use core::fmt;
use alloc::{
string::{String, ToString},
vec::Vec,
};
use bounded_static::IntoBoundedStatic;
use log::trace;
use thiserror::Error;
use crate::{
coroutine::*,
rfc5321::types::{domain::Domain, reply_code::ReplyCode},
send::*,
smtp_try,
};
pub struct SmtpHeloCommand<'a> {
pub domain: Domain<'a>,
}
impl<'a> From<SmtpHeloCommand<'a>> for Vec<u8> {
fn from(cmd: SmtpHeloCommand<'a>) -> Vec<u8> {
let mut buf = String::from("HELO ");
buf.push_str(&cmd.domain.to_string());
buf.push_str("\r\n");
buf.into_bytes()
}
}
#[derive(Clone, Debug, Error)]
pub enum SmtpHeloError {
#[error("SMTP HELO failed: rejected {code} {message}")]
Rejected { code: u16, message: String },
#[error("SMTP HELO failed: {0}")]
Send(#[from] SendSmtpCommandError),
}
pub struct SmtpHelo {
state: State,
}
impl SmtpHelo {
pub fn new(domain: Domain<'_>) -> Self {
let cmd = SmtpHeloCommand {
domain: domain.into_static(),
};
Self {
state: State::Send(SendSmtpCommand::new(cmd)),
}
}
}
impl SmtpCoroutine for SmtpHelo {
type Yield = SmtpYield;
type Return = Result<(), SmtpHeloError>;
fn resume(&mut self, arg: Option<&[u8]>) -> SmtpCoroutineState<Self::Yield, Self::Return> {
loop {
trace!("helo: {}", self.state);
match &mut self.state {
State::Send(send) => {
let out = smtp_try!(send, arg);
if out.response.code == ReplyCode::OK {
return SmtpCoroutineState::Complete(Ok(()));
}
let code = out.response.code.code();
let message = out.response.text().to_string();
return SmtpCoroutineState::Complete(Err(SmtpHeloError::Rejected {
code,
message,
}));
}
}
}
}
}
enum State {
Send(SendSmtpCommand<SmtpHeloCommand<'static>>),
}
impl fmt::Display for State {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
Self::Send(_) => f.write_str("send helo"),
}
}
}
#[cfg(test)]
mod tests {
use alloc::borrow::Cow;
use super::*;
fn domain() -> Domain<'static> {
Domain(Cow::Borrowed("example.com"))
}
#[test]
fn success_returns_ok() {
let mut helo = SmtpHelo::new(domain());
let bytes = expect_wants_write(&mut helo, None);
assert_eq!(bytes, b"HELO example.com\r\n");
expect_wants_read(&mut helo);
expect_complete_ok(&mut helo, b"250 server.example.com\r\n");
}
#[test]
fn rejected_returns_rejected_error() {
let mut helo = SmtpHelo::new(domain());
let _ = expect_wants_write(&mut helo, None);
expect_wants_read(&mut helo);
let err = expect_complete_err(&mut helo, b"550 bad domain\r\n");
let SmtpHeloError::Rejected { code, message } = err else {
panic!("expected SmtpHeloError::Rejected, got {err:?}");
};
assert_eq!(code, 550);
assert_eq!(message, "bad domain");
}
#[test]
fn eof_returns_eof_error() {
let mut helo = SmtpHelo::new(domain());
let _ = expect_wants_write(&mut helo, None);
expect_wants_read(&mut helo);
let err = expect_complete_err(&mut helo, b"");
assert!(matches!(
err,
SmtpHeloError::Send(SendSmtpCommandError::Eof)
));
}
fn expect_wants_write(cor: &mut SmtpHelo, arg: Option<&[u8]>) -> Vec<u8> {
match cor.resume(arg) {
SmtpCoroutineState::Yielded(SmtpYield::WantsWrite(bytes)) => bytes,
state => panic!("expected WantsWrite, got {state:?}"),
}
}
fn expect_wants_read(cor: &mut SmtpHelo) {
match cor.resume(None) {
SmtpCoroutineState::Yielded(SmtpYield::WantsRead) => {}
state => panic!("expected WantsRead, got {state:?}"),
}
}
fn expect_complete_ok(cor: &mut SmtpHelo, reply: &[u8]) {
match cor.resume(Some(reply)) {
SmtpCoroutineState::Complete(Ok(())) => {}
state => panic!("expected Complete(Ok), got {state:?}"),
}
}
fn expect_complete_err(cor: &mut SmtpHelo, reply: &[u8]) -> SmtpHeloError {
match cor.resume(Some(reply)) {
SmtpCoroutineState::Complete(Err(err)) => err,
state => panic!("expected Complete(Err), got {state:?}"),
}
}
}