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[z180-stamp.git] / avr / z180-serv.c
1 /*
2 * (C) Copyright 2014-2016 Leo C. <erbl259-lmu@yahoo.de>
3 *
4 * SPDX-License-Identifier: GPL-2.0
5 */
6
7 #include "z180-serv.h"
8 #include "common.h"
9 #include <stdlib.h>
10 #include <string.h>
11 #include <stdbool.h>
12 #include <util/atomic.h>
13
14 #include "config.h"
15 #include "background.h"
16 #include "env.h"
17 #include "ff.h"
18 #include "serial.h"
19 #include "z80-if.h"
20 #include "debug.h"
21 #include "print-utils.h"
22 #include "timer.h"
23 #include "time.h"
24 #include "bcd.h"
25 #include "rtc.h"
26
27 #define DEBUG_CPM_SDIO 0 /* set to 1 to debug */
28
29 #define debug_cpmsd(fmt, args...) \
30 debug_cond(DEBUG_CPM_SDIO, fmt, ##args)
31
32
33 /*--------------------------------------------------------------------------*/
34
35 struct msg_item {
36 uint8_t fct;
37 uint8_t sub_min, sub_max;
38 void (*func)(uint8_t, int, uint8_t *);
39 };
40
41 uint32_t msg_to_addr(uint8_t *msg)
42 {
43 union {
44 uint32_t as32;
45 uint8_t as8[4];
46 } addr;
47
48 addr.as8[0] = msg[0];
49 addr.as8[1] = msg[1];
50 addr.as8[2] = msg[2];
51 addr.as8[3] = 0;
52
53 return addr.as32;
54 }
55
56
57 static int msg_xmit_header(uint8_t func, uint8_t subf, int len)
58 {
59 z80_memfifo_putc(fifo_msgout, 0xAE);
60 z80_memfifo_putc(fifo_msgout, len+2);
61 z80_memfifo_putc(fifo_msgout, func);
62 z80_memfifo_putc(fifo_msgout, subf);
63
64 return 0;
65 }
66
67 int msg_xmit(uint8_t func, uint8_t subf, int len, uint8_t *msg)
68 {
69 msg_xmit_header(func, subf, len);
70 while (len--)
71 z80_memfifo_putc(fifo_msgout, *msg++);
72
73 return 0;
74 }
75
76 void do_msg_ini_memfifo(uint8_t subf, int len, uint8_t * msg)
77 {
78 (void)len;
79
80 z80_memfifo_init(subf, msg_to_addr(msg));
81 }
82
83
84 void do_msg_char_out(uint8_t subf, int len, uint8_t * msg)
85 {
86 (void)subf;
87
88 while (len--)
89 putchar(*msg++);
90 }
91
92 /* echo message */
93 void do_msg_echo(uint8_t subf, int len, uint8_t * msg)
94 {
95 (void)subf;
96
97 /* send re-echo */
98 msg_xmit(1, 3, len, msg);
99 }
100
101 /* get timer */
102 void do_msg_get_timer(uint8_t subf, int len, uint8_t * msg)
103 {
104 uint32_t time_ms = (len >= 4) ? *(uint32_t *) msg : 0;
105
106 time_ms = get_timer(time_ms);
107 msg_xmit(3, subf, sizeof(time_ms), (uint8_t *) &time_ms);
108 }
109
110 /* ---------------------------------------------------------------------------*/
111
112 #define CPM_DAY_OFFSET ((1978-1900) * 365 + 19) /* 19 leap years */
113
114 /*
115 * Convert CP/M time stamp to a broken-down time structure
116 *
117 */
118 int mk_date_time (int len, uint8_t *msg, struct tm *tmp)
119 {
120 time_t stamp;
121
122 if (len != 5)
123 return -1;
124
125 /* days since 2000-01-01 */
126 long days = msg[3] + (msg[4] << 8) - 8036;
127
128 if (days < 0)
129 return -1;
130
131 stamp = days * ONE_DAY;
132 stamp += bcd2bin(msg[0]);
133 stamp += bcd2bin(msg[1]) * 60 ;
134 stamp += bcd2bin(msg[2]) * 3600L;
135 gmtime_r(&stamp, tmp);
136 return 0;
137 }
138
139 void mk_cpm_time(struct tm *tmp, uint8_t cpm_time[5])
140 {
141 uint16_t days = 1;
142 uint_fast8_t leap=2;
143
144 for (int year=78; year < tmp->tm_year; year++) {
145 days = days + 365 + (leap == 0);
146 leap = (leap+1)%4;
147 }
148 days += tmp->tm_yday;
149
150 cpm_time[0] = bin2bcd(tmp->tm_sec);
151 cpm_time[1] = bin2bcd(tmp->tm_min);
152 cpm_time[2] = bin2bcd(tmp->tm_hour);
153 cpm_time[3] = days;
154 cpm_time[4] = days >> 8;
155 }
156
157 /* get/set cp/m time */
158 void do_msg_get_set_time(uint8_t subf, int len, uint8_t * msg)
159 {
160 struct tm t;
161 uint8_t cpm_time[5];
162 int rc;
163
164 memset(cpm_time, 0, ARRAY_SIZE(cpm_time));
165
166 switch (subf) {
167 case 3: /* set date & time */
168 /* initialize t with current time */
169 rc = rtc_get (&t);
170
171 if (rc >= 0) {
172 /* insert new date & time */
173 if (mk_date_time (len, msg, &t) != 0) {
174 my_puts_P(PSTR("## set_time: Bad date format\n"));
175 break;
176 }
177
178 time_t time;
179 time = mk_gmtime(&t);
180 gmtime_r(&time, &t);
181
182 /* and write to RTC */
183 rc = rtc_set (&t);
184 if(rc)
185 my_puts_P(PSTR("## set_time: Set date failed\n"));
186 } else {
187 my_puts_P(PSTR("## set_time: Get date failed\n"));
188 }
189 /* FALL TROUGH */
190 case 2: /* get date & time */
191 rc = rtc_get (&t);
192 if (rc >= 0) {
193 time_t time;
194 time = mk_gmtime(&t);
195 //mktime(&t);
196 gmtime_r(&time, &t);
197
198 mk_cpm_time(&t, cpm_time);
199 } else {
200 my_puts_P(PSTR("## get_time: Get date failed\n"));
201 }
202 break;
203 }
204
205 msg_xmit(3, subf, sizeof(cpm_time), cpm_time);
206 }
207
208 /* ---------------------------------------------------------------------------*/
209
210 static uint8_t disk_buffer[CONFIG_CPM_BLOCK_SIZE];
211 static struct cpm_drive_s drv_table[CONFIG_CPM_MAX_DRIVE];
212 static int handle_cpm_drv_to;
213
214
215 void drv_debug(uint8_t drv, const FLASH char *const fmt, ...) \
216 {
217 struct cpm_drive_s *dp = &drv_table[drv];
218
219 if (dp->opt & DRV_OPT_DEBUG) {
220
221 va_list ap;
222
223 printf_P(PSTR("# %7lu dsk%d: "), get_timer(0), drv);
224
225 va_start (ap, fmt);
226 vfprintf_P (stdout, fmt, ap);
227 va_end (ap);
228
229 putc('\n', stdout);
230 }
231 }
232
233 int drv_list(void)
234 {
235 for (uint8_t i = 0; i < CONFIG_CPM_MAX_DRIVE; i++) {
236 struct cpm_drive_s * p = &drv_table[i];
237 if (p->img_name) {
238 printf_P(PSTR(" dsk%d: %2s %3s attached to %s\n"), i,
239 p->opt&DRV_OPT_RO ? "RO":"RW", p->opt&DRV_OPT_DEBUG ? "DBG":"",
240 p->img_name);
241 }
242 }
243 return 0;
244 }
245
246 int drv_detach(uint8_t drv)
247 {
248 if (drv < CONFIG_CPM_MAX_DRIVE) {
249 struct cpm_drive_s *p = &drv_table[drv];
250
251 drv_debug(drv, PSTR("detach from '%s'"), p->img_name ? p->img_name : "-");
252
253 if (p->img_name) {
254 f_close(&p->fd);
255 free(p->img_name);
256 p->opt = 0;
257 p->flags &= ~DRV_FLG_DIRTY;
258 p->img_name = NULL;
259
260 uint32_t scb = getenv_ulong(ENV_CPM3_SCB, 16, 0);
261 if (scb && (z80_bus_cmd(Request) & ZST_ACQUIRED)) {
262 z80_write(scb + 0xf0, 0xff);
263 z80_write(p->dph + 11, 0xff);
264 z80_bus_cmd(Release);
265 }
266 }
267 }
268 return 0;
269 }
270
271 static int drv_find_file_attached(const char *fn)
272 {
273 for (uint8_t i = 0; i < CONFIG_CPM_MAX_DRIVE; i++) {
274 struct cpm_drive_s *p = &drv_table[i];
275 if (p->img_name && !strcmp(fn, p->img_name)) {
276 return i;
277 }
278 }
279 return -1;
280 }
281
282 int drv_attach(uint8_t drv, const char *filename, drv_opt_t options)
283 {
284 int res;
285
286 if (drv >= CONFIG_CPM_MAX_DRIVE)
287 return AT_RANGE;
288
289 struct cpm_drive_s *p = &drv_table[drv];
290
291 if (options & DRV_OPT_REATTATCH) {
292 if (filename) {
293 return AT_ERROR;
294 }
295
296 if (!p->img_name) {
297 return AT_NOT;
298 }
299
300 /* change options */
301 if ((p->opt ^ options) & DRV_OPT_RO) {
302 f_close(&p->fd);
303 res = f_open(&p->fd, p->img_name,
304 FA_READ | (options&DRV_OPT_RO ? 0 : FA_WRITE));
305 }
306
307 p->opt = options & ~DRV_OPT_REATTATCH;
308
309 } else {
310
311 if (p->img_name)
312 return AT_ALREADY;
313 if (drv_find_file_attached(filename) >= 0)
314 return AT_OTHER;
315
316 p->opt = options;
317
318 /* new attachment */
319
320 if ((p->img_name = strdup(filename)) == NULL)
321 return AT_NOMEM;
322
323 res = f_open(&p->fd, p->img_name,
324 FA_READ | (options&DRV_OPT_RO ? 0 : FA_WRITE));
325
326 if (!res && f_size(&p->fd) < CONFIG_CPM_DISKSIZE) {
327 #if 0
328 unsigned int bw;
329 debug_cpmsd(" expanding image file from %ld to %ld\n",
330 f_size(&p->fd), CONFIG_CPM_DISKSIZE);
331
332 res = f_lseek(&p->fd, CONFIG_CPM_DISKSIZE-CONFIG_CPM_BLOCK_SIZE);
333 if (!res) {
334 memset(disk_buffer, 0xe5, CONFIG_CPM_BLOCK_SIZE);
335 res = f_write(&p->fd, disk_buffer, CONFIG_CPM_BLOCK_SIZE, &bw);
336 if (res || bw < CONFIG_CPM_BLOCK_SIZE) {
337 debug_cpmsd(" failed! res: %d, bytes written: %u\n", res, bw);
338 }
339 p->flags |= DRV_FLG_DIRTY;
340 bg_setstat(handle_cpm_drv_to, 1);
341 }
342 #else
343 drv_debug(drv, PSTR("wrong image file size: %ld, should be %ld"),
344 f_size(&p->fd), CONFIG_CPM_DISKSIZE);
345 res = 64;
346 #endif
347 }
348 if (res) {
349 drv_detach(drv);
350 return AT_OPEN;
351 }
352 }
353
354 return AT_OK;
355 }
356
357
358 int cpm_drv_to(int state)
359 {
360 static uint32_t ts;
361
362 switch(state) {
363 case 0:
364 break;
365
366 case 1:
367 ts = get_timer(0);
368 state = 2;
369 break;
370
371 case 2:
372 if (get_timer(ts) > 1000) {
373 for (uint_fast8_t i=0; i < CONFIG_CPM_MAX_DRIVE; i++) {
374 if (drv_table[i].flags & DRV_FLG_DIRTY) {
375 drv_table[i].flags &= ~DRV_FLG_DIRTY;
376 f_sync(&drv_table[i].fd);
377 drv_debug(i, PSTR("f_sync"));
378 }
379 }
380 state = 0;
381 }
382 }
383 return state;
384 }
385
386
387 void msg_cpm_result(uint8_t subf, uint8_t rc, int res)
388 {
389 uint8_t result_msg[3];
390
391 if (res)
392 rc |= 0x80;
393
394 result_msg[0] = rc;
395 result_msg[1] = res;
396 result_msg[2] = res >> 8;
397
398 if (rc) {
399 debug_cpmsd("###%7lu error rc: %.02x, res: %d\n", get_timer(0), rc, res);
400 }
401
402 msg_xmit(2, subf, sizeof(result_msg), result_msg);
403 }
404
405 /*
406 db 2 ; disk command
407 ds 1 ; subcommand (login/read/write)
408 ds 1 ; @adrv (8 bits) +0
409 ds 1 ; @rdrv (8 bits) +1
410 ds 3 ; @xdph (24 bits) +2
411 */
412
413 void do_msg_cpm_login(uint8_t subf, int len, uint8_t * msg)
414 {
415 uint8_t drv;
416 struct cpm_drive_s *dp;
417 FRESULT res = 0;
418
419 (void)subf;
420
421 if (len != 5) {
422 return msg_cpm_result(subf, 0x01, res);
423 }
424
425 /* Get relative drive number */
426 drv = msg[1];
427 if ( drv >= CONFIG_CPM_MAX_DRIVE) {
428 debug_cpmsd("## login failed: invalid relative drive number '%d'\n", drv);
429 return msg_cpm_result(subf, 0x02, res);
430 }
431
432 drv_debug(drv, PSTR("login"));
433
434 dp = &drv_table[drv];
435 dp->flags &= ~DRV_FLG_OPEN;
436 dp->dph = ((uint32_t)msg[4] << 16) + ((uint16_t)msg[3] << 8) + msg[2];
437
438
439 if (dp->img_name == NULL) {
440 /* no file attached */
441 drv_debug(drv, PSTR("login failed: no file attached"));
442 return msg_cpm_result(subf, 0x03, res);
443 }
444
445 dp->flags |= DRV_FLG_OPEN;
446
447 /* send result*/
448 msg_cpm_result(subf, 0x00, res);
449 }
450
451
452 /*
453 db 2 ; disk command
454 ds 1 ; subcommand (login/read/write)
455 ds 1 ; @adrv (8 bits) +0
456 ds 1 ; @rdrv (8 bits) +1
457 ds 2 ; @trk (16 bits) +2
458 ds 2 ; @sect(16 bits) +4
459 ds 1 ; @cnt (8 bits) +6
460 ds 3 ; phys. transfer addr +7
461 */
462
463 #define ADRV 0
464 #define RDRV 1
465 #define TRK 2
466 #define SEC 4
467 #define CNT 6
468 #define ADDR 7
469
470 void do_msg_cpm_rw(uint8_t subf, int len, uint8_t * msg)
471 {
472 uint8_t drv;
473 struct cpm_drive_s *dp;
474 uint32_t addr;
475 uint32_t pos;
476 uint16_t track;
477 uint16_t sec;
478 uint8_t secs;
479 bool dowrite;
480 FRESULT res = 0;
481 uint8_t rc = 0;
482 bool buserr = 0;
483
484 if (len != 10) {
485 return msg_cpm_result(subf, 0x01, res);
486 }
487
488 drv = msg[RDRV];
489 if ( drv>= CONFIG_CPM_MAX_DRIVE) {
490 return msg_cpm_result(subf, 0x02, res);
491 }
492
493 dp = &drv_table[drv];
494
495 if (dp->img_name == NULL) {
496 /* no media */
497 return msg_cpm_result(subf, 0x06, res);
498 }
499
500 if (subf == 2) {
501 dowrite = true;
502 if (dp->opt & DRV_OPT_RO) {
503 return msg_cpm_result(subf, 0x05, res);
504 }
505 } else {
506 dowrite = false;
507 }
508
509 track = (uint16_t)(msg[TRK+1] << 8) + msg[TRK];
510 sec = (uint16_t)(msg[SEC+1] << 8) + msg[SEC];
511 secs = msg[CNT];
512 addr = ((uint32_t)msg[ADDR+2] << 16) + ((uint16_t)msg[ADDR+1] << 8) + msg[ADDR];
513
514
515 /* TODO: tracks per sector from dpb */
516 pos = (track * 8UL + sec) * CONFIG_CPM_BLOCK_SIZE;
517
518 drv_debug(drv, PSTR("%5s trk:%4d, sec: %d, pos: %.8lx, secs: %2d, addr: %.5lx"),
519 dowrite ? "write" : " read", track, sec, pos, secs, addr);
520
521 if (pos + secs * CONFIG_CPM_BLOCK_SIZE > CONFIG_CPM_DISKSIZE) {
522 drv_debug(drv, PSTR("access > DISKSIZE (%.8lx > %.8lx) aborted!"),
523 pos + secs * CONFIG_CPM_BLOCK_SIZE, CONFIG_CPM_DISKSIZE);
524 return msg_cpm_result(subf, 0x04, res);
525 }
526
527 res = f_lseek(&dp->fd, pos);
528
529 while (!res && secs--) {
530 unsigned int brw;
531 if (dowrite) {
532 if (!(z80_bus_cmd(Request) & ZST_ACQUIRED)) {
533 buserr = 1;
534 break;
535 } else {
536 z80_read_block(disk_buffer, addr, CONFIG_CPM_BLOCK_SIZE);
537 z80_bus_cmd(Release);
538 }
539 res = f_write(&dp->fd, disk_buffer, CONFIG_CPM_BLOCK_SIZE, &brw);
540 } else {
541 res = f_read(&dp->fd, disk_buffer, CONFIG_CPM_BLOCK_SIZE, &brw);
542 if (res == FR_OK) {
543 if (!(z80_bus_cmd(Request) & ZST_ACQUIRED)) {
544 buserr = 1;
545 break;
546 } else {
547 z80_write_block(disk_buffer, addr, CONFIG_CPM_BLOCK_SIZE);
548 z80_bus_cmd(Release);
549 }
550 }
551 }
552 if (brw != CONFIG_CPM_BLOCK_SIZE) {
553 drv_debug(drv, PSTR("short read or write: res: %d, bytes rd/wr: %u"), res, brw);
554 res = 64;
555 }
556 addr += CONFIG_CPM_BLOCK_SIZE;
557 }
558
559 if (dowrite && !res) {
560 dp->flags |= DRV_FLG_DIRTY;
561 bg_setstat(handle_cpm_drv_to, 1);
562 }
563
564 if (buserr) {
565 drv_debug(drv, PSTR("Bus timeout"));
566 rc = 0x03;
567 }
568
569 /* send result*/
570 msg_cpm_result(subf, rc, res);
571 }
572
573
574 const FLASH struct msg_item z80_messages[] =
575 {
576 { 0, /* fct nr. */
577 1, 3, /* sub fct nr. from, to */
578 do_msg_ini_memfifo},
579 { 1,
580 1, 1,
581 do_msg_char_out},
582 { 1,
583 2, 2,
584 do_msg_echo},
585 { 2,
586 0, 0,
587 do_msg_cpm_login},
588 { 2,
589 1, 2,
590 do_msg_cpm_rw},
591 { 3,
592 1, 1,
593 do_msg_get_timer},
594 { 3,
595 2, 3, /* 2: get, 3: set time and date */
596 do_msg_get_set_time},
597 { 0xff, /* end mark */
598 0, 0,
599 0},
600
601 };
602
603
604
605
606 void do_message(int len, uint8_t *msg)
607 {
608 uint8_t fct, sub_fct;
609 int_fast8_t i = 0;
610
611 if (len >= 2) {
612 fct = *msg++;
613 sub_fct = *msg++;
614 len -= 2;
615
616 while (fct != z80_messages[i].fct) {
617 if (z80_messages[i].fct == 0xff) {
618 DBG_P(1, "do_message: Unknown function: %i, %i\n",
619 fct, sub_fct);
620 return; /* TODO: unknown message # */
621 }
622
623 ++i;
624 }
625
626 while (fct == z80_messages[i].fct) {
627 if (sub_fct >= z80_messages[i].sub_min &&
628 sub_fct <= z80_messages[i].sub_max )
629 break;
630 ++i;
631 }
632
633 if (z80_messages[i].fct != fct) {
634 DBG_P(1, "do_message: Unknown sub function: %i, %i\n",
635 fct, sub_fct);
636 return; /* TODO: unknown message sub# */
637 }
638
639 (z80_messages[i].func)(sub_fct, len, msg);
640
641
642 } else {
643 /* TODO: error */
644 DBG_P(1, "do_message: to few arguments (%i); this shouldn't happen!\n", len);
645 }
646 }
647
648
649
650 #define CTRBUF_LEN 256
651
652 void check_msg_fifo(void)
653 {
654 int ch;
655 static int_fast8_t state;
656 static int msglen,idx;
657 static uint8_t buffer[CTRBUF_LEN];
658
659 while ((ch = z80_memfifo_getc(fifo_msgin)) >= 0) {
660 switch (state) {
661 case 0: /* wait for start of message */
662 if (ch == 0xAE) { /* TODO: magic number */
663 msglen = 0;
664 idx = 0;
665 state = 1;
666 }
667 break;
668 case 1: /* get msg len */
669 if (ch > 0 && ch <= CTRBUF_LEN) {
670 msglen = ch;
671 state = 2;
672 } else
673 state = 0;
674 break;
675 case 2: /* get message */
676 buffer[idx++] = ch;
677 if (idx == msglen) {
678 do_message(msglen, buffer);
679 state = 0;
680 }
681 break;
682 }
683 }
684 }
685
686
687 int msg_handling(int state)
688 {
689 bool pending;
690
691 ATOMIC_BLOCK(ATOMIC_FORCEON) {
692 pending = (Stat & S_MSG_PENDING) != 0;
693 Stat &= ~S_MSG_PENDING;
694 }
695
696 if (pending) {
697 uint8_t init_request;
698 z80_bus_cmd(Request);
699 init_request = z80_read(0x43);
700 z80_bus_cmd(Release);
701 if ( init_request != 0) {
702 /* Get address of fifo 0 */
703 z80_bus_cmd(Request);
704 uint32_t fifo_addr = z80_read(0x40) +
705 ((uint16_t) z80_read(0x40+1) << 8) +
706 ((uint32_t) z80_read(0x40+2) << 16);
707 z80_write(0x43, 0);
708 z80_bus_cmd(Release);
709
710 if (fifo_addr != 0) {
711 z80_memfifo_init(fifo_msgin, fifo_addr);
712 state = 1;
713 } else
714 state = 0;
715
716 } else {
717 check_msg_fifo();
718 }
719 }
720
721 return state;
722 }
723
724
725 static int handle_msg_handling;
726
727 void setup_z180_serv(void)
728 {
729
730 handle_msg_handling = bg_register(msg_handling, 0);
731 handle_cpm_drv_to = bg_register(cpm_drv_to, 0);
732 }
733
734 void restart_z180_serv(void)
735 {
736 z80_bus_cmd(Request);
737 z80_memset(0x40, 0, 4);
738 z80_bus_cmd(Release);
739
740 for (int i = 0; i < NUM_FIFOS; i++)
741 z80_memfifo_init(i, 0);
742 bg_setstat(handle_msg_handling, 0);
743
744 }
745
746 #if 0
747 /*--------------------------------------------------------------------------*/
748
749 const FLASH uint8_t iniprog[] = {
750 0xAF, // xor a
751 0xED, 0x39, 0x36, // out0 (rcr),a ;disable DRAM refresh
752 0x3E, 0x30, // ld a,030h
753 0xED, 0x39, 0x32 //out0 (dcntl),a ;0 mem, max i/0 wait states
754 };
755
756 const FLASH uint8_t sertest[] = {
757 0xAF, // xor a
758 0xED, 0x39, 0x36, // out0 (rcr),a ;disable DRAM refresh
759 0x3E, 0x30, // ld a,030h
760 0xED, 0x39, 0x32, // out0 (dcntl),a ;0 mem, max i/0 wait states
761 0x3E, 0x80, // ld a,M_MPBT ;no MP, PS=10, DR=16, SS=0
762 0xED, 0x39, 0x03, // out0 (cntlb1),a
763 0x3E, 0x64, // ld a,M_RE + M_TE + M_MOD2 ;
764 0xED, 0x39, 0x01, // out0 (cntla1),a
765 0x3E, 0x00, // ld a,0
766 0xED, 0x39, 0x05, // out0 (stat1),a ;Enable rx interrupts
767 0xED, 0x38, 0x05, //l0:in0 a,(stat1)
768 0xE6, 0x80, // and 80h
769 0x28, 0xF9, // jr z,l0
770 0xED, 0x00, 0x09, // in0 b,(rdr1)
771 0xED, 0x38, 0x05, //l1:in0 a,(stat1)
772 0xE6, 0x02, // and 02h
773 0x28, 0xF9, // jr z,l1
774 0xED, 0x01, 0x07, // out0 (tdr1),b
775 0x18, 0xEA, // jr l0
776 };
777
778 const FLASH uint8_t test1[] = {
779 0xAF, // xor a
780 0xED, 0x39, 0x36, // out0 (rcr),a ;disable DRAM refresh
781 0x3E, 0x30, // ld a,030h
782 0xED, 0x39, 0x32, // out0 (dcntl),a ;0 mem, max i/0 wait states
783 0x21, 0x1E, 0x00, // ld hl,dmclrt ;load DMA registers
784 0x06, 0x08, // ld b,dmct_e-dmclrt
785 0x0E, 0x20, // ld c,sar0l
786 0xED, 0x93, // otimr
787 0x3E, 0xC3, // ld a,0c3h ;dst +1, src +1, burst
788 0xED, 0x39, 0x31, // out0 (dmode),a ;
789 0x3E, 0x62, // ld a,062h ;enable dma0,
790 0xED, 0x39, 0x30, //cl_1: out0 (dstat),a ;copy 64k
791 0x18, 0xFB, // jr cl_1 ;
792 0x00, 0x00, //dmclrt: dw 0 ;src (inc)
793 0x00, // db 0 ;src
794 0x00, 0x00, // dw 0 ;dst (inc),
795 0x00, // db 0 ;dst
796 0x00, 0x00, // dw 0 ;count (64k)
797 };
798 #endif
Z180 Stamp Monitor