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EigenPodManager.sol
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EigenPodManager.sol
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// SPDX-License-Identifier: BUSL-1.1
pragma solidity ^0.8.12;
import "@openzeppelin/contracts/utils/Create2.sol";
import "@openzeppelin-upgrades/contracts/proxy/utils/Initializable.sol";
import "@openzeppelin-upgrades/contracts/access/OwnableUpgradeable.sol";
import "@openzeppelin-upgrades/contracts/security/ReentrancyGuardUpgradeable.sol";
import "../permissions/Pausable.sol";
import "./EigenPodPausingConstants.sol";
import "./EigenPodManagerStorage.sol";
/**
* @title The contract used for creating and managing EigenPods
* @author Layr Labs, Inc.
* @notice Terms of Service: https://docs.eigenlayer.xyz/overview/terms-of-service
* @notice The main functionalities are:
* - creating EigenPods
* - staking for new validators on EigenPods
* - keeping track of the restaked balances of all EigenPod owners
* - withdrawing eth when withdrawals are completed
*/
contract EigenPodManager is
Initializable,
OwnableUpgradeable,
Pausable,
EigenPodPausingConstants,
EigenPodManagerStorage,
ReentrancyGuardUpgradeable
{
modifier onlyEigenPod(address podOwner) {
require(address(ownerToPod[podOwner]) == msg.sender, "EigenPodManager.onlyEigenPod: not a pod");
_;
}
modifier onlyDelegationManager() {
require(
msg.sender == address(delegationManager), "EigenPodManager.onlyDelegationManager: not the DelegationManager"
);
_;
}
constructor(
IETHPOSDeposit _ethPOS,
IBeacon _eigenPodBeacon,
IStrategyManager _strategyManager,
ISlasher _slasher,
IDelegationManager _delegationManager
) EigenPodManagerStorage(_ethPOS, _eigenPodBeacon, _strategyManager, _slasher, _delegationManager) {
_disableInitializers();
}
function initialize(
address initialOwner,
IPauserRegistry _pauserRegistry,
uint256 _initPausedStatus
) external initializer {
_transferOwnership(initialOwner);
_initializePauser(_pauserRegistry, _initPausedStatus);
}
/**
* @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 onlyWhenNotPaused(PAUSED_NEW_EIGENPODS) returns (address) {
require(!hasPod(msg.sender), "EigenPodManager.createPod: Sender already has a pod");
// deploy a pod if the sender doesn't have one already
IEigenPod pod = _deployPod();
return address(pod);
}
/**
* @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 onlyWhenNotPaused(PAUSED_NEW_EIGENPODS) {
IEigenPod pod = ownerToPod[msg.sender];
if (address(pod) == address(0)) {
//deploy a pod if the sender doesn't have one already
pod = _deployPod();
}
pod.stake{value: msg.value}(pubkey, signature, depositDataRoot);
}
/**
* @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 onlyEigenPod(podOwner) nonReentrant {
require(
podOwner != address(0), "EigenPodManager.recordBeaconChainETHBalanceUpdate: podOwner cannot be zero address"
);
require(
sharesDelta % int256(GWEI_TO_WEI) == 0,
"EigenPodManager.recordBeaconChainETHBalanceUpdate: sharesDelta must be a whole Gwei amount"
);
int256 currentPodOwnerShares = podOwnerShares[podOwner];
int256 updatedPodOwnerShares = currentPodOwnerShares + sharesDelta;
podOwnerShares[podOwner] = updatedPodOwnerShares;
// inform the DelegationManager of the change in delegateable shares
int256 changeInDelegatableShares = _calculateChangeInDelegatableShares({
sharesBefore: currentPodOwnerShares,
sharesAfter: updatedPodOwnerShares
});
// skip making a call to the DelegationManager if there is no change in delegateable shares
if (changeInDelegatableShares != 0) {
if (changeInDelegatableShares < 0) {
delegationManager.decreaseDelegatedShares({
staker: podOwner,
strategy: beaconChainETHStrategy,
shares: uint256(-changeInDelegatableShares)
});
} else {
delegationManager.increaseDelegatedShares({
staker: podOwner,
strategy: beaconChainETHStrategy,
shares: uint256(changeInDelegatableShares)
});
}
}
emit PodSharesUpdated(podOwner, sharesDelta);
emit NewTotalShares(podOwner, updatedPodOwnerShares);
}
/**
* @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
* @dev The delegation manager validates that the podOwner is not address(0)
*/
function removeShares(address podOwner, uint256 shares) external onlyDelegationManager {
require(int256(shares) >= 0, "EigenPodManager.removeShares: shares cannot be negative");
require(shares % GWEI_TO_WEI == 0, "EigenPodManager.removeShares: shares must be a whole Gwei amount");
int256 updatedPodOwnerShares = podOwnerShares[podOwner] - int256(shares);
require(
updatedPodOwnerShares >= 0,
"EigenPodManager.removeShares: cannot result in pod owner having negative shares"
);
podOwnerShares[podOwner] = updatedPodOwnerShares;
emit NewTotalShares(podOwner, updatedPodOwnerShares);
}
/**
* @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 onlyDelegationManager returns (uint256) {
require(podOwner != address(0), "EigenPodManager.addShares: podOwner cannot be zero address");
require(int256(shares) >= 0, "EigenPodManager.addShares: shares cannot be negative");
require(shares % GWEI_TO_WEI == 0, "EigenPodManager.addShares: shares must be a whole Gwei amount");
int256 currentPodOwnerShares = podOwnerShares[podOwner];
int256 updatedPodOwnerShares = currentPodOwnerShares + int256(shares);
podOwnerShares[podOwner] = updatedPodOwnerShares;
emit PodSharesUpdated(podOwner, int256(shares));
emit NewTotalShares(podOwner, updatedPodOwnerShares);
return uint256(
_calculateChangeInDelegatableShares({
sharesBefore: currentPodOwnerShares,
sharesAfter: updatedPodOwnerShares
})
);
}
/**
* @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
* @dev This function assumes that `removeShares` has already been called by the delegationManager, hence why
* we do not need to update the podOwnerShares if `currentPodOwnerShares` is positive
*/
function withdrawSharesAsTokens(
address podOwner,
address destination,
uint256 shares
) external onlyDelegationManager {
require(podOwner != address(0), "EigenPodManager.withdrawSharesAsTokens: podOwner cannot be zero address");
require(destination != address(0), "EigenPodManager.withdrawSharesAsTokens: destination cannot be zero address");
require(int256(shares) >= 0, "EigenPodManager.withdrawSharesAsTokens: shares cannot be negative");
require(shares % GWEI_TO_WEI == 0, "EigenPodManager.withdrawSharesAsTokens: shares must be a whole Gwei amount");
int256 currentPodOwnerShares = podOwnerShares[podOwner];
// if there is an existing shares deficit, prioritize decreasing the deficit first
if (currentPodOwnerShares < 0) {
uint256 currentShareDeficit = uint256(-currentPodOwnerShares);
if (shares > currentShareDeficit) {
// get rid of the whole deficit if possible, and pass any remaining shares onto destination
podOwnerShares[podOwner] = 0;
shares -= currentShareDeficit;
emit PodSharesUpdated(podOwner, int256(currentShareDeficit));
emit NewTotalShares(podOwner, 0);
} else {
// otherwise get rid of as much deficit as possible, and return early, since there is nothing left over to forward on
int256 updatedPodOwnerShares = podOwnerShares[podOwner] + int256(shares);
podOwnerShares[podOwner] = updatedPodOwnerShares;
emit PodSharesUpdated(podOwner, int256(shares));
emit NewTotalShares(podOwner, updatedPodOwnerShares);
return;
}
}
// Actually withdraw to the destination
ownerToPod[podOwner].withdrawRestakedBeaconChainETH(destination, shares);
}
// INTERNAL FUNCTIONS
function _deployPod() internal returns (IEigenPod) {
++numPods;
// create the pod
IEigenPod pod = IEigenPod(
Create2.deploy(
0,
bytes32(uint256(uint160(msg.sender))),
// set the beacon address to the eigenPodBeacon and initialize it
abi.encodePacked(beaconProxyBytecode, abi.encode(eigenPodBeacon, ""))
)
);
pod.initialize(msg.sender);
// store the pod in the mapping
ownerToPod[msg.sender] = pod;
emit PodDeployed(address(pod), msg.sender);
return pod;
}
/**
* @notice Calculates the change in a pod owner's delegateable shares as a result of their beacon chain ETH shares changing
* from `sharesBefore` to `sharesAfter`. The key concept here is that negative/"deficit" shares are not delegateable.
*/
function _calculateChangeInDelegatableShares(
int256 sharesBefore,
int256 sharesAfter
) internal pure returns (int256) {
if (sharesBefore <= 0) {
if (sharesAfter <= 0) {
// if the shares started negative and stayed negative, then there cannot have been an increase in delegateable shares
return 0;
} else {
// if the shares started negative and became positive, then the increase in delegateable shares is the ending share amount
return sharesAfter;
}
} else {
if (sharesAfter <= 0) {
// if the shares started positive and became negative, then the decrease in delegateable shares is the starting share amount
return (-sharesBefore);
} else {
// if the shares started positive and stayed positive, then the change in delegateable shares
// is the difference between starting and ending amounts
return (sharesAfter - sharesBefore);
}
}
}
// VIEW FUNCTIONS
/// @notice Returns the address of the `podOwner`'s EigenPod (whether it is deployed yet or not).
function getPod(address podOwner) public view returns (IEigenPod) {
IEigenPod pod = ownerToPod[podOwner];
// if pod does not exist already, calculate what its address *will be* once it is deployed
if (address(pod) == address(0)) {
pod = IEigenPod(
Create2.computeAddress(
bytes32(uint256(uint160(podOwner))), //salt
keccak256(abi.encodePacked(beaconProxyBytecode, abi.encode(eigenPodBeacon, ""))) //bytecode
)
);
}
return pod;
}
/// @notice Returns 'true' if the `podOwner` has created an EigenPod, and 'false' otherwise.
function hasPod(address podOwner) public view returns (bool) {
return address(ownerToPod[podOwner]) != address(0);
}
}