File r37/lisp/csl/cslbase/sockets.c artifact 64c1ccff0b part of check-in d58ccc1261


/*  sockets.c                                 Copyright (C) 1995 NAG Ltd */

/*
 * Functions to support operations on sockets for AXIOM: basically just
 * interfaces to some of the functions in libspad.a (sockio-c.c).  We
 * assume that all integers returned as Lisp objects can be represented
 * as CCL fixnums, i.e. do not lie in the range +/-(2^28 .. 2^32-1).
 *
 * Version 1.0   September 1995
 *
 * Author: Mike Dewar
 *
 */

/* Signature: 77381795 08-Apr-2002 */


#include <stdarg.h>
#include <sys/types.h>
#include <string.h>
#ifdef __WATCOMC__
#include <dos.h>
#endif

#include "machine.h"
#include "tags.h"
#include "cslerror.h"
#include "externs.h"
#include "arith.h"

#if defined(UNIX) && !defined(NoSockets)
#define RealSockets
#endif

#ifdef FLEX
/* we don't use timers; we call timnag in gc.c explicitly for UNIX */
static int got_license    =0;

void init_lm()
{
  extern void glnag(char *prod_code, char *user_opts);
  extern void rlnag();

  /* If glnag fails it calls displmmsg and exits */
  if (got_license == 0) {
#if defined(__alpha)
    glnag("AXDAU21NA","");
#elif defined(__SVR4) && defined(__sparc)
#if defined(__GNUC__)
    glnag("AXSOL21NB","");
#else
    glnag("AXSOL21NA","");
#endif
#elif (defined(sparc) || defined(__sparc)) && !defined(__SVR4)
    glnag("AXSU421NA","");
#elif defined(__hp9000s800)
    glnag("AXH9721NA","");
#elif defined(__sgi) &&  defined(__mips) && __mips==1
    glnag("AXSG521NA","");
#elif defined(__sgi) &&  defined(__mips) && __mips==3
    glnag("AXSG621NA","");
#elif defined(_AIX)
    glnag("AXIB621NA","");
#elif defined(__linux__)
    glnag("AXLUX21NA","");
#elif defined(WINDOWS_NT)
    glnag("AXW3222NA","");
#ifndef CWIN
#endif
     rlnag();
#endif
    got_license = 1;
  }
}

void close_lm()
{
#ifdef WINDOWS_NT
  extern void rlnag();
  if (got_license) {
    	rlnag();
	got_license = 0;
  }
#endif
}

Lisp_Object Linit_lm(Lisp_Object nil, Lisp_Object dummy)
{
  init_lm();
  return onevalue(fixnum_of_int(1));
}

#ifdef CWIN
#undef exit
#endif

void displmmsg(int unlicensed, char *message)
{
  /* term_printf only handles strings less than 256 characters long */
  if (strlen(message) > 255) {
    char *line;
    line = strtok(message,"\n");
    term_printf("%s\n",line);
    while ((line=strtok(NULL,"\n")) != NULL) term_printf("%s\n",line);
  }
  else
    term_printf("%s\n",message);
#ifdef CWIN
  ensure_screen();
#endif
  if (unlicensed > 0) {
    term_printf("+++ This copy of AXIOM is unlicensed ... exiting.\n");
#ifdef CWIN
    ensure_screen();
#endif
    sleep(10);
    my_exit(2);
  }
}

Lisp_Object MS_CDECL Lclose_lm(Lisp_Object nil, int32 nargs, ...)
{
  argcheck(nargs,0,"close-lm");
  close_lm();
  return nil;
}
#else

Lisp_Object Linit_lm(Lisp_Object nil, Lisp_Object dummy)
{
  return onevalue(fixnum_of_int(1));
}

Lisp_Object MS_CDECL Lclose_lm(Lisp_Object nil, int32 nargs, ...)
{
  argcheck(nargs,0,"close-lm");
  return nil;
}

#endif

#ifdef RealSockets

/* These are all in sockio-c.c */
extern int32  open_server(char *server_name);
extern int32  sock_get_int(int32 purpose);
extern int32  sock_send_int(int32 purpose, int32 val);
extern char  *sock_get_string_buf(int32 purpose, char *buf, int32 buf_len);
extern int32  sock_send_string_len(int32 purpose, char *str, int32 len);
extern double sock_get_float(int32 purpose);
extern int32  sock_send_float(int32 purpose, double num);
extern int32  sock_send_wakeup(int32 purpose);
extern int32  server_switch();
extern int32  flush_stdout();
extern int32  sock_send_signal(int purpose, int sig);
extern int32  print_line(char *s);

/* Utility function to test for CCL integers and turn them into C ints */
int32 ccl2int(Lisp_Object i, char *fcn)
{ if (is_fixnum(i))
    return (int_of_fixnum(i));
  else if (is_numbers(i) && is_bignum(i) )
    return (thirty_two_bits(i));
  else 
    return aerror(fcn);
}

Lisp_Object LopenServer(Lisp_Object nil, Lisp_Object server)
{ 
  if (!(is_vector(server) && type_of_header(vechdr(server)) == TYPE_STRING) )
    return aerror("open_server");
  else 
    return onevalue(fixnum_of_int(open_server(&celt(server,0))));
}

Lisp_Object LsockGetInt(Lisp_Object nil, Lisp_Object purpose)
{
  return onevalue(fixnum_of_int(sock_get_int(ccl2int(purpose,"sock_get_int"))));
}

Lisp_Object LsockSendInt(Lisp_Object nil, Lisp_Object purpose, Lisp_Object val)
{
  return onevalue(fixnum_of_int(
    sock_send_int(ccl2int(purpose,"sock_send_int"),
                  ccl2int(val,"sock_send_int"))));
}

Lisp_Object MS_CDECL LsockGetStringBuf(Lisp_Object nil, int nargs, ...)
{
  va_list args;
  Lisp_Object purpose, buf, buf_length;
  argcheck(nargs,3,"sock_get_string_buf");
  va_start(args,nargs);
  purpose    = va_arg(args, Lisp_Object);
  buf        = va_arg(args, Lisp_Object);
  buf_length = va_arg(args, Lisp_Object);
  va_end(args);
  if (!(is_vector(buf) && type_of_header(vechdr(buf)) == TYPE_STRING) )
    aerror("sock_get_string_buf");
  else
    sock_get_string_buf(ccl2int(purpose,"sock_get_string_buf"),
                        &celt(buf,0),
                        ccl2int(buf_length,"sock_get_string_buf") );

  /* AXIOM always ignores the return value */
  return buf;
}

Lisp_Object MS_CDECL LsockSendStringLen(Lisp_Object nil, int nargs, ...)
{
  va_list args;
  Lisp_Object purpose, buf, buf_length;
  argcheck(nargs,3,"sock_send_string_len");
  va_start(args,nargs);
  purpose    = va_arg(args, Lisp_Object);
  buf        = va_arg(args, Lisp_Object);
  buf_length = va_arg(args, Lisp_Object);
  va_end(args);
  if (!(is_vector(buf) && type_of_header(vechdr(buf)) == TYPE_STRING) )
    return aerror("sock_send_string_len");
  else
    return onevalue(fixnum_of_int(
      sock_send_string_len(ccl2int(purpose,"sock_send_string_len"),
                           &celt(buf,0),
                           ccl2int(buf_length,"sock_send_string_len") )));

}

Lisp_Object LsockGetFloat(Lisp_Object nil, Lisp_Object purpose)
{
  return onevalue(make_boxfloat(sock_get_float(
    ccl2int(purpose,"sock_get_float")), TYPE_DOUBLE_FLOAT) );
}

Lisp_Object LsockSendFloat(Lisp_Object nil, Lisp_Object purpose, Lisp_Object val)
{
  if (!is_number(val)) aerror("sock_send_float");

  return onevalue(fixnum_of_int(sock_send_float(
                                             ccl2int(purpose,"sock_send_float"),
                                             float_of_number(val) )));
}

Lisp_Object LsockSendWakeup(Lisp_Object nil, Lisp_Object purpose)
{
  return onevalue(fixnum_of_int(sock_send_wakeup(ccl2int(purpose,
                                                       "sock_send_wakeup"))));
}

Lisp_Object MS_CDECL LserverSwitch(Lisp_Object nil, int nargs, ...)
{
  argcheck(nargs, 0, "server_switch");
  return onevalue(fixnum_of_int(server_switch()));
}

Lisp_Object MS_CDECL LflushStdout(Lisp_Object nil, int nargs, ...)
{
  argcheck(nargs, 0, "flush_stdout");
  return onevalue(fixnum_of_int(flush_stdout()));
}

Lisp_Object LsockSendSignal(Lisp_Object nil,Lisp_Object purpose,Lisp_Object sig)
{
  return onevalue(fixnum_of_int(sock_send_signal(
                                            ccl2int(purpose,"sock_send_signal"),
                                            ccl2int(sig,"sock_send_signal"))));
}

Lisp_Object LprintLine(Lisp_Object nil, Lisp_Object buf)
{ 
  if (!(is_vector(buf) && type_of_header(vechdr(buf)) == TYPE_STRING) )
    return aerror("print_line");
  else 
    return onevalue(fixnum_of_int(print_line(&celt(buf,0))));
}

#endif /* UNIX */

#if defined(__i386__) || defined(__i486__)|| defined(__i386)||defined(__i586)
static unsigned char plus_infinity[8]=  {0x0,0x0,0x0,0x0,0x0,0x0,0xf0,0x7f},
             minus_infinity[8]={0x0,0x0,0x0,0x0,0x0,0x0,0xf0,0xff},
             NANQ[8]=          {0x0,0x0,0x0,0x0,0x0,0x0,0xf8,0xff};
#elif defined(__alpha)
static unsigned char plus_infinity[8]=  {0x0,0x0,0x0,0x0,0x0,0x0,0xf0,0x7f},
             minus_infinity[8]={0x0,0x0,0x0,0x0,0x0,0x0,0xf0,0xff},
             NANQ[8]=          {0xff,0xff,0xff,0xff,0xff,0xff,0xff,0x7f};

#else
static unsigned char plus_infinity[8]=  {0x7f,0xf0,0x0,0x0,0x0,0x0,0x0,0x0},
             minus_infinity[8]={0xff,0xf0,0x0,0x0,0x0,0x0,0x0,0x0},
             NANQ[8]=          {0x7f,0xff,0xff,0xff,0xff,0xff,0xff,0xff};

#endif
Lisp_Object MS_CDECL LplusInfinity(Lisp_Object nil, int nargs, ...)
{
  argcheck(nargs, 0, "plus_infinity");
  return onevalue(make_boxfloat(*(double *)plus_infinity,TYPE_DOUBLE_FLOAT));
}

Lisp_Object MS_CDECL LminusInfinity(Lisp_Object nil, int nargs, ...)
{
  argcheck(nargs, 0, "minus_infinity");
  return onevalue(make_boxfloat(*(double *)minus_infinity,TYPE_DOUBLE_FLOAT));
}

Lisp_Object MS_CDECL Lnanq(Lisp_Object nil, int nargs, ...)
{
  argcheck(nargs, 0, "NANQ");
  return onevalue(make_boxfloat(*(double *)NANQ,TYPE_DOUBLE_FLOAT));
}

Lisp_Object sock_error1(Lisp_Object nil, Lisp_Object arg)
{
  return aerror0("Attempt to call socket function on non-unix platform");
}

Lisp_Object sock_error2(Lisp_Object nil, Lisp_Object arg1, Lisp_Object arg2)
{
  return aerror0("Attempt to call socket function on non-unix platform");
}

Lisp_Object MS_CDECL sock_error0(Lisp_Object nil, int nargs, ...)
{
  return aerror0("Attempt to call socket function on non-unix platform");
}

setup_type const socket_setup[] =
{
#ifdef FLEX
 {"init-lm",              Linit_lm,        too_many_1,      wrong_no_1},
 {"close-lm",             wrong_no_0a,     wrong_no_0b,     Lclose_lm},
#else
 {"init-lm",              Linit_lm,        too_many_1,      wrong_no_1},
 {"close-lm",             sock_error1,     sock_error2,     sock_error0},
#endif
#ifdef RealSockets
 {"open_server",          LopenServer,     too_many_1,      wrong_no_1},
 {"sock_get_int",         LsockGetInt,     too_many_1,      wrong_no_1},
 {"sock_send_int",        too_few_2,       LsockSendInt,    wrong_no_2},
 {"sock_get_string_buf",  wrong_no_na,     wrong_no_nb,     LsockGetStringBuf},
 {"sock_send_string_len", wrong_no_na,     wrong_no_nb,     LsockSendStringLen},
 {"sock_get_float",       LsockGetFloat,   too_many_1,      wrong_no_1},
 {"sock_send_float",      too_few_2,       LsockSendFloat,  wrong_no_2},
 {"sock_send_wakeup",     LsockSendWakeup, too_many_1,      wrong_no_1},
 {"server_switch",        wrong_no_0a,     wrong_no_0b,     LserverSwitch},
 {"flush_stdout",         wrong_no_0a,     wrong_no_0b,     LflushStdout},
 {"sock_send_signal",     too_few_2,       LsockSendSignal, wrong_no_2},
 {"print_line",           LprintLine,      too_many_1,      wrong_no_1},
#else
 {"open_server",          sock_error1,     sock_error2,     sock_error0},
 {"sock_get_int",         sock_error1,     sock_error2,     sock_error0},
 {"sock_send_int",        sock_error1,     sock_error2,     sock_error0},
 {"sock_get_string_buf",  sock_error1,     sock_error2,     sock_error0},
 {"sock_send_string_len", sock_error1,     sock_error2,     sock_error0},
 {"sock_get_float",       sock_error1,     sock_error2,     sock_error0},
 {"sock_send_float",      sock_error1,     sock_error2,     sock_error0},
 {"sock_send_wakeup",     sock_error1,     sock_error2,     sock_error0},
 {"server_switch",        sock_error1,     sock_error2,     sock_error0},
 {"flush_stdout",         sock_error1,     sock_error2,     sock_error0},
 {"sock_send_signal",     sock_error1,     sock_error2,     sock_error0},
 {"print_line",           sock_error1,     sock_error2,     sock_error0},
#endif
 {"plus_infinity",        wrong_no_0a,     wrong_no_0b,     LplusInfinity},
 {"minus_infinity",       wrong_no_0a,     wrong_no_0b,     LminusInfinity},
 {"NANQ",                 wrong_no_0a,     wrong_no_0b,     Lnanq},
 {NULL,                   0,               0,               0}
};



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