In my home network, I'm currently hosting a public facing service and a number of private services (on their own subdomain resolved on my local DNS), all behind a reverse proxy acting as a "bouncer" that serves the public service on a subdomain on a port forward.
I am in the process of moving the network behind a hardware firewall and separating the network out and would like to move the reverse proxy into its own VLAN (DMZ). My initial plan was to host reverse proxy + authentication service in a VM in the DMZ, with firewall allow rules only port 80 to the services on my LAN and everything else blocked.
On closer look, this now seems like a single point of failure that could expose private services if something goes wrong with the reverse proxy. Alternatively, I could have a reverse proxy in the DMZ only for the public service and another reverse proxy on the LAN for internal services.
What is everyone doing in this situation? What are best practices? Thanks a bunch, as always!
If the proxy gets compromised it will have access to the services whether it's in a DMZ or VLAN or whatever. I'm unclear on what scenario you are trying to prevent or mitigate.
If the proxy has a remote exploit and it's publicly exposed you're screwed anyway.
Put it behind an encrypted authenticated tunnel if you're worried about this i.e. not publicly exposed. Or expose it and keep up with the security fixes.
Also not sure what you mean when you say your current proxy is a "bouncer" and that it "could" expose your services if something goes wrong. Isn't that its job, to expose them? Is it doing any authentication right now?
Right, I agree with proxy exploit means compromised either way. Thanks for your reply.
I am trying to prevent the case where internal services that I don't otherwise have a need to lock down very thoroughly might get publicly exposed. I take it it's an odd question?
Re "bouncer": Expose some services publicly, not others, discriminated by host with public dns (service1.example.com) or internal dns (service2.home.example.com), is what I think I meant by it. Hence my question about one proxy for internal and one public, or one that does both.
It's not an odd question actually it's a very good question.
Many people don't realize that "internal" services are just as exposed as "external" ones. That's because a reverse proxy doesn't care about domain name resolution, it receives the domain name as a HTTP header and anybody can put anything in there. So as long as an attacker can guess your "private" naming scheme and put a correct domain name in their request, they can use your port forward to reach "private" services. All it takes is for that domain name to be defined in your reverse proxy.
In order to be safe you should be adding allow/deny rules to each proxy host to only allow LAN IPs to access the private hosts (and also exclude the internal IP of the router that's doing the forward, if your router isn't doing masquerading to show up as the remote IP of the visitor).
Whether the proxies are one or two doesn't help in any way, they just forward anything that's given to them. If you want security you have to add IP allow/deny rules or some actual authentication.
This is exactly the type of answer I was looking for. Thanks a bunch.
So but in that way, having a proxy on the LAN that knows about internal services, and another proxy that is exposed publicly but is only aware of public services does help by reducing firewall rule complexity. Would you say that statement is correct?
The comment above is accurate how domain names can be passed to Nginx that would resolve to private IP addresses. But that doesn't mean they need to exposed. Nginx has a listen directive that specifies what IPs are listened on. So If your Reserve Proxy has both a public IP and private IP. then the private services can have a a listen directive like this:
server {
# Whatever your proxy's private IP is
listen 10.0.0.1;
server_name my-private-service;
}
No matter what hostname is passed in, Nginx would only reply to requests that can reach the Nginx host at it's private IP address.