/* Copyright (C) 2003, 2004, 2005, 2007, 2008, 2009, 2010 Rocky Bernstein This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ /* Miscellaneous things common to standalone programs. */ #include "util.h" #include #include #ifdef HAVE_SYS_STAT_H # include #endif #ifndef HAVE_S_ISLNK # define S_ISLNK(s) ((void)s,0) #endif #ifndef HAVE_S_ISSOCK # define S_ISSOCK(s) ((void)s,0) #endif cdio_log_handler_t gl_default_cdio_log_handler = NULL; char *source_name = NULL; char *program_name; void myexit(CdIo_t *cdio, int rc) { if (NULL != cdio) cdio_destroy(cdio); if (NULL != program_name) free(program_name); if (NULL != source_name) free(source_name); exit(rc); } void print_version (char *program_name, const char *version, int no_header, bool version_only) { if (no_header == 0) report( stdout, "%s version %s\nCopyright (c) 2003, 2004, 2005, 2007, 2008, 2011 R. Bernstein\n", program_name, version); report( stdout, _("This is free software; see the source for copying conditions.\n\ There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR A\n\ PARTICULAR PURPOSE.\n\ ")); if (version_only) { char *default_device; const driver_id_t *driver_id_p; for (driver_id_p=cdio_drivers; *driver_id_p!=DRIVER_UNKNOWN; driver_id_p++) { if (cdio_have_driver(*driver_id_p)) { report( stdout, "Have driver: %s\n", cdio_driver_describe(*driver_id_p)); } } default_device=cdio_get_default_device(NULL); if (default_device) report( stdout, "Default CD-ROM device: %s\n", default_device); else report( stdout, "No CD-ROM device found.\n"); free(program_name); exit(EXIT_INFO); } } /*! Device input routine. If successful we return an open CdIo_t pointer. On error the program exits. */ CdIo_t * open_input(const char *psz_source, source_image_t source_image, const char *psz_access_mode) { CdIo_t *p_cdio = NULL; switch (source_image) { case INPUT_UNKNOWN: case INPUT_AUTO: p_cdio = cdio_open_am (psz_source, DRIVER_UNKNOWN, psz_access_mode); if (!p_cdio) { if (psz_source) { err_exit("Error in automatically selecting driver for input %s.\n", psz_source); } else { err_exit("%s", "Error in automatically selecting driver.\n"); } } break; case INPUT_DEVICE: p_cdio = cdio_open_am (psz_source, DRIVER_DEVICE, psz_access_mode); if (!p_cdio) { if (psz_source) { err_exit("Cannot use CD-ROM device %s. Is a CD loaded?\n", psz_source); } else { err_exit("%s", "Cannot find a CD-ROM with a CD loaded.\n"); } } break; case INPUT_BIN: p_cdio = cdio_open_am (psz_source, DRIVER_BINCUE, psz_access_mode); if (!p_cdio) { if (psz_source) { err_exit("%s: Error in opening CDRWin BIN/CUE image for BIN" " input %s\n", psz_source); } else { err_exit("%s", "Cannot find CDRWin BIN/CUE image.\n"); } } break; case INPUT_CUE: p_cdio = cdio_open_cue(psz_source); if (p_cdio==NULL) { if (psz_source) { err_exit("%s: Error in opening CDRWin BIN/CUE image for CUE" " input %s\n", psz_source); } else { err_exit("%s", "Cannot find CDRWin BIN/CUE image.\n"); } } break; case INPUT_NRG: p_cdio = cdio_open_am (psz_source, DRIVER_NRG, psz_access_mode); if (p_cdio==NULL) { if (psz_source) { err_exit("Error in opening Nero NRG image for input %s\n", psz_source); } else { err_exit("%s", "Cannot find Nero NRG image.\n"); } } break; case INPUT_CDRDAO: p_cdio = cdio_open_am (psz_source, DRIVER_CDRDAO, psz_access_mode); if (p_cdio==NULL) { if (psz_source) { err_exit("Error in opening cdrdao TOC with input %s.\n", psz_source); } else { err_exit("%s", "Cannot find cdrdao TOC image.\n"); } } break; } return p_cdio; } #define DEV_PREFIX "/dev/" char * fillout_device_name(const char *device_name) { #if defined(HAVE_WIN32_CDROM) || defined(HAVE_OS2_CDROM) return strdup(device_name); #else unsigned int prefix_len = strlen(DEV_PREFIX); if (!device_name) return NULL; if (0 == strncmp(device_name, DEV_PREFIX, prefix_len)) return strdup(device_name); else { char *full_device_name = (char*) calloc(1, strlen(device_name)+prefix_len); report( stdout, full_device_name, DEV_PREFIX "%s", device_name); return full_device_name; } #endif } /*! Prints out SCSI-MMC drive features */ void print_mmc_drive_features(CdIo_t *p_cdio) { int i_status; /* Result of SCSI MMC command */ uint8_t buf[500] = { 0, }; /* Place to hold returned data */ mmc_cdb_t cdb = {{0, }}; /* Command Descriptor Block */ CDIO_MMC_SET_COMMAND(cdb.field, CDIO_MMC_GPCMD_GET_CONFIGURATION); CDIO_MMC_SET_READ_LENGTH8(cdb.field, sizeof(buf)); cdb.field[1] = CDIO_MMC_GET_CONF_ALL_FEATURES; cdb.field[3] = 0x0; i_status = mmc_run_cmd(p_cdio, 0, &cdb, SCSI_MMC_DATA_READ, sizeof(buf), &buf); if (i_status == 0) { uint8_t *p; uint32_t i_data; uint8_t *p_max = buf + 65530; i_data = (unsigned int) CDIO_MMC_GET_LEN32(buf); /* set to first sense feature code, and then walk through the masks */ p = buf + 8; while( (p < &(buf[i_data])) && (p < p_max) ) { uint16_t i_feature; uint8_t i_feature_additional = p[3]; i_feature = CDIO_MMC_GET_LEN16(p); { uint8_t *q; const char *feature_str = mmc_feature2str(i_feature); report( stdout, "%s Feature\n", feature_str); switch( i_feature ) { case CDIO_MMC_FEATURE_PROFILE_LIST: for ( q = p+4 ; q < p + i_feature_additional ; q += 4 ) { int i_profile=CDIO_MMC_GET_LEN16(q); const char *feature_profile_str = mmc_feature_profile2str(i_profile); report( stdout, "\t%s", feature_profile_str ); if (q[2] & 1) { report( stdout, " - on"); } report( stdout, "\n"); } report( stdout, "\n"); break; case CDIO_MMC_FEATURE_CORE: { uint8_t *q = p+4; uint32_t i_interface_standard = CDIO_MMC_GET_LEN32(q); switch(i_interface_standard) { case CDIO_MMC_FEATURE_INTERFACE_UNSPECIFIED: report( stdout, "\tunspecified interface\n"); break; case CDIO_MMC_FEATURE_INTERFACE_SCSI: report( stdout, "\tSCSI interface\n"); break; case CDIO_MMC_FEATURE_INTERFACE_ATAPI: report( stdout, "\tATAPI interface\n"); break; case CDIO_MMC_FEATURE_INTERFACE_IEEE_1394: report( stdout, "\tIEEE 1394 interface\n"); break; case CDIO_MMC_FEATURE_INTERFACE_IEEE_1394A: report( stdout, "\tIEEE 1394A interface\n"); break; case CDIO_MMC_FEATURE_INTERFACE_FIBRE_CH: report( stdout, "\tFibre Channel interface\n"); } report( stdout, "\n"); break; } case CDIO_MMC_FEATURE_MORPHING: report( stdout, "\tOperational Change Request/Notification %ssupported\n", (p[4] & 2) ? "": "not " ); report( stdout, "\t%synchronous GET EVENT/STATUS NOTIFICATION " "supported\n", (p[4] & 1) ? "As": "S" ); report( stdout, "\n"); break; ; case CDIO_MMC_FEATURE_REMOVABLE_MEDIUM: switch(p[4] >> 5) { case 0: report( stdout, "\tCaddy/Slot type loading mechanism\n" ); break; case 1: report( stdout, "\tTray type loading mechanism\n" ); break; case 2: report( stdout, "\tPop-up type loading mechanism\n"); break; case 4: report( stdout, "\tEmbedded changer with individually changeable discs\n"); break; case 5: report( stdout, "\tEmbedded changer using a magazine mechanism\n" ); break; default: report( stdout, "\tUnknown changer mechanism\n" ); } report( stdout, "\tcan%s eject the medium or magazine via the normal " "START/STOP command\n", (p[4] & 8) ? "": "not" ); report( stdout, "\tcan%s be locked into the Logical Unit\n", (p[4] & 1) ? "": "not" ); report( stdout, "\n" ); break; case CDIO_MMC_FEATURE_CD_READ: report( stdout, "\tC2 Error pointers are %ssupported\n", (p[4] & 2) ? "": "not " ); report( stdout, "\tCD-Text is %ssupported\n", (p[4] & 1) ? "": "not " ); report( stdout, "\n" ); break; case CDIO_MMC_FEATURE_ENHANCED_DEFECT: report( stdout, "\t%s-DRM mode is supported\n", (p[4] & 1) ? "DRT": "Persistent" ); report( stdout, "\n" ); break; case CDIO_MMC_FEATURE_CDDA_EXT_PLAY: report( stdout, "\tSCAN command is %ssupported\n", (p[4] & 4) ? "": "not "); report( stdout, "\taudio channels can %sbe muted separately\n", (p[4] & 2) ? "": "not "); report( stdout, "\taudio channels can %shave separate volume levels\n", (p[4] & 1) ? "": "not "); { uint8_t *q = p+6; uint16_t i_vol_levels = CDIO_MMC_GET_LEN16(q); report( stdout, "\t%d volume levels can be set\n", i_vol_levels ); } report( stdout, "\n"); break; case CDIO_MMC_FEATURE_DVD_CSS: #if 0 report( stdout, "\tMedium does%s have Content Scrambling (CSS/CPPM)\n", (p[2] & 1) ? "": "not " ); #endif report( stdout, "\tCSS version %d\n", p[7] ); report( stdout, "\t\n"); break; case CDIO_MMC_FEATURE_LU_SN: { uint8_t i_serial = *(p+3); char serial[257] = { '\0', }; memcpy(serial, p+4, i_serial ); report( stdout, "\t%s\n\n", serial ); break; } default: report( stdout, "\n"); break; } } p += i_feature_additional + 4; } } else { report( stdout, "Didn't get all feature codes\n"); } } /* Prints out drive capabilities */ void print_drive_capabilities(cdio_drive_read_cap_t i_read_cap, cdio_drive_write_cap_t i_write_cap, cdio_drive_misc_cap_t i_misc_cap) { if (CDIO_DRIVE_CAP_ERROR == i_misc_cap) { report( stdout, "Error in getting drive hardware properties\n"); } else if (CDIO_DRIVE_CAP_UNKNOWN == i_misc_cap) { report( stdout, "Uknown drive hardware properties\n"); } else { report( stdout, _("Hardware : %s\n"), i_misc_cap & CDIO_DRIVE_CAP_MISC_FILE ? "Disk Image" : "CD-ROM or DVD"); report( stdout, _("Can eject : %s\n"), i_misc_cap & CDIO_DRIVE_CAP_MISC_EJECT ? "Yes" : "No" ); report( stdout, _("Can close tray : %s\n"), i_misc_cap & CDIO_DRIVE_CAP_MISC_CLOSE_TRAY ? "Yes" : "No" ); report( stdout, _("Can disable manual eject : %s\n"), i_misc_cap & CDIO_DRIVE_CAP_MISC_LOCK ? "Yes" : "No" ); report( stdout, _("Can select juke-box disc : %s\n\n"), i_misc_cap & CDIO_DRIVE_CAP_MISC_SELECT_DISC ? "Yes" : "No" ); report( stdout, _("Can set drive speed : %s\n"), i_misc_cap & CDIO_DRIVE_CAP_MISC_SELECT_SPEED ? "Yes" : "No" ); #if FIXED report( stdout, _("Can detect if CD changed : %s\n"), i_misc_cap & CDIO_DRIVE_CAP_MISC_MEDIA_CHANGED ? "Yes" : "No" ); #endif report( stdout, _("Can read multiple sessions (e.g. PhotoCD) : %s\n"), i_misc_cap & CDIO_DRIVE_CAP_MISC_MULTI_SESSION ? "Yes" : "No" ); report( stdout, _("Can hard reset device : %s\n\n"), i_misc_cap & CDIO_DRIVE_CAP_MISC_RESET ? "Yes" : "No" ); } if (CDIO_DRIVE_CAP_ERROR == i_read_cap) { report( stdout, "Error in getting drive reading properties\n" ); } else if (CDIO_DRIVE_CAP_UNKNOWN == i_misc_cap) { report( stdout, "Uknown drive reading properties\n" ); } else { report( stdout, "Reading....\n"); report( stdout, _(" Can read Mode 2 Form 1 : %s\n"), i_read_cap & CDIO_DRIVE_CAP_READ_MODE2_FORM1 ? "Yes" : "No" ); report( stdout, _(" Can read Mode 2 Form 2 : %s\n"), i_read_cap & CDIO_DRIVE_CAP_READ_MODE2_FORM2 ? "Yes" : "No" ); report( stdout, _(" Can read (S)VCD (i.e. Mode 2 Form 1/2) : %s\n"), i_read_cap & (CDIO_DRIVE_CAP_READ_MODE2_FORM1|CDIO_DRIVE_CAP_READ_MODE2_FORM2) ? "Yes" : "No" ); report( stdout, _(" Can read C2 Errors : %s\n"), i_read_cap & CDIO_DRIVE_CAP_READ_C2_ERRS ? "Yes" : "No" ); report( stdout, _(" Can read IRSC : %s\n"), i_read_cap & CDIO_DRIVE_CAP_READ_ISRC ? "Yes" : "No" ); report( stdout, _(" Can read Media Channel Number (or UPC) : %s\n"), i_read_cap & CDIO_DRIVE_CAP_READ_MCN ? "Yes" : "No" ); report( stdout, _(" Can play audio : %s\n"), i_read_cap & CDIO_DRIVE_CAP_READ_AUDIO ? "Yes" : "No" ); report( stdout, _(" Can read CD-DA : %s\n"), i_read_cap & CDIO_DRIVE_CAP_READ_CD_DA ? "Yes" : "No" ); report( stdout, _(" Can read CD-R : %s\n"), i_read_cap & CDIO_DRIVE_CAP_READ_CD_R ? "Yes" : "No" ); report( stdout, _(" Can read CD-RW : %s\n"), i_read_cap & CDIO_DRIVE_CAP_READ_CD_RW ? "Yes" : "No" ); report( stdout, _(" Can read DVD-ROM : %s\n"), i_read_cap & CDIO_DRIVE_CAP_READ_DVD_ROM ? "Yes" : "No" ); } if (CDIO_DRIVE_CAP_ERROR == i_write_cap) { report( stdout, "Error in getting drive writing properties\n" ); } else if (CDIO_DRIVE_CAP_UNKNOWN == i_misc_cap) { report( stdout, "Uknown drive writing properties\n" ); } else { report( stdout, "\nWriting....\n"); #if FIXED report( stdout, _(" Can write using Burn Proof : %s\n"), i_write_cap & CDIO_DRIVE_CAP_WRITE_BURN_PROOF ? "Yes" : "No" ); #endif report( stdout, _(" Can write CD-RW : %s\n"), i_write_cap & CDIO_DRIVE_CAP_WRITE_CD_RW ? "Yes" : "No" ); report( stdout, _(" Can write DVD-R : %s\n"), i_write_cap & CDIO_DRIVE_CAP_WRITE_DVD_R ? "Yes" : "No" ); report( stdout, _(" Can write DVD-RAM : %s\n"), i_write_cap & CDIO_DRIVE_CAP_WRITE_DVD_RAM ? "Yes" : "No" ); report( stdout, _(" Can write DVD-RW : %s\n"), i_write_cap & CDIO_DRIVE_CAP_WRITE_DVD_RW ? "Yes" : "No" ); report( stdout, _(" Can write DVD+RW : %s\n"), i_write_cap & CDIO_DRIVE_CAP_WRITE_DVD_RPW ? "Yes" : "No" ); } } /*! Common place for output routine. In some environments, like XBOX, it may not be desireable to send output to stdout and stderr. */ void report (FILE *stream, const char *psz_format, ...) { va_list args; va_start (args, psz_format); #ifdef _XBOX OutputDebugString(psz_format, args); #else vfprintf (stream, psz_format, args); #endif va_end(args); } /* Prints "ls"-like file attributes */ void print_fs_attrs(iso9660_stat_t *p_statbuf, bool b_rock, bool b_xa, const char *psz_name_untranslated, const char *psz_name_translated) { char date_str[30]; #ifdef HAVE_ROCK if (yep == p_statbuf->rr.b3_rock && b_rock) { report ( stdout, " %s %3d %d %d [LSN %6lu] %9u", iso9660_get_rock_attr_str (p_statbuf->rr.st_mode), p_statbuf->rr.st_nlinks, p_statbuf->rr.st_uid, p_statbuf->rr.st_gid, (long unsigned int) p_statbuf->lsn, S_ISLNK(p_statbuf->rr.st_mode) ? strlen(p_statbuf->rr.psz_symlink) : (unsigned int) p_statbuf->size ); } else #endif if (b_xa) { report ( stdout, " %s %d %d [fn %.2d] [LSN %6lu] ", iso9660_get_xa_attr_str (p_statbuf->xa.attributes), uint16_from_be (p_statbuf->xa.user_id), uint16_from_be (p_statbuf->xa.group_id), p_statbuf->xa.filenum, (long unsigned int) p_statbuf->lsn ); if (uint16_from_be(p_statbuf->xa.attributes) & XA_ATTR_MODE2FORM2) { report ( stdout, "%9u (%9u)", (unsigned int) p_statbuf->secsize * M2F2_SECTOR_SIZE, (unsigned int) p_statbuf->size ); } else report (stdout, "%9u", (unsigned int) p_statbuf->size); } else { report ( stdout," %c [LSN %6lu] %9u", (p_statbuf->type == _STAT_DIR) ? 'd' : '-', (long unsigned int) p_statbuf->lsn, (unsigned int) p_statbuf->size ); } if (yep == p_statbuf->rr.b3_rock && b_rock) { struct tm tm; strftime(date_str, sizeof(date_str), "%b %d %Y %H:%M:%S ", &p_statbuf->tm); /* Now try the proper field for mtime: attributes */ if (p_statbuf->rr.modify.b_used) { if (p_statbuf->rr.modify.b_longdate) { iso9660_get_ltime(&p_statbuf->rr.modify.t.ltime, &tm); } else { iso9660_get_dtime(&p_statbuf->rr.modify.t.dtime, true, &tm); } strftime(date_str, sizeof(date_str), "%b %d %Y %H:%M:%S ", &tm); } report (stdout," %s %s", date_str, psz_name_untranslated ); if (S_ISLNK(p_statbuf->rr.st_mode)) { report(stdout, " -> %s", p_statbuf->rr.psz_symlink); } } else { strftime(date_str, sizeof(date_str), "%b %d %Y %H:%M:%S ", &p_statbuf->tm); report (stdout," %s %s", date_str, psz_name_translated); } report(stdout, "\n"); }