# $FreeBSD$ .PATH: ${.CURDIR}/../../include LIB= egacy SRC= INCSGROUPS= INCS SYSINCS CASPERINC UFSINCS FFSINCS MSDOSFSINCS DISKINCS INCSGROUPS+= MACHINESYSINCS RPCINCS INCS= SYSINCSDIR= ${INCLUDEDIR}/sys CASPERINCDIR= ${INCLUDEDIR}/casper # Also add ufs/ffs/msdosfs/disk headers to allow building makefs as a bootstrap tool UFSINCSDIR= ${INCLUDEDIR}/ufs/ufs FFSINCSDIR= ${INCLUDEDIR}/ufs/ffs MSDOSFSINCSDIR= ${INCLUDEDIR}/fs/msdosfs DISKINCSDIR= ${INCLUDEDIR}/sys/disk MACHINESYSINCSDIR= ${INCLUDEDIR}/machine RPCINCSDIR= ${INCLUDEDIR}/rpc BOOTSTRAPPING?= 0 .if ${.MAKE.OS} == "Darwin" _XCODE_ROOT!=xcode-select -p # since macOS 10.14 C headers are no longer installed in /usr but only # provided via the SDK .if ${_XCODE_ROOT} == "/Library/Developer/CommandLineTools" # Only command line tools installed -> host headers are in the SDKs directory _MACOS_SDK_DIR=${_XCODE_ROOT}/SDKs/MacOSX.sdk/ .else # Full XCode installed -> host headers are below Platforms/MacOSX.platform _MACOS_SDK_DIR=${_XCODE_ROOT}/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk .endif HOST_INCLUDE_ROOT=${_MACOS_SDK_DIR}/usr/include .if !exists(${HOST_INCLUDE_ROOT}/stdio.h) .error "You must install the macOS SDK (try xcode-select --install)" .endif .else HOST_INCLUDE_ROOT=/usr/include .endif # Allow building libc-internal files (also on non-FreeBSD hosts) CFLAGS+= -I${.CURDIR}/libc-bootstrap # Symbol versioning is not required for -legacy (and macOS bootstrap) MK_SYMVER= no _WITH_PWCACHEDB!= grep -c pwcache_groupdb ${HOST_INCLUDE_ROOT}/grp.h || true .if ${_WITH_PWCACHEDB} == 0 .PATH: ${.CURDIR}/../../contrib/libc-pwcache CFLAGS.pwcache.c+= -I${.CURDIR}/../../contrib/libc-pwcache SRCS+= pwcache.c .endif _WITH_STRSVIS!= grep -c strsvis ${HOST_INCLUDE_ROOT}/vis.h 2>/dev/null || true .if ${_WITH_STRSVIS} == 0 .PATH: ${.CURDIR}/../../contrib/libc-vis INCS+= vis.h SRCS+= vis.c unvis.c CFLAGS.vis.c+= -I${.CURDIR}/../../contrib/libc-vis -DHAVE_VIS=0 -DHAVE_SVIS=0 CFLAGS.unvis.c+= -I${.CURDIR}/../../contrib/libc-vis -DHAVE_VIS=0 -DHAVE_SVIS=0 .endif _WITH_REALLOCARRAY!= grep -c reallocarray ${HOST_INCLUDE_ROOT}/stdlib.h || true .if ${_WITH_REALLOCARRAY} == 0 .PATH: ${.CURDIR}/../../lib/libc/stdlib INCS+= stdlib.h SRCS+= reallocarray.c .endif _WITH_UTIMENS!= grep -c utimensat ${HOST_INCLUDE_ROOT}/sys/stat.h || true .if ${_WITH_UTIMENS} == 0 SYSINCS+= stat.h SRCS+= futimens.c utimensat.c .endif _WITH_EXPLICIT_BZERO!= grep -c explicit_bzero ${HOST_INCLUDE_ROOT}/strings.h || true .if ${_WITH_EXPLICIT_BZERO} == 0 # .PATH: ${SRCTOP}/sys/libkern # Adding sys/libkern to .PATH breaks building the cross-build compat library # since that attempts to build strlcpy.c from libc and adding libkern here will # cause it to pick the file from libkern instead (which won't compile). # Avoid modifying .PATH by creating a copy in the build directory instead. explicit_bzero.c: ${SRCTOP}/sys/libkern/explicit_bzero.c cp ${.ALLSRC} ${.TARGET} CLEANFILES+= explicit_bzero.c INCS+= strings.h SRCS+= explicit_bzero.c .endif .if exists(${HOST_INCLUDE_ROOT}/capsicum_helpers.h) _WITH_CAPH_ENTER!= grep -c caph_enter ${HOST_INCLUDE_ROOT}/capsicum_helpers.h || true _WITH_CAPH_RIGHTS_LIMIT!= grep -c caph_rights_limit ${HOST_INCLUDE_ROOT}/capsicum_helpers.h || true .endif .if !defined(_WITH_CAPH_ENTER) || ${_WITH_CAPH_ENTER} == 0 || ${_WITH_CAPH_RIGHTS_LIMIT} == 0 .PATH: ${SRCTOP}/lib/libcapsicum INCS+= capsicum_helpers.h .PATH: ${SRCTOP}/lib/libcasper/libcasper INCS+= libcasper.h .endif # rpcgen should build against the source tree rpc/types.h and not the host. # This is especially important on non-FreeBSD systems where the types may # not match. RPCINCS+= ${SRCTOP}/sys/rpc/types.h INCS+= ${SRCTOP}/include/mpool.h INCS+= ${SRCTOP}/include/ndbm.h INCS+= ${SRCTOP}/include/err.h INCS+= ${SRCTOP}/include/stringlist.h # Needed to build arc4random.c INCSGROUPS+= CHACHA20INCS CHACHA20INCSDIR= ${INCLUDEDIR}/crypto/chacha20 CHACHA20INCS+= ${SRCTOP}/sys/crypto/chacha20/_chacha.h \ ${SRCTOP}/sys/crypto/chacha20/chacha.h _host_arch=${MACHINE} .if ${_host_arch} == "x86_64" # bmake on Linux/mac often prints that instead of amd64 _host_arch=amd64 .endif .if ${_host_arch} == "unknown" # HACK: If MACHINE is unknown, assume we are building on x86 _host_arch=amd64 .endif MACHINESYSINCS+= ${SRCTOP}/sys/${_host_arch}/include/elf.h .if ${_host_arch} == "amd64" || ${_host_arch} == "i386" INCSGROUPS+= X86INCS X86INCSDIR= ${INCLUDEDIR}/x86 X86INCS+= ${SRCTOP}/sys/x86/include/elf.h .endif # needed for btxld: MACHINESYSINCS+= ${SRCTOP}/sys/${_host_arch}/include/exec.h MACHINESYSINCS+= ${SRCTOP}/sys/${_host_arch}/include/reloc.h INCS+= ${SRCTOP}/include/a.out.h INCS+= ${SRCTOP}/include/nlist.h SYSINCS+= ${SRCTOP}/sys/sys/imgact_aout.h SYSINCS+= ${SRCTOP}/sys/sys/nlist_aout.h .if ${.MAKE.OS} != "FreeBSD" .PATH: ${.CURDIR}/cross-build # dbopen() behaves differently on Linux and FreeBSD so we ensure that we # bootstrap the FreeBSD db code. The cross-build headers #define dbopen() to # __freebsd_dbopen() so that we don't ever use the host version INCS+= ${SRCTOP}/include/db.h LIBC_SRCTOP= ${SRCTOP}/lib/libc/ .include "${LIBC_SRCTOP}/db/Makefile.inc" # Do the same as we did for dbopen() for getopt() on since it's not compatible # on Linux (and to avoid surprises also compile the FreeBSD code on macOS) .PATH: ${LIBC_SRCTOP}/stdlib SRCS+= getopt.c getopt_long.c INCS+= ${SRCTOP}/include/getopt.h # getcap.c is needed for cap_mkdb: .PATH: ${LIBC_SRCTOP}/gen SRCS+= getcap.c # Add various libbc functions that are not available in glibc: SRCS+= stringlist.c setmode.c SRCS+= strtonum.c merge.c heapsort.c reallocf.c .PATH: ${LIBC_SRCTOP}/locale SRCS+= rpmatch.c .if ${.MAKE.OS} == "Linux" # On Linux, glibc does not provide strlcpy,strlcat or strmode. .PATH: ${LIBC_SRCTOP}/string SRCS+= strlcpy.c strlcat.c strmode.c # Compile the fgetln/fgetwln/closefrom fallback code from libbsd: SRCS+= fgetln_fallback.c fgetwln_fallback.c closefrom.c CFLAGS.closefrom.c+= -DSTDC_HEADERS -DHAVE_SYS_DIR_H -DHAVE_DIRENT_H \ -DHAVE_DIRFD -DHAVE_SYSCONF # Provide warnc/errc/getprogname/setprograme SRCS+= err.c progname.c # Stub implementations of fflagstostr/strtofflags SRCS+= fflags.c .endif # Provide the same arc4random implementation on Linux/macOS CFLAGS.arc4random.c+= -I${SRCTOP}/sys/crypto/chacha20 -D__isthreaded=1 SRCS+= arc4random.c arc4random_uniform.c # expand_number() is not provided by either Linux or MacOS libutil .PATH: ${SRCTOP}/lib/libutil SRCS+= expand_number.c # Linux libutil also doesn't have fparseln SRCS+= fparseln.c # A dummy sysctl for tzsetup: SRCS+= fake_sysctl.c # capsicum support SYSINCS+= ${SRCTOP}/sys/sys/capsicum.h SYSINCS+= ${SRCTOP}/sys/sys/caprights.h SRCS+= capsicum_stubs.c # XXX: we can't add ${SRCTOP}/sys/kern to .PATH since that will causes # conflicts with other files. Instead copy subr_capability to the build dir. subr_capability.c: ${SRCTOP}/sys/kern/subr_capability.c cp ${.ALLSRC} ${.TARGET} SRCS+= subr_capability.c CLEANFILES+= subr_capability.c .endif CASPERINC+= ${SRCTOP}/lib/libcasper/services/cap_fileargs/cap_fileargs.h CASPERINC+= ${SRCTOP}/lib/libcasper/services/cap_net/cap_net.h .if empty(SRCS) SRCS= dummy.c .endif .if defined(CROSS_BUILD_TESTING) SUBDIR= cross-build .endif # To allow bootstrapping makefs on FreeBSD 11 or non-FreeBSD systems: UFSINCS+= ${SRCTOP}/sys/ufs/ufs/dinode.h UFSINCS+= ${SRCTOP}/sys/ufs/ufs/dir.h FFSINCS+= ${SRCTOP}/sys/ufs/ffs/fs.h MSDOSFSINCS+= ${SRCTOP}/sys/fs/msdosfs/bootsect.h MSDOSFSINCS+= ${SRCTOP}/sys/fs/msdosfs/bpb.h MSDOSFSINCS+= ${SRCTOP}/sys/fs/msdosfs/denode.h MSDOSFSINCS+= ${SRCTOP}/sys/fs/msdosfs/direntry.h MSDOSFSINCS+= ${SRCTOP}/sys/fs/msdosfs/fat.h MSDOSFSINCS+= ${SRCTOP}/sys/fs/msdosfs/msdosfsmount.h DISKINCS+= ${SRCTOP}/sys/sys/disk/bsd.h # Needed to build config (since it uses libnv) SYSINCS+= ${SRCTOP}/sys/sys/nv.h ${SRCTOP}/sys/sys/cnv.h \ ${SRCTOP}/sys/sys/dnv.h # Needed when bootstrapping ldd (since it uses DF_1_PIE) SYSINCS+= ${SRCTOP}/sys/sys/elf32.h SYSINCS+= ${SRCTOP}/sys/sys/elf64.h SYSINCS+= ${SRCTOP}/sys/sys/elf_common.h SYSINCS+= ${SRCTOP}/sys/sys/elf_generic.h SYSINCS+= ${SRCTOP}/sys/sys/queue.h SYSINCS+= ${SRCTOP}/sys/sys/md5.h SYSINCS+= ${SRCTOP}/sys/sys/sbuf.h SYSINCS+= ${SRCTOP}/sys/sys/tree.h # vtfontcvt is using sys/font.h SYSINCS+= ${SRCTOP}/sys/sys/font.h # For mkscrfil.c: SYSINCS+= ${SRCTOP}/sys/sys/consio.h # for gencat: INCS+= ${SRCTOP}/include/nl_types.h # for vtfontcvt: SYSINCS+= ${SRCTOP}/sys/sys/fnv_hash.h # opensolaris compatibility INCS+= ${SRCTOP}/include/elf.h SYSINCS+= ${SRCTOP}/sys/sys/elf.h # 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 ${WORLDTMP} and build all others # from the FreeBSD sources during the bootstrap-tools stage. # basic commands: It is fine to use the host version for all of these even on # Linux/MacOS since we only use flags that are supported by all of them. _host_tools_to_symlink= basename bzip2 bunzip2 chmod chown cmp comm cp date dd \ dirname echo env false find fmt gzip gunzip head hostname id ln ls \ mkdir mv nice patch rm sh sleep stat tee touch tr true uname uniq unxz \ wc which xz # We also need a symlink to the absolute path to the make binary used for # the toplevel makefile. This is not necessarily the same as `which make` # since e.g. on Linux and MacOS that will be GNU make. _make_abs!= which "${MAKE}" _host_abs_tools_to_symlink= ${_make_abs}:make ${_make_abs}:bmake .if ${.MAKE.OS} != "FreeBSD" _make_abs!= which "${MAKE}" _host_abs_tools_to_symlink+= ${_make_abs}:make ${_make_abs}:bmake .if ${.MAKE.OS} == "Darwin" # /usr/bin/cpp may invoke xcrun: _host_tools_to_symlink+=xcrun .endif # ${.MAKE.OS} == "Darwin" # On Ubuntu /bin/sh is dash which is totally useless. Let's just link bash # as the build sh since that will work fine. _host_abs_tools_to_symlink+= /bin/bash:sh _host_tools_to_symlink:=${_host_tools_to_symlink:Nsh} .endif host-symlinks: @echo "Linking host tools into ${DESTDIR}/bin" .for _tool in ${_host_tools_to_symlink} @export PATH=$${PATH}:/usr/local/bin; source_path=`which ${_tool}`; \ if [ ! -e "$${source_path}" ] ; then \ echo "Cannot find host tool '${_tool}' in PATH ($$PATH)." >&2; false; \ fi; \ rm -f "${DESTDIR}/bin/${_tool}"; \ cp -pf "$${source_path}" "${DESTDIR}/bin/${_tool}" .endfor .for _tool in ${_host_abs_tools_to_symlink} @source_path="${_tool:S/:/ /:[1]}"; \ target_path="${DESTDIR}/bin/${_tool:S/:/ /:[2]}"; \ if [ ! -e "$${source_path}" ] ; then \ echo "Host tool '${src_path}' is missing"; false; \ fi; \ rm -f "$${target_path}"; \ cp -pf "$${source_path}" "$${target_path}" .endfor .if exists(/usr/libexec/flua) rm -f ${DESTDIR}/usr/libexec/flua cp -pf /usr/libexec/flua ${DESTDIR}/usr/libexec/flua .endif # Create all the directories that are needed during the legacy, bootstrap-tools # and cross-tools stages. We do this here using mkdir since mtree may not exist # yet (this happens if we are crossbuilding from Linux/Mac). INSTALLDIR_LIST= \ bin \ lib/casper \ lib/geom \ usr/include/casper \ usr/include/private/ucl \ usr/include/private/zstd \ usr/lib \ usr/libexec installdirs: mkdir -p ${INSTALLDIR_LIST:S,^,${DESTDIR}/,} # Link usr/bin, sbin, and usr/sbin to bin so that it doesn't matter whether a # bootstrap tool was added to WORLTMP with a symlink or by building it in the # bootstrap-tools phase. We could also overrride BINDIR when building bootstrap # tools but adding the symlinks is easier and means all tools are also # in the directory that they are installed to normally. .for _dir in sbin usr/sbin usr/bin # delete existing directories from before r340157 @if [ -e ${DESTDIR}/${_dir} ] && [ ! -L ${DESTDIR}/${_dir} ]; then \ echo "removing old non-symlink ${DESTDIR}/${_dir}"; \ rm -rf "${DESTDIR}/${_dir}"; \ fi .endfor ln -sfn bin ${DESTDIR}/sbin ln -sfn ../bin ${DESTDIR}/usr/bin ln -sfn ../bin ${DESTDIR}/usr/sbin .for _group in ${INCSGROUPS:NINCS} mkdir -p "${DESTDIR}/${${_group}DIR}" .endfor .include