/* test/libburner.c , API illustration of burning a single data track to CD */ /* Copyright (C) 2005 - 2006 Thomas Schmitt */ /* Provided under GPL, see also "License and copyright aspects" at file end */ /** Overview libburner is a minimal demo application for the library libburn as provided on http://libburn.pykix.org . It can list the available devices, can blank a CD-RW and can burn to CD-R or CD-RW. It's main purpose, nevertheless, is to show you how to use libburn and also to serve the libburn team as reference application. libburner.c does indeed define the standard way how above three gestures can be implemented and stay upward compatible for a good while. Before you can do anything, you have to initialize libburn by burn_initialize() and provide some signal and abort handling, e.g. by the builtin handler, by burn_set_signal_handling() as it is done in main() at the end of this file. Then you aquire a drive in an appropriate way conforming to the API. The two main approaches are shown here in application functions: libburner_aquire_by_adr() demonstrates usage as of cdrecord traditions libburner_aquire_by_driveno() demonstrates a scan-and-choose approach With that aquired drive you can blank a CD-RW libburner_blank_disc() Between blanking and burning one eventually has to reload the drive status libburner_regrab() With the aquired drive you can burn to CD-R or blank CD-RW libburner_payload() When everything is done, main() releases the drive and shuts down libburn: burn_drive_release(); burn_finish() */ /* We shall prepare for times when more than 2 GB of data are to be handled. This gives POSIX-ly 64 bit off_t */ #ifndef _LARGEFILE_SOURCE #define _LARGEFILE_SOURCE 1 #endif #ifndef _FILE_OFFSET_BITS #define _FILE_OFFSET_BITS 64 #endif /** See this for the decisive API specs . libburn.h is The Original */ #include /* libburn is intended for Linux systems with kernel 2.4 or 2.6 for now */ #include #include #include #include #include #include #include #include /** For simplicity i use global variables to represent the drives. Drives are systemwide global, so we do not give away much of good style. */ /** This list will hold the drives known to libburn. This might be all CD drives of the system and thus might impose severe impact on the system. */ static struct burn_drive_info *drive_list; /** If you start a long lasting operation with drive_count > 1 then you are not friendly to the users of other drives on those systems. Beware. */ static unsigned int drive_count; /** This variable indicates wether the drive is grabbed and must be finally released */ static int drive_is_grabbed = 0; /** Here you may enable simulated burn by default. This does not apply to blanking. Anyway, some CD recorders obey the request to simulate, some do not. Explicit options are: --burn_for_real and --try_to_simulate */ static int simulate_burn = 0; /* Some in-advance definitions to allow a more comprehensive ordering of the functions and their explanations in here */ int libburner_aquire_by_adr(char *drive_adr); int libburner_aquire_by_driveno(int *drive_no); /* ------------------------------- API gestures ---------------------------- */ /** You need to aquire a drive before burning. The API offers this as one compact call and alternatively as application controllable gestures of whitelisting, scanning for drives and finally grabbing one of them. If you have a persistent address of the drive, then the compact call is to prefer because it only touches one drive. On modern Linux kernels, there should be no fatal disturbance of ongoing burns of other libburn instances with any of our approaches. We use open(O_EXCL) by default. On /dev/hdX it should cooperate with growisofs and some cdrecord variants. On /dev/sgN versus /dev/scdM expect it not to respect other programs. */ int libburner_aquire_drive(char *drive_adr, int *driveno) { int ret; if(drive_adr != NULL && drive_adr[0] != 0) ret = libburner_aquire_by_adr(drive_adr); else ret = libburner_aquire_by_driveno(driveno); return ret; } /** If the persistent drive address is known, then this approach is much more un-obtrusive to the systemwide livestock of drives. Only the given drive device will be opened during this procedure. */ int libburner_aquire_by_adr(char *drive_adr) { int ret; printf("Aquiring drive '%s' ...\n",drive_adr); ret = burn_drive_scan_and_grab(&drive_list,drive_adr,1); if (ret <= 0) { fprintf(stderr,"FAILURE with persistent drive address '%s'\n", drive_adr); if (strncmp(drive_adr,"/dev/sg",7) != 0 && strncmp(drive_adr,"/dev/hd",7) != 0) fprintf(stderr,"\nHINT: Consider addresses like '/dev/hdc' or '/dev/sg0'\n"); } else { printf("Done\n"); drive_is_grabbed = 1; } return ret; } /** This method demonstrates how to use libburn without knowing a persistent drive address in advance. It has to make sure that after assessing the list of available drives, all unwanted drives get closed again. As long as they are open, no other libburn instance can see them. This is an intended locking feature. The application is responsible for giving up the locks by either burn_drive_release() (only after burn_drive_grab() !), burn_drive_info_forget(), burn_drive_info_free(), or burn_finish(). @param driveno the index number in libburn's drive list. This will get set to 0 on success and will then be the drive index to use in the further dourse of processing. @return 1 success , <= 0 failure */ int libburner_aquire_by_driveno(int *driveno) { char adr[BURN_DRIVE_ADR_LEN]; int ret, i; printf("Beginning to scan for devices ...\n"); while (!burn_drive_scan(&drive_list, &drive_count)) usleep(1002); if (drive_count <= 0 && *driveno >= 0) { printf("FAILED (no drives found)\n"); return 0; } printf("Done\n"); /* Interactive programs may choose the drive number at this moment. drive[0] to drive[drive_count-1] are struct burn_drive_info as defined in libburn/libburn.h . This structure is part of API and thus will strive for future compatibility on source level. Have a look at the info offered. Caution: do not take .location for drive address. Always use burn_drive_get_adr() or you might become incompatible in future. Note: bugs with struct burn_drive_info - if any - will not be easy to fix. Please report them but also strive for workarounds on application level. */ printf("\nOverview of accessible drives (%d found) :\n", drive_count); printf("-----------------------------------------------------------------------------\n"); for (i = 0; i < drive_count; i++) { if (burn_drive_get_adr(&(drive_list[i]), adr) <=0) strcpy(adr, "-get_adr_failed-"); printf("%d --drive '%s' : '%s' '%s'\n", i,adr,drive_list[i].vendor,drive_list[i].product); } printf("-----------------------------------------------------------------------------\n\n"); /* On multi-drive systems save yourself from sysadmins' revenge. Be aware that you hold reserved all available drives at this point. So either make your choice quick enough not to annoy other system users, or set free the drives for a while. The tested way of setting free all drives is to shutdown the library and to restart when the choice has been made. The list of selectable drives should also hold persistent drive addresses as obtained above by burn_drive_get_adr(). By such an address one may use burn_drive_scan_and_grab() to finally aquire exactly one drive. A not yet tested shortcut should be to call burn_drive_info_free() and to call either burn_drive_scan() or burn_drive_scan_and_grab() before accessing any drives again. In both cases you have to be aware that the desired drive might get aquired in the meantime by another user resp. libburn process. */ /* We already made our choice via command line. (default is 0) So we just have to keep our desired drive and drop all others. No other libburn instance will have a chance to steal our drive. */ if (*driveno < 0) { printf("Pseudo-drive \"-\" given : bus scanning done.\n"); return 2; /* the program will end after this */ } if (drive_count <= *driveno) { fprintf(stderr, "Found only %d drives. Number %d not available.\n", drive_count, *driveno); return 0; /* the program will end after this */ } /* Drop all drives which we do not want to use */ for (i = 0; i < drive_count; i++) { if (i == *driveno) /* the one drive we want to keep */ continue; ret = burn_drive_info_forget(&(drive_list[i]),0); if (ret != 1) fprintf(stderr, "Cannot drop drive %d. Please report \"ret=%d\" to libburn-hackers@pykix.org\n", i, ret); else printf("Dropped unwanted drive %d\n",i); } /* Make the one we want ready for blanking or burning */ ret= burn_drive_grab(drive_list[*driveno].drive, 1); if (ret != 1) return 0; drive_is_grabbed = 1; return 1; } /** Makes a previously used CD-RW ready for thorough re-usal. To our knowledge it is hardly possible to abort an ongoing blank operation because after start it is entirely handled by the drive. So expect signal handling to wait the normal blanking timespan until it can allow the process to end. External kill -9 will not help the drive. */ int libburner_blank_disc(struct burn_drive *drive, int blank_fast) { enum burn_disc_status disc_state; struct burn_progress progress; while (burn_drive_get_status(drive, NULL)) usleep(1001); while ((disc_state = burn_disc_get_status(drive)) == BURN_DISC_UNREADY) usleep(1001); printf( "Drive media status: %d (see libburn/libburn.h BURN_DISC_*)\n", disc_state); if (disc_state == BURN_DISC_BLANK) { fprintf(stderr, "IDLE: Blank CD media detected. Will leave it untouched\n"); return 2; } else if (disc_state == BURN_DISC_FULL || disc_state == BURN_DISC_APPENDABLE) { ; /* this is what libburn is willing to blank */ } else if (disc_state == BURN_DISC_EMPTY) { fprintf(stderr,"FATAL: No media detected in drive\n"); return 0; } else { fprintf(stderr, "FATAL: Cannot recognize drive and media state\n"); return 0; } if(!burn_disc_erasable(drive)) { fprintf(stderr, "FATAL : Media is not of erasable type\n"); return 0; } printf( "Beginning to %s-blank CD media.\n", (blank_fast?"fast":"full")); printf( "Expect some garbage sector numbers and some zeros at first.\n"); burn_disc_erase(drive, blank_fast); while (burn_drive_get_status(drive, &progress)) { printf("Blanking sector %d\n", progress.sector); sleep(1); } printf("Done\n"); return 1; } /** This gesture is necessary to get the drive info after blanking. It opens a small gap for losing the drive to another libburn instance. We will work on closing this gap. */ int libburner_regrab(struct burn_drive *drive) { int ret; printf("Releasing and regrabbing drive ...\n"); if (drive_is_grabbed) burn_drive_release(drive, 0); drive_is_grabbed = 0; ret = burn_drive_grab(drive, 0); if (ret != 0) { drive_is_grabbed = 1; printf("Done\n"); } else printf("FAILED\n"); return !!ret; } /** Brings the preformatted image (ISO 9660, afio, ext2, whatever) onto media. To make sure your image is fully readable on any Linux machine, this function adds 300 kB of padding to the track. In case of external signals expect abort handling of an ongoing burn to last up to a minute. Wait the normal burning timespan before any kill -9. */ int libburner_payload(struct burn_drive *drive, const char *source_adr, off_t size) { struct burn_source *data_src; struct burn_disc *target_disc; struct burn_session *session; struct burn_write_opts *burn_options; enum burn_disc_status disc_state; struct burn_track *track; struct burn_progress progress; time_t start_time; int last_sector = 0; target_disc = burn_disc_create(); session = burn_session_create(); burn_disc_add_session(target_disc, session, BURN_POS_END); track = burn_track_create(); /* a padding of 300 kB is helpful to avoid the read-ahead bug */ burn_track_define_data(track, 0, 300*1024, 1, BURN_MODE1); if (source_adr[0] == '-' && source_adr[1] == 0) { data_src = burn_fd_source_new(0, -1, size); printf("Note: using standard input as source with %.f bytes\n", (double) size); } else data_src = burn_file_source_new(source_adr, NULL); if (data_src == NULL) { fprintf(stderr, "FATAL: Could not open data source '%s'.\n",source_adr); if(errno!=0) fprintf(stderr,"(Most recent system error: %s )\n", strerror(errno)); return 0; } if (burn_track_set_source(track, data_src) != BURN_SOURCE_OK) { printf("FATAL: Cannot attach source object to track object\n"); return 0; } burn_session_add_track(session, track, BURN_POS_END); burn_source_free(data_src); while (burn_drive_get_status(drive, NULL)) usleep(1001); /* Evaluate drive and media */ while ((disc_state = burn_disc_get_status(drive)) == BURN_DISC_UNREADY) usleep(1001); if (disc_state != BURN_DISC_BLANK) { if (disc_state == BURN_DISC_FULL || disc_state == BURN_DISC_APPENDABLE) { fprintf(stderr, "FATAL: Media with data detected. Need blank media.\n"); if (burn_disc_erasable(drive)) fprintf(stderr, "HINT: Try --blank_fast\n\n"); } else if (disc_state == BURN_DISC_EMPTY) fprintf(stderr,"FATAL: No media detected in drive\n"); else fprintf(stderr, "FATAL: Cannot recognize drive and media state\n"); return 0; } burn_options = burn_write_opts_new(drive); burn_write_opts_set_perform_opc(burn_options, 0); #ifdef Libburner_raw_mode_which_i_do_not_likE /* This yields higher CD capacity but hampers my IDE controller with burning on one drive and reading on another simultaneously. My burner does not obey the order --try_to_simulate in this mode. */ burn_write_opts_set_write_type(burn_options, BURN_WRITE_RAW, BURN_BLOCK_RAW96R); #else /* This is by what cdrskin competes with cdrecord -sao which i understand is the mode preferrably advised by Joerg Schilling */ burn_write_opts_set_write_type(burn_options, BURN_WRITE_SAO, BURN_BLOCK_SAO); #endif if(simulate_burn) printf("\n*** Will TRY to SIMULATE burning ***\n\n"); burn_write_opts_set_simulate(burn_options, simulate_burn); burn_structure_print_disc(target_disc); burn_drive_set_speed(drive, 0, 0); burn_write_opts_set_underrun_proof(burn_options, 1); printf("Burning starts. With e.g. 4x media expect up to a minute of zero progress.\n"); start_time = time(0); burn_disc_write(burn_options, target_disc); burn_write_opts_free(burn_options); while (burn_drive_get_status(drive, NULL) == BURN_DRIVE_SPAWNING) usleep(1002); while (burn_drive_get_status(drive, &progress)) { if( progress.sectors <= 0 || progress.sector == last_sector) printf( "Thank you for being patient since %d seconds.\n", (int) (time(0) - start_time)); else printf("Burning sector %d of %d\n", progress.sector, progress.sectors); last_sector = progress.sector; sleep(1); } printf("\n"); burn_track_free(track); burn_session_free(session); burn_disc_free(target_disc); if(simulate_burn) printf("\n*** Did TRY to SIMULATE burning ***\n\n"); return 0; } /** Converts command line arguments into a few program parameters. drive_adr[] must provide at least BURN_DRIVE_ADR_LEN bytes. source_adr[] must provide at least 4096 bytes. */ int libburner_setup(int argc, char **argv, char drive_adr[], int *driveno, int *do_blank, char source_adr[], off_t *size) { int i, insuffient_parameters = 0; int print_help = 0; drive_adr[0] = 0; *driveno = 0; *do_blank = 0; source_adr[0] = 0; *size = 650*1024*1024; for (i = 1; i < argc; ++i) { if (!strcmp(argv[i], "--blank_fast")) { *do_blank = 1; } else if (!strcmp(argv[i], "--blank_full")) { *do_blank = 2; } else if (!strcmp(argv[i], "--burn_for_real")) { simulate_burn = 0; } else if (!strcmp(argv[i], "--drive")) { ++i; if (i >= argc) { fprintf(stderr,"--drive requires an argument\n"); return 1; } else if (strcmp(argv[i], "-") == 0) { drive_adr[0] = 0; *driveno = -1; } else if (isdigit(argv[i][0])) { drive_adr[0] = 0; *driveno = atoi(argv[i]); } else { if(strlen(argv[i]) >= BURN_DRIVE_ADR_LEN) { fprintf(stderr,"--drive address too long (max. %d)\n", BURN_DRIVE_ADR_LEN-1); return 2; } strcpy(drive_adr, argv[i]); } } else if (!strcmp(argv[i], "--stdin_size")) { ++i; if (i >= argc) { fprintf(stderr,"--stdin_size requires an argument\n"); return 3; } else *size = atoi(argv[i]); if (*size < 600*1024) /* seems to be minimum readable track size */ *size = 600*1024; } else if (!strcmp(argv[i], "--try_to_simulate")) { simulate_burn = 1; } else if (!strcmp(argv[i], "--verbose")) { ++i; if (i >= argc) { fprintf(stderr,"--verbose requires an argument\n"); return 4; } else burn_set_verbosity(atoi(argv[i])); } else if (!strcmp(argv[i], "--help")) { print_help = 1; } else { if(strlen(argv[i]) >= 4096) { fprintf(stderr, "Source address too long (max. %d)\n", 4096-1); return 5; } strcpy(source_adr, argv[i]); } } insuffient_parameters = 1; if (*driveno < 0) insuffient_parameters = 0; if (source_adr[0] != 0) insuffient_parameters = 0; if (*do_blank) insuffient_parameters = 0; if (print_help || insuffient_parameters ) { printf("Usage: %s\n", argv[0]); printf(" [--drive
||\"-\"]\n"); printf(" [--verbose ] [--blank_fast|--blank_full]\n"); printf(" [--burn_for_real|--try_to_simulate] [--stdin_size ]\n"); printf(" [|\"-\"]\n"); printf("Examples\n"); printf("A bus scan (needs rw-permissions to see a drive):\n"); printf(" %s --drive -\n",argv[0]); printf("Burn a file to drive chosen by number:\n"); printf(" %s --drive 0 --burn_for_real my_image_file\n", argv[0]); printf("Burn a file to drive chosen by persistent address:\n"); printf(" %s --drive /dev/hdc --burn_for_real my_image_file\n", argv[0]); printf("Blank a used CD-RW (is combinable with burning in one run):\n"); printf(" %s --drive 0 --blank_fast\n",argv[0]); printf("Burn a compressed afio archive on-the-fly, pad up to 700 MB:\n"); printf(" ( cd my_directory ; find . -print | afio -oZ - ) | \\\n"); printf(" %s --drive /dev/hdc --burn_for_real --stdin_size 734003200 -\n", argv[0]); printf("To be read from *not mounted* CD via:\n"); printf(" afio -tvZ /dev/hdc\n"); printf("Program tar would need a clean EOF which our padded CD cannot deliver.\n"); if (insuffient_parameters) return 6; } return 0; } int main(int argc, char **argv) { int driveno, ret, do_blank; char source_adr[4096], drive_adr[BURN_DRIVE_ADR_LEN]; off_t stdin_size; ret = libburner_setup(argc, argv, drive_adr, &driveno, &do_blank, source_adr, &stdin_size); if (ret) exit(ret); printf("Initializing library ...\n"); if (burn_initialize()) printf("Done\n"); else { printf("FAILED\n"); fprintf(stderr,"\nFATAL: Failed to initialize libburn.\n"); exit(33); } /* Activate the default signal handler which eventually will try to properly shutdown drive and library on aborting events. */ burn_set_signal_handling("libburner : ", NULL, 0); /** Note: driveno might change its value in this call */ ret = libburner_aquire_drive(drive_adr, &driveno); if (ret<=0) { fprintf(stderr,"\nFATAL: Failed to aquire drive.\n"); { ret = 34; goto finish_libburn; } } if (ret == 2) { ret = 0; goto release_drive; } if (do_blank) { ret = libburner_blank_disc(drive_list[driveno].drive, do_blank == 1); if (ret<=0) { ret = 36; goto release_drive; } if (ret != 2 && source_adr[0] != 0) ret = libburner_regrab(drive_list[driveno].drive); if (ret<=0) { fprintf(stderr, "FATAL: Cannot release and grab again drive after blanking\n"); { ret = 37; goto finish_libburn; } } } if (source_adr[0] != 0) { ret = libburner_payload(drive_list[driveno].drive, source_adr, stdin_size); if (ret<=0) { ret = 38; goto release_drive; } } ret = 0; release_drive:; if (drive_is_grabbed) burn_drive_release(drive_list[driveno].drive, 0); finish_libburn:; /* This app does not bother to know about exact scan state. Better to accept a memory leak here. We are done anyway. */ /* burn_drive_info_free(drive_list); */ burn_finish(); return ret; } /* License and copyright aspects: This all is provided under GPL. Read. Try. Think. Play. Write yourself some code. Be free of my copyright. Be also invited to study the code of cdrskin/cdrskin.c et al. Clarification in my name and in the name of Mario Danic, copyright holder on toplevel of libburn. To be fully in effect after the remaining other copyrighted code has been replaced by ours and by copyright-free contributions of our friends: We, the copyright holders, agree on the interpretation that dynamical linking of our libraries constitutes "use of" and not "derivation from" our work in the sense of GPL, provided those libraries are compiled from our unaltered code. Thus you may link our libraries dynamically with applications which are not under GPL. You may distribute our libraries and application tools in binary form, if you fulfill the usual condition of GPL to offer a copy of the source code -altered or unaltered- under GPL. We ask you politely to use our work in open source spirit and with the due reference to the entire open source community. If there should really arise the case where above clarification does not suffice to fulfill a clear and neat request in open source spirit that would otherwise be declined for mere formal reasons, only in that case we will duely consider to issue a special license covering only that special case. It is the open source idea of responsible freedom which will be decisive and you will have to prove that you exhausted all own means to qualify for GPL. For now we are firmly committed to maintain one single license: GPL. History: libburner is a compilation of my own contributions to test/burniso.c and fresh code which replaced the remaining parts under copyright of Derek Foreman. My respect and my thanks to Derek for providing me a start back in 2005. */