miTrapezoids creates an alpha pixmap and initializes the contents
using PolyFillRect, which causes the pixmap to be moved in for
acceleration. The subsequent call to RasterizeTrapezoid won't be
accelerated by EXA, which causing the pixmap to be moved back out
again.
By wrapping Trapezoids and using ExaCheckPolyFillRect instead of
PolyFillRect to initialize the pixmap, we avoid this roundtrip.
Instead of system-memory data which prevents accelerated
compositing of glyphs, (at least without forcing an upload
of the glyph data before compositing).
* Support planemasks, different ALUs and arbitrary tile origin.
* Leave damage tracking and non-trivial fallbacks to callers.
* Always migrate for fallbacks.
This is in preparation for using these from more other functions.
This is a new behavior for version 2.1 of EXA, and only takes effect if the
driver has requested that. Otherwise, the previous behavior remains the same.
Mostly due to exaDrawableDirty() now calculating the backing pixmap coordinates
internally, for cases where they aren't trivially known. There's a new
exaPixmapDirty() function for the other cases.
one behaves somewhat between Greedy and Always. It moves in if we can
accelerate, unless the destination is clean and shouldn't be kept in
framebuffer according to the score, in which case we migrate out (and
force-migrate anything where migration is free). This should help fix
lack of acceleration for drivers without UTS since removing
exaAsyncPixmapGCOps, and has removed one performance trap with Radeon
I'd noticed. It is the new default.
implementation to avoid unprepared access to the tile. Also, relocate
the fbGetDrawable to avoid using a stale dest pointer after
exaSolidBoxClipped() may have migrated it. Revealed by xtest.
devPrivate.ptr when pointing at offscreen memory, outside of
exaPrepare/FinishAccess(). This was used with fakexa to find (by NULL
dereference) many instances of un-Prepared CPU access to the
framebuffer:
- GC tiles used in several ops when fillStyle == FillTiled were never
Prepared.
- Migration could lead to un-Prepared access to mask data in render's
Trapezoids and Triangles
- PutImage's UploadToScreen failure fallback failed to Prepare.
plug in the accelerated one, even if the destination pixmap is
currently offscreen. This was a leftover from when kaa originally got
accelerated offscreen pixmap support, and its only concievable use was
to avoid a little overhead on ops to in-system pixmaps that weren't
going to get migrated. At this point, we probably care more about just
getting everything accelerated that we easily can, which should happen
with the new migration support.
ZPixmap, planeMask ~= FB_ALLONES, bitsPerPixel >= 8 case. I'm pretty
convinced that this is the only case that we care about at all. Tested
with xwd -root and xwd on a gnome-terminal, in a composited environment
or not.
pixmap, and damage is tracked so that a later exaMoveInPixmap won't
result in an upload if no upload is necessary. This will likely improve
the performance of the "Always" migration scheme significantly, and is
a step in the path to more exact damage tracking between framebuffer
and system memory.
desired location always (unless they don't fit in FB, in which case
they all get moved out for software rendering). The default remains as
before, but can be controlled by the MigrationHeuristic xorg.conf
option (which is intentionally not documented, as it may be
short-lived). This is part of the exa-damagetrack work, which appears
stable in testing with fakexa, unlike the work as a whole.
manual conversion to allow for different migration schemes to be
implemented reasonably, but does include some minor improvements such
as accounting for pinned pixmaps not being acceleratable, and for our
current GetImage and GetSpans not being accelerated.
corresponding pieces of exa-driver.txt, which were becoming stale.
Hopefully the documentation will stay much more up-to-date this way.
Many thanks to jbarnes for writing exa-driver.txt which was used a lot
in writing this documentation.
dependencies. It was nearly abstract enough already to be used by
multiple DDXes. This will be useful for EXA development through
providing a fake acceleration implementation within Xephyr, so that
testing can be done on new EXA code without worrying about buggy
drivers.
pixmaps's contents are undefined, so we won't need to upload the
undefined contents in MoveIn. Use the ExaCheck* for async ops as well,
so that dirty is always tracked. While the performance impact for my ls
-lR test was not significant (though the avoiding-upload path was being
hit), it's likely to be important for the upcoming Get/PutImage
acceleration from ajax.
particularly thanks to Prepare/FinishAccess) to avoid DFS/memcpy on
pixmap move-out if it's unnecessary. This was disabled in KAA because
cache misuse on ATI made me guess that this code was wrong.
- Unwrap Glyphs on closescreen.
than the max, it was bumped, and then if you were above the threshhold
you got moved in. Instead, do the above-threshhold check separate from
score starting out less than max. While this will likely make thrashing
cases worse, I hope it will fix some issues with long term performance
(think of an xcompmgr with a backbuffer it's doing only accelerated
operations to. If some new pixmap comes in and bumps it out, even once,
it will never get a chance to re-migrate because its score will be
maxed). Change migration-out to be the same way for symmetry, though it
shouldn't ever affect anything.
- Fix a lot of debugging output, both in terms of printing quality, and
completeness. The fallback debugging covers a lot more now, pointing
out new areas for improvement. Debugging toggles are now centralized in
exaPriv.h.
RADEONHostDataBlit.
- Disable the shortcut for switching from 3d to 3d in radeon_exa.c. It
appears that we do need the cache flush here, thought it's not clear
why. Disable the 2d to 2d shortcut while here, since I'm unsure of what
we're doing. Exposed by the following bit:
- Bug #4485: Add a new routine, exaGlyphs, to handle font drawing. Glyphs
were being accumulated in from non-migratable scratch pixmaps, causing
the destination pixmap to move towards screen but the migration
necessary for source never to happen, leading to abysmal performance.
Instead, copy the scratch glyph data into a real pixmap first, then
composite from that into the destination, allowing for migration. time
ls -lR from programs/Xserver showed 26.9% (+/- 6.3%) decrease in wall
time (n=3).
- Create exaDrawableUse* wrapping exaPixmapUse*, but which are aware of
windows needing backing store. Makes migration code prettier, and
ensures that composited windows will be migrated as normal when we turn
off cw for EXA. (issue brought up by keithp)
around CPU access to the framebuffer. This allows the hardware to set
up swappers to deal with endianness, or to tell EXA to move the pixmap
out to framebuffer if insufficient swappers are available (note: must
not fail on front buffer!).
Submitted by: benh
Now, if either source or dest were in framebuffer, try to get both
there, but prefer system memory for both otherwise. Required making
exaasync.c go through the try-acceleration path. This significantly
improves window resizing under composite, because previously the
pattern of creating a new pixmap and copying default contents from the
screen caused a fallback every time due to the new destination pixmap
being in system memory.