Tokio Metrics

Provides utilities for collecting metrics from a Tokio application, including runtime and per-task metrics.

[dependencies]
tokio-metrics = { version = "0.3.1", default-features = false }

Getting Started With Task Metrics

Use TaskMonitor to instrument tasks before spawning them, and to observe metrics for those tasks. All tasks instrumented with a given TaskMonitor aggregate their metrics together. To split out metrics for different tasks, use separate TaskMetrics instances.

// construct a TaskMonitor
let monitor = tokio_metrics::TaskMonitor::new();

// print task metrics every 500ms
{
    let frequency = std::time::Duration::from_millis(500);
    let monitor = monitor.clone();
    tokio::spawn(async move {
        for metrics in monitor.intervals() {
            println!("{:?}", metrics);
            tokio::time::sleep(frequency).await;
        }
    });
}

// instrument some tasks and spawn them
loop {
    tokio::spawn(monitor.instrument(do_work()));
}

Task Metrics

Base Metrics

• instrumented_count
  The number of tasks instrumented.
• dropped_count
  The number of tasks dropped.
• first_poll_count
  The number of tasks polled for the first time.
• total_first_poll_delay
  The total duration elapsed between the instant tasks are instrumented, and the instant they are first polled.
• total_idled_count
  The total number of times that tasks idled, waiting to be awoken.
• total_idle_duration
  The total duration that tasks idled.
• total_scheduled_count
  The total number of times that tasks were awoken (and then, presumably, scheduled for execution).
• total_scheduled_duration
  The total duration that tasks spent waiting to be polled after awakening.
• total_poll_count
  The total number of times that tasks were polled.
• total_poll_duration
  The total duration elapsed during polls.
• total_fast_poll_count
  The total number of times that polling tasks completed swiftly.
• total_fast_poll_duration
  The total duration of fast polls.
• total_slow_poll_count
  The total number of times that polling tasks completed slowly.
• total_slow_poll_duration The total duration of slow polls.
• total_short_delay_count The total count of short scheduling delays.
• total_short_delay_duration The total duration of short scheduling delays.
• total_long_delay_count The total count of long scheduling delays.
• total_long_delay_duration The total duration of long scheduling delays.

Derived Metrics

• mean_first_poll_delay
  The mean duration elapsed between the instant tasks are instrumented, and the instant they are first polled.
• mean_idle_duration
  The mean duration of idles.
• mean_scheduled_duration
  The mean duration that tasks spent waiting to be executed after awakening.
• mean_poll_duration
  The mean duration of polls.
• slow_poll_ratio
  The ratio between the number polls categorized as slow and fast.
• mean_fast_poll_duration
  The mean duration of fast polls.
• mean_slow_poll_duration
  The mean duration of slow polls.
• long_delay_ratio
• The ratio between the number of long scheduling delays and the number of total schedules.
• mean_short_delay_duration The mean duration of short schedules.
• mean_long_delay_duration The mean duration of long schedules.

Getting Started With Runtime Metrics

This unstable functionality requires tokio_unstable, and the rt crate feature. To enable tokio_unstable, the --cfg tokio_unstable must be passed to rustc when compiling. You can do this by setting the RUSTFLAGS environment variable before compiling your application; e.g.:

RUSTFLAGS="--cfg tokio_unstable" cargo build

Or, by creating the file .cargo/config.toml in the root directory of your crate. If you're using a workspace, put this file in the root directory of your workspace instead.

[build]
rustflags = ["--cfg", "tokio_unstable"]
rustdocflags = ["--cfg", "tokio_unstable"] 

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-metrics to not work, and alternating between building with and without this configuration file included will cause full rebuilds of your project.

The rt feature of tokio-metrics is on by default; simply check that you do not set default-features = false when declaring it as a dependency; e.g.:

[dependencies]
tokio-metrics = "0.3.1"

From within a Tokio runtime, use RuntimeMonitor to monitor key metrics of that runtime.

let handle = tokio::runtime::Handle::current();
let runtime_monitor = tokio_metrics::RuntimeMonitor::new(&handle);

// print runtime metrics every 500ms
let frequency = std::time::Duration::from_millis(500);
tokio::spawn(async move {
    for metrics in runtime_monitor.intervals() {
        println!("Metrics = {:?}", metrics);
        tokio::time::sleep(frequency).await;
    }
});

// run some tasks
tokio::spawn(do_work());
tokio::spawn(do_work());
tokio::spawn(do_work());

Runtime Metrics

Base Metrics

• workers_count
  The number of worker threads used by the runtime.
• total_park_count
  The number of times worker threads parked.
• max_park_count
  The maximum number of times any worker thread parked.
• min_park_count
  The minimum number of times any worker thread parked.
• total_noop_count
  The number of times worker threads unparked but performed no work before parking again.
• max_noop_count
  The maximum number of times any worker thread unparked but performed no work before parking again.
• min_noop_count
  The minimum number of times any worker thread unparked but performed no work before parking again.
• total_steal_count
  The number of tasks worker threads stole from another worker thread.
• max_steal_count
  The maximum number of tasks any worker thread stole from another worker thread.
• min_steal_count
  The minimum number of tasks any worker thread stole from another worker thread.
• total_steal_operations
  The number of times worker threads stole tasks from another worker thread.
• max_steal_operations
  The maximum number of times any worker thread stole tasks from another worker thread.
• min_steal_operations
  The minimum number of times any worker thread stole tasks from another worker thread.
• num_remote_schedules
  The number of tasks scheduled from outside of the runtime.
• total_local_schedule_count
  The number of tasks scheduled from worker threads.
• max_local_schedule_count
  The maximum number of tasks scheduled from any one worker thread.
• min_local_schedule_count
  The minimum number of tasks scheduled from any one worker thread.
• total_overflow_count
  The number of times worker threads saturated their local queues.
• max_overflow_count
  The maximum number of times any one worker saturated its local queue.
• min_overflow_count
  The minimum number of times any one worker saturated its local queue.
• total_polls_count
  The number of tasks that have been polled across all worker threads.
• max_polls_count
  The maximum number of tasks that have been polled in any worker thread.
• min_polls_count
  The minimum number of tasks that have been polled in any worker thread.
• total_busy_duration
  The amount of time worker threads were busy.
• max_busy_duration
  The maximum amount of time a worker thread was busy.
• min_busy_duration
  The minimum amount of time a worker thread was busy.
• injection_queue_depth
  The number of tasks currently scheduled in the runtime's injection queue.
• total_local_queue_depth
  The total number of tasks currently scheduled in workers' local queues.
• max_local_queue_depth
  The maximum number of tasks currently scheduled any worker's local queue.
• min_local_queue_depth
  The minimum number of tasks currently scheduled any worker's local queue.
• elapsed
  Total amount of time elapsed since observing runtime metrics.
• budget_forced_yield_count The number of times that a task was forced to yield because it exhausted its budget.
• io_driver_ready_count The number of ready events received from the I/O driver.

Derived Metrics

• mean_polls_per_park
• busy_ratio

Relation to Tokio Console

Currently, Tokio Console is primarily intended for local debugging. Tokio metrics is intended to enable reporting of metrics in production to your preferred tools. Longer term, it is likely that tokio-metrics will merge with Tokio Console.

License

This project is licensed under the MIT license.

Contribution

Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in tokio-metrics by you, shall be licensed as MIT, without any additional terms or conditions.