/* * * Copyright (c) 2022 Project CHIP Authors * All rights reserved. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /* this file behaves like a config.h, comes first */ #include #include #include #if INET_CONFIG_ENABLE_TCP_ENDPOINT #include #endif #if CHIP_DEVICE_CONFIG_ENABLE_CHIPOBLE #include #endif #if CHIP_DEVICE_CONFIG_ENABLE_THREAD #include #endif #if CHIP_DEVICE_CONFIG_ENABLE_WIFI #include #endif #include #include #include #include #include #include #include #include #include "NetworkCommissioningDriver.h" #include "matter_pal.h" #include using namespace ::chip; using namespace ::chip::Inet; using namespace ::chip::DeviceLayer::Internal; namespace chip { namespace DeviceLayer { ConnectivityManagerImpl ConnectivityManagerImpl::sInstance; NetworkCommissioning::BekenWiFiDriver::WiFiNetwork mWifiNetconf; // ==================== ConnectivityManager Platform Internal Methods ==================== CHIP_ERROR ConnectivityManagerImpl::_Init() { #if CHIP_DEVICE_CONFIG_ENABLE_WIFI mLastStationConnectFailTime = System::Clock::kZero; mLastAPDemandTime = System::Clock::kZero; mWiFiStationMode = kWiFiStationMode_Disabled; mWiFiStationState = kWiFiStationState_NotConnected; mWiFiAPMode = kWiFiAPMode_Disabled; mWiFiAPState = kWiFiAPState_NotActive; mWiFiStationReconnectInterval = System::Clock::Milliseconds32(CHIP_DEVICE_CONFIG_WIFI_STATION_RECONNECT_INTERVAL); mWiFiAPIdleTimeout = System::Clock::Milliseconds32(CHIP_DEVICE_CONFIG_WIFI_AP_IDLE_TIMEOUT); mFlags.SetRaw(0); memset(&mWifiNetconf, 0x0, sizeof(mWifiNetconf)); // If there is no persistent station provision... if (!IsWiFiStationProvisioned()) { // If the code has been compiled with a default WiFi station provision, configure that now. #if !defined(CONFIG_DEFAULT_WIFI_SSID) printf("%s %d pls define CONFIG_DEFAULT_WIFI_SSID\r\n", __func__, __LINE__); #else if (CONFIG_DEFAULT_WIFI_SSID[0] != 0) { ChipLogProgress(DeviceLayer, "Setting default WiFi station configuration (SSID: %s)", CONFIG_DEFAULT_WIFI_SSID); // Set a default station configuration. rtw_wifi_setting_t wifiConfig; // Set the wifi configuration memset(&wifiConfig, 0, sizeof(wifiConfig)); memcpy(wifiConfig.ssid, CONFIG_DEFAULT_WIFI_SSID, strlen(CONFIG_DEFAULT_WIFI_SSID) + 1); memcpy(wifiConfig.password, CONFIG_DEFAULT_WIFI_PASSWORD, strlen(CONFIG_DEFAULT_WIFI_PASSWORD) + 1); wifiConfig.mode = RTW_MODE_STA; // Configure the WiFi interface. int err = CHIP_SetWiFiConfig(&wifiConfig); if (err != 0) { ChipLogError(DeviceLayer, "_Init _SetWiFiConfig() failed: %d", err); } // Enable WiFi station mode. ReturnErrorOnFailure(SetWiFiStationMode(kWiFiStationMode_Enabled)); } // Otherwise, ensure WiFi station mode is disabled. else { ReturnErrorOnFailure(SetWiFiStationMode(kWiFiStationMode_Disabled)); } #endif } // Force AP mode off for now. // Queue work items to bootstrap the AP and station state machines once the Chip event loop is running. ReturnErrorOnFailure(DeviceLayer::SystemLayer().ScheduleWork(DriveStationState, NULL)); ReturnErrorOnFailure(DeviceLayer::SystemLayer().ScheduleWork(DriveAPState, NULL)); #endif // CHIP_DEVICE_CONFIG_ENABLE_WIFI return CHIP_NO_ERROR; } void ConnectivityManagerImpl::_OnPlatformEvent(const ChipDeviceEvent * event) { // Forward the event to the generic base classes as needed. #if CHIP_DEVICE_CONFIG_ENABLE_THREAD GenericConnectivityManagerImpl_Thread::_OnPlatformEvent(event); #endif // CHIP_DEVICE_CONFIG_ENABLE_THREAD #if CHIP_DEVICE_CONFIG_ENABLE_WIFI if (event->Type == DeviceEventType::kRtkWiFiStationConnectedEvent) { ChipLogProgress(DeviceLayer, "_OnPlatformEvent WIFI_EVENT_STA_CONNECTED"); if (mWiFiStationState == kWiFiStationState_Connecting) { NetworkCommissioning::BekenWiFiDriver::GetInstance().OnConnectWiFiNetwork(); ChangeWiFiStationState(kWiFiStationState_Connecting_Succeeded); } DriveStationState(); } #endif // CHIP_DEVICE_CONFIG_ENABLE_WIFI } #if CHIP_DEVICE_CONFIG_ENABLE_WIFI ConnectivityManager::WiFiStationMode ConnectivityManagerImpl::_GetWiFiStationMode(void) { // Enabled when platform instance initilazed return kWiFiStationMode_Enabled; } bool ConnectivityManagerImpl::_IsWiFiStationEnabled(void) { return GetWiFiStationMode() == kWiFiStationMode_Enabled; } CHIP_ERROR ConnectivityManagerImpl::_SetWiFiStationMode(WiFiStationMode val) { CHIP_ERROR err = CHIP_NO_ERROR; VerifyOrExit(val != kWiFiStationMode_NotSupported, err = CHIP_ERROR_INVALID_ARGUMENT); if (mWiFiStationMode == kWiFiStationMode_Disabled && val == kWiFiStationMode_Enabled) { BK_LOG_ON_ERR(bk_event_register_cb(EVENT_MOD_WIFI, EVENT_ID_ALL, ConnectivityManagerImpl().wlan_event_cb, NULL)); BK_LOG_ON_ERR(bk_event_register_cb(EVENT_MOD_NETIF, EVENT_ID_ALL, ConnectivityManagerImpl().netif_event_cb, NULL)); ChangeWiFiStationState(kWiFiStationState_Connecting); } if (val != kWiFiStationMode_ApplicationControlled) { DeviceLayer::SystemLayer().ScheduleWork(DriveStationState, NULL); } if (mWiFiStationMode != val) { ChipLogProgress(DeviceLayer, "WiFi station mode change: %s -> %s", WiFiStationModeToStr(mWiFiStationMode), WiFiStationModeToStr(val)); } mWiFiStationMode = val; exit: return err; } bool ConnectivityManagerImpl::_IsWiFiStationProvisioned(void) { if (mWifiNetconf.ssidLen == 0) NetworkCommissioning::BekenWiFiDriver::GetInstance().GetSavedNetWorkConfig(&mWifiNetconf); ChipLogError(DeviceLayer, "wifi ssid:%s\r\n", mWifiNetconf.ssid); return (mWifiNetconf.ssidLen != 0) ? true : false; } void ConnectivityManagerImpl::_ClearWiFiStationProvision(void) { // TBD } CHIP_ERROR ConnectivityManagerImpl::_SetWiFiAPMode(WiFiAPMode val) { CHIP_ERROR err = CHIP_NO_ERROR; VerifyOrExit(val != kWiFiAPMode_NotSupported, err = CHIP_ERROR_INVALID_ARGUMENT); if (mWiFiAPMode != val) { ChipLogProgress(DeviceLayer, "WiFi AP mode change: %s -> %s", WiFiAPModeToStr(mWiFiAPMode), WiFiAPModeToStr(val)); } mWiFiAPMode = val; DeviceLayer::SystemLayer().ScheduleWork(DriveAPState, NULL); exit: return err; } void ConnectivityManagerImpl::_DemandStartWiFiAP(void) { if (mWiFiAPMode == kWiFiAPMode_OnDemand || mWiFiAPMode == kWiFiAPMode_OnDemand_NoStationProvision) { mLastAPDemandTime = System::SystemClock().GetMonotonicTimestamp(); DeviceLayer::SystemLayer().ScheduleWork(DriveAPState, NULL); } } void ConnectivityManagerImpl::_StopOnDemandWiFiAP(void) { if (mWiFiAPMode == kWiFiAPMode_OnDemand || mWiFiAPMode == kWiFiAPMode_OnDemand_NoStationProvision) { mLastAPDemandTime = System::Clock::kZero; DeviceLayer::SystemLayer().ScheduleWork(DriveAPState, NULL); } } void ConnectivityManagerImpl::_MaintainOnDemandWiFiAP(void) { if (mWiFiAPMode == kWiFiAPMode_OnDemand || mWiFiAPMode == kWiFiAPMode_OnDemand_NoStationProvision) { if (mWiFiAPState == kWiFiAPState_Activating || mWiFiAPState == kWiFiAPState_Active) { mLastAPDemandTime = System::SystemClock().GetMonotonicTimestamp(); } } } void ConnectivityManagerImpl::_SetWiFiAPIdleTimeout(System::Clock::Timeout val) { mWiFiAPIdleTimeout = val; DeviceLayer::SystemLayer().ScheduleWork(DriveAPState, NULL); } CHIP_ERROR ConnectivityManagerImpl::_GetAndLogWifiStatsCounters(void) { return CHIP_NO_ERROR; } void ConnectivityManagerImpl::_OnWiFiScanDone() { // Schedule a call to DriveStationState method in case a station connect attempt was // deferred because the scan was in progress. DeviceLayer::SystemLayer().ScheduleWork(DriveStationState, NULL); } void ConnectivityManagerImpl::_OnWiFiStationProvisionChange() { // Schedule a call to the DriveStationState method to adjust the station state as needed. DeviceLayer::SystemLayer().ScheduleWork(DriveStationState, NULL); } // ==================== ConnectivityManager Private Methods ==================== void ConnectivityManagerImpl::WiFiStationConnectedHandler() { ChipDeviceEvent event; memset(&event, 0, sizeof(event)); event.Type = DeviceEventType::kRtkWiFiStationConnectedEvent; PlatformMgr().PostEventOrDie(&event); } static bool stationConnected = false; int ConnectivityManagerImpl::netif_event_cb(void * arg, event_module_t event_module, int event_id, void * event_data) { ssid_key_save_t wpa_save = { { 0 } }; switch (event_id) { case EVENT_NETIF_GOT_IP4: stationConnected = true; WiFiStationConnectedHandler(); ChipLogProgress(DeviceLayer, "netif_event_cb EVENT_NETIF_GOT_IP4"); break; default: ChipLogProgress(DeviceLayer, "unSupported netif status:%d", event_id); break; } return BK_OK; } int ConnectivityManagerImpl::wlan_event_cb(void * arg, event_module_t event_module, int event_id, void * event_data) { switch (event_id) { case EVENT_WIFI_STA_CONNECTED: ChipLogProgress(DeviceLayer, "wlan_event_cb EVENT_WIFI_STA_CONNECTED"); break; case EVENT_WIFI_STA_DISCONNECTED: stationConnected = false; ChipLogProgress(DeviceLayer, "wlan_event_cb EVENT_WIFI_STA_DISCONNECTED"); wifi_event_sta_disconnected_t * sta_disconnected; sta_disconnected = (wifi_event_sta_disconnected_t *) event_data; ChipDeviceEvent myevent; myevent.Platform.BKSystemEvent.Data.WiFiStaDisconnected = sta_disconnected->disconnect_reason; NetworkCommissioning::BekenWiFiDriver::GetInstance().SetLastDisconnectReason(&myevent); break; default: ChipLogProgress(DeviceLayer, "unSupported wifi status:%d", event_id); break; } return BK_OK; } void ConnectivityManagerImpl::DriveStationState() { mWiFiStationMode = GetWiFiStationMode(); ChipLogProgress(DeviceLayer, "wifi station state:%d, mWiFiStationState:%d", stationConnected, mWiFiStationState); // If the station interface is currently connected ... if (stationConnected) { // Advance the station state to Connected if it was previously NotConnected or // a previously initiated connect attempt succeeded. if (mWiFiStationState == kWiFiStationState_NotConnected || mWiFiStationState == kWiFiStationState_Connecting_Succeeded) { ChangeWiFiStationState(kWiFiStationState_Connected); ChipLogProgress(DeviceLayer, "WiFi station interface connected"); mLastStationConnectFailTime = System::Clock::kZero; OnStationConnected(); IpConnectedEventNotify(); } } // Otherwise the station interface is NOT connected to an AP, so... else { System::Clock::Timestamp now = System::SystemClock().GetMonotonicTimestamp(); // Advance the station state to NotConnected if it was previously Connected or Disconnecting, // or if a previous initiated connect attempt failed. if (mWiFiStationState == kWiFiStationState_Connected || mWiFiStationState == kWiFiStationState_Disconnecting || mWiFiStationState == kWiFiStationState_Connecting_Failed) { WiFiStationState prevState = mWiFiStationState; ChangeWiFiStationState(kWiFiStationState_NotConnected); if (prevState != kWiFiStationState_Connecting_Failed) { ChipLogProgress(DeviceLayer, "WiFi station interface disconnected"); mLastStationConnectFailTime = System::Clock::kZero; OnStationDisconnected(); } else { mLastStationConnectFailTime = now; } } // If the WiFi station interface is now enabled and provisioned (and by implication, // not presently under application control), AND the system is not in the process of // scanning, then... ChipLogProgress(DeviceLayer, "mWiFiStationMode:%d, IsWiFiStationProvisioned:%d", mWiFiStationMode, IsWiFiStationProvisioned()); if (mWiFiStationMode == kWiFiStationMode_Enabled && IsWiFiStationProvisioned() && mWiFiStationState != kWiFiStationState_Connecting) { // Initiate a connection to the AP if we haven't done so before, or if enough // time has passed since the last attempt. if (mLastStationConnectFailTime == System::Clock::kZero || now >= mLastStationConnectFailTime + mWiFiStationReconnectInterval) { ChipLogProgress(DeviceLayer, "try to connect wifi"); wifi_sta_config_t sta_config; memset(&sta_config, 0x0, sizeof(sta_config)); sta_config.security = WIFI_SECURITY_AUTO; // can't use WIFI_DEFAULT_STA_CONFIG because of C99 designator error Platform::CopyString(sta_config.ssid, mWifiNetconf.ssidLen, mWifiNetconf.ssid); Platform::CopyString(sta_config.password, mWifiNetconf.credentialsLen, mWifiNetconf.credentials); BK_LOG_ON_ERR(bk_wifi_sta_set_config(&sta_config)); BK_LOG_ON_ERR(bk_wifi_sta_start()); BK_LOG_ON_ERR(bk_event_register_cb(EVENT_MOD_WIFI, EVENT_ID_ALL, ConnectivityManagerImpl().wlan_event_cb, NULL)); BK_LOG_ON_ERR(bk_event_register_cb(EVENT_MOD_NETIF, EVENT_ID_ALL, ConnectivityManagerImpl().netif_event_cb, NULL)); BK_LOG_ON_ERR(bk_wifi_sta_connect()); ChangeWiFiStationState(kWiFiStationState_Connecting); } // Otherwise arrange another connection attempt at a suitable point in the future. else { System::Clock::Timeout timeToNextConnect = (mLastStationConnectFailTime + mWiFiStationReconnectInterval) - now; ChipLogProgress(DeviceLayer, "Next WiFi station reconnect in %" PRIu32 " ms", System::Clock::Milliseconds32(timeToNextConnect).count()); ReturnOnFailure(DeviceLayer::SystemLayer().StartTimer(timeToNextConnect, DriveStationState, nullptr)); } } } ChipLogProgress(DeviceLayer, "Done driving station state, nothing else to do..."); // Kick-off any pending network scan that might have been deferred due to the activity // of the WiFi station. } void ConnectivityManagerImpl::OnStationConnected() { // Alert other components of the new state. ChipDeviceEvent event; event.Type = DeviceEventType::kWiFiConnectivityChange; event.WiFiConnectivityChange.Result = kConnectivity_Established; PlatformMgr().PostEventOrDie(&event); UpdateInternetConnectivityState(); } void ConnectivityManagerImpl::OnStationDisconnected() { // Alert other components of the new state. ChipDeviceEvent event; event.Type = DeviceEventType::kWiFiConnectivityChange; event.WiFiConnectivityChange.Result = kConnectivity_Lost; PlatformMgr().PostEventOrDie(&event); UpdateInternetConnectivityState(); } void ConnectivityManagerImpl::ChangeWiFiStationState(WiFiStationState newState) { if (mWiFiStationState != newState) { ChipLogProgress(DeviceLayer, "WiFi station state change: %s -> %s", WiFiStationStateToStr(mWiFiStationState), WiFiStationStateToStr(newState)); mWiFiStationState = newState; SystemLayer().ScheduleLambda([]() { NetworkCommissioning::BekenWiFiDriver::GetInstance().OnNetworkStatusChange(); }); } } void ConnectivityManagerImpl::DriveStationState(::chip::System::Layer * aLayer, void * aAppState) { sInstance.DriveStationState(); } void ConnectivityManagerImpl::DriveAPState() { ChipLogProgress(DeviceLayer, "WiFi ConnectivityManagerImpl::DriveAPState, do nothing!"); CHIP_ERROR err = CHIP_NO_ERROR; } CHIP_ERROR ConnectivityManagerImpl::ConfigureWiFiAP() { return CHIP_NO_ERROR; } void ConnectivityManagerImpl::ChangeWiFiAPState(WiFiAPState newState) { if (mWiFiAPState != newState) { ChipLogProgress(DeviceLayer, "WiFi AP state change: %s -> %s", WiFiAPStateToStr(mWiFiAPState), WiFiAPStateToStr(newState)); mWiFiAPState = newState; } } void ConnectivityManagerImpl::DriveAPState(::chip::System::Layer * aLayer, void * aAppState) { sInstance.DriveAPState(); } void ConnectivityManagerImpl::UpdateInternetConnectivityState(void) { bool haveIPv4Conn = false; bool haveIPv6Conn = false; const bool hadIPv4Conn = mFlags.Has(ConnectivityFlags::kHaveIPv4InternetConnectivity); const bool hadIPv6Conn = mFlags.Has(ConnectivityFlags::kHaveIPv6InternetConnectivity); IPAddress addr; // If the WiFi station is currently in the connected state... if (mWiFiStationState == kWiFiStationState_Connected) { // Get the LwIP netif for the WiFi station interface. struct netif * netif = netif_list; // If the WiFi station interface is up... if (netif != NULL && netif_is_up(netif) && netif_is_link_up(netif)) { // Check if a DNS server is currently configured. If so... ip_addr_t dnsServerAddr = *dns_getserver(0); if (!ip_addr_isany_val(dnsServerAddr)) { // If the station interface has been assigned an IPv4 address, and has // an IPv4 gateway, then presume that the device has IPv4 Internet // connectivity. if (!ip4_addr_isany_val(*netif_ip4_addr(netif)) && !ip4_addr_isany_val(*netif_ip4_gw(netif))) { haveIPv4Conn = true; // char addrStr[INET_ADDRSTRLEN]; // ip4addr_ntoa_r((const ip4_addr_t *) LwIP_GetIP(&xnetif[0]), addrStr, sizeof(addrStr)); // IPAddress::FromString(addrStr, addr); } // Search among the IPv6 addresses assigned to the interface for a Global Unicast // address (2000::/3) that is in the valid state. If such an address is found... for (uint8_t i = 0; i < LWIP_IPV6_NUM_ADDRESSES; i++) { if (ip6_addr_isglobal(netif_ip6_addr(netif, i)) && ip6_addr_isvalid(netif_ip6_addr_state(netif, i))) { // Determine if there is a default IPv6 router that is currently reachable // via the station interface. If so, presume for now that the device has // IPv6 connectivity. struct netif * found_if = nd6_find_route(IP6_ADDR_ANY6); if (found_if && netif->num == found_if->num) { haveIPv6Conn = true; } } } } } } // If the internet connectivity state has changed... if (haveIPv4Conn != hadIPv4Conn || haveIPv6Conn != hadIPv6Conn) { // Update the current state. mFlags.Set(ConnectivityFlags::kHaveIPv4InternetConnectivity, haveIPv4Conn) .Set(ConnectivityFlags::kHaveIPv6InternetConnectivity, haveIPv6Conn); // Alert other components of the state change. ChipDeviceEvent event; event.Type = DeviceEventType::kInternetConnectivityChange; event.InternetConnectivityChange.IPv4 = GetConnectivityChange(hadIPv4Conn, haveIPv4Conn); event.InternetConnectivityChange.IPv6 = GetConnectivityChange(hadIPv6Conn, haveIPv6Conn); // addr.ToString(event.InternetConnectivityChange.address); PlatformMgr().PostEventOrDie(&event); if (haveIPv4Conn != hadIPv4Conn) { ChipLogProgress(DeviceLayer, "%s Internet connectivity %s", "IPv4", (haveIPv4Conn) ? "ESTABLISHED" : "LOST"); } if (haveIPv6Conn != hadIPv6Conn) { ChipLogProgress(DeviceLayer, "%s Internet connectivity %s", "IPv6", (haveIPv6Conn) ? "ESTABLISHED" : "LOST"); } } } void ConnectivityManagerImpl::OnStationIPv4AddressAvailable(void) { #if 0 uint8_t * ip = LwIP_GetIP(&xnetif[0]); uint8_t * gw = LwIP_GetGW(&xnetif[0]); uint8_t * msk = LwIP_GetMASK(&xnetif[0]); #if CHIP_PROGRESS_LOGGING { ChipLogProgress(DeviceLayer, "\n\r\tIP => %d.%d.%d.%d", ip[0], ip[1], ip[2], ip[3]); ChipLogProgress(DeviceLayer, "\n\r\tGW => %d.%d.%d.%d\n\r", gw[0], gw[1], gw[2], gw[3]); ChipLogProgress(DeviceLayer, "\n\r\tmsk => %d.%d.%d.%d\n\r", msk[0], msk[1], msk[2], msk[3]); } #endif // CHIP_PROGRESS_LOGGING #endif UpdateInternetConnectivityState(); ChipLogProgress(DeviceLayer, "IPv4 address available on WiFi station interface"); ChipDeviceEvent event; event.Type = DeviceEventType::kInterfaceIpAddressChanged; event.InterfaceIpAddressChanged.Type = InterfaceIpChangeType::kIpV4_Assigned; PlatformMgr().PostEventOrDie(&event); } void ConnectivityManagerImpl::OnStationIPv4AddressLost(void) { ChipLogProgress(DeviceLayer, "IPv4 address lost on WiFi station interface"); UpdateInternetConnectivityState(); ChipDeviceEvent event; event.Type = DeviceEventType::kInterfaceIpAddressChanged; event.InterfaceIpAddressChanged.Type = InterfaceIpChangeType::kIpV4_Lost; PlatformMgr().PostEventOrDie(&event); } void ConnectivityManagerImpl::OnIPv6AddressAvailable(void) { #if 0 #if LWIP_VERSION_MAJOR >= 2 && LWIP_VERSION_MINOR >= 1 #if LWIP_IPV6 uint8_t * ipv6_0 = LwIP_GetIPv6_linklocal(&xnetif[0]); uint8_t * ipv6_1 = LwIP_GetIPv6_global(&xnetif[0]); #endif #endif #if CHIP_PROGRESS_LOGGING { #if LWIP_VERSION_MAJOR >= 2 && LWIP_VERSION_MINOR >= 1 #if LWIP_IPV6 ChipLogProgress(DeviceLayer, "\n\r\tLink-local IPV6 => %02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x", ipv6_0[0], ipv6_0[1], ipv6_0[2], ipv6_0[3], ipv6_0[4], ipv6_0[5], ipv6_0[6], ipv6_0[7], ipv6_0[8], ipv6_0[9], ipv6_0[10], ipv6_0[11], ipv6_0[12], ipv6_0[13], ipv6_0[14], ipv6_0[15]); ChipLogProgress(DeviceLayer, "\n\r\tIPV6 => %02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x", ipv6_1[0], ipv6_1[1], ipv6_1[2], ipv6_1[3], ipv6_1[4], ipv6_1[5], ipv6_1[6], ipv6_1[7], ipv6_1[8], ipv6_1[9], ipv6_1[10], ipv6_1[11], ipv6_1[12], ipv6_1[13], ipv6_1[14], ipv6_1[15]); #endif #endif } #endif // CHIP_PROGRESS_LOGGING #endif UpdateInternetConnectivityState(); ChipLogProgress(DeviceLayer, "IPv6 address available on WiFi station interface"); ChipDeviceEvent event; event.Type = DeviceEventType::kInterfaceIpAddressChanged; event.InterfaceIpAddressChanged.Type = InterfaceIpChangeType::kIpV6_Assigned; PlatformMgr().PostEventOrDie(&event); } void ConnectivityManagerImpl::IpConnectedEventNotify() { const bool hadIPv4Conn = mFlags.Has(ConnectivityFlags::kHaveIPv4InternetConnectivity); const bool hadIPv6Conn = mFlags.Has(ConnectivityFlags::kHaveIPv6InternetConnectivity); if (hadIPv4Conn) { sInstance.OnStationIPv4AddressAvailable(); } if (hadIPv6Conn) { sInstance.OnIPv6AddressAvailable(); } } #endif // CHIP_DEVICE_CONFIG_ENABLE_WIFI } // namespace DeviceLayer } // namespace chip