/usr/include/udt/queue.h is in libudt-dev 4.11+dfsg1-1.
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Copyright (c) 2001 - 2011, The Board of Trustees of the University of Illinois.
All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are
met:
* Redistributions of source code must retain the above
copyright notice, this list of conditions and the
following disclaimer.
* Redistributions in binary form must reproduce the
above copyright notice, this list of conditions
and the following disclaimer in the documentation
and/or other materials provided with the distribution.
* Neither the name of the University of Illinois
nor the names of its contributors may be used to
endorse or promote products derived from this
software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
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LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
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*****************************************************************************/
/*****************************************************************************
written by
Yunhong Gu, last updated 01/12/2011
*****************************************************************************/
#ifndef __UDT_QUEUE_H__
#define __UDT_QUEUE_H__
#include "channel.h"
#include "common.h"
#include "packet.h"
#include <list>
#include <map>
#include <queue>
#include <vector>
class CUDT;
struct CUnit
{
CPacket m_Packet; // packet
int m_iFlag; // 0: free, 1: occupied, 2: msg read but not freed (out-of-order), 3: msg dropped
};
class CUnitQueue
{
friend class CRcvQueue;
friend class CRcvBuffer;
public:
CUnitQueue();
~CUnitQueue();
public:
// Functionality:
// Initialize the unit queue.
// Parameters:
// 1) [in] size: queue size
// 2) [in] mss: maximum segament size
// 3) [in] version: IP version
// Returned value:
// 0: success, -1: failure.
int init(int size, int mss, int version);
// Functionality:
// Increase (double) the unit queue size.
// Parameters:
// None.
// Returned value:
// 0: success, -1: failure.
int increase();
// Functionality:
// Decrease (halve) the unit queue size.
// Parameters:
// None.
// Returned value:
// 0: success, -1: failure.
int shrink();
// Functionality:
// find an available unit for incoming packet.
// Parameters:
// None.
// Returned value:
// Pointer to the available unit, NULL if not found.
CUnit* getNextAvailUnit();
private:
struct CQEntry
{
CUnit* m_pUnit; // unit queue
char* m_pBuffer; // data buffer
int m_iSize; // size of each queue
CQEntry* m_pNext;
}
*m_pQEntry, // pointer to the first unit queue
*m_pCurrQueue, // pointer to the current available queue
*m_pLastQueue; // pointer to the last unit queue
CUnit* m_pAvailUnit; // recent available unit
int m_iSize; // total size of the unit queue, in number of packets
int m_iCount; // total number of valid packets in the queue
int m_iMSS; // unit buffer size
int m_iIPversion; // IP version
private:
CUnitQueue(const CUnitQueue&);
CUnitQueue& operator=(const CUnitQueue&);
};
struct CSNode
{
CUDT* m_pUDT; // Pointer to the instance of CUDT socket
uint64_t m_llTimeStamp; // Time Stamp
int m_iHeapLoc; // location on the heap, -1 means not on the heap
};
class CSndUList
{
friend class CSndQueue;
public:
CSndUList();
~CSndUList();
public:
// Functionality:
// Insert a new UDT instance into the list.
// Parameters:
// 1) [in] ts: time stamp: next processing time
// 2) [in] u: pointer to the UDT instance
// Returned value:
// None.
void insert(int64_t ts, const CUDT* u);
// Functionality:
// Update the timestamp of the UDT instance on the list.
// Parameters:
// 1) [in] u: pointer to the UDT instance
// 2) [in] resechedule: if the timestampe shoudl be rescheduled
// Returned value:
// None.
void update(const CUDT* u, bool reschedule = true);
// Functionality:
// Retrieve the next packet and peer address from the first entry, and reschedule it in the queue.
// Parameters:
// 0) [out] addr: destination address of the next packet
// 1) [out] pkt: the next packet to be sent
// Returned value:
// 1 if successfully retrieved, -1 if no packet found.
int pop(sockaddr*& addr, CPacket& pkt);
// Functionality:
// Remove UDT instance from the list.
// Parameters:
// 1) [in] u: pointer to the UDT instance
// Returned value:
// None.
void remove(const CUDT* u);
// Functionality:
// Retrieve the next scheduled processing time.
// Parameters:
// None.
// Returned value:
// Scheduled processing time of the first UDT socket in the list.
uint64_t getNextProcTime();
private:
void insert_(int64_t ts, const CUDT* u);
void remove_(const CUDT* u);
private:
CSNode** m_pHeap; // The heap array
int m_iArrayLength; // physical length of the array
int m_iLastEntry; // position of last entry on the heap array
pthread_mutex_t m_ListLock;
pthread_mutex_t* m_pWindowLock;
pthread_cond_t* m_pWindowCond;
CTimer* m_pTimer;
private:
CSndUList(const CSndUList&);
CSndUList& operator=(const CSndUList&);
};
struct CRNode
{
CUDT* m_pUDT; // Pointer to the instance of CUDT socket
uint64_t m_llTimeStamp; // Time Stamp
CRNode* m_pPrev; // previous link
CRNode* m_pNext; // next link
bool m_bOnList; // if the node is already on the list
};
class CRcvUList
{
public:
CRcvUList();
~CRcvUList();
public:
// Functionality:
// Insert a new UDT instance to the list.
// Parameters:
// 1) [in] u: pointer to the UDT instance
// Returned value:
// None.
void insert(const CUDT* u);
// Functionality:
// Remove the UDT instance from the list.
// Parameters:
// 1) [in] u: pointer to the UDT instance
// Returned value:
// None.
void remove(const CUDT* u);
// Functionality:
// Move the UDT instance to the end of the list, if it already exists; otherwise, do nothing.
// Parameters:
// 1) [in] u: pointer to the UDT instance
// Returned value:
// None.
void update(const CUDT* u);
public:
CRNode* m_pUList; // the head node
private:
CRNode* m_pLast; // the last node
private:
CRcvUList(const CRcvUList&);
CRcvUList& operator=(const CRcvUList&);
};
class CHash
{
public:
CHash();
~CHash();
public:
// Functionality:
// Initialize the hash table.
// Parameters:
// 1) [in] size: hash table size
// Returned value:
// None.
void init(int size);
// Functionality:
// Look for a UDT instance from the hash table.
// Parameters:
// 1) [in] id: socket ID
// Returned value:
// Pointer to a UDT instance, or NULL if not found.
CUDT* lookup(int32_t id);
// Functionality:
// Insert an entry to the hash table.
// Parameters:
// 1) [in] id: socket ID
// 2) [in] u: pointer to the UDT instance
// Returned value:
// None.
void insert(int32_t id, CUDT* u);
// Functionality:
// Remove an entry from the hash table.
// Parameters:
// 1) [in] id: socket ID
// Returned value:
// None.
void remove(int32_t id);
private:
struct CBucket
{
int32_t m_iID; // Socket ID
CUDT* m_pUDT; // Socket instance
CBucket* m_pNext; // next bucket
} **m_pBucket; // list of buckets (the hash table)
int m_iHashSize; // size of hash table
private:
CHash(const CHash&);
CHash& operator=(const CHash&);
};
class CRendezvousQueue
{
public:
CRendezvousQueue();
~CRendezvousQueue();
public:
void insert(const UDTSOCKET& id, CUDT* u, int ipv, const sockaddr* addr, uint64_t ttl);
void remove(const UDTSOCKET& id);
CUDT* retrieve(const sockaddr* addr, UDTSOCKET& id);
void updateConnStatus();
private:
struct CRL
{
UDTSOCKET m_iID; // UDT socket ID (self)
CUDT* m_pUDT; // UDT instance
int m_iIPversion; // IP version
sockaddr* m_pPeerAddr; // UDT sonnection peer address
uint64_t m_ullTTL; // the time that this request expires
};
std::list<CRL> m_lRendezvousID; // The sockets currently in rendezvous mode
pthread_mutex_t m_RIDVectorLock;
};
class CSndQueue
{
friend class CUDT;
friend class CUDTUnited;
public:
CSndQueue();
~CSndQueue();
public:
// Functionality:
// Initialize the sending queue.
// Parameters:
// 1) [in] c: UDP channel to be associated to the queue
// 2) [in] t: Timer
// Returned value:
// None.
void init(CChannel* c, CTimer* t);
// Functionality:
// Send out a packet to a given address.
// Parameters:
// 1) [in] addr: destination address
// 2) [in] packet: packet to be sent out
// Returned value:
// Size of data sent out.
int sendto(const sockaddr* addr, CPacket& packet);
private:
#ifndef WIN32
static void* worker(void* param);
#else
static DWORD WINAPI worker(LPVOID param);
#endif
pthread_t m_WorkerThread;
private:
CSndUList* m_pSndUList; // List of UDT instances for data sending
CChannel* m_pChannel; // The UDP channel for data sending
CTimer* m_pTimer; // Timing facility
pthread_mutex_t m_WindowLock;
pthread_cond_t m_WindowCond;
volatile bool m_bClosing; // closing the worker
pthread_cond_t m_ExitCond;
private:
CSndQueue(const CSndQueue&);
CSndQueue& operator=(const CSndQueue&);
};
class CRcvQueue
{
friend class CUDT;
friend class CUDTUnited;
public:
CRcvQueue();
~CRcvQueue();
public:
// Functionality:
// Initialize the receiving queue.
// Parameters:
// 1) [in] size: queue size
// 2) [in] mss: maximum packet size
// 3) [in] version: IP version
// 4) [in] hsize: hash table size
// 5) [in] c: UDP channel to be associated to the queue
// 6) [in] t: timer
// Returned value:
// None.
void init(int size, int payload, int version, int hsize, CChannel* c, CTimer* t);
// Functionality:
// Read a packet for a specific UDT socket id.
// Parameters:
// 1) [in] id: Socket ID
// 2) [out] packet: received packet
// Returned value:
// Data size of the packet
int recvfrom(int32_t id, CPacket& packet);
private:
#ifndef WIN32
static void* worker(void* param);
#else
static DWORD WINAPI worker(LPVOID param);
#endif
pthread_t m_WorkerThread;
private:
CUnitQueue m_UnitQueue; // The received packet queue
CRcvUList* m_pRcvUList; // List of UDT instances that will read packets from the queue
CHash* m_pHash; // Hash table for UDT socket looking up
CChannel* m_pChannel; // UDP channel for receving packets
CTimer* m_pTimer; // shared timer with the snd queue
int m_iPayloadSize; // packet payload size
volatile bool m_bClosing; // closing the workder
pthread_cond_t m_ExitCond;
private:
int setListener(CUDT* u);
void removeListener(const CUDT* u);
void registerConnector(const UDTSOCKET& id, CUDT* u, int ipv, const sockaddr* addr, uint64_t ttl);
void removeConnector(const UDTSOCKET& id);
void setNewEntry(CUDT* u);
bool ifNewEntry();
CUDT* getNewEntry();
void storePkt(int32_t id, CPacket* pkt);
private:
pthread_mutex_t m_LSLock;
CUDT* m_pListener; // pointer to the (unique, if any) listening UDT entity
CRendezvousQueue* m_pRendezvousQueue; // The list of sockets in rendezvous mode
std::vector<CUDT*> m_vNewEntry; // newly added entries, to be inserted
pthread_mutex_t m_IDLock;
std::map<int32_t, std::queue<CPacket*> > m_mBuffer; // temporary buffer for rendezvous connection request
pthread_mutex_t m_PassLock;
pthread_cond_t m_PassCond;
private:
CRcvQueue(const CRcvQueue&);
CRcvQueue& operator=(const CRcvQueue&);
};
struct CMultiplexer
{
CSndQueue* m_pSndQueue; // The sending queue
CRcvQueue* m_pRcvQueue; // The receiving queue
CChannel* m_pChannel; // The UDP channel for sending and receiving
CTimer* m_pTimer; // The timer
int m_iPort; // The UDP port number of this multiplexer
int m_iIPversion; // IP version
int m_iMSS; // Maximum Segment Size
int m_iRefCount; // number of UDT instances that are associated with this multiplexer
bool m_bReusable; // if this one can be shared with others
int m_iID; // multiplexer ID
};
#endif
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