mirror of
https://github.com/denoland/deno.git
synced 2024-12-23 07:44:48 -05:00
0960e895da
Properly handle the `SQLITE_BUSY` error code by retrying the transaction. Also wraps database initialization logic in a transaction to protect against incomplete/concurrent initializations. Fixes https://github.com/denoland/deno/issues/20116.
888 lines
25 KiB
Rust
888 lines
25 KiB
Rust
// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
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use std::borrow::Cow;
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use std::cell::Cell;
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use std::cell::RefCell;
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use std::future::Future;
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use std::marker::PhantomData;
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use std::path::Path;
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use std::path::PathBuf;
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use std::rc::Rc;
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use std::rc::Weak;
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use std::sync::Arc;
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use std::time::Duration;
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use std::time::SystemTime;
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use async_trait::async_trait;
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use deno_core::error::type_error;
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use deno_core::error::AnyError;
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use deno_core::futures;
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use deno_core::futures::FutureExt;
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use deno_core::task::spawn;
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use deno_core::task::spawn_blocking;
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use deno_core::AsyncRefCell;
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use deno_core::OpState;
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use rand::Rng;
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use rusqlite::params;
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use rusqlite::OpenFlags;
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use rusqlite::OptionalExtension;
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use rusqlite::Transaction;
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use tokio::sync::mpsc;
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use tokio::sync::watch;
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use tokio::sync::OnceCell;
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use tokio::sync::OwnedSemaphorePermit;
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use tokio::sync::Semaphore;
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use uuid::Uuid;
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use crate::AtomicWrite;
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use crate::CommitResult;
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use crate::Database;
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use crate::DatabaseHandler;
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use crate::KvEntry;
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use crate::MutationKind;
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use crate::QueueMessageHandle;
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use crate::ReadRange;
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use crate::ReadRangeOutput;
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use crate::SnapshotReadOptions;
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use crate::Value;
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const STATEMENT_INC_AND_GET_DATA_VERSION: &str =
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"update data_version set version = version + 1 where k = 0 returning version";
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const STATEMENT_KV_RANGE_SCAN: &str =
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"select k, v, v_encoding, version from kv where k >= ? and k < ? order by k asc limit ?";
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const STATEMENT_KV_RANGE_SCAN_REVERSE: &str =
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"select k, v, v_encoding, version from kv where k >= ? and k < ? order by k desc limit ?";
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const STATEMENT_KV_POINT_GET_VALUE_ONLY: &str =
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"select v, v_encoding from kv where k = ?";
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const STATEMENT_KV_POINT_GET_VERSION_ONLY: &str =
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"select version from kv where k = ?";
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const STATEMENT_KV_POINT_SET: &str =
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"insert into kv (k, v, v_encoding, version) values (:k, :v, :v_encoding, :version) on conflict(k) do update set v = :v, v_encoding = :v_encoding, version = :version";
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const STATEMENT_KV_POINT_DELETE: &str = "delete from kv where k = ?";
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const STATEMENT_QUEUE_ADD_READY: &str = "insert into queue (ts, id, data, backoff_schedule, keys_if_undelivered) values(?, ?, ?, ?, ?)";
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const STATEMENT_QUEUE_GET_NEXT_READY: &str = "select ts, id, data, backoff_schedule, keys_if_undelivered from queue where ts <= ? order by ts limit 100";
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const STATEMENT_QUEUE_GET_EARLIEST_READY: &str =
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"select ts from queue order by ts limit 1";
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const STATEMENT_QUEUE_REMOVE_READY: &str = "delete from queue where id = ?";
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const STATEMENT_QUEUE_ADD_RUNNING: &str = "insert into queue_running (deadline, id, data, backoff_schedule, keys_if_undelivered) values(?, ?, ?, ?, ?)";
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const STATEMENT_QUEUE_REMOVE_RUNNING: &str =
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"delete from queue_running where id = ?";
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const STATEMENT_QUEUE_GET_RUNNING_BY_ID: &str = "select deadline, id, data, backoff_schedule, keys_if_undelivered from queue_running where id = ?";
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const STATEMENT_QUEUE_GET_RUNNING: &str =
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"select id from queue_running order by deadline limit 100";
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const STATEMENT_CREATE_MIGRATION_TABLE: &str = "
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create table if not exists migration_state(
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k integer not null primary key,
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version integer not null
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)
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";
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const MIGRATIONS: [&str; 2] = [
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"
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create table data_version (
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k integer primary key,
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version integer not null
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);
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insert into data_version (k, version) values (0, 0);
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create table kv (
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k blob primary key,
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v blob not null,
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v_encoding integer not null,
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version integer not null
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) without rowid;
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",
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"
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create table queue (
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ts integer not null,
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id text not null,
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data blob not null,
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backoff_schedule text not null,
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keys_if_undelivered blob not null,
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primary key (ts, id)
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);
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create table queue_running(
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deadline integer not null,
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id text not null,
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data blob not null,
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backoff_schedule text not null,
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keys_if_undelivered blob not null,
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primary key (deadline, id)
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);
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",
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];
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const DISPATCH_CONCURRENCY_LIMIT: usize = 100;
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const DEFAULT_BACKOFF_SCHEDULE: [u32; 5] = [100, 1000, 5000, 30000, 60000];
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pub struct SqliteDbHandler<P: SqliteDbHandlerPermissions + 'static> {
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pub default_storage_dir: Option<PathBuf>,
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_permissions: PhantomData<P>,
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}
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pub trait SqliteDbHandlerPermissions {
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fn check_read(&mut self, p: &Path, api_name: &str) -> Result<(), AnyError>;
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fn check_write(&mut self, p: &Path, api_name: &str) -> Result<(), AnyError>;
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}
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impl<P: SqliteDbHandlerPermissions> SqliteDbHandler<P> {
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pub fn new(default_storage_dir: Option<PathBuf>) -> Self {
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Self {
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default_storage_dir,
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_permissions: PhantomData,
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}
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}
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}
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#[async_trait(?Send)]
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impl<P: SqliteDbHandlerPermissions> DatabaseHandler for SqliteDbHandler<P> {
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type DB = SqliteDb;
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async fn open(
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&self,
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state: Rc<RefCell<OpState>>,
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path: Option<String>,
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) -> Result<Self::DB, AnyError> {
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// Validate path
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if let Some(path) = &path {
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if path != ":memory:" {
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if path.is_empty() {
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return Err(type_error("Filename cannot be empty"));
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}
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if path.starts_with(':') {
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return Err(type_error(
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"Filename cannot start with ':' unless prefixed with './'",
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));
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}
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let path = Path::new(path);
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{
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let mut state = state.borrow_mut();
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let permissions = state.borrow_mut::<P>();
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permissions.check_read(path, "Deno.openKv")?;
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permissions.check_write(path, "Deno.openKv")?;
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}
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}
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}
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let conn = sqlite_retry_loop(|| {
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let path = path.clone();
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let default_storage_dir = self.default_storage_dir.clone();
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async move {
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spawn_blocking(move || {
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let conn = match (path.as_deref(), &default_storage_dir) {
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(Some(":memory:"), _) | (None, None) => {
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rusqlite::Connection::open_in_memory()?
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}
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(Some(path), _) => {
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let flags =
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OpenFlags::default().difference(OpenFlags::SQLITE_OPEN_URI);
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rusqlite::Connection::open_with_flags(path, flags)?
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}
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(None, Some(path)) => {
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std::fs::create_dir_all(path)?;
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let path = path.join("kv.sqlite3");
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rusqlite::Connection::open(path)?
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}
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};
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conn.pragma_update(None, "journal_mode", "wal")?;
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Ok::<_, AnyError>(conn)
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})
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.await
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.unwrap()
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}
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})
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.await?;
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let conn = Rc::new(AsyncRefCell::new(Cell::new(Some(conn))));
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SqliteDb::run_tx(conn.clone(), |tx| {
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tx.execute(STATEMENT_CREATE_MIGRATION_TABLE, [])?;
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let current_version: usize = tx
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.query_row(
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"select version from migration_state where k = 0",
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[],
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|row| row.get(0),
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)
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.optional()?
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.unwrap_or(0);
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for (i, migration) in MIGRATIONS.iter().enumerate() {
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let version = i + 1;
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if version > current_version {
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tx.execute_batch(migration)?;
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tx.execute(
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"replace into migration_state (k, version) values(?, ?)",
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[&0, &version],
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)?;
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}
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}
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tx.commit()?;
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Ok(())
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})
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.await?;
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Ok(SqliteDb {
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conn,
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queue: OnceCell::new(),
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})
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}
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}
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pub struct SqliteDb {
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conn: Rc<AsyncRefCell<Cell<Option<rusqlite::Connection>>>>,
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queue: OnceCell<SqliteQueue>,
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}
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async fn sqlite_retry_loop<R, Fut: Future<Output = Result<R, AnyError>>>(
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mut f: impl FnMut() -> Fut,
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) -> Result<R, AnyError> {
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loop {
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match f().await {
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Ok(x) => return Ok(x),
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Err(e) => {
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if let Some(x) = e.downcast_ref::<rusqlite::Error>() {
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if x.sqlite_error_code() == Some(rusqlite::ErrorCode::DatabaseBusy) {
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log::debug!("kv: Database is busy, retrying");
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tokio::time::sleep(Duration::from_millis(
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rand::thread_rng().gen_range(5..20),
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))
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.await;
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continue;
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}
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}
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return Err(e);
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}
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}
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}
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}
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impl SqliteDb {
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async fn run_tx<F, R>(
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conn: Rc<AsyncRefCell<Cell<Option<rusqlite::Connection>>>>,
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f: F,
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) -> Result<R, AnyError>
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where
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F: (FnOnce(rusqlite::Transaction<'_>) -> Result<R, AnyError>)
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+ Clone
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+ Send
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+ 'static,
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R: Send + 'static,
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{
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sqlite_retry_loop(|| Self::run_tx_inner(conn.clone(), f.clone())).await
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}
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async fn run_tx_inner<F, R>(
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conn: Rc<AsyncRefCell<Cell<Option<rusqlite::Connection>>>>,
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f: F,
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) -> Result<R, AnyError>
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where
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F: (FnOnce(rusqlite::Transaction<'_>) -> Result<R, AnyError>)
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+ Send
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+ 'static,
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R: Send + 'static,
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{
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// Transactions need exclusive access to the connection. Wait until
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// we can borrow_mut the connection.
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let cell = conn.borrow_mut().await;
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// Take the db out of the cell and run the transaction via spawn_blocking.
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let mut db = cell.take().unwrap();
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let (result, db) = spawn_blocking(move || {
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let result = {
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match db.transaction() {
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Ok(tx) => f(tx),
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Err(e) => Err(e.into()),
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}
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};
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(result, db)
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})
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.await
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.unwrap();
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// Put the db back into the cell.
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cell.set(Some(db));
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result
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}
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}
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pub struct DequeuedMessage {
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conn: Weak<AsyncRefCell<Cell<Option<rusqlite::Connection>>>>,
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id: String,
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payload: Option<Vec<u8>>,
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waker_tx: mpsc::Sender<()>,
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_permit: OwnedSemaphorePermit,
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}
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#[async_trait(?Send)]
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impl QueueMessageHandle for DequeuedMessage {
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async fn finish(&self, success: bool) -> Result<(), AnyError> {
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let Some(conn) = self.conn.upgrade() else {
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return Ok(());
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};
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let id = self.id.clone();
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let requeued = SqliteDb::run_tx(conn, move |tx| {
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let requeued = {
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if success {
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let changed = tx
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.prepare_cached(STATEMENT_QUEUE_REMOVE_RUNNING)?
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.execute([&id])?;
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assert!(changed <= 1);
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false
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} else {
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SqliteQueue::requeue_message(&id, &tx)?
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}
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};
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tx.commit()?;
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Ok(requeued)
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})
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.await?;
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if requeued {
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// If the message was requeued, wake up the dequeue loop.
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self.waker_tx.send(()).await?;
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}
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Ok(())
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}
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async fn take_payload(&mut self) -> Result<Vec<u8>, AnyError> {
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self
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.payload
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.take()
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.ok_or_else(|| type_error("Payload already consumed"))
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}
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}
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type DequeueReceiver = mpsc::Receiver<(Vec<u8>, String)>;
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struct SqliteQueue {
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conn: Rc<AsyncRefCell<Cell<Option<rusqlite::Connection>>>>,
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dequeue_rx: Rc<AsyncRefCell<DequeueReceiver>>,
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concurrency_limiter: Arc<Semaphore>,
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waker_tx: mpsc::Sender<()>,
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shutdown_tx: watch::Sender<()>,
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}
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impl SqliteQueue {
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fn new(conn: Rc<AsyncRefCell<Cell<Option<rusqlite::Connection>>>>) -> Self {
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let conn_clone = conn.clone();
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let (shutdown_tx, shutdown_rx) = watch::channel::<()>(());
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let (waker_tx, waker_rx) = mpsc::channel::<()>(1);
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let (dequeue_tx, dequeue_rx) = mpsc::channel::<(Vec<u8>, String)>(64);
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spawn(async move {
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// Oneshot requeue of all inflight messages.
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Self::requeue_inflight_messages(conn.clone()).await.unwrap();
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// Continuous dequeue loop.
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Self::dequeue_loop(conn.clone(), dequeue_tx, shutdown_rx, waker_rx)
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.await
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.unwrap();
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});
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Self {
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conn: conn_clone,
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dequeue_rx: Rc::new(AsyncRefCell::new(dequeue_rx)),
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waker_tx,
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shutdown_tx,
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concurrency_limiter: Arc::new(Semaphore::new(DISPATCH_CONCURRENCY_LIMIT)),
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}
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}
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async fn dequeue(&self) -> Result<DequeuedMessage, AnyError> {
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// Wait for the next message to be available from dequeue_rx.
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let (payload, id) = {
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let mut queue_rx = self.dequeue_rx.borrow_mut().await;
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let Some(msg) = queue_rx.recv().await else {
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return Err(type_error("Database closed"));
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};
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msg
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};
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let permit = self.concurrency_limiter.clone().acquire_owned().await?;
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Ok(DequeuedMessage {
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conn: Rc::downgrade(&self.conn),
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id,
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payload: Some(payload),
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waker_tx: self.waker_tx.clone(),
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_permit: permit,
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})
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}
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async fn wake(&self) -> Result<(), AnyError> {
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self.waker_tx.send(()).await?;
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Ok(())
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}
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fn shutdown(&self) {
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self.shutdown_tx.send(()).unwrap();
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}
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async fn dequeue_loop(
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conn: Rc<AsyncRefCell<Cell<Option<rusqlite::Connection>>>>,
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dequeue_tx: mpsc::Sender<(Vec<u8>, String)>,
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mut shutdown_rx: watch::Receiver<()>,
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mut waker_rx: mpsc::Receiver<()>,
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) -> Result<(), AnyError> {
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loop {
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let messages = SqliteDb::run_tx(conn.clone(), move |tx| {
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let now = SystemTime::now()
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.duration_since(SystemTime::UNIX_EPOCH)
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.unwrap()
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.as_millis() as u64;
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let messages = tx
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.prepare_cached(STATEMENT_QUEUE_GET_NEXT_READY)?
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.query_map([now], |row| {
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let ts: u64 = row.get(0)?;
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let id: String = row.get(1)?;
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let data: Vec<u8> = row.get(2)?;
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let backoff_schedule: String = row.get(3)?;
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let keys_if_undelivered: String = row.get(4)?;
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Ok((ts, id, data, backoff_schedule, keys_if_undelivered))
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})?
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.collect::<Result<Vec<_>, rusqlite::Error>>()?;
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for (ts, id, data, backoff_schedule, keys_if_undelivered) in &messages {
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let changed = tx
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.prepare_cached(STATEMENT_QUEUE_REMOVE_READY)?
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.execute(params![id])?;
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assert_eq!(changed, 1);
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let changed =
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tx.prepare_cached(STATEMENT_QUEUE_ADD_RUNNING)?.execute(
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params![ts, id, &data, &backoff_schedule, &keys_if_undelivered],
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)?;
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assert_eq!(changed, 1);
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}
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tx.commit()?;
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Ok(
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messages
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.into_iter()
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.map(|(_, id, data, _, _)| (id, data))
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.collect::<Vec<_>>(),
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)
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})
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.await?;
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let busy = !messages.is_empty();
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for (id, data) in messages {
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if dequeue_tx.send((data, id)).await.is_err() {
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// Queue receiver was dropped. Stop the dequeue loop.
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return Ok(());
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}
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}
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if !busy {
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// There's nothing to dequeue right now; sleep until one of the
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// following happens:
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// - It's time to dequeue the next message based on its timestamp
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// - A new message is added to the queue
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// - The database is closed
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let sleep_fut = {
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match Self::get_earliest_ready_ts(conn.clone()).await? {
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Some(ts) => {
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let now = SystemTime::now()
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.duration_since(SystemTime::UNIX_EPOCH)
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.unwrap()
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.as_millis() as u64;
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if ts <= now {
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continue;
|
|
}
|
|
tokio::time::sleep(Duration::from_millis(ts - now)).boxed()
|
|
}
|
|
None => futures::future::pending().boxed(),
|
|
}
|
|
};
|
|
tokio::select! {
|
|
_ = sleep_fut => {}
|
|
_ = waker_rx.recv() => {}
|
|
_ = shutdown_rx.changed() => return Ok(())
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
async fn get_earliest_ready_ts(
|
|
conn: Rc<AsyncRefCell<Cell<Option<rusqlite::Connection>>>>,
|
|
) -> Result<Option<u64>, AnyError> {
|
|
SqliteDb::run_tx(conn.clone(), move |tx| {
|
|
let ts = tx
|
|
.prepare_cached(STATEMENT_QUEUE_GET_EARLIEST_READY)?
|
|
.query_row([], |row| {
|
|
let ts: u64 = row.get(0)?;
|
|
Ok(ts)
|
|
})
|
|
.optional()?;
|
|
Ok(ts)
|
|
})
|
|
.await
|
|
}
|
|
|
|
async fn requeue_inflight_messages(
|
|
conn: Rc<AsyncRefCell<Cell<Option<rusqlite::Connection>>>>,
|
|
) -> Result<(), AnyError> {
|
|
loop {
|
|
let done = SqliteDb::run_tx(conn.clone(), move |tx| {
|
|
let entries = tx
|
|
.prepare_cached(STATEMENT_QUEUE_GET_RUNNING)?
|
|
.query_map([], |row| {
|
|
let id: String = row.get(0)?;
|
|
Ok(id)
|
|
})?
|
|
.collect::<Result<Vec<_>, rusqlite::Error>>()?;
|
|
for id in &entries {
|
|
Self::requeue_message(id, &tx)?;
|
|
}
|
|
tx.commit()?;
|
|
Ok(entries.is_empty())
|
|
})
|
|
.await?;
|
|
if done {
|
|
return Ok(());
|
|
}
|
|
}
|
|
}
|
|
|
|
fn requeue_message(
|
|
id: &str,
|
|
tx: &rusqlite::Transaction<'_>,
|
|
) -> Result<bool, AnyError> {
|
|
let Some((_, id, data, backoff_schedule, keys_if_undelivered)) = tx
|
|
.prepare_cached(STATEMENT_QUEUE_GET_RUNNING_BY_ID)?
|
|
.query_row([id], |row| {
|
|
let deadline: u64 = row.get(0)?;
|
|
let id: String = row.get(1)?;
|
|
let data: Vec<u8> = row.get(2)?;
|
|
let backoff_schedule: String = row.get(3)?;
|
|
let keys_if_undelivered: String = row.get(4)?;
|
|
Ok((deadline, id, data, backoff_schedule, keys_if_undelivered))
|
|
})
|
|
.optional()? else {
|
|
return Ok(false);
|
|
};
|
|
|
|
let backoff_schedule = {
|
|
let backoff_schedule =
|
|
serde_json::from_str::<Option<Vec<u64>>>(&backoff_schedule)?;
|
|
backoff_schedule.unwrap_or_default()
|
|
};
|
|
|
|
let mut requeued = false;
|
|
if !backoff_schedule.is_empty() {
|
|
// Requeue based on backoff schedule
|
|
let now = SystemTime::now()
|
|
.duration_since(SystemTime::UNIX_EPOCH)
|
|
.unwrap()
|
|
.as_millis() as u64;
|
|
let new_ts = now + backoff_schedule[0];
|
|
let new_backoff_schedule = serde_json::to_string(&backoff_schedule[1..])?;
|
|
let changed = tx
|
|
.prepare_cached(STATEMENT_QUEUE_ADD_READY)?
|
|
.execute(params![
|
|
new_ts,
|
|
id,
|
|
&data,
|
|
&new_backoff_schedule,
|
|
&keys_if_undelivered
|
|
])
|
|
.unwrap();
|
|
assert_eq!(changed, 1);
|
|
requeued = true;
|
|
} else if !keys_if_undelivered.is_empty() {
|
|
// No more requeues. Insert the message into the undelivered queue.
|
|
let keys_if_undelivered =
|
|
serde_json::from_str::<Vec<Vec<u8>>>(&keys_if_undelivered)?;
|
|
|
|
let version: i64 = tx
|
|
.prepare_cached(STATEMENT_INC_AND_GET_DATA_VERSION)?
|
|
.query_row([], |row| row.get(0))?;
|
|
|
|
for key in keys_if_undelivered {
|
|
let changed = tx
|
|
.prepare_cached(STATEMENT_KV_POINT_SET)?
|
|
.execute(params![key, &data, &VALUE_ENCODING_V8, &version])?;
|
|
assert_eq!(changed, 1);
|
|
}
|
|
}
|
|
|
|
// Remove from running
|
|
let changed = tx
|
|
.prepare_cached(STATEMENT_QUEUE_REMOVE_RUNNING)?
|
|
.execute(params![id])?;
|
|
assert_eq!(changed, 1);
|
|
|
|
Ok(requeued)
|
|
}
|
|
}
|
|
|
|
#[async_trait(?Send)]
|
|
impl Database for SqliteDb {
|
|
type QMH = DequeuedMessage;
|
|
|
|
async fn snapshot_read(
|
|
&self,
|
|
requests: Vec<ReadRange>,
|
|
_options: SnapshotReadOptions,
|
|
) -> Result<Vec<ReadRangeOutput>, AnyError> {
|
|
let requests = Arc::new(requests);
|
|
Self::run_tx(self.conn.clone(), move |tx| {
|
|
let mut responses = Vec::with_capacity(requests.len());
|
|
for request in &*requests {
|
|
let mut stmt = tx.prepare_cached(if request.reverse {
|
|
STATEMENT_KV_RANGE_SCAN_REVERSE
|
|
} else {
|
|
STATEMENT_KV_RANGE_SCAN
|
|
})?;
|
|
let entries = stmt
|
|
.query_map(
|
|
(
|
|
request.start.as_slice(),
|
|
request.end.as_slice(),
|
|
request.limit.get(),
|
|
),
|
|
|row| {
|
|
let key: Vec<u8> = row.get(0)?;
|
|
let value: Vec<u8> = row.get(1)?;
|
|
let encoding: i64 = row.get(2)?;
|
|
|
|
let value = decode_value(value, encoding);
|
|
|
|
let version: i64 = row.get(3)?;
|
|
Ok(KvEntry {
|
|
key,
|
|
value,
|
|
versionstamp: version_to_versionstamp(version),
|
|
})
|
|
},
|
|
)?
|
|
.collect::<Result<Vec<_>, rusqlite::Error>>()?;
|
|
responses.push(ReadRangeOutput { entries });
|
|
}
|
|
|
|
Ok(responses)
|
|
})
|
|
.await
|
|
}
|
|
|
|
async fn atomic_write(
|
|
&self,
|
|
write: AtomicWrite,
|
|
) -> Result<Option<CommitResult>, AnyError> {
|
|
let write = Arc::new(write);
|
|
let (has_enqueues, commit_result) =
|
|
Self::run_tx(self.conn.clone(), move |tx| {
|
|
for check in &write.checks {
|
|
let real_versionstamp = tx
|
|
.prepare_cached(STATEMENT_KV_POINT_GET_VERSION_ONLY)?
|
|
.query_row([check.key.as_slice()], |row| row.get(0))
|
|
.optional()?
|
|
.map(version_to_versionstamp);
|
|
if real_versionstamp != check.versionstamp {
|
|
return Ok((false, None));
|
|
}
|
|
}
|
|
|
|
let version: i64 = tx
|
|
.prepare_cached(STATEMENT_INC_AND_GET_DATA_VERSION)?
|
|
.query_row([], |row| row.get(0))?;
|
|
|
|
for mutation in &write.mutations {
|
|
match &mutation.kind {
|
|
MutationKind::Set(value) => {
|
|
let (value, encoding) = encode_value(value);
|
|
let changed = tx
|
|
.prepare_cached(STATEMENT_KV_POINT_SET)?
|
|
.execute(params![mutation.key, &value, &encoding, &version])?;
|
|
assert_eq!(changed, 1)
|
|
}
|
|
MutationKind::Delete => {
|
|
let changed = tx
|
|
.prepare_cached(STATEMENT_KV_POINT_DELETE)?
|
|
.execute(params![mutation.key])?;
|
|
assert!(changed == 0 || changed == 1)
|
|
}
|
|
MutationKind::Sum(operand) => {
|
|
mutate_le64(
|
|
&tx,
|
|
&mutation.key,
|
|
"sum",
|
|
operand,
|
|
version,
|
|
|a, b| a.wrapping_add(b),
|
|
)?;
|
|
}
|
|
MutationKind::Min(operand) => {
|
|
mutate_le64(
|
|
&tx,
|
|
&mutation.key,
|
|
"min",
|
|
operand,
|
|
version,
|
|
|a, b| a.min(b),
|
|
)?;
|
|
}
|
|
MutationKind::Max(operand) => {
|
|
mutate_le64(
|
|
&tx,
|
|
&mutation.key,
|
|
"max",
|
|
operand,
|
|
version,
|
|
|a, b| a.max(b),
|
|
)?;
|
|
}
|
|
}
|
|
}
|
|
|
|
let now = SystemTime::now()
|
|
.duration_since(SystemTime::UNIX_EPOCH)
|
|
.unwrap()
|
|
.as_millis() as u64;
|
|
|
|
let has_enqueues = !write.enqueues.is_empty();
|
|
for enqueue in &write.enqueues {
|
|
let id = Uuid::new_v4().to_string();
|
|
let backoff_schedule = serde_json::to_string(
|
|
&enqueue
|
|
.backoff_schedule
|
|
.as_deref()
|
|
.or_else(|| Some(&DEFAULT_BACKOFF_SCHEDULE[..])),
|
|
)?;
|
|
let keys_if_undelivered =
|
|
serde_json::to_string(&enqueue.keys_if_undelivered)?;
|
|
|
|
let changed =
|
|
tx.prepare_cached(STATEMENT_QUEUE_ADD_READY)?
|
|
.execute(params![
|
|
now + enqueue.delay_ms,
|
|
id,
|
|
&enqueue.payload,
|
|
&backoff_schedule,
|
|
&keys_if_undelivered
|
|
])?;
|
|
assert_eq!(changed, 1)
|
|
}
|
|
|
|
tx.commit()?;
|
|
let new_versionstamp = version_to_versionstamp(version);
|
|
|
|
Ok((
|
|
has_enqueues,
|
|
Some(CommitResult {
|
|
versionstamp: new_versionstamp,
|
|
}),
|
|
))
|
|
})
|
|
.await?;
|
|
|
|
if has_enqueues {
|
|
if let Some(queue) = self.queue.get() {
|
|
queue.wake().await?;
|
|
}
|
|
}
|
|
Ok(commit_result)
|
|
}
|
|
|
|
async fn dequeue_next_message(&self) -> Result<Self::QMH, AnyError> {
|
|
let queue = self
|
|
.queue
|
|
.get_or_init(|| async move { SqliteQueue::new(self.conn.clone()) })
|
|
.await;
|
|
let handle = queue.dequeue().await?;
|
|
Ok(handle)
|
|
}
|
|
|
|
fn close(&self) {
|
|
if let Some(queue) = self.queue.get() {
|
|
queue.shutdown();
|
|
}
|
|
}
|
|
}
|
|
|
|
/// Mutates a LE64 value in the database, defaulting to setting it to the
|
|
/// operand if it doesn't exist.
|
|
fn mutate_le64(
|
|
tx: &Transaction,
|
|
key: &[u8],
|
|
op_name: &str,
|
|
operand: &Value,
|
|
new_version: i64,
|
|
mutate: impl FnOnce(u64, u64) -> u64,
|
|
) -> Result<(), AnyError> {
|
|
let Value::U64(operand) = *operand else {
|
|
return Err(type_error(format!("Failed to perform '{op_name}' mutation on a non-U64 operand")));
|
|
};
|
|
|
|
let old_value = tx
|
|
.prepare_cached(STATEMENT_KV_POINT_GET_VALUE_ONLY)?
|
|
.query_row([key], |row| {
|
|
let value: Vec<u8> = row.get(0)?;
|
|
let encoding: i64 = row.get(1)?;
|
|
|
|
let value = decode_value(value, encoding);
|
|
Ok(value)
|
|
})
|
|
.optional()?;
|
|
|
|
let new_value = match old_value {
|
|
Some(Value::U64(old_value) ) => mutate(old_value, operand),
|
|
Some(_) => return Err(type_error(format!("Failed to perform '{op_name}' mutation on a non-U64 value in the database"))),
|
|
None => operand,
|
|
};
|
|
|
|
let new_value = Value::U64(new_value);
|
|
let (new_value, encoding) = encode_value(&new_value);
|
|
|
|
let changed = tx.prepare_cached(STATEMENT_KV_POINT_SET)?.execute(params![
|
|
key,
|
|
&new_value[..],
|
|
encoding,
|
|
new_version
|
|
])?;
|
|
assert_eq!(changed, 1);
|
|
|
|
Ok(())
|
|
}
|
|
|
|
fn version_to_versionstamp(version: i64) -> [u8; 10] {
|
|
let mut versionstamp = [0; 10];
|
|
versionstamp[..8].copy_from_slice(&version.to_be_bytes());
|
|
versionstamp
|
|
}
|
|
|
|
const VALUE_ENCODING_V8: i64 = 1;
|
|
const VALUE_ENCODING_LE64: i64 = 2;
|
|
const VALUE_ENCODING_BYTES: i64 = 3;
|
|
|
|
fn decode_value(value: Vec<u8>, encoding: i64) -> crate::Value {
|
|
match encoding {
|
|
VALUE_ENCODING_V8 => crate::Value::V8(value),
|
|
VALUE_ENCODING_BYTES => crate::Value::Bytes(value),
|
|
VALUE_ENCODING_LE64 => {
|
|
let mut buf = [0; 8];
|
|
buf.copy_from_slice(&value);
|
|
crate::Value::U64(u64::from_le_bytes(buf))
|
|
}
|
|
_ => todo!(),
|
|
}
|
|
}
|
|
|
|
fn encode_value(value: &crate::Value) -> (Cow<'_, [u8]>, i64) {
|
|
match value {
|
|
crate::Value::V8(value) => (Cow::Borrowed(value), VALUE_ENCODING_V8),
|
|
crate::Value::Bytes(value) => (Cow::Borrowed(value), VALUE_ENCODING_BYTES),
|
|
crate::Value::U64(value) => {
|
|
let mut buf = [0; 8];
|
|
buf.copy_from_slice(&value.to_le_bytes());
|
|
(Cow::Owned(buf.to_vec()), VALUE_ENCODING_LE64)
|
|
}
|
|
}
|
|
}
|