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I am currently engaged in a research project involving sniffing and modifying radio packets, and unfortunately I've hit a bit of a mathematical brick wall. :-/

The packets in question have a 16 bit preamble of all 1's, followed by a binary 0, followed by 32 bits of various data, followed by a 16 bit checksum of some kind, for a total of 65 total bits per radio packet.

I've collected several hundred data samples using a logic analyzer, mostly by forcing the transmitting device to report different states, and I've collected the data in Excel.

Now, the hardware doing the transmission is pretty old, circa early 90's, so I'm not expecting anything fancy. At first I just thought I'd try to figure it out by hand but had little luck. After thinking that I had it all figured out using a couple XOR's, OR's, and XAND's, I realized that my "formula" failed miserably on other transmitters with different serial numbers (the first 16 bits of data).

Since it's only 16 bits and I figured it was so old, I figured it might be a simple CRC, but I have yet to find formulation that provides even remotely correct results.

I even found another post on StackOverflow from a few years ago from someone with a similar problem, but none of the solutions I combed through seemed to help.

The ultimate goal is to be able to create transmissions for arbitrary serial numbers without having access to the actual physical transmitter.

Thoughts? Comments?

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Your data has 65 bits - am I missing something? –  jon Apr 28 '12 at 0:22
You are not. My notes somewhere even said 65 bits but I forgot about it...give me a second and I'll correct my post. The data samples are valid, though. :-) –  Omikron Apr 28 '12 at 0:25
Okay, caught the problem. I forgot to count the 17th bit in the transmission stream, which is what I can only assume is the "seprator" bit or start sentinal. This does indeed bring up the grand total to 65 bits. –  Omikron Apr 28 '12 at 0:27
Can you force all data bits to 0, then capture the checksums for each possible position of a lone 1? –  jon Apr 28 '12 at 1:29
I've also just updated the data samples file with another sheet. The first sheet marked "Original Data" represents sampled transmissions I've collected from "authentic" transmitters. The "Brute Forced" data represents transmissions with modified data bits where the checksum is brute forced until the receiving devices registers and acknowledgement. –  Omikron Apr 28 '12 at 1:30

1 Answer 1

Have you made any progress?

Some useful links:

  1. CRC Catalogue on bbcmicro.net.
  2. Pycrc has many CRC calculations already implemented.
  3. CRC models for pycrc.
  4. Wikipedia's "Commonly Used And Standardized_CRCs"
  5. Brute Force Polynomial Finder
  6. Brute Forcing CRC Paramaters
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