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root/cebix/BasiliskII/src/AmigaOS/main_amiga.cpp

Comparing BasiliskII/src/AmigaOS/main_amiga.cpp (file contents):
Revision 1.10 by cebix, 2000-09-04T16:30:47Z vs.
Revision 1.19 by cebix, 2001-10-07T19:50:19Z

#	Line 1 | Line 1
1		/*
2		*  main_amiga.cpp - Startup code for AmigaOS
3		*
4	<	*  Basilisk II (C) 1997-2000 Christian Bauer
4	>	*  Basilisk II (C) 1997-2001 Christian Bauer
5		*
6		*  This program is free software; you can redistribute it and/or modify
7		*  it under the terms of the GNU General Public License as published by
#	Line 97 | Line 97 | struct Library *AHIBase = NULL;
97		struct Library *DiskBase = NULL;
98
99		struct Task *MainTask;                                                  // Our task
100	<	uint32 ScratchMem = NULL;                                               // Scratch memory for Mac ROM writes
100	>	uint8 *ScratchMem = NULL;                                               // Scratch memory for Mac ROM writes
101		APTR OldTrapHandler = NULL;                                             // Old trap handler
102		APTR OldExceptionHandler = NULL;                                // Old exception handler
103		BYTE IRQSig = -1;                                                               // "Interrupt" signal number
#	Line 108 | Line 108 | static struct timerequest *timereq = NUL
108		static struct MsgPort *ahi_port = NULL;                 // Port for AHI
109		static struct AHIRequest *ahi_io = NULL;                // IORequest for AHI
110
111	+	static struct Process *xpram_proc = NULL;               // XPRAM watchdog
112	+	static volatile bool xpram_proc_active = true;  // Flag for quitting the XPRAM watchdog
113	+
114		static struct Process *tick_proc = NULL;                // 60Hz process
115		static volatile bool tick_proc_active = true;   // Flag for quitting the 60Hz process
116
#	Line 120 | Line 123 | struct trap_regs;
123		extern "C" void AtomicAnd(uint32 *p, uint32 val);
124		extern "C" void AtomicOr(uint32 *p, uint32 val);
125		extern "C" void MoveVBR(void);
126	+	extern "C" void DisableSuperBypass(void);
127		extern "C" void TrapHandlerAsm(void);
128		extern "C" void ExceptionHandlerAsm(void);
129		extern "C" void IllInstrHandler(trap_regs *regs);
130		extern "C" void PrivViolHandler(trap_regs *regs);
131		extern "C" void quit_emulator(void);
132	+	extern "C" void AsmTriggerNMI(void);
133		uint16 EmulatedSR;                                      // Emulated SR (supervisor bit and interrupt mask)
134
135
136		// Prototypes
137		static void jump_to_rom(void);
138	+	static void xpram_func(void);
139		static void tick_func(void);
140
141
#	Line 137 | Line 143 | static void tick_func(void);
143		*  Main program
144		*/
145
146	<	int main(void)
146	>	int main(int argc, char **argv)
147		{
148		// Initialize variables
149		RAMBaseHost = NULL;
#	Line 168 | Line 174 | int main(void)
174		QuitEmulator();
175		GadToolsBase = OpenLibrary((UBYTE *)"gadtools.library", 39);
176		if (GadToolsBase == NULL) {
177	<	ErrorAlert(GetString(STR_NO_GADTOOLS_LIB_ERR));
177	>	ErrorAlert(STR_NO_GADTOOLS_LIB_ERR);
178		QuitEmulator();
179		}
180		IFFParseBase = OpenLibrary((UBYTE *)"iffparse.library", 39);
181		if (IFFParseBase == NULL) {
182	<	ErrorAlert(GetString(STR_NO_IFFPARSE_LIB_ERR));
182	>	ErrorAlert(STR_NO_IFFPARSE_LIB_ERR);
183		QuitEmulator();
184		}
185		AslBase = OpenLibrary((UBYTE *)"asl.library", 36);
186		if (AslBase == NULL) {
187	<	ErrorAlert(GetString(STR_NO_ASL_LIB_ERR));
187	>	ErrorAlert(STR_NO_ASL_LIB_ERR);
188		QuitEmulator();
189		}
190
#	Line 187 | Line 193 | int main(void)
193		CyberGfxBase = OpenLibrary((UBYTE *)"cybergraphics.library", 2);
194
195		// Read preferences
196	<	PrefsInit();
196	>	PrefsInit(argc, argv);
197
198		// Open AHI
199		ahi_port = CreateMsgPort();
#	Line 211 | Line 217 | int main(void)
217
218		// Check start of Chip memory (because we need access to 0x0000..0x2000)
219		if ((uint32)FindName(&SysBase->MemList, (UBYTE *)"chip memory") < 0x2000) {
220	<	ErrorAlert(GetString(STR_NO_PREPARE_EMUL_ERR));
220	>	ErrorAlert(STR_NO_PREPARE_EMUL_ERR);
221		QuitEmulator();
222		}
223
224		// Open timer.device
225		timereq = (struct timerequest *)AllocVec(sizeof(timerequest), MEMF_PUBLIC | MEMF_CLEAR);
226		if (timereq == NULL) {
227	<	ErrorAlert(GetString(STR_NO_MEM_ERR));
227	>	ErrorAlert(STR_NO_MEM_ERR);
228		QuitEmulator();
229		}
230		if (OpenDevice((UBYTE *)TIMERNAME, UNIT_MICROHZ, (struct IORequest *)timereq, 0)) {
231	<	ErrorAlert(GetString(STR_NO_TIMER_DEV_ERR));
231	>	ErrorAlert(STR_NO_TIMER_DEV_ERR);
232		QuitEmulator();
233		}
234		TimerBase = (struct Library *)timereq->tr_node.io_Device;
235
236		// Allocate scratch memory
237	<	ScratchMem = (uint32)AllocMem(SCRATCH_MEM_SIZE, MEMF_PUBLIC);
237	>	ScratchMem = (uint8 *)AllocMem(SCRATCH_MEM_SIZE, MEMF_PUBLIC);
238		if (ScratchMem == NULL) {
239	<	ErrorAlert(GetString(STR_NO_MEM_ERR));
239	>	ErrorAlert(STR_NO_MEM_ERR);
240		QuitEmulator();
241		}
242		ScratchMem += SCRATCH_MEM_SIZE/2;       // ScratchMem points to middle of block
#	Line 255 | Line 261 | int main(void)
261		RAMSize = newRAMSize;
262		RAMBaseHost = (uint8 *)AllocVec(RAMSize + 0x100000, MEMF_PUBLIC);
263		if (RAMBaseHost == NULL) {
264	<	ErrorAlert(GetString(STR_NO_MEM_ERR));
264	>	ErrorAlert(STR_NO_MEM_ERR);
265		QuitEmulator();
266		}
267		}
#	Line 270 | Line 276 | int main(void)
276
277		// Load Mac ROM
278		BPTR rom_fh = Open(rom_path ? (char *)rom_path : (char *)ROM_FILE_NAME, MODE_OLDFILE);
279	<	if (rom_fh == NULL) {
280	<	ErrorAlert(GetString(STR_NO_ROM_FILE_ERR));
279	>	if (rom_fh == 0) {
280	>	ErrorAlert(STR_NO_ROM_FILE_ERR);
281		QuitEmulator();
282		}
283		printf(GetString(STR_READING_ROM_FILE));
284		Seek(rom_fh, 0, OFFSET_END);
285		ROMSize = Seek(rom_fh, 0, OFFSET_CURRENT);
286		if (ROMSize != 512*1024 && ROMSize != 1024*1024) {
287	<	ErrorAlert(GetString(STR_ROM_SIZE_ERR));
287	>	ErrorAlert(STR_ROM_SIZE_ERR);
288		Close(rom_fh);
289		QuitEmulator();
290		}
291		Seek(rom_fh, 0, OFFSET_BEGINNING);
292		if (Read(rom_fh, ROMBaseHost, ROMSize) != ROMSize) {
293	<	ErrorAlert(GetString(STR_ROM_FILE_READ_ERR));
293	>	ErrorAlert(STR_ROM_FILE_READ_ERR);
294		Close(rom_fh);
295		QuitEmulator();
296		}
#	Line 302 | Line 308 | int main(void)
308		// Move VBR away from 0 if neccessary
309		MoveVBR();
310
311	+	// On 68060, disable Super Bypass mode because of a CPU bug that is triggered by MacOS 8
312	+	if (CPUIs68060)
313	+	DisableSuperBypass();
314	+
315		// Install trap handler
316		EmulatedSR = 0x2700;
317		OldTrapHandler = MainTask->tc_TrapCode;
#	Line 314 | Line 324 | int main(void)
324		MainTask->tc_ExceptCode = (APTR)ExceptionHandlerAsm;
325		SetExcept(SIGBREAKF_CTRL_C | IRQSigMask, SIGBREAKF_CTRL_C | IRQSigMask);
326
327	+	// Start XPRAM watchdog process
328	+	xpram_proc = CreateNewProcTags(
329	+	NP_Entry, (ULONG)xpram_func,
330	+	NP_Name, (ULONG)"Basilisk II XPRAM Watchdog",
331	+	NP_Priority, 0,
332	+	TAG_END
333	+	);
334	+
335		// Start 60Hz process
336		tick_proc = CreateNewProcTags(
337		NP_Entry, (ULONG)tick_func,
#	Line 361 | Line 379 | void __saveds quit_emulator(void)
379
380		void QuitEmulator(void)
381		{
382	<	// Stop 60Hz thread
382	>	// Stop 60Hz process
383		if (tick_proc) {
384		SetSignal(0, SIGF_SINGLE);
385		tick_proc_active = false;
386		Wait(SIGF_SINGLE);
387		}
388
389	+	// Stop XPRAM watchdog process
390	+	if (xpram_proc) {
391	+	SetSignal(0, SIGF_SINGLE);
392	+	xpram_proc_active = false;
393	+	Wait(SIGF_SINGLE);
394	+	}
395	+
396		// Restore stack
397		if (stack_swapped) {
398		stack_swapped = false;
#	Line 447 | Line 472 | void FlushCodeCache(void *start, uint32
472
473
474		/*
475	+	*  Mutexes
476	+	*/
477	+
478	+	struct B2_mutex {
479	+	int dummy;      //!!
480	+	};
481	+
482	+	B2_mutex *B2_create_mutex(void)
483	+	{
484	+	return new B2_mutex;
485	+	}
486	+
487	+	void B2_lock_mutex(B2_mutex *mutex)
488	+	{
489	+	}
490	+
491	+	void B2_unlock_mutex(B2_mutex *mutex)
492	+	{
493	+	}
494	+
495	+	void B2_delete_mutex(B2_mutex *mutex)
496	+	{
497	+	delete mutex;
498	+	}
499	+
500	+
501	+	/*
502		*  Interrupt flags (must be handled atomically!)
503		*/
504
#	Line 474 | Line 526 | void TriggerNMI(void)
526
527
528		/*
529	<	*  60Hz thread
529	>	*  60Hz thread (really 60.15Hz)
530		*/
531
532		static __saveds void tick_func(void)
#	Line 536 | Line 588 | static __saveds void tick_func(void)
588
589		// Main task asked for termination, send signal
590		Forbid();
591	+	Signal(MainTask, SIGF_SINGLE);
592	+	}
593	+
594	+
595	+	/*
596	+	*  XPRAM watchdog thread (saves XPRAM every minute)
597	+	*/
598	+
599	+	static __saveds void xpram_func(void)
600	+	{
601	+	uint8 last_xpram[XPRAM_SIZE];
602	+	memcpy(last_xpram, XPRAM, XPRAM_SIZE);
603	+
604	+	while (xpram_proc_active) {
605	+	for (int i=0; i<60 && xpram_proc_active; i++)
606	+	Delay(50);              // Only wait 1 second so we quit promptly when xpram_proc_active becomes false
607	+	if (memcmp(last_xpram, XPRAM, XPRAM_SIZE)) {
608	+	memcpy(last_xpram, XPRAM, XPRAM_SIZE);
609	+	SaveXPRAM();
610	+	}
611	+	}
612	+
613	+	// Main task asked for termination, send signal
614	+	Forbid();
615		Signal(MainTask, SIGF_SINGLE);
616		}
617

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