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CircuitBreaker

Don't Waste Time Calling Unhealthy Services

CircuitBreaker

The circuit breaker protects your system from stacking requests to unhealthy services (resulting in cascading failures).

When your system is healthy, the circuit is close (normal operations). When your system becomes unhealthy, the circuit becomes open and the requests are no longer forwarded (but handled by a fallback mechanism).

To assess if your system is healthy, the circuit breaker constantly monitors the services.

Note

  • The CircuitBreaker only analyses what happens after it is positioned in the middleware chain. What happens before has no impact on its state.
  • The CircuitBreaker only affects the routers that use it. Routers that don't use the CircuitBreaker won't be affected by its state.

Important

Each router will eventually gets its own instance of a given circuit breaker. If two different routers refer to the same circuit breaker definition, they will get one instance each. It means that one circuit breaker can be open while the other stays close: their state is not shared. This is the expected behavior, we want you to be able to define what makes a service healthy without having to declare a circuit breaker for each route.

Configuration Examples

# Latency Check
labels:
- "traefik.http.middlewares.latency-check.circuitbreaker.expression=LatencyAtQuantileMS(50.0) > 100"
# Latency Check
apiVersion: traefik.containo.us/v1alpha1
kind: Middleware
metadata:
  name: latency-check
spec:
  circuitBreaker:
    expression: LatencyAtQuantileMS(50.0) > 100
"labels": {
  "traefik.http.middlewares.latency-check.circuitbreaker.expression": "LatencyAtQuantileMS(50.0) > 100"
}
# Latency Check
labels:
- "traefik.http.middlewares.latency-check.circuitbreaker.expression=LatencyAtQuantileMS(50.0) > 100"
# Latency Check
[http.middlewares]
  [http.middlewares.latency-check.circuitBreaker]
    expression = "LatencyAtQuantileMS(50.0) > 100"
# Latency Check
http:
  middlewares:
    latency-check:
      circuitBreaker:
        expression: "LatencyAtQuantileMS(50.0) > 100"

Possible States

There are three possible states for your circuit breaker:

  • Close (your service operates normally)
  • Open (the fallback mechanism takes over your service)
  • Recovering (the circuit breaker tries to resume normal operations by progressively sending requests to your service)

Close

While close, the circuit breaker only collects metrics to analyze the behavior of the requests.

At specified intervals (checkPeriod), it will evaluate expression to decide if its state must change.

Open

While open, the fallback mechanism takes over the normal service calls for a duration of FallbackDuration. After this duration, it will enter the recovering state.

Recovering

While recovering, the circuit breaker will progressively send requests to your service again (in a linear way, for RecoveryDuration). If your service fails during recovery, the circuit breaker becomes open again. If the service operates normally during the whole recovering duration, then the circuit breaker returns to close.

Configuration Options

Configuring the Trigger

You can specify an expression that, once matched, will trigger the circuit breaker (and apply the fallback mechanism instead of calling your services).

The expression can check three different metrics:

  • The network error ratio (NetworkErrorRatio)
  • The status code ratio (ResponseCodeRatio)
  • The latency at quantile, in milliseconds (LatencyAtQuantileMS)

NetworkErrorRatio

If you want the circuit breaker to trigger at a 30% ratio of network errors, the expression will be NetworkErrorRatio() > 0.30

ResponseCodeRatio

You can trigger the circuit breaker based on the ratio of a given range of status codes.

The ResponseCodeRatio accepts four parameters, from, to, dividedByFrom, dividedByTo.

The operation that will be computed is sum(to -> from) / sum (dividedByFrom -> dividedByTo).

Note

If sum (dividedByFrom -> dividedByTo) equals 0, then ResponseCodeRatio returns 0.

fromis inclusive, to is exclusive.

For example, the expression ResponseCodeRatio(500, 600, 0, 600) > 0.25 will trigger the circuit breaker if 25% of the requests returned a 5XX status (amongst the request that returned a status code from 0 to 5XX).

LatencyAtQuantileMS

You can trigger the circuit breaker when a given proportion of your requests become too slow.

For example, the expression LatencyAtQuantileMS(50.0) > 100 will trigger the circuit breaker when the median latency (quantile 50) reaches 100MS.

Note

You must provide a float number (with the leading .0) for the quantile value

Using multiple metrics

You can combine multiple metrics using operators in your expression.

Supported operators are:

  • AND (&&)
  • OR (||)

For example, ResponseCodeRatio(500, 600, 0, 600) > 0.30 || NetworkErrorRatio() > 0.10 triggers the circuit breaker when 30% of the requests return a 5XX status code, or when the ratio of network errors reaches 10%.

Operators

Here is the list of supported operators:

  • Greater than (>)
  • Greater or equal than (>=)
  • Lesser than (<)
  • Lesser or equal than (<=)
  • Not (!)
  • Equal (==)
  • Not Equal (!=)

Fallback mechanism

The fallback mechanism returns a HTTP 503 Service Unavailable to the client (instead of calling the target service). This behavior cannot be configured.

CheckPeriod

The interval used to evaluate expression and decide if the state of the circuit breaker must change. By default, CheckPeriod is 100Ms. This value cannot be configured.

FallbackDuration

By default, FallbackDuration is 10 seconds. This value cannot be configured.

RecoveringDuration

The duration of the recovering mode (recovering state).

By default, RecoveringDuration is 10 seconds. This value cannot be configured.