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https://github.com/facebook/rocksdb.git
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b7198c3afe
Summary: This diff allows a Writer to join the next write batch group without acquiring any locks. Waiting is performed via a per-Writer mutex, so all of the non-leader writers never need to acquire the db mutex. It is now possible to join a write batch group after the leader has been chosen but before the batch has been constructed. This diff doesn't increase parallelism, but reduces synchronization overheads. For some CPU-bound workloads (no WAL, RAM-sized working set) this can substantially reduce contention on the db mutex in a multi-threaded environment. With T=8 N=500000 in a CPU-bound scenario (see the test plan) this is good for a 33% perf win. Not all scenarios see such a win, but none show a loss. This code is slightly faster even for the single-threaded case (about 2% for the CPU-bound scenario below). Test Plan: 1. unit tests 2. COMPILE_WITH_TSAN=1 make check 3. stress high-contention scenarios with db_bench -benchmarks=fillrandom -threads=$T -batch_size=1 -memtablerep=skip_list -value_size=0 --num=$N -level0_slowdown_writes_trigger=9999 -level0_stop_writes_trigger=9999 -disable_auto_compactions --max_write_buffer_number=8 -max_background_flushes=8 --disable_wal --write_buffer_size=160000000 Reviewers: sdong, igor, rven, ljin, yhchiang Subscribers: dhruba Differential Revision: https://reviews.facebook.net/D43887
201 lines
6.3 KiB
C++
201 lines
6.3 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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#include "db/write_thread.h"
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namespace rocksdb {
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void WriteThread::Await(Writer* w) {
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std::unique_lock<std::mutex> guard(w->JoinMutex());
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w->JoinCV().wait(guard, [w] { return w->joined; });
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}
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void WriteThread::MarkJoined(Writer* w) {
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std::lock_guard<std::mutex> guard(w->JoinMutex());
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assert(!w->joined);
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w->joined = true;
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w->JoinCV().notify_one();
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}
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void WriteThread::LinkOne(Writer* w, bool* wait_needed) {
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assert(!w->joined && !w->done);
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Writer* writers = newest_writer_.load(std::memory_order_relaxed);
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while (true) {
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w->link_older = writers;
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if (writers != nullptr) {
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w->CreateMutex();
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}
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if (newest_writer_.compare_exchange_strong(writers, w)) {
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// Success.
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*wait_needed = (writers != nullptr);
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return;
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}
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}
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}
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void WriteThread::CreateMissingNewerLinks(Writer* head) {
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while (true) {
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Writer* next = head->link_older;
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if (next == nullptr || next->link_newer != nullptr) {
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assert(next == nullptr || next->link_newer == head);
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break;
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}
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next->link_newer = head;
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head = next;
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}
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}
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void WriteThread::JoinBatchGroup(Writer* w) {
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assert(w->batch != nullptr);
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bool wait_needed;
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LinkOne(w, &wait_needed);
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if (wait_needed) {
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Await(w);
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}
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}
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size_t WriteThread::EnterAsBatchGroupLeader(
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Writer* leader, WriteThread::Writer** last_writer,
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autovector<WriteBatch*>* write_batch_group) {
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assert(leader->link_older == nullptr);
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assert(leader->batch != nullptr);
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size_t size = WriteBatchInternal::ByteSize(leader->batch);
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write_batch_group->push_back(leader->batch);
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// Allow the group to grow up to a maximum size, but if the
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// original write is small, limit the growth so we do not slow
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// down the small write too much.
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size_t max_size = 1 << 20;
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if (size <= (128 << 10)) {
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max_size = size + (128 << 10);
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}
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*last_writer = leader;
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if (leader->has_callback) {
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// TODO(agiardullo:) Batching not currently supported as this write may
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// fail if the callback function decides to abort this write.
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return size;
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}
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Writer* newest_writer = newest_writer_.load(std::memory_order_acquire);
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// This is safe regardless of any db mutex status of the caller. Previous
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// calls to ExitAsGroupLeader either didn't call CreateMissingNewerLinks
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// (they emptied the list and then we added ourself as leader) or had to
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// explicitly wake up us (the list was non-empty when we added ourself,
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// so we have already received our MarkJoined).
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CreateMissingNewerLinks(newest_writer);
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// Tricky. Iteration start (leader) is exclusive and finish
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// (newest_writer) is inclusive. Iteration goes from old to new.
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Writer* w = leader;
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while (w != newest_writer) {
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w = w->link_newer;
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if (w->sync && !leader->sync) {
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// Do not include a sync write into a batch handled by a non-sync write.
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break;
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}
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if (!w->disableWAL && leader->disableWAL) {
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// Do not include a write that needs WAL into a batch that has
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// WAL disabled.
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break;
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}
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if (w->has_callback) {
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// Do not include writes which may be aborted if the callback does not
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// succeed.
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break;
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}
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if (w->batch == nullptr) {
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// Do not include those writes with nullptr batch. Those are not writes,
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// those are something else. They want to be alone
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break;
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}
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size += WriteBatchInternal::ByteSize(w->batch);
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if (size > max_size) {
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// Do not make batch too big
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break;
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}
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write_batch_group->push_back(w->batch);
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w->in_batch_group = true;
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*last_writer = w;
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}
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return size;
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}
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void WriteThread::ExitAsBatchGroupLeader(Writer* leader, Writer* last_writer,
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Status status) {
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assert(leader->link_older == nullptr);
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Writer* head = newest_writer_.load(std::memory_order_acquire);
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if (head != last_writer ||
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!newest_writer_.compare_exchange_strong(head, nullptr)) {
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// Either w wasn't the head during the load(), or it was the head
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// during the load() but somebody else pushed onto the list before
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// we did the compare_exchange_strong (causing it to fail). In the
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// latter case compare_exchange_strong has the effect of re-reading
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// its first param (head). No need to retry a failing CAS, because
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// only a departing leader (which we are at the moment) can remove
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// nodes from the list.
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assert(head != last_writer);
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// After walking link_older starting from head (if not already done)
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// we will be able to traverse w->link_newer below. This function
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// can only be called from an active leader, only a leader can
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// clear newest_writer_, we didn't, and only a clear newest_writer_
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// could cause the next leader to start their work without a call
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// to MarkJoined, so we can definitely conclude that no other leader
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// work is going on here (with or without db mutex).
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CreateMissingNewerLinks(head);
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assert(last_writer->link_newer->link_older == last_writer);
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last_writer->link_newer->link_older = nullptr;
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// Next leader didn't self-identify, because newest_writer_ wasn't
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// nullptr when they enqueued (we were definitely enqueued before them
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// and are still in the list). That means leader handoff occurs when
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// we call MarkJoined
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MarkJoined(last_writer->link_newer);
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}
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// else nobody else was waiting, although there might already be a new
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// leader now
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while (last_writer != leader) {
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last_writer->status = status;
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last_writer->done = true;
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// We must read link_older before calling MarkJoined, because as
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// soon as it is marked the other thread's AwaitJoined may return
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// and deallocate the Writer.
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auto next = last_writer->link_older;
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MarkJoined(last_writer);
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last_writer = next;
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}
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}
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void WriteThread::EnterUnbatched(Writer* w, InstrumentedMutex* mu) {
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assert(w->batch == nullptr);
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bool wait_needed;
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LinkOne(w, &wait_needed);
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if (wait_needed) {
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mu->Unlock();
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Await(w);
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mu->Lock();
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}
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}
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void WriteThread::ExitUnbatched(Writer* w) {
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Status dummy_status;
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ExitAsBatchGroupLeader(w, w, dummy_status);
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}
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} // namespace rocksdb
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