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root/cebix/SheepShaver/src/rom_patches.cpp
Revision: 1.26
Committed: 2004-02-15T17:20:36Z (20 years, 8 months ago) by gbeauche
Branch: MAIN
Changes since 1.25: +2 -13 lines
Log Message: 
Now that we have AltiVec emulation, we can pretend for a G4 processor
Also make sure to actually fix PVR code for 7400

File Contents

# Content
1 /*
2 * rom_patches.cpp - ROM patches
3 *
4 * SheepShaver (C) 1997-2004 Christian Bauer and Marc Hellwig
5 *
6 * This program is free software; you can redistribute it and/or modify
7 * it under the terms of the GNU General Public License as published by
8 * the Free Software Foundation; either version 2 of the License, or
9 * (at your option) any later version.
10 *
11 * This program is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 * GNU General Public License for more details.
15 *
16 * You should have received a copy of the GNU General Public License
17 * along with this program; if not, write to the Free Software
18 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
19 */
20
21 /*
22 * TODO:
23 * IRQ_NEST must be handled atomically
24 * Don't use r1 in extra routines
25 */
26
27 #include <string.h>
28
29 #include "sysdeps.h"
30 #include "rom_patches.h"
31 #include "main.h"
32 #include "prefs.h"
33 #include "cpu_emulation.h"
34 #include "emul_op.h"
35 #include "xlowmem.h"
36 #include "sony.h"
37 #include "disk.h"
38 #include "cdrom.h"
39 #include "audio.h"
40 #include "audio_defs.h"
41 #include "serial.h"
42 #include "macos_util.h"
43 #include "thunks.h"
44
45 #define DEBUG 0
46 #include "debug.h"
47
48
49 // 68k breakpoint address
50 //#define M68K_BREAK_POINT 0x29e0 // BootMe
51 //#define M68K_BREAK_POINT 0x2a1e // Boot block code returned
52 //#define M68K_BREAK_POINT 0x3150 // CritError
53 //#define M68K_BREAK_POINT 0x187ce // Unimplemented trap
54
55 // PowerPC breakpoint address
56 //#define POWERPC_BREAK_POINT 0x36e6c0 // 68k emulator start
57
58 #define DISABLE_SCSI 1
59
60
61 // Other ROM addresses
62 const uint32 CHECK_LOAD_PATCH_SPACE = 0x2fcf00;
63 const uint32 PUT_SCRAP_PATCH_SPACE = 0x2fcf80;
64 const uint32 GET_SCRAP_PATCH_SPACE = 0x2fcfc0;
65 const uint32 ADDR_MAP_PATCH_SPACE = 0x2fd100;
66
67 // Global variables
68 int ROMType; // ROM type
69 static uint32 sony_offset; // Offset of .Sony driver resource
70
71 // Prototypes
72 static bool patch_nanokernel_boot(void);
73 static bool patch_68k_emul(void);
74 static bool patch_nanokernel(void);
75 static bool patch_68k(void);
76
77
78 // Decode LZSS data
79 static void decode_lzss(const uint8 *src, uint8 *dest, int size)
80 {
81 char dict[0x1000];
82 int run_mask = 0, dict_idx = 0xfee;
83 for (;;) {
84 if (run_mask < 0x100) {
85 // Start new run
86 if (--size < 0)
87 break;
88 run_mask = *src++ | 0xff00;
89 }
90 bool bit = run_mask & 1;
91 run_mask >>= 1;
92 if (bit) {
93 // Verbatim copy
94 if (--size < 0)
95 break;
96 int c = *src++;
97 dict[dict_idx++] = c;
98 *dest++ = c;
99 dict_idx &= 0xfff;
100 } else {
101 // Copy from dictionary
102 if (--size < 0)
103 break;
104 int idx = *src++;
105 if (--size < 0)
106 break;
107 int cnt = *src++;
108 idx |= (cnt << 4) & 0xf00;
109 cnt = (cnt & 0x0f) + 3;
110 while (cnt--) {
111 char c = dict[idx++];
112 dict[dict_idx++] = c;
113 *dest++ = c;
114 idx &= 0xfff;
115 dict_idx &= 0xfff;
116 }
117 }
118 }
119 }
120
121 // Decode parcels of ROM image (MacOS 9.X and even earlier)
122 void decode_parcels(const uint8 *src, uint8 *dest, int size)
123 {
124 uint32 parcel_offset = 0x14;
125 D(bug("Offset Type Name\n"));
126 while (parcel_offset != 0) {
127 const uint32 *parcel_data = (uint32 *)(src + parcel_offset);
128 uint32 next_offset = ntohl(parcel_data[0]);
129 uint32 parcel_type = ntohl(parcel_data[1]);
130 D(bug("%08x %c%c%c%c %s\n", parcel_offset,
131 (parcel_type >> 24) & 0xff, (parcel_type >> 16) & 0xff,
132 (parcel_type >> 8) & 0xff, parcel_type & 0xff, &parcel_data[6]));
133 if (parcel_type == FOURCC('r','o','m',' ')) {
134 uint32 lzss_offset = ntohl(parcel_data[2]);
135 uint32 lzss_size = ((uintptr)src + next_offset) - ((uintptr)parcel_data + lzss_offset);
136 decode_lzss((uint8 *)parcel_data + lzss_offset, dest, lzss_size);
137 }
138 parcel_offset = next_offset;
139 }
140 }
141
142
143 /*
144 * Decode ROM image, 4 MB plain images or NewWorld images
145 */
146
147 bool DecodeROM(uint8 *data, uint32 size)
148 {
149 if (size == ROM_SIZE) {
150 // Plain ROM image
151 memcpy((void *)ROM_BASE, data, ROM_SIZE);
152 return true;
153 }
154 else if (strncmp((char *)data, "<CHRP-BOOT>", 11) == 0) {
155 // CHRP compressed ROM image
156 uint32 image_offset, image_size;
157 bool decode_info_ok = false;
158
159 char *s = strstr((char *)data, "constant lzss-offset");
160 if (s != NULL) {
161 // Probably a plain LZSS compressed ROM image
162 if (sscanf(s - 7, "%06x", &image_offset) == 1) {
163 s = strstr((char *)data, "constant lzss-size");
164 if (s != NULL && (sscanf(s - 7, "%06x", &image_size) == 1))
165 decode_info_ok = true;
166 }
167 }
168 else {
169 // Probably a MacOS 9.2.x ROM image
170 s = strstr((char *)data, "constant parcels-offset");
171 if (s != NULL) {
172 if (sscanf(s - 7, "%06x", &image_offset) == 1) {
173 s = strstr((char *)data, "constant parcels-size");
174 if (s != NULL && (sscanf(s - 7, "%06x", &image_size) == 1))
175 decode_info_ok = true;
176 }
177 }
178 }
179
180 // No valid information to decode the ROM found?
181 if (!decode_info_ok)
182 return false;
183
184 // Check signature, this could be a parcels-based ROM image
185 uint32 rom_signature = ntohl(*(uint32 *)(data + image_offset));
186 if (rom_signature == FOURCC('p','r','c','l')) {
187 D(bug("Offset of parcels data: %08x\n", image_offset));
188 D(bug("Size of parcels data: %08x\n", image_size));
189 decode_parcels(data + image_offset, (uint8 *)ROM_BASE, image_size);
190 }
191 else {
192 D(bug("Offset of compressed data: %08x\n", image_offset));
193 D(bug("Size of compressed data: %08x\n", image_size));
194 decode_lzss(data + image_offset, (uint8 *)ROM_BASE, image_size);
195 }
196 return true;
197 }
198 return false;
199 }
200
201
202 /*
203 * Search ROM for byte string, return ROM offset (or 0)
204 */
205
206 static uint32 find_rom_data(uint32 start, uint32 end, const uint8 *data, uint32 data_len)
207 {
208 uint32 ofs = start;
209 while (ofs < end) {
210 if (!memcmp((void *)(ROM_BASE + ofs), data, data_len))
211 return ofs;
212 ofs++;
213 }
214 return 0;
215 }
216
217
218 /*
219 * Search ROM resource by type/ID, return ROM offset of resource data
220 */
221
222 static uint32 rsrc_ptr = 0;
223
224 // id = 4711 means "find any ID"
225 static uint32 find_rom_resource(uint32 s_type, int16 s_id = 4711, bool cont = false)
226 {
227 uint32 *lp = (uint32 *)(ROM_BASE + 0x1a);
228 uint32 x = ntohl(*lp);
229 uint8 *bp = (uint8 *)(ROM_BASE + x + 5);
230 uint32 header_size = *bp;
231
232 if (!cont)
233 rsrc_ptr = x;
234 else if (rsrc_ptr == 0)
235 return 0;
236
237 for (;;) {
238 lp = (uint32 *)(ROM_BASE + rsrc_ptr);
239 rsrc_ptr = ntohl(*lp);
240 if (rsrc_ptr == 0)
241 break;
242
243 rsrc_ptr += header_size;
244
245 lp = (uint32 *)(ROM_BASE + rsrc_ptr + 4);
246 uint32 data = ntohl(*lp); lp++;
247 uint32 type = ntohl(*lp); lp++;
248 int16 id = ntohs(*(int16 *)lp);
249 if (type == s_type && (id == s_id || s_id == 4711))
250 return data;
251 }
252 return 0;
253 }
254
255
256 /*
257 * Search offset of A-Trap routine in ROM
258 */
259
260 static uint32 find_rom_trap(uint16 trap)
261 {
262 uint32 *lp = (uint32 *)(ROM_BASE + 0x22);
263 lp = (uint32 *)(ROM_BASE + ntohl(*lp));
264
265 if (trap > 0xa800)
266 return ntohl(lp[trap & 0x3ff]);
267 else
268 return ntohl(lp[(trap & 0xff) + 0x400]);
269 }
270
271
272 /*
273 * Return target of branch instruction specified at ADDR, or 0 if
274 * there is no such instruction
275 */
276
277 static uint32 powerpc_branch_target(uintptr addr)
278 {
279 uint32 opcode = ntohl(*(uint32 *)addr);
280 uint32 primop = opcode >> 26;
281 uint32 target = 0;
282
283 if (primop == 18) { // Branch
284 target = opcode & 0x3fffffc;
285 if (target & 0x2000000)
286 target |= 0xfc000000;
287 if ((opcode & 2) == 0)
288 target += addr;
289 }
290 else if (primop == 16) { // Branch Conditional
291 target = (int32)(int16)(opcode & 0xfffc);
292 if ((opcode & 2) == 0)
293 target += addr;
294 }
295 return target;
296 }
297
298
299 /*
300 * Search ROM for instruction branching to target address, return 0 if none found
301 */
302
303 static uint32 find_rom_powerpc_branch(uint32 start, uint32 end, uint32 target)
304 {
305 for (uint32 addr = start; addr < end; addr += 4) {
306 if (powerpc_branch_target(ROM_BASE + addr) == ROM_BASE + target)
307 return addr;
308 }
309 return 0;
310 }
311
312
313 /*
314 * Check that requested ROM patch space is really available
315 */
316
317 static bool check_rom_patch_space(uint32 base, uint32 size)
318 {
319 size = (size + 3) & -4;
320 for (int i = 0; i < size; i += 4) {
321 uint32 x = ntohl(*(uint32 *)(ROM_BASE + base + i));
322 if (x != 0x6b636b63 && x != 0)
323 return false;
324 }
325 return true;
326 }
327
328
329 /*
330 * List of audio sifters installed in ROM and System file
331 */
332
333 struct sift_entry {
334 uint32 type;
335 int16 id;
336 };
337 static sift_entry sifter_list[32];
338 static int num_sifters;
339
340 void AddSifter(uint32 type, int16 id)
341 {
342 if (FindSifter(type, id))
343 return;
344 D(bug(" adding sifter type %c%c%c%c (%08x), id %d\n", type >> 24, (type >> 16) & 0xff, (type >> 8) & 0xff, type & 0xff, type, id));
345 sifter_list[num_sifters].type = type;
346 sifter_list[num_sifters].id = id;
347 num_sifters++;
348 }
349
350 bool FindSifter(uint32 type, int16 id)
351 {
352 for (int i=0; i<num_sifters; i++) {
353 if (sifter_list[i].type == type && sifter_list[i].id == id)
354 return true;
355 }
356 return false;
357 }
358
359
360 /*
361 * Driver stubs
362 */
363
364 static const uint8 sony_driver[] = { // Replacement for .Sony driver
365 // Driver header
366 SonyDriverFlags >> 8, SonyDriverFlags & 0xff, 0, 0, 0, 0, 0, 0,
367 0x00, 0x18, // Open() offset
368 0x00, 0x1c, // Prime() offset
369 0x00, 0x20, // Control() offset
370 0x00, 0x2c, // Status() offset
371 0x00, 0x52, // Close() offset
372 0x05, 0x2e, 0x53, 0x6f, 0x6e, 0x79, // ".Sony"
373
374 // Open()
375 M68K_EMUL_OP_SONY_OPEN >> 8, M68K_EMUL_OP_SONY_OPEN & 0xff,
376 0x4e, 0x75, // rts
377
378 // Prime()
379 M68K_EMUL_OP_SONY_PRIME >> 8, M68K_EMUL_OP_SONY_PRIME & 0xff,
380 0x60, 0x0e, // bra IOReturn
381
382 // Control()
383 M68K_EMUL_OP_SONY_CONTROL >> 8, M68K_EMUL_OP_SONY_CONTROL & 0xff,
384 0x0c, 0x68, 0x00, 0x01, 0x00, 0x1a, // cmp.w #1,$1a(a0)
385 0x66, 0x04, // bne IOReturn
386 0x4e, 0x75, // rts
387
388 // Status()
389 M68K_EMUL_OP_SONY_STATUS >> 8, M68K_EMUL_OP_SONY_STATUS & 0xff,
390
391 // IOReturn
392 0x32, 0x28, 0x00, 0x06, // move.w 6(a0),d1
393 0x08, 0x01, 0x00, 0x09, // btst #9,d1
394 0x67, 0x0c, // beq 1
395 0x4a, 0x40, // tst.w d0
396 0x6f, 0x02, // ble 2
397 0x42, 0x40, // clr.w d0
398 0x31, 0x40, 0x00, 0x10, //2 move.w d0,$10(a0)
399 0x4e, 0x75, // rts
400 0x4a, 0x40, //1 tst.w d0
401 0x6f, 0x04, // ble 3
402 0x42, 0x40, // clr.w d0
403 0x4e, 0x75, // rts
404 0x2f, 0x38, 0x08, 0xfc, //3 move.l $8fc,-(sp)
405 0x4e, 0x75, // rts
406
407 // Close()
408 0x70, 0xe8, // moveq #-24,d0
409 0x4e, 0x75 // rts
410 };
411
412 static const uint8 disk_driver[] = { // Generic disk driver
413 // Driver header
414 DiskDriverFlags >> 8, DiskDriverFlags & 0xff, 0, 0, 0, 0, 0, 0,
415 0x00, 0x18, // Open() offset
416 0x00, 0x1c, // Prime() offset
417 0x00, 0x20, // Control() offset
418 0x00, 0x2c, // Status() offset
419 0x00, 0x52, // Close() offset
420 0x05, 0x2e, 0x44, 0x69, 0x73, 0x6b, // ".Disk"
421
422 // Open()
423 M68K_EMUL_OP_DISK_OPEN >> 8, M68K_EMUL_OP_DISK_OPEN & 0xff,
424 0x4e, 0x75, // rts
425
426 // Prime()
427 M68K_EMUL_OP_DISK_PRIME >> 8, M68K_EMUL_OP_DISK_PRIME & 0xff,
428 0x60, 0x0e, // bra IOReturn
429
430 // Control()
431 M68K_EMUL_OP_DISK_CONTROL >> 8, M68K_EMUL_OP_DISK_CONTROL & 0xff,
432 0x0c, 0x68, 0x00, 0x01, 0x00, 0x1a, // cmp.w #1,$1a(a0)
433 0x66, 0x04, // bne IOReturn
434 0x4e, 0x75, // rts
435
436 // Status()
437 M68K_EMUL_OP_DISK_STATUS >> 8, M68K_EMUL_OP_DISK_STATUS & 0xff,
438
439 // IOReturn
440 0x32, 0x28, 0x00, 0x06, // move.w 6(a0),d1
441 0x08, 0x01, 0x00, 0x09, // btst #9,d1
442 0x67, 0x0c, // beq 1
443 0x4a, 0x40, // tst.w d0
444 0x6f, 0x02, // ble 2
445 0x42, 0x40, // clr.w d0
446 0x31, 0x40, 0x00, 0x10, //2 move.w d0,$10(a0)
447 0x4e, 0x75, // rts
448 0x4a, 0x40, //1 tst.w d0
449 0x6f, 0x04, // ble 3
450 0x42, 0x40, // clr.w d0
451 0x4e, 0x75, // rts
452 0x2f, 0x38, 0x08, 0xfc, //3 move.l $8fc,-(sp)
453 0x4e, 0x75, // rts
454
455 // Close()
456 0x70, 0xe8, // moveq #-24,d0
457 0x4e, 0x75 // rts
458 };
459
460 static const uint8 cdrom_driver[] = { // CD-ROM driver
461 // Driver header
462 CDROMDriverFlags >> 8, CDROMDriverFlags & 0xff, 0, 0, 0, 0, 0, 0,
463 0x00, 0x1c, // Open() offset
464 0x00, 0x20, // Prime() offset
465 0x00, 0x24, // Control() offset
466 0x00, 0x30, // Status() offset
467 0x00, 0x56, // Close() offset
468 0x08, 0x2e, 0x41, 0x70, 0x70, 0x6c, 0x65, 0x43, 0x44, 0x00, // ".AppleCD"
469
470 // Open()
471 M68K_EMUL_OP_CDROM_OPEN >> 8, M68K_EMUL_OP_CDROM_OPEN & 0xff,
472 0x4e, 0x75, // rts
473
474 // Prime()
475 M68K_EMUL_OP_CDROM_PRIME >> 8, M68K_EMUL_OP_CDROM_PRIME & 0xff,
476 0x60, 0x0e, // bra IOReturn
477
478 // Control()
479 M68K_EMUL_OP_CDROM_CONTROL >> 8, M68K_EMUL_OP_CDROM_CONTROL & 0xff,
480 0x0c, 0x68, 0x00, 0x01, 0x00, 0x1a, // cmp.w #1,$1a(a0)
481 0x66, 0x04, // bne IOReturn
482 0x4e, 0x75, // rts
483
484 // Status()
485 M68K_EMUL_OP_CDROM_STATUS >> 8, M68K_EMUL_OP_CDROM_STATUS & 0xff,
486
487 // IOReturn
488 0x32, 0x28, 0x00, 0x06, // move.w 6(a0),d1
489 0x08, 0x01, 0x00, 0x09, // btst #9,d1
490 0x67, 0x0c, // beq 1
491 0x4a, 0x40, // tst.w d0
492 0x6f, 0x02, // ble 2
493 0x42, 0x40, // clr.w d0
494 0x31, 0x40, 0x00, 0x10, //2 move.w d0,$10(a0)
495 0x4e, 0x75, // rts
496 0x4a, 0x40, //1 tst.w d0
497 0x6f, 0x04, // ble 3
498 0x42, 0x40, // clr.w d0
499 0x4e, 0x75, // rts
500 0x2f, 0x38, 0x08, 0xfc, //3 move.l $8fc,-(sp)
501 0x4e, 0x75, // rts
502
503 // Close()
504 0x70, 0xe8, // moveq #-24,d0
505 0x4e, 0x75 // rts
506 };
507
508 static uint32 long_ptr;
509
510 static void SetLongBase(uint32 addr)
511 {
512 long_ptr = addr;
513 }
514
515 static void Long(uint32 value)
516 {
517 WriteMacInt32(long_ptr, value);
518 long_ptr += 4;
519 }
520
521 static void gen_ain_driver(uintptr addr)
522 {
523 SetLongBase(addr);
524
525 // .AIn driver header
526 Long(0x4d000000); Long(0x00000000);
527 Long(0x00200040); Long(0x00600080);
528 Long(0x00a0042e); Long(0x41496e00);
529 Long(0x00000000); Long(0x00000000);
530 Long(0xaafe0700); Long(0x00000000);
531 Long(0x00000000); Long(0x00179822);
532 Long(0x00010004); Long(NativeTVECT(NATIVE_SERIAL_NOTHING));
533 Long(0x00000000); Long(0x00000000);
534 Long(0xaafe0700); Long(0x00000000);
535 Long(0x00000000); Long(0x00179822);
536 Long(0x00010004); Long(NativeTVECT(NATIVE_SERIAL_PRIME_IN));
537 Long(0x00000000); Long(0x00000000);
538 Long(0xaafe0700); Long(0x00000000);
539 Long(0x00000000); Long(0x00179822);
540 Long(0x00010004); Long(NativeTVECT(NATIVE_SERIAL_CONTROL));
541 Long(0x00000000); Long(0x00000000);
542 Long(0xaafe0700); Long(0x00000000);
543 Long(0x00000000); Long(0x00179822);
544 Long(0x00010004); Long(NativeTVECT(NATIVE_SERIAL_STATUS));
545 Long(0x00000000); Long(0x00000000);
546 Long(0xaafe0700); Long(0x00000000);
547 Long(0x00000000); Long(0x00179822);
548 Long(0x00010004); Long(NativeTVECT(NATIVE_SERIAL_NOTHING));
549 Long(0x00000000); Long(0x00000000);
550 };
551
552 static void gen_aout_driver(uintptr addr)
553 {
554 SetLongBase(addr);
555
556 // .AOut driver header
557 Long(0x4d000000); Long(0x00000000);
558 Long(0x00200040); Long(0x00600080);
559 Long(0x00a0052e); Long(0x414f7574);
560 Long(0x00000000); Long(0x00000000);
561 Long(0xaafe0700); Long(0x00000000);
562 Long(0x00000000); Long(0x00179822);
563 Long(0x00010004); Long(NativeTVECT(NATIVE_SERIAL_OPEN));
564 Long(0x00000000); Long(0x00000000);
565 Long(0xaafe0700); Long(0x00000000);
566 Long(0x00000000); Long(0x00179822);
567 Long(0x00010004); Long(NativeTVECT(NATIVE_SERIAL_PRIME_OUT));
568 Long(0x00000000); Long(0x00000000);
569 Long(0xaafe0700); Long(0x00000000);
570 Long(0x00000000); Long(0x00179822);
571 Long(0x00010004); Long(NativeTVECT(NATIVE_SERIAL_CONTROL));
572 Long(0x00000000); Long(0x00000000);
573 Long(0xaafe0700); Long(0x00000000);
574 Long(0x00000000); Long(0x00179822);
575 Long(0x00010004); Long(NativeTVECT(NATIVE_SERIAL_STATUS));
576 Long(0x00000000); Long(0x00000000);
577 Long(0xaafe0700); Long(0x00000000);
578 Long(0x00000000); Long(0x00179822);
579 Long(0x00010004); Long(NativeTVECT(NATIVE_SERIAL_CLOSE));
580 Long(0x00000000); Long(0x00000000);
581 };
582
583 static void gen_bin_driver(uintptr addr)
584 {
585 SetLongBase(addr);
586
587 // .BIn driver header
588 Long(0x4d000000); Long(0x00000000);
589 Long(0x00200040); Long(0x00600080);
590 Long(0x00a0042e); Long(0x42496e00);
591 Long(0x00000000); Long(0x00000000);
592 Long(0xaafe0700); Long(0x00000000);
593 Long(0x00000000); Long(0x00179822);
594 Long(0x00010004); Long(NativeTVECT(NATIVE_SERIAL_NOTHING));
595 Long(0x00000000); Long(0x00000000);
596 Long(0xaafe0700); Long(0x00000000);
597 Long(0x00000000); Long(0x00179822);
598 Long(0x00010004); Long(NativeTVECT(NATIVE_SERIAL_PRIME_IN));
599 Long(0x00000000); Long(0x00000000);
600 Long(0xaafe0700); Long(0x00000000);
601 Long(0x00000000); Long(0x00179822);
602 Long(0x00010004); Long(NativeTVECT(NATIVE_SERIAL_CONTROL));
603 Long(0x00000000); Long(0x00000000);
604 Long(0xaafe0700); Long(0x00000000);
605 Long(0x00000000); Long(0x00179822);
606 Long(0x00010004); Long(NativeTVECT(NATIVE_SERIAL_STATUS));
607 Long(0x00000000); Long(0x00000000);
608 Long(0xaafe0700); Long(0x00000000);
609 Long(0x00000000); Long(0x00179822);
610 Long(0x00010004); Long(NativeTVECT(NATIVE_SERIAL_NOTHING));
611 Long(0x00000000); Long(0x00000000);
612 };
613
614 static void gen_bout_driver(uintptr addr)
615 {
616 SetLongBase(addr);
617
618 // .BOut driver header
619 Long(0x4d000000); Long(0x00000000);
620 Long(0x00200040); Long(0x00600080);
621 Long(0x00a0052e); Long(0x424f7574);
622 Long(0x00000000); Long(0x00000000);
623 Long(0xaafe0700); Long(0x00000000);
624 Long(0x00000000); Long(0x00179822);
625 Long(0x00010004); Long(NativeTVECT(NATIVE_SERIAL_OPEN));
626 Long(0x00000000); Long(0x00000000);
627 Long(0xaafe0700); Long(0x00000000);
628 Long(0x00000000); Long(0x00179822);
629 Long(0x00010004); Long(NativeTVECT(NATIVE_SERIAL_PRIME_OUT));
630 Long(0x00000000); Long(0x00000000);
631 Long(0xaafe0700); Long(0x00000000);
632 Long(0x00000000); Long(0x00179822);
633 Long(0x00010004); Long(NativeTVECT(NATIVE_SERIAL_CONTROL));
634 Long(0x00000000); Long(0x00000000);
635 Long(0xaafe0700); Long(0x00000000);
636 Long(0x00000000); Long(0x00179822);
637 Long(0x00010004); Long(NativeTVECT(NATIVE_SERIAL_STATUS));
638 Long(0x00000000); Long(0x00000000);
639 Long(0xaafe0700); Long(0x00000000);
640 Long(0x00000000); Long(0x00179822);
641 Long(0x00010004); Long(NativeTVECT(NATIVE_SERIAL_CLOSE));
642 Long(0x00000000); Long(0x00000000);
643 };
644
645 static const uint8 adbop_patch[] = { // Call ADBOp() completion procedure
646 // The completion procedure may call ADBOp() again!
647 0x40, 0xe7, // move sr,-(sp)
648 0x00, 0x7c, 0x07, 0x00, // ori #$0700,sr
649 M68K_EMUL_OP_ADBOP >> 8, M68K_EMUL_OP_ADBOP & 0xff,
650 0x48, 0xe7, 0x70, 0xf0, // movem.l d1-d3/a0-a3,-(sp)
651 0x26, 0x48, // move.l a0,a3
652 0x4a, 0xab, 0x00, 0x04, // tst.l 4(a3)
653 0x67, 0x00, 0x00, 0x18, // beq 1
654 0x20, 0x53, // move.l (a3),a0
655 0x22, 0x6b, 0x00, 0x04, // move.l 4(a3),a1
656 0x24, 0x6b, 0x00, 0x08, // move.l 8(a3),a2
657 0x26, 0x78, 0x0c, 0xf8, // move.l $cf8,a3
658 0x4e, 0x91, // jsr (a1)
659 0x70, 0x00, // moveq #0,d0
660 0x60, 0x00, 0x00, 0x04, // bra 2
661 0x70, 0xff, //1 moveq #-1,d0
662 0x4c, 0xdf, 0x0f, 0x0e, //2 movem.l (sp)+,d1-d3/a0-a3
663 0x46, 0xdf, // move (sp)+,sr
664 0x4e, 0x75 // rts
665 };
666
667
668 /*
669 * Copy PowerPC code to ROM image and reverse bytes if necessary
670 */
671
672 static inline void memcpy_powerpc_code(void *dst, const void *src, size_t len)
673 {
674 #ifdef WORDS_BIGENDIAN
675 (void)memcpy(dst, src, len);
676 #else
677 uint32 *d = (uint32 *)dst;
678 uint32 *s = (uint32 *)src;
679 for (int i = 0; i < len/4; i++)
680 d[i] = htonl(s[i]);
681 #endif
682 }
683
684
685 /*
686 * Install ROM patches (RAMBase and KernelDataAddr must be set)
687 */
688
689 bool PatchROM(void)
690 {
691 // Print ROM info
692 D(bug("Checksum: %08lx\n", ntohl(*(uint32 *)ROM_BASE)));
693 D(bug("Version: %04x\n", ntohs(*(uint16 *)(ROM_BASE + 8))));
694 D(bug("Sub Version: %04x\n", ntohs(*(uint16 *)(ROM_BASE + 18))));
695 D(bug("Nanokernel ID: %s\n", (char *)ROM_BASE + 0x30d064));
696 D(bug("Resource Map at %08lx\n", ntohl(*(uint32 *)(ROM_BASE + 26))));
697 D(bug("Trap Tables at %08lx\n\n", ntohl(*(uint32 *)(ROM_BASE + 34))));
698
699 // Detect ROM type
700 if (!memcmp((void *)(ROM_BASE + 0x30d064), "Boot TNT", 8))
701 ROMType = ROMTYPE_TNT;
702 else if (!memcmp((void *)(ROM_BASE + 0x30d064), "Boot Alchemy", 12))
703 ROMType = ROMTYPE_ALCHEMY;
704 else if (!memcmp((void *)(ROM_BASE + 0x30d064), "Boot Zanzibar", 13))
705 ROMType = ROMTYPE_ZANZIBAR;
706 else if (!memcmp((void *)(ROM_BASE + 0x30d064), "Boot Gazelle", 12))
707 ROMType = ROMTYPE_GAZELLE;
708 else if (!memcmp((void *)(ROM_BASE + 0x30d064), "Boot Gossamer", 13))
709 ROMType = ROMTYPE_GOSSAMER;
710 else if (!memcmp((void *)(ROM_BASE + 0x30d064), "NewWorld", 8))
711 ROMType = ROMTYPE_NEWWORLD;
712 else
713 return false;
714
715 // Check that other ROM addresses point to really free regions
716 if (!check_rom_patch_space(CHECK_LOAD_PATCH_SPACE, 0x40))
717 return false;
718 if (!check_rom_patch_space(PUT_SCRAP_PATCH_SPACE, 0x40))
719 return false;
720 if (!check_rom_patch_space(GET_SCRAP_PATCH_SPACE, 0x40))
721 return false;
722 if (!check_rom_patch_space(ADDR_MAP_PATCH_SPACE - 10 * 4, 0x100))
723 return false;
724
725 // Apply patches
726 if (!patch_nanokernel_boot()) return false;
727 if (!patch_68k_emul()) return false;
728 if (!patch_nanokernel()) return false;
729 if (!patch_68k()) return false;
730
731 #ifdef M68K_BREAK_POINT
732 // Install 68k breakpoint
733 uint16 *wp = (uint16 *)(ROM_BASE + M68K_BREAK_POINT);
734 *wp++ = htons(M68K_EMUL_BREAK);
735 *wp = htons(M68K_EMUL_RETURN);
736 #endif
737
738 #ifdef POWERPC_BREAK_POINT
739 // Install PowerPC breakpoint
740 uint32 *lp = (uint32 *)(ROM_BASE + POWERPC_BREAK_POINT);
741 *lp = htonl(0);
742 #endif
743
744 // Copy 68k emulator to 2MB boundary
745 memcpy((void *)(ROM_BASE + ROM_SIZE), (void *)(ROM_BASE + ROM_SIZE - 0x100000), 0x100000);
746 return true;
747 }
748
749
750 /*
751 * Nanokernel boot routine patches
752 */
753
754 static bool patch_nanokernel_boot(void)
755 {
756 uint32 *lp;
757 uint32 base, loc;
758
759 // ROM boot structure patches
760 lp = (uint32 *)(ROM_BASE + 0x30d000);
761 lp[0x9c >> 2] = htonl(KernelDataAddr); // LA_InfoRecord
762 lp[0xa0 >> 2] = htonl(KernelDataAddr); // LA_KernelData
763 lp[0xa4 >> 2] = htonl(KernelDataAddr + 0x1000); // LA_EmulatorData
764 lp[0xa8 >> 2] = htonl(ROM_BASE + 0x480000); // LA_DispatchTable
765 lp[0xac >> 2] = htonl(ROM_BASE + 0x460000); // LA_EmulatorCode
766 lp[0x360 >> 2] = htonl(0); // Physical RAM base (? on NewWorld ROM, this contains -1)
767 lp[0xfd8 >> 2] = htonl(ROM_BASE + 0x2a); // 68k reset vector
768
769 // Skip SR/BAT/SDR init
770 loc = 0x310000;
771 if (ROMType == ROMTYPE_GAZELLE || ROMType == ROMTYPE_GOSSAMER || ROMType == ROMTYPE_NEWWORLD) {
772 lp = (uint32 *)(ROM_BASE + loc);
773 *lp++ = htonl(POWERPC_NOP);
774 *lp = htonl(0x38000000);
775 }
776 static const uint8 sr_init_dat[] = {0x35, 0x4a, 0xff, 0xfc, 0x7d, 0x86, 0x50, 0x2e};
777 if ((base = find_rom_data(0x3101b0, 0x3105b0, sr_init_dat, sizeof(sr_init_dat))) == 0) return false;
778 D(bug("sr_init %08lx\n", base));
779 lp = (uint32 *)(ROM_BASE + loc + 8);
780 *lp = htonl(0x48000000 | ((base - loc - 8) & 0x3fffffc)); // b ROM_BASE+0x3101b0
781 lp = (uint32 *)(ROM_BASE + base);
782 *lp++ = htonl(0x80200000 + XLM_KERNEL_DATA); // lwz r1,(pointer to Kernel Data)
783 *lp++ = htonl(0x3da0dead); // lis r13,0xdead (start of kernel memory)
784 *lp++ = htonl(0x3dc00010); // lis r14,0x0010 (size of page table)
785 *lp = htonl(0x3de00010); // lis r15,0x0010 (size of kernel memory)
786
787 // Don't read PVR
788 static const uint8 pvr_read_dat[] = {0x7d, 0x9f, 0x42, 0xa6};
789 if ((base = find_rom_data(0x3103b0, 0x3108b0, pvr_read_dat, sizeof(pvr_read_dat))) == 0) return false;
790 D(bug("pvr_read %08lx\n", base));
791 lp = (uint32 *)(ROM_BASE + base);
792 *lp = htonl(0x81800000 + XLM_PVR); // lwz r12,(theoretical PVR)
793
794 // Set CPU specific data (even if ROM doesn't have support for that CPU)
795 if (ntohl(lp[6]) != 0x2c0c0001)
796 return false;
797 uint32 ofs = ntohl(lp[7]) & 0xffff;
798 D(bug("ofs %08lx\n", ofs));
799 lp[8] = htonl((ntohl(lp[8]) & 0xffff) | 0x48000000); // beq -> b
800 loc = (ntohl(lp[8]) & 0xffff) + (uint32)(lp+8) - ROM_BASE;
801 D(bug("loc %08lx\n", loc));
802 lp = (uint32 *)(ROM_BASE + ofs + 0x310000);
803 switch (PVR >> 16) {
804 case 1: // 601
805 lp[0] = htonl(0x1000); // Page size
806 lp[1] = htonl(0x8000); // Data cache size
807 lp[2] = htonl(0x8000); // Inst cache size
808 lp[3] = htonl(0x00200020); // Coherency block size/Reservation granule size
809 lp[4] = htonl(0x00010040); // Unified caches/Inst cache line size
810 lp[5] = htonl(0x00400020); // Data cache line size/Data cache block size touch
811 lp[6] = htonl(0x00200020); // Inst cache block size/Data cache block size
812 lp[7] = htonl(0x00080008); // Inst cache assoc/Data cache assoc
813 lp[8] = htonl(0x01000002); // TLB total size/TLB assoc
814 break;
815 case 3: // 603
816 lp[0] = htonl(0x1000); // Page size
817 lp[1] = htonl(0x2000); // Data cache size
818 lp[2] = htonl(0x2000); // Inst cache size
819 lp[3] = htonl(0x00200020); // Coherency block size/Reservation granule size
820 lp[4] = htonl(0x00000020); // Unified caches/Inst cache line size
821 lp[5] = htonl(0x00200020); // Data cache line size/Data cache block size touch
822 lp[6] = htonl(0x00200020); // Inst cache block size/Data cache block size
823 lp[7] = htonl(0x00020002); // Inst cache assoc/Data cache assoc
824 lp[8] = htonl(0x00400002); // TLB total size/TLB assoc
825 break;
826 case 4: // 604
827 lp[0] = htonl(0x1000); // Page size
828 lp[1] = htonl(0x4000); // Data cache size
829 lp[2] = htonl(0x4000); // Inst cache size
830 lp[3] = htonl(0x00200020); // Coherency block size/Reservation granule size
831 lp[4] = htonl(0x00000020); // Unified caches/Inst cache line size
832 lp[5] = htonl(0x00200020); // Data cache line size/Data cache block size touch
833 lp[6] = htonl(0x00200020); // Inst cache block size/Data cache block size
834 lp[7] = htonl(0x00040004); // Inst cache assoc/Data cache assoc
835 lp[8] = htonl(0x00800002); // TLB total size/TLB assoc
836 break;
837 // case 5: // 740?
838 case 6: // 603e
839 case 7: // 603ev
840 lp[0] = htonl(0x1000); // Page size
841 lp[1] = htonl(0x4000); // Data cache size
842 lp[2] = htonl(0x4000); // Inst cache size
843 lp[3] = htonl(0x00200020); // Coherency block size/Reservation granule size
844 lp[4] = htonl(0x00000020); // Unified caches/Inst cache line size
845 lp[5] = htonl(0x00200020); // Data cache line size/Data cache block size touch
846 lp[6] = htonl(0x00200020); // Inst cache block size/Data cache block size
847 lp[7] = htonl(0x00040004); // Inst cache assoc/Data cache assoc
848 lp[8] = htonl(0x00400002); // TLB total size/TLB assoc
849 break;
850 case 8: // 750
851 lp[0] = htonl(0x1000); // Page size
852 lp[1] = htonl(0x8000); // Data cache size
853 lp[2] = htonl(0x8000); // Inst cache size
854 lp[3] = htonl(0x00200020); // Coherency block size/Reservation granule size
855 lp[4] = htonl(0x00000020); // Unified caches/Inst cache line size
856 lp[5] = htonl(0x00200020); // Data cache line size/Data cache block size touch
857 lp[6] = htonl(0x00200020); // Inst cache block size/Data cache block size
858 lp[7] = htonl(0x00080008); // Inst cache assoc/Data cache assoc
859 lp[8] = htonl(0x00800002); // TLB total size/TLB assoc
860 break;
861 case 9: // 604e
862 case 10: // 604ev5
863 lp[0] = htonl(0x1000); // Page size
864 lp[1] = htonl(0x8000); // Data cache size
865 lp[2] = htonl(0x8000); // Inst cache size
866 lp[3] = htonl(0x00200020); // Coherency block size/Reservation granule size
867 lp[4] = htonl(0x00000020); // Unified caches/Inst cache line size
868 lp[5] = htonl(0x00200020); // Data cache line size/Data cache block size touch
869 lp[6] = htonl(0x00200020); // Inst cache block size/Data cache block size
870 lp[7] = htonl(0x00040004); // Inst cache assoc/Data cache assoc
871 lp[8] = htonl(0x00800002); // TLB total size/TLB assoc
872 break;
873 // case 11: // X704?
874 case 12: // 7400, 7410
875 case 0x800c:
876 lp[0] = htonl(0x1000); // Page size
877 lp[1] = htonl(0x8000); // Data cache size
878 lp[2] = htonl(0x8000); // Inst cache size
879 lp[3] = htonl(0x00200020); // Coherency block size/Reservation granule size
880 lp[4] = htonl(0x00000020); // Unified caches/Inst cache line size
881 lp[5] = htonl(0x00200020); // Data cache line size/Data cache block size touch
882 lp[6] = htonl(0x00200020); // Inst cache block size/Data cache block size
883 lp[7] = htonl(0x00080008); // Inst cache assoc/Data cache assoc
884 lp[8] = htonl(0x00800002); // TLB total size/TLB assoc
885 break;
886 case 13: // ???
887 lp[0] = htonl(0x1000); // Page size
888 lp[1] = htonl(0x8000); // Data cache size
889 lp[2] = htonl(0x8000); // Inst cache size
890 lp[3] = htonl(0x00200020); // Coherency block size/Reservation granule size
891 lp[4] = htonl(0x00000020); // Unified caches/Inst cache line size
892 lp[5] = htonl(0x00200020); // Data cache line size/Data cache block size touch
893 lp[6] = htonl(0x00200020); // Inst cache block size/Data cache block size
894 lp[7] = htonl(0x00080008); // Inst cache assoc/Data cache assoc
895 lp[8] = htonl(0x01000004); // TLB total size/TLB assoc
896 break;
897 // case 50: // 821
898 // case 80: // 860
899 case 96: // ???
900 lp[0] = htonl(0x1000); // Page size
901 lp[1] = htonl(0x8000); // Data cache size
902 lp[2] = htonl(0x8000); // Inst cache size
903 lp[3] = htonl(0x00200020); // Coherency block size/Reservation granule size
904 lp[4] = htonl(0x00010020); // Unified caches/Inst cache line size
905 lp[5] = htonl(0x00200020); // Data cache line size/Data cache block size touch
906 lp[6] = htonl(0x00200020); // Inst cache block size/Data cache block size
907 lp[7] = htonl(0x00080008); // Inst cache assoc/Data cache assoc
908 lp[8] = htonl(0x00800004); // TLB total size/TLB assoc
909 break;
910 default:
911 printf("WARNING: Unknown CPU type\n");
912 break;
913 }
914
915 // Don't set SPRG3, don't test MQ
916 static const uint8 sprg3_mq_dat[] = {0x7d, 0x13, 0x43, 0xa6, 0x3d, 0x00, 0x00, 0x04, 0x7d, 0x00, 0x03, 0xa6, 0x39, 0x00, 0x00, 0x00, 0x7d, 0x00, 0x02, 0xa6};
917 if ((base = find_rom_data(loc + 0x20, loc + 0x60, sprg3_mq_dat, sizeof(sprg3_mq_dat))) == 0) return false;
918 D(bug("sprg3/mq %08lx\n", base));
919 lp = (uint32 *)(ROM_BASE + base);
920 lp[0] = htonl(POWERPC_NOP);
921 lp[2] = htonl(POWERPC_NOP);
922 lp[4] = htonl(POWERPC_NOP);
923
924 // Don't read MSR
925 static const uint8 msr_dat[] = {0x7d, 0xc0, 0x00, 0xa6};
926 if ((base = find_rom_data(loc + 0x40, loc + 0x80, msr_dat, sizeof(msr_dat))) == 0) return false;
927 D(bug("msr %08lx\n", base));
928 lp = (uint32 *)(ROM_BASE + base);
929 *lp = htonl(0x39c00000); // li r14,0
930
931 // Don't write to DEC
932 lp = (uint32 *)(ROM_BASE + loc + 0x70);
933 *lp++ = htonl(POWERPC_NOP);
934 loc = (ntohl(lp[0]) & 0xffff) + (uint32)lp - ROM_BASE;
935 D(bug("loc %08lx\n", loc));
936
937 // Don't set SPRG3
938 static const uint8 sprg3_dat[] = {0x39, 0x21, 0x03, 0x60, 0x7d, 0x33, 0x43, 0xa6, 0x39, 0x01, 0x04, 0x20};
939 if ((base = find_rom_data(0x310000, 0x314000, sprg3_dat, sizeof(sprg3_dat))) == 0) return false;
940 D(bug("sprg3 %08lx\n", base + 4));
941 lp = (uint32 *)(ROM_BASE + base + 4);
942 *lp = htonl(POWERPC_NOP);
943
944 // Don't read PVR
945 static const uint8 pvr_read2_dat[] = {0x7e, 0xff, 0x42, 0xa6, 0x56, 0xf7, 0x84, 0x3e};
946 if ((base = find_rom_data(0x310000, 0x320000, pvr_read2_dat, sizeof(pvr_read2_dat))) == 0) return false;
947 D(bug("pvr_read2 %08lx\n", base));
948 lp = (uint32 *)(ROM_BASE + base);
949 *lp = htonl(0x82e00000 + XLM_PVR); // lwz r23,(theoretical PVR)
950 if ((base = find_rom_data(base + 4, 0x320000, pvr_read2_dat, sizeof(pvr_read2_dat))) != 0) {
951 D(bug("pvr_read2 %08lx\n", base));
952 lp = (uint32 *)(ROM_BASE + base);
953 *lp = htonl(0x82e00000 + XLM_PVR); // lwz r23,(theoretical PVR)
954 }
955 static const uint8 pvr_read3_dat[] = {0x7e, 0x5f, 0x42, 0xa6, 0x56, 0x52, 0x84, 0x3e};
956 if ((base = find_rom_data(0x310000, 0x320000, pvr_read3_dat, sizeof(pvr_read3_dat))) != 0) {
957 D(bug("pvr_read3 %08lx\n", base));
958 lp = (uint32 *)(ROM_BASE + base);
959 *lp = htonl(0x82400000 + XLM_PVR); // lwz r18,(theoretical PVR)
960 }
961 static const uint8 pvr_read4_dat[] = {0x7d, 0x3f, 0x42, 0xa6, 0x55, 0x29, 0x84, 0x3e};
962 if ((base = find_rom_data(0x310000, 0x320000, pvr_read4_dat, sizeof(pvr_read4_dat))) != 0) {
963 D(bug("pvr_read4 %08lx\n", base));
964 lp = (uint32 *)(ROM_BASE + base);
965 *lp = htonl(0x81200000 + XLM_PVR); // lzw r9,(theoritical PVR)
966 }
967
968 // Don't read SDR1
969 static const uint8 sdr1_read_dat[] = {0x7d, 0x19, 0x02, 0xa6, 0x55, 0x16, 0x81, 0xde};
970 if ((base = find_rom_data(0x310000, 0x320000, sdr1_read_dat, sizeof(sdr1_read_dat))) == 0) return false;
971 D(bug("sdr1_read %08lx\n", base));
972 lp = (uint32 *)(ROM_BASE + base);
973 *lp++ = htonl(0x3d00dead); // lis r8,0xdead (pointer to page table)
974 *lp++ = htonl(0x3ec0001f); // lis r22,0x001f (size of page table)
975 *lp = htonl(POWERPC_NOP);
976
977 // Don't clear page table, don't invalidate TLB
978 static const uint8 pgtb_clear_dat[] = {0x36, 0xd6, 0xff, 0xfc, 0x7e, 0xe8, 0xb1, 0x2e, 0x41, 0x81, 0xff, 0xf8};
979 if ((base = find_rom_data(0x310000, 0x320000, pgtb_clear_dat, sizeof(pgtb_clear_dat))) == 0) return false;
980 D(bug("pgtb_clear %08lx\n", base + 4));
981 lp = (uint32 *)(ROM_BASE + base + 4);
982 *lp = htonl(POWERPC_NOP);
983 D(bug("tblie %08lx\n", base + 12));
984 lp = (uint32 *)(ROM_BASE + base + 12);
985 *lp = htonl(POWERPC_NOP);
986
987 // Don't create RAM descriptor table
988 static const uint8 desc_create_dat[] = {0x97, 0xfd, 0x00, 0x04, 0x3b, 0xff, 0x10, 0x00, 0x4b, 0xff, 0xff, 0xdc};
989 if ((base = find_rom_data(0x310000, 0x320000, desc_create_dat, sizeof(desc_create_dat))) == 0) return false;
990 D(bug("desc_create %08lx\n", base))
991 lp = (uint32 *)(ROM_BASE + base);
992 *lp = htonl(POWERPC_NOP);
993
994 // Don't load SRs and BATs
995 static const uint8 sr_load[] = {0x7c, 0x00, 0x04, 0xac, 0x83, 0x9d, 0x00, 0x00, 0x93, 0x81, 0x05, 0xe8};
996 if ((loc = find_rom_data(0x310000, 0x320000, sr_load, sizeof(sr_load))) == 0) return false;
997 static const uint8 sr_load_caller[] = {0x3e, 0xd6, 0xff, 0xff, 0x41, 0x81, 0xff, 0xdc, 0xb2, 0xc8, 0x00, 0x02};
998 if ((base = find_rom_data(0x310000, 0x320000, sr_load_caller, sizeof(sr_load_caller))) == 0) return false;
999 if ((base = find_rom_powerpc_branch(base + 12, 0x320000, loc)) == 0) return false;
1000 D(bug("sr_load %08lx, called from %08lx\n", loc, base));
1001 lp = (uint32 *)(ROM_BASE + base);
1002 *lp = htonl(POWERPC_NOP);
1003
1004 // Don't mess with SRs
1005 static const uint8 sr_load2_dat[] = {0x83, 0xa1, 0x05, 0xe8, 0x57, 0x7c, 0x3e, 0x78, 0x7f, 0xbd, 0xe0, 0x2e};
1006 if ((base = find_rom_data(0x310000, 0x320000, sr_load2_dat, sizeof(sr_load2_dat))) == 0) return false;
1007 D(bug("sr_load2 %08lx\n", base));
1008 lp = (uint32 *)(ROM_BASE + base);
1009 *lp = htonl(POWERPC_BLR);
1010
1011 // Don't check performance monitor
1012 static const uint8 pm_check_dat[] = {0x7e, 0x58, 0xeb, 0xa6, 0x7e, 0x53, 0x90, 0xf8, 0x7e, 0x78, 0xea, 0xa6};
1013 if ((base = find_rom_data(0x310000, 0x320000, pm_check_dat, sizeof(pm_check_dat))) == 0) return false;
1014 D(bug("pm_check %08lx\n", base));
1015 lp = (uint32 *)(ROM_BASE + base);
1016
1017 static const int spr_check_list[] = {
1018 952 /* mmcr0 */, 953 /* pmc1 */, 954 /* pmc2 */, 955 /* sia */,
1019 956 /* mmcr1 */, 957 /* pmc3 */, 958 /* pmc4 */, 959 /* sda */
1020 };
1021
1022 for (int i = 0; i < sizeof(spr_check_list)/sizeof(spr_check_list[0]); i++) {
1023 int spr = spr_check_list[i];
1024 uint32 mtspr = 0x7e4003a6 | ((spr & 0x1f) << 16) | ((spr & 0x3e0) << 6);
1025 uint32 mfspr = 0x7e6002a6 | ((spr & 0x1f) << 16) | ((spr & 0x3e0) << 6);
1026 for (int ofs = 0; ofs < 64; ofs++) {
1027 if (ntohl(lp[ofs]) == mtspr) {
1028 if (ntohl(lp[ofs + 2]) != mfspr)
1029 return false;
1030 D(bug(" SPR%d %08lx\n", spr, base + 4*ofs));
1031 lp[ofs] = htonl(POWERPC_NOP);
1032 lp[ofs + 2] = htonl(POWERPC_NOP);
1033 }
1034 }
1035 }
1036
1037 // Jump to 68k emulator
1038 static const uint8 jump68k_dat[] = {0x7d, 0x92, 0x43, 0xa6, 0x7d, 0x5a, 0x03, 0xa6, 0x7d, 0x7b, 0x03, 0xa6};
1039 if ((loc = find_rom_data(0x310000, 0x320000, jump68k_dat, sizeof(jump68k_dat))) == 0) return false;
1040 static const uint8 jump68k_caller_dat[] = {0x85, 0x13, 0x00, 0x08, 0x56, 0xbf, 0x50, 0x3e, 0x63, 0xff, 0x0c, 0x00};
1041 if ((base = find_rom_data(0x310000, 0x320000, jump68k_caller_dat, sizeof(jump68k_caller_dat))) == 0) return false;
1042 if ((base = find_rom_powerpc_branch(base + 12, 0x320000, loc)) == 0) return false;
1043 D(bug("jump68k %08lx, called from %08lx\n", loc, base));
1044 lp = (uint32 *)(ROM_BASE + base);
1045 *lp++ = htonl(0x80610634); // lwz r3,0x0634(r1) (pointer to Emulator Data)
1046 *lp++ = htonl(0x8081119c); // lwz r4,0x119c(r1) (pointer to opcode table)
1047 *lp++ = htonl(0x80011184); // lwz r0,0x1184(r1) (pointer to emulator init routine)
1048 *lp++ = htonl(0x7c0903a6); // mtctr r0
1049 *lp = htonl(POWERPC_BCTR);
1050 return true;
1051 }
1052
1053
1054 /*
1055 * 68k emulator patches
1056 */
1057
1058 static bool patch_68k_emul(void)
1059 {
1060 uint32 *lp;
1061 uint32 base;
1062
1063 // Overwrite twi instructions
1064 static const uint8 twi_dat[] = {0x0f, 0xff, 0x00, 0x00, 0x0f, 0xff, 0x00, 0x01, 0x0f, 0xff, 0x00, 0x02};
1065 if ((base = find_rom_data(0x36e600, 0x36ea00, twi_dat, sizeof(twi_dat))) == 0) return false;
1066 D(bug("twi %08lx\n", base));
1067 lp = (uint32 *)(ROM_BASE + base);
1068 *lp++ = htonl(0x48000000 + 0x36f900 - base); // b 0x36f900 (Emulator start)
1069 *lp++ = htonl(0x48000000 + 0x36fa00 - base - 4); // b 0x36fa00 (Mixed mode)
1070 *lp++ = htonl(0x48000000 + 0x36fb00 - base - 8); // b 0x36fb00 (Reset/FC1E opcode)
1071 *lp++ = htonl(0x48000000 + 0x36fc00 - base - 12); // FE0A opcode
1072 *lp++ = htonl(POWERPC_ILLEGAL); // Interrupt
1073 *lp++ = htonl(POWERPC_ILLEGAL); // ?
1074 *lp++ = htonl(POWERPC_ILLEGAL);
1075 *lp++ = htonl(POWERPC_ILLEGAL);
1076 *lp++ = htonl(POWERPC_ILLEGAL);
1077 *lp++ = htonl(POWERPC_ILLEGAL);
1078 *lp++ = htonl(POWERPC_ILLEGAL);
1079 *lp++ = htonl(POWERPC_ILLEGAL);
1080 *lp++ = htonl(POWERPC_ILLEGAL);
1081 *lp++ = htonl(POWERPC_ILLEGAL);
1082 *lp++ = htonl(POWERPC_ILLEGAL);
1083 *lp = htonl(POWERPC_ILLEGAL);
1084
1085 #if EMULATED_PPC
1086 // Install EMUL_RETURN, EXEC_RETURN, EXEC_NATIVE and EMUL_OP opcodes
1087 lp = (uint32 *)(ROM_BASE + 0x380000 + (M68K_EMUL_RETURN << 3));
1088 *lp++ = htonl(POWERPC_EMUL_OP);
1089 *lp++ = htonl(0x4bf66e80); // b 0x366084
1090 *lp++ = htonl(POWERPC_EMUL_OP | 1);
1091 *lp++ = htonl(0x4bf66e78); // b 0x366084
1092 *lp++ = htonl(POWERPC_EMUL_OP | 2);
1093 *lp++ = htonl(0x4bf66e70); // b 0x366084
1094 for (int i=0; i<OP_MAX; i++) {
1095 *lp++ = htonl(POWERPC_EMUL_OP | (i + 3));
1096 *lp++ = htonl(0x4bf66e68 - i*8); // b 0x366084
1097 }
1098 #else
1099 // Install EMUL_RETURN, EXEC_RETURN and EMUL_OP opcodes
1100 lp = (uint32 *)(ROM_BASE + 0x380000 + (M68K_EMUL_RETURN << 3));
1101 *lp++ = htonl(0x80000000 + XLM_EMUL_RETURN_PROC); // lwz r0,XLM_EMUL_RETURN_PROC
1102 *lp++ = htonl(0x4bf705fc); // b 0x36f800
1103 *lp++ = htonl(0x80000000 + XLM_EXEC_RETURN_PROC); // lwz r0,XLM_EXEC_RETURN_PROC
1104 *lp++ = htonl(0x4bf705f4); // b 0x36f800
1105 *lp++ = htonl(0x00dead00); // Let SheepShaver crash, since
1106 *lp++ = htonl(0x00beef00); // no native opcode is available
1107 for (int i=0; i<OP_MAX; i++) {
1108 *lp++ = htonl(0x38a00000 + i); // li r5,OP_*
1109 *lp++ = htonl(0x4bf705ec - i*8); // b 0x36f808
1110 }
1111
1112 // Extra routines for EMUL_RETURN/EXEC_RETURN/EMUL_OP
1113 lp = (uint32 *)(ROM_BASE + 0x36f800);
1114 *lp++ = htonl(0x7c0803a6); // mtlr r0
1115 *lp++ = htonl(0x4e800020); // blr
1116
1117 *lp++ = htonl(0x80000000 + XLM_EMUL_OP_PROC); // lwz r0,XLM_EMUL_OP_PROC
1118 *lp++ = htonl(0x7c0803a6); // mtlr r0
1119 *lp = htonl(0x4e800020); // blr
1120 #endif
1121
1122 // Extra routine for 68k emulator start
1123 lp = (uint32 *)(ROM_BASE + 0x36f900);
1124 *lp++ = htonl(0x7c2903a6); // mtctr r1
1125 #if EMULATED_PPC
1126 *lp++ = htonl(NativeOpcode(NATIVE_DISABLE_INTERRUPT));
1127 #else
1128 *lp++ = htonl(0x80200000 + XLM_IRQ_NEST); // lwz r1,XLM_IRQ_NEST
1129 *lp++ = htonl(0x38210001); // addi r1,r1,1
1130 *lp++ = htonl(0x90200000 + XLM_IRQ_NEST); // stw r1,XLM_IRQ_NEST
1131 #endif
1132 *lp++ = htonl(0x80200000 + XLM_KERNEL_DATA);// lwz r1,XLM_KERNEL_DATA
1133 *lp++ = htonl(0x90c10018); // stw r6,0x18(r1)
1134 *lp++ = htonl(0x7cc902a6); // mfctr r6
1135 *lp++ = htonl(0x90c10004); // stw r6,$0004(r1)
1136 *lp++ = htonl(0x80c1065c); // lwz r6,$065c(r1)
1137 *lp++ = htonl(0x90e6013c); // stw r7,$013c(r6)
1138 *lp++ = htonl(0x91060144); // stw r8,$0144(r6)
1139 *lp++ = htonl(0x9126014c); // stw r9,$014c(r6)
1140 *lp++ = htonl(0x91460154); // stw r10,$0154(r6)
1141 *lp++ = htonl(0x9166015c); // stw r11,$015c(r6)
1142 *lp++ = htonl(0x91860164); // stw r12,$0164(r6)
1143 *lp++ = htonl(0x91a6016c); // stw r13,$016c(r6)
1144 *lp++ = htonl(0x7da00026); // mfcr r13
1145 *lp++ = htonl(0x80e10660); // lwz r7,$0660(r1)
1146 *lp++ = htonl(0x7d8802a6); // mflr r12
1147 *lp++ = htonl(0x50e74001); // rlwimi. r7,r7,8,$80000000
1148 *lp++ = htonl(0x814105f0); // lwz r10,0x05f0(r1)
1149 *lp++ = htonl(0x7d4803a6); // mtlr r10
1150 *lp++ = htonl(0x7d8a6378); // mr r10,r12
1151 *lp++ = htonl(0x3d600002); // lis r11,0x0002
1152 *lp++ = htonl(0x616bf072); // ori r11,r11,0xf072 (MSR)
1153 *lp++ = htonl(0x50e7deb4); // rlwimi r7,r7,27,$00000020
1154 *lp = htonl(0x4e800020); // blr
1155
1156 // Extra routine for Mixed Mode
1157 lp = (uint32 *)(ROM_BASE + 0x36fa00);
1158 *lp++ = htonl(0x7c2903a6); // mtctr r1
1159 #if EMULATED_PPC
1160 *lp++ = htonl(NativeOpcode(NATIVE_DISABLE_INTERRUPT));
1161 #else
1162 *lp++ = htonl(0x80200000 + XLM_IRQ_NEST); // lwz r1,XLM_IRQ_NEST
1163 *lp++ = htonl(0x38210001); // addi r1,r1,1
1164 *lp++ = htonl(0x90200000 + XLM_IRQ_NEST); // stw r1,XLM_IRQ_NEST
1165 #endif
1166 *lp++ = htonl(0x80200000 + XLM_KERNEL_DATA);// lwz r1,XLM_KERNEL_DATA
1167 *lp++ = htonl(0x90c10018); // stw r6,0x18(r1)
1168 *lp++ = htonl(0x7cc902a6); // mfctr r6
1169 *lp++ = htonl(0x90c10004); // stw r6,$0004(r1)
1170 *lp++ = htonl(0x80c1065c); // lwz r6,$065c(r1)
1171 *lp++ = htonl(0x90e6013c); // stw r7,$013c(r6)
1172 *lp++ = htonl(0x91060144); // stw r8,$0144(r6)
1173 *lp++ = htonl(0x9126014c); // stw r9,$014c(r6)
1174 *lp++ = htonl(0x91460154); // stw r10,$0154(r6)
1175 *lp++ = htonl(0x9166015c); // stw r11,$015c(r6)
1176 *lp++ = htonl(0x91860164); // stw r12,$0164(r6)
1177 *lp++ = htonl(0x91a6016c); // stw r13,$016c(r6)
1178 *lp++ = htonl(0x7da00026); // mfcr r13
1179 *lp++ = htonl(0x80e10660); // lwz r7,$0660(r1)
1180 *lp++ = htonl(0x7d8802a6); // mflr r12
1181 *lp++ = htonl(0x50e74001); // rlwimi. r7,r7,8,$80000000
1182 *lp++ = htonl(0x814105f4); // lwz r10,0x05f4(r1)
1183 *lp++ = htonl(0x7d4803a6); // mtlr r10
1184 *lp++ = htonl(0x7d8a6378); // mr r10,r12
1185 *lp++ = htonl(0x3d600002); // lis r11,0x0002
1186 *lp++ = htonl(0x616bf072); // ori r11,r11,0xf072 (MSR)
1187 *lp++ = htonl(0x50e7deb4); // rlwimi r7,r7,27,$00000020
1188 *lp = htonl(0x4e800020); // blr
1189
1190 // Extra routine for Reset/FC1E opcode
1191 lp = (uint32 *)(ROM_BASE + 0x36fb00);
1192 *lp++ = htonl(0x7c2903a6); // mtctr r1
1193 #if EMULATED_PPC
1194 *lp++ = htonl(NativeOpcode(NATIVE_DISABLE_INTERRUPT));
1195 #else
1196 *lp++ = htonl(0x80200000 + XLM_IRQ_NEST); // lwz r1,XLM_IRQ_NEST
1197 *lp++ = htonl(0x38210001); // addi r1,r1,1
1198 *lp++ = htonl(0x90200000 + XLM_IRQ_NEST); // stw r1,XLM_IRQ_NEST
1199 #endif
1200 *lp++ = htonl(0x80200000 + XLM_KERNEL_DATA);// lwz r1,XLM_KERNEL_DATA
1201 *lp++ = htonl(0x90c10018); // stw r6,0x18(r1)
1202 *lp++ = htonl(0x7cc902a6); // mfctr r6
1203 *lp++ = htonl(0x90c10004); // stw r6,$0004(r1)
1204 *lp++ = htonl(0x80c1065c); // lwz r6,$065c(r1)
1205 *lp++ = htonl(0x90e6013c); // stw r7,$013c(r6)
1206 *lp++ = htonl(0x91060144); // stw r8,$0144(r6)
1207 *lp++ = htonl(0x9126014c); // stw r9,$014c(r6)
1208 *lp++ = htonl(0x91460154); // stw r10,$0154(r6)
1209 *lp++ = htonl(0x9166015c); // stw r11,$015c(r6)
1210 *lp++ = htonl(0x91860164); // stw r12,$0164(r6)
1211 *lp++ = htonl(0x91a6016c); // stw r13,$016c(r6)
1212 *lp++ = htonl(0x7da00026); // mfcr r13
1213 *lp++ = htonl(0x80e10660); // lwz r7,$0660(r1)
1214 *lp++ = htonl(0x7d8802a6); // mflr r12
1215 *lp++ = htonl(0x50e74001); // rlwimi. r7,r7,8,$80000000
1216 *lp++ = htonl(0x814105f8); // lwz r10,0x05f8(r1)
1217 *lp++ = htonl(0x7d4803a6); // mtlr r10
1218 *lp++ = htonl(0x7d8a6378); // mr r10,r12
1219 *lp++ = htonl(0x3d600002); // lis r11,0x0002
1220 *lp++ = htonl(0x616bf072); // ori r11,r11,0xf072 (MSR)
1221 *lp++ = htonl(0x50e7deb4); // rlwimi r7,r7,27,$00000020
1222 *lp = htonl(0x4e800020); // blr
1223
1224 // Extra routine for FE0A opcode (QuickDraw 3D needs this)
1225 lp = (uint32 *)(ROM_BASE + 0x36fc00);
1226 *lp++ = htonl(0x7c2903a6); // mtctr r1
1227 #if EMULATED_PPC
1228 *lp++ = htonl(NativeOpcode(NATIVE_DISABLE_INTERRUPT));
1229 #else
1230 *lp++ = htonl(0x80200000 + XLM_IRQ_NEST); // lwz r1,XLM_IRQ_NEST
1231 *lp++ = htonl(0x38210001); // addi r1,r1,1
1232 *lp++ = htonl(0x90200000 + XLM_IRQ_NEST); // stw r1,XLM_IRQ_NEST
1233 #endif
1234 *lp++ = htonl(0x80200000 + XLM_KERNEL_DATA);// lwz r1,XLM_KERNEL_DATA
1235 *lp++ = htonl(0x90c10018); // stw r6,0x18(r1)
1236 *lp++ = htonl(0x7cc902a6); // mfctr r6
1237 *lp++ = htonl(0x90c10004); // stw r6,$0004(r1)
1238 *lp++ = htonl(0x80c1065c); // lwz r6,$065c(r1)
1239 *lp++ = htonl(0x90e6013c); // stw r7,$013c(r6)
1240 *lp++ = htonl(0x91060144); // stw r8,$0144(r6)
1241 *lp++ = htonl(0x9126014c); // stw r9,$014c(r6)
1242 *lp++ = htonl(0x91460154); // stw r10,$0154(r6)
1243 *lp++ = htonl(0x9166015c); // stw r11,$015c(r6)
1244 *lp++ = htonl(0x91860164); // stw r12,$0164(r6)
1245 *lp++ = htonl(0x91a6016c); // stw r13,$016c(r6)
1246 *lp++ = htonl(0x7da00026); // mfcr r13
1247 *lp++ = htonl(0x80e10660); // lwz r7,$0660(r1)
1248 *lp++ = htonl(0x7d8802a6); // mflr r12
1249 *lp++ = htonl(0x50e74001); // rlwimi. r7,r7,8,$80000000
1250 *lp++ = htonl(0x814105fc); // lwz r10,0x05fc(r1)
1251 *lp++ = htonl(0x7d4803a6); // mtlr r10
1252 *lp++ = htonl(0x7d8a6378); // mr r10,r12
1253 *lp++ = htonl(0x3d600002); // lis r11,0x0002
1254 *lp++ = htonl(0x616bf072); // ori r11,r11,0xf072 (MSR)
1255 *lp++ = htonl(0x50e7deb4); // rlwimi r7,r7,27,$00000020
1256 *lp = htonl(0x4e800020); // blr
1257
1258 // Patch DR emulator to jump to right address when an interrupt occurs
1259 lp = (uint32 *)(ROM_BASE + 0x370000);
1260 while (lp < (uint32 *)(ROM_BASE + 0x380000)) {
1261 if (ntohl(*lp) == 0x4ca80020) // bclr 5,8
1262 goto dr_found;
1263 lp++;
1264 }
1265 D(bug("DR emulator patch location not found\n"));
1266 return false;
1267 dr_found:
1268 lp++;
1269 *lp = htonl(0x48000000 + 0xf000 - (((uint32)lp - ROM_BASE) & 0xffff)); // b DR_CACHE_BASE+0x1f000
1270 lp = (uint32 *)(ROM_BASE + 0x37f000);
1271 *lp++ = htonl(0x3c000000 + ((ROM_BASE + 0x46d0a4) >> 16)); // lis r0,xxx
1272 *lp++ = htonl(0x60000000 + ((ROM_BASE + 0x46d0a4) & 0xffff)); // ori r0,r0,xxx
1273 *lp++ = htonl(0x7c0903a6); // mtctr r0
1274 *lp = htonl(POWERPC_BCTR); // bctr
1275 return true;
1276 }
1277
1278
1279 /*
1280 * Nanokernel patches
1281 */
1282
1283 static bool patch_nanokernel(void)
1284 {
1285 uint32 *lp;
1286 uint32 base, loc;
1287
1288 // Patch Mixed Mode trap
1289 static const uint8 virt2phys_dat[] = {0x7d, 0x1b, 0x43, 0x78, 0x3b, 0xa1, 0x03, 0x20};
1290 if ((base = find_rom_data(0x313000, 0x314000, virt2phys_dat, sizeof(virt2phys_dat))) == 0) return false;
1291 D(bug("virt2phys %08lx\n", base + 8));
1292 lp = (uint32 *)(ROM_BASE + base + 8); // Don't translate virtual->physical
1293 lp[0] = htonl(0x7f7fdb78); // mr r31,r27
1294 lp[2] = htonl(POWERPC_NOP);
1295
1296 static const uint8 ppc_excp_tbl_dat[] = {0x39, 0x01, 0x04, 0x20, 0x7d, 0x13, 0x43, 0xa6};
1297 if ((base = find_rom_data(0x313000, 0x314000, ppc_excp_tbl_dat, sizeof(ppc_excp_tbl_dat))) == 0) return false;
1298 D(bug("ppc_excp_tbl %08lx\n", base));
1299 lp = (uint32 *)(ROM_BASE + base); // Don't activate PPC exception table
1300 *lp++ = htonl(0x39000000 + MODE_NATIVE); // li r8,MODE_NATIVE
1301 *lp = htonl(0x91000000 + XLM_RUN_MODE); // stw r8,XLM_RUN_MODE
1302
1303 static const uint8 save_fpu_dat[] = {0x7d, 0x00, 0x00, 0xa6, 0x61, 0x08, 0x20, 0x00, 0x7d, 0x00, 0x01, 0x24};
1304 if ((base = find_rom_data(0x310000, 0x314000, save_fpu_dat, sizeof(save_fpu_dat))) == 0) return false;
1305 D(bug("save_fpu %08lx\n", base));
1306 lp = (uint32 *)(ROM_BASE + base); // Don't modify MSR to turn on FPU
1307 if (ntohl(lp[4]) != 0x556b04e2) return false;
1308 loc = ROM_BASE + base;
1309 #if 1
1310 // FIXME: is that really intended?
1311 *lp++ = htonl(POWERPC_NOP);
1312 lp++;
1313 *lp++ = htonl(POWERPC_NOP);
1314 lp++;
1315 *lp = htonl(POWERPC_NOP);
1316 #else
1317 lp[0] = htonl(POWERPC_NOP);
1318 lp[1] = htonl(POWERPC_NOP);
1319 lp[2] = htonl(POWERPC_NOP);
1320 lp[3] = htonl(POWERPC_NOP);
1321 #endif
1322
1323 static const uint8 save_fpu_caller_dat[] = {0x93, 0xa6, 0x01, 0xec, 0x93, 0xc6, 0x01, 0xf4, 0x93, 0xe6, 0x01, 0xfc, 0x40};
1324 if ((base = find_rom_data(0x310000, 0x314000, save_fpu_caller_dat, sizeof(save_fpu_caller_dat))) == 0) return false;
1325 D(bug("save_fpu_caller %08lx\n", base + 12));
1326 if (powerpc_branch_target(ROM_BASE + base + 12) != loc) return false;
1327 lp = (uint32 *)(ROM_BASE + base + 12); // Always save FPU state
1328 *lp = htonl(0x48000000 | (ntohl(*lp) & 0xffff)); // bl 0x00312e88
1329
1330 static const uint8 mdec_dat[] = {0x7f, 0xf6, 0x02, 0xa6, 0x2c, 0x08, 0x00, 0x00, 0x93, 0xe1, 0x06, 0x68, 0x7d, 0x16, 0x03, 0xa6};
1331 if ((base = find_rom_data(0x310000, 0x314000, mdec_dat, sizeof(mdec_dat))) == 0) return false;
1332 D(bug("mdec %08lx\n", base));
1333 lp = (uint32 *)(ROM_BASE + base); // Don't modify DEC
1334 lp[0] = htonl(0x3be00000); // li r31,0
1335 #if 1
1336 lp[3] = htonl(POWERPC_NOP);
1337 lp[4] = htonl(POWERPC_NOP);
1338 #else
1339 lp[3] = htonl(0x39000040); // li r8,0x40
1340 lp[4] = htonl(0x990600e4); // stb r8,0xe4(r6)
1341 #endif
1342
1343 static const uint8 restore_fpu_caller_dat[] = {0x81, 0x06, 0x00, 0xf4, 0x81, 0x46, 0x00, 0xfc, 0x7d, 0x09, 0x03, 0xa6, 0x40};
1344 if ((base = find_rom_data(0x310000, 0x314000, restore_fpu_caller_dat, sizeof(restore_fpu_caller_dat))) == 0) return false;
1345 D(bug("restore_fpu_caller %08lx\n", base + 12));
1346 lp = (uint32 *)(ROM_BASE + base + 12); // Always restore FPU state
1347 *lp = htonl(0x48000000 | (ntohl(*lp) & 0xffff)); // bl 0x00312ddc
1348
1349 static const uint8 m68k_excp_tbl_dat[] = {0x81, 0x21, 0x06, 0x58, 0x39, 0x01, 0x03, 0x60, 0x7d, 0x13, 0x43, 0xa6};
1350 if ((base = find_rom_data(0x310000, 0x314000, m68k_excp_tbl_dat, sizeof(m68k_excp_tbl_dat))) == 0) return false;
1351 D(bug("m68k_excp %08lx\n", base + 4));
1352 lp = (uint32 *)(ROM_BASE + base + 4); // Don't activate 68k exception table
1353 *lp++ = htonl(0x39000000 + MODE_68K); // li r8,MODE_68K
1354 *lp = htonl(0x91000000 + XLM_RUN_MODE); // stw r8,XLM_RUN_MODE
1355
1356 // Patch 68k emulator trap routine
1357 static const uint8 restore_fpu_caller2_dat[] = {0x81, 0x86, 0x00, 0x8c, 0x80, 0x66, 0x00, 0x94, 0x80, 0x86, 0x00, 0x9c, 0x40};
1358 if ((base = find_rom_data(0x310000, 0x314000, restore_fpu_caller2_dat, sizeof(restore_fpu_caller2_dat))) == 0) return false;
1359 D(bug("restore_fpu_caller2 %08lx\n", base + 12));
1360 loc = powerpc_branch_target(ROM_BASE + base + 12) - ROM_BASE;
1361 lp = (uint32 *)(ROM_BASE + base + 12); // Always restore FPU state
1362 *lp = htonl(0x48000000 | (ntohl(*lp) & 0xffff)); // bl 0x00312dd4
1363
1364 static const uint8 restore_fpu_dat[] = {0x55, 0x68, 0x04, 0xa5, 0x4c, 0x82, 0x00, 0x20, 0x81, 0x06, 0x00, 0xe4};
1365 if ((base = find_rom_data(0x310000, 0x314000, restore_fpu_dat, sizeof(restore_fpu_dat))) == 0) return false;
1366 D(bug("restore_fpu %08lx\n", base));
1367 if (base != loc) return false;
1368 lp = (uint32 *)(ROM_BASE + base + 4); // Don't modify MSR to turn on FPU
1369 *lp++ = htonl(POWERPC_NOP);
1370 lp += 2;
1371 *lp++ = htonl(POWERPC_NOP);
1372 lp++;
1373 *lp++ = htonl(POWERPC_NOP);
1374 *lp++ = htonl(POWERPC_NOP);
1375 *lp = htonl(POWERPC_NOP);
1376
1377 // Patch trap return routine
1378 static const uint8 trap_return_dat[] = {0x80, 0xc1, 0x00, 0x18, 0x80, 0x21, 0x00, 0x04, 0x4c, 0x00, 0x00, 0x64};
1379 if ((base = find_rom_data(0x312000, 0x320000, trap_return_dat, sizeof(trap_return_dat))) == 0) return false;
1380 D(bug("trap_return %08lx\n", base + 8));
1381 lp = (uint32 *)(ROM_BASE + base + 8); // Replace rfi
1382 *lp = htonl(POWERPC_BCTR);
1383
1384 while (ntohl(*lp) != 0x7d5a03a6) lp--;
1385 *lp++ = htonl(0x7d4903a6); // mtctr r10
1386 *lp++ = htonl(0x7daff120); // mtcr r13
1387 *lp = htonl(0x48000000 + ((0x318000 - ((uint32)lp - ROM_BASE)) & 0x03fffffc)); // b ROM_BASE+0x318000
1388 uint32 npc = (uint32)(lp + 1) - ROM_BASE;
1389
1390 lp = (uint32 *)(ROM_BASE + 0x318000);
1391 #if EMULATED_PPC
1392 *lp++ = htonl(NativeOpcode(NATIVE_ENABLE_INTERRUPT));
1393 *lp = htonl(0x48000000 + ((npc - 0x318004) & 0x03fffffc)); // b ROM_BASE+0x312c2c
1394 #else
1395 *lp++ = htonl(0x81400000 + XLM_IRQ_NEST); // lwz r10,XLM_IRQ_NEST
1396 *lp++ = htonl(0x394affff); // subi r10,r10,1
1397 *lp++ = htonl(0x91400000 + XLM_IRQ_NEST); // stw r10,XLM_IRQ_NEST
1398 *lp = htonl(0x48000000 + ((npc - 0x31800c) & 0x03fffffc)); // b ROM_BASE+0x312c2c
1399 #endif
1400
1401 /*
1402 // Disable FE0A/FE06 opcodes
1403 lp = (uint32 *)(ROM_BASE + 0x3144ac);
1404 *lp++ = htonl(POWERPC_NOP);
1405 *lp += 8;
1406 */
1407 return true;
1408 }
1409
1410
1411 /*
1412 * 68k boot routine patches
1413 */
1414
1415 static bool patch_68k(void)
1416 {
1417 uint32 *lp;
1418 uint16 *wp;
1419 uint8 *bp;
1420 uint32 base, loc;
1421
1422 // Remove 68k RESET instruction
1423 static const uint8 reset_dat[] = {0x4e, 0x70};
1424 if ((base = find_rom_data(0xc8, 0x120, reset_dat, sizeof(reset_dat))) == 0) return false;
1425 D(bug("reset %08lx\n", base));
1426 wp = (uint16 *)(ROM_BASE + base);
1427 *wp = htons(M68K_NOP);
1428
1429 // Fake reading PowerMac ID (via Universal)
1430 static const uint8 powermac_id_dat[] = {0x45, 0xf9, 0x5f, 0xff, 0xff, 0xfc, 0x20, 0x12, 0x72, 0x00};
1431 if ((base = find_rom_data(0xe000, 0x15000, powermac_id_dat, sizeof(powermac_id_dat))) == 0) return false;
1432 D(bug("powermac_id %08lx\n", base));
1433 wp = (uint16 *)(ROM_BASE + base);
1434 *wp++ = htons(0x203c); // move.l #id,d0
1435 *wp++ = htons(0);
1436 // if (ROMType == ROMTYPE_NEWWORLD)
1437 // *wp++ = htons(0x3035); // (PowerMac 9500 ID)
1438 // else
1439 *wp++ = htons(0x3020); // (PowerMac 9500 ID)
1440 *wp++ = htons(0xb040); // cmp.w d0,d0
1441 *wp = htons(0x4ed6); // jmp (a6)
1442
1443 // Patch UniversalInfo
1444 if (ROMType == ROMTYPE_NEWWORLD) {
1445 static const uint8 univ_info_dat[] = {0x3f, 0xff, 0x04, 0x00};
1446 if ((base = find_rom_data(0x14000, 0x18000, univ_info_dat, sizeof(univ_info_dat))) == 0) return false;
1447 D(bug("universal_info %08lx\n", base));
1448 lp = (uint32 *)(ROM_BASE + base - 0x14);
1449 lp[0x00 >> 2] = htonl(ADDR_MAP_PATCH_SPACE - (base - 0x14));
1450 lp[0x10 >> 2] = htonl(0xcc003d11); // Make it like the PowerMac 9500 UniversalInfo
1451 lp[0x14 >> 2] = htonl(0x3fff0401);
1452 lp[0x18 >> 2] = htonl(0x0300001c);
1453 lp[0x1c >> 2] = htonl(0x000108c4);
1454 lp[0x24 >> 2] = htonl(0xc301bf26);
1455 lp[0x28 >> 2] = htonl(0x00000861);
1456 lp[0x58 >> 2] = htonl(0x30200000);
1457 lp[0x60 >> 2] = htonl(0x0000003d);
1458 } else if (ROMType == ROMTYPE_ZANZIBAR) {
1459 base = 0x12b70;
1460 lp = (uint32 *)(ROM_BASE + base - 0x14);
1461 lp[0x00 >> 2] = htonl(ADDR_MAP_PATCH_SPACE - (base - 0x14));
1462 lp[0x10 >> 2] = htonl(0xcc003d11); // Make it like the PowerMac 9500 UniversalInfo
1463 lp[0x14 >> 2] = htonl(0x3fff0401);
1464 lp[0x18 >> 2] = htonl(0x0300001c);
1465 lp[0x1c >> 2] = htonl(0x000108c4);
1466 lp[0x24 >> 2] = htonl(0xc301bf26);
1467 lp[0x28 >> 2] = htonl(0x00000861);
1468 lp[0x58 >> 2] = htonl(0x30200000);
1469 lp[0x60 >> 2] = htonl(0x0000003d);
1470 } else if (ROMType == ROMTYPE_GOSSAMER) {
1471 base = 0x12d20;
1472 lp = (uint32 *)(ROM_BASE + base - 0x14);
1473 lp[0x00 >> 2] = htonl(ADDR_MAP_PATCH_SPACE - (base - 0x14));
1474 lp[0x10 >> 2] = htonl(0xcc003d11); // Make it like the PowerMac 9500 UniversalInfo
1475 lp[0x14 >> 2] = htonl(0x3fff0401);
1476 lp[0x18 >> 2] = htonl(0x0300001c);
1477 lp[0x1c >> 2] = htonl(0x000108c4);
1478 lp[0x24 >> 2] = htonl(0xc301bf26);
1479 lp[0x28 >> 2] = htonl(0x00000861);
1480 lp[0x58 >> 2] = htonl(0x30410000);
1481 lp[0x60 >> 2] = htonl(0x0000003d);
1482 }
1483
1484 // Construct AddrMap for NewWorld ROM
1485 if (ROMType == ROMTYPE_NEWWORLD || ROMType == ROMTYPE_ZANZIBAR || ROMType == ROMTYPE_GOSSAMER) {
1486 lp = (uint32 *)(ROM_BASE + ADDR_MAP_PATCH_SPACE);
1487 memset(lp - 10, 0, 0x128);
1488 lp[-10] = htonl(0x0300001c);
1489 lp[-9] = htonl(0x000108c4);
1490 lp[-4] = htonl(0x00300000);
1491 lp[-2] = htonl(0x11010000);
1492 lp[-1] = htonl(0xf8000000);
1493 lp[0] = htonl(0xffc00000);
1494 lp[2] = htonl(0xf3016000);
1495 lp[3] = htonl(0xf3012000);
1496 lp[4] = htonl(0xf3012000);
1497 lp[24] = htonl(0xf3018000);
1498 lp[25] = htonl(0xf3010000);
1499 lp[34] = htonl(0xf3011000);
1500 lp[38] = htonl(0xf3015000);
1501 lp[39] = htonl(0xf3014000);
1502 lp[43] = htonl(0xf3000000);
1503 lp[48] = htonl(0xf8000000);
1504 }
1505
1506 // Don't initialize VIA (via Universal)
1507 static const uint8 via_init_dat[] = {0x08, 0x00, 0x00, 0x02, 0x67, 0x00, 0x00, 0x2c, 0x24, 0x68, 0x00, 0x08};
1508 if ((base = find_rom_data(0xe000, 0x15000, via_init_dat, sizeof(via_init_dat))) == 0) return false;
1509 D(bug("via_init %08lx\n", base));
1510 wp = (uint16 *)(ROM_BASE + base + 4);
1511 *wp = htons(0x6000); // bra
1512
1513 static const uint8 via_init2_dat[] = {0x24, 0x68, 0x00, 0x08, 0x00, 0x12, 0x00, 0x30, 0x4e, 0x71};
1514 if ((base = find_rom_data(0xa000, 0x10000, via_init2_dat, sizeof(via_init2_dat))) == 0) return false;
1515 D(bug("via_init2 %08lx\n", base));
1516 wp = (uint16 *)(ROM_BASE + base);
1517 *wp = htons(0x4ed6); // jmp (a6)
1518
1519 static const uint8 via_init3_dat[] = {0x22, 0x68, 0x00, 0x08, 0x28, 0x3c, 0x20, 0x00, 0x01, 0x00};
1520 if ((base = find_rom_data(0xa000, 0x10000, via_init3_dat, sizeof(via_init3_dat))) == 0) return false;
1521 D(bug("via_init3 %08lx\n", base));
1522 wp = (uint16 *)(ROM_BASE + base);
1523 *wp = htons(0x4ed6); // jmp (a6)
1524
1525 // Don't RunDiags, get BootGlobs pointer directly
1526 if (ROMType == ROMTYPE_NEWWORLD) {
1527 static const uint8 run_diags_dat[] = {0x60, 0xff, 0x00, 0x0c};
1528 if ((base = find_rom_data(0x110, 0x128, run_diags_dat, sizeof(run_diags_dat))) == 0) return false;
1529 D(bug("run_diags %08lx\n", base));
1530 wp = (uint16 *)(ROM_BASE + base);
1531 *wp++ = htons(0x4df9); // lea xxx,a6
1532 *wp++ = htons((RAMBase + RAMSize - 0x1c) >> 16);
1533 *wp = htons((RAMBase + RAMSize - 0x1c) & 0xffff);
1534 } else {
1535 static const uint8 run_diags_dat[] = {0x74, 0x00, 0x2f, 0x0e};
1536 if ((base = find_rom_data(0xd0, 0xf0, run_diags_dat, sizeof(run_diags_dat))) == 0) return false;
1537 D(bug("run_diags %08lx\n", base));
1538 wp = (uint16 *)(ROM_BASE + base - 6);
1539 *wp++ = htons(0x4df9); // lea xxx,a6
1540 *wp++ = htons((RAMBase + RAMSize - 0x1c) >> 16);
1541 *wp = htons((RAMBase + RAMSize - 0x1c) & 0xffff);
1542 }
1543
1544 // Replace NVRAM routines
1545 static const uint8 nvram1_dat[] = {0x48, 0xe7, 0x01, 0x0e, 0x24, 0x68, 0x00, 0x08, 0x08, 0x83, 0x00, 0x1f};
1546 if ((base = find_rom_data(0x7000, 0xc000, nvram1_dat, sizeof(nvram1_dat))) == 0) return false;
1547 D(bug("nvram1 %08lx\n", base));
1548 wp = (uint16 *)(ROM_BASE + base);
1549 *wp++ = htons(M68K_EMUL_OP_XPRAM1);
1550 *wp = htons(M68K_RTS);
1551
1552 if (ROMType == ROMTYPE_NEWWORLD) {
1553 static const uint8 nvram2_dat[] = {0x48, 0xe7, 0x1c, 0xe0, 0x4f, 0xef, 0xff, 0xb4};
1554 if ((base = find_rom_data(0xa000, 0xd000, nvram2_dat, sizeof(nvram2_dat))) == 0) return false;
1555 D(bug("nvram2 %08lx\n", base));
1556 wp = (uint16 *)(ROM_BASE + base);
1557 *wp++ = htons(M68K_EMUL_OP_XPRAM2);
1558 *wp = htons(0x4ed3); // jmp (a3)
1559
1560 static const uint8 nvram3_dat[] = {0x48, 0xe7, 0xdc, 0xe0, 0x4f, 0xef, 0xff, 0xb4};
1561 if ((base = find_rom_data(0xa000, 0xd000, nvram3_dat, sizeof(nvram3_dat))) == 0) return false;
1562 D(bug("nvram3 %08lx\n", base));
1563 wp = (uint16 *)(ROM_BASE + base);
1564 *wp++ = htons(M68K_EMUL_OP_XPRAM3);
1565 *wp = htons(0x4ed3); // jmp (a3)
1566
1567 static const uint8 nvram4_dat[] = {0x4e, 0x56, 0xff, 0xa8, 0x48, 0xe7, 0x1f, 0x38, 0x16, 0x2e, 0x00, 0x13};
1568 if ((base = find_rom_data(0xa000, 0xd000, nvram4_dat, sizeof(nvram4_dat))) == 0) return false;
1569 D(bug("nvram4 %08lx\n", base));
1570 wp = (uint16 *)(ROM_BASE + base + 16);
1571 *wp++ = htons(0x1a2e); // move.b ($000f,a6),d5
1572 *wp++ = htons(0x000f);
1573 *wp++ = htons(M68K_EMUL_OP_NVRAM3);
1574 *wp++ = htons(0x4cee); // movem.l ($ff88,a6),d3-d7/a2-a4
1575 *wp++ = htons(0x1cf8);
1576 *wp++ = htons(0xff88);
1577 *wp++ = htons(0x4e5e); // unlk a6
1578 *wp = htons(M68K_RTS);
1579
1580 static const uint8 nvram5_dat[] = {0x0c, 0x80, 0x03, 0x00, 0x00, 0x00, 0x66, 0x0a, 0x70, 0x00, 0x21, 0xf8, 0x02, 0x0c, 0x01, 0xe4};
1581 if ((base = find_rom_data(0xa000, 0xd000, nvram5_dat, sizeof(nvram5_dat))) == 0) return false;
1582 D(bug("nvram5 %08lx\n", base));
1583 wp = (uint16 *)(ROM_BASE + base + 6);
1584 *wp = htons(M68K_NOP);
1585
1586 static const uint8 nvram6_dat[] = {0x2f, 0x0a, 0x24, 0x48, 0x4f, 0xef, 0xff, 0xa0, 0x20, 0x0f};
1587 if ((base = find_rom_data(0x9000, 0xb000, nvram6_dat, sizeof(nvram6_dat))) == 0) return false;
1588 D(bug("nvram6 %08lx\n", base));
1589 wp = (uint16 *)(ROM_BASE + base);
1590 *wp++ = htons(0x7000); // moveq #0,d0
1591 *wp++ = htons(0x2080); // move.l d0,(a0)
1592 *wp++ = htons(0x4228); // clr.b 4(a0)
1593 *wp++ = htons(0x0004);
1594 *wp = htons(M68K_RTS);
1595
1596 static const uint8 nvram7_dat[] = {0x42, 0x2a, 0x00, 0x04, 0x4f, 0xef, 0x00, 0x60, 0x24, 0x5f, 0x4e, 0x75, 0x4f, 0xef, 0xff, 0xa0, 0x20, 0x0f};
1597 base = find_rom_data(0x9000, 0xb000, nvram7_dat, sizeof(nvram7_dat));
1598 if (base) {
1599 D(bug("nvram7 %08lx\n", base));
1600 wp = (uint16 *)(ROM_BASE + base + 12);
1601 *wp = htons(M68K_RTS);
1602 }
1603 } else {
1604 static const uint8 nvram2_dat[] = {0x4e, 0xd6, 0x06, 0x41, 0x13, 0x00};
1605 if ((base = find_rom_data(0x7000, 0xb000, nvram2_dat, sizeof(nvram2_dat))) == 0) return false;
1606 D(bug("nvram2 %08lx\n", base));
1607 wp = (uint16 *)(ROM_BASE + base + 2);
1608 *wp++ = htons(M68K_EMUL_OP_XPRAM2);
1609 *wp = htons(0x4ed3); // jmp (a3)
1610
1611 static const uint8 nvram3_dat[] = {0x4e, 0xd3, 0x06, 0x41, 0x13, 0x00};
1612 if ((base = find_rom_data(0x7000, 0xb000, nvram3_dat, sizeof(nvram3_dat))) == 0) return false;
1613 D(bug("nvram3 %08lx\n", base));
1614 wp = (uint16 *)(ROM_BASE + base + 2);
1615 *wp++ = htons(M68K_EMUL_OP_XPRAM3);
1616 *wp = htons(0x4ed3); // jmp (a3)
1617
1618 static const uint32 nvram4_loc[] = {0x582f0, 0xa0a0, 0x7e50, 0xa1d0, 0x538d0, 0};
1619 wp = (uint16 *)(ROM_BASE + nvram4_loc[ROMType]);
1620 *wp++ = htons(0x202f); // move.l 4(sp),d0
1621 *wp++ = htons(0x0004);
1622 *wp++ = htons(M68K_EMUL_OP_NVRAM1);
1623 if (ROMType == ROMTYPE_ZANZIBAR || ROMType == ROMTYPE_GAZELLE)
1624 *wp = htons(M68K_RTS);
1625 else {
1626 *wp++ = htons(0x1f40); // move.b d0,8(sp)
1627 *wp++ = htons(0x0008);
1628 *wp++ = htons(0x4e74); // rtd #4
1629 *wp = htons(0x0004);
1630 }
1631
1632 static const uint32 nvram5_loc[] = {0x58460, 0xa0f0, 0x7f40, 0xa220, 0x53a20, 0};
1633 wp = (uint16 *)(ROM_BASE + nvram5_loc[ROMType]);
1634 if (ROMType == ROMTYPE_ZANZIBAR || ROMType == ROMTYPE_GAZELLE) {
1635 *wp++ = htons(0x202f); // move.l 4(sp),d0
1636 *wp++ = htons(0x0004);
1637 *wp++ = htons(0x122f); // move.b 11(sp),d1
1638 *wp++ = htons(0x000b);
1639 *wp++ = htons(M68K_EMUL_OP_NVRAM2);
1640 *wp = htons(M68K_RTS);
1641 } else {
1642 *wp++ = htons(0x202f); // move.l 6(sp),d0
1643 *wp++ = htons(0x0006);
1644 *wp++ = htons(0x122f); // move.b 4(sp),d1
1645 *wp++ = htons(0x0004);
1646 *wp++ = htons(M68K_EMUL_OP_NVRAM2);
1647 *wp++ = htons(0x4e74); // rtd #6
1648 *wp = htons(0x0006);
1649 }
1650 }
1651
1652 // Fix MemTop/BootGlobs during system startup
1653 static const uint8 mem_top_dat[] = {0x2c, 0x6c, 0xff, 0xec, 0x2a, 0x4c, 0xdb, 0xec, 0xff, 0xf4};
1654 if ((base = find_rom_data(0x120, 0x180, mem_top_dat, sizeof(mem_top_dat))) == 0) return false;
1655 D(bug("mem_top %08lx\n", base));
1656 wp = (uint16 *)(ROM_BASE + base);
1657 *wp++ = htons(M68K_EMUL_OP_FIX_MEMTOP);
1658 *wp = htons(M68K_NOP);
1659
1660 // Don't initialize SCC (via 0x1ac)
1661 static const uint8 scc_init_caller_dat[] = {0x21, 0xce, 0x01, 0x08, 0x22, 0x78, 0x0d, 0xd8};
1662 if ((base = find_rom_data(0x180, 0x1f0, scc_init_caller_dat, sizeof(scc_init_caller_dat))) == 0) return false;
1663 D(bug("scc_init_caller %08lx\n", base + 12));
1664 wp = (uint16 *)(ROM_BASE + base + 12);
1665 loc = ntohs(wp[1]) + ((uintptr)wp - ROM_BASE) + 2;
1666 static const uint8 scc_init_dat[] = {0x20, 0x78, 0x01, 0xdc, 0x22, 0x78, 0x01, 0xd8};
1667 if ((base = find_rom_data(loc, loc + 0x80, scc_init_dat, sizeof(scc_init_dat))) == 0) return false;
1668 D(bug("scc_init %08lx\n", base));
1669 wp = (uint16 *)(ROM_BASE + base);
1670 *wp++ = htons(M68K_EMUL_OP_RESET);
1671 *wp = htons(M68K_RTS);
1672
1673 // Don't EnableExtCache (via 0x1f6) and don't DisableIntSources(via 0x1fc)
1674 static const uint8 ext_cache_dat[] = {0x4e, 0x7b, 0x00, 0x02};
1675 if ((base = find_rom_data(0x1d0, 0x230, ext_cache_dat, sizeof(ext_cache_dat))) == 0) return false;
1676 D(bug("ext_cache %08lx\n", base));
1677 lp = (uint32 *)(ROM_BASE + base + 6);
1678 wp = (uint16 *)(ROM_BASE + ntohl(*lp) + base + 6);
1679 *wp = htons(M68K_RTS);
1680 lp = (uint32 *)(ROM_BASE + base + 12);
1681 wp = (uint16 *)(ROM_BASE + ntohl(*lp) + base + 12);
1682 *wp = htons(M68K_RTS);
1683
1684 // Fake CPU speed test (SetupTimeK)
1685 static const uint8 timek_dat[] = {0x0c, 0x38, 0x00, 0x04, 0x01, 0x2f, 0x6d, 0x3c};
1686 if ((base = find_rom_data(0x400, 0x500, timek_dat, sizeof(timek_dat))) == 0) return false;
1687 D(bug("timek %08lx\n", base));
1688 wp = (uint16 *)(ROM_BASE + base);
1689 *wp++ = htons(0x31fc); // move.w #xxx,TimeDBRA
1690 *wp++ = htons(100);
1691 *wp++ = htons(0x0d00);
1692 *wp++ = htons(0x31fc); // move.w #xxx,TimeSCCDBRA
1693 *wp++ = htons(100);
1694 *wp++ = htons(0x0d02);
1695 *wp++ = htons(0x31fc); // move.w #xxx,TimeSCSIDBRA
1696 *wp++ = htons(100);
1697 *wp++ = htons(0x0b24);
1698 *wp++ = htons(0x31fc); // move.w #xxx,TimeRAMDBRA
1699 *wp++ = htons(100);
1700 *wp++ = htons(0x0cea);
1701 *wp = htons(M68K_RTS);
1702
1703 // Relocate jump tables ($2000..)
1704 static const uint8 jump_tab_dat[] = {0x41, 0xfa, 0x00, 0x0e, 0x21, 0xc8, 0x20, 0x10, 0x4e, 0x75};
1705 if ((base = find_rom_data(0x3000, 0x6000, jump_tab_dat, sizeof(jump_tab_dat))) == 0) return false;
1706 D(bug("jump_tab %08lx\n", base));
1707 lp = (uint32 *)(ROM_BASE + base + 16);
1708 for (;;) {
1709 D(bug(" %08lx\n", (uint32)lp - ROM_BASE));
1710 while ((ntohl(*lp) & 0xff000000) == 0xff000000) {
1711 *lp = htonl((ntohl(*lp) & (ROM_SIZE-1)) + ROM_BASE);
1712 lp++;
1713 }
1714 while (!ntohl(*lp)) lp++;
1715 if (ntohl(*lp) != 0x41fa000e)
1716 break;
1717 lp += 4;
1718 }
1719
1720 // Create SysZone at start of Mac RAM (SetSysAppZone, via 0x22a)
1721 static const uint8 sys_zone_dat[] = {0x00, 0x00, 0x28, 0x00, 0x00, 0x00, 0x40, 0x00};
1722 if ((base = find_rom_data(0x600, 0x900, sys_zone_dat, sizeof(sys_zone_dat))) == 0) return false;
1723 D(bug("sys_zone %08lx\n", base));
1724 lp = (uint32 *)(ROM_BASE + base);
1725 *lp++ = htonl(RAMBase ? RAMBase : 0x3000);
1726 *lp = htonl(RAMBase ? RAMBase + 0x1800 : 0x4800);
1727
1728 // Set boot stack at RAMBase+4MB and fix logical/physical RAM size (CompBootStack)
1729 // The RAM size fix must be done after InitMemMgr!
1730 static const uint8 boot_stack_dat[] = {0x08, 0x38, 0x00, 0x06, 0x24, 0x0b};
1731 if ((base = find_rom_data(0x580, 0x800, boot_stack_dat, sizeof(boot_stack_dat))) == 0) return false;
1732 D(bug("boot_stack %08lx\n", base));
1733 wp = (uint16 *)(ROM_BASE + base);
1734 *wp++ = htons(0x207c); // move.l #RAMBase+0x3ffffe,a0
1735 *wp++ = htons((RAMBase + 0x3ffffe) >> 16);
1736 *wp++ = htons((RAMBase + 0x3ffffe) & 0xffff);
1737 *wp++ = htons(M68K_EMUL_OP_FIX_MEMSIZE);
1738 *wp = htons(M68K_RTS);
1739
1740 // Get PowerPC page size (InitVMemMgr, via 0x240)
1741 static const uint8 page_size_dat[] = {0x20, 0x30, 0x81, 0xf2, 0x5f, 0xff, 0xef, 0xd8, 0x00, 0x10};
1742 if ((base = find_rom_data(0xb000, 0x12000, page_size_dat, sizeof(page_size_dat))) == 0) return false;
1743 D(bug("page_size %08lx\n", base));
1744 wp = (uint16 *)(ROM_BASE + base);
1745 *wp++ = htons(0x203c); // move.l #$1000,d0
1746 *wp++ = htons(0);
1747 *wp++ = htons(0x1000);
1748 *wp++ = htons(M68K_NOP);
1749 *wp = htons(M68K_NOP);
1750
1751 // Gestalt PowerPC page size, RAM size (InitGestalt, via 0x25c)
1752 static const uint8 page_size2_dat[] = {0x26, 0x79, 0x5f, 0xff, 0xef, 0xd8, 0x25, 0x6b, 0x00, 0x10, 0x00, 0x1e};
1753 if ((base = find_rom_data(0x50000, 0x70000, page_size2_dat, sizeof(page_size2_dat))) == 0) return false;
1754 D(bug("page_size2 %08lx\n", base));
1755 wp = (uint16 *)(ROM_BASE + base);
1756 *wp++ = htons(0x257c); // move.l #$1000,$1e(a2)
1757 *wp++ = htons(0);
1758 *wp++ = htons(0x1000);
1759 *wp++ = htons(0x001e);
1760 *wp++ = htons(0x157c); // move.b #PVR,$1d(a2)
1761 *wp++ = htons(PVR >> 16);
1762 *wp++ = htons(0x001d);
1763 *wp++ = htons(0x263c); // move.l #RAMSize,d3
1764 *wp++ = htons(RAMSize >> 16);
1765 *wp++ = htons(RAMSize & 0xffff);
1766 *wp++ = htons(M68K_NOP);
1767 *wp++ = htons(M68K_NOP);
1768 *wp = htons(M68K_NOP);
1769 if (ROMType == ROMTYPE_NEWWORLD)
1770 wp = (uint16 *)(ROM_BASE + base + 0x4a);
1771 else
1772 wp = (uint16 *)(ROM_BASE + base + 0x28);
1773 *wp++ = htons(M68K_NOP);
1774 *wp = htons(M68K_NOP);
1775
1776 // Gestalt CPU/bus clock speed (InitGestalt, via 0x25c)
1777 if (ROMType == ROMTYPE_ZANZIBAR) {
1778 wp = (uint16 *)(ROM_BASE + 0x5d87a);
1779 *wp++ = htons(0x203c); // move.l #Hz,d0
1780 *wp++ = htons(BusClockSpeed >> 16);
1781 *wp++ = htons(BusClockSpeed & 0xffff);
1782 *wp++ = htons(M68K_NOP);
1783 *wp = htons(M68K_NOP);
1784 wp = (uint16 *)(ROM_BASE + 0x5d888);
1785 *wp++ = htons(0x203c); // move.l #Hz,d0
1786 *wp++ = htons(CPUClockSpeed >> 16);
1787 *wp++ = htons(CPUClockSpeed & 0xffff);
1788 *wp++ = htons(M68K_NOP);
1789 *wp = htons(M68K_NOP);
1790 }
1791
1792 // Don't write to GC interrupt mask register (via 0x262)
1793 if (ROMType != ROMTYPE_NEWWORLD) {
1794 static const uint8 gc_mask_dat[] = {0x83, 0xa8, 0x00, 0x24, 0x4e, 0x71};
1795 if ((base = find_rom_data(0x13000, 0x20000, gc_mask_dat, sizeof(gc_mask_dat))) == 0) return false;
1796 D(bug("gc_mask %08lx\n", base));
1797 wp = (uint16 *)(ROM_BASE + base);
1798 *wp++ = htons(M68K_NOP);
1799 *wp = htons(M68K_NOP);
1800 wp = (uint16 *)(ROM_BASE + base + 0x40);
1801 *wp++ = htons(M68K_NOP);
1802 *wp = htons(M68K_NOP);
1803 wp = (uint16 *)(ROM_BASE + base + 0x78);
1804 *wp++ = htons(M68K_NOP);
1805 *wp = htons(M68K_NOP);
1806 wp = (uint16 *)(ROM_BASE + base + 0x96);
1807 *wp++ = htons(M68K_NOP);
1808 *wp = htons(M68K_NOP);
1809
1810 static const uint8 gc_mask2_dat[] = {0x02, 0xa8, 0x00, 0x00, 0x00, 0x80, 0x00, 0x24};
1811 if ((base = find_rom_data(0x13000, 0x20000, gc_mask2_dat, sizeof(gc_mask2_dat))) == 0) return false;
1812 D(bug("gc_mask2 %08lx\n", base));
1813 wp = (uint16 *)(ROM_BASE + base);
1814 if (ROMType == ROMTYPE_GOSSAMER)
1815 *wp++ = htons(M68K_NOP);
1816 for (int i=0; i<5; i++) {
1817 *wp++ = htons(M68K_NOP);
1818 *wp++ = htons(M68K_NOP);
1819 *wp++ = htons(M68K_NOP);
1820 *wp++ = htons(M68K_NOP);
1821 wp += 2;
1822 }
1823 if (ROMType == ROMTYPE_ZANZIBAR || ROMType == ROMTYPE_GOSSAMER) {
1824 for (int i=0; i<6; i++) {
1825 *wp++ = htons(M68K_NOP);
1826 *wp++ = htons(M68K_NOP);
1827 *wp++ = htons(M68K_NOP);
1828 *wp++ = htons(M68K_NOP);
1829 wp += 2;
1830 }
1831 }
1832 }
1833
1834 // Don't initialize Cuda (via 0x274)
1835 static const uint8 cuda_init_dat[] = {0x08, 0xa9, 0x00, 0x04, 0x16, 0x00, 0x4e, 0x71, 0x13, 0x7c, 0x00, 0x84, 0x1c, 0x00, 0x4e, 0x71};
1836 if ((base = find_rom_data(0xa000, 0x12000, cuda_init_dat, sizeof(cuda_init_dat))) == 0) return false;
1837 D(bug("cuda_init %08lx\n", base));
1838 wp = (uint16 *)(ROM_BASE + base);
1839 *wp++ = htons(M68K_NOP);
1840 *wp++ = htons(M68K_NOP);
1841 *wp++ = htons(M68K_NOP);
1842 *wp++ = htons(M68K_NOP);
1843 *wp++ = htons(M68K_NOP);
1844 *wp++ = htons(M68K_NOP);
1845 *wp = htons(M68K_NOP);
1846
1847 // Patch GetCPUSpeed (via 0x27a) (some ROMs have two of them)
1848 static const uint8 cpu_speed_dat[] = {0x20, 0x30, 0x81, 0xf2, 0x5f, 0xff, 0xef, 0xd8, 0x00, 0x04, 0x4c, 0x7c};
1849 if ((base = find_rom_data(0x6000, 0xa000, cpu_speed_dat, sizeof(cpu_speed_dat))) == 0) return false;
1850 D(bug("cpu_speed %08lx\n", base));
1851 wp = (uint16 *)(ROM_BASE + base);
1852 *wp++ = htons(0x203c); // move.l #(MHz<<16)|MHz,d0
1853 *wp++ = htons(CPUClockSpeed / 1000000);
1854 *wp++ = htons(CPUClockSpeed / 1000000);
1855 *wp = htons(M68K_RTS);
1856 if ((base = find_rom_data(base, 0xa000, cpu_speed_dat, sizeof(cpu_speed_dat))) != 0) {
1857 D(bug("cpu_speed2 %08lx\n", base));
1858 wp = (uint16 *)(ROM_BASE + base);
1859 *wp++ = htons(0x203c); // move.l #(MHz<<16)|MHz,d0
1860 *wp++ = htons(CPUClockSpeed / 1000000);
1861 *wp++ = htons(CPUClockSpeed / 1000000);
1862 *wp = htons(M68K_RTS);
1863 }
1864
1865 // Don't poke VIA in InitTimeMgr (via 0x298)
1866 static const uint8 time_via_dat[] = {0x40, 0xe7, 0x00, 0x7c, 0x07, 0x00, 0x28, 0x78, 0x01, 0xd4, 0x43, 0xec, 0x10, 0x00};
1867 if ((base = find_rom_data(0x30000, 0x40000, time_via_dat, sizeof(time_via_dat))) == 0) return false;
1868 D(bug("time_via %08lx\n", base));
1869 wp = (uint16 *)(ROM_BASE + base);
1870 *wp++ = htons(0x4cdf); // movem.l (sp)+,d0-d5/a0-a4
1871 *wp++ = htons(0x1f3f);
1872 *wp = htons(M68K_RTS);
1873
1874 // Don't read from 0xff800000 (Name Registry, Open Firmware?) (via 0x2a2)
1875 // Remove this if FE03 works!!
1876 static const uint8 open_firmware_dat[] = {0x2f, 0x79, 0xff, 0x80, 0x00, 0x00, 0x00, 0xfc};
1877 if ((base = find_rom_data(0x48000, 0x58000, open_firmware_dat, sizeof(open_firmware_dat))) == 0) return false;
1878 D(bug("open_firmware %08lx\n", base));
1879 wp = (uint16 *)(ROM_BASE + base);
1880 *wp++ = htons(0x2f7c); // move.l #deadbeef,0xfc(a7)
1881 *wp++ = htons(0xdead);
1882 *wp++ = htons(0xbeef);
1883 *wp = htons(0x00fc);
1884 wp = (uint16 *)(ROM_BASE + base + 0x1a);
1885 *wp++ = htons(M68K_NOP); // (FE03 opcode, tries to jump to 0xdeadbeef)
1886 *wp = htons(M68K_NOP);
1887
1888 // Don't EnableExtCache (via 0x2b2)
1889 static const uint8 ext_cache2_dat[] = {0x4f, 0xef, 0xff, 0xec, 0x20, 0x4f, 0x10, 0xbc, 0x00, 0x01, 0x11, 0x7c, 0x00, 0x1b};
1890 if ((base = find_rom_data(0x13000, 0x20000, ext_cache2_dat, sizeof(ext_cache2_dat))) == 0) return false;
1891 D(bug("ext_cache2 %08lx\n", base));
1892 wp = (uint16 *)(ROM_BASE + base);
1893 *wp = htons(M68K_RTS);
1894
1895 // Don't install Time Manager task for 60Hz interrupt (Enable60HzInts, via 0x2b8)
1896 if (ROMType == ROMTYPE_NEWWORLD || ROMType == ROMTYPE_GOSSAMER) {
1897 static const uint8 tm_task_dat[] = {0x30, 0x3c, 0x4e, 0x2b, 0xa9, 0xc9};
1898 if ((base = find_rom_data(0x2a0, 0x320, tm_task_dat, sizeof(tm_task_dat))) == 0) return false;
1899 D(bug("tm_task %08lx\n", base));
1900 wp = (uint16 *)(ROM_BASE + base + 28);
1901 *wp++ = htons(M68K_NOP);
1902 *wp++ = htons(M68K_NOP);
1903 *wp++ = htons(M68K_NOP);
1904 *wp++ = htons(M68K_NOP);
1905 *wp++ = htons(M68K_NOP);
1906 *wp = htons(M68K_NOP);
1907 } else {
1908 static const uint8 tm_task_dat[] = {0x20, 0x3c, 0x73, 0x79, 0x73, 0x61};
1909 if ((base = find_rom_data(0x280, 0x300, tm_task_dat, sizeof(tm_task_dat))) == 0) return false;
1910 D(bug("tm_task %08lx\n", base));
1911 wp = (uint16 *)(ROM_BASE + base - 6);
1912 *wp++ = htons(M68K_NOP);
1913 *wp++ = htons(M68K_NOP);
1914 *wp = htons(M68K_NOP);
1915 }
1916
1917 // Don't read PVR from 0x5fffef80 in DriverServicesLib (via 0x316)
1918 if (ROMType != ROMTYPE_NEWWORLD && ROMType != ROMTYPE_GOSSAMER) {
1919 uint32 dsl_offset = find_rom_resource(FOURCC('n','l','i','b'), -16401);
1920 if (ROMType == ROMTYPE_ZANZIBAR) {
1921 static const uint8 dsl_pvr_dat[] = {0x40, 0x82, 0x00, 0x40, 0x38, 0x60, 0xef, 0x80, 0x3c, 0x63, 0x60, 0x00, 0x80, 0x83, 0x00, 0x00, 0x54, 0x84, 0x84, 0x3e};
1922 if ((base = find_rom_data(dsl_offset, dsl_offset + 0x6000, dsl_pvr_dat, sizeof(dsl_pvr_dat))) == 0) return false;
1923 } else {
1924 static const uint8 dsl_pvr_dat[] = {0x3b, 0xc3, 0x00, 0x00, 0x30, 0x84, 0xff, 0xa0, 0x40, 0x82, 0x00, 0x44, 0x80, 0x84, 0xef, 0xe0, 0x54, 0x84, 0x84, 0x3e};
1925 if ((base = find_rom_data(dsl_offset, dsl_offset + 0x6000, dsl_pvr_dat, sizeof(dsl_pvr_dat))) == 0) return false;
1926 }
1927 D(bug("dsl_pvr %08lx\n", base));
1928 lp = (uint32 *)(ROM_BASE + base + 12);
1929 *lp = htonl(0x3c800000 | (PVR >> 16)); // lis r4,PVR
1930
1931 // Don't read bus clock from 0x5fffef88 in DriverServicesLib (via 0x316)
1932 if (ROMType == ROMTYPE_ZANZIBAR) {
1933 static const uint8 dsl_bus_dat[] = {0x81, 0x07, 0x00, 0x00, 0x39, 0x20, 0x42, 0x40, 0x81, 0x62, 0xff, 0x20};
1934 if ((base = find_rom_data(dsl_offset, dsl_offset + 0x6000, dsl_bus_dat, sizeof(dsl_bus_dat))) == 0) return false;
1935 D(bug("dsl_bus %08lx\n", base));
1936 lp = (uint32 *)(ROM_BASE + base);
1937 *lp = htonl(0x81000000 + XLM_BUS_CLOCK); // lwz r8,(bus clock speed)
1938 } else {
1939 static const uint8 dsl_bus_dat[] = {0x80, 0x83, 0xef, 0xe8, 0x80, 0x62, 0x00, 0x10, 0x7c, 0x04, 0x03, 0x96};
1940 if ((base = find_rom_data(dsl_offset, dsl_offset + 0x6000, dsl_bus_dat, sizeof(dsl_bus_dat))) == 0) return false;
1941 D(bug("dsl_bus %08lx\n", base));
1942 lp = (uint32 *)(ROM_BASE + base);
1943 *lp = htonl(0x80800000 + XLM_BUS_CLOCK); // lwz r4,(bus clock speed)
1944 }
1945 }
1946
1947 // Don't open InterruptTreeTNT in MotherBoardHAL init in DriverServicesLib init
1948 if (ROMType == ROMTYPE_ZANZIBAR) {
1949 lp = (uint32 *)(ROM_BASE + find_rom_resource(FOURCC('n','l','i','b'), -16408) + 0x16c);
1950 *lp = htonl(0x38600000); // li r3,0
1951 }
1952
1953 // FIXME: Fake reading from [HpChk]+4 (the callchain reports some function from DriverServicesLib)
1954 if (1) {
1955 uint32 hpchk_offset = find_rom_resource(FOURCC('n','l','i','b'), 10);
1956 static const uint8 hpchk_dat[] = {0x80, 0x80, 0x03, 0x16, 0x94, 0x21, 0xff, 0xb0, 0x83, 0xc4, 0x00, 0x04};
1957 if ((base = find_rom_data(hpchk_offset, hpchk_offset + 0x3000, hpchk_dat, sizeof(hpchk_dat))) == 0) return false;
1958 D(bug("hpchk %08lx\n", base));
1959 lp = (uint32 *)(ROM_BASE + base);
1960 *lp = htonl(0x80800000 + XLM_ZERO_PAGE); // lwz r4,(zero page)
1961 }
1962
1963 // Patch Name Registry
1964 static const uint8 name_reg_dat[] = {0x70, 0xff, 0xab, 0xeb};
1965 if ((base = find_rom_data(0x300, 0x380, name_reg_dat, sizeof(name_reg_dat))) == 0) return false;
1966 D(bug("name_reg %08lx\n", base));
1967 wp = (uint16 *)(ROM_BASE + base);
1968 *wp = htons(M68K_EMUL_OP_NAME_REGISTRY);
1969
1970 #if DISABLE_SCSI
1971 // Fake SCSI Manager
1972 // Remove this if SCSI Manager works!!
1973 static const uint8 scsi_mgr_a_dat[] = {0x4e, 0x56, 0x00, 0x00, 0x20, 0x3c, 0x00, 0x00, 0x04, 0x0c, 0xa7, 0x1e};
1974 static const uint8 scsi_mgr_b_dat[] = {0x4e, 0x56, 0x00, 0x00, 0x2f, 0x0c, 0x20, 0x3c, 0x00, 0x00, 0x04, 0x0c, 0xa7, 0x1e};
1975 if ((base = find_rom_data(0x1c000, 0x28000, scsi_mgr_a_dat, sizeof(scsi_mgr_a_dat))) == 0) {
1976 if ((base = find_rom_data(0x1c000, 0x28000, scsi_mgr_b_dat, sizeof(scsi_mgr_b_dat))) == 0) return false;
1977 }
1978 D(bug("scsi_mgr %08lx\n", base));
1979 wp = (uint16 *)(ROM_BASE + base);
1980 *wp++ = htons(0x21fc); // move.l #xxx,0x624 (SCSIAtomic)
1981 *wp++ = htons((ROM_BASE + base + 18) >> 16);
1982 *wp++ = htons((ROM_BASE + base + 18) & 0xffff);
1983 *wp++ = htons(0x0624);
1984 *wp++ = htons(0x21fc); // move.l #xxx,0xe54 (SCSIDispatch)
1985 *wp++ = htons((ROM_BASE + base + 22) >> 16);
1986 *wp++ = htons((ROM_BASE + base + 22) & 0xffff);
1987 *wp++ = htons(0x0e54);
1988 *wp++ = htons(M68K_RTS);
1989 *wp++ = htons(M68K_EMUL_OP_SCSI_ATOMIC);
1990 *wp++ = htons(M68K_RTS);
1991 *wp++ = htons(M68K_EMUL_OP_SCSI_DISPATCH);
1992 *wp = htons(0x4ed0); // jmp (a0)
1993 wp = (uint16 *)(ROM_BASE + base + 0x20);
1994 *wp++ = htons(0x7000); // moveq #0,d0
1995 *wp = htons(M68K_RTS);
1996 #endif
1997
1998 #if DISABLE_SCSI
1999 // Don't access SCSI variables
2000 // Remove this if SCSI Manager works!!
2001 if (ROMType == ROMTYPE_NEWWORLD) {
2002 static const uint8 scsi_var_dat[] = {0x70, 0x01, 0xa0, 0x89, 0x4a, 0x6e, 0xfe, 0xac, 0x4f, 0xef, 0x00, 0x10, 0x66, 0x00};
2003 if ((base = find_rom_data(0x1f500, 0x1f600, scsi_var_dat, sizeof(scsi_var_dat))) != 0) {
2004 D(bug("scsi_var %08lx\n", base));
2005 wp = (uint16 *)(ROM_BASE + base + 12);
2006 *wp = htons(0x6000); // bra
2007 }
2008
2009 static const uint8 scsi_var2_dat[] = {0x4e, 0x56, 0xfc, 0x58, 0x48, 0xe7, 0x1f, 0x38};
2010 if ((base = find_rom_data(0x1f700, 0x1f800, scsi_var2_dat, sizeof(scsi_var2_dat))) != 0) {
2011 D(bug("scsi_var2 %08lx\n", base));
2012 wp = (uint16 *)(ROM_BASE + base);
2013 *wp++ = htons(0x7000); // moveq #0,d0
2014 *wp = htons(M68K_RTS);
2015 }
2016 }
2017 else if (ROMType == ROMTYPE_GOSSAMER) {
2018 static const uint8 scsi_var_dat[] = {0x70, 0x01, 0xa0, 0x89, 0x4a, 0x6e, 0xfe, 0xac, 0x4f, 0xef, 0x00, 0x10, 0x66, 0x00};
2019 if ((base = find_rom_data(0x1d700, 0x1d800, scsi_var_dat, sizeof(scsi_var_dat))) != 0) {
2020 D(bug("scsi_var %08lx\n", base));
2021 wp = (uint16 *)(ROM_BASE + base + 12);
2022 *wp = htons(0x6000); // bra
2023 }
2024
2025 static const uint8 scsi_var2_dat[] = {0x4e, 0x56, 0xfc, 0x5a, 0x48, 0xe7, 0x1f, 0x38};
2026 if ((base = find_rom_data(0x1d900, 0x1da00, scsi_var2_dat, sizeof(scsi_var2_dat))) != 0) {
2027 D(bug("scsi_var2 %08lx\n", base));
2028 wp = (uint16 *)(ROM_BASE + base);
2029 *wp++ = htons(0x7000); // moveq #0,d0
2030 *wp = htons(M68K_RTS);
2031 }
2032 }
2033 #endif
2034
2035 // Don't wait in ADBInit (via 0x36c)
2036 static const uint8 adb_init_dat[] = {0x08, 0x2b, 0x00, 0x05, 0x01, 0x5d, 0x66, 0xf8};
2037 if ((base = find_rom_data(0x31000, 0x3d000, adb_init_dat, sizeof(adb_init_dat))) == 0) return false;
2038 D(bug("adb_init %08lx\n", base));
2039 wp = (uint16 *)(ROM_BASE + base + 6);
2040 *wp = htons(M68K_NOP);
2041
2042 // Modify check in InitResources() so that addresses >0x80000000 work
2043 static const uint8 init_res_dat[] = {0x4a, 0xb8, 0x0a, 0x50, 0x6e, 0x20};
2044 if ((base = find_rom_data(0x78000, 0x8c000, init_res_dat, sizeof(init_res_dat))) == 0) return false;
2045 D(bug("init_res %08lx\n", base));
2046 bp = (uint8 *)(ROM_BASE + base + 4);
2047 *bp = 0x66;
2048
2049 // Modify vCheckLoad() so that we can patch resources (68k Resource Manager)
2050 static const uint8 check_load_dat[] = {0x20, 0x78, 0x07, 0xf0, 0x4e, 0xd0};
2051 if ((base = find_rom_data(0x78000, 0x8c000, check_load_dat, sizeof(check_load_dat))) == 0) return false;
2052 D(bug("check_load %08lx\n", base));
2053 wp = (uint16 *)(ROM_BASE + base);
2054 *wp++ = htons(M68K_JMP);
2055 *wp++ = htons((ROM_BASE + CHECK_LOAD_PATCH_SPACE) >> 16);
2056 *wp = htons((ROM_BASE + CHECK_LOAD_PATCH_SPACE) & 0xffff);
2057 wp = (uint16 *)(ROM_BASE + CHECK_LOAD_PATCH_SPACE);
2058 *wp++ = htons(0x2f03); // move.l d3,-(a7)
2059 *wp++ = htons(0x2078); // move.l $07f0,a0
2060 *wp++ = htons(0x07f0);
2061 *wp++ = htons(M68K_JSR_A0);
2062 *wp++ = htons(M68K_EMUL_OP_CHECKLOAD);
2063 *wp = htons(M68K_RTS);
2064
2065 // Replace .Sony driver
2066 sony_offset = find_rom_resource(FOURCC('D','R','V','R'), 4);
2067 if (ROMType == ROMTYPE_ZANZIBAR || ROMType == ROMTYPE_NEWWORLD)
2068 sony_offset = find_rom_resource(FOURCC('D','R','V','R'), 4, true); // First DRVR 4 is .MFMFloppy
2069 if (sony_offset == 0) {
2070 sony_offset = find_rom_resource(FOURCC('n','d','r','v'), -20196); // NewWorld 1.6 has "PCFloppy" ndrv
2071 if (sony_offset == 0)
2072 return false;
2073 lp = (uint32 *)(ROM_BASE + rsrc_ptr + 8);
2074 *lp = htonl(FOURCC('D','R','V','R'));
2075 wp = (uint16 *)(ROM_BASE + rsrc_ptr + 12);
2076 *wp = htons(4);
2077 }
2078 D(bug("sony_offset %08lx\n", sony_offset));
2079 memcpy((void *)(ROM_BASE + sony_offset), sony_driver, sizeof(sony_driver));
2080
2081 // Install .Disk and .AppleCD drivers
2082 memcpy((void *)(ROM_BASE + sony_offset + 0x100), disk_driver, sizeof(disk_driver));
2083 memcpy((void *)(ROM_BASE + sony_offset + 0x200), cdrom_driver, sizeof(cdrom_driver));
2084
2085 // Install serial drivers
2086 gen_ain_driver( ROM_BASE + sony_offset + 0x300);
2087 gen_aout_driver(ROM_BASE + sony_offset + 0x400);
2088 gen_bin_driver( ROM_BASE + sony_offset + 0x500);
2089 gen_bout_driver(ROM_BASE + sony_offset + 0x600);
2090
2091 // Copy icons to ROM
2092 SonyDiskIconAddr = ROM_BASE + sony_offset + 0x800;
2093 memcpy((void *)(ROM_BASE + sony_offset + 0x800), SonyDiskIcon, sizeof(SonyDiskIcon));
2094 SonyDriveIconAddr = ROM_BASE + sony_offset + 0xa00;
2095 memcpy((void *)(ROM_BASE + sony_offset + 0xa00), SonyDriveIcon, sizeof(SonyDriveIcon));
2096 DiskIconAddr = ROM_BASE + sony_offset + 0xc00;
2097 memcpy((void *)(ROM_BASE + sony_offset + 0xc00), DiskIcon, sizeof(DiskIcon));
2098 CDROMIconAddr = ROM_BASE + sony_offset + 0xe00;
2099 memcpy((void *)(ROM_BASE + sony_offset + 0xe00), CDROMIcon, sizeof(CDROMIcon));
2100
2101 // Patch driver install routine
2102 static const uint8 drvr_install_dat[] = {0xa7, 0x1e, 0x21, 0xc8, 0x01, 0x1c, 0x4e, 0x75};
2103 if ((base = find_rom_data(0xb00, 0xd00, drvr_install_dat, sizeof(drvr_install_dat))) == 0) return false;
2104 D(bug("drvr_install %08lx\n", base));
2105 wp = (uint16 *)(ROM_BASE + base + 8);
2106 *wp++ = htons(M68K_EMUL_OP_INSTALL_DRIVERS);
2107 *wp = htons(M68K_RTS);
2108
2109 // Don't install serial drivers from ROM
2110 if (ROMType == ROMTYPE_ZANZIBAR || ROMType == ROMTYPE_NEWWORLD || ROMType == ROMTYPE_GOSSAMER) {
2111 wp = (uint16 *)(ROM_BASE + find_rom_resource(FOURCC('S','E','R','D'), 0));
2112 *wp = htons(M68K_RTS);
2113 } else {
2114 wp = (uint16 *)(ROM_BASE + find_rom_resource(FOURCC('s','l','0','5'), 2) + 0xc4);
2115 *wp++ = htons(M68K_NOP);
2116 *wp++ = htons(M68K_NOP);
2117 *wp++ = htons(M68K_NOP);
2118 *wp++ = htons(M68K_NOP);
2119 *wp = htons(0x7000); // moveq #0,d0
2120 wp = (uint16 *)(ROM_BASE + find_rom_resource(FOURCC('s','l','0','5'), 2) + 0x8ee);
2121 *wp = htons(M68K_NOP);
2122 }
2123 uint32 nsrd_offset = find_rom_resource(FOURCC('n','s','r','d'), 1);
2124 if (nsrd_offset) {
2125 lp = (uint32 *)(ROM_BASE + rsrc_ptr + 8);
2126 *lp = htonl(FOURCC('x','s','r','d'));
2127 }
2128
2129 // Replace ADBOp()
2130 memcpy((void *)(ROM_BASE + find_rom_trap(0xa07c)), adbop_patch, sizeof(adbop_patch));
2131
2132 // Replace Time Manager
2133 wp = (uint16 *)(ROM_BASE + find_rom_trap(0xa058));
2134 *wp++ = htons(M68K_EMUL_OP_INSTIME);
2135 *wp = htons(M68K_RTS);
2136 wp = (uint16 *)(ROM_BASE + find_rom_trap(0xa059));
2137 *wp++ = htons(0x40e7); // move sr,-(sp)
2138 *wp++ = htons(0x007c); // ori #$0700,sr
2139 *wp++ = htons(0x0700);
2140 *wp++ = htons(M68K_EMUL_OP_RMVTIME);
2141 *wp++ = htons(0x46df); // move (sp)+,sr
2142 *wp = htons(M68K_RTS);
2143 wp = (uint16 *)(ROM_BASE + find_rom_trap(0xa05a));
2144 *wp++ = htons(0x40e7); // move sr,-(sp)
2145 *wp++ = htons(0x007c); // ori #$0700,sr
2146 *wp++ = htons(0x0700);
2147 *wp++ = htons(M68K_EMUL_OP_PRIMETIME);
2148 *wp++ = htons(0x46df); // move (sp)+,sr
2149 *wp = htons(M68K_RTS);
2150 wp = (uint16 *)(ROM_BASE + find_rom_trap(0xa093));
2151 *wp++ = htons(M68K_EMUL_OP_MICROSECONDS);
2152 *wp = htons(M68K_RTS);
2153
2154 // Disable Egret Manager
2155 static const uint8 egret_dat[] = {0x2f, 0x30, 0x81, 0xe2, 0x20, 0x10, 0x00, 0x18};
2156 if ((base = find_rom_data(0xa000, 0x10000, egret_dat, sizeof(egret_dat))) == 0) return false;
2157 D(bug("egret %08lx\n", base));
2158 wp = (uint16 *)(ROM_BASE + base);
2159 *wp++ = htons(0x7000);
2160 *wp = htons(M68K_RTS);
2161
2162 // Don't call FE0A opcode in Shutdown Manager
2163 static const uint8 shutdown_dat[] = {0x40, 0xe7, 0x00, 0x7c, 0x07, 0x00, 0x48, 0xe7, 0x3f, 0x00, 0x2c, 0x00, 0x2e, 0x01};
2164 if ((base = find_rom_data(0x30000, 0x40000, shutdown_dat, sizeof(shutdown_dat))) == 0) return false;
2165 D(bug("shutdown %08lx\n", base));
2166 wp = (uint16 *)(ROM_BASE + base);
2167 if (ROMType == ROMTYPE_ZANZIBAR)
2168 *wp = htons(M68K_RTS);
2169 else if (ntohs(wp[-4]) == 0x61ff)
2170 *wp = htons(M68K_RTS);
2171 else if (ntohs(wp[-2]) == 0x6700)
2172 wp[-2] = htons(0x6000); // bra
2173
2174 // Patch PowerOff()
2175 wp = (uint16 *)(ROM_BASE + find_rom_trap(0xa05b)); // PowerOff()
2176 *wp = htons(M68K_EMUL_RETURN);
2177
2178 // Patch VIA interrupt handler
2179 static const uint8 via_int_dat[] = {0x70, 0x7f, 0xc0, 0x29, 0x1a, 0x00, 0xc0, 0x29, 0x1c, 0x00};
2180 if ((base = find_rom_data(0x13000, 0x1c000, via_int_dat, sizeof(via_int_dat))) == 0) return false;
2181 D(bug("via_int %08lx\n", base));
2182 uint32 level1_int = ROM_BASE + base;
2183 wp = (uint16 *)level1_int; // Level 1 handler
2184 *wp++ = htons(0x7002); // moveq #2,d0 (60Hz interrupt)
2185 *wp++ = htons(M68K_NOP);
2186 *wp++ = htons(M68K_NOP);
2187 *wp++ = htons(M68K_NOP);
2188 *wp = htons(M68K_NOP);
2189
2190 static const uint8 via_int2_dat[] = {0x13, 0x7c, 0x00, 0x02, 0x1a, 0x00, 0x4e, 0x71, 0x52, 0xb8, 0x01, 0x6a};
2191 if ((base = find_rom_data(0x10000, 0x18000, via_int2_dat, sizeof(via_int2_dat))) == 0) return false;
2192 D(bug("via_int2 %08lx\n", base));
2193 wp = (uint16 *)(ROM_BASE + base); // 60Hz handler
2194 *wp++ = htons(M68K_EMUL_OP_IRQ);
2195 *wp++ = htons(0x4a80); // tst.l d0
2196 *wp++ = htons(0x6700); // beq xxx
2197 *wp = htons(0xffe8);
2198
2199 if (ROMType == ROMTYPE_NEWWORLD) {
2200 static const uint8 via_int3_dat[] = {0x48, 0xe7, 0xf0, 0xf0, 0x76, 0x01, 0x60, 0x26};
2201 if ((base = find_rom_data(0x15000, 0x19000, via_int3_dat, sizeof(via_int3_dat))) == 0) return false;
2202 D(bug("via_int3 %08lx\n", base));
2203 wp = (uint16 *)(ROM_BASE + base); // CHRP level 1 handler
2204 *wp++ = htons(M68K_JMP);
2205 *wp++ = htons((level1_int - 12) >> 16);
2206 *wp = htons((level1_int - 12) & 0xffff);
2207 }
2208
2209 // Patch PutScrap() for clipboard exchange with host OS
2210 uint32 put_scrap = find_rom_trap(0xa9fe); // PutScrap()
2211 wp = (uint16 *)(ROM_BASE + PUT_SCRAP_PATCH_SPACE);
2212 *wp++ = htons(M68K_EMUL_OP_PUT_SCRAP);
2213 *wp++ = htons(M68K_JMP);
2214 *wp++ = htons((ROM_BASE + put_scrap) >> 16);
2215 *wp++ = htons((ROM_BASE + put_scrap) & 0xffff);
2216 lp = (uint32 *)(ROM_BASE + 0x22);
2217 lp = (uint32 *)(ROM_BASE + ntohl(*lp));
2218 lp[0xa9fe & 0x3ff] = htonl(PUT_SCRAP_PATCH_SPACE);
2219
2220 // Patch GetScrap() for clipboard exchange with host OS
2221 uint32 get_scrap = find_rom_trap(0xa9fd); // GetScrap()
2222 wp = (uint16 *)(ROM_BASE + GET_SCRAP_PATCH_SPACE);
2223 *wp++ = htons(M68K_EMUL_OP_GET_SCRAP);
2224 *wp++ = htons(M68K_JMP);
2225 *wp++ = htons((ROM_BASE + get_scrap) >> 16);
2226 *wp++ = htons((ROM_BASE + get_scrap) & 0xffff);
2227 lp = (uint32 *)(ROM_BASE + 0x22);
2228 lp = (uint32 *)(ROM_BASE + ntohl(*lp));
2229 lp[0xa9fd & 0x3ff] = htonl(GET_SCRAP_PATCH_SPACE);
2230
2231 #if __BEOS__
2232 // Patch SynchIdleTime()
2233 if (PrefsFindBool("idlewait")) {
2234 wp = (uint16 *)(ROM_BASE + find_rom_trap(0xabf7) + 4); // SynchIdleTime()
2235 D(bug("SynchIdleTime at %08lx\n", wp));
2236 if (ntohs(*wp) == 0x2078) {
2237 *wp++ = htons(M68K_EMUL_OP_IDLE_TIME);
2238 *wp = htons(M68K_NOP);
2239 } else {
2240 D(bug("SynchIdleTime patch not installed\n"));
2241 }
2242 }
2243 #endif
2244
2245 // Construct list of all sifters used by sound components in ROM
2246 D(bug("Searching for sound components with type sdev in ROM\n"));
2247 uint32 thing = find_rom_resource(FOURCC('t','h','n','g'));
2248 while (thing) {
2249 thing += ROM_BASE;
2250 D(bug(" found %c%c%c%c %c%c%c%c\n", ReadMacInt8(thing), ReadMacInt8(thing + 1), ReadMacInt8(thing + 2), ReadMacInt8(thing + 3), ReadMacInt8(thing + 4), ReadMacInt8(thing + 5), ReadMacInt8(thing + 6), ReadMacInt8(thing + 7)));
2251 if (ReadMacInt32(thing) == FOURCC('s','d','e','v') && ReadMacInt32(thing + 4) == FOURCC('s','i','n','g')) {
2252 WriteMacInt32(thing + 4, FOURCC('a','w','g','c'));
2253 D(bug(" found sdev component at offset %08x in ROM\n", thing));
2254 AddSifter(ReadMacInt32(thing + componentResType), ReadMacInt16(thing + componentResID));
2255 if (ReadMacInt32(thing + componentPFCount))
2256 AddSifter(ReadMacInt32(thing + componentPFResType), ReadMacInt16(thing + componentPFResID));
2257 }
2258 thing = find_rom_resource(FOURCC('t','h','n','g'), 4711, true);
2259 }
2260
2261 // Patch component code
2262 D(bug("Patching sifters in ROM\n"));
2263 for (int i=0; i<num_sifters; i++) {
2264 if ((thing = find_rom_resource(sifter_list[i].type, sifter_list[i].id)) != 0) {
2265 D(bug(" patching type %08x, id %d\n", sifter_list[i].type, sifter_list[i].id));
2266 // Install 68k glue code
2267 uint16 *wp = (uint16 *)(ROM_BASE + thing);
2268 *wp++ = htons(0x4e56); *wp++ = htons(0x0000); // link a6,#0
2269 *wp++ = htons(0x48e7); *wp++ = htons(0x8018); // movem.l d0/a3-a4,-(a7)
2270 *wp++ = htons(0x266e); *wp++ = htons(0x000c); // movea.l $c(a6),a3
2271 *wp++ = htons(0x286e); *wp++ = htons(0x0008); // movea.l $8(a6),a4
2272 *wp++ = htons(M68K_EMUL_OP_AUDIO_DISPATCH);
2273 *wp++ = htons(0x2d40); *wp++ = htons(0x0010); // move.l d0,$10(a6)
2274 *wp++ = htons(0x4cdf); *wp++ = htons(0x1801); // movem.l (a7)+,d0/a3-a4
2275 *wp++ = htons(0x4e5e); // unlk a6
2276 *wp++ = htons(0x4e74); *wp++ = htons(0x0008); // rtd #8
2277 }
2278 }
2279 return true;
2280 }
2281
2282
2283 /*
2284 * Install .Sony, disk and CD-ROM drivers
2285 */
2286
2287 void InstallDrivers(void)
2288 {
2289 D(bug("Installing drivers...\n"));
2290 M68kRegisters r;
2291 SheepArray<SIZEOF_IOParam> pb_var;
2292 const uintptr pb = pb_var.addr();
2293
2294 // Install floppy driver
2295 if (ROMType == ROMTYPE_NEWWORLD || ROMType == ROMTYPE_GOSSAMER) {
2296
2297 // Force installation of floppy driver with NewWorld and Gossamer ROMs
2298 r.a[0] = ROM_BASE + sony_offset;
2299 r.d[0] = (uint32)SonyRefNum;
2300 Execute68kTrap(0xa43d, &r); // DrvrInstallRsrvMem()
2301 r.a[0] = ReadMacInt32(ReadMacInt32(0x11c) + ~SonyRefNum * 4); // Get driver handle from Unit Table
2302 Execute68kTrap(0xa029, &r); // HLock()
2303 uint32 dce = ReadMacInt32(r.a[0]);
2304 WriteMacInt32(dce + dCtlDriver, ROM_BASE + sony_offset);
2305 WriteMacInt16(dce + dCtlFlags, SonyDriverFlags);
2306 }
2307
2308 #if DISABLE_SCSI && 0
2309 // Fake SCSIGlobals
2310 WriteMacInt32(0xc0c, SheepMem::ZeroPage());
2311 #endif
2312
2313 // Open .Sony driver
2314 SheepString sony_str("\005.Sony");
2315 WriteMacInt8(pb + ioPermssn, 0);
2316 WriteMacInt32(pb + ioNamePtr, sony_str.addr());
2317 r.a[0] = pb;
2318 Execute68kTrap(0xa000, &r); // Open()
2319
2320 // Install disk driver
2321 r.a[0] = ROM_BASE + sony_offset + 0x100;
2322 r.d[0] = (uint32)DiskRefNum;
2323 Execute68kTrap(0xa43d, &r); // DrvrInstallRsrvMem()
2324 r.a[0] = ReadMacInt32(ReadMacInt32(0x11c) + ~DiskRefNum * 4); // Get driver handle from Unit Table
2325 Execute68kTrap(0xa029, &r); // HLock()
2326 uint32 dce = ReadMacInt32(r.a[0]);
2327 WriteMacInt32(dce + dCtlDriver, ROM_BASE + sony_offset + 0x100);
2328 WriteMacInt16(dce + dCtlFlags, DiskDriverFlags);
2329
2330 // Open disk driver
2331 SheepString disk_str("\005.Disk");
2332 WriteMacInt32(pb + ioNamePtr, disk_str.addr());
2333 r.a[0] = pb;
2334 Execute68kTrap(0xa000, &r); // Open()
2335
2336 // Install CD-ROM driver unless nocdrom option given
2337 if (!PrefsFindBool("nocdrom")) {
2338
2339 // Install CD-ROM driver
2340 r.a[0] = ROM_BASE + sony_offset + 0x200;
2341 r.d[0] = (uint32)CDROMRefNum;
2342 Execute68kTrap(0xa43d, &r); // DrvrInstallRsrvMem()
2343 r.a[0] = ReadMacInt32(ReadMacInt32(0x11c) + ~CDROMRefNum * 4); // Get driver handle from Unit Table
2344 Execute68kTrap(0xa029, &r); // HLock()
2345 dce = ReadMacInt32(r.a[0]);
2346 WriteMacInt32(dce + dCtlDriver, ROM_BASE + sony_offset + 0x200);
2347 WriteMacInt16(dce + dCtlFlags, CDROMDriverFlags);
2348
2349 // Open CD-ROM driver
2350 SheepString apple_cd("\010.AppleCD");
2351 WriteMacInt32(pb + ioNamePtr, apple_cd.addr());
2352 r.a[0] = pb;
2353 Execute68kTrap(0xa000, &r); // Open()
2354 }
2355
2356 // Install serial drivers
2357 r.a[0] = ROM_BASE + sony_offset + 0x300;
2358 r.d[0] = (uint32)-6;
2359 Execute68kTrap(0xa43d, &r); // DrvrInstallRsrvMem()
2360 r.a[0] = ReadMacInt32(ReadMacInt32(0x11c) + ~(-6) * 4); // Get driver handle from Unit Table
2361 Execute68kTrap(0xa029, &r); // HLock()
2362 dce = ReadMacInt32(r.a[0]);
2363 WriteMacInt32(dce + dCtlDriver, ROM_BASE + sony_offset + 0x300);
2364 WriteMacInt16(dce + dCtlFlags, 0x4d00);
2365
2366 r.a[0] = ROM_BASE + sony_offset + 0x400;
2367 r.d[0] = (uint32)-7;
2368 Execute68kTrap(0xa43d, &r); // DrvrInstallRsrvMem()
2369 r.a[0] = ReadMacInt32(ReadMacInt32(0x11c) + ~(-7) * 4); // Get driver handle from Unit Table
2370 Execute68kTrap(0xa029, &r); // HLock()
2371 dce = ReadMacInt32(r.a[0]);
2372 WriteMacInt32(dce + dCtlDriver, ROM_BASE + sony_offset + 0x400);
2373 WriteMacInt16(dce + dCtlFlags, 0x4e00);
2374
2375 r.a[0] = ROM_BASE + sony_offset + 0x500;
2376 r.d[0] = (uint32)-8;
2377 Execute68kTrap(0xa43d, &r); // DrvrInstallRsrvMem()
2378 r.a[0] = ReadMacInt32(ReadMacInt32(0x11c) + ~(-8) * 4); // Get driver handle from Unit Table
2379 Execute68kTrap(0xa029, &r); // HLock()
2380 dce = ReadMacInt32(r.a[0]);
2381 WriteMacInt32(dce + dCtlDriver, ROM_BASE + sony_offset + 0x500);
2382 WriteMacInt16(dce + dCtlFlags, 0x4d00);
2383
2384 r.a[0] = ROM_BASE + sony_offset + 0x600;
2385 r.d[0] = (uint32)-9;
2386 Execute68kTrap(0xa43d, &r); // DrvrInstallRsrvMem()
2387 r.a[0] = ReadMacInt32(ReadMacInt32(0x11c) + ~(-9) * 4); // Get driver handle from Unit Table
2388 Execute68kTrap(0xa029, &r); // HLock()
2389 dce = ReadMacInt32(r.a[0]);
2390 WriteMacInt32(dce + dCtlDriver, ROM_BASE + sony_offset + 0x600);
2391 WriteMacInt16(dce + dCtlFlags, 0x4e00);
2392 }