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// Copyright (c) 2011-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).
//
// 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 <cstdint>
#include <string>
#include "db/db_impl/db_impl.h"
#include "db/range_del_aggregator.h"
#include "memory/arena.h"
#include "options/cf_options.h"
#include "rocksdb/db.h"
#include "rocksdb/iterator.h"
#include "rocksdb/wide_columns.h"
#include "table/iterator_wrapper.h"
#include "util/autovector.h"
namespace ROCKSDB_NAMESPACE {
class Version;
// This file declares the factory functions of DBIter, in its original form
// or a wrapped form with class ArenaWrappedDBIter, which is defined here.
// Class DBIter, which is declared and implemented inside db_iter.cc, is
// an iterator that converts internal keys (yielded by an InternalIterator)
// that were live at the specified sequence number into appropriate user
// keys.
// Each internal key consists of a user key, a sequence number, and a value
// type. DBIter deals with multiple key versions, tombstones, merge operands,
// etc, and exposes an Iterator.
// For example, DBIter may wrap following InternalIterator:
// user key: AAA value: v3 seqno: 100 type: Put
// user key: AAA value: v2 seqno: 97 type: Put
// user key: AAA value: v1 seqno: 95 type: Put
// user key: BBB value: v1 seqno: 90 type: Put
// user key: BBC value: N/A seqno: 98 type: Delete
// user key: BBC value: v1 seqno: 95 type: Put
// If the snapshot passed in is 102, then the DBIter is expected to
// expose the following iterator:
// key: AAA value: v3
// key: BBB value: v1
// If the snapshot passed in is 96, then it should expose:
// key: AAA value: v1
// key: BBB value: v1
// key: BBC value: v1
//
// Memtables and sstables that make the DB representation contain
// (userkey,seq,type) => uservalue entries. DBIter
// combines multiple entries for the same userkey found in the DB
// representation into a single entry while accounting for sequence
// numbers, deletion markers, overwrites, etc.
class DBIter final : public Iterator {
public:
// The following is grossly complicated. TODO: clean it up
// Which direction is the iterator currently moving?
// (1) When moving forward:
// (1a) if current_entry_is_merged_ = false, the internal iterator is
// positioned at the exact entry that yields this->key(), this->value()
// (1b) if current_entry_is_merged_ = true, the internal iterator is
// positioned immediately after the last entry that contributed to the
// current this->value(). That entry may or may not have key equal to
// this->key().
// (2) When moving backwards, the internal iterator is positioned
// just before all entries whose user key == this->key().
enum Direction : uint8_t { kForward, kReverse };
// LocalStatistics contain Statistics counters that will be aggregated per
// each iterator instance and then will be sent to the global statistics when
// the iterator is destroyed.
//
// The purpose of this approach is to avoid perf regression happening
// when multiple threads bump the atomic counters from a DBIter::Next().
struct LocalStatistics {
explicit LocalStatistics() { ResetCounters(); }
void ResetCounters() {
next_count_ = 0;
next_found_count_ = 0;
prev_count_ = 0;
prev_found_count_ = 0;
bytes_read_ = 0;
skip_count_ = 0;
}
void BumpGlobalStatistics(Statistics* global_statistics) {
RecordTick(global_statistics, NUMBER_DB_NEXT, next_count_);
RecordTick(global_statistics, NUMBER_DB_NEXT_FOUND, next_found_count_);
RecordTick(global_statistics, NUMBER_DB_PREV, prev_count_);
RecordTick(global_statistics, NUMBER_DB_PREV_FOUND, prev_found_count_);
RecordTick(global_statistics, ITER_BYTES_READ, bytes_read_);
RecordTick(global_statistics, NUMBER_ITER_SKIP, skip_count_);
PERF_COUNTER_ADD(iter_read_bytes, bytes_read_);
ResetCounters();
}
// Map to Tickers::NUMBER_DB_NEXT
uint64_t next_count_;
// Map to Tickers::NUMBER_DB_NEXT_FOUND
uint64_t next_found_count_;
// Map to Tickers::NUMBER_DB_PREV
uint64_t prev_count_;
// Map to Tickers::NUMBER_DB_PREV_FOUND
uint64_t prev_found_count_;
// Map to Tickers::ITER_BYTES_READ
uint64_t bytes_read_;
// Map to Tickers::NUMBER_ITER_SKIP
uint64_t skip_count_;
};
DBIter(Env* _env, const ReadOptions& read_options,
const ImmutableOptions& ioptions,
const MutableCFOptions& mutable_cf_options, const Comparator* cmp,
InternalIterator* iter, const Version* version, SequenceNumber s,
bool arena_mode, uint64_t max_sequential_skip_in_iterations,
ReadCallback* read_callback, DBImpl* db_impl, ColumnFamilyData* cfd,
bool expose_blob_index);
// No copying allowed
DBIter(const DBIter&) = delete;
void operator=(const DBIter&) = delete;
~DBIter() override {
// Release pinned data if any
if (pinned_iters_mgr_.PinningEnabled()) {
pinned_iters_mgr_.ReleasePinnedData();
}
RecordTick(statistics_, NO_ITERATOR_DELETED);
ResetInternalKeysSkippedCounter();
local_stats_.BumpGlobalStatistics(statistics_);
iter_.DeleteIter(arena_mode_);
}
void SetIter(InternalIterator* iter) {
assert(iter_.iter() == nullptr);
iter_.Set(iter);
iter_.iter()->SetPinnedItersMgr(&pinned_iters_mgr_);
}
bool Valid() const override {
#ifdef ROCKSDB_ASSERT_STATUS_CHECKED
if (valid_) {
status_.PermitUncheckedError();
}
#endif // ROCKSDB_ASSERT_STATUS_CHECKED
return valid_;
}
Slice key() const override {
assert(valid_);
if (timestamp_lb_) {
return saved_key_.GetInternalKey();
} else {
const Slice ukey_and_ts = saved_key_.GetUserKey();
return Slice(ukey_and_ts.data(), ukey_and_ts.size() - timestamp_size_);
}
}
Slice value() const override {
assert(valid_);
return value_;
}
const WideColumns& columns() const override {
assert(valid_);
return wide_columns_;
}
Status status() const override {
if (status_.ok()) {
return iter_.status();
} else {
assert(!valid_);
return status_;
}
}
Slice timestamp() const override {
assert(valid_);
assert(timestamp_size_ > 0);
if (direction_ == kReverse) {
return saved_timestamp_;
}
const Slice ukey_and_ts = saved_key_.GetUserKey();
assert(timestamp_size_ < ukey_and_ts.size());
return ExtractTimestampFromUserKey(ukey_and_ts, timestamp_size_);
}
bool IsBlob() const {
assert(valid_);
return is_blob_;
}
Status GetProperty(std::string prop_name, std::string* prop) override;
void Next() final override;
void Prev() final override;
// 'target' does not contain timestamp, even if user timestamp feature is
// enabled.
void Seek(const Slice& target) final override;
void SeekForPrev(const Slice& target) final override;
void SeekToFirst() final override;
void SeekToLast() final override;
Env* env() const { return env_; }
void set_sequence(uint64_t s) {
sequence_ = s;
if (read_callback_) {
read_callback_->Refresh(s);
}
}
void set_valid(bool v) { valid_ = v; }
private:
// For all methods in this block:
// PRE: iter_->Valid() && status_.ok()
// Return false if there was an error, and status() is non-ok, valid_ = false;
// in this case callers would usually stop what they were doing and return.
bool ReverseToForward();
bool ReverseToBackward();
// Set saved_key_ to the seek key to target, with proper sequence number set.
// It might get adjusted if the seek key is smaller than iterator lower bound.
// target does not have timestamp.
void SetSavedKeyToSeekTarget(const Slice& target);
// Set saved_key_ to the seek key to target, with proper sequence number set.
// It might get adjusted if the seek key is larger than iterator upper bound.
// target does not have timestamp.
void SetSavedKeyToSeekForPrevTarget(const Slice& target);
bool FindValueForCurrentKey();
bool FindValueForCurrentKeyUsingSeek();
bool FindUserKeyBeforeSavedKey();
// If `skipping_saved_key` is true, the function will keep iterating until it
// finds a user key that is larger than `saved_key_`.
// If `prefix` is not null, the iterator needs to stop when all keys for the
// prefix are exhausted and the iterator is set to invalid.
bool FindNextUserEntry(bool skipping_saved_key, const Slice* prefix);
// Internal implementation of FindNextUserEntry().
bool FindNextUserEntryInternal(bool skipping_saved_key, const Slice* prefix);
bool ParseKey(ParsedInternalKey* key);
bool MergeValuesNewToOld();
// If prefix is not null, we need to set the iterator to invalid if no more
// entry can be found within the prefix.
void PrevInternal(const Slice* prefix);
bool TooManyInternalKeysSkipped(bool increment = true);
bool IsVisible(SequenceNumber sequence, const Slice& ts,
bool* more_recent = nullptr);
// Temporarily pin the blocks that we encounter until ReleaseTempPinnedData()
// is called
void TempPinData() {
if (!pin_thru_lifetime_) {
pinned_iters_mgr_.StartPinning();
}
}
// Release blocks pinned by TempPinData()
void ReleaseTempPinnedData() {
if (!pin_thru_lifetime_ && pinned_iters_mgr_.PinningEnabled()) {
pinned_iters_mgr_.ReleasePinnedData();
}
}
inline void ClearSavedValue() {
if (saved_value_.capacity() > 1048576) {
std::string empty;
swap(empty, saved_value_);
} else {
saved_value_.clear();
}
}
inline void ResetInternalKeysSkippedCounter() {
local_stats_.skip_count_ += num_internal_keys_skipped_;
if (valid_) {
local_stats_.skip_count_--;
}
num_internal_keys_skipped_ = 0;
}
bool expect_total_order_inner_iter() {
assert(expect_total_order_inner_iter_ || prefix_extractor_ != nullptr);
return expect_total_order_inner_iter_;
}
// If lower bound of timestamp is given by ReadOptions.iter_start_ts, we need
// to return versions of the same key. We cannot just skip if the key value
// is the same but timestamps are different but fall in timestamp range.
inline int CompareKeyForSkip(const Slice& a, const Slice& b) {
return timestamp_lb_ != nullptr
? user_comparator_.Compare(a, b)
: user_comparator_.CompareWithoutTimestamp(a, b);
}
// Retrieves the blob value for the specified user key using the given blob
// index when using the integrated BlobDB implementation.
bool SetBlobValueIfNeeded(const Slice& user_key, const Slice& blob_index);
void ResetBlobValue() {
is_blob_ = false;
blob_value_.Reset();
}
void SetValueAndColumnsFromPlain(const Slice& slice) {
assert(value_.empty());
assert(wide_columns_.empty());
value_ = slice;
wide_columns_.emplace_back(kDefaultWideColumnName, slice);
}
bool SetValueAndColumnsFromEntity(Slice slice);
void ResetValueAndColumns() {
value_.clear();
wide_columns_.clear();
}
// If user-defined timestamp is enabled, `user_key` includes timestamp.
bool Merge(const Slice* val, const Slice& user_key);
bool MergeEntity(const Slice& entity, const Slice& user_key);
const SliceTransform* prefix_extractor_;
Env* const env_;
SystemClock* clock_;
Logger* logger_;
UserComparatorWrapper user_comparator_;
const MergeOperator* const merge_operator_;
IteratorWrapper iter_;
const Version* version_;
ReadCallback* read_callback_;
// Max visible sequence number. It is normally the snapshot seq unless we have
// uncommitted data in db as in WriteUnCommitted.
SequenceNumber sequence_;
IterKey saved_key_;
// Reusable internal key data structure. This is only used inside one function
// and should not be used across functions. Reusing this object can reduce
// overhead of calling construction of the function if creating it each time.
ParsedInternalKey ikey_;
std::string saved_value_;
Slice pinned_value_;
// for prefix seek mode to support prev()
PinnableSlice blob_value_;
// Value of the default column
Slice value_;
// All columns (i.e. name-value pairs)
WideColumns wide_columns_;
Statistics* statistics_;
uint64_t max_skip_;
uint64_t max_skippable_internal_keys_;
uint64_t num_internal_keys_skipped_;
const Slice* iterate_lower_bound_;
const Slice* iterate_upper_bound_;
// The prefix of the seek key. It is only used when prefix_same_as_start_
// is true and prefix extractor is not null. In Next() or Prev(), current keys
// will be checked against this prefix, so that the iterator can be
// invalidated if the keys in this prefix has been exhausted. Set it using
// SetUserKey() and use it using GetUserKey().
IterKey prefix_;
Status status_;
Direction direction_;
bool valid_;
bool current_entry_is_merged_;
// True if we know that the current entry's seqnum is 0.
// This information is used as that the next entry will be for another
// user key.
bool is_key_seqnum_zero_;
const bool prefix_same_as_start_;
// Means that we will pin all data blocks we read as long the Iterator
// is not deleted, will be true if ReadOptions::pin_data is true
const bool pin_thru_lifetime_;
// Expect the inner iterator to maintain a total order.
// prefix_extractor_ must be non-NULL if the value is false.
const bool expect_total_order_inner_iter_;
ReadTier read_tier_;
bool fill_cache_;
bool verify_checksums_;
// Whether the iterator is allowed to expose blob references. Set to true when
// the stacked BlobDB implementation is used, false otherwise.
bool expose_blob_index_;
bool is_blob_;
bool arena_mode_;
// List of operands for merge operator.
MergeContext merge_context_;
LocalStatistics local_stats_;
PinnedIteratorsManager pinned_iters_mgr_;
DBImpl* db_impl_;
ColumnFamilyData* cfd_;
const Slice* const timestamp_ub_;
const Slice* const timestamp_lb_;
const size_t timestamp_size_;
std::string saved_timestamp_;
};
// Return a new iterator that converts internal keys (yielded by
// "*internal_iter") that were live at the specified `sequence` number
// into appropriate user keys.
extern Iterator* NewDBIterator(
Env* env, const ReadOptions& read_options, const ImmutableOptions& ioptions,
const MutableCFOptions& mutable_cf_options,
const Comparator* user_key_comparator, InternalIterator* internal_iter,
const Version* version, const SequenceNumber& sequence,
uint64_t max_sequential_skip_in_iterations, ReadCallback* read_callback,
DBImpl* db_impl = nullptr, ColumnFamilyData* cfd = nullptr,
bool expose_blob_index = false);
} // namespace ROCKSDB_NAMESPACE