tornado-core/contracts/MerkleTreeWithHistory.sol
2019-11-05 12:22:25 +03:00

124 lines
3.9 KiB
Solidity

// https://tornado.cash
/*
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*/
pragma solidity ^0.5.8;
library Hasher {
function MiMCSponge(uint256 in_xL, uint256 in_xR, uint256 in_k) public pure returns (uint256 xL, uint256 xR);
}
contract MerkleTreeWithHistory {
uint256 public constant FIELD_SIZE = 21888242871839275222246405745257275088548364400416034343698204186575808495617;
uint256 public constant ZERO_VALUE = 5702960885942360421128284892092891246826997279710054143430547229469817701242; // = MiMC("tornado")
uint256 public levels;
// the following variables are made public for easier testing and debugging and
// are not supposed to be accessed in regular code
uint256 public constant ROOT_HISTORY_SIZE = 100;
uint256[ROOT_HISTORY_SIZE] public roots;
uint256 public currentRootIndex = 0;
uint32 public nextIndex = 0;
uint256[] public filledSubtrees;
uint256[] public zeros;
constructor(uint256 _treeLevels) public {
require(_treeLevels > 0, "_treeLevels should be greater than zero");
levels = _treeLevels;
uint256 currentZero = ZERO_VALUE;
zeros.push(currentZero);
filledSubtrees.push(currentZero);
for (uint8 i = 1; i < levels; i++) {
currentZero = hashLeftRight(currentZero, currentZero);
zeros.push(currentZero);
filledSubtrees.push(currentZero);
}
roots[0] = hashLeftRight(currentZero, currentZero);
}
/**
@dev Hash 2 tree leaves, returns MiMC(_left, _right)
*/
function hashLeftRight(uint256 _left, uint256 _right) public pure returns (uint256) {
require(_left < FIELD_SIZE, "_left should be inside the field");
require(_right < FIELD_SIZE, "_right should be inside the field");
uint256 R = _left;
uint256 C = 0;
(R, C) = Hasher.MiMCSponge(R, C, 0);
R = addmod(R, _right, FIELD_SIZE);
(R, C) = Hasher.MiMCSponge(R, C, 0);
return R;
}
function _insert(uint256 _leaf) internal returns(uint256 index) {
uint32 currentIndex = nextIndex;
require(currentIndex != 2**levels, "Merkle tree is full. No more leafs can be added");
nextIndex += 1;
uint256 currentLevelHash = _leaf;
uint256 left;
uint256 right;
for (uint256 i = 0; i < levels; i++) {
if (currentIndex % 2 == 0) {
left = currentLevelHash;
right = zeros[i];
filledSubtrees[i] = currentLevelHash;
} else {
left = filledSubtrees[i];
right = currentLevelHash;
}
currentLevelHash = hashLeftRight(left, right);
currentIndex /= 2;
}
currentRootIndex = (currentRootIndex + 1) % ROOT_HISTORY_SIZE;
roots[currentRootIndex] = currentLevelHash;
return nextIndex - 1;
}
/**
@dev Whether the root is present in the root history
*/
function isKnownRoot(uint256 _root) public view returns(bool) {
if (_root == 0) {
return false;
}
// search most recent first
uint256 i;
for(i = currentRootIndex; i < 2**256 - 1; i--) {
if (_root == roots[i]) {
return true;
}
}
// process the rest of roots
for(i = ROOT_HISTORY_SIZE - 1; i > currentRootIndex; i--) {
if (_root == roots[i]) {
return true;
}
}
return false;
}
/**
@dev Returns the last root
*/
function getLastRoot() public view returns(uint256) {
return roots[currentRootIndex];
}
}