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root/cebix/SheepShaver/src/Unix/main_unix.cpp
Revision: 1.67
Committed: 2005-06-30T10:17:58Z (18 years, 10 months ago) by gbeauche
Branch: MAIN
Changes since 1.66: +3 -1 lines
Log Message: 
Improve idle wait mechanism. Now, the emulator thread can be suspended
(idle_wait) until events arrived and notified through TriggerInterrupt().
i.e. we no longer sleep a fixed amount of time on platforms that support
a thread wait/signal mechanism.

File Contents

# Content
1 /*
2 * main_unix.cpp - Emulation core, Unix implementation
3 *
4 * SheepShaver (C) 1997-2005 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 * NOTES:
23 *
24 * See main_beos.cpp for a description of the three operating modes.
25 *
26 * In addition to that, we have to handle the fact that the MacOS ABI
27 * is slightly different from the SysV ABI used by Linux:
28 * - Stack frames are different (e.g. LR is stored in 8(r1) under
29 * MacOS, but in 4(r1) under Linux)
30 * - There is a pointer to Thread Local Storage (TLS) under Linux with
31 * recent enough glibc. This is r2 in 32-bit mode and r13 in
32 * 64-bit mode (PowerOpen/AIX ABI)
33 * - r13 is used as a small data pointer under Linux (but appearently
34 * it is not used this way? To be sure, we specify -msdata=none
35 * in the Makefile)
36 * - There are no TVECTs under Linux; function pointers point
37 * directly to the function code
38 * The Execute*() functions have to account for this. Additionally, we
39 * cannot simply call MacOS functions by getting their TVECT and jumping
40 * to it. Such calls are done via the call_macos*() functions in
41 * asm_linux.S that create a MacOS stack frame, load the TOC pointer
42 * and put the arguments into the right registers.
43 *
44 * As on the BeOS, we have to specify an alternate signal stack because
45 * interrupts (and, under Linux, Low Memory accesses) may occur when r1
46 * is pointing to the Kernel Data or to Low Memory. There is one
47 * problem, however, due to the alternate signal stack being global to
48 * all signal handlers. Consider the following scenario:
49 * - The main thread is executing some native PPC MacOS code in
50 * MODE_NATIVE, running on the MacOS stack (somewhere in the Mac RAM).
51 * - A SIGUSR2 interrupt occurs. The kernel switches to the signal
52 * stack and starts executing the SIGUSR2 signal handler.
53 * - The signal handler sees the MODE_NATIVE and calls ppc_interrupt()
54 * to handle a native interrupt.
55 * - ppc_interrupt() sets r1 to point to the Kernel Data and jumps to
56 * the nanokernel.
57 * - The nanokernel accesses a Low Memory global (most likely one of
58 * the XLMs), a SIGSEGV occurs.
59 * - The kernel sees that r1 does not point to the signal stack and
60 * switches to the signal stack again, thus overwriting the data that
61 * the SIGUSR2 handler put there.
62 * The same problem arises when calling ExecutePPC() inside the MODE_EMUL_OP
63 * interrupt handler.
64 *
65 * The solution is to set the signal stack to a second, "extra" stack
66 * inside the SIGUSR2 handler before entering the Nanokernel or calling
67 * ExecutePPC (or any function that might cause a mode switch). The signal
68 * stack is restored before exiting the SIGUSR2 handler.
69 *
70 * Note that POSIX standard says you can't modify the alternate
71 * signal stack while the process is executing on it. There is a
72 * hackaround though: we install a trampoline SIGUSR2 handler that
73 * sets up an alternate stack itself and calls the real handler.
74 * Then, when we call sigaltstack() there, we no longer get an EPERM,
75 * i.e. it now works.
76 *
77 * TODO:
78 * check if SIGSEGV handler works for all registers (including FP!)
79 */
80
81 #include <unistd.h>
82 #include <fcntl.h>
83 #include <time.h>
84 #include <errno.h>
85 #include <stdio.h>
86 #include <stdlib.h>
87 #include <string.h>
88 #include <pthread.h>
89 #include <sys/mman.h>
90 #include <sys/ipc.h>
91 #include <sys/shm.h>
92 #include <signal.h>
93
94 #include "sysdeps.h"
95 #include "main.h"
96 #include "version.h"
97 #include "prefs.h"
98 #include "prefs_editor.h"
99 #include "cpu_emulation.h"
100 #include "emul_op.h"
101 #include "xlowmem.h"
102 #include "xpram.h"
103 #include "timer.h"
104 #include "adb.h"
105 #include "video.h"
106 #include "sys.h"
107 #include "macos_util.h"
108 #include "rom_patches.h"
109 #include "user_strings.h"
110 #include "vm_alloc.h"
111 #include "sigsegv.h"
112
113 #define DEBUG 0
114 #include "debug.h"
115
116
117 #ifdef HAVE_DIRENT_H
118 #include <dirent.h>
119 #endif
120
121 #ifdef USE_SDL
122 #include <SDL.h>
123 #endif
124
125 #ifndef USE_SDL_VIDEO
126 #include <X11/Xlib.h>
127 #endif
128
129 #ifdef ENABLE_GTK
130 #include <gtk/gtk.h>
131 #endif
132
133 #ifdef ENABLE_XF86_DGA
134 #include <X11/Xlib.h>
135 #include <X11/Xutil.h>
136 #include <X11/extensions/xf86dga.h>
137 #endif
138
139 #ifdef ENABLE_MON
140 #include "mon.h"
141 #endif
142
143
144 // Enable emulation of unaligned lmw/stmw?
145 #define EMULATE_UNALIGNED_LOADSTORE_MULTIPLE 1
146
147 // Enable Execute68k() safety checks?
148 #define SAFE_EXEC_68K 0
149
150 // Interrupts in EMUL_OP mode?
151 #define INTERRUPTS_IN_EMUL_OP_MODE 1
152
153 // Interrupts in native mode?
154 #define INTERRUPTS_IN_NATIVE_MODE 1
155
156
157 // Constants
158 const char ROM_FILE_NAME[] = "ROM";
159 const char ROM_FILE_NAME2[] = "Mac OS ROM";
160
161 #if REAL_ADDRESSING
162 const uintptr RAM_BASE = 0x20000000; // Base address of RAM
163 #else
164 // FIXME: needs to be >= 0x04000000
165 const uintptr RAM_BASE = 0x10000000; // Base address of RAM
166 #endif
167 const uint32 SIG_STACK_SIZE = 0x10000; // Size of signal stack
168
169
170 #if !EMULATED_PPC
171 struct sigregs {
172 uint32 nip;
173 uint32 link;
174 uint32 ctr;
175 uint32 msr;
176 uint32 xer;
177 uint32 ccr;
178 uint32 gpr[32];
179 };
180
181 #if defined(__linux__)
182 #include <sys/ucontext.h>
183 #define MACHINE_REGISTERS(scp) ((machine_regs *)(((ucontext_t *)scp)->uc_mcontext.regs))
184
185 struct machine_regs : public pt_regs
186 {
187 u_long & cr() { return pt_regs::ccr; }
188 uint32 cr() const { return pt_regs::ccr; }
189 uint32 lr() const { return pt_regs::link; }
190 uint32 ctr() const { return pt_regs::ctr; }
191 uint32 xer() const { return pt_regs::xer; }
192 uint32 msr() const { return pt_regs::msr; }
193 uint32 dar() const { return pt_regs::dar; }
194 u_long & pc() { return pt_regs::nip; }
195 uint32 pc() const { return pt_regs::nip; }
196 u_long & gpr(int i) { return pt_regs::gpr[i]; }
197 uint32 gpr(int i) const { return pt_regs::gpr[i]; }
198 };
199 #endif
200
201 #if defined(__NetBSD__)
202 #include <sys/ucontext.h>
203 #define MACHINE_REGISTERS(scp) ((machine_regs *)&(((ucontext_t *)scp)->uc_mcontext))
204
205 struct machine_regs : public mcontext_t
206 {
207 long & cr() { return __gregs[_REG_CR]; }
208 uint32 cr() const { return __gregs[_REG_CR]; }
209 uint32 lr() const { return __gregs[_REG_LR]; }
210 uint32 ctr() const { return __gregs[_REG_CTR]; }
211 uint32 xer() const { return __gregs[_REG_XER]; }
212 uint32 msr() const { return __gregs[_REG_MSR]; }
213 uint32 dar() const { return (uint32)(((siginfo_t *)(((unsigned long)this) - offsetof(ucontext_t, uc_mcontext))) - 1)->si_addr; } /* HACK */
214 long & pc() { return __gregs[_REG_PC]; }
215 uint32 pc() const { return __gregs[_REG_PC]; }
216 long & gpr(int i) { return __gregs[_REG_R0 + i]; }
217 uint32 gpr(int i) const { return __gregs[_REG_R0 + i]; }
218 };
219 #endif
220
221 #if defined(__APPLE__) && defined(__MACH__)
222 #include <sys/signal.h>
223 extern "C" int sigaltstack(const struct sigaltstack *ss, struct sigaltstack *oss);
224
225 #include <sys/ucontext.h>
226 #define MACHINE_REGISTERS(scp) ((machine_regs *)(((ucontext_t *)scp)->uc_mcontext))
227
228 struct machine_regs : public mcontext
229 {
230 uint32 & cr() { return ss.cr; }
231 uint32 cr() const { return ss.cr; }
232 uint32 lr() const { return ss.lr; }
233 uint32 ctr() const { return ss.ctr; }
234 uint32 xer() const { return ss.xer; }
235 uint32 msr() const { return ss.srr1; }
236 uint32 dar() const { return es.dar; }
237 uint32 & pc() { return ss.srr0; }
238 uint32 pc() const { return ss.srr0; }
239 uint32 & gpr(int i) { return (&ss.r0)[i]; }
240 uint32 gpr(int i) const { return (&ss.r0)[i]; }
241 };
242 #endif
243
244 static void build_sigregs(sigregs *srp, machine_regs *mrp)
245 {
246 srp->nip = mrp->pc();
247 srp->link = mrp->lr();
248 srp->ctr = mrp->ctr();
249 srp->msr = mrp->msr();
250 srp->xer = mrp->xer();
251 srp->ccr = mrp->cr();
252 for (int i = 0; i < 32; i++)
253 srp->gpr[i] = mrp->gpr(i);
254 }
255 #endif
256
257
258 // Global variables (exported)
259 #if !EMULATED_PPC
260 void *TOC = NULL; // Pointer to Thread Local Storage (r2)
261 void *R13 = NULL; // Pointer to .sdata section (r13 under Linux)
262 #endif
263 uint32 RAMBase; // Base address of Mac RAM
264 uint32 RAMSize; // Size of Mac RAM
265 uint32 KernelDataAddr; // Address of Kernel Data
266 uint32 BootGlobsAddr; // Address of BootGlobs structure at top of Mac RAM
267 uint32 DRCacheAddr; // Address of DR Cache
268 uint32 PVR; // Theoretical PVR
269 int64 CPUClockSpeed; // Processor clock speed (Hz)
270 int64 BusClockSpeed; // Bus clock speed (Hz)
271 int64 TimebaseSpeed; // Timebase clock speed (Hz)
272 uint8 *RAMBaseHost; // Base address of Mac RAM (host address space)
273 uint8 *ROMBaseHost; // Base address of Mac ROM (host address space)
274
275
276 // Global variables
277 #ifndef USE_SDL_VIDEO
278 char *x_display_name = NULL; // X11 display name
279 Display *x_display = NULL; // X11 display handle
280 #ifdef X11_LOCK_TYPE
281 X11_LOCK_TYPE x_display_lock = X11_LOCK_INIT; // X11 display lock
282 #endif
283 #endif
284
285 static int zero_fd = 0; // FD of /dev/zero
286 static bool lm_area_mapped = false; // Flag: Low Memory area mmap()ped
287 static int kernel_area = -1; // SHM ID of Kernel Data area
288 static bool rom_area_mapped = false; // Flag: Mac ROM mmap()ped
289 static bool ram_area_mapped = false; // Flag: Mac RAM mmap()ped
290 static bool dr_cache_area_mapped = false; // Flag: Mac DR Cache mmap()ped
291 static bool dr_emulator_area_mapped = false;// Flag: Mac DR Emulator mmap()ped
292 static KernelData *kernel_data; // Pointer to Kernel Data
293 static EmulatorData *emulator_data;
294
295 static uint8 last_xpram[XPRAM_SIZE]; // Buffer for monitoring XPRAM changes
296
297 static bool nvram_thread_active = false; // Flag: NVRAM watchdog installed
298 static volatile bool nvram_thread_cancel; // Flag: Cancel NVRAM thread
299 static pthread_t nvram_thread; // NVRAM watchdog
300 static bool tick_thread_active = false; // Flag: MacOS thread installed
301 static volatile bool tick_thread_cancel; // Flag: Cancel 60Hz thread
302 static pthread_t tick_thread; // 60Hz thread
303 static pthread_t emul_thread; // MacOS thread
304
305 static bool ready_for_signals = false; // Handler installed, signals can be sent
306 static int64 num_segv = 0; // Number of handled SEGV signals
307
308 static struct sigaction sigusr2_action; // Interrupt signal (of emulator thread)
309 #if EMULATED_PPC
310 static uintptr sig_stack = 0; // Stack for PowerPC interrupt routine
311 #else
312 static struct sigaction sigsegv_action; // Data access exception signal (of emulator thread)
313 static struct sigaction sigill_action; // Illegal instruction signal (of emulator thread)
314 static struct sigaltstack sig_stack; // Stack for signal handlers
315 static struct sigaltstack extra_stack; // Stack for SIGSEGV inside interrupt handler
316 static bool emul_thread_fatal = false; // Flag: MacOS thread crashed, tick thread shall dump debug output
317 static sigregs sigsegv_regs; // Register dump when crashed
318 static const char *crash_reason = NULL; // Reason of the crash (SIGSEGV, SIGBUS, SIGILL)
319 #endif
320
321 uint32 SheepMem::page_size; // Size of a native page
322 uintptr SheepMem::zero_page = 0; // Address of ro page filled in with zeros
323 uintptr SheepMem::base = 0x60000000; // Address of SheepShaver data
324 uintptr SheepMem::proc; // Bottom address of SheepShave procedures
325 uintptr SheepMem::data; // Top of SheepShaver data (stack like storage)
326
327
328 // Prototypes
329 static bool kernel_data_init(void);
330 static void kernel_data_exit(void);
331 static void Quit(void);
332 static void *emul_func(void *arg);
333 static void *nvram_func(void *arg);
334 static void *tick_func(void *arg);
335 #if EMULATED_PPC
336 extern void emul_ppc(uint32 start);
337 extern void init_emul_ppc(void);
338 extern void exit_emul_ppc(void);
339 sigsegv_return_t sigsegv_handler(sigsegv_address_t, sigsegv_address_t);
340 #else
341 extern "C" void sigusr2_handler_init(int sig, siginfo_t *sip, void *scp);
342 extern "C" void sigusr2_handler(int sig, siginfo_t *sip, void *scp);
343 static void sigsegv_handler(int sig, siginfo_t *sip, void *scp);
344 static void sigill_handler(int sig, siginfo_t *sip, void *scp);
345 #endif
346
347
348 // From asm_linux.S
349 #if !EMULATED_PPC
350 extern "C" void *get_sp(void);
351 extern "C" void *get_r2(void);
352 extern "C" void set_r2(void *);
353 extern "C" void *get_r13(void);
354 extern "C" void set_r13(void *);
355 extern "C" void flush_icache_range(uint32 start, uint32 end);
356 extern "C" void jump_to_rom(uint32 entry, uint32 context);
357 extern "C" void quit_emulator(void);
358 extern "C" void execute_68k(uint32 pc, M68kRegisters *r);
359 extern "C" void ppc_interrupt(uint32 entry, uint32 kernel_data);
360 extern "C" int atomic_add(int *var, int v);
361 extern "C" int atomic_and(int *var, int v);
362 extern "C" int atomic_or(int *var, int v);
363 extern void paranoia_check(void);
364 #endif
365
366
367 #if EMULATED_PPC
368 /*
369 * Return signal stack base
370 */
371
372 uintptr SignalStackBase(void)
373 {
374 return sig_stack + SIG_STACK_SIZE;
375 }
376
377
378 /*
379 * Atomic operations
380 */
381
382 #if HAVE_SPINLOCKS
383 static spinlock_t atomic_ops_lock = SPIN_LOCK_UNLOCKED;
384 #else
385 #define spin_lock(LOCK)
386 #define spin_unlock(LOCK)
387 #endif
388
389 int atomic_add(int *var, int v)
390 {
391 spin_lock(&atomic_ops_lock);
392 int ret = *var;
393 *var += v;
394 spin_unlock(&atomic_ops_lock);
395 return ret;
396 }
397
398 int atomic_and(int *var, int v)
399 {
400 spin_lock(&atomic_ops_lock);
401 int ret = *var;
402 *var &= v;
403 spin_unlock(&atomic_ops_lock);
404 return ret;
405 }
406
407 int atomic_or(int *var, int v)
408 {
409 spin_lock(&atomic_ops_lock);
410 int ret = *var;
411 *var |= v;
412 spin_unlock(&atomic_ops_lock);
413 return ret;
414 }
415 #endif
416
417
418 /*
419 * Memory management helpers
420 */
421
422 static inline int vm_mac_acquire(uint32 addr, uint32 size)
423 {
424 return vm_acquire_fixed(Mac2HostAddr(addr), size);
425 }
426
427 static inline int vm_mac_release(uint32 addr, uint32 size)
428 {
429 return vm_release(Mac2HostAddr(addr), size);
430 }
431
432
433 /*
434 * Main program
435 */
436
437 static void usage(const char *prg_name)
438 {
439 printf("Usage: %s [OPTION...]\n", prg_name);
440 printf("\nUnix options:\n");
441 printf(" --display STRING\n X display to use\n");
442 PrefsPrintUsage();
443 exit(0);
444 }
445
446 int main(int argc, char **argv)
447 {
448 char str[256];
449 int rom_fd;
450 FILE *proc_file;
451 const char *rom_path;
452 uint32 rom_size, actual;
453 uint8 *rom_tmp;
454 time_t now, expire;
455
456 // Initialize variables
457 RAMBase = 0;
458 tzset();
459
460 // Print some info
461 printf(GetString(STR_ABOUT_TEXT1), VERSION_MAJOR, VERSION_MINOR);
462 printf(" %s\n", GetString(STR_ABOUT_TEXT2));
463
464 #if !EMULATED_PPC
465 #ifdef SYSTEM_CLOBBERS_R2
466 // Get TOC pointer
467 TOC = get_r2();
468 #endif
469 #ifdef SYSTEM_CLOBBERS_R13
470 // Get r13 register
471 R13 = get_r13();
472 #endif
473 #endif
474
475 #ifdef ENABLE_GTK
476 // Init GTK
477 gtk_set_locale();
478 gtk_init(&argc, &argv);
479 #endif
480
481 // Read preferences
482 PrefsInit(argc, argv);
483
484 // Parse command line arguments
485 for (int i=1; i<argc; i++) {
486 if (strcmp(argv[i], "--help") == 0) {
487 usage(argv[0]);
488 #ifndef USE_SDL_VIDEO
489 } else if (strcmp(argv[i], "--display") == 0) {
490 i++;
491 if (i < argc)
492 x_display_name = strdup(argv[i]);
493 #endif
494 } else if (argv[i][0] == '-') {
495 fprintf(stderr, "Unrecognized option '%s'\n", argv[i]);
496 usage(argv[0]);
497 }
498 }
499
500 #ifdef USE_SDL
501 // Initialize SDL system
502 int sdl_flags = 0;
503 #ifdef USE_SDL_VIDEO
504 sdl_flags |= SDL_INIT_VIDEO;
505 #endif
506 #ifdef USE_SDL_AUDIO
507 sdl_flags |= SDL_INIT_AUDIO;
508 #endif
509 assert(sdl_flags != 0);
510 if (SDL_Init(sdl_flags) == -1) {
511 char str[256];
512 sprintf(str, "Could not initialize SDL: %s.\n", SDL_GetError());
513 ErrorAlert(str);
514 goto quit;
515 }
516 atexit(SDL_Quit);
517 #endif
518
519 #ifndef USE_SDL_VIDEO
520 // Open display
521 x_display = XOpenDisplay(x_display_name);
522 if (x_display == NULL) {
523 char str[256];
524 sprintf(str, GetString(STR_NO_XSERVER_ERR), XDisplayName(x_display_name));
525 ErrorAlert(str);
526 goto quit;
527 }
528
529 #if defined(ENABLE_XF86_DGA) && !defined(ENABLE_MON)
530 // Fork out, so we can return from fullscreen mode when things get ugly
531 XF86DGAForkApp(DefaultScreen(x_display));
532 #endif
533 #endif
534
535 #ifdef ENABLE_MON
536 // Initialize mon
537 mon_init();
538 #endif
539
540 #if !EMULATED_PPC
541 // Create and install stacks for signal handlers
542 sig_stack.ss_sp = malloc(SIG_STACK_SIZE);
543 D(bug("Signal stack at %p\n", sig_stack.ss_sp));
544 if (sig_stack.ss_sp == NULL) {
545 ErrorAlert(GetString(STR_NOT_ENOUGH_MEMORY_ERR));
546 goto quit;
547 }
548 sig_stack.ss_flags = 0;
549 sig_stack.ss_size = SIG_STACK_SIZE;
550 if (sigaltstack(&sig_stack, NULL) < 0) {
551 sprintf(str, GetString(STR_SIGALTSTACK_ERR), strerror(errno));
552 ErrorAlert(str);
553 goto quit;
554 }
555 extra_stack.ss_sp = malloc(SIG_STACK_SIZE);
556 D(bug("Extra stack at %p\n", extra_stack.ss_sp));
557 if (extra_stack.ss_sp == NULL) {
558 ErrorAlert(GetString(STR_NOT_ENOUGH_MEMORY_ERR));
559 goto quit;
560 }
561 extra_stack.ss_flags = 0;
562 extra_stack.ss_size = SIG_STACK_SIZE;
563 #endif
564
565 #if !EMULATED_PPC
566 // Install SIGSEGV and SIGBUS handlers
567 sigemptyset(&sigsegv_action.sa_mask); // Block interrupts during SEGV handling
568 sigaddset(&sigsegv_action.sa_mask, SIGUSR2);
569 sigsegv_action.sa_sigaction = sigsegv_handler;
570 sigsegv_action.sa_flags = SA_ONSTACK | SA_SIGINFO;
571 #ifdef HAVE_SIGNAL_SA_RESTORER
572 sigsegv_action.sa_restorer = NULL;
573 #endif
574 if (sigaction(SIGSEGV, &sigsegv_action, NULL) < 0) {
575 sprintf(str, GetString(STR_SIGSEGV_INSTALL_ERR), strerror(errno));
576 ErrorAlert(str);
577 goto quit;
578 }
579 if (sigaction(SIGBUS, &sigsegv_action, NULL) < 0) {
580 sprintf(str, GetString(STR_SIGSEGV_INSTALL_ERR), strerror(errno));
581 ErrorAlert(str);
582 goto quit;
583 }
584 #else
585 // Install SIGSEGV handler for CPU emulator
586 if (!sigsegv_install_handler(sigsegv_handler)) {
587 sprintf(str, GetString(STR_SIGSEGV_INSTALL_ERR), strerror(errno));
588 ErrorAlert(str);
589 goto quit;
590 }
591 #endif
592
593 // Initialize VM system
594 vm_init();
595
596 // Get system info
597 PVR = 0x00040000; // Default: 604
598 CPUClockSpeed = 100000000; // Default: 100MHz
599 BusClockSpeed = 100000000; // Default: 100MHz
600 TimebaseSpeed = 25000000; // Default: 25MHz
601 #if EMULATED_PPC
602 PVR = 0x000c0000; // Default: 7400 (with AltiVec)
603 #elif defined(__APPLE__) && defined(__MACH__)
604 proc_file = popen("ioreg -c IOPlatformDevice", "r");
605 if (proc_file) {
606 char line[256];
607 bool powerpc_node = false;
608 while (fgets(line, sizeof(line) - 1, proc_file)) {
609 // Read line
610 int len = strlen(line);
611 if (len == 0)
612 continue;
613 line[len - 1] = 0;
614
615 // Parse line
616 if (strstr(line, "o PowerPC,"))
617 powerpc_node = true;
618 else if (powerpc_node) {
619 uint32 value;
620 char head[256];
621 if (sscanf(line, "%[ |]\"cpu-version\" = <%x>", head, &value) == 2)
622 PVR = value;
623 else if (sscanf(line, "%[ |]\"clock-frequency\" = <%x>", head, &value) == 2)
624 CPUClockSpeed = value;
625 else if (sscanf(line, "%[ |]\"bus-frequency\" = <%x>", head, &value) == 2)
626 BusClockSpeed = value;
627 else if (sscanf(line, "%[ |]\"timebase-frequency\" = <%x>", head, &value) == 2)
628 TimebaseSpeed = value;
629 else if (strchr(line, '}'))
630 powerpc_node = false;
631 }
632 }
633 fclose(proc_file);
634 } else {
635 sprintf(str, GetString(STR_PROC_CPUINFO_WARN), strerror(errno));
636 WarningAlert(str);
637 }
638 #else
639 proc_file = fopen("/proc/cpuinfo", "r");
640 if (proc_file) {
641 // CPU specs from Linux kernel
642 // TODO: make it more generic with features (e.g. AltiVec) and
643 // cache information and friends for NameRegistry
644 static const struct {
645 uint32 pvr_mask;
646 uint32 pvr_value;
647 const char *cpu_name;
648 }
649 cpu_specs[] = {
650 { 0xffff0000, 0x00010000, "601" },
651 { 0xffff0000, 0x00030000, "603" },
652 { 0xffff0000, 0x00060000, "603e" },
653 { 0xffff0000, 0x00070000, "603ev" },
654 { 0xffff0000, 0x00040000, "604" },
655 { 0xfffff000, 0x00090000, "604e" },
656 { 0xffff0000, 0x00090000, "604r" },
657 { 0xffff0000, 0x000a0000, "604ev" },
658 { 0xffffffff, 0x00084202, "740/750" },
659 { 0xfffff000, 0x00083000, "745/755" },
660 { 0xfffffff0, 0x00080100, "750CX" },
661 { 0xfffffff0, 0x00082200, "750CX" },
662 { 0xfffffff0, 0x00082210, "750CXe" },
663 { 0xffffff00, 0x70000100, "750FX" },
664 { 0xffffffff, 0x70000200, "750FX" },
665 { 0xffff0000, 0x70000000, "750FX" },
666 { 0xffff0000, 0x70020000, "750GX" },
667 { 0xffff0000, 0x00080000, "740/750" },
668 { 0xffffffff, 0x000c1101, "7400 (1.1)" },
669 { 0xffff0000, 0x000c0000, "7400" },
670 { 0xffff0000, 0x800c0000, "7410" },
671 { 0xffffffff, 0x80000200, "7450" },
672 { 0xffffffff, 0x80000201, "7450" },
673 { 0xffff0000, 0x80000000, "7450" },
674 { 0xffffff00, 0x80010100, "7455" },
675 { 0xffffffff, 0x80010200, "7455" },
676 { 0xffff0000, 0x80010000, "7455" },
677 { 0xffff0000, 0x80020000, "7457" },
678 { 0xffff0000, 0x80030000, "7447A" },
679 { 0x7fff0000, 0x00810000, "82xx" },
680 { 0x7fff0000, 0x00820000, "8280" },
681 { 0xffff0000, 0x00400000, "Power3 (630)" },
682 { 0xffff0000, 0x00410000, "Power3 (630+)" },
683 { 0xffff0000, 0x00360000, "I-star" },
684 { 0xffff0000, 0x00370000, "S-star" },
685 { 0xffff0000, 0x00350000, "Power4" },
686 { 0xffff0000, 0x00390000, "PPC970" },
687 { 0xffff0000, 0x003a0000, "POWER5" },
688 { 0, 0, 0 }
689 };
690
691 char line[256];
692 while(fgets(line, 255, proc_file)) {
693 // Read line
694 int len = strlen(line);
695 if (len == 0)
696 continue;
697 line[len-1] = 0;
698
699 // Parse line
700 int i;
701 char value[256];
702 if (sscanf(line, "cpu : %[0-9A-Za-a]", value) == 1) {
703 // Search by name
704 const char *cpu_name = NULL;
705 for (int i = 0; cpu_specs[i].pvr_mask != 0; i++) {
706 if (strcmp(cpu_specs[i].cpu_name, value) == 0) {
707 cpu_name = cpu_specs[i].cpu_name;
708 PVR = cpu_specs[i].pvr_value;
709 break;
710 }
711 }
712 if (cpu_name == NULL)
713 printf("WARNING: Unknown CPU type '%s', assuming 604\n", value);
714 else
715 printf("Found a PowerPC %s processor\n", cpu_name);
716 }
717 if (sscanf(line, "clock : %dMHz", &i) == 1)
718 CPUClockSpeed = BusClockSpeed = i * 1000000;
719 }
720 fclose(proc_file);
721 } else {
722 sprintf(str, GetString(STR_PROC_CPUINFO_WARN), strerror(errno));
723 WarningAlert(str);
724 }
725
726 // Get actual bus frequency
727 proc_file = fopen("/proc/device-tree/clock-frequency", "r");
728 if (proc_file) {
729 union { uint8 b[4]; uint32 l; } value;
730 if (fread(value.b, sizeof(value), 1, proc_file) == 1)
731 BusClockSpeed = value.l;
732 fclose(proc_file);
733 }
734
735 // Get actual timebase frequency
736 TimebaseSpeed = BusClockSpeed / 4;
737 DIR *cpus_dir;
738 if ((cpus_dir = opendir("/proc/device-tree/cpus")) != NULL) {
739 struct dirent *cpu_entry;
740 while ((cpu_entry = readdir(cpus_dir)) != NULL) {
741 if (strstr(cpu_entry->d_name, "PowerPC,") == cpu_entry->d_name) {
742 char timebase_freq_node[256];
743 sprintf(timebase_freq_node, "/proc/device-tree/cpus/%s/timebase-frequency", cpu_entry->d_name);
744 proc_file = fopen(timebase_freq_node, "r");
745 if (proc_file) {
746 union { uint8 b[4]; uint32 l; } value;
747 if (fread(value.b, sizeof(value), 1, proc_file) == 1)
748 TimebaseSpeed = value.l;
749 fclose(proc_file);
750 }
751 }
752 }
753 closedir(cpus_dir);
754 }
755 #endif
756 // Remap any newer G4/G5 processor to plain G4 for compatibility
757 switch (PVR >> 16) {
758 case 0x8000: // 7450
759 case 0x8001: // 7455
760 case 0x8002: // 7457
761 case 0x0039: // 970
762 PVR = 0x000c0000; // 7400
763 break;
764 }
765 D(bug("PVR: %08x (assumed)\n", PVR));
766
767 // Init system routines
768 SysInit();
769
770 // Show preferences editor
771 if (!PrefsFindBool("nogui"))
772 if (!PrefsEditor())
773 goto quit;
774
775 #if !EMULATED_PPC
776 // Check some things
777 paranoia_check();
778 #endif
779
780 // Open /dev/zero
781 zero_fd = open("/dev/zero", O_RDWR);
782 if (zero_fd < 0) {
783 sprintf(str, GetString(STR_NO_DEV_ZERO_ERR), strerror(errno));
784 ErrorAlert(str);
785 goto quit;
786 }
787
788 #ifndef PAGEZERO_HACK
789 // Create Low Memory area (0x0000..0x3000)
790 if (vm_mac_acquire(0, 0x3000) < 0) {
791 sprintf(str, GetString(STR_LOW_MEM_MMAP_ERR), strerror(errno));
792 ErrorAlert(str);
793 goto quit;
794 }
795 lm_area_mapped = true;
796 #endif
797
798 // Create areas for Kernel Data
799 if (!kernel_data_init())
800 goto quit;
801 kernel_data = (KernelData *)Mac2HostAddr(KERNEL_DATA_BASE);
802 emulator_data = &kernel_data->ed;
803 KernelDataAddr = KERNEL_DATA_BASE;
804 D(bug("Kernel Data at %p (%08x)\n", kernel_data, KERNEL_DATA_BASE));
805 D(bug("Emulator Data at %p (%08x)\n", emulator_data, KERNEL_DATA_BASE + offsetof(KernelData, ed)));
806
807 // Create area for DR Cache
808 if (vm_mac_acquire(DR_EMULATOR_BASE, DR_EMULATOR_SIZE) < 0) {
809 sprintf(str, GetString(STR_DR_EMULATOR_MMAP_ERR), strerror(errno));
810 ErrorAlert(str);
811 goto quit;
812 }
813 dr_emulator_area_mapped = true;
814 if (vm_mac_acquire(DR_CACHE_BASE, DR_CACHE_SIZE) < 0) {
815 sprintf(str, GetString(STR_DR_CACHE_MMAP_ERR), strerror(errno));
816 ErrorAlert(str);
817 goto quit;
818 }
819 dr_cache_area_mapped = true;
820 #if !EMULATED_PPC
821 if (vm_protect((char *)DR_CACHE_BASE, DR_CACHE_SIZE, VM_PAGE_READ | VM_PAGE_WRITE | VM_PAGE_EXECUTE) < 0) {
822 sprintf(str, GetString(STR_DR_CACHE_MMAP_ERR), strerror(errno));
823 ErrorAlert(str);
824 goto quit;
825 }
826 #endif
827 DRCacheAddr = DR_CACHE_BASE;
828 D(bug("DR Cache at %p\n", DRCacheAddr));
829
830 // Create area for SheepShaver data
831 if (!SheepMem::Init()) {
832 sprintf(str, GetString(STR_SHEEP_MEM_MMAP_ERR), strerror(errno));
833 ErrorAlert(str);
834 goto quit;
835 }
836
837 // Create area for Mac ROM
838 if (vm_mac_acquire(ROM_BASE, ROM_AREA_SIZE) < 0) {
839 sprintf(str, GetString(STR_ROM_MMAP_ERR), strerror(errno));
840 ErrorAlert(str);
841 goto quit;
842 }
843 ROMBaseHost = Mac2HostAddr(ROM_BASE);
844 #if !EMULATED_PPC
845 if (vm_protect(ROMBaseHost, ROM_AREA_SIZE, VM_PAGE_READ | VM_PAGE_WRITE | VM_PAGE_EXECUTE) < 0) {
846 sprintf(str, GetString(STR_ROM_MMAP_ERR), strerror(errno));
847 ErrorAlert(str);
848 goto quit;
849 }
850 #endif
851 rom_area_mapped = true;
852 D(bug("ROM area at %p (%08x)\n", ROMBaseHost, ROM_BASE));
853
854 // Create area for Mac RAM
855 RAMSize = PrefsFindInt32("ramsize");
856 if (RAMSize < 8*1024*1024) {
857 WarningAlert(GetString(STR_SMALL_RAM_WARN));
858 RAMSize = 8*1024*1024;
859 }
860
861 if (vm_mac_acquire(RAM_BASE, RAMSize) < 0) {
862 sprintf(str, GetString(STR_RAM_MMAP_ERR), strerror(errno));
863 ErrorAlert(str);
864 goto quit;
865 }
866 RAMBaseHost = Mac2HostAddr(RAM_BASE);
867 #if !EMULATED_PPC
868 if (vm_protect(RAMBaseHost, RAMSize, VM_PAGE_READ | VM_PAGE_WRITE | VM_PAGE_EXECUTE) < 0) {
869 sprintf(str, GetString(STR_RAM_MMAP_ERR), strerror(errno));
870 ErrorAlert(str);
871 goto quit;
872 }
873 #endif
874 RAMBase = RAM_BASE;
875 ram_area_mapped = true;
876 D(bug("RAM area at %p (%08x)\n", RAMBaseHost, RAMBase));
877
878 if (RAMBase > ROM_BASE) {
879 ErrorAlert(GetString(STR_RAM_HIGHER_THAN_ROM_ERR));
880 goto quit;
881 }
882
883 // Load Mac ROM
884 rom_path = PrefsFindString("rom");
885 rom_fd = open(rom_path ? rom_path : ROM_FILE_NAME, O_RDONLY);
886 if (rom_fd < 0) {
887 rom_fd = open(rom_path ? rom_path : ROM_FILE_NAME2, O_RDONLY);
888 if (rom_fd < 0) {
889 ErrorAlert(GetString(STR_NO_ROM_FILE_ERR));
890 goto quit;
891 }
892 }
893 printf(GetString(STR_READING_ROM_FILE));
894 rom_size = lseek(rom_fd, 0, SEEK_END);
895 lseek(rom_fd, 0, SEEK_SET);
896 rom_tmp = new uint8[ROM_SIZE];
897 actual = read(rom_fd, (void *)rom_tmp, ROM_SIZE);
898 close(rom_fd);
899
900 // Decode Mac ROM
901 if (!DecodeROM(rom_tmp, actual)) {
902 if (rom_size != 4*1024*1024) {
903 ErrorAlert(GetString(STR_ROM_SIZE_ERR));
904 goto quit;
905 } else {
906 ErrorAlert(GetString(STR_ROM_FILE_READ_ERR));
907 goto quit;
908 }
909 }
910 delete[] rom_tmp;
911
912 // Initialize everything
913 if (!InitAll())
914 goto quit;
915 D(bug("Initialization complete\n"));
916
917 // Clear caches (as we loaded and patched code) and write protect ROM
918 #if !EMULATED_PPC
919 flush_icache_range(ROM_BASE, ROM_BASE + ROM_AREA_SIZE);
920 #endif
921 vm_protect(ROMBaseHost, ROM_AREA_SIZE, VM_PAGE_READ | VM_PAGE_EXECUTE);
922
923 // Start 60Hz thread
924 tick_thread_cancel = false;
925 tick_thread_active = (pthread_create(&tick_thread, NULL, tick_func, NULL) == 0);
926 D(bug("Tick thread installed (%ld)\n", tick_thread));
927
928 // Start NVRAM watchdog thread
929 memcpy(last_xpram, XPRAM, XPRAM_SIZE);
930 nvram_thread_cancel = false;
931 nvram_thread_active = (pthread_create(&nvram_thread, NULL, nvram_func, NULL) == 0);
932 D(bug("NVRAM thread installed (%ld)\n", nvram_thread));
933
934 #if !EMULATED_PPC
935 // Install SIGILL handler
936 sigemptyset(&sigill_action.sa_mask); // Block interrupts during ILL handling
937 sigaddset(&sigill_action.sa_mask, SIGUSR2);
938 sigill_action.sa_sigaction = sigill_handler;
939 sigill_action.sa_flags = SA_ONSTACK | SA_SIGINFO;
940 #ifdef HAVE_SIGNAL_SA_RESTORER
941 sigill_action.sa_restorer = NULL;
942 #endif
943 if (sigaction(SIGILL, &sigill_action, NULL) < 0) {
944 sprintf(str, GetString(STR_SIGILL_INSTALL_ERR), strerror(errno));
945 ErrorAlert(str);
946 goto quit;
947 }
948 #endif
949
950 #if !EMULATED_PPC
951 // Install interrupt signal handler
952 sigemptyset(&sigusr2_action.sa_mask);
953 sigusr2_action.sa_sigaction = sigusr2_handler_init;
954 sigusr2_action.sa_flags = SA_ONSTACK | SA_RESTART | SA_SIGINFO;
955 #ifdef HAVE_SIGNAL_SA_RESTORER
956 sigusr2_action.sa_restorer = NULL;
957 #endif
958 if (sigaction(SIGUSR2, &sigusr2_action, NULL) < 0) {
959 sprintf(str, GetString(STR_SIGUSR2_INSTALL_ERR), strerror(errno));
960 ErrorAlert(str);
961 goto quit;
962 }
963 #endif
964
965 // Get my thread ID and execute MacOS thread function
966 emul_thread = pthread_self();
967 D(bug("MacOS thread is %ld\n", emul_thread));
968 emul_func(NULL);
969
970 quit:
971 Quit();
972 return 0;
973 }
974
975
976 /*
977 * Cleanup and quit
978 */
979
980 static void Quit(void)
981 {
982 #if EMULATED_PPC
983 // Exit PowerPC emulation
984 exit_emul_ppc();
985 #endif
986
987 // Stop 60Hz thread
988 if (tick_thread_active) {
989 tick_thread_cancel = true;
990 pthread_cancel(tick_thread);
991 pthread_join(tick_thread, NULL);
992 }
993
994 // Stop NVRAM watchdog thread
995 if (nvram_thread_active) {
996 nvram_thread_cancel = true;
997 pthread_cancel(nvram_thread);
998 pthread_join(nvram_thread, NULL);
999 }
1000
1001 #if !EMULATED_PPC
1002 // Uninstall SIGSEGV and SIGBUS handlers
1003 sigemptyset(&sigsegv_action.sa_mask);
1004 sigsegv_action.sa_handler = SIG_DFL;
1005 sigsegv_action.sa_flags = 0;
1006 sigaction(SIGSEGV, &sigsegv_action, NULL);
1007 sigaction(SIGBUS, &sigsegv_action, NULL);
1008
1009 // Uninstall SIGILL handler
1010 sigemptyset(&sigill_action.sa_mask);
1011 sigill_action.sa_handler = SIG_DFL;
1012 sigill_action.sa_flags = 0;
1013 sigaction(SIGILL, &sigill_action, NULL);
1014
1015 // Delete stacks for signal handlers
1016 if (sig_stack.ss_sp)
1017 free(sig_stack.ss_sp);
1018 if (extra_stack.ss_sp)
1019 free(extra_stack.ss_sp);
1020 #endif
1021
1022 // Deinitialize everything
1023 ExitAll();
1024
1025 // Delete SheepShaver globals
1026 SheepMem::Exit();
1027
1028 // Delete RAM area
1029 if (ram_area_mapped)
1030 vm_mac_release(RAM_BASE, RAMSize);
1031
1032 // Delete ROM area
1033 if (rom_area_mapped)
1034 vm_mac_release(ROM_BASE, ROM_AREA_SIZE);
1035
1036 // Delete DR cache areas
1037 if (dr_emulator_area_mapped)
1038 vm_mac_release(DR_EMULATOR_BASE, DR_EMULATOR_SIZE);
1039 if (dr_cache_area_mapped)
1040 vm_mac_release(DR_CACHE_BASE, DR_CACHE_SIZE);
1041
1042 // Delete Kernel Data area
1043 kernel_data_exit();
1044
1045 // Delete Low Memory area
1046 if (lm_area_mapped)
1047 vm_mac_release(0, 0x3000);
1048
1049 // Close /dev/zero
1050 if (zero_fd > 0)
1051 close(zero_fd);
1052
1053 // Exit system routines
1054 SysExit();
1055
1056 // Exit preferences
1057 PrefsExit();
1058
1059 #ifdef ENABLE_MON
1060 // Exit mon
1061 mon_exit();
1062 #endif
1063
1064 // Close X11 server connection
1065 #ifndef USE_SDL_VIDEO
1066 if (x_display)
1067 XCloseDisplay(x_display);
1068 #endif
1069
1070 exit(0);
1071 }
1072
1073
1074 /*
1075 * Initialize Kernel Data segments
1076 */
1077
1078 #if defined(__CYGWIN__)
1079 #define WIN32_LEAN_AND_MEAN
1080 #include <windows.h>
1081
1082 static HANDLE kernel_handle; // Shared memory handle for Kernel Data
1083 static DWORD allocation_granule; // Minimum size of allocateable are (64K)
1084 static DWORD kernel_area_size; // Size of Kernel Data area
1085 #endif
1086
1087 static bool kernel_data_init(void)
1088 {
1089 char str[256];
1090 #ifdef _WIN32
1091 SYSTEM_INFO si;
1092 GetSystemInfo(&si);
1093 allocation_granule = si.dwAllocationGranularity;
1094 kernel_area_size = (KERNEL_AREA_SIZE + allocation_granule - 1) & -allocation_granule;
1095
1096 char rcs[10];
1097 LPVOID kernel_addr;
1098 kernel_handle = CreateFileMapping(INVALID_HANDLE_VALUE, NULL, PAGE_READWRITE, 0, kernel_area_size, NULL);
1099 if (kernel_handle == NULL) {
1100 sprintf(rcs, "%d", GetLastError());
1101 sprintf(str, GetString(STR_KD_SHMGET_ERR), rcs);
1102 ErrorAlert(str);
1103 return false;
1104 }
1105 kernel_addr = (LPVOID)Mac2HostAddr(KERNEL_DATA_BASE & -allocation_granule);
1106 if (MapViewOfFileEx(kernel_handle, FILE_MAP_READ | FILE_MAP_WRITE, 0, 0, kernel_area_size, kernel_addr) != kernel_addr) {
1107 sprintf(rcs, "%d", GetLastError());
1108 sprintf(str, GetString(STR_KD_SHMAT_ERR), rcs);
1109 ErrorAlert(str);
1110 return false;
1111 }
1112 kernel_addr = (LPVOID)Mac2HostAddr(KERNEL_DATA2_BASE & -allocation_granule);
1113 if (MapViewOfFileEx(kernel_handle, FILE_MAP_READ | FILE_MAP_WRITE, 0, 0, kernel_area_size, kernel_addr) != kernel_addr) {
1114 sprintf(rcs, "%d", GetLastError());
1115 sprintf(str, GetString(STR_KD2_SHMAT_ERR), rcs);
1116 ErrorAlert(str);
1117 return false;
1118 }
1119 #else
1120 kernel_area = shmget(IPC_PRIVATE, KERNEL_AREA_SIZE, 0600);
1121 if (kernel_area == -1) {
1122 sprintf(str, GetString(STR_KD_SHMGET_ERR), strerror(errno));
1123 ErrorAlert(str);
1124 return false;
1125 }
1126 if (shmat(kernel_area, Mac2HostAddr(KERNEL_DATA_BASE), 0) < 0) {
1127 sprintf(str, GetString(STR_KD_SHMAT_ERR), strerror(errno));
1128 ErrorAlert(str);
1129 return false;
1130 }
1131 if (shmat(kernel_area, Mac2HostAddr(KERNEL_DATA2_BASE), 0) < 0) {
1132 sprintf(str, GetString(STR_KD2_SHMAT_ERR), strerror(errno));
1133 ErrorAlert(str);
1134 return false;
1135 }
1136 #endif
1137 return true;
1138 }
1139
1140
1141 /*
1142 * Deallocate Kernel Data segments
1143 */
1144
1145 static void kernel_data_exit(void)
1146 {
1147 #ifdef _WIN32
1148 if (kernel_handle) {
1149 UnmapViewOfFile(Mac2HostAddr(KERNEL_DATA_BASE & -allocation_granule));
1150 UnmapViewOfFile(Mac2HostAddr(KERNEL_DATA2_BASE & -allocation_granule));
1151 CloseHandle(kernel_handle);
1152 }
1153 #else
1154 if (kernel_area >= 0) {
1155 shmdt(Mac2HostAddr(KERNEL_DATA_BASE));
1156 shmdt(Mac2HostAddr(KERNEL_DATA2_BASE));
1157 shmctl(kernel_area, IPC_RMID, NULL);
1158 }
1159 #endif
1160 }
1161
1162
1163 /*
1164 * Jump into Mac ROM, start 680x0 emulator
1165 */
1166
1167 #if EMULATED_PPC
1168 void jump_to_rom(uint32 entry)
1169 {
1170 init_emul_ppc();
1171 emul_ppc(entry);
1172 }
1173 #endif
1174
1175
1176 /*
1177 * Emulator thread function
1178 */
1179
1180 static void *emul_func(void *arg)
1181 {
1182 // We're now ready to receive signals
1183 ready_for_signals = true;
1184
1185 // Decrease priority, so more time-critical things like audio will work better
1186 nice(1);
1187
1188 // Jump to ROM boot routine
1189 D(bug("Jumping to ROM\n"));
1190 #if EMULATED_PPC
1191 jump_to_rom(ROM_BASE + 0x310000);
1192 #else
1193 jump_to_rom(ROM_BASE + 0x310000, (uint32)emulator_data);
1194 #endif
1195 D(bug("Returned from ROM\n"));
1196
1197 // We're no longer ready to receive signals
1198 ready_for_signals = false;
1199 return NULL;
1200 }
1201
1202
1203 #if !EMULATED_PPC
1204 /*
1205 * Execute 68k subroutine (must be ended with RTS)
1206 * This must only be called by the emul_thread when in EMUL_OP mode
1207 * r->a[7] is unused, the routine runs on the caller's stack
1208 */
1209
1210 void Execute68k(uint32 pc, M68kRegisters *r)
1211 {
1212 #if SAFE_EXEC_68K
1213 if (ReadMacInt32(XLM_RUN_MODE) != MODE_EMUL_OP)
1214 printf("FATAL: Execute68k() not called from EMUL_OP mode\n");
1215 if (!pthread_equal(pthread_self(), emul_thread))
1216 printf("FATAL: Execute68k() not called from emul_thread\n");
1217 #endif
1218 execute_68k(pc, r);
1219 }
1220
1221
1222 /*
1223 * Execute 68k A-Trap from EMUL_OP routine
1224 * r->a[7] is unused, the routine runs on the caller's stack
1225 */
1226
1227 void Execute68kTrap(uint16 trap, M68kRegisters *r)
1228 {
1229 uint16 proc[2] = {trap, M68K_RTS};
1230 Execute68k((uint32)proc, r);
1231 }
1232 #endif
1233
1234
1235 /*
1236 * Quit emulator (cause return from jump_to_rom)
1237 */
1238
1239 void QuitEmulator(void)
1240 {
1241 #if EMULATED_PPC
1242 Quit();
1243 #else
1244 quit_emulator();
1245 #endif
1246 }
1247
1248
1249 /*
1250 * Dump 68k registers
1251 */
1252
1253 void Dump68kRegs(M68kRegisters *r)
1254 {
1255 // Display 68k registers
1256 for (int i=0; i<8; i++) {
1257 printf("d%d: %08x", i, r->d[i]);
1258 if (i == 3 || i == 7)
1259 printf("\n");
1260 else
1261 printf(", ");
1262 }
1263 for (int i=0; i<8; i++) {
1264 printf("a%d: %08x", i, r->a[i]);
1265 if (i == 3 || i == 7)
1266 printf("\n");
1267 else
1268 printf(", ");
1269 }
1270 }
1271
1272
1273 /*
1274 * Make code executable
1275 */
1276
1277 void MakeExecutable(int dummy, uint32 start, uint32 length)
1278 {
1279 if ((start >= ROM_BASE) && (start < (ROM_BASE + ROM_SIZE)))
1280 return;
1281 #if EMULATED_PPC
1282 FlushCodeCache(start, start + length);
1283 #else
1284 flush_icache_range(start, start + length);
1285 #endif
1286 }
1287
1288
1289 /*
1290 * NVRAM watchdog thread (saves NVRAM every minute)
1291 */
1292
1293 static void nvram_watchdog(void)
1294 {
1295 if (memcmp(last_xpram, XPRAM, XPRAM_SIZE)) {
1296 memcpy(last_xpram, XPRAM, XPRAM_SIZE);
1297 SaveXPRAM();
1298 }
1299 }
1300
1301 static void *nvram_func(void *arg)
1302 {
1303 while (!nvram_thread_cancel) {
1304 for (int i=0; i<60 && !nvram_thread_cancel; i++)
1305 Delay_usec(999999); // Only wait 1 second so we quit promptly when nvram_thread_cancel becomes true
1306 nvram_watchdog();
1307 }
1308 return NULL;
1309 }
1310
1311
1312 /*
1313 * 60Hz thread (really 60.15Hz)
1314 */
1315
1316 static void *tick_func(void *arg)
1317 {
1318 int tick_counter = 0;
1319 uint64 start = GetTicks_usec();
1320 int64 ticks = 0;
1321 uint64 next = GetTicks_usec();
1322
1323 while (!tick_thread_cancel) {
1324
1325 // Wait
1326 next += 16625;
1327 int64 delay = next - GetTicks_usec();
1328 if (delay > 0)
1329 Delay_usec(delay);
1330 else if (delay < -16625)
1331 next = GetTicks_usec();
1332 ticks++;
1333
1334 #if !EMULATED_PPC
1335 // Did we crash?
1336 if (emul_thread_fatal) {
1337
1338 // Yes, dump registers
1339 sigregs *r = &sigsegv_regs;
1340 char str[256];
1341 if (crash_reason == NULL)
1342 crash_reason = "SIGSEGV";
1343 sprintf(str, "%s\n"
1344 " pc %08lx lr %08lx ctr %08lx msr %08lx\n"
1345 " xer %08lx cr %08lx \n"
1346 " r0 %08lx r1 %08lx r2 %08lx r3 %08lx\n"
1347 " r4 %08lx r5 %08lx r6 %08lx r7 %08lx\n"
1348 " r8 %08lx r9 %08lx r10 %08lx r11 %08lx\n"
1349 " r12 %08lx r13 %08lx r14 %08lx r15 %08lx\n"
1350 " r16 %08lx r17 %08lx r18 %08lx r19 %08lx\n"
1351 " r20 %08lx r21 %08lx r22 %08lx r23 %08lx\n"
1352 " r24 %08lx r25 %08lx r26 %08lx r27 %08lx\n"
1353 " r28 %08lx r29 %08lx r30 %08lx r31 %08lx\n",
1354 crash_reason,
1355 r->nip, r->link, r->ctr, r->msr,
1356 r->xer, r->ccr,
1357 r->gpr[0], r->gpr[1], r->gpr[2], r->gpr[3],
1358 r->gpr[4], r->gpr[5], r->gpr[6], r->gpr[7],
1359 r->gpr[8], r->gpr[9], r->gpr[10], r->gpr[11],
1360 r->gpr[12], r->gpr[13], r->gpr[14], r->gpr[15],
1361 r->gpr[16], r->gpr[17], r->gpr[18], r->gpr[19],
1362 r->gpr[20], r->gpr[21], r->gpr[22], r->gpr[23],
1363 r->gpr[24], r->gpr[25], r->gpr[26], r->gpr[27],
1364 r->gpr[28], r->gpr[29], r->gpr[30], r->gpr[31]);
1365 printf(str);
1366 VideoQuitFullScreen();
1367
1368 #ifdef ENABLE_MON
1369 // Start up mon in real-mode
1370 printf("Welcome to the sheep factory.\n");
1371 char *arg[4] = {"mon", "-m", "-r", NULL};
1372 mon(3, arg);
1373 #endif
1374 return NULL;
1375 }
1376 #endif
1377
1378 // Pseudo Mac 1Hz interrupt, update local time
1379 if (++tick_counter > 60) {
1380 tick_counter = 0;
1381 WriteMacInt32(0x20c, TimerDateTime());
1382 }
1383
1384 // Trigger 60Hz interrupt
1385 if (ReadMacInt32(XLM_IRQ_NEST) == 0) {
1386 SetInterruptFlag(INTFLAG_VIA);
1387 TriggerInterrupt();
1388 }
1389 }
1390
1391 uint64 end = GetTicks_usec();
1392 D(bug("%lld ticks in %lld usec = %f ticks/sec\n", ticks, end - start, ticks * 1000000.0 / (end - start)));
1393 return NULL;
1394 }
1395
1396
1397 /*
1398 * Pthread configuration
1399 */
1400
1401 void Set_pthread_attr(pthread_attr_t *attr, int priority)
1402 {
1403 #ifdef HAVE_PTHREADS
1404 pthread_attr_init(attr);
1405 #if defined(_POSIX_THREAD_PRIORITY_SCHEDULING)
1406 // Some of these only work for superuser
1407 if (geteuid() == 0) {
1408 pthread_attr_setinheritsched(attr, PTHREAD_EXPLICIT_SCHED);
1409 pthread_attr_setschedpolicy(attr, SCHED_FIFO);
1410 struct sched_param fifo_param;
1411 fifo_param.sched_priority = ((sched_get_priority_min(SCHED_FIFO) +
1412 sched_get_priority_max(SCHED_FIFO)) / 2 +
1413 priority);
1414 pthread_attr_setschedparam(attr, &fifo_param);
1415 }
1416 if (pthread_attr_setscope(attr, PTHREAD_SCOPE_SYSTEM) != 0) {
1417 #ifdef PTHREAD_SCOPE_BOUND_NP
1418 // If system scope is not available (eg. we're not running
1419 // with CAP_SCHED_MGT capability on an SGI box), try bound
1420 // scope. It exposes pthread scheduling to the kernel,
1421 // without setting realtime priority.
1422 pthread_attr_setscope(attr, PTHREAD_SCOPE_BOUND_NP);
1423 #endif
1424 }
1425 #endif
1426 #endif
1427 }
1428
1429
1430 /*
1431 * Mutexes
1432 */
1433
1434 #ifdef HAVE_PTHREADS
1435
1436 struct B2_mutex {
1437 B2_mutex() {
1438 pthread_mutexattr_t attr;
1439 pthread_mutexattr_init(&attr);
1440 // Initialize the mutex for priority inheritance --
1441 // required for accurate timing.
1442 #if defined(HAVE_PTHREAD_MUTEXATTR_SETPROTOCOL) && !defined(__CYGWIN__)
1443 pthread_mutexattr_setprotocol(&attr, PTHREAD_PRIO_INHERIT);
1444 #endif
1445 #if defined(HAVE_PTHREAD_MUTEXATTR_SETTYPE) && defined(PTHREAD_MUTEX_NORMAL)
1446 pthread_mutexattr_settype(&attr, PTHREAD_MUTEX_NORMAL);
1447 #endif
1448 #ifdef HAVE_PTHREAD_MUTEXATTR_SETPSHARED
1449 pthread_mutexattr_setpshared(&attr, PTHREAD_PROCESS_PRIVATE);
1450 #endif
1451 pthread_mutex_init(&m, &attr);
1452 pthread_mutexattr_destroy(&attr);
1453 }
1454 ~B2_mutex() {
1455 pthread_mutex_trylock(&m); // Make sure it's locked before
1456 pthread_mutex_unlock(&m); // unlocking it.
1457 pthread_mutex_destroy(&m);
1458 }
1459 pthread_mutex_t m;
1460 };
1461
1462 B2_mutex *B2_create_mutex(void)
1463 {
1464 return new B2_mutex;
1465 }
1466
1467 void B2_lock_mutex(B2_mutex *mutex)
1468 {
1469 pthread_mutex_lock(&mutex->m);
1470 }
1471
1472 void B2_unlock_mutex(B2_mutex *mutex)
1473 {
1474 pthread_mutex_unlock(&mutex->m);
1475 }
1476
1477 void B2_delete_mutex(B2_mutex *mutex)
1478 {
1479 delete mutex;
1480 }
1481
1482 #else
1483
1484 struct B2_mutex {
1485 int dummy;
1486 };
1487
1488 B2_mutex *B2_create_mutex(void)
1489 {
1490 return new B2_mutex;
1491 }
1492
1493 void B2_lock_mutex(B2_mutex *mutex)
1494 {
1495 }
1496
1497 void B2_unlock_mutex(B2_mutex *mutex)
1498 {
1499 }
1500
1501 void B2_delete_mutex(B2_mutex *mutex)
1502 {
1503 delete mutex;
1504 }
1505
1506 #endif
1507
1508
1509 /*
1510 * Trigger signal USR2 from another thread
1511 */
1512
1513 #if !EMULATED_PPC
1514 void TriggerInterrupt(void)
1515 {
1516 if (ready_for_signals) {
1517 idle_resume();
1518 pthread_kill(emul_thread, SIGUSR2);
1519 }
1520 }
1521 #endif
1522
1523
1524 /*
1525 * Interrupt flags (must be handled atomically!)
1526 */
1527
1528 volatile uint32 InterruptFlags = 0;
1529
1530 void SetInterruptFlag(uint32 flag)
1531 {
1532 atomic_or((int *)&InterruptFlags, flag);
1533 }
1534
1535 void ClearInterruptFlag(uint32 flag)
1536 {
1537 atomic_and((int *)&InterruptFlags, ~flag);
1538 }
1539
1540
1541 /*
1542 * Disable interrupts
1543 */
1544
1545 void DisableInterrupt(void)
1546 {
1547 #if EMULATED_PPC
1548 WriteMacInt32(XLM_IRQ_NEST, int32(ReadMacInt32(XLM_IRQ_NEST)) + 1);
1549 #else
1550 atomic_add((int *)XLM_IRQ_NEST, 1);
1551 #endif
1552 }
1553
1554
1555 /*
1556 * Enable interrupts
1557 */
1558
1559 void EnableInterrupt(void)
1560 {
1561 #if EMULATED_PPC
1562 WriteMacInt32(XLM_IRQ_NEST, int32(ReadMacInt32(XLM_IRQ_NEST)) - 1);
1563 #else
1564 atomic_add((int *)XLM_IRQ_NEST, -1);
1565 #endif
1566 }
1567
1568
1569 /*
1570 * USR2 handler
1571 */
1572
1573 #if !EMULATED_PPC
1574 void sigusr2_handler(int sig, siginfo_t *sip, void *scp)
1575 {
1576 machine_regs *r = MACHINE_REGISTERS(scp);
1577
1578 #ifdef USE_SDL_VIDEO
1579 // We must fill in the events queue in the same thread that did call SDL_SetVideoMode()
1580 SDL_PumpEvents();
1581 #endif
1582
1583 // Do nothing if interrupts are disabled
1584 if (*(int32 *)XLM_IRQ_NEST > 0)
1585 return;
1586
1587 #ifdef SYSTEM_CLOBBERS_R2
1588 // Restore pointer to Thread Local Storage
1589 set_r2(TOC);
1590 #endif
1591 #ifdef SYSTEM_CLOBBERS_R13
1592 // Restore pointer to .sdata section
1593 set_r13(R13);
1594 #endif
1595
1596 // Disable MacOS stack sniffer
1597 WriteMacInt32(0x110, 0);
1598
1599 // Interrupt action depends on current run mode
1600 switch (ReadMacInt32(XLM_RUN_MODE)) {
1601 case MODE_68K:
1602 // 68k emulator active, trigger 68k interrupt level 1
1603 WriteMacInt16(ntohl(kernel_data->v[0x67c >> 2]), 1);
1604 r->cr() |= ntohl(kernel_data->v[0x674 >> 2]);
1605 break;
1606
1607 #if INTERRUPTS_IN_NATIVE_MODE
1608 case MODE_NATIVE:
1609 // 68k emulator inactive, in nanokernel?
1610 if (r->gpr(1) != KernelDataAddr) {
1611
1612 // Set extra stack for SIGSEGV handler
1613 sigaltstack(&extra_stack, NULL);
1614
1615 // Prepare for 68k interrupt level 1
1616 WriteMacInt16(ntohl(kernel_data->v[0x67c >> 2]), 1);
1617 WriteMacInt32(ntohl(kernel_data->v[0x658 >> 2]) + 0xdc, ReadMacInt32(ntohl(kernel_data->v[0x658 >> 2]) + 0xdc) | ntohl(kernel_data->v[0x674 >> 2]));
1618
1619 // Execute nanokernel interrupt routine (this will activate the 68k emulator)
1620 DisableInterrupt();
1621 if (ROMType == ROMTYPE_NEWWORLD)
1622 ppc_interrupt(ROM_BASE + 0x312b1c, KernelDataAddr);
1623 else
1624 ppc_interrupt(ROM_BASE + 0x312a3c, KernelDataAddr);
1625
1626 // Reset normal stack
1627 sigaltstack(&sig_stack, NULL);
1628 }
1629 break;
1630 #endif
1631
1632 #if INTERRUPTS_IN_EMUL_OP_MODE
1633 case MODE_EMUL_OP:
1634 // 68k emulator active, within EMUL_OP routine, execute 68k interrupt routine directly when interrupt level is 0
1635 if ((ReadMacInt32(XLM_68K_R25) & 7) == 0) {
1636
1637 // Set extra stack for SIGSEGV handler
1638 sigaltstack(&extra_stack, NULL);
1639 #if 1
1640 // Execute full 68k interrupt routine
1641 M68kRegisters r;
1642 uint32 old_r25 = ReadMacInt32(XLM_68K_R25); // Save interrupt level
1643 WriteMacInt32(XLM_68K_R25, 0x21); // Execute with interrupt level 1
1644 static const uint16 proc[] = {
1645 0x3f3c, 0x0000, // move.w #$0000,-(sp) (fake format word)
1646 0x487a, 0x000a, // pea @1(pc) (return address)
1647 0x40e7, // move sr,-(sp) (saved SR)
1648 0x2078, 0x0064, // move.l $64,a0
1649 0x4ed0, // jmp (a0)
1650 M68K_RTS // @1
1651 };
1652 Execute68k((uint32)proc, &r);
1653 WriteMacInt32(XLM_68K_R25, old_r25); // Restore interrupt level
1654 #else
1655 // Only update cursor
1656 if (HasMacStarted()) {
1657 if (InterruptFlags & INTFLAG_VIA) {
1658 ClearInterruptFlag(INTFLAG_VIA);
1659 ADBInterrupt();
1660 ExecuteNative(NATIVE_VIDEO_VBL);
1661 }
1662 }
1663 #endif
1664 // Reset normal stack
1665 sigaltstack(&sig_stack, NULL);
1666 }
1667 break;
1668 #endif
1669 }
1670 }
1671 #endif
1672
1673
1674 /*
1675 * SIGSEGV handler
1676 */
1677
1678 #if !EMULATED_PPC
1679 static void sigsegv_handler(int sig, siginfo_t *sip, void *scp)
1680 {
1681 machine_regs *r = MACHINE_REGISTERS(scp);
1682
1683 // Get effective address
1684 uint32 addr = r->dar();
1685
1686 #ifdef SYSTEM_CLOBBERS_R2
1687 // Restore pointer to Thread Local Storage
1688 set_r2(TOC);
1689 #endif
1690 #ifdef SYSTEM_CLOBBERS_R13
1691 // Restore pointer to .sdata section
1692 set_r13(R13);
1693 #endif
1694
1695 #if ENABLE_VOSF
1696 // Handle screen fault.
1697 extern bool Screen_fault_handler(sigsegv_address_t fault_address, sigsegv_address_t fault_instruction);
1698 if (Screen_fault_handler((sigsegv_address_t)addr, (sigsegv_address_t)r->pc()))
1699 return;
1700 #endif
1701
1702 num_segv++;
1703
1704 // Fault in Mac ROM or RAM or DR Cache?
1705 bool mac_fault = (r->pc() >= ROM_BASE) && (r->pc() < (ROM_BASE + ROM_AREA_SIZE)) || (r->pc() >= RAMBase) && (r->pc() < (RAMBase + RAMSize)) || (r->pc() >= DR_CACHE_BASE && r->pc() < (DR_CACHE_BASE + DR_CACHE_SIZE));
1706 if (mac_fault) {
1707
1708 // "VM settings" during MacOS 8 installation
1709 if (r->pc() == ROM_BASE + 0x488160 && r->gpr(20) == 0xf8000000) {
1710 r->pc() += 4;
1711 r->gpr(8) = 0;
1712 return;
1713
1714 // MacOS 8.5 installation
1715 } else if (r->pc() == ROM_BASE + 0x488140 && r->gpr(16) == 0xf8000000) {
1716 r->pc() += 4;
1717 r->gpr(8) = 0;
1718 return;
1719
1720 // MacOS 8 serial drivers on startup
1721 } else if (r->pc() == ROM_BASE + 0x48e080 && (r->gpr(8) == 0xf3012002 || r->gpr(8) == 0xf3012000)) {
1722 r->pc() += 4;
1723 r->gpr(8) = 0;
1724 return;
1725
1726 // MacOS 8.1 serial drivers on startup
1727 } else if (r->pc() == ROM_BASE + 0x48c5e0 && (r->gpr(20) == 0xf3012002 || r->gpr(20) == 0xf3012000)) {
1728 r->pc() += 4;
1729 return;
1730 } else if (r->pc() == ROM_BASE + 0x4a10a0 && (r->gpr(20) == 0xf3012002 || r->gpr(20) == 0xf3012000)) {
1731 r->pc() += 4;
1732 return;
1733
1734 // MacOS 8.6 serial drivers on startup (with DR Cache and OldWorld ROM)
1735 } else if ((r->pc() - DR_CACHE_BASE) < DR_CACHE_SIZE && (r->gpr(16) == 0xf3012002 || r->gpr(16) == 0xf3012000)) {
1736 r->pc() += 4;
1737 return;
1738 } else if ((r->pc() - DR_CACHE_BASE) < DR_CACHE_SIZE && (r->gpr(20) == 0xf3012002 || r->gpr(20) == 0xf3012000)) {
1739 r->pc() += 4;
1740 return;
1741 }
1742
1743 // Get opcode and divide into fields
1744 uint32 opcode = *((uint32 *)r->pc());
1745 uint32 primop = opcode >> 26;
1746 uint32 exop = (opcode >> 1) & 0x3ff;
1747 uint32 ra = (opcode >> 16) & 0x1f;
1748 uint32 rb = (opcode >> 11) & 0x1f;
1749 uint32 rd = (opcode >> 21) & 0x1f;
1750 int32 imm = (int16)(opcode & 0xffff);
1751
1752 // Analyze opcode
1753 enum {
1754 TYPE_UNKNOWN,
1755 TYPE_LOAD,
1756 TYPE_STORE
1757 } transfer_type = TYPE_UNKNOWN;
1758 enum {
1759 SIZE_UNKNOWN,
1760 SIZE_BYTE,
1761 SIZE_HALFWORD,
1762 SIZE_WORD
1763 } transfer_size = SIZE_UNKNOWN;
1764 enum {
1765 MODE_UNKNOWN,
1766 MODE_NORM,
1767 MODE_U,
1768 MODE_X,
1769 MODE_UX
1770 } addr_mode = MODE_UNKNOWN;
1771 switch (primop) {
1772 case 31:
1773 switch (exop) {
1774 case 23: // lwzx
1775 transfer_type = TYPE_LOAD; transfer_size = SIZE_WORD; addr_mode = MODE_X; break;
1776 case 55: // lwzux
1777 transfer_type = TYPE_LOAD; transfer_size = SIZE_WORD; addr_mode = MODE_UX; break;
1778 case 87: // lbzx
1779 transfer_type = TYPE_LOAD; transfer_size = SIZE_BYTE; addr_mode = MODE_X; break;
1780 case 119: // lbzux
1781 transfer_type = TYPE_LOAD; transfer_size = SIZE_BYTE; addr_mode = MODE_UX; break;
1782 case 151: // stwx
1783 transfer_type = TYPE_STORE; transfer_size = SIZE_WORD; addr_mode = MODE_X; break;
1784 case 183: // stwux
1785 transfer_type = TYPE_STORE; transfer_size = SIZE_WORD; addr_mode = MODE_UX; break;
1786 case 215: // stbx
1787 transfer_type = TYPE_STORE; transfer_size = SIZE_BYTE; addr_mode = MODE_X; break;
1788 case 247: // stbux
1789 transfer_type = TYPE_STORE; transfer_size = SIZE_BYTE; addr_mode = MODE_UX; break;
1790 case 279: // lhzx
1791 transfer_type = TYPE_LOAD; transfer_size = SIZE_HALFWORD; addr_mode = MODE_X; break;
1792 case 311: // lhzux
1793 transfer_type = TYPE_LOAD; transfer_size = SIZE_HALFWORD; addr_mode = MODE_UX; break;
1794 case 343: // lhax
1795 transfer_type = TYPE_LOAD; transfer_size = SIZE_HALFWORD; addr_mode = MODE_X; break;
1796 case 375: // lhaux
1797 transfer_type = TYPE_LOAD; transfer_size = SIZE_HALFWORD; addr_mode = MODE_UX; break;
1798 case 407: // sthx
1799 transfer_type = TYPE_STORE; transfer_size = SIZE_HALFWORD; addr_mode = MODE_X; break;
1800 case 439: // sthux
1801 transfer_type = TYPE_STORE; transfer_size = SIZE_HALFWORD; addr_mode = MODE_UX; break;
1802 }
1803 break;
1804
1805 case 32: // lwz
1806 transfer_type = TYPE_LOAD; transfer_size = SIZE_WORD; addr_mode = MODE_NORM; break;
1807 case 33: // lwzu
1808 transfer_type = TYPE_LOAD; transfer_size = SIZE_WORD; addr_mode = MODE_U; break;
1809 case 34: // lbz
1810 transfer_type = TYPE_LOAD; transfer_size = SIZE_BYTE; addr_mode = MODE_NORM; break;
1811 case 35: // lbzu
1812 transfer_type = TYPE_LOAD; transfer_size = SIZE_BYTE; addr_mode = MODE_U; break;
1813 case 36: // stw
1814 transfer_type = TYPE_STORE; transfer_size = SIZE_WORD; addr_mode = MODE_NORM; break;
1815 case 37: // stwu
1816 transfer_type = TYPE_STORE; transfer_size = SIZE_WORD; addr_mode = MODE_U; break;
1817 case 38: // stb
1818 transfer_type = TYPE_STORE; transfer_size = SIZE_BYTE; addr_mode = MODE_NORM; break;
1819 case 39: // stbu
1820 transfer_type = TYPE_STORE; transfer_size = SIZE_BYTE; addr_mode = MODE_U; break;
1821 case 40: // lhz
1822 transfer_type = TYPE_LOAD; transfer_size = SIZE_HALFWORD; addr_mode = MODE_NORM; break;
1823 case 41: // lhzu
1824 transfer_type = TYPE_LOAD; transfer_size = SIZE_HALFWORD; addr_mode = MODE_U; break;
1825 case 42: // lha
1826 transfer_type = TYPE_LOAD; transfer_size = SIZE_HALFWORD; addr_mode = MODE_NORM; break;
1827 case 43: // lhau
1828 transfer_type = TYPE_LOAD; transfer_size = SIZE_HALFWORD; addr_mode = MODE_U; break;
1829 case 44: // sth
1830 transfer_type = TYPE_STORE; transfer_size = SIZE_HALFWORD; addr_mode = MODE_NORM; break;
1831 case 45: // sthu
1832 transfer_type = TYPE_STORE; transfer_size = SIZE_HALFWORD; addr_mode = MODE_U; break;
1833 #if EMULATE_UNALIGNED_LOADSTORE_MULTIPLE
1834 case 46: // lmw
1835 if ((addr % 4) != 0) {
1836 uint32 ea = addr;
1837 D(bug("WARNING: unaligned lmw to EA=%08x from IP=%08x\n", ea, r->pc()));
1838 for (int i = rd; i <= 31; i++) {
1839 r->gpr(i) = ReadMacInt32(ea);
1840 ea += 4;
1841 }
1842 r->pc() += 4;
1843 goto rti;
1844 }
1845 break;
1846 case 47: // stmw
1847 if ((addr % 4) != 0) {
1848 uint32 ea = addr;
1849 D(bug("WARNING: unaligned stmw to EA=%08x from IP=%08x\n", ea, r->pc()));
1850 for (int i = rd; i <= 31; i++) {
1851 WriteMacInt32(ea, r->gpr(i));
1852 ea += 4;
1853 }
1854 r->pc() += 4;
1855 goto rti;
1856 }
1857 break;
1858 #endif
1859 }
1860
1861 // Ignore ROM writes (including to the zero page, which is read-only)
1862 if (transfer_type == TYPE_STORE &&
1863 ((addr >= ROM_BASE && addr < ROM_BASE + ROM_SIZE) ||
1864 (addr >= SheepMem::ZeroPage() && addr < SheepMem::ZeroPage() + SheepMem::PageSize()))) {
1865 // D(bug("WARNING: %s write access to ROM at %08lx, pc %08lx\n", transfer_size == SIZE_BYTE ? "Byte" : transfer_size == SIZE_HALFWORD ? "Halfword" : "Word", addr, r->pc()));
1866 if (addr_mode == MODE_U || addr_mode == MODE_UX)
1867 r->gpr(ra) = addr;
1868 r->pc() += 4;
1869 goto rti;
1870 }
1871
1872 // Ignore illegal memory accesses?
1873 if (PrefsFindBool("ignoresegv")) {
1874 if (addr_mode == MODE_U || addr_mode == MODE_UX)
1875 r->gpr(ra) = addr;
1876 if (transfer_type == TYPE_LOAD)
1877 r->gpr(rd) = 0;
1878 r->pc() += 4;
1879 goto rti;
1880 }
1881
1882 // In GUI mode, show error alert
1883 if (!PrefsFindBool("nogui")) {
1884 char str[256];
1885 if (transfer_type == TYPE_LOAD || transfer_type == TYPE_STORE)
1886 sprintf(str, GetString(STR_MEM_ACCESS_ERR), transfer_size == SIZE_BYTE ? "byte" : transfer_size == SIZE_HALFWORD ? "halfword" : "word", transfer_type == TYPE_LOAD ? GetString(STR_MEM_ACCESS_READ) : GetString(STR_MEM_ACCESS_WRITE), addr, r->pc(), r->gpr(24), r->gpr(1));
1887 else
1888 sprintf(str, GetString(STR_UNKNOWN_SEGV_ERR), r->pc(), r->gpr(24), r->gpr(1), opcode);
1889 ErrorAlert(str);
1890 QuitEmulator();
1891 return;
1892 }
1893 }
1894
1895 // For all other errors, jump into debugger (sort of...)
1896 crash_reason = (sig == SIGBUS) ? "SIGBUS" : "SIGSEGV";
1897 if (!ready_for_signals) {
1898 printf("%s\n");
1899 printf(" sigcontext %p, machine_regs %p\n", scp, r);
1900 printf(
1901 " pc %08lx lr %08lx ctr %08lx msr %08lx\n"
1902 " xer %08lx cr %08lx \n"
1903 " r0 %08lx r1 %08lx r2 %08lx r3 %08lx\n"
1904 " r4 %08lx r5 %08lx r6 %08lx r7 %08lx\n"
1905 " r8 %08lx r9 %08lx r10 %08lx r11 %08lx\n"
1906 " r12 %08lx r13 %08lx r14 %08lx r15 %08lx\n"
1907 " r16 %08lx r17 %08lx r18 %08lx r19 %08lx\n"
1908 " r20 %08lx r21 %08lx r22 %08lx r23 %08lx\n"
1909 " r24 %08lx r25 %08lx r26 %08lx r27 %08lx\n"
1910 " r28 %08lx r29 %08lx r30 %08lx r31 %08lx\n",
1911 crash_reason,
1912 r->pc(), r->lr(), r->ctr(), r->msr(),
1913 r->xer(), r->cr(),
1914 r->gpr(0), r->gpr(1), r->gpr(2), r->gpr(3),
1915 r->gpr(4), r->gpr(5), r->gpr(6), r->gpr(7),
1916 r->gpr(8), r->gpr(9), r->gpr(10), r->gpr(11),
1917 r->gpr(12), r->gpr(13), r->gpr(14), r->gpr(15),
1918 r->gpr(16), r->gpr(17), r->gpr(18), r->gpr(19),
1919 r->gpr(20), r->gpr(21), r->gpr(22), r->gpr(23),
1920 r->gpr(24), r->gpr(25), r->gpr(26), r->gpr(27),
1921 r->gpr(28), r->gpr(29), r->gpr(30), r->gpr(31));
1922 exit(1);
1923 QuitEmulator();
1924 return;
1925 } else {
1926 // We crashed. Save registers, tell tick thread and loop forever
1927 build_sigregs(&sigsegv_regs, r);
1928 emul_thread_fatal = true;
1929 for (;;) ;
1930 }
1931 rti:;
1932 }
1933
1934
1935 /*
1936 * SIGILL handler
1937 */
1938
1939 static void sigill_handler(int sig, siginfo_t *sip, void *scp)
1940 {
1941 machine_regs *r = MACHINE_REGISTERS(scp);
1942 char str[256];
1943
1944 #ifdef SYSTEM_CLOBBERS_R2
1945 // Restore pointer to Thread Local Storage
1946 set_r2(TOC);
1947 #endif
1948 #ifdef SYSTEM_CLOBBERS_R13
1949 // Restore pointer to .sdata section
1950 set_r13(R13);
1951 #endif
1952
1953 // Fault in Mac ROM or RAM?
1954 bool mac_fault = (r->pc() >= ROM_BASE) && (r->pc() < (ROM_BASE + ROM_AREA_SIZE)) || (r->pc() >= RAMBase) && (r->pc() < (RAMBase + RAMSize));
1955 if (mac_fault) {
1956
1957 // Get opcode and divide into fields
1958 uint32 opcode = *((uint32 *)r->pc());
1959 uint32 primop = opcode >> 26;
1960 uint32 exop = (opcode >> 1) & 0x3ff;
1961 uint32 ra = (opcode >> 16) & 0x1f;
1962 uint32 rb = (opcode >> 11) & 0x1f;
1963 uint32 rd = (opcode >> 21) & 0x1f;
1964 int32 imm = (int16)(opcode & 0xffff);
1965
1966 switch (primop) {
1967 case 9: // POWER instructions
1968 case 22:
1969 power_inst: sprintf(str, GetString(STR_POWER_INSTRUCTION_ERR), r->pc(), r->gpr(1), opcode);
1970 ErrorAlert(str);
1971 QuitEmulator();
1972 return;
1973
1974 case 31:
1975 switch (exop) {
1976 case 83: // mfmsr
1977 r->gpr(rd) = 0xf072;
1978 r->pc() += 4;
1979 goto rti;
1980
1981 case 210: // mtsr
1982 case 242: // mtsrin
1983 case 306: // tlbie
1984 r->pc() += 4;
1985 goto rti;
1986
1987 case 339: { // mfspr
1988 int spr = ra | (rb << 5);
1989 switch (spr) {
1990 case 0: // MQ
1991 case 22: // DEC
1992 case 952: // MMCR0
1993 case 953: // PMC1
1994 case 954: // PMC2
1995 case 955: // SIA
1996 case 956: // MMCR1
1997 case 957: // PMC3
1998 case 958: // PMC4
1999 case 959: // SDA
2000 r->pc() += 4;
2001 goto rti;
2002 case 25: // SDR1
2003 r->gpr(rd) = 0xdead001f;
2004 r->pc() += 4;
2005 goto rti;
2006 case 287: // PVR
2007 r->gpr(rd) = PVR;
2008 r->pc() += 4;
2009 goto rti;
2010 }
2011 break;
2012 }
2013
2014 case 467: { // mtspr
2015 int spr = ra | (rb << 5);
2016 switch (spr) {
2017 case 0: // MQ
2018 case 22: // DEC
2019 case 275: // SPRG3
2020 case 528: // IBAT0U
2021 case 529: // IBAT0L
2022 case 530: // IBAT1U
2023 case 531: // IBAT1L
2024 case 532: // IBAT2U
2025 case 533: // IBAT2L
2026 case 534: // IBAT3U
2027 case 535: // IBAT3L
2028 case 536: // DBAT0U
2029 case 537: // DBAT0L
2030 case 538: // DBAT1U
2031 case 539: // DBAT1L
2032 case 540: // DBAT2U
2033 case 541: // DBAT2L
2034 case 542: // DBAT3U
2035 case 543: // DBAT3L
2036 case 952: // MMCR0
2037 case 953: // PMC1
2038 case 954: // PMC2
2039 case 955: // SIA
2040 case 956: // MMCR1
2041 case 957: // PMC3
2042 case 958: // PMC4
2043 case 959: // SDA
2044 r->pc() += 4;
2045 goto rti;
2046 }
2047 break;
2048 }
2049
2050 case 29: case 107: case 152: case 153: // POWER instructions
2051 case 184: case 216: case 217: case 248:
2052 case 264: case 277: case 331: case 360:
2053 case 363: case 488: case 531: case 537:
2054 case 541: case 664: case 665: case 696:
2055 case 728: case 729: case 760: case 920:
2056 case 921: case 952:
2057 goto power_inst;
2058 }
2059 }
2060
2061 // In GUI mode, show error alert
2062 if (!PrefsFindBool("nogui")) {
2063 sprintf(str, GetString(STR_UNKNOWN_SEGV_ERR), r->pc(), r->gpr(24), r->gpr(1), opcode);
2064 ErrorAlert(str);
2065 QuitEmulator();
2066 return;
2067 }
2068 }
2069
2070 // For all other errors, jump into debugger (sort of...)
2071 crash_reason = "SIGILL";
2072 if (!ready_for_signals) {
2073 printf("%s\n");
2074 printf(" sigcontext %p, machine_regs %p\n", scp, r);
2075 printf(
2076 " pc %08lx lr %08lx ctr %08lx msr %08lx\n"
2077 " xer %08lx cr %08lx \n"
2078 " r0 %08lx r1 %08lx r2 %08lx r3 %08lx\n"
2079 " r4 %08lx r5 %08lx r6 %08lx r7 %08lx\n"
2080 " r8 %08lx r9 %08lx r10 %08lx r11 %08lx\n"
2081 " r12 %08lx r13 %08lx r14 %08lx r15 %08lx\n"
2082 " r16 %08lx r17 %08lx r18 %08lx r19 %08lx\n"
2083 " r20 %08lx r21 %08lx r22 %08lx r23 %08lx\n"
2084 " r24 %08lx r25 %08lx r26 %08lx r27 %08lx\n"
2085 " r28 %08lx r29 %08lx r30 %08lx r31 %08lx\n",
2086 crash_reason,
2087 r->pc(), r->lr(), r->ctr(), r->msr(),
2088 r->xer(), r->cr(),
2089 r->gpr(0), r->gpr(1), r->gpr(2), r->gpr(3),
2090 r->gpr(4), r->gpr(5), r->gpr(6), r->gpr(7),
2091 r->gpr(8), r->gpr(9), r->gpr(10), r->gpr(11),
2092 r->gpr(12), r->gpr(13), r->gpr(14), r->gpr(15),
2093 r->gpr(16), r->gpr(17), r->gpr(18), r->gpr(19),
2094 r->gpr(20), r->gpr(21), r->gpr(22), r->gpr(23),
2095 r->gpr(24), r->gpr(25), r->gpr(26), r->gpr(27),
2096 r->gpr(28), r->gpr(29), r->gpr(30), r->gpr(31));
2097 exit(1);
2098 QuitEmulator();
2099 return;
2100 } else {
2101 // We crashed. Save registers, tell tick thread and loop forever
2102 build_sigregs(&sigsegv_regs, r);
2103 emul_thread_fatal = true;
2104 for (;;) ;
2105 }
2106 rti:;
2107 }
2108 #endif
2109
2110
2111 /*
2112 * Helpers to share 32-bit addressable data with MacOS
2113 */
2114
2115 bool SheepMem::Init(void)
2116 {
2117 // Size of a native page
2118 page_size = getpagesize();
2119
2120 // Allocate SheepShaver globals
2121 proc = base;
2122 if (vm_mac_acquire(base, size) < 0)
2123 return false;
2124
2125 // Allocate page with all bits set to 0, right in the middle
2126 // This is also used to catch undesired overlaps between proc and data areas
2127 zero_page = proc + (size / 2);
2128 Mac_memset(zero_page, 0, page_size);
2129 if (vm_protect(Mac2HostAddr(zero_page), page_size, VM_PAGE_READ) < 0)
2130 return false;
2131
2132 #if EMULATED_PPC
2133 // Allocate alternate stack for PowerPC interrupt routine
2134 sig_stack = base + size;
2135 if (vm_mac_acquire(sig_stack, SIG_STACK_SIZE) < 0)
2136 return false;
2137 #endif
2138
2139 data = base + size;
2140 return true;
2141 }
2142
2143 void SheepMem::Exit(void)
2144 {
2145 if (data) {
2146 // Delete SheepShaver globals
2147 vm_mac_release(base, size);
2148
2149 #if EMULATED_PPC
2150 // Delete alternate stack for PowerPC interrupt routine
2151 vm_mac_release(sig_stack, SIG_STACK_SIZE);
2152 #endif
2153 }
2154 }
2155
2156
2157 /*
2158 * Display alert
2159 */
2160
2161 #ifdef ENABLE_GTK
2162 static void dl_destroyed(void)
2163 {
2164 gtk_main_quit();
2165 }
2166
2167 static void dl_quit(GtkWidget *dialog)
2168 {
2169 gtk_widget_destroy(dialog);
2170 }
2171
2172 void display_alert(int title_id, int prefix_id, int button_id, const char *text)
2173 {
2174 char str[256];
2175 sprintf(str, GetString(prefix_id), text);
2176
2177 GtkWidget *dialog = gtk_dialog_new();
2178 gtk_window_set_title(GTK_WINDOW(dialog), GetString(title_id));
2179 gtk_container_border_width(GTK_CONTAINER(dialog), 5);
2180 gtk_widget_set_uposition(GTK_WIDGET(dialog), 100, 150);
2181 gtk_signal_connect(GTK_OBJECT(dialog), "destroy", GTK_SIGNAL_FUNC(dl_destroyed), NULL);
2182
2183 GtkWidget *label = gtk_label_new(str);
2184 gtk_widget_show(label);
2185 gtk_box_pack_start(GTK_BOX(GTK_DIALOG(dialog)->vbox), label, TRUE, TRUE, 0);
2186
2187 GtkWidget *button = gtk_button_new_with_label(GetString(button_id));
2188 gtk_widget_show(button);
2189 gtk_signal_connect_object(GTK_OBJECT(button), "clicked", GTK_SIGNAL_FUNC(dl_quit), GTK_OBJECT(dialog));
2190 gtk_box_pack_start(GTK_BOX(GTK_DIALOG(dialog)->action_area), button, FALSE, FALSE, 0);
2191 GTK_WIDGET_SET_FLAGS(button, GTK_CAN_DEFAULT);
2192 gtk_widget_grab_default(button);
2193 gtk_widget_show(dialog);
2194
2195 gtk_main();
2196 }
2197 #endif
2198
2199
2200 /*
2201 * Display error alert
2202 */
2203
2204 void ErrorAlert(const char *text)
2205 {
2206 #if defined(ENABLE_GTK) && !defined(USE_SDL_VIDEO)
2207 if (PrefsFindBool("nogui") || x_display == NULL) {
2208 printf(GetString(STR_SHELL_ERROR_PREFIX), text);
2209 return;
2210 }
2211 VideoQuitFullScreen();
2212 display_alert(STR_ERROR_ALERT_TITLE, STR_GUI_ERROR_PREFIX, STR_QUIT_BUTTON, text);
2213 #else
2214 printf(GetString(STR_SHELL_ERROR_PREFIX), text);
2215 #endif
2216 }
2217
2218
2219 /*
2220 * Display warning alert
2221 */
2222
2223 void WarningAlert(const char *text)
2224 {
2225 #if defined(ENABLE_GTK) && !defined(USE_SDL_VIDEO)
2226 if (PrefsFindBool("nogui") || x_display == NULL) {
2227 printf(GetString(STR_SHELL_WARNING_PREFIX), text);
2228 return;
2229 }
2230 display_alert(STR_WARNING_ALERT_TITLE, STR_GUI_WARNING_PREFIX, STR_OK_BUTTON, text);
2231 #else
2232 printf(GetString(STR_SHELL_WARNING_PREFIX), text);
2233 #endif
2234 }
2235
2236
2237 /*
2238 * Display choice alert
2239 */
2240
2241 bool ChoiceAlert(const char *text, const char *pos, const char *neg)
2242 {
2243 printf(GetString(STR_SHELL_WARNING_PREFIX), text);
2244 return false; //!!
2245 }