LCOV - code coverage report
Current view: top level - pageserver/src/bin - pageserver.rs (source / functions) Coverage Total Hit
Test: 7eb96e224e685167ad85f58f858387d8cf253f63.info Lines: 5.3 % 511 27
Test Date: 2024-09-23 21:23:07 Functions: 8.8 % 34 3

            Line data    Source code
       1              : #![recursion_limit = "300"]
       2              : 
       3              : //! Main entry point for the Page Server executable.
       4              : 
       5              : use std::env;
       6              : use std::env::{var, VarError};
       7              : use std::io::Read;
       8              : use std::str::FromStr;
       9              : use std::sync::Arc;
      10              : use std::time::Duration;
      11              : 
      12              : use anyhow::{anyhow, Context};
      13              : use camino::Utf8Path;
      14              : use clap::{Arg, ArgAction, Command};
      15              : 
      16              : use metrics::launch_timestamp::{set_launch_timestamp_metric, LaunchTimestamp};
      17              : use pageserver::config::PageserverIdentity;
      18              : use pageserver::control_plane_client::ControlPlaneClient;
      19              : use pageserver::disk_usage_eviction_task::{self, launch_disk_usage_global_eviction_task};
      20              : use pageserver::metrics::{STARTUP_DURATION, STARTUP_IS_LOADING};
      21              : use pageserver::task_mgr::{COMPUTE_REQUEST_RUNTIME, WALRECEIVER_RUNTIME};
      22              : use pageserver::tenant::{secondary, TenantSharedResources};
      23              : use pageserver::{CancellableTask, ConsumptionMetricsTasks, HttpEndpointListener};
      24              : use remote_storage::GenericRemoteStorage;
      25              : use tokio::signal::unix::SignalKind;
      26              : use tokio::time::Instant;
      27              : use tokio_util::sync::CancellationToken;
      28              : use tracing::*;
      29              : 
      30              : use metrics::set_build_info_metric;
      31              : use pageserver::{
      32              :     config::PageServerConf,
      33              :     deletion_queue::DeletionQueue,
      34              :     http, page_cache, page_service, task_mgr,
      35              :     task_mgr::{BACKGROUND_RUNTIME, MGMT_REQUEST_RUNTIME},
      36              :     tenant::mgr,
      37              :     virtual_file,
      38              : };
      39              : use postgres_backend::AuthType;
      40              : use utils::crashsafe::syncfs;
      41              : use utils::failpoint_support;
      42              : use utils::logging::TracingErrorLayerEnablement;
      43              : use utils::{
      44              :     auth::{JwtAuth, SwappableJwtAuth},
      45              :     logging, project_build_tag, project_git_version,
      46              :     sentry_init::init_sentry,
      47              :     tcp_listener,
      48              : };
      49              : 
      50              : project_git_version!(GIT_VERSION);
      51              : project_build_tag!(BUILD_TAG);
      52              : 
      53              : #[global_allocator]
      54              : static GLOBAL: tikv_jemallocator::Jemalloc = tikv_jemallocator::Jemalloc;
      55              : 
      56              : const PID_FILE_NAME: &str = "pageserver.pid";
      57              : 
      58              : const FEATURES: &[&str] = &[
      59              :     #[cfg(feature = "testing")]
      60              :     "testing",
      61              : ];
      62              : 
      63            6 : fn version() -> String {
      64            6 :     format!(
      65            6 :         "{GIT_VERSION} failpoints: {}, features: {:?}",
      66            6 :         fail::has_failpoints(),
      67            6 :         FEATURES,
      68            6 :     )
      69            6 : }
      70              : 
      71            0 : fn main() -> anyhow::Result<()> {
      72            0 :     let launch_ts = Box::leak(Box::new(LaunchTimestamp::generate()));
      73            0 : 
      74            0 :     let arg_matches = cli().get_matches();
      75            0 : 
      76            0 :     if arg_matches.get_flag("enabled-features") {
      77            0 :         println!("{{\"features\": {FEATURES:?} }}");
      78            0 :         return Ok(());
      79            0 :     }
      80            0 : 
      81            0 :     let workdir = arg_matches
      82            0 :         .get_one::<String>("workdir")
      83            0 :         .map(Utf8Path::new)
      84            0 :         .unwrap_or_else(|| Utf8Path::new(".neon"));
      85            0 :     let workdir = workdir
      86            0 :         .canonicalize_utf8()
      87            0 :         .with_context(|| format!("Error opening workdir '{workdir}'"))?;
      88              : 
      89            0 :     let cfg_file_path = workdir.join("pageserver.toml");
      90            0 :     let identity_file_path = workdir.join("identity.toml");
      91            0 : 
      92            0 :     // Set CWD to workdir for non-daemon modes
      93            0 :     env::set_current_dir(&workdir)
      94            0 :         .with_context(|| format!("Failed to set application's current dir to '{workdir}'"))?;
      95              : 
      96            0 :     let conf = initialize_config(&identity_file_path, &cfg_file_path, &workdir)?;
      97              : 
      98              :     // Initialize logging.
      99              :     //
     100              :     // It must be initialized before the custom panic hook is installed below.
     101              :     //
     102              :     // Regarding tracing_error enablement: at this time, we only use the
     103              :     // tracing_error crate to debug_assert that log spans contain tenant and timeline ids.
     104              :     // See `debug_assert_current_span_has_tenant_and_timeline_id` in the timeline module
     105            0 :     let tracing_error_layer_enablement = if cfg!(debug_assertions) {
     106            0 :         TracingErrorLayerEnablement::EnableWithRustLogFilter
     107              :     } else {
     108            0 :         TracingErrorLayerEnablement::Disabled
     109              :     };
     110            0 :     logging::init(
     111            0 :         conf.log_format,
     112            0 :         tracing_error_layer_enablement,
     113            0 :         logging::Output::Stdout,
     114            0 :     )?;
     115              : 
     116              :     // mind the order required here: 1. logging, 2. panic_hook, 3. sentry.
     117              :     // disarming this hook on pageserver, because we never tear down tracing.
     118            0 :     logging::replace_panic_hook_with_tracing_panic_hook().forget();
     119            0 : 
     120            0 :     // initialize sentry if SENTRY_DSN is provided
     121            0 :     let _sentry_guard = init_sentry(
     122            0 :         Some(GIT_VERSION.into()),
     123            0 :         &[("node_id", &conf.id.to_string())],
     124            0 :     );
     125            0 : 
     126            0 :     // after setting up logging, log the effective IO engine choice and read path implementations
     127            0 :     info!(?conf.virtual_file_io_engine, "starting with virtual_file IO engine");
     128            0 :     info!(?conf.virtual_file_direct_io, "starting with virtual_file Direct IO settings");
     129            0 :     info!(?conf.io_buffer_alignment, "starting with setting for IO buffer alignment");
     130              : 
     131              :     // The tenants directory contains all the pageserver local disk state.
     132              :     // Create if not exists and make sure all the contents are durable before proceeding.
     133              :     // Ensuring durability eliminates a whole bug class where we come up after an unclean shutdown.
     134              :     // After unclea shutdown, we don't know if all the filesystem content we can read via syscalls is actually durable or not.
     135              :     // Examples for that: OOM kill, systemd killing us during shutdown, self abort due to unrecoverable IO error.
     136            0 :     let tenants_path = conf.tenants_path();
     137            0 :     {
     138            0 :         let open = || {
     139            0 :             nix::dir::Dir::open(
     140            0 :                 tenants_path.as_std_path(),
     141            0 :                 nix::fcntl::OFlag::O_DIRECTORY | nix::fcntl::OFlag::O_RDONLY,
     142            0 :                 nix::sys::stat::Mode::empty(),
     143            0 :             )
     144            0 :         };
     145            0 :         let dirfd = match open() {
     146            0 :             Ok(dirfd) => dirfd,
     147            0 :             Err(e) => match e {
     148              :                 nix::errno::Errno::ENOENT => {
     149            0 :                     utils::crashsafe::create_dir_all(&tenants_path).with_context(|| {
     150            0 :                         format!("Failed to create tenants root dir at '{tenants_path}'")
     151            0 :                     })?;
     152            0 :                     open().context("open tenants dir after creating it")?
     153              :                 }
     154            0 :                 e => anyhow::bail!(e),
     155              :             },
     156              :         };
     157              : 
     158            0 :         let started = Instant::now();
     159            0 :         syncfs(dirfd)?;
     160            0 :         let elapsed = started.elapsed();
     161            0 :         info!(
     162            0 :             elapsed_ms = elapsed.as_millis(),
     163            0 :             "made tenant directory contents durable"
     164              :         );
     165              :     }
     166              : 
     167              :     // Initialize up failpoints support
     168            0 :     let scenario = failpoint_support::init();
     169            0 : 
     170            0 :     // Basic initialization of things that don't change after startup
     171            0 :     virtual_file::init(
     172            0 :         conf.max_file_descriptors,
     173            0 :         conf.virtual_file_io_engine,
     174            0 :         conf.io_buffer_alignment,
     175            0 :     );
     176            0 :     page_cache::init(conf.page_cache_size);
     177            0 : 
     178            0 :     start_pageserver(launch_ts, conf).context("Failed to start pageserver")?;
     179              : 
     180            0 :     scenario.teardown();
     181            0 :     Ok(())
     182            0 : }
     183              : 
     184            0 : fn initialize_config(
     185            0 :     identity_file_path: &Utf8Path,
     186            0 :     cfg_file_path: &Utf8Path,
     187            0 :     workdir: &Utf8Path,
     188            0 : ) -> anyhow::Result<&'static PageServerConf> {
     189              :     // The deployment orchestrator writes out an indentity file containing the node id
     190              :     // for all pageservers. This file is the source of truth for the node id. In order
     191              :     // to allow for rolling back pageserver releases, the node id is also included in
     192              :     // the pageserver config that the deployment orchestrator writes to disk for the pageserver.
     193              :     // A rolled back version of the pageserver will get the node id from the pageserver.toml
     194              :     // config file.
     195            0 :     let identity = match std::fs::File::open(identity_file_path) {
     196            0 :         Ok(mut f) => {
     197            0 :             let md = f.metadata().context("stat config file")?;
     198            0 :             if !md.is_file() {
     199            0 :                 anyhow::bail!("Pageserver found identity file but it is a dir entry: {identity_file_path}. Aborting start up ...");
     200            0 :             }
     201            0 : 
     202            0 :             let mut s = String::new();
     203            0 :             f.read_to_string(&mut s).context("read identity file")?;
     204            0 :             toml_edit::de::from_str::<PageserverIdentity>(&s)?
     205              :         }
     206            0 :         Err(e) => {
     207            0 :             anyhow::bail!("Pageserver could not read identity file: {identity_file_path}: {e}. Aborting start up ...");
     208              :         }
     209              :     };
     210              : 
     211            0 :     let config_file_contents =
     212            0 :         std::fs::read_to_string(cfg_file_path).context("read config file from filesystem")?;
     213            0 :     let config_toml = serde_path_to_error::deserialize(
     214            0 :         toml_edit::de::Deserializer::from_str(&config_file_contents)
     215            0 :             .context("build toml deserializer")?,
     216              :     )
     217            0 :     .context("deserialize config toml")?;
     218            0 :     let conf = PageServerConf::parse_and_validate(identity.id, config_toml, workdir)
     219            0 :         .context("runtime-validation of config toml")?;
     220              : 
     221            0 :     Ok(Box::leak(Box::new(conf)))
     222            0 : }
     223              : 
     224              : struct WaitForPhaseResult<F: std::future::Future + Unpin> {
     225              :     timeout_remaining: Duration,
     226              :     skipped: Option<F>,
     227              : }
     228              : 
     229              : /// During startup, we apply a timeout to our waits for readiness, to avoid
     230              : /// stalling the whole service if one Tenant experiences some problem.  Each
     231              : /// phase may consume some of the timeout: this function returns the updated
     232              : /// timeout for use in the next call.
     233            0 : async fn wait_for_phase<F>(phase: &str, mut fut: F, timeout: Duration) -> WaitForPhaseResult<F>
     234            0 : where
     235            0 :     F: std::future::Future + Unpin,
     236            0 : {
     237            0 :     let initial_t = Instant::now();
     238            0 :     let skipped = match tokio::time::timeout(timeout, &mut fut).await {
     239            0 :         Ok(_) => None,
     240              :         Err(_) => {
     241            0 :             tracing::info!(
     242            0 :                 timeout_millis = timeout.as_millis(),
     243            0 :                 %phase,
     244            0 :                 "Startup phase timed out, proceeding anyway"
     245              :             );
     246            0 :             Some(fut)
     247              :         }
     248              :     };
     249              : 
     250            0 :     WaitForPhaseResult {
     251            0 :         timeout_remaining: timeout
     252            0 :             .checked_sub(Instant::now().duration_since(initial_t))
     253            0 :             .unwrap_or(Duration::ZERO),
     254            0 :         skipped,
     255            0 :     }
     256            0 : }
     257              : 
     258            0 : fn startup_checkpoint(started_at: Instant, phase: &str, human_phase: &str) {
     259            0 :     let elapsed = started_at.elapsed();
     260            0 :     let secs = elapsed.as_secs_f64();
     261            0 :     STARTUP_DURATION.with_label_values(&[phase]).set(secs);
     262            0 : 
     263            0 :     info!(
     264            0 :         elapsed_ms = elapsed.as_millis(),
     265            0 :         "{human_phase} ({secs:.3}s since start)"
     266              :     )
     267            0 : }
     268              : 
     269            0 : fn start_pageserver(
     270            0 :     launch_ts: &'static LaunchTimestamp,
     271            0 :     conf: &'static PageServerConf,
     272            0 : ) -> anyhow::Result<()> {
     273            0 :     // Monotonic time for later calculating startup duration
     274            0 :     let started_startup_at = Instant::now();
     275            0 : 
     276            0 :     // Print version and launch timestamp to the log,
     277            0 :     // and expose them as prometheus metrics.
     278            0 :     // A changed version string indicates changed software.
     279            0 :     // A changed launch timestamp indicates a pageserver restart.
     280            0 :     info!(
     281            0 :         "version: {} launch_timestamp: {} build_tag: {}",
     282            0 :         version(),
     283            0 :         launch_ts.to_string(),
     284              :         BUILD_TAG,
     285              :     );
     286            0 :     set_build_info_metric(GIT_VERSION, BUILD_TAG);
     287            0 :     set_launch_timestamp_metric(launch_ts);
     288            0 :     #[cfg(target_os = "linux")]
     289            0 :     metrics::register_internal(Box::new(metrics::more_process_metrics::Collector::new())).unwrap();
     290            0 :     metrics::register_internal(Box::new(
     291            0 :         pageserver::metrics::tokio_epoll_uring::Collector::new(),
     292            0 :     ))
     293            0 :     .unwrap();
     294            0 :     pageserver::preinitialize_metrics();
     295            0 : 
     296            0 :     // If any failpoints were set from FAILPOINTS environment variable,
     297            0 :     // print them to the log for debugging purposes
     298            0 :     let failpoints = fail::list();
     299            0 :     if !failpoints.is_empty() {
     300            0 :         info!(
     301            0 :             "started with failpoints: {}",
     302            0 :             failpoints
     303            0 :                 .iter()
     304            0 :                 .map(|(name, actions)| format!("{name}={actions}"))
     305            0 :                 .collect::<Vec<String>>()
     306            0 :                 .join(";")
     307              :         )
     308            0 :     }
     309              : 
     310              :     // Create and lock PID file. This ensures that there cannot be more than one
     311              :     // pageserver process running at the same time.
     312            0 :     let lock_file_path = conf.workdir.join(PID_FILE_NAME);
     313            0 :     info!("Claiming pid file at {lock_file_path:?}...");
     314            0 :     let lock_file =
     315            0 :         utils::pid_file::claim_for_current_process(&lock_file_path).context("claim pid file")?;
     316            0 :     info!("Claimed pid file at {lock_file_path:?}");
     317              : 
     318              :     // Ensure that the lock file is held even if the main thread of the process panics.
     319              :     // We need to release the lock file only when the process exits.
     320            0 :     std::mem::forget(lock_file);
     321            0 : 
     322            0 :     // Bind the HTTP and libpq ports early, so that if they are in use by some other
     323            0 :     // process, we error out early.
     324            0 :     let http_addr = &conf.listen_http_addr;
     325            0 :     info!("Starting pageserver http handler on {http_addr}");
     326            0 :     let http_listener = tcp_listener::bind(http_addr)?;
     327              : 
     328            0 :     let pg_addr = &conf.listen_pg_addr;
     329            0 : 
     330            0 :     info!("Starting pageserver pg protocol handler on {pg_addr}");
     331            0 :     let pageserver_listener = tcp_listener::bind(pg_addr)?;
     332              : 
     333              :     // Launch broker client
     334              :     // The storage_broker::connect call needs to happen inside a tokio runtime thread.
     335            0 :     let broker_client = WALRECEIVER_RUNTIME
     336            0 :         .block_on(async {
     337            0 :             // Note: we do not attempt connecting here (but validate endpoints sanity).
     338            0 :             storage_broker::connect(conf.broker_endpoint.clone(), conf.broker_keepalive_interval)
     339            0 :         })
     340            0 :         .with_context(|| {
     341            0 :             format!(
     342            0 :                 "create broker client for uri={:?} keepalive_interval={:?}",
     343            0 :                 &conf.broker_endpoint, conf.broker_keepalive_interval,
     344            0 :             )
     345            0 :         })?;
     346              : 
     347              :     // Initialize authentication for incoming connections
     348              :     let http_auth;
     349              :     let pg_auth;
     350            0 :     if conf.http_auth_type == AuthType::NeonJWT || conf.pg_auth_type == AuthType::NeonJWT {
     351              :         // unwrap is ok because check is performed when creating config, so path is set and exists
     352            0 :         let key_path = conf.auth_validation_public_key_path.as_ref().unwrap();
     353            0 :         info!("Loading public key(s) for verifying JWT tokens from {key_path:?}");
     354              : 
     355            0 :         let jwt_auth = JwtAuth::from_key_path(key_path)?;
     356            0 :         let auth: Arc<SwappableJwtAuth> = Arc::new(SwappableJwtAuth::new(jwt_auth));
     357              : 
     358            0 :         http_auth = match &conf.http_auth_type {
     359            0 :             AuthType::Trust => None,
     360            0 :             AuthType::NeonJWT => Some(auth.clone()),
     361              :         };
     362            0 :         pg_auth = match &conf.pg_auth_type {
     363            0 :             AuthType::Trust => None,
     364            0 :             AuthType::NeonJWT => Some(auth),
     365              :         };
     366            0 :     } else {
     367            0 :         http_auth = None;
     368            0 :         pg_auth = None;
     369            0 :     }
     370            0 :     info!("Using auth for http API: {:#?}", conf.http_auth_type);
     371            0 :     info!("Using auth for pg connections: {:#?}", conf.pg_auth_type);
     372              : 
     373            0 :     match var("NEON_AUTH_TOKEN") {
     374            0 :         Ok(v) => {
     375            0 :             info!("Loaded JWT token for authentication with Safekeeper");
     376            0 :             pageserver::config::SAFEKEEPER_AUTH_TOKEN
     377            0 :                 .set(Arc::new(v))
     378            0 :                 .map_err(|_| anyhow!("Could not initialize SAFEKEEPER_AUTH_TOKEN"))?;
     379              :         }
     380              :         Err(VarError::NotPresent) => {
     381            0 :             info!("No JWT token for authentication with Safekeeper detected");
     382              :         }
     383            0 :         Err(e) => {
     384            0 :             return Err(e).with_context(|| {
     385            0 :                 "Failed to either load to detect non-present NEON_AUTH_TOKEN environment variable"
     386            0 :             })
     387              :         }
     388              :     };
     389              : 
     390              :     // Top-level cancellation token for the process
     391            0 :     let shutdown_pageserver = tokio_util::sync::CancellationToken::new();
     392              : 
     393              :     // Set up remote storage client
     394            0 :     let remote_storage = BACKGROUND_RUNTIME.block_on(create_remote_storage_client(conf))?;
     395              : 
     396              :     // Set up deletion queue
     397            0 :     let (deletion_queue, deletion_workers) = DeletionQueue::new(
     398            0 :         remote_storage.clone(),
     399            0 :         ControlPlaneClient::new(conf, &shutdown_pageserver),
     400            0 :         conf,
     401            0 :     );
     402            0 :     if let Some(deletion_workers) = deletion_workers {
     403            0 :         deletion_workers.spawn_with(BACKGROUND_RUNTIME.handle());
     404            0 :     }
     405              : 
     406              :     // Up to this point no significant I/O has been done: this should have been fast.  Record
     407              :     // duration prior to starting I/O intensive phase of startup.
     408            0 :     startup_checkpoint(started_startup_at, "initial", "Starting loading tenants");
     409            0 :     STARTUP_IS_LOADING.set(1);
     410            0 : 
     411            0 :     // Startup staging or optimizing:
     412            0 :     //
     413            0 :     // We want to minimize downtime for `page_service` connections, and trying not to overload
     414            0 :     // BACKGROUND_RUNTIME by doing initial compactions and initial logical sizes at the same time.
     415            0 :     //
     416            0 :     // init_done_rx will notify when all initial load operations have completed.
     417            0 :     //
     418            0 :     // background_jobs_can_start (same name used to hold off background jobs from starting at
     419            0 :     // consumer side) will be dropped once we can start the background jobs. Currently it is behind
     420            0 :     // completing all initial logical size calculations (init_logical_size_done_rx) and a timeout
     421            0 :     // (background_task_maximum_delay).
     422            0 :     let (init_remote_done_tx, init_remote_done_rx) = utils::completion::channel();
     423            0 :     let (init_done_tx, init_done_rx) = utils::completion::channel();
     424            0 : 
     425            0 :     let (background_jobs_can_start, background_jobs_barrier) = utils::completion::channel();
     426            0 : 
     427            0 :     let order = pageserver::InitializationOrder {
     428            0 :         initial_tenant_load_remote: Some(init_done_tx),
     429            0 :         initial_tenant_load: Some(init_remote_done_tx),
     430            0 :         background_jobs_can_start: background_jobs_barrier.clone(),
     431            0 :     };
     432            0 : 
     433            0 :     info!(config=?conf.l0_flush, "using l0_flush config");
     434            0 :     let l0_flush_global_state =
     435            0 :         pageserver::l0_flush::L0FlushGlobalState::new(conf.l0_flush.clone());
     436            0 : 
     437            0 :     // Scan the local 'tenants/' directory and start loading the tenants
     438            0 :     let deletion_queue_client = deletion_queue.new_client();
     439            0 :     let background_purges = mgr::BackgroundPurges::default();
     440            0 :     let tenant_manager = BACKGROUND_RUNTIME.block_on(mgr::init_tenant_mgr(
     441            0 :         conf,
     442            0 :         background_purges.clone(),
     443            0 :         TenantSharedResources {
     444            0 :             broker_client: broker_client.clone(),
     445            0 :             remote_storage: remote_storage.clone(),
     446            0 :             deletion_queue_client,
     447            0 :             l0_flush_global_state,
     448            0 :         },
     449            0 :         order,
     450            0 :         shutdown_pageserver.clone(),
     451            0 :     ))?;
     452            0 :     let tenant_manager = Arc::new(tenant_manager);
     453            0 : 
     454            0 :     BACKGROUND_RUNTIME.spawn({
     455            0 :         let shutdown_pageserver = shutdown_pageserver.clone();
     456            0 :         let drive_init = async move {
     457            0 :             // NOTE: unlike many futures in pageserver, this one is cancellation-safe
     458            0 :             let guard = scopeguard::guard_on_success((), |_| {
     459            0 :                 tracing::info!("Cancelled before initial load completed")
     460            0 :             });
     461            0 : 
     462            0 :             let timeout = conf.background_task_maximum_delay;
     463            0 : 
     464            0 :             let init_remote_done = std::pin::pin!(async {
     465            0 :                 init_remote_done_rx.wait().await;
     466            0 :                 startup_checkpoint(
     467            0 :                     started_startup_at,
     468            0 :                     "initial_tenant_load_remote",
     469            0 :                     "Remote part of initial load completed",
     470            0 :                 );
     471            0 :             });
     472              : 
     473              :             let WaitForPhaseResult {
     474            0 :                 timeout_remaining: timeout,
     475            0 :                 skipped: init_remote_skipped,
     476            0 :             } = wait_for_phase("initial_tenant_load_remote", init_remote_done, timeout).await;
     477              : 
     478            0 :             let init_load_done = std::pin::pin!(async {
     479            0 :                 init_done_rx.wait().await;
     480            0 :                 startup_checkpoint(
     481            0 :                     started_startup_at,
     482            0 :                     "initial_tenant_load",
     483            0 :                     "Initial load completed",
     484            0 :                 );
     485            0 :                 STARTUP_IS_LOADING.set(0);
     486            0 :             });
     487              : 
     488              :             let WaitForPhaseResult {
     489            0 :                 timeout_remaining: _timeout,
     490            0 :                 skipped: init_load_skipped,
     491            0 :             } = wait_for_phase("initial_tenant_load", init_load_done, timeout).await;
     492              : 
     493              :             // initial logical sizes can now start, as they were waiting on init_done_rx.
     494              : 
     495            0 :             scopeguard::ScopeGuard::into_inner(guard);
     496            0 : 
     497            0 :             // allow background jobs to start: we either completed prior stages, or they reached timeout
     498            0 :             // and were skipped.  It is important that we do not let them block background jobs indefinitely,
     499            0 :             // because things like consumption metrics for billing are blocked by this barrier.
     500            0 :             drop(background_jobs_can_start);
     501            0 :             startup_checkpoint(
     502            0 :                 started_startup_at,
     503            0 :                 "background_jobs_can_start",
     504            0 :                 "Starting background jobs",
     505            0 :             );
     506            0 : 
     507            0 :             // We are done. If we skipped any phases due to timeout, run them to completion here so that
     508            0 :             // they will eventually update their startup_checkpoint, and so that we do not declare the
     509            0 :             // 'complete' stage until all the other stages are really done.
     510            0 :             let guard = scopeguard::guard_on_success((), |_| {
     511            0 :                 tracing::info!("Cancelled before waiting for skipped phases done")
     512            0 :             });
     513            0 :             if let Some(f) = init_remote_skipped {
     514            0 :                 f.await;
     515            0 :             }
     516            0 :             if let Some(f) = init_load_skipped {
     517            0 :                 f.await;
     518            0 :             }
     519            0 :             scopeguard::ScopeGuard::into_inner(guard);
     520            0 : 
     521            0 :             startup_checkpoint(started_startup_at, "complete", "Startup complete");
     522            0 :         };
     523            0 : 
     524            0 :         async move {
     525            0 :             let mut drive_init = std::pin::pin!(drive_init);
     526            0 :             // just race these tasks
     527            0 :             tokio::select! {
     528            0 :                 _ = shutdown_pageserver.cancelled() => {},
     529            0 :                 _ = &mut drive_init => {},
     530              :             }
     531            0 :         }
     532            0 :     });
     533            0 : 
     534            0 :     let (secondary_controller, secondary_controller_tasks) = secondary::spawn_tasks(
     535            0 :         tenant_manager.clone(),
     536            0 :         remote_storage.clone(),
     537            0 :         background_jobs_barrier.clone(),
     538            0 :         shutdown_pageserver.clone(),
     539            0 :     );
     540            0 : 
     541            0 :     // shared state between the disk-usage backed eviction background task and the http endpoint
     542            0 :     // that allows triggering disk-usage based eviction manually. note that the http endpoint
     543            0 :     // is still accessible even if background task is not configured as long as remote storage has
     544            0 :     // been configured.
     545            0 :     let disk_usage_eviction_state: Arc<disk_usage_eviction_task::State> = Arc::default();
     546            0 : 
     547            0 :     let disk_usage_eviction_task = launch_disk_usage_global_eviction_task(
     548            0 :         conf,
     549            0 :         remote_storage.clone(),
     550            0 :         disk_usage_eviction_state.clone(),
     551            0 :         tenant_manager.clone(),
     552            0 :         background_jobs_barrier.clone(),
     553            0 :     );
     554              : 
     555              :     // Start up the service to handle HTTP mgmt API request. We created the
     556              :     // listener earlier already.
     557            0 :     let http_endpoint_listener = {
     558            0 :         let _rt_guard = MGMT_REQUEST_RUNTIME.enter(); // for hyper
     559            0 :         let cancel = CancellationToken::new();
     560              : 
     561            0 :         let router_state = Arc::new(
     562            0 :             http::routes::State::new(
     563            0 :                 conf,
     564            0 :                 tenant_manager.clone(),
     565            0 :                 http_auth.clone(),
     566            0 :                 remote_storage.clone(),
     567            0 :                 broker_client.clone(),
     568            0 :                 disk_usage_eviction_state,
     569            0 :                 deletion_queue.new_client(),
     570            0 :                 secondary_controller,
     571            0 :             )
     572            0 :             .context("Failed to initialize router state")?,
     573              :         );
     574            0 :         let router = http::make_router(router_state, launch_ts, http_auth.clone())?
     575            0 :             .build()
     576            0 :             .map_err(|err| anyhow!(err))?;
     577            0 :         let service = utils::http::RouterService::new(router).unwrap();
     578            0 :         let server = hyper::Server::from_tcp(http_listener)?
     579            0 :             .serve(service)
     580            0 :             .with_graceful_shutdown({
     581            0 :                 let cancel = cancel.clone();
     582            0 :                 async move { cancel.clone().cancelled().await }
     583            0 :             });
     584            0 : 
     585            0 :         let task = MGMT_REQUEST_RUNTIME.spawn(task_mgr::exit_on_panic_or_error(
     586            0 :             "http endpoint listener",
     587            0 :             server,
     588            0 :         ));
     589            0 :         HttpEndpointListener(CancellableTask { task, cancel })
     590            0 :     };
     591            0 : 
     592            0 :     let consumption_metrics_tasks = {
     593            0 :         let cancel = shutdown_pageserver.child_token();
     594            0 :         let task = crate::BACKGROUND_RUNTIME.spawn({
     595            0 :             let tenant_manager = tenant_manager.clone();
     596            0 :             let cancel = cancel.clone();
     597            0 :             async move {
     598            0 :                 // first wait until background jobs are cleared to launch.
     599            0 :                 //
     600            0 :                 // this is because we only process active tenants and timelines, and the
     601            0 :                 // Timeline::get_current_logical_size will spawn the logical size calculation,
     602            0 :                 // which will not be rate-limited.
     603            0 :                 tokio::select! {
     604            0 :                     _ = cancel.cancelled() => { return; },
     605            0 :                     _ = background_jobs_barrier.wait() => {}
     606            0 :                 };
     607            0 : 
     608            0 :                 pageserver::consumption_metrics::run(conf, tenant_manager, cancel).await;
     609            0 :             }
     610            0 :         });
     611            0 :         ConsumptionMetricsTasks(CancellableTask { task, cancel })
     612              :     };
     613              : 
     614              :     // Spawn a task to listen for libpq connections. It will spawn further tasks
     615              :     // for each connection. We created the listener earlier already.
     616            0 :     let page_service = page_service::spawn(conf, tenant_manager.clone(), pg_auth, {
     617            0 :         let _entered = COMPUTE_REQUEST_RUNTIME.enter(); // TcpListener::from_std requires it
     618            0 :         pageserver_listener
     619            0 :             .set_nonblocking(true)
     620            0 :             .context("set listener to nonblocking")?;
     621            0 :         tokio::net::TcpListener::from_std(pageserver_listener).context("create tokio listener")?
     622              :     });
     623              : 
     624            0 :     let mut shutdown_pageserver = Some(shutdown_pageserver.drop_guard());
     625            0 : 
     626            0 :     // All started up! Now just sit and wait for shutdown signal.
     627            0 : 
     628            0 :     {
     629            0 :         BACKGROUND_RUNTIME.block_on(async move {
     630            0 :             let mut sigint = tokio::signal::unix::signal(SignalKind::interrupt()).unwrap();
     631            0 :             let mut sigterm = tokio::signal::unix::signal(SignalKind::terminate()).unwrap();
     632            0 :             let mut sigquit = tokio::signal::unix::signal(SignalKind::quit()).unwrap();
     633            0 :             let signal = tokio::select! {
     634            0 :                 _ = sigquit.recv() => {
     635            0 :                     info!("Got signal SIGQUIT. Terminating in immediate shutdown mode",);
     636            0 :                     std::process::exit(111);
     637              :                 }
     638            0 :                 _ = sigint.recv() => { "SIGINT" },
     639            0 :                 _ = sigterm.recv() => { "SIGTERM" },
     640              :             };
     641              : 
     642            0 :             info!("Got signal {signal}. Terminating gracefully in fast shutdown mode",);
     643              : 
     644              :             // This cancels the `shutdown_pageserver` cancellation tree.
     645              :             // Right now that tree doesn't reach very far, and `task_mgr` is used instead.
     646              :             // The plan is to change that over time.
     647            0 :             shutdown_pageserver.take();
     648            0 :             pageserver::shutdown_pageserver(
     649            0 :                 http_endpoint_listener,
     650            0 :                 page_service,
     651            0 :                 consumption_metrics_tasks,
     652            0 :                 disk_usage_eviction_task,
     653            0 :                 &tenant_manager,
     654            0 :                 background_purges,
     655            0 :                 deletion_queue.clone(),
     656            0 :                 secondary_controller_tasks,
     657            0 :                 0,
     658            0 :             )
     659            0 :             .await;
     660            0 :             unreachable!()
     661            0 :         })
     662              :     }
     663            0 : }
     664              : 
     665            0 : async fn create_remote_storage_client(
     666            0 :     conf: &'static PageServerConf,
     667            0 : ) -> anyhow::Result<GenericRemoteStorage> {
     668            0 :     let config = if let Some(config) = &conf.remote_storage_config {
     669            0 :         config
     670              :     } else {
     671            0 :         anyhow::bail!("no remote storage configured, this is a deprecated configuration");
     672              :     };
     673              : 
     674              :     // Create the client
     675            0 :     let mut remote_storage = GenericRemoteStorage::from_config(config).await?;
     676              : 
     677              :     // If `test_remote_failures` is non-zero, wrap the client with a
     678              :     // wrapper that simulates failures.
     679            0 :     if conf.test_remote_failures > 0 {
     680            0 :         if !cfg!(feature = "testing") {
     681            0 :             anyhow::bail!("test_remote_failures option is not available because pageserver was compiled without the 'testing' feature");
     682            0 :         }
     683            0 :         info!(
     684            0 :             "Simulating remote failures for first {} attempts of each op",
     685              :             conf.test_remote_failures
     686              :         );
     687            0 :         remote_storage =
     688            0 :             GenericRemoteStorage::unreliable_wrapper(remote_storage, conf.test_remote_failures);
     689            0 :     }
     690              : 
     691            0 :     Ok(remote_storage)
     692            0 : }
     693              : 
     694            6 : fn cli() -> Command {
     695            6 :     Command::new("Neon page server")
     696            6 :         .about("Materializes WAL stream to pages and serves them to the postgres")
     697            6 :         .version(version())
     698            6 :         .arg(
     699            6 :             Arg::new("workdir")
     700            6 :                 .short('D')
     701            6 :                 .long("workdir")
     702            6 :                 .help("Working directory for the pageserver"),
     703            6 :         )
     704            6 :         .arg(
     705            6 :             Arg::new("enabled-features")
     706            6 :                 .long("enabled-features")
     707            6 :                 .action(ArgAction::SetTrue)
     708            6 :                 .help("Show enabled compile time features"),
     709            6 :         )
     710            6 : }
     711              : 
     712              : #[test]
     713            6 : fn verify_cli() {
     714            6 :     cli().debug_assert();
     715            6 : }
        

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