GBA Memory: Improved AGBPrint emulation of edge cases (fixes #1867)

This commit is contained in:
Vicki Pfau 2021-02-24 01:20:48 -08:00
parent 4827daf5a6
commit 67475a6da8
3 changed files with 76 additions and 19 deletions

View File

@ -47,6 +47,7 @@ Emulation fixes:
- GBA Memory: Improve robustness of Matrix memory support
- GBA Memory: Mark Famicom Mini games 22 through 28 as non-mirroring
- GBA Memory: Return correct byte for odd ROM open bus addresses
- GBA Memory: Improved AGBPrint emulation of edge cases (fixes mgba.io/i/1867)
- GBA Serialize: Fix alignment check when loading states
- GBA SIO: Fix copying Normal mode transfer values
- GBA SIO: Fix Normal mode being totally broken (fixes mgba.io/i/1800)

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@ -84,7 +84,7 @@ enum {
AGB_PRINT_BASE = 0x00FD0000,
AGB_PRINT_TOP = 0x00FE0000,
AGB_PRINT_PROTECT = 0x00FE2FFE,
AGB_PRINT_STRUCT = 0x01FE20F8,
AGB_PRINT_STRUCT = 0x00FE20F8,
AGB_PRINT_FLUSH_ADDR = 0x01FE209C,
};
@ -127,9 +127,14 @@ struct GBAMemory {
int activeDMA;
uint32_t dmaTransferRegister;
uint16_t agbPrint;
uint32_t agbPrintBase;
uint16_t agbPrintProtect;
struct GBAPrintContext agbPrintCtx;
uint16_t* agbPrintBuffer;
uint16_t agbPrintProtectBackup;
struct GBAPrintContext agbPrintCtxBackup;
uint32_t agbPrintFuncBackup;
uint16_t* agbPrintBufferBackup;
bool mirroring;
};

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@ -25,7 +25,7 @@ static void _pristineCow(struct GBA* gba);
static void _agbPrintStore(struct GBA* gba, uint32_t address, int16_t value);
static int16_t _agbPrintLoad(struct GBA* gba, uint32_t address);
static uint8_t _deadbeef[4] = { 0x10, 0xB7, 0x10, 0xE7 }; // Illegal instruction on both ARM and Thumb
static uint8_t _agbPrintFunc[4] = { 0xFA, 0xDF /* swi 0xFF */, 0x70, 0x47 /* bx lr */ };
static const uint32_t _agbPrintFunc = 0x4770DFFA; // swi 0xFA; bx lr
static void GBASetActiveRegion(struct ARMCore* cpu, uint32_t region);
static int32_t GBAMemoryStall(struct ARMCore* cpu, int32_t wait);
@ -84,9 +84,10 @@ void GBAMemoryInit(struct GBA* gba) {
gba->memory.biosPrefetch = 0;
gba->memory.mirroring = false;
gba->memory.agbPrint = 0;
gba->memory.agbPrintProtect = 0;
memset(&gba->memory.agbPrintCtx, 0, sizeof(gba->memory.agbPrintCtx));
gba->memory.agbPrintBuffer = NULL;
gba->memory.agbPrintBufferBackup = NULL;
gba->memory.wram = anonymousMemoryMap(SIZE_WORKING_RAM + SIZE_WORKING_IRAM);
gba->memory.iwram = &gba->memory.wram[SIZE_WORKING_RAM >> 2];
@ -103,6 +104,9 @@ void GBAMemoryDeinit(struct GBA* gba) {
if (gba->memory.agbPrintBuffer) {
mappedMemoryFree(gba->memory.agbPrintBuffer, SIZE_AGB_PRINT);
}
if (gba->memory.agbPrintBufferBackup) {
mappedMemoryFree(gba->memory.agbPrintBufferBackup, SIZE_AGB_PRINT);
}
}
void GBAMemoryReset(struct GBA* gba) {
@ -117,11 +121,17 @@ void GBAMemoryReset(struct GBA* gba) {
memset(gba->memory.io, 0, sizeof(gba->memory.io));
GBAAdjustWaitstates(gba, 0);
gba->memory.agbPrint = 0;
gba->memory.agbPrintProtect = 0;
gba->memory.agbPrintBase = 0;
memset(&gba->memory.agbPrintCtx, 0, sizeof(gba->memory.agbPrintCtx));
if (gba->memory.agbPrintBuffer) {
mappedMemoryFree(gba->memory.agbPrintBuffer, SIZE_AGB_PRINT);
gba->memory.agbPrintBuffer = NULL;
}
if (gba->memory.agbPrintBufferBackup) {
mappedMemoryFree(gba->memory.agbPrintBufferBackup, SIZE_AGB_PRINT);
gba->memory.agbPrintBufferBackup = NULL;
}
gba->memory.prefetch = false;
gba->memory.lastPrefetchedPc = 0;
@ -303,8 +313,8 @@ static void GBASetActiveRegion(struct ARMCore* cpu, uint32_t address) {
if ((address & (SIZE_CART0 - 1)) < memory->romSize) {
break;
}
if ((address & (SIZE_CART0 - 1)) == AGB_PRINT_FLUSH_ADDR && memory->agbPrint == 0x20) {
cpu->memory.activeRegion = (uint32_t*) _agbPrintFunc;
if ((address & (SIZE_CART0 - 1)) == AGB_PRINT_FLUSH_ADDR && memory->agbPrintProtect == 0x20) {
cpu->memory.activeRegion = &_agbPrintFunc;
cpu->memory.activeMask = sizeof(_agbPrintFunc) - 1;
break;
}
@ -560,8 +570,8 @@ uint32_t GBALoad16(struct ARMCore* cpu, uint32_t address, int* cycleCounter) {
} else if ((address & (SIZE_CART0 - 1)) >= AGB_PRINT_BASE) {
uint32_t agbPrintAddr = address & 0x00FFFFFF;
if (agbPrintAddr == AGB_PRINT_PROTECT) {
value = memory->agbPrint;
} else if (agbPrintAddr < AGB_PRINT_TOP || (agbPrintAddr & 0x00FFFFF8) == (AGB_PRINT_STRUCT & 0x00FFFFF8)) {
value = memory->agbPrintProtect;
} else if (agbPrintAddr < AGB_PRINT_TOP || (agbPrintAddr & 0x00FFFFF8) == AGB_PRINT_STRUCT) {
value = _agbPrintLoad(gba, address);
} else {
mLOG(GBA_MEM, GAME_ERROR, "Out of bounds ROM Load16: 0x%08X", address);
@ -915,11 +925,34 @@ void GBAStore16(struct ARMCore* cpu, uint32_t address, int16_t value, int* cycle
if ((address & 0x00FFFFFF) >= AGB_PRINT_BASE) {
uint32_t agbPrintAddr = address & 0x00FFFFFF;
if (agbPrintAddr == AGB_PRINT_PROTECT) {
memory->agbPrint = value;
bool wasProtected = memory->agbPrintProtect != 0x20;
memory->agbPrintProtect = value;
if (!memory->agbPrintBuffer) {
memory->agbPrintBuffer = anonymousMemoryMap(SIZE_AGB_PRINT);
if (memory->romSize >= SIZE_CART0 / 2) {
int base = 0;
if (memory->romSize == SIZE_CART0) {
base = address & 0x01000000;
}
memory->agbPrintBase = base;
memory->agbPrintBufferBackup = anonymousMemoryMap(SIZE_AGB_PRINT);
memcpy(memory->agbPrintBufferBackup, &memory->rom[(AGB_PRINT_TOP | base) >> 2], SIZE_AGB_PRINT);
LOAD_16(memory->agbPrintProtectBackup, AGB_PRINT_PROTECT | base, memory->rom);
LOAD_16(memory->agbPrintCtxBackup.request, AGB_PRINT_STRUCT | base, memory->rom);
LOAD_16(memory->agbPrintCtxBackup.bank, (AGB_PRINT_STRUCT | base) + 2, memory->rom);
LOAD_16(memory->agbPrintCtxBackup.get, (AGB_PRINT_STRUCT | base) + 4, memory->rom);
LOAD_16(memory->agbPrintCtxBackup.put, (AGB_PRINT_STRUCT | base) + 6, memory->rom);
LOAD_32(memory->agbPrintFuncBackup, AGB_PRINT_FLUSH_ADDR | base, memory->rom);
}
}
if (value == 0x20) {
_agbPrintStore(gba, address, value);
}
break;
}
if (memory->agbPrint == 0x20 && (agbPrintAddr < AGB_PRINT_TOP || (agbPrintAddr & 0x00FFFFF8) == (AGB_PRINT_STRUCT & 0x00FFFFF8))) {
if (memory->agbPrintProtect == 0x20 && (agbPrintAddr < AGB_PRINT_TOP || (agbPrintAddr & 0x00FFFFF8) == AGB_PRINT_STRUCT)) {
_agbPrintStore(gba, address, value);
break;
}
@ -1629,6 +1662,28 @@ void GBAAdjustWaitstates(struct GBA* gba, uint16_t parameters) {
cpu->memory.activeNonseqCycles32 = memory->waitstatesNonseq32[memory->activeRegion];
cpu->memory.activeNonseqCycles16 = memory->waitstatesNonseq16[memory->activeRegion];
if (memory->agbPrintBufferBackup) {
int phi = (parameters >> 11) & 3;
uint32_t base = memory->agbPrintBase;
if (phi == 3) {
memcpy(&memory->rom[(AGB_PRINT_TOP | base) >> 2], memory->agbPrintBuffer, SIZE_AGB_PRINT);
STORE_16(memory->agbPrintProtect, AGB_PRINT_PROTECT | base, memory->rom);
STORE_16(memory->agbPrintCtx.request, AGB_PRINT_STRUCT | base, memory->rom);
STORE_16(memory->agbPrintCtx.bank, (AGB_PRINT_STRUCT | base) + 2, memory->rom);
STORE_16(memory->agbPrintCtx.get, (AGB_PRINT_STRUCT | base) + 4, memory->rom);
STORE_16(memory->agbPrintCtx.put, (AGB_PRINT_STRUCT | base) + 6, memory->rom);
STORE_32(_agbPrintFunc, AGB_PRINT_FLUSH_ADDR | base, memory->rom);
} else {
memcpy(&memory->rom[(AGB_PRINT_TOP | base) >> 2], memory->agbPrintBufferBackup, SIZE_AGB_PRINT);
STORE_16(memory->agbPrintProtectBackup, AGB_PRINT_PROTECT | base, memory->rom);
STORE_16(memory->agbPrintCtxBackup.request, AGB_PRINT_STRUCT | base, memory->rom);
STORE_16(memory->agbPrintCtxBackup.bank, (AGB_PRINT_STRUCT | base) + 2, memory->rom);
STORE_16(memory->agbPrintCtxBackup.get, (AGB_PRINT_STRUCT | base) + 4, memory->rom);
STORE_16(memory->agbPrintCtxBackup.put, (AGB_PRINT_STRUCT | base) + 6, memory->rom);
STORE_32(memory->agbPrintFuncBackup, AGB_PRINT_FLUSH_ADDR | base, memory->rom);
}
}
}
int32_t GBAMemoryStall(struct ARMCore* cpu, int32_t wait) {
@ -1750,7 +1805,7 @@ void GBAPrintFlush(struct GBA* gba) {
oolBuf[i + 1] = 0;
++gba->memory.agbPrintCtx.get;
}
_agbPrintStore(gba, AGB_PRINT_STRUCT + 4, gba->memory.agbPrintCtx.get);
_agbPrintStore(gba, (AGB_PRINT_STRUCT + 4) | gba->memory.agbPrintBase, gba->memory.agbPrintCtx.get);
mLOG(GBA_DEBUG, INFO, "%s", oolBuf);
}
@ -1758,16 +1813,12 @@ void GBAPrintFlush(struct GBA* gba) {
static void _agbPrintStore(struct GBA* gba, uint32_t address, int16_t value) {
struct GBAMemory* memory = &gba->memory;
if ((address & 0x00FFFFFF) < AGB_PRINT_TOP) {
if (!memory->agbPrintBuffer) {
memory->agbPrintBuffer = anonymousMemoryMap(SIZE_AGB_PRINT);
}
STORE_16(value, address & (SIZE_AGB_PRINT - 2), memory->agbPrintBuffer);
} else if ((address & 0x00FFFFF8) == (AGB_PRINT_STRUCT & 0x00FFFFF8)) {
} else if ((address & 0x00FFFFF8) == AGB_PRINT_STRUCT) {
(&memory->agbPrintCtx.request)[(address & 7) >> 1] = value;
}
if (memory->romSize == SIZE_CART0) {
_pristineCow(gba);
memcpy(&memory->rom[AGB_PRINT_FLUSH_ADDR >> 2], _agbPrintFunc, sizeof(_agbPrintFunc));
STORE_16(value, address & (SIZE_CART0 - 2), memory->rom);
} else if (memory->agbPrintCtx.bank == 0xFD && memory->romSize >= SIZE_CART0 / 2) {
_pristineCow(gba);
@ -1780,7 +1831,7 @@ static int16_t _agbPrintLoad(struct GBA* gba, uint32_t address) {
int16_t value = address >> 1;
if (address < AGB_PRINT_TOP && memory->agbPrintBuffer) {
LOAD_16(value, address & (SIZE_AGB_PRINT - 1), memory->agbPrintBuffer);
} else if ((address & 0x00FFFFF8) == (AGB_PRINT_STRUCT & 0x00FFFFF8)) {
} else if ((address & 0x00FFFFF8) == AGB_PRINT_STRUCT) {
value = (&memory->agbPrintCtx.request)[(address & 7) >> 1];
}
return value;