What are the advantages / disadvantages of those 3 methods to create a salt?
$salt = md5($password); $salt = sha1(md5($password)); $salt = generate_random_number();
$hash = sha1($salt + $password);
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To answer this question it's important to know for what salts are.
Salts are designed against attacks with pre-calculated tables. For example rainbow tables. Rainbow tables are huge tables with all possible password variations up to a certain length. (Using a clever memory/time tradeoff.)
If the attacker only wants to crack a single password, they don't offer an advantage.
The statement above is not true if
Attackers using rainbow tables usually want to crack as many accounts as possible.
Which of your methods is most secure?
All of your methods except the third are insecure. This is because using any of the other methods allows the attacker to calculate a rainbow-table for your whole database.
Because the salt is dependent on the password. Don't make it dependent on the username either, this would still allow an attacker to create a rainbow table for the 100 most common usernames.
Keep in mind
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The first two methods are worthless. The whole point of salting is that the same password does not always result in the same encrypted/hashed string.
If you make the "salt" dependent on just the password, the same password will always result in the same hash. So basically the result is the same as if you'd use a slightly different hash function without any salt.
With the third method two users with the same password will usually get a different salt and the hashed version of the password will look different for both users. It will be hard to tell by the hashes that they both have the same password.
Well strictly speaking you only have one salting method, where you calculate the hash. The first three lines are different ways of generating a salt.
So a salt is there to stop precomputed lookup tables from discovering passwords. It should be a fixed value stored someone that is, preferably, unique to the plain text being hashed.
The most secure would be to use a cryptographically secure random number generator to produce a salt which is then stored along side the password.
If you created a salt which was an MD5 of the password then it would have to stored alongside the hashed and salted password value, which means you have an unsalted hash which is vulnerable to precomputed lookup tables, unless you plan to calculate it every time which is a small performance hit. By taking a SHA hash of an MD5 hash you're reducing the possibility of the plain text values, as there's a finite number of MD5 hash values as they are fixed length. This would mean that a rainbow table lookup might have a greater chance of success than a truly random salt.
So use the random salt please.
A useful way to think of rainbow tables is that they can be built for any one-way (or "trapdoor") function that only has one input. That is, if you use the same function, F, for all your passwords: hash = F(password). F could be MD5 or SHA1 or whatever.
Now lets look at salts. You use a salted function G, hash = G(salt, password). If all passwords in your database use the same salt, you can construct a function G, where G(password) = F("your salt", password), so there is a single input function, and thus you can build a rainbow table.
What if the salt depends on the password? Say the salt = I(password), we can build J(password) = G(I(password), password), a single input function, so rainbow tables can be built.
So, each password needs to have its own salt. This means that in the time it would take an attacker to crack all of your passwords, they can only crack one.