tornado-anonymity-mining/contracts/TornadoTrees.sol

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2020-12-15 16:08:37 +01:00
// SPDX-License-Identifier: MIT
pragma solidity ^0.6.0;
pragma experimental ABIEncoderV2;
import "torn-token/contracts/ENS.sol";
import "./utils/OwnableMerkleTree.sol";
import "./interfaces/ITornadoTrees.sol";
import "./interfaces/IHasher.sol";
contract TornadoTrees is ITornadoTrees, EnsResolve {
OwnableMerkleTree public immutable depositTree;
OwnableMerkleTree public immutable withdrawalTree;
IHasher public immutable hasher;
address public immutable tornadoProxy;
bytes32[] public deposits;
uint256 public lastProcessedDepositLeaf;
bytes32[] public withdrawals;
uint256 public lastProcessedWithdrawalLeaf;
event DepositData(address instance, bytes32 indexed hash, uint256 block, uint256 index);
event WithdrawalData(address instance, bytes32 indexed hash, uint256 block, uint256 index);
struct TreeLeaf {
address instance;
bytes32 hash;
uint256 block;
}
modifier onlyTornadoProxy {
require(msg.sender == tornadoProxy, "Not authorized");
_;
}
constructor(
bytes32 _tornadoProxy,
bytes32 _hasher2,
bytes32 _hasher3,
uint32 _levels
) public {
tornadoProxy = resolve(_tornadoProxy);
hasher = IHasher(resolve(_hasher3));
depositTree = new OwnableMerkleTree(_levels, IHasher(resolve(_hasher2)));
withdrawalTree = new OwnableMerkleTree(_levels, IHasher(resolve(_hasher2)));
}
function registerDeposit(address _instance, bytes32 _commitment) external override onlyTornadoProxy {
deposits.push(keccak256(abi.encode(_instance, _commitment, blockNumber())));
}
function registerWithdrawal(address _instance, bytes32 _nullifier) external override onlyTornadoProxy {
withdrawals.push(keccak256(abi.encode(_instance, _nullifier, blockNumber())));
}
function updateRoots(TreeLeaf[] calldata _deposits, TreeLeaf[] calldata _withdrawals) external {
if (_deposits.length > 0) updateDepositTree(_deposits);
if (_withdrawals.length > 0) updateWithdrawalTree(_withdrawals);
}
function updateDepositTree(TreeLeaf[] calldata _deposits) public {
bytes32[] memory leaves = new bytes32[](_deposits.length);
uint256 offset = lastProcessedDepositLeaf;
for (uint256 i = 0; i < _deposits.length; i++) {
TreeLeaf memory deposit = _deposits[i];
bytes32 leafHash = keccak256(abi.encode(deposit.instance, deposit.hash, deposit.block));
require(deposits[offset + i] == leafHash, "Incorrect deposit");
leaves[i] = hasher.poseidon([bytes32(uint256(deposit.instance)), deposit.hash, bytes32(deposit.block)]);
delete deposits[offset + i];
emit DepositData(deposit.instance, deposit.hash, deposit.block, offset + i);
}
lastProcessedDepositLeaf = offset + _deposits.length;
depositTree.bulkInsert(leaves);
}
function updateWithdrawalTree(TreeLeaf[] calldata _withdrawals) public {
bytes32[] memory leaves = new bytes32[](_withdrawals.length);
uint256 offset = lastProcessedWithdrawalLeaf;
for (uint256 i = 0; i < _withdrawals.length; i++) {
TreeLeaf memory withdrawal = _withdrawals[i];
bytes32 leafHash = keccak256(abi.encode(withdrawal.instance, withdrawal.hash, withdrawal.block));
require(withdrawals[offset + i] == leafHash, "Incorrect withdrawal");
leaves[i] = hasher.poseidon([bytes32(uint256(withdrawal.instance)), withdrawal.hash, bytes32(withdrawal.block)]);
delete withdrawals[offset + i];
emit WithdrawalData(withdrawal.instance, withdrawal.hash, withdrawal.block, offset + i);
}
lastProcessedWithdrawalLeaf = offset + _withdrawals.length;
withdrawalTree.bulkInsert(leaves);
}
function validateRoots(bytes32 _depositRoot, bytes32 _withdrawalRoot) public view {
require(depositTree.isKnownRoot(_depositRoot), "Incorrect deposit tree root");
require(withdrawalTree.isKnownRoot(_withdrawalRoot), "Incorrect withdrawal tree root");
}
function depositRoot() external view returns (bytes32) {
return depositTree.getLastRoot();
}
function withdrawalRoot() external view returns (bytes32) {
return withdrawalTree.getLastRoot();
}
function getRegisteredDeposits() external view returns (bytes32[] memory _deposits) {
uint256 count = deposits.length - lastProcessedDepositLeaf;
_deposits = new bytes32[](count);
for (uint256 i = 0; i < count; i++) {
_deposits[i] = deposits[lastProcessedDepositLeaf + i];
}
}
function getRegisteredWithdrawals() external view returns (bytes32[] memory _withdrawals) {
uint256 count = withdrawals.length - lastProcessedWithdrawalLeaf;
_withdrawals = new bytes32[](count);
for (uint256 i = 0; i < count; i++) {
_withdrawals[i] = withdrawals[lastProcessedWithdrawalLeaf + i];
}
}
function blockNumber() public view virtual returns (uint256) {
return block.number;
}
}