src/include/platform/ThreadStackManager.h

/*
 *
 *    Copyright (c) 2020 Project CHIP Authors
 *    Copyright (c) 2019 Nest Labs, Inc.
 *
 *    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
 *          Defines the public interface for the Device Layer ThreadStackManager object.
 */

#ifndef THREAD_STACK_MANAGER_H
#define THREAD_STACK_MANAGER_H

namespace chip {
namespace DeviceLayer {

class PlatformManagerImpl;
class ThreadStackManagerImpl;
class ConfigurationManagerImpl;

namespace Internal {
class DeviceNetworkInfo;
class DeviceControlServer;
template <class>
class GenericPlatformManagerImpl;
template <class>
class GenericPlatformManagerImpl_FreeRTOS;
template <class>
class GenericConnectivityManagerImpl_Thread;
template <class>
class GenericThreadStackManagerImpl_OpenThread;
template <class>
class GenericThreadStackManagerImpl_OpenThread_LwIP;
template <class>
class GenericThreadStackManagerImpl_FreeRTOS;
template <class>
class GenericNetworkProvisioningServerImpl;
} // namespace Internal

/**
 * Provides features for initializing and interacting with the Thread stack on
 * a chip-enabled device.
 */
class ThreadStackManager
{
    using ImplClass = ThreadStackManagerImpl;

public:
    // ===== Members that define the public interface of the ThreadStackManager

    CHIP_ERROR InitThreadStack(void);
    void ProcessThreadActivity(void);
    CHIP_ERROR StartThreadTask(void);
    void LockThreadStack(void);
    bool TryLockThreadStack(void);
    void UnlockThreadStack(void);
    bool HaveRouteToAddress(const IPAddress & destAddr);
    CHIP_ERROR GetAndLogThreadStatsCounters(void);
    CHIP_ERROR GetAndLogThreadTopologyMinimal(void);
    CHIP_ERROR GetAndLogThreadTopologyFull(void);
    CHIP_ERROR GetPrimary802154MACAddress(uint8_t * buf);

private:
    // ===== Members for internal use by the following friends.

    friend class PlatformManagerImpl;
    friend class ConfigurationManagerImpl;
    friend class Internal::BLEManagerImpl;
    friend class Internal::DeviceControlServer;
    template <class>
    friend class Internal::GenericPlatformManagerImpl;
    template <class>
    friend class Internal::GenericConfigurationManagerImpl;
    template <class>
    friend class Internal::GenericPlatformManagerImpl_FreeRTOS;
    template <class>
    friend class Internal::GenericConnectivityManagerImpl_Thread;
    template <class>
    friend class Internal::GenericThreadStackManagerImpl_OpenThread;
    template <class>
    friend class Internal::GenericThreadStackManagerImpl_OpenThread_LwIP;
    template <class>
    friend class Internal::GenericThreadStackManagerImpl_FreeRTOS;
    template <class>
    friend class Internal::GenericNetworkProvisioningServerImpl;

    void OnPlatformEvent(const ChipDeviceEvent * event);
    bool IsThreadEnabled(void);
    CHIP_ERROR SetThreadEnabled(bool val);
    bool IsThreadProvisioned(void);
    bool IsThreadAttached(void);
    CHIP_ERROR GetThreadProvision(Internal::DeviceNetworkInfo & netInfo, bool includeCredentials);
    CHIP_ERROR SetThreadProvision(const Internal::DeviceNetworkInfo & netInfo);
    void ClearThreadProvision(void);
    ConnectivityManager::ThreadDeviceType GetThreadDeviceType(void);
    CHIP_ERROR SetThreadDeviceType(ConnectivityManager::ThreadDeviceType threadRole);
    void GetThreadPollingConfig(ConnectivityManager::ThreadPollingConfig & pollingConfig);
    CHIP_ERROR SetThreadPollingConfig(const ConnectivityManager::ThreadPollingConfig & pollingConfig);
    bool HaveMeshConnectivity(void);
    void OnMessageLayerActivityChanged(bool messageLayerIsActive);
    void OnCHIPoBLEAdvertisingStart(void);
    void OnCHIPoBLEAdvertisingStop(void);

protected:
    // Construction/destruction limited to subclasses.
    ThreadStackManager()  = default;
    ~ThreadStackManager() = default;

    // No copy, move or assignment.
    ThreadStackManager(const ThreadStackManager &)  = delete;
    ThreadStackManager(const ThreadStackManager &&) = delete;
    ThreadStackManager & operator=(const ThreadStackManager &) = delete;
};

/**
 * Returns the public interface of the ThreadStackManager singleton object.
 *
 * chip applications should use this to access features of the ThreadStackManager object
 * that are common to all platforms.
 */
extern ThreadStackManager & ThreadStackMgr(void);

/**
 * Returns the platform-specific implementation of the ThreadStackManager singleton object.
 *
 * chip applications can use this to gain access to features of the ThreadStackManager
 * that are specific to the selected platform.
 */
extern ThreadStackManagerImpl & ThreadStackMgrImpl(void);

} // namespace DeviceLayer
} // namespace chip

/* Include a header file containing the implementation of the ThreadStackManager
 * object for the selected platform.
 */
#ifdef EXTERNAL_THREADSTACKMANAGERIMPL_HEADER
#include EXTERNAL_THREADSTACKMANAGERIMPL_HEADER
#else
#define THREADSTACKMANAGERIMPL_HEADER <platform/CHIP_DEVICE_LAYER_TARGET/ThreadStackManagerImpl.h>
#include THREADSTACKMANAGERIMPL_HEADER
#endif

namespace chip {
namespace DeviceLayer {

inline CHIP_ERROR ThreadStackManager::InitThreadStack()
{
    return static_cast<ImplClass *>(this)->_InitThreadStack();
}

inline void ThreadStackManager::ProcessThreadActivity()
{
    static_cast<ImplClass *>(this)->_ProcessThreadActivity();
}

inline CHIP_ERROR ThreadStackManager::StartThreadTask()
{
    return static_cast<ImplClass *>(this)->_StartThreadTask();
}

inline void ThreadStackManager::LockThreadStack()
{
    static_cast<ImplClass *>(this)->_LockThreadStack();
}

inline bool ThreadStackManager::TryLockThreadStack()
{
    return static_cast<ImplClass *>(this)->_TryLockThreadStack();
}

inline void ThreadStackManager::UnlockThreadStack()
{
    static_cast<ImplClass *>(this)->_UnlockThreadStack();
}

/**
 * Determines whether a route exists via the Thread interface to the specified destination address.
 */
inline bool ThreadStackManager::HaveRouteToAddress(const IPAddress & destAddr)
{
    return static_cast<ImplClass *>(this)->_HaveRouteToAddress(destAddr);
}

inline void ThreadStackManager::OnPlatformEvent(const chipDeviceEvent * event)
{
    static_cast<ImplClass *>(this)->_OnPlatformEvent(event);
}

inline bool ThreadStackManager::IsThreadEnabled(void)
{
    return static_cast<ImplClass *>(this)->_IsThreadEnabled();
}

inline CHIP_ERROR ThreadStackManager::SetThreadEnabled(bool val)
{
    return static_cast<ImplClass *>(this)->_SetThreadEnabled(val);
}

inline bool ThreadStackManager::IsThreadProvisioned(void)
{
    return static_cast<ImplClass *>(this)->_IsThreadProvisioned();
}

inline bool ThreadStackManager::IsThreadAttached(void)
{
    return static_cast<ImplClass *>(this)->_IsThreadAttached();
}

inline CHIP_ERROR ThreadStackManager::GetThreadProvision(Internal::DeviceNetworkInfo & netInfo, bool includeCredentials)
{
    return static_cast<ImplClass *>(this)->_GetThreadProvision(netInfo, includeCredentials);
}

inline CHIP_ERROR ThreadStackManager::SetThreadProvision(const Internal::DeviceNetworkInfo & netInfo)
{
    return static_cast<ImplClass *>(this)->_SetThreadProvision(netInfo);
}

inline void ThreadStackManager::ClearThreadProvision(void)
{
    static_cast<ImplClass *>(this)->_ClearThreadProvision();
}

inline ConnectivityManager::ThreadDeviceType ThreadStackManager::GetThreadDeviceType(void)
{
    return static_cast<ImplClass *>(this)->_GetThreadDeviceType();
}

inline CHIP_ERROR ThreadStackManager::SetThreadDeviceType(ConnectivityManager::ThreadDeviceType deviceType)
{
    return static_cast<ImplClass *>(this)->_SetThreadDeviceType(deviceType);
}

inline void ThreadStackManager::GetThreadPollingConfig(ConnectivityManager::ThreadPollingConfig & pollingConfig)
{
    static_cast<ImplClass *>(this)->_GetThreadPollingConfig(pollingConfig);
}

inline CHIP_ERROR ThreadStackManager::SetThreadPollingConfig(const ConnectivityManager::ThreadPollingConfig & pollingConfig)
{
    return static_cast<ImplClass *>(this)->_SetThreadPollingConfig(pollingConfig);
}

inline bool ThreadStackManager::HaveMeshConnectivity(void)
{
    return static_cast<ImplClass *>(this)->_HaveMeshConnectivity();
}

inline void ThreadStackManager::OnMessageLayerActivityChanged(bool messageLayerIsActive)
{
    return static_cast<ImplClass *>(this)->_OnMessageLayerActivityChanged(messageLayerIsActive);
}

inline void ThreadStackManager::OnCHIPoBLEAdvertisingStart(void)
{
    static_cast<ImplClass *>(this)->_OnCHIPoBLEAdvertisingStart();
}

inline void ThreadStackManager::OnCHIPoBLEAdvertisingStop(void)
{
    static_cast<ImplClass *>(this)->_OnCHIPoBLEAdvertisingStop();
}

inline CHIP_ERROR ThreadStackManager::GetAndLogThreadStatsCounters(void)
{
    return static_cast<ImplClass *>(this)->_GetAndLogThreadStatsCounters();
}

inline CHIP_ERROR ThreadStackManager::GetAndLogThreadTopologyMinimal(void)
{
    return static_cast<ImplClass *>(this)->_GetAndLogThreadTopologyMinimal();
}

inline CHIP_ERROR ThreadStackManager::GetAndLogThreadTopologyFull(void)
{
    return static_cast<ImplClass *>(this)->_GetAndLogThreadTopologyFull();
}

inline CHIP_ERROR ThreadStackManager::GetPrimary802154MACAddress(uint8_t * buf)
{
    return static_cast<ImplClass *>(this)->_GetPrimary802154MACAddress(buf);
}

} // namespace DeviceLayer
} // namespace chip

#endif // THREAD_STACK_MANAGER_H