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6fbe96baf8
Summary: This diff introduces RangeDelAggregator, which takes ownership of iterators provided to it via AddTombstones(). The tombstones are organized in a two-level map (snapshot stripe -> begin key -> tombstone). Tombstone creation avoids data copy by holding Slices returned by the iterator, which remain valid thanks to pinning. For compaction, we create a hierarchical range tombstone iterator with structure matching the iterator over compaction input data. An aggregator based on that iterator is used by CompactionIterator to determine which keys are covered by range tombstones. In case of merge operand, the same aggregator is used by MergeHelper. Upon finishing each file in the compaction, relevant range tombstones are added to the output file's range tombstone metablock and file boundaries are updated accordingly. To check whether a key is covered by range tombstone, RangeDelAggregator::ShouldDelete() considers tombstones in the key's snapshot stripe. When this function is used outside of compaction, it also checks newer stripes, which can contain covering tombstones. Currently the intra-stripe check involves a linear scan; however, in the future we plan to collapse ranges within a stripe such that binary search can be used. RangeDelAggregator::AddToBuilder() adds all range tombstones in the table's key-range to a new table's range tombstone meta-block. Since range tombstones may fall in the gap between files, we may need to extend some files' key-ranges. The strategy is (1) first file extends as far left as possible and other files do not extend left, (2) all files extend right until either the start of the next file or the end of the last range tombstone in the gap, whichever comes first. One other notable change is adding release/move semantics to ScopedArenaIterator such that it can be used to transfer ownership of an arena-allocated iterator, similar to how unique_ptr is used for malloc'd data. Depends on D61473 Test Plan: compaction_iterator_test, mock_table, end-to-end tests in D63927 Reviewers: sdong, IslamAbdelRahman, wanning, yhchiang, lightmark Reviewed By: lightmark Subscribers: andrewkr, dhruba, leveldb Differential Revision: https://reviews.facebook.net/D62205
322 lines
12 KiB
C++
322 lines
12 KiB
C++
// Copyright (c) 2011-present, Facebook, Inc. All rights reserved.
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// This source code is licensed under the BSD-style license found in the
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// LICENSE file in the root directory of this source tree. An additional grant
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// of patent rights can be found in the PATENTS file in the same directory.
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#include "db/merge_helper.h"
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#include <stdio.h>
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#include <string>
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#include "db/dbformat.h"
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#include "rocksdb/comparator.h"
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#include "rocksdb/db.h"
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#include "rocksdb/merge_operator.h"
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#include "table/internal_iterator.h"
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#include "util/perf_context_imp.h"
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#include "util/statistics.h"
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namespace rocksdb {
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Status MergeHelper::TimedFullMerge(const MergeOperator* merge_operator,
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const Slice& key, const Slice* value,
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const std::vector<Slice>& operands,
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std::string* result, Logger* logger,
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Statistics* statistics, Env* env,
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Slice* result_operand) {
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assert(merge_operator != nullptr);
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if (operands.size() == 0) {
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assert(value != nullptr && result != nullptr);
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result->assign(value->data(), value->size());
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return Status::OK();
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}
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bool success;
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Slice tmp_result_operand(nullptr, 0);
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const MergeOperator::MergeOperationInput merge_in(key, value, operands,
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logger);
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MergeOperator::MergeOperationOutput merge_out(*result, tmp_result_operand);
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{
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// Setup to time the merge
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StopWatchNano timer(env, statistics != nullptr);
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PERF_TIMER_GUARD(merge_operator_time_nanos);
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// Do the merge
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success = merge_operator->FullMergeV2(merge_in, &merge_out);
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if (tmp_result_operand.data()) {
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// FullMergeV2 result is an existing operand
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if (result_operand != nullptr) {
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*result_operand = tmp_result_operand;
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} else {
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result->assign(tmp_result_operand.data(), tmp_result_operand.size());
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}
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} else if (result_operand) {
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*result_operand = Slice(nullptr, 0);
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}
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RecordTick(statistics, MERGE_OPERATION_TOTAL_TIME,
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statistics ? timer.ElapsedNanos() : 0);
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}
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if (!success) {
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RecordTick(statistics, NUMBER_MERGE_FAILURES);
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return Status::Corruption("Error: Could not perform merge.");
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}
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return Status::OK();
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}
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// PRE: iter points to the first merge type entry
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// POST: iter points to the first entry beyond the merge process (or the end)
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// keys_, operands_ are updated to reflect the merge result.
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// keys_ stores the list of keys encountered while merging.
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// operands_ stores the list of merge operands encountered while merging.
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// keys_[i] corresponds to operands_[i] for each i.
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Status MergeHelper::MergeUntil(InternalIterator* iter,
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RangeDelAggregator* range_del_agg,
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const SequenceNumber stop_before,
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const bool at_bottom) {
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// Get a copy of the internal key, before it's invalidated by iter->Next()
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// Also maintain the list of merge operands seen.
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assert(HasOperator());
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keys_.clear();
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merge_context_.Clear();
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assert(user_merge_operator_);
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bool first_key = true;
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// We need to parse the internal key again as the parsed key is
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// backed by the internal key!
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// Assume no internal key corruption as it has been successfully parsed
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// by the caller.
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// original_key_is_iter variable is just caching the information:
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// original_key_is_iter == (iter->key().ToString() == original_key)
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bool original_key_is_iter = true;
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std::string original_key = iter->key().ToString();
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// Important:
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// orig_ikey is backed by original_key if keys_.empty()
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// orig_ikey is backed by keys_.back() if !keys_.empty()
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ParsedInternalKey orig_ikey;
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ParseInternalKey(original_key, &orig_ikey);
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Status s;
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bool hit_the_next_user_key = false;
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for (; iter->Valid(); iter->Next(), original_key_is_iter = false) {
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ParsedInternalKey ikey;
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assert(keys_.size() == merge_context_.GetNumOperands());
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if (!ParseInternalKey(iter->key(), &ikey)) {
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// stop at corrupted key
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if (assert_valid_internal_key_) {
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assert(!"Corrupted internal key not expected.");
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return Status::Corruption("Corrupted internal key not expected.");
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}
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break;
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} else if (first_key) {
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assert(user_comparator_->Equal(ikey.user_key, orig_ikey.user_key));
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first_key = false;
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} else if (!user_comparator_->Equal(ikey.user_key, orig_ikey.user_key)) {
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// hit a different user key, stop right here
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hit_the_next_user_key = true;
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break;
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} else if (stop_before && ikey.sequence <= stop_before) {
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// hit an entry that's visible by the previous snapshot, can't touch that
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break;
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}
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// At this point we are guaranteed that we need to process this key.
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assert(IsValueType(ikey.type));
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if (ikey.type != kTypeMerge) {
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// hit a put/delete/single delete
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// => merge the put value or a nullptr with operands_
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// => store result in operands_.back() (and update keys_.back())
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// => change the entry type to kTypeValue for keys_.back()
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// We are done! Success!
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// If there are no operands, just return the Status::OK(). That will cause
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// the compaction iterator to write out the key we're currently at, which
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// is the put/delete we just encountered.
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if (keys_.empty()) {
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return Status::OK();
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}
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// TODO(noetzli) If the merge operator returns false, we are currently
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// (almost) silently dropping the put/delete. That's probably not what we
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// want.
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const Slice val = iter->value();
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const Slice* val_ptr = (kTypeValue == ikey.type) ? &val : nullptr;
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std::string merge_result;
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s = TimedFullMerge(user_merge_operator_, ikey.user_key, val_ptr,
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merge_context_.GetOperands(), &merge_result, logger_,
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stats_, env_);
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// We store the result in keys_.back() and operands_.back()
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// if nothing went wrong (i.e.: no operand corruption on disk)
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if (s.ok()) {
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// The original key encountered
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original_key = std::move(keys_.back());
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orig_ikey.type = kTypeValue;
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UpdateInternalKey(&original_key, orig_ikey.sequence, orig_ikey.type);
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keys_.clear();
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merge_context_.Clear();
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keys_.emplace_front(std::move(original_key));
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merge_context_.PushOperand(merge_result);
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}
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// move iter to the next entry
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iter->Next();
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return s;
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} else {
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// hit a merge
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// => if there is a compaction filter, apply it.
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// => check for range tombstones covering the operand
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// => merge the operand into the front of the operands_ list
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// if not filtered
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// => then continue because we haven't yet seen a Put/Delete.
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//
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// Keep queuing keys and operands until we either meet a put / delete
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// request or later did a partial merge.
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Slice value_slice = iter->value();
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// add an operand to the list if:
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// 1) it's included in one of the snapshots. in that case we *must* write
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// it out, no matter what compaction filter says
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// 2) it's not filtered by a compaction filter
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if ((ikey.sequence <= latest_snapshot_ ||
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!FilterMerge(orig_ikey.user_key, value_slice)) &&
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(range_del_agg == nullptr ||
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!range_del_agg->ShouldDelete(iter->key()))) {
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if (original_key_is_iter) {
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// this is just an optimization that saves us one memcpy
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keys_.push_front(std::move(original_key));
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} else {
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keys_.push_front(iter->key().ToString());
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}
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if (keys_.size() == 1) {
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// we need to re-anchor the orig_ikey because it was anchored by
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// original_key before
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ParseInternalKey(keys_.back(), &orig_ikey);
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}
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merge_context_.PushOperand(value_slice,
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iter->IsValuePinned() /* operand_pinned */);
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}
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}
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}
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if (merge_context_.GetNumOperands() == 0) {
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// we filtered out all the merge operands
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return Status::OK();
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}
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// We are sure we have seen this key's entire history if we are at the
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// last level and exhausted all internal keys of this user key.
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// NOTE: !iter->Valid() does not necessarily mean we hit the
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// beginning of a user key, as versions of a user key might be
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// split into multiple files (even files on the same level)
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// and some files might not be included in the compaction/merge.
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//
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// There are also cases where we have seen the root of history of this
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// key without being sure of it. Then, we simply miss the opportunity
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// to combine the keys. Since VersionSet::SetupOtherInputs() always makes
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// sure that all merge-operands on the same level get compacted together,
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// this will simply lead to these merge operands moving to the next level.
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//
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// So, we only perform the following logic (to merge all operands together
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// without a Put/Delete) if we are certain that we have seen the end of key.
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bool surely_seen_the_beginning = hit_the_next_user_key && at_bottom;
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if (surely_seen_the_beginning) {
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// do a final merge with nullptr as the existing value and say
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// bye to the merge type (it's now converted to a Put)
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assert(kTypeMerge == orig_ikey.type);
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assert(merge_context_.GetNumOperands() >= 1);
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assert(merge_context_.GetNumOperands() == keys_.size());
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std::string merge_result;
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s = TimedFullMerge(user_merge_operator_, orig_ikey.user_key, nullptr,
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merge_context_.GetOperands(), &merge_result, logger_,
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stats_, env_);
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if (s.ok()) {
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// The original key encountered
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// We are certain that keys_ is not empty here (see assertions couple of
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// lines before).
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original_key = std::move(keys_.back());
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orig_ikey.type = kTypeValue;
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UpdateInternalKey(&original_key, orig_ikey.sequence, orig_ikey.type);
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keys_.clear();
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merge_context_.Clear();
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keys_.emplace_front(std::move(original_key));
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merge_context_.PushOperand(merge_result);
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}
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} else {
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// We haven't seen the beginning of the key nor a Put/Delete.
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// Attempt to use the user's associative merge function to
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// merge the stacked merge operands into a single operand.
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//
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// TODO(noetzli) The docblock of MergeUntil suggests that a successful
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// partial merge returns Status::OK(). Should we change the status code
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// after a successful partial merge?
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s = Status::MergeInProgress();
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if (merge_context_.GetNumOperands() >= 2 &&
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merge_context_.GetNumOperands() >= min_partial_merge_operands_) {
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bool merge_success = false;
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std::string merge_result;
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{
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StopWatchNano timer(env_, stats_ != nullptr);
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PERF_TIMER_GUARD(merge_operator_time_nanos);
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merge_success = user_merge_operator_->PartialMergeMulti(
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orig_ikey.user_key,
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std::deque<Slice>(merge_context_.GetOperands().begin(),
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merge_context_.GetOperands().end()),
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&merge_result, logger_);
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RecordTick(stats_, MERGE_OPERATION_TOTAL_TIME,
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stats_ ? timer.ElapsedNanosSafe() : 0);
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}
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if (merge_success) {
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// Merging of operands (associative merge) was successful.
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// Replace operands with the merge result
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merge_context_.Clear();
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merge_context_.PushOperand(merge_result);
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keys_.erase(keys_.begin(), keys_.end() - 1);
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}
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}
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}
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return s;
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}
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MergeOutputIterator::MergeOutputIterator(const MergeHelper* merge_helper)
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: merge_helper_(merge_helper) {
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it_keys_ = merge_helper_->keys().rend();
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it_values_ = merge_helper_->values().rend();
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}
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void MergeOutputIterator::SeekToFirst() {
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const auto& keys = merge_helper_->keys();
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const auto& values = merge_helper_->values();
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assert(keys.size() == values.size());
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it_keys_ = keys.rbegin();
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it_values_ = values.rbegin();
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}
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void MergeOutputIterator::Next() {
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++it_keys_;
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++it_values_;
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}
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bool MergeHelper::FilterMerge(const Slice& user_key, const Slice& value_slice) {
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if (compaction_filter_ == nullptr) {
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return false;
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}
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if (stats_ != nullptr) {
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filter_timer_.Start();
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}
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bool to_delete =
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compaction_filter_->FilterMergeOperand(level_, user_key, value_slice);
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total_filter_time_ += filter_timer_.ElapsedNanosSafe();
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return to_delete;
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}
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} // namespace rocksdb
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