// Copyright (c) 2014-2016, The Monero Project // // All rights reserved. // // Redistribution and use in source and binary forms, with or without modification, are // permitted provided that the following conditions are met: // // 1. Redistributions of source code must retain the above copyright notice, this list of // conditions and the following disclaimer. // // 2. Redistributions in binary form must reproduce the above copyright notice, this list // of conditions and the following disclaimer in the documentation and/or other // materials provided with the distribution. // // 3. Neither the name of the copyright holder nor the names of its contributors may be // used to endorse or promote products derived from this software without specific // prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY // EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF // MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL // THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, // PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS // INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, // STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF // THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. #include #include #include "cryptonote_core/cryptonote_basic.h" #include "blockchain_db/blockchain_db.h" #include "hardfork.h" using namespace cryptonote; static uint8_t get_block_vote(const cryptonote::block &b) { // Pre-hardfork blocks have a minor version hardcoded to 0. // For the purposes of voting, we consider 0 to refer to // version number 1, which is what all blocks from the genesis // block are. It makes things simpler. if (b.minor_version == 0) return 1; return b.minor_version; } static uint8_t get_block_version(const cryptonote::block &b) { return b.major_version; } HardFork::HardFork(cryptonote::BlockchainDB &db, uint8_t original_version, uint64_t original_version_till_height, time_t forked_time, time_t update_time, uint64_t window_size, uint8_t default_threshold_percent): db(db), original_version(original_version), original_version_till_height(original_version_till_height), forked_time(forked_time), update_time(update_time), window_size(window_size), default_threshold_percent(default_threshold_percent) { if (window_size == 0) throw "window_size needs to be strictly positive"; if (default_threshold_percent > 100) throw "default_threshold_percent needs to be between 0 and 100"; } bool HardFork::add_fork(uint8_t version, uint64_t height, uint8_t threshold, time_t time) { CRITICAL_REGION_LOCAL(lock); // add in order if (version == 0) return false; if (!heights.empty()) { if (version <= heights.back().version) return false; if (height <= heights.back().height) return false; if (time <= heights.back().time) return false; } if (threshold > 100) return false; heights.push_back(Params(version, height, threshold, time)); return true; } bool HardFork::add_fork(uint8_t version, uint64_t height, time_t time) { return add_fork(version, height, default_threshold_percent, time); } uint8_t HardFork::get_effective_version(uint8_t voting_version) const { if (!heights.empty()) { uint8_t max_version = heights.back().version; if (voting_version > max_version) voting_version = max_version; } return voting_version; } bool HardFork::do_check(uint8_t block_version, uint8_t voting_version) const { return block_version == heights[current_fork_index].version && voting_version >= heights[current_fork_index].version; } bool HardFork::check(const cryptonote::block &block) const { CRITICAL_REGION_LOCAL(lock); return do_check(::get_block_version(block), ::get_block_vote(block)); } bool HardFork::add(uint8_t block_version, uint8_t voting_version, uint64_t height) { CRITICAL_REGION_LOCAL(lock); if (!do_check(block_version, voting_version)) return false; db.set_hard_fork_version(height, heights[current_fork_index].version); voting_version = get_effective_version(voting_version); while (versions.size() >= window_size) { const uint8_t old_version = versions.front(); assert(last_versions[old_version] >= 1); last_versions[old_version]--; versions.pop_front(); } last_versions[voting_version]++; versions.push_back(voting_version); uint8_t voted = get_voted_fork_index(height + 1); if (voted > current_fork_index) { for (int v = heights[current_fork_index].version + 1; v <= heights[voted].version; ++v) { // we reached the vote threshold with this block, next one will be forked db.set_hard_fork_starting_height(v, height + 1); } current_fork_index = voted; } return true; } bool HardFork::add(const cryptonote::block &block, uint64_t height) { return add(::get_block_version(block), ::get_block_vote(block), height); } void HardFork::init() { CRITICAL_REGION_LOCAL(lock); // add a placeholder for the default version, to avoid special cases if (heights.empty()) heights.push_back(Params(original_version, 0, 0, 0)); versions.clear(); for (size_t n = 0; n < 256; ++n) last_versions[n] = 0; current_fork_index = 0; // restore state from DB uint64_t height = db.height(); if (height > window_size) height -= window_size; else height = 1; bool populate = db.get_hard_fork_starting_height(original_version) == std::numeric_limits::max(); if (populate) { LOG_PRINT_L0("The DB has no hard fork info, reparsing from start"); height = 1; } LOG_PRINT_L1("reorganizing from " << height); if (populate) { reorganize_from_chain_height(height); // reorg will not touch the genesis block, use this as a flag for populating done db.set_hard_fork_version(0, original_version); db.set_hard_fork_starting_height(original_version, 0); } else { rescan_from_chain_height(height); } LOG_PRINT_L1("reorganization done"); } uint8_t HardFork::get_block_version(uint64_t height) const { if (height <= original_version_till_height) return original_version; const cryptonote::block &block = db.get_block_from_height(height); return ::get_block_version(block); } bool HardFork::reorganize_from_block_height(uint64_t height) { CRITICAL_REGION_LOCAL(lock); if (height >= db.height()) return false; db.set_batch_transactions(true); db.batch_start(); versions.clear(); for (size_t n = 0; n < 256; ++n) last_versions[n] = 0; const uint64_t rescan_height = height >= (window_size - 1) ? height - (window_size -1) : 0; const uint8_t start_version = height == 0 ? original_version : db.get_hard_fork_version(height); while (current_fork_index > 0 && heights[current_fork_index].version > start_version) { db.set_hard_fork_starting_height(heights[current_fork_index].version, std::numeric_limits::max()); --current_fork_index; } for (uint64_t h = rescan_height; h <= height; ++h) { cryptonote::block b = db.get_block_from_height(h); const uint8_t v = get_effective_version(get_block_vote(b)); last_versions[v]++; versions.push_back(v); } uint8_t voted = get_voted_fork_index(height + 1); if (voted > current_fork_index) { for (int v = heights[current_fork_index].version + 1; v <= heights[voted].version; ++v) { // we reached the vote threshold with this block, next one will be forked db.set_hard_fork_starting_height(v, height + 1); } current_fork_index = voted; } const uint64_t bc_height = db.height(); for (uint64_t h = height + 1; h < bc_height; ++h) { add(db.get_block_from_height(h), h); } db.batch_stop(); return true; } bool HardFork::reorganize_from_chain_height(uint64_t height) { if (height == 0) return false; return reorganize_from_block_height(height - 1); } bool HardFork::rescan_from_block_height(uint64_t height) { CRITICAL_REGION_LOCAL(lock); if (height >= db.height()) return false; versions.clear(); for (size_t n = 0; n < 256; ++n) last_versions[n] = 0; const uint64_t rescan_height = height >= (window_size - 1) ? height - (window_size -1) : 0; for (uint64_t h = rescan_height; h <= height; ++h) { cryptonote::block b = db.get_block_from_height(h); const uint8_t v = get_effective_version(get_block_vote(b)); last_versions[v]++; versions.push_back(v); } uint8_t lastv = db.get_hard_fork_version(db.height() - 1); current_fork_index = 0; while (current_fork_index + 1 < heights.size() && heights[current_fork_index].version != lastv) ++current_fork_index; return true; } bool HardFork::rescan_from_chain_height(uint64_t height) { if (height == 0) return false; return rescan_from_block_height(height - 1); } int HardFork::get_voted_fork_index(uint64_t height) const { CRITICAL_REGION_LOCAL(lock); uint32_t accumulated_votes = 0; for (unsigned int n = heights.size() - 1; n > current_fork_index; --n) { uint8_t v = heights[n].version; accumulated_votes += last_versions[v]; uint32_t threshold = (window_size * heights[n].threshold + 99) / 100; if (height >= heights[n].height && accumulated_votes >= threshold) { return n; } } return current_fork_index; } HardFork::State HardFork::get_state(time_t t) const { CRITICAL_REGION_LOCAL(lock); // no hard forks setup yet if (heights.size() <= 1) return Ready; time_t t_last_fork = heights.back().time; if (t >= t_last_fork + forked_time) return LikelyForked; if (t >= t_last_fork + update_time) return UpdateNeeded; return Ready; } HardFork::State HardFork::get_state() const { return get_state(time(NULL)); } uint8_t HardFork::get(uint64_t height) const { CRITICAL_REGION_LOCAL(lock); if (height > db.height()) { assert(false); return 255; } if (height == db.height()) { return get_current_version(); } return db.get_hard_fork_version(height); } uint64_t HardFork::get_start_height(uint8_t version) const { CRITICAL_REGION_LOCAL(lock); return db.get_hard_fork_starting_height(version); } uint8_t HardFork::get_current_version() const { CRITICAL_REGION_LOCAL(lock); return heights[current_fork_index].version; } uint8_t HardFork::get_ideal_version() const { CRITICAL_REGION_LOCAL(lock); return heights.back().version; } uint8_t HardFork::get_ideal_version(uint64_t height) const { CRITICAL_REGION_LOCAL(lock); for (unsigned int n = heights.size() - 1; n > 0; --n) { if (height >= heights[n].height) { return heights[n].version; } } return original_version; } uint64_t HardFork::get_earliest_ideal_height_for_version(uint8_t version) const { for (unsigned int n = heights.size() - 1; n > 0; --n) { if (heights[n].version <= version) return heights[n].height; } return 0; } bool HardFork::get_voting_info(uint8_t version, uint32_t &window, uint32_t &votes, uint32_t &threshold, uint64_t &earliest_height, uint8_t &voting) const { CRITICAL_REGION_LOCAL(lock); const uint8_t current_version = heights[current_fork_index].version; const bool enabled = current_version >= version; window = versions.size(); votes = 0; for (size_t n = version; n < 256; ++n) votes += last_versions[n]; threshold = (window * heights[current_fork_index].threshold + 99) / 100; //assert((votes >= threshold) == enabled); earliest_height = get_earliest_ideal_height_for_version(version); voting = heights.back().version; return enabled; }