This application parses diagnostic messages of Qualcomm and Samsung baseband through USB, and generates a stream of GSMTAP packet containing cellular control plane messages.
Only tested in Linux, mostly various versions of Ubuntu. Python 3.7 is a minimum requirement, and the following external modules are required:
To properly decode GSMTAP packets generated by SCAT, Wireshark 2.6.0 or above is required. For older Wireshark releases, we are providing a Wireshark Lua plugin to extend the GSMTAP dissector. The Wireshark plugin is required to dissect LTE MAC and PDCP packets generated by SCAT version 1.3.0, and NR RRC/NAS-5GS packets.
Warning: NR RRC/NAS-5GS messages are only available through GSMTAPv3 which is work in progress. SCAT master uses GSMTAPv3 draft version only for NR RRC/NAS-5GS, and the definition of GSMTAPv3 may change in the future. SCAT does not guarantee data compatibility of GSMTAPv3 packets until it is finalized. Therefore, please also keep the QMDL/SDM files if you need to preserve 5G signaling messages for future usage.
Cellular device must expost the diagnostic port via USB.
This is largely device-dependent and we can not give generic solution for all devices.
This external website provides some instructions on either opening up the diagnostic port or collecting the baseband dump file.
You can also search the Internet with keyword (your device name) qpst
to get the method of exposing the diagnostic port for Qualcomm-based smartphones.
The wiki page collects information on tested devices and any device-specific quirks.
If your smartphone does not expose the diagnostic port via USB, you can try using the baseband dump features existing in some smartphones. Follow the wiki page for details. We do not support any companion app on the (rooted) Android device, and there will be no plan to implement this.
You need to explicitly install SCAT before using it. Just executing the main script from the git checkout will not work. Use any of the following commands:
# If you want fast CRC calculation (for Qualcomm and HiSilicon)
$ pip install "scat[fastcrc] @ git+https://github.com/fgsect/scat"
# If you don't want or can't build libscrc
$ pip install git+https://github.com/fgsect/scat
Please note that the name SCAT is taken in the PyPI, I will find further solution.
For development purposes, please use pip install -e .[fastcrc]
or pip install -e .
on your checkout directory.
You will also need to install udev.rules on Linux if SCAT is not able to open the USB device as a normal user. If you cannot open a serial device (even as a root), please stop ModemManager.
For smartphones use the USB directly to access the diagnostics port.
For discrete cellular modules use the serial mode instead.
The qcserial
and option
kernel module do not have the information of diagnostic port of all Qualcomm-based smartphones and cellular modules, and no such module exist for Samsung-based smartphones.
By default, SCAT will send packets to 127.0.0.1, control plane packets to UDP port 4729 as GSMTAP, user plane packets to UDP port 47290 as IP.
Exit the application with Ctrl+C.
Please see the wiki page for advanced options.
-t
option specifies the type of baseband. Following options are available:
-t qc
: Qualcomm-t sec
: Samsung-t hisi
: HiSilicon (experimental, only baseband dump is supported)
SCAT version up to 1.1.0 required specifying the Samsung baseband type manually using -m
.
As SCAT now autodetects the Samsung baseband type, for SCAT 1.2.0 and above this option is only required when analyzing the raw SDM file without start response.
Accessing the baseband diagnostics via USB:
$ scat -t qc -u -a 001:010 -i 2
$ scat -t sec -u -a 001:010 -i 2
Although there are small heuristic to determine the connected device, it is recommended to explicitly specify the USB device address and interface number of diagnostics node.
-a 001:010
specifies the address, which follows the same syntax visible in lsusb
command.
-i 2
specifies the interface number of the diagnostic node, which is again device specific.
Samsung devices require a correct magic number to be supplied to start the diagnostic session through USB. Please see Issue #27 for more information on this.
Accessing the baseband diagnostics via serial port:
$ scat -t qc -s /dev/ttyUSB0
Replace /dev/ttyUSB0
to what is your diagnostic device.
Parsing the baseband dump file:
$ scat -t qc -d test.qmdl
$ scat -t sec -d test.sdm
$ scat -t hisi -d test.lpd
Please see the wiki page.
Issues related to exposing the diagnostics port via USB is out of scope.
- On certain Qualcomm devices, after exiting and launching the application for more than once, initialization eventually hangs and no messages are appearing. Root cause still in investigation. Solution: reboot the smartphone.
The canonical address is the Matrix chat room. Telegram is only provided as a bridge and exists only for your convenience. In case of abuse I may close down the Telegram bridge.
Rules:
- The
--start-magic
related to the Issue #27 should not be discussed in the public. - Please respect the rules of tchncs.de where the chat room is hosted.
- Please be nice to each others, and do not push anyone regarding the ETA of any feature of bugfix.
- SCAT is not a part of KDE project, but I personally recommend KDE's code of conduct.
SCAT is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
We are kindly asking any academic works utilizing and/or incorporating this software to cite one of these references listed below:
- Byeongdo Hong, Shinjo Park, Hongil Kim, Dongkwan Kim, Hyunwook Hong, Hyunwoo Choi, Jean-Pierre Seifert, Sung-Ju Lee, Yongdae Kim. Peeking over the Cellular Walled Gardens - A Method for Closed Network Diagnosis -. IEEE Transactions on Mobile Computing, February 2018.
Thanks to Christian Oschwald and Willem Hengeveld from GSMK for their support on Samsung SDM parser.