@inproceedings{WeissRennerMottoketal., author = {Weiss, Nils and Renner, Sebastian and Mottok, J{\"u}rgen and Matoušek, V{\´a}clav}, title = {Transport Layer Scanning for Attack Surface Detection in Vehicular Networks}, series = {CSCS '20: Computer Science in Cars Symposium}, booktitle = {CSCS '20: Computer Science in Cars Symposium}, number = {7}, address = {Feldkirchen}, doi = {10.1145/3385958.3430476}, pages = {1 -- 8}, abstract = {In the beginning of every security analysis or penetration test of a system, information about the target has to be gathered. On IT-Systems a port scan is usually performed as a first step of an investigation. Since the communication protocols differ in automotive systems, generic port scanning tools can't be used for a security analysis of CANs. More complex protocols have a higher likelihood of implementation errors and bugs. On CAN networks, such payloads are transferred through International Standard Transport Protocol (ISO-TP) communication. We designed a new methodology to identify ISO-TP endpoints in automotive networks. Every of these endpoints can provide exploitable application layer protocols and therefor has to be considered during penetration testing and security analysis. We contribute a new scan approach for the automated evaluation of possible attack surfaces in automotive CAN networks which has a higher coverage and multiple advantages than state of the art approaches.}, language = {en} }