panorama/imap/src/client/inner.rs

use std::collections::{HashMap, HashSet, VecDeque};
use std::mem;
use std::pin::Pin;
use std::sync::Arc;
use std::task::{Context, Poll, Waker};

use anyhow::{Context as AnyhowContext, Error, Result};
use futures::{
    future::{self, BoxFuture, Either, Future, FutureExt, TryFutureExt},
    stream::{BoxStream, Stream, StreamExt, TryStream},
};
use genawaiter::{
    sync::{gen, Gen},
    yield_,
};
use parking_lot::{RwLock, RwLockWriteGuard};
use tokio::{
    io::{
        self, AsyncBufReadExt, AsyncRead, AsyncWrite, AsyncWriteExt, BufReader, ReadHalf, WriteHalf,
    },
    sync::{mpsc, oneshot},
    task::JoinHandle,
};
use tokio_rustls::{
    client::TlsStream, rustls::ClientConfig as RustlsConfig, webpki::DNSNameRef, TlsConnector,
};
use tokio_stream::wrappers::UnboundedReceiverStream;

use crate::command::Command;
use crate::parser::{parse_capability, parse_response};
use crate::response::{Capability, Response, ResponseCode, Status};

use super::ClientConfig;

pub type CapsLock = Arc<RwLock<Option<HashSet<Capability>>>>;
pub type ResponseFuture = Box<dyn Future<Output = Result<Response>> + Send + Unpin>;
pub type ResponseSender = mpsc::UnboundedSender<Response>;
pub type ResponseStream = mpsc::UnboundedReceiver<Response>;
type ResultQueue = Arc<RwLock<VecDeque<HandlerResult>>>;
pub type GreetingState = Arc<RwLock<(Option<Response>, Option<Waker>)>>;
pub const TAG_PREFIX: &str = "panorama";

struct HandlerResult {
    id: usize,
    end: Option<oneshot::Sender<Response>>,
    sender: ResponseSender,
    waker: Option<Waker>,
}

/// The lower-level Client struct, that is shared by all of the exported structs in the state machine.
pub struct Client<C> {
    config: ClientConfig,

    /// write half of the connection
    conn: WriteHalf<C>,

    /// counter for monotonically incrementing unique ids
    id: usize,

    results: ResultQueue,

    /// cached set of capabilities
    caps: CapsLock,

    /// join handle for the listener thread
    listener_handle: JoinHandle<Result<ReadHalf<C>>>,

    /// used for telling the listener thread to stop and return the read half
    exit_tx: mpsc::Sender<()>,

    /// used for receiving the greeting
    greeting: GreetingState,
}

impl<C> Client<C>
where
    C: AsyncRead + AsyncWrite + Unpin + Send + 'static,
{
    /// Creates a new client that wraps a connection
    pub fn new(conn: C, config: ClientConfig) -> Self {
        let (read_half, write_half) = io::split(conn);
        let results = Arc::new(RwLock::new(VecDeque::new()));
        let (exit_tx, exit_rx) = mpsc::channel(1);
        let greeting = Arc::new(RwLock::new((None, None)));
        let caps: CapsLock = Arc::new(RwLock::new(None));

        let listener_handle = tokio::spawn(listen(
            read_half,
            caps.clone(),
            results.clone(),
            exit_rx,
            greeting.clone(),
        ));

        Client {
            config,
            conn: write_half,
            id: 0,
            results,
            listener_handle,
            caps,
            exit_tx,
            greeting,
        }
    }

    /// Returns a future that doesn't resolve until we receive a greeting from the server.
    pub fn wait_for_greeting(&self) -> GreetingWaiter {
        debug!("waiting for greeting");
        GreetingWaiter(self.greeting.clone())
    }

    /// Sends a command to the server and returns a handle to retrieve the result
    pub async fn execute(&mut self, cmd: Command) -> Result<(ResponseFuture, ResponseStream)> {
        // debug!("executing command {:?}", cmd);
        let id = self.id;
        self.id += 1;

        // create a channel for sending the final response
        let (end_tx, end_rx) = oneshot::channel();

        // create a channel for sending responses for this particular client call
        // this should queue up responses
        let (tx, rx) = mpsc::unbounded_channel();

        {
            let mut handlers = self.results.write();
            handlers.push_back(HandlerResult {
                id,
                end: Some(end_tx),
                sender: tx,
                waker: None,
            });
        }

        let cmd_str = format!("{}{} {}\r\n", TAG_PREFIX, id, cmd);
        // debug!("[{}] writing to socket: {:?}", id, cmd_str);
        self.conn.write_all(cmd_str.as_bytes()).await?;
        self.conn.flush().await?;
        // debug!("[{}] written.", id);
        // let resp = ExecWaiter(self, id, false).await;
        // let resp = {
        //     let mut handlers = self.results.write();
        //     handlers.remove(&id).unwrap().0.unwrap()
        // };

        // let resp = end_rx.await?;

        let q = self.results.clone();
        // let end = Box::new(end_rx.map_err(|err| Error::from).map(move |resp| resp));
        let end = Box::new(end_rx.map_err(Error::from).map(move | resp | {
            // pop the first entry from the list
            let mut results = q.write();
            results.pop_front();
            resp
        }));

        Ok((end, rx))
    }

    /// Executes the CAPABILITY command
    pub async fn capabilities(&mut self, force: bool) -> Result<()> {
        {
            let caps = self.caps.read();
            if caps.is_some() && !force {
                return Ok(());
            }
        }

        let cmd = Command::Capability;
        // debug!("sending: {:?} {:?}", cmd, cmd.to_string());
        let (result, intermediate) = self
            .execute(cmd)
            .await
            .context("error executing CAPABILITY command")?;
        let result = result.await?;
        debug!("cap resp: {:?}", result);

        if let Some(Response::Capabilities(new_caps)) = UnboundedReceiverStream::new(intermediate)
            .filter(|resp| future::ready(matches!(resp, Response::Capabilities(_))))
            .next()
            .await
        {
            let mut caps = self.caps.write();
            *caps = Some(new_caps.iter().cloned().collect());
        }

        Ok(())
    }

    /// Attempts to upgrade this connection using STARTTLS
    pub async fn upgrade(mut self) -> Result<Client<TlsStream<C>>> {
        // TODO: make sure STARTTLS is in the capability list
        if !self.has_capability("STARTTLS").await? {
            bail!("server doesn't support this capability");
        }

        // first, send the STARTTLS command
        let (resp, _) = self.execute(Command::Starttls).await?;
        let resp = resp.await?;
        debug!("server response to starttls: {:?}", resp);

        debug!("sending exit for upgrade");
        self.exit_tx.send(()).await?;
        let reader = self.listener_handle.await??;
        let writer = self.conn;

        let conn = reader.unsplit(writer);

        let server_name = &self.config.hostname;

        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(server_name).unwrap();
        let stream = tls_config.connect(dnsname, conn).await?;
        debug!("upgraded, stream is using TLS now");

        Ok(Client::new(stream, self.config))
    }

    /// Check if this client has a particular capability
    pub async fn has_capability(&mut self, cap: impl AsRef<str>) -> Result<bool> {
        let cap = cap.as_ref().to_owned();
        debug!("checking for the capability: {:?}", cap);
        let cap = parse_capability(cap)?;

        self.capabilities(false).await?;
        let caps = self.caps.read();
        // TODO: refresh caps

        let caps = caps.as_ref().unwrap();
        let result = caps.contains(&cap);
        debug!("cap result: {:?}", result);
        Ok(result)
    }
}

pub struct GreetingWaiter(GreetingState);

impl Future for GreetingWaiter {
    type Output = Response;
    fn poll(self: Pin<&mut Self>, cx: &mut Context) -> Poll<Self::Output> {
        let (state, waker) = &mut *self.0.write();
        debug!("g {:?}", state);
        if waker.is_none() {
            *waker = Some(cx.waker().clone());
        }

        match state.take() {
            Some(v) => Poll::Ready(v),
            None => Poll::Pending,
        }
    }
}

// pub struct ExecWaiter<'a, C>(&'a Client<C>, usize, bool);
//
// impl<'a, C> Future for ExecWaiter<'a, C> {
//     type Output = (Response, ResponseStream);
//     fn poll(mut self: Pin<&mut Self>, cx: &mut Context) -> Poll<Self::Output> {
//         // add the waker
//         let mut results = self.0.results.write();
//         if !self.2 {
//             if let Some(HandlerResult {
//                 waker: waker_ref, ..
//             }) = results
//                 .iter_mut()
//                 .find(|HandlerResult { id, .. }| *id == self.1)
//             {
//                 let waker = cx.waker().clone();
//                 *waker_ref = Some(waker);
//                 self.2 = true;
//             }
//         }
//
//         // if this struct exists then there's definitely at least one entry
//         let HandlerResult {
//             id,
//             end: last_response,
//             ..
//         } = &results[0];
//         if *id != self.1 || last_response.is_none() {
//             return Poll::Pending;
//         }
//
//         let HandlerResult {
//             end: last_response,
//             stream: intermediate_responses,
//             ..
//         } = results.pop_front().unwrap();
//         mem::drop(results);
//
//         Poll::Ready((
//             last_response.expect("already checked"),
//             intermediate_responses,
//         ))
//     }
// }

/// Main listen loop for the application
async fn listen<C>(
    conn: C,
    caps: CapsLock,
    results: ResultQueue,
    mut exit: mpsc::Receiver<()>,
    greeting: GreetingState,
) -> Result<C>
where
    C: AsyncRead + Unpin,
{
    // debug!("amogus");
    let mut reader = BufReader::new(conn);
    let mut greeting = Some(greeting);

    loop {
        let mut next_line = String::new();
        let fut = reader.read_line(&mut next_line).fuse();
        pin_mut!(fut);
        let fut2 = exit.recv().fuse();
        pin_mut!(fut2);

        match future::select(fut, fut2).await {
            Either::Left((res, _)) => {
                let bytes = res.context("read failed")?;
                if bytes == 0 {
                    bail!("connection probably died");
                }

                debug!("got a new line {:?}", next_line);
                let resp = parse_response(next_line)?;

                // if this is the very first message, treat it as a greeting
                if let Some(greeting) = greeting.take() {
                    let (greeting, waker) = &mut *greeting.write();
                    debug!("received greeting!");
                    *greeting = Some(resp.clone());
                    if let Some(waker) = waker.take() {
                        waker.wake();
                    }
                }

                // update capabilities list
                // TODO: probably not really necessary here (done somewhere else)?
                if let Response::Capabilities(new_caps)
                | Response::Data {
                    status: Status::Ok,
                    code: Some(ResponseCode::Capabilities(new_caps)),
                    ..
                } = &resp
                {
                    let caps = &mut *caps.write();
                    *caps = Some(new_caps.iter().cloned().collect());
                    debug!("new caps: {:?}", caps);
                }

                match &resp {
                    Response::Data {
                        status: Status::Ok, ..
                    } => {
                        let mut results = results.write();
                        if let Some(HandlerResult { id, sender, .. }) = results.iter_mut().next() {
                            debug!("pushed to intermediate for id {}: {:?}", id, resp);
                            sender.send(resp)?;
                        }
                    }

                    // bye
                    Response::Data {
                        status: Status::Bye,
                        ..
                    } => {
                        bail!("disconnected");
                    }

                    Response::Done { tag, .. } => {
                        if tag.starts_with(TAG_PREFIX) {
                            // let id = tag.trim_start_matches(TAG_PREFIX).parse::<usize>()?;
                            let mut results = results.write();
                            if let Some(HandlerResult {
                                end: ref mut opt,
                                waker,
                                ..
                            }) = results.iter_mut().next()
                            {
                                if let Some(opt) = opt.take() {
                                    opt.send(resp).unwrap();
                                }
                                // *opt = Some(resp);
                                if let Some(waker) = waker.take() {
                                    waker.wake();
                                }
                            }
                        }
                    }

                    _ => {}
                }
            }

            Either::Right((_, _)) => {
                debug!("exiting read loop");
                break;
            }
        }
    }

    let conn = reader.into_inner();
    Ok(conn)
}