// Copyright 2014 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 "components/sync_driver/model_association_manager.h" #include #include #include "base/debug/trace_event.h" #include "base/logging.h" #include "base/message_loop/message_loop.h" #include "base/metrics/histogram.h" #include "sync/internal_api/public/base/model_type.h" using syncer::ModelTypeSet; namespace sync_driver { namespace { static const syncer::ModelType kStartOrder[] = { syncer::NIGORI, // Listed for completeness. syncer::DEVICE_INFO, // Listed for completeness. syncer::EXPERIMENTS, // Listed for completeness. syncer::PROXY_TABS, // Listed for completeness. // Kick off the association of the non-UI types first so they can associate // in parallel with the UI types. syncer::PASSWORDS, syncer::AUTOFILL, syncer::AUTOFILL_PROFILE, syncer::EXTENSION_SETTINGS, syncer::APP_SETTINGS, syncer::TYPED_URLS, syncer::HISTORY_DELETE_DIRECTIVES, syncer::SYNCED_NOTIFICATIONS, syncer::SYNCED_NOTIFICATION_APP_INFO, // UI thread data types. syncer::BOOKMARKS, syncer::ENHANCED_BOOKMARKS, syncer::SUPERVISED_USERS, // Syncing supervised users on initial login // might block creating a new supervised user, // so we want to do it early. syncer::PREFERENCES, syncer::PRIORITY_PREFERENCES, syncer::EXTENSIONS, syncer::APPS, syncer::APP_LIST, syncer::THEMES, syncer::SEARCH_ENGINES, syncer::SESSIONS, syncer::APP_NOTIFICATIONS, syncer::DICTIONARY, syncer::FAVICON_IMAGES, syncer::FAVICON_TRACKING, syncer::SUPERVISED_USER_SETTINGS, syncer::SUPERVISED_USER_SHARED_SETTINGS, syncer::ARTICLES, }; COMPILE_ASSERT(arraysize(kStartOrder) == syncer::MODEL_TYPE_COUNT - syncer::FIRST_REAL_MODEL_TYPE, kStartOrder_IncorrectSize); // The amount of time we wait for association to finish. If some types haven't // finished association by the time, DataTypeManager is notified of the // unfinished types. const int64 kAssociationTimeOutInSeconds = 600; syncer::DataTypeAssociationStats BuildAssociationStatsFromMergeResults( const syncer::SyncMergeResult& local_merge_result, const syncer::SyncMergeResult& syncer_merge_result, const base::TimeDelta& association_wait_time, const base::TimeDelta& association_time) { DCHECK_EQ(local_merge_result.model_type(), syncer_merge_result.model_type()); syncer::DataTypeAssociationStats stats; stats.had_error = local_merge_result.error().IsSet() || syncer_merge_result.error().IsSet(); stats.num_local_items_before_association = local_merge_result.num_items_before_association(); stats.num_sync_items_before_association = syncer_merge_result.num_items_before_association(); stats.num_local_items_after_association = local_merge_result.num_items_after_association(); stats.num_sync_items_after_association = syncer_merge_result.num_items_after_association(); stats.num_local_items_added = local_merge_result.num_items_added(); stats.num_local_items_deleted = local_merge_result.num_items_deleted(); stats.num_local_items_modified = local_merge_result.num_items_modified(); stats.local_version_pre_association = local_merge_result.pre_association_version(); stats.num_sync_items_added = syncer_merge_result.num_items_added(); stats.num_sync_items_deleted = syncer_merge_result.num_items_deleted(); stats.num_sync_items_modified = syncer_merge_result.num_items_modified(); stats.sync_version_pre_association = syncer_merge_result.pre_association_version(); stats.association_wait_time = association_wait_time; stats.association_time = association_time; return stats; } } // namespace ModelAssociationManager::ModelAssociationManager( const DataTypeController::TypeMap* controllers, ModelAssociationManagerDelegate* processor) : state_(IDLE), controllers_(controllers), delegate_(processor), configure_status_(DataTypeManager::UNKNOWN), weak_ptr_factory_(this) { // Ensure all data type controllers are stopped. for (DataTypeController::TypeMap::const_iterator it = controllers_->begin(); it != controllers_->end(); ++it) { DCHECK_EQ(DataTypeController::NOT_RUNNING, (*it).second->state()); } } ModelAssociationManager::~ModelAssociationManager() { } void ModelAssociationManager::Initialize(syncer::ModelTypeSet desired_types) { // state_ can be INITIALIZED_TO_CONFIGURE if types are reconfigured when // data is being downloaded, so StartAssociationAsync() is never called for // the first configuration. DCHECK_NE(CONFIGURING, state_); // Only keep types that have controllers. desired_types_.Clear(); for (syncer::ModelTypeSet::Iterator it = desired_types.First(); it.Good(); it.Inc()) { if (controllers_->find(it.Get()) != controllers_->end()) desired_types_.Put(it.Get()); } DVLOG(1) << "ModelAssociationManager: Initializing for " << syncer::ModelTypeSetToString(desired_types_); state_ = INITIALIZED_TO_CONFIGURE; StopDisabledTypes(); LoadEnabledTypes(); } void ModelAssociationManager::StopDatatype( const syncer::SyncError& error, DataTypeController* dtc) { loaded_types_.Remove(dtc->type()); associated_types_.Remove(dtc->type()); associating_types_.Remove(dtc->type()); if (error.IsSet() || dtc->state() != DataTypeController::NOT_RUNNING) { // If an error was set, the delegate must be informed of the error. delegate_->OnSingleDataTypeWillStop(dtc->type(), error); dtc->Stop(); } } void ModelAssociationManager::StopDisabledTypes() { DVLOG(1) << "ModelAssociationManager: Stopping disabled types."; for (DataTypeController::TypeMap::const_iterator it = controllers_->begin(); it != controllers_->end(); ++it) { DataTypeController* dtc = (*it).second.get(); if (dtc->state() != DataTypeController::NOT_RUNNING && !desired_types_.Has(dtc->type())) { DVLOG(1) << "ModelTypeToString: stop " << dtc->name(); StopDatatype(syncer::SyncError(), dtc); } } } void ModelAssociationManager::LoadEnabledTypes() { // Load in kStartOrder. for (size_t i = 0; i < arraysize(kStartOrder); i++) { syncer::ModelType type = kStartOrder[i]; if (!desired_types_.Has(type)) continue; DCHECK(controllers_->find(type) != controllers_->end()); DataTypeController* dtc = controllers_->find(type)->second.get(); if (dtc->state() == DataTypeController::NOT_RUNNING) { DCHECK(!loaded_types_.Has(dtc->type())); DCHECK(!associated_types_.Has(dtc->type())); dtc->LoadModels(base::Bind(&ModelAssociationManager::ModelLoadCallback, weak_ptr_factory_.GetWeakPtr())); } } } void ModelAssociationManager::StartAssociationAsync( const syncer::ModelTypeSet& types_to_associate) { DCHECK_NE(CONFIGURING, state_); state_ = CONFIGURING; association_start_time_ = base::TimeTicks::Now(); requested_types_ = types_to_associate; associating_types_ = types_to_associate; associating_types_.RetainAll(desired_types_); associating_types_.RemoveAll(associated_types_); // Assume success. configure_status_ = DataTypeManager::OK; // Done if no types to associate. if (associating_types_.Empty()) { ModelAssociationDone(); return; } timer_.Start(FROM_HERE, base::TimeDelta::FromSeconds(kAssociationTimeOutInSeconds), this, &ModelAssociationManager::ModelAssociationDone); // Start association of types that are loaded in specified order. for (size_t i = 0; i < arraysize(kStartOrder); i++) { syncer::ModelType type = kStartOrder[i]; if (!associating_types_.Has(type) || !loaded_types_.Has(type)) continue; DataTypeController* dtc = controllers_->find(type)->second.get(); DCHECK(DataTypeController::MODEL_LOADED == dtc->state() || DataTypeController::ASSOCIATING == dtc->state()); if (dtc->state() == DataTypeController::MODEL_LOADED) { TRACE_EVENT_ASYNC_BEGIN1("sync", "ModelAssociation", dtc, "DataType", ModelTypeToString(type)); dtc->StartAssociating( base::Bind(&ModelAssociationManager::TypeStartCallback, weak_ptr_factory_.GetWeakPtr(), type, base::TimeTicks::Now())); } } } void ModelAssociationManager::ResetForNextAssociation() { DVLOG(1) << "ModelAssociationManager: Reseting for next configuration"; // |loaded_types_| and |associated_types_| are not cleared. So // reconfiguration won't restart types that are already started. requested_types_.Clear(); associating_types_.Clear(); } void ModelAssociationManager::Stop() { // Ignore callbacks from controllers. weak_ptr_factory_.InvalidateWeakPtrs(); desired_types_.Clear(); loaded_types_.Clear(); associated_types_.Clear(); associating_types_.Clear(); // Stop started data types. for (DataTypeController::TypeMap::const_iterator it = controllers_->begin(); it != controllers_->end(); ++it) { DataTypeController* dtc = (*it).second.get(); if (dtc->state() != DataTypeController::NOT_RUNNING) { StopDatatype(syncer::SyncError(), dtc); DVLOG(1) << "ModelAssociationManager: Stopped " << dtc->name(); } } if (state_ == CONFIGURING) { if (configure_status_ == DataTypeManager::OK) configure_status_ = DataTypeManager::ABORTED; DVLOG(1) << "ModelAssociationManager: Calling OnModelAssociationDone"; ModelAssociationDone(); } ResetForNextAssociation(); state_ = IDLE; } void ModelAssociationManager::ModelLoadCallback(syncer::ModelType type, syncer::SyncError error) { DVLOG(1) << "ModelAssociationManager: ModelLoadCallback for " << syncer::ModelTypeToString(type); if (error.IsSet()) { syncer::SyncMergeResult local_merge_result(type); local_merge_result.set_error(error); TypeStartCallback(type, base::TimeTicks::Now(), DataTypeController::ASSOCIATION_FAILED, local_merge_result, syncer::SyncMergeResult(type)); return; } // This happens when slow loading type is disabled by new configuration. if (!desired_types_.Has(type)) return; DCHECK(!loaded_types_.Has(type)); loaded_types_.Put(type); if (associating_types_.Has(type)) { DataTypeController* dtc = controllers_->find(type)->second.get(); dtc->StartAssociating( base::Bind(&ModelAssociationManager::TypeStartCallback, weak_ptr_factory_.GetWeakPtr(), type, base::TimeTicks::Now())); } } void ModelAssociationManager::TypeStartCallback( syncer::ModelType type, base::TimeTicks type_start_time, DataTypeController::ConfigureResult start_result, const syncer::SyncMergeResult& local_merge_result, const syncer::SyncMergeResult& syncer_merge_result) { if (desired_types_.Has(type) && !DataTypeController::IsSuccessfulResult(start_result)) { DVLOG(1) << "ModelAssociationManager: Type encountered an error."; desired_types_.Remove(type); DataTypeController* dtc = controllers_->find(type)->second.get(); StopDatatype(local_merge_result.error(), dtc); // Update configuration result. if (start_result == DataTypeController::UNRECOVERABLE_ERROR) configure_status_ = DataTypeManager::UNRECOVERABLE_ERROR; } // This happens when a slow associating type is disabled or if a type // disables itself after initial configuration. if (!desired_types_.Has(type)) { // It's possible all types failed to associate, in which case association // is complete. if (state_ == CONFIGURING && associating_types_.Empty()) ModelAssociationDone(); return; } DCHECK(!associated_types_.Has(type)); DCHECK(DataTypeController::IsSuccessfulResult(start_result)); associated_types_.Put(type); if (state_ != CONFIGURING) return; TRACE_EVENT_ASYNC_END1("sync", "ModelAssociation", controllers_->find(type)->second.get(), "DataType", ModelTypeToString(type)); // Track the merge results if we succeeded or an association failure // occurred. if (syncer::ProtocolTypes().Has(type)) { base::TimeDelta association_wait_time = std::max(base::TimeDelta(), type_start_time - association_start_time_); base::TimeDelta association_time = base::TimeTicks::Now() - type_start_time;; syncer::DataTypeAssociationStats stats = BuildAssociationStatsFromMergeResults(local_merge_result, syncer_merge_result, association_wait_time, association_time); delegate_->OnSingleDataTypeAssociationDone(type, stats); } associating_types_.Remove(type); if (associating_types_.Empty()) ModelAssociationDone(); } void ModelAssociationManager::ModelAssociationDone() { CHECK_EQ(CONFIGURING, state_); timer_.Stop(); // Treat any unfinished types as having errors. desired_types_.RemoveAll(associating_types_); for (DataTypeController::TypeMap::const_iterator it = controllers_->begin(); it != controllers_->end(); ++it) { DataTypeController* dtc = (*it).second.get(); if (associating_types_.Has(dtc->type()) && dtc->state() != DataTypeController::NOT_RUNNING) { UMA_HISTOGRAM_ENUMERATION("Sync.ConfigureFailed", ModelTypeToHistogramInt(dtc->type()), syncer::MODEL_TYPE_COUNT); StopDatatype(syncer::SyncError(FROM_HERE, syncer::SyncError::DATATYPE_ERROR, "Association timed out.", dtc->type()), dtc); } } DataTypeManager::ConfigureResult result(configure_status_, requested_types_); // Reset state before notifying |delegate_| because that might // trigger a new round of configuration. ResetForNextAssociation(); state_ = IDLE; delegate_->OnModelAssociationDone(result); } base::OneShotTimer* ModelAssociationManager::GetTimerForTesting() { return &timer_; } } // namespace sync_driver