Beyond Linux^® From Scratch (System V Edition) - Version 12.2

Chapter 24. Graphical Environments

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Mesa-24.1.5

Introduction to Mesa

Mesa is an OpenGL compatible 3D graphics library.

[Note]

Note

Mesa is updated relatively often. You may want to use the latest available 24.1.x mesa version.

This package is known to build and work properly using an LFS 12.2 platform.

Package Information

Download (HTTP): https://mesa.freedesktop.org/archive/mesa-24.1.5.tar.xz
Download MD5 sum: 0f4de2192e63b438637b98937ac85a10
Download size: 28 MB
Estimated disk space required: 825 MB (with docs, add 496 MB for tests)
Estimated build time: 4.1 SBU (with docs; add 1.4 SBU for tests; both with parallelism=4)

Additional Downloads

Recommended patch: https://www.linuxfromscratch.org/patches/blfs/12.2/mesa-add_xdemos-2.patch (installs 2 demo programs for testing Mesa - not needed if you install the mesa-demos package)

Mesa Dependencies

Required

Xorg Libraries, libdrm-2.4.122, and Mako-1.3.5

Recommended

Glslang-14.3.0 (required for Vulkan support)
libva-2.22.0 (to provide VA-API support for some gallium drivers. Note that there is a circular dependency. You must build libva first without mesa's EGL and GLX support, install this package, and rebuild libva)
libvdpau-1.5 (to build VDPAU drivers)
LLVM-18.1.7 (required for the r300, r600, and radeonsi drivers, and the LLVMpipe software rasterizer which can make the swrast driver much faster)
wayland-protocols-1.36 (required for Plasma-6.1.4, GNOME, and recommended for GTK+-3.24.43)
libclc-18.1.7 (required for the Intel iris gallium driver)
Vulkan-Loader-1.3.294 (required for the Zink gallium driver)
ply-3.11 (required for the Intel vulkan driver)
Cbindgen-0.27.0 and rust-bindgen-0.70.0 (required for the Nouveau Vulkan driver)

[Note]

Note

Choosing Mesa Drivers

In the instructions below, all the available drivers are built. That will almost always work. However, it is not efficient. Depending on your video hardware, you probably need only specific drivers.

The first thing you need to know is which type of video device you have. In some cases it is built into the CPU. In others it is a separate PCI card. In either case you can tell what video hardware you have by installing pciutils-3.13.0 and running:

lspci | grep VGA

The video device is most likely one of three families: AMD, Intel, or Nvidia. See the Command Explanations for -D gallium-drivers=auto below to see what options are available for your specific video hardware (or emulated video hardware). You should probably add the swrast option as a backup driver.

For 'platforms' you can select x11 and/or wayland. Note that in BLFS currently only Gnome and KDE can use wayland. If you are not going to use one of those desktop environments then you probably only want x11.

For 'vulkan-drivers' you may want to limit the selection to your current hardware. These drivers are used by some specific applications. For example, ffmpeg (including ffplay) will use Vulkan instead of OpenGL for rendering video on the GPU. If you do not want to do this you may or may not want to install them. See the Command Explanations for -D vulkan-drivers=auto below to see what options are available for your specific video hardware (or emulated video hardware). You should probably add the swrast option as a backup driver unless you don't need Vulkan at all.

Optional

libgcrypt-1.11.0, libunwind-1.6.2, lm-sensors-3-6-0 , Nettle-3.10, Valgrind-3.23.0, mesa-demos (provides more than 300 extra demos to test Mesa; this includes the same programs added by the patch above), Bellagio OpenMAX Integration Layer (for mobile platforms), and libtizonia,

[Note]

Note

An Internet connection is needed for building this package.

Kernel Configuration

Enable the following options in the kernel configuration and recompile the kernel if necessary:

Device Drivers --->
  Graphics support --->
    <*/M> Direct Rendering Manager (XFree86 4.1.0 and higher DRI support) --->
                                                                      ...  [DRM]
      # For r300 or r600:
      < /*/M> ATI Radeon                                            [DRM_RADEON]
      # For radeonsi:
      < /*/M> AMD GPU                                               [DRM_AMDGPU]
      [*]       Enable amdgpu support for SI parts               [DRM_AMDGPU_SI]
      [*]       Enable amdgpu support for CIK parts             [DRM_AMDGPU_CIK]
        Display Engine Configuration --->
        [*]   AMD DC - Enable new display engine                    [DRM_AMD_DC]
      # For nouveau:
      < /*/M> Nouveau (NVIDIA) cards                               [DRM_NOUVEAU]
      # For i915, crocus, or iris:
      < /*/M> Intel 8xx/9xx/G3x/G4x/HD Graphics                       [DRM_I915]
      # For swrast:
      < /*/M> Virtual GEM provider                                    [DRM_VGEM]
      # For svga:
      < /*/M> DRM driver for VMware Virtual GPU                     [DRM_VMWGFX]

[Note]

Note

The corresponding Mesa Gallium3D driver name is provided as the comment for the configuration entries. If you don't know the name of the Mesa Gallium3D driver for your GPU, see Mesa Gallium3D Drivers below.

CONFIG_DRM_RADEON, CONFIG_DRM_AMDGPU, CONFIG_DRM_NOUVEAU, and CONFIG_DRM_I915 may require firmware. See About Firmware for details.

Selecting CONFIG_DRM_RADEON or CONFIG_DRM_AMDGPU as “y” is not recommended. If it is, any required firmware must be built as a part of the kernel image or the initramfs for the driver to function correctly.

The sub-entries under CONFIG_DRM_AMDGPU are used to ensure the AMDGPU kernel driver supports all GPUs using the radeonsi driver. They are not needed if you won't need CONFIG_DRM_AMDGPU itself. They may be unneeded for some GPU models.

For swrast, CONFIG_DRM_VGEM is not strictly needed but recommended as an optimization.

Installation of Mesa

If you have downloaded the xdemos patch (needed if testing the Xorg installation per BLFS instructions), apply it by running the following command:

patch -Np1 -i ../mesa-add_xdemos-2.patch

Install Mesa by running the following commands:

mkdir build &&
cd    build &&

meson setup ..                 \
      --prefix=$XORG_PREFIX    \
      --buildtype=release      \
      -D platforms=x11,wayland \
      -D gallium-drivers=auto  \
      -D vulkan-drivers=auto   \
      -D valgrind=disabled     \
      -D libunwind=disabled    &&

ninja

To test the results, issue: meson configure -D build-tests=true && ninja test.

Now, as the root user:

ninja install

If desired, install the optional documentation by running the following commands as the root user:

cp -rv ../docs -T /usr/share/doc/mesa-24.1.5

Command Explanations

--buildtype=release: This switch ensures a fully-optimized build, and disables debug assertions which will severely slow down the libraries in certain use-cases. Without this switch, build sizes can span into the 2 GB range.

-D gallium-drivers=auto: This parameter controls which Gallium3D drivers should be built:

auto selects all Gallium3D drivers available for x86. With a comma-separated list, only a subset of these drivers will be built. If you precisely know which drivers you need, you can select them explicitly. For example, -D gallium-drivers=radeonsi,iris,swrast.
r300 (for ATI Radeon 9000 or Radeon X series)
r600 (for AMD/ATI Radeon HD 2000-6000 series)
radeonsi (for AMD Radeon HD 7000 or newer AMD GPU models)
nouveau (for supported NVIDIA GPUs, they are listed as all “3D features” either “DONE” or “N/A” in the Nouveau status page)
virgl (for a QEMU virtual GPU with virglrender support; note that BLFS qemu-9.0.2 is not built with virglrender)
svga (for a VMWare virtual GPU)
swrast (using CPU for 3D rasterization. Note that it's much slower than using a modern 3D-capable GPU, so it should be only used if the GPU is not supported by other drivers),
iris (for Intel GPUs shipped with Broadwell or newer CPUs, or as a dedicated PCIe card)
crocus (for Intel GMA 3000, X3000 series, 4000 series, or X4000 series GPUs shipped with chipsets, or Intel HD GPUs shipped with pre-Broadwell CPUs)
i915 (for Intel GMA 900, 950, 3100, or 3150 GPUs shipped with chipsets or Atom D/N 4xx/5xx CPUs)
zink (using Vulkan to implement OpenGL, it's not very useful on x86 as at now but it may replace other drivers for modern GPU models in the future)

-D vulkan-drivers=auto: This parameter controls which Vulkan drivers should be built:

auto selects all Vulkan drivers available for x86. With a comma-separated list, only a subset of these drivers will be built. If you precisely know which drivers you need, you can select them explicitly. For example, -D vulkan-drivers=amd,nouveau,swrast.
amd (for AMD Radeon HD 7730 or newer AMD GPUs)
intel (for Intel GPUs shipped with Skylake or newer CPUs, or as a dedicated PCIe card)
intel_hasvk (for Intel GPUs shipped with Ivy Bridge, Haswell, or Broadwell CPUs)
nouveau (for GTX 16XX, RTX 20XX, or newer NVIDIA GPUs)
swrast (for using the CPU for 3D rasterization) Note that it's much slower than using a modern 3D-capable GPU, so it should be only used if the GPU is not supported by other drivers.
"" (empty list, use -D vulkan-drivers="" if you've not installed and you don't plan to install Vulkan-Loader-1.3.294)

-D platforms=...: This parameter controls which windowing systems will be supported. Available linux platforms are x11 and wayland.

-D valgrind=disabled: This parameter disables the usage of Valgrind during the build process. Remove this parameter if you have Valgrind installed, and wish to check for memory leaks.

-D libunwind=disabled: This parameter disables the usage of libunwind.

meson configure -D build-tests=true: This command will reconfigure the build to set -D build-tests=true, but keep the other options specified in the meson setup command unchanged. It allows ninja test to build and run unit tests.

-D egl-native-platform="...": This parameter controls which Embedded Graphics Library support will be built. Available linux options are auto (default), x11, wayland, surfaceless, and drm.

Contents

Installed Programs: glxgears, glxinfo, mme_fermi_sim_hw_test, and mme_tu104_sim_hw_test

Installed Libraries: libEGL.so, libGL.so, libGLESv1_CM.so, libGLESv2.so, libgbm.so, libglapi.so, and libxatracker.so

Installed DRI Drivers: crocus_dri.so, i915_dri.so, iris_dri.so, kms_swrast_dri.so, nouveau_dri.so, nouveau_drv_video.so, r300_dri.so, r600_dri.so, r600_drv_video.so, radeonsi_dri.so, radeonsi_drv_video.so, swrast_dri.so, virtio_gpu_dri.so, virtio_gpu_drv_video.so, vmwgfx_dri.so, and zink_dri.so

Installed VDPAU Drivers: libvdpau_nouveau.so, libvdpau_r600.so, and libvdpau_radeonsi.so libvdpau_virtio_gpu.so (Many of these drivers are hard-linked).

Installed Vulkan Drivers: libvulkan_intel_hasvk.so, libvulkan_intel.so, libvulkan_lvp.so, libvulkan_nouveau.so, and libvulkan_radeon.so

Installed Directories: $XORG_PREFIX/{include/{EGL,GLES,GLES2,GLES3,KHR}, $XORG_PREFIX/lib/{dri,vdpau}}, $XORG_PREFIX/share/drirc.d (contains workarounds for various applications, particularly browsers and games), $XORG_PREFIX/share/vulkan, and /usr/share/doc/mesa-24.1.5

Short Descriptions

glxgears	is a GL demo useful for troubleshooting graphics problems
glxinfo	is a diagnostic program that displays information about the graphics hardware and installed GL libraries
`libEGL.so`	provides a native platform graphics interface as defined by the EGL-1.4 specification
`libgbm.so`	is the Mesa Graphics Buffer Manager library
`libGLESv1_CM.so`	is the Mesa OpenGL ES 1.1 library
`libGLES2.so`	is the Mesa OpenGL ES 2.0 library
`libGL.so`	is the main Mesa OpenGL library

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