use anyhow::Error;
use boitalettres::errors::Error as BalError;
use boitalettres::proto::{Request, Response};
use futures::future::BoxFuture;
use futures::future::FutureExt;
use imap_codec::types::response::{Response as ImapRes, Status};
use tokio::sync::mpsc::error::TrySendError;
use tokio::sync::{mpsc, oneshot};
use crate::imap::command::{anonymous, authenticated, selected};
use crate::imap::flow;
use crate::login::ArcLoginProvider;
/* This constant configures backpressure in the system,
* or more specifically, how many pipelined messages are allowed
* before refusing them
*/
const MAX_PIPELINED_COMMANDS: usize = 10;
struct Message {
req: Request,
tx: oneshot::Sender<Result<Response, BalError>>,
}
//-----
pub struct Manager {
tx: mpsc::Sender<Message>,
}
impl Manager {
pub fn new(login_provider: ArcLoginProvider) -> Self {
let (tx, rx) = mpsc::channel(MAX_PIPELINED_COMMANDS);
tokio::spawn(async move {
let mut instance = Instance::new(login_provider, rx);
instance.start().await;
});
Self { tx }
}
pub fn process(&self, req: Request) -> BoxFuture<'static, Result<Response, BalError>> {
let (tx, rx) = oneshot::channel();
let msg = Message { req, tx };
// We use try_send on a bounded channel to protect the daemons from DoS.
// Pipelining requests in IMAP are a special case: they should not occure often
// and in a limited number (like 3 requests). Someone filling the channel
// will probably be malicious so we "rate limit" them.
match self.tx.try_send(msg) {
Ok(()) => (),
Err(TrySendError::Full(_)) => {
return async { Response::bad("Too fast! Send less pipelined requests.") }.boxed()
}
Err(TrySendError::Closed(_)) => {
return async { Response::bad("Session task has existed.") }.boxed()
}
};
// @FIXME add a timeout, handle a session that fails.
async {
match rx.await {
Ok(r) => r,
Err(e) => {
tracing::warn!("Got error {:#?}", e);
Response::bad("No response from the session handler")
}
}
}
.boxed()
}
}
//-----
pub struct InnerContext<'a> {
pub req: &'a Request,
pub state: &'a flow::State,
pub login: &'a ArcLoginProvider,
}
pub struct Instance {
rx: mpsc::Receiver<Message>,
pub login_provider: ArcLoginProvider,
pub state: flow::State,
}
impl Instance {
fn new(login_provider: ArcLoginProvider, rx: mpsc::Receiver<Message>) -> Self {
Self {
login_provider,
rx,
state: flow::State::NotAuthenticated,
}
}
//@FIXME add a function that compute the runner's name from its local info
// to ease debug
// fn name(&self) -> String { }
async fn start(mut self) {
//@FIXME add more info about the runner
tracing::debug!("starting runner");
while let Some(msg) = self.rx.recv().await {
let ctx = InnerContext {
req: &msg.req,
state: &self.state,
login: &self.login_provider,
};
// Command behavior is modulated by the state.
// To prevent state error, we handle the same command in separate code paths.
let ctrl = match &self.state {
flow::State::NotAuthenticated => anonymous::dispatch(ctx).await,
flow::State::Authenticated(user) => authenticated::dispatch(ctx, user).await,
flow::State::Selected(user, mailbox) => {
selected::dispatch(ctx, user, mailbox).await
}
_ => Response::bad("No commands are allowed in the LOGOUT state.")
.map(|r| (r, flow::Transition::No))
.map_err(Error::msg),
};
// Process result
let res = match ctrl {
Ok((res, tr)) => {
//@FIXME remove unwrap
self.state = self.state.apply(tr).unwrap();
//@FIXME enrich here the command with some status
Ok(res)
}
// Cast from anyhow::Error to Bal::Error
// @FIXME proper error handling would be great
Err(e) => match e.downcast::<BalError>() {
Ok(be) => Err(be),
Err(e) => {
tracing::warn!(error=%e, "internal.error");
Response::bad("Internal error")
}
},
};
//@FIXME I think we should quit this thread on error and having our manager watch it,
// and then abort the session as it is corrupted.
msg.tx.send(res).unwrap_or_else(|e| {
tracing::warn!("failed to send imap response to manager: {:#?}", e)
});
}
//@FIXME add more info about the runner
tracing::debug!("exiting runner");
}
}