///////////////////////////////////////////////////////////////////////// // $Id: cdrom_amigaos.cc,v 1.4 2002-05-28 15:39:05 vruppert Exp $ ///////////////////////////////////////////////////////////////////////// // // Copyright (C) 2000 MandrakeSoft S.A. // // MandrakeSoft S.A. // 43, rue d'Aboukir // 75002 Paris - France // http://www.linux-mandrake.com/ // http://www.mandrakesoft.com/ // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2 of the License, or (at your option) any later version. // // This library 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 // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA // These are the low-level CDROM functions which are called // from 'harddrv.cc'. They effect the OS specific functionality // needed by the CDROM emulation in 'harddrv.cc'. Mostly, just // ioctl() calls and such. Should be fairly easy to add support // for your OS if it is not supported yet. #include "bochs.h" #include "scsi_commands.h" #include #include #include #include #include #include #include #include #include #define LOG_THIS /* no SMF tricks here, not needed */ #define BX_CD_FRAMESIZE 2048 #define CD_FRAMESIZE 2048 #define SENSELEN 32 #define MAX_DATA_LEN 252 int amiga_cd_unit; char amiga_cd_device[256]; struct MsgPort *CDMP; /* Pointer for message port */ struct IOExtTD *CDIO; /* Pointer for IORequest */ int cd_error; typedef struct { UBYTE pad0; UBYTE trackType; UBYTE trackNum; UBYTE pad1; ULONG startFrame; } TOCENTRY; typedef struct { UWORD length; UBYTE firstTrack; UBYTE lastTrack; TOCENTRY tocs[100]; } TOC; typedef struct { ULONG sectors; ULONG blocksize; } CAPACITY; unsigned char sensebuf[SENSELEN]; int DoSCSI (UBYTE * data, int datasize, UBYTE * cmd, int cmdsize, UBYTE flags); cdrom_interface::cdrom_interface(char *dev) { char buf[256]; sscanf(dev, "%s%s", amiga_cd_device, buf); amiga_cd_unit = atoi(buf); CDMP = CreateMsgPort(); if (CDMP != NULL) { CDIO = (struct IOExtTD *)CreateIORequest(CDMP, sizeof(struct IOExtTD)); if (CDIO != NULL) { cd_error = OpenDevice(amiga_cd_device, amiga_cd_unit, (struct IORequest *)CDIO, 0); if (cd_error != 0) BX_PANIC(("CD_Open: could not open device %s unit %d\n", amiga_cd_device, amiga_cd_unit)); } } } cdrom_interface::~cdrom_interface(void) { if (cd_error == 0) { CloseDevice(CDIO); } if (CDIO != NULL) { DeleteIORequest(CDIO); } if (CDMP != NULL) { DeleteMsgPort(CDMP); } } bool cdrom_interface::insert_cdrom(char *dev) { uint8 cdb[6]; uint8 buf[2*BX_CD_FRAMESIZE]; uint8 i = 0; memset(cdb,0,sizeof(cdb)); cdb[0] = SCSI_DA_START_STOP_UNIT; cdb[4] = 1 | 2; DoSCSI(0, 0,cdb,sizeof(cdb),SCSIF_READ); /*Check if there's a valid media present in the drive*/ CDIO->iotd_Req.io_Data = buf; CDIO->iotd_Req.io_Command = CMD_READ; CDIO->iotd_Req.io_Length = BX_CD_FRAMESIZE; CDIO->iotd_Req.io_Offset = BX_CD_FRAMESIZE; for(i = 0; i < 200; i++) /*it takes a while for the cdrom to validate*/ { DoIO((struct IORequest *)CDIO); if (CDIO->iotd_Req.io_Error == 0) break; Delay (10); } if (CDIO->iotd_Req.io_Error != 0) return FALSE; else { //bx_options.cdromd.inserted = 1; return TRUE; } } void cdrom_interface::eject_cdrom() { uint8 cdb[6]; memset(cdb,0,sizeof(cdb)); cdb[0] = SCSI_DA_START_STOP_UNIT; cdb[4] = 0 | 2; DoSCSI(0, 0,cdb,sizeof(cdb),SCSIF_READ); //bx_options.cdromd.inserted = 1; } bool cdrom_interface::read_toc(uint8* buf, int* length, bool msf, int start_track) { uint8 cdb[10]; TOC *toc; toc = (TOC*) buf; memset(cdb,0,sizeof(cdb)); cdb[0] = SCSI_CD_READ_TOC; if(msf) cdb[1] = 2; else cdb[1] = 0; cdb[6] = start_track; cdb[7] = sizeof(TOC)>>8; cdb[8] = sizeof(TOC)&0xFF; DoSCSI((UBYTE *)buf, sizeof(TOC), cdb, sizeof(cdb), SCSIF_READ); *length = toc->length + 4; return TRUE; } uint32 cdrom_interface::capacity() { CAPACITY cap; uint8 cdb[10]; memset(cdb,0,sizeof(cdb)); cdb[0] = SCSI_DA_READ_CAPACITY; int err; if ((err = DoSCSI ((UBYTE *)&cap, sizeof(cap), cdb, sizeof (cdb), (SCSIF_READ | SCSIF_AUTOSENSE))) == 0) return(cap.sectors); else BX_PANIC (("Couldn't get media capacity")); } void cdrom_interface::read_block(uint8* buf, int lba) { CDIO->iotd_Req.io_Data = buf; CDIO->iotd_Req.io_Command = CMD_READ; CDIO->iotd_Req.io_Length = BX_CD_FRAMESIZE; CDIO->iotd_Req.io_Offset = lba * BX_CD_FRAMESIZE; DoIO((struct IORequest *)CDIO); if (CDIO->iotd_Req.io_Error != 0) { BX_PANIC(("Error %d reading CD data sector: %ld\n", CDIO->iotd_Req.io_Error, lba)); } } int DoSCSI(UBYTE *data, int datasize, uint8 *cmd,int cmdsize, UBYTE direction) { struct SCSICmd scmd; CDIO->iotd_Req.io_Command = HD_SCSICMD; CDIO->iotd_Req.io_Data = &scmd; CDIO->iotd_Req.io_Length = sizeof(scmd); scmd.scsi_Data = (UWORD *)data; scmd.scsi_Length = datasize; scmd.scsi_SenseActual = 0; scmd.scsi_SenseData = sensebuf; scmd.scsi_SenseLength = SENSELEN; scmd.scsi_Command = cmd; scmd.scsi_CmdLength = cmdsize; scmd.scsi_Flags = SCSIF_AUTOSENSE | direction; DoIO((struct IORequest *)CDIO); if (CDIO->iotd_Req.io_Error != 0) { //BX_PANIC(("DoSCSI: error %d\n", CDIO->iotd_Req.io_Error)); //BX_PANIC(("SCSI Status: %d\n", scmd.scsi_Status)); } return CDIO->iotd_Req.io_Error; }