Introduce ${TARGET} defaulting to ${MACHINE} which should be set to
whatever your target ${MACHINE} is, and use that with world-related
stages. That is, to build pc98 on alpha, one now needs to set both
TARGET_ARCH=i386 and TARGET=pc98.
The scope of ${TARGET} is limited to Makefile.inc1 and cross-tools.
In particular, this change was tested to fix:
1. Cross building of "alpha" on i386. The breakage was introduced
by rev. 1.10 to sbin/i386/Makefile (missing <machine/cronyx.h>).
2. Descending into machine-specific subdirs for a different arch.
Previously, sbin/i386 and usr.sbin/boot0cfg were descended into
when cross-building "alpha" or pc98 on i386.
3. Fixes pc98 cross-building which was horribly broken, caused by
not setting MACHINE correctly (most ${MACHINE} == pc98 checking
Makefiles put -DPC98 to CFLAGS).
1. To cross-build, one now needs to set TARGET_ARCH, and not the
MACHINE_ARCH. MACHINE_ARCH should never be changed manually!
2. Initialize DESTDIR= explicitly for bootstrap-tools, build-tools,
and cross-tools stages. This fixes broken header and library
dependencies problem. We build them in the host environment,
and obviously want them to depend on host headers and libraries.
The problem with broken header dependencies for bootstrap-tools
and cross-tools was already partially solved (see BOOTSTRAPPING
tests in bsd.prog.mk and bsd.lib.mk), but it was still there for
build-tools if the user ran "make world DESTDIR=/foo". Also,
for all of these stages, the library dependencies were broken
because of how bsd.libnames.mk define DPADD members.
We still provide a glue to install bootstrap- and cross-tools
under the ${WORLDTMP}.
Removed PATH overrides for bootstrap-, build-, and cross-tools
stages. There is just no reason why we would need to override
it, and the hacks to clean up the ${WORLDTMP} in the -DNOCLEAN
case are no longer needed with fixes from this step.
That is, we now never use ${WORLDTMP} headers and libraries,
and we don't use any ${WORLDTMP} installed binaries during
these stages. Again, these stages depend solely on the host
environment, including compiler, headers, and libraries.
3. Moved "miniperl" back from cross-tools (it has nothing to do
with a cross-compiler) to build-tools where it belongs. The
change from step 1 let to do this. Also, to make this work,
build-tools targets of "cc_tools" and "miniperl" were modified
to call "depend". Here follow the detailed explanations.
There are two categories of build tools, for now. In the first
category there are "cc_tools" and "miniperl". They occupy the
whole (sub)directory, and nothing needs to be done in this
subdirectory later during the "all" stage. They are also
constructed using system makefiles. We must build the .depend
early in the build-tools stage because:
1) They use (and depend on) the host environment.
2) If we don't do this in build-tools, the "depend" stage of
buildworld will do this for us; wrong library and header
dependencies will be recorded (DESTDIR=${WORLDTMP}) and,
what's worse, the "all" stage may then clobber the
build-architecture format tools (that we built in the
build-tools stage) with the target-architecture format
ones, breaking cross build.
In the second category there are all other build-tools. They
share their directory with the "main" module that needs them
in the "all" stage, and they don't show up themselves in the
.depend file. The portion of this fix was already committed
in gnu/usr.bin/cc/cc_tools/Makefile,v 1.52.
4. "libperl" is no longer a build tool, and "miniperl" is the
stand-alone application. I had to make this change because
build-tools and "all" stages share the same object directory.
Without this change, if we cross compile, libperl.a is first
built for the build architecture during the build-tools stage
(for the purposes of immediate linkage with "miniperl").
Later on, the "all" stage sees this library as up-to-date,
and doesn't rebuild it. The effect is that the wrong format
static libperl library is installed with installworld.
5. Fixed "includes" to install secure/lib/libtelnet headers if
required.
Reviewed by: bde
1.) prefix all functions in the library with devstat_ (compatability
functions are available for all functions that were chaned in an
incompatible way, but are deprecated).
2.) Add a pointer to a kvm_t as the first argument to functions that
used to get their information via sysctl; they behave the same
as before when NULL is passed as this argument, otherwise, the
information is obtained via libkvm using the supplied handle.
3.) Add a new function, devstat_compute_statistics(), that is intended
to replace the old compute_stats() function. It offers more
statistics data, and has a more flexible interface.
libdevstat does now require libkvm; a library depedency is added, so
that libkvm only needs to be explicitely specified for statically linked
programs.
The library major version number is bumped.
Submitted by: Sergey A. Osokin <osa@freebsd.org.ru>, ken (3)
Reviewed by: ken
want host headers during `buildworld'.
- During `buildworld', install headers in a "copy" mode
until we decide what to do with the (currently broken)
SHARED=symlinks.
- Temporarily run `buildworld' with -DNO_WERROR, which
effectively disabled the -Werror bit of recently added
WARNS=X feature. This is required because adding the
-nostdinc bit back revealed bugs in some header files
that were hiding after not using -nostdinc.
It is unclear currently how exactly (and why) -nostdinc
affects gcc(1) warnings.
file during the bootstrapping process of a buildworld and contained the
last isc include file to be installed. It was meant to be a directory for
the isc include files.
Some of the major changes include:
- The SCSI error handling portion of cam_periph_error() has
been broken out into a number of subfunctions to better
modularize the code that handles the hierarchy of SCSI errors.
As a result, the code is now much easier to read.
- String handling and error printing has been significantly
revamped. We now use sbufs to do string formatting instead
of using printfs (for the kernel) and snprintf/strncat (for
userland) as before.
There is a new catchall error printing routine,
cam_error_print() and its string-based counterpart,
cam_error_string() that allow the kernel and userland
applications to pass in a CCB and have errors printed out
properly, whether or not they're SCSI errors. Among other
things, this helped eliminate a fair amount of duplicate code
in camcontrol.
We now print out more information than before, including
the CAM status and SCSI status and the error recovery action
taken to remedy the problem.
- sbufs are now available in userland, via libsbuf. This
change was necessary since most of the error printing code
is shared between libcam and the kernel.
- A new transfer settings interface is included in this checkin.
This code is #ifdef'ed out, and is primarily intended to aid
discussion with HBA driver authors on the final form the
interface should take. There is example code in the ahc(4)
driver that implements the HBA driver side of the new
interface. The new transfer settings code won't be enabled
until we're ready to switch all HBA drivers over to the new
interface.
src/Makefile.inc1,
lib/Makefile: Add libsbuf. It must be built before libcam,
since libcam uses sbuf routines.
libcam/Makefile: libcam now depends on libsbuf.
libsbuf/Makefile: Add a makefile for libsbuf. This pulls in the
sbuf sources from sys/kern.
bsd.libnames.mk: Add LIBSBUF.
camcontrol/Makefile: Add -lsbuf. Since camcontrol is statically
linked, we can't depend on the dynamic linker
to pull in libsbuf.
camcontrol.c: Use cam_error_print() instead of checking for
CAM_SCSI_STATUS_ERROR on every failed CCB.
sbuf.9: Change the prototypes for sbuf_cat() and
sbuf_cpy() so that the source string is now a
const char *. This is more in line wth the
standard system string functions, and helps
eliminate warnings when dealing with a const
source buffer.
Fix a typo.
cam.c: Add description strings for the various CAM
error status values, as well as routines to
look up those strings.
Add new cam_error_string() and
cam_error_print() routines for userland and
the kernel.
cam.h: Add a new CAM flag, CAM_RETRY_SELTO.
Add enumerated types for the various options
available with cam_error_print() and
cam_error_string().
cam_ccb.h: Add new transfer negotiation structures/types.
Change inq_len in the ccb_getdev structure to
be "reserved". This field has never been
filled in, and will be removed when we next
bump the CAM version.
cam_debug.h: Fix typo.
cam_periph.c: Modularize cam_periph_error(). The SCSI error
handling part of cam_periph_error() is now
in camperiphscsistatuserror() and
camperiphscsisenseerror().
In cam_periph_lock(), increase the reference
count on the periph while we wait for our lock
attempt to succeed so that the periph won't go
away while we're sleeping.
cam_xpt.c: Add new transfer negotiation code. (ifdefed
out)
Add a new function, xpt_path_string(). This
is a string/sbuf analog to xpt_print_path().
scsi_all.c: Revamp string handing and error printing code.
We now use sbufs for much of the string
formatting code. More of that code is shared
between userland the kernel.
scsi_all.h: Get rid of SS_TURSTART, it wasn't terribly
useful in the first place.
Add a new error action, SS_REQSENSE. (Send a
request sense and then retry the command.)
This is useful when the controller hasn't
performed autosense for some reason.
Change the default actions around a bit.
scsi_cd.c,
scsi_da.c,
scsi_pt.c,
scsi_ses.c: SF_RETRY_SELTO -> CAM_RETRY_SELTO. Selection
timeouts shouldn't be covered by a sense flag.
scsi_pass.[ch]: SF_RETRY_SELTO -> CAM_RETRY_SELTO.
Get rid of the last vestiges of a read/write
interface.
libkern/bsearch.c,
sys/libkern.h,
conf/files: Add bsearch.c, which is needed for some of the
new table lookup routines.
aic7xxx_freebsd.c: Define AHC_NEW_TRAN_SETTINGS if
CAM_NEW_TRAN_CODE is defined.
sbuf.h,
subr_sbuf.c: Add the appropriate #ifdefs so sbufs can
compile and run in userland.
Change sbuf_printf() to use vsnprintf()
instead of kvprintf(), which is only available
in the kernel.
Change the source string for sbuf_cpy() and
sbuf_cat() to be a const char *.
Add __BEGIN_DECLS and __END_DECLS around
function prototypes since they're now exported
to userland.
kdump/mkioctls: Include stdio.h before cam.h since cam.h now
includes a function with a FILE * argument.
Submitted by: gibbs (mostly)
Reviewed by: jdp, marcel (libsbuf makefile changes)
Reviewed by: des (sbuf changes)
Reviewed by: ken
would have taken care of the possibility of buildkernel crossing over
from one binutils set to another. Back out the part about turning off
'make clean' if the 'make depend' is still active, but add a NO_KERNELCLEAN
target instead that works like NOCLEAN but just for the kernel.
to preceed a buildkernel.
The buildworld is still required when upgrading across major releases,
across binutil upgrades and when config changes version. If
buildkernel breaks, and you haven't done a buildworld, then do not
complain unless you do a buildworld and it still breaks.
already used by the kernel makefiles themselves, and this leads to a lot
of trouble when people put "KERNEL=MYKERNEL" in make.conf. Bite the bullet
and change it to KERNCONF instead, before it gets too far entrenched.
The kernel Makefiles use ${KERNEL} as the name of what to install the
kernel as, eg: /boot/${KERNEL}/kernel or /${KERNEL}. This leads to much
unhappiness with things like /LOCAL instead of /kernel. buildkernel is
severely limited as it is only useful directly after a buildworld.
Reviewed by: jhb
not right because rtermcap would be reading the *host* termcap, not
from the termcap in the src tree. Besides, /usr/sbin/sysinstall
(not the crunched one in /stand) should use the runtime termcap
not the precompiled set.
The distribute target is basicly the same as an install. For
perl, this means that miniperl is needed. Since miniperl is
only present in the object directory, we need to make sure
the path is set correctly. To do this, we have make release
use a new distribworld target that sets the path before doing
a make distribute.
o Move building libperl and miniperl from build-tools to
cross-tools. libperl uses MACHINE_ARCH to determine the
right configuration, which doesn't match the build
machine when cross-building if they are built as build-
tools.
o Since miniperl needs to be built as a cross-tool, it
needs to be installed under /usr/obj so that it can be
used (cross-tools have a special object directory to
avoid build conflicts. As a downside, you can't easily
run cross-tools from their object directory). Remove
the install and distribute override targets. To avoid
having miniperl installed by installworld, remove it
from SUBDIR.
o We can't pickup miniperl from the object directory but
since it's installed, depend on PATH. This is save,
because the makefiles are run with a known path.
o Build libperl again as part of the library target. A
_libperl variable existed, but it was never defined.
o Add chmod to the list of saved tools, because perl
conditionally uses it during install.
The bootstrap-tools and cross-tools targets are modified to
avoid building profiled and shared libraries. While here,
have these targets build static binaries instead of shared
binaries.
Approved by: markm
when using the egcs and gcc-devel ports, along with GCC built from stock
public FSF sources. With out this change, FreeBSD will be removed from
the list of systems GCC 3.0 must be evaluated on before release. With
the effort some of us put into getting FreeBSD on this list, we should
not turn this effort into a waste, else we might not be worth fighting
for in the future. (note that Alpha and IA-64 versions of crt{i,n}.S
are needed)
* Switch from our own crt{begin,in} to those created from GCC's crtstuff.c.
This will allow us to switch to DWARF2 exceptions in the future, along with
staying in sync with any future GCC requirements.
* Break out our ELF branding bits into a seperate file. Currently this
is now included by our crt1.c files (since this functionality was part of
our native crtbegin.c). Later crtbrand.o will be merged in the creation
of crti.o.
If a user decides to forego a make depend during "make buildkernel",
they should get what they deserve if no previous make depend has
been run for that kernel. Instead, the build process includes
special instructions to unconditionally rebuild aicasm. When aicasm
moved to its own directory, this hack broke.
Correct the hack until a get buy off on killing it.
SUPFLAGS when a 'make update' is run. This means that the supfile
doesn't need to be edited because the -h will override the
CHANGE_THIS.FreeBSD.org host.
if their SUPFILE variables are defined _and_ NO_PORTSUPDATE and
NO_DOCUPDATE respectively are not defined.
Previously, only ports was updated and there was no way to prevent
this without undefining its SUPFILE variable.
PR: 17514
Reported by: Udo Erdelhoff <ue@nathan.ruhr.de>
of the buildkernel and installkernel targets where the kernel
was called after the config name.
While here, fix the brokenness of the installkernel target. It
used to use ${IMAKEENV}, but since that has a very restricted
PATH, it couldn't find make(1). Use ${CROSSENV} instead.
binaries we just installed. This allows a future upgrade target to
install a new system without intermediate reboots and also
prevents conflicts for parallel make runs where we might exec a
binary that's being installed at the same time.
and costs us an extra 2% to build it for no reason. It may break
building cross compilation environments for fortran, but that isn't
officially supported at this time anyway (also, the % of our user base
that would use that is < .001% imho). This does't break fortran (it
is built again later anyway).
Reviewed by: obrien
Tested by: make buildworld and make buildworld -DNOCLEAN
users can more easily upgrade.
buildworld now makes usr.sbin/config in bootstrap-tools so that
when you first make buildworld, buildkernel will use config(8)
from the temp. world tree (and of course also the compiler).
Which kernel to built is determined by the KERNEL variable. You
can have as many kernels listed as you like. When a config file
exists for the given MACHINE it will be built. When KERNEL has
not been defined it will be set to "GENERIC GENERIC98".
The first valid kernel named in the list will be used by the
installkernel target.
When NOCLEAN is defined the kernel object directory is *not*
removed by config first. This is in line with normal buildworld
behaviour.
The buildkernel target makes aicasm in sys/dev/aic7xxx first and
unconditionally. This hack allows us to cross-build kernels and
can go away when the problem is solved in a structural way.
If one wishes to anchor the compiler toolchain tree somewhere other than /,
all one needs to do is set "TOOLS_PREFIX" to a different rooting.
Submitted by: marcel (in a different format and reworked by me)
reading all my mail.
I still don't understand why this was was committed on freefall before
the libcrypto and libssl subdirectories were imported on freefall though.
o Add genassym to the list of cross-tools
o Remove sh hashing work-around, we don't need it anymore
o Clean more directories in WORLDTMP when NOCLEAN is specified
The sh hashing work-around is not needed anymore, because we don't
trigger the bug anymore.
When NOCLEAN is not defined, we wipe out the complete WORLDTMP,
including the object directories of the tools we have built. When
NOCLEAN is defined, we remove anything that we install anyway, which
is usr/bin, usr/games, usr/include, usr/lib and usr/sbin.
property. This fixes the includes target when DESTDIR is empty.
o Do not make build-tools for f771 when NO_FORTRAN is defined.
o Add new build stage. See below.
o Change banners so that staging information is displayed.
The addition of the build-tools target broke the upgrade path because
we couldn't make use of previously built tools that were made for
compatibility reasons. Doing so would also result in the cross-compiler
being used and that is exactly what had to be avoided.
This is solved by designating the bootstrap-tools stage for building
anything that is needed for compatibility only and to create a new
stage (started after the build-tools stage) that handles cross-tools
building. We now have the following stages:
1. bootstrap-tools (for compatibility issues only)
2. build-tools
3. cross-tools (what it says)
4. world
5. install
Stages 1-4 (inclusive) are handled by buildworld.
Stage 5 is handled by installworld.
Any more stages and I'll join Nik in his quest for the
holy grail^W^Wworld :-)
buildworld doesn't break because the host doesn't have any
games installed,
o Add a new build stage: TMAKE. TMAKE builds all the build-tools
targets in the respective makefiles. Note that these targets
don't use the bootstrap tools,
o Add elf2exe to the bootstrap-tools when cross-building Alpha on
other platforms,
o Add ${WORLDTMP}/usr/games to TMPPATH,
o Remove ${WORLDTMP}/usr/bin even when NOCLEAN is defined. This
prevents using any bootstrap-tools previously installed. Most
importantly, it prevents using the cross-compiler when we still
need the native compiler.
The current stages are BMAKE, TMAKE, XMAKE and IMAKE in that order.
BMAKE builds bootstrap-tools that either solve compatibility problems
or are needed as cross-tools,
TMAKE builds the support tools necessary by some parts in the source
tree and also performs the cleandir and par-obj targets,
XMAKE builds the includes, libraries and everything (resp.), and
IMAKE installs the world. This stage needs further work if it's to be
used to install -current over -stable for example.
This is the last major update towards cross-building.
o Don't set CFLAGS in the bootstrap env. It is very likely to be
overridden my any CFLAGS setting in /etc/make.conf. Setting it
here is almost useless. So far, it doesn't seem necessary.
o Build tools before doing anything in or with the object tree.
o Tools don't use the object tree any more, but have there object
tree located in the temp. world.
o Use the proper make env. for cleaning and building the object tree.
o Don't create kernel include subdirectories in the temp. world. These
are removed later on and replaced by symlinks.
o Change the layout of the object tree:
The temp. world now is /usr/obj/${MACHINE_ARCH}${.CURDIR}/${BUILD_ARCH}.
/usr/obj can be set/changed by using MAKEOBJDIRPREFIX, and {.CURDIR}
obviously depends on where the source tree is located. MACHINE_ARCH
is the arch. for which the world is to be build and BUILD_ARCH is the
arch. on which we are building.
The object tree now is /usr/obj/${MACHINE_ARCH}${.CURDIR}.
This allows concurrent cross-builds and allows the object tree to be
shared on different archs., each doing the same cross-build. This of
course assumes that the output on Alpha (for example) is the same as
the output of an Alpha cross-build on i386 (for example).
The use of NOCLEAN is is still dangerous, but should be usable in many
more situations than before. It should now be possible to safely
restart an interrupted build with NOCLEAN without side-effects. Because
the tools don't share the object tree with the normal (cross-build), no
tools have to be rebuild.
non-root cross-building.
o Makefile.inc0 is not used anymore.
o The legacy aout build has been removed.
o Selectively build tools *before* building includes/libraries.
o Avoid using mtree to populate the obj tree.
pre-Aug 4.0-CURRENT worlds and those with pre-GCC 2.95.2 worlds.
The problem with pre-Aug worlds is the installed Byacc and Bison doesn't
have necessary changes to compile either GCC 2.95 or EGCS 1.1.x.
The problem with pre-GCC 2.95 worlds is libgcc is built with the wrong
compiler. See rev 1.17 of src/gnu/lib/libgcc/Makefile (which used to live
in src/gnu/usr.bin/cc/libgcc) + commit messge for details of the requirements.
o Send libmytinfo back to the afterlife. It was revived by mistake,
o Make gnu/lib/libgcc before making lib/libpam. This dependency has
been overlooked in constructing the list,
o make depend before make all. It's by using make depend that the
dependency was found in the first place and we need it to prevent
cleaning everything up before we start,
o Don't specify -DNOINFO -DNOMAN for the libraries target. Let the
target handle it. We can do away with a single run over the libs
if we make everything while we're there and only install the
libraries in the object tree.
build make(1) twice and merge the bootstrap-libraries and libraries
targets.
This change solves the bug where build-tools, compiled against the
includes and libraries built from the sources failed to run on the
host, as was the case with the sigset_t change. With this update, a
buildworld will fail if the tools won't compile on the host. This
is solved in further commits where backward compatibility of the
tools is enlarged.
The libraries target has been fixed. The libraries are now build in
the proper order, satisfying the dependencies. The comment is updated
to reflect this.
The linux module and netboot have been removed from the list of tools.
More to follow.
Reviewed by: bde, imp
All Makefiles now use MACHINE_ARCH for the target architecture.
Unification is required for cross-building.
Tags added to:
sys/boot/Makefile
sys/boot/arc/loader/Makefile
sys/kern/Makefile
usr.bin/cpp/Makefile
usr.bin/gcore/Makefile
usr.bin/truss/Makefile
usr.bin/gcore/Makefile:
fixed typo: MACHINDE -> MACHINE_ARCH
support. I've been building world with these changes for months w/o
ill effect. I've also managed to build the cross tool chain for MIPS
with these patches.
Please note that the extent to which these patches work is largely
dictated by how well our tool chains support the cross compilation.
Building alpha binaries on i386 doesn't work. Supposedly building
i386 binaries on alpha does work, but I've not verified it with these
patches, however.
in time to build inetd. (If you already have /usr/include/tcpd.h, the
build doesn't fail. This mainly affects upgrades and 'make world' from
systems more than a few weeks old)
Move was necessary as libgcc should be built with the freshly built
compiler and thus we must wait until the freshly built bits have been
installed somewhere so we can use them. libgcc presence in gnu/usr.bin/cc/
gets in the way of building the new compiler. We could have either
cd'ed to specific directories w/in gnu/usr.bin/cc/ and built and installed
individual bits, or move libgcc out of the way and let our normal subdir
building process work.
* Don't build libgcc in "bootstrap-libraries:" target it should not be
assumed the currently installed compiler can correctly build libgcc.
(as is the case for g++ 2.7.2 and EGCS' libgcc)
committers. A 'make aout-to-elf' is strongly encouraged. This isn't quite
the end of the line for people who have a real problem with updating yet,
but we've got to get this over and done with. Yes, it's bound to be a
couple of bumpy couple of days.
target (see the previous log message). This works for bootstrapping
from 2.2.7. It won't work for bootstrapping from 2.1.x, but that
fails due to include problems earlier.
probably other versions by spamming ${DESTDIR}/usr/include in much
the same way as `make includes'.
Details for 2.2.7: the bootstrap target has always done a weak spam
of ${DESTDIR}/usr/include; we depend on it not installing any
significant anachronisms (it probably shouldn't touch the headers
at all; however, we may be depending on it for things like the
renaming of ts_nsec to ts_sec in <sys/time.h>). Rev.1.49 strengthens
the spam to everything in src/include. For 2.2.7, this is not
immediately fatal. However, the `make all' step in src/includes
is not followed by a `make clean' step, so new rpc headers are not
generated after we've bootstrapped rpcgen. This causes a fatal
error much later when the old (generated) rpc headers are used with
the current headers (sys/types.h and/or the non-generated rpc
headers).
Details for 2.1.x: the bug is immediately fatal. It gives definition
of errno that is not supported by 2.1.x's libc. The weak spam in the
restored version avoids this problem by not installing errno.h.
(Bootstrapping from 2.1.5 actually breaks much earlier.)
I think the header problems supposedly fixed by rev.1.49 were caused
by using NOCLEAN and having the build fall over when the weakly
spammed headers are active. Minor differences in the layout will
then cause the .depend files to point to nonexistent headers. It
is a feature for symlinks like errno.h -> sys/errno.h to not exist
early.
The other change in rev.1.49 breaks building obj directories if NOCLEAN
is set. It is only safe for _re_building with NOCLEAN set.
try and recurse if the lkm dir exists for some reason but there isn't any
Makefile there. (eg: stray files prevented cvs update -P from removing the
empty dirs)
some tools requiring header files, such as errno.h, that are softlinks.
The mini installation of include files in Makefile.inc1 wasn't doing
the job, so it has been ripped out and replaced with a true make of the
/usr/src/include/ directory (make all and make beforeinstall). I think
the original idea was to save time by not installing unnecessary header
files, but it doesn't really save all that much time.
Also, I have moved a NOCLEAN conditional to cover rebuilding the object
tree 'Rebuilding the ${OBJFORMAT} obj tree' section. This may or may not
be correct but it appears to function properly. If it is not correct we
need to find another way to avoid scanning every single file in the
entire source hierarchy for make restarts.
Build the ordered list of libraries in a variable "_libs" before
building any of them. This eliminates a little bit of duplicated
code. More importantly, it makes it easier to include or exclude
libraries with .if constructs, because the list can be built in
multiple steps using "+=".
`make world' case, and only made a difference for the evil NOTOOLS case
of `make world' since games tools are installed in ${TOOLROOT}/usr/bin
if they are built, but the PR was for normal builds. This is fixed
in rev.1.14 of src/games/fortune/datfiles/Makefile.
PR: 7936
- in the elf case, csu must be built and installed before any shared
libraries. It wasn't, but we usually used a stale version that
happened to work. E.g., in the !NOTOOLS case we used the version
built and installed by the bootstrap-libraries target. Only cross
building was completely broken.
- the shared libmd must be built and installed before any shared
libraries that link to it. It wasn't, but we sometimes used a stale
version that happened to work, as above. For elf, this caused
bogus linkage of the target shared libatm and libopie with the host
static libmd. It isn't clear what this actually breaks, except for
cross compiling. For aout, the shared libmd is not built at all, so
all shared libraries linked to libmd may be broken. The linker
reports them by spewing RRS warnings.
Note that building src/lib early and building subdirs of src/lib in
the correct order in src/lib/Makefile doesn't help, since the subdirs
are all built before any are installed.
Fixed bitrot in the comments about the ordering requirements.
Remove /sys/boot from legacy-build.
Add btxld to build-tools.
In src/sys/Makefile:
Add /sys/boot for i386 ELF.
I'm still not sure why the new boot code was being built along with the
legacy stuff, which meant a completely wrong default environment for it.
This may well still be the wrong way to go about this, but it can't work
all that much worse than it has been.
Prompted by: bde
Also. Don't build & install legacy lkm's when NOLKM has been set.
Otherwise it gets built in the src tree rather than obj, because the
previous 'make obj' at the start of legacy-build does respect NOLKM.
was constructed early enough, so perl was linking against the static lib.
This was breaking perl under ELF, as perl could not load shared objects
(in fact would dump core).
Install the rest of the legacy libraries (like libgcc.a, libl.a).
Add games to the user's path to avoid the temptation for people to
hack paths to unsuitable tools.
Make output of make world more readable for grep. Now a
grep '>>>' world.log
shows you the single stages through which the bootstrap
process went as discussed on -current. Could be used to
debug the bootstrap mechanism in case of trouble more
easily. Would be fine if any further @echo "..." messages
containing a description, what's going on, could use the
new format: @echo ">>> ..."
===================================
HARP | Host ATM Research Platform
===================================
HARP 3
What is this stuff?
-------------------
The Advanced Networking Group (ANG) at the Minnesota Supercomputer Center,
Inc. (MSCI), as part of its work on the MAGIC Gigabit Testbed, developed
the Host ATM Research Platform (HARP) software, which allows IP hosts to
communicate over ATM networks using standard protocols. It is intended to
be a high-quality platform for IP/ATM research.
HARP provides a way for IP hosts to connect to ATM networks. It supports
standard methods of communication using IP over ATM. A host's standard IP
software sends and receives datagrams via a HARP ATM interface. HARP provides
functionality similar to (and typically replaces) vendor-provided ATM device
driver software.
HARP includes full source code, making it possible for researchers to
experiment with different approaches to running IP over ATM. HARP is
self-contained; it requires no other licenses or commercial software packages.
HARP implements support for the IETF Classical IP model for using IP over ATM
networks, including:
o IETF ATMARP address resolution client
o IETF ATMARP address resolution server
o IETF SCSP/ATMARP server
o UNI 3.1 and 3.0 signalling protocols
o Fore Systems's SPANS signalling protocol
What's supported
----------------
The following are supported by HARP 3:
o ATM Host Interfaces
- FORE Systems, Inc. SBA-200 and SBA-200E ATM SBus Adapters
- FORE Systems, Inc. PCA-200E ATM PCI Adapters
- Efficient Networks, Inc. ENI-155p ATM PCI Adapters
o ATM Signalling Protocols
- The ATM Forum UNI 3.1 signalling protocol
- The ATM Forum UNI 3.0 signalling protocol
- The ATM Forum ILMI address registration
- FORE Systems's proprietary SPANS signalling protocol
- Permanent Virtual Channels (PVCs)
o IETF "Classical IP and ARP over ATM" model
- RFC 1483, "Multiprotocol Encapsulation over ATM Adaptation Layer 5"
- RFC 1577, "Classical IP and ARP over ATM"
- RFC 1626, "Default IP MTU for use over ATM AAL5"
- RFC 1755, "ATM Signaling Support for IP over ATM"
- RFC 2225, "Classical IP and ARP over ATM"
- RFC 2334, "Server Cache Synchronization Protocol (SCSP)"
- Internet Draft draft-ietf-ion-scsp-atmarp-00.txt,
"A Distributed ATMARP Service Using SCSP"
o ATM Sockets interface
- The file atm-sockets.txt contains further information
What's not supported
--------------------
The following major features of the above list are not currently supported:
o UNI point-to-multipoint support
o Driver support for Traffic Control/Quality of Service
o SPANS multicast and MPP support
o SPANS signalling using Efficient adapters
This software was developed under the sponsorship of the Defense Advanced
Research Projects Agency (DARPA).
Reviewed (lightly) by: phk
Submitted by: Network Computing Services, Inc.
a port so there is nothing to be done on that side now.
Approved by: jkh
===
To: "Jordan K. Hubbard" <jkh@time.cdrom.com>
cc: Andreas Klemm <andreas@klemm.gtn.com>, current@freebsd.org
Subject: Re: Make this a relese coordinator decision (was Re: ports-current/packages-current discontinued)
From: David Greenman <dg@root.com>
Date: Sun, 03 Aug 1997 20:23:31 -0700
>decision is, I'll respect it.
Another chance to architect people's principles...I can hardly wait. Seems
quite appropriate for a Sunday - I just need to get one of those collection
plates (and money envelopes) so I can profit, too. :-)
Tcl stays in /usr/src for now, but it needs to be kept up to date; same
for perl. If Jordan doesn't have "setup" (written in tcl) ready for 3.0,
then tcl will be yanked prior to the 3.0 release (and made into a port).
As for the ports tree only supporting the last FreeBSD release, this seems
sensible to me. The "ports" have always been a moving target between releases
and the problem is only going to get worse when we expand to supporting other
processor architectures. In any case, Satoshi is and always has been in charge
of the ports tree and whatever he wants to do with it (within reason :-)) is
his decision.
Does this cover the issue completely? I admit to deleting messages in this
thread with unusual fervor (people have FAR too much time on their hands!).
There's a fair bit of reasoning behind the above, but since everyone is sick
of arguing about this, I'll spare you the analysis.
-DG
David Greenman
Core-team/Principal Architect, The FreeBSD Project
with the object format determined by objformat. This prevents foot
shooting (a form of boot scooting for hackers?) where local changes
to /etc/make.conf or /etc/make.conf.local try to override OBJFORMAT
in an incomplete way.
- Moved most of the guts of Makefile to Makefile.inc1 to become the
backend for the build system.
- The new Makefile doesn't suffer from problems including the wrong
sys.mk because it doesn't use anything in there or bsd.own.mk. So,
from now on, the proper build command is just `make world' (or
buildworld).
- The intermediate makefiles called Makefile.inc0 and Makefile.upgrade
fiddle with the OBJFORMAT and MAKEOBJDIRPREFIX variables so that
both aout and elf object trees can coexist. Makefile.upgrade contains
the aout->elf transition build.
- A cross build environment is now very close to reality. Specifying
TOOLDIR, setting OBJFORMAT and MAKEOBJDIRPREFIX allow that.
See the comments in Makefile for more info.