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hyperlane-monorepo/solidity/core/contracts/Outbox.sol

194 lines
6.4 KiB

// SPDX-License-Identifier: MIT OR Apache-2.0
pragma solidity >=0.6.11;
// ============ Internal Imports ============
import {Version0} from "./Version0.sol";
import {Common} from "./Common.sol";
import {MerkleLib} from "../libs/Merkle.sol";
import {Message} from "../libs/Message.sol";
import {MerkleTreeManager} from "./Merkle.sol";
/**
* @title Outbox
* @author Celo Labs Inc.
* @notice Accepts messages to be dispatched to remote chains,
* constructs a Merkle tree of the messages,
* and accepts signatures from a bonded Validator
* which notarize the Merkle tree roots.
* Accepts submissions of fraudulent signatures
* by the Validator and slashes the Validator in this case.
*/
contract Outbox is Version0, MerkleTreeManager, Common {
// ============ Libraries ============
using MerkleLib for MerkleLib.Tree;
// ============ Constants ============
// Maximum bytes per message = 2 KiB
// (somewhat arbitrarily set to begin)
uint256 public constant MAX_MESSAGE_BODY_BYTES = 2 * 2**10;
// ============ Enums ============
// States:
// 0 - UnInitialized - before initialize function is called
// note: the contract is initialized at deploy time, so it should never be in this state
// 1 - Active - as long as the contract has not become fraudulent
// 2 - Failed - after a valid fraud proof has been submitted;
// contract will no longer accept updates or new messages
enum States {
UnInitialized,
Active,
Failed
}
// ============ Public Storage Variables ============
// Current state of contract
States public state;
// domain => next available nonce for the domain
mapping(uint32 => uint32) public nonces;
// ============ Upgrade Gap ============
// gap for upgrade safety
uint256[48] private __GAP;
// ============ Events ============
/**
* @notice Emitted when a new message is dispatched via Abacus
* @param messageHash Hash of message; the leaf inserted to the Merkle tree for the message
* @param leafIndex Index of message's leaf in merkle tree
* @param destinationAndNonce Destination and destination-specific
* nonce combined in single field ((destination << 32) & nonce)
* @param checkpointedRoot the latest checkpointed root
* @param message Raw bytes of message
*/
event Dispatch(
bytes32 indexed messageHash,
uint256 indexed leafIndex,
uint64 indexed destinationAndNonce,
// Remove checkpointedRoot.
bytes32 checkpointedRoot,
bytes message
);
event Fail();
// ============ Constructor ============
constructor(uint32 _localDomain) Common(_localDomain) {} // solhint-disable-line no-empty-blocks
// ============ Initializer ============
function initialize(address _validatorManager) public initializer {
__Common_initialize(_validatorManager);
state = States.Active;
}
// ============ Modifiers ============
/**
* @notice Ensures that contract state != FAILED when the function is called
*/
modifier notFailed() {
require(state != States.Failed, "failed state");
_;
}
/**
* @notice Ensures that function is called by the ValidatorManager contract
*/
modifier onlyValidatorManager() {
require(msg.sender == address(validatorManager), "!validatorManager");
_;
}
// ============ External Functions ============
/**
* @notice Dispatch the message it to the destination domain & recipient
* @dev Format the message, insert its hash into Merkle tree,
* and emit `Dispatch` event with message information.
* @param _destinationDomain Domain of destination chain
* @param _recipientAddress Address of recipient on destination chain as bytes32
* @param _messageBody Raw bytes content of message
* @return The leaf index of the dispatched message's hash in the Merkle tree.
*/
function dispatch(
uint32 _destinationDomain,
bytes32 _recipientAddress,
bytes memory _messageBody
) external notFailed returns (uint256) {
require(_messageBody.length <= MAX_MESSAGE_BODY_BYTES, "msg too long");
// get the next nonce for the destination domain, then increment it
uint32 _nonce = nonces[_destinationDomain];
nonces[_destinationDomain] = _nonce + 1;
// format the message into packed bytes
bytes memory _message = Message.formatMessage(
localDomain,
bytes32(uint256(uint160(msg.sender))),
_nonce,
_destinationDomain,
_recipientAddress,
_messageBody
);
// The leaf has not been inserted yet at this point
uint256 _leafIndex = count();
// insert the hashed message into the Merkle tree
bytes32 _messageHash = keccak256(_message);
tree.insert(_messageHash);
// Emit Dispatch event with message information
emit Dispatch(
_messageHash,
_leafIndex,
_destinationAndNonce(_destinationDomain, _nonce),
checkpointedRoot,
_message
);
return _leafIndex;
}
/**
* @notice Checkpoints the latest root and index.
* Validators are expected to sign this checkpoint so that it can be
* relayed to the Inbox contracts.
* @dev emits Checkpoint event
*/
function checkpoint() external notFailed {
uint256 count = count();
require(count > 0, "!count");
bytes32 root = root();
_checkpoint(root, count);
}
/**
* @notice Set contract state to FAILED.
* @dev Called by the ValidatorManager when fraud is proven.
*/
function fail() external onlyValidatorManager {
// set contract to FAILED
state = States.Failed;
emit Fail();
}
// ============ Internal Functions ============
/**
* @notice Internal utility function that combines
* `_destination` and `_nonce`.
* @dev Both destination and nonce should be less than 2^32 - 1
* @param _destination Domain of destination chain
* @param _nonce Current nonce for given destination chain
* @return Returns (`_destination` << 32) & `_nonce`
*/
function _destinationAndNonce(uint32 _destination, uint32 _nonce)
internal
pure
returns (uint64)
{
return (uint64(_destination) << 32) | _nonce;
}
}