freebsd-skq/contrib/bmake/mk/lib.mk
2016-05-20 17:35:39 +00:00

604 lines
16 KiB
Makefile

# $Id: lib.mk,v 1.53 2016/03/22 20:45:14 sjg Exp $
.if !target(__${.PARSEFILE}__)
__${.PARSEFILE}__:
.include <init.mk>
.if ${OBJECT_FMT} == "ELF"
NEED_SOLINKS?= yes
.endif
.if exists(${.CURDIR}/shlib_version)
SHLIB_MAJOR != . ${.CURDIR}/shlib_version ; echo $$major
SHLIB_MINOR != . ${.CURDIR}/shlib_version ; echo $$minor
.endif
print-shlib-major:
.if defined(SHLIB_MAJOR) && ${MK_PIC} != "no"
@echo ${SHLIB_MAJOR}
.else
@false
.endif
print-shlib-minor:
.if defined(SHLIB_MINOR) && ${MK_PIC} != "no"
@echo ${SHLIB_MINOR}
.else
@false
.endif
print-shlib-teeny:
.if defined(SHLIB_TEENY) && ${MK_PIC} != "no"
@echo ${SHLIB_TEENY}
.else
@false
.endif
SHLIB_FULLVERSION ?= ${${SHLIB_MAJOR} ${SHLIB_MINOR} ${SHLIB_TEENY}:L:ts.}
SHLIB_FULLVERSION := ${SHLIB_FULLVERSION}
# add additional suffixes not exported.
# .po is used for profiling object files.
# .So is used for PIC object files.
.SUFFIXES: .out .a .ln .So .po .o .s .S .c .cc .C .m .F .f .r .y .l .cl .p .h
.SUFFIXES: .sh .m4 .m
CFLAGS+= ${COPTS}
# Derrived from NetBSD-1.6
# Set PICFLAGS to cc flags for producing position-independent code,
# if not already set. Includes -DPIC, if required.
# Data-driven table using make variables to control how shared libraries
# are built for different platforms and object formats.
# OBJECT_FMT: currently either "ELF" or "a.out", from <bsd.own.mk>
# SHLIB_SOVERSION: version number to be compiled into a shared library
# via -soname. Usually ${SHLIB_MAJOR} on ELF.
# NetBSD/pmax used to use ${SHLIB_MAJOR}[.${SHLIB_MINOR}
# [.${SHLIB_TEENY}]]
# SHLIB_SHFLAGS: Flags to tell ${LD} to emit shared library.
# with ELF, also set shared-lib version for ld.so.
# SHLIB_LDSTARTFILE: support .o file, call C++ file-level constructors
# SHLIB_LDENDFILE: support .o file, call C++ file-level destructors
# FPICFLAGS: flags for ${FC} to compile .[fF] files to .So objects.
# CPPICFLAGS: flags for ${CPP} to preprocess .[sS] files for ${AS}
# CPICFLAGS: flags for ${CC} to compile .[cC] files to .So objects.
# CAPICFLAGS flags for {$CC} to compiling .[Ss] files
# (usually just ${CPPPICFLAGS} ${CPICFLAGS})
# APICFLAGS: flags for ${AS} to assemble .[sS] to .So objects.
.if ${TARGET_OSNAME} == "NetBSD"
.if ${MACHINE_ARCH} == "alpha"
# Alpha-specific shared library flags
FPICFLAGS ?= -fPIC
CPICFLAGS ?= -fPIC -DPIC
CPPPICFLAGS?= -DPIC
CAPICFLAGS?= ${CPPPICFLAGS} ${CPICFLAGS}
APICFLAGS ?=
.elif ${MACHINE_ARCH} == "mipsel" || ${MACHINE_ARCH} == "mipseb"
# mips-specific shared library flags
# On mips, all libs are compiled with ABIcalls, not just sharedlibs.
MKPICLIB= no
# so turn shlib PIC flags on for ${AS}.
AINC+=-DABICALLS
AFLAGS+= -fPIC
AS+= -KPIC
.elif ${MACHINE_ARCH} == "vax" && ${OBJECT_FMT} == "ELF"
# On the VAX, all object are PIC by default, not just sharedlibs.
MKPICLIB= no
.elif (${MACHINE_ARCH} == "sparc" || ${MACHINE_ARCH} == "sparc64") && \
${OBJECT_FMT} == "ELF"
# If you use -fPIC you need to define BIGPIC to turn on 32-bit
# relocations in asm code
FPICFLAGS ?= -fPIC
CPICFLAGS ?= -fPIC -DPIC
CPPPICFLAGS?= -DPIC -DBIGPIC
CAPICFLAGS?= ${CPPPICFLAGS} ${CPICFLAGS}
APICFLAGS ?= -KPIC
.else
# Platform-independent flags for NetBSD a.out shared libraries
SHLIB_SOVERSION=${SHLIB_FULLVERSION}
SHLIB_SHFLAGS=
FPICFLAGS ?= -fPIC
CPICFLAGS?= -fPIC -DPIC
CPPPICFLAGS?= -DPIC
CAPICFLAGS?= ${CPPPICFLAGS} ${CPICFLAGS}
APICFLAGS?= -k
.endif
# Platform-independent linker flags for ELF shared libraries
.if ${OBJECT_FMT} == "ELF"
SHLIB_SOVERSION= ${SHLIB_MAJOR}
SHLIB_SHFLAGS= -soname lib${LIB}.so.${SHLIB_SOVERSION}
SHLIB_LDSTARTFILE?= /usr/lib/crtbeginS.o
SHLIB_LDENDFILE?= /usr/lib/crtendS.o
.endif
# for compatibility with the following
CC_PIC?= ${CPICFLAGS}
LD_shared=${SHLIB_SHFLAGS}
.endif # NetBSD
.if ${TARGET_OSNAME} == "FreeBSD"
.if ${OBJECT_FMT} == "ELF"
SHLIB_SOVERSION= ${SHLIB_MAJOR}
SHLIB_SHFLAGS= -soname lib${LIB}.so.${SHLIB_SOVERSION}
.else
SHLIB_SHFLAGS= -assert pure-text
.endif
SHLIB_LDSTARTFILE=
SHLIB_LDENDFILE=
CC_PIC?= -fpic
LD_shared=${SHLIB_SHFLAGS}
.endif # FreeBSD
MKPICLIB?= yes
# sys.mk can override these
LD_X?=-X
LD_x?=-x
LD_r?=-r
# Non BSD machines will be using bmake.
.if ${TARGET_OSNAME} == "SunOS"
LD_shared=-assert pure-text
.if ${OBJECT_FMT} == "ELF" || ${MACHINE} == "solaris"
# Solaris
LD_shared=-h lib${LIB}.so.${SHLIB_MAJOR} -G
.endif
.elif ${TARGET_OSNAME} == "HP-UX"
LD_shared=-b
LD_so=sl
DLLIB=
# HPsUX lorder does not grok anything but .o
LD_sobjs=`${LORDER} ${OBJS} | ${TSORT} | sed 's,\.o,.So,'`
LD_pobjs=`${LORDER} ${OBJS} | ${TSORT} | sed 's,\.o,.po,'`
.elif ${TARGET_OSNAME} == "OSF1"
LD_shared= -msym -shared -expect_unresolved '*'
LD_solib= -all lib${LIB}_pic.a
DLLIB=
# lorder does not grok anything but .o
LD_sobjs=`${LORDER} ${OBJS} | ${TSORT} | sed 's,\.o,.So,'`
LD_pobjs=`${LORDER} ${OBJS} | ${TSORT} | sed 's,\.o,.po,'`
AR_cq= -cqs
.elif ${TARGET_OSNAME} == "FreeBSD"
LD_solib= lib${LIB}_pic.a
.elif ${TARGET_OSNAME} == "Linux"
SHLIB_LD = ${CC}
# this is ambiguous of course
LD_shared=-shared -Wl,"-h lib${LIB}.so.${SHLIB_MAJOR}"
LD_solib= -Wl,--whole-archive lib${LIB}_pic.a -Wl,--no-whole-archive
# Linux uses GNU ld, which is a multi-pass linker
# so we don't need to use lorder or tsort
LD_objs = ${OBJS}
LD_pobjs = ${POBJS}
LD_sobjs = ${SOBJS}
.elif ${TARGET_OSNAME} == "Darwin"
SHLIB_LD = ${CC}
SHLIB_INSTALL_VERSION ?= ${SHLIB_MAJOR}
SHLIB_COMPATABILITY_VERSION ?= ${SHLIB_MAJOR}.${SHLIB_MINOR:U0}
SHLIB_COMPATABILITY ?= \
-compatibility_version ${SHLIB_COMPATABILITY_VERSION} \
-current_version ${SHLIB_FULLVERSION}
LD_shared = -dynamiclib \
-flat_namespace -undefined suppress \
-install_name ${LIBDIR}/lib${LIB}.${SHLIB_INSTALL_VERSION}.${LD_solink} \
${SHLIB_COMPATABILITY}
SHLIB_LINKS =
.for v in ${SHLIB_COMPATABILITY_VERSION} ${SHLIB_INSTALL_VERSION}
.if "$v" != "${SHLIB_FULLVERSION}"
SHLIB_LINKS += lib${LIB}.$v.${LD_solink}
.endif
.endfor
.if ${MK_LINKLIB} != "no"
SHLIB_LINKS += lib${LIB}.${LD_solink}
.endif
LD_so = ${SHLIB_FULLVERSION}.dylib
LD_sobjs = ${SOBJS:O:u}
LD_solib = ${LD_sobjs}
SOLIB = ${LD_sobjs}
LD_solink = dylib
.if ${MACHINE_ARCH} == "i386"
PICFLAG ?= -fPIC
.else
PICFLAG ?= -fPIC -fno-common
.endif
RANLIB = :
.endif
SHLIB_LD ?= ${LD}
.if !empty(SHLIB_MAJOR)
.if ${NEED_SOLINKS} && empty(SHLIB_LINKS)
.if ${MK_LINKLIB} != "no"
SHLIB_LINKS = lib${LIB}.${LD_solink}
.endif
.if "${SHLIB_FULLVERSION}" != "${SHLIB_MAJOR}"
SHLIB_LINKS += lib${LIB}.${LD_solink}.${SHLIB_MAJOR}
.endif
.endif
.endif
LIBTOOL?=libtool
LD_shared ?= -Bshareable -Bforcearchive
LD_so ?= so.${SHLIB_FULLVERSION}
LD_solink ?= so
.if empty(LORDER)
LD_objs ?= ${OBJS}
LD_pobjs ?= ${POBJS}
LD_sobjs ?= ${SOBJS}
.else
LD_objs ?= `${LORDER} ${OBJS} | ${TSORT}`
LD_sobjs ?= `${LORDER} ${SOBJS} | ${TSORT}`
LD_pobjs ?= `${LORDER} ${POBJS} | ${TSORT}`
.endif
LD_solib ?= ${LD_sobjs}
AR_cq ?= cq
.if exists(/netbsd) && exists(${DESTDIR}/usr/lib/libdl.so)
DLLIB ?= -ldl
.endif
# some libs have lots of objects, and scanning all .o, .po and .So meta files
# is a waste of time, this tells meta.autodep.mk to just pick one
# (typically .So)
# yes, 42 is a random number.
.if ${MK_DIRDEPS_BUILD} == "yes" && ${SRCS:Uno:[\#]} > 42
OPTIMIZE_OBJECT_META_FILES ?= yes
.endif
.if ${MK_LIBTOOL} == "yes"
# because libtool is so fascist about naming the object files,
# we cannot (yet) build profiled libs
MK_PROFILE=no
_LIBS=lib${LIB}.a
.if exists(${.CURDIR}/shlib_version)
SHLIB_AGE != . ${.CURDIR}/shlib_version ; echo $$age
.endif
.else
# for the normal .a we do not want to strip symbols
.c.o:
${COMPILE.c} ${.IMPSRC}
# for the normal .a we do not want to strip symbols
${CXX_SUFFIXES:%=%.o}:
${COMPILE.cc} ${.IMPSRC}
.S.o .s.o:
@echo ${COMPILE.S} ${CFLAGS:M-[ID]*} ${AINC} ${.IMPSRC}
@${COMPILE.S} ${CFLAGS:M-[ID]*} ${AINC} ${.IMPSRC}
.if (${LD_X} == "")
.c.po:
${COMPILE.c} ${CC_PG} ${PROFFLAGS} ${.IMPSRC} -o ${.TARGET}
${CXX_SUFFIXES:%=%.po}:
${COMPILE.cc} -pg ${.IMPSRC} -o ${.TARGET}
.S.So .s.So:
${COMPILE.S} ${PICFLAG} ${CC_PIC} ${CFLAGS:M-[ID]*} ${AINC} ${.IMPSRC} -o ${.TARGET}
.else
.c.po:
@echo ${COMPILE.c} ${CC_PG} ${PROFFLAGS} ${.IMPSRC} -o ${.TARGET}
@${COMPILE.c} ${CC_PG} ${PROFFLAGS} ${.IMPSRC} -o ${.TARGET}.o
@${LD} ${LD_X} ${LD_r} ${.TARGET}.o -o ${.TARGET}
@rm -f ${.TARGET}.o
${CXX_SUFFIXES:%=%.po}:
@echo ${COMPILE.cc} ${CXX_PG} ${PROFFLAGS} ${.IMPSRC} -o ${.TARGET}
@${COMPILE.cc} ${CXX_PG} ${.IMPSRC} -o ${.TARGET}.o
@${LD} ${LD_X} ${LD_r} ${.TARGET}.o -o ${.TARGET}
@rm -f ${.TARGET}.o
.S.So .s.So:
@echo ${COMPILE.S} ${PICFLAG} ${CC_PIC} ${CFLAGS:M-[ID]*} ${AINC} ${.IMPSRC} -o ${.TARGET}
@${COMPILE.S} ${PICFLAG} ${CC_PIC} ${CFLAGS:M-[ID]*} ${AINC} ${.IMPSRC} -o ${.TARGET}.o
@${LD} ${LD_x} ${LD_r} ${.TARGET}.o -o ${.TARGET}
@rm -f ${.TARGET}.o
.endif
.if (${LD_x} == "")
.c.So:
${COMPILE.c} ${PICFLAG} ${CC_PIC} ${.IMPSRC} -o ${.TARGET}
${CXX_SUFFIXES:%=%.So}:
${COMPILE.cc} ${PICFLAG} ${CC_PIC} ${.IMPSRC} -o ${.TARGET}
.S.po .s.po:
${COMPILE.S} ${PROFFLAGS} ${CFLAGS:M-[ID]*} ${AINC} ${.IMPSRC} -o ${.TARGET}
.else
.c.So:
@echo ${COMPILE.c} ${PICFLAG} ${CC_PIC} ${.IMPSRC} -o ${.TARGET}
@${COMPILE.c} ${PICFLAG} ${CC_PIC} ${.IMPSRC} -o ${.TARGET}.o
@${LD} ${LD_x} ${LD_r} ${.TARGET}.o -o ${.TARGET}
@rm -f ${.TARGET}.o
${CXX_SUFFIXES:%=%.So}:
@echo ${COMPILE.cc} ${PICFLAG} ${CC_PIC} ${.IMPSRC} -o ${.TARGET}
@${COMPILE.cc} ${PICFLAG} ${CC_PIC} ${.IMPSRC} -o ${.TARGET}.o
@${LD} ${LD_x} ${LD_r} ${.TARGET}.o -o ${.TARGET}
@rm -f ${.TARGET}.o
.S.po .s.po:
@echo ${COMPILE.S} ${PROFFLAGS} ${CFLAGS:M-[ID]*} ${AINC} ${.IMPSRC} -o ${.TARGET}
@${COMPILE.S} ${PROFFLAGS} ${CFLAGS:M-[ID]*} ${AINC} ${.IMPSRC} -o ${.TARGET}.o
@${LD} ${LD_X} ${LD_r} ${.TARGET}.o -o ${.TARGET}
@rm -f ${.TARGET}.o
.endif
.endif
.c.ln:
${LINT} ${LINTFLAGS} ${CFLAGS:M-[IDU]*} -i ${.IMPSRC}
.if ${MK_LIBTOOL} != "yes"
.if !defined(PICFLAG)
PICFLAG=-fpic
.endif
_LIBS=
.if ${MK_ARCHIVE} != "no"
_LIBS += lib${LIB}.a
.endif
.if ${MK_PROFILE} != "no"
_LIBS+=lib${LIB}_p.a
POBJS+=${OBJS:.o=.po}
.endif
.if ${MK_PIC} != "no"
.if ${MK_PICLIB} == "no"
SOLIB ?= lib${LIB}.a
.else
SOLIB=lib${LIB}_pic.a
_LIBS+=${SOLIB}
.endif
.if !empty(SHLIB_FULLVERSION)
_LIBS+=lib${LIB}.${LD_so}
.endif
.endif
.if ${MK_LINT} != "no"
_LIBS+=llib-l${LIB}.ln
.endif
# here is where you can define what LIB* are
.-include <libnames.mk>
.if ${MK_DPADD_MK} == "yes"
# lots of cool magic, but might not suit everyone.
.include <dpadd.mk>
.endif
.if !defined(_SKIP_BUILD)
all: prebuild .WAIT ${_LIBS}
# a hook for things that must be done early
prebuild:
.if !defined(.PARSEDIR)
# no-op is the best we can do if not bmake.
.WAIT:
.endif
.endif
all: _SUBDIRUSE
.for s in ${SRCS:N*.h:M*/*}
${.o .So .po .lo:L:@o@${s:T:R}$o@}: $s
.endfor
OBJS+= ${SRCS:T:N*.h:R:S/$/.o/g}
.NOPATH: ${OBJS}
.if ${MK_LIBTOOL} == "yes"
.if ${MK_PIC} == "no"
LT_STATIC=-static
.else
LT_STATIC=
.endif
SHLIB_AGE?=0
# .lo's are created as a side effect
.s.o .S.o .c.o:
${LIBTOOL} --mode=compile ${CC} ${LT_STATIC} ${CFLAGS} ${CPPFLAGS} ${IMPFLAGS} -c ${.IMPSRC}
# can't really do profiled libs with libtool - its too fascist about
# naming the output...
lib${LIB}.a:: ${OBJS}
@rm -f ${.TARGET}
${LIBTOOL} --mode=link ${CC} ${LT_STATIC} -o ${.TARGET:.a=.la} ${OBJS:.o=.lo} -rpath ${SHLIBDIR}:/usr/lib -version-info ${SHLIB_MAJOR}:${SHLIB_MINOR}:${SHLIB_AGE}
@ln .libs/${.TARGET} .
lib${LIB}.${LD_so}:: lib${LIB}.a
@[ -s ${.TARGET}.${SHLIB_AGE} ] || { ln -s .libs/lib${LIB}.${LD_so}* . 2>/dev/null; : }
@[ -s ${.TARGET} ] || ln -s ${.TARGET}.${SHLIB_AGE} ${.TARGET}
.else # MK_LIBTOOL=yes
lib${LIB}.a:: ${OBJS}
@echo building standard ${LIB} library
@rm -f ${.TARGET}
@${AR} ${AR_cq} ${.TARGET} ${LD_objs}
${RANLIB} ${.TARGET}
POBJS+= ${OBJS:.o=.po}
.NOPATH: ${POBJS}
lib${LIB}_p.a:: ${POBJS}
@echo building profiled ${LIB} library
@rm -f ${.TARGET}
@${AR} ${AR_cq} ${.TARGET} ${LD_pobjs}
${RANLIB} ${.TARGET}
SOBJS+= ${OBJS:.o=.So}
.NOPATH: ${SOBJS}
lib${LIB}_pic.a:: ${SOBJS}
@echo building shared object ${LIB} library
@rm -f ${.TARGET}
@${AR} ${AR_cq} ${.TARGET} ${LD_sobjs}
${RANLIB} ${.TARGET}
#SHLIB_LDADD?= ${LDADD}
# bound to be non-portable...
# this is known to work for NetBSD 1.6 and FreeBSD 4.2
lib${LIB}.${LD_so}: ${SOLIB} ${DPADD}
@echo building shared ${LIB} library \(version ${SHLIB_FULLVERSION}\)
@rm -f ${.TARGET}
.if ${TARGET_OSNAME} == "NetBSD" || ${TARGET_OSNAME} == "FreeBSD"
.if ${OBJECT_FMT} == "ELF"
${SHLIB_LD} -x -shared ${SHLIB_SHFLAGS} -o ${.TARGET} \
${SHLIB_LDSTARTFILE} \
--whole-archive ${SOLIB} --no-whole-archive ${SHLIB_LDADD} \
${SHLIB_LDENDFILE}
.else
${SHLIB_LD} ${LD_x} ${LD_shared} \
-o ${.TARGET} ${SOLIB} ${SHLIB_LDADD}
.endif
.else
${SHLIB_LD} -o ${.TARGET} ${LD_shared} ${LD_solib} ${DLLIB} ${SHLIB_LDADD}
.endif
.endif
.if !empty(SHLIB_LINKS)
rm -f ${SHLIB_LINKS}; ${SHLIB_LINKS:O:u:@x@ln -s ${.TARGET} $x;@}
.endif
LOBJS+= ${LSRCS:.c=.ln} ${SRCS:M*.c:.c=.ln}
.NOPATH: ${LOBJS}
LLIBS?= -lc
llib-l${LIB}.ln: ${LOBJS}
@echo building llib-l${LIB}.ln
@rm -f llib-l${LIB}.ln
@${LINT} -C${LIB} ${LOBJS} ${LLIBS}
.if !target(clean)
cleanlib: .PHONY
rm -f a.out [Ee]rrs mklog core *.core ${CLEANFILES}
rm -f lib${LIB}.a ${OBJS}
rm -f lib${LIB}_p.a ${POBJS}
rm -f lib${LIB}_pic.a lib${LIB}.so.*.* ${SOBJS}
rm -f llib-l${LIB}.ln ${LOBJS}
.if !empty(SHLIB_LINKS)
rm -f ${SHLIB_LINKS}
.endif
clean: _SUBDIRUSE cleanlib
cleandir: _SUBDIRUSE cleanlib
.else
cleandir: _SUBDIRUSE clean
.endif
.if defined(SRCS) && (!defined(MKDEP) || ${MKDEP} != autodep)
afterdepend: .depend
@(TMP=/tmp/_depend$$$$; \
sed -e 's/^\([^\.]*\).o[ ]*:/\1.o \1.po \1.So \1.ln:/' \
< .depend > $$TMP; \
mv $$TMP .depend)
.endif
.if !target(install)
.if !target(beforeinstall)
beforeinstall:
.endif
.if !empty(LIBOWN)
LIB_INSTALL_OWN ?= -o ${LIBOWN} -g ${LIBGRP}
.endif
.include <links.mk>
.if !target(realinstall)
realinstall: libinstall
.endif
.if !target(libinstall)
libinstall:
[ -d ${DESTDIR}/${LIBDIR} ] || \
${INSTALL} -d ${LIB_INSTALL_OWN} -m 775 ${DESTDIR}${LIBDIR}
.if ${MK_ARCHIVE} != "no"
${INSTALL} ${COPY} ${LIB_INSTALL_OWN} -m 600 lib${LIB}.a \
${DESTDIR}${LIBDIR}
${RANLIB} ${DESTDIR}${LIBDIR}/lib${LIB}.a
chmod ${LIBMODE} ${DESTDIR}${LIBDIR}/lib${LIB}.a
.endif
.if ${MK_PROFILE} != "no"
${INSTALL} ${COPY} ${LIB_INSTALL_OWN} -m 600 \
lib${LIB}_p.a ${DESTDIR}${LIBDIR}
${RANLIB} ${DESTDIR}${LIBDIR}/lib${LIB}_p.a
chmod ${LIBMODE} ${DESTDIR}${LIBDIR}/lib${LIB}_p.a
.endif
.if ${MK_PIC} != "no"
.if ${MK_PICLIB} != "no"
${INSTALL} ${COPY} ${LIB_INSTALL_OWN} -m 600 \
lib${LIB}_pic.a ${DESTDIR}${LIBDIR}
${RANLIB} ${DESTDIR}${LIBDIR}/lib${LIB}_pic.a
chmod ${LIBMODE} ${DESTDIR}${LIBDIR}/lib${LIB}_pic.a
.endif
.if !empty(SHLIB_MAJOR)
${INSTALL} ${COPY} ${LIB_INSTALL_OWN} -m ${LIBMODE} \
lib${LIB}.${LD_so} ${DESTDIR}${LIBDIR}
.if !empty(SHLIB_LINKS)
(cd ${DESTDIR}${LIBDIR} && { rm -f ${SHLIB_LINKS}; ${SHLIB_LINKS:O:u:@x@ln -s lib${LIB}.${LD_so} $x;@} })
.endif
.endif
.endif
.if ${MK_LINT} != "no" && ${MK_LINKLIB} != "no" && !empty(LOBJS)
${INSTALL} ${COPY} ${LIB_INSTALL_OWN} -m ${LIBMODE} \
llib-l${LIB}.ln ${DESTDIR}${LINTLIBDIR}
.endif
.if defined(LINKS) && !empty(LINKS)
@set ${LINKS}; ${_LINKS_SCRIPT}
.endif
.endif
install: maninstall _SUBDIRUSE
maninstall: afterinstall
afterinstall: realinstall
realinstall: beforeinstall
.endif
.if ${MK_MAN} != "no"
.include <man.mk>
.endif
.if ${MK_NLS} != "no"
.include <nls.mk>
.endif
.include <obj.mk>
.include <inc.mk>
.include <dep.mk>
.include <subdir.mk>
.endif
# during building we usually need/want to install libs somewhere central
# note that we do NOT ch{own,grp} as that would likely fail at this point.
# otherwise it is the same as realinstall
# Note that we don't need this when using dpadd.mk
.libinstall: ${_LIBS}
test -d ${DESTDIR}${LIBDIR} || ${INSTALL} -d -m775 ${DESTDIR}${LIBDIR}
.for _lib in ${_LIBS:M*.a}
${INSTALL} ${COPY} -m 644 ${_lib} ${DESTDIR}${LIBDIR}
${RANLIB} ${DESTDIR}${LIBDIR}/${_lib}
.endfor
.for _lib in ${_LIBS:M*.${LD_solink}*:O:u}
${INSTALL} ${COPY} -m ${LIBMODE} ${_lib} ${DESTDIR}${LIBDIR}
.if !empty(SHLIB_LINKS)
(cd ${DESTDIR}${LIBDIR} && { ${SHLIB_LINKS:O:u:@x@ln -sf ${_lib} $x;@}; })
.endif
.endfor
@touch ${.TARGET}
.include <final.mk>
.endif