321 lines
12 KiB
Rust
321 lines
12 KiB
Rust
use {
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super::{
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transaction_priority_id::TransactionPriorityId,
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transaction_state::{SanitizedTransactionTTL, TransactionState},
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},
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crate::banking_stage::scheduler_messages::TransactionId,
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min_max_heap::MinMaxHeap,
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solana_runtime::transaction_priority_details::TransactionPriorityDetails,
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std::collections::HashMap,
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};
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/// This structure will hold `TransactionState` for the entirety of a
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/// transaction's lifetime in the scheduler and BankingStage as a whole.
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///
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/// Transaction Lifetime:
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/// 1. Received from `SigVerify` by `BankingStage`
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/// 2. Inserted into `TransactionStateContainer` by `BankingStage`
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/// 3. Popped in priority-order by scheduler, and transitioned to `Pending` state
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/// 4. Processed by `ConsumeWorker`
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/// a. If consumed, remove `Pending` state from the `TransactionStateContainer`
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/// b. If retryable, transition back to `Unprocessed` state.
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/// Re-insert to the queue, and return to step 3.
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///
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/// The structure is composed of two main components:
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/// 1. A priority queue of wrapped `TransactionId`s, which are used to
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/// order transactions by priority for selection by the scheduler.
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/// 2. A map of `TransactionId` to `TransactionState`, which is used to
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/// track the state of each transaction.
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///
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/// When `Pending`, the associated `TransactionId` is not in the queue, but
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/// is still in the map.
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/// The entry in the map should exist before insertion into the queue, and be
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/// be removed only after the id is removed from the queue.
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///
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/// The container maintains a fixed capacity. If the queue is full when pushing
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/// a new transaction, the lowest priority transaction will be dropped.
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pub(crate) struct TransactionStateContainer {
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priority_queue: MinMaxHeap<TransactionPriorityId>,
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id_to_transaction_state: HashMap<TransactionId, TransactionState>,
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}
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impl TransactionStateContainer {
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pub(crate) fn with_capacity(capacity: usize) -> Self {
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Self {
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priority_queue: MinMaxHeap::with_capacity(capacity),
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id_to_transaction_state: HashMap::with_capacity(capacity),
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}
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}
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/// Returns true if the queue is empty.
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pub(crate) fn is_empty(&self) -> bool {
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self.priority_queue.is_empty()
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}
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/// Returns the remaining capacity of the queue
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pub(crate) fn remaining_queue_capacity(&self) -> usize {
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self.priority_queue.capacity() - self.priority_queue.len()
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}
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/// Get the top transaction id in the priority queue.
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pub(crate) fn pop(&mut self) -> Option<TransactionPriorityId> {
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self.priority_queue.pop_max()
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}
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/// Get an iterator of the top `n` transaction ids in the priority queue.
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/// This will remove the ids from the queue, but not drain the remainder
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/// of the queue.
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pub(crate) fn take_top_n(
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&mut self,
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n: usize,
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) -> impl Iterator<Item = TransactionPriorityId> + '_ {
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(0..n).map_while(|_| self.pop())
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}
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/// Serialize entire priority queue. `hold` indicates whether the priority queue should
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/// be drained or not.
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/// If `hold` is true, these ids should not be removed from the map while processing.
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pub(crate) fn priority_ordered_ids(&mut self, hold: bool) -> Vec<TransactionPriorityId> {
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let priority_queue = if hold {
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self.priority_queue.clone()
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} else {
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let capacity = self.priority_queue.capacity();
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core::mem::replace(
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&mut self.priority_queue,
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MinMaxHeap::with_capacity(capacity),
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)
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};
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priority_queue.into_vec_desc()
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}
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/// Get mutable transaction state by id.
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pub(crate) fn get_mut_transaction_state(
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&mut self,
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id: &TransactionId,
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) -> Option<&mut TransactionState> {
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self.id_to_transaction_state.get_mut(id)
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}
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/// Get reference to `SanitizedTransactionTTL` by id.
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/// Panics if the transaction does not exist.
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pub(crate) fn get_transaction_ttl(
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&self,
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id: &TransactionId,
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) -> Option<&SanitizedTransactionTTL> {
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self.id_to_transaction_state
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.get(id)
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.map(|state| state.transaction_ttl())
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}
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/// Take `SanitizedTransactionTTL` by id.
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/// This transitions the transaction to `Pending` state.
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/// Panics if the transaction does not exist.
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pub(crate) fn take_transaction(&mut self, id: &TransactionId) -> SanitizedTransactionTTL {
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self.id_to_transaction_state
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.get_mut(id)
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.expect("transaction must exist")
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.transition_to_pending()
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}
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/// Insert a new transaction into the container's queues and maps.
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/// Returns `true` if a packet was dropped due to capacity limits.
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pub(crate) fn insert_new_transaction(
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&mut self,
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transaction_id: TransactionId,
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transaction_ttl: SanitizedTransactionTTL,
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transaction_priority_details: TransactionPriorityDetails,
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) -> bool {
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let priority_id =
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TransactionPriorityId::new(transaction_priority_details.priority, transaction_id);
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self.id_to_transaction_state.insert(
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transaction_id,
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TransactionState::new(transaction_ttl, transaction_priority_details),
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);
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self.push_id_into_queue(priority_id)
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}
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/// Retries a transaction - inserts transaction back into map (but not packet).
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/// This transitions the transaction to `Unprocessed` state.
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pub(crate) fn retry_transaction(
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&mut self,
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transaction_id: TransactionId,
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transaction_ttl: SanitizedTransactionTTL,
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) {
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let transaction_state = self
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.get_mut_transaction_state(&transaction_id)
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.expect("transaction must exist");
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let priority_id = TransactionPriorityId::new(transaction_state.priority(), transaction_id);
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transaction_state.transition_to_unprocessed(transaction_ttl);
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self.push_id_into_queue(priority_id);
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}
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/// Pushes a transaction id into the priority queue. If the queue is full, the lowest priority
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/// transaction will be dropped (removed from the queue and map).
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/// Returns `true` if a packet was dropped due to capacity limits.
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pub(crate) fn push_id_into_queue(&mut self, priority_id: TransactionPriorityId) -> bool {
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if self.remaining_queue_capacity() == 0 {
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let popped_id = self.priority_queue.push_pop_min(priority_id);
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self.remove_by_id(&popped_id.id);
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true
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} else {
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self.priority_queue.push(priority_id);
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false
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}
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}
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/// Remove transaction by id.
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pub(crate) fn remove_by_id(&mut self, id: &TransactionId) {
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self.id_to_transaction_state
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.remove(id)
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.expect("transaction must exist");
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}
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}
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#[cfg(test)]
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mod tests {
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use {
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super::*,
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solana_sdk::{
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compute_budget::ComputeBudgetInstruction,
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hash::Hash,
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message::Message,
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signature::Keypair,
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signer::Signer,
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slot_history::Slot,
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system_instruction,
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transaction::{SanitizedTransaction, Transaction},
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},
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};
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fn test_transaction(priority: u64) -> (SanitizedTransactionTTL, TransactionPriorityDetails) {
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let from_keypair = Keypair::new();
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let ixs = vec![
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system_instruction::transfer(
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&from_keypair.pubkey(),
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&solana_sdk::pubkey::new_rand(),
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1,
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),
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ComputeBudgetInstruction::set_compute_unit_price(priority),
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];
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let message = Message::new(&ixs, Some(&from_keypair.pubkey()));
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let tx = Transaction::new(&[&from_keypair], message, Hash::default());
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let transaction_ttl = SanitizedTransactionTTL {
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transaction: SanitizedTransaction::from_transaction_for_tests(tx),
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max_age_slot: Slot::MAX,
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};
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(
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transaction_ttl,
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TransactionPriorityDetails {
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priority,
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compute_unit_limit: 0,
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},
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)
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}
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fn push_to_container(container: &mut TransactionStateContainer, num: usize) {
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for id in 0..num as u64 {
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let priority = id;
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let (transaction_ttl, transaction_priority_details) = test_transaction(priority);
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container.insert_new_transaction(
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TransactionId::new(id),
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transaction_ttl,
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transaction_priority_details,
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);
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}
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}
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#[test]
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fn test_is_empty() {
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let mut container = TransactionStateContainer::with_capacity(1);
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assert!(container.is_empty());
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push_to_container(&mut container, 1);
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assert!(!container.is_empty());
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}
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#[test]
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fn test_priority_queue_capacity() {
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let mut container = TransactionStateContainer::with_capacity(1);
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push_to_container(&mut container, 5);
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assert_eq!(container.priority_queue.len(), 1);
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assert_eq!(container.id_to_transaction_state.len(), 1);
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assert_eq!(
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container
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.id_to_transaction_state
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.iter()
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.map(|ts| ts.1.priority())
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.next()
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.unwrap(),
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4
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);
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}
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#[test]
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fn test_take_top_n() {
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let mut container = TransactionStateContainer::with_capacity(5);
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push_to_container(&mut container, 5);
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let taken = container.take_top_n(3).collect::<Vec<_>>();
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assert_eq!(
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taken,
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vec![
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TransactionPriorityId::new(4, TransactionId::new(4)),
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TransactionPriorityId::new(3, TransactionId::new(3)),
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TransactionPriorityId::new(2, TransactionId::new(2)),
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]
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);
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// The remainder of the queue should not be empty
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assert_eq!(container.priority_queue.len(), 2);
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}
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#[test]
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fn test_priority_ordered_ids() {
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let mut container = TransactionStateContainer::with_capacity(5);
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push_to_container(&mut container, 5);
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let ordered = container.priority_ordered_ids(false);
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assert_eq!(
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ordered,
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vec![
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TransactionPriorityId::new(4, TransactionId::new(4)),
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TransactionPriorityId::new(3, TransactionId::new(3)),
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TransactionPriorityId::new(2, TransactionId::new(2)),
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TransactionPriorityId::new(1, TransactionId::new(1)),
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TransactionPriorityId::new(0, TransactionId::new(0)),
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]
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);
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assert!(container.priority_queue.is_empty());
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push_to_container(&mut container, 5);
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let ordered = container.priority_ordered_ids(true);
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assert_eq!(
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ordered,
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vec![
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TransactionPriorityId::new(4, TransactionId::new(4)),
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TransactionPriorityId::new(3, TransactionId::new(3)),
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TransactionPriorityId::new(2, TransactionId::new(2)),
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TransactionPriorityId::new(1, TransactionId::new(1)),
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TransactionPriorityId::new(0, TransactionId::new(0)),
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]
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);
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assert_eq!(container.priority_queue.len(), 5);
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}
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#[test]
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fn test_get_mut_transaction_state() {
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let mut container = TransactionStateContainer::with_capacity(5);
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push_to_container(&mut container, 5);
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let existing_id = TransactionId::new(3);
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let non_existing_id = TransactionId::new(7);
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assert!(container.get_mut_transaction_state(&existing_id).is_some());
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assert!(container.get_mut_transaction_state(&existing_id).is_some());
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assert!(container
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.get_mut_transaction_state(&non_existing_id)
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.is_none());
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}
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}
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