Why Fixing Security Vulnerabilities in Medical Devices, IoT is So Hard
upstart writes in with an IRC submission for SoyCow4275_:
Why fixing security vulnerabilities in medical devices, IoT is so hard:
When your family opened up that brand-new computer when you were a kid, you didn't think of all of the third-party work that made typing in that first BASIC program possible. There once was a time when we didn't have to worry about which companies produced all the bits of licensed software or hardware that underpinned our computing experience. But recent malware attacks and other security events have shown just how much we need to care about the supply chain behind the technology we use every day.
The URGENT/11 vulnerability, the subject of a Cybersecurity and Infrastructure Security Agency advisory issued last July, is one of those events. It forces us to care because it affects multiple medical devices. And it serves as a demonstration of how the software component supply chain and availability of support can affect the ability of organizations to update devices to fix security bugs-especially in the embedded computing space.
URGENT/11 is a vulnerability in the Interpeak Networks TCP/IP stack (IPNet), which was licensed out to multiple vendors of embedded operating systems. IPNet also became the main networking stack in Wind River VxWorks, until Wind River acquired Interpeak in 2006 and stopped supporting IPNet. (Wind River itself was acquired by Intel in 2009 and spun off in 2018.) But the end of support didn't stop several other manufacturers from continuing to use IPNet. When critical bugs were discovered in IPNet, it set off a scare among the numerous medical device manufacturers that run it as part of their product build.
The average medical or Internet of Things (IoT) device relies on multiple free software or open source utilities. These pieces of software are maintained by any number of third parties-often by just one or two people. In the case of Network Time Protocol (ntp)-software that is in billions of devices-its code is maintained by a single person. And when the OpenSSL Heartbleed vulnerability came out in 2014, the OpenSSL project had two developers working on it. While there are many more developers working on it now, the Heartbleed crisis is emblematic of what happens when we use free software in our devices-the software gets adapted, not really patched, and not really maintained on the device, and little benefit goes back to the project.
The S in IoT stands for Security
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