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rust-rocksdb/db/compaction/compaction_outputs.h

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// Copyright (c) Meta Platforms, Inc. and affiliates.
//
// 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 "db/blob/blob_garbage_meter.h"
#include "db/compaction/compaction.h"
#include "db/compaction/compaction_iterator.h"
#include "db/internal_stats.h"
#include "db/output_validator.h"
namespace ROCKSDB_NAMESPACE {
class CompactionOutputs;
using CompactionFileOpenFunc = std::function<Status(CompactionOutputs&)>;
using CompactionFileCloseFunc =
std::function<Status(CompactionOutputs&, const Status&, const Slice&)>;
// Files produced by subcompaction, most of the functions are used by
// compaction_job Open/Close compaction file functions.
class CompactionOutputs {
public:
// compaction output file
struct Output {
Output(FileMetaData&& _meta, const InternalKeyComparator& _icmp,
bool _enable_order_check, bool _enable_hash, bool _finished,
uint64_t precalculated_hash)
: meta(std::move(_meta)),
validator(_icmp, _enable_order_check, _enable_hash,
precalculated_hash),
finished(_finished) {}
FileMetaData meta;
OutputValidator validator;
bool finished;
std::shared_ptr<const TableProperties> table_properties;
};
CompactionOutputs() = delete;
explicit CompactionOutputs(const Compaction* compaction,
const bool is_penultimate_level);
// Add generated output to the list
void AddOutput(FileMetaData&& meta, const InternalKeyComparator& icmp,
bool enable_order_check, bool enable_hash,
bool finished = false, uint64_t precalculated_hash = 0) {
outputs_.emplace_back(std::move(meta), icmp, enable_order_check,
enable_hash, finished, precalculated_hash);
}
// Set new table builder for the current output
void NewBuilder(const TableBuilderOptions& tboptions);
// Assign a new WritableFileWriter to the current output
void AssignFileWriter(WritableFileWriter* writer) {
file_writer_.reset(writer);
}
// TODO: Remove it when remote compaction support tiered compaction
void SetTotalBytes(uint64_t bytes) { stats_.bytes_written += bytes; }
void SetNumOutputRecords(uint64_t num) { stats_.num_output_records = num; }
// TODO: Move the BlobDB builder into CompactionOutputs
const std::vector<BlobFileAddition>& GetBlobFileAdditions() const {
if (is_penultimate_level_) {
assert(blob_file_additions_.empty());
}
return blob_file_additions_;
}
std::vector<BlobFileAddition>* GetBlobFileAdditionsPtr() {
assert(!is_penultimate_level_);
return &blob_file_additions_;
}
bool HasBlobFileAdditions() const { return !blob_file_additions_.empty(); }
BlobGarbageMeter* CreateBlobGarbageMeter() {
assert(!is_penultimate_level_);
blob_garbage_meter_ = std::make_unique<BlobGarbageMeter>();
return blob_garbage_meter_.get();
}
BlobGarbageMeter* GetBlobGarbageMeter() const {
if (is_penultimate_level_) {
// blobdb doesn't support per_key_placement yet
assert(blob_garbage_meter_ == nullptr);
return nullptr;
}
return blob_garbage_meter_.get();
}
void UpdateBlobStats() {
assert(!is_penultimate_level_);
stats_.num_output_files_blob = blob_file_additions_.size();
for (const auto& blob : blob_file_additions_) {
stats_.bytes_written_blob += blob.GetTotalBlobBytes();
}
}
// Finish the current output file
Status Finish(const Status& intput_status,
const SeqnoToTimeMapping& seqno_time_mapping);
// Update output table properties from table builder
void UpdateTableProperties() {
current_output().table_properties =
std::make_shared<TableProperties>(GetTableProperties());
}
IOStatus WriterSyncClose(const Status& intput_status, SystemClock* clock,
Statistics* statistics, bool use_fsync);
TableProperties GetTableProperties() {
return builder_->GetTableProperties();
}
Slice SmallestUserKey() const {
if (!outputs_.empty() && outputs_[0].finished) {
return outputs_[0].meta.smallest.user_key();
} else {
return Slice{nullptr, 0};
}
}
Slice LargestUserKey() const {
if (!outputs_.empty() && outputs_.back().finished) {
return outputs_.back().meta.largest.user_key();
} else {
return Slice{nullptr, 0};
}
}
// In case the last output file is empty, which doesn't need to keep.
void RemoveLastEmptyOutput() {
if (!outputs_.empty() && !outputs_.back().meta.fd.file_size) {
// An error occurred, so ignore the last output.
outputs_.pop_back();
}
}
// Remove the last output, for example the last output doesn't have data (no
// entry and no range-dels), but file_size might not be 0, as it has SST
// metadata.
void RemoveLastOutput() {
assert(!outputs_.empty());
outputs_.pop_back();
}
bool HasBuilder() const { return builder_ != nullptr; }
FileMetaData* GetMetaData() { return &current_output().meta; }
bool HasOutput() const { return !outputs_.empty(); }
uint64_t NumEntries() const { return builder_->NumEntries(); }
void ResetBuilder() {
builder_.reset();
current_output_file_size_ = 0;
}
// Add range deletions from the range_del_agg_ to the current output file.
// Input parameters, `range_tombstone_lower_bound_` and current output's
// metadata determine the bounds on range deletions to add. Updates output
// file metadata boundary if extended by range tombstones.
//
// @param comp_start_user_key and comp_end_user_key include timestamp if
// user-defined timestamp is enabled. Their timestamp should be max timestamp.
// @param next_table_min_key internal key lower bound for the next compaction
// output.
// @param full_history_ts_low used for range tombstone garbage collection.
Status AddRangeDels(const Slice* comp_start_user_key,
const Slice* comp_end_user_key,
CompactionIterationStats& range_del_out_stats,
bool bottommost_level, const InternalKeyComparator& icmp,
SequenceNumber earliest_snapshot,
const Slice& next_table_min_key,
const std::string& full_history_ts_low);
// if the outputs have range delete, range delete is also data
bool HasRangeDel() const {
return range_del_agg_ && !range_del_agg_->IsEmpty();
}
private:
friend class SubcompactionState;
void FillFilesToCutForTtl();
void SetOutputSlitKey(const std::optional<Slice> start,
const std::optional<Slice> end) {
const InternalKeyComparator* icmp =
&compaction_->column_family_data()->internal_comparator();
const InternalKey* output_split_key = compaction_->GetOutputSplitKey();
// Invalid output_split_key indicates that we do not need to split
if (output_split_key != nullptr) {
// We may only split the output when the cursor is in the range. Split
if ((!end.has_value() ||
icmp->user_comparator()->Compare(
ExtractUserKey(output_split_key->Encode()), *end) < 0) &&
(!start.has_value() ||
icmp->user_comparator()->Compare(
ExtractUserKey(output_split_key->Encode()), *start) > 0)) {
local_output_split_key_ = output_split_key;
}
}
}
// Returns true iff we should stop building the current output
// before processing the current key in compaction iterator.
bool ShouldStopBefore(const CompactionIterator& c_iter);
void Cleanup() {
if (builder_ != nullptr) {
// May happen if we get a shutdown call in the middle of compaction
builder_->Abandon();
builder_.reset();
}
}
// Updates states related to file cutting for TTL.
// Returns a boolean value indicating whether the current
// compaction output file should be cut before `internal_key`.
//
// @param internal_key the current key to be added to output.
bool UpdateFilesToCutForTTLStates(const Slice& internal_key);
// update tracked grandparents information like grandparent index, if it's
// in the gap between 2 grandparent files, accumulated grandparent files size
// etc.
// It returns how many boundaries it crosses by including current key.
size_t UpdateGrandparentBoundaryInfo(const Slice& internal_key);
// helper function to get the overlapped grandparent files size, it's only
// used for calculating the first key's overlap.
uint64_t GetCurrentKeyGrandparentOverlappedBytes(
const Slice& internal_key) const;
// Add current key from compaction_iterator to the output file. If needed
// close and open new compaction output with the functions provided.
Status AddToOutput(const CompactionIterator& c_iter,
const CompactionFileOpenFunc& open_file_func,
const CompactionFileCloseFunc& close_file_func);
// Close the current output. `open_file_func` is needed for creating new file
// for range-dels only output file.
Status CloseOutput(const Status& curr_status,
const CompactionFileOpenFunc& open_file_func,
const CompactionFileCloseFunc& close_file_func) {
Status status = curr_status;
// handle subcompaction containing only range deletions
if (status.ok() && !HasBuilder() && !HasOutput() && HasRangeDel()) {
status = open_file_func(*this);
}
if (HasBuilder()) {
const Slice empty_key{};
Status s = close_file_func(*this, status, empty_key);
if (!s.ok() && status.ok()) {
status = s;
}
}
return status;
}
// This subcompaction's output could be empty if compaction was aborted before
// this subcompaction had a chance to generate any output files. When
// subcompactions are executed sequentially this is more likely and will be
// particularly likely for the later subcompactions to be empty. Once they are
// run in parallel however it should be much rarer.
// It's caller's responsibility to make sure it's not empty.
Output& current_output() {
assert(!outputs_.empty());
return outputs_.back();
}
// Assign the range_del_agg to the target output level. There's only one
// range-del-aggregator per compaction outputs, for
// output_to_penultimate_level compaction it is only assigned to the
// penultimate level.
void AssignRangeDelAggregator(
std::unique_ptr<CompactionRangeDelAggregator>&& range_del_agg) {
assert(range_del_agg_ == nullptr);
range_del_agg_ = std::move(range_del_agg);
}
const Compaction* compaction_;
// current output builder and writer
std::unique_ptr<TableBuilder> builder_;
std::unique_ptr<WritableFileWriter> file_writer_;
uint64_t current_output_file_size_ = 0;
// all the compaction outputs so far
std::vector<Output> outputs_;
// BlobDB info
std::vector<BlobFileAddition> blob_file_additions_;
std::unique_ptr<BlobGarbageMeter> blob_garbage_meter_;
// Basic compaction output stats for this level's outputs
InternalStats::CompactionOutputsStats stats_;
// indicate if this CompactionOutputs obj for penultimate_level, should always
// be false if per_key_placement feature is not enabled.
const bool is_penultimate_level_;
std::unique_ptr<CompactionRangeDelAggregator> range_del_agg_ = nullptr;
// partitioner information
std::string last_key_for_partitioner_;
std::unique_ptr<SstPartitioner> partitioner_;
// A flag determines if this subcompaction has been split by the cursor
// for RoundRobin compaction
bool is_split_ = false;
// We also maintain the output split key for each subcompaction to avoid
// repetitive comparison in ShouldStopBefore()
const InternalKey* local_output_split_key_ = nullptr;
// Some identified files with old oldest ancester time and the range should be
// isolated out so that the output file(s) in that range can be merged down
// for TTL and clear the timestamps for the range.
std::vector<FileMetaData*> files_to_cut_for_ttl_;
int cur_files_to_cut_for_ttl_ = -1;
int next_files_to_cut_for_ttl_ = 0;
// An index that used to speed up ShouldStopBefore().
size_t grandparent_index_ = 0;
// if the output key is being grandparent files gap, so:
// key > grandparents[grandparent_index_ - 1].largest &&
// key < grandparents[grandparent_index_].smallest
bool being_grandparent_gap_ = true;
// The number of bytes overlapping between the current output and
// grandparent files used in ShouldStopBefore().
uint64_t grandparent_overlapped_bytes_ = 0;
// A flag determines whether the key has been seen in ShouldStopBefore()
bool seen_key_ = false;
// for the current output file, how many file boundaries has it crossed,
// basically number of files overlapped * 2
size_t grandparent_boundary_switched_num_ = 0;
// The smallest key of the current output file, this is set when current
// output file's smallest key is a range tombstone start key.
InternalKey range_tombstone_lower_bound_;
// Used for calls to compaction->KeyRangeNotExistsBeyondOutputLevel() in
// CompactionOutputs::AddRangeDels().
// level_ptrs_[i] holds index of the file that was checked during the last
// call to compaction->KeyRangeNotExistsBeyondOutputLevel(). This allows
// future calls to the function to pick up where it left off, since each
// range tombstone added to output file within each subcompaction is in
// increasing key range.
std::vector<size_t> level_ptrs_;
};
// helper struct to concatenate the last level and penultimate level outputs
// which could be replaced by std::ranges::join_view() in c++20
struct OutputIterator {
public:
explicit OutputIterator(const std::vector<CompactionOutputs::Output>& a,
const std::vector<CompactionOutputs::Output>& b)
: a_(a), b_(b) {
within_a = !a_.empty();
idx_ = 0;
}
OutputIterator begin() { return *this; }
OutputIterator end() { return *this; }
size_t size() { return a_.size() + b_.size(); }
const CompactionOutputs::Output& operator*() const {
return within_a ? a_[idx_] : b_[idx_];
}
OutputIterator& operator++() {
idx_++;
if (within_a && idx_ >= a_.size()) {
within_a = false;
idx_ = 0;
}
assert(within_a || idx_ <= b_.size());
return *this;
}
bool operator!=(const OutputIterator& /*rhs*/) const {
return within_a || idx_ < b_.size();
}
private:
const std::vector<CompactionOutputs::Output>& a_;
const std::vector<CompactionOutputs::Output>& b_;
bool within_a;
size_t idx_;
};
} // namespace ROCKSDB_NAMESPACE