bsnes/Core/save_state.c

1140 lines
43 KiB
C

#include "gb.h"
#include <stdio.h>
#include <errno.h>
#include <assert.h>
#define str(x) #x
#define xstr(x) str(x)
#ifdef GB_BIG_ENDIAN
#define BESS_NAME "SameBoy v" xstr(VERSION) " (Big Endian)"
#else
#define BESS_NAME "SameBoy v" xstr(VERSION)
#endif
typedef struct __attribute__((packed)) {
uint32_t magic;
uint32_t size;
} BESS_block_t;
typedef struct __attribute__((packed)) {
uint32_t size;
uint32_t offset;
} BESS_buffer_t;
typedef struct __attribute__((packed)) {
uint32_t start_offset;
uint32_t magic;
} BESS_footer_t;
typedef struct __attribute__((packed)) {
BESS_block_t header;
uint16_t major;
uint16_t minor;
union {
struct {
char family;
char model;
char revision;
char padding;
};
uint32_t full_model;
};
uint16_t pc;
uint16_t af;
uint16_t bc;
uint16_t de;
uint16_t hl;
uint16_t sp;
uint8_t ime;
uint8_t ie;
uint8_t execution_mode; // 0 = running; 1 = halted; 2 = stopped
uint8_t _padding;
uint8_t io_registers[0x80];
BESS_buffer_t ram;
BESS_buffer_t vram;
BESS_buffer_t mbc_ram;
BESS_buffer_t oam;
BESS_buffer_t hram;
BESS_buffer_t background_palettes;
BESS_buffer_t sprite_palettes;
} BESS_CORE_t;
typedef struct __attribute__((packed)) {
BESS_block_t header;
uint8_t extra_oam[96];
} BESS_XOAM_t;
typedef struct __attribute__((packed)) {
BESS_block_t header;
BESS_buffer_t border_tiles;
BESS_buffer_t border_tilemap;
BESS_buffer_t border_palettes;
BESS_buffer_t active_palettes;
BESS_buffer_t ram_palettes;
BESS_buffer_t attribute_map;
BESS_buffer_t attribute_files;
uint8_t multiplayer_state;
} BESS_SGB_t;
/* Same RTC format as used by VBA, BGB and SameBoy in battery saves*/
typedef struct __attribute__((packed)){
BESS_block_t header;
struct {
uint8_t seconds;
uint8_t padding1[3];
uint8_t minutes;
uint8_t padding2[3];
uint8_t hours;
uint8_t padding3[3];
uint8_t days;
uint8_t padding4[3];
uint8_t high;
uint8_t padding5[3];
} real, latched;
uint64_t last_rtc_second;
} BESS_RTC_t;
/* Same HuC3 RTC format as used by SameBoy and BGB in battery saves */
typedef struct __attribute__((packed)){
BESS_block_t header;
GB_huc3_rtc_time_t data;
} BESS_HUC3_t;
typedef struct __attribute__((packed)) {
uint16_t address;
uint8_t value;
} BESS_MBC_pair_t;
typedef struct virtual_file_s virtual_file_t;
struct virtual_file_s
{
size_t (*read)(virtual_file_t *file, void *dest, size_t length);
size_t (*write)(virtual_file_t *file, const void *dest, size_t length);
void (*seek)(virtual_file_t *file, ssize_t ammount, int origin);
size_t (*tell)(virtual_file_t *file);
union {
FILE *file;
struct {
uint8_t *buffer;
size_t position;
size_t size;
};
};
};
static size_t file_read(virtual_file_t *file, void *dest, size_t length)
{
return fread(dest, 1, length, file->file);
}
static void file_seek(virtual_file_t *file, ssize_t ammount, int origin)
{
fseek(file->file, ammount, origin);
}
static size_t file_write(virtual_file_t *file, const void *src, size_t length)
{
return fwrite(src, 1, length, file->file);
}
static size_t file_tell(virtual_file_t *file)
{
return ftell(file->file);
}
static size_t buffer_read(virtual_file_t *file, void *dest, size_t length)
{
if (length & 0x80000000) {
return 0;
}
errno = 0;
if (length > file->size - file->position) {
errno = EIO;
length = file->size - file->position;
}
memcpy(dest, file->buffer + file->position, length);
file->position += length;
return length;
}
static void buffer_seek(virtual_file_t *file, ssize_t ammount, int origin)
{
switch (origin) {
case SEEK_SET:
file->position = ammount;
break;
case SEEK_CUR:
file->position += ammount;
break;
case SEEK_END:
file->position = file->size + ammount;
break;
default:
break;
}
if (file->position > file->size) {
file->position = file->size;
}
}
static size_t buffer_write(virtual_file_t *file, const void *src, size_t size)
{
memcpy(file->buffer + file->position, src, size);
file->position += size;
return size;
}
static size_t buffer_tell(virtual_file_t *file)
{
return file->position;
}
static size_t bess_size_for_cartridge(const GB_cartridge_t *cart)
{
switch (cart->mbc_type) {
default:
case GB_NO_MBC: return 0;
case GB_MBC1:
return sizeof(BESS_block_t) + 4 * sizeof(BESS_MBC_pair_t);
case GB_MBC2:
return sizeof(BESS_block_t) + 2 * sizeof(BESS_MBC_pair_t);
case GB_MBC3:
return sizeof(BESS_block_t) + 4 * sizeof(BESS_MBC_pair_t) + (cart->has_rtc? sizeof(BESS_RTC_t) : 0);
case GB_MBC5:
return sizeof(BESS_block_t) + 4 * sizeof(BESS_MBC_pair_t);
case GB_HUC1:
return sizeof(BESS_block_t) + 4 * sizeof(BESS_MBC_pair_t);
case GB_HUC3:
return sizeof(BESS_block_t) + 3 * sizeof(BESS_MBC_pair_t) + sizeof(BESS_HUC3_t);
}
}
size_t GB_get_save_state_size(GB_gameboy_t *gb)
{
return GB_SECTION_SIZE(header)
+ GB_SECTION_SIZE(core_state) + sizeof(uint32_t)
+ GB_SECTION_SIZE(dma ) + sizeof(uint32_t)
+ GB_SECTION_SIZE(mbc ) + sizeof(uint32_t)
+ GB_SECTION_SIZE(hram ) + sizeof(uint32_t)
+ GB_SECTION_SIZE(timing ) + sizeof(uint32_t)
+ GB_SECTION_SIZE(apu ) + sizeof(uint32_t)
+ GB_SECTION_SIZE(rtc ) + sizeof(uint32_t)
+ GB_SECTION_SIZE(video ) + sizeof(uint32_t)
+ (GB_is_hle_sgb(gb)? sizeof(*gb->sgb) + sizeof(uint32_t) : 0)
+ gb->mbc_ram_size
+ gb->ram_size
+ gb->vram_size
// BESS
+ sizeof(BESS_CORE_t)
+ sizeof(BESS_block_t) // NAME
+ sizeof(BESS_NAME) - 1
+ sizeof(BESS_XOAM_t)
+ (gb->sgb? sizeof(BESS_SGB_t) : 0)
+ bess_size_for_cartridge(gb->cartridge_type) // MBC & RTC/HUC3 block
+ sizeof(BESS_block_t) // END block
+ sizeof(BESS_footer_t);
}
static bool verify_and_update_state_compatibility(GB_gameboy_t *gb, GB_gameboy_t *save, bool *attempt_bess)
{
*attempt_bess = false;
if (save->ram_size == 0 && (&save->ram_size)[-1] == gb->ram_size) {
/* This is a save state with a bad printer struct from a 32-bit OS */
memmove(save->extra_oam + 4, save->extra_oam, (uintptr_t)&save->ram_size - (uintptr_t)&save->extra_oam);
}
if (save->ram_size == 0) {
/* Save doesn't have ram size specified, it's a pre 0.12 save state with potentially
incorrect RAM amount if it's a CGB instance */
if (GB_is_cgb(save)) {
save->ram_size = 0x2000 * 8; // Incorrect RAM size
}
else {
save->ram_size = gb->ram_size;
}
}
if (save->model & GB_MODEL_PAL_BIT_OLD) {
save->model &= ~GB_MODEL_PAL_BIT_OLD;
save->model |= GB_MODEL_PAL_BIT;
}
if (save->model & GB_MODEL_NO_SFC_BIT_OLD) {
save->model &= ~GB_MODEL_NO_SFC_BIT_OLD;
save->model |= GB_MODEL_NO_SFC_BIT;
}
if (gb->version != save->version) {
GB_log(gb, "The save state is for a different version of SameBoy.\n");
*attempt_bess = true;
return false;
}
if (gb->mbc_ram_size < save->mbc_ram_size) {
GB_log(gb, "The save state has non-matching MBC RAM size.\n");
return false;
}
if (gb->vram_size != save->vram_size) {
GB_log(gb, "The save state has non-matching VRAM size. Try changing the emulated model.\n");
return false;
}
if (GB_is_hle_sgb(gb) != GB_is_hle_sgb(save)) {
GB_log(gb, "The save state is %sfor a Super Game Boy. Try changing the emulated model.\n", GB_is_hle_sgb(save)? "" : "not ");
return false;
}
if (gb->ram_size != save->ram_size) {
if (gb->ram_size == 0x1000 * 8 && save->ram_size == 0x2000 * 8) {
/* A bug in versions prior to 0.12 made CGB instances allocate twice the ammount of RAM.
Ignore this issue to retain compatibility with older, 0.11, save states. */
}
else {
GB_log(gb, "The save state has non-matching RAM size. Try changing the emulated model.\n");
return false;
}
}
return true;
}
static void sanitize_state(GB_gameboy_t *gb)
{
for (unsigned i = 0; i < 32; i++) {
GB_palette_changed(gb, false, i * 2);
GB_palette_changed(gb, true, i * 2);
}
gb->bg_fifo.read_end &= 0xF;
gb->bg_fifo.write_end &= 0xF;
gb->oam_fifo.read_end &= 0xF;
gb->oam_fifo.write_end &= 0xF;
gb->object_low_line_address &= gb->vram_size & ~1;
gb->fetcher_x &= 0x1f;
if (gb->lcd_x > gb->position_in_line) {
gb->lcd_x = gb->position_in_line;
}
if (gb->object_priority == GB_OBJECT_PRIORITY_UNDEFINED) {
gb->object_priority = gb->cgb_mode? GB_OBJECT_PRIORITY_INDEX : GB_OBJECT_PRIORITY_X;
}
if (gb->sgb && !gb->sgb->v14_3) {
#ifdef GB_BIG_ENDIAN
for (unsigned i = 0; i < sizeof(gb->sgb->border.raw_data) / 2; i++) {
gb->sgb->border.raw_data[i] = LE16(gb->sgb->border.raw_data[i]);
}
for (unsigned i = 0; i < sizeof(gb->sgb->pending_border.raw_data) / 2; i++) {
gb->sgb->pending_border.raw_data[i] = LE16(gb->sgb->pending_border.raw_data[i]);
}
for (unsigned i = 0; i < sizeof(gb->sgb->effective_palettes) / 2; i++) {
gb->sgb->effective_palettes[i] = LE16(gb->sgb->effective_palettes[i]);
}
for (unsigned i = 0; i < sizeof(gb->sgb->ram_palettes) / 2; i++) {
gb->sgb->ram_palettes[i] = LE16(gb->sgb->ram_palettes[i]);
}
#endif
uint8_t converted_tiles[sizeof(gb->sgb->border.tiles)] = {0,};
for (unsigned tile = 0; tile < sizeof(gb->sgb->border.tiles_legacy) / 64; tile++) {
for (unsigned y = 0; y < 8; y++) {
unsigned base = tile * 32 + y * 2;
for (unsigned x = 0; x < 8; x++) {
uint8_t pixel = gb->sgb->border.tiles_legacy[tile * 8 * 8 + y * 8 + x];
if (pixel & 1) converted_tiles[base] |= (1 << (7 ^ x));
if (pixel & 2) converted_tiles[base + 1] |= (1 << (7 ^ x));
if (pixel & 4) converted_tiles[base + 16] |= (1 << (7 ^ x));
if (pixel & 8) converted_tiles[base + 17] |= (1 << (7 ^ x));
}
}
}
memcpy(gb->sgb->border.tiles, converted_tiles, sizeof(converted_tiles));
memset(converted_tiles, 0, sizeof(converted_tiles));
for (unsigned tile = 0; tile < sizeof(gb->sgb->pending_border.tiles_legacy) / 64; tile++) {
for (unsigned y = 0; y < 8; y++) {
unsigned base = tile * 32 + y * 2;
for (unsigned x = 0; x < 8; x++) {
uint8_t pixel = gb->sgb->pending_border.tiles_legacy[tile * 8 * 8 + y * 8 + x];
if (pixel & 1) converted_tiles[base] |= (1 << (7 ^ x));
if (pixel & 2) converted_tiles[base + 1] |= (1 << (7 ^ x));
if (pixel & 4) converted_tiles[base + 16] |= (1 << (7 ^ x));
if (pixel & 8) converted_tiles[base + 17] |= (1 << (7 ^ x));
}
}
}
memcpy(gb->sgb->pending_border.tiles, converted_tiles, sizeof(converted_tiles));
}
}
static bool dump_section(virtual_file_t *file, const void *src, uint32_t size)
{
if (file->write(file, &size, sizeof(size)) != sizeof(size)) {
return false;
}
if (file->write(file, src, size) != size) {
return false;
}
return true;
}
#define DUMP_SECTION(gb, f, section) dump_section(f, GB_GET_SECTION(gb, section), GB_SECTION_SIZE(section))
static int save_bess_mbc_block(GB_gameboy_t *gb, virtual_file_t *file)
{
BESS_block_t mbc_block = {BE32('MBC '), 0};
BESS_MBC_pair_t pairs[4];
switch (gb->cartridge_type->mbc_type) {
default:
case GB_NO_MBC: return 0;
case GB_MBC1:
pairs[0] = (BESS_MBC_pair_t){LE16(0x0000), gb->mbc_ram_enable? 0xA : 0x0};
pairs[1] = (BESS_MBC_pair_t){LE16(0x2000), gb->mbc1.bank_low};
pairs[2] = (BESS_MBC_pair_t){LE16(0x4000), gb->mbc1.bank_high};
pairs[3] = (BESS_MBC_pair_t){LE16(0x6000), gb->mbc1.mode};
mbc_block.size = 4 * sizeof(pairs[0]);
break;
case GB_MBC2:
pairs[0] = (BESS_MBC_pair_t){LE16(0x0000), gb->mbc_ram_enable? 0xA : 0x0};
pairs[1] = (BESS_MBC_pair_t){LE16(0x0100), gb->mbc2.rom_bank};
mbc_block.size = 2 * sizeof(pairs[0]);
break;
case GB_MBC3:
pairs[0] = (BESS_MBC_pair_t){LE16(0x0000), gb->mbc_ram_enable? 0xA : 0x0};
pairs[1] = (BESS_MBC_pair_t){LE16(0x2000), gb->mbc3.rom_bank};
pairs[2] = (BESS_MBC_pair_t){LE16(0x4000), gb->mbc3.ram_bank | (gb->mbc3_rtc_mapped? 8 : 0)};
pairs[3] = (BESS_MBC_pair_t){LE16(0x6000), gb->rtc_latch};
mbc_block.size = 4 * sizeof(pairs[0]);
break;
case GB_MBC5:
pairs[0] = (BESS_MBC_pair_t){LE16(0x0000), gb->mbc_ram_enable? 0xA : 0x0};
pairs[1] = (BESS_MBC_pair_t){LE16(0x2000), gb->mbc5.rom_bank_low};
pairs[2] = (BESS_MBC_pair_t){LE16(0x3000), gb->mbc5.rom_bank_high};
pairs[3] = (BESS_MBC_pair_t){LE16(0x4000), gb->mbc5.ram_bank};
mbc_block.size = 4 * sizeof(pairs[0]);
break;
case GB_HUC1:
pairs[0] = (BESS_MBC_pair_t){LE16(0x0000), gb->huc1.ir_mode? 0xE : 0x0};
pairs[1] = (BESS_MBC_pair_t){LE16(0x2000), gb->huc1.bank_low};
pairs[2] = (BESS_MBC_pair_t){LE16(0x4000), gb->huc1.bank_high};
pairs[3] = (BESS_MBC_pair_t){LE16(0x6000), gb->huc1.mode};
mbc_block.size = 4 * sizeof(pairs[0]);
case GB_HUC3:
pairs[0] = (BESS_MBC_pair_t){LE16(0x0000), gb->huc3_mode};
pairs[1] = (BESS_MBC_pair_t){LE16(0x2000), gb->huc3.rom_bank};
pairs[2] = (BESS_MBC_pair_t){LE16(0x4000), gb->huc3.ram_bank};
mbc_block.size = 3 * sizeof(pairs[0]);
break;
}
mbc_block.size = LE32(mbc_block.size);
if (file->write(file, &mbc_block, sizeof(mbc_block)) != sizeof(mbc_block)) {
return errno;
}
if (file->write(file, &pairs, LE32(mbc_block.size)) != LE32(mbc_block.size)) {
return errno;
}
return 0;
}
static int save_state_internal(GB_gameboy_t *gb, virtual_file_t *file)
{
if (file->write(file, GB_GET_SECTION(gb, header), GB_SECTION_SIZE(header)) != GB_SECTION_SIZE(header)) goto error;
if (!DUMP_SECTION(gb, file, core_state)) goto error;
if (!DUMP_SECTION(gb, file, dma )) goto error;
if (!DUMP_SECTION(gb, file, mbc )) goto error;
uint32_t hram_offset = file->tell(file) + 4;
if (!DUMP_SECTION(gb, file, hram )) goto error;
if (!DUMP_SECTION(gb, file, timing )) goto error;
if (!DUMP_SECTION(gb, file, apu )) goto error;
if (!DUMP_SECTION(gb, file, rtc )) goto error;
uint32_t video_offset = file->tell(file) + 4;
if (!DUMP_SECTION(gb, file, video )) goto error;
uint32_t sgb_offset = 0;
if (GB_is_hle_sgb(gb)) {
gb->sgb->v14_3 = true;
sgb_offset = file->tell(file) + 4;
if (!dump_section(file, gb->sgb, sizeof(*gb->sgb))) goto error;
}
BESS_CORE_t bess_core = {0,};
bess_core.mbc_ram.offset = LE32(file->tell(file));
bess_core.mbc_ram.size = LE32(gb->mbc_ram_size);
if (file->write(file, gb->mbc_ram, gb->mbc_ram_size) != gb->mbc_ram_size) {
goto error;
}
bess_core.ram.offset = LE32(file->tell(file));
bess_core.ram.size = LE32(gb->ram_size);
if (file->write(file, gb->ram, gb->ram_size) != gb->ram_size) {
goto error;
}
bess_core.vram.offset = LE32(file->tell(file));
bess_core.vram.size = LE32(gb->vram_size);
if (file->write(file, gb->vram, gb->vram_size) != gb->vram_size) {
goto error;
}
BESS_footer_t bess_footer = {
.start_offset = LE32(file->tell(file)),
.magic = BE32('BESS'),
};
/* BESS NAME */
static const BESS_block_t bess_name = {BE32('NAME'), LE32(sizeof(BESS_NAME) - 1)};
if (file->write(file, &bess_name, sizeof(bess_name)) != sizeof(bess_name)) {
goto error;
}
if (file->write(file, BESS_NAME, sizeof(BESS_NAME) - 1) != sizeof(BESS_NAME) - 1) {
goto error;
}
/* BESS CORE */
bess_core.header = (BESS_block_t){BE32('CORE'), LE32(sizeof(bess_core) - sizeof(bess_core.header))};
bess_core.major = LE16(1);
bess_core.minor = LE16(1);
switch (gb->model) {
case GB_MODEL_DMG_B: bess_core.full_model = BE32('GDB '); break;
case GB_MODEL_SGB_NTSC:
case GB_MODEL_SGB_NTSC_NO_SFC:
bess_core.full_model = BE32('SN '); break;
case GB_MODEL_SGB_PAL_NO_SFC:
case GB_MODEL_SGB_PAL:
bess_core.full_model = BE32('SP '); break;
case GB_MODEL_SGB2_NO_SFC:
case GB_MODEL_SGB2:
bess_core.full_model = BE32('S2 '); break;
case GB_MODEL_CGB_C: bess_core.full_model = BE32('CCC '); break;
case GB_MODEL_CGB_E: bess_core.full_model = BE32('CCE '); break;
case GB_MODEL_AGB: bess_core.full_model = BE32('CA '); break; // SameBoy doesn't emulate a specific AGB revision yet
}
bess_core.pc = LE16(gb->pc);
bess_core.af = LE16(gb->af);
bess_core.bc = LE16(gb->bc);
bess_core.de = LE16(gb->de);
bess_core.hl = LE16(gb->hl);
bess_core.sp = LE16(gb->sp);
bess_core.ime = gb->ime;
bess_core.ie = gb->interrupt_enable;
bess_core.execution_mode = 0;
if (gb->halted) {
bess_core.execution_mode = 1;
}
else if (gb->stopped) {
bess_core.execution_mode = 2;
}
memcpy(bess_core.io_registers, gb->io_registers, sizeof(gb->io_registers));
bess_core.io_registers[GB_IO_DIV] = gb->div_counter >> 8;
bess_core.io_registers[GB_IO_BANK] = gb->boot_rom_finished;
bess_core.io_registers[GB_IO_KEY1] |= gb->cgb_double_speed? 0x80 : 0;
bess_core.hram.size = LE32(sizeof(gb->hram));
bess_core.hram.offset = LE32(hram_offset + offsetof(GB_gameboy_t, hram) - GB_SECTION_OFFSET(hram));
bess_core.oam.size = LE32(sizeof(gb->oam));
bess_core.oam.offset = LE32(video_offset + offsetof(GB_gameboy_t, oam) - GB_SECTION_OFFSET(video));
if (GB_is_cgb(gb)) {
bess_core.background_palettes.size = LE32(sizeof(gb->background_palettes_data));
bess_core.background_palettes.offset = LE32(video_offset + offsetof(GB_gameboy_t, background_palettes_data) - GB_SECTION_OFFSET(video));
bess_core.sprite_palettes.size = LE32(sizeof(gb->sprite_palettes_data));
bess_core.sprite_palettes.offset = LE32(video_offset + offsetof(GB_gameboy_t, sprite_palettes_data) - GB_SECTION_OFFSET(video));
}
if (file->write(file, &bess_core, sizeof(bess_core)) != sizeof(bess_core)) {
goto error;
}
/* BESS XOAM */
BESS_XOAM_t bess_xoam = {0,};
bess_xoam.header = (BESS_block_t){BE32('XOAM'), LE32(sizeof(bess_xoam) - sizeof(bess_xoam.header))};
if (GB_is_cgb(gb)) {
memcpy(bess_xoam.extra_oam, gb->extra_oam, sizeof(bess_xoam.extra_oam));
}
if (file->write(file, &bess_xoam, sizeof(bess_xoam)) != sizeof(bess_xoam)) {
goto error;
}
save_bess_mbc_block(gb, file);
if (gb->cartridge_type->has_rtc) {
if (gb->cartridge_type ->mbc_type != GB_HUC3) {
BESS_RTC_t bess_rtc = {0,};
bess_rtc.header = (BESS_block_t){BE32('RTC '), LE32(sizeof(bess_rtc) - sizeof(bess_rtc.header))};
bess_rtc.real.seconds = gb->rtc_real.seconds;
bess_rtc.real.minutes = gb->rtc_real.minutes;
bess_rtc.real.hours = gb->rtc_real.hours;
bess_rtc.real.days = gb->rtc_real.days;
bess_rtc.real.high = gb->rtc_real.high;
bess_rtc.latched.seconds = gb->rtc_latched.seconds;
bess_rtc.latched.minutes = gb->rtc_latched.minutes;
bess_rtc.latched.hours = gb->rtc_latched.hours;
bess_rtc.latched.days = gb->rtc_latched.days;
bess_rtc.latched.high = gb->rtc_latched.high;
bess_rtc.last_rtc_second = LE64(gb->last_rtc_second);
if (file->write(file, &bess_rtc, sizeof(bess_rtc)) != sizeof(bess_rtc)) {
goto error;
}
}
else {
BESS_HUC3_t bess_huc3 = {0,};
bess_huc3.header = (BESS_block_t){BE32('HUC3'), LE32(sizeof(bess_huc3) - sizeof(bess_huc3.header))};
bess_huc3.data = (GB_huc3_rtc_time_t) {
LE64(gb->last_rtc_second),
LE16(gb->huc3_minutes),
LE16(gb->huc3_days),
LE16(gb->huc3_alarm_minutes),
LE16(gb->huc3_alarm_days),
gb->huc3_alarm_enabled,
};
if (file->write(file, &bess_huc3, sizeof(bess_huc3)) != sizeof(bess_huc3)) {
goto error;
}
}
}
bool needs_sgb_padding = false;
if (gb->sgb) {
/* BESS SGB */
if (gb->sgb->disable_commands) {
needs_sgb_padding = true;
}
else {
BESS_SGB_t bess_sgb = {{BE32('SGB '), LE32(sizeof(bess_sgb) - sizeof(bess_sgb.header))}, };
bess_sgb.border_tiles = (BESS_buffer_t){LE32(sizeof(gb->sgb->pending_border.tiles)),
LE32(sgb_offset + offsetof(GB_sgb_t, pending_border.tiles))};
bess_sgb.border_tilemap = (BESS_buffer_t){LE32(sizeof(gb->sgb->pending_border.map)),
LE32(sgb_offset + offsetof(GB_sgb_t, pending_border.map))};
bess_sgb.border_palettes = (BESS_buffer_t){LE32(sizeof(gb->sgb->pending_border.palette)),
LE32(sgb_offset + offsetof(GB_sgb_t, pending_border.palette))};
bess_sgb.active_palettes = (BESS_buffer_t){LE32(sizeof(gb->sgb->effective_palettes)),
LE32(sgb_offset + offsetof(GB_sgb_t, effective_palettes))};
bess_sgb.ram_palettes = (BESS_buffer_t){LE32(sizeof(gb->sgb->ram_palettes)),
LE32(sgb_offset + offsetof(GB_sgb_t, ram_palettes))};
bess_sgb.attribute_map = (BESS_buffer_t){LE32(sizeof(gb->sgb->attribute_map)),
LE32(sgb_offset + offsetof(GB_sgb_t, attribute_map))};
bess_sgb.attribute_files = (BESS_buffer_t){LE32(sizeof(gb->sgb->attribute_files)),
LE32(sgb_offset + offsetof(GB_sgb_t, attribute_files))};
bess_sgb.multiplayer_state = (gb->sgb->player_count << 4) | (gb->sgb->current_player & (gb->sgb->player_count - 1));
if (file->write(file, &bess_sgb, sizeof(bess_sgb)) != sizeof(bess_sgb)) {
goto error;
}
}
}
/* BESS END */
static const BESS_block_t bess_end = {BE32('END '), 0};
if (file->write(file, &bess_end, sizeof(bess_end)) != sizeof(bess_end)) {
goto error;
}
if (needs_sgb_padding) {
static const uint8_t sgb_padding[sizeof(BESS_SGB_t)] = {0,};
file->write(file, sgb_padding, sizeof(sgb_padding));
}
/* BESS Footer */
if (file->write(file, &bess_footer, sizeof(bess_footer)) != sizeof(bess_footer)) {
goto error;
}
errno = 0;
error:
return errno;
}
int GB_save_state(GB_gameboy_t *gb, const char *path)
{
FILE *f = fopen(path, "wb");
if (!f) {
GB_log(gb, "Could not open save state: %s.\n", strerror(errno));
return errno;
}
virtual_file_t file = {
.write = file_write,
.seek = file_seek,
.tell = file_tell,
.file = f,
};
int ret = save_state_internal(gb, &file);
fclose(f);
return ret;
}
void GB_save_state_to_buffer(GB_gameboy_t *gb, uint8_t *buffer)
{
virtual_file_t file = {
.write = buffer_write,
.seek = buffer_seek,
.tell = buffer_tell,
.buffer = (uint8_t *)buffer,
.position = 0,
};
save_state_internal(gb, &file);
assert(file.position == GB_get_save_state_size(gb));
}
static bool read_section(virtual_file_t *file, void *dest, uint32_t size, bool fix_broken_windows_saves)
{
uint32_t saved_size = 0;
if (file->read(file, &saved_size, sizeof(size)) != sizeof(size)) {
return false;
}
if (fix_broken_windows_saves) {
if (saved_size < 4) {
return false;
}
saved_size -= 4;
file->seek(file, 4, SEEK_CUR);
}
if (saved_size <= size) {
if (file->read(file, dest, saved_size) != saved_size) {
return false;
}
}
else {
if (file->read(file, dest, size) != size) {
return false;
}
file->seek(file, saved_size - size, SEEK_CUR);
}
return true;
}
static void read_bess_buffer(const BESS_buffer_t *buffer, virtual_file_t *file, uint8_t *dest, size_t max_size)
{
size_t pos = file->tell(file);
file->seek(file, LE32(buffer->offset), SEEK_SET);
file->read(file, dest, MIN(LE32(buffer->size), max_size));
file->seek(file, pos, SEEK_SET);
if (LE32(buffer->size) < max_size) {
memset(dest + LE32(buffer->size), 0, max_size - LE32(buffer->size));
}
}
static int load_bess_save(GB_gameboy_t *gb, virtual_file_t *file, bool is_sameboy)
{
char emulator_name[65] = {0,};
file->seek(file, -sizeof(BESS_footer_t), SEEK_END);
BESS_footer_t footer = {0, };
file->read(file, &footer, sizeof(footer));
if (footer.magic != BE32('BESS')) {
// Not a BESS file
if (!is_sameboy) {
GB_log(gb, "The file is not a save state, or is from an incompatible operating system.\n");
}
return -1;
}
GB_gameboy_t save;
GB_init(&save, gb->model);
save.cartridge_type = gb->cartridge_type;
file->seek(file, LE32(footer.start_offset), SEEK_SET);
bool found_core = false;
BESS_CORE_t core = {0,};
bool found_sgb = false;
BESS_SGB_t sgb = {0,};
while (true) {
BESS_block_t block;
if (file->read(file, &block, sizeof(block)) != sizeof(block)) goto error;
switch (block.magic) {
case BE32('CORE'):
if (found_core) goto parse_error;
found_core = true;
if (LE32(block.size) > sizeof(core) - sizeof(block)) {
if (file->read(file, &core.header + 1, sizeof(core) - sizeof(block)) != sizeof(core) - sizeof(block)) goto error;
file->seek(file, LE32(block.size) - (sizeof(core) - sizeof(block)), SEEK_CUR);
}
else {
if (file->read(file, &core.header + 1, LE32(block.size)) != LE32(block.size)) goto error;
}
if (core.major != LE16(1)) {
GB_log(gb, "This save state uses an incompatible version of the BESS specification");
GB_free(&save);
return -1;
}
switch (core.family) {
case 'C':
if (!GB_is_cgb(&save)) goto wrong_model;
break;
case 'S':
if (!GB_is_sgb(&save)) goto wrong_model;
break;
case 'G':
if (GB_is_cgb(&save) || GB_is_sgb(&save)) goto wrong_model;
break;
default:
wrong_model:
GB_log(gb, "The save state is for a different model. Try changing the emulated model.\n");
GB_free(&save);
return -1;
}
save.pc = LE16(core.pc);
save.af = LE16(core.af);
save.bc = LE16(core.bc);
save.de = LE16(core.de);
save.hl = LE16(core.hl);
save.sp = LE16(core.sp);
save.ime = core.ime;
save.interrupt_enable = core.ie;
save.halted = core.execution_mode == 1;
save.stopped = core.execution_mode == 2;
// CPU related
// Determines DMG mode
GB_write_memory(&save, 0xFF00 + GB_IO_KEY0, core.io_registers[GB_IO_KEY0]);
save.boot_rom_finished = core.io_registers[GB_IO_BANK];
GB_write_memory(&save, 0xFF00 + GB_IO_KEY1, core.io_registers[GB_IO_KEY1]);
if (save.cgb_mode) {
save.cgb_double_speed = core.io_registers[GB_IO_KEY1] & 0x80;
save.object_priority = GB_OBJECT_PRIORITY_INDEX;
}
else {
save.object_priority = GB_OBJECT_PRIORITY_X;
}
// Timers, Joypad and Serial
GB_write_memory(&save, 0xFF00 + GB_IO_JOYP, core.io_registers[GB_IO_JOYP]);
GB_write_memory(&save, 0xFF00 + GB_IO_SB, core.io_registers[GB_IO_SB]);
save.io_registers[GB_IO_SC] = core.io_registers[GB_IO_SC];
save.div_counter = core.io_registers[GB_IO_DIV] << 8;
GB_write_memory(&save, 0xFF00 + GB_IO_TIMA, core.io_registers[GB_IO_TIMA]);
GB_write_memory(&save, 0xFF00 + GB_IO_TMA, core.io_registers[GB_IO_TMA]);
GB_write_memory(&save, 0xFF00 + GB_IO_TAC, core.io_registers[GB_IO_TAC]);
// APU
GB_write_memory(&save, 0xFF00 + GB_IO_NR52, core.io_registers[GB_IO_NR52]);
for (unsigned i = GB_IO_NR10; i < GB_IO_NR52; i++) {
uint8_t value = core.io_registers[i];
if (i == GB_IO_NR14 || i == GB_IO_NR24 || i == GB_IO_NR34 || i == GB_IO_NR44) {
value &= ~0x80;
}
GB_write_memory(&save, 0xFF00 + i, value);
}
for (unsigned i = GB_IO_WAV_START; i <= GB_IO_WAV_END; i++) {
GB_write_memory(&save, 0xFF00 + i, core.io_registers[i]);
}
// PPU
GB_write_memory(&save, 0xFF00 + GB_IO_LCDC, core.io_registers[GB_IO_LCDC]);
GB_write_memory(&save, 0xFF00 + GB_IO_STAT, core.io_registers[GB_IO_STAT]);
GB_write_memory(&save, 0xFF00 + GB_IO_SCY, core.io_registers[GB_IO_SCY]);
GB_write_memory(&save, 0xFF00 + GB_IO_SCX, core.io_registers[GB_IO_SCX]);
GB_write_memory(&save, 0xFF00 + GB_IO_LYC, core.io_registers[GB_IO_LYC]);
save.io_registers[GB_IO_DMA] = core.io_registers[GB_IO_DMA];
GB_write_memory(&save, 0xFF00 + GB_IO_BGP, core.io_registers[GB_IO_BGP]);
GB_write_memory(&save, 0xFF00 + GB_IO_OBP0, core.io_registers[GB_IO_OBP0]);
GB_write_memory(&save, 0xFF00 + GB_IO_OBP1, core.io_registers[GB_IO_OBP1]);
GB_write_memory(&save, 0xFF00 + GB_IO_WX, core.io_registers[GB_IO_WX]);
GB_write_memory(&save, 0xFF00 + GB_IO_WY, core.io_registers[GB_IO_WY]);
// Other registers
GB_write_memory(&save, 0xFF00 + GB_IO_VBK, core.io_registers[GB_IO_VBK]);
GB_write_memory(&save, 0xFF00 + GB_IO_HDMA1, core.io_registers[GB_IO_HDMA1]);
GB_write_memory(&save, 0xFF00 + GB_IO_HDMA2, core.io_registers[GB_IO_HDMA2]);
GB_write_memory(&save, 0xFF00 + GB_IO_HDMA3, core.io_registers[GB_IO_HDMA3]);
GB_write_memory(&save, 0xFF00 + GB_IO_HDMA4, core.io_registers[GB_IO_HDMA4]);
GB_write_memory(&save, 0xFF00 + GB_IO_RP, core.io_registers[GB_IO_RP]);
GB_write_memory(&save, 0xFF00 + GB_IO_BGPI, core.io_registers[GB_IO_BGPI]);
GB_write_memory(&save, 0xFF00 + GB_IO_OBPI, core.io_registers[GB_IO_OBPI]);
GB_write_memory(&save, 0xFF00 + GB_IO_OPRI, core.io_registers[GB_IO_OPRI]);
GB_write_memory(&save, 0xFF00 + GB_IO_SVBK, core.io_registers[GB_IO_SVBK]);
// Interrupts
GB_write_memory(&save, 0xFF00 + GB_IO_IF, core.io_registers[GB_IO_IF]);
break;
case BE32('NAME'):
if (LE32(block.size) > sizeof(emulator_name) - 1) {
file->seek(file, LE32(block.size), SEEK_CUR);
}
else {
file->read(file, emulator_name, LE32(block.size));
}
break;
case BE32('XOAM'):
if (!found_core) goto parse_error;
if (LE32(block.size) != 96) goto parse_error;
file->read(file, save.extra_oam, sizeof(save.extra_oam));
break;
case BE32('MBC '):
if (!found_core) goto parse_error;
if (LE32(block.size) % 3 != 0) goto parse_error;
for (unsigned i = LE32(block.size); i > 0; i -= 3) {
BESS_MBC_pair_t pair;
file->read(file, &pair, sizeof(pair));
if (LE16(pair.address) >= 0x8000) goto parse_error;
GB_write_memory(&save, LE16(pair.address), pair.value);
}
break;
case BE32('RTC '):
if (!found_core) goto parse_error;
BESS_RTC_t bess_rtc;
if (LE32(block.size) != sizeof(bess_rtc) - sizeof(block)) goto parse_error;
if (file->read(file, &bess_rtc.header + 1, LE32(block.size)) != LE32(block.size)) goto error;
if (gb->cartridge_type->has_rtc && gb->cartridge_type->mbc_type != GB_HUC3) {
gb->rtc_real.seconds = bess_rtc.real.seconds;
gb->rtc_real.minutes = bess_rtc.real.minutes;
gb->rtc_real.hours = bess_rtc.real.hours;
gb->rtc_real.days = bess_rtc.real.days;
gb->rtc_real.high = bess_rtc.real.high;
gb->rtc_latched.seconds = bess_rtc.latched.seconds;
gb->rtc_latched.minutes = bess_rtc.latched.minutes;
gb->rtc_latched.hours = bess_rtc.latched.hours;
gb->rtc_latched.days = bess_rtc.latched.days;
gb->rtc_latched.high = bess_rtc.latched.high;
gb->last_rtc_second = LE64(bess_rtc.last_rtc_second);
}
break;
case BE32('HUC3'):
if (!found_core) goto parse_error;
BESS_HUC3_t bess_huc3;
if (LE32(block.size) != sizeof(bess_huc3) - sizeof(block)) goto parse_error;
if (file->read(file, &bess_huc3.header + 1, LE32(block.size)) != LE32(block.size)) goto error;
if (gb->cartridge_type->mbc_type == GB_HUC3) {
gb->last_rtc_second = LE64(bess_huc3.data.last_rtc_second);
gb->huc3_minutes = LE16(bess_huc3.data.minutes);
gb->huc3_days = LE16(bess_huc3.data.days);
gb->huc3_alarm_minutes = LE16(bess_huc3.data.alarm_minutes);
gb->huc3_alarm_days = LE16(bess_huc3.data.alarm_days);
gb->huc3_alarm_enabled = bess_huc3.data.alarm_enabled;
}
break;
case BE32('SGB '):
if (!found_core) goto parse_error;
if (LE32(block.size) != sizeof(BESS_SGB_t) - sizeof(block)) goto parse_error;
file->read(file, &sgb.header + 1, sizeof(BESS_SGB_t) - sizeof(block));
found_sgb = true;
break;
case BE32('END '):
if (!found_core) goto parse_error;
if (LE32(block.size) != 0) goto parse_error;
goto done;
default:
file->seek(file, LE32(block.size), SEEK_CUR);
break;
}
}
done:
save.mbc_ram_size = gb->mbc_ram_size;
memcpy(gb, &save, GB_SECTION_OFFSET(unsaved));
assert(GB_get_save_state_size(gb) == GB_get_save_state_size(&save));
GB_free(&save);
read_bess_buffer(&core.ram, file, gb->ram, gb->ram_size);
read_bess_buffer(&core.vram, file, gb->vram, gb->vram_size);
read_bess_buffer(&core.mbc_ram, file, gb->mbc_ram, gb->mbc_ram_size);
read_bess_buffer(&core.oam, file, gb->oam, sizeof(gb->oam));
read_bess_buffer(&core.hram, file, gb->hram, sizeof(gb->hram));
read_bess_buffer(&core.background_palettes, file, gb->background_palettes_data, sizeof(gb->background_palettes_data));
read_bess_buffer(&core.sprite_palettes, file, gb->sprite_palettes_data, sizeof(gb->sprite_palettes_data));
if (gb->sgb) {
memset(gb->sgb, 0, sizeof(*gb->sgb));
GB_sgb_load_default_data(gb);
if (gb->boot_rom_finished) {
gb->sgb->intro_animation = GB_SGB_INTRO_ANIMATION_LENGTH;
if (!found_sgb) {
gb->sgb->disable_commands = true;
}
else {
read_bess_buffer(&sgb.border_tiles, file, gb->sgb->border.tiles, sizeof(gb->sgb->border.tiles));
read_bess_buffer(&sgb.border_tilemap, file, (void *)gb->sgb->border.map, sizeof(gb->sgb->border.map));
read_bess_buffer(&sgb.border_palettes, file, (void *)gb->sgb->border.palette, sizeof(gb->sgb->border.palette));
read_bess_buffer(&sgb.active_palettes, file, (void *)gb->sgb->effective_palettes, sizeof(gb->sgb->effective_palettes));
read_bess_buffer(&sgb.ram_palettes, file, (void *)gb->sgb->ram_palettes, sizeof(gb->sgb->ram_palettes));
read_bess_buffer(&sgb.attribute_map, file, (void *)gb->sgb->attribute_map, sizeof(gb->sgb->attribute_map));
read_bess_buffer(&sgb.attribute_files, file, (void *)gb->sgb->attribute_files, sizeof(gb->sgb->attribute_files));
gb->sgb->player_count = sgb.multiplayer_state >> 4;
gb->sgb->current_player = sgb.multiplayer_state & 0xF;
if (gb->sgb->player_count > 4 || gb->sgb->player_count == 3) {
gb->sgb->player_count = 1;
gb->sgb->current_player = 0;
}
}
}
else {
// Effectively reset if didn't finish the boot ROM
gb->pc = 0;
}
}
if (emulator_name[0]) {
GB_log(gb, "Save state imported from %s.\n", emulator_name);
}
else {
GB_log(gb, "Save state imported from another emulator.\n"); // SameBoy always contains a NAME block
}
for (unsigned i = 0; i < 32; i++) {
GB_palette_changed(gb, false, i * 2);
GB_palette_changed(gb, true, i * 2);
}
return 0;
parse_error:
errno = -1;
error:
if (emulator_name[0]) {
GB_log(gb, "Attempted to import a save state from %s, but the save state is invalid.\n", emulator_name);
}
else {
GB_log(gb, "Attempted to import a save state from a different emulator or incompatible version, but the save state is invalid.\n");
}
GB_free(&save);
return errno;
}
static int load_state_internal(GB_gameboy_t *gb, virtual_file_t *file)
{
GB_gameboy_t save;
/* Every unread value should be kept the same. */
memcpy(&save, gb, sizeof(save));
/* ...Except ram size, we use it to detect old saves with incorrect ram sizes */
save.ram_size = 0;
bool fix_broken_windows_saves = false;
if (file->read(file, GB_GET_SECTION(&save, header), GB_SECTION_SIZE(header)) != GB_SECTION_SIZE(header)) return errno;
if (save.magic == 0) {
/* Potentially legacy, broken Windows save state*/
file->seek(file, 4, SEEK_SET);
if (file->read(file, GB_GET_SECTION(&save, header), GB_SECTION_SIZE(header)) != GB_SECTION_SIZE(header)) return errno;
fix_broken_windows_saves = true;
}
if (gb->magic != save.magic) {
return load_bess_save(gb, file, false);
}
#define READ_SECTION(gb, file, section) read_section(file, GB_GET_SECTION(gb, section), GB_SECTION_SIZE(section), fix_broken_windows_saves)
if (!READ_SECTION(&save, file, core_state)) return errno ?: EIO;
if (!READ_SECTION(&save, file, dma )) return errno ?: EIO;
if (!READ_SECTION(&save, file, mbc )) return errno ?: EIO;
if (!READ_SECTION(&save, file, hram )) return errno ?: EIO;
if (!READ_SECTION(&save, file, timing )) return errno ?: EIO;
if (!READ_SECTION(&save, file, apu )) return errno ?: EIO;
if (!READ_SECTION(&save, file, rtc )) return errno ?: EIO;
if (!READ_SECTION(&save, file, video )) return errno ?: EIO;
#undef READ_SECTION
bool attempt_bess = false;
if (!verify_and_update_state_compatibility(gb, &save, &attempt_bess)) {
if (attempt_bess) {
return load_bess_save(gb, file, true);
}
return errno;
}
if (GB_is_hle_sgb(gb)) {
if (!read_section(file, gb->sgb, sizeof(*gb->sgb), false)) return errno ?: EIO;
}
memset(gb->mbc_ram + save.mbc_ram_size, 0xFF, gb->mbc_ram_size - save.mbc_ram_size);
if (file->read(file, gb->mbc_ram, save.mbc_ram_size) != save.mbc_ram_size) {
return errno ?: EIO;
}
if (file->read(file, gb->ram, gb->ram_size) != gb->ram_size) {
return errno ?: EIO;
}
/* Fix for 0.11 save states that allocate twice the amount of RAM in CGB instances */
file->seek(file, save.ram_size - gb->ram_size, SEEK_CUR);
if (file->read(file, gb->vram, gb->vram_size) != gb->vram_size) {
return errno ?: EIO;
}
size_t orig_ram_size = gb->ram_size;
memcpy(gb, &save, sizeof(save));
gb->ram_size = orig_ram_size;
sanitize_state(gb);
return 0;
}
int GB_load_state(GB_gameboy_t *gb, const char *path)
{
FILE *f = fopen(path, "rb");
if (!f) {
GB_log(gb, "Could not open save state: %s.\n", strerror(errno));
return errno;
}
virtual_file_t file = {
.read = file_read,
.seek = file_seek,
.tell = file_tell,
.file = f,
};
int ret = load_state_internal(gb, &file);
fclose(f);
return ret;
}
int GB_load_state_from_buffer(GB_gameboy_t *gb, const uint8_t *buffer, size_t length)
{
virtual_file_t file = {
.read = buffer_read,
.seek = buffer_seek,
.tell = buffer_tell,
.buffer = (uint8_t *)buffer,
.position = 0,
.size = length,
};
return load_state_internal(gb, &file);
}