#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 #include #include #include #include #include #include #include #include #include #include #include namespace DB { namespace ErrorCodes { extern const int ARGUMENT_OUT_OF_BOUND; extern const int CANNOT_PARSE_TEXT; extern const int ILLEGAL_COLUMN; extern const int INCORRECT_QUERY; extern const int LOGICAL_ERROR; extern const int QUERY_IS_NOT_SUPPORTED_IN_WINDOW_VIEW; extern const int SUPPORT_IS_DISABLED; extern const int TABLE_WAS_NOT_DROPPED; } namespace { const auto RESCHEDULE_MS = 500; struct MergeableQueryVisitorData { using TypeToVisit = ASTFunction; ASTPtr window_function; String window_id_name; String window_id_alias; String serialized_window_function; String timestamp_column_name; bool is_tumble = false; bool is_hop = false; void visit(const ASTFunction & node, ASTPtr & node_ptr) { if (node.name == "TUMBLE" || node.name == "HOP") { is_tumble = node.name == "TUMBLE"; is_hop = node.name == "HOP"; if (!window_function) { std::static_pointer_cast(node_ptr)->name = "WINDOW_ID"; window_id_name = node.getColumnName(); window_id_alias = node.alias; window_function = node.clone(); window_function->setAlias(""); serialized_window_function = serializeAST(*window_function); timestamp_column_name = node.arguments->children[0]->getColumnName(); } else { auto temp_node = node.clone(); temp_node->setAlias(""); if (serializeAST(*temp_node) != serialized_window_function) throw Exception("WINDOW VIEW only support ONE WINDOW FUNCTION", ErrorCodes::QUERY_IS_NOT_SUPPORTED_IN_WINDOW_VIEW); } } } }; struct ReplaceWindowIdVisitorData { using TypeToVisit = ASTFunction; bool is_tumble; void visit(const ASTFunction & node, ASTPtr & node_ptr) const { if (node.name == "WINDOW_ID") { if (is_tumble) std::static_pointer_cast(node_ptr)->name = "TUMBLE"; else std::static_pointer_cast(node_ptr)->name = "HOP"; } } }; struct ReplaceFunctionNowVisitorData { using TypeToVisit = ASTFunction; bool is_time_column_func_now = false; String window_id_name; void visit(ASTFunction & node, ASTPtr & node_ptr) { if (node.name == "WINDOW_ID") { if (const auto * t = node.arguments->children[0]->as(); t && t->name == "now") { is_time_column_func_now = true; node_ptr->children[0]->children[0] = std::make_shared("____timestamp"); window_id_name = node.getColumnName(); } } } }; struct ReplaceFunctionWindowVisitorData { using TypeToVisit = ASTFunction; static void visit(ASTFunction & node, ASTPtr & node_ptr) { if (node.name == "HOP" || node.name == "TUMBLE") std::static_pointer_cast(node_ptr)->name = "WINDOW_ID"; } }; class ReplaceFunctionWindowMatcher { public: using Visitor = InDepthNodeVisitor; struct Data { String window_id_name; String window_id_alias; Aliases * aliases; }; static bool needChildVisit(ASTPtr &, const ASTPtr &) { return true; } static void visit(ASTPtr & ast, Data & data) { if (const auto * t = ast->as()) visit(*t, ast, data); if (const auto * t = ast->as()) visit(*t, ast, data); } private: static void visit(const ASTFunction & node, ASTPtr & node_ptr, Data &) { if (node.name == "tuple") return; else node_ptr = std::make_shared(node.getColumnName()); } static void visit(const ASTIdentifier & node, ASTPtr & node_ptr, Data & data) { if (node.getColumnName() == data.window_id_alias) dynamic_cast(node_ptr.get())->name = data.window_id_name; else if (auto it = data.aliases->find(node.getColumnName()); it != data.aliases->end()) dynamic_cast(node_ptr.get())->name = it->second->getColumnName(); } }; IntervalKind strToIntervalKind(const String& interval_str) { if (interval_str == "Second") return IntervalKind::Second; else if (interval_str == "Minute") return IntervalKind::Minute; else if (interval_str == "Hour") return IntervalKind::Hour; else if (interval_str == "Day") return IntervalKind::Day; else if (interval_str == "Week") return IntervalKind::Week; else if (interval_str == "Month") return IntervalKind::Month; else if (interval_str == "Quarter") return IntervalKind::Quarter; else if (interval_str == "Year") return IntervalKind::Year; __builtin_unreachable(); } String generateInnerTableName(const String & table_name) { return ".inner." + table_name; } } static void extractDependentTable(ASTSelectQuery & query, String & select_database_name, String & select_table_name) { auto db_and_table = getDatabaseAndTable(query, 0); ASTPtr subquery = extractTableExpression(query, 0); if (!db_and_table && !subquery) return; if (db_and_table) { select_table_name = db_and_table->table; if (db_and_table->database.empty()) { db_and_table->database = select_database_name; AddDefaultDatabaseVisitor visitor(select_database_name); visitor.visit(query); } else select_database_name = db_and_table->database; } else if (auto * ast_select = subquery->as()) { if (ast_select->list_of_selects->children.size() != 1) throw Exception("UNION is not supported for WINDOW VIEW", ErrorCodes::QUERY_IS_NOT_SUPPORTED_IN_WINDOW_VIEW); auto & inner_query = ast_select->list_of_selects->children.at(0); extractDependentTable(inner_query->as(), select_database_name, select_table_name); } else throw Exception( "Logical error while creating StorageWindowView." " Could not retrieve table name from select query.", DB::ErrorCodes::LOGICAL_ERROR); } UInt32 StorageWindowView::getCleanupBound() { UInt32 w_bound; { std::lock_guard lock(fire_signal_mutex); w_bound = max_fired_watermark; if (w_bound == 0) return 0; if (!is_proctime) { if (max_watermark == 0) return 0; if (allowed_lateness) { UInt32 lateness_bound = addTime(max_timestamp, lateness_kind, -1 * lateness_num_units); lateness_bound = getWindowLowerBound(lateness_bound); if (lateness_bound < w_bound) w_bound = lateness_bound; } } } return w_bound; } ASTPtr StorageWindowView::generateCleanupQuery() { ASTPtr function_equal; function_equal = makeASTFunction("less", std::make_shared(window_id_name), std::make_shared(getCleanupBound())); auto alter_command = std::make_shared(); alter_command->type = ASTAlterCommand::DELETE; alter_command->predicate = function_equal; alter_command->children.push_back(alter_command->predicate); auto alter_command_list = std::make_shared(); alter_command_list->add(alter_command); auto alter_query = std::make_shared(); alter_query->database = inner_table_id.database_name; alter_query->table = inner_table_id.table_name; alter_query->set(alter_query->command_list, alter_command_list); return alter_query; } void StorageWindowView::checkTableCanBeDropped() const { auto table_id = getStorageID(); Dependencies dependencies = DatabaseCatalog::instance().getDependencies(table_id); if (!dependencies.empty()) { StorageID dependent_table_id = dependencies.front(); throw Exception("Table has dependency " + dependent_table_id.getNameForLogs(), ErrorCodes::TABLE_WAS_NOT_DROPPED); } } static void executeDropQuery(ASTDropQuery::Kind kind, Context & context, const StorageID & target_table_id) { if (DatabaseCatalog::instance().tryGetTable(target_table_id, context)) { auto drop_query = std::make_shared(); drop_query->database = target_table_id.database_name; drop_query->table = target_table_id.table_name; drop_query->kind = kind; ASTPtr ast_drop_query = drop_query; InterpreterDropQuery drop_interpreter(ast_drop_query, context); drop_interpreter.execute(); } } void StorageWindowView::drop() { auto table_id = getStorageID(); DatabaseCatalog::instance().removeDependency(select_table_id, table_id); executeDropQuery(ASTDropQuery::Kind::Drop, global_context, inner_table_id); std::lock_guard lock(mutex); is_dropped = true; fire_condition.notify_all(); } void StorageWindowView::truncate(const ASTPtr &, const Context &, TableStructureWriteLockHolder &) { executeDropQuery(ASTDropQuery::Kind::Truncate, global_context, inner_table_id); } bool StorageWindowView::optimize(const ASTPtr & query, const ASTPtr & partition, bool final, bool deduplicate, const Context & context) { return getInnerStorage()->optimize(query, partition, final, deduplicate, context); } Pipes StorageWindowView::blocksToPipes(BlocksList & blocks, Block & sample_block) { Pipes pipes; for (auto & block : blocks) pipes.emplace_back(std::make_shared(sample_block, Chunk(block.getColumns(), block.rows()))); return pipes; } inline void StorageWindowView::cleanup() { InterpreterAlterQuery alt_query(generateCleanupQuery(), *wv_context); alt_query.execute(); std::lock_guard lock(fire_signal_mutex); watch_streams.remove_if([](std::weak_ptr & ptr) { return ptr.expired(); }); } inline void StorageWindowView::fire(UInt32 watermark) { if (target_table_id.empty() && watch_streams.empty()) return; BlockInputStreamPtr in_stream; { std::lock_guard lock(mutex); in_stream = getNewBlocksInputStreamPtr(watermark); } if (target_table_id.empty()) { in_stream->readPrefix(); while (auto block = in_stream->read()) { for (auto & watch_stream : watch_streams) { if (auto watch_stream_ptr = watch_stream.lock()) watch_stream_ptr->addBlock(block); } } in_stream->readSuffix(); } else { StoragePtr target_table = getTargetStorage(); auto lock = target_table->lockStructureForShare(true, wv_context->getCurrentQueryId(), wv_context->getSettingsRef().lock_acquire_timeout); auto out_stream = target_table->write(getFinalQuery(), *wv_context); in_stream->readPrefix(); out_stream->writePrefix(); while (auto block = in_stream->read()) { for (auto & watch_stream : watch_streams) { if (const auto & watch_stream_ptr = watch_stream.lock()) watch_stream_ptr->addBlock(block); } out_stream->write(std::move(block)); } in_stream->readSuffix(); out_stream->writeSuffix(); } fire_condition.notify_all(); } std::shared_ptr StorageWindowView::generateInnerTableCreateQuery(ASTStorage * storage, const String & database_name, const String & table_name) { /// We will create a query to create an internal table. auto inner_create_query = std::make_shared(); inner_create_query->database = database_name; inner_create_query->table = table_name; auto inner_select_query = std::static_pointer_cast(getInnerQuery()); Aliases aliases; QueryAliasesVisitor::Data query_aliases_data{aliases}; QueryAliasesVisitor(query_aliases_data).visit(inner_select_query); auto t_sample_block = InterpreterSelectQuery(inner_select_query, *wv_context, getParentStorage(), SelectQueryOptions(QueryProcessingStage::WithMergeableState)) .getSampleBlock(); auto columns_list = std::make_shared(); if (is_time_column_func_now) { auto column_window = std::make_shared(); column_window->name = window_id_name; column_window->type = std::make_shared("UInt32"); columns_list->children.push_back(column_window); } for (const auto & column : t_sample_block.getColumnsWithTypeAndName()) { ParserIdentifierWithOptionalParameters parser; String sql = column.type->getName(); ASTPtr ast = parseQuery(parser, sql.data(), sql.data() + sql.size(), "data type", 0, DBMS_DEFAULT_MAX_PARSER_DEPTH); auto column_dec = std::make_shared(); column_dec->name = column.name; column_dec->type = ast; columns_list->children.push_back(column_dec); } ReplaceFunctionWindowMatcher::Data query_data; query_data.window_id_name = window_id_name; query_data.window_id_alias = window_id_alias; query_data.aliases = &aliases; ReplaceFunctionWindowMatcher::Visitor visitor(query_data); ReplaceFunctionNowVisitorData time_now_data; ReplaceFunctionWindowVisitorData func_hop_data; InDepthNodeVisitor, true> time_now_visitor(time_now_data); InDepthNodeVisitor, true> func_window_visitor(func_hop_data); auto new_storage = std::make_shared(); if (storage == nullptr) { new_storage->set(new_storage->engine, makeASTFunction("AggregatingMergeTree")); for (auto & child : inner_select_query->groupBy()->children) if (auto * ast_with_alias = dynamic_cast(child.get())) ast_with_alias->setAlias(""); auto order_by = std::make_shared(); order_by->name = "tuple"; order_by->arguments = inner_select_query->groupBy(); order_by->children.push_back(order_by->arguments); ASTPtr order_by_ptr = order_by; if (is_time_column_func_now) time_now_visitor.visit(order_by_ptr); visitor.visit(order_by_ptr); for (auto & child : order_by->arguments->children) { if (child->getColumnName() == window_id_name) { ASTPtr tmp = child; child = order_by->arguments->children[0]; order_by->arguments->children[0] = tmp; break; } } new_storage->set(new_storage->order_by, order_by_ptr); new_storage->set(new_storage->primary_key, std::make_shared(window_id_name)); } else { if (storage->ttl_table) throw Exception("TTL is not supported for inner table in Window View", ErrorCodes::QUERY_IS_NOT_SUPPORTED_IN_WINDOW_VIEW); if (!endsWith(storage->engine->name, "MergeTree")) throw Exception( "The ENGINE of WindowView must be MergeTree family of table engines including the engines with replication support", ErrorCodes::INCORRECT_QUERY); new_storage->set(new_storage->engine, storage->engine->clone()); if (storage->partition_by) { auto partition_by = storage->partition_by->clone(); if (is_time_column_func_now) time_now_visitor.visit(partition_by); func_window_visitor.visit(partition_by); visitor.visit(partition_by); new_storage->set(new_storage->partition_by, partition_by); } if (storage->primary_key) { auto tmp_primary_key = storage->primary_key->clone(); if (is_time_column_func_now) time_now_visitor.visit(tmp_primary_key); func_window_visitor.visit(tmp_primary_key); visitor.visit(tmp_primary_key); new_storage->set(new_storage->primary_key, tmp_primary_key); } if (storage->order_by) { auto order_by = storage->order_by->clone(); if (is_time_column_func_now) time_now_visitor.visit(order_by); func_window_visitor.visit(order_by); visitor.visit(order_by); new_storage->set(new_storage->order_by, order_by); } if (storage->sample_by) { auto sample_by = storage->sample_by->clone(); if (is_time_column_func_now) time_now_visitor.visit(sample_by); func_window_visitor.visit(sample_by); visitor.visit(sample_by); new_storage->set(new_storage->sample_by, sample_by); } if (storage->settings) new_storage->set(new_storage->settings, storage->settings->clone()); } auto new_columns = std::make_shared(); new_columns->set(new_columns->columns, columns_list); inner_create_query->set(inner_create_query->columns_list, new_columns); inner_create_query->set(inner_create_query->storage, new_storage); return inner_create_query; } inline UInt32 StorageWindowView::addTime(UInt32 time_sec, IntervalKind::Kind kind, Int64 num_units) const { switch (kind) { #define CASE_WINDOW_KIND(KIND) \ case IntervalKind::KIND: { \ return AddTime::execute(time_sec, num_units, time_zone); \ } CASE_WINDOW_KIND(Second) CASE_WINDOW_KIND(Minute) CASE_WINDOW_KIND(Hour) CASE_WINDOW_KIND(Day) CASE_WINDOW_KIND(Week) CASE_WINDOW_KIND(Month) CASE_WINDOW_KIND(Quarter) CASE_WINDOW_KIND(Year) #undef CASE_WINDOW_KIND } __builtin_unreachable(); } inline UInt32 StorageWindowView::getWindowLowerBound(UInt32 time_sec) { IntervalKind window_interval_kind; if (is_tumble) window_interval_kind = window_kind; else window_interval_kind = hop_kind; switch (window_interval_kind) { #define CASE_WINDOW_KIND(KIND) \ case IntervalKind::KIND: \ { \ if (is_tumble) \ return ToStartOfTransform::execute(time_sec, window_num_units, time_zone); \ else \ {\ UInt32 w_start = ToStartOfTransform::execute(time_sec, hop_num_units, time_zone); \ UInt32 w_end = AddTime::execute(w_start, hop_num_units, time_zone);\ return AddTime::execute(w_end, -1 * window_num_units, time_zone);\ }\ } CASE_WINDOW_KIND(Second) CASE_WINDOW_KIND(Minute) CASE_WINDOW_KIND(Hour) CASE_WINDOW_KIND(Day) CASE_WINDOW_KIND(Week) CASE_WINDOW_KIND(Month) CASE_WINDOW_KIND(Quarter) CASE_WINDOW_KIND(Year) #undef CASE_WINDOW_KIND } __builtin_unreachable(); } inline UInt32 StorageWindowView::getWindowUpperBound(UInt32 time_sec) { IntervalKind window_interval_kind; if (is_tumble) window_interval_kind = window_kind; else window_interval_kind = hop_kind; switch (window_interval_kind) { #define CASE_WINDOW_KIND(KIND) \ case IntervalKind::KIND: \ { \ if (is_tumble) \ {\ UInt32 w_start = ToStartOfTransform::execute(time_sec, window_num_units, time_zone); \ return AddTime::execute(w_start, window_num_units, time_zone); \ }\ else \ {\ UInt32 w_start = ToStartOfTransform::execute(time_sec, hop_num_units, time_zone); \ return AddTime::execute(w_start, hop_num_units, time_zone);\ }\ } CASE_WINDOW_KIND(Second) CASE_WINDOW_KIND(Minute) CASE_WINDOW_KIND(Hour) CASE_WINDOW_KIND(Day) CASE_WINDOW_KIND(Week) CASE_WINDOW_KIND(Month) CASE_WINDOW_KIND(Quarter) CASE_WINDOW_KIND(Year) #undef CASE_WINDOW_KIND } __builtin_unreachable(); } inline void StorageWindowView::addFireSignal(std::set & signals) { std::lock_guard lock(fire_signal_mutex); for (const auto & signal : signals) fire_signal.push_back(signal); fire_signal_condition.notify_all(); } inline void StorageWindowView::updateMaxTimestamp(UInt32 timestamp) { std::lock_guard lock(fire_signal_mutex); if (timestamp > max_timestamp) max_timestamp = timestamp; } inline void StorageWindowView::updateMaxWatermark(UInt32 watermark) { std::lock_guard lock(fire_signal_mutex); if (max_watermark == 0) { max_watermark = getWindowUpperBound(watermark - 1); return; } bool updated; if (is_watermark_strictly_ascending) { updated = max_watermark < watermark; while (max_watermark < watermark) { fire_signal.push_back(max_watermark); max_fired_watermark = max_watermark; max_watermark = is_tumble ? addTime(max_watermark, window_kind, window_num_units) : addTime(max_watermark, hop_kind, hop_num_units); } } else // strictly || bounded { UInt32 max_watermark_bias = addTime(max_watermark, watermark_kind, watermark_num_units); updated = max_watermark_bias <= watermark; while (max_watermark_bias <= max_timestamp) { fire_signal.push_back(max_watermark); max_fired_watermark = max_watermark; if (is_tumble) { max_watermark = addTime(max_watermark, window_kind, window_num_units); max_watermark_bias = addTime(max_watermark, window_kind, window_num_units); } else { max_watermark = addTime(max_watermark, hop_kind, hop_num_units); max_watermark_bias = addTime(max_watermark, hop_kind, hop_num_units); } } } if (updated) fire_signal_condition.notify_all(); } void StorageWindowView::threadFuncCleanup() { while (!shutdown_called) { try { sleep(clean_interval); cleanup(); } catch (...) { tryLogCurrentException(__PRETTY_FUNCTION__); break; } } if (!shutdown_called) clean_cache_task->scheduleAfter(RESCHEDULE_MS); } void StorageWindowView::threadFuncFireProc() { std::unique_lock lock(fire_signal_mutex); while (!shutdown_called) { UInt32 timestamp_now = std::time(nullptr); while (next_fire_signal <= timestamp_now) { try { fire(next_fire_signal); } catch (...) { tryLogCurrentException(__PRETTY_FUNCTION__); } max_fired_watermark = next_fire_signal; next_fire_signal = addTime(next_fire_signal, window_kind, window_num_units); } next_fire_signal = getWindowUpperBound(timestamp_now); UInt64 timestamp_usec = static_cast(Poco::Timestamp().epochMicroseconds()); fire_signal_condition.wait_for(lock, std::chrono::microseconds(static_cast(next_fire_signal) * 1000000 - timestamp_usec)); } if (!shutdown_called) fire_task->scheduleAfter(RESCHEDULE_MS); } void StorageWindowView::threadFuncFireEvent() { std::unique_lock lock(fire_signal_mutex); while (!shutdown_called) { bool signaled = std::cv_status::no_timeout == fire_signal_condition.wait_for(lock, std::chrono::seconds(5)); if (!signaled) continue; while (!fire_signal.empty()) { fire(fire_signal.front()); fire_signal.pop_front(); } } if (!shutdown_called) fire_task->scheduleAfter(RESCHEDULE_MS); } BlockInputStreams StorageWindowView::watch( const Names & /*column_names*/, const SelectQueryInfo & query_info, const Context & context, QueryProcessingStage::Enum & processed_stage, size_t /*max_block_size*/, const unsigned /*num_streams*/) { ASTWatchQuery & query = typeid_cast(*query_info.query); bool has_limit = false; UInt64 limit = 0; if (query.limit_length) { has_limit = true; limit = safeGet(typeid_cast(*query.limit_length).value); } auto reader = std::make_shared( std::static_pointer_cast(shared_from_this()), has_limit, limit, context.getSettingsRef().window_view_heartbeat_interval.totalSeconds()); std::lock_guard lock(fire_signal_mutex); watch_streams.push_back(reader); processed_stage = QueryProcessingStage::Complete; return {reader}; } StorageWindowView::StorageWindowView( const StorageID & table_id_, Context & local_context, const ASTCreateQuery & query, const ColumnsDescription & columns_, bool attach_) : IStorage(table_id_) , global_context(local_context.getGlobalContext()) , time_zone(DateLUT::instance()) { wv_context = std::make_unique(global_context); wv_context->makeQueryContext(); setColumns(columns_); if (!query.select) throw Exception("SELECT query is not specified for " + getName(), ErrorCodes::INCORRECT_QUERY); if (query.select->list_of_selects->children.size() != 1) throw Exception("UNION is not supported for Window View", ErrorCodes::QUERY_IS_NOT_SUPPORTED_IN_WINDOW_VIEW); ASTSelectQuery & select_query = typeid_cast(*query.select->list_of_selects->children.at(0)); String select_database_name = global_context.getCurrentDatabase(); String select_table_name; extractDependentTable(select_query, select_database_name, select_table_name); select_table_id = StorageID(select_database_name, select_table_name); inner_query = innerQueryParser(select_query); mergeable_query = inner_query->clone(); ReplaceFunctionNowVisitorData func_now_data; InDepthNodeVisitor, true>(func_now_data).visit(mergeable_query); is_time_column_func_now = func_now_data.is_time_column_func_now; if (is_time_column_func_now) window_id_name = func_now_data.window_id_name; final_query = mergeable_query->clone(); ReplaceWindowIdVisitorData final_query_data; final_query_data.is_tumble = is_tumble; InDepthNodeVisitor, true>(final_query_data).visit(final_query); is_watermark_strictly_ascending = query.is_watermark_strictly_ascending; is_watermark_ascending = query.is_watermark_ascending; is_watermark_bounded = query.is_watermark_bounded; /// If the table is not specified - use the table `system.one` if (select_table_name.empty()) { select_database_name = "system"; select_table_name = "one"; } DatabaseCatalog::instance().addDependency(select_table_id, table_id_); target_table_id = query.to_table_id; clean_interval = global_context.getSettingsRef().window_view_clean_interval.totalSeconds(); next_fire_signal = getWindowUpperBound(std::time(nullptr)); if (query.is_watermark_strictly_ascending || query.is_watermark_ascending || query.is_watermark_bounded) { is_proctime = false; if (is_time_column_func_now) throw Exception("now() is not support for Event time processing.", ErrorCodes::INCORRECT_QUERY); if (query.is_watermark_ascending) { is_watermark_bounded = true; watermark_kind = IntervalKind::Second; watermark_num_units = 1; } else if (query.is_watermark_bounded) { // parser watermark function const auto & watermark_function = std::static_pointer_cast(query.watermark_function); if (!startsWith(watermark_function->name, "toInterval")) throw Exception("Illegal type of WATERMARK function, should be Interval", ErrorCodes::ILLEGAL_COLUMN); const auto & interval_units_p1 = std::static_pointer_cast(watermark_function->children.front()->children.front()); watermark_kind = strToIntervalKind(watermark_function->name.substr(10)); try { watermark_num_units = boost::lexical_cast(interval_units_p1->value.get()); } catch (const boost::bad_lexical_cast &) { throw Exception("Cannot parse string '" + interval_units_p1->value.get() + "' as Integer.", ErrorCodes::CANNOT_PARSE_TEXT); } if (watermark_num_units <= 0) throw Exception("Value for WATERMARK function must be positive.", ErrorCodes::ARGUMENT_OUT_OF_BOUND); } } if (query.allowed_lateness) { allowed_lateness = true; // parser lateness function const auto & lateness_function = std::static_pointer_cast(query.lateness_function); if (!startsWith(lateness_function->name, "toInterval")) throw Exception("Illegal type of ALLOWED_LATENESS function, should be Interval", ErrorCodes::ILLEGAL_COLUMN); const auto & interval_units_p1 = std::static_pointer_cast(lateness_function->children.front()->children.front()); lateness_kind = strToIntervalKind(lateness_function->name.substr(10)); try { lateness_num_units = boost::lexical_cast(interval_units_p1->value.get()); } catch (const boost::bad_lexical_cast &) { throw Exception( "Cannot parse string '" + interval_units_p1->value.get() + "' as Integer.", ErrorCodes::CANNOT_PARSE_TEXT); } if (lateness_num_units <= 0) throw Exception("Value for ALLOWED_LATENESS function must be positive.", ErrorCodes::ARGUMENT_OUT_OF_BOUND); } if (attach_) { inner_table_id = StorageID(table_id_.database_name, generateInnerTableName(table_id_.table_name)); } else { auto inner_create_query = generateInnerTableCreateQuery(query.storage, table_id_.database_name, generateInnerTableName(table_id_.table_name)); InterpreterCreateQuery create_interpreter(inner_create_query, *wv_context); create_interpreter.setInternal(true); create_interpreter.execute(); inner_storage = DatabaseCatalog::instance().getTable(StorageID(inner_create_query->database, inner_create_query->table), global_context); inner_table_id = inner_storage->getStorageID(); } if (is_tumble) window_column_name = std::regex_replace(window_id_name, std::regex("WINDOW_ID"), "TUMBLE"); else window_column_name = std::regex_replace(window_id_name, std::regex("WINDOW_ID"), "HOP"); clean_cache_task = wv_context->getSchedulePool().createTask(getStorageID().getFullTableName(), [this] { threadFuncCleanup(); }); if (is_proctime) fire_task = wv_context->getSchedulePool().createTask(getStorageID().getFullTableName(), [this] { threadFuncFireProc(); }); else fire_task = wv_context->getSchedulePool().createTask(getStorageID().getFullTableName(), [this] { threadFuncFireEvent(); }); clean_cache_task->deactivate(); fire_task->deactivate(); } ASTPtr StorageWindowView::innerQueryParser(ASTSelectQuery & query) { if (!query.groupBy()) throw Exception("GROUP BY query is required for " + getName(), ErrorCodes::INCORRECT_QUERY); // parse stage mergeable ASTPtr result = query.clone(); ASTPtr expr_list = result; MergeableQueryVisitorData stage_mergeable_data; InDepthNodeVisitor, true>(stage_mergeable_data).visit(expr_list); if (!stage_mergeable_data.is_tumble && !stage_mergeable_data.is_hop) throw Exception("WINDOW FUNCTION is not specified for " + getName(), ErrorCodes::INCORRECT_QUERY); window_id_name = stage_mergeable_data.window_id_name; window_id_alias = stage_mergeable_data.window_id_alias; timestamp_column_name = stage_mergeable_data.timestamp_column_name; is_tumble = stage_mergeable_data.is_tumble; // parser window function ASTFunction & window_function = typeid_cast(*stage_mergeable_data.window_function); const auto & arguments = window_function.arguments->children; const auto & arg1 = std::static_pointer_cast(arguments.at(1)); if (!arg1 || !startsWith(arg1->name, "toInterval")) throw Exception("Illegal type of second argument of function " + arg1->name + " should be Interval", ErrorCodes::ILLEGAL_COLUMN); window_kind = strToIntervalKind(arg1->name.substr(10)); const auto & interval_units_p1 = std::static_pointer_cast(arg1->children.front()->children.front()); window_num_units = stoi(interval_units_p1->value.get()); if (window_num_units <= 0) throw Exception("Interval value for WINDOW function must be positive.", ErrorCodes::ARGUMENT_OUT_OF_BOUND); if (!is_tumble) { hop_kind = window_kind; hop_num_units = window_num_units; const auto & arg2 = std::static_pointer_cast(arguments.at(2)); if (!arg2 || !startsWith(arg2->name, "toInterval")) throw Exception("Illegal type of last argument of function " + arg2->name + " should be Interval", ErrorCodes::ILLEGAL_COLUMN); window_kind = strToIntervalKind(arg2->name.substr(10)); const auto & interval_units_p2 = std::static_pointer_cast(arg2->children.front()->children.front()); window_num_units = stoi(interval_units_p2->value.get()); if (window_num_units <= 0) throw Exception("Interval value for WINDOW function must be positive.", ErrorCodes::ARGUMENT_OUT_OF_BOUND); slice_num_units= std::gcd(hop_num_units, window_num_units); } return result; } void StorageWindowView::writeIntoWindowView(StorageWindowView & window_view, const Block & block, const Context & context) { Pipe pipe(std::make_shared(block.cloneEmpty(), Chunk(block.getColumns(), block.rows()))); BlockInputStreamPtr source_stream; std::shared_lock fire_signal_lock; if (window_view.is_proctime) { fire_signal_lock = std::shared_lock(window_view.fire_signal_mutex); if (window_view.is_time_column_func_now) pipe.addSimpleTransform(std::make_shared>( pipe.getHeader(), std::make_shared(), std::time(nullptr), "____timestamp")); InterpreterSelectQuery select_block(window_view.getMergeableQuery(), context, {std::move(pipe)}, QueryProcessingStage::WithMergeableState); source_stream = select_block.execute().getInputStream(); source_stream = std::make_shared( source_stream, context.getSettingsRef().min_insert_block_size_rows, context.getSettingsRef().min_insert_block_size_bytes); } else { UInt32 t_max_fired_watermark = 0; if (window_view.allowed_lateness) { UInt32 t_max_timestamp = 0; UInt32 t_max_watermark = 0; { std::lock_guard lock(window_view.fire_signal_mutex); t_max_fired_watermark = window_view.max_fired_watermark; t_max_watermark = window_view.max_watermark; t_max_timestamp = window_view.max_timestamp; } if (t_max_timestamp!= 0) { UInt32 lateness_bound = window_view.addTime(t_max_timestamp, window_view.lateness_kind, -1 * window_view.lateness_num_units); if (window_view.is_watermark_bounded) { UInt32 watermark_lower_bound = window_view.is_tumble ? window_view.addTime(t_max_watermark, window_view.window_kind, -1 * window_view.window_num_units) : window_view.addTime(t_max_watermark, window_view.hop_kind, -1 * window_view.hop_num_units); if (watermark_lower_bound < lateness_bound) lateness_bound = watermark_lower_bound; } ColumnsWithTypeAndName columns; columns.emplace_back(nullptr, std::make_shared(), window_view.timestamp_column_name); ExpressionActionsPtr filter_expressions = std::make_shared(columns, context); filter_expressions->add( ExpressionAction::addColumn({std::make_shared()->createColumnConst(1, toField(lateness_bound)), std::make_shared(), "____lateness_bound"})); const auto & function_greater = FunctionFactory::instance().get("greaterOrEquals", context); filter_expressions->add(ExpressionAction::applyFunction( function_greater, Names{window_view.timestamp_column_name, "____lateness_bound"}, "____filter")); pipe.addSimpleTransform(std::make_shared(pipe.getHeader(), filter_expressions, "____filter", true)); } } InterpreterSelectQuery select_block(window_view.getMergeableQuery(), context, {std::move(pipe)}, QueryProcessingStage::WithMergeableState); source_stream = select_block.execute().getInputStream(); source_stream = std::make_shared( source_stream, context.getSettingsRef().min_insert_block_size_rows, context.getSettingsRef().min_insert_block_size_bytes); source_stream = std::make_shared(source_stream, window_view, window_view.window_id_name); if (window_view.is_watermark_bounded || window_view.allowed_lateness) { UInt32 t_max_timestamp = 0; if (window_view.is_watermark_bounded || window_view.allowed_lateness) { const auto & column_timestamp = block.getByName(window_view.timestamp_column_name).column; const ColumnUInt32::Container & timestamp_data = static_cast(*column_timestamp).getData(); for (const auto & timestamp : timestamp_data) { if (timestamp > t_max_timestamp) t_max_timestamp = timestamp; } } std::static_pointer_cast(source_stream)->setMaxTimestamp(t_max_timestamp); } if (window_view.allowed_lateness && t_max_fired_watermark != 0) std::static_pointer_cast(source_stream)->setAllowedLateness(t_max_fired_watermark); } auto & inner_storage = window_view.getInnerStorage(); auto lock = inner_storage->lockStructureForShare(true, context.getCurrentQueryId(), context.getSettingsRef().lock_acquire_timeout); auto stream = inner_storage->write(window_view.getMergeableQuery(), context); copyData(*source_stream, *stream); } void StorageWindowView::startup() { // Start the working thread clean_cache_task->activateAndSchedule(); fire_task->activateAndSchedule(); } void StorageWindowView::shutdown() { bool expected = false; if (!shutdown_called.compare_exchange_strong(expected, true)) return; clean_cache_task->deactivate(); fire_task->deactivate(); } StorageWindowView::~StorageWindowView() { shutdown(); } Block & StorageWindowView::getHeader() const { std::lock_guard lock(sample_block_lock); if (!sample_block) { sample_block = InterpreterSelectQuery( getFinalQuery(), *wv_context, getParentStorage(), SelectQueryOptions(QueryProcessingStage::Complete)) .getSampleBlock(); for (size_t i = 0; i < sample_block.columns(); ++i) sample_block.safeGetByPosition(i).column = sample_block.safeGetByPosition(i).column->convertToFullColumnIfConst(); } return sample_block; } StoragePtr StorageWindowView::getParentStorage() const { if (parent_storage == nullptr) parent_storage = DatabaseCatalog::instance().getTable(select_table_id, global_context); return parent_storage; } StoragePtr & StorageWindowView::getInnerStorage() const { if (inner_storage == nullptr) inner_storage = DatabaseCatalog::instance().getTable(inner_table_id, global_context); return inner_storage; } ASTPtr StorageWindowView::getFetchColumnQuery(UInt32 w_start, UInt32 w_end) const { auto res_query = std::make_shared(); auto select = std::make_shared(); select->children.push_back(std::make_shared()); res_query->setExpression(ASTSelectQuery::Expression::SELECT, select); res_query->setExpression(ASTSelectQuery::Expression::TABLES, std::make_shared()); auto tables_elem = std::make_shared(); auto table_expr = std::make_shared(); res_query->tables()->children.push_back(tables_elem); tables_elem->table_expression = table_expr; tables_elem->children.push_back(table_expr); table_expr->database_and_table_name = createTableIdentifier(inner_table_id.database_name, inner_table_id.table_name); table_expr->children.push_back(table_expr->database_and_table_name); if (is_tumble) { auto func_equals = makeASTFunction("equals", std::make_shared(window_id_name), std::make_shared(w_end)); res_query->setExpression(ASTSelectQuery::Expression::PREWHERE, func_equals); } else { auto func_array = makeASTFunction("array"); while (w_end > w_start) { func_array ->arguments->children.push_back(std::make_shared(w_end)); w_end = addTime(w_end, window_kind, -1 * slice_num_units); } auto func_has = makeASTFunction("has", func_array, std::make_shared(window_id_name)); res_query->setExpression(ASTSelectQuery::Expression::PREWHERE, func_has); } return res_query; } StoragePtr & StorageWindowView::getTargetStorage() const { if (target_storage == nullptr && !target_table_id.empty()) target_storage = DatabaseCatalog::instance().getTable(target_table_id, global_context); return target_storage; } BlockInputStreamPtr StorageWindowView::getNewBlocksInputStreamPtr(UInt32 watermark) { UInt32 w_start = addTime(watermark, window_kind, -1 * window_num_units); InterpreterSelectQuery fetch(getFetchColumnQuery(w_start, watermark), *wv_context, getInnerStorage(), SelectQueryOptions(QueryProcessingStage::FetchColumns)); BlockInputStreamPtr in_stream = fetch.execute().getInputStream(); in_stream = std::make_shared(in_stream, window_column_name, w_start, watermark); Pipes pipes; pipes.emplace_back(std::make_shared(std::move(in_stream))); auto proxy_storage = std::make_shared( StorageID(getStorageID().database_name, "WindowViewProxyStorage"), getParentStorage()->getColumns(), std::move(pipes), QueryProcessingStage::WithMergeableState); SelectQueryOptions query_options(QueryProcessingStage::Complete); query_options.ignore_limits = true; query_options.ignore_quota = true; InterpreterSelectQuery select(getFinalQuery(), *wv_context, proxy_storage, query_options); BlockInputStreamPtr data = select.execute().getInputStream(); data = std::make_shared( data, global_context.getSettingsRef().min_insert_block_size_rows, global_context.getSettingsRef().min_insert_block_size_bytes); return data; } void registerStorageWindowView(StorageFactory & factory) { factory.registerStorage("WindowView", [](const StorageFactory::Arguments & args) { if (!args.attach && !args.local_context.getSettingsRef().allow_experimental_window_view) throw Exception( "Experimental WINDOW VIEW feature is not enabled (the setting 'allow_experimental_window_view')", ErrorCodes::SUPPORT_IS_DISABLED); return StorageWindowView::create(args.table_id, args.local_context, args.query, args.columns, args.attach); }); } }