19e3ee64ac
Summary: I have added three new value types: * kTypeColumnFamilyDeletion * kTypeColumnFamilyValue * kTypeColumnFamilyMerge which include column family Varint32 before the data (value, deletion and merge). These values are used only in WAL (not in memtables yet). This endeavour required changing some WriteBatch internals. Test Plan: Added a unittest Reviewers: dhruba, haobo, sdong, kailiu CC: leveldb Differential Revision: https://reviews.facebook.net/D15045
485 lines
15 KiB
C++
485 lines
15 KiB
C++
// Copyright (c) 2013, 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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//
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// Copyright (c) 2011 The LevelDB Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file. See the AUTHORS file for names of contributors.
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#include "db/db_iter.h"
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#include <stdexcept>
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#include <deque>
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#include "db/filename.h"
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#include "db/dbformat.h"
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#include "rocksdb/env.h"
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#include "rocksdb/options.h"
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#include "rocksdb/iterator.h"
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#include "rocksdb/merge_operator.h"
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#include "port/port.h"
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#include "util/logging.h"
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#include "util/mutexlock.h"
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#include "util/perf_context_imp.h"
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namespace rocksdb {
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#if 0
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static void DumpInternalIter(Iterator* iter) {
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for (iter->SeekToFirst(); iter->Valid(); iter->Next()) {
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ParsedInternalKey k;
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if (!ParseInternalKey(iter->key(), &k)) {
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fprintf(stderr, "Corrupt '%s'\n", EscapeString(iter->key()).c_str());
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} else {
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fprintf(stderr, "@ '%s'\n", k.DebugString().c_str());
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}
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}
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}
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#endif
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namespace {
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// Memtables and sstables that make the DB representation contain
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// (userkey,seq,type) => uservalue entries. DBIter
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// combines multiple entries for the same userkey found in the DB
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// representation into a single entry while accounting for sequence
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// numbers, deletion markers, overwrites, etc.
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class DBIter: public Iterator {
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public:
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// The following is grossly complicated. TODO: clean it up
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// Which direction is the iterator currently moving?
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// (1) When moving forward, the internal iterator is positioned at
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// the exact entry that yields this->key(), this->value()
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// (2) When moving backwards, the internal iterator is positioned
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// just before all entries whose user key == this->key().
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enum Direction {
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kForward,
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kReverse
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};
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DBIter(const std::string* dbname, Env* env, const Options& options,
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const Comparator* cmp, Iterator* iter, SequenceNumber s)
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: dbname_(dbname),
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env_(env),
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logger_(options.info_log.get()),
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user_comparator_(cmp),
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user_merge_operator_(options.merge_operator.get()),
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iter_(iter),
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sequence_(s),
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direction_(kForward),
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valid_(false),
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current_entry_is_merged_(false),
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statistics_(options.statistics.get()) {
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RecordTick(statistics_, NO_ITERATORS, 1);
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max_skip_ = options.max_sequential_skip_in_iterations;
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}
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virtual ~DBIter() {
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RecordTick(statistics_, NO_ITERATORS, -1);
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delete iter_;
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}
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virtual bool Valid() const { return valid_; }
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virtual Slice key() const {
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assert(valid_);
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return saved_key_;
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}
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virtual Slice value() const {
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assert(valid_);
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return (direction_ == kForward && !current_entry_is_merged_) ?
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iter_->value() : saved_value_;
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}
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virtual Status status() const {
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if (status_.ok()) {
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return iter_->status();
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} else {
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return status_;
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}
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}
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virtual void Next();
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virtual void Prev();
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virtual void Seek(const Slice& target);
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virtual void SeekToFirst();
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virtual void SeekToLast();
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private:
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void FindNextUserEntry(bool skipping);
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void FindPrevUserEntry();
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bool ParseKey(ParsedInternalKey* key);
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void MergeValuesNewToOld();
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inline void SaveKey(const Slice& k, std::string* dst) {
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dst->assign(k.data(), k.size());
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}
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inline void ClearSavedValue() {
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if (saved_value_.capacity() > 1048576) {
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std::string empty;
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swap(empty, saved_value_);
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} else {
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saved_value_.clear();
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}
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}
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const std::string* const dbname_;
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Env* const env_;
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Logger* logger_;
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const Comparator* const user_comparator_;
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const MergeOperator* const user_merge_operator_;
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Iterator* const iter_;
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SequenceNumber const sequence_;
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Status status_;
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std::string saved_key_; // == current key when direction_==kReverse
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std::string saved_value_; // == current raw value when direction_==kReverse
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std::string skip_key_;
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Direction direction_;
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bool valid_;
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bool current_entry_is_merged_;
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Statistics* statistics_;
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uint64_t max_skip_;
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// No copying allowed
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DBIter(const DBIter&);
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void operator=(const DBIter&);
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};
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inline bool DBIter::ParseKey(ParsedInternalKey* ikey) {
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if (!ParseInternalKey(iter_->key(), ikey)) {
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status_ = Status::Corruption("corrupted internal key in DBIter");
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Log(logger_, "corrupted internal key in DBIter: %s",
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iter_->key().ToString(true).c_str());
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return false;
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} else {
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return true;
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}
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}
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void DBIter::Next() {
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assert(valid_);
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if (direction_ == kReverse) { // Switch directions?
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direction_ = kForward;
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// iter_ is pointing just before the entries for this->key(),
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// so advance into the range of entries for this->key() and then
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// use the normal skipping code below.
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if (!iter_->Valid()) {
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iter_->SeekToFirst();
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} else {
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iter_->Next();
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}
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if (!iter_->Valid()) {
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valid_ = false;
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saved_key_.clear();
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return;
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}
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}
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// If the current value is merged, we might already hit end of iter_
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if (!iter_->Valid()) {
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valid_ = false;
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return;
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}
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FindNextUserEntry(true /* skipping the current user key */);
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}
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// PRE: saved_key_ has the current user key if skipping
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// POST: saved_key_ should have the next user key if valid_,
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// if the current entry is a result of merge
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// current_entry_is_merged_ => true
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// saved_value_ => the merged value
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//
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// NOTE: In between, saved_key_ can point to a user key that has
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// a delete marker
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void DBIter::FindNextUserEntry(bool skipping) {
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// Loop until we hit an acceptable entry to yield
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assert(iter_->Valid());
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assert(direction_ == kForward);
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current_entry_is_merged_ = false;
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uint64_t num_skipped = 0;
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do {
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ParsedInternalKey ikey;
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if (ParseKey(&ikey) && ikey.sequence <= sequence_) {
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if (skipping &&
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user_comparator_->Compare(ikey.user_key, saved_key_) <= 0) {
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num_skipped++; // skip this entry
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BumpPerfCount(&perf_context.internal_key_skipped_count);
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} else {
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skipping = false;
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switch (ikey.type) {
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case kTypeDeletion:
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// Arrange to skip all upcoming entries for this key since
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// they are hidden by this deletion.
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SaveKey(ikey.user_key, &saved_key_);
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skipping = true;
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num_skipped = 0;
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BumpPerfCount(&perf_context.internal_delete_skipped_count);
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break;
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case kTypeValue:
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valid_ = true;
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SaveKey(ikey.user_key, &saved_key_);
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return;
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case kTypeMerge:
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// By now, we are sure the current ikey is going to yield a value
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SaveKey(ikey.user_key, &saved_key_);
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current_entry_is_merged_ = true;
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valid_ = true;
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MergeValuesNewToOld(); // Go to a different state machine
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return;
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case kTypeColumnFamilyDeletion:
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case kTypeColumnFamilyValue:
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case kTypeColumnFamilyMerge:
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case kTypeLogData:
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assert(false);
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break;
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}
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}
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}
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// If we have sequentially iterated via numerous keys and still not
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// found the next user-key, then it is better to seek so that we can
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// avoid too many key comparisons. We seek to the last occurence of
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// our current key by looking for sequence number 0.
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if (skipping && num_skipped > max_skip_) {
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num_skipped = 0;
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std::string last_key;
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AppendInternalKey(&last_key,
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ParsedInternalKey(Slice(saved_key_), 0, kValueTypeForSeek));
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iter_->Seek(last_key);
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RecordTick(statistics_, NUMBER_OF_RESEEKS_IN_ITERATION);
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} else {
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iter_->Next();
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}
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} while (iter_->Valid());
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valid_ = false;
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}
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// Merge values of the same user key starting from the current iter_ position
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// Scan from the newer entries to older entries.
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// PRE: iter_->key() points to the first merge type entry
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// saved_key_ stores the user key
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// POST: saved_value_ has the merged value for the user key
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// iter_ points to the next entry (or invalid)
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void DBIter::MergeValuesNewToOld() {
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if (!user_merge_operator_) {
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Log(logger_, "Options::merge_operator is null.");
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throw std::logic_error("DBIter::MergeValuesNewToOld() with"
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" Options::merge_operator null");
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}
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// Start the merge process by pushing the first operand
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std::deque<std::string> operands;
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operands.push_front(iter_->value().ToString());
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std::string merge_result; // Temporary string to hold merge result later
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ParsedInternalKey ikey;
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for (iter_->Next(); iter_->Valid(); iter_->Next()) {
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if (!ParseKey(&ikey)) {
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// skip corrupted key
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continue;
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}
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if (user_comparator_->Compare(ikey.user_key, saved_key_) != 0) {
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// hit the next user key, stop right here
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break;
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}
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if (kTypeDeletion == ikey.type) {
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// hit a delete with the same user key, stop right here
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// iter_ is positioned after delete
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iter_->Next();
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break;
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}
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if (kTypeValue == ikey.type) {
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// hit a put, merge the put value with operands and store the
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// final result in saved_value_. We are done!
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// ignore corruption if there is any.
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const Slice value = iter_->value();
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user_merge_operator_->FullMerge(ikey.user_key, &value, operands,
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&saved_value_, logger_);
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// iter_ is positioned after put
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iter_->Next();
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return;
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}
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if (kTypeMerge == ikey.type) {
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// hit a merge, add the value as an operand and run associative merge.
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// when complete, add result to operands and continue.
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const Slice& value = iter_->value();
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operands.push_front(value.ToString());
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while(operands.size() >= 2) {
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// Call user associative-merge until it returns false
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if (user_merge_operator_->PartialMerge(ikey.user_key,
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Slice(operands[0]),
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Slice(operands[1]),
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&merge_result,
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logger_)) {
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operands.pop_front();
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swap(operands.front(), merge_result);
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} else {
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// Associative merge returns false ==> stack the operands
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break;
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}
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}
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}
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}
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// we either exhausted all internal keys under this user key, or hit
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// a deletion marker.
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// feed null as the existing value to the merge operator, such that
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// client can differentiate this scenario and do things accordingly.
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user_merge_operator_->FullMerge(saved_key_, nullptr, operands,
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&saved_value_, logger_);
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}
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void DBIter::Prev() {
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assert(valid_);
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// Throw an exception now if merge_operator is provided
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// TODO: support backward iteration
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if (user_merge_operator_) {
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Log(logger_, "Prev not supported yet if merge_operator is provided");
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throw std::logic_error("DBIter::Prev backward iteration not supported"
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" if merge_operator is provided");
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}
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if (direction_ == kForward) { // Switch directions?
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// iter_ is pointing at the current entry. Scan backwards until
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// the key changes so we can use the normal reverse scanning code.
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assert(iter_->Valid()); // Otherwise valid_ would have been false
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SaveKey(ExtractUserKey(iter_->key()), &saved_key_);
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while (true) {
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iter_->Prev();
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if (!iter_->Valid()) {
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valid_ = false;
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saved_key_.clear();
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ClearSavedValue();
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return;
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}
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if (user_comparator_->Compare(ExtractUserKey(iter_->key()),
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saved_key_) < 0) {
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break;
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}
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}
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direction_ = kReverse;
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}
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FindPrevUserEntry();
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}
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void DBIter::FindPrevUserEntry() {
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assert(direction_ == kReverse);
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uint64_t num_skipped = 0;
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ValueType value_type = kTypeDeletion;
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if (iter_->Valid()) {
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do {
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ParsedInternalKey ikey;
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bool saved_key_cleared = false;
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if (ParseKey(&ikey) && ikey.sequence <= sequence_) {
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if ((value_type != kTypeDeletion) &&
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user_comparator_->Compare(ikey.user_key, saved_key_) < 0) {
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// We encountered a non-deleted value in entries for previous keys,
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break;
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}
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value_type = ikey.type;
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if (value_type == kTypeDeletion) {
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saved_key_.clear();
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ClearSavedValue();
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saved_key_cleared = true;
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} else {
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Slice raw_value = iter_->value();
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if (saved_value_.capacity() > raw_value.size() + 1048576) {
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std::string empty;
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swap(empty, saved_value_);
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}
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SaveKey(ExtractUserKey(iter_->key()), &saved_key_);
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saved_value_.assign(raw_value.data(), raw_value.size());
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}
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}
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num_skipped++;
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// If we have sequentially iterated via numerous keys and still not
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// found the prev user-key, then it is better to seek so that we can
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// avoid too many key comparisons. We seek to the first occurence of
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// our current key by looking for max sequence number.
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if (!saved_key_cleared && num_skipped > max_skip_) {
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num_skipped = 0;
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std::string last_key;
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AppendInternalKey(&last_key,
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ParsedInternalKey(Slice(saved_key_), kMaxSequenceNumber,
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kValueTypeForSeek));
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iter_->Seek(last_key);
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RecordTick(statistics_, NUMBER_OF_RESEEKS_IN_ITERATION);
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} else {
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iter_->Prev();
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}
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} while (iter_->Valid());
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}
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if (value_type == kTypeDeletion) {
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// End
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valid_ = false;
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saved_key_.clear();
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ClearSavedValue();
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direction_ = kForward;
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} else {
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valid_ = true;
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}
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}
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void DBIter::Seek(const Slice& target) {
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direction_ = kForward;
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ClearSavedValue();
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saved_key_.clear();
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AppendInternalKey(
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&saved_key_, ParsedInternalKey(target, sequence_, kValueTypeForSeek));
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iter_->Seek(saved_key_);
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if (iter_->Valid()) {
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FindNextUserEntry(false /*not skipping */);
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} else {
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valid_ = false;
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}
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}
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void DBIter::SeekToFirst() {
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direction_ = kForward;
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ClearSavedValue();
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iter_->SeekToFirst();
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if (iter_->Valid()) {
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FindNextUserEntry(false /* not skipping */);
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} else {
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valid_ = false;
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}
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}
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void DBIter::SeekToLast() {
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// Throw an exception for now if merge_operator is provided
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// TODO: support backward iteration
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if (user_merge_operator_) {
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Log(logger_, "SeekToLast not supported yet if merge_operator is provided");
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throw std::logic_error("DBIter::SeekToLast: backward iteration not"
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" supported if merge_operator is provided");
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}
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direction_ = kReverse;
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ClearSavedValue();
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iter_->SeekToLast();
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FindPrevUserEntry();
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}
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} // anonymous namespace
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Iterator* NewDBIterator(
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const std::string* dbname,
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Env* env,
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const Options& options,
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const Comparator *user_key_comparator,
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Iterator* internal_iter,
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const SequenceNumber& sequence) {
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return new DBIter(dbname, env, options, user_key_comparator,
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internal_iter, sequence);
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}
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} // namespace rocksdb
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