forked from osmocom/wireshark
286 lines
9.8 KiB
C
286 lines
9.8 KiB
C
/* packet-tcp.h
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*
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* $Id$
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*
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* Wireshark - Network traffic analyzer
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* By Gerald Combs <gerald@wireshark.org>
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* Copyright 1998 Gerald Combs
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
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*/
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#ifndef __PACKET_TCP_H__
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#define __PACKET_TCP_H__
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#ifndef __CONVERSATION_H__
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#include <epan/conversation.h>
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#endif
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/* TCP flags */
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#define TH_FIN 0x0001
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#define TH_SYN 0x0002
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#define TH_RST 0x0004
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#define TH_PUSH 0x0008
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#define TH_ACK 0x0010
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#define TH_URG 0x0020
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#define TH_ECN 0x0040
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#define TH_CWR 0x0080
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#define TH_NS 0x0100
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#define TH_RES 0x0E00 /* 3 reserved bits */
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#define TH_MASK 0x0FFF
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/* Idea for gt: either x > y, or y is much bigger (assume wrap) */
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#define GT_SEQ(x, y) ((gint32)((y) - (x)) < 0)
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#define LT_SEQ(x, y) ((gint32)((x) - (y)) < 0)
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#define GE_SEQ(x, y) ((gint32)((y) - (x)) <= 0)
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#define LE_SEQ(x, y) ((gint32)((x) - (y)) <= 0)
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#define EQ_SEQ(x, y) ((x) == (y))
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/* the tcp header structure, passed to tap listeners */
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typedef struct tcpheader {
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guint32 th_seq;
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guint32 th_ack;
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gboolean th_have_seglen; /* TRUE if th_seglen is valid */
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guint32 th_seglen;
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guint32 th_win; /* make it 32 bits so we can handle some scaling */
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guint16 th_sport;
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guint16 th_dport;
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guint8 th_hlen;
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guint16 th_flags;
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guint32 th_stream; /* this stream index field is included to help differentiate when address/port pairs are reused */
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address ip_src;
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address ip_dst;
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/* This is the absolute maximum we could find in TCP options (RFC2018, section 3) */
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#define MAX_TCP_SACK_RANGES 4
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guint8 num_sack_ranges;
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guint32 sack_left_edge[MAX_TCP_SACK_RANGES];
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guint32 sack_right_edge[MAX_TCP_SACK_RANGES];
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} tcp_info_t;
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/*
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* Private data passed from the TCP dissector to subdissectors. Passed to the
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* subdissectors in pinfo->private_data
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*/
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struct tcpinfo {
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guint32 seq; /* Sequence number of first byte in the data */
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guint32 nxtseq; /* Sequence number of first byte after data */
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guint32 lastackseq; /* Sequence number of last ack */
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gboolean is_reassembled; /* This is reassembled data. */
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gboolean urgent; /* TRUE if "urgent_pointer" is valid */
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guint16 urgent_pointer; /* Urgent pointer value for the current packet. */
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};
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/*
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* Loop for dissecting PDUs within a TCP stream; assumes that a PDU
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* consists of a fixed-length chunk of data that contains enough information
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* to determine the length of the PDU, followed by rest of the PDU.
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*
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* The first three arguments are the arguments passed to the dissector
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* that calls this routine.
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*
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* "proto_desegment" is the dissector's flag controlling whether it should
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* desegment PDUs that cross TCP segment boundaries.
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*
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* "fixed_len" is the length of the fixed-length part of the PDU.
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*
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* "get_pdu_len()" is a routine called to get the length of the PDU from
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* the fixed-length part of the PDU; it's passed "pinfo", "tvb" and "offset".
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*
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* "dissect_pdu()" is the routine to dissect a PDU.
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*/
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extern void
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tcp_dissect_pdus(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree,
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gboolean proto_desegment, guint fixed_len,
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guint (*get_pdu_len)(packet_info *, tvbuff_t *, int),
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dissector_t dissect_pdu);
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extern struct tcp_multisegment_pdu *
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pdu_store_sequencenumber_of_next_pdu(packet_info *pinfo, guint32 seq, guint32 nxtpdu, emem_tree_t *multisegment_pdus);
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typedef struct _tcp_unacked_t {
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struct _tcp_unacked_t *next;
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guint32 frame;
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guint32 seq;
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guint32 nextseq;
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nstime_t ts;
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} tcp_unacked_t;
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struct tcp_acked {
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guint32 frame_acked;
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nstime_t ts;
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guint32 rto_frame;
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nstime_t rto_ts; /* Time since previous packet for
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retransmissions. */
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guint16 flags; /* see TCP_A_* in packet-tcp.c */
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guint32 dupack_num; /* dup ack number */
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guint32 dupack_frame; /* dup ack to frame # */
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guint32 bytes_in_flight; /* number of bytes in flight */
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};
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/* One instance of this structure is created for each pdu that spans across
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* multiple tcp segments.
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*/
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struct tcp_multisegment_pdu {
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guint32 seq;
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guint32 nxtpdu;
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guint32 first_frame;
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guint32 last_frame;
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nstime_t last_frame_time;
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guint32 flags;
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#define MSP_FLAGS_REASSEMBLE_ENTIRE_SEGMENT 0x00000001
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};
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typedef struct _tcp_flow_t {
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guint32 base_seq; /* base seq number (used by relative sequence numbers)
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* or 0 if not yet known.
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*/
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tcp_unacked_t *segments;
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guint32 lastack; /* last seen ack */
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nstime_t lastacktime; /* Time of the last ack packet */
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guint32 lastnondupack; /* frame number of last seen non dupack */
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guint32 dupacknum; /* dupack number */
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guint32 nextseq; /* highest seen nextseq */
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guint32 maxseqtobeacked; /* highest seen continuous seq number (without hole in the stream) from the fwd party,
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this is the maximum seq number that can be acked by the rev party in normal case.
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If the rev party sends an ACK beyond this seq number it indicates TCP_A_ACK_LOST_PACKET contition */
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guint32 nextseqframe; /* frame number for segment with highest
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* sequence number
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*/
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nstime_t nextseqtime; /* Time of the nextseq packet so we can
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* distinguish between retransmission,
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* fast retransmissions and outoforder
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*/
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guint32 window; /* last seen window */
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gint16 win_scale; /* -1 is we dont know, -2 is window scaling is not used */
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gint16 scps_capable; /* flow advertised scps capabilities */
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guint16 maxsizeacked; /* 0 if not yet known */
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gboolean valid_bif; /* if lost pkts, disable BiF until ACK is recvd */
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/* This tcp flow/session contains only one single PDU and should
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* be reassembled until the final FIN segment.
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*/
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#define TCP_FLOW_REASSEMBLE_UNTIL_FIN 0x0001
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guint16 flags;
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guint32 lastsegmentflags;
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/* This tree is indexed by sequence number and keeps track of all
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* all pdus spanning multiple segments for this flow.
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*/
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emem_tree_t *multisegment_pdus;
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/* Process info, currently discovered via IPFIX */
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guint32 process_uid; /* UID of local process */
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guint32 process_pid; /* PID of local process */
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gchar *username; /* Username of the local process */
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gchar *command; /* Local process name + path + args */
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} tcp_flow_t;
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struct tcp_analysis {
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/* These two structs are managed based on comparing the source
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* and destination addresses and, if they're equal, comparing
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* the source and destination ports.
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*
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* If the source is greater than the destination, then stuff
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* sent from src is in ual1.
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*
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* If the source is less than the destination, then stuff
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* sent from src is in ual2.
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*
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* XXX - if the addresses and ports are equal, we don't guarantee
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* the behavior.
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*/
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tcp_flow_t flow1;
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tcp_flow_t flow2;
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/* These pointers are set by get_tcp_conversation_data()
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* fwd point in the same direction as the current packet
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* and rev in the reverse direction
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*/
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tcp_flow_t *fwd;
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tcp_flow_t *rev;
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/* This pointer is NULL or points to a tcp_acked struct if this
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* packet has "interesting" properties such as being a KeepAlive or
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* similar
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*/
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struct tcp_acked *ta;
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/* This structure contains a tree containing all the various ta's
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* keyed by frame number.
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*/
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emem_tree_t *acked_table;
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/* Remember the timestamp of the first frame seen in this tcp
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* conversation to be able to calculate a relative time compared
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* to the start of this conversation
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*/
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nstime_t ts_first;
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/* Remember the timestamp of the frame that was last seen in this
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* tcp conversation to be able to calculate a delta time compared
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* to previous frame in this conversation
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*/
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nstime_t ts_prev;
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/* Keep track of tcp stream numbers instead of using the conversation
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* index (as how it was done before). This prevents gaps in the
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* stream index numbering
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*/
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guint32 stream;
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/* Remembers the server port on the SYN (or SYN|ACK) packet to
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* help determine which dissector to call
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*/
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guint16 server_port;
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};
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/* Structure that keeps per packet data. First used to be able
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* to calculate the time_delta from the last seen frame in this
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* TCP conversation. Can be extended for future use.
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*/
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struct tcp_per_packet_data_t {
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nstime_t ts_del;
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};
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extern void dissect_tcp_payload(tvbuff_t *tvb, packet_info *pinfo, int offset,
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guint32 seq, guint32 nxtseq, guint32 sport,
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guint32 dport, proto_tree *tree,
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proto_tree *tcp_tree,
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struct tcp_analysis *tcpd);
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extern struct tcp_analysis *get_tcp_conversation_data(conversation_t *conv,
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packet_info *pinfo);
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extern gboolean decode_tcp_ports(tvbuff_t *, int, packet_info *, proto_tree *, int, int, struct tcp_analysis *);
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/** Associate process information with a given flow
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*
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* @param frame_num The frame number
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* @param local_addr The local IPv4 or IPv6 address of the process
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* @param remote_addr The remote IPv4 or IPv6 address of the process
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* @param local_port The local TCP port of the process
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* @param remote_port The remote TCP port of the process
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* @param uid The numeric user ID of the process
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* @param pid The numeric PID of the process
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* @param username Ephemeral string containing the full or partial process name
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* @param command Ephemeral string containing the full or partial process name
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*/
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extern void add_tcp_process_info(guint32 frame_num, address *local_addr, address *remote_addr, guint16 local_port, guint16 remote_port, guint32 uid, guint32 pid, gchar *username, gchar *command);
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#endif
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