static int
setiffrag(prop_dictionary_t env, prop_dictionary_t oenv)
{
bool rc;
int16_t val;
rc = prop_dictionary_get_int16(env, "frag", &val);
assert(rc);
if (set80211(env, IEEE80211_IOC_FRAGTHRESHOLD, val, 0, NULL) == -1)
err(EXIT_FAILURE, "IEEE80211_IOC_FRAGTHRESHOLD");
return 0;
}
HalDevice *
devinfo_audio_add(HalDevice *parent, const char *devnode, char *devfs_path, char *device_type)
{
HalDevice *d = NULL, *mixer, *dsp;
prop_dictionary_t dict;
const char *driver, *parent_udi;
char *childnode;
int16_t unit;
char *audioctl;
struct audio_device audiodev;
int fd;
if (drvctl_find_device (devnode, &dict) == FALSE || dict == NULL)
return NULL;
if (prop_dictionary_get_int16 (dict, "device-unit", &unit) == false ||
prop_dictionary_get_cstring_nocopy (dict, "device-driver", &driver) == false) {
prop_object_release (dict);
return NULL;
}
if (strcmp (driver, "audio") != 0) {
prop_object_release (dict);
return NULL;
}
audioctl = g_strdup_printf (_PATH_AUDIOCTL "%d", unit);
fd = open (audioctl, O_RDONLY);
if (fd < 0) {
HAL_WARNING (("couldn't open %s: %s", audioctl, strerror(errno)));
goto done;
}
if (ioctl (fd, AUDIO_GETDEV, &audiodev) == -1) {
HAL_WARNING (("couldn't query %s: %s", audioctl, strerror(errno)));
goto done;
}
d = hal_device_new ();
devinfo_set_default_properties (d, parent, devnode, devfs_path);
hal_device_add_capability (d, "sound");
hal_device_property_set_string (d, "info.category", "sound");
hal_device_property_set_string (d, "info.subsystem", "sound");
hal_device_property_set_int (d, "sound.card", unit);
hal_device_property_set_string (d, "sound.card_id", audiodev.name);
hal_device_property_set_string (d, "netbsd.sound.hardware", audiodev.config);
parent_udi = hal_device_property_get_string (parent, "info.udi");
if (parent_udi)
hal_device_property_set_string (d, "sound.originating_device", parent_udi);
devinfo_add_enqueue (d, devfs_path, &devinfo_audio_handler);
childnode = g_strdup_printf ("oss_mixer_%d", unit);
devinfo_add_node (d, childnode);
g_free (childnode);
childnode = g_strdup_printf ("oss_dsp_%d", unit);
devinfo_add_node (d, childnode);
g_free (childnode);
done:
if (dict)
prop_object_release (dict);
if (audioctl)
g_free (audioctl);
if (fd >= 0)
close (fd);
return d;
}
HalDevice *
devinfo_mass_add(HalDevice *parent, const char *devnode, char *devfs_path, char *device_type)
{
HalDevice *d = NULL, *gparent = NULL;
prop_dictionary_t dict;
struct disklabel label;
struct stat st;
const char *driver;
char *rdevpath, *devpath;
char *childnode;
char *parent_devnode, *gparent_devnode = NULL;
char *gparent_udi;
int16_t unit;
int i, fd;
struct scsipi_inquiry_data inqbuf;
struct scsipi_inquiry cmd;
bool scsiinq_status;
char *storage_model = NULL, *storage_vendor = NULL;
if (drvctl_find_device (devnode, &dict) == FALSE || dict == NULL)
return NULL;
if (prop_dictionary_get_int16 (dict, "device-unit", &unit) == false ||
prop_dictionary_get_cstring_nocopy (dict, "device-driver", &driver) == false) {
prop_object_release (dict);
return NULL;
}
if (strcmp (driver, "wd") != 0 && strcmp (driver, "sd") != 0 &&
strcmp (driver, "ld") != 0) {
prop_object_release (dict);
return NULL;
}
sleep (1);
devpath = g_strdup_printf ("/dev/%s%c", devnode, RAW_PART + 'a');
rdevpath = g_strdup_printf ("/dev/r%s%c", devnode, RAW_PART + 'a');
HAL_INFO ((" going to open %s", rdevpath));
fd = open (rdevpath, O_RDONLY);
if (fd < 0) {
HAL_WARNING (("couldn't open %s: %s", rdevpath, strerror (errno)));
g_free (rdevpath);
g_free (devpath);
return NULL;
}
HAL_INFO ((" going to DIOCGDINFO %s", rdevpath));
if (ioctl (fd, DIOCGDINFO, &label) == -1) {
HAL_WARNING (("DIOCGDINFO failed on %s: %s", rdevpath, strerror (errno)));
g_free (rdevpath);
g_free (devpath);
close (fd);
return NULL;
}
if (strcmp (driver, "sd") == 0) {
memset(&cmd, 0, sizeof (cmd));
memset(&inqbuf, 0, sizeof (inqbuf));
cmd.opcode = INQUIRY;
cmd.length = sizeof (inqbuf);
scsiinq_status = scsi_command (fd, &cmd, sizeof (cmd), &inqbuf, sizeof (inqbuf), 10000, SCCMD_READ);
} else
scsiinq_status = false;
close (fd);
d = hal_device_new ();
devinfo_set_default_properties (d, parent, devnode, devfs_path);
hal_device_add_capability (d, "block");
hal_device_property_set_string (d, "info.subsystem", "block");
hal_device_property_set_string (d, "block.device", devpath);
if (stat (devpath, &st) == 0) {
hal_device_property_set_int (d, "block.major", major (st.st_rdev));
hal_device_property_set_int (d, "block.minor", minor (st.st_rdev));
}
hal_device_property_set_bool (d, "block.is_volume", FALSE);
hal_device_property_set_bool (d, "block.no_partitions", FALSE);
hal_device_property_set_bool (d, "block.have_scanned", TRUE);
hal_device_add_capability (d, "storage");
hal_device_property_set_string (d, "info.category", "storage");
parent_devnode = hal_device_property_get_string (parent, "netbsd.device");
gparent_udi = hal_device_property_get_string (parent, "info.parent");
if (gparent_udi) {
gparent = hal_device_store_find (hald_get_gdl (), gparent_udi);
if (gparent)
gparent_devnode = hal_device_property_get_string (gparent, "netbsd.device");
}
if (gparent_devnode && strstr (gparent_devnode, "umass") == gparent_devnode)
hal_device_property_set_string (d, "storage.bus", "usb");
else if (parent_devnode && strstr (parent_devnode, "atabus") == parent_devnode)
hal_device_property_set_string (d, "storage.bus", "ide");
else
hal_device_property_set_string (d, "storage.bus", "scsi");
hal_device_property_set_string (d, "storage.device_type", "disk");
hal_device_property_set_bool (d, "storage.removable", label.d_flags & D_REMOVABLE ? TRUE : FALSE);
if (label.d_flags & D_REMOVABLE) {
hal_device_property_set_bool (d, "storage.removable.media_available", TRUE);
hal_device_property_set_uint64 (d, "storage.removable.media_size",
(uint64_t)label.d_secsize * (uint64_t)label.d_secperunit);
hal_device_property_set_uint64 (d, "storage.size", 0);
hal_device_property_set_bool (d, "storage.hotpluggable", TRUE);
hal_device_property_set_bool (d, "storage.automount_enabled_hint", TRUE);
} else {
hal_device_property_set_bool (d, "storage.removable.media_available", FALSE);
hal_device_property_set_uint64 (d, "storage.removable.media_size", 0);
hal_device_property_set_uint64 (d, "storage.size",
(uint64_t)label.d_secsize * (uint64_t)label.d_secperunit);
hal_device_property_set_bool (d, "storage.hotpluggable", FALSE);
hal_device_property_set_bool (d, "storage.automount_enabled_hint", FALSE);
}
hal_device_property_set_bool (d, "storage.no_partitions_hint", FALSE);
hal_device_property_set_bool (d, "storage.requires_eject", FALSE);
hal_device_property_set_bool (d, "storage.removable.support_async_notification", FALSE);
hal_device_property_set_string (d, "storage.partitioning_scheme", "mbr");
hal_device_property_set_string (d, "storage.originating_device",
hal_device_property_get_string (d, "info.udi"));
if (scsiinq_status == true) {
storage_model = rtrim_copy(inqbuf.product, sizeof (inqbuf.product));
storage_vendor = rtrim_copy(inqbuf.vendor, sizeof (inqbuf.vendor));
}
if (storage_model) {
hal_device_property_set_string (d, "storage.model", storage_model);
free (storage_model);
} else
hal_device_property_set_string (d, "storage.model", label.d_packname);
if (storage_vendor) {
hal_device_property_set_string (d, "storage.vendor", storage_vendor);
free (storage_vendor);
} else
hal_device_property_set_string (d, "storage.vendor", label.d_typename);
devinfo_add_enqueue (d, devfs_path, &devinfo_mass_handler);
for (i = 0; i < MAXPARTITIONS; i++) {
const char *fstype;
fstype = devinfo_mass_get_fstype(label.d_partitions[i].p_fstype);
if (fstype == NULL)
continue;
childnode = g_strdup_printf ("%s%c", devnode, 'a' + i);
HAL_INFO ((" adding %s on %s", childnode, rdevpath));
devinfo_mass_disklabel_add (d, childnode, childnode, childnode);
g_free (childnode);
}
HAL_INFO ((" returning"));
g_free (rdevpath);
g_free (devpath);
done:
prop_object_release (dict);
return d;
}
