Router

The router filter implements HTTP forwarding. It will be used in almost all HTTP proxy scenarios that Envoy is deployed for. The filter’s main job is to follow the instructions specified in the configured route table. In addition to forwarding and redirection, the filter also handles retry, statistics, etc.

HTTP headers (consumed)

The router consumes and sets various HTTP headers both on the egress/request path as well as on the ingress/response path. They are documented in this section.

x-envoy-max-retries

If a retry policy is in place, Envoy will default to retrying one time unless explicitly specified. The number of retries can be explicitly set in the route retry config or by using this header. If a retry policy is not configured and x-envoy-retry-on or x-envoy-retry-grpc-on headers are not specified, Envoy will not retry a failed request.

A few notes on how Envoy does retries:

  • The route timeout (set via x-envoy-upstream-rq-timeout-ms or the route configuration) includes all retries. Thus if the request timeout is set to 3s, and the first request attempt takes 2.7s, the retry (including backoff) has .3s to complete. This is by design to avoid an exponential retry/timeout explosion.
  • Envoy uses a fully jittered exponential backoff algorithm for retries with a base time of 25ms. The first retry will be delayed randomly between 0-24ms, the 2nd between 0-74ms, the 3rd between 0-174ms and so on.
  • If max retries is set both by header as well as in the route configuration, the maximum value is taken when determining the max retries to use for the request.

x-envoy-retry-on

Setting this header on egress requests will cause Envoy to attempt to retry failed requests (number of retries defaults to 1 and can be controlled by x-envoy-max-retries header or the route config retry policy). The value to which the x-envoy-retry-on header is set indicates the retry policy. One or more policies can be specified using a ‘,’ delimited list. The supported policies are:

5xx

Envoy will attempt a retry if the upstream server responds with any 5xx response code, or does not respond at all (disconnect/reset/read timeout). (Includes connect-failure and refused-stream)

gateway-error

This policy is similar to the 5xx policy but will only retry requests that result in a 502, 503, or 504.

connect-failure

Envoy will attempt a retry if a request is failed because of a connection failure to the upstream server (connect timeout, etc.). (Included in 5xx)

retriable-4xx

Envoy will attempt a retry if the upstream server responds with a retriable 4xx response code. Currently, the only response code in this category is 409.

  • NOTE: Be careful turning on this retry type. There are certain cases where a 409 can indicate that an optimistic locking revision needs to be updated. Thus, the caller should not retry and needs to read then attempt another write. If a retry happens in this type of case it will always fail with another 409.

refused-stream

Envoy will attempt a retry if the upstream server resets the stream with a REFUSED_STREAM error code. This reset type indicates that a request is safe to retry. (Included in 5xx)

The number of retries can be controlled via the x-envoy-max-retries header or via the route configuration.

Note that retry policies can also be applied at the route level.

By default, Envoy will not perform retries unless you’ve configured them per above.

x-envoy-retry-grpc-on

Setting this header on egress requests will cause Envoy to attempt to retry failed requests (number of retries defaults to 1, and can be controlled by x-envoy-max-retries header or the route config retry policy). gRPC retries are currently only supported for gRPC status codes in response headers. gRPC status codes in trailers will not trigger retry logic. One or more policies can be specified using a ‘,’ delimited list. The supported policies are:

cancelled

Envoy will attempt a retry if the gRPC status code in the response headers is “cancelled” (1)

deadline-exceeded

Envoy will attempt a retry if the gRPC status code in the response headers is “deadline-exceeded” (4)

resource-exhausted

Envoy will attempt a retry if the gRPC status code in the response headers is “resource-exhausted” (8)

unavailable

Envoy will attempt a retry if the gRPC status code in the response headers is “unavailable” (14)

As with the x-envoy-retry-grpc-on header, the number of retries can be controlled via the x-envoy-max-retries header

Note that retry policies can also be applied at the route level.

By default, Envoy will not perform retries unless you’ve configured them per above.

x-envoy-upstream-alt-stat-name

Setting this header on egress requests will cause Envoy to emit upstream response code/timing statistics to a dual stat tree. This can be useful for application level categories that Envoy doesn’t know about. The output tree is documented here.

This should not be confused with alt_stat_name which is specified while defining the cluster and when provided specifies an alternative name for the cluster at the root of the statistic tree.

x-envoy-upstream-canary

If an upstream host sets this header, the router will use it to generate canary specific statistics. The output tree is documented here.

x-envoy-upstream-rq-timeout-alt-response

Setting this header on egress requests will cause Envoy to set a 204 response code (instead of 504) in the event of a request timeout. The actual value of the header is ignored; only its presence is considered. See also x-envoy-upstream-rq-timeout-ms.

x-envoy-upstream-rq-timeout-ms

Setting this header on egress requests will cause Envoy to override the route configuration. The timeout must be specified in millisecond units. See also x-envoy-upstream-rq-per-try-timeout-ms.

x-envoy-upstream-rq-per-try-timeout-ms

Setting this header on egress requests will cause Envoy to set a per try timeout on routed requests. This timeout must be <= the global route timeout (see x-envoy-upstream-rq-timeout-ms) or it is ignored. This allows a caller to set a tight per try timeout to allow for retries while maintaining a reasonable overall timeout.

x-envoy-immediate-health-check-fail

If the upstream host returns this header (set to any value), Envoy will immediately assume the upstream host has failed active health checking (if the cluster has been configured for active health checking). This can be used to fast fail an upstream host via standard data plane processing without waiting for the next health check interval. The host can become healthy again via standard active health checks. See the health checking overview for more information.

x-envoy-overloaded

If this header is set by upstream, Envoy will not retry. Currently the value of the header is not looked at, only its presence.

x-envoy-decorator-operation

If this header is present on ingress requests, its value will override any locally defined operation (span) name on the server span generated by the tracing mechanism. Similarly, if this header is present on an egress response, its value will override any locally defined operation (span) name on the client span.

HTTP headers (set)

The router sets various HTTP headers both on the egress/request path as well as on the ingress/response path. They are documented in this section.

x-envoy-expected-rq-timeout-ms

This is the time in milliseconds the router expects the request to be completed. Envoy sets this header so that the upstream host receiving the request can make decisions based on the request timeout, e.g., early exit. This is set on internal requests and is either taken from the x-envoy-upstream-rq-timeout-ms header or the route timeout, in that order.

x-envoy-upstream-service-time

Contains the time in milliseconds spent by the upstream host processing the request. This is useful if the client wants to determine service time compared to network latency. This header is set on responses.

x-envoy-original-path

If the route utilizes prefix_rewrite, Envoy will put the original path header in this header. This can be useful for logging and debugging.

x-envoy-overloaded

Envoy will set this header on the downstream response if a request was dropped due to either maintenance mode or upstream circuit breaking.

Statistics

The router outputs many statistics in the cluster namespace (depending on the cluster specified in the chosen route). See here for more information.

The router filter outputs statistics in the http.. namespace. The stat prefix comes from the owning HTTP connection manager.

NameTypeDescription
no_routeCounterTotal requests that had no route and resulted in a 404
no_clusterCounterTotal requests in which the target cluster did not exist and resulted in a 404
rq_redirectCounterTotal requests that resulted in a redirect response
rq_direct_responseCounterTotal requests that resulted in a direct response
rq_totalCounterTotal routed requests

Virtual cluster statistics are output in the vhost..vcluster.. namespace and include the following statistics:

NameTypeDescription
upstreamrq<xx>CounterAggregate HTTP response codes (e.g., 2xx, 3xx, etc.)
upstreamrq<>CounterSpecific HTTP response codes (e.g., 201, 302, etc.)
upstream_rq_timeHistogramRequest time milliseconds

Runtime

The router filter supports the following runtime settings:

upstream.base_retry_backoff_ms

Base exponential retry back off time. See here for more information. Defaults to 25ms.

upstream.maintenance_mode.

% of requests that will result in an immediate 503 response. This overrides any routing behavior for requests that would have been destined for . This can be used for load shedding, failure injection, etc. Defaults to disabled.

upstream.use_retry

% of requests that are eligible for retry. This configuration is checked before any other retry configuration and can be used to fully disable retries across all Envoys if needed.