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If I am using Rijndael CBC mode, I have no idea why we would need salt. My understanding is even if people know the password, but he cannot get the data without IV. So from my perspective, password + IV seem to be sufficent secure.

Do I get anything wrong?

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up vote 33 down vote accepted

Yes, you need all of these things.

Salt (and an "iteration count") is used to derive a key from the password. Refer to PKCS #5 for more information. The salt and iteration count used for key derivation do not have to be secret. The salt should be unpredictable, however, and is best chosen randomly.

CBC mode requires an initialization vector. This is a block of random data produced for each message by a cryptographic random number generator. It serves as the dummy initial block of ciphertext. Like the key-derivation salt, it doesn't have to be kept secret, and is usually transmitted along with the cipher text.

The password, and keys derived from it, must be kept secret. Even if an attacker has the parameters for key derivation and encryption, and the ciphertext, he can do nothing without the key.


Update:

Passwords aren't selected randomly; some passwords are much more likely than others. Therefore, rather than generating all possible passwords of a given length (exhaustive brute-force search), attackers maintain a list of passwords, ordered by decreasing probability.

Deriving an encryption key from a password is relatively slow (due to the iteration of the key derivation algorithm). Deriving keys for a few million passwords could take months. This would motivate an attacker to derive the keys from his most-likely-password list once, and store the results. With such a list, he can quickly try to decrypt with each key in his list, rather than spending months of compute time to derive keys again.

However, each bit of salt doubles the space required to store the derived key, and the time it takes to derive keys for each of his likely passwords. A few bytes of salt, and it quickly becomes infeasible to create and store such a list.

Salt is necessary to prevent pre-computation attacks.

An IV (or nonce with counter modes) makes the same plain text produce different cipher texts. The prevents an attacker from exploiting patterns in the plain text to garner information from a set of encrypted messages.

An initialization vector is necessary to hide patterns in messages.

One serves to enhance the security of the key, the other enhances the security of each message encrypted with that key. Both are necessary together.

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It's also worth saying that if you have everything but the IV, you can successfully decrypt everything but the first block of plaintext. – caf Dec 16 '09 at 8:17
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@AkashKava No, my statement is correct. An attacker cannot guess an unpredictable salt before it is chosen. If a salt is secret, an attacker would not be able to guess it even after it is chosen. Standards for password-based encryption protocols like CMS specify that the unencrypted salt can be sent along with the encrypted message. A predictable salt allows attackers to pre-compute encryption keys for common passwords and reuse that table many times to decrypt messages quickly. – erickson Oct 27 '12 at 17:01
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@AkashKava "I am helping attacker to reduce time by not guessing salt." This is true only if your password is very weak, and the salt is responsible for the entropy in your derived key. If the password itself is strong, knowing the salt won't help the attacker. The secrecy of a password comes from its storage: in your brain or your wallet. How would you keep salt secret? If you could keep a salt secret, why would you need a password? The salt itself could be used as a pre-shared key in that case. Salt is only to prevent the attacker from pre-computing keys in a time-space trade-off. – erickson Oct 28 '12 at 0:19
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@user12861 The salt protects against pre-computed dictionary attacks. Suppose an attacker has a list of the most commonly chosen passwords. Deriving a key for each of them would take a long time (because of the "iteration count" of the KDF), but without salt, he only has to do it once and store the results. He could then very quickly attempt a decryption of a given message with each of these derived keys, looking for expected features of the plain text to see if he had a match. With salt, the space requirements for this attack become prohibitive. What were you reading to suggest otherwise? – erickson Jul 9 '13 at 20:45
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@user12861 your questions got us some helpful answers, nothing is wasted – Riccardo Galli Jul 12 '13 at 15:28

First things first: Rijndael does not have a "password" in CBC mode. Rijndael in CBC mode takes a buffer to encrypt or decrypt, a key, and an IV.

A "salt" is typically used for encrypting passwords. The salt is added to the password that is encrypted and stored with the encrypted value. This prevents someone from building a dictionary of how all passwords encrypt---you need to build a dictionary of how all passwords encrypt for all salts. That was actually possible with the old Unix password encryption algorithm, which only used a 12-bit salt. (It increased the work factor by 4096). With a 128-bit salt it is not possible.

Someone can still do a brute-force attack on a specific password, of course, provided that they can retrieve the encrypted password.

However, you have an IV, which does pretty much the same thing that a Salt does. You don't need both. Or, rather, the IV is your salt.

BTW, these days we call "Rijndael" AES.

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IV and salt serve similar purposes: they ensure that otherwise identical inputs produce unpredictable outputs. However, a key derivation salt does not obviate the need for an IV. By choosing a new IV for each message, the same password can be used to encrypt many messages. Even if some of the messages are identical, an attacker won't be able to tell. – erickson Dec 15 '09 at 22:34
    
It seems that the OP is using password-based-encryption with Rijndael CBC (and Rijndael and AES are not precisely the same thing - AES is effectively a subset of Rijndael; the former has a fixed 128 bit blocksize whereas the latter has a variable blocksize). – caf Dec 16 '09 at 8:15
    
Salts are used in hashing not encryption. – Lucas Kauffman Nov 21 '13 at 10:09
    
Salts are used in password hashing, which is sometimes done using cryptographic functions rather than hash functions. – vy32 Mar 10 '15 at 17:05

A salt is generally used when using a hash algorithm. Rijndael is not a hash, but a two-way encryption algorithm. Ergo, a salt is not necessarily needed for encrypting the data. That being said, a salted hash of a password may be used as the Key for encrypting data. For what you're looking for, you might wish to look at hybrid cryptosystems.

The Key should be considered private and not transmitted with your encrypted data while the IV may be transmitted with the encrypted data.

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Negative. The IV is not considered confidential and, in fact, needs to be stored with the encrypted data, or else the data cannot be decrypted. – vy32 Dec 15 '09 at 4:27

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