A lot of people are saying "to stop rainbow tables" without explaining what rainbow tables do or why this stops them.
Rainbow tables are a clever way of precomputing a large number of hashes and storing them in less memory than would naively be required, and you can use them to very quickly reverse a hash. Tables for bare functions such as
hash = md5(password) and
hash = sha1(password) are common.
However, they can be generated for ANY hash function which can be described as
output = f(input). If you use a site-wide salt for all user passwords, for example
hash = md5(salt+password), you could construct a function
f(password) = md5(salt+password). Therefore you could generate rainbow tables for this function, which would take a long time, but would then let you crack every single password in the database very rapidly.
If the salt is different for each password, you can't generate a rainbow table that will crack all passwords in the database. You could generate a new one for every user but that would be pointless - naive brute-forcing would be no slower. So having a seperate salt for each user stops the rainbow tables attack.
There are several ways to do accomplish this. Popular ways include:
- A separate salt for each user, stored alongside their other details in the database:
hash = hashfunction(salt + password)
- A global salt and some unique value per user:
hash = hashfunction(salt + password + user_id) for example
- A global salt and a per-user salt:
hash = hashfunction(global_salt + user_salt + password)
Having a global salt could add a little extra complexity to cracking the passwords, as it could be stored outside of the database (in the code, for example) which attackers may not gain access to in the event of a database breach. Cryptographically I don't think it adds much, but in practice it could slow them down.
Finally, to answer your actual question:
Storing the salt alongside the user data does not weaken the hash. Hash functions are one-way: Given the hash of a password, even an unsalted one, it is very difficult to find that password. The motivation behind salting is not to make an individual hash more secure, but to make the collection of multiple hashes more secure. There are several vectors of attack for a collection of unsalted hashes:
- Rainbow tables
- Hashing common passwords (
god) and seeing if any exist in the database, and then compromise those accounts
- Look for identical hashes in the database, which means identical passwords (probably)