The global market for connected cars will grow by 270% by 2022 with 125 million passenger cars expected to ship worldwide between 2018 and 2022. By 2020, it’s estimated that UK, France and Germany will reach 100% connected car penetration. Growth in the European region is due to the eCall mandate which requires new cars to automatically dial the 112 emergency number in the event of a serious accident. While North America and Europe lead in the highest percentage of shipments, China accounts for 32% of shipments.
The list of connected features enjoyed by consumers that add more opportunities for security attacks include streaming radio, Wi-Fi access points and remote-control mobile phone applications. However, with these conveniences comes responsibility. The recent death of a woman in Arizona who was struck by an Uber in autonomous mode has put a spotlight on what can go wrong in connected vehicles as manufacturers seek to introduce more high-tech features to remain competitive to car buyers. Not surprisingly, 68% of Americans are fearful of cars with self-driving features.
The increasing number of smart features built into cars opens door to a serious threat — hacker attacks. Because connected cars are linked with the Internet and its crucial parts are interconnected over a network, adversaries have the potential to remotely access and manipulate the data being exchanged leading to a number of problems, such as leaked personal information, overcoming vehicle’s security mechanisms, or even full remote control of the car.
Threats to the Connected Car
Innovative automakers, software developers, and tech companies are transforming the automotive industry. Drivers today enjoy enhanced entertainment, information options and connection with the outside world. As automobiles move towards more autonomous capabilities, the stakes will raise in regards to security. Even if cars are not entirely driverless, the functions will become increasingly dependent on applications, connectivity, and sensors. Vehicle-to-vehicle (V2V) and Vehicle-to-Infrastructure (V2I) allow the car to communicate with other cars and infrastructure such as traffic lights. Vehicle speed adjustments, telematics, and AI voice recognition and interfaces will become common features.
The rapid increase of these technologies inevitably creates the risk of hackers gaining access and control to the essential functions and features of those cars and utilizing information on drivers’ habits for commercial purposes without the drivers’ knowledge or consent.
Here are some of the risks for connected cars:
- Stealing personally identifiable information(PII): Today, sensors generate 25 GB of data per hour and this is expected to double considering there will be 200 sensors installed in connected cars by 2020 up from 100 sensors in 2015. Once autonomous vehicles become mainstream, the 17,600 minutes Americans spend driving annually will equate to 300 TB of data per year. Financial information, personal trip information, location information and entertainment preferences are just some examples of PII that can potentially be stolen through a vehicle’s system.
- Connection security: Like other connected devices, vendor implementation flaws are often exploited by researchers for proof-of-concept attacks. However, it is inevitable that these will be followed by real life attacks. The current poor state of security on connected cars creates a tempting target for cyber criminals.
- Manipulating a vehicle’s operation: Catastrophic incidents resulting in personal injury and lawsuits may be in the near future. Well-known cybersecurity researchers Charlie Miller and Chris Valasek have demonstrated several proof-of-concept attacks where they were able to control the braking and steering of a car by accessing the adaptive cruise control system. Although costly and with a lower likelihood than data breaches and unauthorized entry, this sort of attack has now been proven possible to a global audience.
- Unauthorized vehicle entry: Car thieves now have a new way to gain entry into locked vehicles. Many vehicle technologies have opted to replace physical ignition systems with keyless systems using mobile applications or wireless key fobs. These new access mechanisms mean that methods of obtaining illicit entry include intercepting the wireless communication between the vehicle and the mobile application or between the wireless fob and the vehicle to gain entry credentials, among other methods. The New York Times has documented methods such as wireless key emulation devices and “power amplifiers” that increase the range of the wireless signal looking for the entry credentials. If the owner is in a house or other location close to the car, criminals can then gain entry when their wireless fob responds.
- Mobile application security: As more automobile manufacturers release mobile applications that communicate with cars, mobile applications are quickly becoming a major target for malicious behavior. One example of a flaw in a mobile application happened when Nissan had to pull its NissanConnect EV application for the Nissan Leaf. The poor security of the application allowed security researchers to connect to the Leaf via the Internet and remotely turn on the car’s heated seating, heated steering wheel, fans and air conditioning. In an electric car, this meant the possibility a malicious actor could drain the battery of an unsuspecting owner. Mobile applications themselves can be vulnerable in a number of ways. According to Gartner, 75% of mobile applications would fail basic security tests. Mobile operating systems themselves are a source of concern — over the last four years, there has been a 188% increase in the number of Android vulnerabilities and a 262% increase in the number of iOS vulnerabilities.
Download our 2018 Intertrust Connected Car Security White Paper
Intertrust’s Products for Connected Car Security
whiteCryption is a leading provider of application shielding solutions to prevent hackers from reverse engineering and tampering with code. Our products are backed up by superlative support and professional services to help you achieve your business goals quickly and efficiently.
Our application shielding portfolio consists of two products:
- whiteCryption® Code Protection™ provides application developers with a comprehensive suite of anti-reverse engineering and runtime application security protections to help protect your applications.
- whiteCryption® Secure Key Box™ is an advanced white box cryptographic library that protects cryptographic keys for critical security functions such as device authentication, secure communications, and data encryption.
Founded over a decade ago by Intertrust Technologies Corporation, Seacert provides public-key infrastructure (PKI), specializing in large-scale key provisioning for device identities. Seacert’s services are used by leading media and entertainment companies, manufacturers of automotive, healthcare, and other types of IoT devices. Seacert credentials are embedded in hundreds of millions of devices and applications worldwide.
2018 Intertrust Connected Car Security White Paper
This white paper describes the potential threats in modern connected cars, the ways hackers attempt to tamper with the data and software, and what are the solutions to these threats. Finally, this paper will focus on Intertrust’s robust solution to protecting connected cars — a set of software tools that are intended to increase application-level security and render hacker attacks extremely difficult and expensive to execute.
Originally published at www.intertrust.com on June 7, 2018.