2f1a3a4d74
Summary: Divide ReadBlockContents() to multiple sub-functions. Maintaining the input and intermediate data in a new class BlockFetcher. I hope in general it makes the code easier to maintain. Another motivation to do it is to clearly divide the logic before file reading and after file reading. The refactor will help us evaluate how can we make I/O async in the future. Closes https://github.com/facebook/rocksdb/pull/3244 Differential Revision: D6520983 Pulled By: siying fbshipit-source-id: 338d90bc0338472d46be7a7682028dc9114b12e9
397 lines
14 KiB
C++
397 lines
14 KiB
C++
// Copyright (c) 2011-present, Facebook, Inc. All rights reserved.
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// This source code is licensed under both the GPLv2 (found in the
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// COPYING file in the root directory) and Apache 2.0 License
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// (found in the LICENSE.Apache file in the root directory).
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//
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// Copyright (c) 2011 The LevelDB Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file. See the AUTHORS file for names of contributors.
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#include "table/format.h"
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#include <string>
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#include <inttypes.h>
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#include "monitoring/perf_context_imp.h"
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#include "monitoring/statistics.h"
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#include "rocksdb/env.h"
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#include "table/block.h"
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#include "table/block_based_table_reader.h"
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#include "table/block_fetcher.h"
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#include "table/persistent_cache_helper.h"
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#include "util/coding.h"
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#include "util/compression.h"
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#include "util/crc32c.h"
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#include "util/file_reader_writer.h"
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#include "util/logging.h"
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#include "util/stop_watch.h"
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#include "util/string_util.h"
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#include "util/xxhash.h"
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namespace rocksdb {
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extern const uint64_t kLegacyBlockBasedTableMagicNumber;
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extern const uint64_t kBlockBasedTableMagicNumber;
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#ifndef ROCKSDB_LITE
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extern const uint64_t kLegacyPlainTableMagicNumber;
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extern const uint64_t kPlainTableMagicNumber;
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#else
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// ROCKSDB_LITE doesn't have plain table
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const uint64_t kLegacyPlainTableMagicNumber = 0;
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const uint64_t kPlainTableMagicNumber = 0;
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#endif
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bool ShouldReportDetailedTime(Env* env, Statistics* stats) {
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return env != nullptr && stats != nullptr &&
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stats->stats_level_ > kExceptDetailedTimers;
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}
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void BlockHandle::EncodeTo(std::string* dst) const {
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// Sanity check that all fields have been set
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assert(offset_ != ~static_cast<uint64_t>(0));
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assert(size_ != ~static_cast<uint64_t>(0));
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PutVarint64Varint64(dst, offset_, size_);
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}
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Status BlockHandle::DecodeFrom(Slice* input) {
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if (GetVarint64(input, &offset_) &&
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GetVarint64(input, &size_)) {
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return Status::OK();
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} else {
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// reset in case failure after partially decoding
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offset_ = 0;
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size_ = 0;
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return Status::Corruption("bad block handle");
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}
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}
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// Return a string that contains the copy of handle.
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std::string BlockHandle::ToString(bool hex) const {
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std::string handle_str;
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EncodeTo(&handle_str);
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if (hex) {
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return Slice(handle_str).ToString(true);
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} else {
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return handle_str;
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}
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}
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const BlockHandle BlockHandle::kNullBlockHandle(0, 0);
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namespace {
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inline bool IsLegacyFooterFormat(uint64_t magic_number) {
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return magic_number == kLegacyBlockBasedTableMagicNumber ||
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magic_number == kLegacyPlainTableMagicNumber;
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}
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inline uint64_t UpconvertLegacyFooterFormat(uint64_t magic_number) {
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if (magic_number == kLegacyBlockBasedTableMagicNumber) {
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return kBlockBasedTableMagicNumber;
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}
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if (magic_number == kLegacyPlainTableMagicNumber) {
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return kPlainTableMagicNumber;
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}
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assert(false);
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return 0;
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}
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} // namespace
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// legacy footer format:
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// metaindex handle (varint64 offset, varint64 size)
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// index handle (varint64 offset, varint64 size)
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// <padding> to make the total size 2 * BlockHandle::kMaxEncodedLength
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// table_magic_number (8 bytes)
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// new footer format:
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// checksum type (char, 1 byte)
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// metaindex handle (varint64 offset, varint64 size)
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// index handle (varint64 offset, varint64 size)
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// <padding> to make the total size 2 * BlockHandle::kMaxEncodedLength + 1
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// footer version (4 bytes)
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// table_magic_number (8 bytes)
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void Footer::EncodeTo(std::string* dst) const {
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assert(HasInitializedTableMagicNumber());
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if (IsLegacyFooterFormat(table_magic_number())) {
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// has to be default checksum with legacy footer
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assert(checksum_ == kCRC32c);
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const size_t original_size = dst->size();
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metaindex_handle_.EncodeTo(dst);
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index_handle_.EncodeTo(dst);
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dst->resize(original_size + 2 * BlockHandle::kMaxEncodedLength); // Padding
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PutFixed32(dst, static_cast<uint32_t>(table_magic_number() & 0xffffffffu));
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PutFixed32(dst, static_cast<uint32_t>(table_magic_number() >> 32));
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assert(dst->size() == original_size + kVersion0EncodedLength);
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} else {
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const size_t original_size = dst->size();
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dst->push_back(static_cast<char>(checksum_));
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metaindex_handle_.EncodeTo(dst);
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index_handle_.EncodeTo(dst);
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dst->resize(original_size + kNewVersionsEncodedLength - 12); // Padding
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PutFixed32(dst, version());
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PutFixed32(dst, static_cast<uint32_t>(table_magic_number() & 0xffffffffu));
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PutFixed32(dst, static_cast<uint32_t>(table_magic_number() >> 32));
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assert(dst->size() == original_size + kNewVersionsEncodedLength);
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}
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}
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Footer::Footer(uint64_t _table_magic_number, uint32_t _version)
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: version_(_version),
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checksum_(kCRC32c),
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table_magic_number_(_table_magic_number) {
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// This should be guaranteed by constructor callers
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assert(!IsLegacyFooterFormat(_table_magic_number) || version_ == 0);
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}
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Status Footer::DecodeFrom(Slice* input) {
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assert(!HasInitializedTableMagicNumber());
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assert(input != nullptr);
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assert(input->size() >= kMinEncodedLength);
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const char *magic_ptr =
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input->data() + input->size() - kMagicNumberLengthByte;
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const uint32_t magic_lo = DecodeFixed32(magic_ptr);
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const uint32_t magic_hi = DecodeFixed32(magic_ptr + 4);
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uint64_t magic = ((static_cast<uint64_t>(magic_hi) << 32) |
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(static_cast<uint64_t>(magic_lo)));
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// We check for legacy formats here and silently upconvert them
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bool legacy = IsLegacyFooterFormat(magic);
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if (legacy) {
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magic = UpconvertLegacyFooterFormat(magic);
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}
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set_table_magic_number(magic);
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if (legacy) {
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// The size is already asserted to be at least kMinEncodedLength
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// at the beginning of the function
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input->remove_prefix(input->size() - kVersion0EncodedLength);
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version_ = 0 /* legacy */;
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checksum_ = kCRC32c;
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} else {
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version_ = DecodeFixed32(magic_ptr - 4);
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// Footer version 1 and higher will always occupy exactly this many bytes.
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// It consists of the checksum type, two block handles, padding,
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// a version number, and a magic number
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if (input->size() < kNewVersionsEncodedLength) {
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return Status::Corruption("input is too short to be an sstable");
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} else {
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input->remove_prefix(input->size() - kNewVersionsEncodedLength);
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}
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uint32_t chksum;
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if (!GetVarint32(input, &chksum)) {
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return Status::Corruption("bad checksum type");
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}
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checksum_ = static_cast<ChecksumType>(chksum);
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}
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Status result = metaindex_handle_.DecodeFrom(input);
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if (result.ok()) {
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result = index_handle_.DecodeFrom(input);
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}
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if (result.ok()) {
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// We skip over any leftover data (just padding for now) in "input"
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const char* end = magic_ptr + kMagicNumberLengthByte;
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*input = Slice(end, input->data() + input->size() - end);
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}
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return result;
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}
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std::string Footer::ToString() const {
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std::string result, handle_;
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result.reserve(1024);
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bool legacy = IsLegacyFooterFormat(table_magic_number_);
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if (legacy) {
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result.append("metaindex handle: " + metaindex_handle_.ToString() + "\n ");
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result.append("index handle: " + index_handle_.ToString() + "\n ");
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result.append("table_magic_number: " +
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rocksdb::ToString(table_magic_number_) + "\n ");
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} else {
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result.append("checksum: " + rocksdb::ToString(checksum_) + "\n ");
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result.append("metaindex handle: " + metaindex_handle_.ToString() + "\n ");
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result.append("index handle: " + index_handle_.ToString() + "\n ");
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result.append("footer version: " + rocksdb::ToString(version_) + "\n ");
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result.append("table_magic_number: " +
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rocksdb::ToString(table_magic_number_) + "\n ");
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}
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return result;
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}
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Status ReadFooterFromFile(RandomAccessFileReader* file,
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FilePrefetchBuffer* prefetch_buffer,
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uint64_t file_size, Footer* footer,
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uint64_t enforce_table_magic_number) {
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if (file_size < Footer::kMinEncodedLength) {
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return Status::Corruption(
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"file is too short (" + ToString(file_size) + " bytes) to be an "
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"sstable: " + file->file_name());
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}
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char footer_space[Footer::kMaxEncodedLength];
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Slice footer_input;
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size_t read_offset =
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(file_size > Footer::kMaxEncodedLength)
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? static_cast<size_t>(file_size - Footer::kMaxEncodedLength)
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: 0;
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Status s;
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if (prefetch_buffer == nullptr ||
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!prefetch_buffer->TryReadFromCache(read_offset, Footer::kMaxEncodedLength,
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&footer_input)) {
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s = file->Read(read_offset, Footer::kMaxEncodedLength, &footer_input,
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footer_space);
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if (!s.ok()) return s;
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}
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// Check that we actually read the whole footer from the file. It may be
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// that size isn't correct.
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if (footer_input.size() < Footer::kMinEncodedLength) {
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return Status::Corruption(
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"file is too short (" + ToString(file_size) + " bytes) to be an "
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"sstable" + file->file_name());
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}
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s = footer->DecodeFrom(&footer_input);
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if (!s.ok()) {
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return s;
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}
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if (enforce_table_magic_number != 0 &&
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enforce_table_magic_number != footer->table_magic_number()) {
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return Status::Corruption(
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"Bad table magic number: expected "
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+ ToString(enforce_table_magic_number) + ", found "
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+ ToString(footer->table_magic_number())
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+ " in " + file->file_name());
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}
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return Status::OK();
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}
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Status UncompressBlockContentsForCompressionType(
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const char* data, size_t n, BlockContents* contents,
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uint32_t format_version, const Slice& compression_dict,
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CompressionType compression_type, const ImmutableCFOptions &ioptions) {
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std::unique_ptr<char[]> ubuf;
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assert(compression_type != kNoCompression && "Invalid compression type");
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StopWatchNano timer(ioptions.env,
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ShouldReportDetailedTime(ioptions.env, ioptions.statistics));
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int decompress_size = 0;
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switch (compression_type) {
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case kSnappyCompression: {
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size_t ulength = 0;
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static char snappy_corrupt_msg[] =
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"Snappy not supported or corrupted Snappy compressed block contents";
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if (!Snappy_GetUncompressedLength(data, n, &ulength)) {
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return Status::Corruption(snappy_corrupt_msg);
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}
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ubuf.reset(new char[ulength]);
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if (!Snappy_Uncompress(data, n, ubuf.get())) {
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return Status::Corruption(snappy_corrupt_msg);
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}
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*contents = BlockContents(std::move(ubuf), ulength, true, kNoCompression);
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break;
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}
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case kZlibCompression:
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ubuf.reset(Zlib_Uncompress(
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data, n, &decompress_size,
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GetCompressFormatForVersion(kZlibCompression, format_version),
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compression_dict));
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if (!ubuf) {
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static char zlib_corrupt_msg[] =
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"Zlib not supported or corrupted Zlib compressed block contents";
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return Status::Corruption(zlib_corrupt_msg);
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}
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*contents =
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BlockContents(std::move(ubuf), decompress_size, true, kNoCompression);
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break;
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case kBZip2Compression:
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ubuf.reset(BZip2_Uncompress(
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data, n, &decompress_size,
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GetCompressFormatForVersion(kBZip2Compression, format_version)));
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if (!ubuf) {
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static char bzip2_corrupt_msg[] =
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"Bzip2 not supported or corrupted Bzip2 compressed block contents";
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return Status::Corruption(bzip2_corrupt_msg);
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}
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*contents =
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BlockContents(std::move(ubuf), decompress_size, true, kNoCompression);
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break;
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case kLZ4Compression:
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ubuf.reset(LZ4_Uncompress(
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data, n, &decompress_size,
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GetCompressFormatForVersion(kLZ4Compression, format_version),
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compression_dict));
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if (!ubuf) {
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static char lz4_corrupt_msg[] =
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"LZ4 not supported or corrupted LZ4 compressed block contents";
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return Status::Corruption(lz4_corrupt_msg);
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}
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*contents =
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BlockContents(std::move(ubuf), decompress_size, true, kNoCompression);
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break;
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case kLZ4HCCompression:
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ubuf.reset(LZ4_Uncompress(
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data, n, &decompress_size,
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GetCompressFormatForVersion(kLZ4HCCompression, format_version),
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compression_dict));
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if (!ubuf) {
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static char lz4hc_corrupt_msg[] =
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"LZ4HC not supported or corrupted LZ4HC compressed block contents";
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return Status::Corruption(lz4hc_corrupt_msg);
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}
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*contents =
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BlockContents(std::move(ubuf), decompress_size, true, kNoCompression);
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break;
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case kXpressCompression:
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ubuf.reset(XPRESS_Uncompress(data, n, &decompress_size));
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if (!ubuf) {
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static char xpress_corrupt_msg[] =
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"XPRESS not supported or corrupted XPRESS compressed block contents";
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return Status::Corruption(xpress_corrupt_msg);
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}
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*contents =
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BlockContents(std::move(ubuf), decompress_size, true, kNoCompression);
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break;
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case kZSTD:
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case kZSTDNotFinalCompression:
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ubuf.reset(ZSTD_Uncompress(data, n, &decompress_size, compression_dict));
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if (!ubuf) {
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static char zstd_corrupt_msg[] =
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"ZSTD not supported or corrupted ZSTD compressed block contents";
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return Status::Corruption(zstd_corrupt_msg);
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}
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*contents =
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BlockContents(std::move(ubuf), decompress_size, true, kNoCompression);
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break;
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default:
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return Status::Corruption("bad block type");
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}
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if(ShouldReportDetailedTime(ioptions.env, ioptions.statistics)){
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MeasureTime(ioptions.statistics, DECOMPRESSION_TIMES_NANOS,
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timer.ElapsedNanos());
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MeasureTime(ioptions.statistics, BYTES_DECOMPRESSED, contents->data.size());
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RecordTick(ioptions.statistics, NUMBER_BLOCK_DECOMPRESSED);
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}
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return Status::OK();
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}
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//
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// The 'data' points to the raw block contents that was read in from file.
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// This method allocates a new heap buffer and the raw block
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// contents are uncompresed into this buffer. This
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// buffer is returned via 'result' and it is upto the caller to
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// free this buffer.
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// format_version is the block format as defined in include/rocksdb/table.h
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Status UncompressBlockContents(const char* data, size_t n,
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BlockContents* contents, uint32_t format_version,
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const Slice& compression_dict,
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const ImmutableCFOptions &ioptions) {
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assert(data[n] != kNoCompression);
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return UncompressBlockContentsForCompressionType(
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data, n, contents, format_version, compression_dict,
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(CompressionType)data[n], ioptions);
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}
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} // namespace rocksdb
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