# Generic configuration for Hurd compilation # Directory makefiles should set the variable makemode to either # `server' if they compile and install a single program for /hurd # `utility' if they compile and install a single program for /bin # `servers' if they compile and install multiple programs for /hurd # `utilities' if they compile and install multiple programs for /bin # `library' if they compile and install a library # `misc' if they do none of those # Every makefile should define # SRCS (all actual source code) # LCLHDRS (all source headers in this directory [NOT MiG created]) # OBJS (all .o files used to produce some target). # HURDLIBS (all Hurd libraries used; with no directory name or `lib' attached) # For types `server' and `utility' an automatic dependency will be # written for these, and type `library' will include a .so dependency. # Types `servers' and `utilities'; you have to do it yourself. # Types `server' and `utility' should define # target (the name of the program built) # OTHERLIBS (all libraries used) # Types `servers' and `utilities' should define # targets (the names of all the programs built) # special-targets (targets which should not be built the normal way # and have their own rules) # Type `library' should define # libname (the name of the library, without .a.) # installhdrs (header files that should be installed in /include) # installhdrsubdir (the subdirectory they should go in, default `hurd') # Put this first so it's the default all: # Figure out how to locate the parent directory from here. ifeq (.,$(dir)) .. = else .. = ../ endif ifndef srcdir # We are building in the source directory itself. srcdir = . ifeq (.,$(dir)) top_srcdir = . else top_srcdir = .. endif endif # Include the configure-generated file of parameters. # This sets up variables for build tools and installation directories. include $(..)config.make # Test build options set by configure. ifeq (no,$(build-profiled)) no_prof = t endif # Flags for compilation. # It is important to have this inclusion first; that picks up our # library header files locally rather than from installed copies. # Append to any value set by the specific Makefile or by configure. ifeq ($(srcdir),.) srcdirinc= else srcdirinc=-I$(srcdir) endif ifeq ($(top_srcdir),..) top_srcdirinc= else top_srcdirinc=-I$(top_srcdir) endif CPPFLAGS += -I. $(srcdirinc) -I.. $(top_srcdirinc) -I$(top_srcdir)/include -D_GNU_SOURCE $($*-CPPFLAGS) CFLAGS += -Wall -g -O3 # More useful version of HURDLIBS library_deps=$(foreach lib,$(HURDLIBS),$(..)lib$(lib)/lib$(lib).so) # Local programs: MKINSTALLDIRS = $(top_srcdir)/mkinstalldirs # Decode makemode: ifeq ($(makemode),server) doinst := one installationdir := $(hurddir) clean := yes cleantarg := $(target) endif ifeq ($(makemode),utility) doinst := one ifndef installationdir installationdir := $(bindir) endif clean := yes cleantarg := $(target) endif ifeq ($(makemode),servers) doinst := many installationdir := $(hurddir) clean := yes cleantarg := $(targets) endif ifeq ($(makemode),utilities) doinst := many ifndef installationdir installationdir := $(bindir) endif clean := yes cleantarg := $(targets) endif ifeq ($(makemode),library) clean := yes cleantarg := $(libname).a $(libname).so $(libname)_p.a linktarg := $(libname).so ifndef installhdrsubdir installhdrsubdir = hurd endif ifndef targets ifeq ($(no_prof),t) targets = $(libname).a $(libname).so else targets = $(libname).a $(libname).so $(libname)_p.a endif endif endif ifeq ($(linktarg),) linktarg:=$(cleantarg) endif # This is a hack to give all hurd utilities a default bug-reporting # address (defined in libhurdbugaddr/bugaddr.c). BUGADDR = $(..)libhurdbugaddr/libhurdbugaddr.a BUGADDR_REF = -uargp_program_bug_address # Standard targets .PHONY: all install libs relink clean objs # Just build all the object files. objs: $(OBJS) ifneq ($(no_prof),t) objs: $(OBJS:%.o=%_p.o) endif ifeq ($(makemode),library) ifneq ($(no_pic),t) objs: $(OBJS:%.o=%_pic.o) endif endif # Installation ifeq ($(doinst),one) all: $(target) install: $(installationdir) $(installationdir)/$(target) $(installationdir)/$(target): $(target) $(INSTALL_PROGRAM) $(INSTALL-$<-ops) $< $@ endif ifeq ($(doinst),many) all: $(targets) install: $(installationdir) $(addprefix $(installationdir)/,$(targets)) $(addprefix $(installationdir)/,$(targets)): $(installationdir)/%: % $(INSTALL_PROGRAM) $(INSTALL-$<-ops) $< $@ endif ifeq ($(makemode),library) all: libs install libs: add-to-librecord add-to-librecord: $(targets) install: $(libdir) $(includedir)/$(installhdrsubdir) $(addprefix $(libdir)/,$(targets)) $(addprefix $(includedir)/$(installhdrsubdir)/,$(installhdrs)) install-headers: $(includedir)/$(installhdrsubdir) $(addprefix $(includedir)/$(installhdrsubdir)/,$(installhdrs)) $(includedir)/$(installhdrsubdir): $(includedir) @$(MKINSTALLDIRS) $@ # Arrange to have the headers installed locally anytime we build the library. # Not quite perfect, but at least it does end up getting done; and once done # it never needs to be repeated for a particular header. ifeq ($(installhdrsubdir),.) INSTALLED_LOCAL_HEADERS=$(addprefix $(top_srcdir)/include/,$(installhdrs)) $(INSTALLED_LOCAL_HEADERS): $(top_srcdir)/include/%: ln -s ../$(dir)/$* $@ else INSTALLED_LOCAL_HEADERS=$(addprefix $(top_srcdir)/$(installhdrsubdir)/,$(installhdrs)) $(INSTALLED_LOCAL_HEADERS): $(top_srcdir)/$(installhdrsubdir)/%: ln -s ../$(dir)/$* $@ endif libs: $(INSTALLED_LOCAL_HEADERS) $(libdir)/$(libname)_p.a: $(libname)_p.a $(INSTALL_DATA) $(libname)_p.a $(libdir)/$(libname)_p.a $(RANLIB) $(libdir)/$(libname)_p.a $(libdir)/$(libname).a: $(libname).a $(INSTALL_DATA) $(libname).a $(libdir)/$(libname).a $(RANLIB) $(libdir)/$(libname).a $(libdir)/$(libname).so: $(libname).so $(INSTALL_DATA) $(libname).so $(libdir)/$(libname).so $(addprefix $(includedir)/$(installhdrsubdir)/,$(installhdrs)): $(includedir)/$(installhdrsubdir)/%: % $(INSTALL_DATA) $< $@ endif # Provide default. install: install-headers: # Making installation directories $(installationdirlist): %: @$(MKINSTALLDIRS) $@ # Building the target ifeq ($(doinst),many) target = $(filter-out $(special-targets),$(targets)) endif ifeq ($(doinst),one) $(target): $(OBJS) $(OTHERLIBS) $(library_deps) endif # Determine which sort of library we should link against from whether -static # is used in LDFLAGS. __libext=.so __libext-static=.a _libext=$(__libext$(findstring -static,$(LDFLAGS) $($*-LDFLAGS))) libsubst=$(basename ${lib})$(_libext) libsubst-override=${$(notdir $(basename ${lib}))-libsubst} _libsubst=${libsubst$(patsubst %,-override,${libsubst-override})} # Direct the linker where to find shared objects specified in the # dependencies of other shared objects it encounters. rpath := -Wl,-rpath-link=.:$(subst $. ,:,$(dir $(wildcard ../lib*/lib*.so))) # Main rule to link executables # # (prof-depend is a special kind of run not normally used; see the rules # below for %.prof_d which uses it.) ifeq ($(prof-depend),) $(target): %$(target-suffix): $(BUGADDR) $(CC) $(rpath) $(CFLAGS) $($*-CFLAGS) $(LDFLAGS) $($*-LDFLAGS) $(BUGADDR_REF) \ -o $@ \ '-Wl,-(' $(filter %.o,$^) \ $(foreach lib,$(filter-out %.o,$+),${_libsubst}) $($*-LDLIBS) $(LDLIBS) \ '-Wl,-)' endif # Just like above, but tell how to make .prof versions of programs. $(addsuffix .prof,$(target)): %$(target-suffix).prof: $(BUGADDR) $(CC) -pg $(CFLAGS) $($*-CFLAGS) $(LDFLAGS) $($*-LDFLAGS) \ $(BUGADDR_REF) -static \ -o $@ \ '-Wl,-(' $^ $($*-LDLIBS) $(LDLIBS) \ '-Wl,-)' ifeq ($(makemode),library) $(libname).a: $(OBJS) rm -f $(libname).a $(AR) r $@ $^ $(RANLIB) $@ $(libname)_p.a: $(patsubst %.o,%_p.o,$(OBJS)) rm -f $(libname)_p.a $(AR) r $@ $^ $(RANLIB) $@ $(libname).so: $(patsubst %.o,%_pic.o,$(OBJS)) $(library_deps) $(CC) -shared -Wl,-soname=$(libname).so -o $(libname).so \ $(rpath) $(CFLAGS) $(LDFLAGS) $($@-LDFLAGS) $^ endif # Providing directory dependencies ifneq ($(makemode),library) hurd-bug-addr-dir-dep = libhurdbugaddr endif directory-depend: $(..)$(dir).d $(..)$(dir).d: $(srcdir)/Makefile rm -f $@ echo $(dir): $(hurd-bug-addr-dir-dep) $(addprefix lib,$(HURDLIBS)) > $@ # Making a snapshot distfiles = Makefile ChangeLog $(SRCS) $(LCLHDRS) $(DIST_FILES) lndist: $(distfiles) $(top_srcdir)/hurd-snap/$(dir) FORCE ln $(addprefix $(srcdir)/,$(distfiles)) $(top_srcdir)/hurd-snap/$(dir) ifeq ($(dir),.) $(top_srcdir)/hurd-snap/$(dir): else $(top_srcdir)/hurd-snap/$(dir): mkdir $@ endif # TAGS files ifneq ($(dir),.) DEP_SRCS = sed -e 's/^.*://' -e 's/ \\$$//' | tr ' ' '\012'| \ sed -n -e 's@^$(srcdir)@&@p' -e 's@^[^/]@&@p' | sort -ur TAGS: $(OBJS:.o=.d) $(OTHERTAGS) cat $(OBJS:.o=.d) | $(DEP_SRCS) | etags -o $@ - $(OTHERTAGS) endif # Cleaning ifeq ($(clean),yes) clean: rm -f *.d *.*_d *.o *Server.c *User.c *_S.h *_U.h $(cleantarg) relink: rm -f $(linktarg) endif clean: relink: # Subdependencies # We record which libraries have been built in this run in the file # $(librecord). That file contains a series of lines like # `../libfoo/libfoo.a ../libfoo/libfoo.so: ; /bin/true' # that serve to inhibit the pattern rule which follows from doing anything. # Above, when we make `libs' in library directories, we always append # to $(librecord), so that future make invocations don't bother repeating # the effort. # if this is the first level, then set librecord. Otherwise, read it in. #ifeq ($(MAKELEVEL),0) #librecord:=/tmp/hurd-make-$(shell echo $$$$) #export librecord #else #include $(librecord) #endif # How to create it. #$(librecord): # touch $(librecord) # `libs' target depends on this. #add-to-librecord: # echo $(addprefix ../$(dir)/,$(targets)) : \; /bin/true >> $(librecord) # Building libraries from other directories. We force both libraries to be # built if either is, because it will use the appropriate one even if the other # is specified in someone's dependency list. #../%.a ../%.so: FORCE # $(MAKE) -C $(dir $@) libs # Tell make where to find other -l libraries that we use vpath libutil.% $(libdir)/ # Default rules to build PIC object files. %_pic.o: %.c $(COMPILE.c) $< -DPIC -fPIC -o $@ %_pic.o: %.S $(COMPILE.S) $< -DPIC -o $@ # Default rules to build profiled object files. %_p.o: %.c $(COMPILE.c) $< -DPROF -pg -o $@ %_p.o: %.S $(COMPILE.S) $< -DPROF -o $@ # How to build RPC stubs # User settable variables: # MIGSFLAGS flags to CPP when building server stubs and headers # foo-MIGSFLAGS same, but only for interface `foo' # MIGCOMSFLAGS flags to MiG when building server stubs and headers # foo-MIGCOMSFLAGS same, but only for interface `foo' # MIGUFLAGS flags to CPP when building user stubs and headers # foo-MIGUFLAGS same, but only for interface `foo' # MIGCOMUFLAGS flags to MiG when building user stubs and headers # foo-MIGCOMUFLAGS same, but only for interface `foo' # CPPFLAGS flags to CPP # Implicit rules for building server and user stubs from mig .defs files. %_S.h %Server.c: %.defs $(CPP) $(CPPFLAGS) $(MIGSFLAGS) $($*-MIGSFLAGS) -DSERVERPREFIX=S_ $< \ | $(MIGCOM) $(MIGCOMSFLAGS) $($*-MIGCOMSFLAGS) \ -sheader $*_S.h -server $*Server.c \ -user /dev/null -header /dev/null %_U.h %User.c: %.defs $(CPP) $(CPPFLAGS) $(MIGUFLAGS) $($*-MIGUFLAGS) $< \ | $(MIGCOM) $(MIGCOMUFLAGS) $($*-MIGCOMUFLAGS) \ -user $*User.c -server /dev/null -header $*_U.h # Where to find .defs files. vpath %.defs $(top_srcdir)/hurd # These we want to find in the libc include directory... mach_defs_names = bootstrap default_pager default_pager_helper exc mach mach4 \ mach_host mach_norma mach_port mach_timer_reply memory_object \ memory_object_default norma_task notify device_defs_names = dev_forward device device_reply device_request mach_defs = $(addsuffix .defs,$(mach_defs_names)) device_defs = $(addsuffix .defs,$(device_defs_names)) $(mach_defs): %.defs: echo '#include ' > $@ $(device_defs): %.defs: echo '#include ' > $@ FORCE: # How to build automatic dependencies # Don't include dependencies if $(no_deps) is set; the master makefile # does this for clean and other such targets that don't need # dependencies. That then avoids rebuilding dependencies. ifneq ($(no_deps),t) # For each file generated by MiG we need a .d file. # These lines assume that every Makefile that uses a foo_S.h or foo_U.h file # also mentions the associated fooServer.o or fooUser.o file. -include $(subst Server.o,.migs_d,$(filter %Server.o,$(OBJS))) /dev/null -include $(subst User.o,.migu_d,$(filter %User.o,$(OBJS))) /dev/null -include $(subst Server.o,.migsh_d,$(filter %Server.o,$(OBJS))) /dev/null -include $(subst User.o,.miguh_d,$(filter %User.o,$(OBJS))) /dev/null ifneq ($(makemode),library) ifneq ($(prof-depend),t) ifneq ($(no_prof),t) -include $(addsuffix .prof_d,$(target)) /dev/null endif endif endif # For each .o file we need a .d file. -include $(subst .o,.d,$(filter %.o,$(OBJS))) /dev/null endif # Here is how to build those dependency files # Dependencies for fooServer.c files. %.migs_d: %.defs (set -e; $(CPP) $(CPPFLAGS) $(MIGSFLAGS) $($*-MIGSFLAGS) \ -DSERVERPREFIX=S_ -M -MG $< | \ sed -e 's/\.defs\.o:/Server\.c $@:/' > $@) # Dependencies for fooUser.c files. %.migu_d: %.defs (set -e; $(CPP) $(CPPFLAGS) $(MIGUFLAGS) $($*-MIGUFLAGS) \ -M -MG $< | \ sed -e 's/\.defs\.o:/User\.c $@:/' > $@) # The associated .h files are build by the same CCP, so a simple massaging # of the previous two will work. %.migsh_d: %.migs_d sed -e 's/Server\.c/_S\.h/' -e 's/migs_d/migsh_d/' < $< > $@ %.miguh_d: %.migu_d sed -e 's/User\.c/_U\.h/' -e 's/migu_d/miguh_d/' < $< > $@ %.prof_d: $(srcdir)/Makefile $(MAKE) $* prof-depend=t ifeq ($(prof-depend),t) $(target): %: FORCE rm -f $@.prof_d echo $@.prof: $(subst .so,_p.a,$(subst .o,_p.o,$(filter-out FORCE,$+))) > $@.prof_d endif define make-deps set -e; $(CC) $(CFLAGS) $(CPPFLAGS) -M -MG $< | \ sed > $@.new -e 's/$*\.o:/$*.o $*_pic.o $*_p.o $@:/' \ -e 's% [^ ]*/gcc-lib/[^ ]*\.h%%g' mv -f $@.new $@ endef # Here is how to make .d files from .c files %.d: %.c; $(make-deps) # Here is how to make .d files from .S files %.d: %.S; $(make-deps) # .s files don't go through the preprocessor, so we do this # This rule must come *after* the genuine ones above, so that # make doesn't build a .s file and then make an empty dependency # list. %.d: %.s echo '$*.o: $<' > $@ # Rule to make executable shell scripts from .sh files. %: %.sh $(top_srcdir)/sh-version.sed sed -f $(top_srcdir)/sh-version.sed < $< > $@ chmod +x $@