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I'm an Automation Developer and lately I've taken it upon myself to control an IP Phone on my desk (Cisco 7940).

I have a third party application that can control the IP phone with SCCP (Skinny) packets. Through Wireshark, I see that the application will send 4 unique SCCP packets and then receives a TCP ACK message.

SCCP is not very well known, but it looks like this:

Ethernet( IP( TCP( SCCP( ))))

Using a Python packet builder: Scapy, I've been able to send the same 4 packets to the IP Phone, however I never get the ACK. In my packets, I have correctly set the sequence, port and acknowledge values in the TCP header. The ID field in the IP header is also correct.

The only thing I can imagine wrong is that it takes Python a little more than a full second to send the four packets. Whereas the application takes significantly less time. I've tried raising the priority for the Python shell with no luck.

Does anyone have an idea why I may not be receiving the ACK back?

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migrated from serverfault.com May 8 '13 at 19:40

This question came from our site for professional system and network administrators.

If you use scapy directly from the shell, not from within python, does it work? –  Danila Ladner May 7 '13 at 18:53
Nad i guess you could actually send packet with socket or socketserver, but build the packet with scapy. –  Danila Ladner May 7 '13 at 18:57
That is a good suggestion. Do you also suspect the latency in sending the packets then? –  Nick Williams May 7 '13 at 18:59
Yeah, most likely. Try away, and let us know. –  Danila Ladner May 7 '13 at 19:00
It's difficult to send the packets through the shell because my Python script determines the necessary ID, Sequence and Acknowledgement values for each packet. To enter in manually would be slower. –  Nick Williams May 7 '13 at 19:03

1 Answer 1

This website may be helpful in debugging why on your machine you aren't seeing the traffic you expect, and taking steps to modify your environment to produce the desired output.

Normally, the Linux kernel takes care of setting up and sending and receiving network traffic. It automatically sets appropriate header values and even knows how to complete a TCP 3 way handshake. Uising the kernel services in this way is using a "cooked" socket.

Scapy does not use these kernel services. It creates a "raw" socket. The entire TCP/IP stack of the OS is circumvented. Because of this, Scapy give us compete control over the traffic. Traffic to and from Scapy will not be filtered by iptables. Also, we will have to take care of the TCP 3 way handshake ourselves.


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