this would happen when the composition was handled
entirely in h/w composer, in this case, we would
not set the fences for any involved layers.
Bug: 7049373
Change-Id: I1439dc156ce23c24041cdfbbebfe8ff4fdf790f8
This change is a clean up of some of the handling of the maximum number of
buffers that are allowed at once. It mostly renames a few member variables and
methods, but it includes a couple small refactorings.
Change-Id: I9959310f563d09583548d4291e1050a7bbc7d87d
this happened because we didn't check that the visible
region was within the bounds of the display.
Bug: 7064121
Change-Id: I2e81850a3dc3d1474253520ad7f9e559c26d5a96
DisplayDevices are now keyed of the wp<IBinder> the client uses.
DisplayID has now become DisplayType which is just used to identify
physical displays (as opposed to virtual displays such as wifi displays).
Change-Id: I0c5968f2c902dcd699a7e0afacf833ff070c12ea
This is a compatibility shim for one product whose drivers
are depending on SurfaceComposerClient::getDisplayInfo(
int, DisplayInfo*) when it really shouldn't.
Revert this patch when the problem has been resolved.
Bug: 7065398
Change-Id: I6542691b81fd1b1e1d79500a62e82d40a3d51db7
Use only display tokens in the API to refer to new displays.
Don't require the caller to specify the display when creating
a surface (since in general a surface could be shown on
any display).
This is intended to be a minimum change just to update the API.
Note that SurfaceFlinger still uses DisplayID in a few places
internally that might cause some features not to work properly
when there are multiple displays (LayerScreenshot, for example).
Change-Id: I3d91eec2da406eefd97bcd53655d403ad865a7e6
The primary display device was being configured to "blank" by
default, which prevented the boot animation from appearing
(unless you got lucky with the hardware composer state).
Bug 6975688
Change-Id: I0fa52e9e719c6e997c5725a7baf15d9718461b78
The primary display device was being configured to "blank" by
default, which prevented the boot animation from appearing
(unless you got lucky with the hardware composer state).
Bug 6975688
(This reverts an earlier revert.)
HWComposer can now create IDs representing a display
it can deal with. IDs MAIN and HDMI are reserved.
SurfaceFlinger associate HWComposer IDs with a
DisplayDevice and uses that when it talks to HWComposer.
A DisplayDevice doesn't have to have a HWComposer ID,
in that case it just can't use h/w composer composition.
Change-Id: Iec3d7ac92e0c22bf975052ae2847402f58bade71
- we now clean-up "dead" connection in the main loop,
this entirely avoid the problem with the side effects of
releasing strong references. We now only hold on to strong
reference for the connection we will signal.
- also simplify how we build the list of "ready" connections, by
only adding them to the list when we did receive a vsync event
Change-Id: I2a84da431320a2af8e8a93e07622a1d258236f43
Fixed the order of the statements in ANDROID_SINGLETON_STATIC_INSTANCE
macro so that the templated static member variable initialization
comes before the instantiation of the Singleton class. This
fixes the clang compile error.
Change-Id: Ic47d17e152b657f2dff3191ccc3770753fdf002b
Author: Tareq A. Siraj <tareq.a.siraj@intel.com>
Reviewed-by: Edwin Vane <edwin.vane@intel.com>
This change makes SurfaceTexture inherit from ConsumerBase. It removes all of
the functionality from SurfaceTexture that is now provided by the base class.
This includes fixes for two bugs that were found after checking this change in
the first time and then reverting it.
Change-Id: Ie2d9f4f27cfef26fdac341de3152e842b01a58d2
BufferItemConsumer allows for acquiring BufferQueue's BufferItems,
which contain all the data and metadata the BufferQueue has for a
given graphics buffer.
This consumer is useful when direct access to the native buffer_handles
is needed by the client.
Also includes a minor cleanup of CpuConsumer's use of 'virtual'.
Bug: 6243944
Change-Id: If7dc4192b15ac499555f1eda42a85140f2434795