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rocksdb/include/rocksdb/listener.h

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// Copyright (c) 2014 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.
//
// Copyright (c) Facebook, Inc. and its affiliates. All Rights Reserved.
#pragma once
#include <chrono>
#include <memory>
#include <string>
#include <unordered_map>
#include <vector>
#include "rocksdb/advanced_options.h"
#include "rocksdb/compaction_job_stats.h"
#include "rocksdb/compression_type.h"
#include "rocksdb/customizable.h"
#include "rocksdb/io_status.h"
#include "rocksdb/status.h"
#include "rocksdb/table_properties.h"
#include "rocksdb/types.h"
namespace ROCKSDB_NAMESPACE {
using TablePropertiesCollection =
std::unordered_map<std::string, std::shared_ptr<const TableProperties>>;
class DB;
class ColumnFamilyHandle;
class Status;
struct CompactionJobStats;
struct FileCreationBriefInfo {
FileCreationBriefInfo() = default;
FileCreationBriefInfo(const std::string& _db_name,
const std::string& _cf_name,
const std::string& _file_path, int _job_id)
: db_name(_db_name),
cf_name(_cf_name),
file_path(_file_path),
job_id(_job_id) {}
// the name of the database where the file was created.
std::string db_name;
// the name of the column family where the file was created.
std::string cf_name;
// the path to the created file.
std::string file_path;
// the id of the job (which could be flush or compaction) that
// created the file.
int job_id = 0;
};
struct TableFileCreationBriefInfo : public FileCreationBriefInfo {
// reason of creating the table.
TableFileCreationReason reason;
};
struct TableFileCreationInfo : public TableFileCreationBriefInfo {
TableFileCreationInfo() = default;
explicit TableFileCreationInfo(TableProperties&& prop)
: table_properties(prop) {}
// the size of the file.
uint64_t file_size;
// Detailed properties of the created file.
TableProperties table_properties;
// The status indicating whether the creation was successful or not.
Status status;
// The checksum of the table file being created
std::string file_checksum;
// The checksum function name of checksum generator used for this table file
std::string file_checksum_func_name;
};
struct BlobFileCreationBriefInfo : public FileCreationBriefInfo {
BlobFileCreationBriefInfo(const std::string& _db_name,
const std::string& _cf_name,
const std::string& _file_path, int _job_id,
BlobFileCreationReason _reason)
: FileCreationBriefInfo(_db_name, _cf_name, _file_path, _job_id),
reason(_reason) {}
// reason of creating the blob file.
BlobFileCreationReason reason;
};
struct BlobFileCreationInfo : public BlobFileCreationBriefInfo {
BlobFileCreationInfo(const std::string& _db_name, const std::string& _cf_name,
const std::string& _file_path, int _job_id,
BlobFileCreationReason _reason,
uint64_t _total_blob_count, uint64_t _total_blob_bytes,
Status _status, const std::string& _file_checksum,
const std::string& _file_checksum_func_name)
: BlobFileCreationBriefInfo(_db_name, _cf_name, _file_path, _job_id,
_reason),
total_blob_count(_total_blob_count),
total_blob_bytes(_total_blob_bytes),
status(_status),
file_checksum(_file_checksum),
file_checksum_func_name(_file_checksum_func_name) {}
// the number of blob in a file.
uint64_t total_blob_count;
// the total bytes in a file.
uint64_t total_blob_bytes;
// The status indicating whether the creation was successful or not.
Status status;
// The checksum of the blob file being created.
std::string file_checksum;
// The checksum function name of checksum generator used for this blob file.
std::string file_checksum_func_name;
};
enum class CompactionReason : int {
kUnknown = 0,
// [Level] number of L0 files > level0_file_num_compaction_trigger
kLevelL0FilesNum,
// [Level] total size of level > MaxBytesForLevel()
kLevelMaxLevelSize,
// [Universal] Compacting for size amplification
kUniversalSizeAmplification,
// [Universal] Compacting for size ratio
kUniversalSizeRatio,
// [Universal] number of sorted runs > level0_file_num_compaction_trigger
kUniversalSortedRunNum,
// [FIFO] total size > max_table_files_size
kFIFOMaxSize,
// [FIFO] reduce number of files.
kFIFOReduceNumFiles,
// [FIFO] files with creation time < (current_time - interval)
kFIFOTtl,
// Manual compaction
kManualCompaction,
// DB::SuggestCompactRange() marked files for compaction
kFilesMarkedForCompaction,
// [Level] Automatic compaction within bottommost level to cleanup duplicate
// versions of same user key, usually due to a released snapshot.
kBottommostFiles,
// Compaction based on TTL
kTtl,
// According to the comments in flush_job.cc, RocksDB treats flush as
// a level 0 compaction in internal stats.
kFlush,
// Compaction caused by external sst file ingestion
kExternalSstIngestion,
// Compaction due to SST file being too old
kPeriodicCompaction,
// Compaction in order to move files to temperature
kChangeTemperature,
// Compaction scheduled to force garbage collection of blob files
kForcedBlobGC,
// total number of compaction reasons, new reasons must be added above this.
kNumOfReasons,
};
enum class FlushReason : int {
kOthers = 0x00,
kGetLiveFiles = 0x01,
kShutDown = 0x02,
kExternalFileIngestion = 0x03,
kManualCompaction = 0x04,
kWriteBufferManager = 0x05,
kWriteBufferFull = 0x06,
kTest = 0x07,
kDeleteFiles = 0x08,
kAutoCompaction = 0x09,
kManualFlush = 0x0a,
kErrorRecovery = 0xb,
// When set the flush reason to kErrorRecoveryRetryFlush, SwitchMemtable
// will not be called to avoid many small immutable memtables.
kErrorRecoveryRetryFlush = 0xc,
kWalFull = 0xd,
};
// TODO: In the future, BackgroundErrorReason will only be used to indicate
// why the BG Error is happening (e.g., flush, compaction). We may introduce
// other data structure to indicate other essential information such as
// the file type (e.g., Manifest, SST) and special context.
enum class BackgroundErrorReason {
kFlush,
kCompaction,
kWriteCallback,
kMemTable,
kManifestWrite,
kFlushNoWAL,
kManifestWriteNoWAL,
};
enum class WriteStallCondition {
kNormal,
kDelayed,
kStopped,
};
struct WriteStallInfo {
// the name of the column family
std::string cf_name;
// state of the write controller
struct {
WriteStallCondition cur;
WriteStallCondition prev;
} condition;
};
#ifndef ROCKSDB_LITE
struct FileDeletionInfo {
FileDeletionInfo() = default;
FileDeletionInfo(const std::string& _db_name, const std::string& _file_path,
int _job_id, Status _status)
: db_name(_db_name),
file_path(_file_path),
job_id(_job_id),
status(_status) {}
// The name of the database where the file was deleted.
std::string db_name;
// The path to the deleted file.
std::string file_path;
// The id of the job which deleted the file.
int job_id = 0;
// The status indicating whether the deletion was successful or not.
Status status;
};
struct TableFileDeletionInfo : public FileDeletionInfo {};
struct BlobFileDeletionInfo : public FileDeletionInfo {
BlobFileDeletionInfo(const std::string& _db_name,
const std::string& _file_path, int _job_id,
Status _status)
: FileDeletionInfo(_db_name, _file_path, _job_id, _status) {}
};
enum class FileOperationType {
kRead,
kWrite,
kTruncate,
kClose,
kFlush,
kSync,
kFsync,
kRangeSync,
kAppend,
kPositionedAppend,
kOpen
};
struct FileOperationInfo {
using Duration = std::chrono::nanoseconds;
using SteadyTimePoint =
std::chrono::time_point<std::chrono::steady_clock, Duration>;
using SystemTimePoint =
std::chrono::time_point<std::chrono::system_clock, Duration>;
using StartTimePoint = std::pair<SystemTimePoint, SteadyTimePoint>;
using FinishTimePoint = SteadyTimePoint;
FileOperationType type;
const std::string& path;
// Rocksdb try to provide file temperature information, but it's not
// guaranteed.
Temperature temperature;
uint64_t offset;
size_t length;
const Duration duration;
const SystemTimePoint& start_ts;
Status status;
FileOperationInfo(const FileOperationType _type, const std::string& _path,
const StartTimePoint& _start_ts,
const FinishTimePoint& _finish_ts, const Status& _status,
const Temperature _temperature = Temperature::kUnknown)
: type(_type),
path(_path),
temperature(_temperature),
duration(std::chrono::duration_cast<std::chrono::nanoseconds>(
_finish_ts - _start_ts.second)),
start_ts(_start_ts.first),
status(_status) {}
static StartTimePoint StartNow() {
return std::make_pair<SystemTimePoint, SteadyTimePoint>(
std::chrono::system_clock::now(), std::chrono::steady_clock::now());
}
static FinishTimePoint FinishNow() {
return std::chrono::steady_clock::now();
}
};
struct BlobFileInfo {
BlobFileInfo(const std::string& _blob_file_path,
const uint64_t _blob_file_number)
: blob_file_path(_blob_file_path), blob_file_number(_blob_file_number) {}
std::string blob_file_path;
uint64_t blob_file_number;
};
struct BlobFileAdditionInfo : public BlobFileInfo {
BlobFileAdditionInfo(const std::string& _blob_file_path,
const uint64_t _blob_file_number,
const uint64_t _total_blob_count,
const uint64_t _total_blob_bytes)
: BlobFileInfo(_blob_file_path, _blob_file_number),
total_blob_count(_total_blob_count),
total_blob_bytes(_total_blob_bytes) {}
uint64_t total_blob_count;
uint64_t total_blob_bytes;
};
struct BlobFileGarbageInfo : public BlobFileInfo {
BlobFileGarbageInfo(const std::string& _blob_file_path,
const uint64_t _blob_file_number,
const uint64_t _garbage_blob_count,
const uint64_t _garbage_blob_bytes)
: BlobFileInfo(_blob_file_path, _blob_file_number),
garbage_blob_count(_garbage_blob_count),
garbage_blob_bytes(_garbage_blob_bytes) {}
uint64_t garbage_blob_count;
uint64_t garbage_blob_bytes;
};
struct FlushJobInfo {
// the id of the column family
uint32_t cf_id;
// the name of the column family
std::string cf_name;
// the path to the newly created file
std::string file_path;
// the file number of the newly created file
uint64_t file_number;
// the oldest blob file referenced by the newly created file
uint64_t oldest_blob_file_number;
// the id of the thread that completed this flush job.
uint64_t thread_id;
// the job id, which is unique in the same thread.
int job_id;
// If true, then rocksdb is currently slowing-down all writes to prevent
// creating too many Level 0 files as compaction seems not able to
// catch up the write request speed. This indicates that there are
// too many files in Level 0.
bool triggered_writes_slowdown;
// If true, then rocksdb is currently blocking any writes to prevent
// creating more L0 files. This indicates that there are too many
// files in level 0. Compactions should try to compact L0 files down
// to lower levels as soon as possible.
bool triggered_writes_stop;
// The smallest sequence number in the newly created file
SequenceNumber smallest_seqno;
// The largest sequence number in the newly created file
SequenceNumber largest_seqno;
// Table properties of the table being flushed
TableProperties table_properties;
FlushReason flush_reason;
// Compression algorithm used for blob output files
CompressionType blob_compression_type;
// Information about blob files created during flush in Integrated BlobDB.
std::vector<BlobFileAdditionInfo> blob_file_addition_infos;
};
struct CompactionFileInfo {
// The level of the file.
int level;
// The file number of the file.
uint64_t file_number;
// The file number of the oldest blob file this SST file references.
uint64_t oldest_blob_file_number;
};
struct SubcompactionJobInfo {
~SubcompactionJobInfo() { status.PermitUncheckedError(); }
// the id of the column family where the compaction happened.
uint32_t cf_id;
// the name of the column family where the compaction happened.
std::string cf_name;
// the status indicating whether the compaction was successful or not.
Status status;
// the id of the thread that completed this compaction job.
uint64_t thread_id;
// the job id, which is unique in the same thread.
int job_id;
// sub-compaction job id, which is only unique within the same compaction, so
// use both 'job_id' and 'subcompaction_job_id' to identify a subcompaction
// within an instance.
// For non subcompaction job, it's set to -1.
int subcompaction_job_id;
// the smallest input level of the compaction.
int base_input_level;
// the output level of the compaction.
int output_level;
// Reason to run the compaction
CompactionReason compaction_reason;
// Compression algorithm used for output files
CompressionType compression;
// Statistics and other additional details on the compaction
CompactionJobStats stats;
// Compression algorithm used for blob output files.
CompressionType blob_compression_type;
};
struct CompactionJobInfo {
~CompactionJobInfo() { status.PermitUncheckedError(); }
// the id of the column family where the compaction happened.
uint32_t cf_id;
// the name of the column family where the compaction happened.
std::string cf_name;
// the status indicating whether the compaction was successful or not.
Status status;
// the id of the thread that completed this compaction job.
uint64_t thread_id;
// the job id, which is unique in the same thread.
int job_id;
// the smallest input level of the compaction.
int base_input_level;
// the output level of the compaction.
int output_level;
// The following variables contain information about compaction inputs
// and outputs. A file may appear in both the input and output lists
// if it was simply moved to a different level. The order of elements
// is the same across input_files and input_file_infos; similarly, it is
// the same across output_files and output_file_infos.
// The names of the compaction input files.
std::vector<std::string> input_files;
// Additional information about the compaction input files.
std::vector<CompactionFileInfo> input_file_infos;
// The names of the compaction output files.
std::vector<std::string> output_files;
// Additional information about the compaction output files.
std::vector<CompactionFileInfo> output_file_infos;
// Table properties for input and output tables.
// The map is keyed by values from input_files and output_files.
TablePropertiesCollection table_properties;
// Reason to run the compaction
CompactionReason compaction_reason;
// Compression algorithm used for output files
CompressionType compression;
// Statistics and other additional details on the compaction
CompactionJobStats stats;
// Compression algorithm used for blob output files.
CompressionType blob_compression_type;
// Information about blob files created during compaction in Integrated
// BlobDB.
std::vector<BlobFileAdditionInfo> blob_file_addition_infos;
// Information about blob files deleted during compaction in Integrated
// BlobDB.
std::vector<BlobFileGarbageInfo> blob_file_garbage_infos;
};
struct MemTableInfo {
// the name of the column family to which memtable belongs
std::string cf_name;
// Sequence number of the first element that was inserted
// into the memtable.
SequenceNumber first_seqno;
// Sequence number that is guaranteed to be smaller than or equal
// to the sequence number of any key that could be inserted into this
// memtable. It can then be assumed that any write with a larger(or equal)
// sequence number will be present in this memtable or a later memtable.
SequenceNumber earliest_seqno;
// Total number of entries in memtable
uint64_t num_entries;
// Total number of deletes in memtable
uint64_t num_deletes;
};
struct ExternalFileIngestionInfo {
// the name of the column family
std::string cf_name;
// Path of the file outside the DB
std::string external_file_path;
// Path of the file inside the DB
std::string internal_file_path;
// The global sequence number assigned to keys in this file
SequenceNumber global_seqno;
// Table properties of the table being flushed
TableProperties table_properties;
};
// Result of auto background error recovery
struct BackgroundErrorRecoveryInfo {
// The original error that triggered the recovery
Status old_bg_error;
// The final bg_error after all recovery attempts. Status::OK() means
// the recovery was successful and the database is fully operational.
Status new_bg_error;
};
struct IOErrorInfo {
IOErrorInfo(const IOStatus& _io_status, FileOperationType _operation,
const std::string& _file_path, size_t _length, uint64_t _offset)
: io_status(_io_status),
operation(_operation),
file_path(_file_path),
length(_length),
offset(_offset) {}
IOStatus io_status;
FileOperationType operation;
std::string file_path;
size_t length;
uint64_t offset;
};
// EventListener class contains a set of callback functions that will
// be called when specific RocksDB event happens such as flush. It can
// be used as a building block for developing custom features such as
// stats-collector or external compaction algorithm.
//
// IMPORTANT
// Because compaction is needed to resolve a "writes stopped" condition,
// calling or waiting for any blocking DB write function (no_slowdown=false)
// from a compaction-related listener callback can hang RocksDB. For DB
// writes from a callback we recommend a WriteBatch and no_slowdown=true,
// because the WriteBatch can accumulate writes for later in case DB::Write
// returns Status::Incomplete. Similarly, calling CompactRange or similar
// could hang by waiting for a background worker that is occupied until the
// callback returns.
//
// Otherwise, callback functions should not run for an extended period of
// time before the function returns, because this will slow RocksDB.
//
// [Threading] All EventListener callback will be called using the
// actual thread that involves in that specific event. For example, it
// is the RocksDB background flush thread that does the actual flush to
// call EventListener::OnFlushCompleted().
//
// [Locking] All EventListener callbacks are designed to be called without
// the current thread holding any DB mutex. This is to prevent potential
// deadlock and performance issue when using EventListener callback
// in a complex way.
//
// [Exceptions] Exceptions MUST NOT propagate out of overridden functions into
// RocksDB, because RocksDB is not exception-safe. This could cause undefined
// behavior including data loss, unreported corruption, deadlocks, and more.
class EventListener : public Customizable {
public:
static const char* Type() { return "EventListener"; }
static Status CreateFromString(const ConfigOptions& options,
const std::string& id,
std::shared_ptr<EventListener>* result);
const char* Name() const override {
// Since EventListeners did not have a name previously, we will assume
// an empty name. Instances should override this method.
return "";
}
// A callback function to RocksDB which will be called whenever a
// registered RocksDB flushes a file. The default implementation is
// no-op.
//
// Note that the this function must be implemented in a way such that
// it should not run for an extended period of time before the function
// returns. Otherwise, RocksDB may be blocked.
virtual void OnFlushCompleted(DB* /*db*/,
const FlushJobInfo& /*flush_job_info*/) {}
// A callback function to RocksDB which will be called before a
// RocksDB starts to flush memtables. The default implementation is
// no-op.
//
// Note that the this function must be implemented in a way such that
// it should not run for an extended period of time before the function
// returns. Otherwise, RocksDB may be blocked.
virtual void OnFlushBegin(DB* /*db*/,
const FlushJobInfo& /*flush_job_info*/) {}
// A callback function for RocksDB which will be called whenever
// a SST file is deleted. Different from OnCompactionCompleted and
// OnFlushCompleted, this callback is designed for external logging
// service and thus only provide string parameters instead
// of a pointer to DB. Applications that build logic basic based
// on file creations and deletions is suggested to implement
// OnFlushCompleted and OnCompactionCompleted.
//
// Note that if applications would like to use the passed reference
// outside this function call, they should make copies from the
// returned value.
virtual void OnTableFileDeleted(const TableFileDeletionInfo& /*info*/) {}
// A callback function to RocksDB which will be called before a
// RocksDB starts to compact. The default implementation is
// no-op.
//
// Note that the this function must be implemented in a way such that
// it should not run for an extended period of time before the function
// returns. Otherwise, RocksDB may be blocked.
virtual void OnCompactionBegin(DB* /*db*/, const CompactionJobInfo& /*ci*/) {}
// A callback function for RocksDB which will be called whenever
// a registered RocksDB compacts a file. The default implementation
// is a no-op.
//
// Note that this function must be implemented in a way such that
// it should not run for an extended period of time before the function
// returns. Otherwise, RocksDB may be blocked.
//
// @param db a pointer to the rocksdb instance which just compacted
// a file.
// @param ci a reference to a CompactionJobInfo struct. 'ci' is released
// after this function is returned, and must be copied if it is needed
// outside of this function.
virtual void OnCompactionCompleted(DB* /*db*/,
const CompactionJobInfo& /*ci*/) {}
// A callback function to RocksDB which will be called before a sub-compaction
// begins. If a compaction is split to 2 sub-compactions, it will trigger one
// `OnCompactionBegin()` first, then two `OnSubcompactionBegin()`.
// If compaction is not split, it will still trigger one
// `OnSubcompactionBegin()`, as internally, compaction is always handled by
// sub-compaction. The default implementation is a no-op.
//
// Note that this function must be implemented in a way such that
// it should not run for an extended period of time before the function
// returns. Otherwise, RocksDB may be blocked.
//
// @param ci a reference to a CompactionJobInfo struct, it contains a
// `sub_job_id` which is only unique within the specified compaction (which
// can be identified by `job_id`). 'ci' is released after this function is
// returned, and must be copied if it's needed outside this function.
// Note: `table_properties` is not set for sub-compaction, the information
// could be got from `OnCompactionBegin()`.
virtual void OnSubcompactionBegin(const SubcompactionJobInfo& /*si*/) {}
// A callback function to RocksDB which will be called whenever a
// sub-compaction completed. The same as `OnSubcompactionBegin()`, if a
// compaction is split to 2 sub-compactions, it will be triggered twice. If
// a compaction is not split, it will still be triggered once.
// The default implementation is a no-op.
//
// Note that this function must be implemented in a way such that
// it should not run for an extended period of time before the function
// returns. Otherwise, RocksDB may be blocked.
//
// @param ci a reference to a CompactionJobInfo struct, it contains a
// `sub_job_id` which is only unique within the specified compaction (which
// can be identified by `job_id`). 'ci' is released after this function is
// returned, and must be copied if it's needed outside this function.
// Note: `table_properties` is not set for sub-compaction, the information
// could be got from `OnCompactionCompleted()`.
virtual void OnSubcompactionCompleted(const SubcompactionJobInfo& /*si*/) {}
// A callback function for RocksDB which will be called whenever
// a SST file is created. Different from OnCompactionCompleted and
// OnFlushCompleted, this callback is designed for external logging
// service and thus only provide string parameters instead
// of a pointer to DB. Applications that build logic basic based
// on file creations and deletions is suggested to implement
// OnFlushCompleted and OnCompactionCompleted.
//
// Historically it will only be called if the file is successfully created.
// Now it will also be called on failure case. User can check info.status
// to see if it succeeded or not.
//
// Note that if applications would like to use the passed reference
// outside this function call, they should make copies from these
// returned value.
virtual void OnTableFileCreated(const TableFileCreationInfo& /*info*/) {}
// A callback function for RocksDB which will be called before
// a SST file is being created. It will follow by OnTableFileCreated after
// the creation finishes.
//
// Note that if applications would like to use the passed reference
// outside this function call, they should make copies from these
// returned value.
virtual void OnTableFileCreationStarted(
const TableFileCreationBriefInfo& /*info*/) {}
// A callback function for RocksDB which will be called before
// a memtable is made immutable.
//
// Note that the this function must be implemented in a way such that
// it should not run for an extended period of time before the function
// returns. Otherwise, RocksDB may be blocked.
//
// Note that if applications would like to use the passed reference
// outside this function call, they should make copies from these
// returned value.
virtual void OnMemTableSealed(const MemTableInfo& /*info*/) {}
// A callback function for RocksDB which will be called before
// a column family handle is deleted.
//
// Note that the this function must be implemented in a way such that
// it should not run for an extended period of time before the function
// returns. Otherwise, RocksDB may be blocked.
// @param handle is a pointer to the column family handle to be deleted
// which will become a dangling pointer after the deletion.
virtual void OnColumnFamilyHandleDeletionStarted(
ColumnFamilyHandle* /*handle*/) {}
// A callback function for RocksDB which will be called after an external
// file is ingested using IngestExternalFile.
//
// Note that the this function will run on the same thread as
// IngestExternalFile(), if this function is blocked, IngestExternalFile()
// will be blocked from finishing.
virtual void OnExternalFileIngested(
DB* /*db*/, const ExternalFileIngestionInfo& /*info*/) {}
// A callback function for RocksDB which will be called before setting the
// background error status to a non-OK value. The new background error status
// is provided in `bg_error` and can be modified by the callback. E.g., a
// callback can suppress errors by resetting it to Status::OK(), thus
// preventing the database from entering read-only mode. We do not provide any
// guarantee when failed flushes/compactions will be rescheduled if the user
// suppresses an error.
//
// Note that this function can run on the same threads as flush, compaction,
// and user writes. So, it is extremely important not to perform heavy
// computations or blocking calls in this function.
virtual void OnBackgroundError(BackgroundErrorReason /* reason */,
Status* /* bg_error */) {}
// A callback function for RocksDB which will be called whenever a change
// of superversion triggers a change of the stall conditions.
//
// Note that the this function must be implemented in a way such that
// it should not run for an extended period of time before the function
// returns. Otherwise, RocksDB may be blocked.
virtual void OnStallConditionsChanged(const WriteStallInfo& /*info*/) {}
// A callback function for RocksDB which will be called whenever a file read
// operation finishes.
virtual void OnFileReadFinish(const FileOperationInfo& /* info */) {}
// A callback function for RocksDB which will be called whenever a file write
// operation finishes.
virtual void OnFileWriteFinish(const FileOperationInfo& /* info */) {}
// A callback function for RocksDB which will be called whenever a file flush
// operation finishes.
virtual void OnFileFlushFinish(const FileOperationInfo& /* info */) {}
// A callback function for RocksDB which will be called whenever a file sync
// operation finishes.
virtual void OnFileSyncFinish(const FileOperationInfo& /* info */) {}
// A callback function for RocksDB which will be called whenever a file
// rangeSync operation finishes.
virtual void OnFileRangeSyncFinish(const FileOperationInfo& /* info */) {}
// A callback function for RocksDB which will be called whenever a file
// truncate operation finishes.
virtual void OnFileTruncateFinish(const FileOperationInfo& /* info */) {}
// A callback function for RocksDB which will be called whenever a file close
// operation finishes.
virtual void OnFileCloseFinish(const FileOperationInfo& /* info */) {}
// If true, the OnFile*Finish functions will be called. If
// false, then they won't be called.
virtual bool ShouldBeNotifiedOnFileIO() { return false; }
// A callback function for RocksDB which will be called just before
// starting the automatic recovery process for recoverable background
// errors, such as NoSpace(). The callback can suppress the automatic
// recovery by setting *auto_recovery to false. The database will then
// have to be transitioned out of read-only mode by calling DB::Resume()
virtual void OnErrorRecoveryBegin(BackgroundErrorReason /* reason */,
Status /* bg_error */,
bool* /* auto_recovery */) {}
// DEPRECATED
// A callback function for RocksDB which will be called once the database
// is recovered from read-only mode after an error. When this is called, it
// means normal writes to the database can be issued and the user can
// initiate any further recovery actions needed
virtual void OnErrorRecoveryCompleted(Status old_bg_error) {
old_bg_error.PermitUncheckedError();
}
// A callback function for RocksDB which will be called once the recovery
// attempt from a background retryable error is completed. The recovery
// may have been successful or not. In either case, the callback is called
// with the old and new error. If info.new_bg_error is Status::OK(), that
// means the recovery succeeded.
virtual void OnErrorRecoveryEnd(const BackgroundErrorRecoveryInfo& /*info*/) {
}
// A callback function for RocksDB which will be called before
// a blob file is being created. It will follow by OnBlobFileCreated after
// the creation finishes.
//
// Note that if applications would like to use the passed reference
// outside this function call, they should make copies from these
// returned value.
virtual void OnBlobFileCreationStarted(
const BlobFileCreationBriefInfo& /*info*/) {}
// A callback function for RocksDB which will be called whenever
// a blob file is created.
// It will be called whether the file is successfully created or not. User can
// check info.status to see if it succeeded or not.
//
// Note that if applications would like to use the passed reference
// outside this function call, they should make copies from these
// returned value.
virtual void OnBlobFileCreated(const BlobFileCreationInfo& /*info*/) {}
// A callback function for RocksDB which will be called whenever
// a blob file is deleted.
//
// Note that if applications would like to use the passed reference
// outside this function call, they should make copies from these
// returned value.
virtual void OnBlobFileDeleted(const BlobFileDeletionInfo& /*info*/) {}
// A callback function for RocksDB which will be called whenever an IO error
// happens. ShouldBeNotifiedOnFileIO should be set to true to get a callback.
virtual void OnIOError(const IOErrorInfo& /*info*/) {}
~EventListener() override {}
};
#else
class EventListener {};
struct FlushJobInfo {};
#endif // ROCKSDB_LITE
} // namespace ROCKSDB_NAMESPACE