ImageBridgeChild has only one global TextureFactoryIdentifier. When WebRender is enabled, it is used for both WebRender widget and non-WebRender(BasicCompositor) widget. WebRenderImageHost and ImageHost are incompatible and WebRenderTextureHost does not permit to be consumed on compositor thread. Then it does not work well for non-WebRender widget. To address the problem at ImageContainer, ImageContainer needs to know a connected widget type. It is not easy in some cases like WebRTC. Then host side could address the problem easier.
CompositableParentManager::FindCompositable() is changed to permit transform from WebRenderImageHost to ImageHost if it is necessary when WebRenderImageHost belongs to ImageBridge.
WebRenderTextureHost is changed to permit to consume wrapped TextureHost on compositor thread. If the wrapped TextureHost is BufferTextureHost, it is possible to comsume the TextureHost on compositor and on RenderThread, since they are memory buffer or shared memory buffer. WebRTC code always create BufferTextureHost for video frame. Then it works.
Differential Revision: https://phabricator.services.mozilla.com/D34132
--HG--
extra : moz-landing-system : lando
* Remove redundant virtual keywords
* Mark all destructors of inheriting classes as virtual for clarity
* Mark all classes without virtual destructor as final (exposed errors)
* Make destructor virtual where it needed to be (some were missing)
* Replace empty ({}) code declaration in header with = default
* Remove virtual unused methods
I probably missed some, it quickly became a rabbit hole.
Differential Revision: https://phabricator.services.mozilla.com/D26060
--HG--
extra : moz-landing-system : lando
I wish I understood a little better what precisely is going on
here. What seems to be the problem is calling glDeleteTextures
too early, but I can't pin down exactly when "too early" is.
In any case I can no longer reproduce the issue with this patch
applied, and I cannot observe any performance degradation, and
it's not a remarkably risky patch, so I'm opting to cut the
investigation short. Any insights would be appreciated though.
Differential Revision: https://phabricator.services.mozilla.com/D6064
--HG--
extra : moz-landing-system : lando
I wish I understood a little better what precisely is going on
here. What seems to be the problem is calling glDeleteTextures
too early, but I can't pin down exactly when "too early" is.
In any case I can no longer reproduce the issue with this patch
applied, and I cannot observe any performance degradation, and
it's not a remarkably risky patch, so I'm opting to cut the
investigation short. Any insights would be appreciated though.
Differential Revision: https://phabricator.services.mozilla.com/D6064
--HG--
extra : moz-landing-system : lando
There's a lot going on here, but it all fits under the idea of
being able to communicate about texture locking statuses
without spinning on IsReadLocked. This is a bit of a trade -
we could just always allocate/grab a texture from the pool,
which would put a smaller cap on the amount of time we can
possibly spend when a texture is locked. However, this eats
up more CPU and memory than waiting on the textures to unlock,
and could take longer, especially if there were a large number
of textures which we just need to wait for for a short amount
of time. In any case, we very rarely hit the case where we
actually need to wait on the sync IPC to the compositor - most
of the time the textures are already unlocked.
There is also an async IPC call in here, which we make before
flushing async paints. This just causes the compositor to
check whether the GPU is done with its textures or not and
unlock them if it is. This helps us avoid the case where we
take a long time painting asynchronously, turn IPC back on at
the end of that, and then have to wait for the compositor
to to get into TiledLayerBufferComposite::UseTiles before
getting a response. Specifically this eliminates several talos
regressions which use ASAP mode.
Lastly, there seem to be no other cases of static Monitors
being used. This seems like it falls under similar use cases
as StaticMutexes, so I added it in. I can move it into its own
file if we think it might be generally useful in the future.
MozReview-Commit-ID: IYQLwUqMxg2
--HG--
extra : rebase_source : 4f05832f51dae6db98773dcad03cb008a80eca6c
There's a lot going on here, but it all fits under the idea of
being able to communicate about texture locking statuses
without spinning on IsReadLocked. This is a bit of a trade -
we could just always allocate/grab a texture from the pool,
which would put a smaller cap on the amount of time we can
possibly spend when a texture is locked. However, this eats
up more CPU and memory than waiting on the textures to unlock,
and could take longer, especially if there were a large number
of textures which we just need to wait for for a short amount
of time. In any case, we very rarely hit the case where we
actually need to wait on the sync IPC to the compositor - most
of the time the textures are already unlocked.
There is also an async IPC call in here, which we make before
flushing async paints. This just causes the compositor to
check whether the GPU is done with its textures or not and
unlock them if it is. This helps us avoid the case where we
take a long time painting asynchronously, turn IPC back on at
the end of that, and then have to wait for the compositor
to to get into TiledLayerBufferComposite::UseTiles before
getting a response. Specifically this eliminates several talos
regressions which use ASAP mode.
Lastly, there seem to be no other cases of static Monitors
being used. This seems like it falls under similar use cases
as StaticMutexes, so I added it in. I can move it into its own
file if we think it might be generally useful in the future.
MozReview-Commit-ID: IYQLwUqMxg2
--HG--
extra : rebase_source : 67f6fee8b89933561a48e6f7f531b6969893a574
There's a lot going on here, but it all fits under the idea of
being able to communicate about texture locking statuses
without spinning on IsReadLocked. This is a bit of a trade -
we could just always allocate/grab a texture from the pool,
which would put a smaller cap on the amount of time we can
possibly spend when a texture is locked. However, this eats
up more CPU and memory than waiting on the textures to unlock,
and could take longer, especially if there were a large number
of textures which we just need to wait for for a short amount
of time. In any case, we very rarely hit the case where we
actually need to wait on the sync IPC to the compositor - most
of the time the textures are already unlocked.
There is also an async IPC call in here, which we make before
flushing async paints. This just causes the compositor to
check whether the GPU is done with its textures or not and
unlock them if it is. This helps us avoid the case where we
take a long time painting asynchronously, turn IPC back on at
the end of that, and then have to wait for the compositor
to to get into TiledLayerBufferComposite::UseTiles before
getting a response. Specifically this eliminates several talos
regressions which use ASAP mode.
Lastly, there seem to be no other cases of static Monitors
being used. This seems like it falls under similar use cases
as StaticMutexes, so I added it in. I can move it into its own
file if we think it might be generally useful in the future.
MozReview-Commit-ID: IYQLwUqMxg2
--HG--
extra : rebase_source : 3624ad04aa01dac1cd38efb47764dc3a8fbd5fbd
This patch was generated automatically by the "modeline.py" script, available
here: https://github.com/amccreight/moz-source-tools/blob/master/modeline.py
For every file that is modified in this patch, the changes are as follows:
(1) The patch changes the file to use the exact C++ mode lines from the
Mozilla coding style guide, available here:
https://developer.mozilla.org/en-US/docs/Mozilla/Developer_guide/Coding_Style#Mode_Line
(2) The patch deletes any blank lines between the mode line & the MPL
boilerplate comment.
(3) If the file previously had the mode lines and MPL boilerplate in a
single contiguous C++ comment, then the patch splits them into
separate C++ comments, to match the boilerplate in the coding style.
MozReview-Commit-ID: 77D61xpSmIl
--HG--
extra : rebase_source : c6162fa3cf539a07177a19838324bf368faa162b
This patch was automatically generated. I found the files to be fixed in this
patch with the following command:
grep -r "^\* This Source Code" gfx
...and then I modified each of these files with the following script
(where $1 is the filename to be modified):
###
line1="\* This Source Code Form is subject to the terms of the Mozilla Public"
line2="\* License, v\. 2\.0\. If a copy of the MPL was not distributed with this"
line3="\* file, You can obtain one at http://mozilla\.org/MPL/2\.0/\. \*/"
# Insert 1 space at beginning:
sed -i s%"^$line1"%" $line1"% $1
sed -i s%"^$line2"%" $line2"% $1
sed -i s%"^$line3"%" $line3"% $1
###
MozReview-Commit-ID: HXBMrfnhlVr
--HG--
extra : rebase_source : de4c78563711f8366e2978c5199a5041875fbe38
sotaro
Jean-Yves Avenard
Sylvestre Ledru
Doug Thayer
Ciure Andrei
Cosmin Sabou
Margareta Eliza Balazs
Daniel Holbert
David Anderson