// Copyright (c) 2011-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #include "db/periodic_work_scheduler.h" #include "db/db_impl/db_impl.h" #include "rocksdb/system_clock.h" #ifndef ROCKSDB_LITE namespace ROCKSDB_NAMESPACE { PeriodicWorkScheduler::PeriodicWorkScheduler( const std::shared_ptr& clock) { timer = std::unique_ptr(new Timer(clock.get())); } Status PeriodicWorkScheduler::Register(DBImpl* dbi, unsigned int stats_dump_period_sec, unsigned int stats_persist_period_sec) { MutexLock l(&timer_mu_); static std::atomic initial_delay(0); timer->Start(); if (stats_dump_period_sec > 0) { bool succeeded = timer->Add( [dbi]() { dbi->DumpStats(); }, GetTaskName(dbi, "dump_st"), initial_delay.fetch_add(1) % static_cast(stats_dump_period_sec) * kMicrosInSecond, static_cast(stats_dump_period_sec) * kMicrosInSecond); if (!succeeded) { return Status::Aborted("Unable to add periodic task DumpStats"); } } if (stats_persist_period_sec > 0) { bool succeeded = timer->Add( [dbi]() { dbi->PersistStats(); }, GetTaskName(dbi, "pst_st"), initial_delay.fetch_add(1) % static_cast(stats_persist_period_sec) * kMicrosInSecond, static_cast(stats_persist_period_sec) * kMicrosInSecond); if (!succeeded) { return Status::Aborted("Unable to add periodic task PersistStats"); } } bool succeeded = timer->Add( [dbi]() { dbi->FlushInfoLog(); }, GetTaskName(dbi, "flush_info_log"), initial_delay.fetch_add(1) % kDefaultFlushInfoLogPeriodSec * kMicrosInSecond, kDefaultFlushInfoLogPeriodSec * kMicrosInSecond); if (!succeeded) { return Status::Aborted("Unable to add periodic task PersistStats"); } return Status::OK(); } void PeriodicWorkScheduler::Unregister(DBImpl* dbi) { MutexLock l(&timer_mu_); timer->Cancel(GetTaskName(dbi, "dump_st")); timer->Cancel(GetTaskName(dbi, "pst_st")); timer->Cancel(GetTaskName(dbi, "flush_info_log")); if (!timer->HasPendingTask()) { timer->Shutdown(); } } PeriodicWorkScheduler* PeriodicWorkScheduler::Default() { // Always use the default SystemClock for the scheduler, as we only use the // NowMicros which is the same for all clocks. The Env could only be // overridden in test. static PeriodicWorkScheduler scheduler(SystemClock::Default()); return &scheduler; } std::string PeriodicWorkScheduler::GetTaskName(DBImpl* dbi, const std::string& func_name) { std::string db_session_id; // TODO: Should this error be ignored? dbi->GetDbSessionId(db_session_id).PermitUncheckedError(); return db_session_id + ":" + func_name; } #ifndef NDEBUG // Get the static scheduler. For a new SystemClock, it needs to re-create the // internal timer, so only re-create it when there's no running task. Otherwise, // return the existing scheduler. Which means if the unittest needs to update // MockClock, Close all db instances and then re-open them. PeriodicWorkTestScheduler* PeriodicWorkTestScheduler::Default( const std::shared_ptr& clock) { static PeriodicWorkTestScheduler scheduler(clock); static port::Mutex mutex; { MutexLock l(&mutex); if (scheduler.timer.get() != nullptr && scheduler.timer->TEST_GetPendingTaskNum() == 0) { { MutexLock timer_mu_guard(&scheduler.timer_mu_); scheduler.timer->Shutdown(); } scheduler.timer.reset(new Timer(clock.get())); } } return &scheduler; } void PeriodicWorkTestScheduler::TEST_WaitForRun( std::function callback) const { if (timer != nullptr) { timer->TEST_WaitForRun(callback); } } size_t PeriodicWorkTestScheduler::TEST_GetValidTaskNum() const { if (timer != nullptr) { return timer->TEST_GetPendingTaskNum(); } return 0; } PeriodicWorkTestScheduler::PeriodicWorkTestScheduler( const std::shared_ptr& clock) : PeriodicWorkScheduler(clock) {} #endif // !NDEBUG } // namespace ROCKSDB_NAMESPACE #endif // ROCKSDB_LITE