do-external-lib so that we can build the compat libraries for
ATF. Also add compat/external/lib/Makefile following the same
example of external/lib/Makefile, which descends into the
external libraries and builds them.
- introduce X11FLAVOUR to choose src/x11 vs src/external/mit/xorg
for the X11 to build if MKX11=yes is set. it takes the values
of either Xorg or XFree86.
- default to Xorg on alpha, i386, macppc, shark, sparc and sparc64
- remove MKXORG_WITH_XSRC_XSERVER, unused and never useful
This uses the new NOSUBDIR support in bsd.subdir.mk.
Insert do-top-obj near the beginning of BUILDTARGETS. The first few
items are now:
cleandir: cleans the tree.
do-top-obj: creates the top level object directory.
do-tools-obj: creates object directories for the host toolchain.
do-tools: builds host toolchain.
obj: creates object directories.
Also improve a comment and split a long line where SUBDIR is set from
_SUBDIR.
There may be commands embedded in "!=" assignments that depend on tools
being available, and previously these would have printed error messages
during "make obj". They may still print error messages during "make
cleandir", which (if it is performed at all) is performed before tools
are built.
private non-installed build infrastructure from sys/rump.
breakdown of commit:
* install relevant headers into /usr/include/rump
* build sys/rump/librump/rumpuser and sys/rump/librump/rumpkern
from src/lib and install as librumpuser and librump, respectively
+ this retains the ability to test a librump build with just the
kernel sources at hand
* move sys/rump/fs/lib/libukfs and sys/rump/fs/lib/libp2k to src/lib
for general consumption, they are not kernel-space dwellers anyway
* build and install sys/rump/fs/lib/lib$fs as librumpfs_$fs
* add chapter 3 manual pages for rump, rumpuser, ukfs and p2k
* build and install userspace kernel file system daemons if MKPUFFS=yes
is spexified
* retire fsconsole for now, it will make a comeback with an actually
implemented version shortly
This adds a new tests.tgz set to releases which includes all the tests
for the system. It is important to note that this set does not rely on
comp.tgz: a user of the system can run the tests without having the
development tools installed, which can be useful in a production machine.
Reported, fix suggested and tested by David Holland.
(Why does "make build" invoke postinstall check on destdir is another
question, it does not seem to have much sense.)
includes source sets as well. The infrastructure for this was already
there, although it needed a bug fix. Will look at adding arbitrary
directories next.
bsd.subdirs.mk) in distrib/makefile, which builds an iso image for $MACHINE
with binary sets, stored in ${RELEASEDIR}/iso. The image is bootable for:
alpha, amd64, cats, i386, pmax, sgimips, sparc, sparc64, sun3, vax.
mac68k/macppc no there yet because of missing feature in makefs.
call iso_image in distrib/ for iso-image in the top Makefile.
which invokes make iso-image in the etc directory.
* Add an "iso-image" action in build.sh, which
invokes make iso-image.
* Document the above in doc/BUILDING.mdoc.
* Re-generate BUILDING.
Approved by christos
the job-token pipe and the sub-makes have their own '-j n' processes.
As well as giving unexpected parallelism, it makes it impossible to stop
the build promptly on errors.
so that the "obsolete file removal" functionality of "distribution" is used.
Fixes build problems numerous people have experienced with MKUPDATE=yes
and the "release" target.
(cd ${.CURDIR}/somedir && ${MAKE} AVAR=value atarget)
to
${MAKEDIRTARGET} somedir atarget AVAR=value
which results in a "prettier" display of these operations
and exception handling have a chance of working properly.
- creates libgcc, libgcc_eh and libgcc_s
- updates LIBGCC_SPEC to use them appropriately.
There's a hack in here at the moment with respect to libgcc_so in that it
is preferable to link against libgcc_so will only when -shared-libgcc is
specified (the c++ frontend does this automatically.) Configurations where
LINK_EH_SPEC is defined already do this. The gcc configuration for
NetBSD/alpha and another NetBSD platform (I forget which) actually define
LINK_EH_SPEC probably by accident rather than design.
- updates share/mk to use the compiler's knowledge of what needs linking into
libraries and executables. This removes an hppa hack.
- updates the sets for the newly created libgcc* files.
- support for linking against the _pg version of libgcc has been removed.
Replace defined(UNPRIVED) tests with ${MKUNPRIVED} != "no"
Add MKUPDATE; if not no has the same semantics as if UPDATE was defined.
Replace defined(UPDATE) tests with ${MKUPDATE} != "no"
Improve documentation for these and other make flags.
This is damn annoying, because it means the old method of "groff -P-bou"
won't suppress escape codes, unless -P-c is also provided.
(Mmm, quality software...)
funny that :), and call in "distribution" just before the "make checkflist".
Should minimise a bunch of the "I use make UPDATE= and checkflist failed"
errors, but not all of them.
program/tool from "FOO" to "TOOL_FOO". The new variables are:
TOOL_ASN1_COMPILE TOOL_CAP_MKDB TOOL_CAT TOOL_CKSUM TOOL_COMPILE_ET
TOOL_CONFIG TOOL_CRUNCHGEN TOOL_CTAGS TOOL_DB TOOL_EQN TOOL_FGEN
TOOL_GENCAT TOOL_GROFF TOOL_HEXDUMP TOOL_INDXBIB TOOL_INSTALLBOOT
TOOL_INSTALL_INFO TOOL_M4 TOOL_MAKEFS TOOL_MAKEINFO TOOL_MAKEWHATIS
TOOL_MDSETIMAGE TOOL_MENUC TOOL_MKCSMAPPER TOOL_MKESDB
TOOL_MKLOCALE TOOL_MKMAGIC TOOL_MKTEMP TOOL_MSGC TOOL_MTREE
TOOL_PAX TOOL_PIC TOOL_PREPMKBOOTIMAGE TOOL_PWD_MKDB TOOL_REFER
TOOL_ROFF_ASCII TOOL_ROFF_DVI TOOL_ROFF_HTML TOOL_ROFF_PS
TOOL_ROFF_RAW TOOL_RPCGEN TOOL_SOELIM TOOL_SUNLABEL TOOL_TBL
TOOL_UUDECODE TOOL_VGRIND TOOL_ZIC
For each, provide default in <bsd.sys.mk> of the form:
TOOL_FOO?= foo
and for the ${USETOOLS}=="yes" case in <bsd.own.mk>, provide override:
TOOL_FOO= ${TOOLDIR}/bin/${_TOOL_PREFIX}foo
Document all of these in bsd.README.
This cleans up a chunk of potential (and actual) namespace collision
within our build infrastructure, as well as improves consistency in
the share/mk documentation and provision of appropriate defaults for
each of these variables.
Use /var/db/obsolete instead of /etc/obsolete
etc/Makefile:
Create separate target "install-obsolete-files" to populate
/var/db/obsolete, instead of using "install-etc-files".
Makefile:
Add do-obsolete target, to run "cd etc && make install-obsolete-files",
and add this to BUILDTARGETS.
This moves the "obsolete files" creation from "distribution" to "build".
Per discussion with Andrew Brown.
cd ${KERNSRCDIR}/${KERNARCHDIR}/compile && ${PRINTOBJDIR}
This is far simpler than the previous system, and more robust with
objdirs built via BSDOBJDIR.
The previous method of finding KERNOBJDIR when using BSDOBJDIR by
referencing _SRC_TOP_OBJ_ from another directory was extremely
fragile due to the depth first tree walk by <bsd.subdir.mk>, and
the caching of _SRC_TOP_OBJ_ (with MAKEOVERRIDES) which would be
empty on the *first* pass to create fresh objdirs.
This change requires adding sys/arch/*/compile/Makefile to create
the objdir in that directory, and descending into arch/*/compile
from arch/*/Makefile. Remove the now-unnecessary .keep_me files
whilst here.
Per lengthy discussion with Andrew Brown.
properly in a clean tree (bsd.subdir.mk makes the obj target in
.CURDIR depend on the recursive targets). If "make obj" is invoked a
second time, the problem will correct itself. To work around this:
(1) Before including bsd.subdir.mk, create a target called "obj-etc"
so that the "regular" one (from bsd.subdir.mk) won't be instantiated.
(2) After including bsd.obj.mk, create a "real" obj-etc target that
does the required work with .USE as a "source" so that we can merely
cons it onto the actual obj target. Note that this is only done if
the obj target has commands (ie, NOOBJ was not set and MKOBJ was not
no and whatever else you might have come up with) and we would have
recursed into etc anyway (etc is in the SUBDIR list).
This makes the obj target in src/etc get invoked *after* the obj
target in the root of the source tree so that KERNOBJDIR will have the
correct value.
Reviewed by lukem.
buildworld Builds a distribution into DESTDIR as per
"make distribution", except that DESTDIR
*must* be defined and *must not* be "" or "/".
installworld Copies (using distrib/sets/maketars -i ...) from
${DESTDIR} to ${INSTALLWORLDDIR} (defaults == `/'),
and then runs "postinstall-check" against
${INSTALLWORLDDIR}.
If ${INSTALLWORLDDIR} == "/", ensure that
`uname -s` == "NetBSD" and `uname -m` == ${MACHINE},
to prevent nasty accidents...
* Tweak some comments
two variables:
TOOLCHAIN_MISSING -- set to "yes" on platforms for which there is
no working in-tree toolchain (hppa, ns32k, sh5, x86_64).
EXTERNAL_TOOLCHAIN -- if defined by the user, points to the root of
an external toolchain (e.g. /usr/local/gnu). This enables the cross-build
framework even for TOOLCHAIN_MISSING platforms.
If TOOLCHAIN_MISSING is set to "yes", MKGDB, MKBFD, and MKGCC are all
unconditionally set to "no", since the bits are not there to build.
If EXTERNAL_TOOLCHAIN is set, MKGCC is unconditionally set to "no",
since the external toolchain's compiler is not in-sync with the
in-tree compiler support components (e.g. libgcc).
* Set MACHINE_CPU much earlier in bsd.own.mk, so that more tests in
that file can use it.
an NFS root area for a diskless client. In such a situation, you
DO want the postinstall-check to be run.
The circumstances under which postinstall-check is now run:
* UNPRIVED is not set.
* The original target invoked was not distribution, release, or
snapshot.
There were too many synchronisation problems with using the former;
including situations such as a "make clean" performed between two
installs to the same DESTDIR would result in a truncated METALOG and
the resultant sets would be missing stuff such as include files that
don't get reinstalled if they haven't changed, even with !UPDATE.
Obsolete NBUILDJOBS; build.sh just passes -jN through to make(1),
which inherits it cooperatively through the build tree. Fix
documentation so that it's shown to be deprecated.
If you use build -jN, please save full build logs so that errors due
to missing dependancies can be analyzed and corrected.
sketch