void GBMemorySerialize(const struct GB* gb, struct GBSerializedState* state) {
const struct GBMemory* memory = &gb->memory;
memcpy(state->wram, memory->wram, GB_SIZE_WORKING_RAM);
memcpy(state->hram, memory->hram, GB_SIZE_HRAM);
STORE_16LE(memory->currentBank, 0, &state->memory.currentBank);
state->memory.wramCurrentBank = memory->wramCurrentBank;
state->memory.sramCurrentBank = memory->sramCurrentBank;
STORE_16LE(memory->dmaSource, 0, &state->memory.dmaSource);
STORE_16LE(memory->dmaDest, 0, &state->memory.dmaDest);
STORE_16LE(memory->hdmaSource, 0, &state->memory.hdmaSource);
STORE_16LE(memory->hdmaDest, 0, &state->memory.hdmaDest);
STORE_16LE(memory->hdmaRemaining, 0, &state->memory.hdmaRemaining);
state->memory.dmaRemaining = memory->dmaRemaining;
memcpy(state->memory.rtcRegs, memory->rtcRegs, sizeof(state->memory.rtcRegs));
STORE_32LE(memory->dmaEvent.when - mTimingCurrentTime(&gb->timing), 0, &state->memory.dmaNext);
STORE_32LE(memory->hdmaEvent.when - mTimingCurrentTime(&gb->timing), 0, &state->memory.hdmaNext);
GBSerializedMemoryFlags flags = 0;
flags = GBSerializedMemoryFlagsSetSramAccess(flags, memory->sramAccess);
flags = GBSerializedMemoryFlagsSetRtcAccess(flags, memory->rtcAccess);
flags = GBSerializedMemoryFlagsSetRtcLatched(flags, memory->rtcLatched);
flags = GBSerializedMemoryFlagsSetIme(flags, memory->ime);
flags = GBSerializedMemoryFlagsSetIsHdma(flags, memory->isHdma);
flags = GBSerializedMemoryFlagsSetActiveRtcReg(flags, memory->activeRtcReg);
STORE_16LE(flags, 0, &state->memory.flags);
switch (memory->mbcType) {
case GB_MBC1:
state->memory.mbc1.mode = memory->mbcState.mbc1.mode;
state->memory.mbc1.multicartStride = memory->mbcState.mbc1.multicartStride;
break;
case GB_MBC3_RTC:
STORE_64LE(gb->memory.rtcLastLatch, 0, &state->memory.rtc.lastLatch);
break;
case GB_MBC7:
state->memory.mbc7.state = memory->mbcState.mbc7.state;
state->memory.mbc7.eeprom = memory->mbcState.mbc7.eeprom;
state->memory.mbc7.address = memory->mbcState.mbc7.address;
state->memory.mbc7.access = memory->mbcState.mbc7.access;
state->memory.mbc7.latch = memory->mbcState.mbc7.latch;
state->memory.mbc7.srBits = memory->mbcState.mbc7.srBits;
STORE_16LE(memory->mbcState.mbc7.sr, 0, &state->memory.mbc7.sr);
STORE_32LE(memory->mbcState.mbc7.writable, 0, &state->memory.mbc7.writable);
break;
default:
break;
}
}
void GBSerialize(struct GB* gb, struct GBSerializedState* state) {
STORE_32LE(GB_SAVESTATE_MAGIC + GB_SAVESTATE_VERSION, 0, &state->versionMagic);
STORE_32LE(gb->romCrc32, 0, &state->romCrc32);
if (gb->memory.rom) {
memcpy(state->title, ((struct GBCartridge*) gb->memory.rom)->titleLong, sizeof(state->title));
} else {
memset(state->title, 0, sizeof(state->title));
}
state->model = gb->model;
state->cpu.a = gb->cpu->a;
state->cpu.f = gb->cpu->f.packed;
state->cpu.b = gb->cpu->b;
state->cpu.c = gb->cpu->c;
state->cpu.d = gb->cpu->d;
state->cpu.e = gb->cpu->e;
state->cpu.h = gb->cpu->h;
state->cpu.l = gb->cpu->l;
STORE_16LE(gb->cpu->sp, 0, &state->cpu.sp);
STORE_16LE(gb->cpu->pc, 0, &state->cpu.pc);
STORE_32LE(gb->cpu->cycles, 0, &state->cpu.cycles);
STORE_32LE(gb->cpu->nextEvent, 0, &state->cpu.nextEvent);
STORE_16LE(gb->cpu->index, 0, &state->cpu.index);
state->cpu.bus = gb->cpu->bus;
state->cpu.executionState = gb->cpu->executionState;
STORE_16LE(gb->cpu->irqVector, 0, &state->cpu.irqVector);
STORE_32LE(gb->eiPending, 0, &state->cpu.eiPending);
GBSerializedCpuFlags flags = 0;
flags = GBSerializedCpuFlagsSetCondition(flags, gb->cpu->condition);
flags = GBSerializedCpuFlagsSetIrqPending(flags, gb->cpu->irqPending);
flags = GBSerializedCpuFlagsSetDoubleSpeed(flags, gb->doubleSpeed);
STORE_32LE(flags, 0, &state->cpu.flags);
GBMemorySerialize(&gb->memory, state);
GBIOSerialize(gb, state);
GBVideoSerialize(&gb->video, state);
GBTimerSerialize(&gb->timer, state);
GBAudioSerialize(&gb->audio, state);
#ifndef _MSC_VER
struct timeval tv;
if (!gettimeofday(&tv, 0)) {
uint64_t usec = tv.tv_usec;
usec += tv.tv_sec * 1000000LL;
STORE_64LE(usec, 0, &state->creationUsec);
}
#else
struct timespec ts;
if (timespec_get(&ts, TIME_UTC)) {
uint64_t usec = ts.tv_nsec / 1000;
usec += ts.tv_sec * 1000000LL;
STORE_64LE(usec, 0, &state->creationUsec);
}
#endif
else {
state->creationUsec = 0;
}
}