*
* Connection Manager
*
- * Copyright (C) 2007-2012 Intel Corporation. All rights reserved.
+ * Copyright (C) 2007-2014 Intel Corporation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
#include <string.h>
#include <sys/ioctl.h>
#include <sys/socket.h>
-#include <linux/if_arp.h>
-#include <linux/wireless.h>
#include <net/ethernet.h>
+#include <linux/wireless.h>
#ifndef IFF_LOWER_UP
#define IFF_LOWER_UP 0x10000
#include <connman/device.h>
#include <connman/rtnl.h>
#include <connman/technology.h>
+#include <connman/service.h>
+#include <connman/peer.h>
#include <connman/log.h>
#include <connman/option.h>
#include <connman/storage.h>
#include <include/setting.h>
+#include <connman/provision.h>
+#include <connman/utsname.h>
+#include <connman/machine.h>
+#include <connman/tethering.h>
#include <gsupplicant/gsupplicant.h>
+#include "src/shared/util.h"
+
#define CLEANUP_TIMEOUT 8 /* in seconds */
#define INACTIVE_TIMEOUT 12 /* in seconds */
-#define MAXIMUM_RETRIES 4
+#define FAVORITE_MAXIMUM_RETRIES 2
+
+#define BGSCAN_DEFAULT "simple:30:-65:300"
+#define AUTOSCAN_EXPONENTIAL "exponential:3:300"
+#define AUTOSCAN_SINGLE "single:3"
+
+#define P2P_FIND_TIMEOUT 30
+#define P2P_CONNECTION_TIMEOUT 100
+#define P2P_LISTEN_PERIOD 500
+#define P2P_LISTEN_INTERVAL 2000
-#define BGSCAN_DEFAULT "simple:30:-45:300"
-#define AUTOSCAN_DEFAULT "exponential:3:300"
+#define ASSOC_STATUS_NO_CLIENT 17
+#define LOAD_SHAPING_MAX_RETRIES 3
static struct connman_technology *wifi_technology = NULL;
+static struct connman_technology *p2p_technology = NULL;
+
+enum wifi_ap_capability{
+ WIFI_AP_UNKNOWN = 0,
+ WIFI_AP_SUPPORTED = 1,
+ WIFI_AP_NOT_SUPPORTED = 2,
+};
+
+enum wifi_scanning_type {
+ WIFI_SCANNING_UNKNOWN = 0,
+ WIFI_SCANNING_PASSIVE = 1,
+ WIFI_SCANNING_ACTIVE = 2,
+};
struct hidden_params {
char ssid[32];
unsigned int ssid_len;
char *identity;
+ char *anonymous_identity;
+ char *subject_match;
+ char *altsubject_match;
+ char *domain_suffix_match;
+ char *domain_match;
char *passphrase;
+ char *security;
+ GSupplicantScanParams *scan_params;
+ gpointer user_data;
};
/**
unsigned int timeout;
};
+struct wifi_tethering_info {
+ struct wifi_data *wifi;
+ struct connman_technology *technology;
+ char *ifname;
+ GSupplicantSSID *ssid;
+};
+
struct wifi_data {
char *identifier;
struct connman_device *device;
GSList *networks;
GSupplicantInterface *interface;
GSupplicantState state;
- connman_bool_t connected;
- connman_bool_t disconnecting;
- connman_bool_t tethering;
- connman_bool_t bridged;
+ bool connected;
+ bool disconnecting;
+ bool tethering;
+ enum wifi_ap_capability ap_supported;
+ bool bridged;
+ bool interface_ready;
const char *bridge;
int index;
unsigned flags;
unsigned int watch;
int retries;
+ int load_shaping_retries;
struct hidden_params *hidden;
+ bool postpone_hidden;
+ struct wifi_tethering_info *tethering_param;
/**
* autoscan "emulation".
*/
struct autoscan_params *autoscan;
+ enum wifi_scanning_type scanning_type;
+ GSupplicantScanParams *scan_params;
+ unsigned int p2p_find_timeout;
+ unsigned int p2p_connection_timeout;
+ struct connman_peer *pending_peer;
+ GSList *peers;
+ bool p2p_connecting;
+ bool p2p_device;
+ int servicing;
+ int disconnect_code;
+ int assoc_code;
};
static GList *iface_list = NULL;
+static GList *pending_wifi_device = NULL;
+static GList *p2p_iface_list = NULL;
+static bool wfd_service_registered = false;
+
+static void start_autoscan(struct connman_device *device);
+static int tech_set_tethering(struct connman_technology *technology,
+ const char *identifier, const char *passphrase,
+ const char *bridge, bool enabled);
+
+static int p2p_tech_probe(struct connman_technology *technology)
+{
+ p2p_technology = technology;
+
+ return 0;
+}
+
+static void p2p_tech_remove(struct connman_technology *technology)
+{
+ p2p_technology = NULL;
+}
+
+static struct connman_technology_driver p2p_tech_driver = {
+ .name = "p2p",
+ .type = CONNMAN_SERVICE_TYPE_P2P,
+ .probe = p2p_tech_probe,
+ .remove = p2p_tech_remove,
+};
+
+static bool is_p2p_connecting(void)
+{
+ GList *list;
+
+ for (list = iface_list; list; list = list->next) {
+ struct wifi_data *wifi = list->data;
+
+ if (wifi->p2p_connecting)
+ return true;
+ }
+
+ return false;
+}
+
+static void add_pending_wifi_device(struct wifi_data *wifi)
+{
+ if (g_list_find(pending_wifi_device, wifi))
+ return;
+
+ pending_wifi_device = g_list_append(pending_wifi_device, wifi);
+}
+
+static struct wifi_data *get_pending_wifi_data(const char *ifname)
+{
+ GList *list;
+
+ for (list = pending_wifi_device; list; list = list->next) {
+ struct wifi_data *wifi;
+ const char *dev_name;
+
+ wifi = list->data;
+ if (!wifi || !wifi->device)
+ continue;
+
+ dev_name = connman_device_get_string(wifi->device, "Interface");
+ if (!g_strcmp0(ifname, dev_name)) {
+ pending_wifi_device = g_list_delete_link(
+ pending_wifi_device, list);
+ return wifi;
+ }
+ }
+
+ return NULL;
+}
+
+static void remove_pending_wifi_device(struct wifi_data *wifi)
+{
+ GList *link;
+
+ link = g_list_find(pending_wifi_device, wifi);
+
+ if (!link)
+ return;
+
+ pending_wifi_device = g_list_delete_link(pending_wifi_device, link);
+}
+
+static void peer_cancel_timeout(struct wifi_data *wifi)
+{
+ if (wifi->p2p_connection_timeout > 0)
+ g_source_remove(wifi->p2p_connection_timeout);
+
+ wifi->p2p_connection_timeout = 0;
+ wifi->p2p_connecting = false;
+
+ if (wifi->pending_peer) {
+ connman_peer_unref(wifi->pending_peer);
+ wifi->pending_peer = NULL;
+ }
+}
+
+static gboolean peer_connect_timeout(gpointer data)
+{
+ struct wifi_data *wifi = data;
+
+ DBG("");
+
+ if (wifi->p2p_connecting) {
+ enum connman_peer_state state = CONNMAN_PEER_STATE_FAILURE;
+ GSupplicantPeer *gs_peer =
+ g_supplicant_interface_peer_lookup(wifi->interface,
+ connman_peer_get_identifier(wifi->pending_peer));
+
+ if (g_supplicant_peer_has_requested_connection(gs_peer))
+ state = CONNMAN_PEER_STATE_IDLE;
+
+ connman_peer_set_state(wifi->pending_peer, state);
+ }
+
+ peer_cancel_timeout(wifi);
+
+ return FALSE;
+}
+
+static void peer_connect_callback(int result, GSupplicantInterface *interface,
+ void *user_data)
+{
+ struct wifi_data *wifi = user_data;
+ struct connman_peer *peer = wifi->pending_peer;
+
+ DBG("peer %p - %d", peer, result);
+
+ if (!peer)
+ return;
+
+ if (result < 0) {
+ peer_connect_timeout(wifi);
+ return;
+ }
+
+ connman_peer_set_state(peer, CONNMAN_PEER_STATE_ASSOCIATION);
+
+ wifi->p2p_connection_timeout = g_timeout_add_seconds(
+ P2P_CONNECTION_TIMEOUT,
+ peer_connect_timeout, wifi);
+}
+
+static int peer_connect(struct connman_peer *peer,
+ enum connman_peer_wps_method wps_method,
+ const char *wps_pin)
+{
+ struct connman_device *device = connman_peer_get_device(peer);
+ GSupplicantPeerParams *peer_params;
+ GSupplicantPeer *gs_peer;
+ struct wifi_data *wifi;
+ bool pbc, pin;
+ int ret;
+
+ DBG("peer %p", peer);
+
+ if (!device)
+ return -ENODEV;
+
+ wifi = connman_device_get_data(device);
+ if (!wifi || !wifi->interface)
+ return -ENODEV;
+
+ if (wifi->p2p_connecting)
+ return -EBUSY;
+
+ gs_peer = g_supplicant_interface_peer_lookup(wifi->interface,
+ connman_peer_get_identifier(peer));
+ if (!gs_peer)
+ return -EINVAL;
+
+ pbc = g_supplicant_peer_is_wps_pbc(gs_peer);
+ pin = g_supplicant_peer_is_wps_pin(gs_peer);
+
+ switch (wps_method) {
+ case CONNMAN_PEER_WPS_UNKNOWN:
+ if ((pbc && pin) || pin)
+ return -ENOKEY;
+ break;
+ case CONNMAN_PEER_WPS_PBC:
+ if (!pbc)
+ return -EINVAL;
+ wps_pin = NULL;
+ break;
+ case CONNMAN_PEER_WPS_PIN:
+ if (!pin || !wps_pin)
+ return -EINVAL;
+ break;
+ }
+
+ peer_params = g_try_malloc0(sizeof(GSupplicantPeerParams));
+ if (!peer_params)
+ return -ENOMEM;
+
+ peer_params->path = g_strdup(g_supplicant_peer_get_path(gs_peer));
+ if (wps_pin)
+ peer_params->wps_pin = g_strdup(wps_pin);
+
+ peer_params->master = connman_peer_service_is_master();
+
+ ret = g_supplicant_interface_p2p_connect(wifi->interface, peer_params,
+ peer_connect_callback, wifi);
+ if (ret == -EINPROGRESS) {
+ wifi->pending_peer = connman_peer_ref(peer);
+ wifi->p2p_connecting = true;
+ } else if (ret < 0) {
+ g_free(peer_params->path);
+ g_free(peer_params->wps_pin);
+ g_free(peer_params);
+ }
+
+ return ret;
+}
+
+static int peer_disconnect(struct connman_peer *peer)
+{
+ struct connman_device *device = connman_peer_get_device(peer);
+ GSupplicantPeerParams peer_params = {};
+ GSupplicantPeer *gs_peer;
+ struct wifi_data *wifi;
+ int ret;
+
+ DBG("peer %p", peer);
+
+ if (!device)
+ return -ENODEV;
+
+ wifi = connman_device_get_data(device);
+ if (!wifi)
+ return -ENODEV;
+
+ gs_peer = g_supplicant_interface_peer_lookup(wifi->interface,
+ connman_peer_get_identifier(peer));
+ if (!gs_peer)
+ return -EINVAL;
+
+ peer_params.path = g_strdup(g_supplicant_peer_get_path(gs_peer));
+
+ ret = g_supplicant_interface_p2p_disconnect(wifi->interface,
+ &peer_params);
+ g_free(peer_params.path);
+
+ if (ret == -EINPROGRESS) {
+ peer_cancel_timeout(wifi);
+ wifi->p2p_device = false;
+ }
+
+ return ret;
+}
+
+struct peer_service_registration {
+ peer_service_registration_cb_t callback;
+ void *user_data;
+};
+
+static bool is_service_wfd(const unsigned char *specs, int length)
+{
+ if (length < 9 || specs[0] != 0 || specs[1] != 0 || specs[2] != 6)
+ return false;
+
+ return true;
+}
+
+static void apply_p2p_listen_on_iface(gpointer data, gpointer user_data)
+{
+ struct wifi_data *wifi = data;
+
+ if (!wifi->interface ||
+ !g_supplicant_interface_has_p2p(wifi->interface))
+ return;
+
+ if (!wifi->servicing) {
+ g_supplicant_interface_p2p_listen(wifi->interface,
+ P2P_LISTEN_PERIOD, P2P_LISTEN_INTERVAL);
+ }
+
+ wifi->servicing++;
+}
+
+static void register_wfd_service_cb(int result,
+ GSupplicantInterface *iface, void *user_data)
+{
+ struct peer_service_registration *reg_data = user_data;
+
+ DBG("");
+
+ if (result == 0)
+ g_list_foreach(iface_list, apply_p2p_listen_on_iface, NULL);
+
+ if (reg_data && reg_data->callback) {
+ reg_data->callback(result, reg_data->user_data);
+ g_free(reg_data);
+ }
+}
+
+static GSupplicantP2PServiceParams *fill_in_peer_service_params(
+ const unsigned char *spec,
+ int spec_length, const unsigned char *query,
+ int query_length, int version)
+{
+ GSupplicantP2PServiceParams *params;
+
+ params = g_try_malloc0(sizeof(GSupplicantP2PServiceParams));
+ if (!params)
+ return NULL;
+
+ if (version > 0) {
+ params->version = version;
+ params->service = g_memdup(spec, spec_length);
+ } else if (query_length > 0 && spec_length > 0) {
+ params->query = g_memdup(query, query_length);
+ params->query_length = query_length;
+
+ params->response = g_memdup(spec, spec_length);
+ params->response_length = spec_length;
+ } else {
+ params->wfd_ies = g_memdup(spec, spec_length);
+ params->wfd_ies_length = spec_length;
+ }
+
+ return params;
+}
+
+static void free_peer_service_params(GSupplicantP2PServiceParams *params)
+{
+ if (!params)
+ return;
+
+ g_free(params->service);
+ g_free(params->query);
+ g_free(params->response);
+ g_free(params->wfd_ies);
+
+ g_free(params);
+}
+
+static int peer_register_wfd_service(const unsigned char *specification,
+ int specification_length,
+ peer_service_registration_cb_t callback,
+ void *user_data)
+{
+ struct peer_service_registration *reg_data = NULL;
+ static GSupplicantP2PServiceParams *params;
+ int ret;
+
+ DBG("");
+
+ if (wfd_service_registered)
+ return -EBUSY;
+
+ params = fill_in_peer_service_params(specification,
+ specification_length, NULL, 0, 0);
+ if (!params)
+ return -ENOMEM;
+
+ reg_data = g_try_malloc0(sizeof(*reg_data));
+ if (!reg_data) {
+ ret = -ENOMEM;
+ goto error;
+ }
+
+ reg_data->callback = callback;
+ reg_data->user_data = user_data;
+
+ ret = g_supplicant_set_widi_ies(params,
+ register_wfd_service_cb, reg_data);
+ if (ret < 0 && ret != -EINPROGRESS)
+ goto error;
+
+ wfd_service_registered = true;
+
+ return ret;
+error:
+ free_peer_service_params(params);
+ g_free(reg_data);
+
+ return ret;
+}
+
+static void register_peer_service_cb(int result,
+ GSupplicantInterface *iface, void *user_data)
+{
+ struct wifi_data *wifi = g_supplicant_interface_get_data(iface);
+ struct peer_service_registration *reg_data = user_data;
+
+ DBG("");
+
+ if (result == 0)
+ apply_p2p_listen_on_iface(wifi, NULL);
+
+ if (reg_data->callback)
+ reg_data->callback(result, reg_data->user_data);
+
+ g_free(reg_data);
+}
+
+static int peer_register_service(const unsigned char *specification,
+ int specification_length,
+ const unsigned char *query,
+ int query_length, int version,
+ peer_service_registration_cb_t callback,
+ void *user_data)
+{
+ struct peer_service_registration *reg_data;
+ GSupplicantP2PServiceParams *params;
+ bool found = false;
+ int ret, ret_f;
+ GList *list;
+
+ DBG("");
+
+ if (specification && !version && !query &&
+ is_service_wfd(specification, specification_length)) {
+ return peer_register_wfd_service(specification,
+ specification_length, callback, user_data);
+ }
+
+ reg_data = g_try_malloc0(sizeof(*reg_data));
+ if (!reg_data)
+ return -ENOMEM;
+
+ reg_data->callback = callback;
+ reg_data->user_data = user_data;
+
+ ret_f = -EOPNOTSUPP;
+
+ for (list = iface_list; list; list = list->next) {
+ struct wifi_data *wifi = list->data;
+ GSupplicantInterface *iface = wifi->interface;
+
+ if (!g_supplicant_interface_has_p2p(iface))
+ continue;
+
+ params = fill_in_peer_service_params(specification,
+ specification_length, query,
+ query_length, version);
+ if (!params)
+ continue;
+
+ if (!found) {
+ ret_f = g_supplicant_interface_p2p_add_service(iface,
+ register_peer_service_cb, params, reg_data);
+ if (ret_f == 0 || ret_f == -EINPROGRESS)
+ found = true;
+ ret = ret_f;
+ } else
+ ret = g_supplicant_interface_p2p_add_service(iface,
+ register_peer_service_cb, params, NULL);
+ if (ret != 0 && ret != -EINPROGRESS)
+ free_peer_service_params(params);
+ }
+
+ if (ret_f != 0 && ret_f != -EINPROGRESS)
+ g_free(reg_data);
+
+ return ret_f;
+}
+
+static int peer_unregister_wfd_service(void)
+{
+ GSupplicantP2PServiceParams *params;
+ GList *list;
+
+ if (!wfd_service_registered)
+ return -EALREADY;
+
+ params = fill_in_peer_service_params(NULL, 0, NULL, 0, 0);
+ if (!params)
+ return -ENOMEM;
+
+ wfd_service_registered = false;
+
+ g_supplicant_set_widi_ies(params, NULL, NULL);
+
+ for (list = iface_list; list; list = list->next) {
+ struct wifi_data *wifi = list->data;
+
+ if (!g_supplicant_interface_has_p2p(wifi->interface))
+ continue;
+
+ wifi->servicing--;
+ if (!wifi->servicing || wifi->servicing < 0) {
+ g_supplicant_interface_p2p_listen(wifi->interface,
+ 0, 0);
+ wifi->servicing = 0;
+ }
+ }
+
+ return 0;
+}
+
+static int peer_unregister_service(const unsigned char *specification,
+ int specification_length,
+ const unsigned char *query,
+ int query_length, int version)
+{
+ GSupplicantP2PServiceParams *params;
+ bool wfd = false;
+ GList *list;
+ int ret;
+
+ if (specification && !version && !query &&
+ is_service_wfd(specification, specification_length)) {
+ ret = peer_unregister_wfd_service();
+ if (ret != 0 && ret != -EINPROGRESS)
+ return ret;
+ wfd = true;
+ }
+
+ for (list = iface_list; list; list = list->next) {
+ struct wifi_data *wifi = list->data;
+ GSupplicantInterface *iface = wifi->interface;
+
+ if (wfd)
+ goto stop_listening;
+
+ if (!g_supplicant_interface_has_p2p(iface))
+ continue;
+
+ params = fill_in_peer_service_params(specification,
+ specification_length, query,
+ query_length, version);
+ if (!params)
+ continue;
+
+ ret = g_supplicant_interface_p2p_del_service(iface, params);
+ if (ret != 0 && ret != -EINPROGRESS)
+ free_peer_service_params(params);
+stop_listening:
+ wifi->servicing--;
+ if (!wifi->servicing || wifi->servicing < 0) {
+ g_supplicant_interface_p2p_listen(iface, 0, 0);
+ wifi->servicing = 0;
+ }
+ }
+
+ return 0;
+}
+
+static struct connman_peer_driver peer_driver = {
+ .connect = peer_connect,
+ .disconnect = peer_disconnect,
+ .register_service = peer_register_service,
+ .unregister_service = peer_unregister_service,
+};
+
static void handle_tethering(struct wifi_data *wifi)
{
- if (wifi->tethering == FALSE)
+ if (!wifi->tethering)
return;
- if (wifi->bridge == NULL)
+ if (!wifi->bridge)
return;
- if (wifi->bridged == TRUE)
+ if (wifi->bridged)
return;
DBG("index %d bridge %s", wifi->index, wifi->bridge);
if (connman_inet_add_to_bridge(wifi->index, wifi->bridge) < 0)
return;
- wifi->bridged = TRUE;
+ wifi->bridged = true;
}
static void wifi_newlink(unsigned flags, unsigned change, void *user_data)
struct connman_device *device = user_data;
struct wifi_data *wifi = connman_device_get_data(device);
- DBG("index %d flags %d change %d", wifi->index, flags, change);
-
- if (!change)
+ if (!wifi)
return;
+ DBG("index %d flags %d change %d", wifi->index, flags, change);
+
if ((wifi->flags & IFF_UP) != (flags & IFF_UP)) {
if (flags & IFF_UP)
DBG("interface up");
DBG("device %p", device);
wifi = g_try_new0(struct wifi_data, 1);
- if (wifi == NULL)
+ if (!wifi)
return -ENOMEM;
- wifi->connected = FALSE;
- wifi->disconnecting = FALSE;
- wifi->tethering = FALSE;
- wifi->bridged = FALSE;
- wifi->bridge = NULL;
wifi->state = G_SUPPLICANT_STATE_INACTIVE;
+ wifi->ap_supported = WIFI_AP_UNKNOWN;
+ wifi->tethering_param = NULL;
connman_device_set_data(device, wifi);
wifi->device = connman_device_ref(device);
wifi->watch = connman_rtnl_add_newlink_watch(wifi->index,
wifi_newlink, device);
-
- iface_list = g_list_append(iface_list, wifi);
+ if (is_p2p_connecting())
+ add_pending_wifi_device(wifi);
+ else
+ iface_list = g_list_append(iface_list, wifi);
return 0;
}
{
GSList *list;
- for (list = wifi->networks; list != NULL; list = list->next) {
+ for (list = wifi->networks; list; list = list->next) {
struct connman_network *network = list->data;
connman_device_remove_network(device, network);
wifi->networks = NULL;
}
-static void stop_autoscan(struct connman_device *device)
+static void remove_peers(struct wifi_data *wifi)
+{
+ GSList *list;
+
+ for (list = wifi->peers; list; list = list->next) {
+ struct connman_peer *peer = list->data;
+
+ connman_peer_unregister(peer);
+ connman_peer_unref(peer);
+ }
+
+ g_slist_free(wifi->peers);
+ wifi->peers = NULL;
+}
+
+static void reset_autoscan(struct connman_device *device)
{
struct wifi_data *wifi = connman_device_get_data(device);
struct autoscan_params *autoscan;
DBG("");
- if (wifi == NULL || wifi->autoscan == NULL)
+ if (!wifi || !wifi->autoscan)
return;
autoscan = wifi->autoscan;
- if (autoscan->timeout == 0 && autoscan->interval == 0)
+ autoscan->interval = 0;
+
+ if (autoscan->timeout == 0)
return;
g_source_remove(autoscan->timeout);
-
autoscan->timeout = 0;
- autoscan->interval = 0;
- connman_device_set_scanning(device, FALSE);
+ connman_device_unref(device);
+}
+
+static void stop_autoscan(struct connman_device *device)
+{
+ const struct wifi_data *wifi = connman_device_get_data(device);
+
+ if (!wifi || !wifi->autoscan)
+ return;
+
+ reset_autoscan(device);
+
+ connman_device_set_scanning(device, CONNMAN_SERVICE_TYPE_WIFI, false);
+}
+
+static void check_p2p_technology(void)
+{
+ bool p2p_exists = false;
+ GList *list;
+
+ for (list = iface_list; list; list = list->next) {
+ struct wifi_data *w = list->data;
+
+ if (w->interface &&
+ g_supplicant_interface_has_p2p(w->interface))
+ p2p_exists = true;
+ }
- connman_device_unref(device);
+ if (!p2p_exists) {
+ connman_technology_driver_unregister(&p2p_tech_driver);
+ connman_peer_driver_unregister(&peer_driver);
+ }
}
static void wifi_remove(struct connman_device *device)
DBG("device %p wifi %p", device, wifi);
- if (wifi == NULL)
+ if (!wifi)
return;
stop_autoscan(device);
- iface_list = g_list_remove(iface_list, wifi);
+ if (wifi->p2p_device)
+ p2p_iface_list = g_list_remove(p2p_iface_list, wifi);
+ else
+ iface_list = g_list_remove(iface_list, wifi);
+
+ check_p2p_technology();
+
+ remove_pending_wifi_device(wifi);
+
+ if (connman_device_get_scanning(device, CONNMAN_SERVICE_TYPE_P2P)) {
+ g_source_remove(wifi->p2p_find_timeout);
+ connman_device_unref(wifi->device);
+ }
+
+ if (wifi->p2p_connection_timeout)
+ g_source_remove(wifi->p2p_connection_timeout);
remove_networks(device, wifi);
+ remove_peers(wifi);
- connman_device_set_powered(device, FALSE);
+ connman_device_set_powered(device, false);
connman_device_set_data(device, NULL);
connman_device_unref(wifi->device);
connman_rtnl_remove_watch(wifi->watch);
g_supplicant_interface_set_data(wifi->interface, NULL);
+ g_supplicant_interface_cancel(wifi->interface);
+
+ if (wifi->scan_params)
+ g_supplicant_free_scan_params(wifi->scan_params);
+
g_free(wifi->autoscan);
g_free(wifi->identifier);
g_free(wifi);
}
-static int add_scan_param(gchar *hex_ssid, int freq,
- GSupplicantScanParams *scan_data,
- int driver_max_scan_ssids)
+static bool is_duplicate(GSList *list, gchar *ssid, int ssid_len)
+{
+ GSList *iter;
+
+ for (iter = list; iter; iter = g_slist_next(iter)) {
+ struct scan_ssid *scan_ssid = iter->data;
+
+ if (ssid_len == scan_ssid->ssid_len &&
+ memcmp(ssid, scan_ssid->ssid, ssid_len) == 0)
+ return true;
+ }
+
+ return false;
+}
+
+static int add_scan_param(gchar *hex_ssid, char *raw_ssid, int ssid_len,
+ int freq, GSupplicantScanParams *scan_data,
+ int driver_max_scan_ssids, char *ssid_name)
{
unsigned int i;
struct scan_ssid *scan_ssid;
- if (driver_max_scan_ssids > scan_data->num_ssids && hex_ssid != NULL) {
+ if ((driver_max_scan_ssids == 0 ||
+ driver_max_scan_ssids > scan_data->num_ssids) &&
+ (hex_ssid || raw_ssid)) {
gchar *ssid;
unsigned int j = 0, hex;
- size_t hex_ssid_len = strlen(hex_ssid);
- ssid = g_try_malloc0(hex_ssid_len / 2);
- if (ssid == NULL)
- return -ENOMEM;
+ if (hex_ssid) {
+ size_t hex_ssid_len = strlen(hex_ssid);
+
+ ssid = g_try_malloc0(hex_ssid_len / 2);
+ if (!ssid)
+ return -ENOMEM;
- for (i = 0; i < hex_ssid_len; i += 2) {
- sscanf(hex_ssid + i, "%02x", &hex);
- ssid[j++] = hex;
+ for (i = 0; i < hex_ssid_len; i += 2) {
+ sscanf(hex_ssid + i, "%02x", &hex);
+ ssid[j++] = hex;
+ }
+ } else {
+ ssid = raw_ssid;
+ j = ssid_len;
+ }
+
+ /*
+ * If we have already added hidden AP to the list,
+ * then do not do it again. This might happen if you have
+ * used or are using multiple wifi cards, so in that case
+ * you might have multiple service files for same AP.
+ */
+ if (is_duplicate(scan_data->ssids, ssid, j)) {
+ if (hex_ssid)
+ g_free(ssid);
+ return 0;
}
scan_ssid = g_try_new(struct scan_ssid, 1);
- if (scan_ssid == NULL) {
- g_free(ssid);
+ if (!scan_ssid) {
+ if (hex_ssid)
+ g_free(ssid);
return -ENOMEM;
}
scan_data->num_ssids++;
- g_free(ssid);
+ DBG("SSID %s added to scanned list of %d entries", ssid_name,
+ scan_data->num_ssids);
+
+ if (hex_ssid)
+ g_free(ssid);
} else
return -EINVAL;
scan_data->ssids = g_slist_reverse(scan_data->ssids);
- if (scan_data->freqs == NULL) {
- scan_data->freqs = g_try_malloc0(sizeof(uint16_t) *
- scan_data->num_ssids);
- if (scan_data->freqs == NULL) {
+ if (!scan_data->freqs) {
+ scan_data->freqs = g_try_malloc0(sizeof(uint16_t));
+ if (!scan_data->freqs) {
g_slist_free_full(scan_data->ssids, g_free);
return -ENOMEM;
}
+
+ scan_data->num_freqs = 1;
+ scan_data->freqs[0] = freq;
} else {
- scan_data->freqs = g_try_realloc(scan_data->freqs,
- sizeof(uint16_t) * scan_data->num_ssids);
- if (scan_data->freqs == NULL) {
- g_slist_free_full(scan_data->ssids, g_free);
- return -ENOMEM;
+ bool duplicate = false;
+
+ /* Don't add duplicate entries */
+ for (i = 0; i < scan_data->num_freqs; i++) {
+ if (scan_data->freqs[i] == freq) {
+ duplicate = true;
+ break;
+ }
}
- scan_data->freqs[scan_data->num_ssids - 1] = 0;
- }
- /* Don't add duplicate entries */
- for (i = 0; i < scan_data->num_ssids; i++) {
- if (scan_data->freqs[i] == 0) {
- scan_data->freqs[i] = freq;
- break;
- } else if (scan_data->freqs[i] == freq)
- break;
+ if (!duplicate) {
+ scan_data->num_freqs++;
+ scan_data->freqs = g_try_realloc(scan_data->freqs,
+ sizeof(uint16_t) * scan_data->num_freqs);
+ if (!scan_data->freqs) {
+ g_slist_free_full(scan_data->ssids, g_free);
+ return -ENOMEM;
+ }
+ scan_data->freqs[scan_data->num_freqs - 1] = freq;
+ }
}
- return 0;
+ return 1;
}
-static int get_hidden_connections(int max_ssids,
- GSupplicantScanParams *scan_data)
+static int get_hidden_connections(GSupplicantScanParams *scan_data)
{
+ struct connman_config_entry **entries;
GKeyFile *keyfile;
gchar **services;
- char *ssid;
- gchar *str;
- int i, freq;
- gboolean value;
+ char *ssid, *name;
+ int i, ret;
+ bool value;
int num_ssids = 0, add_param_failed = 0;
services = connman_storage_get_services();
continue;
keyfile = connman_storage_load_service(services[i]);
+ if (!keyfile)
+ continue;
value = g_key_file_get_boolean(keyfile,
services[i], "Hidden", NULL);
- if (value == FALSE) {
+ if (!value) {
g_key_file_free(keyfile);
continue;
}
value = g_key_file_get_boolean(keyfile,
services[i], "Favorite", NULL);
- if (value == FALSE) {
- g_key_file_free(keyfile);
- continue;
- }
-
- value = g_key_file_get_boolean(keyfile,
- services[i], "AutoConnect", NULL);
- if (value == FALSE) {
+ if (!value) {
g_key_file_free(keyfile);
continue;
}
ssid = g_key_file_get_string(keyfile,
services[i], "SSID", NULL);
- freq = g_key_file_get_integer(keyfile, services[i],
- "Frequency", NULL);
+ name = g_key_file_get_string(keyfile, services[i], "Name",
+ NULL);
- if (add_scan_param(ssid, freq, scan_data, max_ssids) < 0) {
- str = g_key_file_get_string(keyfile,
- services[i], "Name", NULL);
- DBG("Cannot scan %s (%s)", ssid, str);
- g_free(str);
+ ret = add_scan_param(ssid, NULL, 0, 0, scan_data, 0, name);
+ if (ret < 0)
add_param_failed++;
+ else if (ret > 0)
+ num_ssids++;
+
+ g_free(ssid);
+ g_free(name);
+ g_key_file_free(keyfile);
+ }
+
+ /*
+ * Check if there are any hidden AP that needs to be provisioned.
+ */
+ entries = connman_config_get_entries("wifi");
+ for (i = 0; entries && entries[i]; i++) {
+ int len;
+
+ if (!entries[i]->hidden)
+ continue;
+
+ if (!entries[i]->ssid) {
+ ssid = entries[i]->name;
+ len = strlen(ssid);
+ } else {
+ ssid = entries[i]->ssid;
+ len = entries[i]->ssid_len;
}
- num_ssids++;
+ if (!ssid)
+ continue;
- g_key_file_free(keyfile);
+ ret = add_scan_param(NULL, ssid, len, 0, scan_data, 0, ssid);
+ if (ret < 0)
+ add_param_failed++;
+ else if (ret > 0)
+ num_ssids++;
}
+ connman_config_free_entries(entries);
+
if (add_param_failed > 0)
- connman_warn("Unable to scan %d out of %d SSIDs (max is %d)",
- add_param_failed, num_ssids, max_ssids);
+ DBG("Unable to scan %d out of %d SSIDs",
+ add_param_failed, num_ssids);
g_strfreev(services);
- return num_ssids > max_ssids ? max_ssids : num_ssids;
+ return num_ssids;
+}
+
+static int get_hidden_connections_params(struct wifi_data *wifi,
+ GSupplicantScanParams *scan_params)
+{
+ int driver_max_ssids, i;
+ GSupplicantScanParams *orig_params;
+
+ /*
+ * Scan hidden networks so that we can autoconnect to them.
+ * We will assume 1 as a default number of ssid to scan.
+ */
+ driver_max_ssids = g_supplicant_interface_get_max_scan_ssids(
+ wifi->interface);
+ if (driver_max_ssids == 0)
+ driver_max_ssids = 1;
+
+ DBG("max ssids %d", driver_max_ssids);
+
+ if (!wifi->scan_params) {
+ wifi->scan_params = g_try_malloc0(sizeof(GSupplicantScanParams));
+ if (!wifi->scan_params)
+ return 0;
+
+ if (get_hidden_connections(wifi->scan_params) == 0) {
+ g_supplicant_free_scan_params(wifi->scan_params);
+ wifi->scan_params = NULL;
+
+ return 0;
+ }
+ }
+
+ orig_params = wifi->scan_params;
+
+ /* Let's transfer driver_max_ssids params */
+ for (i = 0; i < driver_max_ssids; i++) {
+ struct scan_ssid *ssid;
+
+ if (!wifi->scan_params->ssids)
+ break;
+
+ ssid = orig_params->ssids->data;
+ orig_params->ssids = g_slist_remove(orig_params->ssids, ssid);
+ scan_params->ssids = g_slist_prepend(scan_params->ssids, ssid);
+ }
+
+ if (i > 0) {
+ scan_params->num_ssids = i;
+ scan_params->ssids = g_slist_reverse(scan_params->ssids);
+
+ scan_params->freqs = g_memdup(orig_params->freqs,
+ sizeof(uint16_t) * orig_params->num_freqs);
+ if (!scan_params->freqs)
+ goto err;
+
+ scan_params->num_freqs = orig_params->num_freqs;
+
+ } else
+ goto err;
+
+ orig_params->num_ssids -= scan_params->num_ssids;
+
+ return scan_params->num_ssids;
+
+err:
+ g_slist_free_full(scan_params->ssids, g_free);
+ g_supplicant_free_scan_params(wifi->scan_params);
+ wifi->scan_params = NULL;
+
+ return 0;
}
static int throw_wifi_scan(struct connman_device *device,
struct wifi_data *wifi = connman_device_get_data(device);
int ret;
+ if (!wifi)
+ return -ENODEV;
+
DBG("device %p %p", device, wifi->interface);
- if (wifi->tethering == TRUE)
- return 0;
+ if (wifi->tethering)
+ return -EBUSY;
+
+ if (connman_device_get_scanning(device, CONNMAN_SERVICE_TYPE_WIFI))
+ return -EALREADY;
connman_device_ref(device);
ret = g_supplicant_interface_scan(wifi->interface, NULL,
callback, device);
- if (ret == 0)
- connman_device_set_scanning(device, TRUE);
- else
+ if (ret == 0) {
+ connman_device_set_scanning(device,
+ CONNMAN_SERVICE_TYPE_WIFI, true);
+ } else
connman_device_unref(device);
return ret;
}
-static void hidden_scan_callback(int result,
- GSupplicantInterface *interface, void *user_data)
+static void hidden_free(struct hidden_params *hidden)
+{
+ if (!hidden)
+ return;
+
+ if (hidden->scan_params)
+ g_supplicant_free_scan_params(hidden->scan_params);
+ g_free(hidden->identity);
+ g_free(hidden->passphrase);
+ g_free(hidden->security);
+ g_free(hidden);
+}
+
+static void scan_callback(int result, GSupplicantInterface *interface,
+ void *user_data)
{
struct connman_device *device = user_data;
+ struct wifi_data *wifi = connman_device_get_data(device);
+ bool scanning;
- DBG("result %d", result);
+ DBG("result %d wifi %p", result, wifi);
- connman_device_set_scanning(device, FALSE);
- connman_device_unref(device);
+ if (wifi) {
+ if (wifi->hidden && !wifi->postpone_hidden) {
+ connman_network_clear_hidden(wifi->hidden->user_data);
+ hidden_free(wifi->hidden);
+ wifi->hidden = NULL;
+ }
+
+ if (wifi->scan_params) {
+ g_supplicant_free_scan_params(wifi->scan_params);
+ wifi->scan_params = NULL;
+ }
+ }
+
+ if (result < 0)
+ connman_device_reset_scanning(device);
+
+ /* User is connecting to a hidden AP, let's wait for finished event */
+ if (wifi && wifi->hidden && wifi->postpone_hidden) {
+ GSupplicantScanParams *scan_params;
+ int ret;
+
+ wifi->postpone_hidden = false;
+ scan_params = wifi->hidden->scan_params;
+ wifi->hidden->scan_params = NULL;
+
+ reset_autoscan(device);
+
+ ret = g_supplicant_interface_scan(wifi->interface, scan_params,
+ scan_callback, device);
+ if (ret == 0)
+ return;
+
+ /* On error, let's recall scan_callback, which will cleanup */
+ return scan_callback(ret, interface, user_data);
+ }
+
+ scanning = connman_device_get_scanning(device, CONNMAN_SERVICE_TYPE_WIFI);
+
+ if (scanning) {
+ connman_device_set_scanning(device,
+ CONNMAN_SERVICE_TYPE_WIFI, false);
+ }
+
+ if (result != -ENOLINK)
+ start_autoscan(device);
+
+ /*
+ * If we are here then we were scanning; however, if we are
+ * also mid-flight disabling the interface, then wifi_disable
+ * has already cleared the device scanning state and
+ * unreferenced the device, obviating the need to do it here.
+ */
+
+ if (scanning)
+ connman_device_unref(device);
}
-static void autoscan_scan_callback(int result,
+static void scan_callback_hidden(int result,
GSupplicantInterface *interface, void *user_data)
{
struct connman_device *device = user_data;
struct wifi_data *wifi = connman_device_get_data(device);
- int driver_max_ssids;
+ GSupplicantScanParams *scan_params;
+ int ret;
- DBG("result %d", result);
+ DBG("result %d wifi %p", result, wifi);
- /*
- * Scan hidden networks so that we can autoconnect to them.
- */
- driver_max_ssids = g_supplicant_interface_get_max_scan_ssids(
- wifi->interface);
- DBG("max ssids %d", driver_max_ssids);
+ if (!wifi)
+ goto out;
- if (driver_max_ssids > 0) {
- GSupplicantScanParams *scan_params;
- int ret;
+ /* User is trying to connect to a hidden AP */
+ if (wifi->hidden && wifi->postpone_hidden)
+ goto out;
- scan_params = g_try_malloc0(sizeof(GSupplicantScanParams));
- if (scan_params == NULL)
- goto out;
+ scan_params = g_try_malloc0(sizeof(GSupplicantScanParams));
+ if (!scan_params)
+ goto out;
- if (get_hidden_connections(driver_max_ssids,
- scan_params) > 0) {
- ret = g_supplicant_interface_scan(wifi->interface,
+ if (get_hidden_connections_params(wifi, scan_params) > 0) {
+ ret = g_supplicant_interface_scan(wifi->interface,
scan_params,
- hidden_scan_callback,
+ scan_callback_hidden,
device);
- if (ret == 0)
- return;
- }
-
- g_supplicant_free_scan_params(scan_params);
+ if (ret == 0)
+ return;
}
+ g_supplicant_free_scan_params(scan_params);
+
out:
- connman_device_set_scanning(device, FALSE);
- connman_device_unref(device);
+ scan_callback(result, interface, user_data);
}
static gboolean autoscan_timeout(gpointer data)
struct autoscan_params *autoscan;
int interval;
+ if (!wifi)
+ return FALSE;
+
autoscan = wifi->autoscan;
if (autoscan->interval <= 0) {
} else
interval = autoscan->interval * autoscan->base;
- if (autoscan->interval >= autoscan->limit)
+ if (interval > autoscan->limit)
interval = autoscan->limit;
- throw_wifi_scan(wifi->device, autoscan_scan_callback);
+ throw_wifi_scan(wifi->device, scan_callback_hidden);
+
+ /*
+ * In case BackgroundScanning is disabled, interval will reach the
+ * limit exactly after the very first passive scanning. It allows
+ * to ensure at most one passive scan is performed in such cases.
+ */
+ if (!connman_setting_get_bool("BackgroundScanning") &&
+ interval == autoscan->limit) {
+ g_source_remove(autoscan->timeout);
+ autoscan->timeout = 0;
+
+ connman_device_unref(device);
+
+ return FALSE;
+ }
set_interval:
DBG("interval %d", interval);
DBG("");
- if (wifi == NULL)
+ if (!wifi)
+ return;
+
+ if (wifi->p2p_device)
+ return;
+
+ if (wifi->connected)
return;
autoscan = wifi->autoscan;
- if (autoscan == NULL)
+ if (!autoscan)
return;
if (autoscan->timeout > 0 || autoscan->interval > 0)
int limit;
int base;
- DBG("Emulating autoscan");
+ DBG("");
list_params = g_strsplit(params, ":", 0);
if (list_params == 0)
return NULL;
- if (g_strv_length(list_params) < 3) {
+ if (!g_strcmp0(list_params[0], "exponential") &&
+ g_strv_length(list_params) == 3) {
+ base = atoi(list_params[1]);
+ limit = atoi(list_params[2]);
+ } else if (!g_strcmp0(list_params[0], "single") &&
+ g_strv_length(list_params) == 2)
+ base = limit = atoi(list_params[1]);
+ else {
g_strfreev(list_params);
return NULL;
}
- base = atoi(list_params[1]);
- limit = atoi(list_params[2]);
+ DBG("Setup %s autoscanning", list_params[0]);
g_strfreev(list_params);
autoscan = g_try_malloc0(sizeof(struct autoscan_params));
- if (autoscan == NULL) {
+ if (!autoscan) {
DBG("Could not allocate memory for autoscan");
return NULL;
}
static void setup_autoscan(struct wifi_data *wifi)
{
- if (wifi->autoscan == NULL)
- wifi->autoscan = parse_autoscan_params(AUTOSCAN_DEFAULT);
+ /*
+ * If BackgroundScanning is enabled, setup exponential
+ * autoscanning if it has not been previously done.
+ */
+ if (connman_setting_get_bool("BackgroundScanning")) {
+ wifi->autoscan = parse_autoscan_params(AUTOSCAN_EXPONENTIAL);
+ return;
+ }
+
+ /*
+ * On the contrary, if BackgroundScanning is disabled, update autoscan
+ * parameters based on the type of scanning that is being performed.
+ */
+ if (wifi->autoscan) {
+ g_free(wifi->autoscan);
+ wifi->autoscan = NULL;
+ }
+
+ switch (wifi->scanning_type) {
+ case WIFI_SCANNING_PASSIVE:
+ /* Do not setup autoscan. */
+ break;
+ case WIFI_SCANNING_ACTIVE:
+ /* Setup one single passive scan after active. */
+ wifi->autoscan = parse_autoscan_params(AUTOSCAN_SINGLE);
+ break;
+ case WIFI_SCANNING_UNKNOWN:
+ /* Setup autoscan in this case but we should never fall here. */
+ wifi->autoscan = parse_autoscan_params(AUTOSCAN_SINGLE);
+ break;
+ }
+}
+
+static void finalize_interface_creation(struct wifi_data *wifi)
+{
+ DBG("interface is ready wifi %p tethering %d", wifi, wifi->tethering);
+
+ if (!wifi->device) {
+ connman_error("WiFi device not set");
+ return;
+ }
+
+ connman_device_set_powered(wifi->device, true);
+
+ if (wifi->p2p_device)
+ return;
+
+ if (!wifi->autoscan)
+ setup_autoscan(wifi);
start_autoscan(wifi->device);
}
g_supplicant_interface_get_ifname(interface),
wifi);
- if (result < 0 || wifi == NULL)
+ if (result < 0 || !wifi)
return;
wifi->interface = interface;
g_supplicant_interface_set_data(interface, wifi);
- if (g_supplicant_interface_get_ready(interface) == FALSE)
- return;
-
- DBG("interface is ready wifi %p tethering %d", wifi, wifi->tethering);
-
- if (wifi->device == NULL) {
- connman_error("WiFi device not set");
- return;
+ if (g_supplicant_interface_get_ready(interface)) {
+ wifi->interface_ready = true;
+ finalize_interface_creation(wifi);
}
-
- connman_device_set_powered(wifi->device, TRUE);
-
- if (connman_setting_get_bool("BackgroundScanning") == FALSE)
- return;
-
- /* Setting up automatic scanning */
- setup_autoscan(wifi);
}
static int wifi_enable(struct connman_device *device)
{
struct wifi_data *wifi = connman_device_get_data(device);
- const char *interface = connman_device_get_string(device, "Interface");
+ int index;
+ char *interface;
const char *driver = connman_option_get_string("wifi");
int ret;
DBG("device %p %p", device, wifi);
+ index = connman_device_get_index(device);
+ if (!wifi || index < 0)
+ return -ENODEV;
+
+ if (is_p2p_connecting())
+ return -EINPROGRESS;
+
+ interface = connman_inet_ifname(index);
ret = g_supplicant_interface_create(interface, driver, NULL,
interface_create_callback,
wifi);
- if (ret < 0)
- return ret;
-
- return -EINPROGRESS;
-}
-
-static int wifi_disable(struct connman_device *device)
-{
- struct wifi_data *wifi = connman_device_get_data(device);
- int ret;
+ g_free(interface);
- DBG("device %p", device);
-
- wifi->connected = FALSE;
- wifi->disconnecting = FALSE;
-
- if (wifi->pending_network != NULL)
- wifi->pending_network = NULL;
-
- remove_networks(device, wifi);
-
- ret = g_supplicant_interface_remove(wifi->interface, NULL, NULL);
if (ret < 0)
- return ret;
-
- return -EINPROGRESS;
-}
-
-static void hidden_free(struct hidden_params *hidden)
-{
- if (hidden == NULL)
- return;
+ return ret;
- g_free(hidden->identity);
- g_free(hidden->passphrase);
- g_free(hidden);
+ return -EINPROGRESS;
}
-static void scan_callback(int result, GSupplicantInterface *interface,
- void *user_data)
+static int wifi_disable(struct connman_device *device)
{
- struct connman_device *device = user_data;
struct wifi_data *wifi = connman_device_get_data(device);
+ int ret;
+
+ DBG("device %p wifi %p", device, wifi);
+
+ if (!wifi)
+ return -ENODEV;
+
+ wifi->connected = false;
+ wifi->disconnecting = false;
+
+ if (wifi->pending_network)
+ wifi->pending_network = NULL;
- DBG("result %d", result);
+ stop_autoscan(device);
- if (wifi != NULL && wifi->hidden != NULL) {
- hidden_free(wifi->hidden);
- wifi->hidden = NULL;
+ if (connman_device_get_scanning(device, CONNMAN_SERVICE_TYPE_P2P)) {
+ g_source_remove(wifi->p2p_find_timeout);
+ wifi->p2p_find_timeout = 0;
+ connman_device_set_scanning(device, CONNMAN_SERVICE_TYPE_P2P, false);
+ connman_device_unref(wifi->device);
}
- if (result < 0)
- connman_device_reset_scanning(device);
+ /* In case of a user scan, device is still referenced */
+ if (connman_device_get_scanning(device, CONNMAN_SERVICE_TYPE_WIFI)) {
+ connman_device_set_scanning(device,
+ CONNMAN_SERVICE_TYPE_WIFI, false);
+ connman_device_unref(wifi->device);
+ }
- connman_device_set_scanning(device, FALSE);
- connman_device_unref(device);
+ remove_networks(device, wifi);
+ remove_peers(wifi);
- start_autoscan(device);
+ ret = g_supplicant_interface_remove(wifi->interface, NULL, NULL);
+ if (ret < 0)
+ return ret;
+
+ return -EINPROGRESS;
}
struct last_connected {
- GTimeVal modified;
+ struct timeval modified;
gchar *ssid;
int freq;
};
static gint sort_entry(gconstpointer a, gconstpointer b, gpointer user_data)
{
- GTimeVal *aval = (GTimeVal *)a;
- GTimeVal *bval = (GTimeVal *)b;
+ struct timeval *aval = (struct timeval *)a;
+ struct timeval *bval = (struct timeval *)b;
/* Note that the sort order is descending */
if (aval->tv_sec < bval->tv_sec)
GSequence *latest_list;
struct last_connected *entry;
GKeyFile *keyfile;
- GTimeVal modified;
+ struct timeval modified;
gchar **services;
gchar *str;
char *ssid;
int num_ssids = 0;
latest_list = g_sequence_new(free_entry);
- if (latest_list == NULL)
+ if (!latest_list)
return -ENOMEM;
services = connman_storage_get_services();
continue;
keyfile = connman_storage_load_service(services[i]);
+ if (!keyfile)
+ continue;
str = g_key_file_get_string(keyfile,
services[i], "Favorite", NULL);
- if (str == NULL || g_strcmp0(str, "true")) {
- if (str)
- g_free(str);
+ if (!str || g_strcmp0(str, "true")) {
+ g_free(str);
g_key_file_free(keyfile);
continue;
}
str = g_key_file_get_string(keyfile,
services[i], "AutoConnect", NULL);
- if (str == NULL || g_strcmp0(str, "true")) {
- if (str)
- g_free(str);
+ if (!str || g_strcmp0(str, "true")) {
+ g_free(str);
g_key_file_free(keyfile);
continue;
}
str = g_key_file_get_string(keyfile,
services[i], "Modified", NULL);
- if (str != NULL) {
- g_time_val_from_iso8601(str, &modified);
- g_free(str);
+ if (!str) {
+ g_key_file_free(keyfile);
+ continue;
}
+ util_iso8601_to_timeval(str, &modified);
+ g_free(str);
ssid = g_key_file_get_string(keyfile,
services[i], "SSID", NULL);
"Frequency", NULL);
if (freq) {
entry = g_try_new(struct last_connected, 1);
- if (entry == NULL) {
+ if (!entry) {
g_sequence_free(latest_list);
g_key_file_free(keyfile);
g_free(ssid);
DBG("ssid %s freq %d modified %lu", entry->ssid, entry->freq,
entry->modified.tv_sec);
- add_scan_param(entry->ssid, entry->freq, scan_data, max_ssids);
+ add_scan_param(entry->ssid, NULL, 0, entry->freq, scan_data,
+ max_ssids, entry->ssid);
iter = g_sequence_iter_next(iter);
}
return num_ssids;
}
-static int wifi_scan(struct connman_device *device)
+static void wifi_update_scanner_type(struct wifi_data *wifi,
+ enum wifi_scanning_type new_type)
{
- stop_autoscan(device);
+ DBG("");
+
+ if (!wifi || wifi->scanning_type == new_type)
+ return;
- return throw_wifi_scan(device, scan_callback);
+ wifi->scanning_type = new_type;
+
+ setup_autoscan(wifi);
}
-static int wifi_scan_fast(struct connman_device *device)
+static int wifi_scan_simple(struct connman_device *device)
{
struct wifi_data *wifi = connman_device_get_data(device);
- GSupplicantScanParams *scan_params = NULL;
- int ret;
- int driver_max_ssids = 0;
- DBG("device %p %p", device, wifi->interface);
+ reset_autoscan(device);
- if (wifi->tethering == TRUE)
- return 0;
+ /* Distinguish between devices performing passive and active scanning */
+ if (wifi)
+ wifi_update_scanner_type(wifi, WIFI_SCANNING_PASSIVE);
- driver_max_ssids = g_supplicant_interface_get_max_scan_ssids(
- wifi->interface);
- DBG("max ssids %d", driver_max_ssids);
- if (driver_max_ssids == 0)
- return wifi_scan(device);
+ return throw_wifi_scan(device, scan_callback_hidden);
+}
- scan_params = g_try_malloc0(sizeof(GSupplicantScanParams));
- if (scan_params == NULL)
- return -ENOMEM;
+static gboolean p2p_find_stop(gpointer data)
+{
+ struct connman_device *device = data;
+ struct wifi_data *wifi = connman_device_get_data(device);
- ret = get_latest_connections(driver_max_ssids, scan_params);
- if (ret <= 0) {
- g_supplicant_free_scan_params(scan_params);
- return wifi_scan(device);
+ DBG("");
+
+ if (wifi) {
+ wifi->p2p_find_timeout = 0;
+
+ g_supplicant_interface_p2p_stop_find(wifi->interface);
}
- stop_autoscan(device);
+ connman_device_set_scanning(device, CONNMAN_SERVICE_TYPE_P2P, false);
+
+ connman_device_unref(device);
+ start_autoscan(device);
+
+ return FALSE;
+}
+
+static void p2p_find_callback(int result, GSupplicantInterface *interface,
+ void *user_data)
+{
+ struct connman_device *device = user_data;
+ struct wifi_data *wifi = connman_device_get_data(device);
+
+ DBG("result %d wifi %p", result, wifi);
+
+ if (!wifi)
+ goto error;
+
+ if (wifi->p2p_find_timeout) {
+ g_source_remove(wifi->p2p_find_timeout);
+ wifi->p2p_find_timeout = 0;
+ }
+
+ if (result)
+ goto error;
+
+ wifi->p2p_find_timeout = g_timeout_add_seconds(P2P_FIND_TIMEOUT,
+ p2p_find_stop, device);
+ if (!wifi->p2p_find_timeout)
+ goto error;
+
+ return;
+error:
+ p2p_find_stop(device);
+}
+
+static int p2p_find(struct connman_device *device)
+{
+ struct wifi_data *wifi;
+ int ret;
+
+ DBG("");
+
+ if (!p2p_technology)
+ return -ENOTSUP;
+ wifi = connman_device_get_data(device);
+
+ if (g_supplicant_interface_is_p2p_finding(wifi->interface))
+ return -EALREADY;
+
+ reset_autoscan(device);
connman_device_ref(device);
- ret = g_supplicant_interface_scan(wifi->interface, scan_params,
- scan_callback, device);
- if (ret == 0)
- connman_device_set_scanning(device, TRUE);
- else {
- g_supplicant_free_scan_params(scan_params);
+
+ ret = g_supplicant_interface_p2p_find(wifi->interface,
+ p2p_find_callback, device);
+ if (ret) {
connman_device_unref(device);
+ start_autoscan(device);
+ } else {
+ connman_device_set_scanning(device,
+ CONNMAN_SERVICE_TYPE_P2P, true);
}
return ret;
}
/*
- * This func is only used when connecting to this specific AP first time.
- * It is not used when system autoconnects to hidden AP.
+ * Note that the hidden scan is only used when connecting to this specific
+ * hidden AP first time. It is not used when system autoconnects to hidden AP.
*/
-static int wifi_scan_hidden(struct connman_device *device,
- const char *ssid, unsigned int ssid_len,
- const char *identity, const char* passphrase)
+static int wifi_scan(struct connman_device *device,
+ struct connman_device_scan_params *params)
{
struct wifi_data *wifi = connman_device_get_data(device);
GSupplicantScanParams *scan_params = NULL;
struct scan_ssid *scan_ssid;
struct hidden_params *hidden;
int ret;
+ int driver_max_ssids = 0;
+ bool do_hidden;
+ bool scanning;
- DBG("hidden SSID %s", ssid);
+ if (!wifi)
+ return -ENODEV;
- if (wifi->tethering == TRUE || wifi->hidden != NULL)
+ if (wifi->p2p_device)
return -EBUSY;
- if (ssid == NULL || ssid_len == 0 || ssid_len > 32)
- return -EINVAL;
+ if (wifi->tethering)
+ return -EBUSY;
+
+ if (params->type == CONNMAN_SERVICE_TYPE_P2P)
+ return p2p_find(device);
+
+ DBG("device %p wifi %p hidden ssid %s", device, wifi->interface,
+ params->ssid);
+
+ scanning = connman_device_get_scanning(device, CONNMAN_SERVICE_TYPE_WIFI);
+
+ if (!params->ssid || params->ssid_len == 0 || params->ssid_len > 32) {
+ if (scanning)
+ return -EALREADY;
+
+ driver_max_ssids = g_supplicant_interface_get_max_scan_ssids(
+ wifi->interface);
+ DBG("max ssids %d", driver_max_ssids);
+ if (driver_max_ssids == 0)
+ return wifi_scan_simple(device);
+
+ do_hidden = false;
+ } else {
+ if (scanning && wifi->hidden && wifi->postpone_hidden)
+ return -EALREADY;
+
+ do_hidden = true;
+ }
scan_params = g_try_malloc0(sizeof(GSupplicantScanParams));
- if (scan_params == NULL)
+ if (!scan_params)
return -ENOMEM;
- scan_ssid = g_try_new(struct scan_ssid, 1);
- if (scan_ssid == NULL) {
- g_free(scan_params);
- return -ENOMEM;
- }
+ if (do_hidden) {
+ scan_ssid = g_try_new(struct scan_ssid, 1);
+ if (!scan_ssid) {
+ g_free(scan_params);
+ return -ENOMEM;
+ }
+
+ memcpy(scan_ssid->ssid, params->ssid, params->ssid_len);
+ scan_ssid->ssid_len = params->ssid_len;
+ scan_params->ssids = g_slist_prepend(scan_params->ssids,
+ scan_ssid);
+ scan_params->num_ssids = 1;
- memcpy(scan_ssid->ssid, ssid, ssid_len);
- scan_ssid->ssid_len = ssid_len;
- scan_params->ssids = g_slist_prepend(scan_params->ssids, scan_ssid);
+ hidden = g_try_new0(struct hidden_params, 1);
+ if (!hidden) {
+ g_supplicant_free_scan_params(scan_params);
+ return -ENOMEM;
+ }
- scan_params->num_ssids = 1;
+ if (wifi->hidden) {
+ hidden_free(wifi->hidden);
+ wifi->hidden = NULL;
+ }
- hidden = g_try_new0(struct hidden_params, 1);
- if (hidden == NULL) {
- g_free(scan_params);
- return -ENOMEM;
+ memcpy(hidden->ssid, params->ssid, params->ssid_len);
+ hidden->ssid_len = params->ssid_len;
+ hidden->identity = g_strdup(params->identity);
+ hidden->passphrase = g_strdup(params->passphrase);
+ hidden->security = g_strdup(params->security);
+ hidden->user_data = params->user_data;
+ wifi->hidden = hidden;
+
+ if (scanning) {
+ /* Let's keep this active scan for later,
+ * when current scan will be over. */
+ wifi->postpone_hidden = TRUE;
+ hidden->scan_params = scan_params;
+
+ return 0;
+ }
+ } else if (wifi->connected) {
+ g_supplicant_free_scan_params(scan_params);
+ return wifi_scan_simple(device);
+ } else if (!params->force_full_scan) {
+ ret = get_latest_connections(driver_max_ssids, scan_params);
+ if (ret <= 0) {
+ g_supplicant_free_scan_params(scan_params);
+ return wifi_scan_simple(device);
+ }
}
- memcpy(hidden->ssid, ssid, ssid_len);
- hidden->ssid_len = ssid_len;
- hidden->identity = g_strdup(identity);
- hidden->passphrase = g_strdup(passphrase);
- wifi->hidden = hidden;
- stop_autoscan(device);
+ /* Distinguish between devices performing passive and active scanning */
+ wifi_update_scanner_type(wifi, WIFI_SCANNING_ACTIVE);
connman_device_ref(device);
+
+ reset_autoscan(device);
+
ret = g_supplicant_interface_scan(wifi->interface, scan_params,
- scan_callback, device);
- if (ret == 0)
- connman_device_set_scanning(device, TRUE);
- else {
- connman_device_unref(device);
+ scan_callback, device);
+ if (ret == 0) {
+ connman_device_set_scanning(device,
+ CONNMAN_SERVICE_TYPE_WIFI, true);
+ } else {
g_supplicant_free_scan_params(scan_params);
- hidden_free(wifi->hidden);
- wifi->hidden = NULL;
+ connman_device_unref(device);
+
+ if (do_hidden) {
+ hidden_free(wifi->hidden);
+ wifi->hidden = NULL;
+ }
+ }
+
+ return ret;
+}
+
+static void wifi_stop_scan(enum connman_service_type type,
+ struct connman_device *device)
+{
+ struct wifi_data *wifi = connman_device_get_data(device);
+
+ DBG("device %p wifi %p", device, wifi);
+
+ if (!wifi)
+ return;
+
+ if (type == CONNMAN_SERVICE_TYPE_P2P) {
+ if (connman_device_get_scanning(device, CONNMAN_SERVICE_TYPE_P2P)) {
+ g_source_remove(wifi->p2p_find_timeout);
+ p2p_find_stop(device);
+ }
}
+}
+
+static void wifi_regdom_callback(int result,
+ const char *alpha2,
+ void *user_data)
+{
+ struct connman_device *device = user_data;
+
+ connman_device_regdom_notify(device, result, alpha2);
+
+ connman_device_unref(device);
+}
+
+static int wifi_set_regdom(struct connman_device *device, const char *alpha2)
+{
+ struct wifi_data *wifi = connman_device_get_data(device);
+ int ret;
+
+ if (!wifi)
+ return -EINVAL;
+
+ connman_device_ref(device);
+
+ ret = g_supplicant_interface_set_country(wifi->interface,
+ wifi_regdom_callback,
+ alpha2, device);
+ if (ret != 0)
+ connman_device_unref(device);
return ret;
}
.enable = wifi_enable,
.disable = wifi_disable,
.scan = wifi_scan,
- .scan_fast = wifi_scan_fast,
- .scan_hidden = wifi_scan_hidden,
+ .stop_scan = wifi_stop_scan,
+ .set_regdom = wifi_set_regdom,
};
static void system_ready(void)
DBG("network %p", network);
wifi = connman_device_get_data(device);
- if (wifi == NULL)
+ if (!wifi)
return;
if (wifi->network != network)
connman_network_set_error(network,
CONNMAN_NETWORK_ERROR_CONFIGURE_FAIL);
}
+
+ connman_network_unref(network);
}
static GSupplicantSecurity network_security(const char *security)
{
- if (g_str_equal(security, "none") == TRUE)
+ if (g_str_equal(security, "none"))
return G_SUPPLICANT_SECURITY_NONE;
- else if (g_str_equal(security, "wep") == TRUE)
+ else if (g_str_equal(security, "wep"))
return G_SUPPLICANT_SECURITY_WEP;
- else if (g_str_equal(security, "psk") == TRUE)
+ else if (g_str_equal(security, "psk"))
return G_SUPPLICANT_SECURITY_PSK;
- else if (g_str_equal(security, "wpa") == TRUE)
+ else if (g_str_equal(security, "wpa"))
return G_SUPPLICANT_SECURITY_PSK;
- else if (g_str_equal(security, "rsn") == TRUE)
+ else if (g_str_equal(security, "rsn"))
return G_SUPPLICANT_SECURITY_PSK;
- else if (g_str_equal(security, "ieee8021x") == TRUE)
+ else if (g_str_equal(security, "ieee8021x"))
return G_SUPPLICANT_SECURITY_IEEE8021X;
return G_SUPPLICANT_SECURITY_UNKNOWN;
static void ssid_init(GSupplicantSSID *ssid, struct connman_network *network)
{
- const char *security, *passphrase, *agent_passphrase;
+ const char *security;
memset(ssid, 0, sizeof(*ssid));
ssid->mode = G_SUPPLICANT_MODE_INFRA;
ssid->scan_ssid = 1;
security = connman_network_get_string(network, "WiFi.Security");
ssid->security = network_security(security);
- passphrase = connman_network_get_string(network,
+ ssid->passphrase = connman_network_get_string(network,
"WiFi.Passphrase");
- if (passphrase == NULL || strlen(passphrase) == 0) {
-
- /* Use agent provided passphrase as a fallback */
- agent_passphrase = connman_network_get_string(network,
- "WiFi.AgentPassphrase");
-
- if (agent_passphrase == NULL || strlen(agent_passphrase) == 0)
- ssid->passphrase = NULL;
- else
- ssid->passphrase = agent_passphrase;
- } else
- ssid->passphrase = passphrase;
ssid->eap = connman_network_get_string(network, "WiFi.EAP");
* for PEAP where 2 passphrases (identity and client
* cert may have to be provided.
*/
- if (connman_network_get_string(network,
- "WiFi.PrivateKeyPassphrase") == NULL)
+ if (!connman_network_get_string(network, "WiFi.PrivateKeyPassphrase"))
connman_network_set_string(network,
"WiFi.PrivateKeyPassphrase",
ssid->passphrase);
ssid->identity = connman_network_get_string(network, "WiFi.Identity");
/* Use agent provided identity as a fallback */
- if (ssid->identity == NULL || strlen(ssid->identity) == 0)
+ if (!ssid->identity || strlen(ssid->identity) == 0)
ssid->identity = connman_network_get_string(network,
"WiFi.AgentIdentity");
+ ssid->anonymous_identity = connman_network_get_string(network,
+ "WiFi.AnonymousIdentity");
ssid->ca_cert_path = connman_network_get_string(network,
"WiFi.CACertFile");
+ ssid->subject_match = connman_network_get_string(network,
+ "WiFi.SubjectMatch");
+ ssid->altsubject_match = connman_network_get_string(network,
+ "WiFi.AltSubjectMatch");
+ ssid->domain_suffix_match = connman_network_get_string(network,
+ "WiFi.DomainSuffixMatch");
+ ssid->domain_match = connman_network_get_string(network,
+ "WiFi.DomainMatch");
ssid->client_cert_path = connman_network_get_string(network,
"WiFi.ClientCertFile");
ssid->private_key_path = connman_network_get_string(network,
ssid->use_wps = connman_network_get_bool(network, "WiFi.UseWPS");
ssid->pin_wps = connman_network_get_string(network, "WiFi.PinWPS");
- if (connman_setting_get_bool("BackgroundScanning") == TRUE)
+ if (connman_setting_get_bool("BackgroundScanning"))
ssid->bgscan = BGSCAN_DEFAULT;
}
DBG("network %p", network);
- if (device == NULL)
+ if (!device)
return -ENODEV;
wifi = connman_device_get_data(device);
- if (wifi == NULL)
+ if (!wifi)
return -ENODEV;
ssid = g_try_malloc0(sizeof(GSupplicantSSID));
- if (ssid == NULL)
+ if (!ssid)
return -ENOMEM;
interface = wifi->interface;
ssid_init(ssid, network);
- if (wifi->disconnecting == TRUE)
+ if (wifi->disconnecting) {
wifi->pending_network = network;
- else {
- wifi->network = network;
+ g_free(ssid);
+ } else {
+ wifi->network = connman_network_ref(network);
wifi->retries = 0;
return g_supplicant_interface_connect(interface, ssid,
{
struct wifi_data *wifi = user_data;
- if (wifi->network != NULL) {
- /*
- * if result < 0 supplican return an error because
- * the network is not current.
- * we wont receive G_SUPPLICANT_STATE_DISCONNECTED since it
- * failed, call connman_network_set_connected to report
- * disconnect is completed.
- */
- if (result < 0)
- connman_network_set_connected(wifi->network, FALSE);
+ DBG("result %d supplicant interface %p wifi %p",
+ result, interface, wifi);
+
+ if (result == -ECONNABORTED) {
+ DBG("wifi interface no longer available");
+ return;
}
+ if (wifi->network && wifi->network != wifi->pending_network)
+ connman_network_set_connected(wifi->network, false);
wifi->network = NULL;
- wifi->disconnecting = FALSE;
+ wifi->disconnecting = false;
+ wifi->connected = false;
- if (wifi->pending_network != NULL) {
+ if (wifi->pending_network) {
network_connect(wifi->pending_network);
wifi->pending_network = NULL;
}
DBG("network %p", network);
wifi = connman_device_get_data(device);
- if (wifi == NULL || wifi->interface == NULL)
+ if (!wifi || !wifi->interface)
return -ENODEV;
- connman_network_set_associating(network, FALSE);
+ connman_network_set_associating(network, false);
- if (wifi->disconnecting == TRUE)
+ if (wifi->disconnecting)
return -EALREADY;
- wifi->disconnecting = TRUE;
+ wifi->disconnecting = true;
err = g_supplicant_interface_disconnect(wifi->interface,
disconnect_callback, wifi);
if (err < 0)
- wifi->disconnecting = FALSE;
+ wifi->disconnecting = false;
return err;
}
struct wifi_data *wifi;
wifi = g_supplicant_interface_get_data(interface);
+ if (!wifi) {
+ wifi = get_pending_wifi_data(ifname);
+ if (!wifi)
+ return;
- /*
- * We can get here with a NULL wifi pointer when
- * the interface added signal is sent before the
- * interface creation callback is called.
- */
- if (wifi == NULL)
- return;
+ wifi->interface = interface;
+ g_supplicant_interface_set_data(interface, wifi);
+ p2p_iface_list = g_list_append(p2p_iface_list, wifi);
+ wifi->p2p_device = true;
+ }
DBG("ifname %s driver %s wifi %p tethering %d",
ifname, driver, wifi, wifi->tethering);
- if (wifi->device == NULL) {
+ if (!wifi->device) {
connman_error("WiFi device not set");
return;
}
- connman_device_set_powered(wifi->device, TRUE);
-
- if (wifi->tethering == TRUE)
- return;
+ connman_device_set_powered(wifi->device, true);
}
-static connman_bool_t is_idle(struct wifi_data *wifi)
+static bool is_idle(struct wifi_data *wifi)
{
DBG("state %d", wifi->state);
switch (wifi->state) {
case G_SUPPLICANT_STATE_UNKNOWN:
+ case G_SUPPLICANT_STATE_DISABLED:
case G_SUPPLICANT_STATE_DISCONNECTED:
case G_SUPPLICANT_STATE_INACTIVE:
case G_SUPPLICANT_STATE_SCANNING:
- return TRUE;
+ return true;
case G_SUPPLICANT_STATE_AUTHENTICATING:
case G_SUPPLICANT_STATE_ASSOCIATING:
case G_SUPPLICANT_STATE_4WAY_HANDSHAKE:
case G_SUPPLICANT_STATE_GROUP_HANDSHAKE:
case G_SUPPLICANT_STATE_COMPLETED:
- return FALSE;
+ return false;
}
- return FALSE;
+ return false;
}
-static connman_bool_t is_idle_wps(GSupplicantInterface *interface,
+static bool is_idle_wps(GSupplicantInterface *interface,
struct wifi_data *wifi)
{
/* First, let's check if WPS processing did not went wrong */
if (g_supplicant_interface_get_wps_state(interface) ==
G_SUPPLICANT_WPS_STATE_FAIL)
- return FALSE;
+ return false;
/* Unlike normal connection, being associated while processing wps
* actually means that we are idling. */
switch (wifi->state) {
case G_SUPPLICANT_STATE_UNKNOWN:
+ case G_SUPPLICANT_STATE_DISABLED:
case G_SUPPLICANT_STATE_DISCONNECTED:
case G_SUPPLICANT_STATE_INACTIVE:
case G_SUPPLICANT_STATE_SCANNING:
case G_SUPPLICANT_STATE_ASSOCIATED:
- return TRUE;
+ return true;
case G_SUPPLICANT_STATE_AUTHENTICATING:
case G_SUPPLICANT_STATE_ASSOCIATING:
case G_SUPPLICANT_STATE_4WAY_HANDSHAKE:
case G_SUPPLICANT_STATE_GROUP_HANDSHAKE:
case G_SUPPLICANT_STATE_COMPLETED:
- return FALSE;
+ return false;
}
- return FALSE;
+ return false;
}
-static connman_bool_t handle_wps_completion(GSupplicantInterface *interface,
+static bool handle_wps_completion(GSupplicantInterface *interface,
struct connman_network *network,
struct connman_device *device,
struct wifi_data *wifi)
{
- connman_bool_t wps;
+ bool wps;
wps = connman_network_get_bool(network, "WiFi.UseWPS");
- if (wps == TRUE) {
+ if (wps) {
const unsigned char *ssid, *wps_ssid;
unsigned int ssid_len, wps_ssid_len;
const char *wps_key;
wps_ssid = g_supplicant_interface_get_wps_ssid(
interface, &wps_ssid_len);
- if (wps_ssid == NULL || wps_ssid_len != ssid_len ||
+ if (!wps_ssid || wps_ssid_len != ssid_len ||
memcmp(ssid, wps_ssid, ssid_len) != 0) {
- connman_network_set_associating(network, FALSE);
+ connman_network_set_associating(network, false);
g_supplicant_interface_disconnect(wifi->interface,
disconnect_callback, wifi);
- return FALSE;
+ return false;
}
wps_key = g_supplicant_interface_get_wps_key(interface);
connman_network_set_string(network, "WiFi.PinWPS", NULL);
}
- return TRUE;
+ return true;
+}
+
+static bool handle_assoc_status_code(GSupplicantInterface *interface,
+ struct wifi_data *wifi)
+{
+ if (wifi->state == G_SUPPLICANT_STATE_ASSOCIATING &&
+ wifi->assoc_code == ASSOC_STATUS_NO_CLIENT &&
+ wifi->load_shaping_retries < LOAD_SHAPING_MAX_RETRIES) {
+ wifi->load_shaping_retries ++;
+ return TRUE;
+ }
+ wifi->load_shaping_retries = 0;
+ return FALSE;
}
-static connman_bool_t handle_4way_handshake_failure(GSupplicantInterface *interface,
+static bool handle_4way_handshake_failure(GSupplicantInterface *interface,
struct connman_network *network,
struct wifi_data *wifi)
{
+ struct connman_service *service;
+
if (wifi->state != G_SUPPLICANT_STATE_4WAY_HANDSHAKE)
- return FALSE;
+ return false;
+
+ if (wifi->connected)
+ return false;
+
+ service = connman_service_lookup_from_network(network);
+ if (!service)
+ return false;
wifi->retries++;
- if (wifi->retries < MAXIMUM_RETRIES)
- return TRUE;
+ if (connman_service_get_favorite(service)) {
+ if (wifi->retries < FAVORITE_MAXIMUM_RETRIES)
+ return true;
+ }
+ wifi->retries = 0;
connman_network_set_error(network, CONNMAN_NETWORK_ERROR_INVALID_KEY);
- return FALSE;
+ return false;
}
static void interface_state(GSupplicantInterface *interface)
struct connman_device *device;
struct wifi_data *wifi;
GSupplicantState state = g_supplicant_interface_get_state(interface);
- connman_bool_t wps;
+ bool wps;
+ bool old_connected;
wifi = g_supplicant_interface_get_data(interface);
DBG("wifi %p interface state %d", wifi, state);
- if (wifi == NULL)
+ if (!wifi)
return;
- network = wifi->network;
device = wifi->device;
+ if (!device)
+ return;
+
+ if (state == G_SUPPLICANT_STATE_COMPLETED) {
+ if (wifi->tethering_param) {
+ g_free(wifi->tethering_param->ssid);
+ g_free(wifi->tethering_param);
+ wifi->tethering_param = NULL;
+ }
- if (device == NULL || network == NULL)
+ if (wifi->tethering)
+ stop_autoscan(device);
+ }
+
+ if (g_supplicant_interface_get_ready(interface) &&
+ !wifi->interface_ready) {
+ wifi->interface_ready = true;
+ finalize_interface_creation(wifi);
+ }
+
+ network = wifi->network;
+ if (!network)
return;
switch (state) {
case G_SUPPLICANT_STATE_SCANNING:
+ if (wifi->connected)
+ connman_network_set_connected(network, false);
+
break;
case G_SUPPLICANT_STATE_AUTHENTICATING:
case G_SUPPLICANT_STATE_ASSOCIATING:
stop_autoscan(device);
- if (wifi->connected == FALSE)
- connman_network_set_associating(network, TRUE);
+ if (!wifi->connected)
+ connman_network_set_associating(network, true);
break;
/* though it should be already stopped: */
stop_autoscan(device);
- if (handle_wps_completion(interface, network, device, wifi) ==
- FALSE)
+ if (!handle_wps_completion(interface, network, device, wifi))
break;
- connman_network_set_connected(network, TRUE);
+ connman_network_set_connected(network, true);
+
+ wifi->disconnect_code = 0;
+ wifi->assoc_code = 0;
+ wifi->load_shaping_retries = 0;
break;
case G_SUPPLICANT_STATE_DISCONNECTED:
* in progress.
*/
wps = connman_network_get_bool(network, "WiFi.UseWPS");
- if (wps == TRUE)
- if (is_idle_wps(interface, wifi) == TRUE)
+ if (wps)
+ if (is_idle_wps(interface, wifi))
break;
if (is_idle(wifi))
break;
+ if (handle_assoc_status_code(interface, wifi))
+ break;
+
/* If previous state was 4way-handshake, then
* it's either: psk was incorrect and thus we retry
* or if we reach the maximum retries we declare the
* psk as wrong */
if (handle_4way_handshake_failure(interface,
- network, wifi) == TRUE)
+ network, wifi))
+ break;
+
+ /* See table 8-36 Reason codes in IEEE Std 802.11 */
+ switch (wifi->disconnect_code) {
+ case 1: /* Unspecified reason */
+ /* Let's assume it's because we got blocked */
+
+ case 6: /* Class 2 frame received from nonauthenticated STA */
+ connman_network_set_error(network,
+ CONNMAN_NETWORK_ERROR_BLOCKED);
break;
- /* We disable the selected network, if not then
- * wpa_supplicant will loop retrying */
- if (g_supplicant_interface_enable_selected_network(interface,
- FALSE) != 0)
- DBG("Could not disables selected network");
+ default:
+ break;
+ }
- connman_network_set_connected(network, FALSE);
- connman_network_set_associating(network, FALSE);
- wifi->disconnecting = FALSE;
+ if (network != wifi->pending_network) {
+ connman_network_set_connected(network, false);
+ connman_network_set_associating(network, false);
+ }
+ wifi->disconnecting = false;
start_autoscan(device);
break;
case G_SUPPLICANT_STATE_INACTIVE:
- connman_network_set_associating(network, FALSE);
+ connman_network_set_associating(network, false);
start_autoscan(device);
break;
case G_SUPPLICANT_STATE_UNKNOWN:
+ case G_SUPPLICANT_STATE_DISABLED:
case G_SUPPLICANT_STATE_ASSOCIATED:
case G_SUPPLICANT_STATE_4WAY_HANDSHAKE:
case G_SUPPLICANT_STATE_GROUP_HANDSHAKE:
break;
}
+ old_connected = wifi->connected;
wifi->state = state;
/* Saving wpa_s state policy:
case G_SUPPLICANT_STATE_ASSOCIATED:
case G_SUPPLICANT_STATE_4WAY_HANDSHAKE:
case G_SUPPLICANT_STATE_GROUP_HANDSHAKE:
- if (wifi->connected == TRUE)
+ if (wifi->connected)
connman_warn("Probably roaming right now!"
" Staying connected...");
- else
- wifi->connected = FALSE;
+ break;
+ case G_SUPPLICANT_STATE_SCANNING:
+ wifi->connected = false;
+
+ if (old_connected)
+ start_autoscan(device);
break;
case G_SUPPLICANT_STATE_COMPLETED:
- wifi->connected = TRUE;
+ wifi->connected = true;
break;
default:
- wifi->connected = FALSE;
+ wifi->connected = false;
break;
}
DBG("DONE");
}
-static void interface_removed(GSupplicantInterface *interface)
+static void interface_removed(GSupplicantInterface *interface)
+{
+ const char *ifname = g_supplicant_interface_get_ifname(interface);
+ struct wifi_data *wifi;
+
+ DBG("ifname %s", ifname);
+
+ wifi = g_supplicant_interface_get_data(interface);
+
+ if (wifi)
+ wifi->interface = NULL;
+
+ if (wifi && wifi->tethering)
+ return;
+
+ if (!wifi || !wifi->device) {
+ DBG("wifi interface already removed");
+ return;
+ }
+
+ connman_device_set_powered(wifi->device, false);
+
+ check_p2p_technology();
+}
+
+static void set_device_type(const char *type, char dev_type[17])
+{
+ const char *oui = "0050F204";
+ const char *category = "0001";
+ const char *sub_category = "0000";
+
+ if (!g_strcmp0(type, "handset")) {
+ category = "000A";
+ sub_category = "0005";
+ } else if (!g_strcmp0(type, "vm") || !g_strcmp0(type, "container"))
+ sub_category = "0001";
+ else if (!g_strcmp0(type, "server"))
+ sub_category = "0002";
+ else if (!g_strcmp0(type, "laptop"))
+ sub_category = "0005";
+ else if (!g_strcmp0(type, "desktop"))
+ sub_category = "0006";
+ else if (!g_strcmp0(type, "tablet"))
+ sub_category = "0009";
+ else if (!g_strcmp0(type, "watch"))
+ category = "00FF";
+
+ snprintf(dev_type, 17, "%s%s%s", category, oui, sub_category);
+}
+
+static void p2p_support(GSupplicantInterface *interface)
{
- const char *ifname = g_supplicant_interface_get_ifname(interface);
- struct wifi_data *wifi;
+ char dev_type[17] = {};
+ const char *hostname;
- DBG("ifname %s", ifname);
+ DBG("");
- wifi = g_supplicant_interface_get_data(interface);
+ if (!interface)
+ return;
- if (wifi != NULL && wifi->tethering == TRUE)
+ if (!g_supplicant_interface_has_p2p(interface))
return;
- if (wifi == NULL || wifi->device == NULL) {
- connman_error("Wrong wifi pointer");
+ if (connman_technology_driver_register(&p2p_tech_driver) < 0) {
+ DBG("Could not register P2P technology driver");
return;
}
- wifi->interface = NULL;
- connman_device_set_powered(wifi->device, FALSE);
+ hostname = connman_utsname_get_hostname();
+ if (!hostname)
+ hostname = "ConnMan";
+
+ set_device_type(connman_machine_get_type(), dev_type);
+ g_supplicant_interface_set_p2p_device_config(interface,
+ hostname, dev_type);
+ connman_peer_driver_register(&peer_driver);
}
static void scan_started(GSupplicantInterface *interface)
DBG("");
}
+static void ap_create_fail(GSupplicantInterface *interface)
+{
+ struct wifi_data *wifi = g_supplicant_interface_get_data(interface);
+ int ret;
+
+ if ((wifi->tethering) && (wifi->tethering_param)) {
+ DBG("%s create AP fail \n",
+ g_supplicant_interface_get_ifname(wifi->interface));
+
+ connman_inet_remove_from_bridge(wifi->index, wifi->bridge);
+ wifi->ap_supported = WIFI_AP_NOT_SUPPORTED;
+ wifi->tethering = false;
+
+ ret = tech_set_tethering(wifi->tethering_param->technology,
+ wifi->tethering_param->ssid->ssid,
+ wifi->tethering_param->ssid->passphrase,
+ wifi->bridge, true);
+
+ if ((ret == -EOPNOTSUPP) && (wifi_technology)) {
+ connman_technology_tethering_notify(wifi_technology,false);
+ }
+
+ g_free(wifi->tethering_param->ssid);
+ g_free(wifi->tethering_param);
+ wifi->tethering_param = NULL;
+ }
+}
+
static unsigned char calculate_strength(GSupplicantNetwork *supplicant_network)
{
unsigned char strength;
const char *name, *identifier, *security, *group, *mode;
const unsigned char *ssid;
unsigned int ssid_len;
- connman_bool_t wps;
- connman_bool_t wps_pbc;
- connman_bool_t wps_ready;
- connman_bool_t wps_advertizing;
+ bool wps;
+ bool wps_pbc;
+ bool wps_ready;
+ bool wps_advertizing;
- DBG("");
+ mode = g_supplicant_network_get_mode(supplicant_network);
+ identifier = g_supplicant_network_get_identifier(supplicant_network);
+
+ DBG("%s", identifier);
+
+ if (!g_strcmp0(mode, "adhoc"))
+ return;
interface = g_supplicant_network_get_interface(supplicant_network);
wifi = g_supplicant_interface_get_data(interface);
name = g_supplicant_network_get_name(supplicant_network);
- identifier = g_supplicant_network_get_identifier(supplicant_network);
security = g_supplicant_network_get_security(supplicant_network);
group = g_supplicant_network_get_identifier(supplicant_network);
wps = g_supplicant_network_get_wps(supplicant_network);
wps_ready = g_supplicant_network_is_wps_active(supplicant_network);
wps_advertizing = g_supplicant_network_is_wps_advertizing(
supplicant_network);
- mode = g_supplicant_network_get_mode(supplicant_network);
- if (wifi == NULL)
+ if (!wifi)
return;
ssid = g_supplicant_network_get_ssid(supplicant_network, &ssid_len);
network = connman_device_get_network(wifi->device, identifier);
- if (network == NULL) {
+ if (!network) {
network = connman_network_create(identifier,
CONNMAN_NETWORK_TYPE_WIFI);
- if (network == NULL)
+ if (!network)
return;
connman_network_set_index(network, wifi->index);
return;
}
- wifi->networks = g_slist_append(wifi->networks, network);
+ wifi->networks = g_slist_prepend(wifi->networks, network);
}
- if (name != NULL && name[0] != '\0')
+ if (name && name[0] != '\0')
connman_network_set_name(network, name);
connman_network_set_blob(network, "WiFi.SSID",
connman_network_set_strength(network,
calculate_strength(supplicant_network));
connman_network_set_bool(network, "WiFi.WPS", wps);
+ connman_network_set_bool(network, "WiFi.WPSAdvertising",
+ wps_advertizing);
- if (wps == TRUE) {
+ if (wps) {
/* Is AP advertizing for WPS association?
* If so, we decide to use WPS by default */
- if (wps_ready == TRUE && wps_pbc == TRUE &&
- wps_advertizing == TRUE)
- connman_network_set_bool(network, "WiFi.UseWPS", TRUE);
+ if (wps_ready && wps_pbc &&
+ wps_advertizing)
+ connman_network_set_bool(network, "WiFi.UseWPS", true);
}
connman_network_set_frequency(network,
g_supplicant_network_get_frequency(supplicant_network));
- connman_network_set_available(network, TRUE);
+ connman_network_set_available(network, true);
connman_network_set_string(network, "WiFi.Mode", mode);
- if (ssid != NULL)
+ if (ssid)
connman_network_set_group(network, group);
- if (wifi->hidden != NULL && ssid != NULL) {
- if (wifi->hidden->ssid_len == ssid_len &&
- memcmp(wifi->hidden->ssid, ssid,
- ssid_len) == 0) {
+ if (wifi->hidden && ssid) {
+ if (!g_strcmp0(wifi->hidden->security, security) &&
+ wifi->hidden->ssid_len == ssid_len &&
+ !memcmp(wifi->hidden->ssid, ssid, ssid_len)) {
connman_network_connect_hidden(network,
wifi->hidden->identity,
- wifi->hidden->passphrase);
+ wifi->hidden->passphrase,
+ wifi->hidden->user_data);
+ wifi->hidden->user_data = NULL;
hidden_free(wifi->hidden);
wifi->hidden = NULL;
}
DBG("name %s", name);
- if (wifi == NULL)
+ if (!wifi)
return;
connman_network = connman_device_get_network(wifi->device, identifier);
- if (connman_network == NULL)
+ if (!connman_network)
return;
wifi->networks = g_slist_remove(wifi->networks, connman_network);
struct wifi_data *wifi;
const char *name, *identifier;
struct connman_network *connman_network;
+ bool update_needed;
interface = g_supplicant_network_get_interface(network);
wifi = g_supplicant_interface_get_data(interface);
DBG("name %s", name);
- if (wifi == NULL)
+ if (!wifi)
return;
connman_network = connman_device_get_network(wifi->device, identifier);
- if (connman_network == NULL)
+ if (!connman_network)
return;
- if (g_str_equal(property, "Signal") == TRUE) {
- connman_network_set_strength(connman_network,
+ if (g_str_equal(property, "WPSCapabilities")) {
+ bool wps;
+ bool wps_pbc;
+ bool wps_ready;
+ bool wps_advertizing;
+
+ wps = g_supplicant_network_get_wps(network);
+ wps_pbc = g_supplicant_network_is_wps_pbc(network);
+ wps_ready = g_supplicant_network_is_wps_active(network);
+ wps_advertizing =
+ g_supplicant_network_is_wps_advertizing(network);
+
+ connman_network_set_bool(connman_network, "WiFi.WPS", wps);
+ connman_network_set_bool(connman_network,
+ "WiFi.WPSAdvertising", wps_advertizing);
+
+ if (wps) {
+ /*
+ * Is AP advertizing for WPS association?
+ * If so, we decide to use WPS by default
+ */
+ if (wps_ready && wps_pbc && wps_advertizing)
+ connman_network_set_bool(connman_network,
+ "WiFi.UseWPS", true);
+ }
+
+ update_needed = true;
+ } else if (g_str_equal(property, "Signal")) {
+ connman_network_set_strength(connman_network,
calculate_strength(network));
- connman_network_update(connman_network);
+ update_needed = true;
+ } else
+ update_needed = false;
+
+ if (update_needed)
+ connman_network_update(connman_network);
+}
+
+static void network_associated(GSupplicantNetwork *network)
+{
+ GSupplicantInterface *interface;
+ struct wifi_data *wifi;
+ struct connman_network *connman_network;
+ const char *identifier;
+
+ DBG("");
+
+ interface = g_supplicant_network_get_interface(network);
+ if (!interface)
+ return;
+
+ wifi = g_supplicant_interface_get_data(interface);
+ if (!wifi)
+ return;
+
+ /* P2P networks must not be treated as WiFi networks */
+ if (wifi->p2p_connecting || wifi->p2p_device)
+ return;
+
+ identifier = g_supplicant_network_get_identifier(network);
+
+ connman_network = connman_device_get_network(wifi->device, identifier);
+ if (!connman_network)
+ return;
+
+ if (wifi->network) {
+ if (wifi->network == connman_network)
+ return;
+
+ /*
+ * This should never happen, we got associated with
+ * a network different than the one we were expecting.
+ */
+ DBG("Associated to %p while expecting %p",
+ connman_network, wifi->network);
+
+ connman_network_set_associating(wifi->network, false);
+ }
+
+ DBG("Reconnecting to previous network %p from wpa_s", connman_network);
+
+ wifi->network = connman_network_ref(connman_network);
+ wifi->retries = 0;
+
+ /*
+ * Interface state changes callback (interface_state) is always
+ * called before network_associated callback thus we need to call
+ * interface_state again in order to process the new state now that
+ * we have the network properly set.
+ */
+ interface_state(interface);
+}
+
+static void sta_authorized(GSupplicantInterface *interface,
+ const char *addr)
+{
+ struct wifi_data *wifi = g_supplicant_interface_get_data(interface);
+
+ DBG("wifi %p station %s authorized", wifi, addr);
+
+ if (!wifi || !wifi->tethering)
+ return;
+
+ __connman_tethering_client_register(addr);
+}
+
+static void sta_deauthorized(GSupplicantInterface *interface,
+ const char *addr)
+{
+ struct wifi_data *wifi = g_supplicant_interface_get_data(interface);
+
+ DBG("wifi %p station %s deauthorized", wifi, addr);
+
+ if (!wifi || !wifi->tethering)
+ return;
+
+ __connman_tethering_client_unregister(addr);
+}
+
+static void apply_peer_services(GSupplicantPeer *peer,
+ struct connman_peer *connman_peer)
+{
+ const unsigned char *data;
+ int length;
+
+ DBG("");
+
+ connman_peer_reset_services(connman_peer);
+
+ data = g_supplicant_peer_get_widi_ies(peer, &length);
+ if (data) {
+ connman_peer_add_service(connman_peer,
+ CONNMAN_PEER_SERVICE_WIFI_DISPLAY, data, length);
+ }
+}
+
+static void peer_found(GSupplicantPeer *peer)
+{
+ GSupplicantInterface *iface = g_supplicant_peer_get_interface(peer);
+ struct wifi_data *wifi = g_supplicant_interface_get_data(iface);
+ struct connman_peer *connman_peer;
+ const char *identifier, *name;
+ int ret;
+
+ identifier = g_supplicant_peer_get_identifier(peer);
+ name = g_supplicant_peer_get_name(peer);
+
+ DBG("ident: %s", identifier);
+
+ connman_peer = connman_peer_get(wifi->device, identifier);
+ if (connman_peer)
+ return;
+
+ connman_peer = connman_peer_create(identifier);
+ connman_peer_set_name(connman_peer, name);
+ connman_peer_set_device(connman_peer, wifi->device);
+ apply_peer_services(peer, connman_peer);
+
+ ret = connman_peer_register(connman_peer);
+ if (ret < 0 && ret != -EALREADY)
+ connman_peer_unref(connman_peer);
+ else
+ wifi->peers = g_slist_prepend(wifi->peers, connman_peer);
+}
+
+static void peer_lost(GSupplicantPeer *peer)
+{
+ GSupplicantInterface *iface = g_supplicant_peer_get_interface(peer);
+ struct wifi_data *wifi = g_supplicant_interface_get_data(iface);
+ struct connman_peer *connman_peer;
+ const char *identifier;
+
+ if (!wifi)
+ return;
+
+ identifier = g_supplicant_peer_get_identifier(peer);
+
+ DBG("ident: %s", identifier);
+
+ connman_peer = connman_peer_get(wifi->device, identifier);
+ if (connman_peer) {
+ if (wifi->p2p_connecting &&
+ wifi->pending_peer == connman_peer) {
+ peer_connect_timeout(wifi);
+ }
+ connman_peer_unregister(connman_peer);
+ connman_peer_unref(connman_peer);
+ }
+
+ wifi->peers = g_slist_remove(wifi->peers, connman_peer);
+}
+
+static void peer_changed(GSupplicantPeer *peer, GSupplicantPeerState state)
+{
+ GSupplicantInterface *iface = g_supplicant_peer_get_interface(peer);
+ struct wifi_data *wifi = g_supplicant_interface_get_data(iface);
+ enum connman_peer_state p_state = CONNMAN_PEER_STATE_UNKNOWN;
+ struct connman_peer *connman_peer;
+ const char *identifier;
+
+ identifier = g_supplicant_peer_get_identifier(peer);
+
+ DBG("ident: %s", identifier);
+
+ if (!wifi)
+ return;
+
+ connman_peer = connman_peer_get(wifi->device, identifier);
+ if (!connman_peer)
+ return;
+
+ switch (state) {
+ case G_SUPPLICANT_PEER_SERVICES_CHANGED:
+ apply_peer_services(peer, connman_peer);
+ connman_peer_services_changed(connman_peer);
+ return;
+ case G_SUPPLICANT_PEER_GROUP_CHANGED:
+ if (!g_supplicant_peer_is_in_a_group(peer))
+ p_state = CONNMAN_PEER_STATE_IDLE;
+ else
+ p_state = CONNMAN_PEER_STATE_CONFIGURATION;
+ break;
+ case G_SUPPLICANT_PEER_GROUP_STARTED:
+ break;
+ case G_SUPPLICANT_PEER_GROUP_FINISHED:
+ p_state = CONNMAN_PEER_STATE_IDLE;
+ break;
+ case G_SUPPLICANT_PEER_GROUP_JOINED:
+ connman_peer_set_iface_address(connman_peer,
+ g_supplicant_peer_get_iface_address(peer));
+ break;
+ case G_SUPPLICANT_PEER_GROUP_DISCONNECTED:
+ p_state = CONNMAN_PEER_STATE_IDLE;
+ break;
+ case G_SUPPLICANT_PEER_GROUP_FAILED:
+ if (g_supplicant_peer_has_requested_connection(peer))
+ p_state = CONNMAN_PEER_STATE_IDLE;
+ else
+ p_state = CONNMAN_PEER_STATE_FAILURE;
+ break;
}
+
+ if (p_state == CONNMAN_PEER_STATE_CONFIGURATION ||
+ p_state == CONNMAN_PEER_STATE_FAILURE) {
+ if (wifi->p2p_connecting
+ && connman_peer == wifi->pending_peer)
+ peer_cancel_timeout(wifi);
+ else
+ p_state = CONNMAN_PEER_STATE_UNKNOWN;
+ }
+
+ if (p_state == CONNMAN_PEER_STATE_UNKNOWN)
+ return;
+
+ if (p_state == CONNMAN_PEER_STATE_CONFIGURATION) {
+ GSupplicantInterface *g_iface;
+ struct wifi_data *g_wifi;
+
+ g_iface = g_supplicant_peer_get_group_interface(peer);
+ if (!g_iface)
+ return;
+
+ g_wifi = g_supplicant_interface_get_data(g_iface);
+ if (!g_wifi)
+ return;
+
+ connman_peer_set_as_master(connman_peer,
+ !g_supplicant_peer_is_client(peer));
+ connman_peer_set_sub_device(connman_peer, g_wifi->device);
+
+ /*
+ * If wpa_supplicant didn't create a dedicated p2p-group
+ * interface then mark this interface as p2p_device to avoid
+ * scan and auto-scan are launched on it while P2P is connected.
+ */
+ if (!g_list_find(p2p_iface_list, g_wifi))
+ wifi->p2p_device = true;
+ }
+
+ connman_peer_set_state(connman_peer, p_state);
+}
+
+static void peer_request(GSupplicantPeer *peer)
+{
+ GSupplicantInterface *iface = g_supplicant_peer_get_interface(peer);
+ struct wifi_data *wifi = g_supplicant_interface_get_data(iface);
+ struct connman_peer *connman_peer;
+ const char *identifier;
+
+ identifier = g_supplicant_peer_get_identifier(peer);
+
+ DBG("ident: %s", identifier);
+
+ connman_peer = connman_peer_get(wifi->device, identifier);
+ if (!connman_peer)
+ return;
+
+ connman_peer_request_connection(connman_peer);
}
static void debug(const char *str)
connman_debug("%s", str);
}
+static void disconnect_reasoncode(GSupplicantInterface *interface,
+ int reasoncode)
+{
+ struct wifi_data *wifi = g_supplicant_interface_get_data(interface);
+
+ if (wifi != NULL) {
+ wifi->disconnect_code = reasoncode;
+ }
+}
+
+static void assoc_status_code(GSupplicantInterface *interface, int status_code)
+{
+ struct wifi_data *wifi = g_supplicant_interface_get_data(interface);
+
+ if (wifi != NULL) {
+ wifi->assoc_code = status_code;
+ }
+}
+
static const GSupplicantCallbacks callbacks = {
.system_ready = system_ready,
.system_killed = system_killed,
.interface_added = interface_added,
.interface_state = interface_state,
.interface_removed = interface_removed,
+ .p2p_support = p2p_support,
.scan_started = scan_started,
.scan_finished = scan_finished,
+ .ap_create_fail = ap_create_fail,
.network_added = network_added,
.network_removed = network_removed,
.network_changed = network_changed,
+ .network_associated = network_associated,
+ .sta_authorized = sta_authorized,
+ .sta_deauthorized = sta_deauthorized,
+ .peer_found = peer_found,
+ .peer_lost = peer_lost,
+ .peer_changed = peer_changed,
+ .peer_request = peer_request,
.debug = debug,
+ .disconnect_reasoncode = disconnect_reasoncode,
+ .assoc_status_code = assoc_status_code,
};
wifi_technology = NULL;
}
-struct wifi_tethering_info {
- struct wifi_data *wifi;
- struct connman_technology *technology;
- char *ifname;
- GSupplicantSSID *ssid;
-};
-
static GSupplicantSSID *ssid_ap_init(const char *ssid, const char *passphrase)
{
GSupplicantSSID *ap;
ap = g_try_malloc0(sizeof(GSupplicantSSID));
- if (ap == NULL)
+ if (!ap)
return NULL;
ap->mode = G_SUPPLICANT_MODE_MASTER;
ap->scan_ssid = 0;
ap->freq = 2412;
- if (passphrase == NULL || strlen(passphrase) == 0) {
+ if (!passphrase || strlen(passphrase) == 0) {
ap->security = G_SUPPLICANT_SECURITY_NONE;
ap->passphrase = NULL;
} else {
DBG("result %d index %d bridge %s",
result, info->wifi->index, info->wifi->bridge);
- if (result < 0) {
+ if ((result < 0) || (info->wifi->ap_supported != WIFI_AP_SUPPORTED)) {
connman_inet_remove_from_bridge(info->wifi->index,
info->wifi->bridge);
- connman_technology_tethering_notify(info->technology, FALSE);
+
+ if (info->wifi->ap_supported == WIFI_AP_SUPPORTED) {
+ connman_technology_tethering_notify(info->technology, false);
+ g_free(info->wifi->tethering_param->ssid);
+ g_free(info->wifi->tethering_param);
+ info->wifi->tethering_param = NULL;
+ }
}
g_free(info->ifname);
DBG("result %d ifname %s", result,
g_supplicant_interface_get_ifname(interface));
- if (result < 0) {
+ if ((result < 0) || (info->wifi->ap_supported != WIFI_AP_SUPPORTED)) {
connman_inet_remove_from_bridge(info->wifi->index,
info->wifi->bridge);
- connman_technology_tethering_notify(info->technology, FALSE);
+
+ if (info->wifi->ap_supported == WIFI_AP_SUPPORTED) {
+ connman_technology_tethering_notify(info->technology, false);
+ g_free(info->wifi->tethering_param->ssid);
+ g_free(info->wifi->tethering_param);
+ info->wifi->tethering_param = NULL;
+
+ }
g_free(info->ifname);
+ g_free(info->ssid);
g_free(info);
return;
}
DBG("ifname %s result %d ", info->ifname, result);
- if (result < 0) {
- info->wifi->tethering = TRUE;
+ if ((result < 0) || (info->wifi->ap_supported != WIFI_AP_SUPPORTED)) {
+ info->wifi->tethering = false;
+ connman_technology_tethering_notify(info->technology, false);
+
+ if (info->wifi->ap_supported == WIFI_AP_SUPPORTED) {
+ g_free(info->wifi->tethering_param->ssid);
+ g_free(info->wifi->tethering_param);
+ info->wifi->tethering_param = NULL;
+ }
g_free(info->ifname);
+ g_free(info->ssid);
g_free(info);
return;
}
info->wifi->interface = NULL;
- connman_technology_tethering_notify(info->technology, TRUE);
-
g_supplicant_interface_create(info->ifname, driver, info->wifi->bridge,
ap_create_callback,
info);
}
-static int tech_set_tethering(struct connman_technology *technology,
- const char *identifier, const char *passphrase,
- const char *bridge, connman_bool_t enabled)
+static int enable_wifi_tethering(struct connman_technology *technology,
+ const char *bridge, const char *identifier,
+ const char *passphrase, bool available)
{
GList *list;
GSupplicantInterface *interface;
struct wifi_tethering_info *info;
const char *ifname;
unsigned int mode;
- int err;
-
- DBG("");
-
- if (enabled == FALSE) {
- for (list = iface_list; list; list = list->next) {
- wifi = list->data;
-
- if (wifi->tethering == TRUE) {
- wifi->tethering = FALSE;
-
- connman_inet_remove_from_bridge(wifi->index,
- bridge);
- wifi->bridged = FALSE;
- }
- }
-
- connman_technology_tethering_notify(technology, FALSE);
-
- return 0;
- }
+ int err, berr = 0;
for (list = iface_list; list; list = list->next) {
wifi = list->data;
+ DBG("wifi %p network %p pending_network %p", wifi,
+ wifi->network, wifi->pending_network);
+
interface = wifi->interface;
- if (interface == NULL)
+ if (!interface)
continue;
ifname = g_supplicant_interface_get_ifname(wifi->interface);
+ if (!ifname)
+ continue;
+
+ if (wifi->ap_supported == WIFI_AP_NOT_SUPPORTED) {
+ DBG("%s does not support AP mode (detected)", ifname);
+ continue;
+ }
mode = g_supplicant_interface_get_mode(interface);
if ((mode & G_SUPPLICANT_CAPABILITY_MODE_AP) == 0) {
- DBG("%s does not support AP mode", ifname);
+ wifi->ap_supported = WIFI_AP_NOT_SUPPORTED;
+ DBG("%s does not support AP mode (capability)", ifname);
continue;
}
+ if (wifi->network && available)
+ continue;
+
info = g_try_malloc0(sizeof(struct wifi_tethering_info));
- if (info == NULL)
+ if (!info)
+ return -ENOMEM;
+
+ wifi->tethering_param = g_try_malloc0(sizeof(struct wifi_tethering_info));
+ if (!wifi->tethering_param) {
+ g_free(info);
return -ENOMEM;
+ }
info->wifi = wifi;
info->technology = technology;
info->wifi->bridge = bridge;
info->ssid = ssid_ap_init(identifier, passphrase);
- if (info->ssid == NULL) {
- g_free(info);
- continue;
- }
+ if (!info->ssid)
+ goto failed;
+
info->ifname = g_strdup(ifname);
- if (info->ifname == NULL) {
- g_free(info);
- continue;
- }
- info->wifi->tethering = TRUE;
+ wifi->tethering_param->technology = technology;
+ wifi->tethering_param->ssid = ssid_ap_init(identifier, passphrase);
+ if (!wifi->tethering_param->ssid)
+ goto failed;
+
+ info->wifi->tethering = true;
+ info->wifi->ap_supported = WIFI_AP_SUPPORTED;
+
+ berr = connman_technology_tethering_notify(technology, true);
+ if (berr < 0)
+ goto failed;
err = g_supplicant_interface_remove(interface,
sta_remove_callback,
info);
- if (err == 0)
- return err;
+ if (err >= 0) {
+ DBG("tethering wifi %p ifname %s", wifi, ifname);
+ return 0;
+ }
+
+ failed:
+ g_free(info->ifname);
+ g_free(info->ssid);
+ g_free(info);
+ g_free(wifi->tethering_param);
+ wifi->tethering_param = NULL;
+
+ /*
+ * Remove bridge if it was correctly created but remove
+ * operation failed. Instead, if bridge creation failed then
+ * break out and do not try again on another interface,
+ * bridge set-up does not depend on it.
+ */
+ if (berr == 0)
+ connman_technology_tethering_notify(technology, false);
+ else
+ break;
}
return -EOPNOTSUPP;
}
-static void regdom_callback(void *user_data)
+static int tech_set_tethering(struct connman_technology *technology,
+ const char *identifier, const char *passphrase,
+ const char *bridge, bool enabled)
{
- char *alpha2 = user_data;
+ GList *list;
+ struct wifi_data *wifi;
+ int err;
+
+ DBG("");
+
+ if (!enabled) {
+ for (list = iface_list; list; list = list->next) {
+ wifi = list->data;
+
+ if (wifi->tethering) {
+ wifi->tethering = false;
+
+ connman_inet_remove_from_bridge(wifi->index,
+ bridge);
+ wifi->bridged = false;
+ }
+ }
+
+ connman_technology_tethering_notify(technology, false);
+
+ return 0;
+ }
+
+ DBG("trying tethering for available devices");
+ err = enable_wifi_tethering(technology, bridge, identifier, passphrase,
+ true);
+ if (err < 0) {
+ DBG("trying tethering for any device");
+ err = enable_wifi_tethering(technology, bridge, identifier,
+ passphrase, false);
+ }
+
+ return err;
+}
+
+static void regdom_callback(int result, const char *alpha2, void *user_data)
+{
DBG("");
- if (wifi_technology == NULL)
+ if (!wifi_technology)
return;
+ if (result != 0)
+ alpha2 = NULL;
+
connman_technology_regdom_notify(wifi_technology, alpha2);
}
static int tech_set_regdom(struct connman_technology *technology, const char *alpha2)
{
- return g_supplicant_set_country(alpha2, regdom_callback, alpha2);
+ return g_supplicant_set_country(alpha2, regdom_callback, NULL);
}
static struct connman_technology_driver tech_driver = {