src/platform/Zephyr/ConfigurationManagerImpl.cpp - third_party/github/project-chip/connectedhomeip - Git at Google

 /*
  *
  *    Copyright (c) 2020 Project CHIP Authors
  *
  *    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.
  */

 /**
  *    @file
  *          Provides the implementation of the Device Layer ConfigurationManager object
  *          for Zephyr platforms.
  */

 #include <platform/internal/CHIPDeviceLayerInternal.h>

 #include <platform/ConfigurationManager.h>
 #include <platform/internal/GenericConfigurationManagerImpl.ipp>

 #include <lib/core/CHIPVendorIdentifiers.hpp>

 #include <platform/Zephyr/ZephyrConfig.h>

 #include "InetUtils.h"

 #include <lib/support/CodeUtils.h>
 #include <lib/support/logging/CHIPLogging.h>

 #ifdef CONFIG_CHIP_FACTORY_RESET_ERASE_NVS
 #include <zephyr/fs/nvs.h>
 #include <zephyr/settings/settings.h>
 #endif

 namespace chip {
 namespace DeviceLayer {

 using namespace ::chip::DeviceLayer::Internal;

 ConfigurationManagerImpl & ConfigurationManagerImpl::GetDefaultInstance()
 {
     static ConfigurationManagerImpl sInstance;
     return sInstance;
 }

 CHIP_ERROR ConfigurationManagerImpl::Init()
 {
     CHIP_ERROR err;
     uint32_t rebootCount;

     // Initialize the generic implementation base class.
     err = Internal::GenericConfigurationManagerImpl<ZephyrConfig>::Init();
     SuccessOrExit(err);

     if (ZephyrConfig::ConfigValueExists(ZephyrConfig::kCounterKey_RebootCount))
     {
         err = GetRebootCount(rebootCount);
         SuccessOrExit(err);

         // Do not increment reboot count if the value is going to overflow UINT16.
         err = StoreRebootCount(rebootCount < UINT16_MAX ? rebootCount + 1 : rebootCount);
         SuccessOrExit(err);
     }
     else
     {
         // The first boot after factory reset of the Node.
         err = StoreRebootCount(1);
         SuccessOrExit(err);
     }

     err = CHIP_NO_ERROR;

 exit:
     return err;
 }

 CHIP_ERROR ConfigurationManagerImpl::GetRebootCount(uint32_t & rebootCount)
 {
     return ReadConfigValue(ZephyrConfig::kCounterKey_RebootCount, rebootCount);
 }

 CHIP_ERROR ConfigurationManagerImpl::StoreRebootCount(uint32_t rebootCount)
 {
     return WriteConfigValue(ZephyrConfig::kCounterKey_RebootCount, rebootCount);
 }

 CHIP_ERROR ConfigurationManagerImpl::GetTotalOperationalHours(uint32_t & totalOperationalHours)
 {
     if (!ZephyrConfig::ConfigValueExists(ZephyrConfig::kCounterKey_TotalOperationalHours))
     {
         totalOperationalHours = 0;
         return CHIP_NO_ERROR;
     }

     return ZephyrConfig::ReadConfigValue(ZephyrConfig::kCounterKey_TotalOperationalHours, totalOperationalHours);
 }

 CHIP_ERROR ConfigurationManagerImpl::StoreTotalOperationalHours(uint32_t totalOperationalHours)
 {
     return ZephyrConfig::WriteConfigValue(ZephyrConfig::kCounterKey_TotalOperationalHours, totalOperationalHours);
 }

 void ConfigurationManagerImpl::InitiateFactoryReset()
 {
     PlatformMgr().ScheduleWork(DoFactoryReset);
 }

 CHIP_ERROR ConfigurationManagerImpl::ReadConfigValue(Key key, bool & val)
 {
     return ZephyrConfig::ReadConfigValue(key, val);
 }

 CHIP_ERROR ConfigurationManagerImpl::ReadConfigValue(Key key, uint32_t & val)
 {
     return ZephyrConfig::ReadConfigValue(key, val);
 }

 CHIP_ERROR ConfigurationManagerImpl::ReadConfigValue(Key key, uint64_t & val)
 {
     return ZephyrConfig::ReadConfigValue(key, val);
 }

 CHIP_ERROR ConfigurationManagerImpl::ReadConfigValueStr(Key key, char * buf, size_t bufSize, size_t & outLen)
 {
     return ZephyrConfig::ReadConfigValueStr(key, buf, bufSize, outLen);
 }

 CHIP_ERROR ConfigurationManagerImpl::ReadConfigValueBin(Key key, uint8_t * buf, size_t bufSize, size_t & outLen)
 {
     return ZephyrConfig::ReadConfigValueBin(key, buf, bufSize, outLen);
 }

 CHIP_ERROR ConfigurationManagerImpl::WriteConfigValue(Key key, bool val)
 {
     return ZephyrConfig::WriteConfigValue(key, val);
 }

 CHIP_ERROR ConfigurationManagerImpl::WriteConfigValue(Key key, uint32_t val)
 {
     return ZephyrConfig::WriteConfigValue(key, val);
 }

 CHIP_ERROR ConfigurationManagerImpl::WriteConfigValue(Key key, uint64_t val)
 {
     return ZephyrConfig::WriteConfigValue(key, val);
 }

 CHIP_ERROR ConfigurationManagerImpl::WriteConfigValueStr(Key key, const char * str)
 {
     return ZephyrConfig::WriteConfigValueStr(key, str);
 }

 CHIP_ERROR ConfigurationManagerImpl::WriteConfigValueStr(Key key, const char * str, size_t strLen)
 {
     return ZephyrConfig::WriteConfigValueStr(key, str, strLen);
 }

 CHIP_ERROR ConfigurationManagerImpl::WriteConfigValueBin(Key key, const uint8_t * data, size_t dataLen)
 {
     return ZephyrConfig::WriteConfigValueBin(key, data, dataLen);
 }

 void ConfigurationManagerImpl::RunConfigUnitTest(void)
 {
     ZephyrConfig::RunConfigUnitTest();
 }

 void ConfigurationManagerImpl::DoFactoryReset(intptr_t arg)
 {
     ChipLogProgress(DeviceLayer, "Performing factory reset");

 #ifdef CONFIG_CHIP_FACTORY_RESET_ERASE_NVS
     void * storage = nullptr;
     int status     = settings_storage_get(&storage);

     if (status == 0)
     {
         status = nvs_clear(static_cast<nvs_fs *>(storage));
     }

     if (status)
     {
         ChipLogError(DeviceLayer, "Factory reset failed: %d", status);
     }
 #else
     const CHIP_ERROR err = PersistedStorage::KeyValueStoreMgrImpl().DoFactoryReset();

     if (err != CHIP_NO_ERROR)
     {
         ChipLogError(DeviceLayer, "Factory reset failed: %" CHIP_ERROR_FORMAT, err.Format());
     }

     ConnectivityMgr().ErasePersistentInfo();
 #endif

     PlatformMgr().Shutdown();
 }

 CHIP_ERROR ConfigurationManagerImpl::GetPrimaryWiFiMACAddress(uint8_t * buf)
 {
 #if CHIP_DEVICE_CONFIG_ENABLE_WIFI
     const net_if * const iface = InetUtils::GetInterface();
     VerifyOrReturnError(iface != nullptr && iface->if_dev != nullptr, CHIP_ERROR_INTERNAL);

     const auto linkAddrStruct = iface->if_dev->link_addr;
     memcpy(buf, linkAddrStruct.addr, linkAddrStruct.len);

     return CHIP_NO_ERROR;
 #else
     return CHIP_ERROR_UNSUPPORTED_CHIP_FEATURE;
 #endif
 }

 ConfigurationManager & ConfigurationMgrImpl()
 {
     return ConfigurationManagerImpl::GetDefaultInstance();
 }

 } // namespace DeviceLayer
 } // namespace chip
	/*
	*
	* Copyright (c) 2020 Project CHIP Authors
	*
	* 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.
	*/

	/**
	* @file
	* Provides the implementation of the Device Layer ConfigurationManager object
	* for Zephyr platforms.
	*/

	#include <platform/internal/CHIPDeviceLayerInternal.h>

	#include <platform/ConfigurationManager.h>
	#include <platform/internal/GenericConfigurationManagerImpl.ipp>

	#include <lib/core/CHIPVendorIdentifiers.hpp>

	#include <platform/Zephyr/ZephyrConfig.h>

	#include "InetUtils.h"

	#include <lib/support/CodeUtils.h>
	#include <lib/support/logging/CHIPLogging.h>

	#ifdef CONFIG_CHIP_FACTORY_RESET_ERASE_NVS
	#include <zephyr/fs/nvs.h>
	#include <zephyr/settings/settings.h>
	#endif

	namespace chip {
	namespace DeviceLayer {

	using namespace ::chip::DeviceLayer::Internal;

	ConfigurationManagerImpl & ConfigurationManagerImpl::GetDefaultInstance()
	{
	static ConfigurationManagerImpl sInstance;
	return sInstance;
	}

	CHIP_ERROR ConfigurationManagerImpl::Init()
	{
	CHIP_ERROR err;
	uint32_t rebootCount;

	// Initialize the generic implementation base class.
	err = Internal::GenericConfigurationManagerImpl<ZephyrConfig>::Init();
	SuccessOrExit(err);

	if (ZephyrConfig::ConfigValueExists(ZephyrConfig::kCounterKey_RebootCount))
	{
	err = GetRebootCount(rebootCount);
	SuccessOrExit(err);

	// Do not increment reboot count if the value is going to overflow UINT16.
	err = StoreRebootCount(rebootCount < UINT16_MAX ? rebootCount + 1 : rebootCount);
	SuccessOrExit(err);
	}
	else
	{
	// The first boot after factory reset of the Node.
	err = StoreRebootCount(1);
	SuccessOrExit(err);
	}

	err = CHIP_NO_ERROR;

	exit:
	return err;
	}

	CHIP_ERROR ConfigurationManagerImpl::GetRebootCount(uint32_t & rebootCount)
	{
	return ReadConfigValue(ZephyrConfig::kCounterKey_RebootCount, rebootCount);
	}

	CHIP_ERROR ConfigurationManagerImpl::StoreRebootCount(uint32_t rebootCount)
	{
	return WriteConfigValue(ZephyrConfig::kCounterKey_RebootCount, rebootCount);
	}

	CHIP_ERROR ConfigurationManagerImpl::GetTotalOperationalHours(uint32_t & totalOperationalHours)
	{
	if (!ZephyrConfig::ConfigValueExists(ZephyrConfig::kCounterKey_TotalOperationalHours))
	{
	totalOperationalHours = 0;
	return CHIP_NO_ERROR;
	}

	return ZephyrConfig::ReadConfigValue(ZephyrConfig::kCounterKey_TotalOperationalHours, totalOperationalHours);
	}

	CHIP_ERROR ConfigurationManagerImpl::StoreTotalOperationalHours(uint32_t totalOperationalHours)
	{
	return ZephyrConfig::WriteConfigValue(ZephyrConfig::kCounterKey_TotalOperationalHours, totalOperationalHours);
	}

	void ConfigurationManagerImpl::InitiateFactoryReset()
	{
	PlatformMgr().ScheduleWork(DoFactoryReset);
	}

	CHIP_ERROR ConfigurationManagerImpl::ReadConfigValue(Key key, bool & val)
	{
	return ZephyrConfig::ReadConfigValue(key, val);
	}

	CHIP_ERROR ConfigurationManagerImpl::ReadConfigValue(Key key, uint32_t & val)
	{
	return ZephyrConfig::ReadConfigValue(key, val);
	}

	CHIP_ERROR ConfigurationManagerImpl::ReadConfigValue(Key key, uint64_t & val)
	{
	return ZephyrConfig::ReadConfigValue(key, val);
	}

	CHIP_ERROR ConfigurationManagerImpl::ReadConfigValueStr(Key key, char * buf, size_t bufSize, size_t & outLen)
	{
	return ZephyrConfig::ReadConfigValueStr(key, buf, bufSize, outLen);
	}

	CHIP_ERROR ConfigurationManagerImpl::ReadConfigValueBin(Key key, uint8_t * buf, size_t bufSize, size_t & outLen)
	{
	return ZephyrConfig::ReadConfigValueBin(key, buf, bufSize, outLen);
	}

	CHIP_ERROR ConfigurationManagerImpl::WriteConfigValue(Key key, bool val)
	{
	return ZephyrConfig::WriteConfigValue(key, val);
	}

	CHIP_ERROR ConfigurationManagerImpl::WriteConfigValue(Key key, uint32_t val)
	{
	return ZephyrConfig::WriteConfigValue(key, val);
	}

	CHIP_ERROR ConfigurationManagerImpl::WriteConfigValue(Key key, uint64_t val)
	{
	return ZephyrConfig::WriteConfigValue(key, val);
	}

	CHIP_ERROR ConfigurationManagerImpl::WriteConfigValueStr(Key key, const char * str)
	{
	return ZephyrConfig::WriteConfigValueStr(key, str);
	}

	CHIP_ERROR ConfigurationManagerImpl::WriteConfigValueStr(Key key, const char * str, size_t strLen)
	{
	return ZephyrConfig::WriteConfigValueStr(key, str, strLen);
	}

	CHIP_ERROR ConfigurationManagerImpl::WriteConfigValueBin(Key key, const uint8_t * data, size_t dataLen)
	{
	return ZephyrConfig::WriteConfigValueBin(key, data, dataLen);
	}

	void ConfigurationManagerImpl::RunConfigUnitTest(void)
	{
	ZephyrConfig::RunConfigUnitTest();
	}

	void ConfigurationManagerImpl::DoFactoryReset(intptr_t arg)
	{
	ChipLogProgress(DeviceLayer, "Performing factory reset");

	#ifdef CONFIG_CHIP_FACTORY_RESET_ERASE_NVS
	void * storage = nullptr;
	int status = settings_storage_get(&storage);

	if (status == 0)
	{
	status = nvs_clear(static_cast<nvs_fs *>(storage));
	}

	if (status)
	{
	ChipLogError(DeviceLayer, "Factory reset failed: %d", status);
	}
	#else
	const CHIP_ERROR err = PersistedStorage::KeyValueStoreMgrImpl().DoFactoryReset();

	if (err != CHIP_NO_ERROR)
	{
	ChipLogError(DeviceLayer, "Factory reset failed: %" CHIP_ERROR_FORMAT, err.Format());
	}

	ConnectivityMgr().ErasePersistentInfo();
	#endif

	PlatformMgr().Shutdown();
	}

	CHIP_ERROR ConfigurationManagerImpl::GetPrimaryWiFiMACAddress(uint8_t * buf)
	{
	#if CHIP_DEVICE_CONFIG_ENABLE_WIFI
	const net_if * const iface = InetUtils::GetInterface();
	VerifyOrReturnError(iface != nullptr && iface->if_dev != nullptr, CHIP_ERROR_INTERNAL);

	const auto linkAddrStruct = iface->if_dev->link_addr;
	memcpy(buf, linkAddrStruct.addr, linkAddrStruct.len);

	return CHIP_NO_ERROR;
	#else
	return CHIP_ERROR_UNSUPPORTED_CHIP_FEATURE;
	#endif
	}

	ConfigurationManager & ConfigurationMgrImpl()
	{
	return ConfigurationManagerImpl::GetDefaultInstance();
	}

	} // namespace DeviceLayer
	} // namespace chip