extern crate exec_helpers;
// extern crate arglib_netencode;
// extern crate netencode;
extern crate imap;
extern crate epoll;
// use netencode::dec;
use std::convert::TryFrom;
use std::io::{Read, Write};
use std::fs::File;
use std::os::unix::io::{FromRawFd, AsRawFd, RawFd};
use std::time::Duration;
use imap::extensions::idle::SetReadTimeout;
/// Implements an UCSPI client that wraps fd 6 & 7
/// and implements Write and Read with a timeout.
/// See https://cr.yp.to/proto/ucspi.txt
#[derive(Debug)]
struct UcspiClient {
read: File,
read_epoll_fd: RawFd,
read_timeout: Option<Duration>,
write: File,
}
impl UcspiClient {
/// Use fd 6 and 7 to connect to the net, as is specified.
/// Unsafe because fd 6 and 7 are global resources and we don’t mutex them.
pub unsafe fn new_from_6_and_7() -> std::io::Result<Self> {
unsafe {
let read_epoll_fd = epoll::create(false)?;
Ok(UcspiClient {
read: File::from_raw_fd(6),
read_epoll_fd,
read_timeout: None,
write: File::from_raw_fd(7)
})
}
}
}
/// Emulates set_read_timeout() like on a TCP socket with an epoll on read.
/// The BSD socket API is rather bad, so fd != fd,
/// and if we cast the `UcspiClient` fds to `TcpStream` instead of `File`,
/// we’d break any UCSPI client programs that *don’t* connect to TCP.
/// Instead we use the (linux) `epoll` API in read to wait on the timeout.
impl SetReadTimeout for UcspiClient {
fn set_read_timeout(&mut self, timeout: Option<Duration>) -> imap::Result<()> {
self.read_timeout = timeout;
Ok(())
}
}
impl Read for UcspiClient {
// TODO: test the epoll code with a short timeout
fn read(&mut self, buf: &mut [u8]) -> std::io::Result<usize> {
const NO_DATA : u64 = 0;
// in order to implement the read_timeout,
// we use epoll to wait for either data or time out
epoll::ctl(
self.read_epoll_fd,
epoll::ControlOptions::EPOLL_CTL_ADD,
self.read.as_raw_fd(),
epoll::Event::new(epoll::Events::EPOLLIN, NO_DATA)
)?;
let UNUSED = epoll::Event::new(epoll::Events::EPOLLIN, NO_DATA);
let wait = epoll::wait(
self.read_epoll_fd,
match self.read_timeout {
Some(duration) => i32::try_from(duration.as_millis()).expect("duration too big for epoll"),
None => -1 // infinite
},
// event that was generated; but we don’t care
&mut vec![UNUSED; 1][..],
);
// Delete the listen fd from the epoll fd before reacting
// (otherwise it fails on the next read with `EPOLL_CTL_ADD`)
epoll::ctl(
self.read_epoll_fd,
epoll::ControlOptions::EPOLL_CTL_DEL,
self.read.as_raw_fd(),
UNUSED
)?;
match wait {
// timeout happened (0 events)
Ok(0) => Err(std::io::Error::new(std::io::ErrorKind::TimedOut, "ucspi read timeout")),
// its ready for reading, we can read
Ok(_) => self.read.read(buf),
// error
err => err,
}
}
}
/// Just proxy through the `Write` of the write fd.
impl Write for UcspiClient {
fn write(&mut self, buf: &[u8]) -> std::io::Result<usize> {
self.write.write(buf)
}
fn flush(&mut self) -> std::io::Result<()> {
self.write.flush()
}
}
/// Connect to IMAP account and listen for new mails on the INBOX.
fn main() {
exec_helpers::no_args("imap-idle");
// TODO: use arglib_netencode
let username = std::env::var("IMAP_USERNAME").expect("username");
let password = std::env::var("IMAP_PASSWORD").expect("password");
let net = unsafe {
UcspiClient::new_from_6_and_7().expect("no ucspi client for you")
};
let client = imap::Client::new(net);
let mut session = client.login(username, password).map_err(|(err, _)| err).expect("unable to login");
eprintln!("{:#?}", session);
let list = session.list(None, Some("*"));
eprintln!("{:#?}", list);
let mailbox = session.examine("INBOX");
eprintln!("{:#?}", mailbox);
fn now() -> String {
String::from_utf8_lossy(&std::process::Command::new("date").output().unwrap().stdout).trim_right().to_string()
}
loop {
eprintln!("{}: idling on INBOX", now());
let mut handle = session.idle().expect("cannot idle on INBOX");
let () = handle.wait_keepalive().expect("waiting on idle failed");
eprintln!("{}: The mailbox has changed!", now());
}
}