LCOV - code coverage report
Current view: top level - pageserver/src/tenant/timeline/walreceiver - connection_manager.rs (source / functions) Coverage Total Hit
Test: 7179b4db0d82ca8088cc95c44c4be4232078509c.info Lines: 59.0 % 1172 691
Test Date: 2024-11-21 16:46:58 Functions: 62.7 % 75 47

            Line data    Source code
       1              : //! WAL receiver logic that ensures the pageserver gets connectected to safekeeper,
       2              : //! that contains the latest WAL to stream and this connection does not go stale.
       3              : //!
       4              : //! To achieve that, a storage broker is used: safekepers propagate their timelines' state in it,
       5              : //! the manager subscribes for changes and accumulates those to query the one with the biggest Lsn for connection.
       6              : //! Current connection state is tracked too, to ensure it's not getting stale.
       7              : //!
       8              : //! After every connection or storage broker update fetched, the state gets updated correspondingly and rechecked for the new conneciton leader,
       9              : //! then a (re)connection happens, if necessary.
      10              : //! Only WAL streaming task expects to be finished, other loops (storage broker, connection management) never exit unless cancelled explicitly via the dedicated channel.
      11              : 
      12              : use std::{collections::HashMap, num::NonZeroU64, ops::ControlFlow, sync::Arc, time::Duration};
      13              : 
      14              : use super::{TaskStateUpdate, WalReceiverConf};
      15              : use crate::context::{DownloadBehavior, RequestContext};
      16              : use crate::metrics::{
      17              :     WALRECEIVER_ACTIVE_MANAGERS, WALRECEIVER_BROKER_UPDATES, WALRECEIVER_CANDIDATES_ADDED,
      18              :     WALRECEIVER_CANDIDATES_REMOVED, WALRECEIVER_SWITCHES,
      19              : };
      20              : use crate::task_mgr::TaskKind;
      21              : use crate::tenant::{debug_assert_current_span_has_tenant_and_timeline_id, Timeline};
      22              : use anyhow::Context;
      23              : use chrono::{NaiveDateTime, Utc};
      24              : use pageserver_api::models::TimelineState;
      25              : 
      26              : use storage_broker::proto::TenantTimelineId as ProtoTenantTimelineId;
      27              : use storage_broker::proto::{
      28              :     FilterTenantTimelineId, MessageType, SafekeeperDiscoveryRequest, SafekeeperDiscoveryResponse,
      29              :     SubscribeByFilterRequest, TypeSubscription, TypedMessage,
      30              : };
      31              : use storage_broker::{BrokerClientChannel, Code, Streaming};
      32              : use tokio_util::sync::CancellationToken;
      33              : use tracing::*;
      34              : 
      35              : use postgres_connection::PgConnectionConfig;
      36              : use utils::backoff::{
      37              :     exponential_backoff, DEFAULT_BASE_BACKOFF_SECONDS, DEFAULT_MAX_BACKOFF_SECONDS,
      38              : };
      39              : use utils::postgres_client::wal_stream_connection_config;
      40              : use utils::{
      41              :     id::{NodeId, TenantTimelineId},
      42              :     lsn::Lsn,
      43              : };
      44              : 
      45              : use super::{
      46              :     walreceiver_connection::WalConnectionStatus, walreceiver_connection::WalReceiverError,
      47              :     TaskEvent, TaskHandle,
      48              : };
      49              : 
      50              : pub(crate) struct Cancelled;
      51              : 
      52              : /// Attempts to subscribe for timeline updates, pushed by safekeepers into the broker.
      53              : /// Based on the updates, desides whether to start, keep or stop a WAL receiver task.
      54              : /// If storage broker subscription is cancelled, exits.
      55              : ///
      56              : /// # Cancel-Safety
      57              : ///
      58              : /// Not cancellation-safe. Use `cancel` token to request cancellation.
      59            0 : pub(super) async fn connection_manager_loop_step(
      60            0 :     broker_client: &mut BrokerClientChannel,
      61            0 :     connection_manager_state: &mut ConnectionManagerState,
      62            0 :     ctx: &RequestContext,
      63            0 :     cancel: &CancellationToken,
      64            0 :     manager_status: &std::sync::RwLock<Option<ConnectionManagerStatus>>,
      65            0 : ) -> Result<(), Cancelled> {
      66            0 :     match tokio::select! {
      67            0 :         _ = cancel.cancelled() => { return Err(Cancelled); },
      68            0 :         st = connection_manager_state.timeline.wait_to_become_active(ctx) => { st }
      69              :     } {
      70            0 :         Ok(()) => {}
      71            0 :         Err(new_state) => {
      72            0 :             debug!(
      73              :                 ?new_state,
      74            0 :                 "state changed, stopping wal connection manager loop"
      75              :             );
      76            0 :             return Err(Cancelled);
      77              :         }
      78              :     }
      79              : 
      80            0 :     WALRECEIVER_ACTIVE_MANAGERS.inc();
      81            0 :     scopeguard::defer! {
      82            0 :         WALRECEIVER_ACTIVE_MANAGERS.dec();
      83            0 :     }
      84            0 : 
      85            0 :     let id = TenantTimelineId {
      86            0 :         tenant_id: connection_manager_state.timeline.tenant_shard_id.tenant_id,
      87            0 :         timeline_id: connection_manager_state.timeline.timeline_id,
      88            0 :     };
      89            0 : 
      90            0 :     let mut timeline_state_updates = connection_manager_state
      91            0 :         .timeline
      92            0 :         .subscribe_for_state_updates();
      93            0 : 
      94            0 :     let mut wait_lsn_status = connection_manager_state
      95            0 :         .timeline
      96            0 :         .subscribe_for_wait_lsn_updates();
      97            0 : 
      98            0 :     // TODO: create a separate config option for discovery request interval
      99            0 :     let discovery_request_interval = connection_manager_state.conf.lagging_wal_timeout;
     100            0 :     let mut last_discovery_ts: Option<std::time::Instant> = None;
     101              : 
     102              :     // Subscribe to the broker updates. Stream shares underlying TCP connection
     103              :     // with other streams on this client (other connection managers). When
     104              :     // object goes out of scope, stream finishes in drop() automatically.
     105            0 :     let mut broker_subscription = subscribe_for_timeline_updates(broker_client, id, cancel).await?;
     106            0 :     debug!("Subscribed for broker timeline updates");
     107              : 
     108              :     loop {
     109            0 :         let time_until_next_retry = connection_manager_state.time_until_next_retry();
     110            0 :         let any_activity = connection_manager_state.wal_connection.is_some()
     111            0 :             || !connection_manager_state.wal_stream_candidates.is_empty();
     112              : 
     113              :         // These things are happening concurrently:
     114              :         //
     115              :         //  - cancellation request
     116              :         //  - keep receiving WAL on the current connection
     117              :         //      - if the shared state says we need to change connection, disconnect and return
     118              :         //      - this runs in a separate task and we receive updates via a watch channel
     119              :         //  - change connection if the rules decide so, or if the current connection dies
     120              :         //  - receive updates from broker
     121              :         //      - this might change the current desired connection
     122              :         //  - timeline state changes to something that does not allow walreceiver to run concurrently
     123              :         //  - if there's no connection and no candidates, try to send a discovery request
     124              : 
     125              :         // NB: make sure each of the select expressions are cancellation-safe
     126              :         // (no need for arms to be cancellation-safe).
     127            0 :         tokio::select! {
     128            0 :             _ = cancel.cancelled() => { return Err(Cancelled); }
     129            0 :             Some(wal_connection_update) = async {
     130            0 :                 match connection_manager_state.wal_connection.as_mut() {
     131            0 :                     Some(wal_connection) => Some(wal_connection.connection_task.next_task_event().await),
     132            0 :                     None => None,
     133              :                 }
     134            0 :             } => {
     135            0 :                 let wal_connection = connection_manager_state.wal_connection.as_mut()
     136            0 :                     .expect("Should have a connection, as checked by the corresponding select! guard");
     137            0 :                 match wal_connection_update {
     138            0 :                     TaskEvent::Update(TaskStateUpdate::Started) => {},
     139            0 :                     TaskEvent::Update(TaskStateUpdate::Progress(new_status)) => {
     140            0 :                         if new_status.has_processed_wal {
     141            0 :                             // We have advanced last_record_lsn by processing the WAL received
     142            0 :                             // from this safekeeper. This is good enough to clean unsuccessful
     143            0 :                             // retries history and allow reconnecting to this safekeeper without
     144            0 :                             // sleeping for a long time.
     145            0 :                             connection_manager_state.wal_connection_retries.remove(&wal_connection.sk_id);
     146            0 :                         }
     147            0 :                         wal_connection.status = new_status;
     148              :                     }
     149            0 :                     TaskEvent::End(walreceiver_task_result) => {
     150            0 :                         match walreceiver_task_result {
     151            0 :                             Ok(()) => debug!("WAL receiving task finished"),
     152            0 :                             Err(e) => error!("wal receiver task finished with an error: {e:?}"),
     153              :                         }
     154            0 :                         connection_manager_state.drop_old_connection(false).await;
     155              :                     },
     156              :                 }
     157              :             },
     158              : 
     159              :             // Got a new update from the broker
     160            0 :             broker_update = broker_subscription.message() /* TODO: review cancellation-safety */ => {
     161            0 :                 match broker_update {
     162            0 :                     Ok(Some(broker_update)) => connection_manager_state.register_timeline_update(broker_update),
     163            0 :                     Err(status) => {
     164            0 :                         match status.code() {
     165            0 :                             Code::Unknown if status.message().contains("stream closed because of a broken pipe") || status.message().contains("connection reset") => {
     166            0 :                                 // tonic's error handling doesn't provide a clear code for disconnections: we get
     167            0 :                                 // "h2 protocol error: error reading a body from connection: stream closed because of a broken pipe"
     168            0 :                                 info!("broker disconnected: {status}");
     169              :                             },
     170              :                             _ => {
     171            0 :                                 warn!("broker subscription failed: {status}");
     172              :                             }
     173              :                         }
     174            0 :                         return Ok(());
     175              :                     }
     176              :                     Ok(None) => {
     177            0 :                         error!("broker subscription stream ended"); // can't happen
     178            0 :                         return Ok(());
     179              :                     }
     180              :                 }
     181              :             },
     182              : 
     183            0 :             new_event = async {
     184              :                 // Reminder: this match arm needs to be cancellation-safe.
     185              :                 loop {
     186            0 :                     if connection_manager_state.timeline.current_state() == TimelineState::Loading {
     187            0 :                         warn!("wal connection manager should only be launched after timeline has become active");
     188            0 :                     }
     189            0 :                     match timeline_state_updates.changed().await {
     190              :                         Ok(()) => {
     191            0 :                             let new_state = connection_manager_state.timeline.current_state();
     192            0 :                             match new_state {
     193              :                                 // we're already active as walreceiver, no need to reactivate
     194            0 :                                 TimelineState::Active => continue,
     195              :                                 TimelineState::Broken { .. } | TimelineState::Stopping => {
     196            0 :                                     debug!("timeline entered terminal state {new_state:?}, stopping wal connection manager loop");
     197            0 :                                     return ControlFlow::Break(());
     198              :                                 }
     199              :                                 TimelineState::Loading => {
     200            0 :                                     warn!("timeline transitioned back to Loading state, that should not happen");
     201            0 :                                     return ControlFlow::Continue(());
     202              :                                 }
     203              :                             }
     204              :                         }
     205            0 :                         Err(_sender_dropped_error) => return ControlFlow::Break(()),
     206              :                     }
     207              :                 }
     208            0 :             } => match new_event {
     209              :                 ControlFlow::Continue(()) => {
     210            0 :                     return Ok(());
     211              :                 }
     212              :                 ControlFlow::Break(()) => {
     213            0 :                     debug!("Timeline is no longer active, stopping wal connection manager loop");
     214            0 :                     return Err(Cancelled);
     215              :                 }
     216              :             },
     217              : 
     218            0 :             Some(()) = async {
     219            0 :                 match time_until_next_retry {
     220            0 :                     Some(sleep_time) => {
     221            0 :                         tokio::time::sleep(sleep_time).await;
     222            0 :                         Some(())
     223              :                     },
     224              :                     None => {
     225            0 :                         debug!("No candidates to retry, waiting indefinitely for the broker events");
     226            0 :                         None
     227              :                     }
     228              :                 }
     229            0 :             } => debug!("Waking up for the next retry after waiting for {time_until_next_retry:?}"),
     230              : 
     231            0 :             Some(()) = async {
     232            0 :                 // Reminder: this match arm needs to be cancellation-safe.
     233            0 :                 // Calculating time needed to wait until sending the next discovery request.
     234            0 :                 // Current implementation is conservative and sends discovery requests only when there are no candidates.
     235            0 : 
     236            0 :                 if any_activity {
     237              :                     // No need to send discovery requests if there is an active connection or candidates.
     238            0 :                     return None;
     239            0 :                 }
     240              : 
     241              :                 // Waiting for an active wait_lsn request.
     242            0 :                 while wait_lsn_status.borrow().is_none() {
     243            0 :                     if wait_lsn_status.changed().await.is_err() {
     244              :                         // wait_lsn_status channel was closed, exiting
     245            0 :                         warn!("wait_lsn_status channel was closed in connection_manager_loop_step");
     246            0 :                         return None;
     247            0 :                     }
     248              :                 }
     249              : 
     250              :                 // All preconditions met, preparing to send a discovery request.
     251            0 :                 let now = std::time::Instant::now();
     252            0 :                 let next_discovery_ts = last_discovery_ts
     253            0 :                     .map(|ts| ts + discovery_request_interval)
     254            0 :                     .unwrap_or_else(|| now);
     255            0 : 
     256            0 :                 if next_discovery_ts > now {
     257              :                     // Prevent sending discovery requests too frequently.
     258            0 :                     tokio::time::sleep(next_discovery_ts - now).await;
     259            0 :                 }
     260              : 
     261            0 :                 let tenant_timeline_id = Some(ProtoTenantTimelineId {
     262            0 :                     tenant_id: id.tenant_id.as_ref().to_owned(),
     263            0 :                     timeline_id: id.timeline_id.as_ref().to_owned(),
     264            0 :                 });
     265            0 :                 let request = SafekeeperDiscoveryRequest { tenant_timeline_id };
     266            0 :                 let msg = TypedMessage {
     267            0 :                     r#type: MessageType::SafekeeperDiscoveryRequest as i32,
     268            0 :                     safekeeper_timeline_info: None,
     269            0 :                     safekeeper_discovery_request: Some(request),
     270            0 :                     safekeeper_discovery_response: None,
     271            0 :                     };
     272            0 : 
     273            0 :                 last_discovery_ts = Some(std::time::Instant::now());
     274            0 :                 debug!("No active connection and no candidates, sending discovery request to the broker");
     275              : 
     276              :                 // Cancellation safety: we want to send a message to the broker, but publish_one()
     277              :                 // function can get cancelled by the other select! arm. This is absolutely fine, because
     278              :                 // we just want to receive broker updates and discovery is not important if we already
     279              :                 // receive updates.
     280              :                 //
     281              :                 // It is possible that `last_discovery_ts` will be updated, but the message will not be sent.
     282              :                 // This is totally fine because of the reason above.
     283              : 
     284              :                 // This is a fire-and-forget request, we don't care about the response
     285            0 :                 let _ = broker_client.publish_one(msg).await;
     286            0 :                 debug!("Discovery request sent to the broker");
     287            0 :                 None
     288            0 :             } => {}
     289              :         }
     290              : 
     291            0 :         if let Some(new_candidate) = connection_manager_state.next_connection_candidate() {
     292            0 :             info!("Switching to new connection candidate: {new_candidate:?}");
     293            0 :             connection_manager_state
     294            0 :                 .change_connection(new_candidate, ctx)
     295            0 :                 .await
     296            0 :         }
     297            0 :         *manager_status.write().unwrap() = Some(connection_manager_state.manager_status());
     298              :     }
     299            0 : }
     300              : 
     301              : /// Endlessly try to subscribe for broker updates for a given timeline.
     302            0 : async fn subscribe_for_timeline_updates(
     303            0 :     broker_client: &mut BrokerClientChannel,
     304            0 :     id: TenantTimelineId,
     305            0 :     cancel: &CancellationToken,
     306            0 : ) -> Result<Streaming<TypedMessage>, Cancelled> {
     307            0 :     let mut attempt = 0;
     308              :     loop {
     309            0 :         exponential_backoff(
     310            0 :             attempt,
     311            0 :             DEFAULT_BASE_BACKOFF_SECONDS,
     312            0 :             DEFAULT_MAX_BACKOFF_SECONDS,
     313            0 :             cancel,
     314            0 :         )
     315            0 :         .await;
     316            0 :         attempt += 1;
     317            0 : 
     318            0 :         // subscribe to the specific timeline
     319            0 :         let request = SubscribeByFilterRequest {
     320            0 :             types: vec![
     321            0 :                 TypeSubscription {
     322            0 :                     r#type: MessageType::SafekeeperTimelineInfo as i32,
     323            0 :                 },
     324            0 :                 TypeSubscription {
     325            0 :                     r#type: MessageType::SafekeeperDiscoveryResponse as i32,
     326            0 :                 },
     327            0 :             ],
     328            0 :             tenant_timeline_id: Some(FilterTenantTimelineId {
     329            0 :                 enabled: true,
     330            0 :                 tenant_timeline_id: Some(ProtoTenantTimelineId {
     331            0 :                     tenant_id: id.tenant_id.as_ref().to_owned(),
     332            0 :                     timeline_id: id.timeline_id.as_ref().to_owned(),
     333            0 :                 }),
     334            0 :             }),
     335            0 :         };
     336            0 : 
     337            0 :         match {
     338            0 :             tokio::select! {
     339            0 :                 r = broker_client.subscribe_by_filter(request) => { r }
     340            0 :                 _ = cancel.cancelled() => { return Err(Cancelled); }
     341              :             }
     342              :         } {
     343            0 :             Ok(resp) => {
     344            0 :                 return Ok(resp.into_inner());
     345              :             }
     346            0 :             Err(e) => {
     347            0 :                 // Safekeeper nodes can stop pushing timeline updates to the broker, when no new writes happen and
     348            0 :                 // entire WAL is streamed. Keep this noticeable with logging, but do not warn/error.
     349            0 :                 info!("Attempt #{attempt}, failed to subscribe for timeline {id} updates in broker: {e:#}");
     350            0 :                 continue;
     351              :             }
     352              :         }
     353              :     }
     354            0 : }
     355              : 
     356              : const WALCONNECTION_RETRY_MIN_BACKOFF_SECONDS: f64 = 0.1;
     357              : const WALCONNECTION_RETRY_MAX_BACKOFF_SECONDS: f64 = 15.0;
     358              : const WALCONNECTION_RETRY_BACKOFF_MULTIPLIER: f64 = 1.5;
     359              : 
     360              : /// All data that's needed to run endless broker loop and keep the WAL streaming connection alive, if possible.
     361              : pub(super) struct ConnectionManagerState {
     362              :     id: TenantTimelineId,
     363              :     /// Use pageserver data about the timeline to filter out some of the safekeepers.
     364              :     timeline: Arc<Timeline>,
     365              :     /// Child token of [`super::WalReceiver::cancel`], inherited to all tasks we spawn.
     366              :     cancel: CancellationToken,
     367              :     conf: WalReceiverConf,
     368              :     /// Current connection to safekeeper for WAL streaming.
     369              :     wal_connection: Option<WalConnection>,
     370              :     /// Info about retries and unsuccessful attempts to connect to safekeepers.
     371              :     wal_connection_retries: HashMap<NodeId, RetryInfo>,
     372              :     /// Data about all timelines, available for connection, fetched from storage broker, grouped by their corresponding safekeeper node id.
     373              :     wal_stream_candidates: HashMap<NodeId, BrokerSkTimeline>,
     374              : }
     375              : 
     376              : /// An information about connection manager's current connection and connection candidates.
     377              : #[derive(Debug, Clone)]
     378              : pub struct ConnectionManagerStatus {
     379              :     existing_connection: Option<WalConnectionStatus>,
     380              :     wal_stream_candidates: HashMap<NodeId, BrokerSkTimeline>,
     381              : }
     382              : 
     383              : impl ConnectionManagerStatus {
     384              :     /// Generates a string, describing current connection status in a form, suitable for logging.
     385            0 :     pub fn to_human_readable_string(&self) -> String {
     386            0 :         let mut resulting_string = String::new();
     387            0 :         match &self.existing_connection {
     388            0 :             Some(connection) => {
     389            0 :                 if connection.has_processed_wal {
     390            0 :                     resulting_string.push_str(&format!(
     391            0 :                         " (update {}): streaming WAL from node {}, ",
     392            0 :                         connection.latest_wal_update.format("%Y-%m-%d %H:%M:%S"),
     393            0 :                         connection.node,
     394            0 :                     ));
     395            0 : 
     396            0 :                     match (connection.streaming_lsn, connection.commit_lsn) {
     397            0 :                         (None, None) => resulting_string.push_str("no streaming data"),
     398            0 :                         (None, Some(commit_lsn)) => {
     399            0 :                             resulting_string.push_str(&format!("commit Lsn: {commit_lsn}"))
     400              :                         }
     401            0 :                         (Some(streaming_lsn), None) => {
     402            0 :                             resulting_string.push_str(&format!("streaming Lsn: {streaming_lsn}"))
     403              :                         }
     404            0 :                         (Some(streaming_lsn), Some(commit_lsn)) => resulting_string.push_str(
     405            0 :                             &format!("commit|streaming Lsn: {commit_lsn}|{streaming_lsn}"),
     406            0 :                         ),
     407              :                     }
     408            0 :                 } else if connection.is_connected {
     409            0 :                     resulting_string.push_str(&format!(
     410            0 :                         " (update {}): connecting to node {}",
     411            0 :                         connection
     412            0 :                             .latest_connection_update
     413            0 :                             .format("%Y-%m-%d %H:%M:%S"),
     414            0 :                         connection.node,
     415            0 :                     ));
     416            0 :                 } else {
     417            0 :                     resulting_string.push_str(&format!(
     418            0 :                         " (update {}): initializing node {} connection",
     419            0 :                         connection
     420            0 :                             .latest_connection_update
     421            0 :                             .format("%Y-%m-%d %H:%M:%S"),
     422            0 :                         connection.node,
     423            0 :                     ));
     424            0 :                 }
     425              :             }
     426            0 :             None => resulting_string.push_str(": disconnected"),
     427              :         }
     428              : 
     429            0 :         resulting_string.push_str(", safekeeper candidates (id|update_time|commit_lsn): [");
     430            0 :         let mut candidates = self.wal_stream_candidates.iter().peekable();
     431            0 :         while let Some((node_id, candidate_info)) = candidates.next() {
     432            0 :             resulting_string.push_str(&format!(
     433            0 :                 "({}|{}|{})",
     434            0 :                 node_id,
     435            0 :                 candidate_info.latest_update.format("%H:%M:%S"),
     436            0 :                 Lsn(candidate_info.timeline.commit_lsn)
     437            0 :             ));
     438            0 :             if candidates.peek().is_some() {
     439            0 :                 resulting_string.push_str(", ");
     440            0 :             }
     441              :         }
     442            0 :         resulting_string.push(']');
     443            0 : 
     444            0 :         resulting_string
     445            0 :     }
     446              : }
     447              : 
     448              : /// Current connection data.
     449              : #[derive(Debug)]
     450              : struct WalConnection {
     451              :     /// Time when the connection was initiated.
     452              :     started_at: NaiveDateTime,
     453              :     /// Current safekeeper pageserver is connected to for WAL streaming.
     454              :     sk_id: NodeId,
     455              :     /// Availability zone of the safekeeper.
     456              :     availability_zone: Option<String>,
     457              :     /// Status of the connection.
     458              :     status: WalConnectionStatus,
     459              :     /// WAL streaming task handle.
     460              :     connection_task: TaskHandle<WalConnectionStatus>,
     461              :     /// Have we discovered that other safekeeper has more recent WAL than we do?
     462              :     discovered_new_wal: Option<NewCommittedWAL>,
     463              : }
     464              : 
     465              : /// Notion of a new committed WAL, which exists on other safekeeper.
     466              : #[derive(Debug, Clone, Copy)]
     467              : struct NewCommittedWAL {
     468              :     /// LSN of the new committed WAL.
     469              :     lsn: Lsn,
     470              :     /// When we discovered that the new committed WAL exists on other safekeeper.
     471              :     discovered_at: NaiveDateTime,
     472              : }
     473              : 
     474              : #[derive(Debug, Clone, Copy)]
     475              : struct RetryInfo {
     476              :     next_retry_at: Option<NaiveDateTime>,
     477              :     retry_duration_seconds: f64,
     478              : }
     479              : 
     480              : /// Data about the timeline to connect to, received from the broker.
     481              : #[derive(Debug, Clone)]
     482              : struct BrokerSkTimeline {
     483              :     timeline: SafekeeperDiscoveryResponse,
     484              :     /// Time at which the data was fetched from the broker last time, to track the stale data.
     485              :     latest_update: NaiveDateTime,
     486              : }
     487              : 
     488              : impl ConnectionManagerState {
     489            0 :     pub(super) fn new(
     490            0 :         timeline: Arc<Timeline>,
     491            0 :         conf: WalReceiverConf,
     492            0 :         cancel: CancellationToken,
     493            0 :     ) -> Self {
     494            0 :         let id = TenantTimelineId {
     495            0 :             tenant_id: timeline.tenant_shard_id.tenant_id,
     496            0 :             timeline_id: timeline.timeline_id,
     497            0 :         };
     498            0 :         Self {
     499            0 :             id,
     500            0 :             timeline,
     501            0 :             cancel,
     502            0 :             conf,
     503            0 :             wal_connection: None,
     504            0 :             wal_stream_candidates: HashMap::new(),
     505            0 :             wal_connection_retries: HashMap::new(),
     506            0 :         }
     507            0 :     }
     508              : 
     509           10 :     fn spawn<Fut>(
     510           10 :         &self,
     511           10 :         task: impl FnOnce(
     512           10 :                 tokio::sync::watch::Sender<TaskStateUpdate<WalConnectionStatus>>,
     513           10 :                 CancellationToken,
     514           10 :             ) -> Fut
     515           10 :             + Send
     516           10 :             + 'static,
     517           10 :     ) -> TaskHandle<WalConnectionStatus>
     518           10 :     where
     519           10 :         Fut: std::future::Future<Output = anyhow::Result<()>> + Send,
     520           10 :     {
     521           10 :         // TODO: get rid of TaskHandle
     522           10 :         super::TaskHandle::spawn(&self.cancel, task)
     523           10 :     }
     524              : 
     525              :     /// Shuts down the current connection (if any) and immediately starts another one with the given connection string.
     526            0 :     async fn change_connection(&mut self, new_sk: NewWalConnectionCandidate, ctx: &RequestContext) {
     527            0 :         WALRECEIVER_SWITCHES
     528            0 :             .with_label_values(&[new_sk.reason.name()])
     529            0 :             .inc();
     530            0 : 
     531            0 :         self.drop_old_connection(true).await;
     532              : 
     533            0 :         let node_id = new_sk.safekeeper_id;
     534            0 :         let connect_timeout = self.conf.wal_connect_timeout;
     535            0 :         let ingest_batch_size = self.conf.ingest_batch_size;
     536            0 :         let timeline = Arc::clone(&self.timeline);
     537            0 :         let ctx = ctx.detached_child(
     538            0 :             TaskKind::WalReceiverConnectionHandler,
     539            0 :             DownloadBehavior::Download,
     540            0 :         );
     541              : 
     542            0 :         let span = info_span!("connection", %node_id);
     543            0 :         let connection_handle = self.spawn(move |events_sender, cancellation| {
     544            0 :             async move {
     545            0 :                 debug_assert_current_span_has_tenant_and_timeline_id();
     546              : 
     547            0 :                 let res = super::walreceiver_connection::handle_walreceiver_connection(
     548            0 :                     timeline,
     549            0 :                     new_sk.wal_source_connconf,
     550            0 :                     events_sender,
     551            0 :                     cancellation.clone(),
     552            0 :                     connect_timeout,
     553            0 :                     ctx,
     554            0 :                     node_id,
     555            0 :                     ingest_batch_size,
     556            0 :                 )
     557            0 :                 .await;
     558              : 
     559            0 :                 match res {
     560            0 :                     Ok(()) => Ok(()),
     561            0 :                     Err(e) => {
     562            0 :                         match e {
     563            0 :                             WalReceiverError::SuccessfulCompletion(msg) => {
     564            0 :                                 info!("walreceiver connection handling ended with success: {msg}");
     565            0 :                                 Ok(())
     566              :                             }
     567            0 :                             WalReceiverError::ExpectedSafekeeperError(e) => {
     568            0 :                                 info!("walreceiver connection handling ended: {e}");
     569            0 :                                 Ok(())
     570              :                             }
     571              :                             WalReceiverError::ClosedGate => {
     572            0 :                                 info!(
     573            0 :                                     "walreceiver connection handling ended because of closed gate"
     574              :                                 );
     575            0 :                                 Ok(())
     576              :                             }
     577            0 :                             WalReceiverError::Other(e) => {
     578            0 :                                 // give out an error to have task_mgr give it a really verbose logging
     579            0 :                                 if cancellation.is_cancelled() {
     580              :                                     // Ideally we would learn about this via some path other than Other, but
     581              :                                     // that requires refactoring all the intermediate layers of ingest code
     582              :                                     // that only emit anyhow::Error
     583            0 :                                     Ok(())
     584              :                                 } else {
     585            0 :                                     Err(e).context("walreceiver connection handling failure")
     586              :                                 }
     587              :                             }
     588              :                         }
     589              :                     }
     590              :                 }
     591            0 :             }
     592            0 :             .instrument(span)
     593            0 :         });
     594            0 : 
     595            0 :         let now = Utc::now().naive_utc();
     596            0 :         self.wal_connection = Some(WalConnection {
     597            0 :             started_at: now,
     598            0 :             sk_id: new_sk.safekeeper_id,
     599            0 :             availability_zone: new_sk.availability_zone,
     600            0 :             status: WalConnectionStatus {
     601            0 :                 is_connected: false,
     602            0 :                 has_processed_wal: false,
     603            0 :                 latest_connection_update: now,
     604            0 :                 latest_wal_update: now,
     605            0 :                 streaming_lsn: None,
     606            0 :                 commit_lsn: None,
     607            0 :                 node: node_id,
     608            0 :             },
     609            0 :             connection_task: connection_handle,
     610            0 :             discovered_new_wal: None,
     611            0 :         });
     612            0 :     }
     613              : 
     614              :     /// Drops the current connection (if any) and updates retry timeout for the next
     615              :     /// connection attempt to the same safekeeper.
     616              :     ///
     617              :     /// # Cancel-Safety
     618              :     ///
     619              :     /// Not cancellation-safe.
     620            0 :     async fn drop_old_connection(&mut self, needs_shutdown: bool) {
     621            0 :         let wal_connection = match self.wal_connection.take() {
     622            0 :             Some(wal_connection) => wal_connection,
     623            0 :             None => return,
     624              :         };
     625              : 
     626            0 :         if needs_shutdown {
     627            0 :             wal_connection
     628            0 :                 .connection_task
     629            0 :                 .shutdown()
     630              :                 // This here is why this function isn't cancellation-safe.
     631              :                 // If we got cancelled here, then self.wal_connection is already None and we lose track of the task.
     632              :                 // Even if our caller diligently calls Self::shutdown(), it will find a self.wal_connection=None
     633              :                 // and thus be ineffective.
     634            0 :                 .await;
     635            0 :         }
     636              : 
     637            0 :         let retry = self
     638            0 :             .wal_connection_retries
     639            0 :             .entry(wal_connection.sk_id)
     640            0 :             .or_insert(RetryInfo {
     641            0 :                 next_retry_at: None,
     642            0 :                 retry_duration_seconds: WALCONNECTION_RETRY_MIN_BACKOFF_SECONDS,
     643            0 :             });
     644            0 : 
     645            0 :         let now = Utc::now().naive_utc();
     646            0 : 
     647            0 :         // Schedule the next retry attempt. We want to have exponential backoff for connection attempts,
     648            0 :         // and we add backoff to the time when we started the connection attempt. If the connection
     649            0 :         // was active for a long time, then next_retry_at will be in the past.
     650            0 :         retry.next_retry_at =
     651            0 :             wal_connection
     652            0 :                 .started_at
     653            0 :                 .checked_add_signed(chrono::Duration::milliseconds(
     654            0 :                     (retry.retry_duration_seconds * 1000.0) as i64,
     655            0 :                 ));
     656              : 
     657            0 :         if let Some(next) = &retry.next_retry_at {
     658            0 :             if next > &now {
     659            0 :                 info!(
     660            0 :                     "Next connection retry to {:?} is at {}",
     661              :                     wal_connection.sk_id, next
     662              :                 );
     663            0 :             }
     664            0 :         }
     665              : 
     666            0 :         let next_retry_duration =
     667            0 :             retry.retry_duration_seconds * WALCONNECTION_RETRY_BACKOFF_MULTIPLIER;
     668            0 :         // Clamp the next retry duration to the maximum allowed.
     669            0 :         let next_retry_duration = next_retry_duration.min(WALCONNECTION_RETRY_MAX_BACKOFF_SECONDS);
     670            0 :         // Clamp the next retry duration to the minimum allowed.
     671            0 :         let next_retry_duration = next_retry_duration.max(WALCONNECTION_RETRY_MIN_BACKOFF_SECONDS);
     672            0 : 
     673            0 :         retry.retry_duration_seconds = next_retry_duration;
     674            0 :     }
     675              : 
     676              :     /// Returns time needed to wait to have a new candidate for WAL streaming.
     677            0 :     fn time_until_next_retry(&self) -> Option<Duration> {
     678            0 :         let now = Utc::now().naive_utc();
     679              : 
     680            0 :         let next_retry_at = self
     681            0 :             .wal_connection_retries
     682            0 :             .values()
     683            0 :             .filter_map(|retry| retry.next_retry_at)
     684            0 :             .filter(|next_retry_at| next_retry_at > &now)
     685            0 :             .min()?;
     686              : 
     687            0 :         (next_retry_at - now).to_std().ok()
     688            0 :     }
     689              : 
     690              :     /// Adds another broker timeline into the state, if its more recent than the one already added there for the same key.
     691            0 :     fn register_timeline_update(&mut self, typed_msg: TypedMessage) {
     692            0 :         let mut is_discovery = false;
     693            0 :         let timeline_update = match typed_msg.r#type() {
     694              :             MessageType::SafekeeperTimelineInfo => {
     695            0 :                 let info = match typed_msg.safekeeper_timeline_info {
     696            0 :                     Some(info) => info,
     697              :                     None => {
     698            0 :                         warn!("bad proto message from broker: no safekeeper_timeline_info");
     699            0 :                         return;
     700              :                     }
     701              :                 };
     702            0 :                 SafekeeperDiscoveryResponse {
     703            0 :                     safekeeper_id: info.safekeeper_id,
     704            0 :                     tenant_timeline_id: info.tenant_timeline_id,
     705            0 :                     commit_lsn: info.commit_lsn,
     706            0 :                     safekeeper_connstr: info.safekeeper_connstr,
     707            0 :                     availability_zone: info.availability_zone,
     708            0 :                     standby_horizon: info.standby_horizon,
     709            0 :                 }
     710              :             }
     711              :             MessageType::SafekeeperDiscoveryResponse => {
     712            0 :                 is_discovery = true;
     713            0 :                 match typed_msg.safekeeper_discovery_response {
     714            0 :                     Some(response) => response,
     715              :                     None => {
     716            0 :                         warn!("bad proto message from broker: no safekeeper_discovery_response");
     717            0 :                         return;
     718              :                     }
     719              :                 }
     720              :             }
     721              :             _ => {
     722              :                 // unexpected message
     723            0 :                 return;
     724              :             }
     725              :         };
     726              : 
     727            0 :         WALRECEIVER_BROKER_UPDATES.inc();
     728            0 : 
     729            0 :         trace!(
     730            0 :             "safekeeper info update: standby_horizon(cutoff)={}",
     731              :             timeline_update.standby_horizon
     732              :         );
     733            0 :         if timeline_update.standby_horizon != 0 {
     734            0 :             // ignore reports from safekeepers not connected to replicas
     735            0 :             self.timeline
     736            0 :                 .standby_horizon
     737            0 :                 .store(Lsn(timeline_update.standby_horizon));
     738            0 :             self.timeline
     739            0 :                 .metrics
     740            0 :                 .standby_horizon_gauge
     741            0 :                 .set(timeline_update.standby_horizon as i64);
     742            0 :         }
     743              : 
     744            0 :         let new_safekeeper_id = NodeId(timeline_update.safekeeper_id);
     745            0 :         let old_entry = self.wal_stream_candidates.insert(
     746            0 :             new_safekeeper_id,
     747            0 :             BrokerSkTimeline {
     748            0 :                 timeline: timeline_update,
     749            0 :                 latest_update: Utc::now().naive_utc(),
     750            0 :             },
     751            0 :         );
     752            0 : 
     753            0 :         if old_entry.is_none() {
     754            0 :             info!(
     755              :                 ?is_discovery,
     756              :                 %new_safekeeper_id,
     757            0 :                 "New SK node was added",
     758              :             );
     759            0 :             WALRECEIVER_CANDIDATES_ADDED.inc();
     760            0 :         }
     761            0 :     }
     762              : 
     763              :     /// Cleans up stale broker records and checks the rest for the new connection candidate.
     764              :     /// Returns a new candidate, if the current state is absent or somewhat lagging, `None` otherwise.
     765              :     /// The current rules for approving new candidates:
     766              :     /// * pick a candidate different from the connected safekeeper with biggest `commit_lsn` and lowest failed connection attemps
     767              :     /// * if there's no such entry, no new candidate found, abort
     768              :     /// * otherwise check if the candidate is much better than the current one
     769              :     ///
     770              :     /// To understand exact rules for determining if the candidate is better than the current one, refer to this function's implementation.
     771              :     /// General rules are following:
     772              :     /// * if connected safekeeper is not present, pick the candidate
     773              :     /// * if we haven't received any updates for some time, pick the candidate
     774              :     /// * if the candidate commit_lsn is much higher than the current one, pick the candidate
     775              :     /// * if the candidate commit_lsn is same, but candidate is located in the same AZ as the pageserver, pick the candidate
     776              :     /// * if connected safekeeper stopped sending us new WAL which is available on other safekeeper, pick the candidate
     777              :     ///
     778              :     /// This way we ensure to keep up with the most up-to-date safekeeper and don't try to jump from one safekeeper to another too frequently.
     779              :     /// Both thresholds are configured per tenant.
     780           18 :     fn next_connection_candidate(&mut self) -> Option<NewWalConnectionCandidate> {
     781           18 :         self.cleanup_old_candidates();
     782           18 : 
     783           18 :         match &self.wal_connection {
     784           10 :             Some(existing_wal_connection) => {
     785           10 :                 let connected_sk_node = existing_wal_connection.sk_id;
     786              : 
     787           10 :                 let (new_sk_id, new_safekeeper_broker_data, new_wal_source_connconf) =
     788           10 :                     self.select_connection_candidate(Some(connected_sk_node))?;
     789           10 :                 let new_availability_zone = new_safekeeper_broker_data.availability_zone.clone();
     790           10 : 
     791           10 :                 let now = Utc::now().naive_utc();
     792           10 :                 if let Ok(latest_interaciton) =
     793           10 :                     (now - existing_wal_connection.status.latest_connection_update).to_std()
     794              :                 {
     795              :                     // Drop connection if we haven't received keepalive message for a while.
     796           10 :                     if latest_interaciton > self.conf.wal_connect_timeout {
     797            2 :                         return Some(NewWalConnectionCandidate {
     798            2 :                             safekeeper_id: new_sk_id,
     799            2 :                             wal_source_connconf: new_wal_source_connconf,
     800            2 :                             availability_zone: new_availability_zone,
     801            2 :                             reason: ReconnectReason::NoKeepAlives {
     802            2 :                                 last_keep_alive: Some(
     803            2 :                                     existing_wal_connection.status.latest_connection_update,
     804            2 :                                 ),
     805            2 :                                 check_time: now,
     806            2 :                                 threshold: self.conf.wal_connect_timeout,
     807            2 :                             },
     808            2 :                         });
     809            8 :                     }
     810            0 :                 }
     811              : 
     812            8 :                 if !existing_wal_connection.status.is_connected {
     813              :                     // We haven't connected yet and we shouldn't switch until connection timeout (condition above).
     814            0 :                     return None;
     815            8 :                 }
     816              : 
     817            8 :                 if let Some(current_commit_lsn) = existing_wal_connection.status.commit_lsn {
     818            8 :                     let new_commit_lsn = Lsn(new_safekeeper_broker_data.commit_lsn);
     819            8 :                     // Check if the new candidate has much more WAL than the current one.
     820            8 :                     match new_commit_lsn.0.checked_sub(current_commit_lsn.0) {
     821            8 :                         Some(new_sk_lsn_advantage) => {
     822            8 :                             if new_sk_lsn_advantage >= self.conf.max_lsn_wal_lag.get() {
     823            2 :                                 return Some(NewWalConnectionCandidate {
     824            2 :                                     safekeeper_id: new_sk_id,
     825            2 :                                     wal_source_connconf: new_wal_source_connconf,
     826            2 :                                     availability_zone: new_availability_zone,
     827            2 :                                     reason: ReconnectReason::LaggingWal {
     828            2 :                                         current_commit_lsn,
     829            2 :                                         new_commit_lsn,
     830            2 :                                         threshold: self.conf.max_lsn_wal_lag,
     831            2 :                                     },
     832            2 :                                 });
     833            6 :                             }
     834            6 :                             // If we have a candidate with the same commit_lsn as the current one, which is in the same AZ as pageserver,
     835            6 :                             // and the current one is not, switch to the new one.
     836            6 :                             if self.conf.availability_zone.is_some()
     837            2 :                                 && existing_wal_connection.availability_zone
     838            2 :                                     != self.conf.availability_zone
     839            2 :                                 && self.conf.availability_zone == new_availability_zone
     840              :                             {
     841            2 :                                 return Some(NewWalConnectionCandidate {
     842            2 :                                     safekeeper_id: new_sk_id,
     843            2 :                                     availability_zone: new_availability_zone,
     844            2 :                                     wal_source_connconf: new_wal_source_connconf,
     845            2 :                                     reason: ReconnectReason::SwitchAvailabilityZone,
     846            2 :                                 });
     847            4 :                             }
     848              :                         }
     849            0 :                         None => debug!(
     850            0 :                             "Best SK candidate has its commit_lsn behind connected SK's commit_lsn"
     851              :                         ),
     852              :                     }
     853            0 :                 }
     854              : 
     855            4 :                 let current_lsn = match existing_wal_connection.status.streaming_lsn {
     856            4 :                     Some(lsn) => lsn,
     857            0 :                     None => self.timeline.get_last_record_lsn(),
     858              :                 };
     859            4 :                 let current_commit_lsn = existing_wal_connection
     860            4 :                     .status
     861            4 :                     .commit_lsn
     862            4 :                     .unwrap_or(current_lsn);
     863            4 :                 let candidate_commit_lsn = Lsn(new_safekeeper_broker_data.commit_lsn);
     864            4 : 
     865            4 :                 // Keep discovered_new_wal only if connected safekeeper has not caught up yet.
     866            4 :                 let mut discovered_new_wal = existing_wal_connection
     867            4 :                     .discovered_new_wal
     868            4 :                     .filter(|new_wal| new_wal.lsn > current_commit_lsn);
     869            4 : 
     870            4 :                 if discovered_new_wal.is_none() {
     871              :                     // Check if the new candidate has more WAL than the current one.
     872              :                     // If the new candidate has more WAL than the current one, we consider switching to the new candidate.
     873            2 :                     discovered_new_wal = if candidate_commit_lsn > current_commit_lsn {
     874            2 :                         trace!(
     875            0 :                             "New candidate has commit_lsn {}, higher than current_commit_lsn {}",
     876              :                             candidate_commit_lsn,
     877              :                             current_commit_lsn
     878              :                         );
     879            2 :                         Some(NewCommittedWAL {
     880            2 :                             lsn: candidate_commit_lsn,
     881            2 :                             discovered_at: Utc::now().naive_utc(),
     882            2 :                         })
     883              :                     } else {
     884            0 :                         None
     885              :                     };
     886            2 :                 }
     887              : 
     888            4 :                 let waiting_for_new_lsn_since = if current_lsn < current_commit_lsn {
     889              :                     // Connected safekeeper has more WAL, but we haven't received updates for some time.
     890            0 :                     trace!(
     891            0 :                         "Connected safekeeper has more WAL, but we haven't received updates for {:?}. current_lsn: {}, current_commit_lsn: {}",
     892            0 :                         (now - existing_wal_connection.status.latest_wal_update).to_std(),
     893              :                         current_lsn,
     894              :                         current_commit_lsn
     895              :                     );
     896            0 :                     Some(existing_wal_connection.status.latest_wal_update)
     897              :                 } else {
     898            4 :                     discovered_new_wal.as_ref().map(|new_wal| {
     899            4 :                         // We know that new WAL is available on other safekeeper, but connected safekeeper don't have it.
     900            4 :                         new_wal
     901            4 :                             .discovered_at
     902            4 :                             .max(existing_wal_connection.status.latest_wal_update)
     903            4 :                     })
     904              :                 };
     905              : 
     906              :                 // If we haven't received any WAL updates for a while and candidate has more WAL, switch to it.
     907            4 :                 if let Some(waiting_for_new_lsn_since) = waiting_for_new_lsn_since {
     908            4 :                     if let Ok(waiting_for_new_wal) = (now - waiting_for_new_lsn_since).to_std() {
     909            2 :                         if candidate_commit_lsn > current_commit_lsn
     910            2 :                             && waiting_for_new_wal > self.conf.lagging_wal_timeout
     911              :                         {
     912            2 :                             return Some(NewWalConnectionCandidate {
     913            2 :                                 safekeeper_id: new_sk_id,
     914            2 :                                 wal_source_connconf: new_wal_source_connconf,
     915            2 :                                 availability_zone: new_availability_zone,
     916            2 :                                 reason: ReconnectReason::NoWalTimeout {
     917            2 :                                     current_lsn,
     918            2 :                                     current_commit_lsn,
     919            2 :                                     candidate_commit_lsn,
     920            2 :                                     last_wal_interaction: Some(
     921            2 :                                         existing_wal_connection.status.latest_wal_update,
     922            2 :                                     ),
     923            2 :                                     check_time: now,
     924            2 :                                     threshold: self.conf.lagging_wal_timeout,
     925            2 :                                 },
     926            2 :                             });
     927            0 :                         }
     928            2 :                     }
     929            0 :                 }
     930              : 
     931            2 :                 self.wal_connection.as_mut().unwrap().discovered_new_wal = discovered_new_wal;
     932              :             }
     933              :             None => {
     934            6 :                 let (new_sk_id, new_safekeeper_broker_data, new_wal_source_connconf) =
     935            8 :                     self.select_connection_candidate(None)?;
     936            6 :                 return Some(NewWalConnectionCandidate {
     937            6 :                     safekeeper_id: new_sk_id,
     938            6 :                     availability_zone: new_safekeeper_broker_data.availability_zone.clone(),
     939            6 :                     wal_source_connconf: new_wal_source_connconf,
     940            6 :                     reason: ReconnectReason::NoExistingConnection,
     941            6 :                 });
     942              :             }
     943              :         }
     944              : 
     945            2 :         None
     946           18 :     }
     947              : 
     948              :     /// Selects the best possible candidate, based on the data collected from the broker updates about the safekeepers.
     949              :     /// Optionally, omits the given node, to support gracefully switching from a healthy safekeeper to another.
     950              :     ///
     951              :     /// The candidate that is chosen:
     952              :     /// * has no pending retry cooldown
     953              :     /// * has greatest commit_lsn among the ones that are left
     954           18 :     fn select_connection_candidate(
     955           18 :         &self,
     956           18 :         node_to_omit: Option<NodeId>,
     957           18 :     ) -> Option<(NodeId, &SafekeeperDiscoveryResponse, PgConnectionConfig)> {
     958           18 :         self.applicable_connection_candidates()
     959           26 :             .filter(|&(sk_id, _, _)| Some(sk_id) != node_to_omit)
     960           20 :             .max_by_key(|(_, info, _)| info.commit_lsn)
     961           18 :     }
     962              : 
     963              :     /// Returns a list of safekeepers that have valid info and ready for connection.
     964              :     /// Some safekeepers are filtered by the retry cooldown.
     965           18 :     fn applicable_connection_candidates(
     966           18 :         &self,
     967           18 :     ) -> impl Iterator<Item = (NodeId, &SafekeeperDiscoveryResponse, PgConnectionConfig)> {
     968           18 :         let now = Utc::now().naive_utc();
     969           18 : 
     970           18 :         self.wal_stream_candidates
     971           18 :             .iter()
     972           36 :             .filter(|(_, info)| Lsn(info.timeline.commit_lsn) != Lsn::INVALID)
     973           32 :             .filter(move |(sk_id, _)| {
     974           32 :                 let next_retry_at = self
     975           32 :                     .wal_connection_retries
     976           32 :                     .get(sk_id)
     977           32 :                     .and_then(|retry_info| {
     978            2 :                         retry_info.next_retry_at
     979           32 :                     });
     980           32 : 
     981           32 :                 next_retry_at.is_none() || next_retry_at.unwrap() <= now
     982           32 :             }).filter_map(|(sk_id, broker_info)| {
     983           30 :                 let info = &broker_info.timeline;
     984           30 :                 if info.safekeeper_connstr.is_empty() {
     985            4 :                     return None; // no connection string, ignore sk
     986           26 :                 }
     987           26 :                 match wal_stream_connection_config(
     988           26 :                     self.id,
     989           26 :                     info.safekeeper_connstr.as_ref(),
     990           26 :                     match &self.conf.auth_token {
     991           26 :                         None => None,
     992            0 :                         Some(x) => Some(x),
     993              :                     },
     994           26 :                     self.conf.availability_zone.as_deref(),
     995              :                 ) {
     996           26 :                     Ok(connstr) => Some((*sk_id, info, connstr)),
     997            0 :                     Err(e) => {
     998            0 :                         error!("Failed to create wal receiver connection string from broker data of safekeeper node {}: {e:#}", sk_id);
     999            0 :                         None
    1000              :                     }
    1001              :                 }
    1002           30 :             })
    1003           18 :     }
    1004              : 
    1005              :     /// Remove candidates which haven't sent broker updates for a while.
    1006           18 :     fn cleanup_old_candidates(&mut self) {
    1007           18 :         let mut node_ids_to_remove = Vec::with_capacity(self.wal_stream_candidates.len());
    1008           18 :         let lagging_wal_timeout = self.conf.lagging_wal_timeout;
    1009           18 : 
    1010           38 :         self.wal_stream_candidates.retain(|node_id, broker_info| {
    1011           38 :             if let Ok(time_since_latest_broker_update) =
    1012           38 :                 (Utc::now().naive_utc() - broker_info.latest_update).to_std()
    1013              :             {
    1014           38 :                 let should_retain = time_since_latest_broker_update < lagging_wal_timeout;
    1015           38 :                 if !should_retain {
    1016            2 :                     node_ids_to_remove.push(*node_id);
    1017           36 :                 }
    1018           38 :                 should_retain
    1019              :             } else {
    1020            0 :                 true
    1021              :             }
    1022           38 :         });
    1023           18 : 
    1024           18 :         if !node_ids_to_remove.is_empty() {
    1025            4 :             for node_id in node_ids_to_remove {
    1026            2 :                 info!("Safekeeper node {node_id} did not send events for over {lagging_wal_timeout:?}, not retrying the connections");
    1027            2 :                 self.wal_connection_retries.remove(&node_id);
    1028            2 :                 WALRECEIVER_CANDIDATES_REMOVED.inc();
    1029              :             }
    1030           16 :         }
    1031           18 :     }
    1032              : 
    1033              :     /// # Cancel-Safety
    1034              :     ///
    1035              :     /// Not cancellation-safe.
    1036            0 :     pub(super) async fn shutdown(mut self) {
    1037            0 :         if let Some(wal_connection) = self.wal_connection.take() {
    1038            0 :             wal_connection.connection_task.shutdown().await;
    1039            0 :         }
    1040            0 :     }
    1041              : 
    1042            0 :     fn manager_status(&self) -> ConnectionManagerStatus {
    1043            0 :         ConnectionManagerStatus {
    1044            0 :             existing_connection: self.wal_connection.as_ref().map(|conn| conn.status),
    1045            0 :             wal_stream_candidates: self.wal_stream_candidates.clone(),
    1046            0 :         }
    1047            0 :     }
    1048              : }
    1049              : 
    1050              : #[derive(Debug)]
    1051              : struct NewWalConnectionCandidate {
    1052              :     safekeeper_id: NodeId,
    1053              :     wal_source_connconf: PgConnectionConfig,
    1054              :     availability_zone: Option<String>,
    1055              :     reason: ReconnectReason,
    1056              : }
    1057              : 
    1058              : /// Stores the reason why WAL connection was switched, for furter debugging purposes.
    1059              : #[derive(Debug, PartialEq, Eq)]
    1060              : enum ReconnectReason {
    1061              :     NoExistingConnection,
    1062              :     LaggingWal {
    1063              :         current_commit_lsn: Lsn,
    1064              :         new_commit_lsn: Lsn,
    1065              :         threshold: NonZeroU64,
    1066              :     },
    1067              :     SwitchAvailabilityZone,
    1068              :     NoWalTimeout {
    1069              :         current_lsn: Lsn,
    1070              :         current_commit_lsn: Lsn,
    1071              :         candidate_commit_lsn: Lsn,
    1072              :         last_wal_interaction: Option<NaiveDateTime>,
    1073              :         check_time: NaiveDateTime,
    1074              :         threshold: Duration,
    1075              :     },
    1076              :     NoKeepAlives {
    1077              :         last_keep_alive: Option<NaiveDateTime>,
    1078              :         check_time: NaiveDateTime,
    1079              :         threshold: Duration,
    1080              :     },
    1081              : }
    1082              : 
    1083              : impl ReconnectReason {
    1084            0 :     fn name(&self) -> &str {
    1085            0 :         match self {
    1086            0 :             ReconnectReason::NoExistingConnection => "NoExistingConnection",
    1087            0 :             ReconnectReason::LaggingWal { .. } => "LaggingWal",
    1088            0 :             ReconnectReason::SwitchAvailabilityZone => "SwitchAvailabilityZone",
    1089            0 :             ReconnectReason::NoWalTimeout { .. } => "NoWalTimeout",
    1090            0 :             ReconnectReason::NoKeepAlives { .. } => "NoKeepAlives",
    1091              :         }
    1092            0 :     }
    1093              : }
    1094              : 
    1095              : #[cfg(test)]
    1096              : mod tests {
    1097              :     use super::*;
    1098              :     use crate::tenant::harness::{TenantHarness, TIMELINE_ID};
    1099              :     use url::Host;
    1100              : 
    1101           38 :     fn dummy_broker_sk_timeline(
    1102           38 :         commit_lsn: u64,
    1103           38 :         safekeeper_connstr: &str,
    1104           38 :         latest_update: NaiveDateTime,
    1105           38 :     ) -> BrokerSkTimeline {
    1106           38 :         BrokerSkTimeline {
    1107           38 :             timeline: SafekeeperDiscoveryResponse {
    1108           38 :                 safekeeper_id: 0,
    1109           38 :                 tenant_timeline_id: None,
    1110           38 :                 commit_lsn,
    1111           38 :                 safekeeper_connstr: safekeeper_connstr.to_owned(),
    1112           38 :                 availability_zone: None,
    1113           38 :                 standby_horizon: 0,
    1114           38 :             },
    1115           38 :             latest_update,
    1116           38 :         }
    1117           38 :     }
    1118              : 
    1119              :     #[tokio::test]
    1120            2 :     async fn no_connection_no_candidate() -> anyhow::Result<()> {
    1121            2 :         let harness = TenantHarness::create("no_connection_no_candidate").await?;
    1122           26 :         let mut state = dummy_state(&harness).await;
    1123            2 :         let now = Utc::now().naive_utc();
    1124            2 : 
    1125            2 :         let lagging_wal_timeout = chrono::Duration::from_std(state.conf.lagging_wal_timeout)?;
    1126            2 :         let delay_over_threshold = now - lagging_wal_timeout - lagging_wal_timeout;
    1127            2 : 
    1128            2 :         state.wal_connection = None;
    1129            2 :         state.wal_stream_candidates = HashMap::from([
    1130            2 :             (NodeId(0), dummy_broker_sk_timeline(1, "", now)),
    1131            2 :             (NodeId(1), dummy_broker_sk_timeline(0, "no_commit_lsn", now)),
    1132            2 :             (NodeId(2), dummy_broker_sk_timeline(0, "no_commit_lsn", now)),
    1133            2 :             (
    1134            2 :                 NodeId(3),
    1135            2 :                 dummy_broker_sk_timeline(
    1136            2 :                     1 + state.conf.max_lsn_wal_lag.get(),
    1137            2 :                     "delay_over_threshold",
    1138            2 :                     delay_over_threshold,
    1139            2 :                 ),
    1140            2 :             ),
    1141            2 :         ]);
    1142            2 : 
    1143            2 :         let no_candidate = state.next_connection_candidate();
    1144            2 :         assert!(
    1145            2 :             no_candidate.is_none(),
    1146            2 :             "Expected no candidate selected out of non full data options, but got {no_candidate:?}"
    1147            2 :         );
    1148            2 : 
    1149            2 :         Ok(())
    1150            2 :     }
    1151              : 
    1152              :     #[tokio::test]
    1153            2 :     async fn connection_no_candidate() -> anyhow::Result<()> {
    1154            2 :         let harness = TenantHarness::create("connection_no_candidate").await?;
    1155           26 :         let mut state = dummy_state(&harness).await;
    1156            2 :         let now = Utc::now().naive_utc();
    1157            2 : 
    1158            2 :         let connected_sk_id = NodeId(0);
    1159            2 :         let current_lsn = 100_000;
    1160            2 : 
    1161            2 :         let connection_status = WalConnectionStatus {
    1162            2 :             is_connected: true,
    1163            2 :             has_processed_wal: true,
    1164            2 :             latest_connection_update: now,
    1165            2 :             latest_wal_update: now,
    1166            2 :             commit_lsn: Some(Lsn(current_lsn)),
    1167            2 :             streaming_lsn: Some(Lsn(current_lsn)),
    1168            2 :             node: NodeId(1),
    1169            2 :         };
    1170            2 : 
    1171            2 :         state.conf.max_lsn_wal_lag = NonZeroU64::new(100).unwrap();
    1172            2 :         state.wal_connection = Some(WalConnection {
    1173            2 :             started_at: now,
    1174            2 :             sk_id: connected_sk_id,
    1175            2 :             availability_zone: None,
    1176            2 :             status: connection_status,
    1177            2 :             connection_task: state.spawn(move |sender, _| async move {
    1178            2 :                 sender
    1179            2 :                     .send(TaskStateUpdate::Progress(connection_status))
    1180            2 :                     .ok();
    1181            2 :                 Ok(())
    1182            2 :             }),
    1183            2 :             discovered_new_wal: None,
    1184            2 :         });
    1185            2 :         state.wal_stream_candidates = HashMap::from([
    1186            2 :             (
    1187            2 :                 connected_sk_id,
    1188            2 :                 dummy_broker_sk_timeline(
    1189            2 :                     current_lsn + state.conf.max_lsn_wal_lag.get() * 2,
    1190            2 :                     DUMMY_SAFEKEEPER_HOST,
    1191            2 :                     now,
    1192            2 :                 ),
    1193            2 :             ),
    1194            2 :             (
    1195            2 :                 NodeId(1),
    1196            2 :                 dummy_broker_sk_timeline(current_lsn, "not_advanced_lsn", now),
    1197            2 :             ),
    1198            2 :             (
    1199            2 :                 NodeId(2),
    1200            2 :                 dummy_broker_sk_timeline(
    1201            2 :                     current_lsn + state.conf.max_lsn_wal_lag.get() / 2,
    1202            2 :                     "not_enough_advanced_lsn",
    1203            2 :                     now,
    1204            2 :                 ),
    1205            2 :             ),
    1206            2 :         ]);
    1207            2 : 
    1208            2 :         let no_candidate = state.next_connection_candidate();
    1209            2 :         assert!(
    1210            2 :             no_candidate.is_none(),
    1211            2 :             "Expected no candidate selected out of valid options since candidate Lsn data is ignored and others' was not advanced enough, but got {no_candidate:?}"
    1212            2 :         );
    1213            2 : 
    1214            2 :         Ok(())
    1215            2 :     }
    1216              : 
    1217              :     #[tokio::test]
    1218            2 :     async fn no_connection_candidate() -> anyhow::Result<()> {
    1219            2 :         let harness = TenantHarness::create("no_connection_candidate").await?;
    1220           26 :         let mut state = dummy_state(&harness).await;
    1221            2 :         let now = Utc::now().naive_utc();
    1222            2 : 
    1223            2 :         state.wal_connection = None;
    1224            2 :         state.wal_stream_candidates = HashMap::from([(
    1225            2 :             NodeId(0),
    1226            2 :             dummy_broker_sk_timeline(
    1227            2 :                 1 + state.conf.max_lsn_wal_lag.get(),
    1228            2 :                 DUMMY_SAFEKEEPER_HOST,
    1229            2 :                 now,
    1230            2 :             ),
    1231            2 :         )]);
    1232            2 : 
    1233            2 :         let only_candidate = state
    1234            2 :             .next_connection_candidate()
    1235            2 :             .expect("Expected one candidate selected out of the only data option, but got none");
    1236            2 :         assert_eq!(only_candidate.safekeeper_id, NodeId(0));
    1237            2 :         assert_eq!(
    1238            2 :             only_candidate.reason,
    1239            2 :             ReconnectReason::NoExistingConnection,
    1240            2 :             "Should select new safekeeper due to missing connection, even if there's also a lag in the wal over the threshold"
    1241            2 :         );
    1242            2 :         assert_eq!(
    1243            2 :             only_candidate.wal_source_connconf.host(),
    1244            2 :             &Host::Domain(DUMMY_SAFEKEEPER_HOST.to_owned())
    1245            2 :         );
    1246            2 : 
    1247            2 :         let selected_lsn = 100_000;
    1248            2 :         state.wal_stream_candidates = HashMap::from([
    1249            2 :             (
    1250            2 :                 NodeId(0),
    1251            2 :                 dummy_broker_sk_timeline(selected_lsn - 100, "smaller_commit_lsn", now),
    1252            2 :             ),
    1253            2 :             (
    1254            2 :                 NodeId(1),
    1255            2 :                 dummy_broker_sk_timeline(selected_lsn, DUMMY_SAFEKEEPER_HOST, now),
    1256            2 :             ),
    1257            2 :             (
    1258            2 :                 NodeId(2),
    1259            2 :                 dummy_broker_sk_timeline(selected_lsn + 100, "", now),
    1260            2 :             ),
    1261            2 :         ]);
    1262            2 :         let biggest_wal_candidate = state.next_connection_candidate().expect(
    1263            2 :             "Expected one candidate selected out of multiple valid data options, but got none",
    1264            2 :         );
    1265            2 : 
    1266            2 :         assert_eq!(biggest_wal_candidate.safekeeper_id, NodeId(1));
    1267            2 :         assert_eq!(
    1268            2 :             biggest_wal_candidate.reason,
    1269            2 :             ReconnectReason::NoExistingConnection,
    1270            2 :             "Should select new safekeeper due to missing connection, even if there's also a lag in the wal over the threshold"
    1271            2 :         );
    1272            2 :         assert_eq!(
    1273            2 :             biggest_wal_candidate.wal_source_connconf.host(),
    1274            2 :             &Host::Domain(DUMMY_SAFEKEEPER_HOST.to_owned())
    1275            2 :         );
    1276            2 : 
    1277            2 :         Ok(())
    1278            2 :     }
    1279              : 
    1280              :     #[tokio::test]
    1281            2 :     async fn candidate_with_many_connection_failures() -> anyhow::Result<()> {
    1282            2 :         let harness = TenantHarness::create("candidate_with_many_connection_failures").await?;
    1283           26 :         let mut state = dummy_state(&harness).await;
    1284            2 :         let now = Utc::now().naive_utc();
    1285            2 : 
    1286            2 :         let current_lsn = Lsn(100_000).align();
    1287            2 :         let bigger_lsn = Lsn(current_lsn.0 + 100).align();
    1288            2 : 
    1289            2 :         state.wal_connection = None;
    1290            2 :         state.wal_stream_candidates = HashMap::from([
    1291            2 :             (
    1292            2 :                 NodeId(0),
    1293            2 :                 dummy_broker_sk_timeline(bigger_lsn.0, DUMMY_SAFEKEEPER_HOST, now),
    1294            2 :             ),
    1295            2 :             (
    1296            2 :                 NodeId(1),
    1297            2 :                 dummy_broker_sk_timeline(current_lsn.0, DUMMY_SAFEKEEPER_HOST, now),
    1298            2 :             ),
    1299            2 :         ]);
    1300            2 :         state.wal_connection_retries = HashMap::from([(
    1301            2 :             NodeId(0),
    1302            2 :             RetryInfo {
    1303            2 :                 next_retry_at: now.checked_add_signed(chrono::Duration::hours(1)),
    1304            2 :                 retry_duration_seconds: WALCONNECTION_RETRY_MAX_BACKOFF_SECONDS,
    1305            2 :             },
    1306            2 :         )]);
    1307            2 : 
    1308            2 :         let candidate_with_less_errors = state
    1309            2 :             .next_connection_candidate()
    1310            2 :             .expect("Expected one candidate selected, but got none");
    1311            2 :         assert_eq!(
    1312            2 :             candidate_with_less_errors.safekeeper_id,
    1313            2 :             NodeId(1),
    1314            2 :             "Should select the node with no pending retry cooldown"
    1315            2 :         );
    1316            2 : 
    1317            2 :         Ok(())
    1318            2 :     }
    1319              : 
    1320              :     #[tokio::test]
    1321            2 :     async fn lsn_wal_over_threshold_current_candidate() -> anyhow::Result<()> {
    1322            2 :         let harness = TenantHarness::create("lsn_wal_over_threshcurrent_candidate").await?;
    1323           26 :         let mut state = dummy_state(&harness).await;
    1324            2 :         let current_lsn = Lsn(100_000).align();
    1325            2 :         let now = Utc::now().naive_utc();
    1326            2 : 
    1327            2 :         let connected_sk_id = NodeId(0);
    1328            2 :         let new_lsn = Lsn(current_lsn.0 + state.conf.max_lsn_wal_lag.get() + 1);
    1329            2 : 
    1330            2 :         let connection_status = WalConnectionStatus {
    1331            2 :             is_connected: true,
    1332            2 :             has_processed_wal: true,
    1333            2 :             latest_connection_update: now,
    1334            2 :             latest_wal_update: now,
    1335            2 :             commit_lsn: Some(current_lsn),
    1336            2 :             streaming_lsn: Some(current_lsn),
    1337            2 :             node: connected_sk_id,
    1338            2 :         };
    1339            2 : 
    1340            2 :         state.wal_connection = Some(WalConnection {
    1341            2 :             started_at: now,
    1342            2 :             sk_id: connected_sk_id,
    1343            2 :             availability_zone: None,
    1344            2 :             status: connection_status,
    1345            2 :             connection_task: state.spawn(move |sender, _| async move {
    1346            2 :                 sender
    1347            2 :                     .send(TaskStateUpdate::Progress(connection_status))
    1348            2 :                     .ok();
    1349            2 :                 Ok(())
    1350            2 :             }),
    1351            2 :             discovered_new_wal: None,
    1352            2 :         });
    1353            2 :         state.wal_stream_candidates = HashMap::from([
    1354            2 :             (
    1355            2 :                 connected_sk_id,
    1356            2 :                 dummy_broker_sk_timeline(current_lsn.0, DUMMY_SAFEKEEPER_HOST, now),
    1357            2 :             ),
    1358            2 :             (
    1359            2 :                 NodeId(1),
    1360            2 :                 dummy_broker_sk_timeline(new_lsn.0, "advanced_by_lsn_safekeeper", now),
    1361            2 :             ),
    1362            2 :         ]);
    1363            2 : 
    1364            2 :         let over_threshcurrent_candidate = state.next_connection_candidate().expect(
    1365            2 :             "Expected one candidate selected out of multiple valid data options, but got none",
    1366            2 :         );
    1367            2 : 
    1368            2 :         assert_eq!(over_threshcurrent_candidate.safekeeper_id, NodeId(1));
    1369            2 :         assert_eq!(
    1370            2 :             over_threshcurrent_candidate.reason,
    1371            2 :             ReconnectReason::LaggingWal {
    1372            2 :                 current_commit_lsn: current_lsn,
    1373            2 :                 new_commit_lsn: new_lsn,
    1374            2 :                 threshold: state.conf.max_lsn_wal_lag
    1375            2 :             },
    1376            2 :             "Should select bigger WAL safekeeper if it starts to lag enough"
    1377            2 :         );
    1378            2 :         assert_eq!(
    1379            2 :             over_threshcurrent_candidate.wal_source_connconf.host(),
    1380            2 :             &Host::Domain("advanced_by_lsn_safekeeper".to_owned())
    1381            2 :         );
    1382            2 : 
    1383            2 :         Ok(())
    1384            2 :     }
    1385              : 
    1386              :     #[tokio::test]
    1387            2 :     async fn timeout_connection_threshold_current_candidate() -> anyhow::Result<()> {
    1388            2 :         let harness =
    1389            2 :             TenantHarness::create("timeout_connection_threshold_current_candidate").await?;
    1390           26 :         let mut state = dummy_state(&harness).await;
    1391            2 :         let current_lsn = Lsn(100_000).align();
    1392            2 :         let now = Utc::now().naive_utc();
    1393            2 : 
    1394            2 :         let wal_connect_timeout = chrono::Duration::from_std(state.conf.wal_connect_timeout)?;
    1395            2 :         let time_over_threshold =
    1396            2 :             Utc::now().naive_utc() - wal_connect_timeout - wal_connect_timeout;
    1397            2 : 
    1398            2 :         let connection_status = WalConnectionStatus {
    1399            2 :             is_connected: true,
    1400            2 :             has_processed_wal: true,
    1401            2 :             latest_connection_update: time_over_threshold,
    1402            2 :             latest_wal_update: time_over_threshold,
    1403            2 :             commit_lsn: Some(current_lsn),
    1404            2 :             streaming_lsn: Some(current_lsn),
    1405            2 :             node: NodeId(1),
    1406            2 :         };
    1407            2 : 
    1408            2 :         state.wal_connection = Some(WalConnection {
    1409            2 :             started_at: now,
    1410            2 :             sk_id: NodeId(1),
    1411            2 :             availability_zone: None,
    1412            2 :             status: connection_status,
    1413            2 :             connection_task: state.spawn(move |sender, _| async move {
    1414            2 :                 sender
    1415            2 :                     .send(TaskStateUpdate::Progress(connection_status))
    1416            2 :                     .ok();
    1417            2 :                 Ok(())
    1418            2 :             }),
    1419            2 :             discovered_new_wal: None,
    1420            2 :         });
    1421            2 :         state.wal_stream_candidates = HashMap::from([(
    1422            2 :             NodeId(0),
    1423            2 :             dummy_broker_sk_timeline(current_lsn.0, DUMMY_SAFEKEEPER_HOST, now),
    1424            2 :         )]);
    1425            2 : 
    1426            2 :         let over_threshcurrent_candidate = state.next_connection_candidate().expect(
    1427            2 :             "Expected one candidate selected out of multiple valid data options, but got none",
    1428            2 :         );
    1429            2 : 
    1430            2 :         assert_eq!(over_threshcurrent_candidate.safekeeper_id, NodeId(0));
    1431            2 :         match over_threshcurrent_candidate.reason {
    1432            2 :             ReconnectReason::NoKeepAlives {
    1433            2 :                 last_keep_alive,
    1434            2 :                 threshold,
    1435            2 :                 ..
    1436            2 :             } => {
    1437            2 :                 assert_eq!(last_keep_alive, Some(time_over_threshold));
    1438            2 :                 assert_eq!(threshold, state.conf.lagging_wal_timeout);
    1439            2 :             }
    1440            2 :             unexpected => panic!("Unexpected reason: {unexpected:?}"),
    1441            2 :         }
    1442            2 :         assert_eq!(
    1443            2 :             over_threshcurrent_candidate.wal_source_connconf.host(),
    1444            2 :             &Host::Domain(DUMMY_SAFEKEEPER_HOST.to_owned())
    1445            2 :         );
    1446            2 : 
    1447            2 :         Ok(())
    1448            2 :     }
    1449              : 
    1450              :     #[tokio::test]
    1451            2 :     async fn timeout_wal_over_threshold_current_candidate() -> anyhow::Result<()> {
    1452            2 :         let harness = TenantHarness::create("timeout_wal_over_threshold_current_candidate").await?;
    1453           26 :         let mut state = dummy_state(&harness).await;
    1454            2 :         let current_lsn = Lsn(100_000).align();
    1455            2 :         let new_lsn = Lsn(100_100).align();
    1456            2 :         let now = Utc::now().naive_utc();
    1457            2 : 
    1458            2 :         let lagging_wal_timeout = chrono::Duration::from_std(state.conf.lagging_wal_timeout)?;
    1459            2 :         let time_over_threshold =
    1460            2 :             Utc::now().naive_utc() - lagging_wal_timeout - lagging_wal_timeout;
    1461            2 : 
    1462            2 :         let connection_status = WalConnectionStatus {
    1463            2 :             is_connected: true,
    1464            2 :             has_processed_wal: true,
    1465            2 :             latest_connection_update: now,
    1466            2 :             latest_wal_update: time_over_threshold,
    1467            2 :             commit_lsn: Some(current_lsn),
    1468            2 :             streaming_lsn: Some(current_lsn),
    1469            2 :             node: NodeId(1),
    1470            2 :         };
    1471            2 : 
    1472            2 :         state.wal_connection = Some(WalConnection {
    1473            2 :             started_at: now,
    1474            2 :             sk_id: NodeId(1),
    1475            2 :             availability_zone: None,
    1476            2 :             status: connection_status,
    1477            2 :             connection_task: state.spawn(move |_, _| async move { Ok(()) }),
    1478            2 :             discovered_new_wal: Some(NewCommittedWAL {
    1479            2 :                 discovered_at: time_over_threshold,
    1480            2 :                 lsn: new_lsn,
    1481            2 :             }),
    1482            2 :         });
    1483            2 :         state.wal_stream_candidates = HashMap::from([(
    1484            2 :             NodeId(0),
    1485            2 :             dummy_broker_sk_timeline(new_lsn.0, DUMMY_SAFEKEEPER_HOST, now),
    1486            2 :         )]);
    1487            2 : 
    1488            2 :         let over_threshcurrent_candidate = state.next_connection_candidate().expect(
    1489            2 :             "Expected one candidate selected out of multiple valid data options, but got none",
    1490            2 :         );
    1491            2 : 
    1492            2 :         assert_eq!(over_threshcurrent_candidate.safekeeper_id, NodeId(0));
    1493            2 :         match over_threshcurrent_candidate.reason {
    1494            2 :             ReconnectReason::NoWalTimeout {
    1495            2 :                 current_lsn,
    1496            2 :                 current_commit_lsn,
    1497            2 :                 candidate_commit_lsn,
    1498            2 :                 last_wal_interaction,
    1499            2 :                 threshold,
    1500            2 :                 ..
    1501            2 :             } => {
    1502            2 :                 assert_eq!(current_lsn, current_lsn);
    1503            2 :                 assert_eq!(current_commit_lsn, current_lsn);
    1504            2 :                 assert_eq!(candidate_commit_lsn, new_lsn);
    1505            2 :                 assert_eq!(last_wal_interaction, Some(time_over_threshold));
    1506            2 :                 assert_eq!(threshold, state.conf.lagging_wal_timeout);
    1507            2 :             }
    1508            2 :             unexpected => panic!("Unexpected reason: {unexpected:?}"),
    1509            2 :         }
    1510            2 :         assert_eq!(
    1511            2 :             over_threshcurrent_candidate.wal_source_connconf.host(),
    1512            2 :             &Host::Domain(DUMMY_SAFEKEEPER_HOST.to_owned())
    1513            2 :         );
    1514            2 : 
    1515            2 :         Ok(())
    1516            2 :     }
    1517              : 
    1518              :     const DUMMY_SAFEKEEPER_HOST: &str = "safekeeper_connstr";
    1519              : 
    1520           16 :     async fn dummy_state(harness: &TenantHarness) -> ConnectionManagerState {
    1521          160 :         let (tenant, ctx) = harness.load().await;
    1522           16 :         let timeline = tenant
    1523           16 :             .create_test_timeline(TIMELINE_ID, Lsn(0x8), crate::DEFAULT_PG_VERSION, &ctx)
    1524           48 :             .await
    1525           16 :             .expect("Failed to create an empty timeline for dummy wal connection manager");
    1526           16 : 
    1527           16 :         ConnectionManagerState {
    1528           16 :             id: TenantTimelineId {
    1529           16 :                 tenant_id: harness.tenant_shard_id.tenant_id,
    1530           16 :                 timeline_id: TIMELINE_ID,
    1531           16 :             },
    1532           16 :             timeline,
    1533           16 :             cancel: CancellationToken::new(),
    1534           16 :             conf: WalReceiverConf {
    1535           16 :                 wal_connect_timeout: Duration::from_secs(1),
    1536           16 :                 lagging_wal_timeout: Duration::from_secs(1),
    1537           16 :                 max_lsn_wal_lag: NonZeroU64::new(1024 * 1024).unwrap(),
    1538           16 :                 auth_token: None,
    1539           16 :                 availability_zone: None,
    1540           16 :                 ingest_batch_size: 1,
    1541           16 :             },
    1542           16 :             wal_connection: None,
    1543           16 :             wal_stream_candidates: HashMap::new(),
    1544           16 :             wal_connection_retries: HashMap::new(),
    1545           16 :         }
    1546           16 :     }
    1547              : 
    1548              :     #[tokio::test]
    1549            2 :     async fn switch_to_same_availability_zone() -> anyhow::Result<()> {
    1550            2 :         // Pageserver and one of safekeepers will be in the same availability zone
    1551            2 :         // and pageserver should prefer to connect to it.
    1552            2 :         let test_az = Some("test_az".to_owned());
    1553            2 : 
    1554            2 :         let harness = TenantHarness::create("switch_to_same_availability_zone").await?;
    1555           26 :         let mut state = dummy_state(&harness).await;
    1556            2 :         state.conf.availability_zone.clone_from(&test_az);
    1557            2 :         let current_lsn = Lsn(100_000).align();
    1558            2 :         let now = Utc::now().naive_utc();
    1559            2 : 
    1560            2 :         let connected_sk_id = NodeId(0);
    1561            2 : 
    1562            2 :         let connection_status = WalConnectionStatus {
    1563            2 :             is_connected: true,
    1564            2 :             has_processed_wal: true,
    1565            2 :             latest_connection_update: now,
    1566            2 :             latest_wal_update: now,
    1567            2 :             commit_lsn: Some(current_lsn),
    1568            2 :             streaming_lsn: Some(current_lsn),
    1569            2 :             node: connected_sk_id,
    1570            2 :         };
    1571            2 : 
    1572            2 :         state.wal_connection = Some(WalConnection {
    1573            2 :             started_at: now,
    1574            2 :             sk_id: connected_sk_id,
    1575            2 :             availability_zone: None,
    1576            2 :             status: connection_status,
    1577            2 :             connection_task: state.spawn(move |sender, _| async move {
    1578            2 :                 sender
    1579            2 :                     .send(TaskStateUpdate::Progress(connection_status))
    1580            2 :                     .ok();
    1581            2 :                 Ok(())
    1582            2 :             }),
    1583            2 :             discovered_new_wal: None,
    1584            2 :         });
    1585            2 : 
    1586            2 :         // We have another safekeeper with the same commit_lsn, and it have the same availability zone as
    1587            2 :         // the current pageserver.
    1588            2 :         let mut same_az_sk = dummy_broker_sk_timeline(current_lsn.0, "same_az", now);
    1589            2 :         same_az_sk.timeline.availability_zone.clone_from(&test_az);
    1590            2 : 
    1591            2 :         state.wal_stream_candidates = HashMap::from([
    1592            2 :             (
    1593            2 :                 connected_sk_id,
    1594            2 :                 dummy_broker_sk_timeline(current_lsn.0, DUMMY_SAFEKEEPER_HOST, now),
    1595            2 :             ),
    1596            2 :             (NodeId(1), same_az_sk),
    1597            2 :         ]);
    1598            2 : 
    1599            2 :         // We expect that pageserver will switch to the safekeeper in the same availability zone,
    1600            2 :         // even if it has the same commit_lsn.
    1601            2 :         let next_candidate = state.next_connection_candidate().expect(
    1602            2 :             "Expected one candidate selected out of multiple valid data options, but got none",
    1603            2 :         );
    1604            2 : 
    1605            2 :         assert_eq!(next_candidate.safekeeper_id, NodeId(1));
    1606            2 :         assert_eq!(
    1607            2 :             next_candidate.reason,
    1608            2 :             ReconnectReason::SwitchAvailabilityZone,
    1609            2 :             "Should switch to the safekeeper in the same availability zone, if it has the same commit_lsn"
    1610            2 :         );
    1611            2 :         assert_eq!(
    1612            2 :             next_candidate.wal_source_connconf.host(),
    1613            2 :             &Host::Domain("same_az".to_owned())
    1614            2 :         );
    1615            2 : 
    1616            2 :         Ok(())
    1617            2 :     }
    1618              : }
        

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