# -*- Autoconf -*- # $Id$ AC_PREREQ(2.61) AC_INIT(rpkitools, 1.0,) AC_CONFIG_SRCDIR([rcynic/rcynic.c]) AC_CONFIG_AUX_DIR([buildtools]) AC_PROG_CC AC_CANONICAL_HOST AC_CHECK_SIZEOF([long]) # We'd like to build rcynic as a static binary if we can, because that # makes it much simpler to run rcynic in a chroot jail, but we don't # know how to do it on all platforms, so we try the hack we know, and # if that doesn't work, oh well. AC_MSG_CHECKING([whether linker supports -static]) old_LDFLAGS="$LDFLAGS" LDFLAGS="$LDFLAGS -static" AC_LINK_IFELSE( [AC_LANG_SOURCE([[int main (int argc, char *argv[]) { return 0; }]])], [ AC_MSG_RESULT(yes) LD_STATIC_FLAG='-static' ], [ AC_MSG_RESULT(no) LD_STATIC_FLAG='' ] ) AC_SUBST(LD_STATIC_FLAG) LDFLAGS="$old_LDFLAGS" unset old_LDFLAGS AC_PATH_PROG([XSLTPROC], [xsltproc]) AC_PATH_PROG([AWK], [awk]) if test "x$XSLTPROC" != "x" && test "x$AWK" != "x" then AC_CONFIG_FILES([rcynic/show.sh], [chmod +x rcynic/show.sh]) fi # Figure out whether we need to build our own OpenSSL library or can # use the system libraries. We're looking for two recent features: # CMS and RFC 3779 support. AC_CHECK_LIB([crypto], [v3_addr_validate_path], [system_openssl_has_rfc3779=yes], [system_openssl_has_rfc3779=no]) AC_CHECK_LIB([crypto], [CMS_verify], [system_openssl_has_cms=yes], [system_openssl_has_cms=no]) if test "$system_openssl_has_rfc3779" = yes && test "$system_openssl_has_cms" = yes then have_usable_openssl=yes else have_usable_openssl=no fi # Figure out whether we need to use shared libraries to build POW. # This is a world of hurt, but appears to be required on some 64-bit # platforms due to a deficiency in the GNU linker: it flat out refuses # to build a shared object (.so) file that uses functions from a # static library (.a) or static object (.o) file. This in turn # creates a nightmare of library version dependency issues, so we use # static libraries where we can, dynamic where we must. # # My autoconf-fu isn't strong enough to construct a test for the real # condition, so for the moment I'm just testing word length. If you # know how to write the real test, please do so and send it to me. So # far the least silly idea I've had for how to do this would be to use # AC_LINK_IFELSE() to test a fragment of C code calling some ISO C # math function with LDFLAGS='-Wl,--library=:libm.a -shared' and # CFLAGS='-fPIC' to see if the linker explodes. AC_MSG_CHECKING([whether building Python extension will require need shared OpenSSL libraries]) if test "$ac_cv_sizeof_long" -eq 4 then need_openssl_shared=no else need_openssl_shared=yes fi AC_MSG_RESULT([$need_openssl_shared]) # Now a bunch of checks to figure out what we can do with Python. AC_PATH_PROG([PYTHON], [python]) if test "x$PYTHON" = "x" then have_python=no have_python_h=no need_pywrap=no have_django=no need_openssl_shared=no else have_python=yes AC_MSG_CHECKING([distutils to find out where Python.h should be]) python_h=`$PYTHON -c 'import distutils.sysconfig; print distutils.sysconfig.get_python_inc() + "/Python.h"'` AC_MSG_RESULT([$python_h]) AC_CHECK_HEADER([$python_h], [have_python_h=yes], [have_python_h=no]) if test "x$have_python_h" = "xyes" then AC_MSG_CHECKING([whether Python links against libcrypto]) if ldd $PYTHON 2>&AS_MESSAGE_LOG_FD | $PYTHON -c 'import sys; sys.exit("libcrypto" not in sys.stdin.read())' then need_pywrap=$need_openssl_shared else need_pywrap=no fi AC_MSG_RESULT([$need_pywrap]) fi AC_MSG_CHECKING([for Django]) if $PYTHON -c 'import django' 2>/dev/null then have_django="yes" else have_django="no" fi AC_MSG_RESULT([$have_django]) fi AC_ARG_ENABLE([system_openssl], [AS_HELP_STRING([--disable-system-openssl], [Don't build against system copy of OpenSSL])], [], [enable_system_openssl=auto]) AC_ARG_ENABLE([python], [AS_HELP_STRING([--disable-python], [Don't build any of the Python-based tools])], [], [enable_python=auto]) AC_ARG_ENABLE([pywrap], [AS_HELP_STRING([--enable-pywrap], [Build pywrap])], [], [enable_pywrap=auto]) AC_ARG_ENABLE([django], [AS_HELP_STRING([--disable-django], [Don't build Django GUI])], [], [enable_django=auto]) case $enable_system_openssl in yes) build_openssl=no if test $have_usable_openssl = no then AC_MSG_ERROR([I can't find an OpenSSL crypto library with CMS and RFC 3779 support, maybe you need to set LDFLAGS?]) fi ;; no) build_openssl=yes ;; auto) if test $have_usable_openssl = no then build_openssl=yes else build_openssl=no fi ;; *) AC_MSG_ERROR([Unrecognized value for --enable-system-openssl: $enable-system-openssl]);; esac case $enable_python in yes) build_python=yes if test $have_python = no then AC_MSG_ERROR([I can't find a Python binary, maybe you need to set PATH?]) fi ;; no) build_python=no ;; auto) build_python=$have_python if test $have_python = no then AC_MSG_WARN([I can't find your Python binary, disabling build for all Python-using code]) fi ;; *) AC_MSG_ERROR([Unrecognized value for --enable-python: $enable-python]);; esac case $enable_pywrap in yes) build_pywrap=yes if test $build_python = no then AC_MSG_ERROR([Building pywrap without Python makes no sense]) fi if test $build_openssl = no || test $need_openssl_shared = no then AC_MSG_WARN([pywrap not needed for this platform (but I'll try to build it anyway)]) fi ;; no) build_pywrap=no if test $need_pywrap = yes then AC_MSG_ERROR([This platform appears to require pywrap]) fi ;; auto) build_pywrap=$need_pywrap ;; *) AC_MSG_ERROR([Unrecognized value for --enable-pywrap: $enable-pywrap]);; esac case $enable_django in yes) build_django=yes if test $have_django = no then AC_MSG_WARN([You don't appear to have Django installed (but I'll try to build the Django-based GUI anyway)]) fi ;; no) build_django=no ;; auto) build_django=$have_django ;; *) AC_MSG_ERROR([Unrecognized value for --enable-django: $enable-django]);; esac if test $build_python = yes && test $have_python_h = no then AC_MSG_ERROR([Need Python sources to build extension module, either install sources or rerun with --disable-python]) fi # Figure out which parts of this package we have to build. TOP_LEVEL_SUBDIRS="" test $build_openssl = yes && TOP_LEVEL_SUBDIRS="$TOP_LEVEL_SUBDIRS openssl" TOP_LEVEL_SUBDIRS="$TOP_LEVEL_SUBDIRS rcynic utils" test $build_pywrap = yes && TOP_LEVEL_SUBDIRS="$TOP_LEVEL_SUBDIRS pywrap" test $build_python = yes && TOP_LEVEL_SUBDIRS="$TOP_LEVEL_SUBDIRS pow rpkid" AC_SUBST(TOP_LEVEL_SUBDIRS) AC_CONFIG_FILES([Makefile rcynic/Makefile utils/Makefile utils/find_roa/Makefile utils/hashdir/Makefile utils/print_manifest/Makefile utils/print_roa/Makefile utils/uri/Makefile]) # If there's some sane way to do this with a built-in autoconf # variable, I don't know what it is, so copy what BIND9 does. RPKITOOLS_TOP_BUILDDIR=`pwd` AC_SUBST(RPKITOOLS_TOP_BUILDDIR) # OpenSSL has its own build system that bears no relationship to # anything but itself. On at least one platform, OpenSSL's opinion on # the right thing to do is so completely at odds with everything else # that the resulting libraries require special compilation options for # any program that wants to use them. We also have to sort out whether # the linker is going to require shared libraries. Feh. # # The -rpath insanity will need to change once we install this stuff. # # Don't bother with any of this unless we're building OpenSSL. if test $build_openssl = yes then AC_CONFIG_FILES([openssl/Makefile]) AC_MSG_CHECKING([what configuration target to use when building OpenSSL]) OPENSSL_CONFIG_COMMAND='./config' case $host in i*86-apple-darwin*) if test "$ac_cv_sizeof_long" = 8 then OPENSSL_CONFIG_COMMAND='./Configure darwin64-x86_64-cc' fi ;; esac AC_SUBST(OPENSSL_CONFIG_COMMAND) AC_MSG_RESULT([$OPENSSL_CONFIG_COMMAND]) LDFLAGS="$LDFLAGS -L$RPKITOOLS_TOP_BUILDDIR/openssl/openssl" CFLAGS="$CFLAGS -I$RPKITOOLS_TOP_BUILDDIR/openssl/openssl/include" if test $need_openssl_shared = yes then OPENSSL_SHARED_LIBRARIES='enable-shared' LDFLAGS="$LDFLAGS -Wl,-rpath,$RPKITOOLS_TOP_BUILDDIR/openssl/openssl" else OPENSSL_SHARED_LIBRARIES='disable-shared' fi AC_SUBST(OPENSSL_SHARED_LIBRARIES) fi # Sort out which interpreter POW-using Python programs should use. if test $build_pywrap = yes then AC_CONFIG_FILES([pywrap/Makefile]) # Eventually this should be the installation directory, but # for now we're still running out of the build tree. PYWRAP=$RPKITOOLS_TOP_BUILDDIR/pow/pywrap/pywrap else # If we don't need pywrap, just make it expand to python PYWRAP=$PYTHON fi AC_SUBST(PYWRAP) if test $build_python = yes then AC_CONFIG_FILES([pow/Makefile rpkid/Makefile rpkid/tests/Makefile]) # These are plain Python scripts, do not require pywrap AC_CONFIG_FILES([rpkid/backup-sql:buildtools/python-header:rpkid/backup-sql.py], [chmod +x rpkid/backup-sql]) AC_CONFIG_FILES([rpkid/sql-setup:buildtools/python-header:rpkid/sql-setup.py], [chmod +x rpkid/sql-setup]) AC_CONFIG_FILES([rpkid/start-servers:buildtools/python-header:rpkid/start-servers.py], [chmod +x rpkid/start-servers]) AC_CONFIG_FILES([rpkid/tests/sql-cleaner:buildtools/python-header:rpkid/tests/sql-cleaner.py], [chmod +x rpkid/tests/sql-cleaner]) AC_CONFIG_FILES([rpkid/tests/sql-dumper:buildtools/python-header:rpkid/tests/sql-dumper.py], [chmod +x rpkid/tests/sql-dumper]) # These use POW, so may require pywrap AC_CONFIG_FILES([rpkid/irbe_cli:buildtools/pywrap-header:rpkid/irbe_cli.py], [chmod +x rpkid/irbe_cli]) AC_CONFIG_FILES([rpkid/irdbd:buildtools/pywrap-header:rpkid/irdbd.py], [chmod +x rpkid/irdbd]) AC_CONFIG_FILES([rpkid/myrpki:buildtools/pywrap-header:rpkid/myrpki.py], [chmod +x rpkid/myrpki]) AC_CONFIG_FILES([rpkid/pubd:buildtools/pywrap-header:rpkid/pubd.py], [chmod +x rpkid/pubd]) AC_CONFIG_FILES([rpkid/rootd:buildtools/pywrap-header:rpkid/rootd.py], [chmod +x rpkid/rootd]) AC_CONFIG_FILES([rpkid/rpkid:buildtools/pywrap-header:rpkid/rpkid.py], [chmod +x rpkid/rpkid]) AC_CONFIG_FILES([rpkid/tests/smoketest:buildtools/pywrap-header:rpkid/tests/smoketest.py], [chmod +x rpkid/tests/smoketest]) AC_CONFIG_FILES([rpkid/tests/yamltest:buildtools/pywrap-header:rpkid/tests/yamltest.py], [chmod +x rpkid/tests/yamltest]) AC_CONFIG_FILES([rpkid/tests/testpoke:buildtools/pywrap-header:rpkid/tests/testpoke.py], [chmod +x rpkid/tests/testpoke]) fi # This should go away once its content has migrated from Doxygen into DocBook. AC_CONFIG_FILES([rpkid/rpki/__doc__.py]) AC_OUTPUT