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|
//******************************************
// SUPER NINTENDO MODULE
//******************************************
#ifdef enable_SNES
/******************************************
Defines
*****************************************/
// SNES Hi and LoRom, SA is HI with different Sram dumping
#define EX 4
#define SA 3
#define HI 1
#define LO 0
/******************************************
Variables
*****************************************/
// Define SNES Cart Reader Variables
int romSpeed = 0; // 0 = SlowROM, 3 = FastROM
int romChips = 0; // 0 = ROM only, 1 = ROM & RAM, 2 = ROM & Save RAM, 3 = ROM & DSP1, 4 = ROM & RAM & DSP1, 5 = ROM & Save RAM & DSP1, 19 = ROM & SFX
// 227 = ROM & RAM & GameBoy data, 243 = CX4, 246 = ROM & DSP2
byte romSizeExp = 0; // ROM-Size Exponent
boolean NP = false;
byte cx4Type = 0;
byte cx4Map = 0;
boolean altconf = 0;
/******************************************
Menu
*****************************************/
// SNES/Nintendo Power SF Memory start menu
static const char snsMenuItem1[] PROGMEM = "SNES/SFC cartridge";
static const char snsMenuItem2[] PROGMEM = "SF Memory Cassette";
static const char snsMenuItem3[] PROGMEM = "Satellaview BS-X";
static const char snsMenuItem4[] PROGMEM = "Flash repro";
#ifdef clockgen_calibration
static const char snsMenuItem5[] PROGMEM = "Calibrate Clock";
//static const char snsMenuItem6[] PROGMEM = "Reset"; (stored in common strings array)
static const char* const menuOptionsSNS[] PROGMEM = { snsMenuItem1, snsMenuItem2, snsMenuItem3, snsMenuItem4, snsMenuItem5, string_reset2 };
#else
//static const char snsMenuItem5[] PROGMEM = "Reset"; (stored in common strings array)
static const char* const menuOptionsSNS[] PROGMEM = { snsMenuItem1, snsMenuItem2, snsMenuItem3, snsMenuItem4, string_reset2 };
#endif
// SNES menu items
static const char SnesMenuItem1[] PROGMEM = "Read ROM";
static const char SnesMenuItem2[] PROGMEM = "Read Save";
static const char SnesMenuItem3[] PROGMEM = "Write Save";
static const char SnesMenuItem4[] PROGMEM = "Test SRAM";
static const char SnesMenuItem5[] PROGMEM = "Cycle cart";
static const char SnesMenuItem6[] PROGMEM = "Force cart type";
//static const char SnesMenuItem7[] PROGMEM = "Reset"; (stored in common strings array)
static const char* const menuOptionsSNES[] PROGMEM = { SnesMenuItem1, SnesMenuItem2, SnesMenuItem3, SnesMenuItem4, SnesMenuItem5, SnesMenuItem6, string_reset2 };
// Manual config menu items
static const char confMenuItem1[] PROGMEM = "Use header info";
static const char confMenuItem2[] PROGMEM = "4MB LoROM 256K SRAM";
static const char confMenuItem3[] PROGMEM = "4MB HiROM 64K SRAM";
static const char confMenuItem4[] PROGMEM = "6MB ExROM 256K SRAM";
//static const char confMenuItem5[] PROGMEM = "Reset"; (stored in common strings array)
static const char* const menuOptionsConfManual[] PROGMEM = { confMenuItem1, confMenuItem2, confMenuItem3, confMenuItem4, string_reset2 };
// Repro menu items
static const char reproMenuItem1[] PROGMEM = "LoROM (P0)";
static const char reproMenuItem2[] PROGMEM = "HiROM (P0)";
static const char reproMenuItem3[] PROGMEM = "ExLoROM (P1)";
static const char reproMenuItem4[] PROGMEM = "ExHiROM (P1)";
//static const char reproMenuItem5[] PROGMEM = "Reset"; (stored in common strings array)
static const char* const menuOptionsRepro[] PROGMEM = { reproMenuItem1, reproMenuItem2, reproMenuItem3, reproMenuItem4, string_reset2 };
// SNES repro menu
void reproMenu() {
// create menu with title and 6 options to choose from
unsigned char snsRepro;
// Copy menuOptions out of progmem
convertPgm(menuOptionsRepro, 5);
snsRepro = question_box(F("Select Repro Type"), menuOptions, 5, 0);
// wait for user choice to come back from the question box menu
switch (snsRepro) {
#ifdef enable_FLASH
case 0:
// LoRom
display_Clear();
display_Update();
mapping = 0;
setup_Flash8();
id_Flash8();
wait();
mode = mode_FLASH8;
break;
case 1:
// HiRom
display_Clear();
display_Update();
mapping = 1;
setup_Flash8();
id_Flash8();
wait();
mode = mode_FLASH8;
break;
case 2:
// ExLoRom
display_Clear();
display_Update();
mapping = 2;
setup_Flash8();
id_Flash8();
wait();
mode = mode_FLASH8;
break;
case 3:
// ExHiRom
display_Clear();
display_Update();
mapping = 3;
setup_Flash8();
id_Flash8();
wait();
mode = mode_FLASH8;
break;
#endif
case 4:
resetArduino();
break;
}
}
// SNES start menu
void snsMenu() {
// create menu with title and 6 options to choose from
unsigned char snsCart;
// Copy menuOptions out of progmem
#ifdef clockgen_calibration
convertPgm(menuOptionsSNS, 6);
snsCart = question_box(F("Select Cart Type"), menuOptions, 6, 0);
#else
convertPgm(menuOptionsSNS, 5);
snsCart = question_box(F("Select Cart Type"), menuOptions, 5, 0);
#endif
// wait for user choice to come back from the question box menu
switch (snsCart) {
case 0:
display_Clear();
display_Update();
setup_Snes();
mode = mode_SNES;
break;
#ifdef enable_SFM
case 1:
display_Clear();
display_Update();
setup_SFM();
mode = mode_SFM;
break;
#endif
#ifdef enable_SV
case 2:
display_Clear();
display_Update();
setup_SV();
mode = mode_SV;
break;
#endif
#ifdef enable_FLASH
case 3:
setup_FlashVoltage();
reproMenu();
break;
#endif
case 4:
#ifdef clockgen_calibration
clkcal();
break;
case 5:
#endif
resetArduino();
break;
default:
print_MissingModule(); // does not return
}
}
// SNES Menu
void snesMenu() {
// create menu with title and 7 options to choose from
unsigned char mainMenu;
// Copy menuOptions out of progmem
convertPgm(menuOptionsSNES, 7);
mainMenu = question_box(F("SNES Cart Reader"), menuOptions, 7, 0);
// wait for user choice to come back from the question box menu
switch (mainMenu) {
case 0:
{
if (numBanks > 0) {
display_Clear();
// Change working dir to root
sd.chdir("/");
// start reading from cart
readROM_SNES();
// Internal Checksum
compare_checksum();
// CRC32
compareCRC("snes.txt", 0, 1, 0);
#ifdef global_log
save_log();
#endif
display_Update();
} else {
display_Clear();
print_Error(F("Does not have ROM"));
}
}
break;
case 1:
if (sramSize > 0) {
display_Clear();
// Change working dir to root
sd.chdir("/");
readSRAM();
} else {
display_Clear();
print_Error(F("Does not have SRAM"));
}
break;
case 2:
if (sramSize > 0) {
display_Clear();
// Change working dir to root
sd.chdir("/");
writeSRAM(1);
unsigned long wrErrors;
wrErrors = verifySRAM();
if (wrErrors == 0) {
println_Msg(F("Verified OK"));
display_Update();
} else {
print_STR(error_STR, 0);
print_Msg(wrErrors);
print_STR(_bytes_STR, 1);
print_Error(did_not_verify_STR);
}
} else {
display_Clear();
print_Error(F("Does not have SRAM"));
}
break;
case 3:
if (sramSize > 0) {
display_Clear();
println_Msg(F("Warning:"));
println_Msg(F("This can erase"));
println_Msg(F("your save games"));
println_Msg(F(""));
println_Msg(F(""));
println_Msg(F("Press any button to"));
println_Msg(F("start sram testing"));
display_Update();
wait();
display_Clear();
// Change working dir to root
sd.chdir("/");
readSRAM();
eraseSRAM(0x00);
eraseSRAM(0xFF);
writeSRAM(0);
unsigned long wrErrors = verifySRAM();
if (wrErrors == 0) {
println_Msg(F("Restored OK"));
display_Update();
} else {
print_STR(error_STR, 0);
print_Msg(wrErrors);
print_STR(_bytes_STR, 1);
print_Error(did_not_verify_STR);
}
} else {
display_Clear();
print_Error(F("Does not have SRAM"));
}
break;
case 4:
// For arcademaster1 (Markfrizb) multi-game carts
// Set reset pin to output (PH0)
DDRH |= (1 << 0);
// Switch RST(PH0) to LOW
PORTH &= ~(1 << 0);
// Note: It is probably not intended to reset CIC or clocks here
// But if that's false, uncomment this:
// stopSnesClocks_resetCic_resetCart();
display_Clear();
print_Msg(F("Resetting..."));
display_Update();
delay(3000); // wait 3 secs to switch to next game
resetArduino();
break;
case 5:
confMenuManual();
display_Clear();
display_Update();
break;
case 6:
stopSnesClocks_resetCic_resetCart();
resetArduino();
break;
}
//println_Msg(F(""));
// Prints string out of the common strings array either with or without newline
print_STR(press_button_STR, 1);
display_Update();
wait();
}
// Menu for manual configuration
void confMenuManual() {
// create menu with title and 5 options to choose from
unsigned char subMenu;
// Copy menuOptions out of progmem
convertPgm(menuOptionsConfManual, 5);
subMenu = question_box(F("Choose mapping"), menuOptions, 5, 0);
// wait for user choice to come back from the question box menu
switch (subMenu) {
case 0:
break;
case 1:
romType = LO;
numBanks = 128;
sramSize = 256;
strcpy(romName, "LoROM");
break;
case 2:
romType = HI;
numBanks = 64;
sramSize = 64;
strcpy(romName, "HiROM");
break;
case 3:
romType = EX;
numBanks = 96;
sramSize = 256;
strcpy(romName, "ExROM");
break;
case 4:
// Reset
stopSnesClocks_resetCic_resetCart();
resetArduino();
break;
}
}
void stopSnesClocks_resetCic_resetCart() {
DDRG |= (1 << 1); // Set cicrstPin(PG1) to Output
PORTG |= (1 << 1); // pull high = reset CIC
DDRH |= (1 << 0); // Set RST(PH0) pin to Output
PORTH &= ~(1 << 0); // Switch RST(PH0) to LOW
if (i2c_found) {
clockgen.output_enable(SI5351_CLK1, 0); // CPU clock
clockgen.output_enable(SI5351_CLK2, 0); // CIC clock
clockgen.output_enable(SI5351_CLK0, 0); // master clock
}
}
/******************************************
Setup
*****************************************/
void setup_Snes() {
// Request 5V
setVoltage(VOLTS_SET_5V);
// Set cicrstPin(PG1) to Output
DDRG |= (1 << 1);
// Output a high signal until we're ready to start
PORTG |= (1 << 1);
// Set cichstPin(PG0) to Input
DDRG &= ~(1 << 0);
// Set Address Pins to Output
//A0-A7
DDRF = 0xFF;
//A8-A15
DDRK = 0xFF;
//BA0-BA7
DDRL = 0xFF;
//PA0-PA7
DDRA = 0xFF;
// Set Control Pins to Output RST(PH0) CS(PH3) WR(PH5) RD(PH6)
DDRH |= (1 << 0) | (1 << 3) | (1 << 5) | (1 << 6);
// Switch RST(PH0) and WR(PH5) to HIGH
PORTH |= (1 << 0) | (1 << 5);
// Switch CS(PH3) and RD(PH6) to LOW
PORTH &= ~((1 << 3) | (1 << 6));
// Set Refresh(PE5) to Output
DDRE |= (1 << 5);
// Switch Refresh(PE5) to LOW (needed for SA-1)
PORTE &= ~(1 << 5);
// Set CPU Clock(PH1) to Output
DDRH |= (1 << 1);
//PORTH &= ~(1 << 1);
// Set IRQ(PH4) to Input
DDRH &= ~(1 << 4);
// Activate Internal Pullup Resistors
//PORTH |= (1 << 4);
// Set expand(PG5) to Input
DDRG &= ~(1 << 5);
// Activate Internal Pullup Resistors
//PORTG |= (1 << 5);
// Set Data Pins (D0-D7) to Input
DDRC = 0x00;
// Enable Internal Pullups
//PORTC = 0xFF;
// Unused pins
// Set wram(PE4) to Output
DDRE |= (1 << 4);
//PORTE &= ~(1 << 4);
// Set pawr(PJ1) to Output
DDRJ |= (1 << 1);
//PORTJ &= ~(1 << 1);
// Set pard(PJ0) to Output
DDRJ |= (1 << 0);
//PORTJ &= ~(1 << 0);
// Adafruit Clock Generator
initializeClockOffset();
if (i2c_found) {
// Set clocks to 4Mhz/1Mhz for better SA-1 unlocking
clockgen.set_freq(100000000ULL, SI5351_CLK1); // CPU
clockgen.set_freq(100000000ULL, SI5351_CLK2); // CIC
clockgen.set_freq(400000000ULL, SI5351_CLK0); // EXT
// Start outputting master clock, CIC clock
clockgen.output_enable(SI5351_CLK1, 0); // no CPU clock yet; seems to affect SA-1 success a lot
clockgen.output_enable(SI5351_CLK2, 1); // CIC clock (should go before master clock)
clockgen.output_enable(SI5351_CLK0, 1); // master clock
// Wait for clock generator
clockgen.update_status();
delay(500);
}
#ifdef clockgen_installed
else {
display_Clear();
print_FatalError(F("Clock Generator not found"));
}
#endif
// Start CIC by outputting a low signal to cicrstPin(PG1)
PORTG &= ~(1 << 1);
// Wait for CIC reset
delay(500);
// Print all the info
getCartInfo_SNES();
if (i2c_found) {
//Set clocks to standard or else SA-1 sram writing will fail
clockgen.set_freq(2147727200ULL, SI5351_CLK0);
clockgen.set_freq(357954500ULL, SI5351_CLK1);
clockgen.set_freq(307200000ULL, SI5351_CLK2);
}
}
/******************************************
I/O Functions
*****************************************/
// Switch control pins to write
void controlOut_SNES() {
// Switch RD(PH6) and WR(PH5) to HIGH
PORTH |= (1 << 6) | (1 << 5);
// Switch CS(PH3) to LOW
PORTH &= ~(1 << 3);
}
// Switch control pins to read
void controlIn_SNES() {
// Switch WR(PH5) to HIGH
PORTH |= (1 << 5);
// Switch CS(PH3) and RD(PH6) to LOW
PORTH &= ~((1 << 3) | (1 << 6));
}
/******************************************
Low level functions
*****************************************/
// Write one byte of data to a location specified by bank and address, 00:0000
void writeBank_SNES(byte myBank, word myAddress, byte myData) {
PORTL = myBank;
PORTF = myAddress & 0xFF;
PORTK = (myAddress >> 8) & 0xFF;
PORTC = myData;
// Arduino running at 16Mhz -> one nop = 62.5ns
// Wait till output is stable
__asm__("nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t");
// Switch WR(PH5) to LOW
PORTH &= ~(1 << 5);
// Leave WR low for at least 60ns
__asm__("nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t");
// Switch WR(PH5) to HIGH
PORTH |= (1 << 5);
// Leave WR high for at least 50ns
__asm__("nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t"
"nop\n\t");
}
// Read one byte of data from a location specified by bank and address, 00:0000
byte readBank_SNES(byte myBank, word myAddress) {
PORTL = myBank;
PORTF = myAddress & 0xFF;
PORTK = (myAddress >> 8) & 0xFF;
// Wait for the Byte to appear on the data bus
// Arduino running at 16Mhz -> one nop = 62.5ns
// slowRom is good for 200ns, fastRom is <= 120ns; S-CPU best case read speed: 3.57MHz / 280ns
// let's be conservative and use 6 x 62.5 = 375ns
NOP;
NOP;
NOP;
NOP;
NOP;
NOP;
// Read
byte tempByte = PINC;
return tempByte;
}
void readLoRomBanks(unsigned int start, unsigned int total, FsFile* file) {
byte buffer[1024] = { 0 };
uint16_t c = 0;
uint16_t currByte = 32768;
//Initialize progress bar
uint32_t processedProgressBar = 0;
uint32_t totalProgressBar = (uint32_t)(total - start) * 1024;
draw_progressbar(0, totalProgressBar);
for (word currBank = start; currBank < total; currBank++) {
PORTL = currBank;
// Blink led
blinkLED();
currByte = 32768;
while (1) {
c = 0;
while (c < 1024) {
PORTF = (currByte & 0xFF);
PORTK = ((currByte >> 8) & 0xFF);
// Wait for the Byte to appear on the data bus
// Arduino running at 16Mhz -> one nop = 62.5ns
// slowRom is good for 200ns, fastRom is <= 120ns; S-CPU best case read speed: 3.57MHz / 280ns
// let's be conservative and use 6 x 62.5 = 375ns
NOP;
NOP;
NOP;
NOP;
NOP;
NOP;
buffer[c] = PINC;
c++;
currByte++;
}
file->write(buffer, 1024);
// exit while(1) loop once the uint16_t currByte overflows from 0xffff to 0 (current bank is done)
if (currByte == 0) break;
}
// update progress bar
processedProgressBar += 1024;
draw_progressbar(processedProgressBar, totalProgressBar);
}
}
void readHiRomBanks(unsigned int start, unsigned int total, FsFile* file) {
byte buffer[1024] = { 0 };
uint16_t c = 0;
uint16_t currByte = 0;
//Initialize progress bar
uint32_t processedProgressBar = 0;
uint32_t totalProgressBar = (uint32_t)(total - start) * 1024;
draw_progressbar(0, totalProgressBar);
for (word currBank = start; currBank < total; currBank++) {
PORTL = currBank;
// Blink led
blinkLED();
currByte = 0;
while (1) {
c = 0;
while (c < 1024) {
PORTF = (currByte & 0xFF);
PORTK = ((currByte >> 8) & 0xFF);
// Wait for the Byte to appear on the data bus
// Arduino running at 16Mhz -> one nop = 62.5ns
// slowRom is good for 200ns, fastRom is <= 120ns; S-CPU best case read speed: 3.57MHz / 280ns
// let's be conservative and use 6 x 62.5 = 375ns
NOP;
NOP;
NOP;
NOP;
NOP;
NOP;
buffer[c] = PINC;
c++;
currByte++;
}
file->write(buffer, 1024);
// exit while(1) loop once the uint16_t currByte overflows from 0xffff to 0 (current bank is done)
if (currByte == 0) break;
}
// update progress bar
processedProgressBar += 1024;
draw_progressbar(processedProgressBar, totalProgressBar);
}
}
/******************************************
SNES ROM Functions
******************************************/
void getCartInfo_SNES() {
boolean manualConfig = 0;
//Prime SA1 cartridge
PORTL = 192;
for (uint16_t currByte = 0; currByte < 1024; currByte++) {
PORTF = currByte & 0xFF;
PORTK = currByte >> 8;
// Wait for the Byte to appear on the data bus
// Arduino running at 16Mhz -> one nop = 62.5ns
// slowRom is good for 200ns, fastRom is <= 120ns; S-CPU best case read speed: 3.57MHz / 280ns
// let's be conservative and use 6 x 62.5 = 375ns
NOP;
NOP;
NOP;
NOP;
NOP;
NOP;
}
// Print start page
if (checkcart_SNES() == 0) {
// Checksum either corrupt or 0000
manualConfig = 1;
errorLvl = 1;
setColor_RGB(255, 0, 0);
display_Clear();
println_Msg(F("ERROR"));
println_Msg(F("Rom header corrupt"));
println_Msg(F("or missing"));
println_Msg(F(""));
println_Msg(F(""));
println_Msg(F("Press button for"));
println_Msg(F("manual configuration"));
println_Msg(F("or powercycle if SA1"));
display_Update();
wait();
// Wait() clears errors but in this case we still have an error
errorLvl = 1;
}
display_Clear();
print_Msg(F("Title: "));
println_Msg(romName);
print_Msg(F("Revision: "));
println_Msg(romVersion);
print_Msg(F("Type: "));
if (romType == HI)
print_Msg(F("HiROM"));
else if (romType == LO)
print_Msg(F("LoROM"));
else if (romType == EX)
print_Msg(F("ExHiRom"));
else
print_Msg(romType);
print_Msg(F(" "));
if (romSpeed == 0)
println_Msg(F("SlowROM"));
else if (romSpeed == 2)
println_Msg(F("SlowROM"));
else if (romSpeed == 3)
println_Msg(F("FastROM"));
else
println_Msg(romSpeed);
print_Msg(F("ICs: ROM "));
if (romChips == 0)
println_Msg(F("ONLY"));
else if (romChips == 1)
println_Msg(F("RAM"));
else if (romChips == 2)
println_Msg(F("SAVE"));
else if (romChips == 3)
println_Msg(F("DSP1"));
else if (romChips == 4)
println_Msg(F("DSP1 RAM"));
else if (romChips == 5)
println_Msg(F("DSP1 SAVE"));
else if ((romChips == 19) || (romChips == 20) || (romChips == 21) || (romChips == 26))
println_Msg(F("SuperFX"));
else if (romChips == 52) {
println_Msg(F("SA1 RAM"));
romType = SA;
} else if (romChips == 53) {
println_Msg(F("SA1 RAM BATT"));
romType = SA;
} else if (romChips == 67) {
println_Msg(F("SDD1"));
} else if (romChips == 69) {
println_Msg(F("SDD1 BATT"));
} else if (romChips == 85)
println_Msg(F("SRTC RAM BATT"));
else if (romChips == 227)
println_Msg(F("RAM GBoy"));
else if (romChips == 243)
println_Msg(F("CX4"));
else if (romChips == 246)
println_Msg(F("DSP2"));
else if (romChips == 245)
println_Msg(F("SPC RAM BATT"));
else if (romChips == 249)
println_Msg(F("SPC RAM RTC"));
else
println_Msg(F(""));
if (altconf)
print_Msg(F("Rom Size: "));
else
print_Msg(F("ROM Size: "));
if ((romSize >> 3) < 1) {
print_Msg(1024 * romSize >> 3);
print_Msg(F(" KB"));
} else {
print_Msg(romSize >> 3);
print_Msg(F(" MB"));
}
print_Msg(F(" ("));
print_Msg(numBanks);
println_Msg(F(" banks)"));
//print_Msg(F("Chips: "));
//println_Msg(romChips);
print_Msg(F("Save Size: "));
print_Msg(sramSize >> 3);
println_Msg(F(" KB"));
print_Msg(F("Checksum: "));
println_Msg(checksumStr);
display_Update();
// Wait for user input
#if (defined(enable_LCD) || defined(enable_OLED))
// Prints string out of the common strings array either with or without newline
print_STR(press_button_STR, 1);
display_Update();
wait();
#endif
#ifdef enable_serial
println_Msg(F(" "));
#endif
// Start manual config
if (manualConfig == 1) {
confMenuManual();
}
}
void checkAltConf(char crcStr[9]) {
char tempStr2[5];
char tempStr3[9];
altconf = 0;
if (myFile.open("snes.txt", O_READ)) {
// Get cart info
display_Clear();
println_Msg(F("Searching database..."));
print_Msg(F("Checksum: "));
println_Msg(checksumStr);
display_Update();
while (myFile.available()) {
// Skip first line with name
skip_line(&myFile);
// Skip over the CRC checksum
myFile.seekCur(9);
// Get internal ROM checksum as string
for (byte j = 0; j < 4; j++) {
tempStr2[j] = char(myFile.read());
}
tempStr2[4] = '\0';
// Check if checksum string is a match else go to next entry in database
if (strcmp(tempStr2, checksumStr) == 0) {
// Skip the , in the file
myFile.seekCur(1);
// Read the CRC32 of the SNES header out of database
for (byte k = 0; k < 8; k++) {
tempStr3[k] = char(myFile.read());
}
tempStr3[8] = '\0';
print_Msg(F("Header CRC32: "));
println_Msg(tempStr3);
display_Update();
// Skip the , in the file
myFile.seekCur(1);
// Read file size
byte romSize2 = (myFile.read() - 48) * 10 + (myFile.read() - 48);
// Skip the , in the file
myFile.seekCur(1);
// Read number of banks
byte numBanks2 = (myFile.read() - 48) * 100 + (myFile.read() - 48) * 10 + (myFile.read() - 48);
// skip CRLF
myFile.seekCur(2);
// skip third empty line
skip_line(&myFile);
// Some games have the same checksum, so compare CRC32 of header area with database too
if (strcmp(tempStr3, crcStr) == 0) {
println_Msg(F("Found"));
display_Update();
// Game found, check if ROM sizes differ but only change ROM size if non- standard size found in database, else trust the header to be right and the database to be wrong
if (((romSize != romSize2) || (numBanks != numBanks2)) && ((romSize2 == 10) || (romSize2 == 12) || (romSize2 == 20) || (romSize2 == 24) || (romSize2 == 40) || (romSize2 == 48))) {
// Correct size
println_Msg(F("Correcting size"));
print_Msg(F("Size: "));
print_Msg(romSize);
print_Msg(F(" -> "));
print_Msg(romSize2);
println_Msg(F("Mbit"));
print_Msg(F("Banks: "));
print_Msg(numBanks);
print_Msg(F(" -> "));
println_Msg(numBanks2);
display_Update();
delay(1000);
romSize = romSize2;
numBanks = numBanks2;
altconf = 1;
}
break;
}
}
// If no match go to next entry
else {
// skip rest of line
myFile.seekCur(18);
// skip third empty line
skip_line(&myFile);
}
}
// Close the file:
myFile.close();
}
}
// Read header
boolean checkcart_SNES() {
// set control to read
dataIn();
uint16_t headerStart = 0xFFB0;
byte snesHeader[80];
PORTL = 0;
for (uint16_t c = 0, currByte = headerStart; c < 80; c++, currByte++) {
PORTF = (currByte & 0xFF);
PORTK = ((currByte >> 8) & 0xFF);
NOP;
NOP;
NOP;
NOP;
NOP;
NOP;
NOP;
NOP;
NOP;
NOP;
NOP;
NOP;
snesHeader[c] = PINC;
}
// Calculate CRC32 of header
char crcStr[9];
sprintf(crcStr, "%08lX", calculateCRC(snesHeader, 80));
// Get Checksum as string
sprintf(checksumStr, "%02X%02X", snesHeader[0xFFDF - headerStart], snesHeader[0xFFDE - headerStart]);
romType = snesHeader[0xFFD5 - headerStart];
if ((romType >> 5) != 1) { // Detect invalid romType byte due to too long ROM name (22 chars)
romType = LO; // LoROM // Krusty's Super Fun House (U) 1.0 & Contra 3 (U)
} else if (romType == 0x35) {
romType = EX; // Check if ExHiROM
} else if (romType == 0x3A) {
romType = HI; // Check if SPC7110
} else {
romType &= 1; // Must be LoROM or HiROM
}
// Check RomSpeed
romSpeed = (snesHeader[0xFFD5 - headerStart] >> 4);
// Check RomChips
romChips = snesHeader[0xFFD6 - headerStart];
if (romChips == 69) {
romSize = 48;
numBanks = 96;
romType = HI;
} else if (romChips == 67) {
romSize = 32;
numBanks = 64;
romType = HI;
} else if (romChips == 243) {
cx4Type = snesHeader[0xFFC9 - headerStart] & 0xF;
if (cx4Type == 2) { // X2
romSize = 12;
numBanks = 48;
} else if (cx4Type == 3) { // X3
romSize = 16;
numBanks = 64;
}
} else if ((romChips == 245) && (romType == HI)) {
romSize = 24;
numBanks = 48;
} else if ((romChips == 249) && (romType == HI)) {
romSize = 40;
numBanks = 80;
} else {
// Check RomSize
byte romSizeExp = snesHeader[0xFFD7 - headerStart] - 7;
romSize = 1;
while (romSizeExp--)
romSize *= 2;
if ((romType == EX) || (romType == SA)) {
numBanks = long(romSize) * 2;
} else {
numBanks = (long(romSize) * 1024 * 1024 / 8) / (32768 + (long(romType) * 32768));
}
}
//Check SD card for alt config, pass CRC32 of snesHeader but filter out 0000 and FFFF checksums
if (!(strcmp(checksumStr, "0000") == 0) && !(strcmp(checksumStr, "FFFF") == 0)) {
checkAltConf(crcStr);
}
// Get name
byte myLength = buildRomName(romName, &snesHeader[0xFFC0 - headerStart], 21);
// If name consists out of all japanese characters use game code
if (myLength == 0) {
// Get rom code
romName[0] = 'S';
romName[1] = 'H';
romName[2] = 'V';
romName[3] = 'C';
romName[4] = '-';
for (unsigned int i = 0; i < 4; i++) {
byte myByte;
myByte = snesHeader[0xFFB2 + i - headerStart];
if (((myByte >= '0' && myByte <= '9') || (myByte >= 'A' && myByte <= 'z')) && myLength < 4) {
romName[myLength + 5] = myByte;
myLength++;
}
}
if (myLength == 0) {
// Rom code unknown
romName[0] = 'U';
romName[1] = 'N';
romName[2] = 'K';
romName[3] = 'N';
romName[4] = 'O';
romName[5] = 'W';
romName[6] = 'N';
}
}
// Read sramSizeExp
byte sramSizeExp;
if ((romChips == 19) || (romChips == 20) || (romChips == 21) || (romChips == 26)) {
// SuperFX
if (snesHeader[0xFFDA - headerStart] == 0x33) {
sramSizeExp = snesHeader[0xFFBD - headerStart];
} else {
if (strncmp(romName, "STARFOX2", 8) == 0) {
sramSizeExp = 6;
} else {
sramSizeExp = 5;
}
}
} else {
// No SuperFX
sramSizeExp = snesHeader[0xFFD8 - headerStart];
}
// Calculate sramSize
// Fail states usually have sramSizeExp at 255 (no cart inserted, SA-1 failure, etc)
if (sramSizeExp != 0 && sramSizeExp != 255) {
sramSizeExp = sramSizeExp + 3;
sramSize = 1;
while (sramSizeExp--)
sramSize *= 2;
} else {
sramSize = 0;
}
// Check Cart Country
//int cartCountry = snesHeader[0xFFD9 - headerStart];
// ROM Version
romVersion = snesHeader[0xFFDB - headerStart];
// Test if checksum is equal to reverse checksum
if (((word(snesHeader[0xFFDC - headerStart]) + (word(snesHeader[0xFFDD - headerStart]) * 256)) + (word(snesHeader[0xFFDE - headerStart]) + (word(snesHeader[0xFFDF - headerStart]) * 256))) == 65535) {
if (strcmp("0000", checksumStr) == 0) {
return 0;
} else {
return 1;
}
}
// Either rom checksum is wrong or no cart is inserted
else {
return 0;
}
}
unsigned int calc_checksum(char* fileName, char* folder) {
unsigned int calcChecksum = 0;
unsigned int calcChecksumChunk = 0;
int calcFilesize = 0;
unsigned int c = 0;
unsigned long i = 0;
unsigned long j = 0;
if (strcmp(folder, "root") != 0)
sd.chdir(folder);
// If file exists
if (myFile.open(fileName, O_READ)) {
calcFilesize = myFile.fileSize() * 8 / 1024 / 1024;
// Nintendo Power (SF Memory Cassette)
// Read up to 0x60000 then add FFs to 0x80000
if (NP == true) {
for (i = 0; i < (0x60000 / 512); i++) {
myFile.read(sdBuffer, 512);
for (c = 0; c < 512; c++) {
calcChecksumChunk += sdBuffer[c];
}
calcChecksum = calcChecksumChunk;
}
calcChecksum += 0xF47C; // FFs from 0x60000-0x80000
} else if ((calcFilesize == 10) || (calcFilesize == 12) || (calcFilesize == 20) || (calcFilesize == 24)) {
unsigned long calcBase = 0;
unsigned long calcMirror = 0;
byte calcMirrorCount = 0;
if (calcFilesize > 16)
calcBase = 2097152;
else
calcBase = 1048576;
calcMirror = myFile.fileSize() - calcBase;
calcMirrorCount = calcBase / calcMirror;
// Momotarou Dentetsu Happy Fix 3MB (24Mbit)
if ((calcFilesize == 24) && (romChips == 245)) {
for (i = 0; i < (myFile.fileSize() / 512); i++) {
myFile.read(sdBuffer, 512);
for (c = 0; c < 512; c++) {
calcChecksumChunk += sdBuffer[c];
}
}
calcChecksum = 2 * calcChecksumChunk;
} else {
// Base 8/16 Mbit chunk
for (j = 0; j < (calcBase / 512); j++) {
myFile.read(sdBuffer, 512);
for (c = 0; c < 512; c++) {
calcChecksumChunk += sdBuffer[c];
}
}
calcChecksum = calcChecksumChunk;
calcChecksumChunk = 0;
// Add the mirrored chunk
for (j = 0; j < (calcMirror / 512); j++) {
myFile.read(sdBuffer, 512);
for (c = 0; c < 512; c++) {
calcChecksumChunk += sdBuffer[c];
}
}
calcChecksum += calcMirrorCount * calcChecksumChunk;
}
} else if ((calcFilesize == 40) && (romChips == 85)) {
// Daikaijuu Monogatari 2 Fix 5MB (40Mbit)
// Add the 4MB (32Mbit) start
for (j = 0; j < (4194304 / 512); j++) {
myFile.read(sdBuffer, 512);
for (c = 0; c < 512; c++) {
calcChecksumChunk += sdBuffer[c];
}
calcChecksum = calcChecksumChunk;
}
calcChecksumChunk = 0;
// Add the 1MB (8Mbit) end
for (j = 0; j < (1048576 / 512); j++) {
myFile.read(sdBuffer, 512);
for (c = 0; c < 512; c++) {
calcChecksumChunk += sdBuffer[c];
}
}
calcChecksum += 4 * calcChecksumChunk;
} else if (calcFilesize == 48) {
// Star Ocean/Tales of Phantasia Fix 6MB (48Mbit)
// Add the 4MB (32Mbit) start
for (j = 0; j < (4194304 / 512); j++) {
myFile.read(sdBuffer, 512);
for (c = 0; c < 512; c++) {
calcChecksumChunk += sdBuffer[c];
}
calcChecksum = calcChecksumChunk;
}
calcChecksumChunk = 0;
// Add the 2MB (16Mbit) end
for (j = 0; j < (2097152 / 512); j++) {
myFile.read(sdBuffer, 512);
for (c = 0; c < 512; c++) {
calcChecksumChunk += sdBuffer[c];
}
}
calcChecksum += 2 * calcChecksumChunk;
} else {
//calcFilesize == 2 || 4 || 8 || 16 || 32 || 40 || etc
for (i = 0; i < (myFile.fileSize() / 512); i++) {
myFile.read(sdBuffer, 512);
for (c = 0; c < 512; c++) {
calcChecksumChunk += sdBuffer[c];
}
calcChecksum = calcChecksumChunk;
}
}
myFile.close();
sd.chdir();
return (calcChecksum);
} else {
// Else show error
print_Error(F("DUMP ROM 1ST"));
return 0;
}
}
boolean compare_checksum() {
print_Msg(F("Checksum... "));
display_Update();
char calcsumStr[5];
sprintf(calcsumStr, "%04X", calc_checksum(fileName, folder));
print_Msg(calcsumStr);
if (strcmp(calcsumStr, checksumStr) == 0) {
println_Msg(F(" -> OK"));
display_Update();
return 1;
} else {
print_Msg(F(" != "));
println_Msg(checksumStr);
print_Error(F("Invalid Checksum"));
display_Update();
return 0;
}
}
// Read rom to SD card
void readROM_SNES() {
// Set control
dataIn();
controlIn_SNES();
// Get name, add extension and convert to char array for sd lib
strcpy(fileName, romName);
strcat(fileName, ".sfc");
// create a new folder for the save file
EEPROM_readAnything(0, foldern);
sprintf(folder, "SNES/ROM/%s/%d", romName, foldern);
sd.mkdir(folder, true);
sd.chdir(folder);
//clear the screen
display_Clear();
print_STR(saving_to_STR, 0);
print_Msg(folder);
println_Msg(F("/..."));
display_Update();
// write new folder number back to eeprom
foldern = foldern + 1;
EEPROM_writeAnything(0, foldern);
//open file on sd card
if (!myFile.open(fileName, O_RDWR | O_CREAT)) {
print_FatalError(create_file_STR);
}
//Dump Derby Stallion '96 (Japan) and Sound Novel Tsukuru (Japan) - Actual Size is 24Mb
if ((romType == LO) && (numBanks == 96) && ((strcmp("CC86", checksumStr) == 0) || (strcmp("A77B", checksumStr) == 0))) {
// Read Banks 0x00-0x3F for the 1st/2nd MB
for (int currBank = 0; currBank < 64; currBank++) {
// Dump the bytes to SD 512B at a time
for (long currByte = 32768; currByte < 65536; currByte += 512) {
for (int c = 0; c < 512; c++) {
sdBuffer[c] = readBank_SNES(currBank, currByte + c);
}
myFile.write(sdBuffer, 512);
}
}
//Read Bank 0x80-9F for the 3rd MB
for (int currBank = 128; currBank < 160; currBank++) {
// Dump the bytes to SD 512B at a time
for (long currByte = 32768; currByte < 65536; currByte += 512) {
for (int c = 0; c < 512; c++) {
sdBuffer[c] = readBank_SNES(currBank, currByte + c);
}
myFile.write(sdBuffer, 512);
}
}
}
//Dump Low-type ROM
else if (romType == LO) {
if (romChips == 243) { //0xF3
cx4Map = readBank_SNES(0, 32594); //0x7F52
if ((cx4Type == 2) && (cx4Map != 0)) { //X2
dataOut();
controlOut_SNES();
writeBank_SNES(0, 32594, 0); // Set 0x7F52 to 0
dataIn();
controlIn_SNES();
} else if ((cx4Type == 3) && (cx4Map == 0)) { //X3
dataOut();
controlOut_SNES();
writeBank_SNES(0, 32594, 1); // Set 0x7F52 to 1
dataIn();
controlIn_SNES();
}
}
if (romSize > 24) {
// ROM > 96 banks (up to 128 banks)
readLoRomBanks(0x80, numBanks + 0x80, &myFile);
} else {
// Read up to 96 banks starting at bank 0×00.
readLoRomBanks(0, numBanks, &myFile);
}
if (romChips == 243) { //0xF3
// Restore CX4 Mapping Register
dataOut();
controlOut_SNES();
writeBank_SNES(0, 32594, cx4Map); // 0x7F52
dataIn();
controlIn_SNES();
}
}
// Dump SDD1 High-type ROM
else if ((romType == HI) && (romChips == 69 || romChips == 67)) {
println_Msg(F("Dumping SDD1 HiRom"));
display_Update();
controlIn_SNES();
byte initialSOMap = readBank_SNES(0, 18439);
for (word currMemmap = 0; currMemmap < (numBanks / 16); currMemmap++) {
dataOut();
controlOut_SNES();
writeBank_SNES(0, 18439, currMemmap);
dataIn();
controlIn_SNES();
readHiRomBanks(240, 256, &myFile);
if (currMemmap == 2) display_Clear(); // need more space for the progress bars
}
dataOut();
controlOut_SNES();
writeBank_SNES(0, 18439, initialSOMap);
dataIn();
controlIn_SNES();
}
// Dump SPC7110 High-type ROM
else if ((romType == HI) && ((romChips == 245) || (romChips == 249))) {
println_Msg(F("Dumping SPC7110 HiRom"));
display_Update();
// 0xC00000-0xDFFFFF
//print_Msg(F("Part 1"));
display_Update();
readHiRomBanks(192, 224, &myFile);
if (numBanks > 32) {
dataOut();
controlOut_SNES();
// Set 0x4834 to 0xFF
writeBank_SNES(0, 0x4834, 0xFF);
dataIn();
controlIn_SNES();
// 0xE00000-0xEFFFFF
//print_Msg(F(" 2"));
display_Update();
readHiRomBanks(224, 240, &myFile);
if (numBanks > 48) {
// 0xF00000-0xFFFFFF
//print_Msg(F(" 3"));
display_Update();
readHiRomBanks(240, 256, &myFile);
dataOut();
controlOut_SNES();
// Set 0x4833 to 3
writeBank_SNES(0, 0x4833, 3);
dataIn();
controlIn_SNES();
// 0xF00000-0xFFFFFF
//print_Msg(F(" 4"));
display_Update();
readHiRomBanks(240, 256, &myFile);
}
//println_Msg(F(""));
display_Clear(); // need more space due to the 4 progress bars
// Return mapping registers to initial settings...
dataOut();
controlOut_SNES();
writeBank_SNES(0, 0x4833, 2);
writeBank_SNES(0, 0x4834, 0);
dataIn();
controlIn_SNES();
}
}
// Dump standard High-type ROM
else if ((romType == HI) || (romType == SA) || (romType == EX)) {
println_Msg(F("Dumping HiRom..."));
display_Update();
if (romChips == 85) {
// Daikaijuu Monogatari 2, keeps out S-RTC register area
readHiRomBanks(192, 192 + 64, &myFile);
readHiRomBanks(64, numBanks, &myFile); // (64 + (numBanks - 64))
} else {
readHiRomBanks(192, numBanks + 192, &myFile);
}
}
// Close the file:
myFile.close();
}
/******************************************
SNES SRAM Functions
*****************************************/
// Write file to SRAM
void writeSRAM(boolean browseFile) {
if (browseFile) {
filePath[0] = '\0';
sd.chdir("/");
fileBrowser(F("Select srm file"));
// Create filepath
sprintf(filePath, "%s/%s", filePath, fileName);
display_Clear();
} else
sprintf(filePath, "%s", fileName);
//open file on sd card
if (myFile.open(filePath, O_READ)) {
// Set pins to output
dataOut();
// Set RST RD WR to High and CS to Low
controlOut_SNES();
int sramBanks = 0;
// LoRom
if (romType == LO) {
// Sram size
long lastByte = (long(sramSize) * 128);
if ((romChips == 19) || (romChips == 20) || (romChips == 21) || (romChips == 26)) { // SuperFX
if (lastByte > 0x10000) { // Large SuperFX SRAM (no known carts)
sramBanks = lastByte / 0x10000;
for (int currBank = 0x70; currBank < sramBanks + 0x70; currBank++) {
for (long currByte = 0x0000; currByte < 0x10000; currByte++) {
writeBank_SNES(currBank, currByte, myFile.read());
}
}
} else { // SuperFX SRAM
for (long currByte = 0; currByte < lastByte; currByte++) {
writeBank_SNES(0x70, currByte, myFile.read());
}
}
} else if (lastByte > 0x8000) { // Large SRAM Fix
sramBanks = lastByte / 0x8000;
for (int currBank = 0x70; currBank < sramBanks + 0x70; currBank++) {
for (long currByte = 0x0000; currByte < 0x8000; currByte++) {
writeBank_SNES(currBank, currByte, myFile.read());
}
}
} else {
for (long currByte = 0; currByte < lastByte; currByte++) {
writeBank_SNES(0x70, currByte, myFile.read());
}
}
}
// HiRom
else if (romType == HI) {
if ((romChips == 245) || (romChips == 249)) { // SPC7110 SRAM
// Configure SPC7110 SRAM Register
// Set 0x4830 to 0x80
writeBank_SNES(0, 0x4830, 0x80);
// Sram size
long lastByte = (long(sramSize) * 128) + 0x6000;
// Write to sram bank
for (long currByte = 0x6000; currByte < lastByte; currByte++) {
writeBank_SNES(0x30, currByte, myFile.read());
}
// Reset SPC7110 SRAM Register
dataOut();
// Reset 0x4830 to 0x0
writeBank_SNES(0, 0x4830, 0);
dataIn();
} else {
// Writing SRAM on HiRom needs CS(PH3) to be high
PORTH |= (1 << 3);
// Sram size
long lastByte = (long(sramSize) * 128);
if (lastByte > 0x2000) { // Large SRAM Fix
sramBanks = lastByte / 0x2000;
for (int currBank = 0x30; currBank < sramBanks + 0x30; currBank++) {
for (long currByte = 0x6000; currByte < 0x8000; currByte++) {
writeBank_SNES(currBank, currByte, myFile.read());
}
}
} else {
lastByte += 0x6000;
// Write to sram bank
for (long currByte = 0x6000; currByte < lastByte; currByte++) {
writeBank_SNES(0x30, currByte, myFile.read());
}
}
}
}
// ExHiRom
else if (romType == EX) {
// Writing SRAM on HiRom needs CS(PH3) to be high
PORTH |= (1 << 3);
// Sram size
long lastByte = (long(sramSize) * 128) + 0x6000;
for (long currByte = 0x6000; currByte < lastByte; currByte++) {
writeBank_SNES(0xB0, currByte, myFile.read());
}
}
// SA1
else if (romType == SA) {
long lastByte = (long(sramSize) * 128);
if (i2c_found) {
// Enable CPU Clock
clockgen.output_enable(SI5351_CLK1, 1);
}
// Direct writes to BW-RAM (SRAM) in banks 0x40-0x43 don't work
// Break BW-RAM (SRAM) into 0x2000 blocks
byte lastBlock = 0;
lastBlock = lastByte / 0x2000;
// Writing SRAM on SA1 needs CS(PH3) to be high
// PORTH |= (1 << 3);
// Setup BW-RAM
// Set 0x2224 (SNES BMAPS) to map SRAM Block 0 to 0x6000-0x7FFF
writeBank_SNES(0, 0x2224, 0);
// Set 0x2226 (SNES SBWE) to 0x80 Write Enable
writeBank_SNES(0, 0x2226, 0x80);
// Set 0x2228 (SNES BWPA) to 0x00 BW-RAM Write-Protected Area
writeBank_SNES(0, 0x2228, 0);
delay(1000);
// Use $2224 (SNES) to map BW-RAM block to 0x6000-0x7FFF
// Use $2226 (SNES) to write enable the BW-RAM
byte firstByte = 0;
for (byte currBlock = 0; currBlock < lastBlock; currBlock++) {
// Set 0x2224 (SNES BMAPS) to map SRAM Block to 0x6000-0x7FFF
writeBank_SNES(0, 0x2224, currBlock);
// Set 0x2226 (SNES SBWE) to 0x80 Write Enable
writeBank_SNES(0, 0x2226, 0x80);
for (long currByte = 0x6000; currByte < 0x8000; currByte += 512) {
myFile.read(sdBuffer, 512);
if ((currBlock == 0) && (currByte == 0x6000)) {
firstByte = sdBuffer[0];
}
for (int c = 0; c < 512; c++) {
writeBank_SNES(0, currByte + c, sdBuffer[c]);
}
}
}
// Rewrite First Byte
writeBank_SNES(0, 0x2224, 0);
writeBank_SNES(0, 0x2226, 0x80);
writeBank_SNES(0, 0x6000, firstByte);
if (i2c_found) {
// Disable CPU clock
clockgen.output_enable(SI5351_CLK1, 0);
}
}
// Set pins to input
dataIn();
// Close the file:
myFile.close();
println_Msg(F("SRAM writing finished"));
display_Update();
} else {
print_Error(F("File doesnt exist"));
}
}
void readSRAM() {
// set control
controlIn_SNES();
// Get name, add extension and convert to char array for sd lib
strcpy(fileName, romName);
strcat(fileName, ".srm");
// create a new folder for the save file
EEPROM_readAnything(0, foldern);
sprintf(folder, "SNES/SAVE/%s/%d", romName, foldern);
sd.mkdir(folder, true);
sd.chdir(folder);
// write new folder number back to eeprom
foldern = foldern + 1;
EEPROM_writeAnything(0, foldern);
//open file on sd card
if (!myFile.open(fileName, O_RDWR | O_CREAT)) {
print_FatalError(sd_error_STR);
}
int sramBanks = 0;
if (romType == LO) {
// Sram size
long lastByte = (long(sramSize) * 128);
if ((romChips == 19) || (romChips == 20) || (romChips == 21) || (romChips == 26)) { // SuperFX
if (lastByte > 0x10000) { // Large SuperFX SRAM (no known carts)
sramBanks = lastByte / 0x10000;
for (int currBank = 0x70; currBank < sramBanks + 0x70; currBank++) {
for (long currByte = 0x0000; currByte < 0x10000; currByte++) {
myFile.write(readBank_SNES(currBank, currByte));
}
}
} else { // SuperFX SRAM
for (long currByte = 0; currByte < lastByte; currByte++) {
myFile.write(readBank_SNES(0x70, currByte));
}
}
} else if (lastByte > 0x8000) { // Large SRAM Fix
sramBanks = lastByte / 0x8000;
for (int currBank = 0x70; currBank < sramBanks + 0x70; currBank++) {
for (long currByte = 0x0000; currByte < 0x8000; currByte++) {
myFile.write(readBank_SNES(currBank, currByte));
}
}
} else {
for (long currByte = 0; currByte < lastByte; currByte++) {
myFile.write(readBank_SNES(0x70, currByte));
}
}
} else if (romType == HI) {
if ((romChips == 245) || (romChips == 249)) { // SPC7110 SRAM
// Configure SPC7110 SRAM Register
dataOut();
// Set 0x4830 to 0x80
writeBank_SNES(0, 0x4830, 0x80);
dataIn();
// Sram size
long lastByte = (long(sramSize) * 128) + 0x6000;
for (long currByte = 0x6000; currByte < lastByte; currByte++) {
myFile.write(readBank_SNES(0x30, currByte));
}
dataOut();
// Reset 0x4830 to 0x0
writeBank_SNES(0, 0x4830, 0);
dataIn();
} else {
// Dumping SRAM on HiRom needs CS(PH3) to be high
PORTH |= (1 << 3);
// Sram size
long lastByte = (long(sramSize) * 128);
if (lastByte > 0x2000) { // Large SRAM Fix
sramBanks = lastByte / 0x2000;
for (int currBank = 0x30; currBank < sramBanks + 0x30; currBank++) {
for (long currByte = 0x6000; currByte < 0x8000; currByte++) {
myFile.write(readBank_SNES(currBank, currByte));
}
}
} else {
lastByte += 0x6000;
for (long currByte = 0x6000; currByte < lastByte; currByte++) {
myFile.write(readBank_SNES(0x30, currByte));
}
}
}
} else if (romType == EX) {
// Dumping SRAM on HiRom needs CS(PH3) to be high
PORTH |= (1 << 3);
// Sram size
long lastByte = (long(sramSize) * 128) + 0x6000;
for (long currByte = 0x6000; currByte < lastByte; currByte++) {
myFile.write(readBank_SNES(0xB0, currByte));
}
} else if (romType == SA) {
// Dumping SRAM on HiRom needs CS(PH3) to be high
PORTH |= (1 << 3);
// Sram size
long lastByte = (long(sramSize) * 128);
if (lastByte > 0x10000) {
sramBanks = lastByte / 0x10000;
for (int currBank = 0x40; currBank < sramBanks + 0x40; currBank++) {
for (long currByte = 0; currByte < 0x10000; currByte++) {
myFile.write(readBank_SNES(currBank, currByte));
}
}
} else {
for (long currByte = 0x0; currByte < lastByte; currByte++) {
myFile.write(readBank_SNES(0x40, currByte));
}
}
}
// Close the file:
myFile.close();
// Signal end of process
display_Clear();
print_Msg(F("Saved to "));
print_Msg(folder);
println_Msg(F("/..."));
display_Update();
}
// Check if the SRAM was written without any error
unsigned long verifySRAM() {
//open file on sd card
if (myFile.open(filePath, O_READ)) {
// Variable for errors
writeErrors = 0;
// Set control
controlIn_SNES();
int sramBanks = 0;
if (romType == LO) {
// Sram size
long lastByte = (long(sramSize) * 128);
if ((romChips == 19) || (romChips == 20) || (romChips == 21) || (romChips == 26)) { // SuperFX
if (lastByte > 0x10000) { // Large SuperFX SRAM (no known carts)
sramBanks = lastByte / 0x10000;
for (int currBank = 0x70; currBank < sramBanks + 0x70; currBank++) {
for (long currByte = 0; currByte < 0x10000; currByte += 512) {
//fill sdBuffer
myFile.read(sdBuffer, 512);
for (int c = 0; c < 512; c++) {
if ((readBank_SNES(currBank, currByte + c)) != sdBuffer[c]) {
writeErrors++;
}
}
}
}
} else { // SuperFX SRAM
for (long currByte = 0; currByte < lastByte; currByte += 512) {
//fill sdBuffer
myFile.read(sdBuffer, 512);
for (int c = 0; c < 512; c++) {
if ((readBank_SNES(0x70, currByte + c)) != sdBuffer[c]) {
writeErrors++;
}
}
}
}
} else if (lastByte > 0x8000) { // Large SRAM Fix
sramBanks = lastByte / 0x8000;
for (int currBank = 0x70; currBank < sramBanks + 0x70; currBank++) {
for (long currByte = 0; currByte < 0x8000; currByte += 512) {
//fill sdBuffer
myFile.read(sdBuffer, 512);
for (int c = 0; c < 512; c++) {
if ((readBank_SNES(currBank, currByte + c)) != sdBuffer[c]) {
writeErrors++;
}
}
}
}
} else {
for (long currByte = 0; currByte < lastByte; currByte += 512) {
//fill sdBuffer
myFile.read(sdBuffer, 512);
for (int c = 0; c < 512; c++) {
if ((readBank_SNES(0x70, currByte + c)) != sdBuffer[c]) {
writeErrors++;
}
}
}
}
} else if (romType == HI) {
if ((romChips == 245) || (romChips == 249)) { // SPC7110 SRAM
// Configure SPC7110 SRAM Register
dataOut();
// Set 0x4830 to 0x80
writeBank_SNES(0, 0x4830, 0x80);
dataIn();
// Sram size
long lastByte = (long(sramSize) * 128) + 0x6000;
for (long currByte = 0x6000; currByte < lastByte; currByte += 512) {
//fill sdBuffer
myFile.read(sdBuffer, 512);
for (int c = 0; c < 512; c++) {
if ((readBank_SNES(0x30, currByte + c)) != sdBuffer[c]) {
writeErrors++;
}
}
}
dataOut();
// Reset 0x4830 to 0x0
writeBank_SNES(0, 0x4830, 0);
dataIn();
} else {
// Dumping SRAM on HiRom needs CS(PH3) to be high
PORTH |= (1 << 3);
// Sram size
long lastByte = (long(sramSize) * 128);
if (lastByte > 0x2000) { // Large SRAM Fix
sramBanks = lastByte / 0x2000;
for (int currBank = 0x30; currBank < sramBanks + 0x30; currBank++) {
for (long currByte = 0x6000; currByte < 0x8000; currByte += 512) {
//fill sdBuffer
myFile.read(sdBuffer, 512);
for (int c = 0; c < 512; c++) {
if ((readBank_SNES(currBank, currByte + c)) != sdBuffer[c]) {
writeErrors++;
}
}
}
}
} else {
lastByte += 0x6000;
for (long currByte = 0x6000; currByte < lastByte; currByte += 512) {
//fill sdBuffer
myFile.read(sdBuffer, 512);
for (int c = 0; c < 512; c++) {
if ((readBank_SNES(0x30, currByte + c)) != sdBuffer[c]) {
writeErrors++;
}
}
}
}
}
} else if (romType == EX) {
// Dumping SRAM on HiRom needs CS(PH3) to be high
PORTH |= (1 << 3);
// Sram size
long lastByte = (long(sramSize) * 128) + 0x6000;
for (long currByte = 0x6000; currByte < lastByte; currByte += 512) {
//fill sdBuffer
myFile.read(sdBuffer, 512);
for (int c = 0; c < 512; c++) {
if ((readBank_SNES(0xB0, currByte + c)) != sdBuffer[c]) {
writeErrors++;
}
}
}
} else if (romType == SA) {
// Dumping SRAM on HiRom needs CS(PH3) to be high
PORTH |= (1 << 3);
// Sram size
long lastByte = (long(sramSize) * 128);
if (lastByte > 0x10000) {
sramBanks = lastByte / 0x10000;
for (int currBank = 0x40; currBank < sramBanks + 0x40; currBank++) {
for (long currByte = 0x0; currByte < 0x10000; currByte += 512) {
//fill sdBuffer
myFile.read(sdBuffer, 512);
for (int c = 0; c < 512; c++) {
if ((readBank_SNES(currBank, currByte + c)) != sdBuffer[c]) {
writeErrors++;
}
}
}
}
} else {
for (long currByte = 0x0; currByte < lastByte; currByte += 512) {
//fill sdBuffer
myFile.read(sdBuffer, 512);
for (int c = 0; c < 512; c++) {
if ((readBank_SNES(0x40, currByte + c)) != sdBuffer[c]) {
writeErrors++;
}
}
}
}
// Reset SA1
// Set pins to input
dataIn();
// Close the file:
myFile.close();
if (writeErrors == 0) {
println_Msg(F("Verified OK"));
} else {
print_STR(error_STR, 0);
print_Msg(writeErrors);
print_STR(_bytes_STR, 1);
print_Error(did_not_verify_STR);
}
display_Update();
wait();
stopSnesClocks_resetCic_resetCart();
display_Clear();
print_Msg(F("Resetting..."));
display_Update();
delay(3000); // wait 3 secs
resetArduino();
}
// Close the file:
myFile.close();
return writeErrors;
} else {
print_Error(F("Can't open file"));
return 1;
}
}
// Overwrite the entire SRAM
boolean eraseSRAM(byte b) {
print_Msg(F("0x"));
print_Msg(b, HEX);
print_Msg(F(": "));
display_Update();
// Set pins to output
dataOut();
// Set control pins
controlOut_SNES();
int sramBanks = 0;
if (romType == LO) {
// Sram size
long lastByte = (long(sramSize) * 128);
if ((romChips == 19) || (romChips == 20) || (romChips == 21) || (romChips == 26)) { // SuperFX
if (lastByte > 0x10000) { // Large SuperFX SRAM (no known carts)
sramBanks = lastByte / 0x10000;
for (int currBank = 0x70; currBank < sramBanks + 0x70; currBank++) {
for (long currByte = 0x0000; currByte < 0x10000; currByte++) {
writeBank_SNES(currBank, currByte, b);
}
}
} else { // SuperFX SRAM
for (long currByte = 0; currByte < lastByte; currByte++) {
writeBank_SNES(0x70, currByte, b);
}
}
} else if (lastByte > 0x8000) { // Large SRAM Fix
sramBanks = lastByte / 0x8000;
for (int currBank = 0x70; currBank < sramBanks + 0x70; currBank++) {
for (long currByte = 0x0000; currByte < 0x8000; currByte++) {
writeBank_SNES(currBank, currByte, b);
}
}
} else {
for (long currByte = 0; currByte < lastByte; currByte++) {
writeBank_SNES(0x70, currByte, b);
}
}
} else if (romType == HI) {
if ((romChips == 245) || (romChips == 249)) { // SPC7110 SRAM
// Configure SPC7110 SRAM Register
// Set 0x4830 to 0x80
writeBank_SNES(0, 0x4830, 0x80);
// Sram size
long lastByte = (long(sramSize) * 128) + 0x6000;
// Write to sram bank
for (long currByte = 0x6000; currByte < lastByte; currByte++) {
writeBank_SNES(0x30, currByte, b);
}
// Reset SPC7110 SRAM Register
dataOut();
// Reset 0x4830 to 0x0
writeBank_SNES(0, 0x4830, 0);
dataIn();
} else {
// Writing SRAM on HiRom needs CS(PH3) to be high
PORTH |= (1 << 3);
// Sram size
long lastByte = (long(sramSize) * 128);
if (lastByte > 0x2000) { // Large SRAM Fix
sramBanks = lastByte / 0x2000;
for (int currBank = 0x30; currBank < sramBanks + 0x30; currBank++) {
for (long currByte = 0x6000; currByte < 0x8000; currByte++) {
writeBank_SNES(currBank, currByte, b);
}
}
} else {
lastByte += 0x6000;
// Write to sram bank
for (long currByte = 0x6000; currByte < lastByte; currByte++) {
writeBank_SNES(0x30, currByte, b);
}
}
}
}
// ExHiRom
else if (romType == EX) {
// Writing SRAM on HiRom needs CS(PH3) to be high
PORTH |= (1 << 3);
// Sram size
long lastByte = (long(sramSize) * 128) + 0x6000;
for (long currByte = 0x6000; currByte < lastByte; currByte++) {
writeBank_SNES(0xB0, currByte, b);
}
}
// SA1
else if (romType == SA) {
long lastByte = (long(sramSize) * 128);
if (i2c_found) {
// Enable CPU Clock
clockgen.output_enable(SI5351_CLK1, 1);
}
// Direct writes to BW-RAM (SRAM) in banks 0x40-0x43 don't work
// Break BW-RAM (SRAM) into 0x2000 blocks
// Use $2224 to map BW-RAM block to 0x6000-0x7FFF
byte lastBlock = 0;
lastBlock = lastByte / 0x2000;
// Writing SRAM on SA1 needs CS(PH3) to be high
// PORTH |= (1 << 3);
// Setup BW-RAM
// Set 0x2224 (SNES BMAPS) to map SRAM Block 0 to 0x6000-0x7FFF
writeBank_SNES(0, 0x2224, 0);
// Set 0x2226 (SNES SBWE) to 0x80 Write Enable
writeBank_SNES(0, 0x2226, 0x80);
// Set 0x2228 (SNES BWPA) to 0x00 BW-RAM Write-Protected Area
writeBank_SNES(0, 0x2228, 0);
delay(1000);
// Use $2224 (SNES) to map BW-RAM block to 0x6000-0x7FFF
// Use $2226 (SNES) to write enable the BW-RAM
for (byte currBlock = 0; currBlock < lastBlock; currBlock++) {
// Set 0x2224 (SNES BMAPS) to map SRAM Block to 0x6000-0x7FFF
writeBank_SNES(0, 0x2224, currBlock);
// Set 0x2226 (SNES SBWE) to 0x80 Write Enable
writeBank_SNES(0, 0x2226, 0x80);
for (long currByte = 0x6000; currByte < 0x8000; currByte += 512) {
for (int c = 0; c < 512; c++) {
writeBank_SNES(0, currByte + c, b);
}
}
}
// Rewrite First Byte
writeBank_SNES(0, 0x2224, 0);
writeBank_SNES(0, 0x2226, 0x80);
writeBank_SNES(0, 0x6000, b);
if (i2c_found) {
// Disable CPU clock
clockgen.output_enable(SI5351_CLK1, 0);
}
}
dataIn();
// Variable for errors
writeErrors = 0;
// Set control
controlIn_SNES();
sramBanks = 0;
if (romType == LO) {
// Sram size
long lastByte = (long(sramSize) * 128);
if ((romChips == 19) || (romChips == 20) || (romChips == 21) || (romChips == 26)) { // SuperFX
if (lastByte > 0x10000) { // Large SuperFX SRAM (no known carts)
sramBanks = lastByte / 0x10000;
for (int currBank = 0x70; currBank < sramBanks + 0x70; currBank++) {
for (long currByte = 0; currByte < 0x10000; currByte += 512) {
for (int c = 0; c < 512; c++) {
if ((readBank_SNES(currBank, currByte + c)) != b) {
writeErrors++;
}
}
}
}
} else { // SuperFX SRAM
for (long currByte = 0; currByte < lastByte; currByte += 512) {
for (int c = 0; c < 512; c++) {
if ((readBank_SNES(0x70, currByte + c)) != b) {
writeErrors++;
}
}
}
}
} else if (lastByte > 0x8000) { // Large SRAM Fix
sramBanks = lastByte / 0x8000;
for (int currBank = 0x70; currBank < sramBanks + 0x70; currBank++) {
for (long currByte = 0; currByte < 0x8000; currByte += 512) {
for (int c = 0; c < 512; c++) {
if ((readBank_SNES(currBank, currByte + c)) != b) {
writeErrors++;
}
}
}
}
} else {
for (long currByte = 0; currByte < lastByte; currByte += 512) {
for (int c = 0; c < 512; c++) {
if ((readBank_SNES(0x70, currByte + c)) != b) {
writeErrors++;
}
}
}
}
} else if (romType == HI) {
if ((romChips == 245) || (romChips == 249)) { // SPC7110 SRAM
// Configure SPC7110 SRAM Register
dataOut();
// Set 0x4830 to 0x80
writeBank_SNES(0, 0x4830, 0x80);
dataIn();
// Sram size
long lastByte = (long(sramSize) * 128) + 0x6000;
for (long currByte = 0x6000; currByte < lastByte; currByte += 512) {
for (int c = 0; c < 512; c++) {
if ((readBank_SNES(0x30, currByte + c)) != b) {
writeErrors++;
}
}
}
dataOut();
// Reset 0x4830 to 0x0
writeBank_SNES(0, 0x4830, 0);
dataIn();
} else {
// Dumping SRAM on HiRom needs CS(PH3) to be high
PORTH |= (1 << 3);
// Sram size
long lastByte = (long(sramSize) * 128);
if (lastByte > 0x2000) { // Large SRAM Fix
sramBanks = lastByte / 0x2000;
for (int currBank = 0x30; currBank < sramBanks + 0x30; currBank++) {
for (long currByte = 0x6000; currByte < 0x8000; currByte += 512) {
for (int c = 0; c < 512; c++) {
if ((readBank_SNES(currBank, currByte + c)) != b) {
writeErrors++;
}
}
}
}
} else {
lastByte += 0x6000;
for (long currByte = 0x6000; currByte < lastByte; currByte += 512) {
for (int c = 0; c < 512; c++) {
if ((readBank_SNES(0x30, currByte + c)) != b) {
writeErrors++;
}
}
}
}
}
} else if (romType == EX) {
// Dumping SRAM on HiRom needs CS(PH3) to be high
PORTH |= (1 << 3);
// Sram size
long lastByte = (long(sramSize) * 128) + 0x6000;
for (long currByte = 0x6000; currByte < lastByte; currByte += 512) {
for (int c = 0; c < 512; c++) {
if ((readBank_SNES(0xB0, currByte + c)) != b) {
writeErrors++;
}
}
}
} else if (romType == SA) {
// Dumping SRAM on HiRom needs CS(PH3) to be high
PORTH |= (1 << 3);
// Sram size
long lastByte = (long(sramSize) * 128);
if (lastByte > 0x10000) {
sramBanks = lastByte / 0x10000;
for (int currBank = 0x40; currBank < sramBanks + 0x40; currBank++) {
for (long currByte = 0x0; currByte < 0x10000; currByte += 512) {
for (int c = 0; c < 512; c++) {
if ((readBank_SNES(currBank, currByte + c)) != b) {
writeErrors++;
}
}
}
}
} else {
for (long currByte = 0x0; currByte < lastByte; currByte += 512) {
for (int c = 0; c < 512; c++) {
if ((readBank_SNES(0x40, currByte + c)) != b) {
writeErrors++;
}
}
}
}
}
if (writeErrors == 0) {
println_Msg(F("OK"));
return 1;
} else {
println_Msg(F("ERROR"));
return 0;
}
display_Update();
}
#endif
//******************************************
// End of File
//******************************************
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