This document presents some techniques that can be useful for people wanting to hack the xenocara tree. It assumes some basic knowledge of the OpenBSD build system, as described in the release(8) manual page.
Xenocara is the name chosen for OpenBSD's version of X. It's currently based on X.Org 7.7 and its dependencies. The goal of Xenocara is to provide a framework to host local modifications and to automate the build of the modular X.Org components, including 3rd party packages and some software maintained by OpenBSD developers.
The organisation of the xenocara directory follows the general organisation used in X.Org:
- app: X applications and utilities
- data: various data files (keyboard mappings and bitmaps)
- doc: documentation
- driver: input and video drivers
- font: fonts
- lib: libraries
- proto: X protocol headers
- util: utilities that don't fit anywhere else
- xserver: the source for the X servers
In addition Xenocara uses the following directories:
- dist: contains some of the 3rd party sources, when keeping them separate helps the build system (fontconfig, xcb and xkeyboard-config)
- distrib: all binary distribution related tools and data
- etc: some default config files
- share: make(1) configuration for Xenocara
At the top-level directory two files describe the individual components of Xenocara:
- MODULES: lists all X.Org components (imported from the X.Org distribution at http://xorg.freedesktop.org/archive/)
- 3RDPARTY: lists all 3rd party software components provided in Xenocara, either as dependencies of the X.Org software, or as complements to it to provide a more useable default environment.
Xenocara is made up of almost three hundred different independent packages that need to be built and installed in the right order, especially while bootstrapping (while /usr/X11R6 is still empty). The Xenocara Makefiles take care of that using the 'build' target.
The following steps will build and install everything for the first time.
cd /usr/xenocara
doas make bootstrap
doas make obj
doas make build
If you want to use another obj directory see below.
A freshly checked out xenocara tree is buildable without any external tool. Only the xenocara and the src (currently only the src/sys/dev/pci/pcidevs file) trees are needed.
However if you start modifying things in the automake build system used by many packages, you will need to have the following GNU autotools packages installed:
- automake 1.12 (devel/automake/1.12)
- autoconf 2.71 (devel/autoconf/2.71)
- metaauto (devel/metaauto)
- libtool (devel/libtool)
- gettext-tools (devel/gettext)
If you have your source tree on an NFS partition, make sure the clocks of your server and client are properly synchronised. Any significant drift will cause various problems during builds.
To build Xenocara, you need to have /usr/X11R6/bin in your PATH.
If you have installed the full Xenocara X sets on your system, you don't need to build all of Xenocara to patch one element. You can go to any module sub-directory and run 'make build' from there.
The variable XSRCDIR can be set either in the environment or in /etc/mk.conf to point to the xenocara source tree, in case you keep it in a non-standard directory (the default is /usr/xenocara).
Xenocara requires objdirs. Just run 'make obj' as root at any level before 'make build' to make sure that the object directories are created. XOBJDIR defines the obj directory that is used (defaults to /usr/xobj). It should be created before running 'make obj'.
Whenever you touched an import file for GNU autotools (Makefile.am, configure.ac mostly), you need to rebuild the configure script and makefiles skeletons. For that use the following command in the directory where you edited the autotools source files:
make -f Makefile.bsd-wrapper autoreconf
doas make -f Makefile.bsd-wrapper build
One common problem when building xenocara is the case where the obj directory didn't exist (or the symbolic link pointed to a non-existent directory) when the source was first built. After fixing this problem, 'configure' will refuse to work in the obj dir, because the source is already configured.
To recover from this in one package:
rm -f obj
make -f Makefile.bsd-wrapper cleandir
mkdir XOBJDIR
make -f Makefile.bsd-wrapper obj
doas make -f Makefile.bsd-wrapper build
or from the root of the xenocara tree:
find . -type l -name obj | xargs rm -f
make cleandir
mkdir XOBJDIR
make obj
doas make build
for more desperate cases, remove all files from XSRCDIR not in CVS:
cd XSRCDIR
cvs -q update -PAd -I - | awk '$1=="?" {print $2}' | xargs rm -f
libxcb uses C source files that are generated from the XML protocol specification using xcbgen, written in Python. On OpenBSD those files cannot be generated during a normal 'make build' since Python is not in the base system. So the generated version are checked in CVS (in lib/libxcb/src/). Here is the receipt to update them when updating to a new release of XCB:
- Update proto/xcb-proto.
- Update the x11/py-xcbgen port to the same version and install the python3 package.
- Update dist/libxcb.
- Check lib/libxcb/src/Makefile if new files need to be generated.
- Run make in lib/xcb/src to generate the files for the new version.
- Check lib/libxcb/ for other files needing updates.
- Commit the result.
You can use env CFLAGS=-g make -f Makefile.bsd-wrapper build to build any module with debugging information, but you'll need to remove XOBJDIR/xorg-config.cache.${MACHINE} before doing that because autoconf caches the value of CFLAGS in its cache.
Several things are needed:
-
set kern.nosuidcoredump=3 in /etc/sysctl.conf
-
start the X server as root, with the -keepPriv option. If you use xenodm, you can add the option in /etc/X11/xenodm/Xservers. If you want to use startx, you need to run it as root, like this:
startx -- /usr/X11R6/bin/X -keepPriv
Now the X server should dump core when catching a fatal signal and the core dump should be in /var/crash/Xorg/.core.
Alternatively, if the X server is using the modesetting(4) driver (it's the case with most recent AMD and Intel GPUs), it can be started as a regular user, without setting kern.nosuidcoredump=3, and the core dump will be in the current directory where startx was executed.
See also http://xorg.freedesktop.org/wiki/Development/Documentation/ServerDebugging
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