/usr/include/udt/ccc.h is in libudt-dev 4.11+dfsg1-1.
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Copyright (c) 2001 - 2009, The Board of Trustees of the University of Illinois.
All rights reserved.
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met:
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and the following disclaimer in the documentation
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nor the names of its contributors may be used to
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*****************************************************************************/
/*****************************************************************************
written by
Yunhong Gu, last updated 02/28/2012
*****************************************************************************/
#ifndef __UDT_CCC_H__
#define __UDT_CCC_H__
#include "udt.h"
#include "packet.h"
class UDT_API CCC
{
friend class CUDT;
public:
CCC();
virtual ~CCC();
private:
CCC(const CCC&);
CCC& operator=(const CCC&) {return *this;}
public:
// Functionality:
// Callback function to be called (only) at the start of a UDT connection.
// note that this is different from CCC(), which is always called.
// Parameters:
// None.
// Returned value:
// None.
virtual void init() {}
// Functionality:
// Callback function to be called when a UDT connection is closed.
// Parameters:
// None.
// Returned value:
// None.
virtual void close() {}
// Functionality:
// Callback function to be called when an ACK packet is received.
// Parameters:
// 0) [in] ackno: the data sequence number acknowledged by this ACK.
// Returned value:
// None.
virtual void onACK(int32_t) {}
// Functionality:
// Callback function to be called when a loss report is received.
// Parameters:
// 0) [in] losslist: list of sequence number of packets, in the format describled in packet.cpp.
// 1) [in] size: length of the loss list.
// Returned value:
// None.
virtual void onLoss(const int32_t*, int) {}
// Functionality:
// Callback function to be called when a timeout event occurs.
// Parameters:
// None.
// Returned value:
// None.
virtual void onTimeout() {}
// Functionality:
// Callback function to be called when a data is sent.
// Parameters:
// 0) [in] seqno: the data sequence number.
// 1) [in] size: the payload size.
// Returned value:
// None.
virtual void onPktSent(const CPacket*) {}
// Functionality:
// Callback function to be called when a data is received.
// Parameters:
// 0) [in] seqno: the data sequence number.
// 1) [in] size: the payload size.
// Returned value:
// None.
virtual void onPktReceived(const CPacket*) {}
// Functionality:
// Callback function to Process a user defined packet.
// Parameters:
// 0) [in] pkt: the user defined packet.
// Returned value:
// None.
virtual void processCustomMsg(const CPacket*) {}
protected:
// Functionality:
// Set periodical acknowldging and the ACK period.
// Parameters:
// 0) [in] msINT: the period to send an ACK.
// Returned value:
// None.
void setACKTimer(int msINT);
// Functionality:
// Set packet-based acknowldging and the number of packets to send an ACK.
// Parameters:
// 0) [in] pktINT: the number of packets to send an ACK.
// Returned value:
// None.
void setACKInterval(int pktINT);
// Functionality:
// Set RTO value.
// Parameters:
// 0) [in] msRTO: RTO in macroseconds.
// Returned value:
// None.
void setRTO(int usRTO);
// Functionality:
// Send a user defined control packet.
// Parameters:
// 0) [in] pkt: user defined packet.
// Returned value:
// None.
void sendCustomMsg(CPacket& pkt) const;
// Functionality:
// retrieve performance information.
// Parameters:
// None.
// Returned value:
// Pointer to a performance info structure.
const CPerfMon* getPerfInfo();
// Functionality:
// Set user defined parameters.
// Parameters:
// 0) [in] param: the paramters in one buffer.
// 1) [in] size: the size of the buffer.
// Returned value:
// None.
void setUserParam(const char* param, int size);
private:
void setMSS(int mss);
void setMaxCWndSize(int cwnd);
void setBandwidth(int bw);
void setSndCurrSeqNo(int32_t seqno);
void setRcvRate(int rcvrate);
void setRTT(int rtt);
protected:
const int32_t& m_iSYNInterval; // UDT constant parameter, SYN
double m_dPktSndPeriod; // Packet sending period, in microseconds
double m_dCWndSize; // Congestion window size, in packets
int m_iBandwidth; // estimated bandwidth, packets per second
double m_dMaxCWndSize; // maximum cwnd size, in packets
int m_iMSS; // Maximum Packet Size, including all packet headers
int32_t m_iSndCurrSeqNo; // current maximum seq no sent out
int m_iRcvRate; // packet arrive rate at receiver side, packets per second
int m_iRTT; // current estimated RTT, microsecond
char* m_pcParam; // user defined parameter
int m_iPSize; // size of m_pcParam
private:
UDTSOCKET m_UDT; // The UDT entity that this congestion control algorithm is bound to
int m_iACKPeriod; // Periodical timer to send an ACK, in milliseconds
int m_iACKInterval; // How many packets to send one ACK, in packets
bool m_bUserDefinedRTO; // if the RTO value is defined by users
int m_iRTO; // RTO value, microseconds
CPerfMon m_PerfInfo; // protocol statistics information
};
class CCCVirtualFactory
{
public:
virtual ~CCCVirtualFactory() {}
virtual CCC* create() = 0;
virtual CCCVirtualFactory* clone() = 0;
};
template <class T>
class CCCFactory: public CCCVirtualFactory
{
public:
virtual ~CCCFactory() {}
virtual CCC* create() {return new T;}
virtual CCCVirtualFactory* clone() {return new CCCFactory<T>;}
};
class CUDTCC: public CCC
{
public:
CUDTCC();
public:
virtual void init();
virtual void onACK(int32_t);
virtual void onLoss(const int32_t*, int);
virtual void onTimeout();
private:
int m_iRCInterval; // UDT Rate control interval
uint64_t m_LastRCTime; // last rate increase time
bool m_bSlowStart; // if in slow start phase
int32_t m_iLastAck; // last ACKed seq no
bool m_bLoss; // if loss happened since last rate increase
int32_t m_iLastDecSeq; // max pkt seq no sent out when last decrease happened
double m_dLastDecPeriod; // value of pktsndperiod when last decrease happened
int m_iNAKCount; // NAK counter
int m_iDecRandom; // random threshold on decrease by number of loss events
int m_iAvgNAKNum; // average number of NAKs per congestion
int m_iDecCount; // number of decreases in a congestion epoch
};
#endif
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