• 2 Posts
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Joined 1 year ago
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Cake day: November 15th, 2023

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  • The biggest items on the graph are all out of bounds accesses, use-after-free and overflows. It is undeniable that memory safe languages help reducing vulnerabilities, we know for decades that memory corruption vulnerabilities are both the most common and the most severe in programs written in memory-unsafe languages.

    Unsafe rust is also not turning off every safety feature, and it’s much better to have clear highlighted and isolated parts of code that are unsafe, which can be more easily reviewed and tested, compared to everything suffering from those problems.

    I don’t think there is debate here, rewriting is a huge effort, but the fact that using C is prone to memory corruption vulnerabilities and memory-safe languages are better from that regard is a fact.


  • I think the benefits of federation is discoverability. I can spin up my gitea or forgejo (or something else!) Instance, but when people look for code in their instances, they can still discover my public repositories, and if they want to contribute, they can fork and open PRs from their instances.

    So yeah, it means mostly you can selfhost and provide space to others, but with the same benefits that right now github offers (I.e., everything is there).



  • Comfort is the main reason, I suppose. If I mess up Wireguard config, even to debug the tunnel I need to go to the KVM console. It also means that if I go to a different place and I have to SSH into the box I can’t plug my Yubikey and SSH from there. It’s a rare occurrence, but still…

    Ultimately I do understand both point of view. The thing is, SSH bots pose no threats after the bare minimum hardening for SSH has been done. The resource consumption is negligible, so it has no real impact.

    To me the tradeoff is slight inconvenience vs slightly bigger attack surface (in case of CVEs). Ultimately everyone can decide which compromise is acceptable for them, but I would say that the choice is not really a big one.


  • Hey, the short answer is yes, you can.

    I would elaborate a little more:

    • First, you have the problem of sourcing the data. In essence, Crowdsec won’t be able to go and fetch those logs for you dynamically, but can go and take those logs from a file (you can do a dirty solution like a sidecar deployment) or from a stream. You can deploy crowdsec in multiple modes, and you can have many instances that talk to each other. You can also simply have some process tailing the pod logs and sending them to a file crowdsec has access to or serving them as a stream (see https://doc.crowdsec.net/docs/data_sources/intro).
    • The above means that it doesn’t really matter whether you run Crowdsec inside your cluster (it does have a Helm chart) or on the host. Ultimately all it matters is that crowdsec has access to your pods logs (for example, the logs of your ingress controller).
    • The next piece is the remediation component. What do you want crowdsec to do, once it is able to detect bad IPs? If you want to just add IPs to the firewall, then it might make more sense running it on the host(s) you use in ingress, if you want to add the IPs to network policies you can do it, but you need to develop your own remediation components. I am planning to write a remediation component that will add the IPs to Hetzner firewall, some other systems are already supported, but this would be a way to basically block the IPs outside your cluster. For nginx ingress controller there is already a pre-made remediation component .

    In practice I personally would choose a simple setup where the interesting logs are just forwarded (in Syslog format for example) to a single crowdsec instance. If you have ingress from a single node, I’d go for running it on the host and banning via firewall, if you have multiple ingress nodes, then I would run it inside the cluster and ban via a loadBalancer/cloud firewall/whatever you have in front.

    In essence, I would spend some time to think about your preferences, and it might take a little bit to make the setup clean, but I think you have plenty of flexibility to do what you prefer. Let me know if you want to bounce some more ideas!


  • Yeah I know (I mentioned it myself in the post), but realistically there is no much you can do besides upgrading. Unattended upgrades kick in once a day and you will install the security patches ASAP. There are also virtual patches (crowdsec has a virtual patch for that CVE), but they might not be very effective.

    I argue that VPN software is a smaller attack surface, but the problem still exists (CVEs) for everything you expose.






  • Also hypervisors get escape vulnerabilities every now and then. I would say that in a realistic scale of difficulty of escape, a good container (doesn’t matter if using Docker or something else) is a good security boundary.

    If this is not the case, I wonder what your scale extremes are.

    A good container has very little attack surface, since it can have almost no code or tools available, a read-only fs, no user privileges or capabilities whatsoever and possibly even a syscall filter. Sure, the kernel is the same but then the only alternative is to split that per application VMs-like) and you move the problem to hypervisors.

    In the context of this asked question, I think the gains from reducing the attack surface are completely outweighed from the loss in functionality and waste of resources.




  • Fair question. What I meant is that suggesting that would have made the whole post 10 lines long and not worth doing. So I avoided such suggestions that completely change the threat model.

    It’s not useless to avoid a good security posture (although you might have concerns of a monopoly gatekeeping the internet, TLS traffic inspection privacy concerns etc.), on the contrary makes everything I have written about here redundant (+ provide more, like DDoS protection) as you are outsourcing the security controls.