use core::ops::Deref;
use std::{sync::Arc, io};
use zeroize::Zeroizing;
use rand::{RngCore, CryptoRng, rngs::OsRng};
use blake2::{Digest, Blake2s256};
use ciphersuite::{
group::{ff::Field, Group},
Ciphersuite, Ristretto,
};
use schnorr::SchnorrSignature;
use scale::Encode;
use ::tendermint::{
ext::{Network, Signer as SignerTrait, SignatureScheme, BlockNumber, RoundNumber},
SignedMessageFor, DataFor, Message, SignedMessage, Data, Evidence,
};
use crate::{
transaction::{Signed, TransactionError, TransactionKind, Transaction, verify_transaction},
ReadWrite,
tendermint::{tx::TendermintTx, Validators, Signer},
};
#[cfg(test)]
mod signed;
#[cfg(test)]
mod tendermint;
pub fn random_signed<R: RngCore + CryptoRng>(rng: &mut R) -> Signed {
Signed {
signer: <Ristretto as Ciphersuite>::G::random(&mut *rng),
nonce: u32::try_from(rng.next_u64() >> 32 >> 1).unwrap(),
signature: SchnorrSignature::<Ristretto> {
R: <Ristretto as Ciphersuite>::G::random(&mut *rng),
s: <Ristretto as Ciphersuite>::F::random(rng),
},
}
}
pub fn random_signed_with_nonce<R: RngCore + CryptoRng>(rng: &mut R, nonce: u32) -> Signed {
let mut signed = random_signed(rng);
signed.nonce = nonce;
signed
}
#[derive(Clone, PartialEq, Eq, Debug)]
pub struct ProvidedTransaction(pub Vec<u8>);
impl ReadWrite for ProvidedTransaction {
fn read<R: io::Read>(reader: &mut R) -> io::Result<Self> {
let mut len = [0; 4];
reader.read_exact(&mut len)?;
let mut data = vec![0; usize::try_from(u32::from_le_bytes(len)).unwrap()];
reader.read_exact(&mut data)?;
Ok(ProvidedTransaction(data))
}
fn write<W: io::Write>(&self, writer: &mut W) -> io::Result<()> {
writer.write_all(&u32::try_from(self.0.len()).unwrap().to_le_bytes())?;
writer.write_all(&self.0)
}
}
impl Transaction for ProvidedTransaction {
fn kind(&self) -> TransactionKind<'_> {
match self.0[0] {
1 => TransactionKind::Provided("order1"),
2 => TransactionKind::Provided("order2"),
_ => panic!("unknown order"),
}
}
fn hash(&self) -> [u8; 32] {
Blake2s256::digest(self.serialize()).into()
}
fn verify(&self) -> Result<(), TransactionError> {
Ok(())
}
}
pub fn random_provided_transaction<R: RngCore + CryptoRng>(
rng: &mut R,
order: &str,
) -> ProvidedTransaction {
let mut data = vec![0; 512];
rng.fill_bytes(&mut data);
data[0] = match order {
"order1" => 1,
"order2" => 2,
_ => panic!("unknown order"),
};
ProvidedTransaction(data)
}
#[derive(Clone, PartialEq, Eq, Debug)]
pub struct SignedTransaction(pub Vec<u8>, pub Signed);
impl ReadWrite for SignedTransaction {
fn read<R: io::Read>(reader: &mut R) -> io::Result<Self> {
let mut len = [0; 4];
reader.read_exact(&mut len)?;
let mut data = vec![0; usize::try_from(u32::from_le_bytes(len)).unwrap()];
reader.read_exact(&mut data)?;
Ok(SignedTransaction(data, Signed::read(reader)?))
}
fn write<W: io::Write>(&self, writer: &mut W) -> io::Result<()> {
writer.write_all(&u32::try_from(self.0.len()).unwrap().to_le_bytes())?;
writer.write_all(&self.0)?;
self.1.write(writer)
}
}
impl Transaction for SignedTransaction {
fn kind(&self) -> TransactionKind<'_> {
TransactionKind::Signed(vec![], &self.1)
}
fn hash(&self) -> [u8; 32] {
let serialized = self.serialize();
Blake2s256::digest(&serialized[.. (serialized.len() - 64)]).into()
}
fn verify(&self) -> Result<(), TransactionError> {
Ok(())
}
}
pub fn signed_transaction<R: RngCore + CryptoRng>(
rng: &mut R,
genesis: [u8; 32],
key: &Zeroizing<<Ristretto as Ciphersuite>::F>,
nonce: u32,
) -> SignedTransaction {
let mut data = vec![0; 512];
rng.fill_bytes(&mut data);
let signer = <Ristretto as Ciphersuite>::generator() * **key;
let mut tx =
SignedTransaction(data, Signed { signer, nonce, signature: random_signed(rng).signature });
let sig_nonce = Zeroizing::new(<Ristretto as Ciphersuite>::F::random(rng));
tx.1.signature.R = Ristretto::generator() * sig_nonce.deref();
tx.1.signature = SchnorrSignature::sign(key, sig_nonce, tx.sig_hash(genesis));
verify_transaction(&tx, genesis, &mut |_, _| Some(tx.1.nonce)).unwrap();
tx
}
pub fn random_signed_transaction<R: RngCore + CryptoRng>(
rng: &mut R,
) -> ([u8; 32], SignedTransaction) {
let mut genesis = [0; 32];
rng.fill_bytes(&mut genesis);
let key = Zeroizing::new(<Ristretto as Ciphersuite>::F::random(&mut *rng));
let nonce = u32::try_from(rng.next_u64() >> 32 >> 1).unwrap();
(genesis, signed_transaction(rng, genesis, &key, nonce))
}
pub fn new_genesis() -> [u8; 32] {
let mut genesis = [0; 32];
OsRng.fill_bytes(&mut genesis);
genesis
}
pub async fn tendermint_meta() -> ([u8; 32], Signer, [u8; 32], Arc<Validators>) {
let genesis = new_genesis();
let signer =
Signer::new(genesis, Zeroizing::new(<Ristretto as Ciphersuite>::F::random(&mut OsRng)));
let validator_id = signer.validator_id().await.unwrap();
let signer_pub =
<Ristretto as Ciphersuite>::read_G::<&[u8]>(&mut validator_id.as_slice()).unwrap();
let validators = Arc::new(Validators::new(genesis, vec![(signer_pub, 1)]).unwrap());
(genesis, signer, validator_id, validators)
}
pub async fn signed_from_data<N: Network>(
signer: <N::SignatureScheme as SignatureScheme>::Signer,
signer_id: N::ValidatorId,
block_number: u64,
round_number: u32,
data: DataFor<N>,
) -> SignedMessageFor<N> {
let msg = Message {
sender: signer_id,
block: BlockNumber(block_number),
round: RoundNumber(round_number),
data,
};
let sig = signer.sign(&msg.encode()).await;
SignedMessage { msg, sig }
}
pub async fn random_evidence_tx<N: Network>(
signer: <N::SignatureScheme as SignatureScheme>::Signer,
b: N::Block,
) -> TendermintTx {
let data = Data::Proposal(Some(RoundNumber(0)), b);
let signer_id = signer.validator_id().await.unwrap();
let signed = signed_from_data::<N>(signer, signer_id, 0, 0, data).await;
TendermintTx::SlashEvidence(Evidence::InvalidValidRound(signed.encode()))
}