LCOV - code coverage report
Current view: top level - pageserver/src/tenant/timeline - eviction_task.rs (source / functions) Coverage Total Hit
Test: fc67f8dc6087a0b4f4f0bcd74f6e1dc25fab8cf3.info Lines: 0.0 % 148 0
Test Date: 2024-09-24 13:57:57 Functions: 0.0 % 20 0

            Line data    Source code
       1              : //! The per-timeline layer eviction task, which evicts data which has not been accessed for more
       2              : //! than a given threshold.
       3              : //!
       4              : //! Data includes all kinds of caches, namely:
       5              : //! - (in-memory layers)
       6              : //! - on-demand downloaded layer files on disk
       7              : //! - (cached layer file pages)
       8              : //! - derived data from layer file contents, namely:
       9              : //!     - initial logical size
      10              : //!     - partitioning
      11              : //!     - (other currently missing unknowns)
      12              : //!
      13              : //! Items with parentheses are not (yet) touched by this task.
      14              : //!
      15              : //! See write-up on restart on-demand download spike: <https://gist.github.com/problame/2265bf7b8dc398be834abfead36c76b5>
      16              : use std::{
      17              :     collections::HashMap,
      18              :     ops::ControlFlow,
      19              :     sync::Arc,
      20              :     time::{Duration, SystemTime},
      21              : };
      22              : 
      23              : use pageserver_api::models::{EvictionPolicy, EvictionPolicyLayerAccessThreshold};
      24              : use tokio::time::Instant;
      25              : use tokio_util::sync::CancellationToken;
      26              : use tracing::{debug, info, info_span, instrument, warn, Instrument};
      27              : 
      28              : use crate::{
      29              :     context::{DownloadBehavior, RequestContext},
      30              :     pgdatadir_mapping::CollectKeySpaceError,
      31              :     task_mgr::{self, TaskKind, BACKGROUND_RUNTIME},
      32              :     tenant::{
      33              :         storage_layer::LayerVisibilityHint, tasks::BackgroundLoopKind, timeline::EvictionError,
      34              :         LogicalSizeCalculationCause, Tenant,
      35              :     },
      36              : };
      37              : 
      38              : use utils::{completion, sync::gate::GateGuard};
      39              : 
      40              : use super::Timeline;
      41              : 
      42              : #[derive(Default)]
      43              : pub struct EvictionTaskTimelineState {
      44              :     last_layer_access_imitation: Option<tokio::time::Instant>,
      45              : }
      46              : 
      47              : #[derive(Default)]
      48              : pub struct EvictionTaskTenantState {
      49              :     last_layer_access_imitation: Option<Instant>,
      50              : }
      51              : 
      52              : impl Timeline {
      53            0 :     pub(super) fn launch_eviction_task(
      54            0 :         self: &Arc<Self>,
      55            0 :         parent: Arc<Tenant>,
      56            0 :         background_tasks_can_start: Option<&completion::Barrier>,
      57            0 :     ) {
      58            0 :         let self_clone = Arc::clone(self);
      59            0 :         let background_tasks_can_start = background_tasks_can_start.cloned();
      60            0 :         task_mgr::spawn(
      61            0 :             BACKGROUND_RUNTIME.handle(),
      62            0 :             TaskKind::Eviction,
      63            0 :             self.tenant_shard_id,
      64            0 :             Some(self.timeline_id),
      65            0 :             &format!(
      66            0 :                 "layer eviction for {}/{}",
      67            0 :                 self.tenant_shard_id, self.timeline_id
      68            0 :             ),
      69            0 :             async move {
      70            0 :                 tokio::select! {
      71            0 :                     _ = self_clone.cancel.cancelled() => { return Ok(()); }
      72            0 :                     _ = completion::Barrier::maybe_wait(background_tasks_can_start) => {}
      73            0 :                 };
      74            0 : 
      75            0 :                 self_clone.eviction_task(parent).await;
      76            0 :                 Ok(())
      77            0 :             },
      78            0 :         );
      79            0 :     }
      80              : 
      81            0 :     #[instrument(skip_all, fields(tenant_id = %self.tenant_shard_id.tenant_id, shard_id = %self.tenant_shard_id.shard_slug(), timeline_id = %self.timeline_id))]
      82              :     async fn eviction_task(self: Arc<Self>, tenant: Arc<Tenant>) {
      83              :         use crate::tenant::tasks::random_init_delay;
      84              : 
      85              :         // acquire the gate guard only once within a useful span
      86              :         let Ok(guard) = self.gate.enter() else {
      87              :             return;
      88              :         };
      89              : 
      90              :         {
      91              :             let policy = self.get_eviction_policy();
      92              :             let period = match policy {
      93              :                 EvictionPolicy::LayerAccessThreshold(lat) => lat.period,
      94              :                 EvictionPolicy::OnlyImitiate(lat) => lat.period,
      95              :                 EvictionPolicy::NoEviction => Duration::from_secs(10),
      96              :             };
      97              :             if random_init_delay(period, &self.cancel).await.is_err() {
      98              :                 return;
      99              :             }
     100              :         }
     101              : 
     102              :         let ctx = RequestContext::new(TaskKind::Eviction, DownloadBehavior::Warn);
     103              :         loop {
     104              :             let policy = self.get_eviction_policy();
     105              :             let cf = self
     106              :                 .eviction_iteration(&tenant, &policy, &self.cancel, &guard, &ctx)
     107              :                 .await;
     108              : 
     109              :             match cf {
     110              :                 ControlFlow::Break(()) => break,
     111              :                 ControlFlow::Continue(sleep_until) => {
     112              :                     if tokio::time::timeout_at(sleep_until, self.cancel.cancelled())
     113              :                         .await
     114              :                         .is_ok()
     115              :                     {
     116              :                         break;
     117              :                     }
     118              :                 }
     119              :             }
     120              :         }
     121              :     }
     122              : 
     123            0 :     #[instrument(skip_all, fields(policy_kind = policy.discriminant_str()))]
     124              :     async fn eviction_iteration(
     125              :         self: &Arc<Self>,
     126              :         tenant: &Tenant,
     127              :         policy: &EvictionPolicy,
     128              :         cancel: &CancellationToken,
     129              :         gate: &GateGuard,
     130              :         ctx: &RequestContext,
     131              :     ) -> ControlFlow<(), Instant> {
     132              :         debug!("eviction iteration: {policy:?}");
     133              :         let start = Instant::now();
     134              :         let (period, threshold) = match policy {
     135              :             EvictionPolicy::NoEviction => {
     136              :                 // check again in 10 seconds; XXX config watch mechanism
     137              :                 return ControlFlow::Continue(Instant::now() + Duration::from_secs(10));
     138              :             }
     139              :             EvictionPolicy::LayerAccessThreshold(p) => {
     140              :                 match self
     141              :                     .eviction_iteration_threshold(tenant, p, cancel, gate, ctx)
     142              :                     .await
     143              :                 {
     144              :                     ControlFlow::Break(()) => return ControlFlow::Break(()),
     145              :                     ControlFlow::Continue(()) => (),
     146              :                 }
     147              :                 (p.period, p.threshold)
     148              :             }
     149              :             EvictionPolicy::OnlyImitiate(p) => {
     150              :                 if self
     151              :                     .imitiate_only(tenant, p, cancel, gate, ctx)
     152              :                     .await
     153              :                     .is_break()
     154              :                 {
     155              :                     return ControlFlow::Break(());
     156              :                 }
     157              :                 (p.period, p.threshold)
     158              :             }
     159              :         };
     160              : 
     161              :         let elapsed = start.elapsed();
     162              :         crate::tenant::tasks::warn_when_period_overrun(
     163              :             elapsed,
     164              :             period,
     165              :             BackgroundLoopKind::Eviction,
     166              :         );
     167              :         // FIXME: if we were to mix policies on a pageserver, we would have no way to sense this. I
     168              :         // don't think that is a relevant fear however, and regardless the imitation should be the
     169              :         // most costly part.
     170              :         crate::metrics::EVICTION_ITERATION_DURATION
     171              :             .get_metric_with_label_values(&[
     172              :                 &format!("{}", period.as_secs()),
     173              :                 &format!("{}", threshold.as_secs()),
     174              :             ])
     175              :             .unwrap()
     176              :             .observe(elapsed.as_secs_f64());
     177              : 
     178              :         ControlFlow::Continue(start + period)
     179              :     }
     180              : 
     181            0 :     async fn eviction_iteration_threshold(
     182            0 :         self: &Arc<Self>,
     183            0 :         tenant: &Tenant,
     184            0 :         p: &EvictionPolicyLayerAccessThreshold,
     185            0 :         cancel: &CancellationToken,
     186            0 :         gate: &GateGuard,
     187            0 :         ctx: &RequestContext,
     188            0 :     ) -> ControlFlow<()> {
     189            0 :         let now = SystemTime::now();
     190              : 
     191            0 :         let permit = self.acquire_imitation_permit(cancel, ctx).await?;
     192              : 
     193            0 :         self.imitate_layer_accesses(tenant, p, cancel, gate, permit, ctx)
     194            0 :             .await?;
     195              : 
     196              :         #[derive(Debug, Default)]
     197              :         struct EvictionStats {
     198              :             candidates: usize,
     199              :             evicted: usize,
     200              :             errors: usize,
     201              :             not_evictable: usize,
     202              :             timeouts: usize,
     203              :             #[allow(dead_code)]
     204              :             skipped_for_shutdown: usize,
     205              :         }
     206              : 
     207            0 :         let mut stats = EvictionStats::default();
     208            0 :         // Gather layers for eviction.
     209            0 :         // NB: all the checks can be invalidated as soon as we release the layer map lock.
     210            0 :         // We don't want to hold the layer map lock during eviction.
     211            0 : 
     212            0 :         // So, we just need to deal with this.
     213            0 : 
     214            0 :         let mut js = tokio::task::JoinSet::new();
     215              :         {
     216            0 :             let guard = self.layers.read().await;
     217              : 
     218            0 :             guard
     219            0 :                 .likely_resident_layers()
     220            0 :                 .filter(|layer| {
     221            0 :                     let last_activity_ts = layer.latest_activity();
     222              : 
     223            0 :                     let no_activity_for = match now.duration_since(last_activity_ts) {
     224            0 :                         Ok(d) => d,
     225            0 :                         Err(_e) => {
     226            0 :                             // We reach here if `now` < `last_activity_ts`, which can legitimately
     227            0 :                             // happen if there is an access between us getting `now`, and us getting
     228            0 :                             // the access stats from the layer.
     229            0 :                             //
     230            0 :                             // The other reason why it can happen is system clock skew because
     231            0 :                             // SystemTime::now() is not monotonic, so, even if there is no access
     232            0 :                             // to the layer after we get `now` at the beginning of this function,
     233            0 :                             // it could be that `now`  < `last_activity_ts`.
     234            0 :                             //
     235            0 :                             // To distinguish the cases, we would need to record `Instant`s in the
     236            0 :                             // access stats (i.e., monotonic timestamps), but then, the timestamps
     237            0 :                             // values in the access stats would need to be `Instant`'s, and hence
     238            0 :                             // they would be meaningless outside of the pageserver process.
     239            0 :                             // At the time of writing, the trade-off is that access stats are more
     240            0 :                             // valuable than detecting clock skew.
     241            0 :                             return false;
     242              :                         }
     243              :                     };
     244              : 
     245            0 :                     match layer.visibility() {
     246              :                         LayerVisibilityHint::Visible => {
     247              :                             // Usual case: a visible layer might be read any time, and we will keep it
     248              :                             // resident until it hits our configured TTL threshold.
     249            0 :                             no_activity_for > p.threshold
     250              :                         }
     251              :                         LayerVisibilityHint::Covered => {
     252              :                             // Covered layers: this is probably a layer that was recently covered by
     253              :                             // an image layer during compaction.  We don't evict it immediately, but
     254              :                             // it doesn't stay resident for the full `threshold`: we just keep it
     255              :                             // for a shorter time in case
     256              :                             // - it is used for Timestamp->LSN lookups
     257              :                             // - a new branch is created in recent history which will read this layer
     258            0 :                             no_activity_for > p.period
     259              :                         }
     260              :                     }
     261            0 :                 })
     262            0 :                 .cloned()
     263            0 :                 .for_each(|layer| {
     264            0 :                     js.spawn(async move {
     265            0 :                         layer
     266            0 :                             .evict_and_wait(std::time::Duration::from_secs(5))
     267            0 :                             .await
     268            0 :                     });
     269            0 :                     stats.candidates += 1;
     270            0 :                 });
     271            0 :         };
     272            0 : 
     273            0 :         let join_all = async move {
     274            0 :             while let Some(next) = js.join_next().await {
     275            0 :                 match next {
     276            0 :                     Ok(Ok(())) => stats.evicted += 1,
     277            0 :                     Ok(Err(EvictionError::NotFound | EvictionError::Downloaded)) => {
     278            0 :                         stats.not_evictable += 1;
     279            0 :                     }
     280            0 :                     Ok(Err(EvictionError::Timeout)) => {
     281            0 :                         stats.timeouts += 1;
     282            0 :                     }
     283            0 :                     Err(je) if je.is_cancelled() => unreachable!("not used"),
     284            0 :                     Err(je) if je.is_panic() => {
     285            0 :                         /* already logged */
     286            0 :                         stats.errors += 1;
     287            0 :                     }
     288            0 :                     Err(je) => tracing::error!("unknown JoinError: {je:?}"),
     289              :                 }
     290              :             }
     291            0 :             stats
     292            0 :         };
     293              : 
     294            0 :         tokio::select! {
     295            0 :             stats = join_all => {
     296            0 :                 if stats.candidates == stats.not_evictable {
     297            0 :                     debug!(stats=?stats, "eviction iteration complete");
     298            0 :                 } else if stats.errors > 0 || stats.not_evictable > 0 || stats.timeouts > 0 {
     299              :                     // reminder: timeouts are not eviction cancellations
     300            0 :                     warn!(stats=?stats, "eviction iteration complete");
     301              :                 } else {
     302            0 :                     info!(stats=?stats, "eviction iteration complete");
     303              :                 }
     304              :             }
     305            0 :             _ = cancel.cancelled() => {
     306            0 :                 // just drop the joinset to "abort"
     307            0 :             }
     308              :         }
     309              : 
     310            0 :         ControlFlow::Continue(())
     311            0 :     }
     312              : 
     313              :     /// Like `eviction_iteration_threshold`, but without any eviction. Eviction will be done by
     314              :     /// disk usage based eviction task.
     315            0 :     async fn imitiate_only(
     316            0 :         self: &Arc<Self>,
     317            0 :         tenant: &Tenant,
     318            0 :         p: &EvictionPolicyLayerAccessThreshold,
     319            0 :         cancel: &CancellationToken,
     320            0 :         gate: &GateGuard,
     321            0 :         ctx: &RequestContext,
     322            0 :     ) -> ControlFlow<()> {
     323            0 :         let permit = self.acquire_imitation_permit(cancel, ctx).await?;
     324              : 
     325            0 :         self.imitate_layer_accesses(tenant, p, cancel, gate, permit, ctx)
     326            0 :             .await
     327            0 :     }
     328              : 
     329            0 :     async fn acquire_imitation_permit(
     330            0 :         &self,
     331            0 :         cancel: &CancellationToken,
     332            0 :         ctx: &RequestContext,
     333            0 :     ) -> ControlFlow<(), tokio::sync::SemaphorePermit<'static>> {
     334            0 :         let acquire_permit = crate::tenant::tasks::concurrent_background_tasks_rate_limit_permit(
     335            0 :             BackgroundLoopKind::Eviction,
     336            0 :             ctx,
     337            0 :         );
     338            0 : 
     339            0 :         tokio::select! {
     340            0 :             permit = acquire_permit => ControlFlow::Continue(permit),
     341            0 :             _ = cancel.cancelled() => ControlFlow::Break(()),
     342            0 :             _ = self.cancel.cancelled() => ControlFlow::Break(()),
     343              :         }
     344            0 :     }
     345              : 
     346              :     /// If we evict layers but keep cached values derived from those layers, then
     347              :     /// we face a storm of on-demand downloads after pageserver restart.
     348              :     /// The reason is that the restart empties the caches, and so, the values
     349              :     /// need to be re-computed by accessing layers, which we evicted while the
     350              :     /// caches were filled.
     351              :     ///
     352              :     /// Solutions here would be one of the following:
     353              :     /// 1. Have a persistent cache.
     354              :     /// 2. Count every access to a cached value to the access stats of all layers
     355              :     ///    that were accessed to compute the value in the first place.
     356              :     /// 3. Invalidate the caches at a period of < p.threshold/2, so that the values
     357              :     ///    get re-computed from layers, thereby counting towards layer access stats.
     358              :     /// 4. Make the eviction task imitate the layer accesses that typically hit caches.
     359              :     ///
     360              :     /// We follow approach (4) here because in Neon prod deployment:
     361              :     /// - page cache is quite small => high churn => low hit rate
     362              :     ///   => eviction gets correct access stats
     363              :     /// - value-level caches such as logical size & repatition have a high hit rate,
     364              :     ///   especially for inactive tenants
     365              :     ///   => eviction sees zero accesses for these
     366              :     ///   => they cause the on-demand download storm on pageserver restart
     367              :     ///
     368              :     /// We should probably move to persistent caches in the future, or avoid
     369              :     /// having inactive tenants attached to pageserver in the first place.
     370            0 :     #[instrument(skip_all)]
     371              :     async fn imitate_layer_accesses(
     372              :         &self,
     373              :         tenant: &Tenant,
     374              :         p: &EvictionPolicyLayerAccessThreshold,
     375              :         cancel: &CancellationToken,
     376              :         gate: &GateGuard,
     377              :         permit: tokio::sync::SemaphorePermit<'static>,
     378              :         ctx: &RequestContext,
     379              :     ) -> ControlFlow<()> {
     380              :         if !self.tenant_shard_id.is_shard_zero() {
     381              :             // Shards !=0 do not maintain accurate relation sizes, and do not need to calculate logical size
     382              :             // for consumption metrics (consumption metrics are only sent from shard 0).  We may therefore
     383              :             // skip imitating logical size accesses for eviction purposes.
     384              :             return ControlFlow::Continue(());
     385              :         }
     386              : 
     387              :         let mut state = self.eviction_task_timeline_state.lock().await;
     388              : 
     389              :         // Only do the imitate_layer accesses approximately as often as the threshold.  A little
     390              :         // more frequently, to avoid this period racing with the threshold/period-th eviction iteration.
     391              :         let inter_imitate_period = p.threshold.checked_sub(p.period).unwrap_or(p.threshold);
     392              : 
     393              :         match state.last_layer_access_imitation {
     394              :             Some(ts) if ts.elapsed() < inter_imitate_period => { /* no need to run */ }
     395              :             _ => {
     396              :                 self.imitate_timeline_cached_layer_accesses(gate, ctx).await;
     397              :                 state.last_layer_access_imitation = Some(tokio::time::Instant::now())
     398              :             }
     399              :         }
     400              :         drop(state);
     401              : 
     402              :         if cancel.is_cancelled() {
     403              :             return ControlFlow::Break(());
     404              :         }
     405              : 
     406              :         // This task is timeline-scoped, but the synthetic size calculation is tenant-scoped.
     407              :         // Make one of the tenant's timelines draw the short straw and run the calculation.
     408              :         // The others wait until the calculation is done so that they take into account the
     409              :         // imitated accesses that the winner made.
     410              :         let (mut state, _permit) = {
     411              :             if let Ok(locked) = tenant.eviction_task_tenant_state.try_lock() {
     412              :                 (locked, permit)
     413              :             } else {
     414              :                 // we might need to wait for a long time here in case of pathological synthetic
     415              :                 // size calculation performance
     416              :                 drop(permit);
     417              :                 let locked = tokio::select! {
     418              :                     locked = tenant.eviction_task_tenant_state.lock() => locked,
     419              :                     _ = self.cancel.cancelled() => {
     420              :                         return ControlFlow::Break(())
     421              :                     },
     422              :                     _ = cancel.cancelled() => {
     423              :                         return ControlFlow::Break(())
     424              :                     }
     425              :                 };
     426              :                 // then reacquire -- this will be bad if there is a lot of traffic, but because we
     427              :                 // released the permit, the overall latency will be much better.
     428              :                 let permit = self.acquire_imitation_permit(cancel, ctx).await?;
     429              :                 (locked, permit)
     430              :             }
     431              :         };
     432              :         match state.last_layer_access_imitation {
     433              :             Some(ts) if ts.elapsed() < inter_imitate_period => { /* no need to run */ }
     434              :             _ => {
     435              :                 self.imitate_synthetic_size_calculation_worker(tenant, cancel, ctx)
     436              :                     .await;
     437              :                 state.last_layer_access_imitation = Some(tokio::time::Instant::now());
     438              :             }
     439              :         }
     440              :         drop(state);
     441              : 
     442              :         if cancel.is_cancelled() {
     443              :             return ControlFlow::Break(());
     444              :         }
     445              : 
     446              :         ControlFlow::Continue(())
     447              :     }
     448              : 
     449              :     /// Recompute the values which would cause on-demand downloads during restart.
     450            0 :     #[instrument(skip_all)]
     451              :     async fn imitate_timeline_cached_layer_accesses(
     452              :         &self,
     453              :         guard: &GateGuard,
     454              :         ctx: &RequestContext,
     455              :     ) {
     456              :         let lsn = self.get_last_record_lsn();
     457              : 
     458              :         // imitiate on-restart initial logical size
     459              :         let size = self
     460              :             .calculate_logical_size(
     461              :                 lsn,
     462              :                 LogicalSizeCalculationCause::EvictionTaskImitation,
     463              :                 guard,
     464              :                 ctx,
     465              :             )
     466              :             .instrument(info_span!("calculate_logical_size"))
     467              :             .await;
     468              : 
     469              :         match &size {
     470              :             Ok(_size) => {
     471              :                 // good, don't log it to avoid confusion
     472              :             }
     473              :             Err(_) => {
     474              :                 // we have known issues for which we already log this on consumption metrics,
     475              :                 // gc, and compaction. leave logging out for now.
     476              :                 //
     477              :                 // https://github.com/neondatabase/neon/issues/2539
     478              :             }
     479              :         }
     480              : 
     481              :         // imitiate repartiting on first compactation
     482              :         if let Err(e) = self
     483              :             .collect_keyspace(lsn, ctx)
     484              :             .instrument(info_span!("collect_keyspace"))
     485              :             .await
     486              :         {
     487              :             // if this failed, we probably failed logical size because these use the same keys
     488              :             if size.is_err() {
     489              :                 // ignore, see above comment
     490              :             } else {
     491              :                 match e {
     492              :                     CollectKeySpaceError::Cancelled => {
     493              :                         // Shutting down, ignore
     494              :                     }
     495              :                     err => {
     496              :                         warn!(
     497              :                             "failed to collect keyspace but succeeded in calculating logical size: {err:#}"
     498              :                         );
     499              :                     }
     500              :                 }
     501              :             }
     502              :         }
     503              :     }
     504              : 
     505              :     // Imitate the synthetic size calculation done by the consumption_metrics module.
     506            0 :     #[instrument(skip_all)]
     507              :     async fn imitate_synthetic_size_calculation_worker(
     508              :         &self,
     509              :         tenant: &Tenant,
     510              :         cancel: &CancellationToken,
     511              :         ctx: &RequestContext,
     512              :     ) {
     513              :         if self.conf.metric_collection_endpoint.is_none() {
     514              :             // We don't start the consumption metrics task if this is not set in the config.
     515              :             // So, no need to imitate the accesses in that case.
     516              :             return;
     517              :         }
     518              : 
     519              :         // The consumption metrics are collected on a per-tenant basis, by a single
     520              :         // global background loop.
     521              :         // It limits the number of synthetic size calculations using the global
     522              :         // `concurrent_tenant_size_logical_size_queries` semaphore to not overload
     523              :         // the pageserver. (size calculation is somewhat expensive in terms of CPU and IOs).
     524              :         //
     525              :         // If we used that same semaphore here, then we'd compete for the
     526              :         // same permits, which may impact timeliness of consumption metrics.
     527              :         // That is a no-go, as consumption metrics are much more important
     528              :         // than what we do here.
     529              :         //
     530              :         // So, we have a separate semaphore, initialized to the same
     531              :         // number of permits as the `concurrent_tenant_size_logical_size_queries`.
     532              :         // In the worst, we would have twice the amount of concurrenct size calculations.
     533              :         // But in practice, the `p.threshold` >> `consumption metric interval`, and
     534              :         // we spread out the eviction task using `random_init_delay`.
     535              :         // So, the chance of the worst case is quite low in practice.
     536              :         // It runs as a per-tenant task, but the eviction_task.rs is per-timeline.
     537              :         // So, we must coordinate with other with other eviction tasks of this tenant.
     538              :         let limit = self
     539              :             .conf
     540              :             .eviction_task_immitated_concurrent_logical_size_queries
     541              :             .inner();
     542              : 
     543              :         let mut throwaway_cache = HashMap::new();
     544              :         let gather = crate::tenant::size::gather_inputs(
     545              :             tenant,
     546              :             limit,
     547              :             None,
     548              :             &mut throwaway_cache,
     549              :             LogicalSizeCalculationCause::EvictionTaskImitation,
     550              :             cancel,
     551              :             ctx,
     552              :         )
     553              :         .instrument(info_span!("gather_inputs"));
     554              : 
     555              :         tokio::select! {
     556              :             _ = cancel.cancelled() => {}
     557              :             gather_result = gather => {
     558              :                 match gather_result {
     559              :                     Ok(_) => {},
     560              :                     Err(e) => {
     561              :                         // We don't care about the result, but, if it failed, we should log it,
     562              :                         // since consumption metric might be hitting the cached value and
     563              :                         // thus not encountering this error.
     564              :                         warn!("failed to imitate synthetic size calculation accesses: {e:#}")
     565              :                     }
     566              :                 }
     567              :            }
     568              :         }
     569              :     }
     570              : }
        

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