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https://github.com/serai-dex/serai.git
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3c664ff05f
coordinator/tributary was tributary-chain. This crate has been renamed tributary-sdk and moved to coordinator/tributary-sdk. coordinator/src/tributary was our instantion of a Tributary, the Transaction type and scan task. This has been moved to coordinator/tributary. The main reason for this was due to coordinator/main.rs becoming untidy. There is now a collection of clean, independent APIs present in the codebase. coordinator/main.rs is to compose them. Sometimes, these compositions are a bit silly (reading from a channel just to forward the message to a distinct channel). That's more than fine as the code is still readable and the value from the cleanliness of the APIs composed far exceeds the nits from having these odd compositions. This breaks down a bit as we now define a global database, and have some APIs interact with multiple other APIs. coordinator/src/tributary was a self-contained, clean API. The recently added task present in coordinator/tributary/mod.rs, which bound it to the rest of the Coordinator, wasn't. Now, coordinator/src is solely the API compositions, and all self-contained APIs are their own crates.
192 lines
6.5 KiB
Rust
192 lines
6.5 KiB
Rust
use std::collections::{VecDeque, HashMap};
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use thiserror::Error;
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use serai_db::{Get, DbTxn, Db};
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use crate::transaction::{TransactionKind, TransactionError, Transaction, verify_transaction};
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#[derive(Clone, PartialEq, Eq, Debug, Error)]
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pub enum ProvidedError {
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/// The provided transaction's kind wasn't Provided
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#[error("transaction wasn't a provided transaction")]
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NotProvided,
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/// The provided transaction was invalid
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#[error("provided transaction was invalid")]
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InvalidProvided(TransactionError),
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/// Transaction was already provided
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#[error("transaction was already provided")]
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AlreadyProvided,
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/// Local transaction mismatches the on-chain provided
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#[error("local provides mismatches on-chain provided")]
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LocalMismatchesOnChain,
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}
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#[derive(Clone, PartialEq, Eq, Debug)]
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pub struct ProvidedTransactions<D: Db, T: Transaction> {
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db: D,
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genesis: [u8; 32],
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pub(crate) transactions: HashMap<&'static str, VecDeque<T>>,
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}
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impl<D: Db, T: Transaction> ProvidedTransactions<D, T> {
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fn transaction_key(&self, hash: &[u8]) -> Vec<u8> {
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D::key(b"tributary_provided", b"transaction", [self.genesis.as_ref(), hash].concat())
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}
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fn current_provided_key(&self) -> Vec<u8> {
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D::key(b"tributary_provided", b"current", self.genesis)
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}
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pub(crate) fn locally_provided_quantity_key(genesis: &[u8; 32], order: &str) -> Vec<u8> {
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D::key(b"tributary_provided", b"local_quantity", [genesis, order.as_bytes()].concat())
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}
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pub(crate) fn on_chain_provided_quantity_key(genesis: &[u8; 32], order: &str) -> Vec<u8> {
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D::key(b"tributary_provided", b"on_chain_quantity", [genesis, order.as_bytes()].concat())
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}
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pub(crate) fn block_provided_quantity_key(
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genesis: &[u8; 32],
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block: &[u8; 32],
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order: &str,
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) -> Vec<u8> {
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D::key(b"tributary_provided", b"block_quantity", [genesis, block, order.as_bytes()].concat())
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}
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pub(crate) fn on_chain_provided_key(genesis: &[u8; 32], order: &str, id: u32) -> Vec<u8> {
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D::key(
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b"tributary_provided",
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b"on_chain_tx",
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[genesis, order.as_bytes(), &id.to_le_bytes()].concat(),
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)
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}
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pub(crate) fn new(db: D, genesis: [u8; 32]) -> Self {
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let mut res = ProvidedTransactions { db, genesis, transactions: HashMap::new() };
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let currently_provided = res.db.get(res.current_provided_key()).unwrap_or(vec![]);
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let mut i = 0;
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while i < currently_provided.len() {
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let tx = T::read::<&[u8]>(
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&mut res.db.get(res.transaction_key(¤tly_provided[i .. (i + 32)])).unwrap().as_ref(),
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)
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.unwrap();
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let TransactionKind::Provided(order) = tx.kind() else {
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panic!("provided transaction saved to disk wasn't provided");
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};
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if !res.transactions.contains_key(order) {
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res.transactions.insert(order, VecDeque::new());
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}
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res.transactions.get_mut(order).unwrap().push_back(tx);
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i += 32;
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}
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res
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}
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/// Provide a transaction for inclusion in a block.
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pub(crate) fn provide(&mut self, tx: T) -> Result<(), ProvidedError> {
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let TransactionKind::Provided(order) = tx.kind() else { Err(ProvidedError::NotProvided)? };
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match verify_transaction(&tx, self.genesis, &mut |_, _| None) {
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Ok(()) => {}
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Err(e) => Err(ProvidedError::InvalidProvided(e))?,
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}
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let tx_hash = tx.hash();
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// Check it wasn't already provided
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let provided_key = self.transaction_key(&tx_hash);
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if self.db.get(&provided_key).is_some() {
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Err(ProvidedError::AlreadyProvided)?;
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}
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// get local and on-chain tx numbers
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let local_key = Self::locally_provided_quantity_key(&self.genesis, order);
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let mut local_quantity =
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self.db.get(&local_key).map_or(0, |bytes| u32::from_le_bytes(bytes.try_into().unwrap()));
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let on_chain_key = Self::on_chain_provided_quantity_key(&self.genesis, order);
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let on_chain_quantity =
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self.db.get(on_chain_key).map_or(0, |bytes| u32::from_le_bytes(bytes.try_into().unwrap()));
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let current_provided_key = self.current_provided_key();
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// This would have a race-condition with multiple calls to provide, though this takes &mut self
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// peventing multiple calls at once
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let mut txn = self.db.txn();
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txn.put(provided_key, tx.serialize());
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let this_provided_id = local_quantity;
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local_quantity += 1;
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txn.put(local_key, local_quantity.to_le_bytes());
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if this_provided_id < on_chain_quantity {
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// Verify against the on-chain version
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if tx_hash.as_ref() !=
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txn.get(Self::on_chain_provided_key(&self.genesis, order, this_provided_id)).unwrap()
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{
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Err(ProvidedError::LocalMismatchesOnChain)?;
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}
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txn.commit();
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} else {
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let mut currently_provided = txn.get(¤t_provided_key).unwrap_or(vec![]);
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currently_provided.extend(tx_hash);
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txn.put(current_provided_key, currently_provided);
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txn.commit();
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if !self.transactions.contains_key(order) {
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self.transactions.insert(order, VecDeque::new());
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}
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self.transactions.get_mut(order).unwrap().push_back(tx);
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}
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Ok(())
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}
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/// Complete a provided transaction, no longer proposing it nor voting for its validity.
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pub(crate) fn complete(
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&mut self,
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txn: &mut D::Transaction<'_>,
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order: &'static str,
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block: [u8; 32],
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tx: [u8; 32],
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) {
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if let Some(next_tx) = self.transactions.get_mut(order).and_then(VecDeque::pop_front) {
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assert_eq!(next_tx.hash(), tx);
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let current_provided_key = self.current_provided_key();
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let mut currently_provided = txn.get(¤t_provided_key).unwrap();
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// Find this TX's hash
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let mut i = 0;
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loop {
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if currently_provided[i .. (i + 32)] == tx {
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assert_eq!(¤tly_provided.drain(i .. (i + 32)).collect::<Vec<_>>(), &tx);
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break;
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}
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i += 32;
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if i >= currently_provided.len() {
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panic!("couldn't find completed TX in currently provided");
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}
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}
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txn.put(current_provided_key, currently_provided);
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}
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// bump the on-chain tx number.
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let on_chain_key = Self::on_chain_provided_quantity_key(&self.genesis, order);
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let block_order_key = Self::block_provided_quantity_key(&self.genesis, &block, order);
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let mut on_chain_quantity =
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self.db.get(&on_chain_key).map_or(0, |bytes| u32::from_le_bytes(bytes.try_into().unwrap()));
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let this_provided_id = on_chain_quantity;
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txn.put(Self::on_chain_provided_key(&self.genesis, order, this_provided_id), tx);
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on_chain_quantity += 1;
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txn.put(on_chain_key, on_chain_quantity.to_le_bytes());
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txn.put(block_order_key, on_chain_quantity.to_le_bytes());
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}
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}
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