use std::convert::TryInto; use std::io; use std::net::SocketAddr; use std::sync::Arc; use std::time::Duration; use async_trait::async_trait; use tokio::net::TcpStream; #[cfg(feature = "tokio-rustls")] use tokio_rustls::client::TlsStream; #[cfg(feature = "tokio-rustls")] use tokio_rustls::rustls::{ClientConfig, OwnedTrustAnchor, RootCertStore, ServerName}; #[cfg(feature = "tokio-rustls")] use tokio_rustls::TlsConnector; use tracing::info; use crate::common::{Certificate, NoExtension, PrivateKey}; pub use crate::connection::Connector; use crate::connection::{self, EppConnection}; use crate::error::Error; use crate::hello::{Greeting, GreetingDocument, HelloDocument}; use crate::request::{Command, Extension, Transaction}; use crate::response::Response; use crate::xml::EppXml; /// An `EppClient` provides an interface to sending EPP requests to a registry /// /// Once initialized, the EppClient instance can serialize EPP requests to XML and send them /// to the registry and deserialize the XML responses from the registry to local types. /// /// # Examples /// /// ```no_run /// # use std::collections::HashMap; /// # use std::net::ToSocketAddrs; /// # use std::time::Duration; /// # /// use epp_client::EppClient; /// use epp_client::domain::DomainCheck; /// use epp_client::common::NoExtension; /// /// # #[tokio::main] /// # async fn main() { /// // Create an instance of EppClient /// let host = "example.com"; /// let addr = (host, 7000).to_socket_addrs().unwrap().next().unwrap(); /// let timeout = Duration::from_secs(5); /// let mut client = match EppClient::connect("registry_name".to_string(), addr, host, None, timeout).await { /// Ok(client) => client, /// Err(e) => panic!("Failed to create EppClient: {}", e) /// }; /// /// // Make a EPP Hello call to the registry /// let greeting = client.hello().await.unwrap(); /// println!("{:?}", greeting); /// /// // Execute an EPP Command against the registry with distinct request and response objects /// let domain_check = DomainCheck { domains: &["eppdev.com", "eppdev.net"] }; /// let response = client.transact(&domain_check, "transaction-id").await.unwrap(); /// response.res_data.unwrap().list /// .iter() /// .for_each(|chk| println!("Domain: {}, Available: {}", chk.id, chk.available)); /// # } /// ``` /// /// The output would look like this: /// /// ```text /// Domain: eppdev.com, Available: 1 /// Domain: eppdev.net, Available: 1 /// ``` pub struct EppClient { connection: EppConnection, } #[cfg(feature = "tokio-rustls")] impl EppClient { /// Connect to the specified `addr` and `hostname` over TLS /// /// The `registry` is used as a name in internal logging; `addr` provides the address to /// connect to, `hostname` is sent as the TLS server name indication and `identity` provides /// optional TLS client authentication (using) rustls as the TLS implementation. /// The `timeout` limits the time spent on any underlying network operations. /// /// Alternatively, use `EppClient::new()` with any established `AsyncRead + AsyncWrite + Unpin` /// implementation. pub async fn connect( registry: String, addr: SocketAddr, hostname: &str, identity: Option<(Vec, PrivateKey)>, timeout: Duration, ) -> Result { info!("Connecting to server: {:?}", addr); let connector = RustlsConnector::new(addr, hostname, identity)?; Self::new(connector, registry, timeout).await } } impl EppClient { /// Create an `EppClient` from an already established connection pub async fn new(connector: C, registry: String, timeout: Duration) -> Result { Ok(Self { connection: EppConnection::new(connector, registry, timeout).await?, }) } /// Executes an EPP Hello call and returns the response as an `Greeting` pub async fn hello(&mut self) -> Result { let hello_xml = HelloDocument::default().serialize()?; let response = self.connection.transact(&hello_xml).await?; Ok(GreetingDocument::deserialize(&response)?.data) } pub async fn transact<'c, 'e, Cmd, Ext>( &mut self, data: impl Into>, id: &str, ) -> Result, Error> where Cmd: Transaction + Command + 'c, Ext: Extension + 'e, { let data = data.into(); let epp_xml = >::serialize_request(data.command, data.extension, id)?; let response = self.connection.transact(&epp_xml).await?; Cmd::deserialize_response(&response) } /// Accepts raw EPP XML and returns the raw EPP XML response to it. /// Not recommended for direct use but sometimes can be useful for debugging pub async fn transact_xml(&mut self, xml: &str) -> Result { self.connection.transact(xml).await } /// Returns the greeting received on establishment of the connection in raw xml form pub fn xml_greeting(&self) -> String { String::from(&self.connection.greeting) } /// Returns the greeting received on establishment of the connection as an `Greeting` pub fn greeting(&self) -> Result { GreetingDocument::deserialize(&self.connection.greeting).map(|obj| obj.data) } pub async fn shutdown(mut self) -> Result<(), Error> { self.connection.shutdown().await } } pub struct RequestData<'c, 'e, C, E> { command: &'c C, extension: Option<&'e E>, } impl<'c, C: Command> From<&'c C> for RequestData<'c, 'static, C, NoExtension> { fn from(command: &'c C) -> Self { Self { command, extension: None, } } } impl<'c, 'e, C: Command, E: Extension> From<(&'c C, &'e E)> for RequestData<'c, 'e, C, E> { fn from((command, extension): (&'c C, &'e E)) -> Self { Self { command, extension: Some(extension), } } } #[cfg(feature = "tokio-rustls")] pub struct RustlsConnector { inner: TlsConnector, domain: ServerName, addr: SocketAddr, } impl RustlsConnector { pub fn new( addr: SocketAddr, hostname: &str, identity: Option<(Vec, PrivateKey)>, ) -> Result { let mut roots = RootCertStore::empty(); roots.add_server_trust_anchors(webpki_roots::TLS_SERVER_ROOTS.0.iter().map(|ta| { OwnedTrustAnchor::from_subject_spki_name_constraints( ta.subject, ta.spki, ta.name_constraints, ) })); let builder = ClientConfig::builder() .with_safe_defaults() .with_root_certificates(roots); let config = match identity { Some((certs, key)) => { let certs = certs .into_iter() .map(|cert| tokio_rustls::rustls::Certificate(cert.0)) .collect(); builder .with_single_cert(certs, tokio_rustls::rustls::PrivateKey(key.0)) .map_err(|e| Error::Other(e.into()))? } None => builder.with_no_client_auth(), }; let domain = hostname.try_into().map_err(|_| { io::Error::new( io::ErrorKind::InvalidInput, format!("Invalid domain: {}", hostname), ) })?; Ok(Self { inner: TlsConnector::from(Arc::new(config)), domain, addr, }) } } #[cfg(feature = "tokio-rustls")] #[async_trait] impl Connector for RustlsConnector { type Connection = TlsStream; async fn connect(&self, timeout: Duration) -> Result { let stream = TcpStream::connect(&self.addr).await?; let future = self.inner.connect(self.domain.clone(), stream); connection::timeout(timeout, future).await } }