Context Navigation

source: buchla-emu/emu/cpu.c@ 6e313dd

Last change on this file since 6e313dd was 6e313dd, checked in by Thomas Lopatic <thomas@…>, 7 years ago
Be friendlier to Valgrind.
Property mode set to `100644`
File size: 15.8 KB

Line
1	/*
2	* Copyright (C) 2017 The Contributors
3	*
4	* This program is free software: you can redistribute it and/or modify
5	* it under the terms of the GNU General Public License as published by
6	* the Free Software Foundation, either version 3 of the License, or (at
7	* your option) any later version.
8	*
9	* This program is distributed in the hope that it will be useful, but
10	* WITHOUT ANY WARRANTY; without even the implied warranty of
11	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
12	* General Public License for more details.
13	*
14	* A copy of the GNU General Public License can be found in the file
15	* "gpl.txt" in the top directory of this repository.
16	*/
17
18	#include <all.h>
19
20	#define ver(...) _ver(cpu_verbose, 0, __VA_ARGS__)
21	#define ver2(...) _ver(cpu_verbose, 1, __VA_ARGS__)
22	#define ver3(...) _ver(cpu_verbose, 2, __VA_ARGS__)
23
24	int32_t cpu_verbose = 0;
25
26	#define CPU_FREQ 7000000
27	#define PER_SEC 100000
28
29	#define APP_START 0x10000
30
31	#define RAM_START 0x0
32	#define RAM_SIZE 0x100000
33
34	#define ROM_START 0x100000
35	#define ROM_SIZE 0x10000
36
37	typedef void (*hw_init_t)(void);
38	typedef void (*hw_quit_t)(void);
39	typedef bool (*hw_exec_t)(void);
40	typedef uint32_t (*hw_read_t)(uint32_t off, int32_t sz);
41	typedef void (*hw_write_t)(uint32_t off, int32_t sz, uint32_t val);
42
43	typedef struct {
44	uint32_t addr_beg;
45	uint32_t addr_end;
46	uint32_t irq;
47	hw_init_t init;
48	hw_quit_t quit;
49	hw_exec_t exec;
50	hw_read_t read;
51	hw_write_t write;
52	} hw_t;
53
54	static uint64_t freq;
55	static uint64_t quan;
56
57	SDL_mutex *cpu_mutex;
58
59	static bool reset = true;
60
61	static uint8_t ram_data[RAM_SIZE];
62	static uint8_t rom_data[ROM_SIZE];
63
64	static uint32_t ram_ro_beg = 0x1234;
65	static uint32_t ram_ro_end = 0x1234;
66	static uint32_t ram_rw_beg = 0x1234;
67	static uint32_t ram_rw_end = 0x1234;
68
69	static uint32_t rom_ro_beg;
70	static uint32_t rom_ro_end;
71	static uint32_t rom_rw_beg;
72	static uint32_t rom_rw_end;
73
74	static hw_t hw_map[] = {
75	{ 0x180000, 0x200000, 0, fpu_init, fpu_quit, fpu_exec, fpu_read, fpu_write },
76	{ 0x200000, 0x280000, 0, vid_init, vid_quit, vid_exec, vid_read, vid_write },
77	{ 0x3a0001, 0x3a4001, 0, tim_init, tim_quit, tim_exec, tim_read, tim_write },
78	{ 0x3a4001, 0x3a8001, 0, lcd_init, lcd_quit, lcd_exec, lcd_read, lcd_write },
79	{ 0x3a8001, 0x3ac001, 5, ser_init, ser_quit, ser_exec, ser_read, ser_write },
80	{ 0x3ac001, 0x3b0001, 0, mid_init, mid_quit, mid_exec, mid_read, mid_write },
81	{ 0x3b0001, 0x3b4001, 0, fdd_init, fdd_quit, fdd_exec, fdd_read, fdd_write },
82	{ 0x3b4001, 0x3b8001, 0, snd_init, snd_quit, snd_exec, snd_read, snd_write },
83	{ 0x3b8001, 0x3bc001, 0, led_init, led_quit, led_exec, led_read, led_write },
84	{ 0x3bc001, 0x3c0001, 0, kbd_init, kbd_quit, kbd_exec, kbd_read, kbd_write }
85	};
86
87	static hw_t *hw_by_addr(uint32_t addr)
88	{
89	for (int32_t i = 0; i < ARRAY_COUNT(hw_map); ++i) {
90	if (addr >= hw_map[i].addr_beg && addr < hw_map[i].addr_end) {
91	return hw_map + i;
92	}
93	}
94
95	return NULL;
96	}
97
98	static void hw_init(void)
99	{
100	inf("starting hardware");
101
102	for (int32_t i = 0; i < ARRAY_COUNT(hw_map); ++i) {
103	hw_map[i].init();
104	}
105	}
106
107	static void hw_quit(void)
108	{
109	inf("halting hardware");
110
111	for (int32_t i = 0; i < ARRAY_COUNT(hw_map); ++i) {
112	hw_map[i].quit();
113	}
114	}
115
116	static uint32_t hw_exec(void)
117	{
118	uint32_t irq = 0;
119
120	for (int32_t i = 0; i < ARRAY_COUNT(hw_map); ++i) {
121	if (hw_map[i].exec() && hw_map[i].irq > irq) {
122	irq = hw_map[i].irq;
123	}
124	}
125
126	return irq;
127	}
128
129	static uint32_t hw_off(hw_t *hw, uint32_t addr)
130	{
131	if ((hw->addr_beg & 0x1) == 0) {
132	return addr - hw->addr_beg;
133	}
134
135	return (addr - hw->addr_beg) / 2;
136	}
137
138	static void bios_init(void)
139	{
140	inf("loading BIOS file %s", bios);
141
142	SDL_RWops *ops = SDL_RWFromFile(bios, "rb");
143
144	if (ops == NULL) {
145	fail("error while opening BIOS file %s", bios);
146	}
147
148	if (SDL_ReadBE16(ops) != 0x601b) {
149	fail("invalid BIOS file %s", bios);
150	}
151
152	uint32_t text_len = SDL_ReadBE32(ops);
153	uint32_t data_len = SDL_ReadBE32(ops);
154	uint32_t bss_len = SDL_ReadBE32(ops);
155
156	SDL_ReadBE32(ops);
157	SDL_ReadBE32(ops);
158
159	uint32_t text_loc = SDL_ReadBE32(ops);
160
161	SDL_ReadBE16(ops);
162
163	uint32_t data_loc = SDL_ReadBE32(ops);
164	uint32_t bss_loc = SDL_ReadBE32(ops);
165
166	inf("BIOS text 0x%x:0x%x data 0x%x:0x%x bss 0x%x:0x%x",
167	text_loc, text_len, data_loc, data_len, bss_loc, bss_len);
168
169	size_t load_len = (size_t)SDL_RWsize(ops) - 36;
170
171	if (text_loc != ROM_START \|\| text_loc + text_len != data_loc \|\|
172	load_len != text_len + data_len \|\| load_len > ROM_SIZE) {
173	fail("invalid BIOS file %s", bios);
174	}
175
176	size_t loaded = 0;
177
178	while (loaded < load_len) {
179	size_t n_rd = SDL_RWread(ops, rom_data + loaded, 1, load_len - loaded);
180
181	if (n_rd == 0) {
182	fail("error while reading BIOS file %s", bios);
183	}
184
185	loaded += n_rd;
186	}
187
188	SDL_RWclose(ops);
189
190	rom_ro_beg = text_loc;
191	rom_ro_end = text_loc + text_len + data_len;
192	rom_rw_beg = bss_loc;
193	rom_rw_end = bss_loc + bss_len;
194
195	ver("rom_ro_beg 0x%08x rom_ro_end 0x%08x", rom_ro_beg, rom_ro_end);
196	ver("rom_rw_beg 0x%08x rom_rw_end 0x%08x", rom_rw_beg, rom_rw_end);
197	}
198
199	uint32_t m68k_read_disassembler_8(uint32_t addr)
200	{
201	return m68k_read_memory_8(addr);
202	}
203
204	uint32_t m68k_read_disassembler_16(uint32_t addr)
205	{
206	return m68k_read_memory_16(addr);
207	}
208
209	uint32_t m68k_read_disassembler_32(uint32_t addr)
210	{
211	return m68k_read_memory_32(addr);
212	}
213
214	uint32_t m68k_read_memory_8(uint32_t addr)
215	{
216	ver3("mem rd 0x%08x:8", addr);
217
218	if (addr >= ram_ro_beg && addr <= ram_ro_end - 1) {
219	return ram_data[addr - RAM_START];
220	}
221
222	if (addr >= ram_rw_beg && addr <= ram_rw_end - 1) {
223	return ram_data[addr - RAM_START];
224	}
225
226	if (addr >= rom_ro_beg && addr <= rom_ro_end - 1) {
227	return rom_data[addr - ROM_START];
228	}
229
230	if (addr >= rom_rw_beg && addr <= rom_rw_end - 1) {
231	// ROM has its BSS section in RAM.
232	return ram_data[addr - RAM_START];
233	}
234
235	hw_t *hw = hw_by_addr(addr);
236
237	if (hw != NULL) {
238	return hw->read(hw_off(hw, addr), 1);
239	}
240
241	if (addr <= APP_START - 1) {
242	return ram_data[addr];
243	}
244
245	fail("invalid read 0x%08x:8", addr);
246	}
247
248	uint32_t m68k_read_memory_16(uint32_t addr)
249	{
250	ver3("mem rd 0x%08x:16", addr);
251
252	if (addr >= ram_ro_beg && addr <= ram_ro_end - 2) {
253	return
254	((uint32_t)ram_data[addr - RAM_START + 0] << 8) \|
255	((uint32_t)ram_data[addr - RAM_START + 1] << 0);
256	}
257
258	if (addr >= ram_rw_beg && addr <= ram_rw_end - 2) {
259	return
260	((uint32_t)ram_data[addr - RAM_START + 0] << 8) \|
261	((uint32_t)ram_data[addr - RAM_START + 1] << 0);
262	}
263
264	if (addr >= rom_ro_beg && addr <= rom_ro_end - 2) {
265	return
266	((uint32_t)rom_data[addr - ROM_START + 0] << 8) \|
267	((uint32_t)rom_data[addr - ROM_START + 1] << 0);
268	}
269
270	if (addr >= rom_rw_beg && addr <= rom_rw_end - 2) {
271	// ROM has its BSS section in RAM.
272	return
273	((uint32_t)ram_data[addr - RAM_START + 0] << 8) \|
274	((uint32_t)ram_data[addr - RAM_START + 1] << 0);
275	}
276
277	hw_t *hw = hw_by_addr(addr);
278
279	if (hw != NULL) {
280	return hw->read(hw_off(hw, addr), 2);
281	}
282
283	if (addr <= APP_START - 2) {
284	return
285	((uint32_t)ram_data[addr + 0] << 8) \|
286	((uint32_t)ram_data[addr + 1] << 0);
287	}
288
289	fail("invalid read 0x%08x:16", addr);
290	}
291
292	uint32_t m68k_read_memory_32(uint32_t addr)
293	{
294	ver3("mem rd 0x%08x:32", addr);
295
296	if (reset) {
297	if (addr == 0) {
298	addr += ROM_START;
299	}
300	else if (addr == 4) {
301	addr += ROM_START;
302	reset = false;
303	}
304	else {
305	fail("invalid reset sequence");
306	}
307	}
308
309	if (addr >= ram_ro_beg && addr <= ram_ro_end - 4) {
310	return
311	((uint32_t)ram_data[addr - RAM_START + 0] << 24) \|
312	((uint32_t)ram_data[addr - RAM_START + 1] << 16) \|
313	((uint32_t)ram_data[addr - RAM_START + 2] << 8) \|
314	((uint32_t)ram_data[addr - RAM_START + 3] << 0);
315	}
316
317	if (addr >= ram_rw_beg && addr <= ram_rw_end - 4) {
318	return
319	((uint32_t)ram_data[addr - RAM_START + 0] << 24) \|
320	((uint32_t)ram_data[addr - RAM_START + 1] << 16) \|
321	((uint32_t)ram_data[addr - RAM_START + 2] << 8) \|
322	((uint32_t)ram_data[addr - RAM_START + 3] << 0);
323	}
324
325	if (addr >= rom_ro_beg && addr <= rom_ro_end - 4) {
326	return
327	((uint32_t)rom_data[addr - ROM_START + 0] << 24) \|
328	((uint32_t)rom_data[addr - ROM_START + 1] << 16) \|
329	((uint32_t)rom_data[addr - ROM_START + 2] << 8) \|
330	((uint32_t)rom_data[addr - ROM_START + 3] << 0);
331	}
332
333	if (addr >= rom_rw_beg && addr <= rom_rw_end - 4) {
334	// ROM has its BSS section in RAM.
335	return
336	((uint32_t)ram_data[addr - RAM_START + 0] << 24) \|
337	((uint32_t)ram_data[addr - RAM_START + 1] << 16) \|
338	((uint32_t)ram_data[addr - RAM_START + 2] << 8) \|
339	((uint32_t)ram_data[addr - RAM_START + 3] << 0);
340	}
341
342	hw_t *hw = hw_by_addr(addr);
343
344	if (hw != NULL) {
345	return hw->read(hw_off(hw, addr), 4);
346	}
347
348	if (addr <= APP_START - 4) {
349	return
350	((uint32_t)ram_data[addr + 0] << 24) \|
351	((uint32_t)ram_data[addr + 1] << 16) \|
352	((uint32_t)ram_data[addr + 2] << 8) \|
353	((uint32_t)ram_data[addr + 3] << 0);
354	}
355
356	fail("invalid read 0x%08x:32", addr);
357	}
358
359	void m68k_write_memory_8(uint32_t addr, uint32_t val)
360	{
361	ver3("mem wr 0x%08x:8 0x%02x", addr, val);
362
363	if (addr >= ram_rw_beg && addr <= ram_rw_end - 1) {
364	ram_data[addr - RAM_START] = (uint8_t)val;
365	return;
366	}
367
368	if (addr >= rom_rw_beg && addr <= rom_rw_end - 1) {
369	// ROM has its BSS section in RAM.
370	ram_data[addr - RAM_START] = (uint8_t)val;
371	return;
372	}
373
374	hw_t *hw = hw_by_addr(addr);
375
376	if (hw != NULL) {
377	hw->write(hw_off(hw, addr), 1, val);
378	return;
379	}
380
381	if (addr <= APP_START - 1) {
382	ram_data[addr] = (uint8_t)val;
383	return;
384	}
385
386	// once midas.abs gets loaded, activate RAM
387
388	if (addr == APP_START) {
389	ram_data[addr] = (uint8_t)val;
390	ram_rw_beg = APP_START;
391	ram_rw_end = RAM_START + RAM_SIZE;
392	return;
393	}
394
395	fail("invalid write 0x%08x:8 0x%02x", addr, val);
396	}
397
398	void m68k_write_memory_16(uint32_t addr, uint32_t val)
399	{
400	ver3("mem wr 0x%08x:16 0x%04x", addr, val);
401
402	if (addr >= ram_rw_beg && addr <= ram_rw_end - 2) {
403	ram_data[addr - RAM_START + 0] = (uint8_t)(val >> 8);
404	ram_data[addr - RAM_START + 1] = (uint8_t)(val >> 0);
405	return;
406	}
407
408	if (addr >= rom_rw_beg && addr <= rom_rw_end - 2) {
409	// ROM has its BSS section in RAM.
410	ram_data[addr - RAM_START + 0] = (uint8_t)(val >> 8);
411	ram_data[addr - RAM_START + 1] = (uint8_t)(val >> 0);
412	return;
413	}
414
415	hw_t *hw = hw_by_addr(addr);
416
417	if (hw != NULL) {
418	hw->write(hw_off(hw, addr), 2, val);
419	return;
420	}
421
422	if (addr <= APP_START - 2) {
423	ram_data[addr + 0] = (uint8_t)(val >> 8);
424	ram_data[addr + 1] = (uint8_t)(val >> 0);
425	return;
426	}
427
428	fail("invalid write 0x%08x:16 0x%04x", addr, val);
429	}
430
431	void m68k_write_memory_32(uint32_t addr, uint32_t val)
432	{
433	ver3("mem wr 0x%08x:32 0x%08x", addr, val);
434
435	if (addr >= ram_rw_beg && addr <= ram_rw_end - 4) {
436	ram_data[addr - RAM_START + 0] = (uint8_t)(val >> 24);
437	ram_data[addr - RAM_START + 1] = (uint8_t)(val >> 16);
438	ram_data[addr - RAM_START + 2] = (uint8_t)(val >> 8);
439	ram_data[addr - RAM_START + 3] = (uint8_t)(val >> 0);
440	return;
441	}
442
443	if (addr >= rom_rw_beg && addr <= rom_rw_end - 4) {
444	// ROM has its BSS section in RAM.
445	ram_data[addr - RAM_START + 0] = (uint8_t)(val >> 24);
446	ram_data[addr - RAM_START + 1] = (uint8_t)(val >> 16);
447	ram_data[addr - RAM_START + 2] = (uint8_t)(val >> 8);
448	ram_data[addr - RAM_START + 3] = (uint8_t)(val >> 0);
449	return;
450	}
451
452	hw_t *hw = hw_by_addr(addr);
453
454	if (hw != NULL) {
455	hw->write(hw_off(hw, addr), 4, val);
456	return;
457	}
458
459	if (addr <= APP_START - 4) {
460	ram_data[addr + 0] = (uint8_t)(val >> 24);
461	ram_data[addr + 1] = (uint8_t)(val >> 16);
462	ram_data[addr + 2] = (uint8_t)(val >> 8);
463	ram_data[addr + 3] = (uint8_t)(val >> 0);
464	return;
465	}
466
467	fail("invalid write 0x%08x:32 0x%08x", addr, val);
468	}
469
470	static void inst_cb(void)
471	{
472	uint32_t pc = m68k_get_reg(NULL, M68K_REG_PC);
473	uint32_t op = m68k_read_memory_16(pc);
474
475	if (op == 0x4e4d) {
476	uint32_t sp = m68k_get_reg(NULL, M68K_REG_SP);
477	uint32_t fun = m68k_read_memory_16(sp);
478
479	switch (fun) {
480	case 1:
481	ver2("BIOS B_RDAV %u", m68k_read_memory_16(sp + 2));
482	break;
483
484	case 2:
485	ver2("BIOS B_GETC %u", m68k_read_memory_16(sp + 2));
486	break;
487
488	case 3:
489	ver2("BIOS B_PUTC %u %u",
490	m68k_read_memory_16(sp + 2),
491	m68k_read_memory_16(sp + 4));
492	break;
493
494	case 4:
495	ver2("BIOS B_RDWR %u 0x%08x %u %u %u",
496	m68k_read_memory_16(sp + 2),
497	m68k_read_memory_32(sp + 4),
498	m68k_read_memory_16(sp + 8),
499	m68k_read_memory_16(sp + 10),
500	m68k_read_memory_16(sp + 12));
501	break;
502
503	case 5:
504	ver2("BIOS B_SETV %u 0x%08x",
505	m68k_read_memory_16(sp + 2),
506	m68k_read_memory_32(sp + 4));
507	break;
508
509	case 7:
510	ver2("BIOS B_GBPB %u", m68k_read_memory_16(sp + 2));
511	break;
512
513	case 8:
514	ver2("BIOS B_THRE %u", m68k_read_memory_16(sp + 2));
515	break;
516
517	case 9:
518	ver2("BIOS B_MCHG %u", m68k_read_memory_16(sp + 2));
519	break;
520
521	case 10:
522	ver2("BIOS B_DMAP");
523	break;
524
525	default:
526	fail("invalid function: BIOS %d", fun);
527	}
528	}
529	else if (op == 0x4e4e) {
530	uint32_t sp = m68k_get_reg(NULL, M68K_REG_SP);
531	uint32_t fun = m68k_read_memory_16(sp);
532
533	switch (fun) {
534	case 0:
535	ver2("XBIOS X_PIOREC %u", m68k_read_memory_16(sp + 2));
536	break;
537
538	case 1:
539	ver2("XBIOS X_SETPRT %u 0x%02x 0x%02x 0x%02x 0x%02x",
540	m68k_read_memory_16(sp + 2),
541	m68k_read_memory_16(sp + 4),
542	m68k_read_memory_16(sp + 6),
543	m68k_read_memory_16(sp + 8),
544	m68k_read_memory_16(sp + 10));
545	break;
546
547	case 2:
548	ver2("XBIOS X_FLOPRD 0x%08x 0x%08x %u %u %u %u %u",
549	m68k_read_memory_32(sp + 2),
550	m68k_read_memory_32(sp + 6),
551	m68k_read_memory_16(sp + 10),
552	m68k_read_memory_16(sp + 12),
553	m68k_read_memory_16(sp + 14),
554	m68k_read_memory_16(sp + 16),
555	m68k_read_memory_16(sp + 18));
556	break;
557
558	case 3:
559	ver2("XBIOS X_FLOPWR 0x%08x 0x%08x %u %u %u %u %u",
560	m68k_read_memory_32(sp + 2),
561	m68k_read_memory_32(sp + 6),
562	m68k_read_memory_16(sp + 10),
563	m68k_read_memory_16(sp + 12),
564	m68k_read_memory_16(sp + 14),
565	m68k_read_memory_16(sp + 16),
566	m68k_read_memory_16(sp + 18));
567	break;
568
569	case 4:
570	ver2("XBIOS X_FORMAT 0x%08x 0x%08x %u %u %u %u %u 0x%08x %u",
571	m68k_read_memory_32(sp + 2),
572	m68k_read_memory_32(sp + 6),
573	m68k_read_memory_16(sp + 10),
574	m68k_read_memory_16(sp + 12),
575	m68k_read_memory_16(sp + 14),
576	m68k_read_memory_16(sp + 16),
577	m68k_read_memory_16(sp + 18),
578	m68k_read_memory_32(sp + 20),
579	m68k_read_memory_16(sp + 24));
580	break;
581
582	case 5:
583	ver2("XBIOS X_VERIFY 0x%08x 0x%08x %u %u %u %u %u",
584	m68k_read_memory_32(sp + 2),
585	m68k_read_memory_32(sp + 6),
586	m68k_read_memory_16(sp + 10),
587	m68k_read_memory_16(sp + 12),
588	m68k_read_memory_16(sp + 14),
589	m68k_read_memory_16(sp + 16),
590	m68k_read_memory_16(sp + 18));
591	break;
592
593	case 6:
594	ver2("XBIOS X_PRBOOT 0x%08x %u %u %u",
595	m68k_read_memory_32(sp + 2),
596	m68k_read_memory_16(sp + 6),
597	m68k_read_memory_16(sp + 8),
598	m68k_read_memory_16(sp + 10));
599	break;
600
601	case 7:
602	ver2("XBIOS X_RANDOM");
603	break;
604
605	case 8:
606	ver2("XBIOS X_ANALOG");
607	break;
608
609	case 9:
610	ver2("XBIOS X_CLRAFI");
611	break;
612
613	case 10:
614	ver2("XBIOS X_APICHK");
615	break;
616
617	case 11:
618	ver2("XBIOS X_MTDEFS ");
619	break;
620
621	default:
622	fail("invalid function: XBIOS %d", fun);
623	}
624	}
625	}
626
627	void cpu_init(void)
628	{
629	cpu_mutex = SDL_CreateMutex();
630
631	if (cpu_mutex == NULL) {
632	fail("SDL_CreateMutex() failed: %s", SDL_GetError());
633	}
634
635	freq = SDL_GetPerformanceFrequency();
636	quan = freq / PER_SEC;
637
638	inf("freq %" PRIu64 " quan %" PRIu64, freq, quan);
639
640	hw_init();
641	bios_init();
642
643	m68k_init();
644	m68k_set_cpu_type(M68K_CPU_TYPE_68000);
645	m68k_set_instr_hook_callback(inst_cb);
646	m68k_pulse_reset();
647	}
648
649	void cpu_quit(void)
650	{
651	hw_quit();
652	SDL_DestroyMutex(cpu_mutex);
653	}
654
655	void cpu_loop(void)
656	{
657	inf("entering CPU loop");
658	int32_t count = 0;
659
660	while (SDL_AtomicGet(&run) != 0) {
661	uint64_t until = SDL_GetPerformanceCounter() + quan;
662
663	if (SDL_LockMutex(cpu_mutex) < 0) {
664	fail("SDL_LockMutex() failed: %s", SDL_GetError());
665	}
666
667	m68k_execute(CPU_FREQ / PER_SEC);
668	uint32_t irq = hw_exec();
669
670	if (irq > 0) {
671	ver2("irq %u", irq);
672	}
673
674	m68k_set_irq(irq);
675
676	if (SDL_UnlockMutex(cpu_mutex) < 0) {
677	fail("SDL_UnlockMutex() failed: %s", SDL_GetError());
678	}
679
680	if ((++count & 0x1ff) == 0) {
681	SDL_Delay(0);
682	}
683
684	while (SDL_GetPerformanceCounter() < until) {
685	for (int32_t i = 0; i < 100; ++i) {
686	_mm_pause();
687	}
688	}
689	}
690
691	inf("leaving CPU loop");
692	}

Note: See TracBrowser for help on using the repository browser.

Download in other formats: