Expand description
§tokio-console subscriber
📡️ A tracing-subscriber
Layer
for collecting
tokio-console
telemetry.
Website | Chat | API Documentation
§Overview
tokio-console
is a debugging and profiling tool for asynchronous Rust
applications, which collects and displays in-depth diagnostic data on the
asynchronous tasks, resources, and operations in an application. The console
system consists of two primary components:
- instrumentation, embedded in the application, which collects data from the async runtime and exposes it over the console’s wire format
- consumers, such as the
tokio-console
command-line application, which connect to the instrumented application, receive telemetry data, and display it to the user
This crate implements the instrumentation-side interface using data
emitted by the async runtime using the tracing
. It provides a type
implementing the Layer
trait from tracing-subscriber
, for collecting and
aggregating the runtime’s tracing
data, and a gRPC server that exports
telemetry to clients.
§Getting Started
To instrument your asynchronous application, you must be using an async runtime
that supports the tracing
instrumentation required by the console.
Currently, the only runtime that implements this instrumentation is Tokio
version 1.7.0 and newer.
§Enabling Tokio Instrumentation
⚠️ Currently, the tracing
support in the tokio
runtime is considered experimental. In order to use
console-subscriber
with Tokio, the following is required:
-
Tokio’s optional
tracing
dependency must be enabled. For example:[dependencies] # ... tokio = { version = "1.15", features = ["full", "tracing"] }
-
The
tokio_unstable
cfg flag, which enables experimental APIs in Tokio, must be enabled. It can be enabled by setting theRUSTFLAGS
environment variable at build-time:$ RUSTFLAGS="--cfg tokio_unstable" cargo build
or, by adding the following to the
.cargo/config.toml
file in a Cargo workspace:[build] rustflags = ["--cfg", "tokio_unstable"]
If you’re using a workspace, you should put the
.cargo/config.toml
file in the root of your workspace. Otherwise, put the.cargo/config.toml
file in the root directory of your crate.Putting
.cargo/config.toml
files below the workspace or crate root directory may lead to tools like Rust-Analyzer or VSCode not using your.cargo/config.toml
since they invoke cargo from the workspace or crate root and cargo only looks for the.cargo
directory in the current & parent directories. Cargo ignores configurations in child directories. More information about where cargo looks for configuration files can be found here.Missing this configuration file during compilation will cause tokio-console to not work, and alternating between building with and without this configuration file included will cause full rebuilds of your project.
-
The
tokio
andruntime
tracing
targets must be enabled at theTRACE
level.-
If you’re using the
console_subscriber::init()
orconsole_subscriber::Builder
APIs, these targets are enabled automatically. -
If you are manually configuring the
tracing
subscriber using theEnvFilter
orTargets
filters fromtracing-subscriber
, add"tokio=trace,runtime=trace"
to your filter configuration. -
Also, ensure you have not enabled any of the compile time filter features in your
Cargo.toml
.
-
§Required Tokio Versions
Because instrumentation for different aspects of the runtime is being added to Tokio over time, the latest Tokio release is generally recommended to access all of the console’s functionality. However, it should generally be compatible with earlier Tokio versions, although some information may not be available. A minimum version of Tokio v1.0.0 or later is required to use the console’s task instrumentation.
Other instrumentation is added in later Tokio releases:
-
Tokio v1.7.0 or later is required to record task waker instrumentation (such as waker counts, clones, drops, et cetera).
-
Tokio v1.12.0 or later is required to record tasks created by the
Runtime::block_on
andHandle::block_on
methods. -
Tokio v1.13.0 or later is required to track
tokio::time
resources, such assleep
andInterval
. -
Tokio v1.15.0 or later is required to track
tokio::sync
resources, such asMutex
es,RwLock
s,Semaphore
s,oneshot
channels,mpsc
channels, et cetera. -
Tokio v1.21.0 or later is required to use newest
task::Builder::spawn*
APIs. -
Tokio v1.41.0 (as yet unreleased) or later is required for task future sizes and the related tokio-console lints
auto-boxed-future
andlarge-future
.
§Adding the Console Subscriber
If the runtime emits compatible tracing
events, enabling the console is as
simple as adding the following line to your main
function:
console_subscriber::init();
This sets the default tracing
subscriber to serve console telemetry
(as well as logging to stdout based on the RUST_LOG
environment variable). The
console subscriber’s behavior can be configured via a set of
environment variables.
For programmatic configuration, a builder interface is also provided:
use std::time::Duration;
console_subscriber::ConsoleLayer::builder()
// set how long the console will retain data from completed tasks
.retention(Duration::from_secs(60))
// set the address the server is bound to
.server_addr(([127, 0, 0, 1], 5555))
// ... other configurations ...
.init();
The layer provided by this crate can also be combined with other Layer
s from
other crates:
use tracing_subscriber::prelude::*;
// spawn the console server in the background,
// returning a `Layer`:
let console_layer = console_subscriber::spawn();
// build a `Subscriber` by combining layers with a
// `tracing_subscriber::Registry`:
tracing_subscriber::registry()
// add the console layer to the subscriber
.with(console_layer)
// add other layers...
.with(tracing_subscriber::fmt::layer())
// .with(...)
.init();
§Using other runtimes
If you are using a custom runtime that supports tokio-console, you may not need
to enable the tokio_unstable
cfg flag. In this case, you need to enable cfg
console_without_tokio_unstable
for console-subscriber to disable its check for
tokio_unstable
.
§Crate Feature Flags
This crate provides the following feature flags and optional dependencies:
parking_lot
: Use theparking_lot
crate’s locks, rather thanstd::sync
. Usingparking_lot
may result in improved performance, especially in highly concurrent applications. Disabled by default.
§Getting Help
First, see if the answer to your question can be found in the API documentation. If the answer is not there, there is an active community in the Tokio Discord server. We would be happy to try to answer your question. You can also ask your question on the discussions page.
§Contributing
🎈 Thanks for your help improving the project! We are so happy to have you! We have a contributing guide to help you get involved in the Tokio console project.
§Supported Rust Versions
The Tokio console is built against the latest stable release. The minimum supported version is 1.74. The current Tokio console version is not guaranteed to build on Rust versions earlier than the minimum supported version.
§License
This project is licensed under the MIT license.
§Contribution
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in Tokio by you, shall be licensed as MIT, without any additional terms or conditions.
Structs§
- Aggregates instrumentation traces and prepares state for the instrument server.
- Builder for configuring
ConsoleLayer
s. - A
ConsoleLayer
is atracing_subscriber::Layer
that recordstracing
spans and events emitted by the async runtime. - A gRPC
Server
that implements thetokio-console
wire format. - Server Parts
Enums§
- Specifies the address on which a
Server
should listen.
Functions§
- Initializes the console tracing
Subscriber
and starts the console subscriberServer
on its own background thread. - Returns a new
tracing_subscriber
Layer
configured with aConsoleLayer
and a filter that enables the spans and events required by the console.