rln-contract/contracts/RlnBase.sol

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// SPDX-License-Identifier: MIT
pragma solidity 0.8.15;
import {PoseidonHasher} from "./PoseidonHasher.sol";
import {IVerifier} from "./IVerifier.sol";
/// The tree is full
error FullTree();
/// Invalid deposit amount
/// @param required The required deposit amount
/// @param provided The provided deposit amount
error InsufficientDeposit(uint256 required, uint256 provided);
/// Member is already registered
error DuplicateIdCommitment();
/// Failed validation on registration/slashing
error FailedValidation();
/// Invalid idCommitment
error InvalidIdCommitment(uint256 idCommitment);
/// Invalid receiver address, when the receiver is the contract itself or 0x0
error InvalidReceiverAddress(address to);
/// Member is not registered
error MemberNotRegistered(uint256 idCommitment);
/// Member has no stake
error MemberHasNoStake(uint256 idCommitment);
/// User has insufficient balance to withdraw
error InsufficientWithdrawalBalance();
/// Contract has insufficient balance to return
error InsufficientContractBalance();
/// Invalid proof
error InvalidProof();
abstract contract RlnBase {
/// @notice The deposit amount required to register as a member
uint256 public immutable MEMBERSHIP_DEPOSIT;
/// @notice The depth of the merkle tree
uint256 public immutable DEPTH;
/// @notice The size of the merkle tree, i.e 2^depth
uint256 public immutable SET_SIZE;
/// @notice The index of the next member to be registered
uint256 public idCommitmentIndex = 1;
/// @notice The amount of eth staked by each member
/// maps from idCommitment to the amount staked
mapping(uint256 => uint256) public stakedAmounts;
/// @notice The membership status of each member
/// maps from idCommitment to their index in the set
mapping(uint256 => uint256) public members;
/// @notice The balance of each user that can be withdrawn
mapping(address => uint256) public withdrawalBalance;
/// @notice The Poseidon hasher contract
PoseidonHasher public immutable poseidonHasher;
/// @notice The groth16 verifier contract
IVerifier public immutable verifier;
/// Emitted when a new member is added to the set
/// @param idCommitment The idCommitment of the member
/// @param index The index of the member in the set
event MemberRegistered(uint256 idCommitment, uint256 index);
/// Emitted when a member is removed from the set
/// @param idCommitment The idCommitment of the member
/// @param index The index of the member in the set
event MemberWithdrawn(uint256 idCommitment, uint256 index);
modifier onlyValidIdCommitment(uint256 idCommitment) {
if (!isValidCommitment(idCommitment)) revert InvalidIdCommitment(idCommitment);
_;
}
constructor(uint256 membershipDeposit, uint256 depth, address _poseidonHasher, address _verifier) {
MEMBERSHIP_DEPOSIT = membershipDeposit;
DEPTH = depth;
SET_SIZE = 1 << depth;
poseidonHasher = PoseidonHasher(_poseidonHasher);
verifier = IVerifier(_verifier);
}
/// Allows a user to register as a member
/// @param idCommitment The idCommitment of the member
function register(uint256 idCommitment) external payable virtual onlyValidIdCommitment(idCommitment) {
if (msg.value != MEMBERSHIP_DEPOSIT) {
revert InsufficientDeposit(MEMBERSHIP_DEPOSIT, msg.value);
}
_validateRegistration(idCommitment);
_register(idCommitment, msg.value);
}
/// Registers a member
/// @param idCommitment The idCommitment of the member
/// @param stake The amount of eth staked by the member
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function _register(uint256 idCommitment, uint256 stake) internal virtual {
if (members[idCommitment] != 0) revert DuplicateIdCommitment();
if (idCommitmentIndex >= SET_SIZE) revert FullTree();
members[idCommitment] = idCommitmentIndex;
stakedAmounts[idCommitment] = stake;
emit MemberRegistered(idCommitment, idCommitmentIndex);
idCommitmentIndex += 1;
}
/// @dev Inheriting contracts MUST override this function
function _validateRegistration(uint256 idCommitment) internal view virtual;
/// @dev Allows a user to slash a member
/// @param idCommitment The idCommitment of the member
function slash(uint256 idCommitment, address payable receiver, uint256[8] calldata proof)
external
virtual
onlyValidIdCommitment(idCommitment)
{
_validateSlash(idCommitment, receiver, proof);
_slash(idCommitment, receiver, proof);
}
/// @dev Slashes a member by removing them from the set, and adding their
/// stake to the receiver's available withdrawal balance
/// @param idCommitment The idCommitment of the member
/// @param receiver The address to receive the funds
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function _slash(uint256 idCommitment, address payable receiver, uint256[8] calldata proof) internal virtual {
if (receiver == address(this) || receiver == address(0)) {
revert InvalidReceiverAddress(receiver);
}
if (members[idCommitment] == 0) revert MemberNotRegistered(idCommitment);
// check if member is registered
if (stakedAmounts[idCommitment] == 0) {
revert MemberHasNoStake(idCommitment);
}
if (!_verifyProof(idCommitment, receiver, proof)) {
revert InvalidProof();
}
uint256 amountToTransfer = stakedAmounts[idCommitment];
// delete member
uint256 index = members[idCommitment];
members[idCommitment] = 0;
stakedAmounts[idCommitment] = 0;
// refund deposit
withdrawalBalance[receiver] += amountToTransfer;
emit MemberWithdrawn(idCommitment, index);
}
function _validateSlash(uint256 idCommitment, address payable receiver, uint256[8] calldata proof)
internal
view
virtual;
/// Allows a user to withdraw funds allocated to them upon slashing a member
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function withdraw() external virtual {
uint256 amount = withdrawalBalance[msg.sender];
if (amount == 0) revert InsufficientWithdrawalBalance();
if (amount > address(this).balance) {
revert InsufficientContractBalance();
}
withdrawalBalance[msg.sender] = 0;
payable(msg.sender).transfer(amount);
}
/// Hashes a value using the Poseidon hasher
/// NOTE: The variant of Poseidon we use accepts only 1 input, assume n=2, and the second input is 0
/// @param input The value to hash
function hash(uint256 input) internal view returns (uint256) {
return poseidonHasher.hash(input);
}
function isValidCommitment(uint256 idCommitment) public view returns (bool) {
return idCommitment != 0 && idCommitment < poseidonHasher.Q();
}
/// @dev Groth16 proof verification
function _verifyProof(uint256 idCommitment, address receiver, uint256[8] calldata proof)
internal
view
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virtual
returns (bool)
{
return verifier.verifyProof(
[proof[0], proof[1]],
[[proof[2], proof[3]], [proof[4], proof[5]]],
[proof[6], proof[7]],
[idCommitment, uint256(uint160(receiver))]
);
}
}