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0x2D1A340cd83434243D090931AfABF95B7D3078b0
 

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194884432024-03-22 6:40:35246 days ago1711089635  Contract Creation0 ETH
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Contract Source Code Verified (Exact Match)

Contract Name:
SignedZoneV16

Compiler Version
v0.8.17+commit.8df45f5f

Optimization Enabled:
Yes with 200 runs

Other Settings:
default evmVersion
File 1 of 8 : SignedZoneV16.sol
// SPDX-License-Identifier: MIT
pragma solidity ^0.8.13;

import {ZoneParameters, Schema, ReceivedItem} from "../lib/ConsiderationStructs.sol";

import {ZoneInterfaceV16} from "../interfaces/ZoneInterfaceV16.sol";

import {SignedZoneEventsAndErrors} from "./interfaces/SignedZoneEventsAndErrors.sol";

import {SIP5Interface} from "./interfaces/SIP5Interface.sol";

import {SignedZoneControllerInterface} from "./interfaces/SignedZoneControllerInterface.sol";

import "./lib/SignedZoneConstants.sol";

/**
 * @title  SignedZoneV16
 * @author ryanio, BCLeFevre
 * @custom:modifiedby Tony Snark
 * @notice SignedZoneV16 is an implementation of SIP-7 that requires orders
 *         to be signed by an approved signer.
 *         https://github.com/ProjectOpenSea/SIPs/blob/main/SIPS/sip-7.md
 *
 *         Modification:
 *         Removes support for SIP7 sub-standard 1.
 *         Adds support for SIP7 sub-standard 3.
 */
contract SignedZoneV16 is SignedZoneEventsAndErrors, ZoneInterfaceV16, SIP5Interface {
  /// @dev The zone's controller that is set during deployment.
  address private immutable _controller;

  /// @dev The authorized signers, and if they are active
  mapping(address => bool) private _signers;

  /// @dev The EIP-712 digest parameters.
  bytes32 internal immutable _NAME_HASH = keccak256(bytes("SignedZone"));
  bytes32 internal immutable _VERSION_HASH = keccak256(bytes("1.0.0"));
  // prettier-ignore
  bytes32 internal immutable _EIP_712_DOMAIN_TYPEHASH = keccak256(
          abi.encodePacked(
            "EIP712Domain(",
                "string name,",
                "string version,",
                "uint256 chainId,",
                "address verifyingContract",
            ")"
          )
        );
  // prettier-ignore
  bytes32 internal immutable _SIGNED_ORDER_TYPEHASH = keccak256(
          abi.encodePacked(
            "SignedOrder(",
                "address fulfiller,",
                "uint64 expiration,",
                "bytes32 orderHash,",
                "bytes context",
            ")"
          )
        );

  bytes public constant CONSIDERATION_BYTES =
    // prettier-ignore
    abi.encodePacked(
              "Consideration(",
                  "ReceivedItem[] consideration",
              ")"
        );

  bytes public constant RECEIVED_ITEM_BYTES =
    // prettier-ignore
    abi.encodePacked(
              "ReceivedItem(",
                  "uint8 itemType,",
                  "address token,",
                  "uint256 identifier,",
                  "uint256 amount,",
                  "address recipient",
              ")"
        );

  bytes32 public constant RECEIVED_ITEM_HASHTYPE = keccak256(RECEIVED_ITEM_BYTES);

  bytes32 public constant CONSIDERATION_HASHTYPE =
    keccak256(abi.encodePacked(CONSIDERATION_BYTES, RECEIVED_ITEM_BYTES));

  uint256 internal immutable _CHAIN_ID = block.chainid;
  bytes32 internal immutable _DOMAIN_SEPARATOR;

  /**
   * @notice Constructor to deploy the contract.
   */
  constructor() {
    // Set the deployer as the controller.
    _controller = msg.sender;

    // Derive and set the domain separator.
    _DOMAIN_SEPARATOR = _deriveDomainSeparator();

    // Emit an event to signal a SIP-5 contract has been deployed.
    emit SeaportCompatibleContractDeployed();
  }

  /**
   * @dev Authorizes an order before any token fulfillments from any order have been executed by Seaport.
   *
   * @return authorizedOrderMagicValue The magic value that indicates a valid
   *                              order.
   */
  function authorizeOrder(
    ZoneParameters calldata
  ) public view virtual override returns (bytes4 authorizedOrderMagicValue) {
    return this.authorizeOrder.selector;
  }

  /**
   * @notice Check if a given order including extraData is currently valid.
   *
   * @dev This function is called by Seaport whenever any extraData is
   *      provided by the caller.
   *
   * @return validOrderMagicValue A magic value indicating if the order is
   *                              currently valid.
   */
  function validateOrder(
    ZoneParameters calldata zoneParameters
  ) public view virtual override returns (bytes4 validOrderMagicValue) {
    // Check Zone parameters validity.
    _assertValidZoneParameters();

    // Put the extraData and orderHash on the stack for cheaper access.
    bytes calldata extraData = zoneParameters.extraData;
    bytes32 orderHash = zoneParameters.orderHash;
    uint256 considerationLength;
    // Declare a variable to hold the expiration.
    uint64 expiration;

    // Validate the extraData.
    assembly {
      // Get the length of the extraData.
      let extraDataPtr := add(0x24, calldataload(Zone_extraData_cdPtr))
      let extraDataLength := calldataload(extraDataPtr)

      if iszero(eq(extraDataLength, InvalidExtraDataLength_epected_length)) {
        // Store left-padded selector with push4, mem[28:32] = selector
        mstore(0, InvalidExtraDataLength_error_selector)
        mstore(InvalidExtraDataLength_error_orderHash_ptr, orderHash)
        // revert(abi.encodeWithSignature(
        //   "InvalidExtraDataLength(bytes32)", orderHash)
        // )
        revert(0x1c, InvalidExtraDataLength_error_length)
      }

      // extraData bytes 0-1: SIP-6 version byte (MUST be 0x00)
      let versionByte := shr(248, calldataload(add(extraDataPtr, 0x20)))

      if iszero(eq(versionByte, 0x00)) {
        // Store left-padded selector with push4, mem[28:32] = selector
        mstore(0, InvalidSIP6Version_error_selector)
        mstore(InvalidSIP6Version_error_orderHash_ptr, orderHash)
        // revert(abi.encodeWithSignature(
        //   "InvalidSIP6Version(bytes32)", orderHash)
        // )
        revert(0x1c, InvalidSIP6Version_error_length)
      }

      // extraData bytes 93-94: Substandard #1 (MUST be 0x00)
      let subStandardVersionByte := shr(
        248,
        calldataload(add(extraDataPtr, ExtraData_substandard_version_byte_offset))
      )

      if iszero(eq(subStandardVersionByte, 0x00)) {
        // Store left-padded selector with push4, mem[28:32] = selector
        mstore(0, InvalidSubstandardVersion_error_selector)
        mstore(InvalidSubstandardVersion_error_orderHash_ptr, orderHash)
        // revert(abi.encodeWithSignature(
        //   "InvalidSubstandardVersion(bytes32)", orderHash)
        // )
        revert(0x1c, InvalidSubstandardVersion_error_length)
      }

      // extraData bytes 21-29: expiration timestamp (uint64)
      expiration := shr(192, calldataload(add(extraDataPtr, ExtraData_expiration_offset)))
      // Revert if expired.
      if lt(expiration, timestamp()) {
        // Store left-padded selector with push4, mem[28:32] = selector
        mstore(0, SignatureExpired_error_selector)
        mstore(SignatureExpired_error_expiration_ptr, expiration)
        mstore(SignatureExpired_error_orderHash_ptr, orderHash)
        // revert(abi.encodeWithSignature(
        //   "SignatureExpired(uint256, bytes32)", expiration orderHash)
        // )
        revert(0x1c, SignatureExpired_error_length)
      }

      // // Get the length of the consideration array.
      considerationLength := calldataload(add(0x24, calldataload(Zone_consideration_head_cdPtr)))
    }

    // extraData bytes 29-93: signature
    // (strictly requires 64 byte compact sig, EIP-2098)
    bytes calldata signature = extraData[29:93];

    // extraData bytes 93-end: context (optional, variable length)
    bytes calldata context = extraData[93:];

    // Check the validity of the Substandard #1 extraData and get the
    // expected fulfiller address.
    address expectedFulfiller = _getExpectedFulfiller(orderHash);

    // Check the validity of the Substandard #1 extraData and get the
    // expected fulfiller address.
    if (considerationLength > 0) {
      _assertValidSubstandard(_deriveConsiderationHash(zoneParameters.consideration), orderHash);
    }

    // Derive the signedOrder hash.
    bytes32 signedOrderHash = _deriveSignedOrderHash(
      expectedFulfiller,
      expiration,
      orderHash,
      context
    );

    // Derive the EIP-712 digest using the domain separator and signedOrder
    // hash.
    bytes32 digest = _deriveEIP712Digest(_domainSeparator(), signedOrderHash);

    // Recover the signer address from the digest and signature.
    address recoveredSigner = _recoverSigner(digest, signature);

    // Revert if the signer is not active.
    if (!_signers[recoveredSigner]) {
      revert SignerNotActive(recoveredSigner, orderHash);
    }
    // Return the selector of validateOrder as the magic value.
    validOrderMagicValue = ZoneInterfaceV16.validateOrder.selector;
  }

  /**
   * @dev Returns Seaport metadata for this contract, returning the
   *      contract name and supported schemas.
   *
   * @return name The contract name
   * @return schemas  The supported SIPs
   */
  function getSeaportMetadata()
    external
    view
    override(SIP5Interface, ZoneInterfaceV16)
    returns (string memory name, Schema[] memory schemas)
  {
    // Return the supported SIPs.
    schemas = new Schema[](1);
    schemas[0].id = 7;

    // Get the SIP-7 information.
    (
      bytes32 domainSeparator,
      string memory zoneName,
      string memory apiEndpoint,
      uint256[] memory substandards,
      string memory documentationURI
    ) = _sip7Information();

    // Return the zone name.
    name = zoneName;

    // Encode the SIP-7 information.
    schemas[0].metadata = abi.encode(domainSeparator, apiEndpoint, substandards, documentationURI);
  }

  /**
   * @notice The fallback function is used as a dispatcher for the
   *         `updateSigner`, `getActiveSigners` and `supportsInterface`
   *         functions.
   */
  // prettier-ignore
  fallback(bytes calldata) external payable returns (bytes memory output) {
        // Get the function selector.
        bytes4 selector = msg.sig;

        if (selector == 0xf460590b) {
            // updateSigner(address,bool)

            // Get the signer, and active status.
            address signer = abi.decode(msg.data[4:], (address));
            bool active = abi.decode(msg.data[36:], (bool));

            // Call to update the signer.
            _updateSigner(signer, active);
        } else if (selector == 0xa784b80c) {
            // getActiveSigners()

            // Call the internal function to get the active signers.
            return abi.encode(_getActiveSigners());
        } else if (selector == 0x01ffc9a7) {
            // supportsInterface(bytes4)

            // Get the interface ID.
            bytes4 interfaceId = abi.decode(msg.data[4:], (bytes4));

            // Call the internal function to determine if the interface is
            // supported.
            return abi.encode(_supportsInterface(interfaceId));
        }
    }

  /**
   * @notice Add or remove a signer to the zone.
   *         Only the controller can call this function.
   *
   * @param signer The signer address to add or remove.
   */
  function _updateSigner(address signer, bool active) internal {
    // Only the controller can call this function.
    _assertCallerIsController();
    // Add or remove the signer.
    active ? _addSigner(signer) : _removeSigner(signer);
  }

  /**
   * @notice Add a new signer to the zone.
   *         Only the controller or an active signer can call this function.
   *
   * @param signer The new signer address to add.
   */
  function _addSigner(address signer) internal {
    // Set the signer info.
    _signers[signer] = true;
    // Emit an event that the signer was added.
    emit SignerAdded(signer);
  }

  /**
   * @notice Remove an active signer from the zone.
   *         Only the controller or an active signer can call this function.
   *
   * @param signer The signer address to remove.
   */
  function _removeSigner(address signer) internal {
    // Set the signer's active status to false.
    _signers[signer] = false;

    // Emit an event that the signer was removed.
    emit SignerRemoved(signer);
  }

  /**
   * @notice Returns the active signers for the zone.
   *
   * @return signers The active signers.
   */
  function _getActiveSigners() internal view returns (address[] memory signers) {
    // Return the active signers for the zone by calling the controller.
    signers = SignedZoneControllerInterface(_controller).getActiveSigners(address(this));
  }

  /**
   * @notice Returns whether the interface is supported.
   *
   * @param interfaceId The interface id to check against.
   */
  function _supportsInterface(bytes4 interfaceId) internal pure returns (bool supportsInterface) {
    // Determine if the interface is supported.
    supportsInterface =
      interfaceId == type(SIP5Interface).interfaceId || // SIP-5
      interfaceId == type(ZoneInterfaceV16).interfaceId || // ZoneInterface
      interfaceId == 0x01ffc9a7; // ERC-165
  }

  /**
   * @notice Internal call to return the signing information, substandards,
   *         and documentation about the zone.
   *
   * @return domainSeparator  The domain separator used for signing.
   * @return zoneName         The zone name.
   * @return apiEndpoint      The API endpoint for the zone.
   * @return substandards     The substandards supported by the zone.
   * @return documentationURI The documentation URI for the zone.
   */
  function _sip7Information()
    internal
    view
    returns (
      bytes32 domainSeparator,
      string memory zoneName,
      string memory apiEndpoint,
      uint256[] memory substandards,
      string memory documentationURI
    )
  {
    // Return the SIP-7 information.
    domainSeparator = _domainSeparator();

    // Get the SIP-7 information from the controller.
    (, zoneName, apiEndpoint, substandards, documentationURI) = SignedZoneControllerInterface(
      _controller
    ).getAdditionalZoneInformation(address(this));
  }

  /**
   * @dev Derive the signedOrder hash from the orderHash and expiration.
   *
   * @param fulfiller  The expected fulfiller address.
   * @param expiration The signature expiration timestamp.
   * @param orderHash  The order hash.
   * @param context    The optional variable-length context.
   *
   * @return signedOrderHash The signedOrder hash.
   *
   */
  function _deriveSignedOrderHash(
    address fulfiller,
    uint64 expiration,
    bytes32 orderHash,
    bytes calldata context
  ) internal view returns (bytes32 signedOrderHash) {
    // Derive the signed order hash.
    signedOrderHash = keccak256(
      abi.encode(_SIGNED_ORDER_TYPEHASH, fulfiller, expiration, orderHash, keccak256(context))
    );
  }

  /**
   * @dev Internal view function to return the signer of a signature.
   *
   * @param digest    The digest to verify the signature against.
   * @param signature A signature from the signer indicating that the order
   *                  has been approved.
   *
   * @return recoveredSigner The recovered signer.
   */
  function _recoverSigner(
    bytes32 digest,
    bytes memory signature
  ) internal view returns (address recoveredSigner) {
    // Utilize assembly to perform optimized signature verification check.
    assembly {
      // Ensure that first word of scratch space is empty.
      mstore(0, 0)

      // Declare value for v signature parameter.
      let v

      // Get the length of the signature.
      let signatureLength := mload(signature)

      // Get the pointer to the value preceding the signature length.
      // This will be used for temporary memory overrides - either the
      // signature head for isValidSignature or the digest for ecrecover.
      let wordBeforeSignaturePtr := sub(signature, OneWord)

      // Cache the current value behind the signature to restore it later.
      let cachedWordBeforeSignature := mload(wordBeforeSignaturePtr)

      // Declare lenDiff + recoveredSigner scope to manage stack pressure.
      {
        // Take the difference between the max ECDSA signature length
        // and the actual signature length. Overflow desired for any
        // values > 65. If the diff is not 0 or 1, it is not a valid
        // ECDSA signature - move on to EIP1271 check.
        let lenDiff := sub(ECDSA_MaxLength, signatureLength)

        // If diff is 0 or 1, it may be an ECDSA signature.
        // Try to recover signer.
        if iszero(gt(lenDiff, 1)) {
          // Read the signature `s` value.
          let originalSignatureS := mload(add(signature, ECDSA_signature_s_offset))

          // Read the first byte of the word after `s`. If the
          // signature is 65 bytes, this will be the real `v` value.
          // If not, it will need to be modified - doing it this way
          // saves an extra condition.
          v := byte(0, mload(add(signature, ECDSA_signature_v_offset)))

          // If lenDiff is 1, parse 64-byte signature as ECDSA.
          if lenDiff {
            // Extract yParity from highest bit of vs and add 27 to
            // get v.
            v := add(shr(MaxUint8, originalSignatureS), Signature_lower_v)

            // Extract canonical s from vs, all but the highest bit.
            // Temporarily overwrite the original `s` value in the
            // signature.
            mstore(
              add(signature, ECDSA_signature_s_offset),
              and(originalSignatureS, EIP2098_allButHighestBitMask)
            )
          }
          // Temporarily overwrite the signature length with `v` to
          // conform to the expected input for ecrecover.
          mstore(signature, v)

          // Temporarily overwrite the word before the length with
          // `digest` to conform to the expected input for ecrecover.
          mstore(wordBeforeSignaturePtr, digest)

          // Attempt to recover the signer for the given signature. Do
          // not check the call status as ecrecover will return a null
          // address if the signature is invalid.
          pop(
            staticcall(
              gas(),
              Ecrecover_precompile, // Call ecrecover precompile.
              wordBeforeSignaturePtr, // Use data memory location.
              Ecrecover_args_size, // Size of digest, v, r, and s.
              0, // Write result to scratch space.
              OneWord // Provide size of returned result.
            )
          )

          // Restore cached word before signature.
          mstore(wordBeforeSignaturePtr, cachedWordBeforeSignature)

          // Restore cached signature length.
          mstore(signature, signatureLength)

          // Restore cached signature `s` value.
          mstore(add(signature, ECDSA_signature_s_offset), originalSignatureS)

          // Read the recovered signer from the buffer given as return
          // space for ecrecover.
          recoveredSigner := mload(0)
        }
      }

      // Restore the cached values overwritten by selector, digest and
      // signature head.
      mstore(wordBeforeSignaturePtr, cachedWordBeforeSignature)
    }
  }

  /**
   * @dev Internal view function to get the EIP-712 domain separator. If the
   *      chainId matches the chainId set on deployment, the cached domain
   *      separator will be returned; otherwise, it will be derived from
   *      scratch.
   *
   * @return The domain separator.
   */
  function _domainSeparator() internal view returns (bytes32) {
    // prettier-ignore
    return block.chainid == _CHAIN_ID
            ? _DOMAIN_SEPARATOR
            : _deriveDomainSeparator();
  }

  /**
   * @dev Internal view function to derive the EIP-712 domain separator.
   *
   * @return domainSeparator The derived domain separator.
   */
  function _deriveDomainSeparator() internal view returns (bytes32 domainSeparator) {
    bytes32 typehash = _EIP_712_DOMAIN_TYPEHASH;
    bytes32 nameHash = _NAME_HASH;
    bytes32 versionHash = _VERSION_HASH;

    // Leverage scratch space and other memory to perform an efficient hash.
    assembly {
      // Retrieve the free memory pointer; it will be replaced afterwards.
      let freeMemoryPointer := mload(FreeMemoryPointerSlot)

      // Retrieve value at 0x80; it will also be replaced afterwards.
      let slot0x80 := mload(Slot0x80)

      // Place typehash, name hash, and version hash at start of memory.
      mstore(0, typehash)
      mstore(OneWord, nameHash)
      mstore(TwoWords, versionHash)

      // Place chainId in the next memory location.
      mstore(ThreeWords, chainid())

      // Place the address of this contract in the next memory location.
      mstore(FourWords, address())

      // Hash relevant region of memory to derive the domain separator.
      domainSeparator := keccak256(0, FiveWords)

      // Restore the free memory pointer.
      mstore(FreeMemoryPointerSlot, freeMemoryPointer)

      // Restore the zero slot to zero.
      mstore(ZeroSlot, 0)

      // Restore the value at 0x80.
      mstore(Slot0x80, slot0x80)
    }
  }

  /**
   * @dev Internal pure function to efficiently derive an digest to sign for
   *      an order in accordance with EIP-712.
   *
   * @param domainSeparator The domain separator.
   * @param signedOrderHash The signedOrder hash.
   *
   * @return digest The digest hash.
   */
  function _deriveEIP712Digest(
    bytes32 domainSeparator,
    bytes32 signedOrderHash
  ) internal pure returns (bytes32 digest) {
    // Leverage scratch space to perform an efficient hash.
    assembly {
      // Place the EIP-712 prefix at the start of scratch space.
      mstore(0, EIP_712_PREFIX)

      // Place the domain separator in the next region of scratch space.
      mstore(EIP712_DomainSeparator_offset, domainSeparator)

      // Place the signed order hash in scratch space, spilling into the
      // first two bytes of the free memory pointer — this should never be
      // set as memory cannot be expanded to that size, and will be
      // zeroed out after the hash is performed.
      mstore(EIP712_SignedOrderHash_offset, signedOrderHash)

      // Hash the relevant region
      digest := keccak256(0, EIP712_DigestPayload_size)

      // Clear out the dirtied bits in the memory pointer.
      mstore(EIP712_SignedOrderHash_offset, 0)
    }
  }

  /**
   * @dev Private view function to revert if the caller is not the
   *      controller.
   */
  function _assertCallerIsController() internal view {
    // Get the controller address to use in the assembly block.
    address controller = _controller;

    assembly {
      // Revert if the caller is not the controller.
      if iszero(eq(caller(), controller)) {
        // Store left-padded selector with push4, mem[28:32] = selector
        mstore(0, InvalidController_error_selector)
        // revert(abi.encodeWithSignature(
        //   "InvalidController()")
        // )
        revert(0x1c, InvalidController_error_length)
      }
    }
  }

  /**
   * @dev Internal pure function to validate calldata offsets for the
   *      dyanamic type in ZoneParameters. This ensures that functions using
   *      the calldata object normally will be using the same data as the
   *      assembly functions and that values that are bound to a given range
   *      are within that range.
   */
  function _assertValidZoneParameters() internal pure {
    // Utilize assembly in order to read offset data directly from calldata.
    assembly {
      /*
       * Checks:
       * 1. Zone parameters struct offset == 0x20
       */

      // Zone parameters at calldata 0x04 must have offset of 0x20.
      if iszero(eq(calldataload(Zone_parameters_cdPtr), Zone_parameters_ptr)) {
        // Store left-padded selector with push4 (reduces bytecode), mem[28:32] = selector
        mstore(0, InvalidZoneParameterEncoding_error_selector)
        // revert(abi.encodeWithSignature("InvalidZoneParameterEncoding()"))
        revert(0x1c, InvalidZoneParameterEncoding_error_length)
      }
    }
  }

  /**
   * @dev Internal pure function to ensure that the context argument for the
   *      supplied extra data follows the substandard #1 format. Returns the
   *      expected fulfiller of the order for deriving the signed order hash.
   *
   * @param orderHash The order hash.
   *
   * @return expectedFulfiller The expected fulfiller of the order.
   */
  function _getExpectedFulfiller(
    bytes32 orderHash
  ) internal pure returns (address expectedFulfiller) {
    // Revert if the expected fulfiller is not the zero address and does
    // not match the actual fulfiller
    assembly {
      // Get the actual fulfiller.
      let actualFulfiller := calldataload(Zone_parameters_fulfiller_cdPtr)
      let extraDataPtr := calldataload(Zone_extraData_cdPtr)

      // Get the expected fulfiller.
      expectedFulfiller := shr(96, calldataload(add(expectedFulfiller_offset, extraDataPtr)))

      // Revert if expected fulfiller is not the zero address and does
      // not match the actual fulfiller.
      if and(iszero(iszero(expectedFulfiller)), iszero(eq(expectedFulfiller, actualFulfiller))) {
        // Store left-padded selector with push4, mem[28:32] = selector
        mstore(0, InvalidFulfiller_error_selector)
        mstore(InvalidFulfiller_error_expectedFulfiller_ptr, expectedFulfiller)
        mstore(InvalidFulfiller_error_actualFulfiller_ptr, actualFulfiller)
        mstore(InvalidFulfiller_error_orderHash_ptr, orderHash)
        // revert(abi.encodeWithSignature(
        //   "InvalidFulfiller(address,address,bytes32)", expectedFulfiller, actualFulfiller, orderHash)
        // )
        revert(0x1c, InvalidFulfiller_error_length)
      }
    }
  }

  /**
   * @dev Internal pure function to ensure that the context argument for the
   *      supplied extra data follows the substandard #1 format. Returns the
   *      expected fulfiller of the order for deriving the signed order hash.
   *
   */
  function _assertValidSubstandard(bytes32 considerationHash, bytes32 orderHash) internal pure {
    // identifier does not match the actual consideration.
    assembly {
      let extraDataPtr := calldataload(Zone_extraData_cdPtr)
      let considerationPtr := calldataload(Zone_consideration_head_cdPtr)
      // Get the actual consideration.
      let actualConsideration := calldataload(add(actualConsideration_offset, considerationPtr))

      // Get the expected consideration.
      let expectedConsiderationHash := calldataload(
        add(expectedConsideration_offset, extraDataPtr) //TODO rename
      )
      // Revert if expected consideration item does not match the actual
      // consideration item.
      if iszero(eq(considerationHash, expectedConsiderationHash)) {
        // Store left-padded selector with push4, mem[28:32] = selector
        mstore(0, InvalidConsideration_error_selector)
        mstore(InvalidConsideration_error_expectedConsideration_ptr, expectedConsiderationHash)
        mstore(InvalidConsideration_error_actualConsideration_ptr, actualConsideration)
        mstore(InvalidConsideration_error_orderHash_ptr, orderHash)
        // revert(abi.encodeWithSignature(
        //   "InvalidConsideration(uint256,uint256,bytes32)", expectedConsideration, actualConsideration, orderHash)
        // )
        revert(0x1c, InvalidConsideration_error_length)
      }
    }
  }

  /// @dev Calculates consideration hash
  function _deriveConsiderationHash(
    ReceivedItem[] calldata consideration
  ) internal pure returns (bytes32) {
    uint256 numberOfItems = consideration.length;
    bytes32[] memory considerationHashes = new bytes32[](numberOfItems);
    for (uint256 i; i < numberOfItems; ) {
      considerationHashes[i] = _deriveReceivedItemHash(consideration[i]);
      unchecked {
        ++i;
      }
    }
    return
      keccak256(
        abi.encode(CONSIDERATION_HASHTYPE, keccak256(abi.encodePacked(considerationHashes)))
      );
  }

  /// @dev Calculates consideration item hash
  function _deriveReceivedItemHash(
    ReceivedItem calldata receivedItem
  ) internal pure returns (bytes32) {
    return
      keccak256(
        abi.encode(
          RECEIVED_ITEM_HASHTYPE,
          receivedItem.itemType,
          receivedItem.token,
          receivedItem.identifier,
          receivedItem.amount,
          receivedItem.recipient
        )
      );
  }
}

File 2 of 8 : ZoneInterfaceV16.sol
// SPDX-License-Identifier: MIT
pragma solidity ^0.8.13;

import {ZoneParameters, Schema} from "../lib/ConsiderationStructs.sol";

interface ZoneInterfaceV16 {
  function authorizeOrder(
    ZoneParameters calldata zoneParameters
  ) external returns (bytes4 authorizeOrderMagicValue);

  function validateOrder(
    ZoneParameters calldata zoneParameters
  ) external returns (bytes4 validOrderMagicValue);

  function getSeaportMetadata()
    external
    view
    returns (
      string memory name,
      Schema[] memory schemas // map to Seaport Improvement Proposal IDs
    );
}

File 3 of 8 : ConsiderationEnums.sol
// SPDX-License-Identifier: MIT
pragma solidity ^0.8.13;

// prettier-ignore
enum OrderType {
    // 0: no partial fills, anyone can execute
    FULL_OPEN,

    // 1: partial fills supported, anyone can execute
    PARTIAL_OPEN,

    // 2: no partial fills, only offerer or zone can execute
    FULL_RESTRICTED,

    // 3: partial fills supported, only offerer or zone can execute
    PARTIAL_RESTRICTED,

    // 4: contract order type
    CONTRACT
}

// prettier-ignore
enum BasicOrderType {
    // 0: no partial fills, anyone can execute
    ETH_TO_ERC721_FULL_OPEN,

    // 1: partial fills supported, anyone can execute
    ETH_TO_ERC721_PARTIAL_OPEN,

    // 2: no partial fills, only offerer or zone can execute
    ETH_TO_ERC721_FULL_RESTRICTED,

    // 3: partial fills supported, only offerer or zone can execute
    ETH_TO_ERC721_PARTIAL_RESTRICTED,

    // 4: no partial fills, anyone can execute
    ETH_TO_ERC1155_FULL_OPEN,

    // 5: partial fills supported, anyone can execute
    ETH_TO_ERC1155_PARTIAL_OPEN,

    // 6: no partial fills, only offerer or zone can execute
    ETH_TO_ERC1155_FULL_RESTRICTED,

    // 7: partial fills supported, only offerer or zone can execute
    ETH_TO_ERC1155_PARTIAL_RESTRICTED,

    // 8: no partial fills, anyone can execute
    ERC20_TO_ERC721_FULL_OPEN,

    // 9: partial fills supported, anyone can execute
    ERC20_TO_ERC721_PARTIAL_OPEN,

    // 10: no partial fills, only offerer or zone can execute
    ERC20_TO_ERC721_FULL_RESTRICTED,

    // 11: partial fills supported, only offerer or zone can execute
    ERC20_TO_ERC721_PARTIAL_RESTRICTED,

    // 12: no partial fills, anyone can execute
    ERC20_TO_ERC1155_FULL_OPEN,

    // 13: partial fills supported, anyone can execute
    ERC20_TO_ERC1155_PARTIAL_OPEN,

    // 14: no partial fills, only offerer or zone can execute
    ERC20_TO_ERC1155_FULL_RESTRICTED,

    // 15: partial fills supported, only offerer or zone can execute
    ERC20_TO_ERC1155_PARTIAL_RESTRICTED,

    // 16: no partial fills, anyone can execute
    ERC721_TO_ERC20_FULL_OPEN,

    // 17: partial fills supported, anyone can execute
    ERC721_TO_ERC20_PARTIAL_OPEN,

    // 18: no partial fills, only offerer or zone can execute
    ERC721_TO_ERC20_FULL_RESTRICTED,

    // 19: partial fills supported, only offerer or zone can execute
    ERC721_TO_ERC20_PARTIAL_RESTRICTED,

    // 20: no partial fills, anyone can execute
    ERC1155_TO_ERC20_FULL_OPEN,

    // 21: partial fills supported, anyone can execute
    ERC1155_TO_ERC20_PARTIAL_OPEN,

    // 22: no partial fills, only offerer or zone can execute
    ERC1155_TO_ERC20_FULL_RESTRICTED,

    // 23: partial fills supported, only offerer or zone can execute
    ERC1155_TO_ERC20_PARTIAL_RESTRICTED
}

// prettier-ignore
enum BasicOrderRouteType {
    // 0: provide Ether (or other native token) to receive offered ERC721 item.
    ETH_TO_ERC721,

    // 1: provide Ether (or other native token) to receive offered ERC1155 item.
    ETH_TO_ERC1155,

    // 2: provide ERC20 item to receive offered ERC721 item.
    ERC20_TO_ERC721,

    // 3: provide ERC20 item to receive offered ERC1155 item.
    ERC20_TO_ERC1155,

    // 4: provide ERC721 item to receive offered ERC20 item.
    ERC721_TO_ERC20,

    // 5: provide ERC1155 item to receive offered ERC20 item.
    ERC1155_TO_ERC20
}

// prettier-ignore
enum ItemType {
    // 0: ETH on mainnet, MATIC on polygon, etc.
    NATIVE,

    // 1: ERC20 items (ERC777 and ERC20 analogues could also technically work)
    ERC20,

    // 2: ERC721 items
    ERC721,

    // 3: ERC1155 items
    ERC1155,

    // 4: ERC721 items where a number of tokenIds are supported
    ERC721_WITH_CRITERIA,

    // 5: ERC1155 items where a number of ids are supported
    ERC1155_WITH_CRITERIA
}

// prettier-ignore
enum Side {
    // 0: Items that can be spent
    OFFER,

    // 1: Items that must be received
    CONSIDERATION
}

File 4 of 8 : ConsiderationStructs.sol
// SPDX-License-Identifier: MIT
pragma solidity ^0.8.13;

import { OrderType, BasicOrderType, ItemType, Side } from "./ConsiderationEnums.sol";

/**
 * @dev An order contains eleven components: an offerer, a zone (or account that
 *      can cancel the order or restrict who can fulfill the order depending on
 *      the type), the order type (specifying partial fill support as well as
 *      restricted order status), the start and end time, a hash that will be
 *      provided to the zone when validating restricted orders, a salt, a key
 *      corresponding to a given conduit, a counter, and an arbitrary number of
 *      offer items that can be spent along with consideration items that must
 *      be received by their respective recipient.
 */
struct OrderComponents {
    address offerer;
    address zone;
    OfferItem[] offer;
    ConsiderationItem[] consideration;
    OrderType orderType;
    uint256 startTime;
    uint256 endTime;
    bytes32 zoneHash;
    uint256 salt;
    bytes32 conduitKey;
    uint256 counter;
}

/**
 * @dev An offer item has five components: an item type (ETH or other native
 *      tokens, ERC20, ERC721, and ERC1155, as well as criteria-based ERC721 and
 *      ERC1155), a token address, a dual-purpose "identifierOrCriteria"
 *      component that will either represent a tokenId or a merkle root
 *      depending on the item type, and a start and end amount that support
 *      increasing or decreasing amounts over the duration of the respective
 *      order.
 */
struct OfferItem {
    ItemType itemType;
    address token;
    uint256 identifierOrCriteria;
    uint256 startAmount;
    uint256 endAmount;
}

/**
 * @dev A consideration item has the same five components as an offer item and
 *      an additional sixth component designating the required recipient of the
 *      item.
 */
struct ConsiderationItem {
    ItemType itemType;
    address token;
    uint256 identifierOrCriteria;
    uint256 startAmount;
    uint256 endAmount;
    address payable recipient;
}

/**
 * @dev A spent item is translated from a utilized offer item and has four
 *      components: an item type (ETH or other native tokens, ERC20, ERC721, and
 *      ERC1155), a token address, a tokenId, and an amount.
 */
struct SpentItem {
    ItemType itemType;
    address token;
    uint256 identifier;
    uint256 amount;
}

/**
 * @dev A received item is translated from a utilized consideration item and has
 *      the same four components as a spent item, as well as an additional fifth
 *      component designating the required recipient of the item.
 */
struct ReceivedItem {
    ItemType itemType;
    address token;
    uint256 identifier;
    uint256 amount;
    address payable recipient;
}

/**
 * @dev For basic orders involving ETH / native / ERC20 <=> ERC721 / ERC1155
 *      matching, a group of six functions may be called that only requires a
 *      subset of the usual order arguments. Note the use of a "basicOrderType"
 *      enum; this represents both the usual order type as well as the "route"
 *      of the basic order (a simple derivation function for the basic order
 *      type is `basicOrderType = orderType + (4 * basicOrderRoute)`.)
 */
struct BasicOrderParameters {
    // calldata offset
    address considerationToken; // 0x24
    uint256 considerationIdentifier; // 0x44
    uint256 considerationAmount; // 0x64
    address payable offerer; // 0x84
    address zone; // 0xa4
    address offerToken; // 0xc4
    uint256 offerIdentifier; // 0xe4
    uint256 offerAmount; // 0x104
    BasicOrderType basicOrderType; // 0x124
    uint256 startTime; // 0x144
    uint256 endTime; // 0x164
    bytes32 zoneHash; // 0x184
    uint256 salt; // 0x1a4
    bytes32 offererConduitKey; // 0x1c4
    bytes32 fulfillerConduitKey; // 0x1e4
    uint256 totalOriginalAdditionalRecipients; // 0x204
    AdditionalRecipient[] additionalRecipients; // 0x224
    bytes signature; // 0x244
    // Total length, excluding dynamic array data: 0x264 (580)
}

/**
 * @dev Basic orders can supply any number of additional recipients, with the
 *      implied assumption that they are supplied from the offered ETH (or other
 *      native token) or ERC20 token for the order.
 */
struct AdditionalRecipient {
    uint256 amount;
    address payable recipient;
}

/**
 * @dev The full set of order components, with the exception of the counter,
 *      must be supplied when fulfilling more sophisticated orders or groups of
 *      orders. The total number of original consideration items must also be
 *      supplied, as the caller may specify additional consideration items.
 */
struct OrderParameters {
    address offerer; // 0x00
    address zone; // 0x20
    OfferItem[] offer; // 0x40
    ConsiderationItem[] consideration; // 0x60
    OrderType orderType; // 0x80
    uint256 startTime; // 0xa0
    uint256 endTime; // 0xc0
    bytes32 zoneHash; // 0xe0
    uint256 salt; // 0x100
    bytes32 conduitKey; // 0x120
    uint256 totalOriginalConsiderationItems; // 0x140
    // offer.length                          // 0x160
}

/**
 * @dev Orders require a signature in addition to the other order parameters.
 */
struct Order {
    OrderParameters parameters;
    bytes signature;
}

/**
 * @dev Advanced orders include a numerator (i.e. a fraction to attempt to fill)
 *      and a denominator (the total size of the order) in addition to the
 *      signature and other order parameters. It also supports an optional field
 *      for supplying extra data; this data will be provided to the zone if the
 *      order type is restricted and the zone is not the caller, or will be
 *      provided to the offerer as context for contract order types.
 */
struct AdvancedOrder {
    OrderParameters parameters;
    uint120 numerator;
    uint120 denominator;
    bytes signature;
    bytes extraData;
}

/**
 * @dev Orders can be validated (either explicitly via `validate`, or as a
 *      consequence of a full or partial fill), specifically cancelled (they can
 *      also be cancelled in bulk via incrementing a per-zone counter), and
 *      partially or fully filled (with the fraction filled represented by a
 *      numerator and denominator).
 */
struct OrderStatus {
    bool isValidated;
    bool isCancelled;
    uint120 numerator;
    uint120 denominator;
}

/**
 * @dev A criteria resolver specifies an order, side (offer vs. consideration),
 *      and item index. It then provides a chosen identifier (i.e. tokenId)
 *      alongside a merkle proof demonstrating the identifier meets the required
 *      criteria.
 */
struct CriteriaResolver {
    uint256 orderIndex;
    Side side;
    uint256 index;
    uint256 identifier;
    bytes32[] criteriaProof;
}

/**
 * @dev A fulfillment is applied to a group of orders. It decrements a series of
 *      offer and consideration items, then generates a single execution
 *      element. A given fulfillment can be applied to as many offer and
 *      consideration items as desired, but must contain at least one offer and
 *      at least one consideration that match. The fulfillment must also remain
 *      consistent on all key parameters across all offer items (same offerer,
 *      token, type, tokenId, and conduit preference) as well as across all
 *      consideration items (token, type, tokenId, and recipient).
 */
struct Fulfillment {
    FulfillmentComponent[] offerComponents;
    FulfillmentComponent[] considerationComponents;
}

/**
 * @dev Each fulfillment component contains one index referencing a specific
 *      order and another referencing a specific offer or consideration item.
 */
struct FulfillmentComponent {
    uint256 orderIndex;
    uint256 itemIndex;
}

/**
 * @dev An execution is triggered once all consideration items have been zeroed
 *      out. It sends the item in question from the offerer to the item's
 *      recipient, optionally sourcing approvals from either this contract
 *      directly or from the offerer's chosen conduit if one is specified. An
 *      execution is not provided as an argument, but rather is derived via
 *      orders, criteria resolvers, and fulfillments (where the total number of
 *      executions will be less than or equal to the total number of indicated
 *      fulfillments) and returned as part of `matchOrders`.
 */
struct Execution {
    ReceivedItem item;
    address offerer;
    bytes32 conduitKey;
}

/**
 * @dev Restricted orders are validated post-execution by calling validateOrder
 *      on the zone. This struct provides context about the order fulfillment
 *      and any supplied extraData, as well as all order hashes fulfilled in a
 *      call to a match or fulfillAvailable method.
 */
struct ZoneParameters {
    bytes32 orderHash;
    address fulfiller;
    address offerer;
    SpentItem[] offer;
    ReceivedItem[] consideration;
    bytes extraData;
    bytes32[] orderHashes;
    uint256 startTime;
    uint256 endTime;
    bytes32 zoneHash;
}

/**
 * @dev Zones and contract offerers can communicate which schemas they implement
 *      along with any associated metadata related to each schema.
 */
struct Schema {
    uint256 id;
    bytes metadata;
}

File 5 of 8 : SignedZoneControllerInterface.sol
// SPDX-License-Identifier: MIT
pragma solidity ^0.8.13;

/**
 * @title  SignedZoneControllerInterface
 * @author BCLeFevre
 * @notice SignedZoneControllerInterface enables the deploying of SignedZones.
 *         SignedZones are an implementation of SIP-7 that requires orders
 *         to be signed by an approved signer.
 *         https://github.com/ProjectOpenSea/SIPs/blob/main/SIPS/sip-7.md
 *
 */
interface SignedZoneControllerInterface {
    /**
     * @notice Deploy a SignedZone to a precomputed address.
     *
     * @param zoneName    The name for the zone returned in
     *                    getSeaportMetadata().
     * @param apiEndpoint The API endpoint where orders for this zone can be
     *                    signed.
     * @param documentationURI The URI to the documentation describing the
     *                         behavior of the contract.
     *                    Request and response payloads are defined in SIP-7.
     * @param salt        The salt to be used to derive the zone address
     * @param initialOwner The initial owner to set for the new zone.
     *
     * @return derivedAddress The derived address for the zone.
     */
    function createZone(
        string memory zoneName,
        string memory apiEndpoint,
        string memory documentationURI,
        address initialOwner,
        bytes32 salt
    ) external returns (address derivedAddress);

    /**
     * @notice Returns the active signers for the zone.
     *
     * @param signedZone The signed zone to get the active signers for.
     *
     * @return signers The active signers.
     */
    function getActiveSigners(address signedZone)
        external
        view
        returns (address[] memory signers);

    /**
     * @notice Returns additional information about the zone.
     *
     * @param zone The zone to get the additional information for.
     *
     * @return domainSeparator  The domain separator used for signing.
     * @return zoneName         The name of the zone.
     * @return apiEndpoint      The API endpoint for the zone.
     * @return substandards     The substandards supported by the zone.
     * @return documentationURI The documentation URI for the zone.
     */
    function getAdditionalZoneInformation(address zone)
        external
        view
        returns (
            bytes32 domainSeparator,
            string memory zoneName,
            string memory apiEndpoint,
            uint256[] memory substandards,
            string memory documentationURI
        );

    /**
     * @notice Update the API endpoint returned by the supplied zone.
     *         Only the owner or an active signer can call this function.
     *
     * @param signedZone    The signed zone to update the API endpoint for.
     * @param newApiEndpoint The new API endpoint.
     */
    function updateAPIEndpoint(
        address signedZone,
        string calldata newApiEndpoint
    ) external;

    /**
     * @notice Update the signer for a given signed zone.
     *
     * @param signedZone The signed zone to update the signer for.
     * @param signer     The signer to update.
     * @param active     If the signer should be active or not.
     */
    function updateSigner(
        address signedZone,
        address signer,
        bool active
    ) external;

    /**
     * @notice Initiate zone ownership transfer by assigning a new potential
     *         owner for the given zone. Once set, the new potential owner
     *         may call `acceptOwnership` to claim ownership of the zone.
     *         Only the owner of the zone in question may call this function.
     *
     * @param zone The zone for which to initiate ownership transfer.
     * @param newPotentialOwner The new potential owner of the zone.
     */
    function transferOwnership(address zone, address newPotentialOwner)
        external;

    /**
     * @notice Clear the currently set potential owner, if any, from a zone.
     *         Only the owner of the zone in question may call this function.
     *
     * @param zone The zone for which to cancel ownership transfer.
     */
    function cancelOwnershipTransfer(address zone) external;

    /**
     * @notice Accept ownership of a supplied zone. Only accounts that the
     *         current owner has set as the new potential owner may call this
     *         function.
     *
     * @param zone The zone for which to accept ownership.
     */
    function acceptOwnership(address zone) external;

    /**
     * @notice Retrieve the current owner of a deployed zone.
     *
     * @param zone The zone for which to retrieve the associated owner.
     *
     * @return owner The owner of the supplied zone.
     */
    function ownerOf(address zone) external view returns (address owner);

    /**
     * @notice Retrieve the potential owner, if any, for a given zone. The
     *         current owner may set a new potential owner via
     *         `transferOwnership` and that owner may then accept ownership of
     *         the zone in question via `acceptOwnership`.
     *
     * @param zone The zone for which to retrieve the potential owner.
     *
     * @return potentialOwner The potential owner, if any, for the zone.
     */
    function getPotentialOwner(address zone)
        external
        view
        returns (address potentialOwner);

    /**
     * @notice Derive the zone address associated with a salt.
     *
     * @param salt        The salt to be used to derive the zone address
     *
     * @return derivedAddress The derived address of the signed zone.
     */
    function getZone(bytes32 salt)
        external
        view
        returns (address derivedAddress);
}

File 6 of 8 : SignedZoneEventsAndErrors.sol
// SPDX-License-Identifier: MIT
pragma solidity ^0.8.13;

/**
 * @notice SignedZoneEventsAndErrors contains errors and events
 *         related to zone interaction.
 */
interface SignedZoneEventsAndErrors {
    /**
     * @dev Emit an event when a new signer is added.
     */
    event SignerAdded(address signer);

    /**
     * @dev Emit an event when a signer is removed.
     */
    event SignerRemoved(address signer);

    /**
     * @dev Revert with an error if msg.sender is not the owner
     *      or an active signer.
     */
    error OnlyOwnerOrActiveSigner();

    /**
     * @dev Revert with an error when the signature has expired.
     */
    error SignatureExpired(uint256 expiration, bytes32 orderHash);

    /**
     * @dev Revert with an error when attempting to update the signers of a
     *      the zone from a caller that is not the zone's controller.
     */
    error InvalidController();

    /**
     * @dev Revert with an error if supplied order extraData is an invalid
     *      length.
     */
    error InvalidExtraDataLength(bytes32 orderHash);

    /**
     * @dev Revert with an error if the supplied order extraData does not
     *      support the zone's SIP6 version.
     */
    error InvalidSIP6Version(bytes32 orderHash);

    /**
     * @dev Revert with an error if the supplied order extraData does not
     *      support the zone's substandard requirements.
     */
    error InvalidSubstandardSupport(
        string reason,
        uint256 substandardVersion,
        bytes32 orderHash
    );

    /**
     * @dev Revert with an error if the supplied order extraData does not
     *      support the zone's substandard version.
     */
    error InvalidSubstandardVersion(bytes32 orderHash);

    /**
     * @dev Revert with an error if the fulfiller does not match.
     */
    error InvalidFulfiller(
        address expectedFulfiller,
        address actualFulfiller,
        bytes32 orderHash
    );

    /**
     * @dev Revert with an error if the consideration does not match.
     */
    error InvalidConsideration(
        uint256 expectedConsiderationHash,
        uint256 actualConsiderationHash,
        bytes32 orderHash
    );

    /**
     * @dev Revert with an error if the zone parameter encoding is invalid.
     */
    error InvalidZoneParameterEncoding();

    /**
     * @dev Revert with an error when an order is signed with a signer
     *      that is not active.
     */
    error SignerNotActive(address signer, bytes32 orderHash);
}

File 7 of 8 : SIP5Interface.sol
// SPDX-License-Identifier: MIT
pragma solidity ^0.8.13;

import { Schema } from "../../lib/ConsiderationStructs.sol";

/**
 * @dev SIP-5: Contract Metadata Interface for Seaport Contracts
 *      https://github.com/ProjectOpenSea/SIPs/blob/main/SIPS/sip-5.md
 */
interface SIP5Interface {
    /**
     * @dev An event that is emitted when a SIP-5 compatible contract is deployed.
     */
    event SeaportCompatibleContractDeployed();

    /**
     * @dev Returns Seaport metadata for this contract, returning the
     *      contract name and supported schemas.
     *
     * @return name    The contract name
     * @return schemas The supported SIPs
     */
    function getSeaportMetadata()
        external
        view
        returns (string memory name, Schema[] memory schemas);
}

File 8 of 8 : SignedZoneConstants.sol
// SPDX-License-Identifier: MIT
pragma solidity ^0.8.13;

/// @dev ECDSA signature offsets.
uint256 constant ECDSA_MaxLength = 65;
uint256 constant ECDSA_signature_s_offset = 0x40;
uint256 constant ECDSA_signature_v_offset = 0x60;

/// @dev Helpers for memory offsets.
uint256 constant OneWord = 0x20;
uint256 constant TwoWords = 0x40;
uint256 constant ThreeWords = 0x60;
uint256 constant FourWords = 0x80;
uint256 constant FiveWords = 0xa0;
uint256 constant Signature_lower_v = 27;
uint256 constant MaxUint8 = 0xff;
bytes32 constant EIP2098_allButHighestBitMask = (
    0x7fffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff
);
uint256 constant Ecrecover_precompile = 1;
uint256 constant Ecrecover_args_size = 0x80;
uint256 constant FreeMemoryPointerSlot = 0x40;
uint256 constant ZeroSlot = 0x60;
uint256 constant Slot0x80 = 0x80;

/// @dev The EIP-712 digest offsets.
uint256 constant EIP712_DomainSeparator_offset = 0x02;
uint256 constant EIP712_SignedOrderHash_offset = 0x22;
uint256 constant EIP712_DigestPayload_size = 0x42;
uint256 constant EIP_712_PREFIX = (
    0x1901000000000000000000000000000000000000000000000000000000000000
);

/*
 *  error InvalidController()
 *    - Defined in SignedZoneEventsAndErrors.sol
 *  Memory layout:
 *    - 0x00: Left-padded selector (data begins at 0x1c)
 * Revert buffer is memory[0x1c:0x20]
 */
uint256 constant InvalidController_error_selector = 0x6d5769be;
uint256 constant InvalidController_error_length = 0x04;

/*
 *  error InvalidFulfiller(address expectedFulfiller, address actualFulfiller, bytes32 orderHash)
 *    - Defined in SignedZoneEventsAndErrors.sol
 *  Memory layout:
 *    - 0x00: Left-padded selector (data begins at 0x1c)
 *    - 0x20: expectedFulfiller
 *    - 0x40: actualFullfiller
 *    - 0x60: orderHash
 * Revert buffer is memory[0x1c:0x80]
 */
uint256 constant InvalidFulfiller_error_selector = 0x1bcf9bb7;
uint256 constant InvalidFulfiller_error_expectedFulfiller_ptr = 0x20;
uint256 constant InvalidFulfiller_error_actualFulfiller_ptr = 0x40;
uint256 constant InvalidFulfiller_error_orderHash_ptr = 0x60;
uint256 constant InvalidFulfiller_error_length = 0x64;

/*
 *  error InvalidConsideration(uint256 expectedConsideration, uint256 actualConsideration, bytes32 orderHash)
 *    - Defined in SignedZoneEventsAndErrors.sol
 *  Memory layout:
 *    - 0x00: Left-padded selector (data begins at 0x1c)
 *    - 0x20: expectedConsideration
 *    - 0x40: actualConsideration
 *    - 0x60: orderHash
 * Revert buffer is memory[0x1c:0x80]
 */
uint256 constant InvalidConsideration_error_selector = 0x59cb96d1;
uint256 constant InvalidConsideration_error_expectedConsideration_ptr = 0x20;
uint256 constant InvalidConsideration_error_actualConsideration_ptr = 0x40;
uint256 constant InvalidConsideration_error_orderHash_ptr = 0x60;
uint256 constant InvalidConsideration_error_length = 0x64;

/*
 *  error InvalidZoneParameterEncoding()
 *    - Defined in SignedZoneEventsAndErrors.sol
 *  Memory layout:
 *    - 0x00: Left-padded selector (data begins at 0x1c)
 * Revert buffer is memory[0x1c:0x20]
 */
uint256 constant InvalidZoneParameterEncoding_error_selector = 0x46d5d895;
uint256 constant InvalidZoneParameterEncoding_error_length = 0x04;

/*
 * error InvalidExtraDataLength()
 *   - Defined in SignedZoneEventsAndErrors.sol
 * Memory layout:
 *   - 0x00: Left-padded selector (data begins at 0x1c)
 *   - 0x20: orderHash
 * Revert buffer is memory[0x1c:0x40]
 */
uint256 constant InvalidExtraDataLength_error_selector = 0xd232fd2c;
uint256 constant InvalidExtraDataLength_error_orderHash_ptr = 0x20;
uint256 constant InvalidExtraDataLength_error_length = 0x24;
uint256 constant InvalidExtraDataLength_epected_length = 0x7e;

uint256 constant ExtraData_expiration_offset = 0x35;
uint256 constant ExtraData_substandard_version_byte_offset = 0x7d;
/*
 *  error InvalidSIP6Version()
 *    - Defined in SignedZoneEventsAndErrors.sol
 *  Memory layout:
 *    - 0x00: Left-padded selector (data begins at 0x1c)
 *    - 0x20: orderHash
 * Revert buffer is memory[0x1c:0x40]
 */
uint256 constant InvalidSIP6Version_error_selector = 0x64115774;
uint256 constant InvalidSIP6Version_error_orderHash_ptr = 0x20;
uint256 constant InvalidSIP6Version_error_length = 0x24;

/*
 *  error InvalidSubstandardVersion()
 *    - Defined in SignedZoneEventsAndErrors.sol
 *  Memory layout:
 *    - 0x00: Left-padded selector (data begins at 0x1c)
 *    - 0x20: orderHash
 * Revert buffer is memory[0x1c:0x40]
 */
uint256 constant InvalidSubstandardVersion_error_selector = 0x26787999;
uint256 constant InvalidSubstandardVersion_error_orderHash_ptr = 0x20;
uint256 constant InvalidSubstandardVersion_error_length = 0x24;

/*
 *  error InvalidSubstandardSupport()
 *    - Defined in SignedZoneEventsAndErrors.sol
 *  Memory layout:
 *    - 0x00: Left-padded selector (data begins at 0x1c)
 *    - 0x20: reason
 *    - 0x40: substandardVersion
 *    - 0x60: orderHash
 * Revert buffer is memory[0x1c:0xe0]
 */
uint256 constant InvalidSubstandardSupport_error_selector = 0x2be76224;
uint256 constant InvalidSubstandardSupport_error_reason_offset_ptr = 0x20;
uint256 constant InvalidSubstandardSupport_error_substandard_version_ptr = 0x40;
uint256 constant InvalidSubstandardSupport_error_orderHash_ptr = 0x60;
uint256 constant InvalidSubstandardSupport_error_reason_length_ptr = 0x80;
uint256 constant InvalidSubstandardSupport_error_reason_ptr = 0xa0;
uint256 constant InvalidSubstandardSupport_error_reason_2_ptr = 0xc0;
uint256 constant InvalidSubstandardSupport_error_length = 0xc4;

/*
 * error SignatureExpired()
 *   - Defined in SignedZoneEventsAndErrors.sol
 * Memory layout:
 *   - 0x00: Left-padded selector (data begins at 0x1c)
 *   - 0x20: expiration
 *   - 0x40: orderHash
 * Revert buffer is memory[0x1c:0x60]
 */
uint256 constant SignatureExpired_error_selector = 0x16546071;
uint256 constant SignatureExpired_error_expiration_ptr = 0x20;
uint256 constant SignatureExpired_error_orderHash_ptr = 0x40;
uint256 constant SignatureExpired_error_length = 0x44;

// Zone parameter calldata pointers
uint256 constant Zone_parameters_cdPtr = 0x04;
uint256 constant Zone_parameters_fulfiller_cdPtr = 0x44;
uint256 constant Zone_consideration_head_cdPtr = 0xa4;
uint256 constant Zone_extraData_cdPtr = 0xc4;

// Zone parameter memory pointers
uint256 constant Zone_parameters_ptr = 0x20;

// Zone parameter offsets
uint256 constant Zone_parameters_offset = 0x24;
uint256 constant expectedFulfiller_offset = 0x45;
uint256 constant actualConsideration_offset = 0x84;
uint256 constant expectedConsideration_offset = 0xa2;

Settings
{
  "viaIR": true,
  "optimizer": {
    "enabled": true,
    "runs": 200
  },
  "outputSelection": {
    "*": {
      "*": [
        "evm.bytecode",
        "evm.deployedBytecode",
        "devdoc",
        "userdoc",
        "metadata",
        "abi"
      ]
    }
  },
  "libraries": {}
}

Contract Security Audit

Contract ABI

[{"inputs":[],"stateMutability":"nonpayable","type":"constructor"},{"inputs":[{"internalType":"uint256","name":"expectedConsiderationHash","type":"uint256"},{"internalType":"uint256","name":"actualConsiderationHash","type":"uint256"},{"internalType":"bytes32","name":"orderHash","type":"bytes32"}],"name":"InvalidConsideration","type":"error"},{"inputs":[],"name":"InvalidController","type":"error"},{"inputs":[{"internalType":"bytes32","name":"orderHash","type":"bytes32"}],"name":"InvalidExtraDataLength","type":"error"},{"inputs":[{"internalType":"address","name":"expectedFulfiller","type":"address"},{"internalType":"address","name":"actualFulfiller","type":"address"},{"internalType":"bytes32","name":"orderHash","type":"bytes32"}],"name":"InvalidFulfiller","type":"error"},{"inputs":[{"internalType":"bytes32","name":"orderHash","type":"bytes32"}],"name":"InvalidSIP6Version","type":"error"},{"inputs":[{"internalType":"string","name":"reason","type":"string"},{"internalType":"uint256","name":"substandardVersion","type":"uint256"},{"internalType":"bytes32","name":"orderHash","type":"bytes32"}],"name":"InvalidSubstandardSupport","type":"error"},{"inputs":[{"internalType":"bytes32","name":"orderHash","type":"bytes32"}],"name":"InvalidSubstandardVersion","type":"error"},{"inputs":[],"name":"InvalidZoneParameterEncoding","type":"error"},{"inputs":[],"name":"OnlyOwnerOrActiveSigner","type":"error"},{"inputs":[{"internalType":"uint256","name":"expiration","type":"uint256"},{"internalType":"bytes32","name":"orderHash","type":"bytes32"}],"name":"SignatureExpired","type":"error"},{"inputs":[{"internalType":"address","name":"signer","type":"address"},{"internalType":"bytes32","name":"orderHash","type":"bytes32"}],"name":"SignerNotActive","type":"error"},{"anonymous":false,"inputs":[],"name":"SeaportCompatibleContractDeployed","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"address","name":"signer","type":"address"}],"name":"SignerAdded","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"address","name":"signer","type":"address"}],"name":"SignerRemoved","type":"event"},{"stateMutability":"payable","type":"fallback"},{"inputs":[],"name":"CONSIDERATION_BYTES","outputs":[{"internalType":"bytes","name":"","type":"bytes"}],"stateMutability":"view","type":"function"},{"inputs":[],"name":"CONSIDERATION_HASHTYPE","outputs":[{"internalType":"bytes32","name":"","type":"bytes32"}],"stateMutability":"view","type":"function"},{"inputs":[],"name":"RECEIVED_ITEM_BYTES","outputs":[{"internalType":"bytes","name":"","type":"bytes"}],"stateMutability":"view","type":"function"},{"inputs":[],"name":"RECEIVED_ITEM_HASHTYPE","outputs":[{"internalType":"bytes32","name":"","type":"bytes32"}],"stateMutability":"view","type":"function"},{"inputs":[{"components":[{"internalType":"bytes32","name":"orderHash","type":"bytes32"},{"internalType":"address","name":"fulfiller","type":"address"},{"internalType":"address","name":"offerer","type":"address"},{"components":[{"internalType":"enum ItemType","name":"itemType","type":"uint8"},{"internalType":"address","name":"token","type":"address"},{"internalType":"uint256","name":"identifier","type":"uint256"},{"internalType":"uint256","name":"amount","type":"uint256"}],"internalType":"struct SpentItem[]","name":"offer","type":"tuple[]"},{"components":[{"internalType":"enum ItemType","name":"itemType","type":"uint8"},{"internalType":"address","name":"token","type":"address"},{"internalType":"uint256","name":"identifier","type":"uint256"},{"internalType":"uint256","name":"amount","type":"uint256"},{"internalType":"address payable","name":"recipient","type":"address"}],"internalType":"struct ReceivedItem[]","name":"consideration","type":"tuple[]"},{"internalType":"bytes","name":"extraData","type":"bytes"},{"internalType":"bytes32[]","name":"orderHashes","type":"bytes32[]"},{"internalType":"uint256","name":"startTime","type":"uint256"},{"internalType":"uint256","name":"endTime","type":"uint256"},{"internalType":"bytes32","name":"zoneHash","type":"bytes32"}],"internalType":"struct ZoneParameters","name":"","type":"tuple"}],"name":"authorizeOrder","outputs":[{"internalType":"bytes4","name":"authorizedOrderMagicValue","type":"bytes4"}],"stateMutability":"view","type":"function"},{"inputs":[],"name":"getSeaportMetadata","outputs":[{"internalType":"string","name":"name","type":"string"},{"components":[{"internalType":"uint256","name":"id","type":"uint256"},{"internalType":"bytes","name":"metadata","type":"bytes"}],"internalType":"struct Schema[]","name":"schemas","type":"tuple[]"}],"stateMutability":"view","type":"function"},{"inputs":[{"components":[{"internalType":"bytes32","name":"orderHash","type":"bytes32"},{"internalType":"address","name":"fulfiller","type":"address"},{"internalType":"address","name":"offerer","type":"address"},{"components":[{"internalType":"enum ItemType","name":"itemType","type":"uint8"},{"internalType":"address","name":"token","type":"address"},{"internalType":"uint256","name":"identifier","type":"uint256"},{"internalType":"uint256","name":"amount","type":"uint256"}],"internalType":"struct SpentItem[]","name":"offer","type":"tuple[]"},{"components":[{"internalType":"enum ItemType","name":"itemType","type":"uint8"},{"internalType":"address","name":"token","type":"address"},{"internalType":"uint256","name":"identifier","type":"uint256"},{"internalType":"uint256","name":"amount","type":"uint256"},{"internalType":"address payable","name":"recipient","type":"address"}],"internalType":"struct ReceivedItem[]","name":"consideration","type":"tuple[]"},{"internalType":"bytes","name":"extraData","type":"bytes"},{"internalType":"bytes32[]","name":"orderHashes","type":"bytes32[]"},{"internalType":"uint256","name":"startTime","type":"uint256"},{"internalType":"uint256","name":"endTime","type":"uint256"},{"internalType":"bytes32","name":"zoneHash","type":"bytes32"}],"internalType":"struct ZoneParameters","name":"zoneParameters","type":"tuple"}],"name":"validateOrder","outputs":[{"internalType":"bytes4","name":"validOrderMagicValue","type":"bytes4"}],"stateMutability":"view","type":"function"}]

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A contract address hosts a smart contract, which is a set of code stored on the blockchain that runs when predetermined conditions are met. Learn more about addresses in our Knowledge Base.