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Don't bind to the entire batch, solely the network and ID

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This avoids needing to know the Batch in advance, avoiding a race condition.
This commit is contained in:
Luke Parker 2023-08-24 18:52:31 -04:00
parent 67109c648c
commit dc2656a538
No known key found for this signature in database
3 changed files with 29 additions and 40 deletions
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9
processor/src/main.rs
View file

@ -373,9 +373,10 @@ async fn handle_coordinator_msg<D: Db, N: Network, Co: Coordinator>(
// See TributaryMutable's struct definition for why this block is safe
let KeyConfirmed { substrate_keys, network_keys } =
tributary_mutable.key_gen.confirm(txn, set, key_pair).await;
tributary_mutable
.substrate_signers
.insert(substrate_keys.group_key().to_bytes(), SubstrateSigner::new(substrate_keys));
tributary_mutable.substrate_signers.insert(
substrate_keys.group_key().to_bytes(),
SubstrateSigner::new(N::NETWORK, substrate_keys),
);
let key = network_keys.group_key();
@ -516,7 +517,7 @@ async fn boot<N: Network, D: Db>(
let (substrate_keys, network_keys) = key_gen.keys(key);
let substrate_key = substrate_keys.group_key();
let substrate_signer = SubstrateSigner::new(substrate_keys);
let substrate_signer = SubstrateSigner::new(N::NETWORK, substrate_keys);
// We don't have to load any state for this since the Scanner will re-fire any events
// necessary
substrate_signers.insert(substrate_key.to_bytes(), substrate_signer);

58
processor/src/substrate_signer.rs
View file

@ -19,11 +19,27 @@ use frost_schnorrkel::Schnorrkel;
use log::{info, debug, warn};
use serai_client::in_instructions::primitives::{Batch, SignedBatch, batch_message};
use serai_client::{
primitives::NetworkId,
in_instructions::primitives::{Batch, SignedBatch, batch_message},
};
use messages::{sign::SignId, coordinator::*};
use crate::{Get, DbTxn, Db};
// Generate an ID unique to a Batch
// TODO: Fork SignId to BatchSignId in order to just use the 5-byte encoding, not the hash of the
// 5-byte encoding
fn sign_id(network: NetworkId, id: u32) -> [u8; 32] {
let mut transcript = RecommendedTranscript::new(b"Serai Processor Batch Sign ID");
transcript.append_message(b"network", network.encode());
transcript.append_message(b"id", id.to_le_bytes());
let mut res = [0; 32];
res.copy_from_slice(&transcript.challenge(b"id")[.. 32]);
res
}
#[derive(Debug)]
pub enum SubstrateSignerEvent {
ProcessorMessage(ProcessorMessage),
@ -37,16 +53,6 @@ impl<D: Db> SubstrateSignerDb<D> {
D::key(b"SUBSTRATE_SIGNER", dst, key)
}
fn sign_id_key(id: u32) -> Vec<u8> {
Self::sign_key(b"sign_id", id.to_le_bytes())
}
fn save_sign_id(txn: &mut D::Transaction<'_>, id: u32, sign_id: [u8; 32]) {
txn.put(Self::sign_id_key(id), sign_id);
}
fn sign_id(txn: &mut D::Transaction<'_>, id: u32) -> [u8; 32] {
txn.get(Self::sign_id_key(id)).expect("completing a batch we never started").try_into().unwrap()
}
fn completed_key(id: [u8; 32]) -> Vec<u8> {
Self::sign_key(b"completed", id)
}
@ -75,6 +81,7 @@ impl<D: Db> SubstrateSignerDb<D> {
pub struct SubstrateSigner<D: Db> {
db: PhantomData<D>,
network: NetworkId,
keys: ThresholdKeys<Ristretto>,
signable: HashMap<[u8; 32], Batch>,
@ -96,10 +103,11 @@ impl<D: Db> fmt::Debug for SubstrateSigner<D> {
}
impl<D: Db> SubstrateSigner<D> {
pub fn new(keys: ThresholdKeys<Ristretto>) -> SubstrateSigner<D> {
pub fn new(network: NetworkId, keys: ThresholdKeys<Ristretto>) -> SubstrateSigner<D> {
SubstrateSigner {
db: PhantomData,
network,
keys,
signable: HashMap::new(),
@ -214,28 +222,8 @@ impl<D: Db> SubstrateSigner<D> {
}
pub async fn sign(&mut self, txn: &mut D::Transaction<'_>, batch: Batch) {
// Generate a unique ID to sign with
let id = {
// TODO: Add this to in-instructions primitives
let mut transcript = RecommendedTranscript::new(b"Serai Processor Batch ID");
transcript.domain_separate(b"header");
transcript.append_message(b"network", batch.network.encode());
transcript.append_message(b"id", batch.id.to_le_bytes());
transcript.append_message(b"block", batch.block.0);
transcript.domain_separate(b"instructions");
for instruction in &batch.instructions {
// TODO: Either properly transcript this or simply encode the entire batch (since SCALE is
// canonical)
transcript.append_message(b"instruction", instruction.encode());
}
let mut res = [0; 32];
res.copy_from_slice(&transcript.challenge(b"id")[.. 32]);
res
};
SubstrateSignerDb::<D>::save_sign_id(txn, batch.id, id);
debug_assert_eq!(self.network, batch.network);
let id = sign_id(batch.network, batch.id);
if SubstrateSignerDb::<D>::completed(txn, id) {
debug!("Sign batch order for ID we've already completed signing");
// See batch_signed for commentary on why this simply returns
@ -370,7 +358,7 @@ impl<D: Db> SubstrateSigner<D> {
// block behind it, which will trigger starting the Batch
// TODO: There is a race condition between the Scanner recognizing the block and the Batch
// having signing started
let sign_id = SubstrateSignerDb::<D>::sign_id(txn, id);
let sign_id = sign_id(self.network, id);
// Stop trying to sign for this batch
SubstrateSignerDb::<D>::complete(txn, sign_id);

2
processor/src/tests/substrate_signer.rs
View file

@ -53,7 +53,7 @@ async fn test_substrate_signer() {
let keys = keys.remove(&i).unwrap();
t = keys.params().t();
let mut signer = SubstrateSigner::<MemDb>::new(keys);
let mut signer = SubstrateSigner::<MemDb>::new(NetworkId::Monero, keys);
let mut db = MemDb::new();
let mut txn = db.txn();
signer.sign(&mut txn, batch.clone()).await;