dnl Autoconfigure input file for fetchmail dnl Eric S. Raymond dnl dnl Process this file with autoconf to produce a configure script. dnl AC_INIT(fetchmail.h) dnl A distinctive file to look for in srcdir. AC_CONFIG_HEADER(config.h) dnl We want these before the checks, so the checks can modify their values. test -z "$CFLAGS" && CFLAGS="-O" AC_SUBST(CFLAGS) test -z "$LDFLAGS" && LDFLAGS=AC_SUBST(LDFLAGS) PACKAGE=`sed -n '/PACKAGE *= *\(.*\)/s//\1/p' <$srcdir/Makefile.in` VERSION=`sed -n '/VERSION *= *\(.*\)/s//\1/p' <$srcdir/Makefile.in` AM_INIT_AUTOMAKE("$PACKAGE", "$VERSION") dnl Map autoconf, autoheader and aclocal to (/bin/true) if they are dnl not available in the system, so as not to cause problems in dnl Makefile.in. Be sure to fix this hack if we start supporting dnl automake (Makefile.am). if test -z "$AUTOCONF" ; then AUTOCONF=true fi if test -z "$ACLOCAL" ; then ACLOCAL=true fi if test -z "$AUTOHEADER" ; then AUTOHEADER=true fi AC_CANONICAL_HOST AC_PROG_CC AC_PROG_INSTALL AC_PROG_CPP dnl Later checks need this. AC_PROG_CC_C_O AC_AIX AC_ISC_POSIX AC_MINIX AC_HEADER_STDC AC_TYPE_SIZE_T AC_TYPE_PID_T AC_TYPE_SIGNAL AC_CHECK_HEADERS(unistd.h termios.h termio.h sgtty.h stdarg.h alloca.h) AC_CHECK_HEADERS(sys/itimer.h fcntl.h sys/fcntl.h memory.h sys/wait.h sys/shm.h) AC_CHECK_HEADERS(arpa/inet.h arpa/nameser.h resolv.h net/socket.h sys/select.h) AC_C_CONST dnl getopt needs this. AC_PROG_LEX AC_PROG_MAKE_SET AC_PROG_YACC AC_SUBST(CPFLAGS) AC_SUBST(CEFLAGS) AC_SUBST(LDEFLAGS) AC_SUBST(LIBOBJS) # Check for LynxOS special case: -lbsd needed (at least on 2.3.0) and -s # not working. if test `uname` = "LynxOS" then echo "Adding -lbsd to standard libraries" LIBS="$LIBS -lbsd" LDFLAGS="" echo "Prepending standard include path to gcc flags" CPFLAGS="-I/usr/include" fi # Check for FreeBSD special case: more libs needed if test `uname` = "FreeBSD" then echo "Adding -lmd -lkvm -lcom_err to standard libraries" LIBS="$LIBS -lmd -lkvm -lcom_err" fi # Check for Rhapsody special case: it doesn't like -s if test `uname` = "Rhapsody" then echo "Removing -s load flag" LDFLAGS=`echo $LDFLAGS | sed "s/-s //"` fi dnl i18n ALL_LINGUAS="cs es fr pl pt_BR gl da" AM_GNU_GETTEXT dnl end i18n # Under sysV68, socket and friends are provided by the C library. # -linet does not provide socket, but causes multiple definition # errors at link-time. It is thus better to only use the C library. # So don't add -linet to the link list unless it's necessary AC_CHECK_FUNC(socket, AC_MSG_RESULT(using libc's socket), AC_CHECK_LIB(socket,socket) AC_CHECK_LIB(inet,socket)) # The condition in this test copes with the presence of inet_addr in libc6. AC_CHECK_FUNC(inet_addr, AC_MSG_RESULT(using libc's inet_addr), AC_CHECK_LIB(nsl,inet_addr)) dnl Port hack for Interactive UNIX System V/386 Release 3.2 AC_CHECK_LIB(cposix, strchr, [EXTRADEFS="$EXTRADEFS -D_SYSV3" LIBS="$LIBS -lcposix"]) AC_CHECK_FUNC(strstr, AC_DEFINE(HAVE_STRSTR), [EXTRASRC="$EXTRASRC \$(srcdir)/strstr.c" EXTRAOBJ="$EXTRAOBJ strstr.o"]) AC_CHECK_FUNC(strcasecmp, AC_DEFINE(HAVE_STRCASECMP), [EXTRASRC="$EXTRASRC \$(srcdir)/strcasecmp.c" EXTRAOBJ="$EXTRAOBJ strcasecmp.o"]) AC_CHECK_FUNC(memmove, AC_DEFINE(HAVE_MEMMOVE), [EXTRASRC="$EXTRASRC \$(srcdir)/memmove.c" EXTRAOBJ="$EXTRAOBJ memmove.o"]) AC_CHECK_FUNC(getopt_long, AC_DEFINE(HAVE_GETOPTLONG), [EXTRASRC="$EXTRASRC \$(srcdir)/getopt.c \$(srcdir)/getopt1.c" EXTRAOBJ="$EXTRAOBJ getopt.o getopt1.o"]) AC_CHECK_FUNC(MD5Init, AC_DEFINE(HAVE_MD5), [EXTRASRC="$EXTRASRC \$(srcdir)/md5c.c" EXTRAOBJ="$EXTRAOBJ md5c.o"]) AC_FUNC_VPRINTF AC_FUNC_ALLOCA if test -n "$ALLOCA" then EXTRASRC="$EXTRASRC \$(srcdir)/alloca.c" EXTRAOBJ="$EXTRAOBJ alloca.o" fi dnl AC_CHECK_FUNC calls that might hack the Makefile must precede dnl the following AC_SUBSTs AC_SUBST(EXTRADEFS) AC_SUBST(EXTRASRC) AC_SUBST(EXTRAOBJ) AC_CHECK_FUNCS(tcsetattr stty setsid geteuid seteuid gethostbyname \ res_search herror strrchr strerror setlinebuf syslog \ snprintf vprintf vsnprintf vsyslog \ atexit inet_aton strftime setrlimit socketpair sigprocmask sigaction) # Under Red Hat 4.0 (and many other Linuxes) -lresolv is seriously flaky # and breaks gethostbyname(2). It's better to use the bind stuff in the C # library. So don't add -lresolv to the link list unless it's necessary # (It will be necessary when using GNU libc6). AC_CHECK_FUNC(res_search, AC_MSG_RESULT(using libc's resolver functions), AC_CHECK_LIB(resolv,res_search, [AC_DEFINE(HAVE_RES_SEARCH) AC_MSG_RESULT(found resolver functions in libresolv); LIBS="$LIBS -lresolv"], AC_MSG_RESULT(no resolver calls found))) dnl Check for libcrypt -- it may live in libc or libcrypt, as on IRIX AC_CHECK_FUNC(crypt, , AC_CHECK_LIB(crypt,crypt)) dnl Check for RSA refersence library in case we're using SSL AC_CHECK_LIB(rsaref, RSAPublicDecrypt) dnl AC_FUNC_SETVBUF_REVERSED dnl Check for usable void pointer type AC_MSG_CHECKING(use of void pointer type) AC_TRY_COMPILE([], [char *p; void *xmalloc(); p = (char *) xmalloc(1); ], [AC_DEFINE(HAVE_VOIDPOINTER) AC_MSG_RESULT(yes)], AC_MSG_RESULT(no)) dnl Check for ANSI volatile AC_MSG_CHECKING(for ANSI volatile) AC_TRY_COMPILE([], [volatile int n;], [AC_DEFINE(HAVE_VOLATILE) AC_MSG_RESULT(yes)], AC_MSG_RESULT(no)) dnl Check out the wait reality. We have to assume sys/wait.h is present. AC_CHECK_FUNCS(waitpid wait3) AC_MSG_CHECKING(for union wait); AC_TRY_LINK([#include #include ], [union wait status; int pid; pid = wait (&status); #ifdef WEXITSTATUS /* Some POSIXoid systems have both the new-style macros and the old union wait type, and they do not work together. If union wait conflicts with WEXITSTATUS et al, we don't want to use it at all. */ if (WEXITSTATUS (status) != 0) pid = -1; #endif #ifdef HAVE_WAITPID /* Make sure union wait works with waitpid. */ pid = waitpid (-1, &status, 0); #endif ], [AC_DEFINE(HAVE_UNION_WAIT) AC_MSG_RESULT(yes)], AC_MSG_RESULT(no)) AC_MSG_CHECKING(sys_siglist declaration in signal.h or unistd.h) AC_TRY_LINK([#include /* NetBSD declares sys_siglist in . */ #ifdef HAVE_UNISTD_H #include #endif], [char *msg = *(sys_siglist + 1);], [AC_DEFINE(SYS_SIGLIST_DECLARED) AC_MSG_RESULT(yes)], AC_MSG_RESULT(no)) # Find the right directory to put the root-mode PID file in for dir in "/var/run" "/etc" do if test -d $dir then break; fi done AC_MSG_RESULT(root-mode pid file will go in $dir) AC_DEFINE_UNQUOTED(PID_DIR, "$dir") # We may have a fallback MDA available in case the socket open to the # local SMTP listener fails. Best to use procmail for this, as we know # it won't try delivering through local SMTP and cause a mail loop. # Sendmail without the -t option to use the message headers will work too, # not just for sendmail itself but for workalikes like exim. # # Note: it would be a very bad idea to use any MDA that doesn't return # a refuse-to-deliver status on disk- or process-table-full # conditions; mail could get lost that way. Both procmail and # sendmail (and all of the MDAs like exim that might be lurking under # a sendmail alias) do the right thing in this circumstance. # AC_PATH_PROG(procmail, procmail, "", $PATH:/usr/sbin) if test "$procmail" then echo "Found procmail, will use it as a fallback MDA." AC_DEFINE(FALLBACK_MDA, "$procmail -d %T") else AC_PATH_PROG(sendmail, sendmail, "", $PATH:/usr/sbin) if test "$sendmail" then echo "Found sendmail, will use it as a fallback MDA." AC_DEFINE(FALLBACK_MDA, "$sendmail %T") fi fi AC_CHECK_SIZEOF(short) AC_CHECK_SIZEOF(int) AC_CHECK_SIZEOF(long) ### use option --enable-POP2 to compile in the POP2 support AC_ARG_ENABLE(POP2, [ --enable-POP2 compile in POP2 protocol support (obsolete)], [with_POP2=$enableval], [with_POP2=no]) test "$with_POP2" = "yes" && AC_DEFINE(POP2_ENABLE) ### use option --disable-POP3 to omit the POP3 support AC_ARG_ENABLE(POP3, [ --disable-POP3 don't compile in POP3 protocol support], [with_POP3=$enableval], [with_POP3=yes]) test "$with_POP3" = "yes" && AC_DEFINE(POP3_ENABLE) ### use option --disable-IMAP to omit the IMAP support AC_ARG_ENABLE(IMAP, [ --disable-IMAP don't compile in IMAP protocol support], [with_IMAP=$enableval], [with_IMAP=yes]) test "$with_IMAP" = "yes" && AC_DEFINE(IMAP_ENABLE) ### use option --disable-ETRN to omit the ETRN support AC_ARG_ENABLE(ETRN, [ --disable-ETRN don't compile in ETRN protocol support], [with_ETRN=$enableval], [with_ETRN=yes]) test "$with_ETRN" = "yes" && AC_DEFINE(ETRN_ENABLE) ### use option --disable-ODMR to omit the ODMR support AC_ARG_ENABLE(ODMR, [ --disable-ODMR don't compile in ODMR protocol support], [with_ODMR=$enableval], [with_ODMR=yes]) test "$with_ODMR" = "yes" && AC_DEFINE(ODMR_ENABLE) ### use option --enable-RPA to compile in the RPA support AC_ARG_ENABLE(RPA, [ --enable-RPA compile in RPA protocol support], [with_RPA=$enableval], [with_RPA=no]) test "$with_RPA" = "yes" && AC_DEFINE(RPA_ENABLE) ### use option --enable-NTLM to compile in the NTLM support AC_ARG_ENABLE(NTLM, [ --enable-NTLM compile in NTLM authentication support], [with_NTLM=$enableval], [with_NTLM=no]) test "$with_NTLM" = "yes" && AC_DEFINE(NTLM_ENABLE) ### use option --enable-SDPS to compile in the SDPS support AC_ARG_ENABLE(SDPS, [ --enable-SDPS compile in SDPS protocol support], [with_SDPS=$enableval], [with_SDPS=no]) test "$with_SDPS" = "yes" && AC_DEFINE(SDPS_ENABLE) ### use option --enable-opie to compile in the OPIE support AC_ARG_ENABLE(opie, [ --enable-opie support OTP through the OPIE library], [ AC_CHECK_HEADER(opie.h,, [echo 'configure: cannot find , which is required for OPIE support.'; exit 1]) AC_CHECK_LIB(opie,opiegenerator,, [echo 'configure: cannot find libopie, which is required for OPIE support.'; exit 1]) with_opie=$enableval], [with_opie=no]) test "$with_opie" = "yes" && AC_DEFINE(OPIE_ENABLE) AC_ARG_ENABLE(inet6, [ --enable-inet6 support IPv6 (requires the inet6-apps library)], [ AC_CHECK_FUNC(getaddrinfo, [with_inet6=yes], [ LDFLAGS="$LDFLAGS -L/usr/inet6/lib"; AC_CHECK_LIB(inet6, getaddrinfo, [with_inet6=yes LIBS="$LIBS -linet6"], [ echo 'configure: cannot find proper glibc version or libinet6,'; echo ' which is required for IPv6 support.'; exit 1]) ] )], [with_inet6=no]) test "$with_inet6" = "yes" && AC_DEFINE(INET6_ENABLE) AC_CHECK_FUNCS(inner_connect) AC_ARG_ENABLE(netsec, [ --enable-netsec support network security (requires inet6-apps library)], [ unset ac_cv_lib_inet6_net_security_strtorequest; AC_CHECK_LIB(inet6, net_security_strtorequest,, [ unset ac_cv_lib_inet6_net_security_strtorequest; LDFLAGS="$LDFLAGS -L/usr/inet6/lib"; AC_CHECK_LIB(inet6, net_security_strtorequest,, [ echo 'configure: cannot find net_security_strtorequest in libinet6, which is required'; echo ' for network security support. Either it does not exist, or it was'; echo ' not built with network security support enabled.'; exit 1]) ]) unset ac_cv_header_net_security_h; AC_CHECK_HEADER(net/security.h,, [ unset ac_cv_header_net_security_h; CPPFLAGS="$CPPFLAGS -I/usr/inet6/include"; CFLAGS="$CFLAGS -I/usr/inet6/include"; AC_CHECK_HEADER(net/security.h,, [ echo 'configure: cannot find , which is required'; echo ' for network security support.'; exit 1]) ]) ] [with_netsec=no]) test "$with_netsec" = "yes" && AC_DEFINE(NET_SECURITY) ### use option --with-kerberos5=DIR to point at a Kerberos 5 directory AC_ARG_WITH(kerberos5, [ --with-kerberos5=DIR point fetchmail compilation at a Kerberos 5 directory], with_kerberos5=$withval) # The "then" arm (nonempty $with_kerberos5) is kind of a crock. It works for # configuring the BSD/OS Kerberos V support, though. if test -n "$with_kerberos5" -a "$with_kerberos5" != "no" then # Path given echo "Configuring kerberosV for `uname`" AC_DEFINE(KERBEROS_V5) CEFLAGS="$CEFLAGS -I$with_kerberos5/include" LDEFLAGS="$LDEFLAGS -L$with_kerberos5/lib" AC_CHECK_LIB(crypto, krb5_des_string_to_key, libk5crypto=-lcrypto, AC_CHECK_LIB(k5crypto, krb5_des_string_to_key, libk5crypto=-lk5crypto, AC_ERROR(Kerberos 5 libraries not found), ${LDEFLAGS} -lcom_err), ${LDEFLAGS} -lcom_err) if test -f "$with_kerberos5/include/roken.h" then AC_DEFINE(HEIMDAL) LIBS="$LIBS -lkrb5 -lasn1 -ldes -lroken -lcom_err" else LIBS="$LIBS -lkrb5 ${libk5crypto} -lcom_err" fi elif test "$with_kerberos" != "no" -a "$with_kerberos5" != "no" ; then for dir in /usr/kerberos /usr/local/krb5 /usr/athena do if test -f "$dir/include/krb5.h" then AC_DEFINE(KERBEROS_V5) CEFLAGS="$CEFLAGS -I$dir/include" LDEFLAGS="$LDEFLAGS -L$dir/lib" if test -f "$dir/include/roken.h" then AC_DEFINE(HEIMDAL) LIBS="$LIBS -lkrb5 -lasn1 -ldes -lcom_err" else AC_CHECK_LIB(crypto, krb5_des_string_to_key, libk5crypto=-lcrypto, AC_CHECK_LIB(k5crypto, krb5_des_string_to_key, libk5crypto=-lk5crypto, AC_ERROR(Kerberos 5 libraries not found), ${LDEFLAGS} -lcom_err), ${LDEFLAGS} -lcom_err) LIBS="$LIBS -lkrb5 ${libk5crypto} -lcom_err" fi with_kerberos5=$dir break fi done fi ### use option --with-kerberos=DIR to point at a Kerberos 4 directory AC_ARG_WITH(kerberos, [ --with-kerberos=DIR point fetchmail compilation at a Kerberos 4 directory]) # The "elif" arm (nonempty $with_kerberos) is kind of a crock. It works for # configuring the BSD/OS Kerberos IV support, though. # Check for a NetBSD/OpenBSD special case if test "$with_kerberos" = "yes" && test `uname` = "NetBSD" -o `uname` = "OpenBSD" then # Path given echo "Configuring kerberosIV for `uname`" AC_DEFINE(KERBEROS_V4) CEFLAGS="$CEFLAGS -I/usr/include/kerberosIV" LIBS="$LIBS -lkrb -ldes" elif test -n "$with_kerberos" -a -n "$with_kerberos5" -a "$with_kerberos" != "no" -a "$with_kerberos5" != "no" then AC_DEFINE(KERBEROS_V4) CEFLAGS="$CEFLAGS -I$with_kerberos/include" LDEFLAGS="$LDEFLAGS -L$with_kerberos/lib" if test -f "$with_kerberos5/roken.h" then AC_DEFINE(HEIMDAL) LIBS="-lkrb4 -l45 $LIBS" else LIBS="-lkrb4 -ldes425 $LIBS" fi elif test -n "$with_kerberos5" -a "$with_kerberos" != "no" -a "$with_kerberos5" != "no" then for dir in /usr/kerberos /usr/kerberosIV /usr/athena do if test -f "$dir/include/kerberosIV/krb.h" then AC_DEFINE(KERBEROS_V4) CEFLAGS="$CEFLAGS -I$dir/include" LDEFLAGS="$LDEFLAGS -L$dir/lib" LIBS="-lkrb4 -ldes425 $LIBS" break fi done elif test -n "$with_kerberos" -a "$with_kerberos" != "no" then AC_DEFINE(KERBEROS_V4) CEFLAGS="$CEFLAGS -I$with_kerberos/include" LDEFLAGS="$LDEFLAGS -L$with_kerberos/lib" LIBS="$LIBS -lkrb -ldes" else if test "$with_kerberos" != "no" then for dir in /usr/kerberos /usr/kerberosIV /usr/athena do if test -f "$dir/include/krb.h" then AC_DEFINE(KERBEROS_V4) CEFLAGS="$CEFLAGS -I$dir/include" LDEFLAGS="$LDEFLAGS -L$dir/lib" LIBS="$LIBS -lkrb -ldes" break fi done fi fi ### use option --with-ssl to compile in the SSL support AC_ARG_WITH(ssl, [ --with-ssl=[DIR] enable SSL support using libraries in DIR], [with_ssl=$withval], [with_ssl=no]) test "$with_ssl" != "no" && AC_DEFINE(SSL_ENABLE) if test "$with_ssl" = "yes" then # He didn't specify an SSL location. Let's look at some common # directories where SSL has been found in the past and try and auto # configure for SSL. OpenSSL determination will be made later. # This will screw up if an OpenSSL install is located in a later # directory than an older SSLeay install, but the user should fix that # anyways and he can override on the configure line. for ac_dir in \ /usr/local/ssl \ /usr/ssl \ /local/ssl \ /opt/ssl \ ; \ do if test -d "$ac_dir" ; then with_ssl=$ac_dir break; fi done fi if test -n "$with_ssl" -a "$with_ssl" != "no" then # With the autoconfigure above, the only time this is going to be # true is going to be when we could not find the headers. If they # are not in system standard locations, we are going to be broken. if test "$with_ssl" = "yes" then # Let's just define the standard location for the SSLeay root with_ssl="/usr/local/ssl" fi if test -r $with_ssl/include/openssl/ssl.h then ### ssl.h found under openssl. Use openssl configuration preferentially echo "Enabling OpenSSL support in $with_ssl" CEFLAGS="$CEFLAGS -I$with_ssl/include -I$with_ssl/include/openssl" ### OpenBSD comes with ssl headers elif test -r /usr/include/ssl/ssl.h then echo "Enabling SSLeay support in $with_ssl" CEFLAGS="$CEFLAGS -I/usr/include/ssl" else echo "Enabling SSLeay support in $with_ssl" CEFLAGS="$CEFLAGS -I$with_ssl/include" fi LDEFLAGS="$LDEFLAGS -L$with_ssl/lib" LIBS="$LIBS -lssl -lcrypto" AC_DEFINE(SSL_ENABLE) else echo 'Disabling SSL support...' fi ### use option --with-socks=DIR to point at SOCKS library AC_ARG_WITH(socks, [ --with-socks[=DIR] add built-in SOCKS firewall access], [ if test "$with_socks" != no then if test "$with_socks" != yes then LDEFLAGS="$LDEFLAGS -L$with_socks" else AC_CHECK_LIB(socks, Rconnect,, AC_MSG_ERROR([could not find libsocks which is needed for built-in SOCKS support])) fi AC_DEFINE(HAVE_SOCKS) CEFLAGS="$CEFLAGS -Dconnect=Rconnect -Dgetsockname=Rgetsockname -Dbind=Rbind -Daccept=Raccept -Dlisten=Rlisten -Dselect=Rselect" LIBS="-lsocks $LIBS" fi]) ### use option --with-socks5=DIR to point at SOCKS library AC_ARG_WITH(socks5, [ --with-socks5[=DIR] add built-in SOCKS5 firewall access], [ if test "$with_socks5" != no then if test "$with_socks5" != yes then LDEFLAGS="$LDEFLAGS -L$with_socks5" fi ac_savedLDFLAGS="$LDFLAGS" LDFLAGS="$LDEFLAGS $LDFLAGS" AC_CHECK_LIB(socks5, SOCKSconnect,, AC_MSG_ERROR([could not find libsocks5 which is needed for built-in SOCKS5 support])) AC_DEFINE(HAVE_SOCKS) CEFLAGS="$CEFLAGS -Dconnect=SOCKSconnect -Dgetsockname=SOCKSgetsockname -Dbind=SOCKSbind -Daccept=SOCKSaccept -Dlisten=SOCKSlisten -Dselect=SOCKSselect -Drecvfrom=SOCKSrecvfrom -Dsendto=SOCKSsendto -Drecv=SOCKSrecv -Dsend=SOCKSsend -Dread=SOCKSread -Dwrite=SOCKSwrite -Drresvport=SOCKSrresvport -Dshutdown=SOCKSshutdown -Dlisten=SOCKSlisten -Dclose=SOCKSclose -Ddup=SOCKSdup -Ddup2=SOCKSdup2 -Dgethostbyname=SOCKSgethostbyname" AC_CHECK_FUNC(SOCKSfclose, [CFLAGS="$CFLAGS -Dfclose=SOCKSfclose"]) LDFLAGS="$ac_savedLDFLAGS" fi]) ### use option --with-hesiod=DIR to point at a HESIOD directory AC_ARG_WITH(hesiod, [ --with-hesiod=DIR point fetchmail compilation at a HESIOD directory]) case "x$with_hesiod" in xno) ;; x) for dir in /usr/athena /usr /usr/local do if test -f "$dir/include/hesiod.h" then CEFLAGS="$CEFLAGS -DHESIOD -I$dir/include" LDEFLAGS="$LDEFLAGS -L$dir/lib" LIBS="$LIBS -lhesiod" with_hesiod=$dir break fi done ;; *) # Path given CEFLAGS="$CEFLAGS -DHESIOD -I$with_hesiod/include" LDEFLAGS="$LDEFLAGS -L$with_hesiod/lib" LIBS="$LIBS -lhesiod" ;; esac ### use option --with-gssapi=DIR to compile in GSSAPI support AC_ARG_WITH(gssapi, [ --with-gssapi[=DIR] compile in GSSAPI support using libraries in DIR], [ if test "$with_gssapi" != "no" then if test "$with_gssapi" = "yes" -a -n "$with_kerberos5" then with_gssapi=$with_kerberos5 fi if test "$with_gssapi" != "yes" -a -n "$with_gssapi" then CFLAGS="$CFLAGS -I$with_gssapi/include" LDFLAGS="$LDFLAGS -L$with_gssapi/lib" fi if test -f "$with_gssapi/include/roken.h" then LIBS="$LIBS -lkrb5 -lasn1 -ldes -lroken -ldb -ldl" AC_CHECK_LIB(gssapi, gss_init_sec_context,LIBS="$LIBS -lgssapi", AC_MSG_ERROR([could not find libgssapi which is needed for GSSAPI support]), ) AC_DEFINE(HEIMDAL) else AC_CHECK_LIB(gssapi_krb5, gss_init_sec_context,LIBS="$LIBS -lgssapi_krb5", AC_MSG_ERROR([could not find libgssapi_krb5 which is needed for GSSAPI support]), -lkrb5) fi AC_DEFINE(GSSAPI) save_CPPFLAGS=$CPPFLAGS CPPFLAGS="-I$with_gssapi/include" AC_CHECK_HEADERS(gssapi.h gssapi/gssapi.h gssapi/gssapi_generic.h) if test "$ac_cv_header_gssapi_h" = "yes"; then AC_EGREP_HEADER(GSS_C_NT_HOSTBASED_SERVICE, gssapi.h, AC_DEFINE(HAVE_GSS_C_NT_HOSTBASED_SERVICE)) else AC_EGREP_HEADER(GSS_C_NT_HOSTBASED_SERVICE, gssapi/gssapi.h, AC_DEFINE(HAVE_GSS_C_NT_HOSTBASED_SERVICE)) fi fi]) AC_OUTPUT([Makefile intl/Makefile po/Makefile.in], [ # The reason for this odd makedepend line is that we want # to have all dependencies evaluated relative to the source directory # and let VPATH do all the dirty work when we build remotely echo "You can ignore any makedepend error messages:"; echo timestamp > stamp-h; (cd $srcdir; makedepend -f - *.c) >>Makefile]) dnl Local Variables: dnl comment-start: "dnl " dnl comment-end: "" dnl comment-start-skip: "\\bdnl\\b\\s *" dnl compile-command: "make configure config.h.in" dnl End: