LCOV - code coverage report
Current view: top level - pageserver/src/consumption_metrics/metrics - tests.rs (source / functions) Coverage Total Hit
Test: 09e7485004805bd42b53a0c369170b3228136512.info Lines: 100.0 % 300 300
Test Date: 2024-11-21 18:36:18 Functions: 100.0 % 14 14

            Line data    Source code
       1              : use crate::consumption_metrics::RawMetric;
       2              : 
       3              : use super::*;
       4              : use std::collections::HashMap;
       5              : 
       6              : #[test]
       7            2 : fn startup_collected_timeline_metrics_before_advancing() {
       8            2 :     let tenant_id = TenantId::generate();
       9            2 :     let timeline_id = TimelineId::generate();
      10            2 : 
      11            2 :     let mut metrics = Vec::new();
      12            2 :     let cache = HashMap::new();
      13            2 : 
      14            2 :     let initdb_lsn = Lsn(0x10000);
      15            2 :     let disk_consistent_lsn = Lsn(initdb_lsn.0 * 2);
      16            2 : 
      17            2 :     let snap = TimelineSnapshot {
      18            2 :         loaded_at: (disk_consistent_lsn, SystemTime::now()),
      19            2 :         last_record_lsn: disk_consistent_lsn,
      20            2 :         current_exact_logical_size: Some(0x42000),
      21            2 :     };
      22            2 : 
      23            2 :     let now = DateTime::<Utc>::from(SystemTime::now());
      24            2 : 
      25            2 :     snap.to_metrics(tenant_id, timeline_id, now, &mut metrics, &cache);
      26            2 : 
      27            2 :     assert_eq!(
      28            2 :         metrics,
      29            2 :         &[
      30            2 :             MetricsKey::written_size_delta(tenant_id, timeline_id).from_until(
      31            2 :                 snap.loaded_at.1.into(),
      32            2 :                 now,
      33            2 :                 0
      34            2 :             ),
      35            2 :             MetricsKey::written_size(tenant_id, timeline_id).at(now, disk_consistent_lsn.0),
      36            2 :             MetricsKey::timeline_logical_size(tenant_id, timeline_id).at(now, 0x42000)
      37            2 :         ]
      38            2 :     );
      39            2 : }
      40              : 
      41              : #[test]
      42            2 : fn startup_collected_timeline_metrics_second_round() {
      43            2 :     let tenant_id = TenantId::generate();
      44            2 :     let timeline_id = TimelineId::generate();
      45            2 : 
      46            2 :     let [now, before, init] = time_backwards();
      47            2 : 
      48            2 :     let now = DateTime::<Utc>::from(now);
      49            2 :     let before = DateTime::<Utc>::from(before);
      50            2 : 
      51            2 :     let initdb_lsn = Lsn(0x10000);
      52            2 :     let disk_consistent_lsn = Lsn(initdb_lsn.0 * 2);
      53            2 : 
      54            2 :     let mut metrics = Vec::new();
      55            2 :     let cache = HashMap::from([MetricsKey::written_size(tenant_id, timeline_id)
      56            2 :         .at(before, disk_consistent_lsn.0)
      57            2 :         .to_kv_pair()]);
      58            2 : 
      59            2 :     let snap = TimelineSnapshot {
      60            2 :         loaded_at: (disk_consistent_lsn, init),
      61            2 :         last_record_lsn: disk_consistent_lsn,
      62            2 :         current_exact_logical_size: Some(0x42000),
      63            2 :     };
      64            2 : 
      65            2 :     snap.to_metrics(tenant_id, timeline_id, now, &mut metrics, &cache);
      66            2 : 
      67            2 :     assert_eq!(
      68            2 :         metrics,
      69            2 :         &[
      70            2 :             MetricsKey::written_size_delta(tenant_id, timeline_id).from_until(before, now, 0),
      71            2 :             MetricsKey::written_size(tenant_id, timeline_id).at(now, disk_consistent_lsn.0),
      72            2 :             MetricsKey::timeline_logical_size(tenant_id, timeline_id).at(now, 0x42000)
      73            2 :         ]
      74            2 :     );
      75            2 : }
      76              : 
      77              : #[test]
      78            2 : fn startup_collected_timeline_metrics_nth_round_at_same_lsn() {
      79            2 :     let tenant_id = TenantId::generate();
      80            2 :     let timeline_id = TimelineId::generate();
      81            2 : 
      82            2 :     let [now, just_before, before, init] = time_backwards();
      83            2 : 
      84            2 :     let now = DateTime::<Utc>::from(now);
      85            2 :     let just_before = DateTime::<Utc>::from(just_before);
      86            2 :     let before = DateTime::<Utc>::from(before);
      87            2 : 
      88            2 :     let initdb_lsn = Lsn(0x10000);
      89            2 :     let disk_consistent_lsn = Lsn(initdb_lsn.0 * 2);
      90            2 : 
      91            2 :     let mut metrics = Vec::new();
      92            2 :     let cache = HashMap::from([
      93            2 :         // at t=before was the last time the last_record_lsn changed
      94            2 :         MetricsKey::written_size(tenant_id, timeline_id)
      95            2 :             .at(before, disk_consistent_lsn.0)
      96            2 :             .to_kv_pair(),
      97            2 :         // end time of this event is used for the next ones
      98            2 :         MetricsKey::written_size_delta(tenant_id, timeline_id)
      99            2 :             .from_until(before, just_before, 0)
     100            2 :             .to_kv_pair(),
     101            2 :     ]);
     102            2 : 
     103            2 :     let snap = TimelineSnapshot {
     104            2 :         loaded_at: (disk_consistent_lsn, init),
     105            2 :         last_record_lsn: disk_consistent_lsn,
     106            2 :         current_exact_logical_size: Some(0x42000),
     107            2 :     };
     108            2 : 
     109            2 :     snap.to_metrics(tenant_id, timeline_id, now, &mut metrics, &cache);
     110            2 : 
     111            2 :     assert_eq!(
     112            2 :         metrics,
     113            2 :         &[
     114            2 :             MetricsKey::written_size_delta(tenant_id, timeline_id).from_until(just_before, now, 0),
     115            2 :             MetricsKey::written_size(tenant_id, timeline_id).at(now, disk_consistent_lsn.0),
     116            2 :             MetricsKey::timeline_logical_size(tenant_id, timeline_id).at(now, 0x42000)
     117            2 :         ]
     118            2 :     );
     119            2 : }
     120              : 
     121              : #[test]
     122            2 : fn post_restart_written_sizes_with_rolled_back_last_record_lsn() {
     123            2 :     // it can happen that we lose the inmemorylayer but have previously sent metrics and we
     124            2 :     // should never go backwards
     125            2 : 
     126            2 :     let tenant_id = TenantId::generate();
     127            2 :     let timeline_id = TimelineId::generate();
     128            2 : 
     129            2 :     let [later, now, at_restart] = time_backwards();
     130            2 : 
     131            2 :     // FIXME: tests would be so much easier if we did not need to juggle back and forth
     132            2 :     // SystemTime and DateTime::<Utc> ... Could do the conversion only at upload time?
     133            2 :     let now = DateTime::<Utc>::from(now);
     134            2 :     let later = DateTime::<Utc>::from(later);
     135            2 :     let before_restart = at_restart - std::time::Duration::from_secs(5 * 60);
     136            2 :     let way_before = before_restart - std::time::Duration::from_secs(10 * 60);
     137            2 :     let before_restart = DateTime::<Utc>::from(before_restart);
     138            2 :     let way_before = DateTime::<Utc>::from(way_before);
     139            2 : 
     140            2 :     let snap = TimelineSnapshot {
     141            2 :         loaded_at: (Lsn(50), at_restart),
     142            2 :         last_record_lsn: Lsn(50),
     143            2 :         current_exact_logical_size: None,
     144            2 :     };
     145            2 : 
     146            2 :     let mut cache = HashMap::from([
     147            2 :         MetricsKey::written_size(tenant_id, timeline_id)
     148            2 :             .at(before_restart, 100)
     149            2 :             .to_kv_pair(),
     150            2 :         MetricsKey::written_size_delta(tenant_id, timeline_id)
     151            2 :             .from_until(
     152            2 :                 way_before,
     153            2 :                 before_restart,
     154            2 :                 // not taken into account, but the timestamps are important
     155            2 :                 999_999_999,
     156            2 :             )
     157            2 :             .to_kv_pair(),
     158            2 :     ]);
     159            2 : 
     160            2 :     let mut metrics = Vec::new();
     161            2 :     snap.to_metrics(tenant_id, timeline_id, now, &mut metrics, &cache);
     162            2 : 
     163            2 :     assert_eq!(
     164            2 :         metrics,
     165            2 :         &[
     166            2 :             MetricsKey::written_size_delta(tenant_id, timeline_id).from_until(
     167            2 :                 before_restart,
     168            2 :                 now,
     169            2 :                 0
     170            2 :             ),
     171            2 :             MetricsKey::written_size(tenant_id, timeline_id).at(now, 100),
     172            2 :         ]
     173            2 :     );
     174              : 
     175              :     // now if we cache these metrics, and re-run while "still in recovery"
     176            4 :     cache.extend(metrics.drain(..).map(|x| x.to_kv_pair()));
     177            2 : 
     178            2 :     // "still in recovery", because our snapshot did not change
     179            2 :     snap.to_metrics(tenant_id, timeline_id, later, &mut metrics, &cache);
     180            2 : 
     181            2 :     assert_eq!(
     182            2 :         metrics,
     183            2 :         &[
     184            2 :             MetricsKey::written_size_delta(tenant_id, timeline_id).from_until(now, later, 0),
     185            2 :             MetricsKey::written_size(tenant_id, timeline_id).at(later, 100),
     186            2 :         ]
     187            2 :     );
     188            2 : }
     189              : 
     190              : #[test]
     191            2 : fn post_restart_current_exact_logical_size_uses_cached() {
     192            2 :     let tenant_id = TenantId::generate();
     193            2 :     let timeline_id = TimelineId::generate();
     194            2 : 
     195            2 :     let [now, at_restart] = time_backwards();
     196            2 : 
     197            2 :     let now = DateTime::<Utc>::from(now);
     198            2 :     let before_restart = at_restart - std::time::Duration::from_secs(5 * 60);
     199            2 :     let before_restart = DateTime::<Utc>::from(before_restart);
     200            2 : 
     201            2 :     let snap = TimelineSnapshot {
     202            2 :         loaded_at: (Lsn(50), at_restart),
     203            2 :         last_record_lsn: Lsn(50),
     204            2 :         current_exact_logical_size: None,
     205            2 :     };
     206            2 : 
     207            2 :     let cache = HashMap::from([MetricsKey::timeline_logical_size(tenant_id, timeline_id)
     208            2 :         .at(before_restart, 100)
     209            2 :         .to_kv_pair()]);
     210            2 : 
     211            2 :     let mut metrics = Vec::new();
     212            2 :     snap.to_metrics(tenant_id, timeline_id, now, &mut metrics, &cache);
     213            2 : 
     214            6 :     metrics.retain(|item| item.key.metric == Name::LogicalSize);
     215            2 : 
     216            2 :     assert_eq!(
     217            2 :         metrics,
     218            2 :         &[MetricsKey::timeline_logical_size(tenant_id, timeline_id).at(now, 100)]
     219            2 :     );
     220            2 : }
     221              : 
     222              : #[test]
     223            2 : fn post_restart_synthetic_size_uses_cached_if_available() {
     224            2 :     let tenant_id = TenantId::generate();
     225            2 : 
     226            2 :     let ts = TenantSnapshot {
     227            2 :         resident_size: 1000,
     228            2 :         remote_size: 1000,
     229            2 :         // not yet calculated
     230            2 :         synthetic_size: 0,
     231            2 :     };
     232            2 : 
     233            2 :     let now = SystemTime::now();
     234            2 :     let before_restart = DateTime::<Utc>::from(now - std::time::Duration::from_secs(5 * 60));
     235            2 :     let now = DateTime::<Utc>::from(now);
     236            2 : 
     237            2 :     let cached = HashMap::from([MetricsKey::synthetic_size(tenant_id)
     238            2 :         .at(before_restart, 1000)
     239            2 :         .to_kv_pair()]);
     240            2 : 
     241            2 :     let mut metrics = Vec::new();
     242            2 :     ts.to_metrics(tenant_id, now, &cached, &mut metrics);
     243            2 : 
     244            2 :     assert_eq!(
     245            2 :         metrics,
     246            2 :         &[
     247            2 :             MetricsKey::remote_storage_size(tenant_id).at(now, 1000),
     248            2 :             MetricsKey::resident_size(tenant_id).at(now, 1000),
     249            2 :             MetricsKey::synthetic_size(tenant_id).at(now, 1000),
     250            2 :         ]
     251            2 :     );
     252            2 : }
     253              : 
     254              : #[test]
     255            2 : fn post_restart_synthetic_size_is_not_sent_when_not_cached() {
     256            2 :     let tenant_id = TenantId::generate();
     257            2 : 
     258            2 :     let ts = TenantSnapshot {
     259            2 :         resident_size: 1000,
     260            2 :         remote_size: 1000,
     261            2 :         // not yet calculated
     262            2 :         synthetic_size: 0,
     263            2 :     };
     264            2 : 
     265            2 :     let now = SystemTime::now();
     266            2 :     let now = DateTime::<Utc>::from(now);
     267            2 : 
     268            2 :     let cached = HashMap::new();
     269            2 : 
     270            2 :     let mut metrics = Vec::new();
     271            2 :     ts.to_metrics(tenant_id, now, &cached, &mut metrics);
     272            2 : 
     273            2 :     assert_eq!(
     274            2 :         metrics,
     275            2 :         &[
     276            2 :             MetricsKey::remote_storage_size(tenant_id).at(now, 1000),
     277            2 :             MetricsKey::resident_size(tenant_id).at(now, 1000),
     278            2 :             // no synthetic size here
     279            2 :         ]
     280            2 :     );
     281            2 : }
     282              : 
     283            8 : fn time_backwards<const N: usize>() -> [std::time::SystemTime; N] {
     284            8 :     let mut times = [std::time::SystemTime::UNIX_EPOCH; N];
     285            8 :     times[0] = std::time::SystemTime::now();
     286           24 :     for behind in 1..N {
     287           16 :         times[behind] = times[0] - std::time::Duration::from_secs(behind as u64);
     288           16 :     }
     289              : 
     290            8 :     times
     291            8 : }
     292              : 
     293            2 : pub(crate) const fn metric_examples_old(
     294            2 :     tenant_id: TenantId,
     295            2 :     timeline_id: TimelineId,
     296            2 :     now: DateTime<Utc>,
     297            2 :     before: DateTime<Utc>,
     298            2 : ) -> [RawMetric; 6] {
     299            2 :     [
     300            2 :         MetricsKey::written_size(tenant_id, timeline_id).at_old_format(now, 0),
     301            2 :         MetricsKey::written_size_delta(tenant_id, timeline_id)
     302            2 :             .from_until_old_format(before, now, 0),
     303            2 :         MetricsKey::timeline_logical_size(tenant_id, timeline_id).at_old_format(now, 0),
     304            2 :         MetricsKey::remote_storage_size(tenant_id).at_old_format(now, 0),
     305            2 :         MetricsKey::resident_size(tenant_id).at_old_format(now, 0),
     306            2 :         MetricsKey::synthetic_size(tenant_id).at_old_format(now, 1),
     307            2 :     ]
     308            2 : }
     309              : 
     310            6 : pub(crate) const fn metric_examples(
     311            6 :     tenant_id: TenantId,
     312            6 :     timeline_id: TimelineId,
     313            6 :     now: DateTime<Utc>,
     314            6 :     before: DateTime<Utc>,
     315            6 : ) -> [NewRawMetric; 6] {
     316            6 :     [
     317            6 :         MetricsKey::written_size(tenant_id, timeline_id).at(now, 0),
     318            6 :         MetricsKey::written_size_delta(tenant_id, timeline_id).from_until(before, now, 0),
     319            6 :         MetricsKey::timeline_logical_size(tenant_id, timeline_id).at(now, 0),
     320            6 :         MetricsKey::remote_storage_size(tenant_id).at(now, 0),
     321            6 :         MetricsKey::resident_size(tenant_id).at(now, 0),
     322            6 :         MetricsKey::synthetic_size(tenant_id).at(now, 1),
     323            6 :     ]
     324            6 : }
        

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