/* pdp10_fe.c: PDP-10 front end (console terminal) simulator
Copyright (c) 1993-2002, Robert M Supnik
Permission is hereby granted, free of charge, to any person obtaining a
copy of this software and associated documentation files (the "Software"),
to deal in the Software without restriction, including without limitation
the rights to use, copy, modify, merge, publish, distribute, sublicense,
and/or sell copies of the Software, and to permit persons to whom the
Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
ROBERT M SUPNIK BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
Except as contained in this notice, the name of Robert M Supnik shall not
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in this Software without prior written authorization from Robert M Supnik.
fe KS10 console front end
22-Dec-02 RMS Added break support
30-May-02 RMS Widened COUNT to 32b
30-Nov-01 RMS Added extended SET/SHOW support
23-Oct-01 RMS New IO page address constants
07-Sep-01 RMS Moved function prototypes
*/
#include "pdp10_defs.h"
#define UNIT_DUMMY (1 << UNIT_V_UF)
extern d10 *M;
extern int32 apr_flg;
t_stat fei_svc (UNIT *uptr);
t_stat feo_svc (UNIT *uptr);
t_stat fe_reset (DEVICE *dptr);
t_stat fe_stop_os (UNIT *uptr, int32 val, char *cptr, void *desc);
t_stat fe_ctrl_c (UNIT *uptr, int32 val, char *cptr, void *desc);
/* FE data structures
fe_dev FE device descriptor
fe_unit FE unit descriptor
fe_reg FE register list
*/
#define fei_unit fe_unit[0]
#define feo_unit fe_unit[1]
UNIT fe_unit[] = {
{ UDATA (&fei_svc, 0, 0), KBD_POLL_WAIT },
{ UDATA (&feo_svc, 0, 0), SERIAL_OUT_WAIT } };
REG fe_reg[] = {
{ ORDATA (IBUF, fei_unit.buf, 8) },
{ DRDATA (ICOUNT, fei_unit.pos, 32), REG_RO + PV_LEFT },
{ DRDATA (ITIME, fei_unit.wait, 24), REG_NZ + PV_LEFT },
{ ORDATA (OBUF, feo_unit.buf, 8) },
{ DRDATA (OCOUNT, feo_unit.pos, 32), REG_RO + PV_LEFT },
{ DRDATA (OTIME, feo_unit.wait, 24), REG_NZ + PV_LEFT },
{ NULL } };
MTAB fe_mod[] = {
{ UNIT_DUMMY, 0, NULL, "STOP", &fe_stop_os },
{ UNIT_DUMMY, 0, NULL, "CTRL-C", &fe_ctrl_c },
{ 0 } };
DEVICE fe_dev = {
"FE", fe_unit, fe_reg, fe_mod,
2, 10, 31, 1, 8, 8,
NULL, NULL, &fe_reset,
NULL, NULL, NULL };
�
/* Front end processor (console terminal)
Communications between the KS10 and its front end is based on an in-memory
status block and two interrupt lines: interrupt-to-control (APR_ITC) and
interrupt-from-console (APR_CON). When the KS10 wants to print a character
on the terminal,
1. It places a character, plus the valid flag, in FE_CTYOUT.
2. It interrupts the front end processor.
3. The front end processor types the character and then zeroes FE_CTYOUT.
4. The front end procesor interrupts the KS10.
When the front end wants to send an input character to the KS10,
1. It places a character, plus the valid flag, in FE_CTYIN.
2. It interrupts the KS10.
3. It waits for the KS10 to take the character and clear the valid flag.
4. It can then send more input (the KS10 may signal this by interrupting
the front end).
Note that the protocol has both ambiguity (interrupt to the KS10 may mean
character printed, or input character available, or both) and lack of
symmetry (the KS10 does not inform the front end that it has taken an
input character).
*/
void fe_intr (void)
{
if (M[FE_CTYOUT] & FE_CVALID) { /* char to print? */
feo_unit.buf = (int32) M[FE_CTYOUT] & 0177; /* pick it up */
sim_putchar (feo_unit.buf); /* type it */
feo_unit.pos = feo_unit.pos + 1;
sim_activate (&feo_unit, feo_unit.time); } /* sched completion */
else if ((M[FE_CTYIN] & FE_CVALID) == 0) { /* input char taken? */
sim_cancel (&fei_unit); /* sched immediate */
sim_activate (&fei_unit, 0); }; /* keyboard poll */
return;
}
t_stat feo_svc (UNIT *uptr)
{
M[FE_CTYOUT] = 0; /* clear char */
apr_flg = apr_flg | APRF_CON; /* interrupt KS10 */
return SCPE_OK;
}
t_stat fei_svc (UNIT *uptr)
{
int32 temp;
sim_activate (&fei_unit, fei_unit.wait); /* continue poll */
if ((temp = sim_poll_kbd ()) < SCPE_KFLAG) return temp; /* no char or error? */
if (temp & SCPE_BREAK) return SCPE_OK; /* ignore break */
fei_unit.buf = temp & 0177;
fei_unit.pos = fei_unit.pos + 1;
M[FE_CTYIN] = fei_unit.buf | FE_CVALID; /* put char in mem */
apr_flg = apr_flg | APRF_CON; /* interrupt KS10 */
return SCPE_OK;
}
�
/* Reset */
t_stat fe_reset (DEVICE *dptr)
{
fei_unit.buf = feo_unit.buf = 0;
M[FE_CTYIN] = M[FE_CTYOUT] = 0;
apr_flg = apr_flg & ~(APRF_ITC | APRF_CON);
sim_activate (&fei_unit, fei_unit.wait); /* start input poll */
return SCPE_OK;
}
/* Stop operating system */
t_stat fe_stop_os (UNIT *uptr, int32 val, char *cptr, void *desc)
{
M[FE_SWITCH] = IOBA_RP; /* tell OS to stop */
return SCPE_OK;
}
/* Enter control-C for Windoze */
t_stat fe_ctrl_c (UNIT *uptr, int32 val, char *cptr, void *desc)
{
fei_unit.buf = 003; /* control-C */
M[FE_CTYIN] = fei_unit.buf | FE_CVALID; /* put char in mem */
apr_flg = apr_flg | APRF_CON; /* interrupt KS10 */
return SCPE_OK;
}