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simh-testsetgenerator/sim_tmxr.c
Bob Supnik 701f0fe028 Notes For V2.8 
1. New Features

1.1 Directory and documentation

- Only common files (SCP and libraries) are in the top level
  directory.  Individual simulator files are in their individual
  directories.
- simh_doc.txt has been split up.  simh_doc.txt now documents
  only SCP.  The individual simulators are documented in separate
  text files in their own directories.
- mingw_build.bat is a batch file for the MINGW/gcc environment
  that will build all the simulators, assuming the root directory
  structure is at c:\sim.
- Makefile is a UNIX make file for the gcc environment that will
  build all the simulators, assuming the root directory is at
  c:\sim.

1.2 SCP

- DO <file name> executes the SCP commands in the specified file.
- Replicated registers in unit structures can now be declared as
  arrays for examine, modify, save, and restore.  Most replicated
  unit registers (for example, mag tape position registers) have
  been changed to arrays.
- The ADD/REMOVE commands have been replaced by SET unit ONLINE
  and SET unit OFFLINE, respectively.
- Register names that are unique within an entire simulator do
  not have to be prefaced with the device name.
- The ATTACH command can attach files read only, either under
  user option (-r), or because the attached file is ready only.
- The SET/SHOW capabilities have been extended.  New forms include:

	SET <dev> param{=value}{ param ...}
	SET <unit> param{=value}{ param ...}
	SHOW <dev> {param param ...}
	SHOW <unit> {param param ...}

- Multiple breakpoints have been implemented.  Breakpoints are
  set/cleared/displayed by:

	BREAK addr_list{[count]}
	NOBREAK addr_list
	SHOW BREAK addr_list

1.3 PDP-11 simulator

- Unibus map implemented, with 22b RP controller (URH70) or 18b
  RP controller (URH11) (in debug).
- All DMA peripherals rewritten to use map.
- Many peripherals modified for source sharing with VAX.
- RQDX3 implemented.
- Bugs fixed in RK11 and RL11 write check.

1.4 PDP-10 simulator

- ITS 1-proceed implemented.
- Bugs fixed in ITS PC sampling and LPMR

1.5 18b PDP simulator

- Interrupts split out to multiple levels to allow easier
  expansion.

1.5 IBM System 3 Simulator

- Written by Charles (Dutch) Owen.

1.6 VAX Simulator (in debug)

- Simulates MicroVAX 3800 (KA655) with 16MB-64MB memory, RQDX3,
  RLV12, TSV11, DZV11, LPV11, PCV11.
- CDROM capability has been added to the RQDX3, to allow testing
  with VMS hobbyist images.

1.7 SDS 940 Simulator (not tested)

- Simulates SDS 940, 16K-64K memory, fixed and moving head
  disk, magtape, line printer, console.

1.8 Altair Z80

- Revised from Charles (Dutch) Owen's original by Peter Schorn.
- MITS 8080 with full Z80 simulation.
- 4K and 8K BASIC packages, Prolog package.

1.9 Interdata

The I4 simulator has been withdrawn for major rework.  Look for
a complete 16b/32b Interdata simulator sometime next year.

2. Release Notes

2.1 SCP

SCP now allows replicated registers in unit structures to be
modelled as arrays.  All replicated register declarations have
been replaced by register array declarations.  As a result,
save files from prior revisions will generate errors after
restoring main memory.

2.2 PDP-11

The Unibus map code is in debug.  The map was implemented primarily
to allow source sharing with the VAX, which requires a DMA map.
DMA devices work correctly with the Unibus map disabled.

The RQDX3 simulator has run a complete RSTS/E SYSGEN, with multiple
drives, and booted the completed system from scratch.

2.3 VAX

The VAX simulator will run the boot code up to the >>> prompt.  It
can successfully process a SHOW DEVICE command.  It runs the HCORE
instruction diagnostic.  It can boot the hobbyist CD through SYSBOOT
and through the date/time dialog and restore the hobbyist CD, using
standalone backup.  On the boot of the restored disk, it gets to the
date/time dialog, and then crashes.

2.4 SDS 940

The SDS 940 is untested, awaiting real code.

2.5 GCC Optimization

At -O2 and above, GCC does not correctly compile the simulators which
use setjmp-longjmp (PDP-11, PDP-10, VAX).  A working hypothesis is
that optimized state maintained in registers is being used in the
setjmp processing routine.  On the PDP-11 and PDP-10, all of this
state has been either made global, or volatile, to encourage GCC to
keep the state up to date in memory.  The VAX is still vulnerable.

3. Work list

3.1 SCP

- Better ENABLE/DISABLE.

3.2 PDP-11 RQDX3

Software mapped mode, RCT read simulation, VMS debug.
2011-04-15 08:33:38 -07:00

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/* sim_tmxr.c: Telnet terminal multiplexor library
Copyright (c) 2001, 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.
Based on the original DZ11 simulator by Thord Nilson, as updated by
Arthur Krewat.
03-Dec-01 RMS Changed tmxr_status for extended SET/SHOW
20-Oct-01 RMS Fixed bugs in read logic (found by Thord Nilson).
added tmxr_rqln, tmxr_tqln
*/
#include "sim_defs.h"
#include "sim_sock.h"
#include "sim_tmxr.h"
/* Telnet protocol constants - negatives are for init'ing signed char data */
#define TN_IAC -1 /* protocol delim */
#define TN_DONT -2 /* dont */
#define TN_DO -3 /* do */
#define TN_WONT -4 /* wont */
#define TN_WILL -5 /* will */
#define TN_BIN 0 /* bin */
#define TN_ECHO 1 /* echo */
#define TN_SGA 3 /* sga */
#define TN_LINE 34 /* line mode */
#define TN_CR 015 /* carriage return */
/* Telnet line states */
#define TNS_NORM 000 /* normal */
#define TNS_IAC 001 /* IAC seen */
#define TNS_WILL 002 /* WILL seen */
#define TNS_WONT 003 /* WONT seen */
#define TNS_SKIP 004 /* skip next */
void tmxr_rmvrc (TMLN *lp, int32 p);
extern int32 sim_switches;
extern char sim_name[];
extern FILE *sim_log;
extern uint32 sim_os_msec (void);
/* Poll for new connection
Called from unit service routine to test for new connection
Inputs:
*mp = pointer to terminal multiplexor descriptor
Outputs:
line number activated, -1 if none
*/
int32 tmxr_poll_conn (TMXR *mp, UNIT *uptr)
{
SOCKET newsock;
TMLN *lp;
int32 i;
uint32 ipaddr;
static char mantra[] = {
TN_IAC, TN_WILL, TN_LINE,
TN_IAC, TN_WILL, TN_SGA,
TN_IAC, TN_WILL, TN_ECHO,
TN_IAC, TN_WILL, TN_BIN,
TN_IAC, TN_DO, TN_BIN };
newsock = sim_accept_conn (mp -> master, uptr, &ipaddr);/* poll connect */
if (newsock != INVALID_SOCKET) { /* got a live one? */
for (i = 0; i < mp -> lines; i++) { /* find avail line */
lp = mp -> ldsc[i]; /* ptr to ln desc */
if (lp -> conn == 0) break; } /* available? */
if (i >= mp -> lines) { /* all busy? */
tmxr_msg (newsock, "All connections busy... please try later\r\n");
sim_close_sock (newsock, 0); }
else { lp = mp -> ldsc[i]; /* get line desc */
lp -> conn = newsock; /* record connection */
lp -> ipad = ipaddr; /* ip address */
lp -> cnms = sim_os_msec (); /* time of conn */
lp -> rxbpr = lp -> rxbpi = 0; /* init buf pointers */
lp -> txbpr = lp -> txbpi = 0;
lp -> rxcnt = lp -> txcnt = 0; /* init counters */
lp -> tsta = 0; /* init telnet state */
lp -> xmte = 1; /* enable transmit */
lp -> dstb = 0; /* default bin mode */
sim_write_sock (newsock, mantra, 15);
tmxr_msg (newsock, "\n\r\nWelcome to the ");
tmxr_msg (newsock, sim_name);
tmxr_msg (newsock, " simulator\r\n\n");
return i; }
} /* end if newsock */
return -1;
}
/* Reset line */
void tmxr_reset_ln (TMLN *lp)
{
sim_close_sock (lp -> conn, 0); /* reset conn */
lp -> conn = lp -> tsta = 0; /* reset state */
lp -> rxbpr = lp -> rxbpi = 0;
lp -> txbpr = lp -> txbpi = 0;
lp -> xmte = 1;
lp -> dstb = 0;
return;
}
/* Get character from specific line
Inputs:
*lp = pointer to terminal line descriptor
Output:
valid + char, 0 if line
*/
int32 tmxr_getc_ln (TMLN *lp)
{
int32 j, val = 0;
uint32 tmp;
if (lp -> conn && lp -> rcve) { /* conn & enb? */
j = lp -> rxbpi - lp -> rxbpr; /* # input chrs */
if (j) { /* any? */
tmp = lp -> rxb[lp -> rxbpr]; /* get char */
lp -> rxbpr = lp -> rxbpr + 1; /* adv pointer */
val = TMXR_VALID | (tmp & 0377); } /* valid + chr */
} /* end if conn */
if (lp -> rxbpi == lp -> rxbpr) /* empty? zero ptrs */
lp -> rxbpi = lp -> rxbpr = 0;
return val;
}
/* Poll for input
Inputs:
*mp = pointer to terminal multiplexor descriptor
Outputs: none
*/
void tmxr_poll_rx (TMXR *mp)
{
int32 i, nbytes, j;
TMLN *lp;
for (i = 0; i < mp -> lines; i++) { /* loop thru lines */
lp = mp -> ldsc[i]; /* get line desc */
if (!lp -> conn || !lp -> rcve) continue; /* skip if !conn */
nbytes = 0;
if (lp -> rxbpi == 0) /* need input? */
nbytes = sim_read_sock (lp -> conn, /* yes, read */
&(lp -> rxb[lp -> rxbpi]), /* leave spc for */
TMXR_MAXBUF - TMXR_GUARD); /* Telnet cruft */
else if (lp -> tsta) /* in Telnet seq? */
nbytes = sim_read_sock (lp -> conn, /* yes, read to end */
&(lp -> rxb[lp -> rxbpi]),
TMXR_MAXBUF - lp -> rxbpi);
if (nbytes < 0) tmxr_reset_ln (lp); /* closed? reset ln */
else if (nbytes > 0) { /* if data rcvd */
j = lp -> rxbpi; /* start of data */
lp -> rxbpi = lp -> rxbpi + nbytes; /* adv pointers */
lp -> rxcnt = lp -> rxcnt + nbytes;
/* Examine new data, remove TELNET cruft before making input available */
for (; j < lp -> rxbpi; ) { /* loop thru char */
char tmp = lp -> rxb[j]; /* get char */
switch (lp -> tsta) { /* case tlnt state */
case TNS_NORM: /* normal */
if (tmp == TN_IAC) { /* IAC? */
lp -> tsta = TNS_IAC; /* change state */
tmxr_rmvrc (lp, j); /* remove char */
break; }
if ((tmp == TN_CR) && lp -> dstb) /* CR, no bin */
lp -> tsta = TNS_SKIP; /* skip next */
j = j + 1; /* advance j */
break;
case TNS_IAC: /* IAC prev */
if (tmp == TN_WILL) /* IAC + WILL? */
lp -> tsta = TNS_WILL;
else if (tmp == TN_WONT) /* IAC + WONT? */
lp -> tsta = TNS_WONT;
else lp -> tsta = TNS_SKIP; /* IAC + other */
tmxr_rmvrc (lp, j); /* remove char */
break;
case TNS_WILL: case TNS_WONT: /* IAC+WILL/WONT prev */
if (tmp == TN_BIN) { /* BIN? */
if (lp -> tsta == TNS_WILL) lp -> dstb = 0;
else lp -> dstb = 1; }
case TNS_SKIP: default: /* skip char */
lp -> tsta = TNS_NORM; /* next normal */
tmxr_rmvrc (lp, j); /* remove char */
break; } /* end case state */
} /* end for char */
} /* end else nbytes */
} /* end for lines */
for (i = 0; i < mp -> lines; i++) { /* loop thru lines */
lp = mp -> ldsc[i]; /* get line desc */
if (lp -> rxbpi == lp -> rxbpr) /* if buf empty, */
lp -> rxbpi = lp -> rxbpr = 0; /* reset pointers */
} /* end for */
return;
}
/* Return count of available characters for line */
int32 tmxr_rqln (TMLN *lp)
{
return (lp -> rxbpi - lp -> rxbpr);
}
/* Remove character p from line l input buffer */
void tmxr_rmvrc (TMLN *lp, int32 p)
{
for ( ; p < lp -> rxbpi; p++) lp -> rxb[p] = lp -> rxb[p + 1];
lp -> rxbpi = lp -> rxbpi - 1;
return;
}
/* Store character in line buffer
Inputs:
*lp = pointer to line descriptor
chr = characters
Outputs:
none
*/
void tmxr_putc_ln (TMLN *lp, int32 chr)
{
if (lp -> conn == 0) return; /* no conn? done */
if (lp -> txbpi < TMXR_MAXBUF) { /* room for char? */
lp -> txb[lp -> txbpi] = (char) chr; /* buffer char */
lp -> txbpi = lp -> txbpi + 1; /* adv pointer */
if (lp -> txbpi > (TMXR_MAXBUF - TMXR_GUARD)) /* near full? */
lp -> xmte = 0; } /* disable line */
else lp -> xmte = 0; /* disable line */
return;
}
/* Poll for output
Inputs:
*mp = pointer to terminal multiplexor descriptor
Outputs:
none
*/
void tmxr_poll_tx (TMXR *mp)
{
int32 i, nbytes, sbytes;
TMLN *lp;
for (i = 0; i < mp -> lines; i++) { /* loop thru lines */
lp = mp -> ldsc[i]; /* get line desc */
if (lp -> conn == 0) continue; /* skip if !conn */
nbytes = lp -> txbpi - lp -> txbpr; /* avail bytes */
if (nbytes) { /* >0? write */
sbytes = sim_write_sock (lp -> conn,
&(lp -> txb[lp -> txbpr]), nbytes);
if (sbytes != SOCKET_ERROR) { /* update ptrs */
lp -> txbpr = lp -> txbpr + sbytes;
lp -> txcnt = lp -> txcnt + sbytes;
nbytes = nbytes - sbytes; }
}
if (nbytes == 0) { /* buf empty? */
lp -> xmte = 1; /* enable this line */
lp -> txbpr = lp -> txbpi = 0; }
} /* end for */
return;
}
/* Return count of buffered characters for line */
int32 tmxr_tqln (TMLN *lp)
{
return (lp -> txbpi - lp -> txbpr);
}
/* Attach */
t_stat tmxr_attach (TMXR *mp, UNIT *uptr, char *cptr)
{
char* tptr;
int32 i, port;
SOCKET sock;
TMLN *lp;
t_stat r;
extern int32 sim_switches;
port = (int32) get_uint (cptr, 10, 65535, &r); /* get port */
if ((r != SCPE_OK) || (port == 0)) return SCPE_ARG;
tptr = malloc (strlen (cptr) + 1); /* get string buf */
if (tptr == NULL) return SCPE_MEM; /* no more mem? */
sock = sim_master_sock (port); /* make master socket */
if (sock == INVALID_SOCKET) { /* open error */
free (tptr); /* release buf */
return SCPE_OPENERR; }
printf ("Listening on socket %d\n", sock);
if (sim_log) fprintf (sim_log, "Listening on socket %d\n", sock);
mp -> master = sock; /* save master socket */
strcpy (tptr, cptr); /* copy port */
uptr -> filename = tptr; /* save */
uptr -> flags = uptr -> flags | UNIT_ATT; /* no more errors */
for (i = 0; i < mp -> lines; i++) { /* initialize lines */
lp = mp -> ldsc[i];
lp -> conn = lp -> tsta = 0;
lp -> rxbpi = lp -> rxbpr = 0;
lp -> txbpi = lp -> txbpr = 0;
lp -> rxcnt = lp -> txcnt = 0;
lp -> xmte = 1;
lp -> dstb = 0; }
return SCPE_OK;
}
/* Detach */
t_stat tmxr_detach (TMXR *mp, UNIT *uptr)
{
int32 i;
TMLN *lp;
if ((uptr -> flags & UNIT_ATT) == 0) return SCPE_OK; /* attached? */
for (i = 0; i < mp -> lines; i++) { /* loop thru conn */
lp = mp -> ldsc[i];
if (lp -> conn) {
tmxr_msg (lp -> conn, "\r\n");
tmxr_msg (lp -> conn, sim_name);
tmxr_msg (lp -> conn, " simulator shutting down... please come back later\r\n\n");
tmxr_reset_ln (lp); } /* end if conn */
} /* end for */
sim_close_sock (mp -> master, 1); /* close master socket */
mp -> master = 0;
free (uptr -> filename); /* free port string */
uptr -> filename = NULL;
uptr -> flags = uptr -> flags & ~UNIT_ATT; /* not attached */
return SCPE_OK;
}
/* Stub examine and deposit */
t_stat tmxr_ex (t_value *vptr, t_addr addr, UNIT *uptr, int32 sw)
{
return SCPE_NOFNC;
}
t_stat tmxr_dep (t_value val, t_addr addr, UNIT *uptr, int32 sw)
{
return SCPE_NOFNC;
}
/* Output message */
void tmxr_msg (SOCKET sock, char *msg)
{
if (sock) sim_write_sock (sock, msg, strlen (msg));
return;
}
/* Print line status */
void tmxr_fstatus (FILE *st, TMLN *lp, int32 ln)
{
if (ln >= 0) fprintf (st, "\n line %d: ", ln);
else fprintf (st, "line status: ");
if (lp -> conn) {
int32 o1, o2, o3, o4, hr, mn, sc;
uint32 ctime;
o1 = (lp -> ipad >> 24) & 0xFF;
o2 = (lp -> ipad >> 16) & 0xFF;
o3 = (lp -> ipad >> 8) & 0xFF;
o4 = (lp -> ipad) & 0xFF;
ctime = (sim_os_msec () - lp -> cnms) / 1000;
hr = ctime / 3600;
mn = (ctime / 60) % 60;
sc = ctime % 3600;
fprintf (st, "IP address %d.%d.%d.%d", o1, o2, o3, o4);
if (ctime) fprintf (st, ", connected %02d:%02d:%02d", hr, mn, sc); }
else fprintf (st, "disconnected");
return;
}
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