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IETF RFC 5815

Definitions of Managed Objects for IP Flow Information Export

Last modified on Tuesday, April 20th, 2010

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Internet Engineering Task Force (IETF)                     T. Dietz, Ed.
Request for Comments: 5815                              NEC Europe, Ltd.
Category: Standards Track                                 A. Kobayashi
ISSN: 2070-1721                                             NTT PF Labs.
                                                               B. Claise
                                                     Cisco Systems, Inc.
                                                                G. Muenz
                                        Technische Universitaet Muenchen
                                                              April 2010


     Definitions of Managed Objects for IP Flow Information Export

 Abstract

   This document defines managed objects for IP Flow Information eXport
   (IPFIX).  These objects provide information for monitoring IPFIX
   Exporters and IPFIX Collectors including the basic configuration
   information.

 Status of This Memo

   This is an Internet Standards Track document.

   This document is a product of the Internet Engineering Task Force
   (IETF).  It represents the consensus of the IETF community.  It has
   received public review and has been approved for publication by the
   Internet Engineering Steering Group (IESG).  Further information on
   Internet Standards is available in Section 2 of RFC 5741.

   Information about the current status of this document, any errata,
   and how to provide feedback on it may be obtained at
   http://www.rfc-editor.org/info/RFC 5815.

 Copyright Notice

   Copyright (c) 2010 IETF Trust and the persons identified as the
   document authors.  All rights reserved.

   This document is subject to BCP 78 and the IETF Trust's Legal
   Provisions Relating to IETF Documents
   (http://trustee.ietf.org/license-info) in effect on the date of
   publication of this document.  Please review these documents
   carefully, as they describe your rights and restrictions with respect
   to this document.  Code Components extracted from this document must
   include Simplified BSD License text as described in Section 4.e of
   the Trust Legal Provisions and are provided without warranty as
   described in the Simplified BSD License.



Dietz, et al.                Standards Track                 PAGE 1 


RFC 5815 IPFIX MIB April 2010 Table of Contents 1. Introduction ....................................................3 2. IPFIX Documents Overview ........................................3 3. The Internet-Standard Management Framework ......................4 4. Terminology .....................................................4 5. Structure of the IPFIX MIB ......................................4 5.1. The Transport Session Table ................................4 5.2. The Template Table .........................................7 5.3. The Template Definition Table ..............................9 5.4. The Export Table ..........................................11 5.5. The Metering Process Table ................................12 5.6. The Observation Point Table ...............................13 5.7. The Selection Process Table ...............................14 5.8. The Statistical Tables ....................................15 5.8.1. The Transport Session Statistical Table ............15 5.8.2. The Template Statistical Table .....................15 5.8.3. The Metering Process Statistical Table .............15 5.8.4. The Selection Process Statistical Table ............15 6. Structure of the IPFIX SELECTOR MIB ............................15 6.1. The Selector Functions ....................................16 7. Relationship to Other MIB Modules ..............................18 7.1. Relationship to the ENTITY MIB and IF MIB .................18 7.2. MIB Modules Required for IMPORTS ..........................18 8. MIB Definitions ................................................18 8.1. IPFIX MIB Definition ......................................19 8.2. IPFIX SELECTOR MIB Definition .............................56 9. Security Considerations ........................................60 10. IANA Considerations ...........................................61 11. Acknowledgments ...............................................61 12. References ....................................................62 12.1. Normative References .....................................62 12.2. Informative References ...................................63 Dietz, et al. Standards Track PAGE 2

RFC 5815 IPFIX MIB April 2010 1. Introduction This document defines two MIB modules for monitoring IP Flow Information eXport (IPFIX) Devices including Exporters and Collectors. Most of the objects defined by the IPFIX MIB module MUST be implemented. Some objects MAY be implemented corresponding to the functionality implemented in the equipment. Since the IPFIX architecture [RFC 5470] foresees the possibility of using Filtering and/or Sampling functions to reduce the data volume, this document also provides the IPFIX SELECTOR MIB module, which contains the standardized selection methods and is controlled by IANA. The full configuration of the IPFIX Metering Process is out of the scope of these MIB modules. 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 [RFC 2119]. 2. IPFIX Documents Overview The IPFIX protocol provides network administrators with access to IP Flow information. The architecture for the export of measured IP Flow information out of an IPFIX Exporting Process to a Collecting Process is defined in [RFC 5470], per the requirements defined in [RFC 3917]. The protocol document [RFC 5101] specifies how IPFIX Data Records and Templates are carried via a congestion-aware transport protocol from IPFIX Exporting Processes to IPFIX Collecting Processes. IPFIX has a formal description of IPFIX Information Elements, their name, type and additional semantic information, as specified in [RFC 5102]. Finally, [RFC 5472] describes what type of applications can use the IPFIX protocol and how they can use the information provided. It furthermore shows how the IPFIX framework relates to other architectures and frameworks. It is assumed that Flow metering, export, and collection is performed according to the IPFIX architecture defined in [RFC 5470]. The monitored configuration parameters of the export and collection of Flow Templates and Data Records is modeled according to [RFC 5101]. Packet selection methods that may be optionally used by the IPFIX Metering Process are not considered in this MIB module. They are defined in the Packet Sampling (PSAMP) framework [RFC 5474] and Sampling techniques [RFC 5475] documents. Nevertheless, the basis for defining Sampling and Filtering functions is given with the IPFIX SELECTOR MIB module. Since the PSAMP export protocol [RFC 5476] is based on the IPFIX protocol, the Sampling and Filtering functions can be added to the IPFIX SELECTOR MIB module as needed. Dietz, et al. Standards Track PAGE 3

RFC 5815 IPFIX MIB April 2010 3. 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 [RFC 3410]. 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 MIB modules that are compliant to the SMIv2, which is described in STD 58, RFC 2578 [RFC 2578], STD 58, RFC 2579 [RFC 2579] and STD 58, RFC 2580 [RFC 2580]. 4. Terminology The definitions of the basic terms like IP Traffic Flow, Exporting Process, Collecting Process, Observation Points, etc. can be found in the IPFIX protocol document [RFC 5101]. 5. Structure of the IPFIX MIB The IPFIX MIB module consists of seven main tables, the Transport Session table, the Template table and the corresponding Template Definition table, the Export table, the Metering Process table, the Observation Point table, and the Selection Process table. Since the IPFIX architecture [RFC 5470] foresees the possibility of using Filtering and/or Sampling functions to reduce the data volume, the MIB module provides the basic objects for these functions with the Selection Process table. The IPFIX SELECTOR MIB module defined in the next section provides the standard Filtering and Sampling functions that can be referenced in the ipfixSelectionProcessTable. All remaining objects contain statistical values for the different tables contained in the MIB module. The following subsections describe all tables in the IPFIX MIB module. 5.1. The Transport Session Table The Transport Session is the basis of the MIB module. The Transport Session table (ipfixTransportSessionTable) contains all Transport Sessions between Exporter and Collector. The table specifies the transport layer protocol of the Transport Session and, depending on that protocol, further parameters for the Transport Session. In the case of UDP and TCP, these are the source and destination address as Dietz, et al. Standards Track PAGE 4

RFC 5815 IPFIX MIB April 2010 well as the source and destination port. For Stream Control Transmission Protocol (SCTP), the table contains the SCTP Assoc Id, which is the index for the SCTP association in the SCTP MIB module [RFC 3873]. The mode of operation of the device, i.e., if the Transport Session is used for collecting or exporting is given in the ipfixTransportSessionDeviceMode object. Further on, it contains the configured refresh parameters for Templates and Options Templates that are used across unreliable connections as UDP. Finally, the IPFIX version that is exported or collected by this Transport Session and a status of the Transport Session is given in the table. To illustrate the use of the above tables, let us assume the following scenario: we have an Exporter on IP address 192.0.2.22 and a Collector on IP address 192.0.2.37. The Exporter uses TCP to export Templates and Data Records. The same Exporter also exports, with UDP, to a Collector with the IP address of 192.0.2.44. This would lead to the following Transport Session table on the Exporter: Dietz, et al. Standards Track PAGE 5

RFC 5815 IPFIX MIB April 2010 ipfixTransportSessionTable (1) | +- ipfixTransportSessionEntry (1) | +- index (5) (ipfixTransportSessionIndex) | +- ipfixTransportSessionIndex (1) = 5 | +- ipfixTransportSessionProtocol (2) = 6 (TCP) | +- ipfixTransportSessionSourceAddressType (3) = 1 (ipv4) | +- ipfixTransportSessionSourceAddress (4) = 192.0.2.22 | +- ipfixTransportSessionDestinationAddressType (5) = 1 (ipv4) | +- ipfixTransportSessionDestinationAddress (6) = 192.0.2.37 | +- ipfixTransportSessionSourcePort (7) = 7653 | +- ipfixTransportSessionDestinationPort (8) = 4739 | +- ipfixTransportSessionSctpAssocId (9) = 0 | +- ipfixTransportSessionDeviceMode (10) = exporting(1) | +- ipfixTransportSessionTemplateRefreshTimeout (11) = 0 | +- ipfixTransportSessionOptionTemplateRefreshTimeout (12) = 0 | +- ipfixTransportSessionTemplateRefreshPacket (13) = 0 | +- ipfixTransportSessionOptionTemplateRefreshPacket (14) = 0 | +- ipfixTransportSessionIpfixVersion (15) = 10 | +- ipfixTransportSessionStatus (16) = 2 (active) . . . +- index (11) (ipfixTransportSessionIndex) +- ipfixTransportSessionIndex (1) = 11 +- ipfixTransportSessionProtocol (2) = 17 (UDP) +- ipfixTransportSessionSourceAddressType (3) = 1 (ipv4) +- ipfixTransportSessionSourceAddress (4) = 192.0.2.22 +- ipfixTransportSessionDestinationAddressType (5) = 1 (ipv4) +- ipfixTransportSessionDestinationAddress (6) = 192.0.2.44 +- ipfixTransportSessionSourcePort (7) = 14287 +- ipfixTransportSessionDestinationPort (8) = 4739 +- ipfixTransportSessionSctpAssocId (9) = 0 +- ipfixTransportSessionDeviceMode (10) = exporting(1) +- ipfixTransportSessionTemplateRefreshTimeout (11) = 100 +- ipfixTransportSessionOptionTemplateRefreshTimeout (12) | = 100 +- ipfixTransportSessionTemplateRefreshPacket (13) = 10 +- ipfixTransportSessionOptionTemplateRefreshPacket (14) = 10 +- ipfixTransportSessionIpfixVersion (15) = 10 +- ipfixTransportSessionStatus (16) = 2 (active) The values in brackets are the OID numbers. The Collectors would then have the same entry except that the index would most likely differ and the ipfixTransportSessionDeviceMode would be collecting(2). Dietz, et al. Standards Track PAGE 6

RFC 5815 IPFIX MIB April 2010 5.2. The Template Table The Template table lists all Templates (including Options Templates) that are sent (by an Exporter) or received (by a Collector). The (Options) Templates are unique per Transport Session, which also gives the device mode (Exporter or Collector) and Observation Domain; thus, the table is indexed by: o the Transport Session Index (ipfixTransportSessionIndex) o and the Observation Domain Id (ipfixTemplateObservationDomainId). It contains the Set Id and an access time denoting the time when the (Options) Template was last sent or received. To resume the above example, the Exporter may want to export a Template and an Options Template for each Transport Session defined above. This leads to the following Template table defining Template and Options Template: Dietz, et al. Standards Track PAGE 7

RFC 5815 IPFIX MIB April 2010 ipfixTemplateTable (3) | +- ipfixTemplateEntry (1) | +- index (5) (ipfixTransportSessionIndex) | +- index (3) (ipfixTemplateObservationDomainId) | + index (257) (ipfixTemplateId) | | +- ipfixTemplateObservationDomainId (1) = 3 | | +- ipfixTemplateId (2) = 257 | | +- ipfixTemplateSetId (3) = 2 | | +- ipfixTemplateAccessTime (4) | | = 2008-7-1,12:49:11.2,+2:0 | | | + index (264) (ipfixTemplateId) | +- ipfixTemplateObservationDomainId (1) = 3 | +- ipfixTemplateId (2) = 264 | +- ipfixTemplateSetId (3) = 3 | +- ipfixTemplateAccessTime (4) . = 2008-7-1,12:47:04.8,+2:0 . . . +- index (11) (ipfixTransportSessionIndex) +- index (3) (ipfixTemplateObservationDomainId) + index (273) (ipfixTemplateId) | +- ipfixTemplateObservationDomainId (1) = 3 | +- ipfixTemplateId (2) = 273 | +- ipfixTemplateSetId (3) = 2 | +- ipfixTemplateAccessTime (4) | = 2008-7-1,12:49:11.2,+2:0 | + index (289) (ipfixTemplateId) +- ipfixTemplateObservationDomainId (1) = 3 +- ipfixTemplateId (2) = 289 +- ipfixTemplateSetId (3) = 3 +- ipfixTemplateAccessTime (4) = 2008-7-1,12:47:04.8,+2:0 We assume that the Transport Session that is stored with index 5 in the Transport Session table of the Exporter is stored with index 17 in the Transport Session table of the (corresponding) Collector. Then, the Template table would look as follows: Dietz, et al. Standards Track PAGE 8

RFC 5815 IPFIX MIB April 2010 ipfixTemplateTable (3) | +- ipfixTemplateEntry (1) | +- index (17) (ipfixTransportSessionIndex) +- index (3) (ipfixTemplateObservationDomainId) + index (257) (ipfixTemplateId) | +- ipfixTemplateObservationDomainId (1) = 3 | +- ipfixTemplateId (2) = 257 | +- ipfixTemplateSetId (3) = 2 | +- ipfixTemplateAccessTime (4) | = 2008-7-1,12:49:11.8,+2:0 | + index (264) (ipfixTemplateId) +- ipfixTemplateObservationDomainId (1) = 3 +- ipfixTemplateId (2) = 264 +- ipfixTemplateSetId (3) = 3 +- ipfixTemplateAccessTime (4) = 2008-7-1,12:47:05.3,+2:0 The table on the second Collector would be analogous to the one shown above. 5.3. The Template Definition Table The Template Definition table lists all the Information Elements contained in a Template or Options Template. Therefore, it has the same indexes as the corresponding Template table plus the Template Id. Its own index denotes the order of the Information Element inside the Template. Besides the Information Element Id and the length of the encoded value, the table contains the enterprise number for enterprise-specific Information Elements and flags for each Information Element. The flags indicate if the Information Element is used for scoping or as a Flow Key. To resume the above example again, the Exporter is configured to export the octets received and dropped at the Observation Point since the last export of these values. In addition, it exports the start and end time of the Flow relative to the timestamp contained in the IPFIX header. This leads to the following Template Definition table on the Exporter: Dietz, et al. Standards Track PAGE 9

RFC 5815 IPFIX MIB April 2010 ipfixTemplateDefinitionTable (4) | +- ipfixTemplateDefinitionEntry (1) | +- index (5) (ipfixTransportSessionIndex) +- index (3) (ipfixTemplateObservationDomainId) + index (257) (ipfixTemplateId) +- index (1) (ipfixTemplateDefinitionIndex) | +- ipfixTemplateDefinitionIndex (1) = 1 | +- ipfixTemplateDefinitionIeId (2) = 158 | | (flowStartDeltaMicroseconds) | +- ipfixTemplateDefinitionIeLength (3) = 4 | +- ipfixTemplateDefinitionEnterprise (4) = 0 | +- ipfixTemplateDefinitionFlags (5) = 0 | +- index (2) (ipfixTemplateDefinitionIndex) | +- ipfixTemplateDefinitionIndex (1) = 2 | +- ipfixTemplateDefinitionIeId (2) = 159 | | (flowEndDeltaMicroseconds) | +- ipfixTemplateDefinitionIeLength (3) = 4 | +- ipfixTemplateDefinitionEnterprise (4) = 0 | +- ipfixTemplateDefinitionFlags (5) = 0 | +- index (3) (ipfixTemplateDefinitionIndex) | +- ipfixTemplateDefinitionIndex (1) = 3 | +- ipfixTemplateDefinitionIeId (2) = 1 | | (octetDeltaCount) | +- ipfixTemplateDefinitionIeLength (3) = 8 | +- ipfixTemplateDefinitionEnterprise (4) = 0 | +- ipfixTemplateDefinitionFlags (5) = 0 | +- index (4) (ipfixTemplateDefinitionIndex) +- ipfixTemplateDefinitionIndex (1) = 4 +- ipfixTemplateDefinitionIeId (2) = 132 | (droppedOctetDeltaCount) +- ipfixTemplateDefinitionIeLength (3) = 8 +- ipfixTemplateDefinitionEnterprise (4) = 0 +- ipfixTemplateDefinitionFlags (5) = 0 The corresponding table entry on the Collector is the same except that it would have another ipfixTransportSessionIndex, e.g., 17 as in the previous example. Dietz, et al. Standards Track PAGE 10

RFC 5815 IPFIX MIB April 2010 5.4. The Export Table On Exporters, the Export table (ipfixExportTable) can be used to support features like failover, load-balancing, duplicate export to several Collectors, etc. The table has three indexes that link an entry with: o the Metering Process table (ipfixMeteringProcessCacheId, see below) o and the Transport Session table (ipfixTransportSessionIndex). Those entries with the same ipfixExportIndex and the same ipfixMeteringProcessCacheId define a Transport Session group. The member type for each group member describes its functionality. All Transport Sessions referenced in this table MUST have the ipfixTransportSessionDeviceMode exporting(1). If the Exporter does not use Transport Session grouping, then each ipfixExportIndex contains a single ipfixMeteringProcessCacheId, and thus a singe Transport Session (ipfixTransportSessionIndex) and this session MUST have the member type primary(1). For failover, a Transport Session group can contain one Transport Session with member type "primary" and several Transport Sessions with type secondary(2). Entries with other member types are not allowed for that type of group. For load-balancing or parallel export, all Transport Sessions in the group MUST have the same member type, either loadBalancing(4) or parallel(3). The algorithms used for failover or load-balancing are out of the scope of this document. To continue the example, we assume that the Exporter uses the two connections shown in the examples above as one primary Transport Session protected by a secondary Transport Session. The Exporter then has the following entries in the ipfixExportTable: Dietz, et al. Standards Track PAGE 11

RFC 5815 IPFIX MIB April 2010 ipfixExportTable (5) | +- ipfixExportEntry (1) | +- index (7) (ipfixExportIndex) | +- index (9) (ipfixMeteringProcessCacheId) | | +- index (5) (ipfixTransportSessionIndex) | | +- ipfixExportIndex (1) = 7 | | +- ipfixExportMemberType (2) = 1 (primary) | | | +- index (11) (ipfixTransportSessionIndex) | +- ipfixExportIndex (1) = 7 | +- ipfixExportMemberType (2) = 2 (secondary) | +- index (8) (ipfixExportIndex) +- index (9) (ipfixMeteringProcessCacheId) +- index (5) (ipfixTransportSessionIndex) | +- ipfixExportIndex (1) = 8 | +- ipfixExportMemberType (2) = 2 (secondary) +- index (11) (ipfixTransportSessionIndex) +- ipfixExportIndex (1) = 8 +- ipfixExportMemberType (2) = 1 (primary) The example shows that the Exporter uses the Metering Process Cache 9, explained below, to export IPFIX Data Records for the Transport Sessions 5 and 11. The Templates 257 and 264 defined above are exported within Transport Session 5, and the Templates 273 and 289 are exported within Transport Session 11. If we assume that Templates 257 and 264 are identical, then the Collector that receives Transport Session 11 is a backup for the Collector of Transport Session 5. 5.5. The Metering Process Table The Metering Process, as defined in [RFC 5101], consists of a set of functions. Maintaining the Flow Records is one of them. This function is responsible for passing the Flow Records to the Exporting Process and also for detecting Flow expiration. The Flow Records that are maintained by the Metering Process can be grouped by the Observation Points at which they are observed. The instance that maintains such a group of Flow Records is a kind of cache. For this reason, the Metering Process table (ipfixMeteringProcessTable) is indexed by cache Ids (ipfixMeteringProcessCacheId). Each cache can be maintained by a separate instance of the Metering Process. To specify the Observation Point(s) where the Flow Records are gathered, the ipfixMeteringProcessObservationPointGroupRef may contain an ipfixObservationPointGroupId from the Observation Point table (ipfixObservationPointTable) described in the next section. If an Dietz, et al. Standards Track PAGE 12

RFC 5815 IPFIX MIB April 2010 Observation Point is not specified for the Flow Records, the ipfixMeteringProcessObservationPointGroupRef MUST be zero(0). The timeouts (ipfixMeteringProcessCacheActiveTimeout and ipfixMeteringProcessCacheInactiveTimeout) specify when Flows are expired. ipfixMeteringProcessTable (6) | +- ipfixMeteringProcessEntry (1) | +- index (9) (ipfixMeteringProcessCacheId) +- ipfixMeteringProcessCacheId (1) = 9 +- ipfixMeteringProcessObservationPointGroupRef (2) = 17 +- ipfixMeteringProcessCacheActiveTimeout (3) = 100 +- ipfixMeteringProcessCacheInactiveTimeout (4) = 100 5.6. The Observation Point Table The Observation Point table (ipfixObservationPointTable) groups Observation Points with the ipfixObservationPointGroupId. Each entry contains the Observation Domain Id in which the Observation Point is located and a reference to the ENTITY MIB module [RFC 4133] or the IF MIB module [RFC 2863]. The objects in the ENTITY MIB module referenced by ipfixObservationPointPhysicalEntity or IF MIB module referenced by ipfixObservationPointPhysicalInterface denote the Observation Point. If no such index can be given in those modules, the references MUST be 0. If a reference is given in both object ipfixObservationPointPhysicalEntity and ipfixObservationPointPhysicalInterface, then both MUST point to the same physical interface. In addition, a direction can be given to render more specifically which Flow to monitor. Dietz, et al. Standards Track PAGE 13

RFC 5815 IPFIX MIB April 2010 ipfixObservationPointTable (7) | +- ipfixObservationPointEntry (1) | +- index (17) (ipfixObservationPointGroupId) +- index (1) (ipfixObservationPointIndex) | +- ipfixObservationPointGroupId (1) = 17 | +- ipfixObservationPointIndex (2) = 1 | +- ipfixObservationPointObservationDomainId (3) = 3 | +- ipfixObservationPointPhysicalEntity (4) = 6 | +- ipfixObservationPointPhysicalInterface(5) = 0 | +- ipfixObservationPointPhysicalEntityDirection (6) = 3 (both) | +- index (2) (ipfixObservationPointIndex) +- ipfixObservationPointGroupId (1) = 17 +- ipfixObservationPointIndex (2) = 2 +- ipfixObservationPointObservationDomainId (3) = 3 +- ipfixObservationPointPhysicalEntity (4) = 0 +- ipfixObservationPointPhysicalInterface (5) = 0 +- ipfixObservationPointPhysicalEntityDirection (6) = 1 (ingress) 5.7. The Selection Process Table This table supports the usage of Filtering and Sampling functions, as described in [RFC 5470]. It contains lists of functions per Metering Process cache (ipfixMeteringProcessCacheId). The selection process index ipfixSelectionProcessIndex forms groups of selection methods that are applied to an observed packet stream. The selection process selector index (ipfixSelectionProcessSelectorIndex) indicates the order in which the functions are applied to the packets observed at the Observation Points associated with the Metering Process cache. The selection methods are applied in increasing order, i.e., selection methods with a lower ipfixSelectionProcessSelectorIndex are applied first. The functions are referred by object identifiers pointing to the function with its parameters. If the selection method does not use parameters, then it MUST point to the root of the function subtree (see also Section 6). If the function uses parameters, then it MUST point to an entry in the parameter table of the selection method. If no Filtering or Sampling function is used for a Metering Process, then an entry for the Metering Process SHOULD be created pointing to the Select All function (ipfixFuncSelectAll). Dietz, et al. Standards Track PAGE 14

RFC 5815 IPFIX MIB April 2010 5.8. The Statistical Tables For the ipfixTransportSessionTable, the ipfixTemplateTable, the ipfixMeteringProcessTable, and the ipfixSelectionProcessTable statistical tables are defined that augment those tables. All the statistical tables contain a discontinuity object that holds a timestamp that denotes the time when a discontinuity event occurred to notify the management system that the counters contained in those tables might not be continuous anymore. 5.8.1. The Transport Session Statistical Table The Transport Session Statistical table (ipfixTransportSessionStatsTable) augments the ipfixTransportSessionTable with statistical values. It contains the rate (in bytes per second) with which it receives or sends out IPFIX Messages, the number of bytes, packets, messages, Records, Templates and Options Templates received or sent and the number of messages that were discarded. 5.8.2. The Template Statistical Table This table contains a statistical value for each Template. It augments the Template table (ipfixTemplateTable) and specifies the number of Data Records exported or collected for the Template. 5.8.3. The Metering Process Statistical Table This table augments the Metering Process table (ipfixMeteringProcessTable). It contains the statistical values for the exported Data Records and the number of unused cache entries. 5.8.4. The Selection Process Statistical Table This table augments the Selection Process table (ipfixSelectionProcessTable) and introduces two generic statistical values, the number of packets observed and the number of packets dropped by the selection method. 6. Structure of the IPFIX SELECTOR MIB The IPFIX SELECTOR MIB module defined in this section provides the standard Filtering and Sampling functions that can be referenced in the ipfixSelectionProcessTable. The subtree ipfixSelectorFunctions is a placeholder where all standard Filtering and Sampling functions should be located. It currently contains the Select All function (ipfixFuncSelectAll). The IPFIX SELECTOR MIB module is maintained by IANA and can be extended through Expert Review [RFC 5226], i.e., Dietz, et al. Standards Track PAGE 15

RFC 5815 IPFIX MIB April 2010 review by one of a group of experts designated by an IETF Area Director. The group of experts MUST check the requested MIB objects for completeness and accuracy of the description. Requests for MIB objects that duplicate the functionality of existing objects SHOULD be declined. The smallest available OID SHOULD be assigned to a new MIB objects. The specification of new MIB objects SHOULD follow the structure specified in the next Section and MUST be published using a well-established and persistent publication medium. The experts will initially be drawn from the Working Group Chairs and document editors of the IPFIX and PSAMP Working Groups. 6.1. The Selector Functions The following figure shows what the MIB tree usually should look like. It already contains the ipfixFuncSelectAll. The subtree in ipfixFuncF2 gives the basic structure that all selection methods SHOULD follow. ipfixSelectorFunctions | +- ipfixFuncSelectAll | | | +- ipfixFuncSelectAllAvail (is the function available?) | +- ipfixFuncF2 | | | +- ipfixFuncF2Avail (is the function F2 available?) | | | +- ipfixFuncF2Parameters (a table with parameters) ... | +- ipfixFunFn... The selection method SHOULD be designed as a MIB subtree introduced by an object with the name ipfixFunc appended by a function name. The objects in this subtree SHOULD be prefixed by this name. If the function is named Fx, then we would start a subtree with an OID named ipfixFuncFx. This subtree should contain an object ipfixFuncFxAvail that has the type TruthValue. If a selection method takes parameters, the MIB should contain a table named ipfixFuncFxParameters, which should contain all the parameters that the selection method specifies. An entry in this table will be referenced by the IPFIX MIB module if the selection method with the parameters is used. Dietz, et al. Standards Track PAGE 16

RFC 5815 IPFIX MIB April 2010 To illustrate the structure defined above, the following contains an example of a function MyFunc that holds three integer parameters Param1, Param2, and Param3. In the example, there are currently two instances of the parameters set defined with indexes 1 and 4. ipfixSelectorFunctions (1) | +- ipfixFuncMyFunc (?) | +- ipfixFuncMyFuncAvail (1) = true +- ipfixFuncMyFuncParameters (2) | +- ipfixFuncMyFuncParametersEntry (1) | +- index (1) (ipfixFuncMyFuncParametersIndex) | +- ipfixFuncMyFuncParam1 (1) = 47 | +- ipfixFuncMyFuncParam2 (2) = -128 | +- ipficFuncMyFuncParam3 (3) = 19 | +- index(4) (ipfixFuncMyFuncParametersIndex) +- ipfixFuncMyFuncParam1 (1) = 19 +- ipfixFuncMyFuncParam2 (2) = -1 +- ipficFuncMyFuncParam3 (3) = 728 If the function defined above is referenced in the IPFIX MIB module, the ipfixSelectionProcessTable would look as follows: ipfixSelectionProcessTable (8) | +- ipfixSelectionProcessEntry (1) | +- index (9) (ipfixMeteringProcessCacheId) +- index (1) (ipfixSelectionProcessIndex) +- index (1) (ipfixSelectionProcessSelectorIndex) | +- ipfixSelectionProcessSelectorFunction (3) | = ipfixSelectorFunctions.?.2.1.4 +- index (2) (ipfixSelectionProcessSelectorIndex) +- ipfixSelectionProcessSelectorFunction (3) = ipfixSelectorFunctions.?.2.1.1 This means that for the ipfixMeteringProcessCacheId(9), a Selection Process with index 1 is created that applies two times the same function but with different parameter sets. First, the function MyFunc is applied with the parameters of the set with index 4 and the with the parameters of the set with index 1. Dietz, et al. Standards Track PAGE 17

RFC 5815 IPFIX MIB April 2010 7. Relationship to Other MIB Modules Besides the usual imports from the SNMP Standards [RFC 2578], [RFC 2579], and [RFC 2580], the IPFIX MIB module references the ENTITY MIB module [RFC 4133] and the IF MIB module [RFC 2863]. 7.1. Relationship to the ENTITY MIB and IF MIB The Observation Point table (ipfixObservationPointTable) contains a reference to the ENTITY MIB module[RFC 4133] (ipfixObservationPointPhysicalEntity) or the IF MIB module [RFC 2863] (ipfixObservationPointPhysicalInterface). If the implementors of the IPFIX MIB module want to specify the physical entity where Flows are observed, then they SHOULD also implement the ENTITY MIB and/or the IF MIB module. The implementation of the ENTITY MIB and/or IF MIB module is OPTIONAL. If one of them is not implemented, then all values of the respective column ipfixObservationPointPhysicalEntity or ipfixObservationPointPhysicalInterface in the Observation Point table are zero and the values of the ipfixObservationPointPhysicalEntityDirection columns are unknown(0), if none of them are defined. 7.2. MIB Modules Required for IMPORTS The IPFIX MIB module requires the modules SNMPv2-SMI [RFC 2578], SNMPv2-TC [RFC 2579], and SNMPv2-CONF [RFC 2580]. Further on, it imports the textual conventions InetAddressType and InetAddress from the INET ADDRESS MIB module [RFC 4001]. The IPFIX SELECTOR MIB module also requires the modules SNMPv2-SMI [RFC 2578], SNMPv2-TC [RFC 2579], and SNMPv2-CONF [RFC 2580]. 8. MIB Definitions This section contains the definitions of the IPFIX-MIB module and the IPFIX-SELECTOR-MIB module. There are different mandatory groups defined for Collector and Exporter implementations. The statistical objects are made OPTIONAL. Dietz, et al. Standards Track PAGE 18

RFC 5815 IPFIX MIB April 2010 8.1. IPFIX MIB Definition IPFIX-MIB DEFINITIONS ::= BEGIN IMPORTS MODULE-IDENTITY, OBJECT-TYPE, mib-2, Unsigned32, Counter64, Gauge32 FROM SNMPv2-SMI -- RFC 2578 TimeStamp, DateAndTime FROM SNMPv2-TC -- RFC 2579 MODULE-COMPLIANCE, OBJECT-GROUP FROM SNMPv2-CONF -- RFC 2580 InterfaceIndexOrZero FROM IF-MIB -- RFC 2863 InetAddressType, InetAddress, InetPortNumber FROM INET-ADDRESS-MIB -- RFC 4001 PhysicalIndexOrZero FROM ENTITY-MIB; -- RFC 4133 ipfixMIB MODULE-IDENTITY LAST-UPDATED "201004190000Z" -- 19 April 2010 ORGANIZATION "IETF IPFIX Working Group" CONTACT-INFO "WG charter: http://www.ietf.org/html.charters/ipfix-charter.html Mailing Lists: General Discussion: ipfix@ietf.org To Subscribe: http://www1.ietf.org/mailman/listinfo/ipfix Archive: http://www1.ietf.org/mail-archive/web/ipfix/current/index.html Editor: Thomas Dietz NEC Europe Ltd. NEC Laboratories Europe Network Research Division Kurfuersten-Anlage 36 69115 Heidelberg Germany Phone: +49 6221 4342-128 Email: Thomas.Dietz@nw.neclab.eu Dietz, et al. Standards Track PAGE 19

RFC 5815 IPFIX MIB April 2010 Atsushi Kobayashi NTT Information Sharing Platform Laboratories 3-9-11 Midori-cho Musashino-shi 180-8585 Japan Phone: +81-422-59-3978 Email: akoba@nttv6.net Benoit Claise Cisco Systems, Inc. De Kleetlaan 6a b1 Degem 1831 Belgium Phone: +32 2 704 5622 Email: bclaise@cisco.com Gerhard Muenz Technische Universitaet Muenchen Department of Informatics Chair for Network Architectures and Services (I8) Boltzmannstr. 3 85748 Garching Germany Phone: +49 89 289-18008 Email: muenz@net.in.tum.de URI: http://www.net.in.tum.de/~muenz" DESCRIPTION "The IPFIX MIB defines managed objects for IP Flow Information eXport. These objects provide information about managed nodes supporting the IPFIX protocol, for Exporters as well as for Collectors. Copyright (c) 2010 IETF Trust and the persons identified as authors of the code. All rights reserved. Redistribution and use in source and binary forms, with or without modification, is permitted pursuant to, and subject to the license terms contained in, the Simplified BSD License set forth in Section 4.c of the IETF Trust's Legal Provisions Relating to IETF Documents (http://trustee.ietf.org/license-info)." Dietz, et al. Standards Track PAGE 20

RFC 5815 IPFIX MIB April 2010 -- Revision history REVISION "201004190000Z" -- 19 April 2010 DESCRIPTION "Initial version, published as RFC 5815." ::= { mib-2 193 } --****************************************************************** -- Top Level Structure of the MIB --****************************************************************** ipfixObjects OBJECT IDENTIFIER ::= { ipfixMIB 1 } ipfixConformance OBJECT IDENTIFIER ::= { ipfixMIB 2 } ipfixMainObjects OBJECT IDENTIFIER ::= { ipfixObjects 1 } ipfixStatistics OBJECT IDENTIFIER ::= { ipfixObjects 2 } --================================================================== -- 1.1: Objects used by all IPFIX implementations --================================================================== -------------------------------------------------------------------- -- 1.1.1: Transport Session Table -------------------------------------------------------------------- ipfixTransportSessionTable OBJECT-TYPE SYNTAX SEQUENCE OF IpfixTransportSessionEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table lists the currently established Transport Sessions between an Exporting Process and a Collecting Process." ::= { ipfixMainObjects 1 } ipfixTransportSessionEntry OBJECT-TYPE SYNTAX IpfixTransportSessionEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Defines an entry in the ipfixTransportSessionTable." INDEX { ipfixTransportSessionIndex } ::= { ipfixTransportSessionTable 1 } Dietz, et al. Standards Track PAGE 21

RFC 5815 IPFIX MIB April 2010 IpfixTransportSessionEntry ::= SEQUENCE { ipfixTransportSessionIndex Unsigned32, ipfixTransportSessionProtocol Unsigned32, ipfixTransportSessionSourceAddressType InetAddressType, ipfixTransportSessionSourceAddress InetAddress, ipfixTransportSessionDestinationAddressType InetAddressType, ipfixTransportSessionDestinationAddress InetAddress, ipfixTransportSessionSourcePort InetPortNumber, ipfixTransportSessionDestinationPort InetPortNumber, ipfixTransportSessionSctpAssocId Unsigned32, ipfixTransportSessionDeviceMode INTEGER, ipfixTransportSessionTemplateRefreshTimeout Unsigned32, ipfixTransportSessionOptionsTemplateRefreshTimeout Unsigned32, ipfixTransportSessionTemplateRefreshPacket Unsigned32, ipfixTransportSessionOptionsTemplateRefreshPacket Unsigned32, ipfixTransportSessionIpfixVersion Unsigned32, ipfixTransportSessionStatus INTEGER } ipfixTransportSessionIndex OBJECT-TYPE SYNTAX Unsigned32 (1..4294967295) MAX-ACCESS not-accessible STATUS current DESCRIPTION "Locally arbitrary, but unique identifier of an entry in the ipfixTransportSessionTable. The value is expected to remain constant from a re-initialization of the entity's network management agent to the next re-initialization." ::= { ipfixTransportSessionEntry 1 } ipfixTransportSessionProtocol OBJECT-TYPE SYNTAX Unsigned32 (1..255) MAX-ACCESS read-only STATUS current DESCRIPTION "The transport protocol used for receiving or transmitting IPFIX Messages. Protocol numbers are assigned by IANA. A current list of all assignments is available from <http://www.iana.org/>." REFERENCE "RFC 5101, Specification of the IP Flow Information Export (IPFIX) Protocol for the Exchange of IP Traffic Flow Information, Section 10." ::= { ipfixTransportSessionEntry 2 } Dietz, et al. Standards Track PAGE 22

RFC 5815 IPFIX MIB April 2010 ipfixTransportSessionSourceAddressType OBJECT-TYPE SYNTAX InetAddressType MAX-ACCESS read-only STATUS current DESCRIPTION "The type of address used for the source address, as specified in RFC 4001. This object is used with protocols (specified in ipfixTransportSessionProtocol) like TCP (6) and UDP (17) that have the notion of addresses. SCTP (132) should use the ipfixTransportSessionSctpAssocId instead. If SCTP (132) or any other protocol without the notion of addresses is used, the object MUST be set to unknown(0)." ::= { ipfixTransportSessionEntry 3 } ipfixTransportSessionSourceAddress OBJECT-TYPE SYNTAX InetAddress MAX-ACCESS read-only STATUS current DESCRIPTION "The source address of the Exporter of the IPFIX Transport Session. This value is interpreted according to the value of ipfixTransportSessionAddressType as specified in RFC 4001. This object is used with protocols (specified in ipfixTransportSessionProtocol) like TCP (6) and UDP (17) that have the notion of addresses. SCTP (132) should use the ipfixTransportSessionSctpAssocId instead. If SCTP (132) or any other protocol without the notion of addresses is used, the object MUST be set to a zero-length string." ::= { ipfixTransportSessionEntry 4 } ipfixTransportSessionDestinationAddressType OBJECT-TYPE SYNTAX InetAddressType MAX-ACCESS read-only STATUS current DESCRIPTION "The type of address used for the destination address, as specified in RFC 4001. This object is used with protocols (specified in ipfixTransportSessionProtocol) like TCP (6) and UDP (17) that have the notion of addresses. SCTP (132) should use the ipfixTransportSessionSctpAssocId instead. If SCTP (132) or any other protocol without the notion of addresses is used, the object MUST be set to unknown(0)." ::= { ipfixTransportSessionEntry 5 } ipfixTransportSessionDestinationAddress OBJECT-TYPE SYNTAX InetAddress MAX-ACCESS read-only STATUS current Dietz, et al. Standards Track PAGE 23

RFC 5815 IPFIX MIB April 2010 DESCRIPTION "The destination address of the Collector of the IPFIX Transport Session. This value is interpreted according to the value of ipfixTransportSessionAddressType, as specified in RFC 4001. This object is used with protocols (specified in ipfixTransportSessionProtocol) like TCP (6) and UDP (17) that have the notion of addresses. SCTP (132) should use the ipfixTransportSessionSctpAssocId instead. If SCTP (132) or any other protocol without the notion of addresses is used, the object MUST be set to a zero-length string" ::= { ipfixTransportSessionEntry 6 } ipfixTransportSessionSourcePort OBJECT-TYPE SYNTAX InetPortNumber MAX-ACCESS read-only STATUS current DESCRIPTION "The transport protocol port number of the Exporter. This object is used with protocols (specified in ipfixTransportSessionProtocol) like TCP (6) and UDP (17) that have the notion of ports. SCTP (132) should copy the value of sctpAssocLocalPort if the Transport Session is in collecting mode or sctpAssocRemPort if the Transport Session is in exporting mode. The association is referenced by the ipfixTransportSessionSctpAssocId. If any other protocol without the notion of ports is used, the object MUST be set to zero." ::= { ipfixTransportSessionEntry 7 } ipfixTransportSessionDestinationPort OBJECT-TYPE SYNTAX InetPortNumber MAX-ACCESS read-only STATUS current DESCRIPTION "The transport protocol port number of the Collector. The default value is 4739 for all currently defined transport protocol types. This object is used with protocols (specified in ipfixTransportSessionProtocol) like TCP (6) and UDP (17) that have the notion of ports. SCTP (132) should copy the value of sctpAssocRemPort if the Transport Session is in collecting mode or sctpAssocLocalPort if the Transport Session is in exporting mode. The association is referenced by the ipfixTransportSessionSctpAssocId. If any other protocol without the notion of ports is used, the object MUST be set to zero." Dietz, et al. Standards Track PAGE 24

RFC 5815 IPFIX MIB April 2010 ::= { ipfixTransportSessionEntry 8 } ipfixTransportSessionSctpAssocId OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The association id used for the SCTP session between the Exporter and the Collector of the IPFIX Transport Session. It is equal to the sctpAssocId entry in the sctpAssocTable defined in the SCTP MIB. This object is only valid if ipfixTransportSessionProtocol has the value 132 (SCTP). In all other cases, the value MUST be zero." REFERENCE "RFC 3873, Stream Control Transmission Protocol (SCTP) Management Information Base (MIB)." ::= { ipfixTransportSessionEntry 9 } ipfixTransportSessionDeviceMode OBJECT-TYPE SYNTAX INTEGER { exporting(1), collecting(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "The mode of operation of the device for the given Transport Session. This object can have the following values: exporting(1) This value MUST be used if the Transport Session is used for exporting Records to other IPFIX Devices, i.e., this device acts as Exporter. collecting(2) This value MUST be used if the Transport Session is used for collecting Records from other IPFIX Devices, i.e., this device acts as Collector." ::= { ipfixTransportSessionEntry 10 } ipfixTransportSessionTemplateRefreshTimeout OBJECT-TYPE SYNTAX Unsigned32 UNITS "seconds" MAX-ACCESS read-only STATUS current Dietz, et al. Standards Track PAGE 25

RFC 5815 IPFIX MIB April 2010 DESCRIPTION "On Exporters, this object contains the time in seconds after which IPFIX Templates are resent by the Exporter. On Collectors, this object contains the lifetime in seconds after which a Template becomes invalid when it is not received again within this lifetime. This object is only valid if ipfixTransportSessionProtocol has the value 17 (UDP). In all other cases, the value MUST be zero." REFERENCE "RFC 5101, Specification of the IP Flow Information Export (IPFIX) Protocol for the Exchange of IP Traffic Flow Information, Sections 10.3.6 and 10.3.7." ::= { ipfixTransportSessionEntry 11 } ipfixTransportSessionOptionsTemplateRefreshTimeout OBJECT-TYPE SYNTAX Unsigned32 UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "On Exporters, this object contains the time in seconds after which IPFIX Options Templates are resent by the Exporter. On Collectors, this object contains the lifetime in seconds after which an Options Template becomes invalid when it is not received again within this lifetime. This object is only valid if ipfixTransportSessionProtocol has the value 17 (UDP). In all other cases the value MUST be zero." REFERENCE "RFC 5101, Specification of the IP Flow Information Export (IPFIX) Protocol for the Exchange of IP Traffic Flow Information, Sections 10.3.6 and 10.3.7." ::= { ipfixTransportSessionEntry 12 } ipfixTransportSessionTemplateRefreshPacket OBJECT-TYPE SYNTAX Unsigned32 UNITS "packets" MAX-ACCESS read-only STATUS current Dietz, et al. Standards Track PAGE 26

RFC 5815 IPFIX MIB April 2010 DESCRIPTION "On Exporters, this object contains the number of exported IPFIX Messages after which IPFIX Templates are resent by the Exporter. On Collectors, this object contains the lifetime in number of exported IPFIX Messages after which a Template becomes invalid when it is not received again within this lifetime. This object is only valid if ipfixTransportSessionProtocol has the value 17 (UDP). In all other cases the value MUST be zero." REFERENCE "RFC 5101, Specification of the IP Flow Information Export (IPFIX) Protocol for the Exchange of IP Traffic Flow Information, Sections 10.3.6 and 10.3.7." ::= { ipfixTransportSessionEntry 13 } ipfixTransportSessionOptionsTemplateRefreshPacket OBJECT-TYPE SYNTAX Unsigned32 UNITS "packets" MAX-ACCESS read-only STATUS current DESCRIPTION "On Exporters, this object contains the number of exported IPFIX Messages after which IPFIX Options Templates are resent by the Exporter. On Collectors, this object contains the lifetime in number of exported IPFIX Messages after which an Options Template becomes invalid when it is not received again within this lifetime. This object is only valid if ipfixTransportSessionProtocol has the value 17 (UDP). In all other cases the value MUST be zero." REFERENCE "RFC 5101, Specification of the IP Flow Information Export (IPFIX) Protocol for the Exchange of IP Traffic Flow Information, Sections 10.3.6 and 10.3.7." ::= { ipfixTransportSessionEntry 14 } ipfixTransportSessionIpfixVersion OBJECT-TYPE SYNTAX Unsigned32 (0..65535) MAX-ACCESS read-only STATUS current Dietz, et al. Standards Track PAGE 27

RFC 5815 IPFIX MIB April 2010 DESCRIPTION "On Exporters the object contains the version number of the IPFIX protocol that the Exporter uses to export its data in this Transport Session. On Collectors the object contains the version number of the IPFIX protocol it receives for this Transport Session. If IPFIX Messages of different IPFIX protocol versions are transmitted or received in this Transport Session, this object contains the maximum version number." REFERENCE "RFC 5101, Specification of the IP Flow Information Export (IPFIX) Protocol for the Exchange of IP Traffic Flow Information, Section 3.1." ::= { ipfixTransportSessionEntry 15 } ipfixTransportSessionStatus OBJECT-TYPE SYNTAX INTEGER { unknown(0), inactive(1), active(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "The status of a Transport Session. This object can have the following values: unknown(0) This value MUST be used if the status of the Transport Session cannot be detected by the equipment. This value should be avoided as far as possible. inactive(1) This value MUST be used for Transport Sessions that are specified in the system but are not currently active. The value can be used, e.g., for Transport Sessions that are backup (secondary) sessions in a Transport Session group. active(2) This value MUST be used for Transport Sessions that are currently active and transmitting or receiving data." ::= { ipfixTransportSessionEntry 16 } Dietz, et al. Standards Track PAGE 28

RFC 5815 IPFIX MIB April 2010 -------------------------------------------------------------------- -- 1.1.2: Template Table -------------------------------------------------------------------- ipfixTemplateTable OBJECT-TYPE SYNTAX SEQUENCE OF IpfixTemplateEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table lists the Templates and Options Templates that are transmitted by the Exporting Process or received by the Collecting Process. The table contains the Templates and Options Templates that are received or used for exporting data for a given Transport Session group and Observation Domain. Withdrawn or invalidated (Options) Template MUST be removed from this table." ::= { ipfixMainObjects 2 } ipfixTemplateEntry OBJECT-TYPE SYNTAX IpfixTemplateEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Defines an entry in the ipfixTemplateTable." INDEX { ipfixTransportSessionIndex, ipfixTemplateObservationDomainId, ipfixTemplateId } ::= { ipfixTemplateTable 1 } IpfixTemplateEntry ::= SEQUENCE { ipfixTemplateObservationDomainId Unsigned32, ipfixTemplateId Unsigned32, ipfixTemplateSetId Unsigned32, ipfixTemplateAccessTime DateAndTime } Dietz, et al. Standards Track PAGE 29

RFC 5815 IPFIX MIB April 2010 ipfixTemplateObservationDomainId OBJECT-TYPE SYNTAX Unsigned32 (0..4294967295) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The Id of the Observation Domain for which this Template is defined. This value is used when sending IPFIX Messages. The special value of 0 indicates that the Data Records exported with this (Option Template) cannot be applied to a single Observation Domain." REFERENCE "RFC 5101, Specification of the IP Flow Information Export (IPFIX) Protocol for the Exchange of IP Traffic Flow Information, Section 3.1." ::= { ipfixTemplateEntry 1 } ipfixTemplateId OBJECT-TYPE SYNTAX Unsigned32 (256..65535) MAX-ACCESS not-accessible STATUS current DESCRIPTION "This number indicates the Template Id in the IPFIX Message. Values from 0 to 255 are not allowed for Template Ids." REFERENCE "RFC 5101, Specification of the IP Flow Information Export (IPFIX) Protocol for the Exchange of IP Traffic Flow Information, Section 3.4.1." ::= { ipfixTemplateEntry 2 } ipfixTemplateSetId OBJECT-TYPE SYNTAX Unsigned32 (1..65535) MAX-ACCESS read-only STATUS current DESCRIPTION "This number indicates the Set Id of the Template. This object allows to easily retrieve the Template type. Currently, there are two values defined. The value 2 is used for Sets containing Template definitions. The value 3 is used for Sets containing Options Template definitions." REFERENCE "RFC 5101, Specification of the IP Flow Information Export (IPFIX) Protocol for the Exchange of IP Traffic Flow Information, Section 3.3.2." ::= { ipfixTemplateEntry 3 } Dietz, et al. Standards Track PAGE 30

RFC 5815 IPFIX MIB April 2010 ipfixTemplateAccessTime OBJECT-TYPE SYNTAX DateAndTime MAX-ACCESS read-only STATUS current DESCRIPTION "If the Transport Session is in exporting mode (ipfixTransportSessionDeviceMode) the time when this (Options) Template was last sent to the Collector(s). In the specific case of UDP as transport protocol, this time is used to know when a retransmission of the (Options) Template is needed. If it is in collecting mode, this object contains the time when this (Options) Template was last received from the Exporter. In the specific case of UDP as transport protocol, this time is used to know when this (Options) Template times out and thus is no longer valid." ::= { ipfixTemplateEntry 4 } -------------------------------------------------------------------- -- 1.1.3: Exported Template Definition Table -------------------------------------------------------------------- ipfixTemplateDefinitionTable OBJECT-TYPE SYNTAX SEQUENCE OF IpfixTemplateDefinitionEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "On Exporters, this table lists the (Options) Template fields of which a (Options) Template is defined. It defines the (Options) Template given in the ipfixTemplateId specified in the ipfixTemplateTable. On Collectors, this table lists the (Options) Template fields of which a (Options) Template is defined. It defines the (Options) Template given in the ipfixTemplateId specified in the ipfixTemplateTable." ::= { ipfixMainObjects 3 } ipfixTemplateDefinitionEntry OBJECT-TYPE SYNTAX IpfixTemplateDefinitionEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Defines an entry in the ipfixTemplateDefinitionTable." Dietz, et al. Standards Track PAGE 31

RFC 5815 IPFIX MIB April 2010 INDEX { ipfixTransportSessionIndex, ipfixTemplateObservationDomainId, ipfixTemplateId, ipfixTemplateDefinitionIndex } ::= { ipfixTemplateDefinitionTable 1 } IpfixTemplateDefinitionEntry ::= SEQUENCE { ipfixTemplateDefinitionIndex Unsigned32, ipfixTemplateDefinitionIeId Unsigned32, ipfixTemplateDefinitionIeLength Unsigned32, ipfixTemplateDefinitionEnterpriseNumber Unsigned32, ipfixTemplateDefinitionFlags BITS } ipfixTemplateDefinitionIndex OBJECT-TYPE SYNTAX Unsigned32 (1..65535) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The ipfixTemplateDefinitionIndex specifies the order in which the Information Elements are used in the (Options) Template Record. Since a Template Record can contain a maximum of 65535 Information Elements, the index is limited to this value." REFERENCE "RFC 5101, Specification of the IP Flow Information Export (IPFIX) Protocol for the Exchange of IP Traffic Flow Information, Sections 3.4.1 and 3.4.2." ::= { ipfixTemplateDefinitionEntry 1 } ipfixTemplateDefinitionIeId OBJECT-TYPE SYNTAX Unsigned32 (1..65535) MAX-ACCESS read-only STATUS current DESCRIPTION "This indicates the Information Element Id at position ipfixTemplateDefinitionIndex in the (Options) Template ipfixTemplateId. This implicitly specifies the data type of the Information Element. The elements are registered at IANA. A current list of assignments can be found at <http://www.iana.org/assignments/ipfix>" Dietz, et al. Standards Track PAGE 32

RFC 5815 IPFIX MIB April 2010 REFERENCE "RFC 5101, Specification of the IP Flow Information Export (IPFIX) Protocol for the Exchange of IP Traffic Flow Information, Section 3.2. RFC 5102, Information Model for IP Flow Information Export." ::= { ipfixTemplateDefinitionEntry 2 } ipfixTemplateDefinitionIeLength OBJECT-TYPE SYNTAX Unsigned32 (0..65535) MAX-ACCESS read-only STATUS current DESCRIPTION "This indicates the length of the Information Element Id at position ipfixTemplateDefinitionIndex in the (Options) Template ipfixTemplateId." REFERENCE "RFC 5101, Specification of the IP Flow Information Export (IPFIX) Protocol for the Exchange of IP Traffic Flow Information, Section 3.2. RFC 5102, Information Model for IP Flow Information Export." ::= { ipfixTemplateDefinitionEntry 3 } ipfixTemplateDefinitionEnterpriseNumber OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "IANA enterprise number of the authority defining the Information Element identifier in this Template Record. Enterprise numbers are assigned by IANA. A current list of all assignments is available from <http://www.iana.org/assignments/enterprise-numbers/>. This object must be zero(0) for all standard Information Elements registered with IANA. A current list of these elements is available from <http://www.iana.org/assignments/ipfix/ipfix.xhtml>." REFERENCE "RFC 5101, Specification of the IP Flow Information Export (IPFIX) Protocol for the Exchange of IP Traffic Flow Information, Section 3.2. RFC 5102, Information Model for IP Flow Information Export." ::= { ipfixTemplateDefinitionEntry 4 } Dietz, et al. Standards Track PAGE 33

RFC 5815 IPFIX MIB April 2010 ipfixTemplateDefinitionFlags OBJECT-TYPE SYNTAX BITS { scope(0), flowKey(1) } MAX-ACCESS read-only STATUS current DESCRIPTION "This bitmask indicates special attributes for the Information Element: scope(0) This Information Element is used for scope. flowKey(1) This Information Element is a Flow Key. Thus, we get the following values for an Information Element: If neither bit scope(0) nor bit flowKey(1) are set The Information Element is neither used for scoping nor as Flow Key. If only bit scope(0) is set The Information Element is used for scoping. If only bit flowKey(1) is set The Information Element is used as Flow Key. Both bit scope(0) and flowKey(1) MUST NOT be set at the same time. This combination is not allowed." REFERENCE "RFC 5101, Specification of the IP Flow Information Export (IPFIX) Protocol for the Exchange of IP Traffic Flow Information, Sections 2 and 3.4.2.1. RFC 5102, Information Model for IP Flow Information Export." ::= { ipfixTemplateDefinitionEntry 5 } -------------------------------------------------------------------- -- 1.1.4: Export Table -------------------------------------------------------------------- ipfixExportTable OBJECT-TYPE SYNTAX SEQUENCE OF IpfixExportEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table lists all exports of an IPFIX device. Dietz, et al. Standards Track PAGE 34

RFC 5815 IPFIX MIB April 2010 On Exporters, this table contains all exports grouped by Transport Session, Observation Domain Id, Template Id, and Metering Process represented by the ipfixMeteringProcessCacheId. Thanks to the ipfixExportIndex, the exports can group one or more Transport Sessions to achieve a special functionality like failover management, load-balancing, etc. The entries with the same ipfixExportIndex, ipfixObservationDomainId, and ipfixMeteringProcessCacheId define a Transport Session group. If the Exporter does not use Transport Session grouping, then each ipfixExportIndex contains a single ipfixMeteringProcessCacheId and thus a singe Transport Session, and this session MUST have the member type primary(1). Transport Sessions referenced in this table MUST have the ipfixTransportSessionDeviceMode exporting(1). On Collectors, this table is not needed." ::= { ipfixMainObjects 4 } ipfixExportEntry OBJECT-TYPE SYNTAX IpfixExportEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Defines an entry in the ipfixExportTable." INDEX { ipfixExportIndex, ipfixMeteringProcessCacheId, ipfixTransportSessionIndex } ::= { ipfixExportTable 1 } IpfixExportEntry ::= SEQUENCE { ipfixExportIndex Unsigned32, ipfixExportMemberType INTEGER } ipfixExportIndex OBJECT-TYPE SYNTAX Unsigned32 (1..4294967295) MAX-ACCESS not-accessible STATUS current DESCRIPTION "Locally arbitrary, but unique identifier of an entry in the ipfixExportTable. The value is expected to remain constant from a re-initialization of the entity's network management agent to the next re-initialization. Dietz, et al. Standards Track PAGE 35

RFC 5815 IPFIX MIB April 2010 A common ipfixExportIndex between two entries from this table expresses that there is a relationship between the Transport Sessions in ipfixTransportSessionIndex. The type of relationship is expressed by the value of ipfixExportMemberType." ::= { ipfixExportEntry 1 } ipfixExportMemberType OBJECT-TYPE SYNTAX INTEGER { unknown(0), primary(1), secondary(2), parallel(3), loadBalancing(4) } MAX-ACCESS read-only STATUS current DESCRIPTION "The type of a member Transport Session in a Transport Session group (identified by the value of ipfixExportIndex, ipfixObservationDomainId, and ipfixMeteringProcessCacheId). The following values are valid: unknown(0) This value MUST be used if the status of the group membership cannot be detected by the equipment. This value should be avoided as far as possible. primary(1) This value is used for a group member that is used as the primary target of an Exporter. Other group members (with the same ipfixExportIndex and ipfixMeteringProcessCacheId) MUST NOT have the value primary(1) but MUST have the value secondary(2). This value MUST also be specified if the Exporter does not support Transport Session grouping. In this case, the group contains only one Transport Session. secondary(2) This value is used for a group member that is used as a secondary target of an Exporter. The Exporter will use one of the targets specified as secondary(2) within the same Transport Session group when the primary target is not reachable. Dietz, et al. Standards Track PAGE 36

RFC 5815 IPFIX MIB April 2010 parallel(3) This value is used for a group member that is used for duplicate exporting, i.e., all group members identified by the ipfixExportIndex are exporting the same Records in parallel. This implies that all group members MUST have the same membertype parallel(3). loadBalancing(4) This value is used for a group member that is used as one target for load-balancing. This means that a Record is sent to one of the group members in this group identified by ipfixExportIndex. This implies that all group members MUST have the same membertype loadBalancing(4)." ::= { ipfixExportEntry 2 } -------------------------------------------------------------------- -- 1.1.5: Metering Process Table -------------------------------------------------------------------- ipfixMeteringProcessTable OBJECT-TYPE SYNTAX SEQUENCE OF IpfixMeteringProcessEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table lists so-called caches used at the Metering Process to store the metering data of Flows observed at the Observation Points given in the ipfixObservationPointGroupReference. The table lists the timeouts that specify when the cached metering data is expired. On Collectors, the table is not needed." ::= { ipfixMainObjects 5 } ipfixMeteringProcessEntry OBJECT-TYPE SYNTAX IpfixMeteringProcessEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Defines an entry in the ipfixMeteringProcessTable." INDEX { ipfixMeteringProcessCacheId } ::= { ipfixMeteringProcessTable 1 } Dietz, et al. Standards Track PAGE 37

RFC 5815 IPFIX MIB April 2010 IpfixMeteringProcessEntry ::= SEQUENCE { ipfixMeteringProcessCacheId Unsigned32, ipfixMeteringProcessObservationPointGroupRef Unsigned32, ipfixMeteringProcessCacheActiveTimeout Unsigned32, ipfixMeteringProcessCacheInactiveTimeout Unsigned32 } ipfixMeteringProcessCacheId OBJECT-TYPE SYNTAX Unsigned32 (1..4294967295) MAX-ACCESS not-accessible STATUS current DESCRIPTION "Locally arbitrary, but unique identifier of an entry in the ipfixMeterinProcessTable. The value is expected to remain constant from a re-initialization of the entity's network management agent to the next re-initialization." ::= { ipfixMeteringProcessEntry 1 } ipfixMeteringProcessObservationPointGroupRef OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current DESCRIPTION "The Observation Point Group Id that links this table entry to the ipfixObservationPointTable. The matching ipfixObservationPointGroupId in that table gives the Observation Points used in that cache. If the Observation Points are unknown, the ipfixMeteringProcessObservationPointGroupRef MUST be zero." ::= { ipfixMeteringProcessEntry 2 } ipfixMeteringProcessCacheActiveTimeout OBJECT-TYPE SYNTAX Unsigned32 UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "On the Exporter, this object contains the time after which a Flow is expired (and a Data Record for the template is sent) even though packets matching this Flow are still received by the Metering Process. If this value is 0, the Flow is not prematurely expired." REFERENCE "RFC 5470, Architecture for IP Flow Information Export, Section 5.1.1, item 3." ::= { ipfixMeteringProcessEntry 3 } Dietz, et al. Standards Track PAGE 38

RFC 5815 IPFIX MIB April 2010 ipfixMeteringProcessCacheInactiveTimeout OBJECT-TYPE SYNTAX Unsigned32 UNITS "seconds" MAX-ACCESS read-only STATUS current DESCRIPTION "On the Exporter. this object contains the time after which a Flow is expired (and a Data Record for the template is sent) when no packets matching this Flow are received by the Metering Process for the given number of seconds. If this value is zero, the Flow is expired immediately, i.e., a Data Record is sent for every packet received by the Metering Process." REFERENCE "RFC 5470, Architecture for IP Flow Information Export, Section 5.1.1, item 1" ::= { ipfixMeteringProcessEntry 4 } -------------------------------------------------------------------- -- 1.1.6: Observation Point Table -------------------------------------------------------------------- ipfixObservationPointTable OBJECT-TYPE SYNTAX SEQUENCE OF IpfixObservationPointEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table lists the Observation Points used within an Exporter by the Metering Process. The index ipfixObservationPointGroupId groups Observation Points and is referenced in the Metering Process table. On Collectors this table is not needed." ::= { ipfixMainObjects 6 } ipfixObservationPointEntry OBJECT-TYPE SYNTAX IpfixObservationPointEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Defines an entry in the ipfixObservationPointTable." INDEX { ipfixObservationPointGroupId, ipfixObservationPointIndex } ::= { ipfixObservationPointTable 1 } Dietz, et al. Standards Track PAGE 39

RFC 5815 IPFIX MIB April 2010 IpfixObservationPointEntry ::= SEQUENCE { ipfixObservationPointGroupId Unsigned32, ipfixObservationPointIndex Unsigned32, ipfixObservationPointObservationDomainId Unsigned32, ipfixObservationPointPhysicalEntity PhysicalIndexOrZero, ipfixObservationPointPhysicalInterface InterfaceIndexOrZero, ipfixObservationPointPhysicalEntityDirection INTEGER } ipfixObservationPointGroupId OBJECT-TYPE SYNTAX Unsigned32 (1..4294967295) MAX-ACCESS not-accessible STATUS current DESCRIPTION "Locally arbitrary, but unique identifier of an entry in the ipfixObservationPointTable. The value is expected to remain constant from a re-initialization of the entity's network management agent to the next re-initialization. This index represents a group of Observation Points. The special value of 0 MUST NOT be used within this table but is reserved for the usage in the ipfixMeteringProcessTable. An index of 0 for the ipfixObservationPointGroupReference index in that table indicates that an Observation Point is unknown or unspecified for a Metering Process cache." ::= { ipfixObservationPointEntry 1 } ipfixObservationPointIndex OBJECT-TYPE SYNTAX Unsigned32 (1..4294967295) MAX-ACCESS not-accessible STATUS current DESCRIPTION "Locally arbitrary, but unique identifier of an entry in the ipfixObservationPointTable. The value is expected to remain constant from a re-initialization of the entity's network management agent to the next re-initialization. This index represents a single Observation Point in an Observation Point group." ::= { ipfixObservationPointEntry 2 } ipfixObservationPointObservationDomainId OBJECT-TYPE SYNTAX Unsigned32 MAX-ACCESS read-only STATUS current Dietz, et al. Standards Track PAGE 40

RFC 5815 IPFIX MIB April 2010 DESCRIPTION "The Id of the Observation Domain in which this Observation Point is included. The special value of 0 indicates that the Observation Points within this group cannot be applied to a single Observation Domain." REFERENCE "RFC 5101, Specification of the IP Flow Information Export (IPFIX) Protocol for the Exchange of IP Traffic Flow Information, Section 3.1." ::= { ipfixObservationPointEntry 3 } ipfixObservationPointPhysicalEntity OBJECT-TYPE SYNTAX PhysicalIndexOrZero MAX-ACCESS read-only STATUS current DESCRIPTION "This object contains the index of a physical entity in the ENTITY MIB. This physical entity is the given Observation Point. If such a physical entity cannot be specified or is not known, then the object is zero." ::= { ipfixObservationPointEntry 4 } ipfixObservationPointPhysicalInterface OBJECT-TYPE SYNTAX InterfaceIndexOrZero MAX-ACCESS read-only STATUS current DESCRIPTION "This object contains the index of a physical interface in the IF MIB. This physical interface is the given Observation Point. If such a physical interface cannot be specified or is not known, then the object is zero. This object MAY be used stand alone or in addition to ipfixObservationPointPhysicalEntity. If ipfixObservationPointPhysicalEntity is not zero, this object MUST point to the same physical interface that is referenced in ipfixObservationPointPhysicalEntity. Otherwise, it may reference any interface in the IF MIB." ::= { ipfixObservationPointEntry 5 } Dietz, et al. Standards Track PAGE 41

RFC 5815 IPFIX MIB April 2010 ipfixObservationPointPhysicalEntityDirection OBJECT-TYPE SYNTAX INTEGER { unknown(0), ingress(1), egress(2), both(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "The direction of the Flow that is monitored on the given physical entity. The following values are valid: unknown(0) This value MUST be used if a direction is not known for the given physical entity. ingress(1) This value is used for monitoring incoming Flows on the given physical entity. egress(2) This value is used for monitoring outgoing Flows on the given physical entity. both(3) This value is used for monitoring incoming and outgoing Flows on the given physical entity." ::= { ipfixObservationPointEntry 6 } -------------------------------------------------------------------- -- 1.1.7: Selection Process Table -------------------------------------------------------------------- ipfixSelectionProcessTable OBJECT-TYPE SYNTAX SEQUENCE OF IpfixSelectionProcessEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains Selector Functions connected to a Metering Process by the index ipfixMeteringProcessCacheId. The Selector Functions are grouped into Selection Processes by the ipfixSelectionProcessIndex. The Selector Functions are applied within the Selection Process to the packets observed for the given Metering Process cache in increasing order implied by the ipfixSelectionProcessSelectorIndex. This means Selector Functions with lower ipfixSelectionProcessSelectorIndex are applied first. The remaining packets are accounted for in Flow Records. Dietz, et al. Standards Track PAGE 42

RFC 5815 IPFIX MIB April 2010 Since IPFIX does not define any Selector Function (except selecting every packet), this is a placeholder for future use and a guideline for implementing enterprise-specific Selector Function objects. The following object tree should visualize how the Selector Function objects should be implemented: ipfixSelectorFunctions | +- ipfixFuncSelectAll | | | +- ipfixFuncSelectAllAvail (is the function available?) | +- ipfixFuncF2 | | | +- ipfixFuncF2Avail (is the function F2 available?) | | | +- ipfixFuncF2Parameters (a table with parameters) ... | +- ipfixFunFn... If a Selector Function takes parameters, the MIB should contain a table with an entry for each set of parameters used at the Exporter." ::= { ipfixMainObjects 7 } ipfixSelectionProcessEntry OBJECT-TYPE SYNTAX IpfixSelectionProcessEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Defines an entry in the ipfixSelectionProcessTable." INDEX { ipfixMeteringProcessCacheId, ipfixSelectionProcessIndex, ipfixSelectionProcessSelectorIndex } ::= { ipfixSelectionProcessTable 1 } IpfixSelectionProcessEntry ::= SEQUENCE { ipfixSelectionProcessIndex Unsigned32, ipfixSelectionProcessSelectorIndex Unsigned32, ipfixSelectionProcessSelectorFunction OBJECT IDENTIFIER } Dietz, et al. Standards Track PAGE 43

RFC 5815 IPFIX MIB April 2010 ipfixSelectionProcessIndex OBJECT-TYPE SYNTAX Unsigned32 (1..4294967295) MAX-ACCESS not-accessible STATUS current DESCRIPTION "Locally arbitrary, but unique identifier of an entry in the ipfixSelectionProcessTable. The value is expected to remain constant from a re-initialization of the entity's network management agent to the next re-initialization." ::= { ipfixSelectionProcessEntry 1 } ipfixSelectionProcessSelectorIndex OBJECT-TYPE SYNTAX Unsigned32 (1..4294967295) MAX-ACCESS not-accessible STATUS current DESCRIPTION "Index specifying the order in which the referenced ipfixSelctionProcessSelectorFunctions are applied to the observed packet stream within the given Selection Process (identified by the ipfixSelectionProcessIndex). The Selector Functions are applied in increasing order, i.e., Selector Functions with lower index are applied first." ::= { ipfixSelectionProcessEntry 2 } ipfixSelectionProcessSelectorFunction OBJECT-TYPE SYNTAX OBJECT IDENTIFIER MAX-ACCESS read-only STATUS current DESCRIPTION "The pointer to the Selector Function used at position ipfixSelectionProcessSelectorIndex in the list of Selector Functions for the Metering Process cache specified by the index ipfixMeteringProcessCacheId and for the given Selection Process (identified by the ipfixSelectionProcessIndex). This usually points to an object in the IPFIX SELECTOR MIB. If the Selector Function does not take parameters, then it MUST point to the root of the function subtree. If the function takes parameters, then it MUST point to an entry in the parameter table of the Selector Function." ::= { ipfixSelectionProcessEntry 3 } Dietz, et al. Standards Track PAGE 44

RFC 5815 IPFIX MIB April 2010 -------------------------------------------------------------------- -- 1.2.1: Transport Session Statistics Table -------------------------------------------------------------------- ipfixTransportSessionStatsTable OBJECT-TYPE SYNTAX SEQUENCE OF IpfixTransportSessionStatsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table lists Transport Sessions statistics between Exporting Processes and Collecting Processes." ::= { ipfixStatistics 1 } ipfixTransportSessionStatsEntry OBJECT-TYPE SYNTAX IpfixTransportSessionStatsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Defines an entry in the ipfixTransportSessionStatsTable." AUGMENTS { ipfixTransportSessionEntry } ::= { ipfixTransportSessionStatsTable 1 } IpfixTransportSessionStatsEntry ::= SEQUENCE { ipfixTransportSessionRate Gauge32, ipfixTransportSessionPackets Counter64, ipfixTransportSessionBytes Counter64, ipfixTransportSessionMessages Counter64, ipfixTransportSessionDiscardedMessages Counter64, ipfixTransportSessionRecords Counter64, ipfixTransportSessionTemplates Counter64, ipfixTransportSessionOptionsTemplates Counter64, ipfixTransportSessionDiscontinuityTime TimeStamp } ipfixTransportSessionRate OBJECT-TYPE SYNTAX Gauge32 UNITS "bytes/second" MAX-ACCESS read-only STATUS current DESCRIPTION "The number of bytes per second received by the Collector or transmitted by the Exporter. A value of zero (0) means that no packets were sent or received, yet. This object is updated every second." ::= { ipfixTransportSessionStatsEntry 1 } Dietz, et al. Standards Track PAGE 45

RFC 5815 IPFIX MIB April 2010 ipfixTransportSessionPackets OBJECT-TYPE SYNTAX Counter64 UNITS "packets" MAX-ACCESS read-only STATUS current DESCRIPTION "The number of packets received by the Collector or transmitted by the Exporter. Discontinuities in the value of this counter can occur at re-initialization of the management system and at other times as indicated by the value of ipfixTransportSessionDiscontinuityTime." ::= { ipfixTransportSessionStatsEntry 2 } ipfixTransportSessionBytes OBJECT-TYPE SYNTAX Counter64 UNITS "bytes" MAX-ACCESS read-only STATUS current DESCRIPTION "The number of bytes received by the Collector or transmitted by the Exporter. Discontinuities in the value of this counter can occur at re-initialization of the management system and at other times as indicated by the value of ipfixTransportSessionDiscontinuityTime." ::= { ipfixTransportSessionStatsEntry 3 } ipfixTransportSessionMessages OBJECT-TYPE SYNTAX Counter64 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of IPFIX Messages received by the Collector or transmitted by the Exporter. Discontinuities in the value of this counter can occur at re-initialization of the management system and at other times as indicated by the value of ipfixTransportSessionDiscontinuityTime." ::= { ipfixTransportSessionStatsEntry 4 } ipfixTransportSessionDiscardedMessages OBJECT-TYPE SYNTAX Counter64 MAX-ACCESS read-only STATUS current Dietz, et al. Standards Track PAGE 46

RFC 5815 IPFIX MIB April 2010 DESCRIPTION "The number of received IPFIX Message that are malformed, cannot be decoded, are received in the wrong order, or are missing according to the sequence number. If used at the Exporter, the number of messages that could not be sent due to, e.g., internal buffer overflows, network congestion, or routing issues. Discontinuities in the value of this counter can occur at re-initialization of the management system and at other times as indicated by the value of ipfixTransportSessionDiscontinuityTime." ::= { ipfixTransportSessionStatsEntry 5 } ipfixTransportSessionRecords OBJECT-TYPE SYNTAX Counter64 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of Data Records received by the Collector or transmitted by the Exporter. Discontinuities in the value of this counter can occur at re-initialization of the management system and at other times as indicated by the value of ipfixTransportSessionDiscontinuityTime." ::= { ipfixTransportSessionStatsEntry 6 } ipfixTransportSessionTemplates OBJECT-TYPE SYNTAX Counter64 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of Templates received or transmitted. Discontinuities in the value of this counter can occur at re-initialization of the management system and at other times as indicated by the value of ipfixTransportSessionDiscontinuityTime." ::= { ipfixTransportSessionStatsEntry 7 } ipfixTransportSessionOptionsTemplates OBJECT-TYPE SYNTAX Counter64 MAX-ACCESS read-only STATUS current Dietz, et al. Standards Track PAGE 47

RFC 5815 IPFIX MIB April 2010 DESCRIPTION "The number of Options Templates received or transmitted. Discontinuities in the value of this counter can occur at re-initialization of the management system and at other times as indicated by the value of ipfixTransportSessionDiscontinuityTime." ::= { ipfixTransportSessionStatsEntry 8 } ipfixTransportSessionDiscontinuityTime OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The value of sysUpTime at the most recent occasion at which one or more of the Transport Session counters suffered a discontinuity. A value of zero indicates no such discontinuity has occurred since the last re-initialization of the local management subsystem." ::= { ipfixTransportSessionStatsEntry 9 } -------------------------------------------------------------------- -- 1.2.2: Template Statistics Table -------------------------------------------------------------------- ipfixTemplateStatsTable OBJECT-TYPE SYNTAX SEQUENCE OF IpfixTemplateStatsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table lists statistics objects per Template." ::= { ipfixStatistics 2 } ipfixTemplateStatsEntry OBJECT-TYPE SYNTAX IpfixTemplateStatsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Defines an entry in the ipfixTemplateStatsTable." AUGMENTS { ipfixTemplateEntry } ::= { ipfixTemplateStatsTable 1 } IpfixTemplateStatsEntry ::= SEQUENCE { ipfixTemplateDataRecords Counter64, ipfixTemplateDiscontinuityTime TimeStamp } Dietz, et al. Standards Track PAGE 48

RFC 5815 IPFIX MIB April 2010 ipfixTemplateDataRecords OBJECT-TYPE SYNTAX Counter64 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of Data Records that are transmitted or received per Template. Discontinuities in the value of this counter can occur at re-initialization of the management system, and at other times as indicated by the value of ipfixTemplateDiscontinuityTime." ::= { ipfixTemplateStatsEntry 1 } ipfixTemplateDiscontinuityTime OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The value of sysUpTime at the most recent occasion at which the Template counter suffered a discontinuity. A value of zero indicates no such discontinuity has occurred since the last re-initialization of the local management subsystem." ::= { ipfixTemplateStatsEntry 2 } -------------------------------------------------------------------- -- 1.2.3: Metering Process Statistics Table -------------------------------------------------------------------- ipfixMeteringProcessStatsTable OBJECT-TYPE SYNTAX SEQUENCE OF IpfixMeteringProcessStatsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table lists statistic objects that have data per Metering Process cache. On Collectors, this table is not needed." ::= { ipfixStatistics 3 } Dietz, et al. Standards Track PAGE 49

RFC 5815 IPFIX MIB April 2010 ipfixMeteringProcessStatsEntry OBJECT-TYPE SYNTAX IpfixMeteringProcessStatsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Defines an entry in the ipfixMeteringProcessStatsTable." AUGMENTS { ipfixMeteringProcessEntry } ::= { ipfixMeteringProcessStatsTable 1 } IpfixMeteringProcessStatsEntry ::= SEQUENCE { ipfixMeteringProcessCacheActiveFlows Gauge32, ipfixMeteringProcessCacheUnusedCacheEntries Gauge32, ipfixMeteringProcessCacheDataRecords Counter64, ipfixMeteringProcessCacheDiscontinuityTime TimeStamp } ipfixMeteringProcessCacheActiveFlows OBJECT-TYPE SYNTAX Gauge32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of Flows currently active at this cache." ::= { ipfixMeteringProcessStatsEntry 1 } ipfixMeteringProcessCacheUnusedCacheEntries OBJECT-TYPE SYNTAX Gauge32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of unused cache entries." ::= { ipfixMeteringProcessStatsEntry 2 } ipfixMeteringProcessCacheDataRecords OBJECT-TYPE SYNTAX Counter64 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of Data Records generated. Discontinuities in the value of this counter can occur at re-initialization of the management system and at other times as indicated by the value of ipfixTemplateDiscontinuityTime." ::= { ipfixMeteringProcessStatsEntry 3 } Dietz, et al. Standards Track PAGE 50

RFC 5815 IPFIX MIB April 2010 ipfixMeteringProcessCacheDiscontinuityTime OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The value of sysUpTime at the most recent occasion at which the Metering Process counter suffered a discontinuity. A value of zero indicates no such discontinuity has occurred since the last re-initialization of the local management subsystem." ::= { ipfixMeteringProcessStatsEntry 4 } -------------------------------------------------------------------- -- 1.2.4: Selection Process Statistics Table -------------------------------------------------------------------- ipfixSelectionProcessStatsTable OBJECT-TYPE SYNTAX SEQUENCE OF IpfixSelectionProcessStatsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains statistics for the Selector Functions connected to Metering Process by the index ipfixMeteringProcessCacheId. The indexes MUST match an entry in the ipfixSelectionProcessTable." ::= { ipfixStatistics 4 } ipfixSelectionProcessStatsEntry OBJECT-TYPE SYNTAX IpfixSelectionProcessStatsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Defines an entry in the ipfixSelectionProcessStatsTable." AUGMENTS { ipfixSelectionProcessEntry } ::= { ipfixSelectionProcessStatsTable 1 } IpfixSelectionProcessStatsEntry ::= SEQUENCE { ipfixSelectionProcessStatsPacketsObserved Counter64, ipfixSelectionProcessStatsPacketsDropped Counter64, ipfixSelectionProcessStatsDiscontinuityTime TimeStamp } ipfixSelectionProcessStatsPacketsObserved OBJECT-TYPE SYNTAX Counter64 MAX-ACCESS read-only STATUS current Dietz, et al. Standards Track PAGE 51

RFC 5815 IPFIX MIB April 2010 DESCRIPTION "The number of packets observed at the entry point of the function. The entry point may be the Observation Point or the exit point of another Selector Function. Discontinuities in the value of this counter can occur at re-initialization of the management system and at other times as indicated by the value of ipfixSelectionProcessStatsDiscontinuityTime." ::= { ipfixSelectionProcessStatsEntry 1 } ipfixSelectionProcessStatsPacketsDropped OBJECT-TYPE SYNTAX Counter64 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of packets dropped while selecting packets. Discontinuities in the value of this counter can occur at re-initialization of the management system and at other times as indicated by the value of ipfixSelectionProcessStatsDiscontinuityTime." ::= { ipfixSelectionProcessStatsEntry 2 } ipfixSelectionProcessStatsDiscontinuityTime OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The value of sysUpTime at the most recent occasion at which one or more of the Selector counters suffered a discontinuity. A value of zero indicates no such discontinuity has occurred since the last re-initialization of the local management subsystem." ::= { ipfixSelectionProcessStatsEntry 3 } Dietz, et al. Standards Track PAGE 52

RFC 5815 IPFIX MIB April 2010 --================================================================== -- 2: Conformance Information --================================================================== ipfixCompliances OBJECT IDENTIFIER ::= { ipfixConformance 1 } ipfixGroups OBJECT IDENTIFIER ::= { ipfixConformance 2 } -------------------------------------------------------------------- -- 2.1: Compliance Statements -------------------------------------------------------------------- ipfixCollectorCompliance MODULE-COMPLIANCE STATUS current DESCRIPTION "An implementation that builds an IPFIX Collector that complies to this module MUST implement the objects defined in the mandatory group ipfixCommonGroup. The implementation of all objects in the other groups is optional and depends on the corresponding functionality implemented in the equipment. An implementation that is compliant to this MIB module is limited to use only the values TCP (6), UDP (17), and SCTP (132) in the ipfixTransportSessionProtocol object because these are the only protocol currently specified for usage within IPFIX (see RFC 5101)." MODULE -- this module MANDATORY-GROUPS { ipfixCommonGroup } GROUP ipfixCommonStatsGroup DESCRIPTION "These objects should be implemented if the statistics function is implemented in the equipment." ::= { ipfixCompliances 1 } ipfixExporterCompliance MODULE-COMPLIANCE STATUS current DESCRIPTION "An implementation that builds an IPFIX Exporter that complies to this module MUST implement the objects defined in the mandatory group ipfixCommonGroup. The implementation of all other objects depends on the implementation of the corresponding functionality in the equipment." MODULE -- this module Dietz, et al. Standards Track PAGE 53

RFC 5815 IPFIX MIB April 2010 MANDATORY-GROUPS { ipfixCommonGroup, ipfixExporterGroup } GROUP ipfixCommonStatsGroup DESCRIPTION "These objects should be implemented if the statistics function is implemented in the equipment." GROUP ipfixExporterStatsGroup DESCRIPTION "These objects MUST be implemented if statistical functions are implemented on the equipment." ::= { ipfixCompliances 2 } -------------------------------------------------------------------- -- 2.2: MIB Grouping -------------------------------------------------------------------- ipfixCommonGroup OBJECT-GROUP OBJECTS { ipfixTransportSessionProtocol, ipfixTransportSessionSourceAddressType, ipfixTransportSessionSourceAddress, ipfixTransportSessionDestinationAddressType, ipfixTransportSessionDestinationAddress, ipfixTransportSessionSourcePort, ipfixTransportSessionDestinationPort, ipfixTransportSessionSctpAssocId, ipfixTransportSessionDeviceMode, ipfixTransportSessionTemplateRefreshTimeout, ipfixTransportSessionOptionsTemplateRefreshTimeout, ipfixTransportSessionTemplateRefreshPacket, ipfixTransportSessionOptionsTemplateRefreshPacket, ipfixTransportSessionIpfixVersion, ipfixTransportSessionStatus, ipfixTemplateSetId, ipfixTemplateAccessTime, ipfixTemplateDefinitionIeId, ipfixTemplateDefinitionIeLength, ipfixTemplateDefinitionEnterpriseNumber, ipfixTemplateDefinitionFlags } STATUS current Dietz, et al. Standards Track PAGE 54

RFC 5815 IPFIX MIB April 2010 DESCRIPTION "The main IPFIX objects." ::= { ipfixGroups 1 } ipfixCommonStatsGroup OBJECT-GROUP OBJECTS { ipfixTransportSessionRate, ipfixTransportSessionPackets, ipfixTransportSessionBytes, ipfixTransportSessionMessages, ipfixTransportSessionDiscardedMessages, ipfixTransportSessionRecords, ipfixTransportSessionTemplates, ipfixTransportSessionOptionsTemplates, ipfixTransportSessionDiscontinuityTime, ipfixTemplateDataRecords, ipfixTemplateDiscontinuityTime } STATUS current DESCRIPTION "Common statistical objects." ::= { ipfixGroups 2 } ipfixExporterGroup OBJECT-GROUP OBJECTS { ipfixExportMemberType, ipfixMeteringProcessObservationPointGroupRef, ipfixMeteringProcessCacheActiveTimeout, ipfixMeteringProcessCacheInactiveTimeout, ipfixObservationPointObservationDomainId, ipfixObservationPointPhysicalEntity, ipfixObservationPointPhysicalInterface, ipfixObservationPointPhysicalEntityDirection, ipfixSelectionProcessSelectorFunction } STATUS current DESCRIPTION "The main objects for Exporters." ::= { ipfixGroups 3 } Dietz, et al. Standards Track PAGE 55

RFC 5815 IPFIX MIB April 2010 ipfixExporterStatsGroup OBJECT-GROUP OBJECTS { ipfixMeteringProcessCacheActiveFlows, ipfixMeteringProcessCacheUnusedCacheEntries, ipfixMeteringProcessCacheDataRecords, ipfixMeteringProcessCacheDiscontinuityTime, ipfixSelectionProcessStatsPacketsObserved, ipfixSelectionProcessStatsPacketsDropped, ipfixSelectionProcessStatsDiscontinuityTime } STATUS current DESCRIPTION "The statistical objects for Exporters." ::= { ipfixGroups 4 } END 8.2. IPFIX SELECTOR MIB Definition IPFIX-SELECTOR-MIB DEFINITIONS ::= BEGIN IMPORTS MODULE-IDENTITY, OBJECT-TYPE, mib-2 FROM SNMPv2-SMI -- RFC 2578 TruthValue FROM SNMPv2-TC -- RFC 2579 MODULE-COMPLIANCE, OBJECT-GROUP FROM SNMPv2-CONF; -- RFC 2580 ipfixSelectorMIB MODULE-IDENTITY LAST-UPDATED "201003150000Z" -- 15 March 2010 ORGANIZATION "IETF IPFIX Working Group" CONTACT-INFO "WG charter: http://www.ietf.org/html.charters/ipfix-charter.html Mailing Lists: General Discussion: ipfix@ietf.org To Subscribe: http://www1.ietf.org/mailman/listinfo/ipfix Archive: http://www1.ietf.org/mail-archive/web/ipfix/current/index.html Dietz, et al. Standards Track PAGE 56

RFC 5815 IPFIX MIB April 2010 Editor: Thomas Dietz NEC Europe Ltd. NEC Laboratories Europe Network Research Division Kurfuersten-Anlage 36 69115 Heidelberg Germany Phone: +49 6221 4342-128 Email: Thomas.Dietz@nw.neclab.eu Atsushi Kobayashi NTT Information Sharing Platform Laboratories 3-9-11 Midori-cho Musashino-shi 180-8585 Japan Phone: +81-422-59-3978 Email: akoba@nttv6.net Benoit Claise Cisco Systems, Inc. De Kleetlaan 6a b1 Degem 1831 Belgium Phone: +32 2 704 5622 Email: bclaise@cisco.com Gerhard Muenz Technische Universitaet Muenchen Department of Informatics Chair for Network Architectures and Services (I8) Boltzmannstr. 3 85748 Garching Germany Phone: +49 89 289-18008 Email: muenz@net.in.tum.de URI: http://www.net.in.tum.de/~muenz" DESCRIPTION "The IPFIX SELECTOR MIB module defines the standard filtering and sampling functions that can be referenced in the ipfixSelectorTable of the IPFIX MIB. The subtree ipfixSelectorFunctions is a placeholder where all standard filtering and sampling functions should be located. The IPFIX SELECTOR MIB module is maintained by IANA and can be extended through Expert Review [RFC 5226], i.e., review by one of a group of experts designated by an IETF Area Dietz, et al. Standards Track PAGE 57

RFC 5815 IPFIX MIB April 2010 Director. The group of experts MUST check the requested MIB objects for completeness and accuracy of the description. Requests for MIB objects that duplicate the functionality of existing objects SHOULD be declined. The smallest available OID SHOULD be assigned to a new MIB objects. The specification of new MIB objects SHOULD follow the structure specified in RFC 5815 and MUST be published using a well-established and persistent publication medium. The experts will initially be drawn from the Working Group Chairs and document editors of the IPFIX and PSAMP Working Groups. Copyright (c) 2010 IETF Trust and the persons identified as authors of the code. All rights reserved. Redistribution and use in source and binary forms, with or without modification, is permitted pursuant to, and subject to the license terms contained in, the Simplified BSD License set forth in Section 4.c of the IETF Trust's Legal Provisions Relating to IETF Documents (http://trustee.ietf.org/license-info)." -- Revision history REVISION "201003150000Z" -- 15 March 2010 DESCRIPTION "Initial version, published as RFC 5815." ::= { mib-2 194 } --****************************************************************** -- Top Level Structure of the MIB --****************************************************************** ipfixSelectorObjects OBJECT IDENTIFIER ::= { ipfixSelectorMIB 1 } ipfixSelectorConformance OBJECT IDENTIFIER ::= { ipfixSelectorMIB 2 } --================================================================== -- 1: Objects used by all IPFIX implementations --================================================================== -------------------------------------------------------------------- -- 1.1: Packet Selector Functions for IPFIX -------------------------------------------------------------------- ipfixSelectorFunctions OBJECT IDENTIFIER ::= { ipfixSelectorObjects 1 } Dietz, et al. Standards Track PAGE 58

RFC 5815 IPFIX MIB April 2010 -------------------------------------------------------------------- -- 1.1.1: Function 1: Selecting All Packets -------------------------------------------------------------------- ipfixFuncSelectAll OBJECT IDENTIFIER ::= { ipfixSelectorFunctions 1 } ipfixFuncSelectAllAvail OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS current DESCRIPTION "This object indicates the availability of the trivial function of selecting all packets. This function is always available." ::= { ipfixFuncSelectAll 1 } --================================================================== -- 2: Conformance Information --================================================================== ipfixSelectorCompliances OBJECT IDENTIFIER ::= { ipfixSelectorConformance 1 } ipfixSelectorGroups OBJECT IDENTIFIER ::= { ipfixSelectorConformance 2 } -------------------------------------------------------------------- -- 2.1: Compliance Statements -------------------------------------------------------------------- ipfixSelectorBasicCompliance MODULE-COMPLIANCE STATUS current DESCRIPTION "An implementation that builds an IPFIX Exporter that complies to this module MUST implement the objects defined in the mandatory group ipfixBasicGroup. The implementation of all other objects depends on the implementation of the corresponding functionality in the equipment." MODULE -- this module MANDATORY-GROUPS { ipfixSelectorBasicGroup } ::= { ipfixSelectorCompliances 1 } -------------------------------------------------------------------- -- 2.2: MIB Grouping -------------------------------------------------------------------- ipfixSelectorBasicGroup OBJECT-GROUP OBJECTS { ipfixFuncSelectAllAvail } Dietz, et al. Standards Track PAGE 59

RFC 5815 IPFIX MIB April 2010 STATUS current DESCRIPTION "The main IPFIX objects." ::= { ipfixSelectorGroups 1 } END 9. Security Considerations There are no management objects defined in this MIB module that have a MAX-ACCESS clause of read-write and/or read-create. So, if these MIB modules are implemented correctly, then there is no risk that an intruder can alter or create any management objects of these MIB modules via direct SNMP SET operations. Some of the readable objects in these MIB modules (i.e., objects with a MAX-ACCESS other than not-accessible) may be considered sensitive or vulnerable in some network environments. It is thus important to control even GET and/or NOTIFY access to these objects and possibly to even encrypt the values of these objects when sending them over the network via SNMP. These are the tables and objects and their sensitivity/vulnerability: o ipfixTransportSessionTable - contains configuration data that might be sensitive because objects in this table may reveal information about the network infrastructure o ipfixExportTable - contains configuration data that might be sensitive because object in this table may reveal information about the network infrastructure as well o ipfixMeteringProcessTable - contains configuration data that might be sensitive because objects in this table may reveal information about the IPFIX Device itself o ipfixObservationPointTable - contains configuration data that might be sensitive because objects in this table may reveal information about the IPFIX Device itself and the network infrastructure o ipfixSelectorFunctions - currently contains no sensitive data but might want to be secured anyway since it may contain sensitive data in a future version All other objects and tables contain no data that is considered sensitive. Dietz, et al. Standards Track PAGE 60

RFC 5815 IPFIX MIB April 2010 SNMP versions prior to SNMPv3 did not include adequate security. Even if the network itself is secure (for example by using IPsec), even then, there is no control as to who on the secure network is allowed to access and GET/SET (read/change/create/delete) the objects in these MIB modules. It is RECOMMENDED that implementers consider the security features as provided by the SNMPv3 framework (see [RFC 3410] Section 8), including full support for the SNMPv3 cryptographic mechanisms (for authentication and privacy). Further, deployment of SNMP versions prior to SNMPv3 is NOT RECOMMENDED. Instead, it is RECOMMENDED to deploy SNMPv3 and to enable cryptographic security. It is then a customer/operator responsibility to ensure that the SNMP entity giving access to an instance of these MIB modules is properly configured to give access to the objects only to those principals (users) that have legitimate rights to indeed GET or SET (change/create/delete) them. 10. IANA Considerations The MIB module in this document uses the following IANA-assigned OBJECT IDENTIFIER values recorded in the SMI Numbers registry: Descriptor OBJECT IDENTIFIER value ---------- ----------------------- ipfixMIB { mib-2 193 } ipfixSelectorMIB { mib-2 194 } Further on, the whole IPFIX SELECTOR MIB module is maintained by IANA. Additions to this MIB module are subject to Expert Review [RFC 5226], i.e., review by one of a group of experts designated by an IETF Area Director. The group of experts MUST check the requested MIB objects for completeness and accuracy of the description. Requests for MIB objects that duplicate the functionality of existing objects SHOULD be declined. The smallest available OID SHOULD be assigned to new MIB objects. The specification of new MIB objects SHOULD follow the structure specified in Section 6 and MUST be published using a well-established and persistent publication medium. The experts will initially be drawn from the Working Group Chairs and document editors of the IPFIX and PSAMP Working Groups. 11. Acknowledgments This document is a product of the IPFIX Working Group. The authors would like to thank the following persons: Paul Aitken for his detailed review, Dan Romascanu and the MIB doctors, and many more, for the technical reviews and feedback. Dietz, et al. Standards Track PAGE 61

RFC 5815 IPFIX MIB April 2010 12. References 12.1. Normative References [RFC 2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, March 1997. [RFC 2578] McCloghrie, K., Ed., Perkins, D., Ed., and J. Schoenwaelder, Ed., "Structure of Management Information Version 2 (SMIv2)", STD 58, RFC 2578, April 1999. [RFC 2579] McCloghrie, K., Ed., Perkins, D., Ed., and J. Schoenwaelder, Ed., "Textual Conventions for SMIv2", STD 58, RFC 2579, April 1999. [RFC 2580] McCloghrie, K., Perkins, D., and J. Schoenwaelder, "Conformance Statements for SMIv2", STD 58, RFC 2580, April 1999. [RFC 4001] Daniele, M., Haberman, B., Routhier, S., and J. Schoenwaelder, "Textual Conventions for Internet Network Addresses", RFC 4001, February 2005. [RFC 2863] McCloghrie, K. and F. Kastenholz, "The Interfaces Group MIB", RFC 2863, June 2000. [RFC 3873] Pastor, J. and M. Belinchon, "Stream Control Transmission Protocol (SCTP) Management Information Base (MIB)", RFC 3873, September 2004. [RFC 4133] Bierman, A. and K. McCloghrie, "Entity MIB (Version 3)", RFC 4133, August 2005. [RFC 5101] Claise, B., "Specification of the IP Flow Information Export (IPFIX) Protocol for the Exchange of IP Traffic Flow Information", RFC 5101, January 2008. [RFC 5102] Quittek, J., Bryant, S., Claise, B., Aitken, P., and J. Meyer, "Information Model for IP Flow Information Export", RFC 5102, January 2008. [RFC 5226] Narten, T. and H. Alvestrand, "Guidelines for Writing an IANA Considerations Section in RFCs", BCP 26, RFC 5226, May 2008. Dietz, et al. Standards Track PAGE 62

RFC 5815 IPFIX MIB April 2010 12.2. Informative References [RFC 3410] Case, J., Mundy, R., Partain, D., and B. Stewart, "Introduction and Applicability Statements for Internet- Standard Management Framework", RFC 3410, December 2002. [RFC 3917] Quittek, J., Zseby, T., Claise, B., and S. Zander, "Requirements for IP Flow Information Export (IPFIX)", RFC 3917, October 2004. [RFC 5470] Sadasivan, G., Brownlee, N., Claise, B., and J. Quittek, "Architecture for IP Flow Information Export", RFC 5470, March 2009. [RFC 5472] Zseby, T., Boschi, E., Brownlee, N., and B. Claise, "IP Flow Information Export (IPFIX) Applicability", RFC 5472, March 2009. [RFC 5474] Duffield, N., Chiou, D., Claise, B., Greenberg, A., Grossglauser, M., and J. Rexford, "A Framework for Packet Selection and Reporting", RFC 5474, March 2009. [RFC 5475] Zseby, T., Molina, M., Duffield, N., Niccolini, S., and F. Raspall, "Sampling and Filtering Techniques for IP Packet Selection", RFC 5475, March 2009. [RFC 5476] Claise, B., Johnson, A., and J. Quittek, "Packet Sampling (PSAMP) Protocol Specifications", RFC 5476, March 2009. Dietz, et al. Standards Track PAGE 63

RFC 5815 IPFIX MIB April 2010 Authors' Addresses Thomas Dietz (editor) NEC Europe, Ltd. NEC Laboratories Europe Network Research Division Kurfuersten-Anlage 36 Heidelberg 69115 DE Phone: +49 6221 4342-128 EMail: Thomas.Dietz@nw.neclab.eu Atsushi Kobayashi NTT Information Sharing Platform Laboratories 3-9-11 Midori-cho Musashino-shi, Tokyo 180-8585 JA Phone: +81-422-59-3978 EMail: akoba@nttv6.net Benoit Claise Cisco Systems, Inc. De Kleetlaan 6a b1 Degem 1831 BE Phone: +32 2 704 5622 EMail: bclaise@cisco.com Gerhard Muenz Technische Universitaet Muenchen Department of Informatics Chair for Network Architectures and Services (I8) Boltzmannstr. 3 Garching 85748 DE Phone: +49 89 289-18008 EMail: muenz@net.in.tum.de URI: http://www.net.in.tum.de/~muenz Dietz, et al. Standards Track PAGE 64

Definitions of Managed Objects for IP Flow Information Export RFC TOTAL SIZE: 131258 bytes PUBLICATION DATE: Tuesday, April 20th, 2010 LEGAL RIGHTS: The IETF Trust (see BCP 78)


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