mdw@git.distorted.org.uk Git - catacomb/blob - configure.ac

   1 dnl -*-autoconf-*-
   2 dnl
   3 dnl Configuration script for Catacomb
   4 dnl
   5 dnl (c) 2013 Straylight/Edgeware
   6 dnl
   7
   8 dnl----- Licensing notice ---------------------------------------------------
   9 dnl
  10 dnl This file is part of Catacomb.
  11 dnl
  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.
  16 dnl
  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.
  21 dnl
  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.
  26
  27 dnl--------------------------------------------------------------------------
  28 dnl Initialization.
  29
  30 mdw_AUTO_VERSION
  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])
  35 AC_CANONICAL_HOST
  36 mdw_SILENT_RULES
  37
  38 AC_PROG_CC
  39 AX_CFLAGS_WARN_ALL
  40 AM_PROG_LIBTOOL
  41 mdw_LIBTOOL_VERSION_INFO
  42
  43 AM_PROG_AS
  44
  45 AC_PROG_YACC
  46
  47 AC_SUBST(AM_CFLAGS)
  48
  49 dnl--------------------------------------------------------------------------
  50 dnl Define language support for assembler.
  51 dnl
  52 dnl This is stolen from https://gitlab.crest.iu.edu/jsfiroz/hpx/commit/
  53 dnl 84be4345db6eec3797a57b8e53483cb43f4733bf
  54
  55 AC_LANG_DEFINE([CPPAS], [cppas], [CPPAS], [CCAS], [C],
  56   [ac_ext=S ac_cpp='$CPP $CPPFLAGS'
  57    ac_compile='$CCAS -c $CCASFLAGS $CPPFLAGS dnl
  58         conftest.$ac_ext >&AS_MESSAGE_LOG_FD'
  59    ac_link='$CCAS -oconftest$ac_exeext $CCASFLAGS $CPPFLAGS $LDFLAGS dnl
  60         conftest.$ac_ext $LIBS >&AS_MESSAGE_LOG_FD'])
  61
  62 AC_DEFUN([AC_LANG_PREPROC(CPPAS)], [AC_REQUIRE([AC_PROG_CPP])])
  63 AC_DEFUN([AC_LANG_COMPILER(CPPAS)], [AC_REQUIRE([AM_PROG_AS])])
  64 AC_DEFUN([AC_LANG_CONFTEST(CPPAS)],
  65   [cat confdefs.h - <<_ACEOF >conftest.$ac_ext
  66 /* end confdefs.h. */
  67 $1
  68 _ACEOF])
  69
  70 dnl--------------------------------------------------------------------------
  71 dnl Host-specific configuration.
  72
  73 dnl The table of CPU families and ABIs which we might support.  Support is
  74 dnl not uniform: each dispatched function might or might not have an
  75 dnl implementation for any particular CPU/ABI combination.
  76 AC_DEFUN([catacomb_CPU_FAMILIES],
  77   [$1([i[[3-6]]86,cygwin], [x86], [win])
  78    $1([i[[3-6]]86,*], [x86], [sysv])
  79    $1([x86_64,cygwin], [amd64], [win])
  80    $1([x86_64,*], [amd64], [sysv])
  81    $1([arm,*-gnueabi | arm,*-gnueabihf | dnl
  82         armv*,*-gnueabi | armv*,*-gnueabihf], [armel], [gnueabi])])
  83
  84 dnl A utility to clear the `seen' flags, used so as to process each CPU or
  85 dnl ABI once.
  86 m4_define([catacomb_CLEAR_FLAGS],
  87 [m4_ifdef([catacomb_seen_cpu/$2],
  88           [m4_undefine([catacomb_seen_cpu/$2])])dnl
  89 m4_ifdef([catacomb_seen_abi/$3],
  90           [m4_undefine([catacomb_seen_abi/$3])])])
  91
  92 dnl Identify the current host.
  93 case $host_cpu,$host_os in
  94   m4_define([catacomb_CPU_CASE],
  95     [$1) CPUFAM=$2 ABI=$3 ;;
  96 ])
  97   catacomb_CPU_FAMILIES([catacomb_CPU_CASE])
  98   *) CPUFAM=nil ABI=nil ;;
  99 esac
 100
 101 dnl Now check the assembler.  We have target-specific requirements here, so
 102 dnl we couldn't do this any earlier.
 103 AC_CACHE_CHECK(
 104   [whether the assembler is likely to work], [mdw_cv_gnuish_as],
 105   [AC_LANG_PUSH([CPPAS])
 106    AC_COMPILE_IFELSE([AC_LANG_SOURCE([[
 107         .text
 108         .L\$_test = 23
 109 .macro  mymac
 110         .L\$_test = .L\$_test + 1
 111 .endm
 112         .globl  foo
 113         .extern bar
 114         mymac]])],
 115      [mdw_cv_gnuish_as=yes], [mdw_cv_gnuish_as=no])
 116    case $CPUFAM in
 117      x86 | amd64)
 118        AC_COMPILE_IFELSE([AC_LANG_SOURCE([[
 119         .text
 120         .arch pentium4
 121         .intel_syntax noprefix
 122         .globl  foo
 123 foo:
 124         adcd    var, 0
 125         ret
 126         .data
 127 var:    .long   1
 128         ]])],
 129          [:], [mdw_cv_gnuish_as=no])
 130        ;;
 131    esac
 132    AC_LANG_POP([CPPAS])])
 133 AM_CONDITIONAL([GNUISH_AS], [test $mdw_cv_gnuish_as = yes])
 134 if test $mdw_cv_gnuish_as = no; then CPUFAM=nil ABI=nil; fi
 135
 136 dnl A hairy macro used to set the `CPUFAM_...' and `ABI_...' variables.  We
 137 dnl basically need to do the same thing for the family and ABI, so it's worth
 138 dnl some effort to hide the ugliness.
 139 m4_define([catacomb_DEFINE_CPU_OR_ABI],
 140 [case $$1 in
 141   m4_define([_def],
 142     [m4_ifdef([catacomb_seen_$3/$$2], [],
 143       [$$2)
 144         AC_DEFINE([$4]m4_translit([$$2], [a-z], [A-Z]), [1], [$5])
 145         ;;m4_define([catacomb_seen_$3/$$2], [t])])])
 146   catacomb_CPU_FAMILIES([_def])
 147   nil) ;;
 148   *) AC_MSG_ERROR([BUG: unexpected $1 \`$1']) ;;
 149 esac])
 150
 151 dnl Now that's out the way, we can explain what we're doing.
 152 AC_MSG_CHECKING([CPU family and ABI])
 153
 154 dnl Figure out the target CPU family and ABI.
 155 catacomb_CPU_FAMILIES([catacomb_CLEAR_FLAGS])
 156 catacomb_DEFINE_CPU_OR_ABI([CPUFAM], [2], [cpu],
 157   [CPUFAM_], [Define if target CPU is \`$][2\'.])
 158 catacomb_DEFINE_CPU_OR_ABI([ABI], [3], [abi],
 159   [ABI_], [Define if target ABI is \`$][3\'.])
 160
 161 dnl Establish Automake conditions for things.
 162 catacomb_CPU_FAMILIES([catacomb_CLEAR_FLAGS])
 163 m4_define([catacomb_COND_CPU],
 164 [m4_define([_CPU], m4_translit([$2], [a-z], [A-Z]))
 165 m4_define([_ABI], m4_translit([$3], [a-z], [A-Z]))
 166 AM_CONDITIONAL([CPUABI_]_CPU[_]_ABI, [test x$CPUFAM/$ABI = x$2/$3])
 167 m4_ifdef([catacomb_seen_cpu/$2], [],
 168 [AM_CONDITIONAL([CPUFAM_]_CPU, [test x$CPUFAM = x$2])dnl
 169 m4_define([catacomb_seen_cpu/$2], [t])])
 170 m4_ifdef([catacomb_seen_abi/$3], [],
 171 [AM_CONDITIONAL([ABI_]_ABI, [test x$ABI = x$3])dnl
 172 m4_define([catacomb_seen_abi/$3], [t])])])
 173 catacomb_CPU_FAMILIES([catacomb_COND_CPU])
 174 AM_CONDITIONAL([KNOWN_CPUFAM], [test x$CPUFAM != xnil])
 175
 176 dnl Report on what we found.
 177 case $CPUFAM in
 178   nil) AC_MSG_RESULT([not supported]) ;;
 179   *) AC_MSG_RESULT([$CPUFAM/$ABI]) ;;
 180 esac
 181
 182 dnl--------------------------------------------------------------------------
 183 dnl CPU-specific assembler features.
 184
 185 AC_LANG([CPPAS])
 186
 187 case $CPUFAM in
 188   armel)
 189     AC_CACHE_CHECK(
 190       [whether the assembler understands ARMv8 crypto extensions],
 191       [mdw_cv_as_armv8_crypto],
 192       [AC_COMPILE_IFELSE([AC_LANG_SOURCE([[
 193         .arch   armv8-a
 194         .fpu    crypto-neon-fp-armv8
 195
 196         .text
 197         .globl  foo
 198 foo:
 199         vldmia  r0, {d0-d3}
 200         aese.8  q0, q1
 201         aesmc.8 q0, q0
 202         vstmia  r0, {d0, d1}
 203         bx      r14]])],
 204          [mdw_cv_as_armv8_crypto=yes],
 205          [mdw_cv_as_armv8_crypto=no])])
 206     ;;
 207 esac
 208
 209 : ${mdw_cv_as_armv8_crypto=no}
 210 AM_CONDITIONAL([HAVE_AS_ARMV8_CRYPTO], [test $mdw_cv_as_armv8_crypto = yes])
 211 if test $mdw_cv_as_armv8_crypto = yes; then
 212   AC_DEFINE([HAVE_AS_ARMV8_CRYPTO], [1],
 213     [Define to 1 if your ARM assembler supports the ARMv8 crypto instructions.])
 214 fi
 215
 216 dnl--------------------------------------------------------------------------
 217 dnl C programming environment.
 218
 219 AC_LANG([C])
 220
 221 CATACOMB_LIBS=
 222
 223 dnl Find out if we're cross-compiling.
 224 AM_CONDITIONAL([CROSS_COMPILING], [test "$cross_compiling" = yes])
 225
 226 dnl Various standard types.
 227 AC_CHECK_TYPE([pid_t], [],
 228   [AC_DEFINE([pid_t], [int],
 229      [Define to `int' if <sys/types.h> does not define])])
 230 AC_TYPE_UID_T
 231 AC_CHECK_TYPE([ssize_t], [],
 232   [AC_DEFINE([ssize_t], [int],
 233      [Define to `int' if <sys/types.h> does not define])])
 234 AC_CHECK_TYPE([socklen_t], [],
 235   [AC_DEFINE([socklen_t], [int],
 236      [Define to `int' if <sys/socket.h> does not define])],
 237   [AC_INCLUDES_DEFAULT
 238 #include <sys/socket.h>
 239 ])
 240
 241 dnl The maths library.
 242 mdw_ORIG_LIBS=$LIBS LIBS=
 243 AC_SEARCH_LIBS([log], [m])
 244 AC_SEARCH_LIBS([sqrt], [m])
 245 AC_SUBST([MATHLIBS], [$LIBS])
 246 LIBS=$mdw_ORIG_LIBS
 247
 248 dnl Logging is weird under Termux.  Unfortunately, it involves macros, so we
 249 dnl have to do this the hard way.
 250 AC_CACHE_CHECK(
 251   [library needed for syslog], [mdw_cv_syslog_lib],
 252   [mdw_ORIG_LIBS=$LIBS LIBS=
 253    for i in 0 1; do
 254      AC_TRY_LINK([#include <syslog.h>],
 255                  [openlog("test", LOG_PID, LOG_DAEMON);
 256                   syslog(LOG_ERR, "this is a test");],
 257                  [ok=t], [ok=nil])
 258      case $i,$ok in
 259        *,t) mdw_cv_syslog_lib=${LIBS:-none}; break ;;
 260        0,nil) LIBS="-llog" ;;
 261        1,nil) AC_MSG_ERROR("failed to link test program") ;;
 262      esac
 263    done
 264    LIBS=$mdw_ORIG_LIBS])
 265 case $mdw_cv_syslog_lib in
 266   none) LOGLIBS= ;;
 267   *) LOGLIBS=$mdw_cv_syslog_lib ;;
 268 esac
 269 AC_SUBST([LOGLIBS])
 270
 271 dnl Find out whether very long integer types are available.
 272 AC_CHECK_HEADERS([stdint.h])
 273 AC_SUBST([have_stdint_h])
 274 AX_C_LONG_LONG
 275
 276 dnl Some equipment wanted for checking CPU features at runtime.
 277 AC_CHECK_HEADERS([asm/hwcap.h])
 278 AC_CHECK_HEADERS([sys/auxv.h])
 279 AC_CHECK_HEADERS([linux/auxvec.h])
 280 AC_CHECK_FUNCS([getauxval])
 281
 282 dnl Find the bit lengths of the obvious integer types.  This will be useful
 283 dnl when deciding on a representation for multiprecision integers.
 284 type_bits="" type_bits_sep=""
 285 AC_DEFUN([catacomb_UINT_BITS],
 286   [mdw_UINT_BITS([$2], [$1])
 287    type_bits="$type_bits$type_bits_sep('$1', $[]$1_bits)"
 288    type_bits_sep=", "])
 289 catacomb_UINT_BITS([uchar], [unsigned char])
 290 catacomb_UINT_BITS([ushort], [unsigned short])
 291 catacomb_UINT_BITS([uint], [unsigned int])
 292 catacomb_UINT_BITS([ulong], [unsigned long])
 293 if test "$ac_cv_c_long_long" = "yes"; then
 294   catacomb_UINT_BITS([ullong], [unsigned long long])
 295 fi
 296 if test "$ac_cv_header_stdint_h" = "yes"; then
 297   catacomb_UINT_BITS([uintmax], [uintmax_t])
 298 fi
 299 AC_SUBST([type_bits])
 300
 301 dnl Determine the limits of common C integer types.
 302 limits="" limits_sep=""
 303 AC_DEFUN([catacomb_COMPILE_TIME_CONSTANT],
 304   [case "$2" in
 305      =*)
 306        $1="$2"; $1=${$1#=}
 307        ;;
 308      *)
 309        AC_CACHE_CHECK([compile-time value of $2], [mdw_cv_constant_$3],
 310                       [mdw_PROBE_CONSTANT([mdw_cv_constant_$3], [$2], [$4])])
 311        $1=$mdw_cv_constant_$3
 312        ;;
 313    esac])
 314 AC_DEFUN([catacomb_LIMIT],
 315 [catacomb_COMPILE_TIME_CONSTANT([lo], [$2], [$1_min],
 316 [#include <limits.h>
 317 #include <stddef.h>])
 318  catacomb_COMPILE_TIME_CONSTANT([hi], [$3], [$1_max],
 319 [#include <limits.h>
 320 #include <stddef.h>])
 321  limits="$limits$limits_sep('$1', $lo, $hi)" limits_sep=", "])
 322 catacomb_LIMIT([SCHAR],         [SCHAR_MIN],    [SCHAR_MAX])
 323 catacomb_LIMIT([CHAR],          [CHAR_MIN],     [CHAR_MAX])
 324 catacomb_LIMIT([UCHAR],         [=0],           [UCHAR_MAX])
 325 catacomb_LIMIT([UINT8],         [=0],           [=0xff])
 326 catacomb_LIMIT([SHRT],          [SHRT_MIN],     [SHRT_MAX])
 327 catacomb_LIMIT([USHRT],         [=0],           [USHRT_MAX])
 328 catacomb_LIMIT([UINT16],        [=0],           [=0xffff])
 329 catacomb_LIMIT([INT],           [INT_MIN],      [INT_MAX])
 330 catacomb_LIMIT([UINT],          [=0],           [UINT_MAX])
 331 catacomb_LIMIT([LONG],          [LONG_MIN],     [LONG_MAX])
 332 catacomb_LIMIT([ULONG],         [=0],           [ULONG_MAX])
 333 catacomb_LIMIT([UINT32],        [=0],           [=0xffffffff])
 334 if test "$ac_cv_c_long_long" = "yes"; then
 335   catacomb_LIMIT([LLONG],       [LLONG_MIN],    [LLONG_MAX])
 336   catacomb_LIMIT([ULLONG],      [=0],           [ULLONG_MAX])
 337 fi
 338 catacomb_LIMIT([SIZET],         [=0],           [~(size_t)0])
 339 AC_SUBST([limits])
 340
 341 dnl Figure out other aspects of the implementation's arithmetic.
 342 AC_CACHE_CHECK([whether negative numbers use two's complement],
 343         [catacomb_cv_neg_twoc],
 344 [AC_TRY_COMPILE(
 345 [#include <limits.h>],
 346 [int check[2*!!(-INT_MAX == INT_MIN + 1) - 1];],
 347 [catacomb_cv_neg_twoc=yes],
 348 [catacomb_cv_neg_twoc=no])])
 349 case $catacomb_cv_neg_twoc in
 350   yes)
 351     AC_DEFINE([NEG_TWOC], [1],
 352      [Define if signed numbers are represented in two's complement.])
 353     ;;
 354 esac
 355
 356 dnl Functions used for noise-gathering.
 357 AC_CHECK_FUNCS([setgroups])
 358 AC_CHECK_HEADERS([linux/random.h])
 359 mdw_ORIG_LIBS=$LIBS LIBS=$CATACOMB_LIBS
 360 AC_SEARCH_LIBS([clock_gettime], [rt])
 361 CATACOMB_LIBS=$LIBS LIBS=$mdw_ORIG_LIBS
 362 if test "$ac_cv_search_clock_gettime" != no; then
 363   AC_DEFINE([HAVE_CLOCK_GETTIME], [1],
 364             [Define if you have the \`clock_gettime' function.])
 365 fi
 366 AC_CHECK_FUNCS([getentropy])
 367 AC_CACHE_CHECK([whether the freewheel noise generator will work],
 368         [catacomb_cv_freewheel],
 369 [AC_TRY_LINK(
 370 [#include <setjmp.h>
 371 #include <sys/time.h>],
 372 [struct itimerval itv = { { 0, 0 }, { 0, 5000 } };
 373 jmp_buf j;
 374 setitimer(ITIMER_REAL, &itv, 0);
 375 sigsetjmp(j, 1);],
 376 [catacomb_cv_freewheel=yes],
 377 [catacomb_cv_freewheel=no])])
 378 case $catacomb_cv_freewheel in
 379   yes)
 380     AC_DEFINE([USE_FREEWHEEL], [1],
 381               [Define if you want to use the freewheel noise generator.])
 382     ;;
 383 esac
 384
 385 dnl Support for the passphrase pixie.
 386 mdw_ORIG_LIBS=$LIBS
 387 AC_SEARCH_LIBS([socket], [socket])
 388 AC_SUBST([PIXIE_LIBS], [$LIBS])
 389 LIBS=$mdw_ORIG_LIBS
 390
 391 dnl Memory locking support.
 392 AC_CHECK_FUNCS([mlock])
 393
 394 dnl See if we can find Valgrind's header files.
 395 AC_CHECK_HEADER([valgrind/memcheck.h],
 396   AC_DEFINE([HAVE_VALGRIND_H], [1],
 397             [Define if the Valgrind header files are available.])
 398   [])
 399
 400 dnl Set the master libraries we need.
 401 AC_SUBST([CATACOMB_LIBS])
 402
 403 dnl Necessary support libraries.
 404 PKG_CHECK_MODULES([mLib], [mLib >= 2.2.2.1])
 405 AM_CFLAGS="$AM_CFLAGS $mLib_CFLAGS"
 406
 407 dnl--------------------------------------------------------------------------
 408 dnl Python.
 409
 410 dnl Make sure we have a suitable version.
 411 AM_PATH_PYTHON([2.5])
 412
 413 dnl--------------------------------------------------------------------------
 414 dnl Special debugging options.
 415
 416 AC_ARG_ENABLE([mpw],
 417   [AS_HELP_STRING([--enable-mpw], [force small-width mp digits])],
 418   [case "$enableval" in
 419     y*|t*|short)
 420       AC_DEFINE([FORCE_MPW_SHORT], [1],
 421                 [Define to force small-width mp digits.])
 422       ;;
 423     cussid)
 424       AC_DEFINE([FORCE_MPW_CUSSID], [1],
 425                 [Define to force strange-width mp digits.])
 426       ;;
 427    esac])
 428
 429 dnl--------------------------------------------------------------------------
 430 dnl Produce output.
 431
 432 AC_CONFIG_HEADER([config/config.h])
 433
 434 AC_CONFIG_FILES(
 435   [Makefile]
 436   [base/Makefile]
 437   [key/Makefile]
 438   [math/Makefile]
 439   [misc/Makefile]
 440   [pub/Makefile]
 441   [rand/Makefile]
 442   [symm/Makefile]
 443   [progs/Makefile])
 444 AC_OUTPUT
 445
 446 dnl----- That's all, folks --------------------------------------------------