659 lines
18 KiB
Rust
659 lines
18 KiB
Rust
#![allow(clippy::or_fun_call, clippy::expect_fun_call)]
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use std::{collections::BTreeMap, convert::TryFrom, sync::Arc, sync::Once, time::UNIX_EPOCH};
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use ruma::{
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events::{
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pdu::EventHash,
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room::{
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join_rules::JoinRule,
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member::{MemberEventContent, MembershipState},
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},
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EventType,
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},
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identifiers::{EventId, RoomId, RoomVersionId, UserId},
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};
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use serde_json::{json, Value as JsonValue};
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use state_res::{Error, Result, StateEvent, StateMap, StateResolution, StateStore};
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use tracing_subscriber as tracer;
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static LOGGER: Once = Once::new();
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static mut SERVER_TIMESTAMP: i32 = 0;
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fn do_check(
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events: &[Arc<StateEvent>],
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edges: Vec<Vec<EventId>>,
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expected_state_ids: Vec<EventId>,
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) {
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// to activate logging use `RUST_LOG=debug cargo t`
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let _ = LOGGER.call_once(|| {
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tracer::fmt()
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.with_env_filter(tracer::EnvFilter::from_default_env())
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.init()
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});
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let mut store = TestStore(
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INITIAL_EVENTS()
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.values()
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.chain(events)
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.map(|ev| (ev.event_id(), ev.clone()))
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.collect(),
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);
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// This will be lexi_topo_sorted for resolution
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let mut graph = BTreeMap::new();
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// this is the same as in `resolve` event_id -> StateEvent
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let mut fake_event_map = BTreeMap::new();
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// create the DB of events that led up to this point
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// TODO maybe clean up some of these clones it is just tests but...
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for ev in INITIAL_EVENTS().values().chain(events) {
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graph.insert(ev.event_id().clone(), vec![]);
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fake_event_map.insert(ev.event_id().clone(), ev.clone());
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}
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for pair in INITIAL_EDGES().windows(2) {
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if let [a, b] = &pair {
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graph.entry(a.clone()).or_insert(vec![]).push(b.clone());
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}
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}
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for edge_list in edges {
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for pair in edge_list.windows(2) {
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if let [a, b] = &pair {
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graph.entry(a.clone()).or_insert(vec![]).push(b.clone());
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}
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}
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}
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// event_id -> StateEvent
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let mut event_map: BTreeMap<EventId, Arc<StateEvent>> = BTreeMap::new();
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// event_id -> StateMap<EventId>
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let mut state_at_event: BTreeMap<EventId, StateMap<EventId>> = BTreeMap::new();
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// resolve the current state and add it to the state_at_event map then continue
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// on in "time"
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for node in
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StateResolution::lexicographical_topological_sort(&graph, |id| (0, UNIX_EPOCH, id.clone()))
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{
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let fake_event = fake_event_map.get(&node).unwrap();
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let event_id = fake_event.event_id();
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let prev_events = graph.get(&node).unwrap();
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let state_before: StateMap<EventId> = if prev_events.is_empty() {
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BTreeMap::new()
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} else if prev_events.len() == 1 {
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state_at_event.get(&prev_events[0]).unwrap().clone()
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} else {
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let state_sets = prev_events
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.iter()
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.filter_map(|k| state_at_event.get(k))
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.cloned()
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.collect::<Vec<_>>();
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tracing::info!(
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"{:#?}",
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state_sets
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.iter()
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.map(|map| map
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.iter()
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.map(|((ty, key), id)| format!("(({}{:?}), {})", ty, key, id))
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.collect::<Vec<_>>())
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.collect::<Vec<_>>()
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);
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let resolved = StateResolution::resolve(
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&room_id(),
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&RoomVersionId::Version1,
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&state_sets,
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Some(event_map.clone()),
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&store,
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);
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match resolved {
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Ok(state) => state,
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Err(e) => panic!("resolution for {} failed: {}", node, e),
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}
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};
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let mut state_after = state_before.clone();
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// if fake_event.state_key().is_some() {
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let ty = fake_event.kind().clone();
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// we know there is a state_key unwrap OK
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let key = fake_event.state_key().clone();
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state_after.insert((ty, key), event_id.clone());
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// }
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let auth_types = state_res::auth_types_for_event(
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fake_event.kind(),
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fake_event.sender(),
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Some(fake_event.state_key()),
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fake_event.content().clone(),
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);
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let mut auth_events = vec![];
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for key in auth_types {
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if state_before.contains_key(&key) {
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auth_events.push(state_before[&key].clone())
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}
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}
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// TODO The event is just remade, adding the auth_events and prev_events here
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// the `to_pdu_event` was split into `init` and the fn below, could be better
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let e = fake_event;
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let ev_id = e.event_id();
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let event = to_pdu_event(
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&e.event_id().to_string(),
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e.sender().clone(),
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e.kind(),
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Some(e.state_key()).as_deref(),
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e.content().clone(),
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&auth_events,
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prev_events,
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);
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// we have to update our store, an actual user of this lib would
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// be giving us state from a DB.
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store.0.insert(ev_id.clone(), event.clone());
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state_at_event.insert(node, state_after);
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event_map.insert(event_id.clone(), Arc::clone(store.0.get(&ev_id).unwrap()));
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}
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let mut expected_state = StateMap::new();
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for node in expected_state_ids {
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let ev = event_map.get(&node).expect(&format!(
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"{} not found in {:?}",
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node.to_string(),
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event_map
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.keys()
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.map(ToString::to_string)
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.collect::<Vec<_>>(),
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));
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let key = (ev.kind(), ev.state_key());
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expected_state.insert(key, node);
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}
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let start_state = state_at_event.get(&event_id("$START:foo")).unwrap();
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let end_state = state_at_event
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.get(&event_id("$END:foo"))
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.unwrap()
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.iter()
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.filter(|(k, v)| expected_state.contains_key(k) || start_state.get(k) != Some(*v))
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.map(|(k, v)| (k.clone(), v.clone()))
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.collect::<StateMap<EventId>>();
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assert_eq!(expected_state, end_state);
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}
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pub struct TestStore(BTreeMap<EventId, Arc<StateEvent>>);
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#[allow(unused)]
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impl StateStore for TestStore {
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fn get_event(&self, room_id: &RoomId, event_id: &EventId) -> Result<Arc<StateEvent>> {
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self.0
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.get(event_id)
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.map(Arc::clone)
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.ok_or_else(|| Error::NotFound(format!("{} not found", event_id.to_string())))
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}
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}
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fn event_id(id: &str) -> EventId {
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if id.contains('$') {
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return EventId::try_from(id).unwrap();
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}
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EventId::try_from(format!("${}:foo", id)).unwrap()
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}
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fn alice() -> UserId {
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UserId::try_from("@alice:foo").unwrap()
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}
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fn bob() -> UserId {
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UserId::try_from("@bob:foo").unwrap()
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}
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fn charlie() -> UserId {
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UserId::try_from("@charlie:foo").unwrap()
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}
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fn ella() -> UserId {
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UserId::try_from("@ella:foo").unwrap()
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}
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fn zara() -> UserId {
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UserId::try_from("@zara:foo").unwrap()
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}
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fn room_id() -> RoomId {
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RoomId::try_from("!test:foo").unwrap()
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}
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fn member_content_ban() -> JsonValue {
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serde_json::to_value(MemberEventContent {
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membership: MembershipState::Ban,
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displayname: None,
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avatar_url: None,
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is_direct: None,
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third_party_invite: None,
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})
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.unwrap()
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}
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fn member_content_join() -> JsonValue {
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serde_json::to_value(MemberEventContent {
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membership: MembershipState::Join,
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displayname: None,
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avatar_url: None,
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is_direct: None,
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third_party_invite: None,
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})
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.unwrap()
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}
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fn to_pdu_event<S>(
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id: &str,
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sender: UserId,
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ev_type: EventType,
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state_key: Option<&str>,
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content: JsonValue,
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auth_events: &[S],
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prev_events: &[S],
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) -> Arc<StateEvent>
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where
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S: AsRef<str>,
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{
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let ts = unsafe {
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let ts = SERVER_TIMESTAMP;
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// increment the "origin_server_ts" value
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SERVER_TIMESTAMP += 1;
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ts
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};
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let id = if id.contains('$') {
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id.to_string()
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} else {
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format!("${}:foo", id)
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};
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let auth_events = auth_events
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.iter()
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.map(AsRef::as_ref)
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.map(event_id)
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.map(|id| {
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(
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id,
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EventHash {
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sha256: "hello".into(),
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},
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)
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})
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.collect::<Vec<_>>();
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let prev_events = prev_events
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.iter()
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.map(AsRef::as_ref)
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.map(event_id)
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.map(|id| {
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(
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id,
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EventHash {
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sha256: "hello".into(),
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},
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)
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})
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.collect::<Vec<_>>();
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let json = if let Some(state_key) = state_key {
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json!({
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"auth_events": auth_events,
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"prev_events": prev_events,
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"event_id": id,
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"sender": sender,
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"type": ev_type,
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"state_key": state_key,
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"content": content,
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"origin_server_ts": ts,
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"room_id": room_id(),
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"origin": "foo",
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"depth": 0,
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"hashes": { "sha256": "hello" },
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"signatures": {},
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})
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} else {
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json!({
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"auth_events": auth_events,
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"prev_events": prev_events,
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"event_id": id,
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"sender": sender,
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"type": ev_type,
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"content": content,
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"origin_server_ts": ts,
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"room_id": room_id(),
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"origin": "foo",
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"depth": 0,
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"hashes": { "sha256": "hello" },
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"signatures": {},
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})
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};
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Arc::new(serde_json::from_value(json).unwrap())
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}
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// all graphs start with these input events
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#[allow(non_snake_case)]
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fn INITIAL_EVENTS() -> BTreeMap<EventId, Arc<StateEvent>> {
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// this is always called so we can init the logger here
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let _ = LOGGER.call_once(|| {
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tracer::fmt()
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.with_env_filter(tracer::EnvFilter::from_default_env())
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.init()
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});
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vec![
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to_pdu_event::<EventId>(
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"CREATE",
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alice(),
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EventType::RoomCreate,
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Some(""),
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json!({ "creator": alice() }),
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&[],
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&[],
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),
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to_pdu_event(
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"IMA",
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alice(),
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EventType::RoomMember,
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Some(alice().to_string().as_str()),
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member_content_join(),
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&["CREATE"],
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&["CREATE"],
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),
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to_pdu_event(
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"IPOWER",
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alice(),
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EventType::RoomPowerLevels,
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Some(""),
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json!({"users": {alice().to_string(): 100}}),
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&["CREATE", "IMA"],
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&["IMA"],
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),
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to_pdu_event(
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"IJR",
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alice(),
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EventType::RoomJoinRules,
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Some(""),
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json!({ "join_rule": JoinRule::Public }),
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&["CREATE", "IMA", "IPOWER"],
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&["IPOWER"],
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),
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to_pdu_event(
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"IMB",
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bob(),
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EventType::RoomMember,
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Some(bob().to_string().as_str()),
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member_content_join(),
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&["CREATE", "IJR", "IPOWER"],
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&["IJR"],
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),
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to_pdu_event(
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"IMC",
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charlie(),
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EventType::RoomMember,
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Some(charlie().to_string().as_str()),
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member_content_join(),
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&["CREATE", "IJR", "IPOWER"],
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&["IMB"],
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),
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to_pdu_event::<EventId>(
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"START",
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charlie(),
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EventType::RoomTopic,
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Some(""),
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json!({}),
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&[],
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&[],
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),
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to_pdu_event::<EventId>(
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"END",
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charlie(),
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EventType::RoomTopic,
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Some(""),
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json!({}),
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&[],
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&[],
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),
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]
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.into_iter()
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.map(|ev| (ev.event_id(), ev))
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.collect()
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}
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#[allow(non_snake_case)]
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fn INITIAL_EDGES() -> Vec<EventId> {
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vec!["START", "IMC", "IMB", "IJR", "IPOWER", "IMA", "CREATE"]
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.into_iter()
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.map(event_id)
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.collect::<Vec<_>>()
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}
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// all graphs start with these input events
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#[allow(non_snake_case)]
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fn BAN_STATE_SET() -> BTreeMap<EventId, Arc<StateEvent>> {
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vec![
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to_pdu_event(
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"PA",
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alice(),
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EventType::RoomPowerLevels,
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Some(""),
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json!({"users": {alice(): 100, bob(): 50}}),
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&["CREATE", "IMA", "IPOWER"], // auth_events
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&["START"], // prev_events
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),
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to_pdu_event(
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"PB",
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alice(),
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EventType::RoomPowerLevels,
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Some(""),
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json!({"users": {alice(): 100, bob(): 50}}),
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&["CREATE", "IMA", "IPOWER"],
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&["END"],
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),
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to_pdu_event(
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"MB",
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alice(),
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EventType::RoomMember,
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Some(ella().as_str()),
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member_content_ban(),
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&["CREATE", "IMA", "PB"],
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&["PA"],
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),
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to_pdu_event(
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"IME",
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ella(),
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EventType::RoomMember,
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Some(ella().as_str()),
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member_content_join(),
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&["CREATE", "IJR", "PA"],
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&["MB"],
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),
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]
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.into_iter()
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.map(|ev| (ev.event_id(), ev))
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.collect()
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}
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|
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#[test]
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fn ban_with_auth_chains() {
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let ban = BAN_STATE_SET();
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let edges = vec![vec!["END", "MB", "PA", "START"], vec!["END", "IME", "MB"]]
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.into_iter()
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.map(|list| list.into_iter().map(event_id).collect::<Vec<_>>())
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.collect::<Vec<_>>();
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let expected_state_ids = vec!["PA", "MB", "END"]
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.into_iter()
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.map(event_id)
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.collect::<Vec<_>>();
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do_check(
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&ban.values().cloned().collect::<Vec<_>>(),
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edges,
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expected_state_ids,
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);
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}
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|
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#[test]
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fn base_with_auth_chains() {
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let store = TestStore(INITIAL_EVENTS());
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|
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let resolved: BTreeMap<_, EventId> =
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match StateResolution::resolve(&room_id(), &RoomVersionId::Version2, &[], None, &store) {
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Ok(state) => state,
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Err(e) => panic!("{}", e),
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};
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let resolved = resolved
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.values()
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.cloned()
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.chain(INITIAL_EVENTS().values().map(|e| e.event_id()))
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.collect::<Vec<_>>();
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let expected = vec![
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"$CREATE:foo",
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"$IJR:foo",
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"$IPOWER:foo",
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"$IMA:foo",
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"$IMB:foo",
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"$IMC:foo",
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"START",
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"END",
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];
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for id in expected.iter().map(|i| event_id(i)) {
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// make sure our resolved events are equal to the expected list
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assert!(resolved.iter().any(|eid| eid == &id), "{}", id)
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}
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assert_eq!(expected.len(), resolved.len())
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}
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|
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#[test]
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fn ban_with_auth_chains2() {
|
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let init = INITIAL_EVENTS();
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let ban = BAN_STATE_SET();
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let mut inner = init.clone();
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inner.extend(ban);
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let store = TestStore(inner.clone());
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let state_set_a = [
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inner.get(&event_id("CREATE")).unwrap(),
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inner.get(&event_id("IJR")).unwrap(),
|
|
inner.get(&event_id("IMA")).unwrap(),
|
|
inner.get(&event_id("IMB")).unwrap(),
|
|
inner.get(&event_id("IMC")).unwrap(),
|
|
inner.get(&event_id("MB")).unwrap(),
|
|
inner.get(&event_id("PA")).unwrap(),
|
|
]
|
|
.iter()
|
|
.map(|ev| ((ev.kind(), ev.state_key()), ev.event_id()))
|
|
.collect::<BTreeMap<_, _>>();
|
|
|
|
let state_set_b = [
|
|
inner.get(&event_id("CREATE")).unwrap(),
|
|
inner.get(&event_id("IJR")).unwrap(),
|
|
inner.get(&event_id("IMA")).unwrap(),
|
|
inner.get(&event_id("IMB")).unwrap(),
|
|
inner.get(&event_id("IMC")).unwrap(),
|
|
inner.get(&event_id("IME")).unwrap(),
|
|
inner.get(&event_id("PA")).unwrap(),
|
|
]
|
|
.iter()
|
|
.map(|ev| ((ev.kind(), ev.state_key()), ev.event_id()))
|
|
.collect::<StateMap<_>>();
|
|
|
|
let resolved: StateMap<EventId> = match StateResolution::resolve(
|
|
&room_id(),
|
|
&RoomVersionId::Version2,
|
|
&[state_set_a, state_set_b],
|
|
None,
|
|
&store,
|
|
) {
|
|
Ok(state) => state,
|
|
Err(e) => panic!("{}", e),
|
|
};
|
|
|
|
tracing::debug!(
|
|
"{:#?}",
|
|
resolved
|
|
.iter()
|
|
.map(|((ty, key), id)| format!("(({}{:?}), {})", ty, key, id))
|
|
.collect::<Vec<_>>()
|
|
);
|
|
|
|
let expected = vec![
|
|
"$CREATE:foo",
|
|
"$IJR:foo",
|
|
"$PA:foo",
|
|
"$IMA:foo",
|
|
"$IMB:foo",
|
|
"$IMC:foo",
|
|
"$MB:foo",
|
|
];
|
|
|
|
for id in expected.iter().map(|i| event_id(i)) {
|
|
// make sure our resolved events are equall to the expected list
|
|
assert!(
|
|
resolved.values().any(|eid| eid == &id) || init.contains_key(&id),
|
|
"{}",
|
|
id
|
|
)
|
|
}
|
|
assert_eq!(expected.len(), resolved.len())
|
|
}
|
|
|
|
// all graphs start with these input events
|
|
#[allow(non_snake_case)]
|
|
fn JOIN_RULE() -> BTreeMap<EventId, Arc<StateEvent>> {
|
|
vec![
|
|
to_pdu_event(
|
|
"JR",
|
|
alice(),
|
|
EventType::RoomJoinRules,
|
|
Some(""),
|
|
json!({"join_rule": "invite"}),
|
|
&["CREATE", "IMA", "IPOWER"],
|
|
&["START"],
|
|
),
|
|
to_pdu_event(
|
|
"IMZ",
|
|
zara(),
|
|
EventType::RoomPowerLevels,
|
|
Some(zara().as_str()),
|
|
member_content_join(),
|
|
&["CREATE", "JR", "IPOWER"],
|
|
&["START"],
|
|
),
|
|
]
|
|
.into_iter()
|
|
.map(|ev| (ev.event_id(), ev))
|
|
.collect()
|
|
}
|
|
|
|
#[test]
|
|
fn join_rule_with_auth_chain() {
|
|
let join_rule = JOIN_RULE();
|
|
|
|
let edges = vec![vec!["END", "JR", "START"], vec!["END", "IMZ", "START"]]
|
|
.into_iter()
|
|
.map(|list| list.into_iter().map(event_id).collect::<Vec<_>>())
|
|
.collect::<Vec<_>>();
|
|
|
|
let expected_state_ids = vec!["JR", "END"]
|
|
.into_iter()
|
|
.map(event_id)
|
|
.collect::<Vec<_>>();
|
|
|
|
do_check(
|
|
&join_rule.values().cloned().collect::<Vec<_>>(),
|
|
edges,
|
|
expected_state_ids,
|
|
);
|
|
}
|