# # # 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 ${TARGET_ARCH}-gccN packages are provided as flavors of the # devel/freebsd-gccN ports. # # See src/UPDATING `COMMON ITEMS' for more complete information. # # If TARGET=machine (e.g. powerpc, arm64, ...) is specified you can # cross build world for other machine types using the buildworld target, # and once the world is built you can cross build a kernel using the # buildkernel target. # # Define the user-driven targets. These are listed here in alphabetical # order, but that's not important. # # Targets that begin with underscore are internal targets intended for # developer convenience only. They are intentionally not documented and # completely subject to change without notice. # # For more information, see the build(7) manual page. # # Include jobs.mk early if we need it. # It will turn: # make buildworld-jobs # into # make -j${JOB_MAX} buildworld > ../buildworld.log 2>&1 # .if make(*-jobs) .include <jobs.mk> .endif .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) && ${MK_DIRDEPS_BUILD} == "yes" && \ !make(showconfig) && !make(print-dir) # targets/Makefile plays the role of top-level .include "targets/Makefile" .else .include "${.CURDIR}/share/mk/bsd.compat.pre.mk" TGTS= all all-man buildenv buildenvvars buildetc 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 installetc 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 \ _cleanworldtmp _worldtmp _legacy _bootstrap-tools _cleanobj _obj \ _build-tools _build-metadata _cross-tools _includes _libraries \ 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 .for libcompat in ${_ALL_libcompats} TGTS+= build${libcompat} distribute${libcompat} install${libcompat} .endfor # 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+= \ _* 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 .for libcompat in ${_ALL_libcompats} META_TGT_WHITELIST+= build${libcompat} .endfor .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) # armv6's importance has waned enough to make building it the exception rather # than the rule. EXTRA_ARCHES_arm= armv6 # powerpcspe excluded from main list until clang fixed EXTRA_ARCHES_powerpc= powerpcspe .endif TARGETS?= ${TARGET_MACHINE_LIST} _UNIVERSE_TARGETS= ${TARGETS} .for target in ${TARGETS} TARGET_ARCHES_${target}= ${MACHINE_ARCH_LIST_${target}} .endfor .if defined(USE_GCC_TOOLCHAINS) TOOLCHAINS_amd64= amd64-gcc12 TOOLCHAINS_arm= armv6-gcc12 armv7-gcc12 TOOLCHAIN_armv7= armv7-gcc12 TOOLCHAINS_arm64= aarch64-gcc12 TOOLCHAINS_i386= i386-gcc12 TOOLCHAINS_powerpc= powerpc-gcc12 powerpc64-gcc12 TOOLCHAIN_powerpc64= powerpc64-gcc12 TOOLCHAINS_riscv= riscv64-gcc12 .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 .if ${.MAKE.OS} == "FreeBSD" UNIVERSE_TOOLCHAIN_TARGET?= ${MACHINE} UNIVERSE_TOOLCHAIN_TARGET_ARCH?= ${MACHINE_ARCH} .else # MACHINE/MACHINE_ARCH may not follow the same naming as us (e.g. x86_64 vs # amd64) on non-FreeBSD. Rather than attempt to sanitise it, arbitrarily use # amd64 as the default universe toolchain target. UNIVERSE_TOOLCHAIN_TARGET?= amd64 UNIVERSE_TOOLCHAIN_TARGET_ARCH?= amd64 .endif 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} ${JFLAG} kernel-toolchain \ TARGET=${UNIVERSE_TOOLCHAIN_TARGET} \ TARGET_ARCH=${UNIVERSE_TOOLCHAIN_TARGET_ARCH} \ OBJTOP="${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