#include #include #include #include #include #include #include #include #include #include #include #include #include namespace DB { namespace ErrorCodes { extern const int UNKNOWN_FORMAT_VERSION; extern const int CANNOT_READ_ALL_DATA; extern const int BAD_DATA_PART_NAME; extern const int CORRUPTED_DATA; } MergeTreeWriteAheadLog::MergeTreeWriteAheadLog( MergeTreeData & storage_, const DiskPtr & disk_, const String & name_) : storage(storage_) , disk(disk_) , name(name_) , path(storage.getRelativeDataPath() + name_) , pool(storage.getContext()->getSchedulePool()) , log(&Poco::Logger::get(storage.getLogName() + " (WriteAheadLog)")) { init(); sync_task = pool.createTask("MergeTreeWriteAheadLog::sync", [this] { std::lock_guard lock(write_mutex); out->sync(); sync_scheduled = false; sync_cv.notify_all(); }); } MergeTreeWriteAheadLog::~MergeTreeWriteAheadLog() { std::unique_lock lock(write_mutex); if (sync_scheduled) sync_cv.wait(lock, [this] { return !sync_scheduled; }); } void MergeTreeWriteAheadLog::init() { out = disk->writeFile(path, DBMS_DEFAULT_BUFFER_SIZE, WriteMode::Append); /// Small hack: in NativeBlockOutputStream header is used only in `getHeader` method. /// To avoid complex logic of changing it during ALTERs we leave it empty. block_out = std::make_unique(*out, 0, Block{}); min_block_number = std::numeric_limits::max(); max_block_number = -1; bytes_at_last_sync = 0; } void MergeTreeWriteAheadLog::addPart(DataPartInMemoryPtr & part) { std::unique_lock lock(write_mutex); auto part_info = MergeTreePartInfo::fromPartName(part->name, storage.format_version); min_block_number = std::min(min_block_number, part_info.min_block); max_block_number = std::max(max_block_number, part_info.max_block); writeIntBinary(WAL_VERSION, *out); ActionMetadata metadata{}; metadata.part_uuid = part->uuid; metadata.write(*out); writeIntBinary(static_cast(ActionType::ADD_PART), *out); writeStringBinary(part->name, *out); block_out->write(part->block); block_out->flush(); sync(lock); auto max_wal_bytes = storage.getSettings()->write_ahead_log_max_bytes; if (out->count() > max_wal_bytes) rotate(lock); } void MergeTreeWriteAheadLog::dropPart(const String & part_name) { std::unique_lock lock(write_mutex); writeIntBinary(WAL_VERSION, *out); ActionMetadata metadata{}; metadata.write(*out); writeIntBinary(static_cast(ActionType::DROP_PART), *out); writeStringBinary(part_name, *out); out->next(); sync(lock); } void MergeTreeWriteAheadLog::rotate(const std::unique_lock &) { String new_name = String(WAL_FILE_NAME) + "_" + toString(min_block_number) + "_" + toString(max_block_number) + WAL_FILE_EXTENSION; disk->replaceFile(path, storage.getRelativeDataPath() + new_name); init(); } MergeTreeData::MutableDataPartsVector MergeTreeWriteAheadLog::restore(const StorageMetadataPtr & metadata_snapshot, ContextPtr context) { std::unique_lock lock(write_mutex); MergeTreeData::MutableDataPartsVector parts; auto in = disk->readFile(path, {}); NativeReader block_in(*in, 0); NameSet dropped_parts; while (!in->eof()) { MergeTreeData::MutableDataPartPtr part; UInt8 version; String part_name; Block block; ActionType action_type; try { ActionMetadata metadata; readIntBinary(version, *in); if (version > 0) { metadata.read(*in); } readIntBinary(action_type, *in); readStringBinary(part_name, *in); if (action_type == ActionType::DROP_PART) { dropped_parts.insert(part_name); } else if (action_type == ActionType::ADD_PART) { auto single_disk_volume = std::make_shared("volume_" + part_name, disk, 0); part = storage.createPart( part_name, MergeTreeDataPartType::IN_MEMORY, MergeTreePartInfo::fromPartName(part_name, storage.format_version), single_disk_volume, part_name); part->uuid = metadata.part_uuid; block = block_in.read(); } else { throw Exception("Unknown action type: " + toString(static_cast(action_type)), ErrorCodes::CORRUPTED_DATA); } } catch (const Exception & e) { if (e.code() == ErrorCodes::CANNOT_READ_ALL_DATA || e.code() == ErrorCodes::UNKNOWN_FORMAT_VERSION || e.code() == ErrorCodes::BAD_DATA_PART_NAME || e.code() == ErrorCodes::CORRUPTED_DATA) { LOG_WARNING(log, "WAL file '{}' is broken. {}", path, e.displayText()); /// If file is broken, do not write new parts to it. /// But if it contains any part rotate and save them. if (max_block_number == -1) disk->removeFile(path); else if (name == DEFAULT_WAL_FILE_NAME) rotate(lock); break; } throw; } if (action_type == ActionType::ADD_PART) { MergedBlockOutputStream part_out( part, metadata_snapshot, block.getNamesAndTypesList(), {}, CompressionCodecFactory::instance().get("NONE", {})); part->minmax_idx->update(block, storage.getMinMaxColumnsNames(metadata_snapshot->getPartitionKey())); part->partition.create(metadata_snapshot, block, 0, context); part->setColumns(block.getNamesAndTypesList()); if (metadata_snapshot->hasSortingKey()) metadata_snapshot->getSortingKey().expression->execute(block); part_out.write(block); for (const auto & projection : metadata_snapshot->getProjections()) { auto projection_block = projection.calculate(block, context); auto temp_part = MergeTreeDataWriter::writeInMemoryProjectionPart(storage, log, projection_block, projection, part.get()); temp_part.finalize(); if (projection_block.rows()) part->addProjectionPart(projection.name, std::move(temp_part.part)); } auto finalizer = part_out.finalizePart(part, false); part_out.finish(std::move(finalizer)); min_block_number = std::min(min_block_number, part->info.min_block); max_block_number = std::max(max_block_number, part->info.max_block); parts.push_back(std::move(part)); } } MergeTreeData::MutableDataPartsVector result; std::copy_if(parts.begin(), parts.end(), std::back_inserter(result), [&dropped_parts](const auto & part) { return dropped_parts.count(part->name) == 0; }); return result; } void MergeTreeWriteAheadLog::sync(std::unique_lock & lock) { size_t bytes_to_sync = storage.getSettings()->write_ahead_log_bytes_to_fsync; time_t time_to_sync = storage.getSettings()->write_ahead_log_interval_ms_to_fsync; size_t current_bytes = out->count(); if (bytes_to_sync && current_bytes - bytes_at_last_sync > bytes_to_sync) { sync_task->schedule(); bytes_at_last_sync = current_bytes; } else if (time_to_sync && !sync_scheduled) { sync_task->scheduleAfter(time_to_sync); sync_scheduled = true; } if (storage.getSettings()->in_memory_parts_insert_sync) sync_cv.wait(lock, [this] { return !sync_scheduled; }); } std::optional MergeTreeWriteAheadLog::tryParseMinMaxBlockNumber(const String & filename) { Int64 min_block; Int64 max_block; ReadBufferFromString in(filename); if (!checkString(WAL_FILE_NAME, in) || !checkChar('_', in) || !tryReadIntText(min_block, in) || !checkChar('_', in) || !tryReadIntText(max_block, in)) { return {}; } return std::make_pair(min_block, max_block); } String MergeTreeWriteAheadLog::ActionMetadata::toJSON() const { Poco::JSON::Object json; if (part_uuid != UUIDHelpers::Nil) json.set(JSON_KEY_PART_UUID, toString(part_uuid)); std::ostringstream oss; // STYLE_CHECK_ALLOW_STD_STRING_STREAM oss.exceptions(std::ios::failbit); json.stringify(oss); return oss.str(); } void MergeTreeWriteAheadLog::ActionMetadata::fromJSON(const String & buf) { Poco::JSON::Parser parser; auto json = parser.parse(buf).extract(); if (json->has(JSON_KEY_PART_UUID)) part_uuid = parseFromString(json->getValue(JSON_KEY_PART_UUID)); } void MergeTreeWriteAheadLog::ActionMetadata::read(ReadBuffer & meta_in) { readIntBinary(min_compatible_version, meta_in); if (min_compatible_version > WAL_VERSION) throw Exception("WAL metadata version " + toString(min_compatible_version) + " is not compatible with this ClickHouse version", ErrorCodes::UNKNOWN_FORMAT_VERSION); size_t metadata_size; readVarUInt(metadata_size, meta_in); if (metadata_size == 0) return; String buf(metadata_size, ' '); meta_in.readStrict(buf.data(), metadata_size); fromJSON(buf); } void MergeTreeWriteAheadLog::ActionMetadata::write(WriteBuffer & meta_out) const { writeIntBinary(min_compatible_version, meta_out); String ser_meta = toJSON(); writeVarUInt(static_cast(ser_meta.length()), meta_out); writeString(ser_meta, meta_out); } }