[catacomb] / configure.ac

dnl -*-autoconf-*-
dnl
dnl Configuration script for Catacomb
dnl
dnl (c) 2013 Straylight/Edgeware
dnl

dnl----- Licensing notice ---------------------------------------------------
dnl
dnl This file is part of Catacomb.
dnl
dnl Catacomb is free software; you can redistribute it and/or modify
dnl it under the terms of the GNU Library General Public License as
dnl published by the Free Software Foundation; either version 2 of the
dnl License, or (at your option) any later version.
dnl
dnl Catacomb is distributed in the hope that it will be useful,
dnl but WITHOUT ANY WARRANTY; without even the implied warranty of
dnl MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
dnl GNU Library General Public License for more details.
dnl
dnl You should have received a copy of the GNU Library General Public
dnl License along with Catacomb; if not, write to the Free
dnl Software Foundation, Inc., 59 Temple Place - Suite 330, Boston,
dnl MA 02111-1307, USA.

dnl--------------------------------------------------------------------------
dnl Initialization.

mdw_AUTO_VERSION
AC_INIT([catacomb], AUTO_VERSION, [mdw@distorted.org.uk])
AC_CONFIG_SRCDIR([catacomb.pc.in])
AC_CONFIG_AUX_DIR([config])
AM_INIT_AUTOMAKE([foreign parallel-tests color-tests subdir-objects])
AC_CANONICAL_HOST
mdw_SILENT_RULES

AC_PROG_CC
AX_CFLAGS_WARN_ALL
AM_PROG_LIBTOOL
mdw_LIBTOOL_VERSION_INFO

AM_PROG_AS

AC_PROG_YACC

AC_SUBST(AM_CFLAGS)

dnl--------------------------------------------------------------------------
dnl Define language support for assembler.
dnl
dnl This is stolen from https://gitlab.crest.iu.edu/jsfiroz/hpx/commit/
dnl 84be4345db6eec3797a57b8e53483cb43f4733bf

AC_LANG_DEFINE([CPPAS], [cppas], [CPPAS], [CCAS], [C],
  [ac_ext=S ac_cpp='$CPP $CPPFLAGS'
   ac_compile='$CCAS -c $CCASFLAGS $CPPFLAGS dnl
	conftest.$ac_ext >&AS_MESSAGE_LOG_FD'
   ac_link='$CCAS -oconftest$ac_exeext $CCASFLAGS $CPPFLAGS $LDFLAGS dnl
	conftest.$ac_ext $LIBS >&AS_MESSAGE_LOG_FD'])

AC_DEFUN([AC_LANG_PREPROC(CPPAS)], [AC_REQUIRE([AC_PROG_CPP])])
AC_DEFUN([AC_LANG_COMPILER(CPPAS)], [AC_REQUIRE([AM_PROG_AS])])
AC_DEFUN([AC_LANG_CONFTEST(CPPAS)],
  [cat confdefs.h - <<_ACEOF >conftest.$ac_ext
/* end confdefs.h. */
$1
_ACEOF])

dnl--------------------------------------------------------------------------
dnl Host-specific configuration.

dnl The table of CPU families and ABIs which we might support.  Support is
dnl not uniform: each dispatched function might or might not have an
dnl implementation for any particular CPU/ABI combination.
AC_DEFUN([catacomb_CPU_FAMILIES],
  [$1([i[[3-6]]86,cygwin], [x86], [win])
   $1([i[[3-6]]86,*], [x86], [sysv])
   $1([x86_64,cygwin], [amd64], [win])
   $1([x86_64,*], [amd64], [sysv])
   $1([arm,*-gnueabi | arm,*-gnueabihf | dnl
	armv*,*-gnueabi | armv*,*-gnueabihf | dnl
	arm,*-androideabi], [armel], [gnueabi])])

dnl A utility to clear the `seen' flags, used so as to process each CPU or
dnl ABI once.
m4_define([catacomb_CLEAR_FLAGS],
[m4_ifdef([catacomb_seen_cpu/$2],
	  [m4_undefine([catacomb_seen_cpu/$2])])dnl
m4_ifdef([catacomb_seen_abi/$3],
	  [m4_undefine([catacomb_seen_abi/$3])])])

dnl Identify the current host.
case $host_cpu,$host_os in
  m4_define([catacomb_CPU_CASE],
    [$1) CPUFAM=$2 ABI=$3 ;;
])
  catacomb_CPU_FAMILIES([catacomb_CPU_CASE])
  *) CPUFAM=nil ABI=nil ;;
esac

dnl Now check the assembler.  We have target-specific requirements here, so
dnl we couldn't do this any earlier.
AC_CACHE_CHECK(
  [whether the assembler is likely to work], [mdw_cv_gnuish_as],
  [AC_LANG_PUSH([CPPAS])
   AC_COMPILE_IFELSE([AC_LANG_SOURCE([[
	.text
	.L\$_test = 23
.macro	mymac
	.L\$_test = .L\$_test + 1
.endm
	.globl	foo
	.extern	bar
	mymac]])],
     [mdw_cv_gnuish_as=yes], [mdw_cv_gnuish_as=no])
   case $CPUFAM in
     x86 | amd64)
       AC_COMPILE_IFELSE([AC_LANG_SOURCE([[
	.text
	.arch pentium4
	.intel_syntax noprefix
	.globl	foo
foo:
	adcd	var, 0
	ret
	.data
var:	.long	1
	]])],
	 [:], [mdw_cv_gnuish_as=no])
       ;;
   esac
   AC_LANG_POP([CPPAS])])
AM_CONDITIONAL([GNUISH_AS], [test $mdw_cv_gnuish_as = yes])
if test $mdw_cv_gnuish_as = no; then CPUFAM=nil ABI=nil; fi

dnl A hairy macro used to set the `CPUFAM_...' and `ABI_...' variables.  We
dnl basically need to do the same thing for the family and ABI, so it's worth
dnl some effort to hide the ugliness.
m4_define([catacomb_DEFINE_CPU_OR_ABI],
[case $$1 in
  m4_define([_def],
    [m4_ifdef([catacomb_seen_$3/$$2], [],
      [$$2)
	AC_DEFINE([$4]m4_translit([$$2], [a-z], [A-Z]), [1], [$5])
	;;m4_define([catacomb_seen_$3/$$2], [t])])])
  catacomb_CPU_FAMILIES([_def])
  nil) ;;
  *) AC_MSG_ERROR([BUG: unexpected $1 \`$1']) ;;
esac])

dnl Now that's out the way, we can explain what we're doing.
AC_MSG_CHECKING([CPU family and ABI])

dnl Figure out the target CPU family and ABI.
catacomb_CPU_FAMILIES([catacomb_CLEAR_FLAGS])
catacomb_DEFINE_CPU_OR_ABI([CPUFAM], [2], [cpu],
  [CPUFAM_], [Define if target CPU is \`$][2\'.])
catacomb_DEFINE_CPU_OR_ABI([ABI], [3], [abi],
  [ABI_], [Define if target ABI is \`$][3\'.])

dnl Establish Automake conditions for things.
catacomb_CPU_FAMILIES([catacomb_CLEAR_FLAGS])
m4_define([catacomb_COND_CPU],
[m4_define([_CPU], m4_translit([$2], [a-z], [A-Z]))
m4_define([_ABI], m4_translit([$3], [a-z], [A-Z]))
AM_CONDITIONAL([CPUABI_]_CPU[_]_ABI, [test x$CPUFAM/$ABI = x$2/$3])
m4_ifdef([catacomb_seen_cpu/$2], [],
[AM_CONDITIONAL([CPUFAM_]_CPU, [test x$CPUFAM = x$2])dnl
m4_define([catacomb_seen_cpu/$2], [t])])
m4_ifdef([catacomb_seen_abi/$3], [],
[AM_CONDITIONAL([ABI_]_ABI, [test x$ABI = x$3])dnl
m4_define([catacomb_seen_abi/$3], [t])])])
catacomb_CPU_FAMILIES([catacomb_COND_CPU])
AM_CONDITIONAL([KNOWN_CPUFAM], [test x$CPUFAM != xnil])

dnl Report on what we found.
case $CPUFAM in
  nil) AC_MSG_RESULT([not supported]) ;;
  *) AC_MSG_RESULT([$CPUFAM/$ABI]) ;;
esac

dnl--------------------------------------------------------------------------
dnl CPU-specific assembler features.

AC_LANG([CPPAS])

case $CPUFAM in
  armel)
    AC_CACHE_CHECK(
      [whether the assembler understands ARMv8 crypto extensions],
      [mdw_cv_as_armv8_crypto],
      [AC_COMPILE_IFELSE([AC_LANG_SOURCE([[
	.arch	armv8-a
	.fpu	crypto-neon-fp-armv8

	.text
	.globl	foo
foo:
	vldmia	r0, {d0-d3}
	aese.8	q0, q1
	aesmc.8	q0, q0
	vstmia	r0, {d0, d1}
	bx	r14]])],
	 [mdw_cv_as_armv8_crypto=yes],
	 [mdw_cv_as_armv8_crypto=no])])
    ;;
esac

: ${mdw_cv_as_armv8_crypto=no}
AM_CONDITIONAL([HAVE_AS_ARMV8_CRYPTO], [test $mdw_cv_as_armv8_crypto = yes])
if test $mdw_cv_as_armv8_crypto = yes; then
  AC_DEFINE([HAVE_AS_ARMV8_CRYPTO], [1],
    [Define to 1 if your ARM assembler supports the ARMv8 crypto instructions.])
fi

dnl--------------------------------------------------------------------------
dnl C programming environment.

AC_LANG([C])

CATACOMB_LIBS=

dnl Find out if we're cross-compiling.
AM_CONDITIONAL([CROSS_COMPILING], [test "$cross_compiling" = yes])

dnl Various standard types.
AC_CHECK_TYPE([pid_t], [],
  [AC_DEFINE([pid_t], [int],
     [Define to `int' if <sys/types.h> does not define])])
AC_TYPE_UID_T
AC_CHECK_TYPE([ssize_t], [],
  [AC_DEFINE([ssize_t], [int],
     [Define to `int' if <sys/types.h> does not define])])
AC_CHECK_TYPE([socklen_t], [],
  [AC_DEFINE([socklen_t], [int],
     [Define to `int' if <sys/socket.h> does not define])],
  [AC_INCLUDES_DEFAULT
#include <sys/socket.h>
])

dnl The maths library.
mdw_ORIG_LIBS=$LIBS LIBS=
AC_SEARCH_LIBS([log], [m])
AC_SEARCH_LIBS([sqrt], [m])
AC_SUBST([MATHLIBS], [$LIBS])
LIBS=$mdw_ORIG_LIBS

dnl Logging is weird under Termux.  Unfortunately, it involves macros, so we
dnl have to do this the hard way.
AC_CACHE_CHECK(
  [library needed for syslog], [mdw_cv_syslog_lib],
  [mdw_ORIG_LIBS=$LIBS LIBS=
   for i in 0 1; do
     AC_TRY_LINK([#include <syslog.h>],
		 [openlog("test", LOG_PID, LOG_DAEMON);
		  syslog(LOG_ERR, "this is a test");],
		 [ok=t], [ok=nil])
     case $i,$ok in
       *,t) mdw_cv_syslog_lib=${LIBS:-none}; break ;;
       0,nil) LIBS="-llog" ;;
       1,nil) AC_MSG_ERROR("failed to link test program") ;;
     esac
   done
   LIBS=$mdw_ORIG_LIBS])
case $mdw_cv_syslog_lib in
  none) LOGLIBS= ;;
  *) LOGLIBS=$mdw_cv_syslog_lib ;;
esac
AC_SUBST([LOGLIBS])

dnl Find out whether very long integer types are available.
AC_CHECK_HEADERS([stdint.h])
AC_SUBST([have_stdint_h])
AX_C_LONG_LONG

dnl Some equipment wanted for checking CPU features at runtime.
AC_CHECK_HEADERS([asm/hwcap.h])
AC_CHECK_HEADERS([sys/auxv.h])
AC_CHECK_HEADERS([linux/auxvec.h])
AC_CHECK_FUNCS([getauxval])

dnl Find the bit lengths of the obvious integer types.  This will be useful
dnl when deciding on a representation for multiprecision integers.
type_bits="" type_bits_sep=""
AC_DEFUN([catacomb_UINT_BITS],
  [mdw_UINT_BITS([$2], [$1])
   type_bits="$type_bits$type_bits_sep('$1', $[]$1_bits)"
   type_bits_sep=", "])
catacomb_UINT_BITS([uchar], [unsigned char])
catacomb_UINT_BITS([ushort], [unsigned short])
catacomb_UINT_BITS([uint], [unsigned int])
catacomb_UINT_BITS([ulong], [unsigned long])
if test "$ac_cv_c_long_long" = "yes"; then
  catacomb_UINT_BITS([ullong], [unsigned long long])
fi
if test "$ac_cv_header_stdint_h" = "yes"; then
  catacomb_UINT_BITS([uintmax], [uintmax_t])
fi
AC_SUBST([type_bits])

dnl Determine the limits of common C integer types.
limits="" limits_sep=""
AC_DEFUN([catacomb_COMPILE_TIME_CONSTANT],
  [case "$2" in
     =*)
       $1="$2"; $1=${$1#=}
       ;;
     *)
       AC_CACHE_CHECK([compile-time value of $2], [mdw_cv_constant_$3],
		      [mdw_PROBE_CONSTANT([mdw_cv_constant_$3], [$2], [$4])])
       $1=$mdw_cv_constant_$3
       ;;
   esac])
AC_DEFUN([catacomb_LIMIT],
[catacomb_COMPILE_TIME_CONSTANT([lo], [$2], [$1_min],
[#include <limits.h>
#include <stddef.h>])
 catacomb_COMPILE_TIME_CONSTANT([hi], [$3], [$1_max],
[#include <limits.h>
#include <stddef.h>])
 limits="$limits$limits_sep('$1', $lo, $hi)" limits_sep=", "])
catacomb_LIMIT([SCHAR],		[SCHAR_MIN],	[SCHAR_MAX])
catacomb_LIMIT([CHAR],		[CHAR_MIN],	[CHAR_MAX])
catacomb_LIMIT([UCHAR],		[=0],		[UCHAR_MAX])
catacomb_LIMIT([UINT8],		[=0],		[=0xff])
catacomb_LIMIT([SHRT],		[SHRT_MIN],	[SHRT_MAX])
catacomb_LIMIT([USHRT],		[=0],		[USHRT_MAX])
catacomb_LIMIT([UINT16],	[=0],		[=0xffff])
catacomb_LIMIT([INT],		[INT_MIN],	[INT_MAX])
catacomb_LIMIT([UINT],		[=0],		[UINT_MAX])
catacomb_LIMIT([LONG],		[LONG_MIN],	[LONG_MAX])
catacomb_LIMIT([ULONG],		[=0],		[ULONG_MAX])
catacomb_LIMIT([UINT32],	[=0],		[=0xffffffff])
if test "$ac_cv_c_long_long" = "yes"; then
  catacomb_LIMIT([LLONG],	[LLONG_MIN],	[LLONG_MAX])
  catacomb_LIMIT([ULLONG],	[=0],		[ULLONG_MAX])
fi
catacomb_LIMIT([SIZET],		[=0],		[~(size_t)0])
AC_SUBST([limits])

dnl Figure out other aspects of the implementation's arithmetic.
AC_CACHE_CHECK([whether negative numbers use two's complement],
	[catacomb_cv_neg_twoc],
[AC_TRY_COMPILE(
[#include <limits.h>],
[int check[2*!!(-INT_MAX == INT_MIN + 1) - 1];],
[catacomb_cv_neg_twoc=yes],
[catacomb_cv_neg_twoc=no])])
case $catacomb_cv_neg_twoc in
  yes)
    AC_DEFINE([NEG_TWOC], [1],
     [Define if signed numbers are represented in two's complement.])
    ;;
esac

dnl Functions used for noise-gathering.
AC_CHECK_FUNCS([setgroups])
AC_CHECK_HEADERS([linux/random.h])
mdw_ORIG_LIBS=$LIBS LIBS=$CATACOMB_LIBS
AC_SEARCH_LIBS([clock_gettime], [rt])
CATACOMB_LIBS=$LIBS LIBS=$mdw_ORIG_LIBS
if test "$ac_cv_search_clock_gettime" != no; then
  AC_DEFINE([HAVE_CLOCK_GETTIME], [1],
	    [Define if you have the \`clock_gettime' function.])
fi
AC_CHECK_FUNCS([getentropy])
AC_CACHE_CHECK([whether the freewheel noise generator will work],
	[catacomb_cv_freewheel],
[AC_TRY_LINK(
[#include <setjmp.h>
#include <sys/time.h>],
[struct itimerval itv = { { 0, 0 }, { 0, 5000 } };
jmp_buf j;
setitimer(ITIMER_REAL, &itv, 0);
sigsetjmp(j, 1);],
[catacomb_cv_freewheel=yes],
[catacomb_cv_freewheel=no])])
case $catacomb_cv_freewheel in
  yes)
    AC_DEFINE([USE_FREEWHEEL], [1],
	      [Define if you want to use the freewheel noise generator.])
    ;;
esac

dnl Support for the passphrase pixie.
mdw_ORIG_LIBS=$LIBS
AC_SEARCH_LIBS([socket], [socket])
AC_SUBST([PIXIE_LIBS], [$LIBS])
LIBS=$mdw_ORIG_LIBS

dnl Memory locking support.
AC_CHECK_FUNCS([mlock])

dnl See if we can find Valgrind's header files.
AC_CHECK_HEADER([valgrind/memcheck.h],
  AC_DEFINE([HAVE_VALGRIND_H], [1],
	    [Define if the Valgrind header files are available.])
  [])

dnl Set the master libraries we need.
AC_SUBST([CATACOMB_LIBS])

dnl Necessary support libraries.
PKG_CHECK_MODULES([mLib], [mLib >= 2.2.2.1])
AM_CFLAGS="$AM_CFLAGS $mLib_CFLAGS"

dnl--------------------------------------------------------------------------
dnl Python.

dnl Make sure we have a suitable version.
AM_PATH_PYTHON([2.5])

dnl--------------------------------------------------------------------------
dnl Special debugging options.

AC_ARG_ENABLE([mpw],
  [AS_HELP_STRING([--enable-mpw], [force small-width mp digits])],
  [case "$enableval" in
    y*|t*|short)
      AC_DEFINE([FORCE_MPW_SHORT], [1],
		[Define to force small-width mp digits.])
      ;;
    cussid)
      AC_DEFINE([FORCE_MPW_CUSSID], [1],
		[Define to force strange-width mp digits.])
      ;;
   esac])

dnl--------------------------------------------------------------------------
dnl Produce output.

AC_CONFIG_HEADER([config/config.h])

AC_CONFIG_FILES(
  [Makefile]
  [base/Makefile]
  [key/Makefile]
  [math/Makefile]
  [misc/Makefile]
  [pub/Makefile]
  [rand/Makefile]
  [symm/Makefile]
  [progs/Makefile])
AC_OUTPUT

dnl----- That's all, folks --------------------------------------------------
Commit	Line	Data
ba6e6b64 MW	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])
1c8e76bd	34	AM_INIT_AUTOMAKE([foreign parallel-tests color-tests subdir-objects])
08e2be29	35	AC_CANONICAL_HOST
ba6e6b64 MW	36	mdw_SILENT_RULES
	37
	38	AC_PROG_CC
	39	AX_CFLAGS_WARN_ALL
	40	AM_PROG_LIBTOOL
	41	mdw_LIBTOOL_VERSION_INFO
	42
6adca914 MW	43	AM_PROG_AS
6adca914 MW	44
ba6e6b64 MW	45	AC_PROG_YACC
	46
	47	AC_SUBST(AM_CFLAGS)
	48
	49	dnl--------------------------------------------------------------------------
7a5af13c MW	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
7a5af13c	70	dnl--------------------------------------------------------------------------
08e2be29 MW	71	dnl Host-specific configuration.
08e2be29 MW	72
ff1f7e22 MW	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.
08e2be29	76	AC_DEFUN([catacomb_CPU_FAMILIES],
0f23f75f MW	77	[$1([i[[3-6]]86,cygwin], [x86], [win])
	78	$1([i[[3-6]]86,*], [x86], [sysv])
	79	$1([x86_64,cygwin], [amd64], [win])
61bd904b	80	$1([x86_64,*], [amd64], [sysv])
2cbeb9a2	81	$1([arm,-gnueabi \| arm,-gnueabihf \| dnl
e08c000f MW	82	armv,-gnueabi \| armv,-gnueabihf \| dnl
e08c000f MW	83	arm,*-androideabi], [armel], [gnueabi])])
ff1f7e22 MW	84
	85	dnl A utility to clear the `seen' flags, used so as to process each CPU or
	86	dnl ABI once.
	87	m4_define([catacomb_CLEAR_FLAGS],
	88	[m4_ifdef([catacomb_seen_cpu/$2],
	89	[m4_undefine([catacomb_seen_cpu/$2])])dnl
	90	m4_ifdef([catacomb_seen_abi/$3],
	91	[m4_undefine([catacomb_seen_abi/$3])])])
08e2be29	92
ff1f7e22	93	dnl Identify the current host.
401722dc MW	94	case $host_cpu,$host_os in
	95	m4_define([catacomb_CPU_CASE],
	96	[$1) CPUFAM=$2 ABI=$3 ;;
08e2be29	97	])
401722dc MW	98	catacomb_CPU_FAMILIES([catacomb_CPU_CASE])
	99	*) CPUFAM=nil ABI=nil ;;
	100	esac
	101
8ed49b83 MW	102	dnl Now check the assembler. We have target-specific requirements here, so
8ed49b83 MW	103	dnl we couldn't do this any earlier.
401722dc MW	104	AC_CACHE_CHECK(
	105	[whether the assembler is likely to work], [mdw_cv_gnuish_as],
	106	[AC_LANG_PUSH([CPPAS])
	107	AC_COMPILE_IFELSE([AC_LANG_SOURCE([[
	108	.text
	109	.L\$_test = 23
	110	.macro mymac
	111	.L\$_test = .L\$_test + 1
	112	.endm
	113	.globl foo
	114	.extern bar
	115	mymac]])],
	116	[mdw_cv_gnuish_as=yes], [mdw_cv_gnuish_as=no])
8ed49b83 MW	117	case $CPUFAM in
	118	x86 \| amd64)
	119	AC_COMPILE_IFELSE([AC_LANG_SOURCE([[
	120	.text
	121	.arch pentium4
	122	.intel_syntax noprefix
	123	.globl foo
	124	foo:
	125	adcd var, 0
	126	ret
	127	.data
	128	var: .long 1
	129	]])],
	130	[:], [mdw_cv_gnuish_as=no])
	131	;;
	132	esac
401722dc MW	133	AC_LANG_POP([CPPAS])])
	134	AM_CONDITIONAL([GNUISH_AS], [test $mdw_cv_gnuish_as = yes])
	135	if test $mdw_cv_gnuish_as = no; then CPUFAM=nil ABI=nil; fi
ff1f7e22	136
58a125f0 MW	137	dnl A hairy macro used to set the `CPUFAM_...' and `ABI_...' variables. We
	138	dnl basically need to do the same thing for the family and ABI, so it's worth
	139	dnl some effort to hide the ugliness.
	140	m4_define([catacomb_DEFINE_CPU_OR_ABI],
	141	[case $$1 in
	142	m4_define([_def],
	143	[m4_ifdef([catacomb_seen_$3/$$2], [],
	144	[$$2)
	145	AC_DEFINE([$4]m4_translit([$$2], [a-z], [A-Z]), [1], [$5])
	146	;;m4_define([catacomb_seen_$3/$$2], [t])])])
	147	catacomb_CPU_FAMILIES([_def])
ff1f7e22	148	nil) ;;
58a125f0 MW	149	*) AC_MSG_ERROR([BUG: unexpected $1 \`$1']) ;;
58a125f0 MW	150	esac])
ff1f7e22	151
401722dc MW	152	dnl Now that's out the way, we can explain what we're doing.
	153	AC_MSG_CHECKING([CPU family and ABI])
	154
58a125f0	155	dnl Figure out the target CPU family and ABI.
ff1f7e22	156	catacomb_CPU_FAMILIES([catacomb_CLEAR_FLAGS])
58a125f0 MW	157	catacomb_DEFINE_CPU_OR_ABI([CPUFAM], [2], [cpu],
	158	[CPUFAM_], [Define if target CPU is \`$][2\'.])
	159	catacomb_DEFINE_CPU_OR_ABI([ABI], [3], [abi],
	160	[ABI_], [Define if target ABI is \`$][3\'.])
ff1f7e22 MW	161
	162	dnl Establish Automake conditions for things.
	163	catacomb_CPU_FAMILIES([catacomb_CLEAR_FLAGS])
	164	m4_define([catacomb_COND_CPU],
	165	[m4_define([_CPU], m4_translit([$2], [a-z], [A-Z]))
	166	m4_define([_ABI], m4_translit([$3], [a-z], [A-Z]))
	167	AM_CONDITIONAL([CPUABI_]_CPU[_]_ABI, [test x$CPUFAM/$ABI = x$2/$3])
	168	m4_ifdef([catacomb_seen_cpu/$2], [],
	169	[AM_CONDITIONAL([CPUFAM_]_CPU, [test x$CPUFAM = x$2])dnl
	170	m4_define([catacomb_seen_cpu/$2], [t])])
	171	m4_ifdef([catacomb_seen_abi/$3], [],
	172	[AM_CONDITIONAL([ABI_]_ABI, [test x$ABI = x$3])dnl
	173	m4_define([catacomb_seen_abi/$3], [t])])])
	174	catacomb_CPU_FAMILIES([catacomb_COND_CPU])
	175	AM_CONDITIONAL([KNOWN_CPUFAM], [test x$CPUFAM != xnil])
	176
	177	dnl Report on what we found.
	178	case $CPUFAM in
	179	nil) AC_MSG_RESULT([not supported]) ;;
	180	*) AC_MSG_RESULT([$CPUFAM/$ABI]) ;;
08e2be29	181	esac
08e2be29 MW	182
08e2be29 MW	183	dnl--------------------------------------------------------------------------
26e182fc MW	184	dnl CPU-specific assembler features.
	185
	186	AC_LANG([CPPAS])
	187
	188	case $CPUFAM in
	189	armel)
	190	AC_CACHE_CHECK(
	191	[whether the assembler understands ARMv8 crypto extensions],
	192	[mdw_cv_as_armv8_crypto],
	193	[AC_COMPILE_IFELSE([AC_LANG_SOURCE([[
	194	.arch armv8-a
	195	.fpu crypto-neon-fp-armv8
	196
	197	.text
	198	.globl foo
	199	foo:
	200	vldmia r0, {d0-d3}
	201	aese.8 q0, q1
	202	aesmc.8 q0, q0
	203	vstmia r0, {d0, d1}
	204	bx r14]])],
	205	[mdw_cv_as_armv8_crypto=yes],
	206	[mdw_cv_as_armv8_crypto=no])])
	207	;;
	208	esac
	209
	210	: ${mdw_cv_as_armv8_crypto=no}
	211	AM_CONDITIONAL([HAVE_AS_ARMV8_CRYPTO], [test $mdw_cv_as_armv8_crypto = yes])
	212	if test $mdw_cv_as_armv8_crypto = yes; then
	213	AC_DEFINE([HAVE_AS_ARMV8_CRYPTO], [1],
	214	[Define to 1 if your ARM assembler supports the ARMv8 crypto instructions.])
	215	fi
	216
	217	dnl--------------------------------------------------------------------------
ba6e6b64 MW	218	dnl C programming environment.
ba6e6b64 MW	219
fedd2209 MW	220	AC_LANG([C])
fedd2209 MW	221
02fe0bac MW	222	CATACOMB_LIBS=
02fe0bac MW	223
0f00dc4c MW	224	dnl Find out if we're cross-compiling.
	225	AM_CONDITIONAL([CROSS_COMPILING], [test "$cross_compiling" = yes])
	226
ba6e6b64	227	dnl Various standard types.
2527c2f7 MW	228	AC_CHECK_TYPE([pid_t], [],
	229	[AC_DEFINE([pid_t], [int],
	230	[Define to `int' if <sys/types.h> does not define])])
ba6e6b64	231	AC_TYPE_UID_T
2527c2f7 MW	232	AC_CHECK_TYPE([ssize_t], [],
	233	[AC_DEFINE([ssize_t], [int],
	234	[Define to `int' if <sys/types.h> does not define])])
	235	AC_CHECK_TYPE([socklen_t], [],
	236	[AC_DEFINE([socklen_t], [int],
	237	[Define to `int' if <sys/socket.h> does not define])],
	238	[AC_INCLUDES_DEFAULT
	239	#include <sys/socket.h>
	240	])
ba6e6b64 MW	241
ba6e6b64 MW	242	dnl The maths library.
1504e033	243	mdw_ORIG_LIBS=$LIBS LIBS=
ba6e6b64 MW	244	AC_SEARCH_LIBS([log], [m])
ba6e6b64 MW	245	AC_SEARCH_LIBS([sqrt], [m])
1504e033	246	AC_SUBST([MATHLIBS], [$LIBS])
ba6e6b64 MW	247	LIBS=$mdw_ORIG_LIBS
ba6e6b64 MW	248
be12dd9f MW	249	dnl Logging is weird under Termux. Unfortunately, it involves macros, so we
	250	dnl have to do this the hard way.
	251	AC_CACHE_CHECK(
	252	[library needed for syslog], [mdw_cv_syslog_lib],
	253	[mdw_ORIG_LIBS=$LIBS LIBS=
	254	for i in 0 1; do
	255	AC_TRY_LINK([#include <syslog.h>],
	256	[openlog("test", LOG_PID, LOG_DAEMON);
	257	syslog(LOG_ERR, "this is a test");],
	258	[ok=t], [ok=nil])
	259	case $i,$ok in
	260	*,t) mdw_cv_syslog_lib=${LIBS:-none}; break ;;
	261	0,nil) LIBS="-llog" ;;
	262	1,nil) AC_MSG_ERROR("failed to link test program") ;;
	263	esac
	264	done
	265	LIBS=$mdw_ORIG_LIBS])
	266	case $mdw_cv_syslog_lib in
	267	none) LOGLIBS= ;;
	268	*) LOGLIBS=$mdw_cv_syslog_lib ;;
	269	esac
	270	AC_SUBST([LOGLIBS])
	271
1c3d4cf5 MW	272	dnl Find out whether very long integer types are available.
	273	AC_CHECK_HEADERS([stdint.h])
	274	AC_SUBST([have_stdint_h])
729a52ce	275	AX_C_LONG_LONG
1c3d4cf5	276
fedd2209 MW	277	dnl Some equipment wanted for checking CPU features at runtime.
	278	AC_CHECK_HEADERS([asm/hwcap.h])
	279	AC_CHECK_HEADERS([sys/auxv.h])
	280	AC_CHECK_HEADERS([linux/auxvec.h])
	281	AC_CHECK_FUNCS([getauxval])
	282
1c3d4cf5 MW	283	dnl Find the bit lengths of the obvious integer types. This will be useful
	284	dnl when deciding on a representation for multiprecision integers.
	285	type_bits="" type_bits_sep=""
	286	AC_DEFUN([catacomb_UINT_BITS],
	287	[mdw_UINT_BITS([$2], [$1])
	288	type_bits="$type_bits$type_bits_sep('$1', $[]$1_bits)"
	289	type_bits_sep=", "])
	290	catacomb_UINT_BITS([uchar], [unsigned char])
	291	catacomb_UINT_BITS([ushort], [unsigned short])
	292	catacomb_UINT_BITS([uint], [unsigned int])
	293	catacomb_UINT_BITS([ulong], [unsigned long])
	294	if test "$ac_cv_c_long_long" = "yes"; then
	295	catacomb_UINT_BITS([ullong], [unsigned long long])
	296	fi
	297	if test "$ac_cv_header_stdint_h" = "yes"; then
	298	catacomb_UINT_BITS([uintmax], [uintmax_t])
	299	fi
	300	AC_SUBST([type_bits])
	301
	302	dnl Determine the limits of common C integer types.
	303	limits="" limits_sep=""
	304	AC_DEFUN([catacomb_COMPILE_TIME_CONSTANT],
	305	[case "$2" in
	306	=*)
	307	$1="$2"; $1=${$1#=}
	308	;;
	309	*)
	310	AC_CACHE_CHECK([compile-time value of $2], [mdw_cv_constant_$3],
	311	[mdw_PROBE_CONSTANT([mdw_cv_constant_$3], [$2], [$4])])
	312	$1=$mdw_cv_constant_$3
	313	;;
	314	esac])
	315	AC_DEFUN([catacomb_LIMIT],
	316	[catacomb_COMPILE_TIME_CONSTANT([lo], [$2], [$1_min],
	317	[#include <limits.h>
	318	#include <stddef.h>])
	319	catacomb_COMPILE_TIME_CONSTANT([hi], [$3], [$1_max],
	320	[#include <limits.h>
	321	#include <stddef.h>])
	322	limits="$limits$limits_sep('$1', $lo, $hi)" limits_sep=", "])
	323	catacomb_LIMIT([SCHAR], [SCHAR_MIN], [SCHAR_MAX])
	324	catacomb_LIMIT([CHAR], [CHAR_MIN], [CHAR_MAX])
	325	catacomb_LIMIT([UCHAR], [=0], [UCHAR_MAX])
	326	catacomb_LIMIT([UINT8], [=0], [=0xff])
	327	catacomb_LIMIT([SHRT], [SHRT_MIN], [SHRT_MAX])
	328	catacomb_LIMIT([USHRT], [=0], [USHRT_MAX])
	329	catacomb_LIMIT([UINT16], [=0], [=0xffff])
	330	catacomb_LIMIT([INT], [INT_MIN], [INT_MAX])
	331	catacomb_LIMIT([UINT], [=0], [UINT_MAX])
	332	catacomb_LIMIT([LONG], [LONG_MIN], [LONG_MAX])
	333	catacomb_LIMIT([ULONG], [=0], [ULONG_MAX])
	334	catacomb_LIMIT([UINT32], [=0], [=0xffffffff])
	335	if test "$ac_cv_c_long_long" = "yes"; then
	336	catacomb_LIMIT([LLONG], [LLONG_MIN], [LLONG_MAX])
	337	catacomb_LIMIT([ULLONG], [=0], [ULLONG_MAX])
	338	fi
	339	catacomb_LIMIT([SIZET], [=0], [~(size_t)0])
	340	AC_SUBST([limits])
	341
ee39a683 MW	342	dnl Figure out other aspects of the implementation's arithmetic.
	343	AC_CACHE_CHECK([whether negative numbers use two's complement],
	344	[catacomb_cv_neg_twoc],
	345	[AC_TRY_COMPILE(
	346	[#include <limits.h>],
	347	[int check[2*!!(-INT_MAX == INT_MIN + 1) - 1];],
	348	[catacomb_cv_neg_twoc=yes],
	349	[catacomb_cv_neg_twoc=no])])
	350	case $catacomb_cv_neg_twoc in
	351	yes)
	352	AC_DEFINE([NEG_TWOC], [1],
	353	[Define if signed numbers are represented in two's complement.])
	354	;;
	355	esac
	356
ba6e6b64 MW	357	dnl Functions used for noise-gathering.
ba6e6b64 MW	358	AC_CHECK_FUNCS([setgroups])
baf5b59c	359	AC_CHECK_HEADERS([linux/random.h])
8039afaf MW	360	mdw_ORIG_LIBS=$LIBS LIBS=$CATACOMB_LIBS
	361	AC_SEARCH_LIBS([clock_gettime], [rt])
	362	CATACOMB_LIBS=$LIBS LIBS=$mdw_ORIG_LIBS
fe54dc64	363	if test "$ac_cv_search_clock_gettime" != no; then
8039afaf MW	364	AC_DEFINE([HAVE_CLOCK_GETTIME], [1],
	365	[Define if you have the \`clock_gettime' function.])
	366	fi
6d4416cc	367	AC_CHECK_FUNCS([getentropy])
ba6e6b64 MW	368	AC_CACHE_CHECK([whether the freewheel noise generator will work],
	369	[catacomb_cv_freewheel],
	370	[AC_TRY_LINK(
	371	[#include <setjmp.h>
	372	#include <sys/time.h>],
	373	[struct itimerval itv = { { 0, 0 }, { 0, 5000 } };
	374	jmp_buf j;
	375	setitimer(ITIMER_REAL, &itv, 0);
f6ca8103	376	sigsetjmp(j, 1);],
ba6e6b64 MW	377	[catacomb_cv_freewheel=yes],
	378	[catacomb_cv_freewheel=no])])
	379	case $catacomb_cv_freewheel in
	380	yes)
	381	AC_DEFINE([USE_FREEWHEEL], [1],
	382	[Define if you want to use the freewheel noise generator.])
	383	;;
	384	esac
	385
	386	dnl Support for the passphrase pixie.
	387	mdw_ORIG_LIBS=$LIBS
	388	AC_SEARCH_LIBS([socket], [socket])
	389	AC_SUBST([PIXIE_LIBS], [$LIBS])
	390	LIBS=$mdw_ORIG_LIBS
	391
	392	dnl Memory locking support.
	393	AC_CHECK_FUNCS([mlock])
	394
1aaccf40 MW	395	dnl See if we can find Valgrind's header files.
	396	AC_CHECK_HEADER([valgrind/memcheck.h],
	397	AC_DEFINE([HAVE_VALGRIND_H], [1],
	398	[Define if the Valgrind header files are available.])
	399	[])
	400
02fe0bac MW	401	dnl Set the master libraries we need.
	402	AC_SUBST([CATACOMB_LIBS])
	403
ba6e6b64	404	dnl Necessary support libraries.
a1acefec	405	PKG_CHECK_MODULES([mLib], [mLib >= 2.2.2.1])
ba6e6b64 MW	406	AM_CFLAGS="$AM_CFLAGS $mLib_CFLAGS"
	407
	408	dnl--------------------------------------------------------------------------
	409	dnl Python.
	410
	411	dnl Make sure we have a suitable version.
	412	AM_PATH_PYTHON([2.5])
	413
	414	dnl--------------------------------------------------------------------------
	415	dnl Special debugging options.
	416
	417	AC_ARG_ENABLE([mpw],
	418	[AS_HELP_STRING([--enable-mpw], [force small-width mp digits])],
	419	[case "$enableval" in
	420	y\|t\|short)
	421	AC_DEFINE([FORCE_MPW_SHORT], [1],
	422	[Define to force small-width mp digits.])
	423	;;
	424	cussid)
	425	AC_DEFINE([FORCE_MPW_CUSSID], [1],
	426	[Define to force strange-width mp digits.])
	427	;;
	428	esac])
	429
	430	dnl--------------------------------------------------------------------------
	431	dnl Produce output.
	432
	433	AC_CONFIG_HEADER([config/config.h])
	434
	435	AC_CONFIG_FILES(
0f00dc4c MW	436	[Makefile]
	437	[base/Makefile]
	438	[key/Makefile]
	439	[math/Makefile]
	440	[misc/Makefile]
	441	[pub/Makefile]
	442	[rand/Makefile]
	443	[symm/Makefile]
	444	[progs/Makefile])
ba6e6b64 MW	445	AC_OUTPUT
	446
	447	dnl----- That's all, folks --------------------------------------------------