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mirror of https://git.FreeBSD.org/src.git synced 2024-12-04 09:09:56 +00:00
freebsd/Makefile.inc1
2021-10-04 11:38:24 +02:00

3566 lines
120 KiB
Makefile

#
# $FreeBSD$
#
# Make command line options:
# -DNO_CLEANDIR run ${MAKE} clean, instead of ${MAKE} cleandir
# -DNO_CLEAN do not clean at all
# -DDB_FROM_SRC use the user/group databases in src/etc instead of
# the system database when installing.
# -DNO_SHARE do not go into share subdir
# -DKERNFAST define NO_KERNEL{CONFIG,CLEAN,OBJ}
# -DNO_KERNELCONFIG do not run config in ${MAKE} buildkernel
# -DNO_KERNELCLEAN do not run ${MAKE} clean in ${MAKE} buildkernel
# -DNO_KERNELOBJ do not run ${MAKE} obj in ${MAKE} buildkernel
# -DNO_ROOT install without using root privilege
# -DWITHOUT_CTF do not run the DTrace CTF conversion tools on built objects
# LOCAL_DIRS="list of dirs" to add additional dirs to the SUBDIR list
# LOCAL_ITOOLS="list of tools" to add additional tools to the ITOOLS list
# LOCAL_LIB_DIRS="list of dirs" to add additional dirs to libraries target
# LOCAL_MTREE="list of mtree files" to process to allow local directories
# to be created before files are installed
# LOCAL_LEGACY_DIRS="list of dirs" to add additional dirs to the legacy
# target
# LOCAL_BSTOOL_DIRS="list of dirs" to add additional dirs to the
# bootstrap-tools target
# LOCAL_TOOL_DIRS="list of dirs" to add additional dirs to the build-tools
# target
# LOCAL_XTOOL_DIRS="list of dirs" to add additional dirs to the
# cross-tools target
# METALOG="path to metadata log" to write permission and ownership
# when NO_ROOT is set. (default: ${DESTDIR}/${DISTDIR}/METALOG,
# check /etc/make.conf for DISTDIR)
# TARGET="machine" to crossbuild world for a different machine type
# TARGET_ARCH= may be required when a TARGET supports multiple endians
# BUILDENV_SHELL= shell to launch for the buildenv target (def:${SHELL})
# WORLD_FLAGS= additional flags to pass to make(1) during buildworld
# KERNEL_FLAGS= additional flags to pass to make(1) during buildkernel
# SUBDIR_OVERRIDE="list of dirs" to build rather than everything.
# All libraries and includes, and some build tools will still build.
#
# The intended user-driven targets are:
# buildworld - rebuild *everything*, including glue to help do upgrades
# installworld- install everything built by "buildworld"
# checkworld - run test suite on installed world
# doxygen - build API documentation of the kernel
# update - convenient way to update your source tree (eg: svn/svnup)
#
# Standard targets (not defined here) are documented in the makefiles in
# /usr/share/mk. These include:
# obj depend all install clean cleandepend cleanobj
.if !defined(TARGET) || !defined(TARGET_ARCH)
.error "Both TARGET and TARGET_ARCH must be defined."
.endif
.if make(showconfig) || make(test-system-*)
_MKSHOWCONFIG= t
.endif
SRCDIR?= ${.CURDIR}
LOCALBASE?= /usr/local
TIME_ENV ?= time env
.include "share/mk/src.tools.mk"
# Cross toolchain changes must be in effect before bsd.compiler.mk
# so that gets the right CC, and pass CROSS_TOOLCHAIN to submakes.
.if defined(CROSS_TOOLCHAIN)
.if exists(${LOCALBASE}/share/toolchains/${CROSS_TOOLCHAIN}.mk)
.include "${LOCALBASE}/share/toolchains/${CROSS_TOOLCHAIN}.mk"
.elif exists(/usr/share/toolchains/${CROSS_TOOLCHAIN}.mk)
.include "/usr/share/toolchains/${CROSS_TOOLCHAIN}.mk"
.elif exists(${CROSS_TOOLCHAIN})
.include "${CROSS_TOOLCHAIN}"
.else
.error CROSS_TOOLCHAIN ${CROSS_TOOLCHAIN} not found
.endif
CROSSENV+=CROSS_TOOLCHAIN="${CROSS_TOOLCHAIN}"
.endif
.if defined(CROSS_TOOLCHAIN_PREFIX)
CROSS_COMPILER_PREFIX?=${CROSS_TOOLCHAIN_PREFIX}
.endif
XCOMPILERS= CC CXX CPP
.for COMPILER in ${XCOMPILERS}
.if defined(CROSS_COMPILER_PREFIX)
X${COMPILER}?= ${CROSS_COMPILER_PREFIX}${${COMPILER}}
.else
X${COMPILER}?= ${${COMPILER}}
.endif
.endfor
# If a full path to an external cross compiler is given, don't build
# a cross compiler.
.if ${XCC:N${CCACHE_BIN}:M/*}
MK_CLANG_BOOTSTRAP= no
# Make sure sub-makes see the option as disabled so the hack in bsd.sys.mk to
# work around incompatible headers in Clang's resource directory is enabled.
.MAKEOVERRIDES+= MK_CLANG_BOOTSTRAP
.endif
# Pull in compiler metadata from buildworld/toolchain if possible to avoid
# running CC from bsd.compiler.mk.
.if make(installworld) || make(install) || make(distributeworld) || \
make(stageworld)
.-include "${OBJTOP}/toolchain-metadata.mk"
.if !defined(_LOADED_TOOLCHAIN_METADATA)
.error A build is required first. You may have the wrong MAKEOBJDIRPREFIX set.
.endif
.endif
# Pull in COMPILER_TYPE and COMPILER_FREEBSD_VERSION early. Pull it from the
# tree to be friendlier to foreign OS builds. It's safe to do so unconditionally
# here since we will always have the right make, unlike in src/Makefile
# Don't include bsd.linker.mk yet until XBINUTILS is handled (after src.opts.mk)
_NO_INCLUDE_LINKERMK= t
# We also want the X_COMPILER* variables if we are using an external toolchain.
_WANT_TOOLCHAIN_CROSS_VARS= t
.include "share/mk/bsd.compiler.mk"
.undef _NO_INCLUDE_LINKERMK
.undef _WANT_TOOLCHAIN_CROSS_VARS
# src.opts.mk depends on COMPILER_FEATURES
.include "share/mk/src.opts.mk"
.if ${TARGET} == ${MACHINE}
TARGET_CPUTYPE?=${CPUTYPE}
.else
TARGET_CPUTYPE?=
.endif
.if !empty(TARGET_CPUTYPE)
_TARGET_CPUTYPE=${TARGET_CPUTYPE}
.else
_TARGET_CPUTYPE=dummy
.endif
.if ${TARGET} == "arm"
.if ${TARGET_ARCH:Marmv[67]*} != "" && ${TARGET_CPUTYPE:M*soft*} == ""
TARGET_ABI= gnueabihf
.else
TARGET_ABI= gnueabi
.endif
.endif
MACHINE_ABI?= unknown
MACHINE_TRIPLE?=${MACHINE_ARCH:S/amd64/x86_64/:C/[hs]f$//:S/mipsn32/mips64/}-${MACHINE_ABI}-freebsd14.0
TARGET_ABI?= unknown
TARGET_TRIPLE?= ${TARGET_ARCH:S/amd64/x86_64/:C/[hs]f$//:S/mipsn32/mips64/}-${TARGET_ABI}-freebsd14.0
KNOWN_ARCHES?= aarch64/arm64 \
amd64 \
armv6/arm \
armv7/arm \
i386 \
mips \
mipsel/mips \
mips64el/mips \
mipsn32el/mips \
mips64/mips \
mipsn32/mips \
mipshf/mips \
mipselhf/mips \
mips64elhf/mips \
mips64hf/mips \
powerpc \
powerpc64/powerpc \
powerpc64le/powerpc \
powerpcspe/powerpc \
riscv64/riscv \
riscv64sf/riscv
.if ${TARGET} == ${TARGET_ARCH}
_t= ${TARGET}
.else
_t= ${TARGET_ARCH}/${TARGET}
.endif
.for _t in ${_t}
.if empty(KNOWN_ARCHES:M${_t})
.error Unknown target ${TARGET_ARCH}:${TARGET}.
.endif
.endfor
.if ${.MAKE.OS} != "FreeBSD"
CROSSBUILD_HOST=${.MAKE.OS}
.if ${.MAKE.OS} != "Linux" && ${.MAKE.OS} != "Darwin"
.warning "Unsupported crossbuild system: ${.MAKE.OS}. Build will probably fail!"
.endif
# We need to force NO_ROOT/DB_FROM_SRC builds when building on other operating
# systems since the BSD.foo.dist specs contain users and groups that do not
# exist by default on a Linux/MacOS system.
NO_ROOT:= 1
DB_FROM_SRC:= 1
.export NO_ROOT
.endif
# If all targets are disabled for system llvm then don't expect it to work
# for cross-builds.
.if !defined(TOOLS_PREFIX) && ${MK_LLVM_TARGET_ALL} == "no" && \
${MACHINE} != ${TARGET} && ${MACHINE_ARCH} != ${TARGET_ARCH} && \
!make(showconfig)
MK_SYSTEM_COMPILER= no
MK_SYSTEM_LINKER= no
.endif
# Handle external binutils.
.if defined(CROSS_TOOLCHAIN_PREFIX)
CROSS_BINUTILS_PREFIX?=${CROSS_TOOLCHAIN_PREFIX}
.endif
XBINUTILS= AS AR ELFCTL LD NM OBJCOPY RANLIB SIZE STRINGS STRIPBIN
.for BINUTIL in ${XBINUTILS}
.if defined(CROSS_BINUTILS_PREFIX) && \
exists(${CROSS_BINUTILS_PREFIX}/${${BINUTIL}})
X${BINUTIL}?= ${CROSS_BINUTILS_PREFIX:C,/*$,,}/${${BINUTIL}}
.else
X${BINUTIL}?= ${${BINUTIL}}
.endif
.endfor
# If a full path to an external linker is given, don't build lld.
.if ${XLD:M/*}
MK_LLD_BOOTSTRAP= no
.endif
# We also want the X_LINKER* variables if we are using an external toolchain.
_WANT_TOOLCHAIN_CROSS_VARS= t
.include "share/mk/bsd.linker.mk"
.undef _WANT_TOOLCHAIN_CROSS_VARS
# Begin WITH_SYSTEM_COMPILER / WITH_SYSTEM_LD
# WITH_SYSTEM_COMPILER - Pull in needed values and make a decision.
# Check if there is a local compiler that can satisfy as an external compiler.
# Which compiler is expected to be used?
.if ${MK_CLANG_BOOTSTRAP} == "yes"
WANT_COMPILER_TYPE= clang
.else
WANT_COMPILER_TYPE=
.endif
.if !defined(WANT_COMPILER_FREEBSD_VERSION) && !make(showconfig) && \
!make(test-system-linker)
.if ${WANT_COMPILER_TYPE} == "clang"
WANT_COMPILER_FREEBSD_VERSION_FILE= lib/clang/freebsd_cc_version.h
WANT_COMPILER_FREEBSD_VERSION!= \
awk '$$2 == "FREEBSD_CC_VERSION" {printf("%d\n", $$3)}' \
${SRCDIR}/${WANT_COMPILER_FREEBSD_VERSION_FILE} || echo unknown
WANT_COMPILER_VERSION_FILE= lib/clang/include/clang/Basic/Version.inc
WANT_COMPILER_VERSION!= \
awk '$$2 == "CLANG_VERSION" {split($$3, a, "."); print a[1] * 10000 + a[2] * 100 + a[3]}' \
${SRCDIR}/${WANT_COMPILER_VERSION_FILE} || echo unknown
.endif
.export WANT_COMPILER_FREEBSD_VERSION WANT_COMPILER_VERSION
.endif # !defined(WANT_COMPILER_FREEBSD_VERSION)
# It needs to be the same revision as we would build for the bootstrap.
# If the expected vs CC is different then we can't skip.
# GCC cannot be used for cross-arch yet. For clang we pass -target later if
# TARGET_ARCH!=MACHINE_ARCH.
.if ${MK_SYSTEM_COMPILER} == "yes" && \
defined(WANT_COMPILER_FREEBSD_VERSION) && \
${MK_CLANG_BOOTSTRAP} == "yes" && \
!make(xdev*) && \
${X_COMPILER_TYPE} == ${WANT_COMPILER_TYPE} && \
(${X_COMPILER_TYPE} == "clang" || ${TARGET_ARCH} == ${MACHINE_ARCH}) && \
${X_COMPILER_VERSION} == ${WANT_COMPILER_VERSION} && \
${X_COMPILER_FREEBSD_VERSION} == ${WANT_COMPILER_FREEBSD_VERSION}
# Everything matches, disable the bootstrap compiler.
MK_CLANG_BOOTSTRAP= no
USING_SYSTEM_COMPILER= yes
.endif # ${WANT_COMPILER_TYPE} == ${COMPILER_TYPE}
# WITH_SYSTEM_LD - Pull in needed values and make a decision.
# Check if there is a local linker that can satisfy as an external linker.
# Which linker is expected to be used?
.if ${MK_LLD_BOOTSTRAP} == "yes"
WANT_LINKER_TYPE= lld
.else
WANT_LINKER_TYPE=
.endif
.if !defined(WANT_LINKER_FREEBSD_VERSION) && !make(showconfig) && \
!make(test-system-compiler)
.if ${WANT_LINKER_TYPE} == "lld"
WANT_LINKER_FREEBSD_VERSION_FILE= lib/clang/include/VCSVersion.inc
_WANT_LINKER_FREEBSD_VERSION!= \
awk '$$2 == "LLD_REVISION" {gsub(/"/, "", $$3); print $$3}' \
${SRCDIR}/${WANT_LINKER_FREEBSD_VERSION_FILE} || echo unknown
WANT_LINKER_FREEBSD_VERSION=${_WANT_LINKER_FREEBSD_VERSION:C/.*-(.*)/\1/}
WANT_LINKER_VERSION_FILE= lib/clang/include/lld/Common/Version.inc
WANT_LINKER_VERSION!= \
awk '$$2 == "LLD_VERSION_STRING" { gsub("\"", "", $$3); split($$3, a, "."); print a[1] * 10000 + a[2] * 100 + a[3]}' \
${SRCDIR}/${WANT_LINKER_VERSION_FILE} || echo unknown
.else
WANT_LINKER_FREEBSD_VERSION_FILE=
WANT_LINKER_FREEBSD_VERSION=
.endif
.export WANT_LINKER_FREEBSD_VERSION WANT_LINKER_VERSION
.endif # !defined(WANT_LINKER_FREEBSD_VERSION)
.if ${MK_SYSTEM_LINKER} == "yes" && \
defined(WANT_LINKER_FREEBSD_VERSION) && \
(${MK_LLD_BOOTSTRAP} == "yes") && \
!make(xdev*) && \
${X_LINKER_TYPE} == ${WANT_LINKER_TYPE} && \
${X_LINKER_VERSION} == ${WANT_LINKER_VERSION} && \
${X_LINKER_FREEBSD_VERSION} == ${WANT_LINKER_FREEBSD_VERSION}
# Everything matches, disable the bootstrap linker.
MK_LLD_BOOTSTRAP= no
USING_SYSTEM_LINKER= yes
.endif # ${WANT_LINKER_TYPE} == ${LINKER_TYPE}
# WITH_SYSTEM_COMPILER / WITH_SYSTEM_LINKER - Handle defaults and debug.
USING_SYSTEM_COMPILER?= no
USING_SYSTEM_LINKER?= no
TEST_SYSTEM_COMPILER_VARS= \
USING_SYSTEM_COMPILER MK_SYSTEM_COMPILER \
MK_CROSS_COMPILER MK_CLANG_BOOTSTRAP \
WANT_COMPILER_TYPE WANT_COMPILER_VERSION WANT_COMPILER_VERSION_FILE \
WANT_COMPILER_FREEBSD_VERSION WANT_COMPILER_FREEBSD_VERSION_FILE \
CC COMPILER_TYPE COMPILER_FEATURES COMPILER_VERSION \
COMPILER_FREEBSD_VERSION \
XCC X_COMPILER_TYPE X_COMPILER_FEATURES X_COMPILER_VERSION \
X_COMPILER_FREEBSD_VERSION
TEST_SYSTEM_LINKER_VARS= \
USING_SYSTEM_LINKER MK_SYSTEM_LINKER \
MK_LLD_BOOTSTRAP \
WANT_LINKER_TYPE WANT_LINKER_VERSION WANT_LINKER_VERSION_FILE \
WANT_LINKER_FREEBSD_VERSION WANT_LINKER_FREEBSD_VERSION_FILE \
LD LINKER_TYPE LINKER_FEATURES LINKER_VERSION \
LINKER_FREEBSD_VERSION \
XLD X_LINKER_TYPE X_LINKER_FEATURES X_LINKER_VERSION \
X_LINKER_FREEBSD_VERSION
.for _t in compiler linker
test-system-${_t}: .PHONY
.for v in ${TEST_SYSTEM_${_t:tu}_VARS}
${_+_}@printf "%-35s= %s\n" "${v}" "${${v}}"
.endfor
.endfor
.if (make(buildworld) || make(buildkernel) || make(kernel-toolchain) || \
make(toolchain) || make(_cross-tools))
.if ${USING_SYSTEM_COMPILER} == "yes"
.info SYSTEM_COMPILER: Determined that CC=${CC} matches the source tree. Not bootstrapping a cross-compiler.
.elif ${MK_CLANG_BOOTSTRAP} == "yes"
.info SYSTEM_COMPILER: libclang will be built for bootstrapping a cross-compiler.
.endif
.if ${USING_SYSTEM_LINKER} == "yes"
.info SYSTEM_LINKER: Determined that LD=${LD} matches the source tree. Not bootstrapping a cross-linker.
.elif ${MK_LLD_BOOTSTRAP} == "yes"
.info SYSTEM_LINKER: libclang will be built for bootstrapping a cross-linker.
.endif
.endif
# End WITH_SYSTEM_COMPILER / WITH_SYSTEM_LD
# Store some compiler metadata for use in installworld where we don't
# want to invoke CC at all.
_TOOLCHAIN_METADATA_VARS= COMPILER_VERSION \
COMPILER_TYPE \
COMPILER_FEATURES \
COMPILER_FREEBSD_VERSION \
COMPILER_RESOURCE_DIR \
LINKER_VERSION \
LINKER_FEATURES \
LINKER_TYPE \
LINKER_FREEBSD_VERSION
toolchain-metadata.mk: .PHONY .META
@: > ${.TARGET}
@echo ".info Using cached toolchain metadata from build at $$(hostname) on $$(date)" \
> ${.TARGET}
@echo "_LOADED_TOOLCHAIN_METADATA=t" >> ${.TARGET}
.for v in ${_TOOLCHAIN_METADATA_VARS}
@echo "${v}=${${v}}" >> ${.TARGET}
@echo "X_${v}=${X_${v}}" >> ${.TARGET}
.endfor
@echo ".export ${_TOOLCHAIN_METADATA_VARS}" >> ${.TARGET}
@echo ".export ${_TOOLCHAIN_METADATA_VARS:C,^,X_,}" >> ${.TARGET}
# We must do lib/ and libexec/ before bin/ in case of a mid-install error to
# keep the users system reasonably usable. For static->dynamic root upgrades,
# we don't want to install a dynamic binary without rtld and the needed
# libraries. More commonly, for dynamic root, we don't want to install a
# binary that requires a newer library version that hasn't been installed yet.
# This ordering is not a guarantee though. The only guarantee of a working
# system here would require fine-grained ordering of all components based
# on their dependencies.
.if !empty(SUBDIR_OVERRIDE)
SUBDIR= ${SUBDIR_OVERRIDE}
.else
SUBDIR= lib libexec
# Add LOCAL_LIB_DIRS, but only if they will not be picked up as a SUBDIR
# of a LOCAL_DIRS directory. This allows LOCAL_DIRS=foo and
# LOCAL_LIB_DIRS=foo/lib to behave as expected.
.for _DIR in ${LOCAL_DIRS:M*/} ${LOCAL_DIRS:N*/:S|$|/|}
_REDUNDANT_LIB_DIRS+= ${LOCAL_LIB_DIRS:M${_DIR}*}
.endfor
.for _DIR in ${LOCAL_LIB_DIRS}
.if ${_DIR} == ".WAIT" || (empty(_REDUNDANT_LIB_DIRS:M${_DIR}) && exists(${.CURDIR}/${_DIR}/Makefile))
SUBDIR+= ${_DIR}
.endif
.endfor
.if !defined(NO_ROOT) && (make(installworld) || make(install))
# Ensure libraries are installed before progressing.
SUBDIR+=.WAIT
.endif
SUBDIR+=bin
.if ${MK_CDDL} != "no"
SUBDIR+=cddl
.endif
SUBDIR+=gnu include
.if ${MK_KERBEROS} != "no"
SUBDIR+=kerberos5
.endif
.if ${MK_RESCUE} != "no"
SUBDIR+=rescue
.endif
SUBDIR+=sbin
.if ${MK_CRYPT} != "no"
SUBDIR+=secure
.endif
.if !defined(NO_SHARE)
SUBDIR+=share
.endif
.if ${MK_BOOT} != "no"
SUBDIR+=stand
.endif
SUBDIR+=sys usr.bin usr.sbin
.if ${MK_TESTS} != "no"
SUBDIR+= tests
.endif
# Local directories are built in parallel with the base system directories.
# Users may insert a .WAIT directive at the beginning or elsewhere within
# the LOCAL_DIRS and LOCAL_LIB_DIRS lists as needed.
.for _DIR in ${LOCAL_DIRS}
.if ${_DIR} == ".WAIT" || exists(${.CURDIR}/${_DIR}/Makefile)
SUBDIR+= ${_DIR}
.endif
.endfor
# We must do etc/ last as it hooks into building the man whatis file
# by calling 'makedb' in share/man. This is only relevant for
# install/distribute so they build the whatis file after every manpage is
# installed.
.if make(installworld) || make(install)
SUBDIR+=.WAIT
.endif
SUBDIR+=etc
.endif # !empty(SUBDIR_OVERRIDE)
.if defined(NOCLEAN)
.warning The src.conf WITHOUT_CLEAN option can now be used instead of NOCLEAN.
MK_CLEAN:= no
.endif
.if defined(NO_CLEAN)
.info The src.conf WITHOUT_CLEAN option can now be used instead of NO_CLEAN.
MK_CLEAN:= no
.endif
.if defined(NO_CLEANDIR)
CLEANDIR= clean cleandepend
.else
CLEANDIR= cleandir
.endif
.if defined(WORLDFAST)
MK_CLEAN:= no
NO_OBJWALK= t
.endif
.if ${MK_META_MODE} == "yes"
# If filemon is used then we can rely on the build being incremental-safe.
# The .meta files will also track the build command and rebuild should
# it change.
.if empty(.MAKE.MODE:Mnofilemon)
MK_CLEAN:= no
.endif
.endif
.if defined(NO_OBJWALK) || ${MK_AUTO_OBJ} == "yes"
NO_OBJWALK= t
NO_KERNELOBJ= t
.endif
.if !defined(NO_OBJWALK)
_obj= obj
.endif
LOCAL_TOOL_DIRS?=
PACKAGEDIR?= ${DESTDIR}/${DISTDIR}
.if empty(SHELL:M*csh*)
BUILDENV_SHELL?=${SHELL}
.else
BUILDENV_SHELL?=/bin/sh
.endif
.if !defined(_MKSHOWCONFIG)
.if !defined(VCS_REVISION) || empty(VCS_REVISION)
.if !defined(SVNVERSION_CMD) || empty(SVNVERSION_CMD)
. for _D in ${PATH:S,:, ,g}
. if exists(${_D}/svnversion)
SVNVERSION_CMD?=${_D}/svnversion
. endif
. if exists(${_D}/svnliteversion)
SVNVERSION_CMD?=${_D}/svnliteversion
. endif
. endfor
.endif
_VCS_REVISION?= $$(eval ${SVNVERSION_CMD} ${SRCDIR})
. if !empty(_VCS_REVISION)
VCS_REVISION= $$(echo r${_VCS_REVISION})
. endif
.export VCS_REVISION
.endif
.if !defined(GIT_CMD) || empty(GIT_CMD)
. for _P in /usr/bin /usr/local/bin
. if exists(${_P}/git)
GIT_CMD= ${_P}/git
. endif
. endfor
.export GIT_CMD
.endif
.if !defined(OSRELDATE)
.if exists(/usr/include/osreldate.h)
OSRELDATE!= awk '/^\#define[[:space:]]*__FreeBSD_version/ { print $$3 }' \
/usr/include/osreldate.h
.else
OSRELDATE= 0
.endif
.export OSRELDATE
.endif
# Set VERSION for CTFMERGE to use via the default CTFFLAGS=-L VERSION.
.for _V in BRANCH REVISION
.if !defined(_${_V})
_${_V}!= eval $$(awk '/^${_V}=/{print}' ${SRCTOP}/sys/conf/newvers.sh); echo $$${_V}
.export _${_V}
.endif
.endfor
.if !defined(SRCRELDATE)
SRCRELDATE!= awk '/^\#define[[:space:]]*__FreeBSD_version/ { print $$3 }' \
${SRCDIR}/sys/sys/param.h
.export SRCRELDATE
.endif
.if !defined(VERSION)
VERSION= FreeBSD ${_REVISION}-${_BRANCH:C/-p[0-9]+$//} ${TARGET_ARCH} ${SRCRELDATE}
.export VERSION
.endif
.if !defined(PKG_VERSION)
_STRTIMENOW= %Y%m%d%H%M%S
_TIMENOW= ${_STRTIMENOW:gmtime}
.if ${_BRANCH:MCURRENT*} || ${_BRANCH:MSTABLE*} || ${_BRANCH:MPRERELEASE*}
_REVISION:= ${_REVISION:R}
EXTRA_REVISION= .snap${_TIMENOW}
.elif ${_BRANCH:MALPHA*}
EXTRA_REVISION= .a${_BRANCH:C/ALPHA([0-9]+).*/\1/}.${_TIMENOW}
.elif ${_BRANCH:MBETA*}
EXTRA_REVISION= .b${_BRANCH:C/BETA([0-9]+).*/\1/}.${_TIMENOW}
.elif ${_BRANCH:MRC*}
EXTRA_REVISION= .rc${_BRANCH:C/RC([0-9]+).*/\1/}.${_TIMENOW}
.elif ${_BRANCH:M*-p*}
EXTRA_REVISION= p${_BRANCH:C/.*-p([0-9]+$)/\1/}
.endif
PKG_VERSION:= ${_REVISION}${EXTRA_REVISION:C/[[:space:]]//g}
.endif
.endif # !defined(PKG_VERSION)
.if !defined(PKG_TIMESTAMP)
TIMEEPOCHNOW= %s
SOURCE_DATE_EPOCH= ${TIMEEPOCHNOW:gmtime}
.else
SOURCE_DATE_EPOCH= ${PKG_TIMESTAMP}
.endif
PKG_NAME_PREFIX?= FreeBSD
PKG_MAINTAINER?= re@FreeBSD.org
PKG_WWW?= https://www.FreeBSD.org
.export PKG_NAME_PREFIX
.export PKG_MAINTAINER
.export PKG_WWW
.if !defined(_MKSHOWCONFIG)
_CPUTYPE!= MAKEFLAGS= CPUTYPE=${_TARGET_CPUTYPE} ${MAKE} -f /dev/null \
-m ${.CURDIR}/share/mk MK_AUTO_OBJ=no -V CPUTYPE
.if ${_CPUTYPE} != ${_TARGET_CPUTYPE}
.error CPUTYPE global should be set with ?=.
.endif
.endif
.if make(buildworld)
BUILD_ARCH!= uname -p
# On some Linux systems uname -p returns "unknown" so skip this check there.
# This check only exists to tell people to use TARGET_ARCH instead of
# MACHINE_ARCH so skipping it when crossbuilding on non-FreeBSD should be fine.
.if ${MACHINE_ARCH} != ${BUILD_ARCH} && ${.MAKE.OS} == "FreeBSD"
.error To cross-build, set TARGET_ARCH.
.endif
.endif
WORLDTMP?= ${OBJTOP}/tmp
BPATH= ${CCACHE_WRAPPER_PATH_PFX}${WORLDTMP}/legacy/usr/sbin:${WORLDTMP}/legacy/usr/bin:${WORLDTMP}/legacy/bin:${WORLDTMP}/legacy/usr/libexec
XPATH= ${WORLDTMP}/bin:${WORLDTMP}/usr/sbin:${WORLDTMP}/usr/bin
# When building we want to find the cross tools before the host tools in ${BPATH}.
# We also need to add UNIVERSE_TOOLCHAIN_PATH so that we can find the shared
# toolchain files (clang, lld, etc.) during make universe/tinderbox
STRICTTMPPATH= ${XPATH}:${BPATH}:${UNIVERSE_TOOLCHAIN_PATH}
# We should not be using tools from /usr/bin accidentally since this could cause
# the build to break on other systems that don't have that tool. For now we
# still allow using the old behaviour (inheriting $PATH) if
# BUILD_WITH_STRICT_TMPPATH is set to 0 but this will eventually be removed.
# Currently strict $PATH can cause build failures and does not work yet with
# USING_SYSTEM_LINKER/USING_SYSTEM_COMPILER. Once these issues have been
# resolved it will be turned on by default.
BUILD_WITH_STRICT_TMPPATH?=0
.if defined(CROSSBUILD_HOST)
# When building on non-FreeBSD we can't rely on the tools in /usr/bin being compatible
# with what FreeBSD expects. Therefore we only use tools from STRICTTMPPATH
# during the world build stage. We build most tools during the bootstrap-tools
# phase but symlink host tools that are known to work instead of building them
BUILD_WITH_STRICT_TMPPATH:=1
.endif
.if ${BUILD_WITH_STRICT_TMPPATH} != 0
TMPPATH= ${STRICTTMPPATH}
.else
TMPPATH= ${STRICTTMPPATH}:${PATH}
.endif
#
# Avoid running mktemp(1) unless actually needed.
# It may not be functional, e.g., due to new ABI
# when in the middle of installing over this system.
#
.if make(distributeworld) || make(installworld) || make(stageworld)
.if ${BUILD_WITH_STRICT_TMPPATH} != 0
MKTEMP=${WORLDTMP}/legacy/usr/bin/mktemp
.if !exists(${MKTEMP})
.error "mktemp binary doesn't exist in expected location: ${MKTEMP}"
.endif
.else
MKTEMP=mktemp
.endif
INSTALLTMP!= ${MKTEMP} -d -u -t install
.endif
.if make(stagekernel) || make(distributekernel)
TAGS+= kernel
PACKAGE= kernel
.endif
#
# Building a world goes through the following stages
#
# 1. legacy stage [BMAKE]
# This stage is responsible for creating compatibility
# shims that are needed by the bootstrap-tools,
# build-tools and cross-tools stages. These are generally
# APIs that tools from one of those three stages need to
# build that aren't present on the host.
# 1. bootstrap-tools stage [BMAKE]
# This stage is responsible for creating programs that
# are needed for backward compatibility reasons. They
# are not built as cross-tools.
# 2. build-tools stage [TMAKE]
# This stage is responsible for creating the object
# tree and building any tools that are needed during
# the build process. Some programs are listed during
# this phase because they build binaries to generate
# files needed to build these programs. This stage also
# builds the 'build-tools' target rather than 'all'.
# 3. cross-tools stage [XMAKE]
# This stage is responsible for creating any tools that
# are needed for building the system. A cross-compiler is one
# of them. This differs from build tools in two ways:
# 1. the 'all' target is built rather than 'build-tools'
# 2. these tools are installed into TMPPATH for stage 4.
# 4. world stage [WMAKE]
# This stage actually builds the world.
# 5. install stage (optional) [IMAKE]
# This stage installs a previously built world.
#
BOOTSTRAPPING?= 0
# Keep these in sync
MINIMUM_SUPPORTED_OSREL?= 1002501
MINIMUM_SUPPORTED_REL?= 10.3
# Common environment for world related stages
CROSSENV+= \
MACHINE_ARCH=${TARGET_ARCH} \
MACHINE=${TARGET} \
CPUTYPE=${TARGET_CPUTYPE}
.if ${MK_META_MODE} != "no"
# Don't rebuild build-tools targets during normal build.
CROSSENV+= BUILD_TOOLS_META=.NOMETA
.endif
.if defined(TARGET_CFLAGS)
CROSSENV+= ${TARGET_CFLAGS}
.endif
.if (${TARGET} != ${MACHINE} && !defined(WITH_LOCAL_MODULES)) || \
defined(WITHOUT_LOCAL_MODULES)
CROSSENV+= LOCAL_MODULES=
.endif
BOOTSTRAPPING_OSRELDATE?=${OSRELDATE}
# bootstrap-tools stage
BMAKEENV= INSTALL="sh ${.CURDIR}/tools/install.sh" \
TOOLS_PREFIX=${TOOLS_PREFIX_UNDEF:U${WORLDTMP}} \
PATH=${BPATH}:${PATH} \
WORLDTMP=${WORLDTMP} \
MAKEFLAGS="-m ${.CURDIR}/tools/build/mk ${.MAKEFLAGS}"
# need to keep this in sync with targets/pseudo/bootstrap-tools/Makefile
BSARGS= DESTDIR= \
OBJTOP='${WORLDTMP}/obj-tools' \
OBJROOT='$${OBJTOP}/' \
MAKEOBJDIRPREFIX= \
BOOTSTRAPPING=${BOOTSTRAPPING_OSRELDATE} \
BWPHASE=${.TARGET:C,^_,,} \
-DNO_CPU_CFLAGS \
-DNO_LINT \
-DNO_PIC \
-DNO_SHARED \
MK_ASAN=no \
MK_CTF=no \
MK_CLANG_EXTRAS=no \
MK_CLANG_FORMAT=no \
MK_CLANG_FULL=no \
MK_HTML=no \
MK_MAN=no \
MK_PROFILE=no \
MK_RETPOLINE=no \
MK_SSP=no \
MK_TESTS=no \
MK_UBSAN=no \
MK_WERROR=no \
MK_INCLUDES=yes \
MK_MAN_UTILS=yes
BMAKE= \
${TIME_ENV} ${BMAKEENV} ${MAKE} ${WORLD_FLAGS} -f Makefile.inc1 \
${BSARGS}
.if empty(.MAKEOVERRIDES:MMK_LLVM_TARGET_ALL)
BMAKE+= MK_LLVM_TARGET_ALL=no
.endif
# build-tools stage
TMAKE= \
${TIME_ENV} ${BMAKEENV} ${MAKE} ${WORLD_FLAGS} -f Makefile.inc1 \
TARGET=${TARGET} TARGET_ARCH=${TARGET_ARCH} \
DESTDIR= \
BOOTSTRAPPING=${BOOTSTRAPPING_OSRELDATE} \
BWPHASE=${.TARGET:C,^_,,} \
-DNO_CPU_CFLAGS \
-DNO_LINT \
MK_ASAN=no \
MK_CTF=no \
MK_CLANG_EXTRAS=no \
MK_CLANG_FORMAT=no \
MK_CLANG_FULL=no \
MK_LLDB=no \
MK_RETPOLINE=no \
MK_SSP=no \
MK_TESTS=no \
MK_UBSAN=no \
MK_WERROR=no
# cross-tools stage
# TOOLS_PREFIX set in BMAKE
XMAKE= ${BMAKE} \
TARGET=${TARGET} TARGET_ARCH=${TARGET_ARCH} \
MK_CLANG_IS_CC=${MK_CLANG_BOOTSTRAP} \
MK_LLDB=no \
MK_LLVM_BINUTILS=no \
MK_TESTS=no
# kernel-tools stage
KTMAKEENV= INSTALL="sh ${.CURDIR}/tools/install.sh" \
PATH=${BPATH}:${PATH} \
WORLDTMP=${WORLDTMP} \
MAKEFLAGS="-m ${.CURDIR}/tools/build/mk ${.MAKEFLAGS}"
KTMAKE= ${TIME_ENV} \
TOOLS_PREFIX=${TOOLS_PREFIX_UNDEF:U${WORLDTMP}} \
${KTMAKEENV} ${MAKE} ${WORLD_FLAGS} -f Makefile.inc1 \
DESTDIR= \
OBJTOP='${WORLDTMP}/obj-kernel-tools' \
OBJROOT='$${OBJTOP}/' \
MAKEOBJDIRPREFIX= \
BOOTSTRAPPING=${BOOTSTRAPPING_OSRELDATE} \
-DNO_CPU_CFLAGS \
-DNO_LINT \
-DNO_PIC \
-DNO_SHARED \
MK_CTF=no \
MK_HTML=no \
MK_MAN=no \
MK_PROFILE=no \
MK_SSP=no \
MK_RETPOLINE=no \
MK_WERROR=no
# world stage
WMAKEENV= ${CROSSENV} \
INSTALL="${INSTALL_CMD} -U" \
PATH=${TMPPATH} \
SYSROOT=${WORLDTMP}
# make hierarchy
HMAKE= PATH=${TMPPATH} ${MAKE} LOCAL_MTREE=${LOCAL_MTREE:Q}
.if defined(NO_ROOT)
HMAKE+= PATH=${TMPPATH} METALOG=${METALOG} -DNO_ROOT
.endif
CROSSENV+= CC="${XCC} ${XCFLAGS}" CXX="${XCXX} ${XCXXFLAGS} ${XCFLAGS}" \
CPP="${XCPP} ${XCFLAGS}" \
AS="${XAS}" AR="${XAR}" ELFCTL="${XELFCTL}" LD="${XLD}" \
LLVM_LINK="${XLLVM_LINK}" NM=${XNM} OBJCOPY="${XOBJCOPY}" \
RANLIB=${XRANLIB} STRINGS=${XSTRINGS} \
SIZE="${XSIZE}" STRIPBIN="${XSTRIPBIN}"
.if defined(CROSS_BINUTILS_PREFIX) && exists(${CROSS_BINUTILS_PREFIX})
# In the case of xdev-build tools, CROSS_BINUTILS_PREFIX won't be a
# directory, but the compiler will look in the right place for its
# tools so we don't need to tell it where to look.
BFLAGS+= -B${CROSS_BINUTILS_PREFIX}
.endif
# The internal bootstrap compiler has a default sysroot set by TOOLS_PREFIX
# and target set by TARGET/TARGET_ARCH. However, there are several needs to
# always pass an explicit --sysroot and -target.
# - External compiler needs sysroot and target flags.
# - External ld needs sysroot.
# - To be clear about the use of a sysroot when using the internal compiler.
# - Easier debugging.
# - Allowing WITH_SYSTEM_COMPILER+WITH_META_MODE to work together due to
# the flip-flopping build command when sometimes using external and
# sometimes using internal.
# - Allow using lld which has no support for default paths.
.if !defined(CROSS_BINUTILS_PREFIX) || !exists(${CROSS_BINUTILS_PREFIX})
BFLAGS+= -B${WORLDTMP}/usr/bin
.endif
.if ${WANT_COMPILER_TYPE} == gcc || \
(defined(X_COMPILER_TYPE) && ${X_COMPILER_TYPE} == gcc)
.elif ${WANT_COMPILER_TYPE} == clang || \
(defined(X_COMPILER_TYPE) && ${X_COMPILER_TYPE} == clang)
XCFLAGS+= -target ${TARGET_TRIPLE}
.endif
XCFLAGS+= --sysroot=${WORLDTMP}
.if !empty(BFLAGS)
XCFLAGS+= ${BFLAGS}
.endif
.if ${MK_LIB32} == "yes"
_LIBCOMPAT= 32
.include "Makefile.libcompat"
.elif ${MK_LIBSOFT} == "yes"
_LIBCOMPAT= SOFT
.include "Makefile.libcompat"
.endif
# META_MODE normally ignores host file changes since every build updates
# timestamps (see NO_META_IGNORE_HOST in sys.mk). There are known times
# when the ABI breaks though that we want to force rebuilding WORLDTMP
# to get updated host tools.
.if ${MK_META_MODE} == "yes" && ${MK_CLEAN} == "no" && \
!defined(NO_META_IGNORE_HOST) && !defined(NO_META_IGNORE_HOST_HEADERS) && \
!defined(_MKSHOWCONFIG)
# r318736 - ino64 major ABI breakage
META_MODE_BAD_ABI_VERS+= 1200031
.if !defined(OBJDIR_HOST_OSRELDATE)
.if exists(${OBJTOP}/host-osreldate.h)
OBJDIR_HOST_OSRELDATE!= \
awk '/^\#define[[:space:]]*__FreeBSD_version/ { print $$3 }' \
${OBJTOP}/host-osreldate.h
.elif exists(${WORLDTMP}/usr/include/osreldate.h)
OBJDIR_HOST_OSRELDATE= 0
.endif
.export OBJDIR_HOST_OSRELDATE
.endif
# Note that this logic is the opposite of normal BOOTSTRAP handling. We want
# to compare the WORLDTMP's OSRELDATE to the host's OSRELDATE. If the WORLDTMP
# is older than the ABI-breakage OSRELDATE of the HOST then we rebuild.
.if defined(OBJDIR_HOST_OSRELDATE)
.for _ver in ${META_MODE_BAD_ABI_VERS}
.if ${OSRELDATE} >= ${_ver} && ${OBJDIR_HOST_OSRELDATE} < ${_ver}
_meta_mode_need_rebuild= ${_ver}
.endif
.endfor
.if defined(_meta_mode_need_rebuild)
.info META_MODE: Rebuilding host tools due to ABI breakage in __FreeBSD_version ${_meta_mode_need_rebuild}.
NO_META_IGNORE_HOST_HEADERS= 1
.export NO_META_IGNORE_HOST_HEADERS
.endif # defined(_meta_mode_need_rebuild)
.endif # defined(OBJDIR_HOST_OSRELDATE)
.endif # ${MK_META_MODE} == "yes" && ${MK_CLEAN} == "no" ...
# This is only used for META_MODE+filemon to track what the oldest
# __FreeBSD_version is in WORLDTMP. This purposely does NOT have
# a make dependency on /usr/include/osreldate.h as the file should
# only be copied when it is missing or meta mode determines it has changed.
# Since host files are normally ignored without NO_META_IGNORE_HOST
# the file will never be updated unless that flag is specified. This
# allows tracking the oldest osreldate to force rebuilds via
# META_MODE_BADABI_REVS above.
host-osreldate.h: # DO NOT ADD /usr/include/osreldate.h here
.if !defined(CROSSBUILD_HOST)
@cp -f /usr/include/osreldate.h ${.TARGET}
.else
@echo "#ifndef __FreeBSD_version" > ${.TARGET}
@echo "#define __FreeBSD_version ${OSRELDATE}" >> ${.TARGET}
@echo "#endif" >> ${.TARGET}
.endif
WMAKE= ${TIME_ENV} ${WMAKEENV} ${MAKE} ${WORLD_FLAGS} -f Makefile.inc1 \
BWPHASE=${.TARGET:C,^_,,} \
DESTDIR=${WORLDTMP}
IMAKEENV= ${CROSSENV}
IMAKE= ${TIME_ENV} ${IMAKEENV} ${MAKE} -f Makefile.inc1 \
${IMAKE_INSTALL} ${IMAKE_MTREE}
.if empty(.MAKEFLAGS:M-n)
IMAKEENV+= PATH=${STRICTTMPPATH}:${INSTALLTMP} \
LD_LIBRARY_PATH=${INSTALLTMP} \
PATH_LOCALE=${INSTALLTMP}/locale
IMAKE+= __MAKE_SHELL=${INSTALLTMP}/sh
.else
IMAKEENV+= PATH=${TMPPATH}:${INSTALLTMP}
.endif
# When generating install media, do not allow user and group information from
# the build host to affect the contents of the distribution.
.if make(distributeworld) || make(distrib-dirs) || make(distribution) || \
make(stageworld)
DB_FROM_SRC= yes
.endif
.if defined(DB_FROM_SRC)
INSTALLFLAGS+= -N ${.CURDIR}/etc
MTREEFLAGS+= -N ${.CURDIR}/etc
.endif
_INSTALL_DDIR= ${DESTDIR}/${DISTDIR}
INSTALL_DDIR= ${_INSTALL_DDIR:S://:/:g:C:/$::}
.if defined(NO_ROOT)
METALOG?= ${DESTDIR}/${DISTDIR}/METALOG
METALOG:= ${METALOG:C,//+,/,g}
IMAKE+= -DNO_ROOT METALOG=${METALOG}
METALOG_INSTALLFLAGS= -U -M ${METALOG} -D ${INSTALL_DDIR}
INSTALLFLAGS+= ${METALOG_INSTALLFLAGS}
CERTCTLFLAGS= ${METALOG_INSTALLFLAGS}
MTREEFLAGS+= -W
.endif
.if defined(BUILD_PKGS)
INSTALLFLAGS+= -h sha256
.endif
.if defined(DB_FROM_SRC) || defined(NO_ROOT)
IMAKE_INSTALL= INSTALL="${INSTALL_CMD} ${INSTALLFLAGS}"
IMAKE_MTREE= MTREE_CMD="${MTREE_CMD} ${MTREEFLAGS}"
.endif
.if make(distributeworld)
CERTCTLDESTDIR= ${DESTDIR}/${DISTDIR}/base
.else
CERTCTLDESTDIR= ${DESTDIR}
.endif
DESTDIR_MTREEFLAGS= -deU
# When creating worldtmp we don't need to set the directories as owned by root
# so we also pass -W
WORLDTMP_MTREEFLAGS= -deUW
.if defined(NO_ROOT)
# When building with -DNO_ROOT we shouldn't be changing the directories
# that are created by mtree to be owned by root/wheel.
DESTDIR_MTREEFLAGS+= -W
.endif
DISTR_MTREE= ${MTREE_CMD}
.if ${BUILD_WITH_STRICT_TMPPATH} != 0
DISTR_MTREE= ${WORLDTMP}/legacy/usr/sbin/mtree
.endif
WORLDTMP_MTREE= ${DISTR_MTREE} ${WORLDTMP_MTREEFLAGS}
DESTDIR_MTREE= ${DISTR_MTREE} ${DESTDIR_MTREEFLAGS}
# kernel stage
KMAKEENV= ${WMAKEENV:NSYSROOT=*}
KMAKE= ${TIME_ENV} ${KMAKEENV} ${MAKE} ${.MAKEFLAGS} ${KERNEL_FLAGS} KERNEL=${INSTKERNNAME}
#
# buildworld
#
# Attempt to rebuild the entire system, with reasonable chance of
# success, regardless of how old your existing system is.
#
_sanity_check: .PHONY .MAKE
.if ${.CURDIR:C/[^,]//g} != ""
# The m4 build of sendmail files doesn't like it if ',' is used
# anywhere in the path of it's files.
@echo
@echo "*** Error: path to source tree contains a comma ','"
@echo
@false
.elif ${.CURDIR:M*\:*} != ""
# Using ':' leaks into PATH and breaks finding cross-tools.
@echo
@echo "*** Error: path to source tree contains a colon ':'"
@echo
@false
.endif
# Our current approach to dependency tracking cannot cope with certain source
# tree changes, particularly with respect to removing source files and
# replacing generated files. Handle these cases here in an ad-hoc fashion.
_cleanobj_fast_depend_hack: .PHONY
@echo ">>> Deleting stale dependencies...";
sh ${.CURDIR}/tools/build/depend-cleanup.sh ${OBJTOP}
_worldtmp: .PHONY
@echo
@echo "--------------------------------------------------------------"
@echo ">>> Rebuilding the temporary build tree"
@echo "--------------------------------------------------------------"
.if ${MK_CLEAN} == "yes"
rm -rf ${WORLDTMP}
.else
# Note: for delete-old we need to set $PATH to also include the host $PATH
# since otherwise a partial build with missing symlinks in ${WORLDTMP}/legacy/
# will fail to run due to missing binaries. $WMAKE sets PATH to only ${TMPPATH}
# so we remove that assingnment from $WMAKE and prepend the new $PATH
${_+_}@if [ -e "${WORLDTMP}" ]; then \
echo ">>> Deleting stale files in build tree..."; \
cd ${.CURDIR}; env PATH=${TMPPATH}:${PATH} ${WMAKE:NPATH=*} \
_NO_INCLUDE_COMPILERMK=t -DBATCH_DELETE_OLD_FILES delete-old \
delete-old-libs >/dev/null; \
fi
rm -rf ${WORLDTMP}/legacy/usr/include
.if ${USING_SYSTEM_COMPILER} == "yes"
.for cc in cc c++
if [ -x ${WORLDTMP}/usr/bin/${cc} ]; then \
inum=$$(stat -f %i ${WORLDTMP}/usr/bin/${cc}); \
find ${WORLDTMP}/usr/bin -inum $${inum} -delete; \
fi
.endfor
.endif # ${USING_SYSTEM_COMPILER} == "yes"
.if ${USING_SYSTEM_LINKER} == "yes"
@rm -f ${WORLDTMP}/usr/bin/ld ${WORLDTMP}/usr/bin/ld.lld
.endif # ${USING_SYSTEM_LINKER} == "yes"
.endif # ${MK_CLEAN} == "yes"
@mkdir -p ${WORLDTMP}
@touch ${WORLDTMP}/${.TARGET}
# We can't use mtree to create the worldtmp directories since it may not be
# available on the target system (this happens e.g. when building on non-FreeBSD)
${_+_}cd ${.CURDIR}/tools/build; \
${MAKE} DIRPRFX=tools/build/ DESTDIR=${WORLDTMP}/legacy installdirs
# In order to build without inheriting $PATH we need to add symlinks to the host
# tools in $WORLDTMP for the tools that we don't build during bootstrap-tools
${_+_}cd ${.CURDIR}/tools/build; \
${MAKE} DIRPRFX=tools/build/ DESTDIR=${WORLDTMP}/legacy host-symlinks
_legacy:
@echo
@echo "--------------------------------------------------------------"
@echo ">>> stage 1.1: legacy release compatibility shims"
@echo "--------------------------------------------------------------"
${_+_}cd ${.CURDIR}; ${BMAKE} legacy
_bootstrap-tools:
@echo
@echo "--------------------------------------------------------------"
@echo ">>> stage 1.2: bootstrap tools"
@echo "--------------------------------------------------------------"
${_+_}cd ${.CURDIR}; ${BMAKE} bootstrap-tools
mkdir -p ${WORLDTMP}/usr ${WORLDTMP}/lib/casper ${WORLDTMP}/lib/geom \
${WORLDTMP}/bin
${WORLDTMP_MTREE} -f ${.CURDIR}/etc/mtree/BSD.usr.dist \
-p ${WORLDTMP}/usr >/dev/null
${WORLDTMP_MTREE} -f ${.CURDIR}/etc/mtree/BSD.include.dist \
-p ${WORLDTMP}/usr/include >/dev/null
ln -sf ${.CURDIR}/sys ${WORLDTMP}
.if ${MK_DEBUG_FILES} != "no"
${WORLDTMP_MTREE} -f ${.CURDIR}/etc/mtree/BSD.debug.dist \
-p ${WORLDTMP}/usr/lib >/dev/null
.endif
.for _mtree in ${LOCAL_MTREE}
${WORLDTMP_MTREE} -f ${.CURDIR}/${_mtree} -p ${WORLDTMP} > /dev/null
.endfor
_cleanobj:
.if ${MK_CLEAN} == "yes"
@echo
@echo "--------------------------------------------------------------"
@echo ">>> stage 2.1: cleaning up the object tree"
@echo "--------------------------------------------------------------"
# Avoid including bsd.compiler.mk in clean and obj with _NO_INCLUDE_COMPILERMK
# since the restricted $PATH might not contain a valid cc binary
${_+_}cd ${.CURDIR}; ${WMAKE} _NO_INCLUDE_COMPILERMK=t ${CLEANDIR}
.if defined(_LIBCOMPAT)
${_+_}cd ${.CURDIR}; ${LIBCOMPATWMAKE} _NO_INCLUDE_COMPILERMK=t -f Makefile.inc1 ${CLEANDIR}
.endif
.else
${_+_}cd ${.CURDIR}; ${WMAKE} _NO_INCLUDE_COMPILERMK=t _cleanobj_fast_depend_hack
.endif # ${MK_CLEAN} == "yes"
_obj:
@echo
@echo "--------------------------------------------------------------"
@echo ">>> stage 2.2: rebuilding the object tree"
@echo "--------------------------------------------------------------"
${_+_}cd ${.CURDIR}; ${WMAKE} _NO_INCLUDE_COMPILERMK=t obj
_build-tools:
@echo
@echo "--------------------------------------------------------------"
@echo ">>> stage 2.3: build tools"
@echo "--------------------------------------------------------------"
${_+_}cd ${.CURDIR}; ${TMAKE} build-tools
_cross-tools:
@echo
@echo "--------------------------------------------------------------"
@echo ">>> stage 3: cross tools"
@echo "--------------------------------------------------------------"
@rm -f ${OBJTOP}/toolchain-metadata.mk
${_+_}cd ${.CURDIR}; ${XMAKE} cross-tools
${_+_}cd ${.CURDIR}; ${XMAKE} kernel-tools
_build-metadata:
@echo
@echo "--------------------------------------------------------------"
@echo ">>> stage 3.1: recording build metadata"
@echo "--------------------------------------------------------------"
${_+_}cd ${.CURDIR}; ${WMAKE} toolchain-metadata.mk
${_+_}cd ${.CURDIR}; ${WMAKE} host-osreldate.h
_includes:
@echo
@echo "--------------------------------------------------------------"
@echo ">>> stage 4.1: building includes"
@echo "--------------------------------------------------------------"
# Special handling for SUBDIR_OVERRIDE in buildworld as they most likely need
# headers from default SUBDIR. Do SUBDIR_OVERRIDE includes last.
${_+_}cd ${.CURDIR}; ${WMAKE} SUBDIR_OVERRIDE= SHARED=symlinks \
MK_INCLUDES=yes includes
.if !empty(SUBDIR_OVERRIDE) && make(buildworld)
${_+_}cd ${.CURDIR}; ${WMAKE} MK_INCLUDES=yes SHARED=symlinks includes
.endif
_libraries:
@echo
@echo "--------------------------------------------------------------"
@echo ">>> stage 4.2: building libraries"
@echo "--------------------------------------------------------------"
${_+_}cd ${.CURDIR}; \
${WMAKE} -DNO_FSCHG MK_HTML=no -DNO_LINT MK_MAN=no \
MK_PROFILE=no MK_TESTS=no MK_TESTS_SUPPORT=${MK_TESTS_SUPPORT} \
libraries
everything: .PHONY
@echo
@echo "--------------------------------------------------------------"
@echo ">>> stage 4.4: building everything"
@echo "--------------------------------------------------------------"
${_+_}cd ${.CURDIR}; _PARALLEL_SUBDIR_OK=1 ${WMAKE} all
WMAKE_TGTS=
.if !defined(WORLDFAST)
WMAKE_TGTS+= _sanity_check _worldtmp _legacy
.if empty(SUBDIR_OVERRIDE)
WMAKE_TGTS+= _bootstrap-tools
.endif
WMAKE_TGTS+= _cleanobj
.if !defined(NO_OBJWALK)
WMAKE_TGTS+= _obj
.endif
WMAKE_TGTS+= _build-tools _cross-tools
WMAKE_TGTS+= _build-metadata
WMAKE_TGTS+= _includes
.endif
.if !defined(NO_LIBS)
WMAKE_TGTS+= _libraries
.endif
.if defined(_LIBCOMPAT) && empty(SUBDIR_OVERRIDE)
WMAKE_TGTS+= build${libcompat}
.endif
WMAKE_TGTS+= everything
# record buildworld time in seconds
.if make(buildworld)
_BUILDWORLD_START!= date '+%s'
.export _BUILDWORLD_START
.endif
buildworld: buildworld_prologue ${WMAKE_TGTS} buildworld_epilogue .PHONY
.ORDER: buildworld_prologue ${WMAKE_TGTS} buildworld_epilogue
_ncpu_cmd=sysctl -n hw.ncpu 2>/dev/null || nproc 2>/dev/null || echo unknown
buildworld_prologue: .PHONY
@echo "--------------------------------------------------------------"
@echo ">>> World build started on `LC_ALL=C date`"
@echo "--------------------------------------------------------------"
buildworld_epilogue: .PHONY
@echo
@echo "--------------------------------------------------------------"
@echo ">>> World build completed on `LC_ALL=C date`"
@seconds=$$(($$(date '+%s') - ${_BUILDWORLD_START})); \
echo -n ">>> World built in $$seconds seconds, "; \
echo "ncpu: $$(${_ncpu_cmd})${.MAKE.JOBS:S/^/, make -j/}"
@echo "--------------------------------------------------------------"
#
# We need to have this as a target because the indirection between Makefile
# and Makefile.inc1 causes the correct PATH to be used, rather than a
# modification of the current environment's PATH. In addition, we need
# to quote multiword values.
#
buildenvvars: .PHONY
@echo ${WMAKEENV:Q} ${.MAKE.EXPORTED:@v@$v=\"${$v}\"@}
.if ${.TARGETS:Mbuildenv}
.if ${.MAKEFLAGS:M-j}
.error The buildenv target is incompatible with -j
.endif
.endif
BUILDENV_DIR?= ${.CURDIR}
#
# Note: make will report any errors the shell reports. This can
# be odd if the last command in an interactive shell generates an
# error or is terminated by SIGINT. These reported errors look bad,
# but are harmless. Allowing them also allows BUILDENV_SHELL to
# be a complex command whose status will be returned to the caller.
# Some scripts in tools rely on this behavior to report build errors.
#
buildenv: .PHONY
@echo Entering world for ${TARGET_ARCH}:${TARGET}
.if ${BUILDENV_SHELL:M*zsh*}
@echo For ZSH you must run: export CPUTYPE=${TARGET_CPUTYPE}
.endif
@cd ${BUILDENV_DIR} && env ${WMAKEENV} \
INSTALL="${INSTALL_CMD} ${INSTALLFLAGS}" \
MTREE_CMD="${MTREE_CMD} ${MTREEFLAGS}" BUILDENV=1 ${BUILDENV_SHELL}
TOOLCHAIN_TGTS= ${WMAKE_TGTS:Neverything:Nbuild${libcompat}}
toolchain: ${TOOLCHAIN_TGTS} .PHONY
KERNEL_TOOLCHAIN_TGTS= ${TOOLCHAIN_TGTS:N_obj:N_cleanobj:N_includes:N_libraries}
.if make(kernel-toolchain)
.ORDER: ${KERNEL_TOOLCHAIN_TGTS}
.endif
kernel-toolchain: ${KERNEL_TOOLCHAIN_TGTS} .PHONY
#
# installcheck
#
# Checks to be sure system is ready for installworld/installkernel.
#
installcheck: _installcheck_world _installcheck_kernel .PHONY
_installcheck_world: .PHONY
@echo "--------------------------------------------------------------"
@echo ">>> Install check world"
@echo "--------------------------------------------------------------"
_installcheck_kernel: .PHONY
@echo "--------------------------------------------------------------"
@echo ">>> Install check kernel"
@echo "--------------------------------------------------------------"
#
# Require DESTDIR to be set if installing for a different architecture or
# using the user/group database in the source tree.
#
.if ${TARGET_ARCH} != ${MACHINE_ARCH} || ${TARGET} != ${MACHINE} || \
defined(DB_FROM_SRC)
.if !make(distributeworld)
_installcheck_world: __installcheck_DESTDIR
_installcheck_kernel: __installcheck_DESTDIR
__installcheck_DESTDIR: .PHONY
.if !defined(DESTDIR) || empty(DESTDIR)
@echo "ERROR: Please set DESTDIR!"; \
false
.endif
.endif
.endif
.if !defined(DB_FROM_SRC)
#
# Check for missing UIDs/GIDs.
#
CHECK_UIDS= auditdistd
CHECK_GIDS= audit
CHECK_UIDS+= ntpd
CHECK_GIDS+= ntpd
CHECK_UIDS+= proxy
CHECK_GIDS+= proxy authpf
CHECK_UIDS+= smmsp
CHECK_GIDS+= smmsp
CHECK_UIDS+= unbound
CHECK_GIDS+= unbound
_installcheck_world: __installcheck_UGID
__installcheck_UGID: .PHONY
.for uid in ${CHECK_UIDS}
@if ! `id -u ${uid} >/dev/null 2>&1`; then \
echo "ERROR: Required ${uid} user is missing, see /usr/src/UPDATING."; \
false; \
fi
.endfor
.for gid in ${CHECK_GIDS}
@if ! `find / -prune -group ${gid} >/dev/null 2>&1`; then \
echo "ERROR: Required ${gid} group is missing, see /usr/src/UPDATING."; \
false; \
fi
.endfor
.endif
#
# If installing over the running system (DESTDIR is / or unset) and the install
# includes rescue, try running rescue from the objdir as a sanity check. If
# rescue is not functional (e.g., because it depends on a system call not
# supported by the currently running kernel), abort the installation.
#
.if !make(distributeworld) && ${MK_RESCUE} != "no" && \
(empty(DESTDIR) || ${DESTDIR} == "/") && empty(BYPASS_INSTALLCHECK_SH)
_installcheck_world: __installcheck_sh_check
__installcheck_sh_check: .PHONY
@if [ "`${OBJTOP}/rescue/rescue/rescue sh -c 'echo OK'`" != \
OK ]; then \
echo "rescue/sh check failed, installation aborted" >&2; \
false; \
fi
.endif
#
# Required install tools to be saved in a scratch dir for safety.
#
.if ${MK_ZONEINFO} != "no"
_zoneinfo= zic tzsetup
.endif
.if !defined(CROSSBUILD_HOST)
_sysctl=sysctl
.endif
ITOOLS= [ awk cap_mkdb cat chflags chmod chown cmp cp \
date echo egrep find grep id install ${_install-info} \
ln make mkdir mtree mv pwd_mkdb \
rm sed services_mkdb sh sort strip ${_sysctl} test time true uname wc \
${_zoneinfo} ${LOCAL_ITOOLS}
# Needed for share/man
.if ${MK_MAN_UTILS} != "no"
ITOOLS+=makewhatis
.endif
#
# distributeworld
#
# Distributes everything compiled by a `buildworld'.
#
# installworld
#
# Installs everything compiled by a 'buildworld'.
#
# Non-base distributions produced by the base system
EXTRA_DISTRIBUTIONS=
.if defined(_LIBCOMPAT)
EXTRA_DISTRIBUTIONS+= lib${libcompat}
.endif
.if ${MK_TESTS} != "no"
EXTRA_DISTRIBUTIONS+= tests
.endif
DEBUG_DISTRIBUTIONS=
.if ${MK_DEBUG_FILES} != "no"
DEBUG_DISTRIBUTIONS+= base ${EXTRA_DISTRIBUTIONS:S,tests,,}
.endif
MTREE_MAGIC?= mtree 2.0
distributeworld installworld stageworld: _installcheck_world .PHONY
mkdir -p ${INSTALLTMP}
progs=$$(for prog in ${ITOOLS}; do \
if progpath=`env PATH=${TMPPATH} which $$prog`; then \
echo $$progpath; \
else \
echo "Required tool $$prog not found in PATH ($$PATH)." >&2; \
exit 1; \
fi; \
done); \
if [ -z "${CROSSBUILD_HOST}" ] ; then \
libs=$$(ldd -f "%o %p\n" -f "%o %p\n" $$progs 2>/dev/null | sort -u | \
while read line; do \
set -- $$line; \
if [ "$$2 $$3" != "not found" ]; then \
echo $$2; \
else \
echo "Required library $$1 not found." >&2; \
exit 1; \
fi; \
done); \
fi; \
cp $$libs $$progs ${INSTALLTMP}
cp -R $${PATH_LOCALE:-"/usr/share/locale"} ${INSTALLTMP}/locale
.if defined(NO_ROOT)
-mkdir -p ${METALOG:H}
echo "#${MTREE_MAGIC}" > ${METALOG}
.endif
.if make(distributeworld)
.for dist in ${EXTRA_DISTRIBUTIONS}
-mkdir ${DESTDIR}/${DISTDIR}/${dist}
${DESTDIR_MTREE} -f ${.CURDIR}/etc/mtree/BSD.root.dist \
-p ${DESTDIR}/${DISTDIR}/${dist} >/dev/null
${DESTDIR_MTREE} -f ${.CURDIR}/etc/mtree/BSD.usr.dist \
-p ${DESTDIR}/${DISTDIR}/${dist}/usr >/dev/null
${DESTDIR_MTREE} -f ${.CURDIR}/etc/mtree/BSD.include.dist \
-p ${DESTDIR}/${DISTDIR}/${dist}/usr/include >/dev/null
.if ${MK_DEBUG_FILES} != "no"
${DESTDIR_MTREE} -f ${.CURDIR}/etc/mtree/BSD.debug.dist \
-p ${DESTDIR}/${DISTDIR}/${dist}/usr/lib >/dev/null
.endif
.if defined(_LIBCOMPAT)
${DESTDIR_MTREE} -f ${.CURDIR}/etc/mtree/BSD.lib${libcompat}.dist \
-p ${DESTDIR}/${DISTDIR}/${dist}/usr >/dev/null
.if ${MK_DEBUG_FILES} != "no"
${DESTDIR_MTREE} -f ${.CURDIR}/etc/mtree/BSD.lib${libcompat}.dist \
-p ${DESTDIR}/${DISTDIR}/${dist}/usr/lib/debug/usr >/dev/null
.endif
.endif
.if ${MK_TESTS} != "no" && ${dist} == "tests"
-mkdir -p ${DESTDIR}/${DISTDIR}/${dist}${TESTSBASE}
${DESTDIR_MTREE} -f ${.CURDIR}/etc/mtree/BSD.tests.dist \
-p ${DESTDIR}/${DISTDIR}/${dist}${TESTSBASE} >/dev/null
.if ${MK_DEBUG_FILES} != "no"
${DESTDIR_MTREE} -f ${.CURDIR}/etc/mtree/BSD.tests.dist \
-p ${DESTDIR}/${DISTDIR}/${dist}/usr/lib/debug/${TESTSBASE} >/dev/null
.endif
.endif
.if defined(NO_ROOT)
${IMAKEENV} ${DISTR_MTREE} -C -f ${.CURDIR}/etc/mtree/BSD.root.dist | \
sed -e 's#^\./#./${dist}/#' >> ${METALOG}
${IMAKEENV} ${DISTR_MTREE} -C -f ${.CURDIR}/etc/mtree/BSD.usr.dist | \
sed -e 's#^\./#./${dist}/usr/#' >> ${METALOG}
${IMAKEENV} ${DISTR_MTREE} -C -f ${.CURDIR}/etc/mtree/BSD.include.dist | \
sed -e 's#^\./#./${dist}/usr/include/#' >> ${METALOG}
.if defined(_LIBCOMPAT)
${IMAKEENV} ${DISTR_MTREE} -C -f ${.CURDIR}/etc/mtree/BSD.lib${libcompat}.dist | \
sed -e 's#^\./#./${dist}/usr/#' >> ${METALOG}
.endif
.endif
.endfor
-mkdir ${DESTDIR}/${DISTDIR}/base
${_+_}cd ${.CURDIR}/etc; ${CROSSENV} PATH=${TMPPATH} ${MAKE} \
METALOG=${METALOG} ${IMAKE_INSTALL} ${IMAKE_MTREE} \
DISTBASE=/base DESTDIR=${DESTDIR}/${DISTDIR}/base \
LOCAL_MTREE=${LOCAL_MTREE:Q} distrib-dirs
${INSTALL_SYMLINK} ${INSTALLFLAGS} usr/src/sys ${INSTALL_DDIR}/base/sys
.endif # make(distributeworld)
${_+_}cd ${.CURDIR}; ${IMAKE} re${.TARGET:S/world$//}; \
${IMAKEENV} rm -rf ${INSTALLTMP}
.if make(distributeworld)
.for dist in ${EXTRA_DISTRIBUTIONS}
find ${DESTDIR}/${DISTDIR}/${dist} -mindepth 1 -type d -empty -delete
.endfor
.if defined(NO_ROOT)
.for dist in base ${EXTRA_DISTRIBUTIONS}
@# For each file that exists in this dist, print the corresponding
@# line from the METALOG. This relies on the fact that
@# a line containing only the filename will sort immediately before
@# the relevant mtree line.
cd ${DESTDIR}/${DISTDIR}; \
find ./${dist} | sort -u ${METALOG} - | \
awk 'BEGIN { print "#${MTREE_MAGIC}" } !/ type=/ { file = $$1 } / type=/ { if ($$1 == file) { sub(/^\.\/${dist}\//, "./"); print } }' > \
${DESTDIR}/${DISTDIR}/${dist}.meta
.endfor
.for dist in ${DEBUG_DISTRIBUTIONS}
@# For each file that exists in this dist, print the corresponding
@# line from the METALOG. This relies on the fact that
@# a line containing only the filename will sort immediately before
@# the relevant mtree line.
cd ${DESTDIR}/${DISTDIR}; \
find ./${dist}/usr/lib/debug | sort -u ${METALOG} - | \
awk 'BEGIN { print "#${MTREE_MAGIC}" } !/ type=/ { file = $$1 } / type=/ { if ($$1 == file) { sub(/^\.\/${dist}\//, "./"); print } }' > \
${DESTDIR}/${DISTDIR}/${dist}.debug.meta
.endfor
.endif
.endif # make(distributeworld)
.if !make(packageworld) && ${MK_CAROOT} != "no"
@if which openssl>/dev/null; then \
DESTDIR=${CERTCTLDESTDIR} PATH=${TMPPATH}:${PATH} \
sh ${SRCTOP}/usr.sbin/certctl/certctl.sh ${CERTCTLFLAGS} rehash \
else \
echo "No openssl on the host, not rehashing certificates target -- /etc/ssl may not be populated."; \
fi
.endif
packageworld: .PHONY
.for dist in base ${EXTRA_DISTRIBUTIONS}
.if defined(NO_ROOT)
${_+_}cd ${DESTDIR}/${DISTDIR}/${dist}; \
tar cvf - --exclude usr/lib/debug \
@${DESTDIR}/${DISTDIR}/${dist}.meta | \
${XZ_CMD} > ${PACKAGEDIR}/${dist}.txz
.else
${_+_}cd ${DESTDIR}/${DISTDIR}/${dist}; \
tar cvf - --exclude usr/lib/debug . | \
${XZ_CMD} > ${PACKAGEDIR}/${dist}.txz
.endif
.endfor
.for dist in ${DEBUG_DISTRIBUTIONS}
. if defined(NO_ROOT)
${_+_}cd ${DESTDIR}/${DISTDIR}/${dist}; \
tar cvf - @${DESTDIR}/${DISTDIR}/${dist}.debug.meta | \
${XZ_CMD} > ${PACKAGEDIR}/${dist}-dbg.txz
. else
${_+_}cd ${DESTDIR}/${DISTDIR}/${dist}; \
tar cvLf - usr/lib/debug | \
${XZ_CMD} > ${PACKAGEDIR}/${dist}-dbg.txz
. endif
.endfor
makeman: .PHONY
${_+_}cd ${.CURDIR}/tools/build/options; sh makeman > \
${.CURDIR}/share/man/man5/src.conf.5
# We can't assume here that ${TMPPATH} will include ${PATH} or /usr/libexec
# because we may be building with a STRICTTMPPATH, so we explicitly include
# /usr/libexec here for flua. ${TMPPATH} still usefully includes anything else
# we may need to function.
_sysent_PATH= ${TMPPATH}:/usr/libexec
_sysent_dirs= sys/kern
_sysent_dirs+= sys/compat/freebsd32
_sysent_dirs+= sys/amd64/linux \
sys/amd64/linux32 \
sys/arm/linux \
sys/arm64/linux \
sys/i386/linux
sysent: .PHONY
.for _dir in ${_sysent_dirs}
sysent-${_dir}: .PHONY
@echo "${MAKE} -C ${.CURDIR}/${_dir} sysent"
${_+_}@env PATH=${_sysent_PATH} ${MAKE} -C ${.CURDIR}/${_dir} sysent
sysent: sysent-${_dir}
.endfor
#
# reinstall
#
# If you have a build server, you can NFS mount the source and obj directories
# and do a 'make reinstall' on the *client* to install new binaries from the
# most recent server build.
#
restage reinstall: .MAKE .PHONY
@echo "--------------------------------------------------------------"
@echo ">>> Making hierarchy"
@echo "--------------------------------------------------------------"
${_+_}cd ${.CURDIR}; ${MAKE} -f Makefile.inc1 \
LOCAL_MTREE=${LOCAL_MTREE:Q} hierarchy
.if make(restage)
@echo "--------------------------------------------------------------"
@echo ">>> Making distribution"
@echo "--------------------------------------------------------------"
${_+_}cd ${.CURDIR}; ${MAKE} -f Makefile.inc1 \
LOCAL_MTREE=${LOCAL_MTREE:Q} distribution
.endif
@echo
@echo "--------------------------------------------------------------"
@echo ">>> Installing everything started on `LC_ALL=C date`"
@echo "--------------------------------------------------------------"
${_+_}cd ${.CURDIR}; ${MAKE} -f Makefile.inc1 install
.if defined(_LIBCOMPAT)
${_+_}cd ${.CURDIR}; ${MAKE} -f Makefile.inc1 install${libcompat}
.endif
@echo "--------------------------------------------------------------"
@echo ">>> Installing everything completed on `LC_ALL=C date`"
@echo "--------------------------------------------------------------"
redistribute: .MAKE .PHONY
@echo "--------------------------------------------------------------"
@echo ">>> Distributing everything"
@echo "--------------------------------------------------------------"
${_+_}cd ${.CURDIR}; ${MAKE} -f Makefile.inc1 distribute
.if defined(_LIBCOMPAT)
${_+_}cd ${.CURDIR}; ${MAKE} -f Makefile.inc1 distribute${libcompat} \
DISTRIBUTION=lib${libcompat}
.endif
distrib-dirs distribution: .MAKE .PHONY
${_+_}cd ${.CURDIR}/etc; ${CROSSENV} PATH=${TMPPATH} ${MAKE} \
${IMAKE_INSTALL} ${IMAKE_MTREE} METALOG=${METALOG} ${.TARGET}
.if make(distribution)
${_+_}cd ${.CURDIR}; ${CROSSENV} PATH=${TMPPATH} \
${MAKE} -f Makefile.inc1 ${IMAKE_INSTALL} \
METALOG=${METALOG} MK_TESTS=no \
MK_TESTS_SUPPORT=${MK_TESTS_SUPPORT} installconfig
.endif
#
# buildkernel and installkernel
#
# Which kernels to build and/or install is specified by setting
# KERNCONF. If not defined a GENERIC kernel is built/installed.
# Only the existing (depending TARGET) config files are used
# for building kernels and only the first of these is designated
# as the one being installed.
#
# Note that we have to use TARGET instead of TARGET_ARCH when
# we're in kernel-land. Since only TARGET_ARCH is (expected) to
# be set to cross-build, we have to make sure TARGET is set
# properly.
.if defined(KERNFAST)
NO_KERNELCLEAN= t
NO_KERNELCONFIG= t
NO_KERNELOBJ= t
# Shortcut for KERNCONF=Blah -DKERNFAST is now KERNFAST=Blah
.if !defined(KERNCONF) && ${KERNFAST} != "1"
KERNCONF=${KERNFAST}
.endif
.endif
.if ${TARGET_ARCH} == "powerpc64"
KERNCONF?= GENERIC64
.elif ${TARGET_ARCH} == "powerpc64le"
KERNCONF?= GENERIC64LE
.elif ${TARGET_ARCH} == "powerpcspe"
KERNCONF?= MPC85XXSPE
.else
KERNCONF?= GENERIC
.endif
INSTKERNNAME?= kernel
KERNSRCDIR?= ${.CURDIR}/sys
KRNLCONFDIR= ${KERNSRCDIR}/${TARGET}/conf
KRNLOBJDIR= ${OBJTOP}${KERNSRCDIR:C,^${.CURDIR},,}
KERNCONFDIR?= ${KRNLCONFDIR}
BUILDKERNELS=
INSTALLKERNEL=
.if defined(NO_INSTALLKERNEL)
# All of the BUILDKERNELS loops start at index 1.
BUILDKERNELS+= dummy
.endif
.for _kernel in ${KERNCONF}
.if !defined(_MKSHOWCONFIG) && exists(${KERNCONFDIR}/${_kernel})
BUILDKERNELS+= ${_kernel}
.if empty(INSTALLKERNEL) && !defined(NO_INSTALLKERNEL)
INSTALLKERNEL= ${_kernel}
.endif
.else
.if make(buildkernel)
.error Missing KERNCONF ${KERNCONFDIR}/${_kernel}
.endif
.endif
.endfor
_cleankernobj_fast_depend_hack: .PHONY
# 20191009 r353340 removal of opensolaris_atomic.S (also r353381)
.if ${MACHINE} != i386
.for f in opensolaris_atomic
.for m in opensolaris zfs
@if [ -e "${KRNLOBJDIR}/${KERNCONF}/modules${SRCTOP}/sys/modules/${m}/.depend.${f}.o" ] && \
grep -q ${f}.S "${KRNLOBJDIR}/${KERNCONF}/modules${SRCTOP}/sys/modules/${m}/.depend.${f}.o"; then \
echo "Removing stale dependencies for opensolaris_atomic"; \
rm -f ${KRNLOBJDIR}/${KERNCONF}/modules${SRCTOP}/sys/modules/${m}/.depend.${f}.*; \
fi
.endfor
.endfor
.endif
${WMAKE_TGTS:N_worldtmp:Nbuild${libcompat}} ${.ALLTARGETS:M_*:N_worldtmp}: .MAKE .PHONY
# record kernel(s) build time in seconds
.if make(buildkernel)
_BUILDKERNEL_START!= date '+%s'
.endif
#
# buildkernel
#
# Builds all kernels defined by BUILDKERNELS.
#
buildkernel: .MAKE .PHONY
.if empty(BUILDKERNELS:Ndummy)
@echo "ERROR: Missing kernel configuration file(s) (${KERNCONF})."; \
false
.endif
@echo
.for _kernel in ${BUILDKERNELS:Ndummy}
@echo "--------------------------------------------------------------"
@echo ">>> Kernel build for ${_kernel} started on `LC_ALL=C date`"
@echo "--------------------------------------------------------------"
@echo "===> ${_kernel}"
mkdir -p ${KRNLOBJDIR}
.if !defined(NO_KERNELCONFIG)
@echo
@echo "--------------------------------------------------------------"
@echo ">>> stage 1: configuring the kernel"
@echo "--------------------------------------------------------------"
cd ${KRNLCONFDIR}; \
PATH=${TMPPATH} \
config ${CONFIGARGS} -d ${KRNLOBJDIR}/${_kernel} \
-I '${KERNCONFDIR}' -I '${KRNLCONFDIR}' \
'${KERNCONFDIR}/${_kernel}'
.endif
.if ${MK_CLEAN} == "yes" && !defined(NO_KERNELCLEAN)
@echo
@echo "--------------------------------------------------------------"
@echo ">>> stage 2.1: cleaning up the object tree"
@echo "--------------------------------------------------------------"
${_+_}cd ${KRNLOBJDIR}/${_kernel}; ${KMAKE} ${CLEANDIR}
.else
${_+_}cd ${.CURDIR}; ${WMAKE} _cleankernobj_fast_depend_hack
.endif
.if !defined(NO_KERNELOBJ)
@echo
@echo "--------------------------------------------------------------"
@echo ">>> stage 2.2: rebuilding the object tree"
@echo "--------------------------------------------------------------"
${_+_}cd ${KRNLOBJDIR}/${_kernel}; ${KMAKE} obj
.endif
@echo
@echo "--------------------------------------------------------------"
@echo ">>> stage 2.3: build tools"
@echo "--------------------------------------------------------------"
${_+_}cd ${.CURDIR}; ${KTMAKE} kernel-tools
@echo
@echo "--------------------------------------------------------------"
@echo ">>> stage 3.1: building everything"
@echo "--------------------------------------------------------------"
${_+_}cd ${KRNLOBJDIR}/${_kernel}; ${KMAKE} all -DNO_MODULES_OBJ
@echo "--------------------------------------------------------------"
@echo ">>> Kernel build for ${_kernel} completed on `LC_ALL=C date`"
@echo "--------------------------------------------------------------"
.endfor
@seconds=$$(($$(date '+%s') - ${_BUILDKERNEL_START})); \
echo -n ">>> Kernel(s) ${BUILDKERNELS} built in $$seconds seconds, "; \
echo "ncpu: $$(${_ncpu_cmd})${.MAKE.JOBS:S/^/, make -j/}"
@echo "--------------------------------------------------------------"
.if !make(packages) && !make(update-packages)
NO_INSTALLEXTRAKERNELS?= yes
.else
# packages/update-packages installs kernels to a staging directory then builds
# packages from the result to be installed, typically to other systems. It is
# less surprising for these targets to honor KERNCONF if multiple kernels are
# specified.
NO_INSTALLEXTRAKERNELS?= no
.endif
#
# installkernel, etc.
#
# Install the kernel defined by INSTALLKERNEL
#
installkernel installkernel.debug \
reinstallkernel reinstallkernel.debug: _installcheck_kernel .PHONY
.if !defined(NO_INSTALLKERNEL)
.if empty(INSTALLKERNEL)
@echo "ERROR: No kernel \"${KERNCONF}\" to install."; \
false
.endif
@echo "--------------------------------------------------------------"
@echo ">>> Installing kernel ${INSTALLKERNEL} on $$(LC_ALL=C date)"
@echo "--------------------------------------------------------------"
${_+_}cd ${KRNLOBJDIR}/${INSTALLKERNEL}; \
${CROSSENV} PATH=${TMPPATH} \
${MAKE} ${IMAKE_INSTALL} KERNEL=${INSTKERNNAME} ${.TARGET:S/kernel//}
@echo "--------------------------------------------------------------"
@echo ">>> Installing kernel ${INSTALLKERNEL} completed on $$(LC_ALL=C date)"
@echo "--------------------------------------------------------------"
.endif
.if ${BUILDKERNELS:[#]} > 1 && ${NO_INSTALLEXTRAKERNELS} != "yes"
.for _kernel in ${BUILDKERNELS:[2..-1]}
@echo "--------------------------------------------------------------"
@echo ">>> Installing kernel ${_kernel} $$(LC_ALL=C date)"
@echo "--------------------------------------------------------------"
${_+_}cd ${KRNLOBJDIR}/${_kernel}; \
${CROSSENV} PATH=${TMPPATH} \
${MAKE} ${IMAKE_INSTALL} KERNEL=${INSTKERNNAME}.${_kernel} ${.TARGET:S/kernel//}
@echo "--------------------------------------------------------------"
@echo ">>> Installing kernel ${_kernel} completed on $$(LC_ALL=C date)"
@echo "--------------------------------------------------------------"
.endfor
.endif
distributekernel distributekernel.debug: .PHONY
.if !defined(NO_INSTALLKERNEL)
.if empty(INSTALLKERNEL)
@echo "ERROR: No kernel \"${KERNCONF}\" to install."; \
false
.endif
mkdir -p ${DESTDIR}/${DISTDIR}
.if defined(NO_ROOT)
@echo "#${MTREE_MAGIC}" > ${DESTDIR}/${DISTDIR}/kernel.premeta
.endif
${_+_}cd ${KRNLOBJDIR}/${INSTALLKERNEL}; \
${IMAKEENV} ${IMAKE_INSTALL:S/METALOG/kernel.premeta/} \
${IMAKE_MTREE} PATH=${TMPPATH} ${MAKE} KERNEL=${INSTKERNNAME} \
DESTDIR=${INSTALL_DDIR}/kernel \
${.TARGET:S/distributekernel/install/}
.if defined(NO_ROOT)
@sed -e 's|^./kernel|.|' ${DESTDIR}/${DISTDIR}/kernel.premeta > \
${DESTDIR}/${DISTDIR}/kernel.meta
.endif
.endif
.if ${BUILDKERNELS:[#]} > 1 && ${NO_INSTALLEXTRAKERNELS} != "yes"
.for _kernel in ${BUILDKERNELS:[2..-1]}
.if defined(NO_ROOT)
@echo "#${MTREE_MAGIC}" > ${DESTDIR}/${DISTDIR}/kernel.${_kernel}.premeta
.endif
${_+_}cd ${KRNLOBJDIR}/${_kernel}; \
${IMAKEENV} ${IMAKE_INSTALL:S/METALOG/kernel.${_kernel}.premeta/} \
${IMAKE_MTREE} PATH=${TMPPATH} ${MAKE} \
KERNEL=${INSTKERNNAME}.${_kernel} \
DESTDIR=${INSTALL_DDIR}/kernel.${_kernel} \
${.TARGET:S/distributekernel/install/}
.if defined(NO_ROOT)
@sed -e "s|^./kernel.${_kernel}|.|" \
${DESTDIR}/${DISTDIR}/kernel.${_kernel}.premeta > \
${DESTDIR}/${DISTDIR}/kernel.${_kernel}.meta
.endif
.endfor
.endif
packagekernel: .PHONY
.if defined(NO_ROOT)
.if !defined(NO_INSTALLKERNEL)
cd ${DESTDIR}/${DISTDIR}/kernel; \
tar cvf - --exclude '*.debug' \
@${DESTDIR}/${DISTDIR}/kernel.meta | \
${XZ_CMD} > ${PACKAGEDIR}/kernel.txz
.endif
.if ${MK_DEBUG_FILES} != "no"
cd ${DESTDIR}/${DISTDIR}/kernel; \
tar cvf - --include '*/*/*.debug' \
@${DESTDIR}/${DISTDIR}/kernel.meta | \
${XZ_CMD} > ${DESTDIR}/${DISTDIR}/kernel-dbg.txz
.endif
.if ${BUILDKERNELS:[#]} > 1 && ${NO_INSTALLEXTRAKERNELS} != "yes"
.for _kernel in ${BUILDKERNELS:[2..-1]}
cd ${DESTDIR}/${DISTDIR}/kernel.${_kernel}; \
tar cvf - --exclude '*.debug' \
@${DESTDIR}/${DISTDIR}/kernel.${_kernel}.meta | \
${XZ_CMD} > ${PACKAGEDIR}/kernel.${_kernel}.txz
.if ${MK_DEBUG_FILES} != "no"
cd ${DESTDIR}/${DISTDIR}/kernel.${_kernel}; \
tar cvf - --include '*/*/*.debug' \
@${DESTDIR}/${DISTDIR}/kernel.${_kernel}.meta | \
${XZ_CMD} > ${DESTDIR}/${DISTDIR}/kernel.${_kernel}-dbg.txz
.endif
.endfor
.endif
.else
.if !defined(NO_INSTALLKERNEL)
cd ${DESTDIR}/${DISTDIR}/kernel; \
tar cvf - --exclude '*.debug' . | \
${XZ_CMD} > ${PACKAGEDIR}/kernel.txz
.endif
.if ${MK_DEBUG_FILES} != "no"
cd ${DESTDIR}/${DISTDIR}/kernel; \
tar cvf - --include '*/*/*.debug' $$(eval find .) | \
${XZ_CMD} > ${DESTDIR}/${DISTDIR}/kernel-dbg.txz
.endif
.if ${BUILDKERNELS:[#]} > 1 && ${NO_INSTALLEXTRAKERNELS} != "yes"
.for _kernel in ${BUILDKERNELS:[2..-1]}
cd ${DESTDIR}/${DISTDIR}/kernel.${_kernel}; \
tar cvf - --exclude '*.debug' . | \
${XZ_CMD} > ${PACKAGEDIR}/kernel.${_kernel}.txz
.if ${MK_DEBUG_FILES} != "no"
cd ${DESTDIR}/${DISTDIR}/kernel.${_kernel}; \
tar cvf - --include '*/*/*.debug' $$(eval find .) | \
${XZ_CMD} > ${DESTDIR}/${DISTDIR}/kernel.${_kernel}-dbg.txz
.endif
.endfor
.endif
.endif
stagekernel: .PHONY
${_+_}${MAKE} -C ${.CURDIR} ${.MAKEFLAGS} distributekernel
PORTSDIR?= /usr/ports
WSTAGEDIR?= ${OBJTOP}/worldstage
KSTAGEDIR?= ${OBJTOP}/kernelstage
REPODIR?= ${OBJROOT}repo
PKG_FORMAT?= txz
PKG_REPO_SIGNING_KEY?= # empty
PKG_OUTPUT_DIR?= ${PKG_VERSION}
.ORDER: stage-packages create-packages
.ORDER: create-packages create-world-packages
.ORDER: create-packages create-kernel-packages
.ORDER: create-packages sign-packages
_pkgbootstrap: .PHONY
.if make(*package*) && !exists(${LOCALBASE}/sbin/pkg)
@env ASSUME_ALWAYS_YES=YES pkg bootstrap
.endif
.if make(create-world-packages-jobs) || make(create-kernel-packages*) || make(real-update-packages) || make(sign-packages)
PKG_ABI!=${PKG_CMD} -o ABI_FILE=${WSTAGEDIR}/usr/bin/uname config ABI
.endif
PKG_BIN_VERSION!=${PKG_CMD} --version </dev/null 2>/dev/null |\
awk -F. '/^[0-9.]+$$/ {print $$1 * 10000 + $$2 * 100 + $$3}'
.if ${PKG_BIN_VERSION} < 11700
PKG_EXT= ${PKG_FORMAT}
.else
PKG_EXT= pkg
.endif
.if !defined(PKG_VERSION_FROM) && make(real-update-packages)
.if defined(PKG_ABI)
.if exists(${REPODIR}/${PKG_ABI})
PKG_VERSION_FROM!=/usr/bin/readlink ${REPODIR}/${PKG_ABI}/latest
PKG_VERSION_FROM_DIR= ${REPODIR}/${PKG_ABI}/${PKG_VERSION_FROM}
.else
PKG_VERSION_FROM=
PKG_VERSION_FROM_DIR=
.endif
.endif
.endif
PKGMAKEARGS+= PKG_VERSION=${PKG_VERSION} \
NO_INSTALLEXTRAKERNELS=${NO_INSTALLEXTRAKERNELS}
packages: .PHONY
${_+_}${MAKE} -C ${.CURDIR} ${PKGMAKEARGS} real-packages
update-packages: .PHONY
${_+_}${MAKE} -C ${.CURDIR} ${PKGMAKEARGS} real-update-packages
package-pkg: .PHONY
rm -rf /tmp/ports.${TARGET} || :
env ${WMAKEENV:Q} SRCDIR=${.CURDIR} PORTSDIR=${PORTSDIR} REVISION=${_REVISION} \
PKG_CMD=${PKG_CMD} PKG_VERSION=${PKG_VERSION} REPODIR=${REPODIR} \
WSTAGEDIR=${WSTAGEDIR} \
sh ${.CURDIR}/release/scripts/make-pkg-package.sh
real-packages: stage-packages create-packages sign-packages .PHONY
real-update-packages: stage-packages .PHONY
${_+_}${MAKE} -C ${.CURDIR} PKG_VERSION=${PKG_VERSION} create-packages
.if empty(PKG_VERSION_FROM_DIR)
@echo "==> Bootstrapping repository, not checking for new packages"
.else
@echo "==> Checking for new packages (comparing ${PKG_VERSION} to ${PKG_VERSION_FROM})"
@for pkg in ${PKG_VERSION_FROM_DIR}/${PKG_NAME_PREFIX}-*; do \
pkgname=$$(pkg query -F $${pkg} '%n' | sed 's/${PKG_NAME_PREFIX}-\(.*\)/\1/') ; \
newpkgname=${PKG_NAME_PREFIX}-$${pkgname}-${PKG_VERSION}.${PKG_EXT} ; \
oldsum=$$(pkg query -F $${pkg} '%X') ; \
if [ ! -f ${REPODIR}/${PKG_ABI}/${PKG_VERSION}/$${newpkgname} ]; then \
continue; \
fi ; \
newsum=$$(pkg query -F ${REPODIR}/${PKG_ABI}/${PKG_VERSION}/$${newpkgname} '%X') ; \
if [ "$${oldsum}" == "$${newsum}" ]; then \
echo "==> Keeping old ${PKG_NAME_PREFIX}-$${pkgname}-${PKG_VERSION_FROM}.${PKG_EXT}" ; \
rm ${REPODIR}/${PKG_ABI}/${PKG_VERSION}/$${newpkgname} ; \
cp $${pkg} ${REPODIR}/${PKG_ABI}/${PKG_VERSION} ; \
else \
echo "==> New package $${newpkgname}" ; \
fi ; \
done
.endif
${_+_}@cd ${.CURDIR}; \
${MAKE} -f Makefile.inc1 PKG_VERSION=${PKG_VERSION} sign-packages
stage-packages-world: .PHONY
@mkdir -p ${WSTAGEDIR}
${_+_}@cd ${.CURDIR}; \
${MAKE} DESTDIR=${WSTAGEDIR} -DNO_ROOT stageworld
stage-packages-kernel: .PHONY
@mkdir -p ${KSTAGEDIR}
${_+_}@cd ${.CURDIR}; \
${MAKE} DESTDIR=${KSTAGEDIR} -DNO_ROOT stagekernel
stage-packages: .PHONY stage-packages-world stage-packages-kernel
_repodir: .PHONY
@mkdir -p ${REPODIR}
create-packages-world: _pkgbootstrap _repodir .PHONY
${_+_}@cd ${.CURDIR}; \
${MAKE} -f Makefile.inc1 \
DESTDIR=${WSTAGEDIR} \
PKG_VERSION=${PKG_VERSION} create-world-packages
create-packages-kernel: _pkgbootstrap _repodir .PHONY
${_+_}@cd ${.CURDIR}; \
${MAKE} -f Makefile.inc1 \
DESTDIR=${KSTAGEDIR} \
PKG_VERSION=${PKG_VERSION} DISTDIR=kernel \
SOURCE_DATE_EPOCH=${SOURCE_DATE_EPOCH} \
create-kernel-packages
create-packages: .PHONY create-packages-world create-packages-kernel
create-world-packages: _pkgbootstrap .PHONY
@rm -f ${WSTAGEDIR}/*.plist 2>/dev/null || :
@cd ${WSTAGEDIR} ; \
env -i LC_COLLATE=C sort ${WSTAGEDIR}/${DISTDIR}/METALOG | \
awk -f ${SRCDIR}/release/scripts/mtree-to-plist.awk
@for plist in ${WSTAGEDIR}/*.plist; do \
plist=$${plist##*/} ; \
pkgname=$${plist%.plist} ; \
echo "_PKGS+= $${pkgname}" ; \
done > ${WSTAGEDIR}/packages.mk
${_+_}@cd ${.CURDIR}; \
${MAKE} -f Makefile.inc1 create-world-packages-jobs \
SOURCE_DATE_EPOCH=${SOURCE_DATE_EPOCH} \
.MAKE.JOB.PREFIX=
.if make(create-world-packages-jobs)
.include "${WSTAGEDIR}/packages.mk"
.endif
create-world-packages-jobs: .PHONY
.for pkgname in ${_PKGS}
create-world-packages-jobs: create-world-package-${pkgname}
create-world-package-${pkgname}: .PHONY
@sh ${SRCDIR}/release/packages/generate-ucl.sh -o ${pkgname} \
-s ${SRCDIR} -u ${WSTAGEDIR}/${pkgname}.ucl
@awk -F\" ' \
/^name/ { printf("===> Creating %s-", $$2); next } \
/^version/ { print $$2; next } \
' ${WSTAGEDIR}/${pkgname}.ucl
@if [ "${pkgname}" == "runtime" ]; then \
sed -i '' -e "s/%VCS_REVISION%/${VCS_REVISION}/" ${WSTAGEDIR}/${pkgname}.ucl ; \
fi
${PKG_CMD} -o ABI_FILE=${WSTAGEDIR}/usr/bin/uname -o ALLOW_BASE_SHLIBS=yes \
create -f ${PKG_FORMAT} -M ${WSTAGEDIR}/${pkgname}.ucl \
-p ${WSTAGEDIR}/${pkgname}.plist \
-r ${WSTAGEDIR} \
-o ${REPODIR}/${PKG_ABI}/${PKG_OUTPUT_DIR}
.endfor
_default_flavor= -default
.if make(*package*) && exists(${KSTAGEDIR}/kernel.meta)
. if ${MK_DEBUG_FILES} != "no"
_debug=-dbg
. endif
create-kernel-packages: .PHONY
. for flavor in "" ${_debug}
create-kernel-packages: create-kernel-packages-flavor${flavor:C,^""$,${_default_flavor},}
create-kernel-packages-flavor${flavor:C,^""$,${_default_flavor},}: _pkgbootstrap .PHONY
@cd ${KSTAGEDIR}/${DISTDIR} ; \
env -i LC_COLLATE=C sort ${KSTAGEDIR}/kernel.meta | \
awk -f ${SRCDIR}/release/scripts/mtree-to-plist.awk \
-v kernel=yes -v _kernconf=${INSTALLKERNEL} ; \
sed -e "s/%VERSION%/${PKG_VERSION}/" \
-e "s/%PKGNAME%/kernel-${INSTALLKERNEL:tl}${flavor}/" \
-e "s/%KERNELDIR%/kernel/" \
-e "s/%COMMENT%/FreeBSD ${INSTALLKERNEL} kernel ${flavor}/" \
-e "s/%DESC%/FreeBSD ${INSTALLKERNEL} kernel ${flavor}/" \
-e "s/ %VCS_REVISION%/${VCS_REVISION}/" \
-e "s/%PKG_NAME_PREFIX%/${PKG_NAME_PREFIX}/" \
-e "s/%PKG_MAINTAINER%/${PKG_MAINTAINER}/" \
-e "s|%PKG_WWW%|${PKG_WWW}|" \
${SRCDIR}/release/packages/kernel.ucl \
> ${KSTAGEDIR}/${DISTDIR}/kernel.${INSTALLKERNEL}${flavor}.ucl ; \
awk -F\" ' \
/name/ { printf("===> Creating %s-", $$2); next } \
/version/ {print $$2; next } ' \
${KSTAGEDIR}/${DISTDIR}/kernel.${INSTALLKERNEL}${flavor}.ucl ; \
${PKG_CMD} -o ABI_FILE=${WSTAGEDIR}/usr/bin/uname -o ALLOW_BASE_SHLIBS=yes \
create -f ${PKG_FORMAT} \
-M ${KSTAGEDIR}/${DISTDIR}/kernel.${INSTALLKERNEL}${flavor}.ucl \
-p ${KSTAGEDIR}/${DISTDIR}/kernel.${INSTALLKERNEL}${flavor}.plist \
-r ${KSTAGEDIR}/${DISTDIR} \
-o ${REPODIR}/${PKG_ABI}/${PKG_OUTPUT_DIR}
. endfor
.endif
.if ${BUILDKERNELS:[#]} > 1 && ${NO_INSTALLEXTRAKERNELS} != "yes"
. for _kernel in ${BUILDKERNELS:[2..-1]}
. if exists(${KSTAGEDIR}/kernel.${_kernel}.meta)
. if ${MK_DEBUG_FILES} != "no"
_debug=-dbg
. endif
. for flavor in "" ${_debug}
create-kernel-packages: create-kernel-packages-extra-flavor${flavor:C,^""$,${_default_flavor},}-${_kernel}
create-kernel-packages-extra-flavor${flavor:C,^""$,${_default_flavor},}-${_kernel}: _pkgbootstrap .PHONY
@cd ${KSTAGEDIR}/kernel.${_kernel} ; \
env -i LC_COLLATE=C sort ${KSTAGEDIR}/kernel.${_kernel}.meta | \
awk -f ${SRCDIR}/release/scripts/mtree-to-plist.awk \
-v kernel=yes -v _kernconf=${_kernel} ; \
sed -e "s/%VERSION%/${PKG_VERSION}/" \
-e "s/%PKGNAME%/kernel-${_kernel:tl}${flavor}/" \
-e "s/%KERNELDIR%/kernel.${_kernel}/" \
-e "s/%COMMENT%/FreeBSD ${_kernel} kernel ${flavor}/" \
-e "s/%DESC%/FreeBSD ${_kernel} kernel ${flavor}/" \
-e "s/ %VCS_REVISION%/${VCS_REVISION}/" \
-e "s/%PKG_NAME_PREFIX%/${PKG_NAME_PREFIX}/" \
-e "s/%PKG_MAINTAINER%/${PKG_MAINTAINER}/" \
-e "s|%PKG_WWW%|${PKG_WWW}|" \
${SRCDIR}/release/packages/kernel.ucl \
> ${KSTAGEDIR}/kernel.${_kernel}/kernel.${_kernel}${flavor}.ucl ; \
awk -F\" ' \
/name/ { printf("===> Creating %s-", $$2); next } \
/version/ {print $$2; next } ' \
${KSTAGEDIR}/kernel.${_kernel}/kernel.${_kernel}${flavor}.ucl ; \
${PKG_CMD} -o ABI_FILE=${WSTAGEDIR}/usr/bin/uname -o ALLOW_BASE_SHLIBS=yes \
create -f ${PKG_FORMAT} \
-M ${KSTAGEDIR}/kernel.${_kernel}/kernel.${_kernel}${flavor}.ucl \
-p ${KSTAGEDIR}/kernel.${_kernel}/kernel.${_kernel}${flavor}.plist \
-r ${KSTAGEDIR}/kernel.${_kernel} \
-o ${REPODIR}/${PKG_ABI}/${PKG_OUTPUT_DIR}
. endfor
. endif
. endfor
.endif
sign-packages: _pkgbootstrap .PHONY
printf "version = 2;\n" > ${WSTAGEDIR}/meta
.if ${PKG_BIN_VERSION} < 11700
printf "packing_format = \"${PKG_FORMAT}\";\n" >> ${WSTAGEDIR}/meta
.endif
@[ -L "${REPODIR}/$$(${PKG_CMD} -o ABI_FILE=${WSTAGEDIR}/usr/bin/uname config ABI)/latest" ] && \
unlink ${REPODIR}/$$(${PKG_CMD} -o ABI_FILE=${WSTAGEDIR}/usr/bin/uname config ABI)/latest ; \
${PKG_CMD} -o ABI_FILE=${WSTAGEDIR}/usr/bin/uname repo \
-m ${WSTAGEDIR}/meta \
-o ${REPODIR}/$$(${PKG_CMD} -o ABI_FILE=${WSTAGEDIR}/usr/bin/uname config ABI)/${PKG_VERSION} \
${REPODIR}/$$(${PKG_CMD} -o ABI_FILE=${WSTAGEDIR}/usr/bin/uname config ABI)/${PKG_VERSION} \
${PKG_REPO_SIGNING_KEY} ; \
cd ${REPODIR}/$$(${PKG_CMD} -o ABI_FILE=${WSTAGEDIR}/usr/bin/uname config ABI); \
ln -s ${PKG_OUTPUT_DIR} latest
#
#
# checkworld
#
# Run test suite on installed world.
#
checkworld: .PHONY
@if [ ! -x "${LOCALBASE}/bin/kyua" ] && [ ! -x "/usr/bin/kyua" ]; then \
echo "You need kyua (devel/kyua) to run the test suite." | /usr/bin/fmt; \
exit 1; \
fi
${_+_}PATH="$$PATH:${LOCALBASE}/bin" kyua test -k ${TESTSBASE}/Kyuafile
#
#
# doxygen
#
# Build the API documentation with doxygen
#
doxygen: .PHONY
@if [ ! -x "${LOCALBASE}/bin/doxygen" ]; then \
echo "You need doxygen (devel/doxygen) to generate the API documentation of the kernel." | /usr/bin/fmt; \
exit 1; \
fi
${_+_}cd ${.CURDIR}/tools/kerneldoc/subsys; ${MAKE} obj all
#
# ------------------------------------------------------------------------
#
# From here onwards are utility targets used by the 'make world' and
# related targets. If your 'world' breaks, you may like to try to fix
# the problem and manually run the following targets to attempt to
# complete the build. Beware, this is *not* guaranteed to work, you
# need to have a pretty good grip on the current state of the system
# to attempt to manually finish it. If in doubt, 'make world' again.
#
#
# legacy: Build compatibility shims for the next three targets. This is a
# minimal set of tools and shims necessary to compensate for older systems
# which don't have the APIs required by the targets built in bootstrap-tools,
# build-tools or cross-tools.
#
legacy: .PHONY
.if ${BOOTSTRAPPING} < ${MINIMUM_SUPPORTED_OSREL} && ${BOOTSTRAPPING} != 0
@echo "ERROR: Source upgrades from versions prior to ${MINIMUM_SUPPORTED_REL} are not supported."; \
false
.endif
.for _tool in \
tools/build \
${LOCAL_LEGACY_DIRS}
${_+_}@${ECHODIR} "===> ${_tool} (obj,includes,all,install)"; \
cd ${.CURDIR}/${_tool}; \
if [ -z "${NO_OBJWALK}" ]; then ${MAKE} DIRPRFX=${_tool}/ obj; fi; \
${MAKE} DIRPRFX=${_tool}/ DESTDIR=${WORLDTMP}/legacy includes; \
${MAKE} DIRPRFX=${_tool}/ MK_INCLUDES=no all; \
${MAKE} DIRPRFX=${_tool}/ MK_INCLUDES=no \
DESTDIR=${WORLDTMP}/legacy install
.endfor
#
# bootstrap-tools: Build tools needed for compatibility. These are binaries that
# are built to build other binaries in the system. However, the focus of these
# binaries is usually quite narrow. Bootstrap tools use the host's compiler and
# libraries, augmented by -legacy, in addition to the libraries built during
# bootstrap-tools.
#
_bt= _bootstrap-tools
# We want to run the build with only ${WORLDTMP} in $PATH to ensure we don't
# accidentally run tools that are incompatible but happen to be in $PATH.
# This is especially important when building on Linux/MacOS where many of the
# programs used during the build accept different flags or generate different
# output. On those platforms we only symlink the tools known to be compatible
# (e.g. basic utilities such as mkdir) into ${WORLDTMP} and build all others
# from the FreeBSD sources during the bootstrap-tools stage.
# We want to build without the user's $PATH starting in the bootstrap-tools
# phase so the tools used in that phase (ln, cp, etc) must have already been
# linked to $WORLDTMP. The tools are listed in the _host_tools_to_symlink
# variable in tools/build/Makefile and are linked during the legacy phase.
# Since they could be Linux or MacOS binaries, too we must only use flags that
# are portable across operating systems.
# If BOOTSTRAP_ALL_TOOLS is set we will build all the required tools from the
# current source tree. Otherwise we create a symlink to the version found in
# $PATH during the bootstrap-tools stage.
# When building on non-FreeBSD systems we can't assume that the host binaries
# accept compatible flags or produce compatible output. Therefore we force
# BOOTSTRAP_ALL_TOOLS and just build the FreeBSD version of the binary.
.if defined(CROSSBUILD_HOST)
BOOTSTRAP_ALL_TOOLS:= 1
.endif
.if defined(BOOTSTRAP_ALL_TOOLS)
# BOOTSTRAPPING will be set on the command line so we can't override it here.
# Instead set BOOTSTRAPPING_OSRELDATE so that the value 0 is set ${BSARGS}
BOOTSTRAPPING_OSRELDATE:= 0
.endif
# libnv and libsbuf are requirements for config(8), which is an unconditional
# bootstrap-tool.
_config=usr.sbin/config lib/libnv lib/libsbuf
${_bt}-usr.sbin/config: ${_bt}-lib/libnv ${_bt}-lib/libsbuf
.if ${MK_GAMES} != "no"
_strfile= usr.bin/fortune/strfile
.endif
# vtfontcvt is used to build font files for loader and to generate
# C source for loader built in font (8x16.c).
_vtfontcvt= usr.bin/vtfontcvt
# If we are not building the bootstrap because BOOTSTRAPPING is sufficient
# we symlink the host version to $WORLDTMP instead. By doing this we can also
# detect when a bootstrap tool is being used without the required MK_FOO.
# If you add a new bootstrap tool where we could also use the host version,
# please ensure that you also add a .else case where you add the tool to the
# _bootstrap_tools_links variable.
.if ${BOOTSTRAPPING} < 1000033
# Note: lex needs m4 to build but m4 also depends on lex (which needs m4 to
# generate any files). To fix this cyclic dependency we can build a bootstrap
# version of m4 (with pre-generated files) then use that to build the real m4.
# We can't simply use the host m4 since e.g. the macOS version does not accept
# the flags that are passed by lex.
# For lex we also use the pre-gerated files since we would otherwise need to
# build awk and sed first (which need lex to build)
# TODO: add a _bootstrap_lex and then build the real lex afterwards
_lex= usr.bin/lex
_m4= tools/build/bootstrap-m4 usr.bin/m4
${_bt}-tools/build/bootstrap-m4: ${_bt}-usr.bin/lex ${_bt}-lib/libopenbsd ${_bt}-usr.bin/yacc
${_bt}-usr.bin/m4: ${_bt}-lib/libopenbsd ${_bt}-usr.bin/yacc ${_bt}-usr.bin/lex ${_bt}-tools/build/bootstrap-m4
_bt_m4_depend=${_bt}-usr.bin/m4
_bt_lex_depend=${_bt}-usr.bin/lex ${_bt_m4_depend}
.else
_bootstrap_tools_links+=m4 lex
.endif
# ELF Tool Chain libraries are needed for ELF tools and dtrace tools.
# r296685 fix cross-endian objcopy
# r310724 fixed PR 215350, a crash in libdwarf with objects built by GCC 6.2.
# r334881 added libdwarf constants used by ctfconvert.
# r338478 fixed a crash in objcopy for mips64el objects
# r339083 libelf: correct mips64el test to use ELF header
# r348347 Add missing powerpc64 relocation support to libdwarf
.if ${BOOTSTRAPPING} < 1300030
_elftoolchain_libs= lib/libelf lib/libdwarf lib/libzstd
${_bt}-lib/libelf: ${_bt_m4_depend}
${_bt}-lib/libdwarf: ${_bt_m4_depend}
.endif
# flua is required to regenerate syscall files. It first appeared during the
# 13.0-CURRENT cycle, thus needs to be built on -older releases and stable
# branches.
.if ${BOOTSTRAPPING} < 1300059
${_bt}-libexec/flua: ${_bt}-lib/liblua ${_bt}-lib/libucl
_flua= lib/liblua lib/libucl libexec/flua
.endif
# r245440 mtree -N support added
# r313404 requires sha384.h for libnetbsd, added to libmd in r292782
.if ${BOOTSTRAPPING} < 1100093
_nmtree= lib/libmd \
lib/libnetbsd \
usr.sbin/nmtree
${_bt}-lib/libnetbsd: ${_bt}-lib/libmd
${_bt}-usr.sbin/nmtree: ${_bt}-lib/libnetbsd
.else
_bootstrap_tools_links+=mtree
.endif
# r246097: log addition login.conf.db, passwd, pwd.db, and spwd.db with cat -l
.if ${BOOTSTRAPPING} < 1000027
_cat= bin/cat
.else
_bootstrap_tools_links+=cat
.endif
# r277259 crunchide: Correct 64-bit section header offset
# r281674 crunchide: always include both 32- and 64-bit ELF support
.if ${BOOTSTRAPPING} < 1100078
_crunchide= usr.sbin/crunch/crunchide
.else
_bootstrap_tools_links+=crunchide
.endif
# 1300115: Higher WARNS fixes
.if ${BOOTSTRAPPING} < 1202502 || \
(${BOOTSTRAPPING} > 1300000 && ${BOOTSTRAPPING} < 1300131)
_crunchgen= usr.sbin/crunch/crunchgen
.else
_bootstrap_tools_links+=crunchgen
.endif
# r296926 -P keymap search path, MFC to stable/10 in r298297
# Note: kbdcontrol can not be bootstrapped on non-FreeBSD systems
.if !defined(CROSSBUILD_HOST)
.if (${BOOTSTRAPPING} < 1003501 || \
(${BOOTSTRAPPING} >= 1100000 && ${BOOTSTRAPPING} < 1100103) || \
(!exists(/usr/sbin/kbdcontrol)))
_kbdcontrol= usr.sbin/kbdcontrol
.else
_bootstrap_tools_links+=kbdcontrol
.endif
.endif
# 1300102: VHDX support
.if ${BOOTSTRAPPING} < 1201520 || \
(${BOOTSTRAPPING} > 1300000 && ${BOOTSTRAPPING} < 1300102)
_mkimg= usr.bin/mkimg
.else
_bootstrap_tools_links+=mkimg
.endif
_yacc= usr.bin/yacc
.if ${MK_BSNMP} != "no"
_gensnmptree= usr.sbin/bsnmpd/gensnmptree
.endif
# We need to build tblgen when we're building clang or lld, either as
# bootstrap tools, or as the part of the normal build.
# llvm-tblgen is also needed for various llvm binutils (e.g. objcopy).
.if ${MK_CLANG_BOOTSTRAP} != "no" || ${MK_CLANG} != "no" || \
${MK_LLD_BOOTSTRAP} != "no" || ${MK_LLD} != "no" || \
${MK_LLDB} != "no" || ${MK_LLVM_BINUTILS} != "no"
_clang_tblgen= \
lib/clang/libllvmminimal \
usr.bin/clang/llvm-tblgen
.if ${MK_CLANG_BOOTSTRAP} != "no" || ${MK_CLANG} != "no"
_clang_tblgen+= usr.bin/clang/clang-tblgen
.endif
.if ${MK_LLDB} != "no"
_clang_tblgen+= usr.bin/clang/lldb-tblgen
.endif
${_bt}-usr.bin/clang/clang-tblgen: ${_bt}-lib/clang/libllvmminimal
${_bt}-usr.bin/clang/llvm-tblgen: ${_bt}-lib/clang/libllvmminimal
${_bt}-usr.bin/clang/lldb-tblgen: ${_bt}-lib/clang/libllvmminimal
.endif
# C.UTF-8 is always built in share/ctypes and we need localedef for that.
_localedef= usr.bin/localedef
${_bt}-usr.bin/localedef: ${_bt}-usr.bin/yacc ${_bt_lex_depend}
.if ${MK_ICONV} != "no"
_mkesdb= usr.bin/mkesdb
_mkcsmapper= usr.bin/mkcsmapper
${_bt}-usr.bin/mkesdb: ${_bt}-usr.bin/yacc ${_bt_lex_depend}
${_bt}-usr.bin/mkcsmapper: ${_bt}-usr.bin/yacc ${_bt_lex_depend}
.endif
.if ${MK_KERBEROS} != "no"
_kerberos5_bootstrap_tools= \
kerberos5/tools/make-roken \
kerberos5/lib/libroken \
kerberos5/lib/libvers \
kerberos5/tools/asn1_compile \
kerberos5/tools/slc \
usr.bin/compile_et
.ORDER: ${_kerberos5_bootstrap_tools:C/^/${_bt}-/g}
.for _tool in ${_kerberos5_bootstrap_tools}
${_bt}-${_tool}: ${_bt}-usr.bin/yacc ${_bt_lex_depend}
.endfor
.endif
${_bt}-usr.bin/mandoc: ${_bt}-lib/libopenbsd
# The tools listed in _basic_bootstrap_tools will generally not be
# bootstrapped unless BOOTSTRAP_ALL_TOOL is set. However, when building on a
# Linux or MacOS host the host versions are incompatible so we need to build
# them from the source tree. Usually the link name will be the same as the subdir,
# but some directories such as grep or test install multiple binaries. In that
# case we use the _basic_bootstrap_tools_multilink variable which is a list of
# subdirectory and comma-separated list of files.
_basic_bootstrap_tools_multilink=usr.bin/grep grep,egrep,fgrep
_basic_bootstrap_tools_multilink+=bin/test test,[
# bootstrap tools needed by buildworld:
_basic_bootstrap_tools+=usr.bin/cut bin/expr usr.bin/gencat usr.bin/join \
usr.bin/mktemp bin/realpath bin/rmdir usr.bin/sed usr.bin/sort \
usr.bin/truncate usr.bin/tsort
# Some build scripts use nawk instead of awk (this happens at least in
# cddl/contrib/opensolaris/lib/libdtrace/common/mknames.sh) so we need both awk
# and nawk in ${WORLDTMP}/legacy/bin.
_basic_bootstrap_tools_multilink+=usr.bin/awk awk,nawk
# file2c is required for building usr.sbin/config:
_basic_bootstrap_tools+=usr.bin/file2c
# uuencode/uudecode required for share/tabset
_basic_bootstrap_tools+=usr.bin/uuencode usr.bin/uudecode
# xargs is required by mkioctls
_basic_bootstrap_tools+=usr.bin/xargs
# cap_mkdb is required for share/termcap:
_basic_bootstrap_tools+=usr.bin/cap_mkdb
# services_mkdb/pwd_mkdb are required for installworld:
_basic_bootstrap_tools+=usr.sbin/services_mkdb usr.sbin/pwd_mkdb
# ldd is required for installcheck (TODO: just always use /usr/bin/ldd instead?)
.if !defined(CROSSBUILD_HOST)
# ldd is only needed for updating the running system so we don't need to
# bootstrap ldd on non-FreeBSD systems
_basic_bootstrap_tools+=usr.bin/ldd
.endif
# sysctl/chflags are required for installkernel:
.if !defined(CROSSBUILD_HOST)
_basic_bootstrap_tools+=bin/chflags
# Note: sysctl does not bootstrap on FreeBSD < 13 anymore, but that doesn't
# matter since we don't need any of the new features for the build.
_bootstrap_tools_links+=sysctl
.else
# When building on non-FreeBSD, install a fake chflags instead since the
# version from the source tree cannot work. We also don't need sysctl since we
# are install with -DNO_ROOT.
_other_bootstrap_tools+=tools/build/cross-build/fake_chflags
.endif
# mkfifo is used by sys/conf/newvers.sh
_basic_bootstrap_tools+=usr.bin/mkfifo
# jot is needed for the mkimg tests
_basic_bootstrap_tools+=usr.bin/jot
.if ${MK_BOOT} != "no"
# md5 is used by boot/beri (and possibly others)
_basic_bootstrap_tools+=sbin/md5
.endif
.if ${MK_ZONEINFO} != "no"
_basic_bootstrap_tools+=usr.sbin/zic usr.sbin/tzsetup
.endif
.if defined(BOOTSTRAP_ALL_TOOLS)
_other_bootstrap_tools+=${_basic_bootstrap_tools}
.for _subdir _links in ${_basic_bootstrap_tools_multilink}
_other_bootstrap_tools+=${_subdir}
.endfor
${_bt}-usr.bin/awk: ${_bt_lex_depend} ${_bt}-usr.bin/yacc
${_bt}-bin/expr: ${_bt_lex_depend} ${_bt}-usr.bin/yacc
# If we are bootstrapping file2c, we have to build it before config:
${_bt}-usr.sbin/config: ${_bt}-usr.bin/file2c ${_bt_lex_depend}
# Note: no symlink to make/bmake in the !BOOTSTRAP_ALL_TOOLS case here since
# the links to make/bmake make links will have already have been created in the
# `make legacy` step. Not adding a link to make is important on non-FreeBSD
# since "make" will usually point to GNU make there.
_other_bootstrap_tools+=usr.bin/bmake
# Avoid dependency on host bz2 headers:
_other_bootstrap_tools+=lib/libbz2
${_bt}-usr.bin/grep: ${_bt}-lib/libbz2
.else
# All tools in _basic_bootstrap_tools have the same name as the subdirectory
# so we can use :T to get the name of the symlinks that we need to create.
_bootstrap_tools_links+=${_basic_bootstrap_tools:T}
.for _subdir _links in ${_basic_bootstrap_tools_multilink}
_bootstrap_tools_links+=${_links:S/,/ /g}
.endfor
.endif # defined(BOOTSTRAP_ALL_TOOLS)
# Link the tools that we need for building but don't need to bootstrap because
# the host version is known to be compatible into ${WORLDTMP}/legacy
# We do this before building any of the bootstrap tools in case they depend on
# the presence of any of the links (e.g. as m4/lex/awk)
${_bt}-links: .PHONY
.for _tool in ${_bootstrap_tools_links}
${_bt}-link-${_tool}: .PHONY
@rm -f "${WORLDTMP}/legacy/bin/${_tool}"; \
source_path=`which ${_tool}`; \
if [ ! -e "$${source_path}" ] ; then \
echo "Cannot find host tool '${_tool}'"; false; \
fi; \
cp -pf "$${source_path}" "${WORLDTMP}/legacy/bin/${_tool}"
${_bt}-links: ${_bt}-link-${_tool}
.endfor
bootstrap-tools: ${_bt}-links .PHONY
# Please document (add comment) why something is in 'bootstrap-tools'.
# Try to bound the building of the bootstrap-tool to just the
# FreeBSD versions that need the tool built at this stage of the build.
.for _tool in \
${_clang_tblgen} \
${_kerberos5_bootstrap_tools} \
${_strfile} \
usr.bin/dtc \
${_cat} \
${_kbdcontrol} \
${_elftoolchain_libs} \
usr.bin/lorder \
lib/libopenbsd \
usr.bin/mandoc \
usr.bin/rpcgen \
${_yacc} \
${_m4} \
${_lex} \
${_other_bootstrap_tools} \
usr.bin/xinstall \
${_gensnmptree} \
${_config} \
${_flua} \
${_crunchide} \
${_crunchgen} \
${_mkimg} \
${_nmtree} \
${_vtfontcvt} \
${_localedef} \
${_mkcsmapper} \
${_mkesdb} \
${LOCAL_BSTOOL_DIRS}
${_bt}-${_tool}: ${_bt}-links .PHONY .MAKE
${_+_}@${ECHODIR} "===> ${_tool} (obj,all,install)"; \
cd ${.CURDIR}/${_tool}; \
if [ -z "${NO_OBJWALK}" ]; then ${MAKE} DIRPRFX=${_tool}/ obj; fi; \
if [ "${_tool}" = "usr.bin/lex" ]; then \
${MAKE} DIRPRFX=${_tool}/ bootstrap; \
fi; \
${MAKE} DIRPRFX=${_tool}/ all; \
${MAKE} DIRPRFX=${_tool}/ DESTDIR=${WORLDTMP}/legacy install
bootstrap-tools: ${_bt}-${_tool}
.endfor
.if target(${_bt}-lib/libmd)
# If we are bootstrapping libmd (e.g. when building on macOS/Linux) add the
# necessary dependencies:
${_bt}-usr.bin/sort: ${_bt}-lib/libmd
${_bt}-usr.bin/xinstall: ${_bt}-lib/libmd
${_bt}-sbin/md5: ${_bt}-lib/libmd
.endif
#
# build-tools: Build special purpose build tools
#
.if !defined(NO_SHARE) && ${MK_SYSCONS} != "no"
_share= share/syscons/scrnmaps
.endif
.if ${MK_RESCUE} != "no"
# rescue includes programs that have build-tools targets
_rescue=rescue/rescue
.endif
.if ${MK_TCSH} != "no"
_tcsh=bin/csh
.endif
.if ${MK_FILE} != "no"
_libmagic=lib/libmagic
.endif
.if ${MK_PMC} != "no"
_jevents=lib/libpmc/pmu-events
.endif
# kernel-toolchain skips _cleanobj, so handle cleaning up previous
# build-tools directories if needed.
.if ${MK_CLEAN} == "yes" && make(kernel-toolchain)
_bt_clean= ${CLEANDIR}
.endif
.for _tool in \
${_tcsh} \
bin/sh \
${LOCAL_TOOL_DIRS} \
${_jevents} \
lib/ncurses/tinfo \
${_rescue} \
${_share} \
usr.bin/awk \
${_libmagic} \
usr.bin/vi/catalog
build-tools_${_tool}: .PHONY
${_+_}@${ECHODIR} "===> ${_tool} (${_bt_clean:D${_bt_clean},}obj,build-tools)"; \
cd ${.CURDIR}/${_tool}; \
if [ -n "${_bt_clean}" ]; then ${MAKE} DIRPRFX=${_tool}/ ${_bt_clean}; fi; \
if [ -z "${NO_OBJWALK}" ]; then ${MAKE} DIRPRFX=${_tool}/ obj; fi; \
${MAKE} DIRPRFX=${_tool}/ build-tools
build-tools: build-tools_${_tool}
.endfor
#
# kernel-tools: Build kernel-building tools
#
kernel-tools: .PHONY
mkdir -p ${WORLDTMP}/usr
${WORLDTMP_MTREE} -f ${.CURDIR}/etc/mtree/BSD.usr.dist \
-p ${WORLDTMP}/usr >/dev/null
#
# cross-tools: All the tools needed to build the rest of the system after
# we get done with the earlier stages. It is the last set of tools needed
# to begin building the target binaries.
#
.if ${TARGET_ARCH} != ${MACHINE_ARCH} || ${BUILD_WITH_STRICT_TMPPATH} != 0
.if ${TARGET_ARCH} == "amd64" || ${TARGET_ARCH} == "i386"
_btxld= usr.sbin/btxld
.endif
.endif
# Rebuild ctfconvert and ctfmerge to avoid difficult-to-diagnose failures
# resulting from missing bug fixes or ELF Toolchain updates.
.if ${MK_CDDL} != "no"
_dtrace_tools= cddl/lib/libctf cddl/lib/libspl cddl/usr.bin/ctfconvert \
cddl/usr.bin/ctfmerge
.endif
# If we're given an XAS, don't build binutils.
.if ${XAS:M/*} == ""
.if ${MK_ELFTOOLCHAIN_BOOTSTRAP} != "no"
_elftctools= lib/libelftc \
lib/libpe \
usr.bin/elfctl \
usr.bin/objcopy \
usr.bin/nm \
usr.bin/size \
usr.bin/strings
# These are not required by the build, but can be useful for developers who
# cross-build on a FreeBSD 10 host:
_elftctools+= usr.bin/addr2line
.endif
.elif ${TARGET_ARCH} != ${MACHINE_ARCH} && ${MK_ELFTOOLCHAIN_BOOTSTRAP} != "no"
# If cross-building with an external binutils we still need to build strip for
# the target (for at least crunchide).
_elftctools= lib/libelftc \
lib/libpe \
usr.bin/elfctl \
usr.bin/objcopy
.endif
.if ${MK_CLANG_BOOTSTRAP} != "no"
_clang= usr.bin/clang
.endif
.if ${MK_LLD_BOOTSTRAP} != "no"
_lld= usr.bin/clang/lld
.endif
.if ${MK_CLANG_BOOTSTRAP} != "no" || ${MK_LLD_BOOTSTRAP} != "no"
_clang_libs= lib/clang
.endif
.if ${MK_USB} != "no"
_usb_tools= stand/usb/tools
.endif
.if ${BUILD_WITH_STRICT_TMPPATH} != 0 || defined(BOOTSTRAP_ALL_TOOLS)
_ar=usr.bin/ar
.endif
cross-tools: .MAKE .PHONY
.for _tool in \
${LOCAL_XTOOL_DIRS} \
${_ar} \
${_clang_libs} \
${_clang} \
${_lld} \
${_elftctools} \
${_dtrace_tools} \
${_btxld} \
${_usb_tools}
${_+_}@${ECHODIR} "===> ${_tool} (obj,all,install)"; \
cd ${.CURDIR}/${_tool}; \
if [ -z "${NO_OBJWALK}" ]; then ${MAKE} DIRPRFX=${_tool}/ obj; fi; \
${MAKE} DIRPRFX=${_tool}/ all; \
${MAKE} DIRPRFX=${_tool}/ DESTDIR=${WORLDTMP} install
.endfor
#
# native-xtools is the current target for qemu-user cross builds of ports
# via poudriere and the imgact_binmisc kernel module.
# This target merely builds a toolchan/sysroot, then builds the tools it wants
# with the options it wants in a special MAKEOBJDIRPREFIX, using the toolchain
# already built. It then installs the static tools to NXBDESTDIR for Poudriere
# to pickup.
#
NXBOBJROOT= ${OBJROOT}${MACHINE}.${MACHINE_ARCH}/nxb/
NXBOBJTOP= ${NXBOBJROOT}${NXB_TARGET}.${NXB_TARGET_ARCH}
NXTP?= /nxb-bin
.if ${NXTP:N/*}
.error NXTP variable should be an absolute path
.endif
NXBDESTDIR?= ${DESTDIR}${NXTP}
# This is the list of tools to be built/installed as static and where
# appropriate to build for the given TARGET.TARGET_ARCH.
NXBDIRS+= \
bin/cat \
bin/chmod \
bin/cp \
${_tcsh} \
bin/echo \
bin/expr \
bin/hostname \
bin/ln \
bin/ls \
bin/mkdir \
bin/mv \
bin/ps \
bin/realpath \
bin/rm \
bin/rmdir \
bin/sh \
bin/sleep \
sbin/md5 \
sbin/sysctl \
usr.bin/addr2line \
usr.bin/ar \
usr.bin/awk \
usr.bin/basename \
usr.bin/bmake \
usr.bin/bzip2 \
usr.bin/cmp \
usr.bin/diff \
usr.bin/dirname \
usr.bin/objcopy \
usr.bin/env \
usr.bin/fetch \
usr.bin/find \
usr.bin/grep \
usr.bin/gzip \
usr.bin/head \
usr.bin/id \
usr.bin/lex \
usr.bin/limits \
usr.bin/lorder \
usr.bin/mandoc \
usr.bin/mktemp \
usr.bin/mt \
usr.bin/nm \
usr.bin/patch \
usr.bin/readelf \
usr.bin/sed \
usr.bin/size \
usr.bin/sort \
usr.bin/strings \
usr.bin/tar \
usr.bin/touch \
usr.bin/tr \
usr.bin/true \
usr.bin/uniq \
usr.bin/unzip \
usr.bin/wc \
usr.bin/xargs \
usr.bin/xinstall \
usr.bin/xz \
usr.bin/yacc \
usr.sbin/chown
SUBDIR_DEPEND_usr.bin/clang= lib/clang
.if ${MK_CLANG} != "no"
NXBDIRS+= lib/clang
NXBDIRS+= usr.bin/clang
.endif
# XXX: native-xtools passes along ${NXBDIRS} in SUBDIR_OVERRIDE that needs
# to be evaluated after NXBDIRS is set.
.if make(install) && !empty(SUBDIR_OVERRIDE)
SUBDIR= ${SUBDIR_OVERRIDE}
.endif
NXBMAKEARGS+= \
OBJTOP=${NXBOBJTOP:Q} \
OBJROOT=${NXBOBJROOT:Q} \
-DNO_SHARED \
-DNO_CPU_CFLAGS \
-DNO_PIC \
MK_CASPER=no \
MK_CLANG_EXTRAS=no \
MK_CLANG_FORMAT=no \
MK_CLANG_FULL=no \
MK_CTF=no \
MK_DEBUG_FILES=no \
MK_HTML=no \
MK_LLDB=no \
MK_MAN=no \
MK_MAN_UTILS=yes \
MK_OFED=no \
MK_OPENSSH=no \
MK_PROFILE=no \
MK_RETPOLINE=no \
MK_SENDMAIL=no \
MK_SSP=no \
MK_TESTS=no \
MK_WERROR=no \
MK_ZFS=no
NXBMAKEENV+= \
MAKEOBJDIRPREFIX=
.if make(native-xtools*) && \
(!defined(NXB_TARGET) || !defined(NXB_TARGET_ARCH))
.error Missing NXB_TARGET / NXB_TARGET_ARCH
.endif
# For 'toolchain' we want to produce native binaries that themselves generate
# native binaries.
NXBTMAKE= ${NXBMAKEENV} ${MAKE} ${NXBMAKEARGS:N-DNO_PIC:N-DNO_SHARED} \
TARGET=${MACHINE} TARGET_ARCH=${MACHINE_ARCH}
# For 'everything' we want to produce native binaries (hence -target to
# be MACHINE) that themselves generate TARGET.TARGET_ARCH binaries.
# TARGET/TARGET_ARCH are still passed along from user.
#
# Use the toolchain we create as an external toolchain.
.if ${USING_SYSTEM_COMPILER} == "yes" || ${XCC:N${CCACHE_BIN}:M/*}
NXBMAKE+= XCC="${XCC}" \
XCXX="${XCXX}" \
XCPP="${XCPP}"
.else
NXBMAKE+= XCC="${NXBOBJTOP}/tmp/usr/bin/cc" \
XCXX="${NXBOBJTOP}/tmp/usr/bin/c++" \
XCPP="${NXBOBJTOP}/tmp/usr/bin/cpp"
.endif
NXBMAKE+= ${NXBMAKEENV} ${MAKE} -f Makefile.inc1 ${NXBMAKEARGS} \
MACHINE=${MACHINE} MACHINE_ARCH=${MACHINE_ARCH} \
TARGET=${NXB_TARGET} TARGET_ARCH=${NXB_TARGET_ARCH} \
TARGET_TRIPLE=${MACHINE_TRIPLE:Q}
# NXBDIRS is improperly based on MACHINE rather than NXB_TARGET. Need to
# invoke a sub-make to reevaluate MK_CLANG, etc, for NXBDIRS.
NXBMAKE+= SUBDIR_OVERRIDE='$${NXBDIRS:M*}'
# Need to avoid the -isystem logic when using clang as an external toolchain
# even if the TARGET being built for wants GCC.
NXBMAKE+= WANT_COMPILER_TYPE='$${X_COMPILER_TYPE}'
native-xtools: .PHONY
${_+_}cd ${.CURDIR}; ${NXBTMAKE} _cleanobj
# Build the bootstrap/host/cross tools that produce native binaries
${_+_}cd ${.CURDIR}; ${NXBTMAKE} kernel-toolchain
# Populate includes/libraries sysroot that produce native binaries.
# This is split out from 'toolchain' above mostly so that target LLVM
# libraries have a proper LLVM_DEFAULT_TARGET_TRIPLE without
# polluting the cross-compiler build. The LLVM/GCC libs are skipped
# here to avoid the problem but are kept in 'toolchain' so that
# needed build tools are built.
${_+_}cd ${.CURDIR}; ${NXBTMAKE} _includes MK_CLANG=no
${_+_}cd ${.CURDIR}; ${NXBTMAKE} _libraries MK_CLANG=no
.if !defined(NO_OBJWALK)
${_+_}cd ${.CURDIR}; ${NXBMAKE} _obj
.endif
${_+_}cd ${.CURDIR}; ${NXBMAKE} everything
@echo ">> native-xtools done. Use 'make native-xtools-install' to install to a given DESTDIR"
native-xtools-install: .PHONY
mkdir -p ${NXBDESTDIR}/bin ${NXBDESTDIR}/sbin ${NXBDESTDIR}/usr
${DESTDIR_MTREE} -f ${.CURDIR}/etc/mtree/BSD.usr.dist \
-p ${NXBDESTDIR}/usr >/dev/null
${DESTDIR_MTREE} -f ${.CURDIR}/etc/mtree/BSD.include.dist \
-p ${NXBDESTDIR}/usr/include >/dev/null
${_+_}cd ${.CURDIR}; ${NXBMAKE} \
DESTDIR=${NXBDESTDIR} \
-DNO_ROOT \
install
#
# hierarchy - ensure that all the needed directories are present
#
hierarchy hier: .MAKE .PHONY
${_+_}cd ${.CURDIR}/etc; ${HMAKE} distrib-dirs
#
# libraries - build all libraries, and install them under ${DESTDIR}.
#
# The list of libraries with dependents (${_prebuild_libs}) and their
# interdependencies (__L) are built automatically by the
# ${.CURDIR}/tools/make_libdeps.sh script.
#
libraries: .MAKE .PHONY
${_+_}cd ${.CURDIR}; \
${MAKE} -f Makefile.inc1 _prereq_libs; \
${MAKE} -f Makefile.inc1 _startup_libs; \
${MAKE} -f Makefile.inc1 _prebuild_libs; \
${MAKE} -f Makefile.inc1 _generic_libs
#
# static libgcc.a prerequisite for shared libc
#
_prereq_libs= lib/libcompiler_rt
.if ${MK_SSP} != "no"
_prereq_libs+= lib/libssp_nonshared
.endif
.if ${MK_ASAN} != "no"
_prereq_libs+= lib/libclang_rt/asan
_prereq_libs+= lib/libclang_rt/asan-preinit
_prereq_libs+= lib/libclang_rt/asan_cxx
.endif
.if ${MK_UBSAN} != "no"
_prereq_libs+= lib/libclang_rt/ubsan_minimal
_prereq_libs+= lib/libclang_rt/ubsan_standalone
_prereq_libs+= lib/libclang_rt/ubsan_standalone_cxx
.endif
# These dependencies are not automatically generated:
#
# lib/csu and lib/libc must be built before
# all shared libraries for ELF.
#
_startup_libs= lib/csu
_startup_libs+= lib/libc
_startup_libs+= lib/libc_nonshared
.if ${MK_CXX} != "no"
_startup_libs+= lib/libcxxrt
.endif
_prereq_libs+= lib/libgcc_eh lib/libgcc_s
_startup_libs+= lib/libgcc_eh lib/libgcc_s
lib/libgcc_s__L: lib/libc__L
lib/libgcc_s__L: lib/libc_nonshared__L
.if ${MK_CXX} != "no"
lib/libcxxrt__L: lib/libgcc_s__L
.endif
_prebuild_libs= ${_kerberos5_lib_libasn1} \
${_kerberos5_lib_libhdb} \
${_kerberos5_lib_libheimbase} \
${_kerberos5_lib_libheimntlm} \
${_libsqlite3} \
${_kerberos5_lib_libheimipcc} \
${_kerberos5_lib_libhx509} ${_kerberos5_lib_libkrb5} \
${_kerberos5_lib_libroken} \
${_kerberos5_lib_libwind} \
lib/libbz2 ${_libcom_err} lib/libcrypt \
lib/libelf lib/libexpat \
lib/libfigpar \
${_lib_libgssapi} \
lib/libjail \
lib/libkiconv lib/libkvm lib/liblzma lib/libmd lib/libnv \
lib/libzstd \
${_lib_casper} \
lib/ncurses/tinfo \
lib/ncurses/ncurses \
lib/libopie lib/libpam/libpam lib/libthr \
${_lib_libradius} lib/libsbuf lib/libtacplus \
lib/libgeom \
${_cddl_lib_libumem} ${_cddl_lib_libnvpair} \
${_cddl_lib_libuutil} \
${_cddl_lib_libavl} \
${_cddl_lib_libicp} \
${_cddl_lib_libicp_rescue} \
${_cddl_lib_libspl} \
${_cddl_lib_libtpool} \
${_cddl_lib_libzfs_core} ${_cddl_lib_libzfs} \
${_cddl_lib_libzutil} \
${_cddl_lib_libctf} ${_cddl_lib_libzfsbootenv} \
lib/libufs \
lib/libutil lib/libpjdlog ${_lib_libypclnt} lib/libz lib/msun \
${_secure_lib_libcrypto} ${_secure_lib_libssl} \
${_lib_libldns} ${_secure_lib_libssh}
.if ${MK_DIALOG} != "no"
_prebuild_libs+= gnu/lib/libdialog
gnu/lib/libdialog__L: lib/msun__L lib/ncurses/tinfo__L lib/ncurses/ncurses__L
.endif
.if ${MK_GOOGLETEST} != "no"
_prebuild_libs+= lib/libregex
.endif
.if ${MK_CXX} != "no"
_prebuild_libs+= lib/libc++
.endif
lib/libgeom__L: lib/libexpat__L lib/libsbuf__L
lib/libkvm__L: lib/libelf__L
.if ${MK_RADIUS_SUPPORT} != "no"
_lib_libradius= lib/libradius
.endif
.if ${MK_OFED} != "no"
_prebuild_libs+= \
lib/ofed/libibverbs \
lib/ofed/libibmad \
lib/ofed/libibumad \
lib/ofed/complib \
lib/ofed/libmlx5
lib/ofed/libibmad__L: lib/ofed/libibumad__L
lib/ofed/complib__L: lib/libthr__L
lib/ofed/libmlx5__L: lib/ofed/libibverbs__L lib/libthr__L
.endif
.if ${MK_CASPER} != "no"
_lib_casper= lib/libcasper
.endif
lib/libpjdlog__L: lib/libutil__L
lib/libcasper__L: lib/libnv__L
lib/liblzma__L: lib/libmd__L lib/libthr__L
lib/libzstd__L: lib/libthr__L
_generic_libs= ${_cddl_lib} gnu/lib ${_kerberos5_lib} lib ${_secure_lib}
.if ${MK_IPFILTER} != "no"
_generic_libs+= sbin/ipf/libipf
.endif
.for _DIR in ${LOCAL_LIB_DIRS}
.if ${_DIR} == ".WAIT" || (empty(_generic_libs:M${_DIR}) && exists(${.CURDIR}/${_DIR}/Makefile))
_generic_libs+= ${_DIR}
.endif
.endfor
lib/libopie__L lib/libtacplus__L: lib/libmd__L
.if ${MK_CDDL} != "no"
_cddl_lib_libumem= cddl/lib/libumem
_cddl_lib_libnvpair= cddl/lib/libnvpair
_cddl_lib_libavl= cddl/lib/libavl
_cddl_lib_libuutil= cddl/lib/libuutil
_cddl_lib_libspl= cddl/lib/libspl
cddl/lib/libuutil__L: cddl/lib/libavl__L cddl/lib/libspl__L
.if ${MK_ZFS} != "no"
_cddl_lib_libicp= cddl/lib/libicp
_cddl_lib_libicp_rescue= cddl/lib/libicp_rescue
_cddl_lib_libtpool= cddl/lib/libtpool
_cddl_lib_libzutil= cddl/lib/libzutil
_cddl_lib_libzfs_core= cddl/lib/libzfs_core
_cddl_lib_libzfs= cddl/lib/libzfs
_cddl_lib_libzfsbootenv= cddl/lib/libzfsbootenv
cddl/lib/libtpool__L: cddl/lib/libspl__L
cddl/lib/libzutil__L: cddl/lib/libavl__L cddl/lib/libtpool__L
cddl/lib/libzfs_core__L: cddl/lib/libnvpair__L
cddl/lib/libzfs__L: cddl/lib/libzfs_core__L lib/msun__L lib/libutil__L
cddl/lib/libzfs__L: lib/libthr__L lib/libmd__L lib/libz__L cddl/lib/libumem__L
cddl/lib/libzfs__L: cddl/lib/libuutil__L cddl/lib/libavl__L lib/libgeom__L
cddl/lib/libzfs__L: cddl/lib/libnvpair__L cddl/lib/libzutil__L
cddl/lib/libzfs__L: secure/lib/libcrypto__L
cddl/lib/libzfsbootenv__L: cddl/lib/libzfs__L
lib/libbe__L: cddl/lib/libzfs__L cddl/lib/libzfsbootenv__L
.endif
_cddl_lib_libctf= cddl/lib/libctf
_cddl_lib= cddl/lib
cddl/lib/libctf__L: lib/libz__L cddl/lib/libspl__L
.endif
# cddl/lib/libdtrace requires lib/libproc and lib/librtld_db
_prebuild_libs+= lib/libprocstat lib/libproc lib/librtld_db
lib/libprocstat__L: lib/libelf__L lib/libkvm__L lib/libutil__L
lib/libproc__L: lib/libprocstat__L
lib/librtld_db__L: lib/libprocstat__L
.if ${MK_CRYPT} != "no"
.if ${MK_OPENSSL} != "no"
_secure_lib_libcrypto= secure/lib/libcrypto
_secure_lib_libssl= secure/lib/libssl
lib/libradius__L secure/lib/libssl__L: secure/lib/libcrypto__L
secure/lib/libcrypto__L: lib/libthr__L
.if ${MK_LDNS} != "no"
_lib_libldns= lib/libldns
lib/libldns__L: secure/lib/libssl__L
.endif
.if ${MK_OPENSSH} != "no"
_secure_lib_libssh= secure/lib/libssh
secure/lib/libssh__L: lib/libz__L secure/lib/libcrypto__L lib/libcrypt__L
.if ${MK_LDNS} != "no"
secure/lib/libssh__L: lib/libldns__L
.endif
.if ${MK_GSSAPI} != "no" && ${MK_KERBEROS_SUPPORT} != "no"
secure/lib/libssh__L: lib/libgssapi__L kerberos5/lib/libkrb5__L \
kerberos5/lib/libhx509__L kerberos5/lib/libasn1__L lib/libcom_err__L \
lib/libmd__L kerberos5/lib/libroken__L
.endif
.endif
.endif
_secure_lib= secure/lib
.endif
.if ${MK_KERBEROS} != "no"
kerberos5/lib/libasn1__L: lib/libcom_err__L kerberos5/lib/libroken__L
kerberos5/lib/libhdb__L: kerberos5/lib/libasn1__L lib/libcom_err__L \
kerberos5/lib/libkrb5__L kerberos5/lib/libroken__L \
kerberos5/lib/libwind__L lib/libsqlite3__L
kerberos5/lib/libheimntlm__L: secure/lib/libcrypto__L kerberos5/lib/libkrb5__L \
kerberos5/lib/libroken__L lib/libcom_err__L
kerberos5/lib/libhx509__L: kerberos5/lib/libasn1__L lib/libcom_err__L \
secure/lib/libcrypto__L kerberos5/lib/libroken__L kerberos5/lib/libwind__L
kerberos5/lib/libkrb5__L: kerberos5/lib/libasn1__L lib/libcom_err__L \
lib/libcrypt__L secure/lib/libcrypto__L kerberos5/lib/libhx509__L \
kerberos5/lib/libroken__L kerberos5/lib/libwind__L \
kerberos5/lib/libheimbase__L kerberos5/lib/libheimipcc__L
kerberos5/lib/libroken__L: lib/libcrypt__L
kerberos5/lib/libwind__L: kerberos5/lib/libroken__L lib/libcom_err__L
kerberos5/lib/libheimbase__L: lib/libthr__L
kerberos5/lib/libheimipcc__L: kerberos5/lib/libroken__L kerberos5/lib/libheimbase__L lib/libthr__L
.endif
lib/libsqlite3__L: lib/libthr__L
.if ${MK_GSSAPI} != "no"
_lib_libgssapi= lib/libgssapi
.endif
.if ${MK_KERBEROS} != "no"
_kerberos5_lib= kerberos5/lib
_kerberos5_lib_libasn1= kerberos5/lib/libasn1
_kerberos5_lib_libhdb= kerberos5/lib/libhdb
_kerberos5_lib_libheimbase= kerberos5/lib/libheimbase
_kerberos5_lib_libkrb5= kerberos5/lib/libkrb5
_kerberos5_lib_libhx509= kerberos5/lib/libhx509
_kerberos5_lib_libroken= kerberos5/lib/libroken
_kerberos5_lib_libheimntlm= kerberos5/lib/libheimntlm
_libsqlite3= lib/libsqlite3
_kerberos5_lib_libheimipcc= kerberos5/lib/libheimipcc
_kerberos5_lib_libwind= kerberos5/lib/libwind
_libcom_err= lib/libcom_err
.endif
.if ${MK_NIS} != "no"
_lib_libypclnt= lib/libypclnt
.endif
.if ${MK_OPENSSL} == "no"
lib/libradius__L: lib/libmd__L
.endif
lib/libproc__L: \
${_cddl_lib_libctf:D${_cddl_lib_libctf}__L} lib/libelf__L lib/librtld_db__L lib/libutil__L
.if ${MK_CXX} != "no"
lib/libproc__L: lib/libcxxrt__L
.endif
.for _lib in ${_prereq_libs}
${_lib}__PL: .PHONY .MAKE
.if !defined(_MKSHOWCONFIG) && exists(${.CURDIR}/${_lib})
${_+_}@${ECHODIR} "===> ${_lib} (obj,all,install)"; \
cd ${.CURDIR}/${_lib}; \
if [ -z "${NO_OBJWALK}" ]; then ${MAKE} MK_TESTS=no DIRPRFX=${_lib}/ obj; fi; \
${MAKE} MK_TESTS=no MK_PROFILE=no -DNO_PIC \
DIRPRFX=${_lib}/ all; \
${MAKE} MK_TESTS=no MK_PROFILE=no -DNO_PIC \
DIRPRFX=${_lib}/ install
.endif
.endfor
.for _lib in ${_startup_libs} ${_prebuild_libs} ${_generic_libs}
${_lib}__L: .PHONY .MAKE
.if !defined(_MKSHOWCONFIG) && exists(${.CURDIR}/${_lib})
${_+_}@${ECHODIR} "===> ${_lib} (obj,all,install)"; \
cd ${.CURDIR}/${_lib}; \
if [ -z "${NO_OBJWALK}" ]; then ${MAKE} MK_TESTS=no DIRPRFX=${_lib}/ obj; fi; \
${MAKE} MK_TESTS=no DIRPRFX=${_lib}/ all; \
${MAKE} MK_TESTS=no DIRPRFX=${_lib}/ install
.endif
.endfor
_prereq_libs: ${_prereq_libs:S/$/__PL/}
_startup_libs: ${_startup_libs:S/$/__L/}
_prebuild_libs: ${_prebuild_libs:S/$/__L/}
_generic_libs: ${_generic_libs:S/$/__L/}
# Enable SUBDIR_PARALLEL when not calling 'make all', unless called from
# 'everything' with _PARALLEL_SUBDIR_OK set. This is because it is unlikely
# that running 'make all' from the top-level, especially with a SUBDIR_OVERRIDE
# or LOCAL_DIRS set, will have a reliable build if SUBDIRs are built in
# parallel. This is safe for the world stage of buildworld though since it has
# already built libraries in a proper order and installed includes into
# WORLDTMP. Special handling is done for SUBDIR ordering for 'install*' to
# avoid trashing a system if it crashes mid-install.
.if !make(all) || defined(_PARALLEL_SUBDIR_OK)
SUBDIR_PARALLEL=
.endif
.include <bsd.subdir.mk>
.if make(check-old) || make(check-old-dirs) || \
make(check-old-files) || make(check-old-libs) || \
make(delete-old) || make(delete-old-dirs) || \
make(delete-old-files) || make(delete-old-libs)
#
# check for / delete old files section
#
.include "ObsoleteFiles.inc"
OLD_LIBS_MESSAGE="Please be sure no application still uses those libraries, \
else you can not start such an application. Consult UPDATING for more \
information regarding how to cope with the removal/revision bump of a \
specific library."
.if !defined(BATCH_DELETE_OLD_FILES)
RM_I=-i
.else
RM_I=-v
.endif
delete-old-files: .PHONY
@echo ">>> Removing old files (only deletes safe to delete libs)"
# Ask for every old file if the user really wants to remove it.
# It's annoying, but better safe than sorry.
# NB: We cannot pass the list of OLD_FILES as a parameter because the
# argument list will get too long. Using .for/.endfor make "loops" will make
# the Makefile parser segfault.
@exec 3<&0; \
cd ${.CURDIR}; \
${MAKE} -f ${.CURDIR}/Makefile.inc1 ${.MAKEFLAGS} ${.TARGET} \
-V OLD_FILES -V "OLD_FILES:Musr/share/*.gz:R" | xargs -n1 | sort | \
while read file; do \
if [ -f "${DESTDIR}/$${file}" -o -L "${DESTDIR}/$${file}" ]; then \
chflags noschg "${DESTDIR}/$${file}" 2>/dev/null || true; \
rm ${RM_I} "${DESTDIR}/$${file}" <&3; \
fi; \
for ext in debug symbols; do \
if ! [ -e "${DESTDIR}/$${file}" ] && [ -f \
"${DESTDIR}${DEBUGDIR}/$${file}.$${ext}" ]; then \
rm ${RM_I} "${DESTDIR}${DEBUGDIR}/$${file}.$${ext}" \
<&3; \
fi; \
done; \
done
# Remove catpages without corresponding manpages.
@exec 3<&0; \
find ${DESTDIR}/usr/share/man/cat* ! -type d 2>/dev/null | sort | \
sed -ep -e's:${DESTDIR}/usr/share/man/cat:${DESTDIR}/usr/share/man/man:' | \
while read catpage; do \
read manpage; \
if [ ! -e "$${manpage}" ]; then \
rm ${RM_I} $${catpage} <&3; \
fi; \
done
@echo ">>> Old files removed"
check-old-files: .PHONY
@echo ">>> Checking for old files"
@cd ${.CURDIR}; \
${MAKE} -f ${.CURDIR}/Makefile.inc1 ${.MAKEFLAGS} ${.TARGET} \
-V OLD_FILES -V "OLD_FILES:Musr/share/*.gz:R" | xargs -n1 | \
while read file; do \
if [ -f "${DESTDIR}/$${file}" -o -L "${DESTDIR}/$${file}" ]; then \
echo "${DESTDIR}/$${file}"; \
fi; \
for ext in debug symbols; do \
if [ -f "${DESTDIR}${DEBUGDIR}/$${file}.$${ext}" ]; then \
echo "${DESTDIR}${DEBUGDIR}/$${file}.$${ext}"; \
fi; \
done; \
done | sort
# Check for catpages without corresponding manpages.
@find ${DESTDIR}/usr/share/man/cat* ! -type d 2>/dev/null | \
sed -ep -e's:${DESTDIR}/usr/share/man/cat:${DESTDIR}/usr/share/man/man:' | \
while read catpage; do \
read manpage; \
if [ ! -e "$${manpage}" ]; then \
echo $${catpage}; \
fi; \
done | sort
delete-old-libs: .PHONY
@echo ">>> Removing old libraries"
@echo "${OLD_LIBS_MESSAGE}" | fmt
@exec 3<&0; \
cd ${.CURDIR}; \
${MAKE} -f ${.CURDIR}/Makefile.inc1 ${.MAKEFLAGS} ${.TARGET} \
-V OLD_LIBS | xargs -n1 | sort | \
while read file; do \
if [ -f "${DESTDIR}/$${file}" -o -L "${DESTDIR}/$${file}" ]; then \
chflags noschg "${DESTDIR}/$${file}" 2>/dev/null || true; \
rm ${RM_I} "${DESTDIR}/$${file}" <&3; \
fi; \
for ext in debug symbols; do \
if ! [ -e "${DESTDIR}/$${file}" ] && [ -f \
"${DESTDIR}${DEBUGDIR}/$${file}.$${ext}" ]; then \
rm ${RM_I} "${DESTDIR}${DEBUGDIR}/$${file}.$${ext}" \
<&3; \
fi; \
done; \
done
@echo ">>> Old libraries removed"
check-old-libs: .PHONY
@echo ">>> Checking for old libraries"
@cd ${.CURDIR}; \
${MAKE} -f ${.CURDIR}/Makefile.inc1 ${.MAKEFLAGS} ${.TARGET} \
-V OLD_LIBS | xargs -n1 | \
while read file; do \
if [ -f "${DESTDIR}/$${file}" -o -L "${DESTDIR}/$${file}" ]; then \
echo "${DESTDIR}/$${file}"; \
fi; \
for ext in debug symbols; do \
if [ -f "${DESTDIR}${DEBUGDIR}/$${file}.$${ext}" ]; then \
echo "${DESTDIR}${DEBUGDIR}/$${file}.$${ext}"; \
fi; \
done; \
done | sort
delete-old-dirs: .PHONY
@echo ">>> Removing old directories"
@cd ${.CURDIR}; \
${MAKE} -f ${.CURDIR}/Makefile.inc1 ${.MAKEFLAGS} ${.TARGET} \
-V OLD_DIRS | xargs -n1 | sort -r | \
while read dir; do \
if [ -d "${DESTDIR}/$${dir}" ]; then \
rmdir -v "${DESTDIR}/$${dir}" || true; \
elif [ -L "${DESTDIR}/$${dir}" ]; then \
echo "${DESTDIR}/$${dir} is a link, please remove everything manually."; \
fi; \
if [ -d "${DESTDIR}${DEBUGDIR}/$${dir}" ]; then \
rmdir -v "${DESTDIR}${DEBUGDIR}/$${dir}" || true; \
elif [ -L "${DESTDIR}${DEBUGDIR}/$${dir}" ]; then \
echo "${DESTDIR}${DEBUGDIR}/$${dir} is a link, please remove everything manually."; \
fi; \
done
@echo ">>> Old directories removed"
check-old-dirs: .PHONY
@echo ">>> Checking for old directories"
@cd ${.CURDIR}; \
${MAKE} -f ${.CURDIR}/Makefile.inc1 ${.MAKEFLAGS} ${.TARGET} \
-V OLD_DIRS | xargs -n1 | sort -r | \
while read dir; do \
if [ -d "${DESTDIR}/$${dir}" ]; then \
echo "${DESTDIR}/$${dir}"; \
elif [ -L "${DESTDIR}/$${dir}" ]; then \
echo "${DESTDIR}/$${dir} is a link, please remove everything manually."; \
fi; \
if [ -d "${DESTDIR}${DEBUGDIR}/$${dir}" ]; then \
echo "${DESTDIR}${DEBUGDIR}/$${dir}"; \
elif [ -L "${DESTDIR}${DEBUGDIR}/$${dir}" ]; then \
echo "${DESTDIR}${DEBUGDIR}/$${dir} is a link, please remove everything manually."; \
fi; \
done
delete-old: delete-old-files delete-old-dirs .PHONY
@echo "To remove old libraries run '${MAKE_CMD} delete-old-libs'."
check-old: check-old-files check-old-libs check-old-dirs .PHONY
@echo "To remove old files and directories run '${MAKE_CMD} delete-old'."
@echo "To remove old libraries run '${MAKE_CMD} delete-old-libs'."
.endif
#
# showconfig - show build configuration.
#
showconfig: .PHONY
@(${MAKE} -n -f ${.CURDIR}/sys/conf/kern.opts.mk -V dummy -dg1 UPDATE_DEPENDFILE=no NO_OBJ=yes; \
${MAKE} -n -f ${.CURDIR}/share/mk/src.opts.mk -V dummy -dg1 UPDATE_DEPENDFILE=no NO_OBJ=yes) 2>&1 | grep ^MK_ | sort -u
.if !empty(KRNLOBJDIR) && !empty(KERNCONF)
DTBOUTPUTPATH= ${KRNLOBJDIR}/${KERNCONF}/
.if !defined(FDT_DTS_FILE) || empty(FDT_DTS_FILE)
.if !defined(_MKSHOWCONFIG) && exists(${KERNCONFDIR}/${KERNCONF})
FDT_DTS_FILE!= awk 'BEGIN {FS="="} /^makeoptions[[:space:]]+FDT_DTS_FILE/ {print $$2}' \
'${KERNCONFDIR}/${KERNCONF}' ; echo
.endif
.endif
.endif
.if !defined(DTBOUTPUTPATH) || !exists(${DTBOUTPUTPATH})
DTBOUTPUTPATH= ${.CURDIR}
.endif
#
# Build 'standalone' Device Tree Blob
#
builddtb: .PHONY
@PATH=${TMPPATH} MACHINE=${TARGET} \
sh ${.CURDIR}/sys/tools/fdt/make_dtb.sh ${.CURDIR}/sys \
"${FDT_DTS_FILE}" ${DTBOUTPUTPATH}
###############
# cleanworld
# In the following, the first 'rm' in a series will usually remove all
# files and directories. If it does not, then there are probably some
# files with file flags set, so this unsets them and tries the 'rm' a
# second time. There are situations where this target will be cleaning
# some directories via more than one method, but that duplication is
# needed to correctly handle all the possible situations. Removing all
# files without file flags set in the first 'rm' instance saves time,
# because 'chflags' will need to operate on fewer files afterwards.
#
# It is expected that BW_CANONICALOBJDIR == the CANONICALOBJDIR as would be
# created by bsd.obj.mk, except that we don't want to .include that file
# in this makefile. We don't do a cleandir walk if MK_AUTO_OBJ is yes
# since it is not possible for files to land in the wrong place.
#
.if make(cleanworld)
BW_CANONICALOBJDIR:=${OBJTOP}/
.elif make(cleanuniverse)
BW_CANONICALOBJDIR:=${OBJROOT}
.if ${MK_UNIFIED_OBJDIR} == "no"
.error ${.TARGETS} only supported with WITH_UNIFIED_OBJDIR enabled.
.endif
.endif
cleanworld cleanuniverse: .PHONY
.if !empty(BW_CANONICALOBJDIR) && exists(${BW_CANONICALOBJDIR}) && \
${.CURDIR:tA} != ${BW_CANONICALOBJDIR:tA}
-rm -rf ${BW_CANONICALOBJDIR}*
-chflags -R 0 ${BW_CANONICALOBJDIR}
rm -rf ${BW_CANONICALOBJDIR}*
.endif
.if make(cleanworld) && ${MK_AUTO_OBJ} == "no" && \
(empty(BW_CANONICALOBJDIR) || ${.CURDIR:tA} == ${BW_CANONICALOBJDIR:tA})
.if ${.CURDIR} == ${.OBJDIR} || ${.CURDIR}/obj == ${.OBJDIR}
# To be safe in this case, fall back to a 'make cleandir'
${_+_}@cd ${.CURDIR}; ${MAKE} cleandir
.endif
.endif
.if ${TARGET} == ${MACHINE} && ${TARGET_ARCH} == ${MACHINE_ARCH}
XDEV_CPUTYPE?=${CPUTYPE}
.else
XDEV_CPUTYPE?=${TARGET_CPUTYPE}
.endif
NOFUN=-DNO_FSCHG MK_HTML=no -DNO_LINT \
MK_MAN=no MK_NLS=no MK_PROFILE=no \
MK_KERBEROS=no MK_RESCUE=no MK_TESTS=no MK_WERROR=no \
TARGET=${TARGET} TARGET_ARCH=${TARGET_ARCH} \
CPUTYPE=${XDEV_CPUTYPE}
XDDIR=${TARGET_ARCH}-freebsd
XDTP?=/usr/${XDDIR}
.if ${XDTP:N/*}
.error XDTP variable should be an absolute path
.endif
CDBOBJROOT= ${OBJROOT}${MACHINE}.${MACHINE_ARCH}/xdev/
CDBOBJTOP= ${CDBOBJROOT}${XDDIR}
CDBENV= \
INSTALL="sh ${.CURDIR}/tools/install.sh"
CDENV= ${CDBENV} \
TOOLS_PREFIX=${XDTP}
CDMAKEARGS= \
OBJTOP=${CDBOBJTOP:Q} \
OBJROOT=${CDBOBJROOT:Q}
CD2MAKEARGS= ${CDMAKEARGS}
.if ${WANT_COMPILER_TYPE} == gcc || \
(defined(X_COMPILER_TYPE) && ${X_COMPILER_TYPE} == gcc)
# GCC requires -isystem and -L when using a cross-compiler. --sysroot
# won't set header path and -L is used to ensure the base library path
# is added before the port PREFIX library path.
CD2CFLAGS+= -isystem ${XDDESTDIR}/usr/include -L${XDDESTDIR}/usr/lib
# GCC requires -B to find /usr/lib/crti.o when using a cross-compiler
# combined with --sysroot.
CD2CFLAGS+= -B${XDDESTDIR}/usr/lib
# Force using libc++ for external GCC.
.if defined(X_COMPILER_TYPE) && \
${X_COMPILER_TYPE} == gcc && ${X_COMPILER_VERSION} >= 40800
CD2CXXFLAGS+= -isystem ${XDDESTDIR}/usr/include/c++/v1 -std=c++11 \
-nostdinc++
.endif
.endif
CD2CFLAGS+= --sysroot=${XDDESTDIR}/
CD2ENV=${CDENV} CC="${CC} ${CD2CFLAGS}" CXX="${CXX} ${CD2CXXFLAGS} ${CD2CFLAGS}" \
CPP="${CPP} ${CD2CFLAGS}" \
MACHINE=${TARGET} MACHINE_ARCH=${TARGET_ARCH}
CDTMP= ${OBJTOP}/${XDDIR}/tmp
CDMAKE=${CDENV} PATH=${CDTMP}/usr/bin:${PATH} ${MAKE} ${CDMAKEARGS} ${NOFUN}
CD2MAKE=${CD2ENV} PATH=${CDTMP}/usr/bin:${XDDESTDIR}/usr/bin:${PATH} \
${MAKE} ${CD2MAKEARGS} ${NOFUN}
.if ${MK_META_MODE} != "no"
# Don't rebuild build-tools targets during normal build.
CD2MAKE+= BUILD_TOOLS_META=.NOMETA
.endif
XDDESTDIR=${DESTDIR}${XDTP}
.ORDER: xdev-build xdev-install xdev-links
xdev: xdev-build xdev-install .PHONY
.ORDER: _xb-worldtmp _xb-bootstrap-tools _xb-build-tools _xb-cross-tools
xdev-build: _xb-worldtmp _xb-bootstrap-tools _xb-build-tools _xb-cross-tools .PHONY
_xb-worldtmp: .PHONY
mkdir -p ${CDTMP}/usr
${WORLDTMP_MTREE} -f ${.CURDIR}/etc/mtree/BSD.usr.dist \
-p ${CDTMP}/usr >/dev/null
_xb-bootstrap-tools: .PHONY
.for _tool in \
${_clang_tblgen} \
${_yacc}
${_+_}@${ECHODIR} "===> ${_tool} (obj,all,install)"; \
cd ${.CURDIR}/${_tool}; \
if [ -z "${NO_OBJWALK}" ]; then ${CDMAKE} DIRPRFX=${_tool}/ obj; fi; \
${CDMAKE} DIRPRFX=${_tool}/ all; \
${CDMAKE} DIRPRFX=${_tool}/ DESTDIR=${CDTMP} install
.endfor
_xb-build-tools: .PHONY
${_+_}@cd ${.CURDIR}; \
${CDBENV} ${MAKE} ${CDMAKEARGS} -f Makefile.inc1 ${NOFUN} build-tools
XDEVDIRS= \
${_clang_libs} \
${_lld} \
${_elftctools} \
usr.bin/ar \
${_clang}
_xb-cross-tools: .PHONY
.for _tool in ${XDEVDIRS}
${_+_}@${ECHODIR} "===> xdev ${_tool} (obj,all)"; \
cd ${.CURDIR}/${_tool}; \
if [ -z "${NO_OBJWALK}" ]; then ${CDMAKE} DIRPRFX=${_tool}/ obj; fi; \
${CDMAKE} DIRPRFX=${_tool}/ all
.endfor
_xi-mtree: .PHONY
${_+_}@${ECHODIR} "mtree populating ${XDDESTDIR}"
mkdir -p ${XDDESTDIR}
${DESTDIR_MTREE} -f ${.CURDIR}/etc/mtree/BSD.root.dist \
-p ${XDDESTDIR} >/dev/null
${DESTDIR_MTREE} -f ${.CURDIR}/etc/mtree/BSD.usr.dist \
-p ${XDDESTDIR}/usr >/dev/null
${DESTDIR_MTREE} -f ${.CURDIR}/etc/mtree/BSD.include.dist \
-p ${XDDESTDIR}/usr/include >/dev/null
.if defined(_LIBCOMPAT)
${DESTDIR_MTREE} -f ${.CURDIR}/etc/mtree/BSD.lib${libcompat}.dist \
-p ${XDDESTDIR}/usr >/dev/null
.endif
.if ${MK_TESTS} != "no"
mkdir -p ${XDDESTDIR}${TESTSBASE}
${DESTDIR_MTREE} -f ${.CURDIR}/etc/mtree/BSD.tests.dist \
-p ${XDDESTDIR}${TESTSBASE} >/dev/null
.endif
.ORDER: xdev-build _xi-mtree _xi-cross-tools _xi-includes _xi-libraries
xdev-install: xdev-build _xi-mtree _xi-cross-tools _xi-includes _xi-libraries .PHONY
_xi-cross-tools: .PHONY
@echo "_xi-cross-tools"
.for _tool in ${XDEVDIRS}
${_+_}@${ECHODIR} "===> xdev ${_tool} (install)"; \
cd ${.CURDIR}/${_tool}; \
${CDMAKE} DIRPRFX=${_tool}/ install DESTDIR=${XDDESTDIR}
.endfor
_xi-includes: .PHONY
.if !defined(NO_OBJWALK)
${_+_}cd ${.CURDIR}; ${CD2MAKE} -f Makefile.inc1 _obj \
DESTDIR=${XDDESTDIR}
.endif
${_+_}cd ${.CURDIR}; ${CD2MAKE} -f Makefile.inc1 includes \
DESTDIR=${XDDESTDIR}
_xi-libraries: .PHONY
${_+_}cd ${.CURDIR}; ${CD2MAKE} -f Makefile.inc1 libraries \
DESTDIR=${XDDESTDIR}
xdev-links: .PHONY
${_+_}cd ${XDDESTDIR}/usr/bin; \
mkdir -p ../../../../usr/bin; \
for i in *; do \
ln -sf ../../${XDTP}/usr/bin/$$i \
../../../../usr/bin/${XDDIR}-$$i; \
ln -sf ../../${XDTP}/usr/bin/$$i \
../../../../usr/bin/${XDDIR}${_REVISION}-$$i; \
done