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//! A non-blocking, off-thread writer.
//!
//! This spawns a dedicated worker thread which is responsible for writing log
//! lines to the provided writer. When a line is written using the returned
//! `NonBlocking` struct's `make_writer` method, it will be enqueued to be
//! written by the worker thread.
//!
//! The queue has a fixed capacity, and if it becomes full, any logs written
//! to it will be dropped until capacity is once again available. This may
//! occur if logs are consistently produced faster than the worker thread can
//! output them. The queue capacity and behavior when full (i.e., whether to
//! drop logs or to exert backpressure to slow down senders) can be configured
//! using [`NonBlockingBuilder::default()`][builder].
//! This function returns the default configuration. It is equivalent to:
//!
//! ```rust
//! # use tracing_appender::non_blocking::{NonBlocking, WorkerGuard};
//! # fn doc() -> (NonBlocking, WorkerGuard) {
//! tracing_appender::non_blocking(std::io::stdout())
//! # }
//! ```
//! [builder]: NonBlockingBuilder::default
//!
//! <br/> This function returns a tuple of `NonBlocking` and `WorkerGuard`.
//! `NonBlocking` implements [`MakeWriter`] which integrates with `tracing_subscriber`.
//! `WorkerGuard` is a drop guard that is responsible for flushing any remaining logs when
//! the program terminates.
//!
//! Note that the `WorkerGuard` returned by `non_blocking` _must_ be assigned to a binding that
//! is not `_`, as `_` will result in the `WorkerGuard` being dropped immediately.
//! Unintentional drops of `WorkerGuard` remove the guarantee that logs will be flushed
//! during a program's termination, in a panic or otherwise.
//!
//! See [`WorkerGuard`][worker_guard] for examples of using the guard.
//!
//! [worker_guard]: WorkerGuard
//!
//! # Examples
//!
//! ``` rust
//! # fn docs() {
//! let (non_blocking, _guard) = tracing_appender::non_blocking(std::io::stdout());
//! let subscriber = tracing_subscriber::fmt().with_writer(non_blocking);
//! tracing::subscriber::with_default(subscriber.finish(), || {
//!    tracing::event!(tracing::Level::INFO, "Hello");
//! });
//! # }
//! ```
use crate::worker::Worker;
use crate::Msg;
use crossbeam_channel::{bounded, SendTimeoutError, Sender};
use std::io;
use std::io::Write;
use std::sync::atomic::AtomicUsize;
use std::sync::atomic::Ordering;
use std::sync::Arc;
use std::thread::JoinHandle;
use std::time::Duration;
use tracing_subscriber::fmt::MakeWriter;

/// The default maximum number of buffered log lines.
///
/// If [`NonBlocking`][non-blocking] is lossy, it will drop spans/events at capacity.
/// If [`NonBlocking`][non-blocking] is _not_ lossy,
/// backpressure will be exerted on senders, causing them to block their
/// respective threads until there is available capacity.
///
/// [non-blocking]: NonBlocking
/// Recommended to be a power of 2.
pub const DEFAULT_BUFFERED_LINES_LIMIT: usize = 128_000;

/// A guard that flushes spans/events associated to a [`NonBlocking`] on a drop
///
/// Writing to a [`NonBlocking`] writer will **not** immediately write a span or event to the underlying
/// output. Instead, the span or event will be written by a dedicated logging thread at some later point.
/// To increase throughput, the non-blocking writer will flush to the underlying output on
/// a periodic basis rather than every time a span or event is written. This means that if the program
/// terminates abruptly (such as through an uncaught `panic` or a `std::process::exit`), some spans
/// or events may not be written.
///
/// Since spans/events and events recorded near a crash are often necessary for diagnosing the failure,
/// `WorkerGuard` provides a mechanism to ensure that _all_ buffered logs are flushed to their output.
/// `WorkerGuard` should be assigned in the `main` function or whatever the entrypoint of the program is.
/// This will ensure that the guard will be dropped during an unwinding or when `main` exits
/// successfully.
///
/// # Examples
///
/// ``` rust
/// # #[clippy::allow(needless_doctest_main)]
/// fn main () {
/// # fn doc() {
///     let (non_blocking, _guard) = tracing_appender::non_blocking(std::io::stdout());
///     let subscriber = tracing_subscriber::fmt().with_writer(non_blocking);
///     tracing::subscriber::with_default(subscriber.finish(), || {
///         // Emit some tracing events within context of the non_blocking `_guard` and tracing subscriber
///         tracing::event!(tracing::Level::INFO, "Hello");
///     });
///     // Exiting the context of `main` will drop the `_guard` and any remaining logs should get flushed
/// # }
/// }
/// ```
#[must_use]
#[derive(Debug)]
pub struct WorkerGuard {
    _guard: Option<JoinHandle<()>>,
    sender: Sender<Msg>,
    shutdown: Sender<()>,
}

/// A non-blocking writer.
///
/// While the line between "blocking" and "non-blocking" IO is fuzzy, writing to a file is typically
/// considered to be a _blocking_ operation. For an application whose `Subscriber` writes spans and events
/// as they are emitted, an application might find the latency profile to be unacceptable.
/// `NonBlocking` moves the writing out of an application's data path by sending spans and events
/// to a dedicated logging thread.
///
/// This struct implements [`MakeWriter`][make_writer] from the `tracing-subscriber`
/// crate. Therefore, it can be used with the [`tracing_subscriber::fmt`][fmt] module
/// or with any other subscriber/layer implementation that uses the `MakeWriter` trait.
///
/// [make_writer]: tracing_subscriber::fmt::MakeWriter
/// [fmt]: mod@tracing_subscriber::fmt
#[derive(Clone, Debug)]
pub struct NonBlocking {
    error_counter: ErrorCounter,
    channel: Sender<Msg>,
    is_lossy: bool,
}

/// Tracks the number of times a log line was dropped by the background thread.
///
/// If the non-blocking writer is not configured in [lossy mode], the error
/// count should always be 0.
///
/// [lossy mode]: NonBlockingBuilder::lossy
#[derive(Clone, Debug)]
pub struct ErrorCounter(Arc<AtomicUsize>);

impl NonBlocking {
    /// Returns a new `NonBlocking` writer wrapping the provided `writer`.
    ///
    /// The returned `NonBlocking` writer will have the [default configuration][default] values.
    /// Other configurations can be specified using the [builder] interface.
    ///
    /// [default]: NonBlockingBuilder::default
    /// [builder]: NonBlockingBuilder
    pub fn new<T: Write + Send + 'static>(writer: T) -> (NonBlocking, WorkerGuard) {
        NonBlockingBuilder::default().finish(writer)
    }

    fn create<T: Write + Send + 'static>(
        writer: T,
        buffered_lines_limit: usize,
        is_lossy: bool,
        thread_name: String,
    ) -> (NonBlocking, WorkerGuard) {
        let (sender, receiver) = bounded(buffered_lines_limit);

        let (shutdown_sender, shutdown_receiver) = bounded(0);

        let worker = Worker::new(receiver, writer, shutdown_receiver);
        let worker_guard = WorkerGuard::new(
            worker.worker_thread(thread_name),
            sender.clone(),
            shutdown_sender,
        );

        (
            Self {
                channel: sender,
                error_counter: ErrorCounter(Arc::new(AtomicUsize::new(0))),
                is_lossy,
            },
            worker_guard,
        )
    }

    /// Returns a counter for the number of times logs where dropped. This will always return zero if
    /// `NonBlocking` is not lossy.
    pub fn error_counter(&self) -> ErrorCounter {
        self.error_counter.clone()
    }
}

/// A builder for [`NonBlocking`][non-blocking].
///
/// [non-blocking]: NonBlocking
#[derive(Debug)]
pub struct NonBlockingBuilder {
    buffered_lines_limit: usize,
    is_lossy: bool,
    thread_name: String,
}

impl NonBlockingBuilder {
    /// Sets the number of lines to buffer before dropping logs or exerting backpressure on senders
    pub fn buffered_lines_limit(mut self, buffered_lines_limit: usize) -> NonBlockingBuilder {
        self.buffered_lines_limit = buffered_lines_limit;
        self
    }

    /// Sets whether `NonBlocking` should be lossy or not.
    ///
    /// If set to `true`, logs will be dropped when the buffered limit is reached. If `false`, backpressure
    /// will be exerted on senders, blocking them until the buffer has capacity again.
    ///
    /// By default, the built `NonBlocking` will be lossy.
    pub fn lossy(mut self, is_lossy: bool) -> NonBlockingBuilder {
        self.is_lossy = is_lossy;
        self
    }

    /// Override the worker thread's name.
    ///
    /// The default worker thread name is "tracing-appender".
    pub fn thread_name(mut self, name: &str) -> NonBlockingBuilder {
        self.thread_name = name.to_string();
        self
    }

    /// Completes the builder, returning the configured `NonBlocking`.
    pub fn finish<T: Write + Send + 'static>(self, writer: T) -> (NonBlocking, WorkerGuard) {
        NonBlocking::create(
            writer,
            self.buffered_lines_limit,
            self.is_lossy,
            self.thread_name,
        )
    }
}

impl Default for NonBlockingBuilder {
    fn default() -> Self {
        NonBlockingBuilder {
            buffered_lines_limit: DEFAULT_BUFFERED_LINES_LIMIT,
            is_lossy: true,
            thread_name: "tracing-appender".to_string(),
        }
    }
}

impl std::io::Write for NonBlocking {
    fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
        let buf_size = buf.len();
        if self.is_lossy {
            if self.channel.try_send(Msg::Line(buf.to_vec())).is_err() {
                self.error_counter.incr_saturating();
            }
        } else {
            return match self.channel.send(Msg::Line(buf.to_vec())) {
                Ok(_) => Ok(buf_size),
                Err(_) => Err(io::Error::from(io::ErrorKind::Other)),
            };
        }
        Ok(buf_size)
    }

    fn flush(&mut self) -> io::Result<()> {
        Ok(())
    }

    #[inline]
    fn write_all(&mut self, buf: &[u8]) -> io::Result<()> {
        self.write(buf).map(|_| ())
    }
}

impl<'a> MakeWriter<'a> for NonBlocking {
    type Writer = NonBlocking;

    fn make_writer(&'a self) -> Self::Writer {
        self.clone()
    }
}

impl WorkerGuard {
    fn new(handle: JoinHandle<()>, sender: Sender<Msg>, shutdown: Sender<()>) -> Self {
        WorkerGuard {
            _guard: Some(handle),
            sender,
            shutdown,
        }
    }
}

impl Drop for WorkerGuard {
    fn drop(&mut self) {
        match self
            .sender
            .send_timeout(Msg::Shutdown, Duration::from_millis(100))
        {
            Ok(_) => {
                // Attempt to wait for `Worker` to flush all messages before dropping. This happens
                // when the `Worker` calls `recv()` on a zero-capacity channel. Use `send_timeout`
                // so that drop is not blocked indefinitely.
                // TODO: Make timeout configurable.
                let _ = self.shutdown.send_timeout((), Duration::from_millis(1000));
            }
            Err(SendTimeoutError::Disconnected(_)) => (),
            Err(SendTimeoutError::Timeout(e)) => println!(
                "Failed to send shutdown signal to logging worker. Error: {:?}",
                e
            ),
        }
    }
}

// === impl ErrorCounter ===

impl ErrorCounter {
    /// Returns the number of log lines that have been dropped.
    ///
    /// If the non-blocking writer is not configured in [lossy mode], the error
    /// count should always be 0.
    ///
    /// [lossy mode]: NonBlockingBuilder::lossy
    pub fn dropped_lines(&self) -> usize {
        self.0.load(Ordering::Acquire)
    }

    fn incr_saturating(&self) {
        let mut curr = self.0.load(Ordering::Acquire);
        // We don't need to enter the CAS loop if the current value is already
        // `usize::MAX`.
        if curr == usize::MAX {
            return;
        }

        // This is implemented as a CAS loop rather than as a simple
        // `fetch_add`, because we don't want to wrap on overflow. Instead, we
        // need to ensure that saturating addition is performed.
        loop {
            let val = curr.saturating_add(1);
            match self
                .0
                .compare_exchange(curr, val, Ordering::AcqRel, Ordering::Acquire)
            {
                Ok(_) => return,
                Err(actual) => curr = actual,
            }
        }
    }
}

#[cfg(test)]
mod test {
    use super::*;
    use std::sync::mpsc;
    use std::thread;
    use std::time::Duration;

    struct MockWriter {
        tx: mpsc::SyncSender<String>,
    }

    impl MockWriter {
        fn new(capacity: usize) -> (Self, mpsc::Receiver<String>) {
            let (tx, rx) = mpsc::sync_channel(capacity);
            (Self { tx }, rx)
        }
    }

    impl std::io::Write for MockWriter {
        fn write(&mut self, buf: &[u8]) -> std::io::Result<usize> {
            let buf_len = buf.len();
            let _ = self.tx.send(String::from_utf8_lossy(buf).to_string());
            Ok(buf_len)
        }

        fn flush(&mut self) -> std::io::Result<()> {
            Ok(())
        }
    }

    #[test]
    fn backpressure_exerted() {
        let (mock_writer, rx) = MockWriter::new(1);

        let (mut non_blocking, _guard) = self::NonBlockingBuilder::default()
            .lossy(false)
            .buffered_lines_limit(1)
            .finish(mock_writer);

        let error_count = non_blocking.error_counter();

        non_blocking.write_all(b"Hello").expect("Failed to write");
        assert_eq!(0, error_count.dropped_lines());

        let handle = thread::spawn(move || {
            non_blocking.write_all(b", World").expect("Failed to write");
        });

        // Sleep a little to ensure previously spawned thread gets blocked on write.
        thread::sleep(Duration::from_millis(100));
        // We should not drop logs when blocked.
        assert_eq!(0, error_count.dropped_lines());

        // Read the first message to unblock sender.
        let mut line = rx.recv().unwrap();
        assert_eq!(line, "Hello");

        // Wait for thread to finish.
        handle.join().expect("thread should not panic");

        // Thread has joined, we should be able to read the message it sent.
        line = rx.recv().unwrap();
        assert_eq!(line, ", World");
    }

    fn write_non_blocking(non_blocking: &mut NonBlocking, msg: &[u8]) {
        non_blocking.write_all(msg).expect("Failed to write");

        // Sleep a bit to prevent races.
        thread::sleep(Duration::from_millis(200));
    }

    #[test]
    #[ignore] // flaky, see https://github.com/tokio-rs/tracing/issues/751
    fn logs_dropped_if_lossy() {
        let (mock_writer, rx) = MockWriter::new(1);

        let (mut non_blocking, _guard) = self::NonBlockingBuilder::default()
            .lossy(true)
            .buffered_lines_limit(1)
            .finish(mock_writer);

        let error_count = non_blocking.error_counter();

        // First write will not block
        write_non_blocking(&mut non_blocking, b"Hello");
        assert_eq!(0, error_count.dropped_lines());

        // Second write will not block as Worker will have called `recv` on channel.
        // "Hello" is not yet consumed. MockWriter call to write_all will block until
        // "Hello" is consumed.
        write_non_blocking(&mut non_blocking, b", World");
        assert_eq!(0, error_count.dropped_lines());

        // Will sit in NonBlocking channel's buffer.
        write_non_blocking(&mut non_blocking, b"Test");
        assert_eq!(0, error_count.dropped_lines());

        // Allow a line to be written. "Hello" message will be consumed.
        // ", World" will be able to write to MockWriter.
        // "Test" will block on call to MockWriter's `write_all`
        let line = rx.recv().unwrap();
        assert_eq!(line, "Hello");

        // This will block as NonBlocking channel is full.
        write_non_blocking(&mut non_blocking, b"Universe");
        assert_eq!(1, error_count.dropped_lines());

        // Finally the second message sent will be consumed.
        let line = rx.recv().unwrap();
        assert_eq!(line, ", World");
        assert_eq!(1, error_count.dropped_lines());
    }

    #[test]
    fn multi_threaded_writes() {
        let (mock_writer, rx) = MockWriter::new(DEFAULT_BUFFERED_LINES_LIMIT);

        let (non_blocking, _guard) = self::NonBlockingBuilder::default()
            .lossy(true)
            .finish(mock_writer);

        let error_count = non_blocking.error_counter();
        let mut join_handles: Vec<JoinHandle<()>> = Vec::with_capacity(10);

        for _ in 0..10 {
            let cloned_non_blocking = non_blocking.clone();
            join_handles.push(thread::spawn(move || {
                let subscriber = tracing_subscriber::fmt().with_writer(cloned_non_blocking);
                tracing::subscriber::with_default(subscriber.finish(), || {
                    tracing::event!(tracing::Level::INFO, "Hello");
                });
            }));
        }

        for handle in join_handles {
            handle.join().expect("Failed to join thread");
        }

        let mut hello_count: u8 = 0;

        while let Ok(event_str) = rx.recv_timeout(Duration::from_secs(5)) {
            assert!(event_str.contains("Hello"));
            hello_count += 1;
        }

        assert_eq!(10, hello_count);
        assert_eq!(0, error_count.dropped_lines());
    }
}