// Copyright (c) 2013 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/sessions/nudge_tracker.h" #include "base/basictypes.h" #include "sync/internal_api/public/base/invalidation.h" #include "sync/notifier/invalidation_util.h" #include "sync/notifier/object_id_invalidation_map.h" #include "sync/protocol/sync.pb.h" namespace syncer { namespace sessions { size_t NudgeTracker::kDefaultMaxPayloadsPerType = 10; NudgeTracker::NudgeTracker() : invalidations_enabled_(false), invalidations_out_of_sync_(true) { ModelTypeSet protocol_types = ProtocolTypes(); // Default initialize all the type trackers. for (ModelTypeSet::Iterator it = protocol_types.First(); it.Good(); it.Inc()) { invalidation::ObjectId id; if (!RealModelTypeToObjectId(it.Get(), &id)) { NOTREACHED(); } else { type_trackers_.insert(std::make_pair(it.Get(), DataTypeTracker(id))); } } } NudgeTracker::~NudgeTracker() { } bool NudgeTracker::IsSyncRequired() const { if (IsRetryRequired()) return true; for (TypeTrackerMap::const_iterator it = type_trackers_.begin(); it != type_trackers_.end(); ++it) { if (it->second.IsSyncRequired()) { return true; } } return false; } bool NudgeTracker::IsGetUpdatesRequired() const { if (invalidations_out_of_sync_) return true; if (IsRetryRequired()) return true; for (TypeTrackerMap::const_iterator it = type_trackers_.begin(); it != type_trackers_.end(); ++it) { if (it->second.IsGetUpdatesRequired()) { return true; } } return false; } bool NudgeTracker::IsRetryRequired() const { if (sync_cycle_start_time_.is_null()) return false; if (current_retry_time_.is_null()) return false; return current_retry_time_ < sync_cycle_start_time_; } void NudgeTracker::RecordSuccessfulSyncCycle() { // If a retry was required, we've just serviced it. Unset the flag. if (IsRetryRequired()) current_retry_time_ = base::TimeTicks(); // A successful cycle while invalidations are enabled puts us back into sync. invalidations_out_of_sync_ = !invalidations_enabled_; for (TypeTrackerMap::iterator it = type_trackers_.begin(); it != type_trackers_.end(); ++it) { it->second.RecordSuccessfulSyncCycle(); } } void NudgeTracker::RecordLocalChange(ModelTypeSet types) { for (ModelTypeSet::Iterator type_it = types.First(); type_it.Good(); type_it.Inc()) { TypeTrackerMap::iterator tracker_it = type_trackers_.find(type_it.Get()); DCHECK(tracker_it != type_trackers_.end()); tracker_it->second.RecordLocalChange(); } } void NudgeTracker::RecordLocalRefreshRequest(ModelTypeSet types) { for (ModelTypeSet::Iterator it = types.First(); it.Good(); it.Inc()) { TypeTrackerMap::iterator tracker_it = type_trackers_.find(it.Get()); DCHECK(tracker_it != type_trackers_.end()); tracker_it->second.RecordLocalRefreshRequest(); } } void NudgeTracker::RecordRemoteInvalidation( const ObjectIdInvalidationMap& invalidation_map) { // Be very careful here. The invalidations acknowledgement system requires a // sort of manual memory management. We'll leak a small amount of memory if // we fail to acknowledge or drop any of these incoming invalidations. ObjectIdSet id_set = invalidation_map.GetObjectIds(); for (ObjectIdSet::iterator it = id_set.begin(); it != id_set.end(); ++it) { ModelType type; // This should never happen. If it does, we'll start to leak memory. if (!ObjectIdToRealModelType(*it, &type)) { NOTREACHED() << "Object ID " << ObjectIdToString(*it) << " does not map to valid model type"; continue; } // Forward the invalidations to the proper recipient. TypeTrackerMap::iterator tracker_it = type_trackers_.find(type); DCHECK(tracker_it != type_trackers_.end()); tracker_it->second.RecordRemoteInvalidations( invalidation_map.ForObject(*it)); } } void NudgeTracker::OnInvalidationsEnabled() { invalidations_enabled_ = true; } void NudgeTracker::OnInvalidationsDisabled() { invalidations_enabled_ = false; invalidations_out_of_sync_ = true; } void NudgeTracker::SetTypesThrottledUntil( ModelTypeSet types, base::TimeDelta length, base::TimeTicks now) { for (ModelTypeSet::Iterator it = types.First(); it.Good(); it.Inc()) { TypeTrackerMap::iterator tracker_it = type_trackers_.find(it.Get()); tracker_it->second.ThrottleType(length, now); } } void NudgeTracker::UpdateTypeThrottlingState(base::TimeTicks now) { for (TypeTrackerMap::iterator it = type_trackers_.begin(); it != type_trackers_.end(); ++it) { it->second.UpdateThrottleState(now); } } bool NudgeTracker::IsAnyTypeThrottled() const { for (TypeTrackerMap::const_iterator it = type_trackers_.begin(); it != type_trackers_.end(); ++it) { if (it->second.IsThrottled()) { return true; } } return false; } bool NudgeTracker::IsTypeThrottled(ModelType type) const { DCHECK(type_trackers_.find(type) != type_trackers_.end()); return type_trackers_.find(type)->second.IsThrottled(); } base::TimeDelta NudgeTracker::GetTimeUntilNextUnthrottle( base::TimeTicks now) const { DCHECK(IsAnyTypeThrottled()) << "This function requires a pending unthrottle"; // Return min of GetTimeUntilUnthrottle() values for all IsThrottled() types. base::TimeDelta time_until_next_unthrottle = base::TimeDelta::Max(); for (TypeTrackerMap::const_iterator it = type_trackers_.begin(); it != type_trackers_.end(); ++it) { if (it->second.IsThrottled()) { time_until_next_unthrottle = std::min(time_until_next_unthrottle, it->second.GetTimeUntilUnthrottle(now)); } } DCHECK(!time_until_next_unthrottle.is_max()); return time_until_next_unthrottle; } ModelTypeSet NudgeTracker::GetThrottledTypes() const { ModelTypeSet result; for (TypeTrackerMap::const_iterator it = type_trackers_.begin(); it != type_trackers_.end(); ++it) { if (it->second.IsThrottled()) { result.Put(it->first); } } return result; } ModelTypeSet NudgeTracker::GetNudgedTypes() const { ModelTypeSet result; for (TypeTrackerMap::const_iterator it = type_trackers_.begin(); it != type_trackers_.end(); ++it) { if (it->second.HasLocalChangePending()) { result.Put(it->first); } } return result; } ModelTypeSet NudgeTracker::GetNotifiedTypes() const { ModelTypeSet result; for (TypeTrackerMap::const_iterator it = type_trackers_.begin(); it != type_trackers_.end(); ++it) { if (it->second.HasPendingInvalidation()) { result.Put(it->first); } } return result; } ModelTypeSet NudgeTracker::GetRefreshRequestedTypes() const { ModelTypeSet result; for (TypeTrackerMap::const_iterator it = type_trackers_.begin(); it != type_trackers_.end(); ++it) { if (it->second.HasRefreshRequestPending()) { result.Put(it->first); } } return result; } void NudgeTracker::SetLegacyNotificationHint( ModelType type, sync_pb::DataTypeProgressMarker* progress) const { DCHECK(type_trackers_.find(type) != type_trackers_.end()); type_trackers_.find(type)->second.SetLegacyNotificationHint(progress); } sync_pb::GetUpdatesCallerInfo::GetUpdatesSource NudgeTracker::GetLegacySource() const { // There's an order to these sources: NOTIFICATION, DATATYPE_REFRESH, LOCAL, // RETRY. The server makes optimization decisions based on this field, so // it's important to get this right. Setting it wrong could lead to missed // updates. // // This complexity is part of the reason why we're deprecating 'source' in // favor of 'origin'. bool has_invalidation_pending = false; bool has_refresh_request_pending = false; bool has_commit_pending = false; bool has_retry = IsRetryRequired(); for (TypeTrackerMap::const_iterator it = type_trackers_.begin(); it != type_trackers_.end(); ++it) { const DataTypeTracker& tracker = it->second; if (!tracker.IsThrottled() && tracker.HasPendingInvalidation()) { has_invalidation_pending = true; } if (!tracker.IsThrottled() && tracker.HasRefreshRequestPending()) { has_refresh_request_pending = true; } if (!tracker.IsThrottled() && tracker.HasLocalChangePending()) { has_commit_pending = true; } } if (has_invalidation_pending) { return sync_pb::GetUpdatesCallerInfo::NOTIFICATION; } else if (has_refresh_request_pending) { return sync_pb::GetUpdatesCallerInfo::DATATYPE_REFRESH; } else if (has_commit_pending) { return sync_pb::GetUpdatesCallerInfo::LOCAL; } else if (has_retry) { return sync_pb::GetUpdatesCallerInfo::RETRY; } else { return sync_pb::GetUpdatesCallerInfo::UNKNOWN; } } void NudgeTracker::FillProtoMessage( ModelType type, sync_pb::GetUpdateTriggers* msg) const { DCHECK(type_trackers_.find(type) != type_trackers_.end()); // Fill what we can from the global data. msg->set_invalidations_out_of_sync(invalidations_out_of_sync_); // Delegate the type-specific work to the DataTypeTracker class. type_trackers_.find(type)->second.FillGetUpdatesTriggersMessage(msg); } void NudgeTracker::SetSyncCycleStartTime(base::TimeTicks now) { sync_cycle_start_time_ = now; // If current_retry_time_ is still set, that means we have an old retry time // left over from a previous cycle. For example, maybe we tried to perform // this retry, hit a network connection error, and now we're in exponential // backoff. In that case, we want this sync cycle to include the GU retry // flag so we leave this variable set regardless of whether or not there is an // overwrite pending. if (!current_retry_time_.is_null()) { return; } // If do not have a current_retry_time_, but we do have a next_retry_time_ and // it is ready to go, then we set it as the current_retry_time_. It will stay // there until a GU retry has succeeded. if (!next_retry_time_.is_null() && next_retry_time_ < sync_cycle_start_time_) { current_retry_time_ = next_retry_time_; next_retry_time_ = base::TimeTicks(); } } void NudgeTracker::SetHintBufferSize(size_t size) { for (TypeTrackerMap::iterator it = type_trackers_.begin(); it != type_trackers_.end(); ++it) { it->second.UpdatePayloadBufferSize(size); } } void NudgeTracker::SetNextRetryTime(base::TimeTicks retry_time) { next_retry_time_ = retry_time; } } // namespace sessions } // namespace syncer