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rocksdb/utilities/cache_dump_load_impl.h

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// Copyright (c) Facebook, Inc. and its affiliates. 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).
#pragma once
#include <unordered_map>
#include "file/random_access_file_reader.h"
#include "file/writable_file_writer.h"
#include "rocksdb/utilities/cache_dump_load.h"
#include "table/block_based/block.h"
#include "table/block_based/block_type.h"
#include "table/block_based/cachable_entry.h"
#include "table/block_based/parsed_full_filter_block.h"
#include "table/block_based/reader_common.h"
#include "util/hash_containers.h"
namespace ROCKSDB_NAMESPACE {
// the read buffer size of for the default CacheDumpReader
const unsigned int kDumpReaderBufferSize = 1024; // 1KB
static const unsigned int kSizePrefixLen = 4;
enum CacheDumpUnitType : unsigned char {
kHeader = 1,
kFooter = 2,
kData = 3,
kFilter = 4,
kProperties = 5,
kCompressionDictionary = 6,
kRangeDeletion = 7,
kHashIndexPrefixes = 8,
kHashIndexMetadata = 9,
kMetaIndex = 10,
kIndex = 11,
kDeprecatedFilterBlock = 12, // OBSOLETE / DEPRECATED
kFilterMetaBlock = 13,
kBlockTypeMax,
};
// The metadata of a dump unit. After it is serilized, its size is fixed 16
// bytes.
struct DumpUnitMeta {
// sequence number is a monotonically increasing number to indicate the order
// of the blocks being written. Header is 0.
uint32_t sequence_num;
// The Crc32c checksum of its dump unit.
uint32_t dump_unit_checksum;
// The dump unit size after the dump unit is serilized to a string.
uint64_t dump_unit_size;
void reset() {
sequence_num = 0;
dump_unit_checksum = 0;
dump_unit_size = 0;
}
};
// The data structure to hold a block and its information.
struct DumpUnit {
// The timestamp when the block is identified, copied, and dumped from block
// cache
uint64_t timestamp;
// The type of the block
CacheDumpUnitType type;
// The key of this block when the block is referenced by this Cache
Slice key;
// The block size
size_t value_len;
// The Crc32c checksum of the block
uint32_t value_checksum;
// Pointer to the block. Note that, in the dump process, it points to a memory
// buffer copied from cache block. The buffer is freed when we process the
// next block. In the load process, we use an std::string to store the
// serialized dump_unit read from the reader. So it points to the memory
// address of the begin of the block in this string.
void* value;
DumpUnit() { reset(); }
void reset() {
timestamp = 0;
type = CacheDumpUnitType::kBlockTypeMax;
key.clear();
value_len = 0;
value_checksum = 0;
value = nullptr;
}
};
// The default implementation of the Cache Dumper
class CacheDumperImpl : public CacheDumper {
public:
CacheDumperImpl(const CacheDumpOptions& dump_options,
const std::shared_ptr<Cache>& cache,
std::unique_ptr<CacheDumpWriter>&& writer)
: options_(dump_options), cache_(cache), writer_(std::move(writer)) {}
~CacheDumperImpl() { writer_.reset(); }
Status SetDumpFilter(std::vector<DB*> db_list) override;
IOStatus DumpCacheEntriesToWriter() override;
private:
IOStatus WriteBlock(CacheDumpUnitType type, const Slice& key,
const Slice& value);
IOStatus WriteHeader();
IOStatus WriteFooter();
bool ShouldFilterOut(const Slice& key);
std::function<void(const Slice&, Cache::ObjectPtr, size_t,
const Cache::CacheItemHelper*)>
DumpOneBlockCallBack(std::string& buf);
CacheDumpOptions options_;
std::shared_ptr<Cache> cache_;
std::unique_ptr<CacheDumpWriter> writer_;
SystemClock* clock_;
uint32_t sequence_num_;
// The cache key prefix filter. Currently, we use db_session_id as the prefix,
// so using std::set to store the prefixes as filter is enough. Further
// improvement can be applied like BloomFilter or others to speedup the
// filtering.
std::set<std::string> prefix_filter_;
};
// The default implementation of CacheDumpedLoader
class CacheDumpedLoaderImpl : public CacheDumpedLoader {
public:
CacheDumpedLoaderImpl(const CacheDumpOptions& dump_options,
const BlockBasedTableOptions& /*toptions*/,
const std::shared_ptr<SecondaryCache>& secondary_cache,
std::unique_ptr<CacheDumpReader>&& reader)
: options_(dump_options),
secondary_cache_(secondary_cache),
reader_(std::move(reader)) {}
~CacheDumpedLoaderImpl() {}
IOStatus RestoreCacheEntriesToSecondaryCache() override;
private:
IOStatus ReadDumpUnitMeta(std::string* data, DumpUnitMeta* unit_meta);
IOStatus ReadDumpUnit(size_t len, std::string* data, DumpUnit* unit);
IOStatus ReadHeader(std::string* data, DumpUnit* dump_unit);
IOStatus ReadCacheBlock(std::string* data, DumpUnit* dump_unit);
CacheDumpOptions options_;
std::shared_ptr<SecondaryCache> secondary_cache_;
std::unique_ptr<CacheDumpReader> reader_;
};
// The default implementation of CacheDumpWriter. We write the blocks to a file
// sequentially.
class ToFileCacheDumpWriter : public CacheDumpWriter {
public:
explicit ToFileCacheDumpWriter(
std::unique_ptr<WritableFileWriter>&& file_writer)
: file_writer_(std::move(file_writer)) {}
~ToFileCacheDumpWriter() { Close().PermitUncheckedError(); }
// Write the serialized metadata to the file
virtual IOStatus WriteMetadata(const Slice& metadata) override {
assert(file_writer_ != nullptr);
std::string prefix;
PutFixed32(&prefix, static_cast<uint32_t>(metadata.size()));
IOStatus io_s = file_writer_->Append(Slice(prefix));
if (!io_s.ok()) {
return io_s;
}
io_s = file_writer_->Append(metadata);
return io_s;
}
// Write the serialized data to the file
virtual IOStatus WritePacket(const Slice& data) override {
assert(file_writer_ != nullptr);
std::string prefix;
PutFixed32(&prefix, static_cast<uint32_t>(data.size()));
IOStatus io_s = file_writer_->Append(Slice(prefix));
if (!io_s.ok()) {
return io_s;
}
io_s = file_writer_->Append(data);
return io_s;
}
// Reset the writer
virtual IOStatus Close() override {
file_writer_.reset();
return IOStatus::OK();
}
private:
std::unique_ptr<WritableFileWriter> file_writer_;
};
// The default implementation of CacheDumpReader. It is implemented based on
// RandomAccessFileReader. Note that, we keep an internal variable to remember
// the current offset.
class FromFileCacheDumpReader : public CacheDumpReader {
public:
explicit FromFileCacheDumpReader(
std::unique_ptr<RandomAccessFileReader>&& reader)
: file_reader_(std::move(reader)),
offset_(0),
buffer_(new char[kDumpReaderBufferSize]) {}
~FromFileCacheDumpReader() { delete[] buffer_; }
virtual IOStatus ReadMetadata(std::string* metadata) override {
uint32_t metadata_len = 0;
IOStatus io_s = ReadSizePrefix(&metadata_len);
if (!io_s.ok()) {
return io_s;
}
return Read(metadata_len, metadata);
}
virtual IOStatus ReadPacket(std::string* data) override {
uint32_t data_len = 0;
IOStatus io_s = ReadSizePrefix(&data_len);
if (!io_s.ok()) {
return io_s;
}
return Read(data_len, data);
}
private:
IOStatus ReadSizePrefix(uint32_t* len) {
std::string prefix;
IOStatus io_s = Read(kSizePrefixLen, &prefix);
if (!io_s.ok()) {
return io_s;
}
Slice encoded_slice(prefix);
if (!GetFixed32(&encoded_slice, len)) {
return IOStatus::Corruption("Decode size prefix string failed");
}
return IOStatus::OK();
}
IOStatus Read(size_t len, std::string* data) {
assert(file_reader_ != nullptr);
IOStatus io_s;
unsigned int bytes_to_read = static_cast<unsigned int>(len);
unsigned int to_read = bytes_to_read > kDumpReaderBufferSize
? kDumpReaderBufferSize
: bytes_to_read;
while (to_read > 0) {
io_s = file_reader_->Read(IOOptions(), offset_, to_read, &result_,
buffer_, nullptr,
Env::IO_TOTAL /* rate_limiter_priority */);
if (!io_s.ok()) {
return io_s;
}
if (result_.size() < to_read) {
return IOStatus::Corruption("Corrupted cache dump file.");
}
data->append(result_.data(), result_.size());
offset_ += to_read;
bytes_to_read -= to_read;
to_read = bytes_to_read > kDumpReaderBufferSize ? kDumpReaderBufferSize
: bytes_to_read;
}
return io_s;
}
std::unique_ptr<RandomAccessFileReader> file_reader_;
Slice result_;
size_t offset_;
char* buffer_;
};
// The cache dump and load helper class
class CacheDumperHelper {
public:
// serialize the dump_unit_meta to a string, it is fixed 16 bytes size.
static void EncodeDumpUnitMeta(const DumpUnitMeta& meta, std::string* data) {
assert(data);
PutFixed32(data, static_cast<uint32_t>(meta.sequence_num));
PutFixed32(data, static_cast<uint32_t>(meta.dump_unit_checksum));
PutFixed64(data, meta.dump_unit_size);
}
// Serialize the dump_unit to a string.
static void EncodeDumpUnit(const DumpUnit& dump_unit, std::string* data) {
assert(data);
PutFixed64(data, dump_unit.timestamp);
data->push_back(dump_unit.type);
PutLengthPrefixedSlice(data, dump_unit.key);
PutFixed32(data, static_cast<uint32_t>(dump_unit.value_len));
PutFixed32(data, dump_unit.value_checksum);
PutLengthPrefixedSlice(data,
Slice((char*)dump_unit.value, dump_unit.value_len));
}
// Deserialize the dump_unit_meta from a string
static Status DecodeDumpUnitMeta(const std::string& encoded_data,
DumpUnitMeta* unit_meta) {
assert(unit_meta != nullptr);
Slice encoded_slice = Slice(encoded_data);
if (!GetFixed32(&encoded_slice, &(unit_meta->sequence_num))) {
return Status::Incomplete("Decode dumped unit meta sequence_num failed");
}
if (!GetFixed32(&encoded_slice, &(unit_meta->dump_unit_checksum))) {
return Status::Incomplete(
"Decode dumped unit meta dump_unit_checksum failed");
}
if (!GetFixed64(&encoded_slice, &(unit_meta->dump_unit_size))) {
return Status::Incomplete(
"Decode dumped unit meta dump_unit_size failed");
}
return Status::OK();
}
// Deserialize the dump_unit from a string.
static Status DecodeDumpUnit(const std::string& encoded_data,
DumpUnit* dump_unit) {
assert(dump_unit != nullptr);
Slice encoded_slice = Slice(encoded_data);
// Decode timestamp
if (!GetFixed64(&encoded_slice, &dump_unit->timestamp)) {
return Status::Incomplete("Decode dumped unit string failed");
}
// Decode the block type
dump_unit->type = static_cast<CacheDumpUnitType>(encoded_slice[0]);
encoded_slice.remove_prefix(1);
// Decode the key
if (!GetLengthPrefixedSlice(&encoded_slice, &(dump_unit->key))) {
return Status::Incomplete("Decode dumped unit string failed");
}
// Decode the value size
uint32_t value_len;
if (!GetFixed32(&encoded_slice, &value_len)) {
return Status::Incomplete("Decode dumped unit string failed");
}
dump_unit->value_len = static_cast<size_t>(value_len);
// Decode the value checksum
if (!GetFixed32(&encoded_slice, &(dump_unit->value_checksum))) {
return Status::Incomplete("Decode dumped unit string failed");
}
// Decode the block content and copy to the memory space whose pointer
// will be managed by the cache finally.
Slice block;
if (!GetLengthPrefixedSlice(&encoded_slice, &block)) {
return Status::Incomplete("Decode dumped unit string failed");
}
dump_unit->value = (void*)block.data();
assert(block.size() == dump_unit->value_len);
return Status::OK();
}
};
} // namespace ROCKSDB_NAMESPACE