use crate::{cancellation::CancelClosure, error::UserFacingError}; use futures::TryFutureExt; use std::{io, net::SocketAddr}; use thiserror::Error; use tokio::net::TcpStream; use tokio_postgres::NoTls; #[derive(Debug, Error)] pub enum ConnectionError { /// This error doesn't seem to reveal any secrets; for instance, /// [`tokio_postgres::error::Kind`] doesn't contain ip addresses and such. #[error("Failed to connect to the compute node: {0}")] Postgres(#[from] tokio_postgres::Error), #[error("Failed to connect to the compute node")] FailedToConnectToCompute, #[error("Failed to fetch compute node version")] FailedToFetchPgVersion, } impl UserFacingError for ConnectionError { fn to_string_client(&self) -> String { use ConnectionError::*; match self { // This helps us drop irrelevant library-specific prefixes. // TODO: propagate severity level and other parameters. Postgres(err) => match err.as_db_error() { Some(err) => err.message().to_string(), None => err.to_string(), }, other => other.to_string(), } } } /// A pair of `ClientKey` & `ServerKey` for `SCRAM-SHA-256`. pub type ScramKeys = tokio_postgres::config::ScramKeys<32>; pub type ComputeConnCfg = tokio_postgres::Config; /// Various compute node info for establishing connection etc. pub struct NodeInfo { /// Did we send [`utils::pq_proto::BeMessage::AuthenticationOk`]? pub reported_auth_ok: bool, /// Compute node connection params. pub config: tokio_postgres::Config, } impl NodeInfo { async fn connect_raw(&self) -> io::Result<(SocketAddr, TcpStream)> { use tokio_postgres::config::Host; let connect_once = |host, port| { TcpStream::connect((host, port)).and_then(|socket| async { let socket_addr = socket.peer_addr()?; // This prevents load balancer from severing the connection. socket2::SockRef::from(&socket).set_keepalive(true)?; Ok((socket_addr, socket)) }) }; // We can't reuse connection establishing logic from `tokio_postgres` here, // because it has no means for extracting the underlying socket which we // require for our business. let mut connection_error = None; let ports = self.config.get_ports(); let hosts = self.config.get_hosts(); // the ports array is supposed to have 0 entries, 1 entry, or as many entries as in the hosts array if ports.len() > 1 && ports.len() != hosts.len() { return Err(io::Error::new( io::ErrorKind::Other, format!("couldn't connect: bad compute config, ports and hosts entries' count does not match: {:?}", self.config), )); } for (i, host) in hosts.iter().enumerate() { let port = ports.get(i).or_else(|| ports.first()).unwrap_or(&5432); let host = match host { Host::Tcp(host) => host.as_str(), Host::Unix(_) => continue, // unix sockets are not welcome here }; // TODO: maybe we should add a timeout. match connect_once(host, *port).await { Ok(socket) => return Ok(socket), Err(err) => { // We can't throw an error here, as there might be more hosts to try. println!("failed to connect to compute `{host}:{port}`: {err}"); connection_error = Some(err); } } } Err(connection_error.unwrap_or_else(|| { io::Error::new( io::ErrorKind::Other, format!("couldn't connect: bad compute config: {:?}", self.config), ) })) } } pub struct PostgresConnection { /// Socket connected to a compute node. pub stream: TcpStream, /// PostgreSQL version of this instance. pub version: String, } impl NodeInfo { /// Connect to a corresponding compute node. pub async fn connect(&self) -> Result<(PostgresConnection, CancelClosure), ConnectionError> { let (socket_addr, mut stream) = self .connect_raw() .await .map_err(|_| ConnectionError::FailedToConnectToCompute)?; // TODO: establish a secure connection to the DB let (client, conn) = self.config.connect_raw(&mut stream, NoTls).await?; let version = conn .parameter("server_version") .ok_or(ConnectionError::FailedToFetchPgVersion)? .into(); let cancel_closure = CancelClosure::new(socket_addr, client.cancel_token()); let db = PostgresConnection { stream, version }; Ok((db, cancel_closure)) } }