// cdctl.h - CDCtl class provides easy control of cd audio functions // 05/09/98 Release 1.0 Beta1 // Copyright (C) 1998 Sam Hawker // This software comes with ABSOLUTELY NO WARRANTY // This software is free software, and you are welcome to redistribute it // under certain conditions // See the README file for a more complete notice. // Although cdctl.h is an integral part of wmcdplay, it may also be distributed seperately. // Change this define to alter the size of forward and backward skips (in frames) // Yes, I know this should really be a method of CDCtl #define _CDCTL_SKIP_SIZE 1125 // Try defining some of these. They may improve performance or reliability // (or just plain make it work) // #define _CDCTL_STOP_BEFORE_PLAY // #define _CDCTL_START_BEFORE_PLAY // #define _CDCTL_SOFT_STOP // Define this if it stops after each track #define _CDCTL_SENSITIVE_EOT // If it still stops for a while between tracks, increase this (0-75 is a sensible range) #define _CDCTL_SENSITIVITY 0 #include #include #include #include #include #include #include #include // CD status values #define ssData 0 #define ssStopped 1 #define ssPlaying 2 #define ssPaused 3 #define ssNoCD 4 #define ssTrayOpen 5 // Audio command values #define acStop 0 #define acPlay 1 #define acPause 2 #define acResume 3 #define acPrev 4 #define acNext 5 #define acRewd 6 #define acFFwd 7 #define acEject 8 #define acClose 9 // Track selection values (what to do when I've played the requested track) // Note: Track selection is not perfect - so use tsNone if you want to avoid trouble. // Basically, if we receive a CDROM_AUDIO_COMPLETED status, then we have to decide what to do. // If we think the last play command was ours (Next/Prev/FFwd/Rewd don't count), then we do something, // depending on the current track selection mode. // Failures: Sometimes we may think we sent the last play command when we did not (if we didn't see play stop in // in between). // If another application is polling the status, it may receive the CDROM_AUDIO_COMPLETED we are looking // for, and we will not, so will think play was stopped manually. // Similarly, we may read the CDROM_AUDIO_COMPLETED status when we don't want it, such that the other // application never sees it. // Verdict: Linux audio cdrom handling is broken. // Update: New define _CDCTL_SENSITIVE_EOT may help in cases where CDROM_AUDIO_COMPLETED is not being returned // correctly. It may, however, interfere with other running cd players. // Update: I think this works like a dream now. Even with many cd players sharing a cdrom. Let me know if not!! #define tsNone 0 // Just stop #define tsRepeat 1 // Play it again #define tsNext 2 // Play next track (stop at end of CD) #define tsRepeatCD 3 // Play next track (start from first track if end is reached) #define tsRandom 4 // Play a track at random class CDCtl { public: CDCtl(char *dname){ device=(char *)malloc(sizeof(char)*(strlen(dname)+1)); strcpy(device,dname); srand(getpid()); tracksel=tsRandom; tskOurPlay=false; if((cdfdopen = (cdfd = open(device,O_RDONLY | O_NONBLOCK))) != -1) { status_state=ssNoCD; status_track=0; status_pos=0; cd_trklist=NULL; doStatus(); readVolume(); } } ~CDCtl(){ if(cdfdopen){ close(cdfd); if(device!=NULL) free(device); if(cd_trklist!=NULL) free(cd_trklist); } } bool openOK(){ return cdfdopen; } void doAudioCommand(int cmd){ if(cdfdopen){ int newtrk=status_track; switch(cmd){ case acStop: #ifdef _CDCTL_SOFT_STOP ioctl(cdfd,CDROMSTART); #endif #ifndef _CDCTL_SOFT_STOP ioctl(cdfd,CDROMSTOP); #endif tskOurPlay=false; break; case acPlay: status_state=ssPlaying; select(status_track); tskOurPlay=true; break; case acPause: ioctl(cdfd,CDROMPAUSE); break; case acResume: ioctl(cdfd,CDROMRESUME); break; case acPrev: newtrk--; if(newtrk<0) newtrk=cd_tracks-1; select(newtrk); break; case acNext: newtrk++; if(newtrk>cd_tracks-1) newtrk=0; select(newtrk); break; case acRewd: if(status_pos>cd_trklist[status_track].track_start+_CDCTL_SKIP_SIZE){ status_pos-=_CDCTL_SKIP_SIZE; play(); } break; case acFFwd: if(status_pos0 && (now=stop)){ status_state=ssPlaying; selecttrack(); doStatus(); return; } else status_state=ssStopped; } else #endif status_state=ssStopped; } trackinfo(&sc); if(cd_trklist[status_track].track_data) status_state=ssData; } } } void setVolume(int l, int r){ if(cdfdopen){ struct cdrom_volctrl vol; vol.channel0=l; vol.channel1=r; ioctl(cdfd,CDROMVOLCTRL,&vol); readVolume(); } } void readVolume(){ if(cdfdopen){ struct cdrom_volctrl vol; ioctl(cdfd,CDROMVOLREAD,&vol); status_volumel=vol.channel0; status_volumer=vol.channel1; } } int getVolumeL(){ return status_volumel; } int getVolumeR(){ return status_volumer; } void setTrackSelection(int ts){ tracksel=ts; } int getTrackSelection(){ return tracksel; } char *getDevName(){ return device; } int getCDTracks(){ return cd_tracks; } int getCDLen(){ return cd_len; } int getTrackStart(int trk){ return cd_trklist[trk-1].track_start; } int getTrackLen(int trk){ return cd_trklist[trk-1].track_len; } bool getTrackData(int trk){ return cd_trklist[trk-1].track_data; } int getStatusState(){ return status_state; } int getStatusTrack(){ return status_track+1; } int getStatusPosAbs(){ return status_pos-cd_trklist[0].track_start; } int getStatusPosRel(){ return status_pos-cd_trklist[status_track].track_start; } private: void readTOC(){ if(cd_trklist!=NULL) free(cd_trklist); struct cdrom_tochdr hdr; ioctl(cdfd, CDROMREADTOCHDR, &hdr); cd_tracks=hdr.cdth_trk1; cd_trklist=(struct CDTrack *)malloc(cd_tracks*sizeof(struct CDTrack)); struct cdrom_tocentry te; int prev_addr=0; for(int i=0;i<=cd_tracks;i++){ if(i==cd_tracks) te.cdte_track=CDROM_LEADOUT; else te.cdte_track=i+1; te.cdte_format=CDROM_MSF; // I think it is ok to read this as LBA, but for a quiet life... ioctl(cdfd, CDROMREADTOCENTRY, &te); int this_addr=((te.cdte_addr.msf.minute * 60) + te.cdte_addr.msf.second) * 75 + te.cdte_addr.msf.frame - CD_MSF_OFFSET; if(i>0) cd_trklist[i-1].track_len = this_addr - prev_addr - 1; prev_addr=this_addr; if(icdsc_absaddr.msf.minute) * 60 + subchnl->cdsc_absaddr.msf.second) * 75 + subchnl->cdsc_absaddr.msf.frame - CD_MSF_OFFSET; for(status_track=0;status_track=cd_tracks){ tskOurPlay=false; return; } break; case tsRepeatCD: newtrk++; if(newtrk>=cd_tracks) newtrk=0; break; case tsRandom: newtrk+=(int)((cd_tracks-1)*(float)rand()/RAND_MAX+1); if(newtrk>=cd_tracks) newtrk-=cd_tracks; break; } } while(cd_trklist[newtrk].track_data); select(newtrk); play(); } int cdfd; int cdfdopen; char *device; int tracksel; bool tskOurPlay; struct CDTrack{ int track_start; int track_len; bool track_data; }; int cd_tracks; int cd_len; struct CDTrack *cd_trklist; int status_state; int status_track; int status_pos; int status_volumel; int status_volumer; };