use std::sync::Arc; use std::time::Duration; use async_trait::async_trait; use tokio::select; use tokio::sync::watch; use garage_util::background::*; use garage_util::error::Error; use crate::replication::*; use crate::schema::*; use crate::table::*; const BATCH_SIZE: usize = 1024; pub(crate) struct InsertQueueWorker(pub(crate) Arc>) where F: TableSchema, R: TableReplication; #[async_trait] impl Worker for InsertQueueWorker { fn name(&self) -> String { format!("{} queue", F::TABLE_NAME) } fn status(&self) -> WorkerStatus { WorkerStatus { queue_length: Some(self.0.data.insert_queue.len().unwrap_or(0) as u64), ..Default::default() } } async fn work(&mut self, _must_exit: &mut watch::Receiver) -> Result { let mut kv_pairs = vec![]; let mut values = vec![]; for entry_kv in self.0.data.insert_queue.iter()? { let (k, v) = entry_kv?; values.push(self.0.data.decode_entry(&v)?); kv_pairs.push((k, v)); if kv_pairs.len() > BATCH_SIZE { break; } } if kv_pairs.is_empty() { return Ok(WorkerState::Idle); } self.0.insert_many(values).await?; self.0.data.insert_queue.db().transaction(|mut tx| { for (k, v) in kv_pairs.iter() { if let Some(v2) = tx.get(&self.0.data.insert_queue, k)? { if &v2 == v { tx.remove(&self.0.data.insert_queue, k)?; } } } Ok(()) })?; Ok(WorkerState::Busy) } async fn wait_for_work(&mut self) -> WorkerState { select! { _ = tokio::time::sleep(Duration::from_secs(600)) => (), _ = self.0.data.insert_queue_notify.notified() => (), } WorkerState::Busy } }