glibc/sysdeps/mach/hurd/Makefile
Roland McGrath 3635e76aab 1999-03-26 Mark Kettenis <kettenis@gnu.org>
* sysdeps/mach/hurd/Makefile: Only install libc_p.a linker script 
if we build the profiled library.
1999-03-26 08:33:42 +00:00

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# Copyright (C) 1993, 94, 95, 96, 97, 98, 99 Free Software Foundation, Inc.
# This file is part of the GNU C Library.
# The GNU C Library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Library General Public License
# as published by the Free Software Foundation; either version 2 of
# the License, or (at your option) any later version.
# The GNU C Library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Library General Public License for more details.
# You should have received a copy of the GNU Library General Public
# License along with the GNU C Library; see the file COPYING.LIB. If not,
# write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
# Boston, MA 02111-1307, USA.
ifdef in-Makerules
# Look for header files in hurd/ under the top-level library source directory.
# Look for generated header files where they get created.
includes += -I$(..)hurd -I$(common-objpfx)hurd/
# We use the style `if (err = call(...))' a lot in the Hurd code,
# where we have a lot of functions that return zero or an errno code.
+cflags += -Wno-parentheses
# Do not use any assembly code from sysdeps/unix (and subdirectories).
# This bypasses all the system call stubs and uses any existing posix or
# generic C files instead.
inhibit-sysdep-asm += unix*
inhibit-unix-syscalls = yes
# Don't try to generate anything from the installed Unix system and its
# libraries. That is only of use when building for a Unix system, so as to
# be compatible with some existing binaries for that system.
inhibit-glue = yes
ifeq (,$(filter mach hurd,$(subdir)))
# Subdirectories other than hurd/ might use the generated Hurd headers.
# So make sure we get a chance to run in hurd/ to make them before all else.
# (But we don't want to do this in mach/, because hurd/ needs some things
# there, and we know mach/ doesn't need anything from hurd/.)
hurd-objpfx = $(common-objpfx)hurd/
# These are all the generated headers that <hurd.h> includes.
before-compile += $(patsubst %,$(hurd-objpfx)hurd/%.h,auth io fs process)
$(patsubst %,$(hurd-objpfx)hurd/%.%,auth io fs process):
$(MAKE) -C $(..)hurd before-compile no_deps=t
endif
# Hurd profil.c includes this file, so give a rule to make it.
ifeq ($(subdir),gmon)
$(common-objpfx)hurd/../mach/RPC_task_get_sampled_pcs.c:
$(MAKE) -C $(..)mach before-compile no_deps=t
endif
# Generate bits/errno.h from the section of the manual that lists all the errno
# codes.
errno.texinfo = $(..)manual/errno.texi
hurd = $(..)sysdeps/mach/hurd
define mach-errno-h
($(foreach h,mach/message.h \
mach/kern_return.h \
mach/mig_errors.h \
device/device_types.h,\
echo '#include <$h>';\
))
endef
# We use the compiler to generate a list of absolute file names for
# the headers we want to search for Mach error codes, listed above (and
# incidentally, all other headers those include).
-include $(common-objpfx)errnos.d
$(common-objpfx)errnos.d: $(mach-errnos-deps)
$(mach-errno-h) | \
$(CC) $(CPPFLAGS) -M -x c - | \
sed $(sed-remove-objpfx) -e 's,- *:,mach-errnos-deps :=,' \
-e 's,\.\./,$(..),g' > $@t
mv -f $@t $@
$(hurd)/bits/errno.h: $(common-objpfx)stamp-errnos ;
$(common-objpfx)stamp-errnos: $(hurd)/errnos.awk $(errno.texinfo) \
$(mach-errnos-deps) $(common-objpfx)errnos.d
$(AWK) -f $^ > $(hurd)/bits/errno.h-tmp
# Make it unwritable so noone will edit it by mistake.
-chmod a-w $(hurd)/bits/errno.h-tmp
$(move-if-change) $(hurd)/bits/errno.h-tmp $(hurd)/bits/errno.h
ifeq ($(with-cvs),yes)
test ! -d $(hurd)/CVS || \
(cd $(hurd) && cvs commit -m'Regenerated from $^' bits/errno.h)
endif
touch $@
common-generated += errnos.d stamp-errnos
# We install the real libc.a as libcrt.a and as libc.a we install a linker
# script which does -( -lcrt -lmachuser -lhurduser -).
libc-name = crt
ifeq (,$(subdir))
install-others += $(inst_libdir)/libc.a
$(inst_libdir)/libc.a: $(hurd)/libc-ldscript $(+force); $(do-install)
ifeq (yes,$(build-profile))
install-others += $(inst_libdir)/libc_p.a
$(inst_libdir)/libc_p.a: $(hurd)/libc_p-ldscript $(+force); $(do-install)
endif
endif
# Make sure these are used to build the libc.so shared object too. There
# is a circular dependency between each of these shared objects and libc
# (many high-level libc functions call stubs, stubs call low-level libc
# functions like memcpy and mach_msg). This works out fine at run time
# (all the objects are loaded before resolving their symbols, so these
# interdependencies are fine). But to create the shared objects we must
# link them one at a time; since each needs one or both of the others to
# produce its DT_NEEDED entries and to assign its undefined symbols the
# right symbol versions, we can't do any of them before the others! To
# get around this, we link each lib*user.so shared object twice. First,
# we link an object without reference to libc.so (since we haven't linked
# libc.so yet), so it lacks a DT_NEEDED record for the libc soname it
# depends on, and its undefined symbol references lack the symbol version
# assignments they should have. We will use this shared object solely to
# link libc.so against it; that gives libc.so the proper DT_NEEDED record,
# and symbol versions assignments (if the lib*user.so object is using them).
# Finally we link a second version of the same lib*user.so shared object,
# this time linked normally against libc so it gets a proper DT_NEEDED
# record and symbol version set; this one can be installed for run-time use.
rpcuserlibs := $(common-objpfx)mach/libmachuser.so \
$(common-objpfx)hurd/libhurduser.so
link-rpcuserlibs := $(rpcuserlibs:%user.so=%user-link.so)
$(common-objpfx)libc.so: $(link-rpcuserlibs)
rpath-dirs += mach hurd
# Make sure the `lib' pass builds the dummy shared objects so
# we can link libc against them.
ifeq (mach,$(subdir))
lib-noranlib: $(common-objpfx)mach/libmachuser-link.so
endif
ifeq (hurd,$(subdir))
lib-noranlib: $(common-objpfx)hurd/libhurduser-link.so
endif
$(link-rpcuserlibs): %-link.so: %_pic.a
$(build-module) -nostdlib -Wl,-soname=$(*F).so$($(*F).so-version)
# And get them into the libc.so ldscript.
$(inst_libdir)/libc.so: $(rpcuserlibs)
# The RPC stubs from these libraries are needed in building the dynamic
# linker, too. It must be self-contained, so we link the needed PIC
# objects directly into the shared object.
ifeq (elf,$(subdir))
$(objpfx)librtld.os: $(rpcuserlibs:.so=_pic.a)
CFLAGS-dl-load.c = -DEXTERNAL_MAP_FROM_FD
endif
# We need these libs to link static programs in the libc source tree, too.
ifeq (yes,$(build-static))
link-libc-static := -Wl,-\( \
$(patsubst %,$(common-objpfx)%.a,\
libc mach/libmachuser hurd/libhurduser) \
$(gnulib) -Wl,-\)
else
ifeq (yes,$(build-shared))
# We can try to link the programs with lib*_pic.a...
link-libc-static := $(link-libc) -Wl,-\( \
$(patsubst %,$(common-objpfx)%_pic.a,\
libc mach/libmachuser hurd/libhurduser) \
$(gnulib) -Wl,-\)
endif
endif
ifeq (hurd, $(subdir))
sysdep_routines += cthreads
endif
endif # in-Makerules