- Flexible NetFlow - New Flexible NetFlow CLI
- Flexible NetFlow – Full Flow support
- Flexible NetFlow - Top N Talkers Support
- Using Flexible NetFlow Flow Sampling
- Flexible NetFlow - Layer 2 Fields
- Flexible NetFlow - Ingress support
- Flexible NetFlow Egress support
- Flexible NetFlow Export over IPv4
- Flexible NetFlow v9 Export Format
- Flexible NetFlow—IPv4 Unicast Flows
- Flexible NetFlow—IPv6 Unicast Flows
Flexible NetFlow—IPv6 Unicast Flows
The Flexible NetFlow—IPv6 Unicast Flows feature enables Flexible NetFlow to monitor IPv6 traffic.
- Finding Feature Information
- Information About Flexible NetFlow IPv6 Unicast Flows
- How to Configure Flexible NetFlow IPv6 Unicast Flows
- Configuration Examples for Flexible NetFlow IPv6 Unicast Flows
- Feature Information for Flexible NetFlow - IPv6 Unicast Flows
Finding Feature Information
Your software release may not support all the features documented in this module. For the latest caveats and feature information, see Bug Search Tool and 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 table at the end of this module.
Use Cisco Feature Navigator to find information about platform support and Cisco software image support. To access Cisco Feature Navigator, go to www.cisco.com/go/cfn. An account on Cisco.com is not required.
Information About Flexible NetFlow IPv6 Unicast Flows
Flexible NetFlow IPv6 Unicast Flows Overview
This feature enables Flexible NetFlow to monitor IPv6 traffic.
How to Configure Flexible NetFlow IPv6 Unicast Flows
Configuring a Flow Record
Perform this task to configure a customized flow record.
Customized flow records are used to analyze traffic data for a specific purpose. A customized flow record must have at least one match criterion for use as the key field and typically has at least one collect criterion for use as a nonkey field.
There are hundreds of possible permutations of customized flow records. This task shows the steps that are used to create one of the possible permutations. Modify the steps in this task as appropriate to create a customized flow record for your requirements.
1.
enable
2.
configure
terminal
3.
flow
record
record-name
4.
description
description
5.
match
{ipv4 |
ipv6} {destination |
source}
address
6. Repeat Step 5 as required to configure additional key fields for the record.
7.
collect
interface
{input |
output}
8. Repeat Step 7 as required to configure additional nonkey fields for the record.
9.
end
10.
show
flow
record
record-name
11.
show
running-config
flow
record
record-name
DETAILED STEPS
Configuring the Flow Exporter
Perform this required task to configure the flow exporter.
Note | 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. You can export to a destination using either an IPv4 or IPv6 address. |
1.
enable
2.
configure
terminal
3.
flow
exporter
exporter-name
4.
description
description
5.
destination
{ip-address |
hostname} [vrf
vrf-name]
6.
export-protocol
{netflow-v5 |
netflow-v9 |
ipfix}
7.
dscp
dscp
8.
source
interface-type
interface-number
9.
option
{exporter-stats |
interface-table |
sampler-table |
vrf-table} [timeout
seconds]
10.
output-features
11.
template
data
timeout
seconds
12.
transport
udp
udp-port
13.
ttl
seconds
14.
end
15.
show
flow
exporter
exporter-name
16.
show
running-config
flow
exporter
exporter-name
DETAILED STEPS
Command or Action | Purpose | |||
---|---|---|---|---|
Step 1 |
enable
Example: Device> enable |
Enables privileged EXEC mode. | ||
Step 2 |
configure
terminal
Example: Device# configure terminal |
Enters global configuration mode. | ||
Step 3 |
flow
exporter
exporter-name
Example: Device(config)# flow exporter EXPORTER-1 |
Creates the flow exporter and enters Flexible NetFlow flow exporter configuration mode. | ||
Step 4 |
description
description
Example: Device(config-flow-exporter)# description Exports to the datacenter |
(Optional) Configures a description to the exporter that will appear in the configuration and the display of the show flow exporter command. | ||
Step 5 |
destination
{ip-address |
hostname} [vrf
vrf-name]
Example: Device(config-flow-exporter)# destination 172.16.10.2 |
Specifies the IP address or hostname of the destination system for the exporter.
| ||
Step 6 |
export-protocol
{netflow-v5 |
netflow-v9 |
ipfix}
Example: Device(config-flow-exporter)# export-protocol netflow-v9 |
Specifies the version of the NetFlow export protocol used by the exporter. The export of extracted fields from NBAR is supported only over IPFIX. | ||
Step 7 |
dscp
dscp
Example: Device(config-flow-exporter)# dscp 63 |
(Optional) Configures differentiated services code point (DSCP) parameters for datagrams sent by the exporter. | ||
Step 8 |
source
interface-type
interface-number
Example: Device(config-flow-exporter)# source ethernet 0/0 |
(Optional) Specifies the local interface from which the exporter will use the IP address as the source IP address for exported datagrams. | ||
Step 9 |
option
{exporter-stats |
interface-table |
sampler-table |
vrf-table} [timeout
seconds]
Example: Device(config-flow-exporter)# option exporter-stats timeout 120 |
(Optional) Configures options data parameters for the exporter. | ||
Step 10 |
output-features
Example: Device(config-flow-exporter)# output-features |
(Optional) Enables sending export packets using quality of service (QoS) and encryption. | ||
Step 11 |
template
data
timeout
seconds
Example: Device(config-flow-exporter)# template data timeout 120 |
(Optional) Configures resending of templates based on a timeout. | ||
Step 12 |
transport
udp
udp-port
Example: Device(config-flow-exporter)# transport udp 650 |
Specifies the UDP port on which the destination system is listening for exported datagrams. | ||
Step 13 |
ttl
seconds
Example: Device(config-flow-exporter)# ttl 15 |
(Optional) Configures the time-to-live (TTL) value for datagrams sent by the exporter. | ||
Step 14 |
end
Example: Device(config-flow-exporter)# end |
Exits flow exporter configuration mode and returns to privileged EXEC mode. | ||
Step 15 |
show
flow
exporter
exporter-name
Example: Device# show flow exporter FLOW_EXPORTER-1 |
(Optional) Displays the current status of the specified flow exporter. | ||
Step 16 |
show
running-config
flow
exporter
exporter-name
Example: Device# show running-config flow exporter FLOW_EXPORTER-1 |
(Optional) Displays the configuration of the specified flow exporter. |
Creating a Flow Monitor
Perform this required task to create a customized flow monitor.
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. These record formats can be a user-defined format. An advanced user can create a customized format using the flow record command.
If you want to use a customized record, you must create the customized record before you can perform this task. If you want to add a flow exporter to the flow monitor for data export, you must create the exporter before you can complete this task.
Note | You must use the no ip flow monitor command to remove a flow monitor from all of the interfaces to which you have applied it before you can modify the parameters for the record command on the flow monitor. For information about the ip flow monitor command, refer to the Cisco IOS Flexible NetFlow Command Reference. |
1.
enable
2.
configure
terminal
3.
flow
monitor
monitor-name
4.
description
description
5.
record
{record-name}
6.
cache
{timeout
{active}
seconds |
type {
normal
}
7. Repeat Step 6 as required to finish modifying the cache parameters for this flow monitor.
8.
exporter
exporter-name
9.
end
10.
show
flow
monitor
[[name]
monitor-name
[cache [format {csv |
record |
table}]]
]
11.
show
running-config
flow
monitor
monitor-name
DETAILED STEPS
Command or Action | Purpose | |
---|---|---|
Step 1 |
enable
Example: > enable |
Enables privileged EXEC mode. |
Step 2 |
configure
terminal
Example: # configure terminal |
Enters global configuration mode. |
Step 3 |
flow
monitor
monitor-name
Example: (config)# flow monitor FLOW-MONITOR-1 |
Creates a flow monitor and enters Flexible NetFlow flow monitor configuration mode. |
Step 4 |
description
description
Example: (config-flow-monitor)# description Used for basic ipv4 traffic analysis |
(Optional) Creates a description for the flow monitor. |
Step 5 |
record
{record-name}
Example: (config-flow-monitor)# record FLOW-RECORD-1 |
Specifies the record for the flow monitor. |
Step 6 |
cache
{timeout
{active}
seconds |
type {
normal
}
Example: Device(config-flow-monitor)# cache type normal |
|
Step 7 | Repeat Step 6 as required to finish modifying the cache parameters for this flow monitor. |
— |
Step 8 |
exporter
exporter-name
Example: (config-flow-monitor)# exporter EXPORTER-1 |
(Optional) Specifies the name of an exporter that was created previously. |
Step 9 |
end
Example: (config-flow-monitor)# end |
Exits Flexible NetFlow flow monitor configuration mode and returns to privileged EXEC mode. |
Step 10 |
show
flow
monitor
[[name]
monitor-name
[cache [format {csv |
record |
table}]]
]
Example: # show flow monitor FLOW-MONITOR-2 cache |
(Optional) Displays the status for a Flexible NetFlow flow monitor. |
Step 11 |
show
running-config
flow
monitor
monitor-name
Example: # show running-config flow monitor FLOW_MONITOR-1 |
(Optional) Displays the configuration of the specified flow monitor. |
Applying a Flow Monitor to an Interface
Before it can be activated, a flow monitor must be applied to at least one interface. Perform this required task to activate a flow monitor.
1.
enable
2.
configure
terminal
3.
interface
type
number
4. {ip | ipv6} flow monitor monitor-name {input | output}
5. Repeat Steps 3 and 4 to activate a flow monitor on any other interfaces in the device over which you want to monitor traffic.
6.
end
7.
show
flow
interface
type
number
8.
show
flow
monitor
name
monitor-name
cache
format
record
DETAILED STEPS
Command or Action | Purpose | |
---|---|---|
Step 1 |
enable
Example: Device> enable |
Enables privileged EXEC mode.
|
Step 2 |
configure
terminal
Example: Device# configure terminal |
Enters global configuration mode. |
Step 3 |
interface
type
number
Example: Device(config)# interface GigabitEthernet 0/0/0 |
Specifies an interface and enters interface configuration mode. |
Step 4 | {ip |
ipv6}
flow
monitor
monitor-name {input |
output}
Example: Device(config-if)# ip flow monitor FLOW-MONITOR-1 input |
Activates a flow monitor that was created previously by assigning it to the interface to analyze traffic. |
Step 5 | Repeat Steps 3 and 4 to activate a flow monitor on any other interfaces in the device over which you want to monitor traffic. |
— |
Step 6 |
end
Example: Device(config-if)# end |
Exits interface configuration mode and returns to privileged EXEC mode. |
Step 7 |
show
flow
interface
type
number
Example: Device# show flow interface GigabitEthernet 0/0/0 |
Displays the status of Flexible NetFlow (enabled or disabled) on the specified interface. |
Step 8 |
show
flow
monitor
name
monitor-name
cache
format
record
Example: Device# show flow monitor name FLOW_MONITOR-1 cache format record |
Displays the status, statistics, and flow data in the cache for the specified flow monitor. |
Configuring and Enabling Flexible NetFlow with Data Export
You must create a flow monitor to configure the types of traffic for which you want to export the cache data. You must enable the flow monitor by applying it to at least one interface to start exporting data. To configure and enable Flexible NetFlow with data export, perform this 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 matchcommands in Flexible NetFlow flow record configuration mode.
Note | 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. |
1.
enable
2.
configure
terminal
3.
flow
monitor
monitor-name
4.
record
{record-name |
netflow-original |
netflow {ipv4 |
ipv6
record [peer] }]
5.
exporter
exporter-name
6.
exit
7.
interface
type
number
8. {ip | ipv6} flow monitor monitor-name {input | output}
9.
end
10.
show
flow
monitor
[[name]
monitor-name [cache [format {csv |
record |
table}]][statistics]]
DETAILED STEPS
Command or Action | Purpose | |
---|---|---|
Step 1 |
enable
Example: Device> enable |
Enables privileged EXEC mode.
|
Step 2 |
configure
terminal
Example: Device# configure terminal |
Enters global configuration mode. |
Step 3 |
flow
monitor
monitor-name
Example: Device(config)# flow monitor FLOW-MONITOR-1 |
Creates a flow monitor and enters Flexible NetFlow flow monitor configuration mode.
|
Step 4 |
record
{record-name |
netflow-original |
netflow {ipv4 |
ipv6
record [peer] }]
Example: Device(config-flow-monitor)# record netflow ipv4 original-input |
Specifies the record for the flow monitor. |
Step 5 |
exporter
exporter-name
Example: Device(config-flow-monitor)# exporter EXPORTER-1 |
Specifies the name of an exporter that you created previously. |
Step 6 |
exit
Example: Device(config-flow-monitor)# exit |
Exits Flexible NetFlow flow monitor configuration mode and returns to global configuration mode. |
Step 7 |
interface
type
number
Example: Device(config)# interface GigabitEthernet 0/0/0 |
Specifies an interface and enters interface configuration mode. |
Step 8 | {ip |
ipv6}
flow
monitor
monitor-name {input |
output}
Example: Device(config-if)# ip flow monitor FLOW-MONITOR-1 input |
Activates the flow monitor that you created previously by assigning it to the interface to analyze traffic. |
Step 9 |
end
Example: Device(config-if)# end |
Exits interface configuration mode and returns to privileged EXEC mode. |
Step 10 |
show
flow
monitor
[[name]
monitor-name [cache [format {csv |
record |
table}]][statistics]]
Example: Device# show flow monitor FLOW-MONITOR-2 cache |
(Optional) Displays the status and statistics for a Flexible NetFlow flow monitor. This will verify data export is enabled for the flow monitor cache. |
Configuration Examples for Flexible NetFlow IPv6 Unicast Flows
Example: Configuring Multiple Export Destinations
The following example shows how to configure multiple export destinations for Flexible NetFlow for IPv4 or IPv6 traffic.
This sample starts in global configuration mode:
! flow exporter EXPORTER-1 destination 172.16.10.2 transport udp 90 exit ! flow exporter EXPORTER-2 destination 172.16.10.3 transport udp 90 exit ! flow record v4_r1 match ipv4 tos match ipv4 protocol match ipv4 source address match ipv4 destination address match transport source-port match transport destination-port collect counter bytes long collect counter packets long ! flow record v6_r1 match ipv6 traffic-class match ipv6 protocol match ipv6 source address match ipv6 destination address match transport source-port match transport destination-port collect counter bytes long collect counter packets long ! flow monitor FLOW-MONITOR-1 record v4_r1 exporter EXPORTER-2 exporter EXPORTER-1 ! ! flow monitor FLOW-MONITOR-2 record v6_r1 exporter EXPORTER-2 exporter EXPORTER-1 ! ip cef ! interface GigabitEthernet1/0/0 ip address 172.16.6.2 255.255.255.0 ipv6 address 2001:DB8:2:ABCD::2/48 ip flow monitor FLOW-MONITOR-1 input ipv6 flow monitor FLOW-MONITOR-2 input !
The following display output shows that the flow monitor is exporting data to the two exporters:
Device# show flow monitor FLOW-MONITOR-1 Flow Monitor FLOW-MONITOR-1: Description: User defined Flow Record: v4_r1 Flow Exporter: EXPORTER-1 EXPORTER-2 Cache: Type: normal (Platform cache) Status: allocated Size: 4096 entries / 311316 bytes Inactive Timeout: 15 secs Active Timeout: 1800 secs Update Timeout: 1800 secs
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 example starts in global configuration mode.
! flow record v4_r1 match ipv4 tos match ipv4 protocol match ipv4 source address match ipv4 destination address match transport source-port match transport destination-port collect counter bytes long collect counter packets long ! flow record v6_r1 match ipv6 traffic-class match ipv6 protocol match ipv6 source address match ipv6 destination address match transport source-port match transport destination-port collect counter bytes long collect counter packets long ! flow monitor FLOW-MONITOR-1 record v4_r1 exit ! ! flow monitor FLOW-MONITOR-2 record v6_r1 exit ! ip cef ipv6 cef ! interface GigabitEthernet0/0/0 ip address 172.16.6.2 255.255.255.0 ipv6 address 2001:DB8:2:ABCD::2/48 ip flow monitor FLOW-MONITOR-1 output ipv6 flow monitor FLOW-MONITOR-2 output !
Feature Information for Flexible NetFlow - IPv6 Unicast Flows
The following table provides release information about the feature or features described in this module. This table lists only the software release that introduced support for a given feature in a given software release train. Unless noted otherwise, subsequent releases of that software release train also support that feature.
Use Cisco Feature Navigator to find information about platform support and Cisco software image support. To access Cisco Feature Navigator, go to www.cisco.com/go/cfn. An account on Cisco.com is not required.
Feature Name |
Releases |
Feature Information |
---|---|---|
Flexible NetFlow - IPv6 Unicast Flows |
12.2(33)SRE 12.2(50)SY 12.4(20)T 15.0(1)SY 15.0(1)SY1 Cisco IOS XE Release 3.2SE Cisco IOS XE Release 3.3S |
Enables Flexible NetFlow to monitor IPv6 traffic. Support for this feature was added for Cisco 7200 and 7300 Network Processing Engine (NPE) series routers in Cisco IOS Release 12.2(33)SRE. 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. |