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root/cebix/BasiliskII/src/Unix/main_unix.cpp
Revision: 1.24
Committed: 2000-10-17T12:24:59Z (23 years, 8 months ago) by cebix
Branch: MAIN
Changes since 1.23: +51 -15 lines
Log Message: 
- FPU is now available under NetBSD/m68k
- main_unix.cpp: added more emulated privileged instructions

File Contents

# User Rev Content
1 cebix 1.1 /*
2     * main_unix.cpp - Startup code for Unix
3     *
4 cebix 1.11 * Basilisk II (C) 1997-2000 Christian Bauer
5 cebix 1.1 *
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     #include "sysdeps.h"
22    
23     #include <stdio.h>
24     #include <stdlib.h>
25     #include <signal.h>
26 cebix 1.12 #include <errno.h>
27     #include <X11/Xlib.h>
28    
29     #ifdef HAVE_PTHREADS
30     # include <pthread.h>
31     #endif
32    
33 gbeauche 1.20 #if defined(USE_MAPPED_MEMORY) || REAL_ADDRESSING || DIRECT_ADDRESSING
34 cebix 1.12 # include <sys/mman.h>
35     #endif
36    
37     #if !EMULATED_68K && defined(__NetBSD__)
38     # include <m68k/sync_icache.h>
39     # include <m68k/frame.h>
40     # include <sys/param.h>
41     # include <sys/sysctl.h>
42     struct sigstate {
43     int ss_flags;
44     struct frame ss_frame;
45     struct fpframe ss_fpstate;
46     };
47     # define SS_FPSTATE 0x02
48     # define SS_USERREGS 0x04
49     #endif
50    
51     #ifdef ENABLE_GTK
52     # include <gtk/gtk.h>
53     #endif
54    
55     #ifdef ENABLE_XF86_DGA
56     # include <X11/Xutil.h>
57     # include <X11/extensions/xf86dga.h>
58     #endif
59 cebix 1.1
60     #include "cpu_emulation.h"
61     #include "sys.h"
62 cebix 1.3 #include "rom_patches.h"
63 cebix 1.1 #include "xpram.h"
64     #include "timer.h"
65     #include "video.h"
66 cebix 1.12 #include "emul_op.h"
67 cebix 1.1 #include "prefs.h"
68     #include "prefs_editor.h"
69     #include "macos_util.h"
70     #include "user_strings.h"
71     #include "version.h"
72     #include "main.h"
73    
74 cebix 1.12 #ifdef ENABLE_MON
75     # include "mon.h"
76     #endif
77    
78 cebix 1.13 #define DEBUG 0
79 cebix 1.1 #include "debug.h"
80    
81    
82 cebix 1.12 // Constants
83     const char ROM_FILE_NAME[] = "ROM";
84     const int SIG_STACK_SIZE = SIGSTKSZ; // Size of signal stack
85     const int SCRATCH_MEM_SIZE = 0x10000; // Size of scratch memory area
86 cebix 1.1
87 cebix 1.4
88 cebix 1.12 #if !EMULATED_68K
89     // RAM and ROM pointers
90     uint32 RAMBaseMac; // RAM base (Mac address space)
91     uint8 *RAMBaseHost; // RAM base (host address space)
92     uint32 RAMSize; // Size of RAM
93     uint32 ROMBaseMac; // ROM base (Mac address space)
94     uint8 *ROMBaseHost; // ROM base (host address space)
95     uint32 ROMSize; // Size of ROM
96 cebix 1.9 #endif
97    
98 cebix 1.1
99     // CPU and FPU type, addressing mode
100     int CPUType;
101     bool CPUIs68060;
102     int FPUType;
103     bool TwentyFourBitAddressing;
104    
105    
106     // Global variables
107 cebix 1.13 char *x_display_name = NULL; // X11 display name
108 cebix 1.1 Display *x_display = NULL; // X11 display handle
109    
110 cebix 1.12 static int zero_fd = -1; // FD of /dev/zero
111     static uint8 last_xpram[256]; // Buffer for monitoring XPRAM changes
112    
113     #ifdef HAVE_PTHREADS
114     static pthread_t emul_thread; // Handle of MacOS emulation thread (main thread)
115    
116 cebix 1.1 static bool xpram_thread_active = false; // Flag: XPRAM watchdog installed
117     static volatile bool xpram_thread_cancel = false; // Flag: Cancel XPRAM thread
118     static pthread_t xpram_thread; // XPRAM watchdog
119    
120     static bool tick_thread_active = false; // Flag: 60Hz thread installed
121     static volatile bool tick_thread_cancel = false; // Flag: Cancel 60Hz thread
122     static pthread_t tick_thread; // 60Hz thread
123     static pthread_attr_t tick_thread_attr; // 60Hz thread attributes
124    
125 cebix 1.12 #if EMULATED_68K
126 cebix 1.1 static pthread_mutex_t intflag_lock = PTHREAD_MUTEX_INITIALIZER; // Mutex to protect InterruptFlags
127 cebix 1.12 #endif
128     #endif
129    
130     #if !EMULATED_68K
131     #define SIG_IRQ SIGUSR1
132     static struct sigaction sigirq_sa; // Virtual 68k interrupt signal
133     static struct sigaction sigill_sa; // Illegal instruction
134     static void *sig_stack = NULL; // Stack for signal handlers
135     uint16 EmulatedSR; // Emulated bits of SR (supervisor bit and interrupt mask)
136 gbeauche 1.20 #endif
137    
138     #if USE_SCRATCHMEM_SUBTERFUGE
139 cebix 1.22 uint8 *ScratchMem = NULL; // Scratch memory for Mac ROM writes
140 cebix 1.12 #endif
141    
142     static struct sigaction timer_sa; // sigaction used for timer
143 cebix 1.1
144     #if defined(HAVE_TIMER_CREATE) && defined(_POSIX_REALTIME_SIGNALS)
145     #define SIG_TIMER SIGRTMIN
146 cebix 1.12 static timer_t timer; // 60Hz timer
147 cebix 1.1 #endif
148    
149 cebix 1.12 #ifdef ENABLE_MON
150     static struct sigaction sigint_sa; // sigaction for SIGINT handler
151 cebix 1.4 static void sigint_handler(...);
152 cebix 1.15 #endif
153    
154     #if REAL_ADDRESSING
155     static bool lm_area_mapped = false; // Flag: Low Memory area mmap()ped
156 gbeauche 1.20 static bool memory_mapped_from_zero = false; // Flag: Could allocate RAM area from 0
157 cebix 1.4 #endif
158    
159 cebix 1.22 #if REAL_ADDRESSING || DIRECT_ADDRESSING
160     static uint32 mapped_ram_rom_size; // Total size of mmap()ed RAM/ROM area
161     #endif
162    
163 cebix 1.12 #ifdef USE_MAPPED_MEMORY
164     extern char *address_space, *good_address_map;
165     #endif
166    
167 cebix 1.1
168     // Prototypes
169     static void *xpram_func(void *arg);
170     static void *tick_func(void *arg);
171     static void one_tick(...);
172 cebix 1.12 #if !EMULATED_68K
173     static void sigirq_handler(int sig, int code, struct sigcontext *scp);
174     static void sigill_handler(int sig, int code, struct sigcontext *scp);
175     extern "C" void EmulOpTrampoline(void);
176     #endif
177 cebix 1.1
178    
179     /*
180     * Ersatz functions
181     */
182    
183     extern "C" {
184    
185     #ifndef HAVE_STRDUP
186     char *strdup(const char *s)
187     {
188     char *n = (char *)malloc(strlen(s) + 1);
189     strcpy(n, s);
190     return n;
191     }
192     #endif
193    
194     }
195    
196    
197     /*
198     * Main program
199     */
200    
201     int main(int argc, char **argv)
202     {
203 cebix 1.12 char str[256];
204    
205 cebix 1.1 // Initialize variables
206     RAMBaseHost = NULL;
207     ROMBaseHost = NULL;
208     srand(time(NULL));
209     tzset();
210    
211     // Print some info
212     printf(GetString(STR_ABOUT_TEXT1), VERSION_MAJOR, VERSION_MINOR);
213     printf(" %s\n", GetString(STR_ABOUT_TEXT2));
214    
215     // Parse arguments
216     for (int i=1; i<argc; i++) {
217     if (strcmp(argv[i], "-display") == 0 && ++i < argc)
218     x_display_name = argv[i];
219 cebix 1.4 else if (strcmp(argv[i], "-break") == 0 && ++i < argc)
220     ROMBreakpoint = strtol(argv[i], NULL, 0);
221 cebix 1.6 else if (strcmp(argv[i], "-rominfo") == 0)
222     PrintROMInfo = true;
223 cebix 1.1 }
224    
225     // Open display
226     x_display = XOpenDisplay(x_display_name);
227     if (x_display == NULL) {
228     char str[256];
229     sprintf(str, GetString(STR_NO_XSERVER_ERR), XDisplayName(x_display_name));
230     ErrorAlert(str);
231     QuitEmulator();
232     }
233    
234 cebix 1.12 #if defined(ENABLE_XF86_DGA) && !defined(ENABLE_MON)
235 cebix 1.1 // Fork out, so we can return from fullscreen mode when things get ugly
236 cebix 1.2 XF86DGAForkApp(DefaultScreen(x_display));
237 cebix 1.1 #endif
238    
239 cebix 1.12 #ifdef ENABLE_GTK
240 cebix 1.1 // Init GTK
241     gtk_set_locale();
242     gtk_init(&argc, &argv);
243     #endif
244    
245     // Read preferences
246     PrefsInit();
247    
248     // Init system routines
249     SysInit();
250    
251     // Show preferences editor
252     if (!PrefsFindBool("nogui"))
253     if (!PrefsEditor())
254     QuitEmulator();
255    
256 cebix 1.12 // Open /dev/zero
257     zero_fd = open("/dev/zero", O_RDWR);
258     if (zero_fd < 0) {
259     sprintf(str, GetString(STR_NO_DEV_ZERO_ERR), strerror(errno));
260     ErrorAlert(str);
261     QuitEmulator();
262     }
263    
264 cebix 1.9 // Read RAM size
265 cebix 1.1 RAMSize = PrefsFindInt32("ramsize") & 0xfff00000; // Round down to 1MB boundary
266     if (RAMSize < 1024*1024) {
267     WarningAlert(GetString(STR_SMALL_RAM_WARN));
268     RAMSize = 1024*1024;
269     }
270 cebix 1.9
271 gbeauche 1.20 #if REAL_ADDRESSING || DIRECT_ADDRESSING
272     const uint32 page_size = getpagesize();
273     const uint32 page_mask = page_size - 1;
274     const uint32 aligned_ram_size = (RAMSize + page_mask) & ~page_mask;
275 cebix 1.22 mapped_ram_rom_size = aligned_ram_size + 0x100000;
276 gbeauche 1.20 #endif
277    
278 cebix 1.12 #if REAL_ADDRESSING
279 gbeauche 1.20 // Try to allocate the complete address space from zero
280     // gb-- the Solaris manpage about mmap(2) states that using MAP_FIXED
281     // implies undefined behaviour for further use of sbrk(), malloc(), etc.
282 cebix 1.22 // cebix-- on NetBSD/m68k, this causes a segfault
283     #if defined(OS_solaris) || defined(OS_netbsd)
284 gbeauche 1.20 // Anyway, it doesn't work...
285     if (0) {
286     #else
287 cebix 1.22 if (mmap((caddr_t)0x0000, mapped_ram_rom_size, PROT_READ | PROT_WRITE, MAP_FIXED | MAP_PRIVATE, zero_fd, 0) != MAP_FAILED) {
288 gbeauche 1.20 #endif
289     D(bug("Could allocate RAM and ROM from 0x0000\n"));
290     memory_mapped_from_zero = true;
291     }
292 cebix 1.12 // Create Low Memory area (0x0000..0x2000)
293 gbeauche 1.20 else if (mmap((char *)0x0000, 0x2000, PROT_READ | PROT_WRITE, MAP_FIXED | MAP_PRIVATE, zero_fd, 0) != MAP_FAILED) {
294     D(bug("Could allocate the Low Memory globals\n"));
295     lm_area_mapped = true;
296     }
297     // Exit on error
298     else {
299 cebix 1.12 sprintf(str, GetString(STR_LOW_MEM_MMAP_ERR), strerror(errno));
300     ErrorAlert(str);
301     QuitEmulator();
302     }
303     #endif
304    
305 cebix 1.22 #if USE_SCRATCHMEM_SUBTERFUGE
306 cebix 1.12 // Allocate scratch memory
307 gbeauche 1.20 ScratchMem = (uint8 *)malloc(SCRATCH_MEM_SIZE);
308 cebix 1.12 if (ScratchMem == NULL) {
309     ErrorAlert(GetString(STR_NO_MEM_ERR));
310     QuitEmulator();
311     }
312     ScratchMem += SCRATCH_MEM_SIZE/2; // ScratchMem points to middle of block
313     #endif
314    
315 cebix 1.9 // Create areas for Mac RAM and ROM
316 cebix 1.12 #if defined(USE_MAPPED_MEMORY)
317     good_address_map = (char *)mmap(NULL, 1<<24, PROT_READ, MAP_PRIVATE, zero_fd, 0);
318     address_space = (char *)mmap(NULL, 1<<24, PROT_READ | PROT_WRITE, MAP_PRIVATE, zero_fd, 0);
319 cebix 1.9 if ((int)address_space < 0 || (int)good_address_map < 0) {
320     ErrorAlert(GetString(STR_NOT_ENOUGH_MEMORY_ERR));
321     QuitEmulator();
322     }
323 cebix 1.12 RAMBaseHost = (uint8 *)mmap(address_space, RAMSize, PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_FIXED, zero_fd, 0);
324     ROMBaseHost = (uint8 *)mmap(address_space + 0x00400000, 0x80000, PROT_READ | PROT_WRITE, MAP_PRIVATE | MAP_FIXED, zero_fd, 0);
325 cebix 1.9 char *nam = tmpnam(NULL);
326     int good_address_fd = open(nam, O_CREAT | O_RDWR, 0600);
327     char buffer[4096];
328     memset(buffer, 1, sizeof(buffer));
329     write(good_address_fd, buffer, sizeof(buffer));
330     unlink(nam);
331     for (int i=0; i<RAMSize; i+=4096)
332     mmap(good_address_map + i, 4096, PROT_READ, MAP_FIXED | MAP_PRIVATE, good_address_fd, 0);
333     for (int i=0; i<0x80000; i+=4096)
334     mmap(good_address_map + i + 0x00400000, 4096, PROT_READ, MAP_FIXED | MAP_PRIVATE, good_address_fd, 0);
335 gbeauche 1.20 #elif REAL_ADDRESSING || DIRECT_ADDRESSING
336     // gb-- Overkill, needs to be cleaned up. Probably explode it for either
337     // real or direct addressing mode.
338     #if REAL_ADDRESSING
339     if (memory_mapped_from_zero) {
340     RAMBaseHost = (uint8 *)0;
341     ROMBaseHost = RAMBaseHost + aligned_ram_size;
342     }
343     else
344     #endif
345     {
346 cebix 1.22 RAMBaseHost = (uint8 *)mmap(0, mapped_ram_rom_size, PROT_READ | PROT_WRITE, MAP_PRIVATE, zero_fd, 0);
347 gbeauche 1.20 if (RAMBaseHost == (uint8 *)MAP_FAILED) {
348     ErrorAlert(GetString(STR_NO_MEM_ERR));
349     QuitEmulator();
350     }
351     ROMBaseHost = RAMBaseHost + aligned_ram_size;
352     }
353 cebix 1.9 #else
354 cebix 1.17 RAMBaseHost = (uint8 *)malloc(RAMSize);
355     ROMBaseHost = (uint8 *)malloc(0x100000);
356     if (RAMBaseHost == NULL || ROMBaseHost == NULL) {
357     ErrorAlert(GetString(STR_NO_MEM_ERR));
358     QuitEmulator();
359     }
360 gbeauche 1.20 #endif
361 cebix 1.22
362 gbeauche 1.20 #if DIRECT_ADDRESSING
363     // Initialize MEMBaseDiff now so that Host2MacAddr in the Video module
364     // will return correct results
365     RAMBaseMac = 0;
366     ROMBaseMac = RAMBaseMac + aligned_ram_size;
367     InitMEMBaseDiff(RAMBaseHost, RAMBaseMac);
368     #endif
369     #if REAL_ADDRESSING // && !EMULATED_68K
370 cebix 1.12 RAMBaseMac = (uint32)RAMBaseHost;
371     ROMBaseMac = (uint32)ROMBaseHost;
372     #endif
373     D(bug("Mac RAM starts at %p (%08x)\n", RAMBaseHost, RAMBaseMac));
374     D(bug("Mac ROM starts at %p (%08x)\n", ROMBaseHost, ROMBaseMac));
375 gbeauche 1.20
376 cebix 1.1 // Get rom file path from preferences
377     const char *rom_path = PrefsFindString("rom");
378    
379     // Load Mac ROM
380     int rom_fd = open(rom_path ? rom_path : ROM_FILE_NAME, O_RDONLY);
381     if (rom_fd < 0) {
382     ErrorAlert(GetString(STR_NO_ROM_FILE_ERR));
383     QuitEmulator();
384     }
385     printf(GetString(STR_READING_ROM_FILE));
386     ROMSize = lseek(rom_fd, 0, SEEK_END);
387     if (ROMSize != 64*1024 && ROMSize != 128*1024 && ROMSize != 256*1024 && ROMSize != 512*1024 && ROMSize != 1024*1024) {
388     ErrorAlert(GetString(STR_ROM_SIZE_ERR));
389     close(rom_fd);
390     QuitEmulator();
391     }
392     lseek(rom_fd, 0, SEEK_SET);
393     if (read(rom_fd, ROMBaseHost, ROMSize) != (ssize_t)ROMSize) {
394     ErrorAlert(GetString(STR_ROM_FILE_READ_ERR));
395     close(rom_fd);
396     QuitEmulator();
397     }
398    
399 cebix 1.12 #if !EMULATED_68K
400     // Get CPU model
401     int mib[2] = {CTL_HW, HW_MODEL};
402     char *model;
403     size_t model_len;
404     sysctl(mib, 2, NULL, &model_len, NULL, 0);
405     model = (char *)malloc(model_len);
406     sysctl(mib, 2, model, &model_len, NULL, 0);
407     D(bug("Model: %s\n", model));
408    
409     // Set CPU and FPU type
410     CPUIs68060 = false;
411     if (strstr(model, "020"))
412     CPUType = 2;
413     else if (strstr(model, "030"))
414     CPUType = 3;
415     else if (strstr(model, "040"))
416     CPUType = 4;
417     else if (strstr(model, "060")) {
418     CPUType = 4;
419     CPUIs68060 = true;
420     } else {
421     printf("WARNING: Cannot detect CPU type, assuming 68020\n");
422     CPUType = 2;
423     }
424 cebix 1.24 FPUType = 1; // NetBSD has an FPU emulation, so the FPU ought to be available at all times
425 cebix 1.12 TwentyFourBitAddressing = false;
426     #endif
427    
428 cebix 1.3 // Initialize everything
429     if (!InitAll())
430 cebix 1.1 QuitEmulator();
431 cebix 1.12 D(bug("Initialization complete\n"));
432    
433     #ifdef HAVE_PTHREADS
434     // Get handle of main thread
435     emul_thread = pthread_self();
436     #endif
437    
438     #if !EMULATED_68K
439     // (Virtual) supervisor mode, disable interrupts
440     EmulatedSR = 0x2700;
441    
442     // Create and install stack for signal handlers
443     sig_stack = malloc(SIG_STACK_SIZE);
444     D(bug("Signal stack at %p\n", sig_stack));
445     if (sig_stack == NULL) {
446     ErrorAlert(GetString(STR_NOT_ENOUGH_MEMORY_ERR));
447     QuitEmulator();
448     }
449     stack_t new_stack;
450     new_stack.ss_sp = sig_stack;
451     new_stack.ss_flags = 0;
452     new_stack.ss_size = SIG_STACK_SIZE;
453     if (sigaltstack(&new_stack, NULL) < 0) {
454     sprintf(str, GetString(STR_SIGALTSTACK_ERR), strerror(errno));
455     ErrorAlert(str);
456     QuitEmulator();
457     }
458    
459     // Install SIGILL handler for emulating privileged instructions and
460     // executing A-Trap and EMUL_OP opcodes
461     sigemptyset(&sigill_sa.sa_mask); // Block virtual 68k interrupts during SIGILL handling
462     sigaddset(&sigill_sa.sa_mask, SIG_IRQ);
463     sigaddset(&sigill_sa.sa_mask, SIGALRM);
464     sigill_sa.sa_handler = (void (*)(int))sigill_handler;
465     sigill_sa.sa_flags = SA_ONSTACK;
466     if (sigaction(SIGILL, &sigill_sa, NULL) < 0) {
467     sprintf(str, GetString(STR_SIG_INSTALL_ERR), "SIGILL", strerror(errno));
468     ErrorAlert(str);
469     QuitEmulator();
470     }
471    
472     // Install virtual 68k interrupt signal handler
473     sigemptyset(&sigirq_sa.sa_mask);
474     sigaddset(&sigirq_sa.sa_mask, SIGALRM);
475     sigirq_sa.sa_handler = (void (*)(int))sigirq_handler;
476     sigirq_sa.sa_flags = SA_ONSTACK | SA_RESTART;
477     if (sigaction(SIG_IRQ, &sigirq_sa, NULL) < 0) {
478     sprintf(str, GetString(STR_SIG_INSTALL_ERR), "SIG_IRQ", strerror(errno));
479     ErrorAlert(str);
480     QuitEmulator();
481     }
482     #endif
483 cebix 1.1
484 cebix 1.12 #ifdef ENABLE_MON
485     // Setup SIGINT handler to enter mon
486     sigemptyset(&sigint_sa.sa_mask);
487 cebix 1.21 sigint_sa.sa_handler = (void (*)(int))sigint_handler;
488 cebix 1.12 sigint_sa.sa_flags = 0;
489     sigaction(SIGINT, &sigint_sa, NULL);
490     #endif
491 cebix 1.1
492     #if defined(HAVE_TIMER_CREATE) && defined(_POSIX_REALTIME_SIGNALS)
493 cebix 1.12
494     // POSIX.4 timers and real-time signals available, start 60Hz timer
495 cebix 1.1 sigemptyset(&timer_sa.sa_mask);
496 cebix 1.19 timer_sa.sa_sigaction = (void (*)(int, siginfo_t *, void *))one_tick;
497 cebix 1.1 timer_sa.sa_flags = SA_SIGINFO | SA_RESTART;
498     if (sigaction(SIG_TIMER, &timer_sa, NULL) < 0) {
499 cebix 1.12 sprintf(str, GetString(STR_SIG_INSTALL_ERR), "SIG_TIMER", strerror(errno));
500     ErrorAlert(str);
501 cebix 1.1 QuitEmulator();
502     }
503     struct sigevent timer_event;
504     timer_event.sigev_notify = SIGEV_SIGNAL;
505     timer_event.sigev_signo = SIG_TIMER;
506     if (timer_create(CLOCK_REALTIME, &timer_event, &timer) < 0) {
507 cebix 1.12 sprintf(str, GetString(STR_TIMER_CREATE_ERR), strerror(errno));
508     ErrorAlert(str);
509 cebix 1.1 QuitEmulator();
510     }
511     struct itimerspec req;
512     req.it_value.tv_sec = 0;
513     req.it_value.tv_nsec = 16625000;
514     req.it_interval.tv_sec = 0;
515     req.it_interval.tv_nsec = 16625000;
516 cebix 1.10 if (timer_settime(timer, 0, &req, NULL) < 0) {
517 cebix 1.12 sprintf(str, GetString(STR_TIMER_SETTIME_ERR), strerror(errno));
518     ErrorAlert(str);
519 cebix 1.1 QuitEmulator();
520     }
521 cebix 1.12 D(bug("60Hz timer started\n"));
522 cebix 1.1
523 cebix 1.12 #elif defined(HAVE_PTHREADS)
524 cebix 1.1
525 cebix 1.12 // POSIX threads available, start 60Hz thread
526 cebix 1.1 pthread_attr_init(&tick_thread_attr);
527     #if defined(_POSIX_THREAD_PRIORITY_SCHEDULING)
528     if (geteuid() == 0) {
529     pthread_attr_setinheritsched(&tick_thread_attr, PTHREAD_EXPLICIT_SCHED);
530     pthread_attr_setschedpolicy(&tick_thread_attr, SCHED_FIFO);
531     struct sched_param fifo_param;
532     fifo_param.sched_priority = (sched_get_priority_min(SCHED_FIFO) + sched_get_priority_max(SCHED_FIFO)) / 2;
533     pthread_attr_setschedparam(&tick_thread_attr, &fifo_param);
534     }
535     #endif
536     tick_thread_active = (pthread_create(&tick_thread, &tick_thread_attr, tick_func, NULL) == 0);
537     if (!tick_thread_active) {
538 cebix 1.12 sprintf(str, GetString(STR_TICK_THREAD_ERR), strerror(errno));
539     ErrorAlert(str);
540     QuitEmulator();
541     }
542     D(bug("60Hz thread started\n"));
543    
544     #else
545    
546     // Start 60Hz timer
547     sigemptyset(&timer_sa.sa_mask); // Block virtual 68k interrupts during SIGARLM handling
548     sigaddset(&timer_sa.sa_mask, SIG_IRQ);
549     timer_sa.sa_handler = one_tick;
550     timer_sa.sa_flags = SA_ONSTACK | SA_RESTART;
551     if (sigaction(SIGALRM, &timer_sa, NULL) < 0) {
552     sprintf(str, GetString(STR_SIG_INSTALL_ERR), "SIGALRM", strerror(errno));
553     ErrorAlert(str);
554 cebix 1.1 QuitEmulator();
555     }
556 cebix 1.12 struct itimerval req;
557     req.it_interval.tv_sec = req.it_value.tv_sec = 0;
558     req.it_interval.tv_usec = req.it_value.tv_usec = 16625;
559     setitimer(ITIMER_REAL, &req, NULL);
560    
561 cebix 1.1 #endif
562    
563 cebix 1.12 #ifdef HAVE_PTHREADS
564     // Start XPRAM watchdog thread
565     memcpy(last_xpram, XPRAM, 256);
566     xpram_thread_active = (pthread_create(&xpram_thread, NULL, xpram_func, NULL) == 0);
567     D(bug("XPRAM thread started\n"));
568 cebix 1.4 #endif
569    
570 cebix 1.1 // Start 68k and jump to ROM boot routine
571 cebix 1.12 D(bug("Starting emulation...\n"));
572 cebix 1.1 Start680x0();
573    
574     QuitEmulator();
575     return 0;
576     }
577    
578    
579     /*
580     * Quit emulator
581     */
582    
583     void QuitEmulator(void)
584     {
585 cebix 1.12 D(bug("QuitEmulator\n"));
586    
587     #if EMULATED_68K
588 cebix 1.1 // Exit 680x0 emulation
589     Exit680x0();
590 cebix 1.12 #endif
591 cebix 1.1
592     #if defined(HAVE_TIMER_CREATE) && defined(_POSIX_REALTIME_SIGNALS)
593     // Stop 60Hz timer
594     timer_delete(timer);
595 cebix 1.12 #elif defined(HAVE_PTHREADS)
596 cebix 1.1 // Stop 60Hz thread
597     if (tick_thread_active) {
598     tick_thread_cancel = true;
599     #ifdef HAVE_PTHREAD_CANCEL
600     pthread_cancel(tick_thread);
601     #endif
602     pthread_join(tick_thread, NULL);
603     }
604 cebix 1.12 #else
605     struct itimerval req;
606     req.it_interval.tv_sec = req.it_value.tv_sec = 0;
607     req.it_interval.tv_usec = req.it_value.tv_usec = 0;
608     setitimer(ITIMER_REAL, &req, NULL);
609 cebix 1.1 #endif
610    
611 cebix 1.12 #ifdef HAVE_PTHREADS
612 cebix 1.1 // Stop XPRAM watchdog thread
613     if (xpram_thread_active) {
614     xpram_thread_cancel = true;
615     #ifdef HAVE_PTHREAD_CANCEL
616     pthread_cancel(xpram_thread);
617     #endif
618     pthread_join(xpram_thread, NULL);
619     }
620 cebix 1.12 #endif
621 cebix 1.1
622 cebix 1.3 // Deinitialize everything
623     ExitAll();
624 cebix 1.1
625 cebix 1.22 // Free ROM/RAM areas
626 cebix 1.23 #if REAL_ADDRESSING
627 cebix 1.22 if (memory_mapped_from_zero)
628     munmap((caddr_t)0x0000, mapped_ram_rom_size);
629 cebix 1.23 else
630     #endif
631     #if REAL_ADDRESSING || DIRECT_ADDRESSING
632     if (RAMBaseHost != (uint8 *)MAP_FAILED) {
633 cebix 1.22 munmap((caddr_t)RAMBaseHost, mapped_ram_rom_size);
634     RAMBaseHost = NULL;
635 gbeauche 1.20 }
636     #else
637 cebix 1.17 if (ROMBaseHost) {
638     free(ROMBaseHost);
639     ROMBaseHost = NULL;
640     }
641     if (RAMBaseHost) {
642     free(RAMBaseHost);
643     RAMBaseHost = NULL;
644     }
645 gbeauche 1.20 #endif
646 cebix 1.1
647 cebix 1.22 #if USE_SCRATCHMEM_SUBTERFUGE
648 cebix 1.12 // Delete scratch memory area
649 cebix 1.17 if (ScratchMem) {
650 cebix 1.12 free((void *)(ScratchMem - SCRATCH_MEM_SIZE/2));
651 cebix 1.17 ScratchMem = NULL;
652     }
653 cebix 1.12 #endif
654    
655     #if REAL_ADDRESSING
656     // Delete Low Memory area
657     if (lm_area_mapped)
658     munmap((char *)0x0000, 0x2000);
659     #endif
660    
661     // Close /dev/zero
662     if (zero_fd > 0)
663     close(zero_fd);
664    
665 cebix 1.1 // Exit system routines
666     SysExit();
667    
668     // Exit preferences
669     PrefsExit();
670    
671     // Close X11 server connection
672     if (x_display)
673     XCloseDisplay(x_display);
674    
675     exit(0);
676     }
677    
678    
679     /*
680     * Code was patched, flush caches if neccessary (i.e. when using a real 680x0
681     * or a dynamically recompiling emulator)
682     */
683    
684     void FlushCodeCache(void *start, uint32 size)
685     {
686 cebix 1.12 #if !EMULATED_68K && defined(__NetBSD__)
687     m68k_sync_icache(start, size);
688     #endif
689 cebix 1.4 }
690    
691    
692     /*
693     * SIGINT handler, enters mon
694     */
695    
696 cebix 1.12 #ifdef ENABLE_MON
697 cebix 1.4 static void sigint_handler(...)
698     {
699 cebix 1.12 #if EMULATED_68K
700 cebix 1.8 uaecptr nextpc;
701 cebix 1.12 extern void m68k_dumpstate(uaecptr *nextpc);
702 cebix 1.8 m68k_dumpstate(&nextpc);
703 cebix 1.12 #else
704 cebix 1.21 char *arg[4] = {"mon", "-m", "-r", NULL};
705     mon(3, arg);
706 cebix 1.4 QuitEmulator();
707 cebix 1.12 #endif
708 cebix 1.1 }
709     #endif
710    
711    
712     /*
713     * Interrupt flags (must be handled atomically!)
714     */
715    
716     uint32 InterruptFlags = 0;
717    
718 cebix 1.12 #if EMULATED_68K
719 cebix 1.1 void SetInterruptFlag(uint32 flag)
720     {
721 cebix 1.12 #ifdef HAVE_PTHREADS
722 cebix 1.1 pthread_mutex_lock(&intflag_lock);
723     InterruptFlags |= flag;
724     pthread_mutex_unlock(&intflag_lock);
725 cebix 1.12 #else
726     InterruptFlags |= flag; // Pray that this is an atomic operation...
727     #endif
728 cebix 1.1 }
729    
730     void ClearInterruptFlag(uint32 flag)
731     {
732 cebix 1.12 #ifdef HAVE_PTHREADS
733 cebix 1.1 pthread_mutex_lock(&intflag_lock);
734     InterruptFlags &= ~flag;
735     pthread_mutex_unlock(&intflag_lock);
736 cebix 1.12 #else
737     InterruptFlags &= ~flag;
738     #endif
739     }
740     #endif
741    
742     #if !EMULATED_68K
743     void TriggerInterrupt(void)
744     {
745     #if defined(HAVE_PTHREADS)
746     pthread_kill(emul_thread, SIG_IRQ);
747     #else
748     raise(SIG_IRQ);
749     #endif
750 cebix 1.22 }
751    
752     void TriggerNMI(void)
753     {
754     // not yet supported
755 cebix 1.12 }
756     #endif
757    
758    
759     /*
760     * XPRAM watchdog thread (saves XPRAM every minute)
761     */
762    
763     static void xpram_watchdog(void)
764     {
765     if (memcmp(last_xpram, XPRAM, 256)) {
766     memcpy(last_xpram, XPRAM, 256);
767     SaveXPRAM();
768     }
769     }
770    
771     #ifdef HAVE_PTHREADS
772     static void *xpram_func(void *arg)
773     {
774     while (!xpram_thread_cancel) {
775 cebix 1.16 for (int i=0; i<60 && !xpram_thread_cancel; i++)
776     Delay_usec(1000000);
777 cebix 1.12 xpram_watchdog();
778     }
779     return NULL;
780 cebix 1.1 }
781 cebix 1.12 #endif
782 cebix 1.1
783    
784     /*
785     * 60Hz thread (really 60.15Hz)
786     */
787    
788 cebix 1.12 static void one_second(void)
789     {
790     // Pseudo Mac 1Hz interrupt, update local time
791     WriteMacInt32(0x20c, TimerDateTime());
792    
793 cebix 1.18 SetInterruptFlag(INTFLAG_1HZ);
794 cebix 1.14 TriggerInterrupt();
795    
796 cebix 1.12 #ifndef HAVE_PTHREADS
797     static int second_counter = 0;
798     if (++second_counter > 60) {
799     second_counter = 0;
800     xpram_watchdog();
801     }
802     #endif
803     }
804    
805 cebix 1.1 static void one_tick(...)
806     {
807     static int tick_counter = 0;
808     if (++tick_counter > 60) {
809     tick_counter = 0;
810 cebix 1.12 one_second();
811 cebix 1.1 }
812    
813 cebix 1.12 #ifndef HAVE_PTHREADS
814     // No threads available, perform video refresh from here
815     VideoRefresh();
816     #endif
817    
818 cebix 1.1 // Trigger 60Hz interrupt
819     if (ROMVersion != ROM_VERSION_CLASSIC || HasMacStarted()) {
820     SetInterruptFlag(INTFLAG_60HZ);
821     TriggerInterrupt();
822     }
823     }
824    
825 cebix 1.12 #ifdef HAVE_PTHREADS
826 cebix 1.1 static void *tick_func(void *arg)
827     {
828 cebix 1.16 uint64 next = GetTicks_usec();
829 cebix 1.1 while (!tick_thread_cancel) {
830 cebix 1.16 one_tick();
831     next += 16625;
832     int64 delay = next - GetTicks_usec();
833     if (delay > 0)
834     Delay_usec(delay);
835     else if (delay < -16625)
836     next = GetTicks_usec();
837     }
838     return NULL;
839     }
840     #endif
841 cebix 1.1
842 cebix 1.16
843     /*
844     * Get current value of microsecond timer
845     */
846    
847     uint64 GetTicks_usec(void)
848     {
849     #ifdef HAVE_CLOCK_GETTIME
850     struct timespec t;
851     clock_gettime(CLOCK_REALTIME, &t);
852     return (uint64)t.tv_sec * 1000000 + t.tv_nsec / 1000;
853 cebix 1.1 #else
854 cebix 1.16 struct timeval t;
855     gettimeofday(&t, NULL);
856     return (uint64)t.tv_sec * 1000000 + t.tv_usec;
857 cebix 1.1 #endif
858 cebix 1.16 }
859 cebix 1.1
860 cebix 1.16
861     /*
862     * Delay by specified number of microseconds (<1 second)
863     * (adapted from SDL_Delay() source)
864     */
865    
866     void Delay_usec(uint32 usec)
867     {
868     int was_error;
869     #ifndef __linux__ // Non-Linux implementations need to calculate time left
870     uint64 then, now, elapsed;
871     #endif
872     struct timeval tv;
873    
874     // Set the timeout interval - Linux only needs to do this once
875     #ifdef __linux__
876     tv.tv_sec = 0;
877     tv.tv_usec = usec;
878     #else
879     then = GetTicks_usec();
880     #endif
881     do {
882     errno = 0;
883     #ifndef __linux__
884     /* Calculate the time interval left (in case of interrupt) */
885     now = GetTicks_usec();
886     elapsed = now - then;
887     then = now;
888     if (elapsed >= usec)
889     break;
890     usec -= elapsed;
891     tv.tv_sec = 0;
892     tv.tv_usec = usec;
893     #endif
894     was_error = select(0, NULL, NULL, NULL, &tv);
895     } while (was_error && (errno == EINTR));
896 cebix 1.1 }
897 cebix 1.12
898    
899     #if !EMULATED_68K
900     /*
901     * Virtual 68k interrupt handler
902     */
903    
904     static void sigirq_handler(int sig, int code, struct sigcontext *scp)
905     {
906     // Interrupts disabled? Then do nothing
907     if (EmulatedSR & 0x0700)
908     return;
909    
910     struct sigstate *state = (struct sigstate *)scp->sc_ap;
911     M68kRegisters *regs = (M68kRegisters *)&state->ss_frame;
912    
913     // Set up interrupt frame on stack
914     uint32 a7 = regs->a[7];
915     a7 -= 2;
916     WriteMacInt16(a7, 0x64);
917     a7 -= 4;
918     WriteMacInt32(a7, scp->sc_pc);
919     a7 -= 2;
920     WriteMacInt16(a7, scp->sc_ps | EmulatedSR);
921     scp->sc_sp = regs->a[7] = a7;
922    
923     // Set interrupt level
924     EmulatedSR |= 0x2100;
925    
926     // Jump to MacOS interrupt handler on return
927     scp->sc_pc = ReadMacInt32(0x64);
928     }
929 cebix 1.1
930    
931     /*
932 cebix 1.12 * SIGILL handler, for emulation of privileged instructions and executing
933     * A-Trap and EMUL_OP opcodes
934 cebix 1.1 */
935    
936 cebix 1.12 static void sigill_handler(int sig, int code, struct sigcontext *scp)
937 cebix 1.1 {
938 cebix 1.12 struct sigstate *state = (struct sigstate *)scp->sc_ap;
939     uint16 *pc = (uint16 *)scp->sc_pc;
940     uint16 opcode = *pc;
941     M68kRegisters *regs = (M68kRegisters *)&state->ss_frame;
942    
943     #define INC_PC(n) scp->sc_pc += (n)
944    
945     #define GET_SR (scp->sc_ps | EmulatedSR)
946    
947     #define STORE_SR(v) \
948     scp->sc_ps = (v) & 0xff; \
949 cebix 1.24 EmulatedSR = (v) & 0xe700; \
950 cebix 1.12 if (((v) & 0x0700) == 0 && InterruptFlags) \
951     TriggerInterrupt();
952    
953     //printf("opcode %04x at %p, sr %04x, emul_sr %04x\n", opcode, pc, scp->sc_ps, EmulatedSR);
954    
955     if ((opcode & 0xf000) == 0xa000) {
956    
957     // A-Line instruction, set up A-Line trap frame on stack
958     uint32 a7 = regs->a[7];
959     a7 -= 2;
960     WriteMacInt16(a7, 0x28);
961     a7 -= 4;
962     WriteMacInt32(a7, (uint32)pc);
963     a7 -= 2;
964     WriteMacInt16(a7, GET_SR);
965     scp->sc_sp = regs->a[7] = a7;
966    
967     // Jump to MacOS A-Line handler on return
968     scp->sc_pc = ReadMacInt32(0x28);
969    
970     } else if ((opcode & 0xff00) == 0x7100) {
971    
972     // Extended opcode, push registers on user stack
973     uint32 a7 = regs->a[7];
974     a7 -= 4;
975     WriteMacInt32(a7, (uint32)pc);
976     a7 -= 2;
977     WriteMacInt16(a7, scp->sc_ps);
978     for (int i=7; i>=0; i--) {
979     a7 -= 4;
980     WriteMacInt32(a7, regs->a[i]);
981     }
982     for (int i=7; i>=0; i--) {
983     a7 -= 4;
984     WriteMacInt32(a7, regs->d[i]);
985     }
986     scp->sc_sp = regs->a[7] = a7;
987    
988     // Jump to EmulOp trampoline code on return
989     scp->sc_pc = (uint32)EmulOpTrampoline;
990    
991     } else switch (opcode) { // Emulate privileged instructions
992    
993     case 0x40e7: // move sr,-(sp)
994     regs->a[7] -= 2;
995     WriteMacInt16(regs->a[7], GET_SR);
996     scp->sc_sp = regs->a[7];
997     INC_PC(2);
998     break;
999    
1000     case 0x46df: { // move (sp)+,sr
1001     uint16 sr = ReadMacInt16(regs->a[7]);
1002     STORE_SR(sr);
1003     regs->a[7] += 2;
1004     scp->sc_sp = regs->a[7];
1005     INC_PC(2);
1006     break;
1007     }
1008    
1009     case 0x007c: { // ori #xxxx,sr
1010     uint16 sr = GET_SR | pc[1];
1011     scp->sc_ps = sr & 0xff; // oring bits into the sr can't enable interrupts, so we don't need to call STORE_SR
1012 cebix 1.24 EmulatedSR = sr & 0xe700;
1013 cebix 1.12 INC_PC(4);
1014     break;
1015     }
1016    
1017     case 0x027c: { // andi #xxxx,sr
1018     uint16 sr = GET_SR & pc[1];
1019     STORE_SR(sr);
1020     INC_PC(4);
1021     break;
1022     }
1023    
1024     case 0x46fc: // move #xxxx,sr
1025     STORE_SR(pc[1]);
1026     INC_PC(4);
1027     break;
1028    
1029     case 0x46ef: { // move (xxxx,sp),sr
1030     uint16 sr = ReadMacInt16(regs->a[7] + (int32)(int16)pc[1]);
1031     STORE_SR(sr);
1032     INC_PC(4);
1033     break;
1034     }
1035    
1036     case 0x46d8: // move (a0)+,sr
1037     case 0x46d9: { // move (a1)+,sr
1038     uint16 sr = ReadMacInt16(regs->a[opcode & 7]);
1039     STORE_SR(sr);
1040     regs->a[opcode & 7] += 2;
1041     INC_PC(2);
1042     break;
1043     }
1044 cebix 1.1
1045 cebix 1.12 case 0x40f8: // move sr,xxxx.w
1046     WriteMacInt16(pc[1], GET_SR);
1047     INC_PC(4);
1048     break;
1049    
1050     case 0x40d0: // move sr,(a0)
1051     case 0x40d1: // move sr,(a1)
1052     case 0x40d2: // move sr,(a2)
1053     case 0x40d3: // move sr,(a3)
1054     case 0x40d4: // move sr,(a4)
1055     case 0x40d5: // move sr,(a5)
1056     case 0x40d6: // move sr,(a6)
1057     case 0x40d7: // move sr,(sp)
1058     WriteMacInt16(regs->a[opcode & 7], GET_SR);
1059     INC_PC(2);
1060     break;
1061    
1062     case 0x40c0: // move sr,d0
1063     case 0x40c1: // move sr,d1
1064     case 0x40c2: // move sr,d2
1065     case 0x40c3: // move sr,d3
1066     case 0x40c4: // move sr,d4
1067     case 0x40c5: // move sr,d5
1068     case 0x40c6: // move sr,d6
1069     case 0x40c7: // move sr,d7
1070     regs->d[opcode & 7] = GET_SR;
1071     INC_PC(2);
1072     break;
1073    
1074     case 0x46c0: // move d0,sr
1075     case 0x46c1: // move d1,sr
1076     case 0x46c2: // move d2,sr
1077     case 0x46c3: // move d3,sr
1078     case 0x46c4: // move d4,sr
1079     case 0x46c5: // move d5,sr
1080     case 0x46c6: // move d6,sr
1081     case 0x46c7: { // move d7,sr
1082     uint16 sr = regs->d[opcode & 7];
1083     STORE_SR(sr);
1084     INC_PC(2);
1085     break;
1086 cebix 1.1 }
1087 cebix 1.12
1088     case 0xf327: // fsave -(sp)
1089 cebix 1.24 if (CPUIs68060) {
1090     regs->a[7] -= 4;
1091     WriteMacInt32(regs->a[7], 0x60000000); // Idle frame
1092     regs->a[7] -= 4;
1093     WriteMacInt32(regs->a[7], 0);
1094     regs->a[7] -= 4;
1095     WriteMacInt32(regs->a[7], 0);
1096     } else {
1097     regs->a[7] -= 4;
1098     WriteMacInt32(regs->a[7], 0x41000000); // Idle frame
1099     }
1100     scp->sc_sp = regs->a[7];
1101     INC_PC(2);
1102     break;
1103 cebix 1.12
1104     case 0xf35f: // frestore (sp)+
1105 cebix 1.24 if (CPUIs68060)
1106     regs->a[7] += 12;
1107     else
1108     regs->a[7] += 4;
1109     scp->sc_sp = regs->a[7];
1110     INC_PC(2);
1111     break;
1112 cebix 1.12
1113 cebix 1.24 case 0x4e73: { // rte
1114 cebix 1.12 uint32 a7 = regs->a[7];
1115     uint16 sr = ReadMacInt16(a7);
1116     a7 += 2;
1117     scp->sc_ps = sr & 0xff;
1118 cebix 1.24 EmulatedSR = sr & 0xe700;
1119 cebix 1.12 scp->sc_pc = ReadMacInt32(a7);
1120 cebix 1.24 a7 += 4;
1121     uint16 format = ReadMacInt16(a7) >> 12;
1122     a7 += 2;
1123     static const int frame_adj[16] = {
1124     0, 0, 4, 4, 8, 0, 0, 52, 50, 12, 24, 84, 16, 0, 0, 0
1125     };
1126     scp->sc_sp = regs->a[7] = a7 + frame_adj[format];
1127 cebix 1.12 break;
1128 cebix 1.1 }
1129 cebix 1.12
1130     case 0x4e7a: // movec cr,x
1131     switch (pc[1]) {
1132     case 0x0002: // movec cacr,d0
1133     regs->d[0] = 0x3111;
1134     break;
1135     case 0x1002: // movec cacr,d1
1136     regs->d[1] = 0x3111;
1137     break;
1138     case 0x0003: // movec tc,d0
1139 cebix 1.24 case 0x0004: // movec itt0,d0
1140     case 0x0005: // movec itt1,d0
1141     case 0x0006: // movec dtt0,d0
1142     case 0x0007: // movec dtt1,d0
1143     case 0x0806: // movec urp,d0
1144     case 0x0807: // movec srp,d0
1145 cebix 1.12 regs->d[0] = 0;
1146     break;
1147 cebix 1.24 case 0x1000: // movec sfc,d1
1148     case 0x1001: // movec dfc,d1
1149 cebix 1.12 case 0x1003: // movec tc,d1
1150 cebix 1.24 case 0x1801: // movec vbr,d1
1151 cebix 1.12 regs->d[1] = 0;
1152     break;
1153 cebix 1.24 case 0x8801: // movec vbr,a0
1154     regs->a[0] = 0;
1155     break;
1156     case 0x9801: // movec vbr,a1
1157     regs->a[1] = 0;
1158     break;
1159 cebix 1.12 default:
1160     goto ill;
1161     }
1162     INC_PC(4);
1163     break;
1164    
1165     case 0x4e7b: // movec x,cr
1166     switch (pc[1]) {
1167 cebix 1.24 case 0x1000: // movec d1,sfc
1168     case 0x1001: // movec d1,dfc
1169 cebix 1.12 case 0x0801: // movec d0,vbr
1170 cebix 1.24 case 0x1801: // movec d1,vbr
1171 cebix 1.12 break;
1172     case 0x0002: // movec d0,cacr
1173     case 0x1002: // movec d1,cacr
1174     FlushCodeCache(NULL, 0);
1175     break;
1176     default:
1177     goto ill;
1178     }
1179     INC_PC(4);
1180     break;
1181    
1182     case 0xf478: // cpusha dc
1183     case 0xf4f8: // cpusha dc/ic
1184     FlushCodeCache(NULL, 0);
1185     INC_PC(2);
1186     break;
1187    
1188     default:
1189     ill: printf("SIGILL num %d, code %d\n", sig, code);
1190     printf(" context %p:\n", scp);
1191     printf(" onstack %08x\n", scp->sc_onstack);
1192     printf(" sp %08x\n", scp->sc_sp);
1193     printf(" fp %08x\n", scp->sc_fp);
1194     printf(" pc %08x\n", scp->sc_pc);
1195     printf(" opcode %04x\n", opcode);
1196     printf(" sr %08x\n", scp->sc_ps);
1197     printf(" state %p:\n", state);
1198     printf(" flags %d\n", state->ss_flags);
1199     for (int i=0; i<8; i++)
1200     printf(" d%d %08x\n", i, state->ss_frame.f_regs[i]);
1201     for (int i=0; i<8; i++)
1202     printf(" a%d %08x\n", i, state->ss_frame.f_regs[i+8]);
1203    
1204     #ifdef ENABLE_MON
1205 cebix 1.21 char *arg[4] = {"mon", "-m", "-r", NULL};
1206     mon(3, arg);
1207 cebix 1.12 #endif
1208     QuitEmulator();
1209     break;
1210 cebix 1.1 }
1211     }
1212 cebix 1.12 #endif
1213 cebix 1.1
1214    
1215     /*
1216     * Display alert
1217     */
1218    
1219 cebix 1.12 #ifdef ENABLE_GTK
1220 cebix 1.1 static void dl_destroyed(void)
1221     {
1222     gtk_main_quit();
1223     }
1224    
1225     static void dl_quit(GtkWidget *dialog)
1226     {
1227     gtk_widget_destroy(dialog);
1228     }
1229    
1230     void display_alert(int title_id, int prefix_id, int button_id, const char *text)
1231     {
1232     char str[256];
1233     sprintf(str, GetString(prefix_id), text);
1234    
1235     GtkWidget *dialog = gtk_dialog_new();
1236     gtk_window_set_title(GTK_WINDOW(dialog), GetString(title_id));
1237     gtk_container_border_width(GTK_CONTAINER(dialog), 5);
1238     gtk_widget_set_uposition(GTK_WIDGET(dialog), 100, 150);
1239     gtk_signal_connect(GTK_OBJECT(dialog), "destroy", GTK_SIGNAL_FUNC(dl_destroyed), NULL);
1240    
1241     GtkWidget *label = gtk_label_new(str);
1242     gtk_widget_show(label);
1243     gtk_box_pack_start(GTK_BOX(GTK_DIALOG(dialog)->vbox), label, TRUE, TRUE, 0);
1244    
1245     GtkWidget *button = gtk_button_new_with_label(GetString(button_id));
1246     gtk_widget_show(button);
1247     gtk_signal_connect_object(GTK_OBJECT(button), "clicked", GTK_SIGNAL_FUNC(dl_quit), GTK_OBJECT(dialog));
1248     gtk_box_pack_start(GTK_BOX(GTK_DIALOG(dialog)->action_area), button, FALSE, FALSE, 0);
1249     GTK_WIDGET_SET_FLAGS(button, GTK_CAN_DEFAULT);
1250     gtk_widget_grab_default(button);
1251     gtk_widget_show(dialog);
1252    
1253     gtk_main();
1254     }
1255     #endif
1256    
1257    
1258     /*
1259     * Display error alert
1260     */
1261    
1262     void ErrorAlert(const char *text)
1263     {
1264 cebix 1.12 #ifdef ENABLE_GTK
1265 cebix 1.1 if (PrefsFindBool("nogui") || x_display == NULL) {
1266     printf(GetString(STR_SHELL_ERROR_PREFIX), text);
1267     return;
1268     }
1269     VideoQuitFullScreen();
1270     display_alert(STR_ERROR_ALERT_TITLE, STR_GUI_ERROR_PREFIX, STR_QUIT_BUTTON, text);
1271     #else
1272     printf(GetString(STR_SHELL_ERROR_PREFIX), text);
1273     #endif
1274     }
1275    
1276    
1277     /*
1278     * Display warning alert
1279     */
1280    
1281     void WarningAlert(const char *text)
1282     {
1283 cebix 1.12 #ifdef ENABLE_GTK
1284 cebix 1.1 if (PrefsFindBool("nogui") || x_display == NULL) {
1285     printf(GetString(STR_SHELL_WARNING_PREFIX), text);
1286     return;
1287     }
1288     display_alert(STR_WARNING_ALERT_TITLE, STR_GUI_WARNING_PREFIX, STR_OK_BUTTON, text);
1289     #else
1290     printf(GetString(STR_SHELL_WARNING_PREFIX), text);
1291     #endif
1292     }
1293    
1294    
1295     /*
1296     * Display choice alert
1297     */
1298    
1299     bool ChoiceAlert(const char *text, const char *pos, const char *neg)
1300     {
1301     printf(GetString(STR_SHELL_WARNING_PREFIX), text);
1302     return false; //!!
1303     }