Embedded Packet Capture, let’s go fishing for some packets!

27 Feb

EPC (Embedded Packet Capture) is another useful troubleshooting tool to occasionally capture traffic to be analyzed locally or exported to remote device. Occasionally, in contrast with RITE (Router IP Traffic Export) or SPAN on switches which are meant to have permanent flow of copied traffic directed to a traffic analyzer or IDS (Intrusion Detection System).

The configuration workflow is straightforward, but I would like to make a conceptual graphical analogy to illustrate it.

Let’s imagine traffic flowing through a router interface like the following:

Embedded Packet Capture

1- Capture point:

Specify the protocol to capture, the interface and the direction, this is the Here you indicate which IP protocol you need to capture.

monitor capture point ip cef CAPTURE_POINT fastEthernet 0/0 both
monitor capture point ipv6 cef CAPTURE_POINT fastEthernet 0/0 both

2- Packet buffer:


Memory area where the frames are stored once captured. 

monitor capture buffer CAPTURE_BUFFER

 

Embedded Packet Capture

3- ACL:


If needed you can filter a specific type of traffic, available only for IPv4. 

(config)#access-list 100 permit icmp host 192.168.0.1 host 172.16.1.1#monitor capture buffer CAPTURE_BUFFER filter access-list 100 

 

 

Except the optional IPv4 ACL, configured at the global configuration mode, everything else is configured at the privileged EXEC mode.

Embedded Packet Capture

4- Associate capture point with capture buffer

monitor capture point associate CAPTURE_POINT CAPTURE_BUFFER

You can associate multiple capture points (on the same or multiple interfaces) to the same buffer.

Embedded Packet Capture

5- Start and stop capture process

monitor capture point start CAPTURE_POINTmonitor capture point stop CAPTURE_POINT

 concept6

If you are familiar with wireshark, it will be easier to remember the steps needed to capture traffic.

Wireshark analogy

wireshark and Embedded Packet Capture

Deployment 1

Two capture points are created to capture IPv4 and IPv6 traffic into separate capture buffers.

monitor capture point ipv6 cef CAPTURE_POINT6 fa0/0 bothmonitor capture buffer CAPTURE_BUFFER6 

monitor capture point associate CAPTURE_POINT6 CAPTURE_BUFFER6

!

monitor capture point ip cef CAPTURE_POINT4 fa0/0 both

monitor capture buffer CAPTURE_BUFFER4

monitor capture point associate CAPTURE_POINT4 CAPTURE_BUFFER4

Following is the result on the router

Deployment 2

Two capture points are created to capture IPv4 and IPv6 traffic into single capture buffer.

monitor capture point ipv6 cef CAPTURE_POINT6 fa0/0 bothmonitor capture point ip cef CAPTURE_POINT4 fa0/0 both! 

monitor capture buffer CAPTURE_BUFFER46

!

monitor capture point associate CAPTURE_POINT6 CAPTURE_BUFFER46

monitor capture point associate CAPTURE_POINT4 CAPTURE_BUFFER46

 

Following is the result on the router

Exporting

!Example of export to tftpR1#monitor capture buffer CAPTURE_BUFFER46 export ftp://login:password@192.168.0.32/Volume_1/ecp.pcap 

Writing Volume_1/ecp.pcap

R1#

!Example of export to tftp

R1# monitor capture buffer CAPTURE_BUFFER46 export tftp://192.168.0.145/ecp.pcap

!

R1#

And the file opened in wireshark:

EPC traffic opened with wireshark

Source: http://cciethebeginning.wordpress.com/2014/02/26/embedded-packet-capture-lets-go-fishing-for-some-packets/

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