2022-07-17 21:17:23 +00:00
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#![cfg_attr(not(feature = "std"), no_std)]
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use ink_lang as ink;
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2022-07-18 00:56:10 +00:00
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#[ink::contract(env = serai_extension::SeraiEnvironment)]
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2022-07-17 21:17:23 +00:00
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mod multisig {
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use scale::Encode;
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use ink_storage::{traits::SpreadAllocate, Mapping};
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use ink_env::{hash::Blake2x256, hash_encoded};
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/// A contract which tracks the current multisig keys.
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#[ink(storage)]
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#[derive(SpreadAllocate)]
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pub struct Multisig {
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/// Validator set currently holding the multisig.
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validator_set: [u8; 32],
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/// Mapping from a curve's index to the multisig's current public key for it.
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// This is a mapping due to ink's eager loading. Considering we're right now only considering
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// secp256k1 and Ed25519, it may be notably more efficient to use a Vec here.
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keys: Mapping<u8, Vec<u8>>,
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/// Voter + Keys -> Voted already or not
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voted: Mapping<(AccountId, [u8; 32]), ()>,
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/// Validator Set + Keys -> Vote Count
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votes: Mapping<([u8; 32], [u8; 32]), u16>,
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}
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/// Event emitted when a new set of multisig keys is voted on. Only for the first vote on a set
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// of keys will they be present in this event.
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#[ink(event)]
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pub struct Vote {
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/// Validator who issued the vote.
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#[ink(topic)]
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validator: AccountId,
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/// Validator set for which keys are being generated.
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#[ink(topic)]
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validator_set: [u8; 32],
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/// Hash of the keys voted on.
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#[ink(topic)]
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hash: [u8; 32],
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/// Keys voted on.
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2022-07-18 05:52:59 +00:00
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keys: Option<Vec<Vec<u8>>>,
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2022-07-17 21:17:23 +00:00
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}
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/// Event emitted when the new keys are fully generated for all curves, having been fully voted
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/// on.
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#[ink(event)]
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pub struct KeyGen {
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#[ink(topic)]
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hash: [u8; 32],
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}
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/// The Multisig error types.
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#[derive(Debug, PartialEq, Eq, scale::Encode, scale::Decode)]
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#[cfg_attr(feature = "std", derive(scale_info::TypeInfo))]
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pub enum Error {
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/// Returned if a curve index doesn't have a key registered for it.
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NonExistentCurve,
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/// Returned if a non-validator is voting.
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NotValidator,
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/// Returned if this validator set already generated keys.
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AlreadyGeneratedKeys,
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/// Returned if this validator has already voted for these keys.
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AlreadyVoted,
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}
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/// The Multisig result type.
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pub type Result<T> = core::result::Result<T, Error>;
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impl Multisig {
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/// Deploys the Multisig contract.
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#[ink(constructor)]
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pub fn new() -> Self {
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ink_lang::utils::initialize_contract(|_| {})
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}
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/// Validator set currently holding the multisig.
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#[ink(message)]
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pub fn validator_set(&self) -> [u8; 32] {
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self.validator_set
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}
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/// Returns the key currently in-use for a given curve ID. This is then bound to a given chain
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/// by applying a personalized additive offset, as done by the processor. Each chain then has
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/// its own way of receiving funds to these keys, leaving this not for usage by wallets, nor
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/// the processor which is expected to track events for this information. This is really solely
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/// for debugging purposes.
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#[ink(message)]
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pub fn key(&self, curve: u8) -> Result<Vec<u8>> {
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self.keys.get(curve).ok_or(Error::NonExistentCurve)
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}
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// TODO: voted
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// TODO: votes
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fn hash<T: Encode>(value: &T) -> [u8; 32] {
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let mut output = [0; 32];
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hash_encoded::<Blake2x256, _>(value, &mut output);
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output
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}
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/// Vote for a given set of keys.
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#[ink(message)]
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pub fn vote(&mut self, keys: Vec<Vec<u8>>) -> Result<()> {
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if keys.len() > 256 {
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Err(Error::NonExistentCurve)?;
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}
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let validator = self.env().caller();
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if !self.env().extension().is_active_validator(&validator) {
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Err(Error::NotValidator)?;
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}
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let validator_set = self.env().extension().validator_set_id();
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if self.validator_set == validator_set {
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Err(Error::AlreadyGeneratedKeys)?;
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}
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let keys_hash = Self::hash(&keys);
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if self.voted.get((validator, keys_hash)).is_some() {
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Err(Error::AlreadyVoted)?;
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}
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self.voted.insert((validator, keys_hash), &());
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let votes = if let Some(votes) = self.votes.get((validator_set, keys_hash)) {
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self.env().emit_event(Vote { validator, validator_set, hash: keys_hash, keys: None });
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votes + 1
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} else {
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self.env().emit_event(Vote {
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validator,
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validator_set,
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hash: keys_hash,
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keys: Some(keys.clone()),
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});
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1
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};
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// We could skip writing this if we've reached consensus, yet best to keep our ducks in a row
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self.votes.insert((validator_set, keys_hash), &votes);
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// If we've reached consensus, action this.
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if votes == self.env().extension().active_validators_len() {
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self.validator_set = validator_set;
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for (k, key) in keys.iter().enumerate() {
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self.keys.insert(u8::try_from(k).unwrap(), key);
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}
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self.env().emit_event(KeyGen { hash: keys_hash });
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}
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Ok(())
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}
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}
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2022-07-18 05:52:59 +00:00
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#[cfg(test)]
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mod tests {
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use super::*;
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use ink_env::{
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hash::{CryptoHash, Blake2x256},
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AccountId,
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topics::PrefixedValue,
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};
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use ink_lang as ink;
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type Event = <Multisig as ::ink_lang::reflect::ContractEventBase>::Type;
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fn hash_prefixed<T: scale::Encode>(prefixed: PrefixedValue<T>) -> [u8; 32] {
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let encoded = prefixed.encode();
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let mut hash = [0; 32];
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if encoded.len() < 32 {
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hash[.. encoded.len()].copy_from_slice(&encoded);
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} else {
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Blake2x256::hash(&encoded, &mut hash);
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}
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hash
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}
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fn assert_vote(
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event: &ink_env::test::EmittedEvent,
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expected_validator: AccountId,
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expected_validator_set: [u8; 32],
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expected_hash: [u8; 32],
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expected_keys: Option<Vec<Vec<u8>>>,
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) {
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let decoded_event = <Event as scale::Decode>::decode(&mut &event.data[..])
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.expect("encountered invalid contract event data buffer");
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if let Event::Vote(Vote { validator, validator_set, hash, keys }) = decoded_event {
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assert_eq!(validator, expected_validator);
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assert_eq!(validator_set, expected_validator_set);
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assert_eq!(hash, expected_hash);
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assert_eq!(keys, expected_keys);
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} else {
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panic!("invalid Vote event")
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}
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let expected_topics = vec![
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hash_prefixed(PrefixedValue { prefix: b"", value: b"Multisig::Vote" }),
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hash_prefixed(PrefixedValue {
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prefix: b"Multisig::Vote::validator",
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value: &expected_validator,
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}),
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hash_prefixed(PrefixedValue {
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prefix: b"Multisig::Vote::validator_set",
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value: &expected_validator_set,
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}),
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hash_prefixed(PrefixedValue { prefix: b"Multisig::Vote::hash", value: &expected_hash }),
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];
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for (n, (actual_topic, expected_topic)) in
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event.topics.iter().zip(expected_topics).enumerate()
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{
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assert_eq!(actual_topic, &expected_topic, "encountered invalid topic at {}", n);
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}
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}
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/// The default constructor does its job.
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#[ink::test]
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fn new() {
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let multisig = Multisig::new();
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assert_eq!(multisig.validator_set(), [0; 32]);
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}
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#[ink::test]
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fn non_existent_curve() {
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assert_eq!(Multisig::new().key(0), Err(Error::NonExistentCurve));
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}
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#[ink::test]
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fn vote() {
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serai_extension::test_register();
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ink_env::test::set_caller::<ink_env::DefaultEnvironment>(AccountId::from([1; 32]));
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let mut multisig = Multisig::new();
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let keys = vec![vec![0, 1], vec![2, 3]];
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multisig.vote(keys.clone()).unwrap();
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let emitted_events = ink_env::test::recorded_events().collect::<Vec<_>>();
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assert_eq!(emitted_events.len(), 1);
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assert_vote(
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&emitted_events[0],
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AccountId::from([1; 32]),
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[0xff; 32],
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{
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let mut hash = [0; 32];
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ink_env::hash_encoded::<Blake2x256, _>(&keys, &mut hash);
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hash
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},
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Some(keys),
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);
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}
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}
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2022-07-17 21:17:23 +00:00
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}
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