The gr-gsm project is based on the gsm-receiver written by Piotr Krysik (also the main author of gr-gsm) for the Airprobe project.

The aim is to provide set of tools for receiving information transmitted by GSM equipment/devices.

Current gr-gsm project's mailing list address is following:

gr-gsm@googlegroups.com

Mailing list is a place for general discussions, questions about the usage and installation. In case of problem with installation please try to provide full information that will help reproducing it. Minimum information should contain:

• operating system with version,
• kind of installation (how gr-gsm and its dependencies were installed: with pybombs, from distibution's repository, compiled manually)
• version of gnuradio (it can be obtained with: gnuradio-companion --version)
• error messages (in case of pybombs installation they can be obtained after switching it to verbous mode with -v option).

To join the group with any e-mail addres (google account is not required) use this link:

https://groups.google.com/forum/#!forum/gr-gsm/join

The gr-gsm is based on GNU Radio signal processing framework and takes advantage of its great features like stream tagging and message passing. Presence of GNU Radio is therefore a basic requirement for compilation and installation of gr-gsm.

The easiest way to install gr-gsm it to use pybombs installer (GNU Radio install management system). Installation with this tool was tested on Ubuntu 14.04 and 14.10 (on 14.10 installation will be much faster as compilation of GNU Radio is not necessary). For installation of pybombs you will need git. On Debian based distributions you can get it with:

sudo apt-get install git

Then download pybombs sources using git:

git clone https://github.com/pybombs/pybombs.git

Go into pybombs directory and configure it:

cd pybombs
./pybombs config

As a install prefix enter /usr/local/. The rest of the options can be left as defaul.

On distributions that have GNU Radio version 3.7.3 and above in standard repository, GNU Radio can be installed from packages without compilation. To avoid this quite lenghty process use:

./pybombs config forcebuild ' '

To check GNU Radio version use:

apt-cache policy gnuradio-dev

Then build and install gr-gsm with following command:

sudo ./pybombs install gr-gsm

Pybombs will take care of downloading all of required libraries and for installation of GNU Radio and building gr-gsm.

At the end create the ~/.gnuradio/config.conf config file so gnuradio-companion can find custom blocks of gr-gsm:

[grc]
local_blocks_path=/usr/local/share/gnuradio/grc/blocks

On OS X, to compile from source, you have to make sure you point cmake to the proper python version otherwise swig will crash later one at runtime e.g. (if using gnuradio from macports):

cmake -DCMAKE_INSTALL_PREFIX:PATH=/opt/local -DPYTHON_LIBRARY=/opt/local/Library/Frameworks/Python.framework/Versions/2.7/lib -DPYTHON_INCLUDE_DIR=/opt/local/Library/Frameworks/Python.framework/Versions/2.7/include/python2.7/ ..

There are many possible applications of gr-gsm. At this moment there is one application that is ready out of the box. It is improved replacement of the old Airprobe - the program that lets you receive and decode GSM control messages from timeslot 0 on the broadcasting channel of a BTS. After installation of gr-gsm there are two python executables that will be installed:

-airprobe_rtlsdr.py,

-airprobe_file.py.

This program uses cheap RTL-SDR receivers as a source of the signal. It can be started by running from a terminal:

airprobe_rtlsdr.py

The window of the program contains amplitude spectrum of the signal drawn in real-time. The central frequency of the signal can be changed by moving fc slider. The GSM signal has bandwidth of around 200kHz. By looking for constant hills on the spectrum of such width you can find a GSM broadcasting channel. After setting the fc slider to a carrier frequency of a broadcasting channel the program should immediately print content of subsequent messages on the standard output.

If it doesn't happen, set ppm slider into different positions. The slider is responsible for setting devices clock offset correction. If the clock offset is too large the clock offset correction algorithm that is implemented in the program won't work. There is intentionally added upper of allowable clock offset - it was done in order to avoid adaptation of the algorithm to neighbour channels that would inevitably lead to instability. You can use the value set later by passing it as argument of the program:

airprobe_rtlsdr.py -p <correction>

This program processes files containing complex data - interleaved float IQ samples. Example of the usage:

airprobe_file.py --samp-rate=1M --fc=940M -i input_file 

where:

--samp-rate - sampling frequency of the data stored in the file,
--fc - central frequency of the recorded data - it is needed for frequency offset correction,
-i - the file containing the complex data.

The Airprobe (file, rtlsdr) application sends GSM messages in GSMTAP format that was created by Harald Welte to the UDP port number 4729. Wireshark interprets packets coming on this port as GSM data with GSMTAP header and it is able to dissect messages.

On Debian like systems *Wireshark can be installed with:

sudo apt-get install wireshark

To start Wireshark straight to analysis of the GSMTAP packets obtained from gr-gsm's airprobe use following command:

sudo wireshark -k -f udp -Y gsmtap -i lo

If you want to avoid the risks caused by running Wireshark with root privileges follow this short howto: https://ask.wireshark.org/questions/7976/wireshark-setup-linux-for-nonroot-user

If you intend to develop gr-gsm or have problem with pyboms installation - here is description how to manually compile and install gr-gsm from source.

You will need gnuradio, rtl-sdr, gr-osmosdr and libosmocor.e For their installation look at homepages of those projects:

http://gnuradio.org/redmine/projects/gnuradio/wiki

http://sdr.osmocom.org/trac/wiki/rtl-sdr

http://sdr.osmocom.org/trac/wiki/GrOsmoSDR

http://bb.osmocom.org/trac/wiki/libosmocore

Sometimes it is possible to install these programs/libraries from distibution's repository. Keep in mind that gr-gsm need GNU Radio 3.7.3 and above.

To download gr-gsm sources run following command:

git clone https://github.com/ptrkrysik/gr-gsm.git

Make sure that you have all required packages (checked on Ubuntu 14.04 and 14.10):

sudo apt-get install cmake libboost-all-dev libcppunit-dev swig \
                     doxygen liblog4cpp5-dev python-scipy

To compile and install gr-gsm run:

cd gr-gsm
mkdir build
cmake ..
make
sudo make install

New features are accepted through github's pull requests. When creating pull request try to make it adress one topic (addition of a feature x, corretion of bug y).

If you wish to develop something for gr-gsm but don't know exactly what, then look for issues with label "Enhancement". Select one that you feel you are able to complete. After that claim it by commenting in the comment section of the issue. If there is any additional information about gr-gsm needed by you to make completing the task easier - just ask.

Short presentation of Airprobe'like application of gr-gsm:

https://www.youtube.com/watch?v=Eofnb7zr8QE

Piotr Krysik <ptrkrysik (at) gmail.com> - main author and project maintainer

Roman Khassraf <rkhassraf (at) gmail.com> - blocks for demultiplexing and decoding of voice channels, decryption block supporting all ciphers used in GSM, blocks for storing and reading GSM bursts, project planning and user support

Pieter Robyns <pieter.robyns (at) uhasselt.be> - block reversing channel hopping

Steve <steve (at) segfault.net> - functions for decoding control channels

This work is built upon the efforts made by many people to gather knowledge of GSM.

First very significant effort of public research into GSM and its security vulnerabilities was The Hacker's Choice GSM SCANNER PROJECT. One of the results of this project was creation of a software GSM receiver by Tvoid - gsm-tvoid - which was was the most important predecessor of gr-gsm and of gsm-receiver from the Airprobe project.

Gr-gsm wouldn't be also possible without help and inspiration by Harald Welte, Dieter Spaar and Sylvain Munaut.

Special thanks to Pawel Koszut who generously lent his USRP1 to the author of gr-gsm (Piotr Krysik) in 2007-2010.