- Python (3.7+) (may work with older 3.x, but this is untested)
- NumPy (scipy)
- crcmod
Unless otherwise noted in a file, everything here is (c) Sec & schneider and licensed under the 2-Clause BSD License
Either extract some Iridium frames from the air or a file using gr-iridium (recommended) or use the legacy code located in the extractror-python directory if you don't want to install GNURadio (not recommended).
It is assumed that the output of the extractor has been written to output.bits. Iridium frames can be decoded with
python3 iridium-parser.py -p output.bits
if you want to speed up that step you can install pypy and instead run
pypy3 iridium-parser.py -p output.bits
See gr-iridium (recommended) or extractor-python (not recommended) on how to extract Iridium frames from raw data.
To listen to voice calls, you will need an AMBE decoder. There are two option:
- Use tnt's open source AMBE decoder: http://git.osmocom.org/osmo-ir77/tree/codec (
git clone http://git.osmocom.org/osmo-ir77) - Extract an AMBE decoder from a firmware binary. Have a look at the documentation in the
ambe_emu/directory.
The easier option is to use tnt's AMBE decoder. You can use the extracted decoder if you want to create bit correct output. There almost no audible difference between the two options. Make sure that either ir77_ambe_decode or ambe is in your PATH. Also select the installed one in play-iridium-ambe.
Make sure that the main folder of the toolkit is in your PATH variable: export PATH=$PATH:<this directory>
Steps to decode voice:
- Decode your captured and demodulated bits using
iridium-parserand put the result into a file:pypy iridium-parser.py output.bits > output.parsed - Use
stats-voc.pyto see streams of captured voice frames:./stats-voc.py output.parsed - Click once left and once right to select an area.
stats-voc.pywill try do decode and play the selected samples using theplay-iridium-ambescript.
Partial documentation: http://wiki.muc.ccc.de/iridium:toolkit#frame_format
iridium-parser.py
Takes the demodulated bits and tries to parse them into a readable format.
Usage: (it is assumed that the output from gr-iridium is in output.bits)
iridium-parser.py [-p] [--harder] output.bits > output.parsed
Some Options:
-p- Only output frames parsed without errors (and error-correction)--harder- Try extra hard to decode with the use of error-correction (very slow)--uw-ec- Try to parse lines with errors inside iridium unique word (also slow)--filter <classname>- Only decode frames of that class (e.g.IridiumRAMessage,IridiumBCMessage, etc.) (fast)
mkkml
Converts IRA frames to a kml file to be viewed in google earth.
Run as grep ^IRA output.parsed |perl mkkml tracks > output.kml to display satellite tracks
Run as grep ^IRA output.parsed |perl mkkml heatmap > output.kml to create a heatmap of sat positions and downlink positions
reassembler.py
Takes the parsed bits (from iridium-parser.py) and reassembles them into higher level protocols.
Supports different modes with the -m option.
Usage: (it is assumed that the output from iridium-parser is in output.parsed)
reassembler.py -i output.parsed -m <mode>
Supported modes are currently:
ida- outputs Um Layer 3 messages as hexidapp- same as above with some light parsing/pretty-printinglap- GSM-compatible L3 messages as GSMtap compatible.pcappage- paging requests (Ring Alert Channel)msg- Pager messagessbd- Short Burst Data messagesacars- parsed ACARS SBD messagesppm- estimation of receiving SDRs PPM frequency offset
