#include #include #include #include #include #include #include #include #include #include #include #include #include #define DBMS_STORAGE_LOG_DATA_FILE_EXTENSION ".bin" namespace DB { using Poco::SharedPtr; TinyLogBlockInputStream::TinyLogBlockInputStream(size_t block_size_, const Names & column_names_, StorageTinyLog & storage_) : block_size(block_size_), column_names(column_names_), storage(storage_), finished(false) { } String TinyLogBlockInputStream::getID() const { std::stringstream res; res << "TinyLog(" << storage.getTableName() << ", " << &storage; for (const auto & name : column_names) res << ", " << name; res << ")"; return res.str(); } Block TinyLogBlockInputStream::readImpl() { Block res; if (finished || (!streams.empty() && streams.begin()->second->compressed.eof())) { /** Закрываем файлы (ещё до уничтожения объекта). * Чтобы при создании многих источников, но одновременном чтении только из нескольких, * буферы не висели в памяти. */ finished = true; streams.clear(); return res; } { /// если в папке нет файлов, то это значит, что таблица пока пуста if (Poco::DirectoryIterator(storage.full_path()) == Poco::DirectoryIterator()) return res; } /// Если файлы не открыты, то открываем их. if (streams.empty()) for (Names::const_iterator it = column_names.begin(); it != column_names.end(); ++it) addStream(*it, *storage.getDataTypeByName(*it)); /// Указатели на столбцы смещений, общие для столбцов из вложенных структур данных typedef std::map OffsetColumns; OffsetColumns offset_columns; for (Names::const_iterator it = column_names.begin(); it != column_names.end(); ++it) { ColumnWithNameAndType column; column.name = *it; column.type = storage.getDataTypeByName(*it); bool read_offsets = true; /// Для вложенных структур запоминаем указатели на столбцы со смещениями if (const DataTypeArray * type_arr = typeid_cast(&*column.type)) { String name = DataTypeNested::extractNestedTableName(column.name); if (offset_columns.count(name) == 0) offset_columns[name] = new ColumnArray::ColumnOffsets_t; else read_offsets = false; /// на предыдущих итерациях смещения уже считали вызовом readData column.column = new ColumnArray(type_arr->getNestedType()->createColumn(), offset_columns[name]); } else column.column = column.type->createColumn(); readData(*it, *column.type, *column.column, block_size, 0, read_offsets); if (column.column->size()) res.insert(column); } if (!res || streams.begin()->second->compressed.eof()) { finished = true; streams.clear(); } return res; } void TinyLogBlockInputStream::addStream(const String & name, const IDataType & type, size_t level) { /// Для массивов используются отдельные потоки для размеров. if (const DataTypeArray * type_arr = typeid_cast(&type)) { String size_name = DataTypeNested::extractNestedTableName(name) + ARRAY_SIZES_COLUMN_NAME_SUFFIX + toString(level); if (!streams.count(size_name)) streams.emplace(size_name, std::unique_ptr(new Stream(storage.files[size_name].data_file.path()))); addStream(name, *type_arr->getNestedType(), level + 1); } else if (const DataTypeNested * type_nested = typeid_cast(&type)) { String size_name = name + ARRAY_SIZES_COLUMN_NAME_SUFFIX + toString(level); streams[size_name].reset(new Stream(storage.files[size_name].data_file.path())); const NamesAndTypesList & columns = *type_nested->getNestedTypesList(); for (NamesAndTypesList::const_iterator it = columns.begin(); it != columns.end(); ++it) addStream(DataTypeNested::concatenateNestedName(name, it->name), *it->type, level + 1); } else streams[name].reset(new Stream(storage.files[name].data_file.path())); } void TinyLogBlockInputStream::readData(const String & name, const IDataType & type, IColumn & column, size_t limit, size_t level, bool read_offsets) { /// Для массивов требуется сначала десериализовать размеры, а потом значения. if (const DataTypeArray * type_arr = typeid_cast(&type)) { if (read_offsets) { type_arr->deserializeOffsets( column, streams[DataTypeNested::extractNestedTableName(name) + ARRAY_SIZES_COLUMN_NAME_SUFFIX + toString(level)]->compressed, limit); } if (column.size()) { IColumn & nested_column = typeid_cast(column).getData(); size_t nested_limit = typeid_cast(column).getOffsets()[column.size() - 1]; readData(name, *type_arr->getNestedType(), nested_column, nested_limit, level + 1); if (nested_column.size() != nested_limit) throw Exception("Cannot read array data for all offsets", ErrorCodes::CANNOT_READ_ALL_DATA); } } else if (const DataTypeNested * type_nested = typeid_cast(&type)) { type_nested->deserializeOffsets( column, streams[name + ARRAY_SIZES_COLUMN_NAME_SUFFIX + toString(level)]->compressed, limit); if (column.size()) { ColumnNested & column_nested = typeid_cast(column); NamesAndTypesList::const_iterator it = type_nested->getNestedTypesList()->begin(); for (size_t i = 0; i < column_nested.getData().size(); ++i, ++it) { readData( DataTypeNested::concatenateNestedName(name, it->name), *it->type, *column_nested.getData()[i], column_nested.getOffsets()[column.size() - 1], level + 1); } } } else type.deserializeBinary(column, streams[name]->compressed, limit); } TinyLogBlockOutputStream::TinyLogBlockOutputStream(StorageTinyLog & storage_) : storage(storage_) { for (const auto & col : storage.getColumnsList()) addStream(col.name, *col.type); } void TinyLogBlockOutputStream::addStream(const String & name, const IDataType & type, size_t level) { /// Для массивов используются отдельные потоки для размеров. if (const DataTypeArray * type_arr = typeid_cast(&type)) { String size_name = DataTypeNested::extractNestedTableName(name) + ARRAY_SIZES_COLUMN_NAME_SUFFIX + toString(level); if (!streams.count(size_name)) streams.emplace(size_name, std::unique_ptr(new Stream(storage.files[size_name].data_file.path(), storage.max_compress_block_size))); addStream(name, *type_arr->getNestedType(), level + 1); } else if (const DataTypeNested * type_nested = typeid_cast(&type)) { String size_name = name + ARRAY_SIZES_COLUMN_NAME_SUFFIX + toString(level); streams[size_name].reset(new Stream(storage.files[size_name].data_file.path(), storage.max_compress_block_size)); const NamesAndTypesList & columns = *type_nested->getNestedTypesList(); for (NamesAndTypesList::const_iterator it = columns.begin(); it != columns.end(); ++it) addStream(DataTypeNested::concatenateNestedName(name, it->name), *it->type, level + 1); } else streams[name].reset(new Stream(storage.files[name].data_file.path(), storage.max_compress_block_size)); } void TinyLogBlockOutputStream::writeData(const String & name, const IDataType & type, const IColumn & column, OffsetColumns & offset_columns, size_t level) { /// Для массивов требуется сначала сериализовать размеры, а потом значения. if (const DataTypeArray * type_arr = typeid_cast(&type)) { String size_name = DataTypeNested::extractNestedTableName(name) + ARRAY_SIZES_COLUMN_NAME_SUFFIX + toString(level); if (offset_columns.count(size_name) == 0) { offset_columns.insert(size_name); type_arr->serializeOffsets( column, streams[size_name]->compressed); } writeData(name, *type_arr->getNestedType(), typeid_cast(column).getData(), offset_columns, level + 1); } else if (const DataTypeNested * type_nested = typeid_cast(&type)) { String size_name = name + ARRAY_SIZES_COLUMN_NAME_SUFFIX + toString(level); type_nested->serializeOffsets(column, streams[size_name]->compressed); const ColumnNested & column_nested = typeid_cast(column); NamesAndTypesList::const_iterator it = type_nested->getNestedTypesList()->begin(); for (size_t i = 0; i < column_nested.getData().size(); ++i, ++it) { writeData( DataTypeNested::concatenateNestedName(name, it->name), *it->type, *column_nested.getData()[i], offset_columns, level + 1); } } else type.serializeBinary(column, streams[name]->compressed); } void TinyLogBlockOutputStream::writeSuffix() { /// Заканчиваем запись. for (FileStreams::iterator it = streams.begin(); it != streams.end(); ++it) it->second->finalize(); std::vector column_files; for (auto & pair : streams) column_files.push_back(storage.files[pair.first].data_file); storage.file_checker.update(column_files.begin(), column_files.end()); streams.clear(); } void TinyLogBlockOutputStream::write(const Block & block) { storage.check(block, true); /// Множество записанных столбцов со смещениями, чтобы не писать общие для вложенных структур столбцы несколько раз OffsetColumns offset_columns; for (size_t i = 0; i < block.columns(); ++i) { const ColumnWithNameAndType & column = block.getByPosition(i); writeData(column.name, *column.type, *column.column, offset_columns); } } StorageTinyLog::StorageTinyLog( const std::string & path_, const std::string & name_, NamesAndTypesListPtr columns_, const NamesAndTypesList & materialized_columns_, const NamesAndTypesList & alias_columns_, const ColumnDefaults & column_defaults_, bool attach, size_t max_compress_block_size_) : IStorage{materialized_columns_, alias_columns_, column_defaults_}, path(path_), name(name_), columns(columns_), max_compress_block_size(max_compress_block_size_), file_checker(path + escapeForFileName(name) + '/' + "sizes.json", *this), log(&Logger::get("StorageTinyLog")) { if (columns->empty()) throw Exception("Empty list of columns passed to StorageTinyLog constructor", ErrorCodes::EMPTY_LIST_OF_COLUMNS_PASSED); String full_path = path + escapeForFileName(name) + '/'; if (!attach) { /// создаём файлы, если их нет if (0 != mkdir(full_path.c_str(), S_IRWXU | S_IRWXG | S_IRWXO) && errno != EEXIST) throwFromErrno("Cannot create directory " + full_path, ErrorCodes::CANNOT_CREATE_DIRECTORY); } for (const auto & col : getColumnsList()) addFile(col.name, *col.type); } StoragePtr StorageTinyLog::create( const std::string & path_, const std::string & name_, NamesAndTypesListPtr columns_, const NamesAndTypesList & materialized_columns_, const NamesAndTypesList & alias_columns_, const ColumnDefaults & column_defaults_, bool attach, size_t max_compress_block_size_) { return (new StorageTinyLog{ path_, name_, columns_, materialized_columns_, alias_columns_, column_defaults_, attach, max_compress_block_size_ })->thisPtr(); } void StorageTinyLog::addFile(const String & column_name, const IDataType & type, size_t level) { if (files.end() != files.find(column_name)) throw Exception("Duplicate column with name " + column_name + " in constructor of StorageTinyLog.", ErrorCodes::DUPLICATE_COLUMN); if (const DataTypeArray * type_arr = typeid_cast(&type)) { String size_column_suffix = ARRAY_SIZES_COLUMN_NAME_SUFFIX + toString(level); String size_name = DataTypeNested::extractNestedTableName(column_name) + size_column_suffix; if (files.end() == files.find(size_name)) { ColumnData column_data; files.insert(std::make_pair(size_name, column_data)); files[size_name].data_file = Poco::File( path + escapeForFileName(name) + '/' + escapeForFileName(DataTypeNested::extractNestedTableName(column_name)) + size_column_suffix + DBMS_STORAGE_LOG_DATA_FILE_EXTENSION); } addFile(column_name, *type_arr->getNestedType(), level + 1); } else if (const DataTypeNested * type_nested = typeid_cast(&type)) { String size_column_suffix = ARRAY_SIZES_COLUMN_NAME_SUFFIX + toString(level); ColumnData column_data; files.insert(std::make_pair(column_name + size_column_suffix, column_data)); files[column_name + size_column_suffix].data_file = Poco::File( path + escapeForFileName(name) + '/' + escapeForFileName(column_name) + size_column_suffix + DBMS_STORAGE_LOG_DATA_FILE_EXTENSION); const NamesAndTypesList & columns = *type_nested->getNestedTypesList(); for (NamesAndTypesList::const_iterator it = columns.begin(); it != columns.end(); ++it) addFile(DataTypeNested::concatenateNestedName(name, it->name), *it->type, level + 1); } else { ColumnData column_data; files.insert(std::make_pair(column_name, column_data)); files[column_name].data_file = Poco::File( path + escapeForFileName(name) + '/' + escapeForFileName(column_name) + DBMS_STORAGE_LOG_DATA_FILE_EXTENSION); } } void StorageTinyLog::rename(const String & new_path_to_db, const String & new_database_name, const String & new_table_name) { /// Переименовываем директорию с данными. Poco::File(path + escapeForFileName(name)).renameTo(new_path_to_db + escapeForFileName(new_table_name)); path = new_path_to_db; name = new_table_name; file_checker.setPath(path + escapeForFileName(name) + "/" + "sizes.json"); for (Files_t::iterator it = files.begin(); it != files.end(); ++it) it->second.data_file = Poco::File(path + escapeForFileName(name) + '/' + Poco::Path(it->second.data_file.path()).getFileName()); } BlockInputStreams StorageTinyLog::read( const Names & column_names, ASTPtr query, const Settings & settings, QueryProcessingStage::Enum & processed_stage, size_t max_block_size, unsigned threads) { check(column_names); processed_stage = QueryProcessingStage::FetchColumns; return BlockInputStreams(1, new TinyLogBlockInputStream(max_block_size, column_names, *this)); } BlockOutputStreamPtr StorageTinyLog::write( ASTPtr query) { return new TinyLogBlockOutputStream(*this); } void StorageTinyLog::drop() { for (Files_t::iterator it = files.begin(); it != files.end(); ++it) if (it->second.data_file.exists()) it->second.data_file.remove(); } bool StorageTinyLog::checkData() const { return file_checker.check(); } StorageTinyLog::Files_t & StorageTinyLog::getFiles() { return files; } TinyLogBlockOutputStream::~TinyLogBlockOutputStream() { writeSuffix(); } }