rocksdb/db/version_edit.h
Vijay Nadimpalli 979fbdc696 Persistent globally unique DB ID in manifest (#5725)
Summary:
Each DB has a globally unique ID. A DB can be physically copied around, or backed-up and restored, and the users should be identify the same DB. This unique ID right now is stored as plain text in file IDENTITY under the DB directory. This approach introduces at least two problems: (1) the file is not checksumed; (2) the source of truth of a DB is the manifest file, which can be copied separately from IDENTITY file, causing the DB ID to be wrong.
The goal of this PR is solve this problem by moving the  DB ID to manifest. To begin with we will write to both identity file and manifest. Write to Manifest is controlled via the flag write_dbid_to_manifest in Options and default is false.
Pull Request resolved: https://github.com/facebook/rocksdb/pull/5725

Test Plan: Added unit tests.

Differential Revision: D16963840

Pulled By: vjnadimpalli

fbshipit-source-id: 8a86a4c8c82c716003c40fd6b9d2d758030d92e9
2019-09-03 08:52:24 -07:00

371 lines
12 KiB
C++

// 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).
//
// Copyright (c) 2011 The LevelDB Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file. See the AUTHORS file for names of contributors.
#pragma once
#include <algorithm>
#include <set>
#include <string>
#include <utility>
#include <vector>
#include "db/dbformat.h"
#include "memory/arena.h"
#include "rocksdb/cache.h"
#include "util/autovector.h"
namespace rocksdb {
class VersionSet;
const uint64_t kFileNumberMask = 0x3FFFFFFFFFFFFFFF;
extern uint64_t PackFileNumberAndPathId(uint64_t number, uint64_t path_id);
// A copyable structure contains information needed to read data from an SST
// file. It can contain a pointer to a table reader opened for the file, or
// file number and size, which can be used to create a new table reader for it.
// The behavior is undefined when a copied of the structure is used when the
// file is not in any live version any more.
struct FileDescriptor {
// Table reader in table_reader_handle
TableReader* table_reader;
uint64_t packed_number_and_path_id;
uint64_t file_size; // File size in bytes
SequenceNumber smallest_seqno; // The smallest seqno in this file
SequenceNumber largest_seqno; // The largest seqno in this file
FileDescriptor() : FileDescriptor(0, 0, 0) {}
FileDescriptor(uint64_t number, uint32_t path_id, uint64_t _file_size)
: FileDescriptor(number, path_id, _file_size, kMaxSequenceNumber, 0) {}
FileDescriptor(uint64_t number, uint32_t path_id, uint64_t _file_size,
SequenceNumber _smallest_seqno, SequenceNumber _largest_seqno)
: table_reader(nullptr),
packed_number_and_path_id(PackFileNumberAndPathId(number, path_id)),
file_size(_file_size),
smallest_seqno(_smallest_seqno),
largest_seqno(_largest_seqno) {}
FileDescriptor(const FileDescriptor& fd) { *this=fd; }
FileDescriptor& operator=(const FileDescriptor& fd) {
table_reader = fd.table_reader;
packed_number_and_path_id = fd.packed_number_and_path_id;
file_size = fd.file_size;
smallest_seqno = fd.smallest_seqno;
largest_seqno = fd.largest_seqno;
return *this;
}
uint64_t GetNumber() const {
return packed_number_and_path_id & kFileNumberMask;
}
uint32_t GetPathId() const {
return static_cast<uint32_t>(
packed_number_and_path_id / (kFileNumberMask + 1));
}
uint64_t GetFileSize() const { return file_size; }
};
struct FileSampledStats {
FileSampledStats() : num_reads_sampled(0) {}
FileSampledStats(const FileSampledStats& other) { *this = other; }
FileSampledStats& operator=(const FileSampledStats& other) {
num_reads_sampled = other.num_reads_sampled.load();
return *this;
}
// number of user reads to this file.
mutable std::atomic<uint64_t> num_reads_sampled;
};
struct FileMetaData {
FileDescriptor fd;
InternalKey smallest; // Smallest internal key served by table
InternalKey largest; // Largest internal key served by table
// Needs to be disposed when refs becomes 0.
Cache::Handle* table_reader_handle;
FileSampledStats stats;
// Stats for compensating deletion entries during compaction
// File size compensated by deletion entry.
// This is updated in Version::UpdateAccumulatedStats() first time when the
// file is created or loaded. After it is updated (!= 0), it is immutable.
uint64_t compensated_file_size;
// These values can mutate, but they can only be read or written from
// single-threaded LogAndApply thread
uint64_t num_entries; // the number of entries.
uint64_t num_deletions; // the number of deletion entries.
uint64_t raw_key_size; // total uncompressed key size.
uint64_t raw_value_size; // total uncompressed value size.
int refs; // Reference count
bool being_compacted; // Is this file undergoing compaction?
bool init_stats_from_file; // true if the data-entry stats of this file
// has initialized from file.
bool marked_for_compaction; // True if client asked us nicely to compact this
// file.
FileMetaData()
: table_reader_handle(nullptr),
compensated_file_size(0),
num_entries(0),
num_deletions(0),
raw_key_size(0),
raw_value_size(0),
refs(0),
being_compacted(false),
init_stats_from_file(false),
marked_for_compaction(false) {}
// REQUIRED: Keys must be given to the function in sorted order (it expects
// the last key to be the largest).
void UpdateBoundaries(const Slice& key, SequenceNumber seqno) {
if (smallest.size() == 0) {
smallest.DecodeFrom(key);
}
largest.DecodeFrom(key);
fd.smallest_seqno = std::min(fd.smallest_seqno, seqno);
fd.largest_seqno = std::max(fd.largest_seqno, seqno);
}
// Unlike UpdateBoundaries, ranges do not need to be presented in any
// particular order.
void UpdateBoundariesForRange(const InternalKey& start,
const InternalKey& end, SequenceNumber seqno,
const InternalKeyComparator& icmp) {
if (smallest.size() == 0 || icmp.Compare(start, smallest) < 0) {
smallest = start;
}
if (largest.size() == 0 || icmp.Compare(largest, end) < 0) {
largest = end;
}
fd.smallest_seqno = std::min(fd.smallest_seqno, seqno);
fd.largest_seqno = std::max(fd.largest_seqno, seqno);
}
};
// A compressed copy of file meta data that just contain minimum data needed
// to server read operations, while still keeping the pointer to full metadata
// of the file in case it is needed.
struct FdWithKeyRange {
FileDescriptor fd;
FileMetaData* file_metadata; // Point to all metadata
Slice smallest_key; // slice that contain smallest key
Slice largest_key; // slice that contain largest key
FdWithKeyRange()
: fd(),
file_metadata(nullptr),
smallest_key(),
largest_key() {
}
FdWithKeyRange(FileDescriptor _fd, Slice _smallest_key, Slice _largest_key,
FileMetaData* _file_metadata)
: fd(_fd),
file_metadata(_file_metadata),
smallest_key(_smallest_key),
largest_key(_largest_key) {}
};
// Data structure to store an array of FdWithKeyRange in one level
// Actual data is guaranteed to be stored closely
struct LevelFilesBrief {
size_t num_files;
FdWithKeyRange* files;
LevelFilesBrief() {
num_files = 0;
files = nullptr;
}
};
class VersionEdit {
public:
VersionEdit() { Clear(); }
~VersionEdit() { }
void Clear();
void SetDBId(const std::string& db_id) {
has_db_id_ = true;
db_id_ = db_id;
}
void SetComparatorName(const Slice& name) {
has_comparator_ = true;
comparator_ = name.ToString();
}
void SetLogNumber(uint64_t num) {
has_log_number_ = true;
log_number_ = num;
}
void SetPrevLogNumber(uint64_t num) {
has_prev_log_number_ = true;
prev_log_number_ = num;
}
void SetNextFile(uint64_t num) {
has_next_file_number_ = true;
next_file_number_ = num;
}
void SetLastSequence(SequenceNumber seq) {
has_last_sequence_ = true;
last_sequence_ = seq;
}
void SetMaxColumnFamily(uint32_t max_column_family) {
has_max_column_family_ = true;
max_column_family_ = max_column_family;
}
void SetMinLogNumberToKeep(uint64_t num) {
has_min_log_number_to_keep_ = true;
min_log_number_to_keep_ = num;
}
bool has_db_id() { return has_db_id_; }
bool has_log_number() { return has_log_number_; }
uint64_t log_number() { return log_number_; }
bool has_next_file_number() const { return has_next_file_number_; }
uint64_t next_file_number() const { return next_file_number_; }
// Add the specified file at the specified number.
// REQUIRES: This version has not been saved (see VersionSet::SaveTo)
// REQUIRES: "smallest" and "largest" are smallest and largest keys in file
void AddFile(int level, uint64_t file, uint32_t file_path_id,
uint64_t file_size, const InternalKey& smallest,
const InternalKey& largest, const SequenceNumber& smallest_seqno,
const SequenceNumber& largest_seqno,
bool marked_for_compaction) {
assert(smallest_seqno <= largest_seqno);
FileMetaData f;
f.fd = FileDescriptor(file, file_path_id, file_size, smallest_seqno,
largest_seqno);
f.smallest = smallest;
f.largest = largest;
f.fd.smallest_seqno = smallest_seqno;
f.fd.largest_seqno = largest_seqno;
f.marked_for_compaction = marked_for_compaction;
new_files_.emplace_back(level, std::move(f));
}
void AddFile(int level, const FileMetaData& f) {
assert(f.fd.smallest_seqno <= f.fd.largest_seqno);
new_files_.emplace_back(level, f);
}
// Delete the specified "file" from the specified "level".
void DeleteFile(int level, uint64_t file) {
deleted_files_.insert({level, file});
}
// Number of edits
size_t NumEntries() { return new_files_.size() + deleted_files_.size(); }
bool IsColumnFamilyManipulation() {
return is_column_family_add_ || is_column_family_drop_;
}
void SetColumnFamily(uint32_t column_family_id) {
column_family_ = column_family_id;
}
// set column family ID by calling SetColumnFamily()
void AddColumnFamily(const std::string& name) {
assert(!is_column_family_drop_);
assert(!is_column_family_add_);
assert(NumEntries() == 0);
is_column_family_add_ = true;
column_family_name_ = name;
}
// set column family ID by calling SetColumnFamily()
void DropColumnFamily() {
assert(!is_column_family_drop_);
assert(!is_column_family_add_);
assert(NumEntries() == 0);
is_column_family_drop_ = true;
}
// return true on success.
bool EncodeTo(std::string* dst) const;
Status DecodeFrom(const Slice& src);
const char* DecodeNewFile4From(Slice* input);
typedef std::set<std::pair<int, uint64_t>> DeletedFileSet;
const DeletedFileSet& GetDeletedFiles() { return deleted_files_; }
const std::vector<std::pair<int, FileMetaData>>& GetNewFiles() {
return new_files_;
}
void MarkAtomicGroup(uint32_t remaining_entries) {
is_in_atomic_group_ = true;
remaining_entries_ = remaining_entries;
}
std::string DebugString(bool hex_key = false) const;
std::string DebugJSON(int edit_num, bool hex_key = false) const;
const std::string GetDbId() { return db_id_; }
private:
friend class ReactiveVersionSet;
friend class VersionSet;
friend class Version;
friend class AtomicGroupReadBuffer;
bool GetLevel(Slice* input, int* level, const char** msg);
int max_level_;
std::string db_id_;
std::string comparator_;
uint64_t log_number_;
uint64_t prev_log_number_;
uint64_t next_file_number_;
uint32_t max_column_family_;
// The most recent WAL log number that is deleted
uint64_t min_log_number_to_keep_;
SequenceNumber last_sequence_;
bool has_db_id_;
bool has_comparator_;
bool has_log_number_;
bool has_prev_log_number_;
bool has_next_file_number_;
bool has_last_sequence_;
bool has_max_column_family_;
bool has_min_log_number_to_keep_;
DeletedFileSet deleted_files_;
std::vector<std::pair<int, FileMetaData>> new_files_;
// Each version edit record should have column_family_ set
// If it's not set, it is default (0)
uint32_t column_family_;
// a version edit can be either column_family add or
// column_family drop. If it's column family add,
// it also includes column family name.
bool is_column_family_drop_;
bool is_column_family_add_;
std::string column_family_name_;
bool is_in_atomic_group_;
uint32_t remaining_entries_;
};
} // namespace rocksdb