Threats in space (or rather, on Earth): internet-exposed GNSS receivers
2024-11-13 18:0:14 Author: securelist.com(查看原文) 阅读量:18 收藏

What is GNSS?

Global Navigation Satellite Systems (GNSS) are collections, or constellations of satellite positioning systems. There are several GNSSs launched by different countries currently in operation: GPS (US), GLONASS (Russia), Galileo (EU), BeiDou Navigation Satellite System (BDS, China), Navigation with Indian Constellation (NavIC, India) and Quazi-Zenith Satellite System (QZSS, Japan). These systems are used for positioning, navigation and timing (PNT) by a wide range of industries: agriculture, finance, transportation, mobile communications, banking and others.

There are three major segments involved in GNSS operations:

  • The satellites themselves, orbiting Earth at an altitude of 19,000–36,000 kilometers (11,800–22,400 miles).
  • The control segment consisting of ground-based master control stations, monitoring stations and data upload stations (or ground antennas). Monitor stations track satellites and collect various associated data, such as navigation signals, range or carrier measurements. They then transmit the data to the master control stations. The master control stations in their turn adjust the satellite orbit parameters if necessary, using data upload stations to upload commands to the satellites.
  • Various user hardware, such as mobile phones, vehicles, etc. that receives satellite signals and uses them to derive position and time information to operate correctly.

Both monitor stations and user devices are equipped with GNSS receivers, the former being more complex than the latter. These receivers may be accessed through a control interface, which enables configuring and troubleshooting them. However, if accessed by an adversary, it may pose a significant threat given that critical operations, such as air traffic control and marine navigation, may rely on these receivers. In this article, we’ll review the state of GNSS receiver security in 2024.

What are the threats to GNSS systems?

There are several possible attack vectors against GNSS systems. First, satellite signal may be jammed. By the time a GNSS signal reaches a ground-based receiver, its power is rather low. If another device’s signal in the same or an adjacent frequency band is powerful enough, the receiver may not detect the GNSS signal. The interference may be both accidental and intentional. There’s a number of inexpensive devices available online and designed to jam GNSS signals.

Second, GNSS signal may be blocked in some areas by large structures, such as skyscrapers and other tall buildings. This could hardly be considered an intentional attack, however; as cities grow, the number of such areas may grow, too.

Third, GNSS signal may be spoofed. Unlike jamming, spoofing is always an intentional attack. The attacker uses a ground-based device, which imitates a satellite, providing invalid information to the GNSS receiver. As a result, the receiving device calculates an incorrect position.

Fourth, physical attacks against satellites are possible, although not likely. And, last but not least, a cyberattack can be conducted against a vulnerable GNSS receiver.

Internet-exposed GNSS receivers and attacks on them

In 2023, at least two black hat groups conducted multiple attacks against GNSS receivers. In May that year, SiegedSec, a hacktivist and crimeware group, gained access to satellite receivers in Colombia in response to a hacker being arrested by authorities. In mid-2023, the group targeted devices belonging to multiple entities in the U.S., and claimed to have accessed satellite receivers in Romania. Although they haven’t caused any damage apart from accessing sensitive data and publishing screenshots through their channels, unauthorized access by an attacker to GNSS receivers can be a lot more destructive.

Another group attacking satellite receivers in 2023 was GhostSec. Throughout the year, they targeted numerous GNSS receivers in various countries including Russia and Israel. In some of the attacks they claimed to have not only accessed but also wiped data from the compromised satellite receivers, which illustrates the possible damage from such incidents.

Cybersecurity firm Cyble analyzed the attack surface against satellite receivers from five major vendors, and found out that as of March 2023, thousands of these receivers were exposed online. Broken down by vendor, the numbers were as follows:

Vendor Number of exposed receivers Top countries
GNSS-1 3,641 USA
Japan
Canada
GNSS-2 4,864 Australia
Greece
Italy
GNSS-3 899 Russia
Poland
USA
GNSS-4 343 South Korea
USA
France
GNSS-5 28 China
Thailand
USA

Internet-exposed GNSS receivers in 2024

A year later, we decided to look at how the situation had changed. During our research, we analyzed information on satellite receiver vulnerabilities that had already been available online. Kaspersky solutions were not used to gather the information on these vulnerabilities; instead, third-party search engines designed to map and gather information about internet-connected devices and systems were used.

We first performed research similar to that done by Cyble (as far as we could guess their methodology) by searching for all exposed instances produced by five major GNSS receiver vendors without specifying that they should be satellite receivers. Our investigation revealed that, as of July 2024, 10,128 instances used globally were exposed over the internet, which was even more than in March 2023.

Vendor Number of exposed receivers Top countries
GNSS-1 5,858 USA
Ecuador
Jamaica
GNSS-2 2,094 Australia
Thailand
Russia
GNSS-3 901 USA
Germany
Russia
GNSS-4 890 Austria
USA
France
GNSS-5 385 Thailand
USA
China

With these results, we conducted broader research covering 70 GNSS receiver vendors used globally. This time, we performed a more specific search for exposed instances that included the vendor name and the use of “GNSS” systems clearly specified.

Our research revealed that 3,028 receivers remained vulnerable to attacks over the internet.

TOP 5 vendors whose GNSS receivers are vulnerable to internet attacks (download)

We used the information collected above to compile a list of countries with the highest numbers of mentions among those most affected by the exposed instances for the major GNSS receiver vendors. Most vulnerable receivers by a specific vendor were largely found in the United States, Germany, Australia, Russia and Japan.

TOP 5 countries with the highest numbers of exposed receivers by certain vendors (download)

In a July 2024 global overview not limited to specific vendors, we found almost 3,937 GNSS instances accessible over the internet. From the geographical point of view, most of the exposed receivers – over 700 instances – were located in Ecuador. Jamaica was the second with 500 instances, closely followed by the United States. Almost 400 exposed receivers were found in the Czech Republic and China, and almost 300 were located in Brazil. Japan, Russia, Canada and Germany were among most vulnerable countries, too.

TOP 10 countries with the highest numbers of exposed receivers (download)

If we look at the anonymized data about the entities that use these exposed instances, we can see that most of the vulnerable receivers belong to organizations in the following industries: telecommunications, cloud computing and energy. However, at least one e-commerce retailer is also using exposed GNSS receivers.

TOP 10 companies that use exposed GNSS receivers (download)

Most of the discovered instances ran on various open-source and proprietary Linux distributions. However, we also found exposed Windows-based receivers. Moreover, different devices had different versions of the OS installed, which made the attack surface on the vulnerable GNSS receivers even broader.

TOP 10 exposed GNSS receiver OS versions

TOP 10 exposed GNSS receiver OS versions

The exposed devices were vulnerable to a range of flaws, which could cause various types of damage to the system. Among the most frequently occurring vulnerabilities in the GNSS receivers were denial of service vulnerabilities, which could render the device useless if exploited; exposure of information resulting in data breaches, privilege escalation flaws, a buffer overflow, and several code injection or execution flaws that could result in the attacker gaining control over the receiver.

TOP 10 vulnerabilities found in GNSS receivers exposed to the internet

TOP 10 vulnerabilities found in GNSS receivers exposed to the internet

In November, we performed the global research again to find out that the number of exposed receivers reached 4,183. Compared to July, there was a slight shift in the geography of these receivers: while Ecuador remained the number 1 affected country, Jamaica, Czech Republic and Russia left the TOP 10, Germany jumped to the second place, and Iran entered the list as the fourth most vulnerable country.

TOP 10 countries with the highest number of exposed receivers, November 2024 (download)

Besides basic cybersecurity rules that equally apply to all computer systems, there are specialized tools that are designed to address space-related threats. For example, to improve threat identification and information exchange in this area, the Aerospace Corporation has created the Space Attack Research and Tactic Analysis (SPARTA) matrix, designed to formalize TTPs of space-related threat actors.

The SPARTA project also provides a mapping of MITRE’s D3FEND matrix, which covers possible countermeasures and defense tactics, to space-related threats. This mapping can help organizations develop a robust defense for their space systems.

Conclusions

GNSS systems are vital for a wide range of industries that rely on satellites for positioning and time synchronization. An attack against such a system may cause significant damage to the target organization. There are several ways an attacker can interfere with a GNSS. Some of these, such as physical attacks on satellites, are rather expensive and unlikely, while others are easy enough for a malicious group to pull off. One of these vectors is exploitation of ground-based GNSS receivers, which are available over the internet and vulnerable to known or as-yet-unknown flaws. The year 2023 saw a series of attacks on GNSS receivers by hacktivist groups.

As the results of our research show, as at July 2024, there were still nearly 4000 vulnerable devices that could be exploited by adversaries. To protect their systems from internet-based attacks, organizations should keep GNSS receivers unreachable from the outside. If internet access is a necessity, we recommend protecting your devices with robust authentication mechanisms.


文章来源: https://securelist.com/internet-exposed-gnss-receivers-in-2024/114548/
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