getDisplayInfo() now returns proper information for
HWC managed displays.
hotplug is sitll not supported; so this is not fully correct
as the information returned will be bogus if the HDMI screen
is not plugged in.
Bug: 7191563
Change-Id: If55d8e829fae0443571548155007f486cdf9bc9f
- decouple GL and main display initialization
- ensure that each "supported" display has its own FramebufferSurface
- onScreenAcquired/Released now takes a display
Change-Id: If34a05f3dea40f6c79db77f4dde283a2580daac4
This adds a trivial workaround for a one-shot boot time crash, plus
an explicit check and abort for a failure condition that currently
presents as a less obvious failure.
Bug: 7145521, 7147557
Change-Id: I548f6a9caa9f0bd5710aaecea0e1c6c7c8f2f281
FramebufferSurface no longer speaks directly to the FB HAL. Now
everything goes through HWComposer (which may or may not be
connected to a hardware composer).
Added display index arg to some query methods.
Change-Id: Id3e157d2d4e3555d33afbb703e518b6e92e2d6d5
the problem was that LayerBase::setPerFrameData() was always setting
this flag. in fact there was no reason to do this at that point since
the layer is initialized to a default state in setGeometry().
Bug: 7111259
Change-Id: Ib37b0dd7391a6163070e9aca025512159c1705f9
If SurfaceFlinger needs to refresh the screen but the dirty region is
empty, it won't set the layer acquire fences, and stale file
descriptors will be passed to HWC commit(). Now we make sure to clear
the stale file descriptors for each layer right after commit().
Bug: 7078301
Change-Id: I6953ff91fc5488f105b30b07306f9c45a4c3f780
we used to have a visibleRegion object per layer, but now
it's per screen; so at somepoint the code got changed to
calculate the per-screen visible region on the stack and that's
what got passed to HWC.
we're now setting the visibleRegionScreen at each frame and
freeing at after the HWC set() call. We use the underlaying
SharedBuffer so that in most cases we don't have to allocate,
free or copy memory around.
Bug: 7089478
Change-Id: I24fa556c76613a225d9fe7a6c6b727bb476144d8
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
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
fix a few bugs with external displays
- HWComposer doesn't really handle multiple displays yet
so there is a lot of ugliness there
- We also need to make sure that external displays are not
blanked by default
- due to some EGL limitations surfaces being swapped need
to be current
Change-Id: I82bff05b43bcebd8da863c7c76b4edbc3bc223a9
- also replace C casts with C++ casts
- only the interface is changed, HWComposer still doesn't
fully handle multiple displays
Change-Id: I48eb89bff2edb76bf1d4d41f46802b9b2a7166a8
- 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
Commit 8630320 moved the eglSwapBuffers fallback (for devices with no
HWC implementation) from DisplayHardware to HWComposer. But HWComposer
only knows about the framebuffer EGL display and surface handles if
there is a HWC, so it was always passing bogus handles.
This change moves the eglSwapBuffers fallback up to SurfaceFlinger,
which has access to the framebuffer EGL handles.
Bug: 6886613
Change-Id: Iad3f5ff7c90ee48d7053999e6a4548d6794b6ebd
we will only ever have a single instance of HWComposer, so
it's now an attribute of SurfaceFlinger, instead of being part
of DisplayHardware.
DisplayHardware now just represents a "display" (it should be renamed).
Change-Id: Iec191e57686868e1df6daa8b880a286c9fefde56
mostly refactored SurfaceFlinger.h, but also removed dead code.
cleaned-up a few includes as well.
Change-Id: Ib15f4ffe567912b61ee98aa076c6a283b72811b5
Call into the new HWC blank operation to blank or unblank the screen.
Legacy systems may have already blanked the screen via early suspend,
and can choose to not implement the blank operation in their hardware
composer implementation.
Change-Id: Ib403c8c0e36367a2cfef3e1d124872fcfeb9e7cb
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
The acquire and release fences aren't yet used; this is just support
for the new version and temporary backwards compatibility for older
versions.
Change-Id: Ia5ccc05a97c86f649042b9a35e11042fa0187e84
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