SharedModelTypeProcessor is a crucial piece of the USS codepath. It lives on the model thread and performs the tracking of sync metadata for the
ModelTypeSyncBridge that owns it by implementing the
ModelTypeChangeProcessor interface, as well as sending commit requests to the
ModelTypeWorker on the sync thread via the
CommitQueue interface and receiving updates from the same worker via the
The bridge owns a processor object at all times and operates on the same thread as it. If sync is disabled, the processor is destroyed but a new one is immediately created to replace it.
The processor sits between the model bridge and the sync engine. It has knowledge of what state each is in based on the calls it has receieved and performed. The states are not stored explicitly, but are implicit based on state stored in the processor. Here are the states of each, with notes on their transitions and how to determine them.
ModelReadyToStartto be called.
waiting_for_metadata_ && !model_error_
waiting_for_pending_data_ && !model_error_
!waiting_for_metadata_ && !waiting_for_pending_data && !model_error
error_handler_ && start_callback_
ERROR, the error is passed along and the callback is cleared; we're really waiting for DisableSync instead of connect.
error_handler_ && !start_callback_
Based on the interplay of the model and sync states, the processor effectively progresses through 3 states worth noting:
Deletecalls are not allowed in this state (will DCHECK).
Deletecalls will be ignored.
IsTrackingMetadatafor optimization, not correctness.
Deletecalls must happen for entity changes.
TRACKING, it progresses to this state as soon as it gets connected to the worker.
NOT_TRACKING, it progresses to this state after
MergeSyncDatais called and the metadata is initialized.
ProcessorEntityTracker tracks the state of individual entities for the processor. It keeps the
EntityMetadata proto in memory, as well as any pending commit data until it gets acked by the server. It also stores the special
commit_requested_sequence_number_, which tracks the sequence number of the last version that's been sent to the server.
The tracker holds the metadata in memory forever, which is needed so we know what to update the on-disk memory with when we get a new local or remote change. Changing this would require being able to handle updates asynchronously.