mirror of https://github.com/mgba-emu/mgba.git
GB MBC: Add MBC6 flash support (read-only currently)
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5
CHANGES
5
CHANGES
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@ -5,9 +5,8 @@ Features:
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- Separate overrides for GBC games that can also run on SGB or regular GB
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- Mute option in homebrew ports
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- Status indicators for fast-forward and mute in homebrew ports
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- Support for unlicensed Pokemon Jade/Diamond Game Boy mapper
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- Support for unlicensed BBD Game Boy mapper
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- Support for unlicensed Hitek Game Boy mapper
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- Read-only support for MBC6 flash memory
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- New unlicensed GB mappers: Pokémon Jade/Diamond, BBD, and Hitek
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- Stack tracing tools in ARM debugger (by ahigerd)
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- Command scripts for CLI debugger (by ahigerd)
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Emulation fixes:
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@ -57,7 +57,7 @@ The following mappers are fully supported:
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The following mappers are partially supported:
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- MBC6 (missing flash memory support)
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- MBC6 (missing flash memory write support)
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- MMM01
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- Pocket Cam
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- TAMA5 (missing RTC support)
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@ -61,6 +61,8 @@ enum {
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GB_SIZE_OAM = 0xA0,
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GB_SIZE_IO = 0x80,
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GB_SIZE_HRAM = 0x7F,
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GB_SIZE_MBC6_FLASH = 0x100000,
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};
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enum {
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@ -118,6 +120,8 @@ struct GBMBC6State {
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bool sramAccess;
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int currentSramBank1;
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uint8_t* sramBank1;
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bool flashBank0;
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bool flashBank1;
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};
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struct GBMBC7State {
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52
src/gb/mbc.c
52
src/gb/mbc.c
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@ -53,6 +53,8 @@ static uint8_t _GBHitekRead(struct GBMemory*, uint16_t address);
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static uint8_t _GBPocketCamRead(struct GBMemory*, uint16_t address);
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static void _GBPocketCamCapture(struct GBMemory*);
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static void _GBMBC6MapChip(struct GB*, int half, uint8_t value);
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void GBMBCSwitchBank(struct GB* gb, int bank) {
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size_t bankStart = bank * GB_SIZE_CART_BANK0;
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if (bankStart + GB_SIZE_CART_BANK0 > gb->memory.romSize) {
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@ -81,19 +83,37 @@ void GBMBCSwitchBank0(struct GB* gb, int bank) {
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void GBMBCSwitchHalfBank(struct GB* gb, int half, int bank) {
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size_t bankStart = bank * GB_SIZE_CART_HALFBANK;
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bool isFlash = half ? gb->memory.mbcState.mbc6.flashBank1 : gb->memory.mbcState.mbc6.flashBank0;
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if (isFlash) {
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if (bankStart + GB_SIZE_CART_HALFBANK > GB_SIZE_MBC6_FLASH) {
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mLOG(GB_MBC, GAME_ERROR, "Attempting to switch to an invalid Flash bank: %0X", bank);
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bankStart &= GB_SIZE_MBC6_FLASH - 1;
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bank = bankStart / GB_SIZE_CART_HALFBANK;
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}
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bankStart += gb->sramSize - GB_SIZE_MBC6_FLASH;
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} else {
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if (bankStart + GB_SIZE_CART_HALFBANK > gb->memory.romSize) {
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mLOG(GB_MBC, GAME_ERROR, "Attempting to switch to an invalid ROM bank: %0X", bank);
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bankStart &= (gb->memory.romSize - 1);
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bankStart &= gb->memory.romSize - 1;
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bank = bankStart / GB_SIZE_CART_HALFBANK;
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if (!bank) {
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++bank;
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}
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}
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}
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if (!half) {
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if (isFlash) {
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gb->memory.romBank = &gb->memory.sram[bankStart];
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} else {
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gb->memory.romBank = &gb->memory.rom[bankStart];
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}
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gb->memory.currentBank = bank;
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} else {
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if (isFlash) {
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gb->memory.mbcState.mbc6.romBank1 = &gb->memory.sram[bankStart];
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} else {
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gb->memory.mbcState.mbc6.romBank1 = &gb->memory.rom[bankStart];
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}
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gb->memory.mbcState.mbc6.currentBank1 = bank;
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}
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if (gb->cpu->pc < GB_BASE_VRAM) {
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@ -187,9 +207,10 @@ void GBMBCSwitchSramBank(struct GB* gb, int bank) {
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void GBMBCSwitchSramHalfBank(struct GB* gb, int half, int bank) {
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size_t bankStart = bank * GB_SIZE_EXTERNAL_RAM_HALFBANK;
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if (bankStart + GB_SIZE_EXTERNAL_RAM_HALFBANK > gb->sramSize) {
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size_t sramSize = gb->sramSize - GB_SIZE_MBC6_FLASH;
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if (bankStart + GB_SIZE_EXTERNAL_RAM_HALFBANK > sramSize) {
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mLOG(GB_MBC, GAME_ERROR, "Attempting to switch to an invalid RAM bank: %0X", bank);
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bankStart &= (gb->sramSize - 1);
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bankStart &= (sramSize - 1);
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bank = bankStart / GB_SIZE_EXTERNAL_RAM_HALFBANK;
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}
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if (!half) {
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@ -334,6 +355,7 @@ void GBMBCInit(struct GB* gb) {
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gb->memory.mbcWrite = _GBMBC6;
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gb->memory.mbcRead = _GBMBC6Read;
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gb->memory.directSramAccess = false;
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gb->sramSize += GB_SIZE_MBC6_FLASH; // Flash is concatenated at the end
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break;
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case GB_MBC7:
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gb->memory.mbcWrite = _GBMBC7;
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@ -689,14 +711,28 @@ void _GBMBC6(struct GB* gb, uint16_t address, uint8_t value) {
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case 0x2:
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GBMBCSwitchSramHalfBank(gb, 1, bank);
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break;
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case 0x3:
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mLOG(GB_MBC, STUB, "MBC6 unimplemented flash OE write: %04X:%02X", address, value);
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break;
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case 0x4:
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mLOG(GB_MBC, STUB, "MBC6 unimplemented flash WE write: %04X:%02X", address, value);
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break;
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case 0x8:
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case 0x9:
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GBMBCSwitchHalfBank(gb, 0, bank);
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break;
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case 0xA:
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case 0xB:
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_GBMBC6MapChip(gb, 0, value);
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break;
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case 0xC:
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case 0xD:
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GBMBCSwitchHalfBank(gb, 1, bank);
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break;
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case 0xE:
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case 0xF:
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_GBMBC6MapChip(gb, 1, value);
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break;
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case 0x28:
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case 0x29:
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case 0x2A:
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@ -732,6 +768,16 @@ uint8_t _GBMBC6Read(struct GBMemory* memory, uint16_t address) {
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return 0xFF;
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}
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static void _GBMBC6MapChip(struct GB* gb, int half, uint8_t value) {
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if (!half) {
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gb->memory.mbcState.mbc6.flashBank0 = !!(value & 0x08);
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GBMBCSwitchHalfBank(gb, half, gb->memory.currentBank);
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} else {
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gb->memory.mbcState.mbc6.flashBank1 = !!(value & 0x08);
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GBMBCSwitchHalfBank(gb, half, gb->memory.mbcState.mbc6.currentBank1);
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}
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}
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void _GBMBC7(struct GB* gb, uint16_t address, uint8_t value) {
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int bank = value & 0x7F;
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switch (address >> 13) {
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