After skimming through the attacks performed in this research, and checking every mention of the word "internet", all I got was a section with a hypothetical scenario where the watch has a publicly reachable IPv4 address. Suffice to say, that is really quite unlikely, certainly in my experience at least.
It did also talk about bundled malware, so I guess that's bad enough, but is all IoT research like this? Always sounded to me like you kinda need to already have a foot in the door for these, and this paper didn't dispel that notion for me at all.
Either vendor might see the flaw as low-severity. So what if someone can send packets? So what if someone already on the local network can hack the camera? But combine them and you're pwned.
In theory I should be able to take a modern browser/device over a completely compromised router and either be safe, or have my device tell me "holy shit, something is wrong".
The days of local trust should be long gone by now.
Or one of your other IoT / smart home devices / malware on your PC is doing local network reconnaissance? Connecting this device to a public wifi? Or just a bad neighbour who hijacks your SSID? This smells of "I'm secure because I'm behind a NAT" which conveniently ignores the couple dozen other paths an adversary could take.
Yes, it's an exploit. It should be fixed. But the endless hyperventilating over fringe exploits mostly has the effect that people now ignore all security conversations.
Carrier-grade NAT (CGN or CGNAT), also known as large-scale NAT (LSN), is a type of network address translation (NAT) used by Internet service providers (ISPs) in IPv4 network design. With CGNAT, end sites, in particular residential networks, are configured with private network addresses that are translated to public IPv4 addresses by middlebox network address translator devices embedded in the network operator's network, permitting the sharing of small pools of public addresses among many end users. This essentially repeats the traditional customer-premises NAT function at the ISP level.
Having said that, NAT isn’t a firewall.
Why is that? Are the cellular carriers blocking access?
A former student at KTH Royal Institute of Technology has demonstrated how a popular children’s smartwatch can be fully compromised over the internet. In his thesis, “Ethical Hacking of a Smartwatch for Kids: A Hacker’s Playground,” Gustaf Blomqvist conducted an ethical security assessment of a widely sold kids’ smartwatch and found what he describes as severe security flaws.
The device, identified in Swedish media as the MyFirst Fone R1s by MyFirst, exposed an insecure network service directly to the internet. By scanning for devices, an attacker could identify watches and take complete control of them remotely.
According to the findings, an attacker could access the camera and microphone, eavesdrop on surroundings, read and manipulate text messages, send arbitrary messages, and potentially use the device in denial-of-service attacks. In total, 17 vulnerabilities were discovered.
Blomqvist also found preinstalled malicious code on the watch. The device reportedly connected periodically to a remote server and transmitted detailed information about its contents. The update mechanism for that code was itself vulnerable, making it possible to install additional malicious software.
Children’s smartwatches are marketed primarily as safety devices so that parents can stay in contact with their children. However, the research suggests these products may introduce serious privacy and security risks instead.
Blomqvist says he reported the vulnerabilities to the manufacturer and initially received instructions on where to submit the details, but after that communication stopped. Pontus Johnson, professor of cybersecurity at KTH, commented that many software-based systems remain highly vulnerable and that smaller manufacturers may lack the resources to properly address security issues.
The EU Cyber Resilience Act introduces mandatory cybersecurity requirements for connected products, but full enforcement will not take effect until 2027.
Sources: kth.se, expressen.se
I've seen larger firms that have come to own some software like this from buyouts and on the first analysis they'll find hundreds of shockingly easy exploits like RCE's in them.
Along with this I've seen the number of software vulns reported by closed source software is no where close to what they find and fix silently at a huge number of companies.
Same professor, Pontus Johnson, is mentioned that story.
Digging into the paper, the significant finding (RCE) is achieved via:
A payload was written which installs a reverse shell backdoor for root persistence. The payload was sent from a computer hosting a Wi-Fi to which the watch was connected, to ensure the watch had a reachable IPv4 address. The program ncat was used both to send the payload to the watch's network service, and to catch reverse shell connections.
So if i understand this- it requires the watch being connected to a compromised AP. Anyone get a different read?
The easiest source of this is local network attacks, and it's not that unusual. In this case you could imagine a teacher at school who knows how to use Metasploit.
It doesn't seem like it has to be local network, though, the computer just has to receive the packet somehow. So for example if the watch loads a website or connects to some service on the internet (firmware updates, cloud sync, telemetry, whatever), an attacker could try to receive/intercepts/redirect that traffic and serve the payload through that channel.
You might need the watch has no certificate pinning or weak certificate validation if it's using TLS but IoT devices often skip TLS.
Let me know if I'm misunderstanding the quote.
the source linked in the article is dead, and I only see that AI slop comment here
-- MyFirst Fone R1, singapore
funny that it's called my first, find my first upon your device, haha
> In this thesis, welldocumented grey-box ethical hacking is conducted of the network service and firmware attack surfaces of the children’s smartwatch myFirst Fone R1s.