LCOV - code coverage report
Current view: top level - safekeeper/src - timeline.rs (source / functions) Coverage Total Hit
Test: 8b13a09a5c233d98abd4a0d3e59157e7db16d6fd.info Lines: 0.0 % 687 0
Test Date: 2024-11-21 10:53:51 Functions: 0.0 % 122 0

            Line data    Source code
       1              : //! This module implements Timeline lifecycle management and has all necessary code
       2              : //! to glue together SafeKeeper and all other background services.
       3              : 
       4              : use anyhow::{anyhow, bail, Result};
       5              : use camino::{Utf8Path, Utf8PathBuf};
       6              : use remote_storage::RemotePath;
       7              : use safekeeper_api::models::TimelineTermBumpResponse;
       8              : use serde::{Deserialize, Serialize};
       9              : use tokio::fs::{self};
      10              : use tokio_util::sync::CancellationToken;
      11              : use utils::id::TenantId;
      12              : use utils::sync::gate::Gate;
      13              : 
      14              : use std::cmp::max;
      15              : use std::ops::{Deref, DerefMut};
      16              : use std::sync::atomic::{AtomicBool, AtomicU64, Ordering};
      17              : use std::sync::Arc;
      18              : use std::time::Duration;
      19              : use tokio::sync::{RwLock, RwLockReadGuard, RwLockWriteGuard};
      20              : use tokio::{sync::watch, time::Instant};
      21              : use tracing::*;
      22              : use utils::http::error::ApiError;
      23              : use utils::{
      24              :     id::{NodeId, TenantTimelineId},
      25              :     lsn::Lsn,
      26              : };
      27              : 
      28              : use storage_broker::proto::SafekeeperTimelineInfo;
      29              : use storage_broker::proto::TenantTimelineId as ProtoTenantTimelineId;
      30              : 
      31              : use crate::control_file;
      32              : use crate::rate_limit::RateLimiter;
      33              : use crate::receive_wal::WalReceivers;
      34              : use crate::safekeeper::{
      35              :     AcceptorProposerMessage, ProposerAcceptorMessage, SafeKeeper, Term, TermLsn,
      36              : };
      37              : use crate::send_wal::WalSenders;
      38              : use crate::state::{EvictionState, TimelineMemState, TimelinePersistentState, TimelineState};
      39              : use crate::timeline_guard::ResidenceGuard;
      40              : use crate::timeline_manager::{AtomicStatus, ManagerCtl};
      41              : use crate::timelines_set::TimelinesSet;
      42              : use crate::wal_backup::{self, remote_timeline_path};
      43              : use crate::wal_backup_partial::PartialRemoteSegment;
      44              : 
      45              : use crate::metrics::{FullTimelineInfo, WalStorageMetrics, MISC_OPERATION_SECONDS};
      46              : use crate::wal_storage::{Storage as wal_storage_iface, WalReader};
      47              : use crate::{debug_dump, timeline_manager, wal_storage};
      48              : use crate::{GlobalTimelines, SafeKeeperConf};
      49              : 
      50              : /// Things safekeeper should know about timeline state on peers.
      51            0 : #[derive(Debug, Clone, Serialize, Deserialize)]
      52              : pub struct PeerInfo {
      53              :     pub sk_id: NodeId,
      54              :     pub term: Term,
      55              :     /// Term of the last entry.
      56              :     pub last_log_term: Term,
      57              :     /// LSN of the last record.
      58              :     pub flush_lsn: Lsn,
      59              :     pub commit_lsn: Lsn,
      60              :     /// Since which LSN safekeeper has WAL.
      61              :     pub local_start_lsn: Lsn,
      62              :     /// When info was received. Serde annotations are not very useful but make
      63              :     /// the code compile -- we don't rely on this field externally.
      64              :     #[serde(skip)]
      65              :     #[serde(default = "Instant::now")]
      66              :     ts: Instant,
      67              :     pub pg_connstr: String,
      68              :     pub http_connstr: String,
      69              : }
      70              : 
      71              : impl PeerInfo {
      72            0 :     fn from_sk_info(sk_info: &SafekeeperTimelineInfo, ts: Instant) -> PeerInfo {
      73            0 :         PeerInfo {
      74            0 :             sk_id: NodeId(sk_info.safekeeper_id),
      75            0 :             term: sk_info.term,
      76            0 :             last_log_term: sk_info.last_log_term,
      77            0 :             flush_lsn: Lsn(sk_info.flush_lsn),
      78            0 :             commit_lsn: Lsn(sk_info.commit_lsn),
      79            0 :             local_start_lsn: Lsn(sk_info.local_start_lsn),
      80            0 :             pg_connstr: sk_info.safekeeper_connstr.clone(),
      81            0 :             http_connstr: sk_info.http_connstr.clone(),
      82            0 :             ts,
      83            0 :         }
      84            0 :     }
      85              : }
      86              : 
      87              : // vector-based node id -> peer state map with very limited functionality we
      88              : // need.
      89              : #[derive(Debug, Clone, Default)]
      90              : pub struct PeersInfo(pub Vec<PeerInfo>);
      91              : 
      92              : impl PeersInfo {
      93            0 :     fn get(&mut self, id: NodeId) -> Option<&mut PeerInfo> {
      94            0 :         self.0.iter_mut().find(|p| p.sk_id == id)
      95            0 :     }
      96              : 
      97            0 :     fn upsert(&mut self, p: &PeerInfo) {
      98            0 :         match self.get(p.sk_id) {
      99            0 :             Some(rp) => *rp = p.clone(),
     100            0 :             None => self.0.push(p.clone()),
     101              :         }
     102            0 :     }
     103              : }
     104              : 
     105              : pub type ReadGuardSharedState<'a> = RwLockReadGuard<'a, SharedState>;
     106              : 
     107              : /// WriteGuardSharedState is a wrapper around `RwLockWriteGuard<SharedState>` that
     108              : /// automatically updates `watch::Sender` channels with state on drop.
     109              : pub struct WriteGuardSharedState<'a> {
     110              :     tli: Arc<Timeline>,
     111              :     guard: RwLockWriteGuard<'a, SharedState>,
     112              : }
     113              : 
     114              : impl<'a> WriteGuardSharedState<'a> {
     115            0 :     fn new(tli: Arc<Timeline>, guard: RwLockWriteGuard<'a, SharedState>) -> Self {
     116            0 :         WriteGuardSharedState { tli, guard }
     117            0 :     }
     118              : }
     119              : 
     120              : impl Deref for WriteGuardSharedState<'_> {
     121              :     type Target = SharedState;
     122              : 
     123            0 :     fn deref(&self) -> &Self::Target {
     124            0 :         &self.guard
     125            0 :     }
     126              : }
     127              : 
     128              : impl DerefMut for WriteGuardSharedState<'_> {
     129            0 :     fn deref_mut(&mut self) -> &mut Self::Target {
     130            0 :         &mut self.guard
     131            0 :     }
     132              : }
     133              : 
     134              : impl Drop for WriteGuardSharedState<'_> {
     135            0 :     fn drop(&mut self) {
     136            0 :         let term_flush_lsn =
     137            0 :             TermLsn::from((self.guard.sk.last_log_term(), self.guard.sk.flush_lsn()));
     138            0 :         let commit_lsn = self.guard.sk.state().inmem.commit_lsn;
     139            0 : 
     140            0 :         let _ = self.tli.term_flush_lsn_watch_tx.send_if_modified(|old| {
     141            0 :             if *old != term_flush_lsn {
     142            0 :                 *old = term_flush_lsn;
     143            0 :                 true
     144              :             } else {
     145            0 :                 false
     146              :             }
     147            0 :         });
     148            0 : 
     149            0 :         let _ = self.tli.commit_lsn_watch_tx.send_if_modified(|old| {
     150            0 :             if *old != commit_lsn {
     151            0 :                 *old = commit_lsn;
     152            0 :                 true
     153              :             } else {
     154            0 :                 false
     155              :             }
     156            0 :         });
     157            0 : 
     158            0 :         // send notification about shared state update
     159            0 :         self.tli.shared_state_version_tx.send_modify(|old| {
     160            0 :             *old += 1;
     161            0 :         });
     162            0 :     }
     163              : }
     164              : 
     165              : /// This structure is stored in shared state and represents the state of the timeline.
     166              : ///
     167              : /// Usually it holds SafeKeeper, but it also supports offloaded timeline state. In this
     168              : /// case, SafeKeeper is not available (because WAL is not present on disk) and all
     169              : /// operations can be done only with control file.
     170              : pub enum StateSK {
     171              :     Loaded(SafeKeeper<control_file::FileStorage, wal_storage::PhysicalStorage>),
     172              :     Offloaded(Box<TimelineState<control_file::FileStorage>>),
     173              :     // Not used, required for moving between states.
     174              :     Empty,
     175              : }
     176              : 
     177              : impl StateSK {
     178            0 :     pub fn flush_lsn(&self) -> Lsn {
     179            0 :         match self {
     180            0 :             StateSK::Loaded(sk) => sk.wal_store.flush_lsn(),
     181            0 :             StateSK::Offloaded(state) => match state.eviction_state {
     182            0 :                 EvictionState::Offloaded(flush_lsn) => flush_lsn,
     183            0 :                 _ => panic!("StateSK::Offloaded mismatches with eviction_state from control_file"),
     184              :             },
     185            0 :             StateSK::Empty => unreachable!(),
     186              :         }
     187            0 :     }
     188              : 
     189              :     /// Get a reference to the control file's timeline state.
     190            0 :     pub fn state(&self) -> &TimelineState<control_file::FileStorage> {
     191            0 :         match self {
     192            0 :             StateSK::Loaded(sk) => &sk.state,
     193            0 :             StateSK::Offloaded(ref s) => s,
     194            0 :             StateSK::Empty => unreachable!(),
     195              :         }
     196            0 :     }
     197              : 
     198            0 :     pub fn state_mut(&mut self) -> &mut TimelineState<control_file::FileStorage> {
     199            0 :         match self {
     200            0 :             StateSK::Loaded(sk) => &mut sk.state,
     201            0 :             StateSK::Offloaded(ref mut s) => s,
     202            0 :             StateSK::Empty => unreachable!(),
     203              :         }
     204            0 :     }
     205              : 
     206            0 :     pub fn last_log_term(&self) -> Term {
     207            0 :         self.state()
     208            0 :             .acceptor_state
     209            0 :             .get_last_log_term(self.flush_lsn())
     210            0 :     }
     211              : 
     212            0 :     pub async fn term_bump(&mut self, to: Option<Term>) -> Result<TimelineTermBumpResponse> {
     213            0 :         self.state_mut().term_bump(to).await
     214            0 :     }
     215              : 
     216              :     /// Close open WAL files to release FDs.
     217            0 :     fn close_wal_store(&mut self) {
     218            0 :         if let StateSK::Loaded(sk) = self {
     219            0 :             sk.wal_store.close();
     220            0 :         }
     221            0 :     }
     222              : 
     223              :     /// Update timeline state with peer safekeeper data.
     224            0 :     pub async fn record_safekeeper_info(&mut self, sk_info: &SafekeeperTimelineInfo) -> Result<()> {
     225            0 :         // update commit_lsn if safekeeper is loaded
     226            0 :         match self {
     227            0 :             StateSK::Loaded(sk) => sk.record_safekeeper_info(sk_info).await?,
     228            0 :             StateSK::Offloaded(_) => {}
     229            0 :             StateSK::Empty => unreachable!(),
     230              :         }
     231              : 
     232              :         // update everything else, including remote_consistent_lsn and backup_lsn
     233            0 :         let mut sync_control_file = false;
     234            0 :         let state = self.state_mut();
     235            0 :         let wal_seg_size = state.server.wal_seg_size as u64;
     236            0 : 
     237            0 :         state.inmem.backup_lsn = max(Lsn(sk_info.backup_lsn), state.inmem.backup_lsn);
     238            0 :         sync_control_file |= state.backup_lsn + wal_seg_size < state.inmem.backup_lsn;
     239            0 : 
     240            0 :         state.inmem.remote_consistent_lsn = max(
     241            0 :             Lsn(sk_info.remote_consistent_lsn),
     242            0 :             state.inmem.remote_consistent_lsn,
     243            0 :         );
     244            0 :         sync_control_file |=
     245            0 :             state.remote_consistent_lsn + wal_seg_size < state.inmem.remote_consistent_lsn;
     246            0 : 
     247            0 :         state.inmem.peer_horizon_lsn =
     248            0 :             max(Lsn(sk_info.peer_horizon_lsn), state.inmem.peer_horizon_lsn);
     249            0 :         sync_control_file |= state.peer_horizon_lsn + wal_seg_size < state.inmem.peer_horizon_lsn;
     250            0 : 
     251            0 :         if sync_control_file {
     252            0 :             state.flush().await?;
     253            0 :         }
     254            0 :         Ok(())
     255            0 :     }
     256              : 
     257              :     /// Previously known as epoch_start_lsn. Needed only for reference in some APIs.
     258            0 :     pub fn term_start_lsn(&self) -> Lsn {
     259            0 :         match self {
     260            0 :             StateSK::Loaded(sk) => sk.term_start_lsn,
     261            0 :             StateSK::Offloaded(_) => Lsn(0),
     262            0 :             StateSK::Empty => unreachable!(),
     263              :         }
     264            0 :     }
     265              : 
     266              :     /// Used for metrics only.
     267            0 :     pub fn wal_storage_metrics(&self) -> WalStorageMetrics {
     268            0 :         match self {
     269            0 :             StateSK::Loaded(sk) => sk.wal_store.get_metrics(),
     270            0 :             StateSK::Offloaded(_) => WalStorageMetrics::default(),
     271            0 :             StateSK::Empty => unreachable!(),
     272              :         }
     273            0 :     }
     274              : 
     275              :     /// Returns WAL storage internal LSNs for debug dump.
     276            0 :     pub fn wal_storage_internal_state(&self) -> (Lsn, Lsn, Lsn, bool) {
     277            0 :         match self {
     278            0 :             StateSK::Loaded(sk) => sk.wal_store.internal_state(),
     279              :             StateSK::Offloaded(_) => {
     280            0 :                 let flush_lsn = self.flush_lsn();
     281            0 :                 (flush_lsn, flush_lsn, flush_lsn, false)
     282              :             }
     283            0 :             StateSK::Empty => unreachable!(),
     284              :         }
     285            0 :     }
     286              : 
     287              :     /// Access to SafeKeeper object. Panics if offloaded, should be good to use from WalResidentTimeline.
     288            0 :     pub fn safekeeper(
     289            0 :         &mut self,
     290            0 :     ) -> &mut SafeKeeper<control_file::FileStorage, wal_storage::PhysicalStorage> {
     291            0 :         match self {
     292            0 :             StateSK::Loaded(sk) => sk,
     293              :             StateSK::Offloaded(_) => {
     294            0 :                 panic!("safekeeper is offloaded, cannot be used")
     295              :             }
     296            0 :             StateSK::Empty => unreachable!(),
     297              :         }
     298            0 :     }
     299              : 
     300              :     /// Moves control file's state structure out of the enum. Used to switch states.
     301            0 :     fn take_state(self) -> TimelineState<control_file::FileStorage> {
     302            0 :         match self {
     303            0 :             StateSK::Loaded(sk) => sk.state,
     304            0 :             StateSK::Offloaded(state) => *state,
     305            0 :             StateSK::Empty => unreachable!(),
     306              :         }
     307            0 :     }
     308              : }
     309              : 
     310              : /// Shared state associated with database instance
     311              : pub struct SharedState {
     312              :     /// Safekeeper object
     313              :     pub(crate) sk: StateSK,
     314              :     /// In memory list containing state of peers sent in latest messages from them.
     315              :     pub(crate) peers_info: PeersInfo,
     316              :     // True value hinders old WAL removal; this is used by snapshotting. We
     317              :     // could make it a counter, but there is no need to.
     318              :     pub(crate) wal_removal_on_hold: bool,
     319              : }
     320              : 
     321              : impl SharedState {
     322              :     /// Creates a new SharedState.
     323            0 :     pub fn new(sk: StateSK) -> Self {
     324            0 :         Self {
     325            0 :             sk,
     326            0 :             peers_info: PeersInfo(vec![]),
     327            0 :             wal_removal_on_hold: false,
     328            0 :         }
     329            0 :     }
     330              : 
     331              :     /// Restore SharedState from control file. If file doesn't exist, bails out.
     332            0 :     pub fn restore(conf: &SafeKeeperConf, ttid: &TenantTimelineId) -> Result<Self> {
     333            0 :         let timeline_dir = get_timeline_dir(conf, ttid);
     334            0 :         let control_store = control_file::FileStorage::restore_new(&timeline_dir, conf.no_sync)?;
     335            0 :         if control_store.server.wal_seg_size == 0 {
     336            0 :             bail!(TimelineError::UninitializedWalSegSize(*ttid));
     337            0 :         }
     338              : 
     339            0 :         let sk = match control_store.eviction_state {
     340              :             EvictionState::Present => {
     341            0 :                 let wal_store = wal_storage::PhysicalStorage::new(
     342            0 :                     ttid,
     343            0 :                     &timeline_dir,
     344            0 :                     &control_store,
     345            0 :                     conf.no_sync,
     346            0 :                 )?;
     347            0 :                 StateSK::Loaded(SafeKeeper::new(
     348            0 :                     TimelineState::new(control_store),
     349            0 :                     wal_store,
     350            0 :                     conf.my_id,
     351            0 :                 )?)
     352              :             }
     353              :             EvictionState::Offloaded(_) => {
     354            0 :                 StateSK::Offloaded(Box::new(TimelineState::new(control_store)))
     355              :             }
     356              :         };
     357              : 
     358            0 :         Ok(Self::new(sk))
     359            0 :     }
     360              : 
     361            0 :     pub(crate) fn get_wal_seg_size(&self) -> usize {
     362            0 :         self.sk.state().server.wal_seg_size as usize
     363            0 :     }
     364              : 
     365            0 :     fn get_safekeeper_info(
     366            0 :         &self,
     367            0 :         ttid: &TenantTimelineId,
     368            0 :         conf: &SafeKeeperConf,
     369            0 :         standby_apply_lsn: Lsn,
     370            0 :     ) -> SafekeeperTimelineInfo {
     371            0 :         SafekeeperTimelineInfo {
     372            0 :             safekeeper_id: conf.my_id.0,
     373            0 :             tenant_timeline_id: Some(ProtoTenantTimelineId {
     374            0 :                 tenant_id: ttid.tenant_id.as_ref().to_owned(),
     375            0 :                 timeline_id: ttid.timeline_id.as_ref().to_owned(),
     376            0 :             }),
     377            0 :             term: self.sk.state().acceptor_state.term,
     378            0 :             last_log_term: self.sk.last_log_term(),
     379            0 :             flush_lsn: self.sk.flush_lsn().0,
     380            0 :             // note: this value is not flushed to control file yet and can be lost
     381            0 :             commit_lsn: self.sk.state().inmem.commit_lsn.0,
     382            0 :             remote_consistent_lsn: self.sk.state().inmem.remote_consistent_lsn.0,
     383            0 :             peer_horizon_lsn: self.sk.state().inmem.peer_horizon_lsn.0,
     384            0 :             safekeeper_connstr: conf
     385            0 :                 .advertise_pg_addr
     386            0 :                 .to_owned()
     387            0 :                 .unwrap_or(conf.listen_pg_addr.clone()),
     388            0 :             http_connstr: conf.listen_http_addr.to_owned(),
     389            0 :             backup_lsn: self.sk.state().inmem.backup_lsn.0,
     390            0 :             local_start_lsn: self.sk.state().local_start_lsn.0,
     391            0 :             availability_zone: conf.availability_zone.clone(),
     392            0 :             standby_horizon: standby_apply_lsn.0,
     393            0 :         }
     394            0 :     }
     395              : 
     396              :     /// Get our latest view of alive peers status on the timeline.
     397              :     /// We pass our own info through the broker as well, so when we don't have connection
     398              :     /// to the broker returned vec is empty.
     399            0 :     pub(crate) fn get_peers(&self, heartbeat_timeout: Duration) -> Vec<PeerInfo> {
     400            0 :         let now = Instant::now();
     401            0 :         self.peers_info
     402            0 :             .0
     403            0 :             .iter()
     404            0 :             // Regard peer as absent if we haven't heard from it within heartbeat_timeout.
     405            0 :             .filter(|p| now.duration_since(p.ts) <= heartbeat_timeout)
     406            0 :             .cloned()
     407            0 :             .collect()
     408            0 :     }
     409              : }
     410              : 
     411            0 : #[derive(Debug, thiserror::Error)]
     412              : pub enum TimelineError {
     413              :     #[error("Timeline {0} was cancelled and cannot be used anymore")]
     414              :     Cancelled(TenantTimelineId),
     415              :     #[error("Timeline {0} was not found in global map")]
     416              :     NotFound(TenantTimelineId),
     417              :     #[error("Timeline {0} creation is in progress")]
     418              :     CreationInProgress(TenantTimelineId),
     419              :     #[error("Timeline {0} exists on disk, but wasn't loaded on startup")]
     420              :     Invalid(TenantTimelineId),
     421              :     #[error("Timeline {0} is already exists")]
     422              :     AlreadyExists(TenantTimelineId),
     423              :     #[error("Timeline {0} is not initialized, wal_seg_size is zero")]
     424              :     UninitializedWalSegSize(TenantTimelineId),
     425              :     #[error("Timeline {0} is not initialized, pg_version is unknown")]
     426              :     UninitialinzedPgVersion(TenantTimelineId),
     427              : }
     428              : 
     429              : // Convert to HTTP API error.
     430              : impl From<TimelineError> for ApiError {
     431            0 :     fn from(te: TimelineError) -> ApiError {
     432            0 :         match te {
     433            0 :             TimelineError::NotFound(ttid) => {
     434            0 :                 ApiError::NotFound(anyhow!("timeline {} not found", ttid).into())
     435              :             }
     436            0 :             _ => ApiError::InternalServerError(anyhow!("{}", te)),
     437              :         }
     438            0 :     }
     439              : }
     440              : 
     441              : /// Timeline struct manages lifecycle (creation, deletion, restore) of a safekeeper timeline.
     442              : /// It also holds SharedState and provides mutually exclusive access to it.
     443              : pub struct Timeline {
     444              :     pub ttid: TenantTimelineId,
     445              :     pub remote_path: RemotePath,
     446              : 
     447              :     /// Used to broadcast commit_lsn updates to all background jobs.
     448              :     commit_lsn_watch_tx: watch::Sender<Lsn>,
     449              :     commit_lsn_watch_rx: watch::Receiver<Lsn>,
     450              : 
     451              :     /// Broadcasts (current term, flush_lsn) updates, walsender is interested in
     452              :     /// them when sending in recovery mode (to walproposer or peers). Note: this
     453              :     /// is just a notification, WAL reading should always done with lock held as
     454              :     /// term can change otherwise.
     455              :     term_flush_lsn_watch_tx: watch::Sender<TermLsn>,
     456              :     term_flush_lsn_watch_rx: watch::Receiver<TermLsn>,
     457              : 
     458              :     /// Broadcasts shared state updates.
     459              :     shared_state_version_tx: watch::Sender<usize>,
     460              :     shared_state_version_rx: watch::Receiver<usize>,
     461              : 
     462              :     /// Safekeeper and other state, that should remain consistent and
     463              :     /// synchronized with the disk. This is tokio mutex as we write WAL to disk
     464              :     /// while holding it, ensuring that consensus checks are in order.
     465              :     mutex: RwLock<SharedState>,
     466              :     walsenders: Arc<WalSenders>,
     467              :     walreceivers: Arc<WalReceivers>,
     468              :     timeline_dir: Utf8PathBuf,
     469              :     manager_ctl: ManagerCtl,
     470              : 
     471              :     /// Hold this gate from code that depends on the Timeline's non-shut-down state.  While holding
     472              :     /// this gate, you must respect [`Timeline::cancel`]
     473              :     pub(crate) gate: Gate,
     474              : 
     475              :     /// Delete/cancel will trigger this, background tasks should drop out as soon as it fires
     476              :     pub(crate) cancel: CancellationToken,
     477              : 
     478              :     // timeline_manager controlled state
     479              :     pub(crate) broker_active: AtomicBool,
     480              :     pub(crate) wal_backup_active: AtomicBool,
     481              :     pub(crate) last_removed_segno: AtomicU64,
     482              :     pub(crate) mgr_status: AtomicStatus,
     483              : }
     484              : 
     485              : impl Timeline {
     486              :     /// Constructs a new timeline.
     487            0 :     pub fn new(
     488            0 :         ttid: TenantTimelineId,
     489            0 :         timeline_dir: &Utf8Path,
     490            0 :         remote_path: &RemotePath,
     491            0 :         shared_state: SharedState,
     492            0 :     ) -> Arc<Self> {
     493            0 :         let (commit_lsn_watch_tx, commit_lsn_watch_rx) =
     494            0 :             watch::channel(shared_state.sk.state().commit_lsn);
     495            0 :         let (term_flush_lsn_watch_tx, term_flush_lsn_watch_rx) = watch::channel(TermLsn::from((
     496            0 :             shared_state.sk.last_log_term(),
     497            0 :             shared_state.sk.flush_lsn(),
     498            0 :         )));
     499            0 :         let (shared_state_version_tx, shared_state_version_rx) = watch::channel(0);
     500            0 : 
     501            0 :         let walreceivers = WalReceivers::new();
     502            0 : 
     503            0 :         Arc::new(Self {
     504            0 :             ttid,
     505            0 :             remote_path: remote_path.to_owned(),
     506            0 :             timeline_dir: timeline_dir.to_owned(),
     507            0 :             commit_lsn_watch_tx,
     508            0 :             commit_lsn_watch_rx,
     509            0 :             term_flush_lsn_watch_tx,
     510            0 :             term_flush_lsn_watch_rx,
     511            0 :             shared_state_version_tx,
     512            0 :             shared_state_version_rx,
     513            0 :             mutex: RwLock::new(shared_state),
     514            0 :             walsenders: WalSenders::new(walreceivers.clone()),
     515            0 :             walreceivers,
     516            0 :             gate: Default::default(),
     517            0 :             cancel: CancellationToken::default(),
     518            0 :             manager_ctl: ManagerCtl::new(),
     519            0 :             broker_active: AtomicBool::new(false),
     520            0 :             wal_backup_active: AtomicBool::new(false),
     521            0 :             last_removed_segno: AtomicU64::new(0),
     522            0 :             mgr_status: AtomicStatus::new(),
     523            0 :         })
     524            0 :     }
     525              : 
     526              :     /// Load existing timeline from disk.
     527            0 :     pub fn load_timeline(conf: &SafeKeeperConf, ttid: TenantTimelineId) -> Result<Arc<Timeline>> {
     528            0 :         let _enter = info_span!("load_timeline", timeline = %ttid.timeline_id).entered();
     529              : 
     530            0 :         let shared_state = SharedState::restore(conf, &ttid)?;
     531            0 :         let timeline_dir = get_timeline_dir(conf, &ttid);
     532            0 :         let remote_path = remote_timeline_path(&ttid)?;
     533              : 
     534            0 :         Ok(Timeline::new(
     535            0 :             ttid,
     536            0 :             &timeline_dir,
     537            0 :             &remote_path,
     538            0 :             shared_state,
     539            0 :         ))
     540            0 :     }
     541              : 
     542              :     /// Bootstrap new or existing timeline starting background tasks.
     543            0 :     pub fn bootstrap(
     544            0 :         self: &Arc<Timeline>,
     545            0 :         _shared_state: &mut WriteGuardSharedState<'_>,
     546            0 :         conf: &SafeKeeperConf,
     547            0 :         broker_active_set: Arc<TimelinesSet>,
     548            0 :         partial_backup_rate_limiter: RateLimiter,
     549            0 :     ) {
     550            0 :         let (tx, rx) = self.manager_ctl.bootstrap_manager();
     551              : 
     552            0 :         let Ok(gate_guard) = self.gate.enter() else {
     553              :             // Init raced with shutdown
     554            0 :             return;
     555              :         };
     556              : 
     557              :         // Start manager task which will monitor timeline state and update
     558              :         // background tasks.
     559            0 :         tokio::spawn({
     560            0 :             let this = self.clone();
     561            0 :             let conf = conf.clone();
     562            0 :             async move {
     563            0 :                 let _gate_guard = gate_guard;
     564            0 :                 timeline_manager::main_task(
     565            0 :                     ManagerTimeline { tli: this },
     566            0 :                     conf,
     567            0 :                     broker_active_set,
     568            0 :                     tx,
     569            0 :                     rx,
     570            0 :                     partial_backup_rate_limiter,
     571            0 :                 )
     572            0 :                 .await
     573            0 :             }
     574            0 :         });
     575            0 :     }
     576              : 
     577              :     /// Background timeline activities (which hold Timeline::gate) will no
     578              :     /// longer run once this function completes.
     579            0 :     pub async fn shutdown(&self) {
     580            0 :         info!("timeline {} shutting down", self.ttid);
     581            0 :         self.cancel.cancel();
     582            0 : 
     583            0 :         // Wait for any concurrent tasks to stop using this timeline, to avoid e.g. attempts
     584            0 :         // to read deleted files.
     585            0 :         self.gate.close().await;
     586            0 :     }
     587              : 
     588              :     /// Delete timeline from disk completely, by removing timeline directory.
     589              :     ///
     590              :     /// Also deletes WAL in s3. Might fail if e.g. s3 is unavailable, but
     591              :     /// deletion API endpoint is retriable.
     592              :     ///
     593              :     /// Timeline must be in shut-down state (i.e. call [`Self::shutdown`] first)
     594            0 :     pub async fn delete(
     595            0 :         &self,
     596            0 :         shared_state: &mut WriteGuardSharedState<'_>,
     597            0 :         only_local: bool,
     598            0 :     ) -> Result<bool> {
     599            0 :         // Assert that [`Self::shutdown`] was already called
     600            0 :         assert!(self.cancel.is_cancelled());
     601            0 :         assert!(self.gate.close_complete());
     602              : 
     603              :         // Close associated FDs. Nobody will be able to touch timeline data once
     604              :         // it is cancelled, so WAL storage won't be opened again.
     605            0 :         shared_state.sk.close_wal_store();
     606            0 : 
     607            0 :         let conf = GlobalTimelines::get_global_config();
     608            0 :         if !only_local && conf.is_wal_backup_enabled() {
     609              :             // Note: we concurrently delete remote storage data from multiple
     610              :             // safekeepers. That's ok, s3 replies 200 if object doesn't exist and we
     611              :             // do some retries anyway.
     612            0 :             wal_backup::delete_timeline(&self.ttid).await?;
     613            0 :         }
     614            0 :         let dir_existed = delete_dir(&self.timeline_dir).await?;
     615            0 :         Ok(dir_existed)
     616            0 :     }
     617              : 
     618              :     /// Returns if timeline is cancelled.
     619            0 :     pub fn is_cancelled(&self) -> bool {
     620            0 :         self.cancel.is_cancelled()
     621            0 :     }
     622              : 
     623              :     /// Take a writing mutual exclusive lock on timeline shared_state.
     624            0 :     pub async fn write_shared_state<'a>(self: &'a Arc<Self>) -> WriteGuardSharedState<'a> {
     625            0 :         WriteGuardSharedState::new(self.clone(), self.mutex.write().await)
     626            0 :     }
     627              : 
     628            0 :     pub async fn read_shared_state(&self) -> ReadGuardSharedState {
     629            0 :         self.mutex.read().await
     630            0 :     }
     631              : 
     632              :     /// Returns commit_lsn watch channel.
     633            0 :     pub fn get_commit_lsn_watch_rx(&self) -> watch::Receiver<Lsn> {
     634            0 :         self.commit_lsn_watch_rx.clone()
     635            0 :     }
     636              : 
     637              :     /// Returns term_flush_lsn watch channel.
     638            0 :     pub fn get_term_flush_lsn_watch_rx(&self) -> watch::Receiver<TermLsn> {
     639            0 :         self.term_flush_lsn_watch_rx.clone()
     640            0 :     }
     641              : 
     642              :     /// Returns watch channel for SharedState update version.
     643            0 :     pub fn get_state_version_rx(&self) -> watch::Receiver<usize> {
     644            0 :         self.shared_state_version_rx.clone()
     645            0 :     }
     646              : 
     647              :     /// Returns wal_seg_size.
     648            0 :     pub async fn get_wal_seg_size(&self) -> usize {
     649            0 :         self.read_shared_state().await.get_wal_seg_size()
     650            0 :     }
     651              : 
     652              :     /// Returns state of the timeline.
     653            0 :     pub async fn get_state(&self) -> (TimelineMemState, TimelinePersistentState) {
     654            0 :         let state = self.read_shared_state().await;
     655            0 :         (
     656            0 :             state.sk.state().inmem.clone(),
     657            0 :             TimelinePersistentState::clone(state.sk.state()),
     658            0 :         )
     659            0 :     }
     660              : 
     661              :     /// Returns latest backup_lsn.
     662            0 :     pub async fn get_wal_backup_lsn(&self) -> Lsn {
     663            0 :         self.read_shared_state().await.sk.state().inmem.backup_lsn
     664            0 :     }
     665              : 
     666              :     /// Sets backup_lsn to the given value.
     667            0 :     pub async fn set_wal_backup_lsn(self: &Arc<Self>, backup_lsn: Lsn) -> Result<()> {
     668            0 :         if self.is_cancelled() {
     669            0 :             bail!(TimelineError::Cancelled(self.ttid));
     670            0 :         }
     671              : 
     672            0 :         let mut state = self.write_shared_state().await;
     673            0 :         state.sk.state_mut().inmem.backup_lsn = max(state.sk.state().inmem.backup_lsn, backup_lsn);
     674            0 :         // we should check whether to shut down offloader, but this will be done
     675            0 :         // soon by peer communication anyway.
     676            0 :         Ok(())
     677            0 :     }
     678              : 
     679              :     /// Get safekeeper info for broadcasting to broker and other peers.
     680            0 :     pub async fn get_safekeeper_info(&self, conf: &SafeKeeperConf) -> SafekeeperTimelineInfo {
     681            0 :         let standby_apply_lsn = self.walsenders.get_hotstandby().reply.apply_lsn;
     682            0 :         let shared_state = self.read_shared_state().await;
     683            0 :         shared_state.get_safekeeper_info(&self.ttid, conf, standby_apply_lsn)
     684            0 :     }
     685              : 
     686              :     /// Update timeline state with peer safekeeper data.
     687            0 :     pub async fn record_safekeeper_info(
     688            0 :         self: &Arc<Self>,
     689            0 :         sk_info: SafekeeperTimelineInfo,
     690            0 :     ) -> Result<()> {
     691              :         {
     692            0 :             let mut shared_state = self.write_shared_state().await;
     693            0 :             shared_state.sk.record_safekeeper_info(&sk_info).await?;
     694            0 :             let peer_info = PeerInfo::from_sk_info(&sk_info, Instant::now());
     695            0 :             shared_state.peers_info.upsert(&peer_info);
     696            0 :         }
     697            0 :         Ok(())
     698            0 :     }
     699              : 
     700            0 :     pub async fn get_peers(&self, conf: &SafeKeeperConf) -> Vec<PeerInfo> {
     701            0 :         let shared_state = self.read_shared_state().await;
     702            0 :         shared_state.get_peers(conf.heartbeat_timeout)
     703            0 :     }
     704              : 
     705            0 :     pub fn get_walsenders(&self) -> &Arc<WalSenders> {
     706            0 :         &self.walsenders
     707            0 :     }
     708              : 
     709            0 :     pub fn get_walreceivers(&self) -> &Arc<WalReceivers> {
     710            0 :         &self.walreceivers
     711            0 :     }
     712              : 
     713              :     /// Returns flush_lsn.
     714            0 :     pub async fn get_flush_lsn(&self) -> Lsn {
     715            0 :         self.read_shared_state().await.sk.flush_lsn()
     716            0 :     }
     717              : 
     718              :     /// Gather timeline data for metrics.
     719            0 :     pub async fn info_for_metrics(&self) -> Option<FullTimelineInfo> {
     720            0 :         if self.is_cancelled() {
     721            0 :             return None;
     722            0 :         }
     723            0 : 
     724            0 :         let (ps_feedback_count, last_ps_feedback) = self.walsenders.get_ps_feedback_stats();
     725            0 :         let state = self.read_shared_state().await;
     726            0 :         Some(FullTimelineInfo {
     727            0 :             ttid: self.ttid,
     728            0 :             ps_feedback_count,
     729            0 :             last_ps_feedback,
     730            0 :             wal_backup_active: self.wal_backup_active.load(Ordering::Relaxed),
     731            0 :             timeline_is_active: self.broker_active.load(Ordering::Relaxed),
     732            0 :             num_computes: self.walreceivers.get_num() as u32,
     733            0 :             last_removed_segno: self.last_removed_segno.load(Ordering::Relaxed),
     734            0 :             epoch_start_lsn: state.sk.term_start_lsn(),
     735            0 :             mem_state: state.sk.state().inmem.clone(),
     736            0 :             persisted_state: TimelinePersistentState::clone(state.sk.state()),
     737            0 :             flush_lsn: state.sk.flush_lsn(),
     738            0 :             wal_storage: state.sk.wal_storage_metrics(),
     739            0 :         })
     740            0 :     }
     741              : 
     742              :     /// Returns in-memory timeline state to build a full debug dump.
     743            0 :     pub async fn memory_dump(&self) -> debug_dump::Memory {
     744            0 :         let state = self.read_shared_state().await;
     745              : 
     746            0 :         let (write_lsn, write_record_lsn, flush_lsn, file_open) =
     747            0 :             state.sk.wal_storage_internal_state();
     748            0 : 
     749            0 :         debug_dump::Memory {
     750            0 :             is_cancelled: self.is_cancelled(),
     751            0 :             peers_info_len: state.peers_info.0.len(),
     752            0 :             walsenders: self.walsenders.get_all(),
     753            0 :             wal_backup_active: self.wal_backup_active.load(Ordering::Relaxed),
     754            0 :             active: self.broker_active.load(Ordering::Relaxed),
     755            0 :             num_computes: self.walreceivers.get_num() as u32,
     756            0 :             last_removed_segno: self.last_removed_segno.load(Ordering::Relaxed),
     757            0 :             epoch_start_lsn: state.sk.term_start_lsn(),
     758            0 :             mem_state: state.sk.state().inmem.clone(),
     759            0 :             mgr_status: self.mgr_status.get(),
     760            0 :             write_lsn,
     761            0 :             write_record_lsn,
     762            0 :             flush_lsn,
     763            0 :             file_open,
     764            0 :         }
     765            0 :     }
     766              : 
     767              :     /// Apply a function to the control file state and persist it.
     768            0 :     pub async fn map_control_file<T>(
     769            0 :         self: &Arc<Self>,
     770            0 :         f: impl FnOnce(&mut TimelinePersistentState) -> Result<T>,
     771            0 :     ) -> Result<T> {
     772            0 :         let mut state = self.write_shared_state().await;
     773            0 :         let mut persistent_state = state.sk.state_mut().start_change();
     774              :         // If f returns error, we abort the change and don't persist anything.
     775            0 :         let res = f(&mut persistent_state)?;
     776              :         // If persisting fails, we abort the change and return error.
     777            0 :         state
     778            0 :             .sk
     779            0 :             .state_mut()
     780            0 :             .finish_change(&persistent_state)
     781            0 :             .await?;
     782            0 :         Ok(res)
     783            0 :     }
     784              : 
     785            0 :     pub async fn term_bump(self: &Arc<Self>, to: Option<Term>) -> Result<TimelineTermBumpResponse> {
     786            0 :         let mut state = self.write_shared_state().await;
     787            0 :         state.sk.term_bump(to).await
     788            0 :     }
     789              : 
     790              :     /// Guts of [`Self::wal_residence_guard`] and [`Self::try_wal_residence_guard`]
     791            0 :     async fn do_wal_residence_guard(
     792            0 :         self: &Arc<Self>,
     793            0 :         block: bool,
     794            0 :     ) -> Result<Option<WalResidentTimeline>> {
     795            0 :         let op_label = if block {
     796            0 :             "wal_residence_guard"
     797              :         } else {
     798            0 :             "try_wal_residence_guard"
     799              :         };
     800              : 
     801            0 :         if self.is_cancelled() {
     802            0 :             bail!(TimelineError::Cancelled(self.ttid));
     803            0 :         }
     804            0 : 
     805            0 :         debug!("requesting WalResidentTimeline guard");
     806            0 :         let started_at = Instant::now();
     807            0 :         let status_before = self.mgr_status.get();
     808              : 
     809              :         // Wait 30 seconds for the guard to be acquired. It can time out if someone is
     810              :         // holding the lock (e.g. during `SafeKeeper::process_msg()`) or manager task
     811              :         // is stuck.
     812            0 :         let res = tokio::time::timeout_at(started_at + Duration::from_secs(30), async {
     813            0 :             if block {
     814            0 :                 self.manager_ctl.wal_residence_guard().await.map(Some)
     815              :             } else {
     816            0 :                 self.manager_ctl.try_wal_residence_guard().await
     817              :             }
     818            0 :         })
     819            0 :         .await;
     820              : 
     821            0 :         let guard = match res {
     822            0 :             Ok(Ok(guard)) => {
     823            0 :                 let finished_at = Instant::now();
     824            0 :                 let elapsed = finished_at - started_at;
     825            0 :                 MISC_OPERATION_SECONDS
     826            0 :                     .with_label_values(&[op_label])
     827            0 :                     .observe(elapsed.as_secs_f64());
     828            0 : 
     829            0 :                 guard
     830              :             }
     831            0 :             Ok(Err(e)) => {
     832            0 :                 warn!(
     833            0 :                     "error acquiring in {op_label}, statuses {:?} => {:?}",
     834            0 :                     status_before,
     835            0 :                     self.mgr_status.get()
     836              :                 );
     837            0 :                 return Err(e);
     838              :             }
     839              :             Err(_) => {
     840            0 :                 warn!(
     841            0 :                     "timeout acquiring in {op_label} guard, statuses {:?} => {:?}",
     842            0 :                     status_before,
     843            0 :                     self.mgr_status.get()
     844              :                 );
     845            0 :                 anyhow::bail!("timeout while acquiring WalResidentTimeline guard");
     846              :             }
     847              :         };
     848              : 
     849            0 :         Ok(guard.map(|g| WalResidentTimeline::new(self.clone(), g)))
     850            0 :     }
     851              : 
     852              :     /// Get the timeline guard for reading/writing WAL files.
     853              :     /// If WAL files are not present on disk (evicted), they will be automatically
     854              :     /// downloaded from remote storage. This is done in the manager task, which is
     855              :     /// responsible for issuing all guards.
     856              :     ///
     857              :     /// NB: don't use this function from timeline_manager, it will deadlock.
     858              :     /// NB: don't use this function while holding shared_state lock.
     859            0 :     pub async fn wal_residence_guard(self: &Arc<Self>) -> Result<WalResidentTimeline> {
     860            0 :         self.do_wal_residence_guard(true)
     861            0 :             .await
     862            0 :             .map(|m| m.expect("Always get Some in block=true mode"))
     863            0 :     }
     864              : 
     865              :     /// Get the timeline guard for reading/writing WAL files if the timeline is resident,
     866              :     /// else return None
     867            0 :     pub(crate) async fn try_wal_residence_guard(
     868            0 :         self: &Arc<Self>,
     869            0 :     ) -> Result<Option<WalResidentTimeline>> {
     870            0 :         self.do_wal_residence_guard(false).await
     871            0 :     }
     872              : 
     873            0 :     pub async fn backup_partial_reset(self: &Arc<Self>) -> Result<Vec<String>> {
     874            0 :         self.manager_ctl.backup_partial_reset().await
     875            0 :     }
     876              : }
     877              : 
     878              : /// This is a guard that allows to read/write disk timeline state.
     879              : /// All tasks that are trying to read/write WAL from disk should use this guard.
     880              : pub struct WalResidentTimeline {
     881              :     pub tli: Arc<Timeline>,
     882              :     _guard: ResidenceGuard,
     883              : }
     884              : 
     885              : impl WalResidentTimeline {
     886            0 :     pub fn new(tli: Arc<Timeline>, _guard: ResidenceGuard) -> Self {
     887            0 :         WalResidentTimeline { tli, _guard }
     888            0 :     }
     889              : }
     890              : 
     891              : impl Deref for WalResidentTimeline {
     892              :     type Target = Arc<Timeline>;
     893              : 
     894            0 :     fn deref(&self) -> &Self::Target {
     895            0 :         &self.tli
     896            0 :     }
     897              : }
     898              : 
     899              : impl WalResidentTimeline {
     900              :     /// Returns true if walsender should stop sending WAL to pageserver. We
     901              :     /// terminate it if remote_consistent_lsn reached commit_lsn and there is no
     902              :     /// computes. While there might be nothing to stream already, we learn about
     903              :     /// remote_consistent_lsn update through replication feedback, and we want
     904              :     /// to stop pushing to the broker if pageserver is fully caughtup.
     905            0 :     pub async fn should_walsender_stop(&self, reported_remote_consistent_lsn: Lsn) -> bool {
     906            0 :         if self.is_cancelled() {
     907            0 :             return true;
     908            0 :         }
     909            0 :         let shared_state = self.read_shared_state().await;
     910            0 :         if self.walreceivers.get_num() == 0 {
     911            0 :             return shared_state.sk.state().inmem.commit_lsn == Lsn(0) || // no data at all yet
     912            0 :             reported_remote_consistent_lsn >= shared_state.sk.state().inmem.commit_lsn;
     913            0 :         }
     914            0 :         false
     915            0 :     }
     916              : 
     917              :     /// Ensure that current term is t, erroring otherwise, and lock the state.
     918            0 :     pub async fn acquire_term(&self, t: Term) -> Result<ReadGuardSharedState> {
     919            0 :         let ss = self.read_shared_state().await;
     920            0 :         if ss.sk.state().acceptor_state.term != t {
     921            0 :             bail!(
     922            0 :                 "failed to acquire term {}, current term {}",
     923            0 :                 t,
     924            0 :                 ss.sk.state().acceptor_state.term
     925            0 :             );
     926            0 :         }
     927            0 :         Ok(ss)
     928            0 :     }
     929              : 
     930              :     /// Pass arrived message to the safekeeper.
     931            0 :     pub async fn process_msg(
     932            0 :         &self,
     933            0 :         msg: &ProposerAcceptorMessage,
     934            0 :     ) -> Result<Option<AcceptorProposerMessage>> {
     935            0 :         if self.is_cancelled() {
     936            0 :             bail!(TimelineError::Cancelled(self.ttid));
     937            0 :         }
     938              : 
     939              :         let mut rmsg: Option<AcceptorProposerMessage>;
     940              :         {
     941            0 :             let mut shared_state = self.write_shared_state().await;
     942            0 :             rmsg = shared_state.sk.safekeeper().process_msg(msg).await?;
     943              : 
     944              :             // if this is AppendResponse, fill in proper hot standby feedback.
     945            0 :             if let Some(AcceptorProposerMessage::AppendResponse(ref mut resp)) = rmsg {
     946            0 :                 resp.hs_feedback = self.walsenders.get_hotstandby().hs_feedback;
     947            0 :             }
     948              :         }
     949            0 :         Ok(rmsg)
     950            0 :     }
     951              : 
     952            0 :     pub async fn get_walreader(&self, start_lsn: Lsn) -> Result<WalReader> {
     953            0 :         let (_, persisted_state) = self.get_state().await;
     954            0 :         let enable_remote_read = GlobalTimelines::get_global_config().is_wal_backup_enabled();
     955            0 : 
     956            0 :         WalReader::new(
     957            0 :             &self.ttid,
     958            0 :             self.timeline_dir.clone(),
     959            0 :             &persisted_state,
     960            0 :             start_lsn,
     961            0 :             enable_remote_read,
     962            0 :         )
     963            0 :     }
     964              : 
     965            0 :     pub fn get_timeline_dir(&self) -> Utf8PathBuf {
     966            0 :         self.timeline_dir.clone()
     967            0 :     }
     968              : 
     969              :     /// Update in memory remote consistent lsn.
     970            0 :     pub async fn update_remote_consistent_lsn(&self, candidate: Lsn) {
     971            0 :         let mut shared_state = self.write_shared_state().await;
     972            0 :         shared_state.sk.state_mut().inmem.remote_consistent_lsn = max(
     973            0 :             shared_state.sk.state().inmem.remote_consistent_lsn,
     974            0 :             candidate,
     975            0 :         );
     976            0 :     }
     977              : }
     978              : 
     979              : /// This struct contains methods that are used by timeline manager task.
     980              : pub(crate) struct ManagerTimeline {
     981              :     pub(crate) tli: Arc<Timeline>,
     982              : }
     983              : 
     984              : impl Deref for ManagerTimeline {
     985              :     type Target = Arc<Timeline>;
     986              : 
     987            0 :     fn deref(&self) -> &Self::Target {
     988            0 :         &self.tli
     989            0 :     }
     990              : }
     991              : 
     992              : impl ManagerTimeline {
     993            0 :     pub(crate) fn timeline_dir(&self) -> &Utf8PathBuf {
     994            0 :         &self.tli.timeline_dir
     995            0 :     }
     996              : 
     997              :     /// Manager requests this state on startup.
     998            0 :     pub(crate) async fn bootstrap_mgr(&self) -> (bool, Option<PartialRemoteSegment>) {
     999            0 :         let shared_state = self.read_shared_state().await;
    1000            0 :         let is_offloaded = matches!(
    1001            0 :             shared_state.sk.state().eviction_state,
    1002              :             EvictionState::Offloaded(_)
    1003              :         );
    1004            0 :         let partial_backup_uploaded = shared_state.sk.state().partial_backup.uploaded_segment();
    1005            0 : 
    1006            0 :         (is_offloaded, partial_backup_uploaded)
    1007            0 :     }
    1008              : 
    1009              :     /// Try to switch state Present->Offloaded.
    1010            0 :     pub(crate) async fn switch_to_offloaded(
    1011            0 :         &self,
    1012            0 :         partial: &PartialRemoteSegment,
    1013            0 :     ) -> anyhow::Result<()> {
    1014            0 :         let mut shared = self.write_shared_state().await;
    1015              : 
    1016              :         // updating control file
    1017            0 :         let mut pstate = shared.sk.state_mut().start_change();
    1018              : 
    1019            0 :         if !matches!(pstate.eviction_state, EvictionState::Present) {
    1020            0 :             bail!(
    1021            0 :                 "cannot switch to offloaded state, current state is {:?}",
    1022            0 :                 pstate.eviction_state
    1023            0 :             );
    1024            0 :         }
    1025            0 : 
    1026            0 :         if partial.flush_lsn != shared.sk.flush_lsn() {
    1027            0 :             bail!(
    1028            0 :                 "flush_lsn mismatch in partial backup, expected {}, got {}",
    1029            0 :                 shared.sk.flush_lsn(),
    1030            0 :                 partial.flush_lsn
    1031            0 :             );
    1032            0 :         }
    1033            0 : 
    1034            0 :         if partial.commit_lsn != pstate.commit_lsn {
    1035            0 :             bail!(
    1036            0 :                 "commit_lsn mismatch in partial backup, expected {}, got {}",
    1037            0 :                 pstate.commit_lsn,
    1038            0 :                 partial.commit_lsn
    1039            0 :             );
    1040            0 :         }
    1041            0 : 
    1042            0 :         if partial.term != shared.sk.last_log_term() {
    1043            0 :             bail!(
    1044            0 :                 "term mismatch in partial backup, expected {}, got {}",
    1045            0 :                 shared.sk.last_log_term(),
    1046            0 :                 partial.term
    1047            0 :             );
    1048            0 :         }
    1049            0 : 
    1050            0 :         pstate.eviction_state = EvictionState::Offloaded(shared.sk.flush_lsn());
    1051            0 :         shared.sk.state_mut().finish_change(&pstate).await?;
    1052              :         // control file is now switched to Offloaded state
    1053              : 
    1054              :         // now we can switch shared.sk to Offloaded, shouldn't fail
    1055            0 :         let prev_sk = std::mem::replace(&mut shared.sk, StateSK::Empty);
    1056            0 :         let cfile_state = prev_sk.take_state();
    1057            0 :         shared.sk = StateSK::Offloaded(Box::new(cfile_state));
    1058            0 : 
    1059            0 :         Ok(())
    1060            0 :     }
    1061              : 
    1062              :     /// Try to switch state Offloaded->Present.
    1063            0 :     pub(crate) async fn switch_to_present(&self) -> anyhow::Result<()> {
    1064            0 :         let conf = GlobalTimelines::get_global_config();
    1065            0 :         let mut shared = self.write_shared_state().await;
    1066              : 
    1067              :         // trying to restore WAL storage
    1068            0 :         let wal_store = wal_storage::PhysicalStorage::new(
    1069            0 :             &self.ttid,
    1070            0 :             &self.timeline_dir,
    1071            0 :             shared.sk.state(),
    1072            0 :             conf.no_sync,
    1073            0 :         )?;
    1074              : 
    1075              :         // updating control file
    1076            0 :         let mut pstate = shared.sk.state_mut().start_change();
    1077              : 
    1078            0 :         if !matches!(pstate.eviction_state, EvictionState::Offloaded(_)) {
    1079            0 :             bail!(
    1080            0 :                 "cannot switch to present state, current state is {:?}",
    1081            0 :                 pstate.eviction_state
    1082            0 :             );
    1083            0 :         }
    1084            0 : 
    1085            0 :         if wal_store.flush_lsn() != shared.sk.flush_lsn() {
    1086            0 :             bail!(
    1087            0 :                 "flush_lsn mismatch in restored WAL, expected {}, got {}",
    1088            0 :                 shared.sk.flush_lsn(),
    1089            0 :                 wal_store.flush_lsn()
    1090            0 :             );
    1091            0 :         }
    1092            0 : 
    1093            0 :         pstate.eviction_state = EvictionState::Present;
    1094            0 :         shared.sk.state_mut().finish_change(&pstate).await?;
    1095              : 
    1096              :         // now we can switch shared.sk to Present, shouldn't fail
    1097            0 :         let prev_sk = std::mem::replace(&mut shared.sk, StateSK::Empty);
    1098            0 :         let cfile_state = prev_sk.take_state();
    1099            0 :         shared.sk = StateSK::Loaded(SafeKeeper::new(cfile_state, wal_store, conf.my_id)?);
    1100              : 
    1101            0 :         Ok(())
    1102            0 :     }
    1103              : 
    1104              :     /// Update current manager state, useful for debugging manager deadlocks.
    1105            0 :     pub(crate) fn set_status(&self, status: timeline_manager::Status) {
    1106            0 :         self.mgr_status.store(status, Ordering::Relaxed);
    1107            0 :     }
    1108              : }
    1109              : 
    1110              : /// Deletes directory and it's contents. Returns false if directory does not exist.
    1111            0 : async fn delete_dir(path: &Utf8PathBuf) -> Result<bool> {
    1112            0 :     match fs::remove_dir_all(path).await {
    1113            0 :         Ok(_) => Ok(true),
    1114            0 :         Err(e) if e.kind() == std::io::ErrorKind::NotFound => Ok(false),
    1115            0 :         Err(e) => Err(e.into()),
    1116              :     }
    1117            0 : }
    1118              : 
    1119              : /// Get a path to the tenant directory. If you just need to get a timeline directory,
    1120              : /// use WalResidentTimeline::get_timeline_dir instead.
    1121            0 : pub fn get_tenant_dir(conf: &SafeKeeperConf, tenant_id: &TenantId) -> Utf8PathBuf {
    1122            0 :     conf.workdir.join(tenant_id.to_string())
    1123            0 : }
    1124              : 
    1125              : /// Get a path to the timeline directory. If you need to read WAL files from disk,
    1126              : /// use WalResidentTimeline::get_timeline_dir instead. This function does not check
    1127              : /// timeline eviction status and WAL files might not be present on disk.
    1128            0 : pub fn get_timeline_dir(conf: &SafeKeeperConf, ttid: &TenantTimelineId) -> Utf8PathBuf {
    1129            0 :     get_tenant_dir(conf, &ttid.tenant_id).join(ttid.timeline_id.to_string())
    1130            0 : }
        

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