# $FreeBSD$ # local configuration specific to meta mode # XXX some of this should be in meta.sys.mk # we assume that MK_DIRDEPS_BUILD=yes # we need this until there is an alternative MK_INSTALL_AS_USER= yes .if !defined(HOST_TARGET) # we need HOST_TARGET etc below. .include .export HOST_TARGET .endif # from src/Makefile (for universe) TARGET_ARCHES_arm?= arm armv6 armv7 TARGET_ARCHES_arm64?= aarch64 TARGET_ARCHES_mips?= mipsel mips mips64el mips64 mipsn32 mipsn32el TARGET_ARCHES_powerpc?= powerpc powerpc64 powerpcspe TARGET_ARCHES_riscv?= riscv64 riscv64sf # some corner cases BOOT_MACHINE_DIR.amd64 = boot/i386 MACHINE_ARCH.host = ${_HOST_ARCH} # the list of machines we support ALL_MACHINE_LIST?= amd64 arm arm64 i386 mips powerpc riscv sparc64 .for m in ${ALL_MACHINE_LIST:O:u} MACHINE_ARCH_LIST.$m?= ${TARGET_ARCHES_${m}:U$m} MACHINE_ARCH.$m?= ${MACHINE_ARCH_LIST.$m:[1]} BOOT_MACHINE_DIR.$m ?= boot/$m .endfor .ifndef _TARGET_SPEC .if empty(MACHINE_ARCH) .if !empty(TARGET_ARCH) MACHINE_ARCH= ${TARGET_ARCH} .else MACHINE_ARCH= ${MACHINE_ARCH.${MACHINE}} .endif .endif MACHINE_ARCH?= ${MACHINE_ARCH.${MACHINE}} MACHINE_ARCH:= ${MACHINE_ARCH} .else # we got here via dirdeps MACHINE_ARCH:= ${MACHINE_ARCH.${MACHINE}} .endif # now because for universe we want to potentially # build for multiple MACHINE_ARCH per MACHINE # we need more than MACHINE in TARGET_SPEC TARGET_SPEC_VARS= MACHINE MACHINE_ARCH # see dirdeps.mk .if ${TARGET_SPEC:Uno:M*,*} != "" _tspec := ${TARGET_SPEC:S/,/ /g} MACHINE := ${_tspec:[1]} MACHINE_ARCH := ${_tspec:[2]} # etc. # We need to stop that TARGET_SPEC affecting any submakes # and deal with MACHINE=${TARGET_SPEC} in the environment. TARGET_SPEC= # export but do not track .export-env TARGET_SPEC .export ${TARGET_SPEC_VARS} .for v in ${TARGET_SPEC_VARS:O:u} .if empty($v) .undef $v .endif .endfor .endif # make sure we know what TARGET_SPEC is # as we may need it to find Makefile.depend* TARGET_SPEC = ${TARGET_SPEC_VARS:@v@${$v:U}@:ts,} # to be consistent with src/Makefile just concatenate with '.'s TARGET_OBJ_SPEC:= ${TARGET_SPEC:S;,;.;g} OBJTOP:= ${OBJROOT}${TARGET_OBJ_SPEC} .if defined(MAKEOBJDIR) .if ${MAKEOBJDIR:M/*} == "" .error Cannot use MAKEOBJDIR=${MAKEOBJDIR}${.newline}Unset MAKEOBJDIR to get default: MAKEOBJDIR='${_default_makeobjdir}' .endif .endif HOST_OBJTOP ?= ${OBJROOT}${HOST_TARGET} .if ${OBJTOP} == ${HOST_OBJTOP} || ${REQUESTED_MACHINE:U${MACHINE}} == "host" MACHINE= host .if ${TARGET_MACHINE:Uno} == ${HOST_TARGET} # not what we want TARGET_MACHINE= host .endif .endif .if ${MACHINE} == "host" OBJTOP := ${HOST_OBJTOP} .endif .if ${.MAKE.LEVEL} == 0 PYTHON ?= /usr/local/bin/python .export PYTHON # this works best if share/mk is ready for it. BUILD_AT_LEVEL0= no # _SKIP_BUILD is not 100% as it requires wrapping all 'all:' targets to avoid # building in MAKELEVEL0. Just prohibit 'all' entirely in this case to avoid # problems. .if ${MK_DIRDEPS_BUILD} == "yes" && \ ${.MAKE.LEVEL} == 0 && ${BUILD_AT_LEVEL0:Uyes:tl} == "no" .MAIN: dirdeps .if make(all) .error DIRDEPS_BUILD: Please run '${MAKE}' instead of '${MAKE} all'. .endif .endif # we want to end up with a singe stage tree for all machines .if ${MK_STAGING} == "yes" .if empty(STAGE_ROOT) STAGE_ROOT?= ${OBJROOT}stage .export STAGE_ROOT .endif .endif .endif .if ${MK_STAGING} == "yes" .if ${MACHINE} == "host" STAGE_MACHINE= ${HOST_TARGET} .else STAGE_MACHINE:= ${TARGET_OBJ_SPEC} .endif STAGE_OBJTOP:= ${STAGE_ROOT}/${STAGE_MACHINE} STAGE_COMMON_OBJTOP:= ${STAGE_ROOT}/common STAGE_TARGET_OBJTOP:= ${STAGE_ROOT}/${TARGET_OBJ_SPEC} STAGE_HOST_OBJTOP:= ${STAGE_ROOT}/${HOST_TARGET} # These are exported for hooking in out-of-tree builds. They will always # be overridden in sub-makes above when building in-tree. .export STAGE_OBJTOP STAGE_TARGET_OBJTOP STAGE_HOST_OBJTOP # Use tools/install.sh which can avoid the need for xinstall for simple cases. INSTALL?= sh ${SRCTOP}/tools/install.sh # This is for stage-install to pickup from the environment. REAL_INSTALL:= ${INSTALL} .export REAL_INSTALL STAGE_INSTALL= sh ${.PARSEDIR:tA}/stage-install.sh OBJDIR=${.OBJDIR:tA} STAGE_LIBDIR= ${STAGE_OBJTOP}${_LIBDIR:U${LIBDIR:U/lib}} STAGE_INCLUDEDIR= ${STAGE_OBJTOP}${INCLUDEDIR:U/usr/include} # this is not the same as INCLUDEDIR STAGE_INCSDIR= ${STAGE_OBJTOP}${INCSDIR:U/include} # the target is usually an absolute path STAGE_SYMLINKS_DIR= ${STAGE_OBJTOP} LDFLAGS_LAST+= -Wl,-rpath-link,${STAGE_LIBDIR} .if ${MK_SYSROOT} == "yes" SYSROOT?= ${STAGE_OBJTOP} .else LDFLAGS_LAST+= -L${STAGE_LIBDIR} .endif .endif # MK_STAGING # this is sufficient for most of the tree. .MAKE.DEPENDFILE_DEFAULT = ${.MAKE.DEPENDFILE_PREFIX} # but if we have a machine qualified file it should be used in preference .MAKE.DEPENDFILE_PREFERENCE = \ ${.MAKE.DEPENDFILE_PREFIX}.${MACHINE} \ ${.MAKE.DEPENDFILE_PREFIX} .undef .MAKE.DEPENDFILE .include "sys.dependfile.mk" .if ${.MAKE.LEVEL} > 0 && ${MACHINE} == "host" && ${.MAKE.DEPENDFILE:E} != "host" # we can use this but should not update it. UPDATE_DEPENDFILE= NO .endif # define the list of places that contain files we are responsible for .MAKE.META.BAILIWICK = ${SB} ${OBJROOT} ${STAGE_ROOT} CSU_DIR.${MACHINE_ARCH} ?= csu/${MACHINE_ARCH} CSU_DIR := ${CSU_DIR.${MACHINE_ARCH}} .if !empty(TIME_STAMP) TRACER= ${TIME_STAMP} ${:U} .endif .if !defined(_RECURSING_PROGS) && !defined(_RECURSING_CRUNCH) && \ !make(print-dir) WITH_META_STATS= t .endif # toolchains can be a pain - especially bootstrappping them .if ${MACHINE} == "host" MK_SHARED_TOOLCHAIN= no .endif TOOLCHAIN_VARS= AS AR CC CLANG_TBLGEN CXX CPP LD NM OBJCOPY RANLIB \ STRINGS SIZE LLVM_TBLGEN _toolchain_bin_CLANG_TBLGEN= /usr/bin/clang-tblgen _toolchain_bin_LLVM_TBLGEN= /usr/bin/llvm-tblgen _toolchain_bin_CXX= /usr/bin/c++ .ifdef WITH_TOOLSDIR TOOLSDIR?= ${HOST_OBJTOP}/tools .elif defined(STAGE_HOST_OBJTOP) TOOLSDIR?= ${STAGE_HOST_OBJTOP} .endif # Only define if it exists in case user didn't run bootstrap-tools. Otherwise # the tool will be built during the build. Building it assumes it is # TARGET==MACHINE. .if exists(${HOST_OBJTOP}/tools${.CURDIR}) BTOOLSPATH= ${HOST_OBJTOP}/tools${.CURDIR} .endif # Don't use the bootstrap tools logic on itself. .if ${.TARGETS:Mbootstrap-tools} == "" && \ !make(test-system-*) && !make(showconfig) && !make(print-dir) && \ !defined(BOOTSTRAPPING_TOOLS) && !empty(TOOLSDIR) && ${.MAKE.LEVEL} == 0 .for dir in /sbin /bin /usr/sbin /usr/bin PATH:= ${TOOLSDIR}${dir}:${PATH} .endfor .export PATH # Prefer the TOOLSDIR version of the toolchain if present vs the host version. .for var in ${TOOLCHAIN_VARS} _toolchain_bin.${var}= ${TOOLSDIR}${_toolchain_bin_${var}:U/usr/bin/${var:tl}} .if exists(${_toolchain_bin.${var}}) HOST_${var}?= ${_toolchain_bin.${var}} .export HOST_${var} .endif .endfor .endif .for var in ${TOOLCHAIN_VARS} HOST_${var}?= ${_toolchain_bin_${var}:U/usr/bin/${var:tl}} .endfor .if ${MACHINE} == "host" .for var in ${TOOLCHAIN_VARS} ${var}= ${HOST_${var}} .endfor .endif .if ${MACHINE:Nhost:Ncommon} != "" && ${MACHINE} != ${HOST_MACHINE} # cross-building .if !defined(FREEBSD_REVISION) FREEBSD_REVISION!= sed -n '/^REVISION=/{s,.*=,,;s,",,g;p; }' ${SRCTOP}/sys/conf/newvers.sh .export FREEBSD_REVISION .endif CROSS_TARGET_FLAGS= -target ${MACHINE_ARCH}-unknown-freebsd${FREEBSD_REVISION} CFLAGS+= ${CROSS_TARGET_FLAGS} ACFLAGS+= ${CROSS_TARGET_FLAGS} LDFLAGS+= -Wl,-m -Wl,elf_${MACHINE_ARCH}_fbsd .endif META_MODE+= missing-meta=yes .if empty(META_MODE:Mnofilemon) META_MODE+= missing-filemon=yes .endif