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The Hacking of Starlink Terminals Has Begun | #hacking | #cybersecurity | #infosec | #comptia | #pentest | #hacker

To design the modchip, Wouters scanned the Starlink dish and created the design to fit over the existing Starlink board. The modchip requires soldering to the existing Starlink PCB and connecting it using a few wires. The modchip itself is made up of a Raspberry Pi microcontroller, flash storage, electronic switches, and a voltage regulator. When creating the user terminal’s board, Starlink engineers printed “Made on Earth by humans” across it. Wouters’ modchip reads: “Glitched on Earth by humans.”

To get access to the dish’s software, Wouters used his custom system to bypass security protections by using the voltage fault injection attack. When the Starlink dish is turning on, it uses a series of different bootloader stages. Wouters’ attack runs the glitch against the first bootloader, known as the ROM bootloader, which is burned onto the system-on-chip and can’t be updated. The attack then deploys patched firmware on later bootloaders, which allows him to take control of the dish.

“From a high-level view, there are two obvious things that you could try to attack: the signature verification or the hash verification,” Wouters says. The glitch works against the signature verification process. “Normally you want to avoid shorts,” he says. “In this case we do it on purpose.”

Initially, Wouters attempted to glitch the chip at the end of its boot cycle—when the Linux operating system has fully loaded—but ultimately found it easier to cause the glitch at the start of the boot. This way was more reliable, Wouters says. To get the glitch to work, he says, he had to stop decoupling capacitors, which are used to smooth out the power supply, from operating. Essentially, the attack disables the decoupling capacitors, runs the glitch to bypass the security protections, and then enables the decoupling capacitors.

This process allows the researcher to run a patched version of Starlink’s firmware during the boot cycle and ultimately allows access to its underlying systems. In response to the research, Wouters says, Starlink offered him researcher-level access to the device’s software, although he says he declined as he had gone too deep with the work and wanted to build the modchip. (During testing, he hung the modified dish out of this research lab’s window and used a plastic bag as a makeshift waterproofing system.)

Starlink also issued a firmware update, Wouters says, that makes the attack harder, but not impossible, to execute. Anyone wanting to break into the dish in this way would have to put a lot of time and effort into doing so. While the attack isn’t as devastating as being able to take down satellite systems or connectivity, Wouters says it can be used to learn more about how the Starlink network operates.

“What I am working on now is communicating with the backend servers,” Wouters explains. Despite making the details of the modchip available for download on Github, Wouters does not have any plans to sell finished modchips, nor is he providing people with patched user terminal firmware or the exact details of the glitch he used.


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National Cyber Security