tracing_subscriber/fmt/writer.rs
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//! Abstractions for creating [`io::Write`] instances.
//!
//! [`io::Write`]: std::io::Write
use std::{
fmt,
io::{self, Write},
sync::{Mutex, MutexGuard},
};
use tracing_core::Metadata;
/// A type that can create [`io::Write`] instances.
///
/// `MakeWriter` is used by [`fmt::Collector`] or [`fmt::Subscriber`] to print
/// formatted text representations of [`Event`]s.
///
/// This trait is already implemented for function pointers and
/// immutably-borrowing closures that return an instance of [`io::Write`], such
/// as [`io::stdout`] and [`io::stderr`]. Additionally, it is implemented for
/// [`std::sync::Mutex`] when the type inside the mutex implements
/// [`io::Write`].
///
/// The [`MakeWriter::make_writer_for`] method takes [`Metadata`] describing a
/// span or event and returns a writer. `MakeWriter`s can optionally provide
/// implementations of this method with behaviors that differ based on the span
/// or event being written. For example, events at different [levels] might be
/// written to different output streams, or data from different [targets] might
/// be written to separate log files. When the `MakeWriter` has no custom
/// behavior based on metadata, the default implementation of `make_writer_for`
/// simply calls `self.make_writer()`, ignoring the metadata. Therefore, when
/// metadata _is_ available, callers should prefer to call `make_writer_for`,
/// passing in that metadata, so that the `MakeWriter` implementation can choose
/// the appropriate behavior.
///
/// # Examples
///
/// The simplest usage is to pass in a named function that returns a writer. For
/// example, to log all events to stderr, we could write:
/// ```
/// let subscriber = tracing_subscriber::fmt()
/// .with_writer(std::io::stderr)
/// .finish();
/// # drop(subscriber);
/// ```
///
/// Any function that returns a writer can be used:
///
/// ```
/// fn make_my_great_writer() -> impl std::io::Write {
/// // ...
/// # std::io::stdout()
/// }
///
/// let subscriber = tracing_subscriber::fmt()
/// .with_writer(make_my_great_writer)
/// .finish();
/// # drop(subscriber);
/// ```
///
/// A closure can be used to introduce arbitrary logic into how the writer is
/// created. Consider the (admittedly rather silly) example of sending every 5th
/// event to stderr, and all other events to stdout:
///
/// ```
/// use std::io;
/// use std::sync::atomic::{AtomicUsize, Ordering::Relaxed};
///
/// let n = AtomicUsize::new(0);
/// let subscriber = tracing_subscriber::fmt()
/// .with_writer(move || -> Box<dyn io::Write> {
/// if n.fetch_add(1, Relaxed) % 5 == 0 {
/// Box::new(io::stderr())
/// } else {
/// Box::new(io::stdout())
/// }
/// })
/// .finish();
/// # drop(subscriber);
/// ```
///
/// A single instance of a type implementing [`io::Write`] may be used as a
/// `MakeWriter` by wrapping it in a [`Mutex`]. For example, we could
/// write to a file like so:
///
/// ```
/// use std::{fs::File, sync::Mutex};
///
/// # fn docs() -> Result<(), Box<dyn std::error::Error>> {
/// let log_file = File::create("my_cool_trace.log")?;
/// let subscriber = tracing_subscriber::fmt()
/// .with_writer(Mutex::new(log_file))
/// .finish();
/// # drop(subscriber);
/// # Ok(())
/// # }
/// ```
///
/// [`io::Write`]: std::io::Write
/// [`fmt::Collector`]: super::super::fmt::Collector
/// [`fmt::Subscriber`]: super::super::fmt::Subscriber
/// [`Event`]: tracing_core::event::Event
/// [`io::stdout`]: std::io::stdout()
/// [`io::stderr`]: std::io::stderr()
/// [`MakeWriter::make_writer_for`]: MakeWriter::make_writer_for
/// [`Metadata`]: tracing_core::Metadata
/// [levels]: tracing_core::Level
/// [targets]: tracing_core::Metadata::target
pub trait MakeWriter<'a> {
/// The concrete [`io::Write`] implementation returned by [`make_writer`].
///
/// [`io::Write`]: std::io::Write
/// [`make_writer`]: MakeWriter::make_writer
type Writer: io::Write;
/// Returns an instance of [`Writer`].
///
/// # Implementer notes
///
/// [`fmt::Subscriber`] or [`fmt::Collector`] will call this method each
/// time an event is recorded. Ensure any state that must be saved across
/// writes is not lost when the [`Writer`] instance is dropped. If creating
/// a [`io::Write`] instance is expensive, be sure to cache it when
/// implementing [`MakeWriter`] to improve performance.
///
/// [`Writer`]: MakeWriter::Writer
/// [`fmt::Subscriber`]: super::super::fmt::Subscriber
/// [`fmt::Collector`]: super::super::fmt::Collector
/// [`io::Write`]: std::io::Write
fn make_writer(&'a self) -> Self::Writer;
/// Returns a [`Writer`] for writing data from the span or event described
/// by the provided [`Metadata`].
///
/// By default, this calls [`self.make_writer()`][make_writer], ignoring
/// the provided metadata, but implementations can override this to provide
/// metadata-specific behaviors.
///
/// This method allows `MakeWriter` implementations to implement different
/// behaviors based on the span or event being written. The `MakeWriter`
/// type might return different writers based on the provided metadata, or
/// might write some values to the writer before or after providing it to
/// the caller.
///
/// For example, we might want to write data from spans and events at the
/// [`ERROR`] and [`WARN`] levels to `stderr`, and data from spans or events
/// at lower levels to stdout:
///
/// ```
/// use std::io::{self, Stdout, Stderr, StdoutLock, StderrLock};
/// use tracing_subscriber::fmt::writer::MakeWriter;
/// use tracing_core::{Metadata, Level};
///
/// pub struct MyMakeWriter {
/// stdout: Stdout,
/// stderr: Stderr,
/// }
///
/// /// A lock on either stdout or stderr, depending on the verbosity level
/// /// of the event being written.
/// pub enum StdioLock<'a> {
/// Stdout(StdoutLock<'a>),
/// Stderr(StderrLock<'a>),
/// }
///
/// impl<'a> io::Write for StdioLock<'a> {
/// fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
/// match self {
/// StdioLock::Stdout(lock) => lock.write(buf),
/// StdioLock::Stderr(lock) => lock.write(buf),
/// }
/// }
///
/// fn write_all(&mut self, buf: &[u8]) -> io::Result<()> {
/// // ...
/// # match self {
/// # StdioLock::Stdout(lock) => lock.write_all(buf),
/// # StdioLock::Stderr(lock) => lock.write_all(buf),
/// # }
/// }
///
/// fn flush(&mut self) -> io::Result<()> {
/// // ...
/// # match self {
/// # StdioLock::Stdout(lock) => lock.flush(),
/// # StdioLock::Stderr(lock) => lock.flush(),
/// # }
/// }
/// }
///
/// impl<'a> MakeWriter<'a> for MyMakeWriter {
/// type Writer = StdioLock<'a>;
///
/// fn make_writer(&'a self) -> Self::Writer {
/// // We must have an implementation of `make_writer` that makes
/// // a "default" writer without any configuring metadata. Let's
/// // just return stdout in that case.
/// StdioLock::Stdout(self.stdout.lock())
/// }
///
/// fn make_writer_for(&'a self, meta: &Metadata<'_>) -> Self::Writer {
/// // Here's where we can implement our special behavior. We'll
/// // check if the metadata's verbosity level is WARN or ERROR,
/// // and return stderr in that case.
/// if meta.level() <= &Level::WARN {
/// return StdioLock::Stderr(self.stderr.lock());
/// }
///
/// // Otherwise, we'll return stdout.
/// StdioLock::Stdout(self.stdout.lock())
/// }
/// }
/// ```
///
/// [`Writer`]: MakeWriter::Writer
/// [`Metadata`]: tracing_core::Metadata
/// [make_writer]: MakeWriter::make_writer
/// [`WARN`]: tracing_core::Level::WARN
/// [`ERROR`]: tracing_core::Level::ERROR
fn make_writer_for(&'a self, meta: &Metadata<'_>) -> Self::Writer {
let _ = meta;
self.make_writer()
}
}
/// Extension trait adding combinators for working with types implementing
/// [`MakeWriter`].
///
/// This is not intended to be implemented directly for user-defined
/// [`MakeWriter`]s; instead, it should be imported when the desired methods are
/// used.
pub trait MakeWriterExt<'a>: MakeWriter<'a> {
/// Wraps `self` and returns a [`MakeWriter`] that will only write output
/// for events at or below the provided verbosity [`Level`]. For instance,
/// `Level::TRACE` is considered to be _more verbose` than `Level::INFO`.
///
/// Events whose level is more verbose than `level` will be ignored, and no
/// output will be written.
///
/// # Examples
///
/// ```
/// use tracing::Level;
/// use tracing_subscriber::fmt::writer::MakeWriterExt;
///
/// // Construct a writer that outputs events to `stderr` only if the span or
/// // event's level is >= WARN (WARN and ERROR).
/// let mk_writer = std::io::stderr.with_max_level(Level::WARN);
///
/// tracing_subscriber::fmt().with_writer(mk_writer).init();
/// ```
///
/// Writing the `ERROR` and `WARN` levels to `stderr`, and everything else
/// to `stdout`:
///
/// ```
/// # use tracing::Level;
/// # use tracing_subscriber::fmt::writer::MakeWriterExt;
///
/// let mk_writer = std::io::stderr
/// .with_max_level(Level::WARN)
/// .or_else(std::io::stdout);
///
/// tracing_subscriber::fmt().with_writer(mk_writer).init();
/// ```
///
/// Writing the `ERROR` level to `stderr`, the `INFO` and `WARN` levels to
/// `stdout`, and the `INFO` and DEBUG` levels to a file:
///
/// ```
/// # use tracing::Level;
/// # use tracing_subscriber::fmt::writer::MakeWriterExt;
/// use std::fs::File;
/// # // don't actually create the file when running the tests.
/// # fn docs() -> std::io::Result<()> {
/// let debug_log = File::create("debug.log")?;
///
/// let mk_writer = std::io::stderr
/// .with_max_level(Level::ERROR)
/// .or_else(std::io::stdout
/// .with_max_level(Level::INFO)
/// .and(debug_log.with_max_level(Level::DEBUG))
/// );
///
/// tracing_subscriber::fmt().with_writer(mk_writer).init();
/// # Ok(()) }
/// ```
///
/// [`Level`]: tracing_core::Level
/// [`io::Write`]: std::io::Write
fn with_max_level(self, level: tracing_core::Level) -> WithMaxLevel<Self>
where
Self: Sized,
{
WithMaxLevel::new(self, level)
}
/// Wraps `self` and returns a [`MakeWriter`] that will only write output
/// for events at or above the provided verbosity [`Level`].
///
/// Events whose level is less verbose than `level` will be ignored, and no
/// output will be written.
///
/// # Examples
///
/// ```
/// use tracing::Level;
/// use tracing_subscriber::fmt::writer::MakeWriterExt;
///
/// // Construct a writer that outputs events to `stdout` only if the span or
/// // event's level is <= DEBUG (DEBUG and TRACE).
/// let mk_writer = std::io::stdout.with_min_level(Level::DEBUG);
///
/// tracing_subscriber::fmt().with_writer(mk_writer).init();
/// ```
/// This can be combined with [`MakeWriterExt::with_max_level`] to write
/// only within a range of levels:
///
/// ```
/// # use tracing::Level;
/// # use tracing_subscriber::fmt::writer::MakeWriterExt;
/// // Only write the `DEBUG` and `INFO` levels to stdout.
/// let mk_writer = std::io::stdout
/// .with_max_level(Level::DEBUG)
/// .with_min_level(Level::INFO)
/// // Write the `WARN` and `ERROR` levels to stderr.
/// .and(std::io::stderr.with_min_level(Level::WARN));
///
/// tracing_subscriber::fmt().with_writer(mk_writer).init();
/// ```
/// [`Level`]: tracing_core::Level
/// [`io::Write`]: std::io::Write
fn with_min_level(self, level: tracing_core::Level) -> WithMinLevel<Self>
where
Self: Sized,
{
WithMinLevel::new(self, level)
}
/// Wraps `self` with a predicate that takes a span or event's [`Metadata`]
/// and returns a `bool`. The returned [`MakeWriter`]'s
/// [`MakeWriter::make_writer_for`] method will check the predicate to
/// determine if a writer should be produced for a given span or event.
///
/// If the predicate returns `false`, the wrapped [`MakeWriter`]'s
/// [`make_writer_for`][mwf] will return [`OptionalWriter::none`].
/// Otherwise, it calls the wrapped [`MakeWriter`]'s
/// [`make_writer_for`][mwf] method, and returns the produced writer.
///
/// This can be used to filter an output based on arbitrary [`Metadata`]
/// parameters.
///
/// # Examples
///
/// Writing events with a specific target to an HTTP access log, and other
/// events to stdout:
///
/// ```
/// use tracing_subscriber::fmt::writer::MakeWriterExt;
/// use std::fs::File;
/// # // don't actually create the file when running the tests.
/// # fn docs() -> std::io::Result<()> {
/// let access_log = File::create("access.log")?;
///
/// let mk_writer = access_log
/// // Only write events with the target "http::access_log" to the
/// // access log file.
/// .with_filter(|meta| meta.target() == "http::access_log")
/// // Write events with all other targets to stdout.
/// .or_else(std::io::stdout);
///
/// tracing_subscriber::fmt().with_writer(mk_writer).init();
/// # Ok(())
/// # }
/// ```
///
/// Conditionally enabling or disabling a log file:
/// ```
/// use tracing_subscriber::fmt::writer::MakeWriterExt;
/// use std::{sync::atomic::{AtomicBool, Ordering}, fs::File};
///
/// static DEBUG_LOG_ENABLED: AtomicBool = AtomicBool::new(false);
///
/// # // don't actually create the file when running the tests.
/// # fn docs() -> std::io::Result<()> {
/// // Create the debug log file
/// let debug_file = File::create("debug.log")?
/// // Enable the debug log only if the flag is enabled.
/// .with_filter(|_| DEBUG_LOG_ENABLED.load(Ordering::Acquire));
///
/// // Always write to stdout
/// let mk_writer = std::io::stdout
/// // Write to the debug file if it's enabled
/// .and(debug_file);
///
/// tracing_subscriber::fmt().with_writer(mk_writer).init();
///
/// // ...
///
/// // Later, we can toggle on or off the debug log file.
/// DEBUG_LOG_ENABLED.store(true, Ordering::Release);
/// # Ok(())
/// # }
/// ```
///
/// [`Metadata`]: tracing_core::Metadata
/// [mwf]: MakeWriter::make_writer_for
fn with_filter<F>(self, filter: F) -> WithFilter<Self, F>
where
Self: Sized,
F: Fn(&Metadata<'_>) -> bool,
{
WithFilter::new(self, filter)
}
/// Combines `self` with another type implementing [`MakeWriter`], returning
/// a new [`MakeWriter`] that produces [writers] that write to *both*
/// outputs.
///
/// If writing to either writer returns an error, the returned writer will
/// return that error. However, both writers will still be written to before
/// the error is returned, so it is possible for one writer to fail while
/// the other is written to successfully.
///
/// # Examples
///
/// ```
/// use tracing_subscriber::fmt::writer::MakeWriterExt;
///
/// // Construct a writer that outputs events to `stdout` *and* `stderr`.
/// let mk_writer = std::io::stdout.and(std::io::stderr);
///
/// tracing_subscriber::fmt().with_writer(mk_writer).init();
/// ```
///
/// `and` can be used in conjunction with filtering combinators. For
/// example, if we want to write to a number of outputs depending on
///
/// [writers]: std::io::Write
fn and<B>(self, other: B) -> Tee<Self, B>
where
Self: Sized,
B: MakeWriter<'a> + Sized,
{
Tee::new(self, other)
}
/// Combines `self` with another type implementing [`MakeWriter`], returning
/// a new [`MakeWriter`] that calls `other`'s [`make_writer`] if `self`'s
/// `make_writer` returns [`OptionalWriter::none`].
///
/// # Examples
///
/// ```
/// use tracing::Level;
/// use tracing_subscriber::fmt::writer::MakeWriterExt;
///
/// // Produces a writer that writes to `stderr` if the level is >= WARN,
/// // or returns `OptionalWriter::none()` otherwise.
/// let stderr = std::io::stderr.with_max_level(Level::WARN);
///
/// // If the `stderr` `MakeWriter` is disabled by the max level filter,
/// // write to stdout instead:
/// let mk_writer = stderr.or_else(std::io::stdout);
///
/// tracing_subscriber::fmt().with_writer(mk_writer).init();
/// ```
///
/// [`make_writer`]: MakeWriter::make_writer
fn or_else<W, B>(self, other: B) -> OrElse<Self, B>
where
Self: MakeWriter<'a, Writer = OptionalWriter<W>> + Sized,
B: MakeWriter<'a> + Sized,
W: Write,
{
OrElse::new(self, other)
}
}
/// A type implementing [`io::Write`] for a [`MutexGuard`] where the type
/// inside the [`Mutex`] implements [`io::Write`].
///
/// This is used by the [`MakeWriter`] implementation for [`Mutex`], because
/// [`MutexGuard`] itself will not implement [`io::Write`] — instead, it
/// _dereferences_ to a type implementing [`io::Write`]. Because [`MakeWriter`]
/// requires the `Writer` type to implement [`io::Write`], it's necessary to add
/// a newtype that forwards the trait implementation.
///
/// [`MutexGuard`]: https://doc.rust-lang.org/std/sync/struct.MutexGuard.html
/// [`Mutex`]: https://doc.rust-lang.org/std/sync/struct.Mutex.html
/// [`MakeWriter`]: trait.MakeWriter.html
#[derive(Debug)]
pub struct MutexGuardWriter<'a, W>(MutexGuard<'a, W>);
/// A writer intended to support [`libtest`'s output capturing][capturing] for use in unit tests.
///
/// `TestWriter` is used by [`fmt::Collector`] or [`fmt::Subscriber`] to enable capturing support.
///
/// `cargo test` can only capture output from the standard library's [`print!`] macro. See
/// [`libtest`'s output capturing][capturing] for more details about output capturing.
///
/// Writing to [`io::stdout`] and [`io::stderr`] produces the same results as using
/// [`libtest`'s `--nocapture` option][nocapture] which may make the results look unreadable.
///
/// [`fmt::Collector`]: super::Collector
/// [`fmt::Subscriber`]: super::Subscriber
/// [capturing]: https://doc.rust-lang.org/book/ch11-02-running-tests.html#showing-function-output
/// [nocapture]: https://doc.rust-lang.org/cargo/commands/cargo-test.html
/// [`io::stdout`]: std::io::stdout()
/// [`io::stderr`]: std::io::stderr()
/// [`print!`]: std::print!
#[derive(Default, Debug)]
pub struct TestWriter {
_p: (),
}
/// A writer that erases the specific [`io::Write`] and [`MakeWriter`] types being used.
///
/// This is useful in cases where the concrete type of the writer cannot be known
/// until runtime.
///
/// # Examples
///
/// A function that returns a [`Collect`] that will write to either stdout or stderr:
///
/// ```rust
/// # use tracing::Collect;
/// # use tracing_subscriber::fmt::writer::BoxMakeWriter;
///
/// fn dynamic_writer(use_stderr: bool) -> impl Collect {
/// let writer = if use_stderr {
/// BoxMakeWriter::new(std::io::stderr)
/// } else {
/// BoxMakeWriter::new(std::io::stdout)
/// };
///
/// tracing_subscriber::fmt().with_writer(writer).finish()
/// }
/// ```
///
/// [`Collect`]: tracing::Collect
pub struct BoxMakeWriter {
inner: Box<dyn for<'a> MakeWriter<'a, Writer = Box<dyn Write + 'a>> + Send + Sync>,
name: &'static str,
}
/// A [writer] that is one of two types implementing [`io::Write`].
///
/// This may be used by [`MakeWriter`] implementations that may conditionally
/// return one of two writers.
///
/// [writer]: std::io::Write
#[derive(Copy, Clone, Debug, Eq, PartialEq)]
pub enum EitherWriter<A, B> {
/// A writer of type `A`.
A(A),
/// A writer of type `B`.
B(B),
}
/// A [writer] which may or may not be enabled.
///
/// This may be used by [`MakeWriter`] implementations that wish to
/// conditionally enable or disable the returned writer based on a span or
/// event's [`Metadata`].
///
/// [writer]: std::io::Write
pub type OptionalWriter<T> = EitherWriter<T, std::io::Sink>;
/// A [`MakeWriter`] combinator that only returns an enabled [writer] for spans
/// and events with metadata at or below a specified verbosity [`Level`].
///
/// This is returned by the [`MakeWriterExt::with_max_level] method. See the
/// method documentation for details.
///
/// [writer]: std::io::Write
/// [`Level`]: tracing_core::Level
#[derive(Copy, Clone, Debug, Eq, PartialEq)]
pub struct WithMaxLevel<M> {
make: M,
level: tracing_core::Level,
}
/// A [`MakeWriter`] combinator that only returns an enabled [writer] for spans
/// and events with metadata at or above a specified verbosity [`Level`].
///
/// This is returned by the [`MakeWriterExt::with_min_level] method. See the
/// method documentation for details.
///
/// [writer]: std::io::Write
/// [`Level`]: tracing_core::Level
#[derive(Copy, Clone, Debug, Eq, PartialEq)]
pub struct WithMinLevel<M> {
make: M,
level: tracing_core::Level,
}
/// A [`MakeWriter`] combinator that wraps a [`MakeWriter`] with a predicate for
/// span and event [`Metadata`], so that the [`MakeWriter::make_writer_for`]
/// method returns [`OptionalWriter::some`] when the predicate returns `true`,
/// and [`OptionalWriter::none`] when the predicate returns `false`.
///
/// This is returned by the [`MakeWriterExt::with_filter`] method. See the
/// method documentation for details.
///
/// [`Metadata`]: tracing_core::Metadata
#[derive(Copy, Clone, Debug, Eq, PartialEq)]
pub struct WithFilter<M, F> {
make: M,
filter: F,
}
/// Combines a [`MakeWriter`] that returns an [`OptionalWriter`] with another
/// [`MakeWriter`], so that the second [`MakeWriter`] is used when the first
/// [`MakeWriter`] returns [`OptionalWriter::none`].
///
/// This is returned by the [`MakeWriterExt::or_else] method. See the
/// method documentation for details.
#[derive(Copy, Clone, Debug, Eq, PartialEq)]
pub struct OrElse<A, B> {
inner: A,
or_else: B,
}
/// Combines two types implementing [`MakeWriter`] (or [`std::io::Write`]) to
/// produce a writer that writes to both [`MakeWriter`]'s returned writers.
///
/// This is returned by the [`MakeWriterExt::and`] method. See the method
/// documentation for details.
#[derive(Copy, Clone, Debug, Eq, PartialEq)]
pub struct Tee<A, B> {
a: A,
b: B,
}
/// A bridge between `fmt::Write` and `io::Write`.
///
/// This is used by the timestamp formatting implementation for the `time`
/// crate and by the JSON formatter. In both cases, this is needed because
/// `tracing-subscriber`'s `FormatEvent`/`FormatTime` traits expect a
/// `fmt::Write` implementation, while `serde_json::Serializer` and `time`'s
/// `format_into` methods expect an `io::Write`.
#[cfg(any(feature = "json", feature = "time"))]
pub(in crate::fmt) struct WriteAdaptor<'a> {
fmt_write: &'a mut dyn fmt::Write,
}
impl<'a, F, W> MakeWriter<'a> for F
where
F: Fn() -> W,
W: io::Write,
{
type Writer = W;
fn make_writer(&'a self) -> Self::Writer {
(self)()
}
}
impl<'a> MakeWriter<'a> for std::fs::File {
type Writer = &'a std::fs::File;
fn make_writer(&'a self) -> Self::Writer {
self
}
}
// === impl TestWriter ===
impl TestWriter {
/// Returns a new `TestWriter` with the default configuration.
pub fn new() -> Self {
Self::default()
}
}
impl io::Write for TestWriter {
fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
let out_str = String::from_utf8_lossy(buf);
print!("{}", out_str);
Ok(buf.len())
}
fn flush(&mut self) -> io::Result<()> {
Ok(())
}
}
impl<'a> MakeWriter<'a> for TestWriter {
type Writer = Self;
fn make_writer(&'a self) -> Self::Writer {
Self::default()
}
}
// === impl BoxMakeWriter ===
impl BoxMakeWriter {
/// Constructs a `BoxMakeWriter` wrapping a type implementing [`MakeWriter`].
///
pub fn new<M>(make_writer: M) -> Self
where
M: for<'a> MakeWriter<'a> + Send + Sync + 'static,
{
Self {
inner: Box::new(Boxed(make_writer)),
name: std::any::type_name::<M>(),
}
}
}
impl fmt::Debug for BoxMakeWriter {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.debug_tuple("BoxMakeWriter")
.field(&format_args!("<{}>", self.name))
.finish()
}
}
impl<'a> MakeWriter<'a> for BoxMakeWriter {
type Writer = Box<dyn Write + 'a>;
fn make_writer(&'a self) -> Self::Writer {
self.inner.make_writer()
}
fn make_writer_for(&'a self, meta: &Metadata<'_>) -> Self::Writer {
self.inner.make_writer_for(meta)
}
}
struct Boxed<M>(M);
impl<'a, M> MakeWriter<'a> for Boxed<M>
where
M: MakeWriter<'a>,
{
type Writer = Box<dyn Write + 'a>;
fn make_writer(&'a self) -> Self::Writer {
let w = self.0.make_writer();
Box::new(w)
}
fn make_writer_for(&'a self, meta: &Metadata<'_>) -> Self::Writer {
let w = self.0.make_writer_for(meta);
Box::new(w)
}
}
// === impl Mutex/MutexGuardWriter ===
impl<'a, W> MakeWriter<'a> for Mutex<W>
where
W: io::Write + 'a,
{
type Writer = MutexGuardWriter<'a, W>;
fn make_writer(&'a self) -> Self::Writer {
MutexGuardWriter(self.lock().expect("lock poisoned"))
}
}
impl<'a, W> io::Write for MutexGuardWriter<'a, W>
where
W: io::Write,
{
#[inline]
fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
self.0.write(buf)
}
#[inline]
fn flush(&mut self) -> io::Result<()> {
self.0.flush()
}
#[inline]
fn write_vectored(&mut self, bufs: &[io::IoSlice<'_>]) -> io::Result<usize> {
self.0.write_vectored(bufs)
}
#[inline]
fn write_all(&mut self, buf: &[u8]) -> io::Result<()> {
self.0.write_all(buf)
}
#[inline]
fn write_fmt(&mut self, fmt: std::fmt::Arguments<'_>) -> io::Result<()> {
self.0.write_fmt(fmt)
}
}
// === impl EitherWriter ===
impl<A, B> io::Write for EitherWriter<A, B>
where
A: io::Write,
B: io::Write,
{
#[inline]
fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
match self {
EitherWriter::A(a) => a.write(buf),
EitherWriter::B(b) => b.write(buf),
}
}
#[inline]
fn flush(&mut self) -> io::Result<()> {
match self {
EitherWriter::A(a) => a.flush(),
EitherWriter::B(b) => b.flush(),
}
}
#[inline]
fn write_vectored(&mut self, bufs: &[io::IoSlice<'_>]) -> io::Result<usize> {
match self {
EitherWriter::A(a) => a.write_vectored(bufs),
EitherWriter::B(b) => b.write_vectored(bufs),
}
}
#[inline]
fn write_all(&mut self, buf: &[u8]) -> io::Result<()> {
match self {
EitherWriter::A(a) => a.write_all(buf),
EitherWriter::B(b) => b.write_all(buf),
}
}
#[inline]
fn write_fmt(&mut self, fmt: std::fmt::Arguments<'_>) -> io::Result<()> {
match self {
EitherWriter::A(a) => a.write_fmt(fmt),
EitherWriter::B(b) => b.write_fmt(fmt),
}
}
}
impl<T> OptionalWriter<T> {
/// Returns a [disabled writer].
///
/// Any bytes written to the returned writer are discarded.
///
/// This is equivalent to returning [`Option::None`].
///
/// [disabled writer]: std::io::sink
#[inline]
pub fn none() -> Self {
EitherWriter::B(std::io::sink())
}
/// Returns an enabled writer of type `T`.
///
/// This is equivalent to returning [`Option::Some`].
#[inline]
pub fn some(t: T) -> Self {
EitherWriter::A(t)
}
}
impl<T> From<Option<T>> for OptionalWriter<T> {
#[inline]
fn from(opt: Option<T>) -> Self {
match opt {
Some(writer) => Self::some(writer),
None => Self::none(),
}
}
}
// === impl WithMaxLevel ===
impl<M> WithMaxLevel<M> {
/// Wraps the provided [`MakeWriter`] with a maximum [`Level`], so that it
/// returns [`OptionalWriter::none`] for spans and events whose level is
/// more verbose than the maximum level.
///
/// See [`MakeWriterExt::with_max_level`] for details.
///
/// [`Level`]: tracing_core::Level
pub fn new(make: M, level: tracing_core::Level) -> Self {
Self { make, level }
}
}
impl<'a, M: MakeWriter<'a>> MakeWriter<'a> for WithMaxLevel<M> {
type Writer = OptionalWriter<M::Writer>;
#[inline]
fn make_writer(&'a self) -> Self::Writer {
// If we don't know the level, assume it's disabled.
OptionalWriter::none()
}
#[inline]
fn make_writer_for(&'a self, meta: &Metadata<'_>) -> Self::Writer {
if meta.level() <= &self.level {
return OptionalWriter::some(self.make.make_writer_for(meta));
}
OptionalWriter::none()
}
}
// === impl WithMinLevel ===
impl<M> WithMinLevel<M> {
/// Wraps the provided [`MakeWriter`] with a minimum [`Level`], so that it
/// returns [`OptionalWriter::none`] for spans and events whose level is
/// less verbose than the maximum level.
///
/// See [`MakeWriterExt::with_min_level`] for details.
///
/// [`Level`]: tracing_core::Level
pub fn new(make: M, level: tracing_core::Level) -> Self {
Self { make, level }
}
}
impl<'a, M: MakeWriter<'a>> MakeWriter<'a> for WithMinLevel<M> {
type Writer = OptionalWriter<M::Writer>;
#[inline]
fn make_writer(&'a self) -> Self::Writer {
// If we don't know the level, assume it's disabled.
OptionalWriter::none()
}
#[inline]
fn make_writer_for(&'a self, meta: &Metadata<'_>) -> Self::Writer {
if meta.level() >= &self.level {
return OptionalWriter::some(self.make.make_writer_for(meta));
}
OptionalWriter::none()
}
}
// ==== impl WithFilter ===
impl<M, F> WithFilter<M, F> {
/// Wraps `make` with the provided `filter`, returning a [`MakeWriter`] that
/// will call `make.make_writer_for()` when `filter` returns `true` for a
/// span or event's [`Metadata`], and returns a [`sink`] otherwise.
///
/// See [`MakeWriterExt::with_filter`] for details.
///
/// [`Metadata`]: tracing_core::Metadata
/// [`sink`]: std::io::sink
pub fn new(make: M, filter: F) -> Self
where
F: Fn(&Metadata<'_>) -> bool,
{
Self { make, filter }
}
}
impl<'a, M, F> MakeWriter<'a> for WithFilter<M, F>
where
M: MakeWriter<'a>,
F: Fn(&Metadata<'_>) -> bool,
{
type Writer = OptionalWriter<M::Writer>;
#[inline]
fn make_writer(&'a self) -> Self::Writer {
OptionalWriter::some(self.make.make_writer())
}
#[inline]
fn make_writer_for(&'a self, meta: &Metadata<'_>) -> Self::Writer {
if (self.filter)(meta) {
OptionalWriter::some(self.make.make_writer_for(meta))
} else {
OptionalWriter::none()
}
}
}
// === impl Tee ===
impl<A, B> Tee<A, B> {
/// Combines two types implementing [`MakeWriter`], returning
/// a new [`MakeWriter`] that produces [writers] that write to *both*
/// outputs.
///
/// See the documentation for [`MakeWriterExt::and`] for details.
///
/// [writers]: std::io::Write
pub fn new(a: A, b: B) -> Self {
Self { a, b }
}
}
impl<'a, A, B> MakeWriter<'a> for Tee<A, B>
where
A: MakeWriter<'a>,
B: MakeWriter<'a>,
{
type Writer = Tee<A::Writer, B::Writer>;
#[inline]
fn make_writer(&'a self) -> Self::Writer {
Tee::new(self.a.make_writer(), self.b.make_writer())
}
#[inline]
fn make_writer_for(&'a self, meta: &Metadata<'_>) -> Self::Writer {
Tee::new(self.a.make_writer_for(meta), self.b.make_writer_for(meta))
}
}
macro_rules! impl_tee {
($self_:ident.$f:ident($($arg:ident),*)) => {
{
let res_a = $self_.a.$f($($arg),*);
let res_b = $self_.b.$f($($arg),*);
(res_a?, res_b?)
}
}
}
impl<A, B> io::Write for Tee<A, B>
where
A: io::Write,
B: io::Write,
{
#[inline]
fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
let (a, b) = impl_tee!(self.write(buf));
Ok(std::cmp::max(a, b))
}
#[inline]
fn flush(&mut self) -> io::Result<()> {
impl_tee!(self.flush());
Ok(())
}
#[inline]
fn write_vectored(&mut self, bufs: &[io::IoSlice<'_>]) -> io::Result<usize> {
let (a, b) = impl_tee!(self.write_vectored(bufs));
Ok(std::cmp::max(a, b))
}
#[inline]
fn write_all(&mut self, buf: &[u8]) -> io::Result<()> {
impl_tee!(self.write_all(buf));
Ok(())
}
#[inline]
fn write_fmt(&mut self, fmt: std::fmt::Arguments<'_>) -> io::Result<()> {
impl_tee!(self.write_fmt(fmt));
Ok(())
}
}
// === impl OrElse ===
impl<A, B> OrElse<A, B> {
/// Combines
pub fn new<'a, W>(inner: A, or_else: B) -> Self
where
A: MakeWriter<'a, Writer = OptionalWriter<W>>,
B: MakeWriter<'a>,
W: Write,
{
Self { inner, or_else }
}
}
impl<'a, A, B, W> MakeWriter<'a> for OrElse<A, B>
where
A: MakeWriter<'a, Writer = OptionalWriter<W>>,
B: MakeWriter<'a>,
W: io::Write,
{
type Writer = EitherWriter<W, B::Writer>;
#[inline]
fn make_writer(&'a self) -> Self::Writer {
match self.inner.make_writer() {
EitherWriter::A(writer) => EitherWriter::A(writer),
EitherWriter::B(_) => EitherWriter::B(self.or_else.make_writer()),
}
}
#[inline]
fn make_writer_for(&'a self, meta: &Metadata<'_>) -> Self::Writer {
match self.inner.make_writer_for(meta) {
EitherWriter::A(writer) => EitherWriter::A(writer),
EitherWriter::B(_) => EitherWriter::B(self.or_else.make_writer_for(meta)),
}
}
}
// === impl WriteAdaptor ===
#[cfg(any(feature = "json", feature = "time"))]
impl<'a> WriteAdaptor<'a> {
pub(in crate::fmt) fn new(fmt_write: &'a mut dyn fmt::Write) -> Self {
Self { fmt_write }
}
}
#[cfg(any(feature = "json", feature = "time"))]
impl<'a> io::Write for WriteAdaptor<'a> {
fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
let s =
std::str::from_utf8(buf).map_err(|e| io::Error::new(io::ErrorKind::InvalidData, e))?;
self.fmt_write
.write_str(s)
.map_err(|e| io::Error::new(io::ErrorKind::Other, e))?;
Ok(s.as_bytes().len())
}
fn flush(&mut self) -> io::Result<()> {
Ok(())
}
}
#[cfg(any(feature = "json", feature = "time"))]
impl<'a> fmt::Debug for WriteAdaptor<'a> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.pad("WriteAdaptor { .. }")
}
}
// === blanket impls ===
impl<'a, M> MakeWriterExt<'a> for M where M: MakeWriter<'a> {}
#[cfg(test)]
mod test {
use super::*;
use crate::fmt::format::Format;
use crate::fmt::test::{MockMakeWriter, MockWriter};
use crate::fmt::Collector;
use std::sync::atomic::{AtomicBool, Ordering};
use std::sync::{Arc, Mutex};
use tracing::{debug, error, info, trace, warn, Level};
use tracing_core::dispatch::{self, Dispatch};
fn test_writer<T>(make_writer: T, msg: &str, buf: &Mutex<Vec<u8>>)
where
T: for<'writer> MakeWriter<'writer> + Send + Sync + 'static,
{
let subscriber = {
#[cfg(feature = "ansi")]
let f = Format::default().without_time().with_ansi(false);
#[cfg(not(feature = "ansi"))]
let f = Format::default().without_time();
Collector::builder()
.event_format(f)
.with_writer(make_writer)
.finish()
};
let dispatch = Dispatch::from(subscriber);
dispatch::with_default(&dispatch, || {
error!("{}", msg);
});
let expected = format!("ERROR {}: {}\n", module_path!(), msg);
let actual = String::from_utf8(buf.try_lock().unwrap().to_vec()).unwrap();
assert!(actual.contains(expected.as_str()));
}
fn has_lines(buf: &Mutex<Vec<u8>>, msgs: &[(tracing::Level, &str)]) {
let actual = String::from_utf8(buf.try_lock().unwrap().to_vec()).unwrap();
let mut expected_lines = msgs.iter();
for line in actual.lines() {
let line = dbg!(line).trim();
let (level, msg) = expected_lines
.next()
.unwrap_or_else(|| panic!("expected no more lines, but got: {:?}", line));
let expected = format!("{} {}: {}", level, module_path!(), msg);
assert_eq!(line, expected.as_str());
}
}
#[test]
fn custom_writer_closure() {
let buf = Arc::new(Mutex::new(Vec::new()));
let buf2 = buf.clone();
let make_writer = move || MockWriter::new(buf2.clone());
let msg = "my custom writer closure error";
test_writer(make_writer, msg, &buf);
}
#[test]
fn custom_writer_struct() {
let buf = Arc::new(Mutex::new(Vec::new()));
let make_writer = MockMakeWriter::new(buf.clone());
let msg = "my custom writer struct error";
test_writer(make_writer, msg, &buf);
}
#[test]
fn custom_writer_mutex() {
let buf = Arc::new(Mutex::new(Vec::new()));
let writer = MockWriter::new(buf.clone());
let make_writer = Mutex::new(writer);
let msg = "my mutex writer error";
test_writer(make_writer, msg, &buf);
}
#[test]
fn combinators_level_filters() {
let info_buf = Arc::new(Mutex::new(Vec::new()));
let info = MockMakeWriter::new(info_buf.clone());
let debug_buf = Arc::new(Mutex::new(Vec::new()));
let debug = MockMakeWriter::new(debug_buf.clone());
let warn_buf = Arc::new(Mutex::new(Vec::new()));
let warn = MockMakeWriter::new(warn_buf.clone());
let err_buf = Arc::new(Mutex::new(Vec::new()));
let err = MockMakeWriter::new(err_buf.clone());
let make_writer = info
.with_max_level(Level::INFO)
.and(debug.with_max_level(Level::DEBUG))
.and(warn.with_max_level(Level::WARN))
.and(err.with_max_level(Level::ERROR));
let c = {
#[cfg(feature = "ansi")]
let f = Format::default().without_time().with_ansi(false);
#[cfg(not(feature = "ansi"))]
let f = Format::default().without_time();
Collector::builder()
.event_format(f)
.with_writer(make_writer)
.with_max_level(Level::TRACE)
.finish()
};
let _s = tracing::collect::set_default(c);
trace!("trace");
debug!("debug");
info!("info");
warn!("warn");
error!("error");
let all_lines = [
(Level::TRACE, "trace"),
(Level::DEBUG, "debug"),
(Level::INFO, "info"),
(Level::WARN, "warn"),
(Level::ERROR, "error"),
];
println!("max level debug");
has_lines(&debug_buf, &all_lines[1..]);
println!("max level info");
has_lines(&info_buf, &all_lines[2..]);
println!("max level warn");
has_lines(&warn_buf, &all_lines[3..]);
println!("max level error");
has_lines(&err_buf, &all_lines[4..]);
}
#[test]
fn combinators_or_else() {
let some_buf = Arc::new(Mutex::new(Vec::new()));
let some = MockMakeWriter::new(some_buf.clone());
let or_else_buf = Arc::new(Mutex::new(Vec::new()));
let or_else = MockMakeWriter::new(or_else_buf.clone());
let return_some = AtomicBool::new(true);
let make_writer = move || {
if return_some.swap(false, Ordering::Relaxed) {
OptionalWriter::some(some.make_writer())
} else {
OptionalWriter::none()
}
};
let make_writer = make_writer.or_else(or_else);
let c = {
#[cfg(feature = "ansi")]
let f = Format::default().without_time().with_ansi(false);
#[cfg(not(feature = "ansi"))]
let f = Format::default().without_time();
Collector::builder()
.event_format(f)
.with_writer(make_writer)
.with_max_level(Level::TRACE)
.finish()
};
let _s = tracing::collect::set_default(c);
info!("hello");
info!("world");
info!("goodbye");
has_lines(&some_buf, &[(Level::INFO, "hello")]);
has_lines(
&or_else_buf,
&[(Level::INFO, "world"), (Level::INFO, "goodbye")],
);
}
#[test]
fn combinators_or_else_chain() {
let info_buf = Arc::new(Mutex::new(Vec::new()));
let info = MockMakeWriter::new(info_buf.clone());
let debug_buf = Arc::new(Mutex::new(Vec::new()));
let debug = MockMakeWriter::new(debug_buf.clone());
let warn_buf = Arc::new(Mutex::new(Vec::new()));
let warn = MockMakeWriter::new(warn_buf.clone());
let err_buf = Arc::new(Mutex::new(Vec::new()));
let err = MockMakeWriter::new(err_buf.clone());
let make_writer = err.with_max_level(Level::ERROR).or_else(
warn.with_max_level(Level::WARN).or_else(
info.with_max_level(Level::INFO)
.or_else(debug.with_max_level(Level::DEBUG)),
),
);
let c = {
#[cfg(feature = "ansi")]
let f = Format::default().without_time().with_ansi(false);
#[cfg(not(feature = "ansi"))]
let f = Format::default().without_time();
Collector::builder()
.event_format(f)
.with_writer(make_writer)
.with_max_level(Level::TRACE)
.finish()
};
let _s = tracing::collect::set_default(c);
trace!("trace");
debug!("debug");
info!("info");
warn!("warn");
error!("error");
println!("max level debug");
has_lines(&debug_buf, &[(Level::DEBUG, "debug")]);
println!("max level info");
has_lines(&info_buf, &[(Level::INFO, "info")]);
println!("max level warn");
has_lines(&warn_buf, &[(Level::WARN, "warn")]);
println!("max level error");
has_lines(&err_buf, &[(Level::ERROR, "error")]);
}
#[test]
fn combinators_and() {
let a_buf = Arc::new(Mutex::new(Vec::new()));
let a = MockMakeWriter::new(a_buf.clone());
let b_buf = Arc::new(Mutex::new(Vec::new()));
let b = MockMakeWriter::new(b_buf.clone());
let lines = &[(Level::INFO, "hello"), (Level::INFO, "world")];
let make_writer = a.and(b);
let c = {
#[cfg(feature = "ansi")]
let f = Format::default().without_time().with_ansi(false);
#[cfg(not(feature = "ansi"))]
let f = Format::default().without_time();
Collector::builder()
.event_format(f)
.with_writer(make_writer)
.with_max_level(Level::TRACE)
.finish()
};
let _s = tracing::collect::set_default(c);
info!("hello");
info!("world");
has_lines(&a_buf, &lines[..]);
has_lines(&b_buf, &lines[..]);
}
}