I'm working on an application for iOS which will have the user fill out their password. The password will then be posted to a PHP page on my site using either POST or GET. (It must be plaintext because it is used in a script.)

Besides HTTPS, is there any way to secure the password? Encrypt it in Obj-C and then decrypt it in PHP?

NOTE: The username is not sent... only the password is posted to the server.

EDIT: To clarify, David Stratton is correct... I'm trying to prevent malicious sniffers in public locations from simply reading clear text passwords as they are posted to the server.

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    Short answer: challenge response. – Halcyon Mar 29 '12 at 21:59
  • I agree with @FritsvanCampen that you should use a challenge response. Whatever you choose, do not send the password using GET; always use POST. GET's can be cached by any entity in between (proxy servers, etc.) and, in normal browsers, show the querystring and save it to the history. – Joshua Mar 29 '12 at 22:03
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    He's talking about preventing sniffers from picking it up if he's asking about an alternative to https. How does that short answer - "Challenge Response" apply? (Not criticizing, just hoping for a chance to learn, and hoping you're going to expand on that answer.) – David Mar 29 '12 at 22:03
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    There is really no trivial way to "securely send the [plain text] password" outside of HTTPS. Just use the tools available. – user166390 Mar 29 '12 at 22:05
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    @MihirSingh HTTPS ;-) – user166390 Mar 29 '12 at 22:07

Challenge response outline

Lets assume you have one-way hash function abc (in practice use md5 or sha1 a cryptographically strong hashing algorithm for PHP see: password_hash).

The password you store in your database is abc(password + salt) (store the salt separately)

The server generates a random challenge challenge and sends it to the client (with the salt) and calculates the expected response: abc(challenge + abc(password + salt))

The client then calculates: abc(user_password + salt) and applies the challenge to get abc(challenge + abc(user_password + salt)), that is sent to the server and the server can easily verify validity.

This is secure because:

  • The password is never sent in plaintext, or stored in plaintext
  • The hash value that is sent changes every time (mitigates replay attack)

There are some issues:

How do you know what salt to send? Well, I've never really found a solution for this, but using a deterministic algorithm to turn a username into a salt solves this problem. If the algorithm isn't deterministic an attacker could potentially figure out which username exists and which do not. This does require you to have a username though. Alternatively you could just have a static salt, but I don't know enough about cryptography to assess the quality of that implementation.

  • This is good for authenticating and is effectively what HTTP Digest Auth does. This is not so good for sending the plain text password to the server for reason XYZ. – user166390 Mar 29 '12 at 22:08
  • bleh, beat be by a minute. but....still good advice. – Alan Mar 29 '12 at 22:08
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    Let me clarify... Not only is the password never stored in the database, it is also never stored anywhere on the server. The script simply examines the password, it doesn't save or store it anywhere. – citruspi Mar 29 '12 at 22:22
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    If the password is never stored anywhere, then how do you know it's correct? ._. Using AES works, it uses a different cryptgraphic method (public-private key, which is more similar to HTTPS) – Halcyon Mar 29 '12 at 22:25
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    Mr. van Campen, it does not matter if the password is correct or not; there is no user base. I'm simply analyzing the string, not comparing it to a database of users. – citruspi Mar 29 '12 at 22:29

Reconsider not using HTTPS. HTTPS a good defense against a number of attacks.

There usually isn't a reason to transmit a password. By transmitting passwords, you are sending valuable data and their is extra risk associated with it.

Usually you hash the password and submit the hash. On the server side, you compare the hashes, if they match, great.

Obviously with this approach, the hash is important, and you have to secure against a replay attack. You could have your server generate a crypto-secure one-time use salt, pass that to the client, salt and hash the password, and compare the hashes serverside.

You also need to guard against a reverse hash attack on password. IE, I have a hash, and I can compare it to a bunch of pre-generated hashes to find the original password.

  • I gave a +1 simply for the opening line. The other bits are "meh" (okay "good advice") but don't pertain to this question. – user166390 Mar 29 '12 at 22:11
  • I would be happy to use HTTPS, but I can't afford a certificate. – citruspi Mar 29 '12 at 22:16
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    You can use a self-signed cert for HTTPS if you own both the client and the server. – Alan Mar 29 '12 at 22:20
  • If you trim your answer to just the first line I'll give you an upvote too. The rest is too vague. – Halcyon Mar 29 '12 at 22:20
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    The problem with self-signing is that you have no authority that guarantees the certificate is correct and valid, and it's not something you could have a customer work with, too unprofessional. – Halcyon Mar 29 '12 at 22:23

You could encrypt at the device and decrypt at the server, but if the data going across the wire is sensitive enough to warrant that much work, then IMHO, I believe you're better off just using https. It's tried, true, and established.

It's not perfect, mind you, and there have been successful attacks against older versions of it, but it is a heck of a lot better than "rolling your own" method of security.

Say your key gets compromized, for example: If you're using https with a cert from a trusted authority, then you just buy a new cert. HTe deveice, if it trusts the authority, will accept the new certificate. If you go your own route on it, then you have to update the keys not only on your web server, but at the client as well. No way would I want that sort of headache.

I'm not saying that the challenge is insurmountable. I am saying it may not be worth the effort when tools already exist.

  • Even if you are using HTTPS you really shouldn't pass credentials across the wire. – Alan Mar 29 '12 at 22:09
  • @Alan Good luck changing your password on a server in that case ;-) (In which case it's much better to send the plaintext on the wire and let the server do the hashing/management.) – user166390 Mar 29 '12 at 22:10
  • Yes good point, but in general I like to employ the defense in depth strategy. If you don't have the change password remotely scenario, then avoid xmitting the password :) – Alan Mar 29 '12 at 22:19

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