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hyperlane-monorepo/solidity/test/InterchainAccountRouter.t.sol

429 lines
14 KiB

// SPDX-License-Identifier: Apache-2.0
pragma solidity ^0.8.13;
import {TransparentUpgradeableProxy} from "@openzeppelin/contracts/proxy/transparent/TransparentUpgradeableProxy.sol";
import "forge-std/Test.sol";
import "../contracts/mock/MockMailbox.sol";
import "../contracts/mock/MockHyperlaneEnvironment.sol";
import {TypeCasts} from "../contracts/libs/TypeCasts.sol";
import {IInterchainSecurityModule} from "../contracts/interfaces/IInterchainSecurityModule.sol";
import {IInterchainGasPaymaster} from "../contracts/interfaces/IInterchainGasPaymaster.sol";
import {CallLib, OwnableMulticall, InterchainAccountRouter} from "../contracts/middleware/InterchainAccountRouter.sol";
import {InterchainAccountIsm} from "../contracts/isms/routing/InterchainAccountIsm.sol";
contract Callable {
mapping(address => bytes32) public data;
function set(bytes32 _data) external {
data[msg.sender] = _data;
}
}
contract FailingIsm is IInterchainSecurityModule {
string public failureMessage;
uint8 public moduleType;
constructor(string memory _failureMessage) {
failureMessage = _failureMessage;
}
function verify(
bytes calldata,
bytes calldata
) external view returns (bool) {
revert(failureMessage);
}
}
contract InterchainAccountRouterTest is Test {
using TypeCasts for address;
event InterchainAccountCreated(
uint32 indexed origin,
bytes32 indexed owner,
address ism,
address account
);
struct Bytes32Pair {
bytes32 a;
bytes32 b;
}
MockHyperlaneEnvironment environment;
uint32 origin = 1;
uint32 destination = 2;
InterchainAccountIsm icaIsm;
InterchainAccountRouter originRouter;
InterchainAccountRouter destinationRouter;
bytes32 ismOverride;
bytes32 routerOverride;
OwnableMulticall ica;
Callable target;
function deployProxiedIcaRouter(
MockMailbox _mailbox,
IInterchainGasPaymaster _igp,
IInterchainSecurityModule _ism,
address _owner
) public returns (InterchainAccountRouter) {
InterchainAccountRouter implementation = new InterchainAccountRouter(
address(_mailbox)
);
TransparentUpgradeableProxy proxy = new TransparentUpgradeableProxy(
address(implementation),
address(1), // no proxy owner necessary for testing
abi.encodeWithSelector(
InterchainAccountRouter.initialize.selector,
address(_igp),
address(_ism),
_owner
)
);
return InterchainAccountRouter(address(proxy));
}
function setUp() public {
environment = new MockHyperlaneEnvironment(origin, destination);
icaIsm = new InterchainAccountIsm(
address(environment.mailboxes(destination))
);
address owner = address(this);
originRouter = deployProxiedIcaRouter(
environment.mailboxes(origin),
environment.igps(destination),
icaIsm,
owner
);
destinationRouter = deployProxiedIcaRouter(
environment.mailboxes(destination),
environment.igps(destination),
icaIsm,
owner
);
routerOverride = TypeCasts.addressToBytes32(address(destinationRouter));
ismOverride = TypeCasts.addressToBytes32(
address(environment.isms(destination))
);
ica = destinationRouter.getLocalInterchainAccount(
origin,
address(this),
address(originRouter),
address(environment.isms(destination))
);
target = new Callable();
}
function testConstructor() public {
// The deployed ICA should be owned by the router
destinationRouter.getDeployedInterchainAccount(
origin,
address(this),
address(originRouter),
address(environment.isms(destination))
);
assertEq(ica.owner(), address(destinationRouter));
}
function testGetRemoteInterchainAccount() public {
assertEq(
originRouter.getRemoteInterchainAccount(
address(this),
address(destinationRouter),
address(environment.isms(destination))
),
address(ica)
);
originRouter.enrollRemoteRouterAndIsm(
destination,
routerOverride,
ismOverride
);
assertEq(
originRouter.getRemoteInterchainAccount(destination, address(this)),
address(ica)
);
}
function testEnrollRemoteRouters(
uint8 count,
uint32 domain,
bytes32 router
) public {
vm.assume(count > 0 && count < uint256(router) && count < domain);
uint32[] memory domains = new uint32[](count);
bytes32[] memory routers = new bytes32[](count);
for (uint256 i = 0; i < count; i++) {
domains[i] = domain - uint32(i);
routers[i] = bytes32(uint256(router) - i);
}
originRouter.enrollRemoteRouters(domains, routers);
uint32[] memory actualDomains = originRouter.domains();
assertEq(actualDomains.length, domains.length);
for (uint256 i = 0; i < count; i++) {
bytes32 actualRouter = originRouter.routers(domains[i]);
bytes32 actualIsm = originRouter.isms(domains[i]);
assertEq(actualRouter, routers[i]);
assertEq(actualIsm, bytes32(0));
assertEq(actualDomains[i], domains[i]);
}
assertEq(abi.encode(originRouter.domains()), abi.encode(domains));
}
function testEnrollRemoteRouterAndIsm(bytes32 router, bytes32 ism) public {
vm.assume(router != bytes32(0));
bytes32 actualRouter = originRouter.routers(destination);
bytes32 actualIsm = originRouter.isms(destination);
assertEq(actualRouter, bytes32(0));
assertEq(actualIsm, bytes32(0));
originRouter.enrollRemoteRouterAndIsm(destination, router, ism);
actualRouter = originRouter.routers(destination);
actualIsm = originRouter.isms(destination);
assertEq(actualRouter, router);
assertEq(actualIsm, ism);
}
function testEnrollRemoteRouterAndIsms(
uint32[] calldata destinations,
bytes32[] calldata routers,
bytes32[] calldata isms
) public {
if (
destinations.length != routers.length ||
destinations.length != isms.length
) {
vm.expectRevert(bytes("length mismatch"));
originRouter.enrollRemoteRouterAndIsms(destinations, routers, isms);
return;
}
originRouter.enrollRemoteRouterAndIsms(destinations, routers, isms);
for (uint256 i = 0; i < destinations.length; i++) {
bytes32 actualRouter = originRouter.routers(destinations[i]);
bytes32 actualIsm = originRouter.isms(destinations[i]);
assertEq(actualRouter, routers[i]);
assertEq(actualIsm, isms[i]);
}
}
function testEnrollRemoteRouterAndIsmImmutable(
bytes32 routerA,
bytes32 ismA,
bytes32 routerB,
bytes32 ismB
) public {
vm.assume(routerA != bytes32(0) && routerB != bytes32(0));
originRouter.enrollRemoteRouterAndIsm(destination, routerA, ismA);
vm.expectRevert(
bytes("router and ISM defaults are immutable once set")
);
originRouter.enrollRemoteRouterAndIsm(destination, routerB, ismB);
}
function testEnrollRemoteRouterAndIsmNonOwner(
address newOwner,
bytes32 router,
bytes32 ism
) public {
vm.assume(newOwner != address(0) && newOwner != originRouter.owner());
originRouter.transferOwnership(newOwner);
vm.expectRevert(bytes("Ownable: caller is not the owner"));
originRouter.enrollRemoteRouterAndIsm(destination, router, ism);
}
function getCalls(
bytes32 data
) private view returns (CallLib.Call[] memory) {
vm.assume(data != bytes32(0));
CallLib.Call memory call = CallLib.Call(
TypeCasts.addressToBytes32(address(target)),
0,
abi.encodeCall(target.set, (data))
);
CallLib.Call[] memory calls = new CallLib.Call[](1);
calls[0] = call;
return calls;
}
function assertRemoteCallReceived(bytes32 data) private {
assertEq(target.data(address(this)), bytes32(0));
vm.expectEmit(true, true, false, true, address(destinationRouter));
emit InterchainAccountCreated(
origin,
address(this).addressToBytes32(),
TypeCasts.bytes32ToAddress(ismOverride),
address(ica)
);
environment.processNextPendingMessage();
assertEq(target.data(address(ica)), data);
}
function testSingleCallRemoteWithDefault(bytes32 data) public {
originRouter.enrollRemoteRouterAndIsm(
destination,
routerOverride,
ismOverride
);
CallLib.Call[] memory calls = getCalls(data);
originRouter.callRemote(
destination,
TypeCasts.bytes32ToAddress(calls[0].to),
calls[0].value,
calls[0].data
);
assertRemoteCallReceived(data);
}
function testCallRemoteWithDefault(bytes32 data) public {
originRouter.enrollRemoteRouterAndIsm(
destination,
routerOverride,
ismOverride
);
originRouter.callRemote(destination, getCalls(data));
assertRemoteCallReceived(data);
}
function testOverrideAndCallRemote(bytes32 data) public {
originRouter.enrollRemoteRouterAndIsm(
destination,
routerOverride,
ismOverride
);
originRouter.callRemote(destination, getCalls(data));
assertRemoteCallReceived(data);
}
function testCallRemoteWithoutDefaults(bytes32 data) public {
CallLib.Call[] memory calls = getCalls(data);
vm.expectRevert(bytes("no router specified for destination"));
originRouter.callRemote(destination, calls);
}
function testCallRemoteWithOverrides(bytes32 data) public {
originRouter.callRemoteWithOverrides(
destination,
routerOverride,
ismOverride,
getCalls(data)
);
assertRemoteCallReceived(data);
}
function testCallRemoteWithFailingIsmOverride(bytes32 data) public {
string memory failureMessage = "failing ism";
bytes32 failingIsm = TypeCasts.addressToBytes32(
address(new FailingIsm(failureMessage))
);
originRouter.callRemoteWithOverrides(
destination,
routerOverride,
failingIsm,
getCalls(data)
);
vm.expectRevert(bytes(failureMessage));
environment.processNextPendingMessage();
}
function testCallRemoteWithFailingDefaultIsm(bytes32 data) public {
string memory failureMessage = "failing ism";
FailingIsm failingIsm = new FailingIsm(failureMessage);
environment.mailboxes(destination).setDefaultIsm(address(failingIsm));
originRouter.callRemoteWithOverrides(
destination,
routerOverride,
bytes32(0),
getCalls(data)
);
vm.expectRevert(bytes(failureMessage));
environment.processNextPendingMessage();
}
function testGetLocalInterchainAccount(bytes32 data) public {
OwnableMulticall destinationIca = destinationRouter
.getLocalInterchainAccount(
origin,
address(this),
address(originRouter),
address(environment.isms(destination))
);
assertEq(
address(destinationIca),
address(
destinationRouter.getLocalInterchainAccount(
origin,
TypeCasts.addressToBytes32(address(this)),
TypeCasts.addressToBytes32(address(originRouter)),
address(environment.isms(destination))
)
)
);
assertEq(address(destinationIca).code.length, 0);
originRouter.callRemoteWithOverrides(
destination,
routerOverride,
ismOverride,
getCalls(data)
);
assertRemoteCallReceived(data);
assert(address(destinationIca).code.length != 0);
}
function testReceiveValue(uint256 value) public {
vm.assume(value > 1 && value <= address(this).balance);
// receive value before deployed
assert(address(ica).code.length == 0);
bool success;
(success, ) = address(ica).call{value: value / 2}("");
require(success, "transfer before deploy failed");
// receive value after deployed
destinationRouter.getDeployedInterchainAccount(
origin,
address(this),
address(originRouter),
address(environment.isms(destination))
);
assert(address(ica).code.length > 0);
(success, ) = address(ica).call{value: value / 2}("");
require(success, "transfer after deploy failed");
}
function receiveValue(uint256 value) external payable {
assertEq(value, msg.value);
}
function testSendValue(uint256 value) public {
vm.assume(value > 0 && value <= address(this).balance);
payable(address(ica)).transfer(value);
bytes memory data = abi.encodeCall(this.receiveValue, (value));
CallLib.Call memory call = CallLib.build(address(this), value, data);
CallLib.Call[] memory calls = new CallLib.Call[](1);
calls[0] = call;
originRouter.callRemoteWithOverrides(
destination,
routerOverride,
ismOverride,
calls
);
vm.expectCall(address(this), value, data);
environment.processNextPendingMessage();
}
}