ocaml/otherlibs/unix/sendrecv.c

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/***********************************************************************/
/* */
/* 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, with */
/* the special exception on linking described in file ../../LICENSE. */
/* */
/***********************************************************************/
/* $Id$ */
#include <string.h>
#include <mlvalues.h>
#include <alloc.h>
#include <memory.h>
#include <signals.h>
#include "unixsupport.h"
#ifdef HAS_SOCKETS
#include "socketaddr.h"
static int msg_flag_table[] = {
MSG_OOB, MSG_DONTROUTE, MSG_PEEK
};
CAMLprim value unix_recv(value sock, value buff, value ofs, value len, value flags)
{
int ret;
long numbytes;
char iobuf[UNIX_BUFFER_SIZE];
Begin_root (buff);
numbytes = Long_val(len);
if (numbytes > UNIX_BUFFER_SIZE) numbytes = UNIX_BUFFER_SIZE;
enter_blocking_section();
ret = recv(Int_val(sock), iobuf, (int) numbytes,
convert_flag_list(flags, msg_flag_table));
leave_blocking_section();
if (ret == -1) uerror("recv", Nothing);
memmove (&Byte(buff, Long_val(ofs)), iobuf, ret);
End_roots();
return Val_int(ret);
}
CAMLprim value unix_recvfrom(value sock, value buff, value ofs, value len, value flags)
{
int ret;
long numbytes;
char iobuf[UNIX_BUFFER_SIZE];
value res;
value adr = Val_unit;
union sock_addr_union addr;
socklen_param_type addr_len;
Begin_roots2 (buff, adr);
numbytes = Long_val(len);
if (numbytes > UNIX_BUFFER_SIZE) numbytes = UNIX_BUFFER_SIZE;
addr_len = sizeof(addr);
enter_blocking_section();
ret = recvfrom(Int_val(sock), iobuf, (int) numbytes,
convert_flag_list(flags, msg_flag_table),
&addr.s_gen, &addr_len);
leave_blocking_section();
if (ret == -1) uerror("recvfrom", Nothing);
memmove (&Byte(buff, Long_val(ofs)), iobuf, ret);
adr = alloc_sockaddr(&addr, addr_len);
res = alloc_small(2, 0);
Field(res, 0) = Val_int(ret);
Field(res, 1) = adr;
End_roots();
return res;
}
CAMLprim value unix_send(value sock, value buff, value ofs, value len, value flags)
{
int ret;
long numbytes;
char iobuf[UNIX_BUFFER_SIZE];
numbytes = Long_val(len);
if (numbytes > UNIX_BUFFER_SIZE) numbytes = UNIX_BUFFER_SIZE;
memmove (iobuf, &Byte(buff, Long_val(ofs)), numbytes);
enter_blocking_section();
ret = send(Int_val(sock), iobuf, (int) numbytes,
convert_flag_list(flags, msg_flag_table));
leave_blocking_section();
if (ret == -1) uerror("send", Nothing);
return Val_int(ret);
}
CAMLprim value unix_sendto_native(value sock, value buff, value ofs, value len, value flags, value dest)
{
int ret;
long numbytes;
char iobuf[UNIX_BUFFER_SIZE];
union sock_addr_union addr;
socklen_param_type addr_len;
get_sockaddr(dest, &addr, &addr_len);
numbytes = Long_val(len);
if (numbytes > UNIX_BUFFER_SIZE) numbytes = UNIX_BUFFER_SIZE;
memmove (iobuf, &Byte(buff, Long_val(ofs)), numbytes);
enter_blocking_section();
ret = sendto(Int_val(sock), iobuf, (int) numbytes,
convert_flag_list(flags, msg_flag_table),
&addr.s_gen, addr_len);
leave_blocking_section();
if (ret == -1) uerror("sendto", Nothing);
return Val_int(ret);
}
CAMLprim value unix_sendto(value *argv, int argc)
{
return unix_sendto_native
(argv[0], argv[1], argv[2], argv[3], argv[4], argv[5]);
}
#else
CAMLprim value unix_recv(value sock, value buff, value ofs, value len, value flags)
{ invalid_argument("recv not implemented"); }
CAMLprim value unix_recvfrom(value sock, value buff, value ofs, value len, value flags)
{ invalid_argument("recvfrom not implemented"); }
CAMLprim value unix_send(value sock, value buff, value ofs, value len, value flags)
{ invalid_argument("send not implemented"); }
CAMLprim value unix_sendto_native(value sock, value buff, value ofs, value len, value flags, value dest)
{ invalid_argument("sendto not implemented"); }
CAMLprim value unix_sendto(value *argv, int argc)
{ invalid_argument("sendto not implemented"); }
#endif