[−][src]Module tokio::runtime
A batteries included runtime for applications using Tokio.
Applications using Tokio require some runtime support in order to work:
- A reactor to drive I/O resources.
- An executor to execute tasks that use these I/O resources.
- A timer for scheduling work to run after a set period of time.
While it is possible to setup each component manually, this involves a bunch of boilerplate.
Runtime
bundles all of these various runtime components into a single
handle that can be started and shutdown together, eliminating the necessary
boilerplate to run a Tokio application.
Most applications wont need to use Runtime
directly. Instead, they will
use the run
function, which uses Runtime
under the hood.
Creating a Runtime
does the following:
- Spawn a background thread running a
Reactor
instance. - Start a
ThreadPool
for executing futures. - Run an instance of
Timer
per thread pool worker thread.
The thread pool uses a work-stealing strategy and is configured to start a worker thread for each CPU core available on the system. This tends to be the ideal setup for Tokio applications.
A timer per thread pool worker thread is used to minimize the amount of synchronization that is required for working with the timer.
Usage
Most applications will use the run
function. This takes a future to
"seed" the application, blocking the thread until the runtime becomes
idle.
use tokio::net::TcpListener; let listener = TcpListener::bind(&addr).unwrap(); let server = listener.incoming() .map_err(|e| println!("error = {:?}", e)) .for_each(|socket| { tokio::spawn(process(socket)) }); tokio::run(server);
In this function, the run
function blocks until the runtime becomes idle.
See shutdown_on_idle
for more shutdown details.
From within the context of the runtime, additional tasks are spawned using
the tokio::spawn
function. Futures spawned using this function will be
executed on the same thread pool used by the Runtime
.
A Runtime
instance can also be used directly.
use tokio::runtime::Runtime; use tokio::net::TcpListener; let listener = TcpListener::bind(&addr).unwrap(); let server = listener.incoming() .map_err(|e| println!("error = {:?}", e)) .for_each(|socket| { tokio::spawn(process(socket)) }); // Create the runtime let mut rt = Runtime::new().unwrap(); // Spawn the server task rt.spawn(server); // Wait until the runtime becomes idle and shut it down. rt.shutdown_on_idle() .wait().unwrap();
Modules
current_thread | A runtime implementation that runs everything on the current thread. |
Structs
Builder | Builds Tokio Runtime with custom configuration values. |
Runtime | Handle to the Tokio runtime. |
Shutdown | A future that resolves when the Tokio |
TaskExecutor | Executes futures on the runtime |
Functions
run | Start the Tokio runtime using the supplied future to bootstrap execution. |