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use std::collections::HashMap;
use std::pin::Pin;
use std::sync::{Arc, Weak};
use std::time::Duration;
use anyhow::{anyhow, bail, Result};
use futures::{future::BoxFuture, Future, FutureExt};
use k2v_client::{CausalValue, CausalityToken, K2vClient, K2vValue};
use rusoto_s3::{PutObjectRequest, S3Client, S3};
use tokio::sync::watch;
use tracing::{error, info, warn};
use crate::cryptoblob;
use crate::login::{Credentials, PublicCredentials};
use crate::mail::mailbox::Mailbox;
use crate::mail::uidindex::ImapUidvalidity;
use crate::mail::unique_ident::*;
use crate::mail::user::User;
use crate::time::now_msec;
const INCOMING_PK: &str = "incoming";
const INCOMING_LOCK_SK: &str = "lock";
const INCOMING_WATCH_SK: &str = "watch";
// When a lock is held, it is held for LOCK_DURATION (here 5 minutes)
// It is renewed every LOCK_DURATION/3
// If we are at 2*LOCK_DURATION/3 and haven't renewed, we assume we
// lost the lock.
const LOCK_DURATION: Duration = Duration::from_secs(300);
pub async fn incoming_mail_watch_process(
user: Weak<User>,
creds: Credentials,
rx_inbox_id: watch::Receiver<Option<(UniqueIdent, ImapUidvalidity)>>,
) {
if let Err(e) = incoming_mail_watch_process_internal(user, creds, rx_inbox_id).await {
error!("Error in incoming mail watch process: {}", e);
}
}
async fn incoming_mail_watch_process_internal(
user: Weak<User>,
creds: Credentials,
mut rx_inbox_id: watch::Receiver<Option<(UniqueIdent, ImapUidvalidity)>>,
) -> Result<()> {
let mut lock_held = k2v_lock_loop(creds.k2v_client()?, INCOMING_PK, INCOMING_LOCK_SK);
let k2v = creds.k2v_client()?;
let s3 = creds.s3_client()?;
let mut inbox: Option<Arc<Mailbox>> = None;
let mut prev_ct: Option<CausalityToken> = None;
loop {
let new_mail = if *lock_held.borrow() {
info!("incoming lock held");
let wait_new_mail = async {
loop {
match k2v_wait_value_changed(&k2v, &INCOMING_PK, &INCOMING_WATCH_SK, &prev_ct)
.await
{
Ok(cv) => break cv,
Err(e) => {
error!("Error in wait_new_mail: {}", e);
tokio::time::sleep(Duration::from_secs(30)).await;
}
}
}
};
tokio::select! {
cv = wait_new_mail => Some(cv.causality),
_ = tokio::time::sleep(Duration::from_secs(300)) => prev_ct.take(),
_ = lock_held.changed() => None,
_ = rx_inbox_id.changed() => None,
}
} else {
info!("incoming lock not held");
tokio::select! {
_ = lock_held.changed() => None,
_ = rx_inbox_id.changed() => None,
}
};
if let Some(user) = Weak::upgrade(&user) {
info!("User still available");
// If INBOX no longer is same mailbox, open new mailbox
let inbox_id = rx_inbox_id.borrow().clone();
if let Some((id, uidvalidity)) = inbox_id {
if Some(id) != inbox.as_ref().map(|b| b.id) {
match user.open_mailbox_by_id(id, uidvalidity).await {
Ok(mb) => {
inbox = mb;
}
Err(e) => {
inbox = None;
error!("Error when opening inbox ({}): {}", id, e);
tokio::time::sleep(Duration::from_secs(30)).await;
}
}
}
}
// If we were able to open INBOX, and we have mail (implies lock is held),
// fetch new mail
if let (Some(inbox), Some(new_ct)) = (&inbox, new_mail) {
match handle_incoming_mail(&user, &s3, inbox).await {
Ok(()) => {
prev_ct = Some(new_ct);
}
Err(e) => {
error!("Could not fetch incoming mail: {}", e);
tokio::time::sleep(Duration::from_secs(30)).await;
}
}
}
} else {
info!("User no longer available, exiting incoming loop.");
break;
}
}
drop(rx_inbox_id);
Ok(())
}
async fn handle_incoming_mail(user: &Arc<User>, s3: &S3Client, inbox: &Arc<Mailbox>) -> Result<()> {
unimplemented!()
}
// ---- UTIL: K2V locking loop, use this to try to grab a lock using a K2V entry as a signal ----
fn k2v_lock_loop(k2v: K2vClient, pk: &'static str, sk: &'static str) -> watch::Receiver<bool> {
let (held_tx, held_rx) = watch::channel(false);
tokio::spawn(k2v_lock_loop_internal(k2v, pk, sk, held_tx));
held_rx
}
#[derive(Clone, Debug)]
enum LockState {
Unknown,
Empty,
Held(UniqueIdent, u64, CausalityToken),
}
async fn k2v_lock_loop_internal(
k2v: K2vClient,
pk: &'static str,
sk: &'static str,
held_tx: watch::Sender<bool>,
) {
let (state_tx, mut state_rx) = watch::channel::<LockState>(LockState::Unknown);
let mut state_rx_2 = state_rx.clone();
let our_pid = gen_ident();
// Loop 1: watch state of lock in K2V, save that in corresponding watch channel
let watch_lock_loop: BoxFuture<Result<()>> = async {
let mut ct = None;
loop {
match k2v_wait_value_changed(&k2v, pk, sk, &ct).await {
Err(e) => {
error!(
"Error in k2v wait value changed: {} ; assuming we no longer hold lock.",
e
);
state_tx.send(LockState::Unknown)?;
tokio::time::sleep(Duration::from_secs(30)).await;
}
Ok(cv) => {
let mut lock_state = None;
for v in cv.value.iter() {
if let K2vValue::Value(vbytes) = v {
if vbytes.len() == 32 {
let ts = u64::from_be_bytes(vbytes[..8].try_into().unwrap());
let pid = UniqueIdent(vbytes[8..].try_into().unwrap());
if lock_state
.map(|(pid2, ts2)| ts > ts2 || (ts == ts2 && pid > pid2))
.unwrap_or(true)
{
lock_state = Some((pid, ts));
}
}
}
}
state_tx.send(
lock_state
.map(|(pid, ts)| LockState::Held(pid, ts, cv.causality.clone()))
.unwrap_or(LockState::Empty),
)?;
ct = Some(cv.causality);
}
}
info!("Stopping lock state watch");
}
}
.boxed();
// Loop 2: notify user whether we are holding the lock or not
let lock_notify_loop: BoxFuture<Result<()>> = async {
loop {
let now = now_msec();
let held_with_expiration_time = match &*state_rx.borrow_and_update() {
LockState::Held(pid, ts, _ct) if *pid == our_pid => {
let expiration_time = *ts - (LOCK_DURATION / 3).as_millis() as u64;
if now < expiration_time {
Some(expiration_time)
} else {
None
}
}
_ => None,
};
held_tx.send(held_with_expiration_time.is_some())?;
let await_expired = async {
match held_with_expiration_time {
None => futures::future::pending().await,
Some(expiration_time) => {
tokio::time::sleep(Duration::from_millis(expiration_time - now)).await
}
};
};
tokio::select!(
r = state_rx.changed() => {
r?;
}
_ = held_tx.closed() => bail!("held_tx closed, don't need to hold lock anymore"),
_ = await_expired => continue,
);
}
}
.boxed();
// Loop 3: acquire lock when relevant
let take_lock_loop: BoxFuture<Result<()>> = async {
loop {
let now = now_msec();
let state: LockState = state_rx_2.borrow_and_update().clone();
let (acquire_at, ct) = match state {
LockState::Unknown => {
// If state of the lock is unknown, don't try to acquire
state_rx_2.changed().await?;
continue;
}
LockState::Empty => (now, None),
LockState::Held(pid, ts, ct) => {
if pid == our_pid {
(ts - (2 * LOCK_DURATION / 3).as_millis() as u64, Some(ct))
} else {
(ts, Some(ct))
}
}
};
// Wait until it is time to acquire lock
if acquire_at > now {
tokio::select!(
r = state_rx_2.changed() => {
// If lock state changed in the meantime, don't acquire and loop around
r?;
continue;
}
_ = tokio::time::sleep(Duration::from_millis(acquire_at - now)) => ()
);
}
// Acquire lock
let mut lock = vec![0u8; 32];
lock[..8].copy_from_slice(&u64::to_be_bytes(now_msec()));
lock[8..].copy_from_slice(&our_pid.0);
if let Err(e) = k2v.insert_item(pk, sk, lock, ct).await {
error!("Could not take lock: {}", e);
tokio::time::sleep(Duration::from_secs(30)).await;
}
// Wait for new information to loop back
state_rx_2.changed().await?;
}
}
.boxed();
let res = futures::try_join!(watch_lock_loop, lock_notify_loop, take_lock_loop);
info!("lock loop exited: {:?}, releasing", res);
if !held_tx.is_closed() {
warn!("wierd...");
let _ = held_tx.send(false);
}
// If lock is ours, release it
let release = match &*state_rx.borrow() {
LockState::Held(pid, _, ct) if *pid == our_pid => Some(ct.clone()),
_ => None,
};
if let Some(ct) = release {
let _ = k2v.delete_item(pk, sk, ct.clone()).await;
}
}
// ---- UTIL: function to wait for a value to have changed in K2V ----
async fn k2v_wait_value_changed<'a>(
k2v: &'a K2vClient,
pk: &'static str,
sk: &'static str,
prev_ct: &'a Option<CausalityToken>,
) -> Result<CausalValue> {
loop {
if let Some(ct) = prev_ct {
match k2v.poll_item(pk, sk, ct.clone(), None).await? {
None => continue,
Some(cv) => return Ok(cv),
}
} else {
match k2v.read_item(pk, sk).await {
Err(k2v_client::Error::NotFound) => {
k2v.insert_item(pk, sk, vec![0u8], None).await?;
}
Err(e) => return Err(e.into()),
Ok(cv) => return Ok(cv),
}
}
}
}
// ---- LMTP SIDE: storing messages encrypted with user's pubkey ----
pub struct EncryptedMessage {
key: cryptoblob::Key,
encrypted_body: Vec<u8>,
}
impl EncryptedMessage {
pub fn new(body: Vec<u8>) -> Result<Self> {
let key = cryptoblob::gen_key();
let encrypted_body = cryptoblob::seal(&body, &key)?;
Ok(Self {
key,
encrypted_body,
})
}
pub async fn deliver_to(self: Arc<Self>, creds: PublicCredentials) -> Result<()> {
let s3_client = creds.storage.s3_client()?;
let k2v_client = creds.storage.k2v_client()?;
// Get causality token of previous watch key
let watch_ct = match k2v_client.read_item(INCOMING_PK, INCOMING_WATCH_SK).await {
Err(_) => None,
Ok(cv) => Some(cv.causality),
};
// Write mail to encrypted storage
let encrypted_key =
sodiumoxide::crypto::sealedbox::seal(self.key.as_ref(), &creds.public_key);
let key_header = base64::encode(&encrypted_key);
let mut por = PutObjectRequest::default();
por.bucket = creds.storage.bucket.clone();
por.key = format!("incoming/{}", gen_ident().to_string());
por.metadata = Some(
[("Message-Key".to_string(), key_header)]
.into_iter()
.collect::<HashMap<_, _>>(),
);
por.body = Some(self.encrypted_body.clone().into());
s3_client.put_object(por).await?;
// Update watch key to signal new mail
k2v_client
.insert_item(
INCOMING_PK,
INCOMING_WATCH_SK,
gen_ident().0.to_vec(),
watch_ct,
)
.await?;
Ok(())
}
}
|