fis-gtm/sr_port/iosocket_delimiter.c

181 lines
6.1 KiB
C
Raw Permalink Normal View History

/****************************************************************
* *
* Copyright 2001, 2006 Fidelity Information Services, Inc *
* *
* This source code contains the intellectual property *
* of its copyright holder(s), and is made available *
* under a license. If you do not know the terms of *
* the license, please stop and do not read further. *
* *
****************************************************************/
/* iosocket_delimiter.c */
#include "mdef.h"
#include "gtm_socket.h"
#include "gtm_string.h"
#include "gtm_inet.h"
#include "io.h"
#include "iottdef.h"
#include "iotcpdef.h"
#include "gt_timer.h"
#include "iosocketdef.h"
#include "gtm_conv.h"
#include "gtm_utf8.h"
GBLREF boolean_t gtm_utf8_mode;
GBLREF UConverter *chset_desc[];
error_def(ERR_DELIMSIZNA);
boolean_t iosocket_delimiter(unsigned char *delimiter_buffer, int4 delimiter_len, socket_struct *socketptr, boolean_t rm)
{
int counter, ii, c_len;
unsigned char *c, *top, delimiter[MAX_DELIM_LEN + 1];
/* free the previous delimiters if any */
for (ii = 0; ii < socketptr->n_delimiter; ii++)
{
free(socketptr->delimiter[ii].addr);
if (socketptr->idelimiter[ii].addr != socketptr->delimiter[ii].addr)
free(socketptr->idelimiter[ii].addr);
}
if (0 < socketptr->n_delimiter && socketptr->odelimiter0.addr != socketptr->delimiter[0].addr)
free(socketptr->odelimiter0.addr);
socketptr->n_delimiter = 0;
socketptr->delim0containsLF = FALSE;
if (rm)
return TRUE;
/* fill in the new delimiters */
counter = ii = 0;
c = &delimiter_buffer[0];
top = c + delimiter_len;
while ((c < top) && (ii < MAX_N_DELIMITER))
{
switch(delimiter[counter++] = *c++)
{
case ':' :
/* end of the previous delimiter and start the next one */
if (1 < counter)
{
if (gtm_utf8_mode)
{ /* Check if delimiter has any invalid UTF-8 characters */
c_len = utf8_len_strict(delimiter, counter - 1);
} else
c_len = counter - 1;
socketptr->delimiter[ii].addr = (char *)malloc(counter - 1);
memcpy(socketptr->delimiter[ii].addr, delimiter, counter - 1);
socketptr->delimiter[ii].len = counter - 1;
UNICODE_ONLY(socketptr->delimiter[ii].char_len = c_len);
socketptr->idelimiter[ii] = socketptr->delimiter[ii];
if (0 == ii)
socketptr->odelimiter0 = socketptr->delimiter[0];
socketptr->n_delimiter++;
ii++;
}
counter = 0;
break;
case '/' : /* escape */
delimiter[counter - 1] = *c++; /* Escaping a delim character doesn't appear to be documented
anywhere. Nonetheless, the assumption is that the only use is to
escape ':' which is a one byte character in UTF-8. So, this logic
will work. However, if there is a change in what can be escaped
(say, escape a character that is > 1 byte in length), this logic
has to change. Vinaya, 2007/09/07
*/
break;
case NATIVE_LF : /* Only NATIVE_LF is accepted as line terminator although Unicode defines other
line terminators */
if (0 == ii)
socketptr->delim0containsLF = TRUE;
break;
default:
/* look at the next character */
break;
}
if ((c == top) && (0 < counter))
{
if (gtm_utf8_mode) /* Check if delimiter has any invalid UTF-8 character */
c_len = utf8_len_strict(delimiter, counter); /* triggers badchar error for invalid sequence */
else
c_len = counter;
socketptr->delimiter[ii].addr = (char *)malloc(counter);
memcpy(socketptr->delimiter[ii].addr, delimiter, counter);
socketptr->delimiter[ii].len = counter;
UNICODE_ONLY(socketptr->delimiter[ii].char_len = c_len);
socketptr->idelimiter[ii] = socketptr->delimiter[ii];
if (0 == ii)
socketptr->odelimiter0 = socketptr->delimiter[0];
socketptr->n_delimiter++;
ii++;
}
if (counter > MAX_DELIM_LEN)
{
rts_error(VARLSTCNT(1) ERR_DELIMSIZNA);
return FALSE;
}
}
return TRUE;
}
void iosocket_delim_conv(socket_struct *socketptr, gtm_chset_t to_chset)
{
static char *conv_buff = NULL;
int conv_len, delim_index, new_delim_len;
assert(0 != socketptr->n_delimiter);
assert(CHSET_UTF16BE == to_chset || CHSET_UTF16LE == to_chset);
assert(gtm_utf8_mode);
if (NULL == conv_buff)
conv_buff = malloc(MAX_DELIM_LEN);
for (delim_index = 0; delim_index < socketptr->n_delimiter; delim_index++)
{
conv_len = MAX_DELIM_LEN;
new_delim_len = gtm_conv(chset_desc[CHSET_UTF8], chset_desc[to_chset], &socketptr->delimiter[delim_index],
conv_buff, &conv_len);
assert(MAX_DELIM_LEN > new_delim_len);
if (MAX_DELIM_LEN < new_delim_len)
{
rts_error(VARLSTCNT(1) ERR_DELIMSIZNA);
return;
}
socketptr->idelimiter[delim_index].len = new_delim_len;
UNICODE_ONLY(socketptr->idelimiter[delim_index].char_len = socketptr->delimiter[delim_index].char_len);
socketptr->idelimiter[delim_index].addr = malloc(new_delim_len);
memcpy(socketptr->idelimiter[delim_index].addr, conv_buff, new_delim_len);
}
return;
}
void iosocket_delimiter_copy(socket_struct *from, socket_struct *to)
{
int delim_index;
if (0 == (to->n_delimiter = from->n_delimiter))
return;
for (delim_index = 0; delim_index < from->n_delimiter; delim_index++)
{
to->delimiter[delim_index] = from->delimiter[delim_index]; /* copy all fields */
to->delimiter[delim_index].addr = malloc(from->delimiter[delim_index].len); /* re-allocate buffer */
memcpy(to->delimiter[delim_index].addr, from->delimiter[delim_index].addr, from->delimiter[delim_index].len);
to->idelimiter[delim_index] = to->delimiter[delim_index]; /* copy all fields */
if (from->delimiter[delim_index].addr != from->idelimiter[delim_index].addr)
{ /* has been converted */
to->idelimiter[delim_index].addr = malloc(from->idelimiter[delim_index].len); /* re-allocate buffer */
memcpy(to->idelimiter[delim_index].addr, from->idelimiter[delim_index].addr,
from->idelimiter[delim_index].len);
}
}
to->odelimiter0 = to->delimiter[0];
if (from->odelimiter0.addr != from->delimiter[0].addr)
{ /* has been converted */
to->odelimiter0.addr = malloc(from->odelimiter0.len);
memcpy(to->odelimiter0.addr, from->odelimiter0.addr, from->odelimiter0.len);
}
return;
}