srs/trunk/3rdparty/srt-1-fit/srtcore/packet.h

/*
 * SRT - Secure, Reliable, Transport
 * Copyright (c) 2018 Haivision Systems Inc.
 * 
 * This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/.
 * 
 */

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/*****************************************************************************
written by
   Yunhong Gu, last updated 01/02/2011
modified by
   Haivision Systems Inc.
*****************************************************************************/

#ifndef __UDT_PACKET_H__
#define __UDT_PACKET_H__

#include "udt.h"
#include "common.h"
#include "utilities.h"
#include "packetfilter_api.h"

//////////////////////////////////////////////////////////////////////////////
// The purpose of the IOVector class is to proide a platform-independet interface
// to the WSABUF on Windows and iovec on Linux, that can be easilly converted
// to the native structure for use in WSARecvFrom() and recvmsg(...) functions 
class IOVector
#ifdef _WIN32
	: public WSABUF
#else
	: public iovec
#endif
{
public:

	inline void set(void  *buffer, size_t length)
	{
#ifdef _WIN32
		len = (ULONG)length;
		buf = (CHAR*)buffer;
#else
		iov_base = (void*)buffer;
		iov_len = length;
#endif
	}

	inline char*& dataRef()
	{
#ifdef _WIN32
		return buf;
#else
		return (char*&) iov_base;
#endif
	}

	inline char* data()
	{
#ifdef _WIN32
		return buf;
#else
		return (char*)iov_base;
#endif
	}

	inline size_t size() const
	{
#ifdef _WIN32
		return (size_t) len;
#else
		return iov_len;
#endif
	}

	inline void setLength(size_t length)
	{
#ifdef _WIN32
		len = length;
#else
		iov_len = length;
#endif
	}
};


/// To define packets in order in the buffer. This is public due to being used in buffer.
enum PacketBoundary
{
    PB_SUBSEQUENT = 0, // 00
///      01: last packet of a message
    PB_LAST = 1, // 01
///      10: first packet of a message
    PB_FIRST = 2, // 10
///      11: solo message packet
    PB_SOLO = 3, // 11
};

// Breakdown of the PM_SEQNO field in the header:
//  C| X X ... X, where:
typedef Bits<31> SEQNO_CONTROL;
//  1|T T T T T T T T T T T T T T T|E E...E
typedef Bits<30, 16> SEQNO_MSGTYPE;
typedef Bits<15, 0> SEQNO_EXTTYPE;
//  0|S S ... S
typedef Bits<30, 0> SEQNO_VALUE;

// This bit cannot be used by SEQNO anyway, so it's additionally used
// in LOSSREPORT data specification to define that this value is the
// BEGIN value for a SEQNO range (to distinguish it from a SOLO loss SEQNO value).
const int32_t LOSSDATA_SEQNO_RANGE_FIRST = SEQNO_CONTROL::mask;

// Just cosmetics for readability.
const int32_t LOSSDATA_SEQNO_RANGE_LAST = 0, LOSSDATA_SEQNO_SOLO = 0;

inline int32_t CreateControlSeqNo(UDTMessageType type)
{
    return SEQNO_CONTROL::mask | SEQNO_MSGTYPE::wrap(size_t(type));
}

inline int32_t CreateControlExtSeqNo(int exttype)
{
    return SEQNO_CONTROL::mask | SEQNO_MSGTYPE::wrap(size_t(UMSG_EXT)) | SEQNO_EXTTYPE::wrap(exttype);
}

// MSGNO breakdown: B B|O|K K|R|M M M M M M M M M M...M
typedef Bits<31, 30> MSGNO_PACKET_BOUNDARY;
typedef Bits<29> MSGNO_PACKET_INORDER;
typedef Bits<28, 27> MSGNO_ENCKEYSPEC;
#if 1 // can block rexmit flag
// New bit breakdown - rexmit flag supported.
typedef Bits<26> MSGNO_REXMIT;
typedef Bits<25, 0> MSGNO_SEQ;
// Old bit breakdown - no rexmit flag
typedef Bits<26, 0> MSGNO_SEQ_OLD;
// This symbol is for older SRT version, where the peer does not support the MSGNO_REXMIT flag.
// The message should be extracted as PMASK_MSGNO_SEQ, if REXMIT is supported, and PMASK_MSGNO_SEQ_OLD otherwise.

const uint32_t PACKET_SND_NORMAL = 0, PACKET_SND_REXMIT = MSGNO_REXMIT::mask;

#else
// Old bit breakdown - no rexmit flag
typedef Bits<26, 0> MSGNO_SEQ;
#endif


// constexpr in C++11 !
inline int32_t PacketBoundaryBits(PacketBoundary o) { return MSGNO_PACKET_BOUNDARY::wrap(int32_t(o)); }


enum EncryptionKeySpec
{
    EK_NOENC = 0,
    EK_EVEN = 1,
    EK_ODD = 2
};

enum EncryptionStatus
{
    ENCS_CLEAR = 0,
    ENCS_FAILED = -1,
    ENCS_NOTSUP = -2
};

const int32_t PMASK_MSGNO_ENCKEYSPEC = MSGNO_ENCKEYSPEC::mask;
inline int32_t EncryptionKeyBits(EncryptionKeySpec f)
{
    return MSGNO_ENCKEYSPEC::wrap(int32_t(f));
}
inline EncryptionKeySpec GetEncryptionKeySpec(int32_t msgno)
{
    return EncryptionKeySpec(MSGNO_ENCKEYSPEC::unwrap(msgno));
}

const int32_t PUMASK_SEQNO_PROBE = 0xF;

std::string PacketMessageFlagStr(uint32_t msgno_field);

class CChannel;

class CPacket
{
friend class CChannel;
friend class CSndQueue;
friend class CRcvQueue;

public:
   CPacket();
   ~CPacket();

   void allocate(size_t size);
   void deallocate();

      /// Get the payload or the control information field length.
      /// @return the payload or the control information field length.

   size_t getLength() const;

      /// Set the payload or the control information field length.
      /// @param len [in] the payload or the control information field length.

   void setLength(size_t len);

      /// Pack a Control packet.
      /// @param pkttype [in] packet type filed.
      /// @param lparam [in] pointer to the first data structure, explained by the packet type.
      /// @param rparam [in] pointer to the second data structure, explained by the packet type.
      /// @param size [in] size of rparam, in number of bytes;

   void pack(UDTMessageType pkttype, const void* lparam = NULL, void* rparam = NULL, int size = 0);

      /// Read the packet vector.
      /// @return Pointer to the packet vector.

   IOVector* getPacketVector();

   uint32_t* getHeader() { return m_nHeader; }

      /// Read the packet flag.
      /// @return packet flag (0 or 1).

   // XXX DEPRECATED. Use isControl() instead
   ATR_DEPRECATED
   int getFlag() const
   {
       return isControl() ? 1 : 0;
   }

      /// Read the packet type.
      /// @return packet type filed (000 ~ 111).

   UDTMessageType getType() const;

   bool isControl(UDTMessageType type) const
   {
       return isControl() && type == getType();
   }

   bool isControl() const
   {
       // read bit 0
       return 0!=  SEQNO_CONTROL::unwrap(m_nHeader[SRT_PH_SEQNO]);
   }

   void setControl(UDTMessageType type)
   {
       m_nHeader[SRT_PH_SEQNO] = SEQNO_CONTROL::mask | SEQNO_MSGTYPE::wrap(type);
   }

      /// Read the extended packet type.
      /// @return extended packet type filed (0x000 ~ 0xFFF).

   int getExtendedType() const;

      /// Read the ACK-2 seq. no.
      /// @return packet header field (bit 16~31).

   int32_t getAckSeqNo() const;
   uint16_t getControlFlags() const;

   // Note: this will return a "singular" value, if the packet
   // contains the control message
   int32_t getSeqNo() const
   {
       return m_nHeader[SRT_PH_SEQNO];
   }

      /// Read the message boundary flag bit.
      /// @return packet header field [1] (bit 0~1).

   PacketBoundary getMsgBoundary() const;

      /// Read the message inorder delivery flag bit.
      /// @return packet header field [1] (bit 2).

   bool getMsgOrderFlag() const;

   /// Read the rexmit flag (true if the packet was sent due to retransmission).
   /// If the peer does not support retransmission flag, the current agent cannot use it as well
   /// (because the peer will understand this bit as a part of MSGNO field).

   bool getRexmitFlag() const;

      /// Read the message sequence number.
      /// @return packet header field [1]

   int32_t getMsgSeq(bool has_rexmit = true) const;

      /// Read the message crypto key bits.
      /// @return packet header field [1] (bit 3~4).

   EncryptionKeySpec getMsgCryptoFlags() const;
   void setMsgCryptoFlags(EncryptionKeySpec spec);

      /// Read the message time stamp.
      /// @return packet header field [2] (bit 0~31, bit 0-26 if SRT_DEBUG_TSBPD_WRAP).

   uint32_t getMsgTimeStamp() const;

#ifdef SRT_DEBUG_TSBPD_WRAP //Receiver
   static const uint32_t MAX_TIMESTAMP = 0x07FFFFFF; //27 bit fast wraparound for tests (~2m15s)
#else
   static const uint32_t MAX_TIMESTAMP = 0xFFFFFFFF; //Full 32 bit (01h11m35s)
#endif

protected:
   static const uint32_t TIMESTAMP_MASK = MAX_TIMESTAMP; // this value to be also used as a mask
public:

      /// Clone this packet.
      /// @return Pointer to the new packet.

   CPacket* clone() const;

   enum PacketVectorFields
   {
       PV_HEADER = 0,
       PV_DATA = 1,

       PV_SIZE = 2
   };

protected:
   // Length in bytes

   // DynamicStruct is the same as array of given type and size, just it
   // enforces that you index it using a symbol from symbolic enum type, not by a bare integer.

   typedef DynamicStruct<uint32_t, SRT_PH__SIZE, SrtPktHeaderFields> HEADER_TYPE;
   HEADER_TYPE m_nHeader;  //< The 128-bit header field

   // XXX NOTE: iovec here is not portable. On Windows there's a different
   // (although similar) structure defined, which means that this way the
   // Windows function that is an equivalent of `recvmsg` cannot be used.
   // For example, something like that:
   // class IoVector: public iovec { public: size_t size() { return iov_len; } char* data() { return iov_base; } };
   // class IoVector: public WSAMSG { public: size_t size() { return len; } char* data() { return buf; } };
   IOVector m_PacketVector[PV_SIZE];             //< The 2-demension vector of UDT packet [header, data]

   int32_t __pad;
   bool m_data_owned;

protected:
   CPacket& operator=(const CPacket&);
   CPacket (const CPacket&);

public:

   int32_t& m_iSeqNo;                   // alias: sequence number
   int32_t& m_iMsgNo;                   // alias: message number
   int32_t& m_iTimeStamp;               // alias: timestamp
   int32_t& m_iID;                      // alias: socket ID
   char*& m_pcData;                     // alias: data/control information

   //static const int m_iPktHdrSize;	// packet header size
   static const size_t HDR_SIZE = sizeof(HEADER_TYPE); // packet header size = SRT_PH__SIZE * sizeof(uint32_t)

   // Used in many computations
   // Actually this can be also calculated as: sizeof(struct ether_header) + sizeof(struct ip) + sizeof(struct udphdr).
   static const size_t UDP_HDR_SIZE = 28; // 20 bytes IPv4 + 8 bytes of UDP { u16 sport, dport, len, csum }.

   static const size_t SRT_DATA_HDR_SIZE = UDP_HDR_SIZE + HDR_SIZE;

   // Some well known data
   static const size_t ETH_MAX_MTU_SIZE = 1500;

   // And derived
   static const size_t SRT_MAX_PAYLOAD_SIZE = ETH_MAX_MTU_SIZE - SRT_DATA_HDR_SIZE;

   // Packet interface
   char* data() { return m_pcData; }
   const char* data() const { return m_pcData; }
   size_t size() const { return getLength(); }
   uint32_t header(SrtPktHeaderFields field) const { return m_nHeader[field]; }

   std::string MessageFlagStr()
#if ENABLE_LOGGING
   { return PacketMessageFlagStr(m_nHeader[SRT_PH_MSGNO]); }
#else
   { return ""; }
#endif
};


#endif