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root/cebix/BasiliskII/src/powerrom_cpu/powerrom_cpu.cpp
Revision: 1.6
Committed: 2001-06-30T17:21:56Z (23 years, 5 months ago) by cebix
Branch: MAIN
Changes since 1.5: +3 -3 lines
Log Message:
- experimental gamma table support
- restructured video_x.cpp: uses classes for display types

File Contents

# User Rev Content
1 cebix 1.1 /*
2 cebix 1.3 * powerrom_cpu.cpp - Using the 680x0 emulator in PowerMac ROMs for Basilisk II
3 cebix 1.1 *
4 cebix 1.4 * Basilisk II (C) 1997-2001 Christian Bauer
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 cebix 1.1 */
20    
21     #include <unistd.h>
22     #include <signal.h>
23     #include <stdlib.h>
24    
25     #include <AppKit.h>
26     #include <KernelKit.h>
27     #include <StorageKit.h>
28    
29     #include "sysdeps.h"
30     #include "cpu_emulation.h"
31     #include "main.h"
32     #include "emul_op.h"
33     #include "prefs.h"
34     #include "user_strings.h"
35    
36     #include "sheep_driver.h"
37    
38     #define DEBUG 0
39     #include "debug.h"
40    
41     // Save FP regs in Execute68k()?
42     #define SAVE_FP_EXEC_68K 0
43    
44    
45     // Constants
46     const char ROM_FILE_NAME[] = "PowerROM";
47     const char KERNEL_AREA_NAME[] = "Macintosh Kernel Data";
48     const char DR_CACHE_AREA_NAME[] = "Macintosh DR Cache";
49    
50     const uint32 ROM_BASE = 0x40800000; // Base address of ROM
51     const uint32 ROM_SIZE = 0x00400000; // Size of ROM file
52     const uint32 ROM_AREA_SIZE = 0x00500000; // Size of ROM area
53    
54     const uint32 DR_CACHE_BASE = 0x69000000; // Address of DR cache
55     const uint32 DR_CACHE_SIZE = 0x80000; // Size of DR Cache
56    
57     const uint32 SIG_STACK_SIZE = 8192; // Size of signal stack
58    
59     // PowerPC opcodes
60     const uint32 POWERPC_NOP = 0x60000000;
61     const uint32 POWERPC_ILLEGAL = 0x00000000;
62     const uint32 POWERPC_BLR = 0x4e800020;
63     const uint32 POWERPC_BCTR = 0x4e800420;
64    
65     // Extra Low Memory Globals
66     #define MODE_68K 0 // 68k emulator active
67     #define MODE_EMUL_OP 1 // Within EMUL_OP routine
68    
69     #define XLM_RESET_STACK 0x2800 // Reset stack pointer
70     #define XLM_KERNEL_DATA 0x2804 // Pointer to Kernel Data
71     #define XLM_TOC 0x2808 // TOC pointer of emulator
72     #define XLM_RUN_MODE 0x2810 // Current run mode, see enum above
73     #define XLM_68K_R25 0x2814 // Contents of the 68k emulator's r25 (which contains the interrupt level), saved upon entering EMUL_OP mode, used by Execute68k() and the USR1 signal handler
74     #define XLM_IRQ_NEST 0x2818 // Interrupt disable nesting counter (>0: disabled)
75     #define XLM_PVR 0x281c // Theoretical PVR
76     #define XLM_EMUL_RETURN_PROC 0x2824 // Pointer to EMUL_RETURN routine
77     #define XLM_EXEC_RETURN_PROC 0x2828 // Pointer to EXEC_RETURN routine
78     #define XLM_EMUL_OP_PROC 0x282c // Pointer to EMUL_OP routine
79     #define XLM_EMUL_RETURN_STACK 0x2830 // Stack pointer for EMUL_RETURN
80    
81    
82     // RAM and ROM pointers
83     uint32 RAMBaseMac; // RAM base (Mac address space)
84     uint8 *RAMBaseHost; // RAM base (host address space)
85     uint32 RAMSize; // Size of RAM
86     uint32 ROMBaseMac; // ROM base (Mac address space)
87     uint8 *ROMBaseHost; // ROM base (host address space)
88     uint32 ROMSize; // Size of ROM
89    
90    
91     // Emulator Data
92     struct EmulatorData {
93     uint32 v[0x400];
94     };
95    
96    
97     // Kernel Data
98     struct KernelData {
99     uint32 v[0x400];
100     EmulatorData ed;
101     };
102    
103    
104     // Exceptions
105     class file_open_error {};
106     class file_read_error {};
107     class rom_size_error {};
108    
109    
110     // Global variables
111     static void *TOC; // TOC pointer
112     static uint32 PVR; // Theoretical PVR
113     static int64 CPUClockSpeed; // Processor clock speed (Hz)
114     static int64 BusClockSpeed; // Bus clock speed (Hz)
115     static system_info SysInfo; // System information
116    
117     static area_id kernel_area = -1; // Kernel Data area ID
118     static KernelData *kernel_data = NULL; // Pointer to Kernel Data
119     static uint32 KernelDataAddr; // Address of Kernel Data
120     static EmulatorData *emulator_data = NULL;
121     static area_id dr_cache_area; // DR Cache area ID
122     static uint32 DRCacheAddr; // Address of DR Cache
123    
124     static struct sigaction sigusr1_action; // Interrupt signal (of emulator thread)
125     static bool ReadyForSignals = false; // Flag: emul_thread ready to receive signals
126    
127    
128     // Prototypes
129     static void sigusr1_handler(int sig, void *arg, vregs *r);
130    
131     // From main_beos.cpp
132     extern int sheep_fd; // fd of sheep driver
133     extern thread_id emul_thread; // Emulator thread
134    
135    
136     /*
137     * Load ROM file (upper 3MB)
138     *
139     * file_open_error: Cannot open ROM file (nor use built-in ROM)
140     * file_read_error: Cannot read ROM file
141     */
142    
143     // Decode LZSS data
144     static void decode_lzss(const uint8 *src, uint8 *dest, int size)
145     {
146     char dict[0x1000];
147     int run_mask = 0, dict_idx = 0xfee;
148     for (;;) {
149     if (run_mask < 0x100) {
150     // Start new run
151     if (--size < 0)
152     break;
153     run_mask = *src++ | 0xff00;
154     }
155     bool bit = run_mask & 1;
156     run_mask >>= 1;
157     if (bit) {
158     // Verbatim copy
159     if (--size < 0)
160     break;
161     int c = *src++;
162     dict[dict_idx++] = c;
163     *dest++ = c;
164     dict_idx &= 0xfff;
165     } else {
166     // Copy from dictionary
167     if (--size < 0)
168     break;
169     int idx = *src++;
170     if (--size < 0)
171     break;
172     int cnt = *src++;
173     idx |= (cnt << 4) & 0xf00;
174     cnt = (cnt & 0x0f) + 3;
175     while (cnt--) {
176     char c = dict[idx++];
177     dict[dict_idx++] = c;
178     *dest++ = c;
179     idx &= 0xfff;
180     dict_idx &= 0xfff;
181     }
182     }
183     }
184     }
185    
186     static void load_rom(void)
187     {
188     // Get rom file path from preferences
189     const char *rom_path = PrefsFindString("powerrom");
190    
191     // Try to open ROM file
192     BFile file(rom_path ? rom_path : ROM_FILE_NAME, B_READ_ONLY);
193     if (file.InitCheck() != B_NO_ERROR) {
194    
195     // Failed, then ask sheep driver for ROM
196     uint8 *rom = new uint8[ROM_SIZE]; // Reading directly into the area doesn't work
197     ssize_t actual = read(sheep_fd, (void *)rom, ROM_SIZE);
198     if (actual == ROM_SIZE) {
199     // Copy upper 3MB
200     memcpy((void *)(ROM_BASE + 0x100000), rom + 0x100000, ROM_SIZE - 0x100000);
201     delete[] rom;
202     return;
203     } else
204     throw file_open_error();
205     }
206    
207     printf(GetString(STR_READING_ROM_FILE));
208    
209     // Get file size
210     off_t rom_size = 0;
211     file.GetSize(&rom_size);
212    
213     uint8 *rom = new uint8[ROM_SIZE]; // Reading directly into the area doesn't work
214     ssize_t actual = file.Read((void *)rom, ROM_SIZE);
215     if (actual == ROM_SIZE) {
216     // Plain ROM image, copy upper 3MB
217     memcpy((void *)(ROM_BASE + 0x100000), rom + 0x100000, ROM_SIZE - 0x100000);
218     delete[] rom;
219     } else {
220     if (strncmp((char *)rom, "<CHRP-BOOT>", 11) == 0) {
221     // CHRP compressed ROM image
222     D(bug("CHRP ROM image\n"));
223     uint32 lzss_offset, lzss_size;
224    
225     char *s = strstr((char *)rom, "constant lzss-offset");
226     if (s == NULL)
227     throw rom_size_error();
228     s -= 7;
229     if (sscanf(s, "%06lx", &lzss_offset) != 1)
230     throw rom_size_error();
231     s = strstr((char *)rom, "constant lzss-size");
232     if (s == NULL)
233     throw rom_size_error();
234     s -= 7;
235     if (sscanf(s, "%06lx", &lzss_size) != 1)
236     throw rom_size_error();
237     D(bug("Offset of compressed data: %08lx\n", lzss_offset));
238     D(bug("Size of compressed data: %08lx\n", lzss_size));
239    
240     D(bug("Uncompressing ROM...\n"));
241     uint8 *decoded = new uint8[ROM_SIZE];
242     decode_lzss(rom + lzss_offset, decoded, lzss_size);
243     memcpy((void *)(ROM_BASE + 0x100000), decoded + 0x100000, ROM_SIZE - 0x100000);
244     delete[] decoded;
245     delete[] rom;
246     } else if (rom_size != 4*1024*1024)
247     throw rom_size_error();
248     else
249     throw file_read_error();
250     }
251     }
252    
253    
254     /*
255     * Patch PowerMac ROM
256     */
257    
258     // ROM type
259     enum {
260     ROMTYPE_TNT,
261     ROMTYPE_ALCHEMY,
262     ROMTYPE_ZANZIBAR,
263     ROMTYPE_GAZELLE,
264     ROMTYPE_NEWWORLD
265     };
266     static int ROMType;
267    
268     // Nanokernel boot routine patches
269     static bool patch_nanokernel_boot(void)
270     {
271     uint32 *lp;
272     int i;
273    
274     // Patch ConfigInfo
275     lp = (uint32 *)(ROM_BASE + 0x30d000);
276     lp[0x9c >> 2] = KernelDataAddr; // LA_InfoRecord
277     lp[0xa0 >> 2] = KernelDataAddr; // LA_KernelData
278     lp[0xa4 >> 2] = KernelDataAddr + 0x1000;// LA_EmulatorData
279     lp[0xa8 >> 2] = ROM_BASE + 0x480000; // LA_DispatchTable
280     lp[0xac >> 2] = ROM_BASE + 0x460000; // LA_EmulatorCode
281     lp[0x360 >> 2] = 0; // Physical RAM base (? on NewWorld ROM, this contains -1)
282     lp[0xfd8 >> 2] = ROM_BASE + 0x2a; // 68k reset vector
283    
284     // Skip SR/BAT/SDR init
285     if (ROMType == ROMTYPE_GAZELLE || ROMType == ROMTYPE_NEWWORLD) {
286     lp = (uint32 *)(ROM_BASE + 0x310000);
287     *lp++ = POWERPC_NOP;
288     *lp = 0x38000000;
289     }
290     static const uint32 sr_init_loc[] = {0x3101b0, 0x3101b0, 0x3101b0, 0x3101ec, 0x310200};
291     lp = (uint32 *)(ROM_BASE + 0x310008);
292     *lp = 0x48000000 | (sr_init_loc[ROMType] - 8) & 0xffff; // b ROM_BASE+0x3101b0
293     lp = (uint32 *)(ROM_BASE + sr_init_loc[ROMType]);
294     *lp++ = 0x80200000 + XLM_KERNEL_DATA; // lwz r1,(pointer to Kernel Data)
295     *lp++ = 0x3da0dead; // lis r13,0xdead (start of kernel memory)
296     *lp++ = 0x3dc00010; // lis r14,0x0010 (size of page table)
297     *lp = 0x3de00010; // lis r15,0x0010 (size of kernel memory)
298    
299     // Don't read PVR
300     static const uint32 pvr_loc[] = {0x3103b0, 0x3103b4, 0x3103b4, 0x310400, 0x310438};
301     lp = (uint32 *)(ROM_BASE + pvr_loc[ROMType]);
302     *lp = 0x81800000 + XLM_PVR; // lwz r12,(theoretical PVR)
303    
304     // Set CPU specific data (even if ROM doesn't have support for that CPU)
305     lp = (uint32 *)(ROM_BASE + pvr_loc[ROMType]);
306     if (ntohl(lp[6]) != 0x2c0c0001)
307     return false;
308     uint32 ofs = lp[7] & 0xffff;
309     lp[8] = (lp[8] & 0xffff) | 0x48000000; // beq -> b
310     uint32 loc = (lp[8] & 0xffff) + (uint32)(lp+8) - ROM_BASE;
311     lp = (uint32 *)(ROM_BASE + ofs + 0x310000);
312     switch (PVR >> 16) {
313     case 1: // 601
314     lp[0] = 0x1000; // Page size
315     lp[1] = 0x8000; // Data cache size
316     lp[2] = 0x8000; // Inst cache size
317     lp[3] = 0x00200020; // Coherency block size/Reservation granule size
318     lp[4] = 0x00010040; // Unified caches/Inst cache line size
319     lp[5] = 0x00400020; // Data cache line size/Data cache block size touch
320     lp[6] = 0x00200020; // Inst cache block size/Data cache block size
321     lp[7] = 0x00080008; // Inst cache assoc/Data cache assoc
322     lp[8] = 0x01000002; // TLB total size/TLB assoc
323     break;
324     case 3: // 603
325     lp[0] = 0x1000; // Page size
326     lp[1] = 0x2000; // Data cache size
327     lp[2] = 0x2000; // Inst cache size
328     lp[3] = 0x00200020; // Coherency block size/Reservation granule size
329     lp[4] = 0x00000020; // Unified caches/Inst cache line size
330     lp[5] = 0x00200020; // Data cache line size/Data cache block size touch
331     lp[6] = 0x00200020; // Inst cache block size/Data cache block size
332     lp[7] = 0x00020002; // Inst cache assoc/Data cache assoc
333     lp[8] = 0x00400002; // TLB total size/TLB assoc
334     break;
335     case 4: // 604
336     lp[0] = 0x1000; // Page size
337     lp[1] = 0x4000; // Data cache size
338     lp[2] = 0x4000; // Inst cache size
339     lp[3] = 0x00200020; // Coherency block size/Reservation granule size
340     lp[4] = 0x00000020; // Unified caches/Inst cache line size
341     lp[5] = 0x00200020; // Data cache line size/Data cache block size touch
342     lp[6] = 0x00200020; // Inst cache block size/Data cache block size
343     lp[7] = 0x00040004; // Inst cache assoc/Data cache assoc
344     lp[8] = 0x00800002; // TLB total size/TLB assoc
345     break;
346     // case 5: // 740?
347     case 6: // 603e
348     case 7: // 603ev
349     lp[0] = 0x1000; // Page size
350     lp[1] = 0x4000; // Data cache size
351     lp[2] = 0x4000; // Inst cache size
352     lp[3] = 0x00200020; // Coherency block size/Reservation granule size
353     lp[4] = 0x00000020; // Unified caches/Inst cache line size
354     lp[5] = 0x00200020; // Data cache line size/Data cache block size touch
355     lp[6] = 0x00200020; // Inst cache block size/Data cache block size
356     lp[7] = 0x00040004; // Inst cache assoc/Data cache assoc
357     lp[8] = 0x00400002; // TLB total size/TLB assoc
358     break;
359     case 8: // 750
360     lp[0] = 0x1000; // Page size
361     lp[1] = 0x8000; // Data cache size
362     lp[2] = 0x8000; // Inst cache size
363     lp[3] = 0x00200020; // Coherency block size/Reservation granule size
364     lp[4] = 0x00000020; // Unified caches/Inst cache line size
365     lp[5] = 0x00200020; // Data cache line size/Data cache block size touch
366     lp[6] = 0x00200020; // Inst cache block size/Data cache block size
367     lp[7] = 0x00080008; // Inst cache assoc/Data cache assoc
368     lp[8] = 0x00800002; // TLB total size/TLB assoc
369     break;
370     case 9: // 604e
371     case 10: // 604ev5
372     lp[0] = 0x1000; // Page size
373     lp[1] = 0x8000; // Data cache size
374     lp[2] = 0x8000; // Inst cache size
375     lp[3] = 0x00200020; // Coherency block size/Reservation granule size
376     lp[4] = 0x00000020; // Unified caches/Inst cache line size
377     lp[5] = 0x00200020; // Data cache line size/Data cache block size touch
378     lp[6] = 0x00200020; // Inst cache block size/Data cache block size
379     lp[7] = 0x00040004; // Inst cache assoc/Data cache assoc
380     lp[8] = 0x00800002; // TLB total size/TLB assoc
381     break;
382     // case 11: // X704?
383     case 12: // ???
384     lp[0] = 0x1000; // Page size
385     lp[1] = 0x8000; // Data cache size
386     lp[2] = 0x8000; // Inst cache size
387     lp[3] = 0x00200020; // Coherency block size/Reservation granule size
388     lp[4] = 0x00000020; // Unified caches/Inst cache line size
389     lp[5] = 0x00200020; // Data cache line size/Data cache block size touch
390     lp[6] = 0x00200020; // Inst cache block size/Data cache block size
391     lp[7] = 0x00080008; // Inst cache assoc/Data cache assoc
392     lp[8] = 0x00800002; // TLB total size/TLB assoc
393     break;
394     case 13: // ???
395     lp[0] = 0x1000; // Page size
396     lp[1] = 0x8000; // Data cache size
397     lp[2] = 0x8000; // Inst cache size
398     lp[3] = 0x00200020; // Coherency block size/Reservation granule size
399     lp[4] = 0x00000020; // Unified caches/Inst cache line size
400     lp[5] = 0x00200020; // Data cache line size/Data cache block size touch
401     lp[6] = 0x00200020; // Inst cache block size/Data cache block size
402     lp[7] = 0x00080008; // Inst cache assoc/Data cache assoc
403     lp[8] = 0x01000004; // TLB total size/TLB assoc
404     break;
405     // case 50: // 821
406     // case 80: // 860
407     case 96: // ???
408     lp[0] = 0x1000; // Page size
409     lp[1] = 0x8000; // Data cache size
410     lp[2] = 0x8000; // Inst cache size
411     lp[3] = 0x00200020; // Coherency block size/Reservation granule size
412     lp[4] = 0x00010020; // Unified caches/Inst cache line size
413     lp[5] = 0x00200020; // Data cache line size/Data cache block size touch
414     lp[6] = 0x00200020; // Inst cache block size/Data cache block size
415     lp[7] = 0x00080008; // Inst cache assoc/Data cache assoc
416     lp[8] = 0x00800004; // TLB total size/TLB assoc
417     break;
418     default:
419     printf("WARNING: Unknown CPU type\n");
420     break;
421     }
422    
423     // Don't set SPRG3, don't test MQ
424     lp = (uint32 *)(ROM_BASE + loc + 0x20);
425     *lp++ = POWERPC_NOP;
426     lp++;
427     *lp++ = POWERPC_NOP;
428     lp++;
429     *lp = POWERPC_NOP;
430    
431     // Don't read MSR
432     lp = (uint32 *)(ROM_BASE + loc + 0x40);
433     *lp = 0x39c00000; // li r14,0
434    
435     // Don't write to DEC
436     lp = (uint32 *)(ROM_BASE + loc + 0x70);
437     *lp++ = POWERPC_NOP;
438     loc = (lp[0] & 0xffff) + (uint32)lp - ROM_BASE;
439    
440     // Don't set SPRG3
441     lp = (uint32 *)(ROM_BASE + loc + 0x2c);
442     *lp = POWERPC_NOP;
443    
444     // Don't read PVR
445     static const uint32 pvr_ofs[] = {0x138, 0x138, 0x138, 0x140, 0x148};
446     lp = (uint32 *)(ROM_BASE + loc + pvr_ofs[ROMType]);
447     *lp = 0x82e00000 + XLM_PVR; // lwz r23,(theoretical PVR)
448     lp = (uint32 *)(ROM_BASE + loc + 0x170);
449     if (*lp == 0x7eff42a6) // NewWorld ROM
450     *lp = 0x82e00000 + XLM_PVR; // lwz r23,(theoretical PVR)
451     lp = (uint32 *)(ROM_BASE + 0x313134);
452     if (*lp == 0x7e5f42a6)
453     *lp = 0x82400000 + XLM_PVR; // lwz r18,(theoretical PVR)
454     lp = (uint32 *)(ROM_BASE + 0x3131f4);
455     if (*lp == 0x7e5f42a6) // NewWorld ROM
456     *lp = 0x82400000 + XLM_PVR; // lwz r18,(theoretical PVR)
457    
458     // Don't read SDR1
459     static const uint32 sdr1_ofs[] = {0x174, 0x174, 0x174, 0x17c, 0x19c};
460     lp = (uint32 *)(ROM_BASE + loc + sdr1_ofs[ROMType]);
461     *lp++ = 0x3d00dead; // lis r8,0xdead (pointer to page table)
462     *lp++ = 0x3ec0001f; // lis r22,0x001f (size of page table)
463     *lp = POWERPC_NOP;
464    
465     // Don't clear page table
466     static const uint32 pgtb_ofs[] = {0x198, 0x198, 0x198, 0x1a0, 0x1c4};
467     lp = (uint32 *)(ROM_BASE + loc + pgtb_ofs[ROMType]);
468     *lp = POWERPC_NOP;
469    
470     // Don't invalidate TLB
471     static const uint32 tlb_ofs[] = {0x1a0, 0x1a0, 0x1a0, 0x1a8, 0x1cc};
472     lp = (uint32 *)(ROM_BASE + loc + tlb_ofs[ROMType]);
473     *lp = POWERPC_NOP;
474    
475     // Don't create RAM descriptor table
476     static const uint32 desc_ofs[] = {0x350, 0x350, 0x350, 0x358, 0x37c};
477     lp = (uint32 *)(ROM_BASE + loc + desc_ofs[ROMType]);
478     *lp = POWERPC_NOP;
479    
480     // Don't load SRs and BATs
481     static const uint32 sr_ofs[] = {0x3d8, 0x3d8, 0x3d8, 0x3e0, 0x404};
482     lp = (uint32 *)(ROM_BASE + loc + sr_ofs[ROMType]);
483     *lp = POWERPC_NOP;
484    
485     // Don't mess with SRs
486     static const uint32 sr2_ofs[] = {0x312118, 0x312118, 0x312118, 0x312118, 0x3121b4};
487     lp = (uint32 *)(ROM_BASE + sr2_ofs[ROMType]);
488     *lp = POWERPC_BLR;
489    
490     // Don't check performance monitor
491     static const uint32 pm_ofs[] = {0x313148, 0x313148, 0x313148, 0x313148, 0x313218};
492     lp = (uint32 *)(ROM_BASE + pm_ofs[ROMType]);
493     while (*lp != 0x7e58eba6) lp++;
494     *lp++ = POWERPC_NOP;
495     while (*lp != 0x7e78eaa6) lp++;
496     *lp++ = POWERPC_NOP;
497     while (*lp != 0x7e59eba6) lp++;
498     *lp++ = POWERPC_NOP;
499     while (*lp != 0x7e79eaa6) lp++;
500     *lp++ = POWERPC_NOP;
501     while (*lp != 0x7e5aeba6) lp++;
502     *lp++ = POWERPC_NOP;
503     while (*lp != 0x7e7aeaa6) lp++;
504     *lp++ = POWERPC_NOP;
505     while (*lp != 0x7e5beba6) lp++;
506     *lp++ = POWERPC_NOP;
507     while (*lp != 0x7e7beaa6) lp++;
508     *lp++ = POWERPC_NOP;
509     while (*lp != 0x7e5feba6) lp++;
510     *lp++ = POWERPC_NOP;
511     while (*lp != 0x7e7feaa6) lp++;
512     *lp++ = POWERPC_NOP;
513     while (*lp != 0x7e5ceba6) lp++;
514     *lp++ = POWERPC_NOP;
515     while (*lp != 0x7e7ceaa6) lp++;
516     *lp++ = POWERPC_NOP;
517     while (*lp != 0x7e5deba6) lp++;
518     *lp++ = POWERPC_NOP;
519     while (*lp != 0x7e7deaa6) lp++;
520     *lp++ = POWERPC_NOP;
521     while (*lp != 0x7e5eeba6) lp++;
522     *lp++ = POWERPC_NOP;
523     while (*lp != 0x7e7eeaa6) lp++;
524     *lp++ = POWERPC_NOP;
525    
526     // Jump to 68k emulator
527     static const uint32 jump68k_ofs[] = {0x40c, 0x40c, 0x40c, 0x414, 0x438};
528     lp = (uint32 *)(ROM_BASE + loc + jump68k_ofs[ROMType]);
529     *lp++ = 0x80610634; // lwz r3,0x0634(r1) (pointer to Emulator Data)
530     *lp++ = 0x8081119c; // lwz r4,0x119c(r1) (pointer to opcode table)
531     *lp++ = 0x80011184; // lwz r0,0x1184(r1) (pointer to emulator entry)
532     *lp++ = 0x7c0903a6; // mtctr r0
533     *lp = POWERPC_BCTR;
534     return true;
535     }
536    
537     // 68k emulator patches
538     static bool patch_68k_emul(void)
539     {
540     uint32 *lp;
541     uint32 base;
542    
543     // Overwrite twi instructions
544     static const uint32 twi_loc[] = {0x36e680, 0x36e6c0, 0x36e6c0, 0x36e6c0, 0x36e740};
545     base = twi_loc[ROMType];
546     lp = (uint32 *)(ROM_BASE + base);
547     *lp++ = 0x48000000 + 0x36f900 - base; // b 0x36f900 (Emulator start)
548     *lp++ = POWERPC_ILLEGAL;
549     *lp++ = 0x48000000 + 0x36fb00 - base - 8; // b 0x36fb00 (Reset opcode)
550     *lp++ = POWERPC_ILLEGAL;
551     *lp++ = POWERPC_ILLEGAL;
552     *lp++ = POWERPC_ILLEGAL;
553     *lp++ = POWERPC_ILLEGAL;
554     *lp++ = POWERPC_ILLEGAL;
555     *lp++ = POWERPC_ILLEGAL;
556     *lp++ = POWERPC_ILLEGAL;
557     *lp++ = POWERPC_ILLEGAL;
558     *lp++ = POWERPC_ILLEGAL;
559     *lp++ = POWERPC_ILLEGAL;
560     *lp++ = POWERPC_ILLEGAL;
561     *lp++ = POWERPC_ILLEGAL;
562     *lp++ = POWERPC_ILLEGAL;
563    
564     // Set reset stack pointer
565     lp = (uint32 *)(ROM_BASE + base + 0xf0);
566     *lp++ = 0x80200000 + XLM_RESET_STACK; // lwz r1,XLM_RESET_STACK
567    
568     // Install EXEC_RETURN and EMUL_OP opcodes
569     lp = (uint32 *)(ROM_BASE + 0x380000 + (M68K_EXEC_RETURN << 3));
570     *lp++ = 0x80000000 + XLM_EXEC_RETURN_PROC; // lwz r0,XLM_EXEC_RETURN_PROC
571     *lp++ = 0x4bfb6ffc; // b 0x36f800
572     for (int i=0; i<M68K_EMUL_OP_MAX-M68K_EMUL_BREAK; i++) {
573     *lp++ = 0x38a00000 + i + M68K_EMUL_BREAK; // li r5,M68K_EMUL_OP_*
574     *lp++ = 0x4bfb6ffc - i*8; // b 0x36f808
575     }
576    
577     // Special handling for M68K_EMUL_OP_SHUTDOWN because Basilisk II is running
578     // on the 68k stack and simply quitting would delete the RAM area leaving
579     // the stack pointer in unaccessible memory
580     lp = (uint32 *)(ROM_BASE + 0x380000 + (M68K_EMUL_OP_SHUTDOWN << 3));
581     *lp++ = 0x80000000 + XLM_EMUL_RETURN_PROC; // lwz r0,XLM_EMUL_RETURN_PROC
582     *lp++ = 0x4bfb6ffc - (M68K_EMUL_OP_SHUTDOWN - M68K_EXEC_RETURN) * 8; // b 0x36f800
583    
584     // Extra routines for EMUL_RETURN/EXEC_RETURN/EMUL_OP
585     lp = (uint32 *)(ROM_BASE + 0x36f800);
586     *lp++ = 0x7c0803a6; // mtlr r0
587     *lp++ = 0x4e800020; // blr
588    
589     *lp++ = 0x80000000 + XLM_EMUL_OP_PROC; // lwz r0,XLM_EMUL_OP_PROC
590     *lp++ = 0x7c0803a6; // mtlr r0
591     *lp++ = 0x4e800020; // blr
592    
593     // Extra routine for 68k emulator start
594     lp = (uint32 *)(ROM_BASE + 0x36f900);
595     *lp++ = 0x7c2903a6; // mtctr r1
596     *lp++ = 0x80200000 + XLM_IRQ_NEST; // lwz r1,XLM_IRQ_NEST
597     *lp++ = 0x38210001; // addi r1,r1,1
598     *lp++ = 0x90200000 + XLM_IRQ_NEST; // stw r1,XLM_IRQ_NEST
599     *lp++ = 0x80200000 + XLM_KERNEL_DATA;// lwz r1,XLM_KERNEL_DATA
600     *lp++ = 0x90c10018; // stw r6,0x18(r1)
601     *lp++ = 0x7cc902a6; // mfctr r6
602     *lp++ = 0x90c10004; // stw r6,$0004(r1)
603     *lp++ = 0x80c1065c; // lwz r6,$065c(r1)
604     *lp++ = 0x90e6013c; // stw r7,$013c(r6)
605     *lp++ = 0x91060144; // stw r8,$0144(r6)
606     *lp++ = 0x9126014c; // stw r9,$014c(r6)
607     *lp++ = 0x91460154; // stw r10,$0154(r6)
608     *lp++ = 0x9166015c; // stw r11,$015c(r6)
609     *lp++ = 0x91860164; // stw r12,$0164(r6)
610     *lp++ = 0x91a6016c; // stw r13,$016c(r6)
611     *lp++ = 0x7da00026; // mfcr r13
612     *lp++ = 0x80e10660; // lwz r7,$0660(r1)
613     *lp++ = 0x7d8802a6; // mflr r12
614     *lp++ = 0x50e74001; // rlwimi. r7,r7,8,$80000000
615     *lp++ = 0x814105f0; // lwz r10,0x05f0(r1)
616     *lp++ = 0x7d4803a6; // mtlr r10
617     *lp++ = 0x7d8a6378; // mr r10,r12
618     *lp++ = 0x3d600002; // lis r11,0x0002
619     *lp++ = 0x616bf072; // ori r11,r11,0xf072 (MSR)
620     *lp++ = 0x50e7deb4; // rlwimi r7,r7,27,$00000020
621     *lp++ = 0x4e800020; // blr
622    
623     // Extra routine for Reset opcode
624     lp = (uint32 *)(ROM_BASE + 0x36fc00);
625     *lp++ = 0x7c2903a6; // mtctr r1
626     *lp++ = 0x80200000 + XLM_IRQ_NEST; // lwz r1,XLM_IRQ_NEST
627     *lp++ = 0x38210001; // addi r1,r1,1
628     *lp++ = 0x90200000 + XLM_IRQ_NEST; // stw r1,XLM_IRQ_NEST
629     *lp++ = 0x80200000 + XLM_KERNEL_DATA;// lwz r1,XLM_KERNEL_DATA
630     *lp++ = 0x90c10018; // stw r6,0x18(r1)
631     *lp++ = 0x7cc902a6; // mfctr r6
632     *lp++ = 0x90c10004; // stw r6,$0004(r1)
633     *lp++ = 0x80c1065c; // lwz r6,$065c(r1)
634     *lp++ = 0x90e6013c; // stw r7,$013c(r6)
635     *lp++ = 0x91060144; // stw r8,$0144(r6)
636     *lp++ = 0x9126014c; // stw r9,$014c(r6)
637     *lp++ = 0x91460154; // stw r10,$0154(r6)
638     *lp++ = 0x9166015c; // stw r11,$015c(r6)
639     *lp++ = 0x91860164; // stw r12,$0164(r6)
640     *lp++ = 0x91a6016c; // stw r13,$016c(r6)
641     *lp++ = 0x7da00026; // mfcr r13
642     *lp++ = 0x80e10660; // lwz r7,$0660(r1)
643     *lp++ = 0x7d8802a6; // mflr r12
644     *lp++ = 0x50e74001; // rlwimi. r7,r7,8,$80000000
645     *lp++ = 0x814105f4; // lwz r10,0x05f8(r1)
646     *lp++ = 0x7d4803a6; // mtlr r10
647     *lp++ = 0x7d8a6378; // mr r10,r12
648     *lp++ = 0x3d600002; // lis r11,0x0002
649     *lp++ = 0x616bf072; // ori r11,r11,0xf072 (MSR)
650     *lp++ = 0x50e7deb4; // rlwimi r7,r7,27,$00000020
651     *lp++ = 0x4e800020; // blr
652    
653     // Patch DR emulator to jump to right address when an interrupt occurs
654     lp = (uint32 *)(ROM_BASE + 0x370000);
655     while (lp < (uint32 *)(ROM_BASE + 0x380000)) {
656     if (*lp == 0x4ca80020) // bclr 5,8
657     goto dr_found;
658     lp++;
659     }
660     D(bug("DR emulator patch location not found\n"));
661     return false;
662     dr_found:
663     lp++;
664     *lp = 0x48000000 + 0xf000 - ((uint32)lp & 0xffff); // b DR_CACHE_BASE+0x1f000
665     lp = (uint32 *)(ROM_BASE + 0x37f000);
666     *lp++ = 0x3c000000 + ((ROM_BASE + 0x46d0a4) >> 16); // lis r0,xxx
667     *lp++ = 0x60000000 + ((ROM_BASE + 0x46d0a4) & 0xffff); // ori r0,r0,xxx
668     *lp++ = 0x7c0903a6; // mtctr r0
669     *lp = POWERPC_BCTR; // bctr
670     return true;
671     }
672    
673     // Nanokernel patches
674     static bool patch_nanokernel(void)
675     {
676     uint32 *lp;
677    
678     // Patch 68k emulator trap routine
679     lp = (uint32 *)(ROM_BASE + 0x312994); // Always restore FPU state
680     while (*lp != 0x39260040) lp++;
681     lp--;
682     *lp = 0x48000441; // bl 0x00312dd4
683     lp = (uint32 *)(ROM_BASE + 0x312dd8); // Don't modify MSR to turn on FPU
684     while (*lp != 0x810600e4) lp++;
685     lp--;
686     *lp++ = POWERPC_NOP;
687     lp += 2;
688     *lp++ = POWERPC_NOP;
689     lp++;
690     *lp++ = POWERPC_NOP;
691     *lp++ = POWERPC_NOP;
692     *lp = POWERPC_NOP;
693    
694     // Patch trap return routine
695     lp = (uint32 *)(ROM_BASE + 0x312c20);
696     while (*lp != 0x7d5a03a6) lp++;
697     *lp++ = 0x7d4903a6; // mtctr r10
698     *lp++ = 0x7daff120; // mtcr r13
699     *lp++ = 0x48000000 + 0x8000 - ((uint32)lp & 0xffff); // b ROM_BASE+0x318000
700     uint32 xlp = (uint32)lp & 0xffff;
701    
702     lp = (uint32 *)(ROM_BASE + 0x312c50); // Replace rfi
703     while (*lp != 0x4c000064) lp++;
704     *lp = POWERPC_BCTR;
705    
706     lp = (uint32 *)(ROM_BASE + 0x318000);
707     *lp++ = 0x81400000 + XLM_IRQ_NEST; // lwz r10,XLM_IRQ_NEST
708     *lp++ = 0x394affff; // subi r10,r10,1
709     *lp++ = 0x91400000 + XLM_IRQ_NEST; // stw r10,XLM_IRQ_NEST
710     *lp = 0x48000000 + ((xlp - 0x800c) & 0x03fffffc); // b ROM_BASE+0x312c2c
711     return true;
712     }
713    
714     static bool patch_rom(void)
715     {
716     // Detect ROM type
717     if (!memcmp((void *)(ROM_BASE + 0x30d064), "Boot TNT", 8))
718     ROMType = ROMTYPE_TNT;
719     else if (!memcmp((void *)(ROM_BASE + 0x30d064), "Boot Alchemy", 12))
720     ROMType = ROMTYPE_ALCHEMY;
721     else if (!memcmp((void *)(ROM_BASE + 0x30d064), "Boot Zanzibar", 13))
722     ROMType = ROMTYPE_ZANZIBAR;
723     else if (!memcmp((void *)(ROM_BASE + 0x30d064), "Boot Gazelle", 12))
724     ROMType = ROMTYPE_GAZELLE;
725     else if (!memcmp((void *)(ROM_BASE + 0x30d064), "NewWorld", 8))
726     ROMType = ROMTYPE_NEWWORLD;
727     else
728     return false;
729    
730     // Apply patches
731     if (!patch_nanokernel_boot()) return false;
732     if (!patch_68k_emul()) return false;
733     if (!patch_nanokernel()) return false;
734    
735     // Copy 68k emulator to 2MB boundary
736     memcpy((void *)(ROM_BASE + ROM_SIZE), (void *)(ROM_BASE + ROM_SIZE - 0x100000), 0x100000);
737     return true;
738     }
739    
740    
741     /*
742     * Initialize 680x0 emulation
743     */
744    
745     static asm void *get_toc(void)
746     {
747     mr r3,r2
748     blr
749     }
750    
751     bool Init680x0(void)
752     {
753     char str[256];
754    
755     // Mac address space = host address space
756     RAMBaseMac = (uint32)RAMBaseHost;
757     ROMBaseMac = (uint32)ROMBaseHost;
758    
759     // Get TOC pointer
760     TOC = get_toc();
761    
762     // Get system info
763     get_system_info(&SysInfo);
764     switch (SysInfo.cpu_type) {
765     case B_CPU_PPC_601:
766     PVR = 0x00010000;
767     break;
768     case B_CPU_PPC_603:
769     PVR = 0x00030000;
770     break;
771     case B_CPU_PPC_603e:
772     PVR = 0x00060000;
773     break;
774     case B_CPU_PPC_604:
775     PVR = 0x00040000;
776     break;
777     case B_CPU_PPC_604e:
778     PVR = 0x00090000;
779     break;
780     default:
781     PVR = 0x00040000;
782     break;
783     }
784     CPUClockSpeed = SysInfo.cpu_clock_speed;
785     BusClockSpeed = SysInfo.bus_clock_speed;
786    
787     // Delete old areas
788     area_id old_kernel_area = find_area(KERNEL_AREA_NAME);
789     if (old_kernel_area > 0)
790     delete_area(old_kernel_area);
791     area_id old_dr_cache_area = find_area(DR_CACHE_AREA_NAME);
792     if (old_dr_cache_area > 0)
793     delete_area(old_dr_cache_area);
794    
795     // Create area for Kernel Data
796     kernel_data = (KernelData *)0x68ffe000;
797     kernel_area = create_area(KERNEL_AREA_NAME, &kernel_data, B_EXACT_ADDRESS, 0x2000, B_NO_LOCK, B_READ_AREA | B_WRITE_AREA);
798     if (kernel_area < 0) {
799     sprintf(str, GetString(STR_NO_KERNEL_DATA_ERR), strerror(kernel_area), kernel_area);
800     ErrorAlert(str);
801     return false;
802     }
803     emulator_data = &kernel_data->ed;
804     KernelDataAddr = (uint32)kernel_data;
805     D(bug("Kernel Data area %ld at %p, Emulator Data at %p\n", kernel_area, kernel_data, emulator_data));
806    
807     // Load PowerMac ROM (upper 3MB)
808     try {
809     load_rom();
810     } catch (file_open_error) {
811 cebix 1.6 ErrorAlert(STR_NO_ROM_FILE_ERR);
812 cebix 1.1 return false;
813     } catch (file_read_error) {
814 cebix 1.6 ErrorAlert(STR_ROM_FILE_READ_ERR);
815 cebix 1.1 return false;
816     } catch (rom_size_error) {
817 cebix 1.6 ErrorAlert(STR_ROM_SIZE_ERR);
818 cebix 1.1 return false;
819     }
820    
821     // Install ROM patches
822     if (!patch_rom()) {
823     ErrorAlert("Unsupported PowerMac ROM version");
824     return false;
825     }
826    
827     // Create area for DR Cache
828     DRCacheAddr = DR_CACHE_BASE;
829     dr_cache_area = create_area(DR_CACHE_AREA_NAME, (void **)&DRCacheAddr, B_EXACT_ADDRESS, DR_CACHE_SIZE, B_NO_LOCK, B_READ_AREA | B_WRITE_AREA);
830     if (dr_cache_area < 0) {
831     sprintf(str, GetString(STR_NO_KERNEL_DATA_ERR), strerror(dr_cache_area), dr_cache_area);
832     ErrorAlert(str);
833     return false;
834     }
835     D(bug("DR Cache area %ld at %p\n", dr_cache_area, DRCacheAddr));
836    
837     // Initialize Kernel Data
838     memset(kernel_data, 0, sizeof(KernelData));
839     if (ROMType == ROMTYPE_NEWWORLD) {
840     kernel_data->v[0xc20 >> 2] = RAMSize;
841     kernel_data->v[0xc24 >> 2] = RAMSize;
842     kernel_data->v[0xc30 >> 2] = RAMSize;
843     kernel_data->v[0xc34 >> 2] = RAMSize;
844     kernel_data->v[0xc38 >> 2] = 0x00010020;
845     kernel_data->v[0xc3c >> 2] = 0x00200001;
846     kernel_data->v[0xc40 >> 2] = 0x00010000;
847     kernel_data->v[0xc50 >> 2] = RAMBaseMac;
848     kernel_data->v[0xc54 >> 2] = RAMSize;
849     kernel_data->v[0xf60 >> 2] = PVR;
850     kernel_data->v[0xf64 >> 2] = CPUClockSpeed;
851     kernel_data->v[0xf68 >> 2] = BusClockSpeed;
852     kernel_data->v[0xf6c >> 2] = CPUClockSpeed;
853     } else {
854     kernel_data->v[0xc80 >> 2] = RAMSize;
855     kernel_data->v[0xc84 >> 2] = RAMSize;
856     kernel_data->v[0xc90 >> 2] = RAMSize;
857     kernel_data->v[0xc94 >> 2] = RAMSize;
858     kernel_data->v[0xc98 >> 2] = 0x00010020;
859     kernel_data->v[0xc9c >> 2] = 0x00200001;
860     kernel_data->v[0xca0 >> 2] = 0x00010000;
861     kernel_data->v[0xcb0 >> 2] = RAMBaseMac;
862     kernel_data->v[0xcb4 >> 2] = RAMSize;
863     kernel_data->v[0xf80 >> 2] = PVR;
864     kernel_data->v[0xf84 >> 2] = CPUClockSpeed;
865     kernel_data->v[0xf88 >> 2] = BusClockSpeed;
866     kernel_data->v[0xf8c >> 2] = CPUClockSpeed;
867     }
868    
869     // Initialize extra low memory
870     memset((void *)0x2000, 0, 0x1000);
871     *(uint32 *)XLM_RESET_STACK = 0x2000; // Reset stack pointer
872     *(KernelData **)XLM_KERNEL_DATA = kernel_data;// For trap replacement routines
873     *(void **)XLM_TOC = TOC; // TOC pointer of emulator
874     *(uint32 *)XLM_PVR = PVR; // Theoretical PVR
875    
876     // Clear caches (as we loaded and patched code)
877     clear_caches((void *)ROM_BASE, ROM_AREA_SIZE, B_INVALIDATE_ICACHE | B_FLUSH_DCACHE);
878     return true;
879     }
880    
881    
882     /*
883     * Deinitialize 680x0 emulation
884     */
885    
886     void Exit680x0(void)
887     {
888     // Delete DR Cache area
889     if (dr_cache_area >= 0)
890     delete_area(dr_cache_area);
891    
892     // Delete Kernel Data area
893     if (kernel_area >= 0)
894     delete_area(kernel_area);
895     }
896    
897    
898     /*
899     * Quit emulator (must only be called from main thread)
900     */
901    
902     asm void QuitEmulator(void)
903     {
904     lwz r0,XLM_EMUL_RETURN_PROC
905     mtlr r0
906     blr
907     }
908    
909    
910     /*
911     * Reset and start 680x0 emulation
912     */
913    
914     static asm void jump_to_rom(register uint32 entry)
915     {
916     // Create stack frame
917     mflr r0
918     stw r0,8(r1)
919     mfcr r0
920     stw r0,4(r1)
921     stwu r1,-(56+19*4+18*8)(r1)
922    
923     // Save PowerPC registers
924     stmw r13,56(r1)
925     stfd f14,56+19*4+0*8(r1)
926     stfd f15,56+19*4+1*8(r1)
927     stfd f16,56+19*4+2*8(r1)
928     stfd f17,56+19*4+3*8(r1)
929     stfd f18,56+19*4+4*8(r1)
930     stfd f19,56+19*4+5*8(r1)
931     stfd f20,56+19*4+6*8(r1)
932     stfd f21,56+19*4+7*8(r1)
933     stfd f22,56+19*4+8*8(r1)
934     stfd f23,56+19*4+9*8(r1)
935     stfd f24,56+19*4+10*8(r1)
936     stfd f25,56+19*4+11*8(r1)
937     stfd f26,56+19*4+12*8(r1)
938     stfd f27,56+19*4+13*8(r1)
939     stfd f28,56+19*4+14*8(r1)
940     stfd f29,56+19*4+15*8(r1)
941     stfd f30,56+19*4+16*8(r1)
942     stfd f31,56+19*4+17*8(r1)
943    
944     // Move entry address to ctr, get pointer to Emulator Data
945     mtctr r3
946     lwz r3,emulator_data(r2)
947    
948     // Skip over EMUL_RETURN routine and get its address
949     bl @1
950    
951    
952     /*
953     * EMUL_RETURN: Returned from emulator
954     */
955    
956     // Restore PowerPC registers
957     lwz r1,XLM_EMUL_RETURN_STACK
958     lwz r2,XLM_TOC
959     lmw r13,56(r1)
960     lfd f14,56+19*4+0*8(r1)
961     lfd f15,56+19*4+1*8(r1)
962     lfd f16,56+19*4+2*8(r1)
963     lfd f17,56+19*4+3*8(r1)
964     lfd f18,56+19*4+4*8(r1)
965     lfd f19,56+19*4+5*8(r1)
966     lfd f20,56+19*4+6*8(r1)
967     lfd f21,56+19*4+7*8(r1)
968     lfd f22,56+19*4+8*8(r1)
969     lfd f23,56+19*4+9*8(r1)
970     lfd f24,56+19*4+10*8(r1)
971     lfd f25,56+19*4+11*8(r1)
972     lfd f26,56+19*4+12*8(r1)
973     lfd f27,56+19*4+13*8(r1)
974     lfd f28,56+19*4+14*8(r1)
975     lfd f29,56+19*4+15*8(r1)
976     lfd f30,56+19*4+16*8(r1)
977     lfd f31,56+19*4+17*8(r1)
978    
979     // Exiting from 68k emulator
980     li r0,1
981     stw r0,XLM_IRQ_NEST
982     li r0,MODE_EMUL_OP
983     stw r0,XLM_RUN_MODE
984    
985     // Return to caller of jump_to_rom()
986     lwz r0,56+19*4+18*8+8(r1)
987     mtlr r0
988     lwz r0,56+19*4+18*8+4(r1)
989     mtcrf 0xff,r0
990     addi r1,r1,56+19*4+18*8
991     blr
992    
993    
994     // Save address of EMUL_RETURN routine for 68k emulator patch
995     @1 mflr r0
996     stw r0,XLM_EMUL_RETURN_PROC
997    
998     // Skip over EXEC_RETURN routine and get its address
999     bl @2
1000    
1001    
1002     /*
1003     * EXEC_RETURN: Returned from 68k routine executed with Execute68k()
1004     */
1005    
1006     // Save r25 (contains current 68k interrupt level)
1007     stw r25,XLM_68K_R25
1008    
1009     // Reentering EMUL_OP mode
1010     li r0,MODE_EMUL_OP
1011     stw r0,XLM_RUN_MODE
1012    
1013     // Save 68k registers
1014     lwz r4,56+19*4+18*8+12(r1)
1015     stw r8,M68kRegisters.d[0](r4)
1016     stw r9,M68kRegisters.d[1](r4)
1017     stw r10,M68kRegisters.d[2](r4)
1018     stw r11,M68kRegisters.d[3](r4)
1019     stw r12,M68kRegisters.d[4](r4)
1020     stw r13,M68kRegisters.d[5](r4)
1021     stw r14,M68kRegisters.d[6](r4)
1022     stw r15,M68kRegisters.d[7](r4)
1023     stw r16,M68kRegisters.a[0](r4)
1024     stw r17,M68kRegisters.a[1](r4)
1025     stw r18,M68kRegisters.a[2](r4)
1026     stw r19,M68kRegisters.a[3](r4)
1027     stw r20,M68kRegisters.a[4](r4)
1028     stw r21,M68kRegisters.a[5](r4)
1029     stw r22,M68kRegisters.a[6](r4)
1030    
1031     // Restore PowerPC registers
1032     lmw r13,56(r1)
1033     #if SAVE_FP_EXEC_68K
1034     lfd f14,56+19*4+0*8(r1)
1035     lfd f15,56+19*4+1*8(r1)
1036     lfd f16,56+19*4+2*8(r1)
1037     lfd f17,56+19*4+3*8(r1)
1038     lfd f18,56+19*4+4*8(r1)
1039     lfd f19,56+19*4+5*8(r1)
1040     lfd f20,56+19*4+6*8(r1)
1041     lfd f21,56+19*4+7*8(r1)
1042     lfd f22,56+19*4+8*8(r1)
1043     lfd f23,56+19*4+9*8(r1)
1044     lfd f24,56+19*4+10*8(r1)
1045     lfd f25,56+19*4+11*8(r1)
1046     lfd f26,56+19*4+12*8(r1)
1047     lfd f27,56+19*4+13*8(r1)
1048     lfd f28,56+19*4+14*8(r1)
1049     lfd f29,56+19*4+15*8(r1)
1050     lfd f30,56+19*4+16*8(r1)
1051     lfd f31,56+19*4+17*8(r1)
1052     #endif
1053    
1054     // Return to caller
1055     lwz r0,56+19*4+18*8+8(r1)
1056     mtlr r0
1057     addi r1,r1,56+19*4+18*8
1058     blr
1059    
1060    
1061     // Stave address of EXEC_RETURN routine for 68k emulator patch
1062     @2 mflr r0
1063     stw r0,XLM_EXEC_RETURN_PROC
1064    
1065     // Skip over EMUL_OP routine and get its address
1066     bl @3
1067    
1068    
1069     /*
1070     * EMUL_OP: Execute native routine, selector in r5 (my own private mode switch)
1071     *
1072     * 68k registers are stored in a M68kRegisters struct on the stack
1073     * which the native routine may read and modify
1074     */
1075    
1076     // Save r25 (contains current 68k interrupt level)
1077     stw r25,XLM_68K_R25
1078    
1079     // Entering EMUL_OP mode within 68k emulator
1080     li r0,MODE_EMUL_OP
1081     stw r0,XLM_RUN_MODE
1082    
1083     // Create PowerPC stack frame, reserve space for M68kRegisters
1084     mr r3,r1
1085     subi r1,r1,56 // Fake "caller" frame
1086     rlwinm r1,r1,0,0,29 // Align stack
1087    
1088     mfcr r0
1089     rlwinm r0,r0,0,11,8
1090     stw r0,4(r1)
1091     mfxer r0
1092     stw r0,16(r1)
1093     stw r2,12(r1)
1094     stwu r1,-(56+16*4+15*8)(r1)
1095     lwz r2,XLM_TOC
1096    
1097     // Save 68k registers
1098     stw r8,56+M68kRegisters.d[0](r1)
1099     stw r9,56+M68kRegisters.d[1](r1)
1100     stw r10,56+M68kRegisters.d[2](r1)
1101     stw r11,56+M68kRegisters.d[3](r1)
1102     stw r12,56+M68kRegisters.d[4](r1)
1103     stw r13,56+M68kRegisters.d[5](r1)
1104     stw r14,56+M68kRegisters.d[6](r1)
1105     stw r15,56+M68kRegisters.d[7](r1)
1106     stw r16,56+M68kRegisters.a[0](r1)
1107     stw r17,56+M68kRegisters.a[1](r1)
1108     stw r18,56+M68kRegisters.a[2](r1)
1109     stw r19,56+M68kRegisters.a[3](r1)
1110     stw r20,56+M68kRegisters.a[4](r1)
1111     stw r21,56+M68kRegisters.a[5](r1)
1112     stw r22,56+M68kRegisters.a[6](r1)
1113     stw r3,56+M68kRegisters.a[7](r1)
1114     stfd f0,56+16*4+0*8(r1)
1115     stfd f1,56+16*4+1*8(r1)
1116     stfd f2,56+16*4+2*8(r1)
1117     stfd f3,56+16*4+3*8(r1)
1118     stfd f4,56+16*4+4*8(r1)
1119     stfd f5,56+16*4+5*8(r1)
1120     stfd f6,56+16*4+6*8(r1)
1121     stfd f7,56+16*4+7*8(r1)
1122     mffs f0
1123     stfd f8,56+16*4+8*8(r1)
1124     stfd f9,56+16*4+9*8(r1)
1125     stfd f10,56+16*4+10*8(r1)
1126     stfd f11,56+16*4+11*8(r1)
1127     stfd f12,56+16*4+12*8(r1)
1128     stfd f13,56+16*4+13*8(r1)
1129     stfd f0,56+16*4+14*8(r1)
1130    
1131     // Execute native routine
1132     mr r3,r5
1133     addi r4,r1,56
1134     bl EmulOp
1135    
1136     // Restore 68k registers
1137     lwz r8,56+M68kRegisters.d[0](r1)
1138     lwz r9,56+M68kRegisters.d[1](r1)
1139     lwz r10,56+M68kRegisters.d[2](r1)
1140     lwz r11,56+M68kRegisters.d[3](r1)
1141     lwz r12,56+M68kRegisters.d[4](r1)
1142     lwz r13,56+M68kRegisters.d[5](r1)
1143     lwz r14,56+M68kRegisters.d[6](r1)
1144     lwz r15,56+M68kRegisters.d[7](r1)
1145     lwz r16,56+M68kRegisters.a[0](r1)
1146     lwz r17,56+M68kRegisters.a[1](r1)
1147     lwz r18,56+M68kRegisters.a[2](r1)
1148     lwz r19,56+M68kRegisters.a[3](r1)
1149     lwz r20,56+M68kRegisters.a[4](r1)
1150     lwz r21,56+M68kRegisters.a[5](r1)
1151     lwz r22,56+M68kRegisters.a[6](r1)
1152     lwz r3,56+M68kRegisters.a[7](r1)
1153     lfd f13,56+16*4+14*8(r1)
1154     lfd f0,56+16*4+0*8(r1)
1155     lfd f1,56+16*4+1*8(r1)
1156     lfd f2,56+16*4+2*8(r1)
1157     lfd f3,56+16*4+3*8(r1)
1158     lfd f4,56+16*4+4*8(r1)
1159     lfd f5,56+16*4+5*8(r1)
1160     lfd f6,56+16*4+6*8(r1)
1161     lfd f7,56+16*4+7*8(r1)
1162     mtfsf 0xff,f13
1163     lfd f8,56+16*4+8*8(r1)
1164     lfd f9,56+16*4+9*8(r1)
1165     lfd f10,56+16*4+10*8(r1)
1166     lfd f11,56+16*4+11*8(r1)
1167     lfd f12,56+16*4+12*8(r1)
1168     lfd f13,56+16*4+13*8(r1)
1169    
1170     // Delete PowerPC stack frame
1171     lwz r2,56+16*4+15*8+12(r1)
1172     lwz r0,56+16*4+15*8+16(r1)
1173     mtxer r0
1174     lwz r0,56+16*4+15*8+4(r1)
1175     mtcrf 0xff,r0
1176     mr r1,r3
1177    
1178     // Reeintering 68k emulator
1179     li r0,MODE_68K
1180     stw r0,XLM_RUN_MODE
1181    
1182     // Set r0 to 0 for 68k emulator
1183     li r0,0
1184    
1185     // Execute next 68k opcode
1186     rlwimi r29,r27,3,13,28
1187     lhau r27,2(r24)
1188     mtlr r29
1189     blr
1190    
1191    
1192     // Save address of EMUL_OP routine for 68k emulator patch
1193     @3 mflr r0
1194     stw r0,XLM_EMUL_OP_PROC
1195    
1196     // Save stack pointer for EMUL_RETURN
1197     stw r1,XLM_EMUL_RETURN_STACK
1198    
1199     // Preset registers for ROM boot routine
1200     lis r3,0x40b0 // Pointer to ROM boot structure
1201     ori r3,r3,0xd000
1202    
1203     // 68k emulator is now active
1204     li r0,MODE_68K
1205     stw r0,XLM_RUN_MODE
1206    
1207     // Jump to ROM
1208     bctr
1209     }
1210    
1211     void Start680x0(void)
1212     {
1213     // Install interrupt signal handler
1214     sigemptyset(&sigusr1_action.sa_mask);
1215     sigusr1_action.sa_handler = (__signal_func_ptr)(sigusr1_handler);
1216     sigusr1_action.sa_flags = 0;
1217     sigusr1_action.sa_userdata = NULL;
1218     sigaction(SIGUSR1, &sigusr1_action, NULL);
1219    
1220     // Install signal stack
1221     set_signal_stack(malloc(SIG_STACK_SIZE), SIG_STACK_SIZE);
1222    
1223     // We're now ready to receive signals
1224     ReadyForSignals = true;
1225    
1226     D(bug("Jumping to ROM\n"));
1227     jump_to_rom(ROM_BASE + 0x310000);
1228     D(bug("Returned from ROM\n"));
1229    
1230     // We're no longer ready to receive signals
1231     ReadyForSignals = false;
1232     }
1233    
1234    
1235     /*
1236     * Trigger interrupt
1237     */
1238    
1239     void TriggerInterrupt(void)
1240     {
1241     if (emul_thread > 0 && ReadyForSignals)
1242     send_signal(emul_thread, SIGUSR1);
1243     }
1244    
1245 cebix 1.5 void TriggerNMI(void)
1246     {
1247     //!! not implemented yet
1248     }
1249    
1250 cebix 1.1
1251     /*
1252     * Execute 68k subroutine
1253     * r->a[7] and r->sr are unused!
1254     */
1255    
1256     static asm void execute_68k(register uint32 addr, register M68kRegisters *r)
1257     {
1258     // Create stack frame
1259     mflr r0
1260     stw r0,8(r1)
1261     stw r4,12(r1)
1262     stwu r1,-(56+19*4+18*8)(r1)
1263    
1264     // Save PowerPC registers
1265     stmw r13,56(r1)
1266     #if SAVE_FP_EXEC_68K
1267     stfd f14,56+19*4+0*8(r1)
1268     stfd f15,56+19*4+1*8(r1)
1269     stfd f16,56+19*4+2*8(r1)
1270     stfd f17,56+19*4+3*8(r1)
1271     stfd f18,56+19*4+4*8(r1)
1272     stfd f19,56+19*4+5*8(r1)
1273     stfd f20,56+19*4+6*8(r1)
1274     stfd f21,56+19*4+7*8(r1)
1275     stfd f22,56+19*4+8*8(r1)
1276     stfd f23,56+19*4+9*8(r1)
1277     stfd f24,56+19*4+10*8(r1)
1278     stfd f25,56+19*4+11*8(r1)
1279     stfd f26,56+19*4+12*8(r1)
1280     stfd f27,56+19*4+13*8(r1)
1281     stfd f28,56+19*4+14*8(r1)
1282     stfd f29,56+19*4+15*8(r1)
1283     stfd f30,56+19*4+16*8(r1)
1284     stfd f31,56+19*4+17*8(r1)
1285     #endif
1286    
1287     // Set up registers for 68k emulator
1288     lwz r31,XLM_KERNEL_DATA // Pointer to Kernel Data
1289     addi r31,r31,0x1000 // points to Emulator Data
1290     li r0,0
1291     mtcrf 0xff,r0
1292     creqv 11,11,11 // Supervisor mode
1293     lwz r8,M68kRegisters.d[0](r4)
1294     lwz r9,M68kRegisters.d[1](r4)
1295     lwz r10,M68kRegisters.d[2](r4)
1296     lwz r11,M68kRegisters.d[3](r4)
1297     lwz r12,M68kRegisters.d[4](r4)
1298     lwz r13,M68kRegisters.d[5](r4)
1299     lwz r14,M68kRegisters.d[6](r4)
1300     lwz r15,M68kRegisters.d[7](r4)
1301     lwz r16,M68kRegisters.a[0](r4)
1302     lwz r17,M68kRegisters.a[1](r4)
1303     lwz r18,M68kRegisters.a[2](r4)
1304     lwz r19,M68kRegisters.a[3](r4)
1305     lwz r20,M68kRegisters.a[4](r4)
1306     lwz r21,M68kRegisters.a[5](r4)
1307     lwz r22,M68kRegisters.a[6](r4)
1308     li r23,0
1309     mr r24,r3
1310     lwz r25,XLM_68K_R25 // MSB of SR
1311     li r26,0
1312     li r28,0 // VBR
1313     lwz r29,0x74(r31) // Pointer to opcode table
1314     lwz r30,0x78(r31) // Address of emulator
1315    
1316     // Reentering 68k emulator
1317     li r0,MODE_68K
1318     stw r0,XLM_RUN_MODE
1319    
1320     // Set r0 to 0 for 68k emulator
1321     li r0,0
1322    
1323     // Execute 68k opcode
1324     lha r27,0(r24)
1325     rlwimi r29,r27,3,13,28
1326     lhau r27,2(r24)
1327     mtlr r29
1328     blr
1329     }
1330    
1331     void Execute68k(uint32 addr, M68kRegisters *r)
1332     {
1333     uint16 proc[4] = {M68K_JSR, addr >> 16, addr & 0xffff, M68K_EXEC_RETURN};
1334     execute_68k((uint32)proc, r);
1335     }
1336    
1337    
1338     /*
1339     * Execute MacOS 68k trap
1340     * r->a[7] and r->sr are unused!
1341     */
1342    
1343     void Execute68kTrap(uint16 trap, struct M68kRegisters *r)
1344     {
1345     uint16 proc[2] = {trap, M68K_EXEC_RETURN};
1346     execute_68k((uint32)proc, r);
1347     }
1348    
1349    
1350     /*
1351     * USR1 handler
1352     */
1353    
1354     static void sigusr1_handler(int sig, void *arg, vregs *r)
1355     {
1356     // Do nothing if interrupts are disabled
1357     if ((*(int32 *)XLM_IRQ_NEST) > 0)
1358     return;
1359    
1360     // 68k emulator active? Then trigger 68k interrupt level 1
1361     if (*(uint32 *)XLM_RUN_MODE == MODE_68K) {
1362     *(uint16 *)(kernel_data->v[0x67c >> 2]) = 1;
1363     r->cr |= kernel_data->v[0x674 >> 2];
1364     }
1365     }