I can tell you what we've done, but you might find it pretty odd. If you don't care about trusting and looking through multiple proxies in a row, you can probably get away with a simpler approach like the other answers describe.
First of all, our application has to support seeing through proxies that are run and maintained by customers. On our app server, we always need to keep in mind that requests may travel through multiple proxies, and for some customers, we actually have to support that use case so that the app can see through multiple proxies to get the original headers.
To support upstream proxies in our app, we have a request filter to analyze the X-Forwarded-For
header values as well as the remote host IP. Then we take apart all the X-Forwarded-*
proxy header values and "unwind" them only if we we are sure they were added by trusted proxies whose header configuration has been established contractually (these will be specific pre-configured IPs in our application). This processing is very complicated so that's all I will say about it. But, out of that we get:
- a list of IPs that represents all the "trustworthy" remote IPs
in the chain.
- the most "trustworthy" original header values,
which will be used by the application for URL generation, etc.
In our app, the only work we do specifically for HTTP/2 is optimization (e.g., do not concatenate JS files), but any HTTP/1.x connections in the proxy chain will bottleneck performance. So we only care about whether the entire request chain was HTTP/2 from start to finish. Therefore, we have asked all upstream proxies that support HTTP/2 to implement a special header that we invented, let's call it H2-IP
.
If any upstream proxy receives an HTTP/2 request, we ask that the proxy appends the remote host to the H2-IP
header. Then, on the server side, we will iterate over the list of trustable remote IPs as passed by our trustworthy configured proxies (#1 above) and make sure that each one is also listed in the H2-IP header.
So for example:
- Trusted proxy IPs (pre-configured): 11.22.33.44, 9.8.7.6, 10.20.30.40, 127.0.0.1, 45.235.235.200
- Remote host: 10.20.30.40
- Is HTTP/2? Yes
- X-Forwarded-For header: 23.45.67.78, 11.22.33.44
- X-Forwarded-Host header: malicious.user.injected.value, app.customer.com, internalproxy.mycompany.com
- X-Forwarded-Proto header: http, https, https
- H2-IP header: 23.45.67.78, 11.22.33.44
In this example, the remote host (10.20.30.40) is found to be a trusted proxy, and we know via contract that this proxy will send all three X-Forwarded-(For|Host|Proto) headers. So we unpeel the last value from each header, use those unpeeled values as the trusted request data, then we repeat the process for each X-Forwarded-For IP until we get to one that isn't a trusted proxy. So here is the data we wind up with:
- Original remote host: 23.45.67.78
- Original host header: app.customer.com (note: we threw away an untrusted value)
- Original scheme: https (note: we threw away an untrusted value)
- Trustworthy IP chain: 23.45.67.78 -> 11.22.33.44 -> 10.20.30.40 -> application
- HTTP/2 remote IPs: 23.45.67.78, 11.22.33.44, 10.20.30.40
Therefore, since the whole trustworthy IP chain is a subset of the HTTP/2 remote IPs, we know this request was fully HTTP/2 from start to finish.
If you don't care about trusting and looking through multiple proxies in a row, you can probably get away with a simpler approach like the other answers describe.