#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace DB { namespace ErrorCodes { extern const int LOGICAL_ERROR; extern const int NOT_IMPLEMENTED; extern const int ILLEGAL_PREWHERE; extern const int NUMBER_OF_ARGUMENTS_DOESNT_MATCH; extern const int BLOCKS_HAVE_DIFFERENT_STRUCTURE; extern const int SAMPLING_NOT_SUPPORTED; } StorageMerge::StorageMerge( const StorageID & table_id_, const ColumnsDescription & columns_, const String & source_database_, const String & table_name_regexp_, const Context & context_) : IStorage(table_id_, ColumnsDescription({{"_table", std::make_shared()}}, true)) , source_database(source_database_) , table_name_regexp(table_name_regexp_) , global_context(context_) { setColumns(columns_); } /// NOTE: structure of underlying tables as well as their set are not constant, /// so the results of these methods may become obsolete after the call. NameAndTypePair StorageMerge::getColumn(const String & column_name) const { if (!IStorage::hasColumn(column_name)) { auto first_table = getFirstTable([](auto &&) { return true; }); if (first_table) return first_table->getColumn(column_name); } return IStorage::getColumn(column_name); } bool StorageMerge::hasColumn(const String & column_name) const { if (!IStorage::hasColumn(column_name)) { auto first_table = getFirstTable([](auto &&) { return true; }); if (first_table) return first_table->hasColumn(column_name); } return true; } template StoragePtr StorageMerge::getFirstTable(F && predicate) const { auto iterator = getDatabaseIterator(); while (iterator->isValid()) { auto & table = iterator->table(); if (table.get() != this && predicate(table)) return table; iterator->next(); } return {}; } bool StorageMerge::isRemote() const { auto first_remote_table = getFirstTable([](const StoragePtr & table) { return table->isRemote(); }); return first_remote_table != nullptr; } bool StorageMerge::mayBenefitFromIndexForIn(const ASTPtr & left_in_operand, const Context & query_context) const { /// It's beneficial if it is true for at least one table. StorageListWithLocks selected_tables = getSelectedTables(query_context.getCurrentQueryId()); size_t i = 0; for (const auto & table : selected_tables) { if (std::get<0>(table)->mayBenefitFromIndexForIn(left_in_operand, query_context)) return true; ++i; /// For simplicity reasons, check only first ten tables. if (i > 10) break; } return false; } QueryProcessingStage::Enum StorageMerge::getQueryProcessingStage(const Context & context, const ASTPtr & query_ptr) const { auto stage_in_source_tables = QueryProcessingStage::FetchColumns; DatabaseTablesIteratorPtr iterator = getDatabaseIterator(); size_t selected_table_size = 0; while (iterator->isValid()) { auto & table = iterator->table(); if (table.get() != this) { ++selected_table_size; stage_in_source_tables = std::max(stage_in_source_tables, table->getQueryProcessingStage(context, query_ptr)); } iterator->next(); } return selected_table_size == 1 ? stage_in_source_tables : std::min(stage_in_source_tables, QueryProcessingStage::WithMergeableState); } Pipes StorageMerge::read( const Names & column_names, const SelectQueryInfo & query_info, const Context & context, QueryProcessingStage::Enum processed_stage, const size_t max_block_size, unsigned num_streams) { Pipes res; bool has_table_virtual_column = false; Names real_column_names; real_column_names.reserve(column_names.size()); for (const auto & column_name : column_names) { if (column_name == "_table" && isVirtualColumn(column_name)) has_table_virtual_column = true; else real_column_names.push_back(column_name); } /** Just in case, turn off optimization "transfer to PREWHERE", * since there is no certainty that it works when one of table is MergeTree and other is not. */ auto modified_context = std::make_shared(context); modified_context->setSetting("optimize_move_to_prewhere", false); /// What will be result structure depending on query processed stage in source tables? Block header = getQueryHeader(column_names, query_info, context, processed_stage); /** First we make list of selected tables to find out its size. * This is necessary to correctly pass the recommended number of threads to each table. */ StorageListWithLocks selected_tables = getSelectedTables( query_info.query, has_table_virtual_column, context.getCurrentQueryId()); if (selected_tables.empty()) /// FIXME: do we support sampling in this case? return createSources( query_info, processed_stage, max_block_size, header, {}, real_column_names, modified_context, 0, has_table_virtual_column); size_t tables_count = selected_tables.size(); Float64 num_streams_multiplier = std::min(unsigned(tables_count), std::max(1U, unsigned(context.getSettingsRef().max_streams_multiplier_for_merge_tables))); num_streams *= num_streams_multiplier; size_t remaining_streams = num_streams; InputSortingInfoPtr input_sorting_info; if (query_info.order_by_optimizer) { for (auto it = selected_tables.begin(); it != selected_tables.end(); ++it) { auto current_info = query_info.order_by_optimizer->getInputOrder(std::get<0>(*it)); if (it == selected_tables.begin()) input_sorting_info = current_info; else if (!current_info || (input_sorting_info && *current_info != *input_sorting_info)) input_sorting_info.reset(); if (!input_sorting_info) break; } query_info.input_sorting_info = input_sorting_info; } for (const auto & table : selected_tables) { size_t current_need_streams = tables_count >= num_streams ? 1 : (num_streams / tables_count); size_t current_streams = std::min(current_need_streams, remaining_streams); remaining_streams -= current_streams; current_streams = std::max(size_t(1), current_streams); auto & storage = std::get<0>(table); /// If sampling requested, then check that table supports it. if (query_info.query->as()->sampleSize() && !storage->supportsSampling()) throw Exception("Illegal SAMPLE: table doesn't support sampling", ErrorCodes::SAMPLING_NOT_SUPPORTED); auto source_pipes = createSources( query_info, processed_stage, max_block_size, header, table, real_column_names, modified_context, current_streams, has_table_virtual_column); for (auto & pipe : source_pipes) res.emplace_back(std::move(pipe)); } if (res.empty()) return res; return narrowPipes(std::move(res), num_streams); } Pipes StorageMerge::createSources(const SelectQueryInfo & query_info, const QueryProcessingStage::Enum & processed_stage, const UInt64 max_block_size, const Block & header, const StorageWithLockAndName & storage_with_lock, Names & real_column_names, const std::shared_ptr & modified_context, size_t streams_num, bool has_table_virtual_column, bool concat_streams) { auto & [storage, struct_lock, table_name] = storage_with_lock; SelectQueryInfo modified_query_info = query_info; modified_query_info.query = query_info.query->clone(); VirtualColumnUtils::rewriteEntityInAst(modified_query_info.query, "_table", table_name); Pipes pipes; if (!storage) { if (query_info.force_tree_shaped_pipeline) { /// This flag means that pipeline must be tree-shaped, /// so we can't enable processors for InterpreterSelectQuery here. auto stream = InterpreterSelectQuery(modified_query_info.query, *modified_context, std::make_shared(header), SelectQueryOptions(processed_stage).analyze()).execute().in; pipes.emplace_back(std::make_shared(std::move(stream))); return pipes; } auto pipe = InterpreterSelectQuery(modified_query_info.query, *modified_context, std::make_shared(header), SelectQueryOptions(processed_stage).analyze()).executeWithProcessors().getPipe(); pipe.addInterpreterContext(modified_context); pipes.emplace_back(std::move(pipe)); return pipes; } if (processed_stage <= storage->getQueryProcessingStage(*modified_context, query_info.query)) { /// If there are only virtual columns in query, you must request at least one other column. if (real_column_names.empty()) real_column_names.push_back(ExpressionActions::getSmallestColumn(storage->getColumns().getAllPhysical())); pipes = storage->read(real_column_names, modified_query_info, *modified_context, processed_stage, max_block_size, UInt32(streams_num)); } else if (processed_stage > storage->getQueryProcessingStage(*modified_context, query_info.query)) { modified_query_info.query->as()->replaceDatabaseAndTable(source_database, table_name); /// Maximum permissible parallelism is streams_num modified_context->setSetting("max_threads", streams_num); modified_context->setSetting("max_streams_to_max_threads_ratio", 1); InterpreterSelectQuery interpreter{modified_query_info.query, *modified_context, SelectQueryOptions(processed_stage)}; if (query_info.force_tree_shaped_pipeline) { BlockInputStreamPtr stream = interpreter.execute().in; Pipe pipe(std::make_shared(std::move(stream))); pipes.emplace_back(std::move(pipe)); } else { Pipe pipe = interpreter.executeWithProcessors().getPipe(); pipes.emplace_back(std::move(pipe)); } /** Materialization is needed, since from distributed storage the constants come materialized. * If you do not do this, different types (Const and non-Const) columns will be produced in different threads, * And this is not allowed, since all code is based on the assumption that in the block stream all types are the same. */ pipes.back().addSimpleTransform(std::make_shared(pipes.back().getHeader())); } if (!pipes.empty()) { if (concat_streams && pipes.size() > 1) { auto concat = std::make_shared(pipes.at(0).getHeader(), pipes.size()); Pipe pipe(std::move(pipes), std::move(concat)); pipes = Pipes(); pipes.emplace_back(std::move(pipe)); } for (auto & pipe : pipes) { if (has_table_virtual_column) pipe.addSimpleTransform(std::make_shared>( pipe.getHeader(), std::make_shared(), table_name, "_table")); /// Subordinary tables could have different but convertible types, like numeric types of different width. /// We must return streams with structure equals to structure of Merge table. convertingSourceStream(header, *modified_context, modified_query_info.query, pipe, processed_stage); pipe.addTableLock(struct_lock); pipe.addInterpreterContext(modified_context); } } return pipes; } StorageMerge::StorageListWithLocks StorageMerge::getSelectedTables(const String & query_id) const { StorageListWithLocks selected_tables; auto iterator = getDatabaseIterator(); while (iterator->isValid()) { auto & table = iterator->table(); if (table.get() != this) selected_tables.emplace_back(table, table->lockStructureForShare(false, query_id), iterator->name()); iterator->next(); } return selected_tables; } StorageMerge::StorageListWithLocks StorageMerge::getSelectedTables(const ASTPtr & query, bool has_virtual_column, const String & query_id) const { StorageListWithLocks selected_tables; DatabaseTablesIteratorPtr iterator = getDatabaseIterator(); auto virtual_column = ColumnString::create(); while (iterator->isValid()) { StoragePtr storage = iterator->table(); if (query && query->as()->prewhere() && !storage->supportsPrewhere()) throw Exception("Storage " + storage->getName() + " doesn't support PREWHERE.", ErrorCodes::ILLEGAL_PREWHERE); if (storage.get() != this) { selected_tables.emplace_back(storage, storage->lockStructureForShare(false, query_id), iterator->name()); virtual_column->insert(iterator->name()); } iterator->next(); } if (has_virtual_column) { Block virtual_columns_block = Block{ColumnWithTypeAndName(std::move(virtual_column), std::make_shared(), "_table")}; VirtualColumnUtils::filterBlockWithQuery(query, virtual_columns_block, global_context); auto values = VirtualColumnUtils::extractSingleValueFromBlock(virtual_columns_block, "_table"); /// Remove unused tables from the list selected_tables.remove_if([&] (const auto & elem) { return values.find(std::get<2>(elem)) == values.end(); }); } return selected_tables; } DatabaseTablesIteratorPtr StorageMerge::getDatabaseIterator() const { checkStackSize(); auto database = DatabaseCatalog::instance().getDatabase(source_database); auto table_name_match = [this](const String & table_name_) { return table_name_regexp.match(table_name_); }; return database->getTablesIterator(table_name_match); } void StorageMerge::checkAlterIsPossible(const AlterCommands & commands, const Settings & /* settings */) { for (const auto & command : commands) { if (command.type != AlterCommand::Type::ADD_COLUMN && command.type != AlterCommand::Type::MODIFY_COLUMN && command.type != AlterCommand::Type::DROP_COLUMN && command.type != AlterCommand::Type::COMMENT_COLUMN) throw Exception( "Alter of type '" + alterTypeToString(command.type) + "' is not supported by storage " + getName(), ErrorCodes::NOT_IMPLEMENTED); } } void StorageMerge::alter( const AlterCommands & params, const Context & context, TableStructureWriteLockHolder & table_lock_holder) { lockStructureExclusively(table_lock_holder, context.getCurrentQueryId()); auto table_id = getStorageID(); StorageInMemoryMetadata storage_metadata = getInMemoryMetadata(); params.apply(storage_metadata); DatabaseCatalog::instance().getDatabase(table_id.database_name)->alterTable(context, table_id, storage_metadata); setColumns(storage_metadata.columns); } Block StorageMerge::getQueryHeader( const Names & column_names, const SelectQueryInfo & query_info, const Context & context, QueryProcessingStage::Enum processed_stage) { switch (processed_stage) { case QueryProcessingStage::FetchColumns: { Block header = getSampleBlockForColumns(column_names); if (query_info.prewhere_info) { query_info.prewhere_info->prewhere_actions->execute(header); header = materializeBlock(header); if (query_info.prewhere_info->remove_prewhere_column) header.erase(query_info.prewhere_info->prewhere_column_name); } return header; } case QueryProcessingStage::WithMergeableState: case QueryProcessingStage::Complete: return materializeBlock(InterpreterSelectQuery( query_info.query, context, std::make_shared(getSampleBlockForColumns(column_names)), SelectQueryOptions(processed_stage).analyze()).getSampleBlock()); } throw Exception("Logical Error: unknown processed stage.", ErrorCodes::LOGICAL_ERROR); } void StorageMerge::convertingSourceStream(const Block & header, const Context & context, ASTPtr & query, Pipe & pipe, QueryProcessingStage::Enum processed_stage) { Block before_block_header = pipe.getHeader(); pipe.addSimpleTransform(std::make_shared(before_block_header, header, ConvertingTransform::MatchColumnsMode::Name, context)); auto where_expression = query->as()->where(); if (!where_expression) return; for (size_t column_index : ext::range(0, header.columns())) { ColumnWithTypeAndName header_column = header.getByPosition(column_index); ColumnWithTypeAndName before_column = before_block_header.getByName(header_column.name); /// If the processed_stage greater than FetchColumns and the block structure between streams is different. /// the where expression maybe invalid because of convertingBlockInputStream. /// So we need to throw exception. if (!header_column.type->equals(*before_column.type.get()) && processed_stage > QueryProcessingStage::FetchColumns) { NamesAndTypesList source_columns = getSampleBlock().getNamesAndTypesList(); NameAndTypePair virtual_column = getColumn("_table"); source_columns.insert(source_columns.end(), virtual_column); auto syntax_result = SyntaxAnalyzer(context).analyze(where_expression, source_columns); ExpressionActionsPtr actions = ExpressionAnalyzer{where_expression, syntax_result, context}.getActions(false, false); Names required_columns = actions->getRequiredColumns(); for (const auto & required_column : required_columns) { if (required_column == header_column.name) throw Exception("Block structure mismatch in Merge Storage: different types:\n" + before_block_header.dumpStructure() + "\n" + header.dumpStructure(), ErrorCodes::BLOCKS_HAVE_DIFFERENT_STRUCTURE); } } } } void registerStorageMerge(StorageFactory & factory) { factory.registerStorage("Merge", [](const StorageFactory::Arguments & args) { /** In query, the name of database is specified as table engine argument which contains source tables, * as well as regex for source-table names. */ ASTs & engine_args = args.engine_args; if (engine_args.size() != 2) throw Exception("Storage Merge requires exactly 2 parameters" " - name of source database and regexp for table names.", ErrorCodes::NUMBER_OF_ARGUMENTS_DOESNT_MATCH); engine_args[0] = evaluateConstantExpressionForDatabaseName(engine_args[0], args.local_context); engine_args[1] = evaluateConstantExpressionAsLiteral(engine_args[1], args.local_context); String source_database = engine_args[0]->as().value.safeGet(); String table_name_regexp = engine_args[1]->as().value.safeGet(); return StorageMerge::create( args.table_id, args.columns, source_database, table_name_regexp, args.context); }); } }