src/transport/raw/Tuple.h - 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
  *
  * Defines a compound transport type (tuple) that can merge several transports
  * to look like a single one.
  */
 #pragma once

 #include <tuple>
 #include <type_traits>

 #include <transport/raw/Base.h>

 namespace chip {
 namespace Transport {

 /**
  * Groups together several transports of different types and presents them as a unified transport.
  *
  * The usage intent is to be able to group several distinct transport types and make them look
  * as a single transport.
  *
  * Having an example class definition of `Tuple<UDP, UDP, TCP>`
  *
  * Is equivalent to:
  *
  * ~~~~~~~~~
  *    class TupleOfUdpUdpTcp : public BASE {
  *       private:
  *          UDP mUdp1;
  *          UDP mUdp2;
  *          TCP mTcp3;
  *       public:
  *          Init(UDPListenParameters &, UDPListenParameters&, TCPListenParameters) {...}
  *          CHIP_ERROR SendMessage(...) override;
  *          bool CanSendToPeer(...) override;
  *    }
  * ~~~~~~~~~
  *
  * The intent of this is to allow applications to use any transport types without CHIP pre-defining
  * popular mappings (like UDP only, UDP and BLE, BLE only etc.) and without using \#ifdefs to create
  * a single 'standard transport'.
  *
  * Transport logic:
  *   - Every transport can decide if a 'PeerAddress' can be sent over 'self'
  *
  *   - Within a mixed tuple, if several transports support a peer address (e.g. TCP and UDP both
  *     support IP), the first one found wins.
  *
  *   - Expected message sending logic:
  *     - BLE transports only support BLE. TCP/UDP support IP addresses
  *     - Multicasts only supported by UDP
  *
  * @tparam TransportTypes the ORDERED list of transport types grouped together. Order matters in
  *         determining what transport is used when multiple transports can reach a Peer.
  *
  * Transports (TransportTypes) are assumed to have an Init call with EXACTLY one argument and returning
  * a CHIP_ERROR, with a signature like:
  *
  *    CHIP_ERROR Init(AnyType);
  *
  */
 template <typename... TransportTypes>
 class Tuple : public Base
 {
 public:
     CHIP_ERROR SendMessage(const PeerAddress & address, System::PacketBufferHandle && msgBuf) override
     {
         return SendMessageImpl<0>(address, std::move(msgBuf));
     }

     CHIP_ERROR MulticastGroupJoinLeave(const Transport::PeerAddress & address, bool join) override
     {
         return MulticastGroupJoinLeaveImpl<0>(address, join);
     }

     bool CanSendToPeer(const PeerAddress & address) override { return CanSendToPeerImpl<0>(address); }

     void Disconnect(const PeerAddress & address) override { return DisconnectImpl<0>(address); }

     void Close() override { return CloseImpl<0>(); }

     /**
      * Initialization method that forwards arguments for initialization to each of the underlying
      * transports.
      *
      * Transports are assumed to have an Init call with EXACTLY one argument. This method MUST initialize
      * all underlying transports.
      *
      * @param delegate the delegate to handle messages.
      * @param args     initialization arguments, forwarded as-is to the underlying transports.
      */
     template <typename... Args, typename std::enable_if<(sizeof...(Args) == sizeof...(TransportTypes))>::type * = nullptr>
     CHIP_ERROR Init(RawTransportDelegate * delegate, Args &&... args)
     {
         return InitImpl(delegate, std::forward<Args>(args)...);
     }

 private:
     /**
      * Recursive cansend implementation iterating through transport members.
      *
      * Will return true if any transport with index N and up can CanSendToPeer(address);
      *
      * @tparam N the index of the underlying transport to check for CanSendToPeer
      *
      * @param address what address to check.
      */
     template <size_t N, typename std::enable_if<(N < sizeof...(TransportTypes))>::type * = nullptr>
     bool CanSendToPeerImpl(const PeerAddress & address)
     {
         return std::get<N>(mTransports).CanSendToPeer(address) || CanSendToPeerImpl<N + 1>(address);
     }

     /**
      * CanSend template for out of range N. Always returns false.
      */
     template <size_t N, typename std::enable_if<(N >= sizeof...(TransportTypes))>::type * = nullptr>
     bool CanSendToPeerImpl(const PeerAddress & address)
     {
         return false;
     }

     /**
      * Recursive disconnect implementation iterating through transport members.
      *
      * @tparam N the index of the underlying transport to send disconnect to
      *
      * @param address what address to check.
      */
     template <size_t N, typename std::enable_if<(N < sizeof...(TransportTypes))>::type * = nullptr>
     void DisconnectImpl(const PeerAddress & address)
     {
         std::get<N>(mTransports).Disconnect(address);
         DisconnectImpl<N + 1>(address);
     }

     /**
      * DisconnectImpl template for out of range N.
      */
     template <size_t N, typename std::enable_if<(N >= sizeof...(TransportTypes))>::type * = nullptr>
     void DisconnectImpl(const PeerAddress & address)
     {}

     /**
      * Recursive disconnect implementation iterating through transport members.
      *
      * @tparam N the index of the underlying transport to send close to
      */
     template <size_t N, typename std::enable_if<(N < sizeof...(TransportTypes))>::type * = nullptr>
     void CloseImpl()
     {
         std::get<N>(mTransports).Close();
         CloseImpl<N + 1>();
     }

     /**
      * CloseImpl template for out of range N.
      */
     template <size_t N, typename std::enable_if<(N >= sizeof...(TransportTypes))>::type * = nullptr>
     void CloseImpl()
     {}

     /**
      * Recursive sendmessage implementation iterating through transport members.
      *
      * Message is sent through the first transport from index N or above, which returns 'CanSendToPeer'
      *
      * @tparam N the index of the underlying transport to run SendMessage throug.
      *
      * @param address where to send the message
      * @param msgBuf the message to send.  Includes all CHIP message fields except optional length.
      */
     template <size_t N, typename std::enable_if<(N < sizeof...(TransportTypes))>::type * = nullptr>
     CHIP_ERROR SendMessageImpl(const PeerAddress & address, System::PacketBufferHandle && msgBuf)
     {
         Base * base = &std::get<N>(mTransports);
         if (base->CanSendToPeer(address))
         {
             return base->SendMessage(address, std::move(msgBuf));
         }
         return SendMessageImpl<N + 1>(address, std::move(msgBuf));
     }

     /**
      * SendMessageImpl when N is out of range. Always returns an error code.
      */
     template <size_t N, typename std::enable_if<(N >= sizeof...(TransportTypes))>::type * = nullptr>
     CHIP_ERROR SendMessageImpl(const PeerAddress & address, System::PacketBufferHandle msgBuf)
     {
         return CHIP_ERROR_NO_MESSAGE_HANDLER;
     }

     /**
      * Recursive GroupJoinLeave implementation iterating through transport members.
      *
      * Listener is activated through the first transport from index N or above, which returns 'CanListenMulticast'
      *
      * @tparam N the index of the underlying transport to run GroupJoinLeave through.
      *
      * @param address where to send the message
      * @param join a boolean indicating if the transport should join or leave the group
      */
     template <size_t N, typename std::enable_if<(N < sizeof...(TransportTypes))>::type * = nullptr>
     CHIP_ERROR MulticastGroupJoinLeaveImpl(const Transport::PeerAddress & address, bool join)
     {
         Base * base = &std::get<N>(mTransports);
         if (base->CanListenMulticast())
         {
             return base->MulticastGroupJoinLeave(address, join);
         }
         return MulticastGroupJoinLeaveImpl<N + 1>(address, join);
     }

     /**
      * GroupJoinLeave when N is out of range. Always returns an error code.
      */
     template <size_t N, typename std::enable_if<(N >= sizeof...(TransportTypes))>::type * = nullptr>
     CHIP_ERROR MulticastGroupJoinLeaveImpl(const Transport::PeerAddress & address, bool join)
     {
         return CHIP_ERROR_NO_MESSAGE_HANDLER;
     }

     /**
      * Recursive init implementation iterating through transport members
      *
      * Given a set of arguments 'a1, a2, a3, ... aN' will call an Init method on the last N
      * transports.
      *
      * Method is expected to be called initially with exactly sizeof(TransportTypes) to initialize
      * all transports.
      *
      * @param arg the next initialize argument to pass to the transport Init method
      * @param rest tail arguments to be passed to the rest of transport Init methods.
      */
     template <typename InitArg, typename... Rest>
     CHIP_ERROR InitImpl(RawTransportDelegate * delegate, InitArg && arg, Rest &&... rest)
     {
         auto transport = &std::get<sizeof...(TransportTypes) - sizeof...(Rest) - 1>(mTransports);

         CHIP_ERROR err = transport->Init(std::forward<InitArg>(arg));
         if (err != CHIP_NO_ERROR)
         {
             return err;
         }

         transport->SetDelegate(delegate);

         return InitImpl(delegate, std::forward<Rest>(rest)...);
     }

     /**
      * Base case where initialization finishes.
      *
      * Provided to ensure that recursive InitImpl finishes compiling.
      */
     CHIP_ERROR InitImpl(RawTransportDelegate * delegate) { return CHIP_NO_ERROR; }

     std::tuple<TransportTypes...> mTransports;

 public:
     template <size_t i>
     auto GetImplAtIndex() -> decltype(std::get<i>(mTransports)) &
     {
         return std::get<i>(mTransports);
     }

     std::tuple<TransportTypes...> & GetTransports() { return mTransports; }
 };

 } // namespace Transport
 } // 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
	*
	* Defines a compound transport type (tuple) that can merge several transports
	* to look like a single one.
	*/
	#pragma once

	#include <tuple>
	#include <type_traits>

	#include <transport/raw/Base.h>

	namespace chip {
	namespace Transport {

	/**
	* Groups together several transports of different types and presents them as a unified transport.
	*
	* The usage intent is to be able to group several distinct transport types and make them look
	* as a single transport.
	*
	* Having an example class definition of `Tuple<UDP, UDP, TCP>`
	*
	* Is equivalent to:
	*
	* ~~~~~~~~~
	* class TupleOfUdpUdpTcp : public BASE {
	* private:
	* UDP mUdp1;
	* UDP mUdp2;
	* TCP mTcp3;
	* public:
	* Init(UDPListenParameters &, UDPListenParameters&, TCPListenParameters) {...}
	* CHIP_ERROR SendMessage(...) override;
	* bool CanSendToPeer(...) override;
	* }
	* ~~~~~~~~~
	*
	* The intent of this is to allow applications to use any transport types without CHIP pre-defining
	* popular mappings (like UDP only, UDP and BLE, BLE only etc.) and without using \#ifdefs to create
	* a single 'standard transport'.
	*
	* Transport logic:
	* - Every transport can decide if a 'PeerAddress' can be sent over 'self'
	*
	* - Within a mixed tuple, if several transports support a peer address (e.g. TCP and UDP both
	* support IP), the first one found wins.
	*
	* - Expected message sending logic:
	* - BLE transports only support BLE. TCP/UDP support IP addresses
	* - Multicasts only supported by UDP
	*
	* @tparam TransportTypes the ORDERED list of transport types grouped together. Order matters in
	* determining what transport is used when multiple transports can reach a Peer.
	*
	* Transports (TransportTypes) are assumed to have an Init call with EXACTLY one argument and returning
	* a CHIP_ERROR, with a signature like:
	*
	* CHIP_ERROR Init(AnyType);
	*
	*/
	template <typename... TransportTypes>
	class Tuple : public Base
	{
	public:
	CHIP_ERROR SendMessage(const PeerAddress & address, System::PacketBufferHandle && msgBuf) override
	{
	return SendMessageImpl<0>(address, std::move(msgBuf));
	}

	CHIP_ERROR MulticastGroupJoinLeave(const Transport::PeerAddress & address, bool join) override
	{
	return MulticastGroupJoinLeaveImpl<0>(address, join);
	}

	bool CanSendToPeer(const PeerAddress & address) override { return CanSendToPeerImpl<0>(address); }

	void Disconnect(const PeerAddress & address) override { return DisconnectImpl<0>(address); }

	void Close() override { return CloseImpl<0>(); }

	/**
	* Initialization method that forwards arguments for initialization to each of the underlying
	* transports.
	*
	* Transports are assumed to have an Init call with EXACTLY one argument. This method MUST initialize
	* all underlying transports.
	*
	* @param delegate the delegate to handle messages.
	* @param args initialization arguments, forwarded as-is to the underlying transports.
	*/
	template <typename... Args, typename std::enable_if<(sizeof...(Args) == sizeof...(TransportTypes))>::type * = nullptr>
	CHIP_ERROR Init(RawTransportDelegate * delegate, Args &&... args)
	{
	return InitImpl(delegate, std::forward<Args>(args)...);
	}

	private:
	/**
	* Recursive cansend implementation iterating through transport members.
	*
	* Will return true if any transport with index N and up can CanSendToPeer(address);
	*
	* @tparam N the index of the underlying transport to check for CanSendToPeer
	*
	* @param address what address to check.
	*/
	template <size_t N, typename std::enable_if<(N < sizeof...(TransportTypes))>::type * = nullptr>
	bool CanSendToPeerImpl(const PeerAddress & address)
	{
	return std::get<N>(mTransports).CanSendToPeer(address) \|\| CanSendToPeerImpl<N + 1>(address);
	}

	/**
	* CanSend template for out of range N. Always returns false.
	*/
	template <size_t N, typename std::enable_if<(N >= sizeof...(TransportTypes))>::type * = nullptr>
	bool CanSendToPeerImpl(const PeerAddress & address)
	{
	return false;
	}

	/**
	* Recursive disconnect implementation iterating through transport members.
	*
	* @tparam N the index of the underlying transport to send disconnect to
	*
	* @param address what address to check.
	*/
	template <size_t N, typename std::enable_if<(N < sizeof...(TransportTypes))>::type * = nullptr>
	void DisconnectImpl(const PeerAddress & address)
	{
	std::get<N>(mTransports).Disconnect(address);
	DisconnectImpl<N + 1>(address);
	}

	/**
	* DisconnectImpl template for out of range N.
	*/
	template <size_t N, typename std::enable_if<(N >= sizeof...(TransportTypes))>::type * = nullptr>
	void DisconnectImpl(const PeerAddress & address)
	{}

	/**
	* Recursive disconnect implementation iterating through transport members.
	*
	* @tparam N the index of the underlying transport to send close to
	*/
	template <size_t N, typename std::enable_if<(N < sizeof...(TransportTypes))>::type * = nullptr>
	void CloseImpl()
	{
	std::get<N>(mTransports).Close();
	CloseImpl<N + 1>();
	}

	/**
	* CloseImpl template for out of range N.
	*/
	template <size_t N, typename std::enable_if<(N >= sizeof...(TransportTypes))>::type * = nullptr>
	void CloseImpl()
	{}

	/**
	* Recursive sendmessage implementation iterating through transport members.
	*
	* Message is sent through the first transport from index N or above, which returns 'CanSendToPeer'
	*
	* @tparam N the index of the underlying transport to run SendMessage throug.
	*
	* @param address where to send the message
	* @param msgBuf the message to send. Includes all CHIP message fields except optional length.
	*/
	template <size_t N, typename std::enable_if<(N < sizeof...(TransportTypes))>::type * = nullptr>
	CHIP_ERROR SendMessageImpl(const PeerAddress & address, System::PacketBufferHandle && msgBuf)
	{
	Base * base = &std::get<N>(mTransports);
	if (base->CanSendToPeer(address))
	{
	return base->SendMessage(address, std::move(msgBuf));
	}
	return SendMessageImpl<N + 1>(address, std::move(msgBuf));
	}

	/**
	* SendMessageImpl when N is out of range. Always returns an error code.
	*/
	template <size_t N, typename std::enable_if<(N >= sizeof...(TransportTypes))>::type * = nullptr>
	CHIP_ERROR SendMessageImpl(const PeerAddress & address, System::PacketBufferHandle msgBuf)
	{
	return CHIP_ERROR_NO_MESSAGE_HANDLER;
	}

	/**
	* Recursive GroupJoinLeave implementation iterating through transport members.
	*
	* Listener is activated through the first transport from index N or above, which returns 'CanListenMulticast'
	*
	* @tparam N the index of the underlying transport to run GroupJoinLeave through.
	*
	* @param address where to send the message
	* @param join a boolean indicating if the transport should join or leave the group
	*/
	template <size_t N, typename std::enable_if<(N < sizeof...(TransportTypes))>::type * = nullptr>
	CHIP_ERROR MulticastGroupJoinLeaveImpl(const Transport::PeerAddress & address, bool join)
	{
	Base * base = &std::get<N>(mTransports);
	if (base->CanListenMulticast())
	{
	return base->MulticastGroupJoinLeave(address, join);
	}
	return MulticastGroupJoinLeaveImpl<N + 1>(address, join);
	}

	/**
	* GroupJoinLeave when N is out of range. Always returns an error code.
	*/
	template <size_t N, typename std::enable_if<(N >= sizeof...(TransportTypes))>::type * = nullptr>
	CHIP_ERROR MulticastGroupJoinLeaveImpl(const Transport::PeerAddress & address, bool join)
	{
	return CHIP_ERROR_NO_MESSAGE_HANDLER;
	}

	/**
	* Recursive init implementation iterating through transport members
	*
	* Given a set of arguments 'a1, a2, a3, ... aN' will call an Init method on the last N
	* transports.
	*
	* Method is expected to be called initially with exactly sizeof(TransportTypes) to initialize
	* all transports.
	*
	* @param arg the next initialize argument to pass to the transport Init method
	* @param rest tail arguments to be passed to the rest of transport Init methods.
	*/
	template <typename InitArg, typename... Rest>
	CHIP_ERROR InitImpl(RawTransportDelegate * delegate, InitArg && arg, Rest &&... rest)
	{
	auto transport = &std::get<sizeof...(TransportTypes) - sizeof...(Rest) - 1>(mTransports);

	CHIP_ERROR err = transport->Init(std::forward<InitArg>(arg));
	if (err != CHIP_NO_ERROR)
	{
	return err;
	}

	transport->SetDelegate(delegate);

	return InitImpl(delegate, std::forward<Rest>(rest)...);
	}

	/**
	* Base case where initialization finishes.
	*
	* Provided to ensure that recursive InitImpl finishes compiling.
	*/
	CHIP_ERROR InitImpl(RawTransportDelegate * delegate) { return CHIP_NO_ERROR; }

	std::tuple<TransportTypes...> mTransports;

	public:
	template <size_t i>
	auto GetImplAtIndex() -> decltype(std::get<i>(mTransports)) &
	{
	return std::get<i>(mTransports);
	}

	std::tuple<TransportTypes...> & GetTransports() { return mTransports; }
	};

	} // namespace Transport
	} // namespace chip