#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace DB { namespace ErrorCodes { extern const int NUMBER_OF_ARGUMENTS_DOESNT_MATCH; extern const int THERE_IS_NO_COLUMN; extern const int CANNOT_DETACH_DICTIONARY_AS_TABLE; extern const int DICTIONARY_ALREADY_EXISTS; extern const int NOT_IMPLEMENTED; } namespace { void checkNamesAndTypesCompatibleWithDictionary(const String & dictionary_name, const ColumnsDescription & columns, const DictionaryStructure & dictionary_structure) { auto dictionary_names_and_types = StorageDictionary::getNamesAndTypes(dictionary_structure); std::set names_and_types_set(dictionary_names_and_types.begin(), dictionary_names_and_types.end()); for (const auto & column : columns.getOrdinary()) { if (names_and_types_set.find(column) == names_and_types_set.end()) { throw Exception(ErrorCodes::THERE_IS_NO_COLUMN, "Not found column {} {} in dictionary {}. There are only columns {}", column.name, column.type->getName(), backQuote(dictionary_name), StorageDictionary::generateNamesAndTypesDescription(dictionary_names_and_types)); } } } } NamesAndTypesList StorageDictionary::getNamesAndTypes(const DictionaryStructure & dictionary_structure) { NamesAndTypesList dictionary_names_and_types; if (dictionary_structure.id) dictionary_names_and_types.emplace_back(dictionary_structure.id->name, std::make_shared()); /// In old-style (XML) configuration we don't have this attributes in the /// main attribute list, so we have to add them to columns list explicitly. /// In the new configuration (DDL) we have them both in range_* nodes and /// main attribute list, but for compatibility we add them before main /// attributes list. if (dictionary_structure.range_min) dictionary_names_and_types.emplace_back(dictionary_structure.range_min->name, dictionary_structure.range_min->type); if (dictionary_structure.range_max) dictionary_names_and_types.emplace_back(dictionary_structure.range_max->name, dictionary_structure.range_max->type); if (dictionary_structure.key) { for (const auto & attribute : *dictionary_structure.key) dictionary_names_and_types.emplace_back(attribute.name, attribute.type); } for (const auto & attribute : dictionary_structure.attributes) { /// Some attributes can be already added (range_min and range_max) if (!dictionary_names_and_types.contains(attribute.name)) dictionary_names_and_types.emplace_back(attribute.name, attribute.type); } return dictionary_names_and_types; } String StorageDictionary::generateNamesAndTypesDescription(const NamesAndTypesList & list) { WriteBufferFromOwnString ss; bool first = true; for (const auto & name_and_type : list) { if (!std::exchange(first, false)) ss << ", "; ss << name_and_type.name << ' ' << name_and_type.type->getName(); } return ss.str(); } StorageDictionary::StorageDictionary( const StorageID & table_id_, const String & dictionary_name_, const ColumnsDescription & columns_, const String & comment, Location location_, ContextPtr context_) : IStorage(table_id_), WithContext(context_->getGlobalContext()), dictionary_name(dictionary_name_), location(location_) { StorageInMemoryMetadata storage_metadata; storage_metadata.setColumns(columns_); storage_metadata.setComment(comment); setInMemoryMetadata(storage_metadata); } StorageDictionary::StorageDictionary( const StorageID & table_id_, const String & dictionary_name_, const DictionaryStructure & dictionary_structure_, const String & comment, Location location_, ContextPtr context_) : StorageDictionary( table_id_, dictionary_name_, ColumnsDescription{getNamesAndTypes(dictionary_structure_)}, comment, location_, context_) { } StorageDictionary::StorageDictionary( const StorageID & table_id, LoadablesConfigurationPtr dictionary_configuration, ContextPtr context_) : StorageDictionary( table_id, table_id.getFullNameNotQuoted(), context_->getExternalDictionariesLoader().getDictionaryStructure(*dictionary_configuration), dictionary_configuration->getString("dictionary.comment", ""), Location::SameDatabaseAndNameAsDictionary, context_) { configuration = dictionary_configuration; auto repository = std::make_unique(*this); remove_repository_callback = context_->getExternalDictionariesLoader().addConfigRepository(std::move(repository)); } StorageDictionary::~StorageDictionary() { removeDictionaryConfigurationFromRepository(); } void StorageDictionary::checkTableCanBeDropped() const { if (location == Location::SameDatabaseAndNameAsDictionary) throw Exception(ErrorCodes::CANNOT_DETACH_DICTIONARY_AS_TABLE, "Cannot drop/detach dictionary {} as table, use DROP DICTIONARY or DETACH DICTIONARY query instead", dictionary_name); if (location == Location::DictionaryDatabase) throw Exception(ErrorCodes::CANNOT_DETACH_DICTIONARY_AS_TABLE, "Cannot drop/detach table '{}' from a database with DICTIONARY engine, use DROP DICTIONARY or DETACH DICTIONARY query instead", dictionary_name); } void StorageDictionary::checkTableCanBeDetached() const { checkTableCanBeDropped(); } Pipe StorageDictionary::read( const Names & column_names, const StorageSnapshotPtr & /*storage_snapshot*/, SelectQueryInfo & /*query_info*/, ContextPtr local_context, QueryProcessingStage::Enum /*processed_stage*/, const size_t max_block_size, const size_t threads) { auto registered_dictionary_name = location == Location::SameDatabaseAndNameAsDictionary ? getStorageID().getInternalDictionaryName() : dictionary_name; auto dictionary = getContext()->getExternalDictionariesLoader().getDictionary(registered_dictionary_name, local_context); return dictionary->read(column_names, max_block_size, threads); } std::shared_ptr StorageDictionary::getDictionary() const { auto registered_dictionary_name = location == Location::SameDatabaseAndNameAsDictionary ? getStorageID().getInternalDictionaryName() : dictionary_name; return getContext()->getExternalDictionariesLoader().getDictionary(registered_dictionary_name, getContext()); } void StorageDictionary::shutdown() { removeDictionaryConfigurationFromRepository(); } void StorageDictionary::startup() { auto global_context = getContext(); bool lazy_load = global_context->getConfigRef().getBool("dictionaries_lazy_load", true); if (!lazy_load) { const auto & external_dictionaries_loader = global_context->getExternalDictionariesLoader(); /// reloadConfig() is called here to force loading the dictionary. external_dictionaries_loader.reloadConfig(getStorageID().getInternalDictionaryName()); } } void StorageDictionary::removeDictionaryConfigurationFromRepository() { remove_repository_callback.reset(); } Poco::Timestamp StorageDictionary::getUpdateTime() const { std::lock_guard lock(dictionary_config_mutex); return update_time; } LoadablesConfigurationPtr StorageDictionary::getConfiguration() const { std::lock_guard lock(dictionary_config_mutex); return configuration; } void StorageDictionary::renameInMemory(const StorageID & new_table_id) { auto old_table_id = getStorageID(); IStorage::renameInMemory(new_table_id); assert((location == Location::SameDatabaseAndNameAsDictionary) == (getConfiguration().get() != nullptr)); if (location != Location::SameDatabaseAndNameAsDictionary) return; /// It's DDL dictionary, need to update configuration and reload bool move_to_atomic = old_table_id.uuid == UUIDHelpers::Nil && new_table_id.uuid != UUIDHelpers::Nil; bool move_to_ordinary = old_table_id.uuid != UUIDHelpers::Nil && new_table_id.uuid == UUIDHelpers::Nil; assert(old_table_id.uuid == new_table_id.uuid || move_to_atomic || move_to_ordinary); { std::lock_guard lock(dictionary_config_mutex); configuration->setString("dictionary.database", new_table_id.database_name); configuration->setString("dictionary.name", new_table_id.table_name); if (move_to_atomic) configuration->setString("dictionary.uuid", toString(new_table_id.uuid)); else if (move_to_ordinary) configuration->remove("dictionary.uuid"); } /// Dictionary is moving between databases of different engines or is renaming inside Ordinary database bool recreate_dictionary = old_table_id.uuid == UUIDHelpers::Nil || new_table_id.uuid == UUIDHelpers::Nil; if (recreate_dictionary) { /// It's too hard to update both name and uuid, better to reload dictionary with new name removeDictionaryConfigurationFromRepository(); auto repository = std::make_unique(*this); remove_repository_callback = getContext()->getExternalDictionariesLoader().addConfigRepository(std::move(repository)); /// Dictionary will be reloaded lazily to avoid exceptions in the middle of renaming } else { const auto & external_dictionaries_loader = getContext()->getExternalDictionariesLoader(); auto result = external_dictionaries_loader.getLoadResult(old_table_id.getInternalDictionaryName()); if (result.object) { const auto dictionary = std::static_pointer_cast(result.object); dictionary->updateDictionaryName(new_table_id); } external_dictionaries_loader.reloadConfig(old_table_id.getInternalDictionaryName()); dictionary_name = new_table_id.getFullNameNotQuoted(); } } void StorageDictionary::checkAlterIsPossible(const AlterCommands & commands, ContextPtr /* context */) const { for (const auto & command : commands) { if (location == Location::DictionaryDatabase || command.type != AlterCommand::COMMENT_TABLE) throw Exception(ErrorCodes::NOT_IMPLEMENTED, "Alter of type '{}' is not supported by storage {}", command.type, getName()); } } void StorageDictionary::alter(const AlterCommands & params, ContextPtr alter_context, AlterLockHolder & lock_holder) { IStorage::alter(params, alter_context, lock_holder); if (location == Location::Custom) return; auto new_comment = getInMemoryMetadataPtr()->comment; auto storage_id = getStorageID(); const auto & external_dictionaries_loader = getContext()->getExternalDictionariesLoader(); auto result = external_dictionaries_loader.getLoadResult(storage_id.getInternalDictionaryName()); if (result.object) { auto dictionary = std::static_pointer_cast(result.object); auto * dictionary_non_const = const_cast(dictionary.get()); dictionary_non_const->setDictionaryComment(new_comment); } std::lock_guard lock(dictionary_config_mutex); configuration->setString("dictionary.comment", new_comment); } void registerStorageDictionary(StorageFactory & factory) { factory.registerStorage("Dictionary", [](const StorageFactory::Arguments & args) { auto query = args.query; auto local_context = args.getLocalContext(); if (query.is_dictionary) { auto dictionary_id = args.table_id; auto & external_dictionaries_loader = local_context->getExternalDictionariesLoader(); /// A dictionary with the same full name could be defined in *.xml config files. if (external_dictionaries_loader.getCurrentStatus(dictionary_id.getFullNameNotQuoted()) != ExternalLoader::Status::NOT_EXIST) throw Exception(ErrorCodes::DICTIONARY_ALREADY_EXISTS, "Dictionary {} already exists.", dictionary_id.getFullNameNotQuoted()); /// Create dictionary storage that owns underlying dictionary auto abstract_dictionary_configuration = getDictionaryConfigurationFromAST(args.query, local_context, dictionary_id.database_name); auto result_storage = std::make_shared(dictionary_id, abstract_dictionary_configuration, local_context); bool lazy_load = local_context->getConfigRef().getBool("dictionaries_lazy_load", true); if (!args.attach && !lazy_load) { /// load() is called here to force loading the dictionary, wait until the loading is finished, /// and throw an exception if the loading is failed. external_dictionaries_loader.load(dictionary_id.getInternalDictionaryName()); } return result_storage; } else { /// Create dictionary storage that is view of underlying dictionary if (args.engine_args.size() != 1) throw Exception(ErrorCodes::NUMBER_OF_ARGUMENTS_DOESNT_MATCH, "Storage Dictionary requires single parameter: name of dictionary"); args.engine_args[0] = evaluateConstantExpressionOrIdentifierAsLiteral(args.engine_args[0], local_context); String dictionary_name = checkAndGetLiteralArgument(args.engine_args[0], "dictionary_name"); if (!args.attach) { const auto & dictionary = args.getContext()->getExternalDictionariesLoader().getDictionary(dictionary_name, args.getContext()); const DictionaryStructure & dictionary_structure = dictionary->getStructure(); checkNamesAndTypesCompatibleWithDictionary(dictionary_name, args.columns, dictionary_structure); } return std::make_shared( args.table_id, dictionary_name, args.columns, args.comment, StorageDictionary::Location::Custom, local_context); } }); } }