diff options
Diffstat (limited to 'ug-wifidirect/src/wfd_client.c')
-rw-r--r--[-rwxr-xr-x] | ug-wifidirect/src/wfd_client.c | 2395 |
1 files changed, 1700 insertions, 695 deletions
diff --git a/ug-wifidirect/src/wfd_client.c b/ug-wifidirect/src/wfd_client.c index d0c3ae9..8bd357b 100755..100644 --- a/ug-wifidirect/src/wfd_client.c +++ b/ug-wifidirect/src/wfd_client.c @@ -22,936 +22,1941 @@ #include <libintl.h> #include <Elementary.h> -#include <pmapi.h> #include <vconf.h> -//#include <vconf-keys.h> +#include <vconf-keys.h> + #include <tethering.h> + #include <network-cm-intf.h> #include <network-wifi-intf.h> + #include <wifi-direct.h> #include "wfd_ug.h" #include "wfd_ug_view.h" #include "wfd_client.h" +bool _wfd_discoverd_peer_cb(wifi_direct_discovered_peer_info_s *peer, void *user_data); + +#ifndef MODEL_BUILD_FEATURE_WLAN_CONCURRENT_MODE +/** + * This function let the ug make a change callback for wifi state + * @return void + * @param[in] key the pointer to the key + * @param[in] data the pointer to the main data structure + */ static void _wifi_state_cb(keynode_t *key, void *data) { - __FUNC_ENTER__; - struct ug_data *ugd = (struct ug_data*) data; - int res; - int wifi_state; - - res = vconf_get_int(VCONFKEY_WIFI_STATE, &wifi_state); - if (res != 0) - { - DBG(LOG_ERROR, "Failed to get wifi state from vconf. [%d]\n", res); - // TODO: set genlist head item as "WiFi Direct" - return; - } - - if(wifi_state == VCONFKEY_WIFI_OFF) - { - DBG(LOG_VERBOSE, "WiFi is turned off\n"); - wfd_client_swtch_force(ugd, TRUE); - } - else - { - DBG(LOG_VERBOSE, "WiFi is turned on\n"); - } - - res = net_deregister_client(); - if(res != NET_ERR_NONE) - { - DBG(LOG_ERROR, "Failed to deregister network client. [%d]\n", res); - } - - __FUNC_EXIT__; + __FUNC_ENTER__; + struct ug_data *ugd = (struct ug_data *)data; + int res; + int wifi_state; + + res = vconf_get_int(VCONFKEY_WIFI_STATE, &wifi_state); + if (res != 0) { + DBG(LOG_ERROR, "Failed to get wifi state from vconf. [%d]\n", res); + return; + } + + if (wifi_state == VCONFKEY_WIFI_OFF) { + DBG(LOG_INFO, "WiFi is turned off\n"); + wfd_client_swtch_force(ugd, TRUE); + } else { + DBG(LOG_INFO, "WiFi is turned on\n"); + } + + res = net_deregister_client(); + if (res != NET_ERR_NONE) { + DBG(LOG_ERROR, "Failed to deregister network client. [%d]\n", res); + } + + __FUNC_EXIT__; } +/** + * This function let the ug make a event callback for network registering + * @return void + * @param[in] event_info the pointer to the information of network event + * @param[in] user_data the pointer to the user data + */ static void _network_event_cb(net_event_info_t *event_info, void *user_data) { - __FUNC_ENTER__; - DBG(LOG_VERBOSE, "Event from network. [%d]\n", event_info->Event); - __FUNC_EXIT__; + __FUNC_ENTER__; + DBG(LOG_INFO, "Event from network. [%d]\n", event_info->Event); + __FUNC_EXIT__; } +/** + * This function let the ug turn wifi off + * @return If success, return 0, else return -1 + * @param[in] data the pointer to the main data structure + */ int wfd_wifi_off(void *data) { - __FUNC_ENTER__; - struct ug_data *ugd = (struct ug_data*) data; - int res; - - res = vconf_notify_key_changed(VCONFKEY_WIFI_STATE, _wifi_state_cb, ugd); - if (res == -1) - { - DBG(LOG_ERROR, "Failed to register vconf callback\n"); - return -1; - } - DBG(LOG_VERBOSE, "Vconf key callback is registered\n"); - res = net_register_client((net_event_cb_t) _network_event_cb, NULL); - if(res != NET_ERR_NONE) - { - DBG(LOG_ERROR, "Failed to register network client. [%d]\n", res); - return -1; - } - DBG(LOG_VERBOSE, "Network client is registered\n"); - res = net_wifi_power_off(); - if(res != NET_ERR_NONE) - { - DBG(LOG_ERROR, "Failed to turn off wifi. [%d]\n", res); - return -1; - } - DBG(LOG_VERBOSE, "WiFi power off\n"); - __FUNC_EXIT__; - return 0; + __FUNC_ENTER__; + struct ug_data *ugd = (struct ug_data *)data; + int res; + + res = vconf_notify_key_changed(VCONFKEY_WIFI_STATE, _wifi_state_cb, ugd); + if (res == -1) { + DBG(LOG_ERROR, "Failed to register vconf callback\n"); + return -1; + } + + DBG(LOG_INFO, "Vconf key callback is registered\n"); + + res = net_register_client((net_event_cb_t) _network_event_cb, NULL); + if (res != NET_ERR_NONE) { + DBG(LOG_ERROR, "Failed to register network client. [%d]\n", res); + return -1; + } + + DBG(LOG_INFO, "Network client is registered\n"); + + res = net_wifi_power_off(); + if (res != NET_ERR_NONE) { + DBG(LOG_ERROR, "Failed to turn off wifi. [%d]\n", res); + return -1; + } + + DBG(LOG_INFO, "WiFi power off\n"); + + __FUNC_EXIT__; + return 0; +} +#endif /* MODEL_BUILD_FEATURE_WLAN_CONCURRENT_MODE */ + + +/** + * This function let the ug make a callback for setting tethering mode enabled + * @return void + * @param[in] error the returned error code + * @param[in] type the type of tethering + * @param[in] is_requested whether tethering mode is enabled + * @param[in] data the pointer to the user data + */ +static void __enabled_cb(tethering_error_e error, tethering_type_e type, bool is_requested, void *data) +{ + __FUNC_ENTER__; + struct ug_data *ugd = (struct ug_data *)data; + tethering_error_e ret = TETHERING_ERROR_NONE; + tethering_h th = NULL; + bool is_wifi_enabled = false; + + if (error != TETHERING_ERROR_NONE) { + if (is_requested != TRUE) { + return; + } + + DBG(LOG_ERROR, "error !!! TETHERING is not enabled.\n"); + return; + } + + th = ugd->hotspot_handle; + if (th != NULL) { + is_wifi_enabled = tethering_is_enabled(th, TETHERING_TYPE_WIFI); + if (is_wifi_enabled) { + DBG(LOG_INFO, "Mobile hotspot is activated\n"); + } + + /* Deregister cbs */ + ret = tethering_unset_enabled_cb(th, TETHERING_TYPE_WIFI); + if (ret != TETHERING_ERROR_NONE) { + DBG(LOG_ERROR, "tethering_unset_enabled_cb is failed(%d)\n", ret); + } + + /* Destroy tethering handle */ + ret = tethering_destroy(th); + if (ret != TETHERING_ERROR_NONE) { + DBG(LOG_ERROR, "tethering_destroy is failed(%d)\n", ret); + } + + ugd->hotspot_handle = NULL; + } + + DBG(LOG_INFO, "TETHERING is enabled.\n"); + + __FUNC_EXIT__; + return; } +/** + * This function let the ug make a callback for setting tethering mode disabled + * @return void + * @param[in] error the returned error code + * @param[in] type the type of tethering + * @param[in] code whether tethering mode is enabled + * @param[in] data the pointer to the user data + */ static void __disabled_cb(tethering_error_e error, tethering_type_e type, tethering_disabled_cause_e code, void *data) { __FUNC_ENTER__; + struct ug_data *ugd = (struct ug_data *)data; + tethering_error_e ret = TETHERING_ERROR_NONE; + tethering_h th = NULL; + bool is_wifi_enabled = false; + bool is_wifi_ap_enabled = false; + if (error != TETHERING_ERROR_NONE) { - if (code != TETHERING_DISABLED_BY_REQUEST) { return; } + DBG(LOG_ERROR, "error !!! TETHERING is not disabled.\n"); return; } - DBG(LOG_VERBOSE, "TETHERING is disabled.\n"); + th = ugd->hotspot_handle; + if (th != NULL) { + is_wifi_enabled = tethering_is_enabled(th, TETHERING_TYPE_WIFI); + is_wifi_ap_enabled = tethering_is_enabled(th, TETHERING_TYPE_RESERVED); + if (is_wifi_enabled || is_wifi_ap_enabled) { + DBG(LOG_ERROR, "error !!! TETHERING is not disabled.\n"); + DBG(LOG_ERROR, "is_wifi_enabled:%d is_wifi_ap_enabled:%d\n", is_wifi_enabled, is_wifi_ap_enabled); + return; + } - __FUNC_EXIT__; + DBG(LOG_INFO, "Mobile hotspot is deactivated\n"); + wfd_client_swtch_force(ugd, TRUE); + + ret = tethering_unset_disabled_cb(th, TETHERING_TYPE_WIFI); + if (ret != TETHERING_ERROR_NONE) { + DBG(LOG_ERROR, "tethering_unset_disabled_cb is failed(%d)\n", ret); + } + + ret = tethering_unset_disabled_cb(th, TETHERING_TYPE_RESERVED); + if (ret != TETHERING_ERROR_NONE) { + DBG(LOG_ERROR, "tethering_unset_disabled_cb is failed(%d)\n", ret); + } + /* Destroy tethering handle */ + ret = tethering_destroy(th); + if (ret != TETHERING_ERROR_NONE) { + DBG(LOG_ERROR, "tethering_destroy is failed(%d)\n", ret); + } + + ugd->hotspot_handle = NULL; + } + + DBG(LOG_INFO, "TETHERING is disabled.\n"); + + __FUNC_EXIT__; return; } +/** + * This function let the ug turn AP on + * @return If success, return 0, else return -1 + * @param[in] data the pointer to the main data structure + */ +int wfd_mobile_ap_on(void *data) +{ + __FUNC_ENTER__; + struct ug_data *ugd = (struct ug_data *)data; + tethering_error_e ret = TETHERING_ERROR_NONE; + WFD_RETV_IF(ugd == NULL, -1, "Incorrect parameter(NULL)\n"); + + if (NULL == ugd->hotspot_handle) { + ret = tethering_create(&(ugd->hotspot_handle)); + if (TETHERING_ERROR_NONE != ret) { + DBG(LOG_ERROR, "Failed to tethering_create() [%d]\n", ret); + ugd->hotspot_handle = NULL; + return -1; + } + DBG(LOG_INFO, "Succeeded to tethering_create()\n"); + } + /* Register cbs */ + ret = tethering_set_enabled_cb(ugd->hotspot_handle, TETHERING_TYPE_WIFI, __enabled_cb, ugd); + if (ret != TETHERING_ERROR_NONE) { + DBG(LOG_ERROR, "tethering_set_enabled_cb is failed\n", ret); + return -1; + } + + /* Enable tethering */ + ret = tethering_enable(ugd->hotspot_handle, TETHERING_TYPE_WIFI); + if (ret != TETHERING_ERROR_NONE) { + DBG(LOG_ERROR, "Failed to turn on mobile hotspot. [%d]\n", ret); + return -1; + } else { + DBG(LOG_INFO, "Succeeded to turn on mobile hotspot\n"); + } + + ugd->is_hotspot_off = FALSE; -#if 0 -static device_type_s *wfd_client_find_peer_by_ssid(void *data, const char *ssid) + __FUNC_EXIT__; + return 0; +} + +/** + * This function let the ug turn AP off + * @return If success, return 0, else return -1 + * @param[in] data the pointer to the main data structure + */ +int wfd_mobile_ap_off(void *data) { - __FUNC_ENTER__; - struct ug_data *ugd = (struct ug_data*) data; - int i; + __FUNC_ENTER__; + struct ug_data *ugd = (struct ug_data *)data; + WFD_RETV_IF(ugd == NULL || ugd->hotspot_handle == NULL, -1, "Incorrect parameter(NULL)\n"); + tethering_error_e ret = TETHERING_ERROR_NONE; + bool is_wifi_enabled = false; + bool is_wifi_ap_enabled = false; + + is_wifi_enabled = tethering_is_enabled(ugd->hotspot_handle, TETHERING_TYPE_WIFI); + is_wifi_ap_enabled = tethering_is_enabled(ugd->hotspot_handle, TETHERING_TYPE_RESERVED); + + if (is_wifi_enabled) { + /* Register cbs */ + ret = tethering_set_disabled_cb(ugd->hotspot_handle, TETHERING_TYPE_WIFI, __disabled_cb, ugd); + if (ret != TETHERING_ERROR_NONE) { + DBG(LOG_ERROR, "tethering_set_disabled_cb is failed\n", ret); + return -1; + } + /* Disable tethering */ + ret = tethering_disable(ugd->hotspot_handle, TETHERING_TYPE_WIFI); + } else if (is_wifi_ap_enabled) { + ret = tethering_set_disabled_cb(ugd->hotspot_handle, TETHERING_TYPE_RESERVED, __disabled_cb, ugd); + if (ret != TETHERING_ERROR_NONE) { + DBG(LOG_ERROR, "tethering_set_disabled_cb is failed\n", ret); + return -1; + } + ret = tethering_disable(ugd->hotspot_handle, TETHERING_TYPE_RESERVED); + } - if(ugd == NULL) - { - DBG(LOG_ERROR, "Incorrect parameter(NULL)\n"); - return NULL; - } + if (ret != TETHERING_ERROR_NONE) { + DBG(LOG_ERROR, "Failed to turn off mobile hotspot. [%d]\n", ret); + return -1; + } else { + DBG(LOG_INFO, "Succeeded to turn off mobile hotspot\n"); + } - for(i=0; i<ugd->gl_available_peer_cnt; i++) - { - DBG(LOG_VERBOSE, "check %dth peer\n", i); - if(!strcmp(ugd->gl_available_peers[i].ssid, ssid)) - { - DBG(LOG_VERBOSE, "found peer. [%d]\n", i); - __FUNC_EXIT__; - return &ugd->gl_available_peers[i]; - } - } - __FUNC_EXIT__; + ugd->is_hotspot_off = TRUE; - return NULL; + __FUNC_EXIT__; + return 0; } -#endif -static device_type_s *wfd_client_find_peer_by_mac(void *data, const char *mac_addr) +void wfd_client_free_raw_discovered_peers(struct ug_data *ugd) { - __FUNC_ENTER__; - struct ug_data *ugd = (struct ug_data*) data; - int i; + __FUNC_ENTER__; + WFD_RET_IF(ugd->raw_discovered_peer_list == NULL, "Incorrect parameter(NULL)\n"); - if(ugd == NULL) - { - DBG(LOG_ERROR, "Incorrect parameter(NULL)\n"); - return NULL; - } + g_list_free(ugd->raw_discovered_peer_list); + ugd->raw_discovered_peer_list = NULL; - if (ugd->multi_connect_mode != WFD_MULTI_CONNECT_MODE_NONE) - { - for(i=0; i<ugd->raw_multi_selected_peer_cnt; i++) - { - DBG(LOG_VERBOSE, "[Multi Connect] check %dth peer\n", i); - if(!strncmp(mac_addr, (const char*) ugd->raw_multi_selected_peers[i].mac_addr, MAC_LENGTH)) - { - DBG(LOG_VERBOSE, "selected found peer. [%d]\n", i); - __FUNC_EXIT__; + __FUNC_EXIT__; +} + +/** + * This function let the ug find the peer by mac address + * @return the found peer + * @param[in] data the pointer to the main data structure + * @param[in] mac_addr the pointer to mac address + */ +static device_type_s *wfd_client_find_peer_by_mac(void *data, const char *mac_addr) +{ + __FUNC_ENTER__; + struct ug_data *ugd = (struct ug_data *)data; + wifi_direct_discovered_peer_info_s *peer_info = NULL; + GList *iterator = NULL; + int i; + WFD_RETV_IF(ugd == NULL, NULL, "Incorrect parameter(NULL)\n"); + + if (ugd->multi_connect_mode == WFD_MULTI_CONNECT_MODE_IN_PROGRESS) { + for (i = 0; i < ugd->raw_multi_selected_peer_cnt; i++) { + if (!strncmp(mac_addr, (const char *)ugd->raw_multi_selected_peers[i].mac_addr, MAC_LENGTH)) { return &ugd->raw_multi_selected_peers[i]; } } - } - else - { - for(i=0; i<ugd->raw_discovered_peer_cnt; i++) - { - DBG(LOG_VERBOSE, "check %dth peer\n", i); - if(!strncmp(mac_addr, (const char*) ugd->raw_discovered_peers[i].mac_addr, MAC_LENGTH)) - { - DBG(LOG_VERBOSE, "found peer. [%d]\n", i); - __FUNC_EXIT__; - return &ugd->raw_discovered_peers[i]; + } else { + for (iterator = ugd->raw_discovered_peer_list; iterator; iterator = iterator->next) { + if (!strncmp(mac_addr, ((device_type_s *)iterator->data)->mac_addr, MAC_LENGTH)) { + return (device_type_s *)iterator->data; } } + } - } - __FUNC_EXIT__; + /* + * In case, device is not in raw discovered list, then get peer info. + * There could be situation in which device is not yet discovered and + * connected process started. + */ + if (WIFI_DIRECT_ERROR_NONE != wifi_direct_get_peer_info((char *)mac_addr, &peer_info) || + NULL == peer_info) { + DBG(LOG_ERROR, "Peer Not Found !!!"); + return NULL; + } - return NULL; -} + /* Update peer list */ + DBG(LOG_INFO, "Update Peer info"); + _wfd_discoverd_peer_cb(peer_info, (void *)ugd); -int _wfd_ug_view_clean_on_off(struct ug_data *ugd) -{ - wfd_ug_view_update_peers(ugd); - return 0; + /* Get the device from peer list */ + for (iterator = ugd->raw_discovered_peer_list; iterator; iterator = iterator->next) { + if (!strncmp(mac_addr, ((device_type_s *)iterator->data)->mac_addr, MAC_LENGTH)) { + return (device_type_s *)iterator->data; + } + } + + __FUNC_EXIT__; + return NULL; } +/** + * This function let the ug make a callback for registering activation event + * @return void + * @param[in] error_code the returned error code + * @param[in] device_state the state of device + * @param[in] user_data the pointer to the main data structure + */ void _activation_cb(int error_code, wifi_direct_device_state_e device_state, void *user_data) { - __FUNC_ENTER__; - int res; - struct ug_data *ugd = (struct ug_data*) user_data; - - wfd_refresh_wifi_direct_state(ugd); + __FUNC_ENTER__; + int res = -1; + struct ug_data *ugd = (struct ug_data *)user_data; + wfd_refresh_wifi_direct_state(ugd); - switch(device_state) - { - case WIFI_DIRECT_DEVICE_STATE_ACTIVATED: - DBG(LOG_VERBOSE, "WIFI_DIRECT_DEVICE_STATE_ACTIVATED\n"); - if(error_code != WIFI_DIRECT_ERROR_NONE) - { - DBG(LOG_ERROR, "Error in Activation/Deactivation [%d]\n", error_code); - wfd_ug_warn_popup(ugd, _("IDS_WFD_POP_ACTIVATE_FAIL"), POPUP_TYPE_ACTIVATE_FAIL); + switch (device_state) { + case WIFI_DIRECT_DEVICE_STATE_ACTIVATED: + DBG(LOG_INFO, "WIFI_DIRECT_DEVICE_STATE_ACTIVATED\n"); + if(ugd->scan_toolbar == NULL) { + scan_button_create(ugd); + } + if (error_code != WIFI_DIRECT_ERROR_NONE) { + DBG(LOG_ERROR, "Error in Activation/Deactivation [%d]\n", error_code); + if (WIFI_DIRECT_ERROR_AUTH_FAILED == error_code) { + wfd_ug_warn_popup(ugd, _("IDS_COM_POP_SECURITY_POLICY_RESTRICTS_USE_OF_WI_FI"), POPUP_TYPE_ACTIVATE_FAIL_POLICY_RESTRICTS); + } else { + wfd_ug_warn_popup(ugd, _("IDS_COM_POP_FAILED"), POPUP_TYPE_ACTIVATE_FAIL); + } - ugd->head_text_mode = HEAD_TEXT_TYPE_DIRECT; - ugd->wfd_onoff = 0; - wfd_ug_view_refresh_glitem(ugd->head); - return; - } +#ifdef WFD_ON_OFF_GENLIST + ugd->wfd_onoff = 0; + wfd_ug_refresh_on_off_check(ugd); +#endif + return; + } - ugd->head_text_mode = HEAD_TEXT_TYPE_ACTIVATED; - ugd->wfd_onoff = 1; - wfd_ug_view_refresh_glitem(ugd->head); + ugd->multi_connect_mode = WFD_MULTI_CONNECT_MODE_NONE; +#ifdef WFD_ON_OFF_GENLIST + ugd->wfd_onoff = 1; + wfd_ug_refresh_on_off_check(ugd); +#endif + wfg_ug_act_popup_remove(ugd); - wfg_ug_act_popup_remove(ugd); + if (ugd->wfd_discovery_status == WIFI_DIRECT_DISCOVERY_BACKGROUND) { + DBG(LOG_INFO, "Background mode\n"); + return; + } - res = vconf_ignore_key_changed(VCONFKEY_WIFI_STATE, _wifi_state_cb); - if(res == -1) - { - DBG(LOG_ERROR, "Failed to ignore vconf key callback for wifi state\n"); - } +#ifndef MODEL_BUILD_FEATURE_WLAN_CONCURRENT_MODE + res = vconf_ignore_key_changed(VCONFKEY_WIFI_STATE, _wifi_state_cb); + if (res == -1) { + DBG(LOG_ERROR, "Failed to ignore vconf key callback for wifi state\n"); + } +#endif /* MODEL_BUILD_FEATURE_WLAN_CONCURRENT_MODE */ + + ugd->wfd_discovery_status = WIFI_DIRECT_DISCOVERY_SOCIAL_CHANNEL_START; + res = wifi_direct_start_discovery_specific_channel(false, 1, WIFI_DIRECT_DISCOVERY_SOCIAL_CHANNEL); + if (res != WIFI_DIRECT_ERROR_NONE) { + ugd->wfd_discovery_status = WIFI_DIRECT_DISCOVERY_NONE; + DBG(LOG_ERROR, "Failed to start discovery. [%d]\n", res); + wifi_direct_cancel_discovery(); + } - res = wifi_direct_start_discovery(FALSE, 0); - if(res != WIFI_DIRECT_ERROR_NONE) - { - DBG(LOG_ERROR, "Failed to start discovery. [%d]\n", res); - } - DBG(LOG_VERBOSE, "Discovery is started\n"); - break; + break; + case WIFI_DIRECT_DEVICE_STATE_DEACTIVATED: + DBG(LOG_INFO, "WIFI_DIRECT_DEVICE_STATE_DEACTIVATED\n"); + if (error_code != WIFI_DIRECT_ERROR_NONE) { + DBG(LOG_ERROR, "Error in Activation/Deactivation [%d]\n", error_code); + wfd_ug_warn_popup(ugd, _("IDS_WIFI_POP_DEACTIVATION_FAILED"), POPUP_TYPE_DEACTIVATE_FAIL); +#ifdef WFD_ON_OFF_GENLIST + ugd->wfd_onoff = 1; + wfd_ug_refresh_on_off_check(ugd); +#endif + return; + } - case WIFI_DIRECT_DEVICE_STATE_DEACTIVATED: - DBG(LOG_VERBOSE, "WIFI_DIRECT_DEVICE_STATE_DEACTIVATED\n"); - if(error_code != WIFI_DIRECT_ERROR_NONE) - { - DBG(LOG_ERROR, "Error in Activation/Deactivation [%d]\n", error_code); - wfd_ug_warn_popup(ugd, _("IDS_WFD_POP_DEACTIVATE_FAIL"), POPUP_TYPE_DEACTIVATE_FAIL); - ugd->head_text_mode = HEAD_TEXT_TYPE_DIRECT; - ugd->wfd_onoff = 1; - wfd_ug_view_refresh_glitem(ugd->head); - return; - } + WFD_IF_DEL_ITEM(ugd->multi_connect_toolbar_item); - ugd->head_text_mode = HEAD_TEXT_TYPE_DIRECT; - ugd->wfd_onoff = 0; + if (ugd->ctxpopup) { + ctxpopup_dismissed_cb(ugd, NULL, NULL); + } - wfd_ug_view_update_peers(ugd); + /* + * When multi-connect is on ongoing and deactivte happened destroy + * disconnect button. + */ + if (ugd->disconnect_btn) { + Evas_Object *content; + content = elm_object_part_content_unset(ugd->layout, "button.next"); + WFD_IF_DEL_OBJ(content); + ugd->disconnect_btn = NULL; + elm_object_part_content_set(ugd->layout, "button.big", + ugd->scan_toolbar); + } - break; - default: - break; - } + /* When connect is on ongoing and deactivte happened refresh scan */ + if (ugd->scan_toolbar) { + wfd_ug_view_refresh_button(ugd->scan_toolbar, + "IDS_WIFI_SK4_SCAN", FALSE); + } + /* Delete pop-up when deactivate happens */ + WFD_IF_DEL_OBJ(ugd->act_popup); + /* Remove timeout handlers */ + if (ugd->timer_stop_progress_bar > 0) + g_source_remove(ugd->timer_stop_progress_bar); - wfd_ug_view_refresh_glitem(ugd->head); + if (ugd->timer_delete_not_alive_peer > 0) + g_source_remove(ugd->timer_delete_not_alive_peer); - if (ugd->scan_btn) { - wfd_ug_view_refresh_button(ugd->scan_btn, _("IDS_WFD_BUTTON_SCAN"), TRUE); - } + if (ugd->g_source_multi_connect_next > 0) + g_source_remove(ugd->g_source_multi_connect_next); - if (ugd->multi_connect_btn) { - wfd_ug_view_refresh_button(ugd->multi_scan_btn, _("IDS_WFD_BUTTON_SCAN"), TRUE); - } + if (ugd->timer_multi_reset > 0) + g_source_remove(ugd->timer_multi_reset); - __FUNC_EXIT__; - return; -} + /* Delete warn popups for Airplane mode */ + if (NULL != ugd->warn_popup) { + evas_object_del( ugd->warn_popup); + ugd->warn_popup = NULL; + } -bool _wfd_discoverd_peer_cb(wifi_direct_discovered_peer_info_s* peer, void *user_data) -{ - __FUNC_ENTER__; +#ifdef WFD_ON_OFF_GENLIST + ugd->wfd_onoff = 0; + wfd_ug_refresh_on_off_check(ugd); +#endif + /* + * when deactivated, clear all the + * discovered peers and connected peers + */ + wfd_client_free_raw_discovered_peers(ugd); + if (ugd->raw_connected_peer_cnt > 0) { + memset(ugd->raw_connected_peers, 0x00, ugd->raw_connected_peer_cnt*sizeof(device_type_s)); + } + + ugd->raw_discovered_peer_cnt = 0; + ugd->raw_connected_peer_cnt = 0; + + wfd_free_nodivice_item(ugd); + wfd_ug_view_init_genlist(ugd, true); + + if (ugd->multi_navi_item != NULL) { + elm_naviframe_item_pop(ugd->naviframe); + } + + if (TRUE == ugd->is_hotspot_off && TRUE == ugd->is_hotspot_locally_disabled) { + if (0 == wfd_mobile_ap_on(ugd)) { + ugd->is_hotspot_locally_disabled = FALSE; + } + } + + if(ugd->scan_toolbar) { + evas_object_del(ugd->scan_toolbar); + ugd->scan_toolbar = NULL; + } + break; + default: + break; + } + + /*if (ugd->scan_toolbar) { + wfd_ug_view_refresh_button(ugd->scan_toolbar, _("IDS_WIFI_SK4_SCAN"), TRUE); + }*/ + + if (ugd->multiconn_scan_stop_btn) { + wfd_ug_view_refresh_button(ugd->multiconn_scan_stop_btn, "IDS_WIFI_SK4_SCAN", TRUE); + } - struct ug_data *ugd = (struct ug_data*) user_data; - int peer_cnt = ugd->raw_discovered_peer_cnt; + if (ugd->back_btn) { + elm_object_disabled_set(ugd->back_btn, FALSE); + } - DBG(LOG_VERBOSE, "%dth discovered peer. [%s] [%s]\n", peer_cnt, peer->ssid, peer->mac_address); + __FUNC_EXIT__; + return; +} - strncpy(ugd->raw_discovered_peers[peer_cnt].ssid, peer->ssid, sizeof(ugd->raw_discovered_peers[peer_cnt].ssid)); - ugd->raw_discovered_peers[peer_cnt].category = peer->primary_device_type; - strncpy(ugd->raw_discovered_peers[peer_cnt].mac_addr, peer->mac_address, MAC_LENGTH); - strncpy(ugd->raw_discovered_peers[peer_cnt].if_addr, peer->interface_address, MAC_LENGTH); - ugd->raw_discovered_peers[peer_cnt].is_group_owner = peer->is_group_owner; - ugd->raw_discovered_peers[peer_cnt].is_persistent_group_owner = peer->is_persistent_group_owner; - ugd->raw_discovered_peers[peer_cnt].is_connected = peer->is_connected; +/** + * This function let the ug make a callback for discovering peer + * @return TRUE + * @param[in] peer the pointer to the discovered peer + * @param[in] user_data the pointer to the main data structure + */ +bool _wfd_discoverd_peer_cb(wifi_direct_discovered_peer_info_s *peer, void *user_data) +{ + __FUNC_ENTER__; + WFD_RETV_IF(NULL == peer || NULL == user_data, FALSE, "Incorrect parameter(NULL)\n"); + + struct ug_data *ugd = (struct ug_data *)user_data; + int peer_cnt = ugd->raw_discovered_peer_cnt; + device_type_s *peer_tmp = g_new(device_type_s, 1); + int i; + + DBG_SECURE(LOG_INFO, "%dth discovered peer. [%s] ["MACSECSTR"]\n", peer_cnt, + peer->device_name, MAC2SECSTR(peer->mac_address)); + + if (ugd->device_filter < 0 || peer->primary_device_type == ugd->device_filter) { + strncpy(peer_tmp->ssid, peer->device_name, sizeof(peer_tmp->ssid) - 1); + peer_tmp->ssid[SSID_LENGTH - 1] = '\0'; + peer_tmp->category = peer->primary_device_type; + peer_tmp->sub_category = peer->secondary_device_type; + strncpy(peer_tmp->mac_addr, peer->mac_address, MAC_LENGTH - 1); + peer_tmp->mac_addr[MAC_LENGTH - 1] = '\0'; + strncpy(peer_tmp->if_addr, peer->interface_address, MAC_LENGTH - 1); + peer_tmp->if_addr[MAC_LENGTH - 1] = '\0'; + peer_tmp->is_group_owner = peer->is_group_owner; + peer_tmp->is_persistent_group_owner = peer->is_persistent_group_owner; + peer_tmp->is_connected = peer->is_connected; + peer_tmp->dev_sel_state = FALSE; + + if (TRUE == peer->is_connected) { + peer_tmp->conn_status = PEER_CONN_STATUS_CONNECTED; + } else { + peer_tmp->conn_status = PEER_CONN_STATUS_DISCONNECTED; + } - if (TRUE == peer->is_connected) { - ugd->raw_discovered_peers[peer_cnt].conn_status = PEER_CONN_STATUS_CONNECTED; - } else { - ugd->raw_discovered_peers[peer_cnt].conn_status = PEER_CONN_STATUS_DISCONNECTED; - } + ugd->raw_discovered_peer_list = g_list_append(ugd->raw_discovered_peer_list, peer_tmp); + DBG(LOG_INFO, "\tSSID: [%s]\n", peer_tmp->ssid); + DBG(LOG_INFO, "\tPeer category [%d] -> [%d]\n", peer->primary_device_type, peer_tmp->category); + DBG(LOG_INFO, "\tStatus: [%d]\n", peer_tmp->conn_status); + DBG(LOG_INFO, "\tservice_count: [%d]\n", peer->service_count); + ugd->raw_discovered_peer_cnt++; + } else { + DBG(LOG_INFO, "Unavailable WiFi-Direct Device\n"); + } - DBG(LOG_VERBOSE, "\tSSID: [%s]\n", ugd->raw_discovered_peers[peer_cnt].ssid); - DBG(LOG_VERBOSE, "\tPeer category [%d] -> [%d]\n", peer->primary_device_type, ugd->raw_discovered_peers[peer_cnt].category); - DBG(LOG_VERBOSE, "\tStatus: [%d]\n", ugd->raw_discovered_peers[peer_cnt].conn_status); + WFD_IF_FREE_MEM(peer->device_name); + WFD_IF_FREE_MEM(peer->mac_address); + WFD_IF_FREE_MEM(peer->interface_address); - ugd->raw_discovered_peer_cnt ++; + if (NULL != peer->service_list) + { + for (i=0; i<peer->service_count && peer->service_list[i] != NULL; i++) { + free(peer->service_list[i]); + } + WFD_IF_FREE_MEM(peer->service_list); + } - free(peer->ssid); - free(peer->mac_address); - free(peer->interface_address); - free(peer); + WFD_IF_FREE_MEM(peer); - __FUNC_EXIT__; - return TRUE; + __FUNC_EXIT__; + return TRUE; } -bool _wfd_connected_peer_cb(wifi_direct_connected_peer_info_s* peer, void *user_data) +/** + * This function let the ug make a callback for connected peer + * @return TRUE + * @param[in] peer the pointer to the connected peer + * @param[in] user_data the pointer to the main data structure + */ +bool _wfd_connected_peer_cb(wifi_direct_connected_peer_info_s *peer, void *user_data) { - __FUNC_ENTER__; - struct ug_data *ugd = (struct ug_data*) user_data; - int peer_cnt = ugd->raw_connected_peer_cnt; + __FUNC_ENTER__; + WFD_RETV_IF(NULL == peer || NULL == user_data, FALSE, "Incorrect parameter(NULL)\n"); + + struct ug_data *ugd = (struct ug_data *)user_data; + int peer_cnt = ugd->raw_connected_peer_cnt; + int i; + + DBG_SECURE(LOG_INFO, "%dth connected peer. [%s] ["MACSECSTR"]\n", peer_cnt, + peer->device_name, MAC2SECSTR(peer->mac_address)); + + /* + * check wether ug needs to exit + * automatically after successed connection + */ + + char services[256] = {0,}; + DBG(LOG_INFO, "\tservice_count: [%d]\n", peer->service_count); + if (peer->service_count>0) { + unsigned int len = 0; + for (i=0; i<peer->service_count && peer->service_list != NULL; i++) { + snprintf(services + len, 256-len, "%s ", peer->service_list[i]); + len = len + strlen(peer->service_list[i]) + 1; + } + DBG(LOG_INFO, "\tServices: [%s]\n", services); + } + + strncpy(ugd->raw_connected_peers[peer_cnt].ssid, peer->device_name, sizeof(ugd->raw_connected_peers[peer_cnt].ssid) - 1); + ugd->raw_connected_peers[peer_cnt].category = peer->primary_device_type; + ugd->raw_connected_peers[peer_cnt].sub_category = peer->secondary_device_type; + strncpy(ugd->raw_connected_peers[peer_cnt].mac_addr, peer->mac_address, MAC_LENGTH - 1); + strncpy(ugd->raw_connected_peers[peer_cnt].if_addr, peer->interface_address, MAC_LENGTH - 1); + ugd->raw_connected_peers[peer_cnt].conn_status = PEER_CONN_STATUS_CONNECTED; + + DBG(LOG_INFO, "\tStatus: [%d]\n", ugd->raw_connected_peers[peer_cnt].conn_status); + DBG(LOG_INFO, "\tCategory: [%d]\n", ugd->raw_connected_peers[peer_cnt].category); + DBG(LOG_INFO, "\tSSID: [%s]\n", ugd->raw_connected_peers[peer_cnt].ssid); + + ugd->raw_connected_peer_cnt++; + + int error = -1; + bool is_group_owner = FALSE; + error = wifi_direct_is_group_owner(&is_group_owner); + if (error != WIFI_DIRECT_ERROR_NONE) { + DBG(LOG_ERROR, "Fail to get group_owner_state. ret=[%d]", error); + return FALSE; + } - DBG(LOG_VERBOSE, "%dth connected peer. [%s] [%s]\n", peer_cnt, peer->ssid, peer->mac_address); + if (FALSE == is_group_owner) { + /* to send ip_addr*/ + int ret = -1; + app_control_h control = NULL; + ret = app_control_create(&control); + if (ret) { + DBG(LOG_ERROR, "Failed to create control"); + return FALSE; + } - strncpy(ugd->raw_connected_peers[peer_cnt].ssid, peer->ssid, sizeof(ugd->raw_connected_peers[peer_cnt].ssid)); - ugd->raw_connected_peers[peer_cnt].category = peer->primary_device_type; - strncpy(ugd->raw_connected_peers[peer_cnt].mac_addr, peer->mac_address, MAC_LENGTH); - strncpy(ugd->raw_connected_peers[peer_cnt].if_addr, peer->interface_address, MAC_LENGTH); - ugd->raw_connected_peers[peer_cnt].conn_status = PEER_CONN_STATUS_CONNECTED; + if(peer->ip_address != NULL && strlen(services) != 0 ) { + app_control_add_extra_data(control, "ip_address", peer->ip_address); + app_control_add_extra_data(control, "wfds", services); + ug_send_result(ugd->ug, control); + } + app_control_destroy(control); + } - DBG(LOG_VERBOSE, "\tStatus: [%d]\n", ugd->raw_connected_peers[peer_cnt].conn_status); - DBG(LOG_VERBOSE, "\tCategory: [%d]\n", ugd->raw_connected_peers[peer_cnt].category); - DBG(LOG_VERBOSE, "\tSSID: [%s]\n", ugd->raw_connected_peers[peer_cnt].ssid); + WFD_IF_FREE_MEM(peer->device_name); + WFD_IF_FREE_MEM(peer->mac_address); + WFD_IF_FREE_MEM(peer->interface_address); - ugd->raw_connected_peer_cnt++; + if (NULL != peer->service_list) + { + for (i=0; i<peer->service_count && peer->service_list[i] != NULL; i++) { + free(peer->service_list[i]); + } + WFD_IF_FREE_MEM(peer->service_list); + } - free(peer->ssid); - free(peer->mac_address); - free(peer->interface_address); - free(peer); - __FUNC_EXIT__; - return TRUE; + WFD_IF_FREE_MEM(peer); + + __FUNC_EXIT__; + return TRUE; } +/** + * This function let the ug get the found peers + * @return If success, return 0, else return -1 + * @param[in] ugd the pointer to the main data structure + */ int wfd_ug_get_discovered_peers(struct ug_data *ugd) { + __FUNC_ENTER__; int res = 0; + WFD_RETV_IF(ugd == NULL, -1, "Incorrect parameter(NULL)\n"); + + ugd->raw_discovered_peer_cnt = 0; + wfd_client_free_raw_discovered_peers(ugd); + res = wifi_direct_foreach_discovered_peers(_wfd_discoverd_peer_cb, (void *)ugd); + if (res != WIFI_DIRECT_ERROR_NONE) { + ugd->raw_discovered_peer_cnt = 0; + DBG(LOG_ERROR, "Get discovery result failed: %d\n", res); + } + + __FUNC_EXIT__; + return 0; +} - if (ugd==NULL) +/** + * This function let the ug get the connecting peer + * @return If success, return 0, else return -1 + * @param[in] ugd the pointer to the main data structure + */ +int wfd_ug_get_connecting_peer(struct ug_data *ugd) +{ + __FUNC_ENTER__; + int res = 0; + WFD_RETV_IF(ugd == NULL, -1, "Incorrect parameter(NULL)\n"); + char *mac_addr = NULL; + GList *iterator = NULL; + + ugd->mac_addr_connecting = NULL; + res = wifi_direct_get_connecting_peer(&mac_addr); + if (res != WIFI_DIRECT_ERROR_NONE) { + DBG(LOG_ERROR, "Get connecting device mac failed: %d\n", res); return -1; + } + DBG_SECURE(LOG_INFO, "Mac Addr Connecting: ["MACSECSTR"]\n", + MAC2SECSTR(mac_addr)); + ugd->mac_addr_connecting = mac_addr; - ugd->raw_discovered_peer_cnt = 0; - res = wifi_direct_foreach_discovered_peers(_wfd_discoverd_peer_cb, (void*) ugd); - if (res != WIFI_DIRECT_ERROR_NONE) - { - ugd->raw_discovered_peer_cnt = 0; - DBG(LOG_ERROR, "Get discovery result failed: %d\n", res); - } + for (iterator = ugd->raw_discovered_peer_list; iterator; iterator = iterator->next) { + if (!strncmp(mac_addr, ((device_type_s *)iterator->data)->mac_addr, MAC_LENGTH)) { + ((device_type_s *)iterator->data)->conn_status = PEER_CONN_STATUS_CONNECTING; + } + } + + __FUNC_EXIT__; return 0; } +/** + * This function let the ug get the connected peers + * @return If success, return 0, else return -1 + * @param[in] ugd the pointer to the main data structure + */ int wfd_ug_get_connected_peers(struct ug_data *ugd) { + __FUNC_ENTER__; int res = 0; - - if (ugd==NULL) - return -1; + WFD_RETV_IF(ugd == NULL, -1, "Incorrect parameter(NULL)\n"); ugd->raw_connected_peer_cnt = 0; - res = wifi_direct_foreach_connected_peers(_wfd_connected_peer_cb, (void*) ugd); - if(res != WIFI_DIRECT_ERROR_NONE) - { + res = wifi_direct_foreach_connected_peers(_wfd_connected_peer_cb, (void *)ugd); + if (res != WIFI_DIRECT_ERROR_NONE) { ugd->raw_connected_peer_cnt = 0; DBG(LOG_ERROR, "Get connected peer failed: %d\n", res); } + + __FUNC_EXIT__; return 0; } -void _discover_cb(int error_code, wifi_direct_discovery_state_e discovery_state, void *user_data) +/** + * This function let the ug exits automatically after successed connection + * @return void + * @param[in] user_data the pointer to the main data structure + */ +void _wfd_ug_auto_exit(void *user_data) { - __FUNC_ENTER__; - struct ug_data *ugd = (struct ug_data*) user_data; + __FUNC_ENTER__; + struct ug_data *ugd = (struct ug_data *)user_data; + WFD_RET_IF(ugd == NULL, "Incorrect parameter(NULL)\n"); - if(ugd == NULL) - { - DBG(LOG_ERROR, "Incorrect parameter(NULL)\n"); - return; - } + usleep(1000); + deinit_wfd_client(ugd); + wfd_destroy_ug(ugd); - if(discovery_state == WIFI_DIRECT_ONLY_LISTEN_STARTED) - { - ugd->head_text_mode = HEAD_TEXT_TYPE_DIRECT; - } - else if(discovery_state == WIFI_DIRECT_DISCOVERY_STARTED) - { - ugd->head_text_mode = HEAD_TEXT_TYPE_SCANING; - } - else if(discovery_state == WIFI_DIRECT_DISCOVERY_FOUND) - { - ugd->head_text_mode = HEAD_TEXT_TYPE_DIRECT; - } + __FUNC_EXIT__; +} + +gboolean wfd_delete_not_alive_peer_cb(void *user_data) +{ + __FUNC_ENTER__; + struct ug_data *ugd = (struct ug_data *)user_data; + WFD_RETV_IF(ugd == NULL, FALSE, "Incorrect parameter(NULL)\n"); + + delete_not_alive_peers(ugd, &ugd->gl_avlb_peers_start, &ugd->gl_available_peer_cnt); + delete_not_alive_peers(ugd, &ugd->gl_busy_peers_start, &ugd->gl_busy_peer_cnt); + delete_not_alive_peers(ugd, &ugd->multi_conn_dev_list_start, &ugd->gl_available_dev_cnt_at_multiconn_view); + wfd_ug_view_init_genlist(ugd, false); + wfd_update_multiconnect_device(ugd, false); + __FUNC_EXIT__; + return FALSE; +} - wfd_ug_view_refresh_glitem(ugd->head); - if (WIFI_DIRECT_DISCOVERY_STARTED == discovery_state) { - if (ugd->scan_btn) { - wfd_ug_view_refresh_button(ugd->scan_btn, _("IDS_WFD_BUTTON_STOPSCAN"), TRUE); +gboolean wfd_delete_progressbar_cb(void *user_data) +{ + __FUNC_ENTER__; + struct ug_data *ugd = (struct ug_data *)user_data; + WFD_RETV_IF(ugd == NULL, FALSE, "Incorrect parameter(NULL)\n"); + + ugd->title_content_mode = TITLE_CONTENT_TYPE_NONE; + if (ugd->raw_discovered_peer_cnt == 0 && + ugd->nodevice_title_item == NULL && + ugd->multi_connect_mode == WFD_MULTI_CONNECT_MODE_NONE && + ugd->gl_available_peer_cnt == 0) { + _create_no_device_genlist(ugd); + }; + + wfd_ug_view_refresh_glitem(ugd->mcview_title_item); + wfd_ug_view_refresh_glitem(ugd->avlbl_wfd_item); + + if (0 == ugd->gl_available_dev_cnt_at_multiconn_view) { + _create_no_device_multiconnect_genlist(ugd); } - if (ugd->multi_connect_btn) { - wfd_ug_view_refresh_button(ugd->multi_scan_btn, _("IDS_WFD_BUTTON_STOPSCAN"), TRUE); + wfd_refresh_wifi_direct_state(ugd); + if (WIFI_DIRECT_STATE_CONNECTING != ugd->wfd_status && + WIFI_DIRECT_STATE_DISCONNECTING != ugd->wfd_status) { + if (ugd->scan_toolbar) { + wfd_ug_view_refresh_button(ugd->scan_toolbar, "IDS_WIFI_SK4_SCAN", TRUE); + evas_object_data_set(ugd->toolbar, "scan", "scan"); + } + + if (ugd->multiconn_layout) { + wfd_ug_view_refresh_button(ugd->multiconn_scan_stop_btn, "IDS_WIFI_SK4_SCAN", TRUE); + DBG(LOG_INFO, "Multiconn button text IDS_WIFI_SK4_SCAN \n"); + + } } - } else { - if (ugd->scan_btn) { - wfd_ug_view_refresh_button(ugd->scan_btn, _("IDS_WFD_BUTTON_SCAN"), TRUE); + + __FUNC_EXIT__; + return FALSE; +} + +/** + * This function let the ug make a callback for registering discover event + * @return void + * @param[in] error_code the returned error code + * @param[in] discovery_state the state of discover + * @param[in] user_data the pointer to the main data structure + */ +void discover_cb(int error_code, wifi_direct_discovery_state_e discovery_state, void *user_data) +{ + __FUNC_ENTER__; + int ret; + struct ug_data *ugd = (struct ug_data *)user_data; + + if (ugd == NULL) { + DBG(LOG_ERROR, "Incorrect parameter(NULL)\n"); + return; } - if (ugd->multi_connect_btn) { - wfd_ug_view_refresh_button(ugd->multi_scan_btn, _("IDS_WFD_BUTTON_SCAN"), TRUE); + if (ugd->multi_connect_mode == WFD_MULTI_CONNECT_MODE_IN_PROGRESS) { + return; } - } - wfd_ug_get_discovered_peers(ugd); - wfd_ug_get_connected_peers(ugd); + DBG(LOG_INFO, "Discovery event [%d], error_code [%d]\n", discovery_state, error_code); + + if (discovery_state == WIFI_DIRECT_DISCOVERY_STARTED) { + if (ugd->wfd_discovery_status == WIFI_DIRECT_DISCOVERY_SOCIAL_CHANNEL_START) { + ugd->title_content_mode = TITLE_CONTENT_TYPE_SCANNING; + wfd_cancel_progressbar_stop_timer(ugd); + ugd->timer_stop_progress_bar = g_timeout_add(1000*30, wfd_delete_progressbar_cb, ugd); + /* clear all the previous discovered peers */ + wfd_client_free_raw_discovered_peers(ugd); + + ugd->raw_discovered_peer_cnt = 0; + wfd_ug_view_init_genlist(ugd, false); - wfd_ug_view_update_peers(ugd); + if (ugd->avlbl_wfd_item == NULL) { + _create_available_dev_genlist(ugd); + } + + wfd_ug_view_refresh_glitem(ugd->mcview_title_item); + /* clear not alive peers after 5 secs */ + wfd_cancel_not_alive_delete_timer(ugd); + ugd->timer_delete_not_alive_peer = g_timeout_add(1000*5, wfd_delete_not_alive_peer_cb, ugd); + set_not_alive_peers(ugd->gl_avlb_peers_start); + set_not_alive_peers(ugd->gl_busy_peers_start); + set_not_alive_peers(ugd->multi_conn_dev_list_start); + } + } else if (discovery_state == WIFI_DIRECT_DISCOVERY_FOUND) { + if (ugd->wfd_discovery_status != WIFI_DIRECT_DISCOVERY_NONE) { + wfd_ug_get_discovered_peers(ugd); + wfd_ug_update_available_peers(ugd); + wfd_update_multiconnect_device(ugd, false); + } + } else if (discovery_state == WIFI_DIRECT_DISCOVERY_FINISHED) { + if (ugd->wfd_discovery_status == WIFI_DIRECT_DISCOVERY_SOCIAL_CHANNEL_START) { + ugd->wfd_discovery_status = WIFI_DIRECT_DISCOVERY_FULL_SCAN_START; + ret = wifi_direct_start_discovery_specific_channel(false, 0, WIFI_DIRECT_DISCOVERY_FULL_SCAN); + if (ret != WIFI_DIRECT_ERROR_NONE) { + ugd->wfd_discovery_status = WIFI_DIRECT_DISCOVERY_NONE; + DBG(LOG_ERROR, "Failed to start discovery with full scan. [%d]\n", ret); + wifi_direct_cancel_discovery(); + } + } + } - _wfd_free_multiconnect_device(ugd); - _wfd_update_multiconnect_device(ugd); - //_change_multi_button_title(ugd); + if (WIFI_DIRECT_DISCOVERY_STARTED == discovery_state && + ugd->wfd_discovery_status == WIFI_DIRECT_DISCOVERY_SOCIAL_CHANNEL_START) { + WFD_IF_DEL_ITEM(ugd->multi_connect_toolbar_item); + if (!ugd->conn_wfd_item) { + elm_object_part_content_set(ugd->layout, "button.big", ugd->scan_toolbar); + } + wfd_ug_view_refresh_button(ugd->scan_toolbar, "IDS_WIFI_SK_STOP", TRUE); + if (ugd->multiconn_scan_stop_btn) { + wfd_ug_view_refresh_button(ugd->multiconn_scan_stop_btn, "IDS_WIFI_SK_STOP", TRUE); + } + } - __FUNC_EXIT__; - return; + __FUNC_EXIT__; + return; } +/** + * This function let the ug make a callback for registering connection event + * @return void + * @param[in] error_code the returned error code + * @param[in] connection_state the state of connection + * @param[in] mac_address the mac address of peer + * @param[in] user_data the pointer to the main data structure + */ void _connection_cb(int error_code, wifi_direct_connection_state_e connection_state, const char *mac_address, void *user_data) { - __FUNC_ENTER__; - - struct ug_data *ugd = (struct ug_data*) user_data; - device_type_s *peer = NULL; - bool owner = FALSE; - int res = 0; - - DBG(LOG_VERBOSE, "Connection event [%d], error_code [%d]\n", connection_state, error_code); - - if(mac_address == NULL) - { - DBG(LOG_ERROR, "Incorrect parameter(peer mac is NULL)\n"); - return; - } - DBG(LOG_VERBOSE, "Connection event from %s", mac_address); - - if (ugd->multi_connect_mode == WFD_MULTI_CONNECT_MODE_IN_PROGRESS) - { - peer = wfd_client_find_peer_by_mac(ugd, mac_address); - if (peer != NULL) - { - switch(connection_state) - { - case WIFI_DIRECT_CONNECTION_RSP: - if(error_code == WIFI_DIRECT_ERROR_NONE) - { - ugd->wfd_status = WFD_LINK_STATUS_CONNECTED; - peer->conn_status = PEER_CONN_STATUS_CONNECTED; - } - else - { + __FUNC_ENTER__; + struct ug_data *ugd = (struct ug_data *)user_data; + device_type_s *peer = NULL; + bool owner = FALSE; + int res = 0; + + if (mac_address == NULL) { + DBG(LOG_ERROR, "Incorrect parameter(peer mac is NULL)\n"); + return; + } + + DBG_SECURE(LOG_INFO, "Connection event [%d], error_code [%d], multi_connect_mode [%d] mac ["MACSECSTR"]\n", + connection_state, error_code, ugd->multi_connect_mode, MAC2SECSTR(mac_address)); + + /* when not in connection, mac_address is empty */ + if (connection_state <= WIFI_DIRECT_DISASSOCIATION_IND) { + peer = wfd_client_find_peer_by_mac(ugd, mac_address); + + if (NULL == peer || '\0' == peer->ssid[0]) { + DBG(LOG_ERROR, "invalid peer from connection !!\n"); + ugd->multi_connect_mode = WFD_MULTI_CONNECT_MODE_NONE; + goto refresh_button; + } + } + + if (ugd->multi_connect_mode == WFD_MULTI_CONNECT_MODE_IN_PROGRESS) { + switch (connection_state) { + case WIFI_DIRECT_CONNECTION_RSP: + DBG(LOG_INFO, "MULTI: WIFI_DIRECT_CONNECTION_RSP\n"); + ugd->mac_addr_connecting = NULL; + if (error_code == WIFI_DIRECT_ERROR_NONE) { + peer->conn_status = PEER_CONN_STATUS_CONNECTED; + wfd_ug_get_connected_peers(ugd); + wfd_ug_update_connected_peers(ugd); + } else { + peer->conn_status = PEER_CONN_STATUS_FAILED_TO_CONNECT; + peer = find_peer_in_glist(ugd->gl_mul_conn_peers_start, peer->mac_addr); + if ( peer != NULL) { peer->conn_status = PEER_CONN_STATUS_FAILED_TO_CONNECT; + wfd_ug_view_refresh_glitem(peer->gl_item); } - ugd->g_source_multi_connect_next = g_timeout_add(1000, wfd_multi_connect_next_cb, ugd); - break; - default: - break; } + /* connect the next peer */ + ugd->g_source_multi_connect_next = g_timeout_add(500, wfd_multi_connect_next_cb, ugd); + break; + case WIFI_DIRECT_CONNECTION_IN_PROGRESS: + DBG(LOG_INFO, "MULTI: WIFI_DIRECT_CONNECTION_IN_PROGRESS\n"); + peer->conn_status = PEER_CONN_STATUS_CONNECTING; + peer = find_peer_in_glist(ugd->gl_mul_conn_peers_start, peer->mac_addr); + + if ( peer != NULL) { + peer->conn_status = PEER_CONN_STATUS_CONNECTING; + wfd_ug_view_refresh_glitem(peer->gl_item); + } + + wfd_ug_update_toolbar(ugd); + break; + case WIFI_DIRECT_GROUP_CREATED: + DBG(LOG_INFO, "MULTI: WIFI_DIRECT_GROUP_CREATED\n"); + wfd_cancel_progressbar_stop_timer(ugd); + wfd_delete_progressbar_cb(ugd); + + wfd_ug_view_init_genlist(ugd, true); + wfd_ug_view_update_multiconn_peers(ugd); + wfd_multi_connect_next_cb(ugd); + break; + default: + break; + } + } else { + switch (connection_state) { + case WIFI_DIRECT_CONNECTION_RSP: + DBG(LOG_INFO, "WIFI_DIRECT_CONNECTION_RSP\n"); + wfd_delete_progressbar_cb(ugd); + + if (ugd->act_popup) { + evas_object_del(ugd->act_popup); + ugd->act_popup = NULL; + } + ugd->mac_addr_connecting = NULL; + + if (error_code == WIFI_DIRECT_ERROR_NONE) { + peer->conn_status = PEER_CONN_STATUS_CONNECTED; + wfd_ug_get_connected_peers(ugd); + + /* when auto_exit and not multi-connect*/ + if ((ugd->is_auto_exit)&&(ugd->multi_connect_mode == WFD_MULTI_CONNECT_MODE_NONE)) { + _wfd_ug_auto_exit(ugd); + } + + if(ugd->ctxpopup != NULL && ugd->more_btn_multiconnect_item) { + elm_object_item_disabled_set(ugd->more_btn_multiconnect_item, TRUE); + } + + wfd_ug_update_connected_peers(ugd); + } else { + peer->conn_status = PEER_CONN_STATUS_FAILED_TO_CONNECT; + wfd_ug_update_failed_peers(ugd); + } + + wfd_ug_update_toolbar(ugd); + break; + case WIFI_DIRECT_DISASSOCIATION_IND: + DBG(LOG_INFO, "WIFI_DIRECT_DISASSOCIATION_IND\n"); + /* remove any possible popup */ + WFD_IF_DEL_OBJ(ugd->act_popup); + wfd_ug_view_refresh_button(ugd->scan_toolbar, "IDS_WIFI_SK4_SCAN", TRUE); + + /* change the multi connection mode, it can be connected now */ + if (ugd->multi_connect_mode == WFD_MULTI_CONNECT_MODE_COMPLETED) { + ugd->multi_connect_mode = WFD_MULTI_CONNECT_MODE_NONE; + } + + /* if other peer disconnected, get connected peers and update */ + peer->conn_status = PEER_CONN_STATUS_DISCONNECTED; wfd_ug_get_connected_peers(ugd); - wfd_ug_view_update_peers(ugd); - } - else - { - DBG(LOG_VERBOSE, "peer is not found [%s]", mac_address); - } - goto refresh_button; - } - - - peer = wfd_client_find_peer_by_mac(ugd, mac_address); - - if (NULL == peer || NULL == peer->ssid) { - DBG(LOG_ERROR, "SSID from connection is NULL !!\n"); - goto refresh_button; - } - - switch(connection_state) - { - case WIFI_DIRECT_CONNECTION_RSP: - DBG(LOG_VERBOSE, "WIFI_DIRECT_CONNECTION_RSP\n"); - - if(error_code == WIFI_DIRECT_ERROR_NONE) - { - ugd->wfd_status = WFD_LINK_STATUS_CONNECTED; - peer->conn_status = PEER_CONN_STATUS_CONNECTED; - } - else - { - peer->conn_status = PEER_CONN_STATUS_FAILED_TO_CONNECT; - } - - wfd_ug_get_connected_peers(ugd); - wfd_ug_view_update_peers(ugd); - break; - case WIFI_DIRECT_DISCONNECTION_RSP: - case WIFI_DIRECT_DISCONNECTION_IND: - case WIFI_DIRECT_DISASSOCIATION_IND: - DBG(LOG_VERBOSE, "WIFI_DIRECT_DISCONNECTION_X\n"); - if(error_code != WIFI_DIRECT_ERROR_NONE) - { - // TODO: show disconnection error popup - return; - } - - if (peer!=NULL) - peer->conn_status = PEER_CONN_STATUS_DISCONNECTED; - else - { - // In case of disconnect_all(), no specific peer is found. - } - - wifi_direct_start_discovery(FALSE, 0); - ugd->wfd_status = WFD_LINK_STATUS_DISCOVERING; - ugd->head_text_mode = HEAD_TEXT_TYPE_SCANING; - - wfd_ug_view_refresh_glitem(ugd->head); - - wfd_ug_get_discovered_peers(ugd); - wfd_ug_get_connected_peers(ugd); - wfd_ug_view_update_peers(ugd); - break; - - case WIFI_DIRECT_CONNECTION_IN_PROGRESS: - DBG(LOG_VERBOSE, "WIFI_DIRECT_CONNECTION_IN_PROGRESS\n"); - peer->conn_status = PEER_CONN_STATUS_CONNECTING; - break; - case WIFI_DIRECT_CONNECTION_REQ: - case WIFI_DIRECT_CONNECTION_WPS_REQ: - DBG(LOG_VERBOSE, "WIFI_DIRECT_CLI_EVENT_CONNECTION_REQ\n"); - break; - default: - break; - } - - if(peer != NULL) - wfd_ug_view_refresh_glitem(peer->gl_item); - - _change_multi_button_title(ugd); + wfd_ug_update_available_peers(ugd); + break; + case WIFI_DIRECT_DISCONNECTION_RSP: + case WIFI_DIRECT_DISCONNECTION_IND: + DBG(LOG_INFO, "WIFI_DIRECT_DISCONNECTION_X\n"); + WFD_IF_DEL_OBJ(ugd->act_popup); + + Evas_Object *content; + content = elm_object_part_content_unset(ugd->layout, "button.next"); + WFD_IF_DEL_OBJ(content); + /* when disconnection, clear all the connected peers */ + if (ugd->raw_connected_peer_cnt > 0) { + memset(ugd->raw_connected_peers, 0x00, ugd->raw_connected_peer_cnt*sizeof(device_type_s)); + } -refresh_button: - /* refresh the scan button */ - wfd_refresh_wifi_direct_state(ugd); - if (WIFI_DIRECT_STATE_CONNECTING == ugd->wfd_status || - WIFI_DIRECT_STATE_DISCONNECTING == ugd->wfd_status) { + ugd->raw_connected_peer_cnt = 0; + wfd_ug_view_init_genlist(ugd, true); + if (ugd->wfd_discovery_status == WIFI_DIRECT_DISCOVERY_BACKGROUND) { + DBG(LOG_INFO, "Background mode\n"); + break; + } + + if (ugd->is_paused == false) { + /* start discovery again */ + ugd->wfd_discovery_status = WIFI_DIRECT_DISCOVERY_SOCIAL_CHANNEL_START; + res = wifi_direct_start_discovery_specific_channel(false, 1, WIFI_DIRECT_DISCOVERY_SOCIAL_CHANNEL); + if (res != WIFI_DIRECT_ERROR_NONE) { + ugd->wfd_discovery_status = WIFI_DIRECT_DISCOVERY_NONE; + DBG(LOG_ERROR, "Failed to start discovery. [%d]\n", res); + wifi_direct_cancel_discovery(); + } + } - res = wifi_direct_is_group_owner(&owner); - if (res == WIFI_DIRECT_ERROR_NONE) { - if (!owner) { - if (ugd->scan_btn) { - wfd_ug_view_refresh_button(ugd->scan_btn, _("IDS_WFD_BUTTON_SCAN"), FALSE); + break; + case WIFI_DIRECT_CONNECTION_IN_PROGRESS: + DBG(LOG_INFO, "WIFI_DIRECT_CONNECTION_IN_PROGRESS\n"); + wfd_ug_update_toolbar(ugd); + wfd_cancel_progressbar_stop_timer(ugd); + wfd_delete_progressbar_cb(ugd); + + if (ugd->multi_navi_item) { + elm_naviframe_item_pop(ugd->naviframe); + } + + ugd->mac_addr_connecting = peer->mac_addr; + ugd->is_conn_incoming = FALSE; + peer->conn_status = PEER_CONN_STATUS_CONNECTING; + peer = find_peer_in_glist(ugd->gl_avlb_peers_start, peer->mac_addr); + if (peer != NULL) { + peer->conn_status = PEER_CONN_STATUS_CONNECTING; + wfd_ug_view_refresh_glitem(peer->gl_item); + } else { + wfd_ug_get_discovered_peers(ugd); + wfd_ug_update_available_peers(ugd); + } + + break; + case WIFI_DIRECT_CONNECTION_REQ: + case WIFI_DIRECT_CONNECTION_WPS_REQ: + ugd->mac_addr_connecting = peer->mac_addr; + ugd->is_conn_incoming = TRUE; + DBG(LOG_INFO, "WIFI_DIRECT_CLI_EVENT_CONNECTION_REQ\n"); + break; + case WIFI_DIRECT_GROUP_DESTROYED: + wfd_ug_update_toolbar(ugd); + if (ugd->multi_connect_mode == WFD_MULTI_CONNECT_MODE_COMPLETED) { + ugd->multi_connect_mode = WFD_MULTI_CONNECT_MODE_NONE; + } else { + ugd->wfd_discovery_status = WIFI_DIRECT_DISCOVERY_SOCIAL_CHANNEL_START; + res = wifi_direct_start_discovery_specific_channel(false, 1, WIFI_DIRECT_DISCOVERY_SOCIAL_CHANNEL); + if (res != WIFI_DIRECT_ERROR_NONE) { + ugd->wfd_discovery_status = WIFI_DIRECT_DISCOVERY_NONE; + DBG(LOG_ERROR, "Failed to start discovery. [%d]\n", res); + wifi_direct_cancel_discovery(); + } + } + + break; + default: + break; } + } - if (ugd->multi_connect_btn) { - wfd_ug_view_refresh_button(ugd->multi_scan_btn, _("IDS_WFD_BUTTON_SCAN"), FALSE); +refresh_button: + /* refresh the scan button */ + wfd_refresh_wifi_direct_state(ugd); + if (WIFI_DIRECT_STATE_CONNECTING == ugd->wfd_status || + WIFI_DIRECT_STATE_DISCONNECTING == ugd->wfd_status) { + res = wifi_direct_is_group_owner(&owner); + if (res == WIFI_DIRECT_ERROR_NONE) { + if (!owner) { + if (ugd->scan_toolbar) { + evas_object_data_set(ugd->toolbar, "scan", "scan"); + } + + if (ugd->multiconn_scan_stop_btn) { + wfd_ug_view_refresh_button(ugd->multiconn_scan_stop_btn, "IDS_WIFI_SK4_SCAN", FALSE); + } + } + } else { + DBG(LOG_ERROR, "Failed to get whether client is group owner. [%d]\n", res); } - } } else { - DBG(LOG_ERROR, "Failed to get whether client is group owner. [%d]\n", res); + if (ugd->scan_toolbar) { + evas_object_data_set(ugd->toolbar, "scan", "scan"); + } + + if (ugd->multiconn_scan_stop_btn) { + wfd_ug_view_refresh_button(ugd->multiconn_scan_stop_btn, "IDS_WIFI_SK4_SCAN", TRUE); + } } - } else { - if (ugd->scan_btn) { - wfd_ug_view_refresh_button(ugd->scan_btn, _("IDS_WFD_BUTTON_SCAN"), TRUE); + + __FUNC_EXIT__; + return; +} + +/** + * This function let the ug make a callback for registering ip assigned event + * @return void + * @param[in] mac_address the mac address of peer + * @param[in] ip_address the ip address of peer + * @param[in] interface_address the interface address + * @param[in] user_data the pointer to the main data structure + */ +void _ip_assigned_cb(const char *mac_address, const char *ip_address, const char *interface_address, void *user_data) +{ + __FUNC_ENTER__; + + if (!user_data) { + DBG(LOG_ERROR, "The user_data is NULL\n"); + return; } - if (ugd->multi_connect_btn) { - wfd_ug_view_refresh_button(ugd->multi_scan_btn, _("IDS_WFD_BUTTON_SCAN"), TRUE); + struct ug_data *ugd = (struct ug_data *)user_data; + + if (!ip_address || 0 == strncmp(ip_address, "0.0.0.0", 7)) { + DBG(LOG_ERROR,"ip address is invalid.\n"); + return; } - } - __FUNC_EXIT__; - return; + ugd->peer_ip_address = strdup(ip_address); + + + /* to send ip_addr*/ + int ret = -1; + app_control_h control = NULL; + ret = app_control_create(&control); + if (ret) { + DBG(LOG_ERROR, "Failed to create control"); + return; + } + app_control_add_extra_data(control, "ip_address", ugd->peer_ip_address); + app_control_add_extra_data(control, "wfds", ugd->service_name); + ug_send_result(ugd->ug, control); + app_control_destroy(control); + + /* when auto_exit and not multi-connect*/ + if ((ugd->is_auto_exit)&&(ugd->multi_connect_mode == WFD_MULTI_CONNECT_MODE_NONE)) { + _wfd_ug_auto_exit(ugd); + } + + __FUNC_EXIT__; } -int wfd_get_vconf_status(void *data) +/** + * This function let the ug get wi-fi direct status from vconf + * @return If success, return the wfd status, else return -1 + * @param[in] void + */ +int wfd_get_vconf_status() { - __FUNC_ENTER__; - struct ug_data *ugd = (struct ug_data*) data; - char *dev_name; + __FUNC_ENTER__; + int wifi_direct_state = 0; - // TODO: get wifi direct status from vconf - // db/mobile_hotspot/wifi_key (string) + /* get wifi direct status from vconf */ + if (vconf_get_int(VCONFKEY_WIFI_DIRECT_STATE, &wifi_direct_state) < 0) { + DBG(LOG_ERROR, "Error reading vconf (%s)\n", VCONFKEY_WIFI_DIRECT_STATE); + return -1; + } + DBG(LOG_INFO, "WiFi Direct State [%d]", wifi_direct_state); - dev_name = vconf_get_str(VCONFKEY_SETAPPL_DEVICE_NAME_STR); // "db/setting/device_name" (VCONF_WFD_APNAME) - if (dev_name == NULL) - { - ugd->dev_name = strdup(DEFAULT_DEV_NAME); - DBG(LOG_ERROR, "The AP name is NULL(setting default value)\n"); - } - else - { - ugd->dev_name = strdup(dev_name); - free(dev_name); - } + __FUNC_EXIT__; + return wifi_direct_state; +} + +/** + * This function let the ug get device name from vconf + * @return If success, return 0, else return -1 + * @param[in] data the pointer to the main data structure + */ +int wfd_get_vconf_device_name(void *data) +{ + __FUNC_ENTER__; + struct ug_data *ugd = (struct ug_data *)data; + char *dev_name = NULL; + + /* get device name from vconf */ + dev_name = vconf_get_str(VCONFKEY_SETAPPL_DEVICE_NAME_STR); + if (dev_name == NULL) { + ugd->dev_name = strdup(DEFAULT_DEV_NAME); + DBG(LOG_ERROR, "The AP name is NULL(setting default value)\n"); + return -1; + } - __FUNC_EXIT__; + ugd->dev_name = strdup(dev_name); + WFD_IF_FREE_MEM(dev_name); - return 0; + __FUNC_EXIT__; + return 0; } +/** + * This function let the ug refresh current status of wi-fi direct + * @return If success, return 0, else return -1 + * @param[in] data the pointer to the main data structure + */ int wfd_refresh_wifi_direct_state(void *data) { - struct ug_data *ugd = (struct ug_data*) data; + __FUNC_ENTER__; + struct ug_data *ugd = (struct ug_data *)data; int res; wifi_direct_state_e wfd_status; - res = wifi_direct_get_state(&wfd_status); - if(res != WIFI_DIRECT_ERROR_NONE) - { - DBG(LOG_ERROR, "Failed to get link status. [%d]\n", res); - return -1; - } - DBG(LOG_VERBOSE, "WFD status [%d]", wfd_status); - ugd->wfd_status = wfd_status; - return 0; + + res = wifi_direct_get_state(&wfd_status); + if (res != WIFI_DIRECT_ERROR_NONE) { + DBG(LOG_ERROR, "Failed to get link status. [%d]\n", res); + return -1; + } + + DBG(LOG_INFO, "WFD status [%d]", wfd_status); + ugd->wfd_status = wfd_status; + + __FUNC_EXIT__; + return 0; } -int init_wfd_client(void *data) +void wfd_init_ug_by_status(void *user_data) { - __FUNC_ENTER__; - struct ug_data *ugd = (struct ug_data*) data; - int res = 0; + __FUNC_ENTER__; + struct ug_data *ugd = (struct ug_data *)user_data; + int res = 0; - res = wifi_direct_initialize(); - if(res != WIFI_DIRECT_ERROR_NONE) - { - DBG(LOG_ERROR, "Failed to initialize wifi direct. [%d]\n", res); - return -1; - } + if(ugd == NULL) { + DBG(LOG_ERROR, "Incorrect parameter(NULL)\n"); + return; + } - res = wifi_direct_set_device_state_changed_cb(_activation_cb, (void*) ugd); - res = wifi_direct_set_discovery_state_changed_cb(_discover_cb, (void*) ugd); - res = wifi_direct_set_connection_state_changed_cb(_connection_cb, (void*) ugd); + if (ugd->wfd_status >= WIFI_DIRECT_STATE_ACTIVATED) { + //wfd_ug_get_discovered_peers(ugd); + ugd->title_content_mode = TITLE_CONTENT_TYPE_NONE; + } - /* update WFD status */ - wfd_refresh_wifi_direct_state(ugd); - if (ugd->wfd_status > WIFI_DIRECT_STATE_ACTIVATING) - ugd->wfd_onoff = 1; - else - ugd->wfd_onoff = 0; + if (ugd->wfd_status >= WIFI_DIRECT_STATE_CONNECTED) { + wfd_ug_get_connected_peers(ugd); + wfd_ug_update_connected_peers(ugd); + ugd->title_content_mode = TITLE_CONTENT_TYPE_NONE; + wfd_ug_get_discovered_peers(ugd); + wfd_ug_update_available_peers(ugd); + wfd_ug_update_toolbar(ugd); + } - DBG(LOG_VERBOSE, "WFD link status. [%d]\n", ugd->wfd_status); + if (ugd->wfd_status == WIFI_DIRECT_STATE_CONNECTING) { + ugd->title_content_mode = TITLE_CONTENT_TYPE_NONE; + wfd_ug_get_discovered_peers(ugd); + wfd_ug_get_connecting_peer(ugd); + wfd_ug_update_available_peers(ugd); + wfd_ug_update_toolbar(ugd); + } - __FUNC_EXIT__; + if (ugd->wfd_status == WIFI_DIRECT_STATE_ACTIVATED || + ugd->wfd_status == WIFI_DIRECT_STATE_DISCOVERING) { + /* start discovery */ + ugd->wfd_discovery_status = WIFI_DIRECT_DISCOVERY_SOCIAL_CHANNEL_START; + res = wifi_direct_start_discovery_specific_channel(false, 1, WIFI_DIRECT_DISCOVERY_SOCIAL_CHANNEL); + if (res != WIFI_DIRECT_ERROR_NONE) { + ugd->wfd_discovery_status = WIFI_DIRECT_DISCOVERY_NONE; + DBG(LOG_ERROR, "Failed to start discovery. [%d]\n", res); + wifi_direct_cancel_discovery(); + } + } - return 0; + __FUNC_EXIT__; } -int deinit_wfd_client(void *data) +/** + * This function let the ug do initialization + * @return If success, return 0, else return -1 + * @param[in] data the pointer to the main data structure + */ +int init_wfd_client(void* data) { __FUNC_ENTER__; - struct ug_data *ugd = (struct ug_data*) data; + WFD_RETV_IF(data == NULL, -1, "Incorrect parameter(NULL)\n"); + struct ug_data *ugd = (struct ug_data *)data; int res = 0; + + res = wifi_direct_initialize(); + if (res != WIFI_DIRECT_ERROR_NONE) { + if (res != WIFI_DIRECT_ERROR_ALREADY_INITIALIZED) { + DBG(LOG_ERROR, "Failed to initialize wifi direct. [%d]\n", res); + return -1; + } else { + DBG(LOG_ERROR, "Already registered\n"); + } + } + + res = wifi_direct_set_device_state_changed_cb(_activation_cb, (void *)ugd); + if (res != WIFI_DIRECT_ERROR_NONE) { + DBG(LOG_ERROR, "Failed to register _cb_activation. error code = [%d]\n", res); + return -1; + } + + res = wifi_direct_set_discovery_state_changed_cb(discover_cb, (void *)ugd); + if (res != WIFI_DIRECT_ERROR_NONE) { + DBG(LOG_ERROR, "Failed to register _cb_discover. error code = [%d]\n", res); + return -1; + } + + res = wifi_direct_set_connection_state_changed_cb(_connection_cb, (void *)ugd); + if (res != WIFI_DIRECT_ERROR_NONE) { + DBG(LOG_ERROR, "Failed to register _cb_connection. error code = [%d]\n", res); + return -1; + } + + res = wifi_direct_set_client_ip_address_assigned_cb(_ip_assigned_cb, (void *)ugd); + if (res != WIFI_DIRECT_ERROR_NONE) { + DBG(LOG_ERROR, "Failed to register _ip_assigned_cb. error code = [%d]\n", res); + return -1; + } + + /* update WFD status */ + wfd_refresh_wifi_direct_state(ugd); +#ifdef WFD_ON_OFF_GENLIST + if (ugd->wfd_status > WIFI_DIRECT_STATE_ACTIVATING) { + ugd->wfd_onoff = 1; + wfd_ug_refresh_on_off_check(ugd); + } else { + ugd->wfd_onoff = 0; + } +#endif + + DBG(LOG_INFO, "WFD link status. [%d]\n", ugd->wfd_status); + ugd->is_init_ok = TRUE; + wfd_init_ug_by_status(ugd); + + __FUNC_EXIT__; + return 0; +} + +#ifdef WFD_DBUS_LAUNCH +void wfd_gdbus_callback(GObject *source_object, GAsyncResult *result, gpointer user_data) +{ + __FUNC_ENTER__; + struct ug_data *ugd = (struct ug_data *)user_data; + WFD_RET_IF(ugd == NULL, "Incorrect parameter(NULL)\n"); + int res = -1; + + GError *error = NULL; + GVariant *return_data; + + g_object_unref(ugd->dbus_cancellable); + ugd->dbus_cancellable = NULL; + ugd->conn = G_DBUS_CONNECTION (source_object); + return_data = g_dbus_connection_call_finish(ugd->conn, result, &error); + + if (error != NULL) { + DBG(LOG_ERROR,"DBus action failed. Error Msg [%s]\n", error->message); + g_clear_error(&error); + } else { + DBG(LOG_INFO, "error msg is NULL\n"); + } + + if (return_data) + g_variant_unref(return_data); + + if (ugd->conn) { + g_object_unref(ugd->conn); + ugd->conn = NULL; + } + + res = init_wfd_client(ugd); + WFD_RET_IF(res != 0, "Failed to initialize WFD client library\n"); + + /* Activate WiFi Direct */ + /* + DBG(LOG_INFO, "Activating WiFi Direct..."); + if (ugd->wfd_status <= WIFI_DIRECT_STATE_DEACTIVATING) { + res = wfd_client_switch_on(ugd); + WFD_RET_IF(res != 0, "Failed to activate WFD\n"); + } + */ + + __FUNC_EXIT__; +} + +int launch_wifi_direct_manager(void *data) +{ + __FUNC_ENTER__; + + gchar *addr = NULL; + GError *error = NULL; + + struct ug_data *ugd = (struct ug_data *)data; + WFD_RETV_IF(ugd == NULL, -1, "Incorrect parameter(NULL)\n"); + + ugd->dbus_cancellable = g_cancellable_new(); + + addr = g_dbus_address_get_for_bus_sync(G_BUS_TYPE_SYSTEM, NULL, &error); + WFD_RETV_IF(addr == NULL, -1, "Fail to get dbus addr.\n"); + + ugd->conn = g_dbus_connection_new_for_address_sync(addr,G_DBUS_CONNECTION_FLAGS_AUTHENTICATION_CLIENT | + G_DBUS_CONNECTION_FLAGS_MESSAGE_BUS_CONNECTION, NULL, NULL, NULL); + + if(ugd->conn == NULL) { + DBG(LOG_ERROR,"g_dbus_conn is NULL\n"); + return -1; + } else { + g_dbus_connection_call(ugd->conn, "net.netconfig", "/net/netconfig/wifi","net.netconfig.wifi", + "LaunchDirect", NULL, NULL, G_DBUS_CALL_FLAGS_NONE, -1, ugd->dbus_cancellable, wfd_gdbus_callback, data); + } + + __FUNC_EXIT__; + return 0; +} +#endif + +void wfd_client_destroy_tethering(struct ug_data *ugd) +{ + __FUNC_ENTER__; + tethering_error_e ret = TETHERING_ERROR_NONE; - tethering_h th = NULL; + + if (ugd->hotspot_handle != NULL) { + /* Deregister cbs */ + ret = tethering_unset_enabled_cb(ugd->hotspot_handle, TETHERING_TYPE_WIFI); + if (ret != TETHERING_ERROR_NONE) { + DBG(LOG_ERROR, "tethering_unset_enabled_cb is failed(%d)\n", ret); + } + + ret = tethering_unset_disabled_cb(ugd->hotspot_handle, TETHERING_TYPE_WIFI); + if (ret != TETHERING_ERROR_NONE) { + DBG(LOG_ERROR, "tethering_unset_disabled_cb is failed(%d)\n", ret); + } + + ret = tethering_unset_disabled_cb(ugd->hotspot_handle, TETHERING_TYPE_RESERVED); + if (ret != TETHERING_ERROR_NONE) { + DBG(LOG_ERROR, "tethering_unset_disabled_cb is failed(%d)\n", ret); + } + + /* Destroy tethering handle */ + ret = tethering_destroy(ugd->hotspot_handle); + if (ret != TETHERING_ERROR_NONE) { + DBG(LOG_ERROR, "tethering_destroy is failed(%d)\n", ret); + } + + ugd->hotspot_handle = NULL; + } + + __FUNC_EXIT__; +} + +/** + * This function let the ug do de-initialization + * @return If success, return 0, else return -1 + * @param[in] data the pointer to the main data structure + */ +int deinit_wfd_client(void *data) +{ + __FUNC_ENTER__; + struct ug_data *ugd = (struct ug_data *)data; + int res = 0; wfd_refresh_wifi_direct_state(ugd); - if(ugd->wfd_status == WIFI_DIRECT_STATE_DISCOVERING) - { - DBG(LOG_VERBOSE, "Stop discovery before deregister client\n"); - wifi_direct_cancel_discovery(); + if ((WIFI_DIRECT_STATE_DISCOVERING == ugd->wfd_status) && + (WIFI_DIRECT_ERROR_NONE != wifi_direct_cancel_discovery())) { + DBG(LOG_ERROR, "Failed to send cancel discovery state [%d]\n", ugd->wfd_status); + } + + wfd_cancel_progressbar_stop_timer(ugd); + wfd_cancel_not_alive_delete_timer(ugd); + + if(ugd->timer_multi_reset > 0) { + g_source_remove(ugd->timer_multi_reset); + } + ugd->timer_multi_reset = 0; + + if (ugd->g_source_multi_connect_next > 0) { + g_source_remove(ugd->g_source_multi_connect_next); + } + ugd->g_source_multi_connect_next = 0; + + res = wifi_direct_unset_discovery_state_changed_cb(); + if (res != WIFI_DIRECT_ERROR_NONE) { + DBG(LOG_ERROR, "Failed to unset discovery state changed cb. [%d]\n", res); + } + + wifi_direct_unset_device_state_changed_cb(); + if (res != WIFI_DIRECT_ERROR_NONE) { + DBG(LOG_ERROR, "Failed to unset device state changed cb. [%d]\n", res); + } + + wifi_direct_unset_connection_state_changed_cb(); + if (res != WIFI_DIRECT_ERROR_NONE) { + DBG(LOG_ERROR, "Failed to unset connection state changed cb. [%d]\n", res); + } + + wifi_direct_unset_client_ip_address_assigned_cb(); + if (res != WIFI_DIRECT_ERROR_NONE) { + DBG(LOG_ERROR, "Failed to unset client ip address assigned cb. [%d]\n", res); } + if (ugd->wfd_status == WIFI_DIRECT_STATE_CONNECTING && + NULL != ugd->mac_addr_connecting) { + if (ugd->is_conn_incoming) { + DBG(LOG_INFO, "Reject the incoming connection before client deregister \n"); + res = wifi_direct_reject_connection(ugd->mac_addr_connecting); + if (res != WIFI_DIRECT_ERROR_NONE) { + DBG(LOG_ERROR, "Failed to send reject request [%d]\n", res); + } + } else { + DBG(LOG_INFO, "Cancel the outgoing connection before client deregister \n"); + res = wifi_direct_cancel_connection(ugd->mac_addr_connecting); + if (res != WIFI_DIRECT_ERROR_NONE) { + DBG(LOG_ERROR, "Failed to send cancel request [%d]\n", res); + } + } + ugd->mac_addr_connecting = NULL; + } + + res = wifi_direct_deinitialize(); - if(res != WIFI_DIRECT_ERROR_NONE) - { + if (res != WIFI_DIRECT_ERROR_NONE) { DBG(LOG_ERROR, "Failed to deregister client. [%d]\n", res); } + /* release vconf, hotspot.. */ +#ifndef MODEL_BUILD_FEATURE_WLAN_CONCURRENT_MODE res = vconf_ignore_key_changed(VCONFKEY_WIFI_STATE, _wifi_state_cb); - if(res == -1) - { + if (res == -1) { DBG(LOG_ERROR, "Failed to ignore vconf key callback for wifi state\n"); } res = net_deregister_client(); - if(res != NET_ERR_NONE) - { + if (res != NET_ERR_NONE) { DBG(LOG_ERROR, "Failed to deregister network client. [%d]\n", res); } +#endif /* MODEL_BUILD_FEATURE_WLAN_CONCURRENT_MODE */ - __FUNC_EXIT__; + wfd_client_destroy_tethering(ugd); + + __FUNC_EXIT__; return 0; } +/** + * This function let the ug turn wi-fi direct on + * @return If success, return 0, else return -1 + * @param[in] data the pointer to the main data structure + */ int wfd_client_switch_on(void *data) { - __FUNC_ENTER__; - struct ug_data *ugd = (struct ug_data*) data; - int res; - - DBG(LOG_VERBOSE, "WFD status [%d]\n", ugd->wfd_status); - - if(ugd->wfd_status < WFD_LINK_STATUS_ACTIVATING) - { - ugd->wfd_status = WFD_LINK_STATUS_ACTIVATING; - - int wifi_state; - res = vconf_get_int(VCONFKEY_WIFI_STATE, &wifi_state); - if (res != 0) - { - DBG(LOG_ERROR, "Failed to get wifi state from vconf. [%d]\n", res); - // TODO: set genlist head item as "WiFi Direct" - return -1; - } - - if(wifi_state > VCONFKEY_WIFI_OFF) - { - DBG(LOG_VERBOSE, "WiFi is connected, so have to turn off WiFi"); - wfd_ug_act_popup(ugd, _("IDS_WFD_POP_WIFI_OFF"), POPUP_TYPE_WIFI_OFF); // "This will turn off Wi-Fi client operation.<br>Continue?" - } - else // (wifi_state < VCONFKEY_WIFI_CONNECTED && !(hotspot_mode & VCONFKEY_MOBILE_HOTSPOT_MODE_WIFI)) - { - res = wifi_direct_activate(); - if(res != WIFI_DIRECT_ERROR_NONE) - { - DBG(LOG_ERROR, "Failed to activate Wi-Fi Direct. error code = [%d]\n", res); - wfd_ug_warn_popup(ugd, _("IDS_WFD_POP_ACTIVATE_FAIL"), POPUP_TYPE_TERMINATE); - - ugd->head_text_mode = HEAD_TEXT_TYPE_DIRECT; - wfd_ug_view_refresh_glitem(ugd->head); - return -1; - } - } - } - else - { - DBG(LOG_VERBOSE, "Wi-Fi Direct is already activated\n"); - } - - __FUNC_EXIT__; - return 0; + __FUNC_ENTER__; + struct ug_data *ugd = (struct ug_data *)data; + int res; + + bool is_wifi_enabled = false; + bool is_wifi_ap_enabled = false; + + + if(!ugd->is_init_ok) { + DBG(LOG_ERROR, "device is initializing, please wait\n"); + return -1; + } + + wfd_refresh_wifi_direct_state(ugd); + DBG(LOG_INFO, "WFD status [%d]\n", ugd->wfd_status); + + if (ugd->wfd_status < WIFI_DIRECT_STATE_ACTIVATING) { + +#ifndef MODEL_BUILD_FEATURE_WLAN_CONCURRENT_MODE + int wifi_state; + res = vconf_get_int(VCONFKEY_WIFI_STATE, &wifi_state); + if (res != 0) { + DBG(LOG_ERROR, "Failed to get wifi state from vconf. [%d]\n", res); + return -1; + } +#endif /* MODEL_BUILD_FEATURE_WLAN_CONCURRENT_MODE */ + + ugd->hotspot_handle = NULL; + res = tethering_create(&(ugd->hotspot_handle)); + if (res != TETHERING_ERROR_NONE) { + DBG(LOG_ERROR, "Failed to tethering_create() [%d]\n", res); + return -1; + } else { + DBG(LOG_INFO, "Succeeded to tethering_create()\n"); + } + + is_wifi_enabled = tethering_is_enabled(ugd->hotspot_handle, TETHERING_TYPE_WIFI); + is_wifi_ap_enabled = tethering_is_enabled(ugd->hotspot_handle, TETHERING_TYPE_RESERVED); + +#ifndef MODEL_BUILD_FEATURE_WLAN_CONCURRENT_MODE + if (wifi_state > VCONFKEY_WIFI_OFF) { + DBG(LOG_INFO, "WiFi is connected, so have to turn off WiFi"); + wfd_ug_act_popup(ugd, _("IDS_WIFI_BODY_USING_WI_FI_DIRECT_WILL_DISCONNECT_CURRENT_WI_FI_CONNECTION_CONTINUE_Q"), POPUP_TYPE_WIFI_OFF); + } else +#endif /* MODEL_BUILD_FEATURE_WLAN_CONCURRENT_MODE */ + + if (is_wifi_enabled || is_wifi_ap_enabled) { + DBG(LOG_INFO, "WiFi is connected, so have to turn off WiFi"); + wfd_ug_act_popup(ugd, _("IDS_WIFI_BODY_USING_WI_FI_DIRECT_WILL_DISCONNECT_CURRENT_WI_FI_TETHERING_CONTINUE_Q"), POPUP_TYPE_HOTSPOT_OFF); + } else + + { + res = wifi_direct_activate(); + if (res != WIFI_DIRECT_ERROR_NONE) { + DBG(LOG_ERROR, "Failed to activate Wi-Fi Direct. error code = [%d]\n", res); + wfd_ug_warn_popup(ugd, _("IDS_COM_POP_FAILED"), POPUP_TYPE_TERMINATE); +#ifdef WFD_ON_OFF_GENLIST + wfd_ug_refresh_on_off_check(ugd); +#endif + return -1; + } + +#ifdef WFD_ON_OFF_GENLIST + if (ugd->on_off_check) { + elm_check_state_set(ugd->on_off_check, TRUE); + elm_object_disabled_set(ugd->on_off_check, TRUE); + } +#endif + /* while activating, disable the buttons */ + if (ugd->scan_toolbar == NULL) { + scan_button_create(ugd); + } + + if (ugd->scan_toolbar) { + wfd_ug_view_refresh_button(ugd->scan_toolbar, "IDS_WIFI_SK4_SCAN", FALSE); + } + + if (ugd->multiconn_scan_stop_btn) { + wfd_ug_view_refresh_button(ugd->multiconn_scan_stop_btn, "IDS_WIFI_SK4_SCAN", FALSE); + } + + if (ugd->back_btn) { + elm_object_disabled_set(ugd->back_btn, TRUE); + } + } + } else { + DBG(LOG_INFO, "Wi-Fi Direct is already activated\n"); + } + + __FUNC_EXIT__; + return 0; } +/** + * This function let the ug turn wi-fi direct off + * @return If success, return 0, else return -1 + * @param[in] data the pointer to the main data structure + */ int wfd_client_switch_off(void *data) { - __FUNC_ENTER__; - struct ug_data *ugd = (struct ug_data*) data; - int res; + __FUNC_ENTER__; + struct ug_data *ugd = (struct ug_data *)data; + int res; - DBG(LOG_VERBOSE, "WFD status [%d]\n", ugd->wfd_status); + wfd_ug_view_free_peers(ugd); + wfd_free_nodivice_item(ugd); - if(ugd->wfd_status < WFD_LINK_STATUS_ACTIVATING) - { - DBG(LOG_VERBOSE, "Wi-Fi Direct is already deactivated\n"); - } - else - { - ugd->wfd_status = WFD_LINK_STATUS_DEACTIVATING; + wfd_refresh_wifi_direct_state(ugd); + DBG(LOG_INFO, "WFD status [%d]\n", ugd->wfd_status); - res = wifi_direct_deactivate(); - if(res != WIFI_DIRECT_ERROR_NONE) - { - DBG(LOG_ERROR, "Failed to deactivate Wi-Fi Direct. error code = [%d]\n", res); - wfd_ug_warn_popup(ugd, _("IDS_WFD_POP_DEACTIVATE_FAIL"), POPUP_TYPE_TERMINATE); + if (ugd->wfd_status < WIFI_DIRECT_STATE_ACTIVATING) { + DBG(LOG_INFO, "Wi-Fi Direct is already deactivated\n"); + } else { - ugd->head_text_mode = HEAD_TEXT_TYPE_DIRECT; - wfd_ug_view_refresh_glitem(ugd->head); - return -1; - } - } + wfd_client_destroy_tethering(ugd); - __FUNC_EXIT__; - return 0; -} + wfd_cancel_progressbar_stop_timer(ugd); + wfd_cancel_not_alive_delete_timer(ugd); -int wfd_client_swtch_force(void *data, int onoff) -{ - __FUNC_ENTER__; - struct ug_data *ugd = (struct ug_data*) data; - int res; - - if(onoff) - { - res = wifi_direct_activate(); - if(res != WIFI_DIRECT_ERROR_NONE) - { - DBG(LOG_ERROR, "Failed to activate Wi-Fi Direct. error code = [%d]\n", res); - wfd_ug_warn_popup(ugd, _("IDS_WFD_POP_ACTIVATE_FAIL"), POPUP_TYPE_TERMINATE); - - ugd->head_text_mode = HEAD_TEXT_TYPE_DIRECT; - wfd_ug_view_refresh_glitem(ugd->head); - return -1; - } - } - else - { - res = wifi_direct_deactivate(); - if(res != WIFI_DIRECT_ERROR_NONE) - { - DBG(LOG_ERROR, "Failed to deactivate Wi-Fi Direct. error code = [%d]\n", res); - wfd_ug_warn_popup(ugd, _("IDS_WFD_POP_DEACTIVATE_FAIL"), POPUP_TYPE_TERMINATE); - - ugd->head_text_mode = HEAD_TEXT_TYPE_DIRECT; - wfd_ug_view_refresh_glitem(ugd->head); - return -1; - } - } - __FUNC_EXIT__; - return 0; -} - -int wfd_client_start_discovery(void *data) -{ - __FUNC_ENTER__; - struct ug_data *ugd = (struct ug_data*) data; - int res = -1; - -#if 0 - ret = wifi_direct_cancel_discovery(); -// ret = wifi_direct_cancel_discovery(); - if (ret != WIFI_DIRECT_ERROR_NONE) { - DBG(LOG_ERROR, "Failed wfd discover() : %d", ret); - return FALSE; - } - - - if(ugd->wfd_status >= WIFI_DIRECT_STATE_ACTIVATED) - { - res = wifi_direct_start_discovery(FALSE, 30); - if (res != WIFI_DIRECT_ERROR_NONE) - { - DBG(LOG_ERROR, "Failed to start wfd discovery. [%d]", res); - return -1; - } - } + if(ugd->timer_multi_reset > 0) { + g_source_remove(ugd->timer_multi_reset); + } + ugd->timer_multi_reset = 0; + + if (ugd->g_source_multi_connect_next > 0) { + g_source_remove(ugd->g_source_multi_connect_next); + } + ugd->g_source_multi_connect_next = 0; + + /*if connected, disconnect all devices*/ + if (WIFI_DIRECT_STATE_CONNECTED == ugd->wfd_status) { + res = wifi_direct_disconnect_all(); + if (res != WIFI_DIRECT_ERROR_NONE) { + DBG(LOG_ERROR, "Failed to send disconnection request to all. [%d]\n", res); + return -1; + } + } + + res = wifi_direct_deactivate(); + if (res != WIFI_DIRECT_ERROR_NONE) { + DBG(LOG_ERROR, "Failed to deactivate Wi-Fi Direct. error code = [%d]\n", res); + wfd_ug_warn_popup(ugd, _("IDS_WIFI_POP_DEACTIVATION_FAILED"), POPUP_TYPE_TERMINATE_DEACTIVATE_FAIL); +#ifdef WFD_ON_OFF_GENLIST + wfd_ug_refresh_on_off_check(ugd); #endif + return -1; + } - ugd->wfd_status = WIFI_DIRECT_DISCOVERY_STARTED; - wfd_refresh_wifi_direct_state(ugd); - ugd->head_text_mode = HEAD_TEXT_TYPE_SCANING; - wfd_ug_view_refresh_glitem(ugd->head); - wifi_direct_cancel_discovery(); + /* while deactivating, disable the buttons */ + if (ugd->scan_toolbar) { + wfd_ug_view_refresh_button(ugd->scan_toolbar, "IDS_WIFI_SK4_SCAN", FALSE); + evas_object_del(ugd->scan_toolbar); + ugd->scan_toolbar = NULL; + } - res = wifi_direct_start_discovery(FALSE, 0); - if (res != WIFI_DIRECT_ERROR_NONE) { - DBG(LOG_ERROR, "Fail to restart scanning. %d\n", res); - return -1; - } + if (ugd->multiconn_scan_stop_btn) { + wfd_ug_view_refresh_button(ugd->multiconn_scan_stop_btn, "IDS_WIFI_SK4_SCAN", FALSE); + } - ugd->wfd_status = WIFI_DIRECT_DISCOVERY_FOUND; - wfd_refresh_wifi_direct_state(ugd); + if (ugd->multi_connect_toolbar_item) { + elm_object_item_disabled_set(ugd->multi_connect_toolbar_item, TRUE); + } - __FUNC_EXIT__; - return 0; + if (ugd->back_btn) { + elm_object_disabled_set(ugd->back_btn, TRUE); + } + } + + __FUNC_EXIT__; + return 0; } -int wfd_client_connect(const char *mac_addr) +#ifdef WFD_ON_OFF_GENLIST +/** + * This function let the ug turn wi-fi direct on/off forcely + * @return If success, return 0, else return -1 + * @param[in] data the pointer to the main data structure + * @param[in] onoff whether to turn on/off wi-fi direct + */ +int wfd_client_swtch_force(void *data, int onoff) { - __FUNC_ENTER__; - int res; + __FUNC_ENTER__; + struct ug_data *ugd = (struct ug_data *)data; + int res; - DBG(LOG_ERROR, "connect to peer=[%s]\n", mac_addr); - res = wifi_direct_connect(mac_addr); - if(res != WIFI_DIRECT_ERROR_NONE) - { - DBG(LOG_ERROR, "Failed to send connection request. [%d]\n", res); - return -1; - } - __FUNC_EXIT__; - return 0; + if (onoff) { + res = wifi_direct_activate(); + if (res != WIFI_DIRECT_ERROR_NONE) { + DBG(LOG_ERROR, "Failed to activate Wi-Fi Direct. error code = [%d]\n", res); + wfd_ug_warn_popup(ugd, _("IDS_COM_POP_FAILED"), POPUP_TYPE_TERMINATE); + wfd_ug_refresh_on_off_check(ugd); + return -1; + } + } else { + res = wifi_direct_deactivate(); + if (res != WIFI_DIRECT_ERROR_NONE) { + DBG(LOG_ERROR, "Failed to deactivate Wi-Fi Direct. error code = [%d]\n", res); + wfd_ug_warn_popup(ugd, _("IDS_WIFI_POP_DEACTIVATION_FAILED"), POPUP_TYPE_TERMINATE); + wfd_ug_refresh_on_off_check(ugd); + return -1; + } + } + + __FUNC_EXIT__; + return 0; } +#endif -int wfd_client_disconnect(const char *mac_addr) +/** + * This function let the ug create a group + * @return If success, return 0, else return -1 + */ +int wfd_client_group_add() { - __FUNC_ENTER__; - int res; - - if(mac_addr == NULL) - { - res = wifi_direct_disconnect_all(); - if(res != WIFI_DIRECT_ERROR_NONE) - { - DBG(LOG_ERROR, "Failed to send disconnection request to all. [%d]\n", res); - return -1; - } - } - else - { - res = wifi_direct_disconnect(mac_addr); - if(res != WIFI_DIRECT_ERROR_NONE) - { - DBG(LOG_ERROR, "Failed to send disconnection request. [%d]\n", res); - return -1; - } - } - __FUNC_EXIT__; - return 0; + __FUNC_ENTER__; + int res; + + res = wifi_direct_create_group(); + if (res != WIFI_DIRECT_ERROR_NONE) { + DBG(LOG_ERROR, "Failed to add group"); + __FUNC_EXIT__; + return -1; + } + + __FUNC_EXIT__; + return 0; } -int wfd_client_set_p2p_group_owner_intent(int go_intent) +/** + * This function let the ug connect to the device by mac address + * @return If success, return 0, else return -1 + * @param[in] mac_addr the pointer to the mac address of device + */ +int wfd_client_connect(const char *mac_addr) { - __FUNC_ENTER__; - int res; + __FUNC_ENTER__; + int res; - res = wifi_direct_set_group_owner_intent(go_intent); - if(res != WIFI_DIRECT_ERROR_NONE) - { - DBG(LOG_ERROR, "Failed to wifi_direct_set_go_intent(%d). [%d]\n", go_intent, res); + DBG_SECURE(LOG_INFO, "connect to peer=["MACSECSTR"]\n", MAC2SECSTR(mac_addr)); + res = wifi_direct_connect((char *)mac_addr); + if (res != WIFI_DIRECT_ERROR_NONE) { + DBG(LOG_ERROR, "Failed to send connection request. [%d]\n", res); return -1; } - __FUNC_EXIT__; - return 0; + + __FUNC_EXIT__; + return 0; } -int wfd_client_get_peers(struct ug_data *ugd) +/** + * This function let the ug disconnect to the device by mac address + * @return If success, return 0, else return -1 + * @param[in] mac_addr the pointer to the mac address of device + */ +int wfd_client_disconnect(const char *mac_addr) { + __FUNC_ENTER__; + int res; - if(ugd->wfd_status < WFD_LINK_STATUS_ACTIVATED) - { - ugd->raw_discovered_peer_cnt = 0; - ugd->raw_connected_peer_cnt = 0; - return 0; + wifi_direct_cancel_discovery(); + /* + * No need to handle return in cancel discovery as there maybe case + * when framework can return failure. + */ + + if (mac_addr == NULL) { + res = wifi_direct_disconnect_all(); + if (res != WIFI_DIRECT_ERROR_NONE) { + DBG(LOG_ERROR, "Failed to send disconnection request to all. [%d]\n", res); + return -1; + } + } else { + res = wifi_direct_disconnect((char *)mac_addr); + if (res != WIFI_DIRECT_ERROR_NONE) { + DBG(LOG_ERROR, "Failed to send disconnection request. [%d]\n", res); + return -1; + } } - if(ugd->wfd_status > WIFI_DIRECT_STATE_ACTIVATING) - { - wfd_ug_get_discovered_peers(ugd); - } + __FUNC_EXIT__; + return 0; +} - if(ugd->wfd_status >= WIFI_DIRECT_STATE_CONNECTED) - { - wfd_ug_get_connected_peers(ugd); - } +/** + * This function let the ug set the intent of a group owner + * @return If success, return 0, else return -1 + * @param[in] go_intent the intent parameter + */ +int wfd_client_set_p2p_group_owner_intent(int go_intent) +{ + __FUNC_ENTER__; + int res; + + res = wifi_direct_set_group_owner_intent(go_intent); + if (res != WIFI_DIRECT_ERROR_NONE) { + DBG(LOG_ERROR, "Failed to wifi_direct_set_go_intent(%d). [%d]\n", go_intent, res); + return -1; + } - wfd_ug_view_update_peers(ugd); - _change_multi_button_title(ugd); - return 0; + __FUNC_EXIT__; + return 0; } |