e8ae376e90
- Integrated Zod validation schemas across various API routes to ensure input integrity and improve error handling. - Updated `mapping-service`, `orchestrator`, `packet-service`, and `webhook-service` to utilize validation middleware for request parameters and bodies. - Improved error handling in webhook management, packet generation, and compliance routes to provide clearer feedback on request failures. - Added new validation schemas for various endpoints, enhancing overall API robustness and maintainability. - Updated dependencies in `package.json` to include the new validation library.
258 lines
8.9 KiB
Solidity
258 lines
8.9 KiB
Solidity
// SPDX-License-Identifier: MIT
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pragma solidity ^0.8.20;
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import "forge-std/Test.sol";
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import "../../src/BridgeVault138.sol";
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import "../../src/PolicyManager.sol";
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import "../../src/ComplianceRegistry.sol";
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import "../../src/DebtRegistry.sol";
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import "../../src/eMoneyToken.sol";
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import "../../test/mocks/MockLightClient.sol";
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import "../../src/errors/BridgeErrors.sol";
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import "@openzeppelin/contracts/proxy/ERC1967/ERC1967Proxy.sol";
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import "@openzeppelin/contracts/token/ERC20/IERC20.sol";
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contract BridgeVault138Test is Test {
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BridgeVault138 public bridgeVault;
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PolicyManager public policyManager;
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ComplianceRegistry public complianceRegistry;
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DebtRegistry public debtRegistry;
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eMoneyToken public token;
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MockLightClient public mockLightClient;
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address public admin;
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address public bridgeOperator;
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address public user1;
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address public user2;
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function setUp() public {
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admin = address(0x1);
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bridgeOperator = address(0x2);
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user1 = address(0x10);
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user2 = address(0x20);
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complianceRegistry = new ComplianceRegistry(admin);
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debtRegistry = new DebtRegistry(admin);
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policyManager = new PolicyManager(admin, address(complianceRegistry), address(debtRegistry));
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// Deploy token implementation
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eMoneyToken implementation = new eMoneyToken();
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bytes memory initData = abi.encodeWithSelector(
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eMoneyToken.initialize.selector,
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"Test Token",
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"TEST",
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18,
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admin,
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address(policyManager),
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address(debtRegistry),
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address(complianceRegistry)
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);
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ERC1967Proxy proxy = new ERC1967Proxy(address(implementation), initData);
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token = eMoneyToken(address(proxy));
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bridgeVault = new BridgeVault138(admin, address(policyManager), address(complianceRegistry));
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mockLightClient = new MockLightClient();
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// Set up roles
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vm.startPrank(admin);
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bridgeVault.grantRole(bridgeVault.BRIDGE_OPERATOR_ROLE(), bridgeOperator);
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bridgeVault.setLightClient(address(mockLightClient));
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complianceRegistry.grantRole(complianceRegistry.COMPLIANCE_ROLE(), admin);
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complianceRegistry.setCompliance(user1, true, 1, bytes32(0));
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complianceRegistry.setCompliance(user2, true, 1, bytes32(0));
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complianceRegistry.setCompliance(address(bridgeVault), true, 1, bytes32(0));
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policyManager.grantRole(policyManager.POLICY_OPERATOR_ROLE(), admin);
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policyManager.setLienMode(address(token), 2);
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vm.stopPrank();
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// Grant issuer role (admin has DEFAULT_ADMIN_ROLE from token initialization)
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vm.startPrank(admin);
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token.grantRole(token.ISSUER_ROLE(), admin);
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vm.stopPrank();
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}
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function test_lock_success() public {
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vm.prank(admin);
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token.mint(user1, 1000, bytes32(0));
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vm.prank(user1);
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token.approve(address(bridgeVault), 500);
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vm.prank(user1);
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bridgeVault.lock(address(token), 500, bytes32("ethereum"), user2);
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assertEq(token.balanceOf(address(bridgeVault)), 500);
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assertEq(token.balanceOf(user1), 500);
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}
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function test_lock_transferBlocked() public {
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vm.prank(admin);
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token.mint(user1, 1000, bytes32(0));
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// Freeze user1 to block transfer
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vm.prank(admin);
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complianceRegistry.setFrozen(user1, true);
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vm.prank(user1);
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token.approve(address(bridgeVault), 500);
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vm.prank(user1);
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vm.expectRevert(abi.encodeWithSelector(BridgeTransferBlocked.selector, address(token), user1, address(bridgeVault), 500));
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bridgeVault.lock(address(token), 500, bytes32("ethereum"), user2);
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// Verify tokens were NOT transferred (logic order fix)
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assertEq(token.balanceOf(address(bridgeVault)), 0);
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assertEq(token.balanceOf(user1), 1000);
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}
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function test_unlock_success() public {
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vm.prank(admin);
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token.mint(user1, 1000, bytes32(0));
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vm.prank(user1);
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token.approve(address(bridgeVault), 500);
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vm.prank(user1);
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bridgeVault.lock(address(token), 500, bytes32("ethereum"), user2);
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bytes32 sourceChain = bytes32("ethereum");
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bytes32 sourceTx = bytes32("txhash");
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mockLightClient.registerProof(sourceChain, sourceTx);
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vm.prank(bridgeOperator);
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bridgeVault.unlock(address(token), user2, 500, sourceChain, sourceTx, "");
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assertEq(token.balanceOf(address(bridgeVault)), 0);
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assertEq(token.balanceOf(user2), 500);
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}
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function test_unlock_proofVerificationFails() public {
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vm.prank(admin);
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token.mint(user1, 1000, bytes32(0));
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vm.prank(user1);
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token.approve(address(bridgeVault), 500);
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vm.prank(user1);
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bridgeVault.lock(address(token), 500, bytes32("ethereum"), user2);
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mockLightClient.setAlwaysVerify(false);
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vm.prank(bridgeOperator);
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vm.expectRevert(abi.encodeWithSelector(BridgeProofVerificationFailed.selector, bytes32("ethereum"), bytes32("txhash")));
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bridgeVault.unlock(address(token), user2, 500, bytes32("ethereum"), bytes32("txhash"), "");
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}
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function test_unlock_lightClientNotSet() public {
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BridgeVault138 newVault = new BridgeVault138(admin, address(policyManager), address(complianceRegistry));
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vm.startPrank(admin);
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newVault.grantRole(newVault.BRIDGE_OPERATOR_ROLE(), bridgeOperator);
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complianceRegistry.setCompliance(address(newVault), true, 1, bytes32(0));
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vm.stopPrank();
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vm.prank(admin);
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token.mint(user1, 1000, bytes32(0));
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vm.prank(user1);
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token.approve(address(newVault), 500);
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vm.prank(user1);
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newVault.lock(address(token), 500, bytes32("ethereum"), user2);
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vm.prank(bridgeOperator);
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vm.expectRevert(BridgeLightClientNotSet.selector);
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newVault.unlock(address(token), user2, 500, bytes32("ethereum"), bytes32("txhash"), "");
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}
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function test_lock_zeroToken() public {
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vm.prank(user1);
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vm.expectRevert(BridgeZeroToken.selector);
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bridgeVault.lock(address(0), 500, bytes32("ethereum"), user2);
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}
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function test_lock_zeroAmount() public {
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vm.prank(admin);
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token.mint(user1, 1000, bytes32(0));
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vm.prank(user1);
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token.approve(address(bridgeVault), 500);
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vm.prank(user1);
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vm.expectRevert(BridgeZeroAmount.selector);
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bridgeVault.lock(address(token), 0, bytes32("ethereum"), user2);
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}
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function test_lock_zeroRecipient() public {
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vm.prank(admin);
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token.mint(user1, 1000, bytes32(0));
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vm.prank(user1);
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token.approve(address(bridgeVault), 500);
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vm.prank(user1);
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vm.expectRevert(BridgeZeroRecipient.selector);
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bridgeVault.lock(address(token), 500, bytes32("ethereum"), address(0));
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}
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function test_unlock_nonCompliantRecipient() public {
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address nonCompliant = address(0x99);
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vm.prank(admin);
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token.mint(user1, 1000, bytes32(0));
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vm.prank(user1);
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token.approve(address(bridgeVault), 500);
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vm.prank(user1);
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bridgeVault.lock(address(token), 500, bytes32("ethereum"), nonCompliant);
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bytes32 sourceChain = bytes32("ethereum");
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bytes32 sourceTx = bytes32("txhash");
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mockLightClient.registerProof(sourceChain, sourceTx);
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vm.prank(bridgeOperator);
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vm.expectRevert(abi.encodeWithSelector(BridgeRecipientNotCompliant.selector, nonCompliant));
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bridgeVault.unlock(address(token), nonCompliant, 500, sourceChain, sourceTx, "");
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}
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function test_unlock_frozenRecipient() public {
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vm.prank(admin);
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token.mint(user1, 1000, bytes32(0));
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vm.prank(user1);
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token.approve(address(bridgeVault), 500);
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vm.prank(user1);
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bridgeVault.lock(address(token), 500, bytes32("ethereum"), user2);
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vm.prank(admin);
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complianceRegistry.setFrozen(user2, true);
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bytes32 sourceChain = bytes32("ethereum");
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bytes32 sourceTx = bytes32("txhash");
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mockLightClient.registerProof(sourceChain, sourceTx);
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vm.prank(bridgeOperator);
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vm.expectRevert(abi.encodeWithSelector(BridgeRecipientFrozen.selector, user2));
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bridgeVault.unlock(address(token), user2, 500, sourceChain, sourceTx, "");
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}
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function test_lock_reentrancy() public {
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vm.prank(admin);
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token.mint(user1, 1000, bytes32(0));
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vm.prank(user1);
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token.approve(address(bridgeVault), 1000);
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// This test verifies that nonReentrant modifier prevents reentrancy
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// In a real attack, a malicious contract would try to reenter during the transfer
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vm.prank(user1);
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bridgeVault.lock(address(token), 500, bytes32("ethereum"), user2);
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// If reentrancy was possible, balance would be wrong
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assertEq(token.balanceOf(address(bridgeVault)), 500);
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assertEq(token.balanceOf(user1), 500);
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}
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}
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