fis-gtm/sr_unix/iott_readfl.c

1175 lines
36 KiB
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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 <errno.h>
#include <wctype.h>
#include <wchar.h>
#include "gtm_string.h"
#include "iotcp_select.h"
#include "io_params.h"
#include "io.h"
#include "trmdef.h"
#include "iotimer.h"
#include "gt_timer.h"
#include "iottdef.h"
#include "iott_edit.h"
#include "stringpool.h"
#include "gtmio.h"
#include "eintr_wrappers.h"
#include "send_msg.h"
#include "outofband.h"
#include "error.h"
#include "std_dev_outbndset.h"
#include "wake_alarm.h"
#include "min_max.h"
#ifdef UNICODE_SUPPORTED
#include "gtm_icu_api.h"
#include "gtm_utf8.h"
#endif
GBLDEF int4 spc_inp_prc; /* dummy: not used currently */
GBLDEF bool ctrlu_occurred; /* dummy: not used currently */
GBLDEF int term_error_line; /* record for cores */
GBLREF io_pair io_curr_device;
GBLREF io_pair io_std_device;
GBLREF bool prin_in_dev_failure;
GBLREF spdesc stringpool;
GBLREF volatile int4 outofband;
GBLREF mv_stent *mv_chain;
GBLREF stack_frame *frame_pointer;
GBLREF unsigned char *msp, *stackbase, *stacktop, *stackwarn;
GBLREF boolean_t dollar_zininterrupt;
GBLREF int4 ctrap_action_is;
GBLREF boolean_t gtm_utf8_mode;
#ifdef UNICODE_SUPPORTED
LITREF UChar32 u32_line_term[];
#endif
GBLREF int AUTO_RIGHT_MARGIN, EAT_NEWLINE_GLITCH;
GBLREF char *CURSOR_UP, *CURSOR_DOWN, *CURSOR_LEFT, *CURSOR_RIGHT, *CLR_EOL;
GBLREF char *KEY_BACKSPACE, *KEY_DC;
GBLREF char *KEY_DOWN, *KEY_LEFT, *KEY_RIGHT, *KEY_UP;
GBLREF char *KEY_INSERT;
GBLREF char *KEYPAD_LOCAL, *KEYPAD_XMIT;
#ifdef __MVS__
# define SEND_KEYPAD_LOCAL
#else
# define SEND_KEYPAD_LOCAL \
if (edit_mode && NULL != KEYPAD_LOCAL && (keypad_len = STRLEN(KEYPAD_LOCAL))) /* embedded assignment */ \
DOWRITE(tt_ptr->fildes, KEYPAD_LOCAL, keypad_len);
#endif
LITREF unsigned char lower_to_upper_table[];
/* dc1 & dc3 have the same value in ASCII and EBCDIC */
static readonly char dc1 = 17;
static readonly char dc3 = 19;
static readonly unsigned char eraser[3] = { NATIVE_BS, NATIVE_SP, NATIVE_BS };
#ifdef UNICODE_SUPPORTED
/* Maintenance of $ZB on a badchar error and returning partial data (if any) */
void iott_readfl_badchar(mval *vmvalptr, wint_t *dataptr32, int datalen,
int delimlen, unsigned char *delimptr, unsigned char *strend, unsigned char *buffer_start)
{
int i, tmplen, len;
unsigned char *delimend, *outptr, *outtop;
wint_t *curptr32;
io_desc *iod;
if (0 < datalen && NULL != dataptr32)
{ /* Return how much input we got */
if (gtm_utf8_mode)
{
outptr = buffer_start;
outtop = ((unsigned char *)dataptr32);
curptr32 = dataptr32;
for (i = 0; i < datalen && outptr < outtop; i++, curptr32++)
outptr = UTF8_WCTOMB(*curptr32, outptr);
vmvalptr->str.len = INTCAST(outptr - buffer_start);
} else
vmvalptr->str.len = datalen;
vmvalptr->str.addr = (char *)buffer_start;
if (buffer_start == stringpool.free)
stringpool.free += vmvalptr->str.len; /* The BADCHAR error after this won't do this for us */
}
if (NULL != strend && NULL != delimptr)
{ /* First find the end of the delimiter (max of 4 bytes) */
if (0 == delimlen)
{
for (delimend = delimptr; 4 >= delimlen && delimend < strend; ++delimend, ++delimlen)
{
if (UTF8_VALID(delimend, strend, tmplen))
break;
}
}
if (0 < delimlen)
{ /* Set $ZB with the failing badchar */
iod = io_curr_device.in;
memcpy(iod->dollar.zb, delimptr, MIN(delimlen, ESC_LEN - 1));
iod->dollar.zb[MIN(delimlen, ESC_LEN - 1)] = '\0';
}
}
}
#endif
int iott_readfl(mval *v, int4 length, int4 timeout) /* timeout in seconds */
{
boolean_t ret, nonzerotimeout, timed, insert_mode, edit_mode, utf8_active, zint_restart, buffer_moved;
uint4 mask;
wint_t inchar, *current_32_ptr, *buffer_32_start, switch_char;
unsigned char inbyte, *outptr, *outtop;
#ifdef __MVS__
wint_t asc_inchar;
#endif
unsigned char more_buf[GTM_MB_LEN_MAX + 1], *more_ptr; /* to build up multi byte for character */
unsigned char *current_ptr; /* insert next character into buffer here */
unsigned char *buffer_start; /* beginning of non UTF8 buffer */
int msk_in, msk_num, rdlen, save_errno, selstat, status, ioptr_width, i, utf8_more;
int exp_length;
int inchar_width; /* display width of inchar */
int delchar_width; /* display width of deleted char */
int delta_width; /* display width change for replaced char */
int dx, dx_start; /* local dollar X, starting value */
int dx_instr, dx_outlen; /* wcwidth of string to insert point, whole string */
int dx_prev, dx_cur, dx_next;/* wcwidth of string to char BEFORE, AT and AFTER the insert point */
int instr; /* insert point in input string */
int outlen; /* total characters in line so far */
int keypad_len, backspace, delete;
int up, down, right, left, insert_key;
boolean_t escape_edit;
int4 msec_timeout; /* timeout in milliseconds */
io_desc *io_ptr;
d_tt_struct *tt_ptr;
io_terminator outofbands;
io_termmask mask_term;
tt_interrupt *tt_state;
mv_stent *mvc, *mv_zintdev;
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);
error_def(ERR_ZINTRECURSEIO);
error_def(ERR_STACKOFLOW);
error_def(ERR_STACKCRIT);
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);
insert_mode = !(TT_NOINSERT & tt_ptr->ext_cap); /* get initial mode */
ioptr_width = io_ptr->width;
utf8_active = gtm_utf8_mode ? (CHSET_M != io_ptr->ichset) : FALSE;
/* if utf8_active, need room for multi byte characters plus wint_t buffer */
exp_length = utf8_active ? (int)(((SIZEOF(wint_t) * length) + (GTM_MB_LEN_MAX * length) + SIZEOF(gtm_int64_t))) : length;
zint_restart = FALSE;
if (tt_ptr->mupintr)
{ /* restore state to before job interrupt */
tt_state = &tt_ptr->tt_state_save;
if (ttwhichinvalid == tt_state->who_saved)
GTMASSERT;
if (dollar_zininterrupt)
{
tt_ptr->mupintr = FALSE;
tt_state->who_saved = ttwhichinvalid;
rts_error(VARLSTCNT(1) ERR_ZINTRECURSEIO);
}
assert(length == tt_state->length);
if (ttread != tt_state->who_saved)
GTMASSERT; /* ZINTRECURSEIO should have caught */
mv_zintdev = io_find_mvstent(io_ptr, FALSE);
if (NULL != mv_zintdev && mv_zintdev->mv_st_cont.mvs_zintdev.buffer_valid)
{ /* looks good so use it */
buffer_start = (unsigned char *)mv_zintdev->mv_st_cont.mvs_zintdev.curr_sp_buffer.addr;
current_ptr = buffer_start;
mv_zintdev->mv_st_cont.mvs_zintdev.buffer_valid = FALSE;
mv_zintdev->mv_st_cont.mvs_zintdev.io_ptr = NULL;
if (mv_chain == mv_zintdev)
POP_MV_STENT(); /* pop if top of stack */
buffer_moved = (buffer_start != tt_state->buffer_start);
if (utf8_active)
{ /* need to properly align U32 buffer */
assert(exp_length == tt_state->exp_length);
buffer_32_start = (wint_t *)ROUND_UP2((INTPTR_T)(buffer_start + (GTM_MB_LEN_MAX * length)),
SIZEOF(gtm_int64_t));
if (buffer_moved && (((unsigned char *)buffer_32_start - buffer_start)
!= ((unsigned char *)tt_state->buffer_32_start - tt_state->buffer_start)))
memmove(buffer_32_start, buffer_start + ((unsigned char *)tt_state->buffer_32_start
- tt_state->buffer_start), (SIZEOF(wint_t) * length));
current_32_ptr = buffer_32_start;
utf8_more = tt_state->utf8_more;
more_ptr = tt_state->more_ptr;
memcpy(more_buf, tt_state->more_buf, SIZEOF(more_buf));
}
instr = tt_state->instr;
outlen = tt_state->outlen;
dx = tt_state->dx;
dx_start = tt_state->dx_start;
dx_instr = tt_state->dx_instr;
dx_outlen = tt_state->dx_outlen;
insert_mode = tt_state->insert_mode;
end_time = tt_state->end_time;
zb_ptr = tt_state->zb_ptr;
zb_top = tt_state->zb_top;
tt_state->who_saved = ttwhichinvalid;
tt_ptr->mupintr = FALSE;
zint_restart = TRUE;
}
}
if (!zint_restart)
{
ENSURE_STP_FREE_SPACE(exp_length);
buffer_start = current_ptr = stringpool.free;
if (utf8_active)
{
buffer_32_start = (wint_t *)ROUND_UP2((INTPTR_T)(stringpool.free + (GTM_MB_LEN_MAX * length)),
SIZEOF(gtm_int64_t));
current_32_ptr = buffer_32_start;
}
instr = outlen = 0;
dx_instr = dx_outlen = 0;
utf8_more = 0;
/* ---------------------------------------------------------
* zb_ptr is 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;
dx_start = (int)io_ptr->dollar.x;
}
v->str.len = 0;
ret = TRUE;
mask = tt_ptr->term_ctrl;
mask_term = tt_ptr->mask_term;
/* keep test in next line in sync with test in iott_rdone.c */
edit_mode = (0 != (TT_EDITING & tt_ptr->ext_cap) && !((TRM_NOECHO|TRM_PASTHRU) & mask));
if (!zint_restart)
{
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);
}
}
}
if (edit_mode)
{ /* remove ESC and editing control characters from terminator list */
mask_term.mask[ESC / NUM_BITS_IN_INT4] &= ~(1 << ESC);
mask_term.mask[EDIT_SOL / NUM_BITS_IN_INT4] &= ~(1 << EDIT_SOL);
mask_term.mask[EDIT_EOL / NUM_BITS_IN_INT4] &= ~(1 << EDIT_EOL);
mask_term.mask[EDIT_DEOL / NUM_BITS_IN_INT4] &= ~(1 << EDIT_DEOL);
mask_term.mask[EDIT_DELETE / NUM_BITS_IN_INT4] &= ~(1 << EDIT_DELETE);
mask_term.mask[EDIT_LEFT / NUM_BITS_IN_INT4] &= ~(1 << EDIT_LEFT);
mask_term.mask[EDIT_RIGHT / NUM_BITS_IN_INT4] &= ~(1 << EDIT_RIGHT);
mask_term.mask[EDIT_ERASE / NUM_BITS_IN_INT4] &= ~(1 << EDIT_ERASE);
if (!zint_restart)
{
/* to turn keypad on if possible */
#ifndef __MVS__
if (NULL != KEYPAD_XMIT && (keypad_len = STRLEN(KEYPAD_XMIT))) /* embedded assignment */
{
DOWRITERC(tt_ptr->fildes, KEYPAD_XMIT, keypad_len, status);
if (0 != status)
{
io_ptr->dollar.za = 9;
rts_error(VARLSTCNT(1) status);
}
}
#endif
dx_start = (dx_start + ioptr_width) % ioptr_width; /* normalize within width */
}
}
if (!zint_restart)
dx = dx_start;
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)
{
if (!zint_restart)
iott_mterm(io_ptr);
} else
{
nonzerotimeout = TRUE;
sys_get_curr_time(&cur_time);
if (!zint_restart)
add_int_to_abs_time(&cur_time, msec_timeout, &end_time);
}
}
input_timeval.tv_usec = 0;
do
{
if (outofband)
{
if (jobinterrupt == outofband)
{ /* save state if jobinterrupt */
tt_state = &tt_ptr->tt_state_save;
tt_state->who_saved = ttread;
tt_state->length = length;
tt_state->buffer_start = buffer_start;
PUSH_MV_STENT(MVST_ZINTDEV);
mv_chain->mv_st_cont.mvs_zintdev.curr_sp_buffer.addr = (char *)buffer_start;
mv_chain->mv_st_cont.mvs_zintdev.curr_sp_buffer.len = exp_length;
mv_chain->mv_st_cont.mvs_zintdev.buffer_valid = TRUE;
mv_chain->mv_st_cont.mvs_zintdev.io_ptr = io_ptr;
if (utf8_active)
{
tt_state->exp_length = exp_length;
tt_state->buffer_32_start = buffer_32_start;
tt_state->utf8_more = utf8_more;
tt_state->more_ptr = more_ptr;
memcpy(tt_state->more_buf, more_buf, SIZEOF(more_buf));
}
if (buffer_start == stringpool.free)
stringpool.free += exp_length; /* reserve space */
tt_state->instr = instr;
tt_state->outlen = outlen;
tt_state->dx = dx;
tt_state->dx_start = dx_start;
tt_state->dx_instr = dx_instr;
tt_state->dx_outlen = dx_outlen;
tt_state->insert_mode = insert_mode;
tt_state->end_time = end_time;
tt_state->zb_ptr = zb_ptr;
tt_state->zb_top = zb_top;
tt_ptr->mupintr = TRUE;
} else
{
instr = outlen = 0;
SEND_KEYPAD_LOCAL
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)
{
term_error_line = __LINE__;
goto term_error;
}
} else if (0 == selstat)
{
if (timed)
{
ret = FALSE;
break;
}
continue; /* select() timeout; keep going */
} else if (0 < (rdlen = (int)(read(tt_ptr->fildes, &inbyte, 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 == inbyte)
{
/* --------------------------------------
* 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++;
tt_ptr->discard_lf = FALSE;
if (io_ptr->error_handler.len > 0)
rts_error(VARLSTCNT(1) ERR_IOEOF);
break;
} else
io_ptr->dollar.zeof = FALSE;
}
#ifdef UNICODE_SUPPORTED
if (utf8_active)
{
if (tt_ptr->discard_lf)
{ /* saw CR last time so ignore following LF */
tt_ptr->discard_lf = FALSE;
if (NATIVE_LF == inbyte)
continue;
}
if (utf8_more)
{ /* needed extra bytes */
*more_ptr++ = inbyte;
if (--utf8_more)
continue; /* get next byte */
UTF8_MBTOWC(more_buf, more_ptr, inchar);
if (WEOF == inchar)
{ /* invalid char */
io_ptr->dollar.za = 9;
iott_readfl_badchar(v, buffer_32_start, outlen,
(int)(more_ptr - more_buf), more_buf, more_ptr, buffer_start);
utf8_badchar((int)(more_ptr - more_buf), more_buf, more_ptr, 0, NULL); /* BADCHAR */
break;
}
} else if (0 < (utf8_more = UTF8_MBFOLLOW(&inbyte))) /* assignment */
{
more_ptr = more_buf;
if (0 > utf8_more)
{ /* invalid character */
io_ptr->dollar.za = 9;
*more_ptr++ = inbyte;
iott_readfl_badchar(v, buffer_32_start, outlen,
1, more_buf, more_ptr, buffer_start);
utf8_badchar(1, more_buf, more_ptr, 0, NULL); /* ERR_BADCHAR */
break;
} else if (GTM_MB_LEN_MAX < utf8_more)
{ /* too big to be valid */
io_ptr->dollar.za = 9;
*more_ptr++ = inbyte;
iott_readfl_badchar(v, buffer_32_start, outlen,
1, more_buf, more_ptr, buffer_start);
utf8_badchar(1, more_buf, more_ptr, 0, NULL); /* ERR_BADCHAR */
break;
} else
{
*more_ptr++ = inbyte;
continue; /* get next byte */
}
} else
{ /* single byte */
more_ptr = more_buf;
*more_ptr++ = inbyte;
UTF8_MBTOWC(more_buf, more_ptr, inchar);
if (WEOF == inchar)
{ /* invalid char */
io_ptr->dollar.za = 9;
iott_readfl_badchar(v, buffer_32_start, outlen,
1, more_buf, more_ptr, buffer_start);
utf8_badchar(1, more_buf, more_ptr, 0, NULL); /* ERR_BADCHAR */
break;
}
}
if (!tt_ptr->done_1st_read)
{
tt_ptr->done_1st_read = TRUE;
if (BOM_CODEPOINT == inchar)
continue;
}
if (mask & TRM_CONVERT)
inchar = u_toupper(inchar);
GTM_IO_WCWIDTH(inchar, inchar_width);
} else
{
#endif
if (mask & TRM_CONVERT)
NATIVE_CVT2UPPER(inbyte, inbyte);
inchar = inbyte;
inchar_width = 1;
#ifdef UNICODE_SUPPORTED
}
#endif
GETASCII(asc_inchar,inchar);
if (!edit_mode && (dx >= ioptr_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)))
{ /* ctrap supercedes editing so check first */
instr = outlen = 0;
io_ptr->dollar.za = 9;
std_dev_outbndset(INPUT_CHAR); /* it needs ASCII? */
SEND_KEYPAD_LOCAL
if (!msec_timeout)
iott_rterm(io_ptr);
rts_error(VARLSTCNT(3) ERR_CTRAP, 1, ctrap_action_is);
break;
}
if (((0 != (mask & TRM_ESCAPE)) || edit_mode)
&& ((NATIVE_ESC == inchar) || (START != io_ptr->esc_state)))
{
if (zb_ptr >= zb_top UNICODE_ONLY(|| (utf8_active && ASCII_MAX < inchar)))
{ /* $zb overflow or not ASCII in utf8 mode */
io_ptr->dollar.za = 2;
break;
}
*zb_ptr++ = (unsigned char)inchar;
iott_escape(zb_ptr - 1, zb_ptr, io_ptr);
*(zb_ptr - 1) = (unsigned char)INPUT_CHAR; /* need to store ASCII value */
if (FINI == io_ptr->esc_state && !edit_mode)
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! */
if (!utf8_active || ASCII_MAX >= INPUT_CHAR)
{ /* may need changes to allow terminator > MAX_ASCII and/or LS and PS if default_mask_term */
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++ = (unsigned char)INPUT_CHAR;
if (utf8_active && ASCII_CR == INPUT_CHAR)
tt_ptr->discard_lf = TRUE;
break;
}
} else if (utf8_active && tt_ptr->default_mask_term && (u32_line_term[U32_LT_NL] == INPUT_CHAR ||
u32_line_term[U32_LT_LS] == INPUT_CHAR || u32_line_term[U32_LT_PS] == INPUT_CHAR))
{ /* UTF and default terminators and Unicode terminators above ASCII_MAX */
zb_ptr = UTF8_WCTOMB(INPUT_CHAR, zb_ptr);
break;
}
assert(0 <= instr);
assert(!edit_mode || 0 <= dx);
assert(outlen >= instr);
if ((int)inchar == tt_ptr->ttio_struct->c_cc[VERASE]
&& !(mask & TRM_PASTHRU))
{
if (0 < instr && (edit_mode || 0 < dx))
{
dx_prev = compute_dx(BUFF_ADDR(0), instr - 1, ioptr_width, dx_start);
delchar_width = dx_instr - dx_prev;
if (edit_mode)
{
if (!(mask & TRM_NOECHO))
move_cursor_left(dx, delchar_width);
dx = (dx - delchar_width + ioptr_width) % ioptr_width;
} else
dx -= delchar_width;
instr--;
dx_instr -= delchar_width;
STORE_OFF(' ', outlen);
outlen--;
if (!(mask & TRM_NOECHO) && edit_mode)
{
IOTT_COMBINED_CHAR_CHECK;
}
MOVE_BUFF(instr, BUFF_ADDR(instr + 1), outlen - instr);
if (!(mask & TRM_NOECHO))
{
if (!edit_mode)
{
for (i = 0; i < delchar_width; i++)
{
DOWRITERC(tt_ptr->fildes, eraser,
SIZEOF(eraser), status)
if (0 != status)
break;
}
} else
{ /* First write spaces on all the display columns that
* the current string occupied. Then overwrite that
* with the new string. This way we are guaranteed all
* display columns are clean.
*/
status = write_str_spaces(dx_outlen - dx_instr, dx, FALSE);
if (0 == status)
status = write_str(BUFF_ADDR(instr),
outlen - instr, dx, FALSE, FALSE);
}
if (0 != status)
{
term_error_line = __LINE__;
goto term_error;
}
}
dx_outlen = compute_dx(BUFF_ADDR(0), outlen, ioptr_width, dx_start);
}
} else
{
if (!edit_mode)
switch_char = 'A'; /* force to default case */
else
switch_char = inchar;
switch (switch_char)
{
case EDIT_SOL: /* ctrl A start of line */
{
int num_lines_above;
int num_chars_left;
num_lines_above = (dx_instr + dx_start) /
ioptr_width;
num_chars_left = dx - dx_start;
if (!(mask & TRM_NOECHO))
{
if (0 != move_cursor(tt_ptr->fildes, num_lines_above,
num_chars_left))
{
term_error_line = __LINE__;
goto term_error;
}
}
instr = dx_instr = 0;
dx = dx_start;
break;
}
case EDIT_EOL: /* ctrl E end of line */
{
int num_lines_above;
int num_chars_left;
num_lines_above =
(dx_instr + dx_start) / ioptr_width -
(dx_outlen + dx_start) / ioptr_width;
/* For some reason, a CURSOR_DOWN ("\n") seems to reposition the cursor
* at the beginning of the next line rather than maintain the vertical
* position. Therefore if we are moving down, we need to calculate
* the num_chars_left differently to accommodate this.
*/
if (0 <= num_lines_above)
num_chars_left = dx - (dx_outlen + dx_start) % ioptr_width;
else
num_chars_left = - ((dx_outlen + dx_start) % ioptr_width);
if (!(mask & TRM_NOECHO))
{
if (0 != move_cursor(tt_ptr->fildes, num_lines_above,
num_chars_left))
{
term_error_line = __LINE__;
goto term_error;
}
}
instr = outlen;
dx_instr = dx_outlen;
dx = (dx_outlen + dx_start) % ioptr_width;
break;
}
case EDIT_LEFT: /* ctrl B left one */
{
if (instr != 0)
{
dx_prev = compute_dx(BUFF_ADDR(0), instr - 1,
ioptr_width, dx_start);
inchar_width = dx_instr - dx_prev;
if (!(mask & TRM_NOECHO))
{
if (0 != move_cursor_left(dx, inchar_width))
{
term_error_line = __LINE__;
goto term_error;
}
}
instr--;
dx = (dx - inchar_width + ioptr_width) % ioptr_width;
dx_instr -= inchar_width;
}
break;
}
case EDIT_RIGHT: /* ctrl F right one */
{
if (instr < outlen)
{
dx_next = compute_dx(BUFF_ADDR(0), instr + 1,
ioptr_width, dx_start);
inchar_width = dx_next - dx_instr;
if (!(mask & TRM_NOECHO))
{
if (0 != move_cursor_right(dx, inchar_width))
{
term_error_line = __LINE__;
goto term_error;
}
}
instr++;
dx = (dx + inchar_width) % ioptr_width;
dx_instr += inchar_width;
}
break;
}
case EDIT_DEOL: /* ctrl K delete to end of line */
{
if (!(mask & TRM_NOECHO))
{
if (0 != write_str_spaces(dx_outlen - dx_instr, dx, FALSE))
{
term_error_line = __LINE__;
goto term_error;
}
}
SET_BUFF(instr, ' ', outlen - instr);
outlen = instr;
dx_outlen = dx_instr;
break;
}
case EDIT_ERASE: /* ctrl U delete whole line */
{
int num_lines_above;
int num_chars_left;
num_lines_above = (dx_instr + dx_start) /
ioptr_width;
num_chars_left = dx - dx_start;
SET_BUFF(0, ' ', outlen);
if (!(mask & TRM_NOECHO))
{
status = move_cursor(tt_ptr->fildes,
num_lines_above, num_chars_left);
if (0 != status
|| 0 != write_str_spaces(dx_outlen, dx_start, FALSE))
{
term_error_line = __LINE__;
goto term_error;
}
}
instr = 0;
outlen = 0;
dx = dx_start;
dx_instr = dx_outlen = 0;
break;
}
case EDIT_DELETE: /* ctrl D delete char */
{
if (instr < outlen)
{
STORE_OFF(' ', outlen);
outlen--;
if (!(mask & TRM_NOECHO))
{
IOTT_COMBINED_CHAR_CHECK;
}
MOVE_BUFF(instr, BUFF_ADDR(instr + 1), outlen - instr);
if (!(mask & TRM_NOECHO))
{ /* First write spaces on all the display columns that
* the current string occupied. Then overwrite that
* with the new string. This way we are guaranteed all
* display columns are clean.
*/
if (0 != write_str_spaces(dx_outlen - dx_instr, dx, FALSE))
{
term_error_line = __LINE__;
goto term_error;
}
if (0 != write_str(BUFF_ADDR(instr), outlen - instr,
dx, FALSE, FALSE))
{
term_error_line = __LINE__;
goto term_error;
}
}
dx_outlen = compute_dx(BUFF_ADDR(0), outlen,
ioptr_width, dx_start);
}
break;
}
default:
{
if (outlen > instr)
{
if (insert_mode)
MOVE_BUFF(instr + 1, BUFF_ADDR(instr), outlen - instr)
else if (edit_mode && !insert_mode)
{ /* only needed if edit && !insert_mode && not at end */
GTM_IO_WCWIDTH(GET_OFF(instr), delchar_width);
delta_width = inchar_width - delchar_width;
}
}
STORE_OFF(inchar, instr);
if (!(mask & TRM_NOECHO))
{
if (!edit_mode)
{
term_error_line = __LINE__;
status = iott_write_raw(tt_ptr->fildes,
BUFF_ADDR(instr), 1);
if (0 <= status)
status = 0;
else
status = errno;
} else if (instr == outlen)
{
term_error_line = __LINE__;
status = write_str(BUFF_ADDR(instr), 1, dx, FALSE, FALSE);
} else
{ /* First write spaces on all the display columns that the
* current string occupied. Then overwrite that with the
* new string. This way we are guaranteed all display
* columns are clean. Note that this space overwrite is
* needed even in case of insert mode because due to
* differing wide-character alignments before and after
* the insert, it is possible that a column might be left
* empty in the post insert write of the new string even
* though it had something displayed before.
*/
term_error_line = __LINE__;
status = write_str_spaces(dx_outlen - dx_instr, dx, FALSE);
if (0 == status)
{
term_error_line = __LINE__;
status = write_str(BUFF_ADDR(instr),
outlen - instr + (insert_mode ? 1 : 0),
dx, FALSE, FALSE);
}
}
if (0 != status)
goto term_error;
}
if (insert_mode || instr == outlen)
outlen++;
instr++;
if (edit_mode)
{ /* Compute value of dollarx at the new cursor position */
dx_cur = compute_dx(BUFF_ADDR(0), instr, ioptr_width, dx_start);
inchar_width = dx_cur - dx_instr;
if (!(mask & TRM_NOECHO))
{
term_error_line = __LINE__;
status = move_cursor_right(dx, inchar_width);
if (0 != status)
goto term_error;
}
}
if (!edit_mode)
{
dx += inchar_width;
dx_instr += inchar_width;
dx_outlen += inchar_width;
} else if (insert_mode || instr >= outlen)
{ /* at end or insert */
dx = (dx + inchar_width) % ioptr_width;
dx_instr = dx_cur;
dx_outlen = compute_dx(BUFF_ADDR(0), outlen,
ioptr_width, dx_start);
} else
{ /* replaced character */
dx = (dx + inchar_width) % ioptr_width;
dx_instr = dx_cur;
dx_outlen = compute_dx(BUFF_ADDR(0), outlen,
ioptr_width, dx_start);
}
break;
}
}
}
}
/* Ensure that the actual display position of the current character matches the computed value */
assert(!edit_mode || dx_instr == compute_dx(BUFF_ADDR(0), instr, ioptr_width, dx_start));
assert(!edit_mode || dx_outlen == compute_dx(BUFF_ADDR(0), outlen, ioptr_width, dx_start));
} 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;
SEND_KEYPAD_LOCAL
rts_error(VARLSTCNT(1) ERR_IOEOF);
} else
{
io_ptr->dollar.zeof = TRUE;
io_ptr->dollar.za = 0;
SEND_KEYPAD_LOCAL
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++;
SEND_KEYPAD_LOCAL
if (0 < io_ptr->error_handler.len)
rts_error(VARLSTCNT(1) ERR_IOEOF);
break;
}
} else if (EINTR != errno) /* rdlen < 0 */
{
term_error_line = __LINE__;
goto term_error;
}
if (FINI == io_ptr->esc_state)
{
int zb_len = (int)(zb_ptr - io_ptr->dollar.zb);
escape_edit = FALSE;
down = strncmp((const char *)io_ptr->dollar.zb, KEY_DOWN, zb_len);
up = strncmp((const char *)io_ptr->dollar.zb, KEY_UP, zb_len);
right = strncmp((const char *)io_ptr->dollar.zb, KEY_RIGHT, zb_len);
left = strncmp((const char *)io_ptr->dollar.zb, KEY_LEFT, zb_len);
backspace = delete = insert_key = -1;
if (KEY_BACKSPACE != NULL)
backspace = strncmp((const char *)io_ptr->dollar.zb, KEY_BACKSPACE, zb_len);
if (KEY_DC != NULL)
delete = strncmp((const char *)io_ptr->dollar.zb, KEY_DC, zb_len);
if (KEY_INSERT != NULL && '\0' != KEY_INSERT[0])
insert_key = strncmp((const char *)io_ptr->dollar.zb, KEY_INSERT, zb_len);
if (backspace == 0 || delete == 0)
{
if (instr > 0)
{
dx_prev = compute_dx(BUFF_ADDR(0), instr - 1, ioptr_width, dx_start);
delchar_width = dx_instr - dx_prev;
if (!(mask & TRM_NOECHO))
{
term_error_line = __LINE__;
status = move_cursor_left(dx, delchar_width);
}
dx = (dx - delchar_width + ioptr_width) % ioptr_width;
instr--;
dx_instr -= delchar_width;
STORE_OFF(' ', outlen);
outlen--;
if (!(mask & TRM_NOECHO))
{
IOTT_COMBINED_CHAR_CHECK;
}
MOVE_BUFF(instr, BUFF_ADDR(instr + 1), outlen - instr);
if (!(mask & TRM_NOECHO))
{ /* First write spaces on all the display columns that the current string occupied.
* Then overwrite that with the new string. This way we are guaranteed all
* display columns are clean.
*/
if (0 == status)
{
term_error_line = __LINE__;
status = write_str_spaces(dx_outlen - dx_instr, dx, FALSE);
}
if (0 == status)
{
term_error_line = __LINE__;
status = write_str(BUFF_ADDR(instr), outlen - instr, dx, FALSE, FALSE);
}
if (0 != status)
goto term_error;
}
dx_outlen = compute_dx(BUFF_ADDR(0), outlen, ioptr_width, dx_start);
}
escape_edit = TRUE;
}
if (up == 0 || down == 0)
{ /* move cursor to start of field */
if (0 < instr)
{
if (0 != move_cursor(tt_ptr->fildes, ((dx_instr + dx_start) / ioptr_width),
(dx - dx_start)))
{
term_error_line = __LINE__;
goto term_error;
}
}
instr = (int)tt_ptr->recall_buff.len;
if (length < instr)
instr = length; /* restrict to length of read */
if (0 != instr)
{ /* need to blank old output first */
SET_BUFF(instr, ' ', outlen);
if (0 != write_str_spaces(dx_outlen, dx_start, FALSE))
{
term_error_line = __LINE__;
goto term_error;
}
MOVE_BUFF(0, tt_ptr->recall_buff.addr, instr);
if (0 != write_str(BUFF_ADDR(0), instr, dx_start, TRUE, FALSE))
{
term_error_line = __LINE__;
goto term_error;
}
}
dx_instr = dx_outlen = tt_ptr->recall_width;
dx = (unsigned)(dx_instr + dx_start) % ioptr_width;
outlen = instr;
escape_edit = TRUE;
} else if ( !(mask & TRM_NOECHO)
&& !(right == 0 && instr == outlen)
&& !(left == 0 && instr == 0))
{
if (right == 0)
{
dx_next = compute_dx(BUFF_ADDR(0), instr + 1, ioptr_width, dx_start);
inchar_width = dx_next - dx_instr;
if (0 != move_cursor_right(dx, inchar_width))
{
term_error_line = __LINE__;
goto term_error;
}
instr++;
dx = (dx + inchar_width) % ioptr_width;
dx_instr += inchar_width;
}
if (left == 0)
{
dx_prev = compute_dx(BUFF_ADDR(0), instr - 1, ioptr_width, dx_start);
inchar_width = dx_instr - dx_prev;
if (0 != move_cursor_left(dx, inchar_width))
{
term_error_line = __LINE__;
goto term_error;
}
instr--;
dx = (dx - inchar_width + ioptr_width) % ioptr_width;
dx_instr -= inchar_width;
}
}
if (0 == insert_key)
insert_mode = !insert_mode; /* toggle */
if (0 == right || 0 == left || 0 == insert_key)
escape_edit = TRUE;
if (escape_edit || (0 == (TRM_ESCAPE & mask)))
{ /* reset dollar zb if editing function or not trm_escape */
memset(io_ptr->dollar.zb, '\0', SIZEOF(io_ptr->dollar.zb));
io_ptr->esc_state = START;
zb_ptr = io_ptr->dollar.zb;
zb_top = zb_ptr + SIZEOF(io_ptr->dollar.zb) - 1;
} else
break; /* not edit function and TRM_ESCAPE */
}
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 = (gtm_tv_usec_t)cur_time.at_usec;
}
} while (outlen < length);
*zb_ptr++ = 0;
if (!msec_timeout)
{
iott_rterm(io_ptr);
if (0 == outlen && ((io_ptr->dollar.zb + 1) == zb_ptr)) /* No input and no delimiter seen */
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);
}
}
SEND_KEYPAD_LOCAL /* to turn keypad off if possible */
if (outofband && jobinterrupt != outofband)
{
v->str.len = 0;
io_ptr->dollar.za = 9;
return(FALSE);
}
#ifdef UNICODE_SUPPORTED
if (utf8_active)
{
outptr = buffer_start;
outtop = ((unsigned char *)buffer_32_start);
current_32_ptr = buffer_32_start;
for (i = 0; i < outlen && outptr < outtop; i++, current_32_ptr++)
outptr = UTF8_WCTOMB(*current_32_ptr, outptr);
v->str.len = INTCAST(outptr - buffer_start);
} else
#endif
v->str.len = outlen;
v->str.addr = (char *)buffer_start;
if (edit_mode)
{ /* store in recall buffer */
if ((BUFF_CHAR_SIZE * outlen) > tt_ptr->recall_size)
{
if (tt_ptr->recall_buff.addr)
free(tt_ptr->recall_buff.addr);
tt_ptr->recall_size = (int)(BUFF_CHAR_SIZE * outlen);
tt_ptr->recall_buff.addr = malloc(tt_ptr->recall_size);
}
tt_ptr->recall_width = dx_outlen;
tt_ptr->recall_buff.len = outlen;
memcpy(tt_ptr->recall_buff.addr, BUFF_ADDR(0), BUFF_CHAR_SIZE * outlen);
}
if (!(mask & TRM_NOECHO))
{
if ((io_ptr->dollar.x += dx_outlen) >= ioptr_width && io_ptr->wrap)
{
io_ptr->dollar.y += (io_ptr->dollar.x / ioptr_width);
if (io_ptr->length)
io_ptr->dollar.y %= io_ptr->length;
io_ptr->dollar.x %= ioptr_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;
tt_ptr->discard_lf = FALSE;
SEND_KEYPAD_LOCAL /* to turn keypad off if possible */
if (!msec_timeout)
iott_rterm(io_ptr);
rts_error(VARLSTCNT(1) save_errno);
return FALSE;
}