lazy.rs - mozsearch

/* This Source Code Form is subject to the terms of the Mozilla Public

 * License, v. 2.0. If a copy of the MPL was not distributed with this

 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

use crate::open_database::{open_database_with_flags, ConnectionInitializer, Error};

use interrupt_support::{register_interrupt, SqlInterruptHandle, SqlInterruptScope};

use parking_lot::{MappedMutexGuard, Mutex, MutexGuard};

use rusqlite::{Connection, OpenFlags};

use std::{

    path::{Path, PathBuf},

    sync::{Arc, Weak},

};

/// Lazily-loaded database with interruption support

///

/// In addition to the [Self::interrupt] method, LazyDb also calls

/// [interrupt_support::register_interrupt] on any opened database.  This means that if

/// [interrupt_support::shutdown] is called it will interrupt this database if it's open and

/// in-use.

pub struct LazyDb<CI> {

    path: PathBuf,

    open_flags: OpenFlags,

    connection_initializer: CI,

    // Note: if you're going to lock both mutexes at once, make sure to lock the connection mutex

    // first.  Otherwise, you risk creating a deadlock where two threads each hold one of the locks

    // and is waiting for the other.

    connection: Mutex<Option<Connection>>,

    // It's important to use a separate mutex for the interrupt handle, since the whole point is to

    // interrupt while another thread holds the connection mutex.  Since the only mutation is

    // setting/unsetting the Arc, maybe this could be sped up by using something like

    // `arc_swap::ArcSwap`, but that seems like overkill for our purposes. This mutex should rarely

    // be contested and interrupt operations execute quickly.

    interrupt_handle: Mutex<Option<Arc<SqlInterruptHandle>>>,

impl<CI: ConnectionInitializer> LazyDb<CI> {

    /// Create a new LazyDb

///

    /// This does not open the connection and is non-blocking

    pub fn new(path: &Path, open_flags: OpenFlags, connection_initializer: CI) -> Self {

        Self {

            path: path.to_owned(),

            open_flags,

            connection_initializer,

            connection: Mutex::new(None),

            interrupt_handle: Mutex::new(None),

    /// Lock the database mutex and get a connection and interrupt scope.

///

    /// If the connection is closed, it will be opened.

///

    /// Calling `lock` again, or calling `close`, from the same thread while the mutex guard is

    /// still alive will cause a deadlock.

    pub fn lock(&self) -> Result<(MappedMutexGuard<'_, Connection>, SqlInterruptScope), Error> {

        // Call get_conn first, then get_scope to ensure we acquire the locks in the correct order

        let conn = self.get_conn()?;

        let scope = self.get_scope(&conn)?;

        Ok((conn, scope))

    fn get_conn(&self) -> Result<MappedMutexGuard<'_, Connection>, Error> {

        let mut guard = self.connection.lock();

        // Open the database if it wasn't opened before.  Do this outside of the MutexGuard::map call to simplify the error handling

        if guard.is_none() {

            *guard = Some(open_database_with_flags(

                &self.path,

                self.open_flags,

                &self.connection_initializer,

            )?);

};

        // Use MutexGuard::map to get a Connection rather than Option<Connection>.  The unwrap()

        // call can't fail because of the previous code.

        Ok(MutexGuard::map(guard, |conn_option| {

            conn_option.as_mut().unwrap()

}))

    fn get_scope(&self, conn: &Connection) -> Result<SqlInterruptScope, Error> {

        let mut handle_guard = self.interrupt_handle.lock();

        let result = match handle_guard.as_ref() {

            Some(handle) => handle.begin_interrupt_scope(),

            None => {

                let handle = Arc::new(SqlInterruptHandle::new(conn));

                register_interrupt(

                    Arc::downgrade(&handle) as Weak<dyn AsRef<SqlInterruptHandle> + Send + Sync>

);

                handle_guard.insert(handle).begin_interrupt_scope()

};

        // If we see an Interrupted error when beginning the scope, it means that we're in shutdown

        // mode.

        result.map_err(|_| Error::Shutdown)

    /// Close the database if it's open

///

    /// Pass interrupt=true to interrupt any in-progress queries before closing the database.

///

    /// Do not call `close` if you already have a lock on the database in the current thread, as

    /// this will cause a deadlock.

    pub fn close(&self, interrupt: bool) {

        let mut interrupt_handle = self.interrupt_handle.lock();

        if let Some(handle) = interrupt_handle.as_ref() {

            if interrupt {

                handle.interrupt();

            *interrupt_handle = None;

        // Drop the interrupt handle lock to avoid holding both locks at once.

        drop(interrupt_handle);

        *self.connection.lock() = None;

    /// Interrupt any in-progress queries

    pub fn interrupt(&self) {

        if let Some(handle) = self.interrupt_handle.lock().as_ref() {

            handle.interrupt();

#[cfg(test)]

mod tests {

    use super::*;

    use crate::open_database::test_utils::TestConnectionInitializer;

    fn open_test_db() -> LazyDb<TestConnectionInitializer> {

        LazyDb::new(

            Path::new(":memory:"),

            OpenFlags::default(),

            TestConnectionInitializer::new(),

    #[test]

    fn test_interrupt() {

        let lazy_db = open_test_db();

        let (_, scope) = lazy_db.lock().unwrap();

        assert!(!scope.was_interrupted());

        lazy_db.interrupt();

        assert!(scope.was_interrupted());

    #[test]

    fn interrupt_before_db_is_opened_should_not_fail() {

        let lazy_db = open_test_db();

        lazy_db.interrupt();