1 /*
2  * Definitions for tcp compression routines.
3  *
4  * $Id: vjcompress.h,v 1.3 1996/05/28 00:55:33 paulus Exp $
5  *
6  * Copyright (c) 1989 Regents of the University of California.
7  * All rights reserved.
8  *
9  * Redistribution and use in source and binary forms are permitted
10  * provided that the above copyright notice and this paragraph are
11  * duplicated in all such forms and that any documentation,
12  * advertising materials, and other materials related to such
13  * distribution and use acknowledge that the software was developed
14  * by the University of California, Berkeley.  The name of the
15  * University may not be used to endorse or promote products derived
16  * from this software without specific prior written permission.
17  * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR
18  * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED
19  * WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE.
20  *
21  *	Van Jacobson (van@helios.ee.lbl.gov), Dec 31, 1989:
22  *	- Initial distribution.
23  */
24 
25 #ifndef _VJCOMPRESS_H_
26 #define _VJCOMPRESS_H_
27 
28 #define MAX_STATES 16		/* must be > 2 and < 256 */
29 #define MAX_HDR	   128
30 
31 /*
32  * Compressed packet format:
33  *
34  * The first octet contains the packet type (top 3 bits), TCP
35  * 'push' bit, and flags that indicate which of the 4 TCP sequence
36  * numbers have changed (bottom 5 bits).  The next octet is a
37  * conversation number that associates a saved IP/TCP header with
38  * the compressed packet.  The next two octets are the TCP checksum
39  * from the original datagram.  The next 0 to 15 octets are
40  * sequence number changes, one change per bit set in the header
41  * (there may be no changes and there are two special cases where
42  * the receiver implicitly knows what changed -- see below).
43  *
44  * There are 5 numbers which can change (they are always inserted
45  * in the following order): TCP urgent pointer, window,
46  * acknowlegement, sequence number and IP ID.  (The urgent pointer
47  * is different from the others in that its value is sent, not the
48  * change in value.)  Since typical use of SLIP links is biased
49  * toward small packets (see comments on MTU/MSS below), changes
50  * use a variable length coding with one octet for numbers in the
51  * range 1 - 255 and 3 octets (0, MSB, LSB) for numbers in the
52  * range 256 - 65535 or 0.  (If the change in sequence number or
53  * ack is more than 65535, an uncompressed packet is sent.)
54  */
55 
56 /*
57  * Packet types (must not conflict with IP protocol version)
58  *
59  * The top nibble of the first octet is the packet type.  There are
60  * three possible types: IP (not proto TCP or tcp with one of the
61  * control flags set); uncompressed TCP (a normal IP/TCP packet but
62  * with the 8-bit protocol field replaced by an 8-bit connection id --
63  * this type of packet syncs the sender & receiver); and compressed
64  * TCP (described above).
65  *
66  * LSB of 4-bit field is TCP "PUSH" bit (a worthless anachronism) and
67  * is logically part of the 4-bit "changes" field that follows.  Top
68  * three bits are actual packet type.  For backward compatibility
69  * and in the interest of conserving bits, numbers are chosen so the
70  * IP protocol version number (4) which normally appears in this nibble
71  * means "IP packet".
72  */
73 
74 /* packet types */
75 #define TYPE_IP 0x40
76 #define TYPE_UNCOMPRESSED_TCP 0x70
77 #define TYPE_COMPRESSED_TCP 0x80
78 #define TYPE_ERROR 0x00
79 
80 /* Bits in first octet of compressed packet */
81 #define NEW_C	0x40	/* flag bits for what changed in a packet */
82 #define NEW_I	0x20
83 #define NEW_S	0x08
84 #define NEW_A	0x04
85 #define NEW_W	0x02
86 #define NEW_U	0x01
87 
88 /* reserved, special-case values of above */
89 #define SPECIAL_I (NEW_S|NEW_W|NEW_U)		/* echoed interactive traffic */
90 #define SPECIAL_D (NEW_S|NEW_A|NEW_W|NEW_U)	/* unidirectional data */
91 #define SPECIALS_MASK (NEW_S|NEW_A|NEW_W|NEW_U)
92 
93 #define TCP_PUSH_BIT 0x10
94 
95 
96 /*
97  * "state" data for each active tcp conversation on the wire.  This is
98  * basically a copy of the entire IP/TCP header from the last packet
99  * we saw from the conversation together with a small identifier
100  * the transmit & receive ends of the line use to locate saved header.
101  */
102 struct cstate {
103     struct cstate *cs_next;	/* next most recently used state (xmit only) */
104     u_short cs_hlen;		/* size of hdr (receive only) */
105     u_char cs_id;		/* connection # associated with this state */
106     u_char cs_filler;
107     union {
108 	char csu_hdr[MAX_HDR];
109 	struct ip csu_ip;	/* ip/tcp hdr from most recent packet */
110     } vjcs_u;
111 };
112 #define cs_ip vjcs_u.csu_ip
113 #define cs_hdr vjcs_u.csu_hdr
114 
115 /*
116  * all the state data for one serial line (we need one of these per line).
117  */
118 struct vjcompress {
119     struct cstate *last_cs;	/* most recently used tstate */
120     u_char last_recv;		/* last rcvd conn. id */
121     u_char last_xmit;		/* last sent conn. id */
122     u_short flags;
123 #ifndef VJ_NO_STATS
124     struct vjstat stats;
125 #endif
126     struct cstate tstate[MAX_STATES];	/* xmit connection states */
127     struct cstate rstate[MAX_STATES];	/* receive connection states */
128 };
129 
130 /* flag values */
131 #define VJF_TOSS 1		/* tossing rcvd frames because of input err */
132 
133 extern void  vj_compress_init __P((struct vjcompress *comp, int max_state));
134 extern u_int vj_compress_tcp __P((struct ip *ip, u_int mlen,
135 				struct vjcompress *comp, int compress_cid_flag,
136 				u_char **vjhdrp));
137 extern void  vj_uncompress_err __P((struct vjcompress *comp));
138 extern int   vj_uncompress_uncomp __P((u_char *buf, int buflen,
139 				struct vjcompress *comp));
140 extern int   vj_uncompress_tcp __P((u_char *buf, int buflen, int total_len,
141 				struct vjcompress *comp, u_char **hdrp,
142 				u_int *hlenp));
143 
144 #endif /* _VJCOMPRESS_H_ */
145