this could happen after an orientation change. basically
we need to triger a geometry-changed when the very first buffer
is received
Change-Id: I097e411fd6612c18725737cffccdbf6b2af3511c
re-add support for pixelformats L_8, LA_88 and RGB_332 in libui
for backward compatibility.
This may or may not fix 6058926
Bug: 6049685
Change-Id: Ic1b8b4cc994522f7fe664da64c0ef76b98bc6d53
we're seeing UI freezes when window updates and
composition are separated. for now we workaround this
by always doing a composition after window updates on
vsync. triple buffering is reenabled for performance.
Change-Id: I693d705000b7452489bb0b4918fbeadb9879315c
with this changes, SF transactions are handled as soon as possible
but do not trigger updates. the update is delayed until the next
vsync.
this allows us to work much better without requiring triple-buffering.
Change-Id: I1fa10794d0cf742129f0877698b7b1e1f2ec7401
--latency-clear [name]
clears the latency data for the specified layer or for
all layers if none is specified
--list
prints the list of all layers regardless of their visibility
Change-Id: I7c07ae020f838c173b98ee50f3fb3e93da78acbb
It is now possible to say:
dumpsys SurfaceFlinger --latency
to print latency information about all windows
dumpsys SurfaceFlinger --latency window-name
to print the latency stats of the specified window
for instance: dumpsys SurfaceFlinger --latency SurfaceView
The data consists of one line containing global stats, followed by
128 lines of tab separated timestamps in nanosecond.
The first line currently contains the refresh period in nanosecond.
Each 128 following line contains 3 timestamps, of respectively
the app draw time, the vsync timestamp just prior the call to set and
the timestamp of the call to set.
Change-Id: Ib6b6da1d7e2e6ba49c282bdbc0b56a7dc203343a
A LayerScreenshot is a special type of layer that contains a screenshot of
the screen acquired when its created. It works just like LayerDim.
Make sure to call compositionComplete() after rendering into a FBO.
Bug: 5446982, 5467587, 5466259
Change-Id: I5d8a1b4c327f9973d950cd4f4c0bca7f62825cd4
when taking a screenshot, in particular, we could end up
with stale GL state when drawing LayerDim which resulted
in incortect rendering.
Bug: 5467587
Change-Id: Id9fbed2843481d31063620f3662b364c7e3ac781
This change removes the dead code from SurfaceFlinger that resulted from
disabling support for freezing the display.
Change-Id: I4e5ff00c94b4c7a79af2f65c9850c135210068ed
A LayerScreenshot is a special type of layer that contains a screenshot of
the screen acquired when its created. It works just like LayerDim.
Bug: 5446982
Change-Id: I7814aff2380e7e146937f2b641907be2a30c76cc
This change modifies SurfaceFlinger's screenshot behavior when a layer
with a protected buffer is visible. The previous behavior was to simply
fail the screenshot. The new behavior is to render the screenshot using
a placeholder texture where the protected buffer would have been.
Change-Id: I5e50cb2f3b31b2ea81cfe291c9b4a42e9ee71874
This change makes SurfaceFlinger update a SurfaceTextureLayer's default
buffer size in response to a window resize even if the Layer is in fixed
size mode.
Change-Id: I3871c8f19a045d03904d1284390cad7659be71ff
Bug: 5366426
This change fixes the transform hint to use only the global display
transform rather than incorporating the transient layer-specific
transform used during animations.
Bug: 5366891
Change-Id: I5408dcd3f4771d010953e8a696a484c835bfe81e
This change fixes an issue where Layer::isOpaque was being called in
lockPageFlip to get the opaqueness for the new buffer before
mActiveBuffer was updated.
Bug: 5321313
Change-Id: Ibb5d7d3f4e9a2b1448e117a484a0d9f9ca5fc9de
This change fixes an issue where Layer::isOpaque was being called in
lockPageFlip to get the opaqueness for the new buffer before
mActiveBuffer was updated.
Bug: 5321313
Change-Id: Ibb5d7d3f4e9a2b1448e117a484a0d9f9ca5fc9de
We were not updating the h/w composer state when the buffer size
changed.
We also didn't update the h/w composer state when the transformation
matrix changed (which is related to the above issue, since it would
probably change when the buffer size changes).
Also moved updating the crop to setGeometry(), since we decided
that the "crop" change requires the GEOMETRY_CHANGED flag (ie:
not need to do this every frame)
Bug: 5238473
Change-Id: Ia7b47e145b48581b568d89d9aa2c14ff778be862
This change makes SurfaceFlinger always use the
GRALLOC_USAGE_HW_COMPOSER usage bit when allocating buffers that may be
passed to the HWComposer.
Change-Id: I70362a8ede2b359fb2046853f85149d597465817
we were using the "orientation" value instead of the
real transform, which may contain arbitrary rotations for
instance, and in some case ended up with a final "orientation"
that looked valid, but wasn't.
this fixes a problem on devices with a h/w composer hal where
the rotation animation looked weird.
Change-Id: I4be8a2a1bde49c33456fcf5c8d87ab515c216763
This change fixes the NATIVE_WINDOW_QUEUES_TO_WINDOW_COMPOSER query of
Surface and SurfaceTextureClient. Surface now uses the inherited
SurfaceTextureClient implementation of this query. SurfaceTextureClient
now queries SurfaceFlinger to determine whether buffers that are queued
to its ISurfaceTexture will be sent to SurfaceFlinger (as opposed to
some other process).
Change-Id: Iff187e72f30d454229f07f896b438198978270a8
a wrong orientation would be briefly shown when
rotation the screen. this happened when the window manager
set a custom transformation and the h/w composer was used.
the custom transformation was applied twice in that case.
Bug: 5037522
Change-Id: Ic1f87b63cd843f4475e4265d1624463825d775c4
This change makes the Layer::onRemoved method call
SurfaceTextures::abandon on the layer's SurfaceTexture. This will cause
all client-initiated operations on the SurfaceTexture to fail. In
particular, this will result in an error on the client side, rather than
a deadlock when removing a layer that used a SurfaceTexture in
synchronous mode.
Change-Id: I14014d00369f29560a21b606831edee432bb8867
Bug: 5020874
This change fixes a bug where the window visibility would be computed
before any buffers were available, causing the window to be treated as
non-opaque. When the first buffer arrived, if both mCurrentOpacity and
the opacity determined by the buffer's format were 'opaque', a
recomputation of the opacity would not be done, and the window would
continue to be treated as non-opaque. SurfaceFlinger could then
unnecessarily draw fully occluded layers.
Change-Id: I2b95da2f4b50e68d50fc5afd8b772e26e62f58d6
Bug: 5057122
