#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace fs = std::filesystem; namespace DB { static constexpr size_t METADATA_FILE_BUFFER_SIZE = 32768; namespace ErrorCodes { extern const int CANNOT_GET_CREATE_TABLE_QUERY; extern const int NOT_IMPLEMENTED; extern const int LOGICAL_ERROR; extern const int FILE_DOESNT_EXIST; extern const int CANNOT_OPEN_FILE; extern const int INCORRECT_FILE_NAME; extern const int SYNTAX_ERROR; extern const int TABLE_ALREADY_EXISTS; extern const int EMPTY_LIST_OF_COLUMNS_PASSED; extern const int DATABASE_NOT_EMPTY; extern const int INCORRECT_QUERY; } std::pair createTableFromAST( ASTCreateQuery ast_create_query, const String & database_name, const String & table_data_path_relative, ContextMutablePtr context, bool force_restore) { ast_create_query.attach = true; ast_create_query.setDatabase(database_name); if (ast_create_query.select && ast_create_query.isView()) ApplyWithSubqueryVisitor().visit(*ast_create_query.select); if (ast_create_query.as_table_function) { const auto & factory = TableFunctionFactory::instance(); auto table_function = factory.get(ast_create_query.as_table_function, context); ColumnsDescription columns; if (ast_create_query.columns_list && ast_create_query.columns_list->columns) columns = InterpreterCreateQuery::getColumnsDescription(*ast_create_query.columns_list->columns, context, true); StoragePtr storage = table_function->execute(ast_create_query.as_table_function, context, ast_create_query.getTable(), std::move(columns)); storage->renameInMemory(ast_create_query); return {ast_create_query.getTable(), storage}; } ColumnsDescription columns; ConstraintsDescription constraints; if (!ast_create_query.is_dictionary) { /// We do not directly use `InterpreterCreateQuery::execute`, because /// - the database has not been loaded yet; /// - the code is simpler, since the query is already brought to a suitable form. if (!ast_create_query.columns_list || !ast_create_query.columns_list->columns) { if (!ast_create_query.storage || !ast_create_query.storage->engine) throw Exception(ErrorCodes::LOGICAL_ERROR, "Invalid storage definition in metadata file: " "it's a bug or result of manual intervention in metadata files"); if (!StorageFactory::instance().checkIfStorageSupportsSchemaInterface(ast_create_query.storage->engine->name)) throw Exception("Missing definition of columns.", ErrorCodes::EMPTY_LIST_OF_COLUMNS_PASSED); /// Leave columns empty. } else { columns = InterpreterCreateQuery::getColumnsDescription(*ast_create_query.columns_list->columns, context, true); constraints = InterpreterCreateQuery::getConstraintsDescription(ast_create_query.columns_list->constraints); } } return { ast_create_query.getTable(), StorageFactory::instance().get( ast_create_query, table_data_path_relative, context, context->getGlobalContext(), columns, constraints, force_restore) }; } String getObjectDefinitionFromCreateQuery(const ASTPtr & query) { ASTPtr query_clone = query->clone(); auto * create = query_clone->as(); if (!create) { WriteBufferFromOwnString query_buf; formatAST(*query, query_buf, true); throw Exception(ErrorCodes::LOGICAL_ERROR, "Query '{}' is not CREATE query", query_buf.str()); } if (!create->is_dictionary) create->attach = true; /// We remove everything that is not needed for ATTACH from the query. assert(!create->temporary); create->database.reset(); create->as_database.clear(); create->as_table.clear(); create->if_not_exists = false; create->is_populate = false; create->replace_view = false; create->replace_table = false; create->create_or_replace = false; /// For views it is necessary to save the SELECT query itself, for the rest - on the contrary if (!create->isView()) create->select = nullptr; create->format = nullptr; create->out_file = nullptr; if (create->uuid != UUIDHelpers::Nil) create->setTable(TABLE_WITH_UUID_NAME_PLACEHOLDER); WriteBufferFromOwnString statement_buf; formatAST(*create, statement_buf, false); writeChar('\n', statement_buf); return statement_buf.str(); } DatabaseOnDisk::DatabaseOnDisk( const String & name, const String & metadata_path_, const String & data_path_, const String & logger, ContextPtr local_context) : DatabaseWithOwnTablesBase(name, logger, local_context) , metadata_path(metadata_path_) , data_path(data_path_) { fs::create_directories(local_context->getPath() + data_path); fs::create_directories(metadata_path); } void DatabaseOnDisk::createTable( ContextPtr local_context, const String & table_name, const StoragePtr & table, const ASTPtr & query) { const auto & settings = local_context->getSettingsRef(); const auto & create = query->as(); assert(table_name == create.getTable()); /// Create a file with metadata if necessary - if the query is not ATTACH. /// Write the query of `ATTACH table` to it. /** The code is based on the assumption that all threads share the same order of operations * - creating the .sql.tmp file; * - adding a table to `tables`; * - rename .sql.tmp to .sql. */ /// A race condition would be possible if a table with the same name is simultaneously created using CREATE and using ATTACH. /// But there is protection from it - see using DDLGuard in InterpreterCreateQuery. if (isTableExist(table_name, getContext())) throw Exception( ErrorCodes::TABLE_ALREADY_EXISTS, "Table {}.{} already exists", backQuote(getDatabaseName()), backQuote(table_name)); String table_metadata_path = getObjectMetadataPath(table_name); if (create.attach_short_syntax) { /// Metadata already exists, table was detached removeDetachedPermanentlyFlag(local_context, table_name, table_metadata_path, true); attachTable(local_context, table_name, table, getTableDataPath(create)); return; } if (!create.attach) checkMetadataFilenameAvailability(table_name); if (create.attach && fs::exists(table_metadata_path)) { ASTPtr ast_detached = parseQueryFromMetadata(log, local_context, table_metadata_path); auto & create_detached = ast_detached->as(); // either both should be Nil, either values should be equal if (create.uuid != create_detached.uuid) throw Exception( ErrorCodes::TABLE_ALREADY_EXISTS, "Table {}.{} already exist (detached permanently). To attach it back " "you need to use short ATTACH syntax or a full statement with the same UUID", backQuote(getDatabaseName()), backQuote(table_name)); } String table_metadata_tmp_path = table_metadata_path + create_suffix; String statement; { statement = getObjectDefinitionFromCreateQuery(query); /// Exclusive flags guarantees, that table is not created right now in another thread. Otherwise, exception will be thrown. WriteBufferFromFile out(table_metadata_tmp_path, statement.size(), O_WRONLY | O_CREAT | O_EXCL); writeString(statement, out); out.next(); if (settings.fsync_metadata) out.sync(); out.close(); } commitCreateTable(create, table, table_metadata_tmp_path, table_metadata_path, local_context); removeDetachedPermanentlyFlag(local_context, table_name, table_metadata_path, false); } /// If the table was detached permanently we will have a flag file with /// .sql.detached extension, is not needed anymore since we attached the table back void DatabaseOnDisk::removeDetachedPermanentlyFlag(ContextPtr, const String & table_name, const String & table_metadata_path, bool) const { try { fs::path detached_permanently_flag(table_metadata_path + detached_suffix); if (fs::exists(detached_permanently_flag)) fs::remove(detached_permanently_flag); } catch (Exception & e) { e.addMessage("while trying to remove permanently detached flag. Table {}.{} may still be marked as permanently detached, and will not be reattached during server restart.", backQuote(getDatabaseName()), backQuote(table_name)); throw; } } void DatabaseOnDisk::commitCreateTable(const ASTCreateQuery & query, const StoragePtr & table, const String & table_metadata_tmp_path, const String & table_metadata_path, ContextPtr query_context) { try { /// Add a table to the map of known tables. attachTable(query_context, query.getTable(), table, getTableDataPath(query)); /// If it was ATTACH query and file with table metadata already exist /// (so, ATTACH is done after DETACH), then rename atomically replaces old file with new one. fs::rename(table_metadata_tmp_path, table_metadata_path); } catch (...) { fs::remove(table_metadata_tmp_path); throw; } } void DatabaseOnDisk::detachTablePermanently(ContextPtr query_context, const String & table_name) { auto table = detachTable(query_context, table_name); fs::path detached_permanently_flag(getObjectMetadataPath(table_name) + detached_suffix); try { FS::createFile(detached_permanently_flag); } catch (Exception & e) { e.addMessage("while trying to set permanently detached flag. Table {}.{} may be reattached during server restart.", backQuote(getDatabaseName()), backQuote(table_name)); throw; } } void DatabaseOnDisk::dropTable(ContextPtr local_context, const String & table_name, bool /*no_delay*/) { String table_metadata_path = getObjectMetadataPath(table_name); String table_metadata_path_drop = table_metadata_path + drop_suffix; String table_data_path_relative = getTableDataPath(table_name); if (table_data_path_relative.empty()) throw Exception(ErrorCodes::LOGICAL_ERROR, "Path is empty"); StoragePtr table = detachTable(local_context, table_name); /// This is possible for Lazy database. if (!table) return; bool renamed = false; try { fs::rename(table_metadata_path, table_metadata_path_drop); renamed = true; table->drop(); table->is_dropped = true; fs::path table_data_dir(local_context->getPath() + table_data_path_relative); if (fs::exists(table_data_dir)) fs::remove_all(table_data_dir); } catch (...) { LOG_WARNING(log, fmt::runtime(getCurrentExceptionMessage(__PRETTY_FUNCTION__))); attachTable(local_context, table_name, table, table_data_path_relative); if (renamed) fs::rename(table_metadata_path_drop, table_metadata_path); throw; } fs::remove(table_metadata_path_drop); } void DatabaseOnDisk::checkMetadataFilenameAvailability(const String & to_table_name) const { std::unique_lock lock(mutex); checkMetadataFilenameAvailabilityUnlocked(to_table_name, lock); } void DatabaseOnDisk::checkMetadataFilenameAvailabilityUnlocked(const String & to_table_name, std::unique_lock &) const { String table_metadata_path = getObjectMetadataPath(to_table_name); if (fs::exists(table_metadata_path)) { fs::path detached_permanently_flag(table_metadata_path + detached_suffix); if (fs::exists(detached_permanently_flag)) throw Exception(ErrorCodes::TABLE_ALREADY_EXISTS, "Table {}.{} already exists (detached permanently)", backQuote(database_name), backQuote(to_table_name)); else throw Exception(ErrorCodes::TABLE_ALREADY_EXISTS, "Table {}.{} already exists (detached)", backQuote(database_name), backQuote(to_table_name)); } } void DatabaseOnDisk::renameTable( ContextPtr local_context, const String & table_name, IDatabase & to_database, const String & to_table_name, bool exchange, bool dictionary) { if (exchange) throw Exception("Tables can be exchanged only in Atomic databases", ErrorCodes::NOT_IMPLEMENTED); bool from_ordinary_to_atomic = false; bool from_atomic_to_ordinary = false; if (typeid(*this) != typeid(to_database)) { if (typeid_cast(this) && typeid_cast(&to_database)) from_ordinary_to_atomic = true; else if (typeid_cast(this) && typeid_cast(&to_database)) from_atomic_to_ordinary = true; else if (dynamic_cast(this) && typeid_cast(&to_database) && getEngineName() == "Replicated") from_atomic_to_ordinary = true; else throw Exception("Moving tables between databases of different engines is not supported", ErrorCodes::NOT_IMPLEMENTED); } auto table_data_relative_path = getTableDataPath(table_name); TableExclusiveLockHolder table_lock; String table_metadata_path; ASTPtr attach_query; /// DatabaseLazy::detachTable may return nullptr even if table exists, so we need tryGetTable for this case. StoragePtr table = tryGetTable(table_name, local_context); if (dictionary && table && !table->isDictionary()) throw Exception("Use RENAME/EXCHANGE TABLE (instead of RENAME/EXCHANGE DICTIONARY) for tables", ErrorCodes::INCORRECT_QUERY); detachTable(local_context, table_name); UUID prev_uuid = UUIDHelpers::Nil; try { table_lock = table->lockExclusively( local_context->getCurrentQueryId(), local_context->getSettingsRef().lock_acquire_timeout); table_metadata_path = getObjectMetadataPath(table_name); attach_query = parseQueryFromMetadata(log, local_context, table_metadata_path); auto & create = attach_query->as(); create.setDatabase(to_database.getDatabaseName()); create.setTable(to_table_name); if (from_ordinary_to_atomic) create.uuid = UUIDHelpers::generateV4(); if (from_atomic_to_ordinary) std::swap(create.uuid, prev_uuid); if (auto * target_db = dynamic_cast(&to_database)) target_db->checkMetadataFilenameAvailability(to_table_name); /// Notify the table that it is renamed. It will move data to new path (if it stores data on disk) and update StorageID table->rename(to_database.getTableDataPath(create), StorageID(create)); } catch (const Exception &) { attachTable(local_context, table_name, table, table_data_relative_path); throw; } catch (const Poco::Exception & e) { attachTable(local_context, table_name, table, table_data_relative_path); /// Better diagnostics. throw Exception{Exception::CreateFromPocoTag{}, e}; } /// Now table data are moved to new database, so we must add metadata and attach table to new database to_database.createTable(local_context, to_table_name, table, attach_query); fs::remove(table_metadata_path); if (from_atomic_to_ordinary) { auto & atomic_db = dynamic_cast(*this); /// Special case: usually no actions with symlinks are required when detaching/attaching table, /// but not when moving from Atomic database to Ordinary if (table->storesDataOnDisk()) atomic_db.tryRemoveSymlink(table_name); /// Forget about UUID, now it's possible to reuse it for new table DatabaseCatalog::instance().removeUUIDMappingFinally(prev_uuid); atomic_db.setDetachedTableNotInUseForce(prev_uuid); } } /// It returns create table statement (even if table is detached) ASTPtr DatabaseOnDisk::getCreateTableQueryImpl(const String & table_name, ContextPtr, bool throw_on_error) const { ASTPtr ast; StoragePtr storage = tryGetTable(table_name, getContext()); bool has_table = storage != nullptr; bool is_system_storage = false; if (has_table) is_system_storage = storage->isSystemStorage(); auto table_metadata_path = getObjectMetadataPath(table_name); try { ast = getCreateQueryFromMetadata(table_metadata_path, throw_on_error); } catch (const Exception & e) { if (!has_table && e.code() == ErrorCodes::FILE_DOESNT_EXIST && throw_on_error) throw Exception{"Table " + backQuote(table_name) + " doesn't exist", ErrorCodes::CANNOT_GET_CREATE_TABLE_QUERY}; else if (is_system_storage) ast = getCreateQueryFromStorage(table_name, storage, throw_on_error); else if (throw_on_error) throw; } return ast; } ASTPtr DatabaseOnDisk::getCreateDatabaseQuery() const { ASTPtr ast; auto settings = getContext()->getSettingsRef(); { std::lock_guard lock(mutex); auto database_metadata_path = getContext()->getPath() + "metadata/" + escapeForFileName(database_name) + ".sql"; ast = parseQueryFromMetadata(log, getContext(), database_metadata_path, true); auto & ast_create_query = ast->as(); ast_create_query.attach = false; ast_create_query.setDatabase(database_name); } if (!ast) { /// Handle databases (such as default) for which there are no database.sql files. /// If database.sql doesn't exist, then engine is Ordinary String query = "CREATE DATABASE " + backQuoteIfNeed(getDatabaseName()) + " ENGINE = Ordinary"; ParserCreateQuery parser; ast = parseQuery(parser, query.data(), query.data() + query.size(), "", 0, settings.max_parser_depth); } if (const auto database_comment = getDatabaseComment(); !database_comment.empty()) { auto & ast_create_query = ast->as(); ast_create_query.set(ast_create_query.comment, std::make_shared(database_comment)); } return ast; } void DatabaseOnDisk::drop(ContextPtr local_context) { assert(tables.empty()); if (local_context->getSettingsRef().force_remove_data_recursively_on_drop) { fs::remove_all(local_context->getPath() + getDataPath()); fs::remove_all(getMetadataPath()); } else { try { fs::remove(local_context->getPath() + getDataPath()); fs::remove(getMetadataPath()); } catch (const fs::filesystem_error & e) { if (e.code() != std::errc::directory_not_empty) throw Exception(Exception::CreateFromSTDTag{}, e); throw Exception(ErrorCodes::DATABASE_NOT_EMPTY, "Cannot drop: {}. " "Probably database contain some detached tables or metadata leftovers from Ordinary engine. " "If you want to remove all data anyway, try to attach database back and drop it again " "with enabled force_remove_data_recursively_on_drop setting", e.what()); } } } String DatabaseOnDisk::getObjectMetadataPath(const String & object_name) const { return getMetadataPath() + escapeForFileName(object_name) + ".sql"; } time_t DatabaseOnDisk::getObjectMetadataModificationTime(const String & object_name) const { String table_metadata_path = getObjectMetadataPath(object_name); if (fs::exists(table_metadata_path)) return FS::getModificationTime(table_metadata_path); else return static_cast(0); } void DatabaseOnDisk::iterateMetadataFiles(ContextPtr local_context, const IteratingFunction & process_metadata_file) const { auto process_tmp_drop_metadata_file = [&](const String & file_name) { assert(getUUID() == UUIDHelpers::Nil); static const char * tmp_drop_ext = ".sql.tmp_drop"; const std::string object_name = file_name.substr(0, file_name.size() - strlen(tmp_drop_ext)); if (fs::exists(local_context->getPath() + getDataPath() + '/' + object_name)) { fs::rename(getMetadataPath() + file_name, getMetadataPath() + object_name + ".sql"); LOG_WARNING(log, "Object {} was not dropped previously and will be restored", backQuote(object_name)); process_metadata_file(object_name + ".sql"); } else { LOG_INFO(log, "Removing file {}", getMetadataPath() + file_name); fs::remove(getMetadataPath() + file_name); } }; /// Metadata files to load: name and flag for .tmp_drop files std::set> metadata_files; fs::directory_iterator dir_end; for (fs::directory_iterator dir_it(getMetadataPath()); dir_it != dir_end; ++dir_it) { String file_name = dir_it->path().filename(); /// For '.svn', '.gitignore' directory and similar. if (file_name.at(0) == '.') continue; /// There are .sql.bak files - skip them. if (endsWith(file_name, ".sql.bak")) continue; /// Permanently detached table flag if (endsWith(file_name, ".sql.detached")) continue; if (endsWith(file_name, ".sql.tmp_drop")) { /// There are files that we tried to delete previously metadata_files.emplace(file_name, false); } else if (endsWith(file_name, ".sql.tmp")) { /// There are files .sql.tmp - delete LOG_INFO(log, "Removing file {}", dir_it->path().string()); fs::remove(dir_it->path()); } else if (endsWith(file_name, ".sql")) { /// The required files have names like `table_name.sql` metadata_files.emplace(file_name, true); } else throw Exception(ErrorCodes::INCORRECT_FILE_NAME, "Incorrect file extension: {} in metadata directory {}", file_name, getMetadataPath()); } /// Read and parse metadata in parallel ThreadPool pool; for (const auto & file : metadata_files) { pool.scheduleOrThrowOnError([&]() { if (file.second) process_metadata_file(file.first); else process_tmp_drop_metadata_file(file.first); }); } pool.wait(); } ASTPtr DatabaseOnDisk::parseQueryFromMetadata( Poco::Logger * logger, ContextPtr local_context, const String & metadata_file_path, bool throw_on_error /*= true*/, bool remove_empty /*= false*/) { String query; int metadata_file_fd = ::open(metadata_file_path.c_str(), O_RDONLY | O_CLOEXEC); if (metadata_file_fd == -1) { if (errno == ENOENT && !throw_on_error) return nullptr; throwFromErrnoWithPath("Cannot open file " + metadata_file_path, metadata_file_path, errno == ENOENT ? ErrorCodes::FILE_DOESNT_EXIST : ErrorCodes::CANNOT_OPEN_FILE); } ReadBufferFromFile in(metadata_file_fd, metadata_file_path, METADATA_FILE_BUFFER_SIZE); readStringUntilEOF(query, in); /** Empty files with metadata are generated after a rough restart of the server. * Remove these files to slightly reduce the work of the admins on startup. */ if (remove_empty && query.empty()) { if (logger) LOG_ERROR(logger, "File {} is empty. Removing.", metadata_file_path); fs::remove(metadata_file_path); return nullptr; } auto settings = local_context->getSettingsRef(); ParserCreateQuery parser; const char * pos = query.data(); std::string error_message; auto ast = tryParseQuery(parser, pos, pos + query.size(), error_message, /* hilite = */ false, "in file " + metadata_file_path, /* allow_multi_statements = */ false, 0, settings.max_parser_depth); if (!ast && throw_on_error) throw Exception(error_message, ErrorCodes::SYNTAX_ERROR); else if (!ast) return nullptr; auto & create = ast->as(); if (create.table && create.uuid != UUIDHelpers::Nil) { String table_name = unescapeForFileName(fs::path(metadata_file_path).stem()); if (create.getTable() != TABLE_WITH_UUID_NAME_PLACEHOLDER && logger) LOG_WARNING( logger, "File {} contains both UUID and table name. Will use name `{}` instead of `{}`", metadata_file_path, table_name, create.getTable()); create.setTable(table_name); } return ast; } ASTPtr DatabaseOnDisk::getCreateQueryFromMetadata(const String & database_metadata_path, bool throw_on_error) const { ASTPtr ast = parseQueryFromMetadata(log, getContext(), database_metadata_path, throw_on_error); if (ast) { auto & ast_create_query = ast->as(); ast_create_query.attach = false; ast_create_query.setDatabase(getDatabaseName()); } return ast; } ASTPtr DatabaseOnDisk::getCreateQueryFromStorage(const String & table_name, const StoragePtr & storage, bool throw_on_error) const { auto metadata_ptr = storage->getInMemoryMetadataPtr(); if (metadata_ptr == nullptr) { if (throw_on_error) throw Exception(ErrorCodes::CANNOT_GET_CREATE_TABLE_QUERY, "Cannot get metadata of {}.{}", backQuote(getDatabaseName()), backQuote(table_name)); else return nullptr; } /// setup create table query storage info. auto ast_engine = std::make_shared(); ast_engine->name = storage->getName(); auto ast_storage = std::make_shared(); ast_storage->set(ast_storage->engine, ast_engine); auto create_table_query = DB::getCreateQueryFromStorage(storage, ast_storage, false, getContext()->getSettingsRef().max_parser_depth, throw_on_error); create_table_query->set(create_table_query->as()->comment, std::make_shared("SYSTEM TABLE is built on the fly.")); return create_table_query; } void DatabaseOnDisk::modifySettingsMetadata(const SettingsChanges & settings_changes, ContextPtr query_context) { std::lock_guard lock(modify_settings_mutex); auto create_query = getCreateDatabaseQuery()->clone(); auto * create = create_query->as(); auto * settings = create->storage->settings; if (settings) { auto & storage_settings = settings->changes; for (const auto & change : settings_changes) { auto it = std::find_if(storage_settings.begin(), storage_settings.end(), [&](const auto & prev){ return prev.name == change.name; }); if (it != storage_settings.end()) it->value = change.value; else storage_settings.push_back(change); } } else { auto storage_settings = std::make_shared(); storage_settings->is_standalone = false; storage_settings->changes = settings_changes; create->storage->set(create->storage->settings, storage_settings->clone()); } create->attach = true; create->if_not_exists = false; WriteBufferFromOwnString statement_buf; formatAST(*create, statement_buf, false); writeChar('\n', statement_buf); String statement = statement_buf.str(); String database_name_escaped = escapeForFileName(database_name); fs::path metadata_root_path = fs::canonical(query_context->getGlobalContext()->getPath()); fs::path metadata_file_tmp_path = fs::path(metadata_root_path) / "metadata" / (database_name_escaped + ".sql.tmp"); fs::path metadata_file_path = fs::path(metadata_root_path) / "metadata" / (database_name_escaped + ".sql"); WriteBufferFromFile out(metadata_file_tmp_path, statement.size(), O_WRONLY | O_CREAT | O_EXCL); writeString(statement, out); out.next(); if (getContext()->getSettingsRef().fsync_metadata) out.sync(); out.close(); fs::rename(metadata_file_tmp_path, metadata_file_path); } }