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(AutoIt) Generate Encryption KeyDiscusses symmetric encryption key generation techniques for block encryption algorithms such as AES, Blowfish, and Twofish, or for other algorithms such as ChaCha20.
; Symmetric encryption algorithms are such that the encryptor and decryptor ; share a pre-known secret key. This could be a "single-use" key that is ; derived from a secure key exchange algorithm using RSA, ECC, or Diffie-Hellman, ; or it could be a password known to both sides, or ; it could simply be the binary bytes of the secret key known in advance on both ; sides. ; A secret key has no structure. It's nothing more than N bytes of data. ; It should typically be random data, or bytes that resemble random data such ; as the hash of a password. ; The number of bytes in the secret key defines the bit-strength of an encryption ; algorithm. For example, AES with a 32-byte key is 256-bit AES. Most algorithms ; define restrictions on key sizes. For example, AES has 3 choices: 128-bit, 192-bit, ; or 256-bit. In the ChaCha20 algorithm, the key size must always be 256-bits (32-bytes). ; Both sides (encryptor and decryptor) must be in possession of the same secret key ; in order to communicate. Whichever side generates the key, it must somehow ; deliver the key to the other side beforehand. Key exchange algorithms, such as RSA, ECC, ; and Diffie-Hellman define secure ways of exchanging symmetric encryption keys. ; They do so using asymmetric encryption algorithms (public/private keys). It is not ; required to use a key exchange algorithm to achieve the goal of having both sides ; in possession of the same secret key. A long-living secret key could be exchanged ; via any secure out-of-band means. For example, exchanging the information over a secure ; TLS (HTTPS) or SSH connection... ; This example assumes the Chilkat API to have been previously unlocked. ; See Global Unlock Sample for sample code. Local $bSuccess $oCrypt = ObjCreate("Chilkat.Crypt2") $oCrypt.CryptAlgorithm = "aes" $oCrypt.KeyLength = 256 ; Generate a 32-byte random secret key, ; and use it in the crypt object. $oPrng = ObjCreate("Chilkat.Prng") Local $secretKeyHex = $oPrng.GenRandom(32,"hex") ; It is important that the number of bytes in the secret key ; matches the value specified in the KeyLength property (above). $oCrypt.SetEncodedKey $secretKeyHex,"hex" ConsoleWrite("randomly generated key: " & $secretKeyHex & @CRLF) ; Alternatively, a password could be hashed using a hash algorithm ; the results in the desired key length. Our desired key length ; in this case is 32 bytes, so we wouldn't want MD5 (16 bytes), ; nor would we want to use SHA-1 (20 bytes). SHA256 would be the ; hash of choice because it results in 32-bytes of random-looking ; key material. $oCrypt.HashAlgorithm = "SHA256" $oCrypt.EncodingMode = "hex" $secretKeyHex = $oCrypt.HashStringENC("mypassword") $oCrypt.SetEncodedKey $secretKeyHex,"hex" ConsoleWrite("password-based key: " & $secretKeyHex & @CRLF) |
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