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/* pdp11_dz.c: DZ11 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.
dz DZ11 terminal multiplexor
29-Dec-08 RMS Added MTAB_NC to SET LOG command (Walter Mueller)
19-Nov-08 RMS Revised for common TMXR show routines
18-Jun-07 RMS Added UNIT_IDLE flag
29-Oct-06 RMS Synced poll and clock
22-Nov-05 RMS Revised for new terminal processing routines
07-Jul-05 RMS Removed extraneous externs
15-Jun-05 RMS Revised for new autoconfigure interface
04-Apr-04 RMS Added per-line logging
05-Jan-04 RMS Revised for tmxr library changes
19-May-03 RMS Revised for new conditional compilation scheme
09-May-03 RMS Added network device flag
22-Dec-02 RMS Added break (framing error) support
31-Oct-02 RMS Added 8b support
12-Oct-02 RMS Added autoconfigure support
29-Sep-02 RMS Fixed bug in set number of lines routine
Added variable vector support
New data structures
22-Apr-02 RMS Updated for changes in sim_tmxr
28-Apr-02 RMS Fixed interrupt acknowledge, fixed SHOW DZ ADDRESS
14-Jan-02 RMS Added multiboard support
30-Dec-01 RMS Added show statistics, set disconnect
Removed statistics registers
03-Dec-01 RMS Modified for extended SET/SHOW
09-Nov-01 RMS Added VAX support
20-Oct-01 RMS Moved getchar from sim_tmxr, changed interrupt
logic to use tmxr_rqln
06-Oct-01 RMS Fixed bug in carrier detect logic
03-Oct-01 RMS Added support for BSD-style "ringless" modems
27-Sep-01 RMS Fixed bug in xmte initialization
17-Sep-01 RMS Added separate autodisconnect switch
16-Sep-01 RMS Fixed modem control bit offsets
*/
#if defined (VM_PDP10) /* PDP10 version */
#include "pdp10_defs.h"
#define RANK_DZ 0 /* no autoconfig */
#define DZ_8B_DFLT 0
extern int32 int_req;
#elif defined (VM_VAX) /* VAX version */
#include "vax_defs.h"
#define DZ_8B_DFLT TT_MODE_8B
extern int32 int_req[IPL_HLVL];
#else /* PDP-11 version */
#include "pdp11_defs.h"
#define DZ_8B_DFLT TT_MODE_8B
extern int32 int_req[IPL_HLVL];
#endif
#include "sim_sock.h"
#include "sim_tmxr.h"
#if !defined (DZ_MUXES)
#define DZ_MUXES 1
#endif
#if !defined (DZ_LINES)
#define DZ_LINES 8
#endif
#define MAX_DZ_MUXES 32
#if DZ_MUXES > MAX_DZ_MUXES
#error "Too many DZ multiplexers"
#endif
#define DZ_MNOMASK (dz_desc.lines/DZ_LINES - 1) /* mask for mux no */
#define DZ_LNOMASK (DZ_LINES - 1) /* mask for lineno */
#define DZ_LMASK ((1 << DZ_LINES) - 1) /* mask of lines */
#define DZ_SILO_ALM 16 /* silo alarm level */
/* DZCSR - 160100 - control/status register */
#define CSR_MAINT 0000010 /* maint - NI */
#define CSR_CLR 0000020 /* clear */
#define CSR_MSE 0000040 /* master scan enb */
#define CSR_RIE 0000100 /* rcv int enb */
#define CSR_RDONE 0000200 /* rcv done - RO */
#define CSR_V_TLINE 8 /* xmit line - RO */
#define CSR_TLINE (DZ_LNOMASK << CSR_V_TLINE)
#define CSR_SAE 0010000 /* silo alm enb */
#define CSR_SA 0020000 /* silo alm - RO */
#define CSR_TIE 0040000 /* xmit int enb */
#define CSR_TRDY 0100000 /* xmit rdy - RO */
#define CSR_RW (CSR_MSE | CSR_RIE | CSR_SAE | CSR_TIE)
#define CSR_MBZ (0004003 | CSR_CLR | CSR_MAINT)
#define CSR_GETTL(x) (((x) >> CSR_V_TLINE) & DZ_LNOMASK)
#define CSR_PUTTL(x,y) x = ((x) & ~CSR_TLINE) | (((y) & DZ_LNOMASK) << CSR_V_TLINE)
/* DZRBUF - 160102 - receive buffer, read only */
#define RBUF_CHAR 0000377 /* rcv char */
#define RBUF_V_RLINE 8 /* rcv line */
#define RBUF_PARE 0010000 /* parity err - NI */
#define RBUF_FRME 0020000 /* frame err */
#define RBUF_OVRE 0040000 /* overrun err - NI */
#define RBUF_VALID 0100000 /* rcv valid */
#define RBUF_MBZ 0004000
char *dz_charsizes[] = {"5", "6", "7", "8"};
char *dz_baudrates[] = {"50", "75", "110", "134.5", "150", "300", "600", "1200",
"1800", "2000", "2400", "3600", "4800", "7200", "9600", "19200"};
char *dz_parity[] = {"N", "E", "N", "O"};
char *dz_stopbits[] = {"1", "2", "1", "1.5"};
/* DZLPR - 160102 - line parameter register, write only, word access only */
#define LPR_V_LINE 0 /* line */
#define LPR_V_SPEED 8 /* speed code */
#define LPR_M_SPEED 0007400 /* speed code mask */
#define LPR_V_CHARSIZE 3 /* char size code */
#define LPR_M_CHARSIZE 0000030 /* char size code mask */
#define LPR_V_STOPBITS 5 /* stop bits code */
#define LPR_V_PARENB 6 /* parity enable */
#define LPR_V_PARODD 7 /* parity odd */
#define LPR_GETSPD(x) dz_baudrates[((x) & LPR_M_SPEED) >> LPR_V_SPEED]
#define LPR_GETCHARSIZE(x) dz_charsizes[((x) & LPR_M_CHARSIZE) >> LPR_V_CHARSIZE]
#define LPR_GETPARITY(x) dz_parity[(((x) >> LPR_V_PARENB) & 1) | (((x) >> (LPR_V_PARODD-1)) & 2)]
#define LPR_GETSTOPBITS(x) dz_stopbits[(((x) >> LPR_V_STOPBITS) & 1) + (((((x) & LPR_M_CHARSIZE) >> LPR_V_CHARSIZE) == 5) ? 2 : 0)]
#define LPR_LPAR 0007770 /* line pars - NI */
#define LPR_RCVE 0010000 /* receive enb */
#define LPR_GETLN(x) (((x) >> LPR_V_LINE) & DZ_LNOMASK)
/* DZTCR - 160104 - transmission control register */
#define TCR_V_XMTE 0 /* xmit enables */
#define TCR_V_DTR 8 /* DTRs */
/* DZMSR - 160106 - modem status register, read only */
#define MSR_V_RI 0 /* ring indicators */
#define MSR_V_CD 8 /* carrier detect */
/* DZTDR - 160106 - transmit data, write only */
#define TDR_CHAR 0000377 /* xmit char */
#define TDR_V_TBR 8 /* xmit break - NI */
extern int32 IREQ (HLVL);
extern int32 sim_switches;
extern FILE *sim_log;
extern int32 tmxr_poll; /* calibrated delay */
uint16 dz_csr[MAX_DZ_MUXES] = { 0 }; /* csr */
uint16 dz_rbuf[MAX_DZ_MUXES] = { 0 }; /* rcv buffer */
uint16 dz_lpr[MAX_DZ_MUXES] = { 0 }; /* line param */
uint16 dz_tcr[MAX_DZ_MUXES] = { 0 }; /* xmit control */
uint16 dz_msr[MAX_DZ_MUXES] = { 0 }; /* modem status */
uint16 dz_tdr[MAX_DZ_MUXES] = { 0 }; /* xmit data */
uint8 dz_sae[MAX_DZ_MUXES] = { 0 }; /* silo alarm enabled */
uint32 dz_rxi = 0; /* rcv interrupts */
uint32 dz_txi = 0; /* xmt interrupts */
int32 dz_mctl = 0; /* modem ctrl enabled */
int32 dz_auto = 0; /* autodiscon enabled */
TMLN *dz_ldsc = NULL; /* line descriptors */
TMXR dz_desc = { DZ_MUXES * DZ_LINES, 0, 0, NULL }; /* mux descriptor */
/* debugging bitmaps */
#define DBG_REG 0x0001 /* trace read/write registers */
#define DBG_INT 0x0002 /* display transfer requests */
#define DBG_XMT TMXR_DBG_XMT /* display Transmitted Data */
#define DBG_RCV TMXR_DBG_RCV /* display Received Data */
#define DBG_TRC TMXR_DBG_TRC /* display trace routine calls */
#define DBG_ASY TMXR_DBG_ASY /* display Asynchronous Activities */
DEBTAB dz_debug[] = {
{"REG", DBG_REG},
{"INT", DBG_INT},
{"XMT", DBG_XMT},
{"RCV", DBG_RCV},
{"TRC", DBG_TRC},
{"ASY", DBG_ASY},
{0}
};
DEVICE dz_dev;
t_stat dz_rd (int32 *data, int32 PA, int32 access);
t_stat dz_wr (int32 data, int32 PA, int32 access);
int32 dz_rxinta (void);
int32 dz_txinta (void);
t_stat dz_svc (UNIT *uptr);
t_stat dz_reset (DEVICE *dptr);
t_stat dz_attach (UNIT *uptr, char *cptr);
t_stat dz_detach (UNIT *uptr);
t_stat dz_clear (int32 dz, t_bool flag);
int32 dz_getc (int32 dz);
void dz_update_rcvi (void);
void dz_update_xmti (void);
void dz_clr_rxint (int32 dz);
void dz_set_rxint (int32 dz);
void dz_clr_txint (int32 dz);
void dz_set_txint (int32 dz);
t_stat dz_setnl (UNIT *uptr, int32 val, char *cptr, void *desc);
t_stat dz_set_log (UNIT *uptr, int32 val, char *cptr, void *desc);
t_stat dz_set_nolog (UNIT *uptr, int32 val, char *cptr, void *desc);
t_stat dz_show_log (FILE *st, UNIT *uptr, int32 val, void *desc);
/* DZ data structures
dz_dev DZ device descriptor
dz_unit DZ unit list
dz_reg DZ register list
*/
#define IOLN_DZ 010
DIB dz_dib = {
IOBA_AUTO, IOLN_DZ * DZ_MUXES, &dz_rd, &dz_wr,
2, IVCL (DZRX), VEC_AUTO, { &dz_rxinta, &dz_txinta }
};
UNIT dz_unit = { UDATA (&dz_svc, UNIT_IDLE|UNIT_ATTABLE|DZ_8B_DFLT, 0) };
REG dz_reg[] = {
{ BRDATA (CSR, dz_csr, DEV_RDX, 16, MAX_DZ_MUXES) },
{ BRDATA (RBUF, dz_rbuf, DEV_RDX, 16, MAX_DZ_MUXES) },
{ BRDATA (LPR, dz_lpr, DEV_RDX, 16, MAX_DZ_MUXES) },
{ BRDATA (TCR, dz_tcr, DEV_RDX, 16, MAX_DZ_MUXES) },
{ BRDATA (MSR, dz_msr, DEV_RDX, 16, MAX_DZ_MUXES) },
{ BRDATA (TDR, dz_tdr, DEV_RDX, 16, MAX_DZ_MUXES) },
{ BRDATA (SAENB, dz_sae, DEV_RDX, 1, MAX_DZ_MUXES) },
{ GRDATA (RXINT, dz_rxi, DEV_RDX, MAX_DZ_MUXES, 0) },
{ GRDATA (TXINT, dz_txi, DEV_RDX, MAX_DZ_MUXES, 0) },
{ FLDATA (MDMCTL, dz_mctl, 0) },
{ FLDATA (AUTODS, dz_auto, 0) },
{ GRDATA (DEVADDR, dz_dib.ba, DEV_RDX, 32, 0), REG_HRO },
{ GRDATA (DEVVEC, dz_dib.vec, DEV_RDX, 16, 0), REG_HRO },
{ NULL }
};
MTAB dz_mod[] = {
{ 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_VDV, 1, NULL, "DISCONNECT",
&tmxr_dscln, NULL, &dz_desc },
{ UNIT_ATT, UNIT_ATT, "summary", NULL,
NULL, &tmxr_show_summ, (void *) &dz_desc },
{ MTAB_XTD | MTAB_VDV | MTAB_NMO, 1, "CONNECTIONS", NULL,
NULL, &tmxr_show_cstat, (void *) &dz_desc },
{ MTAB_XTD | MTAB_VDV | MTAB_NMO, 0, "STATISTICS", NULL,
NULL, &tmxr_show_cstat, (void *) &dz_desc },
{ MTAB_XTD|MTAB_VDV, 010, "ADDRESS", "ADDRESS",
&set_addr, &show_addr, NULL },
{ MTAB_XTD|MTAB_VDV, DZ_LINES, "VECTOR", "VECTOR",
&set_vec, &show_vec_mux, (void *) &dz_desc },
#if !defined (VM_PDP10)
{ MTAB_XTD | MTAB_VDV, 0, NULL, "AUTOCONFIGURE",
&set_addr_flt, NULL, NULL },
#endif
{ MTAB_XTD | MTAB_VDV, 0, "LINES", "LINES",
&dz_setnl, &tmxr_show_lines, (void *) &dz_desc },
{ MTAB_XTD | MTAB_VDV | MTAB_NC, 0, NULL, "LOG",
&dz_set_log, NULL, &dz_desc },
{ MTAB_XTD | MTAB_VDV | MTAB_NC, 0, NULL, "NOLOG",
&dz_set_nolog, NULL, &dz_desc },
{ MTAB_XTD | MTAB_VDV | MTAB_NMO, 0, "LOG", NULL,
NULL, &dz_show_log, &dz_desc },
{ 0 }
};
DEVICE dz_dev = {
"DZ", &dz_unit, dz_reg, dz_mod,
1, DEV_RDX, 8, 1, DEV_RDX, 8,
&tmxr_ex, &tmxr_dep, &dz_reset,
NULL, &dz_attach, &dz_detach,
&dz_dib, DEV_DISABLE | DEV_UBUS | DEV_QBUS | DEV_DEBUG | DEV_MUX,
0, dz_debug
};
/* Register names for Debug tracing */
static char *dz_rd_regs[] =
{"CSR ", "RBUF", "TCR ", "MSR " };
static char *dz_wr_regs[] =
{"CSR ", "LPR ", "TCR ", "TDR "};
/* IO dispatch routines, I/O addresses 177601x0 - 177601x7 */
t_stat dz_rd (int32 *data, int32 PA, int32 access)
{
int i;
int32 dz = ((PA - dz_dib.ba) >> 3) & DZ_MNOMASK; /* get mux num */
switch ((PA >> 1) & 03) { /* case on PA<2:1> */
case 00: /* CSR */
*data = dz_csr[dz] = dz_csr[dz] & ~CSR_MBZ;
break;
case 01: /* RBUF */
dz_csr[dz] = dz_csr[dz] & ~CSR_SA; /* clr silo alarm */
if (dz_csr[dz] & CSR_MSE) { /* scanner on? */
dz_rbuf[dz] = dz_getc (dz); /* get top of silo */
if (!dz_rbuf[dz]) /* empty? re-enable */
dz_sae[dz] = 1;
tmxr_poll_rx (&dz_desc); /* poll input */
dz_update_rcvi (); /* update rx intr */
}
else {
dz_rbuf[dz] = 0; /* no data */
dz_update_rcvi (); /* no rx intr */
}
*data = dz_rbuf[dz];
break;
case 02: /* TCR */
*data = dz_tcr[dz];
break;
case 03: /* MSR */
if (dz_mctl)
for (i=0; i<DZ_LINES; ++i) { /* Gather line status bits for each line */
int line;
int32 modem_bits;
TMLN *lp;
line = (dz * DZ_LINES) + i;
lp = &dz_ldsc[line]; /* get line desc */
tmxr_set_get_modem_bits (lp, 0, 0, &modem_bits);
dz_msr[dz] &= ~((1 << (MSR_V_RI + i)) | (1 << (MSR_V_CD + i)));
dz_msr[dz] |= ((modem_bits&TMXR_MDM_RNG) ? (1 << (MSR_V_RI + i)) : 0) |
((modem_bits&TMXR_MDM_DCD) ? (1 << (MSR_V_CD + i)) : 0);
}
*data = dz_msr[dz];
break;
}
sim_debug(DBG_REG, &dz_dev, "dz_rd(PA=0x%08X [%s], access=%d, data=0x%X)\n", PA, dz_rd_regs[(PA >> 1) & 03], access, *data);
return SCPE_OK;
}
t_stat dz_wr (int32 data, int32 PA, int32 access)
{
int32 dz = ((PA - dz_dib.ba) >> 3) & DZ_MNOMASK; /* get mux num */
int32 i, c, line;
char lineconfig[16];
TMLN *lp;
sim_debug(DBG_REG, &dz_dev, "dz_wr(PA=0x%08X [%s], access=%d, data=0x%X)\n", PA, dz_wr_regs[(PA >> 1) & 03], access, data);
switch ((PA >> 1) & 03) { /* case on PA<2:1> */
case 00: /* CSR */
if (access == WRITEB) data = (PA & 1)? /* byte? merge */
(dz_csr[dz] & 0377) | (data << 8):
(dz_csr[dz] & ~0377) | data;
if (data & CSR_CLR) /* clr? reset */
dz_clear (dz, FALSE);
if (data & CSR_MSE) /* MSE? start poll */
sim_activate (&dz_unit, clk_cosched (tmxr_poll));
else dz_csr[dz] &= ~(CSR_SA | CSR_RDONE | CSR_TRDY);
if ((data & CSR_RIE) == 0) /* RIE = 0? */
dz_clr_rxint (dz);
else if (((dz_csr[dz] & CSR_IE) == 0) && /* RIE 0->1? */
((dz_csr[dz] & CSR_SAE)?
(dz_csr[dz] & CSR_SA): (dz_csr[dz] & CSR_RDONE)))
dz_set_rxint (dz);
if ((data & CSR_TIE) == 0) /* TIE = 0? */
dz_clr_txint (dz);
else if (((dz_csr[dz] & CSR_TIE) == 0) && (dz_csr[dz] & CSR_TRDY))
dz_set_txint (dz);
dz_csr[dz] = (dz_csr[dz] & ~CSR_RW) | (data & CSR_RW);
break;
case 01: /* LPR */
dz_lpr[dz] = data;
line = (dz * DZ_LINES) + LPR_GETLN (data); /* get line num */
lp = &dz_ldsc[line]; /* get line desc */
if (dz_lpr[dz] & LPR_RCVE) /* rcv enb? on */
lp->rcve = 1;
else lp->rcve = 0; /* else line off */
if (dz_mctl) {
sprintf(lineconfig, "%s-%s%s%s", LPR_GETSPD(data), LPR_GETCHARSIZE(data), LPR_GETPARITY(data), LPR_GETSTOPBITS(data));
if (!lp->serconfig || (0 != strcmp(lp->serconfig, lineconfig))) /* config changed? */
tmxr_set_config_line (lp, lineconfig); /* set it */
}
tmxr_poll_rx (&dz_desc); /* poll input */
dz_update_rcvi (); /* update rx intr */
break;
case 02: /* TCR */
if (access == WRITEB) data = (PA & 1)? /* byte? merge */
(dz_tcr[dz] & 0377) | (data << 8):
(dz_tcr[dz] & ~0377) | data;
if (dz_mctl) { /* modem ctl? */
int32 changed = data ^ dz_tcr[dz];
for (i = 0; i < DZ_LINES; i++) {
if (0 == (changed & (1 << (TCR_V_DTR + i))))
continue; /* line unchanged skip */
line = (dz * DZ_LINES) + i; /* get line num */
lp = &dz_ldsc[line]; /* get line desc */
if (data & (1 << (TCR_V_DTR + i)))
tmxr_set_get_modem_bits (lp, TMXR_MDM_DTR|TMXR_MDM_RTS, 0, NULL);
else
if (dz_auto)
tmxr_set_get_modem_bits (lp, 0, TMXR_MDM_DTR|TMXR_MDM_RTS, NULL);
}
}
dz_tcr[dz] = data;
tmxr_poll_tx (&dz_desc); /* poll output */
dz_update_xmti (); /* update int */
break;
case 03: /* TDR */
if (PA & 1) { /* odd byte? */
dz_tdr[dz] = (dz_tdr[dz] & 0377) | (data << 8); /* just save */
break;
}
dz_tdr[dz] = data;
if (dz_csr[dz] & CSR_MSE) { /* enabled? */
line = (dz * DZ_LINES) + CSR_GETTL (dz_csr[dz]);
lp = &dz_ldsc[line]; /* get line desc */
c = sim_tt_outcvt (dz_tdr[dz], TT_GET_MODE (dz_unit.flags));
if (c >= 0) /* store char */
tmxr_putc_ln (lp, c);
tmxr_poll_tx (&dz_desc); /* poll output */
dz_update_xmti (); /* update int */
}
break;
}
return SCPE_OK;
}
/* Unit service routine
The DZ11 polls to see if asynchronous activity has occurred and now
needs to be processed. The polling interval is controlled by the clock
simulator, so for most environments, it is calibrated to real time.
Typical polling intervals are 50-60 times per second.
The simulator assumes that software enables all of the multiplexors,
or none of them.
*/
t_stat dz_svc (UNIT *uptr)
{
int32 dz, t, newln, muxln;
for (dz = t = 0; dz < dz_desc.lines/DZ_LINES; dz++) /* check enabled */
t = t | (dz_csr[dz] & CSR_MSE);
if (t) { /* any enabled? */
newln = tmxr_poll_conn (&dz_desc); /* poll connect */
if ((newln >= 0) && dz_mctl) { /* got a live one? */
dz = newln / DZ_LINES; /* get mux num */
muxln = newln % DZ_LINES; /* get line in mux */
if (dz_tcr[dz] & (1 << (muxln + TCR_V_DTR))) /* DTR set? */
dz_msr[dz] |= (1 << (muxln + MSR_V_CD)); /* set cdet */
else dz_msr[dz] |= (1 << (muxln + MSR_V_RI)); /* set ring */
}
tmxr_poll_rx (&dz_desc); /* poll input */
dz_update_rcvi (); /* upd rcv intr */
tmxr_poll_tx (&dz_desc); /* poll output */
dz_update_xmti (); /* upd xmt intr */
sim_activate (uptr, clk_cosched (tmxr_poll)); /* reactivate */
}
return SCPE_OK;
}
/* Get first available character for mux, if any */
int32 dz_getc (int32 dz)
{
uint32 i, line, c;
for (i = c = 0; (i < DZ_LINES) && (c == 0); i++) { /* loop thru lines */
line = (dz * DZ_LINES) + i; /* get line num */
c = tmxr_getc_ln (&dz_ldsc[line]); /* test for input */
if (c & SCPE_BREAK) /* break? frame err */
c = RBUF_VALID | RBUF_FRME;
if (c) /* or in line # */
c = c | (i << RBUF_V_RLINE);
} /* end for */
return c;
}
/* Update receive interrupts */
void dz_update_rcvi (void)
{
int32 i, dz, line, scnt[MAX_DZ_MUXES];
TMLN *lp;
for (dz = 0; dz < dz_desc.lines/DZ_LINES; dz++) { /* loop thru muxes */
scnt[dz] = 0; /* clr input count */
for (i = 0; i < DZ_LINES; i++) { /* poll lines */
line = (dz * DZ_LINES) + i; /* get line num */
lp = &dz_ldsc[line]; /* get line desc */
scnt[dz] = scnt[dz] + tmxr_rqln (lp); /* sum buffers */
if (dz_mctl && !lp->conn) /* if disconn */
dz_msr[dz] &= ~(1 << (i + MSR_V_CD)); /* reset car det */
}
}
for (dz = 0; dz < dz_desc.lines/DZ_LINES; dz++) { /* loop thru muxes */
if (scnt[dz] && (dz_csr[dz] & CSR_MSE)) { /* input & enabled? */
dz_csr[dz] |= CSR_RDONE; /* set done */
if (dz_sae[dz] && (scnt[dz] >= DZ_SILO_ALM)) { /* alm enb & cnt hi? */
dz_csr[dz] |= CSR_SA; /* set status */
dz_sae[dz] = 0; /* disable alarm */
}
}
else dz_csr[dz] &= ~CSR_RDONE; /* no, clear done */
if ((dz_csr[dz] & CSR_RIE) && /* int enable */
((dz_csr[dz] & CSR_SAE)?
(dz_csr[dz] & CSR_SA): (dz_csr[dz] & CSR_RDONE)))
dz_set_rxint (dz); /* and alm/done? */
else dz_clr_rxint (dz); /* no, clear int */
}
return;
}
/* Update transmit interrupts */
void dz_update_xmti (void)
{
int32 dz, linemask, i, j, line;
for (dz = 0; dz < dz_desc.lines/DZ_LINES; dz++) { /* loop thru muxes */
linemask = dz_tcr[dz] & DZ_LMASK; /* enabled lines */
dz_csr[dz] &= ~CSR_TRDY; /* assume not rdy */
j = CSR_GETTL (dz_csr[dz]); /* start at current */
for (i = 0; i < DZ_LINES; i++) { /* loop thru lines */
j = (j + 1) & DZ_LNOMASK; /* next line */
line = (dz * DZ_LINES) + j; /* get line num */
if ((linemask & (1 << j)) && dz_ldsc[line].xmte) {
CSR_PUTTL (dz_csr[dz], j); /* put ln in csr */
dz_csr[dz] |= CSR_TRDY; /* set xmt rdy */
break;
}
}
if ((dz_csr[dz] & CSR_TIE) && (dz_csr[dz] & CSR_TRDY)) /* ready plus int? */
dz_set_txint (dz);
else dz_clr_txint (dz); /* no int req */
}
return;
}
/* Interrupt routines */
void dz_clr_rxint (int32 dz)
{
dz_rxi = dz_rxi & ~(1 << dz); /* clr mux rcv int */
if (dz_rxi == 0) /* all clr? */
CLR_INT (DZRX);
else SET_INT (DZRX); /* no, set intr */
return;
}
void dz_set_rxint (int32 dz)
{
dz_rxi = dz_rxi | (1 << dz); /* set mux rcv int */
SET_INT (DZRX); /* set master intr */
return;
}
int32 dz_rxinta (void)
{
int32 dz;
for (dz = 0; dz < dz_desc.lines/DZ_LINES; dz++) { /* find 1st mux */
if (dz_rxi & (1 << dz)) {
sim_debug(DBG_INT, &dz_dev, "dz_rzinta(dz=%d)\n", dz);
dz_clr_rxint (dz); /* clear intr */
return (dz_dib.vec + (dz * 010)); /* return vector */
}
}
return 0;
}
void dz_clr_txint (int32 dz)
{
dz_txi = dz_txi & ~(1 << dz); /* clr mux xmt int */
if (dz_txi == 0) /* all clr? */
CLR_INT (DZTX);
else SET_INT (DZTX); /* no, set intr */
return;
}
void dz_set_txint (int32 dz)
{
dz_txi = dz_txi | (1 << dz); /* set mux xmt int */
SET_INT (DZTX); /* set master intr */
return;
}
int32 dz_txinta (void)
{
int32 dz;
for (dz = 0; dz < dz_desc.lines/DZ_LINES; dz++) { /* find 1st mux */
if (dz_txi & (1 << dz)) {
sim_debug(DBG_INT, &dz_dev, "dz_txinta(dz=%d)\n", dz);
dz_clr_txint (dz); /* clear intr */
return (dz_dib.vec + 4 + (dz * 010)); /* return vector */
}
}
return 0;
}
/* Device reset */
t_stat dz_clear (int32 dz, t_bool flag)
{
int32 i, line;
dz_csr[dz] = 0; /* clear CSR */
dz_rbuf[dz] = 0; /* silo empty */
dz_lpr[dz] = 0; /* no params */
if (flag) /* INIT? clr all */
dz_tcr[dz] = 0;
else dz_tcr[dz] &= ~0377; /* else save dtr */
dz_tdr[dz] = 0;
dz_sae[dz] = 1; /* alarm on */
dz_clr_rxint (dz); /* clear int */
dz_clr_txint (dz);
for (i = 0; i < DZ_LINES; i++) { /* loop thru lines */
line = (dz * DZ_LINES) + i;
if (!dz_ldsc[line].conn) /* set xmt enb */
dz_ldsc[line].xmte = 1;
dz_ldsc[line].rcve = 0; /* clr rcv enb */
}
return SCPE_OK;
}
t_stat dz_reset (DEVICE *dptr)
{
int32 i, ndev;
if (dz_ldsc == NULL)
dz_desc.ldsc = dz_ldsc = calloc (dz_desc.lines, sizeof(*dz_ldsc));
for (i = 0; i < dz_desc.lines/DZ_LINES; i++) /* init muxes */
dz_clear (i, TRUE);
dz_rxi = dz_txi = 0; /* clr master int */
CLR_INT (DZRX);
CLR_INT (DZTX);
sim_cancel (&dz_unit); /* stop poll */
ndev = ((dptr->flags & DEV_DIS)? 0: (dz_desc.lines / DZ_LINES));
return auto_config (dptr->name, ndev); /* auto config */
}
/* Attach */
t_stat dz_attach (UNIT *uptr, char *cptr)
{
int32 dz, muxln;
t_stat r;
extern int32 sim_switches;
if (sim_switches & SWMASK ('M')) /* modem control? */
tmxr_set_modem_control_passthru (&dz_desc);
r = tmxr_attach (&dz_desc, uptr, cptr); /* attach mux */
if (r != SCPE_OK) { /* error? */
tmxr_clear_modem_control_passthru (&dz_desc);
return r;
}
if (sim_switches & SWMASK ('M')) { /* modem control? */
dz_mctl = 1;
printf ("Modem control activated\n");
if (sim_log)
fprintf (sim_log, "Modem control activated\n");
if (sim_switches & SWMASK ('A')) { /* autodisconnect? */
dz_auto = 1;
printf ("Auto disconnect activated\n");
if (sim_log)
fprintf (sim_log, "Auto disconnect activated\n");
}
}
for (dz = 0; dz < dz_desc.lines/DZ_LINES; dz++) {
if (!dz_mctl || (0 == (dz_csr[dz] & CSR_MSE))) /* enabled? */
continue;
for (muxln = 0; muxln < DZ_LINES; muxln++) {
if (dz_tcr[dz] & (1 << (muxln + TCR_V_DTR))) {
TMLN *lp = &dz_ldsc[(dz * DZ_LINES) + muxln];
tmxr_set_get_modem_bits (lp, TMXR_MDM_DTR|TMXR_MDM_RTS, 0, NULL);
}
}
}
return SCPE_OK;
}
/* Detach */
t_stat dz_detach (UNIT *uptr)
{
dz_mctl = dz_auto = 0; /* modem ctl off */
return tmxr_detach (&dz_desc, uptr);
}
/* SET LINES processor */
t_stat dz_setnl (UNIT *uptr, int32 val, char *cptr, void *desc)
{
int32 newln, i, t;
t_stat r;
if (cptr == NULL)
return SCPE_ARG;
newln = (int32) get_uint (cptr, 10, (MAX_DZ_MUXES * DZ_LINES), &r);
if ((r != SCPE_OK) || (newln == dz_desc.lines))
return r;
if ((newln == 0) || (newln % DZ_LINES))
return SCPE_ARG;
if (newln < dz_desc.lines) {
for (i = newln, t = 0; i < dz_desc.lines; i++)
t = t | dz_ldsc[i].conn;
if (t && !get_yn ("This will disconnect users; proceed [N]?", FALSE))
return SCPE_OK;
for (i = newln; i < dz_desc.lines; i++) {
if (dz_ldsc[i].conn) {
tmxr_linemsg (&dz_ldsc[i], "\r\nOperator disconnected line\r\n");
tmxr_reset_ln (&dz_ldsc[i]); /* reset line */
}
if ((i % DZ_LINES) == (DZ_LINES - 1))
dz_clear (i / DZ_LINES, TRUE); /* reset mux */
}
}
dz_dib.lnt = (newln / DZ_LINES) * IOLN_DZ; /* set length */
dz_desc.ldsc = dz_ldsc = realloc(dz_ldsc, newln*sizeof(*dz_ldsc));
if (dz_desc.lines < newln)
memset (dz_ldsc + dz_desc.lines, 0, sizeof(*dz_ldsc)*(newln-dz_desc.lines));
dz_desc.lines = newln;
return dz_reset (&dz_dev); /* setup lines and auto config */
}
/* SET LOG processor */
t_stat dz_set_log (UNIT *uptr, int32 val, char *cptr, void *desc)
{
char *tptr;
t_stat r;
int32 ln;
if (cptr == NULL)
return SCPE_ARG;
tptr = strchr (cptr, '=');
if ((tptr == NULL) || (*tptr == 0))
return SCPE_ARG;
*tptr++ = 0;
ln = (int32) get_uint (cptr, 10, dz_desc.lines, &r);
if ((r != SCPE_OK) || (ln >= dz_desc.lines))
return SCPE_ARG;
return tmxr_set_log (NULL, ln, tptr, desc);
}
/* SET NOLOG processor */
t_stat dz_set_nolog (UNIT *uptr, int32 val, char *cptr, void *desc)
{
t_stat r;
int32 ln;
if (cptr == NULL)
return SCPE_ARG;
ln = (int32) get_uint (cptr, 10, dz_desc.lines, &r);
if ((r != SCPE_OK) || (ln >= dz_desc.lines))
return SCPE_ARG;
return tmxr_set_nolog (NULL, ln, NULL, desc);
}
/* SHOW LOG processor */
t_stat dz_show_log (FILE *st, UNIT *uptr, int32 val, void *desc)
{
int32 i;
for (i = 0; i < dz_desc.lines; i++) {
fprintf (st, "line %d: ", i);
tmxr_show_log (st, NULL, i, desc);
fprintf (st, "\n");
}
return SCPE_OK;
}