// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "table/meta_blocks.h" #include #include #include "block_fetcher.h" #include "db/table_properties_collector.h" #include "file/random_access_file_reader.h" #include "logging/logging.h" #include "rocksdb/options.h" #include "rocksdb/table.h" #include "rocksdb/table_properties.h" #include "table/block_based/block.h" #include "table/block_based/reader_common.h" #include "table/format.h" #include "table/internal_iterator.h" #include "table/persistent_cache_helper.h" #include "table/sst_file_writer_collectors.h" #include "table/table_properties_internal.h" #include "test_util/sync_point.h" #include "util/coding.h" namespace ROCKSDB_NAMESPACE { const std::string kPropertiesBlockName = "rocksdb.properties"; // Old property block name for backward compatibility const std::string kPropertiesBlockOldName = "rocksdb.stats"; const std::string kCompressionDictBlockName = "rocksdb.compression_dict"; const std::string kRangeDelBlockName = "rocksdb.range_del"; MetaIndexBuilder::MetaIndexBuilder() : meta_index_block_(new BlockBuilder(1 /* restart interval */)) {} void MetaIndexBuilder::Add(const std::string& key, const BlockHandle& handle) { std::string handle_encoding; handle.EncodeTo(&handle_encoding); meta_block_handles_.insert({key, handle_encoding}); } Slice MetaIndexBuilder::Finish() { for (const auto& metablock : meta_block_handles_) { meta_index_block_->Add(metablock.first, metablock.second); } return meta_index_block_->Finish(); } // Property block will be read sequentially and cached in a heap located // object, so there's no need for restart points. Thus we set the restart // interval to infinity to save space. PropertyBlockBuilder::PropertyBlockBuilder() : properties_block_(new BlockBuilder( std::numeric_limits::max() /* restart interval */)) {} void PropertyBlockBuilder::Add(const std::string& name, const std::string& val) { props_.insert({name, val}); } void PropertyBlockBuilder::Add(const std::string& name, uint64_t val) { assert(props_.find(name) == props_.end()); std::string dst; PutVarint64(&dst, val); Add(name, dst); } void PropertyBlockBuilder::Add( const UserCollectedProperties& user_collected_properties) { for (const auto& prop : user_collected_properties) { Add(prop.first, prop.second); } } void PropertyBlockBuilder::AddTableProperty(const TableProperties& props) { TEST_SYNC_POINT_CALLBACK("PropertyBlockBuilder::AddTableProperty:Start", const_cast(&props)); Add(TablePropertiesNames::kOriginalFileNumber, props.orig_file_number); Add(TablePropertiesNames::kRawKeySize, props.raw_key_size); Add(TablePropertiesNames::kRawValueSize, props.raw_value_size); Add(TablePropertiesNames::kDataSize, props.data_size); Add(TablePropertiesNames::kIndexSize, props.index_size); if (props.index_partitions != 0) { Add(TablePropertiesNames::kIndexPartitions, props.index_partitions); Add(TablePropertiesNames::kTopLevelIndexSize, props.top_level_index_size); } Add(TablePropertiesNames::kIndexKeyIsUserKey, props.index_key_is_user_key); Add(TablePropertiesNames::kIndexValueIsDeltaEncoded, props.index_value_is_delta_encoded); Add(TablePropertiesNames::kNumEntries, props.num_entries); Add(TablePropertiesNames::kNumFilterEntries, props.num_filter_entries); Add(TablePropertiesNames::kDeletedKeys, props.num_deletions); Add(TablePropertiesNames::kMergeOperands, props.num_merge_operands); Add(TablePropertiesNames::kNumRangeDeletions, props.num_range_deletions); Add(TablePropertiesNames::kNumDataBlocks, props.num_data_blocks); Add(TablePropertiesNames::kFilterSize, props.filter_size); Add(TablePropertiesNames::kFormatVersion, props.format_version); Add(TablePropertiesNames::kFixedKeyLen, props.fixed_key_len); Add(TablePropertiesNames::kColumnFamilyId, props.column_family_id); Add(TablePropertiesNames::kCreationTime, props.creation_time); Add(TablePropertiesNames::kOldestKeyTime, props.oldest_key_time); if (props.file_creation_time > 0) { Add(TablePropertiesNames::kFileCreationTime, props.file_creation_time); } if (props.slow_compression_estimated_data_size > 0) { Add(TablePropertiesNames::kSlowCompressionEstimatedDataSize, props.slow_compression_estimated_data_size); } if (props.fast_compression_estimated_data_size > 0) { Add(TablePropertiesNames::kFastCompressionEstimatedDataSize, props.fast_compression_estimated_data_size); } Add(TablePropertiesNames::kTailStartOffset, props.tail_start_offset); if (!props.db_id.empty()) { Add(TablePropertiesNames::kDbId, props.db_id); } if (!props.db_session_id.empty()) { Add(TablePropertiesNames::kDbSessionId, props.db_session_id); } if (!props.db_host_id.empty()) { Add(TablePropertiesNames::kDbHostId, props.db_host_id); } if (!props.filter_policy_name.empty()) { Add(TablePropertiesNames::kFilterPolicy, props.filter_policy_name); } if (!props.comparator_name.empty()) { Add(TablePropertiesNames::kComparator, props.comparator_name); } if (!props.merge_operator_name.empty()) { Add(TablePropertiesNames::kMergeOperator, props.merge_operator_name); } if (!props.prefix_extractor_name.empty()) { Add(TablePropertiesNames::kPrefixExtractorName, props.prefix_extractor_name); } if (!props.property_collectors_names.empty()) { Add(TablePropertiesNames::kPropertyCollectors, props.property_collectors_names); } if (!props.column_family_name.empty()) { Add(TablePropertiesNames::kColumnFamilyName, props.column_family_name); } if (!props.compression_name.empty()) { Add(TablePropertiesNames::kCompression, props.compression_name); } if (!props.compression_options.empty()) { Add(TablePropertiesNames::kCompressionOptions, props.compression_options); } if (!props.seqno_to_time_mapping.empty()) { Add(TablePropertiesNames::kSequenceNumberTimeMapping, props.seqno_to_time_mapping); } } Slice PropertyBlockBuilder::Finish() { for (const auto& prop : props_) { properties_block_->Add(prop.first, prop.second); } return properties_block_->Finish(); } void LogPropertiesCollectionError(Logger* info_log, const std::string& method, const std::string& name) { assert(method == "Add" || method == "Finish"); std::string msg = "Encountered error when calling TablePropertiesCollector::" + method + "() with collector name: " + name; ROCKS_LOG_ERROR(info_log, "%s", msg.c_str()); } bool NotifyCollectTableCollectorsOnAdd( const Slice& key, const Slice& value, uint64_t file_size, const std::vector>& collectors, Logger* info_log) { bool all_succeeded = true; for (auto& collector : collectors) { Status s = collector->InternalAdd(key, value, file_size); all_succeeded = all_succeeded && s.ok(); if (!s.ok()) { LogPropertiesCollectionError(info_log, "Add" /* method */, collector->Name()); } } return all_succeeded; } void NotifyCollectTableCollectorsOnBlockAdd( const std::vector>& collectors, const uint64_t block_uncomp_bytes, const uint64_t block_compressed_bytes_fast, const uint64_t block_compressed_bytes_slow) { for (auto& collector : collectors) { collector->BlockAdd(block_uncomp_bytes, block_compressed_bytes_fast, block_compressed_bytes_slow); } } bool NotifyCollectTableCollectorsOnFinish( const std::vector>& collectors, Logger* info_log, PropertyBlockBuilder* builder) { bool all_succeeded = true; for (auto& collector : collectors) { UserCollectedProperties user_collected_properties; Status s = collector->Finish(&user_collected_properties); all_succeeded = all_succeeded && s.ok(); if (!s.ok()) { LogPropertiesCollectionError(info_log, "Finish" /* method */, collector->Name()); } else { builder->Add(user_collected_properties); } } return all_succeeded; } // FIXME: should be a parameter for reading table properties to use persistent // cache? Status ReadTablePropertiesHelper( const ReadOptions& ro, const BlockHandle& handle, RandomAccessFileReader* file, FilePrefetchBuffer* prefetch_buffer, const Footer& footer, const ImmutableOptions& ioptions, std::unique_ptr* table_properties, MemoryAllocator* memory_allocator) { assert(table_properties); // If this is an external SST file ingested with write_global_seqno set to // true, then we expect the checksum mismatch because checksum was written // by SstFileWriter, but its global seqno in the properties block may have // been changed during ingestion. For this reason, we initially read // and process without checksum verification, then later try checksum // verification so that if it fails, we can copy to a temporary buffer with // global seqno set to its original value, i.e. 0, and attempt checksum // verification again. ReadOptions modified_ro = ro; modified_ro.verify_checksums = false; BlockContents block_contents; BlockFetcher block_fetcher(file, prefetch_buffer, footer, modified_ro, handle, &block_contents, ioptions, false /* decompress */, false /*maybe_compressed*/, BlockType::kProperties, UncompressionDict::GetEmptyDict(), PersistentCacheOptions::kEmpty, memory_allocator); Status s = block_fetcher.ReadBlockContents(); if (!s.ok()) { return s; } // Unfortunately, Block::size() might not equal block_contents.data.size(), // and Block hides block_contents uint64_t block_size = block_contents.data.size(); Block properties_block(std::move(block_contents)); std::unique_ptr iter(properties_block.NewMetaIterator()); std::unique_ptr new_table_properties{new TableProperties}; // All pre-defined properties of type uint64_t std::unordered_map predefined_uint64_properties = { {TablePropertiesNames::kOriginalFileNumber, &new_table_properties->orig_file_number}, {TablePropertiesNames::kDataSize, &new_table_properties->data_size}, {TablePropertiesNames::kIndexSize, &new_table_properties->index_size}, {TablePropertiesNames::kIndexPartitions, &new_table_properties->index_partitions}, {TablePropertiesNames::kTopLevelIndexSize, &new_table_properties->top_level_index_size}, {TablePropertiesNames::kIndexKeyIsUserKey, &new_table_properties->index_key_is_user_key}, {TablePropertiesNames::kIndexValueIsDeltaEncoded, &new_table_properties->index_value_is_delta_encoded}, {TablePropertiesNames::kFilterSize, &new_table_properties->filter_size}, {TablePropertiesNames::kRawKeySize, &new_table_properties->raw_key_size}, {TablePropertiesNames::kRawValueSize, &new_table_properties->raw_value_size}, {TablePropertiesNames::kNumDataBlocks, &new_table_properties->num_data_blocks}, {TablePropertiesNames::kNumEntries, &new_table_properties->num_entries}, {TablePropertiesNames::kNumFilterEntries, &new_table_properties->num_filter_entries}, {TablePropertiesNames::kDeletedKeys, &new_table_properties->num_deletions}, {TablePropertiesNames::kMergeOperands, &new_table_properties->num_merge_operands}, {TablePropertiesNames::kNumRangeDeletions, &new_table_properties->num_range_deletions}, {TablePropertiesNames::kFormatVersion, &new_table_properties->format_version}, {TablePropertiesNames::kFixedKeyLen, &new_table_properties->fixed_key_len}, {TablePropertiesNames::kColumnFamilyId, &new_table_properties->column_family_id}, {TablePropertiesNames::kCreationTime, &new_table_properties->creation_time}, {TablePropertiesNames::kOldestKeyTime, &new_table_properties->oldest_key_time}, {TablePropertiesNames::kFileCreationTime, &new_table_properties->file_creation_time}, {TablePropertiesNames::kSlowCompressionEstimatedDataSize, &new_table_properties->slow_compression_estimated_data_size}, {TablePropertiesNames::kFastCompressionEstimatedDataSize, &new_table_properties->fast_compression_estimated_data_size}, {TablePropertiesNames::kTailStartOffset, &new_table_properties->tail_start_offset}, }; std::string last_key; for (iter->SeekToFirst(); iter->Valid(); iter->Next()) { s = iter->status(); if (!s.ok()) { break; } auto key = iter->key().ToString(); // properties block should be strictly sorted with no duplicate key. if (!last_key.empty() && BytewiseComparator()->Compare(key, last_key) <= 0) { s = Status::Corruption("properties unsorted"); break; } last_key = key; auto raw_val = iter->value(); auto pos = predefined_uint64_properties.find(key); if (key == ExternalSstFilePropertyNames::kGlobalSeqno) { new_table_properties->external_sst_file_global_seqno_offset = handle.offset() + iter->ValueOffset(); } if (pos != predefined_uint64_properties.end()) { if (key == TablePropertiesNames::kDeletedKeys || key == TablePropertiesNames::kMergeOperands) { // Insert in user-collected properties for API backwards compatibility new_table_properties->user_collected_properties.insert( {key, raw_val.ToString()}); } // handle predefined rocksdb properties uint64_t val; if (!GetVarint64(&raw_val, &val)) { // skip malformed value auto error_msg = "Detect malformed value in properties meta-block:" "\tkey: " + key + "\tval: " + raw_val.ToString(); ROCKS_LOG_ERROR(ioptions.logger, "%s", error_msg.c_str()); continue; } *(pos->second) = val; } else if (key == TablePropertiesNames::kDbId) { new_table_properties->db_id = raw_val.ToString(); } else if (key == TablePropertiesNames::kDbSessionId) { new_table_properties->db_session_id = raw_val.ToString(); } else if (key == TablePropertiesNames::kDbHostId) { new_table_properties->db_host_id = raw_val.ToString(); } else if (key == TablePropertiesNames::kFilterPolicy) { new_table_properties->filter_policy_name = raw_val.ToString(); } else if (key == TablePropertiesNames::kColumnFamilyName) { new_table_properties->column_family_name = raw_val.ToString(); } else if (key == TablePropertiesNames::kComparator) { new_table_properties->comparator_name = raw_val.ToString(); } else if (key == TablePropertiesNames::kMergeOperator) { new_table_properties->merge_operator_name = raw_val.ToString(); } else if (key == TablePropertiesNames::kPrefixExtractorName) { new_table_properties->prefix_extractor_name = raw_val.ToString(); } else if (key == TablePropertiesNames::kPropertyCollectors) { new_table_properties->property_collectors_names = raw_val.ToString(); } else if (key == TablePropertiesNames::kCompression) { new_table_properties->compression_name = raw_val.ToString(); } else if (key == TablePropertiesNames::kCompressionOptions) { new_table_properties->compression_options = raw_val.ToString(); } else if (key == TablePropertiesNames::kSequenceNumberTimeMapping) { new_table_properties->seqno_to_time_mapping = raw_val.ToString(); } else { // handle user-collected properties new_table_properties->user_collected_properties.insert( {key, raw_val.ToString()}); } } // Modified version of BlockFetcher checksum verification // (See write_global_seqno comment above) if (s.ok() && footer.GetBlockTrailerSize() > 0) { s = VerifyBlockChecksum(footer.checksum_type(), properties_block.data(), block_size, file->file_name(), handle.offset()); if (s.IsCorruption()) { if (new_table_properties->external_sst_file_global_seqno_offset != 0) { std::string tmp_buf(properties_block.data(), block_fetcher.GetBlockSizeWithTrailer()); uint64_t global_seqno_offset = new_table_properties->external_sst_file_global_seqno_offset - handle.offset(); EncodeFixed64(&tmp_buf[static_cast(global_seqno_offset)], 0); s = VerifyBlockChecksum(footer.checksum_type(), tmp_buf.data(), block_size, file->file_name(), handle.offset()); } } } if (s.ok()) { *table_properties = std::move(new_table_properties); } return s; } Status ReadTableProperties(RandomAccessFileReader* file, uint64_t file_size, uint64_t table_magic_number, const ImmutableOptions& ioptions, const ReadOptions& read_options, std::unique_ptr* properties, MemoryAllocator* memory_allocator, FilePrefetchBuffer* prefetch_buffer) { BlockHandle block_handle; Footer footer; Status s = FindMetaBlockInFile(file, file_size, table_magic_number, ioptions, read_options, kPropertiesBlockName, &block_handle, memory_allocator, prefetch_buffer, &footer); if (!s.ok()) { return s; } if (!block_handle.IsNull()) { s = ReadTablePropertiesHelper(read_options, block_handle, file, prefetch_buffer, footer, ioptions, properties, memory_allocator); } else { s = Status::NotFound(); } return s; } Status FindOptionalMetaBlock(InternalIterator* meta_index_iter, const std::string& meta_block_name, BlockHandle* block_handle) { assert(block_handle != nullptr); meta_index_iter->Seek(meta_block_name); if (meta_index_iter->status().ok()) { if (meta_index_iter->Valid() && meta_index_iter->key() == meta_block_name) { Slice v = meta_index_iter->value(); return block_handle->DecodeFrom(&v); } else if (meta_block_name == kPropertiesBlockName) { // Have to try old name for compatibility meta_index_iter->Seek(kPropertiesBlockOldName); if (meta_index_iter->status().ok() && meta_index_iter->Valid() && meta_index_iter->key() == kPropertiesBlockOldName) { Slice v = meta_index_iter->value(); return block_handle->DecodeFrom(&v); } } } // else *block_handle = BlockHandle::NullBlockHandle(); return meta_index_iter->status(); } Status FindMetaBlock(InternalIterator* meta_index_iter, const std::string& meta_block_name, BlockHandle* block_handle) { Status s = FindOptionalMetaBlock(meta_index_iter, meta_block_name, block_handle); if (s.ok() && block_handle->IsNull()) { return Status::Corruption("Cannot find the meta block", meta_block_name); } else { return s; } } Status ReadMetaIndexBlockInFile(RandomAccessFileReader* file, uint64_t file_size, uint64_t table_magic_number, const ImmutableOptions& ioptions, const ReadOptions& read_options, BlockContents* metaindex_contents, MemoryAllocator* memory_allocator, FilePrefetchBuffer* prefetch_buffer, Footer* footer_out) { Footer footer; IOOptions opts; Status s; s = file->PrepareIOOptions(read_options, opts); if (!s.ok()) { return s; } s = ReadFooterFromFile(opts, file, *ioptions.fs, prefetch_buffer, file_size, &footer, table_magic_number); if (!s.ok()) { return s; } if (footer_out) { *footer_out = footer; } auto metaindex_handle = footer.metaindex_handle(); return BlockFetcher(file, prefetch_buffer, footer, read_options, metaindex_handle, metaindex_contents, ioptions, false /* do decompression */, false /*maybe_compressed*/, BlockType::kMetaIndex, UncompressionDict::GetEmptyDict(), PersistentCacheOptions::kEmpty, memory_allocator) .ReadBlockContents(); } Status FindMetaBlockInFile( RandomAccessFileReader* file, uint64_t file_size, uint64_t table_magic_number, const ImmutableOptions& ioptions, const ReadOptions& read_options, const std::string& meta_block_name, BlockHandle* block_handle, MemoryAllocator* memory_allocator, FilePrefetchBuffer* prefetch_buffer, Footer* footer_out) { BlockContents metaindex_contents; auto s = ReadMetaIndexBlockInFile( file, file_size, table_magic_number, ioptions, read_options, &metaindex_contents, memory_allocator, prefetch_buffer, footer_out); if (!s.ok()) { return s; } // meta blocks are never compressed. Need to add uncompress logic if we are to // compress it. Block metaindex_block(std::move(metaindex_contents)); std::unique_ptr meta_iter; meta_iter.reset(metaindex_block.NewMetaIterator()); return FindMetaBlock(meta_iter.get(), meta_block_name, block_handle); } Status ReadMetaBlock(RandomAccessFileReader* file, FilePrefetchBuffer* prefetch_buffer, uint64_t file_size, uint64_t table_magic_number, const ImmutableOptions& ioptions, const ReadOptions& read_options, const std::string& meta_block_name, BlockType block_type, BlockContents* contents, MemoryAllocator* memory_allocator) { // TableProperties requires special handling because of checksum issues. // Call ReadTableProperties instead for that case. assert(block_type != BlockType::kProperties); BlockHandle block_handle; Footer footer; Status status = FindMetaBlockInFile(file, file_size, table_magic_number, ioptions, read_options, meta_block_name, &block_handle, memory_allocator, prefetch_buffer, &footer); if (!status.ok()) { return status; } return BlockFetcher(file, prefetch_buffer, footer, read_options, block_handle, contents, ioptions, false /* decompress */, false /*maybe_compressed*/, block_type, UncompressionDict::GetEmptyDict(), PersistentCacheOptions::kEmpty, memory_allocator) .ReadBlockContents(); } } // namespace ROCKSDB_NAMESPACE