Network Working Group                                         J. Quittek
Internet-Draft                                                       NEC
Expires: August 21, 2005                                       S. Bryant
                                                       Cisco Systems Ltd
                                                                J. Meyer
                                                                  PayPal
                                                       February 20, 2005


            Information Model for IP Flow Information Export
                        draft-ietf-ipfix-info-06

Status of this Memo

   This document is an Internet-Draft and is subject to all provisions
   of section 3 of RFC 3667.  By submitting this Internet-Draft, each
   author represents that any applicable patent or other IPR claims of
   which he or she is aware have been or will be disclosed, and any of
   which he or she become aware will be disclosed, in accordance with
   RFC 3668.

   Internet-Drafts are working documents of the Internet Engineering
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   This Internet-Draft will expire on August 21, 2005.

Copyright Notice

   Copyright (C) The Internet Society (2005).

Abstract

   This memo defines and information model for the IP Flow Information
   eXport (IPFIX) protocol.  It is used by the IPFIX protocol for
   encoding measured traffic information and information related to the
   traffic Observation Point, the traffic Metering Process and the



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   Exporting Process.  Although developed for the IPFIX protocol, the
   model is defined in an open way that easily allows using it in other
   protocols, interfaces, and applications.

Table of Contents

   1.   Introduction . . . . . . . . . . . . . . . . . . . . . . . .   5
   2.   Properties of IPFIX Protocol Information Elements  . . . . .   6
   3.   Type Space . . . . . . . . . . . . . . . . . . . . . . . . .   8
     3.1  Data Types . . . . . . . . . . . . . . . . . . . . . . . .   8
       3.1.1  octet  . . . . . . . . . . . . . . . . . . . . . . . .   8
       3.1.2  unsigned16 . . . . . . . . . . . . . . . . . . . . . .   8
       3.1.3  unsigned32 . . . . . . . . . . . . . . . . . . . . . .   8
       3.1.4  unsigned64 . . . . . . . . . . . . . . . . . . . . . .   8
       3.1.5  float32  . . . . . . . . . . . . . . . . . . . . . . .   8
       3.1.6  boolean  . . . . . . . . . . . . . . . . . . . . . . .   8
       3.1.7  octetArray . . . . . . . . . . . . . . . . . . . . . .   8
       3.1.8  string . . . . . . . . . . . . . . . . . . . . . . . .   9
       3.1.9  dateTimeSeconds  . . . . . . . . . . . . . . . . . . .   9
       3.1.10   dateTimeMicroSeconds . . . . . . . . . . . . . . . .   9
       3.1.11   ipv4Address  . . . . . . . . . . . . . . . . . . . .   9
       3.1.12   ipv6Address  . . . . . . . . . . . . . . . . . . . .   9
     3.2  Data Type Semantics  . . . . . . . . . . . . . . . . . . .   9
       3.2.1  quantity . . . . . . . . . . . . . . . . . . . . . . .   9
       3.2.2  totalCounter . . . . . . . . . . . . . . . . . . . . .   9
       3.2.3  deltaCounter . . . . . . . . . . . . . . . . . . . . .  10
       3.2.4  identifier . . . . . . . . . . . . . . . . . . . . . .  10
       3.2.5  flags  . . . . . . . . . . . . . . . . . . . . . . . .  10
   4.   Information Element Identifiers  . . . . . . . . . . . . . .  11
   5.   Information Elements . . . . . . . . . . . . . . . . . . . .  13
     5.1  IP Header Fields . . . . . . . . . . . . . . . . . . . . .  13
       5.1.1  ipVersion  . . . . . . . . . . . . . . . . . . . . . .  13
       5.1.2  sourceIPv4Address  . . . . . . . . . . . . . . . . . .  14
       5.1.3  sourceIPv6Address  . . . . . . . . . . . . . . . . . .  14
       5.1.4  sourceIPv4Mask . . . . . . . . . . . . . . . . . . . .  15
       5.1.5  sourceIPv6Mask . . . . . . . . . . . . . . . . . . . .  15
       5.1.6  sourceIPv4Prefix . . . . . . . . . . . . . . . . . . .  15
       5.1.7  destinationIPv4Address . . . . . . . . . . . . . . . .  16
       5.1.8  destinationIPv6Address . . . . . . . . . . . . . . . .  16
       5.1.9  destinationIPv4Mask  . . . . . . . . . . . . . . . . .  16
       5.1.10   destinationIPv6Mask  . . . . . . . . . . . . . . . .  16
       5.1.11   destinationIPv4Prefix  . . . . . . . . . . . . . . .  17
       5.1.12   classOfServiceIPv4 . . . . . . . . . . . . . . . . .  17
       5.1.13   classOfServiceV6 . . . . . . . . . . . . . . . . . .  18
       5.1.14   flowLabelV6  . . . . . . . . . . . . . . . . . . . .  18
       5.1.15   identificationV4 . . . . . . . . . . . . . . . . . .  18
       5.1.16   protocolIdentifier . . . . . . . . . . . . . . . . .  19
     5.2  Trandport Header Fields  . . . . . . . . . . . . . . . . .  19



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       5.2.1  sourceTransportPort  . . . . . . . . . . . . . . . . .  19
       5.2.2  destinationtransportPort . . . . . . . . . . . . . . .  20
       5.2.3  icmpTypeCode . . . . . . . . . . . . . . . . . . . . .  20
       5.2.4  igmpType . . . . . . . . . . . . . . . . . . . . . . .  21
     5.3  Sub-IP Header Fields . . . . . . . . . . . . . . . . . . .  21
       5.3.1  sourceMacAddress . . . . . . . . . . . . . . . . . . .  21
       5.3.2  mplsLabelStackEntry1 . . . . . . . . . . . . . . . . .  22
       5.3.3  mplsLabelStackEntry2 . . . . . . . . . . . . . . . . .  22
       5.3.4  mplsLabelStackEntry3 . . . . . . . . . . . . . . . . .  22
       5.3.5  mplsLabelStackEntry4 . . . . . . . . . . . . . . . . .  23
       5.3.6  mplsLabelStackEntry5 . . . . . . . . . . . . . . . . .  23
       5.3.7  mplsLabelStackEntry6 . . . . . . . . . . . . . . . . .  23
       5.3.8  mplsLabelStackEntry7 . . . . . . . . . . . . . . . . .  24
       5.3.9  mplsLabelStackEntry8 . . . . . . . . . . . . . . . . .  24
       5.3.10   mplsLabelStackEntry9 . . . . . . . . . . . . . . . .  24
       5.3.11   mplsLabelStackEntry10  . . . . . . . . . . . . . . .  25
     5.4  Derived Packet Properties  . . . . . . . . . . . . . . . .  25
       5.4.1  ipNextHopIPv4Address . . . . . . . . . . . . . . . . .  25
       5.4.2  ipNextHopIPv6Address . . . . . . . . . . . . . . . . .  26
       5.4.3  ingressInterface . . . . . . . . . . . . . . . . . . .  26
       5.4.4  egressInterface  . . . . . . . . . . . . . . . . . . .  26
       5.4.5  ipNextHopAsNumber  . . . . . . . . . . . . . . . . . .  27
       5.4.6  bgpSourceAsNumber  . . . . . . . . . . . . . . . . . .  27
       5.4.7  bgpDestinationAsNumber . . . . . . . . . . . . . . . .  27
       5.4.8  bgpNextHopAsNumber . . . . . . . . . . . . . . . . . .  28
       5.4.9  bgpNextHopIPv4Address  . . . . . . . . . . . . . . . .  28
       5.4.10   bgpNextHopIPv6Address  . . . . . . . . . . . . . . .  28
       5.4.11   mplsTopLabelType . . . . . . . . . . . . . . . . . .  29
       5.4.12   mplsTopLabelIPv4Address  . . . . . . . . . . . . . .  29
       5.4.13   mplsTopLabelIPv6Address  . . . . . . . . . . . . . .  29
     5.5  Properties of Metering/Exporting Process . . . . . . . . .  30
       5.5.1  exporterIPv4Address  . . . . . . . . . . . . . . . . .  30
       5.5.2  exporterIPv6Address  . . . . . . . . . . . . . . . . .  30
     5.6  Min/Max Flow Properties  . . . . . . . . . . . . . . . . .  30
       5.6.1  minimumPacketLength  . . . . . . . . . . . . . . . . .  31
       5.6.2  maximumPacketLength  . . . . . . . . . . . . . . . . .  31
       5.6.3  minimumTTL . . . . . . . . . . . . . . . . . . . . . .  32
       5.6.4  maximumTTL . . . . . . . . . . . . . . . . . . . . . .  32
       5.6.5  ipv6OptionHeaders  . . . . . . . . . . . . . . . . . .  32
       5.6.6  tcpControlBits . . . . . . . . . . . . . . . . . . . .  33
       5.6.7  flowCreationTime . . . . . . . . . . . . . . . . . . .  33
       5.6.8  flowEndTime  . . . . . . . . . . . . . . . . . . . . .  34
       5.6.9  flowActiveTimeOut  . . . . . . . . . . . . . . . . . .  34
       5.6.10   flowInactiveTimeout  . . . . . . . . . . . . . . . .  34
       5.6.11   flowEndReason  . . . . . . . . . . . . . . . . . . .  34
     5.7  Per-Flow Counters  . . . . . . . . . . . . . . . . . . . .  35
       5.7.1  inOctetDeltaCount  . . . . . . . . . . . . . . . . . .  36
       5.7.2  outOctetDeltaCount . . . . . . . . . . . . . . . . . .  36



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       5.7.3  octetDeltaCount  . . . . . . . . . . . . . . . . . . .  36
       5.7.4  inOctetTotalCount  . . . . . . . . . . . . . . . . . .  37
       5.7.5  inPacketDeltaCount . . . . . . . . . . . . . . . . . .  37
       5.7.6  outPacketDeltaCount  . . . . . . . . . . . . . . . . .  37
       5.7.7  packetDeltaCount . . . . . . . . . . . . . . . . . . .  38
       5.7.8  inPacketTotalCount . . . . . . . . . . . . . . . . . .  38
       5.7.9  droppedOctetDeltaCount . . . . . . . . . . . . . . . .  38
       5.7.10   droppedOctetTotalCount . . . . . . . . . . . . . . .  39
       5.7.11   droppedPacketDeltaCount  . . . . . . . . . . . . . .  39
       5.7.12   droppedPacketTotalCount  . . . . . . . . . . . . . .  40
       5.7.13   outMulticastPacketCount  . . . . . . . . . . . . . .  40
       5.7.14   outMulticastOctetCount . . . . . . . . . . . . . . .  40
     5.8  Process Counters . . . . . . . . . . . . . . . . . . . . .  41
       5.8.1  observedFlowTotalCount . . . . . . . . . . . . . . . .  41
       5.8.2  exportedOctetTotalCount  . . . . . . . . . . . . . . .  41
       5.8.3  exportedPacketTotalCount . . . . . . . . . . . . . . .  42
       5.8.4  exportedFlowTotalCount . . . . . . . . . . . . . . . .  42
   6.   Extending the Information Model  . . . . . . . . . . . . . .  43
   7.   IANA Considerations  . . . . . . . . . . . . . . . . . . . .  44
   8.   Security Considerations  . . . . . . . . . . . . . . . . . .  45
   9.   Acknowledgements . . . . . . . . . . . . . . . . . . . . . .  46
   10.  References . . . . . . . . . . . . . . . . . . . . . . . . .  47
   10.1   Normative Reference  . . . . . . . . . . . . . . . . . . .  47
   10.2   Informative Reference  . . . . . . . . . . . . . . . . . .  47
        Authors' Addresses . . . . . . . . . . . . . . . . . . . . .  48
   A.   Formal Specification of IPFIX Fields . . . . . . . . . . . .  50
   B.   Formal Specification of Abstract Data Types  . . . . . . . .  74
        Intellectual Property and Copyright Statements . . . . . . .  85























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1.  Introduction

   The IP Flow Information eXport (IPFIX) protocol serves for
   transmitting information related to measured IP traffic over the
   Internet.  The protocol specification in [IPFIX-PROTO] defines how
   information elements are transmitted.  For information elements, it
   specifies the encoding of a set of basic data types.  However, the
   list of fields that can be transmitted by the protocol, such as flow
   attributes (source IP address, number of packets, etc.) and
   information about the Metering and Exporting Process (packet
   Observation Point, smapling rate, flow timeout interval, etc.), is
   not specified in [IPFIX-PROTO].

   This document complements the IPFIX protocol specification by
   providing the IPFIX information model.  IPFIX-specific terminology
   used in this document including terms such as 'IP Traffic Flow',
   'Observation Point', 'Metering Process', 'Exporting Process', and
   'Collecting Process' is defined in [IPFIX-PROTO].

   The main part of this document is Section 5 defining the (extensible)
   list of fields to be transmitted by the IPFIX protcol.  Section 2
   defines a template for specifying IPFIX fields that is used in
   Section 4.  Section 3 defines the set of abstract data types that are
   available for IPFIX fields.  Section 5 discusses extensibility of the
   IPFIX information model.

   The main bodies of Sections 2, 3 and 4 were generated from XML
   documents.  The XML-based specification of template, abstract data
   types and IPFIX fields can be used for automatically checking
   syntactical correctness of the specification of IPFIX fields.  It can
   further be used for generating IPFIX protocol implementation code
   that deals with processing IPFIX fields.  Also code for applications
   that further process traffic information transmitted via the IPFIX
   protocol can be generated with the XML specification of IPFIX fields.

   For that reason, the XML document that served as source for Section 4
   and the XML schema that served as source for Sections 2 and 3 are
   attached to this document in Appendices A and B.

   Note that although partially generated from the attached XML
   documents, the main body of this document is normative while the
   appendices are informational.









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2.  Properties of IPFIX Protocol Information Elements

   Fields in messages of the IPFIX protocol carrying information about
   traffic measurement are modeled as elements of the IPFIX information
   model and specified in Section 4.  For defining these information
   elements, a template is used that is specified below.

   All information elements specified for the IPFIX protocol either in
   this document or by any future extension MUST have the following
   properties defined:
   name - A unique and meaningful name for the information element.  The
      preferred spelling for the name is to use mixed case if the name
      is compound, with an initial lower case letter, e.g.,
      "sourceIpAddress".
   fieldId - A numeric identifier administered by IANA.  This is used
      for compact identification of an information item when encoding
      templates in the protocol.
   description - The semantics of this information element.  Describes
      how this field is derived from the flow or other information
      available to the observer.
   dataType - One of the types listed in section 3.1 of this document or
      in an extension of the information model.  The type space for
      attributes is constrained to facilitate implementation.  The
      existing type space does however encompass most basic types used
      in modern programming languages, as well as some derived types
      (such as IPAddress) which are common to this domain and useful to
      distinguish.
   applicability - This propoerty of an information element indicates in
      which kind of records the element can be used.  Allowed values for
      this property are 'data', 'option', and 'all'.
   status - The status of the specification of this information element.
      Allowed values are 'current', 'deprecated', and 'obsolete'.

   All information elements specified for the IPFIX protocol either in
   this document or by any future extension MAY have the following
   properties defined:
   enterpriseId - When extension is done outside of the scope of the
      IANA IPFIX fieldId range, a enterpriseId MUST be provided.  Valid
      values for the enterpriseId are defined by IANA as SMI network
      management private enterprise code.  They are defined at
      http://www.iana.org/assignments/enterprise-numbers.
   dataTypeSemantics - The integral types may be qualified by additional
      semantic details.  Valid values for the data type semantics are
      specified in section 3.2 of this document or in an extension of
      the information model.






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   units - If the field is a measure of some kind, the units identify
      what the measure is.
   enumeratedRange - Some items may have a specific set of numeric
      identifiers associated with a set of discrete values this element
      may take.  The meaning of each discrete value and a human readable
      name should be assigned.
   range - Some elements may only be able to take on a restricted set of
      values which can be expressed as a range (e.g.  0 through 511
      inclusive).  If this is the case, the valid inclusive range should
      be specified.
   reference - Identifies additional specifications which more precisely
      define this item or provide additional context for its use.







































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3.  Type Space

   This section describes the abstract data types that can be used for
   the specification of IPFIX fields in Section 4.  Section 3.1
   describes the set of data types.  For the integral data types octet,
   unsigned16, unsigned32, and unsigned64 also data type semantics can
   be specified, such as, for example, 'counter', 'identifier' or
   'flags'.  Data type semantics are specified in section 3.2.

3.1  Data Types

   This section describes the set of valid data types of the IPFIX
   information model.  Note that further data types may be specified by
   protocol extensions.

3.1.1  octet

   The type "octet" represents a non-negative integer value in the range
   of 0 to 255.

3.1.2  unsigned16

   The type "unsigned16" represents a non-negative integer value in the
   range of 0 to 65535.

3.1.3  unsigned32

   The type "unsigned32" represents a non-negative integer value in the
   range of 0 to 4294967295.

3.1.4  unsigned64

   The type "unsigned64" represents a non-negative integer value in the
   range of 0 to 18446744073709551615.

3.1.5  float32

   The type "float32" corresponds to an IEEE single-precision 32-bit
   floating point type.

3.1.6  boolean

   The type "boolean" represents a binary value.

3.1.7  octetArray

   The type "octetArray" represents a finite length string of octets.




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3.1.8  string

   The type "string" represents a finite length string of valid
   characters from the Unicode character encoding set.  Unicode allows
   for ASCII and many other international character sets to be used.  It
   is expected that strings will be encoded in UTF-8 format, which is
   identical in encoding for USASCII characters, but also accomodates
   other Unicode multibyte characters.

3.1.9  dateTimeSeconds

   The type "dateTimeSeconds" represents a time value having a precision
   of seconds and normalized to the GMT timezone.  Such types are in
   common use on many operating systems and have the advantage that they
   can be stored in 32-bit integers.

3.1.10  dateTimeMicroSeconds

   The type "dateTimeSeconds" represents a time value having a precision
   of microseconds and normalized to the GMT timezone.

3.1.11  ipv4Address

   The type "ipv4Addr" represents a value of an IPv4 address.  These
   addresses are typically stored as 32-bit integers.

3.1.12  ipv6Address

   The type "ipv6Addr" represents a value of an IPv6 address.


3.2  Data Type Semantics

   This section describes the set of valid data type semantics of the
   IPFIX information model.  Note that further data type semantics may
   be specified by protocol extensions.

3.2.1  quantity

   A quantity value represents a discrete measured value pertaining to
   the record.  This is distinguished from counters which represent an
   ongoing measured value whose "odometer" reading is captured as part
   of a given record.  If no semantic qualifier is given, the integral
   fields should behave as a quantity.

3.2.2  totalCounter

   A measurement which is ongoing from the perspective of the Exporter.



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   Basically the same semantics as counters in SNMP.  Counters are
   unsigned and wrap back to zero after reaching the limit of the type.
   For example, an unsigned64 with counter semantics will continue to
   increment until reaching the value of 2**64 - 1.  At this point the
   next increment will wrap its value to zero and continue counting from
   zero.  A running counter counts independent of the export of its
   value.

3.2.3  deltaCounter

   A measurement which is ongoing from the perspective of the Exporter.
   Basically the same semantics as counters in SNMP.  Counters are
   unsigned and wrap back to zero after reaching the limit of the type.
   For example, an unsigned64 with counter semantics will continue to
   increment until reaching the value of 2**64 - 1.  At this point the
   next increment will wrap its value to zero and continue counting from
   zero.  A delta counter is reset to zero each time its value is
   exported.

3.2.4  identifier

   An integral value which serves as an identifier.  Specifically
   mathematical operations on two identifiers (aside from the equality
   operation) are meaningless.  For example, Autonomous System Id 1 *
   Autonomous System Id 2 is meaningless.

3.2.5  flags

   An integral value which actually represents a set of bit fields.
   Logical operations are appropriate on such values, but not other
   mathematical operations.  Flags should always be of an unsigned type.




















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4.  Information Element Identifiers

   The elements of this information model are identified by the
   combination of a field identifier and an optional enterprise
   identifier.

   Standardized information elements defined in section 5 of this
   document or in extensions of the IPFIX information model have their
   values assigned by IANA.  These values are in the range of 1 - 32767.
   In this range, the value of the most significant bit in a
   16-bit-representation always equals 0.

   Enterprise-specific field IDs are in the range of 32768 - 65535.  In
   this range, the value of the most significant bit in a
   16-bit-representation always equals 1.  This choice of ranges allows
   a Collecting Process to clearly and easily distinguished standardized
   fields from enterprise-specific fields by just checking a single bit.

   +---------------------------------+---------------------------------+
   | Field ID Range                  | Description                     |
   +---------------------------------+---------------------------------+
   | 0                               | reserved                        |
   |                                 |                                 |
   | 1 - 127                         | standardized field IDs          |
   |                                 | compatible to NetFlow version 9 |
   |                                 |                                 |
   | 128 - 32767                     | standardized field IDs assigned |
   |                                 | by IANA                         |
   |                                 |                                 |
   | 32768 - 65535                   | enterprise-defined field IDs    |
   +---------------------------------+---------------------------------+

   Enterprise-specific IDs can be chosen by an enterprise arbitrarily
   within the given range.  The same ID may be assigned by different
   enterprises for different purposes.  In order to ensure that
   Collecting Processes can always identify information elements
   uniquely, enterprise-specific information elements are identified by
   the combination of a field ID and an enterprise ID.  Valid valuse for
   enterprise IDs are also assigned by IANA.  The IPFIX information
   model uses the SMI network management private enterprise code defined
   at http://www.iana.org/assignments/enterprise-numbers as the set of
   valid numbers for enterprise IDs.  Enterprise IDs used for
   identifying IPFIX information elements MUST be registered as SMI
   network management private enterprise code numbers at IANA.

   The following list gives an overview of field IDs used as identifiers
   of the information elements specified in section 5.




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   +-------+-------------------------+-------+-------------------------+
   |    ID | Field Name              |    ID | Field Name              |
   +-------+-------------------------+-------+-------------------------+
   |     1 | inOctetDeltaCount       |    44 | sourceIPv4Prefix        |
   |     2 | inPacketDeltaCount      |    45 | destinationIPv4Prefix   |
   |     3 | totalFlowCount          |    46 | mplsTopLabelType        |
   |     4 | protocolIdentifier      |    47 | mplsTopLabelIPv4Address |
   |     5 | classOfServiceIPv4      | 48-51 | RESERVED                |
   |     6 | tcpControlBits          |    52 | minimumTTL              |
   |     7 | sourceTransportPort     |    53 | maximumTTL              |
   |     8 | sourceIPv4Address       |    54 | identificationIPv4      |
   |     9 | sourceIPv4Mask          |    55 | RESERVED                |
   |    10 | ingressInterface        |    56 | sourceMacAddress        |
   |    11 | destinationTransportPort| 57-59 | RESERVED                |
   |    12 | destinationIPv4Address  |    60 | ipVersion               |
   |    13 | destinationIPv4Mask     |    61 | RESERVED                |
   |    14 | egressInterface         |    62 | ipNextHopIPv6Address    |
   |    15 | ipNextHopIPv4Address    |    63 | bgpNextHopIPv6Address   |
   |    16 | bgpSourceAsNumber       |    64 | ipv6OptionHeaders       |
   |    17 | bgpDestinationAsNumber  | 65-69 | RESERVED                |
   |    18 | bgpNextHopIPv4Address   |    70 | mplsLabelStackEntry1    |
   |    19 | OutMulticastPacketCount |    71 | mplsLabelStackEntry2    |
   |    20 | OutMulticastOctetCount  |    72 | mplsLabelStackEntry3    |
   |    21 | flowEndTime             |    73 | mplsLabelStackEntry4    |
   |    22 | flowCreationTime        |    74 | mplsLabelStackEntry5    |
   |    23 | outOctetDeltaCount      |    75 | mplsLabelStackEntry6    |
   |    24 | outPacketDeltaCount     |    76 | mplsLabelStackEntry7    |
   |    25 | minimumPacketLength     |    77 | mplsLabelStackEntry8    |
   |    26 | maximumPacketLength     |    78 | mplsLabelStackEntry9    |
   |    27 | sourceIPv6Address       |    79 | mplsLabelStackEntry10   |
   |    28 | destinationIPv6Address  | 80-84 | RESERVED                |
   |    29 | sourceIPv6Mask          |    85 | inOctetTotalCount       |
   |    30 | destinationIPv6Mask     |    86 | inPacketTotalCount      |
   |    31 | flowLabelIPv6           |87-127 | RESERVED                |
   |    32 | icmpTypeCode            |   128 | bgpNextHopAsNumber      |
   |    33 | igmpType                |   129 | ipNextHopAsNumber       |
   | 34-35 | RESERVED                |   130 | exporterIPv4Address     |
   |    36 | flowActiveTimeOut       |   131 | exporterIPv6Address     |
   |    37 | flowInactiveTimeout     |   132 | droppedOctetDeltaCount  |
   | 38-39 | RESERVED                |   133 | droppedPacketDeltaCount |
   |    40 | exportedOctetCount      |   134 | droppedOctetTotalCount  |
   |    41 | exportedPacketCount     |   135 | droppedPacketTotalCount |
   |    42 | exportedFlowCount       |   136 | flowEndReason           |
   |    43 | RESERVED                |   137 | classOfServiceIPv6      |
   |       |                         |   138 | octetDeltaCount         |
   |       |                         |   139 | packetDeltaCount        |
   |       |                         |   140 | mplsTopLabelIPv6Address |
   +-------+-------------------------+-------+-------------------------+



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5.  Information Elements

   This section describes the flow attributes of the IPFIX information
   model.  The elements are grouped into 8 groups according to their
   semantics and their applicability.

5.1  IP Header Fields

   Information elements in this section indicate values of header fields
   or are derived from IP header field values in combination with
   further information.  These information elements can serve as part of
   a flow key used for mapping packets to flows.  But also they may
   contain values related to header fields that are not constant for a
   single flow.  For example a flow using a certain source IPv4 address
   as flow key has sourceAddressV4 as constant property but may have
   destinationAddressV4 as a property that changes from packet to
   packet.

   For information elements that are not constant for a flow, the value
   MUST be the value of the first packet observed for this flow.  This
   simple rule allows writing all information elements related to header
   fields once when the first packet of the flow is observed.  For
   further observed packets of the same flow, only the counters need to
   be increased.

   The set of information elements related to IP header fields includes
   the information elements listed in the table below.

   +-------+-------------------------+-------+-------------------------+
   |    ID | Field Name              |    ID | Field Name              |
   +-------+-------------------------+-------+-------------------------+
   |    60 | ipVersion               |     5 | classOfServiceIPv4      |
   |     8 | sourceIPv4Address       |   137 | classOfServiceIPv6      |
   |    27 | sourceIPv6Address       |    31 | flowLabelIPv6           |
   |     9 | sourceIPv4Mask          |    54 | identificationIPv4      |
   |    29 | sourceIPv6Mask          |     4 | protocolIdentifier      |
   |    44 | sourceIPv4Prefix        |       |                         |
   |    12 | destinationIPv4Address  |       |                         |
   |    28 | destinationIPv6Address  |       |                         |
   |    13 | destinationIPv4Mask     |       |                         |
   |    30 | destinationIPv6Mask     |       |                         |
   |    45 | destinationIPv4Prefix   |       |                         |
   +-------+-------------------------+-------+-------------------------+


5.1.1  ipVersion





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   Description: The IP version field given in the IP header.

   Abstract Data Type: octet

   FieldId: 60

   Applicability: all

   Status: current

   Units: flows
   Reference:
      See RFC 791 for a definition of the version field in the IPv6
      packet header.  See RFC 2460 for a definition of the version field
      in the IPv6 packet header.  Additional information on defined
      version numbers can be found at
      http://www.iana.org/assignments/version-numbers.

5.1.2  sourceIPv4Address
   Description:
      IPv4 source address taken from the IP packet header of a packet of
      this flow.

   Abstract Data Type: ipv4Address

   FieldId: 8

   Applicability: all

   Status: current
   Reference: See RFC 791 for the definition of the IPv4 source address
      field.

5.1.3  sourceIPv6Address
   Description:
      IPv6 source address taken from the IP packet header of a packet of
      this flow.

   Abstract Data Type: ipv6Address

   FieldId: 27

   Applicability: all

   Status: current






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5.1.4  sourceIPv4Mask
   Description:
      The number of contiguous bits that are relevant in the
      sourceAddressV4 field.

   Abstract Data Type: octet

   FieldId: 9

   Applicability: option

   Status: current

   Units: bits

   Range: The valid range is 0-32.

5.1.5  sourceIPv6Mask
   Description:
      The number of contiguous bits that are relevant in the
      sourceAddressV6 field.

   Abstract Data Type: octet

   FieldId: 29

   Applicability: option

   Status: current

   Units: bits

   Range: The valid range is 0-128.

5.1.6  sourceIPv4Prefix
   Description:
      IPv4 source address prefix.
      EDITOR'S NOTE: to be discussed on ipfix mailing list

   Abstract Data Type: ipV4Address

   FieldId: 44

   Applicability: data

   Status: current

   Units: flows



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5.1.7  destinationIPv4Address
   Description:
      IPv4 destination address taken from the IP packet header of a
      packet of this flow.

   Abstract Data Type: ipv4Address

   FieldId: 12

   Applicability: all

   Status: current
   Reference: See RFC 791 for the definition of the IPv4 destination
      address field.

5.1.8  destinationIPv6Address
   Description:
      IPv6 destination address taken from the IP packet header of a
      packet of this flow.

   Abstract Data Type: ipv6Address

   FieldId: 28

   Applicability: all

   Status: current

5.1.9  destinationIPv4Mask
   Description:
      The number of contiguous bits that are relevant in the
      destinationAddressV4 field.

   Abstract Data Type: octet

   FieldId: 13

   Applicability: option

   Status: current

   Units: bits

   Range: The valid range is 0-32.

5.1.10  destinationIPv6Mask





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   Description:
      The number of contiguous bits that are relevant in the
      destinationAddressV6 field.

   Abstract Data Type: octet

   FieldId: 30

   Applicability: option

   Status: current

   Units: bits

   Range: The valid range is 0-128.

5.1.11  destinationIPv4Prefix
   Description:
      IPv4 destination address prefix.
      EDITOR'S NOTE: to be discussed on ipfix mailing list

   Abstract Data Type: ipV4Address

   FieldId: 45

   Applicability: data

   Status: current

   Units: flows

5.1.12  classOfServiceIPv4
   Description:
      The value of the IPv4 TOS field observed for packets of this flow.

   Abstract Data Type: octet

   Data Type Semantics: identifier

   FieldId: 5

   Applicability: all

   Status: current
   Reference: See RFC 791 for the definition of the IPv4 TOS field.






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5.1.13  classOfServiceV6
   Description:
      The value of the IPv6 traffic class field observed for packets of
      this flow.

   Abstract Data Type: octet

   FieldId: 137

   Applicability: data

   Status: current
   Reference: See RFC 2460 for the definition of the IPv6 traffic class
      field.

5.1.14  flowLabelV6
   Description:
      The Flow Label of the IPv6 packet header observed in the first
      packet of this flow.

   Abstract Data Type: unsigned32

   FieldId: 31

   Applicability: all

   Status: current
   Reference: See RFC 2460 for a definition of the flow label field in
      the IPv6 packet header.

5.1.15  identificationV4
   Description:
      The IPv4 packet identification field from the first packet of this
      flow.

   Abstract Data Type: unsigned16

   Data Type Semantics: identifier

   FieldId: 54

   Applicability: data

   Status: current
   Reference: See RFC 791 for the definition of the IPv4 identification
      field.





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5.1.16  protocolIdentifier
   Description:
      The protocol number observed for packets of this flow.  The
      protocol number identifies the IP packet payload.  Protocol
      numbers are defined in the IANA Protocol Numbers registry.
      In Internet Protocol version 4 (IPv4) this is carried in the
      "Protocol" field.  In Internet Protocol version 6 (IPv6) this is
      carried in the "Next Header" field in the last extension header of
      the packet.

   Abstract Data Type: octet

   Data Type Semantics: identifier

   FieldId: 4

   Applicability: all

   Status: current
   Reference:
      See RFC 791 for the specification of the IPv4 protocol field.  See
      RFC 2460 for the specification of the IPv6 protocol field.  See
      list of protocol numbers assigned by IANA at
      http://www.iana.org/assignments/protocol-numbers.

5.2  Trandport Header Fields

   The set of information elements related to transport header fields
   includes the information elements listed in the table below.

   +-------+-------------------------+-------+-------------------------+
   |    ID | Field Name              |    ID | Field Name              |
   +-------+-------------------------+-------+-------------------------+
   |     7 | sourceTransportPort     |    32 | icmpTypeCode            |
   |    11 | destinationTransportPort|    33 | igmpType                |
   +-------+-------------------------+-------+-------------------------+


5.2.1  sourceTransportPort
   Description:
      A source port identifier in the transport header.  For transport
      protocols UDP, TCP and SCTP this is the source port number given
      in the respective header.  This field MAY also be used for future
      transport protocols that have 16 bit source port identifiers.

   Abstract Data Type: unsigned16

   Data Type Semantics: identifier



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   FieldId: 7

   Applicability: all

   Status: current
   Reference:
      See RFC 768 for the definition of the UDP source port field.  See
      RFC 793 for the definition of the TCP source port field.  See RFC
      2960 for the definition of SCTP.
      Additional information on defined UDP and TCP port numbers can be
      found at http://www.iana.org/assignments/port-numbers.

5.2.2  destinationtransportPort
   Description:
      A destination port identifier in the transport header.  For
      transport protocols UDP, TCP and SCTP this is the destination port
      number given in the respective header.  This field MAY also be
      used for future transport protocols that have 16 bit destination
      port identifiers.

   Abstract Data Type: unsigned16

   Data Type Semantics: identifier

   FieldId: 11

   Applicability: all

   Status: current
   Reference:
      See RFC 768 for the definition of the UDP source port field.  See
      RFC 793 for the definition of the TCP source port field.  See RFC
      2960 for the definition of SCTP.
      Additional information on defined UDP and TCP port numbers can be
      found at http://www.iana.org/assignments/port-numbers.

5.2.3  icmpTypeCode
   Description:
      Type and Code of the ICMP message.  The combination of both values
      is reported as (ICMP type * 256) + ICMP code.

   Abstract Data Type: unsigned16

   FieldId: 32

   Applicability: all

   Status: current



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   Reference: See RFC 792 for a definition of the ICMP type and code
      fields.

5.2.4  igmpType
   Description: The type field of the IGMP message.

   Abstract Data Type: octet

   FieldId: 33

   Applicability: all

   Status: current
   Reference: See RFC 2236 for a definition of the IGMP type field.

5.3  Sub-IP Header Fields

   The set of information elements related to Sub-IP header fields
   includes the information elements listed in the table below.

   +-------+-------------------------+-------+-------------------------+
   |    ID | Field Name              |    ID | Field Name              |
   +-------+-------------------------+-------+-------------------------+
   |    56 | sourceMacAddress        |    75 | mplsLabelStackEntry6    |
   |    70 | mplsLabelStackEntry1    |    76 | mplsLabelStackEntry7    |
   |    71 | mplsLabelStackEntry2    |    77 | mplsLabelStackEntry8    |
   |    72 | mplsLabelStackEntry3    |    78 | mplsLabelStackEntry9    |
   |    73 | mplsLabelStackEntry4    |    79 | mplsLabelStackEntry10   |
   |    74 | mplsLabelStackEntry5    |       |                         |
   +-------+-------------------------+-------+-------------------------+


5.3.1  sourceMacAddress
   Description:
      Packet identification field from the first IP packet of this flow.

   Abstract Data Type: octetArray

   FieldId: 56

   Applicability: data

   Status: current
   Reference: See RFC 791 for the definition of the IPv4 identification
      field.






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5.3.2  mplsLabelStackEntry1
   Description:
      The label, exp and s fields from the outermost MPLS label stack
      entry e.g.  the last label that was pushed last.

       0                   1                   2
       0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3
      +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
      |                Label                  | Exp |S|
      +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

      Label:  Label Value, 20 bits
      Exp:    Experimental Use, 3 bits
      S:      Bottom of Stack, 1 bit

   Abstract Data Type: unsigned32

   FieldId: 70

   Applicability: all

   Status: current
   Reference: See RFC 3032.

5.3.3  mplsLabelStackEntry2
   Description:
      The label, exp and s fields from the LSE that was pushed
      immediately before the LSE that would be reported by
      mplsLabelStackEntry1.  See the definition of mplsLabelStackEntry1
      for further details.

   Abstract Data Type: unsigned32

   FieldId: 71

   Applicability: all

   Status: current
   Reference: See RFC 3032.

5.3.4  mplsLabelStackEntry3
   Description:
      The label, exp and s fields from the LSE that was pushed
      immediately before the LSE that would be reported by
      mplsLabelStackEntry2.  See the definition of mplsLabelStackEntry1
      for further details.

   Abstract Data Type: unsigned32



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   FieldId: 72

   Applicability: all

   Status: current
   Reference: See RFC 3032.

5.3.5  mplsLabelStackEntry4
   Description:
      The label, exp and s fields from the LSE that was pushed
      immediately before the LSE that would be reported by
      mplsLabelStackEntry3.  See the definition of mplsLabelStackEntry1
      for further details.

   Abstract Data Type: unsigned32

   FieldId: 73

   Applicability: all

   Status: current
   Reference: See RFC 3032.

5.3.6  mplsLabelStackEntry5
   Description:
      The label, exp and s fields from the LSE that was pushed
      immediately before the LSE that would be reported by
      mplsLabelStackEntry4.  See the definition of mplsLabelStackEntry1
      for further details.

   Abstract Data Type: unsigned32

   FieldId: 74

   Applicability: all

   Status: current
   Reference: See RFC 3032.

5.3.7  mplsLabelStackEntry6
   Description:
      The label, exp and s fields from the LSE that was pushed
      immediately before the LSE that would be reported by
      mplsLabelStackEntry5.  See the definition of mplsLabelStackEntry1
      for further details.

   Abstract Data Type: unsigned32




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   FieldId: 75

   Applicability: all

   Status: current
   Reference: See RFC 3032.

5.3.8  mplsLabelStackEntry7
   Description:
      The label, exp and s fields from the LSE that was pushed
      immediately before the LSE that would be reported by
      mplsLabelStackEntry6.  See the definition of mplsLabelStackEntry1
      for further details.

   Abstract Data Type: unsigned32

   FieldId: 76

   Applicability: all

   Status: current
   Reference: See RFC 3032.

5.3.9  mplsLabelStackEntry8
   Description:
      The label, exp and s fields from the LSE that was pushed
      immediately before the LSE that would be reported by
      mplsLabelStackEntry7.  See the definition of mplsLabelStackEntry1
      for further details.

   Abstract Data Type: unsigned32

   FieldId: 77

   Applicability: all

   Status: current
   Reference: See RFC 3032.

5.3.10  mplsLabelStackEntry9
   Description:
      The label, exp and s fields from the LSE that was pushed
      immediately before the LSE that would be reported by
      mplsLabelStackEntry8.  See the definition of mplsLabelStackEntry1
      for further details.

   Abstract Data Type: unsigned32




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   FieldId: 78

   Applicability: all

   Status: current
   Reference: See RFC 3032.

5.3.11  mplsLabelStackEntry10
   Description:
      The label, exp and s fields from the LSE that was pushed
      immediately before the LSE that would be reported by
      mplsLabelStackEntry9.  See the definition of mplsLabelStackEntry1
      for further details.

   Abstract Data Type: unsigned32

   FieldId: 79

   Applicability: all

   Status: current
   Reference: See RFC 3032.

5.4  Derived Packet Properties

   The set of information elements derived from values of header fields
   and further information includes the information elements listed in
   the table below.

   +-------+-------------------------+-------+-------------------------+
   |    ID | Field Name              |    ID | Field Name              |
   +-------+-------------------------+-------+-------------------------+
   |    15 | ipNextHopIPv4Address    |   128 | bgpNextHopAsNumber      |
   |    62 | ipNextHopIPv6Address    |    18 | bgpNextHopIPv4Address   |
   |    10 | ingressInterface        |    63 | bgpNextHopIPv6Address   |
   |    14 | egressInterface         |    46 | mplsTopLabelType        |
   |   129 | ipNextHopAsNumber       |    47 | mplsTopLabelIPv4Address |
   |    16 | bgpSourceAsNumber       |   140 | mplsTopLabelIPv6Address |
   |    17 | bgpDestinationAsNumber  |       |                         |
   +-------+-------------------------+-------+-------------------------+


5.4.1  ipNextHopIPv4Address
   Description:
      The IPv4 address of the next IP hop to which packets of this flow
      are forwarded.

   Abstract Data Type: ipv4Address



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   FieldId: 15

   Applicability: data

   Status: current

5.4.2  ipNextHopIPv6Address
   Description:
      The IPv6 address of the next BGP hop to which packets of this flow
      are forwarded.

   Abstract Data Type: ipv6Address

   FieldId: 62

   Applicability: data

   Status: current

5.4.3  ingressInterface
   Description:
      The index of the IP interface (ifIndex) where packets of this flow
      are being received.

   Abstract Data Type: unsigned32

   Data Type Semantics: identifier

   FieldId: 10

   Applicability: all

   Status: current
   Reference: See RFC 2863 for the definition of the ifIndex object.

5.4.4  egressInterface
   Description:
      The index of the IP interface (ifIndex) where packets of this flow
      are being sent.

   Abstract Data Type: unsigned32

   Data Type Semantics: identifier

   FieldId: 14

   Applicability: all




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   Status: current
   Reference: See RFC 2863 for the definition of the ifIndex object.

5.4.5  ipNextHopAsNumber
   Description:
      The autonomous system (AS) number of the next IP hop to which
      packets of this flow are forwarded.

   Abstract Data Type: unsigned16

   Data Type Semantics: identifier

   FieldId: 129

   Applicability: all

   Status: current
   Reference: See RFC 1771 for a description of BGB-4 and see RFC 1930 a
      definition of the AS number.

5.4.6  bgpSourceAsNumber
   Description:
      The autonomous system (AS) number of the source address in the IP
      packet header in a packet of this flow.

   Abstract Data Type: unsigned16

   Data Type Semantics: identifier

   FieldId: 16

   Applicability: all

   Status: current
   Reference: See RFC 1771 for a description of BGB-4 and see RFC 1930 a
      definition of the AS number.

5.4.7  bgpDestinationAsNumber
   Description:
      The autonomous system (AS) number of the destination address in
      the IP packet header in a packet of this flow.

   Abstract Data Type: unsigned16

   Data Type Semantics: identifier

   FieldId: 17




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   Applicability: all

   Status: current
   Reference: See RFC 1771 for a description of BGB-4 and see RFC 1930 a
      definition of the AS number.

5.4.8  bgpNextHopAsNumber
   Description:
      The autonomous system (AS) number of the next BGP hop to which
      packets of this flow are forwarded.

   Abstract Data Type: unsigned16

   Data Type Semantics: identifier

   FieldId: 128

   Applicability: all

   Status: current
   Reference: See RFC 1771 for a description of BGB-4 and see RFC 1930 a
      definition of the AS number.

5.4.9  bgpNextHopIPv4Address
   Description:
      The IPv4 address of the next BGP hop to which packets of this flow
      are forwarded.

   Abstract Data Type: ipv4Address

   FieldId: 18

   Applicability: all

   Status: current
   Reference: See RFC 1771 for a description of BGB-4 and see RFC 1930 a
      definition of the AS number.

5.4.10  bgpNextHopIPv6Address
   Description:
      The IPv6 address of the next BGP hop to which packets of this flow
      are forwarded.

   Abstract Data Type: ipv6Address

   Data Type Semantics: identifier

   FieldId: 63



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   Applicability: all

   Status: current
   Reference: See RFC 1771 for a description of BGB-4.  See RFC 1930 a
      definition of the AS number.

5.4.11  mplsTopLabelType
   Description:
      MPLS top label type:
      This field identifies the control protocol that allocated the top
      of stack label.

   Abstract Data Type: octet

   Data Type Semantics: identifier

   FieldId: 46

   Applicability: data

   Status: current

5.4.12  mplsTopLabelIPv4Address
   Description:
      The IPv4 address of the system that the MPLS top label will cause
      this packet to be forwarded to.

   Abstract Data Type: ipV4Address

   FieldId: 47

   Applicability: data

   Status: current

5.4.13  mplsTopLabelIPv6Address
   Description:
      The IPv4 address of the system that the MPLS top label will cause
      this packet to be forwarded to.

   Abstract Data Type: ipV6Address

   FieldId: 140

   Applicability: data

   Status: current




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5.5  Properties of Metering/Exporting Process

   Information elements in this section describe static properties of
   the Metering Process and/or the Exporting Process.  The set of these
   information elements is listed in the table below

   +-------+-------------------------+-------+-------------------------+
   |    ID | Field Name              |    ID | Field Name              |
   +-------+-------------------------+-------+-------------------------+
   |   130 | exporterIPv4Address     |   131 | exporterIPv6Address     |
   +-------+-------------------------+-------+-------------------------+


5.5.1  exporterIPv4Address
   Description:
      The IPv4 address used by the Exporting Process.  This is used by
      the Collector to identify the Exporter in cases where the identity
      of the Exporter may have been obscured by the use of a proxy.

   Abstract Data Type: ipv4Address

   Data Type Semantics: identifier

   FieldId: 130

   Applicability: all

   Status: current

5.5.2  exporterIPv6Address
   Description:
      The IPv6 address used by the Exporting Process.  This is used by
      the Collector to identify the Exporter in cases where the identity
      of the Exporter may have been obscured by the use of a proxy.

   Abstract Data Type: ipv6Address

   Data Type Semantics: identifier

   FieldId: 131

   Applicability: all

   Status: current

5.6  Min/Max Flow Properties

   Information elements in this section are results of minimum or



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   maximum operations over multiple or all packets of a flow.  They
   cannot serve as flow keys, but their value can be used as trigger for
   selecting and/or exporting flows.

   The set of information elements resulting from minimum or maximum
   operations over all packets of a flow includes the information
   elements listed in the table below.

   +-------+-------------------------+-------+-------------------------+
   |    ID | Field Name              |    ID | Field Name              |
   +-------+-------------------------+-------+-------------------------+
   |    25 | minimumPacketLength     |    22 | flowCreationTime        |
   |    26 | maximumPacketLength     |    21 | flowEndTime             |
   |    52 | minimumTTL              |    36 | flowActiveTimeOut       |
   |    53 | maximumTTL              |    37 | flowInactiveTimeOut     |
   |    64 | ipv6OptionHeaders       |   136 | flowEndReason           |
   |     6 | tcpControlBits          |       |                         |
   +-------+-------------------------+-------+-------------------------+


5.6.1  minimumPacketLength
   Description:
      Length of the smallest packet observed for this flow.

   Abstract Data Type: unsigned16

   FieldId: 25

   Applicability: all

   Status: current

   Units: octets

5.6.2  maximumPacketLength
   Description:
      Length of the largest packet observed for this flow.

   Abstract Data Type: unsigned16

   FieldId: 26

   Applicability: all

   Status: current

   Units: octets




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5.6.3  minimumTTL
   Description:
      Minimum TTL value observed for any packet in this flow.

   Abstract Data Type: octet

   FieldId: 52

   Applicability: data

   Status: current

5.6.4  maximumTTL
   Description:
      Maximum TTL value observed for any packet in this flow.

   Abstract Data Type: octet

   FieldId: 53

   Applicability: data

   Status: current

5.6.5  ipv6OptionHeaders
   Description:
      IPv6 options in the IP packet headers of this flow.  This is
      encoded as a bit field.

      bit      IPv6 Option    Definition

       0                       Reserved
       1        44             Fragmentation header - not first fragment
       2        43             Routing header
       3        44             Fragmentation header - first fragment
       4                       Unknown Layer 4 header (compressed,
                               encrypted, not supported)
       5                       Reserved
       6         0             Hop-by-hop option header
       7        60             Destination option header
       8       108             Payload compression header
       9        51             Authentication Header
      10        50             Encrypted security payload
      11 to 31                 Reserved

   Abstract Data Type: unsigned32

   Data Type Semantics: flags



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   FieldId: 64

   Applicability: all

   Status: current
   Reference: To be done.

5.6.6  tcpControlBits
   Description:
      TCP control bits observed for packets of this flow.  The value of
      this field is the result of a logical OR operation over the flags
      observed in all packets of the flow.  This implies that a 0 value
      for a bit indicates that the respective bit was not set in any of
      the observed packets of this flow.

          0     1     2     3     4     5     6     7
      +-----+-----+-----+-----+-----+-----+-----+-----+
      |  Reserved | URG | ACK | PSH | RST | SYN | FIN |
      +-----+-----+-----+-----+-----+-----+-----+-----+

      Reserved:  Reserved for future use by TCP.  Must be zero.
           URG:  Urgent Pointer field significant
           ACK:  Acknowledgment field significant
           PSH:  Push Function
           RST:  Reset the connection
           SYN:  Synchronize sequence numbers
           FIN:  No more data from sender

   Abstract Data Type: octet

   Data Type Semantics: flags

   FieldId: 6

   Applicability: all

   Status: current
   Reference: See RFC 793 for a definition of the TCP control bits in
      the TCP header.

5.6.7  flowCreationTime
   Description: The timestamp of the first packet of this flow.

   Abstract Data Type: dateTimeSeconds

   FieldId: 22

   Applicability: data



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   Status: current

5.6.8  flowEndTime
   Description: The timestamp of the last packet of this flow.

   Abstract Data Type: dateTimeSeconds

   FieldId: 21

   Applicability: data

   Status: current

5.6.9  flowActiveTimeOut
   Description:
      The number of seconds after which an active flow is timed out
      anyway, even if there is still a continuous flow of packets.

   Abstract Data Type: unsigned16

   FieldId: 36

   Applicability: all

   Status: current

   Units: seconds

5.6.10  flowInactiveTimeout
   Description:
      A flow is considered to be timed out if no packets belonging to
      the flow have been observed for the number of seconds specified by
      this field.

   Abstract Data Type: unsigned16

   FieldId: 37

   Applicability: all

   Status: current

   Units: seconds

5.6.11  flowEndReason






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   Description:
      The reason for flow termination.
      EDITORS' NOTE: This needs to be defined as an enumerated range.

   Abstract Data Type: octet

   FieldId: 136

   Applicability: data

   Status: current

5.7  Per-Flow Counters

   Information elements in this section are counters all having integral
   values.  Their values may change for every report they are used in.
   They cannot serve as part of a flow key used for mapping packets to
   flows.  However, potentially they can be used for selecting exported
   flow, for example by only exporting flows with more than a thresholh
   number of observed octets.

   There are running counters and delta counters.  Delta counters are
   reset to zero for each time their values are exported.  Running
   counters continue counting independent of the Exporting Process.

   There are per-flow counters and counters related to the Metering
   Process and/or the Exporting Process.  Per-flow counters are flow
   properites that potentially change each time a packets belonging to
   the flow is observed.  Per-flow counters are flow properites that
   potentially change each time a packet belonging to the flow is
   observed.  The set of per-flow counters includes the information
   elements listed in the table below.

   +-------+-------------------------+-------+-------------------------+
   |    ID | Field Name              |    ID | Field Name              |
   +-------+-------------------------+-------+-------------------------+
   |     1 | inOctetDeltaCount       |   132 | droppedOctetDeltaCount  |
   |    23 | outOctetDeltaCount      |   133 | droppedOctetTotalCount  |
   |   138 | octetDeltaCount         |   134 | droppedPacketDeltaCount |
   |    85 | inOctetTotalCount       |   135 | droppedPacketTotalCount |
   |     2 | inPacketDeltaCount      |    19 | outMulticastPacketCount |
   |    24 | outPacketDeltaCount     |    20 | outMulticastOctetCount  |
   |   139 | packetDeltaCount        |       |                         |
   |    86 | inPacketTotalCount      |       |                         |
   +-------+-------------------------+-------+-------------------------+






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5.7.1  inOctetDeltaCount
   Description:
      The number of octets in incoming packets observed for this flow at
      the Observation Point since the previous report (if any).  The
      number of octets include IP header(s) and IP payload.

   Abstract Data Type: unsigned64

   Data Type Semantics: deltaCounter

   FieldId: 1

   Applicability: data

   Status: current

   Units: octets

5.7.2  outOctetDeltaCount
   Description:
      The number of octets in outgoing packets observed for this flow at
      the Observation Point since the previous report (if any).  The
      number of octets include IP header(s) and IP payload.

   Abstract Data Type: unsigned64

   Data Type Semantics: deltaCounter

   FieldId: 23

   Applicability: data

   Status: current

   Units: octets

5.7.3  octetDeltaCount
   Description:
      The number of octets in all packets observed for this flow at the
      Observation Point since the previous report (if any).  The number
      of octets include IP header(s) and IP payload.

   Abstract Data Type: unsigned64

   Data Type Semantics: deltaCounter

   FieldId: 138




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   Applicability: data

   Status: current

   Units: octets

5.7.4  inOctetTotalCount
   Description:
      The running counter for the number of octets in incoming packets
      observed for this flow at the Observation Point since the Metering
      Process initialization for this Observation Point.  The number of
      octets include IP header(s) and IP payload.

   Abstract Data Type: unsigned64

   Data Type Semantics: totalCounter

   FieldId: 85

   Applicability: all

   Status: current

   Units: octets

5.7.5  inPacketDeltaCount
   Description:
      The number of incoming packets observed for this flow at the
      Observation Point since the previous report (if any).

   Abstract Data Type: unsigned64

   Data Type Semantics: deltaCounter

   FieldId: 2

   Applicability: data

   Status: current

   Units: packets

5.7.6  outPacketDeltaCount
   Description:
      The number of outgoing packets observed for this flow at the
      Observation Point since the previous report (if any).

   Abstract Data Type: unsigned64



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   Data Type Semantics: deltaCounter

   FieldId: 24

   Applicability: data

   Status: current

   Units: packets

5.7.7  packetDeltaCount
   Description:
      The number of all packets observed for this flow at the
      Observation Point since the previous report (if any).

   Abstract Data Type: unsigned64

   Data Type Semantics: deltaCounter

   FieldId: 139

   Applicability: data

   Status: current

   Units: packets

5.7.8  inPacketTotalCount
   Description:
      The running counter for the number of incoming packets observed
      for this flow at the Observation Point since the Metering Process
      initialization for this Observation Point.

   Abstract Data Type: unsigned64

   Data Type Semantics: totalCounter

   FieldId: 86

   Applicability: all

   Status: current

   Units: packets

5.7.9  droppedOctetDeltaCount





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   Description:
      The number of octets in packets of this flow dropped by packet
      treatment.

   Abstract Data Type: unsigned64

   Data Type Semantics: deltaCounter

   FieldId: 132

   Applicability: data

   Status: current

   Units: octets

5.7.10  droppedOctetTotalCount
   Description:
      The number of octets in packets of this flow dropped by packet
      treatment.

   Abstract Data Type: unsigned64

   Data Type Semantics: totalCounter

   FieldId: 133

   Applicability: data

   Status: current

   Units: octets

5.7.11  droppedPacketDeltaCount
   Description:
      The number of packets of this flow dropped by packet treatment.

   Abstract Data Type: unsigned64

   Data Type Semantics: deltaCounter

   FieldId: 134

   Applicability: data

   Status: current

   Units: packets



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5.7.12  droppedPacketTotalCount
   Description:
      The number of packets of this flow dropped by packet treatment.

   Abstract Data Type: unsigned64

   Data Type Semantics: totalCounter

   FieldId: 135

   Applicability: data

   Status: current

   Units: packets

5.7.13  outMulticastPacketCount
   Description:
      The number of outgoing multicast packets created for packets of
      this flow by an adjacent multicast daemon.  Note that typically
      not all of the created packets can be observed at the Observation
      Point of this flow.

   Abstract Data Type: unsigned64

   FieldId: 19

   Applicability: data

   Status: current

   Units: packets

5.7.14  outMulticastOctetCount
   Description:
      The number of octets in outgoing multicast packets created for
      packets of this flow by an adjacent multicast daemon.  Note that
      typically not all of the created packets can be observed at the
      Observation Point of this flow.

   Abstract Data Type: unsigned64

   FieldId: 20

   Applicability: data

   Status: current




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   Units: octets

5.8  Process Counters

   The set of counters related to the Metering Process and/or the
   Exporting Process exported includes the information elements listed
   in the table below.

   +-------+-------------------------+-------+-------------------------+
   |    ID | Field Name              |    ID | Field Name              |
   +-------+-------------------------+-------+-------------------------+
   |     3 | observedFlowTotalCount  |    41 | exportedPacketTotalCount|
   |    40 | exportedOctetToalCount  |    42 | exportedFlowTotalCount  |
   +-------+-------------------------+-------+-------------------------+


5.8.1  observedFlowTotalCount
   Description:
      The number of flows observed so far in the Observation Domain.

   Abstract Data Type: unsigned64

   Data Type Semantics: totalCounter

   FieldId: 3

   Applicability: data

   Status: current

   Units: flows

5.8.2  exportedOctetTotalCount
   Description:
      The number of all octets reported by the Exporting Process to this
      Collecting Process.

   Abstract Data Type: unsigned64

   Data Type Semantics: totalCounter

   FieldId: 40

   Applicability: data

   Status: current

   Units: octets



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5.8.3  exportedPacketTotalCount
   Description:
      The number of all packets reported by the Exporting Process to
      this Collecting Process.

   Abstract Data Type: unsigned64

   Data Type Semantics: totalCounter

   FieldId: 41

   Applicability: data

   Status: current

   Units: packets

5.8.4  exportedFlowTotalCount
   Description:
      The number of all flows records reported by the Exporting Process
      to this Collecting Process.

   Abstract Data Type: unsigned64

   FieldId: 42

   Applicability: data

   Status: current

   Units: flows




















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6.  Extending the Information Model

   A key requirement for IPFIX is to allow for extending the set of
   information items which are reported for flows.  This section defines
   the mechanism for extending this set.

   The IPFIX protocol carries flow records defined by a template.
   Multiple templates may be defined for a dialog between an Exporter
   and a Collector.  A given template identifies the information items
   and their order.  The means of identification of information items in
   a template is via a field ID.  Field Id's are unique identifiers
   administered by IANA.

   Extension is done by defining new Information elements, including the
   set of necessary information and possibly additional optional
   information for each element.  Each new information item MUST be
   assigned a unique fieldId as part of its definition.  These unique
   field ids are the connection between the record structure
   communicated by the protocol using templates and a consuming
   application.

   Enterprise-specific extensions may be made by enterprises with an SMI
   network management private enterprise code defined by IANA at
   http://www.iana.org/assignments/enterprise-numbers.
   Enterprise-specific field IDs do not need to be registered by IANA.
   The definition of a enterprise-specific information element MUST
   specify the enterprise ID as well as the enterprise-specified field
   ID and other mandatory field properties.  Before creating
   enterprise-specific fields, the general applicability of such
   information elements should be considered.  For generally applicable
   fields using IETF and IANA mechanisms for extending the information
   model is recommended.



















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7.  IANA Considerations

   IANA has to create a new registry for IPFIX field ID's.

   Appendix B defines an XML schema which may be used to create
   consistent machine readable extensions to the IPFIX information
   model.  This schema introduces a new namespace, which will be
   assigned by IANA according to RFC 3688.  Currently the name space for
   this schema is identified as http://www.ietf.org/ipfix.










































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8.  Security Considerations

   The IPFIX information model itself does not directly introduce
   security issues.  Rather it defines a set of attributes which may for
   privacy or business issues be considered sensitive information.

   The underlying protocol used to exchange the information described
   here must therefore apply appropriate procedures to guarantee the
   integrity and confidentiality of the exported information.  Such
   protocols are defined in separate documents, specifically the IPFIX
   Protocol document [IPFIX-PROTO].








































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9.  Acknowledgements

   The editors thank Benoit Claise for a lot of useful input on the
   field definitions.  Also many thanks to Thomas Dietz for developing
   the XSLT scripts that generate large portions of the text part of
   this document from the XML appendices.













































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10.  References

10.1  Normative Reference

   [1]  Claise, B., Fullmer, M., Calato, P. and R. Penno, "IPFIX
        Protocol Specification", IETF draft work in progress, January
        2004,
        <http://www.ietf.org/internet-drafts/draft-ietf-ipfix-protocol-0
        2.txt>.

10.2  Informative Reference

   [2]   Quittek, J., Zseby, T., Claise, B. and S. Zander, "Requirements
         for IP Flow Information Export", IETF draft work in progress,
         January 2004,
         <http://www.ietf.org/internet-drafts/draft-ietf-ipfix-reqs-15.t
         xt>.

   [3]   Sadasivan, G. and N. Brownlee, "Architecture Model for IP Flow
         Information Export", IETF draft work in progress, October 2003,
         <http://www.ietf.org/internet-drafts/draft-ietf-ipfix-arch-02.t
         xt>.

   [4]   Zseby, T., Penno, R., Claise, B. and N. Brownlee, "IPFIX
         Applicability", IETF draft work in progress, October 2003,
         <http://www.ietf.org/internet-drafts/draft-ietf-ipfix-as-01.txt
         >.

   [5]   Claise, B., "Cisco Systems NetFlow Services Export Version 9",
         RFC 3954, October 2004, <http://www.ietf.org/rfc/rfc3954.txt>.

   [6]   World Wide Web Consortium, "Extensible Markup Language (XML)
         1.0", W3C XML, February 1998,
         <http://www.w3.org/TR/1998/REC-xml-19980210>.

   [7]   World Wide Web Consortium, "XML Schema Part 1: Structures", W3C
         XML, May 2001,
         <http://www.w3.org/TR/2001/REC-xmlschema-1-20010502/>.

   [8]   World Wide Web Consortium, "XML Schema Part 2: Datatypes", W3C
         XML, May 2001,
         <http://www.w3.org/TR/2001/REC-xmlschema-2-20010502/datatypes.h
         tml>.

   [9]   Internet Protocol Detail Record Organization, "Network Data
         Management - Usage (NDM-U) For IP-Based Services Version
         3.1.1", October 2002,
         <http://www.ipdr.org/documents/NDM-U_3.1.1.pdf>.



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   [10]  Brownlee, N. and A. Blount, "Accounting Attributes and Record
         Formats", RFC 2924, Sept. 2000,
         <http://www.ietf.org/rfc/rfc2924.txt>.

   [11]  Rose, M., "Writing I-Ds and RFCs using XML", RFC 2629, June
         1999, <http://xml.resource.org/public/rfc/html/rfc2629.html>.

   [12]  Hollenbeck, S., Rose, M. and L. Masinter, "Guidelines for the
         Use of Extensible Markup Language (XML) within IETF Protocols",
         RFC 3470, January 2003, <http://www.ietf.org/rfc/rfc3470.txt>.

   [13]  Pras, A. and J. Schoenwaelder, "On the Difference between
         Information Models and Data Models", RFC 3444, January 2003,
         <http://www.ietf.org/rfc/rfc3444.txt>.

   [14]  Mealling, M., "The IETF XML Registry", RFC 3688, January 2004,
         <http://www.ietf.org/rfc/rfc3688.txt>.


Authors' Addresses

   Juergen Quittek
   NEC
   Kurfuersten-Anlage 36
   Heidelberg  69115
   Germany

   Phone: +49 6221 90511-15
   EMail: quittek@netlab.nec.de
   URI:   http://www.netlab.nec.de/


   Stewart Bryant
   Cisco Systems Ltd
   250, Longwater, Green Park
   Reading  RG2 6GB
   United Kingdom

   EMail: stbryant@cisco.com












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   Jeff Meyer
   PayPal
   2211 N. First St.
   San Jose, CA  95131-2021
   US

   Phone: +1 408 976-9149
   EMail: jemeyer@paypal.com
   URI:   http://www.paypal.com










































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Appendix A.  Formal Specification of IPFIX Fields

   This appendix contains a formal description of the IPFIX information
   model XML document.  Note that this appendix is of informational
   nature, while the text in section 4 generated from this appendix is
   normative.

   Using a formal and machine readable syntax for the Information model
   enables the creation of IPFIX aware tools which can automatically
   adapt to extensions to the information model, by simply reading
   updated information model specifications.

   The wide availability of XML aware tools and libraries for client
   devices is a primary consideration for this choice.  In particular
   libraries for parsing XML documents are readily available.  Also
   mechanisms such as the Extensible Stylesheet Language (XSL) allow for
   transforming a source XML document into other documents.  This draft
   was authored in XML and transformed according to RFC2629.

   It should be noted that the use of XML in Exporters, Collectors or
   other tools is not mandatory for the deployment of IPFIX.  In
   particular Exporting Processes do not produce or consume XML as part
   of their operation.  It is expected that IPFIX Collectors MAY take
   advantage of the machine readability of the Information Model vs.
   hardcoding their behavior or inventing proprietary means for
   accomodating extensions.


   <?xml version="1.0" encoding="UTF-8"?>
   <fieldDefinitions>

     <field name="ipVersion" dataType="octet"
            group="IpHeader"
            fieldId="60" applicability="all" status="current">
       <description>
         The IP version field given in the IP header.
       </description>
       <units>flows</units>
       <reference>
         <paragraph>
         See RFC 791 for a definition of the version field in the
         IPv6 packet header.
         See RFC 2460 for a definition of the version field in the
         IPv6 packet header.
         Additional information on defined version numbers
         can be found at
         http://www.iana.org/assignments/version-numbers.
         </paragraph>



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       </reference>
     </field>

     <field name="sourceIPv4Address" dataType="ipv4Address"
            group="IpHeader"
            fieldId="8" applicability="all" status="current">
       <description>
         <paragraph>
         IPv4 source address taken from the IP packet header of a
         packet of this flow.
         </paragraph>
       </description>
       <reference>
         See RFC 791 for the definition of the IPv4 source address
         field.
       </reference>
     </field>

     <field name="sourceIPv6Address" dataType="ipv6Address"
            group="IpHeader"
            fieldId="27" applicability="all" status="current">
       <description>
         <paragraph>
         IPv6 source address taken from the IP packet header of a
         packet of this flow.
         </paragraph>
       </description>
     </field>

     <field name="sourceIPv4Mask" dataType="octet"
            group="IpHeader"
            fieldId="9" applicability="option" status="current">
       <description>
         <paragraph>
         The number of contiguous bits that are relevant in the
         sourceAddressV4 field.
         </paragraph>
       </description>
       <units>bits</units>
       <range>0-32</range>
     </field>

     <field name="sourceIPv6Mask" dataType="octet"
            group="IpHeader"
            fieldId="29" applicability="option" status="current">
       <description>
         <paragraph>
         The number of contiguous bits that are relevant in the



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         sourceAddressV6 field.
         </paragraph>
       </description>
       <units>bits</units>
       <range>0-128</range>
     </field>

     <field name="sourceIPv4Prefix" dataType="ipV4Address"
            group="IpHeader"
            fieldId="44" applicability="data" status="current">
       <description>
         <paragraph> IPv4 source address prefix. </paragraph>
         <paragraph>
         EDITOR'S NOTE: to be discussed on ipfix mailing list
         </paragraph>
       </description>
       <units>flows</units>
     </field>

     <field name="destinationIPv4Address" dataType="ipv4Address"
            group="IpHeader"
            fieldId="12" applicability="all" status="current">
       <description>
         <paragraph>
         IPv4 destination address taken from the IP packet header of a
         packet of this flow.
         </paragraph>
       </description>
       <reference>
         See RFC 791 for the definition of the IPv4 destination address
         field.
       </reference>
     </field>

     <field name="destinationIPv6Address" dataType="ipv6Address"
            group="IpHeader"
            fieldId="28" applicability="all" status="current">
       <description>
         <paragraph>
         IPv6 destination address taken from the IP packet header of a
         packet of this flow.
         </paragraph>
       </description>
     </field>

     <field name="destinationIPv4Mask" dataType="octet"
            group="IpHeader"
            fieldId="13" applicability="option" status="current">



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       <description>
         <paragraph>
         The number of contiguous bits that are relevant in the
         destinationAddressV4 field.
         </paragraph>
       </description>
       <units>bits</units>
       <range>0-32</range>
     </field>

     <field name="destinationIPv6Mask" dataType="octet"
            group="IpHeader"
            fieldId="30" applicability="option" status="current">
       <description>
         <paragraph>
         The number of contiguous bits that are relevant in the
         destinationAddressV6 field.
         </paragraph>
       </description>
       <units>bits</units>
       <range>0-128</range>
     </field>

     <field name="destinationIPv4Prefix" dataType="ipV4Address"
            group="IpHeader"
            fieldId="45" applicability="data" status="current">
       <description>
         <paragraph> IPv4 destination address prefix. </paragraph>
         <paragraph>
         EDITOR'S NOTE: to be discussed on ipfix mailing list
         </paragraph>
       </description>
       <units>flows</units>
     </field>

     <field name="classOfServiceIPv4" dataType="octet"
            group="IpHeader"
            dataTypeSemantics="identifier"
            fieldId="5" applicability="all" status="current">
       <description>
         <paragraph>
         The value of the IPv4 TOS field observed for packets of this flow.
         </paragraph>
       </description>
       <reference>
         See RFC 791 for the definition of the IPv4 TOS field.
       </reference>
     </field>



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     <field name="classOfServiceV6" dataType="octet"
            group="IpHeader"
            fieldId="137" applicability="data" status="current">
       <description>
         <paragraph>
         The value of the IPv6 traffic class field observed
         for packets of this flow.
         </paragraph>
       </description>
       <reference>
         See RFC 2460 for the definition of the IPv6 traffic class field.
       </reference>
     </field>

     <field name="flowLabelV6" dataType="unsigned32"
            group="IpHeader"
            fieldId="31" applicability="all" status="current">
       <description>
         <paragraph>
         The Flow Label of the IPv6 packet header observed in the first packet
         of this flow.
         </paragraph>
       </description>
       <reference>
         See RFC 2460 for a definition of the flow label field in the
         IPv6 packet header.
       </reference>
     </field>

     <field name="identificationV4" dataType="unsigned16"
            group="IpHeader"
            dataTypeSemantics="identifier"
            fieldId="54" applicability="data" status="current">
       <description>
         <paragraph>
           The IPv4 packet identification field from the first
           packet of this flow.
         </paragraph>
       </description>
       <reference>
         See RFC 791 for the definition of the IPv4 identification field.
       </reference>
     </field>

     <field name="protocolIdentifier" dataType="octet"
            group="IpHeader"
            dataTypeSemantics="identifier"
            fieldId="4" applicability="all" status="current">



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       <description>
         <paragraph>
         The protocol number observed for packets of this flow.
         The protocol number identifies the IP packet payload.
         Protocol numbers are defined in the IANA Protocol Numbers
         registry.</paragraph>

         <paragraph>
         In Internet Protocol version 4 (IPv4) this is carried in
         the "Protocol" field. In Internet Protocol version 6 (IPv6)
         this is carried in the "Next Header" field in the last
         extension header of the packet.</paragraph>
       </description>
       <reference>
         <paragraph>
         See RFC 791 for the specification of the IPv4 protocol field.
         See RFC 2460 for the specification of the IPv6 protocol field.
         See list of protocol numbers assigned by IANA at
         http://www.iana.org/assignments/protocol-numbers.
         </paragraph>
       </reference>
     </field>

     <field name="sourceTransportPort" dataType="unsigned16"
            group="transportHeader"
            dataTypeSemantics="identifier"
            fieldId="7" applicability="all" status="current">
       <description>
         <paragraph>
         A source port identifier in the transport header. For transport
         protocols UDP, TCP and SCTP this is the source port number
         given in the respective header. This field MAY also be used
         for future transport protocols that have 16 bit source port
         identifiers.
         </paragraph>
       </description>
       <reference>
         <paragraph>
         See RFC 768 for the definition of the UDP source port field.
         See RFC 793 for the definition of the TCP source port field.
         See RFC 2960 for the definition of SCTP.</paragraph>
         <paragraph>
         Additional information on defined UDP and TCP port numbers
         can be found at http://www.iana.org/assignments/port-numbers.
         </paragraph>
       </reference>
     </field>




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     <field name="destinationtransportPort" dataType="unsigned16"
            group="transportHeader"
            dataTypeSemantics="identifier"
            fieldId="11" applicability="all" status="current">
       <description>
         <paragraph>
         A destination port identifier in the transport header.
         For transport protocols UDP, TCP and SCTP this is the
         destination port number given in the respective header.
         This field MAY also be used for future transport protocols
         that have 16 bit destination port identifiers.
         </paragraph>
       </description>
       <reference>
         <paragraph>
         See RFC 768 for the definition of the UDP source port field.
         See RFC 793 for the definition of the TCP source port field.
         See RFC 2960 for the definition of SCTP.  </paragraph>

         <paragraph>
         Additional information on defined UDP and TCP port numbers can
         be found at http://www.iana.org/assignments/port-numbers.
         </paragraph>
       </reference>
     </field>

     <field name="icmpTypeCode" dataType="unsigned16"
            group="transportHeader"
            fieldId="32" applicability="all" status="current">
       <description>
         <paragraph>
         Type and Code of the ICMP message. The combination of both values
         is reported as (ICMP type * 256) + ICMP code.
         </paragraph>
       </description>
       <reference>
         See RFC 792 for a definition of the ICMP type and code fields.
       </reference>
     </field>

     <field name="igmpType" dataType="octet"
            group="transportHeader"
            fieldId="33" applicability="all" status="current">
       <description>
         The type field of the IGMP message.
       </description>
       <reference>
         See RFC 2236 for a definition of the IGMP type field.



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       </reference>
     </field>

     <field name="sourceMacAddress" dataType="octetArray"
            group="subIpHeader"
            fieldId="56" applicability="data" status="current">
       <description>
         <paragraph>
           Packet identification field from the first IP packet of this flow.
         </paragraph>
       </description>
       <reference>
         See RFC 791 for the definition of the IPv4 identification field.
       </reference>
     </field>

     <field name="mplsLabelStackEntry1" dataType="unsigned32"
            group="subIpHeader"
            fieldId="70" applicability="all" status="current">
       <description>
         <paragraph>
         The label, exp and s fields from the outermost MPLS label
         stack entry e.g. the last label that was pushed last.
         </paragraph>
         <artwork>
       0                   1                   2
       0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3
      +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
      |                Label                  | Exp |S|
      +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

      Label:  Label Value, 20 bits
      Exp:    Experimental Use, 3 bits
      S:      Bottom of Stack, 1 bit
         </artwork>
       </description>
       <reference>
         See RFC 3032.
       </reference>
     </field>

     <field name="mplsLabelStackEntry2" dataType="unsigned32"
            group="subIpHeader"
            fieldId="71" applicability="all" status="current">
       <description>
         <paragraph>
         The label, exp and s fields from the LSE that was pushed
         immediately before the LSE that would be reported by



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         mplsLabelStackEntry1. See the definition of mplsLabelStackEntry1 for
         further details.
         </paragraph>
       </description>
       <reference>
         See RFC 3032.
       </reference>
     </field>

     <field name="mplsLabelStackEntry3" dataType="unsigned32"
            group="subIpHeader"
            fieldId="72" applicability="all" status="current">
       <description>
         <paragraph>
         The label, exp and s fields from the LSE that was pushed
         immediately before the LSE that would be reported by
         mplsLabelStackEntry2. See the definition of mplsLabelStackEntry1 for
         further details.
         </paragraph>
       </description>
       <reference>
         See RFC 3032.
       </reference>
     </field>

     <field name="mplsLabelStackEntry4" dataType="unsigned32"
            group="subIpHeader"
            fieldId="73" applicability="all" status="current">
       <description>
         <paragraph>
         The label, exp and s fields from the LSE that was pushed
         immediately before the LSE that would be reported by
         mplsLabelStackEntry3. See the definition of mplsLabelStackEntry1 for
         further details.
         </paragraph>
       </description>
       <reference>
         See RFC 3032.
       </reference>
     </field>

     <field name="mplsLabelStackEntry5" dataType="unsigned32"
            group="subIpHeader"
            fieldId="74" applicability="all" status="current">
       <description>
         <paragraph>
         The label, exp and s fields from the LSE that was pushed
         immediately before the LSE that would be reported by



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         mplsLabelStackEntry4. See the definition of mplsLabelStackEntry1 for
         further details.
         </paragraph>
       </description>
       <reference>
         See RFC 3032.
       </reference>
     </field>

     <field name="mplsLabelStackEntry6" dataType="unsigned32"
            group="subIpHeader"
            fieldId="75" applicability="all" status="current">
       <description>
         <paragraph>
         The label, exp and s fields from the LSE that was pushed
         immediately before the LSE that would be reported by
         mplsLabelStackEntry5. See the definition of mplsLabelStackEntry1 for
         further details.
         </paragraph>
       </description>
       <reference>
         See RFC 3032.
       </reference>
     </field>

     <field name="mplsLabelStackEntry7" dataType="unsigned32"
            group="subIpHeader"
            fieldId="76" applicability="all" status="current">
       <description>
         <paragraph>
         The label, exp and s fields from the LSE that was pushed
         immediately before the LSE that would be reported by
         mplsLabelStackEntry6. See the definition of mplsLabelStackEntry1 for
         further details.
         </paragraph>
       </description>
       <reference>
         See RFC 3032.
       </reference>
     </field>

     <field name="mplsLabelStackEntry8" dataType="unsigned32"
            group="subIpHeader"
            fieldId="77" applicability="all" status="current">
       <description>
         <paragraph>
         The label, exp and s fields from the LSE that was pushed
         immediately before the LSE that would be reported by



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         mplsLabelStackEntry7. See the definition of mplsLabelStackEntry1 for
         further details.
         </paragraph>
       </description>
       <reference>
         See RFC 3032.
       </reference>
     </field>

     <field name="mplsLabelStackEntry9" dataType="unsigned32"
            group="subIpHeader"
            fieldId="78" applicability="all" status="current">
       <description>
         <paragraph>
         The label, exp and s fields from the LSE that was pushed
         immediately before the LSE that would be reported by
         mplsLabelStackEntry8. See the definition of mplsLabelStackEntry1 for
         further details.
         </paragraph>
       </description>
       <reference>
         See RFC 3032.
       </reference>
     </field>

     <field name="mplsLabelStackEntry10" dataType="unsigned32"
            group="subIpHeader"
            fieldId="79" applicability="all" status="current">
       <description>
         <paragraph>
         The label, exp and s fields from the LSE that was pushed
         immediately before the LSE that would be reported by
         mplsLabelStackEntry9. See the definition of mplsLabelStackEntry1 for
         further details.
         </paragraph>
       </description>
       <reference>
         See RFC 3032.
       </reference>
     </field>

     <field name="ipNextHopIPv4Address" dataType="ipv4Address"
            group="derived"
            fieldId="15" applicability="data" status="current">
       <description>
         <paragraph>
         The IPv4 address of the next IP hop to which packets of
         this flow are forwarded.



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         </paragraph>
       </description>
     </field>

     <field name="ipNextHopIPv6Address" dataType="ipv6Address"
            group="derived"
            fieldId="62" applicability="data" status="current">
       <description>
         <paragraph>
         The IPv6 address of the next BGP hop to which packets of
         this flow are forwarded.
         </paragraph>
       </description>
     </field>

     <field name="ingressInterface" dataType="unsigned32"
            group="derived"
            dataTypeSemantics="identifier"
            fieldId="10" applicability="all" status="current">
       <description>
         <paragraph>
         The index of the IP interface (ifIndex) where packets of
         this flow are being received.
         </paragraph>
       </description>
       <reference>
         See RFC 2863 for the definition of the ifIndex object.
       </reference>
     </field>

     <field name="egressInterface" dataType="unsigned32"
            group="derived"
            dataTypeSemantics="identifier"
            fieldId="14" applicability="all" status="current">
       <description>
         <paragraph>
         The index of the IP interface (ifIndex) where packets of this
         flow are being sent.
         </paragraph>
       </description>
       <reference>
         See RFC 2863 for the definition of the ifIndex object.
       </reference>
     </field>

     <field name="ipNextHopAsNumber" dataType="unsigned16"
            group="derived"
            dataTypeSemantics="identifier"



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            fieldId="129" applicability="all" status="current">
       <description>
         <paragraph>
         The autonomous system (AS) number of the next IP hop to
         which packets of this flow are forwarded.
         </paragraph>
       </description>
       <reference>
         See RFC 1771 for a description of BGB-4 and
         see RFC 1930 a definition of the AS number.
       </reference>
     </field>

     <field name="bgpSourceAsNumber" dataType="unsigned16"
            group="derived"
            dataTypeSemantics="identifier"
            fieldId="16" applicability="all" status="current">
       <description>
         <paragraph>
         The autonomous system (AS) number of the source address in
         the IP packet header in a packet of this flow.
         </paragraph>
       </description>
       <reference>
         See RFC 1771 for a description of BGB-4 and
         see RFC 1930 a definition of the AS number.
       </reference>
     </field>

     <field name="bgpDestinationAsNumber" dataType="unsigned16"
            group="derived"
            dataTypeSemantics="identifier"
            fieldId="17" applicability="all" status="current">
       <description>
         <paragraph>
         The autonomous system (AS) number of the destination address
         in the IP packet header in a packet of this flow.
         </paragraph>
       </description>
       <reference>
         See RFC 1771 for a description of BGB-4 and
         see RFC 1930 a definition of the AS number.
       </reference>
     </field>

     <field name="bgpNextHopAsNumber" dataType="unsigned16"
            group="derived"
            dataTypeSemantics="identifier"



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            fieldId="128" applicability="all" status="current">
       <description>
         <paragraph>
         The autonomous system (AS) number of the next BGP hop to
         which packets of this flow are forwarded.
         </paragraph>
       </description>
       <reference>
         See RFC 1771 for a description of BGB-4 and
         see RFC 1930 a definition of the AS number.
       </reference>
     </field>

     <field name="bgpNextHopIPv4Address" dataType="ipv4Address"
            group="derived"
            fieldId="18" applicability="all" status="current">
       <description>
         <paragraph>
         The IPv4 address of the next BGP hop to which packets of
         this flow are forwarded.
         </paragraph>
       </description>
       <reference>
         See RFC 1771 for a description of BGB-4 and
         see RFC 1930 a definition of the AS number.
       </reference>
     </field>

     <field name="bgpNextHopIPv6Address" dataType="ipv6Address"
            group="derived"
            dataTypeSemantics="identifier"
            fieldId="63" applicability="all" status="current">
       <description>
         <paragraph>
         The IPv6 address of the next BGP hop to which packets of
         this flow are forwarded.
         </paragraph>
       </description>
       <reference>
         See RFC 1771 for a description of BGB-4.
         See RFC 1930 a definition of the AS number.
       </reference>
     </field>

     <field name="mplsTopLabelType" dataType="octet"
            group="derived"
            dataTypeSemantics="identifier"
            fieldId="46" applicability="data" status="current">



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       <description>
         <paragraph>
         MPLS top label type:
         <list>
         <item> 0x01 TE-MIDPT: Any TE tunnel mid-point or tail label</item>
         <item> 0x02 Pseudowire: Any PWE3 or Cisco AToM based label</item>
         <item> 0x03 VPN: Any label associated with VPN</item>
         <item> 0x04 BGP: Any label associated with BGP or BGP routing</item>
         <item> 0x05 LDP: Any label associated with dynamically assigned
                labels using LDP</item>
         </list>
         This field identifies the control protocol that allocated the
         top of stack label.
         </paragraph>
       </description>
     </field>

     <field name="mplsTopLabelIPv4Address" dataType="ipV4Address"
            group="derived"
            fieldId="47" applicability="data" status="current">
       <description>
         <paragraph>
           The IPv4 address of the system that the MPLS top label will
           cause this packet to be forwarded to.
         </paragraph>
       </description>
     </field>

     <field name="mplsTopLabelIPv6Address" dataType="ipV6Address"
            group="derived"
            fieldId="140" applicability="data" status="current">
       <description>
         <paragraph>
           The IPv4 address of the system that the MPLS top label will
           cause this packet to be forwarded to.
         </paragraph>
       </description>
     </field>

     <field name="exporterIPv4Address" dataType="ipv4Address"
            dataTypeSemantics="identifier"
            group="config"
            fieldId="130" applicability="all" status="current">
       <description>
         <paragraph>
         The IPv4 address used by the Exporting Process.
         This is used by the Collector to identify the Exporter
         in cases where the identity of the Exporter may have been



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         obscured by the use of a proxy.
         </paragraph>
       </description>
     </field>

     <field name="exporterIPv6Address" dataType="ipv6Address"
            dataTypeSemantics="identifier"
            group="config"
            fieldId="131" applicability="all" status="current">
       <description>
         <paragraph>
         The IPv6 address used by the Exporting Process.
         This is used by the Collector to identify the Exporter
         in cases where the identity of the Exporter may have been
         obscured by the use of a proxy.
         </paragraph>
       </description>
     </field>

     <field name="minimumPacketLength" dataType="unsigned16"
            group="minMax"
            fieldId="25" applicability="all" status="current">
       <description>
         <paragraph>
         Length of the smallest packet observed for this flow.
         </paragraph>
       </description>
       <units>octets</units>
     </field>

     <field name="maximumPacketLength" dataType="unsigned16"
            group="minMax"
            fieldId="26" applicability="all" status="current">
       <description>
         <paragraph>
         Length of the largest packet observed for this flow.
         </paragraph>
       </description>
       <units>octets</units>
     </field>

     <field name="minimumTTL" dataType="octet"
            group="minMax"
            fieldId="52" applicability="data" status="current">
       <description>
         <paragraph>
           Minimum TTL value observed for any packet in this flow.
         </paragraph>



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       </description>
     </field>

     <field name="maximumTTL" dataType="octet"
            group="minMax"
            fieldId="53" applicability="data" status="current">
       <description>
         <paragraph>
           Maximum TTL value observed for any packet in this flow.
         </paragraph>
       </description>
     </field>

     <field name="ipv6OptionHeaders" dataType="unsigned32"
            dataTypeSemantics="flags"
            group="minMax"
            fieldId="64" applicability="all" status="current">
       <description>
         <paragraph>
         IPv6 options in the IP packet headers of this flow.
         This is encoded as a bit field.
         </paragraph>
         <artwork>
      bit      IPv6 Option    Definition

       0                       Reserved
       1        44             Fragmentation header - not first fragment
       2        43             Routing header
       3        44             Fragmentation header - first fragment
       4                       Unknown Layer 4 header (compressed,
                               encrypted, not supported)
       5                       Reserved
       6         0             Hop-by-hop option header
       7        60             Destination option header
       8       108             Payload compression header
       9        51             Authentication Header
      10        50             Encrypted security payload
      11 to 31                 Reserved
         </artwork>
       </description>
       <reference>
         To be done.
       </reference>
     </field>

     <field name="tcpControlBits" dataType="octet"
            dataTypeSemantics="flags"
            group="minMax"



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            fieldId="6" applicability="all" status="current">
       <description>
         <paragraph>
         TCP control bits observed for packets of this flow.
         The value of this field is the result of a logical OR operation
         over the flags observed in all packets of the flow.
         This implies that a 0 value for a bit indicates that the
         respective bit was not set in any of the observed packets
         of this flow.
         </paragraph>
         <artwork>
          0     1     2     3     4     5     6     7
      +-----+-----+-----+-----+-----+-----+-----+-----+
      |  Reserved | URG | ACK | PSH | RST | SYN | FIN |
      +-----+-----+-----+-----+-----+-----+-----+-----+

      Reserved:  Reserved for future use by TCP.  Must be zero.
           URG:  Urgent Pointer field significant
           ACK:  Acknowledgment field significant
           PSH:  Push Function
           RST:  Reset the connection
           SYN:  Synchronize sequence numbers
           FIN:  No more data from sender
         </artwork>
       </description>
       <reference>See RFC 793 for a definition of the TCP control bits
       in the TCP header.</reference>
     </field>

     <field name="flowCreationTime" dataType="dateTimeSeconds"
            group="minMax"
            fieldId="22" applicability="data" status="current">
       <description>
         The timestamp of the first packet of this flow.
       </description>
     </field>

     <field name="flowEndTime" dataType="dateTimeSeconds"
            group="minMax"
            fieldId="21" applicability="data" status="current">
       <description>
         The timestamp of the last packet of this flow.
       </description>
     </field>

     <field name="flowActiveTimeOut" dataType="unsigned16"
            group="minMax"
            fieldId="36" applicability="all" status="current">



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       <description>
         <paragraph>
         The number of seconds after which an active flow is timed out
         anyway, even if there is still a continuous flow of packets.
         </paragraph>
       </description>
       <units>seconds</units>
     </field>

     <field name="flowInactiveTimeout" dataType="unsigned16"
            group="minMax"
            fieldId="37" applicability="all" status="current">
       <description>
         <paragraph>
          A flow is considered to be timed out if no packets belonging
          to the flow have been observed for the number of seconds
          specified by this field.
         </paragraph>
       </description>
       <units>seconds</units>
     </field>

     <field name="flowEndReason" dataType="octet"
            group="minMax"
            fieldId="136" applicability="data" status="current">
       <description>
         <paragraph>
         The reason for flow termination.
         <list>
           <item>idle timeout</item>
           <item>end of flow detected (e.g. TCP FIN)</item>
           <item>forced end</item>
           <item>cache full</item>
         </list>
         EDITORS' NOTE: This needs to be defined as an
         enumerated range.
         </paragraph>
       </description>
     </field>

     <field name="inOctetDeltaCount" dataType="unsigned64"
            dataTypeSemantics="deltaCounter"
            group="flowCounter"
            fieldId="1" applicability="data" status="current">
       <description>
         <paragraph>
         The number of octets in incoming packets observed for this
         flow at the Observation Point since the previous report (if any).



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         The number of octets include IP header(s) and IP payload.
         </paragraph>
       </description>
       <units>octets</units>
     </field>

     <field name="outOctetDeltaCount" dataType="unsigned64"
            dataTypeSemantics="deltaCounter"
            group="flowCounter"
            fieldId="23" applicability="data" status="current">
       <description>
         <paragraph>
         The number of octets in outgoing packets observed for this
         flow at the Observation Point since the previous report (if any).
         The number of octets include IP header(s) and IP payload.
         </paragraph>
       </description>
       <units>octets</units>
     </field>

     <field name="octetDeltaCount" dataType="unsigned64"
            dataTypeSemantics="deltaCounter"
            group="flowCounter"
            fieldId="138" applicability="data" status="current">
       <description>
         <paragraph>
         The number of octets in all packets observed for this
         flow at the Observation Point since the previous report (if any).
         The number of octets include IP header(s) and IP payload.
         </paragraph>
       </description>
       <units>octets</units>
     </field>

     <field name="inOctetTotalCount" dataType="unsigned64"
            dataTypeSemantics="totalCounter"
            group="flowCounter"
            fieldId="85" applicability="all" status="current">
       <description>
         <paragraph>
         The running counter for the number of octets in incoming packets
         observed for this flow at the Observation Point since the Metering
         Process initialization for this Observation Point. The
         number of octets include IP header(s) and IP payload.
         </paragraph>
       </description>
       <units>octets</units>
     </field>



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     <field name="inPacketDeltaCount" dataType="unsigned64"
            dataTypeSemantics="deltaCounter"
            group="flowCounter"
            fieldId="2" applicability="data" status="current">
       <description>
         <paragraph>
         The number of incoming packets observed for this flow at
         the Observation Point since the previous report (if any).
         </paragraph>
       </description>
       <units>packets</units>
     </field>

     <field name="outPacketDeltaCount" dataType="unsigned64"
            dataTypeSemantics="deltaCounter"
            group="flowCounter"
            fieldId="24" applicability="data" status="current">
       <description>
         <paragraph>
         The number of outgoing packets observed for this flow at
         the Observation Point since the previous report (if any).
         </paragraph>
       </description>
       <units>packets</units>
     </field>

     <field name="packetDeltaCount" dataType="unsigned64"
            dataTypeSemantics="deltaCounter"
            group="flowCounter"
            fieldId="139" applicability="data" status="current">
       <description>
         <paragraph>
         The number of all packets observed for this flow at
         the Observation Point since the previous report (if any).
         </paragraph>
       </description>
       <units>packets</units>
     </field>

     <field name="inPacketTotalCount" dataType="unsigned64"
            dataTypeSemantics="totalCounter"
            group="flowCounter"
            fieldId="86" applicability="all" status="current">
       <description>
         <paragraph>
         The running counter for the number of incoming packets observed for
         this flow at the Observation Point since the Metering Process
         initialization for this Observation Point.



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         </paragraph>
       </description>
       <units>packets</units>
     </field>

     <field name="droppedOctetDeltaCount" dataType="unsigned64"
            dataTypeSemantics="deltaCounter"
            group="flowCounter"
            fieldId="132" applicability="data" status="current">
       <description>
         <paragraph>
         The number of octets in packets of this flow dropped by packet treatment.
         </paragraph>
       </description>
       <units>octets</units>
     </field>

     <field name="droppedOctetTotalCount" dataType="unsigned64"
            dataTypeSemantics="totalCounter"
            group="flowCounter"
            fieldId="133" applicability="data" status="current">
       <description>
         <paragraph>
         The number of octets in packets of this flow dropped by packet treatment.
         </paragraph>
       </description>
       <units>octets</units>
     </field>

     <field name="droppedPacketDeltaCount" dataType="unsigned64"
            dataTypeSemantics="deltaCounter"
            group="flowCounter"
            fieldId="134" applicability="data" status="current">
       <description>
         <paragraph>
         The number of packets of this flow dropped by packet treatment.
         </paragraph>
       </description>
       <units>packets</units>
     </field>

     <field name="droppedPacketTotalCount" dataType="unsigned64"
            dataTypeSemantics="totalCounter"
            group="flowCounter"
            fieldId="135" applicability="data" status="current">
       <description>
         <paragraph>
         The number of packets of this flow dropped by packet treatment.



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         </paragraph>
       </description>
       <units>packets</units>
     </field>

     <field name="outMulticastPacketCount" dataType="unsigned64"
            group="flowCounter"
            fieldId="19" applicability="data" status="current">
       <description>
         <paragraph>
         The number of outgoing multicast packets created for packets
         of this flow by an adjacent multicast daemon.
         Note that typically not all of the created packets can be
         observed at the Observation Point of this flow.
         </paragraph>
       </description>
       <units>packets</units>
     </field>

     <field name="outMulticastOctetCount" dataType="unsigned64"
            group="flowCounter"
            fieldId="20" applicability="data" status="current">
       <description>
         <paragraph>
         The number of octets in outgoing multicast packets created
         for packets of this flow by an adjacent multicast daemon.
         Note that typically not all of the created packets can be
         observed at the Observation Point of this flow.
         </paragraph>
       </description>
       <units>octets</units>
     </field>

     <field name="observedFlowTotalCount" dataType="unsigned64"
            dataTypeSemantics="totalCounter"
            group="processCounter"
            fieldId="3" applicability="data" status="current">
       <description>
         <paragraph>
         The number of flows observed so far in the Observation Domain.
         </paragraph>
       </description>
       <units>flows</units>
     </field>

     <field name="exportedOctetTotalCount" dataType="unsigned64"
            dataTypeSemantics="totalCounter"
            group="processCounter"



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            fieldId="40" applicability="data" status="current">
       <description>
         <paragraph>
         The number of all octets reported by the Exporting Process
         to this Collecting Process.
         </paragraph>
       </description>
       <units>octets</units>
     </field>

     <field name="exportedPacketTotalCount" dataType="unsigned64"
            dataTypeSemantics="totalCounter"
            group="processCounter"
            fieldId="41" applicability="data" status="current">
       <description>
         <paragraph>
         The number of all packets reported by the Exporting Process
         to this Collecting Process.
         </paragraph>
       </description>
       <units>packets</units>
     </field>

     <field name="exportedFlowTotalCount" dataType="unsigned64"
            group="processCounter"
            fieldId="42" applicability="data" status="current">
       <description>
         <paragraph>
         The number of all flows records reported by the Exporting
         Process to this Collecting Process.
         </paragraph>
       </description>
       <units>flows</units>
     </field>

   </fieldDefinitions>















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Appendix B.  Formal Specification of Abstract Data Types

   This appendix containfs a formal description of the abstract data
   types to be used for IPFIX fields and a formal description of the
   template used for defining IPFIX fields.  Note that this appendix is
   of informational nature, while the text in sections 2 and 3 generated
   from this appendix is normative.


   <?xml version="1.0" encoding="UTF-8"?>
   <schema>
   <!-- <schema elementFormDefault="qualified"
           targetNamespace="http://www.ietf.org/ipfix"
           xmlns="http://www.w3.org/2001/XMLSchema"
           xmlns:ipfix="http://www.ietf.org/ipfix">  -->

     <simpleType name="dataType">
       <restriction base="string">
         <enumeration value="octet">
           <annotation>
             <documentation>The type "octet" represents a
               non-negative integer value in the range of 0 to 255.
             </documentation>
           </annotation>
         </enumeration>

         <enumeration value="unsigned16">
           <annotation>
             <documentation>The type "unsigned16" represents a
               non-negative integer value in the range of 0 to 65535.
             </documentation>
           </annotation>
         </enumeration>

         <enumeration value="unsigned32">
           <annotation>
             <documentation>The type "unsigned32" represents a
                non-negative integer value in the range of 0 to
                4294967295.
             </documentation>
           </annotation>
         </enumeration>

         <enumeration value="unsigned64">
           <annotation>
             <documentation>The type "unsigned64" represents a
               non-negative integer value in the range of 0 to
               18446744073709551615.



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             </documentation>
           </annotation>
         </enumeration>

         <enumeration value="float32">
           <annotation>
             <documentation>The type "float32" corresponds to an IEEE
               single-precision 32-bit floating point type.
             </documentation>
           </annotation>
         </enumeration>

         <enumeration value="boolean">
           <annotation>
             <documentation>The type "boolean" represents a binary
               value.
             </documentation>
           </annotation>
         </enumeration>

         <enumeration value="octetArray">
           <annotation>
             <documentation>The type "octetArray" represents a finite
               length string of octets.
             </documentation>
           </annotation>
         </enumeration>

         <enumeration value="string">
           <annotation>
             <documentation>
               The type "string" represents a finite length string
               of valid characters from the Unicode character
               encoding set.  Unicode allows for ASCII and many
               other international character sets to be used.
               It is expected that strings will be encoded in UTF-8
               format, which is identical in encoding for USASCII
               characters, but also accomodates other Unicode
               multibyte characters.
             </documentation>
           </annotation>
         </enumeration>

         <enumeration value="dateTimeSeconds">
           <annotation>
             <documentation>
               The type "dateTimeSeconds" represents a time value
               having a precision of seconds and normalized to the



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               GMT timezone.  Such types are in common use on many
               operating systems and have the advantage that they
               can be stored in 32-bit integers.
             </documentation>
           </annotation>
         </enumeration>

         <enumeration value="dateTimeMicroSeconds">
           <annotation>
             <documentation>The type "dateTimeSeconds" represents a
               time value having a precision of microseconds and
               normalized to the GMT timezone.
             </documentation>
           </annotation>
         </enumeration>

         <enumeration value="ipv4Address">
           <annotation>
             <documentation>The type "ipv4Addr" represents a value of
               an IPv4 address. These addresses are typically stored
               as 32-bit integers.
             </documentation>
           </annotation>
         </enumeration>

         <enumeration value="ipv6Address">
           <annotation>
             <documentation>The type "ipv6Addr" represents a value
               of an IPv6 address.
             </documentation>
           </annotation>
         </enumeration>
       </restriction>
     </simpleType>

     <simpleType name="dataTypeSemantics">
       <restriction base="string">
         <enumeration value="quantity">
           <annotation>
             <documentation>
               A quantity value represents a discrete
               measured value pertaining to the record. This is
               distinguished from counters which represent an ongoing
               measured value whose "odometer" reading is captured as
               part of a given record. If no semantic qualifier is
               given, the integral fields should behave as a quantity.
             </documentation>
           </annotation>



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         </enumeration>

         <enumeration value="totalCounter">
           <annotation>
             <documentation>
               A measurement which is ongoing from the perspective
               of the Exporter.  Basically the same semantics as
               counters in SNMP.  Counters are unsigned and wrap back
               to zero after reaching the limit of the type. For example, an
               unsigned64 with counter semantics will continue to
               increment until reaching the value of 2**64 - 1.
               At this point the next increment will wrap its value
               to zero and continue counting from zero.
               A running counter counts independent of the export
               of its value.
             </documentation>
           </annotation>
         </enumeration>

         <enumeration value="deltaCounter">
           <annotation>
             <documentation>
               A measurement which is ongoing from the perspective
               of the Exporter.  Basically the same semantics as
               counters in SNMP.  Counters are unsigned and wrap back
               to zero after reaching the limit of the type. For example, an
               unsigned64 with counter semantics will continue to
               increment until reaching the value of 2**64 - 1.
               At this point the next increment will wrap its value
               to zero and continue counting from zero.
               A delta counter is reset to zero each time its
               value is exported.
             </documentation>
           </annotation>
         </enumeration>

         <enumeration value="identifier">
           <annotation>
             <documentation>
               An integral value which serves as an identifier.
               Specifically mathematical operations on two
               identifiers (aside from the equality operation) are
               meaningless. For example, Autonomous System Id 1 * Autonomous
               System Id 2 is meaningless.
             </documentation>
           </annotation>
         </enumeration>




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         <enumeration value="flags">
           <annotation>
             <documentation>
               An integral value which actually represents a set of
               bit fields.  Logical operations are appropriate on
               such values, but not other mathematical operations.
               Flags should always be of an unsigned type.
             </documentation>
           </annotation>
         </enumeration>
       </restriction>
     </simpleType>

     <simpleType name="applicability">
       <restriction base="string">
         <enumeration value="data">
           <annotation>
             <documentation>
               Used for fields that are applicable to flow records
               only.
             </documentation>
           </annotation>
         </enumeration>

         <enumeration value="option">
           <annotation>
             <documentation>
               Used for fields that are applicable to option records
               only.
             </documentation>
           </annotation>
         </enumeration>

         <enumeration value="all">
           <annotation>
             <documentation>
               Used for fields that are applicable to flow records
               as well as to option records.
             </documentation>
           </annotation>
         </enumeration>
       </restriction>
     </simpleType>

     <simpleType name="status">
       <restriction base="string">
         <enumeration value="current">
           <annotation>



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             <documentation>
               Indicates that the field definition is that the
               definition is current and valid.
             </documentation>
           </annotation>
         </enumeration>

         <enumeration value="deprecated">
           <annotation>
             <documentation>
               Indicates that the field definition is obsolete, but
               it permits new/continued implementation in order to
               foster interoperability with older/existing
               implementations.
             </documentation>
           </annotation>
         </enumeration>

         <enumeration value="obsolete">
           <annotation>
             <documentation>
               Indicates that the field definition is obsolete and
               should not be implemented and/or can be removed if
               previously implemented.
             </documentation>
           </annotation>
         </enumeration>
       </restriction>
     </simpleType>

     <simpleType name="enumRange">
       <restriction base="string"/>
     </simpleType>

     <simpleType name="range">
       <restriction base="string"/>
     </simpleType>

     <complexType name="descriptionList">
       <sequence>
         <element maxOccurs="unbounded" minOccurs="1"
                  name="item" type="string">
           <annotation>
             <documentation>to be done ...</documentation>
           </annotation>
         </element>
       </sequence>
     </complexType>



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     <complexType name="text" mixed="true">
       <sequence>
         <element maxOccurs="unbounded" minOccurs="0"
                  name="paragraph" type="string">
           <annotation>
             <documentation>to be done ...</documentation>
           </annotation>
         </element>
         <element maxOccurs="unbounded" minOccurs="0"
                  name="list" type="ipfix:descriptionList">
           <annotation>
             <documentation>to be done ...</documentation>
           </annotation>
         </element>
       </sequence>
     </complexType>

     <element name="fieldDefinitions">
       <complexType>
         <sequence>
           <element maxOccurs="unbounded" minOccurs="1" name="field">
             <complexType>
               <sequence>
                 <element maxOccurs="1" minOccurs="1" name="description"
                          type="ipfix:text">
                   <annotation>
                     <documentation>
                       The semantics of this information element.
                       Describes how this field is derived from the
                       flow or other information available to the
                       observer.
                     </documentation>
                   </annotation>
                 </element>
   <!--
                 <element maxOccurs="1" minOccurs="0" name="usage"
                          type="ipfix:text">
                   <annotation>
                     <documentation>to be done ...</documentation>
                   </annotation>
                 </element>
   -->
                 <element maxOccurs="1" minOccurs="0" name="units"
                          type="string">
                   <annotation>
                     <documentation>
                       If the field is a measure of some kind, the
                       units identify what the measure is.



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                     </documentation>
                   </annotation>
                 </element>

                 <element maxOccurs="1" minOccurs="0" name="reference"
                          type="ipfix:text">
                   <annotation>
                     <documentation>
                       Identifies additional specifications which more
                       precisely define this item or provide additional
                       context for its use.
                     </documentation>
                   </annotation>
                 </element>

                 <element maxOccurs="1" minOccurs="0"
                          name="enumeratedRange" type="ipfix:enumRange">
                   <annotation>
                     <documentation>
                       Some items may have a specific set of numeric
                       identifiers associated with a set of discrete
                       values this element may take. The meaning of
                       each discrete value and a human readable name
                       should be assigned.
                     </documentation>
                   </annotation>
                 </element>

                 <element maxOccurs="1" minOccurs="0" name="range"
                          type="ipfix:range">
                   <annotation>
                     <documentation>
                       Some elements may only be able to take on a
                       restricted set of values which can be
                       expressed as a range (e.g. 0 through 511
                       inclusive). If this is the case, the valid
                       inclusive range should be specified.
                     </documentation>
                   </annotation>
                 </element>
               </sequence>

               <attribute name="name" type="string" use="required">
                 <annotation>
                   <documentation>
                     A unique and meaningful name for the information element.
                     The preferred spelling for the name is to use mixed
                     case if the name is compound, with an initial



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                     lower case letter, e.g., "sourceIpAddress".
                   </documentation>
                 </annotation>
               </attribute>

               <attribute name="dataType" type="ipfix:dataType"
                          use="required">
                 <annotation>
                   <documentation>
                     One of the types listed in section 3.1 of this document
                     or in an extension of the information model. The
                     type space for attributes is constrained to facilitate
                     implementation. The existing type space does however
                     encompass most basic types used in modern programming
                     languages, as well as some derived types (such as
                     IPAddress) which are common to this domain and useful
                     to distinguish.
                   </documentation>
                 </annotation>
               </attribute>

               <attribute name="dataTypeSemantics"
                          type="ipfix:dataTypeSemantics" use="optional">
                 <annotation>
                   <documentation>
                     The integral types may be qualified by additional
                     semantic details. Valid values for the data type
                     semantics are specified in section 3.2 of this
                     document or in an extension of the information model.
                   </documentation>
                 </annotation>
               </attribute>

               <attribute name="fieldId" type="nonNegativeInteger"
                          use="required">
                 <annotation>
                   <documentation>
                     A numeric identifier administered by IANA.
                     This is used for compact identification of an
                     information item when encoding templates in the
                     protocol.
                   </documentation>
                 </annotation>
               </attribute>

               <attribute name="enterpriseId" type="nonNegativeInteger"
                          use="optional">
                 <annotation>



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                   <documentation>
                     When extension is done outside of the scope of
                     the IANA IPFIX fieldId range, a enterpriseId MUST
                     be provided.  Valid values for the enterpriseId are
                     defined by IANA as SMI network management private
                     enterprise code. They are defined at
                     http://www.iana.org/assignments/enterprise-numbers.
                   </documentation>
                 </annotation>
               </attribute>

               <attribute name="applicability"
                          type="ipfix:applicability" use="required">
                 <annotation>
                   <documentation>This propoerty of an information element
                   indicates in which kind of records the element can be used.
                   Allowed values for this property are 'data', 'option', and
                   'all'.</documentation>
                 </annotation>
               </attribute>

               <attribute name="status" type="ipfix:status"
                          use="required">
                 <annotation>
                   <documentation>The status of the specification of this
                     information element.  Allowed values are 'current',
                     'deprecated', and 'obsolete'.
                   </documentation>
                 </annotation>
               </attribute>

               <attribute name="group" type="string"
                          use="required">
                 <annotation>
                   <documentation>to be done ...</documentation>
                 </annotation>
               </attribute>

             </complexType>
           </element>
         </sequence>
       </complexType>

       <unique name="fieldIdUnique">
         <selector xpath="field"/>

         <field xpath="fieldId"/>
       </unique>



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     </element>
   </schema>

















































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Intellectual Property Statement

   The IETF takes no position regarding the validity or scope of any
   Intellectual Property Rights or other rights that might be claimed to
   pertain to the implementation or use of the technology described in
   this document or the extent to which any license under such rights
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   on the procedures with respect to rights in RFC documents can be
   found in BCP 78 and BCP 79.

   Copies of IPR disclosures made to the IETF Secretariat and any
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   such proprietary rights by implementers or users of this
   specification can be obtained from the IETF on-line IPR repository at
   http://www.ietf.org/ipr.

   The IETF invites any interested party to bring to its attention any
   copyrights, patents or patent applications, or other proprietary
   rights that may cover technology that may be required to implement
   this standard.  Please address the information to the IETF at
   ietf-ipr@ietf.org.


Disclaimer of Validity

   This document and the information contained herein are provided on an
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   OR IS SPONSORED BY (IF ANY), THE INTERNET SOCIETY AND THE INTERNET
   ENGINEERING TASK FORCE DISCLAIM ALL WARRANTIES, EXPRESS OR IMPLIED,
   INCLUDING BUT NOT LIMITED TO ANY WARRANTY THAT THE USE OF THE
   INFORMATION HEREIN WILL NOT INFRINGE ANY RIGHTS OR ANY IMPLIED
   WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.


Copyright Statement

   Copyright (C) The Internet Society (2005).  This document is subject
   to the rights, licenses and restrictions contained in BCP 78, and
   except as set forth therein, the authors retain all their rights.


Acknowledgment

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




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