## Process this file with autoconf to produce a configure script. ## ## $Id$ AC_PREREQ([2.68]) AC_INIT([rtems-cpukit],[_RTEMS_VERSION],[http://www.rtems.org/bugzilla]) AC_CONFIG_SRCDIR([score]) RTEMS_TOP([..],[]) RTEMS_CANONICAL_TARGET_CPU AM_INIT_AUTOMAKE([no-define nostdinc subdir-objects foreign 1.11.1]) AM_MAINTAINER_MODE RTEMS_ENABLE_MULTILIB RTEMS_ENABLE_MULTIPROCESSING RTEMS_ENABLE_POSIX RTEMS_ENABLE_ITRON RTEMS_ENABLE_RTEMS_DEBUG RTEMS_ENABLE_NETWORKING RTEMS_ENABLE_HTTPD RTEMS_ENABLE_SHTTPD RTEMS_ENV_RTEMSCPU RTEMS_CHECK_RTEMS_DEBUG # Is this a supported CPU? AC_MSG_CHECKING([if cpu $RTEMS_CPU is supported]) if test -d "$srcdir/score/cpu/$RTEMS_CPU"; then AC_MSG_RESULT(yes) else AC_MSG_ERROR(no) fi RTEMS_PROG_CC_FOR_TARGET RTEMS_PROG_CCAS RTEMS_CANONICALIZE_TOOLS AM_PROG_CC_C_O AC_PROG_RANLIB RTEMS_CHECK_NEWLIB # BSD-isms, used throughout the sources # Not really used by this configure script # FIXME: They should be eliminated if possible. AC_CHECK_FUNCS([strsep strcasecmp snprintf]) AC_CHECK_FUNCS([strdup strndup strncasecmp]) AC_CHECK_FUNCS([bcopy bcmp]) AC_CHECK_FUNCS([isascii fileno]) # # Check for functions supplied by newlib >= 1.17.0 # Newlib's posix/ directory AC_CHECK_FUNCS([sleep usleep \ opendir closedir readdir readdir_r \ rewinddir scandir seekdir telldir isatty]) AC_CHECK_FUNCS([creat]) AC_CHECK_FUNCS([__assert]) AC_CHECK_FUNCS([execl execlp execle execv execvp execve]) AC_CHECK_FUNCS([regcomp regexec regerror regfree]) # Mandated by POSIX but not present in newlib AC_CHECK_DECLS([flockfile],[AC_CHECK_FUNCS([flockfile])],,[#include ]) AC_CHECK_DECLS([funlockfile],[AC_CHECK_FUNCS([funlockfile])],,[#include ]) AC_CHECK_DECLS([ftrylockfile],[AC_CHECK_FUNCS([ftrylockfile])],,[#include ]) # Newlib's unix/ directory AC_CHECK_FUNCS([ttyname getcwd]) # ## Check if the installed toolchain has these headers AC_CHECK_HEADERS([tar.h errno.h sched.h]) ## error out if libc doesn't provide stdint.h AS_IF([test x"${ac_cv_header_stdint_h}" != xyes], [AC_MSG_ERROR([Required header stdint.h not found])]) ## error out if libc doesn't provide inttypes.h AS_IF([test x"${ac_cv_header_inttypes_h}" != xyes], [AC_MSG_ERROR([Required header inttypes.h not found])]) ## error out if libc doesn't provide errno.h AS_IF([test x"${ac_cv_header_errno_h}" != xyes], [AC_MSG_ERROR([Required header errno.h not found])]) ## error out if libc doesn't provide sched.h AS_IF([test x"${ac_cv_header_sched_h}" != xyes], [AC_MSG_ERROR([Required header sched.h not found])]) ## error out if libc doesn't provide tar.h AS_IF([test x"${ac_cv_header_tar_h}" != xyes], [AC_MSG_ERROR([Required header tar.h not found])]) AC_HEADER_STDBOOL AS_IF([test x"${ac_cv_header_stdbool_h}" != xyes], [AC_MSG_ERROR([No sufficient stdbool.h found])]) AC_CHECK_TYPES([ uint8_t, int8_t]) AC_CHECK_TYPES([uint16_t, int16_t]) AC_CHECK_TYPES([uint32_t, int32_t]) AC_CHECK_TYPES([uint64_t, int64_t]) AC_CHECK_TYPES([uintmax_t, intmax_t]) AC_CHECK_TYPES([uintptr_t, intptr_t]) # Some toolchain sanity checks and diagnostics RTEMS_CHECK_GCC_SANITY # These are conditionally defined by the toolchain # FIXME: we should either conditionally compile those parts in # RTEMS depending on them, or abort - For now, simply check. AC_CHECK_HEADER([pthread.h],[ AC_CHECK_TYPES([pthread_rwlock_t]) AC_CHECK_TYPES([pthread_barrier_t]) AC_CHECK_TYPES([pthread_spinlock_t]) ]) RTEMS_CHECK_MULTIPROCESSING RTEMS_CHECK_POSIX_API RTEMS_CHECK_ITRON_API RTEMS_CHECK_NETWORKING rtems_major=`echo _RTEMS_VERSION | sed "s/\..*//"` rtems_minor=`echo _RTEMS_VERSION | sed "s/[[0-9]][[0-9]]*\.//;s/\..*//"` rtems_revision=`echo _RTEMS_VERSION | sed "s/[[0-9]][[0-9]]*\.//;s/[[0-9]][[0-9]]*\.//;s/\..*//"` _RTEMS_CPUOPT_INIT RTEMS_CPUOPT([RTEMS_DEBUG], [test x"${enable_rtems_debug}" = x"yes"], [1], [if RTEMS_DEBUG is enabled]) RTEMS_CPUOPT([RTEMS_ITRON_API], [test x"$rtems_cv_HAS_ITRON_API" = x"yes"], [1], [if itron api is supported]) RTEMS_CPUOPT([RTEMS_MULTIPROCESSING], [test x"$enable_multiprocessing" = xyes], [1], [if multiprocessing is enabled]) RTEMS_CPUOPT([RTEMS_NEWLIB], [test x"$RTEMS_USE_NEWLIB" = xyes], [1], [if using newlib]) RTEMS_CPUOPT([RTEMS_POSIX_API], [test x"$rtems_cv_HAS_POSIX_API" = xyes], [1], [if posix api is supported]) RTEMS_CPUOPT([RTEMS_NETWORKING], [test x"$rtems_cv_HAS_NETWORKING" = xyes], [1], [if networking is enabled]) RTEMS_CPUOPT([RTEMS_VERSION], [true], ["]_RTEMS_VERSION["], [RTEMS version string]) RTEMS_CPUOPT([__RTEMS_USE_TICKS_FOR_STATISTICS__], [test x"${USE_TICKS_FOR_STATISTICS}" = x"1"], [1], [disable nanosecond granularity for statistics]) RTEMS_CPUOPT([__RTEMS_USE_TICKS_CPU_USAGE_STATISTICS__], [test x"${USE_TICKS_FOR_CPU_USAGE_STATISTICS}" = x"1"], [1], [disable nanosecond granularity for cpu usage statistics]) RTEMS_CPUOPT([__RTEMS_USE_TICKS_RATE_MONOTONIC_STATISTICS__], [test x"${USE_TICKS_FOR_RATE_MONOTONIC_STATISTICS}" = x"1"], [1], [disable nanosecond granularity for period statistics]) ## This improves both the size and coverage analysis. RTEMS_CPUOPT([__RTEMS_DO_NOT_INLINE_THREAD_ENABLE_DISPATCH__], [test x"${RTEMS_DO_NOT_INLINE_THREAD_ENABLE_DISPATCH}" = x"1"], [1], [disable inlining _Thread_Enable_dispatch]) ## This improves both the size and coverage analysis. RTEMS_CPUOPT([__RTEMS_DO_NOT_INLINE_CORE_MUTEX_SEIZE__], [test x"${RTEMS_DO_NOT_INLINE_CORE_MUTEX_SEIZE}" = x"1"], [1], [disable inlining _Thread_Enable_dispatch]) ## This improves both the size and coverage analysis. RTEMS_CPUOPT([__RTEMS_DO_NOT_UNROLL_THREADQ_ENQUEUE_PRIORITY__], [test x"${RTEMS_DO_NOT_UNROLL_THREADQ_ENQUEUE_PRIORITY}" = x"1"], [1], [disable inlining _Thread_queue_Enqueue_priority]) ## This gives the same behavior as 4.8 and older RTEMS_CPUOPT([__RTEMS_STRICT_ORDER_MUTEX__], [test x"${ENABLE_STRICT_ORDER_MUTEX}" = x"1"], [1], [disable strict order mutex]) ## Deactivate ada bindings RTEMS_CPUOPT([__RTEMS_ADA__], [test x"${enable_ada}" = x"yes"], [1], [Define to 1 if ada/gnat bindings are built-in]) RTEMS_CPUOPT([__RTEMS_MAJOR__], [true], [$rtems_major], [major version portion of an RTEMS release]) RTEMS_CPUOPT([__RTEMS_MINOR__], [true], [$rtems_minor], [minor version portion of an RTEMS release]) RTEMS_CPUOPT([__RTEMS_REVISION__], [true], [$rtems_revision], [revision version portion of an RTEMS release]) _RTEMS_CPUOPT_FINI AC_ENABLE_MULTILIB([Makefile],[..]) # libmisc/shell/* wants to assign file descriptors to stdio file descriptors. AC_MSG_CHECKING([for assignable stdio]) AC_COMPILE_IFELSE( [AC_LANG_PROGRAM( [#include ], [stdin = fopen("/tmp", "r")])], [HAVE_ASSIGNABLE_STDIO=yes], [HAVE_ASSIGNABLE_STDIO=no]) AC_MSG_RESULT([$HAVE_ASSIGNABLE_STDIO]) # libmisc/serdbg exploits weak symbols RTEMS_CHECK_GCC_WEAK AC_CHECK_HEADERS([sys/cdefs.h],[NEED_SYS_CDEFS_H=no],[NEED_SYS_CDEFS_H=yes]) AC_CHECK_HEADERS([sys/queue.h],[NEED_SYS_QUEUE_H=no],[NEED_SYS_QUEUE_H=yes]) # FIXME: These checks are only in here to provide # configuration-time diagnostics and are not really used. AC_CHECK_DECLS([_POSIX_LOGIN_NAME_MAX],,,[#include ]) AC_CHECK_DECLS([CHAR_BIT],,,[#include ]) # FIXME: We should get rid of this. # So far, only used in libfs/src/nfsclient/src/dirutils.c AC_CHECK_SIZEOF([mode_t]) AC_CHECK_SIZEOF([off_t]) # FIXME: Mandatory in SUSv4, optional in SUSv3. # Not implemented in GCC/newlib, so far. AC_CHECK_DECLS([WORD_BIT],,,[#include ]) AC_CHECK_DECLS([LONG_BIT],,,[#include ]) ## BSD-ism, excluded from POSIX, but available on most platforms AC_CHECK_DECLS([sbrk],,,[#include ]) ## Check if libc provides BSD's strlcpy/strlcat AC_CHECK_FUNCS(strlcpy strlcat) # ... far too many conditionals ... AM_CONDITIONAL(LIBRPC,[test x"$rtems_cv_HAS_NETWORKING" = x"yes"]) AM_CONDITIONAL(NEWLIB,test x"$RTEMS_USE_NEWLIB" = x"yes") AM_CONDITIONAL(HAS_MP,test x"$enable_multiprocessing" = x"yes" ) AM_CONDITIONAL(HAS_PTHREADS,test x"$rtems_cv_HAS_POSIX_API" = x"yes") AM_CONDITIONAL(LIBITRON,test x"$rtems_cv_HAS_ITRON_API" = x"yes") AM_CONDITIONAL(LIBNETWORKING,test x"$rtems_cv_HAS_NETWORKING" = x"yes") AM_CONDITIONAL([LIBHTTPD],[test x"$rtems_cv_HAS_NETWORKING" = xyes \ && test x"$enable_httpd" = xyes]) AM_CONDITIONAL([LIBSHTTPD],[test x"$rtems_cv_HAS_NETWORKING" = xyes \ && test x"$enable_shttpd" = xyes]) AM_CONDITIONAL([NEED_SYS_CDEFS_H],[test x"$NEED_SYS_CDEFS_H" = x"yes"]) AM_CONDITIONAL([NEED_SYS_QUEUE_H],[test x"$NEED_SYS_QUEUE_H" = x"yes"]) AM_CONDITIONAL([LIBSHELL],[test x"$HAVE_ASSIGNABLE_STDIO" = x"yes"]) AM_CONDITIONAL([LIBSERDBG],[test x"$rtems_cv_cc_attribute_weak" = x"yes"]) AM_CONDITIONAL([LIBGNAT],[test x"$rtems_cv_HAS_POSIX_API" = x"yes" \ && test x"$enable_ada" = x"yes"]) AM_CONDITIONAL([LIBDOSFS],[dnl test x"$ac_cv_type_uint8_t" = xyes \ && test x"$ac_cv_type_uint16_t" = xyes]) AC_CONFIG_HEADER(config.h) ## These are needed by the NFS Client AC_CHECK_PROG(RPCGEN,rpcgen,rpcgen) AM_CONDITIONAL([RPCTOOLS],[test "$RPCGEN" = rpcgen \ && test -n "$AWK" \ && test "$enable_rpcgen" = yes]) RTEMS_AMPOLISH3 # Explicitly list all Makefiles here AC_CONFIG_FILES([ Doxyfile Makefile rtems/Makefile sapi/Makefile score/Makefile score/cpu/Makefile score/cpu/arm/Makefile score/cpu/bfin/Makefile score/cpu/avr/Makefile score/cpu/h8300/Makefile score/cpu/i386/Makefile score/cpu/lm32/Makefile score/cpu/m68k/Makefile score/cpu/m32c/Makefile score/cpu/m32r/Makefile score/cpu/mips/Makefile score/cpu/powerpc/Makefile score/cpu/sh/Makefile score/cpu/sparc/Makefile score/cpu/no_cpu/Makefile posix/Makefile itron/Makefile libblock/Makefile libfs/Makefile libfs/src/nfsclient/Makefile libgnat/Makefile libcsupport/Makefile libnetworking/Makefile librpc/Makefile libmisc/Makefile libi2c/Makefile libmd/Makefile zlib/Makefile httpd/Makefile ftpd/Makefile telnetd/Makefile pppd/Makefile shttpd/Makefile mghttpd/Makefile wrapup/Makefile]) AC_CONFIG_COMMANDS([preinstall-stamp], [test -z "$with_multisubdir" && ${MAKE} preinstall-stamp], [MAKE=${MAKE} with_multisubdir="$with_multisubdir"]) AC_OUTPUT