// 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 "sync/engine/get_updates_processor.h" #include #include "base/debug/trace_event.h" #include "sync/engine/get_updates_delegate.h" #include "sync/engine/syncer_proto_util.h" #include "sync/engine/update_handler.h" #include "sync/internal_api/public/events/get_updates_response_event.h" #include "sync/protocol/sync.pb.h" #include "sync/sessions/status_controller.h" #include "sync/sessions/sync_session.h" #include "sync/syncable/directory.h" #include "sync/syncable/nigori_handler.h" #include "sync/syncable/syncable_read_transaction.h" typedef std::vector SyncEntityList; typedef std::map TypeSyncEntityMap; namespace syncer { typedef std::map TypeToIndexMap; namespace { bool ShouldRequestEncryptionKey(sessions::SyncSessionContext* context) { syncable::Directory* dir = context->directory(); syncable::ReadTransaction trans(FROM_HERE, dir); syncable::NigoriHandler* nigori_handler = dir->GetNigoriHandler(); return nigori_handler->NeedKeystoreKey(&trans); } SyncerError HandleGetEncryptionKeyResponse( const sync_pb::ClientToServerResponse& update_response, syncable::Directory* dir) { bool success = false; if (update_response.get_updates().encryption_keys_size() == 0) { LOG(ERROR) << "Failed to receive encryption key from server."; return SERVER_RESPONSE_VALIDATION_FAILED; } syncable::ReadTransaction trans(FROM_HERE, dir); syncable::NigoriHandler* nigori_handler = dir->GetNigoriHandler(); success = nigori_handler->SetKeystoreKeys( update_response.get_updates().encryption_keys(), &trans); DVLOG(1) << "GetUpdates returned " << update_response.get_updates().encryption_keys_size() << "encryption keys. Nigori keystore key " << (success ? "" : "not ") << "updated."; return (success ? SYNCER_OK : SERVER_RESPONSE_VALIDATION_FAILED); } // Given a GetUpdates response, iterates over all the returned items and // divides them according to their type. Outputs a map from model types to // received SyncEntities. The output map will have entries (possibly empty) // for all types in |requested_types|. void PartitionUpdatesByType(const sync_pb::GetUpdatesResponse& gu_response, ModelTypeSet requested_types, TypeSyncEntityMap* updates_by_type) { int update_count = gu_response.entries().size(); for (ModelTypeSet::Iterator it = requested_types.First(); it.Good(); it.Inc()) { updates_by_type->insert(std::make_pair(it.Get(), SyncEntityList())); } for (int i = 0; i < update_count; ++i) { const sync_pb::SyncEntity& update = gu_response.entries(i); ModelType type = GetModelType(update); if (!IsRealDataType(type)) { NOTREACHED() << "Received update with invalid type."; continue; } TypeSyncEntityMap::iterator it = updates_by_type->find(type); if (it == updates_by_type->end()) { NOTREACHED() << "Received update for unexpected type " << ModelTypeToString(type); continue; } it->second.push_back(&update); } } // Builds a map of ModelTypes to indices to progress markers in the given // |gu_response| message. The map is returned in the |index_map| parameter. void PartitionProgressMarkersByType( const sync_pb::GetUpdatesResponse& gu_response, ModelTypeSet request_types, TypeToIndexMap* index_map) { for (int i = 0; i < gu_response.new_progress_marker_size(); ++i) { int field_number = gu_response.new_progress_marker(i).data_type_id(); ModelType model_type = GetModelTypeFromSpecificsFieldNumber(field_number); if (!IsRealDataType(model_type)) { DLOG(WARNING) << "Unknown field number " << field_number; continue; } if (!request_types.Has(model_type)) { DLOG(WARNING) << "Skipping unexpected progress marker for non-enabled type " << ModelTypeToString(model_type); continue; } index_map->insert(std::make_pair(model_type, i)); } } void PartitionContextMutationsByType( const sync_pb::GetUpdatesResponse& gu_response, ModelTypeSet request_types, TypeToIndexMap* index_map) { for (int i = 0; i < gu_response.context_mutations_size(); ++i) { int field_number = gu_response.context_mutations(i).data_type_id(); ModelType model_type = GetModelTypeFromSpecificsFieldNumber(field_number); if (!IsRealDataType(model_type)) { DLOG(WARNING) << "Unknown field number " << field_number; continue; } if (!request_types.Has(model_type)) { DLOG(WARNING) << "Skipping unexpected context mutation for non-enabled type " << ModelTypeToString(model_type); continue; } index_map->insert(std::make_pair(model_type, i)); } } // Initializes the parts of the GetUpdatesMessage that depend on shared state, // like the ShouldRequestEncryptionKey() status. This is kept separate from the // other of the message-building functions to make the rest of the code easier // to test. void InitDownloadUpdatesContext( sessions::SyncSession* session, bool create_mobile_bookmarks_folder, sync_pb::ClientToServerMessage* message) { message->set_share(session->context()->account_name()); message->set_message_contents(sync_pb::ClientToServerMessage::GET_UPDATES); sync_pb::GetUpdatesMessage* get_updates = message->mutable_get_updates(); // We want folders for our associated types, always. If we were to set // this to false, the server would send just the non-container items // (e.g. Bookmark URLs but not their containing folders). get_updates->set_fetch_folders(true); get_updates->set_create_mobile_bookmarks_folder( create_mobile_bookmarks_folder); bool need_encryption_key = ShouldRequestEncryptionKey(session->context()); get_updates->set_need_encryption_key(need_encryption_key); // Set legacy GetUpdatesMessage.GetUpdatesCallerInfo information. get_updates->mutable_caller_info()->set_notifications_enabled( session->context()->notifications_enabled()); } } // namespace GetUpdatesProcessor::GetUpdatesProcessor(UpdateHandlerMap* update_handler_map, const GetUpdatesDelegate& delegate) : update_handler_map_(update_handler_map), delegate_(delegate) {} GetUpdatesProcessor::~GetUpdatesProcessor() {} SyncerError GetUpdatesProcessor::DownloadUpdates( ModelTypeSet request_types, sessions::SyncSession* session, bool create_mobile_bookmarks_folder) { TRACE_EVENT0("sync", "DownloadUpdates"); sync_pb::ClientToServerMessage message; InitDownloadUpdatesContext(session, create_mobile_bookmarks_folder, &message); PrepareGetUpdates(request_types, &message); SyncerError result = ExecuteDownloadUpdates(request_types, session, &message); session->mutable_status_controller()->set_last_download_updates_result( result); return result; } void GetUpdatesProcessor::PrepareGetUpdates( ModelTypeSet gu_types, sync_pb::ClientToServerMessage* message) { sync_pb::GetUpdatesMessage* get_updates = message->mutable_get_updates(); for (ModelTypeSet::Iterator it = gu_types.First(); it.Good(); it.Inc()) { UpdateHandlerMap::iterator handler_it = update_handler_map_->find(it.Get()); DCHECK(handler_it != update_handler_map_->end()) << "Failed to look up handler for " << ModelTypeToString(it.Get()); sync_pb::DataTypeProgressMarker* progress_marker = get_updates->add_from_progress_marker(); handler_it->second->GetDownloadProgress(progress_marker); progress_marker->clear_gc_directive(); sync_pb::DataTypeContext context; handler_it->second->GetDataTypeContext(&context); if (!context.context().empty()) get_updates->add_client_contexts()->Swap(&context); } delegate_.HelpPopulateGuMessage(get_updates); } SyncerError GetUpdatesProcessor::ExecuteDownloadUpdates( ModelTypeSet request_types, sessions::SyncSession* session, sync_pb::ClientToServerMessage* msg) { sync_pb::ClientToServerResponse update_response; sessions::StatusController* status = session->mutable_status_controller(); bool need_encryption_key = ShouldRequestEncryptionKey(session->context()); if (session->context()->debug_info_getter()) { sync_pb::DebugInfo* debug_info = msg->mutable_debug_info(); CopyClientDebugInfo(session->context()->debug_info_getter(), debug_info); } session->SendProtocolEvent( *(delegate_.GetNetworkRequestEvent(base::Time::Now(), *msg))); SyncerError result = SyncerProtoUtil::PostClientToServerMessage( msg, &update_response, session); DVLOG(2) << SyncerProtoUtil::ClientToServerResponseDebugString( update_response); if (result != SYNCER_OK) { GetUpdatesResponseEvent response_event( base::Time::Now(), update_response, result); session->SendProtocolEvent(response_event); LOG(ERROR) << "PostClientToServerMessage() failed during GetUpdates"; return result; } DVLOG(1) << "GetUpdates returned " << update_response.get_updates().entries_size() << " updates."; if (session->context()->debug_info_getter()) { // Clear debug info now that we have successfully sent it to the server. DVLOG(1) << "Clearing client debug info."; session->context()->debug_info_getter()->ClearDebugInfo(); } if (need_encryption_key || update_response.get_updates().encryption_keys_size() > 0) { syncable::Directory* dir = session->context()->directory(); status->set_last_get_key_result( HandleGetEncryptionKeyResponse(update_response, dir)); } SyncerError process_result = ProcessResponse(update_response.get_updates(), request_types, status); GetUpdatesResponseEvent response_event( base::Time::Now(), update_response, process_result); session->SendProtocolEvent(response_event); DVLOG(1) << "GetUpdates result: " << process_result; return process_result; } SyncerError GetUpdatesProcessor::ProcessResponse( const sync_pb::GetUpdatesResponse& gu_response, ModelTypeSet request_types, sessions::StatusController* status) { status->increment_num_updates_downloaded_by(gu_response.entries_size()); // The changes remaining field is used to prevent the client from looping. If // that field is being set incorrectly, we're in big trouble. if (!gu_response.has_changes_remaining()) { return SERVER_RESPONSE_VALIDATION_FAILED; } syncer::SyncerError result = ProcessGetUpdatesResponse(request_types, gu_response, status); if (result != syncer::SYNCER_OK) return result; if (gu_response.changes_remaining() == 0) { return SYNCER_OK; } else { return SERVER_MORE_TO_DOWNLOAD; } } syncer::SyncerError GetUpdatesProcessor::ProcessGetUpdatesResponse( ModelTypeSet gu_types, const sync_pb::GetUpdatesResponse& gu_response, sessions::StatusController* status_controller) { TypeSyncEntityMap updates_by_type; PartitionUpdatesByType(gu_response, gu_types, &updates_by_type); DCHECK_EQ(gu_types.Size(), updates_by_type.size()); TypeToIndexMap progress_index_by_type; PartitionProgressMarkersByType(gu_response, gu_types, &progress_index_by_type); if (gu_types.Size() != progress_index_by_type.size()) { NOTREACHED() << "Missing progress markers in GetUpdates response."; return syncer::SERVER_RESPONSE_VALIDATION_FAILED; } TypeToIndexMap context_by_type; PartitionContextMutationsByType(gu_response, gu_types, &context_by_type); // Iterate over these maps in parallel, processing updates for each type. TypeToIndexMap::iterator progress_marker_iter = progress_index_by_type.begin(); TypeSyncEntityMap::iterator updates_iter = updates_by_type.begin(); for (; (progress_marker_iter != progress_index_by_type.end() && updates_iter != updates_by_type.end()); ++progress_marker_iter, ++updates_iter) { DCHECK_EQ(progress_marker_iter->first, updates_iter->first); ModelType type = progress_marker_iter->first; UpdateHandlerMap::iterator update_handler_iter = update_handler_map_->find(type); sync_pb::DataTypeContext context; TypeToIndexMap::iterator context_iter = context_by_type.find(type); if (context_iter != context_by_type.end()) context.CopyFrom(gu_response.context_mutations(context_iter->second)); if (update_handler_iter != update_handler_map_->end()) { syncer::SyncerError result = update_handler_iter->second->ProcessGetUpdatesResponse( gu_response.new_progress_marker(progress_marker_iter->second), context, updates_iter->second, status_controller); if (result != syncer::SYNCER_OK) return result; } else { DLOG(WARNING) << "Ignoring received updates of a type we can't handle. " << "Type is: " << ModelTypeToString(type); continue; } } DCHECK(progress_marker_iter == progress_index_by_type.end() && updates_iter == updates_by_type.end()); return syncer::SYNCER_OK; } void GetUpdatesProcessor::ApplyUpdates( ModelTypeSet gu_types, sessions::StatusController* status_controller) { delegate_.ApplyUpdates(gu_types, status_controller, update_handler_map_); } void GetUpdatesProcessor::CopyClientDebugInfo( sessions::DebugInfoGetter* debug_info_getter, sync_pb::DebugInfo* debug_info) { DVLOG(1) << "Copying client debug info to send."; debug_info_getter->GetDebugInfo(debug_info); } } // namespace syncer