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e9e6e53247
Summary: The concept about early exit in write thread implementation is a confusing one. It means that if early exit is allowed, batch group leader will not responsible to exit the batch group, but the last finished writer do. In case we need to mark log synced, or encounter memtable insert error, early exit is disallowed. This patch remove such a concept by: * In all cases, the last finished writer (not necessary leader) is responsible to exit batch group. * In case of parallel memtable write, leader will also mark log synced after memtable insert and before signal finish (call `CompleteParallelWorker()`). The purpose is to allow mark log synced (which require locking mutex) can run in parallel to memtable insert in other writers. * The last finish writer should handle memtable insert error (update bg_error_) before exiting batch group. Closes https://github.com/facebook/rocksdb/pull/2134 Differential Revision: D4869667 Pulled By: yiwu-arbug fbshipit-source-id: aec170847c85b90f4179d6a4608a4fe1361544e3
312 lines
12 KiB
C++
312 lines
12 KiB
C++
// Copyright (c) 2011-present, 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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#pragma once
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#include <assert.h>
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#include <stdint.h>
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#include <atomic>
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#include <chrono>
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#include <condition_variable>
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#include <mutex>
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#include <type_traits>
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#include <vector>
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#include "db/write_callback.h"
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#include "monitoring/instrumented_mutex.h"
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#include "rocksdb/options.h"
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#include "rocksdb/status.h"
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#include "rocksdb/types.h"
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#include "rocksdb/write_batch.h"
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#include "util/autovector.h"
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namespace rocksdb {
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class WriteThread {
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public:
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enum State : uint8_t {
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// The initial state of a writer. This is a Writer that is
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// waiting in JoinBatchGroup. This state can be left when another
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// thread informs the waiter that it has become a group leader
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// (-> STATE_GROUP_LEADER), when a leader that has chosen to be
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// non-parallel informs a follower that its writes have been committed
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// (-> STATE_COMPLETED), or when a leader that has chosen to perform
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// updates in parallel and needs this Writer to apply its batch (->
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// STATE_PARALLEL_FOLLOWER).
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STATE_INIT = 1,
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// The state used to inform a waiting Writer that it has become the
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// leader, and it should now build a write batch group. Tricky:
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// this state is not used if newest_writer_ is empty when a writer
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// enqueues itself, because there is no need to wait (or even to
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// create the mutex and condvar used to wait) in that case. This is
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// a terminal state unless the leader chooses to make this a parallel
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// batch, in which case the last parallel worker to finish will move
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// the leader to STATE_COMPLETED.
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STATE_GROUP_LEADER = 2,
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// A Writer that has returned as a follower in a parallel group.
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// It should apply its batch to the memtable and then call
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// CompleteParallelWorker. When someone calls ExitAsBatchGroupLeader
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// or EarlyExitParallelGroup this state will get transitioned to
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// STATE_COMPLETED.
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STATE_PARALLEL_FOLLOWER = 4,
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// A follower whose writes have been applied, or a parallel leader
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// whose followers have all finished their work. This is a terminal
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// state.
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STATE_COMPLETED = 8,
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// A state indicating that the thread may be waiting using StateMutex()
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// and StateCondVar()
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STATE_LOCKED_WAITING = 16,
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};
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struct Writer;
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struct ParallelGroup {
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Writer* leader;
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Writer* last_writer;
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SequenceNumber last_sequence;
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// before running goes to zero, status needs leader->StateMutex()
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Status status;
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std::atomic<uint32_t> running;
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};
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// Information kept for every waiting writer.
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struct Writer {
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WriteBatch* batch;
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bool sync;
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bool no_slowdown;
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bool disable_wal;
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bool disable_memtable;
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uint64_t log_used; // log number that this batch was inserted into
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uint64_t log_ref; // log number that memtable insert should reference
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bool in_batch_group;
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WriteCallback* callback;
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bool made_waitable; // records lazy construction of mutex and cv
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std::atomic<uint8_t> state; // write under StateMutex() or pre-link
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ParallelGroup* parallel_group;
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SequenceNumber sequence; // the sequence number to use for the first key
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Status status; // status of memtable inserter
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Status callback_status; // status returned by callback->Callback()
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std::aligned_storage<sizeof(std::mutex)>::type state_mutex_bytes;
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std::aligned_storage<sizeof(std::condition_variable)>::type state_cv_bytes;
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Writer* link_older; // read/write only before linking, or as leader
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Writer* link_newer; // lazy, read/write only before linking, or as leader
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Writer()
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: batch(nullptr),
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sync(false),
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no_slowdown(false),
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disable_wal(false),
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disable_memtable(false),
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log_used(0),
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log_ref(0),
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in_batch_group(false),
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callback(nullptr),
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made_waitable(false),
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state(STATE_INIT),
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parallel_group(nullptr),
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link_older(nullptr),
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link_newer(nullptr) {}
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Writer(const WriteOptions& write_options, WriteBatch* _batch,
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WriteCallback* _callback, uint64_t _log_ref, bool _disable_memtable)
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: batch(_batch),
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sync(write_options.sync),
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no_slowdown(write_options.no_slowdown),
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disable_wal(write_options.disableWAL),
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disable_memtable(_disable_memtable),
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log_used(0),
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log_ref(_log_ref),
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in_batch_group(false),
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callback(_callback),
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made_waitable(false),
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state(STATE_INIT),
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parallel_group(nullptr),
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link_older(nullptr),
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link_newer(nullptr) {}
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~Writer() {
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if (made_waitable) {
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StateMutex().~mutex();
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StateCV().~condition_variable();
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}
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}
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bool CheckCallback(DB* db) {
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if (callback != nullptr) {
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callback_status = callback->Callback(db);
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}
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return callback_status.ok();
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}
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void CreateMutex() {
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if (!made_waitable) {
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// Note that made_waitable is tracked separately from state
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// transitions, because we can't atomically create the mutex and
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// link into the list.
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made_waitable = true;
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new (&state_mutex_bytes) std::mutex;
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new (&state_cv_bytes) std::condition_variable;
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}
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}
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// returns the aggregate status of this Writer
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Status FinalStatus() {
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if (!status.ok()) {
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// a non-ok memtable write status takes presidence
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assert(callback == nullptr || callback_status.ok());
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return status;
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} else if (!callback_status.ok()) {
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// if the callback failed then that is the status we want
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// because a memtable insert should not have been attempted
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assert(callback != nullptr);
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assert(status.ok());
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return callback_status;
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} else {
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// if there is no callback then we only care about
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// the memtable insert status
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assert(callback == nullptr || callback_status.ok());
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return status;
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}
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}
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bool CallbackFailed() {
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return (callback != nullptr) && !callback_status.ok();
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}
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bool ShouldWriteToMemtable() {
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return !CallbackFailed() && !disable_memtable;
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}
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bool ShouldWriteToWAL() { return !CallbackFailed() && !disable_wal; }
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// No other mutexes may be acquired while holding StateMutex(), it is
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// always last in the order
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std::mutex& StateMutex() {
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assert(made_waitable);
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return *static_cast<std::mutex*>(static_cast<void*>(&state_mutex_bytes));
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}
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std::condition_variable& StateCV() {
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assert(made_waitable);
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return *static_cast<std::condition_variable*>(
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static_cast<void*>(&state_cv_bytes));
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}
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};
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WriteThread(uint64_t max_yield_usec, uint64_t slow_yield_usec);
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// IMPORTANT: None of the methods in this class rely on the db mutex
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// for correctness. All of the methods except JoinBatchGroup and
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// EnterUnbatched may be called either with or without the db mutex held.
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// Correctness is maintained by ensuring that only a single thread is
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// a leader at a time.
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// Registers w as ready to become part of a batch group, waits until the
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// caller should perform some work, and returns the current state of the
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// writer. If w has become the leader of a write batch group, returns
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// STATE_GROUP_LEADER. If w has been made part of a sequential batch
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// group and the leader has performed the write, returns STATE_DONE.
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// If w has been made part of a parallel batch group and is responsible
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// for updating the memtable, returns STATE_PARALLEL_FOLLOWER.
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//
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// The db mutex SHOULD NOT be held when calling this function, because
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// it will block.
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//
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// Writer* w: Writer to be executed as part of a batch group
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void JoinBatchGroup(Writer* w);
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// Constructs a write batch group led by leader, which should be a
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// Writer passed to JoinBatchGroup on the current thread.
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//
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// Writer* leader: Writer that is STATE_GROUP_LEADER
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// Writer** last_writer: Out-param that identifies the last follower
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// autovector<WriteBatch*>* write_batch_group: Out-param of group members
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// returns: Total batch group byte size
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size_t EnterAsBatchGroupLeader(
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Writer* leader, Writer** last_writer,
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autovector<WriteThread::Writer*>* write_batch_group);
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// Causes JoinBatchGroup to return STATE_PARALLEL_FOLLOWER for all of the
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// non-leader members of this write batch group. Sets Writer::sequence
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// before waking them up.
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//
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// ParallalGroup* pg: Extra state used to coordinate the parallel add
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// SequenceNumber sequence: Starting sequence number to assign to Writer-s
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void LaunchParallelFollowers(ParallelGroup* pg, SequenceNumber sequence);
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// Reports the completion of w's batch to the parallel group leader, and
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// waits for the rest of the parallel batch to complete. Returns true
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// if this thread is the last to complete, and hence should advance
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// the sequence number and then call EarlyExitParallelGroup, false if
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// someone else has already taken responsibility for that.
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bool CompleteParallelWorker(Writer* w);
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// Exit batch group on behalf of batch group leader.
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void ExitAsBatchGroupFollower(Writer* w);
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// Unlinks the Writer-s in a batch group, wakes up the non-leaders,
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// and wakes up the next leader (if any).
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//
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// Writer* leader: From EnterAsBatchGroupLeader
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// Writer* last_writer: Value of out-param of EnterAsBatchGroupLeader
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// Status status: Status of write operation
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void ExitAsBatchGroupLeader(Writer* leader, Writer* last_writer,
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Status status);
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// Waits for all preceding writers (unlocking mu while waiting), then
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// registers w as the currently proceeding writer.
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//
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// Writer* w: A Writer not eligible for batching
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// InstrumentedMutex* mu: The db mutex, to unlock while waiting
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// REQUIRES: db mutex held
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void EnterUnbatched(Writer* w, InstrumentedMutex* mu);
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// Completes a Writer begun with EnterUnbatched, unblocking subsequent
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// writers.
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void ExitUnbatched(Writer* w);
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struct AdaptationContext {
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const char* name;
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std::atomic<int32_t> value;
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explicit AdaptationContext(const char* name0) : name(name0), value(0) {}
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};
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private:
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uint64_t max_yield_usec_;
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uint64_t slow_yield_usec_;
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// Points to the newest pending Writer. Only leader can remove
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// elements, adding can be done lock-free by anybody
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std::atomic<Writer*> newest_writer_;
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// Waits for w->state & goal_mask using w->StateMutex(). Returns
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// the state that satisfies goal_mask.
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uint8_t BlockingAwaitState(Writer* w, uint8_t goal_mask);
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// Blocks until w->state & goal_mask, returning the state value
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// that satisfied the predicate. Uses ctx to adaptively use
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// std::this_thread::yield() to avoid mutex overheads. ctx should be
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// a context-dependent static.
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uint8_t AwaitState(Writer* w, uint8_t goal_mask, AdaptationContext* ctx);
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void SetState(Writer* w, uint8_t new_state);
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// Links w into the newest_writer_ list. Sets *linked_as_leader to
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// true if w was linked directly into the leader position. Safe to
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// call from multiple threads without external locking.
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void LinkOne(Writer* w, bool* linked_as_leader);
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// Computes any missing link_newer links. Should not be called
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// concurrently with itself.
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void CreateMissingNewerLinks(Writer* head);
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};
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} // namespace rocksdb
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