pragma solidity ^0.5.8; library MiMC { function MiMCSponge(uint256 in_xL, uint256 in_xR, uint256 in_k) public pure returns (uint256 xL, uint256 xR); } contract MerkleTreeWithHistory { uint8 levels; uint8 constant ROOT_HISTORY_SIZE = 100; uint256[] private _roots; uint256 public current_root = 0; uint256[] private _filled_subtrees; uint256[] private _zeros; uint32 public next_index = 0; event LeafAdded(uint256 leaf, uint32 leaf_index); constructor(uint8 tree_levels, uint256 zero_value) public { levels = tree_levels; _zeros.push(zero_value); _filled_subtrees.push(_zeros[0]); for (uint8 i = 1; i < levels; i++) { _zeros.push(hashLeftRight(_zeros[i-1], _zeros[i-1])); _filled_subtrees.push(_zeros[i]); } _roots = new uint256[](ROOT_HISTORY_SIZE); _roots[0] = hashLeftRight(_zeros[levels - 1], _zeros[levels - 1]); } function hashLeftRight(uint256 left, uint256 right) public pure returns (uint256 mimc_hash) { uint256 k = 21888242871839275222246405745257275088548364400416034343698204186575808495617; uint256 R = 0; uint256 C = 0; R = addmod(R, left, k); (R, C) = MiMC.MiMCSponge(R, C, 0); R = addmod(R, right, k); (R, C) = MiMC.MiMCSponge(R, C, 0); mimc_hash = R; } function _insert(uint256 leaf) internal { uint32 leaf_index = next_index; uint32 current_index = next_index; next_index += 1; uint256 current_level_hash = leaf; uint256 left; uint256 right; for (uint8 i = 0; i < levels; i++) { if (current_index % 2 == 0) { left = current_level_hash; right = _zeros[i]; _filled_subtrees[i] = current_level_hash; } else { left = _filled_subtrees[i]; right = current_level_hash; } current_level_hash = hashLeftRight(left, right); current_index /= 2; } current_root = (current_root + 1) % ROOT_HISTORY_SIZE; _roots[current_root] = current_level_hash; emit LeafAdded(leaf, leaf_index); } function isKnownRoot(uint root) public view returns(bool) { if (root == 0) { return false; } // search most recent first uint256 i; for(i = current_root; i < 2**256 - 1; i--) { if (root == _roots[i]) { return true; } } // process the rest of roots for(i = ROOT_HISTORY_SIZE - 1; i > current_root; i--) { if (root == _roots[i]) { return true; } } return false; // or we can do that in other way // uint256 i = _current_root; // do { // if (root == _roots[i]) { // return true; // } // if (i == 0) { // i = ROOT_HISTORY_SIZE; // } // i--; // } while (i != _current_root); } function getLastRoot() public view returns(uint256) { return _roots[current_root]; } function roots() public view returns(uint256[] memory) { return _roots; } function filled_subtrees() public view returns(uint256[] memory) { return _filled_subtrees; } function zeros() public view returns(uint256[] memory) { return _zeros; } }