Added a new API to determine whether the display supports
protected buffers so that an application can choose a different
content stream or change how it decodes the content so
that it will be viewable on the display.
At present, wifi display does not fully support protected
buffers although this may be enhanced in the future.
Bug: 6986623
Change-Id: If53a53d72b0ec92753cc4b29f99fcb131e00449b
Display controller should always stay in sync with peer list to avoid
showing incorrect available status on peers which would
cause connectivity issues.
Bug: 7268307
Change-Id: If04644339c1ee3f567939e4441dd6f6a45e4179a
WindowManager was notifying DisplayManager of content if any window
existed on a display. Now the window must be visible and we must not
be showing a Dream or the Keyguard.
Bug: 7214060.
Change-Id: I9ce4a49aabfbac22ff1e39a837199ce35b9f7503
The worst case WPS timeout for GO negotiation is two minutes.
Until, we better handle cancelling/disconnecting and re-syncing the
WFD framework with the wifi direct framework/supplicant, increase
the time out to 60s to help with dogfood
Bug: 7217600
Change-Id: I1ba0d9963b957454e2c6f47bfdf05176dea07be7
Add a setting to globally disable Wifi display.
Fixed a bug where the wifi display broadcast receiver
was running on the wrong thread.
Removed the wifi-display QuickSettings dialog, all functionality
has been moved to Settings.
Bug: 7178216
Bug: 7192799
Change-Id: I9796baac8245d664cf28fa147b9ed978d81d8ab9
- Specificy max GO intent for WFD
- Increase GO idle time out to 20s and use it for GO and client
- Fix connection broadcast
Change-Id: Ia0e28bc9eb3e23d2830a6c814c5a537ca0bcd5db
We should only report that the wifi display is connected
after the RTSP connection has been fully established.
Change-Id: Ifc6bc5d5cebd42d551026885b31cbc74b7ece2b1
The input system needs to know about the window that has
focus, even if it is on a secondary display. So now we
send it the list of all windows and indicate which display
they are on. We filter the list of windows as necessary
when delivering touch events.
To keep things simple, monitor input channels and input
filters are not supported except on the main display.
We also do not pass the display id to applications; it is
only used inside the input system for now.
Properly scale touch coordinates based on the viewport.
This will be needed to ensure that touch works on external
display as well as when the internal display is being used
to simulate a different resolution.
Change-Id: I1815579a52fcc852c519b5391fc7ab8767c2dc59
It's not the port advertised in the sink's wfd IE, it's the one our
source broadcasts in its wfd IE. In addition some dongles ignore the
broadcast port and have to be special cased.
Change-Id: Id5d279652e336391ba34dfc30bba700043d49b1d
The window manager is no longer responsible for telling the
input system about the display viewport.
Change-Id: I932882bae55decef55f25093bb2a7ebac1620bb1
The API is quite simple. There are a few extra functions
on DisplayManager to scan, connect and disconnect from
wifi displays and get status, and a single protected
broadcast sent when the status changes.
Change-Id: Ic91dbab5ee818e790b27fa32e1a1e93788793be0
Tell the display manager whenever a given logical display
contains interesting windows. If so, then the display
manager arranges to show that content on a physical display,
otherwise it ignores the logical display and makes its
associated primary physical display mirror the default
display.
Assign DisplayContents when Displays are added, remove them when
Displays are removed, and update the DisplayInfo when Displays
change.
Change-Id: I36e08ec538055acabe1e24cdd12c40de4e47a158
Added more complete support for logical displays with
support for mirroring, rotation and scaling.
Improved the overlay display adapter's touch interactions.
A big change here is that the display manager no longer relies
on a single-threaded model to maintain its synchronization
invariants. Unfortunately we had to change this so as to play
nice with the fact that the window manager wants to own
the surface flinger transaction around display and surface
manipulations. As a result, the display manager has to be able
to update displays from the context of any thread.
It would be nice to make this process more cooperative.
There are already several components competing to perform
surface flinger transactions including the window manager,
display manager, electron beam, overlay display window,
and mouse pointer. They are not manipulating the same surfaces
but they can collide with one another when they make global
changes to the displays.
Change-Id: I04f448594241f2004f6f3d1a81ccd12c566bf296
Split the DisplayManager into two parts. One part is bound
to a Context and takes care of Display compatibility and
caching Display objects on behalf of the Context. The other
part is global and takes care of communicating with the
DisplayManagerService, handling callbacks, and caching
DisplayInfo objects on behalf of the process.
Implemented support for enumerating Displays and getting
callbacks when displays are added, removed or changed.
Elaborated the roles of DisplayManagerService, DisplayAdapter,
and DisplayDevice. We now support having multiple display
adapters registered, each of which can register multiple display
devices and configure them dynamically.
Added an OverlayDisplayAdapter which is used to simulate
secondary displays by means of overlay windows. Different
configurations of overlays can be selected using a new
setting in the Developer Settings panel. The overlays can
be repositioned and resized by the user for convenience.
At the moment, all displays are mirrors of display 0 and
no display transformations are applied. This will be improved
in future patches.
Refactored the way that the window manager creates its threads.
The OverlayDisplayAdapter needs to be able to use hardware
acceleration so it must share the same UI thread as the Keyguard
and window manager policy. We now handle this explicitly as
part of starting up the system server. This puts us in a
better position to consider how we might want to share (or not
share) Loopers among components.
Overlay displays are disabled when in safe mode or in only-core
mode to reduce the number of dependencies started in these modes.
Change-Id: Ic2a661d5448dde01b095ab150697cb6791d69bb5
Cleaned up the implementation of Surface and SurfaceSession
to use more consistent naming and structure.
Added JNI for all of the new surface flinger display API calls.
Enforced the requirement that all Surfaces created by
the window manager be named.
Updated the display manager service to use the new methods.
Change-Id: I2a658f1bfd0437e1c6f9d22df8d4ffcce7284ca2
Reverting to the previous stub as the display adapter registration
and the logical to physical mapping is not at all what we are going
to need moving forward.
Fixed up the service initialization order so that the display manager
service has a context from the start.
Change-Id: I717f2f1099c7a77180ef207c371ec8329258850a