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This documentation has been moved
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Cisco IOS Flexible NetFlow Overview
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Cisco IOS Flexible NetFlow Features Roadmap
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Getting Started with Configuring Cisco IOS Flexible NetFlow
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Configuring Cisco IOS Flexible NetFlow with Predefined Records
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Configuring Data Export for Cisco IOS Flexible NetFlow with Flow Exporters
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Customizing Cisco IOS Flexible NetFlow Flow Records and Flow Monitors
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Using Cisco IOS Flexible NetFlow Flow Sampling to Reduce the CPU Overhead of Analyzing Traffic
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Configuring IPv4 Multicast Statistics Support for Cisco IOS Flexible NetFlow
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Using Cisco IOS Flexible Netflow Top N Talkers to Analyze Network Traffic
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Table Of Contents
Getting Started with Configuring Cisco IOS Flexible NetFlow
Prerequisites for Getting Started with Configuring Flexible NetFlow
Restrictions for Getting Started with Configuring Flexible NetFlow
Information About Getting Started with Configuring Flexible NetFlow
Benefit of Emulating Original NetFlow with Flexible NetFlow
Flexible NetFlow "NetFlow Original" and "NetFlow IPv4 Original Input" Predefined Records
Flexible NetFlow "NetFlow IPv4 Original Output" Predefined Record
Flexible NetFlow "NetFlow IPv6 Original Input" Predefined Record
Flexible NetFlow "NetFlow IPv6 Original Output" Predefined Record
Flexible NetFlow MPLS Egress NetFlow
How to Get Started with Configuring Flexible NetFlow
Applying an IPv4 Flow Monitor to an Interface
Applying an IPv6 Flow Monitor to an Interface
Configuring a Flow Exporter for the Flow Monitor
Configuration Examples for Emulating Original NetFlow Features with Flexible NetFlow
Example: Configuring Flexible NetFlow Egress Accounting for IPv4 and IPv6 Traffic
Example: Configuring Flexible NetFlow Subinterface Support
Example: Configuring Flexible NetFlow Multiple Export Destinations
Feature Information for Flexible NetFlow
Getting Started with Configuring Cisco IOS Flexible NetFlow
First Published: June 19, 2006Last Updated: July 20, 2011This document contains information about and instructions for configuring Flexible NetFlow to emulate the data capture, data analysis, and data export features of original NetFlow. The Flexible NetFlow equivalents of some of the other features that have been added to original NetFlow, such as NetFlow Subinterface Support and Multiple Export Destinations, are described in this document. The purpose of this document is to help you start using Flexible NetFlow as quickly as possible, and explains how to configure certain Flexible NetFlow features but does not explain them in detail. The documents listed in the "Related Documents" section contain more detailed information on Flexible NetFlow features.
NetFlow is a Cisco IOS technology that provides statistics on packets flowing through the router. NetFlow is the standard for acquiring IP operational data from IP networks. NetFlow provides data to support network and security monitoring, network planning, traffic analysis, and IP accounting.
Flexible NetFlow improves on original NetFlow by adding the capability to customize the traffic analysis parameters for your specific requirements. Flexible NetFlow facilitates the creation of more complex configurations for traffic analysis and data export through the use of reusable configuration components.
Finding Feature Information
Your software release may not support all the features documented in this module. For the latest feature information and caveats, see the release notes for your platform and software release. To find information about the features documented in this module, and to see a list of the releases in which each feature is supported, see the "Feature Information for Flexible NetFlow" section.
Use Cisco Feature Navigator to find information about platform support and Cisco software image support. To access Cisco Feature Navigator, go to http://www.cisco.com/go/cfn. An account on Cisco.com is not required.
Contents
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Prerequisites for Getting Started with Configuring Flexible NetFlow
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Prerequisites for Getting Started with Configuring Flexible NetFlow
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IPv4 Traffic
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IPv6 Traffic
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Restrictions for Getting Started with Configuring Flexible NetFlow
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Information About Getting Started with Configuring Flexible NetFlow
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Benefit of Emulating Original NetFlow with Flexible NetFlow
Emulating original NetFlow with Flexible NetFlow enables to you to deploy Flexible NetFlow quickly because you can use a predefined record instead of designing and configuring a custom user-defined record. You need only configure a flow monitor and apply it to an interface for Flexible NetFlow to start working like original NetFlow. You can add an optional exporter if you want to analyze the data that you collect with an application such as NetFlow collector.
Each flow monitor has a separate cache assigned to it. Each flow monitor requires a record to define the contents and layout of its cache entries. The record format can be one of the predefined record formats, or an advanced user may create his or her own record format using the collect and match commands in Flexible NetFlow flow record configuration mode.
Flow exporters are used to send the data that you collect with Flexible NetFlow to a remote system such as a NetFlow Collection Engine. Exporters use UDP as the transport protocol and use the Version 9 export format.
If you are familiar with original NetFlow, you already understand the format and content of the data that you collect and export with Flexible NetFlow when you emulate original NetFlow. You will be able to use the same techniques for analyzing the data.
Flexible NetFlow "NetFlow Original" and "NetFlow IPv4 Original Input" Predefined Records
The Flexible NetFlow "NetFlow original" and "NetFlow IPv4 original input" predefined records can be used interchangeably because they have the same key and nonkey fields. The key and nonkey fields and the counters for the Flexible NetFlow "NetFlow original" and "NetFlow IPv4 original input" predefined records are shown in Table 1.
The configuration in the "How to Get Started with Configuring Flexible NetFlow" section uses the predefined Flexible NetFlow "NetFlow original" record.
Flexible NetFlow "NetFlow IPv4 Original Output" Predefined Record
The Flexible NetFlow "NetFlow IPv4 original output" predefined record is used to emulate the original NetFlow Egress NetFlow Accounting feature that was released in Cisco IOS Release 12.3(11)T. The key and nonkey fields and the counters for the Flexible NetFlow "NetFlow IPv4 original output" predefined record are shown in Table 2.
The configuration in the "Example: Configuring Flexible NetFlow Egress Accounting for IPv4 and IPv6 Traffic" section uses the predefined Flexible NetFlow "NetFlow original output" record.
Flexible NetFlow "NetFlow IPv6 Original Input" Predefined Record
The key and nonkey fields and the counters for the Flexible NetFlow "NetFlow IPv6 original input" predefined record are shown in Table 3.
Flexible NetFlow "NetFlow IPv6 Original Output" Predefined Record
The key and nonkey fields and the counters for the Flexible NetFlow "NetFlow IPv6 original output" predefined record are shown in Table 4.
Flexible NetFlow MPLS Egress NetFlow
The Flexible NetFlow—MPLS Egress NetFlow feature allows you to capture IP flow information for packets that arrive on a router as Multiprotocol Label Switching (MPLS) packets and are transmitted as IP packets. This feature allows you to capture the MPLS VPN IP flows that are traveling through the service provider backbone from one site of a VPN to another site of the same VPN. The Flexible NetFlow—MPLS Egress NetFlow feature is enabled by applying a flow monitor in output (egress) mode on the provider edge (PE) to customer edge (CE) interface of the provider's network.
Figure 1 shows a sample MPLS VPN network topology that includes four VPN 1 sites and two VPN 2 sites. If the Flexible NetFlow—MPLS Egress NetFlow is enabled on an outgoing PE interface by applying a flow monitor in output mode, IP flow information for packets that arrive at the PE as MPLS packets (from an MPLS VPN) and that are transmitted as IP packets to the PE router is captured. For example:
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The flow data is stored in the Flexible NetFlow cache. You can use the show flow monitor monitor-name cache command to display the flow data in the cache.
Figure 1 Sample MPLS VPN Network Topology with Flexible NetFlow—MPLS Egress NetFlow Feature
If you configure a Flexible NetFlow exporter for the flow monitors you use for the Flexible NetFlow— MPLS Egress NetFlow feature, the PE routers will export the captured flows to the configured collector devices in the provider network. Applications such as the Network Data Analyzer or the VPN Solution Center (VPN-SC) can gather information from the captured flows and compute and display site-to-site VPN traffic statistics.
How to Get Started with Configuring Flexible NetFlow
The tasks in this section explain how to configure and verify the emulation of original (ingress) NetFlow data capture with Flexible NetFlow for traffic that is received by the router and how to configure and verify the emulation of original NetFlow data export with Flexible NetFlow.
Note
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To configure and enable Flexible NetFlow using a predefined record, perform the following tasks:
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Configuring a Flow Monitor for IPv4/IPv6 Traffic Using the Flexible NetFlow "NetFlow IPv4 Original Input" Predefined Record
To configure a flow monitor for IPv4/IPv6 traffic using the Flexible NetFlow "NetFlow IPv4/IPv6 original input" predefined record for the flow monitor, perform the following required task.
Each flow monitor has a separate cache assigned to it. Each flow monitor requires a record to define the contents and layout of its cache entries. The record format can be one of the predefined record formats, or an advanced user may create his or her own record format using the collect and match commands in Flexible NetFlow flow record configuration mode.
Restrictions
You must remove a flow monitor from all of the interfaces to which you have applied it before you can modify the record format of the flow monitor.
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DETAILED STEPS
Applying an IPv4 Flow Monitor to an Interface
Before it can be activated an IPv4 flow monitor must be applied to at least one interface. To activate an IPv4 flow monitor, perform the following required task.
Restrictions
When you specify the "NetFlow original" or the "NetFlow IPv4 original input" predefined record for the flow monitor to emulate original NetFlow, the flow monitor can be used for analyzing only input (ingress) traffic.
When you specify the "NetFlow IPv4 original output" predefined record for the flow monitor to emulate the Egress NetFlow Accounting feature, the flow monitor can be used for analyzing only output (egress) traffic.
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DETAILED STEPS
Applying an IPv6 Flow Monitor to an Interface
Before it can be activated an IPv6 flow monitor must be applied to at least one interface. To activate an IPv6 flow monitor, perform the following required task.
Restrictions
When you specify the "NetFlow IPv6 original input" predefined record for the flow monitor to emulate original NetFlow, the flow monitor can be used for analyzing only input (ingress) traffic.
When you specify the "NetFlow IPv6 original output" predefined record for the flow monitor to emulate the Egress NetFlow Accounting feature, the flow monitor can be used for analyzing only output (egress) traffic.
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DETAILED STEPS
Configuring a Flow Exporter for the Flow Monitor
To configure a flow exporter for the flow monitor, in order to export the data that is collected by Flexible NetFlow to a remote system for further analysis and storage, perform the following optional task.
Flow exporters are used to send the data that you collect with Flexible NetFlow to a remote system such as a NetFlow Collection Engine. Exporters use UDP as the transport protocol and use the Version 9 export format.
Restrictions
Each flow exporter supports only one destination. If you want to export the data to multiple destinations, you must configure multiple flow exporters and assign them to the flow monitor.
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Configuration Examples for Emulating Original NetFlow Features with Flexible NetFlow
The following examples show you how to configure Flexible NetFlow to emulate three features that are available in original NetFlow:
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Example: Configuring Flexible NetFlow Egress Accounting for IPv4 and IPv6 Traffic
The following example shows how to configure Flexible NetFlow egress accounting for IPv4 and IPv6 traffic.
This sample starts in global configuration mode:
!flow monitor FLOW-MONITOR-1record netflow ipv4 original-outputexit!!flow monitor FLOW-MONITOR-2record netflow ipv6 original-outputexit!ip cefipv6 cef!interface Ethernet0/0ip address 172.16.6.2 255.255.255.0ipv6 address 2001:DB8:2:ABCD::2/48ip flow monitor FLOW-MONITOR-1 outputipv6 flow monitor FLOW-MONITOR-2 output!Example: Configuring Flexible NetFlow Subinterface Support
The following example shows how to configure Flexible NetFlow subinterface support for IPv4 traffic.
This sample starts in global configuration mode:
!flow monitor FLOW-MONITOR-1record netflow ipv4 original-inputexit!ip cef!interface Ethernet0/0.1ip address 172.16.6.2 255.255.255.0ip flow monitor FLOW-MONITOR-1 input!The following example shows how to configure Flexible NetFlow to emulate NetFlow subinterface support for IPv6 traffic.
This sample starts in global configuration mode:
!flow monitor FLOW-MONITOR-2record netflow ipv6 original-inputexit!ip cefipv6 cef!interface Ethernet0/0.1ipv6 address 2001:DB8:2:ABCD::2/48ipv6 flow monitor FLOW-MONITOR-2 input!Example: Configuring Flexible NetFlow Multiple Export Destinations
The following example shows how to configure Flexible NetFlow multiple export destinations.
This sample starts in global configuration mode:
!flow exporter EXPORTER-1destination 172.16.10.2transport udp 90exit!flow exporter EXPORTER-2destination 172.16.10.3transport udp 90exit!flow monitor FLOW-MONITOR-1record netflow-originalexporter EXPORTER-2exporter EXPORTER-1exit!ip cef!interface Ethernet0/0ip address 172.16.6.2 255.255.255.0ip flow monitor FLOW-MONITOR-1 input!Where to Go Next
For information on advanced Flexible NetFlow configurations for specific purposes such as quality of service (QoS) and bandwidth monitoring, application and user flow monitoring and profiling, and security analysis, refer to the "Customizing Cisco IOS Flexible NetFlow Flow Records and Flow Monitors" module.
If you want to configure additional options for data export for Flexible NetFlow, refer to the "Configuring Data Export for Cisco IOS Flexible NetFlow with Flow Exporters" module.
If you want to configure flow sampling to reduce the CPU overhead of analyzing traffic, refer to the "Using Cisco IOS Flexible NetFlow Flow Sampling to Reduce the CPU Overhead of Analyzing Traffic" module.
If you want to configure any of the predefined records for Flexible NetFlow refer, to the "Configuring Cisco IOS Flexible NetFlow with Predefined Records" module.
Additional References
Related Documents
Cisco IOS commands
Overview of Flexible NetFlow
Flexible NetFlow Feature Roadmap
Configuring flow exporters to export Flexible NetFlow data
"Configuring Data Export for Cisco IOS Flexible NetFlow with Flow Exporters"
Customizing Flexible NetFlow
"Customizing Cisco IOS Flexible NetFlow Flow Records and Flow Monitors"
Configuring flow sampling to reduce the overhead of monitoring traffic with Flexible NetFlow
"Using Cisco IOS Flexible NetFlow Flow Sampling to Reduce the CPU Overhead of Analyzing Traffic"
Configuring Flexible NetFlow using predefined records
"Configuring Cisco IOS Flexible NetFlow with Predefined Records"
Using Flexible NetFlow Top N Talkers to analyze network traffic
"Using Cisco IOS Flexible NetFlow Top N Talkers to Analyze Network Traffic"
Configuring IPv4 multicast statistics support for Flexible NetFlow
"Configuring IPv4 Multicast Statistics Support for Cisco IOS Flexible NetFlow"
Configuration commands for Flexible NetFlow
Standards
MIBs
None
To locate and download MIBs for selected platforms, Cisco software releases, and feature sets, use Cisco MIB Locator found at the following URL:
RFCs
Technical Assistance
Feature Information for Flexible NetFlow
Table 5 lists the release history for this feature.
Only features that were introduced or modified in Cisco IOS Release 12.2(1) or Cisco IOS Releases 12.2(1) or 12.0(3)S or a later release appear in the table.
Use Cisco Feature Navigator to find information about platform support and software image support. Cisco Feature Navigator enables you to determine which software images support a specific software release, feature set, or platform. To access Cisco Feature Navigator, go to http://www.cisco.com/go/cfn. An account on Cisco.com is not required.
Note
Table 5 Feature Information for Flexible NetFlow
Flexible NetFlow
12.2(33)SRC12.2(50)SY 12.4(9)T
Flexible NetFlow is introduced.
Support for this feature was added for Cisco 7200 series routers in Cisco IOS Release 12.2(33)SRC.
Information about the Flexible NetFlow feature is included in the following sections:
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The following commands were introduced or modified: cache (Flexible NetFlow), clear flow exporter, clear flow monitor, clear sampler, collect counter, collect flow, collect interface, collect ipv4, collect ipv4 destination, collect ipv4 fragmentation, collect ipv4 section, collect ipv4 source, collect ipv4 total-length, collect ipv4 ttl, collect routing, collect timestamp sys-uptime, collect transport, collect transport icmp ipv4, collect transport tcp, collect transport udp, debug flow exporter, debug flow monitor, debug flow record, debug sampler, description (Flexible NetFlow), destination, dscp (Flexible NetFlow), exporter, flow exporter, flow monitor, flow platform, flow record, ip flow monitor, match flow, match interface (Flexible NetFlow), match ipv4, match ipv4 destination, match ipv4 fragmentation, match ipv4 section, match ipv4 source, match ipv4 total-length, match ipv4 ttl, match routing, match transport, match transport icmp ipv4, match transport tcp, match transport udp, mode (Flexible NetFlow), option (Flexible NetFlow), record, sampler, show flow exporter, show flow interface, show flow monitor, show flow record, show sampler, source (Flexible NetFlow), statistics packet, template data timeout, transport (Flexible NetFlow).
Flexible NetFlow—IPv6 Unicast Flows
12.2(33)SRE12.2(50)SY 12.4(20)T
Enables Flexible NetFlow to monitor IPv6 traffic.
Support for this feature was added for Cisco 7200 and 7300 NPE series routers in Cisco IOS Release 12.2(33)SRE.
Information about the Flexible NetFlow—IPv6 Unicast Flows feature is included in the following sections:
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The following commands were introduced or modified: collect routing, debug flow record, match routing, record, show flow monitor, show flow record, collect ipv6, collect ipv6 destination, collect ipv6 extension map, collect ipv6 fragmentation, collect ipv6 hop-limit, collect ipv6 length, collect ipv6 section, collect ipv6 source, collect transport icmp ipv6, ipv6 flow monitor, match ipv6, match ipv6 destination, match ipv6 extension map, match ipv6 fragmentation, match ipv6 hop-limit, match ipv6 length, match ipv6 section, match ipv6 source, match transport icmp ipv6.
Flexible NetFlow—MPLS Egress NetFlow
12.2(33)SRE12.2(50)SY 12.4(22)T
The Flexible NetFlow—MPLS Egress NetFlow feature allows you to capture IP flow information for packets undergoing MPLS label disposition; that is, packets that arrive on a router as MPLS packets and are transmitted as IP packets.
Support for this feature was added for Cisco 7200 and 7300 NPE series routers in Cisco IOS Release 12.2(33)SRE.
The following section provides information about this feature:
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No commands were introduced or modified by this feature.
Cisco and the Cisco Logo are trademarks of Cisco Systems, Inc. and/or its affiliates in the U.S. and other countries. A listing of Cisco's trademarks can be found at www.cisco.com/go/trademarks. Third party trademarks mentioned are the property of their respective owners. The use of the word partner does not imply a partnership relationship between Cisco and any other company. (1005R)
Any Internet Protocol (IP) addresses used in this document are not intended to be actual addresses. Any examples, command display output, and figures included in the document are shown for illustrative purposes only. Any use of actual IP addresses in illustrative content is unintentional and coincidental.
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