I have an internal WPF client application that accesses a database.

The application is a central resource for a Support team and as such includes Remote Access/Login information for clients. At the moment this database is not available via a web interface etc, but one day is likely to.

The remote access information includes the username and passwords for the client's networks so that our client's software applications can be remotely supported by us. I need to store the usernames and passwords in the database and provide the support consultants access to them so that they can login to the client's system and then provide support. Hope this is making sense.

So the dilemma is that I don't want to store the usernames and passwords in cleartext on the database to ensure that if the DB was ever compromised, I am not then providing access to our client's networks to whomever gets the database.

I have looked at two-way encryption of the passwords, but as they say, two-way is not much different to cleartext as if you can decrypt it, so can an attacker... eventually. The problem here is that I have setup a method to use a salt and a passcode that are stored in the application, I have used a salt that is stored in the db, but all have their weaknesses, ie if the app was reflected it exposes the salts etc.

How can I secure the usernames and passwords in my database, and yet still provide the ability for my support consultants to view the information in the application so they can use it to login?

This is obviously different to storing user's passwords as these are one way because I don't need to know what they are. But I do need to know what the client's remote access passwords are as we need to enter them in at the time of remoting to them.

Anybody have some theories on what would be the best approach here?

update The function I am trying to build is for our CRM application that will store the remote access details for the client. The CRM system provides call/issue tracking functionality and during the course of investigating the issue, the support consultant will need to remote in. They will then view the client's remote access details and make the connection

  • Do the account details have administrative privileges your clients networks? I have dealt with one company who supplied and supported our server remotely. Although they had remote access, they asked for the Administrator password each time I called them .
    – stukelly
    May 7, 2009 at 22:58
  • Travis, please read my response to your comments on my answer. (I am only writing this comment because the issue is serious and I don't know if StackOverflow will notify you of my response) May 8, 2009 at 12:13

7 Answers 7


There are a few ways to do this; the best solution will depend on how your support team accesses the clients' sites, how many members belong to the support team, and the architecture of you application.

The best way to do something like this is to use something like Kerberos. This way, members of the support team don't have to be entrusted with the clients' passwords—passwords that they could write down and use later to attack customers. The support team can instantly revoke the access of member without any action by the client.

However, I'm guessing that this is a more dangerous system where team members get a password to access client systems via Remote Desktop, SSH, or something like that. In that case, a great liability is assumed when client passwords are revealed to team members.

Personally, I wouldn't accept that kind of risk. It isn't that I don't feel like I can trust my team, but more that I can't trust my customers. If something happens at their site (or even if they merely pretend that something happened), all of the sudden I'm a suspect. I'd rather design a system where no one can access the customer systems acting alone. This protects the customer from a bad apple on my team, and protects me from false accusations.

Anyway, one approach would be to generate keys for each team member. These could be password-based symmetric encryption keys, but then some secret key must be kept centrally. Better would be to use an asymmetric algorithm like RSA. Then only public keys of team members are kept centrally.

When a new password is received from a client, encrypt it with the public key of each team member that needs a copy. This encrypted password can be stored in the database, and given to a team member each time they request it, or it can be actively pushed out to team members for them to store. In either case, when it is needed, the password is decrypted with the private key held by the team member (in a key store encrypted with a password that they choose).

There are downsides to this. Reiterating the point above, team members get access to the clients password. Are they worthy of this trust? What if the client has a security breach unrelated to this system, but wants to pin the blame on someone? Second, while no decryption keys are stored at the server, trust still needs to be established for the public key of each team member. Otherwise, an attacker could slip their own, rogue public key into the collection and receive passwords that they can decrypt.

  • +1. Excellent answer. Your password encryption scheme is eerily similar to what I was about to post... May 7, 2009 at 22:50
  • 1
    I use remote access software, where the customer must initiate the connection to their computer. They can then monitor my progress during a call.
    – stukelly
    May 7, 2009 at 23:02
  • The remote access software varies, some clients will simply have a VNC connections, some will have much more sophisticated VPNs using RSA key generators etc. It will typically come down to the client's I knowledge and budget. To be clear, we simply ask the client to provide remote access to their application/database server so we can remotely support our software products for them.
    – TravisPUK
    May 7, 2009 at 23:06
  • 1
    The problem we have is that we are not in control over what method the client will provide us. We try to make recommendations, but they will end up doing what they like. This adds to the problem in that we need to provide the records and allow multiple sets of data for different clients. We would not be able to dictate what tech the clients use.
    – TravisPUK
    May 7, 2009 at 23:08
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    Our support team consists of nine people who support around 89 clients, mostly based in the UK, but also in Europe, USA, SA and other countries. The majority of the time the Remote Access will be via the internet.
    – TravisPUK
    May 7, 2009 at 23:10

A similar situation occurs at our company, where the database administrators wish to maintain a pool of credentials amongst themselves.

I was originally going to post this idea, but erickson beat me to it. However, it may be worth while to post some pseudo code to elaborate, so I suppose my time answering the question isn't completely wasted...

Things you will need:

First off, let's set up the database schema. These tables will be demonstrated shortly.

  user_id               INTEGER,
  authentication_hash   BINARY,
  authentication_salt   BINARY,
  public_key            BINARY,
  encrypted_private_key BINARY,
  decryption_key_salt   BINARY,
  PRIMARY KEY(user_id)

CREATE TABLE secrets (
    secret_id INTEGER,
    PRIMARY KEY(secret_id)

CREATE TABLE granted_secrets (
  secret_id      INTEGER,
  recipient_id   INTEGER,
  encrypted_data BINARY,
  PRIMARY KEY(secret_id, recipient_id),
  FOREIGN KEY(secret_id) REFERENCES secrets(secret_id)
  FOREIGN KEY(recipient_id) REFERENCES users(user_id)

Before a user can begin using this system, they must be registered.

function register_user(user_id, user_password) {
    authentication_salt = generate_random_salt()
    authentication_hash = hash(authentication_salt, user_password);

    (public_key, private_key) = asymmetric_cipher_generate_random_key_pair();

    decryption_key_salt = generate_random_salt()
    decryption_key = derive_key(decryption_key_salt, user_password)
    encrypted_private_key = symmetric_cipher_encrypt(
        input => private_key,
        key   => decryption_key

    // IMPORTANT: The decryption_key_hash is never stored

    execute("INSERT INTO users (user_id, authentication_hash, authentication_salt, public_key, encrypted_private_key, decryption_key_salt) VALUES (:user_id, :authentication_hash, :authentication_salt, :public_key, :encrypted_private_key, :decryption_key_salt)")

The user can sign in to the system.

function authenticate_user(user_id, user_password)
    correct_authentication_hash = query("SELECT authentication_hash FROM users WHERE user_id = :user_id")

    authentication_salt = query("SELECT authentication_salt FROM users WHERE user_id = :user_id")
    given_authentication_hash = hash(authentication_salt, user_password)

    return correct_authentication_hash == given_authentication_hash

A secret can then be granted to a recipient user.

function grant_secret(secret_id, secret_data, recipient_id) {
    recipient_public_key = query("SELECT public_key FROM users WHERE user_id = :recipient_id")

    encrypted_secret_data = asymmetric_cipher_encrypt(
        input      => secret_data,
        public_key => recipient_public_key

    execute("INSERT INTO granted_secrets (secret_id, recipient_id, encrypted_data) VALUES (:secret_id, :recipient_id, :encrypted_secret_data)")

Finally, a user that have been granted access to a secret (the recipient) can retrieve it.

void retrieve_secret(secret_id, recipient_id, recipient_password)
    encrypted_recipient_private_key = query("SELECT encrypted_private_key FROM users WHERE user_id = :recipient_id")

    recipient_decryption_key_salt = query("SELECT decryption_key_salt FROM users WHERE user_id = :recipient_id")
    recipient_decryption_key = derive_key(recipient_decryption_key_salt, recipient_password)
    recipient_private_key = symmetric_cipher_decrypt(
        input => encrypted_recipient_private_key,
        key   => recipient_decryption_key

    encrypted_secret_data = query("SELECT encrypted_data FROM granted_secrets WHERE secret_id = :secret_id AND recipient_id = :recipient_id")

    secret_data = asymmetric_cipher_decrypt(
        input       => encrypted_secret_data,
        private_key => recipient_private_key

    return secret_data

Hopefully this can help. It certainly helped me flesh out my ideas.

  • Adam, thanks for the example code. I was struggling a little to understand erickson's concepts, not what he was discussing, but how to 'make it happen'. Your examples have definitely helped clarify the concept.
    – TravisPUK
    May 8, 2009 at 10:57
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    @TravisPUK: Travis, I modified my answer to accommodate your hash. The hash used to decrypt a user's private key SHOULD NOT BE STORED. Otherwise, anyone with access to the database can now decrypt any user's secrets. The modified answer distinguishes between the hash used to authenticate a user and the hash used to decrypt their private key. May 8, 2009 at 11:23
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    @Travis: The client's password is stored in the granted_secrets table because it must be uniquely encrypted FOR EACH USER of the system. For example, if you have two employees (Alice and Bob) that need the client's password, you insert one entry encrypted using Alice's public key and another entry encrypted using Bob's public key. If this did not happen, we would be back to everyone having to share a common password again. May 8, 2009 at 15:29
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    @Travis: You begin by calling register_user for each user of your system. You then select all rows from your current table. For each row in your current table, ensure a corresponding row exists in the secrets table. While you are still on this row, call grant_secret for each user of your system. Suppose there are N rows in your current table and you have X users. When you are done, the secrets table should have N rows and the granted_secrets table should have N*X rows. May 8, 2009 at 15:50
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    @Travis: You could, in fact, have the granted_secrets table reference your original table and forget about the secrets table altogether. You touched on an interesting quality of this system. If you want to grant access to a new user, an existing user that already has access to the password must do it. The existing user calls retrieve_secret (to get the cleartext password) and then calls grant_secret for the new user. May 8, 2009 at 16:16

Store your passwords encrypted with AES and a good strong key. Instead of embedding the decryption key in the application, give it to your users (the support consultants). Then have your application prompt them for it when they need to look up the information. Not ideal, because everyone uses the same key, but it at least offers some protection if your database ever gets compromised.

  • Jason, I definitely like the idea of having the keys with the consultants.
    – TravisPUK
    May 7, 2009 at 23:23

If you are worried about giving original user password to consultants then here is a food for thought.

What about generating a temporary password/token exclusively for your support member?

When a customer makes a call, create a token and put it in a map along with the userid. Send this token or encrypted token to your customer support member. Customer support member will then login by using username and token. System check for the token in validtoken map and finds its a valid token and grant access to the system.

Support memeber resolves the problem. Then token is removed from the tokenMap.

In this way you never reveal the original user password to consultants. Thus you can store the user passwords using your own favorite security techniques.

You may encrypt the token using consultant's public key before sending them.

Tokens may given an expiry time.

  • @kevin, thanks for your response. Like the idea you are putting forward however we are not in control of the username and passwords issued to us by the client, nor the client's preferred software. The consultants actually need to have the client's username and password to remote in as opposed to a custom one for the session.
    – TravisPUK
    May 12, 2009 at 14:26

If you need to retrieve the clear text password from the database then you're going to need to use a 2-way encryption scheme.

Don't put the key into your client application.

This way you can re-encrypt the data / change the key regularly if you're worried about the key being compromised. Though if your key is strong enough and isn't publicly available you should be safe

When sending the passwords over a network connection make sure to use SSL to encrypt the link.

The setup might look like this

client ---> server ---> DB

The server decrypts the the password and passes it over the SSL link to the client.

If you don't have a server and your clients are connecting directly to a DB then you can have your client call a stored procedure to retrieve the plain text password.


This sounds like a scenario DPAPI was designed for. Create a middle tier which can authenticate your clients, and then use DPAPI for encrypting data before storing it in the DB


You don’t need to keep your passwords in the database, just keep a hash of them (SHA1 as example). Then at login time just calculate the hash again and compare it with the sorted one.

Believe me, if you don't have stored passwords there is a lot of weight removed from your shoulders.

  • Excellent advice if you're storing passwords so other people can log into your system. However, this is a question of storing passwords so people on his system can log into others, and therefore the password does have to be stored. May 7, 2009 at 17:12
  • backslash, what you are describing is in use for user's passwords where I do not need to reverse the password. I am looking at storing the passwords securely and then being able to decrypt them again for viewing by staff or submission to third party service (ie gmail) via SSL etc.
    – TravisPUK
    May 7, 2009 at 23:17

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