mirror of
https://github.com/facebook/rocksdb.git
synced 2024-11-26 07:30:54 +00:00
0a0151fb99
Summary: In direct IO mode, RandomAccessFileReader::Read allocates an internal aligned buffer, and then copies the result into the scratch buffer. If the result is only temporarily used inside a function, there is no need to do the memcpy and just let the result Slice refer to the internally allocated buffer. Pull Request resolved: https://github.com/facebook/rocksdb/pull/6455 Test Plan: make check Differential Revision: D20106753 Pulled By: cheng-chang fbshipit-source-id: 44f505843837bba47a56e3fa2c4dd3bd76486b58
473 lines
17 KiB
C++
473 lines
17 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 <cinttypes>
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#include <string>
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#include "block_fetcher.h"
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#include "file/random_access_file_reader.h"
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#include "logging/logging.h"
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#include "memory/memory_allocator.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_based/block.h"
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#include "table/block_based/block_based_table_reader.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/stop_watch.h"
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#include "util/string_util.h"
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namespace ROCKSDB_NAMESPACE {
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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->get_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_) && 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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Status BlockHandle::DecodeSizeFrom(uint64_t _offset, Slice* input) {
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if (GetVarint64(input, &size_)) {
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offset_ = _offset;
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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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void IndexValue::EncodeTo(std::string* dst, bool have_first_key,
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const BlockHandle* previous_handle) const {
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if (previous_handle) {
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assert(handle.offset() == previous_handle->offset() +
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previous_handle->size() + kBlockTrailerSize);
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PutVarsignedint64(dst, handle.size() - previous_handle->size());
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} else {
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handle.EncodeTo(dst);
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}
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assert(dst->size() != 0);
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if (have_first_key) {
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PutLengthPrefixedSlice(dst, first_internal_key);
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}
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}
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Status IndexValue::DecodeFrom(Slice* input, bool have_first_key,
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const BlockHandle* previous_handle) {
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if (previous_handle) {
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int64_t delta;
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if (!GetVarsignedint64(input, &delta)) {
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return Status::Corruption("bad delta-encoded index value");
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}
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handle = BlockHandle(
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previous_handle->offset() + previous_handle->size() + kBlockTrailerSize,
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previous_handle->size() + delta);
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} else {
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Status s = handle.DecodeFrom(input);
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if (!s.ok()) {
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return s;
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}
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}
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if (!have_first_key) {
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first_internal_key = Slice();
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} else if (!GetLengthPrefixedSlice(input, &first_internal_key)) {
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return Status::Corruption("bad first key in block info");
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}
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return Status::OK();
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}
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std::string IndexValue::ToString(bool hex, bool have_first_key) const {
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std::string s;
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EncodeTo(&s, have_first_key, nullptr);
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if (hex) {
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return Slice(s).ToString(true);
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} else {
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return s;
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}
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}
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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;
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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_NAMESPACE::ToString(table_magic_number_) + "\n ");
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} else {
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result.append("checksum: " + ROCKSDB_NAMESPACE::ToString(checksum_) +
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"\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_NAMESPACE::ToString(version_) +
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"\n ");
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result.append("table_magic_number: " +
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ROCKSDB_NAMESPACE::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("file is too short (" + ToString(file_size) +
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" bytes) to be an "
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"sstable: " +
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file->file_name());
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}
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std::string footer_buf;
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std::unique_ptr<const char[]> internal_buf;
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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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if (file->use_direct_io()) {
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s = file->Read(read_offset, Footer::kMaxEncodedLength, &footer_input,
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nullptr, &internal_buf);
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} else {
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footer_buf.reserve(Footer::kMaxEncodedLength);
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s = file->Read(read_offset, Footer::kMaxEncodedLength, &footer_input,
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&footer_buf[0], nullptr);
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}
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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("file is too short (" + ToString(file_size) +
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" bytes) to be an "
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"sstable" +
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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()) + " 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 UncompressionInfo& uncompression_info, const char* data, size_t n,
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BlockContents* contents, uint32_t format_version,
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const ImmutableCFOptions& ioptions, MemoryAllocator* allocator) {
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CacheAllocationPtr ubuf;
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assert(uncompression_info.type() != kNoCompression &&
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"Invalid compression type");
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StopWatchNano timer(ioptions.env, ShouldReportDetailedTime(
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ioptions.env, ioptions.statistics));
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int decompress_size = 0;
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switch (uncompression_info.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 = AllocateBlock(ulength, allocator);
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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);
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break;
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}
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case kZlibCompression:
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ubuf = Zlib_Uncompress(
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uncompression_info, data, n, &decompress_size,
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GetCompressFormatForVersion(kZlibCompression, format_version),
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allocator);
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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 = BlockContents(std::move(ubuf), decompress_size);
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break;
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case kBZip2Compression:
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ubuf = BZip2_Uncompress(
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data, n, &decompress_size,
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GetCompressFormatForVersion(kBZip2Compression, format_version),
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allocator);
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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 = BlockContents(std::move(ubuf), decompress_size);
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break;
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case kLZ4Compression:
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ubuf = LZ4_Uncompress(
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uncompression_info, data, n, &decompress_size,
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GetCompressFormatForVersion(kLZ4Compression, format_version),
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allocator);
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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 = BlockContents(std::move(ubuf), decompress_size);
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break;
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case kLZ4HCCompression:
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ubuf = LZ4_Uncompress(
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uncompression_info, data, n, &decompress_size,
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GetCompressFormatForVersion(kLZ4HCCompression, format_version),
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allocator);
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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 = BlockContents(std::move(ubuf), decompress_size);
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break;
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case kXpressCompression:
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// XPRESS allocates memory internally, thus no support for custom
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// allocator.
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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 "
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"contents";
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return Status::Corruption(xpress_corrupt_msg);
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}
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*contents = BlockContents(std::move(ubuf), decompress_size);
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break;
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case kZSTD:
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case kZSTDNotFinalCompression:
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ubuf = ZSTD_Uncompress(uncompression_info, data, n, &decompress_size,
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allocator);
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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 = BlockContents(std::move(ubuf), decompress_size);
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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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RecordTimeToHistogram(ioptions.statistics, DECOMPRESSION_TIMES_NANOS,
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timer.ElapsedNanos());
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}
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RecordTimeToHistogram(ioptions.statistics, BYTES_DECOMPRESSED,
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contents->data.size());
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RecordTick(ioptions.statistics, NUMBER_BLOCK_DECOMPRESSED);
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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 UncompressionInfo& uncompression_info,
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const char* data, size_t n,
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BlockContents* contents, uint32_t format_version,
|
|
const ImmutableCFOptions& ioptions,
|
|
MemoryAllocator* allocator) {
|
|
assert(data[n] != kNoCompression);
|
|
assert(data[n] == uncompression_info.type());
|
|
return UncompressBlockContentsForCompressionType(uncompression_info, data, n,
|
|
contents, format_version,
|
|
ioptions, allocator);
|
|
}
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} // namespace ROCKSDB_NAMESPACE
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