/* * Copyright (C) 2016 FIX94 * * This software may be modified and distributed under the terms * of the MIT license. See the LICENSE file for details. */ #include #include #include #include "libSave.h" #define REG_WAITCNT *(vu16 *)(REG_BASE + 0x204) #define JOY_WRITE 2 #define JOY_READ 4 #define JOY_RW 6 u8 save_data[0x20000] __attribute__ ((section (".sbss"))); s32 getGameSize(void) { if(*(vu32*)(0x08000004) != 0x51AEFF24) return -1; s32 i; for(i = (1<<20); i < (1<<25); i<<=1) { vu16 *rompos = (vu16*)(0x08000000+i); int j; bool romend = true; for(j = 0; j < 0x1000; j++) { if(rompos[j] != j) { romend = false; break; } } if(romend) break; } return i; } //--------------------------------------------------------------------------------- // Program entry point //--------------------------------------------------------------------------------- int main(void) { //--------------------------------------------------------------------------------- // the vblank interrupt must be enabled for VBlankIntrWait() to work // since the default dispatcher handles the bios flags no vblank handler // is required irqInit(); irqEnable(IRQ_VBLANK); consoleDemoInit(); REG_JOYTR = 0; // ansi escape sequence to set print co-ordinates // /x1b[line;columnH u32 i; iprintf("\x1b[9;2HGBA Link Cable Dumper v1.4\n"); iprintf("\x1b[10;4HPlease look at the TV\n"); // disable this, needs power SNDSTAT = 0; SNDBIAS = 0; // Set up waitstates for EEPROM access etc. REG_WAITCNT = 0x0317; //clear out previous messages REG_HS_CTRL |= JOY_RW; while (1) { if(REG_HS_CTRL&JOY_READ) { REG_HS_CTRL |= JOY_RW; s32 gamesize = getGameSize(); u32 savesize = SaveSize(save_data,gamesize); REG_JOYTR = gamesize; //wait for a cmd receive for safety while((REG_HS_CTRL&JOY_WRITE) == 0) ; REG_HS_CTRL |= JOY_RW; REG_JOYTR = savesize; //wait for a cmd receive for safety while((REG_HS_CTRL&JOY_WRITE) == 0) ; REG_HS_CTRL |= JOY_RW; if(gamesize == -1) { REG_JOYTR = 0; continue; //nothing to read } //game in, send header for(i = 0; i < 0xC0; i+=4) { REG_JOYTR = *(vu32*)(0x08000000+i); while((REG_HS_CTRL&JOY_READ) == 0) ; REG_HS_CTRL |= JOY_RW; } REG_JOYTR = 0; //wait for other side to choose while((REG_HS_CTRL&JOY_WRITE) == 0) ; REG_HS_CTRL |= JOY_RW; u32 choseval = REG_JOYRE; if(choseval == 0) { REG_JOYTR = 0; continue; //nothing to read } else if(choseval == 1) { //disable interrupts u32 prevIrqMask = REG_IME; REG_IME = 0; //dump the game for(i = 0; i < gamesize; i+=4) { REG_JOYTR = *(vu32*)(0x08000000+i); while((REG_HS_CTRL&JOY_READ) == 0) ; REG_HS_CTRL |= JOY_RW; } //restore interrupts REG_IME = prevIrqMask; } else if(choseval == 2) { //disable interrupts u32 prevIrqMask = REG_IME; REG_IME = 0; //backup save switch (savesize){ case 0x200: GetSave_EEPROM_512B(save_data); break; case 0x2000: GetSave_EEPROM_8KB(save_data); break; case 0x8000: GetSave_SRAM_32KB(save_data); break; case 0x10000: GetSave_FLASH_64KB(save_data); break; case 0x20000: GetSave_FLASH_128KB(save_data); break; default: break; } //restore interrupts REG_IME = prevIrqMask; //say gc side we read it REG_JOYTR = savesize; //wait for a cmd receive for safety while((REG_HS_CTRL&JOY_WRITE) == 0) ; REG_HS_CTRL |= JOY_RW; //send the save for(i = 0; i < savesize; i+=4) { REG_JOYTR = *(vu32*)(save_data+i); while((REG_HS_CTRL&JOY_READ) == 0) ; REG_HS_CTRL |= JOY_RW; } } else if(choseval == 3) { REG_JOYTR = savesize; //receive the save for(i = 0; i < savesize; i+=4) { while((REG_HS_CTRL&JOY_WRITE) == 0) ; REG_HS_CTRL |= JOY_RW; *(vu32*)(save_data+i) = REG_JOYRE; } //disable interrupts u32 prevIrqMask = REG_IME; REG_IME = 0; //write it switch (savesize){ case 0x200: PutSave_EEPROM_512B(save_data); break; case 0x2000: PutSave_EEPROM_8KB(save_data); break; case 0x8000: PutSave_SRAM_32KB(save_data); break; case 0x10000: PutSave_FLASH_64KB(save_data); break; case 0x20000: PutSave_FLASH_128KB(save_data); break; default: break; } //restore interrupts REG_IME = prevIrqMask; //say gc side we're done REG_JOYTR = 0; //wait for a cmd receive for safety while((REG_HS_CTRL&JOY_WRITE) == 0) ; REG_HS_CTRL |= JOY_RW; } REG_JOYTR = 0; } else if(REG_HS_CTRL&JOY_WRITE) { REG_HS_CTRL |= JOY_RW; u32 choseval = REG_JOYRE; if(choseval == 4) { //disable interrupts u32 prevIrqMask = REG_IME; REG_IME = 0; //dump BIOS for (i = 0; i < 0x4000; i+=4) { // the lower bits are inaccurate, so just get it four times :) u32 a = MidiKey2Freq((WaveData *)(i-4), 180-12, 0) * 2; u32 b = MidiKey2Freq((WaveData *)(i-3), 180-12, 0) * 2; u32 c = MidiKey2Freq((WaveData *)(i-2), 180-12, 0) * 2; u32 d = MidiKey2Freq((WaveData *)(i-1), 180-12, 0) * 2; REG_JOYTR = ((a>>24<<24) | (d>>24<<16) | (c>>24<<8) | (b>>24)); while((REG_HS_CTRL&JOY_READ) == 0) ; REG_HS_CTRL |= JOY_RW; } //restore interrupts REG_IME = prevIrqMask; } REG_JOYTR = 0; } Halt(); } }