Appendix L. Hashed passwords

Table of Contents

L.1. Password hashing
L.1.1. Salt
L.2. One Time Password seed hashing

The configuration XML includes passwords and OTP seeds encoded using hashes, this makes it impossible to extract the password from the config.

Caution

It is still important to keep the configuration hashes safe, as someone could use the hashes to try millions of passwords off-line before trying to log in to a FireBrick. For this reason it is also important to use good passwords that cannot be guessed, and are not simply made from normal dictionary words.

L.1. Password hashing

The user section of the configuration has a password field. You will note that is it mostly a lot of hexadecimal data, the hash, as described below.

It is possible to put a new password in to the configuration directly in the password field and save the config. It will be hashed automatically so when you access the configuration you will see the hashed version in the password field. However, this is not possible if you also have an otp-seed defined, unless also setting a new otp-seed field or removing it. For this reason there is also a web page to allow a user to change their password.

Tip

We recommend you use the web page to change the password for a user, and in fact, that the user themselves do this, so as the administrator does not know the password.

The FireBrick supports a number of hash functions for passwords, but on any successful login may change the config to use the current preferred password hash function. This allows FireBrick to move to more secure password hash functions in future whilst maintaining backward compatibility.

If making a configuration file independantly you can generate the hashes yourself in most cases. The supported hash codings are as follows. For salted hashes, the salt is the additional bytes after the number of bytes for the hash.

  • FB105#[10 bytes of hex]: A legacy for the old FB105 password hashing, used by the FB105 conversion tool.
  • MD5#[16 to 19 bytes of hex]: The first 16 bytes are an MD5 hash of the password appended with up to 3 bytes of salt.
  • SHA1#[20 to 31 bytes of hex]: The first 20 bytes are an SHA1 hash of the password appended with up to 11 bytes of salt.
  • SHA256#[32 to 47 bytes of hex]: The first 32 bytes are an SHA256 hash of the password appended with up to 15 bytes of salt.

The preferred hash is SHA256 with 15 bytes of salt. However, this may change in the future to more robust password functions.

L.1.1. Salt

A hash function simply takes some data, and generates a hash from it - as a one-way process. This ensures that, given the hash, you cannot work out the original string (normally a password).

However, a particular string (e.g. password) always generates the same hash. As such it is possible for people to have huge tables of pre-calculated hashes for common passwords and dictionary words. This allows such (poor) passwords to simply be looked up from a hash.

There is also the problem that two people using the same password end up with the same hash, and so can see that the other person is using the same password.

To solve this, we use salt. Salt is simply a number of random bytes. These are appended to the end of the original data before making a hash. This means the hash is not just of a password, but of a password and a random string (the salt).

The salt is stored, along with the hash. This means it is possible to check a password by appending the salt and calculating the hash and checking it matches the stored hash.

The password hashes all have an option of salt. If making your own password we recommend the latest hash method and as much salt as allowed. The salt should be random.

The OTP seed is scrambled using a separate salt on the same password, else the encryption would simply be using the hash you see in the password field, which would not be very secure!