packet-tns源码

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最新推荐文章于 2022-01-23 21:29:06 发布

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原帖地址：https://summersoft.fay.ar.us/repos/ethereal/branches/redhat-9/ethereal-0.10.3-1/ethereal-0.10.3/packet-tns.h

https://summersoft.fay.ar.us/repos/ethereal/branches/redhat-9/ethereal-0.10.3-1/ethereal-0.10.3/packet-tns.c

/* packet-tns.h

* $Id: packet-tns.h,v 1.5 2002/08/28 21:00:36 jmayer Exp $

* Ethereal - Network traffic analyzer

* By Gerald Combs <gerald@zing.org>

* This program is free software; you can redistribute it and/or

* modify it under the terms of the GNU General Public License

* as published by the Free Software Foundation; either version 2

* of the License, or (at your option) any later version.

* This program 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 General Public License for more details.

* You should have received a copy of the GNU General Public License

* along with this program; if not, write to the Free Software

* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.

#ifndef PACKET_TNS_H

#define PACKET_TNS_H

/* Packet Types */

#define TNS_TYPE_CONNECT 1

#define TNS_TYPE_ACCEPT 2

#define TNS_TYPE_ACK 3

#define TNS_TYPE_REFUSE 4

#define TNS_TYPE_REDIRECT 5

#define TNS_TYPE_DATA 6

#define TNS_TYPE_NULL 7

#define TNS_TYPE_ABORT 9

#define TNS_TYPE_RESEND 11

#define TNS_TYPE_MARKER 12

#define TNS_TYPE_ATTENTION 13

#define TNS_TYPE_CONTROL 14

#define TNS_TYPE_MAX 19

#endif

/* packet-tns.c

* Routines for Oracle TNS packet dissection

* $Id: packet-tns.c,v 1.39 2003/02/05 08:06:40 guy Exp $

* Ethereal - Network traffic analyzer

* By Gerald Combs <gerald@ethereal.com>

* Copied from packet-tftp.c

* This program is free software; you can redistribute it and/or

* modify it under the terms of the GNU General Public License

* as published by the Free Software Foundation; either version 2

* of the License, or (at your option) any later version.

* This program 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 General Public License for more details.

* You should have received a copy of the GNU General Public License

* along with this program; if not, write to the Free Software

* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.

#ifdef HAVE_CONFIG_H

# include " config.h "

#endif

#include < stdio.h >

#include < string .h >

#include < glib.h >

#include < epan / packet.h >

#include " packet-tcp.h "

#include " packet-tns.h "

#include " prefs.h "

/* desegmentation of TNS over TCP */

static gboolean tns_desegment = TRUE;

static int proto_tns = - 1 ;

static int hf_tns_request = - 1 ;

static int hf_tns_response = - 1 ;

static int hf_tns_length = - 1 ;

static int hf_tns_packet_checksum = - 1 ;

static int hf_tns_header_checksum = - 1 ;

static int hf_tns_packet_type = - 1 ;

static int hf_tns_reserved_byte = - 1 ;

static int hf_tns_connect = - 1 ;

static int hf_tns_version = - 1 ;

static int hf_tns_compat_version = - 1 ;

static int hf_tns_service_options = - 1 ;

static int hf_tns_sopt_flag_bconn = - 1 ;

static int hf_tns_sopt_flag_pc = - 1 ;

static int hf_tns_sopt_flag_hc = - 1 ;

static int hf_tns_sopt_flag_fd = - 1 ;

static int hf_tns_sopt_flag_hd = - 1 ;

static int hf_tns_sopt_flag_dc1 = - 1 ;

static int hf_tns_sopt_flag_dc2 = - 1 ;

static int hf_tns_sopt_flag_dio = - 1 ;

static int hf_tns_sopt_flag_ap = - 1 ;

static int hf_tns_sopt_flag_ra = - 1 ;

static int hf_tns_sopt_flag_sa = - 1 ;

static int hf_tns_sdu_size = - 1 ;

static int hf_tns_max_tdu_size = - 1 ;

static int hf_tns_nt_proto_characteristics = - 1 ;

static int hf_tns_ntp_flag_hangon = - 1 ;

static int hf_tns_ntp_flag_crel = - 1 ;

static int hf_tns_ntp_flag_tduio = - 1 ;

static int hf_tns_ntp_flag_srun = - 1 ;

static int hf_tns_ntp_flag_dtest = - 1 ;

static int hf_tns_ntp_flag_cbio = - 1 ;

static int hf_tns_ntp_flag_asio = - 1 ;

static int hf_tns_ntp_flag_pio = - 1 ;

static int hf_tns_ntp_flag_grant = - 1 ;

static int hf_tns_ntp_flag_handoff = - 1 ;

static int hf_tns_ntp_flag_sigio = - 1 ;

static int hf_tns_ntp_flag_sigpipe = - 1 ;

static int hf_tns_ntp_flag_sigurg = - 1 ;

static int hf_tns_ntp_flag_urgentio = - 1 ;

static int hf_tns_ntp_flag_fdio = - 1 ;

static int hf_tns_ntp_flag_testop = - 1 ;

static int hf_tns_line_turnaround = - 1 ;

static int hf_tns_value_of_one = - 1 ;

static int hf_tns_connect_data_length = - 1 ;

static int hf_tns_connect_data_offset = - 1 ;

static int hf_tns_connect_data_max = - 1 ;

static int hf_tns_connect_flags0 = - 1 ;

static int hf_tns_connect_flags1 = - 1 ;

static int hf_tns_conn_flag_nareq = - 1 ;

static int hf_tns_conn_flag_nalink = - 1 ;

static int hf_tns_conn_flag_enablena = - 1 ;

static int hf_tns_conn_flag_ichg = - 1 ;

static int hf_tns_conn_flag_wantna = - 1 ;

static int hf_tns_connect_data = - 1 ;

static int hf_tns_trace_cf1 = - 1 ;

static int hf_tns_trace_cf2 = - 1 ;

static int hf_tns_trace_cid = - 1 ;

static int hf_tns_accept = - 1 ;

static int hf_tns_accept_data_length = - 1 ;

static int hf_tns_accept_data_offset = - 1 ;

static int hf_tns_accept_data = - 1 ;

static int hf_tns_refuse = - 1 ;

static int hf_tns_refuse_reason_user = - 1 ;

static int hf_tns_refuse_reason_system = - 1 ;

static int hf_tns_refuse_data_length = - 1 ;

static int hf_tns_refuse_data = - 1 ;

static int hf_tns_abort = - 1 ;

static int hf_tns_abort_reason_user = - 1 ;

static int hf_tns_abort_reason_system = - 1 ;

static int hf_tns_abort_data = - 1 ;

static int hf_tns_marker = - 1 ;

static int hf_tns_marker_type = - 1 ;

static int hf_tns_marker_data_byte = - 1 ;

static int hf_tns_marker_data = - 1 ;

static int hf_tns_redirect = - 1 ;

static int hf_tns_redirect_data_length = - 1 ;

static int hf_tns_redirect_data = - 1 ;

static int hf_tns_control = - 1 ;

static int hf_tns_control_cmd = - 1 ;

static int hf_tns_control_data = - 1 ;

static int hf_tns_data_flag = - 1 ;

static int hf_tns_data_flag_send = - 1 ;

static int hf_tns_data_flag_rc = - 1 ;

static int hf_tns_data_flag_c = - 1 ;

static int hf_tns_data_flag_reserved = - 1 ;

static int hf_tns_data_flag_more = - 1 ;

static int hf_tns_data_flag_eof = - 1 ;

static int hf_tns_data_flag_dic = - 1 ;

static int hf_tns_data_flag_rts = - 1 ;

static int hf_tns_data_flag_sntt = - 1 ;

static int hf_tns_data = - 1 ;

static gint ett_tns = - 1 ;

static gint ett_tns_connect = - 1 ;

static gint ett_tns_accept = - 1 ;

static gint ett_tns_refuse = - 1 ;

static gint ett_tns_abort = - 1 ;

static gint ett_tns_redirect = - 1 ;

static gint ett_tns_marker = - 1 ;

static gint ett_tns_attention = - 1 ;

static gint ett_tns_control = - 1 ;

static gint ett_tns_data = - 1 ;

static gint ett_tns_data_flag = - 1 ;

static gint ett_tns_sopt_flag = - 1 ;

static gint ett_tns_ntp_flag = - 1 ;

static gint ett_tns_conn_flag = - 1 ;

static gint ett_sql = - 1 ;

static dissector_handle_t data_handle;

#define TCP_PORT_TNS 1521

static const value_string tns_type_vals[] = {

{TNS_TYPE_CONNECT, "Connect" },

{TNS_TYPE_ACCEPT, "Accept" },

{TNS_TYPE_ACK, "Acknowledge" },

{TNS_TYPE_REFUSE, "Refuse" },

{TNS_TYPE_REDIRECT, "Redirect" },

{TNS_TYPE_DATA, "Data" },

{TNS_TYPE_NULL, "Null" },

{TNS_TYPE_ABORT, "Abort" },

{TNS_TYPE_RESEND, "Resend"},

{TNS_TYPE_MARKER, "Marker"},

{TNS_TYPE_ATTENTION, "Attention"},

{TNS_TYPE_CONTROL, "Control"},

{0, NULL}

} ;

static const value_string tns_marker_types[] = {

{0, "Data Marker - 0 Data Bytes"},

{1, "Data Marker - 1 Data Bytes"},

{2, "Attention Marker"},

{0, NULL}

} ;

static const value_string tns_control_cmds[] = {

{1, "Oracle Trace Command"},

{0, NULL}

} ;

void proto_reg_handoff_tns( void );

static guint get_tns_pdu_len(tvbuff_t * tvb, int offset);

static void dissect_tns_pdu(tvbuff_t * tvb, packet_info * pinfo, proto_tree * tree);

static void dissect_tns_service_options(tvbuff_t * tvb, int offset,

proto_tree * sopt_tree)

{

proto_tree_add_item(sopt_tree, hf_tns_sopt_flag_bconn, tvb,

offset, 2, FALSE);

proto_tree_add_item(sopt_tree, hf_tns_sopt_flag_pc, tvb,

offset, 2, FALSE);

proto_tree_add_item(sopt_tree, hf_tns_sopt_flag_hc, tvb,

offset, 2, FALSE);

proto_tree_add_item(sopt_tree, hf_tns_sopt_flag_fd, tvb,

offset, 2, FALSE);

proto_tree_add_item(sopt_tree, hf_tns_sopt_flag_hd, tvb,

offset, 2, FALSE);

proto_tree_add_item(sopt_tree, hf_tns_sopt_flag_dc1, tvb,

offset, 2, FALSE);

proto_tree_add_item(sopt_tree, hf_tns_sopt_flag_dc2, tvb,

offset, 2, FALSE);

proto_tree_add_item(sopt_tree, hf_tns_sopt_flag_dio, tvb,

offset, 2, FALSE);

proto_tree_add_item(sopt_tree, hf_tns_sopt_flag_ap, tvb,

offset, 2, FALSE);

proto_tree_add_item(sopt_tree, hf_tns_sopt_flag_ra, tvb,

offset, 2, FALSE);

proto_tree_add_item(sopt_tree, hf_tns_sopt_flag_sa, tvb,

offset, 2, FALSE);

}

static void dissect_tns_connect_flag(tvbuff_t * tvb, int offset,

proto_tree * cflag_tree)

{

proto_tree_add_item(cflag_tree, hf_tns_conn_flag_nareq, tvb, offset, 1, FALSE);

proto_tree_add_item(cflag_tree, hf_tns_conn_flag_nalink, tvb, offset, 1, FALSE);

proto_tree_add_item(cflag_tree, hf_tns_conn_flag_enablena, tvb, offset, 1, FALSE);

proto_tree_add_item(cflag_tree, hf_tns_conn_flag_ichg, tvb, offset, 1, FALSE);

proto_tree_add_item(cflag_tree, hf_tns_conn_flag_wantna, tvb, offset, 1, FALSE);

}

static void dissect_tns_data(tvbuff_t * tvb, int offset, packet_info * pinfo,

proto_tree * tree, proto_tree * tns_tree)

{

proto_tree *data_tree = NULL, *ti;

int is_sns = 0;

if ( tvb_bytes_exist(tvb, offset+2, 4) )

{

if ( tvb_get_guint8(tvb, offset+2) == 0xDE &&

tvb_get_guint8(tvb, offset+3) == 0xAD &&

tvb_get_guint8(tvb, offset+4) == 0xBE &&

tvb_get_guint8(tvb, offset+5) == 0xEF )

{

is_sns = 1;

}

if ( tree )

{

if ( is_sns )

{

ti = proto_tree_add_text(tns_tree, tvb, offset, -1,

"Secure Network Services");

}

else

{

ti = proto_tree_add_text(tns_tree, tvb, offset, -1,

"Data");

}

data_tree = proto_item_add_subtree(ti, ett_tns_data);

proto_tree_add_boolean_hidden(tns_tree, hf_tns_data, tvb, 0, 0,

TRUE);

}

if ( tree )

{

proto_tree *df_tree = NULL;

ti = proto_tree_add_item(data_tree, hf_tns_data_flag, tvb, offset, 2, FALSE);

df_tree = proto_item_add_subtree(ti, ett_tns_data_flag);

proto_tree_add_item(df_tree, hf_tns_data_flag_send, tvb, offset, 2, FALSE);

proto_tree_add_item(df_tree, hf_tns_data_flag_rc, tvb, offset, 2, FALSE);

proto_tree_add_item(df_tree, hf_tns_data_flag_c, tvb, offset, 2, FALSE);

proto_tree_add_item(df_tree, hf_tns_data_flag_reserved, tvb, offset, 2, FALSE);

proto_tree_add_item(df_tree, hf_tns_data_flag_more, tvb, offset, 2, FALSE);

proto_tree_add_item(df_tree, hf_tns_data_flag_eof, tvb, offset, 2, FALSE);

proto_tree_add_item(df_tree, hf_tns_data_flag_dic, tvb, offset, 2, FALSE);

proto_tree_add_item(df_tree, hf_tns_data_flag_rts, tvb, offset, 2, FALSE);

proto_tree_add_item(df_tree, hf_tns_data_flag_sntt, tvb, offset, 2, FALSE);

}

offset += 2;

if ( check_col(pinfo->cinfo, COL_INFO) )

{

if ( is_sns )

{

col_append_fstr(pinfo->cinfo, COL_INFO, ", SNS");

}

else

{

col_append_fstr(pinfo->cinfo, COL_INFO, ", Data");

}

if ( data_tree )

{

call_dissector(data_handle,

tvb_new_subset(tvb, offset, -1, -1), pinfo, data_tree);

}

return;

}

static void dissect_tns_connect(tvbuff_t * tvb, int offset, packet_info * pinfo,

proto_tree * tree, proto_tree * tns_tree)

{

proto_tree *connect_tree = NULL, *ti;

int cd_offset;

int cd_len;

int tns_offset = offset-8;

if ( tree )

{

ti = proto_tree_add_text(tns_tree, tvb, offset, -1,

"Connect");

connect_tree = proto_item_add_subtree(ti, ett_tns_connect);

proto_tree_add_boolean_hidden(tns_tree, hf_tns_connect, tvb,

0, 0, TRUE);

}

if ( check_col(pinfo->cinfo, COL_INFO) )

{

col_append_str(pinfo->cinfo, COL_INFO, ", Connect");

}

if ( connect_tree )

{

proto_tree_add_item(connect_tree, hf_tns_version, tvb,

offset, 2, FALSE);

}

offset += 2;

if ( connect_tree )

{

proto_tree_add_item(connect_tree, hf_tns_compat_version, tvb,

offset, 2, FALSE);

}

offset += 2;

if ( connect_tree )

{

proto_tree *sopt_tree = NULL;

ti = proto_tree_add_item(connect_tree, hf_tns_service_options, tvb,

offset, 2, FALSE);

sopt_tree = proto_item_add_subtree(ti, ett_tns_sopt_flag);

dissect_tns_service_options(tvb, offset, sopt_tree);

}

offset += 2;

if ( connect_tree )

{

proto_tree_add_item(connect_tree, hf_tns_sdu_size, tvb,

offset, 2, FALSE);

}

offset += 2;

if ( connect_tree )

{

proto_tree_add_item(connect_tree, hf_tns_max_tdu_size, tvb,

offset, 2, FALSE);

}

offset += 2;

if ( connect_tree )

{

proto_tree *ntp_tree = NULL;

ti = proto_tree_add_item(connect_tree, hf_tns_nt_proto_characteristics, tvb,

offset, 2, FALSE);

ntp_tree = proto_item_add_subtree(ti, ett_tns_ntp_flag);

proto_tree_add_item(ntp_tree, hf_tns_ntp_flag_hangon, tvb, offset, 2, FALSE);

proto_tree_add_item(ntp_tree, hf_tns_ntp_flag_crel, tvb, offset, 2, FALSE);

proto_tree_add_item(ntp_tree, hf_tns_ntp_flag_tduio, tvb, offset, 2, FALSE);

proto_tree_add_item(ntp_tree, hf_tns_ntp_flag_srun, tvb, offset, 2, FALSE);

proto_tree_add_item(ntp_tree, hf_tns_ntp_flag_dtest, tvb, offset, 2, FALSE);

proto_tree_add_item(ntp_tree, hf_tns_ntp_flag_cbio, tvb, offset, 2, FALSE);

proto_tree_add_item(ntp_tree, hf_tns_ntp_flag_asio, tvb, offset, 2, FALSE);

proto_tree_add_item(ntp_tree, hf_tns_ntp_flag_pio, tvb, offset, 2, FALSE);

proto_tree_add_item(ntp_tree, hf_tns_ntp_flag_grant, tvb, offset, 2, FALSE);

proto_tree_add_item(ntp_tree, hf_tns_ntp_flag_handoff, tvb, offset, 2, FALSE);

proto_tree_add_item(ntp_tree, hf_tns_ntp_flag_sigio, tvb, offset, 2, FALSE);

proto_tree_add_item(ntp_tree, hf_tns_ntp_flag_sigpipe, tvb, offset, 2, FALSE);

proto_tree_add_item(ntp_tree, hf_tns_ntp_flag_sigurg, tvb, offset, 2, FALSE);

proto_tree_add_item(ntp_tree, hf_tns_ntp_flag_urgentio, tvb, offset, 2, FALSE);

proto_tree_add_item(ntp_tree, hf_tns_ntp_flag_fdio, tvb, offset, 2, FALSE);

proto_tree_add_item(ntp_tree, hf_tns_ntp_flag_testop, tvb, offset, 2, FALSE);

}

offset += 2;

if ( connect_tree )

{

proto_tree_add_item(connect_tree, hf_tns_line_turnaround, tvb,

offset, 2, FALSE);

}

offset += 2;

if ( connect_tree )

{

proto_tree_add_item(connect_tree, hf_tns_value_of_one, tvb,

offset, 2, FALSE);

}

offset += 2;

cd_len = tvb_get_ntohs(tvb, offset);

if ( connect_tree )

{

proto_tree_add_uint(connect_tree, hf_tns_connect_data_length, tvb,

offset, 2, cd_len);

}

offset += 2;

cd_offset = tvb_get_ntohs(tvb, offset);

if ( connect_tree )

{

proto_tree_add_uint(connect_tree, hf_tns_connect_data_offset, tvb,

offset, 2, cd_offset);

}

offset += 2;

if ( connect_tree )

{

proto_tree_add_item(connect_tree, hf_tns_connect_data_max, tvb,

offset, 4, FALSE);

}

offset += 4;

if ( connect_tree )

{

proto_tree *cflag_tree = NULL;

ti = proto_tree_add_item(connect_tree, hf_tns_connect_flags0, tvb,

offset, 1, FALSE);

cflag_tree = proto_item_add_subtree(ti, ett_tns_conn_flag);

dissect_tns_connect_flag(tvb, offset, cflag_tree);

}

offset += 1;

if ( connect_tree )

{

proto_tree *cflag_tree = NULL;

ti = proto_tree_add_item(connect_tree, hf_tns_connect_flags1, tvb,

offset, 1, FALSE);

cflag_tree = proto_item_add_subtree(ti, ett_tns_conn_flag);

dissect_tns_connect_flag(tvb, offset, cflag_tree);

}

offset += 1;

* XXX - sometimes it appears that this stuff isn't present

* in the packet.

if (offset + 16 <= tns_offset+cd_offset)

{

if ( connect_tree )

{

proto_tree_add_item(connect_tree, hf_tns_trace_cf1, tvb,

offset, 4, FALSE);

}

offset += 4;

if ( connect_tree )

{

proto_tree_add_item(connect_tree, hf_tns_trace_cf2, tvb,

offset, 4, FALSE);

}

offset += 4;

if ( connect_tree )

{

proto_tree_add_item(connect_tree, hf_tns_trace_cid, tvb,

offset, 8, FALSE);

}

offset += 8;

}

if ( connect_tree && cd_len > 0)

{

proto_tree_add_item(connect_tree, hf_tns_connect_data, tvb,

tns_offset+cd_offset, -1, FALSE);

}

return;

}

static void dissect_tns_accept(tvbuff_t * tvb, int offset, packet_info * pinfo,

proto_tree * tree, proto_tree * tns_tree)

{

proto_tree *accept_tree = NULL, *ti;

int accept_offset;

int accept_len;

int tns_offset = offset-8;

if ( tree )

{

ti = proto_tree_add_text(tns_tree, tvb, offset, -1,

"Accept");

accept_tree = proto_item_add_subtree(ti, ett_tns_accept);

proto_tree_add_boolean_hidden(tns_tree, hf_tns_accept, tvb,

0, 0, TRUE);

}

if ( check_col(pinfo->cinfo, COL_INFO) )

{

col_append_str(pinfo->cinfo, COL_INFO, ", Accept");

}

if ( accept_tree )

{

proto_tree_add_item(accept_tree, hf_tns_version, tvb,

offset, 2, FALSE);

}

offset += 2;

if ( accept_tree )

{

proto_tree *sopt_tree = NULL;

ti = proto_tree_add_item(accept_tree, hf_tns_service_options,

tvb, offset, 2, FALSE);

sopt_tree = proto_item_add_subtree(ti, ett_tns_sopt_flag);

dissect_tns_service_options(tvb, offset, sopt_tree);

}

offset += 2;

if ( accept_tree )

{

proto_tree_add_item(accept_tree, hf_tns_sdu_size, tvb,

offset, 2, FALSE);

}

offset += 2;

if ( accept_tree )

{

proto_tree_add_item(accept_tree, hf_tns_max_tdu_size, tvb,

offset, 2, FALSE);

}

offset += 2;

if ( accept_tree )

{

proto_tree_add_item(accept_tree, hf_tns_value_of_one, tvb,

offset, 2, FALSE);

}

offset += 2;

accept_len = tvb_get_ntohs(tvb, offset);

if ( accept_tree )

{

proto_tree_add_uint(accept_tree, hf_tns_accept_data_length, tvb,

offset, 2, accept_len);

}

offset += 2;

accept_offset = tvb_get_ntohs(tvb, offset);

if ( accept_tree )

{

proto_tree_add_uint(accept_tree, hf_tns_accept_data_offset, tvb,

offset, 2, accept_offset);

}

offset += 2;

if ( accept_tree )

{

proto_tree *cflag_tree = NULL;

ti = proto_tree_add_item(accept_tree, hf_tns_connect_flags0, tvb,

offset, 1, FALSE);

cflag_tree = proto_item_add_subtree(ti, ett_tns_conn_flag);

dissect_tns_connect_flag(tvb, offset, cflag_tree);

}

offset += 1;

if ( accept_tree )

{

proto_tree *cflag_tree = NULL;

ti = proto_tree_add_item(accept_tree, hf_tns_connect_flags1, tvb,

offset, 1, FALSE);

cflag_tree = proto_item_add_subtree(ti, ett_tns_conn_flag);

dissect_tns_connect_flag(tvb, offset, cflag_tree);

}

offset += 1;

if ( accept_tree && accept_len > 0)

{

proto_tree_add_item(accept_tree, hf_tns_accept_data, tvb,

tns_offset+accept_offset, -1, FALSE);

}

return;

}

static void dissect_tns_refuse(tvbuff_t * tvb, int offset, packet_info * pinfo,

proto_tree * tree, proto_tree * tns_tree)

{

proto_tree *refuse_tree = NULL, *ti;

if ( tree )

{

ti = proto_tree_add_text(tns_tree, tvb, offset, -1,

"Refuse");

refuse_tree = proto_item_add_subtree(ti, ett_tns_refuse);

proto_tree_add_boolean_hidden(tns_tree, hf_tns_refuse, tvb,

0, 0, TRUE);

}

if ( check_col(pinfo->cinfo, COL_INFO) )

{

col_append_str(pinfo->cinfo, COL_INFO, ", Refuse");

}

if ( refuse_tree )

{

proto_tree_add_item(refuse_tree, hf_tns_refuse_reason_user, tvb,

offset, 1, FALSE);

}

offset += 1;

if ( refuse_tree )

{

proto_tree_add_item(refuse_tree, hf_tns_refuse_reason_system, tvb,

offset, 1, FALSE);

}

offset += 1;

if ( refuse_tree )

{

proto_tree_add_item(refuse_tree, hf_tns_refuse_data_length, tvb,

offset, 2, FALSE);

}

offset += 2;

if ( refuse_tree )

{

proto_tree_add_item(refuse_tree, hf_tns_refuse_data, tvb,

offset, -1, FALSE);

}

return;

}

static void dissect_tns_abort(tvbuff_t * tvb, int offset, packet_info * pinfo,

proto_tree * tree, proto_tree * tns_tree)

{

proto_tree *abort_tree = NULL, *ti;

if ( tree )

{

ti = proto_tree_add_text(tns_tree, tvb, offset, -1,

"Abort");

abort_tree = proto_item_add_subtree(ti, ett_tns_abort);

proto_tree_add_boolean_hidden(tns_tree, hf_tns_abort, tvb,

0, 0, TRUE);

}

if ( check_col(pinfo->cinfo, COL_INFO) )

{

col_append_str(pinfo->cinfo, COL_INFO, ", Abort");

}

if ( abort_tree )

{

proto_tree_add_item(abort_tree, hf_tns_abort_reason_user, tvb,

offset, 1, FALSE);

}

offset += 1;

if ( abort_tree )

{

proto_tree_add_item(abort_tree, hf_tns_abort_reason_system, tvb,

offset, 1, FALSE);

}

offset += 1;

if ( abort_tree )

{

proto_tree_add_item(abort_tree, hf_tns_abort_data, tvb,

offset, -1, FALSE);

}

return;

}

static void dissect_tns_marker(tvbuff_t * tvb, int offset, packet_info * pinfo,

proto_tree * tree, proto_tree * tns_tree, int is_attention)

{

proto_tree *marker_tree = NULL, *ti;

if ( tree )

{

if ( is_attention )

{

ti = proto_tree_add_text(tns_tree, tvb, offset, -1,

"Marker");

}

else

{

ti = proto_tree_add_text(tns_tree, tvb, offset, -1,

"Attention");

}

marker_tree = proto_item_add_subtree(ti, ett_tns_marker);

proto_tree_add_boolean_hidden(tns_tree, hf_tns_marker, tvb,

0, 0, TRUE);

}

if ( check_col(pinfo->cinfo, COL_INFO) )

{

if ( is_attention )

{

col_append_str(pinfo->cinfo, COL_INFO, ", Marker");

}

else

{

col_append_str(pinfo->cinfo, COL_INFO, ", Attention");

}

if ( marker_tree )

{

proto_tree_add_item(marker_tree, hf_tns_marker_type, tvb,

offset, 1, FALSE);

}

offset += 1;

if ( marker_tree )

{

proto_tree_add_item(marker_tree, hf_tns_marker_data_byte, tvb,

offset, 1, FALSE);

}

offset += 1;

if ( marker_tree )

{

proto_tree_add_item(marker_tree, hf_tns_marker_data_byte, tvb,

offset, 1, FALSE);

}

offset += 1;

return;

}

static void dissect_tns_redirect(tvbuff_t * tvb, int offset, packet_info * pinfo,

proto_tree * tree, proto_tree * tns_tree)

{

proto_tree *redirect_tree = NULL, *ti;

if ( tree )

{

ti = proto_tree_add_text(tns_tree, tvb, offset, -1,

"Redirect");

redirect_tree = proto_item_add_subtree(ti, ett_tns_redirect);

proto_tree_add_boolean_hidden(tns_tree, hf_tns_redirect, tvb,

0, 0, TRUE);

}

if ( check_col(pinfo->cinfo, COL_INFO) )

{

col_append_str(pinfo->cinfo, COL_INFO, ", Redirect");

}

if ( redirect_tree )

{

proto_tree_add_item(redirect_tree, hf_tns_redirect_data_length, tvb,

offset, 2, FALSE);

}

offset += 2;

if ( redirect_tree )

{

proto_tree_add_item(redirect_tree, hf_tns_redirect_data, tvb,

offset, -1, FALSE);

}

return;

}

static void dissect_tns_control(tvbuff_t * tvb, int offset, packet_info * pinfo,

proto_tree * tree, proto_tree * tns_tree)

{

proto_tree *control_tree = NULL, *ti;

if ( tree )

{

ti = proto_tree_add_text(tns_tree, tvb, offset, -1,

"Control");

control_tree = proto_item_add_subtree(ti, ett_tns_control);

proto_tree_add_boolean_hidden(tns_tree, hf_tns_control, tvb,

0, 0, TRUE);

}

if ( check_col(pinfo->cinfo, COL_INFO) )

{

col_append_str(pinfo->cinfo, COL_INFO, ", Control");

}

if ( control_tree )

{

proto_tree_add_item(control_tree, hf_tns_control_cmd, tvb,

offset, 2, FALSE);

}

offset += 2;

if ( control_tree )

{

proto_tree_add_item(control_tree, hf_tns_control_data, tvb,

offset, -1, FALSE);

}

return;

}

static guint

get_tns_pdu_len(tvbuff_t * tvb, int offset)

{

* Get the length of the TNS message, including header

return tvb_get_ntohs(tvb, offset);

}

static int

dissect_tns(tvbuff_t * tvb, packet_info * pinfo, proto_tree * tree)

{

guint8 type;

* First, do a sanity check to make sure what we have

* starts with a TNS PDU.

if (tvb_bytes_exist(tvb, 4, 1)) {

* Well, we have the packet type; let's make sure

* it's a known type.

type = tvb_get_guint8(tvb, 4);

if (type < TNS_TYPE_CONNECT || type > TNS_TYPE_MAX)

return 0; /* it's not a known type */

}

tcp_dissect_pdus(tvb, pinfo, tree, tns_desegment, 2,

get_tns_pdu_len, dissect_tns_pdu);

return tvb_length(tvb);

}

static void

dissect_tns_pdu(tvbuff_t * tvb, packet_info * pinfo, proto_tree * tree)

{

proto_tree *tns_tree = NULL, *ti;

int offset = 0;

guint16 length;

guint16 type;

if (check_col(pinfo->cinfo, COL_PROTOCOL))

col_set_str(pinfo->cinfo, COL_PROTOCOL, "TNS");

if (check_col(pinfo->cinfo, COL_INFO))

{

col_add_str(pinfo->cinfo, COL_INFO,

(pinfo->match_port == pinfo->destport) ? "Request" : "Response");

}

if (tree)

{

ti = proto_tree_add_item(tree, proto_tns, tvb, 0, -1, FALSE);

tns_tree = proto_item_add_subtree(ti, ett_tns);

if (pinfo->match_port == pinfo->destport)

{

proto_tree_add_boolean_hidden(tns_tree, hf_tns_request,

tvb, offset, 0, TRUE);

}

else

{

proto_tree_add_boolean_hidden(tns_tree, hf_tns_response,

tvb, offset, 0, TRUE);

}

length = tvb_get_ntohs(tvb, offset);

if (tree)

{

proto_tree_add_uint(tns_tree, hf_tns_length, tvb,

offset, 2, length);

}

offset += 2;

if ( tree )

{

proto_tree_add_item(tns_tree, hf_tns_packet_checksum, tvb,

offset, 2, FALSE);

}

offset += 2;

type = tvb_get_guint8(tvb, offset);

if ( tree )

{

proto_tree_add_uint(tns_tree, hf_tns_packet_type, tvb,

offset, 1, type);

}

offset += 1;

if ( check_col(pinfo->cinfo, COL_INFO))

{

col_append_fstr(pinfo->cinfo, COL_INFO, ", %s (%u)",

val_to_str(type, tns_type_vals, "Unknown"), type);

}

if ( tree )

{

proto_tree_add_item(tns_tree, hf_tns_reserved_byte, tvb,

offset, 1, FALSE);

}

offset += 1;

if ( tree )

{

proto_tree_add_item(tns_tree, hf_tns_header_checksum, tvb,

offset, 2, FALSE);

}

offset += 2;

switch (type)

{

case TNS_TYPE_CONNECT:

dissect_tns_connect(tvb,offset,pinfo,tree,tns_tree);

break;

case TNS_TYPE_ACCEPT:

dissect_tns_accept(tvb,offset,pinfo,tree,tns_tree);

break;

case TNS_TYPE_REFUSE:

dissect_tns_refuse(tvb,offset,pinfo,tree,tns_tree);

break;

case TNS_TYPE_REDIRECT:

dissect_tns_redirect(tvb,offset,pinfo,tree,tns_tree);

break;

case TNS_TYPE_ABORT:

dissect_tns_abort(tvb,offset,pinfo,tree,tns_tree);

break;

case TNS_TYPE_MARKER:

dissect_tns_marker(tvb,offset,pinfo,tree,tns_tree, 0);

break;

case TNS_TYPE_ATTENTION:

dissect_tns_marker(tvb,offset,pinfo,tree,tns_tree, 1);

break;

case TNS_TYPE_CONTROL:

dissect_tns_control(tvb,offset,pinfo,tree,tns_tree);

break;

case TNS_TYPE_DATA:

dissect_tns_data(tvb,offset,pinfo,tree,tns_tree);

break;

default:

call_dissector(data_handle,

tvb_new_subset(tvb, offset, -1, -1), pinfo,

tns_tree);

break;

}

void proto_register_tns( void )

{

static hf_register_info hf[] = {

{ &hf_tns_response, {

"Response", "tns.response", FT_BOOLEAN, BASE_NONE,

NULL, 0x0, "TRUE if TNS response", HFILL }},

{ &hf_tns_request, {

"Request", "tns.request", FT_BOOLEAN, BASE_NONE,

NULL, 0x0, "TRUE if TNS request", HFILL }},

{ &hf_tns_length, {

"Packet Length", "tns.length", FT_UINT16, BASE_DEC,

NULL, 0x0, "Length of TNS packet", HFILL }},

{ &hf_tns_packet_checksum, {

"Packet Checksum", "tns.packet_checksum", FT_UINT16, BASE_HEX,

NULL, 0x0, "Checksum of Packet Data", HFILL }},

{ &hf_tns_header_checksum, {

"Header Checksum", "tns.header_checksum", FT_UINT16, BASE_HEX,

NULL, 0x0, "Checksum of Header Data", HFILL }},

{ &hf_tns_version, {

"Version", "tns.version", FT_UINT16, BASE_DEC,

NULL, 0x0, "Version", HFILL }},

{ &hf_tns_compat_version, {

"Version (Compatible)", "tns.compat_version", FT_UINT16, BASE_DEC,

NULL, 0x0, "Version (Compatible)", HFILL }},

{ &hf_tns_service_options, {

"Service Options", "tns.service_options", FT_UINT16, BASE_HEX,

NULL, 0x0, "Service Options", HFILL }},

{ &hf_tns_sopt_flag_bconn, {

"Broken Connect Notify", "tns.so_flag.bconn", FT_BOOLEAN, 16,

NULL, 0x2000, "Broken Connect Notify", HFILL }},

{ &hf_tns_sopt_flag_pc, {

"Packet Checksum", "tns.so_flag.pc", FT_BOOLEAN, 16,

NULL, 0x1000, "Packet Checksum", HFILL }},

{ &hf_tns_sopt_flag_hc, {

"Header Checksum", "tns.so_flag.hc", FT_BOOLEAN, 16,

NULL, 0x0800, "Header Checksum", HFILL }},

{ &hf_tns_sopt_flag_fd, {

"Full Duplex", "tns.so_flag.fd", FT_BOOLEAN, 16,

NULL, 0x0400, "Full Duplex", HFILL }},

{ &hf_tns_sopt_flag_hd, {

"Half Duplex", "tns.so_flag.hd", FT_BOOLEAN, 16,

NULL, 0x0200, "Half Duplex", HFILL }},

{ &hf_tns_sopt_flag_dc1, {

"Don't Care", "tns.so_flag.dc1", FT_BOOLEAN, 16,

NULL, 0x0100, "Don't Care", HFILL }},

{ &hf_tns_sopt_flag_dc2, {

"Don't Care", "tns.so_flag.dc2", FT_BOOLEAN, 16,

NULL, 0x0080, "Don't Care", HFILL }},

{ &hf_tns_sopt_flag_dio, {

"Direct IO to Transport", "tns.so_flag.dio", FT_BOOLEAN, 16,

NULL, 0x0010, "Direct IO to Transport", HFILL }},

{ &hf_tns_sopt_flag_ap, {

"Attention Processing", "tns.so_flag.ap", FT_BOOLEAN, 16,

NULL, 0x0008, "Attention Processing", HFILL }},

{ &hf_tns_sopt_flag_ra, {

"Can Receive Attention", "tns.so_flag.ra", FT_BOOLEAN, 16,

NULL, 0x0004, "Can Receive Attention", HFILL }},

{ &hf_tns_sopt_flag_sa, {

"Can Send Attention", "tns.so_flag.sa", FT_BOOLEAN, 16,

NULL, 0x0002, "Can Send Attention", HFILL }},

{ &hf_tns_sdu_size, {

"Session Data Unit Size", "tns.sdu_size", FT_UINT16, BASE_DEC,

NULL, 0x0, "Session Data Unit Size", HFILL }},

{ &hf_tns_max_tdu_size, {

"Maximum Transmission Data Unit Size", "tns.max_tdu_size", FT_UINT16, BASE_DEC,

NULL, 0x0, "Maximum Transmission Data Unit Size", HFILL }},

{ &hf_tns_nt_proto_characteristics, {

"NT Protocol Characteristics", "tns.nt_proto_characteristics", FT_UINT16, BASE_HEX,

NULL, 0x0, "NT Protocol Characteristics", HFILL }},

{ &hf_tns_ntp_flag_hangon, {

"Hangon to listener connect", "tns.ntp_flag.hangon", FT_BOOLEAN, 16,

NULL, 0x8000, "Hangon to listener connect", HFILL }},

{ &hf_tns_ntp_flag_crel, {

"Confirmed release", "tns.ntp_flag.crel", FT_BOOLEAN, 16,

NULL, 0x4000, "Confirmed release", HFILL }},

{ &hf_tns_ntp_flag_tduio, {

"TDU based IO", "tns.ntp_flag.tduio", FT_BOOLEAN, 16,

NULL, 0x2000, "TDU based IO", HFILL }},

{ &hf_tns_ntp_flag_srun, {

"Spawner running", "tns.ntp_flag.srun", FT_BOOLEAN, 16,

NULL, 0x1000, "Spawner running", HFILL }},

{ &hf_tns_ntp_flag_dtest, {

"Data test", "tns.ntp_flag.dtest", FT_BOOLEAN, 16,

NULL, 0x0800, "Data Test", HFILL }},

{ &hf_tns_ntp_flag_cbio, {

"Callback IO supported", "tns.ntp_flag.cbio", FT_BOOLEAN, 16,

NULL, 0x0400, "Callback IO supported", HFILL }},

{ &hf_tns_ntp_flag_asio, {

"ASync IO Supported", "tns.ntp_flag.asio", FT_BOOLEAN, 16,

NULL, 0x0200, "ASync IO Supported", HFILL }},

{ &hf_tns_ntp_flag_pio, {

"Packet oriented IO", "tns.ntp_flag.pio", FT_BOOLEAN, 16,

NULL, 0x0100, "Packet oriented IO", HFILL }},

{ &hf_tns_ntp_flag_grant, {

"Can grant connection to another", "tns.ntp_flag.grant", FT_BOOLEAN, 16,

NULL, 0x0080, "Can grant connection to another", HFILL }},

{ &hf_tns_ntp_flag_handoff, {

"Can handoff connection to another", "tns.ntp_flag.handoff", FT_BOOLEAN, 16,

NULL, 0x0040, "Can handoff connection to another", HFILL }},

{ &hf_tns_ntp_flag_sigio, {

"Generate SIGIO signal", "tns.ntp_flag.sigio", FT_BOOLEAN, 16,

NULL, 0x0020, "Generate SIGIO signal", HFILL }},

{ &hf_tns_ntp_flag_sigpipe, {

"Generate SIGPIPE signal", "tns.ntp_flag.sigpipe", FT_BOOLEAN, 16,

NULL, 0x0010, "Generate SIGPIPE signal", HFILL }},

{ &hf_tns_ntp_flag_sigurg, {

"Generate SIGURG signal", "tns.ntp_flag.sigurg", FT_BOOLEAN, 16,

NULL, 0x0008, "Generate SIGURG signal", HFILL }},

{ &hf_tns_ntp_flag_urgentio, {

"Urgent IO supported", "tns.ntp_flag.urgentio", FT_BOOLEAN, 16,

NULL, 0x0004, "Urgent IO supported", HFILL }},

{ &hf_tns_ntp_flag_fdio, {

"Full duplex IO supported", "tns.ntp_flag.dfio", FT_BOOLEAN, 16,

NULL, 0x0002, "Full duplex IO supported", HFILL }},

{ &hf_tns_ntp_flag_testop, {

"Test operation", "tns.ntp_flag.testop", FT_BOOLEAN, 16,

NULL, 0x0001, "Test operation", HFILL }},

{ &hf_tns_line_turnaround, {

"Line Turnaround Value", "tns.line_turnaround", FT_UINT16, BASE_DEC,

NULL, 0x0, "Line Turnaround Value", HFILL }},

{ &hf_tns_value_of_one, {

"Value of 1 in Hardware", "tns.value_of_one", FT_BYTES, BASE_NONE,

NULL, 0x0, "Value of 1 in Hardware", HFILL }},

{ &hf_tns_connect, {

"Connect", "tns.connect", FT_BOOLEAN, BASE_NONE,

NULL, 0x0, "Connect", HFILL }},

{ &hf_tns_connect_data_length, {

"Length of Connect Data", "tns.connect_data_length", FT_UINT16, BASE_DEC,

NULL, 0x0, "Length of Connect Data", HFILL }},

{ &hf_tns_connect_data_offset, {

"Offset to Connect Data", "tns.connect_data_offset", FT_UINT16, BASE_DEC,

NULL, 0x0, "Offset to Connect Data", HFILL }},

{ &hf_tns_connect_data_max, {

"Maximum Receivable Connect Data", "tns.connect_data_max", FT_UINT32, BASE_DEC,

NULL, 0x0, "Maximum Receivable Connect Data", HFILL }},

{ &hf_tns_connect_flags0, {

"Connect Flags 0", "tns.connect_flags0", FT_UINT8, BASE_HEX,

NULL, 0x0, "Connect Flags 0", HFILL }},

{ &hf_tns_connect_flags1, {

"Connect Flags 1", "tns.connect_flags1", FT_UINT8, BASE_HEX,

NULL, 0x0, "Connect Flags 1", HFILL }},

{ &hf_tns_conn_flag_nareq, {

"NA services required", "tns.connect_flags.nareq", FT_BOOLEAN, 8,

NULL, 0x10, "NA services required", HFILL }},

{ &hf_tns_conn_flag_nalink, {

"NA services linked in", "tns.connect_flags.nalink", FT_BOOLEAN, 8,

NULL, 0x08, "NA services linked in", HFILL }},

{ &hf_tns_conn_flag_enablena, {

"NA services enabled", "tns.connect_flags.enablena", FT_BOOLEAN, 8,

NULL, 0x04, "NA services enabled", HFILL }},

{ &hf_tns_conn_flag_ichg, {

"Interchange is involved", "tns.connect_flags.ichg", FT_BOOLEAN, 8,

NULL, 0x02, "Interchange is involved", HFILL }},

{ &hf_tns_conn_flag_wantna, {

"NA services wanted", "tns.connect_flags.wantna", FT_BOOLEAN, 8,

NULL, 0x01, "NA services wanted", HFILL }},

{ &hf_tns_trace_cf1, {

"Trace Cross Facility Item 1", "tns.trace_cf1", FT_UINT32, BASE_HEX,

NULL, 0x0, "Trace Cross Facility Item 1", HFILL }},

{ &hf_tns_trace_cf2, {

"Trace Cross Facility Item 2", "tns.trace_cf2", FT_UINT32, BASE_HEX,

NULL, 0x0, "Trace Cross Facility Item 2", HFILL }},

{ &hf_tns_trace_cid, {

"Trace Unique Connection ID", "tns.trace_cid", FT_UINT64, BASE_HEX,

NULL, 0x0, "Trace Unique Connection ID", HFILL }},

{ &hf_tns_connect_data, {

"Connect Data", "tns.connect_data", FT_STRING, BASE_NONE,

NULL, 0x0, "Connect Data", HFILL }},

{ &hf_tns_accept, {

"Accept", "tns.accept", FT_BOOLEAN, BASE_NONE,

NULL, 0x0, "Accept", HFILL }},

{ &hf_tns_accept_data_length, {

"Accept Data Length", "tns.accept_data_length", FT_UINT16, BASE_DEC,

NULL, 0x0, "Length of Accept Data", HFILL }},

{ &hf_tns_accept_data, {

"Accept Data", "tns.accept_data", FT_STRING, BASE_NONE,

NULL, 0x0, "Accept Data", HFILL }},

{ &hf_tns_accept_data_offset, {

"Offset to Accept Data", "tns.accept_data_offset", FT_UINT16, BASE_DEC,

NULL, 0x0, "Offset to Accept Data", HFILL }},

{ &hf_tns_refuse, {

"Refuse", "tns.refuse", FT_BOOLEAN, BASE_NONE,

NULL, 0x0, "Refuse", HFILL }},

{ &hf_tns_refuse_reason_user, {

"Refuse Reason (User)", "tns.refuse_reason_user", FT_UINT8, BASE_HEX,

NULL, 0x0, "Refuse Reason from Application", HFILL }},

{ &hf_tns_refuse_reason_system, {

"Refuse Reason (System)", "tns.refuse_reason_system", FT_UINT8, BASE_HEX,

NULL, 0x0, "Refuse Reason from System", HFILL }},

{ &hf_tns_refuse_data_length, {

"Refuse Data Length", "tns.refuse_data_length", FT_UINT16, BASE_DEC,

NULL, 0x0, "Length of Refuse Data", HFILL }},

{ &hf_tns_refuse_data, {

"Refuse Data", "tns.refuse_data", FT_STRING, BASE_NONE,

NULL, 0x0, "Refuse Data", HFILL }},

{ &hf_tns_abort, {

"Abort", "tns.abort", FT_BOOLEAN, BASE_NONE,

NULL, 0x0, "Abort", HFILL }},

{ &hf_tns_abort_reason_user, {

"Abort Reason (User)", "tns.abort_reason_user", FT_UINT8, BASE_HEX,

NULL, 0x0, "Abort Reason from Application", HFILL }},

{ &hf_tns_abort_reason_system, {

"Abort Reason (User)", "tns.abort_reason_system", FT_UINT8, BASE_HEX,

NULL, 0x0, "Abort Reason from System", HFILL }},

{ &hf_tns_abort_data, {

"Abort Data", "tns.abort_data", FT_STRING, BASE_NONE,

NULL, 0x0, "Abort Data", HFILL }},

{ &hf_tns_marker, {

"Marker", "tns.marker", FT_BOOLEAN, BASE_NONE,

NULL, 0x0, "Marker", HFILL }},

{ &hf_tns_marker_type, {

"Marker Type", "tns.marker.type", FT_UINT8, BASE_HEX,

VALS(tns_marker_types), 0x0, "Marker Type", HFILL }},

{ &hf_tns_marker_data_byte, {

"Marker Data Byte", "tns.marker.databyte", FT_UINT8, BASE_HEX,

NULL, 0x0, "Marker Data Byte", HFILL }},

{ &hf_tns_marker_data, {

"Marker Data", "tns.marker.data", FT_UINT16, BASE_HEX,

NULL, 0x0, "Marker Data", HFILL }},

{ &hf_tns_control, {

"Control", "tns.control", FT_BOOLEAN, BASE_NONE,

NULL, 0x0, "Control", HFILL }},

{ &hf_tns_control_cmd, {

"Control Command", "tns.control.cmd", FT_UINT16, BASE_HEX,

VALS(tns_control_cmds), 0x0, "Control Command", HFILL }},

{ &hf_tns_control_data, {

"Control Data", "tns.control.data", FT_BYTES, BASE_HEX,

NULL, 0x0, "Control Data", HFILL }},

{ &hf_tns_redirect, {

"Redirect", "tns.redirect", FT_BOOLEAN, BASE_NONE,

NULL, 0x0, "Redirect", HFILL }},

{ &hf_tns_redirect_data_length, {

"Redirect Data Length", "tns.redirect_data_length", FT_UINT16, BASE_DEC,

NULL, 0x0, "Length of Redirect Data", HFILL }},

{ &hf_tns_redirect_data, {

"Redirect Data", "tns.redirect_data", FT_STRING, BASE_NONE,

NULL, 0x0, "Redirect Data", HFILL }},

{ &hf_tns_data, {

"Data", "tns.data", FT_BOOLEAN, BASE_NONE,

NULL, 0x0, "Data", HFILL }},

{ &hf_tns_data_flag, {

"Data Flag", "tns.data_flag", FT_UINT16, BASE_HEX,

NULL, 0x0, "Data Flag", HFILL }},

{ &hf_tns_data_flag_send, {

"Send Token", "tns.data_flag.send", FT_BOOLEAN, 16,

NULL, 0x1, "Send Token", HFILL }},

{ &hf_tns_data_flag_rc, {

"Request Confirmation", "tns.data_flag.rc", FT_BOOLEAN, 16,

NULL, 0x2, "Request Confirmation", HFILL }},

{ &hf_tns_data_flag_c, {

"Confirmation", "tns.data_flag.c", FT_BOOLEAN, 16,

NULL, 0x4, "Confirmation", HFILL }},

{ &hf_tns_data_flag_reserved, {

"Reserved", "tns.data_flag.reserved", FT_BOOLEAN, 16,

NULL, 0x8, "Reserved", HFILL }},

{ &hf_tns_data_flag_more, {

"More Data to Come", "tns.data_flag.more", FT_BOOLEAN, 16,

NULL, 0x20, "More Data to Come", HFILL }},

{ &hf_tns_data_flag_eof, {

"End of File", "tns.data_flag.eof", FT_BOOLEAN, 16,

NULL, 0x40, "End of File", HFILL }},

{ &hf_tns_data_flag_dic, {

"Do Immediate Confirmation", "tns.data_flag.dic", FT_BOOLEAN, 16,

NULL, 0x80, "Do Immediate Confirmation", HFILL }},

{ &hf_tns_data_flag_rts, {

"Request To Send", "tns.data_flag.rts", FT_BOOLEAN, 16,

NULL, 0x100, "Request To Send", HFILL }},

{ &hf_tns_data_flag_sntt, {

"Send NT Trailer", "tns.data_flag.sntt", FT_BOOLEAN, 16,

NULL, 0x200, "Send NT Trailer", HFILL }},

{ &hf_tns_reserved_byte, {

"Reserved Byte", "tns.reserved_byte", FT_BYTES, BASE_HEX,

NULL, 0x0, "Reserved Byte", HFILL }},

{ &hf_tns_packet_type, {

"Packet Type", "tns.type", FT_UINT8, BASE_DEC,

VALS(tns_type_vals), 0x0, "Type of TNS packet", HFILL }}

};

static gint *ett[] = {

&ett_tns,

&ett_tns_connect,

&ett_tns_accept,

&ett_tns_refuse,

&ett_tns_abort,

&ett_tns_redirect,

&ett_tns_marker,

&ett_tns_attention,

&ett_tns_control,

&ett_tns_data,

&ett_tns_data_flag,

&ett_tns_sopt_flag,

&ett_tns_ntp_flag,

&ett_tns_conn_flag,

&ett_sql

};

module_t *tns_module;

proto_tns = proto_register_protocol(

"Transparent Network Substrate Protocol", "TNS", "tns");

proto_register_field_array(proto_tns, hf, array_length(hf));

proto_register_subtree_array(ett, array_length(ett));

tns_module = prefs_register_protocol(proto_tns, NULL);

prefs_register_bool_preference(tns_module, "desegment_tns_messages",

"Desegment all TNS messages spanning multiple TCP segments",

"Whether the TNS dissector should desegment all messages spanning multiple TCP segments",

&tns_desegment);

}

void

proto_reg_handoff_tns( void )

{

dissector_handle_t tns_handle;

tns_handle = new_create_dissector_handle(dissect_tns, proto_tns);

dissector_add("tcp.port", TCP_PORT_TNS, tns_handle);

data_handle = find_dissector("data");

}