RetroShare/libretroshare/src/tcponudp/tcpstream.h

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/*
* "$Id: tcpstream.h,v 1.5 2007-02-18 21:46:50 rmf24 Exp $"
*
* TCP-on-UDP (tou) network interface for RetroShare.
*
* Copyright 2004-2006 by Robert Fernie.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License Version 2 as published by the Free Software Foundation.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
* USA.
*
* Please report all bugs and problems to "retroshare@lunamutt.com".
*
*/
#ifndef TOU_TCP_PROTO_H
#define TOU_TCP_PROTO_H
/* so the packet will contain
* a tcp header + data.
*
* This is done simplistically for speed.
*/
#include "tcppacket.h"
#include "udpsorter.h"
#define MAX_SEG 1500
#define TCP_MAX_SEQ UINT_MAX
#define TCP_MAX_WIN 65500
#define TCP_ALIVE_TIMEOUT 20 /* 20 sec */
#define TCP_RETRANS_TIMEOUT 1 /* 1 sec (Initial value) */
#define kNoPktTimeout 60 /* 1 min */
#define TCP_CLOSED 0
#define TCP_LISTEN 1
#define TCP_SYN_SENT 2
#define TCP_SYN_RCVD 3
#define TCP_ESTABLISHED 4
#define TCP_FIN_WAIT_1 5
#define TCP_FIN_WAIT_2 6
#define TCP_TIMED_WAIT 7
#define TCP_CLOSING 8
#define TCP_CLOSE_WAIT 9
#define TCP_LAST_ACK 10
class dataBuffer
{
public:
uint8 data[MAX_SEG];
};
#include <list>
#include <deque>
class TcpStream: public UdpPeer
{
public:
/* Top-Level exposed */
TcpStream(UdpSorter *lyr);
virtual ~TcpStream() { return; }
/* user interface */
int status(std::ostream &out);
int connect(const struct sockaddr_in &raddr);
int listenfor(const struct sockaddr_in &raddr);
bool isConnected();
/* get tcp information */
bool getRemoteAddress(struct sockaddr_in &raddr);
uint8 TcpState();
int TcpErrorState();
/* stream Interface */
int write(char *dta, int size); /* write -> pkt -> net */
int read(char *dta, int size); /* net -> pkt -> read */
/* check ahead for allowed bytes */
int write_allowed();
int read_pending();
int closeWrite(); /* non-standard, but for clean exit */
int close(); /* standard unix behaviour */
int tick(); /* check iface etc */
/* Callback Funcion from UDP Layers */
virtual void recvPkt(void *data, int size); /* overloaded */
/* Exposed Data Counting */
bool widle(); /* write idle */
bool ridle(); /* read idle */
uint32 wbytes();
uint32 rbytes();
private:
/* Internal Functions - use the Mutex (not reentrant) */
/* Internal Functions - that don't need mutex protection */
uint32 genSequenceNo();
bool isOldSequence(uint32 tst, uint32 curr);
RsMutex tcpMtx;
/* Internal Functions - only called inside mutex protection */
int cleanup();
/* incoming data */
int recv_check();
int handleIncoming(TcpPacket *pkt);
int incoming_Closed(TcpPacket *pkt);
int incoming_SynSent(TcpPacket *pkt);
int incoming_SynRcvd(TcpPacket *pkt);
int incoming_Established(TcpPacket *pkt);
int incoming_FinWait1(TcpPacket *pkt);
int incoming_FinWait2(TcpPacket *pkt);
int incoming_TimedWait(TcpPacket *pkt);
int incoming_Closing(TcpPacket *pkt);
int incoming_CloseWait(TcpPacket *pkt);
int incoming_LastAck(TcpPacket *pkt);
int check_InPkts();
int UpdateInWinSize();
int int_read_pending();
/* outgoing data */
int send();
int toSend(TcpPacket *pkt, bool retrans = true);
void acknowledge();
int retrans();
int sendAck();
void setRemoteAddress(const struct sockaddr_in &raddr);
int getTTL() { return ttl; }
void setTTL(int t) { ttl = t; }
/* data counting */
uint32 int_wbytes();
uint32 int_rbytes();
/* Internal Data - must have mutex to access! */
/* data (in -> pkts) && (pkts -> out) */
/* for small amounts of data */
uint8 inData[MAX_SEG];
uint32 inSize;
/* two variable sized buffers required here */
uint8 outDataRead[MAX_SEG];
uint32 outSizeRead;
uint8 outDataNet[MAX_SEG];
uint32 outSizeNet;
/* get packed into here as size increases */
std::deque<dataBuffer *> inQueue, outQueue;
/* packets waiting for acks */
std::list<TcpPacket *> inPkt, outPkt;
uint8 state; /* stream state */
bool inStreamActive;
bool outStreamActive;
uint32 outSeqno; /* next out */
uint32 outAcked; /* other size has received */
uint32 outWinSize; /* we allowed to send */
uint32 inAckno; /* next expected */
uint32 inWinSize; /* allowing other to send */
uint32 rrt;
/* some (initially) consts */
uint32 maxWinSize;
uint32 keepAliveTimeout;
double retransTimeout;
/* some timers */
double keepAliveTimer;
double lastIncomingPkt;
/* tracking */
uint32 lastSentAck;
uint32 lastSentWinSize;
uint32 initOurSeqno;
uint32 initPeerSeqno;
uint32 lastWriteTF,lastReadTF;
uint16 wcount, rcount;
int errorState;
/* RoundTripTime estimations */
double rtt_est;
double rtt_dev;
/* congestion limits */
uint32 congestThreshold;
uint32 congestWinSize;
uint32 congestUpdate;
/* existing TTL for this stream (tweaked at startup) */
int ttl;
struct sockaddr_in peeraddr;
bool peerKnown;
/* UdpSorter (has own Mutex!) */
UdpSorter *udp;
};
/* for debugging */
#ifdef TCP_DEBUG_STREAM_EXTRA /* for extra checking! */
int setupBinaryCheck(std::string fname);
#endif
#endif