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If on a login screen user submits a form with his username and password, the password is sent in plain text (even with POST, correct me if I am wrong).

So the question is what is the right way to protect the user and his password against the third party who might be eavesdropping on the communication data?

I am aware that HTTPS is asolution to the problem, but is there any way to ensure at least some level of security using standard HTTP protocol (POST request)? (perhaps using javascript in some way)

EDIT I may have left out some important things.

What I was about was a page - that is PHP generated login page, which is of course sent to user in HTTP GET request as a HTML file. There is no (@Jeremy Powel) connection established between server and the client so I can't create such handshaking protocol. And I want the complete process to be transparent to the user - he wants to submit a password, not deal with cryptography.

Thanks.

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Good point about the persistent connection. –  Jeremy Powell Oct 17 '09 at 18:47
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You probably won't be able to accomplish this without the client using cryptography, but the user doesn't have to see such a process. He just enters his password and the code your PHP generates (javascript for example) handles it all for you. –  Jeremy Powell Oct 17 '09 at 18:48
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The problem you describe is the reason HTTPS was invented. If you send a secret down to the client to encrypt the password an eavesdropper will be able to sniff it and decrypt the password on the return trip. –  user123067 Oct 17 '09 at 18:51
    
So S in your suggestion could be only password (or username+password combined in any way), as this is the only "secret" the user has. Am I correct? So the solution would be as folows: - Server provides the HTML page with a hidden form field R - The user enters the password, and before the password is sent, the javascript calculates H(R,S) and sends it to the server, perhaps even by using AJAX - The server calculates H(R,S) and compares it with received and sends a response to ajax request whether the authentification passed - The javascript redirects the browser to desired webpage –  Kornelije Petak Oct 17 '09 at 18:56
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@jeremy powell - while what you describe is common practice, it is also vulnerable to an intermediary who can sniff the cookie from a header and impersonate the user by reusing the cookie. Man in the middle attacks are hard to secure against unless you are using HTTPS –  user123067 Oct 17 '09 at 20:03

6 Answers 6

up vote 22 down vote accepted

Using HTTP with SSL will make your life much easier and you can rest at ease very smart people (smarter than me at least!) have scrutinized this method of confidential communication for years.

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...and "But I have to pay for an SSL certificate!!" is not a valid complaint, since you can get them for $30 these days. Is your data really not worth 30 bucks to protect? –  caf Oct 18 '09 at 2:08
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What if the webhost you subscribed to does not support adding SSL certificates? –  Calmarius Jul 22 '13 at 14:13
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@Calmarius - then you move to a real webhost –  BornToCode Oct 7 '13 at 19:57
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@BornToCode This technically means you need to have a dedicated IP and you need to own the server hardware (or at least a VPS) to use HTTPS. Shared webhosts cannot do HTTPS, unless the entire server is protected with the host owner's certificate. –  Calmarius Oct 7 '13 at 20:29
    
shared webhosts certainly can do https, using en.wikipedia.org/wiki/Server_Name_Indication –  Brian Minton Apr 9 at 12:27

You can use SRP to use secure passwords over an insecure channel. The advantage is that even if an attacker sniffs the traffic, or compromises the server, they can't use the passwords on a different server. https://code.google.com/p/srp-js/ is a javascript library that supports secure passwords over HTTP.

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I would use a server-side and client-side Diffie-Hellman key exchange system with AJAX or multiple form submits(I recommend the former), although I don't see any good implementations thereof on the internet. Remember that a JS library can always be corrupted or changed by MITM. Local storage can be used to help combat this, to an extent.

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If your webhost allows it, or you will need to deal with sensitive data, then use HTTPS, period. (It's often required by the law afaik).

Otherwise if you want to do something over HTTP. I would do something like this.

  1. The server embeds its public key into the login page.
  2. The client populates the login form and clicks submit.
  3. An AJAX request gets the current timestamp from the server.
  4. Client side script concatenates the credentials, the timestamp and a salt (hashed from analog data eg. mouse movements, key press events), encrypts it using the public key.
  5. Submits the resulting hash.
  6. Server decrypts the hash
  7. Checks if the timestamp is recent enough (allows a short 5-10 second window only). Rejects the login if the timestamp is too old.
  8. Stores the hash for 20 seconds. Rejects the same hash for login during this interval.
  9. Authenticates the user.

So this way the password is protected and the same authentication hash cannot be replayed.

About the security of the session token. That's a bit harder. But it's possible to make reusing a stolen session token a bit harder.

  1. The server sets an extra session cookie which contains a random string.
  2. The browser sends back this cookie on the next request.
  3. The server checks the value in the cookie, if it's different then it destroys the session, otherwise all is okay.
  4. The server sets the cookie again with different text.

So if the session token got stolen, and a request is sent up by someone else, then on the original user's next request the session will be destroyed. So if the user actively browsing the site, clicking on links often, then the thief won't go far with the stolen token. This scheme can be fortified by requiring another authentication for the sensitive operations (like account deletion).

About the implementation: RSA is probably to most known algorithm, but it's quite slow for long keys. I don't know how fast a PHP or Javascript implementation of would be. But probably there are a faster algorithms.

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In this case is the password really protected? Couldn't someone sniff out what is sent and decrypt it using the public key and then just update the timestamp when they use it later? Am I missing something? –  michaellindahl Mar 28 at 21:23

HTTPS is so powerful because it uses asymmetric cryptography. This type of cryptography not only allows you to create an encrypted tunnel but you can verify that you are talking to the right person, and not a hacker.

Here is Java source code which uses the asymmetric cipher RSA (used by PGP) to communicate: http://www.hushmail.com/services/downloads/

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You can use a challenge response scheme. Say the the client and server both know a secret S. Then the server can be sure that the client knows the password (without giving it away) by:

  1. Server sends a random number, R, to client.
  2. Client sends H(R,S) back to the server (where H is a cryptographic hash function, like SHA-256)
  3. Server computes H(R,S) and compares it to the client's response. If they match, the server knows the client knows the password.

Edit:

There is an issue here with the freshness of R and the fact that HTTP is stateless. This can be handled by having the server create a secret, call it Q, that only the server knows. Then the protocol goes like this:

  1. Server generates random number R. It then sends to the client H(R,Q) (which cannot be forged by the client).
  2. Client sends R, H(R,Q), and computes H(R,S) and sends all of it back to the server (where H is a cryptographic hash function, like SHA-256)
  3. Server computes H(R,S) and compares it to the client's response. Then it takes R and computes (again) H(R,Q). If the client's version of H(R,Q) and H(R,S) match the server's re-computation, the server deems the client authenticated.

To note, since H(R,Q) cannot be forged by the client, H(R,Q) acts as a cookie (and could therefore be implemented actually as a cookie).

Another Edit:

The previous edit to the protocol is incorrect as anyone who has observed H(R,Q) seems to be able to replay it with the correct hash. The server has to remember which R's are no longer fresh. I'm CW'ing this answer so you guys can edit away at this and work out something good.

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+1 - you'll need to compute the response on the client side with javascript (or Flash/Silverlight/etc.) –  orip Oct 17 '09 at 18:42
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Doesn't stop man in the middle or impersonation attacks. E.g. through wifi. Seems like this will just give a false sense of security, IMO. –  Tom Hawtin - tackline Oct 17 '09 at 18:55
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That protects against passive attacks, but a Man in the Middle can still attack. –  Douglas Leeder Oct 17 '09 at 18:56
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Also it requires the server to know the original password. –  Douglas Leeder Oct 17 '09 at 18:57
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Wrong, wrong, wrong, wrong, wrong –  Mike Graham Jul 6 at 13:41

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