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One way (or server side) TLS/HTTPS with Amazon Elastic Load Balancing is well documented

Support for two-way (or client side) TLS/HTTPS is not as clear from the documentation.

Assuming ELB is terminating a TLS/HTTPS connection:

  1. Does ELB support client authenticated HTTPS connections?
  2. If so, does a server served by ELB recieve a X-Forwarded-* header to identify the client authenticated by ELB?

ELB does support TCP forwarding so an EC2 hosted server can establish a two-way TLS/HTTPS connection but in this case I am interested in ELB terminating the TLS/HTTPS connection and identifying the client.

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up vote 10 down vote accepted

I don't see how it could, in double-ended HTTPS mode, because the ELB is establishing a second TCP connection to the back-end server, and internally it's decrypting/encrypting the payload to/from the client and server... so the server wouldn't see the client certificate directly, and there are no documented X-Forwarded-* headers other than -For, -Proto, and -Port.

With an ELB running in TCP mode, on the other hand, the SSL negotiation is done directly between the client and server with ELB blindly tying the streams together. If the server supports the PROXY protocol, you could enable that functionality in the ELB so that you could identify the client's originating IP and port at the server, as well as identifying the client certificate directly because the client would be negotiating directly with you... though this means you are no longer offloading SSL to the ELB, which may be part of the point of what you are trying to do.


Update:

It doesn't look like there's a way to do everything you want to do -- offload SSL and identify the client certificatite -- with ELB alone. The information below is presented “for what it’s worth.”

Apparently HAProxy has support for client-side certificates in version 1.5, and passes the certificate information in X- headers. Since HAProxy also supports the PROXY protocol via configuration (something along the lines of tcp-request connection expect-proxy) ... so it seems conceivable that you could use HAProxy behind a TCP-mode ELB, with HAProxy terminating the SSL connection and forwarding both the client IP/port information from ELB (via the PROXY protocol) and the client cert information to the application server... thus allowing you to still maintain SSL offload.

I mention this because it seems to be a complementary solution, perhaps more feature-complete than either platform alone, and, at least in 1.4, the two products work flawlessly together -- I am using HAProxy 1.4 behind ELB successfully for all requests in my largest web platform (in my case, ELB is offloading the SSL -- there aren't client certs) and it seems to be a solid combination in spite of the apparent redundancy of cascaded load balancers. I like having ELB being the only thing out there on the big bad Internet, though I have no reason to think that directly-exposed HAProxy would be problematic on its own. In my application, the ELBs are there to balance between the HAProxies in the A/Z's (which I had originally intended to also auto-scale, but the CPU utilization stayed so low even during our busy season that I never had more than one per Availability Zone, and I've never lost one, yet...) which can then do some filtering, forwarding, and and munging of headers before delivering the traffic to the actual platform in addition to giving me some logging, rewriting, and traffic-splitting control that I don't have with ELB on its own.

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It is a good point about TCP mode. I will update my question. In this case I am wondering about terminating at ELB and having it verify the client. The connection from ELB to the EC2 server may or may not use TLS - but I would hope there is a mechanism for identifying the client if ELB is managing the two-way TLS connection between the client and ELB. – pd40 Jan 21 '14 at 0:09
    
I'll accept cannot be done for now. – pd40 Jan 24 '14 at 13:49

In case your back end can support client authenticated HTTPS connections itself, you may use ELB as TCP on port 443 to TCP on port your back end listens to. This will make ELB just to resend unencrypted request directly to your back end. This config also doesn't require installation of SSL certificate to a load balancer.

Update: with this solution x-forwarded-* headers are not set.

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