use std::num::NonZeroU32; use std::sync::Arc; use anyhow::{anyhow, bail, Error, Result}; use futures::stream::{FuturesOrdered, StreamExt}; use imap_codec::imap_types::fetch::{MacroOrMessageDataItemNames, MessageDataItem}; use imap_codec::imap_types::flag::{Flag, FlagFetch, FlagPerm, StoreResponse, StoreType}; use imap_codec::imap_types::response::{Code, Data, Status}; use imap_codec::imap_types::sequence::{self, SequenceSet}; use crate::imap::attributes::AttributesProxy; use crate::imap::flags; use crate::imap::mail_view::SeenFlag; use crate::imap::response::Body; use crate::imap::selectors::MailSelectionBuilder; use crate::mail::mailbox::Mailbox; use crate::mail::uidindex::{ImapUid, ImapUidvalidity, UidIndex}; use crate::mail::unique_ident::UniqueIdent; const DEFAULT_FLAGS: [Flag; 5] = [ Flag::Seen, Flag::Answered, Flag::Flagged, Flag::Deleted, Flag::Draft, ]; /// A MailboxView is responsible for giving the client the information /// it needs about a mailbox, such as an initial summary of the mailbox's /// content and continuous updates indicating when the content /// of the mailbox has been changed. /// To do this, it keeps a variable `known_state` that corresponds to /// what the client knows, and produces IMAP messages to be sent to the /// client that go along updates to `known_state`. pub struct MailboxView { pub(crate) mailbox: Arc, known_state: UidIndex, } impl MailboxView { /// Creates a new IMAP view into a mailbox. pub async fn new(mailbox: Arc) -> Self { let state = mailbox.current_uid_index().await; Self { mailbox, known_state: state, } } /// Create an updated view, useful to make a diff /// between what the client knows and new stuff /// Produces a set of IMAP responses describing the change between /// what the client knows and what is actually in the mailbox. /// This does NOT trigger a sync, it bases itself on what is currently /// loaded in RAM by Bayou. pub async fn update(&mut self) -> Result>> { let old_view: &mut Self = self; let new_view = Self { mailbox: old_view.mailbox.clone(), known_state: old_view.mailbox.current_uid_index().await, }; let mut data = Vec::::new(); // Calculate diff between two mailbox states // See example in IMAP RFC in section on NOOP command: // we want to produce something like this: // C: a047 NOOP // S: * 22 EXPUNGE // S: * 23 EXISTS // S: * 14 FETCH (UID 1305 FLAGS (\Seen \Deleted)) // S: a047 OK Noop completed // In other words: // - notify client of expunged mails // - if new mails arrived, notify client of number of existing mails // - if flags changed for existing mails, tell client // (for this last step: if uidvalidity changed, do nothing, // just notify of new uidvalidity and they will resync) // - notify client of expunged mails let mut n_expunge = 0; for (i, (_uid, uuid)) in old_view.known_state.idx_by_uid.iter().enumerate() { if !new_view.known_state.table.contains_key(uuid) { data.push(Body::Data(Data::Expunge( NonZeroU32::try_from((i + 1 - n_expunge) as u32).unwrap(), ))); n_expunge += 1; } } // - if new mails arrived, notify client of number of existing mails if new_view.known_state.table.len() != old_view.known_state.table.len() - n_expunge || new_view.known_state.uidvalidity != old_view.known_state.uidvalidity { data.push(new_view.exists_status()?); } if new_view.known_state.uidvalidity != old_view.known_state.uidvalidity { // TODO: do we want to push less/more info than this? data.push(new_view.uidvalidity_status()?); data.push(new_view.uidnext_status()?); } else { // - if flags changed for existing mails, tell client for (i, (_uid, uuid)) in new_view.known_state.idx_by_uid.iter().enumerate() { let old_mail = old_view.known_state.table.get(uuid); let new_mail = new_view.known_state.table.get(uuid); if old_mail.is_some() && old_mail != new_mail { if let Some((uid, flags)) = new_mail { data.push(Body::Data(Data::Fetch { seq: NonZeroU32::try_from((i + 1) as u32).unwrap(), items: vec![ MessageDataItem::Uid(*uid), MessageDataItem::Flags( flags.iter().filter_map(|f| flags::from_str(f)).collect(), ), ] .try_into()?, })); } } } } *old_view = new_view; Ok(data) } /// Generates the necessary IMAP messages so that the client /// has a satisfactory summary of the current mailbox's state. /// These are the messages that are sent in response to a SELECT command. pub fn summary(&self) -> Result>> { let mut data = Vec::::new(); data.push(self.exists_status()?); data.push(self.recent_status()?); data.extend(self.flags_status()?.into_iter()); data.push(self.uidvalidity_status()?); data.push(self.uidnext_status()?); Ok(data) } pub async fn store<'a>( &mut self, sequence_set: &SequenceSet, kind: &StoreType, _response: &StoreResponse, flags: &[Flag<'a>], is_uid_store: &bool, ) -> Result>> { self.mailbox.opportunistic_sync().await?; let flags = flags.iter().map(|x| x.to_string()).collect::>(); let mails = self.get_mail_ids(sequence_set, *is_uid_store)?; for mi in mails.iter() { match kind { StoreType::Add => { self.mailbox.add_flags(mi.uuid, &flags[..]).await?; } StoreType::Remove => { self.mailbox.del_flags(mi.uuid, &flags[..]).await?; } StoreType::Replace => { self.mailbox.set_flags(mi.uuid, &flags[..]).await?; } } } // @TODO: handle _response self.update().await } pub async fn expunge(&mut self) -> Result>> { self.mailbox.opportunistic_sync().await?; let deleted_flag = Flag::Deleted.to_string(); let state = self.mailbox.current_uid_index().await; let msgs = state .table .iter() .filter(|(_uuid, (_uid, flags))| flags.iter().any(|x| *x == deleted_flag)) .map(|(uuid, _)| *uuid); for msg in msgs { self.mailbox.delete(msg).await?; } self.update().await } pub async fn copy( &self, sequence_set: &SequenceSet, to: Arc, is_uid_copy: &bool, ) -> Result<(ImapUidvalidity, Vec<(ImapUid, ImapUid)>)> { let mails = self.get_mail_ids(sequence_set, *is_uid_copy)?; let mut new_uuids = vec![]; for mi in mails.iter() { new_uuids.push(to.copy_from(&self.mailbox, mi.uuid).await?); } let mut ret = vec![]; let to_state = to.current_uid_index().await; for (mi, new_uuid) in mails.iter().zip(new_uuids.iter()) { let dest_uid = to_state .table .get(new_uuid) .ok_or(anyhow!("copied mail not in destination mailbox"))? .0; ret.push((mi.uid, dest_uid)); } Ok((to_state.uidvalidity, ret)) } pub async fn r#move( &mut self, sequence_set: &SequenceSet, to: Arc, is_uid_copy: &bool, ) -> Result<(ImapUidvalidity, Vec<(ImapUid, ImapUid)>, Vec>)> { let mails = self.get_mail_ids(sequence_set, *is_uid_copy)?; let mut new_uuids = vec![]; for mi in mails.iter() { let copy_action = to.copy_from(&self.mailbox, mi.uuid).await?; new_uuids.push(copy_action); self.mailbox.delete(mi.uuid).await? } let mut ret = vec![]; let to_state = to.current_uid_index().await; for (mi, new_uuid) in mails.iter().zip(new_uuids.iter()) { let dest_uid = to_state .table .get(new_uuid) .ok_or(anyhow!("moved mail not in destination mailbox"))? .0; ret.push((mi.uid, dest_uid)); } let update = self.update().await?; Ok((to_state.uidvalidity, ret, update)) } /// Looks up state changes in the mailbox and produces a set of IMAP /// responses describing the new state. pub async fn fetch<'b>( &self, sequence_set: &SequenceSet, attributes: &'b MacroOrMessageDataItemNames<'static>, is_uid_fetch: &bool, ) -> Result>> { let ap = AttributesProxy::new(attributes, *is_uid_fetch); // Prepare data let mids = MailIdentifiersList(self.get_mail_ids(sequence_set, *is_uid_fetch)?); let mail_count = mids.0.len(); let uuids = mids.uuids(); let meta = self.mailbox.fetch_meta(&uuids).await?; let flags = uuids .iter() .map(|uuid| { self.known_state .table .get(uuid) .map(|(_uuid, f)| f) .ok_or(anyhow!("missing email from the flag table")) }) .collect::, _>>()?; // Start filling data to build the view let mut selection = MailSelectionBuilder::new(ap.need_body(), mail_count); selection .with_mail_identifiers(&mids.0) .with_metadata(&meta) .with_flags(&flags); // Asynchronously fetch full bodies (if needed) let btc = selection.bodies_to_collect(); let future_bodies = btc .iter() .map(|bi| async move { let body = self.mailbox.fetch_full(*bi.msg_uuid, bi.msg_key).await?; Ok::<_, anyhow::Error>(body) }) .collect::>(); let bodies = future_bodies .collect::>() .await .into_iter() .collect::, _>>()?; // Add bodies selection.with_bodies(bodies.as_slice()); // Build mail selection views let views = selection.build()?; // Filter views to build the result // Also identify what must be put as seen let filtered_view = views .iter() .filter_map(|mv| mv.filter(&ap).ok().map(|(body, seen)| (mv, body, seen))) .collect::>(); // Register seen flags let future_flags = filtered_view .iter() .filter(|(_mv, _body, seen)| matches!(seen, SeenFlag::MustAdd)) .map(|(mv, _body, _seen)| async move { let seen_flag = Flag::Seen.to_string(); self.mailbox.add_flags(mv.ids.uuid, &[seen_flag]).await?; Ok::<_, anyhow::Error>(()) }) .collect::>(); future_flags .collect::>() .await .into_iter() .collect::>()?; let command_body = filtered_view .into_iter() .map(|(_mv, body, _seen)| body) .collect::>(); Ok(command_body) } // ---- // Gets the IMAP ID, the IMAP UIDs and, the Aerogramme UUIDs of mails identified by a SequenceSet of // sequence numbers (~ IMAP selector) fn get_mail_ids( &self, sequence_set: &SequenceSet, by_uid: bool, ) -> Result> { let mail_vec = self .known_state .idx_by_uid .iter() .map(|(uid, uuid)| (*uid, *uuid)) .collect::>(); let mut mails = vec![]; if by_uid { if mail_vec.is_empty() { return Ok(vec![]); } let iter_strat = sequence::Strategy::Naive { largest: mail_vec.last().unwrap().0, }; let mut i = 0; for uid in sequence_set.iter(iter_strat) { while mail_vec.get(i).map(|mail| mail.0 < uid).unwrap_or(false) { i += 1; } if let Some(mail) = mail_vec.get(i) { if mail.0 == uid { mails.push(MailIdentifiers { i: NonZeroU32::try_from(i as u32 + 1).unwrap(), uid: mail.0, uuid: mail.1, }); } } else { break; } } } else { if mail_vec.is_empty() { bail!("No such message (mailbox is empty)"); } let iter_strat = sequence::Strategy::Naive { largest: NonZeroU32::try_from((mail_vec.len()) as u32).unwrap(), }; for i in sequence_set.iter(iter_strat) { if let Some(mail) = mail_vec.get(i.get() as usize - 1) { mails.push(MailIdentifiers { i, uid: mail.0, uuid: mail.1, }); } else { bail!("No such mail: {}", i); } } } Ok(mails) } // ---- /// Produce an OK [UIDVALIDITY _] message corresponding to `known_state` fn uidvalidity_status(&self) -> Result> { let uid_validity = Status::ok( None, Some(Code::UidValidity(self.uidvalidity())), "UIDs valid", ) .map_err(Error::msg)?; Ok(Body::Status(uid_validity)) } pub(crate) fn uidvalidity(&self) -> ImapUidvalidity { self.known_state.uidvalidity } /// Produce an OK [UIDNEXT _] message corresponding to `known_state` fn uidnext_status(&self) -> Result> { let next_uid = Status::ok( None, Some(Code::UidNext(self.uidnext())), "Predict next UID", ) .map_err(Error::msg)?; Ok(Body::Status(next_uid)) } pub(crate) fn uidnext(&self) -> ImapUid { self.known_state.uidnext } /// Produce an EXISTS message corresponding to the number of mails /// in `known_state` fn exists_status(&self) -> Result> { Ok(Body::Data(Data::Exists(self.exists()?))) } pub(crate) fn exists(&self) -> Result { Ok(u32::try_from(self.known_state.idx_by_uid.len())?) } /// Produce a RECENT message corresponding to the number of /// recent mails in `known_state` fn recent_status(&self) -> Result> { Ok(Body::Data(Data::Recent(self.recent()?))) } pub(crate) fn recent(&self) -> Result { let recent = self .known_state .idx_by_flag .get(&"\\Recent".to_string()) .map(|os| os.len()) .unwrap_or(0); Ok(u32::try_from(recent)?) } /// Produce a FLAGS and a PERMANENTFLAGS message that indicates /// the flags that are in `known_state` + default flags fn flags_status(&self) -> Result>> { let mut body = vec![]; // 1. Collecting all the possible flags in the mailbox // 1.a Fetch them from our index let mut known_flags: Vec = self .known_state .idx_by_flag .flags() .filter_map(|f| match flags::from_str(f) { Some(FlagFetch::Flag(fl)) => Some(fl), _ => None, }) .collect(); // 1.b Merge it with our default flags list for f in DEFAULT_FLAGS.iter() { if !known_flags.contains(f) { known_flags.push(f.clone()); } } // 1.c Create the IMAP message body.push(Body::Data(Data::Flags(known_flags.clone()))); // 2. Returning flags that are persisted // 2.a Always advertise our default flags let mut permanent = DEFAULT_FLAGS .iter() .map(|f| FlagPerm::Flag(f.clone())) .collect::>(); // 2.b Say that we support any keyword flag permanent.push(FlagPerm::Asterisk); // 2.c Create the IMAP message let permanent_flags = Status::ok( None, Some(Code::PermanentFlags(permanent)), "Flags permitted", ) .map_err(Error::msg)?; body.push(Body::Status(permanent_flags)); // Done! Ok(body) } pub(crate) fn unseen_count(&self) -> usize { let total = self.known_state.table.len(); let seen = self .known_state .idx_by_flag .get(&Flag::Seen.to_string()) .map(|x| x.len()) .unwrap_or(0); total - seen } } pub struct MailIdentifiers { pub i: NonZeroU32, pub uid: ImapUid, pub uuid: UniqueIdent, } pub struct MailIdentifiersList(Vec); impl MailIdentifiersList { fn uuids(&self) -> Vec { self.0.iter().map(|mi| mi.uuid).collect() } } #[cfg(test)] mod tests { use super::*; use imap_codec::encode::Encoder; use imap_codec::imap_types::core::NonEmptyVec; use imap_codec::imap_types::fetch::Section; use imap_codec::imap_types::fetch::{MacroOrMessageDataItemNames, MessageDataItemName}; use imap_codec::imap_types::response::Response; use imap_codec::ResponseCodec; use std::fs; use crate::cryptoblob; use crate::imap::mail_view::{FetchedMail, MailView}; use crate::imap::mime_view; use crate::mail::mailbox::MailMeta; use crate::mail::unique_ident; #[test] fn mailview_body_ext() -> Result<()> { let ap = AttributesProxy::new( &MacroOrMessageDataItemNames::MessageDataItemNames(vec![ MessageDataItemName::BodyExt { section: Some(Section::Header(None)), partial: None, peek: false, }, ]), false, ); let flags = vec![]; let key = cryptoblob::gen_key(); let meta = MailMeta { internaldate: 0u64, headers: vec![], message_key: key, rfc822_size: 8usize, }; let ids = MailIdentifiers { i: NonZeroU32::MIN, uid: NonZeroU32::MIN, uuid: unique_ident::gen_ident(), }; let rfc822 = b"Subject: hello\r\nFrom: a@a.a\r\nTo: b@b.b\r\nDate: Thu, 12 Oct 2023 08:45:28 +0000\r\n\r\nhello world"; let content = FetchedMail::new_from_message(eml_codec::parse_message(rfc822)?.1); let mv = MailView { ids: &ids, content, meta: &meta, flags: &flags, }; let (res_body, _seen) = mv.filter(&ap)?; let fattr = match res_body { Body::Data(Data::Fetch { seq: _seq, items: attr, }) => Ok(attr), _ => Err(anyhow!("Not a fetch body")), }?; assert_eq!(fattr.as_ref().len(), 1); let (sec, _orig, _data) = match &fattr.as_ref()[0] { MessageDataItem::BodyExt { section, origin, data, } => Ok((section, origin, data)), _ => Err(anyhow!("not a body ext message attribute")), }?; assert_eq!(sec.as_ref().unwrap(), &Section::Header(None)); Ok(()) } /// Future automated test. We use lossy utf8 conversion + lowercase everything, /// so this test might allow invalid results. But at least it allows us to quickly test a /// large variety of emails. /// Keep in mind that special cases must still be tested manually! #[test] fn fetch_body() -> Result<()> { let prefixes = [ /* *** MY OWN DATASET *** */ "tests/emails/dxflrs/0001_simple", "tests/emails/dxflrs/0002_mime", "tests/emails/dxflrs/0003_mime-in-mime", "tests/emails/dxflrs/0004_msg-in-msg", // eml_codec do not support continuation for the moment //"tests/emails/dxflrs/0005_mail-parser-readme", "tests/emails/dxflrs/0006_single-mime", "tests/emails/dxflrs/0007_raw_msg_in_rfc822", /* *** (STRANGE) RFC *** */ //"tests/emails/rfc/000", // must return text/enriched, we return text/plain //"tests/emails/rfc/001", // does not recognize the multipart/external-body, breaks the // whole parsing //"tests/emails/rfc/002", // wrong date in email //"tests/emails/rfc/003", // dovecot fixes \r\r: the bytes number is wrong + text/enriched /* *** THIRD PARTY *** */ //"tests/emails/thirdparty/000", // dovecot fixes \r\r: the bytes number is wrong //"tests/emails/thirdparty/001", // same "tests/emails/thirdparty/002", // same /* *** LEGACY *** */ //"tests/emails/legacy/000", // same issue with \r\r ]; for pref in prefixes.iter() { println!("{}", pref); let txt = fs::read(format!("{}.eml", pref))?; let oracle = fs::read(format!("{}.dovecot.body", pref))?; let message = eml_codec::parse_message(&txt).unwrap().1; let test_repr = Response::Data(Data::Fetch { seq: NonZeroU32::new(1).unwrap(), items: NonEmptyVec::from(MessageDataItem::Body(mime_view::bodystructure( &message.child, )?)), }); let test_bytes = ResponseCodec::new().encode(&test_repr).dump(); let test_str = String::from_utf8_lossy(&test_bytes).to_lowercase(); let oracle_str = format!("* 1 FETCH {}\r\n", String::from_utf8_lossy(&oracle)).to_lowercase(); println!("aerogramme: {}\n\ndovecot: {}\n\n", test_str, oracle_str); //println!("\n\n {} \n\n", String::from_utf8_lossy(&resp)); assert_eq!(test_str, oracle_str); } Ok(()) } }