fis-gtm/sr_unix_gnp/cmj_read.c

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/****************************************************************
* *
* Copyright 2001, 2009 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. *
* *
****************************************************************/
#include "mdef.h"
#include "gtm_socket.h"
#include "gtm_string.h"
#include "cmidef.h"
#include <errno.h>
#include <sys/uio.h>
#include "gtm_inet.h"
#define NUM_IOVECS 2
#define NUM_IOVECS_BOTH 2
#define NUM_IOVECS_DATA 1
cmi_status_t cmj_read_start(struct CLB *lnk)
{
struct NTD *tsk = lnk->ntd;
cmi_status_t status = SS_NORMAL;
int save_errno;
ssize_t rval;
error_def(CMI_DCNINPROG);
error_def(CMI_LNKNOTIDLE);
error_def(CMI_OVERRUN);
if (-1 == lnk->mun)
return ENOTCONN;
if (CM_CLB_IDLE != lnk->sta)
return (CM_CLB_DISCONNECT == lnk->sta) ? CMI_DCNINPROG : CMI_LNKNOTIDLE;
lnk->sta = CM_CLB_READ;
CMI_CLB_IOSTATUS(lnk) = SS_NORMAL;
lnk->ios.xfer_count = 0;
lnk->ios.len_len = 0;
while ((-1 == (rval = recv(lnk->mun, (void *)lnk->ios.u.lenbuf, CMI_TCP_PREFIX_LEN, 0))) && EINTR == errno)
;
/*
* rval == 0 --> eof
* rval == 2 --> entire length read (2 == CMI_TCP_PREFIX_LEN)
* rval == 1 || (rval < 0 && (errno == EWOULDBLOCK || errno == EAGAIN) --> read stream empty
*/
/* weed out the bad things first */
if (0 > rval && !CMI_IO_WOULDBLOCK(errno))
{
save_errno = errno;
cmj_err(lnk, CMI_REASON_STATUS, save_errno);
cmj_postevent(lnk);
return save_errno;
}
if (0 == rval)
{
cmj_err(lnk, CMI_REASON_STATUS, ECONNRESET);
cmj_postevent(lnk);
return ECONNRESET;
}
if (CMI_TCP_PREFIX_LEN == rval)
{
/* got the entire length */
lnk->ios.len_len = CMI_TCP_PREFIX_LEN;
lnk->ios.u.len = ntohs(lnk->ios.u.len);
if (lnk->ios.u.len > lnk->mbl)
return CMI_OVERRUN;
while ((-1 == (rval = recv(lnk->mun, (void *)lnk->mbf, (int)lnk->ios.u.len, 0))) && EINTR == errno)
;
if (0 > rval && !CMI_IO_WOULDBLOCK(errno))
{
save_errno = errno;
cmj_err(lnk, CMI_REASON_STATUS, save_errno);
cmj_postevent(lnk);
return save_errno;
}
if (0 == rval)
{
cmj_err(lnk, CMI_REASON_STATUS, ECONNRESET);
cmj_postevent(lnk);
return ECONNRESET;
}
if (rval == lnk->ios.u.len)
{
lnk->ios.xfer_count = rval;
cmj_fini(lnk);
}
else
{
/* partial read or no read of packet */
if (0 < rval)
lnk->ios.xfer_count = rval;
status = cmj_clb_set_async(lnk);
}
}
else
{
/* partial or no read of length */
if (0 < rval)
{
assert(CMI_TCP_PREFIX_LEN > rval);
lnk->ios.len_len = (int)rval;
}
status = cmj_clb_set_async(lnk);
}
return status;
}
void cmj_read_interrupt(struct CLB *lnk, int signo)
{
ssize_t rval;
cmi_status_t status = SS_NORMAL;
error_def(CMI_OVERRUN);
char peekchar;
struct iovec vec[NUM_IOVECS];
struct msghdr msg;
if (-1 == lnk->mun)
return;
if (CM_CLB_IDLE == lnk->sta)
{
/* potential eof, error */
/* just peek to see if a 0 or error comes back */
while ((-1 == (rval = recv(lnk->mun, (void *)&peekchar, 1, MSG_PEEK))) && EINTR == errno)
;
if (0 == rval)
cmj_err(lnk, CMI_REASON_STATUS, (cmi_status_t)ECONNRESET);
else
{
if (-1 == rval && !CMI_IO_WOULDBLOCK(errno))
cmj_err(lnk, CMI_REASON_STATUS, (cmi_status_t)errno);
}
/* no I/O outstand - return leaving data in socket */
return;
}
/* setup I/O vec based on past history */
memset(&msg, 0, SIZEOF(msg));
msg.msg_iov = vec;
if (CMI_TCP_PREFIX_LEN > lnk->ios.len_len)
{
/* length not entirely read */
msg.msg_iovlen = NUM_IOVECS_BOTH;
vec[0].iov_len = CMI_TCP_PREFIX_LEN - lnk->ios.len_len;
vec[0].iov_base = (lnk->ios.u.lenbuf + lnk->ios.len_len);
vec[1].iov_len = lnk->mbl;
vec[1].iov_base = (caddr_t)lnk->mbf;
}
else
{
/* length had been read, need to complete data */
msg.msg_iovlen = NUM_IOVECS_DATA;
vec[0].iov_len = lnk->ios.u.len - lnk->ios.xfer_count;
vec[0].iov_base = (caddr_t)(lnk->mbf + lnk->ios.xfer_count);
}
while ((-1 == (rval = recvmsg(lnk->mun, &msg, 0))) && EINTR == errno)
;
/* weed out the bad things first */
if (0 == rval)
{
cmj_err(lnk, CMI_REASON_STATUS, (cmi_status_t)ECONNRESET);
return;
}
if (-1 == rval && !CMI_IO_WOULDBLOCK(errno))
{
cmj_err(lnk, CMI_REASON_STATUS, (cmi_status_t)errno);
return;
}
/* now we either have a positive rval or a no data error */
if (0 < rval)
{
if (NUM_IOVECS_BOTH == msg.msg_iovlen)
{
if ((CMI_TCP_PREFIX_LEN - lnk->ios.len_len) <= rval)
{
/* we now have the whole length */
rval -= (CMI_TCP_PREFIX_LEN - lnk->ios.len_len);
lnk->ios.len_len = CMI_TCP_PREFIX_LEN;
lnk->ios.u.len = ntohs(lnk->ios.u.len);
}
else
{
/* we just read part of the length */
assert(CMI_TCP_PREFIX_LEN > rval);
lnk->ios.len_len += (int)rval;
status = cmj_clb_set_async(lnk);
if (CMI_ERROR(status))
cmj_err(lnk, CMI_REASON_STATUS, status);
return;
}
}
if (rval == (lnk->ios.u.len - lnk->ios.xfer_count))
{
lnk->ios.xfer_count += rval;
cmj_fini(lnk);
return;
}
lnk->ios.xfer_count += rval;
}
status = cmj_clb_set_async(lnk);
if (CMI_ERROR(status))
cmj_err(lnk, CMI_REASON_STATUS, status);
}