121 lines
3.2 KiB
Rust
121 lines
3.2 KiB
Rust
use std::{
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collections::{HashMap, HashSet, VecDeque},
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iter::once,
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};
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use futures::FutureExt;
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use ruma::{
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CanonicalJsonObject, EventId, MilliSecondsSinceUnixEpoch, OwnedEventId, RoomId,
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RoomVersionId, ServerName, int, uint,
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};
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use tuwunel_core::{
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Result, debug_warn, err, implement,
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matrix::{Event, PduEvent},
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state_res::{self},
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};
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use super::check_room_id;
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#[implement(super::Service)]
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#[tracing::instrument(
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level = "debug",
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skip_all,
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fields(%origin),
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)]
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#[allow(clippy::type_complexity)]
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pub(super) async fn fetch_prev<'a, Events>(
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&self,
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origin: &ServerName,
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room_id: &RoomId,
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initial_set: Events,
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room_version: &RoomVersionId,
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first_ts_in_room: MilliSecondsSinceUnixEpoch,
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) -> Result<(Vec<OwnedEventId>, HashMap<OwnedEventId, (PduEvent, CanonicalJsonObject)>)>
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where
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Events: Iterator<Item = &'a EventId> + Clone + Send,
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{
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let num_ids = initial_set.clone().count();
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let mut eventid_info = HashMap::new();
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let mut graph: HashMap<OwnedEventId, _> = HashMap::with_capacity(num_ids);
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let mut todo_outlier_stack: VecDeque<OwnedEventId> =
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initial_set.map(ToOwned::to_owned).collect();
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let mut amount = 0;
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while let Some(prev_event_id) = todo_outlier_stack.pop_front() {
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self.services.server.check_running()?;
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match self
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.fetch_auth(origin, room_id, once(prev_event_id.as_ref()), room_version)
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.boxed()
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.await
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.pop()
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{
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| Some((pdu, mut json_opt)) => {
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check_room_id(room_id, &pdu)?;
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let limit = self.services.server.config.max_fetch_prev_events;
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if amount > limit {
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debug_warn!(?limit, "Max prev event limit reached!");
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graph.insert(prev_event_id.clone(), HashSet::new());
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continue;
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}
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if json_opt.is_none() {
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json_opt = self
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.services
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.timeline
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.get_outlier_pdu_json(&prev_event_id)
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.await
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.ok();
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}
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if let Some(json) = json_opt {
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if pdu.origin_server_ts() > first_ts_in_room {
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amount = amount.saturating_add(1);
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for prev_prev in pdu.prev_events() {
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if !graph.contains_key(prev_prev) {
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todo_outlier_stack.push_back(prev_prev.to_owned());
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}
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}
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graph.insert(
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prev_event_id.clone(),
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pdu.prev_events().map(ToOwned::to_owned).collect(),
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);
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} else {
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// Time based check failed
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graph.insert(prev_event_id.clone(), HashSet::new());
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}
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eventid_info.insert(prev_event_id.clone(), (pdu, json));
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} else {
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// Get json failed, so this was not fetched over federation
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graph.insert(prev_event_id.clone(), HashSet::new());
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}
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},
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| _ => {
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// Fetch and handle failed
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graph.insert(prev_event_id.clone(), HashSet::new());
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},
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}
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}
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let event_fetch = async |event_id: OwnedEventId| {
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let origin_server_ts = eventid_info
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.get(&event_id)
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.map_or_else(|| uint!(0), |info| info.0.origin_server_ts().get());
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// This return value is the key used for sorting events,
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// events are then sorted by power level, time,
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// and lexically by event_id.
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Ok((int!(0), MilliSecondsSinceUnixEpoch(origin_server_ts)))
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};
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let sorted = state_res::lexicographical_topological_sort(&graph, &event_fetch)
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.await
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.map_err(|e| err!(Database(error!("Error sorting prev events: {e}"))))?;
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Ok((sorted, eventid_info))
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}
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