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/* sds_mux.c: SDS 940 terminal multiplexor simulator
Copyright (c) 2001-2008, 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 be
used in advertising or otherwise to promote the sale, use or other dealings
in this Software without prior written authorization from Robert M Supnik.
mux terminal multiplexor
19-Nov-08 RMS Revixed for common TMXR show routines
29-Dec-06 RMS Revised to use console conversion routines
29-Jun-05 RMS Added SET MUXLn DISCONNECT
21-Jun-05 RMS Fixed bug in SHOW CONN/STATS
05-Jan-04 RMS Revised for tmxr library changes
09-May-03 RMS Added network device flag
This module implements up to 32 individual serial interfaces, representing
either the project Genie terminal multiplexor or the SDS 940 CTE option.
*/
#include "sds_defs.h"
#include "sim_sock.h"
#include "sim_tmxr.h"
#include <ctype.h>
#define PROJ_GENIE (cpu_unit.flags & UNIT_GENIE)
#define MUX_NUMLIN mux_desc.lines
#define MUX_LINES 32 /* lines */
#define MUX_FLAGS 4 /* intr per line */
#define MUX_FLAGMASK (MUX_FLAGS - 1)
#define MUX_SCANMAX (MUX_LINES * MUX_FLAGS) /* flags to scan */
#define MUX_SCANMASK (MUX_SCANMAX - 1)
#define MUX_INIT_POLL 8000
#define MUXL_WAIT 250
#define MUX_SETFLG(l,x) mux_flags[((l) * MUX_FLAGS) + (x)] = 1
#define MUX_SETINT(x) int_req = int_req | (INT_MUXR >> (x))
#define MUX_CLRINT(x) int_req = int_req & ~(INT_MUXR >> (x))
#define MUX_CHKINT(x) (int_req & (INT_MUXR >> (x)))
/* PIN/POT */
#define P_V_CHAR 16 /* char */
#define P_M_CHAR 0377
#define P_CHAR(x) (((x) >> P_V_CHAR) & P_M_CHAR)
#define PIN_OVR 000100000 /* overrun */
#define POT_NOX 000100000 /* no xmit */
#define POT_XMI 000040000 /* xmit int */
#define POT_GLNE 000020000 /* Genie: enable */
#define POT_SCDT 000020000 /* 940: clr DTR */
#define P_V_CHAN 0 /* channel */
#define P_M_CHAN (MUX_LINES - 1)
#define P_CHAN(x) (((x) >> P_V_CHAN) & P_M_CHAN)
/* SKS 940 */
#define SKS_XBE 000001000 /* xmt buf empty */
#define SKS_CRO 000000400 /* carrier on */
#define SKS_DSR 000000200 /* data set ready */
#define SKS_CHAN(x) P_CHAN(x)
/* SKS Genie */
#define SKG_V_CHAN 7
#define SKG_M_CHAN (MUX_LINES - 1)
#define SKG_CHAN(x) (((x) >> SKG_V_CHAN) & SKG_M_CHAN)
/* Flags */
#define MUX_FRCV 0 /* receive */
#define MUX_FXMT 1 /* transmit */
#define MUX_FCRN 2 /* carrier on */
#define MUX_FCRF 3 /* carrier off */
/* Line status */
#define MUX_SCHP 001 /* char pending */
#define MUX_SOVR 002 /* overrun */
#define MUX_SLNE 004 /* line enabled */
#define MUX_SXIE 010 /* xmt int enab */
#define MUX_SCRO 020 /* carrier on */
#define MUX_SDSR 040 /* data set ready */
/* Data */
extern uint32 alert, int_req;
extern int32 stop_invins, stop_invdev, stop_inviop;
extern UNIT cpu_unit;
uint8 mux_rbuf[MUX_LINES]; /* rcv buf */
uint8 mux_xbuf[MUX_LINES]; /* xmt buf */
uint8 mux_sta[MUX_LINES]; /* status */
uint8 mux_flags[MUX_SCANMAX]; /* flags */
uint32 mux_tps = 100; /* polls/second */
uint32 mux_scan = 0; /* scanner */
uint32 mux_slck = 0; /* scanner locked */
TMLN mux_ldsc[MUX_LINES] = { {0} }; /* line descriptors */
TMXR mux_desc = { MUX_LINES, 0, 0, mux_ldsc }; /* mux descriptor */
t_stat mux (uint32 fnc, uint32 inst, uint32 *dat);
t_stat muxi_svc (UNIT *uptr);
t_stat muxo_svc (UNIT *uptr);
t_stat mux_reset (DEVICE *dptr);
t_stat mux_attach (UNIT *uptr, CONST char *cptr);
t_stat mux_detach (UNIT *uptr);
t_stat mux_summ (FILE *st, UNIT *uptr, int32 val, const void *desc);
t_stat mux_show (FILE *st, UNIT *uptr, int32 val, const void *desc);
t_stat mux_vlines (UNIT *uptr, int32 val, CONST char *cptr, void *desc);
void mux_reset_ln (int32 ln);
void mux_scan_next (void);
/* MUX data structures
mux_dev MUX device descriptor
mux_unit MUX unit descriptor
mux_reg MUX register list
mux_mod MUX modifiers list
*/
DIB mux_dib = { -1, DEV3_GMUX, 0, NULL, &mux };
UNIT mux_unit = { UDATA (&muxi_svc, UNIT_ATTABLE, 0), MUX_INIT_POLL };
REG mux_reg[] = {
{ BRDATA (STA, mux_sta, 8, 6, MUX_LINES) },
{ BRDATA (RBUF, mux_rbuf, 8, 8, MUX_LINES) },
{ BRDATA (XBUF, mux_xbuf, 8, 8, MUX_LINES) },
{ BRDATA (INT, mux_flags, 8, 1, MUX_SCANMAX) },
{ ORDATA (SCAN, mux_scan, 7) },
{ FLDATA (SLCK, mux_slck, 0) },
{ DRDATA (TPS, mux_tps, 8), REG_NZ + PV_LEFT },
{ NULL }
};
MTAB mux_mod[] = {
{ MTAB_XTD | MTAB_VDV, 0, "LINES", "LINES",
&mux_vlines, tmxr_show_lines, (void *) &mux_desc },
{ MTAB_XTD | MTAB_VDV, 1, NULL, "DISCONNECT",
&tmxr_dscln, NULL, &mux_desc },
{ UNIT_ATT, UNIT_ATT, "summary", NULL,
NULL, &tmxr_show_summ, (void *) &mux_desc },
{ MTAB_XTD | MTAB_VDV | MTAB_NMO, 1, "CONNECTIONS", NULL,
NULL, &tmxr_show_cstat, (void *) &mux_desc },
{ MTAB_XTD | MTAB_VDV | MTAB_NMO, 0, "STATISTICS", NULL,
NULL, &tmxr_show_cstat, (void *) &mux_desc },
{ 0 }
};
DEVICE mux_dev = {
"MUX", &mux_unit, mux_reg, mux_mod,
1, 10, 31, 1, 8, 8,
&tmxr_ex, &tmxr_dep, &mux_reset,
NULL, &mux_attach, &mux_detach,
&mux_dib, DEV_MUX | DEV_DISABLE
};
/* MUXL data structures
muxl_dev MUXL device descriptor
muxl_unit MUXL unit descriptor
muxl_reg MUXL register list
muxl_mod MUXL modifiers list
*/
UNIT muxl_unit[] = {
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT },
{ UDATA (&muxo_svc, TT_MODE_UC, 0), MUXL_WAIT }
};
MTAB muxl_mod[] = {
{ TT_MODE, TT_MODE_UC, "UC", "UC", NULL },
{ TT_MODE, TT_MODE_7B, "7b", "7B", NULL },
{ TT_MODE, TT_MODE_8B, "8b", "8B", NULL },
{ TT_MODE, TT_MODE_7P, "7p", "7P", NULL },
{ MTAB_XTD|MTAB_VUN, 0, NULL, "DISCONNECT",
&tmxr_dscln, NULL, &mux_desc },
{ MTAB_XTD|MTAB_VUN|MTAB_NC, 0, "LOG", "LOG",
&tmxr_set_log, &tmxr_show_log, &mux_desc },
{ MTAB_XTD|MTAB_VUN|MTAB_NC, 0, NULL, "NOLOG",
&tmxr_set_nolog, NULL, &mux_desc },
{ 0 }
};
REG muxl_reg[] = {
{ URDATA (TIME, muxl_unit[0].wait, 10, 24, 0,
MUX_LINES, REG_NZ + PV_LEFT) },
{ NULL }
};
DEVICE muxl_dev = {
"MUXL", muxl_unit, muxl_reg, muxl_mod,
MUX_LINES, 10, 31, 1, 8, 8,
NULL, NULL, &mux_reset,
NULL, NULL, NULL,
NULL, 0
};
/* MUX: IO routine */
/* Mux routine - EOM 30001 or EOM 77777,2 */
t_stat mux (uint32 fnc, uint32 inst, uint32 *dat)
{
uint32 ln;
switch (fnc) {
case IO_CONN: /* connect */
if ((PROJ_GENIE && (inst == 000230001)) || /* set alert */
(!PROJ_GENIE && (inst == 020277777)))
alert = POT_MUX;
else CRETINS;
break;
case IO_SKS: /* skip */
if (PROJ_GENIE && ((inst & 077770077) == 004030001)) {
ln = SKG_CHAN (inst); /* get line */
if (!sim_is_active (&muxl_unit[ln]))
*dat = 1;
}
else if (!PROJ_GENIE && ((inst & 077776000) == 024076000)) {
ln = SKS_CHAN (inst); /* get line */
if (inst & (SKS_XBE|SKS_CRO|SKS_DSR)) *dat = 1;
if (((inst & SKS_XBE) && sim_is_active (&muxl_unit[ln])) ||
((inst & SKS_CRO) && !(mux_sta[ln] & MUX_SCRO)) ||
((inst & SKS_DSR) && !(mux_sta[ln] & MUX_SDSR)))
*dat = 0; /* no skip if fail */
}
else CRETINS;
default:
return SCPE_IERR;
} /* end case */
return SCPE_OK;
}
/* PIN routine */
t_stat pin_mux (uint32 num, uint32 *dat)
{
uint32 ln = mux_scan >> 2;
uint32 flag = mux_scan & MUX_FLAGMASK;
if (!mux_slck) /* scanner must be locked */
return SCPE_IERR;
mux_scan = mux_scan & MUX_SCANMASK; /* mask scan */
mux_flags[mux_scan] = 0; /* clear flag */
if (flag == MUX_FRCV) { /* rcv event? */
*dat = ln | ((uint32) mux_rbuf[ln] << P_V_CHAR) | /* line + char + */
((mux_sta[ln] & MUX_SOVR)? PIN_OVR: 0); /* overrun */
mux_sta[ln] = mux_sta[ln] & ~(MUX_SCHP | MUX_SOVR);
}
else *dat = ln; /* just line */
mux_slck = 0; /* unlock scanner */
mux_scan_next (); /* kick scanner */
return SCPE_OK;
}
t_stat pot_mux (uint32 num, uint32 *dat)
{
uint32 ln = P_CHAN (*dat);
uint32 chr = P_CHAR (*dat);
if (PROJ_GENIE && ((*dat & POT_GLNE) == 0)) { /* Genie disable? */
mux_sta[ln] = mux_sta[ln] & ~MUX_SLNE; /* clear status */
mux_ldsc[ln].rcve = 0;
}
else if (!PROJ_GENIE && (*dat & POT_SCDT)) { /* SDS disable? */
if (mux_ldsc[ln].conn) { /* connected? */
tmxr_linemsg (&mux_ldsc[ln], "\r\nLine hangup\r\n");
tmxr_reset_ln (&mux_ldsc[ln]); /* reset line */
mux_reset_ln (ln); /* reset state */
MUX_SETFLG (ln, MUX_FCRF); /* set carrier off */
mux_scan_next (); /* kick scanner */
}
mux_sta[ln] = mux_sta[ln] & ~MUX_SLNE; /* clear status */
mux_ldsc[ln].rcve = 0;
}
else { /* enabled */
if ((*dat & POT_NOX) == 0) { /* output char? */
mux_xbuf[ln] = chr; /* store char */
sim_activate (&muxl_unit[ln], muxl_unit[ln].wait);
}
if (*dat & POT_XMI)
mux_sta[ln] = mux_sta[ln] | MUX_SXIE;
else mux_sta[ln] = mux_sta[ln] & ~MUX_SXIE;
mux_sta[ln] = mux_sta[ln] | MUX_SLNE; /* line is enabled */
mux_ldsc[ln].rcve = 1;
if ((*dat & POT_NOX) && /* if no transmit char && */
(mux_sta[ln] & MUX_SXIE) && /* line enabled && */
!sim_is_active (&muxl_unit[ln])) { /* tx buffer empty */
MUX_SETFLG (ln, MUX_FXMT); /* then set flag to request */
mux_scan_next (); /* a tx interrupt */
}
}
return SCPE_OK;
}
/* Unit service - receive side
Poll all active lines for input
Poll for new connections
*/
t_stat muxi_svc (UNIT *uptr)
{
int32 ln, c, t;
if ((uptr->flags & UNIT_ATT) == 0) /* attached? */
return SCPE_OK;
t = sim_rtcn_calb (mux_tps, TMR_MUX); /* calibrate */
sim_activate (uptr, t); /* continue poll */
ln = tmxr_poll_conn (&mux_desc); /* look for connect */
if (ln >= 0) { /* got one? */
if (!PROJ_GENIE && (mux_sta[ln] & MUX_SLNE)) { /* modem & DTR? */
mux_sta[ln] = mux_sta[ln] | (MUX_SCRO|MUX_SDSR);/* carrier on */
MUX_SETFLG (ln, MUX_FCRN); /* set carr on flag */
mux_scan_next (); /* kick scanner */
}
mux_ldsc[ln].rcve = 1; /* set rcv enable */
}
tmxr_poll_rx (&mux_desc); /* poll for input */
for (ln = 0; ln < MUX_NUMLIN; ln++) { /* loop thru lines */
if (mux_ldsc[ln].conn) { /* connected? */
if ((c = tmxr_getc_ln (&mux_ldsc[ln]))) { /* get char */
if (mux_sta[ln] & MUX_SCHP) /* already got one? */
mux_sta[ln] = mux_sta[ln] | MUX_SOVR; /* overrun */
else mux_sta[ln] = mux_sta[ln] | MUX_SCHP; /* char pending */
if (c & SCPE_BREAK) /* break? */
c = 0;
else c = sim_tt_inpcvt (c, TT_GET_MODE (muxl_unit[ln].flags));
mux_rbuf[ln] = c; /* save char */
MUX_SETFLG (ln, MUX_FRCV); /* set rcv flag */
mux_scan_next (); /* kick scanner */
}
}
else mux_sta[ln] = 0; /* disconnected */
} /* end for */
return SCPE_OK;
}
/* Unit service - transmit side */
t_stat muxo_svc (UNIT *uptr)
{
int32 c;
uint32 ln = uptr - muxl_unit; /* line # */
if (mux_ldsc[ln].conn) { /* connected? */
if (mux_ldsc[ln].xmte) { /* xmt enabled? */
c = sim_tt_outcvt (mux_xbuf[ln], TT_GET_MODE (muxl_unit[ln].flags));
if (c >= 0) /* output char */
tmxr_putc_ln (&mux_ldsc[ln], c);
tmxr_poll_tx (&mux_desc); /* poll xmt */
}
else { /* buf full */
tmxr_poll_tx (&mux_desc); /* poll xmt */
sim_activate (uptr, muxl_unit[ln].wait); /* wait */
return SCPE_OK;
}
}
if (mux_sta[ln] & MUX_SXIE) {
MUX_SETFLG (ln, MUX_FXMT); /* set flag */
mux_scan_next (); /* kick scanner */
}
return SCPE_OK;
}
/* Kick scanner
*
* Per 940 Ref Man:
* If more than one raised flag is encountered by the scanner, only
* the one of highest priority will result in an interrupt. The others
* will be ignored until the scanner has completed scanning all other
* channels. The receive flag will be given highest priority, followed
* by the transmit flag, the carrier-on flag, and the carrier-off flag.
*
* To implement, advance mux_scan to last flag of current channel (by
* merging MUX_FLAGMASK) so scan loop commences with receive flag of next
* channel.
*
* When two or more channels are active, do not queue an interrupt
* request if the same interrupt is already requesting. To do so will
* cause an interrupt to be lost.
*/
void mux_scan_next (void)
{
int32 i;
if (mux_slck) /* locked? */
return;
mux_scan |= MUX_FLAGMASK; /* last flag of current ch. */
/* will be Rx flag of next ch. */
for (i = 0; i < MUX_SCANMAX; i++) { /* scan flags */
mux_scan = (mux_scan + 1) & MUX_SCANMASK; /* next flag */
if (mux_flags[mux_scan] && /* flag set */
!MUX_CHKINT (mux_scan & MUX_FLAGMASK)) { /* and not requesting int? */
mux_slck = 1; /* lock scanner */
MUX_SETINT (mux_scan & MUX_FLAGMASK); /* request int */
return;
}
}
return;
}
/* Reset routine */
t_stat mux_reset (DEVICE *dptr)
{
int32 i, t;
if (mux_dev.flags & DEV_DIS) /* master disabled? */
muxl_dev.flags = muxl_dev.flags | DEV_DIS; /* disable lines */
else muxl_dev.flags = muxl_dev.flags & ~DEV_DIS;
if (mux_unit.flags & UNIT_ATT) { /* master att? */
if (!sim_is_active (&mux_unit)) {
t = sim_rtcn_init (mux_unit.wait, TMR_MUX);
sim_activate (&mux_unit, t); /* activate */
}
}
else sim_cancel (&mux_unit); /* else stop */
for (i = 0; i < MUX_LINES; i++)
mux_reset_ln (i);
for (i = 0; i < MUX_FLAGS; i++) /* clear all ints */
MUX_CLRINT (i);
return SCPE_OK;
}
/* Attach master unit */
t_stat mux_attach (UNIT *uptr, CONST char *cptr)
{
t_stat r;
int32 t;
r = tmxr_attach (&mux_desc, uptr, cptr); /* attach */
if (r != SCPE_OK) /* error */
return r;
t = sim_rtcn_init (mux_unit.wait, TMR_MUX);
sim_activate (uptr, t); /* start poll */
return SCPE_OK;
}
/* Detach master unit */
t_stat mux_detach (UNIT *uptr)
{
int32 i;
t_stat r;
r = tmxr_detach (&mux_desc, uptr); /* detach */
for (i = 0; i < MUX_LINES; i++) /* disable rcv */
mux_ldsc[i].rcve = 0;
sim_cancel (uptr); /* stop poll */
return r;
}
/* Change number of lines */
t_stat mux_vlines (UNIT *uptr, int32 val, CONST char *cptr, void *desc)
{
int32 newln, i, t;
t_stat r;
if (cptr == NULL)
return SCPE_ARG;
newln = get_uint (cptr, 10, MUX_LINES, &r);
if ((r != SCPE_OK) || (newln == MUX_NUMLIN))
return r;
if (newln == 0)
return SCPE_ARG;
if (newln < MUX_NUMLIN) {
for (i = newln, t = 0; i < MUX_NUMLIN; i++)
t = t | mux_ldsc[i].conn;
if (t && !get_yn ("This will disconnect users; proceed [N]?", FALSE))
return SCPE_OK;
for (i = newln; i < MUX_NUMLIN; i++) {
if (mux_ldsc[i].conn) {
tmxr_linemsg (&mux_ldsc[i], "\r\nOperator disconnected line\r\n");
tmxr_reset_ln (&mux_ldsc[i]); /* reset line */
}
muxl_unit[i].flags = muxl_unit[i].flags | UNIT_DIS;
mux_reset_ln (i);
}
}
else {
for (i = MUX_NUMLIN; i < newln; i++) {
muxl_unit[i].flags = muxl_unit[i].flags & ~UNIT_DIS;
mux_reset_ln (i);
}
}
MUX_NUMLIN = newln;
return SCPE_OK;
}
/* Reset an individual line */
void mux_reset_ln (int32 ln)
{
int32 flg = ln * MUX_FLAGS;
if (mux_ldsc[ln].conn)
mux_sta[ln] = MUX_SCRO | MUX_SDSR;
else mux_sta[ln] = 0;
sim_cancel (&muxl_unit[ln]);
mux_flags[flg + MUX_FRCV] = 0;
mux_flags[flg + MUX_FXMT] = 0;
mux_flags[flg + MUX_FCRN] = 0;
mux_flags[flg + MUX_FCRF] = 0;
return;
}