src/transport/Session.h - third_party/github/project-chip/connectedhomeip - Git at Google

 /*
  *    Copyright (c) 2021 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.
  */

 #pragma once

 #include <access/SubjectDescriptor.h>
 #include <credentials/FabricTable.h>
 #include <lib/core/CHIPConfig.h>
 #include <lib/core/Optional.h>
 #include <lib/core/PeerId.h>
 #include <lib/core/ScopedNodeId.h>
 #include <lib/support/IntrusiveList.h>
 #include <lib/support/ReferenceCountedHandle.h>
 #include <messaging/ReliableMessageProtocolConfig.h>
 #include <platform/LockTracker.h>
 #include <transport/SessionDelegate.h>
 #include <transport/raw/PeerAddress.h>

 namespace chip {
 namespace Transport {
 class Session;
 } // namespace Transport

 /** @brief
  *    Non-copyable session reference. All SessionHandles are created within SessionManager. It is not allowed to store SessionHandle
  *    anywhere except for function arguments and return values.
  *
  *    SessionHandle is reference counted such that it is never dangling, but there can be a gray period when the session is marked
  *    as pending removal but not actually removed yet. During this period, the handle is functional, but the underlying session
  *    won't be able to be grabbed by any SessionHolder. SessionHandle->IsActiveSession can be used to check if the session is
  *    active.
  */
 class SessionHandle
 {
 public:
     SessionHandle(Transport::Session & session) : mSession(session) {}
     ~SessionHandle() {}

     SessionHandle(const SessionHandle &) = delete;
     SessionHandle operator=(const SessionHandle &) = delete;
     SessionHandle(SessionHandle &&)                = default;
     SessionHandle & operator=(SessionHandle &&) = delete;

     bool operator==(const SessionHandle & that) const { return &mSession.Get() == &that.mSession.Get(); }

     Transport::Session * operator->() const { return mSession.operator->(); }

 private:
     friend class SessionHolder;
     ReferenceCountedHandle<Transport::Session> mSession;
 };

 /** @brief
  *    Managed session reference. The object is used to store a session, the stored session will be automatically
  *    released when the underlying session is released. One must verify it is available before use. The object can be
  *    created using SessionHandle.Grab()
  */
 class SessionHolder : public IntrusiveListNodeBase<>
 {
 public:
     SessionHolder() {}
     SessionHolder(const SessionHandle & handle) { Grab(handle); }
     virtual ~SessionHolder();

     SessionHolder(const SessionHolder &);
     SessionHolder(SessionHolder && that);
     SessionHolder & operator=(const SessionHolder &);
     SessionHolder & operator=(SessionHolder && that);

     virtual void SessionReleased() { Release(); }
     virtual void ShiftToSession(const SessionHandle & session)
     {
         Release();
         Grab(session);
     }

     bool Contains(const SessionHandle & session) const
     {
         return mSession.HasValue() && &mSession.Value().Get() == &session.mSession.Get();
     }

     bool GrabPairingSession(const SessionHandle & session); // Should be only used inside CASE/PASE pairing.
     bool Grab(const SessionHandle & session);
     void Release();

     explicit operator bool() const { return mSession.HasValue(); }
     Optional<SessionHandle> Get() const
     {
         //
         // We cannot return mSession directly even if Optional<SessionHandle> is internally composed of the same bits,
         // since they are not actually equivalent type-wise, and SessionHandle does not permit copy-construction.
         //
         // So, construct a new Optional<SessionHandle> from the underlying Transport::Session reference.
         //
         return mSession.HasValue() ? chip::MakeOptional<SessionHandle>(mSession.Value().Get())
                                    : chip::Optional<SessionHandle>::Missing();
     }

     Transport::Session * operator->() const { return &mSession.Value().Get(); }

     // There is not delegate, nothing to do here
     virtual void DispatchSessionEvent(SessionDelegate::Event event) {}

 protected:
     // Helper for use by the Grab methods.
     void GrabUnchecked(const SessionHandle & session);

     Optional<ReferenceCountedHandle<Transport::Session>> mSession;
 };

 /// @brief Extends SessionHolder to allow propagate SessionDelegate::* events to a given destination
 class SessionHolderWithDelegate : public SessionHolder
 {
 public:
     SessionHolderWithDelegate(SessionDelegate & delegate) : mDelegate(delegate) {}
     SessionHolderWithDelegate(const SessionHandle & handle, SessionDelegate & delegate) : SessionHolder(handle), mDelegate(delegate)
     {}
     operator bool() const { return SessionHolder::operator bool(); }

     void SessionReleased() override
     {
         Release();

         // Note, the session is already cleared during mDelegate.OnSessionReleased
         mDelegate.OnSessionReleased();
     }

     void ShiftToSession(const SessionHandle & session) override
     {
         if (mDelegate.GetNewSessionHandlingPolicy() == SessionDelegate::NewSessionHandlingPolicy::kShiftToNewSession)
             SessionHolder::ShiftToSession(session);
     }

     void DispatchSessionEvent(SessionDelegate::Event event) override { (mDelegate.*event)(); }

 private:
     SessionDelegate & mDelegate;
 };

 namespace Transport {

 class SecureSession;
 class UnauthenticatedSession;
 class IncomingGroupSession;
 class OutgoingGroupSession;

 constexpr System::Clock::Milliseconds32 kMinActiveTime = System::Clock::Milliseconds32(4000);

 class Session
 {
 public:
     virtual ~Session() {}

     enum class SessionType : uint8_t
     {
         kUndefined       = 0,
         kUnauthenticated = 1,
         kSecure          = 2,
         kGroupIncoming   = 3,
         kGroupOutgoing   = 4,
     };

     virtual SessionType GetSessionType() const = 0;

     void AddHolder(SessionHolder & holder)
     {
         assertChipStackLockedByCurrentThread();
         VerifyOrDie(!holder.IsInList());
         mHolders.PushBack(&holder);
     }

     void RemoveHolder(SessionHolder & holder)
     {
         assertChipStackLockedByCurrentThread();
         VerifyOrDie(mHolders.Contains(&holder));
         mHolders.Remove(&holder);
     }

     virtual void Retain()  = 0;
     virtual void Release() = 0;

     virtual bool IsActiveSession() const = 0;

     virtual ScopedNodeId GetPeer() const                                     = 0;
     virtual ScopedNodeId GetLocalScopedNodeId() const                        = 0;
     virtual Access::SubjectDescriptor GetSubjectDescriptor() const           = 0;
     virtual bool RequireMRP() const                                          = 0;
     virtual const ReliableMessageProtocolConfig & GetRemoteMRPConfig() const = 0;
     virtual System::Clock::Timestamp GetMRPBaseTimeout() const               = 0;
     virtual System::Clock::Milliseconds32 GetAckTimeout() const              = 0;

     // Returns a suggested timeout value based on the round-trip time it takes for the peer at the other end of the session to
     // receive a message, process it and send it back. This is computed based on the session type, the type of transport, sleepy
     // characteristics of the target and a caller-provided value for the time it takes to process a message at the upper layer on
     // the target For group sessions, this function will always return 0.
     System::Clock::Timeout ComputeRoundTripTimeout(System::Clock::Timeout upperlayerProcessingTimeout);

     FabricIndex GetFabricIndex() const { return mFabricIndex; }

     SecureSession * AsSecureSession();
     UnauthenticatedSession * AsUnauthenticatedSession();
     IncomingGroupSession * AsIncomingGroupSession();
     OutgoingGroupSession * AsOutgoingGroupSession();

     bool IsGroupSession() const
     {
         return GetSessionType() == SessionType::kGroupIncoming || GetSessionType() == SessionType::kGroupOutgoing;
     }

     bool IsSecureSession() const { return GetSessionType() == SessionType::kSecure; }

     void DispatchSessionEvent(SessionDelegate::Event event)
     {
         // Holders might remove themselves when notified.
         auto holder = mHolders.begin();
         while (holder != mHolders.end())
         {
             auto cur = holder;
             ++holder;
             cur->DispatchSessionEvent(event);
         }
     }

 protected:
     // This should be called by sub-classes at the very beginning of the destructor, before any data field is disposed, such that
     // the session is still functional during the callback.
     void NotifySessionReleased()
     {
         SessionHandle session(*this);
         while (!mHolders.Empty())
         {
             mHolders.begin()->SessionReleased(); // SessionReleased must remove the item from the linked list
         }
     }

     void SetFabricIndex(FabricIndex index) { mFabricIndex = index; }

     IntrusiveList<SessionHolder> mHolders;

 private:
     FabricIndex mFabricIndex = kUndefinedFabricIndex;
 };

 //
 // Return a string representation of the underlying session.
 //
 // Always returns a non-null pointer.
 //
 const char * GetSessionTypeString(const SessionHandle & session);

 } // namespace Transport
 } // namespace chip
	/*
	* Copyright (c) 2021 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.
	*/

	#pragma once

	#include <access/SubjectDescriptor.h>
	#include <credentials/FabricTable.h>
	#include <lib/core/CHIPConfig.h>
	#include <lib/core/Optional.h>
	#include <lib/core/PeerId.h>
	#include <lib/core/ScopedNodeId.h>
	#include <lib/support/IntrusiveList.h>
	#include <lib/support/ReferenceCountedHandle.h>
	#include <messaging/ReliableMessageProtocolConfig.h>
	#include <platform/LockTracker.h>
	#include <transport/SessionDelegate.h>
	#include <transport/raw/PeerAddress.h>

	namespace chip {
	namespace Transport {
	class Session;
	} // namespace Transport

	/** @brief
	* Non-copyable session reference. All SessionHandles are created within SessionManager. It is not allowed to store SessionHandle
	* anywhere except for function arguments and return values.
	*
	* SessionHandle is reference counted such that it is never dangling, but there can be a gray period when the session is marked
	* as pending removal but not actually removed yet. During this period, the handle is functional, but the underlying session
	* won't be able to be grabbed by any SessionHolder. SessionHandle->IsActiveSession can be used to check if the session is
	* active.
	*/
	class SessionHandle
	{
	public:
	SessionHandle(Transport::Session & session) : mSession(session) {}
	~SessionHandle() {}

	SessionHandle(const SessionHandle &) = delete;
	SessionHandle operator=(const SessionHandle &) = delete;
	SessionHandle(SessionHandle &&) = default;
	SessionHandle & operator=(SessionHandle &&) = delete;

	bool operator==(const SessionHandle & that) const { return &mSession.Get() == &that.mSession.Get(); }

	Transport::Session * operator->() const { return mSession.operator->(); }

	private:
	friend class SessionHolder;
	ReferenceCountedHandle<Transport::Session> mSession;
	};

	/** @brief
	* Managed session reference. The object is used to store a session, the stored session will be automatically
	* released when the underlying session is released. One must verify it is available before use. The object can be
	* created using SessionHandle.Grab()
	*/
	class SessionHolder : public IntrusiveListNodeBase<>
	{
	public:
	SessionHolder() {}
	SessionHolder(const SessionHandle & handle) { Grab(handle); }
	virtual ~SessionHolder();

	SessionHolder(const SessionHolder &);
	SessionHolder(SessionHolder && that);
	SessionHolder & operator=(const SessionHolder &);
	SessionHolder & operator=(SessionHolder && that);

	virtual void SessionReleased() { Release(); }
	virtual void ShiftToSession(const SessionHandle & session)
	{
	Release();
	Grab(session);
	}

	bool Contains(const SessionHandle & session) const
	{
	return mSession.HasValue() && &mSession.Value().Get() == &session.mSession.Get();
	}

	bool GrabPairingSession(const SessionHandle & session); // Should be only used inside CASE/PASE pairing.
	bool Grab(const SessionHandle & session);
	void Release();

	explicit operator bool() const { return mSession.HasValue(); }
	Optional<SessionHandle> Get() const
	{
	//
	// We cannot return mSession directly even if Optional<SessionHandle> is internally composed of the same bits,
	// since they are not actually equivalent type-wise, and SessionHandle does not permit copy-construction.
	//
	// So, construct a new Optional<SessionHandle> from the underlying Transport::Session reference.
	//
	return mSession.HasValue() ? chip::MakeOptional<SessionHandle>(mSession.Value().Get())
	: chip::Optional<SessionHandle>::Missing();
	}

	Transport::Session * operator->() const { return &mSession.Value().Get(); }

	// There is not delegate, nothing to do here
	virtual void DispatchSessionEvent(SessionDelegate::Event event) {}

	protected:
	// Helper for use by the Grab methods.
	void GrabUnchecked(const SessionHandle & session);

	Optional<ReferenceCountedHandle<Transport::Session>> mSession;
	};

	/// @brief Extends SessionHolder to allow propagate SessionDelegate::* events to a given destination
	class SessionHolderWithDelegate : public SessionHolder
	{
	public:
	SessionHolderWithDelegate(SessionDelegate & delegate) : mDelegate(delegate) {}
	SessionHolderWithDelegate(const SessionHandle & handle, SessionDelegate & delegate) : SessionHolder(handle), mDelegate(delegate)
	{}
	operator bool() const { return SessionHolder::operator bool(); }

	void SessionReleased() override
	{
	Release();

	// Note, the session is already cleared during mDelegate.OnSessionReleased
	mDelegate.OnSessionReleased();
	}

	void ShiftToSession(const SessionHandle & session) override
	{
	if (mDelegate.GetNewSessionHandlingPolicy() == SessionDelegate::NewSessionHandlingPolicy::kShiftToNewSession)
	SessionHolder::ShiftToSession(session);
	}

	void DispatchSessionEvent(SessionDelegate::Event event) override { (mDelegate.*event)(); }

	private:
	SessionDelegate & mDelegate;
	};

	namespace Transport {

	class SecureSession;
	class UnauthenticatedSession;
	class IncomingGroupSession;
	class OutgoingGroupSession;

	constexpr System::Clock::Milliseconds32 kMinActiveTime = System::Clock::Milliseconds32(4000);

	class Session
	{
	public:
	virtual ~Session() {}

	enum class SessionType : uint8_t
	{
	kUndefined = 0,
	kUnauthenticated = 1,
	kSecure = 2,
	kGroupIncoming = 3,
	kGroupOutgoing = 4,
	};

	virtual SessionType GetSessionType() const = 0;

	void AddHolder(SessionHolder & holder)
	{
	assertChipStackLockedByCurrentThread();
	VerifyOrDie(!holder.IsInList());
	mHolders.PushBack(&holder);
	}

	void RemoveHolder(SessionHolder & holder)
	{
	assertChipStackLockedByCurrentThread();
	VerifyOrDie(mHolders.Contains(&holder));
	mHolders.Remove(&holder);
	}

	virtual void Retain() = 0;
	virtual void Release() = 0;

	virtual bool IsActiveSession() const = 0;

	virtual ScopedNodeId GetPeer() const = 0;
	virtual ScopedNodeId GetLocalScopedNodeId() const = 0;
	virtual Access::SubjectDescriptor GetSubjectDescriptor() const = 0;
	virtual bool RequireMRP() const = 0;
	virtual const ReliableMessageProtocolConfig & GetRemoteMRPConfig() const = 0;
	virtual System::Clock::Timestamp GetMRPBaseTimeout() const = 0;
	virtual System::Clock::Milliseconds32 GetAckTimeout() const = 0;

	// Returns a suggested timeout value based on the round-trip time it takes for the peer at the other end of the session to
	// receive a message, process it and send it back. This is computed based on the session type, the type of transport, sleepy
	// characteristics of the target and a caller-provided value for the time it takes to process a message at the upper layer on
	// the target For group sessions, this function will always return 0.
	System::Clock::Timeout ComputeRoundTripTimeout(System::Clock::Timeout upperlayerProcessingTimeout);

	FabricIndex GetFabricIndex() const { return mFabricIndex; }

	SecureSession * AsSecureSession();
	UnauthenticatedSession * AsUnauthenticatedSession();
	IncomingGroupSession * AsIncomingGroupSession();
	OutgoingGroupSession * AsOutgoingGroupSession();

	bool IsGroupSession() const
	{
	return GetSessionType() == SessionType::kGroupIncoming \|\| GetSessionType() == SessionType::kGroupOutgoing;
	}

	bool IsSecureSession() const { return GetSessionType() == SessionType::kSecure; }

	void DispatchSessionEvent(SessionDelegate::Event event)
	{
	// Holders might remove themselves when notified.
	auto holder = mHolders.begin();
	while (holder != mHolders.end())
	{
	auto cur = holder;
	++holder;
	cur->DispatchSessionEvent(event);
	}
	}

	protected:
	// This should be called by sub-classes at the very beginning of the destructor, before any data field is disposed, such that
	// the session is still functional during the callback.
	void NotifySessionReleased()
	{
	SessionHandle session(*this);
	while (!mHolders.Empty())
	{
	mHolders.begin()->SessionReleased(); // SessionReleased must remove the item from the linked list
	}
	}

	void SetFabricIndex(FabricIndex index) { mFabricIndex = index; }

	IntrusiveList<SessionHolder> mHolders;

	private:
	FabricIndex mFabricIndex = kUndefinedFabricIndex;
	};

	//
	// Return a string representation of the underlying session.
	//
	// Always returns a non-null pointer.
	//
	const char * GetSessionTypeString(const SessionHandle & session);

	} // namespace Transport
	} // namespace chip