I am developing a client-side application in C# that will communicate with a server (php page) for credentials and for some critical services. I am wondering if it's dangerous to store a well hashed password on the client's machine? By "well hashed", I mean with a random seed using a well-known secure hashing function. For the purposes of this discussion, assume the source is freely available (as all binaries can be reverse engineered).

My thought was that I would store the username and hashed password on the user's computer and that this username and hash would be sent in plain text over an unencrypted http connection to the server for validation. This of course will not prevent a hacker from using someone else's username and password hash as their own without knowing the source password (with some code tweaks).

  1. Would a malevolent individual be able to do anything with a hashed password and code used to produce the hash? (other than log in as an other user if they obtained this information)
  2. What do other client-side applications do to prevent one user from logging in as an other user, if the hacker does not have access to the source password? (for example Steam)
  3. Is there an easy, cheap (both cost and time), more secure way to handle this?

Example of how a hacker would spoof someone else's login credentials using my current logic:

  1. Legit user signs in for the first time, credentials get stored
  2. Hacker gains access to the file system, locates username and hashed password
  3. Hacker modifies source code (or uses code injection) to send the acquired username and hashed password instead of what the program would normally do

The product I am producing is not going to be the next ebay, facebook, or stackexchange, and is low budget. I do not need something top notch, and don't care for thefts as I am planing to use a "Pay What You Want" model. I am mainly posting this for curiosity's sake.

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    "My thought was that I would store the username and hashed password on the user's computer" - Don't do that. At most, store an expiring token that bears no relationship to credentials other than it can sent to server to recognise user. – Mitch Wheat Jan 25 '11 at 23:13
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    Not an answer, but "Applied Cryptography" provides good insights into secure transactions. [ amazon.com/Applied-Cryptography-Protocols-Algorithms-Source/dp/… ] – Greg Buehler Jan 25 '11 at 23:27

First off, let me just say that you are not competent to implement this system securely. I'm not either. Almost no one is. You need a security professional to do this work; if you try to roll your own security you will get it wrong and you will produce a system that can be compromised by attackers.

That out of the way: you have clearly identified the weakness of your system. You are storing a password equivalent; if an attacker obtains the password equivalent then it does not matter whether they have the password or not; they have information sufficient to impersonate the user.

The solution is clear. If it hurts when you do that, don't do that. Do not store a password equivalent if the system which stores it cannot be trusted to be robust against attack.

If you are hell bent on storing a password equivalent then store it in a storage which is more difficult for attackers to obtain access to than the file system. If you are really determined to store dangerous stuff on behalf of the user then you can use the Windows data protection API to store it in an encrypted storage that is encrypted with the user's credentials:


But better to not store the password equivalent in the first place.

Suppose you do not store the password equivalent. You are not done yet. You still need to consider replay attacks. Suppose the attacker eavesdrops upon the unsecured channel. The user types in their password, it is hashed and sent to the server. The eavesdropper records the hashed password, and now they have it.

To solve this, the server sends a random number to the client. The number will never be used again; it is one-time-only. The client xors the hashed password with the random number and then encrypts the result with the public key of the server. The encrypted xor'd message is sent to the server.

The server decrypts the hash using its private key, xors it with the random number it sent previously, and determines that the decrypted hash matches the password equivalent it is storing. Now the eavesdropper cannot replay the captured password equivalent because they will never see the same random number again.

Now, this is vulnerable to the man-in-the-middle attack if the client does not know the public key of the server! If the server sends the public key to the client then the man-in-the-middle can intercept the server's public key and replace it with his public key. Now the man-in-the-middle can provide the public key and the "random" challenge, and the client will give up the password equivalent.

Like I said, this is hard stuff. Don't try to do it yourself. Get a professional.

  • Or use protocols developed by professionals, like SSL. +1 – Jacob Jan 26 '11 at 0:03
  • Is it even really worth considering that the user's file system might be observed? If you're worried about a malicious program stealing the hash, couldn't they just as likely have a keylogger installed and that would take the password itself when they entered it for the first time? In fact, if you don't offer to store credentials at all, then you increase the likelihood that they will be exposed to this attack in the future if they weren't when they first installed the program. – jasonh Jan 26 '11 at 3:49
  • @jasonh Malicious program stealing the hash can be on any router between the client and the website (none of which are controlled by the user or site). Moreover, from the viewpoint of the hacker, analyzing traffic upstream can yield multiple logins, while a keylogger would snatch just a single one. – dbkk Jan 26 '11 at 9:13
  • @jasonh: Yes, if the user's file system can be observed by the attacker then the user already has at least one serious security problem. That is not an excuse to make the user's troubles worse or the attacker's job easier. Defense in depth means making the attacker do multiple impossible things in order to pull off an attack. – Eric Lippert Jan 26 '11 at 15:04
  • Rather than introducing a key pair and trying to figure out how to secure it, one could just use the key that has already been shared (somehow)—the password. Instead of encrypting the challenge, the client can compute a MAC for it using a key derived from the password. – erickson Jan 26 '11 at 16:42

Storing the hashed password on the user's computer exposes them to (considerable) risk -- even if access to your site isn't particularly valuable, many users will use the same user name and password for many sites. If any of them use the same (as you said, well known) hash function as you do, access to that data can give an attacker access to those other web sites.

For a simple, low-budget method, I'd use a simple challenge/response system. When the user asks to sign in, send them a random number. They enter their password into a client-side program, which hashes it, and uses the hashed password as a key to encrypt the random number, and then sends that result to the server. The server uses its stored hash of the user's password to encrypt the same random number. When it gets the result from the user, it compares the two. The user has the right password if and only if the two match.

If your intent is to avoid the user having to enter the password all the time, store the random number and encrypted random number on their machine. As long as they receive the same challenge, they can send the same response. When/if the challenge changes, they need to re-enter the password to encrypt the new challenge. Recovering the stored data gives the attacker access only to your site, and only for a fairly short period of time (and changing the challenge sooner is trivial as well).

This avoids transmitting the password (even in hashed form) at all. The only exception is during the initial setup, when you need to get the hashed password onto the server. For that, you have a couple of choices, but PK cryptography is likely the most obvious -- you send them a key and they send the data encrypted with that key. If somebody else intercepts the data, it's useless (unless they break encryption, of course).

As far as how to generate the random numbers, the usual way is pretty simple: generate a single really random number from a source like /dev/random on your server. Use (a hashed version of) that as a key to an encryption algorithm, which you run in counter mode - i.e. you have a counter (that you don't have to keep secret) that you encrypt with that key (which you do keep secret). Each time you need to produce a new challenge, you increment the counter, encrypt it, and send out the result.

  • I don't buy the argument about other applications using the same hash function. It is common for people to use the same password for many applications, in spite of the danger. However, I think that by hashing the password before storing it, JohnMcD. has adequately protected these other applications. Another website should take the original password (transmitted over a secure channel), hash it itself, and compare it to a stored hash. If that website accepts a hashed password from users, it is implemented incorrectly. – erickson Jan 26 '11 at 16:35
  • @erickson: and you're under the illusion that all (or even most) web sites are particularly secure or well implemented? – Jerry Coffin Jan 26 '11 at 16:55
  • No, I expect that most sites spend a bare minimum of effort on authentication. That's why I don't think this is a problem. In order for this attack to work, a site would have to go to the effort of figuring out how to hash (via JavaScript?) on the client. That's extremely unlikely. And in the process of doing it, they are likely to see how wrong it is. It's much more likely that a site is going to do things the easy way, and send the password to the server. – erickson Jan 26 '11 at 17:43
  • I was under the impression that if I added a lengthy seed to the password before it was hashed, unique to my application, that the hashed password would be rendered useless for other websites unless a hacker reversed the hash. Reversing the hash might be made easier by having full access to any seeds and the source code used to hash the password. And looking at @erickson's answer, reversing the hash might be as simple as brute-forcing the user's password. – John McDonald Jan 27 '11 at 16:59

I deeply discourage trying to create your own authentication scheme. If you use time-tested patterns, it's more likely that edge cases you hadn't considered will be covered. Here's what I'd suggest and why:

  1. Don't allow logging in with a hash value instead of a full password. That way, even if an attacker acquires password hashes stored on the server, they won't be able to log in with them.

  2. Try to avoid storing passwords, even hashed passwords. If you want an easy login, @Mitch's suggestion is a good compromise, but I'd suggest you encrypt that expiring token and maybe tie the expiring token to some additional evidence (for example, the token is invalidated if it's sent using a different IP address).

  3. Never transmit credentials in plain text. Even if the transmitted credentials are hashed, if traffic is captured, a replay attack is possible. SSL isn't extremely difficult to implement, and it will give you the added bonus of the client being able to validate that they're talking to the right server, which helps protect against man-in-the-middle attacks.

  4. Never store a user's password on the server. Store a salted hash instead. Make sure the hash is a large hash value to reduce the likelihood of brute force attacks succeeding (SHA-256, for example).

I know you're trying to go for a cheap, easy-to-develop solution. Rather than implementing shoddy security to achieve that goal, try using pre-built, time-tested authentication libraries instead. That's a way to save time/money without compromising quality.


It isn't dangerous to store properly hashed passwords. It is computationally infeasible to reverse a cryptographic hash and find a password that will produce the hash.

However, everything hinges on the word "proper". First, the hash function doesn't need to be reversed if the user picks a poor password. A crack first try a list of common passwords, sorted by popularity. A fairly large password space (8- or 9-characters) can be brute-forced if the hashing algorithm doesn't use some kind of key-strengthening (thousands of iterations) to make it computationally expensive. Pre-computed dictionaries are viable if the hash algorithm doesn't use a salt.

I am unsure if I fully understand your post, but it sounds like you know that you are effectively using this hash as a password. A man-in-the-middle, or someone who hacks the device, will be able to access your application without recovering the original password. The benefit would be that they wouldn't have the user's "real" password, which they're likely to use for a lot of other applications.

It would be more secure to store the password in the user's brain, and have them enter it every time. However, if you aren't using a secure protocol like SSL, it doesn't seem worthwhile to spend too much effort on security elsewhere. It is reasonable to hold a user responsible to protect their own device and prevent theft of the stored password. But the network over which they send it is beyond their control. I'd start with transport security.


I second everything above not trying to get clever with the security system. The best policy is "just say no" to that type of thing, in my opinion.

The good news is, you may not even have to bother. Have you considered using a third-party library to allow your users to log in via OpenID (as StackOverflow itself seems to do)? I've admittedly never done this myself before, but I believe it could be a robust yet lightweight option that may work well for you:



Good luck.

  • Thanks for the links, they are turning out to be quite useful – John McDonald Jan 26 '11 at 18:15

It's a hacker's paradise!

Any files pertaining to security should only be accessible to whoever maintains the web site as a matter of policy and regardless of encryption methods used.

Otherwise, you are tempting trouble.


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