syntax = "proto3"; package envoy.api.v2; import "api/auth.proto"; import "api/base.proto"; import "api/discovery.proto"; import "google/api/annotations.proto"; import "google/protobuf/duration.proto"; import "google/protobuf/wrappers.proto"; import "validate/validate.proto"; // [#protodoc-title: HTTP route management and RDS] // The resource_names field in DiscoveryRequest specifies a route configuration. // This allows an Envoy configuration with multiple HTTP listeners (and // associated HTTP connection manager filters) to use different route // configurations. Each listener will bind its HTTP connection manager filter to // a route table via this identifier. service RouteDiscoveryService { rpc StreamRoutes(stream DiscoveryRequest) returns (stream DiscoveryResponse) { } rpc FetchRoutes(DiscoveryRequest) returns (DiscoveryResponse) { option (google.api.http) = { post: "/v2/discovery:routes" body: "*" }; } } // Compared to the :ref:`cluster ` field that specifies a // single upstream cluster as the target of a request, the :ref:`weighted_clusters // ` option allows for specification of // multiple upstream clusters along with weights that indicate the percentage of // traffic to be forwarded to each cluster. The router selects an upstream cluster based on the // weights. message WeightedCluster { message ClusterWeight { // Name of the upstream cluster. The cluster must exist in the // :ref:`cluster manager configuration `. string name = 1 [(validate.rules).string.min_len = 1]; // An integer between 0-100. When a request matches the route, the choice of // an upstream cluster is determined by its weight. The sum of weights // across all entries in the clusters array must add up to 100. google.protobuf.UInt32Value weight = 2 [(validate.rules).uint32.lte = 100]; // Optional endpoint metadata match criteria. Only endpoints in the upstream // cluster with metadata matching that set in metadata_match will be // considered. The filter name should be specified as *envoy.lb*. Metadata metadata_match = 3; } // Specifies one or more upstream clusters associated with the route. repeated ClusterWeight clusters = 1 [(validate.rules).repeated.min_items = 1]; // Specifies the runtime key prefix that should be used to construct the // runtime keys associated with each cluster. When the *runtime_key_prefix* is // specified, the router will look for weights associated with each upstream // cluster under the key *runtime_key_prefix* + "." + *cluster[i].name* where // *cluster[i]* denotes an entry in the clusters array field. If the runtime // key for the cluster does not exist, the value specified in the // configuration file will be used as the default weight. See the :ref:`runtime documentation // ` for how key names map to the underlying implementation. string runtime_key_prefix = 2; } message RouteMatch { oneof path_specifier { option (validate.required) = true; // If specified, the route is a prefix rule meaning that the prefix must // match the beginning of the *:path* header. string prefix = 1; // If specified, the route is an exact path rule meaning that the path must // exactly match the *:path* header once the query string is removed. string path = 2; // If specified, the route is a regular expression rule meaning that the // regex must match the *:path* header once the query string is removed. The entire path // (without the query string) must match the regex. The rule will not match if only a // subsequence of the *:path* header matches the regex. The regex grammar is defined `here // `_. // // Examples: // // * The regex */b[io]t* matches the path */bit* // * The regex */b[io]t* matches the path */bot* // * The regex */b[io]t* does not match the path */bite* // * The regex */b[io]t* does not match the path */bit/bot* string regex = 3; } // Indicates that prefix/path matching should be case insensitive. The default // is true. google.protobuf.BoolValue case_sensitive = 4; // Indicates that the route should additionally match on a runtime key. An // integer between 0-100. Every time the route is considered for a match, a // random number between 0-99 is selected. If the number is <= the value found // in the key (checked first) or, if the key is not present, the default // value, the route is a match (assuming everything also about the route // matches). A runtime route configuration can be used to roll out route changes in a // gradual manner without full code/config deploys. Refer to the // :ref:`traffic shifting ` docs // for additional documentation. RuntimeUInt32 runtime = 5; // Specifies a set of headers that the route should match on. The router will // check the request’s headers against all the specified headers in the route // config. A match will happen if all the headers in the route are present in // the request with the same values (or based on presence if the value field // is not in the config). repeated HeaderMatcher headers = 6; } message CorsPolicy { // Specifies the origins that will be allowed to do CORS requests. repeated string allow_origin = 1; // Specifies the content for the *access-control-allow-methods* header. string allow_methods = 2; // Specifies the content for the *access-control-allow-headers* header. string allow_headers = 3; // Specifies the content for the *access-control-expose-headers* header. string expose_headers = 4; // Specifies the content for the *access-control-max-age* header. string max_age = 5; // Specifies whether the resource allows credentials. google.protobuf.BoolValue allow_credentials = 6; // Specifies if CORS is enabled. Defaults to true. Only effective on route. google.protobuf.BoolValue enabled = 7; } message RouteAction { oneof cluster_specifier { option (validate.required) = true; // Indicates the upstream cluster to which the request should be routed // to. string cluster = 1; // Envoy will determine the cluster to route to by reading the value of the // HTTP header named by cluster_header from the request headers. If the // header is not found or the referenced cluster does not exist, Envoy will // return a 404 response. // // .. attention:: // // Internally, Envoy always uses the HTTP/2 *:authority* header to represent the HTTP/1 // *Host* header. Thus, if attempting to match on *Host*, match on *:authority* instead. string cluster_header = 2; // Multiple upstream clusters can be specified for a given route. The // request is routed to one of the upstream clusters based on weights // assigned to each cluster. See the // :ref:`traffic splitting ` // for additional documentation. WeightedCluster weighted_clusters = 3; } // Optional endpoint metadata match criteria. Only endpoints in the upstream // cluster with metadata matching that set in metadata_match will be // considered. The filter name should be specified as *envoy.lb*. Metadata metadata_match = 4; // Indicates that during forwarding, the matched prefix (or path) should be // swapped with this value. This option allows application URLs to be rooted // at a different path from those exposed at the reverse proxy layer. string prefix_rewrite = 5; oneof host_rewrite_specifier { // Indicates that during forwarding, the host header will be swapped with // this value. string host_rewrite = 6; // Indicates that during forwarding, the host header will be swapped with // the hostname of the upstream host chosen by the cluster manager. This // option is applicable only when the destination cluster for a route is of // type *strict_dns* or *logical_dns*. Setting this to true with other cluster // types has no effect. google.protobuf.BoolValue auto_host_rewrite = 7; } // Specifies the timeout for the route. If not specified, the default is 15s. // // .. note:: // // This timeout includes all retries. See also // :ref:`config_http_filters_router_x-envoy-upstream-rq-timeout-ms`, // :ref:`config_http_filters_router_x-envoy-upstream-rq-per-try-timeout-ms`, and the // :ref:`retry overview `. google.protobuf.Duration timeout = 8; // HTTP retry :ref:`architecture overview `. message RetryPolicy { // Specifies the conditions under which retry takes place. These are the same // conditions documented for :ref:`config_http_filters_router_x-envoy-retry-on` and // :ref:`config_http_filters_router_x-envoy-retry-grpc-on`. string retry_on = 1; // Specifies the allowed number of retries. This parameter is optional and // defaults to 1. These are the same conditions documented for // :ref:`config_http_filters_router_x-envoy-max-retries`. google.protobuf.UInt32Value num_retries = 2; // Specifies a non-zero timeout per retry attempt. This parameter is optional. // The same conditions documented for // :ref:`config_http_filters_router_x-envoy-upstream-rq-per-try-timeout-ms` apply. // // .. note:: // // If left unspecified, Envoy will use the global // :ref:`route timeout ` for the request. // Consequently, when using a :ref:`5xx ` based // retry policy, a request that times out will not be retried as the total timeout budget // would have been exhausted. google.protobuf.Duration per_try_timeout = 3; } // Indicates that the route has a retry policy. RetryPolicy retry_policy = 9; // The router is capable of shadowing traffic from one cluster to another. The current // implementation is "fire and forget," meaning Envoy will not wait for the shadow cluster to // respond before returning the response from the primary cluster. All normal statistics are // collected for the shadow cluster making this feature useful for testing. // // During shadowing, the host/authority header is altered such that *-shadow* is appended. This is // useful for logging. For example, *cluster1* becomes *cluster1-shadow*. message RequestMirrorPolicy { // Specifies the cluster that requests will be mirrored to. The cluster must // exist in the cluster manager configuration. string cluster = 1 [(validate.rules).string.min_len = 1]; // If not specified, all requests to the target cluster will be mirrored. If // specified, Envoy will lookup the runtime key to get the % of requests to // mirror. Valid values are from 0 to 10000, allowing for increments of // 0.01% of requests to be mirrored. If the runtime key is specified in the // configuration but not present in runtime, 0 is the default and thus 0% of // requests will be mirrored. string runtime_key = 2; } // Indicates that the route has a request mirroring policy. RequestMirrorPolicy request_mirror_policy = 10; // Optionally specifies the :ref:`routing priority `. RoutingPriority priority = 11; // Specifies a set of headers that will be added to requests matching this // route. Headers specified at this level are applied before headers from the // enclosing :ref:`envoy_api_msg_VirtualHost` and :ref:`envoy_api_msg_RouteConfiguration`. // For more information see the documentation on :ref:`custom request headers // `. repeated HeaderValueOption request_headers_to_add = 12; // Specifies a set of headers that will be added to responses to requests // matching this route. Headers specified at this level are applied before // headers from the enclosing :ref:`envoy_api_msg_VirtualHost` and // :ref:`envoy_api_msg_RouteConfiguration`. repeated HeaderValueOption response_headers_to_add = 18; // Specifies a list of HTTP headers that should be removed from each response // to requests matching this route. repeated string response_headers_to_remove = 19; // Specifies a set of rate limit configurations that could be applied to the // route. repeated RateLimit rate_limits = 13; // Specifies if the rate limit filter should include the virtual host rate // limits. By default, if the route configured rate limits, the virtual host // :ref:`rate_limits ` are not applied to the request. google.protobuf.BoolValue include_vh_rate_limits = 14; // Specifies the route's hashing policy if the upstream cluster uses a hashing :ref:`load balancer // `. message HashPolicy { message Header { // The name of the request header that will be used to obtain the hash // key. If the request header is not present, no hash will be produced. string header_name = 1 [(validate.rules).string.min_len = 1]; } // Envoy supports two types of cookie affinity: // // 1. Passive. Envoy takes a cookie that's present in the cookies header and // hashes on its value. // // 2. Generated. Envoy generates and sets a cookie with an expiration (TTL) // on the first request from the client in its response to the client, // based on the endpoint the request gets sent to. The client then // presents this on the next and all subsequent requests. The hash of // this is sufficient to ensure these requests get sent to the same // endpoint. The cookie is generated by hashing the source and // destination ports and addresses so that multiple independent HTTP2 // streams on the same connection will independently receive the same // cookie, even if they arrive at the Envoy simultaneously. message Cookie { // The name of the cookie that will be used to obtain the hash key. If the // cookie is not present and ttl below is not set, no hash will be // produced. string name = 1 [(validate.rules).string.min_len = 1]; // If specified, a cookie with the TTL will be generated if the cookie is // not present. google.protobuf.Duration ttl = 2; } message ConnectionProperties { // Hash on source IP address. bool source_ip = 1; } oneof policy_specifier { option (validate.required) = true; // Header hash policy. Header header = 1; // Cookie hash policy. Cookie cookie = 2; // Connection properties hash policy. ConnectionProperties connection_properties = 3; } } // Specifies a list of hash policies to use for ring hash load balancing. Each // hash policy is evaluated individually and the combined result is used to // route the request. The method of combination is deterministic such that // identical lists of hash policies will produce the same hash. Since a hash // policy examines specific parts of a request, it can fail to produce a hash // (i.e. if the hashed header is not present). If (and only if) all configured // hash policies fail to generate a hash, no hash will be produced for // the route. In this case, the behavior is the same as if no hash policies // were specified (i.e. the ring hash load balancer will choose a random // backend). repeated HashPolicy hash_policy = 15; // Indicates that a HTTP/1.1 client connection to this particular route // should be allowed (and expected) to upgrade to a WebSocket connection. The // default is false. // // .. attention:: // // If set to true, Envoy will expect the first request matching this route to // contain WebSocket upgrade headers. If the headers are not present, the // connection will be rejected. If set to true, Envoy will setup plain TCP // proxying between the client and the upstream server. Hence, an upstream // server that rejects the WebSocket upgrade request is also responsible for // closing the associated connection. Until then, Envoy will continue to // proxy data from the client to the upstream server. // // Redirects, timeouts and retries are not supported on routes where websocket upgrades are // allowed. google.protobuf.BoolValue use_websocket = 16; // Indicates that the route has a CORS policy. CorsPolicy cors = 17; } message RedirectAction { // The host portion of the URL will be swapped with this value. string host_redirect = 1; // The path portion of the URL will be swapped with this value. string path_redirect = 2; enum RedirectResponseCode { // Moved Permanently HTTP Status Code - 301. MOVED_PERMANENTLY = 0; // Found HTTP Status Code - 302. FOUND = 1; // See Other HTTP Status Code - 303. SEE_OTHER = 2; // Temporary Redirect HTTP Status Code - 307. TEMPORARY_REDIRECT = 3; // Permanent Redirect HTTP Status Code - 308. PERMANENT_REDIRECT = 4; } // The HTTP status code to use in the redirect response. The default response // code is MOVED_PERMANENTLY (301). RedirectResponseCode response_code = 3; } message Decorator { // The operation name associated with the request matched to this route. If tracing is // enabled, this information will be used as the span name reported for this request. // // .. note:: // // For ingress (inbound) requests, or egress (outbound) responses, this value may be overridden // by the :ref:`x-envoy-decorator-operation // ` header. string operation = 1 [(validate.rules).string.min_len = 1]; } // A route is both a specification of how to match a request as well as an indication of what to do // next (e.g., redirect, forward, rewrite, etc.). // // .. attention:: // // Envoy supports routing on HTTP method via :ref:`header matching // `. message Route { // Route matching parameters. RouteMatch match = 1 [(validate.rules).message.required = true]; oneof action { option (validate.required) = true; // Route request to some upstream cluster. RouteAction route = 2; // Return a redirect. RedirectAction redirect = 3; } // The Metadata field can be used to provide additional information // about the route. It can be used for configuration, stats, and logging. // The metadata should go under the filter namespace that will need it. // For instance, if the metadata is intended for the Router filter, // the filter name should be specified as *envoy.router*. Metadata metadata = 4; // Decorator for the matched route. Decorator decorator = 5; // [#not-implemented-hide:] // Return a 401/403 when auth checks fail. AuthAction auth = 6; } // A virtual cluster is a way of specifying a regex matching rule against // certain important endpoints such that statistics are generated explicitly for // the matched requests. The reason this is useful is that when doing // prefix/path matching Envoy does not always know what the application // considers to be an endpoint. Thus, it’s impossible for Envoy to generically // emit per endpoint statistics. However, often systems have highly critical // endpoints that they wish to get “perfect” statistics on. Virtual cluster // statistics are perfect in the sense that they are emitted on the downstream // side such that they include network level failures. // // Documentation for :ref:`virtual cluster statistics `. // // .. note:: // // Virtual clusters are a useful tool, but we do not recommend setting up a virtual cluster for // every application endpoint. This is both not easily maintainable and as well the matching and // statistics output are not free. message VirtualCluster { // Specifies a regex pattern to use for matching requests. The entire path of the request // must match the regex. The regex grammar used is defined `here // `_. // // Examples: // // * The regex */rides/\d+* matches the path */rides/0* // * The regex */rides/\d+* matches the path */rides/123* // * The regex */rides/\d+* does not match the path */rides/123/456* string pattern = 1 [(validate.rules).string.min_len = 1]; // Specifies the name of the virtual cluster. The virtual cluster name as well // as the virtual host name are used when emitting statistics. The statistics are emitted by the // router filter and are documented :ref:`here `. string name = 2 [(validate.rules).string.min_len = 1]; // Optionally specifies the HTTP method to match on. For example GET, PUT, // etc. RequestMethod method = 3; } // Global rate limiting :ref:`architecture overview `. message RateLimit { // Refers to the stage set in the filter. The rate limit configuration only // applies to filters with the same stage number. The default stage number is // 0. // // .. note:: // // The filter supports a range of 0 - 10 inclusively for stage numbers. google.protobuf.UInt32Value stage = 1 [(validate.rules).uint32.lte = 10]; // The key to be set in runtime to disable this rate limit configuration. string disable_key = 2; message Action { // The following descriptor entry is appended to the descriptor: // // .. code-block:: cpp // // ("source_cluster", "") // // is derived from the :option:`--service-cluster` option. message SourceCluster {} // The following descriptor entry is appended to the descriptor: // // .. code-block:: cpp // // ("destination_cluster", "") // // Once a request matches against a route table rule, a routed cluster is determined by one of // the following :ref:`route table configuration ` // settings: // // * :ref:`cluster ` indicates the upstream cluster // to route to. // * :ref:`weighted_clusters ` // chooses a cluster randomly from a set of clusters with attributed weight. // * :ref:`cluster_header ` indicates which // header in the request contains the target cluster. message DestinationCluster {} // The following descriptor entry is appended when a header contains a key that matches the // *header_name*: // // .. code-block:: cpp // // ("", "") message RequestHeaders { // The header name to be queried from the request headers. The header’s // value is used to populate the value of the descriptor entry for the // descriptor_key. string header_name = 1 [(validate.rules).string.min_len = 1]; // The key to use in the descriptor entry. string descriptor_key = 2 [(validate.rules).string.min_len = 1]; } // The following descriptor entry is appended to the descriptor and is populated using the // trusted address from :ref:`x-forwarded-for `: // // .. code-block:: cpp // // ("remote_address", "") message RemoteAddress {} // The following descriptor entry is appended to the descriptor: // // .. code-block:: cpp // // ("generic_key", "") message GenericKey { // The value to use in the descriptor entry. string descriptor_value = 1 [(validate.rules).string.min_len = 1]; } // The following descriptor entry is appended to the descriptor: // // .. code-block:: cpp // // ("header_match", "") message HeaderValueMatch { // The value to use in the descriptor entry. string descriptor_value = 1 [(validate.rules).string.min_len = 1]; // If set to true, the action will append a descriptor entry when the // request matches the headers. If set to false, the action will append a // descriptor entry when the request does not match the headers. The // default value is true. google.protobuf.BoolValue expect_match = 2; // Specifies a set of headers that the rate limit action should match // on. The action will check the request’s headers against all the // specified headers in the config. A match will happen if all the // headers in the config are present in the request with the same values // (or based on presence if the value field is not in the config). repeated HeaderMatcher headers = 3 [(validate.rules).repeated.min_items = 1]; } oneof action_specifier { option (validate.required) = true; // Rate limit on source cluster. SourceCluster source_cluster = 1; // Rate limit on destination cluster. DestinationCluster destination_cluster = 2; // Rate limit on request headers. RequestHeaders request_headers = 3; // Rate limit on remote address. RemoteAddress remote_address = 4; // Rate limit on a generic key. GenericKey generic_key = 5; // Rate limit on the existence of request headers. HeaderValueMatch header_value_match = 6; } } // A list of actions that are to be applied for this rate limit configuration. // Order matters as the actions are processed sequentially and the descriptor // is composed by appending descriptor entries in that sequence. If an action // cannot append a descriptor entry, no descriptor is generated for the // configuration. See :ref:`composing actions // ` for additional documentation. repeated Action actions = 3 [(validate.rules).string.min_len = 1]; } // .. attention:: // // Internally, Envoy always uses the HTTP/2 *:authority* header to represent the HTTP/1 *Host* // header. Thus, if attempting to match on *Host*, match on *:authority* instead. // // .. attention:: // // To route on HTTP method, use the special HTTP/2 *:method* header. This works for both // HTTP/1 and HTTP/2 as Envoy normalizes headers. E.g., // // .. code-block:: json // // { // "name": ":method", // "value": "POST" // } message HeaderMatcher { // Specifies the name of the header in the request. string name = 1 [(validate.rules).string.min_len = 1]; // Specifies the value of the header. If the value is absent a request that // has the name header will match, regardless of the header’s value. string value = 2; // Specifies whether the header value is a regular // expression or not. Defaults to false. The entire request header value must match the regex. The // rule will not match if only a subsequence of the request header value matches the regex. The // regex grammar used in the value field is defined // `here `_. // // Examples: // // * The regex *\d{3}* matches the value *123* // * The regex *\d{3}* does not match the value *1234* // * The regex *\d{3}* does not match the value *123.456* google.protobuf.BoolValue regex = 3; } // The top level element in the routing configuration is a virtual host. Each virtual host has // a logical name as well as a set of domains that get routed to it based on the incoming request's // host header. This allows a single listener to service multiple top level domain path trees. Once a // virtual host is selected based on the domain, the routes are processed in order to see which // upstream cluster to route to or whether to perform a redirect. message VirtualHost { // The logical name of the virtual host. This is used when emitting certain // statistics but is not relevant for routing. string name = 1 [(validate.rules).string.min_len = 1]; // A list of domains (host/authority header) that will be matched to this // virtual host. Wildcard hosts are supported in the form of “*.foo.com” or // “*-bar.foo.com”. // // .. note:: // // The wildcard will not match the empty string. // e.g. “*-bar.foo.com” will match “baz-bar.foo.com” but not “-bar.foo.com”. // Additionally, a special entry “*” is allowed which will match any // host/authority header. Only a single virtual host in the entire route // configuration can match on “*”. A domain must be unique across all virtual // hosts or the config will fail to load. repeated string domains = 2 [(validate.rules).repeated.min_items = 1]; // The list of routes that will be matched, in order, for incoming requests. // The first route that matches will be used. repeated Route routes = 3; enum TlsRequirementType { // No TLS requirement for the virtual host. NONE = 0; // External requests must use TLS. If a request is external and it is not // using TLS, a 301 redirect will be sent telling the client to use HTTPS. EXTERNAL_ONLY = 1; // All requests must use TLS. If a request is not using TLS, a 301 redirect // will be sent telling the client to use HTTPS. ALL = 2; } // Specifies the type of TLS enforcement the virtual host expects. If this option is not // specified, there is no TLS requirement for the virtual host. TlsRequirementType require_tls = 4; // A list of virtual clusters defined for this virtual host. Virtual clusters // are used for additional statistics gathering. repeated VirtualCluster virtual_clusters = 5; // Specifies a set of rate limit configurations that will be applied to the // virtual host. repeated RateLimit rate_limits = 6; // Specifies a list of HTTP headers that should be added to each request // handled by this virtual host. Headers specified at this level are applied // after headers from enclosed :ref:`envoy_api_msg_RouteAction` and before headers from the // enclosing :ref:`envoy_api_msg_RouteConfiguration`. For more information see the documentation // on :ref:`custom request headers `. repeated HeaderValueOption request_headers_to_add = 7; // Specifies a list of HTTP headers that should be added to each response // handled by this virtual host. Headers specified at this level are applied // after headers from enclosed :ref:`envoy_api_msg_RouteAction` and before headers from the // enclosing :ref:`envoy_api_msg_RouteConfiguration`. repeated HeaderValueOption response_headers_to_add = 10; // Specifies a list of HTTP headers that should be removed from each response // handle by this virtual host. repeated string response_headers_to_remove = 11; // Indicates that the virtual host has a CORS policy. CorsPolicy cors = 8; // [#not-implemented-hide:] // Return a 401/403 when auth checks fail. AuthAction auth = 9; } // * Routing :ref:`architecture overview ` // * HTTP :ref:`router filter ` message RouteConfiguration { // The name of the route configuration. For example, it might match // :ref:`route_config_name ` in // :ref:`envoy_api_msg_filter.network.Rds`. string name = 1; // An array of virtual hosts that make up the route table. repeated VirtualHost virtual_hosts = 2; // Optionally specifies a list of HTTP headers that the connection manager // will consider to be internal only. If they are found on external requests they will be cleaned // prior to filter invocation. See :ref:`config_http_conn_man_headers_x-envoy-internal` for more // information. repeated string internal_only_headers = 3; // Specifies a list of HTTP headers that should be added to each response that // the connection manager encodes. Headers specified at this level are applied // after headers from any enclosed :ref:`envoy_api_msg_VirtualHost` or // :ref:`envoy_api_msg_RouteAction`. repeated HeaderValueOption response_headers_to_add = 4; // Specifies a list of HTTP headers that should be removed from each response // that the connection manager encodes. repeated string response_headers_to_remove = 5; // Specifies a list of HTTP headers that should be added to each request // routed by the HTTP connection manager. Headers specified at this level are // applied after headers from any enclosed :ref:`envoy_api_msg_VirtualHost` or // :ref:`envoy_api_msg_RouteAction`. For more information see the documentation on // :ref:`custom request headers `. repeated HeaderValueOption request_headers_to_add = 6; // An optional boolean that specifies whether the clusters that the route // table refers to will be validated by the cluster manager. If set to true // and a route refers to a non-existent cluster, the route table will not // load. If set to false and a route refers to a non-existent cluster, the // route table will load and the router filter will return a 404 if the route // is selected at runtime. This setting defaults to true if the route table // is statically defined via the :ref:`route_config // ` option. This setting // default to false if the route table is loaded dynamically via the :ref:`rds // ` option. Users // may which to override the default behavior in certain cases (for example // when using CDS with a static route table). google.protobuf.BoolValue validate_clusters = 7; }