/* * Copyright (C) 2002-2009 The DOSBox 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. */ /* $Id: bios_disk.cpp,v 1.40 2009/08/23 17:24:54 c2woody Exp $ */ #include "dosbox.h" #include "callback.h" #include "bios.h" #include "regs.h" #include "mem.h" #include "dos_inc.h" /* for Drives[] */ #include "../dos/drives.h" #include "mapper.h" #define MAX_DISK_IMAGES 4 diskGeo DiskGeometryList[] = { { 160, 8, 1, 40, 0}, { 180, 9, 1, 40, 0}, { 200, 10, 1, 40, 0}, { 320, 8, 2, 40, 1}, { 360, 9, 2, 40, 1}, { 400, 10, 2, 40, 1}, { 720, 9, 2, 80, 3}, {1200, 15, 2, 80, 2}, {1440, 18, 2, 80, 4}, {2880, 36, 2, 80, 6}, {0, 0, 0, 0, 0} }; Bitu call_int13; Bitu diskparm0, diskparm1; static Bit8u last_status; static Bit8u last_drive; Bit16u imgDTASeg; RealPt imgDTAPtr; DOS_DTA *imgDTA; bool killRead; static bool swapping_requested; void CMOS_SetRegister(Bitu regNr, Bit8u val); //For setting equipment word /* 2 floppys and 2 harddrives, max */ imageDisk *imageDiskList[MAX_DISK_IMAGES]; imageDisk *diskSwap[MAX_SWAPPABLE_DISKS]; Bits swapPosition; void updateDPT(void) { Bit32u tmpheads, tmpcyl, tmpsect, tmpsize; if(imageDiskList[2] != NULL) { PhysPt dp0physaddr=CALLBACK_PhysPointer(diskparm0); imageDiskList[2]->Get_Geometry(&tmpheads, &tmpcyl, &tmpsect, &tmpsize); phys_writew(dp0physaddr,(Bit16u)tmpcyl); phys_writeb(dp0physaddr+0x2,(Bit8u)tmpheads); phys_writew(dp0physaddr+0x3,0); phys_writew(dp0physaddr+0x5,(Bit16u)-1); phys_writeb(dp0physaddr+0x7,0); phys_writeb(dp0physaddr+0x8,(0xc0 | (((imageDiskList[2]->heads) > 8) << 3))); phys_writeb(dp0physaddr+0x9,0); phys_writeb(dp0physaddr+0xa,0); phys_writeb(dp0physaddr+0xb,0); phys_writew(dp0physaddr+0xc,(Bit16u)tmpcyl); phys_writeb(dp0physaddr+0xe,(Bit8u)tmpsect); } if(imageDiskList[3] != NULL) { PhysPt dp1physaddr=CALLBACK_PhysPointer(diskparm1); imageDiskList[3]->Get_Geometry(&tmpheads, &tmpcyl, &tmpsect, &tmpsize); phys_writew(dp1physaddr,(Bit16u)tmpcyl); phys_writeb(dp1physaddr+0x2,(Bit8u)tmpheads); phys_writeb(dp1physaddr+0xe,(Bit8u)tmpsect); } } void swapInDisks(void) { bool allNull = true; Bits diskcount = 0; Bits swapPos = swapPosition; int i; /* Check to make sure there's atleast one setup image */ for(i=0;idiskname); imageDiskList[diskcount] = diskSwap[swapPos]; diskcount++; } swapPos++; if(swapPos>=MAX_SWAPPABLE_DISKS) swapPos=0; } } bool getSwapRequest(void) { bool sreq=swapping_requested; swapping_requested = false; return sreq; } void swapInNextDisk(bool pressed) { if (!pressed) return; /* Hack/feature: rescan all disks as well */ DriveManager::CycleAllDisks(); for(Bitu i=0;iEmptyCache(); } swapPosition++; if(diskSwap[swapPosition] == NULL) swapPosition = 0; swapInDisks(); swapping_requested = true; } Bit8u imageDisk::Read_Sector(Bit32u head,Bit32u cylinder,Bit32u sector,void * data) { Bit32u sectnum; sectnum = ( (cylinder * heads + head) * sectors ) + sector - 1L; return Read_AbsoluteSector(sectnum, data); } Bit8u imageDisk::Read_AbsoluteSector(Bit32u sectnum, void * data) { Bit32u bytenum; bytenum = sectnum * sector_size; fseek(diskimg,bytenum,SEEK_SET); fread(data, 1, sector_size, diskimg); return 0x00; } Bit8u imageDisk::Write_Sector(Bit32u head,Bit32u cylinder,Bit32u sector,void * data) { Bit32u sectnum; sectnum = ( (cylinder * heads + head) * sectors ) + sector - 1L; return Write_AbsoluteSector(sectnum, data); } Bit8u imageDisk::Write_AbsoluteSector(Bit32u sectnum, void *data) { Bit32u bytenum; bytenum = sectnum * sector_size; //LOG_MSG("Writing sectors to %ld at bytenum %d", sectnum, bytenum); fseek(diskimg,bytenum,SEEK_SET); size_t ret=fwrite(data, sector_size, 1, diskimg); return ((ret>0)?0x00:0x05); } imageDisk::imageDisk(FILE *imgFile, Bit8u *imgName, Bit32u imgSizeK, bool isHardDisk) { heads = 0; cylinders = 0; sectors = 0; sector_size = 512; diskimg = imgFile; memset(diskname,0,512); if(strlen((const char *)imgName) > 511) { memcpy(diskname, imgName, 511); } else { strcpy((char *)diskname, (const char *)imgName); } active = false; hardDrive = isHardDisk; if(!isHardDisk) { Bit8u i=0; bool founddisk = false; while (DiskGeometryList[i].ksize!=0x0) { if ((DiskGeometryList[i].ksize==imgSizeK) || (DiskGeometryList[i].ksize+1==imgSizeK)) { if (DiskGeometryList[i].ksize!=imgSizeK) LOG_MSG("ImageLoader: image file with additional data, might not load!"); founddisk = true; active = true; floppytype = i; heads = DiskGeometryList[i].headscyl; cylinders = DiskGeometryList[i].cylcount; sectors = DiskGeometryList[i].secttrack; break; } i++; } if(!founddisk) { active = false; } else { Bit16u equipment=mem_readw(BIOS_CONFIGURATION); if(equipment&1) { Bitu numofdisks = (equipment>>6)&3; numofdisks++; if(numofdisks > 1) numofdisks=1;//max 2 floppies at the moment equipment&=~0x00C0; equipment|=(numofdisks<<6); } else equipment|=1; mem_writew(BIOS_CONFIGURATION,equipment); CMOS_SetRegister(0x14, (Bit8u)(equipment&0xff)); } } } void imageDisk::Set_Geometry(Bit32u setHeads, Bit32u setCyl, Bit32u setSect, Bit32u setSectSize) { heads = setHeads; cylinders = setCyl; sectors = setSect; sector_size = setSectSize; active = true; } void imageDisk::Get_Geometry(Bit32u * getHeads, Bit32u *getCyl, Bit32u *getSect, Bit32u *getSectSize) { *getHeads = heads; *getCyl = cylinders; *getSect = sectors; *getSectSize = sector_size; } Bit8u imageDisk::GetBiosType(void) { if(!hardDrive) { return (Bit8u)DiskGeometryList[floppytype].biosval; } else return 0; } Bit32u imageDisk::getSectSize(void) { return sector_size; } static Bitu GetDosDriveNumber(Bitu biosNum) { switch(biosNum) { case 0x0: return 0x0; case 0x1: return 0x1; case 0x80: return 0x2; case 0x81: return 0x3; case 0x82: return 0x4; case 0x83: return 0x5; default: return 0x7f; } } static bool driveInactive(Bitu driveNum) { if(driveNum>=(2 + MAX_HDD_IMAGES)) { LOG(LOG_BIOS,LOG_ERROR)("Disk %d non-existant", driveNum); last_status = 0x01; CALLBACK_SCF(true); return true; } if(imageDiskList[driveNum] == NULL) { LOG(LOG_BIOS,LOG_ERROR)("Disk %d not active", driveNum); last_status = 0x01; CALLBACK_SCF(true); return true; } if(!imageDiskList[driveNum]->active) { LOG(LOG_BIOS,LOG_ERROR)("Disk %d not active", driveNum); last_status = 0x01; CALLBACK_SCF(true); return true; } return false; } static Bitu INT13_DiskHandler(void) { Bit16u segat, bufptr; Bit8u sectbuf[512]; Bitu drivenum; Bitu i,t; last_drive = reg_dl; drivenum = GetDosDriveNumber(reg_dl); bool any_images = false; for(i = 0;i < MAX_DISK_IMAGES;i++) { if(imageDiskList[i]) any_images=true; } // unconditionally enable the interrupt flag CALLBACK_SIF(true); //drivenum = 0; //LOG_MSG("INT13: Function %x called on drive %x (dos drive %d)", reg_ah, reg_dl, drivenum); switch(reg_ah) { case 0x0: /* Reset disk */ { /* if there aren't any diskimages (so only localdrives and virtual drives) * always succeed on reset disk. If there are diskimages then and only then * do real checks */ if (any_images && driveInactive(drivenum)) { /* driveInactive sets carry flag if the specified drive is not available */ if ((machine==MCH_CGA) || (machine==MCH_PCJR)) { /* those bioses call floppy drive reset for invalid drive values */ if (((imageDiskList[0]) && (imageDiskList[0]->active)) || ((imageDiskList[1]) && (imageDiskList[1]->active))) { last_status = 0x00; CALLBACK_SCF(false); } } return CBRET_NONE; } last_status = 0x00; CALLBACK_SCF(false); } break; case 0x1: /* Get status of last operation */ if(last_status != 0x00) { reg_ah = last_status; CALLBACK_SCF(true); } else { reg_ah = 0x00; CALLBACK_SCF(false); } break; case 0x2: /* Read sectors */ if (reg_al==0) { reg_ah = 0x01; CALLBACK_SCF(true); return CBRET_NONE; } if (!any_images) { // Inherit the Earth cdrom (uses it as disk test) if (((reg_dl&0x80)==0x80) && (reg_dh==0) && ((reg_cl&0x3f)==1)) { reg_ah = 0; CALLBACK_SCF(false); return CBRET_NONE; } } if (driveInactive(drivenum)) { reg_ah = 0xff; CALLBACK_SCF(true); return CBRET_NONE; } segat = SegValue(es); bufptr = reg_bx; for(i=0;iRead_Sector((Bit32u)reg_dh, (Bit32u)(reg_ch | ((reg_cl & 0xc0)<< 2)), (Bit32u)((reg_cl & 63)+i), sectbuf); if((last_status != 0x00) || (killRead)) { LOG_MSG("Error in disk read"); killRead = false; reg_ah = 0x04; CALLBACK_SCF(true); return CBRET_NONE; } for(t=0;t<512;t++) { real_writeb(segat,bufptr,sectbuf[t]); bufptr++; } } reg_ah = 0x00; CALLBACK_SCF(false); break; case 0x3: /* Write sectors */ if(driveInactive(drivenum)) { reg_ah = 0xff; CALLBACK_SCF(true); return CBRET_NONE; } bufptr = reg_bx; for(i=0;igetSectSize();t++) { sectbuf[t] = real_readb(SegValue(es),bufptr); bufptr++; } last_status = imageDiskList[drivenum]->Write_Sector((Bit32u)reg_dh, (Bit32u)(reg_ch | ((reg_cl & 0xc0) << 2)), (Bit32u)((reg_cl & 63) + i), §buf[0]); if(last_status != 0x00) { CALLBACK_SCF(true); return CBRET_NONE; } } reg_ah = 0x00; CALLBACK_SCF(false); break; case 0x04: /* Verify sectors */ if (reg_al==0) { reg_ah = 0x01; CALLBACK_SCF(true); return CBRET_NONE; } if(driveInactive(drivenum)) return CBRET_NONE; /* TODO: Finish coding this section */ /* segat = SegValue(es); bufptr = reg_bx; for(i=0;iRead_Sector((Bit32u)reg_dh, (Bit32u)(reg_ch | ((reg_cl & 0xc0)<< 2)), (Bit32u)((reg_cl & 63)+i), sectbuf); if(last_status != 0x00) { LOG_MSG("Error in disk read"); CALLBACK_SCF(true); return CBRET_NONE; } for(t=0;t<512;t++) { real_writeb(segat,bufptr,sectbuf[t]); bufptr++; } }*/ reg_ah = 0x00; //Qbix: The following codes don't match my specs. al should be number of sector verified //reg_al = 0x10; /* CRC verify failed */ //reg_al = 0x00; /* CRC verify succeeded */ CALLBACK_SCF(false); break; case 0x08: /* Get drive parameters */ if(driveInactive(drivenum)) { last_status = 0x07; reg_ah = last_status; CALLBACK_SCF(true); return CBRET_NONE; } reg_ax = 0x00; reg_bl = imageDiskList[drivenum]->GetBiosType(); Bit32u tmpheads, tmpcyl, tmpsect, tmpsize; imageDiskList[drivenum]->Get_Geometry(&tmpheads, &tmpcyl, &tmpsect, &tmpsize); if (tmpcyl==0) LOG(LOG_BIOS,LOG_ERROR)("INT13 DrivParm: cylinder count zero!"); else tmpcyl--; // cylinder count -> max cylinder if (tmpheads==0) LOG(LOG_BIOS,LOG_ERROR)("INT13 DrivParm: head count zero!"); else tmpheads--; // head count -> max head reg_ch = (Bit8u)(tmpcyl & 0xff); reg_cl = (Bit8u)(((tmpcyl >> 2) & 0xc0) | (tmpsect & 0x3f)); reg_dh = (Bit8u)tmpheads; last_status = 0x00; if (reg_dl&0x80) { // harddisks reg_dl = 0; if(imageDiskList[2] != NULL) reg_dl++; if(imageDiskList[3] != NULL) reg_dl++; } else { // floppy disks reg_dl = 0; if(imageDiskList[0] != NULL) reg_dl++; if(imageDiskList[1] != NULL) reg_dl++; } CALLBACK_SCF(false); break; case 0x11: /* Recalibrate drive */ reg_ah = 0x00; CALLBACK_SCF(false); break; case 0x17: /* Set disk type for format */ /* Pirates! needs this to load */ killRead = true; reg_ah = 0x00; CALLBACK_SCF(false); break; default: LOG(LOG_BIOS,LOG_ERROR)("INT13: Function %x called on drive %x (dos drive %d)", reg_ah, reg_dl, drivenum); reg_ah=0xff; CALLBACK_SCF(true); } return CBRET_NONE; } void BIOS_SetupDisks(void) { /* TODO Start the time correctly */ call_int13=CALLBACK_Allocate(); CALLBACK_Setup(call_int13,&INT13_DiskHandler,CB_IRET,"Int 13 Bios disk"); RealSetVec(0x13,CALLBACK_RealPointer(call_int13)); int i; for(i=0;i<4;i++) { imageDiskList[i] = NULL; } for(i=0;i