/* $Id: _cdio_sunos.c,v 1.3 2005/01/01 02:43:57 rockyb Exp $ Copyright (C) 2001 Herbert Valerio Riedel Copyright (C) 2002, 2003, 2004 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 2 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, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #ifdef HAVE_STRING_H #include #endif #include #include #include #include #include "cdio_assert.h" #include "cdio_private.h" #define DEFAULT_CDIO_DEVICE "/vol/dev/aliases/cdrom0" #ifdef HAVE_SOLARIS_CDROM static const char _rcsid[] = "$Id: _cdio_sunos.c,v 1.3 2005/01/01 02:43:57 rockyb Exp $"; #ifdef HAVE_GLOB_H #include #endif #include #include #include #include #include #ifdef HAVE_SYS_CDIO_H # include /* CDIOCALLOW etc... */ #else #error "You need to have CDROM support" #endif #include #include #include #include #include #include #include "cdtext_private.h" /* not defined in dkio.h yet */ #define DK_DVDRW 0x13 /* reader */ typedef enum { _AM_NONE, _AM_SUN_CTRL_ATAPI, _AM_SUN_CTRL_SCSI #if FINISHED _AM_READ_CD, _AM_READ_10 #endif } access_mode_t; typedef struct { /* Things common to all drivers like this. This must be first. */ generic_img_private_t gen; access_mode_t access_mode; /* Some of the more OS specific things. */ /* Entry info for each track, add 1 for leadout. */ struct cdrom_tocentry tocent[CDIO_CD_MAX_TRACKS+1]; /* Track information */ struct cdrom_tochdr tochdr; } _img_private_t; static track_format_t get_track_format_solaris(void *p_user_data, track_t i_track); static access_mode_t str_to_access_mode_sunos(const char *psz_access_mode) { const access_mode_t default_access_mode = _AM_SUN_CTRL_SCSI; if (NULL==psz_access_mode) return default_access_mode; if (!strcmp(psz_access_mode, "ATAPI")) return _AM_SUN_CTRL_SCSI; /* force ATAPI to be SCSI */ else if (!strcmp(psz_access_mode, "SCSI")) return _AM_SUN_CTRL_SCSI; else { cdio_warn ("unknown access type: %s. Default SCSI used.", psz_access_mode); return default_access_mode; } } /*! Initialize CD device. */ static bool init_solaris (_img_private_t *p_env) { if (!cdio_generic_init(p_env)) return false; p_env->access_mode = _AM_SUN_CTRL_SCSI; return true; } /*! Run a SCSI MMC command. p_user_data internal CD structure. i_timeout_ms time in milliseconds we will wait for the command to complete. i_cdb Size of p_cdb p_cdb CDB bytes. e_direction direction the transfer is to go. i_buf Size of buffer p_buf Buffer for data, both sending and receiving Return 0 if no error. */ static int run_scsi_cmd_solaris( const void *p_user_data, unsigned int i_timeout_ms, unsigned int i_cdb, const scsi_mmc_cdb_t *p_cdb, scsi_mmc_direction_t e_direction, unsigned int i_buf, /*in/out*/ void *p_buf ) { const _img_private_t *p_env = p_user_data; struct uscsi_cmd cgc; memset (&cgc, 0, sizeof (struct uscsi_cmd)); cgc.uscsi_cdb = (caddr_t) p_cdb; cgc.uscsi_flags = SCSI_MMC_DATA_READ == e_direction ? USCSI_READ : USCSI_WRITE; cgc.uscsi_timeout = msecs2secs(i_timeout_ms); cgc.uscsi_bufaddr = p_buf; cgc.uscsi_buflen = i_buf; cgc.uscsi_cdblen = i_cdb; return ioctl(p_env->gen.fd, USCSICMD, &cgc); } /*! Reads audio sectors from CD device into data starting from lsn. Returns 0 if no error. May have to check size of nblocks. There may be a limit that can be read in one go, e.g. 25 blocks. */ static int _read_audio_sectors_solaris (void *p_user_data, void *data, lsn_t lsn, unsigned int nblocks) { struct cdrom_msf solaris_msf; msf_t _msf; struct cdrom_cdda cdda; _img_private_t *p_env = p_user_data; cdio_lba_to_msf (cdio_lsn_to_lba(lsn), &_msf); solaris_msf.cdmsf_min0 = cdio_from_bcd8(_msf.m); solaris_msf.cdmsf_sec0 = cdio_from_bcd8(_msf.s); solaris_msf.cdmsf_frame0 = cdio_from_bcd8(_msf.f); if (p_env->gen.ioctls_debugged == 75) cdio_debug ("only displaying every 75th ioctl from now on"); if (p_env->gen.ioctls_debugged == 30 * 75) cdio_debug ("only displaying every 30*75th ioctl from now on"); if (p_env->gen.ioctls_debugged < 75 || (p_env->gen.ioctls_debugged < (30 * 75) && p_env->gen.ioctls_debugged % 75 == 0) || p_env->gen.ioctls_debugged % (30 * 75) == 0) cdio_debug ("reading %d", lsn); p_env->gen.ioctls_debugged++; cdda.cdda_addr = lsn; cdda.cdda_length = nblocks; cdda.cdda_data = (caddr_t) data; cdda.cdda_subcode = CDROM_DA_NO_SUBCODE; if (ioctl (p_env->gen.fd, CDROMCDDA, &cdda) == -1) { perror ("ioctl(..,CDROMCDDA,..)"); return 1; /* exit (EXIT_FAILURE); */ } return 0; } /*! Reads a single mode1 sector from cd device into data starting from lsn. Returns 0 if no error. */ static int _read_mode1_sector_solaris (void *env, void *data, lsn_t lsn, bool b_form2) { #if FIXED do something here. #else return cdio_generic_read_form1_sector(env, data, lsn); #endif } /*! Reads nblocks of mode2 sectors from cd device into data starting from lsn. Returns 0 if no error. */ static int _read_mode1_sectors_solaris (void *p_user_data, void *p_data, lsn_t lsn, bool b_form2, unsigned int nblocks) { _img_private_t *p_env = p_user_data; unsigned int i; int retval; unsigned int blocksize = b_form2 ? M2RAW_SECTOR_SIZE : CDIO_CD_FRAMESIZE; for (i = 0; i < nblocks; i++) { if ( (retval = _read_mode1_sector_solaris (p_env, ((char *)p_data) + (blocksize * i), lsn + i, b_form2)) ) return retval; } return 0; } /*! Reads a single mode2 sector from cd device into data starting from lsn. Returns 0 if no error. */ static int _read_mode2_sector_solaris (void *p_user_data, void *p_data, lsn_t lsn, bool b_form2) { char buf[CDIO_CD_FRAMESIZE_RAW] = { 0, }; struct cdrom_msf solaris_msf; msf_t _msf; int offset = 0; struct cdrom_cdxa cd_read; _img_private_t *p_env = p_user_data; cdio_lba_to_msf (cdio_lsn_to_lba(lsn), &_msf); solaris_msf.cdmsf_min0 = cdio_from_bcd8(_msf.m); solaris_msf.cdmsf_sec0 = cdio_from_bcd8(_msf.s); solaris_msf.cdmsf_frame0 = cdio_from_bcd8(_msf.f); if (p_env->gen.ioctls_debugged == 75) cdio_debug ("only displaying every 75th ioctl from now on"); if (p_env->gen.ioctls_debugged == 30 * 75) cdio_debug ("only displaying every 30*75th ioctl from now on"); if (p_env->gen.ioctls_debugged < 75 || (p_env->gen.ioctls_debugged < (30 * 75) && p_env->gen.ioctls_debugged % 75 == 0) || p_env->gen.ioctls_debugged % (30 * 75) == 0) cdio_debug ("reading %2.2d:%2.2d:%2.2d", solaris_msf.cdmsf_min0, solaris_msf.cdmsf_sec0, solaris_msf.cdmsf_frame0); p_env->gen.ioctls_debugged++; /* Using CDROMXA ioctl will actually use the same uscsi command * as ATAPI, except we don't need to be root */ offset = CDIO_CD_XA_SYNC_HEADER; cd_read.cdxa_addr = lsn; cd_read.cdxa_data = buf; cd_read.cdxa_length = 1; cd_read.cdxa_format = CDROM_XA_SECTOR_DATA; if (ioctl (p_env->gen.fd, CDROMCDXA, &cd_read) == -1) { perror ("ioctl(..,CDROMCDXA,..)"); return 1; /* exit (EXIT_FAILURE); */ } if (b_form2) memcpy (p_data, buf + (offset-CDIO_CD_SUBHEADER_SIZE), M2RAW_SECTOR_SIZE); else memcpy (((char *)p_data), buf + offset, CDIO_CD_FRAMESIZE); return 0; } /*! Reads nblocks of mode2 sectors from cd device into data starting from lsn. Returns 0 if no error. */ static int _read_mode2_sectors_solaris (void *p_user_data, void *data, lsn_t lsn, bool b_form2, unsigned int nblocks) { _img_private_t *env = p_user_data; unsigned int i; int retval; unsigned int blocksize = b_form2 ? M2RAW_SECTOR_SIZE : CDIO_CD_FRAMESIZE; for (i = 0; i < nblocks; i++) { if ( (retval = _read_mode2_sector_solaris (env, ((char *)data) + (blocksize * i), lsn + i, b_form2)) ) return retval; } return 0; } /*! Return the size of the CD in logical block address (LBA) units. */ static uint32_t _cdio_stat_size (void *p_user_data) { _img_private_t *env = p_user_data; struct cdrom_tocentry tocent; uint32_t size; tocent.cdte_track = CDIO_CDROM_LEADOUT_TRACK; tocent.cdte_format = CDIO_CDROM_LBA; if (ioctl (env->gen.fd, CDROMREADTOCENTRY, &tocent) == -1) { perror ("ioctl(CDROMREADTOCENTRY)"); exit (EXIT_FAILURE); } size = tocent.cdte_addr.lba; return size; } /*! Set the arg "key" with "value" in the source device. Currently "source" and "access-mode" are valid keys. "source" sets the source device in I/O operations "access-mode" sets the the method of CD access 0 is returned if no error was found, and nonzero if there as an error. */ static int _set_arg_solaris (void *p_user_data, const char key[], const char value[]) { _img_private_t *env = p_user_data; if (!strcmp (key, "source")) { if (!value) return -2; free (env->gen.source_name); env->gen.source_name = strdup (value); } else if (!strcmp (key, "access-mode")) { env->access_mode = str_to_access_mode_sunos(key); } else return -1; return 0; } /*! Read and cache the CD's Track Table of Contents and track info. Return true if successful or false if an error. */ static bool read_toc_solaris (void *p_user_data) { _img_private_t *p_env = p_user_data; int i; /* read TOC header */ if ( ioctl(p_env->gen.fd, CDROMREADTOCHDR, &p_env->tochdr) == -1 ) { cdio_warn("%s: %s\n", "error in ioctl CDROMREADTOCHDR", strerror(errno)); return false; } p_env->gen.i_first_track = p_env->tochdr.cdth_trk0; p_env->gen.i_tracks = p_env->tochdr.cdth_trk1; /* read individual tracks */ for (i=p_env->gen.i_first_track; i<=p_env->gen.i_tracks; i++) { p_env->tocent[i-1].cdte_track = i; p_env->tocent[i-1].cdte_format = CDIO_CDROM_MSF; if ( ioctl(p_env->gen.fd, CDROMREADTOCENTRY, &p_env->tocent[i-1]) == -1 ) { cdio_warn("%s %d: %s\n", "error in ioctl CDROMREADTOCENTRY for track", i, strerror(errno)); return false; } } /* read the lead-out track */ p_env->tocent[p_env->tochdr.cdth_trk1].cdte_track = CDIO_CDROM_LEADOUT_TRACK; p_env->tocent[p_env->tochdr.cdth_trk1].cdte_format = CDIO_CDROM_MSF; if (ioctl(p_env->gen.fd, CDROMREADTOCENTRY, &p_env->tocent[p_env->tochdr.cdth_trk1]) == -1 ) { cdio_warn("%s: %s\n", "error in ioctl CDROMREADTOCENTRY for lead-out", strerror(errno)); return false; } p_env->gen.toc_init = true; return true; } /*! Eject media in CD drive. If successful, as a side effect we also free obj. */ static int eject_media_solaris (void *p_user_data) { _img_private_t *env = p_user_data; int ret; close(env->gen.fd); env->gen.fd = -1; if (env->gen.fd > -1) { if ((ret = ioctl(env->gen.fd, CDROMEJECT)) != 0) { cdio_generic_free((void *) env); cdio_warn ("CDROMEJECT failed: %s\n", strerror(errno)); return 1; } else { return 0; } } return 2; } static void * _cdio_malloc_and_zero(size_t size) { void *ptr; if( !size ) size++; if((ptr = malloc(size)) == NULL) { cdio_warn("malloc() failed: %s", strerror(errno)); return NULL; } memset(ptr, 0, size); return ptr; } /*! Return the value associated with the key "arg". */ static const char * get_arg_solaris (void *p_user_data, const char key[]) { _img_private_t *env = p_user_data; if (!strcmp (key, "source")) { return env->gen.source_name; } else if (!strcmp (key, "access-mode")) { switch (env->access_mode) { case _AM_SUN_CTRL_ATAPI: return "ATAPI"; case _AM_SUN_CTRL_SCSI: return "SCSI"; case _AM_NONE: return "no access method"; } } return NULL; } /*! Return a string containing the default CD device if none is specified. */ char * cdio_get_default_device_solaris(void) { char *volume_device; char *volume_name; char *volume_action; char *device; struct stat stb; if ((volume_device = getenv("VOLUME_DEVICE")) != NULL && (volume_name = getenv("VOLUME_NAME")) != NULL && (volume_action = getenv("VOLUME_ACTION")) != NULL && strcmp(volume_action, "insert") == 0) { device = _cdio_malloc_and_zero(strlen(volume_device) + strlen(volume_name) + 2); if (device == NULL) return strdup(DEFAULT_CDIO_DEVICE); sprintf(device, "%s/%s", volume_device, volume_name); if (stat(device, &stb) != 0 || !S_ISCHR(stb.st_mode)) { free(device); return strdup(DEFAULT_CDIO_DEVICE); } return device; } /* Check if it could be a Solaris media*/ if((stat(DEFAULT_CDIO_DEVICE, &stb) == 0) && S_ISDIR(stb.st_mode)) { device = _cdio_malloc_and_zero(strlen(DEFAULT_CDIO_DEVICE) + 4); sprintf(device, "%s/s0", DEFAULT_CDIO_DEVICE); return device; } return strdup(DEFAULT_CDIO_DEVICE); } /*! Get disc type associated with cd object. */ static discmode_t get_discmode_solaris (void *p_user_data) { _img_private_t *p_env = p_user_data; track_t i_track; discmode_t discmode=CDIO_DISC_MODE_NO_INFO; struct dk_minfo media; int ret; /* Get the media info */ if((ret = ioctl(p_env->gen.fd, DKIOCGMEDIAINFO, &media)) != 0) { cdio_warn ("DKIOCGMEDIAINFO failed: %s\n", strerror(errno)); return CDIO_DISC_MODE_NO_INFO; } switch(media.dki_media_type) { case DK_CDROM: case DK_CDR: case DK_CDRW: /* Do cdrom detection */ break; case DK_DVDROM: return CDIO_DISC_MODE_DVD_ROM; case DK_DVDR: discmode = CDIO_DISC_MODE_DVD_R; break; case DK_DVDRAM: discmode = CDIO_DISC_MODE_DVD_RAM; break; case DK_DVDRW: case DK_DVDRW+1: discmode = CDIO_DISC_MODE_DVD_RW; break; default: /* no valid match */ return CDIO_DISC_MODE_NO_INFO; } if((discmode == CDIO_DISC_MODE_DVD_RAM || discmode == CDIO_DISC_MODE_DVD_RW || discmode == CDIO_DISC_MODE_DVD_R)) { /* Fallback to uscsi if we can */ if(geteuid() == 0) return get_discmode_solaris(p_user_data); return discmode; } if (!p_env->gen.toc_init) read_toc_solaris (p_env); if (!p_env->gen.toc_init) return CDIO_DISC_MODE_NO_INFO; for (i_track = p_env->gen.i_first_track; i_track < p_env->gen.i_first_track + p_env->tochdr.cdth_trk1 ; i_track ++) { track_format_t track_fmt=get_track_format_solaris(p_env, i_track); switch(track_fmt) { case TRACK_FORMAT_AUDIO: switch(discmode) { case CDIO_DISC_MODE_NO_INFO: discmode = CDIO_DISC_MODE_CD_DA; break; case CDIO_DISC_MODE_CD_DA: case CDIO_DISC_MODE_CD_MIXED: case CDIO_DISC_MODE_ERROR: /* No change*/ break; default: discmode = CDIO_DISC_MODE_CD_MIXED; } break; case TRACK_FORMAT_XA: switch(discmode) { case CDIO_DISC_MODE_NO_INFO: discmode = CDIO_DISC_MODE_CD_XA; break; case CDIO_DISC_MODE_CD_XA: case CDIO_DISC_MODE_CD_MIXED: case CDIO_DISC_MODE_ERROR: /* No change*/ break; default: discmode = CDIO_DISC_MODE_CD_MIXED; } break; case TRACK_FORMAT_DATA: switch(discmode) { case CDIO_DISC_MODE_NO_INFO: discmode = CDIO_DISC_MODE_CD_DATA; break; case CDIO_DISC_MODE_CD_DATA: case CDIO_DISC_MODE_CD_MIXED: case CDIO_DISC_MODE_ERROR: /* No change*/ break; default: discmode = CDIO_DISC_MODE_CD_MIXED; } break; case TRACK_FORMAT_ERROR: default: discmode = CDIO_DISC_MODE_ERROR; } } return discmode; } /*! Get format of track. */ static track_format_t get_track_format_solaris(void *p_user_data, track_t i_track) { _img_private_t *p_env = p_user_data; if ( !p_env ) return TRACK_FORMAT_ERROR; if (!p_env->gen.init) init_solaris(p_env); if (!p_env->gen.toc_init) read_toc_solaris (p_user_data) ; if ( (i_track > p_env->gen.i_tracks+p_env->gen.i_first_track) || i_track < p_env->gen.i_first_track) return TRACK_FORMAT_ERROR; i_track -= p_env->gen.i_first_track; /* This is pretty much copied from the "badly broken" cdrom_count_tracks in linux/cdrom.c. */ if (p_env->tocent[i_track].cdte_ctrl & CDROM_DATA_TRACK) { if (p_env->tocent[i_track].cdte_format == CDIO_CDROM_CDI_TRACK) return TRACK_FORMAT_CDI; else if (p_env->tocent[i_track].cdte_format == CDIO_CDROM_XA_TRACK) return TRACK_FORMAT_XA; else return TRACK_FORMAT_DATA; } else return TRACK_FORMAT_AUDIO; } /*! Return true if we have XA data (green, mode2 form1) or XA data (green, mode2 form2). That is track begins: sync - header - subheader 12 4 - 8 FIXME: there's gotta be a better design for this and get_track_format? */ static bool _cdio_get_track_green(void *p_user_data, track_t i_track) { _img_private_t *p_env = p_user_data; if ( !p_env ) return false; if (!p_env->gen.init) init_solaris(p_env); if (!p_env->gen.toc_init) read_toc_solaris (p_env) ; if (i_track >= p_env->gen.i_tracks+p_env->gen.i_first_track || i_track < p_env->gen.i_first_track) return false; i_track -= p_env->gen.i_first_track; /* FIXME: Dunno if this is the right way, but it's what I was using in cd-info for a while. */ return ((p_env->tocent[i_track].cdte_ctrl & 2) != 0); } /*! Return the starting MSF (minutes/secs/frames) for track number track_num in obj. Track numbers usually start at something greater than 0, usually 1. The "leadout" track is specified either by using track_num LEADOUT_TRACK or the total tracks+1. False is returned if there is no entry. */ static bool _cdio_get_track_msf(void *p_user_data, track_t i_track, msf_t *msf) { _img_private_t *p_env = p_user_data; if (NULL == msf) return false; if (!p_env->gen.init) init_solaris(p_env); if (!p_env->gen.toc_init) read_toc_solaris (p_env) ; if (i_track == CDIO_CDROM_LEADOUT_TRACK) i_track = p_env->gen.i_tracks + p_env->gen.i_first_track; if (i_track > (p_env->gen.i_tracks+p_env->gen.i_first_track) || i_track < p_env->gen.i_first_track) { return false; } else { struct cdrom_tocentry *msf0 = &p_env->tocent[i_track-1]; msf->m = cdio_to_bcd8(msf0->cdte_addr.msf.minute); msf->s = cdio_to_bcd8(msf0->cdte_addr.msf.second); msf->f = cdio_to_bcd8(msf0->cdte_addr.msf.frame); return true; } } #else /*! Return a string containing the default VCD device if none is specified. */ char * cdio_get_default_device_solaris(void) { return strdup(DEFAULT_CDIO_DEVICE); } #endif /* HAVE_SOLARIS_CDROM */ /*! Return an array of strings giving possible CD devices. */ char ** cdio_get_devices_solaris (void) { #ifndef HAVE_SOLARIS_CDROM return NULL; #else char volpath[256]; struct stat st; char **drives = NULL; unsigned int i_files=0; #ifdef HAVE_GLOB_H unsigned int i; glob_t globbuf; globbuf.gl_offs = 0; glob("/vol/dev/aliases/cdrom*", GLOB_DOOFFS, NULL, &globbuf); for (i=0; iaccess_mode = _AM_SUN_CTRL_SCSI; _data->gen.init = false; _data->gen.fd = -1; _data->gen.toc_init = false; _data->gen.b_cdtext_init = false; _data->gen.b_cdtext_error = false; if (NULL == psz_orig_source) { psz_source = cdio_get_default_device_solaris(); if (NULL == psz_source) return NULL; _set_arg_solaris(_data, "source", psz_source); free(psz_source); } else { if (cdio_is_device_generic(psz_orig_source)) _set_arg_solaris(_data, "source", psz_orig_source); else { /* The below would be okay if all device drivers worked this way. */ #if 0 cdio_info ("source %s is not a device", psz_orig_source); #endif return NULL; } } ret = cdio_new ( (void *) _data, &_funcs ); if (ret == NULL) return NULL; if (init_solaris(_data)) return ret; else { cdio_generic_free (_data); return NULL; } #else return NULL; #endif /* HAVE_SOLARIS_CDROM */ } bool cdio_have_solaris (void) { #ifdef HAVE_SOLARIS_CDROM return true; #else return false; #endif /* HAVE_SOLARIS_CDROM */ }