4 #define u8 unsigned char
5 #define u16 unsigned short
6 #define u32 unsigned int
8 #define noinline __attribute__((noinline))
9 #define _packed __attribute__((packed))
11 #define ARRAY_SIZE(x) (sizeof(x) / sizeof(x[0]))
18 #define GFX_DATA_PORT 0xC00000
19 #define GFX_CTRL_PORT 0xC00004
21 #define TILE_MEM_END 0xB000
24 #define TILE_FONT_BASE (TILE_MEM_END / 32 - FONT_LEN)
26 /* note: using ED menu's layout here.. */
27 #define WPLANE (TILE_MEM_END + 0x0000)
28 #define HSCRL (TILE_MEM_END + 0x0800)
29 #define SLIST (TILE_MEM_END + 0x0C00)
30 #define APLANE (TILE_MEM_END + 0x1000)
31 #define BPLANE (TILE_MEM_END + 0x3000)
34 *((volatile u8 *) (a))
36 *((volatile u16 *) (a))
38 *((volatile u32 *) (a))
39 #define write16(a, d) \
40 *((volatile u16 *) (a)) = (d)
41 #define write32(a, d) \
42 *((volatile u32 *) (a)) = (d)
44 #define GFX_WRITE_VRAM_ADDR(adr) \
45 (((0x4000 | ((adr) & 0x3FFF)) << 16) | ((adr) >> 14) | 0x00)
46 #define GFX_WRITE_VSRAM_ADDR(adr) \
47 (((0x4000 | ((adr) & 0x3FFF)) << 16) | ((adr) >> 14) | 0x10)
60 #define LEFT_BORDER 1 /* lame TV */
65 static noinline void VDP_drawTextML(const char *str, u16 plane_base,
68 const u8 *src = (const u8 *)str;
70 int max_len = 40 - LEFT_BORDER;
76 for (len = 0; str[len] && len < max_len; len++)
78 if (len > (PLANE_W - x))
81 addr = plane_base + ((x + (PLANE_W * y)) << 1);
82 write32(GFX_CTRL_PORT, GFX_WRITE_VRAM_ADDR(addr));
85 write16(GFX_DATA_PORT,
86 basetile | ((*src++) - 32 + TILE_FONT_BASE));
90 static int printf_ypos;
92 static void printf_line(int x, const char *buf)
97 VDP_drawTextML(buf, APLANE, x, printf_ypos++ & (PLANE_H - 1));
99 if (printf_ypos >= CSCREEN_H) {
100 /* clear next line */
102 addr += (PLANE_W * (printf_ypos & (PLANE_H - 1))) << 1;
103 write32(GFX_CTRL_PORT, GFX_WRITE_VRAM_ADDR(addr));
104 for (i = 0; i < 40 / 2; i++)
105 write32(GFX_DATA_PORT, 0);
108 write32(GFX_CTRL_PORT, GFX_WRITE_VSRAM_ADDR(0));
109 write16(GFX_DATA_PORT, (printf_ypos - CSCREEN_H + 1) * 8);
113 #define PRINTF_LEN 40
115 static noinline int printf(const char *fmt, ...)
117 static const char hexchars[] = "0123456789abcdef";
118 static int printf_xpos;
119 char c, buf[PRINTF_LEN + 11 + 1];
128 for (d = 0; *fmt; ) {
139 printf_line(printf_xpos, buf);
155 while ('1' <= *fmt && *fmt <= '9') {
156 fwidth = fwidth * 10 + *fmt - '0';
166 ival = va_arg(ap, int);
171 for (i = 1000000000; i >= 10; i /= 10)
174 for (; i >= 10; i /= 10) {
175 buf[d++] = '0' + ival / i;
178 buf[d++] = '0' + ival;
181 uval = va_arg(ap, int);
182 while (fwidth > 1 && uval < (1 << (fwidth - 1) * 4)) {
183 buf[d++] = prefix0 ? '0' : ' ';
186 for (j = 1; j < 8 && uval >= (1 << j * 4); j++)
188 for (j--; j >= 0; j--)
189 buf[d++] = hexchars[(uval >> j * 4) & 0x0f];
192 s = va_arg(ap, char *);
193 while (*s && d < PRINTF_LEN)
197 // don't handle, for now
208 VDP_drawTextML(buf, APLANE, printf_xpos,
209 printf_ypos & (PLANE_H - 1));
216 static const char *exc_names[] = {
221 "Illegal Instruction",
225 "Privilege Violation", /* 8 8 */
227 "Line 1010 Emulator",
228 "Line 1111 Emulator",
232 "Uninitialized Interrupt",
241 "Spurious Interrupt", /* 18 24 */
254 u16 ecxnum; // from handler
266 } bae _packed; // bus/address error frame
270 int xtttt(void) { return sizeof(struct exc_frame); }
272 void exception(const struct exc_frame *f)
276 while (read16(GFX_CTRL_PORT) & 2)
278 write16(GFX_CTRL_PORT, 0x8000 | (VDP_MODE1 << 8) | 0x04);
279 write16(GFX_CTRL_PORT, 0x8000 | (VDP_MODE2 << 8) | 0x44);
281 write32(GFX_CTRL_PORT, GFX_WRITE_VSRAM_ADDR(0));
282 write16(GFX_DATA_PORT,
283 printf_ypos >= CSCREEN_H ?
284 (printf_ypos - CSCREEN_H + 1) * 8 : 0);
286 printf("exception %i ", f->ecxnum);
287 if (f->ecxnum < ARRAY_SIZE(exc_names) && exc_names[f->ecxnum] != NULL)
288 printf("(%s)", exc_names[f->ecxnum]);
290 printf(" (%s)", (f->bae.fc & 0x10) ? "r" : "w");
294 printf(" PC: %08x SR: %04x \n", f->bae.pc, f->bae.sr);
295 printf("addr: %08x IR: %04x FC: %02x \n",
296 f->bae.addr, f->bae.ir, f->bae.fc);
299 printf(" PC: %08x SR: %04x \n", f->g.pc, f->g.sr);
301 for (i = 0; i < 8; i++)
302 printf(" D%d: %08x A%d: %08x \n", i, f->dr[i], i, f->ar[i]);
310 static int usb_read_while_ready(OsRoutine *ed,
311 void *buf_, unsigned int maxlen)
316 while (ed->usbRdReady() && r < maxlen)
317 buf[r++] = ed->usbReadByte();
322 static int usb_read(OsRoutine *ed, void *buf_, unsigned int maxlen)
328 buf[r++] = ed->usbReadByte();
333 static int usb_write(OsRoutine *ed, const void *buf_, unsigned int maxlen)
335 const u8 *buf = buf_;
339 ed->usbWriteByte(buf[r++]);
345 * TH = 1 : ?1CBRLDU 3-button pad return value (not read)
346 * TH = 0 : ?0SA00DU 3-button pad return value
347 * TH = 1 : ?1CBRLDU 3-button pad return value
348 * TH = 0 : ?0SA0000 D3-0 are forced to '0'
349 * TH = 1 : ?1CBMXYZ Extra buttons returned in D3-0
350 * TH = 0 : ?0SA1111 D3-0 are forced to '1'
352 static void test_joy_latency(int *min_out, int *max_out)
359 for (i = 0; i < 64; i++) {
360 read_joy_responses(rbuf);
362 for (b = 0; b < 8 * 4; b++) {
364 e = (b & 0x08) ? 0x0c : 0;
365 if ((rbuf[b] & 0x0c) == e) {
374 /* print out the last test */
375 for (b = 0; b < 8 * 5; b++) {
376 printf(" %02x", rbuf[b]);
386 static int do_test(OsRoutine *ed, u8 b3)
388 int min = 0, max = 0;
395 printf("reading..\n");
396 test_joy_read_log((void *)0x200000, 0x20000, 1);
397 //test_joy_read_log((void *)0xff0200, 0x0f000, 1);
401 printf("reading w/vsync..\n");
402 test_joy_read_log_vsync((void *)0x200000, 3600 * 2);
407 printf("3btn_idle test..\n");
408 p = (void *)0x200000;
410 test_joy_read_log(p, len, b3 == '3');
411 for (i = 0; i < len; i++) {
412 static const u8 e[2] = { 0x33, 0x7f };
415 printf("%06x: bad: %02x %02x\n", &p[i], p[i], v);
420 printf("3btn_idle data test..\n");
421 p = (void *)0x200000;
423 for (i = 0; i < len; i++) {
424 static const u8 e[2] = { 0x33, 0x7f };
427 printf("%06x: bad: %02x %02x\n", &p[i], p[i], v);
432 seed = read8(0xC00009);
433 printf("testing, seed=%02x\n", seed);
434 p = (void *)0x200000;
436 test_byte_write(p, len, seed);
437 for (t = 0; t < 2; t++) {
438 for (i = 0; i < len; i++) {
441 printf("%06x: bad: %02x %02x\n", &p[i], p[i], v);
443 printf("done (%d)\n", t);
447 test_joy_latency(&min, &max);
448 printf("latency: %d - %d\n\n", min, max);
457 static int do_custom(OsRoutine *ed, u8 b3)
467 usb_read(ed, &d, sizeof(d));
468 ed->usbWriteByte('k');
469 printf("sending %i bytes from %06x..\n", d.size, d.addr);
470 usb_write(ed, (void *)d.addr, d.size);
488 static int do_run(OsRoutine *ed, u8 b3, int tas_sync)
495 mapper = MTYPE_SMS | (7 << 4);
516 printf("starting mapper %x..\n", mapper);
518 while (read16(GFX_CTRL_PORT) & 2)
520 ed->VDP_setReg(VDP_MODE1, 0x04);
521 ed->VDP_setReg(VDP_MODE2, 0x44);
523 ed->usbWriteByte('k');
525 run_game(mapper, tas_sync);
526 /* should not get here.. */
538 ed = (OsRoutine *) *(u32 *)0x1A0;
539 ed->memInitDmaCode();
541 ed->VDP_setReg(VDP_MODE1, 0x04);
542 ed->VDP_setReg(VDP_MODE2, 0x64);
543 ed->VDP_setReg(VDP_AUTOINC, 2);
544 ed->VDP_setReg(VDP_SCROLLSZ, 0x01);
546 /* clear name tables */
547 write32(GFX_CTRL_PORT, GFX_WRITE_VRAM_ADDR(APLANE));
548 for (i = 0; i < PLANE_W * PLANE_H / 2; i++)
549 write32(GFX_DATA_PORT, 0);
551 write32(GFX_CTRL_PORT, GFX_WRITE_VRAM_ADDR(BPLANE));
552 for (i = 0; i < PLANE_W * PLANE_H / 2; i++)
553 write32(GFX_DATA_PORT, 0);
556 write32(GFX_CTRL_PORT, GFX_WRITE_VSRAM_ADDR(0));
557 write32(GFX_DATA_PORT, 0);
559 /* note: relying on ED menu's font setup here.. */
562 printf("version: %02x, start_hvc: %04x\n",
563 read8(0xa10001), start_hvc);
564 printf("ED os/fw: %d/%d\n\n", ed->osGetOsVersion(),
565 ed->osGetFirmVersion());
568 if (!ed->usbRdReady()) {
569 /* note: stop corrupts SDRAM */
570 //asm volatile("stop #0x2000");
572 "move.l #1000/10, %0\n"
573 "0: dbra %0, 0b\n" : "=r" (i) :: "cc");
577 buf[0] = ed->usbReadByte();
585 /* note: OS uses Twofgsr */
586 buf[1] = ed->usbReadByte();
589 ed->usbWriteByte('k');
592 len = ed->usbReadByte() * 128;
593 printf("loading %d bytes.. ", len * 512);
594 ed->usbWriteByte('k');
595 ed->usbReadDma((void *)0x200000, len);
596 ed->usbWriteByte('d');
601 buf[2] = ed->usbReadByte();
602 ret = do_run(ed, buf[2], buf[1] == 'R');
607 printf("run returned??\n");
612 buf[2] = ed->usbReadByte();
613 ret = do_test(ed, buf[2]);
618 ed->usbWriteByte('k');
621 buf[2] = ed->usbReadByte();
622 ret = do_custom(ed, buf[2]);
629 ed->usbWriteByte('k');
639 ret = usb_read_while_ready(ed, buf + d, sizeof(buf) - d);
641 printf("bad cmd: %s\n", buf);
642 /* consume all remaining data */
643 while (ed->usbRdReady())
644 usb_read_while_ready(ed, buf, sizeof(buf));
646 ed->usbWriteByte('b');
652 // vim:ts=4:sw=4:expandtab