rust-fsm

Finite state machines in rust; bendns fork to add types.

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Diffstat (limited to 'rust_fsm/examples/circuit_breaker_dsl.rs')

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rust_fsm/examples/circuit_breaker_dsl.rs

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diff --git a/rust_fsm/examples/circuit_breaker_dsl.rs b/rust_fsm/examples/circuit_breaker_dsl.rs
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+/// A dummy implementation of the Circuit Breaker pattern to demonstrate

+/// capabilities of its library DSL for defining finite state machines.

+/// https://martinfowler.com/bliki/CircuitBreaker.html

+#[macro_use]

+extern crate rust_fsm_dsl;

+use rust_fsm::*;

+use std::sync::{Arc, Mutex};

+state_machine! {

+ CircuitBreaker(Closed)

+ Closed(Unsuccessful) => Open [SetupTimer],

+ Open(TimerTriggered) => HalfOpen,

+ HalfOpen(Successful) => Closed,

+ HalfOpen(Unsuccessful) => Open [SetupTimer],

+fn main() {

+ let machine: StateMachineWrapper<CircuitBreaker> = StateMachineWrapper::new();

+ // Unsuccessful request

+ let machine = Arc::new(Mutex::new(machine));

+ {

+ let mut lock = machine.lock().unwrap();

+ let res = lock.consume_anyway(&CircuitBreakerInput::Unsuccessful);

+ assert_eq!(res, Some(CircuitBreakerOutput::SetupTimer));

+ assert_eq!(lock.state(), &CircuitBreakerState::Open);

+ }

+ // Set up a timer

+ let machine_wait = machine.clone();

+ std::thread::spawn(move || {

+ std::thread::sleep_ms(5000);

+ let mut lock = machine_wait.lock().unwrap();

+ let res = lock.consume_anyway(&CircuitBreakerInput::TimerTriggered);

+ assert_eq!(res, None);

+ assert_eq!(lock.state(), &CircuitBreakerState::HalfOpen);

+ });

+ // Try to pass a request when the circuit breaker is still open

+ let machine_try = machine.clone();

+ std::thread::spawn(move || {

+ std::thread::sleep_ms(1000);

+ let mut lock = machine_try.lock().unwrap();

+ let res = lock.consume_anyway(&CircuitBreakerInput::Successful);

+ assert_eq!(res, None);

+ assert_eq!(lock.state(), &CircuitBreakerState::Open);

+ });

+ // Test if the circit breaker was actually closed

+ std::thread::sleep_ms(7000);

+ {

+ let mut lock = machine.lock().unwrap();

+ let res = lock.consume_anyway(&CircuitBreakerInput::Successful);

+ assert_eq!(res, None);

+ assert_eq!(lock.state(), &CircuitBreakerState::Closed);

+ }