+ <div class="entry">
+ <div class="title">
+ <a href="http://people.skolelinux.org/pere/blog/Visualizing_GSM_radio_chatter_using_gr_gsm_and_Hopglass.html">Visualizing GSM radio chatter using gr-gsm and Hopglass</a>
+ </div>
+ <div class="date">
+ 29th September 2017
+ </div>
+ <div class="body">
+ <p>Every mobile phone announce its existence over radio to the nearby
+mobile cell towers. And this radio chatter is available for anyone
+with a radio receiver capable of receiving them. Details about the
+mobile phones with very good accuracy is of course collected by the
+phone companies, but this is not the topic of this blog post. The
+mobile phone radio chatter make it possible to figure out when a cell
+phone is nearby, as it include the SIM card ID (IMSI). By paying
+attention over time, one can see when a phone arrive and when it leave
+an area. I believe it would be nice to make this information more
+available to the general public, to make more people aware of how
+their phones are announcing their whereabouts to anyone that care to
+listen.</p>
+
+<p>I am very happy to report that we managed to get something
+visualizing this information up and running for
+<a href="http://norwaymakers.org/osf17">Oslo Skaperfestival 2017</a>
+(Oslo Makers Festival) taking place today and tomorrow at Deichmanske
+library. The solution is based on the
+<a href="http://people.skolelinux.org/pere/blog/Easier_recipe_to_observe_the_cell_phones_around_you.html">simple
+recipe for listening to GSM chatter</a> I posted a few days ago, and
+will show up at the stand of <a href="http://sonen.ifi.uio.no/">Åpen
+Sone from the Computer Science department of the University of
+Oslo</a>. The presentation will show the nearby mobile phones (aka
+IMSIs) as dots in a web browser graph, with lines to the dot
+representing mobile base station it is talking to. It was working in
+the lab yesterday, and was moved into place this morning.</p>
+
+<p>We set up a fairly powerful desktop machine using Debian
+Buster/Testing with several (five, I believe) RTL2838 DVB-T receivers
+connected and visualize the visible cell phone towers using an
+<a href="https://github.com/marlow925/hopglass">English version of
+Hopglass</a>. A fairly powerfull machine is needed as the
+grgsm_livemon_headless processes from
+<a href="https://tracker.debian.org/pkg/gr-gsm">gr-gsm</a> converting
+the radio signal to data packages is quite CPU intensive.</p>
+
+<p>The frequencies to listen to, are identified using a slightly
+patched scan-and-livemon (to set the --args values for each receiver),
+and the Hopglass data is generated using the
+<a href="https://github.com/petterreinholdtsen/IMSI-catcher/tree/meshviewer-output">patches
+in my meshviewer-output branch</a>. For some reason we could not get
+more than four SDRs working. There is also a geographical map trying
+to show the location of the base stations, but I believe their
+coordinates are hardcoded to some random location in Germany, I
+believe. The code should be replaced with code to look up location in
+a text file, a sqlite database or one of the online databases
+mentioned in
+<a href="https://github.com/Oros42/IMSI-catcher/issues/14">the github
+issue for the topic</a>.
+
+<p>If this sound interesting, visit the stand at the festival!</p>
+
+ </div>
+ <div class="tags">
+
+
+ Tags: <a href="http://people.skolelinux.org/pere/blog/tags/debian">debian</a>, <a href="http://people.skolelinux.org/pere/blog/tags/english">english</a>, <a href="http://people.skolelinux.org/pere/blog/tags/personvern">personvern</a>, <a href="http://people.skolelinux.org/pere/blog/tags/surveillance">surveillance</a>.
+
+
+ </div>
+ </div>
+ <div class="padding"></div>
+
+ <div class="entry">
+ <div class="title">
+ <a href="http://people.skolelinux.org/pere/blog/Easier_recipe_to_observe_the_cell_phones_around_you.html">Easier recipe to observe the cell phones around you</a>
+ </div>
+ <div class="date">
+ 24th September 2017
+ </div>
+ <div class="body">
+ <p>A little more than a month ago I wrote
+<a href="http://people.skolelinux.org/pere/blog/Simpler_recipe_on_how_to_make_a_simple__7_IMSI_Catcher_using_Debian.html">how
+to observe the SIM card ID (aka IMSI number) of mobile phones talking
+to nearby mobile phone base stations using Debian GNU/Linux and a
+cheap USB software defined radio</a>, and thus being able to pinpoint
+the location of people and equipment (like cars and trains) with an
+accuracy of a few kilometer. Since then we have worked to make the
+procedure even simpler, and it is now possible to do this without any
+manual frequency tuning and without building your own packages.</p>
+
+<p>The <a href="https://tracker.debian.org/pkg/gr-gsm">gr-gsm</a>
+package is now included in Debian testing and unstable, and the
+IMSI-catcher code no longer require root access to fetch and decode
+the GSM data collected using gr-gsm.</p>
+
+<p>Here is an updated recipe, using packages built by Debian and a git
+clone of two python scripts:</p>
+
+<ol>
+
+<li>Start with a Debian machine running the Buster version (aka
+ testing).</li>
+
+<li>Run '<tt>apt install gr-gsm python-numpy python-scipy
+ python-scapy</tt>' as root to install required packages.</li>
+
+<li>Fetch the code decoding GSM packages using '<tt>git clone
+ github.com/Oros42/IMSI-catcher.git</tt>'.</li>
+
+<li>Insert USB software defined radio supported by GNU Radio.</li>
+
+<li>Enter the IMSI-catcher directory and run '<tt>python
+ scan-and-livemon</tt>' to locate the frequency of nearby base
+ stations and start listening for GSM packages on one of them.</li>
+
+<li>Enter the IMSI-catcher directory and run '<tt>python
+ simple_IMSI-catcher.py</tt>' to display the collected information.</li>
+
+</ol>
+
+<p>Note, due to a bug somewhere the scan-and-livemon program (actually
+<a href="https://github.com/ptrkrysik/gr-gsm/issues/336">its underlying
+program grgsm_scanner</a>) do not work with the HackRF radio. It does
+work with RTL 8232 and other similar USB radio receivers you can get
+very cheaply
+(<a href="https://www.ebay.com/sch/items/?_nkw=rtl+2832">for example
+from ebay</a>), so for now the solution is to scan using the RTL radio
+and only use HackRF for fetching GSM data.</p>
+
+<p>As far as I can tell, a cell phone only show up on one of the
+frequencies at the time, so if you are going to track and count every
+cell phone around you, you need to listen to all the frequencies used.
+To listen to several frequencies, use the --numrecv argument to
+scan-and-livemon to use several receivers. Further, I am not sure if
+phones using 3G or 4G will show as talking GSM to base stations, so
+this approach might not see all phones around you. I typically see
+0-400 IMSI numbers an hour when looking around where I live.</p>
+
+<p>I've tried to run the scanner on a
+<a href="https://wiki.debian.org/RaspberryPi">Raspberry Pi 2 and 3
+running Debian Buster</a>, but the grgsm_livemon_headless process seem
+to be too CPU intensive to keep up. When GNU Radio print 'O' to
+stdout, I am told there it is caused by a buffer overflow between the
+radio and GNU Radio, caused by the program being unable to read the
+GSM data fast enough. If you see a stream of 'O's from the terminal
+where you started scan-and-livemon, you need a give the process more
+CPU power. Perhaps someone are able to optimize the code to a point
+where it become possible to set up RPi3 based GSM sniffers? I tried
+using Raspbian instead of Debian, but there seem to be something wrong
+with GNU Radio on raspbian, causing glibc to abort().</p>
+
+ </div>
+ <div class="tags">
+
+
+ Tags: <a href="http://people.skolelinux.org/pere/blog/tags/debian">debian</a>, <a href="http://people.skolelinux.org/pere/blog/tags/english">english</a>, <a href="http://people.skolelinux.org/pere/blog/tags/personvern">personvern</a>, <a href="http://people.skolelinux.org/pere/blog/tags/surveillance">surveillance</a>.
+
+
+ </div>
+ </div>
+ <div class="padding"></div>
+