3 dnl Configuration script for Catacomb
5 dnl (c) 2013 Straylight/Edgeware
8 dnl----- Licensing notice ---------------------------------------------------
10 dnl This file is part of Catacomb.
12 dnl Catacomb is free software; you can redistribute it and/or modify
13 dnl it under the terms of the GNU Library General Public License as
14 dnl published by the Free Software Foundation; either version 2 of the
15 dnl License, or (at your option) any later version.
17 dnl Catacomb is distributed in the hope that it will be useful,
18 dnl but WITHOUT ANY WARRANTY; without even the implied warranty of
19 dnl MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
20 dnl GNU Library General Public License for more details.
22 dnl You should have received a copy of the GNU Library General Public
23 dnl License along with Catacomb; if not, write to the Free
24 dnl Software Foundation, Inc., 59 Temple Place - Suite 330, Boston,
25 dnl MA 02111-1307, USA.
27 dnl--------------------------------------------------------------------------
31 AC_INIT([catacomb], AUTO_VERSION, [mdw@distorted.org.uk])
32 AC_CONFIG_SRCDIR([catacomb.pc.in])
33 AC_CONFIG_AUX_DIR([config])
34 AM_INIT_AUTOMAKE([foreign parallel-tests color-tests subdir-objects])
41 mdw_LIBTOOL_VERSION_INFO
43 cygwin* | mingw* | pw32* | os2* | darwin* | cegcc*)
44 TEST_LDFLAGS=-no-fast-install ;;
46 TEST_LDFLAGS=-no-install ;;
48 AC_SUBST([TEST_LDFLAGS])
56 dnl--------------------------------------------------------------------------
57 dnl Define language support for assembler.
59 dnl This is stolen from https://gitlab.crest.iu.edu/jsfiroz/hpx/commit/
60 dnl 84be4345db6eec3797a57b8e53483cb43f4733bf
62 AC_LANG_DEFINE([CPPAS], [cppas], [CPPAS], [CCAS], [C],
63 [ac_ext=S ac_cpp='$CPP $CPPFLAGS'
64 ac_compile='$CCAS -c $CCASFLAGS $CPPFLAGS dnl
65 conftest.$ac_ext >&AS_MESSAGE_LOG_FD'
66 ac_link='$CCAS -oconftest$ac_exeext $CCASFLAGS $CPPFLAGS $LDFLAGS dnl
67 conftest.$ac_ext $LIBS >&AS_MESSAGE_LOG_FD'])
69 AC_DEFUN([AC_LANG_PREPROC(CPPAS)], [AC_REQUIRE([AC_PROG_CPP])])
70 AC_DEFUN([AC_LANG_COMPILER(CPPAS)], [AC_REQUIRE([AM_PROG_AS])])
71 AC_DEFUN([AC_LANG_CONFTEST(CPPAS)],
72 [cat confdefs.h - <<_ACEOF >conftest.$ac_ext
77 dnl--------------------------------------------------------------------------
78 dnl Host-specific configuration.
80 dnl The table of CPU families and ABIs which we might support. Support is
81 dnl not uniform: each dispatched function might or might not have an
82 dnl implementation for any particular CPU/ABI combination.
83 AC_DEFUN([catacomb_CPU_FAMILIES],
84 [$1([i[[3-6]]86,cygwin], [x86], [win])
85 $1([i[[3-6]]86,*], [x86], [sysv])
86 $1([x86_64,cygwin], [amd64], [win])
87 $1([x86_64,*], [amd64], [sysv])
88 $1([arm,* | armv*,*], [armel], [std])
89 $1([aarch64,*], [arm64], [std])])
91 dnl A utility to clear the `seen' flags, used so as to process each CPU or
93 m4_define([catacomb_CLEAR_FLAGS],
94 [m4_ifdef([catacomb_seen_cpu/$2],
95 [m4_undefine([catacomb_seen_cpu/$2])])dnl
96 m4_ifdef([catacomb_seen_abi/$3],
97 [m4_undefine([catacomb_seen_abi/$3])])])
99 dnl Identify the current host.
100 case $host_cpu,$host_os in
101 m4_define([catacomb_CPU_CASE],
102 [$1) CPUFAM=$2 ABI=$3 ;;
104 catacomb_CPU_FAMILIES([catacomb_CPU_CASE])
105 *) CPUFAM=nil ABI=nil ;;
108 dnl Now check the assembler. We have target-specific requirements here, so
109 dnl we couldn't do this any earlier.
111 [whether the assembler is likely to work], [mdw_cv_gnuish_as],
112 [AC_LANG_PUSH([CPPAS])
113 AC_COMPILE_IFELSE([AC_LANG_SOURCE([[
117 .L\$_test = .L\$_test + 1
122 [mdw_cv_gnuish_as=yes], [mdw_cv_gnuish_as=no])
125 AC_COMPILE_IFELSE([AC_LANG_SOURCE([[
128 .intel_syntax noprefix
136 [:], [mdw_cv_gnuish_as=no])
139 AC_LANG_POP([CPPAS])])
140 AM_CONDITIONAL([GNUISH_AS], [test $mdw_cv_gnuish_as = yes])
141 if test $mdw_cv_gnuish_as = no; then CPUFAM=nil ABI=nil; fi
143 dnl A hairy macro used to set the `CPUFAM_...' and `ABI_...' variables. We
144 dnl basically need to do the same thing for the family and ABI, so it's worth
145 dnl some effort to hide the ugliness.
146 m4_define([catacomb_DEFINE_CPU_OR_ABI],
149 [m4_ifdef([catacomb_seen_$3/$$2], [],
151 AC_DEFINE([$4]m4_translit([$$2], [a-z], [A-Z]), [1], [$5])
152 ;;m4_define([catacomb_seen_$3/$$2], [t])])])
153 catacomb_CPU_FAMILIES([_def])
155 *) AC_MSG_ERROR([BUG: unexpected $1 \`$1']) ;;
158 dnl Now that's out the way, we can explain what we're doing.
159 AC_MSG_CHECKING([CPU family and ABI])
161 dnl Figure out the target CPU family and ABI.
162 catacomb_CPU_FAMILIES([catacomb_CLEAR_FLAGS])
163 catacomb_DEFINE_CPU_OR_ABI([CPUFAM], [2], [cpu],
164 [CPUFAM_], [Define if target CPU is \`$][2\'.])
165 catacomb_DEFINE_CPU_OR_ABI([ABI], [3], [abi],
166 [ABI_], [Define if target ABI is \`$][3\'.])
168 dnl Establish Automake conditions for things.
169 catacomb_CPU_FAMILIES([catacomb_CLEAR_FLAGS])
170 m4_define([catacomb_COND_CPU],
171 [m4_define([_CPU], m4_translit([$2], [a-z], [A-Z]))
172 m4_define([_ABI], m4_translit([$3], [a-z], [A-Z]))
173 AM_CONDITIONAL([CPUABI_]_CPU[_]_ABI, [test x$CPUFAM/$ABI = x$2/$3])
174 m4_ifdef([catacomb_seen_cpu/$2], [],
175 [AM_CONDITIONAL([CPUFAM_]_CPU, [test x$CPUFAM = x$2])dnl
176 m4_define([catacomb_seen_cpu/$2], [t])])
177 m4_ifdef([catacomb_seen_abi/$3], [],
178 [AM_CONDITIONAL([ABI_]_ABI, [test x$ABI = x$3])dnl
179 m4_define([catacomb_seen_abi/$3], [t])])])
180 catacomb_CPU_FAMILIES([catacomb_COND_CPU])
181 AM_CONDITIONAL([KNOWN_CPUFAM], [test x$CPUFAM != xnil])
183 dnl Report on what we found.
185 nil) AC_MSG_RESULT([not supported]) ;;
186 *) AC_MSG_RESULT([$CPUFAM/$ABI]) ;;
189 dnl--------------------------------------------------------------------------
190 dnl CPU-specific assembler features.
197 [whether the assembler understands ARMv8 crypto extensions],
198 [mdw_cv_as_armv8_crypto],
199 [AC_COMPILE_IFELSE([AC_LANG_SOURCE([[
201 .fpu crypto-neon-fp-armv8
211 [mdw_cv_as_armv8_crypto=yes],
212 [mdw_cv_as_armv8_crypto=no])])
216 : ${mdw_cv_as_armv8_crypto=no}
217 AM_CONDITIONAL([HAVE_AS_ARMV8_CRYPTO], [test $mdw_cv_as_armv8_crypto = yes])
218 if test $mdw_cv_as_armv8_crypto = yes; then
219 AC_DEFINE([HAVE_AS_ARMV8_CRYPTO], [1],
220 [Define to 1 if your ARM assembler supports the ARMv8 crypto instructions.])
223 dnl--------------------------------------------------------------------------
224 dnl C programming environment.
230 dnl Find out if we're cross-compiling.
231 AM_CONDITIONAL([CROSS_COMPILING], [test "$cross_compiling" = yes])
233 dnl Various standard types.
234 AC_CHECK_TYPE([pid_t], [],
235 [AC_DEFINE([pid_t], [int],
236 [Define to `int' if <sys/types.h> does not define])])
238 AC_CHECK_TYPE([ssize_t], [],
239 [AC_DEFINE([ssize_t], [int],
240 [Define to `int' if <sys/types.h> does not define])])
241 AC_CHECK_TYPE([socklen_t], [],
242 [AC_DEFINE([socklen_t], [int],
243 [Define to `int' if <sys/socket.h> does not define])],
245 #include <sys/socket.h>
248 dnl The maths library.
249 mdw_ORIG_LIBS=$LIBS LIBS=$CATACOMB_LIBS
250 AC_SEARCH_LIBS([log], [m])
251 AC_SEARCH_LIBS([sqrt], [m])
252 CATACOMB_LIBS=$LIBS LIBS=$mdw_ORIG_LIBS
254 dnl Logging is weird under Termux. Unfortunately, it involves macros, so we
255 dnl have to do this the hard way.
257 [library needed for syslog], [mdw_cv_syslog_lib],
258 [mdw_ORIG_LIBS=$LIBS LIBS=
260 AC_TRY_LINK([#include <syslog.h>],
261 [openlog("test", LOG_PID, LOG_DAEMON);
262 syslog(LOG_ERR, "this is a test");],
265 *,t) mdw_cv_syslog_lib=${LIBS:-none}; break ;;
266 0,nil) LIBS="-llog" ;;
267 1,nil) AC_MSG_ERROR("failed to link test program") ;;
270 LIBS=$mdw_ORIG_LIBS])
271 case $mdw_cv_syslog_lib in
273 *) LOGLIBS=$mdw_cv_syslog_lib ;;
277 dnl Find out whether very long integer types are available.
278 AC_CHECK_HEADERS([stdint.h])
279 AC_SUBST([have_stdint_h])
282 dnl Some equipment wanted for checking CPU features at runtime.
283 AC_CHECK_HEADERS([asm/hwcap.h])
284 AC_CHECK_HEADERS([sys/auxv.h])
285 AC_CHECK_HEADERS([linux/auxvec.h])
286 AC_CHECK_FUNCS([getauxval])
288 dnl Find the bit lengths of the obvious integer types. This will be useful
289 dnl when deciding on a representation for multiprecision integers.
290 type_bits="" type_bits_sep=""
291 AC_DEFUN([catacomb_UINT_BITS],
292 [mdw_UINT_BITS([$2], [$1])
293 type_bits="$type_bits$type_bits_sep('$1', $[]$1_bits)"
295 catacomb_UINT_BITS([uchar], [unsigned char])
296 catacomb_UINT_BITS([ushort], [unsigned short])
297 catacomb_UINT_BITS([uint], [unsigned int])
298 catacomb_UINT_BITS([ulong], [unsigned long])
299 if test "$ac_cv_c_long_long" = "yes"; then
300 catacomb_UINT_BITS([ullong], [unsigned long long])
302 if test "$ac_cv_header_stdint_h" = "yes"; then
303 catacomb_UINT_BITS([uintmax], [uintmax_t])
305 AC_SUBST([type_bits])
307 dnl Determine the limits of common C integer types.
308 limits="" limits_sep=""
309 AC_DEFUN([catacomb_COMPILE_TIME_CONSTANT],
315 AC_CACHE_CHECK([compile-time value of $2], [mdw_cv_constant_$3],
316 [mdw_PROBE_CONSTANT([mdw_cv_constant_$3], [$2], [$4])])
317 $1=$mdw_cv_constant_$3
320 AC_DEFUN([catacomb_LIMIT],
321 [catacomb_COMPILE_TIME_CONSTANT([lo], [$2], [$1_min],
323 #include <stddef.h>])
324 catacomb_COMPILE_TIME_CONSTANT([hi], [$3], [$1_max],
326 #include <stddef.h>])
327 limits="$limits$limits_sep('$1', $lo, $hi)" limits_sep=", "])
328 catacomb_LIMIT([SCHAR], [SCHAR_MIN], [SCHAR_MAX])
329 catacomb_LIMIT([CHAR], [CHAR_MIN], [CHAR_MAX])
330 catacomb_LIMIT([UCHAR], [=0], [UCHAR_MAX])
331 catacomb_LIMIT([UINT8], [=0], [=0xff])
332 catacomb_LIMIT([SHRT], [SHRT_MIN], [SHRT_MAX])
333 catacomb_LIMIT([USHRT], [=0], [USHRT_MAX])
334 catacomb_LIMIT([UINT16], [=0], [=0xffff])
335 catacomb_LIMIT([INT], [INT_MIN], [INT_MAX])
336 catacomb_LIMIT([UINT], [=0], [UINT_MAX])
337 catacomb_LIMIT([LONG], [LONG_MIN], [LONG_MAX])
338 catacomb_LIMIT([ULONG], [=0], [ULONG_MAX])
339 catacomb_LIMIT([UINT32], [=0], [=0xffffffff])
340 if test "$ac_cv_c_long_long" = "yes"; then
341 catacomb_LIMIT([LLONG], [LLONG_MIN], [LLONG_MAX])
342 catacomb_LIMIT([ULLONG], [=0], [ULLONG_MAX])
344 catacomb_LIMIT([SIZET], [=0], [~(size_t)0])
347 dnl Figure out other aspects of the implementation's arithmetic.
348 AC_CACHE_CHECK([whether negative numbers use two's complement],
349 [catacomb_cv_neg_twoc],
351 [#include <limits.h>],
352 [int check[2*!!(-INT_MAX == INT_MIN + 1) - 1];],
353 [catacomb_cv_neg_twoc=yes],
354 [catacomb_cv_neg_twoc=no])])
355 case $catacomb_cv_neg_twoc in
357 AC_DEFINE([NEG_TWOC], [1],
358 [Define if signed numbers are represented in two's complement.])
362 dnl Functions used for noise-gathering.
363 AC_CHECK_FUNCS([setgroups])
364 AC_CHECK_HEADERS([linux/random.h])
365 mdw_ORIG_LIBS=$LIBS LIBS=$CATACOMB_LIBS
366 AC_SEARCH_LIBS([clock_gettime], [rt])
367 CATACOMB_LIBS=$LIBS LIBS=$mdw_ORIG_LIBS
368 if test "$ac_cv_search_clock_gettime" != no; then
369 AC_DEFINE([HAVE_CLOCK_GETTIME], [1],
370 [Define if you have the \`clock_gettime' function.])
372 AC_CHECK_FUNCS([getentropy])
373 AC_CACHE_CHECK([whether the freewheel noise generator will work],
374 [catacomb_cv_freewheel],
377 #include <sys/time.h>],
378 [struct itimerval itv = { { 0, 0 }, { 0, 5000 } };
380 setitimer(ITIMER_REAL, &itv, 0);
382 [catacomb_cv_freewheel=yes],
383 [catacomb_cv_freewheel=no])])
384 case $catacomb_cv_freewheel in
386 AC_DEFINE([USE_FREEWHEEL], [1],
387 [Define if you want to use the freewheel noise generator.])
391 dnl Support for the passphrase pixie.
393 AC_SEARCH_LIBS([socket], [socket])
394 AC_SUBST([PIXIE_LIBS], [$LIBS])
397 dnl Memory locking support.
398 AC_CHECK_FUNCS([mlock])
400 dnl See if we can find Valgrind's header files.
401 AC_CHECK_HEADER([valgrind/memcheck.h],
402 AC_DEFINE([HAVE_VALGRIND_H], [1],
403 [Define if the Valgrind header files are available.])
406 dnl Set the master libraries we need.
407 AC_SUBST([CATACOMB_LIBS])
409 dnl Necessary support libraries.
410 PKG_CHECK_MODULES([mLib], [mLib >= 2.2.2.1])
411 AM_CFLAGS="$AM_CFLAGS $mLib_CFLAGS"
413 dnl--------------------------------------------------------------------------
416 dnl Make sure we have a suitable version.
417 AM_PATH_PYTHON([2.5])
419 dnl--------------------------------------------------------------------------
420 dnl Special debugging options.
423 [AS_HELP_STRING([--enable-mpw], [force small-width mp digits])],
424 [case "$enableval" in
426 AC_DEFINE([FORCE_MPW_SHORT], [1],
427 [Define to force small-width mp digits.])
430 AC_DEFINE([FORCE_MPW_CUSSID], [1],
431 [Define to force strange-width mp digits.])
435 dnl--------------------------------------------------------------------------
438 AC_CONFIG_HEADER([config/config.h])
452 dnl----- That's all, folks --------------------------------------------------