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panorama/imap/src/client/mod.rs
Michael Zhang 3f726f3129
osudebug
2021-03-02 16:47:33 -06:00

200 lines
6.4 KiB
Rust
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//! IMAP Client
//! ===
//!
//! The IMAP client in this module is implemented as a state machine in the type system: methods
//! that are not supported in a particular state (ex. fetch in an unauthenticated state) cannot be
//! expressed in the type system entirely.
//!
//! Because there's many client types for the different types of clients, you'll want to start
//! here:
//!
//! - [`ClientBuilder`][self::ClientBuilder] : Constructs the config for the IMAP client
//!
//! If you choose not to use the high-level type-safe features of `ClientBuilder`, then you can
//! also choose to access the lower level [`Client`][self::inner::Client] directly.
//!
//! Example
//! ---
//!
//! The following example connects to `mywebsite.com:143` using STARTTLS.
//!
//! ```no_run
//! # use anyhow::Result;
//! # use panorama_imap::client::ClientConfigBuilder;
//! # async fn test() -> Result<()> {
//! let config = ClientConfigBuilder::default()
//! .hostname("mywebsite.com".to_owned())
//! .port(143)
//! .tls(false)
//! .build().unwrap();
//! let insecure = config.open().await?;
//! let unauth = insecure.upgrade().await?;
//! # Ok(())
//! # }
//! ```
pub mod auth;
mod inner;
use std::sync::Arc;
use anyhow::Result;
use tokio::net::TcpStream;
use tokio_rustls::{
client::TlsStream, rustls::ClientConfig as RustlsConfig, webpki::DNSNameRef, TlsConnector,
};
use tokio_stream::wrappers::UnboundedReceiverStream;
use crate::command::Command;
use crate::response::Response;
pub use self::inner::{Client, ResponseFuture, ResponseStream};
/// Struct used to start building the config for a client.
///
/// Call [`.build`][1] to _build_ the config, then run [`.open`][2] to actually start opening
/// the connection to the server.
///
/// [1]: self::ClientConfigBuilder::build
/// [2]: self::ClientConfig::open
pub type ClientBuilder = ClientConfigBuilder;
/// An IMAP client that hasn't been connected yet.
#[derive(Builder, Clone, Debug)]
pub struct ClientConfig {
/// The hostname of the IMAP server. If using TLS, must be an address
hostname: String,
/// The port of the IMAP server.
port: u16,
/// Whether or not the client is using an encrypted stream.
///
/// To upgrade the connection later, use the upgrade method.
tls: bool,
}
impl ClientConfig {
pub async fn open(self) -> Result<ClientUnauthenticated> {
let hostname = self.hostname.as_ref();
let port = self.port;
let conn = TcpStream::connect((hostname, port)).await?;
if self.tls {
let mut tls_config = RustlsConfig::new();
tls_config
.root_store
.add_server_trust_anchors(&webpki_roots::TLS_SERVER_ROOTS);
let tls_config = TlsConnector::from(Arc::new(tls_config));
let dnsname = DNSNameRef::try_from_ascii_str(hostname).unwrap();
let conn = tls_config.connect(dnsname, conn).await?;
let inner = Client::new(conn, self);
inner.wait_for_greeting().await;
return Ok(ClientUnauthenticated::Encrypted(inner));
} else {
let inner = Client::new(conn, self);
inner.wait_for_greeting().await;
return Ok(ClientUnauthenticated::Unencrypted(inner));
}
}
}
pub enum ClientUnauthenticated {
Encrypted(Client<TlsStream<TcpStream>>),
Unencrypted(Client<TcpStream>),
}
impl ClientUnauthenticated {
pub async fn upgrade(self) -> Result<ClientUnauthenticated> {
match self {
// this is a no-op, we don't need to upgrade
ClientUnauthenticated::Encrypted(_) => Ok(self),
ClientUnauthenticated::Unencrypted(e) => {
Ok(ClientUnauthenticated::Encrypted(e.upgrade().await?))
}
}
}
/// Exposing low-level execute
async fn execute(&mut self, cmd: Command) -> Result<(ResponseFuture, ResponseStream)> {
match self {
ClientUnauthenticated::Encrypted(e) => e.execute(cmd).await,
ClientUnauthenticated::Unencrypted(e) => e.execute(cmd).await,
}
}
/// Checks if the server that the client is talking to has support for the given capability.
pub async fn has_capability(&mut self, cap: impl AsRef<str>) -> Result<bool> {
match self {
ClientUnauthenticated::Encrypted(e) => e.has_capability(cap).await,
ClientUnauthenticated::Unencrypted(e) => e.has_capability(cap).await,
}
}
}
pub enum ClientAuthenticated {
Encrypted(Client<TlsStream<TcpStream>>),
Unencrypted(Client<TcpStream>),
}
impl ClientAuthenticated {
/// Exposing low-level execute
async fn execute(&mut self, cmd: Command) -> Result<(ResponseFuture, ResponseStream)> {
match self {
ClientAuthenticated::Encrypted(e) => e.execute(cmd).await,
ClientAuthenticated::Unencrypted(e) => e.execute(cmd).await,
}
}
/// Runs the LIST command
pub async fn list(&mut self) -> Result<Vec<String>> {
let cmd = Command::List {
reference: "".to_owned(),
mailbox: "*".to_owned(),
};
let (mut resp, mut st) = self.execute(cmd).await?;
todo!()
// let mut folders = Vec::new();
// loop {
// let st_next = st.recv();
// pin_mut!(st_next);
// match future::select(resp, st_next).await {
// Either::Left((v, _)) => {
// break;
// }
// Either::Right((v, _) ) => {
// debug!("RESP: {:?}", v);
// // folders.push(v);
// }
// }
// }
// let resp = resp.await?;
// debug!("list response: {:?}", resp);
}
/// Runs the SELECT command
pub async fn select(&mut self, mailbox: impl AsRef<str>) -> Result<()> {
let cmd = Command::Select {
mailbox: mailbox.as_ref().to_owned(),
};
let (resp, mut st) = self.execute(cmd).await?;
debug!("execute called returned...");
debug!("ST: {:?}", st.recv().await);
let resp = resp.await?;
debug!("select response: {:?}", resp);
Ok(())
}
/// Runs the SELECT command
#[cfg(feature = "rfc2177-idle")]
pub async fn idle(&mut self) -> Result<UnboundedReceiverStream<Response>> {
let cmd = Command::Idle;
let (_, stream) = self.execute(cmd).await?;
Ok(UnboundedReceiverStream::new(stream))
}
}
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