use std::collections::BTreeMap;
use std::sync::Arc;
use anyhow::{anyhow, bail, Result};
use boitalettres::proto::res::body::Data as Body;
use boitalettres::proto::{Request, Response};
use imap_codec::types::command::{CommandBody, StatusAttribute};
use imap_codec::types::core::NonZeroBytes;
use imap_codec::types::datetime::MyDateTime;
use imap_codec::types::flag::{Flag, FlagNameAttribute};
use imap_codec::types::mailbox::{ListMailbox, Mailbox as MailboxCodec};
use imap_codec::types::response::{Code, Data, StatusAttributeValue};
use crate::imap::command::anonymous;
use crate::imap::flow;
use crate::imap::mailbox_view::MailboxView;
use crate::mail::mailbox::Mailbox;
use crate::mail::uidindex::*;
use crate::mail::user::{User, INBOX, MAILBOX_HIERARCHY_DELIMITER};
use crate::mail::IMF;
pub struct AuthenticatedContext<'a> {
pub req: &'a Request,
pub user: &'a Arc<User>,
}
pub async fn dispatch(ctx: AuthenticatedContext<'_>) -> Result<(Response, flow::Transition)> {
match &ctx.req.command.body {
CommandBody::Create { mailbox } => ctx.create(mailbox).await,
CommandBody::Delete { mailbox } => ctx.delete(mailbox).await,
CommandBody::Rename {
mailbox,
new_mailbox,
} => ctx.rename(mailbox, new_mailbox).await,
CommandBody::Lsub {
reference,
mailbox_wildcard,
} => ctx.list(reference, mailbox_wildcard, true).await,
CommandBody::List {
reference,
mailbox_wildcard,
} => ctx.list(reference, mailbox_wildcard, false).await,
CommandBody::Status {
mailbox,
attributes,
} => ctx.status(mailbox, attributes).await,
CommandBody::Subscribe { mailbox } => ctx.subscribe(mailbox).await,
CommandBody::Unsubscribe { mailbox } => ctx.unsubscribe(mailbox).await,
CommandBody::Select { mailbox } => ctx.select(mailbox).await,
CommandBody::Examine { mailbox } => ctx.examine(mailbox).await,
CommandBody::Append {
mailbox,
flags,
date,
message,
} => ctx.append(mailbox, flags, date, message).await,
_ => {
let ctx = anonymous::AnonymousContext {
req: ctx.req,
login_provider: None,
};
anonymous::dispatch(ctx).await
}
}
}
// --- PRIVATE ---
impl<'a> AuthenticatedContext<'a> {
async fn create(self, mailbox: &MailboxCodec) -> Result<(Response, flow::Transition)> {
let name = String::try_from(mailbox.clone())?;
if name == INBOX {
return Ok((
Response::bad("Cannot create INBOX")?,
flow::Transition::None,
));
}
match self.user.create_mailbox(&name).await {
Ok(()) => Ok((Response::ok("CREATE complete")?, flow::Transition::None)),
Err(e) => Ok((Response::no(&e.to_string())?, flow::Transition::None)),
}
}
async fn delete(self, mailbox: &MailboxCodec) -> Result<(Response, flow::Transition)> {
let name = String::try_from(mailbox.clone())?;
match self.user.delete_mailbox(&name).await {
Ok(()) => Ok((Response::ok("DELETE complete")?, flow::Transition::None)),
Err(e) => Ok((Response::no(&e.to_string())?, flow::Transition::None)),
}
}
async fn rename(
self,
mailbox: &MailboxCodec,
new_mailbox: &MailboxCodec,
) -> Result<(Response, flow::Transition)> {
let name = String::try_from(mailbox.clone())?;
let new_name = String::try_from(new_mailbox.clone())?;
match self.user.rename_mailbox(&name, &new_name).await {
Ok(()) => Ok((Response::ok("RENAME complete")?, flow::Transition::None)),
Err(e) => Ok((Response::no(&e.to_string())?, flow::Transition::None)),
}
}
async fn list(
self,
reference: &MailboxCodec,
mailbox_wildcard: &ListMailbox,
is_lsub: bool,
) -> Result<(Response, flow::Transition)> {
let reference = String::try_from(reference.clone())?;
if !reference.is_empty() {
return Ok((
Response::bad("References not supported")?,
flow::Transition::None,
));
}
let wildcard = String::try_from(mailbox_wildcard.clone())?;
if wildcard.is_empty() {
if is_lsub {
return Ok((
Response::ok("LSUB complete")?.with_body(vec![Data::Lsub {
items: vec![],
delimiter: Some(MAILBOX_HIERARCHY_DELIMITER),
mailbox: "".try_into().unwrap(),
}]),
flow::Transition::None,
));
} else {
return Ok((
Response::ok("LIST complete")?.with_body(vec![Data::List {
items: vec![],
delimiter: Some(MAILBOX_HIERARCHY_DELIMITER),
mailbox: "".try_into().unwrap(),
}]),
flow::Transition::None,
));
}
}
let mailboxes = self.user.list_mailboxes().await?;
let mut vmailboxes = BTreeMap::new();
for mb in mailboxes.iter() {
for (i, _) in mb.match_indices(MAILBOX_HIERARCHY_DELIMITER) {
if i > 0 {
let smb = &mb[..i];
vmailboxes.entry(smb).or_insert(false);
}
}
vmailboxes.insert(mb, true);
}
let mut ret = vec![];
for (mb, is_real) in vmailboxes.iter() {
if matches_wildcard(&wildcard, mb) {
let mailbox = mb
.to_string()
.try_into()
.map_err(|_| anyhow!("invalid mailbox name"))?;
let mut items = vec![FlagNameAttribute::Extension(
"Subscribed".try_into().unwrap(),
)];
if !*is_real {
items.push(FlagNameAttribute::Noselect);
}
if is_lsub {
ret.push(Data::Lsub {
items,
delimiter: Some(MAILBOX_HIERARCHY_DELIMITER),
mailbox,
});
} else {
ret.push(Data::List {
items,
delimiter: Some(MAILBOX_HIERARCHY_DELIMITER),
mailbox,
});
}
}
}
let msg = if is_lsub {
"LSUB completed"
} else {
"LIST completed"
};
Ok((Response::ok(msg)?.with_body(ret), flow::Transition::None))
}
async fn status(
self,
mailbox: &MailboxCodec,
attributes: &[StatusAttribute],
) -> Result<(Response, flow::Transition)> {
let name = String::try_from(mailbox.clone())?;
let mb_opt = self.user.open_mailbox(&name).await?;
let mb = match mb_opt {
Some(mb) => mb,
None => {
return Ok((
Response::no("Mailbox does not exist")?,
flow::Transition::None,
))
}
};
let (view, _data) = MailboxView::new(mb).await?;
let mut ret_attrs = vec![];
for attr in attributes.iter() {
ret_attrs.push(match attr {
StatusAttribute::Messages => StatusAttributeValue::Messages(view.exists()?),
StatusAttribute::Unseen => StatusAttributeValue::Unseen(view.unseen_count() as u32),
StatusAttribute::Recent => StatusAttributeValue::Recent(view.recent()?),
StatusAttribute::UidNext => StatusAttributeValue::UidNext(view.uidnext()),
StatusAttribute::UidValidity => {
StatusAttributeValue::UidValidity(view.uidvalidity())
}
});
}
let data = vec![Body::Data(Data::Status {
mailbox: mailbox.clone(),
attributes: ret_attrs,
})];
Ok((
Response::ok("STATUS completed")?.with_body(data),
flow::Transition::None,
))
}
async fn subscribe(self, mailbox: &MailboxCodec) -> Result<(Response, flow::Transition)> {
let name = String::try_from(mailbox.clone())?;
if self.user.has_mailbox(&name).await? {
Ok((Response::ok("SUBSCRIBE complete")?, flow::Transition::None))
} else {
Ok((
Response::bad(&format!("Mailbox {} does not exist", name))?,
flow::Transition::None,
))
}
}
async fn unsubscribe(self, mailbox: &MailboxCodec) -> Result<(Response, flow::Transition)> {
let name = String::try_from(mailbox.clone())?;
if self.user.has_mailbox(&name).await? {
Ok((
Response::bad(&format!(
"Cannot unsubscribe from mailbox {}: not supported by Aerogramme",
name
))?,
flow::Transition::None,
))
} else {
Ok((
Response::bad(&format!("Mailbox {} does not exist", name))?,
flow::Transition::None,
))
}
}
/*
* TRACE BEGIN ---
Example: C: A142 SELECT INBOX
S: * 172 EXISTS
S: * 1 RECENT
S: * OK [UNSEEN 12] Message 12 is first unseen
S: * OK [UIDVALIDITY 3857529045] UIDs valid
S: * OK [UIDNEXT 4392] Predicted next UID
S: * FLAGS (\Answered \Flagged \Deleted \Seen \Draft)
S: * OK [PERMANENTFLAGS (\Deleted \Seen \*)] Limited
S: A142 OK [READ-WRITE] SELECT completed
--- a mailbox with no unseen message -> no unseen entry
NOTES:
RFC3501 (imap4rev1) says if there is no OK [UNSEEN] response, client must make no assumption,
it is therefore correct to not return it even if there are unseen messages
RFC9051 (imap4rev2) says that OK [UNSEEN] responses are deprecated after SELECT and EXAMINE
For Aerogramme, we just don't send the OK [UNSEEN], it's correct to do in both specifications.
20 select "INBOX.achats"
* FLAGS (\Answered \Flagged \Deleted \Seen \Draft $Forwarded JUNK $label1)
* OK [PERMANENTFLAGS (\Answered \Flagged \Deleted \Seen \Draft $Forwarded JUNK $label1 \*)] Flags permitted.
* 88 EXISTS
* 0 RECENT
* OK [UIDVALIDITY 1347986788] UIDs valid
* OK [UIDNEXT 91] Predicted next UID
* OK [HIGHESTMODSEQ 72] Highest
20 OK [READ-WRITE] Select completed (0.001 + 0.000 secs).
* TRACE END ---
*/
async fn select(self, mailbox: &MailboxCodec) -> Result<(Response, flow::Transition)> {
let name = String::try_from(mailbox.clone())?;
let mb_opt = self.user.open_mailbox(&name).await?;
let mb = match mb_opt {
Some(mb) => mb,
None => {
return Ok((
Response::no("Mailbox does not exist")?,
flow::Transition::None,
))
}
};
tracing::info!(username=%self.user.username, mailbox=%name, "mailbox.selected");
let (mb, data) = MailboxView::new(mb).await?;
Ok((
Response::ok("Select completed")?
.with_extra_code(Code::ReadWrite)
.with_body(data),
flow::Transition::Select(mb),
))
}
async fn examine(self, mailbox: &MailboxCodec) -> Result<(Response, flow::Transition)> {
let name = String::try_from(mailbox.clone())?;
let mb_opt = self.user.open_mailbox(&name).await?;
let mb = match mb_opt {
Some(mb) => mb,
None => {
return Ok((
Response::no("Mailbox does not exist")?,
flow::Transition::None,
))
}
};
tracing::info!(username=%self.user.username, mailbox=%name, "mailbox.examined");
let (mb, data) = MailboxView::new(mb).await?;
Ok((
Response::ok("Examine completed")?
.with_extra_code(Code::ReadOnly)
.with_body(data),
flow::Transition::Examine(mb),
))
}
async fn append(
self,
mailbox: &MailboxCodec,
flags: &[Flag],
date: &Option<MyDateTime>,
message: &NonZeroBytes,
) -> Result<(Response, flow::Transition)> {
match self.append_internal(mailbox, flags, date, message).await {
Ok((_mb, uidvalidity, uid)) => Ok((
Response::ok("APPEND completed")?.with_extra_code(Code::Other(
"APPENDUID".try_into().unwrap(),
Some(format!("{} {}", uidvalidity, uid)),
)),
flow::Transition::None,
)),
Err(e) => Ok((Response::no(&e.to_string())?, flow::Transition::None)),
}
}
pub(crate) async fn append_internal(
self,
mailbox: &MailboxCodec,
flags: &[Flag],
date: &Option<MyDateTime>,
message: &NonZeroBytes,
) -> Result<(Arc<Mailbox>, ImapUidvalidity, ImapUidvalidity)> {
let name = String::try_from(mailbox.clone())?;
let mb_opt = self.user.open_mailbox(&name).await?;
let mb = match mb_opt {
Some(mb) => mb,
None => bail!("Mailbox does not exist"),
};
if date.is_some() {
bail!("Cannot set date when appending message");
}
let msg = IMF::try_from(message.as_slice())
.map_err(|_| anyhow!("Could not parse e-mail message"))?;
let flags = flags.iter().map(|x| x.to_string()).collect::<Vec<_>>();
// TODO: filter allowed flags? ping @Quentin
let (uidvalidity, uid) = mb.append(msg, None, &flags[..]).await?;
Ok((mb, uidvalidity, uid))
}
}
fn matches_wildcard(wildcard: &str, name: &str) -> bool {
let wildcard = wildcard.chars().collect::<Vec<char>>();
let name = name.chars().collect::<Vec<char>>();
let mut matches = vec![vec![false; wildcard.len() + 1]; name.len() + 1];
for i in 0..=name.len() {
for j in 0..=wildcard.len() {
matches[i][j] = (i == 0 && j == 0)
|| (j > 0
&& matches[i][j - 1]
&& (wildcard[j - 1] == '%' || wildcard[j - 1] == '*'))
|| (i > 0
&& j > 0
&& matches[i - 1][j - 1]
&& wildcard[j - 1] == name[i - 1]
&& wildcard[j - 1] != '%'
&& wildcard[j - 1] != '*')
|| (i > 0
&& j > 0
&& matches[i - 1][j]
&& (wildcard[j - 1] == '*'
|| (wildcard[j - 1] == '%' && name[i - 1] != MAILBOX_HIERARCHY_DELIMITER)));
}
}
matches[name.len()][wildcard.len()]
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_wildcard_matches() {
assert!(matches_wildcard("INBOX", "INBOX"));
assert!(matches_wildcard("*", "INBOX"));
assert!(matches_wildcard("%", "INBOX"));
assert!(!matches_wildcard("%", "Test.Azerty"));
assert!(!matches_wildcard("INBOX.*", "INBOX"));
assert!(matches_wildcard("Sent.*", "Sent.A"));
assert!(matches_wildcard("Sent.*", "Sent.A.B"));
assert!(!matches_wildcard("Sent.%", "Sent.A.B"));
}
}