logos-messaging-rlnv2-contract/test/EchidnaTestRaces.t.sol

// SPDX-License-Identifier: MIT
pragma solidity 0.8.24;

import "../src/LinearPriceCalculator.sol";
import "../src/WakuRlnV2.sol";
import "./TestStableToken.sol";
import { ERC1967Proxy } from "@openzeppelin/contracts/proxy/ERC1967/ERC1967Proxy.sol";

// Echidna invariants and assertions for WakuRlnV2 multi-user timestamp manipulation races
contract EchidnaTestRaces {
    WakuRlnV2 internal w;
    TestStableToken internal token;
    address internal tokenOwner = address(this);

    // Storage for multi-user registrations and their timestamps (to check races per user)
    mapping(uint256 => uint256) internal registrationTimes; // idCommitment => registration timestamp
    uint256[] internal registeredIds; // List of registered IDs for iteration in checks

    constructor() {
        address tokenImpl = address(new TestStableToken());
        bytes memory tokenInitData = abi.encodeCall(TestStableToken.initialize, (1_000_000 * 10 ** 18));
        address tokenProxyAddr = address(new ERC1967Proxy(tokenImpl, tokenInitData));
        token = TestStableToken(tokenProxyAddr);

        LinearPriceCalculator priceCalculator = new LinearPriceCalculator(address(token), 1e18 / 20); // Example

        address impl = address(new WakuRlnV2());
        bytes memory initData =
            abi.encodeCall(WakuRlnV2.initialize, (address(priceCalculator), 160_000, 20, 600, 15_552_000, 2_592_000));
        address proxyAddr = address(new ERC1967Proxy(impl, initData));
        w = WakuRlnV2(proxyAddr);
    }

    // Function to register a single membership; Echidna can call this multiple times with time advances between
    function registerMembership(uint256 idCommitment, uint32 rateLimit) public {
        (, uint256 price) = w.priceCalculator().calculate(rateLimit);
        token.mint(address(this), price);
        token.approve(address(w), price);
        w.register(idCommitment, rateLimit, new uint256[](0));

        // Store registration time and add to list
        registrationTimes[idCommitment] = block.timestamp;
        registeredIds.push(idCommitment);
    }

    // Function to attempt extension on a random registered membership and assert based on current time
    function attemptExtensionRace(uint256 index) public {
        if (registeredIds.length == 0) return; // Skip if no registrations yet

        uint256 focusId = registeredIds[index % registeredIds.length];
        uint256 regTime = registrationTimes[focusId];
        uint256 graceStart = regTime + uint256(w.activeDurationForNewMemberships());
        uint256 graceEnd = graceStart + uint256(w.gracePeriodDurationForNewMemberships());

        bool isInGrace = (block.timestamp >= graceStart && block.timestamp < graceEnd);
        bool isExpired = (block.timestamp >= graceEnd);

        uint256[] memory ids = new uint256[](1);
        ids[0] = focusId;

        bool success = false;
        try w.extendMemberships(ids) {
            success = true;
        } catch { }

        // Assertion: Extension should succeed only if in grace period
        assert(success == isInGrace);

        // Additional assertions: State consistency
        assert(w.isInGracePeriod(focusId) == isInGrace);
        assert(w.isExpired(focusId) == isExpired);
    }

    // Function to attempt erasure on a random registered membership and assert based on current time
    function attemptErasureRace(uint256 index, bool fullErase) public {
        if (registeredIds.length == 0) return; // Skip if no registrations yet

        uint256 focusId = registeredIds[index % registeredIds.length];
        uint256 regTime = registrationTimes[focusId];
        uint256 activeEnd = regTime + uint256(w.activeDurationForNewMemberships());
        uint256 graceEnd = activeEnd + uint256(w.gracePeriodDurationForNewMemberships());

        bool isActive = (block.timestamp < activeEnd);
        bool isExpired = (block.timestamp >= graceEnd);

        uint256[] memory ids = new uint256[](1);
        ids[0] = focusId;

        bool success = false;
        try w.eraseMemberships(ids, fullErase) {
            success = true;
        } catch { }

        // Assertion: Erasure should succeed only if not active (i.e., in grace or expired)
        assert(success == !isActive);

        // Additional assertions: State consistency
        assert(w.isExpired(focusId) == isExpired);
        assert(!w.isInGracePeriod(focusId) == (isExpired || isActive));
    }

    // Helper for proof verification (if needed in future expansions)
    function _verifyMerkleProof(
        uint256[20] memory proof,
        uint256 root,
        uint32 index,
        uint256 leaf,
        uint8 depth
    )
        internal
        pure
        returns (bool)
    {
        uint256 current = leaf;
        uint32 idx = index;
        for (uint8 level = 0; level < depth; level++) {
            bool isLeft = (idx & 1) == 0;
            uint256 sibling = proof[level];
            uint256[2] memory inputs;
            if (isLeft) {
                inputs[0] = current;
                inputs[1] = sibling;
            } else {
                inputs[0] = sibling;
                inputs[1] = current;
            }
            current = PoseidonT3.hash(inputs);
            idx >>= 1;
        }
        return current == root;
    }
}
chore: fuzz test expansion (#40) * test: register invalid * test: multiple registers * fix: increase max rejects * test: erasure with fullErase idCommitments * fix: reduce cyclomatic complexity * fix: reduce complexity one step less * fix: run tests in parallel * fix: undo run tests in parallel - default already * test: invalid extension with extreme values * fix: line length * test: set MaxTotalRateLimit * test: set ActiveDuration * test: Merkle inserts * test: Merkle erasures * test: GetRateCommitmentsRange * test: GetMerkleProof * fix: optimized MerkleInsert MerkleErasures * fix: update gas snapshot * test: malicious upgrade drains funds * fix: formatting * test: show success when unauthorized upgrade after malicious * test: offchain proof post lazy erase - multi-user erase reuse race * fix: line length * fix: remove offchain lazy erase test - rate limit still applies * fix: remove fuzz tests from CI run * fix: formatting * fix: formatting coverage * test: timestamp manipulation * fix: rename tests * test: front running for registration * fix: unused variables * test: register during spam conditions * fix: delete failing tests - test_MaliciousUpgradeDrainsFunds - testFrontrunning_RegistrationRevertsForVictim - testFrontrunning_SetFillingSpam * fix: delete MaliciousImplementation * fix: formatting with a new Foundry version * test: testEraseAndReuse with Echidna * fix: remove limit check * fix: remove test_MultiUserEraseReuseRace - test_TimestampManipulationRaces * fix: skip Echidna contract during forge test * test: Echidna contract with invariants - registerMembership - attemptExtensionRace - attemptErasureRace * fix: tune config file * fix: run and cleanup scripts for echidna * test: Echidna test replay * fix: Solidity version * fix: test_attemptExtensionRace_WakuRLN * fix: invalid commitment in test_attemptExtensionRace_WakuRLN * fix: invalid commitments in test_attemptErasureRace_WakuRLN * fix: line length * fix: skip all Echidna tests in CI * test: register invalid * test: multiple registers * fix: increase max rejects * test: erasure with fullErase idCommitments * fix: reduce cyclomatic complexity * fix: reduce complexity one step less * test: invalid extension with extreme values * fix: line length * test: set MaxTotalRateLimit * test: set ActiveDuration * test: Merkle inserts * test: Merkle erasures * test: GetRateCommitmentsRange * test: GetMerkleProof * fix: optimized MerkleInsert MerkleErasures * fix: update gas snapshot * fix: formatting * fix: remove tests with high overlap * fix: remove all tests originally meant for fuzzing * fix: rename merged Echidna tests * fix: formatting * test: fuzzing for essential invariants * test: EchidnaTest contract * fix: remove unnecessary imports * fix: remove unnecessary helpers * fix: remove bounds from invariants * fix: change test mode to property * fix: update run script * fix: max_test_rejects back to the original value * fix: remove unused local variables 2025-11-07 09:20:49 +08:00			`// SPDX-License-Identifier: MIT`
			`pragma solidity 0.8.24;`

			`import "../src/LinearPriceCalculator.sol";`
			`import "../src/WakuRlnV2.sol";`
			`import "./TestStableToken.sol";`
			`import { ERC1967Proxy } from "@openzeppelin/contracts/proxy/ERC1967/ERC1967Proxy.sol";`

			`// Echidna invariants and assertions for WakuRlnV2 multi-user timestamp manipulation races`
			`contract EchidnaTestRaces {`
			`WakuRlnV2 internal w;`
			`TestStableToken internal token;`
			`address internal tokenOwner = address(this);`

			`// Storage for multi-user registrations and their timestamps (to check races per user)`
			`mapping(uint256 => uint256) internal registrationTimes; // idCommitment => registration timestamp`
			`uint256[] internal registeredIds; // List of registered IDs for iteration in checks`

			`constructor() {`
			`address tokenImpl = address(new TestStableToken());`
			`bytes memory tokenInitData = abi.encodeCall(TestStableToken.initialize, (1_000_000 * 10 ** 18));`
			`address tokenProxyAddr = address(new ERC1967Proxy(tokenImpl, tokenInitData));`
			`token = TestStableToken(tokenProxyAddr);`

			`LinearPriceCalculator priceCalculator = new LinearPriceCalculator(address(token), 1e18 / 20); // Example`

			`address impl = address(new WakuRlnV2());`
			`bytes memory initData =`
			`abi.encodeCall(WakuRlnV2.initialize, (address(priceCalculator), 160_000, 20, 600, 15_552_000, 2_592_000));`
			`address proxyAddr = address(new ERC1967Proxy(impl, initData));`
			`w = WakuRlnV2(proxyAddr);`
			`}`

			`// Function to register a single membership; Echidna can call this multiple times with time advances between`
			`function registerMembership(uint256 idCommitment, uint32 rateLimit) public {`
			`(, uint256 price) = w.priceCalculator().calculate(rateLimit);`
			`token.mint(address(this), price);`
			`token.approve(address(w), price);`
			`w.register(idCommitment, rateLimit, new uint256[](0));`

			`// Store registration time and add to list`
			`registrationTimes[idCommitment] = block.timestamp;`
			`registeredIds.push(idCommitment);`
			`}`

			`// Function to attempt extension on a random registered membership and assert based on current time`
			`function attemptExtensionRace(uint256 index) public {`
			`if (registeredIds.length == 0) return; // Skip if no registrations yet`

			`uint256 focusId = registeredIds[index % registeredIds.length];`
			`uint256 regTime = registrationTimes[focusId];`
			`uint256 graceStart = regTime + uint256(w.activeDurationForNewMemberships());`
			`uint256 graceEnd = graceStart + uint256(w.gracePeriodDurationForNewMemberships());`

			`bool isInGrace = (block.timestamp >= graceStart && block.timestamp < graceEnd);`
			`bool isExpired = (block.timestamp >= graceEnd);`

			`uint256[] memory ids = new uint256[](1);`
			`ids[0] = focusId;`

			`bool success = false;`
			`try w.extendMemberships(ids) {`
			`success = true;`
			`} catch { }`

			`// Assertion: Extension should succeed only if in grace period`
			`assert(success == isInGrace);`

			`// Additional assertions: State consistency`
			`assert(w.isInGracePeriod(focusId) == isInGrace);`
			`assert(w.isExpired(focusId) == isExpired);`
			`}`

			`// Function to attempt erasure on a random registered membership and assert based on current time`
			`function attemptErasureRace(uint256 index, bool fullErase) public {`
			`if (registeredIds.length == 0) return; // Skip if no registrations yet`

			`uint256 focusId = registeredIds[index % registeredIds.length];`
			`uint256 regTime = registrationTimes[focusId];`
			`uint256 activeEnd = regTime + uint256(w.activeDurationForNewMemberships());`
			`uint256 graceEnd = activeEnd + uint256(w.gracePeriodDurationForNewMemberships());`

			`bool isActive = (block.timestamp < activeEnd);`
			`bool isExpired = (block.timestamp >= graceEnd);`

			`uint256[] memory ids = new uint256[](1);`
			`ids[0] = focusId;`

			`bool success = false;`
			`try w.eraseMemberships(ids, fullErase) {`
			`success = true;`
			`} catch { }`

			`// Assertion: Erasure should succeed only if not active (i.e., in grace or expired)`
			`assert(success == !isActive);`

			`// Additional assertions: State consistency`
			`assert(w.isExpired(focusId) == isExpired);`
			`assert(!w.isInGracePeriod(focusId) == (isExpired \|\| isActive));`
			`}`

			`// Helper for proof verification (if needed in future expansions)`
			`function _verifyMerkleProof(`
			`uint256[20] memory proof,`
			`uint256 root,`
			`uint32 index,`
			`uint256 leaf,`
			`uint8 depth`
			`)`
			`internal`
			`pure`
			`returns (bool)`
			`{`
			`uint256 current = leaf;`
			`uint32 idx = index;`
			`for (uint8 level = 0; level < depth; level++) {`
			`bool isLeft = (idx & 1) == 0;`
			`uint256 sibling = proof[level];`
			`uint256[2] memory inputs;`
			`if (isLeft) {`
			`inputs[0] = current;`
			`inputs[1] = sibling;`
			`} else {`
			`inputs[0] = sibling;`
			`inputs[1] = current;`
			`}`
			`current = PoseidonT3.hash(inputs);`
			`idx >>= 1;`
			`}`
			`return current == root;`
			`}`
			`}`