pc/data_channel.h - src/ - Git at Google

 /*
  *  Copyright 2012 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #ifndef PC_DATA_CHANNEL_H_
 #define PC_DATA_CHANNEL_H_

 #include <deque>
 #include <memory>
 #include <set>
 #include <string>

 #include "api/data_channel_interface.h"
 #include "api/proxy.h"
 #include "api/scoped_refptr.h"
 #include "media/base/media_channel.h"
 #include "pc/channel.h"
 #include "rtc_base/async_invoker.h"
 #include "rtc_base/third_party/sigslot/sigslot.h"

 namespace webrtc {

 class DataChannel;

 // TODO(deadbeef): Once RTP data channels go away, get rid of this and have
 // DataChannel depend on SctpTransportInternal (pure virtual SctpTransport
 // interface) instead.
 class DataChannelProviderInterface {
  public:
   // Sends the data to the transport.
   virtual bool SendData(const cricket::SendDataParams& params,
                         const rtc::CopyOnWriteBuffer& payload,
                         cricket::SendDataResult* result) = 0;
   // Connects to the transport signals.
   virtual bool ConnectDataChannel(DataChannel* data_channel) = 0;
   // Disconnects from the transport signals.
   virtual void DisconnectDataChannel(DataChannel* data_channel) = 0;
   // Adds the data channel SID to the transport for SCTP.
   virtual void AddSctpDataStream(int sid) = 0;
   // Begins the closing procedure by sending an outgoing stream reset. Still
   // need to wait for callbacks to tell when this completes.
   virtual void RemoveSctpDataStream(int sid) = 0;
   // Returns true if the transport channel is ready to send data.
   virtual bool ReadyToSendData() const = 0;

  protected:
   virtual ~DataChannelProviderInterface() {}
 };

 struct InternalDataChannelInit : public DataChannelInit {
   enum OpenHandshakeRole { kOpener, kAcker, kNone };
   // The default role is kOpener because the default |negotiated| is false.
   InternalDataChannelInit() : open_handshake_role(kOpener) {}
   explicit InternalDataChannelInit(const DataChannelInit& base)
       : DataChannelInit(base), open_handshake_role(kOpener) {
     // If the channel is externally negotiated, do not send the OPEN message.
     if (base.negotiated) {
       open_handshake_role = kNone;
     }
   }

   OpenHandshakeRole open_handshake_role;
 };

 // Helper class to allocate unique IDs for SCTP DataChannels
 class SctpSidAllocator {
  public:
   // Gets the first unused odd/even id based on the DTLS role. If |role| is
   // SSL_CLIENT, the allocated id starts from 0 and takes even numbers;
   // otherwise, the id starts from 1 and takes odd numbers.
   // Returns false if no ID can be allocated.
   bool AllocateSid(rtc::SSLRole role, int* sid);

   // Attempts to reserve a specific sid. Returns false if it's unavailable.
   bool ReserveSid(int sid);

   // Indicates that |sid| isn't in use any more, and is thus available again.
   void ReleaseSid(int sid);

  private:
   // Checks if |sid| is available to be assigned to a new SCTP data channel.
   bool IsSidAvailable(int sid) const;

   std::set<int> used_sids_;
 };

 // DataChannel is a an implementation of the DataChannelInterface based on
 // libjingle's data engine. It provides an implementation of unreliable or
 // reliabledata channels. Currently this class is specifically designed to use
 // both RtpDataChannel and SctpTransport.

 // DataChannel states:
 // kConnecting: The channel has been created the transport might not yet be
 //              ready.
 // kOpen: The channel have a local SSRC set by a call to UpdateSendSsrc
 //        and a remote SSRC set by call to UpdateReceiveSsrc and the transport
 //        has been writable once.
 // kClosing: DataChannelInterface::Close has been called or UpdateReceiveSsrc
 //           has been called with SSRC==0
 // kClosed: Both UpdateReceiveSsrc and UpdateSendSsrc has been called with
 //          SSRC==0.
 //
 // How the closing procedure works for SCTP:
 // 1. Alice calls Close(), state changes to kClosing.
 // 2. Alice finishes sending any queued data.
 // 3. Alice calls RemoveSctpDataStream, sends outgoing stream reset.
 // 4. Bob receives incoming stream reset; OnClosingProcedureStartedRemotely
 //    called.
 // 5. Bob sends outgoing stream reset. 6. Alice receives incoming reset,
 //    Bob receives acknowledgement. Both receive OnClosingProcedureComplete
 //    callback and transition to kClosed.
 class DataChannel : public DataChannelInterface, public sigslot::has_slots<> {
  public:
   static rtc::scoped_refptr<DataChannel> Create(
       DataChannelProviderInterface* provider,
       cricket::DataChannelType dct,
       const std::string& label,
       const InternalDataChannelInit& config);

   static bool IsSctpLike(cricket::DataChannelType type);

   virtual void RegisterObserver(DataChannelObserver* observer);
   virtual void UnregisterObserver();

   virtual std::string label() const { return label_; }
   virtual bool reliable() const;
   virtual bool ordered() const { return config_.ordered; }
   virtual uint16_t maxRetransmitTime() const {
     return config_.maxRetransmitTime;
   }
   virtual uint16_t maxRetransmits() const { return config_.maxRetransmits; }
   virtual std::string protocol() const { return config_.protocol; }
   virtual bool negotiated() const { return config_.negotiated; }
   virtual int id() const { return config_.id; }
   virtual uint64_t buffered_amount() const;
   virtual void Close();
   virtual DataState state() const { return state_; }
   virtual uint32_t messages_sent() const { return messages_sent_; }
   virtual uint64_t bytes_sent() const { return bytes_sent_; }
   virtual uint32_t messages_received() const { return messages_received_; }
   virtual uint64_t bytes_received() const { return bytes_received_; }
   virtual bool Send(const DataBuffer& buffer);

   // Called when the channel's ready to use.  That can happen when the
   // underlying DataMediaChannel becomes ready, or when this channel is a new
   // stream on an existing DataMediaChannel, and we've finished negotiation.
   void OnChannelReady(bool writable);

   // Slots for provider to connect signals to.
   void OnDataReceived(const cricket::ReceiveDataParams& params,
                       const rtc::CopyOnWriteBuffer& payload);

   /********************************************
    * The following methods are for SCTP only. *
    ********************************************/

   // Sets the SCTP sid and adds to transport layer if not set yet. Should only
   // be called once.
   void SetSctpSid(int sid);
   // The remote side started the closing procedure by resetting its outgoing
   // stream (our incoming stream). Sets state to kClosing.
   void OnClosingProcedureStartedRemotely(int sid);
   // The closing procedure is complete; both incoming and outgoing stream
   // resets are done and the channel can transition to kClosed. Called
   // asynchronously after RemoveSctpDataStream.
   void OnClosingProcedureComplete(int sid);
   // Called when the transport channel is created.
   // Only needs to be called for SCTP data channels.
   void OnTransportChannelCreated();
   // Called when the transport channel is destroyed.
   // This method makes sure the DataChannel is disconnected and changes state
   // to kClosed.
   void OnTransportChannelDestroyed();

   /*******************************************
    * The following methods are for RTP only. *
    *******************************************/

   // The remote peer requested that this channel should be closed.
   void RemotePeerRequestClose();
   // Set the SSRC this channel should use to send data on the
   // underlying data engine. |send_ssrc| == 0 means that the channel is no
   // longer part of the session negotiation.
   void SetSendSsrc(uint32_t send_ssrc);
   // Set the SSRC this channel should use to receive data from the
   // underlying data engine.
   void SetReceiveSsrc(uint32_t receive_ssrc);

   cricket::DataChannelType data_channel_type() const {
     return data_channel_type_;
   }

   // Emitted when state transitions to kOpen.
   sigslot::signal1<DataChannel*> SignalOpened;
   // Emitted when state transitions to kClosed.
   // In the case of SCTP channels, this signal can be used to tell when the
   // channel's sid is free.
   sigslot::signal1<DataChannel*> SignalClosed;

  protected:
   DataChannel(DataChannelProviderInterface* client,
               cricket::DataChannelType dct,
               const std::string& label);
   virtual ~DataChannel();

  private:
   // A packet queue which tracks the total queued bytes. Queued packets are
   // owned by this class.
   class PacketQueue final {
    public:
     size_t byte_count() const { return byte_count_; }

     bool Empty() const;

     std::unique_ptr<DataBuffer> PopFront();

     void PushFront(std::unique_ptr<DataBuffer> packet);
     void PushBack(std::unique_ptr<DataBuffer> packet);

     void Clear();

     void Swap(PacketQueue* other);

    private:
     std::deque<std::unique_ptr<DataBuffer>> packets_;
     size_t byte_count_ = 0;
   };

   // The OPEN(_ACK) signaling state.
   enum HandshakeState {
     kHandshakeInit,
     kHandshakeShouldSendOpen,
     kHandshakeShouldSendAck,
     kHandshakeWaitingForAck,
     kHandshakeReady
   };

   bool Init(const InternalDataChannelInit& config);
   // Close immediately, ignoring any queued data or closing procedure.
   // This is called for RTP data channels when SDP indicates a channel should
   // be removed, or SCTP data channels when the underlying SctpTransport is
   // being destroyed.
   void CloseAbruptly();
   void UpdateState();
   void SetState(DataState state);
   void DisconnectFromProvider();

   void DeliverQueuedReceivedData();

   void SendQueuedDataMessages();
   bool SendDataMessage(const DataBuffer& buffer, bool queue_if_blocked);
   bool QueueSendDataMessage(const DataBuffer& buffer);

   void SendQueuedControlMessages();
   void QueueControlMessage(const rtc::CopyOnWriteBuffer& buffer);
   bool SendControlMessage(const rtc::CopyOnWriteBuffer& buffer);

   std::string label_;
   InternalDataChannelInit config_;
   DataChannelObserver* observer_;
   DataState state_;
   uint32_t messages_sent_;
   uint64_t bytes_sent_;
   uint32_t messages_received_;
   uint64_t bytes_received_;
   // Number of bytes of data that have been queued using Send(). Increased
   // before each transport send and decreased after each successful send.
   uint64_t buffered_amount_;
   cricket::DataChannelType data_channel_type_;
   DataChannelProviderInterface* provider_;
   HandshakeState handshake_state_;
   bool connected_to_provider_;
   bool send_ssrc_set_;
   bool receive_ssrc_set_;
   bool writable_;
   // Did we already start the graceful SCTP closing procedure?
   bool started_closing_procedure_ = false;
   uint32_t send_ssrc_;
   uint32_t receive_ssrc_;
   // Control messages that always have to get sent out before any queued
   // data.
   PacketQueue queued_control_data_;
   PacketQueue queued_received_data_;
   PacketQueue queued_send_data_;
   rtc::AsyncInvoker invoker_;
 };

 // Define proxy for DataChannelInterface.
 BEGIN_SIGNALING_PROXY_MAP(DataChannel)
 PROXY_SIGNALING_THREAD_DESTRUCTOR()
 PROXY_METHOD1(void, RegisterObserver, DataChannelObserver*)
 PROXY_METHOD0(void, UnregisterObserver)
 PROXY_CONSTMETHOD0(std::string, label)
 PROXY_CONSTMETHOD0(bool, reliable)
 PROXY_CONSTMETHOD0(bool, ordered)
 PROXY_CONSTMETHOD0(uint16_t, maxRetransmitTime)
 PROXY_CONSTMETHOD0(uint16_t, maxRetransmits)
 PROXY_CONSTMETHOD0(std::string, protocol)
 PROXY_CONSTMETHOD0(bool, negotiated)
 PROXY_CONSTMETHOD0(int, id)
 PROXY_CONSTMETHOD0(DataState, state)
 PROXY_CONSTMETHOD0(uint32_t, messages_sent)
 PROXY_CONSTMETHOD0(uint64_t, bytes_sent)
 PROXY_CONSTMETHOD0(uint32_t, messages_received)
 PROXY_CONSTMETHOD0(uint64_t, bytes_received)
 PROXY_CONSTMETHOD0(uint64_t, buffered_amount)
 PROXY_METHOD0(void, Close)
 PROXY_METHOD1(bool, Send, const DataBuffer&)
 END_PROXY_MAP()

 }  // namespace webrtc

 #endif  // PC_DATA_CHANNEL_H_
	/*
	* Copyright 2012 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#ifndef PC_DATA_CHANNEL_H_
	#define PC_DATA_CHANNEL_H_

	#include <deque>
	#include <memory>
	#include <set>
	#include <string>

	#include "api/data_channel_interface.h"
	#include "api/proxy.h"
	#include "api/scoped_refptr.h"
	#include "media/base/media_channel.h"
	#include "pc/channel.h"
	#include "rtc_base/async_invoker.h"
	#include "rtc_base/third_party/sigslot/sigslot.h"

	namespace webrtc {

	class DataChannel;

	// TODO(deadbeef): Once RTP data channels go away, get rid of this and have
	// DataChannel depend on SctpTransportInternal (pure virtual SctpTransport
	// interface) instead.
	class DataChannelProviderInterface {
	public:
	// Sends the data to the transport.
	virtual bool SendData(const cricket::SendDataParams& params,
	const rtc::CopyOnWriteBuffer& payload,
	cricket::SendDataResult* result) = 0;
	// Connects to the transport signals.
	virtual bool ConnectDataChannel(DataChannel* data_channel) = 0;
	// Disconnects from the transport signals.
	virtual void DisconnectDataChannel(DataChannel* data_channel) = 0;
	// Adds the data channel SID to the transport for SCTP.
	virtual void AddSctpDataStream(int sid) = 0;
	// Begins the closing procedure by sending an outgoing stream reset. Still
	// need to wait for callbacks to tell when this completes.
	virtual void RemoveSctpDataStream(int sid) = 0;
	// Returns true if the transport channel is ready to send data.
	virtual bool ReadyToSendData() const = 0;

	protected:
	virtual ~DataChannelProviderInterface() {}
	};

	struct InternalDataChannelInit : public DataChannelInit {
	enum OpenHandshakeRole { kOpener, kAcker, kNone };
	// The default role is kOpener because the default \|negotiated\| is false.
	InternalDataChannelInit() : open_handshake_role(kOpener) {}
	explicit InternalDataChannelInit(const DataChannelInit& base)
	: DataChannelInit(base), open_handshake_role(kOpener) {
	// If the channel is externally negotiated, do not send the OPEN message.
	if (base.negotiated) {
	open_handshake_role = kNone;
	}
	}

	OpenHandshakeRole open_handshake_role;
	};

	// Helper class to allocate unique IDs for SCTP DataChannels
	class SctpSidAllocator {
	public:
	// Gets the first unused odd/even id based on the DTLS role. If \|role\| is
	// SSL_CLIENT, the allocated id starts from 0 and takes even numbers;
	// otherwise, the id starts from 1 and takes odd numbers.
	// Returns false if no ID can be allocated.
	bool AllocateSid(rtc::SSLRole role, int* sid);

	// Attempts to reserve a specific sid. Returns false if it's unavailable.
	bool ReserveSid(int sid);

	// Indicates that \|sid\| isn't in use any more, and is thus available again.
	void ReleaseSid(int sid);

	private:
	// Checks if \|sid\| is available to be assigned to a new SCTP data channel.
	bool IsSidAvailable(int sid) const;

	std::set<int> used_sids_;
	};

	// DataChannel is a an implementation of the DataChannelInterface based on
	// libjingle's data engine. It provides an implementation of unreliable or
	// reliabledata channels. Currently this class is specifically designed to use
	// both RtpDataChannel and SctpTransport.

	// DataChannel states:
	// kConnecting: The channel has been created the transport might not yet be
	// ready.
	// kOpen: The channel have a local SSRC set by a call to UpdateSendSsrc
	// and a remote SSRC set by call to UpdateReceiveSsrc and the transport
	// has been writable once.
	// kClosing: DataChannelInterface::Close has been called or UpdateReceiveSsrc
	// has been called with SSRC==0
	// kClosed: Both UpdateReceiveSsrc and UpdateSendSsrc has been called with
	// SSRC==0.
	//
	// How the closing procedure works for SCTP:
	// 1. Alice calls Close(), state changes to kClosing.
	// 2. Alice finishes sending any queued data.
	// 3. Alice calls RemoveSctpDataStream, sends outgoing stream reset.
	// 4. Bob receives incoming stream reset; OnClosingProcedureStartedRemotely
	// called.
	// 5. Bob sends outgoing stream reset. 6. Alice receives incoming reset,
	// Bob receives acknowledgement. Both receive OnClosingProcedureComplete
	// callback and transition to kClosed.
	class DataChannel : public DataChannelInterface, public sigslot::has_slots<> {
	public:
	static rtc::scoped_refptr<DataChannel> Create(
	DataChannelProviderInterface* provider,
	cricket::DataChannelType dct,
	const std::string& label,
	const InternalDataChannelInit& config);

	static bool IsSctpLike(cricket::DataChannelType type);

	virtual void RegisterObserver(DataChannelObserver* observer);
	virtual void UnregisterObserver();

	virtual std::string label() const { return label_; }
	virtual bool reliable() const;
	virtual bool ordered() const { return config_.ordered; }
	virtual uint16_t maxRetransmitTime() const {
	return config_.maxRetransmitTime;
	}
	virtual uint16_t maxRetransmits() const { return config_.maxRetransmits; }
	virtual std::string protocol() const { return config_.protocol; }
	virtual bool negotiated() const { return config_.negotiated; }
	virtual int id() const { return config_.id; }
	virtual uint64_t buffered_amount() const;
	virtual void Close();
	virtual DataState state() const { return state_; }
	virtual uint32_t messages_sent() const { return messages_sent_; }
	virtual uint64_t bytes_sent() const { return bytes_sent_; }
	virtual uint32_t messages_received() const { return messages_received_; }
	virtual uint64_t bytes_received() const { return bytes_received_; }
	virtual bool Send(const DataBuffer& buffer);

	// Called when the channel's ready to use. That can happen when the
	// underlying DataMediaChannel becomes ready, or when this channel is a new
	// stream on an existing DataMediaChannel, and we've finished negotiation.
	void OnChannelReady(bool writable);

	// Slots for provider to connect signals to.
	void OnDataReceived(const cricket::ReceiveDataParams& params,
	const rtc::CopyOnWriteBuffer& payload);

	/********************************************
	* The following methods are for SCTP only. *
	********************************************/

	// Sets the SCTP sid and adds to transport layer if not set yet. Should only
	// be called once.
	void SetSctpSid(int sid);
	// The remote side started the closing procedure by resetting its outgoing
	// stream (our incoming stream). Sets state to kClosing.
	void OnClosingProcedureStartedRemotely(int sid);
	// The closing procedure is complete; both incoming and outgoing stream
	// resets are done and the channel can transition to kClosed. Called
	// asynchronously after RemoveSctpDataStream.
	void OnClosingProcedureComplete(int sid);
	// Called when the transport channel is created.
	// Only needs to be called for SCTP data channels.
	void OnTransportChannelCreated();
	// Called when the transport channel is destroyed.
	// This method makes sure the DataChannel is disconnected and changes state
	// to kClosed.
	void OnTransportChannelDestroyed();

	/*******************************************
	* The following methods are for RTP only. *
	*******************************************/

	// The remote peer requested that this channel should be closed.
	void RemotePeerRequestClose();
	// Set the SSRC this channel should use to send data on the
	// underlying data engine. \|send_ssrc\| == 0 means that the channel is no
	// longer part of the session negotiation.
	void SetSendSsrc(uint32_t send_ssrc);
	// Set the SSRC this channel should use to receive data from the
	// underlying data engine.
	void SetReceiveSsrc(uint32_t receive_ssrc);

	cricket::DataChannelType data_channel_type() const {
	return data_channel_type_;
	}

	// Emitted when state transitions to kOpen.
	sigslot::signal1<DataChannel*> SignalOpened;
	// Emitted when state transitions to kClosed.
	// In the case of SCTP channels, this signal can be used to tell when the
	// channel's sid is free.
	sigslot::signal1<DataChannel*> SignalClosed;

	protected:
	DataChannel(DataChannelProviderInterface* client,
	cricket::DataChannelType dct,
	const std::string& label);
	virtual ~DataChannel();

	private:
	// A packet queue which tracks the total queued bytes. Queued packets are
	// owned by this class.
	class PacketQueue final {
	public:
	size_t byte_count() const { return byte_count_; }

	bool Empty() const;

	std::unique_ptr<DataBuffer> PopFront();

	void PushFront(std::unique_ptr<DataBuffer> packet);
	void PushBack(std::unique_ptr<DataBuffer> packet);

	void Clear();

	void Swap(PacketQueue* other);

	private:
	std::deque<std::unique_ptr<DataBuffer>> packets_;
	size_t byte_count_ = 0;
	};

	// The OPEN(_ACK) signaling state.
	enum HandshakeState {
	kHandshakeInit,
	kHandshakeShouldSendOpen,
	kHandshakeShouldSendAck,
	kHandshakeWaitingForAck,
	kHandshakeReady
	};

	bool Init(const InternalDataChannelInit& config);
	// Close immediately, ignoring any queued data or closing procedure.
	// This is called for RTP data channels when SDP indicates a channel should
	// be removed, or SCTP data channels when the underlying SctpTransport is
	// being destroyed.
	void CloseAbruptly();
	void UpdateState();
	void SetState(DataState state);
	void DisconnectFromProvider();

	void DeliverQueuedReceivedData();

	void SendQueuedDataMessages();
	bool SendDataMessage(const DataBuffer& buffer, bool queue_if_blocked);
	bool QueueSendDataMessage(const DataBuffer& buffer);

	void SendQueuedControlMessages();
	void QueueControlMessage(const rtc::CopyOnWriteBuffer& buffer);
	bool SendControlMessage(const rtc::CopyOnWriteBuffer& buffer);

	std::string label_;
	InternalDataChannelInit config_;
	DataChannelObserver* observer_;
	DataState state_;
	uint32_t messages_sent_;
	uint64_t bytes_sent_;
	uint32_t messages_received_;
	uint64_t bytes_received_;
	// Number of bytes of data that have been queued using Send(). Increased
	// before each transport send and decreased after each successful send.
	uint64_t buffered_amount_;
	cricket::DataChannelType data_channel_type_;
	DataChannelProviderInterface* provider_;
	HandshakeState handshake_state_;
	bool connected_to_provider_;
	bool send_ssrc_set_;
	bool receive_ssrc_set_;
	bool writable_;
	// Did we already start the graceful SCTP closing procedure?
	bool started_closing_procedure_ = false;
	uint32_t send_ssrc_;
	uint32_t receive_ssrc_;
	// Control messages that always have to get sent out before any queued
	// data.
	PacketQueue queued_control_data_;
	PacketQueue queued_received_data_;
	PacketQueue queued_send_data_;
	rtc::AsyncInvoker invoker_;
	};

	// Define proxy for DataChannelInterface.
	BEGIN_SIGNALING_PROXY_MAP(DataChannel)
	PROXY_SIGNALING_THREAD_DESTRUCTOR()
	PROXY_METHOD1(void, RegisterObserver, DataChannelObserver*)
	PROXY_METHOD0(void, UnregisterObserver)
	PROXY_CONSTMETHOD0(std::string, label)
	PROXY_CONSTMETHOD0(bool, reliable)
	PROXY_CONSTMETHOD0(bool, ordered)
	PROXY_CONSTMETHOD0(uint16_t, maxRetransmitTime)
	PROXY_CONSTMETHOD0(uint16_t, maxRetransmits)
	PROXY_CONSTMETHOD0(std::string, protocol)
	PROXY_CONSTMETHOD0(bool, negotiated)
	PROXY_CONSTMETHOD0(int, id)
	PROXY_CONSTMETHOD0(DataState, state)
	PROXY_CONSTMETHOD0(uint32_t, messages_sent)
	PROXY_CONSTMETHOD0(uint64_t, bytes_sent)
	PROXY_CONSTMETHOD0(uint32_t, messages_received)
	PROXY_CONSTMETHOD0(uint64_t, bytes_received)
	PROXY_CONSTMETHOD0(uint64_t, buffered_amount)
	PROXY_METHOD0(void, Close)
	PROXY_METHOD1(bool, Send, const DataBuffer&)
	END_PROXY_MAP()

	} // namespace webrtc

	#endif // PC_DATA_CHANNEL_H_