//! This example demonstrates the basic usage pattern of this crate. //! //! It shows that subsystems get started, and when the program //! gets shut down (by pressing Ctrl-C), the subsystems get shut down //! gracefully. //! //! If custom arguments for the subsystem coroutines are required, //! a struct has to be used instead, as seen in other examples. use miette::Result; use tokio::time::{sleep, Duration}; use tokio_graceful_shutdown::{SubsystemBuilder, SubsystemHandle, Toplevel}; async fn subsys1(subsys: SubsystemHandle) -> Result<()> { tracing::info!("Subsystem1 started."); subsys.on_shutdown_requested().await; tracing::info!("Shutting down Subsystem1 ..."); sleep(Duration::from_millis(400)).await; tracing::info!("Subsystem1 stopped."); Ok(()) } async fn subsys2(subsys: SubsystemHandle) -> Result<()> { tracing::info!("Subsystem2 started."); subsys.on_shutdown_requested().await; tracing::info!("Shutting down Subsystem2 ..."); sleep(Duration::from_millis(500)).await; tracing::info!("Subsystem2 stopped."); Ok(()) } #[tokio::main] async fn main() -> Result<()> { // Init logging tracing_subscriber::fmt() .with_max_level(tracing::Level::DEBUG) .init(); // Setup and execute subsystem tree Toplevel::new(|s| async move { s.start(SubsystemBuilder::new("Subsys1", subsys1)); s.start(SubsystemBuilder::new("Subsys2", subsys2)); }) .catch_signals() .handle_shutdown_requests(Duration::from_millis(1000)) .await .map_err(Into::into) }