u32 Mic::DMA(u32 Command, u32* buffer_in, u32 buffer_in_len, u32* buffer_out, u32& buffer_out_len) { u8* buffer_out_b = (u8*)buffer_out; // Buffer overflow if (buffer_in_len > 8) return CommandUnknown; switch (Command) { case GetStatus: //functionality info w32(m_FuncType); w32(m_FuncDef[0]); w32(m_FuncDef[1]); w32(m_FuncDef[2]); w8(m_Region); w8(m_Direction); wString(m_strName, 30); wString(m_License, 60); w16(m_mAstandby); w16(m_mAmax); DEBUG_LOG("GetStatus\n"); return DeviceInfo; case GetStatusAll: w32(m_FuncType); w32(m_FuncDef[0]); w32(m_FuncDef[1]); w32(m_FuncDef[2]); w8(m_Region); w8(m_Direction); wString(m_strName, 30); wString(m_License, 60); w16(m_mAstandby); w16(m_mAmax); wString(m_strNameEx, 172); // TODO verify DEBUG_LOG("GetStatusAll\n"); return DeviceInfoEx; case GetCondition: return DataTransfer; default: printf("UNKNOWN MAPLE COMMAND %d (sent to %s)\n", Command, m_strName); return CommandUnknown; } }
void CPacket::wArray(irr::c8* in_data, irr::u32 data_len) { if((WritePointer + data_len) > DataLen) resize(WritePointer + data_len); for(irr::u32 i = 0; i < data_len; i++) w8(in_data[i]); };
void CPacket::blowfishPad() { w32(0x00); int padding = WritePointer % 8; if (padding != 0) { for (int i = padding; i < 8; i++) { w8(0x00); } } };
u32 Maxi::DMA(u32 Command, u32* buffer_in, u32 buffer_in_len, u32* buffer_out, u32& buffer_out_len) { // Update the xpad the thread uses... EnterCriticalSection(&m_status.section); m_status.currentXPad = m_xpad; LeaveCriticalSection(&m_status.section); u8* buffer_out_b = (u8*)buffer_out; switch (Command) { case GetStatus: //functionality info w32(m_FuncType); w32(m_FuncDef[0]); w32(m_FuncDef[1]); w32(m_FuncDef[2]); w8(m_Region); w8(m_Direction); wString(m_strName, 30); wString(m_License, 60); w16(m_mAstandby); w16(m_mAmax); DEBUG_LOG("GetStatus\n"); return DeviceInfo; case GetStatusAll: w32(m_FuncType); w32(m_FuncDef[0]); w32(m_FuncDef[1]); w32(m_FuncDef[2]); w8(m_Region); w8(m_Direction); wString(m_strName, 30); wString(m_License, 60); w16(m_mAstandby); w16(m_mAmax); wString(m_strNameEx, 40); DEBUG_LOG("GetStatusAll\n"); return DeviceInfoEx; case GetCondition: // This command should return ALL vibration sources' settings. we only have one at the moment... w32(m_FuncType); w32(m_status.srcSettings.U32); DEBUG_LOG("GetCondition\n"); //w32(purupuru_cond.srcSettings[VN].U32); return DataTransfer; case GetMediaInfo: { if (!m_status.srcSettings.VN) // there are no vibration sources?!?! return TransmitAgain; w32(m_FuncType); w32(m_status.srcSettings.U32); u8 source = (*(++buffer_in) & 0x000000FF); DEBUG_LOG("GetMediaInfo for source 0x%02x\n", source); } return DataTransfer; case BlockRead: if (*(++buffer_in) == 0) // It's not looking for waveform data { // Read back the AutoStop settings w32(m_FuncType); w32(0); // VN(1), Phase(1), Block No.(2) w16(0x0200); // ASR for VN 1 w8(m_status.AST); } else { printf("BlockRead for waveform!\n"); printf("REPORT THIS\n"); return CommandUnknown; } return DataTransfer; case BlockWrite: { // GAH this can also be used to set auto stop time so we have to support it if (*(++buffer_in) == 0) // It's not trying to send waveform data { int numAST = (buffer_in_len-6)/4; // Doesn't include VN(1), Phase(1), Block Number(2), or ASR(2) // example ASR and AST (as the game sends): 0x000c0200 buffer_in++; u16 ASR = (u16)*(buffer_in) & 0x0000FFFF; // don't swap ASR because I am lazy if (numAST == 1 && ASR == 0x0200) // yeah, we'll handle it { EnterCriticalSection(&m_status.section); m_status.AST = (*(buffer_in) & 0x00FF0000) >> 16; LeaveCriticalSection(&m_status.section); DEBUG_LOG("BlockWrite set AutoStop: %f seconds\n", m_status.AST * .25); } else { printf("BlockWrite set numAST: %i ASR: 0x%04x\n", numAST, ASR); printf("REPORT THIS\n"); return TransmitAgain; } }
u32 FASTCALL ControllerDMA(void* device_instance, u32 Command,u32* buffer_in, u32 buffer_in_len, u32* buffer_out, u32& buffer_out_len) { u8*buffer_out_b=(u8*)buffer_out; u32 port=((maple_device_instance*)device_instance)->port>>6; // Enabled check ain't necessary. Only the plugin's active ports are checked. :) // Update input information. GetJoyStatus(port); switch (Command) { case 1: { w32(1<<24); //Controller function w32(0xFE060F00); //values a real dc controller returns w32(0); w32(0); w8(0xFF); //1 area code ( 0xFF = all regions) w8(0); //1 connector direction , i think 0 means 'on top' wStrings(Joy_strName, Joy_strBrand); //30 and 60 chars respectively, pad with ' ' w16(0x01AE); // Standby current consumption w16(0x01F4); // Maximum current consumption return 5; // 5 = Device Info. } case 9: { w32(1 << 24); //its a reply about controller ;p // Set buttons u16 kcode = 0xFFFF; if( joystate[port].control[CTL_A_BUTTON] ) kcode ^= key_CONT_A; if( joystate[port].control[CTL_B_BUTTON] ) kcode ^= key_CONT_B; if( joystate[port].control[CTL_X_BUTTON] ) kcode ^= key_CONT_X; if( joystate[port].control[CTL_Y_BUTTON] ) kcode ^= key_CONT_Y; if( joystate[port].control[CTL_START] ) kcode ^= key_CONT_START; if( joystate[port].control[CTL_D_PAD_UP] ) kcode ^= key_CONT_DPAD_UP; if( joystate[port].control[CTL_D_PAD_DOWN] ) kcode ^= key_CONT_DPAD_DOWN; if( joystate[port].control[CTL_D_PAD_LEFT] ) kcode ^= key_CONT_DPAD_LEFT; if( joystate[port].control[CTL_D_PAD_RIGHT] ) kcode ^= key_CONT_DPAD_RIGHT; w16(kcode | 0xF901); //0xF901 -> buttons that are allways up on a dc // Set triggers w8(joystate[port].control[CTL_R_SHOULDER]); w8(joystate[port].control[CTL_L_SHOULDER]); // Set Analog sticks (Main) w16(GetAnalog1(port)); //x/y2 are missing on DC w8(0x80); w8(0x80); return 8; } default: printf("PuruPuru -> UNKNOWN MAPLE COMMAND %d\n", Command); return 7; } }
////////////////////////////////////////////////////////////////////////////////////////// // NAOMI JAMMA DMA // --------------- u32 FASTCALL ControllerDMA_NAOMI(void* device_instance,u32 Command,u32* buffer_in,u32 buffer_in_len,u32* buffer_out,u32& buffer_out_len) { u8*buffer_out_b=(u8*)buffer_out; u8*buffer_in_b=(u8*)buffer_in; buffer_out_len=0; u16 kcode[4]={0xFFFF, 0xFFFF, 0xFFFF, 0xFFFF}; if(joysticks[0].enabled) GetJoyStatus(0); else memset(joystate[0].control, 0, sizeof(joystate[0].control)); if(joysticks[1].enabled) GetJoyStatus(1); else memset(joystate[1].control, 0, sizeof(joystate[1].control)); switch (Command) { case 0x86: { u32 subcode=*(u8*)buffer_in; switch(subcode) { case 0x15: case 0x33: { buffer_out[0]=0xffffffff; buffer_out[1]=0xffffffff; if(joystate[0].control[CTLN_SERVICE2] || joystate[1].control[CTLN_SERVICE2]) buffer_out[0]&=~(1<<0x1b); if(joystate[0].control[CTLN_TEST2] || joystate[1].control[CTLN_TEST2]) buffer_out[0]&=~(1<<0x1a); if(State.Mode==0 && subcode!=0x33) //Get Caps { buffer_out_b[0x11+1]=0x8E; //Valid data check buffer_out_b[0x11+2]=0x01; buffer_out_b[0x11+3]=0x00; buffer_out_b[0x11+4]=0xFF; buffer_out_b[0x11+5]=0xE0; buffer_out_b[0x11+8]=0x01; switch(State.Cmd) { //Reset, in : 2 bytes, out : 0 case 0xF0: break; //Find nodes? //In addressing Slave address, in : 2 bytes, out : 1 case 0xF1: { buffer_out_len=4*4; } break; //Speed Change, in : 2 bytes, out : 0 case 0xF2: break; //Name //"In the I / O ID" "Reading each slave ID data" //"NAMCO LTD.; I / O PCB-1000; ver1.0; for domestic only, no analog input" //in : 1 byte, out : max 102 case 0x10: { static char ID1[102]="nullDC Team; I/O Plugin-1; ver0.2; for nullDC or other emus"; buffer_out_b[0x8+0x10]=(BYTE)strlen(ID1)+3; for(int i=0;ID1[i]!=0;++i) { buffer_out_b[0x8+0x13+i]=ID1[i]; } } break; //CMD Version //REV in command|Format command to read the (revision)|One|Two //in : 1 byte, out : 2 bytes case 0x11: { buffer_out_b[0x8+0x13]=0x13; } break; //JVS Version //In JV REV|JAMMA VIDEO standard reading (revision)|One|Two //in : 1 byte, out : 2 bytes case 0x12: { buffer_out_b[0x8+0x13]=0x30; } break; //COM Version //VER in the communication system|Read a communication system compliant version of |One|Two //in : 1 byte, out : 2 bytes case 0x13: { buffer_out_b[0x8+0x13]=0x10; } break; //Features //Check in feature |Each features a slave to read |One |6 to //in : 1 byte, out : 6 + (?) case 0x14: { unsigned char *FeatPtr=buffer_out_b+0x8+0x13; buffer_out_b[0x8+0x9+0x3]=0x0; buffer_out_b[0x8+0x9+0x9]=0x1; #define ADDFEAT(Feature,Count1,Count2,Count3) *FeatPtr++=Feature; *FeatPtr++=Count1; *FeatPtr++=Count2; *FeatPtr++=Count3; ADDFEAT(1,2,12,0); //Feat 1=Digital Inputs. 2 Players. 10 bits ADDFEAT(2,2,0,0); //Feat 2=Coin inputs. 2 Inputs ADDFEAT(3,2,0,0); //Feat 3=Analog. 2 Chans ADDFEAT(0,0,0,0); //End of list } break; default: printf("unknown CAP %X\n",State.Cmd); return 0; } buffer_out_len=4*4; } else if(State.Mode==1 || State.Mode==2 || subcode==0x33) //Get Data { unsigned char glbl=0x00; unsigned char p1_1=0x00; unsigned char p1_2=0x00; unsigned char p2_1=0x00; unsigned char p2_2=0x00; static unsigned char LastKey[256]; static unsigned short coin1=0x0000; static unsigned short coin2=0x0000; if(joystate[0].control[CTLN_TEST1] || joystate[1].control[CTLN_TEST1]) glbl|=0x80; if(joystate[0].control[CTLN_SERVICE1]) p1_1|=0x40; if(joystate[0].control[CTLN_START]) p1_1|=0x80; if(joystate[0].control[CTLN_D_UP] ) p1_1|=0x20; if(joystate[0].control[CTLN_D_DOWN] ) p1_1|=0x10; if(joystate[0].control[CTLN_D_LEFT] ) p1_1|=0x08; if(joystate[0].control[CTLN_D_RIGHT]) p1_1|=0x04; if(joystate[0].control[CTLN_BUTTON1]) p1_1|=0x02; if(joystate[0].control[CTLN_BUTTON2]) p1_1|=0x01; if(joystate[0].control[CTLN_BUTTON3]) p1_2|=0x80; if(joystate[0].control[CTLN_BUTTON4]) p1_2|=0x40; if(joystate[0].control[CTLN_BUTTON5]) p1_2|=0x20; if(joystate[0].control[CTLN_BUTTON6]) p1_2|=0x10; // Player 2 if(joystate[1].control[CTLN_SERVICE1]) p2_1|=0x40; if(joystate[1].control[CTLN_START]) p2_1|=0x80; if(joystate[1].control[CTLN_D_UP] ) p2_1|=0x20; if(joystate[1].control[CTLN_D_DOWN] ) p2_1|=0x10; if(joystate[1].control[CTLN_D_LEFT] ) p2_1|=0x08; if(joystate[1].control[CTLN_D_RIGHT]) p2_1|=0x04; if(joystate[1].control[CTLN_BUTTON1]) p2_1|=0x02; if(joystate[1].control[CTLN_BUTTON2]) p2_1|=0x01; if(joystate[1].control[CTLN_BUTTON3]) p2_2|=0x80; if(joystate[1].control[CTLN_BUTTON4]) p2_2|=0x40; if(joystate[1].control[CTLN_BUTTON5]) p2_2|=0x20; if(joystate[1].control[CTLN_BUTTON6]) p2_2|=0x10; static bool old_coin1 = false; static bool old_coin2 = false; if(!old_coin1 && joystate[0].control[CTLN_COIN]) // Coin key { coin1++; old_coin1 = true; } else if(old_coin1 && !joystate[0].control[CTLN_COIN]) // Coin key old_coin1 = false; if(!old_coin2 && joystate[1].control[CTLN_COIN]) // Coin key { coin2++; old_coin2 = true; } else if(old_coin2 && !joystate[1].control[CTLN_COIN]) // Coin key old_coin2 = false; buffer_out_b[0x11+0]=0x00; buffer_out_b[0x11+1]=0x8E; //Valid data check buffer_out_b[0x11+2]=0x01; buffer_out_b[0x11+3]=0x00; buffer_out_b[0x11+4]=0xFF; buffer_out_b[0x11+5]=0xE0; buffer_out_b[0x11+8]=0x01; //memset(OutData+8+0x11,0x00,0x100); buffer_out_b[8+0x12+0]=1; buffer_out_b[8+0x12+1]=glbl; buffer_out_b[8+0x12+2]=p1_1; buffer_out_b[8+0x12+3]=p1_2; buffer_out_b[8+0x12+4]=p2_1; buffer_out_b[8+0x12+5]=p2_2; buffer_out_b[8+0x12+6]=1; buffer_out_b[8+0x12+7]=coin1>>8; buffer_out_b[8+0x12+8]=coin1&0xff; buffer_out_b[8+0x12+9]=coin2>>8; buffer_out_b[8+0x12+10]=coin2&0xff; buffer_out_b[8+0x12+11]=1; buffer_out_b[8+0x12+12]=0x00; buffer_out_b[8+0x12+13]=0x00; buffer_out_b[8+0x12+14]=0x00; buffer_out_b[8+0x12+15]=0x00; buffer_out_b[8+0x12+16]=0x00; buffer_out_b[8+0x12+17]=0x00; buffer_out_b[8+0x12+18]=0x00; buffer_out_b[8+0x12+19]=0x00; buffer_out_b[8+0x12+20]=0x00; if(State.Mode==1) { buffer_out_b[0x11+0x7]=19; buffer_out_b[0x11+0x4]=19+5; } else { buffer_out_b[0x11+0x7]=17; buffer_out_b[0x11+0x4]=17-1; } //OutLen=8+0x11+16; buffer_out_len=8+0x12+20; } } return 8; case 0x17: //Select Subdevice { State.Mode=0; State.Cmd=buffer_in_b[8]; State.Node=buffer_in_b[9]; buffer_out_len=0; } return (7); case 0x27: //Transfer request { State.Mode=1; State.Cmd=buffer_in_b[8]; State.Node=buffer_in_b[9]; buffer_out_len=0; } return (7); case 0x21: //Transfer request with repeat { State.Mode=2; State.Cmd=buffer_in_b[8]; State.Node=buffer_in_b[9]; buffer_out_len=0; } return (7); case 0x0B: //EEPROM write { int address=buffer_in_b[1]; int size=buffer_in_b[2]; //printf("EEprom write %08X %08X\n",address,size); //printState(Command,buffer_in,buffer_in_len); memcpy(EEPROM+address,buffer_in_b+4,size); wchar eeprom_file[512]; host.ConfigLoadStr(L"emu",L"gamefile",eeprom_file,L""); wcscat_s(eeprom_file,L".eeprom"); FILE* f; _wfopen_s(&f,eeprom_file,L"wb"); if (f) { fwrite(EEPROM,1,0x80,f); fclose(f); wprintf(L"SAVED EEPROM to %s\n",eeprom_file); } } return (7); case 0x3: //EEPROM read { if (!EEPROM_loaded) { EEPROM_loaded=true; wchar eeprom_file[512]; host.ConfigLoadStr(L"emu",L"gamefile",eeprom_file,L""); wcscat_s(eeprom_file,L".eeprom"); FILE* f; _wfopen_s(&f,eeprom_file,L"rb"); if (f) { fread(EEPROM,1,0x80,f); fclose(f); wprintf(L"LOADED EEPROM from %s\n",eeprom_file); } } //printf("EEprom READ ?\n"); int address=buffer_in_b[1]; //printState(Command,buffer_in,buffer_in_len); memcpy(buffer_out,EEPROM+address,0x80); buffer_out_len=0x80; } return 8; //IF I return all FF, then board runs in low res case 0x31: { buffer_out[0]=0xffffffff; buffer_out[1]=0xffffffff; } return (8); default: printf("PuruPuru => Unknown 0x86: Sub 0x%X - State: 0x%X Mode: 0x%X Node: 0x%X\n",subcode,State.Cmd,State.Mode,State.Node); printState(Command,buffer_in,buffer_in_len); } return 8;//MAPLE_RESPONSE_DATATRF } break; case 0x82: { const char *ID="315-6149 COPYRIGHT SEGA E\x83\x00\x20\x05NTERPRISES CO,LTD. "; memset(buffer_out_b,0x20,256); memcpy(buffer_out_b,ID,0x38-4); buffer_out_len=256; return (0x83); } /*typedef struct { DWORD func;//4 DWORD function_data[3];//3*4 u8 area_code;//1 u8 connector_direction;//1 char product_name[30];//30*1 char product_license[60];//60*1 WORD standby_power;//2 WORD max_power;//2 } maple_devinfo_t;*/ case 1: { w32(1 << 24); // Caps w32( 0xfe060f00); //struct data w32( 0); w32( 0); w8(0xFF); //1 area code w8(0); //1 direction wStrings(Joy_strName, Joy_strBrand_2); //ptr_out += 60; w16(0xAE01); //2 w16(0xF401); //2 } return 5; case 9: { w32(1 << 24); //struct data w16(kcode[0] | 0xF901); //2 w8(0x0); //triggers w8(0x0); w8(0x80); // Analog XY w8(0x80); w8(0x80); // XY2 w8(0x80); //are these needed ? //1 //WriteMem8(ptr_out, 10); ptr_out += 1; //1 //WriteMem8(ptr_out, 10); ptr_out += 1; } return 8; default: printf("PuruPuru => unknown MAPLE Frame: "); printState(Command,buffer_in,buffer_in_len); return 7; }