// SPDX-License-Identifier: MIT pragma solidity 0.8.15; import {IPoseidonHasher} from "./PoseidonHasher.sol"; contract RLN { uint256 public immutable MEMBERSHIP_DEPOSIT; uint256 public immutable DEPTH; uint256 public immutable SET_SIZE; uint256 public idCommitmentIndex; mapping(uint256 => uint256) public stakedAmounts; mapping(uint256 => bool) public members; IPoseidonHasher public poseidonHasher; event MemberRegistered(uint256 idCommitment, uint256 index); event MemberWithdrawn(uint256 idCommitment); constructor( uint256 membershipDeposit, uint256 depth, address _poseidonHasher ) { MEMBERSHIP_DEPOSIT = membershipDeposit; DEPTH = depth; SET_SIZE = 1 << depth; poseidonHasher = IPoseidonHasher(_poseidonHasher); } function register(uint256 idCommitment) external payable { require( msg.value == MEMBERSHIP_DEPOSIT, "RLN, register: membership deposit is not satisfied" ); _register(idCommitment, msg.value); } function registerBatch(uint256[] calldata idCommitments) external payable { uint256 idCommitmentlen = idCommitments.length; require( idCommitmentIndex + idCommitmentlen <= SET_SIZE, "RLN, registerBatch: set is full" ); require( msg.value == MEMBERSHIP_DEPOSIT * idCommitmentlen, "RLN, registerBatch: membership deposit is not satisfied" ); for (uint256 i = 0; i < idCommitmentlen; i++) { _register(idCommitments[i], msg.value / idCommitmentlen); } } function _register(uint256 idCommitment, uint256 stake) internal { require( !members[idCommitment], "RLN, _register: member already registered" ); require(idCommitmentIndex < SET_SIZE, "RLN, register: set is full"); if (stake != 0) { members[idCommitment] = true; stakedAmounts[idCommitment] = stake; } else { members[idCommitment] = true; stakedAmounts[idCommitment] = 0; } emit MemberRegistered(idCommitment, idCommitmentIndex); idCommitmentIndex += 1; } function withdrawBatch( uint256[] calldata secrets, address payable[] calldata receivers ) external { uint256 batchSize = secrets.length; require(batchSize != 0, "RLN, withdrawBatch: batch size zero"); require( batchSize == secrets.length, "RLN, withdrawBatch: batch size mismatch secrets" ); require( batchSize == receivers.length, "RLN, withdrawBatch: batch size mismatch receivers" ); for (uint256 i = 0; i < batchSize; i++) { _withdraw(secrets[i], receivers[i]); } } function withdraw(uint256 secret, address payable receiver) external { _withdraw(secret, receiver); } function withdraw(uint256 secret) external { _withdraw(secret); } function _withdraw(uint256 secret, address payable receiver) internal { // derive idCommitment uint256 idCommitment = hash(secret); // check if member is registered require(members[idCommitment], "RLN, _withdraw: member not registered"); // check if member has stake require( stakedAmounts[idCommitment] != 0, "RLN, _withdraw: member has no stake" ); require( receiver != address(0), "RLN, _withdraw: empty receiver address" ); // delete member members[idCommitment] = false; stakedAmounts[idCommitment] = 0; // refund deposit (bool sent, ) = receiver.call{value: stakedAmounts[idCommitment]}(""); require(sent, "transfer failed"); emit MemberWithdrawn(idCommitment); } function _withdraw(uint256 secret) internal { // derive idCommitment uint256 idCommitment = hash(secret); // check if member is registered require(members[idCommitment], "RLN, _withdraw: member not registered"); require(stakedAmounts[idCommitment] == 0, "RLN, _withdraw: staked"); // delete member members[idCommitment] = false; emit MemberWithdrawn(idCommitment); } function hash(uint256 input) internal view returns (uint256) { return poseidonHasher.hash(input); } }