I put up a vps with nginx and the logs show dodgy requests within minutes, how do you guys deal with these?
Edit: Thanks for the tips everyone!
Anything exposed to the internet will get probed by malicious traffic looking for vulnerabilities. Best thing you can do is to lock down your server.
Here’s what I usually do:
- Install and configure fail2ban
- Configure SSH to only allow SSH keys
- Configure a firewall to only allow access to public services, if a service only needs to be accessible by you then whitelist your own IP. Alternatively install a VPN
I would suggest crowdsec and not fail2ban
Seconded, not only is CrowdSec a hell of a lot more resource efficient (Go vs Python IIRC), having it download a list of known bad actors for you in advance really slows down what it needs to process in the first place. I’ve had servers DDoSed just by fail2ban trying to process the requests.
Hi,
Reading the thread I decided to give it a go, I went ahead and configured crowdsec. I have a few questions, if I may, here’s the setup:
- I have set up the basic collections/parsers (mainly nginx/linux/sshd/base-http-scenarios/http-cve)
- I only have two services open on the firewall, https and ssh (no root login, ssh key only)
- I have set up the firewall bouncer.
If I understand correctly, any attack detected will result in the ip being banned via iptables rule (for a configured duration, by default 4 hours).
- Is there any added value to run the nginx bouncer on top of that, or any other?
- cscli hub update/upgrade will fetch new definitions for collections if I undestand correctly. Is there any need to run this regularly, scheduled with let’s say a cron job, or does crowdsec do that automatically in the background?
Well I was expecting some form of notification for replies, but still, seen it now.
My understanding of this is limited having mostly gotten as far as you have and been satisfied.
For other bouncers, there’s actually a few decisions you can apply. By default the only decision is
BAN
which as the name suggests just outright blocks the IP at whatever level your bouncer runs at (L4 for firewall and L7 for nginx). The nginx bouncer can do more thought withCAPTCHA
orCHALLENGE
decisions to allow false alerts to still access your site. I tried writing something similar for traefik but haven’t deployed anything yet to comment further.Wih updates, I don’t have them on automated, but I do occasionally go in and run a manual update when I remember (usually when I upgrade my OPNSense firewall that’s runs it). I don’t think it’s a bad idea at all to automate them, however the attack vectors don’t change that often. One thing to note, newer scenarios only run on the latest agent, something I discovered recently when trying to upgrade. I believe it will refuse to update them if it would cause them to break in this way, but test it yourself before enabling corn
A pentester here. Those bad looking requests are mostly random fuzzing by bots and sometimes from benign vulnerability scanners like Censys. If you keep your applications up date and credentials strong, there shouldn’t be much to worry about. Of course, you should review the risks and possible vulns of every web application and other services well before putting them up in the public. Search for general server hardening tips online if you’re unsure about your configuration hygiene.
An another question is, do you need to expose your services to the public? If they are purely private or for a small group of people, I’d recommend putting them behind a VPN. Wireguard is probably the easiest one to set up and so transparent you wouldn’t likely even notice it’s there while using it.
But if you really want to get rid of just those annoying requests, there’s really good tips already posted here.
Edit. Typos
Fail2ban and Nginx Proxy Manager. Here’s a tutorial on getting started with Fail2ban:
I really wanted to use this and set it up a while ago. Works great but in the end I had to deactivate it, because my nextcloud instance would cause too many false positives (404s and such) and I would ban my own up way too often.
Crowdsec is more advanced
I mean, it’s not a big deal to have crawlers and bots poking at our webserver if all you do is serving static pages (which is common for a blog).
Now if you run code on server side (eg using PHP or python), you’ll want to retrieve multiple known lists of bad actors to block them by default, and setup fail2ban to block those that went through. The most important thing however is to keep your server up to date at all times.
Nothing too fancy other than following the recommended security practices. And to be aware of and regularly monitor the potential security holes of the servers/services I have open.
Even though semi-related, and commonly frowned upon by admins, I have unattended upgrades on my servers and my most of my services are auto-updated. If an update breaks a service, I guess its an opportunity to earn some more stripes.
Why is unattended upgrades frowned upon? Seems like I good idea all round to me?
Mostly because stability is usually prioritized above all else on servers. There’s also a multitude of other legit reasons.
All the legit reasons mentioned in the blog post seem to apply to badly behaved client software. Using a good and stable server OS avoids most of the negatives.
Unattended Upgrades on Debian for example will by default only apply security updates. I see no reason why this would harm stability more than running a potentially unpatched system.
Even though minimal, the risk of security patches introducing new changes to your software is still there as we all have different ideas on how/what correct software updates should look like.
Fair, I’d just rather have a broken system than a compromised one.
Hell, debian is usually so stable I would just run dist-upgrade on my laptop every morning.
The difference there is that I’d be working with my laptop regularly and would notice problems more quickly
I only expose services on IPv6, for now that seems to work pretty well - very few scanners (I encounter only 1 or 2 per week, and they seem to connect to port 80/443 only).
Must be nice living in a post 1995 country… theres only 1 or 2 ISPs in Australia that support ipv6…
Lol, I have heard some ISP horror stories from the Down Under.
I am fortunate enough that my country’s government has been forcing ISPs to implement IPv6 in their backbone infrastructure, so nowadays all I have to really do is to flick a switch on the router (unfortunately many routers still turn off IPv6 by default) to get an IPv6 connection.
Yeah the internet services here are really stuck in the past. Hard to tell if theyre taking advantage of the scarcity of ipv4 addresses to make more money somehow, or of theyre just too fuckn lazy
I’m guessing they’re on CG-NAT and someone upstairs thinks staying ipv4 reduces customer support costs.
Being put on CGNAT without IPv6 is terrifying.
Aussie supports full IPv6 and provide a /48
Isn’t that akin to security through obscurity… you might want one more layer of defense
I still have firewall (that blocks almost all incoming connections) and sshguard setup. I also check the firewall logs daily, blocking IPs that I find to be suspicious.
I could probably do better, but with so few scanners connecting to my home server, I have managed to sleep way better than back when I setup a server on IPv4!
Also, even if my home server gets attacked, at least I know that my other devices aren’t sharing the same IP with them… NAT-less is a godsend.
I’ve been using crowdsec with swag for quite some time. I set it up with a discord notifier. It’s very interesting to see the types of exploits that are probed and from each country. Crowdsec blocks just like fail2ban and seems to do so in a more elegant fashion.
I map them every day.
sometimes I grab popcorn and “tail -f /var/log/secure”
I use fail2ban and add detection (for example I noticed that after I implemented it for ssh, they started using SMTP for brute force, so had to add that one as well.
I also have another rule that observes fail2ban log and adds repeated offenders to a long term black list.
I did not, but it looks interesting, thanks
- Turn off password login for SSH and only allow SSH keys
- Cloudflare tunnel
- Configure nginx to resolve the real IPs since it will now show a bunch of Cloudflare IPs. See discussion.
- Use Fail2ban or Crowdsec for additional security for anything that gets past Cloudflare and also monitor SSH logs.
- Only incoming port that needs to be open now is SSH. If your provider has a web UI console for your VPS you can also close the SSH port, but that’s a bit overkill.
Ignore them, as long as your firewall is set up properly.
Any service I have that is public facing is proxied through Cloudflare. I run a firewall on the host that only allows traffic from Cloudflare IPs. Those IPs are updated via a cron job that calls this script: https://github.com/Paul-Reed/cloudflare-ufw I also have a rule set up in Cloudflare that blocks traffic from other countries.
For WAF, I use modsecurity with nginx. It can be a little time consuming to set up and weed out false positives, but it works really well when you get it configured properly.
Some of my applications are set up with Cloudflare Access. I use this with Azure AD free tier and SAML, but it could be set up with self hosted solutions like authentik.
Is everyone using Cloudflare?
Pretty much, strange in the self-hosted community to have stuff like that happen.
I use Caddy as a reverse proxy, but most of this should carry over to nginx. I used to use basic_auth at the proxy level, which worked fine(-ish) though it broke Kavita (because websockets don’t work with basic auth, go figure). I’ve since migrated to putting everything behind forward_auth/Authelia which is even more secure in some ways (2FA!) and even more painless, especially on my phone/tablet.
Sadly reverse proxy authentication doesn’t work with most apps (though it works with PWAs, even if they’re awkward about it sometimes), so I have an exception that allows Jellyfin through if it’s on a VPN/local network (I don’t have it installed on my phone anyway):
@notapp { not { header User-Agent *Jellyfin* remote_ip 192.160.0.0/24 192.168.1.0/24 } } forward_auth @notapp authelia:9091 { uri /api/verify?rd=https://authelia.example }
It’s nice being able to access everything from everywhere without needing to deal with VPNs on Android^ and not having to worry too much about security patching everything timely (just have to worry about Caddy + Authelia basically). Single sign on for those apps that support it is also a really nice touch.
^You can’t run multiple VPN tunnels at once without jailbreaking/rooting Android
I’ve implemented bot blocker and some iptables rate limiting.