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chatmail-core/src/scheduler.rs
iequidoo b6a12e3914 fix: Fix emitting ContactsChanged events on "recently seen" status change (#5377) 
- Always emit `ContactsChanged` from `contact::update_last_seen()` if a contact was seen recently
  just for simplicity and symmetry with `RecentlySeenLoop::run()` which also may emit several events
  for single contact.
- Fix sleep time calculation in `RecentlySeenLoop::run()` -- `now` must be updated on every
  iteration, before the initial value was used every time which led to progressively long sleeps.
2024-04-06 18:21:12 -03:00

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use std::cmp;
use std::iter::{self, once};
use std::num::NonZeroUsize;
use std::sync::atomic::Ordering;
use std::time::Duration;
use anyhow::{bail, Context as _, Error, Result};
use async_channel::{self as channel, Receiver, Sender};
use futures::future::try_join_all;
use futures_lite::FutureExt;
use rand::Rng;
use tokio::sync::{oneshot, RwLock, RwLockWriteGuard};
use tokio::task;
use self::connectivity::ConnectivityStore;
use crate::config::{self, Config};
use crate::contact::{ContactId, RecentlySeenLoop};
use crate::context::Context;
use crate::download::{download_msg, DownloadState};
use crate::ephemeral::{self, delete_expired_imap_messages};
use crate::events::EventType;
use crate::imap::{session::Session, FolderMeaning, Imap};
use crate::location;
use crate::log::LogExt;
use crate::message::MsgId;
use crate::smtp::{send_smtp_messages, Smtp};
use crate::sql;
use crate::tools::{self, duration_to_str, maybe_add_time_based_warnings, time, time_elapsed};
pub(crate) mod connectivity;
/// State of the IO scheduler, as stored on the [`Context`].
///
/// The IO scheduler can be stopped or started, but core can also pause it. After pausing
/// the IO scheduler will be restarted only if it was running before paused or
/// [`Context::start_io`] was called in the meantime while it was paused.
#[derive(Debug, Default)]
pub(crate) struct SchedulerState {
inner: RwLock<InnerSchedulerState>,
}
impl SchedulerState {
pub(crate) fn new() -> Self {
Default::default()
}
/// Whether the scheduler is currently running.
pub(crate) async fn is_running(&self) -> bool {
let inner = self.inner.read().await;
matches!(*inner, InnerSchedulerState::Started(_))
}
/// Starts the scheduler if it is not yet started.
pub(crate) async fn start(&self, context: Context) {
let mut inner = self.inner.write().await;
match *inner {
InnerSchedulerState::Started(_) => (),
InnerSchedulerState::Stopped => Self::do_start(inner, context).await,
InnerSchedulerState::Paused {
ref mut started, ..
} => *started = true,
}
}
/// Starts the scheduler if it is not yet started.
async fn do_start(mut inner: RwLockWriteGuard<'_, InnerSchedulerState>, context: Context) {
info!(context, "starting IO");
// Notify message processing loop
// to allow processing old messages after restart.
context.new_msgs_notify.notify_one();
let ctx = context.clone();
match Scheduler::start(&context).await {
Ok(scheduler) => {
*inner = InnerSchedulerState::Started(scheduler);
context.emit_event(EventType::ConnectivityChanged);
}
Err(err) => error!(&ctx, "Failed to start IO: {:#}", err),
}
}
/// Stops the scheduler if it is currently running.
pub(crate) async fn stop(&self, context: &Context) {
let mut inner = self.inner.write().await;
match *inner {
InnerSchedulerState::Started(_) => {
Self::do_stop(inner, context, InnerSchedulerState::Stopped).await
}
InnerSchedulerState::Stopped => (),
InnerSchedulerState::Paused {
ref mut started, ..
} => *started = false,
}
}
/// Stops the scheduler if it is currently running.
async fn do_stop(
mut inner: RwLockWriteGuard<'_, InnerSchedulerState>,
context: &Context,
new_state: InnerSchedulerState,
) {
// Sending an event wakes up event pollers (get_next_event)
// so the caller of stop_io() can arrange for proper termination.
// For this, the caller needs to instruct the event poller
// to terminate on receiving the next event and then call stop_io()
// which will emit the below event(s)
info!(context, "stopping IO");
// Wake up message processing loop even if there are no messages
// to allow for clean shutdown.
context.new_msgs_notify.notify_one();
if let Some(debug_logging) = context
.debug_logging
.read()
.expect("RwLock is poisoned")
.as_ref()
{
debug_logging.loop_handle.abort();
}
let prev_state = std::mem::replace(&mut *inner, new_state);
context.emit_event(EventType::ConnectivityChanged);
match prev_state {
InnerSchedulerState::Started(scheduler) => scheduler.stop(context).await,
InnerSchedulerState::Stopped | InnerSchedulerState::Paused { .. } => (),
}
}
/// Pauses the IO scheduler.
///
/// If it is currently running the scheduler will be stopped. When the
/// [`IoPausedGuard`] is dropped the scheduler is started again.
///
/// If in the meantime [`SchedulerState::start`] or [`SchedulerState::stop`] is called
/// resume will do the right thing and restore the scheduler to the state requested by
/// the last call.
pub(crate) async fn pause<'a>(&'_ self, context: Context) -> Result<IoPausedGuard> {
{
let mut inner = self.inner.write().await;
match *inner {
InnerSchedulerState::Started(_) => {
let new_state = InnerSchedulerState::Paused {
started: true,
pause_guards_count: NonZeroUsize::new(1).unwrap(),
};
Self::do_stop(inner, &context, new_state).await;
}
InnerSchedulerState::Stopped => {
*inner = InnerSchedulerState::Paused {
started: false,
pause_guards_count: NonZeroUsize::new(1).unwrap(),
};
}
InnerSchedulerState::Paused {
ref mut pause_guards_count,
..
} => {
*pause_guards_count = pause_guards_count
.checked_add(1)
.ok_or_else(|| Error::msg("Too many pause guards active"))?
}
}
}
let (tx, rx) = oneshot::channel();
tokio::spawn(async move {
rx.await.ok();
let mut inner = context.scheduler.inner.write().await;
match *inner {
InnerSchedulerState::Started(_) => {
warn!(&context, "IoPausedGuard resume: started instead of paused");
}
InnerSchedulerState::Stopped => {
warn!(&context, "IoPausedGuard resume: stopped instead of paused");
}
InnerSchedulerState::Paused {
ref started,
ref mut pause_guards_count,
} => {
if *pause_guards_count == NonZeroUsize::new(1).unwrap() {
match *started {
true => SchedulerState::do_start(inner, context.clone()).await,
false => *inner = InnerSchedulerState::Stopped,
}
} else {
let new_count = pause_guards_count.get() - 1;
// SAFETY: Value was >=2 before due to if condition
*pause_guards_count = NonZeroUsize::new(new_count).unwrap();
}
}
}
});
Ok(IoPausedGuard { sender: Some(tx) })
}
/// Restarts the scheduler, only if it is running.
pub(crate) async fn restart(&self, context: &Context) {
info!(context, "restarting IO");
if self.is_running().await {
self.stop(context).await;
self.start(context.clone()).await;
}
}
/// Indicate that the network likely has come back.
pub(crate) async fn maybe_network(&self) {
let inner = self.inner.read().await;
let (inbox, oboxes) = match *inner {
InnerSchedulerState::Started(ref scheduler) => {
scheduler.maybe_network();
let inbox = scheduler.inbox.conn_state.state.connectivity.clone();
let oboxes = scheduler
.oboxes
.iter()
.map(|b| b.conn_state.state.connectivity.clone())
.collect::<Vec<_>>();
(inbox, oboxes)
}
_ => return,
};
drop(inner);
connectivity::idle_interrupted(inbox, oboxes).await;
}
/// Indicate that the network likely is lost.
pub(crate) async fn maybe_network_lost(&self, context: &Context) {
let inner = self.inner.read().await;
let stores = match *inner {
InnerSchedulerState::Started(ref scheduler) => {
scheduler.maybe_network_lost();
scheduler
.boxes()
.map(|b| b.conn_state.state.connectivity.clone())
.collect()
}
_ => return,
};
drop(inner);
connectivity::maybe_network_lost(context, stores).await;
}
pub(crate) async fn interrupt_inbox(&self) {
let inner = self.inner.read().await;
if let InnerSchedulerState::Started(ref scheduler) = *inner {
scheduler.interrupt_inbox();
}
}
pub(crate) async fn interrupt_smtp(&self) {
let inner = self.inner.read().await;
if let InnerSchedulerState::Started(ref scheduler) = *inner {
scheduler.interrupt_smtp();
}
}
pub(crate) async fn interrupt_ephemeral_task(&self) {
let inner = self.inner.read().await;
if let InnerSchedulerState::Started(ref scheduler) = *inner {
scheduler.interrupt_ephemeral_task();
}
}
pub(crate) async fn interrupt_location(&self) {
let inner = self.inner.read().await;
if let InnerSchedulerState::Started(ref scheduler) = *inner {
scheduler.interrupt_location();
}
}
pub(crate) async fn interrupt_recently_seen(&self, contact_id: ContactId, timestamp: i64) {
let inner = self.inner.read().await;
if let InnerSchedulerState::Started(ref scheduler) = *inner {
scheduler.interrupt_recently_seen(contact_id, timestamp);
}
}
}
#[derive(Debug, Default)]
enum InnerSchedulerState {
Started(Scheduler),
#[default]
Stopped,
Paused {
started: bool,
pause_guards_count: NonZeroUsize,
},
}
/// Guard to make sure the IO Scheduler is resumed.
///
/// Returned by [`SchedulerState::pause`]. To resume the IO scheduler simply drop this
/// guard.
#[derive(Default, Debug)]
pub(crate) struct IoPausedGuard {
sender: Option<oneshot::Sender<()>>,
}
impl Drop for IoPausedGuard {
fn drop(&mut self) {
if let Some(sender) = self.sender.take() {
// Can only fail if receiver is dropped, but then we're already resumed.
sender.send(()).ok();
}
}
}
#[derive(Debug)]
struct SchedBox {
meaning: FolderMeaning,
conn_state: ImapConnectionState,
/// IMAP loop task handle.
handle: task::JoinHandle<()>,
}
/// Job and connection scheduler.
#[derive(Debug)]
pub(crate) struct Scheduler {
inbox: SchedBox,
/// Optional boxes -- mvbox, sentbox.
oboxes: Vec<SchedBox>,
smtp: SmtpConnectionState,
smtp_handle: task::JoinHandle<()>,
ephemeral_handle: task::JoinHandle<()>,
ephemeral_interrupt_send: Sender<()>,
location_handle: task::JoinHandle<()>,
location_interrupt_send: Sender<()>,
recently_seen_loop: RecentlySeenLoop,
}
async fn download_msgs(context: &Context, session: &mut Session) -> Result<()> {
let msg_ids = context
.sql
.query_map(
"SELECT msg_id FROM download",
(),
|row| {
let msg_id: MsgId = row.get(0)?;
Ok(msg_id)
},
|rowids| {
rowids
.collect::<std::result::Result<Vec<_>, _>>()
.map_err(Into::into)
},
)
.await?;
for msg_id in msg_ids {
if let Err(err) = download_msg(context, msg_id, session).await {
warn!(context, "Failed to download message {msg_id}: {:#}.", err);
// Update download state to failure
// so it can be retried.
//
// On success update_download_state() is not needed
// as receive_imf() already
// set the state and emitted the event.
msg_id
.update_download_state(context, DownloadState::Failure)
.await?;
}
context
.sql
.execute("DELETE FROM download WHERE msg_id=?", (msg_id,))
.await?;
}
Ok(())
}
async fn inbox_loop(
ctx: Context,
started: oneshot::Sender<()>,
inbox_handlers: ImapConnectionHandlers,
) {
use futures::future::FutureExt;
info!(ctx, "starting inbox loop");
let ImapConnectionHandlers {
mut connection,
stop_receiver,
} = inbox_handlers;
let ctx1 = ctx.clone();
let fut = async move {
let ctx = ctx1;
if let Err(()) = started.send(()) {
warn!(ctx, "inbox loop, missing started receiver");
return;
};
let mut old_session: Option<Session> = None;
loop {
let session = if let Some(session) = old_session.take() {
session
} else {
match connection.prepare(&ctx).await {
Err(err) => {
warn!(ctx, "Failed to prepare connection: {:#}.", err);
continue;
}
Ok(session) => session,
}
};
match inbox_fetch_idle(&ctx, &mut connection, session).await {
Err(err) => warn!(ctx, "Failed fetch_idle: {err:#}"),
Ok(session) => {
old_session = Some(session);
}
}
}
};
stop_receiver
.recv()
.map(|_| {
info!(ctx, "shutting down inbox loop");
})
.race(fut)
.await;
}
/// Convert folder meaning
/// used internally by [fetch_idle] and [Context::background_fetch]
pub async fn convert_folder_meaning(
ctx: &Context,
folder_meaning: FolderMeaning,
) -> Result<(Config, String)> {
let folder_config = match folder_meaning.to_config() {
Some(c) => c,
None => {
bail!("Bad folder meaning: {}", folder_meaning);
}
};
let folder = match ctx.get_config(folder_config).await {
Ok(folder) => folder,
Err(err) => {
bail!(
"Can not watch {} folder, failed to retrieve config: {:#}",
folder_config,
err
);
}
};
let watch_folder = if let Some(watch_folder) = folder {
watch_folder
} else {
bail!("Can not watch {} folder, not set", folder_config);
};
Ok((folder_config, watch_folder))
}
async fn inbox_fetch_idle(ctx: &Context, imap: &mut Imap, mut session: Session) -> Result<Session> {
// Update quota no more than once a minute.
let quota_needs_update = {
let quota = ctx.quota.read().await;
quota
.as_ref()
.filter(|quota| time_elapsed(&quota.modified) > Duration::from_secs(60))
.is_none()
};
if quota_needs_update {
if let Err(err) = ctx.update_recent_quota(&mut session).await {
warn!(ctx, "Failed to update quota: {:#}.", err);
}
}
let resync_requested = ctx.resync_request.swap(false, Ordering::Relaxed);
if resync_requested {
if let Err(err) = session.resync_folders(ctx).await {
warn!(ctx, "Failed to resync folders: {:#}.", err);
ctx.resync_request.store(true, Ordering::Relaxed);
}
}
maybe_add_time_based_warnings(ctx).await;
match ctx.get_config_i64(Config::LastHousekeeping).await {
Ok(last_housekeeping_time) => {
let next_housekeeping_time = last_housekeeping_time.saturating_add(60 * 60 * 24);
if next_housekeeping_time <= time() {
sql::housekeeping(ctx).await.log_err(ctx).ok();
}
}
Err(err) => {
warn!(ctx, "Failed to get last housekeeping time: {}", err);
}
};
match ctx.get_config_bool(Config::FetchedExistingMsgs).await {
Ok(fetched_existing_msgs) => {
if !fetched_existing_msgs {
// Consider it done even if we fail.
//
// This operation is not critical enough to retry,
// especially if the error is persistent.
if let Err(err) = ctx
.set_config_internal(Config::FetchedExistingMsgs, config::from_bool(true))
.await
{
warn!(ctx, "Can't set Config::FetchedExistingMsgs: {:#}", err);
}
if let Err(err) = imap.fetch_existing_msgs(ctx, &mut session).await {
warn!(ctx, "Failed to fetch existing messages: {:#}", err);
}
}
}
Err(err) => {
warn!(ctx, "Can't get Config::FetchedExistingMsgs: {:#}", err);
}
}
download_msgs(ctx, &mut session)
.await
.context("Failed to download messages")?;
session
.fetch_metadata(ctx)
.await
.context("Failed to fetch metadata")?;
session
.register_token(ctx)
.await
.context("Failed to register push token")?;
let session = fetch_idle(ctx, imap, session, FolderMeaning::Inbox).await?;
Ok(session)
}
/// Implement a single iteration of IMAP loop.
///
/// This function performs all IMAP operations on a single folder, selecting it if necessary and
/// handling all the errors. In case of an error, an error is returned and connection is dropped,
/// otherwise connection is returned.
async fn fetch_idle(
ctx: &Context,
connection: &mut Imap,
mut session: Session,
folder_meaning: FolderMeaning,
) -> Result<Session> {
let (folder_config, watch_folder) = match convert_folder_meaning(ctx, folder_meaning).await {
Ok(meaning) => meaning,
Err(err) => {
// Warning instead of error because the folder may not be configured.
// For example, this happens if the server does not have Sent folder
// but watching Sent folder is enabled.
warn!(ctx, "Error converting IMAP Folder name: {err:#}.");
connection.connectivity.set_not_configured(ctx).await;
connection.idle_interrupt_receiver.recv().await.ok();
return Err(err);
}
};
if folder_config == Config::ConfiguredInboxFolder {
session
.store_seen_flags_on_imap(ctx)
.await
.context("store_seen_flags_on_imap")?;
}
// Fetch the watched folder.
connection
.fetch_move_delete(ctx, &mut session, &watch_folder, folder_meaning)
.await
.context("fetch_move_delete")?;
// Mark expired messages for deletion. Marked messages will be deleted from the server
// on the next iteration of `fetch_move_delete`. `delete_expired_imap_messages` is not
// called right before `fetch_move_delete` because it is not well optimized and would
// otherwise slow down message fetching.
delete_expired_imap_messages(ctx)
.await
.context("delete_expired_imap_messages")?;
// Scan additional folders only after finishing fetching the watched folder.
//
// On iOS the application has strictly limited time to work in background, so we may not
// be able to scan all folders before time is up if there are many of them.
if folder_config == Config::ConfiguredInboxFolder {
// Only scan on the Inbox thread in order to prevent parallel scans, which might lead to duplicate messages
match connection
.scan_folders(ctx, &mut session)
.await
.context("scan_folders")
{
Err(err) => {
// Don't reconnect, if there is a problem with the connection we will realize this when IDLEing
// but maybe just one folder can't be selected or something
warn!(ctx, "{:#}", err);
}
Ok(true) => {
// Fetch the watched folder again in case scanning other folder moved messages
// there.
//
// In most cases this will select the watched folder and return because there are
// no new messages. We want to select the watched folder anyway before going IDLE
// there, so this does not take additional protocol round-trip.
connection
.fetch_move_delete(ctx, &mut session, &watch_folder, folder_meaning)
.await
.context("fetch_move_delete after scan_folders")?;
}
Ok(false) => {}
}
}
// Synchronize Seen flags.
session
.sync_seen_flags(ctx, &watch_folder)
.await
.context("sync_seen_flags")
.log_err(ctx)
.ok();
connection.connectivity.set_idle(ctx).await;
ctx.emit_event(EventType::ImapInboxIdle);
if !session.can_idle() {
info!(
ctx,
"IMAP session does not support IDLE, going to fake idle."
);
connection
.fake_idle(ctx, &mut session, watch_folder, folder_meaning)
.await?;
return Ok(session);
}
if ctx
.get_config_bool(Config::DisableIdle)
.await
.context("Failed to get disable_idle config")
.log_err(ctx)
.unwrap_or_default()
{
info!(ctx, "IMAP IDLE is disabled, going to fake idle.");
connection
.fake_idle(ctx, &mut session, watch_folder, folder_meaning)
.await?;
return Ok(session);
}
info!(ctx, "IMAP session supports IDLE, using it.");
let session = session
.idle(
ctx,
connection.idle_interrupt_receiver.clone(),
&watch_folder,
)
.await
.context("idle")?;
Ok(session)
}
async fn simple_imap_loop(
ctx: Context,
started: oneshot::Sender<()>,
inbox_handlers: ImapConnectionHandlers,
folder_meaning: FolderMeaning,
) {
use futures::future::FutureExt;
info!(ctx, "starting simple loop for {}", folder_meaning);
let ImapConnectionHandlers {
mut connection,
stop_receiver,
} = inbox_handlers;
let ctx1 = ctx.clone();
let fut = async move {
let ctx = ctx1;
if let Err(()) = started.send(()) {
warn!(&ctx, "simple imap loop, missing started receiver");
return;
}
let mut old_session: Option<Session> = None;
loop {
let session = if let Some(session) = old_session.take() {
session
} else {
match connection.prepare(&ctx).await {
Err(err) => {
warn!(ctx, "Failed to prepare connection: {:#}.", err);
continue;
}
Ok(session) => session,
}
};
match fetch_idle(&ctx, &mut connection, session, folder_meaning).await {
Err(err) => warn!(ctx, "Failed fetch_idle: {err:#}"),
Ok(session) => {
old_session = Some(session);
}
}
}
};
stop_receiver
.recv()
.map(|_| {
info!(ctx, "shutting down simple loop");
})
.race(fut)
.await;
}
async fn smtp_loop(
ctx: Context,
started: oneshot::Sender<()>,
smtp_handlers: SmtpConnectionHandlers,
) {
use futures::future::FutureExt;
info!(ctx, "starting smtp loop");
let SmtpConnectionHandlers {
mut connection,
stop_receiver,
idle_interrupt_receiver,
} = smtp_handlers;
let ctx1 = ctx.clone();
let fut = async move {
let ctx = ctx1;
if let Err(()) = started.send(()) {
warn!(&ctx, "smtp loop, missing started receiver");
return;
}
let mut timeout = None;
loop {
if let Err(err) = send_smtp_messages(&ctx, &mut connection).await {
warn!(ctx, "send_smtp_messages failed: {:#}", err);
timeout = Some(timeout.unwrap_or(30));
} else {
timeout = None;
let duration_until_can_send = ctx.ratelimit.read().await.until_can_send();
if !duration_until_can_send.is_zero() {
info!(
ctx,
"smtp got rate limited, waiting for {} until can send again",
duration_to_str(duration_until_can_send)
);
tokio::time::sleep(duration_until_can_send).await;
continue;
}
}
// Fake Idle
info!(ctx, "smtp fake idle - started");
match &connection.last_send_error {
None => connection.connectivity.set_idle(&ctx).await,
Some(err) => connection.connectivity.set_err(&ctx, err).await,
}
// If send_smtp_messages() failed, we set a timeout for the fake-idle so that
// sending is retried (at the latest) after the timeout. If sending fails
// again, we increase the timeout exponentially, in order not to do lots of
// unnecessary retries.
if let Some(t) = timeout {
let now = tools::Time::now();
info!(
ctx,
"smtp has messages to retry, planning to retry {} seconds later", t,
);
let duration = std::time::Duration::from_secs(t);
tokio::time::timeout(duration, async {
idle_interrupt_receiver.recv().await.unwrap_or_default()
})
.await
.unwrap_or_default();
let slept = time_elapsed(&now).as_secs();
timeout = Some(cmp::max(
t,
slept.saturating_add(rand::thread_rng().gen_range((slept / 2)..=slept)),
));
} else {
info!(ctx, "smtp has no messages to retry, waiting for interrupt");
idle_interrupt_receiver.recv().await.unwrap_or_default();
};
info!(ctx, "smtp fake idle - interrupted")
}
};
stop_receiver
.recv()
.map(|_| {
info!(ctx, "shutting down smtp loop");
})
.race(fut)
.await;
}
impl Scheduler {
/// Start the scheduler.
pub async fn start(ctx: &Context) -> Result<Self> {
let (smtp, smtp_handlers) = SmtpConnectionState::new();
let (smtp_start_send, smtp_start_recv) = oneshot::channel();
let (ephemeral_interrupt_send, ephemeral_interrupt_recv) = channel::bounded(1);
let (location_interrupt_send, location_interrupt_recv) = channel::bounded(1);
let mut oboxes = Vec::new();
let mut start_recvs = Vec::new();
let (conn_state, inbox_handlers) = ImapConnectionState::new(ctx).await?;
let (inbox_start_send, inbox_start_recv) = oneshot::channel();
let handle = {
let ctx = ctx.clone();
task::spawn(inbox_loop(ctx, inbox_start_send, inbox_handlers))
};
let inbox = SchedBox {
meaning: FolderMeaning::Inbox,
conn_state,
handle,
};
start_recvs.push(inbox_start_recv);
for (meaning, should_watch) in [
(FolderMeaning::Mvbox, ctx.should_watch_mvbox().await),
(FolderMeaning::Sent, ctx.should_watch_sentbox().await),
] {
if should_watch? {
let (conn_state, handlers) = ImapConnectionState::new(ctx).await?;
let (start_send, start_recv) = oneshot::channel();
let ctx = ctx.clone();
let handle = task::spawn(simple_imap_loop(ctx, start_send, handlers, meaning));
oboxes.push(SchedBox {
meaning,
conn_state,
handle,
});
start_recvs.push(start_recv);
}
}
let smtp_handle = {
let ctx = ctx.clone();
task::spawn(smtp_loop(ctx, smtp_start_send, smtp_handlers))
};
start_recvs.push(smtp_start_recv);
let ephemeral_handle = {
let ctx = ctx.clone();
task::spawn(async move {
ephemeral::ephemeral_loop(&ctx, ephemeral_interrupt_recv).await;
})
};
let location_handle = {
let ctx = ctx.clone();
task::spawn(async move {
location::location_loop(&ctx, location_interrupt_recv).await;
})
};
let recently_seen_loop = RecentlySeenLoop::new(ctx.clone());
let res = Self {
inbox,
oboxes,
smtp,
smtp_handle,
ephemeral_handle,
ephemeral_interrupt_send,
location_handle,
location_interrupt_send,
recently_seen_loop,
};
// wait for all loops to be started
if let Err(err) = try_join_all(start_recvs).await {
bail!("failed to start scheduler: {}", err);
}
info!(ctx, "scheduler is running");
Ok(res)
}
fn boxes(&self) -> iter::Chain<iter::Once<&SchedBox>, std::slice::Iter<'_, SchedBox>> {
once(&self.inbox).chain(self.oboxes.iter())
}
fn maybe_network(&self) {
for b in self.boxes() {
b.conn_state.interrupt();
}
self.interrupt_smtp();
}
fn maybe_network_lost(&self) {
for b in self.boxes() {
b.conn_state.interrupt();
}
self.interrupt_smtp();
}
fn interrupt_inbox(&self) {
self.inbox.conn_state.interrupt();
}
fn interrupt_smtp(&self) {
self.smtp.interrupt();
}
fn interrupt_ephemeral_task(&self) {
self.ephemeral_interrupt_send.try_send(()).ok();
}
fn interrupt_location(&self) {
self.location_interrupt_send.try_send(()).ok();
}
fn interrupt_recently_seen(&self, contact_id: ContactId, timestamp: i64) {
self.recently_seen_loop.try_interrupt(contact_id, timestamp);
}
/// Halt the scheduler.
///
/// It consumes the scheduler and never fails to stop it. In the worst case, long-running tasks
/// are forcefully terminated if they cannot shutdown within the timeout.
pub(crate) async fn stop(self, context: &Context) {
// Send stop signals to tasks so they can shutdown cleanly.
for b in self.boxes() {
b.conn_state.stop().await.log_err(context).ok();
}
self.smtp.stop().await.log_err(context).ok();
// Actually shutdown tasks.
let timeout_duration = std::time::Duration::from_secs(30);
for b in once(self.inbox).chain(self.oboxes) {
tokio::time::timeout(timeout_duration, b.handle)
.await
.log_err(context)
.ok();
}
tokio::time::timeout(timeout_duration, self.smtp_handle)
.await
.log_err(context)
.ok();
self.ephemeral_handle.abort();
self.location_handle.abort();
self.recently_seen_loop.abort();
}
}
/// Connection state logic shared between imap and smtp connections.
#[derive(Debug)]
struct ConnectionState {
/// Channel to interrupt the whole connection.
stop_sender: Sender<()>,
/// Channel to interrupt idle.
idle_interrupt_sender: Sender<()>,
/// Mutex to pass connectivity info between IMAP/SMTP threads and the API
connectivity: ConnectivityStore,
}
impl ConnectionState {
/// Shutdown this connection completely.
async fn stop(&self) -> Result<()> {
// Trigger shutdown of the run loop.
self.stop_sender
.send(())
.await
.context("failed to stop, missing receiver")?;
Ok(())
}
fn interrupt(&self) {
// Use try_send to avoid blocking on interrupts.
self.idle_interrupt_sender.try_send(()).ok();
}
}
#[derive(Debug)]
pub(crate) struct SmtpConnectionState {
state: ConnectionState,
}
impl SmtpConnectionState {
fn new() -> (Self, SmtpConnectionHandlers) {
let (stop_sender, stop_receiver) = channel::bounded(1);
let (idle_interrupt_sender, idle_interrupt_receiver) = channel::bounded(1);
let handlers = SmtpConnectionHandlers {
connection: Smtp::new(),
stop_receiver,
idle_interrupt_receiver,
};
let state = ConnectionState {
stop_sender,
idle_interrupt_sender,
connectivity: handlers.connection.connectivity.clone(),
};
let conn = SmtpConnectionState { state };
(conn, handlers)
}
/// Interrupt any form of idle.
fn interrupt(&self) {
self.state.interrupt();
}
/// Shutdown this connection completely.
async fn stop(&self) -> Result<()> {
self.state.stop().await?;
Ok(())
}
}
struct SmtpConnectionHandlers {
connection: Smtp,
stop_receiver: Receiver<()>,
idle_interrupt_receiver: Receiver<()>,
}
#[derive(Debug)]
pub(crate) struct ImapConnectionState {
state: ConnectionState,
}
impl ImapConnectionState {
/// Construct a new connection.
async fn new(context: &Context) -> Result<(Self, ImapConnectionHandlers)> {
let (stop_sender, stop_receiver) = channel::bounded(1);
let (idle_interrupt_sender, idle_interrupt_receiver) = channel::bounded(1);
let handlers = ImapConnectionHandlers {
connection: Imap::new_configured(context, idle_interrupt_receiver).await?,
stop_receiver,
};
let state = ConnectionState {
stop_sender,
idle_interrupt_sender,
connectivity: handlers.connection.connectivity.clone(),
};
let conn = ImapConnectionState { state };
Ok((conn, handlers))
}
/// Interrupt any form of idle.
fn interrupt(&self) {
self.state.interrupt();
}
/// Shutdown this connection completely.
async fn stop(&self) -> Result<()> {
self.state.stop().await?;
Ok(())
}
}
#[derive(Debug)]
struct ImapConnectionHandlers {
connection: Imap,
stop_receiver: Receiver<()>,
}
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