#include #include #include #include #include #include #include #include #include #include #include namespace DB { namespace { using OffsetColumns = std::map; constexpr auto DATA_FILE_EXTENSION = ".bin"; } namespace ErrorCodes { extern const int MEMORY_LIMIT_EXCEEDED; } MergeTreeReaderWide::MergeTreeReaderWide( DataPartWidePtr data_part_, NamesAndTypesList columns_, const StorageMetadataPtr & metadata_snapshot_, UncompressedCache * uncompressed_cache_, MarkCache * mark_cache_, MarkRanges mark_ranges_, MergeTreeReaderSettings settings_, IMergeTreeDataPart::ValueSizeMap avg_value_size_hints_, const ReadBufferFromFileBase::ProfileCallback & profile_callback_, clockid_t clock_type_) : IMergeTreeReader( data_part_, columns_, metadata_snapshot_, uncompressed_cache_, mark_cache_, mark_ranges_, settings_, avg_value_size_hints_) { try { for (size_t i = 0; i < columns_to_read.size(); ++i) addStreams(columns_to_read[i], serializations[i], profile_callback_, clock_type_); } catch (...) { storage.reportBrokenPart(data_part); throw; } } size_t MergeTreeReaderWide::readRows( size_t from_mark, size_t current_task_last_mark, bool continue_reading, size_t max_rows_to_read, Columns & res_columns) { size_t read_rows = 0; try { size_t num_columns = res_columns.size(); checkNumberOfColumns(num_columns); if (num_columns == 0) return max_rows_to_read; std::unordered_map caches; std::unordered_set prefetched_streams; if (data_part->data_part_storage->isStoredOnRemoteDisk() ? settings.read_settings.remote_fs_prefetch : settings.read_settings.local_fs_prefetch) { /// Request reading of data in advance, /// so if reading can be asynchronous, it will also be performed in parallel for all columns. for (size_t pos = 0; pos < num_columns; ++pos) { try { auto & cache = caches[columns_to_read[pos].getNameInStorage()]; prefetch(columns_to_read[pos], serializations[pos], from_mark, continue_reading, current_task_last_mark, cache, prefetched_streams); } catch (Exception & e) { /// Better diagnostics. e.addMessage("(while reading column " + columns_to_read[pos].name + ")"); throw; } } } for (size_t pos = 0; pos < num_columns; ++pos) { const auto & column_to_read = columns_to_read[pos]; /// The column is already present in the block so we will append the values to the end. bool append = res_columns[pos] != nullptr; if (!append) res_columns[pos] = column_to_read.type->createColumn(*serializations[pos]); auto & column = res_columns[pos]; try { size_t column_size_before_reading = column->size(); auto & cache = caches[column_to_read.getNameInStorage()]; readData( column_to_read, serializations[pos], column, from_mark, continue_reading, current_task_last_mark, max_rows_to_read, cache, /* was_prefetched =*/ !prefetched_streams.empty()); /// For elements of Nested, column_size_before_reading may be greater than column size /// if offsets are not empty and were already read, but elements are empty. if (!column->empty()) read_rows = std::max(read_rows, column->size() - column_size_before_reading); } catch (Exception & e) { /// Better diagnostics. e.addMessage("(while reading column " + column_to_read.name + ")"); throw; } if (column->empty()) res_columns[pos] = nullptr; } /// NOTE: positions for all streams must be kept in sync. /// In particular, even if for some streams there are no rows to be read, /// you must ensure that no seeks are skipped and at this point they all point to to_mark. } catch (Exception & e) { if (e.code() != ErrorCodes::MEMORY_LIMIT_EXCEEDED) storage.reportBrokenPart(data_part); /// Better diagnostics. e.addMessage("(while reading from part " + data_part->data_part_storage->getFullPath() + " " "from mark " + toString(from_mark) + " " "with max_rows_to_read = " + toString(max_rows_to_read) + ")"); throw; } catch (...) { storage.reportBrokenPart(data_part); throw; } return read_rows; } void MergeTreeReaderWide::addStreams( const NameAndTypePair & name_and_type, const SerializationPtr & serialization, const ReadBufferFromFileBase::ProfileCallback & profile_callback, clockid_t clock_type) { ISerialization::StreamCallback callback = [&] (const ISerialization::SubstreamPath & substream_path) { String stream_name = ISerialization::getFileNameForStream(name_and_type, substream_path); if (streams.contains(stream_name)) return; bool data_file_exists = data_part->checksums.files.contains(stream_name + DATA_FILE_EXTENSION); /** If data file is missing then we will not try to open it. * It is necessary since it allows to add new column to structure of the table without creating new files for old parts. */ if (!data_file_exists) return; bool is_lc_dict = substream_path.size() > 1 && substream_path[substream_path.size() - 2].type == ISerialization::Substream::Type::DictionaryKeys; streams.emplace(stream_name, std::make_unique( data_part->data_part_storage, stream_name, DATA_FILE_EXTENSION, data_part->getMarksCount(), all_mark_ranges, settings, mark_cache, uncompressed_cache, data_part->getFileSizeOrZero(stream_name + DATA_FILE_EXTENSION), &data_part->index_granularity_info, profile_callback, clock_type, is_lc_dict)); }; serialization->enumerateStreams(callback); } static ReadBuffer * getStream( bool seek_to_start, const ISerialization::SubstreamPath & substream_path, MergeTreeReaderWide::FileStreams & streams, const NameAndTypePair & name_and_type, size_t from_mark, bool seek_to_mark, size_t current_task_last_mark, ISerialization::SubstreamsCache & cache) { /// If substream have already been read. if (cache.contains(ISerialization::getSubcolumnNameForStream(substream_path))) return nullptr; String stream_name = ISerialization::getFileNameForStream(name_and_type, substream_path); auto it = streams.find(stream_name); if (it == streams.end()) return nullptr; MergeTreeReaderStream & stream = *it->second; stream.adjustRightMark(current_task_last_mark); if (seek_to_start) stream.seekToStart(); else if (seek_to_mark) stream.seekToMark(from_mark); return stream.getDataBuffer(); } void MergeTreeReaderWide::deserializePrefix( const SerializationPtr & serialization, const NameAndTypePair & name_and_type, size_t current_task_last_mark, ISerialization::SubstreamsCache & cache) { const auto & name = name_and_type.name; if (!deserialize_binary_bulk_state_map.contains(name)) { ISerialization::DeserializeBinaryBulkSettings deserialize_settings; deserialize_settings.getter = [&](const ISerialization::SubstreamPath & substream_path) { return getStream(/* seek_to_start = */true, substream_path, streams, name_and_type, 0, /* seek_to_mark = */false, current_task_last_mark, cache); }; serialization->deserializeBinaryBulkStatePrefix(deserialize_settings, deserialize_binary_bulk_state_map[name]); } } void MergeTreeReaderWide::prefetch( const NameAndTypePair & name_and_type, const SerializationPtr & serialization, size_t from_mark, bool continue_reading, size_t current_task_last_mark, ISerialization::SubstreamsCache & cache, std::unordered_set & prefetched_streams) { deserializePrefix(serialization, name_and_type, current_task_last_mark, cache); serialization->enumerateStreams([&](const ISerialization::SubstreamPath & substream_path) { String stream_name = ISerialization::getFileNameForStream(name_and_type, substream_path); if (!prefetched_streams.contains(stream_name)) { bool seek_to_mark = !continue_reading; if (ReadBuffer * buf = getStream(false, substream_path, streams, name_and_type, from_mark, seek_to_mark, current_task_last_mark, cache)) buf->prefetch(); prefetched_streams.insert(stream_name); } }); } void MergeTreeReaderWide::readData( const NameAndTypePair & name_and_type, const SerializationPtr & serialization, ColumnPtr & column, size_t from_mark, bool continue_reading, size_t current_task_last_mark, size_t max_rows_to_read, ISerialization::SubstreamsCache & cache, bool was_prefetched) { double & avg_value_size_hint = avg_value_size_hints[name_and_type.name]; ISerialization::DeserializeBinaryBulkSettings deserialize_settings; deserialize_settings.avg_value_size_hint = avg_value_size_hint; deserializePrefix(serialization, name_and_type, current_task_last_mark, cache); deserialize_settings.getter = [&](const ISerialization::SubstreamPath & substream_path) { bool seek_to_mark = !was_prefetched && !continue_reading; return getStream( /* seek_to_start = */false, substream_path, streams, name_and_type, from_mark, seek_to_mark, current_task_last_mark, cache); }; deserialize_settings.continuous_reading = continue_reading; auto & deserialize_state = deserialize_binary_bulk_state_map[name_and_type.name]; serialization->deserializeBinaryBulkWithMultipleStreams(column, max_rows_to_read, deserialize_settings, deserialize_state, &cache); IDataType::updateAvgValueSizeHint(*column, avg_value_size_hint); } }