src/gb/core.c (view raw)
1/* Copyright (c) 2013-2016 Jeffrey Pfau
2 *
3 * This Source Code Form is subject to the terms of the Mozilla Public
4 * License, v. 2.0. If a copy of the MPL was not distributed with this
5 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
6#include <mgba/gb/core.h>
7
8#include <mgba/core/core.h>
9#include <mgba/internal/debugger/symbols.h>
10#include <mgba/internal/gb/cheats.h>
11#include <mgba/internal/gb/debugger/debugger.h>
12#include <mgba/internal/gb/debugger/symbols.h>
13#include <mgba/internal/gb/extra/cli.h>
14#include <mgba/internal/gb/io.h>
15#include <mgba/internal/gb/gb.h>
16#include <mgba/internal/gb/mbc.h>
17#include <mgba/internal/gb/overrides.h>
18#include <mgba/internal/gb/renderers/software.h>
19#include <mgba/internal/gb/renderers/proxy.h>
20#include <mgba/internal/gb/serialize.h>
21#include <mgba/internal/lr35902/lr35902.h>
22#include <mgba/internal/lr35902/debugger/debugger.h>
23#include <mgba-util/crc32.h>
24#include <mgba-util/memory.h>
25#include <mgba-util/patch.h>
26#include <mgba-util/vfs.h>
27
28static const struct mCoreChannelInfo _GBVideoLayers[] = {
29 { 0, "bg", "Background", NULL },
30 { 1, "bgwin", "Window", NULL },
31 { 2, "obj", "Objects", NULL },
32};
33
34static const struct mCoreChannelInfo _GBAudioChannels[] = {
35 { 0, "ch1", "Channel 1", "Square/Sweep" },
36 { 1, "ch2", "Channel 2", "Square" },
37 { 2, "ch3", "Channel 3", "PCM" },
38 { 3, "ch4", "Channel 4", "Noise" },
39};
40
41static const struct mCoreMemoryBlock _GBMemoryBlocks[] = {
42 { -1, "mem", "All", "All", 0, 0x10000, 0x10000, mCORE_MEMORY_VIRTUAL },
43 { GB_REGION_CART_BANK0, "cart0", "ROM Bank", "Game Pak (32kiB)", GB_BASE_CART_BANK0, GB_SIZE_CART_BANK0 * 2, 0x800000, mCORE_MEMORY_READ | mCORE_MEMORY_MAPPED, 511 },
44 { GB_REGION_VRAM, "vram", "VRAM", "Video RAM (8kiB)", GB_BASE_VRAM, GB_BASE_VRAM + GB_SIZE_VRAM, GB_SIZE_VRAM, mCORE_MEMORY_RW | mCORE_MEMORY_MAPPED },
45 { GB_REGION_EXTERNAL_RAM, "sram", "SRAM", "External RAM (8kiB)", GB_BASE_EXTERNAL_RAM, GB_BASE_EXTERNAL_RAM + GB_SIZE_EXTERNAL_RAM, GB_SIZE_EXTERNAL_RAM * 4, mCORE_MEMORY_RW | mCORE_MEMORY_MAPPED, 3 },
46 { GB_REGION_WORKING_RAM_BANK0, "wram", "WRAM", "Working RAM (8kiB)", GB_BASE_WORKING_RAM_BANK0, GB_BASE_WORKING_RAM_BANK0 + GB_SIZE_WORKING_RAM_BANK0 * 2 , GB_SIZE_WORKING_RAM_BANK0 * 2, mCORE_MEMORY_RW | mCORE_MEMORY_MAPPED },
47 { GB_BASE_OAM, "oam", "OAM", "OBJ Attribute Memory", GB_BASE_OAM, GB_BASE_OAM + GB_SIZE_OAM, GB_SIZE_OAM, mCORE_MEMORY_RW | mCORE_MEMORY_MAPPED },
48 { GB_BASE_IO, "io", "MMIO", "Memory-Mapped I/O", GB_BASE_IO, GB_BASE_IO + GB_SIZE_IO, GB_SIZE_IO, mCORE_MEMORY_RW | mCORE_MEMORY_MAPPED },
49 { GB_BASE_HRAM, "hram", "HRAM", "High RAM", GB_BASE_HRAM, GB_BASE_HRAM + GB_SIZE_HRAM, GB_SIZE_HRAM, mCORE_MEMORY_RW | mCORE_MEMORY_MAPPED },
50};
51
52static const struct mCoreMemoryBlock _GBCMemoryBlocks[] = {
53 { -1, "mem", "All", "All", 0, 0x10000, 0x10000, mCORE_MEMORY_VIRTUAL },
54 { GB_REGION_CART_BANK0, "cart0", "ROM Bank", "Game Pak (32kiB)", GB_BASE_CART_BANK0, GB_SIZE_CART_BANK0 * 2, 0x800000, mCORE_MEMORY_READ | mCORE_MEMORY_MAPPED, 511 },
55 { GB_REGION_VRAM, "vram", "VRAM", "Video RAM (8kiB)", GB_BASE_VRAM, GB_BASE_VRAM + GB_SIZE_VRAM, GB_SIZE_VRAM * 2, mCORE_MEMORY_RW | mCORE_MEMORY_MAPPED, 1 },
56 { GB_REGION_EXTERNAL_RAM, "sram", "SRAM", "External RAM (8kiB)", GB_BASE_EXTERNAL_RAM, GB_BASE_EXTERNAL_RAM + GB_SIZE_EXTERNAL_RAM, GB_SIZE_EXTERNAL_RAM * 4, mCORE_MEMORY_RW | mCORE_MEMORY_MAPPED, 3 },
57 { GB_REGION_WORKING_RAM_BANK0, "wram", "WRAM", "Working RAM (8kiB)", GB_BASE_WORKING_RAM_BANK0, GB_BASE_WORKING_RAM_BANK0 + GB_SIZE_WORKING_RAM_BANK0 * 2, GB_SIZE_WORKING_RAM_BANK0 * 8, mCORE_MEMORY_RW | mCORE_MEMORY_MAPPED, 7 },
58 { GB_BASE_OAM, "oam", "OAM", "OBJ Attribute Memory", GB_BASE_OAM, GB_BASE_OAM + GB_SIZE_OAM, GB_SIZE_OAM, mCORE_MEMORY_RW | mCORE_MEMORY_MAPPED },
59 { GB_BASE_IO, "io", "MMIO", "Memory-Mapped I/O", GB_BASE_IO, GB_BASE_IO + GB_SIZE_IO, GB_SIZE_IO, mCORE_MEMORY_RW | mCORE_MEMORY_MAPPED },
60 { GB_BASE_HRAM, "hram", "HRAM", "High RAM", GB_BASE_HRAM, GB_BASE_HRAM + GB_SIZE_HRAM, GB_SIZE_HRAM, mCORE_MEMORY_RW | mCORE_MEMORY_MAPPED },
61};
62
63struct mVideoLogContext;
64struct GBCore {
65 struct mCore d;
66 struct GBVideoSoftwareRenderer renderer;
67 struct GBVideoProxyRenderer proxyRenderer;
68 struct mVideoLogContext* logContext;
69 struct mCoreCallbacks logCallbacks;
70 uint8_t keys;
71 struct mCPUComponent* components[CPU_COMPONENT_MAX];
72 const struct Configuration* overrides;
73 struct mDebuggerPlatform* debuggerPlatform;
74 struct mCheatDevice* cheatDevice;
75};
76
77static bool _GBCoreInit(struct mCore* core) {
78 struct GBCore* gbcore = (struct GBCore*) core;
79
80 struct LR35902Core* cpu = anonymousMemoryMap(sizeof(struct LR35902Core));
81 struct GB* gb = anonymousMemoryMap(sizeof(struct GB));
82 if (!cpu || !gb) {
83 free(cpu);
84 free(gb);
85 return false;
86 }
87 core->cpu = cpu;
88 core->board = gb;
89 core->timing = &gb->timing;
90 gbcore->overrides = NULL;
91 gbcore->debuggerPlatform = NULL;
92 gbcore->cheatDevice = NULL;
93
94 GBCreate(gb);
95 memset(gbcore->components, 0, sizeof(gbcore->components));
96 LR35902SetComponents(cpu, &gb->d, CPU_COMPONENT_MAX, gbcore->components);
97 LR35902Init(cpu);
98 mRTCGenericSourceInit(&core->rtc, core);
99 gb->memory.rtc = &core->rtc.d;
100
101 GBVideoSoftwareRendererCreate(&gbcore->renderer);
102 gbcore->renderer.outputBuffer = NULL;
103
104 gbcore->keys = 0;
105 gb->keySource = &gbcore->keys;
106
107#if !defined(MINIMAL_CORE) || MINIMAL_CORE < 2
108 mDirectorySetInit(&core->dirs);
109#endif
110
111 return true;
112}
113
114static void _GBCoreDeinit(struct mCore* core) {
115 LR35902Deinit(core->cpu);
116 GBDestroy(core->board);
117 mappedMemoryFree(core->cpu, sizeof(struct LR35902Core));
118 mappedMemoryFree(core->board, sizeof(struct GB));
119#if defined USE_DEBUGGERS && (!defined(MINIMAL_CORE) || MINIMAL_CORE < 2)
120 mDirectorySetDeinit(&core->dirs);
121 if (core->symbolTable) {
122 mDebuggerSymbolTableDestroy(core->symbolTable);
123 }
124#endif
125
126 struct GBCore* gbcore = (struct GBCore*) core;
127 free(gbcore->debuggerPlatform);
128 if (gbcore->cheatDevice) {
129 mCheatDeviceDestroy(gbcore->cheatDevice);
130 }
131 free(gbcore->cheatDevice);
132 mCoreConfigFreeOpts(&core->opts);
133 free(core);
134}
135
136static enum mPlatform _GBCorePlatform(const struct mCore* core) {
137 UNUSED(core);
138 return PLATFORM_GB;
139}
140
141static bool _GBCoreSupportsFeature(const struct mCore* core, enum mCoreFeature feature) {
142 UNUSED(core);
143 switch (feature) {
144 default:
145 return false;
146 }
147}
148
149static void _GBCoreSetSync(struct mCore* core, struct mCoreSync* sync) {
150 struct GB* gb = core->board;
151 gb->sync = sync;
152}
153
154static void _GBCoreLoadConfig(struct mCore* core, const struct mCoreConfig* config) {
155 UNUSED(config);
156
157 struct GB* gb = core->board;
158 if (core->opts.mute) {
159 gb->audio.masterVolume = 0;
160 } else {
161 gb->audio.masterVolume = core->opts.volume;
162 }
163 gb->video.frameskip = core->opts.frameskip;
164
165 int color;
166 if (mCoreConfigGetIntValue(config, "gb.pal[0]", &color)) {
167 GBVideoSetPalette(&gb->video, 0, color);
168 }
169 if (mCoreConfigGetIntValue(config, "gb.pal[1]", &color)) {
170 GBVideoSetPalette(&gb->video, 1, color);
171 }
172 if (mCoreConfigGetIntValue(config, "gb.pal[2]", &color)) {
173 GBVideoSetPalette(&gb->video, 2, color);
174 }
175 if (mCoreConfigGetIntValue(config, "gb.pal[3]", &color)) {
176 GBVideoSetPalette(&gb->video, 3, color);
177 }
178 if (mCoreConfigGetIntValue(config, "gb.pal[4]", &color)) {
179 GBVideoSetPalette(&gb->video, 4, color);
180 }
181 if (mCoreConfigGetIntValue(config, "gb.pal[5]", &color)) {
182 GBVideoSetPalette(&gb->video, 5, color);
183 }
184 if (mCoreConfigGetIntValue(config, "gb.pal[6]", &color)) {
185 GBVideoSetPalette(&gb->video, 6, color);
186 }
187 if (mCoreConfigGetIntValue(config, "gb.pal[7]", &color)) {
188 GBVideoSetPalette(&gb->video, 7, color);
189 }
190 if (mCoreConfigGetIntValue(config, "gb.pal[8]", &color)) {
191 GBVideoSetPalette(&gb->video, 8, color);
192 }
193 if (mCoreConfigGetIntValue(config, "gb.pal[9]", &color)) {
194 GBVideoSetPalette(&gb->video, 9, color);
195 }
196 if (mCoreConfigGetIntValue(config, "gb.pal[10]", &color)) {
197 GBVideoSetPalette(&gb->video, 10, color);
198 }
199 if (mCoreConfigGetIntValue(config, "gb.pal[11]", &color)) {
200 GBVideoSetPalette(&gb->video, 11, color);
201 }
202
203 mCoreConfigCopyValue(&core->config, config, "gb.bios");
204 mCoreConfigCopyValue(&core->config, config, "sgb.bios");
205 mCoreConfigCopyValue(&core->config, config, "gbc.bios");
206 mCoreConfigCopyValue(&core->config, config, "gb.model");
207 mCoreConfigCopyValue(&core->config, config, "sgb.model");
208 mCoreConfigCopyValue(&core->config, config, "cgb.model");
209 mCoreConfigCopyValue(&core->config, config, "useCgbColors");
210 mCoreConfigCopyValue(&core->config, config, "allowOpposingDirections");
211
212 int fakeBool = 0;
213 mCoreConfigGetIntValue(config, "allowOpposingDirections", &fakeBool);
214 gb->allowOpposingDirections = fakeBool;
215
216 if (mCoreConfigGetIntValue(config, "sgb.borders", &fakeBool)) {
217 gb->video.sgbBorders = fakeBool;
218 gb->video.renderer->enableSGBBorder(gb->video.renderer, fakeBool);
219 }
220
221#if !defined(MINIMAL_CORE) || MINIMAL_CORE < 2
222 struct GBCore* gbcore = (struct GBCore*) core;
223 gbcore->overrides = mCoreConfigGetOverridesConst(config);
224#endif
225}
226
227static void _GBCoreDesiredVideoDimensions(struct mCore* core, unsigned* width, unsigned* height) {
228 struct GB* gb = core->board;
229 if (gb && (!(gb->model & GB_MODEL_SGB) || !gb->video.sgbBorders)) {
230 *width = GB_VIDEO_HORIZONTAL_PIXELS;
231 *height = GB_VIDEO_VERTICAL_PIXELS;
232 } else {
233 *width = 256;
234 *height = 224;
235 }
236}
237
238static void _GBCoreSetVideoBuffer(struct mCore* core, color_t* buffer, size_t stride) {
239 struct GBCore* gbcore = (struct GBCore*) core;
240 gbcore->renderer.outputBuffer = buffer;
241 gbcore->renderer.outputBufferStride = stride;
242}
243
244static void _GBCoreSetVideoGLTex(struct mCore* core, unsigned texid) {
245 UNUSED(core);
246 UNUSED(texid);
247}
248
249static void _GBCoreGetPixels(struct mCore* core, const void** buffer, size_t* stride) {
250 struct GBCore* gbcore = (struct GBCore*) core;
251 gbcore->renderer.d.getPixels(&gbcore->renderer.d, stride, buffer);
252}
253
254static void _GBCorePutPixels(struct mCore* core, const void* buffer, size_t stride) {
255 struct GBCore* gbcore = (struct GBCore*) core;
256 gbcore->renderer.d.putPixels(&gbcore->renderer.d, stride, buffer);
257}
258
259static struct blip_t* _GBCoreGetAudioChannel(struct mCore* core, int ch) {
260 struct GB* gb = core->board;
261 switch (ch) {
262 case 0:
263 return gb->audio.left;
264 case 1:
265 return gb->audio.right;
266 default:
267 return NULL;
268 }
269}
270
271static void _GBCoreSetAudioBufferSize(struct mCore* core, size_t samples) {
272 struct GB* gb = core->board;
273 GBAudioResizeBuffer(&gb->audio, samples);
274}
275
276static size_t _GBCoreGetAudioBufferSize(struct mCore* core) {
277 struct GB* gb = core->board;
278 return gb->audio.samples;
279}
280
281static void _GBCoreAddCoreCallbacks(struct mCore* core, struct mCoreCallbacks* coreCallbacks) {
282 struct GB* gb = core->board;
283 *mCoreCallbacksListAppend(&gb->coreCallbacks) = *coreCallbacks;
284}
285
286static void _GBCoreClearCoreCallbacks(struct mCore* core) {
287 struct GB* gb = core->board;
288 mCoreCallbacksListClear(&gb->coreCallbacks);
289}
290
291static void _GBCoreSetAVStream(struct mCore* core, struct mAVStream* stream) {
292 struct GB* gb = core->board;
293 gb->stream = stream;
294 if (stream && stream->videoDimensionsChanged) {
295 unsigned width, height;
296 core->desiredVideoDimensions(core, &width, &height);
297 stream->videoDimensionsChanged(stream, width, height);
298 }
299}
300
301static bool _GBCoreLoadROM(struct mCore* core, struct VFile* vf) {
302 return GBLoadROM(core->board, vf);
303}
304
305static bool _GBCoreLoadBIOS(struct mCore* core, struct VFile* vf, int type) {
306 UNUSED(type);
307 GBLoadBIOS(core->board, vf);
308 return true;
309}
310
311static bool _GBCoreLoadSave(struct mCore* core, struct VFile* vf) {
312 return GBLoadSave(core->board, vf);
313}
314
315static bool _GBCoreLoadTemporarySave(struct mCore* core, struct VFile* vf) {
316 struct GB* gb = core->board;
317 GBSavedataMask(gb, vf, false);
318 return true; // TODO: Return a real value
319}
320
321static bool _GBCoreLoadPatch(struct mCore* core, struct VFile* vf) {
322 if (!vf) {
323 return false;
324 }
325 struct Patch patch;
326 if (!loadPatch(vf, &patch)) {
327 return false;
328 }
329 GBApplyPatch(core->board, &patch);
330 return true;
331}
332
333static void _GBCoreUnloadROM(struct mCore* core) {
334 struct GBCore* gbcore = (struct GBCore*) core;
335 struct LR35902Core* cpu = core->cpu;
336 if (gbcore->cheatDevice) {
337 LR35902HotplugDetach(cpu, CPU_COMPONENT_CHEAT_DEVICE);
338 cpu->components[CPU_COMPONENT_CHEAT_DEVICE] = NULL;
339 mCheatDeviceDestroy(gbcore->cheatDevice);
340 gbcore->cheatDevice = NULL;
341 }
342 return GBUnloadROM(core->board);
343}
344
345static void _GBCoreChecksum(const struct mCore* core, void* data, enum mCoreChecksumType type) {
346 struct GB* gb = (struct GB*) core->board;
347 switch (type) {
348 case CHECKSUM_CRC32:
349 memcpy(data, &gb->romCrc32, sizeof(gb->romCrc32));
350 break;
351 }
352 return;
353}
354
355static void _GBCoreReset(struct mCore* core) {
356 struct GBCore* gbcore = (struct GBCore*) core;
357 struct GB* gb = (struct GB*) core->board;
358 if (gbcore->renderer.outputBuffer) {
359 GBVideoAssociateRenderer(&gb->video, &gbcore->renderer.d);
360 }
361
362 if (gb->memory.rom) {
363 int doColorOverride = 0;
364 mCoreConfigGetIntValue(&core->config, "useCgbColors", &doColorOverride);
365
366 struct GBCartridgeOverride override;
367 const struct GBCartridge* cart = (const struct GBCartridge*) &gb->memory.rom[0x100];
368 override.headerCrc32 = doCrc32(cart, sizeof(*cart));
369 if (GBOverrideFind(gbcore->overrides, &override) || (doColorOverride && GBOverrideColorFind(&override))) {
370 GBOverrideApply(gb, &override);
371 }
372 }
373
374 const char* modelGB = mCoreConfigGetValue(&core->config, "gb.model");
375 const char* modelCGB = mCoreConfigGetValue(&core->config, "cgb.model");
376 const char* modelSGB = mCoreConfigGetValue(&core->config, "sgb.model");
377 if (modelGB || modelCGB || modelSGB) {
378 GBDetectModel(gb);
379 if (gb->model == GB_MODEL_DMG && modelGB) {
380 gb->model = GBNameToModel(modelGB);
381 } else if ((gb->model & GB_MODEL_CGB) && modelCGB) {
382 gb->model = GBNameToModel(modelCGB);
383 } else if ((gb->model & GB_MODEL_SGB) && modelSGB) {
384 gb->model = GBNameToModel(modelSGB);
385 }
386 }
387
388#if !defined(MINIMAL_CORE) || MINIMAL_CORE < 2
389 if (!gb->biosVf && core->opts.useBios) {
390 struct VFile* bios = NULL;
391 bool found = false;
392 if (core->opts.bios) {
393 bios = VFileOpen(core->opts.bios, O_RDONLY);
394 if (bios && GBIsBIOS(bios)) {
395 found = true;
396 } else if (bios) {
397 bios->close(bios);
398 bios = NULL;
399 }
400 }
401 if (!found) {
402 GBDetectModel(gb);
403 const char* configPath = NULL;
404
405 switch (gb->model) {
406 case GB_MODEL_DMG:
407 case GB_MODEL_MGB: // TODO
408 configPath = mCoreConfigGetValue(&core->config, "gb.bios");
409 break;
410 case GB_MODEL_SGB:
411 case GB_MODEL_SGB2: // TODO
412 configPath = mCoreConfigGetValue(&core->config, "sgb.bios");
413 break;
414 case GB_MODEL_CGB:
415 case GB_MODEL_AGB:
416 configPath = mCoreConfigGetValue(&core->config, "gbc.bios");
417 break;
418 default:
419 break;
420 };
421 if (configPath) {
422 bios = VFileOpen(configPath, O_RDONLY);
423 }
424 if (bios && GBIsBIOS(bios)) {
425 found = true;
426 } else if (bios) {
427 bios->close(bios);
428 bios = NULL;
429 }
430 }
431 if (!found) {
432 char path[PATH_MAX];
433 mCoreConfigDirectory(path, PATH_MAX);
434 switch (gb->model) {
435 case GB_MODEL_DMG:
436 case GB_MODEL_MGB: // TODO
437 strncat(path, PATH_SEP "gb_bios.bin", PATH_MAX - strlen(path));
438 break;
439 case GB_MODEL_SGB:
440 case GB_MODEL_SGB2: // TODO
441 strncat(path, PATH_SEP "sgb_bios.bin", PATH_MAX - strlen(path));
442 break;
443 case GB_MODEL_CGB:
444 case GB_MODEL_AGB:
445 strncat(path, PATH_SEP "gbc_bios.bin", PATH_MAX - strlen(path));
446 break;
447 default:
448 break;
449 };
450 bios = VFileOpen(path, O_RDONLY);
451 if (bios && GBIsBIOS(bios)) {
452 found = true;
453 } else if (bios) {
454 bios->close(bios);
455 bios = NULL;
456 }
457 }
458 if (bios) {
459 GBLoadBIOS(gb, bios);
460 }
461 }
462#endif
463
464 LR35902Reset(core->cpu);
465
466 if (core->opts.skipBios) {
467 GBSkipBIOS(core->board);
468 }
469}
470
471static void _GBCoreRunFrame(struct mCore* core) {
472 struct GB* gb = core->board;
473 int32_t frameCounter = gb->video.frameCounter;
474 while (gb->video.frameCounter == frameCounter) {
475 LR35902Run(core->cpu);
476 }
477}
478
479static void _GBCoreRunLoop(struct mCore* core) {
480 LR35902Run(core->cpu);
481}
482
483static void _GBCoreStep(struct mCore* core) {
484 struct LR35902Core* cpu = core->cpu;
485 do {
486 LR35902Tick(cpu);
487 } while (cpu->executionState != LR35902_CORE_FETCH);
488}
489
490static size_t _GBCoreStateSize(struct mCore* core) {
491 UNUSED(core);
492 return sizeof(struct GBSerializedState);
493}
494
495static bool _GBCoreLoadState(struct mCore* core, const void* state) {
496 return GBDeserialize(core->board, state);
497}
498
499static bool _GBCoreSaveState(struct mCore* core, void* state) {
500 struct LR35902Core* cpu = core->cpu;
501 while (cpu->executionState != LR35902_CORE_FETCH) {
502 LR35902Tick(cpu);
503 }
504 GBSerialize(core->board, state);
505 return true;
506}
507
508static void _GBCoreSetKeys(struct mCore* core, uint32_t keys) {
509 struct GBCore* gbcore = (struct GBCore*) core;
510 gbcore->keys = keys;
511 GBTestKeypadIRQ(core->board);
512}
513
514static void _GBCoreAddKeys(struct mCore* core, uint32_t keys) {
515 struct GBCore* gbcore = (struct GBCore*) core;
516 gbcore->keys |= keys;
517 GBTestKeypadIRQ(core->board);
518}
519
520static void _GBCoreClearKeys(struct mCore* core, uint32_t keys) {
521 struct GBCore* gbcore = (struct GBCore*) core;
522 gbcore->keys &= ~keys;
523}
524
525static int32_t _GBCoreFrameCounter(const struct mCore* core) {
526 const struct GB* gb = core->board;
527 return gb->video.frameCounter;
528}
529
530static int32_t _GBCoreFrameCycles(const struct mCore* core) {
531 UNUSED(core);
532 return GB_VIDEO_TOTAL_LENGTH;
533}
534
535static int32_t _GBCoreFrequency(const struct mCore* core) {
536 UNUSED(core);
537 // TODO: GB differences
538 return DMG_LR35902_FREQUENCY;
539}
540
541static void _GBCoreGetGameTitle(const struct mCore* core, char* title) {
542 GBGetGameTitle(core->board, title);
543}
544
545static void _GBCoreGetGameCode(const struct mCore* core, char* title) {
546 GBGetGameCode(core->board, title);
547}
548
549static void _GBCoreSetPeripheral(struct mCore* core, int type, void* periph) {
550 struct GB* gb = core->board;
551 switch (type) {
552 case mPERIPH_ROTATION:
553 gb->memory.rotation = periph;
554 break;
555 case mPERIPH_RUMBLE:
556 gb->memory.rumble = periph;
557 break;
558 case mPERIPH_IMAGE_SOURCE:
559 gb->memory.cam = periph;
560 break;
561 default:
562 return;
563 }
564}
565
566static uint32_t _GBCoreBusRead8(struct mCore* core, uint32_t address) {
567 struct LR35902Core* cpu = core->cpu;
568 return cpu->memory.load8(cpu, address);
569}
570
571static uint32_t _GBCoreBusRead16(struct mCore* core, uint32_t address) {
572 struct LR35902Core* cpu = core->cpu;
573 return cpu->memory.load8(cpu, address) | (cpu->memory.load8(cpu, address + 1) << 8);
574}
575
576static uint32_t _GBCoreBusRead32(struct mCore* core, uint32_t address) {
577 struct LR35902Core* cpu = core->cpu;
578 return cpu->memory.load8(cpu, address) | (cpu->memory.load8(cpu, address + 1) << 8) |
579 (cpu->memory.load8(cpu, address + 2) << 16) | (cpu->memory.load8(cpu, address + 3) << 24);
580}
581
582static void _GBCoreBusWrite8(struct mCore* core, uint32_t address, uint8_t value) {
583 struct LR35902Core* cpu = core->cpu;
584 cpu->memory.store8(cpu, address, value);
585}
586
587static void _GBCoreBusWrite16(struct mCore* core, uint32_t address, uint16_t value) {
588 struct LR35902Core* cpu = core->cpu;
589 cpu->memory.store8(cpu, address, value);
590 cpu->memory.store8(cpu, address + 1, value >> 8);
591}
592
593static void _GBCoreBusWrite32(struct mCore* core, uint32_t address, uint32_t value) {
594 struct LR35902Core* cpu = core->cpu;
595 cpu->memory.store8(cpu, address, value);
596 cpu->memory.store8(cpu, address + 1, value >> 8);
597 cpu->memory.store8(cpu, address + 2, value >> 16);
598 cpu->memory.store8(cpu, address + 3, value >> 24);
599}
600
601static uint32_t _GBCoreRawRead8(struct mCore* core, uint32_t address, int segment) {
602 struct LR35902Core* cpu = core->cpu;
603 return GBView8(cpu, address, segment);
604}
605
606static uint32_t _GBCoreRawRead16(struct mCore* core, uint32_t address, int segment) {
607 struct LR35902Core* cpu = core->cpu;
608 return GBView8(cpu, address, segment) | (GBView8(cpu, address + 1, segment) << 8);
609}
610
611static uint32_t _GBCoreRawRead32(struct mCore* core, uint32_t address, int segment) {
612 struct LR35902Core* cpu = core->cpu;
613 return GBView8(cpu, address, segment) | (GBView8(cpu, address + 1, segment) << 8) |
614 (GBView8(cpu, address + 2, segment) << 16) | (GBView8(cpu, address + 3, segment) << 24);
615}
616
617static void _GBCoreRawWrite8(struct mCore* core, uint32_t address, int segment, uint8_t value) {
618 struct LR35902Core* cpu = core->cpu;
619 GBPatch8(cpu, address, value, NULL, segment);
620}
621
622static void _GBCoreRawWrite16(struct mCore* core, uint32_t address, int segment, uint16_t value) {
623 struct LR35902Core* cpu = core->cpu;
624 GBPatch8(cpu, address, value, NULL, segment);
625 GBPatch8(cpu, address + 1, value >> 8, NULL, segment);
626}
627
628static void _GBCoreRawWrite32(struct mCore* core, uint32_t address, int segment, uint32_t value) {
629 struct LR35902Core* cpu = core->cpu;
630 GBPatch8(cpu, address, value, NULL, segment);
631 GBPatch8(cpu, address + 1, value >> 8, NULL, segment);
632 GBPatch8(cpu, address + 2, value >> 16, NULL, segment);
633 GBPatch8(cpu, address + 3, value >> 24, NULL, segment);
634}
635
636size_t _GBListMemoryBlocks(const struct mCore* core, const struct mCoreMemoryBlock** blocks) {
637 const struct GB* gb = core->board;
638 switch (gb->model) {
639 case GB_MODEL_DMG:
640 case GB_MODEL_MGB:
641 case GB_MODEL_SGB:
642 case GB_MODEL_SGB2:
643 default:
644 *blocks = _GBMemoryBlocks;
645 return sizeof(_GBMemoryBlocks) / sizeof(*_GBMemoryBlocks);
646 case GB_MODEL_CGB:
647 case GB_MODEL_AGB:
648 *blocks = _GBCMemoryBlocks;
649 return sizeof(_GBCMemoryBlocks) / sizeof(*_GBCMemoryBlocks);
650 }
651}
652
653void* _GBGetMemoryBlock(struct mCore* core, size_t id, size_t* sizeOut) {
654 struct GB* gb = core->board;
655 bool isCgb = gb->model >= GB_MODEL_CGB;
656 switch (id) {
657 default:
658 return NULL;
659 case GB_REGION_CART_BANK0:
660 *sizeOut = gb->memory.romSize;
661 return gb->memory.rom;
662 case GB_REGION_VRAM:
663 *sizeOut = GB_SIZE_WORKING_RAM_BANK0 * (isCgb ? 1 : 2);
664 return gb->video.vram;
665 case GB_REGION_EXTERNAL_RAM:
666 *sizeOut = gb->sramSize;
667 return gb->memory.sram;
668 case GB_REGION_WORKING_RAM_BANK0:
669 *sizeOut = GB_SIZE_VRAM * (isCgb ? 8 : 2);
670 return gb->memory.wram;
671 case GB_BASE_OAM:
672 *sizeOut = GB_SIZE_OAM;
673 return gb->video.oam.raw;
674 case GB_BASE_HRAM:
675 *sizeOut = GB_SIZE_HRAM;
676 return gb->memory.hram;
677 }
678}
679
680#ifdef USE_DEBUGGERS
681static bool _GBCoreSupportsDebuggerType(struct mCore* core, enum mDebuggerType type) {
682 UNUSED(core);
683 switch (type) {
684 case DEBUGGER_CLI:
685 return true;
686 default:
687 return false;
688 }
689}
690
691static struct mDebuggerPlatform* _GBCoreDebuggerPlatform(struct mCore* core) {
692 struct GBCore* gbcore = (struct GBCore*) core;
693 struct GB* gb = core->board;
694 if (!gbcore->debuggerPlatform) {
695 struct LR35902Debugger* platform = (struct LR35902Debugger*) GBDebuggerCreate(gb);
696 gbcore->debuggerPlatform = &platform->d;
697 }
698 return gbcore->debuggerPlatform;
699}
700
701static struct CLIDebuggerSystem* _GBCoreCliDebuggerSystem(struct mCore* core) {
702 return GBCLIDebuggerCreate(core);
703}
704
705static void _GBCoreAttachDebugger(struct mCore* core, struct mDebugger* debugger) {
706 struct LR35902Core* cpu = core->cpu;
707 if (core->debugger) {
708 LR35902HotplugDetach(cpu, CPU_COMPONENT_DEBUGGER);
709 }
710 cpu->components[CPU_COMPONENT_DEBUGGER] = &debugger->d;
711 LR35902HotplugAttach(cpu, CPU_COMPONENT_DEBUGGER);
712 core->debugger = debugger;
713}
714
715static void _GBCoreDetachDebugger(struct mCore* core) {
716 struct LR35902Core* cpu = core->cpu;
717 if (core->debugger) {
718 LR35902HotplugDetach(cpu, CPU_COMPONENT_DEBUGGER);
719 }
720 cpu->components[CPU_COMPONENT_DEBUGGER] = NULL;
721 core->debugger = NULL;
722}
723
724static void _GBCoreLoadSymbols(struct mCore* core, struct VFile* vf) {
725 core->symbolTable = mDebuggerSymbolTableCreate();
726#if !defined(MINIMAL_CORE) || MINIMAL_CORE < 2
727 if (!vf) {
728 vf = mDirectorySetOpenSuffix(&core->dirs, core->dirs.base, ".sym", O_RDONLY);
729 }
730#endif
731 if (!vf) {
732 return;
733 }
734 GBLoadSymbols(core->symbolTable, vf);
735}
736
737static bool _GBCoreLookupIdentifier(struct mCore* core, const char* name, int32_t* value, int* segment) {
738 UNUSED(core);
739 *segment = -1;
740 int i;
741 for (i = 0; i < REG_MAX; ++i) {
742 const char* reg = GBIORegisterNames[i];
743 if (reg && strcasecmp(reg, name) == 0) {
744 *value = GB_BASE_IO | i;
745 return true;
746 }
747 }
748 return false;
749}
750#endif
751
752static struct mCheatDevice* _GBCoreCheatDevice(struct mCore* core) {
753 struct GBCore* gbcore = (struct GBCore*) core;
754 if (!gbcore->cheatDevice) {
755 gbcore->cheatDevice = GBCheatDeviceCreate();
756 ((struct LR35902Core*) core->cpu)->components[CPU_COMPONENT_CHEAT_DEVICE] = &gbcore->cheatDevice->d;
757 LR35902HotplugAttach(core->cpu, CPU_COMPONENT_CHEAT_DEVICE);
758 gbcore->cheatDevice->p = core;
759 }
760 return gbcore->cheatDevice;
761}
762
763static size_t _GBCoreSavedataClone(struct mCore* core, void** sram) {
764 struct GB* gb = core->board;
765 struct VFile* vf = gb->sramVf;
766 if (vf) {
767 *sram = malloc(vf->size(vf));
768 vf->seek(vf, 0, SEEK_SET);
769 return vf->read(vf, *sram, vf->size(vf));
770 }
771 *sram = malloc(gb->sramSize);
772 memcpy(*sram, gb->memory.sram, gb->sramSize);
773 return gb->sramSize;
774}
775
776static bool _GBCoreSavedataRestore(struct mCore* core, const void* sram, size_t size, bool writeback) {
777 struct GB* gb = core->board;
778 if (!writeback) {
779 struct VFile* vf = VFileMemChunk(sram, size);
780 GBSavedataMask(gb, vf, true);
781 return true;
782 }
783 struct VFile* vf = gb->sramVf;
784 if (vf) {
785 vf->seek(vf, 0, SEEK_SET);
786 return vf->write(vf, sram, size) > 0;
787 }
788 if (size > 0x20000) {
789 size = 0x20000;
790 }
791 GBResizeSram(gb, size);
792 memcpy(gb->memory.sram, sram, size);
793 return true;
794}
795
796static size_t _GBCoreListVideoLayers(const struct mCore* core, const struct mCoreChannelInfo** info) {
797 UNUSED(core);
798 if (info) {
799 *info = _GBVideoLayers;
800 }
801 return sizeof(_GBVideoLayers) / sizeof(*_GBVideoLayers);
802}
803
804static size_t _GBCoreListAudioChannels(const struct mCore* core, const struct mCoreChannelInfo** info) {
805 UNUSED(core);
806 if (info) {
807 *info = _GBAudioChannels;
808 }
809 return sizeof(_GBAudioChannels) / sizeof(*_GBAudioChannels);
810}
811
812static void _GBCoreEnableVideoLayer(struct mCore* core, size_t id, bool enable) {
813 struct GB* gb = core->board;
814 switch (id) {
815 case 0:
816 gb->video.renderer->disableBG = !enable;
817 break;
818 case 1:
819 gb->video.renderer->disableWIN = !enable;
820 break;
821 case 2:
822 gb->video.renderer->disableOBJ = !enable;
823 break;
824 default:
825 break;
826 }
827}
828
829static void _GBCoreEnableAudioChannel(struct mCore* core, size_t id, bool enable) {
830 struct GB* gb = core->board;
831 switch (id) {
832 case 0:
833 case 1:
834 case 2:
835 case 3:
836 gb->audio.forceDisableCh[id] = !enable;
837 break;
838 default:
839 break;
840 }
841}
842
843static void _GBCoreAdjustVideoLayer(struct mCore* core, size_t id, int32_t x, int32_t y) {
844 struct GBCore* gbcore = (struct GBCore*) core;
845 switch (id) {
846 case 0:
847 gbcore->renderer.offsetScx = x;
848 gbcore->renderer.offsetScy = y;
849 break;
850 case 1:
851 gbcore->renderer.offsetWx = x;
852 gbcore->renderer.offsetWy = y;
853 break;
854 case 2:
855 gbcore->renderer.objOffsetX = x;
856 gbcore->renderer.objOffsetY = y;
857 break;
858 default:
859 return;
860 }
861}
862
863#ifndef MINIMAL_CORE
864static void _GBCoreStartVideoLog(struct mCore* core, struct mVideoLogContext* context) {
865 struct GBCore* gbcore = (struct GBCore*) core;
866 struct GB* gb = core->board;
867 gbcore->logContext = context;
868
869 int channelId = mVideoLoggerAddChannel(context);
870 gbcore->proxyRenderer.logger = malloc(sizeof(struct mVideoLogger));
871 mVideoLoggerRendererCreate(gbcore->proxyRenderer.logger, false);
872 mVideoLoggerAttachChannel(gbcore->proxyRenderer.logger, context, channelId);
873 gbcore->proxyRenderer.logger->block = false;
874
875 GBVideoProxyRendererCreate(&gbcore->proxyRenderer, &gbcore->renderer.d);
876 GBVideoProxyRendererShim(&gb->video, &gbcore->proxyRenderer);
877}
878
879static void _GBCoreEndVideoLog(struct mCore* core) {
880 struct GBCore* gbcore = (struct GBCore*) core;
881 struct GB* gb = core->board;
882 if (gbcore->proxyRenderer.logger) {
883 GBVideoProxyRendererUnshim(&gb->video, &gbcore->proxyRenderer);
884 free(gbcore->proxyRenderer.logger);
885 gbcore->proxyRenderer.logger = NULL;
886 }
887}
888#endif
889
890struct mCore* GBCoreCreate(void) {
891 struct GBCore* gbcore = malloc(sizeof(*gbcore));
892 struct mCore* core = &gbcore->d;
893 memset(&core->opts, 0, sizeof(core->opts));
894 core->cpu = NULL;
895 core->board = NULL;
896 core->debugger = NULL;
897 core->symbolTable = NULL;
898 core->init = _GBCoreInit;
899 core->deinit = _GBCoreDeinit;
900 core->platform = _GBCorePlatform;
901 core->supportsFeature = _GBCoreSupportsFeature;
902 core->setSync = _GBCoreSetSync;
903 core->loadConfig = _GBCoreLoadConfig;
904 core->desiredVideoDimensions = _GBCoreDesiredVideoDimensions;
905 core->setVideoBuffer = _GBCoreSetVideoBuffer;
906 core->setVideoGLTex = _GBCoreSetVideoGLTex;
907 core->getPixels = _GBCoreGetPixels;
908 core->putPixels = _GBCorePutPixels;
909 core->getAudioChannel = _GBCoreGetAudioChannel;
910 core->setAudioBufferSize = _GBCoreSetAudioBufferSize;
911 core->getAudioBufferSize = _GBCoreGetAudioBufferSize;
912 core->setAVStream = _GBCoreSetAVStream;
913 core->addCoreCallbacks = _GBCoreAddCoreCallbacks;
914 core->clearCoreCallbacks = _GBCoreClearCoreCallbacks;
915 core->isROM = GBIsROM;
916 core->loadROM = _GBCoreLoadROM;
917 core->loadBIOS = _GBCoreLoadBIOS;
918 core->loadSave = _GBCoreLoadSave;
919 core->loadTemporarySave = _GBCoreLoadTemporarySave;
920 core->loadPatch = _GBCoreLoadPatch;
921 core->unloadROM = _GBCoreUnloadROM;
922 core->checksum = _GBCoreChecksum;
923 core->reset = _GBCoreReset;
924 core->runFrame = _GBCoreRunFrame;
925 core->runLoop = _GBCoreRunLoop;
926 core->step = _GBCoreStep;
927 core->stateSize = _GBCoreStateSize;
928 core->loadState = _GBCoreLoadState;
929 core->saveState = _GBCoreSaveState;
930 core->setKeys = _GBCoreSetKeys;
931 core->addKeys = _GBCoreAddKeys;
932 core->clearKeys = _GBCoreClearKeys;
933 core->frameCounter = _GBCoreFrameCounter;
934 core->frameCycles = _GBCoreFrameCycles;
935 core->frequency = _GBCoreFrequency;
936 core->getGameTitle = _GBCoreGetGameTitle;
937 core->getGameCode = _GBCoreGetGameCode;
938 core->setPeripheral = _GBCoreSetPeripheral;
939 core->busRead8 = _GBCoreBusRead8;
940 core->busRead16 = _GBCoreBusRead16;
941 core->busRead32 = _GBCoreBusRead32;
942 core->busWrite8 = _GBCoreBusWrite8;
943 core->busWrite16 = _GBCoreBusWrite16;
944 core->busWrite32 = _GBCoreBusWrite32;
945 core->rawRead8 = _GBCoreRawRead8;
946 core->rawRead16 = _GBCoreRawRead16;
947 core->rawRead32 = _GBCoreRawRead32;
948 core->rawWrite8 = _GBCoreRawWrite8;
949 core->rawWrite16 = _GBCoreRawWrite16;
950 core->rawWrite32 = _GBCoreRawWrite32;
951 core->listMemoryBlocks = _GBListMemoryBlocks;
952 core->getMemoryBlock = _GBGetMemoryBlock;
953#ifdef USE_DEBUGGERS
954 core->supportsDebuggerType = _GBCoreSupportsDebuggerType;
955 core->debuggerPlatform = _GBCoreDebuggerPlatform;
956 core->cliDebuggerSystem = _GBCoreCliDebuggerSystem;
957 core->attachDebugger = _GBCoreAttachDebugger;
958 core->detachDebugger = _GBCoreDetachDebugger;
959 core->loadSymbols = _GBCoreLoadSymbols;
960 core->lookupIdentifier = _GBCoreLookupIdentifier;
961#endif
962 core->cheatDevice = _GBCoreCheatDevice;
963 core->savedataClone = _GBCoreSavedataClone;
964 core->savedataRestore = _GBCoreSavedataRestore;
965 core->listVideoLayers = _GBCoreListVideoLayers;
966 core->listAudioChannels = _GBCoreListAudioChannels;
967 core->enableVideoLayer = _GBCoreEnableVideoLayer;
968 core->enableAudioChannel = _GBCoreEnableAudioChannel;
969 core->adjustVideoLayer = _GBCoreAdjustVideoLayer;
970#ifndef MINIMAL_CORE
971 core->startVideoLog = _GBCoreStartVideoLog;
972 core->endVideoLog = _GBCoreEndVideoLog;
973#endif
974 return core;
975}
976
977#ifndef MINIMAL_CORE
978static void _GBVLPStartFrameCallback(void *context) {
979 struct mCore* core = context;
980 struct GBCore* gbcore = (struct GBCore*) core;
981 struct GB* gb = core->board;
982
983 if (!mVideoLoggerRendererRun(gbcore->proxyRenderer.logger, true)) {
984 GBVideoProxyRendererUnshim(&gb->video, &gbcore->proxyRenderer);
985 mVideoLogContextRewind(gbcore->logContext, core);
986 GBVideoProxyRendererShim(&gb->video, &gbcore->proxyRenderer);
987 gb->earlyExit = true;
988 }
989}
990
991static bool _GBVLPInit(struct mCore* core) {
992 struct GBCore* gbcore = (struct GBCore*) core;
993 if (!_GBCoreInit(core)) {
994 return false;
995 }
996 gbcore->proxyRenderer.logger = malloc(sizeof(struct mVideoLogger));
997 mVideoLoggerRendererCreate(gbcore->proxyRenderer.logger, true);
998 GBVideoProxyRendererCreate(&gbcore->proxyRenderer, NULL);
999 memset(&gbcore->logCallbacks, 0, sizeof(gbcore->logCallbacks));
1000 gbcore->logCallbacks.videoFrameStarted = _GBVLPStartFrameCallback;
1001 gbcore->logCallbacks.context = core;
1002 core->addCoreCallbacks(core, &gbcore->logCallbacks);
1003 core->videoLogger = gbcore->proxyRenderer.logger;
1004 return true;
1005}
1006
1007static void _GBVLPDeinit(struct mCore* core) {
1008 struct GBCore* gbcore = (struct GBCore*) core;
1009 if (gbcore->logContext) {
1010 mVideoLogContextDestroy(core, gbcore->logContext);
1011 }
1012 _GBCoreDeinit(core);
1013}
1014
1015static void _GBVLPReset(struct mCore* core) {
1016 struct GBCore* gbcore = (struct GBCore*) core;
1017 struct GB* gb = (struct GB*) core->board;
1018 if (gb->video.renderer == &gbcore->proxyRenderer.d) {
1019 GBVideoProxyRendererUnshim(&gb->video, &gbcore->proxyRenderer);
1020 } else if (gbcore->renderer.outputBuffer) {
1021 struct GBVideoRenderer* renderer = &gbcore->renderer.d;
1022 GBVideoAssociateRenderer(&gb->video, renderer);
1023 }
1024
1025 LR35902Reset(core->cpu);
1026 mVideoLogContextRewind(gbcore->logContext, core);
1027 GBVideoProxyRendererShim(&gb->video, &gbcore->proxyRenderer);
1028
1029 // Make sure CPU loop never spins
1030 GBHalt(gb->cpu);
1031 gb->memory.ie = 0;
1032 gb->memory.ime = false;
1033}
1034
1035static bool _GBVLPLoadROM(struct mCore* core, struct VFile* vf) {
1036 struct GBCore* gbcore = (struct GBCore*) core;
1037 gbcore->logContext = mVideoLogContextCreate(NULL);
1038 if (!mVideoLogContextLoad(gbcore->logContext, vf)) {
1039 mVideoLogContextDestroy(core, gbcore->logContext);
1040 gbcore->logContext = NULL;
1041 return false;
1042 }
1043 mVideoLoggerAttachChannel(gbcore->proxyRenderer.logger, gbcore->logContext, 0);
1044 return true;
1045}
1046
1047static bool _GBVLPLoadState(struct mCore* core, const void* buffer) {
1048 struct GB* gb = (struct GB*) core->board;
1049 const struct GBSerializedState* state = buffer;
1050
1051 gb->timing.root = NULL;
1052 gb->model = state->model;
1053
1054 gb->cpu->pc = GB_BASE_HRAM;
1055 gb->cpu->memory.setActiveRegion(gb->cpu, gb->cpu->pc);
1056
1057 GBVideoReset(&gb->video);
1058 GBVideoDeserialize(&gb->video, state);
1059 GBIODeserialize(gb, state);
1060 GBAudioReset(&gb->audio);
1061
1062 // Make sure CPU loop never spins
1063 GBHalt(gb->cpu);
1064 gb->memory.ie = 0;
1065 gb->memory.ime = false;
1066
1067 return true;
1068}
1069
1070static bool _returnTrue(struct VFile* vf) {
1071 UNUSED(vf);
1072 return true;
1073}
1074
1075struct mCore* GBVideoLogPlayerCreate(void) {
1076 struct mCore* core = GBCoreCreate();
1077 core->init = _GBVLPInit;
1078 core->deinit = _GBVLPDeinit;
1079 core->reset = _GBVLPReset;
1080 core->loadROM = _GBVLPLoadROM;
1081 core->loadState = _GBVLPLoadState;
1082 core->isROM = _returnTrue;
1083 return core;
1084}
1085#else
1086struct mCore* GBVideoLogPlayerCreate(void) {
1087 return false;
1088}
1089#endif