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pigweed / third_party / github / project-chip / connectedhomeip / f0e3672f297b4477eef4bee6f04de14a503a1287 / . / src / platform / Infineon / PSOC6 / ConnectivityManagerImpl.cpp
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/*
*
* Copyright (c) 2021 Project CHIP Authors
* Copyright (c) 2018 Nest Labs, Inc.
* 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 <platform/internal/CHIPDeviceLayerInternal.h>
#include <platform/ConnectivityManager.h>
#include <platform/DeviceInstanceInfoProvider.h>
#include <platform/internal/GenericConnectivityManagerImpl_UDP.ipp>
#if INET_CONFIG_ENABLE_TCP_ENDPOINT
#include <platform/internal/GenericConnectivityManagerImpl_TCP.ipp>
#endif
#if CHIP_DEVICE_CONFIG_ENABLE_CHIPOBLE
#include <platform/internal/GenericConnectivityManagerImpl_BLE.ipp>
#endif
#include <platform/internal/GenericConnectivityManagerImpl_WiFi.ipp>
#include <lib/support/CodeUtils.h>
#include <lib/support/logging/CHIPLogging.h>
#include <platform/Infineon/PSOC6/PSOC6Utils.h>
#include <platform/internal/BLEManager.h>
#include "cy_network_mw_core.h"
#include "cy_nw_helper.h"
#include <lwip/dns.h>
#include <lwip/ip_addr.h>
#include <lwip/nd6.h>
#include <lwip/netif.h>
#include "lwip/opt.h"
#include <platform/Infineon/PSOC6/NetworkCommissioningDriver.h>
#include <type_traits>
#if !CHIP_DEVICE_CONFIG_ENABLE_WIFI_STATION
#error "WiFi Station support must be enabled when building for PSoC6"
#endif
using namespace ::chip;
using namespace ::chip::Inet;
using namespace ::chip::System;
using namespace ::chip::TLV;
namespace chip {
namespace DeviceLayer {
ConnectivityManagerImpl ConnectivityManagerImpl::sInstance;
ConnectivityManager::WiFiStationMode ConnectivityManagerImpl::_GetWiFiStationMode(void)
{
uint32_t curWiFiMode;
mWiFiStationMode = (Internal::PSOC6Utils::wifi_get_mode(curWiFiMode) == CHIP_NO_ERROR &&
(curWiFiMode == WIFI_MODE_APSTA || curWiFiMode == WIFI_MODE_STA))
? kWiFiStationMode_Enabled
: kWiFiStationMode_Disabled;
return mWiFiStationMode;
}
CHIP_ERROR ConnectivityManagerImpl::_SetWiFiStationMode(WiFiStationMode val)
{
CHIP_ERROR err = CHIP_NO_ERROR;
VerifyOrExit(val != kWiFiStationMode_NotSupported, err = CHIP_ERROR_INVALID_ARGUMENT);
if (val != kWiFiStationMode_ApplicationControlled)
{
ChipLogProgress(DeviceLayer, "WiFi station mode change: %s -> %s", WiFiStationModeToStr(mWiFiStationMode),
WiFiStationModeToStr(val));
mWiFiStationMode = val;
/* Schedule work for disabled case causes station mode not getting enabled */
if (mWiFiStationMode != kWiFiStationMode_Disabled)
{
DeviceLayer::SystemLayer().ScheduleWork(DriveStationState, NULL);
}
else
{
/* Call Drive Station directly to disable directly instead of scheduling */
DriveStationState();
}
}
exit:
return err;
}
bool ConnectivityManagerImpl::_IsWiFiStationEnabled(void)
{
return GetWiFiStationMode() == kWiFiStationMode_Enabled;
}
bool ConnectivityManagerImpl::_IsWiFiStationProvisioned(void)
{
return Internal::PSOC6Utils::IsStationProvisioned();
}
void ConnectivityManagerImpl::_ClearWiFiStationProvision(void)
{
if (mWiFiStationMode != kWiFiStationMode_ApplicationControlled)
{
wifi_config_t stationConfig;
memset(&stationConfig, 0, sizeof(stationConfig));
Internal::PSOC6Utils::p6_wifi_set_config(WIFI_IF_STA, &stationConfig);
DeviceLayer::SystemLayer().ScheduleWork(DriveStationState, NULL);
DeviceLayer::SystemLayer().ScheduleWork(DriveAPState, NULL);
}
}
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)
{
cy_wcm_associated_ap_info_t ap_info;
cy_rslt_t result = CY_RSLT_SUCCESS;
CHIP_ERROR err = CHIP_NO_ERROR;
result = cy_wcm_get_associated_ap_info(&ap_info);
if (result != CY_RSLT_SUCCESS)
{
ChipLogError(DeviceLayer, "cy_wcm_get_associated_ap_info failed: %d", (int) result);
SuccessOrExit(err = CHIP_ERROR_INTERNAL);
}
ChipLogProgress(DeviceLayer,
"WiFi-Telemetry\n"
"BSSID: %02x:%02x:%02x:%02x:%02x:%02x\n"
"RSSI: %d\n"
"Channel: %d\n"
"Channel Width: %d Mhz\n",
ap_info.BSSID[0], ap_info.BSSID[1], ap_info.BSSID[2], ap_info.BSSID[3], ap_info.BSSID[4], ap_info.BSSID[5],
ap_info.signal_strength, ap_info.channel, ap_info.channel_width);
exit:
return err;
}
// ==================== ConnectivityManager Platform Internal Methods ====================
CHIP_ERROR ConnectivityManagerImpl::_Init()
{
CHIP_ERROR err = CHIP_NO_ERROR;
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);
// Ensure that PSOC6 station mode is enabled.
err = Internal::PSOC6Utils::EnableStationMode();
SuccessOrExit(err);
// 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 (CHIP_DEVICE_CONFIG_DEFAULT_STA_SSID[0] != 0)
{
ChipLogProgress(DeviceLayer, "Setting default WiFi station configuration (SSID: %s)",
CHIP_DEVICE_CONFIG_DEFAULT_STA_SSID);
// Set a default station configuration.
wifi_config_t wifiConfig;
memset(&wifiConfig, 0, sizeof(wifiConfig));
memcpy(wifiConfig.sta.ssid, CHIP_DEVICE_CONFIG_DEFAULT_STA_SSID,
std::min(strlen(CHIP_DEVICE_CONFIG_DEFAULT_STA_SSID), sizeof(wifiConfig.sta.ssid)));
memcpy(wifiConfig.sta.password, CHIP_DEVICE_CONFIG_DEFAULT_STA_PASSWORD,
std::min(strlen(CHIP_DEVICE_CONFIG_DEFAULT_STA_PASSWORD), sizeof(wifiConfig.sta.password)));
wifiConfig.sta.security = CHIP_DEVICE_CONFIG_DEFAULT_STA_SECURITY;
err = Internal::PSOC6Utils::p6_wifi_set_config(WIFI_IF_STA, &wifiConfig);
SuccessOrExit(err);
// Enable WiFi station mode.
ReturnErrorOnFailure(SetWiFiStationMode(kWiFiStationMode_Enabled));
}
else
{
ReturnErrorOnFailure(SetWiFiStationMode(kWiFiStationMode_Disabled));
}
}
else
{
// Enable WiFi station mode.
ReturnErrorOnFailure(SetWiFiStationMode(kWiFiStationMode_Enabled));
}
// Force AP mode off for now.
err = Internal::PSOC6Utils::SetAPMode(false);
SuccessOrExit(err);
// Queue work items to bootstrap the station state machines once the Chip event loop is running.
err = DeviceLayer::SystemLayer().ScheduleWork(DriveStationState, NULL);
SuccessOrExit(err);
exit:
return err;
}
void ConnectivityManagerImpl::_OnPlatformEvent(const ChipDeviceEvent * event) {}
void ConnectivityManagerImpl::wlan_event_cb(cy_wcm_event_t event, cy_wcm_event_data_t * event_data)
{
switch (event)
{
case CY_WCM_EVENT_CONNECTING:
ChipLogProgress(DeviceLayer, "CY_WCM_EVENT_CONNECTING");
ConnectivityMgrImpl().ChangeWiFiStationState(kWiFiStationState_Connecting);
break;
case CY_WCM_EVENT_CONNECTED:
ChipLogProgress(DeviceLayer, "CY_WCM_EVENT_CONNECTED");
ConnectivityMgrImpl().ChangeWiFiStationState(kWiFiStationState_Connecting_Succeeded);
NetworkCommissioning::P6WiFiDriver::GetInstance().OnConnectWiFiNetwork();
ConnectivityMgrImpl().DriveStationState();
break;
case CY_WCM_EVENT_CONNECT_FAILED:
ChipLogProgress(DeviceLayer, "CY_WCM_EVENT_CONNECT_FAILED");
ConnectivityMgrImpl().ChangeWiFiStationState(kWiFiStationState_Connecting_Failed);
ConnectivityMgrImpl().DriveStationState();
break;
case CY_WCM_EVENT_RECONNECTED:
ChipLogProgress(DeviceLayer, "CY_WCM_EVENT_RECONNECTED");
ConnectivityMgrImpl().ChangeWiFiStationState(kWiFiStationState_Connecting_Succeeded);
NetworkCommissioning::P6WiFiDriver::GetInstance().OnConnectWiFiNetwork();
ConnectivityMgrImpl().DriveStationState();
break;
case CY_WCM_EVENT_DISCONNECTED:
ChipLogProgress(DeviceLayer, "CY_WCM_EVENT_DISCONNECTED");
ConnectivityMgrImpl().ChangeWiFiStationState(kWiFiStationState_Disconnecting);
NetworkCommissioning::P6WiFiDriver::GetInstance().SetLastDisconnectReason(WLC_E_SUP_DEAUTH);
break;
case CY_WCM_EVENT_IP_CHANGED:
ChipLogProgress(DeviceLayer, "CY_WCM_EVENT_IP_CHANGED");
ConnectivityMgrImpl().OnIPAddressAvailable();
break;
case CY_WCM_EVENT_STA_JOINED_SOFTAP:
ChipLogProgress(DeviceLayer, "CY_WCM_EVENT_STA_JOINED_SOFTAP");
break;
case CY_WCM_EVENT_STA_LEFT_SOFTAP:
ChipLogProgress(DeviceLayer, "CY_WCM_EVENT_STA_LEFT_SOFTAP");
break;
default:
ChipLogProgress(DeviceLayer, "UnSupported Event");
break;
}
}
void ConnectivityManagerImpl::_OnWiFiScanDone()
{
DeviceLayer::SystemLayer().ScheduleWork(DriveStationState, NULL);
}
void ConnectivityManagerImpl::_OnWiFiStationProvisionChange()
{
DeviceLayer::SystemLayer().ScheduleWork(DriveStationState, NULL);
}
void ConnectivityManagerImpl::DriveStationState(::chip::System::Layer * aLayer, void * aAppState)
{
sInstance.DriveStationState();
}
void ConnectivityManagerImpl::DriveAPState(::chip::System::Layer * aLayer, void * aAppState)
{
sInstance.DriveAPState();
}
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::P6WiFiDriver::GetInstance().OnNetworkStatusChange(); });
}
}
void ConnectivityManagerImpl::ChangeWiFiAPState(WiFiAPState newState)
{
if (mWiFiAPState != newState)
{
ChipLogProgress(DeviceLayer, "WiFi AP state change: %s -> %s", WiFiAPStateToStr(mWiFiAPState), WiFiAPStateToStr(newState));
mWiFiAPState = newState;
}
}
#define INITIALISER_IPV4_ADDRESS1(addr_var, addr_val) addr_var = { CY_WCM_IP_VER_V4, { .v4 = (uint32_t) (addr_val) } }
#define MAKE_IPV4_ADDRESS1(a, b, c, d) ((((uint32_t) d) << 24) | (((uint32_t) c) << 16) | (((uint32_t) b) << 8) | ((uint32_t) a))
static const cy_wcm_ip_setting_t ap_mode_ip_settings = {
INITIALISER_IPV4_ADDRESS1(.ip_address, MAKE_IPV4_ADDRESS1(192, 168, 0, 2)),
INITIALISER_IPV4_ADDRESS1(.gateway, MAKE_IPV4_ADDRESS1(192, 168, 0, 2)),
INITIALISER_IPV4_ADDRESS1(.netmask, MAKE_IPV4_ADDRESS1(255, 255, 255, 0)),
};
CHIP_ERROR ConnectivityManagerImpl::ConfigureWiFiAP()
{
CHIP_ERROR err = CHIP_NO_ERROR;
wifi_config_t wifiConfig;
memset(&wifiConfig.ap, 0, sizeof(wifi_config_ap_t));
uint16_t vendorId;
uint16_t productId;
ReturnErrorOnFailure(GetDeviceInstanceInfoProvider()->GetVendorId(vendorId));
ReturnErrorOnFailure(GetDeviceInstanceInfoProvider()->GetProductId(productId));
snprintf((char *) wifiConfig.ap.ssid, sizeof(wifiConfig.ap.ssid), "%s-%04X-%04X", CHIP_DEVICE_CONFIG_WIFI_AP_SSID_PREFIX,
vendorId, productId);
memcpy(wifiConfig.ap.password, CHIP_DEVICE_CONFIG_WIFI_AP_PASSWORD, strlen(CHIP_DEVICE_CONFIG_WIFI_AP_PASSWORD));
wifiConfig.ap.channel = CHIP_DEVICE_CONFIG_WIFI_AP_CHANNEL;
wifiConfig.ap.security = CHIP_DEVICE_CONFIG_WIFI_AP_SECURITY;
wifiConfig.ap.ip_settings.ip_address = ap_mode_ip_settings.ip_address;
wifiConfig.ap.ip_settings.netmask = ap_mode_ip_settings.netmask;
wifiConfig.ap.ip_settings.gateway = ap_mode_ip_settings.gateway;
ChipLogProgress(DeviceLayer, "Configuring WiFi AP: SSID %s, channel %u", wifiConfig.ap.ssid, wifiConfig.ap.channel);
err = Internal::PSOC6Utils::p6_wifi_set_config(WIFI_IF_AP, &wifiConfig);
SuccessOrExit(err);
err = Internal::PSOC6Utils::p6_start_ap();
if (err != CHIP_NO_ERROR)
{
ChipLogError(DeviceLayer, "p6_start_ap failed: %s", chip::ErrorStr(err));
}
exit:
return err;
}
void ConnectivityManagerImpl::DriveAPState()
{
CHIP_ERROR err = CHIP_NO_ERROR;
WiFiAPState targetState;
bool APModeEnabled;
// Determine if AP mode is currently enabled in the PSOC6 WiFi layer.
err = Internal::PSOC6Utils::IsAPEnabled(APModeEnabled);
SuccessOrExit(err);
// Adjust the Connectivity Manager's AP state to match the state in the WiFi layer.
if (APModeEnabled && (mWiFiAPState == kWiFiAPState_NotActive || mWiFiAPState == kWiFiAPState_Deactivating))
{
ChangeWiFiAPState(kWiFiAPState_Activating);
}
if (!APModeEnabled && (mWiFiAPState == kWiFiAPState_Active || mWiFiAPState == kWiFiAPState_Activating))
{
ChangeWiFiAPState(kWiFiAPState_Deactivating);
}
// If the AP interface is not under application control...
if (mWiFiAPMode != kWiFiAPMode_ApplicationControlled)
{
// Determine the target (desired) state for AP interface...
// The target state is 'NotActive' if the application has expressly disabled the AP interface.
if (mWiFiAPMode == kWiFiAPMode_Disabled)
{
targetState = kWiFiAPState_NotActive;
}
// The target state is 'Active' if the application has expressly enabled the AP interface.
else if (mWiFiAPMode == kWiFiAPMode_Enabled)
{
targetState = kWiFiAPState_Active;
}
// The target state is 'Active' if the AP mode is 'On demand, when no station is available'
// and the station interface is not provisioned or the application has disabled the station
// interface.
else if (mWiFiAPMode == kWiFiAPMode_OnDemand_NoStationProvision &&
(!IsWiFiStationProvisioned() || GetWiFiStationMode() == kWiFiStationMode_Disabled))
{
targetState = kWiFiAPState_Active;
}
// The target state is 'Active' if the AP mode is one of the 'On demand' modes and there
// has been demand for the AP within the idle timeout period.
else if (mWiFiAPMode == kWiFiAPMode_OnDemand || mWiFiAPMode == kWiFiAPMode_OnDemand_NoStationProvision)
{
System::Clock::Timestamp now = System::SystemClock().GetMonotonicTimestamp();
if (mLastAPDemandTime != System::Clock::kZero && now < (mLastAPDemandTime + mWiFiAPIdleTimeout))
{
targetState = kWiFiAPState_Active;
// Compute the amount of idle time before the AP should be deactivated and
// arm a timer to fire at that time.
System::Clock::Timeout apTimeout = (mLastAPDemandTime + mWiFiAPIdleTimeout) - now;
ChipLogProgress(DeviceLayer, "Next WiFi AP timeout in %" PRIu32 " ms",
System::Clock::Milliseconds32(apTimeout).count());
SystemLayer().ScheduleLambda([apTimeout, this] {
CHIP_ERROR ret = CHIP_NO_ERROR;
ret = DeviceLayer::SystemLayer().StartTimer(apTimeout, DriveAPState, this);
VerifyOrReturn(ret == CHIP_NO_ERROR, ChipLogError(DeviceLayer, "StartTimer failed %s: ", chip::ErrorStr(ret)));
});
}
else
{
targetState = kWiFiAPState_NotActive;
}
}
// Otherwise the target state is 'NotActive'.
else
{
targetState = kWiFiAPState_NotActive;
}
// If the current AP state does not match the target state...
if (mWiFiAPState != targetState)
{
// If the target state is 'Active' and the current state is NOT 'Activating', enable
// and configure the AP interface, and then enter the 'Activating' state. Eventually
// a SYSTEM_EVENT_AP_START event will be received from the PSOC6 WiFi layer which will
// cause the state to transition to 'Active'.
if (targetState == kWiFiAPState_Active)
{
if (mWiFiAPState != kWiFiAPState_Active)
{
err = Internal::PSOC6Utils::SetAPMode(true);
SuccessOrExit(err);
err = ConfigureWiFiAP();
SuccessOrExit(err);
ChangeWiFiAPState(kWiFiAPState_Active);
}
}
// Otherwise, if the target state is 'NotActive' and the current state is not 'Deactivating',
// disable the AP interface and enter the 'Deactivating' state. Later a SYSTEM_EVENT_AP_STOP
// event will move the AP state to 'NotActive'.
else
{
if (mWiFiAPState != kWiFiAPState_Deactivating)
{
err = Internal::PSOC6Utils::SetAPMode(false);
SuccessOrExit(err);
err = Internal::PSOC6Utils::p6_stop_ap();
SuccessOrExit(err);
ChangeWiFiAPState(kWiFiAPState_Deactivating);
}
}
}
}
exit:
if (err != CHIP_NO_ERROR && mWiFiAPMode != kWiFiAPMode_ApplicationControlled)
{
SetWiFiAPMode(kWiFiAPMode_Disabled);
Internal::PSOC6Utils::SetAPMode(false);
Internal::PSOC6Utils::p6_stop_ap();
}
}
void ConnectivityManagerImpl::DriveStationState()
{
CHIP_ERROR err = CHIP_NO_ERROR;
bool stationConnected;
// If the station interface is NOT under application control...
if (mWiFiStationMode != kWiFiStationMode_ApplicationControlled)
{
// Ensure that the PSOC6 WiFi layer is started.
err = WiFi_init();
SuccessOrExit(err);
// Ensure that station mode is enabled in the PSOC6 WiFi layer.
err = Internal::PSOC6Utils::EnableStationMode();
SuccessOrExit(err);
}
// Determine if the PSOC6 WiFi layer thinks the station interface is currently connected.
err = Internal::PSOC6Utils::IsStationConnected(stationConnected);
SuccessOrExit(err);
// 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;
}
// If the WiFi station interface is no longer enabled, or no longer provisioned,
// disconnect the station from the AP, unless the WiFi station mode is currently
// under application control.
if (mWiFiStationMode != kWiFiStationMode_ApplicationControlled &&
(mWiFiStationMode != kWiFiStationMode_Enabled || !IsWiFiStationProvisioned()))
{
ChipLogProgress(DeviceLayer, "Disconnecting WiFi station interface");
err = Internal::PSOC6Utils::p6_wifi_disconnect();
if (err != CHIP_NO_ERROR)
{
ChipLogError(DeviceLayer, "p6_wifi_disconnect() failed: %s", chip::ErrorStr(err));
}
SuccessOrExit(err);
ChangeWiFiStationState(kWiFiStationState_Disconnecting);
}
}
// 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;
}
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...
if (mWiFiStationMode == kWiFiStationMode_Enabled && IsWiFiStationProvisioned())
{
// 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)
{
ChangeWiFiStationState(kWiFiStationState_Connecting);
ChipLogProgress(DeviceLayer, "Attempting to connect WiFi station interface");
err = Internal::PSOC6Utils::p6_wifi_connect();
if (err != CHIP_NO_ERROR)
{
ChipLogError(DeviceLayer, "p6_wifi_connect() failed: %s", chip::ErrorStr(err));
}
SuccessOrExit(err);
}
// 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());
SystemLayer().ScheduleLambda([timeToNextConnect, this] {
CHIP_ERROR ret = CHIP_NO_ERROR;
ret = DeviceLayer::SystemLayer().StartTimer(timeToNextConnect, DriveStationState, this);
VerifyOrReturn(ret == CHIP_NO_ERROR, ChipLogError(DeviceLayer, "StartTimer failed %s: ", chip::ErrorStr(ret)));
});
}
}
}
exit:
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::UpdateInternetConnectivityState(void)
{
bool haveIPv4Conn = false;
bool haveIPv6Conn = false;
const bool hadIPv4Conn = mFlags.Has(ConnectivityFlags::kHaveIPv4InternetConnectivity);
const bool hadIPv6Conn = mFlags.Has(ConnectivityFlags::kHaveIPv6InternetConnectivity);
struct netif * net_interface = NULL;
IPAddress addr;
bool stationConnected;
Internal::PSOC6Utils::IsStationConnected(stationConnected);
ChipLogProgress(DeviceLayer, "UpdateInternetConnectivityState");
// If the WiFi station is currently in the connected state...
if ((mWiFiStationState == kWiFiStationState_Connected) || stationConnected)
{
net_interface = (netif *) cy_network_get_nw_interface(CY_NETWORK_WIFI_STA_INTERFACE, 0);
if (net_interface != NULL && netif_is_up(net_interface) && netif_is_link_up(net_interface))
{
if (!ip4_addr_isany(netif_ip4_addr(net_interface)) && !ip4_addr_isany(netif_ip4_gw(net_interface)))
{
haveIPv4Conn = true;
ChipDeviceEvent event;
event.Type = DeviceEventType::kInterfaceIpAddressChanged;
event.InterfaceIpAddressChanged.Type = InterfaceIpChangeType::kIpV4_Assigned;
PlatformMgr().PostEventOrDie(&event);
ChipLogProgress(DeviceLayer, "IPv4 Address Assigned : %s", ip4addr_ntoa(netif_ip4_addr(net_interface)));
}
// 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_islinklocal(netif_ip6_addr(net_interface, i)) &&
ip6_addr_isvalid(netif_ip6_addr_state(net_interface, i)))
{
haveIPv6Conn = true;
ChipDeviceEvent event;
event.Type = DeviceEventType::kInterfaceIpAddressChanged;
event.InterfaceIpAddressChanged.Type = InterfaceIpChangeType::kIpV6_Assigned;
PlatformMgr().PostEventOrDie(&event);
ChipLogProgress(DeviceLayer, "IPv6 Address Assigned : %s", ip6addr_ntoa(netif_ip6_addr(net_interface, i)));
}
}
}
}
// 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);
event.InternetConnectivityChange.ipAddress = addr;
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");
}
}
}
CHIP_ERROR ConnectivityManagerImpl::OnIPAddressAvailable(void)
{
ChipLogProgress(DeviceLayer, "IP address available on WiFi station interface");
UpdateInternetConnectivityState();
return CHIP_NO_ERROR;
}
CHIP_ERROR ConnectivityManagerImpl::WiFi_init(void)
{
CHIP_ERROR err = CHIP_NO_ERROR;
cy_rslt_t result = CY_RSLT_SUCCESS;
err = Internal::PSOC6Utils::StartWiFiLayer();
SuccessOrExit(err);
/* Register event callback */
if (eventcallback == false)
{
result = cy_wcm_register_event_callback(ConnectivityManagerImpl::wlan_event_cb);
if (result != CY_RSLT_SUCCESS)
{
ChipLogError(DeviceLayer, "cy_wcm_register_event_callback failed....! \r\n");
err = CHIP_ERROR_INTERNAL;
SuccessOrExit(err);
}
eventcallback = true;
}
exit:
return err;
}
CHIP_ERROR ConnectivityManagerImpl::ping_thread()
{
CHIP_ERROR err = CHIP_NO_ERROR;
err = Internal::PSOC6Utils::ping_init();
return err;
}
} // namespace DeviceLayer
} // namespace chip