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295 lines
9.2 KiB
295 lines
9.2 KiB
// SPDX-License-Identifier: Apache-2.0
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pragma solidity ^0.8.13;
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import "forge-std/Test.sol";
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import "@openzeppelin/contracts/utils/cryptography/ECDSA.sol";
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import "../contracts/libs/TypeCasts.sol";
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import "../contracts/test/TestMailbox.sol";
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import "../contracts/CheckpointFraudProofs.sol";
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import "../contracts/test/TestMerkleTreeHook.sol";
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import "../contracts/test/TestPostDispatchHook.sol";
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// must have keys ordered alphabetically
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struct Proof {
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uint32 index;
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bytes32 leaf;
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bytes32[] path; // cannot be static length or json parsing breaks
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}
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// must have keys ordered alphabetically
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struct Fixture {
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bytes32 expectedRoot;
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string[] leaves;
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Proof[] proofs;
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string testName;
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}
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uint8 constant FIXTURE_COUNT = 5;
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contract CheckpointFraudProofsTest is Test {
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using TypeCasts for address;
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using stdJson for string;
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uint32 localDomain = 1000;
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uint32 remoteDomain = 2000;
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string json = vm.readFile("../vectors/merkle.json");
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TestMailbox mailbox;
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TestMerkleTreeHook merkleTreeHook;
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CheckpointFraudProofs cfp;
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function setUp() public {
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mailbox = new TestMailbox(localDomain);
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cfp = new CheckpointFraudProofs();
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}
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function loadFixture(
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uint32 fixtureIndex
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)
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internal
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returns (
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Checkpoint[] memory checkpoints,
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bytes32[TREE_DEPTH][] memory proofs
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)
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{
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bytes memory data = json.parseRaw(
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string.concat(".[", vm.toString(fixtureIndex), "]")
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);
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Fixture memory fixture = abi.decode(data, (Fixture));
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console.log(fixture.testName);
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merkleTreeHook = new TestMerkleTreeHook(address(mailbox));
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bytes32 merkleBytes = address(merkleTreeHook).addressToBytes32();
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checkpoints = new Checkpoint[](fixture.leaves.length);
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proofs = new bytes32[TREE_DEPTH][](fixture.proofs.length);
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for (uint32 index = 0; index < fixture.leaves.length; index++) {
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bytes32 leaf = ECDSA.toEthSignedMessageHash(
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abi.encodePacked(fixture.leaves[index])
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);
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merkleTreeHook.insert(leaf);
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checkpoints[index] = Checkpoint(
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localDomain,
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merkleBytes,
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merkleTreeHook.root(),
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index,
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leaf
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);
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proofs[index] = parseProof(fixture.proofs[index]);
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}
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assert(fixture.expectedRoot == merkleTreeHook.root());
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}
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function parseProof(
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Proof memory proof
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) internal pure returns (bytes32[TREE_DEPTH] memory path) {
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for (uint8 i = 0; i < proof.path.length; i++) {
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path[i] = proof.path[i];
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}
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}
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function test_isLocal(uint8 fixtureIndex) public {
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vm.assume(fixtureIndex < FIXTURE_COUNT);
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(Checkpoint[] memory checkpoints, ) = loadFixture(fixtureIndex);
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for (uint32 i = 0; i < checkpoints.length; i++) {
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assertTrue(cfp.isLocal(checkpoints[i]));
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checkpoints[i].origin = remoteDomain;
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assertFalse(cfp.isLocal(checkpoints[i]));
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}
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}
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function test_isPremature(uint8 fixtureIndex) public {
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vm.assume(fixtureIndex < FIXTURE_COUNT);
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(Checkpoint[] memory checkpoints, ) = loadFixture(fixtureIndex);
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for (uint32 i = 0; i < checkpoints.length; i++) {
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assertFalse(cfp.isPremature(checkpoints[i]));
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}
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Checkpoint memory prematureCheckpoint = Checkpoint(
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localDomain,
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address(merkleTreeHook).addressToBytes32(),
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0,
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merkleTreeHook.count(),
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0
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);
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assertTrue(cfp.isPremature(prematureCheckpoint));
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merkleTreeHook.insert(bytes32("0xdeadbeef"));
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assertFalse(cfp.isPremature(prematureCheckpoint));
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}
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function test_RevertWhenNotLocal_isPremature(uint8 fixtureIndex) public {
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vm.assume(fixtureIndex < FIXTURE_COUNT);
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(Checkpoint[] memory checkpoints, ) = loadFixture(fixtureIndex);
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for (uint32 i = 0; i < checkpoints.length; i++) {
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checkpoints[i].origin = remoteDomain;
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vm.expectRevert("must be local checkpoint");
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cfp.isPremature(checkpoints[i]);
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}
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}
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function test_isFraudulentMessageId(uint8 fixtureIndex) public {
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vm.assume(fixtureIndex < FIXTURE_COUNT);
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(
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Checkpoint[] memory checkpoints,
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bytes32[32][] memory proofs
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) = loadFixture(fixtureIndex);
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// cannot store checkpoint when count is 0
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if (checkpoints.length != 0) {
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cfp.storeLatestCheckpoint(address(merkleTreeHook));
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}
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for (uint32 i = 0; i < checkpoints.length; i++) {
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assertFalse(
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cfp.isFraudulentMessageId(
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checkpoints[i],
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proofs[i],
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checkpoints[i].messageId
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)
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);
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bytes32 actualMessageId = checkpoints[i].messageId;
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checkpoints[i].messageId = ~actualMessageId;
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assertTrue(
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cfp.isFraudulentMessageId(
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checkpoints[i],
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proofs[i],
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actualMessageId
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)
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);
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}
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}
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function test_RevertWhenNotStored_isFraudulentMessageId(
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uint8 fixtureIndex
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) public {
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vm.assume(fixtureIndex < FIXTURE_COUNT);
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(
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Checkpoint[] memory checkpoints,
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bytes32[32][] memory proofs
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) = loadFixture(fixtureIndex);
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for (uint32 index = 0; index < checkpoints.length; index++) {
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vm.expectRevert("message must be member of stored checkpoint");
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cfp.isFraudulentMessageId(
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checkpoints[index],
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proofs[index],
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checkpoints[index].messageId
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);
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}
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// cannot store checkpoint when count is 0
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if (checkpoints.length != 0) {
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cfp.storeLatestCheckpoint(address(merkleTreeHook));
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}
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// providing an invalid merkle proof should revert with not stored
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for (uint32 index = 0; index < checkpoints.length; index++) {
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proofs[index][0] = ~proofs[index][0];
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vm.expectRevert("message must be member of stored checkpoint");
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cfp.isFraudulentMessageId(
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checkpoints[index],
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proofs[index],
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checkpoints[index].messageId
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);
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}
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}
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function test_RevertWhenNotLocal_isFraudulentMessageId(
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uint8 fixtureIndex
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) public {
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vm.assume(fixtureIndex < FIXTURE_COUNT);
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(
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Checkpoint[] memory checkpoints,
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bytes32[32][] memory proofs
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) = loadFixture(fixtureIndex);
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for (uint32 i = 0; i < checkpoints.length; i++) {
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checkpoints[i].origin = remoteDomain;
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vm.expectRevert("must be local checkpoint");
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cfp.isFraudulentMessageId(
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checkpoints[i],
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proofs[i],
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checkpoints[i].messageId
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);
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}
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}
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function test_IsFraudulentRoot(uint8 fixtureIndex) public {
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vm.assume(fixtureIndex < FIXTURE_COUNT);
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(
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Checkpoint[] memory checkpoints,
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bytes32[32][] memory proofs
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) = loadFixture(fixtureIndex);
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// cannot store checkpoint when count is 0
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if (checkpoints.length != 0) {
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cfp.storeLatestCheckpoint(address(merkleTreeHook));
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}
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// check all messages against latest stored checkpoint
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for (uint32 i = 0; i < checkpoints.length; i++) {
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assertFalse(cfp.isFraudulentRoot(checkpoints[i], proofs[i]));
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checkpoints[i].root = ~checkpoints[i].root;
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assertTrue(cfp.isFraudulentRoot(checkpoints[i], proofs[i]));
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}
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}
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function test_RevertWhenNotStored_isFraudulentRoot(
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uint8 fixtureIndex
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) public {
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vm.assume(fixtureIndex < FIXTURE_COUNT);
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(
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Checkpoint[] memory checkpoints,
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bytes32[32][] memory proofs
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) = loadFixture(fixtureIndex);
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for (uint32 index = 0; index < checkpoints.length; index++) {
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vm.expectRevert("message must be member of stored checkpoint");
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cfp.isFraudulentRoot(checkpoints[index], proofs[index]);
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}
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// cannot store checkpoint when count is 0
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if (checkpoints.length != 0) {
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cfp.storeLatestCheckpoint(address(merkleTreeHook));
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}
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// providing an invalid merkle proof should revert with not stored
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for (uint32 index = 0; index < checkpoints.length; index++) {
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proofs[index][0] = ~proofs[index][0];
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vm.expectRevert("message must be member of stored checkpoint");
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cfp.isFraudulentRoot(checkpoints[index], proofs[index]);
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}
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}
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function test_RevertWhenNotLocal_isFraudulentRoot(
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uint8 fixtureIndex
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) public {
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vm.assume(fixtureIndex < FIXTURE_COUNT);
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(
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Checkpoint[] memory checkpoints,
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bytes32[32][] memory proofs
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) = loadFixture(fixtureIndex);
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for (uint32 i = 0; i < checkpoints.length; i++) {
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checkpoints[i].origin = remoteDomain;
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vm.expectRevert("must be local checkpoint");
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cfp.isFraudulentRoot(checkpoints[i], proofs[i]);
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}
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}
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}
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