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Is it possible to safely include a password in a query string for a c# site.

Few assumptions and things I know -

  1. The site does not and will not have links/images/javascript/analytics to/from other sites. So no referrer links to worry about.
  2. ALL communication with the web browser will be over https.
  3. I know that the query string will remain in the history of the computer.
  4. More than just the password/username is needed to login. So simply pasting the url back into the browser will not result in a login.

I know the site may be susceptible to cross site scripting and replay attacks. How do I mitigate these?

Given the above scenario, how should I include a password in a query string?

Please don't ask me 'why', I know this is not a good idea, but it is what the client wants.

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Why would you want to do this? – Oliver Charlesworth Jan 19 '13 at 0:46
If the password had a limited lifespan you might mitigate some negative effects – Jason Sperske Jan 19 '13 at 0:48
If you really have to do this, you could possibly encrypt it with a key. This way you have some sort of secuirty – tam tam Jan 19 '13 at 0:49
Well encrypting it wouldn't make any difference from the perspective of the hacker, they just need the URL history to break in – Jason Sperske Jan 19 '13 at 0:50
@tom: Ok, so that implies the server is session-based? Which in turn implies there's no need for the password to be in the query string. Forgive me for driving this round in circles, but these requirements don't really make sense, so it's hard to come up with a meaningful response... – Oliver Charlesworth Jan 19 '13 at 0:56
up vote 5 down vote accepted


You can safely send the password to a web server using a SSL connection. This encrypts all the communication between the client/server.

Hide In The Header

Basic authentication protocols place the user/password information in the HTTP request header. C# and many other web server languages can access this information, and use it to authenticate the request. When mixed with SSL this is very safe.

Register An Application Key

If none of the above is possible, then it's recommended that you create a unique key for each user. Rather then send their password this key is used. The advantage is that the key is stored in the database and can be removed. The user's password remains unchanged, but they must register again to get a new key. This is good if there is a chance someone could abuse their key.

Perform Hand Shaking

Hand shaking is where the client makes a request to the server, and the server sends back a randomly generated key. The client then generates a hash from that key using a secret, and sends it back to the server. The server can then check if the client knew the correct secret. The same thing can be done where the password is the secret instead and the client includes username details in the request. This can authenticate without ever sending the password.

Encrypt Password

If none of the above are possible options, then you could attempt to use JavaScript to encrypt the password before it's sent via an open URL. I found an open source version the AES block cipher. The project is called JSAES and supports 128 to 256 bit encryption. There might be other JS libraries that do the same thing.

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OP asked how to safely include the PW in query string ... encrypting the password requires a new secret (which the password already was), which loops the problem back upon itself (how will the key be safeguarded and transferred to decrypt the password)? – Darrell Teague Jan 11 at 21:12
@ThinkingMedia https (SSL/TLS) encrypts the querry string. Only the URL address is left in the clear. – zaph Jan 11 at 23:02
Use the public key to hash the password and send it to the server, and use the private key to generate the key that is matched in the database for the password column. No actual password text is used in this process, and you can generate public keys on the fly so that the hash is constantly changing. It's basically a more complicated way of sending MD5(my_password). Since anyone could figure out the original password using the MD5 as a guide. Encryption just makes it very difficult to reverse the hash back into the original password. – ThinkingMedia Jan 11 at 23:06
When you use MD5(password) it generates the same hash for each password, but encryption will generate a different hash every time for the same password. That's why the server needs to use the private key to generate hash that is consistent for that password. – ThinkingMedia Jan 11 at 23:08

It is generally not advisable to put secrets in a query string, which can then be book marked and copied, exposing the password at-rest in history files, cookies, etc.

To safeguard the password in this use-case, the best option would be to hash the password (one-way, not reversible). In this way, the actual password is not known in transit nor at-rest but... it implies that an attacker can still use said value to login to the server that would presumably compare the hash value to its store for authentication.

A better solution for the use-case of keeping the user session remembered for a reasonable period of time is a simple user-session token (which all application servers like Tomcat etc use).

In this case, the user authenticates with their password (over SSL) but it is never stored. The password is hashed on the server and then compared to a store of password hashes for the user account. If the hash matches, the user is authenticated.

On authentication, the server returns a limited time nonce (token) called a "session ID", which is then stored and re-sent in a browser cookie. As long as the session is valid, the user no longer must re-authenticate and the password is never stored. When the session timeout expires, the session ID token is no longer valid and the user must re-authenticate using the same process.

Two-factor authentication schemes (see Google authenticator) and systems are a much stronger security posture (stealing password is not enough and the keys auto-rotate on external systems) but do require semi-frequent access to the rotating key system, which inhibits a smooth user experience to some extent.

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