use futures::executor::block_on; use std::{error::Error, fmt::Debug}; // use std::time::SystemTime; use std::sync::mpsc; // use std::sync::Arc; use crate::config::CONFIG; use crate::connection::registry::{epp_connect, EppConnection}; use crate::error; use crate::epp::request::{generate_client_tr_id, EppHello, EppLogin, EppLogout}; use crate::epp::response::{EppGreeting, EppCommandResponseStatus, EppCommandResponse, EppCommandResponseError}; use crate::epp::xml::EppXml; async fn connect(registry: &'static str) -> Result> { let registry_creds = match CONFIG.registry(registry) { Some(creds) => creds, None => return Err(format!("missing credentials for {}", registry).into()) }; let (tx, rx) = mpsc::channel(); tokio::spawn(async move { let stream = epp_connect(®istry_creds).await.unwrap(); let credentials = registry_creds.credentials(); let connection = EppConnection::new( registry.to_string(), stream ).await.unwrap(); let client = EppClient::build(connection, credentials).await.unwrap(); tx.send(client).unwrap(); }); let client = rx.recv()?; Ok(client) } pub struct EppClient { credentials: (String, String), connection: EppConnection, // pub client_tr_id_fn: Arc String + Send + Sync>, } // fn default_client_tr_id_fn(client: &EppClient) -> String { // let timestamp = match SystemTime::now().duration_since(SystemTime::UNIX_EPOCH) { // Ok(time) => time, // Err(e) => panic!("Error in client TRID gen function: {}", e) // }; // format!("{}:{}", &client.username(), timestamp.as_secs()) // } impl EppClient { pub fn username(&self) -> String { self.credentials.0.to_string() } // pub fn set_client_tr_id_fn(&mut self, func: F) // where F: Fn(&EppClient) -> String + Send + Sync + 'static { // self.client_tr_id_fn = Arc::new(func); // } pub async fn new(registry: &'static str) -> Result> { connect(registry).await } async fn build(connection: EppConnection, credentials: (String, String)) -> Result> { let mut client = EppClient { connection: connection, credentials: credentials, // client_tr_id_fn: Arc::new(default_client_tr_id_fn), }; let client_tr_id = generate_client_tr_id(&client.credentials.0)?; let login_request = EppLogin::new(&client.credentials.0, &client.credentials.1, client_tr_id.as_str()); client.transact::<_, EppCommandResponse>(&login_request).await?; Ok(client) } pub async fn hello(&mut self) -> Result> { let hello = EppHello::new(); let hello_xml = hello.serialize()?; let response = self.connection.transact(&hello_xml).await?; println!("hello response: {}", response); Ok(EppGreeting::deserialize(&response)?) } pub async fn transact(&mut self, request: &T) -> Result { let epp_xml = request.serialize()?; println!("Request:\r\n{}", epp_xml); let response = self.connection.transact(&epp_xml).await?; println!("Response:\r\n{}", response); let status = EppCommandResponseStatus::deserialize(&response)?; if status.data.result.code < 2000 { let response = E::deserialize(&response)?; println!("Response:\r\n{:?}", response); Ok(response) } else { let epp_error = EppCommandResponseError::deserialize(&response)?; Err(error::Error::EppCommandError(epp_error)) } } pub async fn transact_xml(&mut self, xml: &str) -> Result> { self.connection.transact(&xml).await } pub fn xml_greeting(&self) -> String { return String::from(&self.connection.greeting) } pub fn greeting(&self) -> Result> { Ok(EppGreeting::deserialize(&self.connection.greeting)?) } pub async fn logout(&mut self) { let client_tr_id = generate_client_tr_id(&self.credentials.0).unwrap(); let epp_logout = EppLogout::new(client_tr_id.as_str()); self.transact::<_, EppCommandResponse>(&epp_logout).await; } } impl Drop for EppClient { fn drop(&mut self) { block_on(self.logout()); } }