/* Pcsx - Pc Psx Emulator * Copyright (C) 1999-2002 Pcsx Team * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include #include #include #include #include "PsxCommon.h" #ifdef __WIN32__ #pragma warning(disable:4244) #endif // *** FOR WORKS ON PADS AND MEMORY CARDS ***** static unsigned char buf[256]; unsigned char cardh[4] = { 0x00, 0x00, 0x5a, 0x5d }; //static unsigned short StatReg = 0x002b; // Transfer(?) Ready and the Buffer is Empty unsigned short StatReg = TX_RDY | TX_EMPTY; unsigned short ModeReg; unsigned short CtrlReg; unsigned short BaudReg; static unsigned long bufcount; static unsigned long parp; static unsigned long mcdst,rdwr; static unsigned char adrH,adrL; static unsigned long padst; PadDataS pad; char Mcd1Data[MCD_SIZE], Mcd2Data[MCD_SIZE]; // clk cycle byte // 4us * 8bits = ((PSXCLK / 1000000) * 32) / BIAS; (linuzappz) #define SIO_INT() { \ if (!Config.Sio) { \ psxRegs.interrupt |= 0x80; \ psxRegs.intCycle[7+1] = 200; /*270;*/ \ psxRegs.intCycle[7] = psxRegs.cycle; \ } \ } unsigned char sioRead8() { unsigned char ret = 0; if ((StatReg & RX_RDY)/* && (CtrlReg & RX_PERM)*/) { // StatReg &= ~RX_OVERRUN; ret = buf[parp]; if (parp == bufcount) { StatReg &= ~RX_RDY; // Receive is not Ready now? StatReg |= TX_EMPTY; // Buffer is Empty if (mcdst == 5) { mcdst = 0; if (rdwr == 2) { switch (CtrlReg&0x2002) { case 0x0002: memcpy(Mcd1Data + (adrL | (adrH << 8)) * 128, &buf[1], 128); SaveMcd(Config.Mcd1, Mcd1Data, (adrL | (adrH << 8)) * 128, 128); break; case 0x2002: memcpy(Mcd2Data + (adrL | (adrH << 8)) * 128, &buf[1], 128); SaveMcd(Config.Mcd2, Mcd2Data, (adrL | (adrH << 8)) * 128, 128); break; } } } if (padst == 2) padst = 0; if (mcdst == 1) { mcdst = 2; StatReg&= ~TX_EMPTY; StatReg|= RX_RDY; } } } #ifdef PAD_LOG PAD_LOG("sio read8 ;ret = %x\n", ret); #endif return ret; } void sioWrite8(unsigned char value) { #ifdef PAD_LOG PAD_LOG("sio write8 %x\n", value); #endif switch (padst) { case 1: SIO_INT(); if ((value&0x40) == 0x40) { padst = 2; parp = 1; switch (CtrlReg&0x2002) { case 0x0002: buf[parp] = PAD1_poll(value); break; case 0x2002: buf[parp] = PAD2_poll(value); break; } if (!(buf[parp] & 0x0f)) { bufcount = 2 + 32; } else { bufcount = 2 + (buf[parp] & 0x0f) * 2; } if (buf[parp] == 0x41) { switch (value) { case 0x43: buf[1] = 0x43; break; case 0x45: buf[1] = 0xf3; break; } } } else padst = 0; return; case 2: parp++; /* if (buf[1] == 0x45) { buf[parp] = 0; SIO_INT(); return; }*/ switch (CtrlReg&0x2002) { case 0x0002: buf[parp] = PAD1_poll(value); break; case 0x2002: buf[parp] = PAD2_poll(value); break; } if (parp == bufcount) { padst = 0; return; } SIO_INT(); return; } switch (mcdst) { case 1: SIO_INT(); if (rdwr) { parp++; return; } parp = 1; switch (value) { case 0x52: rdwr = 1; break; case 0x57: rdwr = 2; break; default: mcdst = 0; } return; case 2: // address H SIO_INT(); adrH = value; *buf = 0; parp = 0; bufcount = 1; mcdst = 3; return; case 3: // address L SIO_INT(); adrL = value; *buf = adrH; parp = 0; bufcount = 1; mcdst = 4; return; case 4: SIO_INT(); parp = 0; switch (rdwr) { case 1: // read buf[0] = 0x5c; buf[1] = 0x5d; buf[2] = adrH; buf[3] = adrL; switch (CtrlReg&0x2002) { case 0x0002: memcpy(&buf[4], Mcd1Data + (adrL | (adrH << 8)) * 128, 128); break; case 0x2002: memcpy(&buf[4], Mcd2Data + (adrL | (adrH << 8)) * 128, 128); break; } { char xor = 0; int i; for (i=2;i<128+4;i++) xor^=buf[i]; buf[132] = xor; } buf[133] = 0x47; bufcount = 133; break; case 2: // write buf[0] = adrL; buf[1] = value; buf[129] = 0x5c; buf[130] = 0x5d; buf[131] = 0x47; bufcount = 131; break; } mcdst = 5; return; case 5: parp++; if (rdwr == 2) { if (parp < 128) buf[parp+1] = value; } SIO_INT(); return; } switch (value) { case 0x01: // start pad StatReg &= ~TX_EMPTY; // Now the Buffer is not empty StatReg |= RX_RDY; // Transfer is Ready switch (CtrlReg&0x2002) { case 0x0002: buf[0] = PAD1_startPoll(1); break; case 0x2002: buf[0] = PAD2_startPoll(2); break; } bufcount = 2; parp = 0; padst = 1; SIO_INT(); return; case 0x81: // start memcard StatReg &= ~TX_EMPTY; StatReg |= RX_RDY; memcpy(buf, cardh, 4); parp = 0; bufcount = 3; mcdst = 1; rdwr = 0; SIO_INT(); return; } } void sioWriteCtrl16(unsigned short value) { CtrlReg = value & ~RESET_ERR; if (value & RESET_ERR) StatReg &= ~IRQ; if ((CtrlReg & SIO_RESET) || (!CtrlReg)) { padst = 0; mcdst = 0; parp = 0; StatReg = TX_RDY | TX_EMPTY; psxRegs.interrupt&=~0x80; } } void sioInterrupt() { #ifdef PAD_LOG PAD_LOG("Sio Interrupt\n"); #endif StatReg|= IRQ; psxHu32(0x1070)|=0x80; } void LoadMcd(int mcd, char *str) { FILE *f; char *data = NULL; if (mcd == 1) data = Mcd1Data; if (mcd == 2) data = Mcd2Data; if (*str == 0) sprintf(str, "memcards/Mcd00%d.mcr", mcd); f = fopen(str, "rb"); if (f == NULL) { CreateMcd(str); f = fopen(str, "rb"); if (f != NULL) { struct stat buf; if (stat(str, &buf) != -1) { if (buf.st_size == MCD_SIZE + 64) fseek(f, 64, SEEK_SET); else if(buf.st_size == MCD_SIZE + 3904) fseek(f, 3904, SEEK_SET); } fread(data, 1, MCD_SIZE, f); fclose(f); } else SysMessage ("Failed loading MemCard %s\n", str); } else { struct stat buf; if (stat(str, &buf) != -1) { if (buf.st_size == MCD_SIZE + 64) fseek(f, 64, SEEK_SET); else if(buf.st_size == MCD_SIZE + 3904) fseek(f, 3904, SEEK_SET); } fread(data, 1, MCD_SIZE, f); fclose(f); } } void LoadMcds(char *mcd1, char *mcd2) { LoadMcd(1, mcd1); LoadMcd(2, mcd2); } void SaveMcd(char *mcd, char *data, unsigned long adr, int size) { FILE *f; f = fopen(mcd, "r+b"); if (f != NULL) { struct stat buf; if (stat(mcd, &buf) != -1) { if (buf.st_size == MCD_SIZE + 64) fseek(f, adr + 64, SEEK_SET); else if (buf.st_size == MCD_SIZE + 3904) fseek(f, adr + 3904, SEEK_SET); else fseek(f, adr, SEEK_SET); } else fseek(f, adr, SEEK_SET); fwrite(data + adr, 1, size, f); fclose(f); return; } // try to create it again if we can't open it /*f = fopen(mcd, "wb"); if (f != NULL) { fwrite(data, 1, MCD_SIZE, f); fclose(f); }*/ ConvertMcd(mcd, data); } void CreateMcd(char *mcd) { FILE *f; struct stat buf; int s = MCD_SIZE; int i=0; strlwr(mcd); f = fopen(mcd, "wb"); if (f == NULL) return; if(stat(mcd, &buf)!=-1) { if ((buf.st_size == MCD_SIZE + 3904) || strstr(mcd, ".gme")) { s = s + 3904; fputc('1', f); s--; fputc('2', f); s--; fputc('3', f); s--; fputc('-', f); s--; fputc('4', f); s--; fputc('5', f); s--; fputc('6', f); s--; fputc('-', f); s--; fputc('S', f); s--; fputc('T', f); s--; fputc('D', f); s--; for(i=0;i<7;i++) { fputc(0, f); s--; } fputc(1, f); s--; fputc(0, f); s--; fputc(1, f); s--; fputc('M', f); s--; fputc('Q', f); s--; for(i=0;i<14;i++) { fputc(0xa0, f); s--; } fputc(0, f); s--; fputc(0xff, f); while (s-- > (MCD_SIZE+1)) fputc(0, f); } else if ((buf.st_size == MCD_SIZE + 64) || strstr(mcd, ".mem") || strstr(mcd, ".vgs")) { s = s + 64; fputc('V', f); s--; fputc('g', f); s--; fputc('s', f); s--; fputc('M', f); s--; for(i=0;i<3;i++) { fputc(1, f); s--; fputc(0, f); s--; fputc(0, f); s--; fputc(0, f); s--; } fputc(0, f); s--; fputc(2, f); while (s-- > (MCD_SIZE+1)) fputc(0, f); } } fputc('M', f); s--; fputc('C', f); s--; while (s-- > (MCD_SIZE-127)) fputc(0, f); fputc(0xe, f); s--; while ((s--)>=0) fputc(0, f); fclose(f); } void ConvertMcd(char *mcd, char *data) { FILE *f; int i=0; int s = MCD_SIZE; strlwr(mcd); if (strstr(mcd, ".gme")) { f = fopen(mcd, "wb"); if (f != NULL) { fwrite(data-3904, 1, MCD_SIZE+3904, f); fclose(f); } f = fopen(mcd, "r+"); s = s + 3904; fputc('1', f); s--; fputc('2', f); s--; fputc('3', f); s--; fputc('-', f); s--; fputc('4', f); s--; fputc('5', f); s--; fputc('6', f); s--; fputc('-', f); s--; fputc('S', f); s--; fputc('T', f); s--; fputc('D', f); s--; for(i=0;i<7;i++) { fputc(0, f); s--; } fputc(1, f); s--; fputc(0, f); s--; fputc(1, f); s--; fputc('M', f); s--; fputc('Q', f); s--; for(i=0;i<14;i++) { fputc(0xa0, f); s--; } fputc(0, f); s--; fputc(0xff, f); while (s-- > (MCD_SIZE+1)) fputc(0, f); fclose(f); } else if(strstr(mcd, ".mem") || strstr(mcd,".vgs")) { f = fopen(mcd, "wb"); if (f != NULL) { fwrite(data-64, 1, MCD_SIZE+64, f); fclose(f); } f = fopen(mcd, "r+"); s = s + 64; fputc('V', f); s--; fputc('g', f); s--; fputc('s', f); s--; fputc('M', f); s--; for(i=0;i<3;i++) { fputc(1, f); s--; fputc(0, f); s--; fputc(0, f); s--; fputc(0, f); s--; } fputc(0, f); s--; fputc(2, f); while (s-- > (MCD_SIZE+1)) fputc(0, f); fclose(f); } else { f = fopen(mcd, "wb"); if (f != NULL) { fwrite(data, 1, MCD_SIZE, f); fclose(f); } } } void GetMcdBlockInfo(int mcd, int block, McdBlock *Info) { unsigned char *data = NULL, *ptr, *str; unsigned short clut[16]; unsigned short c; int i, x; memset(Info, 0, sizeof(McdBlock)); str = Info->Title; if (mcd == 1) data = Mcd1Data; if (mcd == 2) data = Mcd2Data; ptr = data + block * 8192 + 2; Info->IconCount = *ptr & 0x3; ptr+= 2; i=0; for (i=0; i < 48; i++) { c = *(ptr) << 8; c|= *(ptr+1); if (!c) break; if (c >= 0x8281 && c <= 0x8298) c = (c - 0x8281) + 'a'; else if (c >= 0x824F && c <= 0x827A) c = (c - 0x824F) + '0'; else if (c == 0x8144) c = '.'; else if (c == 0x8146) c = ':'; else if (c == 0x8168) c = '"'; else if (c == 0x8169) c = '('; else if (c == 0x816A) c = ')'; else if (c == 0x816D) c = '['; else if (c == 0x816E) c = ']'; else if (c == 0x817C) c = '-'; else { c = ' '; } str[i] = c; ptr+=2; } str[i] = 0; ptr = data + block * 8192 + 0x60; // icon palete data for (i=0; i<16; i++) { clut[i] = *((unsigned short*)ptr); ptr+=2; } for (i=0; iIconCount; i++) { short *icon = &Info->Icon[i*16*16]; ptr = data + block * 8192 + 128 + 128 * i; // icon data for (x=0; x<16*16; x++) { icon[x++] = clut[*ptr & 0xf]; icon[x] = clut[*ptr >> 4]; ptr++; } } ptr = data + block * 128; Info->Flags = *ptr; ptr+= 0xa; strncpy(Info->ID, ptr, 12); Info->ID[12] = 0; ptr+= 12; strcpy(Info->Name, ptr); } int sioFreeze(gzFile f, int Mode) { char Unused[4096]; gzfreezel(buf); gzfreezel(&StatReg); gzfreezel(&ModeReg); gzfreezel(&CtrlReg); gzfreezel(&BaudReg); gzfreezel(&bufcount); gzfreezel(&parp); gzfreezel(&mcdst); gzfreezel(&rdwr); gzfreezel(&adrH); gzfreezel(&adrL); gzfreezel(&padst); gzfreezel(Unused); return 0; }