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0x6101606017814922024-06-21 17:20:12108 days ago1718990412IN
 Create: EigenCertServiceManager
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Contract Source Code Verified (Exact Match)

Contract Name:
EigenCertServiceManager

Compiler Version
v0.8.12+commit.f00d7308

Optimization Enabled:
Yes with 200 runs

Other Settings:
london EvmVersion

Contract Source Code (Solidity Standard Json-Input format)

File 1 of 38 : EigenCertServiceManager.sol
// SPDX-License-Identifier: UNLICENSED
pragma solidity ^0.8.12;

import {IRiscZeroVerifier} from "risc0-ethereum/contracts/src/IRiscZeroVerifier.sol";

import {IRegistryCoordinator} from "eigenlayer-middleware/interfaces/IRegistryCoordinator.sol";
import {IPauserRegistry} from "eigenlayer-contracts/src/contracts/interfaces/IPauserRegistry.sol";
import {IAVSDirectory} from "eigenlayer-contracts/src/contracts/interfaces/IAVSDirectory.sol";
import {IBLSSignatureChecker} from "eigenlayer-middleware/interfaces/IBLSSignatureChecker.sol";
import {ServiceManagerBase} from "eigenlayer-middleware/ServiceManagerBase.sol";
import {BLSSignatureChecker} from "eigenlayer-middleware/BLSSignatureChecker.sol";
import {Pausable} from "eigenlayer-contracts/src/contracts/permissions/Pausable.sol";

import {EigenCertServiceManagerStorageV1} from "./EigenCertServiceManagerStorageV1.sol";
import {Status, AttestationState, EigenCallRequest, EigenCallTaskResponse, Journal} from "./interfaces/IEigenCertServiceManager.sol";
import {IEigenCertServiceManager} from "./interfaces/IEigenCertServiceManager.sol";
import {IAVSServiceManagerWithEigencert} from "./interfaces/IAVSServiceManagerWithEigencert.sol";

contract EigenCertServiceManager is
    EigenCertServiceManagerStorageV1,
    ServiceManagerBase,
    BLSSignatureChecker,
    Pausable
{
    modifier onlyAggregator() {
        if (msg.sender != aggregator) {
            revert("EigenCertServiceManager.onlyAggregator: Not Aggregator");
        }
        _;
    }

    constructor(
        IRegistryCoordinator _registryCoordinator,
        IAVSDirectory _avsDirectory
    )
        ServiceManagerBase(
            _avsDirectory,
            _registryCoordinator,
            _registryCoordinator.stakeRegistry()
        )
        BLSSignatureChecker(_registryCoordinator)
    {}

    /// @inheritdoc IEigenCertServiceManager
    function initialize(
        address _aggregator,
        address _pauserRegistry,
        address _initialOwner
    ) external initializer {
        _initializePauser(IPauserRegistry(_pauserRegistry), UNPAUSE_ALL);
        _transferOwnership(_initialOwner);
        _updateAggregator(_aggregator);
        _updateBlockStaleMeasure(300);
        _updateQuorumThreshold(80);
        _updateChallengeWindow(50_400); // Approx 7 days in blocks
    }

    /// @inheritdoc IEigenCertServiceManager
    function requestCecAttestation(
        address _to,
        bytes4 _selector,
        bytes memory _inputData,
        uint256 _blockNumber
    ) external {
        emit CecAttestationRequest(_to, _selector, _inputData, _blockNumber);
    }

    function getAttestationStatus(
        EigenCallTaskResponse calldata _taskResponse,
        IBLSSignatureChecker.NonSignerStakesAndSignature calldata _nonSignerStakesAndSignature
    ) external view returns (Status, uint32) {
        if (_taskResponse.task.referenceBlockNumber + blockStaleMeasure < uint32(block.number)) {
            revert(
                "EigenCertServiceManager.getAttestationStatus: specified referenceBlockNumber is too far in past"
            );
        }
        bytes32 taskResponseHash = keccak256(abi.encode(_taskResponse));

        (QuorumStakeTotals memory quorumStakeTotals, bytes32 certSignatoryRecord) = checkSignatures(
            taskResponseHash,
            _taskResponse.task.quorumNumbers,
            /// TODO: Expects calldata so couldn't pass from memory and hardcode the quorumNumbers
            _taskResponse.task.referenceBlockNumber,
            _nonSignerStakesAndSignature
        );
        for (uint256 i; i < quorumStakeTotals.signedStakeForQuorum.length; i++) {
            if (
                !(quorumStakeTotals.signedStakeForQuorum[i] * THRESHOLD_DENOMINATOR >=
                    quorumStakeTotals.totalStakeForQuorum[i] * threshold)
            ) {
                revert("EigenCertServiceManager.attestCec: Attestation Threshold Not Met");
            }
        }

        bytes32 certUUID = _calculateCertId(taskResponseHash, certSignatoryRecord);

        return (certAttestations[certUUID].status, certAttestations[certUUID].challengeableUntil);
    }

    /// @inheritdoc IEigenCertServiceManager
    function attestCec(
        EigenCallTaskResponse calldata _taskResponse,
        IBLSSignatureChecker.NonSignerStakesAndSignature calldata _nonSignerStakesAndSignature
    ) external onlyAggregator returns (bytes32) {
        if (_taskResponse.task.referenceBlockNumber + blockStaleMeasure < uint32(block.number)) {
            revert(
                "EigenCertServiceManager.attestCec: specified referenceBlockNumber is too far in past"
            );
        }
        bytes32 taskResponseHash = keccak256(abi.encode(_taskResponse));

        (QuorumStakeTotals memory quorumStakeTotals, bytes32 certSignatoryRecord) = checkSignatures(
            taskResponseHash,
            _taskResponse.task.quorumNumbers,
            /// TODO: Expects calldata so couldn't pass from memory and hardcode the quorumNumbers
            _taskResponse.task.referenceBlockNumber,
            _nonSignerStakesAndSignature
        );
        for (uint256 i; i < quorumStakeTotals.signedStakeForQuorum.length; i++) {
            if (
                !(quorumStakeTotals.signedStakeForQuorum[i] * THRESHOLD_DENOMINATOR >=
                    quorumStakeTotals.totalStakeForQuorum[i] * threshold)
            ) {
                revert("EigenCertServiceManager.attestCec: Attestation Threshold Not Met");
            }
        }

        bytes32 certUUID = _calculateCertId(taskResponseHash, certSignatoryRecord);

        certUUIDs[nextCertId] = certUUID;

        if (certAttestations[certUUID].status == Status.Attested) {
            revert("EigenCertServiceManager.attestCec: Already attested");
        }

        uint256 challengeableUntil = block.number + challengeWindow;
        certAttestations[certUUID] = AttestationState({
            status: Status.Attested,
            challengeableUntil: uint32(challengeableUntil)
        });
        nextCertId++;
        emit CecAttestation(_taskResponse.task.request.to, _taskResponse, challengeableUntil);

        IAVSServiceManagerWithEigencert(_taskResponse.task.request.to).eigencertCallback(
            _taskResponse.task.request,
            _taskResponse.resp
        );

        return certSignatoryRecord;
    }

    /// @inheritdoc IEigenCertServiceManager
    function challengeCecZKFraudProof(
        EigenCallTaskResponse calldata _taskResponse,
        bytes32 _certSignatoryRecord,
        Journal calldata _journal,
        bytes calldata _seal,
        bytes32 _postStateDigest,
        bytes32 _imageId
    ) external {
        bytes32 taskResponseHash = keccak256(abi.encode(_taskResponse));
        bytes32 certId = _calculateCertId(taskResponseHash, _certSignatoryRecord);
        if (certAttestations[certId].status != Status.Attested) {
            revert("EigenCertServiceManager.challengeCec: Cert Status Not Attested");
        }
        if (certAttestations[certId].challengeableUntil < block.timestamp) {
            revert("EigenCertServiceManager.challengeCec: Past Challenge Window");
        }

        if (blockhash(_journal.blockCommitment.blockNumber) != _journal.blockCommitment.blockHash) {
            revert("EigenCertServiceManager.challengeCec: Invalid block commitment");
        }

        if (_journal.blockCommitment.blockNumber != _taskResponse.task.referenceBlockNumber) {
            revert("EigenCertServiceManager.challengeCec: Invalid block number");
        }

        if (
            !IRiscZeroVerifier(verifier).verify(
                _seal,
                _imageId,
                _postStateDigest,
                sha256(abi.encode(_journal))
            )
        ) {
            revert("EigenCertServiceManager.challengeCec: snark verification failed");
        }

        certAttestations[certId].status = Status.Invalidated;
        emit CecChallenged(_taskResponse.task.request.to, _taskResponse);
    }

    /// @inheritdoc IEigenCertServiceManager
    function eigenCallVerify(
        EigenCallRequest calldata request
    ) external returns (bool, bytes memory) {
        (bool success, bytes memory data) = address(request.to).call(
            abi.encodePacked(request.selector, request.inputData)
        );
        return (success, data);
    }

    /// @inheritdoc IEigenCertServiceManager
    function updateAggregator(address _newAggregator) external onlyOwner {
        _updateAggregator(_newAggregator);
    }

    /// @inheritdoc IEigenCertServiceManager
    function updateChallengeWindow(uint32 _newChallengeWindow) external onlyOwner {
        _updateChallengeWindow(_newChallengeWindow);
    }

    /// @inheritdoc IEigenCertServiceManager
    function updateRiscZeroVerifier(address _newVerifier) external onlyOwner {
        _updateRiscZeroVerifier(_newVerifier);
    }

    /// @inheritdoc IEigenCertServiceManager
    function updateQuorumThreshold(uint256 _newThreshold) external onlyOwner {
        _updateQuorumThreshold(_newThreshold);
    }

    /// @inheritdoc IEigenCertServiceManager
    function updateBlockStaleMeasure(uint32 _newBlockStaleMeasure) external onlyOwner {
        _updateBlockStaleMeasure(_newBlockStaleMeasure);
    }

    /**
     * @notice Updates the threshold percentage of stake required for a quorum
     * @param _newThreshold The new threshold percentage of stake required for a quorum
     * @dev Emits a {QuorumThresholdUpdated} event indicating the old and new quorum thresholds
     */
    function _updateQuorumThreshold(uint256 _newThreshold) internal {
        uint256 oldThreshold = threshold;
        threshold = _newThreshold;
        emit QuorumThresholdUpdated(oldThreshold, _newThreshold);
    }

    /**
     * @notice Updates the number of blocks after which a referenceBlockNumber is considered stale
     * @param _newBlockStaleMeasure The new number of blocks after which a referenceBlockNumber is considered stale
     * @dev Emits a {BlockStaleMeasureUpdated} event indicating the old and new block stale measures
     */
    function _updateBlockStaleMeasure(uint32 _newBlockStaleMeasure) internal {
        uint32 oldBlockStaleMeasure = blockStaleMeasure;
        blockStaleMeasure = _newBlockStaleMeasure;
        emit BlockStaleMeasureUpdated(oldBlockStaleMeasure, _newBlockStaleMeasure);
    }

    /**
     * @notice Updates the address of the aggregator
     * @param _newAggregator The address of the new aggregator
     * @dev Emits a {AggregatorUpdated} event indicating the old and new aggregator addresses
     */
    function _updateAggregator(address _newAggregator) internal {
        address oldAggregator = aggregator;
        aggregator = _newAggregator;
        emit AggregatorUpdated(oldAggregator, _newAggregator);
    }

    /**
     * @notice Updates the challenge window duration
     * @param _newChallengeWindow The new challenge window duration
     * @dev Emits a {ChallengeWindowUpdated} event indicating the old and new challenge window durations
     */
    function _updateChallengeWindow(uint32 _newChallengeWindow) internal {
        uint32 oldChallengeWindow = challengeWindow;
        challengeWindow = _newChallengeWindow;
        emit ChallengeWindowUpdated(oldChallengeWindow, _newChallengeWindow);
    }

    /**
     * @notice Updates the address of the Risc0 verifier contract
     * @param _newVerifier The address of the new Risc0 verifier contract
     * @dev Emits a {RiscZeroVerifierUpdated} event indicating the old and new verifier addresses
     */
    function _updateRiscZeroVerifier(address _newVerifier) internal {
        address oldVerifier = address(verifier);
        verifier = _newVerifier;
        emit RiscZeroVerifierUpdated(oldVerifier, _newVerifier);
    }

    /**
     * @notice Calculates the unique identifier for a CEC attestation
     * @param _taskResponseHash The hash of the EigenCallTaskResponse struct containing the attestation data
     * @param _certSignatoryRecord The hash of the non-signer stakes and reference block number used in the attestation
     * @return The unique identifier for the CEC attestation
     * @dev The unique identifier is calculated by hashing the concatenation of the task response hash and the cert signatory record
     */
    function _calculateCertId(
        bytes32 _taskResponseHash,
        bytes32 _certSignatoryRecord
    ) internal pure returns (bytes32) {
        return keccak256(bytes.concat(_taskResponseHash, _certSignatoryRecord));
    }
}

File 2 of 38 : IRiscZeroVerifier.sol
// Copyright 2024 RISC Zero, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
//     http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
// SPDX-License-Identifier: Apache-2.0

pragma solidity ^0.8.9;

/// @notice Public claims about a zkVM guest execution, such as the journal committed to by the guest.
/// @dev Also includes important information such as the exit code and the starting and ending system
/// state (i.e. the state of memory). `ReceiptClaim` is a "Merkle-ized struct" supporting
/// partial openings of the underlying fields from a hash commitment to the full structure.
struct ReceiptClaim {
    /// @notice Digest of the SystemState just before execution has begun.
    bytes32 preStateDigest;
    /// @notice Digest of the SystemState just after execution has completed.
    bytes32 postStateDigest;
    /// @notice The exit code for the execution.
    ExitCode exitCode;
    /// @notice A digest of the input to the guest.
    /// @dev This field is currently unused and must be set to the zero digest.
    bytes32 input;
    /// @notice Digest of the Output of the guest, including the journal
    /// and assumptions set during execution.
    bytes32 output;
}

library ReceiptClaimLib {
    bytes32 constant TAG_DIGEST = sha256("risc0.ReceiptClaim");

    function digest(ReceiptClaim memory claim) internal pure returns (bytes32) {
        return sha256(
            abi.encodePacked(
                TAG_DIGEST,
                // down
                claim.input,
                claim.preStateDigest,
                claim.postStateDigest,
                claim.output,
                // data
                uint32(claim.exitCode.system) << 24,
                uint32(claim.exitCode.user) << 24,
                // down.length
                uint16(4) << 8
            )
        );
    }
}

/// @notice Exit condition indicated by the zkVM at the end of the guest execution.
/// @dev Exit codes have a "system" part and a "user" part. Semantically, the system part is set to
/// indicate the type of exit (e.g. halt, pause, or system split) and is directly controlled by the
/// zkVM. The user part is an exit code, similar to exit codes used in Linux, chosen by the guest
/// program to indicate additional information (e.g. 0 to indicate success or 1 to indicate an
/// error).
struct ExitCode {
    SystemExitCode system;
    uint8 user;
}

/// @notice Exit condition indicated by the zkVM at the end of the execution covered by this proof.
/// @dev
/// `Halted` indicates normal termination of a program with an interior exit code returned from the
/// guest program. A halted program cannot be resumed.
///
/// `Paused` indicates the execution ended in a paused state with an interior exit code set by the
/// guest program. A paused program can be resumed such that execution picks up where it left
/// of, with the same memory state.
///
/// `SystemSplit` indicates the execution ended on a host-initiated system split. System split is
/// mechanism by which the host can temporarily stop execution of the execution ended in a system
/// split has no output and no conclusions can be drawn about whether the program will eventually
/// halt. System split is used in continuations to split execution into individually provable segments.
enum SystemExitCode {
    Halted,
    Paused,
    SystemSplit
}

/// @notice Output field in the `ReceiptClaim`, committing to a claimed journal and assumptions list.
struct Output {
    /// @notice Digest of the journal committed to by the guest execution.
    bytes32 journalDigest;
    /// @notice Digest of the ordered list of `ReceiptClaim` digests corresponding to the
    /// calls to `env::verify` and `env::verify_integrity`.
    /// @dev Verifying the integrity of a `Receipt` corresponding to a `ReceiptClaim` with a
    /// non-empty assumptions list does not guarantee unconditionally any of the claims over the
    /// guest execution (i.e. if the assumptions list is non-empty, then the journal digest cannot
    /// be trusted to correspond to a genuine execution). The claims can be checked by additional
    /// verifying a `Receipt` for every digest in the assumptions list.
    bytes32 assumptionsDigest;
}

library OutputLib {
    bytes32 constant TAG_DIGEST = sha256("risc0.Output");

    function digest(Output memory output) internal pure returns (bytes32) {
        return sha256(
            abi.encodePacked(
                TAG_DIGEST,
                // down
                output.journalDigest,
                output.assumptionsDigest,
                // down.length
                uint16(2) << 8
            )
        );
    }
}

/// @notice A receipt attesting to the execution of a guest program.
/// @dev A receipt contains two parts: a seal and a claim. The seal is a zero-knowledge proof
/// attesting to knowledge of a zkVM execution resulting in the claim. The claim is a set of public
/// outputs for the execution. Crucially, the claim includes the journal and the image ID. The
/// image ID identifies the program that was executed, and the journal is the public data written
/// by the program.
struct Receipt {
    bytes seal;
    ReceiptClaim claim;
}

/// @notice Verifier interface for RISC Zero receipts of execution.
interface IRiscZeroVerifier {
    /// @notice Verify that the given seal is a valid RISC Zero proof of execution with the
    ///     given image ID, post-state digest, and journal digest.
    /// @dev This method additionally ensures that the input hash is all-zeros (i.e. no
    /// committed input), the exit code is (Halted, 0), and there are no assumptions (i.e. the
    /// receipt is unconditional).
    /// @param seal The encoded cryptographic proof (i.e. SNARK).
    /// @param imageId The identifier for the guest program.
    /// @param postStateDigest A hash of the final memory state. Required to run the verifier, but
    ///     otherwise can be left unconstrained for most use cases.
    /// @param journalDigest The SHA-256 digest of the journal bytes.
    /// @return true if the receipt passes the verification checks. The return code must be checked.
    function verify(bytes calldata seal, bytes32 imageId, bytes32 postStateDigest, bytes32 journalDigest)
        external
        view
        returns (bool);

    /// @notice Verify that the given receipt is a valid RISC Zero receipt, ensuring the `seal` is
    /// valid a cryptographic proof of the execution with the given `claim`.
    /// @param receipt The receipt to be verified.
    /// @return true if the receipt passes the verification checks. The return code must be checked.
    function verify_integrity(Receipt calldata receipt) external view returns (bool);
}

File 3 of 38 : IRegistryCoordinator.sol
// SPDX-License-Identifier: BUSL-1.1
pragma solidity =0.8.12;

import {IBLSApkRegistry} from "./IBLSApkRegistry.sol";
import {IStakeRegistry} from "./IStakeRegistry.sol";
import {IIndexRegistry} from "./IIndexRegistry.sol";
import {BN254} from "../libraries/BN254.sol";

/**
 * @title Interface for a contract that coordinates between various registries for an AVS.
 * @author Layr Labs, Inc.
 */
interface IRegistryCoordinator {
    // EVENTS

    /// Emits when an operator is registered
    event OperatorRegistered(address indexed operator, bytes32 indexed operatorId);

    /// Emits when an operator is deregistered
    event OperatorDeregistered(address indexed operator, bytes32 indexed operatorId);

    event OperatorSetParamsUpdated(uint8 indexed quorumNumber, OperatorSetParam operatorSetParams);

    event ChurnApproverUpdated(address prevChurnApprover, address newChurnApprover);

    event EjectorUpdated(address prevEjector, address newEjector);

    /// @notice emitted when all the operators for a quorum are updated at once
    event QuorumBlockNumberUpdated(uint8 indexed quorumNumber, uint256 blocknumber);

    // DATA STRUCTURES
    enum OperatorStatus
    {
        // default is NEVER_REGISTERED
        NEVER_REGISTERED,
        REGISTERED,
        DEREGISTERED
    }

    // STRUCTS

    /**
     * @notice Data structure for storing info on operators
     */
    struct OperatorInfo {
        // the id of the operator, which is likely the keccak256 hash of the operator's public key if using BLSRegistry
        bytes32 operatorId;
        // indicates whether the operator is actively registered for serving the middleware or not
        OperatorStatus status;
    }

    /**
     * @notice Data structure for storing info on quorum bitmap updates where the `quorumBitmap` is the bitmap of the 
     * quorums the operator is registered for starting at (inclusive)`updateBlockNumber` and ending at (exclusive) `nextUpdateBlockNumber`
     * @dev nextUpdateBlockNumber is initialized to 0 for the latest update
     */
    struct QuorumBitmapUpdate {
        uint32 updateBlockNumber;
        uint32 nextUpdateBlockNumber;
        uint192 quorumBitmap;
    }

    /**
     * @notice Data structure for storing operator set params for a given quorum. Specifically the 
     * `maxOperatorCount` is the maximum number of operators that can be registered for the quorum,
     * `kickBIPsOfOperatorStake` is the basis points of a new operator needs to have of an operator they are trying to kick from the quorum,
     * and `kickBIPsOfTotalStake` is the basis points of the total stake of the quorum that an operator needs to be below to be kicked.
     */ 
     struct OperatorSetParam {
        uint32 maxOperatorCount;
        uint16 kickBIPsOfOperatorStake;
        uint16 kickBIPsOfTotalStake;
    }

    /**
     * @notice Data structure for the parameters needed to kick an operator from a quorum with number `quorumNumber`, used during registration churn.
     * `operator` is the address of the operator to kick
     */
    struct OperatorKickParam {
        uint8 quorumNumber;
        address operator;
    }

    /// @notice Returns the operator set params for the given `quorumNumber`
    function getOperatorSetParams(uint8 quorumNumber) external view returns (OperatorSetParam memory);
    /// @notice the Stake registry contract that will keep track of operators' stakes
    function stakeRegistry() external view returns (IStakeRegistry);
    /// @notice the BLS Aggregate Pubkey Registry contract that will keep track of operators' BLS aggregate pubkeys per quorum
    function blsApkRegistry() external view returns (IBLSApkRegistry);
    /// @notice the index Registry contract that will keep track of operators' indexes
    function indexRegistry() external view returns (IIndexRegistry);

    /**
     * @notice Ejects the provided operator from the provided quorums from the AVS
     * @param operator is the operator to eject
     * @param quorumNumbers are the quorum numbers to eject the operator from
     */
    function ejectOperator(
        address operator, 
        bytes calldata quorumNumbers
    ) external;

    /// @notice Returns the number of quorums the registry coordinator has created
    function quorumCount() external view returns (uint8);

    /// @notice Returns the operator struct for the given `operator`
    function getOperator(address operator) external view returns (OperatorInfo memory);

    /// @notice Returns the operatorId for the given `operator`
    function getOperatorId(address operator) external view returns (bytes32);

    /// @notice Returns the operator address for the given `operatorId`
    function getOperatorFromId(bytes32 operatorId) external view returns (address operator);

    /// @notice Returns the status for the given `operator`
    function getOperatorStatus(address operator) external view returns (IRegistryCoordinator.OperatorStatus);

    /// @notice Returns the indices of the quorumBitmaps for the provided `operatorIds` at the given `blockNumber`
    function getQuorumBitmapIndicesAtBlockNumber(uint32 blockNumber, bytes32[] memory operatorIds) external view returns (uint32[] memory);

    /**
     * @notice Returns the quorum bitmap for the given `operatorId` at the given `blockNumber` via the `index`
     * @dev reverts if `index` is incorrect 
     */ 
    function getQuorumBitmapAtBlockNumberByIndex(bytes32 operatorId, uint32 blockNumber, uint256 index) external view returns (uint192);

    /// @notice Returns the `index`th entry in the operator with `operatorId`'s bitmap history
    function getQuorumBitmapUpdateByIndex(bytes32 operatorId, uint256 index) external view returns (QuorumBitmapUpdate memory);

    /// @notice Returns the current quorum bitmap for the given `operatorId`
    function getCurrentQuorumBitmap(bytes32 operatorId) external view returns (uint192);

    /// @notice Returns the length of the quorum bitmap history for the given `operatorId`
    function getQuorumBitmapHistoryLength(bytes32 operatorId) external view returns (uint256);

    /// @notice Returns the registry at the desired index
    function registries(uint256) external view returns (address);

    /// @notice Returns the number of registries
    function numRegistries() external view returns (uint256);

    /**
     * @notice Returns the message hash that an operator must sign to register their BLS public key.
     * @param operator is the address of the operator registering their BLS public key
     */
    function pubkeyRegistrationMessageHash(address operator) external view returns (BN254.G1Point memory);

    /// @notice returns the blocknumber the quorum was last updated all at once for all operators
    function quorumUpdateBlockNumber(uint8 quorumNumber) external view returns (uint256);

    /// @notice The owner of the registry coordinator
    function owner() external view returns (address);
}

File 4 of 38 : IPauserRegistry.sol
// SPDX-License-Identifier: BUSL-1.1
pragma solidity >=0.5.0;

/**
 * @title Interface for the `PauserRegistry` contract.
 * @author Layr Labs, Inc.
 * @notice Terms of Service: https://docs.eigenlayer.xyz/overview/terms-of-service
 */
interface IPauserRegistry {
    event PauserStatusChanged(address pauser, bool canPause);

    event UnpauserChanged(address previousUnpauser, address newUnpauser);
    
    /// @notice Mapping of addresses to whether they hold the pauser role.
    function isPauser(address pauser) external view returns (bool);

    /// @notice Unique address that holds the unpauser role. Capable of changing *both* the pauser and unpauser addresses.
    function unpauser() external view returns (address);
}

File 5 of 38 : IAVSDirectory.sol
// SPDX-License-Identifier: BUSL-1.1
pragma solidity >=0.5.0;

import "./ISignatureUtils.sol";

interface IAVSDirectory is ISignatureUtils {
    /// @notice Enum representing the status of an operator's registration with an AVS
    enum OperatorAVSRegistrationStatus {
        UNREGISTERED,       // Operator not registered to AVS
        REGISTERED          // Operator registered to AVS
    }

    /**
     * @notice Emitted when @param avs indicates that they are updating their MetadataURI string
     * @dev Note that these strings are *never stored in storage* and are instead purely emitted in events for off-chain indexing
     */
    event AVSMetadataURIUpdated(address indexed avs, string metadataURI);

    /// @notice Emitted when an operator's registration status for an AVS is updated
    event OperatorAVSRegistrationStatusUpdated(address indexed operator, address indexed avs, OperatorAVSRegistrationStatus status);

    /**
     * @notice Called by an avs to register an operator with the avs.
     * @param operator The address of the operator to register.
     * @param operatorSignature The signature, salt, and expiry of the operator's signature.
     */
    function registerOperatorToAVS(
        address operator,
        ISignatureUtils.SignatureWithSaltAndExpiry memory operatorSignature
    ) external;

    /**
     * @notice Called by an avs to deregister an operator with the avs.
     * @param operator The address of the operator to deregister.
     */
    function deregisterOperatorFromAVS(address operator) external;

    /**
     * @notice Called by an AVS to emit an `AVSMetadataURIUpdated` event indicating the information has updated.
     * @param metadataURI The URI for metadata associated with an AVS
     * @dev Note that the `metadataURI` is *never stored * and is only emitted in the `AVSMetadataURIUpdated` event
     */
    function updateAVSMetadataURI(string calldata metadataURI) external;

    /**
     * @notice Returns whether or not the salt has already been used by the operator.
     * @dev Salts is used in the `registerOperatorToAVS` function.
     */
    function operatorSaltIsSpent(address operator, bytes32 salt) external view returns (bool);

    /**
     * @notice Calculates the digest hash to be signed by an operator to register with an AVS
     * @param operator The account registering as an operator
     * @param avs The AVS the operator is registering to
     * @param salt A unique and single use value associated with the approver signature.
     * @param expiry Time after which the approver's signature becomes invalid
     */
    function calculateOperatorAVSRegistrationDigestHash(
        address operator,
        address avs,
        bytes32 salt,
        uint256 expiry
    ) external view returns (bytes32);

    /// @notice The EIP-712 typehash for the Registration struct used by the contract
    function OPERATOR_AVS_REGISTRATION_TYPEHASH() external view returns (bytes32);
}

File 6 of 38 : IBLSSignatureChecker.sol
// SPDX-License-Identifier: BUSL-1.1
pragma solidity =0.8.12;

import {IRegistryCoordinator} from "./IRegistryCoordinator.sol";
import {IBLSApkRegistry} from "./IBLSApkRegistry.sol";
import {IStakeRegistry, IDelegationManager} from "./IStakeRegistry.sol";

import {BN254} from "../libraries/BN254.sol";

/**
 * @title Used for checking BLS aggregate signatures from the operators of a EigenLayer AVS with the RegistryCoordinator/BLSApkRegistry/StakeRegistry architechture.
 * @author Layr Labs, Inc.
 * @notice Terms of Service: https://docs.eigenlayer.xyz/overview/terms-of-service
 * @notice This is the contract for checking the validity of aggregate operator signatures.
 */
interface IBLSSignatureChecker {
    // DATA STRUCTURES

    struct NonSignerStakesAndSignature {
        uint32[] nonSignerQuorumBitmapIndices; // is the indices of all nonsigner quorum bitmaps
        BN254.G1Point[] nonSignerPubkeys; // is the G1 pubkeys of all nonsigners
        BN254.G1Point[] quorumApks; // is the aggregate G1 pubkey of each quorum
        BN254.G2Point apkG2; // is the aggregate G2 pubkey of all signers
        BN254.G1Point sigma; // is the aggregate G1 signature of all signers
        uint32[] quorumApkIndices; // is the indices of each quorum aggregate pubkey
        uint32[] totalStakeIndices; // is the indices of each quorums total stake
        uint32[][] nonSignerStakeIndices; // is the indices of each non signers stake within a quorum
    }

    /**
     * @notice this data structure is used for recording the details on the total stake of the registered
     * operators and those operators who are part of the quorum for a particular taskNumber
     */

    struct QuorumStakeTotals {
        // total stake of the operators in each quorum
        uint96[] signedStakeForQuorum;
        // total amount staked by all operators in each quorum
        uint96[] totalStakeForQuorum;
    }

    // EVENTS

    /// @notice Emitted when `staleStakesForbiddenUpdate` is set
    event StaleStakesForbiddenUpdate(bool value);   
    
    // CONSTANTS & IMMUTABLES

    function registryCoordinator() external view returns (IRegistryCoordinator);
    function stakeRegistry() external view returns (IStakeRegistry);
    function blsApkRegistry() external view returns (IBLSApkRegistry);
    function delegation() external view returns (IDelegationManager);

    /**
     * @notice This function is called by disperser when it has aggregated all the signatures of the operators
     * that are part of the quorum for a particular taskNumber and is asserting them into onchain. The function
     * checks that the claim for aggregated signatures are valid.
     *
     * The thesis of this procedure entails:
     * - getting the aggregated pubkey of all registered nodes at the time of pre-commit by the
     * disperser (represented by apk in the parameters),
     * - subtracting the pubkeys of all the signers not in the quorum (nonSignerPubkeys) and storing 
     * the output in apk to get aggregated pubkey of all operators that are part of quorum.
     * - use this aggregated pubkey to verify the aggregated signature under BLS scheme.
     * 
     * @dev Before signature verification, the function verifies operator stake information.  This includes ensuring that the provided `referenceBlockNumber`
     * is correct, i.e., ensure that the stake returned from the specified block number is recent enough and that the stake is either the most recent update
     * for the total stake (or the operator) or latest before the referenceBlockNumber.
     */
    function checkSignatures(
        bytes32 msgHash, 
        bytes calldata quorumNumbers,
        uint32 referenceBlockNumber, 
        NonSignerStakesAndSignature memory nonSignerStakesAndSignature
    ) 
        external 
        view
        returns (
            QuorumStakeTotals memory,
            bytes32
        );
}

File 7 of 38 : ServiceManagerBase.sol
// SPDX-License-Identifier: BUSL-1.1
pragma solidity =0.8.12;

import {OwnableUpgradeable} from "@openzeppelin-upgrades/contracts/access/OwnableUpgradeable.sol";

import {BitmapUtils} from "./libraries/BitmapUtils.sol"; 
import {ISignatureUtils} from "eigenlayer-contracts/src/contracts/interfaces/ISignatureUtils.sol";
import {IAVSDirectory} from "eigenlayer-contracts/src/contracts/interfaces/IAVSDirectory.sol";

import {IServiceManager} from "./interfaces/IServiceManager.sol";
import {IRegistryCoordinator} from "./interfaces/IRegistryCoordinator.sol";
import {IStakeRegistry} from "./interfaces/IStakeRegistry.sol";

/**
 * @title Minimal implementation of a ServiceManager-type contract.
 * This contract can be inherited from or simply used as a point-of-reference.
 * @author Layr Labs, Inc.
 */
abstract contract ServiceManagerBase is IServiceManager, OwnableUpgradeable {
    using BitmapUtils for *;

    IRegistryCoordinator internal immutable _registryCoordinator;
    IStakeRegistry internal immutable _stakeRegistry;
    IAVSDirectory internal immutable _avsDirectory;

    /// @notice when applied to a function, only allows the RegistryCoordinator to call it
    modifier onlyRegistryCoordinator() {
        require(
            msg.sender == address(_registryCoordinator),
            "ServiceManagerBase.onlyRegistryCoordinator: caller is not the registry coordinator"
        );
        _;
    }

    /// @notice Sets the (immutable) `_registryCoordinator` address
    constructor(
        IAVSDirectory __avsDirectory,
        IRegistryCoordinator __registryCoordinator,
        IStakeRegistry __stakeRegistry
    ) {
        _avsDirectory = __avsDirectory;
        _registryCoordinator = __registryCoordinator;
        _stakeRegistry = __stakeRegistry;
        _disableInitializers();
    }

    function __ServiceManagerBase_init(address initialOwner) internal virtual onlyInitializing {
        _transferOwnership(initialOwner);
    }

    /**
     * @notice Sets the metadata URI for the AVS
     * @param _metadataURI is the metadata URI for the AVS
     * @dev only callable by the owner
     */
    function setMetadataURI(string memory _metadataURI) public virtual onlyOwner {
        _avsDirectory.updateAVSMetadataURI(_metadataURI);
    }

    /**
     * @notice Forwards a call to EigenLayer's AVSDirectory contract to confirm operator registration with the AVS
     * @param operator The address of the operator to register.
     * @param operatorSignature The signature, salt, and expiry of the operator's signature.
     */
    function registerOperatorToAVS(
        address operator,
        ISignatureUtils.SignatureWithSaltAndExpiry memory operatorSignature
    ) public virtual onlyRegistryCoordinator {
        _avsDirectory.registerOperatorToAVS(operator, operatorSignature);
    }

    /**
     * @notice Forwards a call to EigenLayer's AVSDirectory contract to confirm operator deregistration from the AVS
     * @param operator The address of the operator to deregister.
     */
    function deregisterOperatorFromAVS(address operator) public virtual onlyRegistryCoordinator {
        _avsDirectory.deregisterOperatorFromAVS(operator);
    }

    /**
     * @notice Returns the list of strategies that the AVS supports for restaking
     * @dev This function is intended to be called off-chain
     * @dev No guarantee is made on uniqueness of each element in the returned array. 
     *      The off-chain service should do that validation separately
     */
    function getRestakeableStrategies() external view returns (address[] memory) {
        uint256 quorumCount = _registryCoordinator.quorumCount();

        if (quorumCount == 0) {
            return new address[](0);
        }
        
        uint256 strategyCount;
        for(uint256 i = 0; i < quorumCount; i++) {
            strategyCount += _stakeRegistry.strategyParamsLength(uint8(i));
        }

        address[] memory restakedStrategies = new address[](strategyCount);
        uint256 index = 0;
        for(uint256 i = 0; i < _registryCoordinator.quorumCount(); i++) {
            uint256 strategyParamsLength = _stakeRegistry.strategyParamsLength(uint8(i));
            for (uint256 j = 0; j < strategyParamsLength; j++) {
                restakedStrategies[index] = address(_stakeRegistry.strategyParamsByIndex(uint8(i), j).strategy);
                index++;
            }
        }
        return restakedStrategies;
    }

    /**
     * @notice Returns the list of strategies that the operator has potentially restaked on the AVS
     * @param operator The address of the operator to get restaked strategies for
     * @dev This function is intended to be called off-chain
     * @dev No guarantee is made on whether the operator has shares for a strategy in a quorum or uniqueness 
     *      of each element in the returned array. The off-chain service should do that validation separately
     */
    function getOperatorRestakedStrategies(address operator) external view returns (address[] memory) {
        bytes32 operatorId = _registryCoordinator.getOperatorId(operator);
        uint192 operatorBitmap = _registryCoordinator.getCurrentQuorumBitmap(operatorId);

        if (operatorBitmap == 0 || _registryCoordinator.quorumCount() == 0) {
            return new address[](0);
        }

        // Get number of strategies for each quorum in operator bitmap
        bytes memory operatorRestakedQuorums = BitmapUtils.bitmapToBytesArray(operatorBitmap);
        uint256 strategyCount;
        for(uint256 i = 0; i < operatorRestakedQuorums.length; i++) {
            strategyCount += _stakeRegistry.strategyParamsLength(uint8(operatorRestakedQuorums[i]));
        }

        // Get strategies for each quorum in operator bitmap
        address[] memory restakedStrategies = new address[](strategyCount);
        uint256 index = 0;
        for(uint256 i = 0; i < operatorRestakedQuorums.length; i++) {
            uint8 quorum = uint8(operatorRestakedQuorums[i]);
            uint256 strategyParamsLength = _stakeRegistry.strategyParamsLength(quorum);
            for (uint256 j = 0; j < strategyParamsLength; j++) {
                restakedStrategies[index] = address(_stakeRegistry.strategyParamsByIndex(quorum, j).strategy);
                index++;
            }
        }
        return restakedStrategies;        
    }

    /// @notice Returns the EigenLayer AVSDirectory contract.
    function avsDirectory() external view override returns (address) {
        return address(_avsDirectory);
    }
    
    // storage gap for upgradeability
    // slither-disable-next-line shadowing-state
    uint256[50] private __GAP;
}

File 8 of 38 : BLSSignatureChecker.sol
// SPDX-License-Identifier: BUSL-1.1
pragma solidity =0.8.12;

import {IBLSSignatureChecker} from "./interfaces/IBLSSignatureChecker.sol";
import {IRegistryCoordinator} from "./interfaces/IRegistryCoordinator.sol";
import {IBLSApkRegistry} from "./interfaces/IBLSApkRegistry.sol";
import {IStakeRegistry, IDelegationManager} from "./interfaces/IStakeRegistry.sol";

import {BitmapUtils} from "./libraries/BitmapUtils.sol";
import {BN254} from "./libraries/BN254.sol";

/**
 * @title Used for checking BLS aggregate signatures from the operators of a `BLSRegistry`.
 * @author Layr Labs, Inc.
 * @notice Terms of Service: https://docs.eigenlayer.xyz/overview/terms-of-service
 * @notice This is the contract for checking the validity of aggregate operator signatures.
 */
contract BLSSignatureChecker is IBLSSignatureChecker {
    using BN254 for BN254.G1Point;
    
    // CONSTANTS & IMMUTABLES

    // gas cost of multiplying 2 pairings
    uint256 internal constant PAIRING_EQUALITY_CHECK_GAS = 120000;

    IRegistryCoordinator public immutable registryCoordinator;
    IStakeRegistry public immutable stakeRegistry;
    IBLSApkRegistry public immutable blsApkRegistry;
    IDelegationManager public immutable delegation;
    /// @notice If true, check the staleness of the operator stakes and that its within the delegation withdrawalDelayBlocks window.
    bool public staleStakesForbidden;

    modifier onlyCoordinatorOwner() {
        require(msg.sender == registryCoordinator.owner(), "BLSSignatureChecker.onlyCoordinatorOwner: caller is not the owner of the registryCoordinator");
        _;
    }

    constructor(IRegistryCoordinator _registryCoordinator) {
        registryCoordinator = _registryCoordinator;
        stakeRegistry = _registryCoordinator.stakeRegistry();
        blsApkRegistry = _registryCoordinator.blsApkRegistry();
        delegation = stakeRegistry.delegation();
        
        staleStakesForbidden = true;
    }

    /**
     * RegistryCoordinator owner can either enforce or not that operator stakes are staler
     * than the delegation.minWithdrawalDelayBlocks() window.
     * @param value to toggle staleStakesForbidden
     */
    function setStaleStakesForbidden(bool value) external onlyCoordinatorOwner {
        staleStakesForbidden = value;
        emit StaleStakesForbiddenUpdate(value);
    }

    struct NonSignerInfo {
        uint256[] quorumBitmaps;
        bytes32[] pubkeyHashes;
    }

    /**
     * @notice This function is called by disperser when it has aggregated all the signatures of the operators
     * that are part of the quorum for a particular taskNumber and is asserting them into onchain. The function
     * checks that the claim for aggregated signatures are valid.
     *
     * The thesis of this procedure entails:
     * - getting the aggregated pubkey of all registered nodes at the time of pre-commit by the
     * disperser (represented by apk in the parameters),
     * - subtracting the pubkeys of all the signers not in the quorum (nonSignerPubkeys) and storing 
     * the output in apk to get aggregated pubkey of all operators that are part of quorum.
     * - use this aggregated pubkey to verify the aggregated signature under BLS scheme.
     * 
     * @dev Before signature verification, the function verifies operator stake information.  This includes ensuring that the provided `referenceBlockNumber`
     * is correct, i.e., ensure that the stake returned from the specified block number is recent enough and that the stake is either the most recent update
     * for the total stake (of the operator) or latest before the referenceBlockNumber.
     * @param msgHash is the hash being signed
     * @dev NOTE: Be careful to ensure `msgHash` is collision-resistant! This method does not hash 
     * `msgHash` in any way, so if an attacker is able to pass in an arbitrary value, they may be able
     * to tamper with signature verification.
     * @param quorumNumbers is the bytes array of quorum numbers that are being signed for
     * @param referenceBlockNumber is the block number at which the stake information is being verified
     * @param params is the struct containing information on nonsigners, stakes, quorum apks, and the aggregate signature
     * @return quorumStakeTotals is the struct containing the total and signed stake for each quorum
     * @return signatoryRecordHash is the hash of the signatory record, which is used for fraud proofs
     */
    function checkSignatures(
        bytes32 msgHash, 
        bytes calldata quorumNumbers,
        uint32 referenceBlockNumber, 
        NonSignerStakesAndSignature memory params
    ) 
        public 
        view
        returns (
            QuorumStakeTotals memory,
            bytes32
        )
    {
        require(quorumNumbers.length != 0, "BLSSignatureChecker.checkSignatures: empty quorum input");

        require(
            (quorumNumbers.length == params.quorumApks.length) &&
            (quorumNumbers.length == params.quorumApkIndices.length) &&
            (quorumNumbers.length == params.totalStakeIndices.length) &&
            (quorumNumbers.length == params.nonSignerStakeIndices.length),
            "BLSSignatureChecker.checkSignatures: input quorum length mismatch"
        );

        require(
            params.nonSignerPubkeys.length == params.nonSignerQuorumBitmapIndices.length,
            "BLSSignatureChecker.checkSignatures: input nonsigner length mismatch"
        );

        require(referenceBlockNumber < uint32(block.number), "BLSSignatureChecker.checkSignatures: invalid reference block");

        // This method needs to calculate the aggregate pubkey for all signing operators across
        // all signing quorums. To do that, we can query the aggregate pubkey for each quorum
        // and subtract out the pubkey for each nonsigning operator registered to that quorum.
        //
        // In practice, we do this in reverse - calculating an aggregate pubkey for all nonsigners,
        // negating that pubkey, then adding the aggregate pubkey for each quorum.
        BN254.G1Point memory apk = BN254.G1Point(0, 0);

        // For each quorum, we're also going to query the total stake for all registered operators
        // at the referenceBlockNumber, and derive the stake held by signers by subtracting out
        // stakes held by nonsigners.
        QuorumStakeTotals memory stakeTotals;
        stakeTotals.totalStakeForQuorum = new uint96[](quorumNumbers.length);
        stakeTotals.signedStakeForQuorum = new uint96[](quorumNumbers.length);

        NonSignerInfo memory nonSigners;
        nonSigners.quorumBitmaps = new uint256[](params.nonSignerPubkeys.length);
        nonSigners.pubkeyHashes = new bytes32[](params.nonSignerPubkeys.length);

        {
            // Get a bitmap of the quorums signing the message, and validate that
            // quorumNumbers contains only unique, valid quorum numbers
            uint256 signingQuorumBitmap = BitmapUtils.orderedBytesArrayToBitmap(quorumNumbers, registryCoordinator.quorumCount());

            for (uint256 j = 0; j < params.nonSignerPubkeys.length; j++) {
                // The nonsigner's pubkey hash doubles as their operatorId
                // The check below validates that these operatorIds are sorted (and therefore
                // free of duplicates)
                nonSigners.pubkeyHashes[j] = params.nonSignerPubkeys[j].hashG1Point();
                if (j != 0) {
                    require(
                        uint256(nonSigners.pubkeyHashes[j]) > uint256(nonSigners.pubkeyHashes[j - 1]),
                        "BLSSignatureChecker.checkSignatures: nonSignerPubkeys not sorted"
                    );
                }

                // Get the quorums the nonsigner was registered for at referenceBlockNumber
                nonSigners.quorumBitmaps[j] = 
                    registryCoordinator.getQuorumBitmapAtBlockNumberByIndex({
                        operatorId: nonSigners.pubkeyHashes[j],
                        blockNumber: referenceBlockNumber,
                        index: params.nonSignerQuorumBitmapIndices[j]
                    });

                // Add the nonsigner's pubkey to the total apk, multiplied by the number
                // of quorums they have in common with the signing quorums, because their
                // public key will be a part of each signing quorum's aggregate pubkey
                apk = apk.plus(
                    params.nonSignerPubkeys[j]
                        .scalar_mul_tiny(
                            BitmapUtils.countNumOnes(nonSigners.quorumBitmaps[j] & signingQuorumBitmap) 
                        )
                );
            }
        }

        // Negate the sum of the nonsigner aggregate pubkeys - from here, we'll add the
        // total aggregate pubkey from each quorum. Because the nonsigners' pubkeys are
        // in these quorums, this initial negation ensures they're cancelled out
        apk = apk.negate();

        /**
         * For each quorum (at referenceBlockNumber):
         * - add the apk for all registered operators
         * - query the total stake for each quorum
         * - subtract the stake for each nonsigner to calculate the stake belonging to signers
         */
        {
            bool _staleStakesForbidden = staleStakesForbidden;
            uint256 withdrawalDelayBlocks = _staleStakesForbidden ? delegation.minWithdrawalDelayBlocks() : 0;

            for (uint256 i = 0; i < quorumNumbers.length; i++) {
                // If we're disallowing stale stake updates, check that each quorum's last update block
                // is within withdrawalDelayBlocks
                if (_staleStakesForbidden) {
                    require(
                        registryCoordinator.quorumUpdateBlockNumber(uint8(quorumNumbers[i])) + withdrawalDelayBlocks >= referenceBlockNumber,
                        "BLSSignatureChecker.checkSignatures: StakeRegistry updates must be within withdrawalDelayBlocks window"
                    );
                }

                // Validate params.quorumApks is correct for this quorum at the referenceBlockNumber,
                // then add it to the total apk
                require(
                    bytes24(params.quorumApks[i].hashG1Point()) == 
                        blsApkRegistry.getApkHashAtBlockNumberAndIndex({
                            quorumNumber: uint8(quorumNumbers[i]),
                            blockNumber: referenceBlockNumber,
                            index: params.quorumApkIndices[i]
                        }),
                    "BLSSignatureChecker.checkSignatures: quorumApk hash in storage does not match provided quorum apk"
                );
                apk = apk.plus(params.quorumApks[i]);

                // Get the total and starting signed stake for the quorum at referenceBlockNumber
                stakeTotals.totalStakeForQuorum[i] = 
                    stakeRegistry.getTotalStakeAtBlockNumberFromIndex({
                        quorumNumber: uint8(quorumNumbers[i]),
                        blockNumber: referenceBlockNumber,
                        index: params.totalStakeIndices[i]
                    });
                stakeTotals.signedStakeForQuorum[i] = stakeTotals.totalStakeForQuorum[i];

                // Keep track of the nonSigners index in the quorum
                uint256 nonSignerForQuorumIndex = 0;
                
                // loop through all nonSigners, checking that they are a part of the quorum via their quorumBitmap
                // if so, load their stake at referenceBlockNumber and subtract it from running stake signed
                for (uint256 j = 0; j < params.nonSignerPubkeys.length; j++) {
                    // if the nonSigner is a part of the quorum, subtract their stake from the running total
                    if (BitmapUtils.isSet(nonSigners.quorumBitmaps[j], uint8(quorumNumbers[i]))) {
                        stakeTotals.signedStakeForQuorum[i] -=
                            stakeRegistry.getStakeAtBlockNumberAndIndex({
                                quorumNumber: uint8(quorumNumbers[i]),
                                blockNumber: referenceBlockNumber,
                                operatorId: nonSigners.pubkeyHashes[j],
                                index: params.nonSignerStakeIndices[i][nonSignerForQuorumIndex]
                            });
                        unchecked {
                            ++nonSignerForQuorumIndex;
                        }
                    }
                }
            }
        }
        {
            // verify the signature
            (bool pairingSuccessful, bool signatureIsValid) = trySignatureAndApkVerification(
                msgHash, 
                apk, 
                params.apkG2, 
                params.sigma
            );
            require(pairingSuccessful, "BLSSignatureChecker.checkSignatures: pairing precompile call failed");
            require(signatureIsValid, "BLSSignatureChecker.checkSignatures: signature is invalid");
        }
        // set signatoryRecordHash variable used for fraudproofs
        bytes32 signatoryRecordHash = keccak256(abi.encodePacked(referenceBlockNumber, nonSigners.pubkeyHashes));

        // return the total stakes that signed for each quorum, and a hash of the information required to prove the exact signers and stake
        return (stakeTotals, signatoryRecordHash);
    }

    /**
     * trySignatureAndApkVerification verifies a BLS aggregate signature and the veracity of a calculated G1 Public key
     * @param msgHash is the hash being signed
     * @param apk is the claimed G1 public key
     * @param apkG2 is provided G2 public key
     * @param sigma is the G1 point signature
     * @return pairingSuccessful is true if the pairing precompile call was successful
     * @return siganatureIsValid is true if the signature is valid
     */
    function trySignatureAndApkVerification(
        bytes32 msgHash,
        BN254.G1Point memory apk,
        BN254.G2Point memory apkG2,
        BN254.G1Point memory sigma
    ) public view returns(bool pairingSuccessful, bool siganatureIsValid) {
        // gamma = keccak256(abi.encodePacked(msgHash, apk, apkG2, sigma))
        uint256 gamma = uint256(keccak256(abi.encodePacked(msgHash, apk.X, apk.Y, apkG2.X[0], apkG2.X[1], apkG2.Y[0], apkG2.Y[1], sigma.X, sigma.Y))) % BN254.FR_MODULUS;
        // verify the signature
        (pairingSuccessful, siganatureIsValid) = BN254.safePairing(
                sigma.plus(apk.scalar_mul(gamma)),
                BN254.negGeneratorG2(),
                BN254.hashToG1(msgHash).plus(BN254.generatorG1().scalar_mul(gamma)),
                apkG2,
                PAIRING_EQUALITY_CHECK_GAS
            );
    }

    // storage gap for upgradeability
    // slither-disable-next-line shadowing-state
    uint256[49] private __GAP;
}

File 9 of 38 : Pausable.sol
// SPDX-License-Identifier: BUSL-1.1

pragma solidity =0.8.12;

import "../interfaces/IPausable.sol";

/**
 * @title Adds pausability to a contract, with pausing & unpausing controlled by the `pauser` and `unpauser` of a PauserRegistry contract.
 * @author Layr Labs, Inc.
 * @notice Terms of Service: https://docs.eigenlayer.xyz/overview/terms-of-service
 * @notice Contracts that inherit from this contract may define their own `pause` and `unpause` (and/or related) functions.
 * These functions should be permissioned as "onlyPauser" which defers to a `PauserRegistry` for determining access control.
 * @dev Pausability is implemented using a uint256, which allows up to 256 different single bit-flags; each bit can potentially pause different functionality.
 * Inspiration for this was taken from the NearBridge design here https://etherscan.io/address/0x3FEFc5A4B1c02f21cBc8D3613643ba0635b9a873#code.
 * For the `pause` and `unpause` functions we've implemented, if you pause, you can only flip (any number of) switches to on/1 (aka "paused"), and if you unpause,
 * you can only flip (any number of) switches to off/0 (aka "paused").
 * If you want a pauseXYZ function that just flips a single bit / "pausing flag", it will:
 * 1) 'bit-wise and' (aka `&`) a flag with the current paused state (as a uint256)
 * 2) update the paused state to this new value
 * @dev We note as well that we have chosen to identify flags by their *bit index* as opposed to their numerical value, so, e.g. defining `DEPOSITS_PAUSED = 3`
 * indicates specifically that if the *third bit* of `_paused` is flipped -- i.e. it is a '1' -- then deposits should be paused
 */
contract Pausable is IPausable {
    /// @notice Address of the `PauserRegistry` contract that this contract defers to for determining access control (for pausing).
    IPauserRegistry public pauserRegistry;

    /// @dev whether or not the contract is currently paused
    uint256 private _paused;

    uint256 internal constant UNPAUSE_ALL = 0;
    uint256 internal constant PAUSE_ALL = type(uint256).max;

    /// @notice
    modifier onlyPauser() {
        require(pauserRegistry.isPauser(msg.sender), "msg.sender is not permissioned as pauser");
        _;
    }

    modifier onlyUnpauser() {
        require(msg.sender == pauserRegistry.unpauser(), "msg.sender is not permissioned as unpauser");
        _;
    }

    /// @notice Throws if the contract is paused, i.e. if any of the bits in `_paused` is flipped to 1.
    modifier whenNotPaused() {
        require(_paused == 0, "Pausable: contract is paused");
        _;
    }

    /// @notice Throws if the `indexed`th bit of `_paused` is 1, i.e. if the `index`th pause switch is flipped.
    modifier onlyWhenNotPaused(uint8 index) {
        require(!paused(index), "Pausable: index is paused");
        _;
    }

    /// @notice One-time function for setting the `pauserRegistry` and initializing the value of `_paused`.
    function _initializePauser(IPauserRegistry _pauserRegistry, uint256 initPausedStatus) internal {
        require(
            address(pauserRegistry) == address(0) && address(_pauserRegistry) != address(0),
            "Pausable._initializePauser: _initializePauser() can only be called once"
        );
        _paused = initPausedStatus;
        emit Paused(msg.sender, initPausedStatus);
        _setPauserRegistry(_pauserRegistry);
    }

    /**
     * @notice This function is used to pause an EigenLayer contract's functionality.
     * It is permissioned to the `pauser` address, which is expected to be a low threshold multisig.
     * @param newPausedStatus represents the new value for `_paused` to take, which means it may flip several bits at once.
     * @dev This function can only pause functionality, and thus cannot 'unflip' any bit in `_paused` from 1 to 0.
     */
    function pause(uint256 newPausedStatus) external onlyPauser {
        // verify that the `newPausedStatus` does not *unflip* any bits (i.e. doesn't unpause anything, all 1 bits remain)
        require((_paused & newPausedStatus) == _paused, "Pausable.pause: invalid attempt to unpause functionality");
        _paused = newPausedStatus;
        emit Paused(msg.sender, newPausedStatus);
    }

    /**
     * @notice Alias for `pause(type(uint256).max)`.
     */
    function pauseAll() external onlyPauser {
        _paused = type(uint256).max;
        emit Paused(msg.sender, type(uint256).max);
    }

    /**
     * @notice This function is used to unpause an EigenLayer contract's functionality.
     * It is permissioned to the `unpauser` address, which is expected to be a high threshold multisig or governance contract.
     * @param newPausedStatus represents the new value for `_paused` to take, which means it may flip several bits at once.
     * @dev This function can only unpause functionality, and thus cannot 'flip' any bit in `_paused` from 0 to 1.
     */
    function unpause(uint256 newPausedStatus) external onlyUnpauser {
        // verify that the `newPausedStatus` does not *flip* any bits (i.e. doesn't pause anything, all 0 bits remain)
        require(
            ((~_paused) & (~newPausedStatus)) == (~_paused),
            "Pausable.unpause: invalid attempt to pause functionality"
        );
        _paused = newPausedStatus;
        emit Unpaused(msg.sender, newPausedStatus);
    }

    /// @notice Returns the current paused status as a uint256.
    function paused() public view virtual returns (uint256) {
        return _paused;
    }

    /// @notice Returns 'true' if the `indexed`th bit of `_paused` is 1, and 'false' otherwise
    function paused(uint8 index) public view virtual returns (bool) {
        uint256 mask = 1 << index;
        return ((_paused & mask) == mask);
    }

    /// @notice Allows the unpauser to set a new pauser registry
    function setPauserRegistry(IPauserRegistry newPauserRegistry) external onlyUnpauser {
        _setPauserRegistry(newPauserRegistry);
    }

    /// internal function for setting pauser registry
    function _setPauserRegistry(IPauserRegistry newPauserRegistry) internal {
        require(
            address(newPauserRegistry) != address(0),
            "Pausable._setPauserRegistry: newPauserRegistry cannot be the zero address"
        );
        emit PauserRegistrySet(pauserRegistry, newPauserRegistry);
        pauserRegistry = newPauserRegistry;
    }

    /**
     * @dev This empty reserved space is put in place to allow future versions to add new
     * variables without shifting down storage in the inheritance chain.
     * See https://docs.openzeppelin.com/contracts/4.x/upgradeable#storage_gaps
     */
    uint256[48] private __gap;
}

File 10 of 38 : EigenCertServiceManagerStorageV1.sol
// SPDX-License-Identifier: UNLICENSED
pragma solidity ^0.8.12;

import {ISlasher} from "eigenlayer-contracts/src/contracts/interfaces/ISlasher.sol";
import {IEigenCertServiceManager, AttestationState} from "./interfaces/IEigenCertServiceManager.sol";
import {IRiscZeroVerifier} from "risc0-ethereum/contracts/src/IRiscZeroVerifier.sol";

abstract contract EigenCertServiceManagerStorageV1 is IEigenCertServiceManager {
    uint256 internal constant THRESHOLD_DENOMINATOR = 100;

    /// @inheritdoc IEigenCertServiceManager
    mapping(bytes32 => AttestationState) public certAttestations;

    /// @inheritdoc IEigenCertServiceManager
    mapping(uint256 => bytes32) public certUUIDs;

    /// @inheritdoc IEigenCertServiceManager
    address public aggregator;

    /// @inheritdoc IEigenCertServiceManager
    uint32 public blockStaleMeasure;

    /// @inheritdoc IEigenCertServiceManager
    uint32 public challengeWindow;

    /// @inheritdoc IEigenCertServiceManager
    uint256 public threshold;

    /// @inheritdoc IEigenCertServiceManager
    uint32 public nextCertId;

    /// @inheritdoc IEigenCertServiceManager
    address public verifier;

    // storage gap for upgradeability
    // slither-disable-next-line shadowing-state
    uint256[45] private __GAP;
}

File 11 of 38 : IEigenCertServiceManager.sol
// SPDX-License-Identifier: UNLICENSED
pragma solidity ^0.8.12;

import {IBLSSignatureChecker} from "eigenlayer-middleware/interfaces/IBLSSignatureChecker.sol";
import {IServiceManager} from "eigenlayer-middleware/interfaces/IServiceManager.sol";

/**
 * @notice EigenCallRequest is a struct passed when requesting a CEC attestation which contains
 * all the information needed to verify the EigenCert certificate
 * @param to Address of the contract making a request to do the call on
 * @param selector The function selector of the view call
 * @param inputData The calldata for EigenCert validation
 * @param blockNumber The block number at which to make the EigenCert call
 */
struct EigenCallRequest {
    address to;
    bytes4 selector;
    bytes inputData;
    uint256 blockNumber;
}

/**
 * @notice EigenCallResponse is a struct returned by EigenCert operators after verifying the EigenCallRequest
 * @param outputData The return data of the view call made to the AVS contract, which is then passed to the AVS's eigencertCallback function
 */
struct EigenCallResponse {
    bytes outputData;
}

/**
 * @notice EigenCallTask is a struct containing the EigenCallRequest and additional metadata needed for EigenCert operators to verify the request
 * @param request The EigenCallRequest struct containing the details of the view call to be made to the AVS contract
 * @param referenceBlockNumber The block number at which the EigenCert operators should query the AVS registry to check operator stakes
 * @param quorumNumbers An array of quorum numbers indicating which quorums of operators need to sign the response
 */
struct EigenCallTask {
    EigenCallRequest request;
    uint32 referenceBlockNumber;
    bytes quorumNumbers;
}

/**
 * @notice EigenCallTaskResponse is a struct returned by EigenCert operators after verifying and signing the EigenCallRequest and EigenCallResponse
 * @dev This struct contains all the information needed to confirm that the EigenCert operators have attested to the validity of the EigenCallRequest
 * @param task The EigenCallTask struct containing the original EigenCallRequest and additional metadata needed for EigenCert operators to verify the request
 * @param resp The EigenCallResponse struct containing the output data returned by the EigenCert operators after verifying and executing the EigenCallRequest
 */
struct EigenCallTaskResponse {
    EigenCallTask task;
    EigenCallResponse resp;
}

/**
 * @notice Commitment to the block at the time of the checkSignatures view call being zk fraud proven
 */
struct BlockCommitment {
    bytes32 blockHash;
    uint256 blockNumber;
}

/**
 * @notice the format of the public output of Risc0's guest program
 */
struct Journal {
    BlockCommitment blockCommitment;
    bool viewCallSuccess;
    bytes viewCallResultData;
}

///TODO: Decide if it's useful to have this state in the challenging logic
///       - Challenged: The attestation has been challenged using a Risc0 zk-SNARK proof
/**
 * @notice Enum representing the status of a CEC attestation
 *      - NotStarted: Default State. An attestation was never requested
 *      - Attested: The attestation has been successfully attested by the EigenCert operators
 *      - Invalidated: The attestation has been challenged successfully and invalidated by the challenger
 */

enum Status {
    NotStarted,
    Attested,
    Invalidated
}

/**
 * @notice Struct representing the state of a CEC attestation in the EigenCert AVS
 * @dev The state of an attestation includes:
 *      - status: The current status of the attestation
 *      - challengeableUntil: The timestamp until which the attestation is challengeable
 */
struct AttestationState {
    Status status;
    uint32 challengeableUntil;
}

/**
 * @title IEigenCertServiceManager
 * @notice Interface for the EigenCertServiceManager contract which manages EigenCert attestations and challenges.
 * @dev The EigenCertServiceManager contract is responsible for:
 *      - Receiving attestation requests from AVS contracts
 *      - Verifying attestations from EigenCert operators
 *      - Sending Response data back to the AVS for state updates
 *      - Handling challenges to attestations via Risc0 zk-SNARKs
 *      - Updating the status of attestations based on challenges
 *      - Emitting events for attestation requests, successful attestations, and challenges
 */
interface IEigenCertServiceManager is IServiceManager, IBLSSignatureChecker {
    /**
     * @notice Emitted when an AVS requests a CEC attestation
     * @param to The address of the AVS contract to call
     * @param selector The function selector of the function to make a view call to
     * @param inputData The data to pass as input argument to the function call
     * @param blockNumber The block number at which the attestation request was made
     */
    event CecAttestationRequest(
        address indexed to,
        bytes4 indexed selector,
        bytes inputData,
        uint256 blockNumber
    );

    /**
     * @notice Emitted when a CEC attestation is successfully completed
     * @param avs The address of the AVS contract that requested the attestation
     * @param taskResponse The EigenCallTaskResponse containing the attestation data
     * @param challengeableUntil The block until which the attestation can be challenged
     */
    event CecAttestation(
        address indexed avs,
        EigenCallTaskResponse taskResponse,
        uint256 challengeableUntil
    );

    /**
     * @notice Emitted when a CEC attestation is challenged using a Risc0 proof
     * @param avs The address of the AVS contract whose attestation was challenged
     * @param taskResponse The EigenCallTaskResponse containing the challenged attestation data
     */
    event CecChallenged(address indexed avs, EigenCallTaskResponse taskResponse);

    /**
     * @notice Emitted when the challenge window duration is updated
     * @param oldChallengeWindow The previous challenge window duration
     * @param newChallengeWindow The new challenge window duration
     */
    event ChallengeWindowUpdated(uint32 oldChallengeWindow, uint32 newChallengeWindow);
    /**
     * @notice Emitted when the block stale measure is updated
     * @param oldBlockStaleMeasure The previous block stale measure
     * @param newBlockStaleMeasure The new block stale measure
     */
    event BlockStaleMeasureUpdated(uint32 oldBlockStaleMeasure, uint32 newBlockStaleMeasure);

    /**
     * @notice Emitted when the quorum threshold is updated
     * @param oldThreshold The previous quorum threshold
     * @param newThreshold The new quorum threshold
     */
    event QuorumThresholdUpdated(uint256 oldThreshold, uint256 newThreshold);

    /**
     * @notice Emitted when the aggregator address is updated
     * @param oldAggregator The previous aggregator address
     * @param newAggregator The new aggregator address
     */
    event AggregatorUpdated(address indexed oldAggregator, address indexed newAggregator);

    /**
     * @notice Emitted when the Risc0 verifier contract address is updated
     * @param oldVerifier The previous Risc0 verifier contract address
     * @param newVerifier The new Risc0 verifier contract address
     */
    event RiscZeroVerifierUpdated(address indexed oldVerifier, address indexed newVerifier);

    /// TODO: Update to Custom errors after resolving: ethereum/go-ethereum#26823
    error ChallengePeriodEnded();

    error AttestationThresholdNotMet();

    error ChallengeThresholdNotMet();

    error NotAggregator();

    error CertNotAttested();

    function initialize(address aggregator, address pauserRegistry, address initialOwner) external;

    /**
     * @notice Updates the address of the aggregator
     * @param newAggregator The address of the new aggregator
     */
    function updateAggregator(address newAggregator) external;

    /**
     * @notice Updates the challenge window duration
     * @param newChallengeWindow The new challenge window duration
     * @dev Emits a {ChallengeWindowUpdated} event indicating the old and new challenge window durations
     */
    function updateChallengeWindow(uint32 newChallengeWindow) external;

    /**
     * @notice Updates the address of the Risc0 verifier contract
     * @param newVerifier The address of the new Risc0 verifier contract
     */
    function updateRiscZeroVerifier(address newVerifier) external;

    /**
     * @notice Called by the AVS's service manager contract to request a CEC attestation
     * @param to address of the avs contract to call
     * @param selector function selector of the function which to make a view call to
     * @param inputData data to pass as input argument to the function call
     * @param blockNumber the block number at which to make the view call
     */
    function requestCecAttestation(
        address to,
        bytes4 selector,
        bytes memory inputData,
        uint256 blockNumber
    ) external;

    /**
     * @notice Called by the aggregator to attest a CEC
     * @param taskResponse the EigenCallTaskResponse containing the attestation data
     * @param nonSignerStakesAndSignature the non-signer stakes and signature data of the EigenCert operators
     * @dev Calls the eigencertCallback function on the AVS contract
     */
    function attestCec(
        EigenCallTaskResponse calldata taskResponse,
        IBLSSignatureChecker.NonSignerStakesAndSignature memory nonSignerStakesAndSignature
    ) external returns (bytes32);

    /**
     * @notice Called by a challenger to challenge a CEC attestation using a Risc0 Groth 16 proof
     * @param _taskResponse contains the eigenCert operators' attestation data
     * @param _journal contains the expected outputs of the challenged view call
     * @param _seal The encoded cryptographic proof (i.e. SNARK).
     * @param _postStateDigest A hash of the final memory state. Required to run the verifier, but
     * otherwise can be left unconstrained for most use cases.
     * @param _imageId The identifier for the guest program.
     */
    function challengeCecZKFraudProof(
        EigenCallTaskResponse calldata _taskResponse,
        bytes32 _certSignatoryRecord,
        Journal calldata _journal,
        bytes calldata _seal,
        bytes32 _postStateDigest,
        bytes32 _imageId
    ) external;

    /**
     * @notice Called by fraudprover to execute an AVS' view call and verify the result
     * @param request The EigenCallRequest struct containing the details of the view call to be made to the AVS contract
     */
    function eigenCallVerify(
        EigenCallRequest calldata request
    ) external returns (bool, bytes memory);

    /**
     * @notice Updates the threshold percentage of stake required for a quorum
     * @param newThreshold The new threshold percentage of stake required for a quorum
     */
    function updateQuorumThreshold(uint256 newThreshold) external;

    /**
     * @notice Updates the number of blocks after which a referenceBlockNumber is considered stale
     * @param newBlockStaleMeasure The new number of blocks after which a referenceBlockNumber is considered stale
     */
    function updateBlockStaleMeasure(uint32 newBlockStaleMeasure) external;

    /**
     * @notice Returns the address of the aggregator
     * @return The address of the aggregator
     */
    function aggregator() external view returns (address);

    /**
     * @notice Returns the address of the Risc0 verifier contract
     * @return The address of the Risc0 verifier contract
     */
    function verifier() external view returns (address);

    /**
     * @notice Returns the threshold percentage of stake required for a quorum
     * @return The threshold percentage of stake required for a quorum
     */
    function threshold() external view returns (uint256);

    /**
     * @notice Returns the number of blocks after which a referenceBlockNumber is considered stale
     * @return The number of blocks after which a referenceBlockNumber is considered stale
     */
    function blockStaleMeasure() external view returns (uint32);

    /**
     * @notice Returns the duration of the challenge window in blocks
     * @dev The challenge window is the number of blocks after an attestation during which it can be challenged
     * @return The duration of the challenge window in blocks
     */
    function challengeWindow() external view returns (uint32);

    /**
     * @notice Returns the status of a CEC attestation
     * @param certUUID The UUID of the CEC attestation
     * @return status The status of the CEC attestation
     * @return challengeableUntilBlock The block at which the attestation is no longer challengeable
     */
    function certAttestations(
        bytes32 certUUID
    ) external view returns (Status status, uint32 challengeableUntilBlock);

    /**
     * @notice Returns the UUID of a CEC attestation by index
     * @param index The index of the CEC attestation
     * @return The UUID of the CEC attestation
     */
    function certUUIDs(uint256 index) external view returns (bytes32);

    /**
     * @notice Returns the next available CEC attestation index
     * @return The next available CEC attestation index
     */
    function nextCertId() external view returns (uint32);
}

File 12 of 38 : IAVSServiceManagerWithEigencert.sol
// SPDX-License-Identifier: UNLICENSED
pragma solidity ^0.8.12;

import {EigenCallRequest, EigenCallResponse} from "./IEigenCertServiceManager.sol";

interface IAVSServiceManagerWithEigencert {
    /**
     * @notice Eigencert Callback function to execute state updates for the AVS
     * @dev This function is called by the EigenCert service manager after successful verification of the TaskResponse
     * @param request The original EigenCallRequest that was sent to EigenCert operators for verification.
     * @param response The EigenCallResponse returned by EigenCert operators after verification.
     */
    function eigencertCallback(
        EigenCallRequest memory request,
        EigenCallResponse memory response
    ) external;
}

File 13 of 38 : IBLSApkRegistry.sol
// SPDX-License-Identifier: BUSL-1.1
pragma solidity =0.8.12;

import {IRegistry} from "./IRegistry.sol";

import {BN254} from "../libraries/BN254.sol";

/**
 * @title Minimal interface for a registry that keeps track of aggregate operator public keys across many quorums.
 * @author Layr Labs, Inc.
 */
interface IBLSApkRegistry is IRegistry {
    // STRUCTS
    /// @notice Data structure used to track the history of the Aggregate Public Key of all operators
    struct ApkUpdate {
        // first 24 bytes of keccak256(apk_x0, apk_x1, apk_y0, apk_y1)
        bytes24 apkHash;
        // block number at which the update occurred
        uint32 updateBlockNumber;
        // block number at which the next update occurred
        uint32 nextUpdateBlockNumber;
    }

    /**
     * @notice Struct used when registering a new public key
     * @param signedMessageHash is the registration message hash signed by the private key of the operator
     * @param pubkeyG1 is the corresponding G1 public key of the operator 
     * @param pubkeyG2 is the corresponding G2 public key of the operator
     */     
    struct PubkeyRegistrationParams {
        BN254.G1Point pubkeyRegistrationSignature;
        BN254.G1Point pubkeyG1;
        BN254.G2Point pubkeyG2;
    }

    // EVENTS
    /// @notice Emitted when `operator` registers with the public keys `pubkeyG1` and `pubkeyG2`.
    event NewPubkeyRegistration(address indexed operator, BN254.G1Point pubkeyG1, BN254.G2Point pubkeyG2);

    // @notice Emitted when a new operator pubkey is registered for a set of quorums
    event OperatorAddedToQuorums(
        address operator,
        bytes quorumNumbers
    );

    // @notice Emitted when an operator pubkey is removed from a set of quorums
    event OperatorRemovedFromQuorums(
        address operator, 
        bytes quorumNumbers
    );

    /**
     * @notice Registers the `operator`'s pubkey for the specified `quorumNumbers`.
     * @param operator The address of the operator to register.
     * @param quorumNumbers The quorum numbers the operator is registering for, where each byte is an 8 bit integer quorumNumber.
     * @dev access restricted to the RegistryCoordinator
     * @dev Preconditions (these are assumed, not validated in this contract):
     *         1) `quorumNumbers` has no duplicates
     *         2) `quorumNumbers.length` != 0
     *         3) `quorumNumbers` is ordered in ascending order
     *         4) the operator is not already registered
     */
    function registerOperator(address operator, bytes calldata quorumNumbers) external;

    /**
     * @notice Deregisters the `operator`'s pubkey for the specified `quorumNumbers`.
     * @param operator The address of the operator to deregister.
     * @param quorumNumbers The quorum numbers the operator is deregistering from, where each byte is an 8 bit integer quorumNumber.
     * @dev access restricted to the RegistryCoordinator
     * @dev Preconditions (these are assumed, not validated in this contract):
     *         1) `quorumNumbers` has no duplicates
     *         2) `quorumNumbers.length` != 0
     *         3) `quorumNumbers` is ordered in ascending order
     *         4) the operator is not already deregistered
     *         5) `quorumNumbers` is a subset of the quorumNumbers that the operator is registered for
     */ 
    function deregisterOperator(address operator, bytes calldata quorumNumbers) external;
    
    /**
     * @notice Initializes a new quorum by pushing its first apk update
     * @param quorumNumber The number of the new quorum
     */
    function initializeQuorum(uint8 quorumNumber) external;

    /**
     * @notice mapping from operator address to pubkey hash.
     * Returns *zero* if the `operator` has never registered, and otherwise returns the hash of the public key of the operator.
     */
    function operatorToPubkeyHash(address operator) external view returns (bytes32);

    /**
     * @notice mapping from pubkey hash to operator address.
     * Returns *zero* if no operator has ever registered the public key corresponding to `pubkeyHash`,
     * and otherwise returns the (unique) registered operator who owns the BLS public key that is the preimage of `pubkeyHash`.
     */
    function pubkeyHashToOperator(bytes32 pubkeyHash) external view returns (address);

    /**
     * @notice Called by the RegistryCoordinator register an operator as the owner of a BLS public key.
     * @param operator is the operator for whom the key is being registered
     * @param params contains the G1 & G2 public keys of the operator, and a signature proving their ownership
     * @param pubkeyRegistrationMessageHash is a hash that the operator must sign to prove key ownership
     */
    function registerBLSPublicKey(
        address operator,
        PubkeyRegistrationParams calldata params,
        BN254.G1Point calldata pubkeyRegistrationMessageHash
    ) external returns (bytes32 operatorId);

    /**
     * @notice Returns the pubkey and pubkey hash of an operator
     * @dev Reverts if the operator has not registered a valid pubkey
     */
    function getRegisteredPubkey(address operator) external view returns (BN254.G1Point memory, bytes32);

    /// @notice Returns the current APK for the provided `quorumNumber `
    function getApk(uint8 quorumNumber) external view returns (BN254.G1Point memory);

    /// @notice Returns the index of the quorumApk index at `blockNumber` for the provided `quorumNumber`
    function getApkIndicesAtBlockNumber(bytes calldata quorumNumbers, uint256 blockNumber) external view returns(uint32[] memory);

    /// @notice Returns the `ApkUpdate` struct at `index` in the list of APK updates for the `quorumNumber`
    function getApkUpdateAtIndex(uint8 quorumNumber, uint256 index) external view returns (ApkUpdate memory);

    /// @notice Returns the operator address for the given `pubkeyHash`
    function getOperatorFromPubkeyHash(bytes32 pubkeyHash) external view returns (address);

    /**
     * @notice get 24 byte hash of the apk of `quorumNumber` at `blockNumber` using the provided `index`;
     * called by checkSignatures in BLSSignatureChecker.sol.
     * @param quorumNumber is the quorum whose ApkHash is being retrieved
     * @param blockNumber is the number of the block for which the latest ApkHash will be retrieved
     * @param index is the index of the apkUpdate being retrieved from the list of quorum apkUpdates in storage
     */
    function getApkHashAtBlockNumberAndIndex(uint8 quorumNumber, uint32 blockNumber, uint256 index) external view returns (bytes24);

    /// @notice returns the ID used to identify the `operator` within this AVS.
    /// @dev Returns zero in the event that the `operator` has never registered for the AVS
    function getOperatorId(address operator) external view returns (bytes32);
}

File 14 of 38 : IStakeRegistry.sol
// SPDX-License-Identifier: BUSL-1.1
pragma solidity =0.8.12;

import {IDelegationManager} from "eigenlayer-contracts/src/contracts/interfaces/IDelegationManager.sol";
import {IStrategy} from "eigenlayer-contracts/src/contracts/interfaces/IStrategy.sol";

import {IRegistry} from "./IRegistry.sol";

/**
 * @title Interface for a `Registry` that keeps track of stakes of operators for up to 256 quorums.
 * @author Layr Labs, Inc.
 */
interface IStakeRegistry is IRegistry {
    
    // DATA STRUCTURES

    /// @notice struct used to store the stakes of an individual operator or the sum of all operators' stakes, for storage
    struct StakeUpdate {
        // the block number at which the stake amounts were updated and stored
        uint32 updateBlockNumber;
        // the block number at which the *next update* occurred.
        /// @notice This entry has the value **0** until another update takes place.
        uint32 nextUpdateBlockNumber;
        // stake weight for the quorum
        uint96 stake;
    }

    /**
     * @notice In weighing a particular strategy, the amount of underlying asset for that strategy is
     * multiplied by its multiplier, then divided by WEIGHTING_DIVISOR
     */
    struct StrategyParams {
        IStrategy strategy;
        uint96 multiplier;
    }

    // EVENTS

    /// @notice emitted whenever the stake of `operator` is updated
    event OperatorStakeUpdate(
        bytes32 indexed operatorId,
        uint8 quorumNumber,
        uint96 stake
    );
    /// @notice emitted when the minimum stake for a quorum is updated
    event MinimumStakeForQuorumUpdated(uint8 indexed quorumNumber, uint96 minimumStake);
    /// @notice emitted when a new quorum is created
    event QuorumCreated(uint8 indexed quorumNumber);
    /// @notice emitted when `strategy` has been added to the array at `strategyParams[quorumNumber]`
    event StrategyAddedToQuorum(uint8 indexed quorumNumber, IStrategy strategy);
    /// @notice emitted when `strategy` has removed from the array at `strategyParams[quorumNumber]`
    event StrategyRemovedFromQuorum(uint8 indexed quorumNumber, IStrategy strategy);
    /// @notice emitted when `strategy` has its `multiplier` updated in the array at `strategyParams[quorumNumber]`
    event StrategyMultiplierUpdated(uint8 indexed quorumNumber, IStrategy strategy, uint256 multiplier);

    /**
     * @notice Registers the `operator` with `operatorId` for the specified `quorumNumbers`.
     * @param operator The address of the operator to register.
     * @param operatorId The id of the operator to register.
     * @param quorumNumbers The quorum numbers the operator is registering for, where each byte is an 8 bit integer quorumNumber.
     * @return The operator's current stake for each quorum, and the total stake for each quorum
     * @dev access restricted to the RegistryCoordinator
     * @dev Preconditions (these are assumed, not validated in this contract):
     *         1) `quorumNumbers` has no duplicates
     *         2) `quorumNumbers.length` != 0
     *         3) `quorumNumbers` is ordered in ascending order
     *         4) the operator is not already registered
     */
    function registerOperator(
        address operator, 
        bytes32 operatorId, 
        bytes memory quorumNumbers
    ) external returns (uint96[] memory, uint96[] memory);

    /**
     * @notice Deregisters the operator with `operatorId` for the specified `quorumNumbers`.
     * @param operatorId The id of the operator to deregister.
     * @param quorumNumbers The quorum numbers the operator is deregistering from, where each byte is an 8 bit integer quorumNumber.
     * @dev access restricted to the RegistryCoordinator
     * @dev Preconditions (these are assumed, not validated in this contract):
     *         1) `quorumNumbers` has no duplicates
     *         2) `quorumNumbers.length` != 0
     *         3) `quorumNumbers` is ordered in ascending order
     *         4) the operator is not already deregistered
     *         5) `quorumNumbers` is a subset of the quorumNumbers that the operator is registered for
     */
    function deregisterOperator(bytes32 operatorId, bytes memory quorumNumbers) external;

    /**
     * @notice Initialize a new quorum created by the registry coordinator by setting strategies, weights, and minimum stake
     */
    function initializeQuorum(uint8 quorumNumber, uint96 minimumStake, StrategyParams[] memory strategyParams) external;

    /// @notice Adds new strategies and the associated multipliers to the @param quorumNumber.
    function addStrategies(
        uint8 quorumNumber,
        StrategyParams[] memory strategyParams
    ) external;

    /**
     * @notice This function is used for removing strategies and their associated weights from the
     * mapping strategyParams for a specific @param quorumNumber.
     * @dev higher indices should be *first* in the list of @param indicesToRemove, since otherwise
     * the removal of lower index entries will cause a shift in the indices of the other strategiesToRemove
     */
    function removeStrategies(uint8 quorumNumber, uint256[] calldata indicesToRemove) external;

    /**
     * @notice This function is used for modifying the weights of strategies that are already in the
     * mapping strategyParams for a specific
     * @param quorumNumber is the quorum number to change the strategy for
     * @param strategyIndices are the indices of the strategies to change
     * @param newMultipliers are the new multipliers for the strategies
     */
    function modifyStrategyParams(
        uint8 quorumNumber,
        uint256[] calldata strategyIndices,
        uint96[] calldata newMultipliers
    ) external;

    /// @notice Constant used as a divisor in calculating weights.
    function WEIGHTING_DIVISOR() external pure returns (uint256);

    /// @notice Returns the EigenLayer delegation manager contract.
    function delegation() external view returns (IDelegationManager);

    /// @notice In order to register for a quorum i, an operator must have at least `minimumStakeForQuorum[i]`
    function minimumStakeForQuorum(uint8 quorumNumber) external view returns (uint96);

    /// @notice Returns the length of the dynamic array stored in `strategyParams[quorumNumber]`.
    function strategyParamsLength(uint8 quorumNumber) external view returns (uint256);

    /// @notice Returns the strategy and weight multiplier for the `index`'th strategy in the quorum `quorumNumber`
    function strategyParamsByIndex(
        uint8 quorumNumber,
        uint256 index
    ) external view returns (StrategyParams memory);

    /**
     * @notice This function computes the total weight of the @param operator in the quorum @param quorumNumber.
     * @dev reverts in the case that `quorumNumber` is greater than or equal to `quorumCount`
     */
    function weightOfOperatorForQuorum(uint8 quorumNumber, address operator) external view returns (uint96);

    /**
     * @notice Returns the entire `operatorIdToStakeHistory[operatorId][quorumNumber]` array.
     * @param operatorId The id of the operator of interest.
     * @param quorumNumber The quorum number to get the stake for.
     */
    function getStakeHistory(bytes32 operatorId, uint8 quorumNumber) external view returns (StakeUpdate[] memory);

    function getTotalStakeHistoryLength(uint8 quorumNumber) external view returns (uint256);

    /**
     * @notice Returns the `index`-th entry in the dynamic array of total stake, `totalStakeHistory` for quorum `quorumNumber`.
     * @param quorumNumber The quorum number to get the stake for.
     * @param index Array index for lookup, within the dynamic array `totalStakeHistory[quorumNumber]`.
     */
    function getTotalStakeUpdateAtIndex(uint8 quorumNumber, uint256 index) external view returns (StakeUpdate memory);

    /// @notice Returns the indices of the operator stakes for the provided `quorumNumber` at the given `blockNumber`
    function getStakeUpdateIndexAtBlockNumber(bytes32 operatorId, uint8 quorumNumber, uint32 blockNumber)
        external
        view
        returns (uint32);

    /// @notice Returns the indices of the total stakes for the provided `quorumNumbers` at the given `blockNumber`
    function getTotalStakeIndicesAtBlockNumber(uint32 blockNumber, bytes calldata quorumNumbers) external view returns(uint32[] memory) ;

    /**
     * @notice Returns the `index`-th entry in the `operatorIdToStakeHistory[operatorId][quorumNumber]` array.
     * @param quorumNumber The quorum number to get the stake for.
     * @param operatorId The id of the operator of interest.
     * @param index Array index for lookup, within the dynamic array `operatorIdToStakeHistory[operatorId][quorumNumber]`.
     * @dev Function will revert if `index` is out-of-bounds.
     */
    function getStakeUpdateAtIndex(uint8 quorumNumber, bytes32 operatorId, uint256 index)
        external
        view
        returns (StakeUpdate memory);

    /**
     * @notice Returns the most recent stake weight for the `operatorId` for a certain quorum
     * @dev Function returns an StakeUpdate struct with **every entry equal to 0** in the event that the operator has no stake history
     */
    function getLatestStakeUpdate(bytes32 operatorId, uint8 quorumNumber) external view returns (StakeUpdate memory);

    /**
     * @notice Returns the stake weight corresponding to `operatorId` for quorum `quorumNumber`, at the
     * `index`-th entry in the `operatorIdToStakeHistory[operatorId][quorumNumber]` array if the entry 
     * corresponds to the operator's stake at `blockNumber`. Reverts otherwise.
     * @param quorumNumber The quorum number to get the stake for.
     * @param operatorId The id of the operator of interest.
     * @param index Array index for lookup, within the dynamic array `operatorIdToStakeHistory[operatorId][quorumNumber]`.
     * @param blockNumber Block number to make sure the stake is from.
     * @dev Function will revert if `index` is out-of-bounds.
     * @dev used the BLSSignatureChecker to get past stakes of signing operators
     */
    function getStakeAtBlockNumberAndIndex(uint8 quorumNumber, uint32 blockNumber, bytes32 operatorId, uint256 index)
        external
        view
        returns (uint96);

    /**
     * @notice Returns the total stake weight for quorum `quorumNumber`, at the `index`-th entry in the 
     * `totalStakeHistory[quorumNumber]` array if the entry corresponds to the total stake at `blockNumber`. 
     * Reverts otherwise.
     * @param quorumNumber The quorum number to get the stake for.
     * @param index Array index for lookup, within the dynamic array `totalStakeHistory[quorumNumber]`.
     * @param blockNumber Block number to make sure the stake is from.
     * @dev Function will revert if `index` is out-of-bounds.
     * @dev used the BLSSignatureChecker to get past stakes of signing operators
     */
    function getTotalStakeAtBlockNumberFromIndex(uint8 quorumNumber, uint32 blockNumber, uint256 index) external view returns (uint96);

    /**
     * @notice Returns the most recent stake weight for the `operatorId` for quorum `quorumNumber`
     * @dev Function returns weight of **0** in the event that the operator has no stake history
     */
    function getCurrentStake(bytes32 operatorId, uint8 quorumNumber) external view returns (uint96);

    /// @notice Returns the stake of the operator for the provided `quorumNumber` at the given `blockNumber`
    function getStakeAtBlockNumber(bytes32 operatorId, uint8 quorumNumber, uint32 blockNumber)
        external
        view
        returns (uint96);

    /**
     * @notice Returns the stake weight from the latest entry in `_totalStakeHistory` for quorum `quorumNumber`.
     * @dev Will revert if `_totalStakeHistory[quorumNumber]` is empty.
     */
    function getCurrentTotalStake(uint8 quorumNumber) external view returns (uint96);

    /**
     * @notice Called by the registry coordinator to update an operator's stake for one
     * or more quorums.
     *
     * If the operator no longer has the minimum stake required for a quorum, they are
     * added to the
     * @return A bitmap of quorums where the operator no longer meets the minimum stake
     * and should be deregistered.
     */
    function updateOperatorStake(
        address operator, 
        bytes32 operatorId, 
        bytes calldata quorumNumbers
    ) external returns (uint192);
}

File 15 of 38 : IIndexRegistry.sol
// SPDX-License-Identifier: BUSL-1.1
pragma solidity =0.8.12;

import {IRegistry} from "./IRegistry.sol";

/**
 * @title Interface for a `Registry`-type contract that keeps track of an ordered list of operators for up to 256 quorums.
 * @author Layr Labs, Inc.
 */
interface IIndexRegistry is IRegistry {
    // EVENTS
    
    // emitted when an operator's index in the ordered operator list for the quorum with number `quorumNumber` is updated
    event QuorumIndexUpdate(bytes32 indexed operatorId, uint8 quorumNumber, uint32 newOperatorIndex);

    // DATA STRUCTURES

    // struct used to give definitive ordering to operators at each blockNumber. 
    struct OperatorUpdate {
        // blockNumber number from which `operatorIndex` was the operators index
        // the operator's index is the first entry such that `blockNumber >= entry.fromBlockNumber`
        uint32 fromBlockNumber;
        // the operator at this index
        bytes32 operatorId;
    }

    // struct used to denote the number of operators in a quorum at a given blockNumber
    struct QuorumUpdate {
        // The total number of operators at a `blockNumber` is the first entry such that `blockNumber >= entry.fromBlockNumber`
        uint32 fromBlockNumber;
        // The number of operators at `fromBlockNumber`
        uint32 numOperators;
    }

    /**
     * @notice Registers the operator with the specified `operatorId` for the quorums specified by `quorumNumbers`.
     * @param operatorId is the id of the operator that is being registered
     * @param quorumNumbers is the quorum numbers the operator is registered for
     * @return numOperatorsPerQuorum is a list of the number of operators (including the registering operator) in each of the quorums the operator is registered for
     * @dev access restricted to the RegistryCoordinator
     * @dev Preconditions (these are assumed, not validated in this contract):
     *         1) `quorumNumbers` has no duplicates
     *         2) `quorumNumbers.length` != 0
     *         3) `quorumNumbers` is ordered in ascending order
     *         4) the operator is not already registered
     */
    function registerOperator(bytes32 operatorId, bytes calldata quorumNumbers) external returns(uint32[] memory);

    /**
     * @notice Deregisters the operator with the specified `operatorId` for the quorums specified by `quorumNumbers`.
     * @param operatorId is the id of the operator that is being deregistered
     * @param quorumNumbers is the quorum numbers the operator is deregistered for
     * @dev access restricted to the RegistryCoordinator
     * @dev Preconditions (these are assumed, not validated in this contract):
     *         1) `quorumNumbers` has no duplicates
     *         2) `quorumNumbers.length` != 0
     *         3) `quorumNumbers` is ordered in ascending order
     *         4) the operator is not already deregistered
     *         5) `quorumNumbers` is a subset of the quorumNumbers that the operator is registered for
     */
    function deregisterOperator(bytes32 operatorId, bytes calldata quorumNumbers) external;

    /**
     * @notice Initialize a quorum by pushing its first quorum update
     * @param quorumNumber The number of the new quorum
     */
    function initializeQuorum(uint8 quorumNumber) external;

    /// @notice Returns the OperatorUpdate entry for the specified `operatorIndex` and `quorumNumber` at the specified `arrayIndex`
    function getOperatorUpdateAtIndex(
        uint8 quorumNumber,
        uint32 operatorIndex,
        uint32 arrayIndex
    ) external view returns (OperatorUpdate memory);

    /// @notice Returns the QuorumUpdate entry for the specified `quorumNumber` at the specified `quorumIndex`
    function getQuorumUpdateAtIndex(uint8 quorumNumber, uint32 quorumIndex) external view returns (QuorumUpdate memory);

    /// @notice Returns the most recent OperatorUpdate entry for the specified quorumNumber and operatorIndex
    function getLatestOperatorUpdate(uint8 quorumNumber, uint32 operatorIndex) external view returns (OperatorUpdate memory);

    /// @notice Returns the most recent QuorumUpdate entry for the specified quorumNumber
    function getLatestQuorumUpdate(uint8 quorumNumber) external view returns (QuorumUpdate memory);

    /// @notice Returns the current number of operators of this service for `quorumNumber`.
    function totalOperatorsForQuorum(uint8 quorumNumber) external view returns (uint32);

    /// @notice Returns an ordered list of operators of the services for the given `quorumNumber` at the given `blockNumber`
    function getOperatorListAtBlockNumber(uint8 quorumNumber, uint32 blockNumber) external view returns (bytes32[] memory);
}

File 16 of 38 : BN254.sol
// SPDX-License-Identifier: MIT
// several functions are taken or adapted from https://github.com/HarryR/solcrypto/blob/master/contracts/altbn128.sol (MIT license):
// Copyright 2017 Christian Reitwiessner
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to
// deal in the Software without restriction, including without limitation the
// rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
// sell copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
// IN THE SOFTWARE.

// The remainder of the code in this library is written by LayrLabs Inc. and is also under an MIT license

pragma solidity =0.8.12;

/**
 * @title Library for operations on the BN254 elliptic curve.
 * @author Layr Labs, Inc.
 * @notice Terms of Service: https://docs.eigenlayer.xyz/overview/terms-of-service
 * @notice Contains BN254 parameters, common operations (addition, scalar mul, pairing), and BLS signature functionality.
 */
library BN254 {
    // modulus for the underlying field F_p of the elliptic curve
    uint256 internal constant FP_MODULUS =
        21888242871839275222246405745257275088696311157297823662689037894645226208583;
    // modulus for the underlying field F_r of the elliptic curve
    uint256 internal constant FR_MODULUS =
        21888242871839275222246405745257275088548364400416034343698204186575808495617;

    struct G1Point {
        uint256 X;
        uint256 Y;
    }

    // Encoding of field elements is: X[1] * i + X[0]
    struct G2Point {
        uint256[2] X;
        uint256[2] Y;
    }

    function generatorG1() internal pure returns (G1Point memory) {
        return G1Point(1, 2);
    }

    // generator of group G2
    /// @dev Generator point in F_q2 is of the form: (x0 + ix1, y0 + iy1).
    uint256 internal constant G2x1 = 11559732032986387107991004021392285783925812861821192530917403151452391805634;
    uint256 internal constant G2x0 = 10857046999023057135944570762232829481370756359578518086990519993285655852781;
    uint256 internal constant G2y1 = 4082367875863433681332203403145435568316851327593401208105741076214120093531;
    uint256 internal constant G2y0 = 8495653923123431417604973247489272438418190587263600148770280649306958101930;

    /// @notice returns the G2 generator
    /// @dev mind the ordering of the 1s and 0s!
    ///      this is because of the (unknown to us) convention used in the bn254 pairing precompile contract
    ///      "Elements a * i + b of F_p^2 are encoded as two elements of F_p, (a, b)."
    ///      https://github.com/ethereum/EIPs/blob/master/EIPS/eip-197.md#encoding
    function generatorG2() internal pure returns (G2Point memory) {
        return G2Point([G2x1, G2x0], [G2y1, G2y0]);
    }

    // negation of the generator of group G2
    /// @dev Generator point in F_q2 is of the form: (x0 + ix1, y0 + iy1).
    uint256 internal constant nG2x1 = 11559732032986387107991004021392285783925812861821192530917403151452391805634;
    uint256 internal constant nG2x0 = 10857046999023057135944570762232829481370756359578518086990519993285655852781;
    uint256 internal constant nG2y1 = 17805874995975841540914202342111839520379459829704422454583296818431106115052;
    uint256 internal constant nG2y0 = 13392588948715843804641432497768002650278120570034223513918757245338268106653;

    function negGeneratorG2() internal pure returns (G2Point memory) {
        return G2Point([nG2x1, nG2x0], [nG2y1, nG2y0]);
    }

    bytes32 internal constant powersOfTauMerkleRoot =
        0x22c998e49752bbb1918ba87d6d59dd0e83620a311ba91dd4b2cc84990b31b56f;

    /**
     * @param p Some point in G1.
     * @return The negation of `p`, i.e. p.plus(p.negate()) should be zero.
     */
    function negate(G1Point memory p) internal pure returns (G1Point memory) {
        // The prime q in the base field F_q for G1
        if (p.X == 0 && p.Y == 0) {
            return G1Point(0, 0);
        } else {
            return G1Point(p.X, FP_MODULUS - (p.Y % FP_MODULUS));
        }
    }

    /**
     * @return r the sum of two points of G1
     */
    function plus(G1Point memory p1, G1Point memory p2) internal view returns (G1Point memory r) {
        uint256[4] memory input;
        input[0] = p1.X;
        input[1] = p1.Y;
        input[2] = p2.X;
        input[3] = p2.Y;
        bool success;

        // solium-disable-next-line security/no-inline-assembly
        assembly {
            success := staticcall(sub(gas(), 2000), 6, input, 0x80, r, 0x40)
            // Use "invalid" to make gas estimation work
            switch success
            case 0 {
                invalid()
            }
        }

        require(success, "ec-add-failed");
    }

    /**
     * @notice an optimized ecMul implementation that takes O(log_2(s)) ecAdds
     * @param p the point to multiply
     * @param s the scalar to multiply by
     * @dev this function is only safe to use if the scalar is 9 bits or less
     */ 
    function scalar_mul_tiny(BN254.G1Point memory p, uint16 s) internal view returns (BN254.G1Point memory) {
        require(s < 2**9, "scalar-too-large");

        // if s is 1 return p
        if(s == 1) {
            return p;
        }

        // the accumulated product to return
        BN254.G1Point memory acc = BN254.G1Point(0, 0);
        // the 2^n*p to add to the accumulated product in each iteration
        BN254.G1Point memory p2n = p;
        // value of most significant bit
        uint16 m = 1;
        // index of most significant bit
        uint8 i = 0;

        //loop until we reach the most significant bit
        while(s >= m){
            unchecked {
                // if the  current bit is 1, add the 2^n*p to the accumulated product
                if ((s >> i) & 1 == 1) {
                    acc = plus(acc, p2n);
                }
                // double the 2^n*p for the next iteration
                p2n = plus(p2n, p2n);

                // increment the index and double the value of the most significant bit
                m <<= 1;
                ++i;
            }
        }
        
        // return the accumulated product
        return acc;
    }

    /**
     * @return r the product of a point on G1 and a scalar, i.e.
     *         p == p.scalar_mul(1) and p.plus(p) == p.scalar_mul(2) for all
     *         points p.
     */
    function scalar_mul(G1Point memory p, uint256 s) internal view returns (G1Point memory r) {
        uint256[3] memory input;
        input[0] = p.X;
        input[1] = p.Y;
        input[2] = s;
        bool success;
        // solium-disable-next-line security/no-inline-assembly
        assembly {
            success := staticcall(sub(gas(), 2000), 7, input, 0x60, r, 0x40)
            // Use "invalid" to make gas estimation work
            switch success
            case 0 {
                invalid()
            }
        }
        require(success, "ec-mul-failed");
    }

    /**
     *  @return The result of computing the pairing check
     *         e(p1[0], p2[0]) *  .... * e(p1[n], p2[n]) == 1
     *         For example,
     *         pairing([P1(), P1().negate()], [P2(), P2()]) should return true.
     */
    function pairing(
        G1Point memory a1,
        G2Point memory a2,
        G1Point memory b1,
        G2Point memory b2
    ) internal view returns (bool) {
        G1Point[2] memory p1 = [a1, b1];
        G2Point[2] memory p2 = [a2, b2];

        uint256[12] memory input;

        for (uint256 i = 0; i < 2; i++) {
            uint256 j = i * 6;
            input[j + 0] = p1[i].X;
            input[j + 1] = p1[i].Y;
            input[j + 2] = p2[i].X[0];
            input[j + 3] = p2[i].X[1];
            input[j + 4] = p2[i].Y[0];
            input[j + 5] = p2[i].Y[1];
        }

        uint256[1] memory out;
        bool success;

        // solium-disable-next-line security/no-inline-assembly
        assembly {
            success := staticcall(sub(gas(), 2000), 8, input, mul(12, 0x20), out, 0x20)
            // Use "invalid" to make gas estimation work
            switch success
            case 0 {
                invalid()
            }
        }

        require(success, "pairing-opcode-failed");

        return out[0] != 0;
    }

    /**
     * @notice This function is functionally the same as pairing(), however it specifies a gas limit
     *         the user can set, as a precompile may use the entire gas budget if it reverts.
     */
    function safePairing(
        G1Point memory a1,
        G2Point memory a2,
        G1Point memory b1,
        G2Point memory b2,
        uint256 pairingGas
    ) internal view returns (bool, bool) {
        G1Point[2] memory p1 = [a1, b1];
        G2Point[2] memory p2 = [a2, b2];

        uint256[12] memory input;

        for (uint256 i = 0; i < 2; i++) {
            uint256 j = i * 6;
            input[j + 0] = p1[i].X;
            input[j + 1] = p1[i].Y;
            input[j + 2] = p2[i].X[0];
            input[j + 3] = p2[i].X[1];
            input[j + 4] = p2[i].Y[0];
            input[j + 5] = p2[i].Y[1];
        }

        uint256[1] memory out;
        bool success;

        // solium-disable-next-line security/no-inline-assembly
        assembly {
            success := staticcall(pairingGas, 8, input, mul(12, 0x20), out, 0x20)
        }

        //Out is the output of the pairing precompile, either 0 or 1 based on whether the two pairings are equal.
        //Success is true if the precompile actually goes through (aka all inputs are valid)

        return (success, out[0] != 0);
    }

    /// @return hashedG1 the keccak256 hash of the G1 Point
    /// @dev used for BLS signatures
    function hashG1Point(BN254.G1Point memory pk) internal pure returns (bytes32 hashedG1) {
        assembly {
            mstore(0, mload(pk))
            mstore(0x20, mload(add(0x20, pk)))
            hashedG1 := keccak256(0, 0x40)
        }
    }

    /// @return the keccak256 hash of the G2 Point
    /// @dev used for BLS signatures
    function hashG2Point(
        BN254.G2Point memory pk
    ) internal pure returns (bytes32) {
        return keccak256(abi.encodePacked(pk.X[0], pk.X[1], pk.Y[0], pk.Y[1]));
    }

    /**
     * @notice adapted from https://github.com/HarryR/solcrypto/blob/master/contracts/altbn128.sol
     */
    function hashToG1(bytes32 _x) internal view returns (G1Point memory) {
        uint256 beta = 0;
        uint256 y = 0;

        uint256 x = uint256(_x) % FP_MODULUS;

        while (true) {
            (beta, y) = findYFromX(x);

            // y^2 == beta
            if( beta == mulmod(y, y, FP_MODULUS) ) {
                return G1Point(x, y);
            }

            x = addmod(x, 1, FP_MODULUS);
        }
        return G1Point(0, 0);
    }

    /**
     * Given X, find Y
     *
     *   where y = sqrt(x^3 + b)
     *
     * Returns: (x^3 + b), y
     */
    function findYFromX(uint256 x) internal view returns (uint256, uint256) {
        // beta = (x^3 + b) % p
        uint256 beta = addmod(mulmod(mulmod(x, x, FP_MODULUS), x, FP_MODULUS), 3, FP_MODULUS);

        // y^2 = x^3 + b
        // this acts like: y = sqrt(beta) = beta^((p+1) / 4)
        uint256 y = expMod(beta, 0xc19139cb84c680a6e14116da060561765e05aa45a1c72a34f082305b61f3f52, FP_MODULUS);

        return (beta, y);
    }

    function expMod(uint256 _base, uint256 _exponent, uint256 _modulus) internal view returns (uint256 retval) {
        bool success;
        uint256[1] memory output;
        uint[6] memory input;
        input[0] = 0x20; // baseLen = new(big.Int).SetBytes(getData(input, 0, 32))
        input[1] = 0x20; // expLen  = new(big.Int).SetBytes(getData(input, 32, 32))
        input[2] = 0x20; // modLen  = new(big.Int).SetBytes(getData(input, 64, 32))
        input[3] = _base;
        input[4] = _exponent;
        input[5] = _modulus;
        assembly {
            success := staticcall(sub(gas(), 2000), 5, input, 0xc0, output, 0x20)
            // Use "invalid" to make gas estimation work
            switch success
            case 0 {
                invalid()
            }
        }
        require(success, "BN254.expMod: call failure");
        return output[0];
    }
}

File 17 of 38 : ISignatureUtils.sol
// SPDX-License-Identifier: BUSL-1.1
pragma solidity >=0.5.0;

/**
 * @title The interface for common signature utilities.
 * @author Layr Labs, Inc.
 * @notice Terms of Service: https://docs.eigenlayer.xyz/overview/terms-of-service
 */
interface ISignatureUtils {
    // @notice Struct that bundles together a signature and an expiration time for the signature. Used primarily for stack management.
    struct SignatureWithExpiry {
        // the signature itself, formatted as a single bytes object
        bytes signature;
        // the expiration timestamp (UTC) of the signature
        uint256 expiry;
    }

    // @notice Struct that bundles together a signature, a salt for uniqueness, and an expiration time for the signature. Used primarily for stack management.
    struct SignatureWithSaltAndExpiry {
        // the signature itself, formatted as a single bytes object
        bytes signature;
        // the salt used to generate the signature
        bytes32 salt;
        // the expiration timestamp (UTC) of the signature
        uint256 expiry;
    }
}

File 18 of 38 : OwnableUpgradeable.sol
// SPDX-License-Identifier: MIT
// OpenZeppelin Contracts (last updated v4.7.0) (access/Ownable.sol)

pragma solidity ^0.8.0;

import "../utils/ContextUpgradeable.sol";
import "../proxy/utils/Initializable.sol";

/**
 * @dev Contract module which provides a basic access control mechanism, where
 * there is an account (an owner) that can be granted exclusive access to
 * specific functions.
 *
 * By default, the owner account will be the one that deploys the contract. This
 * can later be changed with {transferOwnership}.
 *
 * This module is used through inheritance. It will make available the modifier
 * `onlyOwner`, which can be applied to your functions to restrict their use to
 * the owner.
 */
abstract contract OwnableUpgradeable is Initializable, ContextUpgradeable {
    address private _owner;

    event OwnershipTransferred(address indexed previousOwner, address indexed newOwner);

    /**
     * @dev Initializes the contract setting the deployer as the initial owner.
     */
    function __Ownable_init() internal onlyInitializing {
        __Ownable_init_unchained();
    }

    function __Ownable_init_unchained() internal onlyInitializing {
        _transferOwnership(_msgSender());
    }

    /**
     * @dev Throws if called by any account other than the owner.
     */
    modifier onlyOwner() {
        _checkOwner();
        _;
    }

    /**
     * @dev Returns the address of the current owner.
     */
    function owner() public view virtual returns (address) {
        return _owner;
    }

    /**
     * @dev Throws if the sender is not the owner.
     */
    function _checkOwner() internal view virtual {
        require(owner() == _msgSender(), "Ownable: caller is not the owner");
    }

    /**
     * @dev Leaves the contract without owner. It will not be possible to call
     * `onlyOwner` functions anymore. Can only be called by the current owner.
     *
     * NOTE: Renouncing ownership will leave the contract without an owner,
     * thereby removing any functionality that is only available to the owner.
     */
    function renounceOwnership() public virtual onlyOwner {
        _transferOwnership(address(0));
    }

    /**
     * @dev Transfers ownership of the contract to a new account (`newOwner`).
     * Can only be called by the current owner.
     */
    function transferOwnership(address newOwner) public virtual onlyOwner {
        require(newOwner != address(0), "Ownable: new owner is the zero address");
        _transferOwnership(newOwner);
    }

    /**
     * @dev Transfers ownership of the contract to a new account (`newOwner`).
     * Internal function without access restriction.
     */
    function _transferOwnership(address newOwner) internal virtual {
        address oldOwner = _owner;
        _owner = newOwner;
        emit OwnershipTransferred(oldOwner, newOwner);
    }

    /**
     * @dev This empty reserved space is put in place to allow future versions to add new
     * variables without shifting down storage in the inheritance chain.
     * See https://docs.openzeppelin.com/contracts/4.x/upgradeable#storage_gaps
     */
    uint256[49] private __gap;
}

File 19 of 38 : BitmapUtils.sol
// SPDX-License-Identifier: BUSL-1.1

pragma solidity =0.8.12;

/**
 * @title Library for Bitmap utilities such as converting between an array of bytes and a bitmap and finding the number of 1s in a bitmap.
 * @author Layr Labs, Inc.
 */
library BitmapUtils {
    /**
     * @notice Byte arrays are meant to contain unique bytes.
     * If the array length exceeds 256, then it's impossible for all entries to be unique.
     * This constant captures the max allowed array length (inclusive, i.e. 256 is allowed).
     */
    uint256 internal constant MAX_BYTE_ARRAY_LENGTH = 256;

    /**
     * @notice Converts an ordered array of bytes into a bitmap.
     * @param orderedBytesArray The array of bytes to convert/compress into a bitmap. Must be in strictly ascending order.
     * @return The resulting bitmap.
     * @dev Each byte in the input is processed as indicating a single bit to flip in the bitmap.
     * @dev This function will eventually revert in the event that the `orderedBytesArray` is not properly ordered (in ascending order).
     * @dev This function will also revert if the `orderedBytesArray` input contains any duplicate entries (i.e. duplicate bytes).
     */
    function orderedBytesArrayToBitmap(bytes memory orderedBytesArray) internal pure returns (uint256) {
        // sanity-check on input. a too-long input would fail later on due to having duplicate entry(s)
        require(orderedBytesArray.length <= MAX_BYTE_ARRAY_LENGTH,
            "BitmapUtils.orderedBytesArrayToBitmap: orderedBytesArray is too long");

        // return empty bitmap early if length of array is 0
        if (orderedBytesArray.length == 0) {
            return uint256(0);
        }

        // initialize the empty bitmap, to be built inside the loop
        uint256 bitmap;
        // initialize an empty uint256 to be used as a bitmask inside the loop
        uint256 bitMask;

        // perform the 0-th loop iteration with the ordering check *omitted* (since it is unnecessary / will always pass)
        // construct a single-bit mask from the numerical value of the 0th byte of the array, and immediately add it to the bitmap
        bitmap = uint256(1 << uint8(orderedBytesArray[0]));

        // loop through each byte in the array to construct the bitmap
        for (uint256 i = 1; i < orderedBytesArray.length; ++i) {
            // construct a single-bit mask from the numerical value of the next byte of the array
            bitMask = uint256(1 << uint8(orderedBytesArray[i]));
            // check strictly ascending array ordering by comparing the mask to the bitmap so far (revert if mask isn't greater than bitmap)
            require(bitMask > bitmap, "BitmapUtils.orderedBytesArrayToBitmap: orderedBytesArray is not ordered");
            // add the entry to the bitmap
            bitmap = (bitmap | bitMask);
        }
        return bitmap;
    }

    /**
     * @notice Converts an ordered byte array to a bitmap, validating that all bits are less than `bitUpperBound`
     * @param orderedBytesArray The array to convert to a bitmap; must be in strictly ascending order
     * @param bitUpperBound The exclusive largest bit. Each bit must be strictly less than this value.
     * @dev Reverts if bitmap contains a bit greater than or equal to `bitUpperBound`
     */
    function orderedBytesArrayToBitmap(bytes memory orderedBytesArray, uint8 bitUpperBound) internal pure returns (uint256) {
        uint256 bitmap = orderedBytesArrayToBitmap(orderedBytesArray);

        require((1 << bitUpperBound) > bitmap, 
            "BitmapUtils.orderedBytesArrayToBitmap: bitmap exceeds max value"
        );

        return bitmap;
    }

    /**
     * @notice Utility function for checking if a bytes array is strictly ordered, in ascending order.
     * @param bytesArray the bytes array of interest
     * @return Returns 'true' if the array is ordered in strictly ascending order, and 'false' otherwise.
     * @dev This function returns 'true' for the edge case of the `bytesArray` having zero length.
     * It also returns 'false' early for arrays with length in excess of MAX_BYTE_ARRAY_LENGTH (i.e. so long that they cannot be strictly ordered)
     */
    function isArrayStrictlyAscendingOrdered(bytes calldata bytesArray) internal pure returns (bool) {
        // Return early if the array is too long, or has a length of 0
        if (bytesArray.length > MAX_BYTE_ARRAY_LENGTH) {
            return false;
        }

        if (bytesArray.length == 0) {
            return true;
        }

        // Perform the 0-th loop iteration by pulling the 0th byte out of the array
        bytes1 singleByte = bytesArray[0];

        // For each byte, validate that each entry is *strictly greater than* the previous
        // If it isn't, return false as the array is not ordered
        for (uint256 i = 1; i < bytesArray.length; ++i) {
            if (uint256(uint8(bytesArray[i])) <= uint256(uint8(singleByte))) {
                return false;
            }
            
            // Pull the next byte out of the array
            singleByte = bytesArray[i];
        }
        
        return true;
    }

    /**
     * @notice Converts a bitmap into an array of bytes.
     * @param bitmap The bitmap to decompress/convert to an array of bytes.
     * @return bytesArray The resulting bitmap array of bytes.
     * @dev Each byte in the input is processed as indicating a single bit to flip in the bitmap
     */
    function bitmapToBytesArray(uint256 bitmap) internal pure returns (bytes memory /*bytesArray*/) {
        // initialize an empty uint256 to be used as a bitmask inside the loop
        uint256 bitMask;
        // allocate only the needed amount of memory
        bytes memory bytesArray = new bytes(countNumOnes(bitmap));
        // track the array index to assign to
        uint256 arrayIndex = 0;
        /**
         * loop through each index in the bitmap to construct the array,
         * but short-circuit the loop if we reach the number of ones and thus are done
         * assigning to memory
         */
        for (uint256 i = 0; (arrayIndex < bytesArray.length) && (i < 256); ++i) {
            // construct a single-bit mask for the i-th bit
            bitMask = uint256(1 << i);
            // check if the i-th bit is flipped in the bitmap
            if (bitmap & bitMask != 0) {
                // if the i-th bit is flipped, then add a byte encoding the value 'i' to the `bytesArray`
                bytesArray[arrayIndex] = bytes1(uint8(i));
                // increment the bytesArray slot since we've assigned one more byte of memory
                unchecked{ ++arrayIndex; }
            }
        }
        return bytesArray;
    }

    /// @return count number of ones in binary representation of `n`
    function countNumOnes(uint256 n) internal pure returns (uint16) {
        uint16 count = 0;
        while (n > 0) {
            n &= (n - 1); // Clear the least significant bit (turn off the rightmost set bit).
            count++; // Increment the count for each cleared bit (each one encountered).
        }
        return count; // Return the total count of ones in the binary representation of n.
    }

    /// @notice Returns `true` if `bit` is in `bitmap`. Returns `false` otherwise.
    function isSet(uint256 bitmap, uint8 bit) internal pure returns (bool) {
        return 1 == ((bitmap >> bit) & 1);
    }
    
    /**
     * @notice Returns a copy of `bitmap` with `bit` set. 
     * @dev IMPORTANT: we're dealing with stack values here, so this doesn't modify
     * the original bitmap. Using this correctly requires an assignment statement:
     * `bitmap = bitmap.setBit(bit);`
     */
    function setBit(uint256 bitmap, uint8 bit) internal pure returns (uint256) {
        return bitmap | (1 << bit);
    }

    /**
     * @notice Returns true if `bitmap` has no set bits
     */
    function isEmpty(uint256 bitmap) internal pure returns (bool) {
        return bitmap == 0;
    }

    /**
     * @notice Returns true if `a` and `b` have no common set bits
     */
    function noBitsInCommon(uint256 a, uint256 b) internal pure returns (bool) {
        return a & b == 0;
    }

    /**
     * @notice Returns true if `a` is a subset of `b`: ALL of the bits in `a` are also in `b`
     */
    function isSubsetOf(uint256 a, uint256 b) internal pure returns (bool) {
        return a & b == a;
    }

    /**
     * @notice Returns a new bitmap that contains all bits set in either `a` or `b`
     * @dev Result is the union of `a` and `b`
     */
    function plus(uint256 a, uint256 b) internal pure returns (uint256) {
        return a | b;
    }

    /**
     * @notice Returns a new bitmap that clears all set bits of `b` from `a`
     * @dev Negates `b` and returns the intersection of the result with `a`
     */
    function minus(uint256 a, uint256 b) internal pure returns (uint256) {
        return a & ~b;
    }
}

File 20 of 38 : IServiceManager.sol
// SPDX-License-Identifier: BUSL-1.1
pragma solidity >=0.5.0;

import {ISignatureUtils} from "eigenlayer-contracts/src/contracts/interfaces/ISignatureUtils.sol";
import {IDelegationManager} from "eigenlayer-contracts/src/contracts/interfaces/IDelegationManager.sol";

/**
 * @title Minimal interface for a ServiceManager-type contract that forms the single point for an AVS to push updates to EigenLayer
 * @author Layr Labs, Inc.
 */
interface IServiceManager {
    /**
     * @notice Sets the metadata URI for the AVS
     * @param _metadataURI is the metadata URI for the AVS
     */
    function setMetadataURI(string memory _metadataURI) external;

    /**
     * @notice Forwards a call to EigenLayer's DelegationManager contract to confirm operator registration with the AVS
     * @param operator The address of the operator to register.
     * @param operatorSignature The signature, salt, and expiry of the operator's signature.
     */
    function registerOperatorToAVS(
        address operator,
        ISignatureUtils.SignatureWithSaltAndExpiry memory operatorSignature
    ) external;

    /**
     * @notice Forwards a call to EigenLayer's DelegationManager contract to confirm operator deregistration from the AVS
     * @param operator The address of the operator to deregister.
     */
    function deregisterOperatorFromAVS(address operator) external;

    /**
     * @notice Returns the list of strategies that the operator has potentially restaked on the AVS
     * @param operator The address of the operator to get restaked strategies for
     * @dev This function is intended to be called off-chain
     * @dev No guarantee is made on whether the operator has shares for a strategy in a quorum or uniqueness 
     *      of each element in the returned array. The off-chain service should do that validation separately
     */
    function getOperatorRestakedStrategies(address operator) external view returns (address[] memory);

    /**
     * @notice Returns the list of strategies that the AVS supports for restaking
     * @dev This function is intended to be called off-chain
     * @dev No guarantee is made on uniqueness of each element in the returned array. 
     *      The off-chain service should do that validation separately
     */
    function getRestakeableStrategies() external view returns (address[] memory);

    /// @notice Returns the EigenLayer AVSDirectory contract.
    function avsDirectory() external view returns (address);
}

File 21 of 38 : IPausable.sol
// SPDX-License-Identifier: BUSL-1.1
pragma solidity >=0.5.0;

import "../interfaces/IPauserRegistry.sol";

/**
 * @title Adds pausability to a contract, with pausing & unpausing controlled by the `pauser` and `unpauser` of a PauserRegistry contract.
 * @author Layr Labs, Inc.
 * @notice Terms of Service: https://docs.eigenlayer.xyz/overview/terms-of-service
 * @notice Contracts that inherit from this contract may define their own `pause` and `unpause` (and/or related) functions.
 * These functions should be permissioned as "onlyPauser" which defers to a `PauserRegistry` for determining access control.
 * @dev Pausability is implemented using a uint256, which allows up to 256 different single bit-flags; each bit can potentially pause different functionality.
 * Inspiration for this was taken from the NearBridge design here https://etherscan.io/address/0x3FEFc5A4B1c02f21cBc8D3613643ba0635b9a873#code.
 * For the `pause` and `unpause` functions we've implemented, if you pause, you can only flip (any number of) switches to on/1 (aka "paused"), and if you unpause,
 * you can only flip (any number of) switches to off/0 (aka "paused").
 * If you want a pauseXYZ function that just flips a single bit / "pausing flag", it will:
 * 1) 'bit-wise and' (aka `&`) a flag with the current paused state (as a uint256)
 * 2) update the paused state to this new value
 * @dev We note as well that we have chosen to identify flags by their *bit index* as opposed to their numerical value, so, e.g. defining `DEPOSITS_PAUSED = 3`
 * indicates specifically that if the *third bit* of `_paused` is flipped -- i.e. it is a '1' -- then deposits should be paused
 */

interface IPausable {
    /// @notice Emitted when the `pauserRegistry` is set to `newPauserRegistry`.
    event PauserRegistrySet(IPauserRegistry pauserRegistry, IPauserRegistry newPauserRegistry);

    /// @notice Emitted when the pause is triggered by `account`, and changed to `newPausedStatus`.
    event Paused(address indexed account, uint256 newPausedStatus);

    /// @notice Emitted when the pause is lifted by `account`, and changed to `newPausedStatus`.
    event Unpaused(address indexed account, uint256 newPausedStatus);
    
    /// @notice Address of the `PauserRegistry` contract that this contract defers to for determining access control (for pausing).
    function pauserRegistry() external view returns (IPauserRegistry);

    /**
     * @notice This function is used to pause an EigenLayer contract's functionality.
     * It is permissioned to the `pauser` address, which is expected to be a low threshold multisig.
     * @param newPausedStatus represents the new value for `_paused` to take, which means it may flip several bits at once.
     * @dev This function can only pause functionality, and thus cannot 'unflip' any bit in `_paused` from 1 to 0.
     */
    function pause(uint256 newPausedStatus) external;

    /**
     * @notice Alias for `pause(type(uint256).max)`.
     */
    function pauseAll() external;

    /**
     * @notice This function is used to unpause an EigenLayer contract's functionality.
     * It is permissioned to the `unpauser` address, which is expected to be a high threshold multisig or governance contract.
     * @param newPausedStatus represents the new value for `_paused` to take, which means it may flip several bits at once.
     * @dev This function can only unpause functionality, and thus cannot 'flip' any bit in `_paused` from 0 to 1.
     */
    function unpause(uint256 newPausedStatus) external;

    /// @notice Returns the current paused status as a uint256.
    function paused() external view returns (uint256);

    /// @notice Returns 'true' if the `indexed`th bit of `_paused` is 1, and 'false' otherwise
    function paused(uint8 index) external view returns (bool);

    /// @notice Allows the unpauser to set a new pauser registry
    function setPauserRegistry(IPauserRegistry newPauserRegistry) external;
}

File 22 of 38 : ISlasher.sol
// SPDX-License-Identifier: BUSL-1.1
pragma solidity >=0.5.0;

import "./IStrategyManager.sol";
import "./IDelegationManager.sol";

/**
 * @title Interface for the primary 'slashing' contract for EigenLayer.
 * @author Layr Labs, Inc.
 * @notice Terms of Service: https://docs.eigenlayer.xyz/overview/terms-of-service
 * @notice See the `Slasher` contract itself for implementation details.
 */
interface ISlasher {
    // struct used to store information about the current state of an operator's obligations to middlewares they are serving
    struct MiddlewareTimes {
        // The update block for the middleware whose most recent update was earliest, i.e. the 'stalest' update out of all middlewares the operator is serving
        uint32 stalestUpdateBlock;
        // The latest 'serveUntilBlock' from all of the middleware that the operator is serving
        uint32 latestServeUntilBlock;
    }

    // struct used to store details relevant to a single middleware that an operator has opted-in to serving
    struct MiddlewareDetails {
        // the block at which the contract begins being able to finalize the operator's registration with the service via calling `recordFirstStakeUpdate`
        uint32 registrationMayBeginAtBlock;
        // the block before which the contract is allowed to slash the user
        uint32 contractCanSlashOperatorUntilBlock;
        // the block at which the middleware's view of the operator's stake was most recently updated
        uint32 latestUpdateBlock;
    }

    /// @notice Emitted when a middleware times is added to `operator`'s array.
    event MiddlewareTimesAdded(
        address operator,
        uint256 index,
        uint32 stalestUpdateBlock,
        uint32 latestServeUntilBlock
    );

    /// @notice Emitted when `operator` begins to allow `contractAddress` to slash them.
    event OptedIntoSlashing(address indexed operator, address indexed contractAddress);

    /// @notice Emitted when `contractAddress` signals that it will no longer be able to slash `operator` after the `contractCanSlashOperatorUntilBlock`.
    event SlashingAbilityRevoked(
        address indexed operator,
        address indexed contractAddress,
        uint32 contractCanSlashOperatorUntilBlock
    );

    /**
     * @notice Emitted when `slashingContract` 'freezes' the `slashedOperator`.
     * @dev The `slashingContract` must have permission to slash the `slashedOperator`, i.e. `canSlash(slasherOperator, slashingContract)` must return 'true'.
     */
    event OperatorFrozen(address indexed slashedOperator, address indexed slashingContract);

    /// @notice Emitted when `previouslySlashedAddress` is 'unfrozen', allowing them to again move deposited funds within EigenLayer.
    event FrozenStatusReset(address indexed previouslySlashedAddress);

    /**
     * @notice Gives the `contractAddress` permission to slash the funds of the caller.
     * @dev Typically, this function must be called prior to registering for a middleware.
     */
    function optIntoSlashing(address contractAddress) external;

    /**
     * @notice Used for 'slashing' a certain operator.
     * @param toBeFrozen The operator to be frozen.
     * @dev Technically the operator is 'frozen' (hence the name of this function), and then subject to slashing pending a decision by a human-in-the-loop.
     * @dev The operator must have previously given the caller (which should be a contract) the ability to slash them, through a call to `optIntoSlashing`.
     */
    function freezeOperator(address toBeFrozen) external;

    /**
     * @notice Removes the 'frozen' status from each of the `frozenAddresses`
     * @dev Callable only by the contract owner (i.e. governance).
     */
    function resetFrozenStatus(address[] calldata frozenAddresses) external;

    /**
     * @notice this function is a called by middlewares during an operator's registration to make sure the operator's stake at registration
     *         is slashable until serveUntil
     * @param operator the operator whose stake update is being recorded
     * @param serveUntilBlock the block until which the operator's stake at the current block is slashable
     * @dev adds the middleware's slashing contract to the operator's linked list
     */
    function recordFirstStakeUpdate(address operator, uint32 serveUntilBlock) external;

    /**
     * @notice this function is a called by middlewares during a stake update for an operator (perhaps to free pending withdrawals)
     *         to make sure the operator's stake at updateBlock is slashable until serveUntil
     * @param operator the operator whose stake update is being recorded
     * @param updateBlock the block for which the stake update is being recorded
     * @param serveUntilBlock the block until which the operator's stake at updateBlock is slashable
     * @param insertAfter the element of the operators linked list that the currently updating middleware should be inserted after
     * @dev insertAfter should be calculated offchain before making the transaction that calls this. this is subject to race conditions,
     *      but it is anticipated to be rare and not detrimental.
     */
    function recordStakeUpdate(
        address operator,
        uint32 updateBlock,
        uint32 serveUntilBlock,
        uint256 insertAfter
    ) external;

    /**
     * @notice this function is a called by middlewares during an operator's deregistration to make sure the operator's stake at deregistration
     *         is slashable until serveUntil
     * @param operator the operator whose stake update is being recorded
     * @param serveUntilBlock the block until which the operator's stake at the current block is slashable
     * @dev removes the middleware's slashing contract to the operator's linked list and revokes the middleware's (i.e. caller's) ability to
     * slash `operator` once `serveUntil` is reached
     */
    function recordLastStakeUpdateAndRevokeSlashingAbility(address operator, uint32 serveUntilBlock) external;

    /// @notice The StrategyManager contract of EigenLayer
    function strategyManager() external view returns (IStrategyManager);

    /// @notice The DelegationManager contract of EigenLayer
    function delegation() external view returns (IDelegationManager);

    /**
     * @notice Used to determine whether `staker` is actively 'frozen'. If a staker is frozen, then they are potentially subject to
     * slashing of their funds, and cannot cannot deposit or withdraw from the strategyManager until the slashing process is completed
     * and the staker's status is reset (to 'unfrozen').
     * @param staker The staker of interest.
     * @return Returns 'true' if `staker` themselves has their status set to frozen, OR if the staker is delegated
     * to an operator who has their status set to frozen. Otherwise returns 'false'.
     */
    function isFrozen(address staker) external view returns (bool);

    /// @notice Returns true if `slashingContract` is currently allowed to slash `toBeSlashed`.
    function canSlash(address toBeSlashed, address slashingContract) external view returns (bool);

    /// @notice Returns the block until which `serviceContract` is allowed to slash the `operator`.
    function contractCanSlashOperatorUntilBlock(
        address operator,
        address serviceContract
    ) external view returns (uint32);

    /// @notice Returns the block at which the `serviceContract` last updated its view of the `operator`'s stake
    function latestUpdateBlock(address operator, address serviceContract) external view returns (uint32);

    /// @notice A search routine for finding the correct input value of `insertAfter` to `recordStakeUpdate` / `_updateMiddlewareList`.
    function getCorrectValueForInsertAfter(address operator, uint32 updateBlock) external view returns (uint256);

    /**
     * @notice Returns 'true' if `operator` can currently complete a withdrawal started at the `withdrawalStartBlock`, with `middlewareTimesIndex` used
     * to specify the index of a `MiddlewareTimes` struct in the operator's list (i.e. an index in `operatorToMiddlewareTimes[operator]`). The specified
     * struct is consulted as proof of the `operator`'s ability (or lack thereof) to complete the withdrawal.
     * This function will return 'false' if the operator cannot currently complete a withdrawal started at the `withdrawalStartBlock`, *or* in the event
     * that an incorrect `middlewareTimesIndex` is supplied, even if one or more correct inputs exist.
     * @param operator Either the operator who queued the withdrawal themselves, or if the withdrawing party is a staker who delegated to an operator,
     * this address is the operator *who the staker was delegated to* at the time of the `withdrawalStartBlock`.
     * @param withdrawalStartBlock The block number at which the withdrawal was initiated.
     * @param middlewareTimesIndex Indicates an index in `operatorToMiddlewareTimes[operator]` to consult as proof of the `operator`'s ability to withdraw
     * @dev The correct `middlewareTimesIndex` input should be computable off-chain.
     */
    function canWithdraw(
        address operator,
        uint32 withdrawalStartBlock,
        uint256 middlewareTimesIndex
    ) external returns (bool);

    /**
     * operator =>
     *  [
     *      (
     *          the least recent update block of all of the middlewares it's serving/served,
     *          latest time that the stake bonded at that update needed to serve until
     *      )
     *  ]
     */
    function operatorToMiddlewareTimes(
        address operator,
        uint256 arrayIndex
    ) external view returns (MiddlewareTimes memory);

    /// @notice Getter function for fetching `operatorToMiddlewareTimes[operator].length`
    function middlewareTimesLength(address operator) external view returns (uint256);

    /// @notice Getter function for fetching `operatorToMiddlewareTimes[operator][index].stalestUpdateBlock`.
    function getMiddlewareTimesIndexStalestUpdateBlock(address operator, uint32 index) external view returns (uint32);

    /// @notice Getter function for fetching `operatorToMiddlewareTimes[operator][index].latestServeUntil`.
    function getMiddlewareTimesIndexServeUntilBlock(address operator, uint32 index) external view returns (uint32);

    /// @notice Getter function for fetching `_operatorToWhitelistedContractsByUpdate[operator].size`.
    function operatorWhitelistedContractsLinkedListSize(address operator) external view returns (uint256);

    /// @notice Getter function for fetching a single node in the operator's linked list (`_operatorToWhitelistedContractsByUpdate[operator]`).
    function operatorWhitelistedContractsLinkedListEntry(
        address operator,
        address node
    ) external view returns (bool, uint256, uint256);
}

File 23 of 38 : IRegistry.sol
// SPDX-License-Identifier: BUSL-1.1
pragma solidity >=0.5.0;

/**
 * @title Minimal interface for a `Registry`-type contract.
 * @author Layr Labs, Inc.
 * @notice Terms of Service: https://docs.eigenlayer.xyz/overview/terms-of-service
 * @notice Functions related to the registration process itself have been intentionally excluded
 * because their function signatures may vary significantly.
 */
interface IRegistry {
    function registryCoordinator() external view returns (address);
}

File 24 of 38 : IDelegationManager.sol
// SPDX-License-Identifier: BUSL-1.1
pragma solidity >=0.5.0;

import "./IStrategy.sol";
import "./ISignatureUtils.sol";
import "./IStrategyManager.sol";

/**
 * @title DelegationManager
 * @author Layr Labs, Inc.
 * @notice Terms of Service: https://docs.eigenlayer.xyz/overview/terms-of-service
 * @notice  This is the contract for delegation in EigenLayer. The main functionalities of this contract are
 * - enabling anyone to register as an operator in EigenLayer
 * - allowing operators to specify parameters related to stakers who delegate to them
 * - enabling any staker to delegate its stake to the operator of its choice (a given staker can only delegate to a single operator at a time)
 * - enabling a staker to undelegate its assets from the operator it is delegated to (performed as part of the withdrawal process, initiated through the StrategyManager)
 */
interface IDelegationManager is ISignatureUtils {
    // @notice Struct used for storing information about a single operator who has registered with EigenLayer
    struct OperatorDetails {
        // @notice address to receive the rewards that the operator earns via serving applications built on EigenLayer.
        address earningsReceiver;
        /**
         * @notice Address to verify signatures when a staker wishes to delegate to the operator, as well as controlling "forced undelegations".
         * @dev Signature verification follows these rules:
         * 1) If this address is left as address(0), then any staker will be free to delegate to the operator, i.e. no signature verification will be performed.
         * 2) If this address is an EOA (i.e. it has no code), then we follow standard ECDSA signature verification for delegations to the operator.
         * 3) If this address is a contract (i.e. it has code) then we forward a call to the contract and verify that it returns the correct EIP-1271 "magic value".
         */
        address delegationApprover;
        /**
         * @notice A minimum delay -- measured in blocks -- enforced between:
         * 1) the operator signalling their intent to register for a service, via calling `Slasher.optIntoSlashing`
         * and
         * 2) the operator completing registration for the service, via the service ultimately calling `Slasher.recordFirstStakeUpdate`
         * @dev note that for a specific operator, this value *cannot decrease*, i.e. if the operator wishes to modify their OperatorDetails,
         * then they are only allowed to either increase this value or keep it the same.
         */
        uint32 stakerOptOutWindowBlocks;
    }

    /**
     * @notice Abstract struct used in calculating an EIP712 signature for a staker to approve that they (the staker themselves) delegate to a specific operator.
     * @dev Used in computing the `STAKER_DELEGATION_TYPEHASH` and as a reference in the computation of the stakerDigestHash in the `delegateToBySignature` function.
     */
    struct StakerDelegation {
        // the staker who is delegating
        address staker;
        // the operator being delegated to
        address operator;
        // the staker's nonce
        uint256 nonce;
        // the expiration timestamp (UTC) of the signature
        uint256 expiry;
    }

    /**
     * @notice Abstract struct used in calculating an EIP712 signature for an operator's delegationApprover to approve that a specific staker delegate to the operator.
     * @dev Used in computing the `DELEGATION_APPROVAL_TYPEHASH` and as a reference in the computation of the approverDigestHash in the `_delegate` function.
     */
    struct DelegationApproval {
        // the staker who is delegating
        address staker;
        // the operator being delegated to
        address operator;
        // the operator's provided salt
        bytes32 salt;
        // the expiration timestamp (UTC) of the signature
        uint256 expiry;
    }

    /**
     * Struct type used to specify an existing queued withdrawal. Rather than storing the entire struct, only a hash is stored.
     * In functions that operate on existing queued withdrawals -- e.g. completeQueuedWithdrawal`, the data is resubmitted and the hash of the submitted
     * data is computed by `calculateWithdrawalRoot` and checked against the stored hash in order to confirm the integrity of the submitted data.
     */
    struct Withdrawal {
        // The address that originated the Withdrawal
        address staker;
        // The address that the staker was delegated to at the time that the Withdrawal was created
        address delegatedTo;
        // The address that can complete the Withdrawal + will receive funds when completing the withdrawal
        address withdrawer;
        // Nonce used to guarantee that otherwise identical withdrawals have unique hashes
        uint256 nonce;
        // Block number when the Withdrawal was created
        uint32 startBlock;
        // Array of strategies that the Withdrawal contains
        IStrategy[] strategies;
        // Array containing the amount of shares in each Strategy in the `strategies` array
        uint256[] shares;
    }

    struct QueuedWithdrawalParams {
        // Array of strategies that the QueuedWithdrawal contains
        IStrategy[] strategies;
        // Array containing the amount of shares in each Strategy in the `strategies` array
        uint256[] shares;
        // The address of the withdrawer
        address withdrawer;
    }

    // @notice Emitted when a new operator registers in EigenLayer and provides their OperatorDetails.
    event OperatorRegistered(address indexed operator, OperatorDetails operatorDetails);

    /// @notice Emitted when an operator updates their OperatorDetails to @param newOperatorDetails
    event OperatorDetailsModified(address indexed operator, OperatorDetails newOperatorDetails);

    /**
     * @notice Emitted when @param operator indicates that they are updating their MetadataURI string
     * @dev Note that these strings are *never stored in storage* and are instead purely emitted in events for off-chain indexing
     */
    event OperatorMetadataURIUpdated(address indexed operator, string metadataURI);

    /// @notice Emitted whenever an operator's shares are increased for a given strategy. Note that shares is the delta in the operator's shares.
    event OperatorSharesIncreased(address indexed operator, address staker, IStrategy strategy, uint256 shares);

    /// @notice Emitted whenever an operator's shares are decreased for a given strategy. Note that shares is the delta in the operator's shares.
    event OperatorSharesDecreased(address indexed operator, address staker, IStrategy strategy, uint256 shares);

    /// @notice Emitted when @param staker delegates to @param operator.
    event StakerDelegated(address indexed staker, address indexed operator);

    /// @notice Emitted when @param staker undelegates from @param operator.
    event StakerUndelegated(address indexed staker, address indexed operator);

    /// @notice Emitted when @param staker is undelegated via a call not originating from the staker themself
    event StakerForceUndelegated(address indexed staker, address indexed operator);

    /**
     * @notice Emitted when a new withdrawal is queued.
     * @param withdrawalRoot Is the hash of the `withdrawal`.
     * @param withdrawal Is the withdrawal itself.
     */
    event WithdrawalQueued(bytes32 withdrawalRoot, Withdrawal withdrawal);

    /// @notice Emitted when a queued withdrawal is completed
    event WithdrawalCompleted(bytes32 withdrawalRoot);

    /// @notice Emitted when a queued withdrawal is *migrated* from the StrategyManager to the DelegationManager
    event WithdrawalMigrated(bytes32 oldWithdrawalRoot, bytes32 newWithdrawalRoot);
    
    /// @notice Emitted when the `minWithdrawalDelayBlocks` variable is modified from `previousValue` to `newValue`.
    event MinWithdrawalDelayBlocksSet(uint256 previousValue, uint256 newValue);

    /// @notice Emitted when the `strategyWithdrawalDelayBlocks` variable is modified from `previousValue` to `newValue`.
    event StrategyWithdrawalDelayBlocksSet(IStrategy strategy, uint256 previousValue, uint256 newValue);

    /**
     * @notice Registers the caller as an operator in EigenLayer.
     * @param registeringOperatorDetails is the `OperatorDetails` for the operator.
     * @param metadataURI is a URI for the operator's metadata, i.e. a link providing more details on the operator.
     *
     * @dev Once an operator is registered, they cannot 'deregister' as an operator, and they will forever be considered "delegated to themself".
     * @dev This function will revert if the caller attempts to set their `earningsReceiver` to address(0).
     * @dev Note that the `metadataURI` is *never stored * and is only emitted in the `OperatorMetadataURIUpdated` event
     */
    function registerAsOperator(
        OperatorDetails calldata registeringOperatorDetails,
        string calldata metadataURI
    ) external;

    /**
     * @notice Updates an operator's stored `OperatorDetails`.
     * @param newOperatorDetails is the updated `OperatorDetails` for the operator, to replace their current OperatorDetails`.
     *
     * @dev The caller must have previously registered as an operator in EigenLayer.
     * @dev This function will revert if the caller attempts to set their `earningsReceiver` to address(0).
     */
    function modifyOperatorDetails(OperatorDetails calldata newOperatorDetails) external;

    /**
     * @notice Called by an operator to emit an `OperatorMetadataURIUpdated` event indicating the information has updated.
     * @param metadataURI The URI for metadata associated with an operator
     * @dev Note that the `metadataURI` is *never stored * and is only emitted in the `OperatorMetadataURIUpdated` event
     */
    function updateOperatorMetadataURI(string calldata metadataURI) external;

    /**
     * @notice Caller delegates their stake to an operator.
     * @param operator The account (`msg.sender`) is delegating its assets to for use in serving applications built on EigenLayer.
     * @param approverSignatureAndExpiry Verifies the operator approves of this delegation
     * @param approverSalt A unique single use value tied to an individual signature.
     * @dev The approverSignatureAndExpiry is used in the event that:
     *          1) the operator's `delegationApprover` address is set to a non-zero value.
     *                  AND
     *          2) neither the operator nor their `delegationApprover` is the `msg.sender`, since in the event that the operator
     *             or their delegationApprover is the `msg.sender`, then approval is assumed.
     * @dev In the event that `approverSignatureAndExpiry` is not checked, its content is ignored entirely; it's recommended to use an empty input
     * in this case to save on complexity + gas costs
     */
    function delegateTo(
        address operator,
        SignatureWithExpiry memory approverSignatureAndExpiry,
        bytes32 approverSalt
    ) external;

    /**
     * @notice Caller delegates a staker's stake to an operator with valid signatures from both parties.
     * @param staker The account delegating stake to an `operator` account
     * @param operator The account (`staker`) is delegating its assets to for use in serving applications built on EigenLayer.
     * @param stakerSignatureAndExpiry Signed data from the staker authorizing delegating stake to an operator
     * @param approverSignatureAndExpiry is a parameter that will be used for verifying that the operator approves of this delegation action in the event that:
     * @param approverSalt Is a salt used to help guarantee signature uniqueness. Each salt can only be used once by a given approver.
     *
     * @dev If `staker` is an EOA, then `stakerSignature` is verified to be a valid ECDSA stakerSignature from `staker`, indicating their intention for this action.
     * @dev If `staker` is a contract, then `stakerSignature` will be checked according to EIP-1271.
     * @dev the operator's `delegationApprover` address is set to a non-zero value.
     * @dev neither the operator nor their `delegationApprover` is the `msg.sender`, since in the event that the operator or their delegationApprover
     * is the `msg.sender`, then approval is assumed.
     * @dev This function will revert if the current `block.timestamp` is equal to or exceeds the expiry
     * @dev In the case that `approverSignatureAndExpiry` is not checked, its content is ignored entirely; it's recommended to use an empty input
     * in this case to save on complexity + gas costs
     */
    function delegateToBySignature(
        address staker,
        address operator,
        SignatureWithExpiry memory stakerSignatureAndExpiry,
        SignatureWithExpiry memory approverSignatureAndExpiry,
        bytes32 approverSalt
    ) external;

    /**
     * @notice Undelegates the staker from the operator who they are delegated to. Puts the staker into the "undelegation limbo" mode of the EigenPodManager
     * and queues a withdrawal of all of the staker's shares in the StrategyManager (to the staker), if necessary.
     * @param staker The account to be undelegated.
     * @return withdrawalRoot The root of the newly queued withdrawal, if a withdrawal was queued. Otherwise just bytes32(0).
     *
     * @dev Reverts if the `staker` is also an operator, since operators are not allowed to undelegate from themselves.
     * @dev Reverts if the caller is not the staker, nor the operator who the staker is delegated to, nor the operator's specified "delegationApprover"
     * @dev Reverts if the `staker` is already undelegated.
     */
    function undelegate(address staker) external returns (bytes32[] memory withdrawalRoot);

    /**
     * Allows a staker to withdraw some shares. Withdrawn shares/strategies are immediately removed
     * from the staker. If the staker is delegated, withdrawn shares/strategies are also removed from
     * their operator.
     *
     * All withdrawn shares/strategies are placed in a queue and can be fully withdrawn after a delay.
     */
    function queueWithdrawals(
        QueuedWithdrawalParams[] calldata queuedWithdrawalParams
    ) external returns (bytes32[] memory);

    /**
     * @notice Used to complete the specified `withdrawal`. The caller must match `withdrawal.withdrawer`
     * @param withdrawal The Withdrawal to complete.
     * @param tokens Array in which the i-th entry specifies the `token` input to the 'withdraw' function of the i-th Strategy in the `withdrawal.strategies` array.
     * This input can be provided with zero length if `receiveAsTokens` is set to 'false' (since in that case, this input will be unused)
     * @param middlewareTimesIndex is the index in the operator that the staker who triggered the withdrawal was delegated to's middleware times array
     * @param receiveAsTokens If true, the shares specified in the withdrawal will be withdrawn from the specified strategies themselves
     * and sent to the caller, through calls to `withdrawal.strategies[i].withdraw`. If false, then the shares in the specified strategies
     * will simply be transferred to the caller directly.
     * @dev middlewareTimesIndex should be calculated off chain before calling this function by finding the first index that satisfies `slasher.canWithdraw`
     * @dev beaconChainETHStrategy shares are non-transferrable, so if `receiveAsTokens = false` and `withdrawal.withdrawer != withdrawal.staker`, note that
     * any beaconChainETHStrategy shares in the `withdrawal` will be _returned to the staker_, rather than transferred to the withdrawer, unlike shares in
     * any other strategies, which will be transferred to the withdrawer.
     */
    function completeQueuedWithdrawal(
        Withdrawal calldata withdrawal,
        IERC20[] calldata tokens,
        uint256 middlewareTimesIndex,
        bool receiveAsTokens
    ) external;

    /**
     * @notice Array-ified version of `completeQueuedWithdrawal`.
     * Used to complete the specified `withdrawals`. The function caller must match `withdrawals[...].withdrawer`
     * @param withdrawals The Withdrawals to complete.
     * @param tokens Array of tokens for each Withdrawal. See `completeQueuedWithdrawal` for the usage of a single array.
     * @param middlewareTimesIndexes One index to reference per Withdrawal. See `completeQueuedWithdrawal` for the usage of a single index.
     * @param receiveAsTokens Whether or not to complete each withdrawal as tokens. See `completeQueuedWithdrawal` for the usage of a single boolean.
     * @dev See `completeQueuedWithdrawal` for relevant dev tags
     */
    function completeQueuedWithdrawals(
        Withdrawal[] calldata withdrawals,
        IERC20[][] calldata tokens,
        uint256[] calldata middlewareTimesIndexes,
        bool[] calldata receiveAsTokens
    ) external;

    /**
     * @notice Increases a staker's delegated share balance in a strategy.
     * @param staker The address to increase the delegated shares for their operator.
     * @param strategy The strategy in which to increase the delegated shares.
     * @param shares The number of shares to increase.
     *
     * @dev *If the staker is actively delegated*, then increases the `staker`'s delegated shares in `strategy` by `shares`. Otherwise does nothing.
     * @dev Callable only by the StrategyManager or EigenPodManager.
     */
    function increaseDelegatedShares(
        address staker,
        IStrategy strategy,
        uint256 shares
    ) external;

    /**
     * @notice Decreases a staker's delegated share balance in a strategy.
     * @param staker The address to increase the delegated shares for their operator.
     * @param strategy The strategy in which to decrease the delegated shares.
     * @param shares The number of shares to decrease.
     *
     * @dev *If the staker is actively delegated*, then decreases the `staker`'s delegated shares in `strategy` by `shares`. Otherwise does nothing.
     * @dev Callable only by the StrategyManager or EigenPodManager.
     */
    function decreaseDelegatedShares(
        address staker,
        IStrategy strategy,
        uint256 shares
    ) external;

    /**
     * @notice returns the address of the operator that `staker` is delegated to.
     * @notice Mapping: staker => operator whom the staker is currently delegated to.
     * @dev Note that returning address(0) indicates that the staker is not actively delegated to any operator.
     */
    function delegatedTo(address staker) external view returns (address);

    /**
     * @notice Returns the OperatorDetails struct associated with an `operator`.
     */
    function operatorDetails(address operator) external view returns (OperatorDetails memory);

    /*
     * @notice Returns the earnings receiver address for an operator
     */
    function earningsReceiver(address operator) external view returns (address);

    /**
     * @notice Returns the delegationApprover account for an operator
     */
    function delegationApprover(address operator) external view returns (address);

    /**
     * @notice Returns the stakerOptOutWindowBlocks for an operator
     */
    function stakerOptOutWindowBlocks(address operator) external view returns (uint256);

    /**
     * @notice Given array of strategies, returns array of shares for the operator
     */
    function getOperatorShares(
        address operator,
        IStrategy[] memory strategies
    ) external view returns (uint256[] memory);

    /**
     * @notice Given a list of strategies, return the minimum number of blocks that must pass to withdraw
     * from all the inputted strategies. Return value is >= minWithdrawalDelayBlocks as this is the global min withdrawal delay.
     * @param strategies The strategies to check withdrawal delays for
     */
    function getWithdrawalDelay(IStrategy[] calldata strategies) external view returns (uint256);

    /**
     * @notice returns the total number of shares in `strategy` that are delegated to `operator`.
     * @notice Mapping: operator => strategy => total number of shares in the strategy delegated to the operator.
     * @dev By design, the following invariant should hold for each Strategy:
     * (operator's shares in delegation manager) = sum (shares above zero of all stakers delegated to operator)
     * = sum (delegateable shares of all stakers delegated to the operator)
     */
    function operatorShares(address operator, IStrategy strategy) external view returns (uint256);

    /**
     * @notice Returns 'true' if `staker` *is* actively delegated, and 'false' otherwise.
     */
    function isDelegated(address staker) external view returns (bool);

    /**
     * @notice Returns true is an operator has previously registered for delegation.
     */
    function isOperator(address operator) external view returns (bool);

    /// @notice Mapping: staker => number of signed delegation nonces (used in `delegateToBySignature`) from the staker that the contract has already checked
    function stakerNonce(address staker) external view returns (uint256);

    /**
     * @notice Mapping: delegationApprover => 32-byte salt => whether or not the salt has already been used by the delegationApprover.
     * @dev Salts are used in the `delegateTo` and `delegateToBySignature` functions. Note that these functions only process the delegationApprover's
     * signature + the provided salt if the operator being delegated to has specified a nonzero address as their `delegationApprover`.
     */
    function delegationApproverSaltIsSpent(address _delegationApprover, bytes32 salt) external view returns (bool);

    /**
     * @notice Minimum delay enforced by this contract for completing queued withdrawals. Measured in blocks, and adjustable by this contract's owner,
     * up to a maximum of `MAX_WITHDRAWAL_DELAY_BLOCKS`. Minimum value is 0 (i.e. no delay enforced).
     * Note that strategies each have a separate withdrawal delay, which can be greater than this value. So the minimum number of blocks that must pass
     * to withdraw a strategy is MAX(minWithdrawalDelayBlocks, strategyWithdrawalDelayBlocks[strategy])
     */
    function minWithdrawalDelayBlocks() external view returns (uint256);

    /**
     * @notice Minimum delay enforced by this contract per Strategy for completing queued withdrawals. Measured in blocks, and adjustable by this contract's owner,
     * up to a maximum of `MAX_WITHDRAWAL_DELAY_BLOCKS`. Minimum value is 0 (i.e. no delay enforced).
     */
    function strategyWithdrawalDelayBlocks(IStrategy strategy) external view returns (uint256);

    /**
     * @notice Calculates the digestHash for a `staker` to sign to delegate to an `operator`
     * @param staker The signing staker
     * @param operator The operator who is being delegated to
     * @param expiry The desired expiry time of the staker's signature
     */
    function calculateCurrentStakerDelegationDigestHash(
        address staker,
        address operator,
        uint256 expiry
    ) external view returns (bytes32);

    /**
     * @notice Calculates the digest hash to be signed and used in the `delegateToBySignature` function
     * @param staker The signing staker
     * @param _stakerNonce The nonce of the staker. In practice we use the staker's current nonce, stored at `stakerNonce[staker]`
     * @param operator The operator who is being delegated to
     * @param expiry The desired expiry time of the staker's signature
     */
    function calculateStakerDelegationDigestHash(
        address staker,
        uint256 _stakerNonce,
        address operator,
        uint256 expiry
    ) external view returns (bytes32);

    /**
     * @notice Calculates the digest hash to be signed by the operator's delegationApprove and used in the `delegateTo` and `delegateToBySignature` functions.
     * @param staker The account delegating their stake
     * @param operator The account receiving delegated stake
     * @param _delegationApprover the operator's `delegationApprover` who will be signing the delegationHash (in general)
     * @param approverSalt A unique and single use value associated with the approver signature.
     * @param expiry Time after which the approver's signature becomes invalid
     */
    function calculateDelegationApprovalDigestHash(
        address staker,
        address operator,
        address _delegationApprover,
        bytes32 approverSalt,
        uint256 expiry
    ) external view returns (bytes32);

    /// @notice The EIP-712 typehash for the contract's domain
    function DOMAIN_TYPEHASH() external view returns (bytes32);

    /// @notice The EIP-712 typehash for the StakerDelegation struct used by the contract
    function STAKER_DELEGATION_TYPEHASH() external view returns (bytes32);

    /// @notice The EIP-712 typehash for the DelegationApproval struct used by the contract
    function DELEGATION_APPROVAL_TYPEHASH() external view returns (bytes32);

    /**
     * @notice Getter function for the current EIP-712 domain separator for this contract.
     *
     * @dev The domain separator will change in the event of a fork that changes the ChainID.
     * @dev By introducing a domain separator the DApp developers are guaranteed that there can be no signature collision.
     * for more detailed information please read EIP-712.
     */
    function domainSeparator() external view returns (bytes32);
    
    /// @notice Mapping: staker => cumulative number of queued withdrawals they have ever initiated.
    /// @dev This only increments (doesn't decrement), and is used to help ensure that otherwise identical withdrawals have unique hashes.
    function cumulativeWithdrawalsQueued(address staker) external view returns (uint256);

    /// @notice Returns the keccak256 hash of `withdrawal`.
    function calculateWithdrawalRoot(Withdrawal memory withdrawal) external pure returns (bytes32);

    function migrateQueuedWithdrawals(IStrategyManager.DeprecatedStruct_QueuedWithdrawal[] memory withdrawalsToQueue) external;
}

File 25 of 38 : IStrategy.sol
// SPDX-License-Identifier: BUSL-1.1
pragma solidity >=0.5.0;

import "@openzeppelin/contracts/token/ERC20/IERC20.sol";

/**
 * @title Minimal interface for an `Strategy` contract.
 * @author Layr Labs, Inc.
 * @notice Terms of Service: https://docs.eigenlayer.xyz/overview/terms-of-service
 * @notice Custom `Strategy` implementations may expand extensively on this interface.
 */
interface IStrategy {
    /**
     * @notice Used to deposit tokens into this Strategy
     * @param token is the ERC20 token being deposited
     * @param amount is the amount of token being deposited
     * @dev This function is only callable by the strategyManager contract. It is invoked inside of the strategyManager's
     * `depositIntoStrategy` function, and individual share balances are recorded in the strategyManager as well.
     * @return newShares is the number of new shares issued at the current exchange ratio.
     */
    function deposit(IERC20 token, uint256 amount) external returns (uint256);

    /**
     * @notice Used to withdraw tokens from this Strategy, to the `recipient`'s address
     * @param recipient is the address to receive the withdrawn funds
     * @param token is the ERC20 token being transferred out
     * @param amountShares is the amount of shares being withdrawn
     * @dev This function is only callable by the strategyManager contract. It is invoked inside of the strategyManager's
     * other functions, and individual share balances are recorded in the strategyManager as well.
     */
    function withdraw(address recipient, IERC20 token, uint256 amountShares) external;

    /**
     * @notice Used to convert a number of shares to the equivalent amount of underlying tokens for this strategy.
     * @notice In contrast to `sharesToUnderlyingView`, this function **may** make state modifications
     * @param amountShares is the amount of shares to calculate its conversion into the underlying token
     * @return The amount of underlying tokens corresponding to the input `amountShares`
     * @dev Implementation for these functions in particular may vary significantly for different strategies
     */
    function sharesToUnderlying(uint256 amountShares) external returns (uint256);

    /**
     * @notice Used to convert an amount of underlying tokens to the equivalent amount of shares in this strategy.
     * @notice In contrast to `underlyingToSharesView`, this function **may** make state modifications
     * @param amountUnderlying is the amount of `underlyingToken` to calculate its conversion into strategy shares
     * @return The amount of underlying tokens corresponding to the input `amountShares`
     * @dev Implementation for these functions in particular may vary significantly for different strategies
     */
    function underlyingToShares(uint256 amountUnderlying) external returns (uint256);

    /**
     * @notice convenience function for fetching the current underlying value of all of the `user`'s shares in
     * this strategy. In contrast to `userUnderlyingView`, this function **may** make state modifications
     */
    function userUnderlying(address user) external returns (uint256);

    /**
     * @notice convenience function for fetching the current total shares of `user` in this strategy, by
     * querying the `strategyManager` contract
     */
    function shares(address user) external view returns (uint256);

    /**
     * @notice Used to convert a number of shares to the equivalent amount of underlying tokens for this strategy.
     * @notice In contrast to `sharesToUnderlying`, this function guarantees no state modifications
     * @param amountShares is the amount of shares to calculate its conversion into the underlying token
     * @return The amount of shares corresponding to the input `amountUnderlying`
     * @dev Implementation for these functions in particular may vary significantly for different strategies
     */
    function sharesToUnderlyingView(uint256 amountShares) external view returns (uint256);

    /**
     * @notice Used to convert an amount of underlying tokens to the equivalent amount of shares in this strategy.
     * @notice In contrast to `underlyingToShares`, this function guarantees no state modifications
     * @param amountUnderlying is the amount of `underlyingToken` to calculate its conversion into strategy shares
     * @return The amount of shares corresponding to the input `amountUnderlying`
     * @dev Implementation for these functions in particular may vary significantly for different strategies
     */
    function underlyingToSharesView(uint256 amountUnderlying) external view returns (uint256);

    /**
     * @notice convenience function for fetching the current underlying value of all of the `user`'s shares in
     * this strategy. In contrast to `userUnderlying`, this function guarantees no state modifications
     */
    function userUnderlyingView(address user) external view returns (uint256);

    /// @notice The underlying token for shares in this Strategy
    function underlyingToken() external view returns (IERC20);

    /// @notice The total number of extant shares in this Strategy
    function totalShares() external view returns (uint256);

    /// @notice Returns either a brief string explaining the strategy's goal & purpose, or a link to metadata that explains in more detail.
    function explanation() external view returns (string memory);
}

File 26 of 38 : ContextUpgradeable.sol
// SPDX-License-Identifier: MIT
// OpenZeppelin Contracts v4.4.1 (utils/Context.sol)

pragma solidity ^0.8.0;
import "../proxy/utils/Initializable.sol";

/**
 * @dev Provides information about the current execution context, including the
 * sender of the transaction and its data. While these are generally available
 * via msg.sender and msg.data, they should not be accessed in such a direct
 * manner, since when dealing with meta-transactions the account sending and
 * paying for execution may not be the actual sender (as far as an application
 * is concerned).
 *
 * This contract is only required for intermediate, library-like contracts.
 */
abstract contract ContextUpgradeable is Initializable {
    function __Context_init() internal onlyInitializing {
    }

    function __Context_init_unchained() internal onlyInitializing {
    }
    function _msgSender() internal view virtual returns (address) {
        return msg.sender;
    }

    function _msgData() internal view virtual returns (bytes calldata) {
        return msg.data;
    }

    /**
     * @dev This empty reserved space is put in place to allow future versions to add new
     * variables without shifting down storage in the inheritance chain.
     * See https://docs.openzeppelin.com/contracts/4.x/upgradeable#storage_gaps
     */
    uint256[50] private __gap;
}

File 27 of 38 : Initializable.sol
// SPDX-License-Identifier: MIT
// OpenZeppelin Contracts (last updated v4.7.0) (proxy/utils/Initializable.sol)

pragma solidity ^0.8.2;

import "../../utils/AddressUpgradeable.sol";

/**
 * @dev This is a base contract to aid in writing upgradeable contracts, or any kind of contract that will be deployed
 * behind a proxy. Since proxied contracts do not make use of a constructor, it's common to move constructor logic to an
 * external initializer function, usually called `initialize`. It then becomes necessary to protect this initializer
 * function so it can only be called once. The {initializer} modifier provided by this contract will have this effect.
 *
 * The initialization functions use a version number. Once a version number is used, it is consumed and cannot be
 * reused. This mechanism prevents re-execution of each "step" but allows the creation of new initialization steps in
 * case an upgrade adds a module that needs to be initialized.
 *
 * For example:
 *
 * [.hljs-theme-light.nopadding]
 * ```
 * contract MyToken is ERC20Upgradeable {
 *     function initialize() initializer public {
 *         __ERC20_init("MyToken", "MTK");
 *     }
 * }
 * contract MyTokenV2 is MyToken, ERC20PermitUpgradeable {
 *     function initializeV2() reinitializer(2) public {
 *         __ERC20Permit_init("MyToken");
 *     }
 * }
 * ```
 *
 * TIP: To avoid leaving the proxy in an uninitialized state, the initializer function should be called as early as
 * possible by providing the encoded function call as the `_data` argument to {ERC1967Proxy-constructor}.
 *
 * CAUTION: When used with inheritance, manual care must be taken to not invoke a parent initializer twice, or to ensure
 * that all initializers are idempotent. This is not verified automatically as constructors are by Solidity.
 *
 * [CAUTION]
 * ====
 * Avoid leaving a contract uninitialized.
 *
 * An uninitialized contract can be taken over by an attacker. This applies to both a proxy and its implementation
 * contract, which may impact the proxy. To prevent the implementation contract from being used, you should invoke
 * the {_disableInitializers} function in the constructor to automatically lock it when it is deployed:
 *
 * [.hljs-theme-light.nopadding]
 * ```
 * /// @custom:oz-upgrades-unsafe-allow constructor
 * constructor() {
 *     _disableInitializers();
 * }
 * ```
 * ====
 */
abstract contract Initializable {
    /**
     * @dev Indicates that the contract has been initialized.
     * @custom:oz-retyped-from bool
     */
    uint8 private _initialized;

    /**
     * @dev Indicates that the contract is in the process of being initialized.
     */
    bool private _initializing;

    /**
     * @dev Triggered when the contract has been initialized or reinitialized.
     */
    event Initialized(uint8 version);

    /**
     * @dev A modifier that defines a protected initializer function that can be invoked at most once. In its scope,
     * `onlyInitializing` functions can be used to initialize parent contracts. Equivalent to `reinitializer(1)`.
     */
    modifier initializer() {
        bool isTopLevelCall = !_initializing;
        require(
            (isTopLevelCall && _initialized < 1) || (!AddressUpgradeable.isContract(address(this)) && _initialized == 1),
            "Initializable: contract is already initialized"
        );
        _initialized = 1;
        if (isTopLevelCall) {
            _initializing = true;
        }
        _;
        if (isTopLevelCall) {
            _initializing = false;
            emit Initialized(1);
        }
    }

    /**
     * @dev A modifier that defines a protected reinitializer function that can be invoked at most once, and only if the
     * contract hasn't been initialized to a greater version before. In its scope, `onlyInitializing` functions can be
     * used to initialize parent contracts.
     *
     * `initializer` is equivalent to `reinitializer(1)`, so a reinitializer may be used after the original
     * initialization step. This is essential to configure modules that are added through upgrades and that require
     * initialization.
     *
     * Note that versions can jump in increments greater than 1; this implies that if multiple reinitializers coexist in
     * a contract, executing them in the right order is up to the developer or operator.
     */
    modifier reinitializer(uint8 version) {
        require(!_initializing && _initialized < version, "Initializable: contract is already initialized");
        _initialized = version;
        _initializing = true;
        _;
        _initializing = false;
        emit Initialized(version);
    }

    /**
     * @dev Modifier to protect an initialization function so that it can only be invoked by functions with the
     * {initializer} and {reinitializer} modifiers, directly or indirectly.
     */
    modifier onlyInitializing() {
        require(_initializing, "Initializable: contract is not initializing");
        _;
    }

    /**
     * @dev Locks the contract, preventing any future reinitialization. This cannot be part of an initializer call.
     * Calling this in the constructor of a contract will prevent that contract from being initialized or reinitialized
     * to any version. It is recommended to use this to lock implementation contracts that are designed to be called
     * through proxies.
     */
    function _disableInitializers() internal virtual {
        require(!_initializing, "Initializable: contract is initializing");
        if (_initialized < type(uint8).max) {
            _initialized = type(uint8).max;
            emit Initialized(type(uint8).max);
        }
    }
}

File 28 of 38 : IStrategyManager.sol
// SPDX-License-Identifier: BUSL-1.1
pragma solidity >=0.5.0;

import "./IStrategy.sol";
import "./ISlasher.sol";
import "./IDelegationManager.sol";
import "./IEigenPodManager.sol";

/**
 * @title Interface for the primary entrypoint for funds into EigenLayer.
 * @author Layr Labs, Inc.
 * @notice Terms of Service: https://docs.eigenlayer.xyz/overview/terms-of-service
 * @notice See the `StrategyManager` contract itself for implementation details.
 */
interface IStrategyManager {
    /**
     * @notice Emitted when a new deposit occurs on behalf of `staker`.
     * @param staker Is the staker who is depositing funds into EigenLayer.
     * @param strategy Is the strategy that `staker` has deposited into.
     * @param token Is the token that `staker` deposited.
     * @param shares Is the number of new shares `staker` has been granted in `strategy`.
     */
    event Deposit(address staker, IERC20 token, IStrategy strategy, uint256 shares);

    /// @notice Emitted when `thirdPartyTransfersForbidden` is updated for a strategy and value by the owner
    event UpdatedThirdPartyTransfersForbidden(IStrategy strategy, bool value);

    /// @notice Emitted when the `strategyWhitelister` is changed
    event StrategyWhitelisterChanged(address previousAddress, address newAddress);

    /// @notice Emitted when a strategy is added to the approved list of strategies for deposit
    event StrategyAddedToDepositWhitelist(IStrategy strategy);

    /// @notice Emitted when a strategy is removed from the approved list of strategies for deposit
    event StrategyRemovedFromDepositWhitelist(IStrategy strategy);

    /**
     * @notice Deposits `amount` of `token` into the specified `strategy`, with the resultant shares credited to `msg.sender`
     * @param strategy is the specified strategy where deposit is to be made,
     * @param token is the denomination in which the deposit is to be made,
     * @param amount is the amount of token to be deposited in the strategy by the staker
     * @return shares The amount of new shares in the `strategy` created as part of the action.
     * @dev The `msg.sender` must have previously approved this contract to transfer at least `amount` of `token` on their behalf.
     * @dev Cannot be called by an address that is 'frozen' (this function will revert if the `msg.sender` is frozen).
     *
     * WARNING: Depositing tokens that allow reentrancy (eg. ERC-777) into a strategy is not recommended.  This can lead to attack vectors
     *          where the token balance and corresponding strategy shares are not in sync upon reentrancy.
     */
    function depositIntoStrategy(IStrategy strategy, IERC20 token, uint256 amount) external returns (uint256 shares);

    /**
     * @notice Used for depositing an asset into the specified strategy with the resultant shares credited to `staker`,
     * who must sign off on the action.
     * Note that the assets are transferred out/from the `msg.sender`, not from the `staker`; this function is explicitly designed
     * purely to help one address deposit 'for' another.
     * @param strategy is the specified strategy where deposit is to be made,
     * @param token is the denomination in which the deposit is to be made,
     * @param amount is the amount of token to be deposited in the strategy by the staker
     * @param staker the staker that the deposited assets will be credited to
     * @param expiry the timestamp at which the signature expires
     * @param signature is a valid signature from the `staker`. either an ECDSA signature if the `staker` is an EOA, or data to forward
     * following EIP-1271 if the `staker` is a contract
     * @return shares The amount of new shares in the `strategy` created as part of the action.
     * @dev The `msg.sender` must have previously approved this contract to transfer at least `amount` of `token` on their behalf.
     * @dev A signature is required for this function to eliminate the possibility of griefing attacks, specifically those
     * targeting stakers who may be attempting to undelegate.
     * @dev Cannot be called if thirdPartyTransfersForbidden is set to true for this strategy
     *
     *  WARNING: Depositing tokens that allow reentrancy (eg. ERC-777) into a strategy is not recommended.  This can lead to attack vectors
     *          where the token balance and corresponding strategy shares are not in sync upon reentrancy
     */
    function depositIntoStrategyWithSignature(
        IStrategy strategy,
        IERC20 token,
        uint256 amount,
        address staker,
        uint256 expiry,
        bytes memory signature
    ) external returns (uint256 shares);

    /// @notice Used by the DelegationManager to remove a Staker's shares from a particular strategy when entering the withdrawal queue
    function removeShares(address staker, IStrategy strategy, uint256 shares) external;

    /// @notice Used by the DelegationManager to award a Staker some shares that have passed through the withdrawal queue
    function addShares(address staker, IERC20 token, IStrategy strategy, uint256 shares) external;
    
    /// @notice Used by the DelegationManager to convert withdrawn shares to tokens and send them to a recipient
    function withdrawSharesAsTokens(address recipient, IStrategy strategy, uint256 shares, IERC20 token) external;

    /// @notice Returns the current shares of `user` in `strategy`
    function stakerStrategyShares(address user, IStrategy strategy) external view returns (uint256 shares);

    /**
     * @notice Get all details on the staker's deposits and corresponding shares
     * @return (staker's strategies, shares in these strategies)
     */
    function getDeposits(address staker) external view returns (IStrategy[] memory, uint256[] memory);

    /// @notice Simple getter function that returns `stakerStrategyList[staker].length`.
    function stakerStrategyListLength(address staker) external view returns (uint256);

    /**
     * @notice Owner-only function that adds the provided Strategies to the 'whitelist' of strategies that stakers can deposit into
     * @param strategiesToWhitelist Strategies that will be added to the `strategyIsWhitelistedForDeposit` mapping (if they aren't in it already)
     * @param thirdPartyTransfersForbiddenValues bool values to set `thirdPartyTransfersForbidden` to for each strategy
     */
    function addStrategiesToDepositWhitelist(
        IStrategy[] calldata strategiesToWhitelist,
        bool[] calldata thirdPartyTransfersForbiddenValues
    ) external;

    /**
     * @notice Owner-only function that removes the provided Strategies from the 'whitelist' of strategies that stakers can deposit into
     * @param strategiesToRemoveFromWhitelist Strategies that will be removed to the `strategyIsWhitelistedForDeposit` mapping (if they are in it)
     */
    function removeStrategiesFromDepositWhitelist(IStrategy[] calldata strategiesToRemoveFromWhitelist) external;

    /// @notice Returns the single, central Delegation contract of EigenLayer
    function delegation() external view returns (IDelegationManager);

    /// @notice Returns the single, central Slasher contract of EigenLayer
    function slasher() external view returns (ISlasher);

    /// @notice Returns the EigenPodManager contract of EigenLayer
    function eigenPodManager() external view returns (IEigenPodManager);

    /// @notice Returns the address of the `strategyWhitelister`
    function strategyWhitelister() external view returns (address);

    /**
     * @notice Returns bool for whether or not `strategy` enables credit transfers. i.e enabling
     * depositIntoStrategyWithSignature calls or queueing withdrawals to a different address than the staker.
     */
    function thirdPartyTransfersForbidden(IStrategy strategy) external view returns (bool);

// LIMITED BACKWARDS-COMPATIBILITY FOR DEPRECATED FUNCTIONALITY
    // packed struct for queued withdrawals; helps deal with stack-too-deep errors
    struct DeprecatedStruct_WithdrawerAndNonce {
        address withdrawer;
        uint96 nonce;
    }

    /**
     * Struct type used to specify an existing queued withdrawal. Rather than storing the entire struct, only a hash is stored.
     * In functions that operate on existing queued withdrawals -- e.g. `startQueuedWithdrawalWaitingPeriod` or `completeQueuedWithdrawal`,
     * the data is resubmitted and the hash of the submitted data is computed by `calculateWithdrawalRoot` and checked against the
     * stored hash in order to confirm the integrity of the submitted data.
     */
    struct DeprecatedStruct_QueuedWithdrawal {
        IStrategy[] strategies;
        uint256[] shares;
        address staker;
        DeprecatedStruct_WithdrawerAndNonce withdrawerAndNonce;
        uint32 withdrawalStartBlock;
        address delegatedAddress;
    }

    function migrateQueuedWithdrawal(DeprecatedStruct_QueuedWithdrawal memory queuedWithdrawal) external returns (bool, bytes32);

    function calculateWithdrawalRoot(DeprecatedStruct_QueuedWithdrawal memory queuedWithdrawal) external pure returns (bytes32);
}

File 29 of 38 : IERC20.sol
// SPDX-License-Identifier: MIT
// OpenZeppelin Contracts (last updated v4.6.0) (token/ERC20/IERC20.sol)

pragma solidity ^0.8.0;

/**
 * @dev Interface of the ERC20 standard as defined in the EIP.
 */
interface IERC20 {
    /**
     * @dev Emitted when `value` tokens are moved from one account (`from`) to
     * another (`to`).
     *
     * Note that `value` may be zero.
     */
    event Transfer(address indexed from, address indexed to, uint256 value);

    /**
     * @dev Emitted when the allowance of a `spender` for an `owner` is set by
     * a call to {approve}. `value` is the new allowance.
     */
    event Approval(address indexed owner, address indexed spender, uint256 value);

    /**
     * @dev Returns the amount of tokens in existence.
     */
    function totalSupply() external view returns (uint256);

    /**
     * @dev Returns the amount of tokens owned by `account`.
     */
    function balanceOf(address account) external view returns (uint256);

    /**
     * @dev Moves `amount` tokens from the caller's account to `to`.
     *
     * Returns a boolean value indicating whether the operation succeeded.
     *
     * Emits a {Transfer} event.
     */
    function transfer(address to, uint256 amount) external returns (bool);

    /**
     * @dev Returns the remaining number of tokens that `spender` will be
     * allowed to spend on behalf of `owner` through {transferFrom}. This is
     * zero by default.
     *
     * This value changes when {approve} or {transferFrom} are called.
     */
    function allowance(address owner, address spender) external view returns (uint256);

    /**
     * @dev Sets `amount` as the allowance of `spender` over the caller's tokens.
     *
     * Returns a boolean value indicating whether the operation succeeded.
     *
     * IMPORTANT: Beware that changing an allowance with this method brings the risk
     * that someone may use both the old and the new allowance by unfortunate
     * transaction ordering. One possible solution to mitigate this race
     * condition is to first reduce the spender's allowance to 0 and set the
     * desired value afterwards:
     * https://github.com/ethereum/EIPs/issues/20#issuecomment-263524729
     *
     * Emits an {Approval} event.
     */
    function approve(address spender, uint256 amount) external returns (bool);

    /**
     * @dev Moves `amount` tokens from `from` to `to` using the
     * allowance mechanism. `amount` is then deducted from the caller's
     * allowance.
     *
     * Returns a boolean value indicating whether the operation succeeded.
     *
     * Emits a {Transfer} event.
     */
    function transferFrom(
        address from,
        address to,
        uint256 amount
    ) external returns (bool);
}

File 30 of 38 : AddressUpgradeable.sol
// SPDX-License-Identifier: MIT
// OpenZeppelin Contracts (last updated v4.7.0) (utils/Address.sol)

pragma solidity ^0.8.1;

/**
 * @dev Collection of functions related to the address type
 */
library AddressUpgradeable {
    /**
     * @dev Returns true if `account` is a contract.
     *
     * [IMPORTANT]
     * ====
     * It is unsafe to assume that an address for which this function returns
     * false is an externally-owned account (EOA) and not a contract.
     *
     * Among others, `isContract` will return false for the following
     * types of addresses:
     *
     *  - an externally-owned account
     *  - a contract in construction
     *  - an address where a contract will be created
     *  - an address where a contract lived, but was destroyed
     * ====
     *
     * [IMPORTANT]
     * ====
     * You shouldn't rely on `isContract` to protect against flash loan attacks!
     *
     * Preventing calls from contracts is highly discouraged. It breaks composability, breaks support for smart wallets
     * like Gnosis Safe, and does not provide security since it can be circumvented by calling from a contract
     * constructor.
     * ====
     */
    function isContract(address account) internal view returns (bool) {
        // This method relies on extcodesize/address.code.length, which returns 0
        // for contracts in construction, since the code is only stored at the end
        // of the constructor execution.

        return account.code.length > 0;
    }

    /**
     * @dev Replacement for Solidity's `transfer`: sends `amount` wei to
     * `recipient`, forwarding all available gas and reverting on errors.
     *
     * https://eips.ethereum.org/EIPS/eip-1884[EIP1884] increases the gas cost
     * of certain opcodes, possibly making contracts go over the 2300 gas limit
     * imposed by `transfer`, making them unable to receive funds via
     * `transfer`. {sendValue} removes this limitation.
     *
     * https://diligence.consensys.net/posts/2019/09/stop-using-soliditys-transfer-now/[Learn more].
     *
     * IMPORTANT: because control is transferred to `recipient`, care must be
     * taken to not create reentrancy vulnerabilities. Consider using
     * {ReentrancyGuard} or the
     * https://solidity.readthedocs.io/en/v0.5.11/security-considerations.html#use-the-checks-effects-interactions-pattern[checks-effects-interactions pattern].
     */
    function sendValue(address payable recipient, uint256 amount) internal {
        require(address(this).balance >= amount, "Address: insufficient balance");

        (bool success, ) = recipient.call{value: amount}("");
        require(success, "Address: unable to send value, recipient may have reverted");
    }

    /**
     * @dev Performs a Solidity function call using a low level `call`. A
     * plain `call` is an unsafe replacement for a function call: use this
     * function instead.
     *
     * If `target` reverts with a revert reason, it is bubbled up by this
     * function (like regular Solidity function calls).
     *
     * Returns the raw returned data. To convert to the expected return value,
     * use https://solidity.readthedocs.io/en/latest/units-and-global-variables.html?highlight=abi.decode#abi-encoding-and-decoding-functions[`abi.decode`].
     *
     * Requirements:
     *
     * - `target` must be a contract.
     * - calling `target` with `data` must not revert.
     *
     * _Available since v3.1._
     */
    function functionCall(address target, bytes memory data) internal returns (bytes memory) {
        return functionCall(target, data, "Address: low-level call failed");
    }

    /**
     * @dev Same as {xref-Address-functionCall-address-bytes-}[`functionCall`], but with
     * `errorMessage` as a fallback revert reason when `target` reverts.
     *
     * _Available since v3.1._
     */
    function functionCall(
        address target,
        bytes memory data,
        string memory errorMessage
    ) internal returns (bytes memory) {
        return functionCallWithValue(target, data, 0, errorMessage);
    }

    /**
     * @dev Same as {xref-Address-functionCall-address-bytes-}[`functionCall`],
     * but also transferring `value` wei to `target`.
     *
     * Requirements:
     *
     * - the calling contract must have an ETH balance of at least `value`.
     * - the called Solidity function must be `payable`.
     *
     * _Available since v3.1._
     */
    function functionCallWithValue(
        address target,
        bytes memory data,
        uint256 value
    ) internal returns (bytes memory) {
        return functionCallWithValue(target, data, value, "Address: low-level call with value failed");
    }

    /**
     * @dev Same as {xref-Address-functionCallWithValue-address-bytes-uint256-}[`functionCallWithValue`], but
     * with `errorMessage` as a fallback revert reason when `target` reverts.
     *
     * _Available since v3.1._
     */
    function functionCallWithValue(
        address target,
        bytes memory data,
        uint256 value,
        string memory errorMessage
    ) internal returns (bytes memory) {
        require(address(this).balance >= value, "Address: insufficient balance for call");
        require(isContract(target), "Address: call to non-contract");

        (bool success, bytes memory returndata) = target.call{value: value}(data);
        return verifyCallResult(success, returndata, errorMessage);
    }

    /**
     * @dev Same as {xref-Address-functionCall-address-bytes-}[`functionCall`],
     * but performing a static call.
     *
     * _Available since v3.3._
     */
    function functionStaticCall(address target, bytes memory data) internal view returns (bytes memory) {
        return functionStaticCall(target, data, "Address: low-level static call failed");
    }

    /**
     * @dev Same as {xref-Address-functionCall-address-bytes-string-}[`functionCall`],
     * but performing a static call.
     *
     * _Available since v3.3._
     */
    function functionStaticCall(
        address target,
        bytes memory data,
        string memory errorMessage
    ) internal view returns (bytes memory) {
        require(isContract(target), "Address: static call to non-contract");

        (bool success, bytes memory returndata) = target.staticcall(data);
        return verifyCallResult(success, returndata, errorMessage);
    }

    /**
     * @dev Tool to verifies that a low level call was successful, and revert if it wasn't, either by bubbling the
     * revert reason using the provided one.
     *
     * _Available since v4.3._
     */
    function verifyCallResult(
        bool success,
        bytes memory returndata,
        string memory errorMessage
    ) internal pure returns (bytes memory) {
        if (success) {
            return returndata;
        } else {
            // Look for revert reason and bubble it up if present
            if (returndata.length > 0) {
                // The easiest way to bubble the revert reason is using memory via assembly
                /// @solidity memory-safe-assembly
                assembly {
                    let returndata_size := mload(returndata)
                    revert(add(32, returndata), returndata_size)
                }
            } else {
                revert(errorMessage);
            }
        }
    }
}

File 31 of 38 : IEigenPodManager.sol
// SPDX-License-Identifier: BUSL-1.1
pragma solidity >=0.5.0;

import "@openzeppelin/contracts/proxy/beacon/IBeacon.sol";
import "./IETHPOSDeposit.sol";
import "./IStrategyManager.sol";
import "./IEigenPod.sol";
import "./IBeaconChainOracle.sol";
import "./IPausable.sol";
import "./ISlasher.sol";
import "./IStrategy.sol";

/**
 * @title Interface for factory that creates and manages solo staking pods that have their withdrawal credentials pointed to EigenLayer.
 * @author Layr Labs, Inc.
 * @notice Terms of Service: https://docs.eigenlayer.xyz/overview/terms-of-service
 */

interface IEigenPodManager is IPausable {
    /// @notice Emitted to notify the update of the beaconChainOracle address
    event BeaconOracleUpdated(address indexed newOracleAddress);

    /// @notice Emitted to notify the deployment of an EigenPod
    event PodDeployed(address indexed eigenPod, address indexed podOwner);

    /// @notice Emitted to notify a deposit of beacon chain ETH recorded in the strategy manager
    event BeaconChainETHDeposited(address indexed podOwner, uint256 amount);

    /// @notice Emitted when `maxPods` value is updated from `previousValue` to `newValue`
    event MaxPodsUpdated(uint256 previousValue, uint256 newValue);

    /// @notice Emitted when the balance of an EigenPod is updated
    event PodSharesUpdated(address indexed podOwner, int256 sharesDelta);

    /// @notice Emitted when a withdrawal of beacon chain ETH is completed
    event BeaconChainETHWithdrawalCompleted(
        address indexed podOwner,
        uint256 shares,
        uint96 nonce,
        address delegatedAddress,
        address withdrawer,
        bytes32 withdrawalRoot
    );

    event DenebForkTimestampUpdated(uint64 newValue);

    /**
     * @notice Creates an EigenPod for the sender.
     * @dev Function will revert if the `msg.sender` already has an EigenPod.
     * @dev Returns EigenPod address 
     */
    function createPod() external returns (address);

    /**
     * @notice Stakes for a new beacon chain validator on the sender's EigenPod.
     * Also creates an EigenPod for the sender if they don't have one already.
     * @param pubkey The 48 bytes public key of the beacon chain validator.
     * @param signature The validator's signature of the deposit data.
     * @param depositDataRoot The root/hash of the deposit data for the validator's deposit.
     */
    function stake(bytes calldata pubkey, bytes calldata signature, bytes32 depositDataRoot) external payable;

    /**
     * @notice Changes the `podOwner`'s shares by `sharesDelta` and performs a call to the DelegationManager
     * to ensure that delegated shares are also tracked correctly
     * @param podOwner is the pod owner whose balance is being updated.
     * @param sharesDelta is the change in podOwner's beaconChainETHStrategy shares
     * @dev Callable only by the podOwner's EigenPod contract.
     * @dev Reverts if `sharesDelta` is not a whole Gwei amount
     */
    function recordBeaconChainETHBalanceUpdate(address podOwner, int256 sharesDelta) external;

    /**
     * @notice Updates the oracle contract that provides the beacon chain state root
     * @param newBeaconChainOracle is the new oracle contract being pointed to
     * @dev Callable only by the owner of this contract (i.e. governance)
     */
    function updateBeaconChainOracle(IBeaconChainOracle newBeaconChainOracle) external;

    /// @notice Returns the address of the `podOwner`'s EigenPod if it has been deployed.
    function ownerToPod(address podOwner) external view returns (IEigenPod);

    /// @notice Returns the address of the `podOwner`'s EigenPod (whether it is deployed yet or not).
    function getPod(address podOwner) external view returns (IEigenPod);

    /// @notice The ETH2 Deposit Contract
    function ethPOS() external view returns (IETHPOSDeposit);

    /// @notice Beacon proxy to which the EigenPods point
    function eigenPodBeacon() external view returns (IBeacon);

    /// @notice Oracle contract that provides updates to the beacon chain's state
    function beaconChainOracle() external view returns (IBeaconChainOracle);

    /// @notice Returns the beacon block root at `timestamp`. Reverts if the Beacon block root at `timestamp` has not yet been finalized.
    function getBlockRootAtTimestamp(uint64 timestamp) external view returns (bytes32);

    /// @notice EigenLayer's StrategyManager contract
    function strategyManager() external view returns (IStrategyManager);

    /// @notice EigenLayer's Slasher contract
    function slasher() external view returns (ISlasher);

    /// @notice Returns 'true' if the `podOwner` has created an EigenPod, and 'false' otherwise.
    function hasPod(address podOwner) external view returns (bool);

    /// @notice Returns the number of EigenPods that have been created
    function numPods() external view returns (uint256);

    /// @notice Returns the maximum number of EigenPods that can be created
    function maxPods() external view returns (uint256);

    /**
     * @notice Mapping from Pod owner owner to the number of shares they have in the virtual beacon chain ETH strategy.
     * @dev The share amount can become negative. This is necessary to accommodate the fact that a pod owner's virtual beacon chain ETH shares can
     * decrease between the pod owner queuing and completing a withdrawal.
     * When the pod owner's shares would otherwise increase, this "deficit" is decreased first _instead_.
     * Likewise, when a withdrawal is completed, this "deficit" is decreased and the withdrawal amount is decreased; We can think of this
     * as the withdrawal "paying off the deficit".
     */
    function podOwnerShares(address podOwner) external view returns (int256);

    /// @notice returns canonical, virtual beaconChainETH strategy
    function beaconChainETHStrategy() external view returns (IStrategy);

    /**
     * @notice Used by the DelegationManager to remove a pod owner's shares while they're in the withdrawal queue.
     * Simply decreases the `podOwner`'s shares by `shares`, down to a minimum of zero.
     * @dev This function reverts if it would result in `podOwnerShares[podOwner]` being less than zero, i.e. it is forbidden for this function to
     * result in the `podOwner` incurring a "share deficit". This behavior prevents a Staker from queuing a withdrawal which improperly removes excessive
     * shares from the operator to whom the staker is delegated.
     * @dev Reverts if `shares` is not a whole Gwei amount
     */
    function removeShares(address podOwner, uint256 shares) external;

    /**
     * @notice Increases the `podOwner`'s shares by `shares`, paying off deficit if possible.
     * Used by the DelegationManager to award a pod owner shares on exiting the withdrawal queue
     * @dev Returns the number of shares added to `podOwnerShares[podOwner]` above zero, which will be less than the `shares` input
     * in the event that the podOwner has an existing shares deficit (i.e. `podOwnerShares[podOwner]` starts below zero)
     * @dev Reverts if `shares` is not a whole Gwei amount
     */
    function addShares(address podOwner, uint256 shares) external returns (uint256);

    /**
     * @notice Used by the DelegationManager to complete a withdrawal, sending tokens to some destination address
     * @dev Prioritizes decreasing the podOwner's share deficit, if they have one
     * @dev Reverts if `shares` is not a whole Gwei amount
     */
    function withdrawSharesAsTokens(address podOwner, address destination, uint256 shares) external;

    /**
     * @notice the deneb hard fork timestamp used to determine which proof path to use for proving a withdrawal
     */
    function denebForkTimestamp() external view returns (uint64);

     /**
     * setting the deneb hard fork timestamp by the eigenPodManager owner
     * @dev this function is designed to be called twice.  Once, it is set to type(uint64).max 
     * prior to the actual deneb fork timestamp being set, and then the second time it is set 
     * to the actual deneb fork timestamp.
     */
    function setDenebForkTimestamp(uint64 newDenebForkTimestamp) external;

}

File 32 of 38 : IBeacon.sol
// SPDX-License-Identifier: MIT
// OpenZeppelin Contracts v4.4.1 (proxy/beacon/IBeacon.sol)

pragma solidity ^0.8.0;

/**
 * @dev This is the interface that {BeaconProxy} expects of its beacon.
 */
interface IBeacon {
    /**
     * @dev Must return an address that can be used as a delegate call target.
     *
     * {BeaconProxy} will check that this address is a contract.
     */
    function implementation() external view returns (address);
}

File 33 of 38 : IETHPOSDeposit.sol
// ┏━━━┓━┏┓━┏┓━━┏━━━┓━━┏━━━┓━━━━┏━━━┓━━━━━━━━━━━━━━━━━━━┏┓━━━━━┏━━━┓━━━━━━━━━┏┓━━━━━━━━━━━━━━┏┓━
// ┃┏━━┛┏┛┗┓┃┃━━┃┏━┓┃━━┃┏━┓┃━━━━┗┓┏┓┃━━━━━━━━━━━━━━━━━━┏┛┗┓━━━━┃┏━┓┃━━━━━━━━┏┛┗┓━━━━━━━━━━━━┏┛┗┓
// ┃┗━━┓┗┓┏┛┃┗━┓┗┛┏┛┃━━┃┃━┃┃━━━━━┃┃┃┃┏━━┓┏━━┓┏━━┓┏━━┓┏┓┗┓┏┛━━━━┃┃━┗┛┏━━┓┏━┓━┗┓┏┛┏━┓┏━━┓━┏━━┓┗┓┏┛
// ┃┏━━┛━┃┃━┃┏┓┃┏━┛┏┛━━┃┃━┃┃━━━━━┃┃┃┃┃┏┓┃┃┏┓┃┃┏┓┃┃━━┫┣┫━┃┃━━━━━┃┃━┏┓┃┏┓┃┃┏┓┓━┃┃━┃┏┛┗━┓┃━┃┏━┛━┃┃━
// ┃┗━━┓━┃┗┓┃┃┃┃┃┃┗━┓┏┓┃┗━┛┃━━━━┏┛┗┛┃┃┃━┫┃┗┛┃┃┗┛┃┣━━┃┃┃━┃┗┓━━━━┃┗━┛┃┃┗┛┃┃┃┃┃━┃┗┓┃┃━┃┗┛┗┓┃┗━┓━┃┗┓
// ┗━━━┛━┗━┛┗┛┗┛┗━━━┛┗┛┗━━━┛━━━━┗━━━┛┗━━┛┃┏━┛┗━━┛┗━━┛┗┛━┗━┛━━━━┗━━━┛┗━━┛┗┛┗┛━┗━┛┗┛━┗━━━┛┗━━┛━┗━┛
// ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━┃┃━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━
// ━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━┗┛━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━

// SPDX-License-Identifier: CC0-1.0

pragma solidity >=0.5.0;

// This interface is designed to be compatible with the Vyper version.
/// @notice This is the Ethereum 2.0 deposit contract interface.
/// For more information see the Phase 0 specification under https://github.com/ethereum/eth2.0-specs
interface IETHPOSDeposit {
    /// @notice A processed deposit event.
    event DepositEvent(bytes pubkey, bytes withdrawal_credentials, bytes amount, bytes signature, bytes index);

    /// @notice Submit a Phase 0 DepositData object.
    /// @param pubkey A BLS12-381 public key.
    /// @param withdrawal_credentials Commitment to a public key for withdrawals.
    /// @param signature A BLS12-381 signature.
    /// @param deposit_data_root The SHA-256 hash of the SSZ-encoded DepositData object.
    /// Used as a protection against malformed input.
    function deposit(
        bytes calldata pubkey,
        bytes calldata withdrawal_credentials,
        bytes calldata signature,
        bytes32 deposit_data_root
    ) external payable;

    /// @notice Query the current deposit root hash.
    /// @return The deposit root hash.
    function get_deposit_root() external view returns (bytes32);

    /// @notice Query the current deposit count.
    /// @return The deposit count encoded as a little endian 64-bit number.
    function get_deposit_count() external view returns (bytes memory);
}

File 34 of 38 : IEigenPod.sol
// SPDX-License-Identifier: BUSL-1.1
pragma solidity >=0.5.0;

import "../libraries/BeaconChainProofs.sol";
import "./IEigenPodManager.sol";
import "./IBeaconChainOracle.sol";
import "@openzeppelin/contracts/token/ERC20/IERC20.sol";

/**
 * @title The implementation contract used for restaking beacon chain ETH on EigenLayer
 * @author Layr Labs, Inc.
 * @notice Terms of Service: https://docs.eigenlayer.xyz/overview/terms-of-service
 * @notice The main functionalities are:
 * - creating new ETH validators with their withdrawal credentials pointed to this contract
 * - proving from beacon chain state roots that withdrawal credentials are pointed to this contract
 * - proving from beacon chain state roots the balances of ETH validators with their withdrawal credentials
 *   pointed to this contract
 * - updating aggregate balances in the EigenPodManager
 * - withdrawing eth when withdrawals are initiated
 * @dev Note that all beacon chain balances are stored as gwei within the beacon chain datastructures. We choose
 *   to account balances in terms of gwei in the EigenPod contract and convert to wei when making calls to other contracts
 */
interface IEigenPod {
    enum VALIDATOR_STATUS {
        INACTIVE, // doesnt exist
        ACTIVE, // staked on ethpos and withdrawal credentials are pointed to the EigenPod
        WITHDRAWN // withdrawn from the Beacon Chain
    }

    struct ValidatorInfo {
        // index of the validator in the beacon chain
        uint64 validatorIndex;
        // amount of beacon chain ETH restaked on EigenLayer in gwei
        uint64 restakedBalanceGwei;
        //timestamp of the validator's most recent balance update
        uint64 mostRecentBalanceUpdateTimestamp;
        // status of the validator
        VALIDATOR_STATUS status;
    }

    /**
     * @notice struct used to store amounts related to proven withdrawals in memory. Used to help
     * manage stack depth and optimize the number of external calls, when batching withdrawal operations.
     */
    struct VerifiedWithdrawal {
        // amount to send to a podOwner from a proven withdrawal
        uint256 amountToSendGwei;
        // difference in shares to be recorded in the eigenPodManager, as a result of the withdrawal
        int256 sharesDeltaGwei;
    }


    enum PARTIAL_WITHDRAWAL_CLAIM_STATUS {
        REDEEMED,
        PENDING,
        FAILED
    }

    /// @notice Emitted when an ETH validator stakes via this eigenPod
    event EigenPodStaked(bytes pubkey);

    /// @notice Emitted when an ETH validator's withdrawal credentials are successfully verified to be pointed to this eigenPod
    event ValidatorRestaked(uint40 validatorIndex);

    /// @notice Emitted when an ETH validator's  balance is proven to be updated.  Here newValidatorBalanceGwei
    //  is the validator's balance that is credited on EigenLayer.
    event ValidatorBalanceUpdated(uint40 validatorIndex, uint64 balanceTimestamp, uint64 newValidatorBalanceGwei);

    /// @notice Emitted when an ETH validator is prove to have withdrawn from the beacon chain
    event FullWithdrawalRedeemed(
        uint40 validatorIndex,
        uint64 withdrawalTimestamp,
        address indexed recipient,
        uint64 withdrawalAmountGwei
    );

    /// @notice Emitted when a partial withdrawal claim is successfully redeemed
    event PartialWithdrawalRedeemed(
        uint40 validatorIndex,
        uint64 withdrawalTimestamp,
        address indexed recipient,
        uint64 partialWithdrawalAmountGwei
    );

    /// @notice Emitted when restaked beacon chain ETH is withdrawn from the eigenPod.
    event RestakedBeaconChainETHWithdrawn(address indexed recipient, uint256 amount);

    /// @notice Emitted when podOwner enables restaking
    event RestakingActivated(address indexed podOwner);

    /// @notice Emitted when ETH is received via the `receive` fallback
    event NonBeaconChainETHReceived(uint256 amountReceived);

    /// @notice Emitted when ETH that was previously received via the `receive` fallback is withdrawn
    event NonBeaconChainETHWithdrawn(address indexed recipient, uint256 amountWithdrawn);


    /// @notice The max amount of eth, in gwei, that can be restaked per validator
    function MAX_RESTAKED_BALANCE_GWEI_PER_VALIDATOR() external view returns (uint64);

    /// @notice the amount of execution layer ETH in this contract that is staked in EigenLayer (i.e. withdrawn from beaconchain but not EigenLayer),
    function withdrawableRestakedExecutionLayerGwei() external view returns (uint64);

    /// @notice any ETH deposited into the EigenPod contract via the `receive` fallback function
    function nonBeaconChainETHBalanceWei() external view returns (uint256);

    /// @notice Used to initialize the pointers to contracts crucial to the pod's functionality, in beacon proxy construction from EigenPodManager
    function initialize(address owner) external;

    /// @notice Called by EigenPodManager when the owner wants to create another ETH validator.
    function stake(bytes calldata pubkey, bytes calldata signature, bytes32 depositDataRoot) external payable;

    /**
     * @notice Transfers `amountWei` in ether from this contract to the specified `recipient` address
     * @notice Called by EigenPodManager to withdrawBeaconChainETH that has been added to the EigenPod's balance due to a withdrawal from the beacon chain.
     * @dev The podOwner must have already proved sufficient withdrawals, so that this pod's `withdrawableRestakedExecutionLayerGwei` exceeds the
     * `amountWei` input (when converted to GWEI).
     * @dev Reverts if `amountWei` is not a whole Gwei amount
     */
    function withdrawRestakedBeaconChainETH(address recipient, uint256 amount) external;

    /// @notice The single EigenPodManager for EigenLayer
    function eigenPodManager() external view returns (IEigenPodManager);

    /// @notice The owner of this EigenPod
    function podOwner() external view returns (address);

    /// @notice an indicator of whether or not the podOwner has ever "fully restaked" by successfully calling `verifyCorrectWithdrawalCredentials`.
    function hasRestaked() external view returns (bool);

    /**
     * @notice The latest timestamp at which the pod owner withdrew the balance of the pod, via calling `withdrawBeforeRestaking`.
     * @dev This variable is only updated when the `withdrawBeforeRestaking` function is called, which can only occur before `hasRestaked` is set to true for this pod.
     * Proofs for this pod are only valid against Beacon Chain state roots corresponding to timestamps after the stored `mostRecentWithdrawalTimestamp`.
     */
    function mostRecentWithdrawalTimestamp() external view returns (uint64);

    /// @notice Returns the validatorInfo struct for the provided pubkeyHash
    function validatorPubkeyHashToInfo(bytes32 validatorPubkeyHash) external view returns (ValidatorInfo memory);

    /// @notice Returns the validatorInfo struct for the provided pubkey
    function validatorPubkeyToInfo(bytes calldata validatorPubkey) external view returns (ValidatorInfo memory);

    ///@notice mapping that tracks proven withdrawals
    function provenWithdrawal(bytes32 validatorPubkeyHash, uint64 slot) external view returns (bool);

    /// @notice This returns the status of a given validator
    function validatorStatus(bytes32 pubkeyHash) external view returns (VALIDATOR_STATUS);

    /// @notice This returns the status of a given validator pubkey
    function validatorStatus(bytes calldata validatorPubkey) external view returns (VALIDATOR_STATUS);

    /**
     * @notice This function verifies that the withdrawal credentials of validator(s) owned by the podOwner are pointed to
     * this contract. It also verifies the effective balance  of the validator.  It verifies the provided proof of the ETH validator against the beacon chain state
     * root, marks the validator as 'active' in EigenLayer, and credits the restaked ETH in Eigenlayer.
     * @param oracleTimestamp is the Beacon Chain timestamp whose state root the `proof` will be proven against.
     * @param validatorIndices is the list of indices of the validators being proven, refer to consensus specs
     * @param withdrawalCredentialProofs is an array of proofs, where each proof proves each ETH validator's balance and withdrawal credentials
     * against a beacon chain state root
     * @param validatorFields are the fields of the "Validator Container", refer to consensus specs
     * for details: https://github.com/ethereum/consensus-specs/blob/dev/specs/phase0/beacon-chain.md#validator
     */
    function verifyWithdrawalCredentials(
        uint64 oracleTimestamp,
        BeaconChainProofs.StateRootProof calldata stateRootProof,
        uint40[] calldata validatorIndices,
        bytes[] calldata withdrawalCredentialProofs,
        bytes32[][] calldata validatorFields
    )
        external;

    /**
     * @notice This function records an update (either increase or decrease) in the pod's balance in the StrategyManager.  
               It also verifies a merkle proof of the validator's current beacon chain balance.  
     * @param oracleTimestamp The oracleTimestamp whose state root the `proof` will be proven against.
     *        Must be within `VERIFY_BALANCE_UPDATE_WINDOW_SECONDS` of the current block.
     * @param validatorIndices is the list of indices of the validators being proven, refer to consensus specs 
     * @param validatorFieldsProofs proofs against the `beaconStateRoot` for each validator in `validatorFields`
     * @param validatorFields are the fields of the "Validator Container", refer to consensus specs
     * @dev For more details on the Beacon Chain spec, see: https://github.com/ethereum/consensus-specs/blob/dev/specs/phase0/beacon-chain.md#validator
     */
    function verifyBalanceUpdates(
        uint64 oracleTimestamp,
        uint40[] calldata validatorIndices,
        BeaconChainProofs.StateRootProof calldata stateRootProof,
        bytes[] calldata validatorFieldsProofs,
        bytes32[][] calldata validatorFields
    ) external;

    /**
     * @notice This function records full and partial withdrawals on behalf of one of the Ethereum validators for this EigenPod
     * @param oracleTimestamp is the timestamp of the oracle slot that the withdrawal is being proven against
     * @param withdrawalProofs is the information needed to check the veracity of the block numbers and withdrawals being proven
     * @param validatorFieldsProofs is the proof of the validator's fields' in the validator tree
     * @param withdrawalFields are the fields of the withdrawals being proven
     * @param validatorFields are the fields of the validators being proven
     */
    function verifyAndProcessWithdrawals(
        uint64 oracleTimestamp,
        BeaconChainProofs.StateRootProof calldata stateRootProof,
        BeaconChainProofs.WithdrawalProof[] calldata withdrawalProofs,
        bytes[] calldata validatorFieldsProofs,
        bytes32[][] calldata validatorFields,
        bytes32[][] calldata withdrawalFields
    ) external;

    /**
     * @notice Called by the pod owner to activate restaking by withdrawing
     * all existing ETH from the pod and preventing further withdrawals via
     * "withdrawBeforeRestaking()"
     */
    function activateRestaking() external;

    /// @notice Called by the pod owner to withdraw the balance of the pod when `hasRestaked` is set to false
    function withdrawBeforeRestaking() external;

    /// @notice Called by the pod owner to withdraw the nonBeaconChainETHBalanceWei
    function withdrawNonBeaconChainETHBalanceWei(address recipient, uint256 amountToWithdraw) external;

    /// @notice called by owner of a pod to remove any ERC20s deposited in the pod
    function recoverTokens(IERC20[] memory tokenList, uint256[] memory amountsToWithdraw, address recipient) external;
}

File 35 of 38 : IBeaconChainOracle.sol
// SPDX-License-Identifier: BUSL-1.1
pragma solidity >=0.5.0;

/**
 * @title Interface for the BeaconStateOracle contract.
 * @author Layr Labs, Inc.
 * @notice Terms of Service: https://docs.eigenlayer.xyz/overview/terms-of-service
 */
interface IBeaconChainOracle {
    /// @notice The block number to state root mapping.
    function timestampToBlockRoot(uint256 timestamp) external view returns (bytes32);
}

File 36 of 38 : BeaconChainProofs.sol
// SPDX-License-Identifier: BUSL-1.1

pragma solidity ^0.8.0;

import "./Merkle.sol";
import "../libraries/Endian.sol";

//Utility library for parsing and PHASE0 beacon chain block headers
//SSZ Spec: https://github.com/ethereum/consensus-specs/blob/dev/ssz/simple-serialize.md#merkleization
//BeaconBlockHeader Spec: https://github.com/ethereum/consensus-specs/blob/dev/specs/phase0/beacon-chain.md#beaconblockheader
//BeaconState Spec: https://github.com/ethereum/consensus-specs/blob/dev/specs/phase0/beacon-chain.md#beaconstate
library BeaconChainProofs {
    // constants are the number of fields and the heights of the different merkle trees used in merkleizing beacon chain containers
    uint256 internal constant BEACON_BLOCK_HEADER_FIELD_TREE_HEIGHT = 3;

    uint256 internal constant BEACON_BLOCK_BODY_FIELD_TREE_HEIGHT = 4;

    uint256 internal constant BEACON_STATE_FIELD_TREE_HEIGHT = 5;

    uint256 internal constant VALIDATOR_FIELD_TREE_HEIGHT = 3;

    //Note: changed in the deneb hard fork from 4->5
    uint256 internal constant EXECUTION_PAYLOAD_HEADER_FIELD_TREE_HEIGHT_DENEB = 5;
    uint256 internal constant EXECUTION_PAYLOAD_HEADER_FIELD_TREE_HEIGHT_CAPELLA = 4;

    // SLOTS_PER_HISTORICAL_ROOT = 2**13, so tree height is 13
    uint256 internal constant BLOCK_ROOTS_TREE_HEIGHT = 13;

    //HISTORICAL_ROOTS_LIMIT = 2**24, so tree height is 24
    uint256 internal constant HISTORICAL_SUMMARIES_TREE_HEIGHT = 24;

    //Index of block_summary_root in historical_summary container
    uint256 internal constant BLOCK_SUMMARY_ROOT_INDEX = 0;

    // tree height for hash tree of an individual withdrawal container
    uint256 internal constant WITHDRAWAL_FIELD_TREE_HEIGHT = 2;

    uint256 internal constant VALIDATOR_TREE_HEIGHT = 40;

    // MAX_WITHDRAWALS_PER_PAYLOAD = 2**4, making tree height = 4
    uint256 internal constant WITHDRAWALS_TREE_HEIGHT = 4;

    //in beacon block body https://github.com/ethereum/consensus-specs/blob/dev/specs/capella/beacon-chain.md#beaconblockbody
    uint256 internal constant EXECUTION_PAYLOAD_INDEX = 9;

    // in beacon block header https://github.com/ethereum/consensus-specs/blob/dev/specs/phase0/beacon-chain.md#beaconblockheader
    uint256 internal constant SLOT_INDEX = 0;
    uint256 internal constant STATE_ROOT_INDEX = 3;
    uint256 internal constant BODY_ROOT_INDEX = 4;
    // in beacon state https://github.com/ethereum/consensus-specs/blob/dev/specs/capella/beacon-chain.md#beaconstate
    uint256 internal constant VALIDATOR_TREE_ROOT_INDEX = 11;
    uint256 internal constant HISTORICAL_SUMMARIES_INDEX = 27;

    // in validator https://github.com/ethereum/consensus-specs/blob/dev/specs/phase0/beacon-chain.md#validator
    uint256 internal constant VALIDATOR_PUBKEY_INDEX = 0;
    uint256 internal constant VALIDATOR_WITHDRAWAL_CREDENTIALS_INDEX = 1;
    uint256 internal constant VALIDATOR_BALANCE_INDEX = 2;
    uint256 internal constant VALIDATOR_WITHDRAWABLE_EPOCH_INDEX = 7;

    // in execution payload header
    uint256 internal constant TIMESTAMP_INDEX = 9;

    //in execution payload
    uint256 internal constant WITHDRAWALS_INDEX = 14;

    // in withdrawal
    uint256 internal constant WITHDRAWAL_VALIDATOR_INDEX_INDEX = 1;
    uint256 internal constant WITHDRAWAL_VALIDATOR_AMOUNT_INDEX = 3;

    //Misc Constants

    /// @notice The number of slots each epoch in the beacon chain
    uint64 internal constant SLOTS_PER_EPOCH = 32;

    /// @notice The number of seconds in a slot in the beacon chain
    uint64 internal constant SECONDS_PER_SLOT = 12;

    /// @notice Number of seconds per epoch: 384 == 32 slots/epoch * 12 seconds/slot 
    uint64 internal constant SECONDS_PER_EPOCH = SLOTS_PER_EPOCH * SECONDS_PER_SLOT;

    bytes8 internal constant UINT64_MASK = 0xffffffffffffffff;

    /// @notice This struct contains the merkle proofs and leaves needed to verify a partial/full withdrawal
    struct WithdrawalProof {
        bytes withdrawalProof;
        bytes slotProof;
        bytes executionPayloadProof;
        bytes timestampProof;
        bytes historicalSummaryBlockRootProof;
        uint64 blockRootIndex;
        uint64 historicalSummaryIndex;
        uint64 withdrawalIndex;
        bytes32 blockRoot;
        bytes32 slotRoot;
        bytes32 timestampRoot;
        bytes32 executionPayloadRoot;
    }

    /// @notice This struct contains the root and proof for verifying the state root against the oracle block root
    struct StateRootProof {
        bytes32 beaconStateRoot;
        bytes proof;
    }

    /**
     * @notice This function verifies merkle proofs of the fields of a certain validator against a beacon chain state root
     * @param validatorIndex the index of the proven validator
     * @param beaconStateRoot is the beacon chain state root to be proven against.
     * @param validatorFieldsProof is the data used in proving the validator's fields
     * @param validatorFields the claimed fields of the validator
     */
    function verifyValidatorFields(
        bytes32 beaconStateRoot,
        bytes32[] calldata validatorFields,
        bytes calldata validatorFieldsProof,
        uint40 validatorIndex
    ) internal view {
        require(
            validatorFields.length == 2 ** VALIDATOR_FIELD_TREE_HEIGHT,
            "BeaconChainProofs.verifyValidatorFields: Validator fields has incorrect length"
        );

        /**
         * Note: the length of the validator merkle proof is BeaconChainProofs.VALIDATOR_TREE_HEIGHT + 1.
         * There is an additional layer added by hashing the root with the length of the validator list
         */
        require(
            validatorFieldsProof.length == 32 * ((VALIDATOR_TREE_HEIGHT + 1) + BEACON_STATE_FIELD_TREE_HEIGHT),
            "BeaconChainProofs.verifyValidatorFields: Proof has incorrect length"
        );
        uint256 index = (VALIDATOR_TREE_ROOT_INDEX << (VALIDATOR_TREE_HEIGHT + 1)) | uint256(validatorIndex);
        // merkleize the validatorFields to get the leaf to prove
        bytes32 validatorRoot = Merkle.merkleizeSha256(validatorFields);

        // verify the proof of the validatorRoot against the beaconStateRoot
        require(
            Merkle.verifyInclusionSha256({
                proof: validatorFieldsProof,
                root: beaconStateRoot,
                leaf: validatorRoot,
                index: index
            }),
            "BeaconChainProofs.verifyValidatorFields: Invalid merkle proof"
        );
    }

    /**
     * @notice This function verifies the latestBlockHeader against the state root. the latestBlockHeader is
     * a tracked in the beacon state.
     * @param beaconStateRoot is the beacon chain state root to be proven against.
     * @param stateRootProof is the provided merkle proof
     * @param latestBlockRoot is hashtree root of the latest block header in the beacon state
     */
    function verifyStateRootAgainstLatestBlockRoot(
        bytes32 latestBlockRoot,
        bytes32 beaconStateRoot,
        bytes calldata stateRootProof
    ) internal view {
        require(
            stateRootProof.length == 32 * (BEACON_BLOCK_HEADER_FIELD_TREE_HEIGHT),
            "BeaconChainProofs.verifyStateRootAgainstLatestBlockRoot: Proof has incorrect length"
        );
        //Next we verify the slot against the blockRoot
        require(
            Merkle.verifyInclusionSha256({
                proof: stateRootProof,
                root: latestBlockRoot,
                leaf: beaconStateRoot,
                index: STATE_ROOT_INDEX
            }),
            "BeaconChainProofs.verifyStateRootAgainstLatestBlockRoot: Invalid latest block header root merkle proof"
        );
    }

    /**
     * @notice This function verifies the slot and the withdrawal fields for a given withdrawal
     * @param withdrawalProof is the provided set of merkle proofs
     * @param withdrawalFields is the serialized withdrawal container to be proven
     */
    function verifyWithdrawal(
        bytes32 beaconStateRoot,
        bytes32[] calldata withdrawalFields,
        WithdrawalProof calldata withdrawalProof,
        uint64 denebForkTimestamp
    ) internal view {
        require(
            withdrawalFields.length == 2 ** WITHDRAWAL_FIELD_TREE_HEIGHT,
            "BeaconChainProofs.verifyWithdrawal: withdrawalFields has incorrect length"
        );

        require(
            withdrawalProof.blockRootIndex < 2 ** BLOCK_ROOTS_TREE_HEIGHT,
            "BeaconChainProofs.verifyWithdrawal: blockRootIndex is too large"
        );
        require(
            withdrawalProof.withdrawalIndex < 2 ** WITHDRAWALS_TREE_HEIGHT,
            "BeaconChainProofs.verifyWithdrawal: withdrawalIndex is too large"
        );

        require(
            withdrawalProof.historicalSummaryIndex < 2 ** HISTORICAL_SUMMARIES_TREE_HEIGHT,
            "BeaconChainProofs.verifyWithdrawal: historicalSummaryIndex is too large"
        );

        //Note: post deneb hard fork, the number of exection payload header fields increased from 15->17, adding an extra level to the tree height
        uint256 executionPayloadHeaderFieldTreeHeight = (getWithdrawalTimestamp(withdrawalProof) < denebForkTimestamp) ? EXECUTION_PAYLOAD_HEADER_FIELD_TREE_HEIGHT_CAPELLA : EXECUTION_PAYLOAD_HEADER_FIELD_TREE_HEIGHT_DENEB;
        require(
            withdrawalProof.withdrawalProof.length ==
                32 * (executionPayloadHeaderFieldTreeHeight + WITHDRAWALS_TREE_HEIGHT + 1),
            "BeaconChainProofs.verifyWithdrawal: withdrawalProof has incorrect length"
        );
        require(
            withdrawalProof.executionPayloadProof.length ==
                32 * (BEACON_BLOCK_HEADER_FIELD_TREE_HEIGHT + BEACON_BLOCK_BODY_FIELD_TREE_HEIGHT),
            "BeaconChainProofs.verifyWithdrawal: executionPayloadProof has incorrect length"
        );
        require(
            withdrawalProof.slotProof.length == 32 * (BEACON_BLOCK_HEADER_FIELD_TREE_HEIGHT),
            "BeaconChainProofs.verifyWithdrawal: slotProof has incorrect length"
        );
        require(
            withdrawalProof.timestampProof.length == 32 * (executionPayloadHeaderFieldTreeHeight),
            "BeaconChainProofs.verifyWithdrawal: timestampProof has incorrect length"
        );

        require(
            withdrawalProof.historicalSummaryBlockRootProof.length ==
                32 *
                    (BEACON_STATE_FIELD_TREE_HEIGHT +
                        (HISTORICAL_SUMMARIES_TREE_HEIGHT + 1) +
                        1 +
                        (BLOCK_ROOTS_TREE_HEIGHT)),
            "BeaconChainProofs.verifyWithdrawal: historicalSummaryBlockRootProof has incorrect length"
        );
        /**
         * Note: Here, the "1" in "1 + (BLOCK_ROOTS_TREE_HEIGHT)" signifies that extra step of choosing the "block_root_summary" within the individual
         * "historical_summary". Everywhere else it signifies merkelize_with_mixin, where the length of an array is hashed with the root of the array,
         * but not here.
         */
        uint256 historicalBlockHeaderIndex = (HISTORICAL_SUMMARIES_INDEX <<
            ((HISTORICAL_SUMMARIES_TREE_HEIGHT + 1) + 1 + (BLOCK_ROOTS_TREE_HEIGHT))) |
            (uint256(withdrawalProof.historicalSummaryIndex) << (1 + (BLOCK_ROOTS_TREE_HEIGHT))) |
            (BLOCK_SUMMARY_ROOT_INDEX << (BLOCK_ROOTS_TREE_HEIGHT)) |
            uint256(withdrawalProof.blockRootIndex);

        require(
            Merkle.verifyInclusionSha256({
                proof: withdrawalProof.historicalSummaryBlockRootProof,
                root: beaconStateRoot,
                leaf: withdrawalProof.blockRoot,
                index: historicalBlockHeaderIndex
            }),
            "BeaconChainProofs.verifyWithdrawal: Invalid historicalsummary merkle proof"
        );

        //Next we verify the slot against the blockRoot
        require(
            Merkle.verifyInclusionSha256({
                proof: withdrawalProof.slotProof,
                root: withdrawalProof.blockRoot,
                leaf: withdrawalProof.slotRoot,
                index: SLOT_INDEX
            }),
            "BeaconChainProofs.verifyWithdrawal: Invalid slot merkle proof"
        );

        {
            // Next we verify the executionPayloadRoot against the blockRoot
            uint256 executionPayloadIndex = (BODY_ROOT_INDEX << (BEACON_BLOCK_BODY_FIELD_TREE_HEIGHT)) |
                EXECUTION_PAYLOAD_INDEX;
            require(
                Merkle.verifyInclusionSha256({
                    proof: withdrawalProof.executionPayloadProof,
                    root: withdrawalProof.blockRoot,
                    leaf: withdrawalProof.executionPayloadRoot,
                    index: executionPayloadIndex
                }),
                "BeaconChainProofs.verifyWithdrawal: Invalid executionPayload merkle proof"
            );
        }

        // Next we verify the timestampRoot against the executionPayload root
        require(
            Merkle.verifyInclusionSha256({
                proof: withdrawalProof.timestampProof,
                root: withdrawalProof.executionPayloadRoot,
                leaf: withdrawalProof.timestampRoot,
                index: TIMESTAMP_INDEX
            }),
            "BeaconChainProofs.verifyWithdrawal: Invalid timestamp merkle proof"
        );

        {
            /**
             * Next we verify the withdrawal fields against the executionPayloadRoot:
             * First we compute the withdrawal_index, then we merkleize the 
             * withdrawalFields container to calculate the withdrawalRoot.
             *
             * Note: Merkleization of the withdrawals root tree uses MerkleizeWithMixin, i.e., the length of the array is hashed with the root of
             * the array.  Thus we shift the WITHDRAWALS_INDEX over by WITHDRAWALS_TREE_HEIGHT + 1 and not just WITHDRAWALS_TREE_HEIGHT.
             */
            uint256 withdrawalIndex = (WITHDRAWALS_INDEX << (WITHDRAWALS_TREE_HEIGHT + 1)) |
                uint256(withdrawalProof.withdrawalIndex);
            bytes32 withdrawalRoot = Merkle.merkleizeSha256(withdrawalFields);
            require(
                Merkle.verifyInclusionSha256({
                    proof: withdrawalProof.withdrawalProof,
                    root: withdrawalProof.executionPayloadRoot,
                    leaf: withdrawalRoot,
                    index: withdrawalIndex
                }),
                "BeaconChainProofs.verifyWithdrawal: Invalid withdrawal merkle proof"
            );
        }
    }

    /**
     * @notice This function replicates the ssz hashing of a validator's pubkey, outlined below:
     *  hh := ssz.NewHasher()
     *  hh.PutBytes(validatorPubkey[:])
     *  validatorPubkeyHash := hh.Hash()
     *  hh.Reset()
     */
    function hashValidatorBLSPubkey(bytes memory validatorPubkey) internal pure returns (bytes32 pubkeyHash) {
        require(validatorPubkey.length == 48, "Input should be 48 bytes in length");
        return sha256(abi.encodePacked(validatorPubkey, bytes16(0)));
    }

    /**
     * @dev Retrieve the withdrawal timestamp
     */
    function getWithdrawalTimestamp(WithdrawalProof memory withdrawalProof) internal pure returns (uint64) {
        return
            Endian.fromLittleEndianUint64(withdrawalProof.timestampRoot);
    }

    /**
     * @dev Converts the withdrawal's slot to an epoch
     */
    function getWithdrawalEpoch(WithdrawalProof memory withdrawalProof) internal pure returns (uint64) {
        return
            Endian.fromLittleEndianUint64(withdrawalProof.slotRoot) / SLOTS_PER_EPOCH;
    }

    /**
     * Indices for validator fields (refer to consensus specs):
     * 0: pubkey
     * 1: withdrawal credentials
     * 2: effective balance
     * 3: slashed?
     * 4: activation elligibility epoch
     * 5: activation epoch
     * 6: exit epoch
     * 7: withdrawable epoch
     */

    /**
     * @dev Retrieves a validator's pubkey hash
     */
    function getPubkeyHash(bytes32[] memory validatorFields) internal pure returns (bytes32) {
        return 
            validatorFields[VALIDATOR_PUBKEY_INDEX];
    }

    function getWithdrawalCredentials(bytes32[] memory validatorFields) internal pure returns (bytes32) {
        return
            validatorFields[VALIDATOR_WITHDRAWAL_CREDENTIALS_INDEX];
    }

    /**
     * @dev Retrieves a validator's effective balance (in gwei)
     */
    function getEffectiveBalanceGwei(bytes32[] memory validatorFields) internal pure returns (uint64) {
        return 
            Endian.fromLittleEndianUint64(validatorFields[VALIDATOR_BALANCE_INDEX]);
    }

    /**
     * @dev Retrieves a validator's withdrawable epoch
     */
    function getWithdrawableEpoch(bytes32[] memory validatorFields) internal pure returns (uint64) {
        return 
            Endian.fromLittleEndianUint64(validatorFields[VALIDATOR_WITHDRAWABLE_EPOCH_INDEX]);
    }

    /**
     * Indices for withdrawal fields (refer to consensus specs):
     * 0: withdrawal index
     * 1: validator index
     * 2: execution address
     * 3: withdrawal amount
     */

    /**
     * @dev Retrieves a withdrawal's validator index
     */
    function getValidatorIndex(bytes32[] memory withdrawalFields) internal pure returns (uint40) {
        return 
            uint40(Endian.fromLittleEndianUint64(withdrawalFields[WITHDRAWAL_VALIDATOR_INDEX_INDEX]));
    }

    /**
     * @dev Retrieves a withdrawal's withdrawal amount (in gwei)
     */
    function getWithdrawalAmountGwei(bytes32[] memory withdrawalFields) internal pure returns (uint64) {
        return
            Endian.fromLittleEndianUint64(withdrawalFields[WITHDRAWAL_VALIDATOR_AMOUNT_INDEX]);
    }
}

File 37 of 38 : Merkle.sol
// SPDX-License-Identifier: MIT
// Adapted from OpenZeppelin Contracts (last updated v4.8.0) (utils/cryptography/MerkleProof.sol)

pragma solidity ^0.8.0;

/**
 * @dev These functions deal with verification of Merkle Tree proofs.
 *
 * The tree and the proofs can be generated using our
 * https://github.com/OpenZeppelin/merkle-tree[JavaScript library].
 * You will find a quickstart guide in the readme.
 *
 * WARNING: You should avoid using leaf values that are 64 bytes long prior to
 * hashing, or use a hash function other than keccak256 for hashing leaves.
 * This is because the concatenation of a sorted pair of internal nodes in
 * the merkle tree could be reinterpreted as a leaf value.
 * OpenZeppelin's JavaScript library generates merkle trees that are safe
 * against this attack out of the box.
 */
library Merkle {
    /**
     * @dev Returns the rebuilt hash obtained by traversing a Merkle tree up
     * from `leaf` using `proof`. A `proof` is valid if and only if the rebuilt
     * hash matches the root of the tree. The tree is built assuming `leaf` is
     * the 0 indexed `index`'th leaf from the bottom left of the tree.
     *
     * Note this is for a Merkle tree using the keccak/sha3 hash function
     */
    function verifyInclusionKeccak(
        bytes memory proof,
        bytes32 root,
        bytes32 leaf,
        uint256 index
    ) internal pure returns (bool) {
        return processInclusionProofKeccak(proof, leaf, index) == root;
    }

    /**
     * @dev Returns the rebuilt hash obtained by traversing a Merkle tree up
     * from `leaf` using `proof`. A `proof` is valid if and only if the rebuilt
     * hash matches the root of the tree. The tree is built assuming `leaf` is
     * the 0 indexed `index`'th leaf from the bottom left of the tree.
     *
     * _Available since v4.4._
     *
     * Note this is for a Merkle tree using the keccak/sha3 hash function
     */
    function processInclusionProofKeccak(
        bytes memory proof,
        bytes32 leaf,
        uint256 index
    ) internal pure returns (bytes32) {
        require(
            proof.length != 0 && proof.length % 32 == 0,
            "Merkle.processInclusionProofKeccak: proof length should be a non-zero multiple of 32"
        );
        bytes32 computedHash = leaf;
        for (uint256 i = 32; i <= proof.length; i += 32) {
            if (index % 2 == 0) {
                // if ith bit of index is 0, then computedHash is a left sibling
                assembly {
                    mstore(0x00, computedHash)
                    mstore(0x20, mload(add(proof, i)))
                    computedHash := keccak256(0x00, 0x40)
                    index := div(index, 2)
                }
            } else {
                // if ith bit of index is 1, then computedHash is a right sibling
                assembly {
                    mstore(0x00, mload(add(proof, i)))
                    mstore(0x20, computedHash)
                    computedHash := keccak256(0x00, 0x40)
                    index := div(index, 2)
                }
            }
        }
        return computedHash;
    }

    /**
     * @dev Returns the rebuilt hash obtained by traversing a Merkle tree up
     * from `leaf` using `proof`. A `proof` is valid if and only if the rebuilt
     * hash matches the root of the tree. The tree is built assuming `leaf` is
     * the 0 indexed `index`'th leaf from the bottom left of the tree.
     *
     * Note this is for a Merkle tree using the sha256 hash function
     */
    function verifyInclusionSha256(
        bytes memory proof,
        bytes32 root,
        bytes32 leaf,
        uint256 index
    ) internal view returns (bool) {
        return processInclusionProofSha256(proof, leaf, index) == root;
    }

    /**
     * @dev Returns the rebuilt hash obtained by traversing a Merkle tree up
     * from `leaf` using `proof`. A `proof` is valid if and only if the rebuilt
     * hash matches the root of the tree. The tree is built assuming `leaf` is
     * the 0 indexed `index`'th leaf from the bottom left of the tree.
     *
     * _Available since v4.4._
     *
     * Note this is for a Merkle tree using the sha256 hash function
     */
    function processInclusionProofSha256(
        bytes memory proof,
        bytes32 leaf,
        uint256 index
    ) internal view returns (bytes32) {
        require(
            proof.length != 0 && proof.length % 32 == 0,
            "Merkle.processInclusionProofSha256: proof length should be a non-zero multiple of 32"
        );
        bytes32[1] memory computedHash = [leaf];
        for (uint256 i = 32; i <= proof.length; i += 32) {
            if (index % 2 == 0) {
                // if ith bit of index is 0, then computedHash is a left sibling
                assembly {
                    mstore(0x00, mload(computedHash))
                    mstore(0x20, mload(add(proof, i)))
                    if iszero(staticcall(sub(gas(), 2000), 2, 0x00, 0x40, computedHash, 0x20)) {
                        revert(0, 0)
                    }
                    index := div(index, 2)
                }
            } else {
                // if ith bit of index is 1, then computedHash is a right sibling
                assembly {
                    mstore(0x00, mload(add(proof, i)))
                    mstore(0x20, mload(computedHash))
                    if iszero(staticcall(sub(gas(), 2000), 2, 0x00, 0x40, computedHash, 0x20)) {
                        revert(0, 0)
                    }
                    index := div(index, 2)
                }
            }
        }
        return computedHash[0];
    }

    /**
     @notice this function returns the merkle root of a tree created from a set of leaves using sha256 as its hash function
     @param leaves the leaves of the merkle tree
     @return The computed Merkle root of the tree.
     @dev A pre-condition to this function is that leaves.length is a power of two.  If not, the function will merkleize the inputs incorrectly.
     */
    function merkleizeSha256(bytes32[] memory leaves) internal pure returns (bytes32) {
        //there are half as many nodes in the layer above the leaves
        uint256 numNodesInLayer = leaves.length / 2;
        //create a layer to store the internal nodes
        bytes32[] memory layer = new bytes32[](numNodesInLayer);
        //fill the layer with the pairwise hashes of the leaves
        for (uint256 i = 0; i < numNodesInLayer; i++) {
            layer[i] = sha256(abi.encodePacked(leaves[2 * i], leaves[2 * i + 1]));
        }
        //the next layer above has half as many nodes
        numNodesInLayer /= 2;
        //while we haven't computed the root
        while (numNodesInLayer != 0) {
            //overwrite the first numNodesInLayer nodes in layer with the pairwise hashes of their children
            for (uint256 i = 0; i < numNodesInLayer; i++) {
                layer[i] = sha256(abi.encodePacked(layer[2 * i], layer[2 * i + 1]));
            }
            //the next layer above has half as many nodes
            numNodesInLayer /= 2;
        }
        //the first node in the layer is the root
        return layer[0];
    }
}

File 38 of 38 : Endian.sol
// SPDX-License-Identifier: BUSL-1.1
pragma solidity ^0.8.0;

library Endian {
    /**
     * @notice Converts a little endian-formatted uint64 to a big endian-formatted uint64
     * @param lenum little endian-formatted uint64 input, provided as 'bytes32' type
     * @return n The big endian-formatted uint64
     * @dev Note that the input is formatted as a 'bytes32' type (i.e. 256 bits), but it is immediately truncated to a uint64 (i.e. 64 bits)
     * through a right-shift/shr operation.
     */
    function fromLittleEndianUint64(bytes32 lenum) internal pure returns (uint64 n) {
        // the number needs to be stored in little-endian encoding (ie in bytes 0-8)
        n = uint64(uint256(lenum >> 192));
        return
            (n >> 56) |
            ((0x00FF000000000000 & n) >> 40) |
            ((0x0000FF0000000000 & n) >> 24) |
            ((0x000000FF00000000 & n) >> 8) |
            ((0x00000000FF000000 & n) << 8) |
            ((0x0000000000FF0000 & n) << 24) |
            ((0x000000000000FF00 & n) << 40) |
            ((0x00000000000000FF & n) << 56);
    }
}

Settings
{
  "remappings": [
    "@openzeppelin-upgrades/=lib/eigenlayer-middleware/lib/openzeppelin-contracts-upgradeable/",
    "@openzeppelin/=lib/eigenlayer-middleware/lib/openzeppelin-contracts/",
    "@openzeppelin/contracts-upgradeable/=lib/eigenlayer-middleware/lib/eigenlayer-contracts/lib/openzeppelin-contracts-upgradeable/contracts/",
    "@openzeppelin/contracts/=lib/eigenlayer-middleware/lib/openzeppelin-contracts/contracts/",
    "risc0-ethereum/contracts/src/=lib/risc0-ethereum/contracts/src/",
    "ds-test/=lib/ds-test/src/",
    "eigenlayer-contracts/=lib/eigenlayer-middleware/lib/eigenlayer-contracts/",
    "eigenlayer-middleware/=lib/eigenlayer-middleware/src/",
    "erc4626-tests/=lib/openzeppelin-contracts/lib/erc4626-tests/",
    "forge-std/=lib/forge-std/src/",
    "openzeppelin-contracts-upgradeable/=lib/eigenlayer-middleware/lib/eigenlayer-contracts/lib/openzeppelin-contracts-upgradeable/",
    "openzeppelin-contracts/=lib/eigenlayer-middleware/lib/openzeppelin-contracts/",
    "eigenda/=lib/eigenda/",
    "eigenlayer-core/=lib/eigenlayer-middleware/lib/eigenlayer-contracts/src/"
  ],
  "optimizer": {
    "enabled": true,
    "runs": 200
  },
  "metadata": {
    "useLiteralContent": false,
    "bytecodeHash": "ipfs"
  },
  "outputSelection": {
    "*": {
      "*": [
        "evm.bytecode",
        "evm.deployedBytecode",
        "devdoc",
        "userdoc",
        "metadata",
        "abi"
      ]
    }
  },
  "evmVersion": "london",
  "viaIR": false,
  "libraries": {}
}

Contract ABI

[{"inputs":[{"internalType":"contract IRegistryCoordinator","name":"_registryCoordinator","type":"address"},{"internalType":"contract IAVSDirectory","name":"_avsDirectory","type":"address"}],"stateMutability":"nonpayable","type":"constructor"},{"inputs":[],"name":"AttestationThresholdNotMet","type":"error"},{"inputs":[],"name":"CertNotAttested","type":"error"},{"inputs":[],"name":"ChallengePeriodEnded","type":"error"},{"inputs":[],"name":"ChallengeThresholdNotMet","type":"error"},{"inputs":[],"name":"NotAggregator","type":"error"},{"anonymous":false,"inputs":[{"indexed":true,"internalType":"address","name":"oldAggregator","type":"address"},{"indexed":true,"internalType":"address","name":"newAggregator","type":"address"}],"name":"AggregatorUpdated","type":"event"},{"anonymous":false,"inputs":[{"indexed":false,"internalType":"uint32","name":"oldBlockStaleMeasure","type":"uint32"},{"indexed":false,"internalType":"uint32","name":"newBlockStaleMeasure","type":"uint32"}],"name":"BlockStaleMeasureUpdated","type":"event"},{"anonymous":false,"inputs":[{"indexed":true,"internalType":"address","name":"avs","type":"address"},{"components":[{"components":[{"components":[{"internalType":"address","name":"to","type":"address"},{"internalType":"bytes4","name":"selector","type":"bytes4"},{"internalType":"bytes","name":"inputData","type":"bytes"},{"internalType":"uint256","name":"blockNumber","type":"uint256"}],"internalType":"struct EigenCallRequest","name":"request","type":"tuple"},{"internalType":"uint32","name":"referenceBlockNumber","type":"uint32"},{"internalType":"bytes","name":"quorumNumbers","type":"bytes"}],"internalType":"struct EigenCallTask","name":"task","type":"tuple"},{"components":[{"internalType":"bytes","name":"outputData","type":"bytes"}],"internalType":"struct EigenCallResponse","name":"resp","type":"tuple"}],"indexed":false,"internalType":"struct EigenCallTaskResponse","name":"taskResponse","type":"tuple"},{"indexed":false,"internalType":"uint256","name":"challengeableUntil","type":"uint256"}],"name":"CecAttestation","type":"event"},{"anonymous":false,"inputs":[{"indexed":true,"internalType":"address","name":"to","type":"address"},{"indexed":true,"internalType":"bytes4","name":"selector","type":"bytes4"},{"indexed":false,"internalType":"bytes","name":"inputData","type":"bytes"},{"indexed":false,"internalType":"uint256","name":"blockNumber","type":"uint256"}],"name":"CecAttestationRequest","type":"event"},{"anonymous":false,"inputs":[{"indexed":true,"internalType":"address","name":"avs","type":"address"},{"components":[{"components":[{"components":[{"internalType":"address","name":"to","type":"address"},{"internalType":"bytes4","name":"selector","type":"bytes4"},{"internalType":"bytes","name":"inputData","type":"bytes"},{"internalType":"uint256","name":"blockNumber","type":"uint256"}],"internalType":"struct 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Constructor Arguments (ABI-Encoded and is the last bytes of the Contract Creation Code above)

0000000000000000000000000079380b75077a375b5ea348255863d9217cc628000000000000000000000000141d6995556135d4997b2ff72eb443be300353bc

-----Decoded View---------------
Arg [0] : _registryCoordinator (address): 0x0079380b75077A375B5EA348255863d9217cC628
Arg [1] : _avsDirectory (address): 0x141d6995556135D4997b2ff72EB443Be300353bC

-----Encoded View---------------
2 Constructor Arguments found :
Arg [0] : 0000000000000000000000000079380b75077a375b5ea348255863d9217cc628
Arg [1] : 000000000000000000000000141d6995556135d4997b2ff72eb443be300353bc


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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.