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prirun.p50em/emdev.h
Jim efc25712b5 defined register file with regs.h 
began using (get,put)16/32/64 functions to access memory instead of mem[]
began using crs[] to access current registers instead of mem[]
2005-05-23 00:00:00 -04:00

486 lines
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/* emdev.h, Jim Wilcoxson, April 17, 2005
Device handlers for pio instructions. Use devnull as a template for
new handlers.
NOTES:
OCP instructions never skip
SKS instructions skip on specified conditions
INA/OTA instructions skip if they succeed (data was read/written)
Device numbers:
'01 = paper tape reader
'02 = paper tape punch
'03 = 1st MPC (line printer/card reader/card punch)
'04 = SOC board (system console/user terminal)
'05 = 2nd MPC (line printer/card reader/card punch)
'06 = card punch? (RTOS User Guide, A-1) / IPC (Engr Handbook p.101)
'07 = PNC
'12 = diskette
'13 = 2nd magtape controller
'14 = 1st magtape controller
'20 = control panel / real-time clock
'21 = 1st 4002 disk controller
'22 = obsolete: fixed head disk
'23 = obsolete: 30MB disk
'24 = tag monitor (tmain.pma) / writable control store
'25 = obsolete: moving head disk
'26 = 1st disk controller
'27 = 2nd disk controller
'30-32 = BPIOC #1-3 (RTOS User Guide, A-1)
'33 = 1st Versatec (verdim)
'34 = 2nd Versatec
'35 = 4th AMLC
'36-37 = ELFBUS #1 & 2
'40 = A/D converter type 6000
'41 = digital input type 6020
'42 = digital input #2
'43 = digital output type 6040
'44 = digital output #2
'45 = D/A converter type 6060 (analog output)
'50 = 1st HSSMLC (cs/slcdim.pma)
'51 = 2nd HSSMLC
'52 = 3rd AMLC
'53 = 2nd AMLC
'54 = 1st AMLC
'55 = MACI autocall unit
'56 = old SMLC (RTOS User Guide, A-1)
'60-67 = reserved for user devices
'70-'73 = Megatek graphics terminals
Devices emulated by Primos in ks/ptrap.ftn:
'04 = console, '01 = paper tape reader, '02 = paper tape punch,
'20 = control panel
*/
#include <fcntl.h>
#include <unistd.h>
void devnull (short class, short func, short device) {
switch (class) {
case 0:
fprintf(stderr," OCP '%02o%02o\n", func, device);
if (func == 0) {
;
} else {
fprintf(stderr," unimplemented OCP device '%02o function\n", device);
exit(1);
}
break;
case 1:
fprintf(stderr," SKS '%02o%02o\n", func, device);
if (func == 0)
RPL++; /* assume it's always ready */
else {
fprintf(stderr," unimplemented SKS device '%02o function\n", device);
exit(1);
}
break;
case 2:
fprintf(stderr," INA '%02o%02o\n", func, device);
if (func == 0) {
;
} else {
fprintf(stderr," unimplemented INA device '%02o function\n", device);
exit(1);
}
break;
case 3:
fprintf(stderr," OTA '%02o%02o\n", func, device);
if (func == 0 | func == 1) {
RPL++; /* OTA '0004 always works on Unix */
} else {
fprintf(stderr," unimplemented OTA device '%02o function\n", device);
exit(1);
}
break;
}
}
/* Device '4: system console
OCP '0004 = initialize for input only, echoplex, 110 baud, 8-bit, no parity
OCP '0104 = same, but for output only
OCP '1004 = Full duplex; software must echo
OCP '1204 = Prime normal, independent xmit and recv w/echoplex
OCP '1304 = Self test mode (internally connects transmitter to receiver)
OCP '1704 = same as above, but clears interrupt masks and dma/c enables
*/
void devasr (short class, short func, short device) {
static int ttydev=-1;
unsigned char ch;
int ttyflags, newflags;
int n;
if (ttydev < 0) {
ttydev = open("/dev/tty", O_RDWR, 0);
if (ttydev < 0) {
perror(" error opening /dev/tty");
exit(1);
}
}
switch (class) {
case 0:
fprintf(stderr," OCP '%02o%02o\n", func, device);
break;
case 1:
fprintf(stderr," SKS '%02o%02o\n", func, device);
if (func <= 7)
RPL++; /* assume it's always ready */
else {
fprintf(stderr," unimplemented SKS '04 function\n");
exit(1);
}
break;
case 2:
fprintf(stderr," INA '%02o%02o\n", func, device);
if (func == 0 || func == 010) {
if (fcntl(ttydev, F_GETFL, ttyflags) == -1) {
perror(" unable to get tty flags");
exit(1);
}
if (get16(RPL) == 03776) /* JMP *-1 -> blocking read */
newflags = ttyflags & ~O_NONBLOCK;
else
newflags = ttyflags | O_NONBLOCK;
if (fcntl(ttydev, F_SETFL, newflags) == -1) {
perror(" unable to set tty flags");
exit(1);
}
n = read(ttydev, &ch, 1);
if (n < 0) {
if (errno != EAGAIN) {
perror(" error reading from tty");
exit(1);
}
} else if (n == 1) {
if (func >= 010)
crs[A] = 0;
crs[A] = crs[A] | ch | 0x80;
RPL++;
} else if (n != 0) {
fprintf(stderr," unexpected error reading from tty, n=%d", n);
exit(1);
}
} else if (func == 011) { /* read device id? */
crs[A] = 4;
RPL++;
} else if (func == 012) { /* read control word */
crs[A] = 04110;
RPL++;
} else {
fprintf(stderr," unimplemented INA '04 function\n");
exit(1);
}
break;
case 3:
fprintf(stderr," OTA '%02o%02o\n", func, device);
if (func == 0) {
fprintf(stderr," char to write=%o\n", crs[A]);
putchar(crs[A] & 0x7f);
fflush(stdout);
RPL++; /* OTA '0004 always works on Unix */
} else if (func == 1) { /* write control word */
RPL++;
} else {
fprintf(stderr," unimplemented OTA '04 function\n");
exit(1);
}
break;
}
}
/* Device '14 - magtape controller #1
*/
void devmt (short class, short func, short device) {
switch (class) {
case 0:
fprintf(stderr," OCP '%02o%02o\n", func, device);
break;
case 1:
fprintf(stderr," SKS '%02o%02o\n", func, device);
break;
case 2:
fprintf(stderr," INA '%02o%02o\n", func, device);
if (get16(RPL) == 03776) { /* JMP *-1 -> blocking read */
fprintf(stderr," Device not supported, so I/O hangs\n");
exit(1);
}
break;
case 3:
fprintf(stderr," OTA '%02o%02o\n", func, device);
if (get16(RPL) == 03776) { /* JMP *-1 -> blocking read */
fprintf(stderr," Device not supported, so I/O hangs\n");
exit(1);
}
break;
}
}
/* Device '20: control panel switches and lights
OTA '1720 = write to lights (sets CP fetch address)
INA '1420 = read location from CP ROM (not implemented, used to boot)
INA '1620 = read control panel switches
*/
void devcp (short class, short func, short device) {
switch (class) {
case 0:
fprintf(stderr," OCP '%02o%02o\n", func, device);
fprintf(stderr," unimplemented OCP device '%02o function\n", device);
exit(1);
break;
case 1:
fprintf(stderr," SKS '%02o%02o\n", func, device);
fprintf(stderr," unimplemented SKS device '%02o function\n", device);
exit(1);
break;
case 2:
fprintf(stderr," INA '%02o%02o\n", func, device);
if (func == 016) {
crs[A] = 014114;
} else {
fprintf(stderr," unimplemented INA device '%02o function\n", device);
exit(1);
}
break;
case 3:
fprintf(stderr," OTA '%02o%02o\n", func, device);
if (func == 017) { /* write lights */
RPL++;
} else {
fprintf(stderr," unimplemented OTA device '%02o function\n", device);
exit(1);
}
break;
}
}
/* disk controller at '26 and '27
NOTES:
- in the DSEL disk channel program command, unit number is a 4-bit field,
with these binary values:
0001 = unit 0 (pdev 460/461)
0010 = unit 1 (pdev 462/463)
0100 = unit 2 (pdev 464/465)
1000 = unit 3 (pdev 466/467)
OCP '1626 = reset interrupt
OCP '1726 = reset controller
INA '1126 = input ID, don't clear A first, fails if no controller
INA '1726 = read status (or something), fails if controller busy
OTA '1726 = load OAR (Order Address Register), ie, run channel
program, address is in A
*/
void devdisk (short class, short func, short device) {
unsigned short m;
unsigned short oar;
unsigned short status; /* actual status */
unsigned short teststatus; /* status for order testing */
unsigned short memaddr;
unsigned short order;
short halt;
short unit;
short head, track, rec, recsize, nwords;
unsigned short dmachan, dmanch, dmaaddr;
short dmanw;
char ordertext[8];
char devfile[8];
char devopened[8]; /* device file that is open on devfd */
static int devfd=-1; /* device file descriptor */
int theads, spt, phyra;
switch (class) {
case 0:
fprintf(stderr," OCP '%2o%2o\n", func, device);
break;
case 1:
fprintf(stderr," SKS '%2o%2o\n", func, device);
break;
case 2:
fprintf(stderr," INA '%2o%2o\n", func, device);
if (func == 01) /* read device id, clear A first */
crs[A] = device;
else if (func == 011) /* read device id, don't clear A */
crs[A] |= device;
else if (func == 017) /* read status */
crs[A] = 0100000;
RPL++;
break;
case 3:
fprintf(stderr," OTA '%02o%02o\n", func, device);
if (func == 017) { /* set OAR (order address register) */
oar = crs[A];
halt = 0;
status = 0100000;
unit = -1;
while (!halt) {
order = mem[oar]>>12;
fprintf(stderr,"\n %o: %o %o %o\n", oar, mem[oar], mem[oar+1], mem[oar+2]);
if (mem[oar] & 04000) { /* "execute if ..." */
if (order == 2 || order == 5 || order == 6)
oar += 3;
else
oar += 2;
continue;
}
switch (order) {
case 0: /* DHLT = Halt */
halt = 1;
fprintf(stderr," channel program halt at '%o\n", oar);
break;
case 2: /* SFORM = Format */
case 5: /* SREAD = Read */
case 6: /* SWRITE = Write */
recsize = mem[oar] & 017;
track = mem[oar+1] & 01777;
rec = mem[oar+2] >> 8; /* # records for format, rec # for R/W */
head = mem[oar+2] & 077;
if (order == 2)
strcpy(ordertext,"Format");
else if (order == 5)
strcpy(ordertext,"Read");
else if (order == 6)
strcpy(ordertext,"Write");
fprintf(stderr," %s, head=%d, track=%d, rec=%d, recsize=%d\n", ordertext, head, track, rec, recsize);
dmanw = get16(dmachan);
dmanw = -(dmanw>>4);
dmaaddr = get16(dmachan+1);
fprintf(stderr, " DMA channels: nch-1=%d, ['%o]='%o, ['%o]='%o, nwords=%d\n", dmanch, dmachan, get16(dmachan), dmachan+1, dmaaddr, dmanw);
if (devfd == -1) {
fprintf(stderr," Unit not selected or not ready\n");
status = 0100001;
} else if (order == 2)
fprintf(stderr," Format order not implemented\n");
else if (order == 5) {
/* translate head/track/sector to drive record address */
theads = 40; /* should get total heads from a config file */
spt = 9; /* and sectors per track too */
phyra = (track*theads*spt) + head*9 + rec;
fprintf(stderr, " phyra=%d, byte offset=%d\n", phyra, phyra*2080);
if (lseek(devfd, phyra*2080, SEEK_SET) == -1) {
perror("Unable to seek drive file");
exit(1);
}
if (read(devfd, mem+dmaaddr, dmanw*2) != dmanw*2) {
perror("Unable to read drive file");
exit(1);
}
put16(0,dmachan);
m = get16(dmachan+1);
m += dmanw;
put16(m,dmachan+1);
} else if (order == 6)
fprintf(stderr," Write order not implemented\n");
oar += 3;
break;
case 3: /* SSEEK = Seek */
track = mem[oar+1] & 01777;
fprintf(stderr," seek track %d, restore=%d, clear=%d\n", track, (mem[oar+1] & 0100000) != 0, (mem[oar+1] & 040000) != 0);
oar += 2;
break;
case 4: /* DSEL = Select unit */
unit = (mem[oar+1] & 017) >> 1; /* unit = 0/1/2/4 */
if (unit == 4) unit = 3; /* unit = 0/1/2/3 */
snprintf(devfile,sizeof(devfile),"dev%ou%d", device, unit);
fprintf(stderr," select unit %d, filename %s\n", unit, devfile);
if (strcmp(devfile,devopened) != 0 || devfd == -1) {
if (devfd != -1) {
close(devfd);
devfd = -1;
}
if ((devfd = open(devfile, O_RDONLY, 0)) == -1)
status = 0100001; /* not ready */
else
strcpy(devopened, devfile);
}
oar += 2;
break;
case 7: /* DSTALL = Stall */
fprintf(stderr," stall\n");
oar += 2;
break;
case 9: /* DSTAT = Store status to memory */
memaddr = mem[oar+1];
fprintf(stderr, " store status='%o to '%o\n", status, memaddr);
mem[memaddr] = status;
oar += 2;
break;
case 11: /* DOAR = Store OAR to memory (2 words) */
memaddr = mem[oar+1];
fprintf(stderr, " store OAR='%o to '%o\n", oar, memaddr);
mem[memaddr] = oar;
oar += 2;
break;
case 13: /* SDMA = select DMA channel(s) to use */
dmanch = mem[oar] & 017;
dmachan = mem[oar+1];
fprintf(stderr, " set DMA channels, nch-1=%d, channel='%o\n", dmanch, dmachan);
oar += 2;
break;
case 14: /* DINT = generate interrupt through vector address */
memaddr = mem[oar+1];
fprintf(stderr, " interrupt through '%o\n", memaddr);
exit(1);
oar += 2;
break;
case 15: /* DTRAN = channel program jump */
oar = mem[oar+1];
fprintf(stderr, " jump to '%o\n", oar);
break;
default:
fprintf(stderr, " unrecognized channel order = %d\n", order);
exit(1);
}
}
RPL++;
} else {
fprintf(stderr," unimplemented OTA device '%02o function\n", device);
exit(1);
}
break;
}
}
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