/* packet-rtcp.c
*
- * $Id: packet-rtcp.c,v 1.21 2001/09/03 10:33:06 guy Exp $
+ * $Id: packet-rtcp.c,v 1.40 2004/02/25 09:31:06 guy Exp $
*
* Routines for RTCP dissection
* RTCP = Real-time Transport Control Protocol
- *
+ *
* Copyright 2000, Philips Electronics N.V.
- * Written by Andreas Sikkema <andreas.sikkema@philips.com>
+ * Written by Andreas Sikkema <h323@ramdyne.nl>
*
* Ethereal - Network traffic analyzer
* By Gerald Combs <gerald@ethereal.com>
* Copyright 1998 Gerald Combs
- *
+ *
* 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.
* of ITU-T Recommendation H.225.0 (02/98) and RFC 1889
* H.225.0 literally copies RFC 1889, but omitting a few sections.
*
- * RTCP traffic is handled by an uneven UDP portnumber. This can be any
+ * RTCP traffic is handled by an uneven UDP portnumber. This can be any
* port number, but there is a registered port available, port 5005
* See Annex B of ITU-T Recommendation H.225.0, section B.7
*
#endif
#include <glib.h>
-#include "packet.h"
-
-#ifdef HAVE_SYS_TYPES_H
-# include <sys/types.h>
-#endif
-
-#ifdef HAVE_NETINET_IN_H
-# include <netinet/in.h>
-#endif
+#include <epan/packet.h>
#include <stdio.h>
#include <string.h>
#if 0
#include "packet-ntp.h"
#endif
-#include "conversation.h"
+#include <epan/conversation.h>
/* Version is the first 2 bits of the first octet*/
#define RTCP_VERSION(octet) ((octet) >> 6)
/* Receiver/ Sender count is the 5 last bits */
#define RTCP_COUNT(octet) ((octet) & 0x1F)
-static const value_string rtcp_version_vals[] =
+static const value_string rtcp_version_vals[] =
{
{ 0, "Old VAT Version" },
{ 1, "First Draft Version" },
#define RTCP_FIR 192
#define RTCP_NACK 193
-static const value_string rtcp_packet_type_vals[] =
+static const value_string rtcp_packet_type_vals[] =
{
{ RTCP_SR, "Sender Report" },
{ RTCP_RR, "Receiver Report" },
#define RTCP_SDES_NOTE 7
#define RTCP_SDES_PRIV 8
-static const value_string rtcp_sdes_type_vals[] =
+static const value_string rtcp_sdes_type_vals[] =
{
{ RTCP_SDES_END, "END" },
{ RTCP_SDES_CNAME, "CNAME (user and domain)" },
static int hf_rtcp_ssrc_source = -1;
static int hf_rtcp_ssrc_fraction = -1;
static int hf_rtcp_ssrc_cum_nr = -1;
-/* First the 32 bit number, then the split
+/* First the 32 bit number, then the split
* up 16 bit values */
/* These two are added to a subtree */
static int hf_rtcp_ssrc_ext_high_seq = -1;
static gboolean dissect_rtcp_heur( tvbuff_t *tvb, packet_info *pinfo,
proto_tree *tree );
+static void dissect_rtcp( tvbuff_t *tvb, packet_info *pinfo,
+ proto_tree *tree );
void rtcp_add_address( packet_info *pinfo, const unsigned char* ip_addr,
int prt )
}
/*
- * Check if the ip address and port combination is not
+ * Check if the ip address and port combination is not
* already registered
*/
pconv = find_conversation( &src_addr, &fake_addr, PT_UDP, prt, 0, 0 );
}
#if 0
-static void rtcp_init( void )
+static void rtcp_init( void )
{
unsigned char* tmp_data;
int i;
fake_addr.type = AT_IPv4;
fake_addr.len = 4;
- tmp_data = malloc( fake_addr.len );
+ tmp_data = g_malloc( fake_addr.len );
for ( i = 0; i < fake_addr.len; i++) {
tmp_data[i] = 0;
}
{
conversation_t* pconv;
- if (!proto_is_protocol_enabled(proto_rtcp))
- return FALSE; /* RTCP has been disabled */
-
/* This is a heuristic dissector, which means we get all the UDP
* traffic not sent to a known dissector and not claimed by
* a heuristic dissector called before us!
static int
-dissect_rtcp_nack( tvbuff_t *tvb, int offset, frame_data *fd, proto_tree *tree )
+dissect_rtcp_nack( tvbuff_t *tvb, int offset, proto_tree *tree )
{
/* Packet type = FIR (H261) */
- proto_tree_add_uint( tree, hf_rtcp_rc, tvb, offset, 1, tvb_get_guint8( tvb, offset ) & 31 );
+ proto_tree_add_uint( tree, hf_rtcp_rc, tvb, offset, 1, tvb_get_guint8( tvb, offset ) );
offset++;
/* Packet type, 8 bits = APP */
proto_tree_add_item( tree, hf_rtcp_pt, tvb, offset, 1, FALSE );
/* SSRC */
proto_tree_add_uint( tree, hf_rtcp_ssrc_source, tvb, offset, 4, tvb_get_ntohl( tvb, offset ) );
offset += 4;
-
+
/* FSN, 16 bits */
proto_tree_add_uint( tree, hf_rtcp_fsn, tvb, offset, 2, tvb_get_ntohs( tvb, offset ) );
offset += 2;
}
static int
-dissect_rtcp_fir( tvbuff_t *tvb, int offset, frame_data *fd, proto_tree *tree )
+dissect_rtcp_fir( tvbuff_t *tvb, int offset, proto_tree *tree )
{
/* Packet type = FIR (H261) */
- proto_tree_add_uint( tree, hf_rtcp_rc, tvb, offset, 1, tvb_get_guint8( tvb, offset ) & 31 );
+ proto_tree_add_uint( tree, hf_rtcp_rc, tvb, offset, 1, tvb_get_guint8( tvb, offset ) );
offset++;
/* Packet type, 8 bits = APP */
proto_tree_add_item( tree, hf_rtcp_pt, tvb, offset, 1, FALSE );
/* SSRC */
proto_tree_add_uint( tree, hf_rtcp_ssrc_source, tvb, offset, 4, tvb_get_ntohl( tvb, offset ) );
offset += 4;
-
+
return offset;
}
static int
-dissect_rtcp_app( tvbuff_t *tvb, int offset, frame_data *fd, proto_tree *tree,
+dissect_rtcp_app( tvbuff_t *tvb, int offset, proto_tree *tree,
unsigned int padding, unsigned int packet_len )
{
unsigned int counter = 0;
/* Applications specific data */
if ( padding ) {
- /* If there's padding present, we have to remove that from the data part
+ /* If there's padding present, we have to remove that from the data part
* The last octet of the packet contains the length of the padding
*/
packet_len -= tvb_get_guint8( tvb, offset + packet_len - 1 );
}
static int
-dissect_rtcp_bye( tvbuff_t *tvb, int offset, frame_data *fd, proto_tree *tree,
+dissect_rtcp_bye( tvbuff_t *tvb, int offset, proto_tree *tree,
unsigned int count )
{
unsigned int chunk = 1;
unsigned int reason_length = 0;
- unsigned int counter = 0;
char* reason_text = NULL;
while ( chunk <= count ) {
/* source identifier, 32 bits */
- proto_tree_add_uint( tree, hf_rtcp_ssrc_source, tvb, offset, 4, tvb_get_ntohl( tvb, offset ) );
+ proto_tree_add_item( tree, hf_rtcp_ssrc_source, tvb, offset, 4, FALSE);
offset += 4;
+ chunk++;
}
- /* Bye reason consists of an 8 bit length l and a string with length l */
- reason_length = tvb_get_guint8( tvb, offset );
- proto_tree_add_item( tree, hf_rtcp_ssrc_length, tvb, offset, 1, FALSE );
- offset++;
+ if ( tvb_reported_length_remaining( tvb, offset ) > 0 ) {
+ /* Bye reason consists of an 8 bit length l and a string with length l */
+ reason_length = tvb_get_guint8( tvb, offset );
+ proto_tree_add_item( tree, hf_rtcp_ssrc_length, tvb, offset, 1, FALSE );
+ offset++;
- reason_text = ( char* ) malloc( reason_length + 1 );
- for ( counter = 0; counter < reason_length; counter++ ) reason_text[ counter ] = tvb_get_guint8( tvb, offset + counter );
- /* strncpy( reason_text, pd + offset, reason_length ); */
- reason_text[ reason_length ] = '\0';
- proto_tree_add_string( tree, hf_rtcp_ssrc_text, tvb, offset, reason_length, reason_text );
- free( reason_text );
- offset += reason_length;
+ reason_text = tvb_get_string(tvb, offset, reason_length);
+ proto_tree_add_string( tree, hf_rtcp_ssrc_text, tvb, offset, reason_length, reason_text );
+ g_free( reason_text );
+ offset += reason_length;
+ }
return offset;
}
-static int
-dissect_rtcp_sdes( tvbuff_t *tvb, int offset, frame_data *fd, proto_tree *tree,
+static void
+dissect_rtcp_sdes( tvbuff_t *tvb, int offset, proto_tree *tree,
unsigned int count )
{
unsigned int chunk = 1;
unsigned int counter = 0;
unsigned int prefix_len = 0;
char *prefix_string = NULL;
-
+
while ( chunk <= count ) {
/* Create a subtree for this chunk; we don't yet know
the length. */
start_offset = offset;
ssrc = tvb_get_ntohl( tvb, offset );
- sdes_item = proto_tree_add_text(tree, tvb, offset, 0,
+ sdes_item = proto_tree_add_text(tree, tvb, offset, -1,
"Chunk %u, SSRC/CSRC %u", chunk, ssrc);
sdes_tree = proto_item_add_subtree( sdes_item, ett_sdes );
offset += 4;
/* Create a subtree for the SDES items; we don't yet know
- the length */
+ the length */
items_start_offset = offset;
- ti = proto_tree_add_text(sdes_tree, tvb, offset, 0,
+ ti = proto_tree_add_text(sdes_tree, tvb, offset, -1,
"SDES items" );
sdes_item_tree = proto_item_add_subtree( ti, ett_sdes_item );
-
+
/*
* Not every message is ended with "null" bytes, so check for
* end of frame instead.
proto_tree_add_item( sdes_item_tree, hf_rtcp_ssrc_prefix_len, tvb, offset, 1, FALSE );
offset++;
- prefix_string = ( char * ) malloc( prefix_len + 1 );
+ prefix_string = g_malloc( prefix_len + 1 );
for ( counter = 0; counter < prefix_len; counter++ )
prefix_string[ counter ] =
tvb_get_guint8( tvb, offset + counter );
/* strncpy( prefix_string, pd + offset, prefix_len ); */
prefix_string[ prefix_len ] = '\0';
proto_tree_add_string( sdes_item_tree, hf_rtcp_ssrc_prefix_string, tvb, offset, prefix_len, prefix_string );
- free( prefix_string );
+ g_free( prefix_string );
offset += prefix_len;
}
- prefix_string = ( char * ) malloc( item_len + 1 );
+ prefix_string = g_malloc( item_len + 1 );
for ( counter = 0; counter < item_len; counter++ )
prefix_string[ counter ] =
tvb_get_guint8( tvb, offset + counter );
/* strncpy( prefix_string, pd + offset, item_len ); */
prefix_string[ item_len] = 0;
proto_tree_add_string( sdes_item_tree, hf_rtcp_ssrc_text, tvb, offset, item_len, prefix_string );
- free( prefix_string );
+ g_free( prefix_string );
offset += item_len;
}
/* Set the length of the items subtree. */
proto_item_set_len(ti, offset - items_start_offset);
- /* 32 bits = 4 bytes, so.....
- * If offset % 4 != 0, we divide offset by 4, add one and then
+ /* 32 bits = 4 bytes, so.....
+ * If offset % 4 != 0, we divide offset by 4, add one and then
* multiply by 4 again to reach the boundary
*/
if ( offset % 4 != 0 )
chunk++;
}
-
-
- return offset;
}
static int
-dissect_rtcp_rr( tvbuff_t *tvb, int offset, frame_data *fd, proto_tree *tree,
+dissect_rtcp_rr( tvbuff_t *tvb, int offset, proto_tree *tree,
unsigned int count )
{
unsigned int counter = 1;
ti = proto_tree_add_text(tree, tvb, offset, 24,
"Source %u", counter );
ssrc_tree = proto_item_add_subtree( ti, ett_ssrc );
-
+
/* SSRC_n source identifier, 32 bits */
proto_tree_add_uint( ssrc_tree, hf_rtcp_ssrc_source, tvb, offset, 4, tvb_get_ntohl( tvb, offset ) );
offset += 4;
-
+
ti = proto_tree_add_text(ssrc_tree, tvb, offset, 20, "SSRC contents" );
ssrc_sub_tree = proto_item_add_subtree( ti, ett_ssrc_item );
}
static int
-dissect_rtcp_sr( tvbuff_t *tvb, int offset, frame_data *fd, proto_tree *tree,
+dissect_rtcp_sr( tvbuff_t *tvb, int offset, proto_tree *tree,
unsigned int count )
{
#if 0
/* The rest of the packet is equal to the RR packet */
if ( count != 0 )
- offset = dissect_rtcp_rr( tvb, offset, fd, tree, count );
+ offset = dissect_rtcp_rr( tvb, offset, tree, count );
return offset;
}
-void
+static void
dissect_rtcp( tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree )
{
proto_item *ti = NULL;
unsigned int offset = 0;
guint16 packet_length = 0;
- CHECK_DISPLAY_AS_DATA(proto_rtcp, tvb, pinfo, tree);
-
- pinfo->current_proto = "RTCP";
-
- if ( check_col( pinfo->fd, COL_PROTOCOL ) ) {
- col_set_str( pinfo->fd, COL_PROTOCOL, "RTCP" );
+ if ( check_col( pinfo->cinfo, COL_PROTOCOL ) ) {
+ col_set_str( pinfo->cinfo, COL_PROTOCOL, "RTCP" );
}
-
- if ( check_col( pinfo->fd, COL_INFO) ) {
+
+ if ( check_col( pinfo->cinfo, COL_INFO) ) {
/* The second octet contains the packet type */
/* switch ( pd[ offset + 1 ] ) { */
switch ( tvb_get_guint8( tvb, 1 ) ) {
case RTCP_SR:
- col_set_str( pinfo->fd, COL_INFO, "Sender Report");
+ col_set_str( pinfo->cinfo, COL_INFO, "Sender Report");
break;
case RTCP_RR:
- col_set_str( pinfo->fd, COL_INFO, "Receiver Report");
+ col_set_str( pinfo->cinfo, COL_INFO, "Receiver Report");
break;
case RTCP_SDES:
- col_set_str( pinfo->fd, COL_INFO, "Source Description");
+ col_set_str( pinfo->cinfo, COL_INFO, "Source Description");
break;
case RTCP_BYE:
- col_set_str( pinfo->fd, COL_INFO, "Goodbye");
+ col_set_str( pinfo->cinfo, COL_INFO, "Goodbye");
break;
case RTCP_APP:
- col_set_str( pinfo->fd, COL_INFO, "Application defined");
+ col_set_str( pinfo->cinfo, COL_INFO, "Application defined");
break;
case RTCP_FIR:
- col_set_str( pinfo->fd, COL_INFO, "Full Intra-frame Request (H.261)");
+ col_set_str( pinfo->cinfo, COL_INFO, "Full Intra-frame Request (H.261)");
break;
case RTCP_NACK:
- col_set_str( pinfo->fd, COL_INFO, "Negative Acknowledgement (H.261)");
+ col_set_str( pinfo->cinfo, COL_INFO, "Negative Acknowledgement (H.261)");
break;
default:
- col_set_str( pinfo->fd, COL_INFO, "Unknown packet type");
+ col_set_str( pinfo->cinfo, COL_INFO, "Unknown packet type");
break;
}
}
if ( tree ) {
- /*
- * Check if there are at least 4 bytes left in the frame,
- * the last 16 bits of those is the length of the current
+ /*
+ * Check if there are at least 4 bytes left in the frame,
+ * the last 16 bits of those is the length of the current
* RTCP message. The last compound message contains padding,
* that enables us to break from the while loop.
*/
while ( tvb_bytes_exist( tvb, offset, 4) ) {
- /*
+ /*
* First retreive the packet_type
*/
packet_type = tvb_get_guint8( tvb, offset + 1 );
*/
if ( ( packet_type < 192 ) || ( packet_type > 204 ) )
break;
-
+
/*
* get the packet-length for the complete RTCP packet
*/
packet_length = ( tvb_get_ntohs( tvb, offset + 2 ) + 1 ) * 4;
- ti = proto_tree_add_item(tree, proto_rtcp, tvb, offset, packet_length, FALSE );
+ ti = proto_tree_add_item(tree, proto_rtcp, tvb, offset, packet_length, FALSE );
rtcp_tree = proto_item_add_subtree( ti, ett_rtcp );
temp_byte = tvb_get_guint8( tvb, offset );
proto_tree_add_uint( rtcp_tree, hf_rtcp_version, tvb,
- offset, 1, RTCP_VERSION( temp_byte ) );
+ offset, 1, temp_byte);
padding_set = RTCP_PADDING( temp_byte );
proto_tree_add_boolean( rtcp_tree, hf_rtcp_padding, tvb,
- offset, 1, padding_set );
+ offset, 1, temp_byte );
elem_count = RTCP_COUNT( temp_byte );
switch ( packet_type ) {
case RTCP_SR:
case RTCP_RR:
/* Receiver report count, 5 bits */
- proto_tree_add_uint( rtcp_tree, hf_rtcp_rc, tvb, offset, 1, elem_count );
+ proto_tree_add_uint( rtcp_tree, hf_rtcp_rc, tvb, offset, 1, temp_byte );
offset++;
/* Packet type, 8 bits */
proto_tree_add_item( rtcp_tree, hf_rtcp_pt, tvb, offset, 1, FALSE );
proto_tree_add_uint( rtcp_tree, hf_rtcp_ssrc_sender, tvb, offset, 4, tvb_get_ntohl( tvb, offset ) );
offset += 4;
- if ( packet_type == RTCP_SR ) offset = dissect_rtcp_sr( tvb, offset, pinfo->fd, rtcp_tree, elem_count );
- else offset = dissect_rtcp_rr( tvb, offset, pinfo->fd, rtcp_tree, elem_count );
+ if ( packet_type == RTCP_SR ) offset = dissect_rtcp_sr( tvb, offset, rtcp_tree, elem_count );
+ else offset = dissect_rtcp_rr( tvb, offset, rtcp_tree, elem_count );
break;
case RTCP_SDES:
/* Source count, 5 bits */
- proto_tree_add_uint( rtcp_tree, hf_rtcp_sc, tvb, offset, 1, elem_count );
+ proto_tree_add_uint( rtcp_tree, hf_rtcp_sc, tvb, offset, 1, temp_byte );
offset++;
/* Packet type, 8 bits */
proto_tree_add_item( rtcp_tree, hf_rtcp_pt, tvb, offset, 1, FALSE );
/* Packet length in 32 bit words MINUS one, 16 bits */
proto_tree_add_uint( rtcp_tree, hf_rtcp_length, tvb, offset, 2, tvb_get_ntohs( tvb, offset ) );
offset += 2;
- offset = dissect_rtcp_sdes( tvb, offset, pinfo->fd, rtcp_tree, elem_count );
+ dissect_rtcp_sdes( tvb, offset, rtcp_tree, elem_count );
+ offset += packet_length - 4;
break;
case RTCP_BYE:
/* Source count, 5 bits */
- proto_tree_add_uint( rtcp_tree, hf_rtcp_sc, tvb, offset, 1, elem_count );
+ proto_tree_add_uint( rtcp_tree, hf_rtcp_sc, tvb, offset, 1, temp_byte );
offset++;
/* Packet type, 8 bits */
proto_tree_add_item( rtcp_tree, hf_rtcp_pt, tvb, offset, 1, FALSE );
/* Packet length in 32 bit words MINUS one, 16 bits */
proto_tree_add_uint( rtcp_tree, hf_rtcp_length, tvb, offset, 2, tvb_get_ntohs( tvb, offset ) );
offset += 2;
- offset = dissect_rtcp_bye( tvb, offset, pinfo->fd, rtcp_tree, elem_count );
+ offset = dissect_rtcp_bye( tvb, offset, rtcp_tree, elem_count );
break;
case RTCP_APP:
/* Subtype, 5 bits */
proto_tree_add_uint( rtcp_tree, hf_rtcp_length, tvb, offset, 2, tvb_get_ntohs( tvb, offset ) );
offset += 2;
offset = dissect_rtcp_app( tvb, offset,
- pinfo->fd, rtcp_tree, padding_set,
+ rtcp_tree, padding_set,
packet_length - 4 );
break;
case RTCP_FIR:
- offset = dissect_rtcp_fir( tvb, offset, pinfo->fd, rtcp_tree );
+ offset = dissect_rtcp_fir( tvb, offset, rtcp_tree );
break;
case RTCP_NACK:
- offset = dissect_rtcp_nack( tvb, offset, pinfo->fd, rtcp_tree );
+ offset = dissect_rtcp_nack( tvb, offset, rtcp_tree );
break;
default:
/*
break;
}
}
- /* If the padding bit is set, the last octet of the
- * packet contains the length of the padding
+ /* If the padding bit is set, the last octet of the
+ * packet contains the length of the padding
* We only have to check for this at the end of the LAST RTCP message
*/
if ( padding_set ) {
- /* If everything went according to plan offset should now point to the
- * first octet of the padding
+ /* If everything went according to plan offset should now point to the
+ * first octet of the padding
*/
proto_tree_add_item( rtcp_tree, hf_rtcp_padding_data, tvb, offset, tvb_length_remaining( tvb, offset) - 1, FALSE );
offset += tvb_length_remaining( tvb, offset) - 1;
void
proto_register_rtcp(void)
{
- static hf_register_info hf[] =
+ static hf_register_info hf[] =
{
- {
+ {
&hf_rtcp_version,
- {
- "Version",
- "rtcp.version",
- FT_UINT8,
- BASE_DEC,
- VALS(rtcp_version_vals),
- 0x0,
- "", HFILL
+ {
+ "Version",
+ "rtcp.version",
+ FT_UINT8,
+ BASE_DEC,
+ VALS(rtcp_version_vals),
+ 0xC0,
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_padding,
- {
- "Padding",
- "rtcp.padding",
- FT_BOOLEAN,
- BASE_NONE,
- NULL,
- 0x0,
- "", HFILL
+ {
+ "Padding",
+ "rtcp.padding",
+ FT_BOOLEAN,
+ 8,
+ NULL,
+ 0x20,
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_rc,
- {
- "Reception report count",
- "rtcp.rc",
- FT_UINT8,
- BASE_DEC,
- NULL,
- 0x0,
- "", HFILL
+ {
+ "Reception report count",
+ "rtcp.rc",
+ FT_UINT8,
+ BASE_DEC,
+ NULL,
+ 0x1F,
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_sc,
- {
- "Source count",
- "rtcp.sc",
- FT_UINT8,
- BASE_DEC,
- NULL,
- 0x0,
- "", HFILL
+ {
+ "Source count",
+ "rtcp.sc",
+ FT_UINT8,
+ BASE_DEC,
+ NULL,
+ 0x1F,
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_pt,
- {
- "Packet type",
- "rtcp.pt",
- FT_UINT8,
- BASE_DEC,
- VALS( rtcp_packet_type_vals ),
+ {
+ "Packet type",
+ "rtcp.pt",
+ FT_UINT8,
+ BASE_DEC,
+ VALS( rtcp_packet_type_vals ),
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_length,
- {
- "Length",
- "rtcp.length",
- FT_UINT16,
- BASE_DEC,
- NULL,
+ {
+ "Length",
+ "rtcp.length",
+ FT_UINT16,
+ BASE_DEC,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_ssrc_sender,
- {
- "Sender SSRC",
- "rtcp.senderssrc",
- FT_UINT32,
- BASE_DEC,
- NULL,
+ {
+ "Sender SSRC",
+ "rtcp.senderssrc",
+ FT_UINT32,
+ BASE_DEC,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_ntp,
- {
- "NTP timestamp",
- "rtcp.timestamp.ntp",
- FT_STRING,
- BASE_NONE,
- NULL,
+ {
+ "NTP timestamp",
+ "rtcp.timestamp.ntp",
+ FT_STRING,
+ BASE_NONE,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_rtp_timestamp,
- {
- "RTP timestamp",
- "rtcp.timestamp.rtp",
- FT_UINT32,
- BASE_DEC,
- NULL,
+ {
+ "RTP timestamp",
+ "rtcp.timestamp.rtp",
+ FT_UINT32,
+ BASE_DEC,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_sender_pkt_cnt,
- {
- "Sender's packet count",
- "rtcp.sender.packetcount",
- FT_UINT32,
- BASE_DEC,
- NULL,
+ {
+ "Sender's packet count",
+ "rtcp.sender.packetcount",
+ FT_UINT32,
+ BASE_DEC,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_sender_oct_cnt,
- {
- "Sender's octet count",
- "rtcp.sender.octetcount",
- FT_UINT32,
- BASE_DEC,
- NULL,
+ {
+ "Sender's octet count",
+ "rtcp.sender.octetcount",
+ FT_UINT32,
+ BASE_DEC,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_ssrc_source,
- {
- "Identifier",
- "rtcp.ssrc.identifier",
- FT_UINT32,
- BASE_DEC,
- NULL,
+ {
+ "Identifier",
+ "rtcp.ssrc.identifier",
+ FT_UINT32,
+ BASE_DEC,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_ssrc_fraction,
- {
- "Fraction lost",
- "rtcp.ssrc.fraction",
- FT_UINT8,
- BASE_DEC,
- NULL,
+ {
+ "Fraction lost",
+ "rtcp.ssrc.fraction",
+ FT_UINT8,
+ BASE_DEC,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_ssrc_cum_nr,
- {
- "Cumulative number of packets lost",
- "rtcp.ssrc.cum_nr",
- FT_UINT32,
- BASE_DEC,
- NULL,
+ {
+ "Cumulative number of packets lost",
+ "rtcp.ssrc.cum_nr",
+ FT_UINT32,
+ BASE_DEC,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_ssrc_ext_high_seq,
- {
- "Extended highest sequence number received",
- "rtcp.ssrc.ext_high",
- FT_UINT32,
- BASE_DEC,
- NULL,
+ {
+ "Extended highest sequence number received",
+ "rtcp.ssrc.ext_high",
+ FT_UINT32,
+ BASE_DEC,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_ssrc_high_seq,
- {
- "Highest sequence number received",
- "rtcp.ssrc.high_seq",
- FT_UINT16,
- BASE_DEC,
- NULL,
+ {
+ "Highest sequence number received",
+ "rtcp.ssrc.high_seq",
+ FT_UINT16,
+ BASE_DEC,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_ssrc_high_cycles,
- {
- "Sequence number cycles count",
- "rtcp.ssrc.high_cycles",
- FT_UINT16,
- BASE_DEC,
- NULL,
+ {
+ "Sequence number cycles count",
+ "rtcp.ssrc.high_cycles",
+ FT_UINT16,
+ BASE_DEC,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_ssrc_jitter,
- {
- "Interarrival jitter",
- "rtcp.ssrc.jitter",
- FT_UINT32,
- BASE_DEC,
- NULL,
+ {
+ "Interarrival jitter",
+ "rtcp.ssrc.jitter",
+ FT_UINT32,
+ BASE_DEC,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_ssrc_lsr,
- {
- "Last SR timestamp",
- "rtcp.ssrc.lsr",
- FT_UINT32,
- BASE_DEC,
- NULL,
+ {
+ "Last SR timestamp",
+ "rtcp.ssrc.lsr",
+ FT_UINT32,
+ BASE_DEC,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_ssrc_dlsr,
- {
- "Delay since last SR timestamp",
- "rtcp.ssrc.dlsr",
- FT_UINT32,
- BASE_DEC,
- NULL,
+ {
+ "Delay since last SR timestamp",
+ "rtcp.ssrc.dlsr",
+ FT_UINT32,
+ BASE_DEC,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_ssrc_csrc,
- {
- "SSRC / CSRC identifier",
- "rtcp.sdes.ssrc_csrc",
- FT_UINT32,
- BASE_DEC,
- NULL,
+ {
+ "SSRC / CSRC identifier",
+ "rtcp.sdes.ssrc_csrc",
+ FT_UINT32,
+ BASE_DEC,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_ssrc_type,
- {
- "Type",
- "rtcp.sdes.type",
- FT_UINT8,
- BASE_DEC,
- VALS( rtcp_sdes_type_vals ),
+ {
+ "Type",
+ "rtcp.sdes.type",
+ FT_UINT8,
+ BASE_DEC,
+ VALS( rtcp_sdes_type_vals ),
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_ssrc_length,
- {
- "Length",
- "rtcp.sdes.length",
- FT_UINT32,
- BASE_DEC,
- NULL,
+ {
+ "Length",
+ "rtcp.sdes.length",
+ FT_UINT32,
+ BASE_DEC,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_ssrc_text,
- {
- "Text",
- "rtcp.sdes.text",
- FT_STRING,
- BASE_NONE,
- NULL,
+ {
+ "Text",
+ "rtcp.sdes.text",
+ FT_STRING,
+ BASE_NONE,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_ssrc_prefix_len,
- {
- "Prefix length",
- "rtcp.sdes.prefix.length",
- FT_UINT8,
- BASE_DEC,
- NULL,
+ {
+ "Prefix length",
+ "rtcp.sdes.prefix.length",
+ FT_UINT8,
+ BASE_DEC,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_ssrc_prefix_string,
- {
- "Prefix string",
- "rtcp.sdes.prefix.string",
- FT_STRING,
- BASE_NONE,
- NULL,
+ {
+ "Prefix string",
+ "rtcp.sdes.prefix.string",
+ FT_STRING,
+ BASE_NONE,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_subtype,
- {
- "Subtype",
- "rtcp.app.subtype",
- FT_UINT8,
- BASE_DEC,
- NULL,
+ {
+ "Subtype",
+ "rtcp.app.subtype",
+ FT_UINT8,
+ BASE_DEC,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_name_ascii,
- {
- "Name (ASCII)",
- "rtcp.app.name",
- FT_STRING,
- BASE_NONE,
- NULL,
+ {
+ "Name (ASCII)",
+ "rtcp.app.name",
+ FT_STRING,
+ BASE_NONE,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_app_data,
- {
- "Application specific data",
- "rtcp.app.data",
- FT_BYTES,
- BASE_NONE,
- NULL,
+ {
+ "Application specific data",
+ "rtcp.app.data",
+ FT_BYTES,
+ BASE_NONE,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_fsn,
- {
- "First sequence number",
- "rtcp.nack.fsn",
- FT_UINT16,
- BASE_DEC,
- NULL,
+ {
+ "First sequence number",
+ "rtcp.nack.fsn",
+ FT_UINT16,
+ BASE_DEC,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_blp,
- {
- "Bitmask of following lost packets",
- "rtcp.nack.blp",
- FT_UINT16,
- BASE_DEC,
- NULL,
+ {
+ "Bitmask of following lost packets",
+ "rtcp.nack.blp",
+ FT_UINT16,
+ BASE_DEC,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_padding_count,
- {
- "Padding count",
- "rtcp.padding.count",
- FT_UINT8,
- BASE_DEC,
- NULL,
+ {
+ "Padding count",
+ "rtcp.padding.count",
+ FT_UINT8,
+ BASE_DEC,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
- {
+ {
&hf_rtcp_padding_data,
- {
- "Padding data",
- "rtcp.padding.data",
- FT_BYTES,
- BASE_NONE,
- NULL,
+ {
+ "Padding data",
+ "rtcp.padding.data",
+ FT_BYTES,
+ BASE_NONE,
+ NULL,
0x0,
- "", HFILL
+ "", HFILL
}
},
};
-
- static gint *ett[] =
+
+ static gint *ett[] =
{
&ett_rtcp,
&ett_ssrc,
proto_register_field_array(proto_rtcp, hf, array_length(hf));
proto_register_subtree_array(ett, array_length(ett));
+ register_dissector("rtcp", dissect_rtcp, proto_rtcp);
+
#if 0
register_init_routine( &rtcp_init );
#endif
void
proto_reg_handoff_rtcp(void)
{
+ dissector_handle_t rtcp_handle;
+
/*
- * Register this dissector as one that can be assigned to a
- * UDP conversation.
+ * Register this dissector as one that can be selected by a
+ * UDP port number.
*/
- conv_dissector_add("udp", dissect_rtcp, proto_rtcp);
+ rtcp_handle = find_dissector("rtcp");
+ dissector_add_handle("udp.port", rtcp_handle);
}