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461 lines
13 KiB
C
461 lines
13 KiB
C
/**
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tcppack.c
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Copyright (C) 1999-2000 RTFM, Inc.
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All Rights Reserved
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This package is a SSLv3/TLS protocol analyzer written by Eric Rescorla
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<ekr@rtfm.com> and licensed by RTFM, Inc.
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Redistribution and use in source and binary forms, with or without
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modification, are permitted provided that the following conditions
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are met:
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1. Redistributions of source code must retain the above copyright
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notice, this list of conditions and the following disclaimer.
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2. Redistributions in binary form must reproduce the above copyright
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notice, this list of conditions and the following disclaimer in the
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documentation and/or other materials provided with the distribution.
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3. All advertising materials mentioning features or use of this software
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must display the following acknowledgement:
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This product includes software developed by Eric Rescorla for
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RTFM, Inc.
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4. Neither the name of RTFM, Inc. nor the name of Eric Rescorla may be
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used to endorse or promote products derived from this
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software without specific prior written permission.
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THIS SOFTWARE IS PROVIDED BY ERIC RESCORLA AND RTFM, INC. ``AS IS'' AND
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ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
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FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY SUCH
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DAMAGE.
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$Id: tcppack.c,v 1.11 2002/09/09 21:02:58 ekr Exp $
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ekr@rtfm.com Tue Dec 29 12:43:39 1998
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*/
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#include "network.h"
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#ifndef _WIN32
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#include <sys/socket.h>
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#include <arpa/inet.h>
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#ifndef LINUX
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#include <netinet/tcp_seq.h>
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#else
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#define SEQ_LT(x, y) ((int)((x) - (y)) < 0)
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#endif
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#else
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#include <winsock2.h>
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#define SEQ_LT(x, y) ((int)((x) - (y)) < 0)
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#endif
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#include <ctype.h>
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#include "debug.h"
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#include "tcpconn.h"
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#include "tcppack.h"
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static int process_data_segment PROTO_LIST((tcp_conn * conn,
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proto_mod *handler,
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packet *p,
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stream_data *stream,
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int direction));
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static int new_connection PROTO_LIST(
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(proto_mod * handler, proto_ctx *ctx, packet *p, tcp_conn **connp));
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static int print_tcp_packet PROTO_LIST((packet * p));
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int STRIM PROTO_LIST((UINT4 _seq, segment *s));
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int process_tcp_packet(proto_mod *handler, proto_ctx *ctx, packet *p) {
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int r, _status;
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int direction;
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stream_data *stream;
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tcp_conn *conn;
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if(p->len < 20)
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ABORT(1);
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p->tcp = (struct tcphdr *)p->data;
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print_tcp_packet(p);
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if((r = tcp_find_conn(&conn, &direction, &p->i_addr.so_st,
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ntohs(p->tcp->th_sport), &p->r_addr.so_st,
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ntohs(p->tcp->th_dport)))) {
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if(r != R_NOT_FOUND)
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ABORT(r);
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if((p->tcp->th_flags & TH_SYN) != TH_SYN) {
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DBG((0, "TCP: rejecting packet from unknown connection, seq: %u\n",
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ntohl(p->tcp->th_seq)));
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return 0;
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}
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if((r = new_connection(handler, ctx, p, &conn)))
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ABORT(r);
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return 0;
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}
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stream = direction == DIR_R2I ? &conn->r2i : &conn->i2r;
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memcpy(&conn->last_seen_time, &p->ts, sizeof(struct timeval));
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switch(conn->state) {
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case TCP_STATE_SYN1:
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if(direction == DIR_R2I && (p->tcp->th_flags & TH_SYN)) {
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DBG((0, "SYN2 seq: %u", ntohl(p->tcp->th_seq)));
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conn->r2i.seq = ntohl(p->tcp->th_seq) + 1;
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conn->r2i.ack = ntohl(p->tcp->th_ack) + 1;
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conn->state = TCP_STATE_ACK;
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}
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break;
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case TCP_STATE_SYN2:
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if(direction == DIR_I2R && (p->tcp->th_flags & TH_SYN)) {
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DBG((0, "SYN1 seq: %u", ntohl(p->tcp->th_seq)));
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conn->i2r.seq = ntohl(p->tcp->th_seq) + 1;
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conn->i2r.ack = ntohl(p->tcp->th_ack) + 1;
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conn->state = TCP_STATE_ACK;
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}
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break;
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case TCP_STATE_ACK: {
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if(direction != DIR_I2R)
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break;
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DBG((0, "ACK seq: %u", ntohl(p->tcp->th_seq)));
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conn->i2r.ack = ntohl(p->tcp->th_ack) + 1;
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if(!(NET_print_flags & NET_PRINT_JSON)) {
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if(NET_print_flags & NET_PRINT_TYPESET)
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printf("\\fC");
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printf("New TCP connection #%d: %s(%d) <-> %s(%d)\n", conn->conn_number,
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conn->i_name, conn->i_port, conn->r_name, conn->r_port);
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if(NET_print_flags & NET_PRINT_TYPESET)
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printf("\\fR");
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}
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conn->state = TCP_STATE_ESTABLISHED;
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}
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case TCP_STATE_ESTABLISHED:
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case TCP_STATE_FIN1: {
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if(p->tcp->th_flags & TH_SYN)
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break;
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if((r = process_data_segment(conn, handler, p, stream, direction)))
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ABORT(r);
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} break;
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default:
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break;
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}
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if(conn->state == TCP_STATE_CLOSED)
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tcp_destroy_conn(conn);
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_status = 0;
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abort:
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return _status;
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}
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static int new_connection(proto_mod *handler,
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proto_ctx *ctx,
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packet *p,
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tcp_conn **connp) {
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int r, _status;
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tcp_conn *conn = 0;
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if((p->tcp->th_flags & (TH_SYN | TH_ACK)) == TH_SYN) {
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if((r = tcp_create_conn(&conn, &p->i_addr.so_st, ntohs(p->tcp->th_sport),
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&p->r_addr.so_st, ntohs(p->tcp->th_dport))))
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ABORT(r);
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DBG((0, "SYN1 seq: %u", ntohl(p->tcp->th_seq)));
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conn->i2r.seq = ntohl(p->tcp->th_seq) + 1;
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conn->i2r.ack = ntohl(p->tcp->th_ack) + 1;
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conn->state = TCP_STATE_SYN1;
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} else { // SYN&ACK comes first somehow
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if((r = tcp_create_conn(&conn, &p->r_addr.so_st, ntohs(p->tcp->th_dport),
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&p->i_addr.so_st, ntohs(p->tcp->th_sport))))
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ABORT(r);
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DBG((0, "SYN2 seq: %u", ntohl(p->tcp->th_seq)));
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conn->r2i.seq = ntohl(p->tcp->th_seq) + 1;
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conn->r2i.ack = ntohl(p->tcp->th_ack) + 1;
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conn->state = TCP_STATE_SYN2;
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}
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memcpy(&conn->start_time, &p->ts, sizeof(struct timeval));
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memcpy(&conn->last_seen_time, &p->ts, sizeof(struct timeval));
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lookuphostname(&conn->i_addr, &conn->i_name);
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lookuphostname(&conn->r_addr, &conn->r_name);
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addrtotext(&conn->i_addr, &conn->i_num);
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addrtotext(&conn->r_addr, &conn->r_num);
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if((r = create_proto_handler(handler, ctx, &conn->analyzer, conn, &p->ts)))
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ABORT(r);
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*connp = conn;
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_status = 0;
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abort:
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return _status;
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}
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/*#define STRIM(_seq,s) { \
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int l;\
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int off;\
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l=(s)->s_seq - _seq; \
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off=(s)->p->tcp->th_off*4; \
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if(l>((s)->p->len-off)) ERETURN(R_BAD_DATA);\
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(s)->data=(s)->p->data + off + (l) ; \
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(s)->len=(s)->p->len - off + (l); \
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(s)->s_seq += (l); \
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if((s)->next) { \
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if((s)->s_seq >= (s)->next->s_seq) {\
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l=(s)->next->s_seq - (s)->s_seq; \
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if((s)->len){\
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(s)->len-=(l+1); \
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(s)->s_seq-=(l+1);\
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}\
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}\
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}\
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}
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*/
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static int process_data_segment(tcp_conn *conn,
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proto_mod *handler,
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packet *p,
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stream_data *stream,
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int direction) {
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int r, _status;
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tcp_seq seq, right_edge;
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segment _seg;
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segment *seg, *nseg = 0;
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long l;
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l = p->len - p->tcp->th_off * 4;
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if(l < 0) {
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fprintf(stderr,
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"Malformed packet, computed TCP segment size is negative, skipping "
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"...\n");
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return 0;
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}
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if(stream->close) {
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DBG((0, "Rejecting packet received after FIN: %u:%u(%u)",
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ntohl(p->tcp->th_seq), ntohl(p->tcp->th_seq + l), l));
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return 0;
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}
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/*The idea here is to pass all available segments
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to the analyzer at once. Since we want to preserve
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the segment packet data, we pass the data as a linked list of
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segments*/
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seq = ntohl(p->tcp->th_seq);
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/*Add ACK processing logic here <TODO>*/
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if(p->tcp->th_flags & TH_ACK) {
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long acknum, acked;
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acknum = ntohl(p->tcp->th_ack);
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acked = acknum - stream->ack;
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if(acked && !l) {
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/*
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if((r=timestamp_diff(&p->ts,&conn->start_time,&dt)))
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ERETURN(r);
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printf("%d%c%4.4d ",dt.tv_sec,'.',dt.tv_usec/100);
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if(direction == DIR_R2I)
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printf("S>C ");
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else
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printf("C>S ");
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printf("ACK (%d)\n",acked); */
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}
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stream->ack = acknum;
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}
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DBG((0, "Stream Seq %u ", stream->seq));
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/* Check to see if this packet has been processed already */
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right_edge = seq + (p->len - (p->tcp->th_off) * 4);
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if(!(p->tcp->th_flags & (TH_RST)) && SEQ_LT(right_edge, stream->seq))
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return 0;
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if(SEQ_LT(stream->seq, seq)) {
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/* Out of order segment */
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tcp_seq left_edge;
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for(seg = 0; seg; seg = seg ? seg->next : stream->oo_queue) {
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if(seg->next->s_seq > seq)
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break;
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}
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if(!(nseg = (segment *)calloc(1, sizeof(segment))))
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ABORT(R_NO_MEMORY);
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if((r = packet_copy(p, &nseg->p)))
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ABORT(r);
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nseg->s_seq = seq;
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/*Insert this segment into the reassembly queue*/
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if(seg) {
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nseg->next = seg->next;
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seg->next = nseg;
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} else {
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nseg->next = stream->oo_queue;
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stream->oo_queue = nseg;
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}
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left_edge = seg ? seg->s_seq : stream->seq;
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STRIM(left_edge, nseg);
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} else {
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/*First segment -- just thread the unallocated data on the
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list so we can pass to the analyzer*/
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_seg.next = 0;
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_seg.p = p;
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_seg.s_seq = seq;
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/*Now split the queue. Assemble as many packets as possible
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and pass them to the analyzer. But process anything with a
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RST in it immediately and ignore any data that might be in it
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*/
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if(_seg.p->tcp->th_flags & (TH_RST)) {
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stream->close = _seg.p->tcp->th_flags & (TH_RST);
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seg = &_seg;
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conn->state = TCP_STATE_CLOSED;
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} else {
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STRIM(stream->seq, &_seg);
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if(_seg.p->tcp->th_flags & (TH_FIN)) {
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stream->close = _seg.p->tcp->th_flags & (TH_FIN);
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seg = &_seg;
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} else {
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for(seg = &_seg; seg->next; seg = seg->next) {
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if(seg->p->tcp->th_flags & (TH_FIN)) {
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stream->close = _seg.p->tcp->th_flags & (TH_FIN);
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break;
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}
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if(seg->len + seg->s_seq != seg->next->s_seq)
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break;
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}
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}
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/*Note that this logic is broken because it doesn't
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do the CLOSE_WAIT/FIN_WAIT stuff, but it's probably
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close enough, since this is a higher level protocol analyzer,
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not a TCP analyzer*/
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if(seg->p->tcp->th_flags & (TH_FIN)) {
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if(conn->state == TCP_STATE_ESTABLISHED)
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conn->state = TCP_STATE_FIN1;
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else
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conn->state = TCP_STATE_CLOSED;
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}
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free_tcp_segment_queue(stream->oo_queue);
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stream->oo_queue = seg->next;
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seg->next = 0;
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stream->seq = seg->s_seq + seg->len;
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DBG((0, "Analyzing segment: %u:%u(%u)", seg->s_seq, seg->s_seq + seg->len,
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seg->len));
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if((r = conn->analyzer->vtbl->data(conn->analyzer->obj, &_seg,
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direction))) {
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DBG((0, "ABORT due to segment: %u:%u(%u)", seg->s_seq,
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seg->s_seq + seg->len, seg->len));
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ABORT(r);
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}
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}
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if(stream->close) {
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DBG((0, "Closing with segment: %u:%u(%u)", seg->s_seq, stream->seq,
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seg->len));
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if((r = conn->analyzer->vtbl->close(conn->analyzer->obj, p, direction))) {
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DBG((0, "ABORT due to segment: %u:%u(%u)", seg->s_seq, stream->seq,
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seg->len));
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ABORT(r);
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}
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}
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free_tcp_segment_queue(_seg.next);
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}
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_status = 0;
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abort:
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return _status;
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}
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static int print_tcp_packet(packet *p) {
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char *src = 0, *dst = 0;
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struct timeval *ts = &p->ts;
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if(!(NET_print_flags & NET_PRINT_TCP_HDR))
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return 0;
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lookuphostname(&p->i_addr.so_st, &src);
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lookuphostname(&p->r_addr.so_st, &dst);
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if(!(NET_print_flags & NET_PRINT_JSON)) {
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if(NET_print_flags & NET_PRINT_TS) {
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printf("%lld%c%4.4lld ", (long long)ts->tv_sec, '.',
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(long long)ts->tv_usec / 100);
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}
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printf("TCP: %s(%d) -> %s(%d) ", src, ntohs(p->tcp->th_sport), dst,
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ntohs(p->tcp->th_dport));
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printf("Seq %u.(%d) ", ntohl(p->tcp->th_seq), p->len - p->tcp->th_off * 4);
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if(p->tcp->th_flags & TH_ACK)
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printf("ACK %u ", ntohl(p->tcp->th_ack));
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if(p->tcp->th_flags & TH_FIN)
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printf("FIN ");
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if(p->tcp->th_flags & TH_SYN)
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printf("SYN ");
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if(p->tcp->th_flags & TH_RST)
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printf("RST ");
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if(p->tcp->th_flags & TH_PUSH)
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printf("PUSH ");
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if(p->tcp->th_flags & TH_URG)
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printf("URG ");
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printf("\n");
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}
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free(src);
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free(dst);
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return 0;
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}
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int STRIM(UINT4 _seq, segment *s) {
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int l;
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int off;
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/* Test: this shouldn't damage things at all
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s->p->data-=4;
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s->p->len+=4;
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s->s_seq-=4;
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*/
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l = _seq - (s)->s_seq; /* number of bytes to trim
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from the left of s */
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off = (s)->p->tcp->th_off * 4;
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if(l > ((s)->p->len - off))
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ERETURN(R_BAD_DATA);
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/* Now remove the leading l bytes */
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(s)->data = (s)->p->data + off + (l);
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(s)->len = (s)->p->len - (off + l);
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(s)->s_seq += (l);
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/* Now trim to the right if necessary */
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if((s)->next) {
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if((s)->s_seq >= (s)->next->s_seq) {
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l = (s)->s_seq - (s)->next->s_seq;
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if((s)->len) {
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(s)->len -= (l + 1);
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}
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}
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}
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return 0;
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}
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