Provides utilities for collecting metrics from a Tokio application, including runtime and per-task metrics.
[dependencies]
tokio-metrics = { version = "0.4.0", default-features = false }
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()));
}
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.
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.
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 = "0.4.0"
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());
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.
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.
This project is licensed under the MIT license.
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.