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HAM Radio 3.2
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Ham Radio Version 3.2 (Chestnut CD-ROMs)(1993).ISO
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n17jsrc
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tcp.h
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C/C++ Source or Header
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1991-03-18
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10KB
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292 lines
#ifndef _TCP_H
#define _TCP_H
/* TCP implementation. Follows RFC 793 as closely as possible */
#ifndef _GLOBAL_H
#include "global.h"
#endif
#ifndef _MBUF_H
#include "mbuf.h"
#endif
#ifndef _IFACE_H
#include "iface.h"
#endif
#ifndef _INTERNET_H
#include "internet.h"
#endif
#ifndef _IP_H
#include "ip.h"
#endif
#ifndef _NETUSER_H
#include "netuser.h"
#endif
#ifndef _TIMER_H
#include "timer.h"
#endif
#define DEF_WND 2048 /* Default receiver window */
#define RTTCACHE 16 /* # of TCP round-trip-time cache entries */
#define DEF_MSS 512 /* Default maximum segment size */
#define DEF_RTT 5000 /* Initial guess at round trip time (5 sec) */
#define MSL2 30 /* Guess at two maximum-segment lifetimes */
#define TCP_MAXOPT 40 /* Largest option field, bytes */
#define geniss() ((int32)msclock() << 12) /* Increment clock at 4 MB/sec */
/* Number of consecutive duplicate acks to trigger fast recovery */
#define TCPDUPACKS 3
/* Round trip timing parameters */
#define AGAIN 8 /* Average RTT gain = 1/8 */
#define LAGAIN 3 /* Log2(AGAIN) */
#define DGAIN 4 /* Mean deviation gain = 1/4 */
#define LDGAIN 2 /* log2(DGAIN) */
/* TCP segment header -- internal representation
* Note that this structure is NOT the actual header as it appears on the
* network (in particular, the offset and checksum fields are missing).
* All that knowledge is in the functions ntohtcp() and htontcp() in tcpsubr.c
*/
struct tcp {
int16 source; /* Source port */
int16 dest; /* Destination port */
int32 seq; /* Sequence number */
int32 ack; /* Acknowledgment number */
struct {
char congest; /* Echoed IP congestion experienced bit */
char urg;
char ack;
char psh;
char rst;
char syn;
char fin;
} flags;
int16 wnd; /* Receiver flow control window */
int16 checksum; /* Checksum */
int16 up; /* Urgent pointer */
int16 mss; /* Optional max seg size */
char options[TCP_MAXOPT]; /* Options field */
int optlen; /* Length of options field, bytes */
};
/* TCP options */
#define EOL_KIND 0
#define NOOP_KIND 1
#define MSS_KIND 2
#define TCPLEN 20
#define MSS_LENGTH 4
/* Resequencing queue entry */
struct reseq {
struct reseq *next; /* Linked-list pointer */
struct tcp seg; /* TCP header */
struct mbuf *bp; /* data */
int16 length; /* data length */
char tos; /* Type of service */
};
#define NULLRESEQ (struct reseq *)0
/* TCP connection control block */
struct tcb {
struct tcb *next; /* Linked list pointer */
struct connection conn;
char state; /* Connection state */
/* These numbers match those defined in the MIB for TCP connection state */
#define TCP_CLOSED 1
#define TCP_LISTEN 2
#define TCP_SYN_SENT 3
#define TCP_SYN_RECEIVED 4
#define TCP_ESTABLISHED 5
#define TCP_FINWAIT1 6
#define TCP_FINWAIT2 7
#define TCP_CLOSE_WAIT 8
#define TCP_LAST_ACK 9
#define TCP_CLOSING 10
#define TCP_TIME_WAIT 11
char reason; /* Reason for closing */
#define NORMAL 0 /* Normal close */
#define RESET 1 /* Reset by other end */
#define TIMEOUT 2 /* Excessive retransmissions */
#define NETWORK 3 /* Network problem (ICMP message) */
/* If reason == NETWORK, the ICMP type and code values are stored here */
char type;
char code;
/* Send sequence variables */
struct {
int32 una; /* First unacknowledged sequence number */
int32 nxt; /* Next sequence num to be sent for the first time */
int32 ptr; /* Working transmission pointer */
int32 wl1; /* Sequence number used for last window update */
int32 wl2; /* Ack number used for last window update */
int16 wnd; /* Other end's offered receive window */
int16 up; /* Send urgent pointer */
} snd;
int32 iss; /* Initial send sequence number */
int32 resent; /* Count of bytes retransmitted */
int16 cwind; /* Congestion window */
int16 ssthresh; /* Slow-start threshold */
int dupacks; /* Count of duplicate (do-nothing) ACKs */
/* Receive sequence variables */
struct {
int32 nxt; /* Incoming sequence number expected next */
int16 wnd; /* Our offered receive window */
int16 up; /* Receive urgent pointer */
} rcv;
int32 irs; /* Initial receive sequence number */
int32 rerecv; /* Count of duplicate bytes received */
int16 mss; /* Maximum segment size */
int16 window; /* Receiver window and send queue limit */
void (*r_upcall) __ARGS((struct tcb *tcb,int cnt));
/* Call when "significant" amount of data arrives */
void (*t_upcall) __ARGS((struct tcb *tcb,int cnt));
/* Call when ok to send more data */
void (*s_upcall) __ARGS((struct tcb *tcb,int old,int new));
/* Call when connection state changes */
struct { /* Control flags */
char force; /* We owe the other end an ACK or window update */
char clone; /* Server-type TCB, cloned on incoming SYN */
char retran; /* A retransmission has occurred */
char active; /* TCB created with an active open */
char synack; /* Our SYN has been acked */
char rtt_run; /* We're timing a segment */
char congest; /* Copy of last IP congest bit received */
} flags;
char tos; /* Type of service (for IP) */
int backoff; /* Backoff interval */
struct mbuf *rcvq; /* Receive queue */
struct mbuf *sndq; /* Send queue */
int16 rcvcnt; /* Count of items on rcvq */
int16 sndcnt; /* Number of unacknowledged sequence numbers on
* sndq. NB: includes SYN and FIN, which don't
* actually appear on sndq!
*/
struct reseq *reseq; /* Out-of-order segment queue */
struct timer timer; /* Retransmission timer */
int32 rtt_time; /* Stored clock values for RTT */
int32 rttseq; /* Sequence number being timed */
int32 srtt; /* Smoothed round trip time, milliseconds */
int32 mdev; /* Mean deviation, milliseconds */
int32 lastactive; /* Clock time when xmtr last active */
int user; /* User parameter (e.g., for mapping to an
* application control block
*/
};
#define NULLTCB (struct tcb *)0
/* TCP round-trip time cache */
struct tcp_rtt {
int32 addr; /* Destination IP address */
int32 srtt; /* Most recent SRTT */
int32 mdev; /* Most recent mean deviation */
};
#define NULLRTT (struct tcp_rtt *)0
extern struct tcp_rtt Tcp_rtt[];
/* TCP statistics counters */
struct tcp_stat {
int16 runt; /* Smaller than minimum size */
int16 checksum; /* TCP header checksum errors */
int16 conout; /* Outgoing connection attempts */
int16 conin; /* Incoming connection attempts */
int16 resets; /* Resets generated */
int16 bdcsts; /* Bogus broadcast packets */
};
extern struct mib_entry Tcp_mib[];
#define tcpRtoAlgorithm Tcp_mib[1].value.integer
#define tcpRtoMin Tcp_mib[2].value.integer
#define tcpRtoMax Tcp_mib[3].value.integer
#define tcpMaxConn Tcp_mib[4].value.integer
#define tcpActiveOpens Tcp_mib[5].value.integer
#define tcpPassiveOpens Tcp_mib[6].value.integer
#define tcpAttemptFails Tcp_mib[7].value.integer
#define tcpEstabResets Tcp_mib[8].value.integer
#define tcpCurrEstab Tcp_mib[9].value.integer
#define tcpInSegs Tcp_mib[10].value.integer
#define tcpOutSegs Tcp_mib[11].value.integer
#define tcpRetransSegs Tcp_mib[12].value.integer
#define tcpInErrs Tcp_mib[14].value.integer
#define tcpOutRsts Tcp_mib[15].value.integer
#define NUMTCPMIB 15
extern struct tcb *Tcbs;
extern int16 Tcp_mss;
extern int16 Tcp_window;
extern int32 Tcp_irtt;
extern int Tcp_trace;
extern int Tcp_syndata;
extern char *Tcpstates[];
extern char *Tcpreasons[];
/* In tcpcmd.c: */
void st_tcp __ARGS((struct tcb *tcb));
/* In tcphdr.c: */
struct mbuf *htontcp __ARGS((struct tcp *tcph,struct mbuf *data,
struct pseudo_header *ph));
int ntohtcp __ARGS((struct tcp *tcph,struct mbuf **bpp));
/* In tcpin.c: */
void reset __ARGS((struct ip *ip,struct tcp *seg));
void send_syn __ARGS((struct tcb *tcb));
void tcp_input __ARGS((struct iface *iface,struct ip *ip,struct mbuf *bp,
int rxbroadcast));
void tcp_icmp __ARGS((int32 icsource,int32 source,int32 dest,
char type,char code,struct mbuf **bpp));
/* In tcpsubr.c: */
void close_self __ARGS((struct tcb *tcb,int reason));
struct tcb *create_tcb __ARGS((struct connection *conn));
struct tcb *lookup_tcb __ARGS((struct connection *conn));
void rtt_add __ARGS((int32 addr,int32 rtt));
struct tcp_rtt *rtt_get __ARGS((int32 addr));
int seq_ge __ARGS((int32 x,int32 y));
int seq_gt __ARGS((int32 x,int32 y));
int seq_le __ARGS((int32 x,int32 y));
int seq_lt __ARGS((int32 x,int32 y));
int seq_within __ARGS((int32 x,int32 low,int32 high));
void setstate __ARGS((struct tcb *tcb,int newstate));
void tcp_garbage __ARGS((int red));
/* In tcpout.c: */
void tcp_output __ARGS((struct tcb *tcb));
/* In tcptimer.c: */
int32 backoff __ARGS((int n));
void tcp_timeout __ARGS((void *p));
/* In tcpuser.c: */
int close_tcp __ARGS((struct tcb *tcb));
int del_tcp __ARGS((struct tcb *tcb));
int kick __ARGS((int32 addr));
int kick_tcp __ARGS((struct tcb *tcb));
struct tcb *open_tcp __ARGS((struct socket *lsocket,struct socket *fsocket,
int mode,int16 window,
void (*r_upcall) __ARGS((struct tcb *tcb,int cnt)),
void (*t_upcall) __ARGS((struct tcb *tcb,int cnt)),
void (*s_upcall) __ARGS((struct tcb *tcb,int old,int new)),
int tos,int user));
int recv_tcp __ARGS((struct tcb *tcb,struct mbuf **bpp,int16 cnt));
void reset_all __ARGS((void));
void reset_tcp __ARGS((struct tcb *tcb));
int send_tcp __ARGS((struct tcb *tcb,struct mbuf *bp));
char *tcp_port __ARGS((int16 n));
int tcpval __ARGS((struct tcb *tcb));
#endif /* _TCP_H */