Rfc2959
TitleReal-Time Transport Protocol Management Information Base
AuthorM. Baugher, B. Strahm, I. Suconick
DateOctober 2000
Format:TXT, HTML
Status:PROPOSED STANDARD






Network Working Group                                        M. Baugher
Request for Comments: 2959                                    B. Strahm
Category: Standards Track                                   Intel Corp.
                                                            I. Suconick
                                                      VideoServer Corp.
                                                           October 2000


                      Real-Time Transport Protocol
                      Management Information Base

Status of this Memo

   This document specifies an Internet standards track protocol for the
   Internet community, and requests discussion and suggestions for
   improvements.  Please refer to the current edition of the "Internet
   Official Protocol Standards" (STD 1) for the standardization state
   and status of this protocol.  Distribution of this memo is unlimited.

Copyright Notice

   Copyright (C) The Internet Society (2000).  All Rights Reserved.

Abstract

   This memo defines a portion of the Management Information Base (MIB)
   for use with network management protocols in the Internet community.
   In particular, it defines objects for managing Real-Time Transport
   Protocol (RTP) systems (RFC1889).

Table of Contents

   1. The Network Management Framework .............................  2
   2. Overview .....................................................  3
   2.1 Components ..................................................  3
   2.2 Applicability of the MIB to RTP System Implementations ......  4
   2.3 The Structure of the RTP MIB ................................  4
   3 Definitions ...................................................  5
   4. Security Considerations ...................................... 26
   5. Acknowledgements ............................................. 27
   6. Intellectual Property ........................................ 27
   7. References ................................................... 28
   8. Authors' Addresses ........................................... 30
   9. Full Copyright Statement ..................................... 31







RFC 2959                        RTP MIB                     October 2000


1.  The SNMP Management Framework

   The SNMP Management Framework presently consists of five major
   components:

      o  An overall architecture, described in RFC 2571 [RFC2571].

      o  Mechanisms for describing and naming objects and events for the
         purpose of management.  The first version of this Structure of
         Management Information (SMI) is called SMIv1 and described in
         STD 16, RFC 1155 [RFC1155], STD 16, RFC 1212 [RFC1212] and RFC
         1215 [RFC1215].  The second version, called SMIv2, is described
         in STD 58, RFC 2578 [RFC2578], RFC 2579 [RFC2579] and RFC 2580
         [RFC2580].

      o  Message protocols for transferring management information.  The
         first version of the SNMP message protocol is called SNMPv1 and
         described in STD 15, RFC 1157 [RFC1157].  A second version of
         the SNMP message protocol, which is not an Internet standards
         track protocol, is called SNMPv2c and described in RFC 1901
         [RFC1901] and RFC 1906 [RFC1906].  The third version of the
         message protocol is called SNMPv3 and described in RFC 1906
         [RFC1906], RFC 2572 [RFC2572] and RFC 2574 [RFC2574].

      o  Protocol operations for accessing management information.  The
         first set of protocol operations and associated PDU formats is
         described in STD 15, RFC 1157 [RFC1157].  A second set of
         protocol operations and associated PDU formats is described in
         RFC 1905 [RFC1905].

      o  A set of fundamental applications described in RFC 2573
         [RFC2573] and the view-based access control mechanism described
         in RFC 2575 [RFC2575].

   A more detailed introduction to the current SNMP Management Framework
   can be found in RFC 2570 [RFC2570].

   Managed objects are accessed via a virtual information store, termed
   the Management Information Base or MIB.  Objects in the MIB are
   defined using the mechanisms defined in the SMI.

   This memo specifies a MIB module that is compliant to the SMIv2.  A
   MIB conforming to the SMIv1 can be produced through the appropriate
   translations.  The resulting translated MIB must be semantically
   equivalent, except where objects or events are omitted because no
   translation is possible (use of Counter64).  Some machine readable





RFC 2959                        RTP MIB                     October 2000


   information in SMIv2 will be converted into textual descriptions in
   SMIv1 during the translation process.  However, this loss of machine
   readable information is not considered to change the semantics of the
   MIB.

2. Overview

   An "RTP System" may be a host end-system that runs an application
   program that sends or receives RTP data packets, or it may be an
   intermediate-system that forwards RTP packets.  RTP Control Protocol
   (RTCP) packets are sent by senders and receivers to convey
   information about RTP packet transmission and reception [RFC1889].
   RTP monitors may collect RTCP information on senders and receivers to
   and from an RTP host or intermediate-system.

   The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
   "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
   document are to be interpreted as described in RFC 2119.

2.1 Components

   The RTP MIB is structured around "Session," "Receiver" and "Sender"
   conceptual abstractions.

   2.1.1  An "RTP Session" is the "...association of participants
   communicating with RTP.  For each participant, the session is defined
   by a particular pair of destination transport addresses (one network
   address plus a port pair for RTP and RTCP).  The destination
   transport addresses may be common for all participants, as in the
   case of IP multicast, or may be different for each, as in the case of
   individual unicast addresses plus a common port pair," as defined in
   section 3 of [RFC1889].

   2.1.2 A "Sender" is identified within an RTP session by a 32-bit
   numeric "Synchronization Source," or "SSRC", value and is "...the
   source of a stream of RTP packets" as defined in section 3 of
   [RFC1889].  The sender is also a source of RTCP Sender Report packets
   as specified in section 6 of [RFC1889].

   2.1.3 A "Receiver" of a "stream of RTP packets" can be a unicast or
   multicast Receiver as described in 2.1.1, above.  An RTP Receiver has
   an SSRC value that is unique to the session.  An RTP Receiver is a
   source of RTCP Receiver Reports as specified in section 6 of
   [RFC1889].







RFC 2959                        RTP MIB                     October 2000


2.2 Applicability of the MIB to RTP System Implementations

   The RTP MIB may be used in two types of RTP implementations, RTP Host
   Systems (end systems) and RTP Monitors, see section 3 of [RFC1889].
   Use of the RTP MIB for RTP Translators and Mixers, as defined in
   section 7 of [RFC1889], is for further study.

   2.2.1 RTP host Systems are end-systems that may use the RTP MIB to
   collect RTP session and stream data that the host is sending or
   receiving; these data may be used by a network manager to detect and
   diagnose faults that occur over the lifetime of an RTP session as in
   a "help-desk" scenario.

   2.2.2 RTP Monitors of multicast RTP sessions may be third-party or
   may be located in the RTP host.  RTP Monitors may use the RTP MIB to
   collect RTP session and stream statistical data; these data may be
   used by a network manager for capacity planning and other network-
   management purposes.  An RTP Monitor may use the RTP MIB to collect
   data to permit a network manager to detect and diagnose faults in RTP
   sessions or to permit a network manger to configure its operation.

   2.2.3 Many host systems will want to keep track of streams beyond
   what they are sending and receiving.  In a host monitor system, a
   host agent would use RTP data from the host to maintain data about
   streams it is sending and receiving, and RTCP data to collect data
   about other hosts in the session.  For example, an agent for an RTP
   host that is sending a stream would use data from its RTP system to
   maintain the rtpSenderTable, but it may want to maintain a
   rtpRcvrTable for endpoints that are receiving its stream.  To do this
   the RTP agent will collect RTCP data from the receivers of its stream
   to build the rtpRcvrTable.  A host monitor system MUST set the
   rtpSessionMonitor object to 'true(1)', but it does not have to accept
   management operations that create and destroy rows in its
   rtpSessionTable.

2.3  The Structure of the RTP MIB

   There are six tables in the RTP MIB.  The rtpSessionTable contains
   objects that describe active sessions at the host, or monitor.  The
   rtpSenderTable contains information about senders to the RTP session.
   The rtpRcvrTable contains information about receivers of RTP session
   data.  The rtpSessionInverseTable, rtpSenderInverseTable, and
   rtpRcvrInverseTable contain information to efficiently find indexes
   into the rtpSessionTable, rtpSenderTable, and rtpRcvrTable,
   respectively.






RFC 2959                        RTP MIB                     October 2000


   The reverse lookup tables (rtpSessionInverseTable,
   rtpSenderInverseTable, and rtpRcvrInverseTable) are optional tables
   to help management applications efficiently access conceptual rows in
   other tables.  Implementors of this MIB SHOULD implement these tables
   for multicast RTP sessions when table indexes (rtpSessionIndex of
   rtpSessionTable, rtpSenderSSRC of rtpSenderTable, and the SSRC pair
   in the rtpRcvrTable) are not available from other MIBs.  Otherwise,
   the management application may be forced to perform expensive tree
   walks through large numbers of sessions, senders, or receivers.

   For any particular RTP session, the rtpSessionMonitor object
   indicates whether remote senders or receivers to the RTP session are
   to be monitored.  If rtpSessionMonitor is true(1) then senders and
   receivers to the session MUST be monitored with entries in the
   rtpSenderTable and rtpRcvrTable.  RTP sessions are monitored by the
   RTP agent that updates rtpSenderTable and rtpRcvrTable objects with
   information from RTCP reports from remote senders or remote receivers
   respectively.

   rtpSessionNewIndex is a global object that permits a network-
   management application to obtain a unique index for conceptual row
   creation in the rtpSessionTable.  In this way the SNMP Set operation
   MAY be used to configure a monitor.

3. Definitions

RTP-MIB DEFINITIONS ::= BEGIN
IMPORTS
       Counter32, Counter64, Gauge32, mib-2, Integer32,
       MODULE-IDENTITY,
       OBJECT-TYPE, Unsigned32                     FROM SNMPv2-SMI
       RowStatus, TAddress,
       TDomain, TestAndIncr,
       TimeStamp, TruthValue                       FROM SNMPv2-TC
       OBJECT-GROUP, MODULE-COMPLIANCE             FROM SNMPv2-CONF
       Utf8String                                  FROM SYSAPPL-MIB
       InterfaceIndex                              FROM IF-MIB;

rtpMIB MODULE-IDENTITY
    LAST-UPDATED "200010020000Z"  -- 2 October 2000
    ORGANIZATION
                 "IETF AVT Working Group
    Email:   rem-conf@es.net"
    CONTACT-INFO
            "Mark Baugher
    Postal: Intel Corporation
            2111 NE 25th Avenue
            Hillsboro, OR   97124



RFC 2959                        RTP MIB                     October 2000


            United States
    Tel:    +1 503 466 8406
    Email:  mbaugher@passedge.com

            Bill Strahm
    Postal: Intel Corporation
            2111 NE 25th Avenue
            Hillsboro, OR   97124
            United States
    Tel:    +1 503 264 4632
    Email:  bill.strahm@intel.com

            Irina Suconick
    Postal: Ennovate Networks
            60 Codman Hill Rd.,
            Boxboro, Ma 01719
    Tel:    +1 781-505-2155
    Email:  irina@ennovatenetworks.com"

        DESCRIPTION
        "The managed objects of RTP systems.  The MIB is
        structured around three types of information.
        1. General information about RTP sessions such
           as the session address.
        2. Information about RTP streams being sent to
           an RTP session by a particular sender.
        3. Information about RTP streams received on an
           RTP session by a particular receiver from a
           particular sender.
         There are two types of RTP Systems, RTP hosts and
         RTP monitors.  As described below, certain objects
         are unique to a particular type of RTP System.   An
         RTP host may also function as an RTP monitor.
         Refer to RFC 1889, 'RTP: A Transport Protocol for
         Real-Time Applications,' section 3.0, for definitions."
   REVISION     "200010020000Z"  -- 2 October 2000
   DESCRIPTION  "Initial version of this MIB.
                 Published as RFC 2959."

::= { mib-2 87 }

--
-- OBJECTS
--
rtpMIBObjects OBJECT IDENTIFIER ::= { rtpMIB 1 }
rtpConformance OBJECT IDENTIFIER ::= { rtpMIB 2 }

--



RFC 2959                        RTP MIB                     October 2000


-- SESSION NEW INDEX
--
rtpSessionNewIndex OBJECT-TYPE
    SYNTAX          TestAndIncr
    MAX-ACCESS      read-write
    STATUS          current
    DESCRIPTION
      "This  object  is  used  to  assign  values  to rtpSessionIndex
       as described in 'Textual Conventions  for  SMIv2'.  For an RTP
       system that supports the creation of rows, the  network manager
       would read the  object,  and  then write the value back in
       the Set that creates a new instance  of rtpSessionEntry.   If
       the  Set  fails with the code 'inconsistentValue,' then the
       process must be repeated; If the Set succeeds, then the object
       is incremented, and the  new  instance  is created according to
       the manager's directions.  However, if the RTP agent is not
       acting as a monitor, only the RTP agent may create conceptual
       rows in the RTP session table."
    ::= { rtpMIBObjects 1 }

--
-- SESSION INVERSE TABLE
--
rtpSessionInverseTable OBJECT-TYPE
    SYNTAX          SEQUENCE OF RtpSessionInverseEntry
    MAX-ACCESS      not-accessible
    STATUS          current
    DESCRIPTION
      "Maps rtpSessionDomain, rtpSessionRemAddr, and rtpSessionLocAddr
       TAddress pairs to one or more rtpSessionIndex values, each
       describing a row in the rtpSessionTable.  This makes it possible
       to retrieve the row(s) in the rtpSessionTable corresponding to a
       given session without having to walk the entire (potentially
       large) table."
    ::= { rtpMIBObjects 2 }

rtpSessionInverseEntry OBJECT-TYPE
    SYNTAX          RtpSessionInverseEntry
    MAX-ACCESS      not-accessible
    STATUS          current
    DESCRIPTION
      "Each entry corresponds to exactly one entry in the
       rtpSessionTable - the entry containing the tuple,
       rtpSessionDomain, rtpSessionRemAddr, rtpSessionLocAddr
       and rtpSessionIndex."
    INDEX { rtpSessionDomain, rtpSessionRemAddr, rtpSessionLocAddr,
            rtpSessionIndex }
    ::= { rtpSessionInverseTable 1 }



RFC 2959                        RTP MIB                     October 2000


RtpSessionInverseEntry ::= SEQUENCE {
        rtpSessionInverseStartTime     TimeStamp
        }

rtpSessionInverseStartTime OBJECT-TYPE
    SYNTAX          TimeStamp
    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION
      "The value of SysUpTime at the time that this row was
       created."
    ::= { rtpSessionInverseEntry 1 }

--
--      SESSION TABLE
--
rtpSessionTable OBJECT-TYPE
    SYNTAX          SEQUENCE OF RtpSessionEntry
    MAX-ACCESS      not-accessible
    STATUS          current
    DESCRIPTION
          "There's one entry in rtpSessionTable for each RTP session
          on which packets are being sent, received, and/or
          monitored."
    ::= { rtpMIBObjects 3 }

rtpSessionEntry OBJECT-TYPE
    SYNTAX          RtpSessionEntry
    MAX-ACCESS      not-accessible
    STATUS          current
    DESCRIPTION
      "Data in rtpSessionTable uniquely identify an RTP session.  A
       host RTP agent MUST create a read-only row for each session to
       which packets are being sent or received.  Rows MUST be created
       by the RTP Agent at the start of a session when one or more
       senders or receivers are observed.  Rows created by an RTP agent
       MUST be deleted when the session is over and there are no
       rtpRcvrEntry and no rtpSenderEntry for this session.  An RTP
       session SHOULD be monitored to create management information on
       all RTP streams being sent or received when the
       rtpSessionMonitor has the TruthValue of 'true(1)'.  An RTP
       monitor SHOULD permit row creation with the side effect of
       causing the RTP System to join the multicast session for the
       purposes of gathering management information  (additional
       conceptual rows are created in the rtpRcvrTable and
       rtpSenderTable).  Thus, rtpSessionTable rows SHOULD be created
       for RTP session monitoring purposes.  Rows created by a
       management application SHOULD be deleted via SNMP operations by



RFC 2959                        RTP MIB                     October 2000


       management applications.  Rows created by management operations
       are deleted by management operations by setting
       rtpSessionRowStatus to 'destroy(6)'."
    INDEX { rtpSessionIndex }
    ::= { rtpSessionTable 1 }

RtpSessionEntry ::= SEQUENCE {
        rtpSessionIndex         Integer32,
        rtpSessionDomain        TDomain,
        rtpSessionRemAddr       TAddress,
        rtpSessionLocAddr       TAddress,
        rtpSessionIfIndex       InterfaceIndex,
        rtpSessionSenderJoins   Counter32,
        rtpSessionReceiverJoins Counter32,
        rtpSessionByes          Counter32,
        rtpSessionStartTime     TimeStamp,
        rtpSessionMonitor       TruthValue,
        rtpSessionRowStatus     RowStatus
        }

rtpSessionIndex OBJECT-TYPE
    SYNTAX          Integer32 (1..2147483647)
    MAX-ACCESS      not-accessible
    STATUS          current
    DESCRIPTION
      "The index of the conceptual row which is for SNMP purposes
       only and has no relation to any protocol value.  There is
       no requirement that these rows are created or maintained
       sequentially."
    ::= { rtpSessionEntry 1 }

rtpSessionDomain OBJECT-TYPE
    SYNTAX          TDomain
    MAX-ACCESS      read-create
    STATUS          current
    DESCRIPTION
      "The transport-layer protocol used for sending or receiving
       the stream of RTP data packets on this session.
       Cannot be changed if rtpSessionRowStatus is 'active'."
    ::= { rtpSessionEntry 2 }

rtpSessionRemAddr OBJECT-TYPE
    SYNTAX          TAddress
    MAX-ACCESS      read-create
    STATUS          current
    DESCRIPTION
      "The address to which RTP packets are sent by the RTP system.
      In an IP multicast RTP session, this is the single address used



RFC 2959                        RTP MIB                     October 2000


      by all senders and receivers of RTP session data.  In a unicast
      RTP session this is the unicast address of the remote RTP system.
      'The destination address pair may be common for all participants,
      as in the case of IP multicast, or may be different for each, as
      in the case of individual unicast network address pairs.'  See
      RFC 1889, 'RTP: A Transport Protocol for Real-Time Applications,'
      sec. 3.  The transport service is identified by rtpSessionDomain.
      For snmpUDPDomain, this is an IP address and even-numbered UDP
      Port with the RTCP being sent on the next higher odd-numbered
      port, see RFC 1889, sec. 5."
    ::= { rtpSessionEntry 3 }

rtpSessionLocAddr OBJECT-TYPE
    SYNTAX          TAddress
    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION
      "The local address used by the RTP system.  In an IP multicast
       RTP session, rtpSessionRemAddr will be the same IP multicast
       address as rtpSessionLocAddr.  In a unicast RTP session,
       rtpSessionRemAddr and rtpSessionLocAddr will have different
       unicast addresses.  See RFC 1889, 'RTP: A Transport Protocol for
       Real-Time Applications,' sec. 3.  The transport service is
       identified by rtpSessionDomain.  For snmpUDPDomain, this is an IP
       address and even-numbered UDP Port with the RTCP being sent on
       the next higher odd-numbered port, see RFC 1889, sec. 5."
    ::= { rtpSessionEntry 4 }

rtpSessionIfIndex OBJECT-TYPE
    SYNTAX          InterfaceIndex
    MAX-ACCESS      read-create
    STATUS          current
    DESCRIPTION
     "The ifIndex value is set to the corresponding value
      from IF-MIB (See RFC 2233, 'The Interfaces Group MIB using
      SMIv2').  This is the interface that the RTP stream is being sent
      to or received from, or in the case of an RTP Monitor the
      interface that RTCP packets will be received on.  Cannot be
      changed if rtpSessionRowStatus is 'active'."
    ::= { rtpSessionEntry 5 }

rtpSessionSenderJoins OBJECT-TYPE
    SYNTAX          Counter32
    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION
      "The number of senders that have been observed to have
       joined the session since this conceptual row was created



RFC 2959                        RTP MIB                     October 2000


       (rtpSessionStartTime).  A sender 'joins' an RTP
       session by sending to it.  Senders that leave and then
       re-join following an RTCP BYE (see RFC 1889, 'RTP: A
       Transport Protocol for Real-Time Applications,' sec. 6.6)
       or session timeout may be counted twice.  Every time a new
       RTP sender is detected either using RTP or RTCP, this counter
       is incremented."
    ::= { rtpSessionEntry 6 }

rtpSessionReceiverJoins OBJECT-TYPE
    SYNTAX          Counter32
    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION
      "The number of receivers that have been been observed to
       have joined this session since this conceptual row was
       created (rtpSessionStartTime).  A receiver 'joins' an RTP
       session by sending RTCP Receiver Reports to the session.
       Receivers that leave and then re-join following an RTCP BYE
       (see RFC 1889, 'RTP: A Transport Protocol for Real-Time
       Applications,' sec. 6.6) or session timeout may be counted
       twice."
    ::= { rtpSessionEntry 7 }

rtpSessionByes OBJECT-TYPE
    SYNTAX          Counter32
    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION
      "A count of RTCP BYE (see RFC 1889, 'RTP: A Transport
       Protocol for Real-Time Applications,' sec. 6.6) messages
       received by this entity."
    ::= { rtpSessionEntry 8 }

rtpSessionStartTime OBJECT-TYPE
    SYNTAX          TimeStamp
    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION
      "The value of SysUpTime at the time that this row was
       created."
    ::= { rtpSessionEntry 9 }

rtpSessionMonitor OBJECT-TYPE
    SYNTAX          TruthValue
    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION



RFC 2959                        RTP MIB                     October 2000


      "Boolean, Set to 'true(1)' if remote senders or receivers in
       addition to the local RTP System are to be monitored using RTCP.
       RTP Monitors MUST initialize to 'true(1)' and RTP Hosts SHOULD
       initialize this 'false(2)'.  Note that because 'host monitor'
       systems are receiving RTCP from their remote participants they
       MUST set this value to 'true(1)'."
    ::= { rtpSessionEntry 10 }

rtpSessionRowStatus OBJECT-TYPE
    SYNTAX          RowStatus
    MAX-ACCESS      read-create
    STATUS          current
    DESCRIPTION
      "Value of 'active' when RTP or RTCP messages are being
       sent or received by an RTP System.  A newly-created
       conceptual row must have the all read-create objects
       initialized before becoming 'active'.
       A conceptual row that is in the 'notReady' or 'notInService'
       state MAY be removed after 5  minutes."
    ::= { rtpSessionEntry 11 }

--
-- SENDER INVERSE TABLE
--
rtpSenderInverseTable OBJECT-TYPE
    SYNTAX          SEQUENCE OF RtpSenderInverseEntry
    MAX-ACCESS      not-accessible
    STATUS          current
    DESCRIPTION
      "Maps rtpSenderAddr, rtpSessionIndex, to the rtpSenderSSRC
       index of the rtpSenderTable.  This table allows management
       applications to find entries sorted by rtpSenderAddr rather than
       sorted by rtpSessionIndex.  Given the rtpSessionDomain and
       rtpSenderAddr, a set of rtpSessionIndex and rtpSenderSSRC values
       can be returned from a tree walk.  When rtpSessionIndex is
       specified in the SNMP Get-Next operations, one or more
       rtpSenderSSRC values may be returned."
    ::= { rtpMIBObjects 4 }

rtpSenderInverseEntry OBJECT-TYPE
    SYNTAX          RtpSenderInverseEntry
    MAX-ACCESS      not-accessible
    STATUS          current
    DESCRIPTION
      "Each entry corresponds to exactly one entry in the
       rtpSenderTable - the entry containing the index pair,
       rtpSessionIndex, rtpSenderSSRC."
    INDEX { rtpSessionDomain, rtpSenderAddr, rtpSessionIndex,



RFC 2959                        RTP MIB                     October 2000


            rtpSenderSSRC }
    ::= { rtpSenderInverseTable 1 }

RtpSenderInverseEntry ::= SEQUENCE {
        rtpSenderInverseStartTime     TimeStamp
        }

rtpSenderInverseStartTime OBJECT-TYPE
    SYNTAX          TimeStamp
    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION
      "The value of SysUpTime at the time that this row was
       created."
    ::= { rtpSenderInverseEntry 1 }

--
--  SENDERS TABLE
--
rtpSenderTable OBJECT-TYPE
    SYNTAX          SEQUENCE OF RtpSenderEntry
    MAX-ACCESS      not-accessible
    STATUS          current
    DESCRIPTION
      "Table of information about a sender or senders to an RTP
       Session. RTP sending hosts MUST have an entry in this table
       for each stream being sent.  RTP receiving hosts MAY have an
       entry in this table for each sending stream being received by
       this host.  RTP monitors MUST create an entry for each observed
       sender to a multicast RTP Session as a side-effect when a
       conceptual row in the rtpSessionTable is made 'active' by a
       manager."
    ::= { rtpMIBObjects 5 }

rtpSenderEntry OBJECT-TYPE
    SYNTAX          RtpSenderEntry
    MAX-ACCESS      not-accessible
    STATUS          current
    DESCRIPTION
      "Each entry contains information from a single RTP Sender
       Synchronization Source (SSRC, see RFC 1889 'RTP: A Transport
       Protocol for Real-Time Applications' sec.6).  The session is
       identified to the the SNMP entity by rtpSessionIndex.
       Rows are removed by the RTP agent when a BYE is received
       from the sender or when the sender times out (see RFC
       1889, Sec. 6.2.1) or when the rtpSessionEntry is deleted."
    INDEX { rtpSessionIndex, rtpSenderSSRC }
    ::= { rtpSenderTable 1 }



RFC 2959                        RTP MIB                     October 2000


RtpSenderEntry ::= SEQUENCE {
        rtpSenderSSRC           Unsigned32,
        rtpSenderCNAME          Utf8String,
        rtpSenderAddr           TAddress,
        rtpSenderPackets        Counter64,
        rtpSenderOctets         Counter64,
        rtpSenderTool           Utf8String,
        rtpSenderSRs            Counter32,
        rtpSenderSRTime         TimeStamp,
        rtpSenderPT             INTEGER,
        rtpSenderStartTime      TimeStamp
        }

rtpSenderSSRC OBJECT-TYPE
    SYNTAX          Unsigned32
    MAX-ACCESS      not-accessible
    STATUS          current
    DESCRIPTION
      "The RTP SSRC, or synchronization source identifier of the
       sender.  The RTP session address plus an SSRC uniquely
       identify a sender to an RTP session (see RFC 1889, 'RTP: A
       Transport Protocol for Real-Time Applications' sec.3)."
    ::= { rtpSenderEntry 1 }

rtpSenderCNAME OBJECT-TYPE
    SYNTAX          Utf8String
    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION
      "The RTP canonical name of the sender."
    ::= { rtpSenderEntry 2 }

rtpSenderAddr OBJECT-TYPE
    SYNTAX          TAddress
    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION
      "The unicast transport source address of the sender.  In the
       case of an RTP Monitor this address is the address that the
       sender is using to send its RTCP Sender Reports."
    ::= { rtpSenderEntry 3 }

rtpSenderPackets OBJECT-TYPE
    SYNTAX          Counter64
    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION
      "Count of RTP packets sent by this sender, or observed by



RFC 2959                        RTP MIB                     October 2000


       an RTP monitor, since rtpSenderStartTime."
    ::= { rtpSenderEntry 4 }

rtpSenderOctets OBJECT-TYPE
    SYNTAX          Counter64
    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION
      "Count of non-header RTP octets sent by this sender, or observed
       by an RTP monitor, since rtpSenderStartTime."
    ::= { rtpSenderEntry 5 }

rtpSenderTool OBJECT-TYPE
    SYNTAX          Utf8String (SIZE(0..127))
    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION
      "Name of the application program source of the stream."
    ::= { rtpSenderEntry 6 }

rtpSenderSRs OBJECT-TYPE
    SYNTAX          Counter32
    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION
      "A count of the number of RTCP Sender Reports that have
       been sent from this sender, or observed if the RTP entity
       is a monitor, since rtpSenderStartTime."
    ::= { rtpSenderEntry 7 }

rtpSenderSRTime OBJECT-TYPE
    SYNTAX          TimeStamp
    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION
      "rtpSenderSRTime is the value of SysUpTime at the time that
       the last SR was received from this sender, in the case of a
       monitor or receiving host.  Or sent by this sender, in the
       case of a sending host."
    ::= { rtpSenderEntry 8 }

rtpSenderPT OBJECT-TYPE
    SYNTAX          INTEGER (0..127)
    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION
      "Payload type from the RTP header of the most recently received
       RTP Packet (see RFC 1889, 'RTP: A Transport Protocol for



RFC 2959                        RTP MIB                     October 2000


       Real-Time Applications' sec. 5)."
    ::= { rtpSenderEntry 9 }

rtpSenderStartTime OBJECT-TYPE
    SYNTAX          TimeStamp
    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION
      "The value of SysUpTime at the time that this row was
       created."
    ::= { rtpSenderEntry 10 }

--
-- RECEIVER INVERSE TABLE
--
rtpRcvrInverseTable OBJECT-TYPE
    SYNTAX          SEQUENCE OF RtpRcvrInverseEntry
    MAX-ACCESS      not-accessible
    STATUS          current
    DESCRIPTION
      "Maps rtpRcvrAddr and rtpSessionIndex to the rtpRcvrSRCSSRC and
       rtpRcvrSSRC indexes of the rtpRcvrTable.  This table allows
       management applications to find entries sorted by rtpRcvrAddr
       rather than by rtpSessionIndex. Given rtpSessionDomain and
       rtpRcvrAddr, a set of rtpSessionIndex, rtpRcvrSRCSSRC, and
       rtpRcvrSSRC values can be returned from a tree walk.  When
       rtpSessionIndex is specified in SNMP Get-Next operations, one or
       more rtpRcvrSRCSSRC and rtpRcvrSSRC pairs may be returned."
    ::= { rtpMIBObjects 6 }

rtpRcvrInverseEntry OBJECT-TYPE
    SYNTAX          RtpRcvrInverseEntry
    MAX-ACCESS      not-accessible
    STATUS          current
    DESCRIPTION
      "Each entry corresponds to exactly one entry in the
       rtpRcvrTable - the entry containing the index pair,
       rtpSessionIndex, rtpRcvrSSRC."
    INDEX { rtpSessionDomain, rtpRcvrAddr,  rtpSessionIndex,
            rtpRcvrSRCSSRC, rtpRcvrSSRC }
    ::= { rtpRcvrInverseTable 1 }

RtpRcvrInverseEntry ::= SEQUENCE {
        rtpRcvrInverseStartTime     TimeStamp
        }

rtpRcvrInverseStartTime OBJECT-TYPE
    SYNTAX          TimeStamp



RFC 2959                        RTP MIB                     October 2000


    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION
      "The value of SysUpTime at the time that this row was
       created."
    ::= { rtpRcvrInverseEntry 1 }

--
--  RECEIVERS TABLE
--
rtpRcvrTable OBJECT-TYPE
    SYNTAX          SEQUENCE OF RtpRcvrEntry
    MAX-ACCESS      not-accessible
    STATUS          current
    DESCRIPTION
      "Table of information about a receiver or receivers of RTP
       session data. RTP hosts that receive RTP session packets
       MUST create an entry in this table for that receiver/sender
       pair.  RTP hosts that send RTP session packets MAY create
       an entry in this table for each receiver to their stream
       using RTCP feedback from the RTP group.  RTP monitors
       create an entry for each observed RTP session receiver as
       a side effect when a conceptual row in the rtpSessionTable
       is made 'active' by a manager."
    ::= { rtpMIBObjects 7 }

rtpRcvrEntry OBJECT-TYPE
    SYNTAX          RtpRcvrEntry
    MAX-ACCESS      not-accessible
    STATUS          current
    DESCRIPTION
      "Each entry contains information from a single RTP
       Synchronization Source that is receiving packets from the
       sender identified by rtpRcvrSRCSSRC (SSRC, see RFC 1889,
       'RTP: A Transport Protocol for Real-Time Applications'
       sec.6).  The session is identified to the the RTP Agent entity
       by rtpSessionIndex.  Rows are removed by the RTP agent when
       a BYE is received from the sender or when the sender times
       out (see RFC 1889, Sec. 6.2.1) or when the rtpSessionEntry is
       deleted."
    INDEX { rtpSessionIndex, rtpRcvrSRCSSRC, rtpRcvrSSRC }
    ::= { rtpRcvrTable 1 }

RtpRcvrEntry ::= SEQUENCE {
        rtpRcvrSRCSSRC        Unsigned32,
        rtpRcvrSSRC           Unsigned32,
        rtpRcvrCNAME          Utf8String,
        rtpRcvrAddr           TAddress,



RFC 2959                        RTP MIB                     October 2000


        rtpRcvrRTT            Gauge32,
        rtpRcvrLostPackets    Counter64,
        rtpRcvrJitter         Gauge32,
        rtpRcvrTool           Utf8String,
        rtpRcvrRRs            Counter32,
        rtpRcvrRRTime         TimeStamp,
        rtpRcvrPT             INTEGER,
        rtpRcvrPackets        Counter64,
        rtpRcvrOctets         Counter64,
        rtpRcvrStartTime      TimeStamp
        }

rtpRcvrSRCSSRC OBJECT-TYPE
    SYNTAX       Unsigned32
    MAX-ACCESS   not-accessible
    STATUS       current
    DESCRIPTION
      "The RTP SSRC, or synchronization source identifier of the
       sender.  The RTP session address plus an SSRC uniquely
       identify a sender or receiver of an RTP stream (see RFC
       1889, 'RTP:  A Transport Protocol for Real-Time
       Applications' sec.3)."
    ::= { rtpRcvrEntry 1 }

rtpRcvrSSRC OBJECT-TYPE
    SYNTAX       Unsigned32
    MAX-ACCESS   not-accessible
    STATUS       current
    DESCRIPTION
      "The RTP SSRC, or synchronization source identifier of the
       receiver.  The RTP session address plus an SSRC uniquely
       identify a receiver of an RTP stream (see RFC 1889, 'RTP:
       A Transport Protocol for Real-Time Applications' sec.3)."
    ::= { rtpRcvrEntry 2 }

rtpRcvrCNAME OBJECT-TYPE
    SYNTAX       Utf8String
    MAX-ACCESS   read-only
    STATUS       current
    DESCRIPTION
      "The RTP canonical name of the receiver."
    ::= { rtpRcvrEntry 3 }

rtpRcvrAddr OBJECT-TYPE
    SYNTAX       TAddress
    MAX-ACCESS   read-only
    STATUS       current
    DESCRIPTION



RFC 2959                        RTP MIB                     October 2000


      "The unicast transport address on which the receiver is
       receiving RTP packets and/or RTCP Receiver Reports."
    ::= { rtpRcvrEntry 4 }

rtpRcvrRTT OBJECT-TYPE
    SYNTAX       Gauge32
    MAX-ACCESS   read-only
    STATUS       current
    DESCRIPTION
      "The round trip time measurement taken by the source of the
       RTP stream based on the algorithm described on sec. 6 of
       RFC 1889, 'RTP: A Transport Protocol for Real-Time
       Applications.'  This algorithm can produce meaningful
       results when the RTP agent has the same clock as the stream
       sender (when the RTP monitor is also the sending host for the
       particular receiver).  Otherwise, the entity should return
       'noSuchInstance' in response to queries against rtpRcvrRTT."
    ::= { rtpRcvrEntry 5 }

rtpRcvrLostPackets OBJECT-TYPE
    SYNTAX          Counter64
    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION
      "A count of RTP  packets lost as observed by this receiver
       since rtpRcvrStartTime."
    ::= { rtpRcvrEntry 6 }

rtpRcvrJitter OBJECT-TYPE
    SYNTAX          Gauge32
    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION
      "An estimate of delay variation as observed by this
       receiver.  (see RFC 1889, 'RTP: A Transport Protocol
       for Real-Time Applications' sec.6.3.1 and A.8)."
    ::= { rtpRcvrEntry 7 }

rtpRcvrTool OBJECT-TYPE
    SYNTAX          Utf8String (SIZE(0..127))
    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION
      "Name of the application program source of the stream."
    ::= { rtpRcvrEntry 8 }

rtpRcvrRRs OBJECT-TYPE
    SYNTAX          Counter32



RFC 2959                        RTP MIB                     October 2000


    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION
      "A count of the number of RTCP Receiver Reports that have
       been sent from this receiver, or observed if the RTP entity
       is a monitor, since rtpRcvrStartTime."
    ::= { rtpRcvrEntry 9 }

rtpRcvrRRTime OBJECT-TYPE
    SYNTAX         TimeStamp
    MAX-ACCESS     read-only
    STATUS         current
    DESCRIPTION
      "rtpRcvrRRTime is the value of SysUpTime at the time that the
       last RTCP Receiver Report was received from this receiver, in
       the case of a monitor or RR receiver (the RTP Sender).  It is
       the  value of SysUpTime at the time that the last RR was sent by
       this receiver in the case of an RTP receiver sending the RR."
    ::= { rtpRcvrEntry 10 }

rtpRcvrPT OBJECT-TYPE
    SYNTAX          INTEGER (0..127)
    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION
      "Static or dynamic payload type from the RTP header (see
       RFC 1889, 'RTP: A Transport Protocol for Real-Time
       Applications' sec. 5)."
    ::= { rtpRcvrEntry 11 }

rtpRcvrPackets OBJECT-TYPE
    SYNTAX          Counter64
    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION
      "Count of RTP packets received by this RTP host receiver
       since rtpRcvrStartTime."
    ::= { rtpRcvrEntry 12 }

rtpRcvrOctets OBJECT-TYPE
    SYNTAX          Counter64
    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION
      "Count of non-header RTP octets received by this receiving RTP
       host since rtpRcvrStartTime."
    ::= { rtpRcvrEntry 13 }




RFC 2959                        RTP MIB                     October 2000


rtpRcvrStartTime OBJECT-TYPE
    SYNTAX          TimeStamp
    MAX-ACCESS      read-only
    STATUS          current
    DESCRIPTION
      "The value of SysUpTime at the time that this row was
       created."
    ::= { rtpRcvrEntry 14 }

--
--  MODULE GROUPS
--
--
-- There are two types of RTP Systems, RTP hosts and RTP Monitors.
-- Thus there are three kinds of objects: 1) Objects common to both
-- kinds of systems, 2) Objects unique to RTP Hosts and 3) Objects
-- unique to RTP Monitors.  There is a fourth group, 4) Objects that
-- SHOULD be implemented by Multicast hosts and RTP Monitors

rtpGroups OBJECT IDENTIFIER ::= { rtpConformance 1 }
rtpSystemGroup      OBJECT-GROUP
    OBJECTS         {
                    rtpSessionDomain,
                    rtpSessionRemAddr,
                    rtpSessionIfIndex,
                    rtpSessionSenderJoins,
                    rtpSessionReceiverJoins,
                    rtpSessionStartTime,
                    rtpSessionByes,
                    rtpSessionMonitor,
                    rtpSenderCNAME,
                    rtpSenderAddr,
                    rtpSenderPackets,
                    rtpSenderOctets,
                    rtpSenderTool,
                    rtpSenderSRs,
                    rtpSenderSRTime,
                    rtpSenderStartTime,
                    rtpRcvrCNAME,
                    rtpRcvrAddr,
                    rtpRcvrLostPackets,
                    rtpRcvrJitter,
                    rtpRcvrTool,
                    rtpRcvrRRs,
                    rtpRcvrRRTime,
                    rtpRcvrStartTime
                    }
    STATUS          current



RFC 2959                        RTP MIB                     October 2000


    DESCRIPTION
        "Objects available to all RTP Systems."
    ::= { rtpGroups 1 }

rtpHostGroup    OBJECT-GROUP
    OBJECTS     {
                rtpSessionLocAddr,
                rtpSenderPT,
                rtpRcvrPT,
                rtpRcvrRTT,
                rtpRcvrOctets,
                rtpRcvrPackets
                }
    STATUS      current
    DESCRIPTION
           "Objects that are available to RTP Host systems, but may not
            be available to RTP Monitor systems."
    ::= { rtpGroups 2 }

rtpMonitorGroup OBJECT-GROUP
    OBJECTS     {
                rtpSessionNewIndex,
                rtpSessionRowStatus
                }
    STATUS      current
    DESCRIPTION
        "Objects used to create rows in the RTP Session Table.  These
        objects are not needed if the system does not create rows."
    ::= { rtpGroups 3 }

rtpInverseGroup OBJECT-GROUP
    OBJECTS     {
                rtpSessionInverseStartTime,
                rtpSenderInverseStartTime,
                rtpRcvrInverseStartTime
                }
    STATUS      current
    DESCRIPTION
            "Objects used in the Inverse Lookup Tables."
    ::= { rtpGroups 4 }

--
--  Compliance
--
rtpCompliances OBJECT IDENTIFIER ::= { rtpConformance 2 }

rtpHostCompliance MODULE-COMPLIANCE
    STATUS          current



RFC 2959                        RTP MIB                     October 2000


    DESCRIPTION
            "Host implementations MUST comply."
    MODULE           RTP-MIB
    MANDATORY-GROUPS {
                     rtpSystemGroup,
                     rtpHostGroup
                     }
    GROUP            rtpMonitorGroup
    DESCRIPTION
        "Host systems my optionally support row creation and deletion.
         This would allow an RTP Host system to act as an RTP Monitor."
    GROUP            rtpInverseGroup
    DESCRIPTION
        "Multicast RTP Systems SHOULD implement the optional
         tables."
        OBJECT  rtpSessionNewIndex
            MIN-ACCESS not-accessible
                DESCRIPTION
                 "RTP system implementations support of
                  row creation and deletion is OPTIONAL so
                  implementation of this object is OPTIONAL."
        OBJECT  rtpSessionDomain
           MIN-ACCESS read-only
                DESCRIPTION
                 "RTP system implementation support of
                  row creation and deletion is OPTIONAL.  When
                  it is not supported so write access is
                  OPTIONAL."
        OBJECT  rtpSessionRemAddr
            MIN-ACCESS read-only
              DESCRIPTION
               "Row creation and deletion is OPTIONAL so
                read-create access to this object is OPTIONAL."
        OBJECT  rtpSessionIfIndex
            MIN-ACCESS read-only
              DESCRIPTION
               "Row creation and deletion is OPTIONAL so
                read-create access to this object is OPTIONAL."
        OBJECT  rtpSessionRowStatus
            MIN-ACCESS not-accessible
              DESCRIPTION
               "Row creation and deletion is OPTIONAL so
                read-create access to this object is OPTIONAL."
        OBJECT  rtpSessionInverseStartTime
            MIN-ACCESS not-accessible
              DESCRIPTION
               "Multicast RTP Systems SHOULD implement the optional
                tables."



RFC 2959                        RTP MIB                     October 2000


        OBJECT  rtpSenderInverseStartTime
            MIN-ACCESS not-accessible
              DESCRIPTION
               "Multicast RTP Systems SHOULD implement the optional
                tables."
        OBJECT  rtpRcvrInverseStartTime
            MIN-ACCESS not-accessible
              DESCRIPTION
               "Multicast RTP Systems SHOULD implement the optional
                tables."
    ::= { rtpCompliances 1 }

rtpMonitorCompliance MODULE-COMPLIANCE
    STATUS          current
    DESCRIPTION
          "Monitor implementations must comply.  RTP Monitors are not
          required to support creation or deletion."
    MODULE           RTP-MIB
    MANDATORY-GROUPS     {
                         rtpSystemGroup,
                         rtpMonitorGroup
                         }
    GROUP                rtpHostGroup
    DESCRIPTION
        "Monitor implementations may not have access to values in the
         rtpHostGroup."
    GROUP                rtpInverseGroup
    DESCRIPTION
        "Multicast RTP Systems SHOULD implement the optional
         tables."
        OBJECT  rtpSessionLocAddr
            MIN-ACCESS not-accessible
              DESCRIPTION
               "RTP monitor sourcing of RTP or RTCP data packets
                is OPTIONAL and implementation of this object is
                OPTIONAL."
        OBJECT  rtpRcvrPT
            MIN-ACCESS not-accessible
              DESCRIPTION
               "RTP monitor systems may not support
                retrieval of the RTP Payload Type from the RTP
                header (and may receive RTCP messages only).  When
                queried for the payload type information"
        OBJECT  rtpSenderPT
            MIN-ACCESS not-accessible
              DESCRIPTION
               "RTP monitor systems may not support
                retrieval of the RTP Payload Type from the RTP



RFC 2959                        RTP MIB                     October 2000


                header (and may receive RTCP messages only).  When
                queried for the payload type information."
        OBJECT  rtpRcvrOctets
            MIN-ACCESS not-accessible
              DESCRIPTION
               "RTP monitor systems may receive only the RTCP messages
                and not the RTP messages that contain the octet count
                of the RTP message.  Thus implementation of this
                object is OPTIONAL"
        OBJECT  rtpRcvrPackets
            MIN-ACCESS not-accessible
              DESCRIPTION
               "RTP monitor systems may receive only the RTCP messages
                and not the RTP messages that contain the octet count
                of the RTP message.  Thus implementation of this
                object is OPTIONAL."
        OBJECT  rtpSessionIfIndex
            MIN-ACCESS read-only
              DESCRIPTION
               "Row creation and deletion is OPTIONAL so
                read-create access to this object is OPTIONAL."
        OBJECT  rtpSessionInverseStartTime
            MIN-ACCESS not-accessible
              DESCRIPTION
               "Multicast RTP Systems SHOULD implement the optional
                tables."
        OBJECT  rtpSenderInverseStartTime
            MIN-ACCESS not-accessible
              DESCRIPTION
               "Multicast RTP Systems SHOULD implement the optional
                tables."
        OBJECT  rtpRcvrInverseStartTime
            MIN-ACCESS not-accessible
              DESCRIPTION
               "Multicast RTP Systems SHOULD implement the optional
                tables."
    ::= { rtpCompliances 2 }
END













RFC 2959                        RTP MIB                     October 2000


4.  Security Considerations

   In most cases, MIBs are not themselves security risks; if SNMP
   security is operating as intended, the use of a MIB to view
   information about a system, or to change some parameter at the
   system, is a tool, not a threat.  However, there are a number of
   management objects defined in this MIB that have a MAX-ACCESS clause
   of read-write and/or read-create.  Such objects may be considered
   sensitive or vulnerable in some network environments.  The support
   for SET operations in a non-secure environment without proper
   protection can have a negative effect on network operations.

   None of the read-only objects in this MIB reports a password, though
   some SDES [RFC1889] items such as the CNAME [RFC1889], the canonical
   name, may be deemed sensitive depending on the security policies of a
   particular enterprise.  If access to these objects is not limited by
   an appropriate access control policy, these objects can provide an
   attacker with information about a system's configuration and the
   services that that system is providing.  Some enterprises view their
   network and system configurations, as well as information about usage
   and performance, as corporate assets; such enterprises may wish to
   restrict SNMP access to most of the objects in the MIB.  This MIB
   supports read-write operations against rtpSessionNewIndex which has
   the side effect of creating an entry in the rtpSessionTable when it
   is written to.  Five objects in rtpSessionEntry have read-create
   access: rtpSessionDomain, rtpSessionRemAddr, rtpSessionIfIndex,
   rtpSessionRowStatus, and rtpSessionIfAddr identify an RTP session to
   be monitored on a particular interface.  The values of these objects
   are not to be changed once created, and initialization of these
   objects affects only the monitoring of an RTP session and not the
   operation of an RTP session on any host end-system.  Since write
   operations to rtpSessionNewIndex and the five objects in
   rtpSessionEntry affect the operation of the monitor, write access to
   these objects should be subject to the appropriate access control
   policy.

   Confidentiality of RTP and RTCP data packets is defined in section 9
   of the RTP specification [RFC1889].  Encryption may be performed on
   RTP packets, RTCP packets, or both.  Encryption of RTCP packets may
   pose a problem for third-party monitors though "For RTCP, it is
   allowed to split a compound RTCP packet into two lower-layer packets,
   one to be encrypted and one to be sent in the clear.  For example,
   SDES information might be encrypted while reception reports were sent
   in the clear to accommodate third-party monitors [RFC1889]."

   SNMPv1 by itself is not a secure environment.  Even if the network
   itself is secure (for example by using IPSec), there is no control as
   to who on the secure network is allowed to access and GET/SET



RFC 2959                        RTP MIB                     October 2000


   (read/change/create/delete) the objects in this MIB.  It is
   recommended that the implementers consider the security features as
   provided by the SNMPv3 framework.  Specifically, the use of the
   User-based Security Model RFC 2574 [RFC2574] and the View-based
   Access Control Model RFC 2575 [RFC2575] is recommended.  It is then a
   customer/user responsibility to ensure that the SNMP entity giving
   access to an instance of this MIB, is properly configured to give
   access to the objects only to those principals (users) that have
   legitimate rights to indeed GET or SET (change/create/delete) them.

5.  Acknowledgements

   The authors wish to thank Bert Wijnen and the participants from the
   ITU SG-16 management effort for their helpful comments.  Alan Batie
   and Bill Lewis from Intel also contributed greatly to the RTP MIB
   through their review of various drafts of the MIB and their work on
   the implementation of an SNMP RTP Monitor.  Stan Naudus from 3Com and
   John Du from Intel contributed to the original RTP MIB design and
   co-authored the original RTP MIB draft documents; much of their work
   remains in the current RTP MIB.  Bill Fenner provided solid feedback
   that improved the quality of the final document.

6.  Intellectual Property

   The IETF takes no position regarding the validity or scope of any
   intellectual property or other rights that might be claimed to
   pertain to the implementation or use of the technology described in
   this document or the extent to which any license under such rights
   might or might not be available; neither does it represent that it
   has made any effort to identify any such rights.  Information on the
   IETF's procedures with respect to rights in standards-track and
   standards-related documentation can be found in BCP-11.  Copies of
   claims of rights made available for publication and any assurances of
   licenses to be made available, or the result of an attempt made to
   obtain a general license or permission for the use of such
   proprietary rights by implementors or users of this specification can
   be obtained from the IETF Secretariat.

   The IETF invites any interested party to bring to its attention any
   copyrights, patents or patent applications, or other proprietary
   rights which may cover technology that may be required to practice
   this standard.  Please address the information to the IETF Executive
   Director.








RFC 2959                        RTP MIB                     October 2000


7.  References

   [RFC1889]   Shulzrinne, H., Casner, S., Frederick, R. and V.
               Jacobson, "RTP: A Transport Protocol for real-time
               applications," RFC 1889, January 1996.

   [RFC2571]   Harrington, D., Presuhn, R. and B. Wijnen, "An
               Architecture for Describing SNMP Management Frameworks",
               RFC 2571, April 1999.

   [RFC1155]   Rose, M. and K. McCloghrie, "Structure and Identification
               of Management Information for TCP/IP-based Internets",
               STD 16, RFC 1155, May 1990.

   [RFC1212]   Rose, M. and K. McCloghrie, "Concise MIB Definitions",
               STD 16, RFC 1212, March 1991.

   [RFC1215]   Rose, M., "A Convention for Defining Traps for use with
               the SNMP", RFC 1215, March 1991.

   [RFC2578]   McCloghrie, K., Perkins, D., Schoenwaelder, J., Case, J.,
               Rose, M. and S. Waldbusser, "Structure of Management
               Information Version 2 (SMIv2)", STD 58, RFC 2578, April
               1999.

   [RFC2579]   McCloghrie, K., Perkins, D., Schoenwaelder, J., Case, J.,
               Rose, M. and S. Waldbusser, "Textual Conventions for
               SMIv2", STD 58, RFC 2579, April 1999.

   [RFC2580]   McCloghrie, K., Perkins, D., Schoenwaelder, J., Case, J.,
               Rose, M. and S. Waldbusser, "Conformance Statements for
               SMIv2", STD 58, RFC 2580, April 1999.

   [RFC1157]   Case, J., Fedor, M., Schoffstall, M. and J. Davin,
               "Simple Network Management Protocol", STD 15, RFC 1157,
               May 1990.

   [RFC1901]   Case, J., McCloghrie, K., Rose, M. and S. Waldbusser,
               "Introduction to Community-based SNMPv2", RFC 1901,
               January 1996.

   [RFC1906]   Case, J., McCloghrie, K., Rose, M. and S. Waldbusser,
               "Transport Mappings for Version 2 of the Simple Network
               Management Protocol (SNMPv2)", RFC 1906, January 1996.







RFC 2959                        RTP MIB                     October 2000


   [RFC2572]   Case, J., Harrington D., Presuhn R. and B. Wijnen,
               "Message Processing and Dispatching for the Simple
               Network Management Protocol (SNMP)", RFC 2572, April
               1999.

   [RFC2574]   Blumenthal, U. and B. Wijnen, "User-based Security Model
               (USM) for version 3 of the Simple Network Management
               Protocol (SNMPv3)", RFC 2574, April 1999.

   [RFC1905]   Case, J., McCloghrie, K., Rose, M. and S. Waldbusser,
               "Protocol Operations for Version 2 of the Simple Network
               Management Protocol (SNMPv2)", RFC 1905, January 1996.

   [RFC2573]   Levi, D., Meyer, P. and B. Stewart, "SNMPv3
               Applications", RFC 2573, April 1999.

   [RFC2575]   Wijnen, B., Presuhn, R. and K. McCloghrie, "View-based
               Access Control Model (VACM) for the Simple Network
               Management Protocol (SNMP)", RFC 2575, April 1999.

   [RFC2570]   Case, J., Mundy, R., Partain, D. and B. Stewart,
               "Introduction to Version 3 of the Internet-standard
               Network
                Management Framework", RFC 2570, April 1999.



























RFC 2959                        RTP MIB                     October 2000


8. Authors' Addresses

   Mark Baugher
   Intel Corporation
   2111 N.E.25th Avenue
   Hillsboro, Oregon  97124
   U.S.A.

   EMail: mbaugher@passedge.com


   Bill Strahm
   Intel Corporation
   2111 N.E.25th Avenue
   Hillsboro, Oregon  97124
   U.S.A.

   EMail: Bill.Strahm@intel.com


   Irina Suconick
   Ennovate Networks
   60 Codman Hill Rd.,
   Boxboro, Ma 01719
   U.S.A.

   EMail: irina@ennovatenetworks.com
























RFC 2959                        RTP MIB                     October 2000


9. Full Copyright Statement

   Copyright (C) The Internet Society (2000).  All Rights Reserved.

   This document and translations of it may be copied and furnished to
   others, and derivative works that comment on or otherwise explain it
   or assist in its implementation may be prepared, copied, published
   and distributed, in whole or in part, without restriction of any
   kind, provided that the above copyright notice and this paragraph are
   included on all such copies and derivative works.  However, this
   document itself may not be modified in any way, such as by removing
   the copyright notice or references to the Internet Society or other
   Internet organizations, except as needed for the purpose of
   developing Internet standards in which case the procedures for
   copyrights defined in the Internet Standards process must be
   followed, or as required to translate it into languages other than
   English.

   The limited permissions granted above are perpetual and will not be
   revoked by the Internet Society or its successors or assigns.

   This document and the information contained herein is provided on an
   "AS IS" basis and THE INTERNET SOCIETY AND THE INTERNET ENGINEERING
   TASK FORCE DISCLAIMS ALL WARRANTIES, EXPRESS OR IMPLIED, INCLUDING
   BUT NOT LIMITED TO ANY WARRANTY THAT THE USE OF THE INFORMATION
   HEREIN WILL NOT INFRINGE ANY RIGHTS OR ANY IMPLIED WARRANTIES OF
   MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.

Acknowledgement

   Funding for the RFC Editor function is currently provided by the
   Internet Society.