touchlock \
cfmakeraw cfsetspeed copysign __executable_start)
+dnl FIXME Fragile: something else may test for getwd as a dependency.
+dnl Change to defining BROKEN_xxx ?
dnl getwd appears to be buggy on SVR4.2, so we don't use it.
if test $opsys != unixware; then
AC_CHECK_FUNCS(getwd)
fi
+dnl FIXME Fragile: see above.
## Eric Backus <ericb@lsid.hp.com> says, HP-UX 9.x on HP 700 machines
## has a broken `rint' in some library versions including math library
## version number A.09.05.
AC_DEFINE(BROKEN_SIGAIO, 1, [Define if SIGAIO should not be used.])
AC_DEFINE(BROKEN_SIGPOLL,1, [Define if SIGPOLL should not be used.])
AC_DEFINE(BROKEN_SIGPTY, 1, [Define if SIGPTY should not be used.])
+
+ dnl On AIX Emacs uses the gmalloc.c malloc implementation. But given
+ dnl the way this system works, libc functions that return malloced
+ dnl memory use the libc malloc implementation. Calling xfree or
+ dnl xrealloc on the results of such functions results in a crash.
+ dnl
+ dnl One solution for this could be to define SYSTEM_MALLOC in configure,
+ dnl but that does not currently work on this system.
+ dnl
+ dnl It is possible to completely override the malloc implementation on
+ dnl AIX, but that involves putting the malloc functions in a shared
+ dnl library and setting the MALLOCTYPE environment variable to point to
+ dnl that shared library.
+ dnl
+ dnl Emacs currently calls xrealloc on the results of get_current_dir name,
+ dnl to avoid a crash just use the Emacs implementation for that function.
+ dnl
+ dnl FIXME We could change the AC_CHECK_FUNCS call near the start
+ dnl of this file, so that we do not check for get_current_dir_name
+ dnl on AIX. But that might be fragile if something else ends
+ dnl up testing for get_current_dir_name as a dependency.
+ AC_DEFINE(BROKEN_GET_CURRENT_DIR_NAME, 1, [Define if
+ get_current_dir_name should not be used.])
+ ;;
+
+ freebsd)
+ dnl Circumvent a bug in FreeBSD. In the following sequence of
+ dnl writes/reads on a PTY, read(2) returns bogus data:
+ dnl
+ dnl write(2) 1022 bytes
+ dnl write(2) 954 bytes, get EAGAIN
+ dnl read(2) 1024 bytes in process_read_output
+ dnl read(2) 11 bytes in process_read_output
+ dnl
+ dnl That is, read(2) returns more bytes than have ever been written
+ dnl successfully. The 1033 bytes read are the 1022 bytes written
+ dnl successfully after processing (for example with CRs added if the
+ dnl terminal is set up that way which it is here). The same bytes will
+ dnl be seen again in a later read(2), without the CRs.
+ AC_DEFINE(BROKEN_PTY_READ_AFTER_EAGAIN, 1, [Define on FreeBSD to
+ work around an issue when reading from a PTY.])
;;
dnl Define the following so emacs symbols will not conflict with those
esac
+dnl Used in process.c, this must be a loop, even if it only runs once.
+dnl (Except on SGI; see below. Take that, clarity and consistency!)
+AH_TEMPLATE(PTY_ITERATION, [How to iterate over PTYs.])
+dnl Only used if !PTY_ITERATION. Iterate from FIRST_PTY_LETTER to z,
+dnl trying suffixes 0-16.
+AH_TEMPLATE(FIRST_PTY_LETTER, [Letter to use in finding device name of
+ first PTY, if PTYs are supported.])
+AH_TEMPLATE(PTY_OPEN, [How to open a PTY, if non-standard.])
+AH_TEMPLATE(PTY_NAME_SPRINTF, [How to get the device name of the control
+ end of a PTY, if non-standard.])
+AH_TEMPLATE(PTY_TTY_NAME_SPRINTF, [How to get device name of the tty
+ end of a PTY, if non-standard.])
+
+case $opsys in
+ aix4-2 )
+ AC_DEFINE(PTY_ITERATION, [int c; for (c = 0; !c ; c++)] )
+ dnl You allocate a pty by opening /dev/ptc to get the master side.
+ dnl To get the name of the slave side, you just ttyname() the master side.
+ AC_DEFINE(PTY_NAME_SPRINTF, [strcpy (pty_name, "/dev/ptc");] )
+ AC_DEFINE(PTY_TTY_NAME_SPRINTF, [strcpy (pty_name, ttyname (fd));] )
+ ;;
+
+ cygwin )
+ AC_DEFINE(PTY_ITERATION, [int i; for (i = 0; i < 1; i++)] )
+ dnl multi-line AC_DEFINEs are hard. :(
+ AC_DEFINE(PTY_OPEN, [ do { int dummy; SIGMASKTYPE mask; mask = sigblock (sigmask (SIGCHLD)); if (-1 == openpty (&fd, &dummy, pty_name, 0, 0)) fd = -1; sigsetmask (mask); if (fd >= 0) emacs_close (dummy); } while (0)] )
+ AC_DEFINE(PTY_NAME_SPRINTF, [] )
+ AC_DEFINE(PTY_TTY_NAME_SPRINTF, [] )
+ ;;
+
+ darwin )
+ AC_DEFINE(PTY_ITERATION, [int i; for (i = 0; i < 1; i++)] )
+ dnl Not used, because PTY_ITERATION is defined.
+ AC_DEFINE(FIRST_PTY_LETTER, ['p'])
+ dnl Note that openpty may fork via grantpt on Mac OS X 10.4/Darwin 8.
+ dnl But we don't have to block SIGCHLD because it is blocked in the
+ dnl implementation of grantpt.
+ AC_DEFINE(PTY_OPEN, [ do { int slave; if (openpty (&fd, &slave, pty_name, NULL, NULL) == -1) fd = -1; else emacs_close (slave); } while (0)] )
+ AC_DEFINE(PTY_NAME_SPRINTF, [] )
+ AC_DEFINE(PTY_TTY_NAME_SPRINTF, [] )
+ ;;
+
+ gnu | freebsd | netbsd | openbsd )
+ AC_DEFINE(FIRST_PTY_LETTER, ['p'])
+ ;;
+
+ gnu-linux | gnu-kfreebsd )
+ dnl if HAVE_GRANTPT
+ if test "x$ac_cv_func_grantpt" = xyes; then
+ AC_DEFINE(PTY_ITERATION, [int i; for (i = 0; i < 1; i++)] )
+ dnl Note that grantpt and unlockpt may fork. We must block SIGCHLD
+ dnl to prevent sigchld_handler from intercepting the child's death.
+ AC_DEFINE(PTY_TTY_NAME_SPRINTF, [{ char *ptyname; sigblock (sigmask (SIGCHLD)); if (grantpt (fd) == -1 || unlockpt (fd) == -1 || !(ptyname = ptsname(fd))) { sigunblock (sigmask (SIGCHLD)); close (fd); return -1; } snprintf (pty_name, sizeof pty_name, "%s", ptyname); sigunblock (sigmask (SIGCHLD)); }] )
+ dnl if HAVE_GETPT
+ if test "x$ac_cv_func_getpt" = xyes; then
+ AC_DEFINE(PTY_OPEN, [fd = getpt ()])
+ AC_DEFINE(PTY_NAME_SPRINTF, [] )
+ else
+ AC_DEFINE(PTY_NAME_SPRINTF, [strcpy (pty_name, "/dev/ptmx");] )
+ fi
+ else
+ AC_DEFINE(FIRST_PTY_LETTER, ['p'])
+ fi
+ ;;
+
+ hpux*)
+ AC_DEFINE(FIRST_PTY_LETTER, ['p'])
+ AC_DEFINE(PTY_NAME_SPRINTF, [sprintf (pty_name, "/dev/ptym/pty%c%x", c, i);] )
+ AC_DEFINE(PTY_TTY_NAME_SPRINTF, [sprintf (pty_name, "/dev/pty/tty%c%x", c, i);] )
+ ;;
+
+ irix6-5 )
+ dnl It looks like this cannot be right, because it is not a loop.
+ dnl However, process.c actually does this:
+ dnl # ifndef __sgi
+ dnl continue;
+ dnl # else
+ dnl return -1;
+ dnl # endif
+ dnl which presumably makes it OK, since irix == sgi (?).
+ dnl FIXME it seems like this special treatment is unnecessary?
+ dnl Why can't irix use a single-trip loop like eg cygwin?
+ AC_DEFINE(PTY_ITERATION, [])
+ dnl Not used, because PTY_ITERATION is defined.
+ AC_DEFINE(FIRST_PTY_LETTER, ['q'])
+ AC_DEFINE(PTY_OPEN, [ { struct sigaction ocstat, cstat; struct stat stb; char * name; sigemptyset(&cstat.sa_mask); cstat.sa_handler = SIG_DFL; cstat.sa_flags = 0; sigaction(SIGCLD, &cstat, &ocstat); name = _getpty (&fd, O_RDWR | O_NDELAY, 0600, 0); sigaction(SIGCLD, &ocstat, (struct sigaction *)0); if (name == 0) return -1; if (fd < 0) return -1; if (fstat (fd, &stb) < 0) return -1; strcpy (pty_name, name); }] )
+ dnl No need to get the pty name at all.
+ AC_DEFINE(PTY_NAME_SPRINTF, [] )
+ dnl No need to use sprintf to get the tty name--we get that from _getpty.
+ AC_DEFINE(PTY_TTY_NAME_SPRINTF, [] )
+ ;;
+
+ sol2* )
+ dnl This change means that we don't loop through allocate_pty too
+ dnl many times in the (rare) event of a failure.
+ AC_DEFINE(FIRST_PTY_LETTER, ['z'])
+ AC_DEFINE(PTY_NAME_SPRINTF, [strcpy (pty_name, "/dev/ptmx");] )
+ dnl Uses sigblock/sigunblock rather than sighold/sigrelse,
+ dnl which appear to be BSD4.1 specific. It may also be appropriate
+ dnl for SVR4.x (x<2) but I'm not sure. fnf@cygnus.com
+ dnl On SysVr4, grantpt(3) forks a subprocess, so keep sigchld_handler()
+ dnl from intercepting that death. If any child but grantpt's should die
+ dnl within, it should be caught after sigrelse(2).
+ AC_DEFINE(PTY_TTY_NAME_SPRINTF, [{ char *ptsname (int), *ptyname; sigblock (sigmask (SIGCLD)); if (grantpt (fd) == -1) { emacs_close (fd); return -1; } sigunblock (sigmask (SIGCLD)); if (unlockpt (fd) == -1) { emacs_close (fd); return -1; } if (!(ptyname = ptsname (fd))) { emacs_close (fd); return -1; } snprintf (pty_name, sizeof pty_name, "%s", ptyname); }] )
+ ;;
+
+ dnl Comments are as per sol2*.
+ unixware )
+ AC_DEFINE(FIRST_PTY_LETTER, ['z'])
+ AC_DEFINE(PTY_NAME_SPRINTF, [strcpy (pty_name, "/dev/ptmx");] )
+ AC_DEFINE(PTY_TTY_NAME_SPRINTF, [{ char *ptsname (int), *ptyname; sigblock(sigmask(SIGCLD)); if (grantpt(fd) == -1) fatal("could not grant slave pty"); sigunblock(sigmask(SIGCLD)); if (unlockpt(fd) == -1) fatal("could not unlock slave pty"); if (!(ptyname = ptsname(fd))) fatal ("could not enable slave pty"); snprintf (pty_name, sizeof pty_name, "%s", ptyname); }] )
+ ;;
+esac
+
+
AH_TEMPLATE(SIGNALS_VIA_CHARACTERS, [Make process_send_signal work by
"typing" a signal character on the pty.])
case $opsys in
+ dnl Emacs supplies its own malloc, but glib (part of Gtk+) calls
+ dnl memalign and on Cygwin, that becomes the Cygwin-supplied memalign.
+ dnl As malloc is not the Cygwin malloc, the Cygwin memalign always
+ dnl returns ENOSYS. A workaround is to set G_SLICE=always-malloc. */
+ cygwin)
+ AC_DEFINE(G_SLICE_ALWAYS_MALLOC, 1, [Define to set the
+ G_SLICE environment variable to "always-malloc" at startup, if
+ using GTK.])
+ ;;
+
gnu) opsysfile="s/bsd-common.h" ;;
gnu-kfreebsd) opsysfile="s/gnu-linux.h" ;;