// Copyright 2021 Google LLC // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. syntax = "proto3"; package google.api.servicecontrol.v1; import "google/api/distribution.proto"; option cc_enable_arenas = true; option csharp_namespace = "Google.Cloud.ServiceControl.V1"; option go_package = "google.golang.org/genproto/googleapis/api/servicecontrol/v1;servicecontrol"; option java_multiple_files = true; option java_outer_classname = "DistributionProto"; option java_package = "com.google.api.servicecontrol.v1"; option php_namespace = "Google\\Cloud\\ServiceControl\\V1"; option ruby_package = "Google::Cloud::ServiceControl::V1"; // Distribution represents a frequency distribution of double-valued sample // points. It contains the size of the population of sample points plus // additional optional information: // // - the arithmetic mean of the samples // - the minimum and maximum of the samples // - the sum-squared-deviation of the samples, used to compute variance // - a histogram of the values of the sample points message Distribution { // Describing buckets with constant width. message LinearBuckets { // The number of finite buckets. With the underflow and overflow buckets, // the total number of buckets is `num_finite_buckets` + 2. // See comments on `bucket_options` for details. int32 num_finite_buckets = 1; // The i'th linear bucket covers the interval // [offset + (i-1) * width, offset + i * width) // where i ranges from 1 to num_finite_buckets, inclusive. // Must be strictly positive. double width = 2; // The i'th linear bucket covers the interval // [offset + (i-1) * width, offset + i * width) // where i ranges from 1 to num_finite_buckets, inclusive. double offset = 3; } // Describing buckets with exponentially growing width. message ExponentialBuckets { // The number of finite buckets. With the underflow and overflow buckets, // the total number of buckets is `num_finite_buckets` + 2. // See comments on `bucket_options` for details. int32 num_finite_buckets = 1; // The i'th exponential bucket covers the interval // [scale * growth_factor^(i-1), scale * growth_factor^i) // where i ranges from 1 to num_finite_buckets inclusive. // Must be larger than 1.0. double growth_factor = 2; // The i'th exponential bucket covers the interval // [scale * growth_factor^(i-1), scale * growth_factor^i) // where i ranges from 1 to num_finite_buckets inclusive. // Must be > 0. double scale = 3; } // Describing buckets with arbitrary user-provided width. message ExplicitBuckets { // 'bound' is a list of strictly increasing boundaries between // buckets. Note that a list of length N-1 defines N buckets because // of fenceposting. See comments on `bucket_options` for details. // // The i'th finite bucket covers the interval // [bound[i-1], bound[i]) // where i ranges from 1 to bound_size() - 1. Note that there are no // finite buckets at all if 'bound' only contains a single element; in // that special case the single bound defines the boundary between the // underflow and overflow buckets. // // bucket number lower bound upper bound // i == 0 (underflow) -inf bound[i] // 0 < i < bound_size() bound[i-1] bound[i] // i == bound_size() (overflow) bound[i-1] +inf repeated double bounds = 1; } // The total number of samples in the distribution. Must be >= 0. int64 count = 1; // The arithmetic mean of the samples in the distribution. If `count` is // zero then this field must be zero. double mean = 2; // The minimum of the population of values. Ignored if `count` is zero. double minimum = 3; // The maximum of the population of values. Ignored if `count` is zero. double maximum = 4; // The sum of squared deviations from the mean: // Sum[i=1..count]((x_i - mean)^2) // where each x_i is a sample values. If `count` is zero then this field // must be zero, otherwise validation of the request fails. double sum_of_squared_deviation = 5; // The number of samples in each histogram bucket. `bucket_counts` are // optional. If present, they must sum to the `count` value. // // The buckets are defined below in `bucket_option`. There are N buckets. // `bucket_counts[0]` is the number of samples in the underflow bucket. // `bucket_counts[1]` to `bucket_counts[N-1]` are the numbers of samples // in each of the finite buckets. And `bucket_counts[N] is the number // of samples in the overflow bucket. See the comments of `bucket_option` // below for more details. // // Any suffix of trailing zeros may be omitted. repeated int64 bucket_counts = 6; // Defines the buckets in the histogram. `bucket_option` and `bucket_counts` // must be both set, or both unset. // // Buckets are numbered in the range of [0, N], with a total of N+1 buckets. // There must be at least two buckets (a single-bucket histogram gives // no information that isn't already provided by `count`). // // The first bucket is the underflow bucket which has a lower bound // of -inf. The last bucket is the overflow bucket which has an // upper bound of +inf. All other buckets (if any) are called "finite" // buckets because they have finite lower and upper bounds. As described // below, there are three ways to define the finite buckets. // // (1) Buckets with constant width. // (2) Buckets with exponentially growing widths. // (3) Buckets with arbitrary user-provided widths. // // In all cases, the buckets cover the entire real number line (-inf, // +inf). Bucket upper bounds are exclusive and lower bounds are // inclusive. The upper bound of the underflow bucket is equal to the // lower bound of the smallest finite bucket; the lower bound of the // overflow bucket is equal to the upper bound of the largest finite // bucket. oneof bucket_option { // Buckets with constant width. LinearBuckets linear_buckets = 7; // Buckets with exponentially growing width. ExponentialBuckets exponential_buckets = 8; // Buckets with arbitrary user-provided width. ExplicitBuckets explicit_buckets = 9; } // Example points. Must be in increasing order of `value` field. repeated google.api.Distribution.Exemplar exemplars = 10; }