use anyhow::{anyhow, bail, Result};
use serde::{Deserialize, Serialize};
use tokio::sync::RwLock;
use aero_bayou::timestamp::now_msec;
use aero_bayou::Bayou;
use aero_user::cryptoblob::{self, gen_key, open_deserialize, seal_serialize, Key};
use aero_user::login::Credentials;
use aero_user::storage::{self, BlobRef, BlobVal, RowRef, RowVal, Selector, Store};
use crate::mail::uidindex::*;
use crate::mail::IMF;
use crate::unique_ident::*;
pub struct Mailbox {
pub(super) id: UniqueIdent,
mbox: RwLock<MailboxInternal>,
}
impl Mailbox {
pub(crate) async fn open(
creds: &Credentials,
id: UniqueIdent,
min_uidvalidity: ImapUidvalidity,
) -> Result<Self> {
let index_path = format!("index/{}", id);
let mail_path = format!("mail/{}", id);
let mut uid_index = Bayou::<UidIndex>::new(creds, index_path).await?;
uid_index.sync().await?;
let uidvalidity = uid_index.state().uidvalidity;
if uidvalidity < min_uidvalidity {
uid_index
.push(
uid_index
.state()
.op_bump_uidvalidity(min_uidvalidity.get() - uidvalidity.get()),
)
.await?;
}
// @FIXME reporting through opentelemetry or some logs
// info on the "shape" of the mailbox would be welcomed
/*
dump(&uid_index);
*/
let mbox = RwLock::new(MailboxInternal {
id,
encryption_key: creds.keys.master.clone(),
storage: creds.storage.build().await?,
uid_index,
mail_path,
});
Ok(Self { id, mbox })
}
/// Sync data with backing store
pub async fn force_sync(&self) -> Result<()> {
self.mbox.write().await.force_sync().await
}
/// Sync data with backing store only if changes are detected
/// or last sync is too old
pub async fn opportunistic_sync(&self) -> Result<()> {
self.mbox.write().await.opportunistic_sync().await
}
/// Block until a sync has been done (due to changes in the event log)
pub async fn notify(&self) -> std::sync::Weak<tokio::sync::Notify> {
self.mbox.read().await.notifier()
}
// ---- Functions for reading the mailbox ----
/// Get a clone of the current UID Index of this mailbox
/// (cloning is cheap so don't hesitate to use this)
pub async fn current_uid_index(&self) -> UidIndex {
self.mbox.read().await.uid_index.state().clone()
}
/// Fetch the metadata (headers + some more info) of the specified
/// mail IDs
pub async fn fetch_meta(&self, ids: &[UniqueIdent]) -> Result<Vec<MailMeta>> {
self.mbox.read().await.fetch_meta(ids).await
}
/// Fetch an entire e-mail
pub async fn fetch_full(&self, id: UniqueIdent, message_key: &Key) -> Result<Vec<u8>> {
self.mbox.read().await.fetch_full(id, message_key).await
}
pub async fn frozen(self: &std::sync::Arc<Self>) -> super::snapshot::FrozenMailbox {
super::snapshot::FrozenMailbox::new(self.clone()).await
}
// ---- Functions for changing the mailbox ----
/// Add flags to message
pub async fn add_flags<'a>(&self, id: UniqueIdent, flags: &[Flag]) -> Result<()> {
self.mbox.write().await.add_flags(id, flags).await
}
/// Delete flags from message
pub async fn del_flags<'a>(&self, id: UniqueIdent, flags: &[Flag]) -> Result<()> {
self.mbox.write().await.del_flags(id, flags).await
}
/// Define the new flags for this message
pub async fn set_flags<'a>(&self, id: UniqueIdent, flags: &[Flag]) -> Result<()> {
self.mbox.write().await.set_flags(id, flags).await
}
/// Insert an email into the mailbox
pub async fn append<'a>(
&self,
msg: IMF<'a>,
ident: Option<UniqueIdent>,
flags: &[Flag],
) -> Result<(ImapUidvalidity, ImapUid, ModSeq)> {
self.mbox.write().await.append(msg, ident, flags).await
}
/// Insert an email into the mailbox, copying it from an existing S3 object
pub async fn append_from_s3<'a>(
&self,
msg: IMF<'a>,
ident: UniqueIdent,
blob_ref: storage::BlobRef,
message_key: Key,
) -> Result<()> {
self.mbox
.write()
.await
.append_from_s3(msg, ident, blob_ref, message_key)
.await
}
/// Delete a message definitively from the mailbox
pub async fn delete<'a>(&self, id: UniqueIdent) -> Result<()> {
self.mbox.write().await.delete(id).await
}
/// Copy an email from an other Mailbox to this mailbox
/// (use this when possible, as it allows for a certain number of storage optimizations)
pub async fn copy_from(&self, from: &Mailbox, uuid: UniqueIdent) -> Result<UniqueIdent> {
if self.id == from.id {
bail!("Cannot copy into same mailbox");
}
let (mut selflock, fromlock);
if self.id < from.id {
selflock = self.mbox.write().await;
fromlock = from.mbox.write().await;
} else {
fromlock = from.mbox.write().await;
selflock = self.mbox.write().await;
};
selflock.copy_from(&fromlock, uuid).await
}
/// Move an email from an other Mailbox to this mailbox
/// (use this when possible, as it allows for a certain number of storage optimizations)
pub async fn move_from(&self, from: &Mailbox, uuid: UniqueIdent) -> Result<()> {
if self.id == from.id {
bail!("Cannot copy move same mailbox");
}
let (mut selflock, mut fromlock);
if self.id < from.id {
selflock = self.mbox.write().await;
fromlock = from.mbox.write().await;
} else {
fromlock = from.mbox.write().await;
selflock = self.mbox.write().await;
};
selflock.move_from(&mut fromlock, uuid).await
}
}
// ----
// Non standard but common flags:
// https://www.iana.org/assignments/imap-jmap-keywords/imap-jmap-keywords.xhtml
struct MailboxInternal {
// 2023-05-15 will probably be used later.
#[allow(dead_code)]
id: UniqueIdent,
mail_path: String,
encryption_key: Key,
storage: Store,
uid_index: Bayou<UidIndex>,
}
impl MailboxInternal {
async fn force_sync(&mut self) -> Result<()> {
self.uid_index.sync().await?;
Ok(())
}
async fn opportunistic_sync(&mut self) -> Result<()> {
self.uid_index.opportunistic_sync().await?;
Ok(())
}
fn notifier(&self) -> std::sync::Weak<tokio::sync::Notify> {
self.uid_index.notifier()
}
// ---- Functions for reading the mailbox ----
async fn fetch_meta(&self, ids: &[UniqueIdent]) -> Result<Vec<MailMeta>> {
let ids = ids.iter().map(|x| x.to_string()).collect::<Vec<_>>();
let ops = ids
.iter()
.map(|id| RowRef::new(self.mail_path.as_str(), id.as_str()))
.collect::<Vec<_>>();
let res_vec = self.storage.row_fetch(&Selector::List(ops)).await?;
let mut meta_vec = vec![];
for res in res_vec.into_iter() {
let mut meta_opt = None;
// Resolve conflicts
for v in res.value.iter() {
match v {
storage::Alternative::Tombstone => (),
storage::Alternative::Value(v) => {
let meta = open_deserialize::<MailMeta>(v, &self.encryption_key)?;
match meta_opt.as_mut() {
None => {
meta_opt = Some(meta);
}
Some(prevmeta) => {
prevmeta.try_merge(meta)?;
}
}
}
}
}
if let Some(meta) = meta_opt {
meta_vec.push(meta);
} else {
bail!("No valid meta value in k2v for {:?}", res.row_ref);
}
}
Ok(meta_vec)
}
async fn fetch_full(&self, id: UniqueIdent, message_key: &Key) -> Result<Vec<u8>> {
let obj_res = self
.storage
.blob_fetch(&BlobRef(format!("{}/{}", self.mail_path, id)))
.await?;
let body = obj_res.value;
cryptoblob::open(&body, message_key)
}
// ---- Functions for changing the mailbox ----
async fn add_flags(&mut self, ident: UniqueIdent, flags: &[Flag]) -> Result<()> {
let add_flag_op = self.uid_index.state().op_flag_add(ident, flags.to_vec());
self.uid_index.push(add_flag_op).await
}
async fn del_flags(&mut self, ident: UniqueIdent, flags: &[Flag]) -> Result<()> {
let del_flag_op = self.uid_index.state().op_flag_del(ident, flags.to_vec());
self.uid_index.push(del_flag_op).await
}
async fn set_flags(&mut self, ident: UniqueIdent, flags: &[Flag]) -> Result<()> {
let set_flag_op = self.uid_index.state().op_flag_set(ident, flags.to_vec());
self.uid_index.push(set_flag_op).await
}
async fn append(
&mut self,
mail: IMF<'_>,
ident: Option<UniqueIdent>,
flags: &[Flag],
) -> Result<(ImapUidvalidity, ImapUid, ModSeq)> {
let ident = ident.unwrap_or_else(gen_ident);
let message_key = gen_key();
futures::try_join!(
async {
// Encrypt and save mail body
let message_blob = cryptoblob::seal(mail.raw, &message_key)?;
self.storage
.blob_insert(BlobVal::new(
BlobRef(format!("{}/{}", self.mail_path, ident)),
message_blob,
))
.await?;
Ok::<_, anyhow::Error>(())
},
async {
// Save mail meta
let meta = MailMeta {
internaldate: now_msec(),
headers: mail.parsed.raw_headers.to_vec(),
message_key: message_key.clone(),
rfc822_size: mail.raw.len(),
};
let meta_blob = seal_serialize(&meta, &self.encryption_key)?;
self.storage
.row_insert(vec![RowVal::new(
RowRef::new(&self.mail_path, &ident.to_string()),
meta_blob,
)])
.await?;
Ok::<_, anyhow::Error>(())
},
self.uid_index.opportunistic_sync()
)?;
// Add mail to Bayou mail index
let uid_state = self.uid_index.state();
let add_mail_op = uid_state.op_mail_add(ident, flags.to_vec());
let uidvalidity = uid_state.uidvalidity;
let (uid, modseq) = match add_mail_op {
UidIndexOp::MailAdd(_, uid, modseq, _) => (uid, modseq),
_ => unreachable!(),
};
self.uid_index.push(add_mail_op).await?;
Ok((uidvalidity, uid, modseq))
}
async fn append_from_s3<'a>(
&mut self,
mail: IMF<'a>,
ident: UniqueIdent,
blob_src: storage::BlobRef,
message_key: Key,
) -> Result<()> {
futures::try_join!(
async {
// Copy mail body from previous location
let blob_dst = BlobRef(format!("{}/{}", self.mail_path, ident));
self.storage.blob_copy(&blob_src, &blob_dst).await?;
Ok::<_, anyhow::Error>(())
},
async {
// Save mail meta
let meta = MailMeta {
internaldate: now_msec(),
headers: mail.parsed.raw_headers.to_vec(),
message_key: message_key.clone(),
rfc822_size: mail.raw.len(),
};
let meta_blob = seal_serialize(&meta, &self.encryption_key)?;
self.storage
.row_insert(vec![RowVal::new(
RowRef::new(&self.mail_path, &ident.to_string()),
meta_blob,
)])
.await?;
Ok::<_, anyhow::Error>(())
},
self.uid_index.opportunistic_sync()
)?;
// Add mail to Bayou mail index
let add_mail_op = self.uid_index.state().op_mail_add(ident, vec![]);
self.uid_index.push(add_mail_op).await?;
Ok(())
}
async fn delete(&mut self, ident: UniqueIdent) -> Result<()> {
if !self.uid_index.state().table.contains_key(&ident) {
bail!("Cannot delete mail that doesn't exist");
}
let del_mail_op = self.uid_index.state().op_mail_del(ident);
self.uid_index.push(del_mail_op).await?;
futures::try_join!(
async {
// Delete mail body from S3
self.storage
.blob_rm(&BlobRef(format!("{}/{}", self.mail_path, ident)))
.await?;
Ok::<_, anyhow::Error>(())
},
async {
// Delete mail meta from K2V
let sk = ident.to_string();
let res = self
.storage
.row_fetch(&storage::Selector::Single(&RowRef::new(
&self.mail_path,
&sk,
)))
.await?;
if let Some(row_val) = res.into_iter().next() {
self.storage
.row_rm(&storage::Selector::Single(&row_val.row_ref))
.await?;
}
Ok::<_, anyhow::Error>(())
}
)?;
Ok(())
}
async fn copy_from(
&mut self,
from: &MailboxInternal,
source_id: UniqueIdent,
) -> Result<UniqueIdent> {
let new_id = gen_ident();
self.copy_internal(from, source_id, new_id).await?;
Ok(new_id)
}
async fn move_from(&mut self, from: &mut MailboxInternal, id: UniqueIdent) -> Result<()> {
self.copy_internal(from, id, id).await?;
from.delete(id).await?;
Ok(())
}
async fn copy_internal(
&mut self,
from: &MailboxInternal,
source_id: UniqueIdent,
new_id: UniqueIdent,
) -> Result<()> {
if self.encryption_key != from.encryption_key {
bail!("Message to be copied/moved does not belong to same account.");
}
let flags = from
.uid_index
.state()
.table
.get(&source_id)
.ok_or(anyhow!("Source mail not found"))?
.2
.clone();
futures::try_join!(
async {
let dst = BlobRef(format!("{}/{}", self.mail_path, new_id));
let src = BlobRef(format!("{}/{}", from.mail_path, source_id));
self.storage.blob_copy(&src, &dst).await?;
Ok::<_, anyhow::Error>(())
},
async {
// Copy mail meta in K2V
let meta = &from.fetch_meta(&[source_id]).await?[0];
let meta_blob = seal_serialize(meta, &self.encryption_key)?;
self.storage
.row_insert(vec![RowVal::new(
RowRef::new(&self.mail_path, &new_id.to_string()),
meta_blob,
)])
.await?;
Ok::<_, anyhow::Error>(())
},
self.uid_index.opportunistic_sync(),
)?;
// Add mail to Bayou mail index
let add_mail_op = self.uid_index.state().op_mail_add(new_id, flags);
self.uid_index.push(add_mail_op).await?;
Ok(())
}
}
// Can be useful to debug so we want this code
// to be available to developers
#[allow(dead_code)]
fn dump(uid_index: &Bayou<UidIndex>) {
let s = uid_index.state();
println!("---- MAILBOX STATE ----");
println!("UIDVALIDITY {}", s.uidvalidity);
println!("UIDNEXT {}", s.uidnext);
println!("INTERNALSEQ {}", s.internalseq);
for (uid, ident) in s.idx_by_uid.iter() {
println!(
"{} {} {}",
uid,
hex::encode(ident.0),
s.table.get(ident).cloned().unwrap().2.join(", ")
);
}
println!();
}
// ----
/// The metadata of a message that is stored in K2V
/// at pk = mail/<mailbox uuid>, sk = <message uuid>
#[derive(Debug, Clone, Serialize, Deserialize)]
pub struct MailMeta {
/// INTERNALDATE field (milliseconds since epoch)
pub internaldate: u64,
/// Headers of the message
pub headers: Vec<u8>,
/// Secret key for decrypting entire message
pub message_key: Key,
/// RFC822 size
pub rfc822_size: usize,
}
impl MailMeta {
fn try_merge(&mut self, other: Self) -> Result<()> {
if self.headers != other.headers
|| self.message_key != other.message_key
|| self.rfc822_size != other.rfc822_size
{
bail!("Conflicting MailMeta values.");
}
self.internaldate = std::cmp::max(self.internaldate, other.internaldate);
Ok(())
}
}