]>
cloudbase.mooo.com Git - z180-stamp.git/blob - avr/z180-serv.c
2 * (C) Copyright 2014 Leo C. <erbl259-lmu@yahoo.de>
4 * SPDX-License-Identifier: GPL-2.0
11 #include <util/atomic.h>
13 #include "background.h"
19 #include "print-utils.h"
20 #include "z180-serv.h"
26 #define DEBUG_CPM_SDIO 0 /* set to 1 to debug */
28 #define debug_cpmsd(fmt, args...) \
29 debug_cond(DEBUG_CPM_SDIO, fmt, ##args)
32 /*--------------------------------------------------------------------------*/
36 uint8_t sub_min
, sub_max
;
37 void (*func
)(uint8_t, int, uint8_t *);
40 uint32_t msg_to_addr(uint8_t *msg
)
56 static int msg_xmit_header(uint8_t func
, uint8_t subf
, int len
)
58 z80_memfifo_putc(fifo_msgout
, 0xAE);
59 z80_memfifo_putc(fifo_msgout
, len
+2);
60 z80_memfifo_putc(fifo_msgout
, func
);
61 z80_memfifo_putc(fifo_msgout
, subf
);
66 int msg_xmit(uint8_t func
, uint8_t subf
, int len
, uint8_t *msg
)
68 msg_xmit_header(func
, subf
, len
);
70 z80_memfifo_putc(fifo_msgout
, *msg
++);
75 void do_msg_ini_memfifo(uint8_t subf
, int len
, uint8_t * msg
)
79 z80_memfifo_init(subf
, msg_to_addr(msg
));
83 void do_msg_char_out(uint8_t subf
, int len
, uint8_t * msg
)
92 void do_msg_echo(uint8_t subf
, int len
, uint8_t * msg
)
97 msg_xmit(1, 3, len
, msg
);
101 void do_msg_get_timer(uint8_t subf
, int len
, uint8_t * msg
)
103 uint32_t time_ms
= (len
>= 4) ? *(uint32_t *) msg
: 0;
105 time_ms
= get_timer(time_ms
);
106 msg_xmit(3, subf
, sizeof(time_ms
), (uint8_t *) &time_ms
);
109 /* ---------------------------------------------------------------------------*/
111 #define CPM_DAY_OFFSET ((1978-1900) * 365 + 19) /* 19 leap years */
114 * Convert CP/M time stamp to a broken-down time structure
117 int mk_date_time (int len
, uint8_t *msg
, struct tm
*tmp
)
124 /* days since 2000-01-01 */
125 long days
= msg
[3] + (msg
[4] << 8) - 8036;
130 stamp
= days
* ONE_DAY
;
131 stamp
+= bcd2bin(msg
[0]);
132 stamp
+= bcd2bin(msg
[1]) * 60 ;
133 stamp
+= bcd2bin(msg
[2]) * 3600L;
134 gmtime_r(&stamp
, tmp
);
138 void mk_cpm_time(struct tm
*tmp
, uint8_t cpm_time
[5])
143 for (int year
=78; year
< tmp
->tm_year
; year
++) {
144 days
= days
+ 365 + (leap
== 0);
147 days
+= tmp
->tm_yday
;
149 cpm_time
[0] = bin2bcd(tmp
->tm_sec
);
150 cpm_time
[1] = bin2bcd(tmp
->tm_min
);
151 cpm_time
[2] = bin2bcd(tmp
->tm_hour
);
153 cpm_time
[4] = days
>> 8;
156 /* get/set cp/m time */
157 void do_msg_get_set_time(uint8_t subf
, int len
, uint8_t * msg
)
163 memset(cpm_time
, 0, ARRAY_SIZE(cpm_time
));
166 case 3: /* set date & time */
167 /* initialize t with current time */
171 /* insert new date & time */
172 if (mk_date_time (len
, msg
, &t
) != 0) {
173 my_puts_P(PSTR("## set_time: Bad date format\n"));
178 time
= mk_gmtime(&t
);
181 /* and write to RTC */
184 my_puts_P(PSTR("## set_time: Set date failed\n"));
186 my_puts_P(PSTR("## set_time: Get date failed\n"));
189 case 2: /* get date & time */
193 time
= mk_gmtime(&t
);
197 mk_cpm_time(&t
, cpm_time
);
199 my_puts_P(PSTR("## get_time: Get date failed\n"));
204 msg_xmit(3, subf
, sizeof(cpm_time
), cpm_time
);
207 /* ---------------------------------------------------------------------------*/
210 #define BLOCK_SIZE 512
211 //#define TPA_BASE 0x10000
212 //#define COMMON_BASE 0xC000
222 static uint8_t disk_buffer
[BLOCK_SIZE
];
223 static struct cpm_drive_s drv_table
[MAX_DRIVE
];
224 static int handle_cpm_drv_to
;
226 #define f_dirty(fp) ((fp)->fs->wflag != 0)
229 int cpm_drv_to(int state
)
243 if (get_timer(ts
) > 1000) {
244 for (uint_fast8_t i
=0; i
< MAX_DRIVE
; i
++) {
245 // if (&drv_table[i].fd && f_dirty(&drv_table[i].fd)) {
246 if (drv_table
[i
].dirty
) {
247 f_sync(&drv_table
[i
].fd
);
248 drv_table
[i
].dirty
= false;
249 debug_cpmsd("## %7lu f_sync: %c:\n", get_timer(0), i
+'A');
259 void msg_cpm_result(uint8_t subf
, uint8_t rc
, int res
)
261 uint8_t result_msg
[3];
268 result_msg
[2] = res
>> 8;
271 debug_cpmsd("###%7lu error rc: %.02x, res: %d\n", get_timer(0), rc
, res
);
274 msg_xmit(2, subf
, sizeof(result_msg
), result_msg
);
279 ds 1 ; subcommand (login/read/write)
280 ds 1 ; @adrv (8 bits) +0
281 ds 1 ; @rdrv (8 bits) +1
282 ds 3 ; @xdph (24 bits) +2
285 void do_msg_cpm_login(uint8_t subf
, int len
, uint8_t * msg
)
294 if (len
!= 5) { /* TODO: check adrv, rdrv */
295 return msg_cpm_result(subf
, 0x01, res
);
298 debug_cpmsd("\n## %7lu login: %c:\n", get_timer(0), msg
[0]+'A');
302 if ( drv
>= MAX_DRIVE
) {
303 return msg_cpm_result(subf
, 0x02, res
);
307 uint32_t dph = ((uint32_t)msg[4] << 16) + ((uint16_t)msg[3] << 8) + msg[2];
310 if (drv_table
[drv
].img_name
!= NULL
) {
311 debug_cpmsd("## %7lu close: '%s'\n", get_timer(0), drv_table
[drv
].img_name
);
312 f_close(&drv_table
[drv
].fd
);
313 drv_table
[drv
].dirty
= false;
314 free(drv_table
[drv
].img_name
);
315 drv_table
[drv
].img_name
= NULL
;
318 strcpy_P((char *)disk_buffer
, PSTR("dsk0"));
319 disk_buffer
[3] = msg
[0] + '0';
320 if (((np
= getenv_char((char*)disk_buffer
)) == NULL
) ||
321 ((drv_table
[drv
].img_name
= strdup(np
)) == NULL
)) {
322 return msg_cpm_result(subf
, 0x03, res
);
326 res
= f_open(&drv_table
[drv
].fd
, drv_table
[drv
].img_name
,
329 debug_cpmsd("## %7lu open: '%s', (env: '%s'), res: %d\n", get_timer(0),
330 drv_table
[drv
].img_name
, disk_buffer
, res
);
333 msg_cpm_result(subf
, 0x00, res
);
339 ds 1 ; subcommand (login/read/write)
340 ds 1 ; @adrv (8 bits) +0
341 ds 1 ; @rdrv (8 bits) +1
342 ds 2 ; @trk (16 bits) +2
343 ds 2 ; @sect(16 bits) +4
344 ds 1 ; @cnt (8 bits) +6
345 ds 3 ; phys. transfer addr +7
355 void do_msg_cpm_rw(uint8_t subf
, int len
, uint8_t * msg
)
361 bool dowrite
= (subf
== 2);
366 if (len
!= 10) { /* TODO: check adrv, rdrv */
367 return msg_cpm_result(subf
, 0x01, res
);
371 if ( drv
>= MAX_DRIVE
) {
372 return msg_cpm_result(subf
, 0x02, res
);
376 addr
= ((uint32_t)msg
[ADDR
+2] << 16) + ((uint16_t)msg
[ADDR
+1] << 8) + msg
[ADDR
];
379 /* TODO: tracks per sector from dpb */
380 pos
= (((uint16_t)(msg
[TRK
+1] << 8) + msg
[TRK
]) * 8
381 + ((uint32_t)(msg
[SEC
+1] << 8) + msg
[SEC
])) * BLOCK_SIZE
;
383 debug_cpmsd("## %7lu cpm_rw: %s %c: trk:%4d, sec: %d, pos: %.8lx, secs: %2d, "
384 "addr: %.5lx\n", get_timer(0), dowrite
? "write" : " read",
385 msg
[ADRV
]+'A', ((uint16_t)(msg
[TRK
+1] << 8) + msg
[TRK
]), msg
[SEC
],
386 pos
, msg
[CNT
], addr
);
388 res
= f_lseek(&drv_table
[drv
].fd
, pos
);
389 while (!res
&& secs
--) {
392 if (!(z80_bus_cmd(Request
) & ZST_ACQUIRED
)) {
396 z80_read_block(disk_buffer
, addr
, BLOCK_SIZE
);
397 z80_bus_cmd(Release
);
399 res
= f_write(&drv_table
[drv
].fd
, disk_buffer
, BLOCK_SIZE
, &brw
);
401 res
= f_read(&drv_table
[drv
].fd
, disk_buffer
, BLOCK_SIZE
, &brw
);
402 if (res
== FR_OK
&& brw
== BLOCK_SIZE
) {
403 if (!(z80_bus_cmd(Request
) & ZST_ACQUIRED
)) {
407 z80_write_block(disk_buffer
, addr
, BLOCK_SIZE
);
408 z80_bus_cmd(Release
);
413 if (brw
!= BLOCK_SIZE
) {
414 debug_cpmsd("## %7lu f_read res: %d, bytes rd/wr: %u\n", get_timer(0), res
, brw
);
415 dump_ram(disk_buffer
, 0, 64, "Read Data");
422 if (dowrite
&& !res
) {
423 // res = f_sync(&drv_table[drv].fd);
424 drv_table
[drv
].dirty
= true;
425 bg_setstat(handle_cpm_drv_to
, 1);
430 debug_cpmsd("Bus timeout\n");
435 msg_cpm_result(subf
, rc
, res
);
439 const FLASH
struct msg_item z80_messages
[] =
442 1, 3, /* sub fct nr. from, to */
460 2, 3, /* 2: get, 3: set time and date */
461 do_msg_get_set_time
},
462 { 0xff, /* end mark */
471 void do_message(int len
, uint8_t *msg
)
473 uint8_t fct
, sub_fct
;
481 while (fct
!= z80_messages
[i
].fct
) {
482 if (z80_messages
[i
].fct
== 0xff) {
483 DBG_P(1, "do_message: Unknown function: %i, %i\n",
485 return; /* TODO: unknown message # */
491 while (fct
== z80_messages
[i
].fct
) {
492 if (sub_fct
>= z80_messages
[i
].sub_min
&&
493 sub_fct
<= z80_messages
[i
].sub_max
)
498 if (z80_messages
[i
].fct
!= fct
) {
499 DBG_P(1, "do_message: Unknown sub function: %i, %i\n",
501 return; /* TODO: unknown message sub# */
504 (z80_messages
[i
].func
)(sub_fct
, len
, msg
);
509 DBG_P(1, "do_message: to few arguments (%i); this shouldn't happen!\n", len
);
515 #define CTRBUF_LEN 256
517 void check_msg_fifo(void)
520 static int_fast8_t state
;
521 static int msglen
,idx
;
522 static uint8_t buffer
[CTRBUF_LEN
];
524 while ((ch
= z80_memfifo_getc(fifo_msgin
)) >= 0) {
526 case 0: /* wait for start of message */
527 if (ch
== 0xAE) { /* TODO: magic number */
533 case 1: /* get msg len */
534 if (ch
> 0 && ch
<= CTRBUF_LEN
) {
540 case 2: /* get message */
543 do_message(msglen
, buffer
);
552 int msg_handling(int state
)
556 ATOMIC_BLOCK(ATOMIC_FORCEON
) {
557 pending
= (Stat
& S_MSG_PENDING
) != 0;
558 Stat
&= ~S_MSG_PENDING
;
562 uint8_t init_request
;
563 z80_bus_cmd(Request
);
564 init_request
= z80_read(0x43);
565 z80_bus_cmd(Release
);
566 if ( init_request
!= 0) {
567 /* Get address of fifo 0 */
568 z80_bus_cmd(Request
);
569 uint32_t fifo_addr
= z80_read(0x40) +
570 ((uint16_t) z80_read(0x40+1) << 8) +
571 ((uint32_t) z80_read(0x40+2) << 16);
573 z80_bus_cmd(Release
);
575 if (fifo_addr
!= 0) {
576 z80_memfifo_init(fifo_msgin
, fifo_addr
);
590 static int handle_msg_handling
;
592 void setup_z180_serv(void)
595 handle_msg_handling
= bg_register(msg_handling
, 0);
596 handle_cpm_drv_to
= bg_register(cpm_drv_to
, 0);
599 void restart_z180_serv(void)
601 z80_bus_cmd(Request
);
602 z80_memset(0x40, 0, 4);
603 z80_bus_cmd(Release
);
605 for (int i
= 0; i
< NUM_FIFOS
; i
++)
606 z80_memfifo_init(i
, 0);
607 bg_setstat(handle_msg_handling
, 0);
612 /*--------------------------------------------------------------------------*/
614 const FLASH
uint8_t iniprog
[] = {
616 0xED, 0x39, 0x36, // out0 (rcr),a ;disable DRAM refresh
617 0x3E, 0x30, // ld a,030h
618 0xED, 0x39, 0x32 //out0 (dcntl),a ;0 mem, max i/0 wait states
621 const FLASH
uint8_t sertest
[] = {
623 0xED, 0x39, 0x36, // out0 (rcr),a ;disable DRAM refresh
624 0x3E, 0x30, // ld a,030h
625 0xED, 0x39, 0x32, // out0 (dcntl),a ;0 mem, max i/0 wait states
626 0x3E, 0x80, // ld a,M_MPBT ;no MP, PS=10, DR=16, SS=0
627 0xED, 0x39, 0x03, // out0 (cntlb1),a
628 0x3E, 0x64, // ld a,M_RE + M_TE + M_MOD2 ;
629 0xED, 0x39, 0x01, // out0 (cntla1),a
630 0x3E, 0x00, // ld a,0
631 0xED, 0x39, 0x05, // out0 (stat1),a ;Enable rx interrupts
632 0xED, 0x38, 0x05, //l0:in0 a,(stat1)
633 0xE6, 0x80, // and 80h
634 0x28, 0xF9, // jr z,l0
635 0xED, 0x00, 0x09, // in0 b,(rdr1)
636 0xED, 0x38, 0x05, //l1:in0 a,(stat1)
637 0xE6, 0x02, // and 02h
638 0x28, 0xF9, // jr z,l1
639 0xED, 0x01, 0x07, // out0 (tdr1),b
643 const FLASH
uint8_t test1
[] = {
645 0xED, 0x39, 0x36, // out0 (rcr),a ;disable DRAM refresh
646 0x3E, 0x30, // ld a,030h
647 0xED, 0x39, 0x32, // out0 (dcntl),a ;0 mem, max i/0 wait states
648 0x21, 0x1E, 0x00, // ld hl,dmclrt ;load DMA registers
649 0x06, 0x08, // ld b,dmct_e-dmclrt
650 0x0E, 0x20, // ld c,sar0l
652 0x3E, 0xC3, // ld a,0c3h ;dst +1, src +1, burst
653 0xED, 0x39, 0x31, // out0 (dmode),a ;
654 0x3E, 0x62, // ld a,062h ;enable dma0,
655 0xED, 0x39, 0x30, //cl_1: out0 (dstat),a ;copy 64k
656 0x18, 0xFB, // jr cl_1 ;
657 0x00, 0x00, //dmclrt: dw 0 ;src (inc)
659 0x00, 0x00, // dw 0 ;dst (inc),
661 0x00, 0x00, // dw 0 ;count (64k)