syntax = "proto3"; package envoy.api.v2.endpoint; import "envoy/api/v2/core/address.proto"; import "envoy/api/v2/core/base.proto"; import "envoy/api/v2/core/health_check.proto"; import "google/protobuf/wrappers.proto"; import "udpa/annotations/migrate.proto"; import "udpa/annotations/status.proto"; import "validate/validate.proto"; option java_package = "io.envoyproxy.envoy.api.v2.endpoint"; option java_outer_classname = "EndpointComponentsProto"; option java_multiple_files = true; option (udpa.annotations.file_migrate).move_to_package = "envoy.config.endpoint.v3"; option (udpa.annotations.file_status).package_version_status = FROZEN; // [#protodoc-title: Endpoints] // Upstream host identifier. message Endpoint { // The optional health check configuration. message HealthCheckConfig { // Optional alternative health check port value. // // By default the health check address port of an upstream host is the same // as the host's serving address port. This provides an alternative health // check port. Setting this with a non-zero value allows an upstream host // to have different health check address port. uint32 port_value = 1 [(validate.rules).uint32 = {lte: 65535}]; // By default, the host header for L7 health checks is controlled by cluster level configuration // (see: :ref:`host ` and // :ref:`authority `). Setting this // to a non-empty value allows overriding the cluster level configuration for a specific // endpoint. string hostname = 2; } // The upstream host address. // // .. attention:: // // The form of host address depends on the given cluster type. For STATIC or EDS, // it is expected to be a direct IP address (or something resolvable by the // specified :ref:`resolver ` // in the Address). For LOGICAL or STRICT DNS, it is expected to be hostname, // and will be resolved via DNS. core.Address address = 1; // The optional health check configuration is used as configuration for the // health checker to contact the health checked host. // // .. attention:: // // This takes into effect only for upstream clusters with // :ref:`active health checking ` enabled. HealthCheckConfig health_check_config = 2; // The hostname associated with this endpoint. This hostname is not used for routing or address // resolution. If provided, it will be associated with the endpoint, and can be used for features // that require a hostname, like // :ref:`auto_host_rewrite `. string hostname = 3; } // An Endpoint that Envoy can route traffic to. // [#next-free-field: 6] message LbEndpoint { // Upstream host identifier or a named reference. oneof host_identifier { Endpoint endpoint = 1; // [#not-implemented-hide:] string endpoint_name = 5; } // Optional health status when known and supplied by EDS server. core.HealthStatus health_status = 2; // The endpoint metadata specifies values that may be used by the load // balancer to select endpoints in a cluster for a given request. The filter // name should be specified as *envoy.lb*. An example boolean key-value pair // is *canary*, providing the optional canary status of the upstream host. // This may be matched against in a route's // :ref:`RouteAction ` metadata_match field // to subset the endpoints considered in cluster load balancing. core.Metadata metadata = 3; // The optional load balancing weight of the upstream host; at least 1. // Envoy uses the load balancing weight in some of the built in load // balancers. The load balancing weight for an endpoint is divided by the sum // of the weights of all endpoints in the endpoint's locality to produce a // percentage of traffic for the endpoint. This percentage is then further // weighted by the endpoint's locality's load balancing weight from // LocalityLbEndpoints. If unspecified, each host is presumed to have equal // weight in a locality. The sum of the weights of all endpoints in the // endpoint's locality must not exceed uint32_t maximal value (4294967295). google.protobuf.UInt32Value load_balancing_weight = 4 [(validate.rules).uint32 = {gte: 1}]; } // A group of endpoints belonging to a Locality. // One can have multiple LocalityLbEndpoints for a locality, but this is // generally only done if the different groups need to have different load // balancing weights or different priorities. // [#next-free-field: 7] message LocalityLbEndpoints { // Identifies location of where the upstream hosts run. core.Locality locality = 1; // The group of endpoints belonging to the locality specified. repeated LbEndpoint lb_endpoints = 2; // Optional: Per priority/region/zone/sub_zone weight; at least 1. The load // balancing weight for a locality is divided by the sum of the weights of all // localities at the same priority level to produce the effective percentage // of traffic for the locality. The sum of the weights of all localities at // the same priority level must not exceed uint32_t maximal value (4294967295). // // Locality weights are only considered when :ref:`locality weighted load // balancing ` is // configured. These weights are ignored otherwise. If no weights are // specified when locality weighted load balancing is enabled, the locality is // assigned no load. google.protobuf.UInt32Value load_balancing_weight = 3 [(validate.rules).uint32 = {gte: 1}]; // Optional: the priority for this LocalityLbEndpoints. If unspecified this will // default to the highest priority (0). // // Under usual circumstances, Envoy will only select endpoints for the highest // priority (0). In the event all endpoints for a particular priority are // unavailable/unhealthy, Envoy will fail over to selecting endpoints for the // next highest priority group. // // Priorities should range from 0 (highest) to N (lowest) without skipping. uint32 priority = 5 [(validate.rules).uint32 = {lte: 128}]; // Optional: Per locality proximity value which indicates how close this // locality is from the source locality. This value only provides ordering // information (lower the value, closer it is to the source locality). // This will be consumed by load balancing schemes that need proximity order // to determine where to route the requests. // [#not-implemented-hide:] google.protobuf.UInt32Value proximity = 6; }