static void refresh_wireless_list (GisNetworkPage *page) { GisNetworkPagePrivate *priv = page->priv; NMDeviceState state = NM_DEVICE_STATE_UNAVAILABLE; NMAccessPoint *active_ap = NULL; NMAccessPoint *ap; const GPtrArray *aps; GPtrArray *unique_aps; guint i; GtkWidget *label; GtkWidget *spinner; GtkWidget *swin; priv->refreshing = TRUE; if (NM_IS_DEVICE_WIFI (priv->nm_device)) { state = nm_device_get_state (priv->nm_device); active_ap = nm_device_wifi_get_active_access_point (NM_DEVICE_WIFI (priv->nm_device)); gtk_tree_view_set_model (OBJ(GtkTreeView*, "network-list"), NULL); gtk_list_store_clear (priv->ap_list); if (priv->row) { gtk_tree_row_reference_free (priv->row); priv->row = NULL; } aps = nm_device_wifi_get_access_points (NM_DEVICE_WIFI (priv->nm_device)); }
static void get_property (GObject *object, guint prop_id, GValue *value, GParamSpec *pspec) { NMDeviceWifi *self = NM_DEVICE_WIFI (object); switch (prop_id) { case PROP_HW_ADDRESS: g_value_set_string (value, nm_device_wifi_get_hw_address (self)); break; case PROP_PERM_HW_ADDRESS: g_value_set_string (value, nm_device_wifi_get_permanent_hw_address (self)); break; case PROP_MODE: g_value_set_uint (value, nm_device_wifi_get_mode (self)); break; case PROP_BITRATE: g_value_set_uint (value, nm_device_wifi_get_bitrate (self)); break; case PROP_ACTIVE_ACCESS_POINT: g_value_set_object (value, nm_device_wifi_get_active_access_point (self)); break; case PROP_WIRELESS_CAPABILITIES: g_value_set_uint (value, nm_device_wifi_get_capabilities (self)); break; case PROP_ACCESS_POINTS: g_value_take_boxed (value, _nm_utils_copy_object_array (nm_device_wifi_get_access_points (self))); break; default: G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec); break; } }
OwnedArray<WifiAccessPoint> WifiStatusNM::nearbyAccessPoints() { NMDeviceWifi *wdev; const GPtrArray *ap_list; OwnedArray<WifiAccessPoint> accessPoints; wdev = NM_DEVICE_WIFI(nmdevice); //nm_device_wifi_request_scan(wdev, NULL, NULL); ap_list = nm_device_wifi_get_access_points(wdev); if (ap_list != NULL) { std::map<String, WifiAccessPoint *> uniqueAPs; for (int i = 0; i < ap_list->len; i++) { NMAccessPoint *ap = (NMAccessPoint *) g_ptr_array_index(ap_list, i); auto created_ap = createNMWifiAccessPoint(ap); /*FIXME: dropping hidden (no ssid) networks until gui supports it*/ if (created_ap->ssid.length() == 0) continue; if (uniqueAPs.find(created_ap->hash) == uniqueAPs.end()) uniqueAPs[created_ap->hash] = created_ap; else if (uniqueAPs[created_ap->hash]->signalStrength < created_ap->signalStrength) uniqueAPs[created_ap->hash] = created_ap; } for (const auto entry : uniqueAPs) accessPoints.add(entry.second); } DBG(__func__ << ": found " << accessPoints.size() << " AccessPoints"); return accessPoints; }
/** * nm_device_wifi_get_access_point_by_path: * @device: a #NMDeviceWifi * @path: the object path of the access point * * Gets a #NMAccessPoint by path. * * Returns: (transfer none): the access point or %NULL if none is found. **/ NMAccessPoint * nm_device_wifi_get_access_point_by_path (NMDeviceWifi *device, const char *path) { const GPtrArray *aps; int i; NMAccessPoint *ap = NULL; g_return_val_if_fail (NM_IS_DEVICE_WIFI (device), NULL); g_return_val_if_fail (path != NULL, NULL); aps = nm_device_wifi_get_access_points (device); if (!aps) return NULL; for (i = 0; i < aps->len; i++) { NMAccessPoint *candidate = g_ptr_array_index (aps, i); if (!strcmp (nm_object_get_path (NM_OBJECT (candidate)), path)) { ap = candidate; break; } } return ap; }
static void add_connections_for_aps (NmtConnectDevice *nmtdev, const GPtrArray *connections) { NmtConnectConnection *nmtconn; NMConnection *conn; NMAccessPoint *ap; const GPtrArray *aps; GHashTable *seen_ssids; GBytes *ssid; char *ap_hash; int i, c; aps = nm_device_wifi_get_access_points (NM_DEVICE_WIFI (nmtdev->device)); if (!aps->len) return; seen_ssids = g_hash_table_new_full (g_str_hash, g_str_equal, g_free, NULL); for (i = 0; i < aps->len; i++) { ap = aps->pdata[i]; if (!nm_access_point_get_ssid (ap)) continue; ap_hash = hash_ap (ap); if (g_hash_table_contains (seen_ssids, ap_hash)) { g_free (ap_hash); continue; } g_hash_table_add (seen_ssids, ap_hash); nmtconn = g_slice_new0 (NmtConnectConnection); nmtconn->device = nmtdev->device; nmtconn->ap = g_object_ref (ap); ssid = nm_access_point_get_ssid (ap); if (ssid) nmtconn->ssid = nm_utils_ssid_to_utf8 (g_bytes_get_data (ssid, NULL), g_bytes_get_size (ssid)); for (c = 0; c < connections->len; c++) { conn = connections->pdata[c]; if ( nm_device_connection_valid (nmtdev->device, conn) && nm_access_point_connection_valid (ap, conn)) { nmtconn->name = nm_connection_get_id (conn); nmtconn->conn = g_object_ref (conn); break; } } if (!nmtconn->name) nmtconn->name = nmtconn->ssid ? nmtconn->ssid : "<unknown>"; nmtdev->conns = g_slist_prepend (nmtdev->conns, nmtconn); } g_hash_table_unref (seen_ssids); }
static void show_wifi_specific_info (NMDevice * dev) { NMDeviceWifi * device = NM_DEVICE_WIFI (dev); const char * hw_address; NM80211Mode mode; guint32 bitrate; guint32 capas; NMAccessPoint * active_ap; const GPtrArray * aps; gchar * capa_strs[6]; /* Currently six capabilities is defined */ gint capas_num, i; hw_address = nm_device_wifi_get_hw_address (device); mode = nm_device_wifi_get_mode (device); bitrate = nm_device_wifi_get_bitrate (device); capas = nm_device_wifi_get_capabilities (device); active_ap = nm_device_wifi_get_active_access_point (device); aps = nm_device_wifi_get_access_points (device); capas_num = 0; if (capas & NM_WIFI_DEVICE_CAP_CIPHER_WEP40) capa_strs[capas_num++] = "wep40"; if (capas & NM_WIFI_DEVICE_CAP_CIPHER_WEP104) capa_strs[capas_num++] = "wep104"; if (capas & NM_WIFI_DEVICE_CAP_CIPHER_TKIP) capa_strs[capas_num++] = "tkip"; if (capas & NM_WIFI_DEVICE_CAP_CIPHER_CCMP) capa_strs[capas_num++] = "ccmp"; if (capas & NM_WIFI_DEVICE_CAP_WPA) capa_strs[capas_num++] = "wpa"; if (capas & NM_WIFI_DEVICE_CAP_RSN) capa_strs[capas_num++] = "rsn"; g_print ("%-9s HWaddr:%s Mode:%s", "", hw_address, wifi_mode_to_string(mode)); if (bitrate > 0) g_print (" Bitrate:%.1fMb/s\n", bitrate/1000.0); else g_print ("\n"); g_print ("%-9s Capabilities:", ""); for (i = 0; i < capas_num; i++) { g_print ("%s", capa_strs[i]); if (i != capas_num - 1) g_print (" "); } if (capas_num == 0) { g_print ("none"); } g_print ("\n"); list_wifi_access_points (aps, active_ap, capas); }
static void add_connections_for_aps (NmtConnectDevice *nmtdev, GSList *connections) { NmtConnectConnection *nmtconn; NMConnection *conn; NMAccessPoint *ap; const GPtrArray *aps; GHashTable *seen_ssids; char *ap_hash; GSList *iter; int i; aps = nm_device_wifi_get_access_points (NM_DEVICE_WIFI (nmtdev->device)); if (!aps) return; seen_ssids = g_hash_table_new_full (g_str_hash, g_str_equal, g_free, NULL); for (i = 0; i < aps->len; i++) { ap = aps->pdata[i]; if (!nm_access_point_get_ssid (ap)) continue; ap_hash = hash_ap (ap); if (g_hash_table_contains (seen_ssids, ap_hash)) { g_free (ap_hash); continue; } g_hash_table_add (seen_ssids, ap_hash); nmtconn = g_slice_new0 (NmtConnectConnection); nmtconn->device = nmtdev->device; nmtconn->ap = g_object_ref (ap); nmtconn->ssid = nm_utils_ssid_to_utf8 (nm_access_point_get_ssid (ap)); for (iter = connections; iter; iter = iter->next) { conn = iter->data; if ( nm_device_connection_valid (nmtdev->device, conn) && nm_access_point_connection_valid (ap, conn)) { nmtconn->name = nm_connection_get_id (conn); nmtconn->conn = g_object_ref (conn); break; } } if (!iter) nmtconn->name = nmtconn->ssid; nmtdev->conns = g_slist_prepend (nmtdev->conns, nmtconn); } g_hash_table_unref (seen_ssids); }
static void dump_wireless (NMDeviceWifi *device) { const char *str; const GPtrArray *aps; int i; g_print ("Mode: %d\n", nm_device_wifi_get_mode (device)); g_print ("Bitrate: %d\n", nm_device_wifi_get_bitrate (device)); str = nm_device_wifi_get_hw_address (device); g_print ("MAC: %s\n", str); g_print ("AccessPoints:\n"); aps = nm_device_wifi_get_access_points (device); for (i = 0; aps && (i < aps->len); i++) { dump_access_point (NM_ACCESS_POINT (g_ptr_array_index (aps, i))); g_print ("\n"); } }
static void show_wifi_device_info (NMDevice *device) { NMAccessPoint *active_ap = NULL; const GPtrArray *aps; const char *iface; const char *driver; guint32 speed; const GByteArray *active_ssid; char *active_ssid_str = NULL; int i; /* Get active AP */ if (nm_device_get_state (device) == NM_DEVICE_STATE_ACTIVATED) { if ((active_ap = nm_device_wifi_get_active_access_point (NM_DEVICE_WIFI (device)))) { active_ssid = nm_access_point_get_ssid (active_ap); active_ssid_str = nm_utils_ssid_to_utf8 (active_ssid); } } iface = nm_device_get_iface (device); driver = nm_device_get_driver (device); speed = nm_device_wifi_get_bitrate (NM_DEVICE_WIFI (device)); speed /= 1000; printf ("Device: %s ---- Driver: %s ---- Speed: %d MB/s ---- Active AP: %s\n", iface, driver, speed, active_ssid_str ? active_ssid_str : "none"); printf ("=================================================================================\n"); g_free (active_ssid_str); /* Get all APs of the Wi-Fi device */ aps = nm_device_wifi_get_access_points (NM_DEVICE_WIFI (device)); /* Print AP details */ for (i = 0; aps && (i < aps->len); i++) { NMAccessPoint *ap = g_ptr_array_index (aps, i); show_access_point_info (ap); } }
static void detail_device (gpointer data, gpointer user_data) { NMDevice *device = NM_DEVICE (data); char *tmp; NMDeviceState state; guint32 caps; guint32 speed; const GArray *array; gboolean is_default = FALSE; const char *id = NULL; NMActiveConnection *active; active = nm_device_get_active_connection (device); if (active) { NMConnection *connection; NMSettingConnection *s_con; is_default = nm_active_connection_get_default (active); connection = get_connection_for_active (active); if (connection) { s_con = nm_connection_get_setting_connection (connection); if (s_con) id = nm_setting_connection_get_id (s_con); } } print_header ("Device", nm_device_get_iface (device), id); /* General information */ if (NM_IS_DEVICE_ETHERNET (device)) print_string ("Type", "Wired"); else if (NM_IS_DEVICE_WIFI (device)) print_string ("Type", "802.11 WiFi"); else if (NM_IS_DEVICE_MODEM (device)) { NMDeviceModemCapabilities modem_caps; modem_caps = nm_device_modem_get_current_capabilities (NM_DEVICE_MODEM (device)); if (modem_caps & NM_DEVICE_MODEM_CAPABILITY_GSM_UMTS) print_string ("Type", "Mobile Broadband (GSM)"); else if (modem_caps & NM_DEVICE_MODEM_CAPABILITY_CDMA_EVDO) print_string ("Type", "Mobile Broadband (CDMA)"); else print_string ("Type", "Mobile Broadband (unknown)"); } else if (NM_IS_DEVICE_BT (device)) print_string ("Type", "Bluetooth"); else if (NM_IS_DEVICE_WIMAX (device)) print_string ("Type", "WiMAX"); print_string ("Driver", nm_device_get_driver (device) ? nm_device_get_driver (device) : "(unknown)"); state = nm_device_get_state (device); print_string ("State", get_dev_state_string (state)); if (is_default) print_string ("Default", "yes"); else print_string ("Default", "no"); tmp = NULL; if (NM_IS_DEVICE_ETHERNET (device)) tmp = g_strdup (nm_device_ethernet_get_hw_address (NM_DEVICE_ETHERNET (device))); else if (NM_IS_DEVICE_WIFI (device)) tmp = g_strdup (nm_device_wifi_get_hw_address (NM_DEVICE_WIFI (device))); else if (NM_IS_DEVICE_WIMAX (device)) tmp = g_strdup (nm_device_wimax_get_hw_address (NM_DEVICE_WIMAX (device))); if (tmp) { print_string ("HW Address", tmp); g_free (tmp); } /* Capabilities */ caps = nm_device_get_capabilities (device); printf ("\n Capabilities:\n"); if (caps & NM_DEVICE_CAP_CARRIER_DETECT) print_string (" Carrier Detect", "yes"); speed = 0; if (NM_IS_DEVICE_ETHERNET (device)) { /* Speed in Mb/s */ speed = nm_device_ethernet_get_speed (NM_DEVICE_ETHERNET (device)); } else if (NM_IS_DEVICE_WIFI (device)) { /* Speed in b/s */ speed = nm_device_wifi_get_bitrate (NM_DEVICE_WIFI (device)); speed /= 1000; } if (speed) { char *speed_string; speed_string = g_strdup_printf ("%u Mb/s", speed); print_string (" Speed", speed_string); g_free (speed_string); } /* Wireless specific information */ if ((NM_IS_DEVICE_WIFI (device))) { guint32 wcaps; NMAccessPoint *active_ap = NULL; const char *active_bssid = NULL; const GPtrArray *aps; printf ("\n Wireless Properties\n"); wcaps = nm_device_wifi_get_capabilities (NM_DEVICE_WIFI (device)); if (wcaps & (NM_WIFI_DEVICE_CAP_CIPHER_WEP40 | NM_WIFI_DEVICE_CAP_CIPHER_WEP104)) print_string (" WEP Encryption", "yes"); if (wcaps & NM_WIFI_DEVICE_CAP_WPA) print_string (" WPA Encryption", "yes"); if (wcaps & NM_WIFI_DEVICE_CAP_RSN) print_string (" WPA2 Encryption", "yes"); if (nm_device_get_state (device) == NM_DEVICE_STATE_ACTIVATED) { active_ap = nm_device_wifi_get_active_access_point (NM_DEVICE_WIFI (device)); active_bssid = active_ap ? nm_access_point_get_hw_address (active_ap) : NULL; } printf ("\n Wireless Access Points %s\n", active_ap ? "(* = current AP)" : ""); aps = nm_device_wifi_get_access_points (NM_DEVICE_WIFI (device)); if (aps && aps->len) g_ptr_array_foreach ((GPtrArray *) aps, detail_access_point, (gpointer) active_bssid); } else if (NM_IS_DEVICE_ETHERNET (device)) { printf ("\n Wired Properties\n"); if (nm_device_ethernet_get_carrier (NM_DEVICE_ETHERNET (device))) print_string (" Carrier", "on"); else print_string (" Carrier", "off"); } else if (NM_IS_DEVICE_WIMAX (device)) { NMDeviceWimax *wimax = NM_DEVICE_WIMAX (device); NMWimaxNsp *active_nsp = NULL; const char *active_name = NULL; const GPtrArray *nsps; if (nm_device_get_state (device) == NM_DEVICE_STATE_ACTIVATED) { guint tmp_uint; gint tmp_int; const char *tmp_str; active_nsp = nm_device_wimax_get_active_nsp (wimax); active_name = active_nsp ? nm_wimax_nsp_get_name (active_nsp) : NULL; printf ("\n Link Status\n"); tmp_uint = nm_device_wimax_get_center_frequency (wimax); if (tmp_uint) tmp = g_strdup_printf ("%'.1f MHz", (double) tmp_uint / 1000.0); else tmp = g_strdup ("(unknown)"); print_string (" Center Freq.", tmp); g_free (tmp); tmp_int = nm_device_wimax_get_rssi (wimax); if (tmp_int) tmp = g_strdup_printf ("%d dBm", tmp_int); else tmp = g_strdup ("(unknown)"); print_string (" RSSI", tmp); g_free (tmp); tmp_int = nm_device_wimax_get_cinr (wimax); if (tmp_int) tmp = g_strdup_printf ("%d dB", tmp_int); else tmp = g_strdup ("(unknown)"); print_string (" CINR", tmp); g_free (tmp); tmp_int = nm_device_wimax_get_tx_power (wimax); if (tmp_int) tmp = g_strdup_printf ("%'.2f dBm", (float) tmp_int / 2.0); else tmp = g_strdup ("(unknown)"); print_string (" TX Power", tmp); g_free (tmp); tmp_str = nm_device_wimax_get_bsid (wimax); if (tmp_str) print_string (" BSID", tmp_str); else print_string (" BSID", "(unknown)"); } printf ("\n WiMAX NSPs %s\n", active_nsp ? "(* current NSP)" : ""); nsps = nm_device_wimax_get_nsps (NM_DEVICE_WIMAX (device)); if (nsps && nsps->len) g_ptr_array_foreach ((GPtrArray *) nsps, detail_nsp, (gpointer) active_name); } /* IP Setup info */ if (state == NM_DEVICE_STATE_ACTIVATED) { NMIP4Config *cfg4 = nm_device_get_ip4_config (device); NMIP6Config *cfg6 = nm_device_get_ip6_config (device); GSList *iter; if (cfg4) { printf ("\n IPv4 Settings:\n"); for (iter = (GSList *) nm_ip4_config_get_addresses (cfg4); iter; iter = g_slist_next (iter)) { NMIP4Address *addr = (NMIP4Address *) iter->data; guint32 prefix = nm_ip4_address_get_prefix (addr); char *tmp2; tmp = ip4_address_as_string (nm_ip4_address_get_address (addr)); print_string (" Address", tmp); g_free (tmp); tmp2 = ip4_address_as_string (nm_utils_ip4_prefix_to_netmask (prefix)); tmp = g_strdup_printf ("%d (%s)", prefix, tmp2); g_free (tmp2); print_string (" Prefix", tmp); g_free (tmp); tmp = ip4_address_as_string (nm_ip4_address_get_gateway (addr)); print_string (" Gateway", tmp); g_free (tmp); printf ("\n"); } array = nm_ip4_config_get_nameservers (cfg4); if (array) { int i; for (i = 0; i < array->len; i++) { tmp = ip4_address_as_string (g_array_index (array, guint32, i)); print_string (" DNS", tmp); g_free (tmp); } } } if (cfg6) { printf ("\n IPv6 Settings:\n"); for (iter = (GSList *) nm_ip6_config_get_addresses (cfg6); iter; iter = g_slist_next (iter)) { NMIP6Address *addr = (NMIP6Address *) iter->data; guint32 prefix = nm_ip6_address_get_prefix (addr); tmp = ip6_address_as_string (nm_ip6_address_get_address (addr)); print_string (" Address", tmp); g_free (tmp); tmp = g_strdup_printf ("%d", prefix); print_string (" Prefix", tmp); g_free (tmp); tmp = ip6_address_as_string (nm_ip6_address_get_gateway (addr)); print_string (" Gateway", tmp); g_free (tmp); printf ("\n"); } for (iter = (GSList *) nm_ip6_config_get_nameservers (cfg6); iter; iter = g_slist_next (iter)) { tmp = ip6_address_as_string (iter->data); print_string (" DNS", tmp); g_free (tmp); } } } printf ("\n\n"); }
static void refresh_wireless_list (GisNetworkPage *page) { GisNetworkPagePrivate *priv = gis_network_page_get_instance_private (page); NMAccessPoint *active_ap = NULL; NMAccessPoint *ap; const GPtrArray *aps; GPtrArray *unique_aps; guint i; GList *children, *l; priv->refreshing = TRUE; g_assert (NM_IS_DEVICE_WIFI (priv->nm_device)); if (priv->refresh_timeout_id != 0) { g_source_remove (priv->refresh_timeout_id); priv->refresh_timeout_id = 0; } active_ap = nm_device_wifi_get_active_access_point (NM_DEVICE_WIFI (priv->nm_device)); children = gtk_container_get_children (GTK_CONTAINER (priv->network_list)); for (l = children; l; l = l->next) gtk_container_remove (GTK_CONTAINER (priv->network_list), l->data); g_list_free (children); aps = nm_device_wifi_get_access_points (NM_DEVICE_WIFI (priv->nm_device)); if (aps == NULL || aps->len == 0) { gboolean enabled, hw_enabled; enabled = nm_client_wireless_get_enabled (priv->nm_client); hw_enabled = nm_client_wireless_hardware_get_enabled (priv->nm_client); if (!enabled || !hw_enabled) { gtk_label_set_text (GTK_LABEL (priv->no_network_label), _("Wireless networking is disabled")); gtk_widget_show (priv->no_network_label); gtk_widget_hide (priv->no_network_spinner); gtk_widget_set_visible (priv->turn_on_label, hw_enabled); gtk_widget_set_visible (priv->turn_on_switch, hw_enabled); } else { gtk_label_set_text (GTK_LABEL (priv->no_network_label), _("Checking for available wireless networks")); gtk_widget_show (priv->no_network_spinner); gtk_widget_show (priv->no_network_label); gtk_widget_hide (priv->turn_on_label); gtk_widget_hide (priv->turn_on_switch); } gtk_widget_hide (priv->scrolled_window); priv->refresh_timeout_id = g_timeout_add_seconds (1, refresh_again, page); goto out; } else { gtk_widget_hide (priv->no_network_spinner); gtk_widget_hide (priv->no_network_label); gtk_widget_hide (priv->turn_on_label); gtk_widget_hide (priv->turn_on_switch); gtk_widget_show (priv->scrolled_window); } unique_aps = get_strongest_unique_aps (aps); for (i = 0; i < unique_aps->len; i++) { ap = NM_ACCESS_POINT (g_ptr_array_index (unique_aps, i)); add_access_point (page, ap, active_ap); } g_ptr_array_unref (unique_aps); add_access_point_other (page); out: priv->refreshing = FALSE; }
void WifiStatusNM::setConnectedAccessPoint(WifiAccessPoint *ap, String psk) { ScopedPointer<StringArray> cmd; for (const auto& listener : listeners) listener->handleWifiBusy(); // disconnect if no ap provided if (ap == nullptr) { NMActiveConnection *conn = nm_device_get_active_connection(nmdevice); removeNMConnection(nmdevice, conn); return; } // try to connect to ap, dispatch events on success and failure else { NMConnection *connection = NULL; NMSettingWireless *s_wifi = NULL; NMSettingWirelessSecurity *s_wsec = NULL; const char *nm_ap_path = NULL; const GPtrArray *ap_list; NMAccessPoint *candidate_ap; //FIXME: expand WifiAccessPoint struct to know which NMAccessPoint it is ap_list = nm_device_wifi_get_access_points(NM_DEVICE_WIFI(nmdevice)); if (ap_list == NULL) return; for (int i = 0; i < ap_list->len; i++) { const char *candidate_hash; candidate_ap = (NMAccessPoint *) g_ptr_array_index(ap_list, i); candidate_hash = utils_hash_ap(nm_access_point_get_ssid(candidate_ap), nm_access_point_get_mode(candidate_ap), nm_access_point_get_flags(candidate_ap), nm_access_point_get_wpa_flags(candidate_ap), nm_access_point_get_rsn_flags(candidate_ap)); if (ap->hash == candidate_hash) { nm_ap_path = nm_object_get_path(NM_OBJECT(candidate_ap)); break; } } if (!nm_ap_path) return; connecting = true; connection = nm_connection_new(); s_wifi = (NMSettingWireless *) nm_setting_wireless_new(); nm_connection_add_setting(connection, NM_SETTING(s_wifi)); g_object_set(s_wifi, NM_SETTING_WIRELESS_SSID, nm_access_point_get_ssid(candidate_ap), NM_SETTING_WIRELESS_HIDDEN, false, NULL); if (!psk.isEmpty()) { s_wsec = (NMSettingWirelessSecurity *) nm_setting_wireless_security_new(); nm_connection_add_setting(connection, NM_SETTING(s_wsec)); if (nm_access_point_get_wpa_flags(candidate_ap) == NM_802_11_AP_SEC_NONE && nm_access_point_get_rsn_flags(candidate_ap) == NM_802_11_AP_SEC_NONE) { /* WEP */ nm_setting_wireless_security_set_wep_key(s_wsec, 0, psk.toRawUTF8()); if (isValidWEPKeyFormat(psk)) g_object_set(G_OBJECT(s_wsec), NM_SETTING_WIRELESS_SECURITY_WEP_KEY_TYPE, NM_WEP_KEY_TYPE_KEY, NULL); else if (isValidWEPPassphraseFormat(psk)) g_object_set(G_OBJECT(s_wsec), NM_SETTING_WIRELESS_SECURITY_WEP_KEY_TYPE, NM_WEP_KEY_TYPE_PASSPHRASE, NULL); else DBG("User input invalid WEP Key type, psk.length() = " << psk.length() << ", not in [5,10,13,26]"); } else { g_object_set(s_wsec, NM_SETTING_WIRELESS_SECURITY_PSK, psk.toRawUTF8(), NULL); } } nm_client_add_and_activate_connection(nmclient, connection, nmdevice, nm_ap_path, handle_add_and_activate_finish, this); } }
static void detail_device (gpointer data, gpointer user_data) { NMDevice *device = NM_DEVICE (data); struct cb_info *info = user_data; char *tmp; NMDeviceState state; guint32 caps; guint32 speed; const GArray *array; int j; gboolean is_default = FALSE; const char *id = NULL; state = nm_device_get_state (device); for (j = 0; info->active && (j < info->active->len); j++) { NMActiveConnection *candidate = g_ptr_array_index (info->active, j); const GPtrArray *devices = nm_active_connection_get_devices (candidate); NMDevice *candidate_dev; NMConnection *connection; NMSettingConnection *s_con; if (!devices || !devices->len) continue; candidate_dev = g_ptr_array_index (devices, 0); if (candidate_dev == device) { if (nm_active_connection_get_default (candidate)) is_default = TRUE; connection = get_connection_for_active (candidate); if (!connection) break; s_con = (NMSettingConnection *) nm_connection_get_setting (connection, NM_TYPE_SETTING_CONNECTION); if (s_con) id = nm_setting_connection_get_id (s_con); break; } } print_header ("Device", nm_device_get_iface (device), id); /* General information */ if (NM_IS_DEVICE_ETHERNET (device)) print_string ("Type", "Wired"); else if (NM_IS_DEVICE_WIFI (device)) print_string ("Type", "802.11 WiFi"); else if (NM_IS_GSM_DEVICE (device)) print_string ("Type", "Mobile Broadband (GSM)"); else if (NM_IS_CDMA_DEVICE (device)) print_string ("Type", "Mobile Broadband (CDMA)"); else if (NM_IS_DEVICE_BT (device)) print_string ("Type", "Bluetooth"); print_string ("Driver", nm_device_get_driver (device) ? nm_device_get_driver (device) : "(unknown)"); print_string ("State", get_dev_state_string (state)); if (is_default) print_string ("Default", "yes"); else print_string ("Default", "no"); tmp = NULL; if (NM_IS_DEVICE_ETHERNET (device)) tmp = g_strdup (nm_device_ethernet_get_hw_address (NM_DEVICE_ETHERNET (device))); else if (NM_IS_DEVICE_WIFI (device)) tmp = g_strdup (nm_device_wifi_get_hw_address (NM_DEVICE_WIFI (device))); if (tmp) { print_string ("HW Address", tmp); g_free (tmp); } /* Capabilities */ caps = nm_device_get_capabilities (device); printf ("\n Capabilities:\n"); if (caps & NM_DEVICE_CAP_CARRIER_DETECT) print_string (" Carrier Detect", "yes"); speed = 0; if (NM_IS_DEVICE_ETHERNET (device)) { /* Speed in Mb/s */ speed = nm_device_ethernet_get_speed (NM_DEVICE_ETHERNET (device)); } else if (NM_IS_DEVICE_WIFI (device)) { /* Speed in b/s */ speed = nm_device_wifi_get_bitrate (NM_DEVICE_WIFI (device)); speed /= 1000; } if (speed) { char *speed_string; speed_string = g_strdup_printf ("%u Mb/s", speed); print_string (" Speed", speed_string); g_free (speed_string); } /* Wireless specific information */ if ((NM_IS_DEVICE_WIFI (device))) { guint32 wcaps; NMAccessPoint *active_ap = NULL; const char *active_bssid = NULL; const GPtrArray *aps; printf ("\n Wireless Properties\n"); wcaps = nm_device_wifi_get_capabilities (NM_DEVICE_WIFI (device)); if (wcaps & (NM_WIFI_DEVICE_CAP_CIPHER_WEP40 | NM_WIFI_DEVICE_CAP_CIPHER_WEP104)) print_string (" WEP Encryption", "yes"); if (wcaps & NM_WIFI_DEVICE_CAP_WPA) print_string (" WPA Encryption", "yes"); if (wcaps & NM_WIFI_DEVICE_CAP_RSN) print_string (" WPA2 Encryption", "yes"); if (nm_device_get_state (device) == NM_DEVICE_STATE_ACTIVATED) { active_ap = nm_device_wifi_get_active_access_point (NM_DEVICE_WIFI (device)); active_bssid = active_ap ? nm_access_point_get_hw_address (active_ap) : NULL; } printf ("\n Wireless Access Points %s\n", active_ap ? "(* = current AP)" : ""); aps = nm_device_wifi_get_access_points (NM_DEVICE_WIFI (device)); if (aps && aps->len) g_ptr_array_foreach ((GPtrArray *) aps, detail_access_point, (gpointer) active_bssid); } else if (NM_IS_DEVICE_ETHERNET (device)) { printf ("\n Wired Properties\n"); if (nm_device_ethernet_get_carrier (NM_DEVICE_ETHERNET (device))) print_string (" Carrier", "on"); else print_string (" Carrier", "off"); } /* IP Setup info */ if (state == NM_DEVICE_STATE_ACTIVATED) { NMIP4Config *cfg = nm_device_get_ip4_config (device); GSList *iter; printf ("\n IPv4 Settings:\n"); for (iter = (GSList *) nm_ip4_config_get_addresses (cfg); iter; iter = g_slist_next (iter)) { NMIP4Address *addr = (NMIP4Address *) iter->data; guint32 prefix = nm_ip4_address_get_prefix (addr); char *tmp2; tmp = ip4_address_as_string (nm_ip4_address_get_address (addr)); print_string (" Address", tmp); g_free (tmp); tmp2 = ip4_address_as_string (nm_utils_ip4_prefix_to_netmask (prefix)); tmp = g_strdup_printf ("%d (%s)", prefix, tmp2); g_free (tmp2); print_string (" Prefix", tmp); g_free (tmp); tmp = ip4_address_as_string (nm_ip4_address_get_gateway (addr)); print_string (" Gateway", tmp); g_free (tmp); printf ("\n"); } array = nm_ip4_config_get_nameservers (cfg); if (array) { int i; for (i = 0; i < array->len; i++) { tmp = ip4_address_as_string (g_array_index (array, guint32, i)); print_string (" DNS", tmp); g_free (tmp); } } } printf ("\n\n"); }