This README belongs to release 4.2 or newer of the SoundBlaster Pro (Matsushita, Kotobuki, Panasonic, CreativeLabs, Longshine and Teac) CD-ROM driver for Linux. sbpcd really, really is NOT for ANY IDE/ATAPI drive! Not even if you have an "original" SoundBlaster card with an IDE interface! So, you'd better have a look into README.ide if your port address is 0x1F0, 0x170, 0x1E8, 0x168 or similar. I get tons of mails from IDE/ATAPI drive users - I really can't continue any more to answer them all. So, if your drive/interface information sheets mention "IDE" (primary, secondary, tertiary, quaternary) and the DOS driver invoking line within your CONFIG.SYS is using an address below 0x230: DON'T ROB MY LAST NERVE - jumper your interface to address 0x170 and IRQ 15 (that is the "secondary IDE" configuration), set your drive to "master" and use ide-cd as your driver. If you do not have a second IDE hard disk, use the LILO commands hdb=noprobe hdc=cdrom and get lucky. To make it fully clear to you: if you mail me about IDE/ATAPI drive problems, my answer is above, and I simply will discard your mail, hoping to stop the flood and to find time to lead my 12-year old son towards happy computing. The driver is able to drive the whole family of "traditional" AT-style (that is NOT the new "Enhanced IDE" or "ATAPI" drive standard) Matsushita, Kotobuki, Panasonic drives, sometimes labelled as "CreativeLabs". The well-known drives are CR-521, CR-522, CR-523, CR-562, CR-563. CR-574 is an IDE/ATAPI drive. The Longshine LCS-7260 is a double-speed drive which uses the "old" Matsushita command set. It is supported - with help by Serge Robyns. Vertos ("Elitegroup Computer Systems", ECS) has a similar drive - support has started; get in contact if you have such a "Vertos 100" or "ECS-AT" drive. There exists an "IBM External ISA CD-ROM Drive" which in fact is a CR-563 with a special controller board. This drive is supported (the interface is of the "LaserMate" type), and it is possibly the best buy today (cheaper than an internal drive, and you can use it as an internal, too - e.g. plug it into a soundcard). CreativeLabs has a new drive "CD200" and a similar drive "CD200F". The latter is made by Funai and sometimes named "E2550UA", newer models may be named "MK4015". The CD200F drives should fully work. CD200 drives without "F" are still giving problems: drive detection and playing audio should work, data access will result in errors. I need qualified feedback about the bugs within the data functions or a drive (I never saw a CD200). The quad-speed Teac CD-55A drive is supported, but still does not reach "full speed". The data rate already reaches 500 kB/sec if you set SBP_BUFFER_FRAMES to 64 (it is not recommended to do that for normal "file access" usage, but it can speed up things a lot if you use something like "dd" to read from the drive; I use it for verifying self-written CDs this way). The drive itself is able to deliver 600 kB/sec, so this needs work; with the normal setup, the performance currently is not even as good as double-speed. This driver is NOT for Mitsumi or Sony or Aztech or Philips or XXX drives, and again: this driver is in no way usable for any IDE/ATAPI drive. If you think your drive should work and it doesn't: send me the DOS driver for your beast (gzipped + uuencoded) and your CONFIG.SYS if you want to ask me for help, and include an original log message excerpt, and try to give all information a complete idiot needs to understand your hassle already with your first mail. And if you want to say "as I have mailed you before", be sure that I don't remember your "case" by such remarks; at the moment, I have some hundreds of open correspondences about Linux CDROM questions (hope to reduce if the IDE/ATAPI user questions disappear). This driver will work with the soundcard interfaces (SB Pro, SB 16, Galaxy, SoundFX, Mozart, MAD16 ...) and with the "no-sound" cards (Panasonic CI-101P, LaserMate, WDH-7001C, Longshine LCS-6853, Teac ...). It works with the "configurable" interface "Sequoia S-1000", too, which is used on the Spea Media FX and Ensonic Soundscape sound cards. You have to specify the type "SBPRO 2" and the true CDROM port address with it, not the "configuration port" address. If you have a sound card which needs a "configuration driver" instead of jumpers for interface types and addresses (like Mozart cards) - those drivers get invoked before the DOS CDROM driver in your CONFIG.SYS, typical names are "cdsetup.sys" and "mztinit.sys" - let the sound driver do the CDROM port configuration (the leading comments in linux/drivers/sound/mad16.c are just for you!). Hannu Savolainen's mad16.c code is able to set up my Mozart card - I simply had to add #define MAD16_CONF 0x06 #define MAD16_CDSEL 0x03 to configure the CDROM interface for type "Panasonic" (LaserMate) and address 0x340. The interface type has to get configured in linux/drivers/cdrom/sbpcd.h, because the register layout is different between the "SoundBlaster" and the "LaserMate" type. I got a report that the Teac interface card "I/F E117098" is of type "SoundBlaster" (i.e. you have to set SBPRO to 1) even with the addresses 0x300 and above. This is unusual, and it can't get covered by the auto probing scheme. The Teac 16-bit interface cards (like P/N E950228-00A, default address 0x2C0) need the SBPRO 3 setup. If auto-probing found the drive, the address is correct. The reported type may be wrong. A "mount" will give success only if the interface type is set right. Playing audio should work with a wrong set interface type, too. With some Teac and some CD200 drives I have seen interface cards which seem to lack the "drive select" lines; always drive 0 gets addressed. To avoid "mirror drives" (four drives detected where you only have one) with such interface cards, set MAX_DRIVES to 1 and jumper your drive to ID 0 (if possible). Up to 4 drives per interface card, and up to 4 interface cards are supported. All supported drive families can be mixed, but the CR-521 drives are hard-wired to drive ID 0. The drives have to use different drive IDs, and each drive has to get a unique minor number (0...3), corresponding indirectly to its drive ID. The drive IDs may be selected freely from 0 to 3 - they do not have to be in consecutive order. As Don Carroll, don@ds9.us.dell.com or FIDO 1:382/14, told me, it is possible to change old drives to any ID, too. He writes in this sense: "In order to be able to use more than one single speed drive (they do not have the ID jumpers) you must add a DIP switch and two resistors. The pads are already on the board next to the power connector. You will see the silkscreen for the switch if you remove the top cover. 1 2 3 4 ID 0 = x F F x O = "on" ID 1 = x O F x F = "off" ID 2 = x F O x x = "don't care" ID 3 = x O O x Next to the switch are the positions for R76 (7k) and R78 (12k). I had to play around with the resistor values - ID 3 did not work with other values. If the values are not good, ID 3 behaves like ID 0." To use more than 4 drives, you simply need a second controller card at a different address and a second cable. The driver supports reading of data from the CD and playing of audio tracks. The audio part should run with WorkMan, xcdplayer, with the "non-X11" products CDplayer and WorkBone - tell me if it is not compatible with other software. The only accepted measure for correctness with the audio functions is the "cdtester" utility (appended) - most audio player programmers seem to be better musicians than programmers. ;-) With the CR-56x and the CD200 drives, the reading of audio frames is possible. This is implemented by an IOCTL function which reads READ_AUDIO frames of 2352 bytes at once (configurable with the "READ_AUDIO" define, default is 0). Reading the same frame a second time gives different data; the frame data start at a different position, but all read bytes are valid, and we always read 98 consecutive chunks (of 24 Bytes) as a frame. Reading more than 1 frame at once possibly misses some chunks at each frame boundary. This lack has to get corrected by external, "higher level" software which reads the same frame again and tries to find and eliminate overlapping chunks (24-byte-pieces). The transfer rate with reading audio (1-frame-pieces) currently is very slow. This can be better reading bigger chunks, but the "missing" chunks possibly occur at the beginning of each single frame. The software interface possibly may change a bit the day the SCSI driver supports it too. With all but the CR-52x drives, MultiSession is supported. Photo CDs work (the "old" drives like CR-521 can access only the first session of a photoCD). At ftp.gwdg.de:/pub/linux/hpcdtoppm/ you will find Hadmut Danisch's package to convert photo CD image files and Gerd Knorr's viewing utility. The transfer rate will reach 150 kB/sec with CR-52x drives, 300 kB/sec with CR-56x drives, and currently not more than 500 kB/sec (usually less than 250 kB/sec) with the Teac quad speed drives. XA (PhotoCD) disks with "old" drives give only 50 kB/sec. This release consists of - this README file - the driver file linux/drivers/cdrom/sbpcd.c - the stub files linux/drivers/cdrom/sbpcd[234].c - the header file linux/drivers/cdrom/sbpcd.h. To install: ----------- 1. Setup your hardware parameters. Though the driver does "auto-probing" at a lot of (not all possible!) addresses, this step is recommended for everyday use. You should let sbpcd auto-probe once and use the reported address if a drive got found. The reported type may be incorrect; it is correct if you can mount a data CD. There is no choice for you with the type; only one is right, the others are deadly wrong. a. Go into /usr/src/linux/drivers/cdrom/sbpcd.h and configure it for your hardware (near the beginning): a1. Set it up for the appropriate type of interface board. "Original" CreativeLabs sound cards need "SBPRO 1". Most "compatible" sound cards (almost all "non-CreativeLabs" cards) need "SBPRO 0". The "no-sound" board from OmniCd needs the "SBPRO 1" setup. The Teac 8-bit "no-sound" boards need the "SBPRO 1" setup. The Teac 16-bit "no-sound" boards need the "SBPRO 3" setup. All other "no-sound" boards need the "SBPRO 0" setup. The Spea Media FX and Ensoniq SoundScape cards need "SBPRO 2". sbpcd.c holds some examples in its auto-probe list. If you configure "SBPRO" wrong, the playing of audio CDs will work, but you will not be able to mount a data CD. a2. Tell the address of your CDROM_PORT (not of the sound port). a3. If 4 drives get found, but you have only one, set MAX_DRIVES to 1. a4. Set DISTRIBUTION to 0. b. Additionally for 2.a1 and 2.a2, the setup may be done during boot time (via the "kernel command line" or "LILO option"): sbpcd=0x320,LaserMate or sbpcd=0x230,SoundBlaster or sbpcd=0x338,SoundScape or sbpcd=0x2C0,Teac16bit This is especially useful if you install a fresh distribution. If the second parameter is a number, it gets taken as the type setting; 0 is "LaserMate", 1 is "SoundBlaster", 2 is "SoundScape", 3 is "Teac16bit". So, for example sbpcd=0x230,1 is equivalent to sbpcd=0x230,SoundBlaster 2. "cd /usr/src/linux" and do a "make config" and select "y" for Matsushita CD-ROM support and for ISO9660 FileSystem support. If you do not have a second, third, or fourth controller installed, do not say "y" to the secondary Matsushita CD-ROM questions. 3. Then do a "make dep", then make the kernel image ("make zlilo" or similar). 4. Make the device file(s). This step usually already has been done by the MAKEDEV script. The driver uses MAJOR 25, so, if necessary, do mknod /dev/sbpcd b 25 0 (if you have only one drive) and/or mknod /dev/sbpcd0 b 25 0 mknod /dev/sbpcd1 b 25 1 mknod /dev/sbpcd2 b 25 2 mknod /dev/sbpcd3 b 25 3 to make the node(s). The "first found" drive gets MINOR 0 (regardless of its jumpered ID), the "next found" (at the same cable) gets MINOR 1, ... For a second interface board, you have to make nodes like mknod /dev/sbpcd4 b 26 0 mknod /dev/sbpcd5 b 26 1 and so on. Use the MAJORs 26, 27, 28. If you further make a link like ln -s sbpcd /dev/cdrom you can use the name /dev/cdrom, too. 5. Reboot with the new kernel. You should now be able to do mkdir /CD and mount -rt iso9660 /dev/sbpcd /CD or mount -rt iso9660 -o block=2048 /dev/sbpcd /CD and see the contents of your CD in the /CD directory. To use audio CDs, a mounting is not recommended (and it would fail if the first track is not a data track). Using sbpcd as a "loadable module": ----------------------------------- If you do NOT select "Matsushita/Panasonic CDROM driver support" during the "make config" of your kernel, you can build the "loadable module" sbpcd.o. Read /usr/src/linux/Documentation/modules.txt on this. If sbpcd gets used as a module, the support of more than one interface card (i.e. drives 4...15) is disabled. You can specify interface address and type with the "insmod" command like: # insmod /usr/src/linux/modules/sbpcd.o sbpcd=0x340,0 or # insmod /usr/src/linux/modules/sbpcd.o sbpcd=0x230,1 or # insmod /usr/src/linux/modules/sbpcd.o sbpcd=0x338,2 where the last number represents the SBPRO setting (no strings allowed here). Things of interest: ------------------- The driver is configured to try the LaserMate type of interface at I/O port 0x0340 first. If this is not appropriate, sbpcd.h should get changed (you will find the right place - just at the beginning). No DMA and no IRQ is used. To reduce or increase the amount of kernel messages, edit sbpcd.c and play with the "DBG_xxx" switches (initialization of the variable "sbpcd_debug"). Don't forget to reflect on what you do; enabling all DBG_xxx switches at once may crash your system, and each message line is accompanied by a delay. The driver uses the "variable BLOCK_SIZE" feature. To use it, you have to specify "block=2048" as a mount option. Doing this will disable the direct execution of a binary from the CD; you have to copy it to a device with the standard BLOCK_SIZE (1024) first. So, do not use this if your system is directly "running from the CDROM" (like some of Yggdrasil's installation variants). There are CDs on the market (like the German "unifix" Linux distribution) which MUST get handled with a block_size of 1024. Generally, one can say all the CDs which hold files of the name YMTRANS.TBL are defective; do not use block=2048 with those. Within sbpcd.h, you will find some "#define"s (e.g. EJECT and JUKEBOX). With these, you can configure the driver for some special things. You can use the appended program "cdtester" to set the auto-eject feature during runtime. Jeff Tranter's "eject" utility can do this, too (and more) for you. There is an ioctl CDROMMULTISESSION to obtain with a user program if the CD is an XA disk and - if it is - where the last session starts. The "cdtester" program illustrates how to call it. Auto-probing at boot time: -------------------------- The driver does auto-probing at many well-known interface card addresses, but not all: Some probings can cause a hang if an NE2000 ethernet card gets touched, because SBPCD's auto-probing happens before the initialization of the net drivers. Those "hazardous" addresses are excluded from auto-probing; the "kernel command line" feature has to be used during installation if you have your drive at those addresses. The "module" version is allowed to probe at those addresses, too. The auto-probing looks first at the configured address resp. the address submitted by the kernel command line. With this, it is possible to use this driver within installation boot floppies, and for any non-standard address, too. Auto-probing will make an assumption about the interface type ("SBPRO" or not), based upon the address. That assumption may be wrong (initialization will be o.k., but you will get I/O errors during mount). In that case, use the "kernel command line" feature and specify address & type at boot time to find out the right setup. For everyday use, address and type should get configured within sbpcd.h. That will stop the auto-probing due to success with the first try. The kernel command "sbpcd=0" suppresses each auto-probing and causes the driver not to find any drive; it is meant for people who love sbpcd so much that they do not want to miss it, even if they miss the drives. ;-) If you configure "#define CDROM_PORT 0" in sbpcd.h, the auto-probing is initially disabled and needs an explicit kernel command to get activated. Once activated, it does not stop before success or end-of-list. This may be useful within "universal" CDROM installation boot floppies (but using the loadable module would be better because it allows an "extended" auto-probing without fearing NE2000 cards). To shorten the auto-probing list to a single entry, set DISTRIBUTION 0 within sbpcd.h. Setting up address and interface type: -------------------------------------- If your I/O port address is not 0x340, you have to look for the #defines near the beginning of sbpcd.h and configure them: set SBPRO to 0 or 1 or 2, and change CDROM_PORT to the address of your CDROM I/O port. Almost all of the "SoundBlaster compatible" cards behave like the no-sound interfaces, i.e. need SBPRO 0! With "original" SB Pro cards, an initial setting of CD_volume through the sound card's MIXER register gets done. If you are using a "compatible" sound card of types "LaserMate" or "SPEA", you can set SOUND_BASE (in sbpcd.h) to get it done with your card, too... Using audio CDs: ---------------- Workman, WorkBone, xcdplayer, cdplayer and the nice little tool "cdplay" (see README.aztcd from the Aztech driver package) should work. The program CDplayer likes to talk to "/dev/mcd" only, xcdplayer wants "/dev/rsr0", workman loves "/dev/sr0" or "/dev/cdrom" - so, make the appropriate links to use them without the need to supply parameters. Copying audio tracks: --------------------- The following program will copy track 1 (or a piece of it) from an audio CD into the file "track01": /*=================== begin program ========================================*/ /* * read an audio track from a CD * * (c) 1994 Eberhard Moenkeberg * may be used & enhanced freely * * Due to non-existent sync bytes at the beginning of each audio frame (or due * to a firmware bug within all known drives?), it is currently a kind of * fortune if two consecutive frames fit together. * Usually, they overlap, or a little piece is missing. This happens in units * of 24-byte chunks. It has to get fixed by higher-level software (reading * until an overlap occurs, and then eliminate the overlapping chunks). * ftp.gwdg.de:/pub/linux/misc/cdda2wav-sbpcd.*.tar.gz holds an example of * such an algorithm. * This example program further is missing to obtain the SubChannel data * which belong to each frame. * * This is only an example of the low-level access routine. The read data are * pure 16-bit CDDA values; they have to get converted to make sound out of * them. * It is no fun to listen to it without prior overlap/underlap correction! */ #include #include #include static struct cdrom_tochdr hdr; static struct cdrom_tocentry entry[101]; static struct cdrom_read_audio arg; static u_char buffer[CD_FRAMESIZE_RAW]; static int datafile, drive; static int i, j, limit, track, err; static char filename[32]; main(int argc, char *argv[]) { /* * open /dev/cdrom */ drive=open("/dev/cdrom", 0); if (drive<0) { fprintf(stderr, "can't open drive.\n"); exit (-1); } /* * get TocHeader */ fprintf(stdout, "getting TocHeader...\n"); err=ioctl(drive, CDROMREADTOCHDR, &hdr); if (err!=0) { fprintf(stderr, "can't get TocHeader (error %d).\n", err); exit (-1); } else fprintf(stdout, "TocHeader: %d %d\n", hdr.cdth_trk0, hdr.cdth_trk1); /* * get and display all TocEntries */ fprintf(stdout, "getting TocEntries...\n"); for (i=1;i<=hdr.cdth_trk1+1;i++) { if (i!=hdr.cdth_trk1+1) entry[i].cdte_track = i; else entry[i].cdte_track = CDROM_LEADOUT; entry[i].cdte_format = CDROM_LBA; err=ioctl(drive, CDROMREADTOCENTRY, &entry[i]); if (err!=0) { fprintf(stderr, "can't get TocEntry #%d (error %d).\n", i, err); exit (-1); } else { fprintf(stdout, "TocEntry #%d: %1X %1X %06X %02X\n", entry[i].cdte_track, entry[i].cdte_adr, entry[i].cdte_ctrl, entry[i].cdte_addr.lba, entry[i].cdte_datamode); } } fprintf(stdout, "got all TocEntries.\n"); /* * ask for track number (not implemented here) */ track=1; #if 0 /* just read a little piece (4 seconds) */ entry[track+1].cdte_addr.lba=entry[track].cdte_addr.lba+300; #endif /* * read track into file */ sprintf(filename, "track%02d\0", track); datafile=creat(filename, 0755); if (datafile<0) { fprintf(stderr, "can't open datafile %s.\n", filename); exit (-1); } arg.addr.lba=entry[track].cdte_addr.lba; arg.addr_format=CDROM_LBA; /* CDROM_MSF would be possible here, too. */ arg.nframes=1; arg.buf=&buffer[0]; limit=entry[track+1].cdte_addr.lba; for (;arg.addr.lba * published under the GPL * * made under heavy use of the "Tiny Audio CD Player" * from Werner Zimmermann * (see linux/drivers/block/README.aztcd) */ #undef AZT_PRIVATE_IOCTLS /* not supported by every CDROM driver */ #define SBP_PRIVATE_IOCTLS /* not supported by every CDROM driver */ #include #include #include #include #include #ifdef AZT_PRIVATE_IOCTLS #include #endif AZT_PRIVATE_IOCTLS #ifdef SBP_PRIVATE_IOCTLS #include #include #endif SBP_PRIVATE_IOCTLS struct cdrom_tochdr hdr; struct cdrom_tochdr tocHdr; struct cdrom_tocentry TocEntry[101]; struct cdrom_tocentry entry; struct cdrom_multisession ms_info; struct cdrom_read_audio read_audio; struct cdrom_ti ti; struct cdrom_subchnl subchnl; struct cdrom_msf msf; struct cdrom_volctrl volctrl; #ifdef AZT_PRIVATE_IOCTLS union { struct cdrom_msf msf; unsigned char buf[CD_FRAMESIZE_RAW]; } azt; #endif AZT_PRIVATE_IOCTLS int i, i1, i2, i3, j, k; unsigned char sequence=0; unsigned char command[80]; unsigned char first=1, last=1; char *default_device="/dev/cdrom"; char dev[20]; char filename[20]; int drive; int datafile; int rc; void help(void) { printf("Available Commands:\n"); printf("STOP s EJECT e QUIT q\n"); printf("PLAY TRACK t PAUSE p RESUME r\n"); printf("NEXT TRACK n REPEAT LAST l HELP h\n"); printf("SUBCHANNEL_Q c TRACK INFO i PLAY AT a\n"); printf("READ d READ RAW w READ AUDIO A\n"); printf("MS-INFO M TOC T START S\n"); printf("SET EJECTSW X DEVICE D DEBUG Y\n"); printf("AUDIO_BUFSIZ Z RESET R BLKRASET B\n"); printf("SET VOLUME v GET VOLUME V\n"); } /* * convert MSF number (3 bytes only) to Logical_Block_Address */ int msf2lba(u_char *msf) { int i; i=(msf[0] * CD_SECS + msf[1]) * CD_FRAMES + msf[2] - CD_BLOCK_OFFSET; if (i<0) return (0); return (i); } /* * convert logical_block_address to m-s-f_number (3 bytes only) */ void lba2msf(int lba, unsigned char *msf) { lba += CD_BLOCK_OFFSET; msf[0] = lba / (CD_SECS*CD_FRAMES); lba %= CD_SECS*CD_FRAMES; msf[1] = lba / CD_FRAMES; msf[2] = lba % CD_FRAMES; } int init_drive(char *dev) { unsigned char msf_ent[3]; /* * open the device */ drive=open(dev,0); if (drive<0) return (-1); /* * get TocHeader */ printf("getting TocHeader...\n"); rc=ioctl(drive,CDROMREADTOCHDR,&hdr); if (rc!=0) { printf("can't get TocHeader (error %d).\n",rc); return (-2); } else first=hdr.cdth_trk0; last=hdr.cdth_trk1; printf("TocHeader: %d %d\n",hdr.cdth_trk0,hdr.cdth_trk1); /* * get and display all TocEntries */ printf("getting TocEntries...\n"); for (i=1;i<=hdr.cdth_trk1+1;i++) { if (i!=hdr.cdth_trk1+1) TocEntry[i].cdte_track = i; else TocEntry[i].cdte_track = CDROM_LEADOUT; TocEntry[i].cdte_format = CDROM_LBA; rc=ioctl(drive,CDROMREADTOCENTRY,&TocEntry[i]); if (rc!=0) { printf("can't get TocEntry #%d (error %d).\n",i,rc); } else { lba2msf(TocEntry[i].cdte_addr.lba,&msf_ent[0]); if (TocEntry[i].cdte_track==CDROM_LEADOUT) { printf("TocEntry #%02X: %1X %1X %02d:%02d:%02d (lba: 0x%06X) %02X\n", TocEntry[i].cdte_track, TocEntry[i].cdte_adr, TocEntry[i].cdte_ctrl, msf_ent[0], msf_ent[1], msf_ent[2], TocEntry[i].cdte_addr.lba, TocEntry[i].cdte_datamode); } else { printf("TocEntry #%02d: %1X %1X %02d:%02d:%02d (lba: 0x%06X) %02X\n", TocEntry[i].cdte_track, TocEntry[i].cdte_adr, TocEntry[i].cdte_ctrl, msf_ent[0], msf_ent[1], msf_ent[2], TocEntry[i].cdte_addr.lba, TocEntry[i].cdte_datamode); } } } return (hdr.cdth_trk1); /* number of tracks */ } void display(int size,unsigned char *buffer) { k=0; getchar(); for (i=0;i<(size+1)/16;i++) { printf("%4d:",i*16); for (j=0;j<16;j++) { printf(" %02X",buffer[i*16+j]); } printf(" "); for (j=0;j<16;j++) { if (isalnum(buffer[i*16+j])) printf("%c",buffer[i*16+j]); else printf("."); } printf("\n"); k++; if (k>=20) { printf("press ENTER to continue\n"); getchar(); k=0; } } } main(int argc, char *argv[]) { printf("\nTesting tool for a CDROM driver's audio functions V0.1\n"); printf("(C) 1995 Eberhard Moenkeberg \n"); printf("initializing...\n"); rc=init_drive(default_device); if (rc<0) printf("could not open %s (rc=%d).\n",default_device,rc); help(); while (1) { printf("Give a one-letter command (h = help): "); scanf("%s",command); command[1]=0; switch (command[0]) { case 'D': printf("device name (f.e. /dev/sbpcd3): ? "); scanf("%s",&dev); close(drive); rc=init_drive(dev); if (rc<0) printf("could not open %s (rc %d).\n",dev,rc); break; case 'e': rc=ioctl(drive,CDROMEJECT); if (rc<0) printf("CDROMEJECT: rc=%d.\n",rc); break; case 'p': rc=ioctl(drive,CDROMPAUSE); if (rc<0) printf("CDROMPAUSE: rc=%d.\n",rc); break; case 'r': rc=ioctl(drive,CDROMRESUME); if (rc<0) printf("CDROMRESUME: rc=%d.\n",rc); break; case 's': rc=ioctl(drive,CDROMSTOP); if (rc<0) printf("CDROMSTOP: rc=%d.\n",rc); break; case 'S': rc=ioctl(drive,CDROMSTART); if (rc<0) printf("CDROMSTART: rc=%d.\n",rc); break; case 't': rc=ioctl(drive,CDROMREADTOCHDR,&tocHdr); if (rc<0) { printf("CDROMREADTOCHDR: rc=%d.\n",rc); break; } first=tocHdr.cdth_trk0; last= tocHdr.cdth_trk1; if ((first==0)||(first>last)) { printf ("--got invalid TOC data.\n"); } else { printf("--enter track number(first=%d, last=%d): ",first,last); scanf("%d",&i1); ti.cdti_trk0=i1; if (ti.cdti_trk0last) ti.cdti_trk0=last; ti.cdti_ind0=0; ti.cdti_trk1=last; ti.cdti_ind1=0; rc=ioctl(drive,CDROMSTOP); rc=ioctl(drive,CDROMPLAYTRKIND,&ti); if (rc<0) printf("CDROMPLAYTRKIND: rc=%d.\n",rc); } break; case 'n': rc=ioctl(drive,CDROMSTOP); if (++ti.cdti_trk0>last) ti.cdti_trk0=last; ti.cdti_ind0=0; ti.cdti_trk1=last; ti.cdti_ind1=0; rc=ioctl(drive,CDROMPLAYTRKIND,&ti); if (rc<0) printf("CDROMPLAYTRKIND: rc=%d.\n",rc); break; case 'l': rc=ioctl(drive,CDROMSTOP); if (--ti.cdti_trk0last) entry.cdte_track=last; entry.cdte_format=CDROM_MSF; rc=ioctl(drive,CDROMREADTOCENTRY,&entry); if (rc<0) printf("CDROMREADTOCENTRY: rc=%d.\n",rc); else { printf("Mode %d Track, starts at %02d:%02d:%02d\n", entry.cdte_adr, entry.cdte_addr.msf.minute, entry.cdte_addr.msf.second, entry.cdte_addr.msf.frame); } break; case 'a': printf("Address (min:sec:frm) "); scanf("%d:%d:%d",&i1,&i2,&i3); msf.cdmsf_min0=i1; msf.cdmsf_sec0=i2; msf.cdmsf_frame0=i3; if (msf.cdmsf_sec0>59) msf.cdmsf_sec0=59; if (msf.cdmsf_frame0>74) msf.cdmsf_frame0=74; lba2msf(TocEntry[last+1].cdte_addr.lba-1,&msf.cdmsf_min1); rc=ioctl(drive,CDROMSTOP); rc=ioctl(drive,CDROMPLAYMSF,&msf); if (rc<0) printf("CDROMPLAYMSF: rc=%d.\n",rc); break; case 'V': rc=ioctl(drive,CDROMVOLREAD,&volctrl); if (rc<0) printf("CDROMVOLCTRL: rc=%d.\n",rc); printf("Volume: channel 0 (left) %d, channel 1 (right) %d\n",volctrl.channel0,volctrl.channel1); break; case 'R': rc=ioctl(drive,CDROMRESET); if (rc<0) printf("CDROMRESET: rc=%d.\n",rc); break; case 'B': /* set the driver's (?) read ahead value */ printf("enter read-ahead size: ? "); scanf("%d",&i); rc=ioctl(drive,BLKRASET,i); if (rc<0) printf("BLKRASET: rc=%d.\n",rc); break; #ifdef AZT_PRIVATE_IOCTLS /*not supported by every CDROM driver*/ case 'd': printf("Address (min:sec:frm) "); scanf("%d:%d:%d",&i1,&i2,&i3); azt.msf.cdmsf_min0=i1; azt.msf.cdmsf_sec0=i2; azt.msf.cdmsf_frame0=i3; if (azt.msf.cdmsf_sec0>59) azt.msf.cdmsf_sec0=59; if (azt.msf.cdmsf_frame0>74) azt.msf.cdmsf_frame0=74; rc=ioctl(drive,CDROMREADMODE1,&azt.msf); if (rc<0) printf("CDROMREADMODE1: rc=%d.\n",rc); else display(CD_FRAMESIZE,azt.buf); break; case 'w': printf("Address (min:sec:frame) "); scanf("%d:%d:%d",&i1,&i2,&i3); azt.msf.cdmsf_min0=i1; azt.msf.cdmsf_sec0=i2; azt.msf.cdmsf_frame0=i3; if (azt.msf.cdmsf_sec0>59) azt.msf.cdmsf_sec0=59; if (azt.msf.cdmsf_frame0>74) azt.msf.cdmsf_frame0=74; rc=ioctl(drive,CDROMREADMODE2,&azt.msf); if (rc<0) printf("CDROMREADMODE2: rc=%d.\n",rc); else display(CD_FRAMESIZE_RAW,azt.buf); /* currently only 2336 */ break; #endif case 'v': printf("--Channel 0 (Left) (0-255): "); scanf("%d",&i1); volctrl.channel0=i1; printf("--Channel 1 (Right) (0-255): "); scanf("%d",&i1); volctrl.channel1=i1; volctrl.channel2=0; volctrl.channel3=0; rc=ioctl(drive,CDROMVOLCTRL,&volctrl); if (rc<0) printf("CDROMVOLCTRL: rc=%d.\n",rc); break; case 'q': close(drive); exit(0); case 'h': help(); break; case 'T': /* display TOC entry - without involving the driver */ scanf("%d",&i); if ((ihdr.cdth_trk1)) printf("invalid track number.\n"); else printf("TocEntry %02d: adr=%01X ctrl=%01X msf=%02d:%02d:%02d mode=%02X\n", TocEntry[i].cdte_track, TocEntry[i].cdte_adr, TocEntry[i].cdte_ctrl, TocEntry[i].cdte_addr.msf.minute, TocEntry[i].cdte_addr.msf.second, TocEntry[i].cdte_addr.msf.frame, TocEntry[i].cdte_datamode); break; case 'A': /* read audio data into file */ printf("Address (min:sec:frm) ? "); scanf("%d:%d:%d",&i1,&i2,&i3); read_audio.addr.msf.minute=i1; read_audio.addr.msf.second=i2; read_audio.addr.msf.frame=i3; read_audio.addr_format=CDROM_MSF; printf("# of frames ? "); scanf("%d",&i1); read_audio.nframes=i1; k=read_audio.nframes*CD_FRAMESIZE_RAW; read_audio.buf=malloc(k); if (read_audio.buf==NULL) { printf("can't malloc %d bytes.\n",k); break; } sprintf(filename,"audio_%02d%02d%02d_%02d.%02d\0", read_audio.addr.msf.minute, read_audio.addr.msf.second, read_audio.addr.msf.frame, read_audio.nframes, ++sequence); datafile=creat(filename, 0755); if (datafile<0) { printf("can't open datafile %s.\n",filename); break; } rc=ioctl(drive,CDROMREADAUDIO,&read_audio); if (rc!=0) { printf("CDROMREADAUDIO: rc=%d.\n",rc); } else { rc=write(datafile,&read_audio.buf,k); if (rc!=k) printf("datafile I/O error (%d).\n",rc); } close(datafile); break; case 'X': /* set EJECT_SW (0: disable, 1: enable auto-ejecting) */ scanf("%d",&i); rc=ioctl(drive,CDROMEJECT_SW,i); if (rc!=0) printf("CDROMEJECT_SW: rc=%d.\n",rc); else printf("EJECT_SW set to %d\n",i); break; case 'M': /* get the multisession redirection info */ ms_info.addr_format=CDROM_LBA; rc=ioctl(drive,CDROMMULTISESSION,&ms_info); if (rc!=0) { printf("CDROMMULTISESSION(lba): rc=%d.\n",rc); } else { if (ms_info.xa_flag) printf("MultiSession offset (lba): %d (0x%06X)\n",ms_info.addr.lba,ms_info.addr.lba); else { printf("this CD is not an XA disk.\n"); break; } } ms_info.addr_format=CDROM_MSF; rc=ioctl(drive,CDROMMULTISESSION,&ms_info); if (rc!=0) { printf("CDROMMULTISESSION(msf): rc=%d.\n",rc); } else { if (ms_info.xa_flag) printf("MultiSession offset (msf): %02d:%02d:%02d (0x%02X%02X%02X)\n", ms_info.addr.msf.minute, ms_info.addr.msf.second, ms_info.addr.msf.frame, ms_info.addr.msf.minute, ms_info.addr.msf.second, ms_info.addr.msf.frame); else printf("this CD is not an XA disk.\n"); } break; #ifdef SBP_PRIVATE_IOCTLS case 'Y': /* set the driver's message level */ #if 0 /* not implemented yet */ printf("enter switch name (f.e. DBG_CMD): "); scanf("%s",&dbg_switch); j=get_dbg_num(dbg_switch); #else printf("enter DDIOCSDBG switch number: "); scanf("%d",&j); #endif printf("enter 0 for \"off\", 1 for \"on\": "); scanf("%d",&i); if (i==0) j|=0x80; printf("calling \"ioctl(drive,DDIOCSDBG,%d)\"\n",j); rc=ioctl(drive,DDIOCSDBG,j); printf("DDIOCSDBG: rc=%d.\n",rc); break; case 'Z': /* set the audio buffer size */ printf("# frames wanted: ? "); scanf("%d",&j); rc=ioctl(drive,CDROMAUDIOBUFSIZ,j); printf("%d frames granted.\n",rc); break; #endif SBP_PRIVATE_IOCTLS default: printf("unknown command: \"%s\".\n",command); break; } } } /*==========================================================================*/