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use crossbeam_channel::{Receiver, RecvTimeoutError, Sender}; use solana_ledger::blockstore::Blockstore; use solana_measure::measure::Measure; use solana_runtime::bank::Bank; use std::{ sync::{ atomic::{AtomicBool, Ordering}, Arc, }, thread::{self, Builder, JoinHandle}, time::Duration, }; pub type CacheBlockTimeReceiver = Receiver<Arc<Bank>>; pub type CacheBlockTimeSender = Sender<Arc<Bank>>; pub struct CacheBlockTimeService { thread_hdl: JoinHandle<()>, } const CACHE_BLOCK_TIME_WARNING_MS: u64 = 150; impl CacheBlockTimeService { #[allow(clippy::new_ret_no_self)] pub fn new( cache_block_time_receiver: CacheBlockTimeReceiver, blockstore: Arc<Blockstore>, exit: &Arc<AtomicBool>, ) -> Self { let exit = exit.clone(); let thread_hdl = Builder::new() .name("solana-cache-block-time".to_string()) .spawn(move || loop { if exit.load(Ordering::Relaxed) { break; } let recv_result = cache_block_time_receiver.recv_timeout(Duration::from_secs(1)); match recv_result { Err(RecvTimeoutError::Disconnected) => { break; } Ok(bank) => { let mut cache_block_time_timer = Measure::start("cache_block_time_timer"); Self::cache_block_time(bank, &blockstore); cache_block_time_timer.stop(); if cache_block_time_timer.as_ms() > CACHE_BLOCK_TIME_WARNING_MS { warn!( "cache_block_time operation took: {}ms", cache_block_time_timer.as_ms() ); } } _ => {} } }) .unwrap(); Self { thread_hdl } } fn cache_block_time(bank: Arc<Bank>, blockstore: &Arc<Blockstore>) { if let Err(e) = blockstore.cache_block_time(bank.slot(), bank.clock().unix_timestamp) { error!("cache_block_time failed: slot {:?} {:?}", bank.slot(), e); } } pub fn join(self) -> thread::Result<()> { self.thread_hdl.join() } }