mirror of https://github.com/facebook/rocksdb.git
184 lines
6.3 KiB
C
184 lines
6.3 KiB
C
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// Copyright (c) Meta Platforms, Inc. and affiliates.
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//
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// This source code is licensed under both the GPLv2 (found in the
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// COPYING file in the root directory) and Apache 2.0 License
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// (found in the LICENSE.Apache file in the root directory).
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#pragma once
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#include <algorithm>
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#include <cinttypes>
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#include <deque>
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#include <functional>
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#include <iterator>
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#include <string>
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#include "rocksdb/status.h"
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#include "rocksdb/types.h"
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namespace ROCKSDB_NAMESPACE {
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constexpr uint64_t kUnknownSeqnoTime = 0;
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// SeqnoToTimeMapping stores the sequence number to time mapping, so given a
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// sequence number it can estimate the oldest possible time for that sequence
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// number. For example:
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// 10 -> 100
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// 50 -> 300
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// then if a key has seqno 19, the OldestApproximateTime would be 100, for 51 it
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// would be 300.
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// As it's a sorted list, the new entry is inserted from the back. The old data
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// will be popped from the front if they're no longer used.
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class SeqnoToTimeMapping {
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public:
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// Maximum number of entries can be encoded into SST. The data is delta encode
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// so the maximum data usage for each SST is < 0.3K
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static constexpr uint64_t kMaxSeqnoTimePairsPerSST = 100;
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// Maximum number of entries per CF. If there's only CF with this feature on,
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// the max duration divided by this number, so for example, if
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// preclude_last_level_data_seconds = 100000 (~1day), then it will sample the
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// seqno -> time every 1000 seconds (~17minutes). Then the maximum entry it
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// needs is 100.
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// When there are multiple CFs having this feature on, the sampling cadence is
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// determined by the smallest setting, the capacity is determined the largest
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// setting, also it's caped by kMaxSeqnoTimePairsPerCF * 10.
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static constexpr uint64_t kMaxSeqnoTimePairsPerCF = 100;
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// A simple struct for sequence number to time pair
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struct SeqnoTimePair {
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SequenceNumber seqno = 0;
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uint64_t time = 0;
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SeqnoTimePair() = default;
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SeqnoTimePair(SequenceNumber _seqno, uint64_t _time)
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: seqno(_seqno), time(_time) {}
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// Encode to dest string
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void Encode(std::string& dest) const;
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// Decode the value from input Slice and remove it from the input
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Status Decode(Slice& input);
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// subtraction of 2 SeqnoTimePair
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SeqnoTimePair operator-(const SeqnoTimePair& other) const;
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// Add 2 values together
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void Add(const SeqnoTimePair& obj) {
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seqno += obj.seqno;
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time += obj.time;
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}
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// Compare SeqnoTimePair with a sequence number, used for binary search a
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// sequence number in a list of SeqnoTimePair
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bool operator<(const SequenceNumber& other) const { return seqno < other; }
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// Compare 2 SeqnoTimePair
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bool operator<(const SeqnoTimePair& other) const {
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return std::tie(seqno, time) < std::tie(other.seqno, other.time);
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}
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// Check if 2 SeqnoTimePair is the same
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bool operator==(const SeqnoTimePair& other) const {
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return std::tie(seqno, time) == std::tie(other.seqno, other.time);
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}
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};
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// constractor of SeqnoToTimeMapping
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// max_time_duration is the maximum time it should track. For example, if
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// preclude_last_level_data_seconds is 1 day, then if an entry is older than 1
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// day, then it can be removed.
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// max_capacity is the maximum number of entry it can hold. For single CF,
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// it's caped at 100 (kMaxSeqnoTimePairsPerCF), otherwise
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// kMaxSeqnoTimePairsPerCF * 10.
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// If it's set to 0, means it won't truncate any old data.
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explicit SeqnoToTimeMapping(uint64_t max_time_duration = 0,
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uint64_t max_capacity = 0)
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: max_time_duration_(max_time_duration), max_capacity_(max_capacity) {}
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// Append a new entry to the list. The new entry should be newer than the
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// existing ones. It maintains the internal sorted status.
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bool Append(SequenceNumber seqno, uint64_t time);
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// Given a sequence number, estimate it's oldest time
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uint64_t GetOldestApproximateTime(SequenceNumber seqno) const;
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// Truncate the old entries based on the current time and max_time_duration_
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SequenceNumber TruncateOldEntries(uint64_t now);
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// Encode to a binary string
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void Encode(std::string& des, SequenceNumber start, SequenceNumber end,
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uint64_t now,
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uint64_t output_size = kMaxSeqnoTimePairsPerSST) const;
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// Add a new random entry, unlike Append(), it can be any data, but also makes
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// the list un-sorted.
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void Add(SequenceNumber seqno, uint64_t time);
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// Decode and add the entries to the current obj. The list will be unsorted
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Status Add(const std::string& seqno_time_mapping_str);
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// Return the number of entries
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size_t Size() const { return seqno_time_mapping_.size(); }
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// Reduce the size of internal list
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bool Resize(uint64_t min_time_duration, uint64_t max_time_duration);
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// Override the max_time_duration_
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void SetMaxTimeDuration(uint64_t max_time_duration) {
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max_time_duration_ = max_time_duration;
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}
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uint64_t GetCapacity() const { return max_capacity_; }
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// Sort the list, which also remove the redundant entries, useless entries,
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// which makes sure the seqno is sorted, but also the time
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Status Sort();
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// copy the current obj from the given smallest_seqno.
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SeqnoToTimeMapping Copy(SequenceNumber smallest_seqno) const;
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// If the internal list is empty
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bool Empty() const { return seqno_time_mapping_.empty(); }
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// clear all entries
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void Clear() { seqno_time_mapping_.clear(); }
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// return the string for user message
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// Note: Not efficient, okay for print
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std::string ToHumanString() const;
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#ifndef NDEBUG
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const std::deque<SeqnoTimePair>& TEST_GetInternalMapping() const {
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return seqno_time_mapping_;
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}
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#endif
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private:
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static constexpr uint64_t kMaxSeqnoToTimeEntries =
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kMaxSeqnoTimePairsPerCF * 10;
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uint64_t max_time_duration_;
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uint64_t max_capacity_;
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std::deque<SeqnoTimePair> seqno_time_mapping_;
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bool is_sorted_ = true;
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static uint64_t CalculateMaxCapacity(uint64_t min_time_duration,
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uint64_t max_time_duration);
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SeqnoTimePair& Last() {
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assert(!Empty());
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return seqno_time_mapping_.back();
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}
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};
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// for searching the sequence number from SeqnoToTimeMapping
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inline bool operator<(const SequenceNumber& seqno,
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const SeqnoToTimeMapping::SeqnoTimePair& other) {
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return seqno < other.seqno;
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}
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} // namespace ROCKSDB_NAMESPACE
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