fork of https://github.com/oxigraph/rocksdb and https://github.com/facebook/rocksdb for nextgraph and oxigraph
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391 lines
14 KiB
391 lines
14 KiB
// 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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#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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// The state used to inform a waiting writer that it has become the
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// leader of memtable writer group. The leader will either write
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// memtable for the whole group, or launch a parallel group write
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// to memtable by calling LaunchParallelMemTableWrite.
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STATE_MEMTABLE_WRITER_LEADER = 4,
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// The state used to inform a waiting writer that it has become a
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// parallel memtable writer. It can be the group leader who launch the
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// praallel writer group, or one of the followers. The writer should then
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// apply its batch to the memtable concurrently and call
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// CompleteParallelMemTableWriter.
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STATE_PARALLEL_MEMTABLE_WRITER = 8,
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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 = 16,
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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 = 32,
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};
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struct Writer;
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struct WriteGroup {
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Writer* leader = nullptr;
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Writer* last_writer = nullptr;
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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<size_t> running;
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size_t size = 0;
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struct Iterator {
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Writer* writer;
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Writer* last_writer;
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explicit Iterator(Writer* w, Writer* last)
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: writer(w), last_writer(last) {}
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Writer* operator*() const { return writer; }
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Iterator& operator++() {
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assert(writer != nullptr);
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if (writer == last_writer) {
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writer = nullptr;
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} else {
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writer = writer->link_newer;
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}
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return *this;
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}
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bool operator!=(const Iterator& other) const {
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return writer != other.writer;
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}
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};
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Iterator begin() const { return Iterator(leader, last_writer); }
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Iterator end() const { return Iterator(nullptr, nullptr); }
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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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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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WriteGroup* write_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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callback(nullptr),
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made_waitable(false),
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state(STATE_INIT),
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write_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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callback(_callback),
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made_waitable(false),
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state(STATE_INIT),
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write_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 status.ok() && !CallbackFailed() && !disable_memtable;
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}
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bool ShouldWriteToWAL() {
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return status.ok() && !CallbackFailed() && !disable_wal;
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}
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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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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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explicit WriteThread(const ImmutableDBOptions& db_options);
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virtual ~WriteThread() = default;
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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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// WriteGroup* write_group: Out-param of group members
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// returns: Total batch group byte size
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size_t EnterAsBatchGroupLeader(Writer* leader, WriteGroup* write_group);
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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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// WriteGroup* write_group: the write group
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// Status status: Status of write operation
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void ExitAsBatchGroupLeader(WriteGroup& write_group, Status status);
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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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// Constructs a write batch group led by leader from newest_memtable_writers_
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// list. The leader should either write memtable for the whole group and
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// call ExitAsMemTableWriter, or launch parallel memtable write through
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// LaunchParallelMemTableWriters.
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void EnterAsMemTableWriter(Writer* leader, WriteGroup* write_grup);
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// Memtable writer group leader, or the last finished writer in a parallel
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// write group, exit from the newest_memtable_writers_ list, and wake up
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// the next leader if needed.
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void ExitAsMemTableWriter(Writer* self, WriteGroup& write_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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// WriteGroup* write_group: Extra state used to coordinate the parallel add
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void LaunchParallelMemTableWriters(WriteGroup* write_group);
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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 CompleteParallelMemTableWriter(Writer* w);
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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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// Wait for all parallel memtable writers to finish, in case pipelined
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// write is enabled.
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void WaitForMemTableWriters();
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SequenceNumber UpdateLastSequence(SequenceNumber sequence) {
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if (sequence > last_sequence_) {
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last_sequence_ = sequence;
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}
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return last_sequence_;
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}
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private:
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// See AwaitState.
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const uint64_t max_yield_usec_;
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const uint64_t slow_yield_usec_;
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// Allow multiple writers write to memtable concurrently.
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const bool allow_concurrent_memtable_write_;
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// Enable pipelined write to WAL and memtable.
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const bool enable_pipelined_write_;
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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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// Points to the newest pending memtable writer. Used only when pipelined
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// write is enabled.
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std::atomic<Writer*> newest_memtable_writer_;
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// The last sequence that have been consumed by a writer. The sequence
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// is not necessary visible to reads because the writer can be ongoing.
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SequenceNumber last_sequence_;
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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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// Set writer state and wake the writer up if it is waiting.
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void SetState(Writer* w, uint8_t new_state);
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// Links w into the newest_writer list. Return true if w was linked directly
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// into the leader position. Safe to call from multiple threads without
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// external locking.
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bool LinkOne(Writer* w, std::atomic<Writer*>* newest_writer);
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// Link write group into the newest_writer list as a whole, while keeping the
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// order of the writers unchanged. Return true if the group was linked
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// directly into the leader position.
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bool LinkGroup(WriteGroup& write_group, std::atomic<Writer*>* newest_writer);
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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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// Set the leader in write_group to completed state and remove it from the
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// write group.
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void CompleteLeader(WriteGroup& write_group);
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// Set a follower in write_group to completed state and remove it from the
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// write group.
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void CompleteFollower(Writer* w, WriteGroup& write_group);
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};
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} // namespace rocksdb
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