[]));
console.log(
string.concat(
"Batch execute contents, as read during ",
duringValidation ? "validation" : "execution",
": "
)
);
console.log(" Execution[] length: %s", calls.length);
uint256 totalValue = 0;
for (uint256 i = 0; i < calls.length; ++i) {
console.log(string.concat(" calls[", vm.toString(i), "].target = ", vm.toString(calls[i].target)));
console.log(string.concat(" calls[", vm.toString(i), "].value = ", vm.toString(calls[i].value)));
console.log(string.concat(" calls[", vm.toString(i), "].data = ", vm.toString(calls[i].callData)));
totalValue += calls[i].value;
}
if (includeTotalValue) {
console.log(" Total value: %s", totalValue);
}
}
function _packGas(uint256 upper, uint256 lower) internal pure returns (bytes32) {
return bytes32(uint256((upper << 128) | uint128(lower)));
}
}

28
test/account/utils/draft-ERC7579Utils.test.js
Unescape View File

@ -34,7 +34,7 @@ describe('ERC7579Utils', function () {
const value = 0x012;
const data = encodeSingle(this.target, value, this.target.interface.encodeFunctionData('mockFunction'));
await expect(this.utils.$execSingle(EXEC_TYPE_DEFAULT, data)).to.emit(this.target, 'MockFunctionCalled');
await expect(this.utils.$execSingle(data, EXEC_TYPE_DEFAULT)).to.emit(this.target, 'MockFunctionCalled');
expect(ethers.provider.getBalance(this.target)).to.eventually.equal(value);
});
@ -47,7 +47,7 @@ describe('ERC7579Utils', function () {
this.target.interface.encodeFunctionData('mockFunctionWithArgs', [42, '0x1234']),
);
await expect(this.utils.$execSingle(EXEC_TYPE_DEFAULT, data))
await expect(this.utils.$execSingle(data, EXEC_TYPE_DEFAULT))
.to.emit(this.target, 'MockFunctionCalledWithArgs')
.withArgs(42, '0x1234');
@ -62,7 +62,7 @@ describe('ERC7579Utils', function () {
this.target.interface.encodeFunctionData('mockFunctionRevertsReason'),
);
await expect(this.utils.$execSingle(EXEC_TYPE_DEFAULT, data)).to.be.revertedWith('CallReceiverMock: reverting');
await expect(this.utils.$execSingle(data, EXEC_TYPE_DEFAULT)).to.be.revertedWith('CallReceiverMock: reverting');
});
it('emits ERC7579TryExecuteFail event when target reverts in try ExecType', async function () {
@ -73,7 +73,7 @@ describe('ERC7579Utils', function () {
this.target.interface.encodeFunctionData('mockFunctionRevertsReason'),
);
await expect(this.utils.$execSingle(EXEC_TYPE_TRY, data))
await expect(this.utils.$execSingle(data, EXEC_TYPE_TRY))
.to.emit(this.utils, 'ERC7579TryExecuteFail')
.withArgs(
CALL_TYPE_CALL,
@ -88,7 +88,7 @@ describe('ERC7579Utils', function () {
const value = 0x012;
const data = encodeSingle(this.target, value, this.target.interface.encodeFunctionData('mockFunction'));
await expect(this.utils.$execSingle('0x03', data))
await expect(this.utils.$execSingle(data, '0x03'))
.to.be.revertedWithCustomError(this.utils, 'ERC7579UnsupportedExecType')
.withArgs('0x03');
});
@ -103,7 +103,7 @@ describe('ERC7579Utils', function () {
[this.anotherTarget, value2, this.anotherTarget.interface.encodeFunctionData('mockFunction')],
);
await expect(this.utils.$execBatch(EXEC_TYPE_DEFAULT, data))
await expect(this.utils.$execBatch(data, EXEC_TYPE_DEFAULT))
.to.emit(this.target, 'MockFunctionCalled')
.to.emit(this.anotherTarget, 'MockFunctionCalled');
@ -123,7 +123,7 @@ describe('ERC7579Utils', function () {
],
);
await expect(this.utils.$execBatch(EXEC_TYPE_DEFAULT, data))
await expect(this.utils.$execBatch(data, EXEC_TYPE_DEFAULT))
.to.emit(this.target, 'MockFunctionCalledWithArgs')
.to.emit(this.anotherTarget, 'MockFunctionCalledWithArgs');
@ -139,7 +139,7 @@ describe('ERC7579Utils', function () {
[this.anotherTarget, value2, this.anotherTarget.interface.encodeFunctionData('mockFunctionRevertsReason')],
);
await expect(this.utils.$execBatch(EXEC_TYPE_DEFAULT, data)).to.be.revertedWith('CallReceiverMock: reverting');
await expect(this.utils.$execBatch(data, EXEC_TYPE_DEFAULT)).to.be.revertedWith('CallReceiverMock: reverting');
});
it('emits ERC7579TryExecuteFail event when any target reverts in try ExecType', async function () {
@ -150,7 +150,7 @@ describe('ERC7579Utils', function () {
[this.anotherTarget, value2, this.anotherTarget.interface.encodeFunctionData('mockFunctionRevertsReason')],
);
await expect(this.utils.$execBatch(EXEC_TYPE_TRY, data))
await expect(this.utils.$execBatch(data, EXEC_TYPE_TRY))
.to.emit(this.utils, 'ERC7579TryExecuteFail')
.withArgs(
CALL_TYPE_BATCH,
@ -173,7 +173,7 @@ describe('ERC7579Utils', function () {
[this.anotherTarget, value2, this.anotherTarget.interface.encodeFunctionData('mockFunction')],
);
await expect(this.utils.$execBatch('0x03', data))
await expect(this.utils.$execBatch(data, '0x03'))
.to.be.revertedWithCustomError(this.utils, 'ERC7579UnsupportedExecType')
.withArgs('0x03');
});
@ -189,20 +189,20 @@ describe('ERC7579Utils', function () {
);
expect(ethers.provider.getStorage(this.utils.target, slot)).to.eventually.equal(ethers.ZeroHash);
await this.utils.$execDelegateCall(EXEC_TYPE_DEFAULT, data);
await this.utils.$execDelegateCall(data, EXEC_TYPE_DEFAULT);
expect(ethers.provider.getStorage(this.utils.target, slot)).to.eventually.equal(value);
});
it('reverts when target reverts in default ExecType', async function () {
const data = encodeDelegate(this.target, this.target.interface.encodeFunctionData('mockFunctionRevertsReason'));
await expect(this.utils.$execDelegateCall(EXEC_TYPE_DEFAULT, data)).to.be.revertedWith(
await expect(this.utils.$execDelegateCall(data, EXEC_TYPE_DEFAULT)).to.be.revertedWith(
'CallReceiverMock: reverting',
);
});
it('emits ERC7579TryExecuteFail event when target reverts in try ExecType', async function () {
const data = encodeDelegate(this.target, this.target.interface.encodeFunctionData('mockFunctionRevertsReason'));
await expect(this.utils.$execDelegateCall(EXEC_TYPE_TRY, data))
await expect(this.utils.$execDelegateCall(data, EXEC_TYPE_TRY))
.to.emit(this.utils, 'ERC7579TryExecuteFail')
.withArgs(
CALL_TYPE_CALL,
@ -215,7 +215,7 @@ describe('ERC7579Utils', function () {
it('reverts with an invalid exec type', async function () {
const data = encodeDelegate(this.target, this.target.interface.encodeFunctionData('mockFunction'));
await expect(this.utils.$execDelegateCall('0x03', data))
await expect(this.utils.$execDelegateCall(data, '0x03'))
.to.be.revertedWithCustomError(this.utils, 'ERC7579UnsupportedExecType')
.withArgs('0x03');
});

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