--- id: crypto-reference title: Crypto description: Cryptographic operations hide_table_of_contents: true --- import Syntax from '@theme/Syntax'; import SyntaxTitle from '@theme/SyntaxTitle'; type key type key type key A public cryptographic key. type key_hash type key_hash type key_hash The hash of a public cryptographic key. type signature type signature type signature A cryptographic signature. function blake2b : bytes -> bytes val blake2b : bytes -> bytes let blake2b: bytes => bytes Runs the [blake2b hash algorithm](https://en.wikipedia.org/wiki/BLAKE_(hash_function)#BLAKE2) over the given `bytes` data and returns a `bytes` representing the hash. ```pascaligo function hasherman_blake (const s: bytes) : bytes is Crypto.blake2b(s) ``` > Note that `blake2b` is *deprecated*. Please use `Crypto.blake2b`. ```cameligo let hasherman_blake (s: bytes) : bytes = Crypto.blake2b s ``` ```reasonligo let hasherman_blake = (s: bytes) => Crypto.blake2b(s); ``` function sha256 : bytes -> bytes val sha256 : bytes -> bytes let sha256: bytes => bytes Runs the [sha256 hash algorithm](https://en.wikipedia.org/wiki/SHA-2) over the given `bytes` data and returns a `bytes` representing the hash. ```pascaligo function hasherman (const s : bytes) : bytes is Crypto.sha256(s) ``` > Note that `sha_256` is *deprecated*. Please use `Crypto.sha256`. ```cameligo let hasherman (s : bytes) : bytes = Crypto.sha256 s ``` ```reasonligo let hasherman = (s: bytes): bytes => Crypto.sha256(s); ``` function sha512 : bytes -> bytes val sha512 : bytes -> bytes let sha512: bytes => bytes Runs the [sha512 hash algorithm](https://en.wikipedia.org/wiki/SHA-2) over the given `bytes` data and returns a `bytes` representing the hash. ```pascaligo function hasherman512 (const s: bytes) : bytes is Crypto.sha512(s) ``` > Note that `sha_512` is *deprecated*. Please use `Crypto.sha512`. ```cameligo let hasherman512 (s: bytes) : bytes = Crypto.sha512 s ``` ```reasonligo let hasherman512 = (s: bytes) => Crypto.sha512(s); ``` function hash_key : key -> key_hash val hash_key : key -> key_hash let hash_key: key => key_hash Hashes a key for easy comparison and storage. ```pascaligo function check_hash_key (const kh1 : key_hash; const k2 : key) : bool * key_hash is block { var ret : bool := False ; var kh2 : key_hash := Crypto.hash_key(k2) ; if kh1 = kh2 then ret := True else skip; } with (ret, kh2) ``` > Note that `hash_key` is *deprecated*. Please use `Crypto.hash_key`. ```cameligo let check_hash_key (kh1, k2: key_hash * key) : bool * key_hash = let kh2 : key_hash = Crypto.hash_key k2 in if kh1 = kh2 then (true, kh2) else (false, kh2) ``` ```reasonligo let check_hash_key = ((kh1, k2): (key_hash, key)) : (bool, key_hash) => { let kh2 : key_hash = Crypto.hash_key(k2); if (kh1 == kh2) { (true, kh2); } else { (false, kh2); } }; ``` function check : key -> signature -> bytes -> bool val check : key -> signature -> bytes -> bool let check: (key, signature, bytes) => bool Check that a message has been signed by a particular key. > ⚠️ There is no way to *generate* a signed message in LIGO. This is because that would require storing a private key on chain, at which point it isn't very private anymore. ```pascaligo function check_signature (const pk: key; const signed: signature; const msg: bytes) : bool is Crypto.check(pk, signed, msg) ``` > Note that `crypto_check` is *deprecated*. Please use `Crypto.check`. ```cameligo let check_signature (pk, signed, msg: key * signature * bytes) : bool = Crypto.check pk signed msg ``` ```reasonligo let check_signature = ((pk, signed, msg): (key, signature, bytes)) : bool => { Crypto.check(pk, signed, msg); }; ```