mirror of
https://github.com/tornadocash/tornado-anonymity-mining.git
synced 2024-11-25 11:18:30 +01:00
315 lines
9.9 KiB
Solidity
315 lines
9.9 KiB
Solidity
// SPDX-License-Identifier: MIT
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pragma solidity ^0.6.0;
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pragma experimental ABIEncoderV2;
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import "./interfaces/IVerifier.sol";
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import "./interfaces/IRewardSwap.sol";
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import "./TornadoTrees.sol";
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import "@openzeppelin/contracts/token/ERC20/IERC20.sol";
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import "@openzeppelin/contracts/math/SafeMath.sol";
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import "torn-token/contracts/ENS.sol";
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contract Miner is EnsResolve {
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using SafeMath for uint256;
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IVerifier public rewardVerifier;
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IVerifier public withdrawVerifier;
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IVerifier public treeUpdateVerifier;
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IRewardSwap public immutable rewardSwap;
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address public immutable governance;
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TornadoTrees public tornadoTrees;
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mapping(bytes32 => bool) public accountNullifiers;
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mapping(bytes32 => bool) public rewardNullifiers;
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mapping(address => uint256) public rates;
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uint256 public accountCount;
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uint256 public constant ACCOUNT_ROOT_HISTORY_SIZE = 100;
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bytes32[ACCOUNT_ROOT_HISTORY_SIZE] public accountRoots;
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event NewAccount(bytes32 commitment, bytes32 nullifier, bytes encryptedAccount, uint256 index);
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event RateChanged(address instance, uint256 value);
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event VerifiersUpdated(address reward, address withdraw, address treeUpdate);
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struct TreeUpdateArgs {
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bytes32 oldRoot;
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bytes32 newRoot;
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bytes32 leaf;
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uint256 pathIndices;
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}
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struct AccountUpdate {
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bytes32 inputRoot;
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bytes32 inputNullifierHash;
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bytes32 outputRoot;
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uint256 outputPathIndices;
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bytes32 outputCommitment;
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}
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struct RewardExtData {
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address relayer;
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bytes encryptedAccount;
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}
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struct RewardArgs {
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uint256 rate;
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uint256 fee;
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address instance;
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bytes32 rewardNullifier;
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bytes32 extDataHash;
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bytes32 depositRoot;
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bytes32 withdrawalRoot;
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RewardExtData extData;
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AccountUpdate account;
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}
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struct WithdrawExtData {
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uint256 fee;
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address recipient;
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address relayer;
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bytes encryptedAccount;
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}
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struct WithdrawArgs {
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uint256 amount;
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bytes32 extDataHash;
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WithdrawExtData extData;
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AccountUpdate account;
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}
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struct Rate {
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bytes32 instance;
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uint256 value;
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}
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modifier onlyGovernance() {
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require(msg.sender == governance, "Only governance can perform this action");
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_;
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}
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constructor(
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bytes32 _rewardSwap,
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bytes32 _governance,
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bytes32 _tornadoTrees,
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bytes32[3] memory _verifiers,
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bytes32 _accountRoot,
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Rate[] memory _rates
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) public {
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rewardSwap = IRewardSwap(resolve(_rewardSwap));
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governance = resolve(_governance);
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tornadoTrees = TornadoTrees(resolve(_tornadoTrees));
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// insert empty tree root without incrementing accountCount counter
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accountRoots[0] = _accountRoot;
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_setRates(_rates);
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// prettier-ignore
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_setVerifiers([
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IVerifier(resolve(_verifiers[0])),
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IVerifier(resolve(_verifiers[1])),
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IVerifier(resolve(_verifiers[2]))
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]);
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}
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function reward(bytes memory _proof, RewardArgs memory _args) public {
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reward(_proof, _args, new bytes(0), TreeUpdateArgs(0, 0, 0, 0));
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}
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function batchReward(bytes[] calldata _rewardArgs) external {
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for (uint256 i = 0; i < _rewardArgs.length; i++) {
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(bytes memory proof, RewardArgs memory args) = abi.decode(_rewardArgs[i], (bytes, RewardArgs));
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reward(proof, args);
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}
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}
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function reward(
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bytes memory _proof,
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RewardArgs memory _args,
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bytes memory _treeUpdateProof,
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TreeUpdateArgs memory _treeUpdateArgs
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) public {
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validateAccountUpdate(_args.account, _treeUpdateProof, _treeUpdateArgs);
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tornadoTrees.validateRoots(_args.depositRoot, _args.withdrawalRoot);
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require(_args.extDataHash == keccak248(abi.encode(_args.extData)), "Incorrect external data hash");
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require(_args.fee < 2**248, "Fee value out of range");
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require(_args.rate == rates[_args.instance] && _args.rate > 0, "Invalid reward rate");
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require(!rewardNullifiers[_args.rewardNullifier], "Reward has been already spent");
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require(
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rewardVerifier.verifyProof(
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_proof,
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[
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uint256(_args.rate),
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uint256(_args.fee),
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uint256(_args.instance),
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uint256(_args.rewardNullifier),
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uint256(_args.extDataHash),
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uint256(_args.account.inputRoot),
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uint256(_args.account.inputNullifierHash),
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uint256(_args.account.outputRoot),
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uint256(_args.account.outputPathIndices),
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uint256(_args.account.outputCommitment),
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uint256(_args.depositRoot),
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uint256(_args.withdrawalRoot)
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]
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),
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"Invalid reward proof"
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);
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accountNullifiers[_args.account.inputNullifierHash] = true;
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rewardNullifiers[_args.rewardNullifier] = true;
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insertAccountRoot(_args.account.inputRoot == getLastAccountRoot() ? _args.account.outputRoot : _treeUpdateArgs.newRoot);
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if (_args.fee > 0) {
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rewardSwap.swap(_args.extData.relayer, _args.fee);
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}
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emit NewAccount(
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_args.account.outputCommitment,
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_args.account.inputNullifierHash,
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_args.extData.encryptedAccount,
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accountCount - 1
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);
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}
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function withdraw(bytes memory _proof, WithdrawArgs memory _args) public {
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withdraw(_proof, _args, new bytes(0), TreeUpdateArgs(0, 0, 0, 0));
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}
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function withdraw(
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bytes memory _proof,
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WithdrawArgs memory _args,
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bytes memory _treeUpdateProof,
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TreeUpdateArgs memory _treeUpdateArgs
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) public {
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validateAccountUpdate(_args.account, _treeUpdateProof, _treeUpdateArgs);
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require(_args.extDataHash == keccak248(abi.encode(_args.extData)), "Incorrect external data hash");
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require(_args.amount < 2**248, "Amount value out of range");
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require(
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withdrawVerifier.verifyProof(
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_proof,
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[
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uint256(_args.amount),
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uint256(_args.extDataHash),
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uint256(_args.account.inputRoot),
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uint256(_args.account.inputNullifierHash),
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uint256(_args.account.outputRoot),
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uint256(_args.account.outputPathIndices),
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uint256(_args.account.outputCommitment)
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]
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),
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"Invalid withdrawal proof"
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);
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insertAccountRoot(_args.account.inputRoot == getLastAccountRoot() ? _args.account.outputRoot : _treeUpdateArgs.newRoot);
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accountNullifiers[_args.account.inputNullifierHash] = true;
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// allow submitting noop withdrawals (amount == 0)
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uint256 amount = _args.amount.sub(_args.extData.fee, "Amount should be greater than fee");
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if (amount > 0) {
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rewardSwap.swap(_args.extData.recipient, amount);
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}
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// Note. The relayer swap rate always will be worse than estimated
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if (_args.extData.fee > 0) {
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rewardSwap.swap(_args.extData.relayer, _args.extData.fee);
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}
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emit NewAccount(
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_args.account.outputCommitment,
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_args.account.inputNullifierHash,
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_args.extData.encryptedAccount,
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accountCount - 1
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);
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}
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function setRates(Rate[] memory _rates) external onlyGovernance {
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_setRates(_rates);
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}
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function setVerifiers(IVerifier[3] calldata _verifiers) external onlyGovernance {
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_setVerifiers(_verifiers);
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}
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function setTornadoTreesContract(TornadoTrees _tornadoTrees) external onlyGovernance {
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tornadoTrees = _tornadoTrees;
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}
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function setPoolWeight(uint256 _newWeight) external onlyGovernance {
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rewardSwap.setPoolWeight(_newWeight);
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}
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// ------VIEW-------
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/**
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@dev Whether the root is present in the root history
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*/
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function isKnownAccountRoot(bytes32 _root, uint256 _index) public view returns (bool) {
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return _root != 0 && accountRoots[_index % ACCOUNT_ROOT_HISTORY_SIZE] == _root;
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}
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/**
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@dev Returns the last root
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*/
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function getLastAccountRoot() public view returns (bytes32) {
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return accountRoots[accountCount % ACCOUNT_ROOT_HISTORY_SIZE];
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}
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// -----INTERNAL-------
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function keccak248(bytes memory _data) internal pure returns (bytes32) {
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return keccak256(_data) & 0x00ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff;
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}
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function validateTreeUpdate(
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bytes memory _proof,
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TreeUpdateArgs memory _args,
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bytes32 _commitment
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) internal view {
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require(_proof.length > 0, "Outdated account merkle root");
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require(_args.oldRoot == getLastAccountRoot(), "Outdated tree update merkle root");
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require(_args.leaf == _commitment, "Incorrect commitment inserted");
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require(_args.pathIndices == accountCount, "Incorrect account insert index");
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require(
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treeUpdateVerifier.verifyProof(
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_proof,
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[uint256(_args.oldRoot), uint256(_args.newRoot), uint256(_args.leaf), uint256(_args.pathIndices)]
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),
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"Invalid tree update proof"
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);
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}
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function validateAccountUpdate(
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AccountUpdate memory _account,
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bytes memory _treeUpdateProof,
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TreeUpdateArgs memory _treeUpdateArgs
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) internal view {
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require(!accountNullifiers[_account.inputNullifierHash], "Outdated account state");
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if (_account.inputRoot != getLastAccountRoot()) {
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// _account.outputPathIndices (= last tree leaf index) is always equal to root index in the history mapping
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// because we always generate a new root for each new leaf
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require(isKnownAccountRoot(_account.inputRoot, _account.outputPathIndices), "Invalid account root");
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validateTreeUpdate(_treeUpdateProof, _treeUpdateArgs, _account.outputCommitment);
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} else {
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require(_account.outputPathIndices == accountCount, "Incorrect account insert index");
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}
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}
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function insertAccountRoot(bytes32 _root) internal {
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accountRoots[++accountCount % ACCOUNT_ROOT_HISTORY_SIZE] = _root;
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}
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function _setRates(Rate[] memory _rates) internal {
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for (uint256 i = 0; i < _rates.length; i++) {
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require(_rates[i].value < 2**128, "Incorrect rate");
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address instance = resolve(_rates[i].instance);
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rates[instance] = _rates[i].value;
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emit RateChanged(instance, _rates[i].value);
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}
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}
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function _setVerifiers(IVerifier[3] memory _verifiers) internal {
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rewardVerifier = _verifiers[0];
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withdrawVerifier = _verifiers[1];
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treeUpdateVerifier = _verifiers[2];
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emit VerifiersUpdated(address(_verifiers[0]), address(_verifiers[1]), address(_verifiers[2]));
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}
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}
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