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syntax = "proto3";
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package envoy.api.v2;
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import "api/base.proto";
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import "api/discovery.proto";
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import "api/health_check.proto";
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import "google/api/annotations.proto";
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import "google/protobuf/duration.proto";
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import "google/protobuf/wrappers.proto";
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service EndpointDiscoveryService {
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// The resource_names field in DiscoveryRequest specifies a list of clusters
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// to subscribe to updates for.
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rpc StreamEndpoints(stream DiscoveryRequest)
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returns (stream DiscoveryResponse) {
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}
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rpc FetchEndpoints(DiscoveryRequest)
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returns (DiscoveryResponse) {
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option (google.api.http) = {
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post: "/v2/discovery:endpoints"
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body: "*"
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};
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}
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// Advanced API to allow for multi-dimensional load balancing by remote
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// server. For receiving LB assignments, the steps are:
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// 1, The management server is configured with per cluster/zone/load metric
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// capacity configuration. The capacity configuration definition is
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// outside of the scope of this document.
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// 2. Envoy issues a standard {Stream,Fetch}Endpoints request for the clusters
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// to balance.
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//
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// Independently, Envoy will initiate a StreamLoadStats bidi stream with a
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// management server:
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// 1. Once a connection establishes, the management server publishes a
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// LoadStatsResponse for all clusters it is interested in learning load
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// stats about.
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// 2. For each cluster, Envoy load balances incoming traffic to upstream hosts
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// based on per-zone weights and/or per-instance weights (if specified)
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// based on intra-zone LbPolicy. This information comes from the above
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// {Stream,Fetch}Endpoints.
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// 3. When upstream hosts reply, they optionally add header <define header
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// name> with ASCII representation of EndpointLoadMetricStats.
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// 4. Envoy aggregates load reports over the period of time given to it in
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// LoadStatsResponse.load_reporting_interval. This includes aggregation
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// stats Envoy maintains by itself (total_requests, rpc_errors etc.) as
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// well as load metrics from upstream hosts.
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// 5. When the timer of load_reporting_interval expires, Envoy sends new
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// LoadStatsRequest filled with load reports for each cluster.
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// 6. The management server uses the load reports from all reported Envoys
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// from around the world, computes global assignment and prepares traffic
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// assignment destined for each zone Envoys are located in. Goto 2.
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rpc StreamLoadStats(stream LoadStatsRequest)
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returns (stream LoadStatsResponse) {
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}
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}
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message LbEndpoint {
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Endpoint endpoint = 1;
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// Optional health status when known and supplied by EDS server.
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HealthStatus health_status = 2;
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// The endpoint metadata specifies values that may be used by the load
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// balancer to select endpoints in a cluster for a given request. The filter
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// name should be specified as "envoy.lb". An example boolean key-value pair
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// is "canary", providing the optional canary status of the upstream host.
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// This may be matched against in a route's ForwardAction metadata_match field
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// to subset the endpoints considered in cluster load balancing.
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// TODO(htuch: [V2-API-DIFF] Need to plumb this through Envoy and have
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// everywhere that canary is used be capable of working on metadata.
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Metadata metadata = 3;
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// The optional load balancing weight of the upstream host, in the range 1 -
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// 128. Envoy uses the load balancing weight in some of the built in load
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// balancers. The load balancing weight for an endpoint is divided by the sum
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// of the weights of all endpoints in the endpoint's locality to produce a
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// percentage of traffic for the endpoint. This percentage is then further
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// weighted by the endpoint's locality's load balancing weight from
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// LocalityLbEndpoints. If unspecified, each host is presumed to have equal
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// weight in a locality.
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// The limit of 128 is somewhat arbitrary, but is applied due to performance
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// concerns with the current implementation and can be removed when
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// https://github.com/envoyproxy/envoy/issues/1285 is fixed.
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google.protobuf.UInt32Value load_balancing_weight = 4;
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}
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// A group of endpoints belonging to a Locality.
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// One can have multiple LocalityLbEndpoints for a locality, but this is
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// generally only done if the different groups need to have different load
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// balancing weights or different priorities.
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message LocalityLbEndpoints {
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Locality locality = 1;
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repeated LbEndpoint lb_endpoints = 2;
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// Optional: Per priority/region/zone/sub_zone weight - range 1-128. The load balancing
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// weight for a locality is divided by the sum of the weights of all
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// localities at the same priority level to produce the effective percentage of traffic
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// for the locality.
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//
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// Weights must be specified for either all localities in a given priority
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// level or none.
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//
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// If unspecified, each locality is presumed to have equal weight in a
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// cluster.
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//
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// The limit of 128 is somewhat arbitrary, but is applied due to performance
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// concerns with the current implementation and can be removed when
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// https://github.com/envoyproxy/envoy/issues/1285 is fixed.
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google.protobuf.UInt32Value load_balancing_weight = 3;
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// Optional: the priority for this LocalityLbEndpoints. If unspecified this will
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// default to the highest priority (0).
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//
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// Under usual circumstances, Envoy will only select endpoints for the highest
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// priority (0). In the event all endpoints for a particular priority are
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// unavailable/unhealthy, Envoy will fail over to selecting endpoints for the
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// next highest priority group.
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//
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// Priorities should range from 0 (highest) to N (lowest) without skipping.
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google.protobuf.UInt32Value priority = 5;
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}
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// Example load report from a single request:
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//
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// [metric name, metric value]
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// * cpu_seconds, 0.7
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// * flash_utilization, 75
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//
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// When aggregating Envoy needs to count how many request's load reports
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// included each metric type, so Envoy can account for requests that don't
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// include that metric type. e.g.:
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//
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// [name, count, sum of values]
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// * cpu_seconds, 10, 17.5
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// * flash_utilization, 5, 375
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message EndpointLoadMetricStats {
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// Name of the metric; may be empty.
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string metric_name = 1;
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// Number of calls that finished and included this metric.
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uint64 num_requests_finished_with_metric = 2;
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// Sum of metric values across all calls that finished with this metric for
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// load_reporting_interval.
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double total_metric_value = 3;
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}
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// These are stats Envoy reports to GLB every so often. Report frequency is
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// defined by LoadAssignmentResponse.interval
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// Stats per upstream region/zone and optionally per subzone
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message UpstreamLocalityStats {
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// Name of zone, region and optionally endpoint group this metrics was
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// collected from. Zone and region names could be empty if unknown.
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Locality locality = 1;
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// The total number of requests sent by this Envoy since the last report. A
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// single HTTP or gRPC request or stream is counted as one request. A TCP
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// connection is also treated as one request. There is no explicit
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// total_requests field below for a locality, but it may be inferred from:
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// total_requests = total_successful_requests + total_requests_in_progress +
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// total_error_requests
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// The total number of requests successfully completed by the endpoints in the
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// locality. These include non-5xx responses for HTTP, where errors
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// originate at the client and the endpoint responded successfuly. For gRPC,
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// the grpc-status values are those not covered by total_error_requests below.
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uint64 total_successful_requests = 2;
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// The total number of unfinished requests
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uint64 total_requests_in_progress = 3;
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// The total number of requests that failed due to errors at the endpoint.
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// For HTTP these are responses with 5xx status codes and for gRPC the
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// grpc-status values {DeadlineExceeded, Unimplemented, Internal,
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// Unavailable, Unknown, DataLoss}.
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uint64 total_error_requests = 4;
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// Stats for multi-dimensional load balancing.
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repeated EndpointLoadMetricStats load_metric_stats = 5;
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}
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// Per cluster stats
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message ClusterStats {
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string cluster_name = 1;
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// Need at least one.
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repeated UpstreamLocalityStats upstream_locality_stats = 2;
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// Cluster-level stats such as total_successful_requests may be computed by
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// summing upstream_locality_stats. In addition, below there are additional
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// cluster-wide stats. The following total_requests equality holds at the
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// cluster-level:
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// total_requests = sum_locality(total_successful_requests) +
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// sum_locality(total_requests_in_progress) +
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// sum_locality(total_error_requests) + total_dropped_requests
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// The total number of dropped requests. This covers requests
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// deliberately dropped by the drop_overload policy and circuit breaking.
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uint64 total_dropped_requests = 3;
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}
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message LoadStatsRequest {
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Node node = 1; // zone/region where this Envoy runs
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repeated ClusterStats cluster_stats = 2;
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}
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// Each route from RDS will map to a single cluster or traffic split across
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// clusters using weights expressed in the RDS WeightedCluster.
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//
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// With EDS, each cluster is treated independently from a LB perspective, with
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// LB taking place between the Localities within a cluster and at a finer
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// granularity between the hosts within a locality. For a given cluster, the
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// effective weight of a host is its load_balancing_weight multiplied by the
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// load_balancing_weight of its Locality.
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message ClusterLoadAssignment {
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string cluster_name = 1;
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repeated LocalityLbEndpoints endpoints = 2;
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message Policy {
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// Percentage of traffic (0-100) that should be dropped. This
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// action allows protection of upstream hosts should they unable to
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// recover from an outage or should they be unable to autoscale and hence
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// overall incoming traffic volume need to be trimmed to protect them.
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// [V2-API-DIFF] This is known as maintenance mode in v1.
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double drop_overload = 1;
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}
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Policy policy = 4;
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}
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message LoadStatsResponse {
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// Clusters to report stats for.
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repeated string clusters = 1;
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// The default is 10 seconds.
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google.protobuf.Duration load_reporting_interval = 2;
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}
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