// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "sync/engine/sync_scheduler_impl.h" #include #include #include "base/auto_reset.h" #include "base/bind.h" #include "base/bind_helpers.h" #include "base/compiler_specific.h" #include "base/location.h" #include "base/logging.h" #include "base/message_loop/message_loop.h" #include "sync/engine/backoff_delay_provider.h" #include "sync/engine/syncer.h" #include "sync/notifier/object_id_invalidation_map.h" #include "sync/protocol/proto_enum_conversions.h" #include "sync/protocol/sync.pb.h" #include "sync/util/data_type_histogram.h" #include "sync/util/logging.h" using base::TimeDelta; using base::TimeTicks; namespace syncer { using sessions::SyncSession; using sessions::SyncSessionSnapshot; using sync_pb::GetUpdatesCallerInfo; namespace { bool ShouldRequestEarlyExit(const SyncProtocolError& error) { switch (error.error_type) { case SYNC_SUCCESS: case MIGRATION_DONE: case THROTTLED: case TRANSIENT_ERROR: return false; case NOT_MY_BIRTHDAY: case CLEAR_PENDING: case DISABLED_BY_ADMIN: case USER_ROLLBACK: // If we send terminate sync early then |sync_cycle_ended| notification // would not be sent. If there were no actions then |ACTIONABLE_ERROR| // notification wouldnt be sent either. Then the UI layer would be left // waiting forever. So assert we would send something. DCHECK_NE(error.action, UNKNOWN_ACTION); return true; case INVALID_CREDENTIAL: // The notification for this is handled by PostAndProcessHeaders|. // Server does no have to send any action for this. return true; // Make the default a NOTREACHED. So if a new error is introduced we // think about its expected functionality. default: NOTREACHED(); return false; } } bool IsActionableError( const SyncProtocolError& error) { return (error.action != UNKNOWN_ACTION); } } // namespace ConfigurationParams::ConfigurationParams() : source(GetUpdatesCallerInfo::UNKNOWN) {} ConfigurationParams::ConfigurationParams( const sync_pb::GetUpdatesCallerInfo::GetUpdatesSource& source, ModelTypeSet types_to_download, const ModelSafeRoutingInfo& routing_info, const base::Closure& ready_task, const base::Closure& retry_task) : source(source), types_to_download(types_to_download), routing_info(routing_info), ready_task(ready_task), retry_task(retry_task) { DCHECK(!ready_task.is_null()); DCHECK(!retry_task.is_null()); } ConfigurationParams::~ConfigurationParams() {} SyncSchedulerImpl::WaitInterval::WaitInterval() : mode(UNKNOWN) {} SyncSchedulerImpl::WaitInterval::WaitInterval(Mode mode, TimeDelta length) : mode(mode), length(length) {} SyncSchedulerImpl::WaitInterval::~WaitInterval() {} #define ENUM_CASE(x) case x: return #x; break; const char* SyncSchedulerImpl::WaitInterval::GetModeString(Mode mode) { switch (mode) { ENUM_CASE(UNKNOWN); ENUM_CASE(EXPONENTIAL_BACKOFF); ENUM_CASE(THROTTLED); } NOTREACHED(); return ""; } GetUpdatesCallerInfo::GetUpdatesSource GetUpdatesFromNudgeSource( NudgeSource source) { switch (source) { case NUDGE_SOURCE_NOTIFICATION: return GetUpdatesCallerInfo::NOTIFICATION; case NUDGE_SOURCE_LOCAL: return GetUpdatesCallerInfo::LOCAL; case NUDGE_SOURCE_LOCAL_REFRESH: return GetUpdatesCallerInfo::DATATYPE_REFRESH; case NUDGE_SOURCE_UNKNOWN: return GetUpdatesCallerInfo::UNKNOWN; default: NOTREACHED(); return GetUpdatesCallerInfo::UNKNOWN; } } // Helper macros to log with the syncer thread name; useful when there // are multiple syncer threads involved. #define SLOG(severity) LOG(severity) << name_ << ": " #define SDVLOG(verbose_level) DVLOG(verbose_level) << name_ << ": " #define SDVLOG_LOC(from_here, verbose_level) \ DVLOG_LOC(from_here, verbose_level) << name_ << ": " namespace { const int kDefaultSessionsCommitDelaySeconds = 10; bool IsConfigRelatedUpdateSourceValue( GetUpdatesCallerInfo::GetUpdatesSource source) { switch (source) { case GetUpdatesCallerInfo::RECONFIGURATION: case GetUpdatesCallerInfo::MIGRATION: case GetUpdatesCallerInfo::NEW_CLIENT: case GetUpdatesCallerInfo::NEWLY_SUPPORTED_DATATYPE: return true; default: return false; } } } // namespace SyncSchedulerImpl::SyncSchedulerImpl(const std::string& name, BackoffDelayProvider* delay_provider, sessions::SyncSessionContext* context, Syncer* syncer) : name_(name), started_(false), syncer_short_poll_interval_seconds_( TimeDelta::FromSeconds(kDefaultShortPollIntervalSeconds)), syncer_long_poll_interval_seconds_( TimeDelta::FromSeconds(kDefaultLongPollIntervalSeconds)), sessions_commit_delay_( TimeDelta::FromSeconds(kDefaultSessionsCommitDelaySeconds)), mode_(NORMAL_MODE), delay_provider_(delay_provider), syncer_(syncer), session_context_(context), no_scheduling_allowed_(false), do_poll_after_credentials_updated_(false), next_sync_session_job_priority_(NORMAL_PRIORITY), weak_ptr_factory_(this), weak_ptr_factory_for_weak_handle_(this) { weak_handle_this_ = MakeWeakHandle( weak_ptr_factory_for_weak_handle_.GetWeakPtr()); } SyncSchedulerImpl::~SyncSchedulerImpl() { DCHECK(CalledOnValidThread()); Stop(); } void SyncSchedulerImpl::OnCredentialsUpdated() { DCHECK(CalledOnValidThread()); if (HttpResponse::SYNC_AUTH_ERROR == session_context_->connection_manager()->server_status()) { OnServerConnectionErrorFixed(); } } void SyncSchedulerImpl::OnConnectionStatusChange() { if (HttpResponse::CONNECTION_UNAVAILABLE == session_context_->connection_manager()->server_status()) { // Optimistically assume that the connection is fixed and try // connecting. OnServerConnectionErrorFixed(); } } void SyncSchedulerImpl::OnServerConnectionErrorFixed() { // There could be a pending nudge or configuration job in several cases: // // 1. We're in exponential backoff. // 2. We're silenced / throttled. // 3. A nudge was saved previously due to not having a valid auth token. // 4. A nudge was scheduled + saved while in configuration mode. // // In all cases except (2), we want to retry contacting the server. We // call TryCanaryJob to achieve this, and note that nothing -- not even a // canary job -- can bypass a THROTTLED WaitInterval. The only thing that // has the authority to do that is the Unthrottle timer. TryCanaryJob(); } void SyncSchedulerImpl::Start(Mode mode) { DCHECK(CalledOnValidThread()); std::string thread_name = base::MessageLoop::current()->thread_name(); if (thread_name.empty()) thread_name = "
"; SDVLOG(2) << "Start called from thread " << thread_name << " with mode " << GetModeString(mode); if (!started_) { started_ = true; SendInitialSnapshot(); } DCHECK(!session_context_->account_name().empty()); DCHECK(syncer_.get()); Mode old_mode = mode_; mode_ = mode; AdjustPolling(UPDATE_INTERVAL); // Will kick start poll timer if needed. if (old_mode != mode_ && mode_ == NORMAL_MODE) { // We just got back to normal mode. Let's try to run the work that was // queued up while we were configuring. // Update our current time before checking IsRetryRequired(). nudge_tracker_.SetSyncCycleStartTime(base::TimeTicks::Now()); if (nudge_tracker_.IsSyncRequired() && CanRunNudgeJobNow(NORMAL_PRIORITY)) { TrySyncSessionJob(); } } } ModelTypeSet SyncSchedulerImpl::GetEnabledAndUnthrottledTypes() { ModelTypeSet enabled_types = session_context_->GetEnabledTypes(); ModelTypeSet enabled_protocol_types = Intersection(ProtocolTypes(), enabled_types); ModelTypeSet throttled_types = nudge_tracker_.GetThrottledTypes(); return Difference(enabled_protocol_types, throttled_types); } void SyncSchedulerImpl::SendInitialSnapshot() { DCHECK(CalledOnValidThread()); scoped_ptr dummy(SyncSession::Build(session_context_, this)); SyncCycleEvent event(SyncCycleEvent::STATUS_CHANGED); event.snapshot = dummy->TakeSnapshot(); FOR_EACH_OBSERVER(SyncEngineEventListener, *session_context_->listeners(), OnSyncCycleEvent(event)); } namespace { // Helper to extract the routing info corresponding to types in // |types_to_download| from |current_routes|. void BuildModelSafeParams( ModelTypeSet types_to_download, const ModelSafeRoutingInfo& current_routes, ModelSafeRoutingInfo* result_routes) { for (ModelTypeSet::Iterator iter = types_to_download.First(); iter.Good(); iter.Inc()) { ModelType type = iter.Get(); ModelSafeRoutingInfo::const_iterator route = current_routes.find(type); DCHECK(route != current_routes.end()); ModelSafeGroup group = route->second; (*result_routes)[type] = group; } } } // namespace. void SyncSchedulerImpl::ScheduleConfiguration( const ConfigurationParams& params) { DCHECK(CalledOnValidThread()); DCHECK(IsConfigRelatedUpdateSourceValue(params.source)); DCHECK_EQ(CONFIGURATION_MODE, mode_); DCHECK(!params.ready_task.is_null()); CHECK(started_) << "Scheduler must be running to configure."; SDVLOG(2) << "Reconfiguring syncer."; // Only one configuration is allowed at a time. Verify we're not waiting // for a pending configure job. DCHECK(!pending_configure_params_); ModelSafeRoutingInfo restricted_routes; BuildModelSafeParams(params.types_to_download, params.routing_info, &restricted_routes); session_context_->SetRoutingInfo(restricted_routes); // Only reconfigure if we have types to download. if (!params.types_to_download.Empty()) { pending_configure_params_.reset(new ConfigurationParams(params)); TrySyncSessionJob(); } else { SDVLOG(2) << "No change in routing info, calling ready task directly."; params.ready_task.Run(); } } bool SyncSchedulerImpl::CanRunJobNow(JobPriority priority) { DCHECK(CalledOnValidThread()); if (wait_interval_ && wait_interval_->mode == WaitInterval::THROTTLED) { SDVLOG(1) << "Unable to run a job because we're throttled."; return false; } if (wait_interval_ && wait_interval_->mode == WaitInterval::EXPONENTIAL_BACKOFF && priority != CANARY_PRIORITY) { SDVLOG(1) << "Unable to run a job because we're backing off."; return false; } if (session_context_->connection_manager()->HasInvalidAuthToken()) { SDVLOG(1) << "Unable to run a job because we have no valid auth token."; return false; } return true; } bool SyncSchedulerImpl::CanRunNudgeJobNow(JobPriority priority) { DCHECK(CalledOnValidThread()); if (!CanRunJobNow(priority)) { SDVLOG(1) << "Unable to run a nudge job right now"; return false; } const ModelTypeSet enabled_types = session_context_->GetEnabledTypes(); if (nudge_tracker_.GetThrottledTypes().HasAll(enabled_types)) { SDVLOG(1) << "Not running a nudge because we're fully type throttled."; return false; } if (mode_ == CONFIGURATION_MODE) { SDVLOG(1) << "Not running nudge because we're in configuration mode."; return false; } return true; } void SyncSchedulerImpl::ScheduleLocalNudge( const TimeDelta& desired_delay, ModelTypeSet types, const tracked_objects::Location& nudge_location) { DCHECK(CalledOnValidThread()); DCHECK(!types.Empty()); SDVLOG_LOC(nudge_location, 2) << "Scheduling sync because of local change to " << ModelTypeSetToString(types); UpdateNudgeTimeRecords(types); nudge_tracker_.RecordLocalChange(types); ScheduleNudgeImpl(desired_delay, nudge_location); } void SyncSchedulerImpl::ScheduleLocalRefreshRequest( const TimeDelta& desired_delay, ModelTypeSet types, const tracked_objects::Location& nudge_location) { DCHECK(CalledOnValidThread()); DCHECK(!types.Empty()); SDVLOG_LOC(nudge_location, 2) << "Scheduling sync because of local refresh request for " << ModelTypeSetToString(types); nudge_tracker_.RecordLocalRefreshRequest(types); ScheduleNudgeImpl(desired_delay, nudge_location); } void SyncSchedulerImpl::ScheduleInvalidationNudge( const TimeDelta& desired_delay, const ObjectIdInvalidationMap& invalidation_map, const tracked_objects::Location& nudge_location) { DCHECK(CalledOnValidThread()); DCHECK(!invalidation_map.Empty()); SDVLOG_LOC(nudge_location, 2) << "Scheduling sync because we received invalidation for " << ModelTypeSetToString( ObjectIdSetToModelTypeSet(invalidation_map.GetObjectIds())); nudge_tracker_.RecordRemoteInvalidation(invalidation_map); ScheduleNudgeImpl(desired_delay, nudge_location); } // TODO(zea): Consider adding separate throttling/backoff for datatype // refresh requests. void SyncSchedulerImpl::ScheduleNudgeImpl( const TimeDelta& delay, const tracked_objects::Location& nudge_location) { DCHECK(CalledOnValidThread()); if (no_scheduling_allowed_) { NOTREACHED() << "Illegal to schedule job while session in progress."; return; } if (!started_) { SDVLOG_LOC(nudge_location, 2) << "Dropping nudge, scheduler is not running."; return; } SDVLOG_LOC(nudge_location, 2) << "In ScheduleNudgeImpl with delay " << delay.InMilliseconds() << " ms"; if (!CanRunNudgeJobNow(NORMAL_PRIORITY)) return; TimeTicks incoming_run_time = TimeTicks::Now() + delay; if (!scheduled_nudge_time_.is_null() && (scheduled_nudge_time_ < incoming_run_time)) { // Old job arrives sooner than this one. Don't reschedule it. return; } // Either there is no existing nudge in flight or the incoming nudge should be // made to arrive first (preempt) the existing nudge. We reschedule in either // case. SDVLOG_LOC(nudge_location, 2) << "Scheduling a nudge with " << delay.InMilliseconds() << " ms delay"; scheduled_nudge_time_ = incoming_run_time; pending_wakeup_timer_.Start( nudge_location, delay, base::Bind(&SyncSchedulerImpl::PerformDelayedNudge, weak_ptr_factory_.GetWeakPtr())); } const char* SyncSchedulerImpl::GetModeString(SyncScheduler::Mode mode) { switch (mode) { ENUM_CASE(CONFIGURATION_MODE); ENUM_CASE(NORMAL_MODE); } return ""; } void SyncSchedulerImpl::DoNudgeSyncSessionJob(JobPriority priority) { DCHECK(CalledOnValidThread()); DCHECK(CanRunNudgeJobNow(priority)); DVLOG(2) << "Will run normal mode sync cycle with types " << ModelTypeSetToString(session_context_->GetEnabledTypes()); scoped_ptr session(SyncSession::Build(session_context_, this)); bool premature_exit = !syncer_->NormalSyncShare( GetEnabledAndUnthrottledTypes(), nudge_tracker_, session.get()); AdjustPolling(FORCE_RESET); // Don't run poll job till the next time poll timer fires. do_poll_after_credentials_updated_ = false; bool success = !premature_exit && !sessions::HasSyncerError( session->status_controller().model_neutral_state()); if (success) { // That cycle took care of any outstanding work we had. SDVLOG(2) << "Nudge succeeded."; nudge_tracker_.RecordSuccessfulSyncCycle(); scheduled_nudge_time_ = base::TimeTicks(); // If we're here, then we successfully reached the server. End all backoff. wait_interval_.reset(); NotifyRetryTime(base::Time()); } else { HandleFailure(session->status_controller().model_neutral_state()); } } void SyncSchedulerImpl::DoConfigurationSyncSessionJob(JobPriority priority) { DCHECK(CalledOnValidThread()); DCHECK_EQ(mode_, CONFIGURATION_MODE); DCHECK(pending_configure_params_ != NULL); if (!CanRunJobNow(priority)) { SDVLOG(2) << "Unable to run configure job right now."; if (!pending_configure_params_->retry_task.is_null()) { pending_configure_params_->retry_task.Run(); pending_configure_params_->retry_task.Reset(); } return; } SDVLOG(2) << "Will run configure SyncShare with types " << ModelTypeSetToString(session_context_->GetEnabledTypes()); scoped_ptr session(SyncSession::Build(session_context_, this)); bool premature_exit = !syncer_->ConfigureSyncShare( pending_configure_params_->types_to_download, pending_configure_params_->source, session.get()); AdjustPolling(FORCE_RESET); // Don't run poll job till the next time poll timer fires. do_poll_after_credentials_updated_ = false; bool success = !premature_exit && !sessions::HasSyncerError( session->status_controller().model_neutral_state()); if (success) { SDVLOG(2) << "Configure succeeded."; pending_configure_params_->ready_task.Run(); pending_configure_params_.reset(); // If we're here, then we successfully reached the server. End all backoff. wait_interval_.reset(); NotifyRetryTime(base::Time()); } else { HandleFailure(session->status_controller().model_neutral_state()); // Sync cycle might receive response from server that causes scheduler to // stop and draws pending_configure_params_ invalid. if (started_ && !pending_configure_params_->retry_task.is_null()) { pending_configure_params_->retry_task.Run(); pending_configure_params_->retry_task.Reset(); } } } void SyncSchedulerImpl::HandleFailure( const sessions::ModelNeutralState& model_neutral_state) { if (IsCurrentlyThrottled()) { SDVLOG(2) << "Was throttled during previous sync cycle."; RestartWaiting(); } else if (!IsBackingOff()) { // Setup our backoff if this is our first such failure. TimeDelta length = delay_provider_->GetDelay( delay_provider_->GetInitialDelay(model_neutral_state)); wait_interval_.reset( new WaitInterval(WaitInterval::EXPONENTIAL_BACKOFF, length)); SDVLOG(2) << "Sync cycle failed. Will back off for " << wait_interval_->length.InMilliseconds() << "ms."; RestartWaiting(); } } void SyncSchedulerImpl::DoPollSyncSessionJob() { base::AutoReset protector(&no_scheduling_allowed_, true); SDVLOG(2) << "Polling with types " << ModelTypeSetToString(GetEnabledAndUnthrottledTypes()); scoped_ptr session(SyncSession::Build(session_context_, this)); syncer_->PollSyncShare( GetEnabledAndUnthrottledTypes(), session.get()); AdjustPolling(FORCE_RESET); if (IsCurrentlyThrottled()) { SDVLOG(2) << "Poll request got us throttled."; // The OnSilencedUntil() call set up the WaitInterval for us. All we need // to do is start the timer. RestartWaiting(); } } void SyncSchedulerImpl::UpdateNudgeTimeRecords(ModelTypeSet types) { DCHECK(CalledOnValidThread()); base::TimeTicks now = TimeTicks::Now(); // Update timing information for how often datatypes are triggering nudges. for (ModelTypeSet::Iterator iter = types.First(); iter.Good(); iter.Inc()) { base::TimeTicks previous = last_local_nudges_by_model_type_[iter.Get()]; last_local_nudges_by_model_type_[iter.Get()] = now; if (previous.is_null()) continue; #define PER_DATA_TYPE_MACRO(type_str) \ SYNC_FREQ_HISTOGRAM("Sync.Freq" type_str, now - previous); SYNC_DATA_TYPE_HISTOGRAM(iter.Get()); #undef PER_DATA_TYPE_MACRO } } TimeDelta SyncSchedulerImpl::GetPollInterval() { return (!session_context_->notifications_enabled() || !session_context_->ShouldFetchUpdatesBeforeCommit()) ? syncer_short_poll_interval_seconds_ : syncer_long_poll_interval_seconds_; } void SyncSchedulerImpl::AdjustPolling(PollAdjustType type) { DCHECK(CalledOnValidThread()); TimeDelta poll = GetPollInterval(); bool rate_changed = !poll_timer_.IsRunning() || poll != poll_timer_.GetCurrentDelay(); if (type == FORCE_RESET) { last_poll_reset_ = base::TimeTicks::Now(); if (!rate_changed) poll_timer_.Reset(); } if (!rate_changed) return; // Adjust poll rate. poll_timer_.Stop(); poll_timer_.Start(FROM_HERE, poll, this, &SyncSchedulerImpl::PollTimerCallback); } void SyncSchedulerImpl::RestartWaiting() { CHECK(wait_interval_.get()); DCHECK(wait_interval_->length >= TimeDelta::FromSeconds(0)); NotifyRetryTime(base::Time::Now() + wait_interval_->length); SDVLOG(2) << "Starting WaitInterval timer of length " << wait_interval_->length.InMilliseconds() << "ms."; if (wait_interval_->mode == WaitInterval::THROTTLED) { pending_wakeup_timer_.Start( FROM_HERE, wait_interval_->length, base::Bind(&SyncSchedulerImpl::Unthrottle, weak_ptr_factory_.GetWeakPtr())); } else { pending_wakeup_timer_.Start( FROM_HERE, wait_interval_->length, base::Bind(&SyncSchedulerImpl::ExponentialBackoffRetry, weak_ptr_factory_.GetWeakPtr())); } } void SyncSchedulerImpl::Stop() { DCHECK(CalledOnValidThread()); SDVLOG(2) << "Stop called"; // Kill any in-flight method calls. weak_ptr_factory_.InvalidateWeakPtrs(); wait_interval_.reset(); NotifyRetryTime(base::Time()); poll_timer_.Stop(); pending_wakeup_timer_.Stop(); pending_configure_params_.reset(); if (started_) started_ = false; } // This is the only place where we invoke DoSyncSessionJob with canary // privileges. Everyone else should use NORMAL_PRIORITY. void SyncSchedulerImpl::TryCanaryJob() { next_sync_session_job_priority_ = CANARY_PRIORITY; TrySyncSessionJob(); } void SyncSchedulerImpl::TrySyncSessionJob() { // Post call to TrySyncSessionJobImpl on current thread. Later request for // access token will be here. base::MessageLoop::current()->PostTask(FROM_HERE, base::Bind( &SyncSchedulerImpl::TrySyncSessionJobImpl, weak_ptr_factory_.GetWeakPtr())); } void SyncSchedulerImpl::TrySyncSessionJobImpl() { JobPriority priority = next_sync_session_job_priority_; next_sync_session_job_priority_ = NORMAL_PRIORITY; nudge_tracker_.SetSyncCycleStartTime(base::TimeTicks::Now()); DCHECK(CalledOnValidThread()); if (mode_ == CONFIGURATION_MODE) { if (pending_configure_params_) { SDVLOG(2) << "Found pending configure job"; DoConfigurationSyncSessionJob(priority); } } else if (CanRunNudgeJobNow(priority)) { if (nudge_tracker_.IsSyncRequired()) { SDVLOG(2) << "Found pending nudge job"; DoNudgeSyncSessionJob(priority); } else if (do_poll_after_credentials_updated_ || ((base::TimeTicks::Now() - last_poll_reset_) >= GetPollInterval())) { DoPollSyncSessionJob(); // Poll timer fires infrequently. Usually by this time access token is // already expired and poll job will fail with auth error. Set flag to // retry poll once ProfileSyncService gets new access token, TryCanaryJob // will be called after access token is retrieved. if (HttpResponse::SYNC_AUTH_ERROR == session_context_->connection_manager()->server_status()) { do_poll_after_credentials_updated_ = true; } } } if (priority == CANARY_PRIORITY) { // If this is canary job then whatever result was don't run poll job till // the next time poll timer fires. do_poll_after_credentials_updated_ = false; } if (IsBackingOff() && !pending_wakeup_timer_.IsRunning()) { // If we succeeded, our wait interval would have been cleared. If it hasn't // been cleared, then we should increase our backoff interval and schedule // another retry. TimeDelta length = delay_provider_->GetDelay(wait_interval_->length); wait_interval_.reset( new WaitInterval(WaitInterval::EXPONENTIAL_BACKOFF, length)); SDVLOG(2) << "Sync cycle failed. Will back off for " << wait_interval_->length.InMilliseconds() << "ms."; RestartWaiting(); } } void SyncSchedulerImpl::PollTimerCallback() { DCHECK(CalledOnValidThread()); if (no_scheduling_allowed_) { // The no_scheduling_allowed_ flag is set by a function-scoped AutoReset in // functions that are called only on the sync thread. This function is also // called only on the sync thread, and only when it is posted by an expiring // timer. If we find that no_scheduling_allowed_ is set here, then // something is very wrong. Maybe someone mistakenly called us directly, or // mishandled the book-keeping for no_scheduling_allowed_. NOTREACHED() << "Illegal to schedule job while session in progress."; return; } TrySyncSessionJob(); } void SyncSchedulerImpl::RetryTimerCallback() { TrySyncSessionJob(); } void SyncSchedulerImpl::Unthrottle() { DCHECK(CalledOnValidThread()); DCHECK_EQ(WaitInterval::THROTTLED, wait_interval_->mode); // We're no longer throttled, so clear the wait interval. wait_interval_.reset(); NotifyRetryTime(base::Time()); NotifyThrottledTypesChanged(nudge_tracker_.GetThrottledTypes()); // We treat this as a 'canary' in the sense that it was originally scheduled // to run some time ago, failed, and we now want to retry, versus a job that // was just created (e.g via ScheduleNudgeImpl). The main implication is // that we're careful to update routing info (etc) with such potentially // stale canary jobs. TryCanaryJob(); } void SyncSchedulerImpl::TypeUnthrottle(base::TimeTicks unthrottle_time) { DCHECK(CalledOnValidThread()); nudge_tracker_.UpdateTypeThrottlingState(unthrottle_time); NotifyThrottledTypesChanged(nudge_tracker_.GetThrottledTypes()); if (nudge_tracker_.IsAnyTypeThrottled()) { const base::TimeTicks now = base::TimeTicks::Now(); base::TimeDelta time_until_next_unthrottle = nudge_tracker_.GetTimeUntilNextUnthrottle(now); type_unthrottle_timer_.Start( FROM_HERE, time_until_next_unthrottle, base::Bind(&SyncSchedulerImpl::TypeUnthrottle, weak_ptr_factory_.GetWeakPtr(), now + time_until_next_unthrottle)); } // Maybe this is a good time to run a nudge job. Let's try it. if (nudge_tracker_.IsSyncRequired() && CanRunNudgeJobNow(NORMAL_PRIORITY)) TrySyncSessionJob(); } void SyncSchedulerImpl::PerformDelayedNudge() { // Circumstances may have changed since we scheduled this delayed nudge. // We must check to see if it's OK to run the job before we do so. if (CanRunNudgeJobNow(NORMAL_PRIORITY)) TrySyncSessionJob(); // We're not responsible for setting up any retries here. The functions that // first put us into a state that prevents successful sync cycles (eg. global // throttling, type throttling, network errors, transient errors) will also // setup the appropriate retry logic (eg. retry after timeout, exponential // backoff, retry when the network changes). } void SyncSchedulerImpl::ExponentialBackoffRetry() { TryCanaryJob(); } void SyncSchedulerImpl::NotifyRetryTime(base::Time retry_time) { FOR_EACH_OBSERVER(SyncEngineEventListener, *session_context_->listeners(), OnRetryTimeChanged(retry_time)); } void SyncSchedulerImpl::NotifyThrottledTypesChanged(ModelTypeSet types) { FOR_EACH_OBSERVER(SyncEngineEventListener, *session_context_->listeners(), OnThrottledTypesChanged(types)); } bool SyncSchedulerImpl::IsBackingOff() const { DCHECK(CalledOnValidThread()); return wait_interval_.get() && wait_interval_->mode == WaitInterval::EXPONENTIAL_BACKOFF; } void SyncSchedulerImpl::OnThrottled(const base::TimeDelta& throttle_duration) { DCHECK(CalledOnValidThread()); wait_interval_.reset(new WaitInterval(WaitInterval::THROTTLED, throttle_duration)); NotifyRetryTime(base::Time::Now() + wait_interval_->length); NotifyThrottledTypesChanged(ModelTypeSet::All()); } void SyncSchedulerImpl::OnTypesThrottled( ModelTypeSet types, const base::TimeDelta& throttle_duration) { base::TimeTicks now = base::TimeTicks::Now(); nudge_tracker_.SetTypesThrottledUntil(types, throttle_duration, now); base::TimeDelta time_until_next_unthrottle = nudge_tracker_.GetTimeUntilNextUnthrottle(now); type_unthrottle_timer_.Start( FROM_HERE, time_until_next_unthrottle, base::Bind(&SyncSchedulerImpl::TypeUnthrottle, weak_ptr_factory_.GetWeakPtr(), now + time_until_next_unthrottle)); NotifyThrottledTypesChanged(nudge_tracker_.GetThrottledTypes()); } bool SyncSchedulerImpl::IsCurrentlyThrottled() { DCHECK(CalledOnValidThread()); return wait_interval_.get() && wait_interval_->mode == WaitInterval::THROTTLED; } void SyncSchedulerImpl::OnReceivedShortPollIntervalUpdate( const base::TimeDelta& new_interval) { DCHECK(CalledOnValidThread()); syncer_short_poll_interval_seconds_ = new_interval; } void SyncSchedulerImpl::OnReceivedLongPollIntervalUpdate( const base::TimeDelta& new_interval) { DCHECK(CalledOnValidThread()); syncer_long_poll_interval_seconds_ = new_interval; } void SyncSchedulerImpl::OnReceivedSessionsCommitDelay( const base::TimeDelta& new_delay) { DCHECK(CalledOnValidThread()); sessions_commit_delay_ = new_delay; } void SyncSchedulerImpl::OnReceivedClientInvalidationHintBufferSize(int size) { if (size > 0) nudge_tracker_.SetHintBufferSize(size); else NOTREACHED() << "Hint buffer size should be > 0."; } void SyncSchedulerImpl::OnSyncProtocolError( const SyncProtocolError& sync_protocol_error) { DCHECK(CalledOnValidThread()); if (ShouldRequestEarlyExit(sync_protocol_error)) { SDVLOG(2) << "Sync Scheduler requesting early exit."; Stop(); } if (IsActionableError(sync_protocol_error)) { SDVLOG(2) << "OnActionableError"; FOR_EACH_OBSERVER(SyncEngineEventListener, *session_context_->listeners(), OnActionableError(sync_protocol_error)); } } void SyncSchedulerImpl::OnReceivedGuRetryDelay(const base::TimeDelta& delay) { nudge_tracker_.SetNextRetryTime(TimeTicks::Now() + delay); retry_timer_.Start(FROM_HERE, delay, this, &SyncSchedulerImpl::RetryTimerCallback); } void SyncSchedulerImpl::OnReceivedMigrationRequest(ModelTypeSet types) { FOR_EACH_OBSERVER(SyncEngineEventListener, *session_context_->listeners(), OnMigrationRequested(types)); } void SyncSchedulerImpl::SetNotificationsEnabled(bool notifications_enabled) { DCHECK(CalledOnValidThread()); session_context_->set_notifications_enabled(notifications_enabled); if (notifications_enabled) nudge_tracker_.OnInvalidationsEnabled(); else nudge_tracker_.OnInvalidationsDisabled(); } base::TimeDelta SyncSchedulerImpl::GetSessionsCommitDelay() const { DCHECK(CalledOnValidThread()); return sessions_commit_delay_; } #undef SDVLOG_LOC #undef SDVLOG #undef SLOG #undef ENUM_CASE } // namespace syncer