Definitions of Managed Objects

for Remote Ping, Traceroute, and Lookup Operations

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 © The Internet Society (2006).

Abstract

This memo defines Management Information Bases (MIBs) for performing ping, traceroute, and lookup operations at a host. When managing a network, it is useful to be able to initiate and retrieve the results of ping or traceroute operations when they are performed at a remote host. A lookup capability is defined in order to enable resolution of either an IP address to an DNS name or a DNS name to an IP address at a remote host.

Currently, there are several enterprise-specific MIBs for performing remote ping or traceroute operations. The purpose of this memo is to define a standards-based solution to enable interoperability.

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Table of Contents

1. Introduction
1.1. Ping
1.2. Traceroute
1.3. Lookup
1.4. Remote Operations
2. The Internet-Standard Management Framework
3. Structure of the MIBs
3.1. Ping MIB
3.1.1. pingMaxConcurrentRequests
3.1.2. pingCtlTable
3.1.3. pingResultsTable
3.1.4. pingProbeHistoryTable
3.2. Traceroute MIB
3.2.1. traceRouteMaxConcurrentRequests
3.2.2. traceRouteCtlTable
3.2.3. traceRouteResultsTable
3.2.4. traceRouteProbeHistoryTable
3.2.5. traceRouteHopsTable
3.3. Lookup MIB
3.3.1. lookupMaxConcurrentRequests and lookupPurgeTime
3.3.2. lookupCtlTable
3.3.3. lookupResultsTable
3.4. Conformance
4. Definitions
4.1. DISMAN-PING-MIB
4.2. DISMAN-TRACEROUTE-MIB
4.3. DISMAN-NSLOOKUP-MIB
5. Security Considerations
6. Acknowledgements
7. References
7.1. Normative References
7.2. Informative References

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1 Introduction

This document defines standards-based MIB modules for performing specific remote operations. The remote operations defined by this document consist of the ping, traceroute, and lookup functions.

Ping and traceroute are two very useful functions for managing networks. Ping is typically used to determine whether a path exists between two hosts, whereas traceroute shows an actual path.

Both ping and traceroute yield round-trip times measured in milliseconds. These times can be used as a rough approximation for network transit time.

The lookup functions considered in this document are the equivalents of name to address conversion functions such as
gethostbyname()/gethostbyaddr() and getaddrinfo()/getnameinfo().

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 [RFC2119].

1.1 Ping

Ping is usually implemented using the Internet Control Message Protocol (ICMP) "ECHO" facility. It is also possible to implement a ping capability using alternate methods, including the following:

• Using the UDP echo port (7), if supported.

This is defined by RFC 862 [RFC862].

• Timing a Simple Network Management Protocol (SNMP) query.

• Timing a TCP connect attempt.

In general, almost any request/response flow can be used to generate a round-trip time. Often, many of the non-ICMP ECHO facility methods stand a better chance of yielding a good response (not timing out, for example) since some routers don't honor Echo Requests (timeout situation) or are handled at lower priority, thus possibly giving false indications of round trip times.

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Note that almost any of the various methods used for generating a round-trip time can be considered a form of system attack when used excessively. Sending a system request too often can negatively effect its performance. Attempting to connect to what is supposed to be an unused port can be very unpredictable. There are tools that attempt to connect to a range of TCP ports to test that any receiving server can handle erroneous connection attempts.

It is also important to a management application using a remote ping capability to know which method is being used. Different methods will yield different response times, since the protocol and resulting processing will be different. It is RECOMMENDED that the ping capability defined within this memo be implemented using the ICMP Echo Facility.

1.2 Traceroute

Traceroute is usually implemented by transmitting a series of probe packets with increasing time-to-live values. A probe packet is a UDP datagram encapsulated into an IP packet. Each hop in a path to the target (destination) host rejects the probe packet (probe's TTL too small) until its time-to-live value becomes large enough for the probe to be forwarded. Each hop in a traceroute path returns an ICMP message that is used to discover the hop and to calculate a round trip time. Some systems use ICMP probes (ICMP Echo request packets) instead of UDP ones to implement traceroute. In both cases traceroute relies on the probes being rejected via an ICMP message to discover the hops taken along a path to the final destination. Both probe types, UDP and ICMP, are encapsulated into an IP packet and thus have a TTL field that can be used to cause a path rejection.

Implementations of the remote traceroute capability as defined within this memo SHOULD be done using UDP packets to a (hopefully) unused port. ICMP probes (ICMP Echo Request packets) SHOULD NOT be used. Many PC implementations of traceroute use the ICMP probe method, which they should not, since this implementation method has been known to have a high probability of failure. Intermediate hops become invisible when a router either refuses to send an ICMP TTL expired message in response to an incoming ICMP packet or simply tosses ICMP echo requests altogether.

The behavior of some routers not to return a TTL expired message in response to an ICMP Echo request is due in part to the following text extracted from RFC 792 [RFC792]:

"The ICMP messages typically report errors in the processing of datagrams. To avoid the infinite regress of messages about messages etc., no ICMP messages are sent about ICMP messages."

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1.3 Lookup

The Lookup operation enables remote lookup of addresses for a symbolic name as it is, for example, performed by functions getnameinfo() or gethostbyaddr() and lookup of symbolic names for an address as it is, for example, performed by functions getaddrinfo() or gethostbyname(). Note that whatever lookup function is chosen, results are not necessarily consistent with the results of a pure Domain Name Service (DNS) lookup, but may be influenced by local lookup tables or other sources of information. The lookup capability can be used to determine the symbolic name of a hop in a traceroute path. Also, the reverse lookup can be used, for example, for analyzing name lookup problems.

1.4 Remote Operations

The MIB modules defined in this document allow a management station to initiate ping, traceroute, and lookup operations remotely. The basic scenario is illustrated by the following diagram.

         +-------+           +-------+           +-------+
         |       |---------->|       |           |       |
         |       | initiate  |       |---------->|       |
         | Mgmt. | operation |Managed|  perform  |Target |
         |Station| remotely  | Node  | operation | Host  |
         |       |           |       |           |       |
         |       |<----------|       |           |       |
         +-------+  receive  +-------+           +-------+
                   result of
                   operation

A management station is the local host from which the remote ping, traceroute, or Lookup operation is initiated using an SNMP request. The managed node is a remote host where the MIBs defined by this memo are implemented. It receives the remote operation via SNMP and performs the actual ping, traceroute, or lookup function.

2 The Internet-Standard Management Framework

For a detailed overview of the documents that describe the current Internet-Standard Management Framework, please refer to section 7 of RFC 3410 [RFC3410].

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Managed objects are accessed via a virtual information store, termed the Management Information Base or MIB. MIB objects are generally accessed through the Simple Network Management Protocol (SNMP). Objects in the MIB are defined using the mechanisms defined in the Structure of Management Information (SMI). This memo specifies a MIB module that is compliant to the SMIv2, which is described in STD 58, RFC 2578 [RFC2578], STD 58, RFC 2579 [RFC2579] and STD 58, RFC 2580 [RFC2580].

3 Structure of the MIBs

This document defines three MIB modules:

• DISMAN-PING-MIB

Defines a ping MIB.

• DISMAN-TRACEROUTE-MIB

Defines a traceroute MIB.

• DISMAN-NSLOOKUP-MIB

Provides access to lookup functions for symbolic names and addresses at a remote host provided, for example, by functions
getaddrinfo()/getnameinfo() and gethostbyname()/gethostbyaddr().

The ping and traceroute MIBs are structured to allow creation of ping or traceroute tests that can be set up to issue a series of operations periodically and to generate NOTIFICATIONs to report on test results. Many network administrators have in the past written UNIX shell scripts or command batch files to operate in a fashion similar to the functionality provided by the ping and traceroute MIBs defined within this memo. The intent of this document is to acknowledge the importance of these functions and to provide a standards-based solution.

3.1 Ping MIB

The DISMAN-PING-MIB consists of the following components:

• pingMaxConcurrentRequests

• pingCtlTable

• pingResultsTable

• pingProbeHistoryTable

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3.1.1 pingMaxConcurrentRequests

The object pingMaxConcurrentRequests enables control of the maximum number of concurrent active requests that an agent implementation supports. It is permissible for an agent either to limit the maximum upper range allowed for this object or to implement this object as read-only with an implementation limit expressed as its value.

3.1.2 pingCtlTable

A remote ping test is started by setting pingCtlAdminStatus to enabled(1). The corresponding pingCtlEntry MUST have been created, and its pingCtlRowStatus set to active(1), prior to starting the test. A single SNMP PDU can be used to create and start a remote ping test. Within the PDU, pingCtlTargetAddress should be set to the target host's address (pingCtlTargetAddressType will default to ipv4(1)), pingCtlAdminStatus to enabled(1), and pingCtlRowStatus to createAndGo(4).

The first index element, pingCtlOwnerIndex, is of type
SnmpAdminString, a textual convention that allows for use of the SNMPv3 View-Based Access Control Model (RFC 3415 [RFC3415], VACM) and that allows a management application to identify its entries. The second index, pingCtlTestName (also an SnmpAdminString), enables the same management application to have multiple requests outstanding.

Using the maximum value for the parameters defined within a pingEntry can result in a single remote ping test's taking at most 15 minutes (pingCtlTimeOut times pingCtlProbeCount), plus whatever time it takes to send the ping request and to receive its response over the network from the target host. Use of the defaults for pingCtlTimeOut and pingCtlProbeCount yields a maximum of 3 seconds to perform a "normal" ping test.

A management application can delete an active remote ping request by setting the corresponding pingCtlRowStatus object to destroy(6).

The contents of the pingCtlTable are preserved across reIPLs (Initial Program Loads) of its agent according the values of each of the pingCtlStorageType objects.

3.1.3 pingResultsTable

An entry in the pingResultsTable is created for a corresponding pingCtlEntry once the test defined by this entry is started.

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3.1.4 pingProbeHistoryTable

The results of past ping probes are stored in this table on a per- pingCtlEntry basis. This table is initially indexed by
pingCtlOwnerIndex and pingCtlTestName so that the results of a probe relate to the pingCtlEntry that caused it. The maximum number of entries stored in this table per pingCtlEntry is determined by the value of pingCtlMaxRows.

An implementation of this MIB will remove the oldest entry in the pingProbeHistoryTable of the corresponding entry in the pingCtlTable to allow the addition of a new entry once the number of rows in the pingProbeHistoryTable reaches the value specified by pingCtlMaxRows for the corresponding entry in the pingCtlTable. An implementation MUST start assigning pingProbeHistoryIndex values at 1 and wrap after exceeding the maximum possible value, as defined by the limit of this object ('ffffffff'h).

3.2 Traceroute MIB

The DISMAN-TRACEROUTE-MIB consists of the following components:

• traceRouteMaxConcurrentRequests

• traceRouteCtlTable

• traceRouteResultsTable

• traceRouteProbeHistoryTable

• traceRouteHopsTable

3.2.1 traceRouteMaxConcurrentRequests

The object traceRouteMaxConcurrentRequests enables control of the maximum number of concurrent active requests that an agent implementation supports. It is permissible for an agent either to limit the maximum upper range allowed for this object or to implement this object as read-only with an implementation limit expressed as its value.

3.2.2 traceRouteCtlTable

A remote traceroute test is started by setting
traceRouteCtlAdminStatus to enabled(1). The corresponding traceRouteCtlEntry MUST have been created, and its
traceRouteCtlRowStatus set to active(1), prior to starting the test. A single SNMP PDU can be used to create and start a remote traceroute

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test. Within the PDU, traceRouteCtlTargetAddress should be set to the target host's address (traceRouteCtlTargetAddressType will default to ipv4(1)), traceRouteCtlAdminStatus to enabled(1), and traceRouteCtlRowStatus to createAndGo(4).

The first index element, traceRouteCtlOwnerIndex, is of type SnmpAdminString, a textual convention that allows for use of the SNMPv3 View-Based Access Control Model (RFC 3415 [RFC3415], VACM) and that allows a management application to identify its entries. The second index, traceRouteCtlTestName (also an SnmpAdminString), enables the same management application to have multiple requests outstanding.

Traceroute has a much longer theoretical maximum time for completion than ping: basically, 42 hours and 30 minutes (the product of traceRouteCtlTimeOut, traceRouteCtlProbesPerHop, and
traceRouteCtlMaxTtl) plus some network transit time! Use of the defaults defined within an traceRouteCtlEntry yields a maximum of 4 minutes and 30 seconds for a default traceroute operation. Clearly, 42 plus hours is too long to wait for a traceroute operation to be completed.

The maximum Time to Live (TTL) value in effect for traceroute determines how long the traceroute function will keep increasing the TTL value in the probe it transmits, hoping to reach the target host. The function ends whenever the maximum TTL is exceeded or the target host is reached. The object traceRouteCtlMaxFailures was created in order to impose a throttle for how long traceroute continues to increase the TTL field in a probe without receiving any kind of response (timeouts). It is RECOMMENDED that agent implementations impose a time limit for how long it allows a traceroute operation to take, relative to how the function is implemented. For example, an implementation that can't process multiple traceroute operations at the same time SHOULD impose a shorter maximum allowed time period.

A management application can delete an active remote traceroute request by setting the corresponding traceRouteCtlRowStatus object to destroy(6).

The contents of the traceRouteCtlTable are preserved across reIPLs (Initial Program Loads) of its agent according to the values of each of the traceRouteCtlStorageType objects.

3.2.3 traceRouteResultsTable

An entry in the traceRouteResultsTable is created upon determining the results of a specific traceroute operation. Entries in this table relate back to the traceRouteCtlEntry that caused the

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corresponding traceroute operation to occur. The objects traceRouteResultsCurHopCount and traceRouteResultsCurProbeCount can be examined to determine how far the current remote traceroute operation has reached.

3.2.4 traceRouteProbeHistoryTable

The results of past traceroute probes can be stored in this table on a per-traceRouteCtlEntry basis. This table is initially indexed by traceRouteCtlOwnerIndex and traceRouteCtlTestName so that the results of a probe relate to the traceRouteCtlEntry that caused it. The number of entries stored in this table per traceRouteCtlEntry is determined by the value of traceRouteCtlMaxRows.

An implementation of this MIB will remove the oldest entry in the traceRouteProbeHistoryTable of the corresponding entry in the traceRouteCtlTable to allow the addition of an new entry once the number of rows in the traceRouteProbeHistoryTable reaches the value of traceRouteCtlMaxRows for the corresponding entry in the traceRouteCtlTable. An implementation MUST start assigning traceRouteProbeHistoryIndex values at 1 and wrap after exceeding the maximum possible value, as defined by the limit of this object ('ffffffff'h).

3.2.5 traceRouteHopsTable

The current traceroute path can be stored in this table on a per- traceRouteCtlEntry basis. This table is initially indexed by traceRouteCtlOwnerIndex and traceRouteCtlTestName so that a traceroute path relates to the traceRouteCtlEntry that caused it. A third index, traceRouteHopsHopIndex, enables keeping one
traceRouteHopsEntry per traceroute hop. Creation of
traceRouteHopsTable entries is enabled by setting the corresponding traceRouteCtlCreateHopsEntries object to true(1).

3.3 Lookup MIB

The DISMAN-NSLOOKUP-MIB consists of the following components:

• lookupMaxConcurrentRequests and lookupPurgeTime

• lookupCtlTable

• lookupResultsTable

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3.3.1 lookupMaxConcurrentRequests and lookupPurgeTime

The object lookupMaxConcurrentRequests enables control of the maximum number of concurrent active requests that an agent implementation is structured to support. It is permissible for an agent either to limit the maximum upper range allowed for this object or to implement this object as read-only with an implementation limit expressed as its value.

The object lookupPurgeTime provides a method for entries in the lookupCtlTable and lookupResultsTable to be automatically deleted after the corresponding operation is completed.

3.3.2 lookupCtlTable

A remote lookup operation is initiated by performing an SNMP SET request on lookupCtlRowStatus. A single SNMP PDU can be used to create and start a remote lookup operation. Within the PDU, lookupCtlTargetAddress should be set to the entity to be resolved (lookupCtlTargetAddressType will default to ipv4(1)) and
lookupCtlRowStatus to createAndGo(4). The object lookupCtlOperStatus can be examined to determine the state of a lookup operation. A management application can delete an active remote lookup request by setting the corresponding lookupCtlRowStatus object to destroy(6).

An lookupCtlEntry is initially indexed by lookupCtlOwnerIndex, which is a type of SnmpAdminString, a textual convention that allows for use of the SNMPv3 View-Based Access Control Model (RFC 3415 [RFC3415],

VACM) and that also allows for a management application to identify its entries. The lookupCtlOwnerIndex portion of the index is then followed by lookupCtlOperationName. The lookupCtlOperationName index enables the same lookupCtlOwnerIndex entity to have multiple outstanding requests.

The value of lookupCtlTargetAddressType determines which lookup function to perform. Specification of dns(16) as the value of this index implies that a function such as getaddrinfo() or
gethostbyname() should be performed to determine the numeric addresses associated with a symbolic name via lookupResultsTable entries. Use of a value of either ipv4(1) or ipv6(2) implies that a function such as getnameinfo() or gethostbyaddr() should be performed to determine the symbolic name(s) associated with a numeric address at a remote host.

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3.3.3 lookupResultsTable

The lookupResultsTable is used to store the results of lookup operations. Results to be reported here SHOULD be results of a lookup function that is commonly used by applications at the managed node. This implies that results are not necessarily consistent with the results of a pure DNS lookup at the managed node, but may be influenced by local lookup tables or other sources of information, depending on the configuration of the managed node.

The lookupResultsTable is initially indexed by the same index elements that the lookupCtlTable contains (lookupCtlOwnerIndex and lookupCtlOperationName) but has a third index element,
lookupResultsIndex (Unsigned32 textual convention), in order to associate multiple results with the same lookupCtlEntry.

A remote host can be multi-homed and can have multiple symbolic (DNS) names. Therefore, a lookup operation can return multiple IP addresses and multiple symbolic names.

If the lookup operation was performed for a certain address by using getnameinfo() or gethostbyaddr(), for example, then entries in the lookupResultsTable MUST be made for each host name returned. If the lookup operation identifies one hostname as the host's 'official host name', then this name MUST be assigned a lookupResultsIndex of 1.

If a lookup operation was performed for a certain symbolic name by using getaddrinfo() or gethostbyname(), for example, then entries in the lookupResultsTable MUST be made for each address returned. The entries MUST be stored in the order that they are retrieved. Values assigned to lookupResultsIndex MUST start at 1 and increase in order.

An implementation SHOULD NOT retain SNMP-created entries in the lookupResultsTable across reIPLs (Initial Program Loads) of its agent, since management applications need to see consistent behavior with respect to the persistence of the table entries that they create.

3.4 Conformance

Each of the three MIB modules defined in this document has two current compliance statements, one for full compliance and one for minimum compliance. The minimum compliance statements are intended to be applied to implementation for devices with very limited resources. The main difference between full and minimum compliance is that for minimum compliance, dynamic creation and deletion of table entries is not required, whereas it is required for full compliance.

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In addition, the DISMAN-PING-MIB module and the DISMAN-TRACEROUTE-MIB modules each have a deprecated compliance statement that was current in RFC 2925. Semantically, the new full compliance statements are identical to the deprecated ones. But some of the object groups used in the old compliance statements needed to be split in order to support the new minimal compliance statements.

4 Definitions

The following MIB modules import from [RFC2863], [RFC3411], and [RFC4001]. They also use the REFERENCE clause to reference [RFC1812], [RFC2474], and [RFC3260].

4.1 DISMAN-PING-MIB

   DISMAN-PING-MIB DEFINITIONS ::= BEGIN

IMPORTS
MODULE-IDENTITY, OBJECT-TYPE, Integer32,
Unsigned32, Gauge32, mib-2,
NOTIFICATION-TYPE, OBJECT-IDENTITY

           FROM SNMPv2-SMI                  -- RFC2578
       TEXTUAL-CONVENTION, RowStatus,
       StorageType, DateAndTime, TruthValue
           FROM SNMPv2-TC                   -- RFC2579
       MODULE-COMPLIANCE, OBJECT-GROUP,
       NOTIFICATION-GROUP
           FROM SNMPv2-CONF                 -- RFC2580
       InterfaceIndexOrZero                 -- RFC2863
           FROM IF-MIB
       SnmpAdminString
           FROM SNMP-FRAMEWORK-MIB          -- RFC3411
       InetAddressType, InetAddress
           FROM INET-ADDRESS-MIB;           -- RFC4001

pingMIB MODULE-IDENTITY

       LAST-UPDATED "200606130000Z"         -- 13 June 2006
       ORGANIZATION "IETF Distributed Management Working Group"
       CONTACT-INFO
           "Juergen Quittek

NEC Europe Ltd.
Network Laboratories
Kurfuersten-Anlage 36
69115 Heidelberg
Germany

Phone: +49 6221 4342-115

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Email: quittek@netlab.nec.de"
DESCRIPTION
"The Ping MIB (DISMAN-PING-MIB) provides the capability of controlling the use of the ping function at a remote host.

Copyright © The Internet Society (2006). This version of this MIB module is part of RFC 4560; see the RFC itself for full legal notices."

        --  Revision history

        REVISION     "200606130000Z"         -- 13 June 2006
        DESCRIPTION
            "Updated version, published as RFC 4560.
                - Correctly considered IPv6 in DESCRIPTION
                  clause of pingCtlDataSize
                - Replaced references to RFC 2575 by RFC 3415
                - Replaced references to RFC 2571 by RFC 3411
                - Replaced references to RFC 2851 by RFC 4001
                - Added DEFVAL { {} } to definition of
                  pingCtlTrapGeneration
                - Changed DEFVAL of object pingCtlDescr from
                  DEFVAL { '00'H } to DEFVAL { ''H }
                - Changed DEFVAL of object pingCtlSourceAddressType
                  from DEFVAL { ipv4 } to DEFVAL { unknown }
                - Extended DESCRIPTION clause of pingResultsTable
                  describing re-initialization of entries
                - Changed SYNTAX of pingResultsProbeResponses and
                  pingResultsSentProbes from Unsigned32 to Gauge32
                - Changed status of pingCompliance to deprecated
                - Added pingFullCompliance and pingMinimumCompliance
                - Changed status of pingGroup and pingTimeStampGroup
                  to deprecated
                - Added pingMinimumGroup, pingCtlRowStatusGroup,
                  and pingHistoryGroup"

        REVISION     "200009210000Z"         -- 21 September 2000
        DESCRIPTION
            "Initial version, published as RFC 2925."

       ::= { mib-2 80 }

    -- Textual Conventions

     OperationResponseStatus ::= TEXTUAL-CONVENTION
       STATUS  current
       DESCRIPTION

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"Used to report the result of an operation:

responseReceived(1) - Operation is completed successfully. unknown(2) - Operation failed due to unknown error. internalError(3) - An implementation detected an error in its own processing that caused an operation to fail.
requestTimedOut(4) - Operation failed to receive a valid reply within the time limit imposed on it. unknownDestinationAddress(5) - Invalid destination address.
noRouteToTarget(6) - Could not find a route to target. interfaceInactiveToTarget(7) - The interface to be used in sending a probe is inactive, and an alternate route does not exist.
arpFailure(8) - Unable to resolve a target address to a media-specific address.
maxConcurrentLimitReached(9) - The maximum number of concurrent active operations would have been exceeded if the corresponding operation was allowed. unableToResolveDnsName(10) - The DNS name specified was unable to be mapped to an IP address.
invalidHostAddress(11) - The IP address for a host has been determined to be invalid. Examples of this are broadcast or multicast addresses."

       SYNTAX INTEGER {
                    responseReceived(1),
                    unknown(2),
                    internalError(3),
                    requestTimedOut(4),
                    unknownDestinationAddress(5),
                    noRouteToTarget(6),
                    interfaceInactiveToTarget(7),
                    arpFailure(8),
                    maxConcurrentLimitReached(9),
                    unableToResolveDnsName(10),
                    invalidHostAddress(11)
                 }

    -- Top level structure of the MIB

    pingNotifications              OBJECT IDENTIFIER ::= { pingMIB 0 }
    pingObjects                    OBJECT IDENTIFIER ::= { pingMIB 1 }
    pingConformance                OBJECT IDENTIFIER ::= { pingMIB 2 }

    -- The registration node (point) for ping implementation types

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    pingImplementationTypeDomains  OBJECT IDENTIFIER ::= { pingMIB 3 }

pingIcmpEcho OBJECT-IDENTITY

       STATUS      current
       DESCRIPTION
           "Indicates that an implementation is using the Internet
           Control Message Protocol (ICMP) 'ECHO' facility."
       ::= { pingImplementationTypeDomains 1 }

pingUdpEcho OBJECT-IDENTITY

       STATUS      current
       DESCRIPTION
           "Indicates that an implementation is using the UDP echo
           port (7)."

REFERENCE
"RFC 862, 'Echo Protocol'."

       ::= { pingImplementationTypeDomains 2 }

pingSnmpQuery OBJECT-IDENTITY

       STATUS      current
       DESCRIPTION
           "Indicates that an implementation is using an SNMP query
            to calculate a round trip time."
       ::= { pingImplementationTypeDomains 3 }

pingTcpConnectionAttempt OBJECT-IDENTITY

       STATUS      current
       DESCRIPTION
           "Indicates that an implementation is attempting to
           connect to a TCP port in order to calculate a round
           trip time."
       ::= { pingImplementationTypeDomains 4 }

    -- Simple Object Definitions

pingMaxConcurrentRequests OBJECT-TYPE

       SYNTAX      Unsigned32
       UNITS       "requests"
       MAX-ACCESS  read-write
       STATUS      current
       DESCRIPTION
          "The maximum number of concurrent active ping requests
          that are allowed within an agent implementation.  A value
          of 0 for this object implies that there is no limit for
          the number of concurrent active requests in effect.

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The limit applies only to new requests being activated. When a new value is set, the agent will continue processing all the requests already active, even if their number exceeds the limit just imposed."
DEFVAL { 10 }

       ::= { pingObjects 1 }

    -- Ping Control Table

pingCtlTable OBJECT-TYPE

       SYNTAX      SEQUENCE OF PingCtlEntry
       MAX-ACCESS  not-accessible
       STATUS      current
       DESCRIPTION
           "Defines the ping Control Table for providing, via SNMP,
           the capability of performing ping operations at
           a remote host.  The results of these operations are
           stored in the pingResultsTable and the
           pingProbeHistoryTable."
      ::= { pingObjects 2 }

pingCtlEntry OBJECT-TYPE

       SYNTAX      PingCtlEntry
       MAX-ACCESS  not-accessible
       STATUS      current
       DESCRIPTION
           "Defines an entry in the pingCtlTable.  The first index
           element, pingCtlOwnerIndex, is of type SnmpAdminString,
           a textual convention that allows for use of the SNMPv3
           View-Based Access Control Model (RFC 3415, VACM)
           and that allows a management application to identify its
           entries.  The second index, pingCtlTestName (also an
           SnmpAdminString), enables the same management
           application to have multiple outstanding requests."
       INDEX {
                pingCtlOwnerIndex,
                pingCtlTestName
             }
       ::= { pingCtlTable 1 }

    PingCtlEntry ::=
       SEQUENCE {
           pingCtlOwnerIndex             SnmpAdminString,
           pingCtlTestName               SnmpAdminString,
           pingCtlTargetAddressType      InetAddressType,
           pingCtlTargetAddress          InetAddress,
           pingCtlDataSize               Unsigned32,
           pingCtlTimeOut                Unsigned32,

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           pingCtlProbeCount             Unsigned32,
           pingCtlAdminStatus            INTEGER,
           pingCtlDataFill               OCTET STRING,
           pingCtlFrequency              Unsigned32,
           pingCtlMaxRows                Unsigned32,
           pingCtlStorageType            StorageType,
           pingCtlTrapGeneration         BITS,
           pingCtlTrapProbeFailureFilter Unsigned32,
           pingCtlTrapTestFailureFilter  Unsigned32,
           pingCtlType                   OBJECT IDENTIFIER,
           pingCtlDescr                  SnmpAdminString,
           pingCtlSourceAddressType      InetAddressType,
           pingCtlSourceAddress          InetAddress,
           pingCtlIfIndex                InterfaceIndexOrZero,
           pingCtlByPassRouteTable       TruthValue,
           pingCtlDSField                Unsigned32,
           pingCtlRowStatus              RowStatus
       }

pingCtlOwnerIndex OBJECT-TYPE

       SYNTAX      SnmpAdminString (SIZE(0..32))
       MAX-ACCESS  not-accessible
       STATUS      current
       DESCRIPTION
          "To facilitate the provisioning of access control by a
          security administrator using the View-Based Access
          Control Model (RFC 2575, VACM) for tables in which
          multiple users may need to create or
          modify entries independently, the initial index is used
          as an 'owner index'.  Such an initial index has a syntax
          of SnmpAdminString and can thus be trivially mapped to a
          securityName or groupName defined in VACM, in
          accordance with a security policy.

When used in conjunction with such a security policy, all entries in the table belonging to a particular user (or group) will have the same value for this initial index. For a given user's entries in a particular table, the object identifiers for the information in these entries will have the same subidentifiers (except for the 'column' subidentifier) up to the end of the encoded owner index. To configure VACM to permit access to this portion of the table, one would create vacmViewTreeFamilyTable entries with the value of vacmViewTreeFamilySubtree including the owner index portion, and vacmViewTreeFamilyMask 'wildcarding' the column subidentifier. More elaborate configurations are possible."

       ::= { pingCtlEntry 1 }

---

Page 19

pingCtlTestName OBJECT-TYPE

       SYNTAX      SnmpAdminString (SIZE(0..32))
       MAX-ACCESS  not-accessible
       STATUS      current
       DESCRIPTION
           "The name of the ping test.  This is locally unique, within
           the scope of a pingCtlOwnerIndex."
       ::= { pingCtlEntry 2 }

pingCtlTargetAddressType OBJECT-TYPE

       SYNTAX      InetAddressType
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "Specifies the type of host address to be used at a remote
           host for performing a ping operation."
       DEFVAL { unknown }
       ::= { pingCtlEntry 3 }

pingCtlTargetAddress OBJECT-TYPE

       SYNTAX      InetAddress
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "Specifies the host address to be used at a remote host for
           performing a ping operation.  The host address type is
           determined by the value of the corresponding
           pingCtlTargetAddressType.

A value for this object MUST be set prior to transitioning its corresponding pingCtlEntry to active(1) via
pingCtlRowStatus."
DEFVAL { ''H }

       ::= { pingCtlEntry 4 }

pingCtlDataSize OBJECT-TYPE

       SYNTAX      Unsigned32 (0..65507)
       UNITS       "octets"
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "Specifies the size of the data portion to be
           transmitted in a ping operation, in octets.  Whether this
           value can be applied depends on the selected
           implementation method for performing a ping operation,
           indicated by pingCtlType in the same conceptual row.
           If the method used allows applying the value contained

---

Page 20

in this object, then it MUST be applied. If the specified size is not appropriate for the chosen ping method, the implementation SHOULD use whatever size (appropriate to the method) is closest to the specified size.

The maximum value for this object was computed by subtracting the smallest possible IP header size of 20 octets (IPv4 header with no options) and the UDP header size of 8 octets from the maximum IP packet size. An IP packet has a maximum size of 65535 octets
(excluding IPv6 Jumbograms)."
DEFVAL { 0 }

       ::= { pingCtlEntry 5 }

pingCtlTimeOut OBJECT-TYPE

       SYNTAX      Unsigned32 (1..60)
       UNITS       "seconds"
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "Specifies the time-out value, in seconds, for a
           remote ping operation."
       DEFVAL { 3 }

       ::= { pingCtlEntry 6 }

pingCtlProbeCount OBJECT-TYPE

       SYNTAX      Unsigned32 (1..15)
       UNITS       "probes"
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "Specifies the number of times to perform a ping
           operation at a remote host as part of a single ping test."
       DEFVAL { 1 }
       ::= { pingCtlEntry 7 }

pingCtlAdminStatus OBJECT-TYPE

       SYNTAX      INTEGER {
                             enabled(1), -- test should be started
                             disabled(2) -- test should be stopped
                           }
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "Reflects the desired state that a pingCtlEntry should be
           in:

---

Page 21

enabled(1) - Attempt to activate the test as defined by this pingCtlEntry.
disabled(2) - Deactivate the test as defined by this pingCtlEntry.

Refer to the corresponding pingResultsOperStatus to determine the operational state of the test defined by this entry."
DEFVAL { disabled }

       ::= { pingCtlEntry 8 }

pingCtlDataFill OBJECT-TYPE

       SYNTAX      OCTET STRING (SIZE(0..1024))
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "The content of this object is used together with the
           corresponding pingCtlDataSize value to determine how to
           fill the data portion of a probe packet.  The option of
           selecting a data fill pattern can be useful when links
           are compressed or have data pattern sensitivities.  The
           contents of pingCtlDataFill should be repeated in a ping
           packet when the size of the data portion of the ping
           packet is greater than the size of pingCtlDataFill."
       DEFVAL { '00'H }
       ::= { pingCtlEntry 9 }

pingCtlFrequency OBJECT-TYPE

       SYNTAX      Unsigned32
       UNITS       "seconds"
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "The number of seconds to wait before repeating a ping test
           as defined by the value of the various objects in the
           corresponding row.

A single ping test consists of a series of ping probes. The number of probes is determined by the value of the corresponding pingCtlProbeCount object. After a single test is completed the number of seconds as defined by the value of pingCtlFrequency MUST elapse before the
next ping test is started.

A value of 0 for this object implies that the test as defined by the corresponding entry will not be repeated."
DEFVAL { 0 }

---

Page 22

       ::= { pingCtlEntry 10 }

pingCtlMaxRows OBJECT-TYPE

       SYNTAX      Unsigned32
       UNITS       "rows"
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "The maximum number of corresponding entries allowed
           in the pingProbeHistoryTable.  An implementation of this
           MIB will remove the oldest corresponding entry in the
           pingProbeHistoryTable to allow the addition of an
           new entry once the number of corresponding rows in the
           pingProbeHistoryTable reaches this value.

Old entries are not removed when a new test is
started. Entries are added to the pingProbeHistoryTable until pingCtlMaxRows is reached before entries begin to be removed.

A value of 0 for this object disables creation of pingProbeHistoryTable entries."

       DEFVAL      { 50 }
       ::= { pingCtlEntry 11 }

pingCtlStorageType OBJECT-TYPE

       SYNTAX      StorageType
       MAX-ACCESS  read-create
       STATUS      current

DESCRIPTION
"The storage type for this conceptual row.
Conceptual rows having the value 'permanent' need not allow write-access to any columnar objects in the row." DEFVAL { nonVolatile }

       ::= { pingCtlEntry 12 }

pingCtlTrapGeneration OBJECT-TYPE

       SYNTAX      BITS {
                      probeFailure(0),
                      testFailure(1),
                      testCompletion(2)
                     }
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "The value of this object determines when and whether
           to generate a notification for this entry:

---

Page 23

           probeFailure(0)   - Generate a pingProbeFailed
               notification subject to the value of
               pingCtlTrapProbeFailureFilter.  The object
               pingCtlTrapProbeFailureFilter can be used
               to specify the number of consecutive probe
               failures that are required before a
               pingProbeFailed notification can be generated.
           testFailure(1)    - Generate a pingTestFailed
               notification.  In this instance the object
               pingCtlTrapTestFailureFilter can be used to
               determine the number of probe failures that
               signal when a test fails.
           testCompletion(2) - Generate a pingTestCompleted
               notification.

By default, no bits are set, indicating that
none of the above options is selected."
DEFVAL { {} } -- no bits set.

       ::= { pingCtlEntry 13 }

pingCtlTrapProbeFailureFilter OBJECT-TYPE

       SYNTAX      Unsigned32 (0..15)
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "The value of this object is used to determine when
           to generate a pingProbeFailed NOTIFICATION.

Setting BIT probeFailure(0) of object
pingCtlTrapGeneration to '1' implies that a
pingProbeFailed NOTIFICATION is generated only when

a number of consecutive ping probes equal to the
value of pingCtlTrapProbeFailureFilter fail within a given ping test. After triggering the notification, the probe failure counter is reset to zero."
DEFVAL { 1 }

       ::= { pingCtlEntry 14 }

pingCtlTrapTestFailureFilter OBJECT-TYPE

       SYNTAX      Unsigned32 (0..15)
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "The value of this object is used to determine when
           to generate a pingTestFailed NOTIFICATION.

Setting BIT testFailure(1) of object

---

Page 24

pingCtlTrapGeneration to '1' implies that a
pingTestFailed NOTIFICATION is generated only when a number of consecutive ping tests equal to the
value of pingCtlTrapProbeFailureFilter fail.
After triggering the notification, the test failure counter is reset to zero."
DEFVAL { 1 }

       ::= { pingCtlEntry 15 }

pingCtlType OBJECT-TYPE

       SYNTAX      OBJECT IDENTIFIER
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "The value of this object is used either to report or
           to select the implementation method to be used for
           calculating a ping response time.  The value of this
           object MAY be selected from pingImplementationTypeDomains.

Additional implementation types SHOULD be allocated as required by implementers of the DISMAN-PING-MIB under their enterprise-specific registration point and not beneath pingImplementationTypeDomains."
DEFVAL { pingIcmpEcho }

       ::= { pingCtlEntry 16 }

pingCtlDescr OBJECT-TYPE

       SYNTAX      SnmpAdminString
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "The purpose of this object is to provide a
           descriptive name of the remote ping test."
       DEFVAL { ''H }

       ::= { pingCtlEntry 17 }

pingCtlSourceAddressType OBJECT-TYPE

       SYNTAX      InetAddressType
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "Specifies the type of the source address,
           pingCtlSourceAddress, to be used at a remote host
           when a ping operation is performed."
       DEFVAL { unknown }
       ::= { pingCtlEntry 18 }

---

Page 25

pingCtlSourceAddress OBJECT-TYPE

       SYNTAX      InetAddress
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "Use the specified IP address (which must be given in
           numeric form, not as a hostname) as the source address
           in outgoing probe packets.  On hosts with more than one
           IP address, this option can be used to select the address
           to be used.  If the IP address is not one of this
           machine's interface addresses, an error is returned and
           nothing is sent.  A zero-length octet string value for
           this object disables source address specification.

The address type (InetAddressType) that relates to this object is specified by the corresponding value of pingCtlSourceAddressType."
DEFVAL { ''H }

       ::= { pingCtlEntry 19 }

pingCtlIfIndex OBJECT-TYPE

       SYNTAX      InterfaceIndexOrZero
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "Setting this object to an interface's ifIndex prior
           to starting a remote ping operation directs
           the ping probes to be transmitted over the
           specified interface.  A value of zero for this object
           means that this option is not enabled."
       DEFVAL { 0 }
       ::= { pingCtlEntry 20 }

pingCtlByPassRouteTable OBJECT-TYPE

       SYNTAX      TruthValue
       MAX-ACCESS  read-create
       STATUS      current

DESCRIPTION
"The purpose of this object is to enable optional
bypassing the route table. If enabled, the remote host will bypass the normal routing tables and send directly to a host on an attached network. If the host is not on a directly attached network, an
error is returned. This option can be used to perform the ping operation to a local host through an
interface that has no route defined (e.g., after the interface was dropped by the routing daemon at the host)."

---

Page 26

DEFVAL { false }

       ::= { pingCtlEntry 21 }

pingCtlDSField OBJECT-TYPE

       SYNTAX      Unsigned32 (0..255)
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "Specifies the value to store in the Type of Service
           (TOS) octet in the IPv4 header or in the Traffic
           Class octet in the IPv6 header, respectively, of the
           IP packet used to encapsulate the ping probe.

The octet to be set in the IP header contains the Differentiated Services (DS) Field in the six most significant bits.

This option can be used to determine what effect an explicit DS Field setting has on a ping response. Not all values are legal or meaningful. A value of 0 means that the function represented by this option is not supported. DS Field usage is often not supported by IP implementations, and not all values are supported. Refer to RFC 2474 and RFC 3260 for guidance on usage of this field."
REFERENCE
"Refer to RFC 1812 for the definition of the IPv4 TOS octet and to RFC 2460 for the definition of the IPv6 Traffic Class octet. Refer to RFC 2474 and RFC 3260 for the definition of the Differentiated Services Field." DEFVAL { 0 }

       ::= { pingCtlEntry 22 }

pingCtlRowStatus OBJECT-TYPE

       SYNTAX      RowStatus
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "This object allows entries to be created and deleted
           in the pingCtlTable.  Deletion of an entry in this
           table results in the deletion of all corresponding (same
           pingCtlOwnerIndex and pingCtlTestName index values)
           pingResultsTable and pingProbeHistoryTable entries.

A value MUST be specified for pingCtlTargetAddress prior to acceptance of a transition to active(1) state.

When a value for pingCtlTargetAddress is set,

---

Page 27

the value of object pingCtlRowStatus changes
from notReady(3) to notInService(2).

Activation of a remote ping operation is controlled via pingCtlAdminStatus, not by changing
this object's value to active(1).

Transitions in and out of active(1) state are not allowed while an entry's pingResultsOperStatus is active(1), with the exception that deletion of
an entry in this table by setting its RowStatus
object to destroy(6) will stop an active
ping operation.

The operational state of a ping operation
can be determined by examination of its
pingResultsOperStatus object."
REFERENCE
"See definition of RowStatus in RFC 2579, 'Textual Conventions for SMIv2.'"

       ::= { pingCtlEntry 23 }

   -- Ping Results Table

pingResultsTable OBJECT-TYPE

       SYNTAX      SEQUENCE OF PingResultsEntry
       MAX-ACCESS  not-accessible
       STATUS      current
       DESCRIPTION
           "Defines the Ping Results Table for providing
           the capability of performing ping operations at
           a remote host.  The results of these operations are
           stored in the pingResultsTable and the pingProbeHistoryTable.

An entry is added to the pingResultsTable when an pingCtlEntry is started by successful transition
of its pingCtlAdminStatus object to enabled(1).

If the object pingCtlAdminStatus already has the value enabled(1), and if the corresponding pingResultsOperStatus object has the value completed(3), then successfully writing enabled(1) to object pingCtlAdminStatus re-initializes the already existing entry in the pingResultsTable. The values of objects in the re-initialized entry are the same as the values of objects in a new entry would be.

An entry is removed from the pingResultsTable when its corresponding pingCtlEntry is deleted."

---

Page 28

      ::= { pingObjects 3 }

pingResultsEntry OBJECT-TYPE

       SYNTAX      PingResultsEntry
       MAX-ACCESS  not-accessible
       STATUS      current
       DESCRIPTION
           "Defines an entry in the pingResultsTable.  The
           pingResultsTable has the same indexing as the
           pingCtlTable so that a pingResultsEntry
           corresponds to the pingCtlEntry that caused it to
           be created."
       INDEX {
                pingCtlOwnerIndex,
                pingCtlTestName
             }
       ::= { pingResultsTable 1 }

    PingResultsEntry ::=
       SEQUENCE {
           pingResultsOperStatus          INTEGER,
           pingResultsIpTargetAddressType InetAddressType,
           pingResultsIpTargetAddress     InetAddress,
           pingResultsMinRtt              Unsigned32,
           pingResultsMaxRtt              Unsigned32,
           pingResultsAverageRtt          Unsigned32,
           pingResultsProbeResponses      Gauge32,
           pingResultsSentProbes          Gauge32,
           pingResultsRttSumOfSquares     Unsigned32,
           pingResultsLastGoodProbe       DateAndTime
        }

pingResultsOperStatus OBJECT-TYPE

       SYNTAX      INTEGER {
                             enabled(1),   -- test is in progress
                             disabled(2),  -- test has stopped
                             completed(3)  -- test is completed
                           }
       MAX-ACCESS  read-only
       STATUS      current
       DESCRIPTION
           "Reflects the operational state of a pingCtlEntry:

              enabled(1)    - Test is active.
              disabled(2)   - Test has stopped.
              completed(3)  - Test is completed."
       ::= { pingResultsEntry 1 }

---

Page 29

pingResultsIpTargetAddressType OBJECT-TYPE

       SYNTAX      InetAddressType
       MAX-ACCESS  read-only
       STATUS      current
       DESCRIPTION
           "This object indicates the type of address stored
           in the corresponding pingResultsIpTargetAddress
           object."
       DEFVAL { unknown }
       ::= { pingResultsEntry 2 }

pingResultsIpTargetAddress OBJECT-TYPE

       SYNTAX      InetAddress
       MAX-ACCESS  read-only
       STATUS      current
       DESCRIPTION
           "This object reports the IP address associated
           with a pingCtlTargetAddress value when the destination
           address is specified as a DNS name.  The value of
           this object should be a zero-length octet string
           when a DNS name is not specified or when a
           specified DNS name fails to resolve.

The address type (InetAddressType) that relates to this object is specified by the corresponding value of pingResultsIpTargetAddressType."
DEFVAL { ''H }

       ::= { pingResultsEntry 3 }

pingResultsMinRtt OBJECT-TYPE

       SYNTAX      Unsigned32
       UNITS       "milliseconds"
       MAX-ACCESS  read-only
       STATUS      current
       DESCRIPTION
           "The minimum ping round-trip-time (RTT) received.  A value
           of 0 for this object implies that no RTT has been received."
       ::= { pingResultsEntry 4 }

pingResultsMaxRtt OBJECT-TYPE

       SYNTAX      Unsigned32
       UNITS       "milliseconds"
       MAX-ACCESS  read-only
       STATUS      current
       DESCRIPTION

"The maximum ping round-trip-time (RTT) received. A value of 0 for this object implies that no RTT has been received."

---

Page 30

       ::= { pingResultsEntry 5 }

pingResultsAverageRtt OBJECT-TYPE

       SYNTAX      Unsigned32
       UNITS       "milliseconds"
       MAX-ACCESS  read-only
       STATUS      current
       DESCRIPTION
           "The current average ping round-trip-time (RTT)."
       ::= { pingResultsEntry 6 }

pingResultsProbeResponses OBJECT-TYPE

       SYNTAX      Gauge32
       UNITS       "responses"
       MAX-ACCESS  read-only
       STATUS      current
       DESCRIPTION
           "Number of responses received for the corresponding
           pingCtlEntry and pingResultsEntry.  The value of this object
           MUST be reported as 0 when no probe responses have been
           received."
       ::= { pingResultsEntry 7 }

pingResultsSentProbes OBJECT-TYPE

       SYNTAX      Gauge32
       UNITS       "probes"
       MAX-ACCESS  read-only
       STATUS      current
       DESCRIPTION
           "The value of this object reflects the number of probes sent
           for the corresponding pingCtlEntry and pingResultsEntry.
           The value of this object MUST be reported as 0 when no probes
           have been sent."
       ::= { pingResultsEntry 8 }

pingResultsRttSumOfSquares OBJECT-TYPE

       SYNTAX      Unsigned32
       UNITS       "milliseconds"
       MAX-ACCESS  read-only
       STATUS      current
       DESCRIPTION
           "This object contains the sum of the squares for all ping
           responses received.  Its purpose is to enable standard
           deviation calculation.  The value of this object MUST
           be reported as 0 when no ping responses have been
           received."
       ::= { pingResultsEntry 9 }

---

Page 31

pingResultsLastGoodProbe OBJECT-TYPE

       SYNTAX      DateAndTime
       MAX-ACCESS  read-only
       STATUS      current
       DESCRIPTION
           "Date and time when the last response was received for
           a probe."
       ::= { pingResultsEntry 10 }

    -- Ping Probe History Table

pingProbeHistoryTable OBJECT-TYPE

       SYNTAX      SEQUENCE OF PingProbeHistoryEntry
       MAX-ACCESS  not-accessible
       STATUS      current
       DESCRIPTION
           "Defines a table for storing the results of ping
           operations.  The number of entries in this table is
           limited per entry in the pingCtlTable by the value
           of the corresponding pingCtlMaxRows object.

An entry in this table is created when the result of a ping probe is determined. The initial 2 instance identifier index values identify the pingCtlEntry that a probe result (pingProbeHistoryEntry) belongs to. An entry is removed from this table when
its corresponding pingCtlEntry is deleted.

An implementation of this MIB will remove the oldest entry in the pingProbeHistoryTable of the
corresponding entry in the pingCtlTable to allow
the addition of an new entry once the number of rows in the pingProbeHistoryTable reaches the value
specified by pingCtlMaxRows for the corresponding entry in the pingCtlTable."

      ::= { pingObjects 4 }

pingProbeHistoryEntry OBJECT-TYPE

       SYNTAX      PingProbeHistoryEntry
       MAX-ACCESS  not-accessible
       STATUS      current
       DESCRIPTION
           "Defines an entry in the pingProbeHistoryTable.
           The first two index elements identify the
           pingCtlEntry that a pingProbeHistoryEntry belongs
           to.  The third index element selects a single
           probe result."
       INDEX {

---

Page 32

pingCtlOwnerIndex,
pingCtlTestName,
pingProbeHistoryIndex
}

       ::= { pingProbeHistoryTable 1 }

    PingProbeHistoryEntry ::=
       SEQUENCE {
           pingProbeHistoryIndex         Unsigned32,
           pingProbeHistoryResponse      Unsigned32,
           pingProbeHistoryStatus        OperationResponseStatus,
           pingProbeHistoryLastRC        Integer32,
           pingProbeHistoryTime          DateAndTime
       }

pingProbeHistoryIndex OBJECT-TYPE

       SYNTAX      Unsigned32 (1..'ffffffff'h)
       MAX-ACCESS  not-accessible
       STATUS      current
       DESCRIPTION
           "An entry in this table is created when the result of
           a ping probe is determined.  The initial 2 instance
           identifier index values identify the pingCtlEntry
           that a probe result (pingProbeHistoryEntry) belongs
           to.

An implementation MUST start assigning
pingProbeHistoryIndex values at 1 and wrap after
exceeding the maximum possible value as defined by the limit of this object ('ffffffff'h)."

       ::= { pingProbeHistoryEntry 1 }

pingProbeHistoryResponse OBJECT-TYPE

       SYNTAX      Unsigned32
       UNITS       "milliseconds"
       MAX-ACCESS  read-only
       STATUS      current
       DESCRIPTION
           "The amount of time measured in milliseconds from when
           a probe was sent to when its response was received or
           when it timed out.  The value of this object is reported
           as 0 when it is not possible to transmit a probe."
       ::= { pingProbeHistoryEntry 2 }

pingProbeHistoryStatus OBJECT-TYPE

       SYNTAX      OperationResponseStatus
       MAX-ACCESS  read-only
       STATUS      current

---

Page 33

DESCRIPTION
"The result of a particular probe done by a remote host."

       ::= { pingProbeHistoryEntry 3 }

    pingProbeHistoryLastRC        OBJECT-TYPE
       SYNTAX      Integer32
       MAX-ACCESS  read-only
       STATUS      current
       DESCRIPTION
           "The last implementation-method-specific reply code received.
           If the ICMP Echo capability is being used, then a successful
           probe ends when an ICMP response is received that contains
           the code ICMP_ECHOREPLY(0).  The ICMP codes are maintained
           by IANA.  Standardized ICMP codes are listed at
           http://www.iana.org/assignments/icmp-parameters.
           The ICMPv6 codes are listed at
           http://www.iana.org/assignments/icmpv6-parameters."
       ::= { pingProbeHistoryEntry 4 }

pingProbeHistoryTime OBJECT-TYPE

       SYNTAX      DateAndTime
       MAX-ACCESS  read-only
       STATUS      current
       DESCRIPTION
           "Timestamp for when this probe result was determined."
       ::= { pingProbeHistoryEntry 5 }

    -- Notification Definition section

pingProbeFailed NOTIFICATION-TYPE

         OBJECTS {
           pingCtlTargetAddressType,
           pingCtlTargetAddress,
           pingResultsOperStatus,
           pingResultsIpTargetAddressType,
           pingResultsIpTargetAddress,
           pingResultsMinRtt,
           pingResultsMaxRtt,
           pingResultsAverageRtt,
           pingResultsProbeResponses,
           pingResultsSentProbes,
           pingResultsRttSumOfSquares,
           pingResultsLastGoodProbe
         }
         STATUS  current
         DESCRIPTION
             "Generated when a probe failure is detected, when the

---

Page 34

corresponding pingCtlTrapGeneration object is set to probeFailure(0), subject to the value of
pingCtlTrapProbeFailureFilter. The object
pingCtlTrapProbeFailureFilter can be used to specify the number of consecutive probe failures that are required before this notification can be generated."

         ::= { pingNotifications 1 }

pingTestFailed NOTIFICATION-TYPE

         OBJECTS {
           pingCtlTargetAddressType,
           pingCtlTargetAddress,
           pingResultsOperStatus,
           pingResultsIpTargetAddressType,
           pingResultsIpTargetAddress,
           pingResultsMinRtt,
           pingResultsMaxRtt,
           pingResultsAverageRtt,
           pingResultsProbeResponses,
           pingResultsSentProbes,
           pingResultsRttSumOfSquares,
           pingResultsLastGoodProbe
         }
         STATUS  current
         DESCRIPTION
             "Generated when a ping test is determined to have failed,
             when the corresponding pingCtlTrapGeneration object is
             set to testFailure(1).  In this instance,
             pingCtlTrapTestFailureFilter should specify the number of
             probes in a test required to have failed in order to
             consider the test failed."
         ::= { pingNotifications 2 }

pingTestCompleted NOTIFICATION-TYPE

         OBJECTS {
           pingCtlTargetAddressType,
           pingCtlTargetAddress,
           pingResultsOperStatus,
           pingResultsIpTargetAddressType,
           pingResultsIpTargetAddress,
           pingResultsMinRtt,
           pingResultsMaxRtt,
           pingResultsAverageRtt,
           pingResultsProbeResponses,
           pingResultsSentProbes,
           pingResultsRttSumOfSquares,
           pingResultsLastGoodProbe

---

Page 35

}
STATUS current
DESCRIPTION
"Generated at the completion of a ping test when the corresponding pingCtlTrapGeneration object has the testCompletion(2) bit set."

         ::= { pingNotifications 3 }

    -- Conformance information

    -- Compliance statements

    pingCompliances OBJECT IDENTIFIER ::= { pingConformance 1 }
    pingGroups      OBJECT IDENTIFIER ::= { pingConformance 2 }

    -- Compliance statements

pingFullCompliance MODULE-COMPLIANCE
STATUS current
DESCRIPTION
"The compliance statement for SNMP entities that fully implement the DISMAN-PING-MIB."
MODULE -- this module

           MANDATORY-GROUPS {
                               pingMinimumGroup,
                               pingCtlRowStatusGroup,
                               pingHistoryGroup,
                               pingNotificationsGroup
                             }

OBJECT pingMaxConcurrentRequests
MIN-ACCESS read-only
DESCRIPTION
"The agent is not required to support set
operations to this object."

OBJECT pingCtlStorageType
MIN-ACCESS read-only
DESCRIPTION
"Write access is not required."

OBJECT pingCtlType
MIN-ACCESS read-only
DESCRIPTION
"Write access is not required. In addition, the only value that MUST be supported by an implementation is pingIcmpEcho."

---

Page 36

OBJECT pingCtlSourceAddressType
SYNTAX InetAddressType { unknown(0), ipv4(1), ipv6(2) } MIN-ACCESS read-only
DESCRIPTION
"Write access to this object is not required by implementations that are not capable of binding the send socket with a source address. An implementation is only required to support IPv4 and IPv6 addresses."

OBJECT pingCtlSourceAddress
SYNTAX InetAddress (SIZE(0|4|16))
MIN-ACCESS read-only

DESCRIPTION
"Write access to this object is not required by implementations that are not capable of binding the send socket with a source address. An implementation is only required to support IPv4 and IPv6 addresses."

OBJECT pingCtlIfIndex
MIN-ACCESS read-only
DESCRIPTION
"Write access is not required. If write access is not supported, return a 0 as the value of this object. A value of 0 means that the function represented by this option is not supported."

OBJECT pingCtlByPassRouteTable
MIN-ACCESS read-only
DESCRIPTION
"Write access to this object is not required by implementations that are not capable of its
implementation. The function represented by this object is implementable if the setsockopt
SOL_SOCKET SO_DONTROUTE option is supported."

OBJECT pingCtlDSField
MIN-ACCESS read-only
DESCRIPTION
"Write access is not required. If write access is not supported, return a 0 as the value of this object. A value of 0 means that the function represented by this option is not supported."

OBJECT pingResultsIpTargetAddressType
SYNTAX InetAddressType { unknown(0), ipv4(1), ipv6(2) } DESCRIPTION
"An implementation is only required to

---

Page 37

support IPv4 and IPv6 addresses."

OBJECT pingResultsIpTargetAddress
SYNTAX InetAddress (SIZE(0|4|16))
DESCRIPTION
"An implementation is only required to
support IPv4 and globally unique IPv6 addresses."

OBJECT pingResultsLastGoodProbe
DESCRIPTION
"This object is mandatory for implementations that have access to a system clock and that are capable of setting the values for DateAndTime objects. It is RECOMMENDED that when this object is not supported its values be reported as '0000000000000000'H."

OBJECT pingProbeHistoryTime
DESCRIPTION
"This object is mandatory for implementations that have access to a system clock and that are capable of setting the values for DateAndTime objects. It is RECOMMENDED that when this object is not supported its values be reported as '0000000000000000'H."

       ::= { pingCompliances 2 }

pingMinimumCompliance MODULE-COMPLIANCE
STATUS current
DESCRIPTION
"The minimum compliance statement for SNMP entities that implement the minimal subset of the
DISMAN-PING-MIB. Implementors might choose this subset for small devices with limited resources." MODULE -- this module
MANDATORY-GROUPS { pingMinimumGroup }

GROUP pingCtlRowStatusGroup
DESCRIPTION
"A compliant implementation does not have to implement the pingCtlRowStatusGroup."

GROUP pingHistoryGroup
DESCRIPTION
"A compliant implementation does not have to implement the pingHistoryGroup."

GROUP pingNotificationsGroup
DESCRIPTION
"A compliant implementation does not have to implement

---

Page 38

the pingNotificationsGroup."

OBJECT pingMaxConcurrentRequests
MIN-ACCESS read-only
DESCRIPTION
"The agent is not required to support set
operations to this object."

OBJECT pingCtlDataFill
MIN-ACCESS read-only
DESCRIPTION
"The agent is not required to support set
operations to this object."

OBJECT pingCtlFrequency
MIN-ACCESS read-only
DESCRIPTION
"Write access is not required. If write access is not supported, return a 0 as the value of this object. A value of 0 means that the function represented by this option is not supported."

OBJECT pingCtlMaxRows
MIN-ACCESS read-only
DESCRIPTION
"Write access is not required. If the
pingHistoryGroup is not implemented, then write access to this object MUST be disabled, and the object MUST return a value of 0 when retrieved."

OBJECT pingCtlStorageType
MIN-ACCESS read-only
DESCRIPTION
"Write access is not required."

OBJECT pingCtlTrapGeneration
MIN-ACCESS read-only
DESCRIPTION
"Write access is not required. If the
pingNotificationsGroup is not implemented, then write access to this object MUST be disabled, and the object MUST return a value with no bit set when retrieved. No bit set indicates that not notification is generated."

OBJECT pingCtlTrapProbeFailureFilter
MIN-ACCESS read-only
DESCRIPTION

---

Page 39

"If write access to pingCtlTrapGeneration is not supported, then write access to this object must also not be supported. In this case, return 0 as the value of this object."

OBJECT pingCtlTrapTestFailureFilter
MIN-ACCESS read-only
DESCRIPTION
"If write access to pingCtlTrapGeneration is not supported, then write access to this object must also not be supported. In this case, return 0 as the value of this object."

OBJECT pingCtlType
MIN-ACCESS read-only
DESCRIPTION
"Write access is not required. In addition, the only value that MUST be supported by an implementation is pingIcmpEcho."

OBJECT pingCtlDescr
MIN-ACCESS read-only
DESCRIPTION
"The agent is not required to support set
operations to this object."

OBJECT pingCtlSourceAddressType
SYNTAX InetAddressType { unknown(0), ipv4(1), ipv6(2) } MIN-ACCESS read-only
DESCRIPTION
"Write access to this object is not required by implementations that are not capable of binding the send socket with a source address. An implementation is only required to support IPv4 and IPv6 addresses."

OBJECT pingCtlSourceAddress
SYNTAX InetAddress (SIZE(0|4|16))
MIN-ACCESS read-only
DESCRIPTION
"Write access to this object is not required by implementations that are not capable of binding the send socket with a source address. An implementation is only required to support IPv4 and IPv6 addresses."

OBJECT pingCtlIfIndex
MIN-ACCESS read-only
DESCRIPTION
"Write access is not required. If write access is

---

Page 40

not supported, return a 0 as the value of this object. A value of 0 means that the function represented by this option is not supported."

OBJECT pingCtlByPassRouteTable
MIN-ACCESS read-only
DESCRIPTION
"Write access is not required. If write access is not supported, return false(2) as the value of this object. A value of false(2) means that the function represented by this option is not supported."

OBJECT pingCtlDSField
MIN-ACCESS read-only
DESCRIPTION
"Write access is not required. If write access is not supported, return a 0 as the value of this object. A value of 0 means that the function represented by this option is not supported."

OBJECT pingResultsIpTargetAddressType
SYNTAX InetAddressType { unknown(0), ipv4(1), ipv6(2) }

DESCRIPTION
"An implementation is only required to
support IPv4 and IPv6 addresses."

OBJECT pingResultsIpTargetAddress
SYNTAX InetAddress (SIZE(0|4|16))
DESCRIPTION
"An implementation is only required to
support IPv4 and globally unique IPv6 addresses."

OBJECT pingResultsLastGoodProbe
DESCRIPTION
"This object is mandatory for implementations that have access to a system clock and that are capable of setting the values for DateAndTime objects. It is RECOMMENDED that when this object is not supported its values be reported as '0000000000000000'H."

OBJECT pingProbeHistoryTime
DESCRIPTION
"If the pingHistoryGroup is implemented, then this object is mandatory for implementations that have access to a system clock and that are capable of setting the values for DateAndTime objects. It is RECOMMENDED that when this object is not supported its values

---

Page 41

be reported as '0000000000000000'H."

       ::= { pingCompliances 3 }

pingCompliance MODULE-COMPLIANCE
STATUS deprecated
DESCRIPTION
"The compliance statement for the DISMAN-PING-MIB. This compliance statement has been deprecated because the group pingGroup and the pingTimeStampGroup have been split and deprecated. The pingFullCompliance statement is semantically identical to the deprecated
pingCompliance statement."

MODULE -- this module

           MANDATORY-GROUPS {
                               pingGroup,
                               pingNotificationsGroup
                             }
           GROUP pingTimeStampGroup
           DESCRIPTION
               "This group is mandatory for implementations that have
               access to a system clock and that are capable of setting
               the values for DateAndTime objects.  It is RECOMMENDED
               that when this group is not supported the values
               for the objects in this group be reported as
               '0000000000000000'H."

OBJECT pingMaxConcurrentRequests
MIN-ACCESS read-only
DESCRIPTION
"The agent is not required to support set
operations to this object."

OBJECT pingCtlStorageType
MIN-ACCESS read-only
DESCRIPTION
"Write access is not required. It is also allowed that implementations support only the volatile StorageType enumeration."

OBJECT pingCtlType
MIN-ACCESS read-only
DESCRIPTION
"Write access is not required. In addition, the only value that MUST be supported by an implementation is pingIcmpEcho."

---

Page 42

OBJECT pingCtlByPassRouteTable
MIN-ACCESS read-only
DESCRIPTION
"This object is not required by implementations that are not capable of its implementation. The function represented by this object is implementable if the setsockopt SOL_SOCKET SO_DONTROUTE option is
supported."

OBJECT pingCtlSourceAddressType
SYNTAX InetAddressType { unknown(0), ipv4(1), ipv6(2) } MIN-ACCESS read-only
DESCRIPTION
"This object is not required by implementations that are not capable of binding the send socket with a source address. An implementation is only required to support IPv4 and IPv6 addresses."

OBJECT pingCtlSourceAddress
SYNTAX InetAddress (SIZE(0|4|16))
MIN-ACCESS read-only
DESCRIPTION
"This object is not required by implementations that are not capable of binding the send socket with a source address. An implementation is only required to support IPv4 and globally unique IPv6 addresses."

OBJECT pingCtlIfIndex
MIN-ACCESS read-only
DESCRIPTION
"Write access is not required. When write access is not supported, return a 0 as the value of this object. A value of 0 means that the function represented by this option is not supported."

OBJECT pingCtlDSField
MIN-ACCESS read-only
DESCRIPTION
"Write access is not required. When write access is not supported, return a 0 as the value of this object. A value of 0 means that the function represented by this option is not supported."

OBJECT pingResultsIpTargetAddressType
SYNTAX InetAddressType { unknown(0), ipv4(1), ipv6(2) } DESCRIPTION
"An implementation is only required to
support IPv4 and IPv6 addresses."

---

Page 43

OBJECT pingResultsIpTargetAddress
SYNTAX InetAddress (SIZE(0|4|16))
DESCRIPTION
"An implementation is only required to
support IPv4 and globally unique IPv6 addresses."

       ::= { pingCompliances 1 }

    -- MIB groupings

pingMinimumGroup OBJECT-GROUP

      OBJECTS {
                pingMaxConcurrentRequests,
                pingCtlTargetAddressType,
                pingCtlTargetAddress,
                pingCtlDataSize,
                pingCtlTimeOut,
                pingCtlProbeCount,
                pingCtlAdminStatus,
                pingCtlDataFill,
                pingCtlFrequency,
                pingCtlMaxRows,
                pingCtlStorageType,
                pingCtlTrapGeneration,
                pingCtlTrapProbeFailureFilter,
                pingCtlTrapTestFailureFilter,
                pingCtlType,
                pingCtlDescr,

pingCtlByPassRouteTable,
pingCtlSourceAddressType,
pingCtlSourceAddress,
pingCtlIfIndex,
pingCtlDSField,
pingResultsOperStatus,
pingResultsIpTargetAddressType,
pingResultsIpTargetAddress,
pingResultsMinRtt,
pingResultsMaxRtt,
pingResultsAverageRtt,
pingResultsProbeResponses,
pingResultsSentProbes,
pingResultsRttSumOfSquares,
pingResultsLastGoodProbe
}
STATUS current
DESCRIPTION
"The group of objects that constitute the remote ping capability."

---

Page 44

       ::= { pingGroups 4 }

pingCtlRowStatusGroup OBJECT-GROUP

      OBJECTS {
                pingCtlRowStatus
              }
      STATUS  current
      DESCRIPTION
          "The RowStatus object of the pingCtlTable."
       ::= { pingGroups 5 }

pingHistoryGroup OBJECT-GROUP

      OBJECTS {
                pingProbeHistoryResponse,
                pingProbeHistoryStatus,
                pingProbeHistoryLastRC,
                pingProbeHistoryTime
              }
      STATUS  current
      DESCRIPTION
          "The group of objects that constitute the history
          capability."
       ::= { pingGroups 6 }

pingNotificationsGroup NOTIFICATION-GROUP

      NOTIFICATIONS {
                pingProbeFailed,
                pingTestFailed,
                pingTestCompleted
             }

      STATUS        current
      DESCRIPTION
          "The notification that are required to be supported by
          implementations of this MIB."
      ::= { pingGroups 3 }

pingGroup OBJECT-GROUP

      OBJECTS {
                pingMaxConcurrentRequests,
                pingCtlTargetAddressType,
                pingCtlTargetAddress,
                pingCtlDataSize,
                pingCtlTimeOut,
                pingCtlProbeCount,
                pingCtlAdminStatus,
                pingCtlDataFill,
                pingCtlFrequency,

---

Page 45

pingCtlMaxRows,
pingCtlStorageType,
pingCtlTrapGeneration,
pingCtlTrapProbeFailureFilter,
pingCtlTrapTestFailureFilter,
pingCtlType,
pingCtlDescr,
pingCtlByPassRouteTable,
pingCtlSourceAddressType,
pingCtlSourceAddress,
pingCtlIfIndex,
pingCtlDSField,
pingCtlRowStatus,
pingResultsOperStatus,
pingResultsIpTargetAddressType,
pingResultsIpTargetAddress,
pingResultsMinRtt,
pingResultsMaxRtt,
pingResultsAverageRtt,
pingResultsProbeResponses,
pingResultsSentProbes,
pingResultsRttSumOfSquares,
pingProbeHistoryResponse,
pingProbeHistoryStatus,
pingProbeHistoryLastRC
}
STATUS deprecated
DESCRIPTION
"The group of objects that constitute the remote ping capability."

       ::= { pingGroups 1 }

pingTimeStampGroup OBJECT-GROUP

      OBJECTS {
                pingResultsLastGoodProbe,
                pingProbeHistoryTime
              }
      STATUS  deprecated
      DESCRIPTION
          "The group of DateAndTime objects."
       ::= { pingGroups 2 }

END

---

Page 46

4.2 DISMAN-TRACEROUTE-MIB

   DISMAN-TRACEROUTE-MIB DEFINITIONS ::= BEGIN

IMPORTS
MODULE-IDENTITY, OBJECT-TYPE, Integer32,
Gauge32, Unsigned32, mib-2,
NOTIFICATION-TYPE,
OBJECT-IDENTITY

           FROM SNMPv2-SMI                  -- RFC2578
       RowStatus, StorageType,
       TruthValue, DateAndTime
           FROM SNMPv2-TC                   -- RFC2579
       MODULE-COMPLIANCE, OBJECT-GROUP,
       NOTIFICATION-GROUP
           FROM SNMPv2-CONF                 -- RFC2580
       SnmpAdminString
           FROM SNMP-FRAMEWORK-MIB          -- RFC3411
       InterfaceIndexOrZero                 -- RFC2863
           FROM IF-MIB
       InetAddressType, InetAddress
           FROM INET-ADDRESS-MIB            -- RFC4001
       OperationResponseStatus
           FROM DISMAN-PING-MIB;            -- RFC4560

traceRouteMIB MODULE-IDENTITY

       LAST-UPDATED "200606130000Z"         -- 13 June 2006
       ORGANIZATION "IETF Distributed Management Working Group"
       CONTACT-INFO
           "Juergen Quittek

NEC Europe Ltd.
Network Laboratories
Kurfuersten-Anlage 36
69115 Heidelberg
Germany

Phone: +49 6221 4342-115
Email: quittek@netlab.nec.de"
DESCRIPTION
"The Traceroute MIB (DISMAN-TRACEROUTE-MIB) provides access to the traceroute capability at a remote host.

Copyright © The Internet Society (2006). This version of this MIB module is part of RFC 4560; see the RFC itself for full legal notices."

        --  Revision history

---

Page 47

        REVISION     "200606130000Z"         -- 13 June 2006
        DESCRIPTION
            "Updated version, published as RFC 4560.
                - Correctly considered IPv6 in DESCRIPTION clause of
                  object traceRouteCtlDataSize
                - Replaced references to RFC 2575 by RFC 3415
                - Replaced references to RFC 2571 by RFC 3411
                - Replaced references to RFC 2851 by RFC 4001
                - Clarified DESCRIPTION clause of object
                  traceRouteResultsLastGoodPath
                - Changed range of object traceRouteCtlInitialTtl
                  from (0..255) to (1..255)
                - Extended DESCRIPTION clause of traceRouteResultsTable
                  describing re-initialization of entries
                - Changed SYNTAX of traceRouteResultsTestAttempts and
                  traceRouteResultsTestSuccesses from Unsigned32 to
                  Gauge32
                - Changed status of traceRouteCompliance to deprecated
                - Added traceRouteFullCompliance and
                  traceRouteMinimumCompliance
                - Changed status of traceRouteGroup and
                  traceRouteTimeStampGroup to deprecated
                - Added traceRouteMinimumGroup,
                  traceRouteCtlRowStatusGroup, and
                  traceRouteHistoryGroup
                - Changed DEFVAL of object
                  traceRouteCtlTargetAddressType from { ipv4 }
                  to { unknown }
                - Changed DEFVAL of object traceRouteCtlDescr
                  from { '00'H } to { ''H }
                - Added DEFVAL for object traceRouteCtlTrapGeneration
                  of DEFVAL { { } }"
        REVISION     "200009210000Z"         -- 21 September 2000
        DESCRIPTION
            "Initial version, published as RFC 2925."

       ::= { mib-2 81 }

    -- Top level structure of the MIB

    traceRouteNotifications  OBJECT IDENTIFIER ::= { traceRouteMIB 0 }
    traceRouteObjects        OBJECT IDENTIFIER ::= { traceRouteMIB 1 }
    traceRouteConformance    OBJECT IDENTIFIER ::= { traceRouteMIB 2 }

    -- The registration node (point) for traceroute implementation types

traceRouteImplementationTypeDomains OBJECT IDENTIFIER

    ::= { traceRouteMIB 3 }

---

Page 48

traceRouteUsingUdpProbes OBJECT-IDENTITY

       STATUS      current
       DESCRIPTION
           "Indicates that an implementation is using UDP probes to
           perform the traceroute operation."
       ::= { traceRouteImplementationTypeDomains 1 }

    -- Simple Object Definitions

traceRouteMaxConcurrentRequests OBJECT-TYPE

       SYNTAX      Unsigned32
       UNITS       "requests"
       MAX-ACCESS  read-write
       STATUS      current
       DESCRIPTION
          "The maximum number of concurrent active traceroute requests
          that are allowed within an agent implementation.  A value
          of 0 for this object implies that there is no limit for
          the number of concurrent active requests in effect.

The limit applies only to new requests being activated. When a new value is set, the agent will continue processing all the requests already active, even if their number exceeds the limit just imposed."
DEFVAL { 10 }

       ::= { traceRouteObjects 1 }

     -- Traceroute Control Table

traceRouteCtlTable OBJECT-TYPE

       SYNTAX      SEQUENCE OF TraceRouteCtlEntry
       MAX-ACCESS  not-accessible
       STATUS      current
       DESCRIPTION
           "Defines the Remote Operations Traceroute Control Table for
           providing the capability of invoking traceroute from a remote
           host.  The results of traceroute operations can be stored in
           the traceRouteResultsTable, traceRouteProbeHistoryTable, and
           the traceRouteHopsTable."
      ::= { traceRouteObjects 2 }

traceRouteCtlEntry OBJECT-TYPE

       SYNTAX      TraceRouteCtlEntry
       MAX-ACCESS  not-accessible
       STATUS      current
       DESCRIPTION

---

Page 49

"Defines an entry in the traceRouteCtlTable. The first index element, traceRouteCtlOwnerIndex, is of type SnmpAdminString, a textual convention that allows for use of the SNMPv3 View-Based Access Control Model (RFC 3415, VACM) and that allows a management
application to identify its entries. The second index, traceRouteCtlTestName (also an SnmpAdminString),
enables the same management application to have
multiple requests outstanding."

       INDEX {
               traceRouteCtlOwnerIndex,
               traceRouteCtlTestName
             }
       ::= { traceRouteCtlTable 1 }

    TraceRouteCtlEntry ::=
       SEQUENCE {
         traceRouteCtlOwnerIndex         SnmpAdminString,
         traceRouteCtlTestName           SnmpAdminString,
         traceRouteCtlTargetAddressType  InetAddressType,
         traceRouteCtlTargetAddress      InetAddress,
         traceRouteCtlByPassRouteTable   TruthValue,
         traceRouteCtlDataSize           Unsigned32,
         traceRouteCtlTimeOut            Unsigned32,
         traceRouteCtlProbesPerHop       Unsigned32,
         traceRouteCtlPort               Unsigned32,
         traceRouteCtlMaxTtl             Unsigned32,
         traceRouteCtlDSField            Unsigned32,
         traceRouteCtlSourceAddressType  InetAddressType,
         traceRouteCtlSourceAddress      InetAddress,
         traceRouteCtlIfIndex            InterfaceIndexOrZero,
         traceRouteCtlMiscOptions        SnmpAdminString,
         traceRouteCtlMaxFailures        Unsigned32,
         traceRouteCtlDontFragment       TruthValue,
         traceRouteCtlInitialTtl         Unsigned32,
         traceRouteCtlFrequency          Unsigned32,
         traceRouteCtlStorageType        StorageType,
         traceRouteCtlAdminStatus        INTEGER,
         traceRouteCtlDescr              SnmpAdminString,
         traceRouteCtlMaxRows            Unsigned32,
         traceRouteCtlTrapGeneration     BITS,
         traceRouteCtlCreateHopsEntries  TruthValue,
         traceRouteCtlType               OBJECT IDENTIFIER,
         traceRouteCtlRowStatus          RowStatus
       }

traceRouteCtlOwnerIndex OBJECT-TYPE

       SYNTAX      SnmpAdminString (SIZE(0..32))

---

Page 50

MAX-ACCESS not-accessible

       STATUS      current
       DESCRIPTION
          "To facilitate the provisioning of access control by a
          security administrator using the View-Based Access
          Control Model (RFC 3415, VACM) for tables in which
          multiple users may need to create or
          modify entries independently, the initial index is used as
          an 'owner index'.  Such an initial index has a syntax of
          SnmpAdminString and can thus be trivially mapped to a
          securityName or groupName defined in VACM, in
          accordance with a security policy.

When used in conjunction with such a security policy, all entries in the table belonging to a particular user (or group) will have the same value for this initial index. For a given user's entries in a particular table, the object identifiers for the information in these entries will have the same subidentifiers (except for the 'column' subidentifier) up to the end of the encoded owner index. To configure VACM to permit access to this portion of the table, one would create
vacmViewTreeFamilyTable entries with the value of
vacmViewTreeFamilySubtree including the owner index portion, and vacmViewTreeFamilyMask 'wildcarding' the column subidentifier. More elaborate configurations are possible."

       ::= { traceRouteCtlEntry 1 }

traceRouteCtlTestName OBJECT-TYPE

       SYNTAX      SnmpAdminString (SIZE(0..32))
       MAX-ACCESS  not-accessible
       STATUS      current
       DESCRIPTION
           "The name of a traceroute test.  This is locally unique,
           within the scope of a traceRouteCtlOwnerIndex."
       ::= { traceRouteCtlEntry 2 }

traceRouteCtlTargetAddressType OBJECT-TYPE

       SYNTAX      InetAddressType
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "Specifies the type of host address to be used on the
           traceroute request at the remote host."
       DEFVAL { unknown }
       ::= { traceRouteCtlEntry 3 }

---

Page 51

traceRouteCtlTargetAddress OBJECT-TYPE

       SYNTAX      InetAddress
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "Specifies the host address used on the
           traceroute request at the remote host.  The
           host address type can be determined by
           examining the value of the corresponding
           traceRouteCtlTargetAddressType.

A value for this object MUST be set prior to
transitioning its corresponding traceRouteCtlEntry to active(1) via traceRouteCtlRowStatus."

       ::= { traceRouteCtlEntry 4 }

traceRouteCtlByPassRouteTable OBJECT-TYPE
SYNTAX TruthValue
MAX-ACCESS read-create

       STATUS      current
       DESCRIPTION
          "The purpose of this object is to enable optional
          bypassing the route table.  If enabled, the remote
          host will bypass the normal routing tables and send
          directly to a host on an attached network.  If the
          host is not on a directly attached network, an
          error is returned.  This option can be used to perform
          the traceroute operation to a local host through an
          interface that has no route defined (e.g., after the
          interface was dropped by the routing daemon at the host)."
       DEFVAL { false }
       ::= { traceRouteCtlEntry 5 }

traceRouteCtlDataSize OBJECT-TYPE

       SYNTAX      Unsigned32 (0..65507)
       UNITS       "octets"
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "Specifies the size of the data portion of a traceroute
           request, in octets.  If the RECOMMENDED traceroute method
           (UDP datagrams as probes) is used, then the value
           contained in this object MUST be applied.  If another
           traceroute method is used for which the specified size
           is not appropriate, then the implementation SHOULD use
           whatever size (appropriate to the method) is closest to
           the specified size.

---

Page 52

The maximum value for this object was computed by subtracting the smallest possible IP header size of 20 octets (IPv4 header with no options) and the UDP header size of 8 octets from the maximum IP packet size. An IP packet has a maximum size of 65535 octets
(excluding IPv6 Jumbograms)."
DEFVAL { 0 }

       ::= { traceRouteCtlEntry 6 }

traceRouteCtlTimeOut OBJECT-TYPE

       SYNTAX      Unsigned32 (1..60)
       UNITS       "seconds"
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "Specifies the time-out value, in seconds, for
           a traceroute request."
       DEFVAL { 3 }
       ::= { traceRouteCtlEntry 7 }

traceRouteCtlProbesPerHop OBJECT-TYPE

       SYNTAX      Unsigned32 (1..10)
       UNITS       "probes"
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "Specifies the number of times to reissue a traceroute
           request with the same time-to-live (TTL) value."
       DEFVAL { 3 }
       ::= { traceRouteCtlEntry 8 }

traceRouteCtlPort OBJECT-TYPE

       SYNTAX      Unsigned32 (1..65535)
       UNITS       "UDP Port"
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "Specifies the (initial) UDP port to send the traceroute
           request to.  A port needs to be specified that is not in
           use at the destination (target) host.  The default
           value for this object is the IANA assigned port,
           33434, for the traceroute function."
       DEFVAL { 33434 }
       ::= { traceRouteCtlEntry 9 }

traceRouteCtlMaxTtl OBJECT-TYPE

       SYNTAX      Unsigned32 (1..255)
       UNITS       "time-to-live value"

---

Page 53

MAX-ACCESS read-create

       STATUS      current
       DESCRIPTION
           "Specifies the maximum time-to-live value."
       DEFVAL { 30 }
       ::= { traceRouteCtlEntry 10 }

traceRouteCtlDSField OBJECT-TYPE

       SYNTAX      Unsigned32 (0..255)
       MAX-ACCESS  read-create
       STATUS      current

DESCRIPTION
"Specifies the value to store in the Type of Service (TOS) octet in the IPv4 header or in the Traffic
Class octet in the IPv6 header, respectively, of the IP packet used to encapsulate the traceroute probe.

The octet to be set in the IP header contains the Differentiated Services (DS) Field in the six most significant bits.

This option can be used to determine what effect an explicit DS Field setting has on a traceroute response. Not all values are legal or meaningful. A value of 0 means that the function represented by this option is not supported. DS Field usage is often not supported by IP implementations, and not all values are supported. Refer to RFC 2474 and RFC 3260 for guidance on usage of this field."
REFERENCE
"Refer to RFC 1812 for the definition of the IPv4 TOS octet and to RFC 2460 for the definition of the IPv6 Traffic Class octet. Refer to RFC 2474 and RFC 3260 for the definition of the Differentiated Services Field." DEFVAL { 0 }

       ::= { traceRouteCtlEntry 11 }

traceRouteCtlSourceAddressType OBJECT-TYPE

       SYNTAX      InetAddressType
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "Specifies the type of the source address,
           traceRouteCtlSourceAddress, to be used at a remote host
           when a traceroute operation is performed."
       DEFVAL { unknown }
       ::= { traceRouteCtlEntry 12 }

---

Page 54

traceRouteCtlSourceAddress OBJECT-TYPE

       SYNTAX      InetAddress
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "Use the specified IP address (which must be given as an
           IP number, not a hostname) as the source address in
           outgoing probe packets.  On hosts with more than one IP
           address, this option can be used to select the address
           to be used.  If the IP address is not one of this
           machine's interface addresses, an error is returned, and
           nothing is sent.  A zero-length octet string value for
           this object disables source address specification.
           The address type (InetAddressType) that relates to
           this object is specified by the corresponding value
           of traceRouteCtlSourceAddressType."
       DEFVAL { ''H }
       ::= { traceRouteCtlEntry 13 }

traceRouteCtlIfIndex OBJECT-TYPE

       SYNTAX      InterfaceIndexOrZero
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "Setting this object to an interface's ifIndex prior
           to starting a remote traceroute operation directs
           the traceroute probes to be transmitted over the
           specified interface.  A value of zero for this object
           implies that this option is not enabled."
       DEFVAL { 0 }
       ::= { traceRouteCtlEntry 14 }

traceRouteCtlMiscOptions OBJECT-TYPE

       SYNTAX      SnmpAdminString
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "Enables an application to specify implementation-dependent
           options."
       DEFVAL { ''H }
       ::= { traceRouteCtlEntry 15 }

traceRouteCtlMaxFailures OBJECT-TYPE

       SYNTAX      Unsigned32 (0..255)
       UNITS       "timeouts"
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION

---

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"The value of this object indicates the maximum number of consecutive timeouts allowed before a remote traceroute request is terminated. A value of either 255 (maximum hop count/possible TTL value) or 0 indicates that the function of terminating a remote traceroute request when a specific number of consecutive timeouts are detected is disabled."
DEFVAL { 5 }

       ::= { traceRouteCtlEntry 16 }

traceRouteCtlDontFragment OBJECT-TYPE

       SYNTAX         TruthValue
       MAX-ACCESS     read-create
       STATUS         current
       DESCRIPTION
           "This object enables setting of the don't fragment flag (DF)
           in the IP header for a probe.  Use of this object enables
           a manual PATH MTU test is performed."
       DEFVAL  { false }
       ::= { traceRouteCtlEntry 17 }

traceRouteCtlInitialTtl OBJECT-TYPE

       SYNTAX         Unsigned32 (1..255)
       MAX-ACCESS     read-create
       STATUS         current
       DESCRIPTION
           "The value of this object specifies the initial TTL value to
           use.  This enables bypassing the initial (often well known)
           portion of a path."
       DEFVAL { 1 }
       ::= { traceRouteCtlEntry 18 }

traceRouteCtlFrequency OBJECT-TYPE

       SYNTAX      Unsigned32
       UNITS       "seconds"
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "The number of seconds to wait before repeating a
           traceroute test, as defined by the value of the
           various objects in the corresponding row.

After a single test is completed the number of seconds as defined by the value of traceRouteCtlFrequency MUST elapse before the next traceroute test is started.

A value of 0 for this object implies that the test as defined by the corresponding entry will not be

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repeated."
DEFVAL { 0 }

       ::= { traceRouteCtlEntry 19 }

traceRouteCtlStorageType OBJECT-TYPE

       SYNTAX      StorageType
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "The storage type for this conceptual row.
           Conceptual rows having the value 'permanent' need not
           allow write-access to any columnar objects in the row."
       DEFVAL { nonVolatile }
       ::= { traceRouteCtlEntry 20 }

traceRouteCtlAdminStatus OBJECT-TYPE

       SYNTAX      INTEGER {

enabled(1), -- operation should be started disabled(2) -- operation should be stopped }
MAX-ACCESS read-create

       STATUS      current
       DESCRIPTION
           "Reflects the desired state that an traceRouteCtlEntry
           should be in:

enabled(1) - Attempt to activate the test as defined by this traceRouteCtlEntry.
disabled(2) - Deactivate the test as defined by this traceRouteCtlEntry.

Refer to the corresponding traceRouteResultsOperStatus to determine the operational state of the test defined by this entry."
DEFVAL { disabled }

       ::= { traceRouteCtlEntry 21 }

traceRouteCtlDescr OBJECT-TYPE

       SYNTAX      SnmpAdminString
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "The purpose of this object is to provide a
           descriptive name of the remote traceroute
           test."
       DEFVAL { ''H }
       ::= { traceRouteCtlEntry 22 }

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traceRouteCtlMaxRows OBJECT-TYPE

       SYNTAX      Unsigned32
       UNITS       "rows"
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "The maximum number of corresponding entries allowed
           in the traceRouteProbeHistoryTable.  An implementation
           of this MIB will remove the oldest corresponding entry
           in the traceRouteProbeHistoryTable to allow the
           addition of an new entry once the number of
           corresponding rows in the traceRouteProbeHistoryTable
           reaches this value.

Old entries are not removed when a new test is
started. Entries are added to the
traceRouteProbeHistoryTable until traceRouteCtlMaxRows is reached before entries begin to be removed.
A value of 0 for this object disables creation of traceRouteProbeHistoryTable entries."

       DEFVAL      { 50 }
       ::= { traceRouteCtlEntry 23 }

traceRouteCtlTrapGeneration OBJECT-TYPE

       SYNTAX      BITS {
                     pathChange(0),
                     testFailure(1),
                     testCompletion(2)
                   }
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "The value of this object determines when and whether to
           generate a notification for this entry:

           pathChange(0)     - Generate a traceRoutePathChange
               notification when the current path varies from a
               previously determined path.
           testFailure(1)    - Generate a traceRouteTestFailed
               notification when the full path to a target
               can't be determined.
           testCompletion(2) - Generate a traceRouteTestCompleted
               notification when the path to a target has been
               determined.

The value of this object defaults to an empty set, indicating that none of the above options has been selected."

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DEFVAL { { } }

       ::= { traceRouteCtlEntry 24 }

traceRouteCtlCreateHopsEntries OBJECT-TYPE

       SYNTAX      TruthValue
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "The current path for a traceroute test is kept in the
           traceRouteHopsTable on a per-hop basis when the value of
           this object is true(1)."
       DEFVAL { false }
       ::= { traceRouteCtlEntry 25 }

traceRouteCtlType OBJECT-TYPE

       SYNTAX      OBJECT IDENTIFIER
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "The value of this object is used either to report or to
           select the implementation method to be used for
           performing a traceroute operation.  The value of this
           object may be selected from
           traceRouteImplementationTypeDomains.

Additional implementation types should be allocated as required by implementers of the DISMAN-TRACEROUTE-MIB under their enterprise specific registration point, not beneath traceRouteImplementationTypeDomains." DEFVAL { traceRouteUsingUdpProbes }

       ::= { traceRouteCtlEntry 26 }

traceRouteCtlRowStatus OBJECT-TYPE

       SYNTAX      RowStatus
       MAX-ACCESS  read-create
       STATUS      current
       DESCRIPTION
           "This object allows entries to be created and deleted
           in the traceRouteCtlTable.  Deletion of an entry in
           this table results in a deletion of all corresponding (same
           traceRouteCtlOwnerIndex and traceRouteCtlTestName
           index values) traceRouteResultsTable,
           traceRouteProbeHistoryTable, and traceRouteHopsTable
           entries.

A value MUST be specified for traceRouteCtlTargetAddress prior to acceptance of a transition to active(1) state.

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When a value for pingCtlTargetAddress is set,
the value of object pingCtlRowStatus changes
from notReady(3) to notInService(2).

Activation of a remote traceroute operation is
controlled via traceRouteCtlAdminStatus, and not
by transitioning of this object's value to active(1).

Transitions in and out of active(1) state are not allowed while an entry's traceRouteResultsOperStatus is active(1), with the exception that deletion of an entry in this table by setting its RowStatus
object to destroy(6) will stop an active
traceroute operation.

The operational state of an traceroute operation
can be determined by examination of the corresponding traceRouteResultsOperStatus object."
REFERENCE
"See definition of RowStatus in RFC 2579, 'Textual Conventions for SMIv2.'"

       ::= { traceRouteCtlEntry 27 }

    -- Traceroute Results Table

traceRouteResultsTable OBJECT-TYPE

       SYNTAX      SEQUENCE OF TraceRouteResultsEntry
       MAX-ACCESS  not-accessible
       STATUS      current
       DESCRIPTION
           "Defines the Remote Operations Traceroute Results Table for
           keeping track of the status of a traceRouteCtlEntry.

An entry is added to the traceRouteResultsTable when an traceRouteCtlEntry is started by successful transition of its traceRouteCtlAdminStatus object to enabled(1).

If the object traceRouteCtlAdminStatus already has the value enabled(1), and if the corresponding
traceRouteResultsOperStatus object has the value
completed(3), then successfully writing enabled(1) to the object traceRouteCtlAdminStatus re-initializes the already existing entry in the traceRouteResultsTable. The values of objects in the re-initialized entry are the same as the values of objects in a new entry would be.

An entry is removed from the traceRouteResultsTable when

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its corresponding traceRouteCtlEntry is deleted."

      ::= { traceRouteObjects 3 }

traceRouteResultsEntry OBJECT-TYPE

       SYNTAX      TraceRouteResultsEntry
       MAX-ACCESS  not-accessible
       STATUS      current
       DESCRIPTION
           "Defines an entry in the traceRouteResultsTable.  The
           traceRouteResultsTable has the same indexing as the
           traceRouteCtlTable so that a traceRouteResultsEntry
           corresponds to the traceRouteCtlEntry that caused it to
           be created."
       INDEX {
               traceRouteCtlOwnerIndex,
               traceRouteCtlTestName
             }
       ::= { traceRouteResultsTable 1 }

    TraceRouteResultsEntry ::=
       SEQUENCE {
         traceRouteResultsOperStatus       INTEGER,
         traceRouteResultsCurHopCount      Gauge32,
         traceRouteResultsCurProbeCount    Gauge32,
         traceRouteResultsIpTgtAddrType    InetAddressType,
         traceRouteResultsIpTgtAddr        InetAddress,
         traceRouteResultsTestAttempts     Gauge32,
         traceRouteResultsTestSuccesses    Gauge32,
         traceRouteResultsLastGoodPath     DateAndTime
       }

traceRouteResultsOperStatus OBJECT-TYPE

       SYNTAX      INTEGER {
                             enabled(1),  -- test is in progress
                             disabled(2), -- test has stopped
                             completed(3) -- test is completed
                           }
       MAX-ACCESS  read-only
       STATUS      current
       DESCRIPTION
           "Reflects the operational state of an traceRouteCtlEntry:

              enabled(1)   -