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tsuki/src/service/rooms/event_handler/mod.rs
Matthias Ahouansou ba2a5a6115
chore: bump all dependencies
2024-06-11 20:35:56 +01:00

1855 lines
69 KiB
Rust
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/// An async function that can recursively call itself.
type AsyncRecursiveType<'a, T> = Pin<Box<dyn Future<Output = T> + 'a + Send>>;
use std::{
collections::{hash_map, BTreeMap, HashMap, HashSet},
pin::Pin,
sync::Arc,
time::{Duration, Instant, SystemTime},
};
use futures_util::{stream::FuturesUnordered, Future, StreamExt};
use ruma::{
api::{
client::error::ErrorKind,
federation::{
discovery::{
get_remote_server_keys,
get_remote_server_keys_batch::{self, v2::QueryCriteria},
get_server_keys,
},
event::{get_event, get_room_state_ids},
membership::create_join_event,
},
},
events::{
room::{
create::RoomCreateEventContent, redaction::RoomRedactionEventContent,
server_acl::RoomServerAclEventContent,
},
StateEventType, TimelineEventType,
},
int,
serde::Base64,
state_res::{self, RoomVersion, StateMap},
uint, CanonicalJsonObject, CanonicalJsonValue, EventId, MilliSecondsSinceUnixEpoch,
OwnedServerName, OwnedServerSigningKeyId, RoomId, RoomVersionId, ServerName,
};
use serde_json::value::RawValue as RawJsonValue;
use tokio::sync::{RwLock, RwLockWriteGuard, Semaphore};
use tracing::{debug, error, info, trace, warn};
use crate::{service::*, services, Error, PduEvent, Result};
use super::state_compressor::CompressedStateEvent;
pub struct Service;
impl Service {
/// When receiving an event one needs to:
/// 0. Check the server is in the room
/// 1. Skip the PDU if we already know about it
/// 1.1. Remove unsigned field
/// 2. Check signatures, otherwise drop
/// 3. Check content hash, redact if doesn't match
/// 4. Fetch any missing auth events doing all checks listed here starting at 1. These are not
/// timeline events
/// 5. Reject "due to auth events" if can't get all the auth events or some of the auth events are
/// also rejected "due to auth events"
/// 6. Reject "due to auth events" if the event doesn't pass auth based on the auth events
/// 7. Persist this event as an outlier
/// 8. If not timeline event: stop
/// 9. Fetch any missing prev events doing all checks listed here starting at 1. These are timeline
/// events
/// 10. Fetch missing state and auth chain events by calling /state_ids at backwards extremities
/// doing all the checks in this list starting at 1. These are not timeline events
/// 11. Check the auth of the event passes based on the state of the event
/// 12. Ensure that the state is derived from the previous current state (i.e. we calculated by
/// doing state res where one of the inputs was a previously trusted set of state, don't just
/// trust a set of state we got from a remote)
/// 13. Use state resolution to find new room state
/// 14. Check if the event passes auth based on the "current state" of the room, if not soft fail it
// We use some AsyncRecursiveType hacks here so we can call this async funtion recursively
#[tracing::instrument(skip(self, value, is_timeline_event, pub_key_map))]
pub(crate) async fn handle_incoming_pdu<'a>(
&self,
origin: &'a ServerName,
event_id: &'a EventId,
room_id: &'a RoomId,
value: BTreeMap<String, CanonicalJsonValue>,
is_timeline_event: bool,
pub_key_map: &'a RwLock<BTreeMap<String, BTreeMap<String, Base64>>>,
) -> Result<Option<Vec<u8>>> {
// 0. Check the server is in the room
if !services().rooms.metadata.exists(room_id)? {
return Err(Error::BadRequest(
ErrorKind::NotFound,
"Room is unknown to this server",
));
}
if services().rooms.metadata.is_disabled(room_id)? {
return Err(Error::BadRequest(
ErrorKind::forbidden(),
"Federation of this room is currently disabled on this server.",
));
}
services().rooms.event_handler.acl_check(origin, room_id)?;
// 1. Skip the PDU if we already have it as a timeline event
if let Some(pdu_id) = services().rooms.timeline.get_pdu_id(event_id)? {
return Ok(Some(pdu_id.to_vec()));
}
let create_event = services()
.rooms
.state_accessor
.room_state_get(room_id, &StateEventType::RoomCreate, "")?
.ok_or_else(|| Error::bad_database("Failed to find create event in db."))?;
let create_event_content: RoomCreateEventContent =
serde_json::from_str(create_event.content.get()).map_err(|e| {
error!("Invalid create event: {}", e);
Error::BadDatabase("Invalid create event in db")
})?;
let room_version_id = &create_event_content.room_version;
let first_pdu_in_room = services()
.rooms
.timeline
.first_pdu_in_room(room_id)?
.ok_or_else(|| Error::bad_database("Failed to find first pdu in db."))?;
let (incoming_pdu, val) = self
.handle_outlier_pdu(
origin,
&create_event,
event_id,
room_id,
value,
false,
pub_key_map,
)
.await?;
self.check_room_id(room_id, &incoming_pdu)?;
// 8. if not timeline event: stop
if !is_timeline_event {
return Ok(None);
}
// Skip old events
if incoming_pdu.origin_server_ts < first_pdu_in_room.origin_server_ts {
return Ok(None);
}
// 9. Fetch any missing prev events doing all checks listed here starting at 1. These are timeline events
let (sorted_prev_events, mut eventid_info) = self
.fetch_unknown_prev_events(
origin,
&create_event,
room_id,
room_version_id,
pub_key_map,
incoming_pdu.prev_events.clone(),
)
.await?;
let mut errors = 0;
debug!(events = ?sorted_prev_events, "Got previous events");
for prev_id in sorted_prev_events {
// Check for disabled again because it might have changed
if services().rooms.metadata.is_disabled(room_id)? {
return Err(Error::BadRequest(
ErrorKind::forbidden(),
"Federation of this room is currently disabled on this server.",
));
}
if let Some((time, tries)) = services()
.globals
.bad_event_ratelimiter
.read()
.await
.get(&*prev_id)
{
// Exponential backoff
let mut min_elapsed_duration = Duration::from_secs(5 * 60) * (*tries) * (*tries);
if min_elapsed_duration > Duration::from_secs(60 * 60 * 24) {
min_elapsed_duration = Duration::from_secs(60 * 60 * 24);
}
if time.elapsed() < min_elapsed_duration {
info!("Backing off from {}", prev_id);
continue;
}
}
if errors >= 5 {
// Timeout other events
match services()
.globals
.bad_event_ratelimiter
.write()
.await
.entry((*prev_id).to_owned())
{
hash_map::Entry::Vacant(e) => {
e.insert((Instant::now(), 1));
}
hash_map::Entry::Occupied(mut e) => {
*e.get_mut() = (Instant::now(), e.get().1 + 1)
}
}
continue;
}
if let Some((pdu, json)) = eventid_info.remove(&*prev_id) {
// Skip old events
if pdu.origin_server_ts < first_pdu_in_room.origin_server_ts {
continue;
}
let start_time = Instant::now();
services()
.globals
.roomid_federationhandletime
.write()
.await
.insert(room_id.to_owned(), ((*prev_id).to_owned(), start_time));
if let Err(e) = self
.upgrade_outlier_to_timeline_pdu(
pdu,
json,
&create_event,
origin,
room_id,
pub_key_map,
)
.await
{
errors += 1;
warn!("Prev event {} failed: {}", prev_id, e);
match services()
.globals
.bad_event_ratelimiter
.write()
.await
.entry((*prev_id).to_owned())
{
hash_map::Entry::Vacant(e) => {
e.insert((Instant::now(), 1));
}
hash_map::Entry::Occupied(mut e) => {
*e.get_mut() = (Instant::now(), e.get().1 + 1)
}
}
}
let elapsed = start_time.elapsed();
services()
.globals
.roomid_federationhandletime
.write()
.await
.remove(&room_id.to_owned());
debug!(
"Handling prev event {} took {}m{}s",
prev_id,
elapsed.as_secs() / 60,
elapsed.as_secs() % 60
);
}
}
// Done with prev events, now handling the incoming event
let start_time = Instant::now();
services()
.globals
.roomid_federationhandletime
.write()
.await
.insert(room_id.to_owned(), (event_id.to_owned(), start_time));
let r = services()
.rooms
.event_handler
.upgrade_outlier_to_timeline_pdu(
incoming_pdu,
val,
&create_event,
origin,
room_id,
pub_key_map,
)
.await;
services()
.globals
.roomid_federationhandletime
.write()
.await
.remove(&room_id.to_owned());
r
}
#[allow(clippy::type_complexity, clippy::too_many_arguments)]
#[tracing::instrument(skip(self, create_event, value, pub_key_map))]
fn handle_outlier_pdu<'a>(
&'a self,
origin: &'a ServerName,
create_event: &'a PduEvent,
event_id: &'a EventId,
room_id: &'a RoomId,
mut value: BTreeMap<String, CanonicalJsonValue>,
auth_events_known: bool,
pub_key_map: &'a RwLock<BTreeMap<String, BTreeMap<String, Base64>>>,
) -> AsyncRecursiveType<'a, Result<(Arc<PduEvent>, BTreeMap<String, CanonicalJsonValue>)>> {
Box::pin(async move {
// 1.1. Remove unsigned field
value.remove("unsigned");
// TODO: For RoomVersion6 we must check that Raw<..> is canonical do we anywhere?: https://matrix.org/docs/spec/rooms/v6#canonical-json
// We go through all the signatures we see on the value and fetch the corresponding signing
// keys
self.fetch_required_signing_keys(&value, pub_key_map)
.await?;
// 2. Check signatures, otherwise drop
// 3. check content hash, redact if doesn't match
let create_event_content: RoomCreateEventContent =
serde_json::from_str(create_event.content.get()).map_err(|e| {
error!("Invalid create event: {}", e);
Error::BadDatabase("Invalid create event in db")
})?;
let room_version_id = &create_event_content.room_version;
let room_version =
RoomVersion::new(room_version_id).expect("room version is supported");
let guard = pub_key_map.read().await;
let mut val = match ruma::signatures::verify_event(&guard, &value, room_version_id) {
Err(e) => {
// Drop
warn!("Dropping bad event {}: {}", event_id, e,);
return Err(Error::BadRequest(
ErrorKind::InvalidParam,
"Signature verification failed",
));
}
Ok(ruma::signatures::Verified::Signatures) => {
// Redact
warn!("Calculated hash does not match: {}", event_id);
let obj = match ruma::canonical_json::redact(value, room_version_id, None) {
Ok(obj) => obj,
Err(_) => {
return Err(Error::BadRequest(
ErrorKind::InvalidParam,
"Redaction failed",
))
}
};
// Skip the PDU if it is redacted and we already have it as an outlier event
if services().rooms.timeline.get_pdu_json(event_id)?.is_some() {
return Err(Error::BadRequest(
ErrorKind::InvalidParam,
"Event was redacted and we already knew about it",
));
}
obj
}
Ok(ruma::signatures::Verified::All) => value,
};
drop(guard);
// Now that we have checked the signature and hashes we can add the eventID and convert
// to our PduEvent type
val.insert(
"event_id".to_owned(),
CanonicalJsonValue::String(event_id.as_str().to_owned()),
);
let incoming_pdu = serde_json::from_value::<PduEvent>(
serde_json::to_value(&val).expect("CanonicalJsonObj is a valid JsonValue"),
)
.map_err(|_| Error::bad_database("Event is not a valid PDU."))?;
self.check_room_id(room_id, &incoming_pdu)?;
if !auth_events_known {
// 4. fetch any missing auth events doing all checks listed here starting at 1. These are not timeline events
// 5. Reject "due to auth events" if can't get all the auth events or some of the auth events are also rejected "due to auth events"
// NOTE: Step 5 is not applied anymore because it failed too often
debug!(event_id = ?incoming_pdu.event_id, "Fetching auth events");
self.fetch_and_handle_outliers(
origin,
&incoming_pdu
.auth_events
.iter()
.map(|x| Arc::from(&**x))
.collect::<Vec<_>>(),
create_event,
room_id,
room_version_id,
pub_key_map,
)
.await;
}
// 6. Reject "due to auth events" if the event doesn't pass auth based on the auth events
debug!(
"Auth check for {} based on auth events",
incoming_pdu.event_id
);
// Build map of auth events
let mut auth_events = HashMap::new();
for id in &incoming_pdu.auth_events {
let auth_event = match services().rooms.timeline.get_pdu(id)? {
Some(e) => e,
None => {
warn!("Could not find auth event {}", id);
continue;
}
};
self.check_room_id(room_id, &auth_event)?;
match auth_events.entry((
auth_event.kind.to_string().into(),
auth_event
.state_key
.clone()
.expect("all auth events have state keys"),
)) {
hash_map::Entry::Vacant(v) => {
v.insert(auth_event);
}
hash_map::Entry::Occupied(_) => {
return Err(Error::BadRequest(
ErrorKind::InvalidParam,
"Auth event's type and state_key combination exists multiple times.",
));
}
}
}
// The original create event must be in the auth events
if !matches!(
auth_events
.get(&(StateEventType::RoomCreate, "".to_owned()))
.map(|a| a.as_ref()),
Some(_) | None
) {
return Err(Error::BadRequest(
ErrorKind::InvalidParam,
"Incoming event refers to wrong create event.",
));
}
if !state_res::event_auth::auth_check(
&room_version,
&incoming_pdu,
None::<PduEvent>, // TODO: third party invite
|k, s| auth_events.get(&(k.to_string().into(), s.to_owned())),
)
.map_err(|_e| Error::BadRequest(ErrorKind::InvalidParam, "Auth check failed"))?
{
return Err(Error::BadRequest(
ErrorKind::InvalidParam,
"Auth check failed",
));
}
debug!("Validation successful.");
// 7. Persist the event as an outlier.
services()
.rooms
.outlier
.add_pdu_outlier(&incoming_pdu.event_id, &val)?;
debug!("Added pdu as outlier.");
Ok((Arc::new(incoming_pdu), val))
})
}
#[tracing::instrument(skip(self, incoming_pdu, val, create_event, pub_key_map))]
pub async fn upgrade_outlier_to_timeline_pdu(
&self,
incoming_pdu: Arc<PduEvent>,
val: BTreeMap<String, CanonicalJsonValue>,
create_event: &PduEvent,
origin: &ServerName,
room_id: &RoomId,
pub_key_map: &RwLock<BTreeMap<String, BTreeMap<String, Base64>>>,
) -> Result<Option<Vec<u8>>> {
// Skip the PDU if we already have it as a timeline event
if let Ok(Some(pduid)) = services().rooms.timeline.get_pdu_id(&incoming_pdu.event_id) {
return Ok(Some(pduid));
}
if services()
.rooms
.pdu_metadata
.is_event_soft_failed(&incoming_pdu.event_id)?
{
return Err(Error::BadRequest(
ErrorKind::InvalidParam,
"Event has been soft failed",
));
}
info!("Upgrading {} to timeline pdu", incoming_pdu.event_id);
let create_event_content: RoomCreateEventContent =
serde_json::from_str(create_event.content.get()).map_err(|e| {
warn!("Invalid create event: {}", e);
Error::BadDatabase("Invalid create event in db")
})?;
let room_version_id = &create_event_content.room_version;
let room_version = RoomVersion::new(room_version_id).expect("room version is supported");
// 10. Fetch missing state and auth chain events by calling /state_ids at backwards extremities
// doing all the checks in this list starting at 1. These are not timeline events.
// TODO: if we know the prev_events of the incoming event we can avoid the request and build
// the state from a known point and resolve if > 1 prev_event
debug!("Requesting state at event");
let mut state_at_incoming_event = None;
if incoming_pdu.prev_events.len() == 1 {
let prev_event = &*incoming_pdu.prev_events[0];
let prev_event_sstatehash = services()
.rooms
.state_accessor
.pdu_shortstatehash(prev_event)?;
let state = if let Some(shortstatehash) = prev_event_sstatehash {
Some(
services()
.rooms
.state_accessor
.state_full_ids(shortstatehash)
.await,
)
} else {
None
};
if let Some(Ok(mut state)) = state {
debug!("Using cached state");
let prev_pdu = services()
.rooms
.timeline
.get_pdu(prev_event)
.ok()
.flatten()
.ok_or_else(|| {
Error::bad_database("Could not find prev event, but we know the state.")
})?;
if let Some(state_key) = &prev_pdu.state_key {
let shortstatekey = services().rooms.short.get_or_create_shortstatekey(
&prev_pdu.kind.to_string().into(),
state_key,
)?;
state.insert(shortstatekey, Arc::from(prev_event));
// Now it's the state after the pdu
}
state_at_incoming_event = Some(state);
}
} else {
debug!("Calculating state at event using state res");
let mut extremity_sstatehashes = HashMap::new();
let mut okay = true;
for prev_eventid in &incoming_pdu.prev_events {
let prev_event =
if let Ok(Some(pdu)) = services().rooms.timeline.get_pdu(prev_eventid) {
pdu
} else {
okay = false;
break;
};
let sstatehash = if let Ok(Some(s)) = services()
.rooms
.state_accessor
.pdu_shortstatehash(prev_eventid)
{
s
} else {
okay = false;
break;
};
extremity_sstatehashes.insert(sstatehash, prev_event);
}
if okay {
let mut fork_states = Vec::with_capacity(extremity_sstatehashes.len());
let mut auth_chain_sets = Vec::with_capacity(extremity_sstatehashes.len());
for (sstatehash, prev_event) in extremity_sstatehashes {
let mut leaf_state: HashMap<_, _> = services()
.rooms
.state_accessor
.state_full_ids(sstatehash)
.await?;
if let Some(state_key) = &prev_event.state_key {
let shortstatekey = services().rooms.short.get_or_create_shortstatekey(
&prev_event.kind.to_string().into(),
state_key,
)?;
leaf_state.insert(shortstatekey, Arc::from(&*prev_event.event_id));
// Now it's the state after the pdu
}
let mut state = StateMap::with_capacity(leaf_state.len());
let mut starting_events = Vec::with_capacity(leaf_state.len());
for (k, id) in leaf_state {
if let Ok((ty, st_key)) = services().rooms.short.get_statekey_from_short(k)
{
// FIXME: Undo .to_string().into() when StateMap
// is updated to use StateEventType
state.insert((ty.to_string().into(), st_key), id.clone());
} else {
warn!("Failed to get_statekey_from_short.");
}
starting_events.push(id);
}
auth_chain_sets.push(
services()
.rooms
.auth_chain
.get_auth_chain(room_id, starting_events)
.await?
.collect(),
);
fork_states.push(state);
}
let lock = services().globals.stateres_mutex.lock();
let result =
state_res::resolve(room_version_id, &fork_states, auth_chain_sets, |id| {
let res = services().rooms.timeline.get_pdu(id);
if let Err(e) = &res {
error!("LOOK AT ME Failed to fetch event: {}", e);
}
res.ok().flatten()
});
drop(lock);
state_at_incoming_event = match result {
Ok(new_state) => Some(
new_state
.into_iter()
.map(|((event_type, state_key), event_id)| {
let shortstatekey =
services().rooms.short.get_or_create_shortstatekey(
&event_type.to_string().into(),
&state_key,
)?;
Ok((shortstatekey, event_id))
})
.collect::<Result<_>>()?,
),
Err(e) => {
warn!("State resolution on prev events failed, either an event could not be found or deserialization: {}", e);
None
}
}
}
}
if state_at_incoming_event.is_none() {
debug!("Calling /state_ids");
// Call /state_ids to find out what the state at this pdu is. We trust the server's
// response to some extend, but we still do a lot of checks on the events
match services()
.sending
.send_federation_request(
origin,
get_room_state_ids::v1::Request {
room_id: room_id.to_owned(),
event_id: (*incoming_pdu.event_id).to_owned(),
},
)
.await
{
Ok(res) => {
debug!("Fetching state events at event.");
let collect = res
.pdu_ids
.iter()
.map(|x| Arc::from(&**x))
.collect::<Vec<_>>();
let state_vec = self
.fetch_and_handle_outliers(
origin,
&collect,
create_event,
room_id,
room_version_id,
pub_key_map,
)
.await;
let mut state: HashMap<_, Arc<EventId>> = HashMap::new();
for (pdu, _) in state_vec {
let state_key = pdu.state_key.clone().ok_or_else(|| {
Error::bad_database("Found non-state pdu in state events.")
})?;
let shortstatekey = services().rooms.short.get_or_create_shortstatekey(
&pdu.kind.to_string().into(),
&state_key,
)?;
match state.entry(shortstatekey) {
hash_map::Entry::Vacant(v) => {
v.insert(Arc::from(&*pdu.event_id));
}
hash_map::Entry::Occupied(_) => return Err(
Error::bad_database("State event's type and state_key combination exists multiple times."),
),
}
}
// The original create event must still be in the state
let create_shortstatekey = services()
.rooms
.short
.get_shortstatekey(&StateEventType::RoomCreate, "")?
.expect("Room exists");
if state.get(&create_shortstatekey).map(|id| id.as_ref())
!= Some(&create_event.event_id)
{
return Err(Error::bad_database(
"Incoming event refers to wrong create event.",
));
}
state_at_incoming_event = Some(state);
}
Err(e) => {
warn!("Fetching state for event failed: {}", e);
return Err(e);
}
};
}
let state_at_incoming_event =
state_at_incoming_event.expect("we always set this to some above");
debug!("Starting auth check");
// 11. Check the auth of the event passes based on the state of the event
let check_result = state_res::event_auth::auth_check(
&room_version,
&incoming_pdu,
None::<PduEvent>, // TODO: third party invite
|k, s| {
services()
.rooms
.short
.get_shortstatekey(&k.to_string().into(), s)
.ok()
.flatten()
.and_then(|shortstatekey| state_at_incoming_event.get(&shortstatekey))
.and_then(|event_id| services().rooms.timeline.get_pdu(event_id).ok().flatten())
},
)
.map_err(|_e| Error::BadRequest(ErrorKind::InvalidParam, "Auth check failed."))?;
if !check_result {
return Err(Error::bad_database(
"Event has failed auth check with state at the event.",
));
}
debug!("Auth check succeeded");
// Soft fail check before doing state res
let auth_events = services().rooms.state.get_auth_events(
room_id,
&incoming_pdu.kind,
&incoming_pdu.sender,
incoming_pdu.state_key.as_deref(),
&incoming_pdu.content,
)?;
let soft_fail = !state_res::event_auth::auth_check(
&room_version,
&incoming_pdu,
None::<PduEvent>,
|k, s| auth_events.get(&(k.clone(), s.to_owned())),
)
.map_err(|_e| Error::BadRequest(ErrorKind::InvalidParam, "Auth check failed."))?
|| incoming_pdu.kind == TimelineEventType::RoomRedaction
&& match room_version_id {
RoomVersionId::V1
| RoomVersionId::V2
| RoomVersionId::V3
| RoomVersionId::V4
| RoomVersionId::V5
| RoomVersionId::V6
| RoomVersionId::V7
| RoomVersionId::V8
| RoomVersionId::V9
| RoomVersionId::V10 => {
if let Some(redact_id) = &incoming_pdu.redacts {
!services().rooms.state_accessor.user_can_redact(
redact_id,
&incoming_pdu.sender,
&incoming_pdu.room_id,
true,
)?
} else {
false
}
}
RoomVersionId::V11 => {
let content = serde_json::from_str::<RoomRedactionEventContent>(
incoming_pdu.content.get(),
)
.map_err(|_| Error::bad_database("Invalid content in redaction pdu."))?;
if let Some(redact_id) = &content.redacts {
!services().rooms.state_accessor.user_can_redact(
redact_id,
&incoming_pdu.sender,
&incoming_pdu.room_id,
true,
)?
} else {
false
}
}
_ => {
unreachable!("Validity of room version already checked")
}
};
// 13. Use state resolution to find new room state
// We start looking at current room state now, so lets lock the room
let mutex_state = Arc::clone(
services()
.globals
.roomid_mutex_state
.write()
.await
.entry(room_id.to_owned())
.or_default(),
);
let state_lock = mutex_state.lock().await;
// Now we calculate the set of extremities this room has after the incoming event has been
// applied. We start with the previous extremities (aka leaves)
debug!("Calculating extremities");
let mut extremities = services().rooms.state.get_forward_extremities(room_id)?;
// Remove any forward extremities that are referenced by this incoming event's prev_events
for prev_event in &incoming_pdu.prev_events {
if extremities.contains(prev_event) {
extremities.remove(prev_event);
}
}
// Only keep those extremities were not referenced yet
extremities.retain(|id| {
!matches!(
services()
.rooms
.pdu_metadata
.is_event_referenced(room_id, id),
Ok(true)
)
});
debug!("Compressing state at event");
let state_ids_compressed = Arc::new(
state_at_incoming_event
.iter()
.map(|(shortstatekey, id)| {
services()
.rooms
.state_compressor
.compress_state_event(*shortstatekey, id)
})
.collect::<Result<_>>()?,
);
if incoming_pdu.state_key.is_some() {
debug!("Preparing for stateres to derive new room state");
// We also add state after incoming event to the fork states
let mut state_after = state_at_incoming_event.clone();
if let Some(state_key) = &incoming_pdu.state_key {
let shortstatekey = services().rooms.short.get_or_create_shortstatekey(
&incoming_pdu.kind.to_string().into(),
state_key,
)?;
state_after.insert(shortstatekey, Arc::from(&*incoming_pdu.event_id));
}
let new_room_state = self
.resolve_state(room_id, room_version_id, state_after)
.await?;
// Set the new room state to the resolved state
debug!("Forcing new room state");
let (sstatehash, new, removed) = services()
.rooms
.state_compressor
.save_state(room_id, new_room_state)?;
services()
.rooms
.state
.force_state(room_id, sstatehash, new, removed, &state_lock)
.await?;
}
// 14. Check if the event passes auth based on the "current state" of the room, if not soft fail it
debug!("Starting soft fail auth check");
if soft_fail {
services()
.rooms
.timeline
.append_incoming_pdu(
&incoming_pdu,
val,
extremities.iter().map(|e| (**e).to_owned()).collect(),
state_ids_compressed,
soft_fail,
&state_lock,
)
.await?;
// Soft fail, we keep the event as an outlier but don't add it to the timeline
warn!("Event was soft failed: {:?}", incoming_pdu);
services()
.rooms
.pdu_metadata
.mark_event_soft_failed(&incoming_pdu.event_id)?;
return Err(Error::BadRequest(
ErrorKind::InvalidParam,
"Event has been soft failed",
));
}
debug!("Appending pdu to timeline");
extremities.insert(incoming_pdu.event_id.clone());
// Now that the event has passed all auth it is added into the timeline.
// We use the `state_at_event` instead of `state_after` so we accurately
// represent the state for this event.
let pdu_id = services()
.rooms
.timeline
.append_incoming_pdu(
&incoming_pdu,
val,
extremities.iter().map(|e| (**e).to_owned()).collect(),
state_ids_compressed,
soft_fail,
&state_lock,
)
.await?;
debug!("Appended incoming pdu");
// Event has passed all auth/stateres checks
drop(state_lock);
Ok(pdu_id)
}
async fn resolve_state(
&self,
room_id: &RoomId,
room_version_id: &RoomVersionId,
incoming_state: HashMap<u64, Arc<EventId>>,
) -> Result<Arc<HashSet<CompressedStateEvent>>> {
debug!("Loading current room state ids");
let current_sstatehash = services()
.rooms
.state
.get_room_shortstatehash(room_id)?
.expect("every room has state");
let current_state_ids = services()
.rooms
.state_accessor
.state_full_ids(current_sstatehash)
.await?;
let fork_states = [current_state_ids, incoming_state];
let mut auth_chain_sets = Vec::new();
for state in &fork_states {
auth_chain_sets.push(
services()
.rooms
.auth_chain
.get_auth_chain(room_id, state.iter().map(|(_, id)| id.clone()).collect())
.await?
.collect(),
);
}
debug!("Loading fork states");
let fork_states: Vec<_> = fork_states
.into_iter()
.map(|map| {
map.into_iter()
.filter_map(|(k, id)| {
services()
.rooms
.short
.get_statekey_from_short(k)
.map(|(ty, st_key)| ((ty.to_string().into(), st_key), id))
.ok()
})
.collect::<StateMap<_>>()
})
.collect();
debug!("Resolving state");
let fetch_event = |id: &_| {
let res = services().rooms.timeline.get_pdu(id);
if let Err(e) = &res {
error!("LOOK AT ME Failed to fetch event: {}", e);
}
res.ok().flatten()
};
let lock = services().globals.stateres_mutex.lock();
let state = match state_res::resolve(
room_version_id,
&fork_states,
auth_chain_sets,
fetch_event,
) {
Ok(new_state) => new_state,
Err(_) => {
return Err(Error::bad_database("State resolution failed, either an event could not be found or deserialization"));
}
};
drop(lock);
debug!("State resolution done. Compressing state");
let new_room_state = state
.into_iter()
.map(|((event_type, state_key), event_id)| {
let shortstatekey = services()
.rooms
.short
.get_or_create_shortstatekey(&event_type.to_string().into(), &state_key)?;
services()
.rooms
.state_compressor
.compress_state_event(shortstatekey, &event_id)
})
.collect::<Result<_>>()?;
Ok(Arc::new(new_room_state))
}
/// Find the event and auth it. Once the event is validated (steps 1 - 8)
/// it is appended to the outliers Tree.
///
/// Returns pdu and if we fetched it over federation the raw json.
///
/// a. Look in the main timeline (pduid_pdu tree)
/// b. Look at outlier pdu tree
/// c. Ask origin server over federation
/// d. TODO: Ask other servers over federation?
#[allow(clippy::type_complexity)]
#[tracing::instrument(skip_all)]
pub(crate) fn fetch_and_handle_outliers<'a>(
&'a self,
origin: &'a ServerName,
events: &'a [Arc<EventId>],
create_event: &'a PduEvent,
room_id: &'a RoomId,
room_version_id: &'a RoomVersionId,
pub_key_map: &'a RwLock<BTreeMap<String, BTreeMap<String, Base64>>>,
) -> AsyncRecursiveType<'a, Vec<(Arc<PduEvent>, Option<BTreeMap<String, CanonicalJsonValue>>)>>
{
Box::pin(async move {
let back_off = |id| async move {
match services()
.globals
.bad_event_ratelimiter
.write()
.await
.entry(id)
{
hash_map::Entry::Vacant(e) => {
e.insert((Instant::now(), 1));
}
hash_map::Entry::Occupied(mut e) => {
*e.get_mut() = (Instant::now(), e.get().1 + 1)
}
}
};
let mut pdus = vec![];
for id in events {
// a. Look in the main timeline (pduid_pdu tree)
// b. Look at outlier pdu tree
// (get_pdu_json checks both)
if let Ok(Some(local_pdu)) = services().rooms.timeline.get_pdu(id) {
trace!("Found {} in db", id);
pdus.push((local_pdu, None));
continue;
}
// c. Ask origin server over federation
// We also handle its auth chain here so we don't get a stack overflow in
// handle_outlier_pdu.
let mut todo_auth_events = vec![Arc::clone(id)];
let mut events_in_reverse_order = Vec::new();
let mut events_all = HashSet::new();
let mut i = 0;
while let Some(next_id) = todo_auth_events.pop() {
if let Some((time, tries)) = services()
.globals
.bad_event_ratelimiter
.read()
.await
.get(&*next_id)
{
// Exponential backoff
let mut min_elapsed_duration =
Duration::from_secs(5 * 60) * (*tries) * (*tries);
if min_elapsed_duration > Duration::from_secs(60 * 60 * 24) {
min_elapsed_duration = Duration::from_secs(60 * 60 * 24);
}
if time.elapsed() < min_elapsed_duration {
info!("Backing off from {}", next_id);
continue;
}
}
if events_all.contains(&next_id) {
continue;
}
i += 1;
if i % 100 == 0 {
tokio::task::yield_now().await;
}
if let Ok(Some(_)) = services().rooms.timeline.get_pdu(&next_id) {
trace!("Found {} in db", next_id);
continue;
}
info!("Fetching {} over federation.", next_id);
match services()
.sending
.send_federation_request(
origin,
get_event::v1::Request {
event_id: (*next_id).to_owned(),
},
)
.await
{
Ok(res) => {
info!("Got {} over federation", next_id);
let (calculated_event_id, value) =
match pdu::gen_event_id_canonical_json(&res.pdu, room_version_id) {
Ok(t) => t,
Err(_) => {
back_off((*next_id).to_owned()).await;
continue;
}
};
if calculated_event_id != *next_id {
warn!("Server didn't return event id we requested: requested: {}, we got {}. Event: {:?}",
next_id, calculated_event_id, &res.pdu);
}
if let Some(auth_events) =
value.get("auth_events").and_then(|c| c.as_array())
{
for auth_event in auth_events {
if let Ok(auth_event) =
serde_json::from_value(auth_event.clone().into())
{
let a: Arc<EventId> = auth_event;
todo_auth_events.push(a);
} else {
warn!("Auth event id is not valid");
}
}
} else {
warn!("Auth event list invalid");
}
events_in_reverse_order.push((next_id.clone(), value));
events_all.insert(next_id);
}
Err(_) => {
warn!("Failed to fetch event: {}", next_id);
back_off((*next_id).to_owned()).await;
}
}
}
for (next_id, value) in events_in_reverse_order.iter().rev() {
if let Some((time, tries)) = services()
.globals
.bad_event_ratelimiter
.read()
.await
.get(&**next_id)
{
// Exponential backoff
let mut min_elapsed_duration =
Duration::from_secs(5 * 60) * (*tries) * (*tries);
if min_elapsed_duration > Duration::from_secs(60 * 60 * 24) {
min_elapsed_duration = Duration::from_secs(60 * 60 * 24);
}
if time.elapsed() < min_elapsed_duration {
info!("Backing off from {}", next_id);
continue;
}
}
match self
.handle_outlier_pdu(
origin,
create_event,
next_id,
room_id,
value.clone(),
true,
pub_key_map,
)
.await
{
Ok((pdu, json)) => {
if next_id == id {
pdus.push((pdu, Some(json)));
}
}
Err(e) => {
warn!("Authentication of event {} failed: {:?}", next_id, e);
back_off((**next_id).to_owned()).await;
}
}
}
}
pdus
})
}
async fn fetch_unknown_prev_events(
&self,
origin: &ServerName,
create_event: &PduEvent,
room_id: &RoomId,
room_version_id: &RoomVersionId,
pub_key_map: &RwLock<BTreeMap<String, BTreeMap<String, Base64>>>,
initial_set: Vec<Arc<EventId>>,
) -> Result<(
Vec<Arc<EventId>>,
HashMap<Arc<EventId>, (Arc<PduEvent>, BTreeMap<String, CanonicalJsonValue>)>,
)> {
let mut graph: HashMap<Arc<EventId>, _> = HashMap::new();
let mut eventid_info = HashMap::new();
let mut todo_outlier_stack: Vec<Arc<EventId>> = initial_set;
let first_pdu_in_room = services()
.rooms
.timeline
.first_pdu_in_room(room_id)?
.ok_or_else(|| Error::bad_database("Failed to find first pdu in db."))?;
let mut amount = 0;
while let Some(prev_event_id) = todo_outlier_stack.pop() {
if let Some((pdu, json_opt)) = self
.fetch_and_handle_outliers(
origin,
&[prev_event_id.clone()],
create_event,
room_id,
room_version_id,
pub_key_map,
)
.await
.pop()
{
self.check_room_id(room_id, &pdu)?;
if amount > services().globals.max_fetch_prev_events() {
// Max limit reached
warn!("Max prev event limit reached!");
graph.insert(prev_event_id.clone(), HashSet::new());
continue;
}
if let Some(json) = json_opt.or_else(|| {
services()
.rooms
.outlier
.get_outlier_pdu_json(&prev_event_id)
.ok()
.flatten()
}) {
if pdu.origin_server_ts > first_pdu_in_room.origin_server_ts {
amount += 1;
for prev_prev in &pdu.prev_events {
if !graph.contains_key(prev_prev) {
todo_outlier_stack.push(prev_prev.clone());
}
}
graph.insert(
prev_event_id.clone(),
pdu.prev_events.iter().cloned().collect(),
);
} else {
// Time based check failed
graph.insert(prev_event_id.clone(), HashSet::new());
}
eventid_info.insert(prev_event_id.clone(), (pdu, json));
} else {
// Get json failed, so this was not fetched over federation
graph.insert(prev_event_id.clone(), HashSet::new());
}
} else {
// Fetch and handle failed
graph.insert(prev_event_id.clone(), HashSet::new());
}
}
let sorted = state_res::lexicographical_topological_sort(&graph, |event_id| {
// This return value is the key used for sorting events,
// events are then sorted by power level, time,
// and lexically by event_id.
Ok((
int!(0),
MilliSecondsSinceUnixEpoch(
eventid_info
.get(event_id)
.map_or_else(|| uint!(0), |info| info.0.origin_server_ts),
),
))
})
.map_err(|_| Error::bad_database("Error sorting prev events"))?;
Ok((sorted, eventid_info))
}
#[tracing::instrument(skip_all)]
pub(crate) async fn fetch_required_signing_keys(
&self,
event: &BTreeMap<String, CanonicalJsonValue>,
pub_key_map: &RwLock<BTreeMap<String, BTreeMap<String, Base64>>>,
) -> Result<()> {
let signatures = event
.get("signatures")
.ok_or(Error::BadServerResponse(
"No signatures in server response pdu.",
))?
.as_object()
.ok_or(Error::BadServerResponse(
"Invalid signatures object in server response pdu.",
))?;
// We go through all the signatures we see on the value and fetch the corresponding signing
// keys
for (signature_server, signature) in signatures {
let signature_object = signature.as_object().ok_or(Error::BadServerResponse(
"Invalid signatures content object in server response pdu.",
))?;
let signature_ids = signature_object.keys().cloned().collect::<Vec<_>>();
let fetch_res = self
.fetch_signing_keys(
signature_server.as_str().try_into().map_err(|_| {
Error::BadServerResponse(
"Invalid servername in signatures of server response pdu.",
)
})?,
signature_ids,
)
.await;
let keys = match fetch_res {
Ok(keys) => keys,
Err(_) => {
warn!("Signature verification failed: Could not fetch signing key.",);
continue;
}
};
pub_key_map
.write()
.await
.insert(signature_server.clone(), keys);
}
Ok(())
}
// Gets a list of servers for which we don't have the signing key yet. We go over
// the PDUs and either cache the key or add it to the list that needs to be retrieved.
async fn get_server_keys_from_cache(
&self,
pdu: &RawJsonValue,
servers: &mut BTreeMap<OwnedServerName, BTreeMap<OwnedServerSigningKeyId, QueryCriteria>>,
room_version: &RoomVersionId,
pub_key_map: &mut RwLockWriteGuard<'_, BTreeMap<String, BTreeMap<String, Base64>>>,
) -> Result<()> {
let value: CanonicalJsonObject = serde_json::from_str(pdu.get()).map_err(|e| {
error!("Invalid PDU in server response: {:?}: {:?}", pdu, e);
Error::BadServerResponse("Invalid PDU in server response")
})?;
let event_id = format!(
"${}",
ruma::signatures::reference_hash(&value, room_version)
.expect("ruma can calculate reference hashes")
);
let event_id = <&EventId>::try_from(event_id.as_str())
.expect("ruma's reference hashes are valid event ids");
if let Some((time, tries)) = services()
.globals
.bad_event_ratelimiter
.read()
.await
.get(event_id)
{
// Exponential backoff
let mut min_elapsed_duration = Duration::from_secs(30) * (*tries) * (*tries);
if min_elapsed_duration > Duration::from_secs(60 * 60 * 24) {
min_elapsed_duration = Duration::from_secs(60 * 60 * 24);
}
if time.elapsed() < min_elapsed_duration {
debug!("Backing off from {}", event_id);
return Err(Error::BadServerResponse("bad event, still backing off"));
}
}
let signatures = value
.get("signatures")
.ok_or(Error::BadServerResponse(
"No signatures in server response pdu.",
))?
.as_object()
.ok_or(Error::BadServerResponse(
"Invalid signatures object in server response pdu.",
))?;
for (signature_server, signature) in signatures {
let signature_object = signature.as_object().ok_or(Error::BadServerResponse(
"Invalid signatures content object in server response pdu.",
))?;
let signature_ids = signature_object.keys().cloned().collect::<Vec<_>>();
let contains_all_ids = |keys: &BTreeMap<String, Base64>| {
signature_ids.iter().all(|id| keys.contains_key(id))
};
let origin = <&ServerName>::try_from(signature_server.as_str()).map_err(|_| {
Error::BadServerResponse("Invalid servername in signatures of server response pdu.")
})?;
if servers.contains_key(origin) || pub_key_map.contains_key(origin.as_str()) {
continue;
}
trace!("Loading signing keys for {}", origin);
let result: BTreeMap<_, _> = services()
.globals
.signing_keys_for(origin)?
.into_iter()
.map(|(k, v)| (k.to_string(), v.key))
.collect();
if !contains_all_ids(&result) {
trace!("Signing key not loaded for {}", origin);
servers.insert(origin.to_owned(), BTreeMap::new());
}
pub_key_map.insert(origin.to_string(), result);
}
Ok(())
}
pub(crate) async fn fetch_join_signing_keys(
&self,
event: &create_join_event::v2::Response,
room_version: &RoomVersionId,
pub_key_map: &RwLock<BTreeMap<String, BTreeMap<String, Base64>>>,
) -> Result<()> {
let mut servers: BTreeMap<
OwnedServerName,
BTreeMap<OwnedServerSigningKeyId, QueryCriteria>,
> = BTreeMap::new();
{
let mut pkm = pub_key_map.write().await;
// Try to fetch keys, failure is okay
// Servers we couldn't find in the cache will be added to `servers`
for pdu in &event.room_state.state {
let _ = self
.get_server_keys_from_cache(pdu, &mut servers, room_version, &mut pkm)
.await;
}
for pdu in &event.room_state.auth_chain {
let _ = self
.get_server_keys_from_cache(pdu, &mut servers, room_version, &mut pkm)
.await;
}
drop(pkm);
}
if servers.is_empty() {
info!("We had all keys locally");
return Ok(());
}
for server in services().globals.trusted_servers() {
info!("Asking batch signing keys from trusted server {}", server);
if let Ok(keys) = services()
.sending
.send_federation_request(
server,
get_remote_server_keys_batch::v2::Request {
server_keys: servers.clone(),
},
)
.await
{
trace!("Got signing keys: {:?}", keys);
let mut pkm = pub_key_map.write().await;
for k in keys.server_keys {
let k = match k.deserialize() {
Ok(key) => key,
Err(e) => {
warn!(
"Received error {} while fetching keys from trusted server {}",
e, server
);
warn!("{}", k.into_json());
continue;
}
};
// TODO: Check signature from trusted server?
servers.remove(&k.server_name);
let result = services()
.globals
.add_signing_key(&k.server_name, k.clone())?
.into_iter()
.map(|(k, v)| (k.to_string(), v.key))
.collect::<BTreeMap<_, _>>();
pkm.insert(k.server_name.to_string(), result);
}
}
if servers.is_empty() {
info!("Trusted server supplied all signing keys");
return Ok(());
}
}
info!("Asking individual servers for signing keys: {servers:?}");
let mut futures: FuturesUnordered<_> = servers
.into_keys()
.map(|server| async move {
(
services()
.sending
.send_federation_request(&server, get_server_keys::v2::Request::new())
.await,
server,
)
})
.collect();
while let Some(result) = futures.next().await {
info!("Received new result");
if let (Ok(get_keys_response), origin) = result {
info!("Result is from {origin}");
if let Ok(key) = get_keys_response.server_key.deserialize() {
let result: BTreeMap<_, _> = services()
.globals
.add_signing_key(&origin, key)?
.into_iter()
.map(|(k, v)| (k.to_string(), v.key))
.collect();
pub_key_map.write().await.insert(origin.to_string(), result);
}
}
info!("Done handling result");
}
info!("Search for signing keys done");
Ok(())
}
/// Returns Ok if the acl allows the server
pub fn acl_check(&self, server_name: &ServerName, room_id: &RoomId) -> Result<()> {
let acl_event = match services().rooms.state_accessor.room_state_get(
room_id,
&StateEventType::RoomServerAcl,
"",
)? {
Some(acl) => acl,
None => return Ok(()),
};
let acl_event_content: RoomServerAclEventContent =
match serde_json::from_str(acl_event.content.get()) {
Ok(content) => content,
Err(_) => {
warn!("Invalid ACL event");
return Ok(());
}
};
if acl_event_content.allow.is_empty() {
// Ignore broken acl events
return Ok(());
}
if acl_event_content.is_allowed(server_name) {
Ok(())
} else {
info!(
"Server {} was denied by room ACL in {}",
server_name, room_id
);
Err(Error::BadRequest(
ErrorKind::forbidden(),
"Server was denied by room ACL",
))
}
}
/// Search the DB for the signing keys of the given server, if we don't have them
/// fetch them from the server and save to our DB.
#[tracing::instrument(skip_all)]
pub async fn fetch_signing_keys(
&self,
origin: &ServerName,
signature_ids: Vec<String>,
) -> Result<BTreeMap<String, Base64>> {
let contains_all_ids =
|keys: &BTreeMap<String, Base64>| signature_ids.iter().all(|id| keys.contains_key(id));
let permit = services()
.globals
.servername_ratelimiter
.read()
.await
.get(origin)
.map(|s| Arc::clone(s).acquire_owned());
let permit = match permit {
Some(p) => p,
None => {
let mut write = services().globals.servername_ratelimiter.write().await;
let s = Arc::clone(
write
.entry(origin.to_owned())
.or_insert_with(|| Arc::new(Semaphore::new(1))),
);
s.acquire_owned()
}
}
.await;
let back_off = |id| async {
match services()
.globals
.bad_signature_ratelimiter
.write()
.await
.entry(id)
{
hash_map::Entry::Vacant(e) => {
e.insert((Instant::now(), 1));
}
hash_map::Entry::Occupied(mut e) => *e.get_mut() = (Instant::now(), e.get().1 + 1),
}
};
if let Some((time, tries)) = services()
.globals
.bad_signature_ratelimiter
.read()
.await
.get(&signature_ids)
{
// Exponential backoff
let mut min_elapsed_duration = Duration::from_secs(30) * (*tries) * (*tries);
if min_elapsed_duration > Duration::from_secs(60 * 60 * 24) {
min_elapsed_duration = Duration::from_secs(60 * 60 * 24);
}
if time.elapsed() < min_elapsed_duration {
debug!("Backing off from {:?}", signature_ids);
return Err(Error::BadServerResponse("bad signature, still backing off"));
}
}
trace!("Loading signing keys for {}", origin);
let mut result: BTreeMap<_, _> = services()
.globals
.signing_keys_for(origin)?
.into_iter()
.map(|(k, v)| (k.to_string(), v.key))
.collect();
if contains_all_ids(&result) {
return Ok(result);
}
debug!("Fetching signing keys for {} over federation", origin);
if let Some(server_key) = services()
.sending
.send_federation_request(origin, get_server_keys::v2::Request::new())
.await
.ok()
.and_then(|resp| resp.server_key.deserialize().ok())
{
services()
.globals
.add_signing_key(origin, server_key.clone())?;
result.extend(
server_key
.verify_keys
.into_iter()
.map(|(k, v)| (k.to_string(), v.key)),
);
result.extend(
server_key
.old_verify_keys
.into_iter()
.map(|(k, v)| (k.to_string(), v.key)),
);
if contains_all_ids(&result) {
return Ok(result);
}
}
for server in services().globals.trusted_servers() {
debug!("Asking {} for {}'s signing key", server, origin);
if let Some(server_keys) = services()
.sending
.send_federation_request(
server,
get_remote_server_keys::v2::Request::new(
origin.to_owned(),
MilliSecondsSinceUnixEpoch::from_system_time(
SystemTime::now()
.checked_add(Duration::from_secs(3600))
.expect("SystemTime to large"),
)
.expect("time is valid"),
),
)
.await
.ok()
.map(|resp| {
resp.server_keys
.into_iter()
.filter_map(|e| e.deserialize().ok())
.collect::<Vec<_>>()
})
{
trace!("Got signing keys: {:?}", server_keys);
for k in server_keys {
services().globals.add_signing_key(origin, k.clone())?;
result.extend(
k.verify_keys
.into_iter()
.map(|(k, v)| (k.to_string(), v.key)),
);
result.extend(
k.old_verify_keys
.into_iter()
.map(|(k, v)| (k.to_string(), v.key)),
);
}
if contains_all_ids(&result) {
return Ok(result);
}
}
}
drop(permit);
back_off(signature_ids).await;
warn!("Failed to find public key for server: {}", origin);
Err(Error::BadServerResponse(
"Failed to find public key for server",
))
}
fn check_room_id(&self, room_id: &RoomId, pdu: &PduEvent) -> Result<()> {
if pdu.room_id != room_id {
warn!("Found event from room {} in room {}", pdu.room_id, room_id);
return Err(Error::BadRequest(
ErrorKind::InvalidParam,
"Event has wrong room id",
));
}
Ok(())
}
}
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