short iott_readfl (mval *v, int4 length, int4 timeout) /* timeout in seconds */
{
boolean_t ret, nonzerotimeout, timed;
uint4 mask;
unsigned char inchar, *temp;
#ifdef __MVS__
unsigned char asc_inchar;
#endif
int dx, msk_in, msk_num, outlen, rdlen, save_errno, selstat, status, width;
int4 msec_timeout; /* timeout in milliseconds */
io_desc *io_ptr;
d_tt_struct *tt_ptr;
io_terminator outofbands;
io_termmask mask_term;
unsigned char *zb_ptr, *zb_top;
ABS_TIME cur_time, end_time;
fd_set input_fd;
struct timeval input_timeval;
struct timeval save_input_timeval;
error_def(ERR_CTRAP);
error_def(ERR_IOEOF);
error_def(ERR_NOPRINCIO);
assert(stringpool.free >= stringpool.base);
assert(stringpool.free <= stringpool.top);
io_ptr = io_curr_device.in;
tt_ptr = (d_tt_struct *)(io_ptr->dev_sp);
assert(dev_open == io_ptr->state);
iott_flush(io_curr_device.out);
width = io_ptr->width;
if (stringpool.free + length > stringpool.top)
stp_gcol (length);
outlen = 0;
/* ---------------------------------------------------------
* zb_ptr is be used to fill-in the value of $zb as we go
* If we drop-out with error or otherwise permaturely,
* consider $zb to be null.
* ---------------------------------------------------------
*/
zb_ptr = io_ptr->dollar.zb;
zb_top = zb_ptr + sizeof(io_ptr->dollar.zb) - 1;
*zb_ptr = 0;
io_ptr->esc_state = START;
io_ptr->dollar.za = 0;
io_ptr->dollar.zeof = FALSE;
v->str.len = 0;
dx = (int)io_ptr->dollar.x;
ret = TRUE;
temp = stringpool.free;
mask = tt_ptr->term_ctrl;
mask_term = tt_ptr->mask_term;
if (mask & TRM_NOTYPEAHD)
TCFLUSH(tt_ptr->fildes, TCIFLUSH, status);
if (mask & TRM_READSYNC)
{
DOWRITERC(tt_ptr->fildes, &dc1, 1, status);
if (0 != status)
{
io_ptr->dollar.za = 9;
rts_error(VARLSTCNT(1) status);
}
}
nonzerotimeout = FALSE;
if (NO_M_TIMEOUT == timeout)
{
timed = FALSE;
input_timeval.tv_sec = 100;
msec_timeout = NO_M_TIMEOUT;
} else
{
timed = TRUE;
input_timeval.tv_sec = timeout;
msec_timeout = timeout2msec(timeout);
if (!msec_timeout)
iott_mterm(io_ptr);
else
{
nonzerotimeout = TRUE;
sys_get_curr_time(&cur_time);
add_int_to_abs_time(&cur_time, msec_timeout, &end_time);
}
}
input_timeval.tv_usec = 0;
do
{
if (outofband)
{
outlen = 0;
if (!msec_timeout)
iott_rterm(io_ptr);
outofband_action(FALSE);
break;
}
errno = 0;
FD_ZERO(&input_fd);
FD_SET(tt_ptr->fildes, &input_fd);
assert(0 != FD_ISSET(tt_ptr->fildes, &input_fd));
/* the checks for EINTR below are valid and should not be converted to EINTR
* wrapper macros, since the select/read is not retried on EINTR.
*/
save_input_timeval = input_timeval; /* take a copy and pass it because select() below might change it */
selstat = select(tt_ptr->fildes + 1, (void *)&input_fd, (void *)NULL, (void *)NULL, &save_input_timeval);
if (selstat < 0)
{
if (EINTR != errno)
goto term_error;
} else if (0 == selstat)
{
if (timed)
{
ret = FALSE;
break;
}
continue; /* select() timeout; keep going */
} else if (0 < (rdlen = read(tt_ptr->fildes, &inchar, 1))) /* This read is protected */
{
assert(0 != FD_ISSET(tt_ptr->fildes, &input_fd));
/* --------------------------------------------------
* set prin_in_dev_failure to FALSE to indicate that
* input device is working now.
* --------------------------------------------------
*/
prin_in_dev_failure = FALSE;
if (tt_ptr->canonical)
{
if (0 == inchar)
{
/* --------------------------------------
* This means that the device has hungup
* --------------------------------------
*/
io_ptr->dollar.zeof = TRUE;
io_ptr->dollar.x = 0;
io_ptr->dollar.za = 9;
io_ptr->dollar.y++;
if (io_ptr->error_handler.len > 0)
rts_error(VARLSTCNT(1) ERR_IOEOF);
break;
} else
io_ptr->dollar.zeof = FALSE;
}
if (mask & TRM_CONVERT)
NATIVE_CVT2UPPER(inchar, inchar);
GETASCII(asc_inchar,inchar);
if ((dx >= width) && io_ptr->wrap && !(mask & TRM_NOECHO))
{
DOWRITE(tt_ptr->fildes, NATIVE_TTEOL, strlen(NATIVE_TTEOL));
dx = 0;
}
if ((' ' > INPUT_CHAR) && (tt_ptr->enbld_outofbands.mask & (1 << INPUT_CHAR)))
{
outlen = 0;
io_ptr->dollar.za = 9;
std_dev_outbndset(INPUT_CHAR); /* it needs ASCII? */
outofband = 0;
if (!msec_timeout)
iott_rterm(io_ptr);
rts_error(VARLSTCNT(3) ERR_CTRAP, 1, ctrap_action_is);
break;
}
if ((0 != (mask & TRM_ESCAPE))
&& ((NATIVE_ESC == inchar) || (START != io_ptr->esc_state)))
{
if (zb_ptr >= zb_top)
{ /* $zb overflow */
io_ptr->dollar.za = 2;
break;
}
*zb_ptr++ = inchar;
iott_escape(zb_ptr - 1, zb_ptr, io_ptr);
*(zb_ptr - 1) = INPUT_CHAR; /* need to store ASCII value */
if (FINI == io_ptr->esc_state)
break;
if (BADESC == io_ptr->esc_state)
{ /* Escape sequence failed parse */
io_ptr->dollar.za = 2;
break;
}
/* --------------------------------------------------------------------
* In escape sequence...do not process further, but get next character
* --------------------------------------------------------------------
*/
} else
{ /* SIMPLIFY THIS! */
msk_num = (uint4)INPUT_CHAR / NUM_BITS_IN_INT4;
msk_in = (1 << ((uint4)INPUT_CHAR % NUM_BITS_IN_INT4));
if (msk_in & mask_term.mask[msk_num])
{
*zb_ptr++ = INPUT_CHAR;
break;
}
if (((int)inchar == tt_ptr->ttio_struct->c_cc[VERASE]) && !(mask & TRM_PASTHRU))
{
if ((0< outlen) && (0 < dx))
{
outlen--;
dx--;
*temp--;
if (!(mask & TRM_NOECHO))
{
DOWRITERC(tt_ptr->fildes, eraser, sizeof(eraser), status);
if (0 != status)
goto term_error;
}
}
} else
{
if (!(mask & TRM_NOECHO))
{
DOWRITERC(tt_ptr->fildes, &inchar, 1, status);
if (0 != status)
goto term_error;
}
*temp++ = inchar;
outlen++;
dx++;
}
}
} else if (0 == rdlen)
{
if (0 < selstat)
{ /* this should be the only possibility */
io_ptr->dollar.zeof = TRUE;
io_ptr->dollar.x = 0;
io_ptr->dollar.za = 0;
io_ptr->dollar.y++;
if (io_curr_device.in == io_std_device.in)
{
if (!prin_in_dev_failure)
prin_in_dev_failure = TRUE;
else
{
send_msg(VARLSTCNT(1) ERR_NOPRINCIO);
stop_image_no_core();
}
}
if (io_ptr->dollar.zeof)
{
io_ptr->dollar.za = 9;
rts_error(VARLSTCNT(1) ERR_IOEOF);
} else
{
io_ptr->dollar.zeof = TRUE;
io_ptr->dollar.za = 0;
if (0 < io_ptr->error_handler.len)
rts_error(VARLSTCNT(1) ERR_IOEOF);
}
break;
}
if (0 == errno)
{ /* eof */
io_ptr->dollar.zeof = TRUE;
io_ptr->dollar.x = 0;
io_ptr->dollar.za = 0;
io_ptr->dollar.y++;
if (0 < io_ptr->error_handler.len)
rts_error(VARLSTCNT(1) ERR_IOEOF);
break;
}
} else if (EINTR != errno) /* rdlen < 0 */
goto term_error;
if (nonzerotimeout)
{
sys_get_curr_time(&cur_time);
cur_time = sub_abs_time(&end_time, &cur_time);
if (0 > cur_time.at_sec)
{
ret = FALSE;
break;
}
input_timeval.tv_sec = cur_time.at_sec;
input_timeval.tv_usec = cur_time.at_usec;
}
} while (outlen < length);
*zb_ptr++ = 0;
if (!msec_timeout)
{
iott_rterm(io_ptr);
if (0 == outlen)
ret = FALSE;
}
if (mask & TRM_READSYNC)
{
DOWRITERC(tt_ptr->fildes, &dc3, 1, status);
if (0 != status)
{
io_ptr->dollar.za = 9;
rts_error(VARLSTCNT(1) status);
}
}
if (outofband)
{
v->str.len = 0;
io_ptr->dollar.za = 9;
return(FALSE);
}
v->str.len = outlen;
v->str.addr = (char *)stringpool.free;
if (!(mask & TRM_NOECHO))
{
if ((io_ptr->dollar.x += v->str.len) >= io_ptr->width && io_ptr->wrap)
{
io_ptr->dollar.y += (io_ptr->dollar.x / io_ptr->width);
if (io_ptr->length)
io_ptr->dollar.y %= io_ptr->length;
io_ptr->dollar.x %= io_ptr->width;
if (0 == io_ptr->dollar.x)
DOWRITE(tt_ptr->fildes, NATIVE_TTEOL, strlen(NATIVE_TTEOL));
}
}
return ((short)ret);
term_error:
save_errno = errno;
io_ptr->dollar.za = 9;
if (!msec_timeout)
iott_rterm(io_ptr);
rts_error(VARLSTCNT(1) save_errno);
return FALSE;
}
void iott_use(io_desc *iod, mval *pp)
{
boolean_t flush_input;
char dc1, *ttab;
d_tt_struct *temp_ptr, *tt_ptr;
int p_offset, fil_type, save_errno, status;
int4 length, width;
io_desc *d_in, *d_out;
io_termmask mask_term;
struct sigaction act;
struct termios t;
uint4 mask_in;
unsigned char ch, len;
boolean_t ch_set;
p_offset = 0;
assert(iod->state == dev_open);
ESTABLISH_GTMIO_CH(&iod->pair, ch_set);
iott_flush(iod);
tt_ptr = (d_tt_struct *)iod->dev_sp;
if (*(pp->str.addr + p_offset) != iop_eol)
{
if (tt_ptr->mupintr)
if (dollar_zininterrupt)
rts_error_csa(CSA_ARG(NULL) VARLSTCNT(1) ERR_ZINTRECURSEIO);
else
{ /* The interrupted read was not properly resumed so clear it now */
tt_ptr->mupintr = FALSE;
tt_ptr->tt_state_save.who_saved = ttwhichinvalid;
io_find_mvstent(iod, TRUE);
}
status = tcgetattr(tt_ptr->fildes, &t);
if (0 != status)
{
save_errno = errno;
ISSUE_NOPRINCIO_IF_NEEDED_TT(io_curr_device.out);
rts_error_csa(CSA_ARG(NULL) VARLSTCNT(4) ERR_TCGETATTR, 1, tt_ptr->fildes, save_errno);
}
flush_input = FALSE;
d_in = iod->pair.in;
d_out = iod->pair.out;
temp_ptr = (d_tt_struct *)d_in->dev_sp;
mask_in = temp_ptr->term_ctrl;
mask_term = temp_ptr->mask_term;
while (*(pp->str.addr + p_offset) != iop_eol)
{
switch (ch = *(pp->str.addr + p_offset++))
{
case iop_canonical:
tt_ptr->canonical = TRUE;
t.c_lflag |= ICANON;
break;
case iop_nocanonical:
tt_ptr->canonical = FALSE;
t.c_lflag &= ~(ICANON);
break;
case iop_empterm:
tt_ptr->ext_cap |= TT_EMPTERM;
break;
case iop_noempterm:
tt_ptr->ext_cap &= ~TT_EMPTERM;
break;
case iop_cenable:
if (!ctrlc_on)
{ /* if it's already cenable, no need to change */
temp_ptr = (d_tt_struct *)io_std_device.in->dev_sp;
if (tt_ptr->fildes == temp_ptr->fildes)
{ /* if this is $PRINCIPAL make sure the ctrlc_handler is enabled */
sigemptyset(&act.sa_mask);
act.sa_flags = 0;
act.sa_handler = ctrlc_handler_ptr;
sigaction(SIGINT, &act, 0);
ctrlc_on = TRUE;
}
}
break;
case iop_nocenable:
if (ctrlc_on)
{ /* if it's already nocenable, no need to change */
temp_ptr = (d_tt_struct *)io_std_device.in->dev_sp;
if (tt_ptr->fildes == temp_ptr->fildes)
{ /* if this is $PRINCIPAL may disable the ctrlc_handler */
if (0 == (CTRLC_MSK & tt_ptr->enbld_outofbands.mask))
{ /* but only if ctrap=$c(3) is not active */
sigemptyset(&act.sa_mask);
act.sa_flags = 0;
act.sa_handler = SIG_IGN;
sigaction(SIGINT, &act, 0);
}
ctrlc_on = FALSE;
}
}
break;
case iop_clearscreen:
if (NULL != CLR_EOS)
gtm_tputs(CLR_EOS, 1, outc);
break;
case iop_convert:
mask_in |= TRM_CONVERT;
break;
case iop_noconvert:
mask_in &= ~TRM_CONVERT;
break;
case iop_ctrap:
GET_LONG(tt_ptr->enbld_outofbands.mask, pp->str.addr + p_offset);
if (!ctrlc_on)
{ /* if cenable, ctrlc_handler active anyway, otherwise, depends on ctrap=$c(3) */
sigemptyset(&act.sa_mask);
act.sa_flags = 0;
act.sa_handler = (CTRLC_MSK & tt_ptr->enbld_outofbands.mask)
? ctrlc_handler_ptr : SIG_IGN;
sigaction(SIGINT, &act, 0);
}
break;
case iop_downscroll:
if (d_out->dollar.y > 0)
{
d_out->dollar.y--;
if (NULL != CURSOR_ADDRESS)
gtm_tputs(gtm_tparm(CURSOR_ADDRESS, d_out->dollar.y, d_out->dollar.x), 1,
outc);
}
break;
case iop_echo:
mask_in &= (~TRM_NOECHO);
break;
case iop_noecho:
mask_in |= TRM_NOECHO;
break;
case iop_editing:
if (io_curr_device.in == io_std_device.in)
{ /* $PRINCIPAL only */
tt_ptr->ext_cap |= TT_EDITING;
if (!tt_ptr->recall_buff.addr)
{
assert(tt_ptr->in_buf_sz);
tt_ptr->recall_buff.addr = malloc(tt_ptr->in_buf_sz);
tt_ptr->recall_size = tt_ptr->in_buf_sz;
tt_ptr->recall_buff.len = 0; /* nothing in buffer */
}
}
break;
case iop_noediting:
if (io_curr_device.in == io_std_device.in)
tt_ptr->ext_cap &= ~TT_EDITING; /* $PRINCIPAL only */
break;
case iop_escape:
mask_in |= TRM_ESCAPE;
break;
case iop_noescape:
mask_in &= (~TRM_ESCAPE);
default:
break;
case iop_eraseline:
if (NULL != CLR_EOL)
gtm_tputs(CLR_EOL, 1, outc);
break;
case iop_exception:
iod->error_handler.len = *(pp->str.addr + p_offset);
iod->error_handler.addr = (char *)(pp->str.addr + p_offset + 1);
s2pool(&iod->error_handler);
break;
case iop_filter:
len = *(pp->str.addr + p_offset);
ttab = pp->str.addr + p_offset + 1;
if ((fil_type = namelook(filter_index, filter_names, ttab, len)) < 0)
{
rts_error_csa(CSA_ARG(NULL) VARLSTCNT(1) ERR_TTINVFILTER);
return;
}
switch (fil_type)
{
case 0:
iod->write_filter |= CHAR_FILTER;
break;
case 1:
iod->write_filter |= ESC1;
break;
case 2:
iod->write_filter &= ~CHAR_FILTER;
break;
case 3:
iod->write_filter &= ~ESC1;
break;
}
break;
case iop_nofilter:
iod->write_filter = 0;
break;
case iop_flush:
flush_input = TRUE;
break;
case iop_hostsync:
t.c_iflag |= IXOFF;
break;
case iop_nohostsync:
t.c_iflag &= ~IXOFF;
break;
case iop_insert:
if (io_curr_device.in == io_std_device.in)
tt_ptr->ext_cap &= ~TT_NOINSERT; /* $PRINCIPAL only */
break;
case iop_noinsert:
if (io_curr_device.in == io_std_device.in)
tt_ptr->ext_cap |= TT_NOINSERT; /* $PRINCIPAL only */
break;
case iop_length:
GET_LONG(length, pp->str.addr + p_offset);
if (0 > length)
rts_error_csa(CSA_ARG(NULL) VARLSTCNT(1) ERR_DEVPARMNEG);
d_out->length = length;
break;
case iop_pasthru:
mask_in |= TRM_PASTHRU;
break;
case iop_nopasthru:
mask_in &= (~TRM_PASTHRU);
break;
case iop_readsync:
mask_in |= TRM_READSYNC;
break;
case iop_noreadsync:
dc1 = (char)17;
temp_ptr = (d_tt_struct *)io_std_device.in->dev_sp;
DOWRITERC(temp_ptr->fildes, &dc1, 1, status);
if (0 != status)
rts_error_csa(CSA_ARG(NULL) VARLSTCNT(1) status);
mask_in &= (~TRM_READSYNC);
break;
case iop_terminator:
memcpy(&mask_term.mask[0], (pp->str.addr + p_offset), SIZEOF(io_termmask));
temp_ptr = (d_tt_struct *)d_in->dev_sp;
if (mask_term.mask[0] == NUL &&
mask_term.mask[1] == NUL &&
mask_term.mask[2] == NUL &&
mask_term.mask[3] == NUL &&
mask_term.mask[4] == NUL &&
mask_term.mask[5] == NUL &&
mask_term.mask[6] == NUL &&
mask_term.mask[7] == NUL)
{
temp_ptr->default_mask_term = TRUE;
if (CHSET_UTF8 == d_in->ichset)
{
mask_term.mask[0] = TERM_MSK_UTF8_0;
mask_term.mask[4] = TERM_MSK_UTF8_4;
} else
mask_term.mask[0] = TERM_MSK;
} else
temp_ptr->default_mask_term = FALSE;
break;
case iop_noterminator:
temp_ptr = (d_tt_struct *)d_in->dev_sp;
temp_ptr->default_mask_term = FALSE;
memset(&mask_term.mask[0], 0, SIZEOF(io_termmask));
break;
case iop_ttsync:
t.c_iflag |= IXON;
break;
case iop_nottsync:
t.c_iflag &= ~IXON;
break;
case iop_typeahead:
mask_in &= (~TRM_NOTYPEAHD);
break;
case iop_notypeahead:
mask_in |= TRM_NOTYPEAHD;
break;
case iop_upscroll:
d_out->dollar.y++;
if (d_out->length)
d_out->dollar.y %= d_out->length;
if (NULL != CURSOR_ADDRESS)
gtm_tputs(gtm_tparm(CURSOR_ADDRESS, d_out->dollar.y, d_out->dollar.x), 1, outc);
break;
case iop_width:
GET_LONG(width, pp->str.addr + p_offset);
if (0 > width)
rts_error_csa(CSA_ARG(NULL) VARLSTCNT(1) ERR_DEVPARMNEG);
/* Do not allow a WIDTH of 1 if UTF mode (ICHSET or OCHSET is not M) */
if ((1 == width) && ((CHSET_M != d_in->ochset) || (CHSET_M != d_in->ichset)))
rts_error_csa(CSA_ARG(NULL) VARLSTCNT(1) ERR_WIDTHTOOSMALL);
if (0 == width)
{
d_out->wrap = FALSE;
d_out->width = TTDEF_PG_WIDTH;
} else
{
d_out->width = width;
d_out->wrap = TRUE;
}
break;
case iop_wrap:
d_out->wrap = TRUE;
break;
case iop_nowrap:
d_out->wrap = FALSE;
break;
case iop_x:
GET_LONG(d_out->dollar.x, pp->str.addr + p_offset);
if (0 > (int4)d_out->dollar.x)
d_out->dollar.x = 0;
if (d_out->dollar.x > d_out->width && d_out->wrap)
{
d_out->dollar.y += (d_out->dollar.x / d_out->width);
if (d_out->length)
d_out->dollar.y %= d_out->length;
d_out->dollar.x %= d_out->width;
}
if (NULL != CURSOR_ADDRESS)
gtm_tputs(gtm_tparm(CURSOR_ADDRESS, d_out->dollar.y, d_out->dollar.x), 1, outc);
break;
case iop_y:
GET_LONG(d_out->dollar.y, pp->str.addr + p_offset);
if (0 > (int4)d_out->dollar.y)
d_out->dollar.y = 0;
if (d_out->length)
d_out->dollar.y %= d_out->length;
if (NULL != CURSOR_ADDRESS)
gtm_tputs(gtm_tparm(CURSOR_ADDRESS, d_out->dollar.y, d_out->dollar.x), 1, outc);
break;
case iop_ipchset:
{
# ifdef KEEP_zOS_EBCDIC
if ( (iconv_t)0 != iod->input_conv_cd )
{
ICONV_CLOSE_CD(iod->input_conv_cd);
}
SET_CODE_SET(iod->in_code_set, (char *)(pp->str.addr + p_offset + 1));
if (DEFAULT_CODE_SET != iod->in_code_set)
ICONV_OPEN_CD(iod->input_conv_cd,
(char *)(pp->str.addr + p_offset + 1), INSIDE_CH_SET);
# endif
break;
}
case iop_opchset:
{
# ifdef KEEP_zOS_EBCDIC
if ( (iconv_t)0 != iod->output_conv_cd)
{
ICONV_CLOSE_CD(iod->output_conv_cd);
}
SET_CODE_SET(iod->out_code_set, (char *)(pp->str.addr + p_offset + 1));
if (DEFAULT_CODE_SET != iod->out_code_set)
ICONV_OPEN_CD(iod->output_conv_cd, INSIDE_CH_SET,
(char *)(pp->str.addr + p_offset + 1));
# endif
break;
}
}
p_offset += ((IOP_VAR_SIZE == io_params_size[ch]) ?
(unsigned char)*(pp->str.addr + p_offset) + 1 : io_params_size[ch]);
}
temp_ptr = (d_tt_struct *)d_in->dev_sp;
Tcsetattr(tt_ptr->fildes, TCSANOW, &t, status, save_errno);
if (0 != status)
rts_error_csa(CSA_ARG(NULL) VARLSTCNT(4) ERR_TCSETATTR, 1, tt_ptr->fildes, save_errno);
temp_ptr->term_ctrl = mask_in;
memcpy(&temp_ptr->mask_term, &mask_term, SIZEOF(io_termmask));
if (flush_input)
{
TCFLUSH(tt_ptr->fildes, TCIFLUSH, status);
if (0 != status)
rts_error_csa(CSA_ARG(NULL) VARLSTCNT(8) ERR_SYSCALL, 5, LIT_AND_LEN("tcflush input"),
CALLFROM, errno);
}
} else if (tt_ptr->mupintr && !dollar_zininterrupt)
{ /* The interrupted read was not properly resumed so clear it now */
tt_ptr->mupintr = FALSE;
tt_ptr->tt_state_save.who_saved = ttwhichinvalid;
io_find_mvstent(iod, TRUE); /* clear mv stack entry */
}
REVERT_GTMIO_CH(&iod->pair, ch_set);
return;
}
