freebsd-nq/Makefile
Alex Richardson 34ac629b40 Shell-escape assignments to PATH in the top-level makefiles
Since 16fbf01912 PATH is no longer set
to a hardcoded value on non-FreeBSD build hosts, so we can end up with
spaces in $PATH. Instead of only escaping PATH I updated all `env PATH=`
uses in the toplevel makefile. While many of these currently can't
contain any special characters (since the build would have failed
already), in theory this gets us closer to allowing build/source
directory to contain e.g. spaces.
2023-01-20 10:47:17 +00:00

799 lines
30 KiB
Makefile

#
# $FreeBSD$
#
# The common user-driven targets are (for a complete list, see build(7)):
#
# universe - *Really* build *everything* (buildworld and
# all kernels on all architectures). Define
# MAKE_JUST_KERNELS or WITHOUT_WORLDS to only build kernels,
# MAKE_JUST_WORLDS or WITHOUT_KERNELS to only build userland.
# tinderbox - Same as universe, but presents a list of failed build
# targets and exits with an error if there were any.
# worlds - Same as universe, except just makes the worlds.
# kernels - Same as universe, except just makes the kernels.
# buildworld - Rebuild *everything*, including glue to help do
# upgrades.
# installworld - Install everything built by "buildworld".
# world - buildworld + installworld, no kernel.
# buildkernel - Rebuild the kernel and the kernel-modules.
# installkernel - Install the kernel and the kernel-modules.
# installkernel.debug
# reinstallkernel - Reinstall the kernel and the kernel-modules.
# reinstallkernel.debug
# kernel - buildkernel + installkernel.
# kernel-toolchain - Builds the subset of world necessary to build a kernel
# kernel-toolchains - Build kernel-toolchain for all universe targets.
# doxygen - Build API documentation of the kernel, needs doxygen.
# checkworld - Run test suite on installed world.
# check-old - List obsolete directories/files/libraries.
# check-old-dirs - List obsolete directories.
# check-old-files - List obsolete files.
# check-old-libs - List obsolete libraries.
# delete-old - Delete obsolete directories/files.
# delete-old-dirs - Delete obsolete directories.
# delete-old-files - Delete obsolete files.
# delete-old-libs - Delete obsolete libraries.
# list-old-dirs - Raw list of possibly obsolete directories.
# list-old-files - Raw list of possibly obsolete files.
# list-old-libs - Raw list of possibly obsolete libraries.
# targets - Print a list of supported TARGET/TARGET_ARCH pairs
# for world and kernel targets.
# toolchains - Build a toolchain for all world and kernel targets.
# makeman - Regenerate src.conf(5)
# sysent - (Re)build syscall entries from syscalls.master.
# xdev - xdev-build + xdev-install for the architecture
# specified with TARGET and TARGET_ARCH.
# xdev-build - Build cross-development tools.
# xdev-install - Install cross-development tools.
# xdev-links - Create traditional links in /usr/bin for cc, etc
# native-xtools - Create host binaries that produce target objects
# for use in qemu user-mode jails. TARGET and
# TARGET_ARCH should be defined.
# native-xtools-install
# - Install the files to the given DESTDIR/NXTP where
# NXTP defaults to /nxb-bin.
#
# This makefile is simple by design. The FreeBSD make automatically reads
# the /usr/share/mk/sys.mk unless the -m argument is specified on the
# command line. By keeping this makefile simple, it doesn't matter too
# much how different the installed mk files are from those in the source
# tree. This makefile executes a child make process, forcing it to use
# the mk files from the source tree which are supposed to DTRT.
#
# Most of the user-driven targets (as listed above) are implemented in
# Makefile.inc1. The exceptions are universe, tinderbox and targets.
#
# If you want to build your system from source, be sure that /usr/obj has
# at least 6 GB of disk space available. A complete 'universe' build of
# r340283 (2018-11) required 167 GB of space. ZFS lz4 compression
# achieved a 2.18x ratio, reducing actual space to 81 GB.
#
# For individuals wanting to build from the sources currently on their
# system, the simple instructions are:
#
# 1. `cd /usr/src' (or to the directory containing your source tree).
# 2. Define `HISTORICAL_MAKE_WORLD' variable (see README).
# 3. `make world'
#
# For individuals wanting to upgrade their sources (even if only a
# delta of a few days):
#
# 1. `cd /usr/src' (or to the directory containing your source tree).
# 2. `make buildworld'
# 3. `make buildkernel KERNCONF=YOUR_KERNEL_HERE' (default is GENERIC).
# 4. `make installkernel KERNCONF=YOUR_KERNEL_HERE' (default is GENERIC).
# [steps 3. & 4. can be combined by using the "kernel" target]
# 5. `reboot' (in single user mode: boot -s from the loader prompt).
# 6. `etcupdate -p'
# 7. `make installworld'
# 8. `etcupdate -B'
# 9. `make delete-old'
# 10. `reboot'
# 11. `make delete-old-libs' (in case no 3rd party program uses them anymore)
#
# For individuals wanting to build from source with GCC from ports, first
# install the appropriate GCC cross toolchain package:
# `pkg install ${TARGET_ARCH}-gccN`
#
# Once you have installed the necessary cross toolchain, simply pass
# CROSS_TOOLCHAIN=${TARGET_ARCH}-gccN while building with the above steps,
# e.g., `make buildworld CROSS_TOOLCHAIN=amd64-gcc6`.
#
# The ${TARGET_ARCH}-gccN packages are provided as flavors of the
# devel/freebsd-gccN ports.
#
# See src/UPDATING `COMMON ITEMS' for more complete information.
#
# If TARGET=machine (e.g. powerpc, arm64, ...) is specified you can
# cross build world for other machine types using the buildworld target,
# and once the world is built you can cross build a kernel using the
# buildkernel target.
#
# Define the user-driven targets. These are listed here in alphabetical
# order, but that's not important.
#
# Targets that begin with underscore are internal targets intended for
# developer convenience only. They are intentionally not documented and
# completely subject to change without notice.
#
# For more information, see the build(7) manual page.
#
.if defined(UNIVERSE_TARGET) || defined(MAKE_JUST_WORLDS) || defined(WITHOUT_KERNELS)
__DO_KERNELS=no
.endif
.if defined(MAKE_JUST_KERNELS) || defined(WITHOUT_WORLDS)
__DO_WORLDS=no
.endif
__DO_WORLDS?=yes
__DO_KERNELS?=yes
# This is included so CC is set to ccache for -V, and COMPILER_TYPE/VERSION
# can be cached for sub-makes. We can't do this while still running on the
# old fmake from FreeBSD 9.x or older, so avoid including it then to avoid
# heartburn upgrading from older systems. The need for CC is done with new
# make later in the build, and caching COMPILER_TYPE/VERSION is only an
# optimization. Also sinclude it to be friendlier to foreign OS hosted builds.
.if ${MAKE_VERSION} >= 20140620 && defined(.PARSEDIR)
.sinclude <bsd.compiler.mk>
.endif
# Note: we use this awkward construct to be compatible with FreeBSD's
# old make used in 10.0 and 9.2 and earlier.
.if defined(MK_DIRDEPS_BUILD) && ${MK_DIRDEPS_BUILD} == "yes" && \
!make(showconfig) && !make(print-dir)
# targets/Makefile plays the role of top-level
.include "targets/Makefile"
.else
TGTS= all all-man buildenv buildenvvars buildkernel buildworld \
check check-old check-old-dirs check-old-files check-old-libs \
checkdpadd checkworld clean cleandepend cleandir cleankernel \
cleanworld cleanuniverse \
delete-old delete-old-dirs delete-old-files delete-old-libs \
depend distribute distributekernel distributekernel.debug \
distributeworld distrib-dirs distribution doxygen \
everything hier hierarchy install installcheck installkernel \
installkernel.debug packagekernel packageworld \
reinstallkernel reinstallkernel.debug \
installworld kernel-toolchain libraries maninstall \
list-old-dirs list-old-files list-old-libs \
obj objlink showconfig tags toolchain \
makeman sysent \
_worldtmp _legacy _bootstrap-tools _cleanobj _obj \
_build-tools _build-metadata _cross-tools _includes _libraries \
build32 distribute32 install32 \
builddtb xdev xdev-build xdev-install \
xdev-links native-xtools native-xtools-install stageworld stagekernel \
stage-packages stage-packages-kernel stage-packages-world \
create-packages-world create-packages-kernel create-packages \
update-packages packages installconfig real-packages real-update-packages \
sign-packages package-pkg print-dir test-system-compiler test-system-linker \
test-includes
# These targets require a TARGET and TARGET_ARCH be defined.
XTGTS= native-xtools native-xtools-install xdev xdev-build xdev-install \
xdev-links
# XXX: r156740: This can't work since bsd.subdir.mk is not included ever.
# It will only work for SUBDIR_TARGETS in make.conf.
TGTS+= ${SUBDIR_TARGETS}
BITGTS= files includes
BITGTS:=${BITGTS} ${BITGTS:S/^/build/} ${BITGTS:S/^/install/}
TGTS+= ${BITGTS}
# Only some targets are allowed to use meta mode. Others get it
# disabled. In some cases, such as 'install', meta mode can be dangerous
# as a cookie may be used to prevent redundant installations (such as
# for WORLDTMP staging). For DESTDIR=/ we always want to install though.
# For other cases, such as delete-old-libs, meta mode may break
# the interactive tty prompt. The safest route is to just whitelist
# the ones that benefit from it.
META_TGT_WHITELIST+= \
_* build32 buildfiles buildincludes buildkernel \
buildworld everything kernel-toolchain kernel-toolchains kernel \
kernels libraries native-xtools showconfig test-includes \
test-system-compiler test-system-linker tinderbox toolchain \
toolchains universe universe-toolchain world worlds xdev xdev-build
.ORDER: buildworld installworld
.ORDER: buildworld distrib-dirs
.ORDER: buildworld distribution
.ORDER: buildworld distribute
.ORDER: buildworld distributeworld
.ORDER: buildworld buildkernel
.ORDER: distrib-dirs distribute
.ORDER: distrib-dirs distributeworld
.ORDER: distrib-dirs installworld
.ORDER: distribution distribute
.ORDER: distributeworld distribute
.ORDER: distributeworld distribution
.ORDER: installworld distribute
.ORDER: installworld distribution
.ORDER: installworld installkernel
.ORDER: buildkernel installkernel
.ORDER: buildkernel installkernel.debug
.ORDER: buildkernel reinstallkernel
.ORDER: buildkernel reinstallkernel.debug
# Only sanitize PATH on FreeBSD.
# PATH may include tools that are required to cross-build
# on non-FreeBSD systems.
.if ${.MAKE.OS} == "FreeBSD"
PATH= /sbin:/bin:/usr/sbin:/usr/bin
.endif
MAKEOBJDIRPREFIX?= /usr/obj
_MAKEOBJDIRPREFIX!= /usr/bin/env -i PATH=${PATH:Q} ${MAKE} MK_AUTO_OBJ=no \
${.MAKEFLAGS:MMAKEOBJDIRPREFIX=*} __MAKE_CONF=${__MAKE_CONF} \
SRCCONF=${SRCCONF} SRC_ENV_CONF= \
-f /dev/null -V MAKEOBJDIRPREFIX dummy
.if !empty(_MAKEOBJDIRPREFIX) || !empty(.MAKEOVERRIDES:MMAKEOBJDIRPREFIX)
.error MAKEOBJDIRPREFIX can only be set in environment or src-env.conf(5),\
not as a global (in make.conf(5) or src.conf(5)) or command-line variable.
.endif
# We often need to use the tree's version of make to build it.
# Choices add to complexity though.
# We cannot blindly use a make which may not be the one we want
# so be explicit - until all choice is removed.
WANT_MAKE= bmake
.if !empty(.MAKE.MODE:Mmeta)
# 20160604 - support missing-meta,missing-filemon and performance improvements
WANT_MAKE_VERSION= 20160604
.else
# 20160220 - support .dinclude for FAST_DEPEND.
WANT_MAKE_VERSION= 20160220
.endif
MYMAKE= ${OBJROOT}make.${MACHINE}/${WANT_MAKE}
.if defined(.PARSEDIR)
HAVE_MAKE= bmake
.else
HAVE_MAKE= fmake
.endif
.if defined(ALWAYS_BOOTSTRAP_MAKE) || \
${HAVE_MAKE} != ${WANT_MAKE} || \
(defined(WANT_MAKE_VERSION) && ${MAKE_VERSION} < ${WANT_MAKE_VERSION})
NEED_MAKE_UPGRADE= t
.endif
.if exists(${MYMAKE})
SUB_MAKE:= ${MYMAKE} -m ${.CURDIR}/share/mk
.elif defined(NEED_MAKE_UPGRADE)
# It may not exist yet but we may cause it to.
# In the case of fmake, upgrade_checks may cause a newer version to be built.
SUB_MAKE= `test -x ${MYMAKE} && echo ${MYMAKE} || echo ${MAKE}` \
-m ${.CURDIR}/share/mk
.else
SUB_MAKE= ${MAKE} -m ${.CURDIR}/share/mk
.endif
_MAKE= PATH=${PATH:Q} MAKE_CMD="${MAKE}" ${SUB_MAKE} -f Makefile.inc1 \
TARGET=${_TARGET} TARGET_ARCH=${_TARGET_ARCH} ${_MAKEARGS}
.if defined(MK_META_MODE) && ${MK_META_MODE} == "yes"
# Only allow meta mode for the whitelisted targets. See META_TGT_WHITELIST
# above. If overridden as a make argument then don't bother trying to
# disable it.
.if empty(.MAKEOVERRIDES:MMK_META_MODE)
.for _tgt in ${META_TGT_WHITELIST}
.if make(${_tgt})
_CAN_USE_META_MODE?= yes
.endif
.endfor
.if !defined(_CAN_USE_META_MODE)
_MAKE+= MK_META_MODE=no
MK_META_MODE= no
.if defined(.PARSEDIR)
.unexport META_MODE
.endif
.endif # !defined(_CAN_USE_META_MODE)
.endif # empty(.MAKEOVERRIDES:MMK_META_MODE)
.if ${MK_META_MODE} == "yes"
.if !exists(/dev/filemon) && !defined(NO_FILEMON) && !make(showconfig)
# Require filemon be loaded to provide a working incremental build
.error ${.newline}ERROR: The filemon module (/dev/filemon) is not loaded. \
${.newline}ERROR: WITH_META_MODE is enabled but requires filemon for an incremental build. \
${.newline}ERROR: 'kldload filemon' or pass -DNO_FILEMON to suppress this error.
.endif # !exists(/dev/filemon) && !defined(NO_FILEMON)
.endif # ${MK_META_MODE} == yes
.endif # defined(MK_META_MODE) && ${MK_META_MODE} == yes
# Guess target architecture from target type, and vice versa, based on
# historic FreeBSD practice of tending to have TARGET == TARGET_ARCH
# expanding to TARGET == TARGET_CPUARCH in recent times, with known
# exceptions.
.if !defined(TARGET_ARCH) && defined(TARGET)
# T->TA mapping is usually TARGET with arm64 the odd man out
_TARGET_ARCH= ${TARGET:S/arm64/aarch64/:S/riscv/riscv64/:S/arm/armv7/}
.elif !defined(TARGET) && defined(TARGET_ARCH) && \
${TARGET_ARCH} != ${MACHINE_ARCH}
# TA->T mapping is accidentally CPUARCH with aarch64 the odd man out
_TARGET= ${TARGET_ARCH:${__TO_CPUARCH}:C/aarch64/arm64/}
.endif
.if defined(TARGET) && !defined(_TARGET)
_TARGET=${TARGET}
.endif
.if defined(TARGET_ARCH) && !defined(_TARGET_ARCH)
_TARGET_ARCH=${TARGET_ARCH}
.endif
# for historical compatibility for xdev targets
.if defined(XDEV)
_TARGET= ${XDEV}
.endif
.if defined(XDEV_ARCH)
_TARGET_ARCH= ${XDEV_ARCH}
.endif
# Some targets require a set TARGET/TARGET_ARCH, check before the default
# MACHINE and after the compatibility handling.
.if !defined(_TARGET) || !defined(_TARGET_ARCH)
${XTGTS}: _assert_target
.endif
# Otherwise, default to current machine type and architecture.
_TARGET?= ${MACHINE}
_TARGET_ARCH?= ${MACHINE_ARCH}
.if make(native-xtools*)
NXB_TARGET:= ${_TARGET}
NXB_TARGET_ARCH:= ${_TARGET_ARCH}
_TARGET= ${MACHINE}
_TARGET_ARCH= ${MACHINE_ARCH}
_MAKE+= NXB_TARGET=${NXB_TARGET} \
NXB_TARGET_ARCH=${NXB_TARGET_ARCH}
.endif
.if make(print-dir)
.SILENT:
.endif
_assert_target: .PHONY .MAKE
.for _tgt in ${XTGTS}
.if make(${_tgt})
@echo "*** Error: Both TARGET and TARGET_ARCH must be defined for \"${_tgt}\" target"
@false
.endif
.endfor
#
# Make sure we have an up-to-date make(1). Only world and buildworld
# should do this as those are the initial targets used for upgrades.
# The user can define ALWAYS_CHECK_MAKE to have this check performed
# for all targets.
#
.if defined(ALWAYS_CHECK_MAKE) || !defined(.PARSEDIR)
${TGTS}: upgrade_checks
.else
buildworld: upgrade_checks
.endif
#
# Handle the user-driven targets, using the source relative mk files.
#
tinderbox toolchains kernel-toolchains: .MAKE
${TGTS}: .PHONY .MAKE
${_+_}@cd ${.CURDIR}; ${_MAKE} ${.TARGET}
# The historic default "all" target creates files which may cause stale
# or (in the cross build case) unlinkable results. Fail with an error
# when no target is given. The users can explicitly specify "all"
# if they want the historic behavior.
.MAIN: _guard
_guard: .PHONY
@echo
@echo "Explicit target required. Likely \"${SUBDIR_OVERRIDE:Dall:Ubuildworld}\" is wanted. See build(7)."
@echo
@false
STARTTIME!= LC_ALL=C date
CHECK_TIME!= cmp=`mktemp`; find ${.CURDIR}/sys/sys/param.h -newer "$$cmp" && rm "$$cmp"; echo
.if !empty(CHECK_TIME)
.error check your date/time: ${STARTTIME}
.endif
.if defined(HISTORICAL_MAKE_WORLD) || defined(DESTDIR)
#
# world
#
# Attempt to rebuild and reinstall everything. This target is not to be
# used for upgrading an existing FreeBSD system, because the kernel is
# not included. One can argue that this target doesn't build everything
# then.
#
world: upgrade_checks .PHONY
@echo "--------------------------------------------------------------"
@echo ">>> make world started on ${STARTTIME}"
@echo "--------------------------------------------------------------"
.if target(pre-world)
@echo
@echo "--------------------------------------------------------------"
@echo ">>> Making 'pre-world' target"
@echo "--------------------------------------------------------------"
${_+_}@cd ${.CURDIR}; ${_MAKE} pre-world
.endif
${_+_}@cd ${.CURDIR}; ${_MAKE} buildworld
${_+_}@cd ${.CURDIR}; ${_MAKE} installworld MK_META_MODE=no
.if target(post-world)
@echo
@echo "--------------------------------------------------------------"
@echo ">>> Making 'post-world' target"
@echo "--------------------------------------------------------------"
${_+_}@cd ${.CURDIR}; ${_MAKE} post-world
.endif
@echo
@echo "--------------------------------------------------------------"
@echo ">>> make world completed on `LC_ALL=C date`"
@echo " (started ${STARTTIME})"
@echo "--------------------------------------------------------------"
.else
world: .PHONY
@echo "WARNING: make world will overwrite your existing FreeBSD"
@echo "installation without also building and installing a new"
@echo "kernel. This can be dangerous. Please read the handbook,"
@echo "'Rebuilding world', for how to upgrade your system."
@echo "Define DESTDIR to where you want to install FreeBSD,"
@echo "including /, to override this warning and proceed as usual."
@echo ""
@echo "Bailing out now..."
@false
.endif
#
# kernel
#
# Short hand for `make buildkernel installkernel'
#
kernel: buildkernel installkernel .PHONY
#
# Perform a few tests to determine if the installed tools are adequate
# for building the world.
#
upgrade_checks: .PHONY
.if defined(NEED_MAKE_UPGRADE)
@${_+_}(cd ${.CURDIR} && ${MAKE} ${WANT_MAKE:S,^f,,})
.endif
#
# Upgrade make(1) to the current version using the installed
# headers, libraries and tools. Also, allow the location of
# the system bsdmake-like utility to be overridden.
#
MMAKEENV= \
DESTDIR= \
INSTALL="sh ${.CURDIR}/tools/install.sh"
MMAKE= ${MMAKEENV} ${MAKE} \
OBJTOP=${MYMAKE:H}/obj \
OBJROOT='$${OBJTOP}/' \
MAKEOBJDIRPREFIX= \
MK_MAN=no -DNO_SHARED \
-DNO_CPU_CFLAGS MK_WERROR=no \
-DNO_SUBDIR \
DESTDIR= PROGNAME=${MYMAKE:T}
bmake: .PHONY
@echo
@echo "--------------------------------------------------------------"
@echo ">>> Building an up-to-date ${.TARGET}(1)"
@echo "--------------------------------------------------------------"
${_+_}@cd ${.CURDIR}/usr.bin/${.TARGET}; \
${MMAKE} obj; \
${MMAKE} depend; \
${MMAKE} all; \
${MMAKE} install DESTDIR=${MYMAKE:H} BINDIR=
regress: .PHONY
@echo "'make regress' has been renamed 'make check'" | /usr/bin/fmt
@false
tinderbox toolchains kernel-toolchains kernels worlds: upgrade_checks
tinderbox: .PHONY
@cd ${.CURDIR}; ${SUB_MAKE} DOING_TINDERBOX=YES universe
toolchains: .PHONY
@cd ${.CURDIR}; ${SUB_MAKE} UNIVERSE_TARGET=toolchain universe
kernel-toolchains: .PHONY
@cd ${.CURDIR}; ${SUB_MAKE} UNIVERSE_TARGET=kernel-toolchain universe
kernels: .PHONY
@cd ${.CURDIR}; ${SUB_MAKE} universe -DWITHOUT_WORLDS
worlds: .PHONY
@cd ${.CURDIR}; ${SUB_MAKE} UNIVERSE_TARGET=buildworld universe
#
# universe
#
# Attempt to rebuild *everything* for all supported architectures,
# with a reasonable chance of success, regardless of how old your
# existing system is.
#
.if make(universe) || make(universe_kernels) || make(tinderbox) || \
make(targets) || make(universe-toolchain)
#
# Don't build rarely used, semi-supported architectures unless requested.
#
.if defined(EXTRA_TARGETS)
# powerpcspe excluded from main list until clang fixed
EXTRA_ARCHES_powerpc= powerpcspe
.endif
TARGETS?=amd64 arm arm64 i386 powerpc riscv
_UNIVERSE_TARGETS= ${TARGETS}
TARGET_ARCHES_arm?= armv6 armv7
TARGET_ARCHES_arm64?= aarch64
TARGET_ARCHES_powerpc?= powerpc powerpc64 powerpc64le ${EXTRA_ARCHES_powerpc}
TARGET_ARCHES_riscv?= riscv64 riscv64sf
.for target in ${TARGETS}
TARGET_ARCHES_${target}?= ${target}
.endfor
.if defined(USE_GCC_TOOLCHAINS)
TOOLCHAINS_amd64= amd64-gcc9
TOOLCHAINS_arm= armv6-gcc9 armv7-gcc9
TOOLCHAIN_armv7= armv7-gcc9
TOOLCHAINS_arm64= aarch64-gcc9
TOOLCHAINS_i386= i386-gcc9
TOOLCHAINS_powerpc= powerpc-gcc9 powerpc64-gcc9
TOOLCHAIN_powerpc64= powerpc64-gcc9
TOOLCHAINS_riscv= riscv64-gcc9
.endif
# If a target is using an external toolchain, set MAKE_PARAMS to enable use
# of the toolchain. If the external toolchain is missing, exclude the target
# from universe.
.for target in ${_UNIVERSE_TARGETS}
.if !empty(TOOLCHAINS_${target})
.for toolchain in ${TOOLCHAINS_${target}}
.if !exists(/usr/local/share/toolchains/${toolchain}.mk)
_UNIVERSE_TARGETS:= ${_UNIVERSE_TARGETS:N${target}}
universe: universe_${toolchain}_skip .PHONY
universe_epilogue: universe_${toolchain}_skip .PHONY
universe_${toolchain}_skip: universe_prologue .PHONY
@echo ">> ${target} skipped - install ${toolchain} port or package to build"
.endif
.endfor
.for arch in ${TARGET_ARCHES_${target}}
TOOLCHAIN_${arch}?= ${TOOLCHAINS_${target}:[1]}
MAKE_PARAMS_${arch}?= CROSS_TOOLCHAIN=${TOOLCHAIN_${arch}}
.endfor
.endif
.endfor
UNIVERSE_TARGET?= buildworld
KERNSRCDIR?= ${.CURDIR}/sys
targets: .PHONY
@echo "Supported TARGET/TARGET_ARCH pairs for world and kernel targets"
.for target in ${TARGETS}
.for target_arch in ${TARGET_ARCHES_${target}}
@echo " ${target}/${target_arch}"
.endfor
.endfor
.if defined(DOING_TINDERBOX)
FAILFILE=${.CURDIR}/_.tinderbox.failed
MAKEFAIL=tee -a ${FAILFILE}
.else
MAKEFAIL=cat
.endif
universe_prologue: upgrade_checks
universe: universe_prologue
universe_prologue: .PHONY
@echo "--------------------------------------------------------------"
@echo ">>> make universe started on ${STARTTIME}"
@echo "--------------------------------------------------------------"
.if defined(DOING_TINDERBOX)
@rm -f ${FAILFILE}
.endif
universe-toolchain: .PHONY universe_prologue
@echo "--------------------------------------------------------------"
@echo "> Toolchain bootstrap started on `LC_ALL=C date`"
@echo "--------------------------------------------------------------"
${_+_}@cd ${.CURDIR}; \
env PATH=${PATH:Q} ${SUB_MAKE} ${JFLAG} kernel-toolchain \
TARGET=${MACHINE} TARGET_ARCH=${MACHINE_ARCH} \
OBJTOP="${HOST_OBJTOP}" \
WITHOUT_SYSTEM_COMPILER=yes \
WITHOUT_SYSTEM_LINKER=yes \
TOOLS_PREFIX_UNDEF= \
kernel-toolchain \
MK_LLVM_TARGET_ALL=yes \
> _.${.TARGET} 2>&1 || \
(echo "${.TARGET} failed," \
"check _.${.TARGET} for details" | \
${MAKEFAIL}; false)
@if [ ! -e "${HOST_OBJTOP}/tmp/usr/bin/cc" ]; then \
echo "Missing host compiler at ${HOST_OBJTOP}/tmp/usr/bin/cc?" >&2; \
false; \
fi
@if [ ! -e "${HOST_OBJTOP}/tmp/usr/bin/ld" ]; then \
echo "Missing host linker at ${HOST_OBJTOP}/tmp/usr/bin/ld?" >&2; \
false; \
fi
@echo "--------------------------------------------------------------"
@echo "> Toolchain bootstrap completed on `LC_ALL=C date`"
@echo "--------------------------------------------------------------"
.for target in ${_UNIVERSE_TARGETS}
universe: universe_${target}
universe_epilogue: universe_${target}
universe_${target}: universe_${target}_prologue .PHONY
universe_${target}_prologue: universe_prologue .PHONY
@echo ">> ${target} started on `LC_ALL=C date`"
universe_${target}_worlds: .PHONY
.if !make(targets) && !make(universe-toolchain)
.for target_arch in ${TARGET_ARCHES_${target}}
.if !defined(_need_clang_${target}_${target_arch})
_need_clang_${target}_${target_arch} != \
env TARGET=${target} TARGET_ARCH=${target_arch} \
${SUB_MAKE} -C ${.CURDIR} -f Makefile.inc1 test-system-compiler \
${MAKE_PARAMS_${target_arch}} -V MK_CLANG_BOOTSTRAP 2>/dev/null || \
echo unknown
.export _need_clang_${target}_${target_arch}
.endif
.if !defined(_need_lld_${target}_${target_arch})
_need_lld_${target}_${target_arch} != \
env TARGET=${target} TARGET_ARCH=${target_arch} \
${SUB_MAKE} -C ${.CURDIR} -f Makefile.inc1 test-system-linker \
${MAKE_PARAMS_${target_arch}} -V MK_LLD_BOOTSTRAP 2>/dev/null || \
echo unknown
.export _need_lld_${target}_${target_arch}
.endif
# Setup env for each arch to use the one clang.
.if defined(_need_clang_${target}_${target_arch}) && \
${_need_clang_${target}_${target_arch}} == "yes"
# No check on existing XCC or CROSS_BINUTILS_PREFIX, etc, is needed since
# we use the test-system-compiler logic to determine if clang needs to be
# built. It will be no from that logic if already using an external
# toolchain or /usr/bin/cc.
# XXX: Passing HOST_OBJTOP into the PATH would allow skipping legacy,
# bootstrap-tools, and cross-tools. Need to ensure each tool actually
# supports all TARGETS though.
# For now we only pass UNIVERSE_TOOLCHAIN_PATH which will be added at the end
# of STRICTTMPPATH to ensure that the target-specific binaries come first.
MAKE_PARAMS_${target_arch}+= \
XCC="${HOST_OBJTOP}/tmp/usr/bin/cc" \
XCXX="${HOST_OBJTOP}/tmp/usr/bin/c++" \
XCPP="${HOST_OBJTOP}/tmp/usr/bin/cpp" \
UNIVERSE_TOOLCHAIN_PATH=${HOST_OBJTOP}/tmp/usr/bin
.endif
.if defined(_need_lld_${target}_${target_arch}) && \
${_need_lld_${target}_${target_arch}} == "yes"
MAKE_PARAMS_${target_arch}+= \
XLD="${HOST_OBJTOP}/tmp/usr/bin/ld"
.endif
.endfor
.endif # !make(targets)
.if ${__DO_WORLDS} == "yes"
universe_${target}_done: universe_${target}_worlds .PHONY
.for target_arch in ${TARGET_ARCHES_${target}}
universe_${target}_worlds: universe_${target}_${target_arch} .PHONY
.if (defined(_need_clang_${target}_${target_arch}) && \
${_need_clang_${target}_${target_arch}} == "yes") || \
(defined(_need_lld_${target}_${target_arch}) && \
${_need_lld_${target}_${target_arch}} == "yes")
universe_${target}_${target_arch}: universe-toolchain
universe_${target}_prologue: universe-toolchain
.endif
universe_${target}_${target_arch}: universe_${target}_prologue .MAKE .PHONY
@echo ">> ${target}.${target_arch} ${UNIVERSE_TARGET} started on `LC_ALL=C date`"
@(cd ${.CURDIR} && env __MAKE_CONF=/dev/null \
${SUB_MAKE} ${JFLAG} ${UNIVERSE_TARGET} \
TARGET=${target} \
TARGET_ARCH=${target_arch} \
${MAKE_PARAMS_${target_arch}} \
> _.${target}.${target_arch}.${UNIVERSE_TARGET} 2>&1 || \
(echo "${target}.${target_arch} ${UNIVERSE_TARGET} failed," \
"check _.${target}.${target_arch}.${UNIVERSE_TARGET} for details" | \
${MAKEFAIL}))
@echo ">> ${target}.${target_arch} ${UNIVERSE_TARGET} completed on `LC_ALL=C date`"
.endfor
.endif # ${__DO_WORLDS} == "yes"
.if ${__DO_KERNELS} == "yes"
universe_${target}_done: universe_${target}_kernels .PHONY
universe_${target}_kernels: universe_${target}_worlds .PHONY
universe_${target}_kernels: universe_${target}_prologue .MAKE .PHONY
@cd ${.CURDIR}; ${SUB_MAKE} ${.MAKEFLAGS} TARGET=${target} \
universe_kernels
.endif # ${__DO_KERNELS} == "yes"
# Tell the user the worlds and kernels have completed
universe_${target}: universe_${target}_done
universe_${target}_done:
@echo ">> ${target} completed on `LC_ALL=C date`"
.endfor
.if make(universe_kernconfs) || make(universe_kernels)
.if !defined(TARGET)
TARGET!= uname -m
.endif
universe_kernels_prologue: .PHONY
@echo ">> ${TARGET} kernels started on `LC_ALL=C date`"
universe_kernels: universe_kernconfs .PHONY
@echo ">> ${TARGET} kernels completed on `LC_ALL=C date`"
.if defined(MAKE_ALL_KERNELS)
_THINNER=cat
.elif defined(MAKE_LINT_KERNELS)
_THINNER=grep 'LINT' || true
.else
_THINNER=xargs grep -L "^.NO_UNIVERSE" || true
.endif
KERNCONFS!= cd ${KERNSRCDIR}/${TARGET}/conf && \
find [[:upper:][:digit:]]*[[:upper:][:digit:]] \
-type f -maxdepth 0 \
! -name DEFAULTS ! -name NOTES | \
${_THINNER}
universe_kernconfs: universe_kernels_prologue .PHONY
.for kernel in ${KERNCONFS}
TARGET_ARCH_${kernel}!= cd ${KERNSRCDIR}/${TARGET}/conf && \
env PATH=${HOST_OBJTOP}/tmp/legacy/bin:${PATH:Q} \
config -m ${KERNSRCDIR}/${TARGET}/conf/${kernel} 2> /dev/null | \
grep -v WARNING: | cut -f 2
.if empty(TARGET_ARCH_${kernel})
.error Target architecture for ${TARGET}/conf/${kernel} unknown. config(8) likely too old.
.endif
universe_kernconfs_${TARGET_ARCH_${kernel}}: universe_kernconf_${TARGET}_${kernel}
universe_kernconf_${TARGET}_${kernel}: .MAKE
@echo ">> ${TARGET}.${TARGET_ARCH_${kernel}} ${kernel} kernel started on `LC_ALL=C date`"
@(cd ${.CURDIR} && env __MAKE_CONF=/dev/null \
${SUB_MAKE} ${JFLAG} buildkernel \
TARGET=${TARGET} \
TARGET_ARCH=${TARGET_ARCH_${kernel}} \
${MAKE_PARAMS_${TARGET_ARCH_${kernel}}} \
KERNCONF=${kernel} \
> _.${TARGET}.${kernel} 2>&1 || \
(echo "${TARGET} ${kernel} kernel failed," \
"check _.${TARGET}.${kernel} for details"| ${MAKEFAIL}))
@echo ">> ${TARGET}.${TARGET_ARCH_${kernel}} ${kernel} kernel completed on `LC_ALL=C date`"
.endfor
.for target_arch in ${TARGET_ARCHES_${TARGET}}
universe_kernconfs: universe_kernconfs_${target_arch} .PHONY
universe_kernconfs_${target_arch}:
.endfor
.endif # make(universe_kernels)
universe: universe_epilogue
universe_epilogue: .PHONY
@echo "--------------------------------------------------------------"
@echo ">>> make universe completed on `LC_ALL=C date`"
@echo " (started ${STARTTIME})"
@echo "--------------------------------------------------------------"
.if defined(DOING_TINDERBOX)
@if [ -e ${FAILFILE} ] ; then \
echo "Tinderbox failed:" ;\
cat ${FAILFILE} ;\
exit 1 ;\
fi
.endif
.endif
.if defined(.PARSEDIR)
# This makefile does not run in meta mode
.MAKE.MODE= normal
# Normally the things we run from here don't either.
# Using -DWITH_META_MODE
# we can buildworld with meta files created which are useful
# for debugging, but without any of the rest of a meta mode build.
MK_DIRDEPS_BUILD= no
MK_STAGING= no
# tell meta.autodep.mk to not even think about updating anything.
UPDATE_DEPENDFILE= NO
.if !make(showconfig)
.export MK_DIRDEPS_BUILD MK_STAGING UPDATE_DEPENDFILE
.endif
.if make(universe)
# we do not want a failure of one branch abort all.
MAKE_JOB_ERROR_TOKEN= no
.export MAKE_JOB_ERROR_TOKEN
.endif
.endif # bmake
.endif # DIRDEPS_BUILD