NetBSD/build.sh

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#! /usr/bin/env sh
# $NetBSD: build.sh,v 1.231 2010/03/07 17:34:25 hans Exp $
#
# Copyright (c) 2001-2009 The NetBSD Foundation, Inc.
# All rights reserved.
#
# This code is derived from software contributed to The NetBSD Foundation
# by Todd Vierling and Luke Mewburn.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions
# are met:
# 1. Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# 2. Redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution.
#
# THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
# ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
# TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
# PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
# BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
# CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
# SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
# INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
# CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
# ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
# POSSIBILITY OF SUCH DAMAGE.
#
#
# Top level build wrapper, for a system containing no tools.
#
# This script should run on any POSIX-compliant shell. If the
# first "sh" found in the PATH is a POSIX-compliant shell, then
# you should not need to take any special action. Otherwise, you
# should set the environment variable HOST_SH to a POSIX-compliant
# shell, and invoke build.sh with that shell. (Depending on your
# system, one of /bin/ksh, /usr/local/bin/bash, or /usr/xpg4/bin/sh
# might be a suitable shell.)
#
progname=${0##*/}
toppid=$$
results=/dev/null
tab=' '
trap "exit 1" 1 2 3 15
bomb()
{
cat >&2 <<ERRORMESSAGE
ERROR: $@
*** BUILD ABORTED ***
ERRORMESSAGE
kill ${toppid} # in case we were invoked from a subshell
exit 1
}
statusmsg()
{
${runcmd} echo "===> $@" | tee -a "${results}"
}
warning()
{
statusmsg "Warning: $@"
}
# Find a program in the PATH, and print the result. If not found,
# print a default. If $2 is defined (even if it is an empty string),
# then that is the default; otherwise, $1 is used as the default.
find_in_PATH()
{
local prog="$1"
local result="${2-"$1"}"
local oldIFS="${IFS}"
local dir
IFS=":"
for dir in ${PATH}; do
if [ -x "${dir}/${prog}" ]; then
result="${dir}/${prog}"
break
fi
done
IFS="${oldIFS}"
echo "${result}"
}
# Try to find a working POSIX shell, and set HOST_SH to refer to it.
# Assumes that uname_s, uname_m, and PWD have been set.
set_HOST_SH()
{
# Even if ${HOST_SH} is already defined, we still do the
# sanity checks at the end.
# Solaris has /usr/xpg4/bin/sh.
#
[ -z "${HOST_SH}" ] && [ x"${uname_s}" = x"SunOS" ] && \
[ -x /usr/xpg4/bin/sh ] && HOST_SH="/usr/xpg4/bin/sh"
# Try to get the name of the shell that's running this script,
# by parsing the output from "ps". We assume that, if the host
# system's ps command supports -o comm at all, it will do so
# in the usual way: a one-line header followed by a one-line
# result, possibly including trailing white space. And if the
# host system's ps command doesn't support -o comm, we assume
# that we'll get an error message on stderr and nothing on
# stdout. (We don't try to use ps -o 'comm=' to suppress the
# header line, because that is less widely supported.)
#
# If we get the wrong result here, the user can override it by
# specifying HOST_SH in the environment.
#
[ -z "${HOST_SH}" ] && HOST_SH="$(
(ps -p $$ -o comm | sed -ne "2s/[ ${tab}]*\$//p") 2>/dev/null )"
# If nothing above worked, use "sh". We will later find the
# first directory in the PATH that has a "sh" program.
#
[ -z "${HOST_SH}" ] && HOST_SH="sh"
# If the result so far is not an absolute path, try to prepend
# PWD or search the PATH.
#
case "${HOST_SH}" in
/*) :
;;
*/*) HOST_SH="${PWD}/${HOST_SH}"
;;
*) HOST_SH="$(find_in_PATH "${HOST_SH}")"
;;
esac
# If we don't have an absolute path by now, bomb.
#
case "${HOST_SH}" in
/*) :
;;
*) bomb "HOST_SH=\"${HOST_SH}\" is not an absolute path."
;;
esac
# If HOST_SH is not executable, bomb.
#
[ -x "${HOST_SH}" ] ||
bomb "HOST_SH=\"${HOST_SH}\" is not executable."
}
initdefaults()
{
makeenv=
makewrapper=
makewrappermachine=
runcmd=
operations=
removedirs=
[ -d usr.bin/make ] || cd "$(dirname $0)"
[ -d usr.bin/make ] ||
bomb "build.sh must be run from the top source level"
[ -f share/mk/bsd.own.mk ] ||
bomb "src/share/mk is missing; please re-fetch the source tree"
# Set LC_ALL=C before we try to parse the output from any command
setmakeenv LC_ALL C
# Find information about the build platform. This should be
# kept in sync with _HOST_OSNAME, _HOST_OSREL, and _HOST_ARCH
# variables in share/mk/bsd.sys.mk.
#
# Note that "uname -p" is not part of POSIX, but we want uname_p
# to be set to the host MACHINE_ARCH, if possible. On systems
# where "uname -p" fails, prints "unknown", or prints a string
# that does not look like an identifier, fall back to using the
# output from "uname -m" instead.
#
uname_s=$(uname -s 2>/dev/null)
uname_r=$(uname -r 2>/dev/null)
uname_m=$(uname -m 2>/dev/null)
uname_p=$(uname -p 2>/dev/null || echo "unknown")
case "${uname_p}" in
''|unknown|*[^-_A-Za-z0-9]*) uname_p="${uname_m}" ;;
esac
id_u=$(id -u 2>/dev/null || /usr/xpg4/bin/id -u 2>/dev/null)
# If $PWD is a valid name of the current directory, POSIX mandates
# that pwd return it by default which causes problems in the
# presence of symlinks. Unsetting PWD is simpler than changing
# every occurrence of pwd to use -P.
#
# XXX Except that doesn't work on Solaris. Or many Linuces.
#
unset PWD
TOP=$(/bin/pwd -P 2>/dev/null || /bin/pwd 2>/dev/null)
# The user can set HOST_SH in the environment, or we try to
# guess an appropriate value. Then we set several other
# variables from HOST_SH.
#
set_HOST_SH
setmakeenv HOST_SH "${HOST_SH}"
setmakeenv BSHELL "${HOST_SH}"
setmakeenv CONFIG_SHELL "${HOST_SH}"
# Set defaults.
#
toolprefix=nb
# Some systems have a small ARG_MAX. -X prevents make(1) from
# exporting variables in the environment redundantly.
#
case "${uname_s}" in
Darwin | FreeBSD | CYGWIN*)
MAKEFLAGS=-X
;;
*)
MAKEFLAGS=
;;
esac
# do_{operation}=true if given operation is requested.
#
do_expertmode=false
do_rebuildmake=false
do_removedirs=false
do_tools=false
do_cleandir=false
do_obj=false
do_build=false
do_distribution=false
do_release=false
do_kernel=false
do_releasekernel=false
do_modules=false
do_install=false
do_sets=false
do_sourcesets=false
do_syspkgs=false
do_iso_image=false
do_iso_image_source=false
do_params=false
do_rump=false
# done_{operation}=true if given operation has been done.
#
done_rebuildmake=false
# Create scratch directory
#
tmpdir="${TMPDIR-/tmp}/nbbuild$$"
mkdir "${tmpdir}" || bomb "Cannot mkdir: ${tmpdir}"
trap "cd /; rm -r -f \"${tmpdir}\"" 0
results="${tmpdir}/build.sh.results"
# Set source directories
#
setmakeenv NETBSDSRCDIR "${TOP}"
# Find the version of NetBSD
#
DISTRIBVER="$(${HOST_SH} ${TOP}/sys/conf/osrelease.sh)"
# Set the BUILDSEED to NetBSD-"N"
#
setmakeenv BUILDSEED "NetBSD-$(${HOST_SH} ${TOP}/sys/conf/osrelease.sh -m)"
# Set MKARZERO to "yes"
#
setmakeenv MKARZERO "yes"
# Set various environment variables to known defaults,
# to minimize (cross-)build problems observed "in the field".
#
unsetmakeenv INFODIR
unsetmakeenv LESSCHARSET
}
getarch()
{
# Translate some MACHINE name aliases (known only to build.sh)
# into proper MACHINE and MACHINE_ARCH names. Save the alias
# name in makewrappermachine.
#
case "${MACHINE}" in
evbarm-e[bl])
makewrappermachine=${MACHINE}
# MACHINE_ARCH is "arm" or "armeb", not "armel"
MACHINE_ARCH=arm${MACHINE##*-}
MACHINE_ARCH=${MACHINE_ARCH%el}
MACHINE=${MACHINE%-e[bl]}
;;
evbmips-e[bl]|sbmips-e[bl])
makewrappermachine=${MACHINE}
MACHINE_ARCH=mips${MACHINE##*-}
MACHINE=${MACHINE%-e[bl]}
;;
evbmips64-e[bl]|sbmips64-e[bl])
makewrappermachine=${MACHINE}
MACHINE_ARCH=mips64${MACHINE##*-}
MACHINE=${MACHINE%64-e[bl]}
;;
evbsh3-e[bl])
makewrappermachine=${MACHINE}
MACHINE_ARCH=sh3${MACHINE##*-}
MACHINE=${MACHINE%-e[bl]}
;;
esac
# Translate a MACHINE into a default MACHINE_ARCH.
#
case "${MACHINE}" in
acorn26|acorn32|cats|hpcarm|iyonix|netwinder|shark|zaurus)
MACHINE_ARCH=arm
;;
evbarm) # unspecified MACHINE_ARCH gets LE
MACHINE_ARCH=${MACHINE_ARCH:=arm}
;;
hp700)
MACHINE_ARCH=hppa
;;
sun2)
MACHINE_ARCH=m68000
;;
amiga|atari|cesfic|hp300|luna68k|mac68k|mvme68k|news68k|next68k|sun3|x68k)
MACHINE_ARCH=m68k
;;
evbmips|sbmips) # no default MACHINE_ARCH
;;
sgimips64)
makewrappermachine=${MACHINE}
MACHINE=${MACHINE%64}
MACHINE_ARCH=mips64eb
;;
ews4800mips|mipsco|newsmips|sgimips)
MACHINE_ARCH=mipseb
;;
algor64|cobalt64|pmax64)
makewrappermachine=${MACHINE}
MACHINE=${MACHINE%64}
MACHINE_ARCH=mips64el
;;
algor|arc|cobalt|hpcmips|pmax)
MACHINE_ARCH=mipsel
;;
evbppc64|macppc64|ofppc64)
makewrappermachine=${MACHINE}
MACHINE=${MACHINE%64}
MACHINE_ARCH=powerpc64
;;
amigappc|bebox|evbppc|ibmnws|macppc|mvmeppc|ofppc|prep|rs6000|sandpoint)
MACHINE_ARCH=powerpc
;;
evbsh3) # no default MACHINE_ARCH
;;
mmeye)
MACHINE_ARCH=sh3eb
;;
dreamcast|hpcsh|landisk)
MACHINE_ARCH=sh3el
;;
amd64)
MACHINE_ARCH=x86_64
;;
alpha|i386|sparc|sparc64|vax|ia64)
MACHINE_ARCH=${MACHINE}
;;
*)
bomb "Unknown target MACHINE: ${MACHINE}"
;;
esac
}
validatearch()
{
# Ensure that the MACHINE_ARCH exists (and is supported by build.sh).
#
case "${MACHINE_ARCH}" in
alpha|arm|armeb|hppa|i386|m68000|m68k|mipse[bl]|mips64e[bl]|powerpc|powerpc64|sh3e[bl]|sparc|sparc64|vax|x86_64|ia64)
;;
"")
bomb "No MACHINE_ARCH provided"
;;
*)
bomb "Unknown target MACHINE_ARCH: ${MACHINE_ARCH}"
;;
esac
# Determine valid MACHINE_ARCHs for MACHINE
#
case "${MACHINE}" in
evbarm)
arches="arm armeb"
;;
algor|cobalt|pmax)
arches="mipsel mips64el"
;;
evbmips|sbmips)
arches="mipseb mipsel mips64eb mips64el"
;;
sgimips)
arches="mipseb mips64eb"
;;
evbsh3)
arches="sh3eb sh3el"
;;
macppc|evbppc|ofppc)
arches="powerpc powerpc64"
;;
*)
oma="${MACHINE_ARCH}"
getarch
arches="${MACHINE_ARCH}"
MACHINE_ARCH="${oma}"
;;
esac
# Ensure that MACHINE_ARCH supports MACHINE
#
archok=false
for a in ${arches}; do
if [ "${a}" = "${MACHINE_ARCH}" ]; then
archok=true
break
fi
done
${archok} ||
bomb "MACHINE_ARCH '${MACHINE_ARCH}' does not support MACHINE '${MACHINE}'"
}
# nobomb_getmakevar --
# Given the name of a make variable in $1, print make's idea of the
# value of that variable, or return 1 if there's an error.
#
nobomb_getmakevar()
{
[ -x "${make}" ] || return 1
"${make}" -m ${TOP}/share/mk -s -B -f- _x_ <<EOF || return 1
_x_:
echo \${$1}
.include <bsd.prog.mk>
.include <bsd.kernobj.mk>
EOF
}
# nobomb_getmakevar --
# Given the name of a make variable in $1, print make's idea of the
# value of that variable, or bomb if there's an error.
#
bomb_getmakevar()
{
[ -x "${make}" ] || bomb "bomb_getmakevar $1: ${make} is not executable"
nobomb_getmakevar "$1" || bomb "bomb_getmakevar $1: ${make} failed"
}
# nobomb_getmakevar --
# Given the name of a make variable in $1, print make's idea of the
# value of that variable, or print a literal '$' followed by the
# variable name if ${make} is not executable. This is intended for use in
# messages that need to be readable even if $make hasn't been built,
# such as when build.sh is run with the "-n" option.
#
getmakevar()
{
if [ -x "${make}" ]; then
bomb_getmakevar "$1"
else
echo "\$$1"
fi
}
setmakeenv()
{
eval "$1='$2'; export $1"
makeenv="${makeenv} $1"
}
unsetmakeenv()
{
eval "unset $1"
makeenv="${makeenv} $1"
}
# Given a variable name in $1, modify the variable in place as follows:
# For each space-separated word in the variable, call resolvepath.
resolvepaths()
{
local var="$1"
local val
eval val=\"\${${var}}\"
local newval=''
local word
for word in ${val}; do
resolvepath word
newval="${newval}${newval:+ }${word}"
done
eval ${var}=\"\${newval}\"
}
# Given a variable name in $1, modify the variable in place as follows:
# Convert possibly-relative path to absolute path by prepending
# ${TOP} if necessary. Also delete trailing "/", if any.
resolvepath()
{
local var="$1"
local val
eval val=\"\${${var}}\"
case "${val}" in
/)
;;
/*)
val="${val%/}"
;;
*)
val="${TOP}/${val%/}"
;;
esac
eval ${var}=\"\${val}\"
}
usage()
{
if [ -n "$*" ]; then
echo ""
echo "${progname}: $*"
fi
cat <<_usage_
Usage: ${progname} [-EnorUux] [-a arch] [-B buildid] [-C cdextras]
[-D dest] [-j njob] [-M obj] [-m mach] [-N noisy]
[-O obj] [-R release] [-S seed] [-T tools]
[-V var=[value]] [-w wrapper] [-X x11src] [-Y extsrcsrc]
[-Z var]
operation [...]
Build operations (all imply "obj" and "tools"):
build Run "make build".
distribution Run "make distribution" (includes DESTDIR/etc/ files).
release Run "make release" (includes kernels & distrib media).
Other operations:
help Show this message and exit.
makewrapper Create ${toolprefix}make-\${MACHINE} wrapper and ${toolprefix}make.
Always performed.
cleandir Run "make cleandir". [Default unless -u is used]
obj Run "make obj". [Default unless -o is used]
tools Build and install tools.
install=idir Run "make installworld" to \`idir' to install all sets
except \`etc'. Useful after "distribution" or "release"
kernel=conf Build kernel with config file \`conf'
releasekernel=conf Install kernel built by kernel=conf to RELEASEDIR.
modules Build kernel modules.
rumptest Do a linktest for rump (for developers).
sets Create binary sets in
RELEASEDIR/RELEASEMACHINEDIR/binary/sets.
DESTDIR should be populated beforehand.
sourcesets Create source sets in RELEASEDIR/source/sets.
syspkgs Create syspkgs in
RELEASEDIR/RELEASEMACHINEDIR/binary/syspkgs.
iso-image Create CD-ROM image in RELEASEDIR/iso.
iso-image-source Create CD-ROM image with source in RELEASEDIR/iso.
params Display various make(1) parameters.
Options:
-a arch Set MACHINE_ARCH to arch. [Default: deduced from MACHINE]
-B buildId Set BUILDID to buildId.
-C cdextras Append cdextras to CDEXTRA variable for inclusion on CD-ROM.
-D dest Set DESTDIR to dest. [Default: destdir.MACHINE]
-E Set "expert" mode; disables various safety checks.
Should not be used without expert knowledge of the build system.
-h Print this help message.
-j njob Run up to njob jobs in parallel; see make(1) -j.
-M obj Set obj root directory to obj; sets MAKEOBJDIRPREFIX.
Unsets MAKEOBJDIR.
-m mach Set MACHINE to mach; not required if NetBSD native.
-N noisy Set the noisyness (MAKEVERBOSE) level of the build:
0 Minimal output ("quiet")
1 Describe what is occurring
2 Describe what is occurring and echo the actual command
3 Ignore the effect of the "@" prefix in make commands
4 Trace shell commands using the shell's -x flag
[Default: 2]
-n Show commands that would be executed, but do not execute them.
-O obj Set obj root directory to obj; sets a MAKEOBJDIR pattern.
Unsets MAKEOBJDIRPREFIX.
-o Set MKOBJDIRS=no; do not create objdirs at start of build.
-R release Set RELEASEDIR to release. [Default: releasedir]
-r Remove contents of TOOLDIR and DESTDIR before building.
-S seed Set BUILDSEED to seed. [Default: NetBSD-majorversion]
-T tools Set TOOLDIR to tools. If unset, and TOOLDIR is not set in
the environment, ${toolprefix}make will be (re)built unconditionally.
-U Set MKUNPRIVED=yes; build without requiring root privileges,
install from an UNPRIVED build with proper file permissions.
-u Set MKUPDATE=yes; do not run "make cleandir" first.
Without this, everything is rebuilt, including the tools.
-V v=[val] Set variable \`v' to \`val'.
-w wrapper Create ${toolprefix}make script as wrapper.
[Default: \${TOOLDIR}/bin/${toolprefix}make-\${MACHINE}]
-X x11src Set X11SRCDIR to x11src. [Default: /usr/xsrc]
-x Set MKX11=yes; build X11 from X11SRCDIR
-Y extsrcsrc
Set EXTSRCSRCDIR to extsrcsrc. [Default: /usr/extsrc]
-y Set MKEXTSRC=yes; build extsrc from EXTSRCSRCDIR
-Z v Unset ("zap") variable \`v'.
_usage_
exit 1
}
parseoptions()
{
opts='a:B:C:D:Ehj:M:m:N:nO:oR:rS:T:UuV:w:xX:yY:Z:'
opt_a=no
if type getopts >/dev/null 2>&1; then
# Use POSIX getopts.
#
getoptcmd='getopts ${opts} opt && opt=-${opt}'
optargcmd=':'
optremcmd='shift $((${OPTIND} -1))'
else
type getopt >/dev/null 2>&1 ||
bomb "/bin/sh shell is too old; try ksh or bash"
# Use old-style getopt(1) (doesn't handle whitespace in args).
#
args="$(getopt ${opts} $*)"
[ $? = 0 ] || usage
set -- ${args}
getoptcmd='[ $# -gt 0 ] && opt="$1" && shift'
optargcmd='OPTARG="$1"; shift'
optremcmd=':'
fi
# Parse command line options.
#
while eval ${getoptcmd}; do
case ${opt} in
-a)
eval ${optargcmd}
MACHINE_ARCH=${OPTARG}
opt_a=yes
;;
-B)
eval ${optargcmd}
BUILDID=${OPTARG}
;;
-C)
eval ${optargcmd}; resolvepaths OPTARG
CDEXTRA="${CDEXTRA}${CDEXTRA:+ }${OPTARG}"
;;
-D)
eval ${optargcmd}; resolvepath OPTARG
setmakeenv DESTDIR "${OPTARG}"
;;
-E)
do_expertmode=true
;;
-j)
eval ${optargcmd}
parallel="-j ${OPTARG}"
;;
-M)
eval ${optargcmd}; resolvepath OPTARG
case "${OPTARG}" in
\$*) usage "-M argument must not begin with '$'"
;;
*\$*) # can use resolvepath, but can't set TOP_objdir
resolvepath OPTARG
;;
*) resolvepath OPTARG
TOP_objdir="${OPTARG}${TOP}"
;;
esac
unsetmakeenv MAKEOBJDIR
setmakeenv MAKEOBJDIRPREFIX "${OPTARG}"
;;
# -m overrides MACHINE_ARCH unless "-a" is specified
-m)
eval ${optargcmd}
MACHINE="${OPTARG}"
[ "${opt_a}" != "yes" ] && getarch
;;
-N)
eval ${optargcmd}
case "${OPTARG}" in
0|1|2|3|4)
setmakeenv MAKEVERBOSE "${OPTARG}"
;;
*)
usage "'${OPTARG}' is not a valid value for -N"
;;
esac
;;
-n)
runcmd=echo
;;
-O)
eval ${optargcmd}
case "${OPTARG}" in
*\$*) usage "-O argument must not contain '$'"
;;
*) resolvepath OPTARG
TOP_objdir="${OPTARG}"
;;
esac
unsetmakeenv MAKEOBJDIRPREFIX
setmakeenv MAKEOBJDIR "\${.CURDIR:C,^$TOP,$OPTARG,}"
;;
-o)
MKOBJDIRS=no
;;
-R)
eval ${optargcmd}; resolvepath OPTARG
setmakeenv RELEASEDIR "${OPTARG}"
;;
-r)
do_removedirs=true
do_rebuildmake=true
;;
-S)
eval ${optargcmd}
setmakeenv BUILDSEED "${OPTARG}"
;;
-T)
eval ${optargcmd}; resolvepath OPTARG
TOOLDIR="${OPTARG}"
export TOOLDIR
;;
-U)
setmakeenv MKUNPRIVED yes
;;
-u)
setmakeenv MKUPDATE yes
;;
-V)
eval ${optargcmd}
case "${OPTARG}" in
# XXX: consider restricting which variables can be changed?
[a-zA-Z_][a-zA-Z_0-9]*=*)
setmakeenv "${OPTARG%%=*}" "${OPTARG#*=}"
;;
*)
usage "-V argument must be of the form 'var=[value]'"
;;
esac
;;
-w)
eval ${optargcmd}; resolvepath OPTARG
makewrapper="${OPTARG}"
;;
-X)
eval ${optargcmd}; resolvepath OPTARG
setmakeenv X11SRCDIR "${OPTARG}"
;;
-x)
setmakeenv MKX11 yes
;;
-Y)
eval ${optargcmd}; resolvepath OPTARG
setmakeenv EXTSRCSRCDIR "${OPTARG}"
;;
-y)
setmakeenv MKEXTSRC yes
;;
-Z)
eval ${optargcmd}
# XXX: consider restricting which variables can be unset?
unsetmakeenv "${OPTARG}"
;;
--)
break
;;
-'?'|-h)
usage
;;
esac
done
# Validate operations.
#
eval ${optremcmd}
while [ $# -gt 0 ]; do
op=$1; shift
operations="${operations} ${op}"
case "${op}" in
help)
usage
;;
makewrapper|cleandir|obj|tools|build|distribution|release|sets|sourcesets|syspkgs|params)
;;
iso-image)
op=iso_image # used as part of a variable name
;;
iso-image-source)
op=iso_image_source # used as part of a variable name
;;
kernel=*|releasekernel=*)
arg=${op#*=}
op=${op%%=*}
[ -n "${arg}" ] ||
bomb "Must supply a kernel name with \`${op}=...'"
;;
modules)
op=modules
;;
install=*)
arg=${op#*=}
op=${op%%=*}
[ -n "${arg}" ] ||
bomb "Must supply a directory with \`install=...'"
;;
rump|rumptest)
op=${op}
;;
*)
usage "Unknown operation \`${op}'"
;;
esac
eval do_${op}=true
done
[ -n "${operations}" ] || usage "Missing operation to perform."
# Set up MACHINE*. On a NetBSD host, these are allowed to be unset.
#
if [ -z "${MACHINE}" ]; then
[ "${uname_s}" = "NetBSD" ] ||
bomb "MACHINE must be set, or -m must be used, for cross builds."
MACHINE=${uname_m}
fi
[ -n "${MACHINE_ARCH}" ] || getarch
validatearch
# Set up default make(1) environment.
#
makeenv="${makeenv} TOOLDIR MACHINE MACHINE_ARCH MAKEFLAGS"
[ -z "${BUILDID}" ] || makeenv="${makeenv} BUILDID"
MAKEFLAGS="-de -m ${TOP}/share/mk ${MAKEFLAGS} MKOBJDIRS=${MKOBJDIRS-yes}"
export MAKEFLAGS MACHINE MACHINE_ARCH
}
sanitycheck()
{
# If the PATH contains any non-absolute components (including,
# but not limited to, "." or ""), then complain. As an exception,
# allow "" or "." as the last component of the PATH. This is fatal
# if expert mode is not in effect.
#
local path="${PATH}"
path="${path%:}" # delete trailing ":"
path="${path%:.}" # delete trailing ":."
case ":${path}:/" in
*:[!/]*)
if ${do_expertmode}; then
warning "PATH contains non-absolute components"
else
bomb "PATH environment variable must not" \
"contain non-absolute components"
fi
;;
esac
}
# print_tooldir_make --
# Try to find and print a path to an existing
# ${TOOLDIR}/bin/${toolprefix}make, for use by rebuildmake() before a
# new version of ${toolprefix}make has been built.
#
# * If TOOLDIR was set in the environment or on the command line, use
# that value.
# * Otherwise try to guess what TOOLDIR would be if not overridden by
# /etc/mk.conf, and check whether the resulting directory contains
# a copy of ${toolprefix}make (this should work for everybody who
# doesn't override TOOLDIR via /etc/mk.conf);
# * Failing that, search for ${toolprefix}make, nbmake, bmake, or make,
# in the PATH (this might accidentally find a non-NetBSD version of
# make, which will lead to failure in the next step);
# * If a copy of make was found above, try to use it with
# nobomb_getmakevar to find the correct value for TOOLDIR, and believe the
# result only if it's a directory that already exists;
# * If a value of TOOLDIR was found above, and if
# ${TOOLDIR}/bin/${toolprefix}make exists, print that value.
#
print_tooldir_make()
{
local possible_TOP_OBJ
local possible_TOOLDIR
local possible_make
local tooldir_make
if [ -n "${TOOLDIR}" ]; then
echo "${TOOLDIR}/bin/${toolprefix}make"
return 0
fi
# Set host_ostype to something like "NetBSD-4.5.6-i386". This
# is intended to match the HOST_OSTYPE variable in <bsd.own.mk>.
#
local host_ostype="${uname_s}-$(
echo "${uname_r}" | sed -e 's/([^)]*)//g' -e 's/ /_/g'
)-$(
echo "${uname_p}" | sed -e 's/([^)]*)//g' -e 's/ /_/g'
)"
# Look in a few potential locations for
# ${possible_TOOLDIR}/bin/${toolprefix}make.
# If we find it, then set possible_make.
#
# In the usual case (without interference from environment
# variables or /etc/mk.conf), <bsd.own.mk> should set TOOLDIR to
# "${_SRC_TOP_OBJ_}/tooldir.${host_ostype}".
#
# In practice it's difficult to figure out the correct value
# for _SRC_TOP_OBJ_. In the easiest case, when the -M or -O
# options were passed to build.sh, then ${TOP_objdir} will be
# the correct value. We also try a few other possibilities, but
# we do not replicate all the logic of <bsd.obj.mk>.
#
for possible_TOP_OBJ in \
"${TOP_objdir}" \
"${MAKEOBJDIRPREFIX:+${MAKEOBJDIRPREFIX}${TOP}}" \
"${TOP}" \
"${TOP}/obj" \
"${TOP}/obj.${MACHINE}"
do
[ -n "${possible_TOP_OBJ}" ] || continue
possible_TOOLDIR="${possible_TOP_OBJ}/tooldir.${host_ostype}"
possible_make="${possible_TOOLDIR}/bin/${toolprefix}make"
if [ -x "${possible_make}" ]; then
break
else
unset possible_make
fi
done
# If the above didn't work, search the PATH for a suitable
# ${toolprefix}make, nbmake, bmake, or make.
#
: ${possible_make:=$(find_in_PATH ${toolprefix}make '')}
: ${possible_make:=$(find_in_PATH nbmake '')}
: ${possible_make:=$(find_in_PATH bmake '')}
: ${possible_make:=$(find_in_PATH make '')}
# At this point, we don't care whether possible_make is in the
# correct TOOLDIR or not; we simply want it to be usable by
# getmakevar to help us find the correct TOOLDIR.
#
# Use ${possible_make} with nobomb_getmakevar to try to find
# the value of TOOLDIR. Believe the result only if it's
# a directory that already exists and contains bin/${toolprefix}make.
#
if [ -x "${possible_make}" ]; then
possible_TOOLDIR="$(
make="${possible_make}" nobomb_getmakevar TOOLDIR
)"
if [ $? = 0 ] && [ -n "${possible_TOOLDIR}" ] \
&& [ -d "${possible_TOOLDIR}" ];
then
tooldir_make="${possible_TOOLDIR}/bin/${toolprefix}make"
if [ -x "${tooldir_make}" ]; then
echo "${tooldir_make}"
return 0
fi
fi
fi
return 1
}
# rebuildmake --
# Rebuild nbmake in a temporary directory if necessary. Sets $make
# to a path to the nbmake executable. Sets done_rebuildmake=true
# if nbmake was rebuilt.
#
# There is a cyclic dependency between building nbmake and choosing
# TOOLDIR: TOOLDIR may be affected by settings in /etc/mk.conf, so we
# would like to use getmakevar to get the value of TOOLDIR; but we can't
# use getmakevar before we have an up to date version of nbmake; we
# might already have an up to date version of nbmake in TOOLDIR, but we
# don't yet know where TOOLDIR is.
#
# The default value of TOOLDIR also depends on the location of the top
# level object directory, so $(getmakevar TOOLDIR) invoked before or
# after making the top level object directory may produce different
# results.
#
# Strictly speaking, we should do the following:
#
# 1. build a new version of nbmake in a temporary directory;
# 2. use the temporary nbmake to create the top level obj directory;
# 3. use $(getmakevar TOOLDIR) with the temporary nbmake to
# get the corect value of TOOLDIR;
# 4. move the temporary nbmake to ${TOOLDIR}/bin/nbmake.
#
# However, people don't like building nbmake unnecessarily if their
# TOOLDIR has not changed since an earlier build. We try to avoid
# rebuilding a temporary version of nbmake by taking some shortcuts to
# guess a value for TOOLDIR, looking for an existing version of nbmake
# in that TOOLDIR, and checking whether that nbmake is newer than the
# sources used to build it.
#
rebuildmake()
{
make="$(print_tooldir_make)"
if [ -n "${make}" ] && [ -x "${make}" ]; then
for f in usr.bin/make/*.[ch] usr.bin/make/lst.lib/*.[ch]; do
if [ "${f}" -nt "${make}" ]; then
statusmsg "${make} outdated" \
"(older than ${f}), needs building."
do_rebuildmake=true
break
fi
done
else
statusmsg "No \$TOOLDIR/bin/${toolprefix}make, needs building."
do_rebuildmake=true
fi
# Build bootstrap ${toolprefix}make if needed.
if ${do_rebuildmake}; then
statusmsg "Bootstrapping ${toolprefix}make"
${runcmd} cd "${tmpdir}"
${runcmd} env CC="${HOST_CC-cc}" CPPFLAGS="${HOST_CPPFLAGS}" \
CFLAGS="${HOST_CFLAGS--O}" LDFLAGS="${HOST_LDFLAGS}" \
${HOST_SH} "${TOP}/tools/make/configure" ||
bomb "Configure of ${toolprefix}make failed"
${runcmd} ${HOST_SH} buildmake.sh ||
bomb "Build of ${toolprefix}make failed"
make="${tmpdir}/${toolprefix}make"
${runcmd} cd "${TOP}"
${runcmd} rm -f usr.bin/make/*.o usr.bin/make/lst.lib/*.o
done_rebuildmake=true
fi
}
validatemakeparams()
{
if [ "${runcmd}" = "echo" ]; then
TOOLCHAIN_MISSING=no
EXTERNAL_TOOLCHAIN=""
else
TOOLCHAIN_MISSING=$(bomb_getmakevar TOOLCHAIN_MISSING)
EXTERNAL_TOOLCHAIN=$(bomb_getmakevar EXTERNAL_TOOLCHAIN)
fi
if [ "${TOOLCHAIN_MISSING}" = "yes" ] && \
[ -z "${EXTERNAL_TOOLCHAIN}" ]; then
${runcmd} echo "ERROR: build.sh (in-tree cross-toolchain) is not yet available for"
${runcmd} echo " MACHINE: ${MACHINE}"
${runcmd} echo " MACHINE_ARCH: ${MACHINE_ARCH}"
${runcmd} echo ""
${runcmd} echo "All builds for this platform should be done via a traditional make"
${runcmd} echo "If you wish to use an external cross-toolchain, set"
${runcmd} echo " EXTERNAL_TOOLCHAIN=<path to toolchain root>"
${runcmd} echo "in either the environment or mk.conf and rerun"
${runcmd} echo " ${progname} $*"
exit 1
fi
# Normalise MKOBJDIRS, MKUNPRIVED, and MKUPDATE
# These may be set as build.sh options or in "mk.conf".
# Don't export them as they're only used for tests in build.sh.
#
MKOBJDIRS=$(getmakevar MKOBJDIRS)
MKUNPRIVED=$(getmakevar MKUNPRIVED)
MKUPDATE=$(getmakevar MKUPDATE)
if [ "${MKOBJDIRS}" != "no" ]; then
# Create the top-level object directory.
#
# "make obj NOSUBDIR=" can handle most cases, but it
# can't handle the case where MAKEOBJDIRPREFIX is set
# while the corresponding directory does not exist
# (rules in <bsd.obj.mk> would abort the build). We
# therefore have to handle the MAKEOBJDIRPREFIX case
# without invoking "make obj". The MAKEOBJDIR case
# could be handled either way, but we choose to handle
# it similarly to MAKEOBJDIRPREFIX.
#
if [ -n "${TOP_obj}" ]; then
# It must have been set by the "-M" or "-O"
# command line options, so there's no need to
# use getmakevar
:
elif [ -n "$MAKEOBJDIRPREFIX" ]; then
TOP_obj="$(getmakevar MAKEOBJDIRPREFIX)${TOP}"
elif [ -n "$MAKEOBJDIR" ]; then
TOP_obj="$(getmakevar MAKEOBJDIR)"
fi
if [ -n "$TOP_obj" ]; then
${runcmd} mkdir -p "${TOP_obj}" ||
bomb "Can't create top level object directory" \
"${TOP_obj}"
else
${runcmd} "${make}" -m ${TOP}/share/mk obj NOSUBDIR= ||
bomb "Can't create top level object directory" \
"using make obj"
fi
# make obj in tools to ensure that the objdir for "tools"
# is available.
#
${runcmd} cd tools
${runcmd} "${make}" -m ${TOP}/share/mk obj NOSUBDIR= ||
bomb "Failed to make obj in tools"
${runcmd} cd "${TOP}"
fi
# Find TOOLDIR, DESTDIR, and RELEASEDIR, according to getmakevar,
# and bomb if they have changed from the values we had from the
# command line or environment.
#
# This must be done after creating the top-level object directory.
#
for var in TOOLDIR DESTDIR RELEASEDIR
do
eval oldval=\"\$${var}\"
newval="$(getmakevar $var)"
if ! $do_expertmode; then
: ${_SRC_TOP_OBJ_:=$(getmakevar _SRC_TOP_OBJ_)}
case "$var" in
DESTDIR)
: ${newval:=${_SRC_TOP_OBJ_}/destdir.${MACHINE}}
makeenv="${makeenv} DESTDIR"
;;
RELEASEDIR)
: ${newval:=${_SRC_TOP_OBJ_}/releasedir}
makeenv="${makeenv} RELEASEDIR"
;;
esac
fi
if [ -n "$oldval" ] && [ "$oldval" != "$newval" ]; then
bomb "Value of ${var} has changed" \
"(was \"${oldval}\", now \"${newval}\")"
fi
eval ${var}=\"\${newval}\"
eval export ${var}
statusmsg "${var} path: ${newval}"
done
# RELEASEMACHINEDIR is just a subdir name, e.g. "i386".
RELEASEMACHINEDIR=$(getmakevar RELEASEMACHINEDIR)
# Check validity of TOOLDIR and DESTDIR.
#
if [ -z "${TOOLDIR}" ] || [ "${TOOLDIR}" = "/" ]; then
bomb "TOOLDIR '${TOOLDIR}' invalid"
fi
removedirs="${TOOLDIR}"
if [ -z "${DESTDIR}" ] || [ "${DESTDIR}" = "/" ]; then
if ${do_build} || ${do_distribution} || ${do_release}; then
if ! ${do_build} || \
[ "${uname_s}" != "NetBSD" ] || \
[ "${uname_m}" != "${MACHINE}" ]; then
bomb "DESTDIR must != / for cross builds, or ${progname} 'distribution' or 'release'."
fi
if ! ${do_expertmode}; then
bomb "DESTDIR must != / for non -E (expert) builds"
fi
statusmsg "WARNING: Building to /, in expert mode."
statusmsg " This may cause your system to break! Reasons include:"
statusmsg " - your kernel is not up to date"
statusmsg " - the libraries or toolchain have changed"
statusmsg " YOU HAVE BEEN WARNED!"
fi
else
removedirs="${removedirs} ${DESTDIR}"
fi
if ${do_build} || ${do_distribution} || ${do_release}; then
if ! ${do_expertmode} && \
[ "$id_u" -ne 0 ] && \
[ "${MKUNPRIVED}" = "no" ] ; then
bomb "-U or -E must be set for build as an unprivileged user."
fi
fi
if ${do_releasekernel} && [ -z "${RELEASEDIR}" ]; then
bomb "Must set RELEASEDIR with \`releasekernel=...'"
fi
# Install as non-root is a bad idea.
#
if ${do_install} && [ "$id_u" -ne 0 ] ; then
if ${do_expertmode}; then
warning "Will install as an unprivileged user."
else
bomb "-E must be set for install as an unprivileged user."
fi
fi
# If a previous build.sh run used -U (and therefore created a
# METALOG file), then most subsequent build.sh runs must also
# use -U. If DESTDIR is about to be removed, then don't perform
# this check.
#
case "${do_removedirs} ${removedirs} " in
true*" ${DESTDIR} "*)
# DESTDIR is about to be removed
;;
*)
if ( ${do_build} || ${do_distribution} || ${do_release} || \
${do_install} ) && \
[ -e "${DESTDIR}/METALOG" ] && \
[ "${MKUNPRIVED}" = "no" ] ; then
if $do_expertmode; then
warning "A previous build.sh run specified -U."
else
bomb "A previous build.sh run specified -U; you must specify it again now."
fi
fi
;;
esac
}
createmakewrapper()
{
# Remove the target directories.
#
if ${do_removedirs}; then
for f in ${removedirs}; do
statusmsg "Removing ${f}"
${runcmd} rm -r -f "${f}"
done
fi
# Recreate $TOOLDIR.
#
${runcmd} mkdir -p "${TOOLDIR}/bin" ||
bomb "mkdir of '${TOOLDIR}/bin' failed"
# If we did not previously rebuild ${toolprefix}make, then
# check whether $make is still valid and the same as the output
# from print_tooldir_make. If not, then rebuild make now. A
# possible reason for this being necessary is that the actual
# value of TOOLDIR might be different from the value guessed
# before the top level obj dir was created.
#
if ! ${done_rebuildmake} && \
( [ ! -x "$make" ] || [ "$make" != "$(print_tooldir_make)" ] )
then
rebuildmake
fi
# Install ${toolprefix}make if it was built.
#
if ${done_rebuildmake}; then
${runcmd} rm -f "${TOOLDIR}/bin/${toolprefix}make"
${runcmd} cp "${make}" "${TOOLDIR}/bin/${toolprefix}make" ||
bomb "Failed to install \$TOOLDIR/bin/${toolprefix}make"
make="${TOOLDIR}/bin/${toolprefix}make"
statusmsg "Created ${make}"
fi
# Build a ${toolprefix}make wrapper script, usable by hand as
# well as by build.sh.
#
if [ -z "${makewrapper}" ]; then
makewrapper="${TOOLDIR}/bin/${toolprefix}make-${makewrappermachine:-${MACHINE}}"
[ -z "${BUILDID}" ] || makewrapper="${makewrapper}-${BUILDID}"
fi
${runcmd} rm -f "${makewrapper}"
if [ "${runcmd}" = "echo" ]; then
echo 'cat <<EOF >'${makewrapper}
makewrapout=
else
makewrapout=">>\${makewrapper}"
fi
case "${KSH_VERSION:-${SH_VERSION}}" in
*PD\ KSH*|*MIRBSD\ KSH*)
set +o braceexpand
;;
esac
eval cat <<EOF ${makewrapout}
#! ${HOST_SH}
# Set proper variables to allow easy "make" building of a NetBSD subtree.
# Generated from: \$NetBSD: build.sh,v 1.231 2010/03/07 17:34:25 hans Exp $
# with these arguments: ${_args}
#
EOF
{
for f in ${makeenv}; do
if eval "[ -z \"\${$f}\" -a \"\${${f}-X}\" = \"X\" ]"; then
eval echo "unset ${f}"
else
eval echo "${f}=\'\$$(echo ${f})\'\;\ export\ ${f}"
fi
done
eval cat <<EOF
MAKEWRAPPERMACHINE=${makewrappermachine:-${MACHINE}}; export MAKEWRAPPERMACHINE
USETOOLS=yes; export USETOOLS
EOF
} | eval sort -u "${makewrapout}"
eval cat <<EOF "${makewrapout}"
exec "\${TOOLDIR}/bin/${toolprefix}make" \${1+"\$@"}
EOF
[ "${runcmd}" = "echo" ] && echo EOF
${runcmd} chmod +x "${makewrapper}"
statusmsg "makewrapper: ${makewrapper}"
statusmsg "Updated ${makewrapper}"
}
make_in_dir()
{
dir="$1"
op="$2"
${runcmd} cd "${dir}" ||
bomb "Failed to cd to \"${dir}\""
${runcmd} "${makewrapper}" ${parallel} ${op} ||
bomb "Failed to make ${op} in \"${dir}\""
${runcmd} cd "${TOP}" ||
bomb "Failed to cd back to \"${TOP}\""
}
buildtools()
{
if [ "${MKOBJDIRS}" != "no" ]; then
${runcmd} "${makewrapper}" ${parallel} obj-tools ||
bomb "Failed to make obj-tools"
fi
if [ "${MKUPDATE}" = "no" ]; then
make_in_dir tools cleandir
fi
make_in_dir tools dependall
make_in_dir tools install
statusmsg "Tools built to ${TOOLDIR}"
}
getkernelconf()
{
kernelconf="$1"
if [ "${MKOBJDIRS}" != "no" ]; then
# The correct value of KERNOBJDIR might
# depend on a prior "make obj" in
# ${KERNSRCDIR}/${KERNARCHDIR}/compile.
#
KERNSRCDIR="$(getmakevar KERNSRCDIR)"
KERNARCHDIR="$(getmakevar KERNARCHDIR)"
make_in_dir "${KERNSRCDIR}/${KERNARCHDIR}/compile" obj
fi
KERNCONFDIR="$(getmakevar KERNCONFDIR)"
KERNOBJDIR="$(getmakevar KERNOBJDIR)"
case "${kernelconf}" in
*/*)
kernelconfpath="${kernelconf}"
kernelconfname="${kernelconf##*/}"
;;
*)
kernelconfpath="${KERNCONFDIR}/${kernelconf}"
kernelconfname="${kernelconf}"
;;
esac
kernelbuildpath="${KERNOBJDIR}/${kernelconfname}"
}
buildkernel()
{
if ! ${do_tools} && ! ${buildkernelwarned:-false}; then
# Building tools every time we build a kernel is clearly
# unnecessary. We could try to figure out whether rebuilding
# the tools is necessary this time, but it doesn't seem worth
# the trouble. Instead, we say it's the user's responsibility
# to rebuild the tools if necessary.
#
statusmsg "Building kernel without building new tools"
buildkernelwarned=true
fi
getkernelconf $1
statusmsg "Building kernel: ${kernelconf}"
statusmsg "Build directory: ${kernelbuildpath}"
${runcmd} mkdir -p "${kernelbuildpath}" ||
bomb "Cannot mkdir: ${kernelbuildpath}"
if [ "${MKUPDATE}" = "no" ]; then
make_in_dir "${kernelbuildpath}" cleandir
fi
[ -x "${TOOLDIR}/bin/${toolprefix}config" ] \
|| bomb "${TOOLDIR}/bin/${toolprefix}config does not exist. You need to \"$0 tools\" first."
${runcmd} "${TOOLDIR}/bin/${toolprefix}config" -b "${kernelbuildpath}" \
-s "${TOP}/sys" "${kernelconfpath}" ||
bomb "${toolprefix}config failed for ${kernelconf}"
make_in_dir "${kernelbuildpath}" depend
make_in_dir "${kernelbuildpath}" all
if [ "${runcmd}" != "echo" ]; then
statusmsg "Kernels built from ${kernelconf}:"
kernlist=$(awk '$1 == "config" { print $2 }' ${kernelconfpath})
for kern in ${kernlist:-netbsd}; do
[ -f "${kernelbuildpath}/${kern}" ] && \
echo " ${kernelbuildpath}/${kern}"
done | tee -a "${results}"
fi
}
releasekernel()
{
getkernelconf $1
kernelreldir="${RELEASEDIR}/${RELEASEMACHINEDIR}/binary/kernel"
${runcmd} mkdir -p "${kernelreldir}"
kernlist=$(awk '$1 == "config" { print $2 }' ${kernelconfpath})
for kern in ${kernlist:-netbsd}; do
builtkern="${kernelbuildpath}/${kern}"
[ -f "${builtkern}" ] || continue
releasekern="${kernelreldir}/${kern}-${kernelconfname}.gz"
statusmsg "Kernel copy: ${releasekern}"
if [ "${runcmd}" = "echo" ]; then
echo "gzip -c -9 < ${builtkern} > ${releasekern}"
else
gzip -c -9 < "${builtkern}" > "${releasekern}"
fi
done
}
buildmodules()
{
if ! ${do_tools} && ! ${buildmoduleswarned:-false}; then
# Building tools every time we build modules is clearly
# unnecessary as well as a kernel.
#
statusmsg "Building modules without building new tools"
buildmoduleswarned=true
fi
statusmsg "Building kernel modules for NetBSD/${MACHINE} ${DISTRIBVER}"
if [ "${MKOBJDIRS}" != "no" ]; then
make_in_dir sys/modules obj ||
bomb "Failed to make obj in sys/modules"
fi
if [ "${MKUPDATE}" = "no" ]; then
make_in_dir sys/modules cleandir
fi
${runcmd} "${makewrapper}" ${parallel} do-sys-modules ||
bomb "Failed to make do-sys-modules"
statusmsg "Successful built kernel modules for NetBSD/${MACHINE} ${DISTRIBVER}"
}
installworld()
{
dir="$1"
${runcmd} "${makewrapper}" INSTALLWORLDDIR="${dir}" installworld ||
bomb "Failed to make installworld to ${dir}"
statusmsg "Successful installworld to ${dir}"
}
# Run rump build&link tests.
#
# To make this feasible for running without having to install includes and
# libraries into destdir (i.e. quick), we only run ld. This is possible
# since the rump kernel is a closed namespace apart from calls to rumpuser.
# Therefore, if ld complains only about rumpuser symbols, rump kernel
# linking was successful.
#
# We test that rump links with a number of component configurations.
# These attempt to mimic what is encountered in the full build.
# See list below. The list should probably be either autogenerated
# or managed elsewhere. But keep it here until a better idea arises.
#
# Above all, note that THIS IS NOT A SUBSTITUTE FOR A FULL BUILD.
#
RUMP_LIBSETS='
-lrump,
-lrumpvfs -lrump,
-lrumpdev -lrump,
-lrumpfs_tmpfs -lrumpvfs -lrump,
-lrumpfs_ffs -lrumpfs_msdos -lrumpvfs -lrumpdev_disk -lrumpdev -lrump,
-lrumpnet_virtif -lrumpnet_netinet -lrumpnet_net -lrumpnet -lrump,
-lrumpnet_sockin -lrumpfs_smbfs -lrumpdev_netsmb
-lrumpcrypto -lrumpdev -lrumpnet -lrumpvfs -lrump,
-lrumpnet_sockin -lrumpfs_nfs -lrumpnet -lrumpvfs -lrump,
-lrumpdev_cgd -lrumpdev_raidframe -lrumpdev_disk -lrumpdev_rnd
-lrumpdev -lrumpvfs -lrumpcrypto -lrump'
dorump()
{
local doclean=""
local doobjs=""
# we cannot link libs without building csu, and that leads to lossage
[ "${1}" != "rumptest" ] && bomb 'build.sh rump not yet functional. ' \
'did you mean "rumptest"?'
# create obj and distrib dirs
if [ "${MKOBJDIRS}" != "no" ]; then
make_in_dir "${NETBSDSRCDIR}/etc/mtree" obj
make_in_dir "${NETBSDSRCDIR}/sys/rump" obj
fi
${runcmd} "${makewrapper}" ${parallel} do-distrib-dirs \
|| bomb 'could not create distrib-dirs'
[ "${MKUPDATE}" = "no" ] && doclean="cleandir"
targlist="${doclean} ${doobjs} dependall install"
# optimize: for test we build only static libs (3x test speedup)
if [ "${1}" = "rumptest" ] ; then
setmakeenv NOPIC 1
setmakeenv NOPROFILE 1
fi
for cmd in ${targlist} ; do
make_in_dir "${NETBSDSRCDIR}/sys/rump" ${cmd}
done
# if we just wanted to build & install rump, we're done
[ "${1}" != "rumptest" ] && return
${runcmd} cd "${NETBSDSRCDIR}/sys/rump/librump/rumpkern" \
|| bomb "cd to rumpkern failed"
md_quirks=`${runcmd} "${makewrapper}" -V '${_SYMQUIRK}'`
# one little, two little, three little backslashes ...
md_quirks="$(echo ${md_quirks} | sed 's,\\,\\\\,g'";s/'//g" )"
${runcmd} cd "${TOP}" || bomb "cd to ${TOP} failed"
tool_ld=`${runcmd} "${makewrapper}" -V '${LD}'`
local oIFS="${IFS}"
IFS=","
for set in ${RUMP_LIBSETS} ; do
IFS="${oIFS}"
${runcmd} ${tool_ld} -nostdlib -L${DESTDIR}/usr/lib \
-static --whole-archive ${set} 2>&1 | \
awk -v quirks="${md_quirks}" '
/undefined reference/ &&
!/more undefined references.*follow/{
if (match($NF,
"`(rumpuser_|__" quirks ")") == 0)
fails[NR] = $0
}
/cannot find -l/{fails[NR] = $0}
END{
for (x in fails)
print fails[x]
exit x!=0
}'
[ $? -ne 0 ] && bomb "Testlink of rump failed: ${set}"
done
statusmsg "Rump build&link tests successful"
}
main()
{
initdefaults
_args=$@
parseoptions "$@"
sanitycheck
build_start=$(date)
statusmsg "${progname} command: $0 $@"
statusmsg "${progname} started: ${build_start}"
statusmsg "NetBSD version: ${DISTRIBVER}"
statusmsg "MACHINE: ${MACHINE}"
statusmsg "MACHINE_ARCH: ${MACHINE_ARCH}"
statusmsg "Build platform: ${uname_s} ${uname_r} ${uname_m}"
statusmsg "HOST_SH: ${HOST_SH}"
rebuildmake
validatemakeparams
createmakewrapper
# Perform the operations.
#
for op in ${operations}; do
case "${op}" in
makewrapper)
# no-op
;;
tools)
buildtools
;;
sets)
statusmsg "Building sets from pre-populated ${DESTDIR}"
${runcmd} "${makewrapper}" ${parallel} ${op} ||
bomb "Failed to make ${op}"
setdir=${RELEASEDIR}/${RELEASEMACHINEDIR}/binary/sets
statusmsg "Built sets to ${setdir}"
;;
cleandir|obj|build|distribution|release|sourcesets|syspkgs|params)
${runcmd} "${makewrapper}" ${parallel} ${op} ||
bomb "Failed to make ${op}"
statusmsg "Successful make ${op}"
;;
iso-image|iso-image-source)
${runcmd} "${makewrapper}" ${parallel} \
CDEXTRA="$CDEXTRA" ${op} ||
bomb "Failed to make ${op}"
statusmsg "Successful make ${op}"
;;
kernel=*)
arg=${op#*=}
buildkernel "${arg}"
;;
releasekernel=*)
arg=${op#*=}
releasekernel "${arg}"
;;
modules)
buildmodules
;;
install=*)
arg=${op#*=}
if [ "${arg}" = "/" ] && \
( [ "${uname_s}" != "NetBSD" ] || \
[ "${uname_m}" != "${MACHINE}" ] ); then
bomb "'${op}' must != / for cross builds."
fi
installworld "${arg}"
;;
rump|rumptest)
dorump "${op}"
;;
*)
bomb "Unknown operation \`${op}'"
;;
esac
done
statusmsg "${progname} ended: $(date)"
if [ -s "${results}" ]; then
echo "===> Summary of results:"
sed -e 's/^===>//;s/^/ /' "${results}"
echo "===> ."
fi
}
main "$@"