#include #include #include #include #include #include namespace DB { StorageReplicatedMergeTree::StorageReplicatedMergeTree( const String & zookeeper_path_, const String & replica_name_, bool attach, const String & path_, const String & name_, NamesAndTypesListPtr columns_, Context & context_, ASTPtr & primary_expr_ast_, const String & date_column_name_, const ASTPtr & sampling_expression_, size_t index_granularity_, MergeTreeData::Mode mode_, const String & sign_column_, const MergeTreeSettings & settings_) : context(context_), zookeeper(context.getZooKeeper()), path(path_), name(name_), full_path(path + escapeForFileName(name) + '/'), zookeeper_path(zookeeper_path_), replica_name(replica_name_), data( full_path, columns_, context_, primary_expr_ast_, date_column_name_, sampling_expression_, index_granularity_,mode_, sign_column_, settings_), reader(data), writer(data), log(&Logger::get("StorageReplicatedMergeTree")), shutdown_called(false) { if (!zookeeper_path.empty() && *zookeeper_path.rbegin() == '/') zookeeper_path.erase(zookeeper_path.end() - 1); replica_path = zookeeper_path + "/replicas/" + replica_name; if (!attach) { if (!zookeeper.exists(zookeeper_path)) createTable(); if (!isTableEmpty()) throw Exception("Can't add new replica to non-empty table", ErrorCodes::ADDING_REPLICA_TO_NON_EMPTY_TABLE); checkTableStructure(); createReplica(); } else { checkTableStructure(); checkParts(); } activateReplica(); } StoragePtr StorageReplicatedMergeTree::create( const String & zookeeper_path_, const String & replica_name_, bool attach, const String & path_, const String & name_, NamesAndTypesListPtr columns_, Context & context_, ASTPtr & primary_expr_ast_, const String & date_column_name_, const ASTPtr & sampling_expression_, size_t index_granularity_, MergeTreeData::Mode mode_, const String & sign_column_, const MergeTreeSettings & settings_) { StorageReplicatedMergeTree * res = new StorageReplicatedMergeTree(zookeeper_path_, replica_name_, attach, path_, name_, columns_, context_, primary_expr_ast_, date_column_name_, sampling_expression_, index_granularity_, mode_, sign_column_, settings_); StoragePtr res_ptr = res->thisPtr(); String endpoint_name = "ReplicatedMergeTree:" + res->replica_path; InterserverIOEndpointPtr endpoint = new ReplicatedMergeTreePartsServer(res->data, res_ptr); res->endpoint_holder = new InterserverIOEndpointHolder(endpoint_name, endpoint, res->context.getInterserverIOHandler()); return res_ptr; } static String formattedAST(const ASTPtr & ast) { if (!ast) return ""; std::stringstream ss; formatAST(*ast, ss, 0, false, true); return ss.str(); } void StorageReplicatedMergeTree::createTable() { zookeeper.create(zookeeper_path, "", zkutil::CreateMode::Persistent); /// Запишем метаданные таблицы, чтобы реплики могли сверять с ними свою локальную структуру таблицы. std::stringstream metadata; metadata << "metadata format version: 1" << std::endl; metadata << "date column: " << data.date_column_name << std::endl; metadata << "sampling expression: " << formattedAST(data.sampling_expression) << std::endl; metadata << "index granularity: " << data.index_granularity << std::endl; metadata << "mode: " << static_cast(data.mode) << std::endl; metadata << "sign column: " << data.sign_column << std::endl; metadata << "primary key: " << formattedAST(data.primary_expr_ast) << std::endl; metadata << "columns:" << std::endl; WriteBufferFromOStream buf(metadata); for (auto & it : data.getColumnsList()) { writeBackQuotedString(it.first, buf); writeChar(' ', buf); writeString(it.second->getName(), buf); writeChar('\n', buf); } buf.next(); zookeeper.create(zookeeper_path + "/metadata", metadata.str(), zkutil::CreateMode::Persistent); /// Создадим нужные "директории". zookeeper.create(zookeeper_path + "/replicas", "", zkutil::CreateMode::Persistent); zookeeper.create(zookeeper_path + "/blocks", "", zkutil::CreateMode::Persistent); zookeeper.create(zookeeper_path + "/block-numbers", "", zkutil::CreateMode::Persistent); zookeeper.create(zookeeper_path + "/temp", "", zkutil::CreateMode::Persistent); } /** Проверить, что список столбцов и настройки таблицы совпадают с указанными в ZK (/metadata). * Если нет - бросить исключение. */ void StorageReplicatedMergeTree::checkTableStructure() { String metadata_str = zookeeper.get(zookeeper_path + "/metadata"); ReadBufferFromString buf(metadata_str); assertString("metadata format version: 1", buf); assertString("\ndate column: ", buf); assertString(data.date_column_name, buf); assertString("\nsampling expression: ", buf); assertString(formattedAST(data.sampling_expression), buf); assertString("\nindex granularity: ", buf); assertString(toString(data.index_granularity), buf); assertString("\nmode: ", buf); assertString(toString(static_cast(data.mode)), buf); assertString("\nsign column: ", buf); assertString(data.sign_column, buf); assertString("\nprimary key: ", buf); assertString(formattedAST(data.primary_expr_ast), buf); assertString("\ncolumns:\n", buf); for (auto & it : data.getColumnsList()) { String name; readBackQuotedString(name, buf); if (name != it.first) throw Exception("Unexpected column name in ZooKeeper: expected " + it.first + ", found " + name, ErrorCodes::UNKNOWN_IDENTIFIER); assertString(" ", buf); assertString(it.second->getName(), buf); assertString("\n", buf); } assertEOF(buf); } void StorageReplicatedMergeTree::createReplica() { zookeeper.create(replica_path, "", zkutil::CreateMode::Persistent); zookeeper.create(replica_path + "/host", "", zkutil::CreateMode::Persistent); zookeeper.create(replica_path + "/log", "", zkutil::CreateMode::Persistent); zookeeper.create(replica_path + "/log_pointers", "", zkutil::CreateMode::Persistent); zookeeper.create(replica_path + "/queue", "", zkutil::CreateMode::Persistent); zookeeper.create(replica_path + "/parts", "", zkutil::CreateMode::Persistent); } void StorageReplicatedMergeTree::activateReplica() { std::stringstream host; host << "host: " << context.getInterserverIOHost() << std::endl; host << "port: " << context.getInterserverIOPort() << std::endl; /// Одновременно объявим, что эта реплика активна и обновим хост. zkutil::Ops ops; ops.push_back(new zkutil::Op::Create(replica_path + "/is_active", "", zookeeper.getDefaultACL(), zkutil::CreateMode::Ephemeral)); ops.push_back(new zkutil::Op::SetData(replica_path + "/host", host.str(), -1)); zookeeper.multi(ops); replica_is_active_node = zkutil::EphemeralNodeHolder::existing(replica_path + "/is_active", zookeeper); } bool StorageReplicatedMergeTree::isTableEmpty() { Strings replicas = zookeeper.getChildren(zookeeper_path + "/replicas"); for (const auto & replica : replicas) { if (!zookeeper.getChildren(zookeeper_path + "/replicas/" + replica + "/parts").empty()) return false; } return true; } void StorageReplicatedMergeTree::checkParts() { Strings expected_parts_vec = zookeeper.getChildren(replica_path + "/parts"); NameSet expected_parts(expected_parts_vec.begin(), expected_parts_vec.end()); MergeTreeData::DataParts parts = data.getDataParts(); MergeTreeData::DataPartsVector unexpected_parts; for (const auto & part : parts) { if (expected_parts.count(part->name)) { expected_parts.erase(part->name); } else { unexpected_parts.push_back(part); } } if (!expected_parts.empty()) throw Exception("Not found " + toString(expected_parts.size()) + " parts (including " + *expected_parts.begin() + ") in table " + data.getTableName(), ErrorCodes::NOT_FOUND_EXPECTED_DATA_PART); if (unexpected_parts.size() > 1) throw Exception("More than one unexpected part (including " + unexpected_parts[0]->name + ") in table " + data.getTableName(), ErrorCodes::TOO_MANY_UNEXPECTED_DATA_PARTS); for (MergeTreeData::DataPartPtr part : unexpected_parts) { LOG_ERROR(log, "Unexpected part " << part->name << ". Renaming it to ignored_" + part->name); data.renameAndDetachPart(part, "ignored_"); } } void StorageReplicatedMergeTree::loadQueue() { throw Exception("Not implemented", ErrorCodes::NOT_IMPLEMENTED); } void StorageReplicatedMergeTree::pullLogsToQueue() { throw Exception("Not implemented", ErrorCodes::NOT_IMPLEMENTED); } void StorageReplicatedMergeTree::optimizeQueue() { throw Exception("Not implemented", ErrorCodes::NOT_IMPLEMENTED); } void StorageReplicatedMergeTree::executeSomeQueueEntry() { throw Exception("Not implemented", ErrorCodes::NOT_IMPLEMENTED); } bool StorageReplicatedMergeTree::tryExecute(const LogEntry & entry) { throw Exception("Not implemented", ErrorCodes::NOT_IMPLEMENTED); } String StorageReplicatedMergeTree::findReplicaHavingPart(const String & part_name) { throw Exception("Not implemented", ErrorCodes::NOT_IMPLEMENTED); } void StorageReplicatedMergeTree::getPart(const String & name, const String & replica_name) { throw Exception("Not implemented", ErrorCodes::NOT_IMPLEMENTED); } void StorageReplicatedMergeTree::shutdown() { if (shutdown_called) return; shutdown_called = true; replica_is_active_node = nullptr; endpoint_holder = nullptr; /// Кажется, чтобы был невозможен дедлок, тут придется дождаться удаления MyInterserverIOEndpoint. } StorageReplicatedMergeTree::~StorageReplicatedMergeTree() { try { shutdown(); } catch(...) { tryLogCurrentException("~StorageReplicatedMergeTree"); } } BlockInputStreams StorageReplicatedMergeTree::read( const Names & column_names, ASTPtr query, const Settings & settings, QueryProcessingStage::Enum & processed_stage, size_t max_block_size, unsigned threads) { return reader.read(column_names, query, settings, processed_stage, max_block_size, threads); } BlockOutputStreamPtr StorageReplicatedMergeTree::write(ASTPtr query) { String insert_id; if (ASTInsertQuery * insert = dynamic_cast(&*query)) insert_id = insert->insert_id; return new ReplicatedMergeTreeBlockOutputStream(*this, insert_id); } void StorageReplicatedMergeTree::drop() { replica_is_active_node = nullptr; zookeeper.removeRecursive(replica_path); if (zookeeper.getChildren(zookeeper_path + "/replicas").empty()) zookeeper.removeRecursive(zookeeper_path); } void StorageReplicatedMergeTree::LogEntry::writeText(WriteBuffer & out) const { writeString("format version: 1\n", out); switch (type) { case GET_PART: writeString("get\n", out); writeString(new_part_name, out); break; case MERGE_PARTS: writeString("merge\n", out); for (const String & s : parts_to_merge) { writeString(s, out); writeString("\n", out); } writeString("into\n", out); writeString(new_part_name, out); break; } writeString("\n", out); } void StorageReplicatedMergeTree::LogEntry::readText(ReadBuffer & in) { String type_str; assertString("format version: 1\n", in); readString(type_str, in); assertString("\n", in); if (type_str == "get") { type = GET_PART; readString(new_part_name, in); } else if (type_str == "merge") { type = MERGE_PARTS; while (true) { String s; readString(s, in); assertString("\n", in); if (s == "into") break; parts_to_merge.push_back(s); } readString(new_part_name, in); } assertString("\n", in); } }