// Copyright (c) 2018-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). #pragma once #include #include #include #include #include #include #include #include "db/compaction/compaction_iteration_stats.h" #include "db/dbformat.h" #include "db/pinned_iterators_manager.h" #include "db/range_del_aggregator.h" #include "db/range_tombstone_fragmenter.h" #include "db/version_edit.h" #include "rocksdb/comparator.h" #include "rocksdb/types.h" #include "table/internal_iterator.h" #include "table/scoped_arena_iterator.h" #include "table/table_builder.h" #include "util/heap.h" #include "util/kv_map.h" namespace ROCKSDB_NAMESPACE { class TruncatedRangeDelIterator { public: TruncatedRangeDelIterator( std::unique_ptr iter, const InternalKeyComparator* icmp, const InternalKey* smallest, const InternalKey* largest); bool Valid() const; void Next() { iter_->TopNext(); } void Prev() { iter_->TopPrev(); } void InternalNext() { iter_->Next(); } // Seeks to the tombstone with the highest visible sequence number that covers // target (a user key). If no such tombstone exists, the position will be at // the earliest tombstone that ends after target. // REQUIRES: target is a user key. void Seek(const Slice& target); // Seeks to the tombstone with the highest visible sequence number that covers // target (a user key). If no such tombstone exists, the position will be at // the latest tombstone that starts before target. void SeekForPrev(const Slice& target); void SeekToFirst(); void SeekToLast(); ParsedInternalKey start_key() const { return (smallest_ == nullptr || icmp_->Compare(*smallest_, iter_->parsed_start_key()) <= 0) ? iter_->parsed_start_key() : *smallest_; } ParsedInternalKey end_key() const { return (largest_ == nullptr || icmp_->Compare(iter_->parsed_end_key(), *largest_) <= 0) ? iter_->parsed_end_key() : *largest_; } SequenceNumber seq() const { return iter_->seq(); } Slice timestamp() const { assert(icmp_->user_comparator()->timestamp_size()); return iter_->timestamp(); } void SetTimestampUpperBound(const Slice* ts_upper_bound) { iter_->SetTimestampUpperBound(ts_upper_bound); } std::map> SplitBySnapshot(const std::vector& snapshots); SequenceNumber upper_bound() const { return iter_->upper_bound(); } SequenceNumber lower_bound() const { return iter_->lower_bound(); } private: std::unique_ptr iter_; const InternalKeyComparator* icmp_; const ParsedInternalKey* smallest_ = nullptr; const ParsedInternalKey* largest_ = nullptr; std::list pinned_bounds_; const InternalKey* smallest_ikey_; const InternalKey* largest_ikey_; }; struct SeqMaxComparator { bool operator()(const TruncatedRangeDelIterator* a, const TruncatedRangeDelIterator* b) const { return a->seq() > b->seq(); } }; struct StartKeyMinComparator { explicit StartKeyMinComparator(const InternalKeyComparator* c) : icmp(c) {} bool operator()(const TruncatedRangeDelIterator* a, const TruncatedRangeDelIterator* b) const { return icmp->Compare(a->start_key(), b->start_key()) > 0; } const InternalKeyComparator* icmp; }; class ForwardRangeDelIterator { public: explicit ForwardRangeDelIterator(const InternalKeyComparator* icmp); bool ShouldDelete(const ParsedInternalKey& parsed); void Invalidate(); void AddNewIter(TruncatedRangeDelIterator* iter, const ParsedInternalKey& parsed) { iter->Seek(parsed.user_key); PushIter(iter, parsed); assert(active_iters_.size() == active_seqnums_.size()); } size_t UnusedIdx() const { return unused_idx_; } void IncUnusedIdx() { unused_idx_++; } private: using ActiveSeqSet = std::multiset; struct EndKeyMinComparator { explicit EndKeyMinComparator(const InternalKeyComparator* c) : icmp(c) {} bool operator()(const ActiveSeqSet::const_iterator& a, const ActiveSeqSet::const_iterator& b) const { return icmp->Compare((*a)->end_key(), (*b)->end_key()) > 0; } const InternalKeyComparator* icmp; }; void PushIter(TruncatedRangeDelIterator* iter, const ParsedInternalKey& parsed) { if (!iter->Valid()) { // The iterator has been fully consumed, so we don't need to add it to // either of the heaps. return; } int cmp = icmp_->Compare(parsed, iter->start_key()); if (cmp < 0) { PushInactiveIter(iter); } else { PushActiveIter(iter); } } void PushActiveIter(TruncatedRangeDelIterator* iter) { auto seq_pos = active_seqnums_.insert(iter); active_iters_.push(seq_pos); } TruncatedRangeDelIterator* PopActiveIter() { auto active_top = active_iters_.top(); auto iter = *active_top; active_iters_.pop(); active_seqnums_.erase(active_top); return iter; } void PushInactiveIter(TruncatedRangeDelIterator* iter) { inactive_iters_.push(iter); } TruncatedRangeDelIterator* PopInactiveIter() { auto* iter = inactive_iters_.top(); inactive_iters_.pop(); return iter; } const InternalKeyComparator* icmp_; size_t unused_idx_; ActiveSeqSet active_seqnums_; BinaryHeap active_iters_; BinaryHeap inactive_iters_; }; class ReverseRangeDelIterator { public: explicit ReverseRangeDelIterator(const InternalKeyComparator* icmp); bool ShouldDelete(const ParsedInternalKey& parsed); void Invalidate(); void AddNewIter(TruncatedRangeDelIterator* iter, const ParsedInternalKey& parsed) { iter->SeekForPrev(parsed.user_key); PushIter(iter, parsed); assert(active_iters_.size() == active_seqnums_.size()); } size_t UnusedIdx() const { return unused_idx_; } void IncUnusedIdx() { unused_idx_++; } private: using ActiveSeqSet = std::multiset; struct EndKeyMaxComparator { explicit EndKeyMaxComparator(const InternalKeyComparator* c) : icmp(c) {} bool operator()(const TruncatedRangeDelIterator* a, const TruncatedRangeDelIterator* b) const { return icmp->Compare(a->end_key(), b->end_key()) < 0; } const InternalKeyComparator* icmp; }; struct StartKeyMaxComparator { explicit StartKeyMaxComparator(const InternalKeyComparator* c) : icmp(c) {} bool operator()(const ActiveSeqSet::const_iterator& a, const ActiveSeqSet::const_iterator& b) const { return icmp->Compare((*a)->start_key(), (*b)->start_key()) < 0; } const InternalKeyComparator* icmp; }; void PushIter(TruncatedRangeDelIterator* iter, const ParsedInternalKey& parsed) { if (!iter->Valid()) { // The iterator has been fully consumed, so we don't need to add it to // either of the heaps. } else if (icmp_->Compare(iter->end_key(), parsed) <= 0) { PushInactiveIter(iter); } else { PushActiveIter(iter); } } void PushActiveIter(TruncatedRangeDelIterator* iter) { auto seq_pos = active_seqnums_.insert(iter); active_iters_.push(seq_pos); } TruncatedRangeDelIterator* PopActiveIter() { auto active_top = active_iters_.top(); auto iter = *active_top; active_iters_.pop(); active_seqnums_.erase(active_top); return iter; } void PushInactiveIter(TruncatedRangeDelIterator* iter) { inactive_iters_.push(iter); } TruncatedRangeDelIterator* PopInactiveIter() { auto* iter = inactive_iters_.top(); inactive_iters_.pop(); return iter; } const InternalKeyComparator* icmp_; size_t unused_idx_; ActiveSeqSet active_seqnums_; BinaryHeap active_iters_; BinaryHeap inactive_iters_; }; enum class RangeDelPositioningMode { kForwardTraversal, kBackwardTraversal }; class RangeDelAggregator { public: explicit RangeDelAggregator(const InternalKeyComparator* icmp) : icmp_(icmp) {} virtual ~RangeDelAggregator() {} virtual void AddTombstones( std::unique_ptr input_iter, const InternalKey* smallest = nullptr, const InternalKey* largest = nullptr) = 0; bool ShouldDelete(const Slice& ikey, RangeDelPositioningMode mode) { ParsedInternalKey parsed; Status pik_status = ParseInternalKey(ikey, &parsed, false /* log_err_key */); // TODO assert(pik_status.ok()); if (!pik_status.ok()) { return false; } return ShouldDelete(parsed, mode); } virtual bool ShouldDelete(const ParsedInternalKey& parsed, RangeDelPositioningMode mode) = 0; virtual void InvalidateRangeDelMapPositions() = 0; virtual bool IsEmpty() const = 0; bool AddFile(uint64_t file_number) { return files_seen_.insert(file_number).second; } protected: class StripeRep { public: StripeRep(const InternalKeyComparator* icmp, SequenceNumber upper_bound, SequenceNumber lower_bound) : icmp_(icmp), forward_iter_(icmp), reverse_iter_(icmp), upper_bound_(upper_bound), lower_bound_(lower_bound) {} void AddTombstones(std::unique_ptr input_iter) { iters_.push_back(std::move(input_iter)); } bool IsEmpty() const { return iters_.empty(); } bool ShouldDelete(const ParsedInternalKey& parsed, RangeDelPositioningMode mode); void Invalidate() { if (!IsEmpty()) { InvalidateForwardIter(); InvalidateReverseIter(); } } // If user-defined timestamp is enabled, `start` and `end` are user keys // with timestamp. bool IsRangeOverlapped(const Slice& start, const Slice& end); private: bool InStripe(SequenceNumber seq) const { return lower_bound_ <= seq && seq <= upper_bound_; } void InvalidateForwardIter() { forward_iter_.Invalidate(); } void InvalidateReverseIter() { reverse_iter_.Invalidate(); } const InternalKeyComparator* icmp_; std::vector> iters_; ForwardRangeDelIterator forward_iter_; ReverseRangeDelIterator reverse_iter_; SequenceNumber upper_bound_; SequenceNumber lower_bound_; }; const InternalKeyComparator* icmp_; private: std::set files_seen_; }; class ReadRangeDelAggregator final : public RangeDelAggregator { public: ReadRangeDelAggregator(const InternalKeyComparator* icmp, SequenceNumber upper_bound) : RangeDelAggregator(icmp), rep_(icmp, upper_bound, 0 /* lower_bound */) {} ~ReadRangeDelAggregator() override {} using RangeDelAggregator::ShouldDelete; void AddTombstones( std::unique_ptr input_iter, const InternalKey* smallest = nullptr, const InternalKey* largest = nullptr) override; bool ShouldDelete(const ParsedInternalKey& parsed, RangeDelPositioningMode mode) final override { if (rep_.IsEmpty()) { return false; } return ShouldDeleteImpl(parsed, mode); } bool IsRangeOverlapped(const Slice& start, const Slice& end); void InvalidateRangeDelMapPositions() override { rep_.Invalidate(); } bool IsEmpty() const override { return rep_.IsEmpty(); } private: StripeRep rep_; bool ShouldDeleteImpl(const ParsedInternalKey& parsed, RangeDelPositioningMode mode); }; class CompactionRangeDelAggregator : public RangeDelAggregator { public: CompactionRangeDelAggregator(const InternalKeyComparator* icmp, const std::vector& snapshots, const std::string* full_history_ts_low = nullptr, const std::string* trim_ts = nullptr) : RangeDelAggregator(icmp), snapshots_(&snapshots) { if (full_history_ts_low) { ts_upper_bound_ = *full_history_ts_low; } if (trim_ts) { trim_ts_ = *trim_ts; // Range tombstone newer than `trim_ts` or `full_history_ts_low` should // not be considered in ShouldDelete(). if (ts_upper_bound_.empty()) { ts_upper_bound_ = trim_ts_; } else if (!trim_ts_.empty() && icmp->user_comparator()->CompareTimestamp( trim_ts_, ts_upper_bound_) < 0) { ts_upper_bound_ = trim_ts_; } } } ~CompactionRangeDelAggregator() override {} void AddTombstones( std::unique_ptr input_iter, const InternalKey* smallest = nullptr, const InternalKey* largest = nullptr) override; using RangeDelAggregator::ShouldDelete; bool ShouldDelete(const ParsedInternalKey& parsed, RangeDelPositioningMode mode) override; bool IsRangeOverlapped(const Slice& start, const Slice& end); void InvalidateRangeDelMapPositions() override { for (auto& rep : reps_) { rep.second.Invalidate(); } } bool IsEmpty() const override { for (const auto& rep : reps_) { if (!rep.second.IsEmpty()) { return false; } } return true; } // Creates an iterator over all the range tombstones in the aggregator, for // use in compaction. // // NOTE: the internal key boundaries are used for optimization purposes to // reduce the number of tombstones that are passed to the fragmenter; they do // not guarantee that the resulting iterator only contains range tombstones // that cover keys in the provided range. If required, these bounds must be // enforced during iteration. std::unique_ptr NewIterator( const Slice* lower_bound = nullptr, const Slice* upper_bound = nullptr); private: std::vector> parent_iters_; std::map reps_; const std::vector* snapshots_; // min over full_history_ts_low and trim_ts_ Slice ts_upper_bound_{}; Slice trim_ts_{}; }; } // namespace ROCKSDB_NAMESPACE