Exemple #1
0
void hfp_ag_init(uint16_t rfcomm_channel_nr, uint32_t supported_features, 
    uint8_t * codecs, int codecs_nr, 
    hfp_ag_indicator_t * ag_indicators, int ag_indicators_nr,
    hfp_generic_status_indicator_t * hf_indicators, int hf_indicators_nr,
    const char *call_hold_services[], int call_hold_services_nr){
    if (codecs_nr > HFP_MAX_NUM_CODECS){
        log_error("hfp_init: codecs_nr (%d) > HFP_MAX_NUM_CODECS (%d)", codecs_nr, HFP_MAX_NUM_CODECS);
        return;
    }
    rfcomm_register_packet_handler(packet_handler);
    hfp_init(rfcomm_channel_nr);
    
    hfp_supported_features = supported_features;
    hfp_codecs_nr = codecs_nr;

    int i;
    for (i=0; i<codecs_nr; i++){
        hfp_codecs[i] = codecs[i];
    }

    hfp_ag_indicators_nr = ag_indicators_nr;
    memcpy(hfp_ag_indicators, ag_indicators, ag_indicators_nr * sizeof(hfp_ag_indicator_t));
    for (i=0; i<hfp_ag_indicators_nr; i++){
        printf("ag ind %s\n", hfp_ag_indicators[i].name);
    }

    set_hfp_generic_status_indicators(hf_indicators, hf_indicators_nr);

    hfp_ag_call_hold_services_nr = call_hold_services_nr;
    memcpy(hfp_ag_call_hold_services, call_hold_services, call_hold_services_nr * sizeof(char *));
}
Exemple #2
0
void hfp_ag_init(uint16_t rfcomm_channel_nr, uint32_t supported_features, uint8_t * codecs, int codecs_nr){
    if (codecs_nr > HFP_MAX_NUM_CODECS){
        log_error("hfp_init: codecs_nr (%d) > HFP_MAX_NUM_CODECS (%d)", codecs_nr, HFP_MAX_NUM_CODECS);
        return;
    }
    hfp_init(rfcomm_channel_nr);
    rfcomm_register_packet_handler(packet_handler);
    // connection->codecs = codecs;
    hfp_supported_features = supported_features;
    hfp_codecs_nr = codecs_nr;

    int i;
    for (i=0; i<codecs_nr; i++){
        hfp_codecs[i] = codecs[i];
    }
}
Exemple #3
0
void hfp_hf_init(uint16_t rfcomm_channel_nr, uint32_t supported_features, uint8_t * codecs, int codecs_nr, uint16_t * indicators, int indicators_nr, uint32_t indicators_status){
    if (codecs_nr > HFP_MAX_NUM_CODECS){
        log_error("hfp_init: codecs_nr (%d) > HFP_MAX_NUM_CODECS (%d)", codecs_nr, HFP_MAX_NUM_CODECS);
        return;
    }
    rfcomm_register_packet_handler(packet_handler);
    hfp_init(rfcomm_channel_nr);
    
    hfp_supported_features = supported_features;
    hfp_codecs_nr = codecs_nr;
    
    int i;
    for (i=0; i<codecs_nr; i++){
        hfp_codecs[i] = codecs[i];
    }

    hfp_indicators_nr = indicators_nr;
    hfp_indicators_status = indicators_status;
    for (i=0; i<indicators_nr; i++){
        hfp_indicators[i] = indicators[i];
    }
}
Exemple #4
0
int
main (int argc, char **argv)
{
  char *device_file;
  char *parent_udi;
  char *grandparent_udi;
  char *parent_drive_type;
  int fd = -1;
  struct volume_id *vid = NULL;
  int ret = 1;
  gboolean has_children;
  gboolean is_swap;
  gboolean is_cdrom;
  gboolean is_partition = FALSE;
  gboolean has_audio = FALSE;
  gboolean has_data = FALSE;
  gboolean is_blank = FALSE;
  const char *usage;
  char *label;
  unsigned int sector_size = 0;
  off_t media_size = 0;

  if (! hfp_init(argc, argv))
    goto end;

  device_file = getenv("HAL_PROP_BLOCK_DEVICE");
  if (! device_file)
    goto end;

  parent_udi = getenv("HAL_PROP_INFO_PARENT");
  if (! parent_udi)
    goto end;

  /* give a meaningful process title for ps(1) */
  setproctitle("%s", device_file);

  has_children = hfp_getenv_bool("HF_HAS_CHILDREN");
  is_swap = hfp_getenv_bool("HF_IS_SWAP");

  fd = open(device_file, O_RDONLY);
  if (fd < 0)
    goto end;

  parent_drive_type = libhal_device_get_property_string(hfp_ctx, parent_udi, "storage.drive_type", &hfp_error);
  dbus_error_free(&hfp_error);

  grandparent_udi = libhal_device_get_property_string(hfp_ctx, parent_udi, "info.parent", &hfp_error);
  dbus_error_free(&hfp_error);

  is_cdrom = parent_drive_type && ! strcmp(parent_drive_type, "cdrom");
  g_free(parent_drive_type);

  if (is_cdrom)
    {
      hf_probe_volume_get_disc_info(fd, &has_audio, &has_data);
      is_blank = (! has_audio && ! has_data);
    }

  ioctl(fd, DIOCGMEDIASIZE, &media_size);

  /*
   * We only check for filesystems if the volume has no children,
   * otherwise volume_id might find a filesystem in what is actually
   * the first child partition of the volume.
   *
   * If hald (which has looked at the partition type) reports that it
   * is a swap partition, we probe it nevertheless in case the
   * partition type is incorrect.
   */
  if (! has_children && ! (is_cdrom && ! has_data))
    {
      vid = volume_id_open_fd(fd);
      if (vid)
	{
	  if (volume_id_probe_all(vid, 0, media_size) == 0)
	    has_data = TRUE;
	  else
	    {
	      volume_id_close(vid);
	      vid = NULL;
	    }
	}
    }

  if (! has_children && ! is_swap && ! has_audio && ! has_data && ! is_blank)
    goto end;

  libhal_device_add_capability(hfp_ctx, hfp_udi, "volume", &hfp_error);
  if (is_cdrom)
    {
      HFPCDROM *cdrom;
      int type;
      guint64 capacity;

      libhal_device_set_property_string(hfp_ctx, hfp_udi, "info.category", "volume.disc", &hfp_error);
      libhal_device_add_capability(hfp_ctx, hfp_udi, "volume.disc", &hfp_error);

      libhal_device_set_property_bool(hfp_ctx, hfp_udi, "volume.disc.has_audio", has_audio, &hfp_error);
      libhal_device_set_property_bool(hfp_ctx, hfp_udi, "volume.disc.has_data", has_data, &hfp_error);
      libhal_device_set_property_bool(hfp_ctx, hfp_udi, "volume.disc.is_vcd", FALSE, &hfp_error);
      libhal_device_set_property_bool(hfp_ctx, hfp_udi, "volume.disc.is_svcd", FALSE, &hfp_error);
      libhal_device_set_property_bool(hfp_ctx, hfp_udi, "volume.disc.is_videodvd", FALSE, &hfp_error);
      libhal_device_set_property_bool(hfp_ctx, hfp_udi, "volume.disc.is_appendable", FALSE, &hfp_error);
      libhal_device_set_property_bool(hfp_ctx, hfp_udi, "volume.disc.is_blank", is_blank, &hfp_error);
      libhal_device_set_property_bool(hfp_ctx, hfp_udi, "volume.disc.is_rewritable", FALSE, &hfp_error);
      libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.disc.type", "unknown", &hfp_error);

      /* the following code was adapted from linux's probe-volume.c */

      cdrom = hfp_cdrom_new_from_fd(fd, device_file, grandparent_udi);
      if (cdrom)
	{
	  type = get_disc_type(cdrom);
	  if (type != -1)
	    switch (type)
	      {
	      case 0x08: /* CD-ROM */
		libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.disc.type", "cd_rom", &hfp_error);
		break;
	      case 0x09: /* CD-R */
		libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.disc.type", "cd_r", &hfp_error);
		break;
	      case 0x0a: /* CD-RW */
		libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.disc.type", "cd_rw", &hfp_error);
		libhal_device_set_property_bool(hfp_ctx, hfp_udi, "volume.disc.is_rewritable", TRUE, &hfp_error);
		break;
	      case 0x10: /* DVD-ROM */
		libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.disc.type", "dvd_rom", &hfp_error);
		break;
	      case 0x11: /* DVD-R Sequential */
		libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.disc.type", "dvd_r", &hfp_error);
		break;
	      case 0x12: /* DVD-RAM */
		libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.disc.type", "dvd_ram", &hfp_error);
		libhal_device_set_property_bool(hfp_ctx, hfp_udi, "volume.disc.is_rewritable", TRUE, &hfp_error);
		break;
	      case 0x13: /* DVD-RW Restricted Overwrite */
		libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.disc.type", "dvd_rw", &hfp_error);
		libhal_device_set_property_bool(hfp_ctx, hfp_udi, "volume.disc.is_rewritable", TRUE, &hfp_error);
		break;
	      case 0x14: /* DVD-RW Sequential */
		libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.disc.type", "dvd_rw", &hfp_error);
		libhal_device_set_property_bool(hfp_ctx, hfp_udi, "volume.disc.is_rewritable", TRUE, &hfp_error);
		break;
	      case 0x1A: /* DVD+RW */
		libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.disc.type", "dvd_plus_rw", &hfp_error);
		libhal_device_set_property_bool(hfp_ctx, hfp_udi, "volume.disc.is_rewritable", TRUE, &hfp_error);
		break;
	      case 0x1B: /* DVD+R */
		libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.disc.type", "dvd_plus_r", &hfp_error);
		break;
	      case 0x2B: /* DVD+R Double Layer */
		libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.disc.type", "dvd_plus_r_dl", &hfp_error);
		break;
	      case 0x40: /* BD-ROM  */
		libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.disc.type", "bd_rom", &hfp_error);
		break;
	      case 0x41: /* BD-R Sequential */
		libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.disc.type", "bd_r", &hfp_error);
		break;
	      case 0x42: /* BD-R Random */
		libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.disc.type", "bd_r", &hfp_error);
		break;
	      case 0x43: /* BD-RE */
		libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.disc.type", "bd_re", &hfp_error);
		libhal_device_set_property_bool(hfp_ctx, hfp_udi, "volume.disc.is_rewritable", TRUE, &hfp_error);
		break;
	      case 0x50: /* HD DVD-ROM */
		libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.disc.type", "hddvd_rom", &hfp_error);
		break;
	      case 0x51: /* HD DVD-R */
		libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.disc.type", "hddvd_r", &hfp_error);
		break;
	      case 0x52: /* HD DVD-Rewritable */
		libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.disc.type", "hddvd_rw", &hfp_error);
		libhal_device_set_property_bool(hfp_ctx, hfp_udi, "volume.disc.is_rewritable", TRUE, &hfp_error);
		break;
	      }

	  if (get_disc_capacity_for_type(cdrom, type, &capacity) == 0)
	    libhal_device_set_property_uint64(hfp_ctx, hfp_udi, "volume.disc.capacity", capacity, &hfp_error);

	  /*
	   * linux's probe-volume.c: "on some hardware the get_disc_type
	   * call fails, so we use this as a backup".
	   */
	  if (disc_is_rewritable(cdrom))
	    libhal_device_set_property_bool(hfp_ctx, hfp_udi, "volume.disc.is_rewritable", TRUE, &hfp_error);
	  if (disc_is_appendable(cdrom))
	    libhal_device_set_property_bool (hfp_ctx, hfp_udi, "volume.disc.is_appendable", TRUE, &hfp_error);

	  hfp_cdrom_free(cdrom);
	}

      if (has_data && vid && (! strcmp(vid->type, "iso9660") ||
          ! strcmp(vid->type, "udf")))
        hf_probe_volume_advanced_disc_detect(fd);
    }
  else
    {
      libhal_device_set_property_string(hfp_ctx, hfp_udi, "info.category", "volume", &hfp_error);

      if (libhal_device_query_capability(hfp_ctx, parent_udi, "storage", &hfp_error))
	{
	  char *geom_class;
	  char *type;
	  char *scheme;
	  int number;
	  guint64 mediasize;
	  guint64 offset;

	  geom_class = getenv("HF_VOLUME_GEOM_CLASS");

	  if (geom_class)
            {
              if (hf_probe_volume_get_partition_info(geom_class, device_file, &number, &type, &scheme, &mediasize, &offset))
                {
                  is_partition = TRUE;

		  libhal_device_set_property_int(hfp_ctx, hfp_udi, "volume.partition.number", number, &hfp_error);
		  libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.partition.scheme", scheme, &hfp_error);
		  libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.partition.type", type, &hfp_error);

		  /* FIXME We need to fill in the supported partition flags. */

		  libhal_device_set_property_uint64(hfp_ctx, hfp_udi, "volume.partition.media_size", mediasize, &hfp_error);
		  libhal_device_set_property_uint64(hfp_ctx, hfp_udi, "volume.partition.start", offset, &hfp_error);

		  if (! strcmp(scheme, "gpt"))
                    libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.partition.uuid", type, &hfp_error);

		  if (! strcmp(scheme, "gpt") || ! strcmp(scheme, "apm"))
                    libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.partition.label", "", &hfp_error);

		  g_free(type);
		  g_free(scheme);
		}
	    }
	}
      else
	dbus_error_free(&hfp_error);
    }

  libhal_device_set_property_bool(hfp_ctx, hfp_udi, "volume.is_disc", is_cdrom, &hfp_error);
  libhal_device_set_property_bool(hfp_ctx, hfp_udi, "volume.is_partition", is_partition, &hfp_error);

  libhal_device_set_property_bool(hfp_ctx, hfp_udi, "volume.ignore", has_children || is_swap, &hfp_error);

#ifdef HAVE_LIBUFS
  if (vid && ! strcmp (vid->type, "ufs"))
    {
      struct uufsd ufsdisk;

      if (ufs_disk_fillout(&ufsdisk, device_file) == 0)
        {
	  char ufsid[64];
	  char **ufs_devs = NULL;
	  int num_udis;
	  int i;

	  snprintf(ufsid, sizeof(ufsid), "%08x%08x", ufsdisk.d_fs.fs_id[0], ufsdisk.d_fs.fs_id[1]);
	  libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.freebsd.ufsid", ufsid, &hfp_error);
	  dbus_error_free(&hfp_error);
	  ufs_devs = libhal_manager_find_device_string_match(hfp_ctx,
			  				     "volume.freebsd.ufsid",
							     ufsid,
							     &num_udis,
							     &hfp_error);
	  dbus_error_free(&hfp_error);
	  for (i = 0; i < num_udis; i++)
            {
              if (ufs_devs[i] != NULL && strcmp(ufs_devs[i], hfp_udi))
                {
                  gboolean mounted;

		  mounted = libhal_device_get_property_bool(hfp_ctx, ufs_devs[i], "volume.is_mounted", &hfp_error);
	          dbus_error_free(&hfp_error);
		  if (mounted)
	            {
                      libhal_device_set_property_bool(hfp_ctx, hfp_udi, "volume.ignore", TRUE, &hfp_error);
		      dbus_error_free(&hfp_error);
		      break;
		    }
		}
	    }
	  if (ufs_devs)
	    libhal_free_string_array(ufs_devs);
	  ufs_disk_close(&ufsdisk);
	}
    }
#endif /* HAVE_LIBUFS */

  if (has_children)
    usage = "partitiontable";
  else if (is_swap)
    usage = "other";
  else
    switch (vid ? vid->usage_id : (enum volume_id_usage) -1)
      {
      case VOLUME_ID_FILESYSTEM:	usage = "filesystem"; break;
      case VOLUME_ID_DISKLABEL:		usage = "disklabel"; break;
      case VOLUME_ID_OTHER:		usage = "other"; break;
      case VOLUME_ID_RAID:		usage = "raid"; break;
      case VOLUME_ID_CRYPTO:		usage = "crypto"; break;
      case VOLUME_ID_UNUSED:		usage = "unused"; break;
      default:				usage = "unknown"; break;
      }

  libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.fsusage", usage, &hfp_error);
  libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.fstype", vid ? vid->type: "", &hfp_error);
  if (vid && *vid->type_version)
    libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.fsversion", vid->type_version, &hfp_error);

  label = hf_probe_volume_get_label(vid);
  libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.label", label ? label : "", &hfp_error);
  g_free(label);

  libhal_device_set_property_string(hfp_ctx, hfp_udi, "volume.uuid", vid ? vid->uuid : "", &hfp_error);

  ioctl(fd, DIOCGSECTORSIZE, &sector_size);

  if (sector_size != 0)
    libhal_device_set_property_uint64(hfp_ctx, hfp_udi, "volume.block_size", sector_size, &hfp_error);
  if (media_size != 0)
    libhal_device_set_property_uint64(hfp_ctx, hfp_udi, "volume.size", media_size, &hfp_error);
  if (sector_size != 0 && media_size != 0)
    libhal_device_set_property_uint64(hfp_ctx, hfp_udi, "volume.num_blocks", media_size / sector_size, &hfp_error);

  ret = 0;			/* is a volume */

 end:
  return ret;
}
Exemple #5
0
int
main (int argc, char **argv)
{
    char *device_file;
    int fd = -1;
    int report_id;
    report_desc_t report_desc;
    struct hid_data *data;
    hid_item_t item;
    boolean is_keyboard = FALSE;
    boolean is_keypad = FALSE;
    boolean is_mouse = FALSE;
    boolean is_joystick = FALSE;

    if (! hfp_init(argc, argv))
        goto end;

    device_file = getenv("HAL_PROP_HIDDEV_DEVICE");
    if (! device_file)
        goto end;

    fd = open(device_file, O_RDONLY);
    if (fd < 0)
        goto end;

    /* give a meaningful process title for ps(1) */
    setproctitle("%s", device_file);

#ifdef HAVE_LIBUSB20
    report_id = hid_get_report_id(fd);
    if (report_id == -1)
#else
    if (ioctl(fd, USB_GET_REPORT_ID, &report_id) < 0)
#endif
        goto end;

    hid_init(NULL);

    report_desc = hid_get_report_desc(fd);
    if (! report_desc)
        goto end;

    for (data = hid_start_parse(report_desc, ~0, report_id); hid_get_item(data, &item);)
        if (item.kind == hid_collection)
        {
            if (item.collection == HID_COLLECTION_APPLICATION)
            {
                const char *page;
                char *full_page;
                int i;

                page = hid_usage_page(HID_PAGE(item.usage));

                full_page = hfp_strdup_printf("%s Page", page);
                for (i = 0; full_page[i] != 0; i++)
                    if (full_page[i] == '_')
                        full_page[i] = ' ';

                libhal_device_property_strlist_append(hfp_ctx, hfp_udi, "hiddev.application_pages", full_page, &hfp_error);
                hfp_free(full_page);
            }

            switch (item.usage)
            {
            case HID_USAGE2(HUP_GENERIC_DESKTOP, HUG_MOUSE):
                is_mouse = TRUE;
                break;

            case HID_USAGE2(HUP_GENERIC_DESKTOP, HUG_JOYSTICK):
            case HID_USAGE2(HUP_GENERIC_DESKTOP, HUG_GAME_PAD):
                is_joystick = TRUE;
                break;

            case HID_USAGE2(HUP_GENERIC_DESKTOP, HUG_KEYBOARD):
                is_keyboard = TRUE;
                break;

            case HID_USAGE2(HUP_GENERIC_DESKTOP, HUG_KEYPAD):
                is_keypad = TRUE;
                break;
            }
        }
    hid_end_parse(data);

    hid_dispose_report_desc(report_desc);

    if (is_keyboard || is_mouse || is_joystick || is_keypad)
    {
        libhal_device_add_capability(hfp_ctx, hfp_udi, "input", &hfp_error);
        libhal_device_set_property_string(hfp_ctx, hfp_udi, "info.category", "input", &hfp_error);
        libhal_device_set_property_string(hfp_ctx, hfp_udi, "input.device", device_file, &hfp_error);
    }
    if (is_keyboard)
        libhal_device_add_capability(hfp_ctx, hfp_udi, "input.keyboard", &hfp_error);
    if (is_keypad)
        libhal_device_add_capability(hfp_ctx, hfp_udi, "input.keypad", &hfp_error);
    if (is_keyboard || is_keypad)
        libhal_device_add_capability(hfp_ctx, hfp_udi, "input.keys", &hfp_error);
    if (is_mouse)
        libhal_device_add_capability(hfp_ctx, hfp_udi, "input.mouse", &hfp_error);
    if (is_joystick)
        libhal_device_add_capability(hfp_ctx, hfp_udi, "input.joystick", &hfp_error);

end:
    return 0;
}
Exemple #6
0
/** 
 *  main:
 *  @argc:	Number of arguments given to program
 *  @argv:	Arguments given to program
 *  Returns:	Return code
 *
 *  Main entry point
 */
int
main (int argc, char *argv[])
{
	int ret;
	char buf[512];
	char *nbuf;
	int dmipipe[2];
	int nullfd;
	int tmp_ret;
	FILE *f;
	int dmiparser_state = DMIPARSER_STATE_IGNORE;

	/* on some system chassis pops up several times,
	 * so only take the first entry for each
	 */
	int dmiparser_done_bios = FALSE;
	int dmiparser_done_system = FALSE;
	int dmiparser_done_chassis = FALSE;

	/* assume failure */
	ret = 1;

	if (! hfp_init (argc, argv))
	  goto out;

	tmp_ret = pipe (dmipipe);
	f = fdopen (dmipipe[0], "r");
	nullfd = open ("/dev/null", O_RDONLY);

	/* fork the child process */
	switch (fork ()) {
	case 0:
		/* child */

		dup2 (nullfd, STDIN_FILENO);
		dup2 (dmipipe[1], STDOUT_FILENO);
		close (dmipipe[0]);
		close (dmipipe[1]);

		/* execute the child */
		execl (DMIDECODE, DMIDECODE, NULL);

		/* throw an error if we ever reach this point */
		hfp_warning("failed to execute " DMIDECODE);
		exit (1);
		break;
	case -1:
		hfp_warning("cannot fork");
		break;
	}

	/* parent continues from here */

	/* close unused descriptor */
	close (dmipipe[1]);

	/* read the output of the child */
	while(fgets (buf, sizeof(buf), f) != NULL)
	{
		unsigned int i;
		unsigned int len;
		unsigned int tabs = 0;

		/* trim whitespace */
		len = strlen (buf);

		/* check that will fit in buffer */
		if (len >= sizeof (buf))
			continue;

		/* not big enough for data, and protects us from underflow */
		if (len < 3) {
			dmiparser_state = DMIPARSER_STATE_IGNORE;
			continue;
		}

		/* find out number of leading tabs */
		if (buf[0] == '\t' && buf[1] == '\t')
			tabs = 2; /* this is list data */
		else if (buf[0] == '\t')
			tabs = 1; /* this is data, 0 is section type */

		if (tabs == 2)
			/* we do not proccess data at depth 2 */
			continue;

		/* set the section type */
		if (tabs == 0) {
			if (!dmiparser_done_bios && strbegin (buf, "BIOS Information"))
				dmiparser_state = DMIPARSER_STATE_BIOS;
			else if (!dmiparser_done_system && strbegin (buf, "System Information"))
				dmiparser_state = DMIPARSER_STATE_SYSTEM;
			else if (!dmiparser_done_chassis && strbegin (buf, "Chassis Information"))
				dmiparser_state = DMIPARSER_STATE_CHASSIS;
			else
				/*
				 * We do not match the other sections,
				 * or sections we have processed before
				 */
				dmiparser_state = DMIPARSER_STATE_IGNORE;
			continue; /* next line */
		}

		/* we are not in a section we know, no point continueing */
		if (dmiparser_state == DMIPARSER_STATE_IGNORE)
			continue;

		/* removes the leading tab */
		nbuf = &buf[1];

		/* removes the trailing spaces */
		for (i = len - 2; isspace (nbuf[i]) && i >= 0; --i)
			nbuf[i] = '\0';

		if (dmiparser_state == DMIPARSER_STATE_BIOS) {
			setstr (nbuf, "Vendor:", "system.firmware.vendor");
			setstr (nbuf, "Version:", "system.firmware.version");
			setstr (nbuf, "Release Date:", "system.firmware.release_date");
			dmiparser_done_bios = TRUE;
		} else if (dmiparser_state == DMIPARSER_STATE_SYSTEM) {
			setstr (nbuf, "Manufacturer:", "system.hardware.vendor");
			setstr (nbuf, "Product Name:", "system.hardware.product");
			setstr (nbuf, "Version:", "system.hardware.version");
			setstr (nbuf, "Serial Number:", "system.hardware.serial");
			setstr (nbuf, "UUID:", "system.hardware.uuid");
			dmiparser_done_system = TRUE;
		} else if (dmiparser_state == DMIPARSER_STATE_CHASSIS) {
			setstr (nbuf, "Manufacturer:", "system.chassis.manufacturer");
			setstr (nbuf, "Type:", "system.chassis.type");
			dmiparser_done_chassis = TRUE;
		}
	}

	/* as read to EOF, close */
	fclose (f);

	/* return success */
	ret = 0;

out:
	return ret;
}