freeswitch/libs/xmlrpc-c/config.mk.in

337 lines
12 KiB
Makefile

# config.mk is generated by 'configure' using config.mk.in
# as a template and information that 'configure' gathers from the build
# system and from user options.
# config.mk should someday replace most of the other files that
# 'configure' generates, thus simplifying development and customization.
# config.mk is intended to contain information specific to the
# particular build environment or user build choices.
# Furthermore, most of the logic in 'configure', and thus 'configure.in',
# should go into the make files to simplify the build. config.mk
# should just pass raw configure variables through to the make file.
# Tokens of the form @TOKEN@ in the template file get replaced by
# 'configure' with the values of variables of the same name within
# 'configure', because of a AC_SUBST(TOKEN) statement in the
# 'configure.in' from which 'configure' was built.
# Here are the options the user chose on 'configure':
ENABLE_ABYSS_SERVER = @ENABLE_ABYSS_SERVER@
ENABLE_ABYSS_THREADS = @ENABLE_ABYSS_THREADS@
ENABLE_CPLUSPLUS = @ENABLE_CPLUSPLUS@
ENABLE_CGI_SERVER = @ENABLE_CGI_SERVER@
ENABLE_LIBXML2_BACKEND = @ENABLE_LIBXML2_BACKEND@
MUST_BUILD_WININET_CLIENT = @MUST_BUILD_WININET_CLIENT@
MUST_BUILD_CURL_CLIENT = @MUST_BUILD_CURL_CLIENT@
MUST_BUILD_LIBWWW_CLIENT = @MUST_BUILD_LIBWWW_CLIENT@
LSOCKET = @LSOCKET@
WININET_LDADD = @WININET_LDADD@
WININET_RPATH = @WININET_RPATH@
WININET_WL_RPATH = @WININET_WL_RPATH@
CURL_LDADD = @CURL_LDADD@
CURL_RPATH = @CURL_RPATH@
CURL_WL_RPATH = @CURL_WL_RPATH@
LIBWWW_LDADD = @LIBWWW_LDADD@
LIBWWW_RPATH = @LIBWWW_RPATH@
LIBWWW_WL_RPATH = @LIBWWW_WL_RPATH@
FEATURE_LIST = @FEATURE_LIST@
ABS_SRCDIR = @abs_srcdir@
PREFIX = @prefix@
HAVE_WCHAR_H_DEFINE = @HAVE_WCHAR_H_DEFINE@
# Stuff 'configure' figured out about our build platform:
SHELL = @SHELL@
CC = @CC@
CXX = @CXX@
CCLD = $(CC)
CXXLD = $(CXX)
AR = ar
RANLIB = ranlib
LN_S = ln -s
INSTALL = $(SRCDIR)/install-sh
C_COMPILER_GNU = @C_COMPILER_GNU@
CXX_COMPILER_GNU = @CXX_COMPILER_GNU@
# Stuff 'configure' figured out via AC_CANONICAL_HOST macro in configure.in
# and config.guess program and 'configure' command options:
# HOST_OS names the operating system on which Xmlrpc-c is to run.
# E.g. "linux-gnu".
HOST_OS = @host_os@
###############################################################################
MUST_BUILD_CLIENT = no
ifeq ($(MUST_BUILD_WININET_CLIENT),yes)
MUST_BUILD_CLIENT = yes
endif
ifeq ($(MUST_BUILD_CURL_CLIENT),yes)
MUST_BUILD_CLIENT = yes
endif
ifeq ($(MUST_BUILD_LIBWWW_CLIENT),yes)
MUST_BUILD_CLIENT = yes
endif
##############################################################################
# SHARED LIBRARY STUFF
##############################################################################
# Shared libraries are very difficult, because how you build and use
# them varies greatly from one platform to the next.
# First, we break down shared library schemes into a few major types,
# and indicate the type by SHARED_LIB_TYPE.
# We also have a bunch of other make variables that reflect the different
# ways we have to build on and for different platforms:
# CFLAGS_SHLIB is a set of flags needed to compile a module which will
# become part of a shared library.
# On older systems, you have to make shared libraries out of position
# independent code, so you need -fpic or -fPIC here. (The rule is: if
# -fpic works, use it. If it bombs, go to -fPIC). On newer systems,
# it isn't necessary, but can save real memory at the expense of
# execution speed. Without position independent code, the library
# loader may have to patch addresses into the executable text. On an
# older system, this would cause a program crash because the loader
# would be writing into read-only shared memory. But on newer
# systems, the system silently creates a private mapping of the page
# or segment being modified (the "copy on write" phenomenon). So it
# needs its own private real page frame.
# We have seen -fPIC required on IA64 and AMD64 machines (GNU
# compiler/linker). Build-time linking fails without it. I don't
# know why -- history seems to be repeating itself. 2005.02.23.
# SHLIB_CLIB is the link option to include the C library in a shared library,
# normally "-lc". On typical systems, this serves no purpose. On some,
# though, it causes information about which C library to use to be recorded
# in the shared library and thus choose the correct library among several or
# avoid using an incompatible one. But on some systems, the link fails.
# On 2002.09.30, "John H. DuBois III" <spcecdt@armory.com> reports that on
# SCO OpenServer, he gets the following error message with -lc:
#
# -lc; relocations referenced ; from file(s) /usr/ccs/lib/libc.so(random.o);
# fatal error: relocations remain against allocatable but non-writable
# section: ; .text
#
# On Bryan's system, with gcc 2.95.3 and glibc 2.2.2, -lc causes
# throws (from anywhere in a program that links the shared library)
# not to work. I have no idea how.
# LDFLAGS_SHLIB is the linker (Ld) flags needed to generate a shared
# library from object files. It may use $(SONAME) as the soname for
# the shared library being created (assuming sonames exist).
#
# This make file defines these functions that the including make file
# can use:
#
# $(call shlibfn, LIBNAMELIST): file names of shared libraries
# whose base names are LIBNAMELIST. E.g. if LIBNAMELIST is
# "libfoo libbar", function returns "libfoo.so.3.1 libbar.so.3.1"
#
# $(call shliblefn, LIBNAMELIST): same as shlibfn, but for the file you
# use at link-edit time. E.g. libfoo.so .
# NEED_RPATH says on this platform, when you link-edit an executable you
# need to have -R linker options to tell where to look, at run time,
# for the shared libraries that the program uses. The linker puts that
# information into the executable.
# NEED_WL_RPATH is like NEED_RPATH, but it's a compiler option for when
# you have the compiler call the linker. So E.g. "-Wl,-rpath,/my/runtime",
# which tells the compiler to pass the option "-rpath /my/runtime" to
# the linker.
# Defaults:
NEED_WL_RPATH=no
NEED_RPATH=no
# We build shared libraries only for platforms for which we've figured
# out how. For the rest, we have this default:
SHARED_LIB_TYPE = NONE
MUST_BUILD_SHLIB = N
MUST_BUILD_SHLIBLE = N
shlibfn = $(1:%=%.shlibdummy)
shliblefn = $(1:%=%.shlibledummy)
ifeq ($(HOST_OS),linux-gnu)
# Assume linker is GNU Compiler (gcc)
SHARED_LIB_TYPE = unix
MUST_BUILD_SHLIB = Y
MUST_BUILD_SHLIBLE = Y
SHLIB_SUFFIX = so
shlibfn = $(1:%=%.$(SHLIB_SUFFIX).$(MAJ).$(MIN))
shliblefn = $(1:%=%.$(SHLIB_SUFFIX))
# SHLIB_CLIB = -lc
LDFLAGS_SHLIB = -shared -Wl,-soname,$(SONAME) $(SHLIB_CLIB)
CFLAGS_SHLIB=-fPIC
endif
ifeq ($(findstring solaris,$(HOST_OS)),solaris)
SHARED_LIB_TYPE = unix
MUST_BUILD_SHLIB = Y
MUST_BUILD_SHLIBLE = Y
SHLIB_SUFFIX = so
shlibfn = $(1:%=%.$(SHLIB_SUFFIX).$(MAJ).$(MIN))
shliblefn = $(1:%=%.$(SHLIB_SUFFIX))
# Solaris compiler (Sun C 5.5) can't take multiple ld options as
# -Wl,-a,-b . Ld sees -a,-b in that case.
LDFLAGS_SHLIB = -Wl,-Bdynamic -Wl,-G -Wl,-h -Wl,$(SONAME)
CFLAGS_SHLIB = -Kpic
endif
ifeq ($(HOST_OS),aix)
SHARED_LIB_TYPE = unix
MUST_BUILD_SHLIB = Y
MUST_BUILD_SHLIBLE = Y
SHLIB_SUFFIX = a
shlibfn = $(1:%=%.$(SHLIB_SUFFIX).$(MAJ).$(MIN))
shliblefn = $(1:%=%.$(SHLIB_SUFFIX))
LDFLAGS_SHLIB = -qmkshrobj
endif
ifeq ($(HOST_OS),hpux)
SHARED_LIB_TYPE = unix
MUST_BUILD_SHLIB = Y
MUST_BUILD_SHLIBLE = Y
SHLIB_SUFFIX = sl
shlibfn = $(1:%=%.$(SHLIB_SUFFIX).$(MAJ).$(MIN))
shliblefn = $(1:%=%.$(SHLIB_SUFFIX))
LDFLAGS_SHLIB: -shared -fPIC
endif
ifeq ($(HOST_OS),osf)
SHARED_LIB_TYPE = unix
MUST_BUILD_SHLIB = Y
MUST_BUILD_SHLIBLE = Y
SHLIB_SUFFIX = so
shlibfn = $(1:%=%.$(SHLIB_SUFFIX).$(MAJ).$(MIN))
shliblefn = $(1:%=%.$(SHLIB_SUFFIX))
LDFLAGS_SHLIB = -shared -expect_unresolved
endif
ifeq ($(findstring netbsd,$(HOST_OS)),netbsd)
SHARED_LIB_TYPE = unix
SHLIB_SUFFIX = so
MUST_BUILD_SHLIB = Y
MUST_BUILD_SHLIBLE = Y
shlibfn = $(1:%=%.$(SHLIB_SUFFIX).$(MAJ).$(MIN))
shliblefn = $(1:%=%.$(SHLIB_SUFFIX))
CFLAGS_SHLIB = -fpic
LDFLAGS_SHLIB = -shared -Wl,-soname,$(SONAME) $(SHLIB_CLIB)
NEED_WL_RPATH=yes
endif
ifeq ($(HOST_OS),dragonfly)
SHARED_LIB_TYPE = unix
MUST_BUILD_SHLIB = Y
MUST_BUILD_SHLIBLE = Y
SHLIB_SUFFIX = so
shlibfn = $(1:%=%.$(SHLIB_SUFFIX).$(MAJ).$(MIN))
shliblefn = $(1:%=%.$(SHLIB_SUFFIX))
CFLAGS_SHLIB = -fpic
LDFLAGS_SHLIB = -shared -Wl,-soname,$(SONAME) $(SHLIB_CLIB)
endif
ifeq ($(HOST_OS),beos)
SHARED_LIB_TYPE = unix
MUST_BUILD_SHLIB = Y
MUST_BUILD_SHLIBLE = Y
SHLIB_SUFFIX = so
shlibfn = $(1:%=%.$(SHLIB_SUFFIX).$(MAJ).$(MIN))
shliblefn = $(1:%=%.$(SHLIB_SUFFIX))
LDFLAGS_SHLIB = -nostart
endif
ifeq ($(patsubst darwin%, darwin, $(HOST_OS)), darwin)
# (I once saw a system that generated 'darwin8.10.1').
SHARED_LIB_TYPE = dylib
MUST_BUILD_SHLIB = Y
MUST_BUILD_SHLIBLE = Y
SHLIB_SUFFIX = dylib
shlibfn = $(1:%=%.$(MAJ).$(MIN).$(SHLIB_SUFFIX))
shliblefn = $(1:%=%.$(SHLIB_SUFFIX))
LDFLAGS_SHLIB = -shared -Wl,-soname,$(SONAME) $(SHLIB_CLIB)
endif
ifeq ($(HOST_OS),irix)
SHARED_LIB_TYPE = irix
MUST_BUILD_SHLIB = Y
MUST_BUILD_SHLIBLE = Y
SHLIB_SUFFIX = so
shlibfn = $(1:%=%.$(SHLIB_SUFFIX).$(MAJ))
shliblefn = $(1:%=%.$(SHLIB_SUFFIX))
VERSIONPERLPROG = \
print "sgi$(MAJ)." . join(":sgi$(MAJ) . ", (0..$(MIN))) . "\n"
LDFLAGS_SHLIB = -shared -n32 -soname $(SONAME) \
-set_version $(shell perl -e '$(VERSIONPERLPROG)') -lc
endif
ifeq ($(HOST_OS),cygwin)
SHARED_LIB_TYPE = dll
MUST_BUILD_SHLIB = Y
MUST_BUILD_SHLIBLE = N
SHLIB_SUFFIX = dll
shlibfn = $(1:lib%=$(SHLIB_PREFIX)%.$(SHLIB_SUFFIX).$(MAJ).$(MIN))
shliblefn = $(1:%=%.shlibledummy)
LDFLAGS_SHLIB = -shared -Wl,-soname,$(SONAME) $(SHLIB_CLIB)
endif
##############################################################################
# MISCELLANEOUS
##############################################################################
# BUILDTOOL_CC is the compiler to use to generate build tools, which we
# will then run to build product. The typical reason this would be
# different from CC is that you're cross-compiling: the product will run
# in Environment A, but you're building in Environment B, so you must
# build the build toos for Environment B.
# The cross compiling user can update Makefile.config or override
# BUILDTOOL_CC on a make command.
BUILDTOOL_CC = $(CC)
BUILDTOOL_CCLD = $(CCLD)
# Here are the commands 'make install' uses to install various kinds of files:
INSTALL_PROGRAM = $(INSTALL) -c -m 755
INSTALL_SHLIB = $(INSTALL) -c -m 755
INSTALL_DATA = $(INSTALL) -c -m 644
INSTALL_SCRIPT = $(INSTALL) -c -m 755
# Here are the locations at which 'make install' puts files:
# PREFIX is designed to be overridden at make time if the user decides
# he doesn't like the default specified at 'configure' time.
LIBINST_DIR = $(PREFIX)/lib
HEADERINST_DIR = $(PREFIX)/include
PROGRAMINST_DIR = $(PREFIX)/bin
# DESTDIR is designed to be overridden at make time in order to relocate
# the entire install into a subdirectory.
DESTDIR =
# VPATH probably doesn't belong in this file, but it's a convenient
# place to set it once. VPATH is a special Make variable that tells
# Make where to look for dependencies. E.g. if a make file says bar.c
# is a dependency of bar.o and VPATH is ".:/usr/src/mypkg", Make will
# look for bar.c first in the current directory (.) (as it would with
# no VPATH), then in /usr/src/mypkg. The purpose of this is to allow
# you to build in a fresh build directory, while your source stays in
# the read-only directory /usr/src/mypkg .
VPATH := .:$(SRCDIR)/$(SUBDIR)