it's safer this way because this object owns an
EGLSurface which cannot be easily reference-counted.
it also gives us the ability to sub-class it, which
we might want to do soon.
Change-Id: I07358bb052dc5a13b4f2196b2c2b6e6e94c4bb4f
- fix typo drawForSreenshot misspelled
- get rid of DisplayDeviceBase
- removed unused or unneeded code
- always pass a DisplayDevice to Layer methods that are called
on a per-display basis (to make it clear that this could be
called more than once per composition).
Change-Id: Id948b7e09fe5c06db0e42d40d6ed75dd095c7f44
mostly refactored SurfaceFlinger.h, but also removed dead code.
cleaned-up a few includes as well.
Change-Id: Ib15f4ffe567912b61ee98aa076c6a283b72811b5
- remove dependency on cached state in validateVisibility
- get rid of mVertices and mTransformedBounds
- get rid of validateVisibility
- get rid of unlockPageFlip
- handleTransaction now returns a dirty region
- computevisibileregion now uses window-manager space
After a HWC set, each SurfaceFlinger Layer retrieves the release fence
HWC returned and gives it to the layer's SurfaceTexture. The
SurfaceTexture accumulates the fences into a merged fence until the
next updateTexImage, then passes the merged fence to the BufferQueue
in releaseBuffer.
In a follow-on change, BufferQueue will return the fence along with
the buffer slot in dequeueBuffer. For now, dequeueBuffer waits for the
fence to signal before returning.
The releaseFence default value for BufferQueue::releaseBuffer() is
temporary to avoid transient build breaks with a multi-project
checkin. It'll disappear in the next change.
Change-Id: Iaa9a0d5775235585d9cbf453d3a64623d08013d9
HWComposer must abstract the HWC HAL entirely, so that the
HAL can continue to evolve (and break binary compatibility)
without breaking SurfaceFlinger. The HWC data structure had
leaked outside of HWComposer, this is now fixed.
We now have an abstract interface that provide all the
needed functionality, HWCompose provides concrete
implementations of it based on the the HWC version.
Change-Id: I40c4676dc986b682ede5520a1c60efe64037b0bb
this would happen when a resize was pending (ie: we have received
and processed a resize transaction but have not received a buffer
with the right size) and a new transaction came in that didn't
involve a resize, for instance a translate-only transaction.
in this case, we would incorrectly update the drawing state
with the pending size, eventhough we still don't have a buffer
for it.
the solution is quite simple, we never allow the size to propagate
from current to drawing state during the regular transaction processing
(unless we are in fixed-size mode -- meaning we don't need to have
a matching size buffer), this propagation happens later once we
receive the buffer.
Bug: 6624163
Change-Id: I11a97e4b88a7f3a0571ddcfe99c86cb04ce01a4d
this would happen when a window started with size A, was
resized to B and immediately resized to A. In this situation
the erquested and active size would be the same, and SF
would think a transaction wasn't needed.
we fix this by always comparing the requested sizes.
Also, make sure to set mRefreshPending once we're sure
we have succesfully called updateTexImage().
Bug: 6580962
Change-Id: I2c48b4df7f05fd35c9e1d2dd82095b0f3d5a0b6a
this bug introduced recently would happen when the very first
buffer of a surface was rejected for not having the right size
Bug: 6577035
Change-Id: I9fabf20006019f2a6c308be7c7f5c05bdcfd5014
SurfaceFlinger is using this new feature to reject buffers that
don't have the right size.
Bug: 6498869
Change-Id: I8a7250a47db6c082a357b703feb3b9d0fc8d3443
here we just shuffle a bit the code inside lockPageFlip(),
we move the code that handles the buffer size closer to the call
to updateTexImage(). no functionality change.
Change-Id: Ie3193cd86cd32cf3c89532449fd747d145ca0ab6
use a flag instead of pre-committing the "requested" state
to prevent propagation or "requested" to "active", which makes
things a lot clearer when reading the code.
also avoid going through the "resized" code-path when requested
size is equal to "active" size.
Bug: 6498869
Change-Id: I24f893ba0ec5ca06aac5b8da9818989ae7ce4005
The crop is now handled like a resize, it's latched only when we
receive a new buffer in the case we have a resize in the same
transaction.
Bug: 6498869
Change-Id: I9f3cbbe08fb19443899461ec441c714748a4fd1a
This change removes some visible region recomputation that was needed to handle
the SCALING_MODE_FREEZE cropping. We've changed things to use a window crop
from the WindowManager instead, so this is no longer needed.
Bug: 6299171
Change-Id: I32fbc2b689c985837126d8ba3d9a91e79613ffbf
This change adds a crop rectangle specified in window coordinates to the layer
state. The all window pixels outside this crop rectangle are treated as though
they were fully transparent. This change also adds the plumbing necessary for
WindowManager to set that crop.
Change-Id: I582bc445dc8c97d4c943d4db8d582a6ef5a66081
This change makes a change in the crop, scaling mode, transform, or buffer
dimensions trigger a recomputation of the visible regions of a window. With
the new cropping behavior for SCALING_MODE_FREEZE all of these can now affect
the visible region.
Bug: 6470541
Change-Id: I1904e47efbd708e28bf189f637d24dbef65cd41e
This change adss support for applying a buffer crop to layers with the
SCALING_MODE_FREEZE scaling mode. These layers do not scale the image, but
rather treat all pixels outside the crop rectangle as fully transparent.
Change-Id: I762518e56a37aef7747f9b581df2f2589b232c49
Bug: 6299171
This change makes SurfaceFlinger set the filtering-enable on each layer's
SurfaceTexture before querying the texture matrix to use for GLES composition.
Change-Id: I40c3defd73ebf96e3cabb3bfdb1fc97f2036753a
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
