use { crate::{quic_client::QuicTpuConnection, udp_client::UdpTpuConnection}, enum_dispatch::enum_dispatch, rayon::iter::{IntoParallelIterator, ParallelIterator}, solana_metrics::MovingStat, solana_sdk::{transaction::VersionedTransaction, transport::Result as TransportResult}, std::{net::SocketAddr, sync::atomic::AtomicU64}, }; #[derive(Default)] pub struct ClientStats { pub total_connections: AtomicU64, pub connection_reuse: AtomicU64, pub connection_errors: AtomicU64, pub zero_rtt_accepts: AtomicU64, pub zero_rtt_rejects: AtomicU64, // these will be the last values of these stats pub congestion_events: MovingStat, pub tx_streams_blocked_uni: MovingStat, pub tx_data_blocked: MovingStat, pub tx_acks: MovingStat, pub make_connection_ms: AtomicU64, pub send_timeout: AtomicU64, } #[enum_dispatch] pub enum BlockingConnection { UdpTpuConnection, QuicTpuConnection, } #[enum_dispatch(BlockingConnection)] pub trait TpuConnection { fn tpu_addr(&self) -> &SocketAddr; fn serialize_and_send_transaction( &self, transaction: &VersionedTransaction, ) -> TransportResult<()> { let wire_transaction = bincode::serialize(transaction).expect("serialize Transaction in send_batch"); self.send_wire_transaction(wire_transaction) } fn send_wire_transaction(&self, wire_transaction: T) -> TransportResult<()> where T: AsRef<[u8]> + Send + Sync, { self.send_wire_transaction_batch(&[wire_transaction]) } fn send_wire_transaction_async(&self, wire_transaction: Vec) -> TransportResult<()>; fn par_serialize_and_send_transaction_batch( &self, transactions: &[VersionedTransaction], ) -> TransportResult<()> { let buffers = transactions .into_par_iter() .map(|tx| bincode::serialize(&tx).expect("serialize Transaction in send_batch")) .collect::>(); self.send_wire_transaction_batch(&buffers) } fn send_wire_transaction_batch(&self, buffers: &[T]) -> TransportResult<()> where T: AsRef<[u8]> + Send + Sync; fn send_wire_transaction_batch_async(&self, buffers: Vec>) -> TransportResult<()>; }