src/parsec/disk-image/parsec/parsec-benchmark/pkgs/libs/mesa/src/docs/fbdev-dri.html - public/gem5-resources - Git at Google

 <html><head><title>Mesa fbdev/DRI Environment</title>


 <link rel="stylesheet" type="text/css" href="mesa.css"></head>

 <body>

 <center><h1>Mesa fbdev/DRI Drivers</h1></center>
 <br>

 <h1>1. Introduction</h1>

 <p>
 The fbdev/DRI environment supports hardware-accelerated 3D rendering without
 the X window system.  This is typically used for embedded applications.
 </p>

 <p>
 Contributors to this project include Jon Smirl, Keith Whitwell and Dave Airlie.
 </p>

 <p>
 Applications in the fbdev/DRI environment use
 the <a href="http://www.nabble.com/file/p15480666/MiniGXL.html"> MiniGLX</a> interface to choose pixel
 formats, create rendering contexts, etc.  It's a subset of the GLX and
 Xlib interfaces allowing some degree of application portability between
 the X and X-less environments.
 </p>

 <p>
 Note that this environment is not well-supported and these instructions
 may not be completely up to date.
 </p>
 <br>


 <h1>2. Compilation</h1>
 <p>

 <h2>2.1 glxproto</h2>

 Get <a href="http://cvsweb.xfree86.org/cvsweb/*checkout*/xc/include/GL/glxproto.h?rev=1.9">glxproto.h</a>. Copy it to the /mesa/include/GL/ directory.
 </p>

 <h2>2.2 libpciaccess</h2>
 <p>
 Check if you have libpciaccess installed:
 </p>

 <pre>pkg-config --modversion pciaccess
 </pre>
 <p>
 If not you can download the latest code from:
 </p>
 <pre>   git clone git://anongit.freedesktop.org/git/xorg/lib/libpciaccess
 </pre>
 <p>
 Run autogen.sh to generate a configure file. autogen.sh uses autoconf
 utility. This utility may not be installed with your linux distro,
 check if it is available. if not you can use your package manager or
 type:
 </p>
 <pre>sudo apt-get install autoconf
 </pre>
 The next step is to install the libpciaccess library.
 <pre>make
 make install
 </pre>
 <p> Now your libpciaccess.a file is saved into /usr/local/lib
 directory. If you have a libpciaccess.a in /usr/lib you may simply copy
 and overwrite these files. Don't forget to copy libpciaccess.pc file to
 /usr/lib/pkgconfig, which is also located in /usr/local/lib/pkgconfig/.
 Or you may use the following system variables:
 </p>
 <pre>export LD_LIBRARY_PATH=/usr/local/lib
 export PKG_CONFIG_PATH=/usr/local/lib/pkgconfig
 </pre>

 <h2>2.3 drm</h2>

 <p>The next step is to compile the drm. DRM consists of two seperate parts,
 the DRM client library(lindrm.so) and kernel device module(such as
 radeon.ko). We need to make a small change in kernel device module. So
 you need to download the kernel source. You may choose the nearest
 mirror from www.kernel.org, or you are using Fedora Core 5, for
 example, you may need to install RPMs such as:
 kernel-smp-devel-2.16.15-1.2054_FC5.i686.rpm
 kernel-devel-2.6.15-1.2054_FC5.i686.rpm
 etc. You can find a detailed information <a href="http://www.howtoforge.com/kernel_compilation_fedora">here.</a>
 </p>

 <p>You will find drm_drv.c at /usr/src/LINUX-VERSION/drivers/char/drm/. Edit this code and comment out the following part:
 </p>

 <pre>
    /* ||
    ((ioctl-&gt;flags &amp; DRM_MASTER) &amp;&amp; !priv-&gt;master)*/
 </pre>
 Now you are ready to compile your kernel. If your kernel version is
 identical to the version you have compiled, you can simply over write
 your new "ko" files over older ones. If you have compiled a different
 kernel, you must configure your grub or lilo to be able to boot your
 new kernel. <p>
 You'll need fbdev header files.  Check with:
 </p>
 <pre>
    ls -l /usr/include/linux/fb.
 </pre>
 <p>This file may be missing if you have not installed linux header files.


 <h2>2.4 Mesa</h2>

 </p><p>Get latest development Mesa sources from git repository
 (currently 7.1-prerelease)
 </p>
 <pre>
    git clone git://anongit.freedesktop.org/git/mesa/mesa
 </pre>

 <p>You will need the makedepend utility which is a part of mesa project
 to build your linux-solo. You probably wont have this utility. You can
 download its source from following git repulsitory:
 </p>
 <pre>
    git clone git://anongit.freedesktop.org/git/xorg/util/makedepend
 </pre>

 <p>Get the latest stable mesa version from SourceForge (currently 7.0.3)
 <a href="http://sourceforge.net/project/showfiles.php?group_id=3">http://sourceforge.net/project/showfiles.php?group_id=3</a>
 </p>

 <p>Copy the miniglx folder from 7.1-prerelease to 7.0.3.
 You may also extract GLUT to 7.0.3 version at this step.
 </p>

 <p>Edit linux-solo.conf at /conf directory, just only compile the
 graphics driver you need, delete the unwanted drivers names from the
 list(some drivers are causing problems...)
 </p>
 <pre>
    while(build==0)
    {
      make linux-solo

      There will be some missing header files, copy them from 7.1-prerelease
    }
 </pre>

 <p>
 When complete you should have the following:
 </p>
 <ul>
 <li>lib/libGL.so - the GL library which applications link with
 </li><li>lib/*_dri_so - DRI drivers
 </li><li>lib/miniglx.conf - sample MiniGLX config file
 </li><li>progs/miniglx/* - several MiniGLX sample programs
 </li></ul>

 To install these files into appropriate locations in system:
 <pre>
    make install
 </pre>

 Now your openGL libraries are copied to /usr/local/lib and
 miniglx.conf is copied to /etc. You may copy them to /usr/lib and
 overwrite your old GL libraries. Or you may export following variable:

 <pre>
    export LIBGL_DRIVERS_PATH=/usr/local/lib
 </pre>
 <br>


 <h1>3. Using fbdev/DRI</h1>

 <p>
 If an X server currently running, exit/stop it so you're working from
 the console. Following command shuts down the x window and also the multi user support.
 </p>
 <pre>
    init 1
 </pre>

 <p>Also you may define the runlevel as 1 in "/etc/inittab". Your system
 will always start in single user mode and without x-window with this
 option set.
 </p><h2>3.1 Load Kernel Modules</h2>

 <p>
 You'll need to load the kernel modules specific to your graphics hardware.
 Typically, this consists of the agpgart module, an fbdev driver module
 and the DRM kernel module.
 </p>
 <p>
 As root, the kernel modules can be loaded as follows:
 </p>

 <p>
 If you have Intel i915/i945 hardware:
 </p>
 <pre>   modprobe agpgart            # the AGP GART module
    modprobe intelfb            # the Intel fbdev driver
    modprobe i915               # the i915/945 DRI kernel module
 </pre>

 <p>
 If you have ATI Radeon/R200 hardware:
 </p>
 <pre>   modprobe agpgart            # the AGP GART module
    modprobe radeonfb           # the Radeon fbdev driver
    modprobe radeon             # the Radeon DRI kernel module
 </pre>

 <p>
 If you have ATI Rage 128 hardware:
 </p>
 <pre>   modprobe agpgart            # the AGP GART module
    modprobe aty128fb           # the Rage 128 fbdev driver
    modprobe r128               # the Rage 128 DRI kernel module
 </pre>

 <p>
 If you have Matrox G200/G400 hardware:
 </p>
 <pre>   modprobe agpgart            # the AGP GART module
    modprobe mgafb              # the Matrox fbdev driver
    modprobe mga                # the Matrox DRI kernel module
 </pre>

 <p>
 To verify that the agpgart, fbdev and drm modules are loaded:
 </p>
 <pre>   ls -l /dev/agpgart /dev/fb* /dev/dri
 </pre>
 <p>
 Alternately, use lsmod to inspect the currently installed modules.
 If you have problems, look at the output of dmesg.
 </p>


 <h2>3.2 Configuration File</h2>

 <p>
 review/edit /etc/miniglx.conf.
 Alternately, the MINIGLX_CONF environment variable can be used to
 indicate the location of miniglx.conf
 </p>

 To determine the pciBusID value, run lspci and examine the output.
 For example:
 <p></p>
 <pre>   /sbin/lspci:
    00:02.0 VGA compatible controller: Intel Corporation 82915G/GV/910GL Express Chipset Family Graphics Controller (rev 04)
 </pre>
 <p>
 00:02.0 indicates that pciBusID should be PCI:0:2:0
 </p>


 <h2>3.3 Running fbdev/DRI Programs</h2>

 <p>
 Make sure your LD_LIBRARY_PATH environment variable is set to the
 location of the libGL.so library.  You may need to append other paths
 to LD_LIBRARY_PATH if libpciaccess.so is in a non-standard location,
 for example.
 </p>

 <p>
 Change to the <code>Mesa/progs/miniglx/</code> directory and
 start the sample_server program in the background:
 </p>
 <pre>   ./sample_server &amp;
 </pre>

 <p>
 Then try running the <code>miniglxtest</code> program:
 </p>
 <pre>   ./miniglxtest
 </pre>
 <p>
 You should see a rotating quadrilateral which changes color as it rotates.
 It will exit automatically after a bit.
 </p>

 <p>
 If you run other tests in the miniglx/ directory, you may want to run
 them from a remote shell so that you can stop them with ctrl-C.
 </p>
 <br>


 <h1>4.0 Troubleshooting</h1>

 <ol>
 <li>
 If you try to run miniglxtest and get the following:
 <br>
 <pre>   [miniglx] failed to probe chipset
    connect: Connection refused
    server connection lost
 </pre>
 It means that the sample_server process is not running.
 <br>
 <br>
 </li>
 </ol>


 <h1>5.0 Programming Information</h1>

 <p>
 OpenGL/Mesa is interfaced to fbdev via the <a href="http://www.nabble.com/file/p15480666/MiniGLX.html">MiniGLX</a>
 interface.
 MiniGLX is a subset of Xlib and GLX API functions which provides just
 enough functionality to setup OpenGL rendering and respond to simple
 input events.
 </p>

 <p>
 Since MiniGLX is a subset of the usual Xlib and GLX APIs, programs written
 to the MiniGLX API can also be run on full Xlib/GLX implementations.
 This allows some degree of flexibility for software development and testing.
 </p>

 <p>
 However, the MiniGLX API is not binary-compatible with full Xlib/GLX.
 Some of the structures are different and some macros/functions work
 differently.
 See the <code>GL/miniglx.h</code> header file for details.
 </p>


 </body>
 </html>
	<html><head><title>Mesa fbdev/DRI Environment</title>



	<link rel="stylesheet" type="text/css" href="mesa.css"></head>

	<body>

	<center><h1>Mesa fbdev/DRI Drivers</h1></center>
	<br>

	<h1>1. Introduction</h1>

	<p>
	The fbdev/DRI environment supports hardware-accelerated 3D rendering without
	the X window system. This is typically used for embedded applications.
	</p>

	<p>
	Contributors to this project include Jon Smirl, Keith Whitwell and Dave Airlie.
	</p>

	<p>
	Applications in the fbdev/DRI environment use
	the <a href="http://www.nabble.com/file/p15480666/MiniGXL.html"> MiniGLX</a> interface to choose pixel
	formats, create rendering contexts, etc. It's a subset of the GLX and
	Xlib interfaces allowing some degree of application portability between
	the X and X-less environments.
	</p>

	<p>
	Note that this environment is not well-supported and these instructions
	may not be completely up to date.
	</p>
	<br>



	<h1>2. Compilation</h1>
	<p>

	<h2>2.1 glxproto</h2>

	Get <a href="http://cvsweb.xfree86.org/cvsweb/checkout/xc/include/GL/glxproto.h?rev=1.9">glxproto.h</a>. Copy it to the /mesa/include/GL/ directory.
	</p>

	<h2>2.2 libpciaccess</h2>
	<p>
	Check if you have libpciaccess installed:
	</p>

	<pre>pkg-config --modversion pciaccess
	</pre>
	<p>
	If not you can download the latest code from:
	</p>
	<pre> git clone git://anongit.freedesktop.org/git/xorg/lib/libpciaccess
	</pre>
	<p>
	Run autogen.sh to generate a configure file. autogen.sh uses autoconf
	utility. This utility may not be installed with your linux distro,
	check if it is available. if not you can use your package manager or
	type:
	</p>
	<pre>sudo apt-get install autoconf
	</pre>
	The next step is to install the libpciaccess library.
	<pre>make
	make install
	</pre>
	<p> Now your libpciaccess.a file is saved into /usr/local/lib
	directory. If you have a libpciaccess.a in /usr/lib you may simply copy
	and overwrite these files. Don't forget to copy libpciaccess.pc file to
	/usr/lib/pkgconfig, which is also located in /usr/local/lib/pkgconfig/.
	Or you may use the following system variables:
	</p>
	<pre>export LD_LIBRARY_PATH=/usr/local/lib
	export PKG_CONFIG_PATH=/usr/local/lib/pkgconfig
	</pre>

	<h2>2.3 drm</h2>

	<p>The next step is to compile the drm. DRM consists of two seperate parts,
	the DRM client library(lindrm.so) and kernel device module(such as
	radeon.ko). We need to make a small change in kernel device module. So
	you need to download the kernel source. You may choose the nearest
	mirror from www.kernel.org, or you are using Fedora Core 5, for
	example, you may need to install RPMs such as:
	kernel-smp-devel-2.16.15-1.2054_FC5.i686.rpm
	kernel-devel-2.6.15-1.2054_FC5.i686.rpm
	etc. You can find a detailed information <a href="http://www.howtoforge.com/kernel_compilation_fedora">here.</a>
	</p>

	<p>You will find drm_drv.c at /usr/src/LINUX-VERSION/drivers/char/drm/. Edit this code and comment out the following part:
	</p>

	<pre>
	/* \|\|
	((ioctl->flags & DRM_MASTER) && !priv->master)*/
	</pre>
	Now you are ready to compile your kernel. If your kernel version is
	identical to the version you have compiled, you can simply over write
	your new "ko" files over older ones. If you have compiled a different
	kernel, you must configure your grub or lilo to be able to boot your
	new kernel. <p>
	You'll need fbdev header files. Check with:
	</p>
	<pre>
	ls -l /usr/include/linux/fb.
	</pre>
	<p>This file may be missing if you have not installed linux header files.


	<h2>2.4 Mesa</h2>

	</p><p>Get latest development Mesa sources from git repository
	(currently 7.1-prerelease)
	</p>
	<pre>
	git clone git://anongit.freedesktop.org/git/mesa/mesa
	</pre>

	<p>You will need the makedepend utility which is a part of mesa project
	to build your linux-solo. You probably wont have this utility. You can
	download its source from following git repulsitory:
	</p>
	<pre>
	git clone git://anongit.freedesktop.org/git/xorg/util/makedepend
	</pre>

	<p>Get the latest stable mesa version from SourceForge (currently 7.0.3)
	<a href="http://sourceforge.net/project/showfiles.php?group_id=3">http://sourceforge.net/project/showfiles.php?group_id=3</a>
	</p>

	<p>Copy the miniglx folder from 7.1-prerelease to 7.0.3.
	You may also extract GLUT to 7.0.3 version at this step.
	</p>

	<p>Edit linux-solo.conf at /conf directory, just only compile the
	graphics driver you need, delete the unwanted drivers names from the
	list(some drivers are causing problems...)
	</p>
	<pre>
	while(build==0)
	{
	make linux-solo

	There will be some missing header files, copy them from 7.1-prerelease
	}
	</pre>

	<p>
	When complete you should have the following:
	</p>
	<ul>
	<li>lib/libGL.so - the GL library which applications link with
	</li><li>lib/*_dri_so - DRI drivers
	</li><li>lib/miniglx.conf - sample MiniGLX config file
	</li><li>progs/miniglx/* - several MiniGLX sample programs
	</li></ul>

	To install these files into appropriate locations in system:
	<pre>
	make install
	</pre>

	Now your openGL libraries are copied to /usr/local/lib and
	miniglx.conf is copied to /etc. You may copy them to /usr/lib and
	overwrite your old GL libraries. Or you may export following variable:

	<pre>
	export LIBGL_DRIVERS_PATH=/usr/local/lib
	</pre>
	<br>


	<h1>3. Using fbdev/DRI</h1>

	<p>
	If an X server currently running, exit/stop it so you're working from
	the console. Following command shuts down the x window and also the multi user support.
	</p>
	<pre>
	init 1
	</pre>

	<p>Also you may define the runlevel as 1 in "/etc/inittab". Your system
	will always start in single user mode and without x-window with this
	option set.
	</p><h2>3.1 Load Kernel Modules</h2>

	<p>
	You'll need to load the kernel modules specific to your graphics hardware.
	Typically, this consists of the agpgart module, an fbdev driver module
	and the DRM kernel module.
	</p>
	<p>
	As root, the kernel modules can be loaded as follows:
	</p>

	<p>
	If you have Intel i915/i945 hardware:
	</p>
	<pre> modprobe agpgart # the AGP GART module
	modprobe intelfb # the Intel fbdev driver
	modprobe i915 # the i915/945 DRI kernel module
	</pre>

	<p>
	If you have ATI Radeon/R200 hardware:
	</p>
	<pre> modprobe agpgart # the AGP GART module
	modprobe radeonfb # the Radeon fbdev driver
	modprobe radeon # the Radeon DRI kernel module
	</pre>

	<p>
	If you have ATI Rage 128 hardware:
	</p>
	<pre> modprobe agpgart # the AGP GART module
	modprobe aty128fb # the Rage 128 fbdev driver
	modprobe r128 # the Rage 128 DRI kernel module
	</pre>

	<p>
	If you have Matrox G200/G400 hardware:
	</p>
	<pre> modprobe agpgart # the AGP GART module
	modprobe mgafb # the Matrox fbdev driver
	modprobe mga # the Matrox DRI kernel module
	</pre>

	<p>
	To verify that the agpgart, fbdev and drm modules are loaded:
	</p>
	<pre> ls -l /dev/agpgart /dev/fb* /dev/dri
	</pre>
	<p>
	Alternately, use lsmod to inspect the currently installed modules.
	If you have problems, look at the output of dmesg.
	</p>


	<h2>3.2 Configuration File</h2>

	<p>
	review/edit /etc/miniglx.conf.
	Alternately, the MINIGLX_CONF environment variable can be used to
	indicate the location of miniglx.conf
	</p>

	To determine the pciBusID value, run lspci and examine the output.
	For example:
	<p></p>
	<pre> /sbin/lspci:
	00:02.0 VGA compatible controller: Intel Corporation 82915G/GV/910GL Express Chipset Family Graphics Controller (rev 04)
	</pre>
	<p>
	00:02.0 indicates that pciBusID should be PCI:0:2:0
	</p>




	<h2>3.3 Running fbdev/DRI Programs</h2>

	<p>
	Make sure your LD_LIBRARY_PATH environment variable is set to the
	location of the libGL.so library. You may need to append other paths
	to LD_LIBRARY_PATH if libpciaccess.so is in a non-standard location,
	for example.
	</p>

	<p>
	Change to the <code>Mesa/progs/miniglx/</code> directory and
	start the sample_server program in the background:
	</p>
	<pre> ./sample_server &
	</pre>

	<p>
	Then try running the <code>miniglxtest</code> program:
	</p>
	<pre> ./miniglxtest
	</pre>
	<p>
	You should see a rotating quadrilateral which changes color as it rotates.
	It will exit automatically after a bit.
	</p>

	<p>
	If you run other tests in the miniglx/ directory, you may want to run
	them from a remote shell so that you can stop them with ctrl-C.
	</p>
	<br>


	<h1>4.0 Troubleshooting</h1>

	<ol>
	<li>
	If you try to run miniglxtest and get the following:
	<br>
	<pre> [miniglx] failed to probe chipset
	connect: Connection refused
	server connection lost
	</pre>
	It means that the sample_server process is not running.
	<br>
	<br>
	</li>
	</ol>


	<h1>5.0 Programming Information</h1>

	<p>
	OpenGL/Mesa is interfaced to fbdev via the <a href="http://www.nabble.com/file/p15480666/MiniGLX.html">MiniGLX</a>
	interface.
	MiniGLX is a subset of Xlib and GLX API functions which provides just
	enough functionality to setup OpenGL rendering and respond to simple
	input events.
	</p>

	<p>
	Since MiniGLX is a subset of the usual Xlib and GLX APIs, programs written
	to the MiniGLX API can also be run on full Xlib/GLX implementations.
	This allows some degree of flexibility for software development and testing.
	</p>

	<p>
	However, the MiniGLX API is not binary-compatible with full Xlib/GLX.
	Some of the structures are different and some macros/functions work
	differently.
	See the <code>GL/miniglx.h</code> header file for details.
	</p>



	</body>
	</html>