mirror of
https://github.com/musix-org/musix-oss
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380 lines
16 KiB
Protocol Buffer
380 lines
16 KiB
Protocol Buffer
// Copyright 2019 Google LLC.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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//
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syntax = "proto3";
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package google.monitoring.v3;
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import "google/api/monitored_resource.proto";
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import "google/protobuf/duration.proto";
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import "google/protobuf/timestamp.proto";
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import "google/type/calendar_period.proto";
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option csharp_namespace = "Google.Cloud.Monitoring.V3";
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option go_package = "google.golang.org/genproto/googleapis/monitoring/v3;monitoring";
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option java_multiple_files = true;
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option java_outer_classname = "ServiceMonitoringProto";
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option java_package = "com.google.monitoring.v3";
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option php_namespace = "Google\\Cloud\\Monitoring\\V3";
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// A `Service` is a discrete, autonomous, and network-accessible unit, designed
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// to solve an individual concern
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// ([Wikipedia](https://en.wikipedia.org/wiki/Service-orientation)). In
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// Stackdriver Monitoring, a `Service` acts as the root resource under which
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// operational aspects of the service are accessible.
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message Service {
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// Custom view of service telemetry. Currently a place-holder pending final
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// design.
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message Custom {
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}
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// App Engine service. Learn more at https://cloud.google.com/appengine.
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message AppEngine {
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// The ID of the App Engine module underlying this service. Corresponds to
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// the `module_id` resource label in the `gae_app` monitored resource:
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// https://cloud.google.com/monitoring/api/resources#tag_gae_app
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string module_id = 1;
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}
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// Cloud Endpoints service. Learn more at https://cloud.google.com/endpoints.
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message CloudEndpoints {
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// The name of the Cloud Endpoints service underlying this service.
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// Corresponds to the `service` resource label in the `api` monitored
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// resource: https://cloud.google.com/monitoring/api/resources#tag_api
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string service = 1;
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}
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// Istio service. Learn more at http://istio.io.
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message ClusterIstio {
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// The location of the Kubernetes cluster in which this Istio service is
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// defined. Corresponds to the `location` resource label in `k8s_cluster`
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// resources.
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string location = 1;
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// The name of the Kubernetes cluster in which this Istio service is
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// defined. Corresponds to the `cluster_name` resource label in
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// `k8s_cluster` resources.
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string cluster_name = 2;
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// The namespace of the Istio service underlying this service. Corresponds
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// to the `destination_service_namespace` metric label in Istio metrics.
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string service_namespace = 3;
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// The name of the Istio service underlying this service. Corresponds to the
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// `destination_service_name` metric label in Istio metrics.
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string service_name = 4;
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}
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// Configuration for how to query telemetry on a Service.
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message Telemetry {
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// The full name of the resource that defines this service. Formatted as
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// described in https://cloud.google.com/apis/design/resource_names.
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string resource_name = 1;
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}
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// Resource name for this Service. Of the form
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// `projects/{project_id}/services/{service_id}`.
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string name = 1;
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// Name used for UI elements listing this Service.
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string display_name = 2;
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// REQUIRED. Service-identifying atoms specifying the underlying service.
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oneof identifier {
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// Custom service type.
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Custom custom = 6;
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// Type used for App Engine services.
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AppEngine app_engine = 7;
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// Type used for Cloud Endpoints services.
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CloudEndpoints cloud_endpoints = 8;
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// Type used for Istio services that live in a Kubernetes cluster.
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ClusterIstio cluster_istio = 9;
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}
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// Configuration for how to query telemetry on a Service.
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Telemetry telemetry = 13;
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}
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// A Service-Level Objective (SLO) describes a level of desired good service. It
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// consists of a service-level indicator (SLI), a performance goal, and a period
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// over which the objective is to be evaluated against that goal. The SLO can
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// use SLIs defined in a number of different manners. Typical SLOs might include
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// "99% of requests in each rolling week have latency below 200 milliseconds" or
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// "99.5% of requests in each calendar month return successfully."
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message ServiceLevelObjective {
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// `ServiceLevelObjective.View` determines what form of
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// `ServiceLevelObjective` is returned from `GetServiceLevelObjective`,
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// `ListServiceLevelObjectives`, and `ListServiceLevelObjectiveVersions` RPCs.
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enum View {
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// Same as FULL.
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VIEW_UNSPECIFIED = 0;
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// Return the embedded `ServiceLevelIndicator` in the form in which it was
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// defined. If it was defined using a `BasicSli`, return that `BasicSli`.
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FULL = 2;
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// For `ServiceLevelIndicator`s using `BasicSli` articulation, instead
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// return the `ServiceLevelIndicator` with its mode of computation fully
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// spelled out as a `RequestBasedSli`. For `ServiceLevelIndicator`s using
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// `RequestBasedSli` or `WindowsBasedSli`, return the
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// `ServiceLevelIndicator` as it was provided.
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EXPLICIT = 1;
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}
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// Resource name for this `ServiceLevelObjective`.
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// Of the form
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// `projects/{project_id}/services/{service_id}/serviceLevelObjectives/{slo_name}`.
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string name = 1;
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// Name used for UI elements listing this SLO.
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string display_name = 11;
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// The definition of good service, used to measure and calculate the quality
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// of the `Service`'s performance with respect to a single aspect of service
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// quality.
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ServiceLevelIndicator service_level_indicator = 3;
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// The fraction of service that must be good in order for this objective to be
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// met. `0 < goal <= 0.999`.
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double goal = 4;
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// The time period over which the objective will be evaluated.
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oneof period {
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// A rolling time period, semantically "in the past `<rolling_period>`".
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// Must be an integer multiple of 1 day no larger than 30 days.
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google.protobuf.Duration rolling_period = 5;
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// A calendar period, semantically "since the start of the current
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// `<calendar_period>`". At this time, only `DAY`, `WEEK`, `FORTNIGHT`, and
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// `MONTH` are supported.
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google.type.CalendarPeriod calendar_period = 6;
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}
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}
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// A Service-Level Indicator (SLI) describes the "performance" of a service. For
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// some services, the SLI is well-defined. In such cases, the SLI can be
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// described easily by referencing the well-known SLI and providing the needed
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// parameters. Alternatively, a "custom" SLI can be defined with a query to the
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// underlying metric store. An SLI is defined to be `good_service /
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// total_service` over any queried time interval. The value of performance
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// always falls into the range `0 <= performance <= 1`. A custom SLI describes
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// how to compute this ratio, whether this is by dividing values from a pair of
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// time series, cutting a `Distribution` into good and bad counts, or counting
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// time windows in which the service complies with a criterion. For separation
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// of concerns, a single Service-Level Indicator measures performance for only
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// one aspect of service quality, such as fraction of successful queries or
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// fast-enough queries.
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message ServiceLevelIndicator {
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// Service level indicators can be grouped by whether the "unit" of service
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// being measured is based on counts of good requests or on counts of good
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// time windows
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oneof type {
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// Basic SLI on a well-known service type.
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BasicSli basic_sli = 4;
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// Request-based SLIs
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RequestBasedSli request_based = 1;
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// Windows-based SLIs
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WindowsBasedSli windows_based = 2;
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}
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}
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// An SLI measuring performance on a well-known service type. Performance will
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// be computed on the basis of pre-defined metrics. The type of the
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// `service_resource` determines the metrics to use and the
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// `service_resource.labels` and `metric_labels` are used to construct a
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// monitoring filter to filter that metric down to just the data relevant to
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// this service.
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message BasicSli {
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// Future parameters for the availability SLI.
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message AvailabilityCriteria {
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}
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// Parameters for a latency threshold SLI.
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message LatencyCriteria {
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// Good service is defined to be the count of requests made to this service
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// that return in no more than `threshold`.
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google.protobuf.Duration threshold = 3;
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}
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// OPTIONAL: The set of RPCs to which this SLI is relevant. Telemetry from
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// other methods will not be used to calculate performance for this SLI. If
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// omitted, this SLI applies to all the Service's methods. For service types
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// that don't support breaking down by method, setting this field will result
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// in an error.
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repeated string method = 7;
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// OPTIONAL: The set of locations to which this SLI is relevant. Telemetry
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// from other locations will not be used to calculate performance for this
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// SLI. If omitted, this SLI applies to all locations in which the Service has
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// activity. For service types that don't support breaking down by location,
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// setting this field will result in an error.
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repeated string location = 8;
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// OPTIONAL: The set of API versions to which this SLI is relevant. Telemetry
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// from other API versions will not be used to calculate performance for this
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// SLI. If omitted, this SLI applies to all API versions. For service types
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// that don't support breaking down by version, setting this field will result
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// in an error.
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repeated string version = 9;
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// This SLI can be evaluated on the basis of availability or latency.
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oneof sli_criteria {
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// Good service is defined to be the count of requests made to this service
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// that return successfully.
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AvailabilityCriteria availability = 2;
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// Good service is defined to be the count of requests made to this service
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// that are fast enough with respect to `latency.threshold`.
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LatencyCriteria latency = 3;
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}
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}
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// Range of numerical values, inclusive of `min` and exclusive of `max`. If the
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// open range "< range.max" is desired, set `range.min = -infinity`. If the open
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// range ">= range.min" is desired, set `range.max = infinity`.
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message Range {
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// Range minimum.
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double min = 1;
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// Range maximum.
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double max = 2;
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}
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// Service Level Indicators for which atomic units of service are counted
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// directly.
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message RequestBasedSli {
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// The means to compute a ratio of `good_service` to `total_service`.
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oneof method {
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// `good_total_ratio` is used when the ratio of `good_service` to
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// `total_service` is computed from two `TimeSeries`.
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TimeSeriesRatio good_total_ratio = 1;
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// `distribution_cut` is used when `good_service` is a count of values
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// aggregated in a `Distribution` that fall into a good range. The
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// `total_service` is the total count of all values aggregated in the
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// `Distribution`.
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DistributionCut distribution_cut = 3;
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}
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}
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// A `TimeSeriesRatio` specifies two `TimeSeries` to use for computing the
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// `good_service / total_service` ratio. The specified `TimeSeries` must have
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// `ValueType = DOUBLE` or `ValueType = INT64` and must have `MetricKind =
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// DELTA` or `MetricKind = CUMULATIVE`. The `TimeSeriesRatio` must specify
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// exactly two of good, bad, and total, and the relationship `good_service +
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// bad_service = total_service` will be assumed.
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message TimeSeriesRatio {
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// A [monitoring filter](https://cloud.google.com/monitoring/api/v3/filters)
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// specifying a `TimeSeries` quantifying good service provided. Must have
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// `ValueType = DOUBLE` or `ValueType = INT64` and must have `MetricKind =
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// DELTA` or `MetricKind = CUMULATIVE`.
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string good_service_filter = 4;
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// A [monitoring filter](https://cloud.google.com/monitoring/api/v3/filters)
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// specifying a `TimeSeries` quantifying bad service, either demanded service
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// that was not provided or demanded service that was of inadequate quality.
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// Must have `ValueType = DOUBLE` or `ValueType = INT64` and must have
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// `MetricKind = DELTA` or `MetricKind = CUMULATIVE`.
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string bad_service_filter = 5;
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// A [monitoring filter](https://cloud.google.com/monitoring/api/v3/filters)
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// specifying a `TimeSeries` quantifying total demanded service. Must have
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// `ValueType = DOUBLE` or `ValueType = INT64` and must have `MetricKind =
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// DELTA` or `MetricKind = CUMULATIVE`.
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string total_service_filter = 6;
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}
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// A `DistributionCut` defines a `TimeSeries` and thresholds used for measuring
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// good service and total service. The `TimeSeries` must have `ValueType =
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// DISTRIBUTION` and `MetricKind = DELTA` or `MetricKind = CUMULATIVE`. The
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// computed `good_service` will be the count of values x in the `Distribution`
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// such that `range.min <= x < range.max`.
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message DistributionCut {
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// A [monitoring filter](https://cloud.google.com/monitoring/api/v3/filters)
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// specifying a `TimeSeries` aggregating values. Must have `ValueType =
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// DISTRIBUTION` and `MetricKind = DELTA` or `MetricKind = CUMULATIVE`.
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string distribution_filter = 4;
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// Range of values considered "good." For a one-sided range, set one bound to
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// an infinite value.
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Range range = 5;
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}
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// A `WindowsBasedSli` defines `good_service` as the count of time windows for
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// which the provided service was of good quality. Criteria for determining
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// if service was good are embedded in the `window_criterion`.
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message WindowsBasedSli {
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// A `PerformanceThreshold` is used when each window is good when that window
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// has a sufficiently high `performance`.
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message PerformanceThreshold {
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// The means, either a request-based SLI or a basic SLI, by which to compute
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// performance over a window.
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oneof type {
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// `RequestBasedSli` to evaluate to judge window quality.
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RequestBasedSli performance = 1;
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// `BasicSli` to evaluate to judge window quality.
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BasicSli basic_sli_performance = 3;
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}
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// If window `performance >= threshold`, the window is counted as good.
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double threshold = 2;
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}
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// A `MetricRange` is used when each window is good when the value x of a
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// single `TimeSeries` satisfies `range.min <= x < range.max`. The provided
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// `TimeSeries` must have `ValueType = INT64` or `ValueType = DOUBLE` and
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// `MetricKind = GAUGE`.
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message MetricRange {
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// A [monitoring filter](https://cloud.google.com/monitoring/api/v3/filters)
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// specifying the `TimeSeries` to use for evaluating window quality.
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string time_series = 1;
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// Range of values considered "good." For a one-sided range, set one bound
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// to an infinite value.
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Range range = 4;
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}
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// The criterion to use for evaluating window goodness.
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oneof window_criterion {
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// A [monitoring filter](https://cloud.google.com/monitoring/api/v3/filters)
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// specifying a `TimeSeries` with `ValueType = BOOL`. The window is good if
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// any `true` values appear in the window.
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string good_bad_metric_filter = 5;
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// A window is good if its `performance` is high enough.
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PerformanceThreshold good_total_ratio_threshold = 2;
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// A window is good if the metric's value is in a good range, averaged
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// across returned streams.
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MetricRange metric_mean_in_range = 6;
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// A window is good if the metric's value is in a good range, summed across
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// returned streams.
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MetricRange metric_sum_in_range = 7;
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}
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// Duration over which window quality is evaluated. Must be an integer
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// fraction of a day and at least `60s`.
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google.protobuf.Duration window_period = 4;
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}
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