WebRenderBridgeChild::GetFontKeyForScaledFont can currently cause a IpcResourceUpdateQueue race.
If we're in the middle of a transaction building a blob image, GetFontKeyForScaledFont is called
in the blob image building code using the transaction's IpcResourceUpdateQueue as expected, such
that resource updates are sent out when the transaction is finalized.
However, TextDrawTarget calls into PushGlyphs without passing along its IpcResourceUpdateQueue,
calling GetFontKeyForScaledFont without it, and causing it to immediately send out the resource
update.
So if a blob image uses a font key and submits a resource update, but a display list is built
after that also using the font key within the transaction, the display list will fail to send
the resource update because it thinks the blob image already did, even though the blob image
transaction has not yet been finalized.
The simple fix is to just pass IpcResourceUpdateQueue from TextDrawTarget into PushGlyphs, thus
ensuring the resource updates are properly ordered.
Differential Revision: https://phabricator.services.mozilla.com/D140438
We need them for SVG primitives.
This patch adds a bit of plumbing to disable snapping some of the primitives and forcing the antialiasing shader feature where needed, and uses it for SVG solid rectangles and images.
Differential Revision: https://phabricator.services.mozilla.com/D139024
gfx::Color is currently misused in many places. The DrawTargets expect
the color space to be in device space, e.g. what we are actually going
to draw using. Everything sitting above generally deals with sRGB, as
specified in CSS. Sometimes we missed the conversion from sRGB to device
space when issuing draw calls, and similarly sometimes we converted the
color to device space twice.
This patch splits the type in two. sRGBColor and DeviceColor now
represent sRGB and device color spaces respectively. DrawTarget only
accepts DeviceColor, and one can get a DeviceColor from an sRGBColor via
the ToDeviceColor helper API. The reftests now pass with color
management enabled for everything (e.g. CSS) instead of just tagged
raster images.
There will be a follow up patch to enable color management everywhere by
default on all supported platforms.
Differential Revision: https://phabricator.services.mozilla.com/D64771
Rounding in layout pixels is very close to snapping in raster pixels if
there are no transforms involved. This is why it worked most of the time
and fell flat in many edge cases. In future parts of this series, we
will trust scene building and frame building to do the heavy lifting for
snapping purposes.
Differential Revision: https://phabricator.services.mozilla.com/D45058
Rounding in layout pixels is very close to snapping in raster pixels if
there are no transforms involved. This is why it worked most of the time
and fell flat in many edge cases. In future parts of this series, we
will trust scene building and frame building to do the heavy lifting for
snapping purposes.
Differential Revision: https://phabricator.services.mozilla.com/D45058
Rounding in layout pixels is very close to snapping in raster pixels if
there are no transforms involved. This is why it worked most of the time
and fell flat in many edge cases. In future parts of this series, we
will trust scene building and frame building to do the heavy lifting for
snapping purposes.
Differential Revision: https://phabricator.services.mozilla.com/D45058
Rounding in layout pixels is very close to snapping in raster pixels if
there are no transforms involved. This is why it worked most of the time
and fell flat in many edge cases. In future parts of this series, we
will trust scene building and frame building to do the heavy lifting for
snapping purposes.
Differential Revision: https://phabricator.services.mozilla.com/D45058
This changes CreateClippedDrawTarget so that instead of taking
a max size and a transform it just takes a user space rect of
the desired bounds.
This change allows the caller to not worry about the computing
a max size based on the current clip. Instead this responsibility
is lowered into the specific backends.
The main motivation for this work is to allow blob recoordination
to create recordings that don't depend on the current clip.
Some additional benefits are that the API is easier to use and
as can be seen simplifies the SVG masking code because it doesn't
need to track surface offsets manually.
It's also an important step towards removing all the uses of
gfxContext::GetClipExtents which will let us get rid of the separate
clipping stack in gfxContext and help us move off of gfxContext
completely.
Most backend implementations of CreateClippedDrawTarget are relatively
simple. DrawTargetCapture is modified to track the current clip rect
so that it can create a new DrawTargetCapture of the appropriate size
without needing to worry about lazy resolution.
Differential Revision: https://phabricator.services.mozilla.com/D33363
This changes CreateClippedDrawTarget so that instead of taking
a max size and a transform it just takes a user space rect of
the desired bounds.
This change allows the caller to not worry about the computing
a max size based on the current clip. Instead this responsibility
is lowered into the specific backends.
The main motivation for this work is to allow blob recoordination
to create recordings that don't depend on the current clip.
Some additional benefits are that the API is easier to use and
as can be seen simplifies the SVG masking code because it doesn't
need to track surface offsets manually.
It's also an important step towards removing all the uses of
gfxContext::GetClipExtents which will let us get rid of the separate
clipping stack in gfxContext and help us move off of gfxContext
completely.
Most backend implementations of CreateClippedDrawTarget are relatively
simple. DrawTargetCapture is modified to track the current clip rect
so that it can create a new DrawTargetCapture of the appropriate size
without needing to worry about lazy resolution.
Differential Revision: https://phabricator.services.mozilla.com/D33363
Per our discussion, this patch splits out the state management bits of
WebRenderLayerManager, allowing for them to be maintained per-document.
Differential Revision: https://phabricator.services.mozilla.com/D13577
Badly-behaved consumers of DrawTargetRecording can trigger recording of
draw calls that will fail to allocate required draw targets when the
recording is replayed. This patch tries to guard against this by
detecting these situations at record-time rather than crashing at
replay-time. When such a situation is detected, it will crash (for
content processes, to catch such scenarios) or gracefully fail (for
other processes).
Differential Revision: https://phabricator.services.mozilla.com/D11527
The clipping code uses gfxContext::GetClipExtents which calls gfxContext::GetDeviceOffset
and DrawTarget::GetSize. The former was previously not being intialized, while the latter
was explicitly unimplemented. This patch fixes both of those facts.
Otherwise, enabling this functionality has been made trivial by several upstream patches
in webrender (the most recent being glenn's work on unifying shadows which eliminated
the buggy text-shadow shader code that was blocking this).
MozReview-Commit-ID: B1AlG3o4XQS
