ocaml/otherlibs/unix/termios.c

316 lines
7.6 KiB
C

/***********************************************************************/
/* */
/* Objective Caml */
/* */
/* Xavier Leroy, projet Cristal, INRIA Rocquencourt */
/* */
/* Copyright 1996 Institut National de Recherche en Informatique et */
/* en Automatique. All rights reserved. This file is distributed */
/* under the terms of the GNU Library General Public License. */
/* */
/***********************************************************************/
/* $Id$ */
#include <mlvalues.h>
#include <alloc.h>
#include "unixsupport.h"
#ifdef HAS_TERMIOS
#include <termios.h>
#include <errno.h>
static struct termios terminal_status;
enum { Bool, Enum, Speed, Char, End };
enum { Input, Output };
#define iflags ((long)(&terminal_status.c_iflag))
#define oflags ((long)(&terminal_status.c_oflag))
#define cflags ((long)(&terminal_status.c_cflag))
#define lflags ((long)(&terminal_status.c_lflag))
/* Number of fields in the terminal_io record field. Cf. unix.mli */
#define NFIELDS 38
/* Structure of the terminal_io record. Cf. unix.mli */
static long terminal_io_descr[] = {
/* Input modes */
Bool, iflags, IGNBRK,
Bool, iflags, BRKINT,
Bool, iflags, IGNPAR,
Bool, iflags, PARMRK,
Bool, iflags, INPCK,
Bool, iflags, ISTRIP,
Bool, iflags, INLCR,
Bool, iflags, IGNCR,
Bool, iflags, ICRNL,
Bool, iflags, IXON,
Bool, iflags, IXOFF,
/* Output modes */
Bool, oflags, OPOST,
/* Control modes */
Speed, Output,
Speed, Input,
Enum, cflags, 5, 4, CSIZE, CS5, CS6, CS7, CS8,
Enum, cflags, 1, 2, CSTOPB, 0, CSTOPB,
Bool, cflags, CREAD,
Bool, cflags, PARENB,
Bool, cflags, PARODD,
Bool, cflags, HUPCL,
Bool, cflags, CLOCAL,
/* Local modes */
Bool, lflags, ISIG,
Bool, lflags, ICANON,
Bool, lflags, NOFLSH,
Bool, lflags, ECHO,
Bool, lflags, ECHOE,
Bool, lflags, ECHOK,
Bool, lflags, ECHONL,
/* Control characters */
Char, VINTR,
Char, VQUIT,
Char, VERASE,
Char, VKILL,
Char, VEOF,
Char, VEOL,
Char, VMIN,
Char, VTIME,
Char, VSTART,
Char, VSTOP,
End
};
#undef iflags
#undef oflags
#undef cflags
#undef lflags
struct speedtable_entry ;
static struct {
speed_t speed;
int baud;
} speedtable[] = {
{B50, 50},
{B75, 75},
{B110, 110},
{B134, 134},
{B150, 150},
{B300, 300},
{B600, 600},
{B1200, 1200},
{B1800, 1800},
{B2400, 2400},
{B4800, 4800},
{B9600, 9600},
{B19200, 19200},
{B38400, 38400},
#ifdef B57600
{B57600, 57600},
#endif
#ifdef B115200
{B115200, 115200},
#endif
#ifdef B230400
{B230400, 230400},
#endif
{B0, 0}
};
#define NSPEEDS (sizeof(speedtable) / sizeof(speedtable[0]))
static void encode_terminal_status(value *dst)
{
long * pc;
int i;
for(pc = terminal_io_descr; *pc != End; dst++) {
switch(*pc++) {
case Bool:
{ int * src = (int *) (*pc++);
int msk = *pc++;
*dst = Val_bool(*src & msk);
break; }
case Enum:
{ int * src = (int *) (*pc++);
int ofs = *pc++;
int num = *pc++;
int msk = *pc++;
for (i = 0; i < num; i++) {
if ((*src & msk) == pc[i]) {
*dst = Val_int(i + ofs);
break;
}
}
pc += num;
break; }
case Speed:
{ int which = *pc++;
speed_t speed = 0;
*dst = Val_int(9600); /* in case no speed in speedtable matches */
switch (which) {
case Output:
speed = cfgetospeed(&terminal_status); break;
case Input:
speed = cfgetispeed(&terminal_status); break;
}
for (i = 0; i < NSPEEDS; i++) {
if (speed == speedtable[i].speed) {
*dst = Val_int(speedtable[i].baud);
break;
}
}
break; }
case Char:
{ int which = *pc++;
*dst = Val_int(terminal_status.c_cc[which]);
break; }
}
}
}
static void decode_terminal_status(value *src)
{
long * pc;
int i;
for (pc = terminal_io_descr; *pc != End; src++) {
switch(*pc++) {
case Bool:
{ int * dst = (int *) (*pc++);
int msk = *pc++;
if (Bool_val(*src))
*dst |= msk;
else
*dst &= ~msk;
break; }
case Enum:
{ int * dst = (int *) (*pc++);
int ofs = *pc++;
int num = *pc++;
int msk = *pc++;
i = Int_val(*src) - ofs;
if (i >= 0 && i < num) {
*dst = (*dst & ~msk) | pc[i];
} else {
unix_error(EINVAL, "tcsetattr", Nothing);
}
pc += num;
break; }
case Speed:
{ int which = *pc++;
int baud = Int_val(*src);
int res = 0;
for (i = 0; i < NSPEEDS; i++) {
if (baud == speedtable[i].baud) {
switch (which) {
case Output:
res = cfsetospeed(&terminal_status, speedtable[i].speed); break;
case Input:
res = cfsetispeed(&terminal_status, speedtable[i].speed); break;
}
if (res == -1) uerror("tcsetattr", Nothing);
goto ok;
}
}
unix_error(EINVAL, "tcsetattr", Nothing);
ok:
break; }
case Char:
{ int which = *pc++;
terminal_status.c_cc[which] = Int_val(*src);
break; }
}
}
}
CAMLprim value unix_tcgetattr(value fd)
{
value res;
if (tcgetattr(Int_val(fd), &terminal_status) == -1)
uerror("tcgetattr", Nothing);
res = alloc_tuple(NFIELDS);
encode_terminal_status(&Field(res, 0));
return res;
}
static int when_flag_table[] = {
TCSANOW, TCSADRAIN, TCSAFLUSH
};
CAMLprim value unix_tcsetattr(value fd, value when, value arg)
{
if (tcgetattr(Int_val(fd), &terminal_status) == -1)
uerror("tcsetattr", Nothing);
decode_terminal_status(&Field(arg, 0));
if (tcsetattr(Int_val(fd),
when_flag_table[Int_val(when)],
&terminal_status) == -1)
uerror("tcsetattr", Nothing);
return Val_unit;
}
CAMLprim value unix_tcsendbreak(value fd, value delay)
{
if (tcsendbreak(Int_val(fd), Int_val(delay)) == -1)
uerror("tcsendbreak", Nothing);
return Val_unit;
}
CAMLprim value unix_tcdrain(value fd)
{
if (tcdrain(Int_val(fd)) == -1) uerror("tcdrain", Nothing);
return Val_unit;
}
static int queue_flag_table[] = {
TCIFLUSH, TCOFLUSH, TCIOFLUSH
};
CAMLprim value unix_tcflush(value fd, value queue)
{
if (tcflush(Int_val(fd), queue_flag_table[Int_val(queue)]) == -1)
uerror("tcflush", Nothing);
return Val_unit;
}
static int action_flag_table[] = {
TCOOFF, TCOON, TCIOFF, TCION
};
CAMLprim value unix_tcflow(value fd, value action)
{
if (tcflow(Int_val(fd), action_flag_table[Int_val(action)]) == -1)
uerror("tcflow", Nothing);
return Val_unit;
}
#else
CAMLprim value unix_tcgetattr(value fd)
{ invalid_argument("tcgetattr not implemented"); }
CAMLprim value unix_tcsetattr(value fd, value when, value arg)
{ invalid_argument("tcsetattr not implemented"); }
CAMLprim value unix_tcsendbreak(value fd, value delay)
{ invalid_argument("tcsendbreak not implemented"); }
CAMLprim value unix_tcdrain(value fd)
{ invalid_argument("tcdrain not implemented"); }
CAMLprim value unix_tcflush(value fd, value queue)
{ invalid_argument("tcflush not implemented"); }
CAMLprim value unix_tcflow(value fd, value action)
{ invalid_argument("tcflow not implemented"); }
#endif