The Sway standard library provides easy access to a selection of cryptographic hash functions (sha256
and EVM-compatible keccak256
), and EVM-compatible secp256k1
-based signature recovery operations.
script;
use std::hash::*;
impl Hash for Location {
fn hash(self, ref mut state: Hasher) {
match self {
Location::Earth => {
0_u8.hash(state);
}
Location::Mars => {
1_u8.hash(state);
}
}
}
}
impl Hash for Stats {
fn hash(self, ref mut state: Hasher) {
self.strength.hash(state);
self.agility.hash(state);
}
}
impl Hash for Person {
fn hash(self, ref mut state: Hasher) {
self.name.hash(state);
self.age.hash(state);
self.alive.hash(state);
self.location.hash(state);
self.stats.hash(state);
self.some_tuple.hash(state);
self.some_array.hash(state);
self.some_b256.hash(state);
}
}
const VALUE_A = 0x9280359a3b96819889d30614068715d634ad0cf9bba70c0f430a8c201138f79f;
enum Location {
Earth: (),
Mars: (),
}
struct Person {
name: str,
age: u64,
alive: bool,
location: Location,
stats: Stats,
some_tuple: (bool, u64),
some_array: [u64; 2],
some_b256: b256,
}
struct Stats {
strength: u64,
agility: u64,
}
fn main() {
let zero = b256::min();
// Use the generic sha256 to hash some integers
let sha_hashed_u8 = sha256(u8::max());
let sha_hashed_u16 = sha256(u16::max());
let sha_hashed_u32 = sha256(u32::max());
let sha_hashed_u64 = sha256(u64::max());
// Or hash a b256
let sha_hashed_b256 = sha256(VALUE_A);
// You can hash booleans too
let sha_hashed_bool = sha256(true);
// Strings are not a problem either
let sha_hashed_str = sha256("Fastest Modular Execution Layer!");
// Tuples of any size work too
let sha_hashed_tuple = sha256((true, 7));
// As do arrays
let sha_hashed_array = sha256([4, 5, 6]);
// Enums work too
let sha_hashed_enum = sha256(Location::Earth);
// Complex structs are not a problem
let sha_hashed_struct = sha256(Person {
name: "John",
age: 9000,
alive: true,
location: Location::Mars,
stats: Stats {
strength: 10,
agility: 9,
},
some_tuple: (true, 8),
some_array: [17, 76],
some_b256: zero,
});
log(sha_hashed_u8);
log(sha_hashed_u16);
log(sha_hashed_u32);
log(sha_hashed_u64);
log(sha_hashed_b256);
log(sha_hashed_bool);
log(sha_hashed_str);
log(sha_hashed_tuple);
log(sha_hashed_array);
log(sha_hashed_enum);
log(sha_hashed_struct);
// Use the generic keccak256 to hash some integers
let keccak_hashed_u8 = keccak256(u8::max());
let keccak_hashed_u16 = keccak256(u16::max());
let keccak_hashed_u32 = keccak256(u32::max());
let keccak_hashed_u64 = keccak256(u64::max());
// Or hash a b256
let keccak_hashed_b256 = keccak256(VALUE_A);
// You can hash booleans too
let keccak_hashed_bool = keccak256(true);
// Strings are not a problem either
let keccak_hashed_str = keccak256("Fastest Modular Execution Layer!");
// Tuples of any size work too
let keccak_hashed_tuple = keccak256((true, 7));
// As do arrays
let keccak_hashed_array = keccak256([4, 5, 6]);
// Enums work too
let keccak_hashed_enum = keccak256(Location::Earth);
// Complex structs are not a problem
let keccak_hashed_struct = keccak256(Person {
name: "John",
age: 9000,
alive: true,
location: Location::Mars,
stats: Stats {
strength: 10,
agility: 9,
},
some_tuple: (true, 8),
some_array: [17, 76],
some_b256: zero,
});
log(keccak_hashed_u8);
log(keccak_hashed_u16);
log(keccak_hashed_u32);
log(keccak_hashed_u64);
log(keccak_hashed_b256);
log(keccak_hashed_bool);
log(keccak_hashed_str);
log(keccak_hashed_tuple);
log(keccak_hashed_array);
log(keccak_hashed_enum);
log(keccak_hashed_struct);
}
script;
use std::{b512::B512, ecr::{ec_recover, ec_recover_address, EcRecoverError}};
const MSG_HASH = 0xee45573606c96c98ba970ff7cf9511f1b8b25e6bcd52ced30b89df1e4a9c4323;
fn main() {
let hi = 0xbd0c9b8792876713afa8bff383eebf31c43437823ed761cc3600d0016de5110c;
let lo = 0x44ac566bd156b4fc71a4a4cb2655d3dd360c695edb17dc3b64d611e122fea23d;
let signature: B512 = B512::from((hi, lo));
// A recovered public key pair.
let public_key = ec_recover(signature, MSG_HASH);
// A recovered Fuel address.
let result_address: Result<Address, EcRecoverError> = ec_recover_address(signature, MSG_HASH);
if let Ok(address) = result_address {
log(address.bits());
} else {
revert(0);
}
}
Note: Recovery of EVM addresses is also supported via
std::vm::evm
.