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Difference between revisions of "Uvesafb"
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== v86d == | == v86d == | ||
{{Package|sys-apps/v86d}} is the userspace helper that runs x86 code in emulated environment. Uvesafb will not work without v86d. | {{Package|sys-apps/v86d}} is the userspace helper that runs x86 code in emulated environment. Uvesafb will not work without v86d. Emerge <code>v86d</code>: | ||
<console> | <console> | ||
###i## emerge v86d | ###i## emerge v86d |
Revision as of 02:14, August 2, 2014
How to : Framebuffer: Userspace VESA VGA graphics support
Uvesafb is an improved framebuffer driver for Linux systems with some enhancements compared to vesa. Uvesafb can allow you to get a full-resolution console, even if you have installed a graphics driver that does not support full-resolution consoles. Examples of drivers like these: ati-drivers and NVidia-drivers.
Kernel configuration
Before we emerge the required packages for uvesafb functionality, we have to configure the kernel properly.
This section is in need of updates.
Device Drivers -> <*> Connector - unified userspace <-> kernelspace linker ---> Graphics support -> [*] Support for frame buffer devices ---> [*] Enable firmware EDID Console display driver support -> [*] Video mode selection support [*] Video mode handling helpers Frame buffer hardware drivers [*] Userspace VESA VGA graphics support
Build the kernel (make), do not install the kernel and modules ( make install modules_install). You can choose uvesafb as a module, unlike vesa.
Klibc
Next, we emerge No results. Klibc has to be compiled against a kernel that includes uvesafb support. This only has to be done once:
root # emerge klibc
v86d
No results is the userspace helper that runs x86 code in emulated environment. Uvesafb will not work without v86d. Emerge v86d
:
root # emerge v86d
Back to kernel configuration
Reconfigure the kernel to include /usr/share/v86d/initramfs as an initramfs source file:
General Setup-> [*] Initial RAM filesystem and RAM disk (initramfs/initrd) support (/usr/share/v86d/initramfs) Initramfs source file(s)
Rebuild the kernel: make and install it, install the modules
Bootloader configuration
If you compiled uvesafb into the kernel (not as a module), you can configure its behavior by editing the 'params += ' line in /etc/boot.conf. Below, some of the more common switches used with uvesafb are explained.
- video=uvesafb:<screen y-res>x<screen x-res>-<color depth>: Tells the kernel that you want to use the uvesafb driver for console output. Also specifies that you will be using uvesafb at a set x-screen resolution, y screen-resolution, and color depth. Set the first part to the size of your screen (in pixels). For example, if I had a 1920x1080 screen and wanted a color depth of 32, I would add the following: video=uvesafb:1920x1080-32
- mtrr:x: X represents the number 0 or 3. This option allows you to set up the memory type range registers for uvesafb. Setting x=0 disables mtrr and setting x=3 enables mtrr. x=3 is the default setting for this switch. mtrr:3 is recommended.
- ywrap: Add support for display panning. Recommended.
For more information regarding these switches, check out http://www.mjmwired.net/kernel/Documentation/fb/uvesafb.txt
Now that you have a basic understanding of these different switches, configure your /etc/boot.conf:
/etc/boot.conf
boot {
generate grub
default "Funtoo Linux: uvesafb"
timeout 3
}
"Funtoo Linux: uvesafb" {
kernel bzImage[-v]
params += video=uvesafb:1920x1080-32,mtrr:3,ywrap
}
Realize that the configuration in the above file will not work on every computer. You must change the resolution (and possibly other switches) to best suite your needs.
After you have finished editing your /etc/boot.conf, run the following:
root # boot-update
finally, reboot your computer so that you can test out uvesafb:
root # reboot