| commit | fa9a0d295928c5a9703662601e1b19facc244822 | [log] [tgz] |
|---|---|---|
| author | Tim Wawrzynczak <twawrzynczak@chromium.org> | Fri Sep 09 11:09:09 2022 -0600 |
| committer | Nico Huber <nico.h@gmx.de> | Sat Jun 06 10:28:13 2026 +0000 |
| tree | 55cf3afd92e58b01dc85fbd7e175e1c45fd22e24 | |
| parent | 5473d291709b767af6555898cdc04d0a1dfbc290 [diff] |
gma tgl: Add port detection Block TCCOLD during initialization so that Modular FIA registers can be accessed. Instead of keeping track of the state of TCCOLD all of the time (and enabling and re-enabling), this patch just blocks TCCOLD once during initializaton and leaves it that way. We don't have any knowledge yet if a TC port is used in legacy DP/HDMI mode or not, so we always handle hotplug events in both hardware blocks. Signed-off-by: Tim Wawrzynczak <twawrzynczak@chromium.org> Change-Id: I674e7c2dcd7738e3d76266ff36675dbd52fa5ae2 Reviewed-on: https://review.sourcearcade.org/c/libgfxinit/+/470 Tested-by: Nico Huber <nico.h@gmx.de> Reviewed-by: Nico Huber <nico.h@gmx.de> Tested-by: Ada SPARK <gnatbot@sourcearcade.org> Reviewed-by: Angel Pons <th3fanbus@gmail.com>
libgfxinit is a graphics initialization (aka modesetting) library for embedded environments. It currently supports only Intel hardware, more specifically the Intel Core processor line.
It can query and set up most kinds of displays based on their EDID information. You can, however, also specify particular mode lines.
libgfxinit is written in SPARK, an Ada subset with formal verification aspects. Absence of runtime errors can be proved automatically with SPARK GPL 2016.
For compilation, the GNAT Ada compiler is required. Usual package names in Linux distributions are gcc-ada and gnat.
You'll need libhwbase and libgfxinit. Best is to clone the repositories into a common parent directory (this way libgfxinit will know where to find libhwbase).
$ mkdir gfxfun && cd gfxfun $ git clone https://review.coreboot.org/p/libhwbase.git $ git clone https://review.coreboot.org/p/libgfxinit.git
Both libraries are currently configured by hand-written config files. You can either write your own .config, link one of the shipped files in configs/, e.g.:
$ ln -s configs/linux libhwbase/.config
or overwrite the config filename by specifying cnf=<configfile> on the make command line.
By default most debug messages won't be compiled into the binary. To include them into the build, set DEBUG=1 on the command line or in your .config.
Let's install libhwbase. We'll need configs/linux to build regular Linux executables:
$ cd libhwbase $ make DEBUG=1 cnf=configs/linux install
By default this installs into a new subdirectory dest. You can however overwrite this decision by specifying DESTDIR=.
gfx_testlibgfxinit is configured and installed in the same manner as described above. You will have to select a configuration matching your hardware.
The makefile knows an additional target gfx_test to build a small Linux test application:
$ cd ../libgfxinit $ make DEBUG=1 cnf=configs/sandybridge gfx_test
The resulting binary is build/gfx_test.
gfx_test sets up its own framebuffer in the stolen memory. It backs any current framebuffer mapping and contents up first and restores it before exiting. This works somehow even while the i915 driver is running. A wrapper script gfxtest/gfx_test.sh is provided to help with the setup. It switches to a text console first and tries to unload the i915 driver. But ignores failures to do so (it won't work if you still have any application running that uses the gfx driver, e.g. an X server).
# gfxtest/gfx_test.sh
If you chose the right config above, you should be presented with a nice test image. But please be prepared that your console might be stuck in that state afterwards. You can try to run it with i915 deactivated then (e.g. when booting with nomodeset in the kernel command line or with i915 blacklisted) and loading it afterwards.