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I've designed a REST Authorization Service that works pretty much like the Amazon S3 REST Authentication and it's secure enough to work on HTTP (without requiring the overhead to make all intercomunications run on SSL).

It's secure enough because the signature changes at each request and is subject to expiration. So it's safe against MITM (that cannot edit anything otherwise the endpoint won't be able to regenerate the same signature) and replay attacks (because of the timestamp usage).

That's good for all clients, that knowing the private key, now can perform requested actions on their own data generating a unique signature containing the request data.

The authorization service doesn't generate any token (so it cannot be subject to MITM attacks) and it is only called internally, meaning that a client performs a request directly to the right endpoint to perform certain operations, instead of requesting a token to give that service... then the endpoint receiving that request makes a query to the authorization service asking "hey, is this requested legit?" if so the authorization service returns "200 OK" and the service performs requested operations, otherwise it returns "401 Unauthorized".

What I need now is to allow a special client, a web user interface, to make users login using email/password and use the webUI itself to obtain/edit their data. The webUI will run on HTTPS. Please, consider that creating a new account generates always both user/pwd login and pubkey/privatekey, but actually we're only using pubkey/privatekey. User and pwd are stored inside a db that will be used only by the WebUI, while the pubkey/privatekey is stored inside the Authorization Service (that uses another DB).

Of course to work with customer data I need some way to make the webUI act as it is a client written for the logged user (that has a pubkey/privatekey associated pair to generate the signature). I'm not sure what's the safest way to do this so I'm going to explain several solutions I tought about.

The 1st solution I tought is give the web interface its own pubkey/privatekey, making it a real client, and then edit the authorization service to recognize it and allow it to send the publickey (that can be retrieved by the authorization service) using a header like "X-Forwarded-For") and always trust the webUI authority. But I'm scared that somehow I'm missing something that could lead to attacks to exploit this authority to obtain the data you are not authorized for.

The second solution would be, once logged in successfully, transfer both pubkey/privatekey from the Authorization Service to the WebUI that then stores it inside the session, and each time an action is performed it uses that data to generate a valid signature. But I don't really like to pass those data over network (also because this communication should be at least over SSL to avoid the privatekey to be sniffed), and I don't really like to have the private key stored inside a session backend.

The last solution I tought about is rethink the authorization service and also allow authentication by user and password (that will be no more stored inside the webUI but togheter with pubkey/privatekey inside the Authorization Service). This would always require a SSL connection because the webui has to communicate email and password, but if logged correctly it could only store those data inside the session created. Another side effect would be that other services could be implemented to use user/pwd instead of using the signature method, that over HTTP would mean expose data to the world.

I want the strongest and more logical solution, that makes the webUI act as a client because the entire architecture is thought to work on a client-server basis. I'm also available to accept other suggestions not listed here.

Please, tell me if you need to know more to help me.

Thank you (if you've read the whole post :-P)

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1 Answer 1

HTTPS

First of all, I think you misunderstood all HTTPS thing. Using HTTPS, you can provide client certificate, but in the most common case, only server certificate is used. So, in this common case HTTPS does not provide the way to authenticate the user, only the server itself. Also it provides message encryption.

If you are using HTTP, even if you can protect from real MITM attacks, any MITM will see all your messages. Maybe it's OK if they are not to be held private (some private data etc.)

Another thing is authenticating the server itself. As far as I can see from the data you specified (maybe some of it's missing or I misunderstood), all requests are signed, but responses are not (or are they). In this case you are vulnerable to MITM attack as an attacker can pretend to be your authentication server.

I would suggest to use both HTTPS for authenticating the server and encoding the messages and signatures for authenicating the client. Also keep in mind that to prevent MITM attacks you must also checks the server certificate using come root CA certs.

Private keys

I don't quite understand how you can be initiating the private keys to your client. Well, technicaly - yes, but private keys are to be private. If you generate them they are no longer private. In this case you can just generate some shared secret and use some simpler algorithms to sign the requests. Using PPK when you know both keys are no more secure than a shared secret, at least in my opinion.

Another way to do this, is to allow client to upload the public key to your server after generating it.

Passwords

In my opinion, authorisation server should make all the decitions about authorisation. So, I would store passwords and public keys (or shared secrets) in the authorisation server, not the UI part.

Conclusion

Your situation reminds me of OAuth2 protocol. There is a resource owner, a client, an authorisation server and a resource server. Resource owner grants an access to a client in some way, client gets an access token from authorisation server providing that grant. Then it uses it to access the resource server.

There are two grant types that can be used in your system: Resource Owner Password Credentials Grant and Client Credentials Grant.

  • Your resource owners are clients themselves.
  • UI is also a client.
  • UI gets access token by providing the client's password credentials and then make some calls to resource server.
  • Clients gets access token just by authenticating themselves by using shared secret or public key.

Of course, you can just take some ideas from the protocol if it is not suitable fully in your case.

As for signing the request, there is MAC access authentication, which can be used in the same OAuth2.

So, I would suggest to store passwords in authorisation server, UI would just pass them to modify some resources. Don't generate private keys for clients - use shared secret or let them upload public keys. Use HTTPS for authenticating the remote server.

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