Internet Draft                                                J. Quittek
Document: draft-ietf-ipfix-reqs-07.txt                   NEC Europe Ltd.
Expires: March 2003                                             T. Zseby
                                                               FhI FOKUS
                                                               B. Claise
                                                           Cisco Systems
                                                               S. Zander
                                                                G. Carle
                                                               FhI FOKUS
                                                            K.C. Norseth
                                                              Consultant

                                                          September 2002


              Requirements for IP Flow Information Export

                     <draft-ietf-ipfix-reqs-07.txt>

Status of this Memo

   This document is an Internet-Draft and is in full conformance with
   all provisions of Section 10 of [RFC 2026]. Internet-Drafts are
   working documents of the Internet Engineering Task Force (IETF), its
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   Distribution of this document is unlimited.

Copyright Notice

   Copyright (C) The Internet Society (2001). All Rights Reserved.


Abstract

   This memo defines requirements for the export of measured IP flow
   information out of routers, traffic measurement probes and
   middleboxes.


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Table of Contents

   1 Introduction .................................................    3
   2 Terminology ..................................................    3
   2.1 IP Traffic Flow ............................................    3
   2.2 Observation Point ..........................................    4
   2.3 Metering Process ...........................................    4
   2.4 Flow Record ................................................    5
   2.5 Exporting Process ..........................................    5
   2.6 Collecting Process .........................................    5
   3 Applications Requiring IP Flow Information Export ............    5
   3.1 Usage-based Accounting .....................................    6
   3.2 Traffic Profiling ..........................................    6
   3.3 Traffic Engineering ........................................    6
   3.4 Attack/Intrusion Detection .................................    7
   3.5 QoS Monitoring .............................................    7
   4 Distinguishing Flows .........................................    8
   4.1 Interfaces .................................................    8
   4.2 IP Header Fields ...........................................    9
   4.3 Transport Header Fields ....................................    9
   4.4 MPLS Label .................................................    9
   4.5 DiffServ Code Point ........................................    9
   4.6 Header Compression and Encryption ..........................    9
   5 Metering Process .............................................   10
   5.1 Reliability ................................................   10
   5.2 Sampling ...................................................   10
   5.3 Overload Behavior ..........................................   11
   5.4 Timestamps .................................................   11
   5.5 Time Synchronization .......................................   11
   5.6 Flow Expiration ............................................   12
   5.7 Multicast Flows ............................................   12
   5.8 Ignore Port Copy ...........................................   12
   6 Data Export ..................................................   13
   6.1 Information Model ..........................................   13
   6.2 Data Model .................................................   15
   6.3 Data Transfer ..............................................   15
   6.3.1 Congestion Awareness .....................................   15
   6.3.2 Reliability ..............................................   15
   6.3.3 Security .................................................   16
   6.4 Push and Pull Mode Reporting ...............................   16
   6.5 Regular Reporting Interval .................................   16
   6.6 Notification on Specific Events ............................   16
   6.7 Anonymization ..............................................   16
   7 Configuration ................................................   17
   7.1 Configuration of the Metering Process ......................   17
   7.2 Configuration of the Exporting Process .....................   16
   8 General Requirements .........................................   18
   8.1 Openness ...................................................   18
   8.2 Scalability ................................................   18
   8.3 Several Collecting Processes ...............................   18


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   9 Special Device Considerations ................................   18
   10 Security Considerations .....................................   20
   10.1 Disclosure of Flow Information Data .......................   21
   10.2 Forgery of Flow Records ...................................   21
   10.3 Denial of Service (DoS) Attacks ...........................   22
   11 Acknowledgments .............................................   22
   12 References ..................................................   22
   13 Authors' Addresses ..........................................   23
   14 Full Copyright Statement ....................................   24
   Appendix: Derivation of Requirements from Applications .........   25


1.  Introduction

   There are several applications that require flow-based IP traffic
   measurements. Such measurements could be performed by a router while
   forwarding the traffic, by a middlebox [RFC3234], or by a traffic
   measurement probe attached to a line or a monitored port. This memo
   defines requirements for exporting traffic flow information out of
   these boxes for further processing by applications located on other
   devices. In section 3, a selection of such applications is presented.
   The following sections list requirements derived from these
   applications.

   The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
   "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
   document are to be interpreted as described in [RFC2119].


2.  Terminology

   The following terminology is used within this document:

2.1.  IP Traffic Flow

   There are several definitions of the term 'flow' being used by the
   Internet community. Within this document we use the following one:

   A flow is defined as a set of IP packets passing an observation point
   in the network during a certain time interval. All packets belonging
   to a particular flow have a set of common properties. Each property
   is defined as the result of applying a function to the values of:

      1. one or more packet header field (e.g. destination IP address),
         transport header field (e.g. destination port number), or
         application header field (e.g. RTP header fields)

      2. one or more characteristics of the packet itself (e.g. number
         of MPLS labels, etc...)


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      3. one or more of fields derived from packet treatment (e.g. next
         hop IP address, the output interface, etc...)

   A packet is defined to belong to a flow if it completely satisfies
   all the defined properties of the flow.

   This definition covers the range from a flow containing all packets
   observed at a network interface to a flow consisting of just a single
   packet between two applications with a specific sequence number.
   Please note that the flow definition does not necessarily match a
   general application-level end-to-end stream. However, an application
   may derive properties of application-level streams by processing
   measured flow data.

2.2.  Observation Point

   The observation point is a location in the network where IP packets
   can be observed. Examples are a line to which a probe is attached, a
   shared medium, such as an Ethernet-based LAN, a single port of a
   router, or a set of interfaces (physical or logical) of a router.

   Note that one observation point may be a superset of several other
   observation points. For example one observation point can be an
   entire line card. This would be the superset of the individual
   observation points at the line card's interfaces.

2.3.  Metering Process

   The metering process generates flow records. Input to the process are
   packet headers observed at an observation point and packet treatment
   at the observation point, for example the selected output interface.
   The metering process consists of a set of functions that includes
   packet header capturing, timestamping, sampling, classifying, and
   maintaining flow records.

   The maintenance of flow records may include creating new records,
   updating existing ones, computing flow statistics, deriving further
   flow properties, detecting flow expiration, passing flow records to
   the exporting process, and deleting flow records.

   The sampling function and the classifying function may be applied
   more than once with different parameters. Figure 1 shows the sequence
   in which the functions are applied. Sampling is not illustrated in
   the figure, it may be applied before any other function.







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                           packet header capturing
                                     |
                                timestamping
                                     |
                                     v
                              +----->+
                              |      |
                              | classifying
                              |      |
                              +------+
                                     |
                          maintaining flow records
                                     |
                                     v


                 Figure 1: Functions of the metering process

2.4.  Flow Record

   A flow record contains information about a specific flow that was
   metered at an observation point. A flow record contains measured
   properties of the flow (e.g. the total number of bytes of all packets
   of the flow) and usually also characteristic properties of the flow
   (e.g. source IP address).

2.5.  Exporting Process

   The exporting process sends flow records to one or more collecting
   processes. The flow records are generated by one or more metering
   processes.

2.6.  Collecting Process

   The collecting process receives flow records from one or more
   exporting processes. The collecting process might store received flow
   records or further process them, but these actions are out of the
   scope of this document.


3.  Applications Requiring IP Flow Information Export

   This section describes a selection of applications requiring IP flow
   information export. Because requirements for flow export listed in
   further sections below are derived from these applications, their
   selection is crucial. The goal of this requirements document is not
   to cover all possible applications with all their flow export
   requirements, but to cover applications which are considered to be of
   significant importance in today's and/or future IP networks, and for
   which requirements can be met with reasonable technical effort.


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   Please note, that the described applications can have a large number
   of differing implementations. Requirement details or the weighting of
   requirements could differ for specific implementations. Therefore we
   derive the requirements from the general functionality of the
   selected applications.

   The list of applications should lead to a better understanding of the
   requirements which is particularly important when designing or
   implementing traffic flow metering functions. A detailed overview of
   which requirement was derived from which application(s) is given in
   the appendix.

3.1.  Usage-based Accounting

   Several new business models for selling IP services and IP-based
   services are currently under investigation. Beyond flat rate services
   which do not need accounting, accounting can be based on time or
   volume. Accounting data can serve as input for billing systems.
   Accounting can be performed per user or per user group, it can be
   performed just for basic IP service or individually per high-level
   service and/or per content type delivered. For advanced/future
   services, accounting may also be performed per class of service, per
   application, per time of day, per used (label switched) path, etc.

3.2.  Traffic Profiling

   Traffic profiling is the process of characterizing IP flows by using
   a model that represents key parameters of the flows such as flow
   duration, volume, time and burstiness. It is a prerequisite for
   network planning, network dimensioning, trend analysis, business
   models development, and other activities. It heavily depends on the
   particular traffic profiling objective(s) what statistics and
   accuracy are required from the measurements. Typical information
   needed for traffic profiling is the distribution of used services and
   protocols in the network, the amount of packets of a specific type
   (e.g. percentage of IPv6 packets) and specific flow profiles.

   Since objectives for traffic profiling can vary, this application
   requires a high flexibility of the measurement infrastructure,
   especially regarding the options for measurement configuration and
   packet classification.

3.3.  Traffic Engineering

   Traffic Engineering (TE) comprises methods for measurement, modeling,
   characterization and control of a network. The goal of TE is the
   optimization of network resource utilization and traffic performance
   [RFC2702]. Since control and administrative reaction to measurement
   results requires access to the involved network nodes, TE mechanisms
   and the required measurement function usually are performed within


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   one administrative domain. Typical parameters required for TE are
   link utilization, load between specific network nodes, number, size
   and entry/exit points of the active flows and routing information.

3.4.  Attack/Intrusion Detection

   Capturing of flow information plays an important role for network
   security, both for detection of security violation, and for
   subsequent defense. In case of a Denial of Service (DOS) attack, flow
   monitoring can allow detection of unusual situations or suspicious
   flows. In a second step, flow analysis can be performed in order to
   gather information about the attacking flows, and for deriving a
   defense strategy.

   Intrusion detection is a potentially more demanding application which
   would not only look at specific characteristics of flows, but may
   also use a stateful packet flow analysis for detecting specific,
   suspicious activities, or unusually frequent activities. Such
   activities may be characterized by specific communication patterns,
   detectable by characteristic sequences of certain packet types.

3.5.  QoS Monitoring

   QoS monitoring is the passive measurement of quality parameters for
   IP flows. In contrast to active measurements, passive measurements
   utilize the existing traffic in the network for QoS analysis. Since
   no test traffic is sent, passive measurements can only be applied in
   situations where the traffic of interest is already present in the
   network. One example application is the validation of QoS parameters
   negotiated in a service level specification (SLS). Note that
   passive/active measurement is also referred to as non-
   intrusive/intrusive measurement or as measurement of
   observed/synthetic traffic.

   Passive measurements cannot provide the kind of controllable
   experiments that can be achieved with active measurements. On the
   other hand passive measurements do not suffer from undesired side
   effects caused by sending test traffic (e.g. additional load,
   potential differences in treatment of test traffic and real customer
   traffic).

   QoS monitoring often requires the correlation of data from multiple
   observation points (e.g. for measuring one-way metrics). This
   requires proper clock synchronization of the involved metering
   processes. For some measurements, flow records and/or notifications
   on specific events at the different observation points must be
   correlated, for example the arrival of a certain packet. For this,
   the provisioning of post-processing functions (e.g. the generation of
   packet IDs) at the metering processes would be useful. Since QoS
   monitoring can lead to a huge amount of measurement result data, it


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   would highly benefit from mechanisms to reduce the measurement data,
   like aggregation of results and sampling.

   Please note that not all requirements for QoS monitoring are covered
   by the IPFIX requirements specified in the following sections. The
   IPFIX requirements are targeted at per flow information including
   summaries of per-packet properties for packets within a flow, but not
   per-packet information itself. For example jitter measurement
   requires timestamping each packet and reporting of all timestamps of
   a flow, but the IPFIX requirements only cover timestamps of first and
   last packet of a flow.


4.  Distinguishing Flows

   Packets are mapped to flows by evaluating their properties. Packets
   with common properties are considered to belong to the same flow. A
   packet showing at least one difference in the set of properties is
   considered to belong to a different flow.

   The following subsections list a set of properties which a metering
   process MUST, SHOULD, or MAY be able to evaluate for mapping packets
   to flows. Please note that requiring the ability to evaluate a
   certain property does not imply that this property must be evaluated
   for each packet.

   In other words, meeting the IPFIX requirements means that the
   metering process in general must be able, via its configuration, to
   somehow support to distinguish flows via all the MUST fields, even if
   in certain circumstances/for certain applications, only a subset of
   the MUST fields is needed and effectively used to distinguish flows.

   Which combination of properties is used for distinguishing flows and
   how these properties are evaluated depends on the configuration of
   the metering process. The configured choice of evaluated properties
   strongly depends on the environment and purpose of the measurement
   and on the information required by the collecting process.

   For specific deployments, only a subset of the REQUIRED properties
   listed below can be used to distinguish flows, for example in order
   to aggregate the flow records and reduce the number of flow records
   exported. On the other hand, some other deployments will require
   distinguishing flows by some extra parameters, like for example the
   TTL field of the IP header or the BGP Autonomous System number
   [RFC1771] of the IP destination address.

4.1.  Interfaces

   The metering process MUST be able to separate flows by the incoming
   interface or by the outgoing interface or by both of them.


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4.2.  IP Header Fields

   The metering process MUST, SHOULD, or MAY be able to separate flows
   by the following fields of the IP header as indicated.

      1. source IP address (MUST)

      2. destination IP address (MUST)

      3. protocol type (TCP,UDP,ICMP,...) (MUST)

      4. IP version number (SHOULD)
         This requirement only applies if the observation point is
         located at a device that is supporting more than one version of
         IP.

   For source address and destination address, separating by full match
   MUST be supported as well as separation by prefix match.

4.3.  Transport Header Fields

   The metering process MUST be able to separate flows by the port
   numbers of the transport header in case of TCP or UDP being used as
   transport protocol. Both, source and destination port number MUST be
   supported for distinguishing flows, individually as well as in
   combination.

4.4.  MPLS Label

   If the observation point is located at a device supporting
   Multiprotocol Label Switching (MPLS, see [RFC3031]) then the metering
   process MUST be able to separate flows by the MPLS label.

4.5.  DiffServ Code Point

   If the observation point is located at a device supporting
   Differentiated Services (DiffServ) then the metering process MUST be
   able to separate flows by the DiffServ Code Point (DSCP, see
   [RFC2474]).

4.6.  Header Compression and Encryption

   If header compression or encryption is used, the metering process
   might not be able to access all header fields. A metering process
   MUST meet the requirements stated in this section 4 only for packets
   that have the relevant header fields not compressed and not
   encrypted.




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5.  Metering Process

   The following are requirements for the metering process. All
   measurements MUST be conducted from the point of view of the
   observation point.

5.1.  Reliability

   The metering process MUST either be reliable or missing reliability
   MUST be known and indicated. The metering process is reliable if each
   packet passing the observation point is metered according to the
   configuration of the metering process. If, e.g. due to some overload,
   not all passing packets can be included into the metering process,
   then the metering process MUST be able to detect this failure and to
   report about it.

5.2.  Sampling

   Sampling describes the systematic or random selection of a subset of
   elements (the sample) out of a set of elements (the parent
   population). Usually the purpose of applying sampling techniques is
   to estimate a parameter of the parent population by using only the
   elements of the subset. Sampling techniques can be applied for
   instance to select a subset of packets out of all packets of a flow
   or to select a subset of flows out of all flows on a link. Sampling
   methods differ in their sampling strategy (e.g. systematic or random)
   and in the event that triggers the selection of an element. The
   selection of one packet can for instance be triggered by its arrival
   time (time-based sampling), by its position in the flow (count-based
   sampling) or by the packet content (content-based sampling).

   The metering process MAY support packet sampling. If sampling is
   supported the sampling configuration MUST be well defined. The
   sampling configuration includes the sampling method and all its
   parameters.

   If the sampling configuration is changed during operation, the new
   sampling configuration with its parameters MUST be indicated to all
   collecting processes receiving the affected flow records. Changing
   the sampling configuration includes: start sampling, stop sampling,
   change sampling method, and change sampling parameter.

   In case of any change in the sampling configuration, all flow records
   metered by the previous sampling configuration MUST be terminated and
   exported according to the export configuration. The metering process
   MUST NOT merge the flow records generated with the new sampling
   configuration with the flow records generated with the previous
   sampling configuration.



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5.3.  Overload Behavior

   In case of an overload, for example lack of memory or processing
   power, the metering process MAY change its behavior in order to cope
   with the lack of resources. Possible reactions include:

      -  Reduce the number of flows to be metered. This can be achieved
         by more coarse-grained flow measurement or by a restriction of
         the flow records to a subset of the set of original ones.

      -  Start sampling packets before they are processed by the
         metering process or - if sampling is already performed - reduce
         the sampling frequency.

      -  Stop metering.

      -  Reducing the resource usage of competing processes on the same
         device.  Example: reducing the packet forwarding throughput

   Overload behavior is not restricted to the four options listed above.
   But in case the overload behavior induces a change of the metering
   process behavior, the overload behavior MUST be clearly defined.

   For some flows, the change of behavior might have an impact on the
   data that would be stored in the associated flow records after the
   change, for example if the packet classification is changed or the
   sampling frequency. These flows MUST be considered as terminated and
   the associated flow records MUST be exported separately from new ones
   generated after the behavior change. The terminated flow records and
   new ones generated after the behavior change MUST NOT be merged by
   the metering process. The collecting process MUST be able to
   distinguish the affected flow records generated before and after the
   change of behavior. This requirement does not apply to flows and
   associated flow records not affected by the change of metering
   process behavior.

5.4.  Timestamps

   The metering process MUST be able to generate timestamps for the
   first and the last observation of a packet of a flow at the
   observation point. The timestamp resolution MUST be at least the one
   of the sysUpTime [RFC1213], which is one centisecond.

5.5.  Time Synchronization

   It MUST be possible to synchronize timestamps generated by a metering
   process with Coordinated Universal Time (UTC).

   Note that the possibility of synchronizing timestamps of each single
   metering process with UTC implies the possibility of synchronizing


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   timestamps generated by different metering processes.

   Note that this does not necessarily imply that timestamps generated
   by the metering process are UTC timestamps. For example, this
   requirement can be met by using local system clock values as
   timestamps and adding an additional timestamp when exporting a report
   to a collecting process. Then the collecting process can synchronize
   the timestamps by calculating the offset between UTC and the system
   clock of the metering process.

5.6.  Flow Expiration

   The metering process MUST be able to detect flow expirations. A flow
   is considered to be expired if no packet of this flow has been
   observed for a given timeout interval. The metering process MAY
   support means for detecting the expiration of a flow before a timeout
   occurs, for example by detecting the FIN or RST bits in a TCP
   connection. The procedure for detecting a flow expiration MUST be
   clearly defined.

5.7.  Multicast Flows

   For multicast flows containing packets replicated to multiple output
   interfaces, the metering process SHOULD be able to maintain discrete
   flow records per different output interface. For example, the
   metering process SHOULD be able to report an incoming multicast
   packet that is replicated to four output interfaces in four different
   flow records that differ by the output interface.

5.8.  Packet Fragmentation

   In case of IP packet fragmentation and depending on the
   classification scheme, only the zero-offset fragment of a single
   initial packet might contain sufficient information to classify the
   packet. Note that this fragment should be the first one generated by
   the router imposing the fragmentation [RFC791], but might not be the
   first one observed by the IPFIX device, due reordering reasons. The
   metering process MAY keep state of IP packet fragmentation in order
   to map fragments that do not contain sufficient header information
   correctly to flows.

5.9.  Ignore Port Copy

   The metering process MAY be able to ignore packets which are
   generated by a port copy function acting at the device where the
   observation point of a flow is located.





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6.  Data Export

   The following are requirements for exporting flow records out of the
   exporting process. Beside requirements on the data transfer, we
   separate requirements concerning the information model from
   requirements concerning the data model. Furthermore, we list
   requirements on reporting times, notification on specific events, and
   on anonymization of flow records.

6.1.  Information Model

   The information model for the flow information export is the list of
   attributes of a flow to be contained in the report (including the
   semantics of the attributes).

   This section lists attributes an exporting process MUST, SHOULD or
   MAY be able to report. This does not imply that each exported flow
   record MUST contain all REQUIRED attributes. But it implies that it
   MUST be possible to configure the exporting process in a way that the
   information of all REQUIRED attributes can be transmitted from the
   exporting process to the receiving collecting process(es) for each
   exported flow.

   In other words, meeting the IPFIX requirements means that the
   exporting process in general must be able, via its configuration, to
   somehow support to report all the MUST fields, even if in certain
   circumstance or for certain applications, only a subset of the set of
   all MUST fields is needed and effectively reported.

   Beyond that, the exporting process might offer to report further
   attributes not mentioned here. A particular flow record may contain
   some of the "REQUIRED" attributes as well as some additional ones,
   for example covering future technologies.

   This document does not impose that the following attributes are
   reported for every single flow record, especially for repetitive
   attributes. For example, if the observation point is the incoming
   packet stream at the IP interface with the ifIndex value 3, then this
   observation point does not have to be exported as part of every
   single flow record. Exporting it just once might give sufficient
   information to the collecting process.

   The exporting process MUST be able to report the following attributes
   for each metered flow:

      1. IP version number
         This requirement only applies if the observation point is
         located at a device supporting more than one version of IP.
      2. source IP address
      3. destination IP address


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      4. IP protocol type (TCP,UDP,ICMP,...)
      5. if protocol type is TCP or UDP: source TCP/UDP port number
      6. if protocol type is TCP or UDP: destination TCP/UDP port number
      7. if protocol type is ICMP: ICMP type and code
      8. packet counter
         If a packet is fragmented, each fragment is counted as an
         individual packet.
      9. byte counter
         Which bytes of a packet are counted MUST be defined exactly.
     10. type of service octet (in case of IPv4), traffic class
         octet (in case of IPv6)
     11. in case of IPv6: Flow Label
     12. if MPLS is supported at the observation point: the top MPLS
         label or the corresponding forwarding equivalence class (FEC,
         [RFC3031]) bound to that label. The FEC is typically defined by
         an IP prefix.
     13. timestamp of the first packet of the flow
     14. timestamp of the last packet of the flow
     15. if sampling is used: sampling configuration
     16. unique identifier of the observation point
     17. unique identifier of the exporting process

   The exporting process SHOULD be able to report the following
   attributes for each metered flow:

     18. input interface (ifIndex)
         This requirement does not apply if the observation point is
         located at a probe device.
     19. output interface (ifIndex)
         This requirement does not apply if the observation point is
         located at a probe device.
     20. multicast replication factor
         the number of outgoing packets originating from a single
         incoming multicast packet. This is a dynamic property of
         multicast flows, that may change over time. For unicast flows
         it has the constant value 1. The computation of the factor MUST
         be clearly defined.

   The exporting process MAY be able to report the following attributes
   for each metered flow:

     21. Time To Live (in case of IPv4) or Hop Limit (in case of IPv6)
     22. IP header flags
     23. TCP header flags
     24. dropped packet counter at the observation point
         If a packet is fragmented, each fragment MUST be counted as an
         individual packet.
     25. fragmented packet counter
         counter of all packets for which the fragmented bit is set in
         the IP header


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     26. next hop IP address

   In addition, the exporting process MAY be able to report attributes
   related to inter-autonomous system routing of a flow, for example by
   reporting BGP Autonomous System numbers [RFC1771].

6.2.  Data Model

   The data model describes how information is represented in flow
   records.

   The data model MUST be extensible for future attributes to be added.
   Even if a set of attributes is fixed in the flow record, the data
   model MUST provide a way of extending the record by configuration or
   for certain implementations.

   The data model used for exporting flow information MUST be flexible
   concerning the flow attributes contained in flow records. A flexible
   record format would offer the possibility of defining records in a
   flexible (customizable) way regarding the number and type of
   contained attributes.

   The Data Model SHOULD be independent of the underlying transport
   protocol, i.e. the data transfer.

6.3.  Data Transfer

   Requirements for the data transfer include reliability, congestion
   awareness, and security requirements. For meeting these requirements
   the exporting process can utilize existing security features provided
   by the device hosting the process and/or provided by the transport
   network. For example it can use existing security technologies for
   authentication and encryption or it can rely on physical protection
   of a separated network for transferring flow information.

6.3.1.  Congestion Awareness

   For the data transfer, a congestion aware protocol MUST be supported.

6.3.2.  Reliability

   Absence of reliability of the data transfer, for example caused by
   loss or reordering of packets containing flow information, MUST be
   indicated.

   Please note that if an unreliable transport protocol is used,
   reliability can be provided by higher layers. In such a case only
   lack of overall reliability MUST be indicated. For example reordering
   could be dealt with by adding a sequence number to each packet.


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   Flow information might get lost before it is processed properly by
   the collecting process. A means to gauge the amount of loss of flow
   information MUST be available from the exporting process and/or the
   collecting process. Possible reasons for flow information loss
   include resource shortage at the exporter, loss of packets between
   exporting process and collecting process, etc.

   If the exporting process is capable of detecting loss of connection
   to a collecting process, it SHOULD be able to perform failover to a
   specified backup collecting process.

6.3.3.  Security

   Confidentiality of flow specific data transferred from an exporting
   process to a collecting process SHOULD be ensured.

   Integrity of IPFIX data transferred from an exporting process to a
   collecting process MUST be ensured.

   Authenticity of IPFIX data transferred from an exporting process to a
   collecting process MUST be ensured.

   The security threats from which these 3 requirements are deducted are
   explained in the "Security Considerations" (Section 10).

6.4.  Push and Pull Mode Reporting

   In general, there are two ways of deciding on reporting times: push
   mode and pull mode. In push mode, the exporting process decides
   without an external trigger when to send flow records. In pull mode,
   sending flow records is triggered by an explicit request from a
   collecting process. The exporting process MUST support push mode
   reporting, it MAY support pull mode reporting.

6.5.  Regular Reporting Interval

   The exporting process SHOULD be capable of reporting measured traffic
   data regularly according to a given interval length.

6.6.  Notification on Specific Events

   The exporting process MAY be capable of sending notifications to a
   collecting process, if a specific event occurs. Such an event can be
   for instance the arrival of the first packet of a new flow, or the
   termination of a flow after flow timeout.

6.7.  Anonymization

   The exporting process MAY be capable of anonymizing source and
   destination IP addresses in flow data before exporting them. It MAY


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   support anonymization of port numbers and other fields. Please note
   that anonymization is not originally an application requirement, but
   derived from general requirements for treatment of measured traffic
   data within a network.


7.  Configuration

7.1.  Configuration of the Metering Process

   The metering process MUST provide a way of configuring traffic
   measurement. The following parameters of the metering process SHOULD
   be configurable:

      1. specification of the observation point
         e.g. an interface or a list of interfaces to be monitored.
      2. specifications of flows to be metered
      3. flow timeouts

   The following parameters MAY be configurable:

      4. sampling method and parameters, if feature is supported
      5. overload behavior, if feature is supported

7.2.  Configuration of the Exporting Process

   The exporting process MUST provide a way of configuring the data
   export. The following parameters of the exporting process SHOULD be
   configurable:

      1. reporting data format
         Specifying the reporting data format MUST include a selection
         of attributes to be reported for each flow.
      2. the collecting process(es) to which flows are reported
      3. the reporting interval
         This requirement only applies if the exporting process supports
         reporting in regular intervals.
      4. notifications to be sent to the collecting process(es)
         This requirement only applies if the exporting process supports
         notifications.
      5. flow anonymization
         This requirement only applies if the exporting process supports
         flow anonymization.

   If configuration is done remotely, security SHOULD be provided for
   the configuration process covering confidentiality, integrity and
   authenticity. The means used for remote configuration are out of the
   scope of this document.



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8.  General Requirements

8.1.  Openness

   IPFIX specifications SHOULD be open to future technologies. This
   includes extensibility of configuration of the metering process and
   the exporting process.

   Openness is also required concerning the extensibility of the data
   model, as stated in section 6.2.

8.2.  Scalability

   Data collection from hundreds of different exporting processes MUST
   be supported. The collecting process MUST be able to distinguish
   several hundred exporting processes by their identifiers.

8.3.  Several Collecting Processes

   The exporting process MAY be able to export flow information to more
   than one collecting process. If an exporting process is able to
   export flow records to multiple collecting processes then it MUST be
   able to ensure that the flow records can be identified so that
   duplicates can be detected between different collecting processes and
   double counting problems can be avoided.


9.  Special Device Considerations

   This document intends to avoid constraining the architecture of
   probes, routers, and other devices hosting observation points,
   metering processes, exporting processes, and/or collecting processes.
   It can be expected that typically observation point, metering
   process, and exporting process are co-located at a single device.
   However, the requirements defined in this document do not exclude
   devices that derive from this configuration. Figure 2 shows some
   examples.














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            +---+     +-----+     +---------+       +---------+
            | E-+->   |  E--+->   |    E----+->   <-+--E   E--+->
            | | |     |  |  |     |   / \   |       |  |   |  |
            | M |     |  M  |     |  M   M  |       |  M   M  |
            | | |     | /|\ |     | /|\ /|\ |       | /|\ /|\ |
            | O |     | OOO |     | OOO OOO |       | OOO OOO |
            +---+     +-----+     +---------+       +---------+
            Probe      Basic        Complex          Multiple
                       Router       Router           Exporting
                                                     Processes

          +---+     +---+     +---+
          | E-+->   | E-+->   | E-+------------->---+
          | | |     | | |     | | | +---+         +-+-----+
          +-+-+     | M |     | M | | E-+------->-+-C-M-E-+->
            |       | | |     | | | | | | +---+   +-+-----+
          +-+-+     +-+-+     | O | | M | | E-+->---+
          | | |       |       +---+ | | | | | |
          | M |     +-+-+           | O | | M |
          | | |     | | |           +---+ | | |           +-----+
          | O |     | O |                 | O |        ->-+-C-E-+->
          +---+     +---+                 +---+           +-----+

         Protocol   Remote             Concentrator        Proxy
         Converter  Observation

                      Figure 2: IPFIX-related Devices

   All examples are composed of one or more of the following elements:
   observation point (O), metering process (M), exporting process (E),
   collecting process (C). The observation points shown in the figure
   are always the most fine-granular ones supported by the respective
   device.

   A very simple device is a probe. A typical probe contains a single
   observation point, a single metering process, and a single exporting
   process.

   A basic router extends this structure by multiple observation points.
   Here, the observation point of a particular flow may be one of the
   displayed most fine-granular observation points, but also it may be a
   set of them.

   A more complex router may host more than one metering process, for
   example one per line card. Please note that here, the observation
   point of a single flow cannot exceed the set of most fine-granular
   observation points linked to a single metering process, because only
   the metering process can merge packets observed at different fine-
   granular observation points to a joint flow. An observation point
   containing all most fine-granular observation points of this router


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   is not possible with this structure. Alternatively, a complex router
   may host different exporting processes for flow records generated by
   different metering processes.

   A protocol converter makes use of a metering process that can be
   accessed only by another protocol than the one defined for IPFIX, for
   example the SNMP and the Meter MIB module [RFC2720]. Then the
   exporting process receives flow record from a remote metering process
   and exports these records using the IPFIX protocol. Please note, that
   this document does not make any particular assumption on how metering
   processes and export processes exchange information, as long as all
   individual requirements for these processes are met. Also the
   locations of metering processes are not of any relevance for this
   document (in contrast to the locations of observation points and the
   exporting processes).

   In the example of remote packet observation in Figure 2 the metering
   process and the observation point are not co-located. Packet header
   captured at an observation point may be exported as raw data to a
   device hosting metering process and exporting process. Again, this
   document does not make any particular assumption on how packet
   headers are transfered from observation points to metering processes,
   as long as all requirements for the metering processes are met.

   An intermediate structure between protocol converter and remote
   observation (not shown in the Figure) would be a split metering
   process, for example performing timestamping and sampling at the
   device hosting the observation point and performing packet
   classification at another device hosting the exporting process.

   A concentrator receives flow records via the IPFIX protocol, merges
   them into more aggregated flow records, and exports them again using
   the IPFIX protocol. Please note, that for the final flow records the
   resulting observation point may be a superset of the more fine-
   granular observation points at the first level devices. The metering
   process of the final flow records is composed by the (partial)
   metering processes at the first level devices and the partial
   metering process at the concentrator.

   Finally, a very simple IPFIX-related device is a proxy. It just
   receives flow records using the IPFIX protocol and sends them further
   using the same protocol. A proxy might be useful for traversing
   firewalls or other gateways.


10.  Security Considerations

   An IPFIX protocol must be capable to transport data over the public
   Internet. Therefore it cannot be excluded that an attacker captures
   or modifies packets or inserts additional packets.


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   This section describes security requirements for IPFIX. Like other
   requirements, the security requirements differ among the considered
   applications. The incentive to modify collected data for accounting
   or intrusion detection for instance is usually higher than the
   incentive to change data collected for traffic profiling. A detailed
   list of the required security features per application can be found
   in the appendix.

   The suggestion of concrete solutions for achieving the required
   security properties should be part of an IPFIX architecture and
   protocol. It is out of scope of this document. Also methods for
   remote configuration of the metering processes and exporting
   processes are out of scope. Therefore, threats that are caused by
   data exchange for remote configuration are not considered here.

   The following potential security hazards for an IPFIX protocol have
   been identified: disclosure of IP flow information, forgery of flow
   records, and Denial of Service (DoS) attacks.

10.1.  Disclosure of Flow Information Data

   The content of data exchanged by an IPFIX protocol (for example IPFIX
   flow records) should be kept confidential between the involved
   parties (exporting process and collecting process). Observation of
   IPFIX flow records gives an attacker information about the active
   flows in the network, communication endpoints and traffic patterns.
   This information cannot only be used to spy out user behavior but
   also to plan and conceal future attacks. Therefore, the requirements
   specified in section 6.3.3. include confidentiality of the
   transferred data. This can be achieved for instance by encryption.

10.2.  Forgery of Flow Records

   If flow records are used in accounting and security applications,
   there are potentially strong incentives to forge exported IPFIX flow
   records (for example to save money or prevent the detection of an
   attack). This can be done either by altering flow records on the path
   or by injecting forged flow records that pretend to be originated by
   the original exporting process. In order to make an IPFIX protocol
   resistant against such attacks, authentication and integrity must be
   provided, as specified in section 6.3.3.

   Special caution is required if security applications rely on flow
   measurements. With forged flow records it is possible to trick on
   security applications. It is for instance possible to pretend that a
   DoS attack happens without even launching a real attack.





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10.3.  Denial of Service (DoS) Attacks

   DoS attacks on routers or other middleboxes that have the IPFIX
   protocol implemented would also affect the IPFIX protocol and impair
   the sending of IPFIX records. Nevertheless, since such hazards are
   not induced specifically by the IPFIX protocol the prevention of such
   attacks is out of scope of this document.

   However, IPFIX itself also causes potential hazards for DoS attacks.
   All processes that expect the reception of traffic can be target of a
   DoS attack. With the exporting process this is only the case if it
   supports the pull mode (which can be an optional feature of the IPFIX
   protocol according to this document). The collecting process always
   expects data and therefore can be flooded by flow records.


11.  Acknowledgments

   We like to thank all the people contributing to the requirements
   discussion on the mailing list for a lot of valuable comments.


12.  References

[RFC2026]   S. Bradner, "The Internet Standards Process -- Revision 3",
            RFC 2026, October 1996.

[RFC3234]   B. Carpenter, "Middleboxes: taxonomy and issues", RFC 3234,
            February 2002.

[RFC2119]   S. Bradner "Key words for use in RFCs to Indicate
            Requirement Levels", RFC 2119, March 1997.

[RFC1771]   Y. Rekhter, T. Li, "A Border Gateway Protocol 4 (BGP-4)",
            RFC 1771, March 1995.

[RFC2702]   D. Awduche, J. Malcolm, J. Agogbua, M. O'Dell, J. McManus,
            "Requirements for Traffic Engineering Over MPLS", RFC 2702,
            September 1999.

[RFC3031]   E. Rosen, A. Viswanathan, R. Callon, "Multiprotocol Label
            Switching Architecture", RFC 3031, January 2001.

[RFC2474]   K. Nichols, S. Blake, F. Baker, D. Black, "Definition of the
            Differentiated Services Field (DS Field) in the IPv4 and
            IPv6 Headers", RFC 2474, December 1998.





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[RFC1213]   K. McCloghrie, M. Rose. "Management Information Base for
            Network Management of TCP/IP-based internets: MIB-II", RFC
            1213, March 1991.

[RFC791]    J. Postel. "Internet Protocol", RFC791, September 1981.

[RFC2720]   N. Brownlee. "Traffic Flow Measurement: Meter MIB", RFC
            2720, October 1999.


13.  Authors' Addresses

     Juergen Quittek
     NEC Europe Ltd., Network Laboratories
     Kurfuersten-Anlage 34
     69115 Heidelberg
     Germany

     Phone: +49 6221 90511 15
     EMail: quittek@ccrle.nec.de


     Tanja Zseby
     Fraunhofer Institute for Open Communication Systems (FOKUS)
     Kaiserin-Augusta-Allee 31
     10589 Berlin
     Germany

     Phone: +49 30 3463 7153
     Email: zseby@fokus.fhg.de


     Benoit Claise
     Cisco Systems
     De Kleetlaan 6a b1
     1831 Diegem
     Belgium

     Phone: +32 2 704 5622
     Email: bclaise@cisco.com


     Sebastian Zander
     Fraunhofer Institute for Open Communication Systems (FOKUS)
     Kaiserin-Augusta-Allee 31
     10589 Berlin
     Germany

     Phone: +49 30 3463 7287
     Email: zander@fokus.fhg.de


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     Georg Carle
     Fraunhofer Institute for Open Communication Systems (FOKUS)
     Kaiserin-Augusta-Allee 31
     10589 Berlin
     Germany

     Phone: +49 30 3463 7149
     Email: carle@fokus.fhg.de


     K.C. Norseth
     Consultant
     934 S. Palos Verdes Dr.
     Kaysville, Utah 84037 USA

     Phone: 801.546.3316
     Email: kcn@norseth.com


14.  Full Copyright Statement

   Copyright (C) The Internet Society (2001). All Rights Reserved.

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

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

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





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Appendix: Derivation of Requirements from Applications

   The following table documents, how the requirements stated in
   sections 3-7 are derived from requirements of the applications listed
   in section 2.

   Used abbreviations:
      M = MUST
      S = SHOULD
      O = MAY (OPTIONAL)
      - = DONT CARE

   -----------------------------------------------------------------------.
      IPFIX                                                               |
   ----------------------------------------------------------------.      |
   E: QoS Monitoring                                               |      |
   ----------------------------------------------------------.     |      |
   D: Attack/Intrusion Detection                             |     |      |
   ----------------------------------------------------.     |     |      |
   C: Traffic Engineering                              |     |     |      |
   ----------------------------------------------.     |     |     |      |
   B: Traffic Profiling                          |     |     |     |      |
   ----------------------------------------.     |     |     |     |      |
   A: Usage-based Accounting               |     |     |     |     |      |
   ----------------------------------.     |     |     |     |     |      |
                                     |     |     |     |     |     |      |
   | Sect. |    Requirement          |  A  |  B  |  C  |  D  |  E  | IPFIX|
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 4.    | DISTINGUISHING FLOWS                                         |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 4.    | Combination of          |  M  |  M  |  M  |  M  |  M  |  M   |
   |       | required attributes     |     |     |     |     |     |      |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 4.1.  | in/out IF               |  S  |  M  |  M  |  S  |  S  |  M   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 4.2.  | src/dst address         |  M  |  M  |  M  |  M  |  M  |  M   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 4.2.  | Masking of IP adresses  |  M  |  M  |  M  |  M  |  M  |  M   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 4.2.  | transport protocol      |  M  |  M  |  -  |  M  |  M  |  M   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 4.2.  | version field           |  -  |  S  |  S  |  O  |  O  |  S   |
   |       |                         |     |     | (b) |     |     |      |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 4.3.  | src/dst port            |  M  |  M  |  -  |  M  |  M  |  M   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|





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   | Sect. |    Requirement          |  A  |  B  |  C  |  D  |  E  | IPFIX|
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 4.4.  | MPLS label (a)          |  S  |  S  |  M  |  O  |  S  |  M   |
   |       |                         |     |     | (c) |     |     |      |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 4.5.  | DSCP (a)                |  M  |  S  |  M  |  O  |  M  |  M   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 5.    | METERING PROCESS                                             |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 5.1.  | Reliability             |  M  |  S  |  S  |  S  |  S  |      |
   |-------+-------------------------+-----+-----+-----+-----+-----+  M   |
   | 5.1.  | Indication of           |  -  |  M  |  M  |  M  |  M  |      |
   |       | missing reliability     |     |     |     |     |     |      |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 5.2.  | Sampling (g)            |  O  |  O  |  O  |  O  |  O  |  O   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 5.3.  | Overload Behavior       |  O  |  O  |  O  |  O  |  O  |  O   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 5.4.  | Timestamps              |  M  |  O  |  O  |  S  |  M  |  M   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 5.5.  | Time synchronization    |  M  |  S  |  S  |  S  |  M  |  M   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 5.6.  | Flow timeout            |  M  |  S  |  -  |  O  |  O  |  M   |
   |       |                         | (d) |     |     |     |     |      |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 5.7.  | Multicast flows         |  S  |  O  |  O  |  O  |  S  |  S   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 5.9.  | Ignore port copy        |  O  |  O  |  O  |  O  |  O  |  O   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.    | DATA EXPORT                                                  |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.1.  | INFORMATION MODEL                                            |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.1.  | IP Version              |  -  |  M  |  M  |  O  |  O  |  M   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.1.  | src/dst address         |  M  |  M  |  M  |  M  |  M  |  M   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.1.  | transport protocol      |  M  |  M  |  -  |  M  |  M  |  M   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.1.  | src/dst port            |  M  |  M  |  -  |  M  |  M  |  M   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.1.  | Packet counter (h)      |  S  |  M  |  M  |  S  |  S  |  M   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.1.  | Byte counter            |  M  |  M  |  M  |  S  |  S  |  M   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|






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   | Sect. |    Requirement          |  A  |  B  |  C  |  D  |  E  | IPFIX|
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.1.  | Dropped Packet          |  O  |  M  |  M  |  S  |  M  |  M   |
   |       | Counter (h,i)           |     |     |     |     |     |      |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.1.  | ToS Byte                |  M  |  S  |  M  |  O  |  M  |  M   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.1.  | Flow Label              |  M  |  S  |  M  |  O  |  M  |  M   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.1.  | BGP AS#                 |  -  |  S  |  M  |  -  |  -  |  M   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.1.  | MPLS label (a)          |  S  |  S  |  M  |  O  |  S  |  M   |
   |       |                         |     |     | (c) |     |     |      |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.1.  | DSCP (a)                |  M  |  S  |  M  |  O  |  M  |  M   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.1.  | Timestamps for          |  M  |  O  |  O  |  S  |  S  |  M   |
   |       | first/last packet       |     |     |     |     |     |      |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.1.  | Sampling configuration  |  M  |  M  |  M  |  M  |  M  |  M   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.1.  | observation point       |  M  |  M  |  M  |  M  |  M  |  M   |
   |       | identifier              |     |     |     |     |     |      |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.1.  | export process          |  M  |  M  |  M  |  M  |  M  |  M   |
   |       | identifier              |     |     |     |     |     |      |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.1.  | TTL                     |  O  |  O  |  O  |  O  |  O  |  O   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.1.  | IP header flags         |  -  |  O  |  O  |  O  |  O  |  O   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.1.  | TCP header flags        |  -  |  O  |  O  |  O  |  -  |  O   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.1.  | Fragment counter        |  -  |  O  |  O  |  O  |  O  |  O   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.1.  | Multicast               |  O  |  S  |  S  |  -  |  S  |  S   |
   |       | replication factor      |     |     |     |     |     |      |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.2.  | DATA MODEL                                                   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.2.  | Flexibility             |  M  |  S  |  M  |  M  |  M  |  M   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.2.  | Extensibility           |  M  |  S  |  M  |  M  |  M  |  M   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|







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Internet-Draft             IPFIX Requirements             September 2002


   | Sect. |    Requirement          |  A  |  B  |  C  |  D  |  E  | IPFIX|
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.3.  | DATA TRANSFER                                                |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.3.1.| Congestion aware        |  M  |  M  |  M  |  M  |  M  |  M   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.3.2.| Reliability             |  M  |  S  |  S  |  S  |  S  |  M   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.3.3.| Confidentiality         |  S  |  S  |  S  |  S  |  S  |  S   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.3.4.| Integrity               |  M  |  M  |  M  |  M  |  M  |  M   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.3.5.| Authenticity            |  M  |  M  |  M  |  M  |  M  |  M   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.4.  | REPORTING TIMES                                              |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.4.  | Push mode               |  M  |  O  |  O  |  M  |  S  |  M   |
   |       |                         |     | (e) | (e) |     |(e,f)|      |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.4.  | Pull mode               |  O  |  O  |  O  |  O  |  O  |  O   |
   |       |                         |     | (e) | (e) |     | (e) |      |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.4.1.| Regular Interval        |  S  |  S  |  S  |  S  |  S  |  S   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.6.  | Notifications           |  O  |  O  |  O  |  O  |  O  |  O   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 6.7.  | Anonymization           |  O  |  O  |  O  |  O  |  O  |  O   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 7.    | CONFIGURATION                                                |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 7.    | Config Measurement      |  M  |  M  |  M  |  M  |  M  |  M   |
   |       | & Data Export           |     |     |     |     |     |      |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 7.    | Config Observation Point|  S  |  S  |  S  |  S  |  S  |  S   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 7.    | Config Flow             |  S  |  S  |  S  |  S  |  S  |  S   |
   |       | Specifications          |     |     |     |     |     |      |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 7.    | Config Flow Timeouts    |  S  |  S  |  S  |  S  |  O  |  S   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 7.    | Config Sampling         |  O  |  O  |  O  |  O  |  O  |  O   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|









Quittek et al.        draft-ietf-ipfix-reqs-07.txt             [Page 28]


Internet-Draft             IPFIX Requirements             September 2002


   | Sect. |    Requirement          |  A  |  B  |  C  |  D  |  E  | IPFIX|
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 7.    | Config Report           |  S  |  S  |  S  |  S  |  S  |  S   |
   |       | Data Format             |     |     |     |     |     |      |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 7.    | Config                  |  O  |  O  |  O  |  O  |  O  |  O   |
   |       | Notifications           |     |     |     |     |     |      |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 7.    | Config Anonymization    |  O  |  O  |  O  |  O  |  O  |  O   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 8.    | GENERAL REQUIREMENTS                                         |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 8.1.  | Openness                |  S  |  S  |  S  |  S  |  S  |  S   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 8.2.  | Scalability:            |     |     |     |     |     |      |
   |       | data collection         |  M  |  S  |  M  |  O  |  S  |  M   |
   |       | from hundreds of        |     |     |     |     |     |      |
   |       | measurement devices     |     |     |     |     |     |      |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|
   | 8.3.  | Several Collectors      |  O  |  O  |  O  |  O  |  O  |  O   |
   |-------+-------------------------+-----+-----+-----+-----+-----+------|

   Remarks:
     (a) If feature is supported.
     (b) The differentiation of IPv4 and IPv6 is for TE of importance.
         So we tended to make this a MUST. Nevertheless, a SHOULD seems
         to be sufficient to perform most TE tasks and allows us to have
         a SHOULD for IPFIX instead of a MUST.
     (c) For TE in an MPLS network the label is essential. Therefore a
         MUST is given here leading to a MUST in IPFIX.
     (d) Precise time-based accounting requires reaction to a flow
         timeout.
     (e) Either push or pull has to be supported.
     (f) Required, in order to immediately report drop indications for
         SLA validation.
     (g) If sampling is supported the methods and parameters MUST be
         well defined.
     (h) If a packet is fragmented, each fragment is counted as an
         individual packet.
     (i) Only if measurement is done on data path i.e. has access to
         forwarding decision.










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