static void
modem_get_sim_ready (MMModem *modem,
GAsyncResult *res,
BroadbandDeviceInfo *info)
{
info->mm_sim = mm_modem_get_sim_finish (modem, res, NULL);
if (!info->mm_sim)
/* Ok, the modem may not need it actually */
return;
/* Do nothing if we're not locked */
if (mm_modem_get_state (info->mm_modem) != MM_MODEM_STATE_LOCKED)
return;
/* If we have a device ID ask the keyring for any saved SIM-PIN codes */
if (mm_modem_get_device_identifier (info->mm_modem) &&
mm_modem_get_unlock_required (info->mm_modem) == MM_MODEM_LOCK_SIM_PIN) {
g_warn_if_fail (info->keyring_id == NULL);
info->keyring_id = gnome_keyring_find_itemsv (GNOME_KEYRING_ITEM_GENERIC_SECRET,
keyring_pin_check_cb,
info,
NULL,
"devid",
GNOME_KEYRING_ATTRIBUTE_TYPE_STRING,
mm_modem_get_device_identifier (info->mm_modem),
NULL);
return;
}
/* Couldn't get a device ID, but unlock required; present dialog */
unlock_dialog_new (info->device, info);
}
static void
modem_get_sim_ready (MMModem *modem,
GAsyncResult *res,
BroadbandDeviceInfo *info)
{
GHashTable *attrs;
info->mm_sim = mm_modem_get_sim_finish (modem, res, NULL);
if (!info->mm_sim)
/* Ok, the modem may not need it actually */
return;
/* Do nothing if we're not locked */
if (mm_modem_get_state (info->mm_modem) != MM_MODEM_STATE_LOCKED)
return;
/* If we have a device ID ask the keyring for any saved SIM-PIN codes */
if (mm_modem_get_device_identifier (info->mm_modem) &&
mm_modem_get_unlock_required (info->mm_modem) == MM_MODEM_LOCK_SIM_PIN) {
attrs = secret_attributes_build (&mobile_secret_schema, "devid",
mm_modem_get_device_identifier (info->mm_modem),
NULL);
secret_service_search (NULL, &mobile_secret_schema, attrs,
SECRET_SEARCH_UNLOCK | SECRET_SEARCH_LOAD_SECRETS,
info->cancellable, keyring_pin_check_cb, info);
g_hash_table_unref (attrs);
} else {
/* Couldn't get a device ID, but unlock required; present dialog */
unlock_dialog_new (info->device, info);
}
/* Couldn't get a device ID, but unlock required; present dialog */
unlock_dialog_new (info->device, info);
}
static void
get_icon (NMDevice *device,
NMDeviceState state,
NMConnection *connection,
GdkPixbuf **out_pixbuf,
char **out_indicator_icon,
char **tip,
NMApplet *applet)
{
BroadbandDeviceInfo *info;
info = g_object_get_data (G_OBJECT (device), "devinfo");
g_assert (info);
return mobile_helper_get_icon (device,
state,
connection,
out_pixbuf,
out_indicator_icon,
tip,
applet,
broadband_state_to_mb_state (info),
broadband_act_to_mb_act (info),
mm_modem_get_signal_quality (info->mm_modem, NULL),
(mm_modem_get_state (info->mm_modem) >= MM_MODEM_STATE_ENABLED));
}
static void
connection_enabled (MMAtSerialPort *port,
GMatchInfo *match_info,
gpointer user_data)
{
MMModemIcera *self = MM_MODEM_ICERA (user_data);
MMAtSerialPort *primary;
char *str;
int status, cid, tmp;
cid = mm_generic_gsm_get_cid (MM_GENERIC_GSM (self));
if (cid < 0)
return;
str = g_match_info_fetch (match_info, 1);
g_return_if_fail (str != NULL);
tmp = atoi (str);
g_free (str);
/* Make sure the unsolicited message's CID matches the current CID */
if (tmp != cid)
return;
str = g_match_info_fetch (match_info, 2);
g_return_if_fail (str != NULL);
status = atoi (str);
g_free (str);
switch (status) {
case 0:
/* Disconnected */
if (mm_modem_get_state (MM_MODEM (self)) >= MM_MODEM_STATE_CONNECTED)
mm_modem_disconnect (MM_MODEM (self), icera_disconnect_done, NULL);
break;
case 1:
/* Connected */
connect_pending_done (self);
break;
case 2:
/* Connecting */
break;
case 3:
/* Call setup failure? */
primary = mm_generic_gsm_get_at_port (MM_GENERIC_GSM(self), MM_AT_PORT_FLAG_PRIMARY);
g_assert (primary);
/* Get additional error details */
mm_at_serial_port_queue_command (primary, "AT%IER?", 3,
query_network_error_code_done, self);
break;
default:
mm_warn ("Unknown Icera connect status %d", status);
break;
}
}
static void
ensure_modem_location (void)
{
if (mm_modem_get_state (mm_object_peek_modem (ctx->object)) < MM_MODEM_STATE_ENABLED) {
g_printerr ("error: modem not enabled yet\n");
exit (EXIT_FAILURE);
}
if (!ctx->modem_location) {
g_printerr ("error: modem has no location capabilities\n");
exit (EXIT_FAILURE);
}
/* Success */
}
static void
look_for_bearer_in_modem (GetBearerContext *ctx)
{
MMModem *modem;
if (!ctx->modems) {
g_printerr ("error: couldn't find bearer at '%s': 'not found in any modem'\n",
ctx->bearer_path);
exit (EXIT_FAILURE);
}
/* Loop looking for the bearer in each modem found */
ctx->current = MM_OBJECT (ctx->modems->data);
ctx->modems = g_list_delete_link (ctx->modems, ctx->modems);
modem = mm_object_get_modem (ctx->current);
/* Don't look for bearers in modems which are not fully initialized */
if (mm_modem_get_state (modem) < MM_MODEM_STATE_DISABLED) {
g_debug ("Skipping modem '%s' when looking for bearers "
"(not fully initialized)",
mm_object_get_path (ctx->current));
g_object_unref (modem);
look_for_bearer_in_modem (ctx);
return;
}
g_debug ("Looking for bearer '%s' in modem '%s'...",
ctx->bearer_path,
mm_object_get_path (ctx->current));
mm_modem_list_bearers (modem,
ctx->cancellable,
(GAsyncReadyCallback)list_bearers_ready,
ctx);
g_object_unref (modem);
}
static void
add_menu_item (NMDevice *device,
guint32 n_devices,
NMConnection *active,
GtkWidget *menu,
NMApplet *applet)
{
BroadbandDeviceInfo *info;
char *text;
GtkWidget *item;
GSList *connections, *all, *iter;
info = g_object_get_data (G_OBJECT (device), "devinfo");
all = applet_get_all_connections (applet);
connections = nm_device_filter_connections (device, all);
g_slist_free (all);
if (n_devices > 1) {
const char *desc;
desc = nma_utils_get_device_description (device);
text = g_strdup_printf (_("Mobile Broadband (%s)"), desc);
} else {
text = g_strdup (_("Mobile Broadband"));
}
item = applet_menu_item_create_device_item_helper (device, applet, text);
gtk_widget_set_sensitive (item, FALSE);
gtk_menu_shell_append (GTK_MENU_SHELL (menu), item);
gtk_widget_show (item);
g_free (text);
/* Add the active connection */
if (active) {
NMSettingConnection *s_con;
s_con = nm_connection_get_setting_connection (active);
g_assert (s_con);
item = nm_mb_menu_item_new (nm_setting_connection_get_id (s_con),
mm_modem_get_signal_quality (info->mm_modem, NULL),
info->operator_name,
TRUE,
broadband_act_to_mb_act (info),
broadband_state_to_mb_state (info),
mm_modem_get_state (info->mm_modem) >= MM_MODEM_STATE_ENABLED,
applet);
gtk_widget_set_sensitive (GTK_WIDGET (item), TRUE);
add_connection_item (device, active, item, menu, applet);
}
/* Notify user of unmanaged or unavailable device */
if (nm_device_get_state (device) > NM_DEVICE_STATE_DISCONNECTED) {
item = nma_menu_device_get_menu_item (device, applet, NULL);
if (item) {
gtk_menu_shell_append (GTK_MENU_SHELL (menu), item);
gtk_widget_show (item);
}
} else {
/* Otherwise show idle registration state or disabled */
item = nm_mb_menu_item_new (NULL,
mm_modem_get_signal_quality (info->mm_modem, NULL),
info->operator_name,
FALSE,
broadband_act_to_mb_act (info),
broadband_state_to_mb_state (info),
mm_modem_get_state (info->mm_modem) >= MM_MODEM_STATE_ENABLED,
applet);
gtk_widget_set_sensitive (GTK_WIDGET (item), FALSE);
gtk_menu_shell_append (GTK_MENU_SHELL (menu), item);
}
/* Add the default / inactive connection items */
if (!nma_menu_device_check_unusable (device)) {
if ((!active && g_slist_length (connections)) || (active && g_slist_length (connections) > 1))
applet_menu_item_add_complex_separator_helper (menu, applet, _("Available"), -1);
if (g_slist_length (connections)) {
for (iter = connections; iter; iter = g_slist_next (iter)) {
NMConnection *connection = NM_CONNECTION (iter->data);
if (connection != active) {
item = applet_new_menu_item_helper (connection, NULL, FALSE);
add_connection_item (device, connection, item, menu, applet);
}
}
} else {
/* Default connection item */
item = gtk_check_menu_item_new_with_label (_("New Mobile Broadband connection..."));
add_connection_item (device, NULL, item, menu, applet);
}
}
g_slist_free (connections);
}
static guint32
broadband_state_to_mb_state (BroadbandDeviceInfo *info)
{
MMModemState state;
state = mm_modem_get_state (info->mm_modem);
switch (state) {
case MM_MODEM_STATE_FAILED:
case MM_MODEM_STATE_UNKNOWN:
g_warn_if_reached ();
case MM_MODEM_STATE_INITIALIZING:
case MM_MODEM_STATE_LOCKED:
case MM_MODEM_STATE_DISABLED:
case MM_MODEM_STATE_DISABLING:
case MM_MODEM_STATE_ENABLING:
return MB_STATE_UNKNOWN;
case MM_MODEM_STATE_ENABLED:
return MB_STATE_IDLE;
case MM_MODEM_STATE_SEARCHING:
return MB_STATE_SEARCHING;
case MM_MODEM_STATE_REGISTERED:
case MM_MODEM_STATE_DISCONNECTING:
case MM_MODEM_STATE_CONNECTING:
case MM_MODEM_STATE_CONNECTED:
break;
default:
g_warn_if_reached ();
return MB_STATE_UNKNOWN;
}
/* home or roaming? */
if (info->mm_modem_3gpp) {
switch (mm_modem_3gpp_get_registration_state (info->mm_modem_3gpp)) {
case MM_MODEM_3GPP_REGISTRATION_STATE_HOME:
return MB_STATE_HOME;
case MM_MODEM_3GPP_REGISTRATION_STATE_ROAMING:
return MB_STATE_ROAMING;
default:
/* Skip, we may be registered in EVDO/CDMA1x instead... */
break;
}
}
if (info->mm_modem_cdma) {
/* EVDO state overrides 1X state for now */
switch (mm_modem_cdma_get_evdo_registration_state (info->mm_modem_cdma)) {
case MM_MODEM_CDMA_REGISTRATION_STATE_HOME:
return MB_STATE_HOME;
case MM_MODEM_CDMA_REGISTRATION_STATE_ROAMING:
return MB_STATE_ROAMING;
case MM_MODEM_CDMA_REGISTRATION_STATE_REGISTERED:
/* Assume home... */
return MB_STATE_HOME;
default:
/* Skip, we may be registered in CDMA1x instead... */
break;
}
switch (mm_modem_cdma_get_cdma1x_registration_state (info->mm_modem_cdma)) {
case MM_MODEM_CDMA_REGISTRATION_STATE_HOME:
return MB_STATE_HOME;
case MM_MODEM_CDMA_REGISTRATION_STATE_ROAMING:
return MB_STATE_ROAMING;
case MM_MODEM_CDMA_REGISTRATION_STATE_REGISTERED:
/* Assume home... */
return MB_STATE_HOME;
default:
break;
}
}
return MB_STATE_UNKNOWN;
}
MMBearer *
mmcli_get_bearer_sync (GDBusConnection *connection,
const gchar *path_or_index,
MMManager **o_manager,
MMObject **o_object)
{
MMManager *manager;
GList *modems;
GList *l;
MMBearer *found = NULL;
gchar *bearer_path;
bearer_path = get_bearer_path (path_or_index);
manager = mmcli_get_manager_sync (connection);
modems = g_dbus_object_manager_get_objects (G_DBUS_OBJECT_MANAGER (manager));
if (!modems) {
g_printerr ("error: couldn't find bearer at '%s': 'no modems found'\n",
bearer_path);
exit (EXIT_FAILURE);
}
for (l = modems; !found && l; l = g_list_next (l)) {
GError *error = NULL;
MMObject *object;
MMModem *modem;
GList *bearers;
object = MM_OBJECT (l->data);
modem = mm_object_get_modem (object);
/* Don't look for bearers in modems which are not fully initialized */
if (mm_modem_get_state (modem) < MM_MODEM_STATE_DISABLED) {
g_debug ("Skipping modem '%s' when looking for bearers "
"(not fully initialized)",
mm_object_get_path (object));
g_object_unref (modem);
continue;
}
bearers = mm_modem_list_bearers_sync (modem, NULL, &error);
if (error) {
g_printerr ("error: couldn't list bearers at '%s': '%s'\n",
mm_modem_get_path (modem),
error->message);
exit (EXIT_FAILURE);
}
found = find_bearer_in_list (bearers, bearer_path);
g_list_free_full (bearers, (GDestroyNotify) g_object_unref);
if (found && o_object)
*o_object = g_object_ref (object);
g_object_unref (modem);
}
if (!found) {
g_printerr ("error: couldn't find bearer at '%s': 'not found in any modem'\n",
bearer_path);
exit (EXIT_FAILURE);
}
g_list_free_full (modems, (GDestroyNotify) g_object_unref);
g_free (bearer_path);
if (o_manager)
*o_manager = manager;
else
g_object_unref (manager);
return found;
}
static void
get_modem_ready (GObject *source,
GAsyncResult *result,
gpointer none)
{
ctx->object = mmcli_get_modem_finish (result, &ctx->manager);
ctx->modem = mm_object_get_modem (ctx->object);
ctx->modem_3gpp = mm_object_get_modem_3gpp (ctx->object);
ctx->modem_cdma = mm_object_get_modem_cdma (ctx->object);
/* Setup operation timeout */
if (ctx->modem)
mmcli_force_operation_timeout (G_DBUS_PROXY (ctx->modem));
if (ctx->modem_3gpp)
mmcli_force_operation_timeout (G_DBUS_PROXY (ctx->modem_3gpp));
if (ctx->modem_cdma)
mmcli_force_operation_timeout (G_DBUS_PROXY (ctx->modem_cdma));
if (info_flag)
g_assert_not_reached ();
/* Request to monitor modems? */
if (monitor_state_flag) {
MMModemState current;
g_signal_connect (ctx->modem,
"state-changed",
G_CALLBACK (state_changed),
NULL);
current = mm_modem_get_state (ctx->modem);
g_print ("\t%s: Initial state, '%s'\n",
mm_object_get_path (ctx->object),
mm_modem_state_get_string (current));
/* If we get cancelled, operation done */
g_cancellable_connect (ctx->cancellable,
G_CALLBACK (cancelled),
NULL,
NULL);
return;
}
/* Request to enable the modem? */
if (enable_flag) {
g_debug ("Asynchronously enabling modem...");
mm_modem_enable (ctx->modem,
ctx->cancellable,
(GAsyncReadyCallback)enable_ready,
NULL);
return;
}
/* Request to disable the modem? */
if (disable_flag) {
g_debug ("Asynchronously disabling modem...");
mm_modem_disable (ctx->modem,
ctx->cancellable,
(GAsyncReadyCallback)disable_ready,
NULL);
return;
}
/* Request to full power the modem? */
if (set_power_state_on_flag) {
g_debug ("Asynchronously setting full power...");
mm_modem_set_power_state (ctx->modem,
MM_MODEM_POWER_STATE_ON,
ctx->cancellable,
(GAsyncReadyCallback)set_power_state_ready,
NULL);
return;
}
/* Request to low power the modem? */
if (set_power_state_low_flag) {
g_debug ("Asynchronously setting low power...");
mm_modem_set_power_state (ctx->modem,
MM_MODEM_POWER_STATE_LOW,
ctx->cancellable,
(GAsyncReadyCallback)set_power_state_ready,
NULL);
return;
}
/* Request to power off the modem? */
if (set_power_state_off_flag) {
g_debug ("Asynchronously powering off...");
mm_modem_set_power_state (ctx->modem,
MM_MODEM_POWER_STATE_OFF,
ctx->cancellable,
(GAsyncReadyCallback)set_power_state_ready,
NULL);
return;
}
/* Request to reset the modem? */
if (reset_flag) {
g_debug ("Asynchronously reseting modem...");
mm_modem_reset (ctx->modem,
ctx->cancellable,
(GAsyncReadyCallback)reset_ready,
NULL);
return;
}
/* Request to reset the modem to factory state? */
if (factory_reset_str) {
g_debug ("Asynchronously factory-reseting modem...");
mm_modem_factory_reset (ctx->modem,
factory_reset_str,
ctx->cancellable,
(GAsyncReadyCallback)factory_reset_ready,
NULL);
return;
}
/* Request to send a command to the modem? */
if (command_str) {
guint timeout;
timeout = command_get_timeout (ctx->modem);
g_debug ("Asynchronously sending a command to the modem (%u seconds timeout)...",
timeout);
mm_modem_command (ctx->modem,
command_str,
timeout,
ctx->cancellable,
(GAsyncReadyCallback)command_ready,
NULL);
return;
}
/* Request to list bearers? */
if (list_bearers_flag) {
g_debug ("Asynchronously listing bearers in modem...");
mm_modem_list_bearers (ctx->modem,
ctx->cancellable,
(GAsyncReadyCallback)list_bearers_ready,
NULL);
return;
}
/* Request to create a new bearer? */
if (create_bearer_str) {
GError *error = NULL;
MMBearerProperties *properties;
properties = mm_bearer_properties_new_from_string (create_bearer_str, &error);
if (!properties) {
g_printerr ("Error parsing properties string: '%s'\n", error->message);
exit (EXIT_FAILURE);
}
g_debug ("Asynchronously creating new bearer in modem...");
mm_modem_create_bearer (ctx->modem,
properties,
ctx->cancellable,
(GAsyncReadyCallback)create_bearer_ready,
NULL);
g_object_unref (properties);
return;
}
/* Request to delete a given bearer? */
if (delete_bearer_str) {
mmcli_get_bearer (ctx->connection,
delete_bearer_str,
ctx->cancellable,
(GAsyncReadyCallback)get_bearer_to_delete_ready,
NULL);
return;
}
/* Request to set current capabilities in a given modem? */
if (set_current_capabilities_str) {
MMModemCapability current_capabilities;
parse_current_capabilities (¤t_capabilities);
mm_modem_set_current_capabilities (ctx->modem,
current_capabilities,
ctx->cancellable,
(GAsyncReadyCallback)set_current_capabilities_ready,
NULL);
return;
}
/* Request to set allowed modes in a given modem? */
if (set_allowed_modes_str) {
MMModemMode allowed;
MMModemMode preferred;
parse_modes (&allowed, &preferred);
mm_modem_set_current_modes (ctx->modem,
allowed,
preferred,
ctx->cancellable,
(GAsyncReadyCallback)set_current_modes_ready,
NULL);
return;
}
/* Request to set current bands in a given modem? */
if (set_current_bands_str) {
MMModemBand *current_bands;
guint n_current_bands;
parse_current_bands (¤t_bands, &n_current_bands);
mm_modem_set_current_bands (ctx->modem,
current_bands,
n_current_bands,
ctx->cancellable,
(GAsyncReadyCallback)set_current_bands_ready,
NULL);
g_free (current_bands);
return;
}
g_warn_if_reached ();
}
static void
print_modem_info (void)
{
gchar *drivers_string;
gchar *prefixed_revision;
gchar *supported_capabilities_string;
MMModemCapability *capabilities = NULL;
guint n_capabilities = 0;
gchar *current_capabilities_string;
gchar *access_technologies_string;
MMModemModeCombination *modes = NULL;
guint n_modes = 0;
gchar *supported_modes_string;
MMModemMode allowed_modes;
gchar *allowed_modes_string = NULL;
MMModemMode preferred_mode;
gchar *preferred_mode_string = NULL;
gchar *supported_bands_string;
gchar *current_bands_string;
gchar *supported_ip_families_string;
gchar *unlock_retries_string;
gchar *own_numbers_string;
MMModemBand *bands = NULL;
guint n_bands = 0;
MMModemPortInfo *ports = NULL;
guint n_ports = 0;
gchar *ports_string;
MMUnlockRetries *unlock_retries;
guint signal_quality = 0;
gboolean signal_quality_recent = FALSE;
gchar *bearer_paths_string;
/* Not the best thing to do, as we may be doing _get() calls twice, but
* easiest to maintain */
#undef VALIDATE_UNKNOWN
#define VALIDATE_UNKNOWN(str) (str ? str : "unknown")
#undef VALIDATE_PATH
#define VALIDATE_PATH(str) ((str && !g_str_equal (str, "/")) ? str : "none")
/* Strings in heap */
mm_modem_get_supported_capabilities (ctx->modem, &capabilities, &n_capabilities);
supported_capabilities_string = mm_common_build_capabilities_string (capabilities, n_capabilities);
g_free (capabilities);
current_capabilities_string = mm_modem_capability_build_string_from_mask (
mm_modem_get_current_capabilities (ctx->modem));
access_technologies_string = mm_modem_access_technology_build_string_from_mask (
mm_modem_get_access_technologies (ctx->modem));
mm_modem_get_supported_modes (ctx->modem, &modes, &n_modes);
supported_modes_string = mm_common_build_mode_combinations_string (modes, n_modes);
g_free (modes);
mm_modem_get_current_bands (ctx->modem, &bands, &n_bands);
current_bands_string = mm_common_build_bands_string (bands, n_bands);
g_free (bands);
mm_modem_get_supported_bands (ctx->modem, &bands, &n_bands);
supported_bands_string = mm_common_build_bands_string (bands, n_bands);
g_free (bands);
mm_modem_get_ports (ctx->modem, &ports, &n_ports);
ports_string = mm_common_build_ports_string (ports, n_ports);
mm_modem_port_info_array_free (ports, n_ports);
if (mm_modem_get_current_modes (ctx->modem, &allowed_modes, &preferred_mode)) {
allowed_modes_string = mm_modem_mode_build_string_from_mask (allowed_modes);
preferred_mode_string = mm_modem_mode_build_string_from_mask (preferred_mode);
}
supported_ip_families_string = mm_bearer_ip_family_build_string_from_mask (
mm_modem_get_supported_ip_families (ctx->modem));
unlock_retries = mm_modem_get_unlock_retries (ctx->modem);
unlock_retries_string = mm_unlock_retries_build_string (unlock_retries);
g_object_unref (unlock_retries);
if (mm_modem_get_own_numbers (ctx->modem)) {
own_numbers_string = g_strjoinv (", ", (gchar **)mm_modem_get_own_numbers (ctx->modem));
if (!own_numbers_string[0]) {
g_free (own_numbers_string);
own_numbers_string = NULL;
}
} else
own_numbers_string = NULL;
if (mm_modem_get_drivers (ctx->modem)) {
drivers_string = g_strjoinv (", ", (gchar **)mm_modem_get_drivers (ctx->modem));
if (!drivers_string[0]) {
g_free (drivers_string);
drivers_string = NULL;
}
} else
drivers_string = NULL;
/* Rework possible multiline strings */
if (mm_modem_get_revision (ctx->modem))
prefixed_revision = mmcli_prefix_newlines (" | ",
mm_modem_get_revision (ctx->modem));
else
prefixed_revision = NULL;
if (supported_modes_string) {
gchar *prefixed;
prefixed = mmcli_prefix_newlines (" | ",
supported_modes_string);
g_free (supported_modes_string);
supported_modes_string = prefixed;
}
if (supported_capabilities_string) {
gchar *prefixed;
prefixed = mmcli_prefix_newlines (" | ",
supported_capabilities_string);
g_free (supported_capabilities_string);
supported_capabilities_string = prefixed;
}
/* Get signal quality info */
signal_quality = mm_modem_get_signal_quality (ctx->modem, &signal_quality_recent);
if (mm_modem_get_bearer_paths (ctx->modem)) {
bearer_paths_string = g_strjoinv (", ", (gchar **)mm_modem_get_bearer_paths (ctx->modem));
if (!bearer_paths_string[0]) {
g_free (bearer_paths_string);
bearer_paths_string = NULL;
}
} else
bearer_paths_string = NULL;
/* Global IDs */
g_print ("\n"
"%s (device id '%s')\n",
VALIDATE_UNKNOWN (mm_modem_get_path (ctx->modem)),
VALIDATE_UNKNOWN (mm_modem_get_device_identifier (ctx->modem)));
/* Hardware related stuff */
g_print (" -------------------------\n"
" Hardware | manufacturer: '%s'\n"
" | model: '%s'\n"
" | revision: '%s'\n"
" | supported: '%s'\n"
" | current: '%s'\n"
" | equipment id: '%s'\n",
VALIDATE_UNKNOWN (mm_modem_get_manufacturer (ctx->modem)),
VALIDATE_UNKNOWN (mm_modem_get_model (ctx->modem)),
VALIDATE_UNKNOWN (prefixed_revision),
VALIDATE_UNKNOWN (supported_capabilities_string),
VALIDATE_UNKNOWN (current_capabilities_string),
VALIDATE_UNKNOWN (mm_modem_get_equipment_identifier (ctx->modem)));
/* System related stuff */
g_print (" -------------------------\n"
" System | device: '%s'\n"
" | drivers: '%s'\n"
" | plugin: '%s'\n"
" | primary port: '%s'\n"
" | ports: '%s'\n",
VALIDATE_UNKNOWN (mm_modem_get_device (ctx->modem)),
VALIDATE_UNKNOWN (drivers_string),
VALIDATE_UNKNOWN (mm_modem_get_plugin (ctx->modem)),
VALIDATE_UNKNOWN (mm_modem_get_primary_port (ctx->modem)),
VALIDATE_UNKNOWN (ports_string));
/* Numbers related stuff */
g_print (" -------------------------\n"
" Numbers | own : '%s'\n",
VALIDATE_UNKNOWN (own_numbers_string));
/* Status related stuff */
g_print (" -------------------------\n"
" Status | lock: '%s'\n"
" | unlock retries: '%s'\n"
" | state: '%s'\n",
mm_modem_lock_get_string (mm_modem_get_unlock_required (ctx->modem)),
VALIDATE_UNKNOWN (unlock_retries_string),
VALIDATE_UNKNOWN (mm_modem_state_get_string (mm_modem_get_state (ctx->modem))));
if (mm_modem_get_state (ctx->modem) == MM_MODEM_STATE_FAILED)
g_print (" | failed reason: '%s'\n",
VALIDATE_UNKNOWN (mm_modem_state_failed_reason_get_string (mm_modem_get_state_failed_reason (ctx->modem))));
g_print (" | power state: '%s'\n"
" | access tech: '%s'\n"
" | signal quality: '%u' (%s)\n",
VALIDATE_UNKNOWN (mm_modem_power_state_get_string (mm_modem_get_power_state (ctx->modem))),
VALIDATE_UNKNOWN (access_technologies_string),
signal_quality, signal_quality_recent ? "recent" : "cached");
/* Modes */
g_print (" -------------------------\n"
" Modes | supported: '%s'\n"
" | current: 'allowed: %s; preferred: %s'\n",
VALIDATE_UNKNOWN (supported_modes_string),
VALIDATE_UNKNOWN (allowed_modes_string),
VALIDATE_UNKNOWN (preferred_mode_string));
/* Band related stuff */
g_print (" -------------------------\n"
" Bands | supported: '%s'\n"
" | current: '%s'\n",
VALIDATE_UNKNOWN (supported_bands_string),
VALIDATE_UNKNOWN (current_bands_string));
/* IP families */
g_print (" -------------------------\n"
" IP | supported: '%s'\n",
VALIDATE_UNKNOWN (supported_ip_families_string));
/* If available, 3GPP related stuff */
if (ctx->modem_3gpp) {
gchar *facility_locks;
facility_locks = (mm_modem_3gpp_facility_build_string_from_mask (
mm_modem_3gpp_get_enabled_facility_locks (ctx->modem_3gpp)));
g_print (" -------------------------\n"
" 3GPP | imei: '%s'\n"
" | enabled locks: '%s'\n"
" | operator id: '%s'\n"
" | operator name: '%s'\n"
" | subscription: '%s'\n"
" | registration: '%s'\n",
VALIDATE_UNKNOWN (mm_modem_3gpp_get_imei (ctx->modem_3gpp)),
facility_locks,
VALIDATE_UNKNOWN (mm_modem_3gpp_get_operator_code (ctx->modem_3gpp)),
VALIDATE_UNKNOWN (mm_modem_3gpp_get_operator_name (ctx->modem_3gpp)),
mm_modem_3gpp_subscription_state_get_string (
mm_modem_3gpp_get_subscription_state ((ctx->modem_3gpp))),
mm_modem_3gpp_registration_state_get_string (
mm_modem_3gpp_get_registration_state ((ctx->modem_3gpp))));
g_free (facility_locks);
}
/* If available, CDMA related stuff */
if (ctx->modem_cdma) {
guint sid;
guint nid;
gchar *sid_str;
gchar *nid_str;
sid = mm_modem_cdma_get_sid (ctx->modem_cdma);
sid_str = (sid != MM_MODEM_CDMA_SID_UNKNOWN ?
g_strdup_printf ("%u", sid) :
NULL);
nid = mm_modem_cdma_get_nid (ctx->modem_cdma);
nid_str = (nid != MM_MODEM_CDMA_NID_UNKNOWN ?
g_strdup_printf ("%u", nid) :
NULL);
g_print (" -------------------------\n"
" CDMA | meid: '%s'\n"
" | esn: '%s'\n"
" | sid: '%s'\n"
" | nid: '%s'\n"
" | registration: CDMA1x '%s'\n"
" | EV-DO '%s'\n"
" | activation: '%s'\n",
VALIDATE_UNKNOWN (mm_modem_cdma_get_meid (ctx->modem_cdma)),
VALIDATE_UNKNOWN (mm_modem_cdma_get_esn (ctx->modem_cdma)),
VALIDATE_UNKNOWN (sid_str),
VALIDATE_UNKNOWN (nid_str),
mm_modem_cdma_registration_state_get_string (
mm_modem_cdma_get_cdma1x_registration_state (ctx->modem_cdma)),
mm_modem_cdma_registration_state_get_string (
mm_modem_cdma_get_evdo_registration_state (ctx->modem_cdma)),
mm_modem_cdma_activation_state_get_string (
mm_modem_cdma_get_activation_state (ctx->modem_cdma)));
g_free (sid_str);
g_free (nid_str);
}
/* SIM */
g_print (" -------------------------\n"
" SIM | path: '%s'\n",
VALIDATE_PATH (mm_modem_get_sim_path (ctx->modem)));
g_print ("\n");
/* Bearers */
g_print (" -------------------------\n"
" Bearers | paths: '%s'\n",
VALIDATE_PATH (bearer_paths_string));
g_print ("\n");
g_free (ports_string);
g_free (supported_ip_families_string);
g_free (current_bands_string);
g_free (supported_bands_string);
g_free (access_technologies_string);
g_free (supported_capabilities_string);
g_free (current_capabilities_string);
g_free (prefixed_revision);
g_free (allowed_modes_string);
g_free (preferred_mode_string);
g_free (supported_modes_string);
g_free (unlock_retries_string);
g_free (own_numbers_string);
g_free (drivers_string);
g_free (bearer_paths_string);
}
