This document describes how RootPresenter and Scenic process visually-related input, such as touch, mouse, and keyboard. We'll work roughly bottom up through the layers of abstraction, from device to gesture.
Other inputs, such as buttons, audio, and video, are out of scope for this document.
Major Entities and Their High-Level Role
Zircon - gives us inputs as HID reports.
RootPresenter - routes input from Zircon to Scenic
Scenic - routes input from RootPresenter to UI Clients (touch and mouse inputs), and from RootPresenter to TextService (text inputs only).
TextService - routes text input from Scenic to IME
IME - routes and transforms text input from TextService to UI Clients
UI Client - consumes inputs from Scenic and IMEs to drive UI
Zircon Sends Raw Inputs
Zircon provides access to input peripherals through the file system under
/dev/class/input. These are presented as HID devices, with associated controls
to retrieve the description report. Simple reads from these HID devices will
return HID reports, which generally are expected to follow the
HID Usage Tables.
RootPresenter Transforms and Routes Inputs
Generally, the RootPresenter is the singleton process that has detailed and specific knowledge about the entire device, such as details about the display, peripherals, sensors, etc. It takes care of device management details, such as reading out HID reports from Zircon, and packages them into FIDL structs for consumption by Scenic or other entities.
It also instructs Scenic to create the top-level (or "root") elements of the scene graph, and vends the Presenter API that UI clients use to attach their visual content to the scene graph.
is the code responsible for actually monitoring
/dev/class/input for new
peripherals, and reacting to new reports from existing peripherals. It forwards
new events for processing to other parts of RootPresenter.
More information on
InputReader can be found
For each new peripheral (an input device),
InputReader assigns a new
InputInterpreter object that reads the HID descriptor report for a single
input device, and performs bookkeeping by pushing a
and its designated event forwarding channel, an
FIDL protocol. (The
InputDeviceRegistry protocol also enables programmatic
input injection from outside RootPresenter.) The
is vended by RootPresenter, and in addition to bookkeeping (details below),
Presentation about the new peripheral.
For each new event,
InputInterpreter reads and decodes a HID report,
transforms it into an
InputReport, and forwards it on
InputReport to the registered
typically the RootPresenter itself. In turn, the
InputReport is forwarded to
For internal bookkeeping, each
Presentation keeps a mapping of
ID to an associated
DeviceState is used to create a little
persistent state for each peripheral, e.g., keeping track of a mouse device's
DOWN/MOVE/UP state. In
InputReport is routed to its
DeviceState, where it is transformed into an appropriate
InputEvent, and is sent to the
OnEventCallback that was registered at the
DeviceState's constructor (when the peripheral was first added).
InputEvent is now handled by RootPresenter's
OnEvent callback. It looks
for global hooks, displays a mouse cursor, adjusts for predetermined screen
rotation, and finally enqueues the
InputEvent as an
InputCmd to Scenic.
Sensor HID reports are handled in an analogous fashion. Some differences are:
- Sensors typically don't have state to manage, so they have no
InputReportis typically enough for plumbing out to clients.
- Interfaces for sensor data is vended by RootPresenter itself; this may change in the future.
Scenic Routes Inputs to UI Clients
In contrast to RootPresenter, Scenic has less knowledge about the device.
Instead of knowing about peripherals, it receives
InputEvent FIDL structs from
RootPresenter. Generally, it owns and manages the large-scale visual elements
that each UI client creates (the scene graph), as well as handling input
dispatch to each UI client.
Scenic accepts commands from a client over its session. RootPresenter is a
privileged client that may submit input commands, each of which encapsulates an
InputEvent. The Scenic-side implementation of session logic has an
that farms out different types of events to appropriate dispatch logic.
We outline some representative event flows below.
Pointer Event Handling
Pointer events, such as touch, typically follow an ADD → DOWN → MOVE*
→ UP → REMOVE state sequence, encoded as
On ADD, we identify the set of potential clients by performing a hit test, and forward this event to these clients. To associate future touch events by the same finger to the same clients, we track the set of clients for that particular finger. Parallel dispatch is used to enable gesture disambiguation (TBD), where the touch events should eventually be owned by a single client.
On DOWN, we send a
FocusEvent to the single client that is "on top". We also
focused=false to the previously focused client.
On MOVE and UP, we merely forward them to existing clients.
On REMOVE, we forward it to existing clients, and then remove the tracking association.
Keyboard Event Handling
Keyboard events are a little more involved, due to the need for mediation by an IME ("soft keyboard"). We distinguish hard key events, generated by a physical keyboard, from soft key events, generated by an IME.
Scenic deals exclusively with hard key events, but must typically not forward
them directly to clients. Instead, Scenic sends all hard key events to the
TextService, which vends IMEs to UI clients. The TextService routes hard key
events to an IME associated with a particular UI client that has received the
Some clients have a real need for hard key events (e.g., games and software
platforms). These clients may use the
SetHardKeyboardDeliveryCmd to trigger
direct dispatch from Scenic.
Except as otherwise noted, the content of this page is licensed under the Creative Commons Attribution 4.0 License, and code samples are licensed under the Apache 2.0 License. For details, see the Google Developers Site Policies. Java is a registered trademark of Oracle and/or its affiliates.