use crate::crypto::{
ByteArray, CryptoType, CryptoTypeId, DeriveError, DeriveJunction, Pair as TraitPair,
PublicBytes, SecretStringError, SignatureBytes,
};
use ed25519_zebra::{SigningKey, VerificationKey};
use sp_std::vec::Vec;
pub const CRYPTO_ID: CryptoTypeId = CryptoTypeId(*b"ed25");
pub const PUBLIC_KEY_SERIALIZED_SIZE: usize = 32;
pub const SIGNATURE_SERIALIZED_SIZE: usize = 64;
type Seed = [u8; 32];
#[doc(hidden)]
pub struct Ed25519Tag;
pub type Public = PublicBytes<PUBLIC_KEY_SERIALIZED_SIZE, Ed25519Tag>;
pub type Signature = SignatureBytes<SIGNATURE_SERIALIZED_SIZE, Ed25519Tag>;
#[derive(Copy, Clone)]
pub struct Pair {
public: VerificationKey,
secret: SigningKey,
}
fn derive_hard_junction(secret_seed: &Seed, cc: &[u8; 32]) -> Seed {
use codec::Encode;
("Ed25519HDKD", secret_seed, cc).using_encoded(sp_crypto_hashing::blake2_256)
}
impl TraitPair for Pair {
type Public = Public;
type Seed = Seed;
type Signature = Signature;
fn from_seed_slice(seed_slice: &[u8]) -> Result<Pair, SecretStringError> {
let secret =
SigningKey::try_from(seed_slice).map_err(|_| SecretStringError::InvalidSeedLength)?;
let public = VerificationKey::from(&secret);
Ok(Pair { secret, public })
}
fn derive<Iter: Iterator<Item = DeriveJunction>>(
&self,
path: Iter,
_seed: Option<Seed>,
) -> Result<(Pair, Option<Seed>), DeriveError> {
let mut acc = self.secret.into();
for j in path {
match j {
DeriveJunction::Soft(_cc) => return Err(DeriveError::SoftKeyInPath),
DeriveJunction::Hard(cc) => acc = derive_hard_junction(&acc, &cc),
}
}
Ok((Self::from_seed(&acc), Some(acc)))
}
fn public(&self) -> Public {
Public::from_raw(self.public.into())
}
#[cfg(feature = "full_crypto")]
fn sign(&self, message: &[u8]) -> Signature {
Signature::from_raw(self.secret.sign(message).into())
}
fn verify<M: AsRef<[u8]>>(sig: &Signature, message: M, public: &Public) -> bool {
let Ok(public) = VerificationKey::try_from(public.as_slice()) else { return false };
let Ok(signature) = ed25519_zebra::Signature::try_from(sig.as_slice()) else {
return false
};
public.verify(&signature, message.as_ref()).is_ok()
}
fn to_raw_vec(&self) -> Vec<u8> {
self.seed().to_vec()
}
}
impl Pair {
pub fn seed(&self) -> Seed {
self.secret.into()
}
#[cfg(feature = "std")]
pub fn from_legacy_string(s: &str, password_override: Option<&str>) -> Pair {
Self::from_string(s, password_override).unwrap_or_else(|_| {
let mut padded_seed: Seed = [b' '; 32];
let len = s.len().min(32);
padded_seed[..len].copy_from_slice(&s.as_bytes()[..len]);
Self::from_seed(&padded_seed)
})
}
}
impl CryptoType for Public {
type Pair = Pair;
}
impl CryptoType for Signature {
type Pair = Pair;
}
impl CryptoType for Pair {
type Pair = Pair;
}
#[cfg(test)]
mod tests {
use super::*;
#[cfg(feature = "serde")]
use crate::crypto::Ss58Codec;
use crate::crypto::DEV_PHRASE;
use serde_json;
#[test]
fn default_phrase_should_be_used() {
assert_eq!(
Pair::from_string("//Alice///password", None).unwrap().public(),
Pair::from_string(&format!("{}//Alice", DEV_PHRASE), Some("password"))
.unwrap()
.public(),
);
}
#[test]
fn seed_and_derive_should_work() {
let seed = array_bytes::hex2array_unchecked(
"9d61b19deffd5a60ba844af492ec2cc44449c5697b326919703bac031cae7f60",
);
let pair = Pair::from_seed(&seed);
assert_eq!(pair.seed(), seed);
let path = vec![DeriveJunction::Hard([0u8; 32])];
let derived = pair.derive(path.into_iter(), None).ok().unwrap().0;
assert_eq!(
derived.seed(),
array_bytes::hex2array_unchecked::<_, 32>(
"ede3354e133f9c8e337ddd6ee5415ed4b4ffe5fc7d21e933f4930a3730e5b21c"
)
);
}
#[test]
fn generate_with_phrase_should_be_recoverable_with_from_string() {
let (pair, phrase, seed) = Pair::generate_with_phrase(None);
let repair_seed = Pair::from_seed_slice(seed.as_ref()).expect("seed slice is valid");
assert_eq!(pair.public(), repair_seed.public());
assert_eq!(pair.to_raw_vec(), repair_seed.to_raw_vec());
let (repair_phrase, reseed) =
Pair::from_phrase(phrase.as_ref(), None).expect("seed slice is valid");
assert_eq!(seed, reseed);
assert_eq!(pair.public(), repair_phrase.public());
assert_eq!(pair.to_raw_vec(), repair_seed.to_raw_vec());
let repair_string = Pair::from_string(phrase.as_str(), None).expect("seed slice is valid");
assert_eq!(pair.public(), repair_string.public());
assert_eq!(pair.to_raw_vec(), repair_seed.to_raw_vec());
}
#[test]
fn test_vector_should_work() {
let pair = Pair::from_seed(&array_bytes::hex2array_unchecked(
"9d61b19deffd5a60ba844af492ec2cc44449c5697b326919703bac031cae7f60",
));
let public = pair.public();
assert_eq!(
public,
Public::from_raw(array_bytes::hex2array_unchecked(
"d75a980182b10ab7d54bfed3c964073a0ee172f3daa62325af021a68f707511a"
))
);
let message = b"";
let signature = array_bytes::hex2array_unchecked("e5564300c360ac729086e2cc806e828a84877f1eb8e5d974d873e065224901555fb8821590a33bacc61e39701cf9b46bd25bf5f0595bbe24655141438e7a100b");
let signature = Signature::from_raw(signature);
assert!(pair.sign(&message[..]) == signature);
assert!(Pair::verify(&signature, &message[..], &public));
}
#[test]
fn test_vector_by_string_should_work() {
let pair = Pair::from_string(
"0x9d61b19deffd5a60ba844af492ec2cc44449c5697b326919703bac031cae7f60",
None,
)
.unwrap();
let public = pair.public();
assert_eq!(
public,
Public::from_raw(array_bytes::hex2array_unchecked(
"d75a980182b10ab7d54bfed3c964073a0ee172f3daa62325af021a68f707511a"
))
);
let message = b"";
let signature = array_bytes::hex2array_unchecked("e5564300c360ac729086e2cc806e828a84877f1eb8e5d974d873e065224901555fb8821590a33bacc61e39701cf9b46bd25bf5f0595bbe24655141438e7a100b");
let signature = Signature::from_raw(signature);
assert!(pair.sign(&message[..]) == signature);
assert!(Pair::verify(&signature, &message[..], &public));
}
#[test]
fn generated_pair_should_work() {
let (pair, _) = Pair::generate();
let public = pair.public();
let message = b"Something important";
let signature = pair.sign(&message[..]);
assert!(Pair::verify(&signature, &message[..], &public));
assert!(!Pair::verify(&signature, b"Something else", &public));
}
#[test]
fn seeded_pair_should_work() {
let pair = Pair::from_seed(b"12345678901234567890123456789012");
let public = pair.public();
assert_eq!(
public,
Public::from_raw(array_bytes::hex2array_unchecked(
"2f8c6129d816cf51c374bc7f08c3e63ed156cf78aefb4a6550d97b87997977ee"
))
);
let message = array_bytes::hex2bytes_unchecked("2f8c6129d816cf51c374bc7f08c3e63ed156cf78aefb4a6550d97b87997977ee00000000000000000200d75a980182b10ab7d54bfed3c964073a0ee172f3daa62325af021a68f707511a4500000000000000");
let signature = pair.sign(&message[..]);
println!("Correct signature: {:?}", signature);
assert!(Pair::verify(&signature, &message[..], &public));
assert!(!Pair::verify(&signature, "Other message", &public));
}
#[test]
fn generate_with_phrase_recovery_possible() {
let (pair1, phrase, _) = Pair::generate_with_phrase(None);
let (pair2, _) = Pair::from_phrase(&phrase, None).unwrap();
assert_eq!(pair1.public(), pair2.public());
}
#[test]
fn generate_with_password_phrase_recovery_possible() {
let (pair1, phrase, _) = Pair::generate_with_phrase(Some("password"));
let (pair2, _) = Pair::from_phrase(&phrase, Some("password")).unwrap();
assert_eq!(pair1.public(), pair2.public());
}
#[test]
fn password_does_something() {
let (pair1, phrase, _) = Pair::generate_with_phrase(Some("password"));
let (pair2, _) = Pair::from_phrase(&phrase, None).unwrap();
assert_ne!(pair1.public(), pair2.public());
assert_ne!(pair1.to_raw_vec(), pair2.to_raw_vec());
}
#[test]
fn ss58check_roundtrip_works() {
let pair = Pair::from_seed(b"12345678901234567890123456789012");
let public = pair.public();
let s = public.to_ss58check();
println!("Correct: {}", s);
let cmp = Public::from_ss58check(&s).unwrap();
assert_eq!(cmp, public);
}
#[test]
fn signature_serialization_works() {
let pair = Pair::from_seed(b"12345678901234567890123456789012");
let message = b"Something important";
let signature = pair.sign(&message[..]);
let serialized_signature = serde_json::to_string(&signature).unwrap();
assert_eq!(serialized_signature.len(), 130);
let signature = serde_json::from_str(&serialized_signature).unwrap();
assert!(Pair::verify(&signature, &message[..], &pair.public()));
}
#[test]
fn signature_serialization_doesnt_panic() {
fn deserialize_signature(text: &str) -> Result<Signature, serde_json::error::Error> {
serde_json::from_str(text)
}
assert!(deserialize_signature("Not valid json.").is_err());
assert!(deserialize_signature("\"Not an actual signature.\"").is_err());
assert!(deserialize_signature("\"abc123\"").is_err());
}
}