Mercurial > sdl-ios-xcode
view src/cdrom/osf/SDL_syscdrom.c @ 3798:c8b3d3d13ed1 SDL-ryan-multiple-audio-device
Audio bootstraps can now specify that a driver is only to be used if
explicitly requested (for things like the "disk" driver that is always
available but you would never want to default to using).
Trimmed out code that can be handled by stubs in the core. The "dummy" driver
is pretty damned small now. :)
author | Ryan C. Gordon <icculus@icculus.org> |
---|---|
date | Wed, 04 Oct 2006 21:27:53 +0000 |
parents | c121d94672cb |
children | e27bdcc80744 |
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/* Tru64 audio module for SDL (Simple DirectMedia Layer) Copyright (C) 2003 This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library 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 Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; if not, write to the Free Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "SDL_config.h" #ifdef SDL_CDROM_OSF /* Functions for system-level CD-ROM audio control */ /* #define DEBUG_CDROM 1 */ #include <sys/types.h> #include <dirent.h> #include <sys/stat.h> #include <fcntl.h> #include <io/cam/cdrom.h> #include <io/cam/rzdisk.h> #include <io/common/devgetinfo.h> #include "SDL_cdrom.h" #include "../SDL_syscdrom.h" /* The maximum number of CD-ROM drives we'll detect */ #define MAX_DRIVES 16 /* A list of available CD-ROM drives */ static char *SDL_cdlist[MAX_DRIVES]; static dev_t SDL_cdmode[MAX_DRIVES]; /* The system-dependent CD control functions */ static const char *SDL_SYS_CDName(int drive); static int SDL_SYS_CDOpen(int drive); static int SDL_SYS_CDGetTOC(SDL_CD * cdrom); static CDstatus SDL_SYS_CDStatus(SDL_CD * cdrom, int *position); static int SDL_SYS_CDPlay(SDL_CD * cdrom, int start, int length); static int SDL_SYS_CDPause(SDL_CD * cdrom); static int SDL_SYS_CDResume(SDL_CD * cdrom); static int SDL_SYS_CDStop(SDL_CD * cdrom); static int SDL_SYS_CDEject(SDL_CD * cdrom); static void SDL_SYS_CDClose(SDL_CD * cdrom); /* Check a drive to see if it is a CD-ROM */ /* Caution!! Not tested. */ static int CheckDrive(char *drive, struct stat *stbuf) { int cdfd, is_cd = 0; struct mode_sel_sns_params msp; struct inquiry_info inq; #ifdef DEBUG_CDROM char *devtype[] = { "Disk", "Tape", "Printer", "Processor", "WORM", "CD-ROM", "Scanner", "Optical", "Changer", "Comm", "Unknown" }; #endif bzero(&msp, sizeof(msp)); bzero(&inq, sizeof(inq)); /* If it doesn't exist, return -1 */ if (stat(drive, stbuf) < 0) { return (-1); } if ((cdfd = open(drive, (O_RDWR | O_NDELAY), 0)) >= 0) { msp.msp_addr = (caddr_t) & inq; msp.msp_pgcode = 0; msp.msp_pgctrl = 0; msp.msp_length = sizeof(inq); msp.msp_setps = 0; if (ioctl(cdfd, SCSI_GET_INQUIRY_DATA, &msp)) return (0); #ifdef DEBUG_CDROM fprintf(stderr, "Device Type: %s\n", devtype[inq.perfdt]); fprintf(stderr, "Vendor: %.8s\n", inq.vndrid); fprintf(stderr, "Product: %.8s\n", inq.prodid); fprintf(stderr, "Revision: %.8s\n", inq.revlvl); #endif if (inq.perfdt == DTYPE_RODIRECT) is_cd = 1; } return (is_cd); } /* Add a CD-ROM drive to our list of valid drives */ static void AddDrive(char *drive, struct stat *stbuf) { int i; if (SDL_numcds < MAX_DRIVES) { /* Check to make sure it's not already in our list. * This can happen when we see a drive via symbolic link. * */ for (i = 0; i < SDL_numcds; ++i) { if (stbuf->st_rdev == SDL_cdmode[i]) { #ifdef DEBUG_CDROM fprintf(stderr, "Duplicate drive detected: %s == %s\n", drive, SDL_cdlist[i]); #endif return; } } /* Add this drive to our list */ i = SDL_numcds; SDL_cdlist[i] = SDL_strdup(drive); if (SDL_cdlist[i] == NULL) { SDL_OutOfMemory(); return; } SDL_cdmode[i] = stbuf->st_rdev; ++SDL_numcds; #ifdef DEBUG_CDROM fprintf(stderr, "Added CD-ROM drive: %s\n", drive); #endif } } int SDL_SYS_CDInit(void) { /* checklist: * * Tru64 5.X (/dev/rdisk/cdrom?c) * dir: /dev/rdisk, name: cdrom * * Digital UNIX 4.0X (/dev/rrz?c) * dir: /dev, name: rrz * */ struct { char *dir; char *name; } checklist[] = { { "/dev/rdisk", "cdrom"}, { "/dev", "rrz"}, { NULL, NULL}}; char drive[32]; char *SDLcdrom; int i, j, exists; struct stat stbuf; /* Fill in our driver capabilities */ SDL_CDcaps.Name = SDL_SYS_CDName; SDL_CDcaps.Open = SDL_SYS_CDOpen; SDL_CDcaps.GetTOC = SDL_SYS_CDGetTOC; SDL_CDcaps.Status = SDL_SYS_CDStatus; SDL_CDcaps.Play = SDL_SYS_CDPlay; SDL_CDcaps.Pause = SDL_SYS_CDPause; SDL_CDcaps.Resume = SDL_SYS_CDResume; SDL_CDcaps.Stop = SDL_SYS_CDStop; SDL_CDcaps.Eject = SDL_SYS_CDEject; SDL_CDcaps.Close = SDL_SYS_CDClose; /* Look in the environment for our CD-ROM drive list */ SDLcdrom = SDL_getenv("SDL_CDROM"); /* ':' separated list of devices */ if (SDLcdrom != NULL) { char *cdpath, *delim; size_t len = SDL_strlen(SDLcdrom) + 1; cdpath = SDL_stack_alloc(char, len); if (cdpath != NULL) { SDL_strlcpy(cdpath, SDLcdrom, len); SDLcdrom = cdpath; do { delim = SDL_strchr(SDLcdrom, ':'); if (delim) { *delim++ = '\0'; } if (CheckDrive(SDLcdrom, &stbuf) > 0) { AddDrive(SDLcdrom, &stbuf); } if (delim) { SDLcdrom = delim; } else { SDLcdrom = NULL; } } while (SDLcdrom); SDL_stack_free(cdpath); } /* If we found our drives, there's nothing left to do */ if (SDL_numcds > 0) { return (0); } } /* Scan the system for CD-ROM drives */ for (i = 0; checklist[i].dir; ++i) { DIR *devdir; struct dirent *devent; int name_len; devdir = opendir(checklist[i].dir); if (devdir) { name_len = SDL_strlen(checklist[i].name); while (devent = readdir(devdir)) if (SDL_memcmp (checklist[i].name, devent->d_name, name_len) == 0) if (devent->d_name[devent->d_namlen - 1] == 'c') { SDL_snprintf(drive, SDL_arraysize(drive), "%s/%s", checklist[i].dir, devent->d_name); #ifdef DEBUG_CDROM fprintf(stderr, "Try to add drive: %s\n", drive); #endif if (CheckDrive(drive, &stbuf) > 0) AddDrive(drive, &stbuf); } closedir(devdir); } else { #ifdef DEBUG_CDROM fprintf(stderr, "cannot open dir: %s\n", checklist[i].dir); #endif } } return (0); } static const char * SDL_SYS_CDName(int drive) { return (SDL_cdlist[drive]); } static int SDL_SYS_CDOpen(int drive) { /* O_RDWR: To use ioctl(fd, SCSI_STOP_UNIT) */ return (open(SDL_cdlist[drive], (O_RDWR | O_NDELAY), 0)); } static int SDL_SYS_CDGetTOC(SDL_CD * cdrom) { struct cd_toc toc; struct cd_toc_header hdr; struct cd_toc_entry *cdte; int i; int okay = 0; if (ioctl(cdrom->id, CDROM_TOC_HEADER, &hdr)) { fprintf(stderr, "ioctl error CDROM_TOC_HEADER\n"); return -1; } cdrom->numtracks = hdr.th_ending_track - hdr.th_starting_track + 1; if (cdrom->numtracks > SDL_MAX_TRACKS) { cdrom->numtracks = SDL_MAX_TRACKS; } #ifdef DEBUG_CDROM fprintf(stderr, "hdr.th_data_len1 = %d\n", hdr.th_data_len1); fprintf(stderr, "hdr.th_data_len0 = %d\n", hdr.th_data_len0); fprintf(stderr, "hdr.th_starting_track = %d\n", hdr.th_starting_track); fprintf(stderr, "hdr.th_ending_track = %d\n", hdr.th_ending_track); fprintf(stderr, "cdrom->numtracks = %d\n", cdrom->numtracks); #endif toc.toc_address_format = CDROM_LBA_FORMAT; toc.toc_starting_track = 0; toc.toc_alloc_length = (hdr.th_data_len1 << 8) + hdr.th_data_len0 + sizeof(hdr); if ((toc.toc_buffer = alloca(toc.toc_alloc_length)) == NULL) { fprintf(stderr, "cannot allocate toc.toc_buffer\n"); return -1; } bzero(toc.toc_buffer, toc.toc_alloc_length); if (ioctl(cdrom->id, CDROM_TOC_ENTRYS, &toc)) { fprintf(stderr, "ioctl error CDROM_TOC_ENTRYS\n"); return -1; } cdte = (struct cd_toc_entry *) ((char *) toc.toc_buffer + sizeof(hdr)); for (i = 0; i <= cdrom->numtracks; ++i) { if (i == cdrom->numtracks) { cdrom->track[i].id = 0xAA;; } else { cdrom->track[i].id = hdr.th_starting_track + i; } cdrom->track[i].type = cdte[i].te_control & CDROM_DATA_TRACK; cdrom->track[i].offset = cdte[i].te_absaddr.lba.addr3 << 24 | cdte[i].te_absaddr.lba.addr2 << 16 | cdte[i].te_absaddr.lba.addr1 << 8 | cdte[i].te_absaddr.lba.addr0; cdrom->track[i].length = 0; if (i > 0) { cdrom->track[i - 1].length = cdrom->track[i].offset - cdrom->track[i - 1].offset; } } #ifdef DEBUG_CDROM for (i = 0; i <= cdrom->numtracks; i++) { fprintf(stderr, "toc_entry[%d].te_track_number = %d\n", i, cdte[i].te_track_number); fprintf(stderr, "cdrom->track[%d].id = %d\n", i, cdrom->track[i].id); fprintf(stderr, "cdrom->track[%d].type = %x\n", i, cdrom->track[i].type); fprintf(stderr, "cdrom->track[%d].offset = %d\n", i, cdrom->track[i].offset); fprintf(stderr, "cdrom->track[%d].length = %d\n", i, cdrom->track[i].length); } #endif if (i == (cdrom->numtracks + 1)) { okay = 1; } return (okay ? 0 : -1); } /* Get CD-ROM status */ static CDstatus SDL_SYS_CDStatus(SDL_CD * cdrom, int *position) { CDstatus status; struct cd_sub_channel sc; struct cd_subc_channel_data scd; sc.sch_address_format = CDROM_LBA_FORMAT; sc.sch_data_format = CDROM_CURRENT_POSITION; sc.sch_track_number = 0; sc.sch_alloc_length = sizeof(scd); sc.sch_buffer = (caddr_t) & scd; if (ioctl(cdrom->id, CDROM_READ_SUBCHANNEL, &sc)) { status = CD_ERROR; fprintf(stderr, "ioctl error CDROM_READ_SUBCHANNEL \n"); } else { switch (scd.scd_header.sh_audio_status) { case AS_AUDIO_INVALID: status = CD_STOPPED; break; case AS_PLAY_IN_PROGRESS: status = CD_PLAYING; break; case AS_PLAY_PAUSED: status = CD_PAUSED; break; case AS_PLAY_COMPLETED: status = CD_STOPPED; break; case AS_PLAY_ERROR: status = CD_ERROR; break; case AS_NO_STATUS: status = CD_STOPPED; break; default: status = CD_ERROR; break; } #ifdef DEBUG_CDROM fprintf(stderr, "scd.scd_header.sh_audio_status = %x\n", scd.scd_header.sh_audio_status); #endif } if (position) { if (status == CD_PLAYING || (status == CD_PAUSED)) { *position = scd.scd_position_data.scp_absaddr.lba.addr3 << 24 | scd.scd_position_data.scp_absaddr.lba.addr2 << 16 | scd.scd_position_data.scp_absaddr.lba.addr1 << 8 | scd.scd_position_data.scp_absaddr.lba.addr0; } else { *position = 0; } } return status; } /* Start play */ static int SDL_SYS_CDPlay(SDL_CD * cdrom, int start, int length) { /* * Play MSF */ struct cd_play_audio_msf msf; int end; bzero(&msf, sizeof(msf)); end = start + length; FRAMES_TO_MSF(start + 150, /* LBA = 4500*M + 75*S + F - 150 */ &msf.msf_starting_M_unit, &msf.msf_starting_S_unit, &msf.msf_starting_F_unit); FRAMES_TO_MSF(end + 150, /* LBA = 4500*M + 75*S + F - 150 */ &msf.msf_ending_M_unit, &msf.msf_ending_S_unit, &msf.msf_ending_F_unit); return (ioctl(cdrom->id, CDROM_PLAY_AUDIO_MSF, &msf)); } /* Pause play */ static int SDL_SYS_CDPause(SDL_CD * cdrom) { return (ioctl(cdrom->id, CDROM_PAUSE_PLAY)); } /* Resume play */ static int SDL_SYS_CDResume(SDL_CD * cdrom) { return (ioctl(cdrom->id, CDROM_RESUME_PLAY)); } /* Stop play */ static int SDL_SYS_CDStop(SDL_CD * cdrom) { return (ioctl(cdrom->id, SCSI_STOP_UNIT)); } /* Eject the CD-ROM */ static int SDL_SYS_CDEject(SDL_CD * cdrom) { return (ioctl(cdrom->id, CDROM_EJECT_CADDY)); } /* Close the CD-ROM handle */ static void SDL_SYS_CDClose(SDL_CD * cdrom) { close(cdrom->id); } void SDL_SYS_CDQuit(void) { int i; if (SDL_numcds > 0) { for (i = 0; i < SDL_numcds; ++i) { SDL_free(SDL_cdlist[i]); } SDL_numcds = 0; } } #endif /* SDL_CDROM_OSF */ /* vi: set ts=4 sw=4 expandtab: */