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// Copyright (c) 2011-present, Facebook, Inc. All rights reserved.
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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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//
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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 "rocksdb/comparator.h"
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#include <stdint.h>
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#include <algorithm>
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#include <memory>
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#include <mutex>
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#include <sstream>
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#include "db/dbformat.h"
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#include "port/lang.h"
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#include "port/port.h"
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#include "rocksdb/convenience.h"
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#include "rocksdb/slice.h"
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#include "rocksdb/utilities/customizable_util.h"
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#include "rocksdb/utilities/object_registry.h"
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namespace ROCKSDB_NAMESPACE {
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namespace {
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class BytewiseComparatorImpl : public Comparator {
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public:
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BytewiseComparatorImpl() {}
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static const char* kClassName() { return "leveldb.BytewiseComparator"; }
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const char* Name() const override { return kClassName(); }
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int Compare(const Slice& a, const Slice& b) const override {
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return a.compare(b);
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}
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bool Equal(const Slice& a, const Slice& b) const override { return a == b; }
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void FindShortestSeparator(std::string* start,
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const Slice& limit) const override {
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// Find length of common prefix
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size_t min_length = std::min(start->size(), limit.size());
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size_t diff_index = 0;
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while ((diff_index < min_length) &&
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((*start)[diff_index] == limit[diff_index])) {
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diff_index++;
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}
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if (diff_index >= min_length) {
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// Do not shorten if one string is a prefix of the other
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} else {
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uint8_t start_byte = static_cast<uint8_t>((*start)[diff_index]);
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uint8_t limit_byte = static_cast<uint8_t>(limit[diff_index]);
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if (start_byte >= limit_byte) {
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// Cannot shorten since limit is smaller than start or start is
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// already the shortest possible.
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return;
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}
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assert(start_byte < limit_byte);
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if (diff_index < limit.size() - 1 || start_byte + 1 < limit_byte) {
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(*start)[diff_index]++;
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start->resize(diff_index + 1);
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} else {
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// v
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// A A 1 A A A
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// A A 2
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//
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// Incrementing the current byte will make start bigger than limit, we
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// will skip this byte, and find the first non 0xFF byte in start and
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// increment it.
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diff_index++;
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while (diff_index < start->size()) {
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// Keep moving until we find the first non 0xFF byte to
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// increment it
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if (static_cast<uint8_t>((*start)[diff_index]) <
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static_cast<uint8_t>(0xff)) {
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(*start)[diff_index]++;
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start->resize(diff_index + 1);
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break;
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}
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diff_index++;
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}
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}
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assert(Compare(*start, limit) < 0);
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}
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}
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void FindShortSuccessor(std::string* key) const override {
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// Find first character that can be incremented
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size_t n = key->size();
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for (size_t i = 0; i < n; i++) {
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const uint8_t byte = (*key)[i];
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if (byte != static_cast<uint8_t>(0xff)) {
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(*key)[i] = byte + 1;
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key->resize(i + 1);
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return;
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}
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}
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// *key is a run of 0xffs. Leave it alone.
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}
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bool IsSameLengthImmediateSuccessor(const Slice& s,
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const Slice& t) const override {
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if (s.size() != t.size() || s.size() == 0) {
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return false;
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}
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size_t diff_ind = s.difference_offset(t);
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// same slice
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if (diff_ind >= s.size()) return false;
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uint8_t byte_s = static_cast<uint8_t>(s[diff_ind]);
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uint8_t byte_t = static_cast<uint8_t>(t[diff_ind]);
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// first different byte must be consecutive, and remaining bytes must be
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// 0xff for s and 0x00 for t
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if (byte_s != uint8_t{0xff} && byte_s + 1 == byte_t) {
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for (size_t i = diff_ind + 1; i < s.size(); ++i) {
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byte_s = static_cast<uint8_t>(s[i]);
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byte_t = static_cast<uint8_t>(t[i]);
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if (byte_s != uint8_t{0xff} || byte_t != uint8_t{0x00}) {
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return false;
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}
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}
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return true;
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} else {
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return false;
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}
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}
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bool CanKeysWithDifferentByteContentsBeEqual() const override {
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return false;
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}
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using Comparator::CompareWithoutTimestamp;
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int CompareWithoutTimestamp(const Slice& a, bool /*a_has_ts*/, const Slice& b,
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bool /*b_has_ts*/) const override {
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return a.compare(b);
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}
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bool EqualWithoutTimestamp(const Slice& a, const Slice& b) const override {
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return a == b;
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}
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};
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class ReverseBytewiseComparatorImpl : public BytewiseComparatorImpl {
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public:
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ReverseBytewiseComparatorImpl() {}
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static const char* kClassName() {
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return "rocksdb.ReverseBytewiseComparator";
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}
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const char* Name() const override { return kClassName(); }
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int Compare(const Slice& a, const Slice& b) const override {
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return -a.compare(b);
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}
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void FindShortestSeparator(std::string* start,
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const Slice& limit) const override {
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// Find length of common prefix
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size_t min_length = std::min(start->size(), limit.size());
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size_t diff_index = 0;
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while ((diff_index < min_length) &&
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((*start)[diff_index] == limit[diff_index])) {
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diff_index++;
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}
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assert(diff_index <= min_length);
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if (diff_index == min_length) {
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// Do not shorten if one string is a prefix of the other
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//
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// We could handle cases like:
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// V
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// A A 2 X Y
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// A A 2
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// in a similar way as BytewiseComparator::FindShortestSeparator().
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// We keep it simple by not implementing it. We can come back to it
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// later when needed.
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} else {
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uint8_t start_byte = static_cast<uint8_t>((*start)[diff_index]);
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uint8_t limit_byte = static_cast<uint8_t>(limit[diff_index]);
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if (start_byte > limit_byte && diff_index < start->size() - 1) {
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// Case like
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// V
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// A A 3 A A
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// A A 1 B B
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//
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// or
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// v
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// A A 2 A A
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// A A 1 B B
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// In this case "AA2" will be good.
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#ifndef NDEBUG
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std::string old_start = *start;
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#endif
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start->resize(diff_index + 1);
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#ifndef NDEBUG
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assert(old_start >= *start);
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#endif
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assert(Slice(*start).compare(limit) > 0);
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}
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}
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}
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void FindShortSuccessor(std::string* /*key*/) const override {
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// Don't do anything for simplicity.
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}
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Document design/specification bugs with auto_prefix_mode (#10144)
Summary:
auto_prefix_mode is designed to use prefix filtering in a
particular "safe" set of cases where the upper bound and the seek key
have different prefixes: where the upper bound is the "same length
immediate successor". These conditions are not sufficient to guarantee
the same iteration results as total_order_seek if the DB contains
"short" keys, less than the "full" (maximum) prefix length.
We are not simply disabling the optimization in these successor cases
because it is likely that users are essentially getting what they want
out of existing usage. Especially if users are constructing successor
bounds with the intention of doing a prefix-bounded seek, the existing
behavior is more expected than the total_order_seek behavior.
Consequently, for now we reconcile the bad specification of behavior by
documenting the existing mismatch with total_order_seek.
A closely related issue affects hypothetical comparators like
ReverseBytewiseComparator: if they "correctly" implement
IsSameLengthImmediateSuccessor, auto_prefix_mode could omit more
entries (other than "short" keys noted above). Luckily, the built-in
ReverseBytewiseComparator has an "incorrect" implementation of
IsSameLengthImmediateSuccessor that effectively prevents prefix
optimization and, thus, the bug. This is now documented as a new
constraint on IsSameLengthImmediateSuccessor, and the implementation
tweaked to be simply "safe" rather than "incorrect".
This change also includes unit test updates to demonstrate the above
issues. (Test was cleaned up for readability and simplicity.)
Intended follow-up:
* Tweak documented axioms for prefix_extractor (more details then)
* Consider some sort of fix for this case. I don't know what that would
look like without breaking the performance of existing code. Perhaps
if all keys in an SST file have prefixes that are "full length," we can track
that fact and use it to allow optimization with the "same length
immediate successor", but that would only apply to new files.
* Consider a better system of specifying prefix bounds
Pull Request resolved: https://github.com/facebook/rocksdb/pull/10144
Test Plan: test updates included
Reviewed By: siying
Differential Revision: D37052710
Pulled By: pdillinger
fbshipit-source-id: 5f63b7d65f3f214e4b143e0f9aa1749527c587db
2 years ago
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bool IsSameLengthImmediateSuccessor(const Slice& s,
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const Slice& t) const override {
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// Always returning false to prevent surfacing design flaws in
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// auto_prefix_mode
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(void)s, (void)t;
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return false;
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// "Correct" implementation:
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// return BytewiseComparatorImpl::IsSameLengthImmediateSuccessor(t, s);
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}
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bool CanKeysWithDifferentByteContentsBeEqual() const override {
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return false;
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}
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using Comparator::CompareWithoutTimestamp;
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int CompareWithoutTimestamp(const Slice& a, bool /*a_has_ts*/, const Slice& b,
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bool /*b_has_ts*/) const override {
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return -a.compare(b);
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}
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};
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// EXPERIMENTAL
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// Comparator with 64-bit integer timestamp.
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// We did not performance test this yet.
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template <typename TComparator>
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class ComparatorWithU64TsImpl : public Comparator {
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static_assert(std::is_base_of<Comparator, TComparator>::value,
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"template type must be a inherited type of comparator");
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public:
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explicit ComparatorWithU64TsImpl() : Comparator(/*ts_sz=*/sizeof(uint64_t)) {
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assert(cmp_without_ts_.timestamp_size() == 0);
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}
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static const char* kClassName() {
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static std::string class_name = kClassNameInternal();
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return class_name.c_str();
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}
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const char* Name() const override { return kClassName(); }
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void FindShortSuccessor(std::string*) const override {}
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void FindShortestSeparator(std::string*, const Slice&) const override {}
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int Compare(const Slice& a, const Slice& b) const override {
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int ret = CompareWithoutTimestamp(a, b);
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size_t ts_sz = timestamp_size();
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if (ret != 0) {
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return ret;
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}
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// Compare timestamp.
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// For the same user key with different timestamps, larger (newer) timestamp
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// comes first.
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return -CompareTimestamp(ExtractTimestampFromUserKey(a, ts_sz),
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ExtractTimestampFromUserKey(b, ts_sz));
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}
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using Comparator::CompareWithoutTimestamp;
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int CompareWithoutTimestamp(const Slice& a, bool a_has_ts, const Slice& b,
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bool b_has_ts) const override {
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const size_t ts_sz = timestamp_size();
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assert(!a_has_ts || a.size() >= ts_sz);
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assert(!b_has_ts || b.size() >= ts_sz);
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Slice lhs = a_has_ts ? StripTimestampFromUserKey(a, ts_sz) : a;
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Slice rhs = b_has_ts ? StripTimestampFromUserKey(b, ts_sz) : b;
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return cmp_without_ts_.Compare(lhs, rhs);
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}
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int CompareTimestamp(const Slice& ts1, const Slice& ts2) const override {
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assert(ts1.size() == sizeof(uint64_t));
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assert(ts2.size() == sizeof(uint64_t));
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uint64_t lhs = DecodeFixed64(ts1.data());
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uint64_t rhs = DecodeFixed64(ts2.data());
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if (lhs < rhs) {
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return -1;
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} else if (lhs > rhs) {
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return 1;
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} else {
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return 0;
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}
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}
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private:
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static std::string kClassNameInternal() {
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std::stringstream ss;
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ss << TComparator::kClassName() << ".u64ts";
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return ss.str();
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}
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TComparator cmp_without_ts_;
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};
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} // namespace
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const Comparator* BytewiseComparator() {
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STATIC_AVOID_DESTRUCTION(BytewiseComparatorImpl, bytewise);
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return &bytewise;
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}
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const Comparator* ReverseBytewiseComparator() {
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STATIC_AVOID_DESTRUCTION(ReverseBytewiseComparatorImpl, rbytewise);
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return &rbytewise;
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}
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const Comparator* BytewiseComparatorWithU64Ts() {
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STATIC_AVOID_DESTRUCTION(ComparatorWithU64TsImpl<BytewiseComparatorImpl>,
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comp_with_u64_ts);
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return &comp_with_u64_ts;
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}
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#ifndef ROCKSDB_LITE
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static int RegisterBuiltinComparators(ObjectLibrary& library,
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const std::string& /*arg*/) {
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library.AddFactory<const Comparator>(
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BytewiseComparatorImpl::kClassName(),
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[](const std::string& /*uri*/,
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std::unique_ptr<const Comparator>* /*guard */,
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std::string* /* errmsg */) { return BytewiseComparator(); });
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library.AddFactory<const Comparator>(
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ReverseBytewiseComparatorImpl::kClassName(),
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[](const std::string& /*uri*/,
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std::unique_ptr<const Comparator>* /*guard */,
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std::string* /* errmsg */) { return ReverseBytewiseComparator(); });
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library.AddFactory<const Comparator>(
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ComparatorWithU64TsImpl<BytewiseComparatorImpl>::kClassName(),
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[](const std::string& /*uri*/,
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std::unique_ptr<const Comparator>* /*guard */,
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std::string* /* errmsg */) { return BytewiseComparatorWithU64Ts(); });
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return 3;
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}
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#endif // ROCKSDB_LITE
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Status Comparator::CreateFromString(const ConfigOptions& config_options,
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const std::string& value,
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const Comparator** result) {
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#ifndef ROCKSDB_LITE
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static std::once_flag once;
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std::call_once(once, [&]() {
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RegisterBuiltinComparators(*(ObjectLibrary::Default().get()), "");
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});
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#endif // ROCKSDB_LITE
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std::string id;
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std::unordered_map<std::string, std::string> opt_map;
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Status status = Customizable::GetOptionsMap(config_options, *result, value,
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&id, &opt_map);
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if (!status.ok()) { // GetOptionsMap failed
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return status;
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}
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if (id == BytewiseComparatorImpl::kClassName()) {
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*result = BytewiseComparator();
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} else if (id == ReverseBytewiseComparatorImpl::kClassName()) {
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*result = ReverseBytewiseComparator();
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} else if (id ==
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ComparatorWithU64TsImpl<BytewiseComparatorImpl>::kClassName()) {
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*result = BytewiseComparatorWithU64Ts();
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} else if (value.empty()) {
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// No Id and no options. Clear the object
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*result = nullptr;
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return Status::OK();
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} else if (id.empty()) { // We have no Id but have options. Not good
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return Status::NotSupported("Cannot reset object ", id);
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} else {
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#ifndef ROCKSDB_LITE
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status = config_options.registry->NewStaticObject(id, result);
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#else
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status = Status::NotSupported("Cannot load object in LITE mode ", id);
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#endif // ROCKSDB_LITE
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if (!status.ok()) {
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if (config_options.ignore_unsupported_options &&
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status.IsNotSupported()) {
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return Status::OK();
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} else {
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return status;
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}
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} else {
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Comparator* comparator = const_cast<Comparator*>(*result);
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status =
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Customizable::ConfigureNewObject(config_options, comparator, opt_map);
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}
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}
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return status;
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}
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} // namespace ROCKSDB_NAMESPACE
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