use crate::util::{ get_activity_cached, get_actor_cached, get_latest_activity_id, LEMMY_TEST_FAST_FEDERATION, WORK_FINISHED_RECHECK_DELAY, }; use activitypub_federation::{ activity_sending::SendActivityTask, config::Data, protocol::context::WithContext, }; use anyhow::{Context, Result}; use chrono::{DateTime, Days, TimeZone, Utc}; use lemmy_api_common::{context::LemmyContext, federate_retry_sleep_duration}; use lemmy_apub::{activity_lists::SharedInboxActivities, FEDERATION_CONTEXT}; use lemmy_db_schema::{ newtypes::{ActivityId, CommunityId, InstanceId}, source::{ activity::SentActivity, federation_queue_state::FederationQueueState, instance::{Instance, InstanceForm}, site::Site, }, utils::{naive_now, DbPool}, }; use lemmy_db_views_actor::structs::CommunityFollowerView; use once_cell::sync::Lazy; use reqwest::Url; use std::{ collections::{HashMap, HashSet}, ops::{Add, Deref}, time::Duration, }; use tokio::{sync::mpsc::UnboundedSender, time::sleep}; use tokio_util::sync::CancellationToken; /// Check whether to save state to db every n sends if there's no failures (during failures state is saved after every attempt) /// This determines the batch size for loop_batch. After a batch ends and SAVE_STATE_EVERY_TIME has passed, the federation_queue_state is updated in the DB. static CHECK_SAVE_STATE_EVERY_IT: i64 = 100; /// Save state to db after this time has passed since the last state (so if the server crashes or is SIGKILLed, less than X seconds of activities are resent) static SAVE_STATE_EVERY_TIME: Duration = Duration::from_secs(60); /// interval with which new additions to community_followers are queried. /// /// The first time some user on an instance follows a specific remote community (or, more precisely: the first time a (followed_community_id, follower_inbox_url) tuple appears), /// this delay limits the maximum time until the follow actually results in activities from that community id being sent to that inbox url. /// This delay currently needs to not be too small because the DB load is currently fairly high because of the current structure of storing inboxes for every person, not having a separate list of shared_inboxes, and the architecture of having every instance queue be fully separate. /// (see https://github.com/LemmyNet/lemmy/issues/3958) static FOLLOW_ADDITIONS_RECHECK_DELAY: Lazy = Lazy::new(|| { if *LEMMY_TEST_FAST_FEDERATION { chrono::TimeDelta::try_seconds(1).expect("TimeDelta out of bounds") } else { chrono::TimeDelta::try_minutes(2).expect("TimeDelta out of bounds") } }); /// The same as FOLLOW_ADDITIONS_RECHECK_DELAY, but triggering when the last person on an instance unfollows a specific remote community. /// This is expected to happen pretty rarely and updating it in a timely manner is not too important. static FOLLOW_REMOVALS_RECHECK_DELAY: Lazy = Lazy::new(|| chrono::TimeDelta::try_hours(1).expect("TimeDelta out of bounds")); pub(crate) struct InstanceWorker { instance: Instance, // load site lazily because if an instance is first seen due to being on allowlist, // the corresponding row in `site` may not exist yet since that is only added once // `fetch_instance_actor_for_object` is called. // (this should be unlikely to be relevant outside of the federation tests) site_loaded: bool, site: Option, followed_communities: HashMap>, stop: CancellationToken, context: Data, stats_sender: UnboundedSender<(String, FederationQueueState)>, last_full_communities_fetch: DateTime, last_incremental_communities_fetch: DateTime, state: FederationQueueState, last_state_insert: DateTime, } impl InstanceWorker { pub(crate) async fn init_and_loop( instance: Instance, context: Data, pool: &mut DbPool<'_>, // in theory there's a ref to the pool in context, but i couldn't get that to work wrt lifetimes stop: CancellationToken, stats_sender: UnboundedSender<(String, FederationQueueState)>, ) -> Result<(), anyhow::Error> { let state = FederationQueueState::load(pool, instance.id).await?; let mut worker = InstanceWorker { instance, site_loaded: false, site: None, followed_communities: HashMap::new(), stop, context, stats_sender, last_full_communities_fetch: Utc.timestamp_nanos(0), last_incremental_communities_fetch: Utc.timestamp_nanos(0), state, last_state_insert: Utc.timestamp_nanos(0), }; worker.loop_until_stopped(pool).await } /// loop fetch new activities from db and send them to the inboxes of the given instances /// this worker only returns if (a) there is an internal error or (b) the cancellation token is cancelled (graceful exit) pub(crate) async fn loop_until_stopped( &mut self, pool: &mut DbPool<'_>, ) -> Result<(), anyhow::Error> { let save_state_every = chrono::Duration::from_std(SAVE_STATE_EVERY_TIME).expect("not negative"); self.update_communities(pool).await?; self.initial_fail_sleep().await?; while !self.stop.is_cancelled() { self.loop_batch(pool).await?; if self.stop.is_cancelled() { break; } if (Utc::now() - self.last_state_insert) > save_state_every { self.save_and_send_state(pool).await?; } self.update_communities(pool).await?; } // final update of state in db self.save_and_send_state(pool).await?; Ok(()) } async fn initial_fail_sleep(&mut self) -> Result<()> { // before starting queue, sleep remaining duration if last request failed if self.state.fail_count > 0 { let last_retry = self .state .last_retry .context("impossible: if fail count set last retry also set")?; let elapsed = (Utc::now() - last_retry).to_std()?; let required = federate_retry_sleep_duration(self.state.fail_count); if elapsed >= required { return Ok(()); } let remaining = required - elapsed; tokio::select! { () = sleep(remaining) => {}, () = self.stop.cancelled() => {} } } Ok(()) } /// send out a batch of CHECK_SAVE_STATE_EVERY_IT activities async fn loop_batch(&mut self, pool: &mut DbPool<'_>) -> Result<()> { let latest_id = get_latest_activity_id(pool).await?; let mut id = if let Some(id) = self.state.last_successful_id { id } else { // this is the initial creation (instance first seen) of the federation queue for this instance // skip all past activities: self.state.last_successful_id = Some(latest_id); // save here to ensure it's not read as 0 again later if no activities have happened self.save_and_send_state(pool).await?; latest_id }; if id >= latest_id { // no more work to be done, wait before rechecking tokio::select! { () = sleep(*WORK_FINISHED_RECHECK_DELAY) => {}, () = self.stop.cancelled() => {} } return Ok(()); } let mut processed_activities = 0; while id < latest_id && processed_activities < CHECK_SAVE_STATE_EVERY_IT && !self.stop.is_cancelled() { id = ActivityId(id.0 + 1); processed_activities += 1; let Some(ele) = get_activity_cached(pool, id) .await .context("failed reading activity from db")? else { tracing::debug!("{}: {:?} does not exist", self.instance.domain, id); self.state.last_successful_id = Some(id); continue; }; if let Err(e) = self.send_retry_loop(pool, &ele.0, &ele.1).await { tracing::warn!( "sending {} errored internally, skipping activity: {:?}", ele.0.ap_id, e ); } if self.stop.is_cancelled() { return Ok(()); } // send success! self.state.last_successful_id = Some(id); self.state.last_successful_published_time = Some(ele.0.published); self.state.fail_count = 0; } Ok(()) } // this function will return successfully when (a) send succeeded or (b) worker cancelled // and will return an error if an internal error occurred (send errors cause an infinite loop) async fn send_retry_loop( &mut self, pool: &mut DbPool<'_>, activity: &SentActivity, object: &SharedInboxActivities, ) -> Result<()> { let inbox_urls = self .get_inbox_urls(pool, activity) .await .context("failed figuring out inbox urls")?; if inbox_urls.is_empty() { tracing::debug!("{}: {:?} no inboxes", self.instance.domain, activity.id); self.state.last_successful_id = Some(activity.id); self.state.last_successful_published_time = Some(activity.published); return Ok(()); } let Some(actor_apub_id) = &activity.actor_apub_id else { return Ok(()); // activity was inserted before persistent queue was activated }; let actor = get_actor_cached(pool, activity.actor_type, actor_apub_id) .await .context("failed getting actor instance (was it marked deleted / removed?)")?; let object = WithContext::new(object.clone(), FEDERATION_CONTEXT.deref().clone()); let inbox_urls = inbox_urls.into_iter().collect(); let requests = SendActivityTask::prepare(&object, actor.as_ref(), inbox_urls, &self.context).await?; for task in requests { // usually only one due to shared inbox tracing::debug!("sending out {}", task); while let Err(e) = task.sign_and_send(&self.context).await { self.state.fail_count += 1; self.state.last_retry = Some(Utc::now()); let retry_delay: Duration = federate_retry_sleep_duration(self.state.fail_count); tracing::info!( "{}: retrying {:?} attempt {} with delay {retry_delay:.2?}. ({e})", self.instance.domain, activity.id, self.state.fail_count ); self.save_and_send_state(pool).await?; tokio::select! { () = sleep(retry_delay) => {}, () = self.stop.cancelled() => { // save state to db and exit return Ok(()); } } } // Activity send successful, mark instance as alive if it hasn't been updated in a while. let updated = self.instance.updated.unwrap_or(self.instance.published); if updated.add(Days::new(1)) < Utc::now() { self.instance.updated = Some(Utc::now()); let form = InstanceForm::builder() .domain(self.instance.domain.clone()) .updated(Some(naive_now())) .build(); Instance::update(pool, self.instance.id, form).await?; } } Ok(()) } /// get inbox urls of sending the given activity to the given instance /// most often this will return 0 values (if instance doesn't care about the activity) /// or 1 value (the shared inbox) /// > 1 values only happens for non-lemmy software async fn get_inbox_urls( &mut self, pool: &mut DbPool<'_>, activity: &SentActivity, ) -> Result> { let mut inbox_urls: HashSet = HashSet::new(); if activity.send_all_instances { if !self.site_loaded { self.site = Site::read_from_instance_id(pool, self.instance.id).await?; self.site_loaded = true; } if let Some(site) = &self.site { // Nutomic: Most non-lemmy software wont have a site row. That means it cant handle these activities. So handling it like this is fine. inbox_urls.insert(site.inbox_url.inner().clone()); } } if let Some(t) = &activity.send_community_followers_of { if let Some(urls) = self.followed_communities.get(t) { inbox_urls.extend(urls.iter().cloned()); } } inbox_urls.extend( activity .send_inboxes .iter() .filter_map(std::option::Option::as_ref) .filter(|&u| (u.domain() == Some(&self.instance.domain))) .map(|u| u.inner().clone()), ); Ok(inbox_urls) } async fn update_communities(&mut self, pool: &mut DbPool<'_>) -> Result<()> { if (Utc::now() - self.last_full_communities_fetch) > *FOLLOW_REMOVALS_RECHECK_DELAY { // process removals every hour (self.followed_communities, self.last_full_communities_fetch) = self .get_communities(pool, self.instance.id, Utc.timestamp_nanos(0)) .await?; self.last_incremental_communities_fetch = self.last_full_communities_fetch; } if (Utc::now() - self.last_incremental_communities_fetch) > *FOLLOW_ADDITIONS_RECHECK_DELAY { // process additions every minute let (news, time) = self .get_communities( pool, self.instance.id, self.last_incremental_communities_fetch, ) .await?; self.followed_communities.extend(news); self.last_incremental_communities_fetch = time; } Ok(()) } /// get a list of local communities with the remote inboxes on the given instance that cares about them async fn get_communities( &mut self, pool: &mut DbPool<'_>, instance_id: InstanceId, last_fetch: DateTime, ) -> Result<(HashMap>, DateTime)> { let new_last_fetch = Utc::now() - chrono::TimeDelta::try_seconds(10).expect("TimeDelta out of bounds"); // update to time before fetch to ensure overlap. subtract 10s to ensure overlap even if published date is not exact Ok(( CommunityFollowerView::get_instance_followed_community_inboxes(pool, instance_id, last_fetch) .await? .into_iter() .fold(HashMap::new(), |mut map, (c, u)| { map.entry(c).or_default().insert(u.into()); map }), new_last_fetch, )) } async fn save_and_send_state(&mut self, pool: &mut DbPool<'_>) -> Result<()> { self.last_state_insert = Utc::now(); FederationQueueState::upsert(pool, &self.state).await?; self .stats_sender .send((self.instance.domain.clone(), self.state.clone()))?; Ok(()) } }