#include "gba.h"
#include "gba-bios.h"
#include "gba-io.h"
#include "gba-rr.h"
#include "gba-sio.h"
#include "gba-thread.h"
#include "util/crc32.h"
#include "util/memory.h"
#include "util/patch.h"
#include "util/vfs.h"
const uint32_t GBA_ARM7TDMI_FREQUENCY = 0x1000000;
const uint32_t GBA_COMPONENT_MAGIC = 0x1000000;
static const size_t GBA_ROM_MAGIC_OFFSET = 4;
static const uint8_t GBA_ROM_MAGIC[] = { 0x24, 0xFF, 0xAE, 0x51, 0x69, 0x9A, 0xA2, 0x21 };
enum {
SP_BASE_SYSTEM = 0x03FFFF00,
SP_BASE_IRQ = 0x03FFFFA0,
SP_BASE_SUPERVISOR = 0x03FFFFE0
};
struct GBACartridgeOverride {
const char id[4];
enum SavedataType type;
int gpio;
uint32_t busyLoop;
};
static const struct GBACartridgeOverride _overrides[] = {
// Boktai: The Sun is in Your Hand
{ "U3IE", SAVEDATA_EEPROM, GPIO_RTC | GPIO_LIGHT_SENSOR, -1 },
{ "U3IP", SAVEDATA_EEPROM, GPIO_RTC | GPIO_LIGHT_SENSOR, -1 },
// Boktai 2: Solar Boy Django
{ "U32E", SAVEDATA_EEPROM, GPIO_RTC | GPIO_LIGHT_SENSOR, -1 },
{ "U32P", SAVEDATA_EEPROM, GPIO_RTC | GPIO_LIGHT_SENSOR, -1 },
// Drill Dozer
{ "V49J", SAVEDATA_SRAM, GPIO_RUMBLE, -1 },
{ "V49E", SAVEDATA_SRAM, GPIO_RUMBLE, -1 },
// Final Fantasy Tactics Advance
{ "AFXE", SAVEDATA_FLASH512, GPIO_NONE, 0x8000418 },
// Mega Man Battle Network
{ "AREE", SAVEDATA_SRAM, GPIO_NONE, 0x800032E },
// Pokemon Ruby
{ "AXVJ", SAVEDATA_FLASH1M, GPIO_RTC, -1 },
{ "AXVE", SAVEDATA_FLASH1M, GPIO_RTC, -1 },
{ "AXVP", SAVEDATA_FLASH1M, GPIO_RTC, -1 },
{ "AXVI", SAVEDATA_FLASH1M, GPIO_RTC, -1 },
{ "AXVS", SAVEDATA_FLASH1M, GPIO_RTC, -1 },
{ "AXVD", SAVEDATA_FLASH1M, GPIO_RTC, -1 },
{ "AXVF", SAVEDATA_FLASH1M, GPIO_RTC, -1 },
// Pokemon Sapphire
{ "AXPJ", SAVEDATA_FLASH1M, GPIO_RTC, -1 },
{ "AXPE", SAVEDATA_FLASH1M, GPIO_RTC, -1 },
{ "AXPP", SAVEDATA_FLASH1M, GPIO_RTC, -1 },
{ "AXPI", SAVEDATA_FLASH1M, GPIO_RTC, -1 },
{ "AXPS", SAVEDATA_FLASH1M, GPIO_RTC, -1 },
{ "AXPD", SAVEDATA_FLASH1M, GPIO_RTC, -1 },
{ "AXPF", SAVEDATA_FLASH1M, GPIO_RTC, -1 },
// Pokemon Emerald
{ "BPEJ", SAVEDATA_FLASH1M, GPIO_RTC, -1 },
{ "BPEE", SAVEDATA_FLASH1M, GPIO_RTC, -1 },
{ "BPEP", SAVEDATA_FLASH1M, GPIO_RTC, -1 },
{ "BPEI", SAVEDATA_FLASH1M, GPIO_RTC, -1 },
{ "BPES", SAVEDATA_FLASH1M, GPIO_RTC, -1 },
{ "BPED", SAVEDATA_FLASH1M, GPIO_RTC, -1 },
{ "BPEF", SAVEDATA_FLASH1M, GPIO_RTC, -1 },
// Pokemon FireRed
{ "BPRJ", SAVEDATA_FLASH1M, GPIO_NONE, -1 },
{ "BPRE", SAVEDATA_FLASH1M, GPIO_NONE, -1 },
{ "BPRP", SAVEDATA_FLASH1M, GPIO_NONE, -1 },
// Pokemon LeafGreen
{ "BPGJ", SAVEDATA_FLASH1M, GPIO_NONE, -1 },
{ "BPGE", SAVEDATA_FLASH1M, GPIO_NONE, -1 },
{ "BPGP", SAVEDATA_FLASH1M, GPIO_NONE, -1 },
// RockMan EXE 4.5 - Real Operation
{ "BR4J", SAVEDATA_FLASH512, GPIO_RTC, -1 },
// Super Mario Advance 4
{ "AX4J", SAVEDATA_FLASH1M, GPIO_NONE, -1 },
{ "AX4E", SAVEDATA_FLASH1M, GPIO_NONE, -1 },
{ "AX4P", SAVEDATA_FLASH1M, GPIO_NONE, -1 },
// Wario Ware Twisted
{ "RZWJ", SAVEDATA_SRAM, GPIO_RUMBLE | GPIO_GYRO, -1 },
{ "RZWE", SAVEDATA_SRAM, GPIO_RUMBLE | GPIO_GYRO, -1 },
{ "RZWP", SAVEDATA_SRAM, GPIO_RUMBLE | GPIO_GYRO, -1 },
{ { 0, 0, 0, 0 }, 0, 0, -1 }
};
static void GBAInit(struct ARMCore* cpu, struct ARMComponent* component);
static void GBAInterruptHandlerInit(struct ARMInterruptHandler* irqh);
static void GBAProcessEvents(struct ARMCore* cpu);
static int32_t GBATimersProcessEvents(struct GBA* gba, int32_t cycles);
static void GBAHitStub(struct ARMCore* cpu, uint32_t opcode);
static void GBAIllegal(struct ARMCore* cpu, uint32_t opcode);
static void _checkOverrides(struct GBA* gba, uint32_t code);
void GBACreate(struct GBA* gba) {
gba->d.id = GBA_COMPONENT_MAGIC;
gba->d.init = GBAInit;
gba->d.deinit = 0;
}
static void GBAInit(struct ARMCore* cpu, struct ARMComponent* component) {
struct GBA* gba = (struct GBA*) component;
gba->cpu = cpu;
gba->debugger = 0;
GBAInterruptHandlerInit(&cpu->irqh);
GBAMemoryInit(gba);
gba->video.p = gba;
GBAVideoInit(&gba->video);
gba->audio.p = gba;
GBAAudioInit(&gba->audio, GBA_AUDIO_SAMPLES);
GBAIOInit(gba);
gba->sio.p = gba;
GBASIOInit(&gba->sio);
gba->timersEnabled = 0;
memset(gba->timers, 0, sizeof(gba->timers));
gba->springIRQ = 0;
gba->keySource = 0;
gba->rotationSource = 0;
gba->rumble = 0;
gba->rr = 0;
gba->romVf = 0;
gba->biosVf = 0;
gba->logLevel = GBA_LOG_INFO | GBA_LOG_WARN | GBA_LOG_ERROR | GBA_LOG_FATAL;
gba->biosChecksum = GBAChecksum(gba->memory.bios, SIZE_BIOS);
}
void GBADestroy(struct GBA* gba) {
if (gba->pristineRom == gba->memory.rom) {
gba->memory.rom = 0;
}
if (gba->romVf) {
gba->romVf->unmap(gba->romVf, gba->pristineRom, gba->pristineRomSize);
}
if (gba->biosVf) {
gba->biosVf->unmap(gba->biosVf, gba->memory.bios, SIZE_BIOS);
}
GBAMemoryDeinit(gba);
GBAVideoDeinit(&gba->video);
GBAAudioDeinit(&gba->audio);
GBARRContextDestroy(gba);
}
void GBAInterruptHandlerInit(struct ARMInterruptHandler* irqh) {
irqh->reset = GBAReset;
irqh->processEvents = GBAProcessEvents;
irqh->swi16 = GBASwi16;
irqh->swi32 = GBASwi32;
irqh->hitIllegal = GBAIllegal;
irqh->readCPSR = GBATestIRQ;
irqh->hitStub = GBAHitStub;
}
void GBAReset(struct ARMCore* cpu) {
ARMSetPrivilegeMode(cpu, MODE_IRQ);
cpu->gprs[ARM_SP] = SP_BASE_IRQ;
ARMSetPrivilegeMode(cpu, MODE_SUPERVISOR);
cpu->gprs[ARM_SP] = SP_BASE_SUPERVISOR;
ARMSetPrivilegeMode(cpu, MODE_SYSTEM);
cpu->gprs[ARM_SP] = SP_BASE_SYSTEM;
struct GBA* gba = (struct GBA*) cpu->master;
if (!GBARRIsPlaying(gba->rr) && !GBARRIsRecording(gba->rr)) {
GBASavedataUnmask(&gba->memory.savedata);
}
GBAMemoryReset(gba);
GBAVideoReset(&gba->video);
GBAAudioReset(&gba->audio);
GBAIOInit(gba);
}
static void GBAProcessEvents(struct ARMCore* cpu) {
do {
struct GBA* gba = (struct GBA*) cpu->master;
int32_t cycles = cpu->cycles;
int32_t nextEvent = INT_MAX;
int32_t testEvent;
if (gba->springIRQ) {
ARMRaiseIRQ(cpu);
gba->springIRQ = 0;
}
testEvent = GBAVideoProcessEvents(&gba->video, cycles);
if (testEvent < nextEvent) {
nextEvent = testEvent;
}
testEvent = GBAAudioProcessEvents(&gba->audio, cycles);
if (testEvent < nextEvent) {
nextEvent = testEvent;
}
testEvent = GBATimersProcessEvents(gba, cycles);
if (testEvent < nextEvent) {
nextEvent = testEvent;
}
testEvent = GBAMemoryRunDMAs(gba, cycles);
if (testEvent < nextEvent) {
nextEvent = testEvent;
}
testEvent = GBASIOProcessEvents(&gba->sio, cycles);
if (testEvent < nextEvent) {
nextEvent = testEvent;
}
cpu->cycles -= cycles;
cpu->nextEvent = nextEvent;
if (cpu->halted) {
cpu->cycles = cpu->nextEvent;
}
} while (cpu->cycles >= cpu->nextEvent);
}
static int32_t GBATimersProcessEvents(struct GBA* gba, int32_t cycles) {
int32_t nextEvent = INT_MAX;
if (gba->timersEnabled) {
struct GBATimer* timer;
struct GBATimer* nextTimer;
timer = &gba->timers[0];
if (timer->enable) {
timer->nextEvent -= cycles;
timer->lastEvent -= cycles;
if (timer->nextEvent <= 0) {
timer->lastEvent = timer->nextEvent;
timer->nextEvent += timer->overflowInterval;
gba->memory.io[REG_TM0CNT_LO >> 1] = timer->reload;
timer->oldReload = timer->reload;
if (timer->doIrq) {
GBARaiseIRQ(gba, IRQ_TIMER0);
}
if (gba->audio.enable) {
if ((gba->audio.chALeft || gba->audio.chARight) && gba->audio.chATimer == 0) {
GBAAudioSampleFIFO(&gba->audio, 0, timer->lastEvent);
}
if ((gba->audio.chBLeft || gba->audio.chBRight) && gba->audio.chBTimer == 0) {
GBAAudioSampleFIFO(&gba->audio, 1, timer->lastEvent);
}
}
nextTimer = &gba->timers[1];
if (nextTimer->countUp) {
++gba->memory.io[REG_TM1CNT_LO >> 1];
if (!gba->memory.io[REG_TM1CNT_LO >> 1]) {
nextTimer->nextEvent = 0;
}
}
}
nextEvent = timer->nextEvent;
}
timer = &gba->timers[1];
if (timer->enable) {
timer->nextEvent -= cycles;
timer->lastEvent -= cycles;
if (timer->nextEvent <= 0) {
timer->lastEvent = timer->nextEvent;
timer->nextEvent += timer->overflowInterval;
gba->memory.io[REG_TM1CNT_LO >> 1] = timer->reload;
timer->oldReload = timer->reload;
if (timer->doIrq) {
GBARaiseIRQ(gba, IRQ_TIMER1);
}
if (gba->audio.enable) {
if ((gba->audio.chALeft || gba->audio.chARight) && gba->audio.chATimer == 1) {
GBAAudioSampleFIFO(&gba->audio, 0, timer->lastEvent);
}
if ((gba->audio.chBLeft || gba->audio.chBRight) && gba->audio.chBTimer == 1) {
GBAAudioSampleFIFO(&gba->audio, 1, timer->lastEvent);
}
}
if (timer->countUp) {
timer->nextEvent = INT_MAX;
}
nextTimer = &gba->timers[2];
if (nextTimer->countUp) {
++gba->memory.io[REG_TM2CNT_LO >> 1];
if (!gba->memory.io[REG_TM2CNT_LO >> 1]) {
nextTimer->nextEvent = 0;
}
}
}
if (timer->nextEvent < nextEvent) {
nextEvent = timer->nextEvent;
}
}
timer = &gba->timers[2];
if (timer->enable) {
timer->nextEvent -= cycles;
timer->lastEvent -= cycles;
nextEvent = timer->nextEvent;
if (timer->nextEvent <= 0) {
timer->lastEvent = timer->nextEvent;
timer->nextEvent += timer->overflowInterval;
gba->memory.io[REG_TM2CNT_LO >> 1] = timer->reload;
timer->oldReload = timer->reload;
if (timer->doIrq) {
GBARaiseIRQ(gba, IRQ_TIMER2);
}
if (timer->countUp) {
timer->nextEvent = INT_MAX;
}
nextTimer = &gba->timers[3];
if (nextTimer->countUp) {
++gba->memory.io[REG_TM3CNT_LO >> 1];
if (!gba->memory.io[REG_TM3CNT_LO >> 1]) {
nextTimer->nextEvent = 0;
}
}
}
if (timer->nextEvent < nextEvent) {
nextEvent = timer->nextEvent;
}
}
timer = &gba->timers[3];
if (timer->enable) {
timer->nextEvent -= cycles;
timer->lastEvent -= cycles;
nextEvent = timer->nextEvent;
if (timer->nextEvent <= 0) {
timer->lastEvent = timer->nextEvent;
timer->nextEvent += timer->overflowInterval;
gba->memory.io[REG_TM3CNT_LO >> 1] = timer->reload;
timer->oldReload = timer->reload;
if (timer->doIrq) {
GBARaiseIRQ(gba, IRQ_TIMER3);
}
if (timer->countUp) {
timer->nextEvent = INT_MAX;
}
}
if (timer->nextEvent < nextEvent) {
nextEvent = timer->nextEvent;
}
}
}
return nextEvent;
}
void GBAAttachDebugger(struct GBA* gba, struct ARMDebugger* debugger) {
gba->debugger = debugger;
}
void GBADetachDebugger(struct GBA* gba) {
gba->debugger = 0;
}
void GBALoadROM(struct GBA* gba, struct VFile* vf, struct VFile* sav, const char* fname) {
gba->romVf = vf;
gba->pristineRomSize = vf->seek(vf, 0, SEEK_END);
vf->seek(vf, 0, SEEK_SET);
gba->pristineRom = vf->map(vf, SIZE_CART0, MAP_READ);
gba->memory.rom = gba->pristineRom;
gba->activeFile = fname;
gba->memory.romSize = gba->pristineRomSize;
gba->romCrc32 = crc32(gba->memory.rom, gba->memory.romSize);
GBASavedataInit(&gba->memory.savedata, sav);
GBAGPIOInit(&gba->memory.gpio, &((uint16_t*) gba->memory.rom)[GPIO_REG_DATA >> 1]);
_checkOverrides(gba, ((struct GBACartridge*) gba->memory.rom)->id);
// TODO: error check
}
void GBALoadBIOS(struct GBA* gba, struct VFile* vf) {
gba->biosVf = vf;
gba->memory.bios = vf->map(vf, SIZE_BIOS, MAP_READ);
gba->memory.fullBios = 1;
uint32_t checksum = GBAChecksum(gba->memory.bios, SIZE_BIOS);
GBALog(gba, GBA_LOG_DEBUG, "BIOS Checksum: 0x%X", checksum);
if (checksum == GBA_BIOS_CHECKSUM) {
GBALog(gba, GBA_LOG_INFO, "Official GBA BIOS detected");
} else if (checksum == GBA_DS_BIOS_CHECKSUM) {
GBALog(gba, GBA_LOG_INFO, "Official GBA (DS) BIOS detected");
} else {
GBALog(gba, GBA_LOG_WARN, "BIOS checksum incorrect");
}
gba->biosChecksum = checksum;
if ((gba->cpu->gprs[ARM_PC] >> BASE_OFFSET) == BASE_BIOS) {
gba->cpu->memory.setActiveRegion(gba->cpu, gba->cpu->gprs[ARM_PC]);
}
// TODO: error check
}
void GBAApplyPatch(struct GBA* gba, struct Patch* patch) {
size_t patchedSize = patch->outputSize(patch, gba->memory.romSize);
if (!patchedSize) {
return;
}
gba->memory.rom = anonymousMemoryMap(patchedSize);
memcpy(gba->memory.rom, gba->pristineRom, gba->memory.romSize > patchedSize ? patchedSize : gba->memory.romSize);
if (!patch->applyPatch(patch, gba->memory.rom, patchedSize)) {
mappedMemoryFree(gba->memory.rom, patchedSize);
gba->memory.rom = gba->pristineRom;
return;
}
gba->memory.romSize = patchedSize;
gba->romCrc32 = crc32(gba->memory.rom, gba->memory.romSize);
}
void GBATimerUpdateRegister(struct GBA* gba, int timer) {
struct GBATimer* currentTimer = &gba->timers[timer];
if (currentTimer->enable && !currentTimer->countUp) {
gba->memory.io[(REG_TM0CNT_LO + (timer << 2)) >> 1] = currentTimer->oldReload + ((gba->cpu->cycles - currentTimer->lastEvent) >> currentTimer->prescaleBits);
}
}
void GBATimerWriteTMCNT_LO(struct GBA* gba, int timer, uint16_t reload) {
gba->timers[timer].reload = reload;
}
void GBATimerWriteTMCNT_HI(struct GBA* gba, int timer, uint16_t control) {
struct GBATimer* currentTimer = &gba->timers[timer];
GBATimerUpdateRegister(gba, timer);
int oldPrescale = currentTimer->prescaleBits;
switch (control & 0x0003) {
case 0x0000:
currentTimer->prescaleBits = 0;
break;
case 0x0001:
currentTimer->prescaleBits = 6;
break;
case 0x0002:
currentTimer->prescaleBits = 8;
break;
case 0x0003:
currentTimer->prescaleBits = 10;
break;
}
currentTimer->countUp = !!(control & 0x0004);
currentTimer->doIrq = !!(control & 0x0040);
currentTimer->overflowInterval = (0x10000 - currentTimer->reload) << currentTimer->prescaleBits;
int wasEnabled = currentTimer->enable;
currentTimer->enable = !!(control & 0x0080);
if (!wasEnabled && currentTimer->enable) {
if (!currentTimer->countUp) {
currentTimer->nextEvent = gba->cpu->cycles + currentTimer->overflowInterval;
} else {
currentTimer->nextEvent = INT_MAX;
}
gba->memory.io[(REG_TM0CNT_LO + (timer << 2)) >> 1] = currentTimer->reload;
currentTimer->oldReload = currentTimer->reload;
currentTimer->lastEvent = 0;
gba->timersEnabled |= 1 << timer;
} else if (wasEnabled && !currentTimer->enable) {
if (!currentTimer->countUp) {
gba->memory.io[(REG_TM0CNT_LO + (timer << 2)) >> 1] = currentTimer->oldReload + ((gba->cpu->cycles - currentTimer->lastEvent) >> oldPrescale);
}
gba->timersEnabled &= ~(1 << timer);
} else if (currentTimer->prescaleBits != oldPrescale && !currentTimer->countUp) {
// FIXME: this might be before present
currentTimer->nextEvent = currentTimer->lastEvent + currentTimer->overflowInterval;
}
if (currentTimer->nextEvent < gba->cpu->nextEvent) {
gba->cpu->nextEvent = currentTimer->nextEvent;
}
};
void GBAWriteIE(struct GBA* gba, uint16_t value) {
if (value & (1 << IRQ_KEYPAD)) {
GBALog(gba, GBA_LOG_STUB, "Keypad interrupts not implemented");
}
if (value & (1 << IRQ_GAMEPAK)) {
GBALog(gba, GBA_LOG_STUB, "Gamepak interrupts not implemented");
}
if (gba->memory.io[REG_IME >> 1] && value & gba->memory.io[REG_IF >> 1]) {
ARMRaiseIRQ(gba->cpu);
}
}
void GBAWriteIME(struct GBA* gba, uint16_t value) {
if (value && gba->memory.io[REG_IE >> 1] & gba->memory.io[REG_IF >> 1]) {
ARMRaiseIRQ(gba->cpu);
}
}
void GBARaiseIRQ(struct GBA* gba, enum GBAIRQ irq) {
gba->memory.io[REG_IF >> 1] |= 1 << irq;
gba->cpu->halted = 0;
if (gba->memory.io[REG_IME >> 1] && (gba->memory.io[REG_IE >> 1] & 1 << irq)) {
ARMRaiseIRQ(gba->cpu);
}
}
void GBATestIRQ(struct ARMCore* cpu) {
struct GBA* gba = (struct GBA*) cpu->master;
if (gba->memory.io[REG_IME >> 1] && gba->memory.io[REG_IE >> 1] & gba->memory.io[REG_IF >> 1]) {
gba->springIRQ = 1;
gba->cpu->nextEvent = 0;
}
}
void GBAHalt(struct GBA* gba) {
gba->cpu->nextEvent = 0;
gba->cpu->halted = 1;
}
static void _GBAVLog(struct GBA* gba, enum GBALogLevel level, const char* format, va_list args) {
struct GBAThread* threadContext = GBAThreadGetContext();
if (threadContext) {
if (!gba) {
gba = threadContext->gba;
}
if (threadContext->logHandler) {
threadContext->logHandler(threadContext, level, format, args);
return;
}
}
if (gba && !(level & gba->logLevel) && level != GBA_LOG_FATAL) {
return;
}
vprintf(format, args);
printf("\n");
if (level == GBA_LOG_FATAL) {
abort();
}
}
void GBALog(struct GBA* gba, enum GBALogLevel level, const char* format, ...) {
va_list args;
va_start(args, format);
_GBAVLog(gba, level, format, args);
va_end(args);
}
void GBADebuggerLogShim(struct ARMDebugger* debugger, enum DebuggerLogLevel level, const char* format, ...) {
struct GBA* gba = 0;
if (debugger->cpu) {
gba = (struct GBA*) debugger->cpu->master;
}
enum GBALogLevel gbaLevel;
switch (level) {
default: // Avoids compiler warning
case DEBUGGER_LOG_DEBUG:
gbaLevel = GBA_LOG_DEBUG;
break;
case DEBUGGER_LOG_INFO:
gbaLevel = GBA_LOG_INFO;
break;
case DEBUGGER_LOG_WARN:
gbaLevel = GBA_LOG_WARN;
break;
case DEBUGGER_LOG_ERROR:
gbaLevel = GBA_LOG_ERROR;
break;
}
va_list args;
va_start(args, format);
_GBAVLog(gba, gbaLevel, format, args);
va_end(args);
}
bool GBAIsROM(struct VFile* vf) {
if (vf->seek(vf, GBA_ROM_MAGIC_OFFSET, SEEK_SET) < 0) {
return false;
}
uint8_t signature[sizeof(GBA_ROM_MAGIC)];
if (vf->read(vf, &signature, sizeof(signature)) != sizeof(signature)) {
return false;
}
return memcmp(signature, GBA_ROM_MAGIC, sizeof(signature)) == 0;
}
void GBAHitStub(struct ARMCore* cpu, uint32_t opcode) {
struct GBA* gba = (struct GBA*) cpu->master;
enum GBALogLevel level = GBA_LOG_FATAL;
if (gba->debugger) {
level = GBA_LOG_STUB;
ARMDebuggerEnter(gba->debugger, DEBUGGER_ENTER_ILLEGAL_OP);
}
GBALog(gba, level, "Stub opcode: %08x", opcode);
}
void GBAIllegal(struct ARMCore* cpu, uint32_t opcode) {
struct GBA* gba = (struct GBA*) cpu->master;
GBALog(gba, GBA_LOG_WARN, "Illegal opcode: %08x", opcode);
if (gba->debugger) {
ARMDebuggerEnter(gba->debugger, DEBUGGER_ENTER_ILLEGAL_OP);
}
}
void _checkOverrides(struct GBA* gba, uint32_t id) {
int i;
gba->busyLoop = -1;
for (i = 0; _overrides[i].id[0]; ++i) {
const uint32_t* overrideId = (const uint32_t*) _overrides[i].id;
if (*overrideId == id) {
switch (_overrides[i].type) {
case SAVEDATA_FLASH512:
case SAVEDATA_FLASH1M:
gba->memory.savedata.type = _overrides[i].type;
GBASavedataInitFlash(&gba->memory.savedata);
break;
case SAVEDATA_EEPROM:
GBASavedataInitEEPROM(&gba->memory.savedata);
break;
case SAVEDATA_SRAM:
GBASavedataInitSRAM(&gba->memory.savedata);
break;
case SAVEDATA_NONE:
break;
}
if (_overrides[i].gpio & GPIO_RTC) {
GBAGPIOInitRTC(&gba->memory.gpio);
}
if (_overrides[i].gpio & GPIO_GYRO) {
GBAGPIOInitGyro(&gba->memory.gpio);
}
if (_overrides[i].gpio & GPIO_RUMBLE) {
GBAGPIOInitRumble(&gba->memory.gpio);
}
gba->busyLoop = _overrides[i].busyLoop;
return;
}
}
}