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monitoring-gen.go
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monitoring-gen.go
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// Copyright 2019 Google LLC.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// Code generated file. DO NOT EDIT.
// Package monitoring provides access to the Stackdriver Monitoring API.
//
// This package is DEPRECATED. Use package cloud.google.com/go/monitoring/apiv3 instead.
//
// For product documentation, see: https://cloud.google.com/monitoring/api/
//
// Creating a client
//
// Usage example:
//
// import "google.golang.org/api/monitoring/v1"
// ...
// ctx := context.Background()
// monitoringService, err := monitoring.NewService(ctx)
//
// In this example, Google Application Default Credentials are used for authentication.
//
// For information on how to create and obtain Application Default Credentials, see https://developers.google.com/identity/protocols/application-default-credentials.
//
// Other authentication options
//
// By default, all available scopes (see "Constants") are used to authenticate. To restrict scopes, use option.WithScopes:
//
// monitoringService, err := monitoring.NewService(ctx, option.WithScopes(monitoring.MonitoringWriteScope))
//
// To use an API key for authentication (note: some APIs do not support API keys), use option.WithAPIKey:
//
// monitoringService, err := monitoring.NewService(ctx, option.WithAPIKey("AIza..."))
//
// To use an OAuth token (e.g., a user token obtained via a three-legged OAuth flow), use option.WithTokenSource:
//
// config := &oauth2.Config{...}
// // ...
// token, err := config.Exchange(ctx, ...)
// monitoringService, err := monitoring.NewService(ctx, option.WithTokenSource(config.TokenSource(ctx, token)))
//
// See https://godoc.org/google.golang.org/api/option/ for details on options.
package monitoring // import "google.golang.org/api/monitoring/v1"
import (
"bytes"
"context"
"encoding/json"
"errors"
"fmt"
"io"
"net/http"
"net/url"
"strconv"
"strings"
googleapi "google.golang.org/api/googleapi"
gensupport "google.golang.org/api/internal/gensupport"
option "google.golang.org/api/option"
htransport "google.golang.org/api/transport/http"
)
// Always reference these packages, just in case the auto-generated code
// below doesn't.
var _ = bytes.NewBuffer
var _ = strconv.Itoa
var _ = fmt.Sprintf
var _ = json.NewDecoder
var _ = io.Copy
var _ = url.Parse
var _ = gensupport.MarshalJSON
var _ = googleapi.Version
var _ = errors.New
var _ = strings.Replace
var _ = context.Canceled
const apiId = "monitoring:v1"
const apiName = "monitoring"
const apiVersion = "v1"
const basePath = "https://monitoring.googleapis.com/"
// OAuth2 scopes used by this API.
const (
// View and manage your data across Google Cloud Platform services
CloudPlatformScope = "https://www.googleapis.com/auth/cloud-platform"
// View and write monitoring data for all of your Google and third-party
// Cloud and API projects
MonitoringScope = "https://www.googleapis.com/auth/monitoring"
// View monitoring data for all of your Google Cloud and third-party
// projects
MonitoringReadScope = "https://www.googleapis.com/auth/monitoring.read"
// Publish metric data to your Google Cloud projects
MonitoringWriteScope = "https://www.googleapis.com/auth/monitoring.write"
)
// NewService creates a new Service.
func NewService(ctx context.Context, opts ...option.ClientOption) (*Service, error) {
scopesOption := option.WithScopes(
"https://www.googleapis.com/auth/cloud-platform",
"https://www.googleapis.com/auth/monitoring",
"https://www.googleapis.com/auth/monitoring.read",
"https://www.googleapis.com/auth/monitoring.write",
)
// NOTE: prepend, so we don't override user-specified scopes.
opts = append([]option.ClientOption{scopesOption}, opts...)
client, endpoint, err := htransport.NewClient(ctx, opts...)
if err != nil {
return nil, err
}
s, err := New(client)
if err != nil {
return nil, err
}
if endpoint != "" {
s.BasePath = endpoint
}
return s, nil
}
// New creates a new Service. It uses the provided http.Client for requests.
//
// Deprecated: please use NewService instead.
// To provide a custom HTTP client, use option.WithHTTPClient.
// If you are using google.golang.org/api/googleapis/transport.APIKey, use option.WithAPIKey with NewService instead.
func New(client *http.Client) (*Service, error) {
if client == nil {
return nil, errors.New("client is nil")
}
s := &Service{client: client, BasePath: basePath}
s.Projects = NewProjectsService(s)
return s, nil
}
type Service struct {
client *http.Client
BasePath string // API endpoint base URL
UserAgent string // optional additional User-Agent fragment
Projects *ProjectsService
}
func (s *Service) userAgent() string {
if s.UserAgent == "" {
return googleapi.UserAgent
}
return googleapi.UserAgent + " " + s.UserAgent
}
func NewProjectsService(s *Service) *ProjectsService {
rs := &ProjectsService{s: s}
rs.Dashboards = NewProjectsDashboardsService(s)
return rs
}
type ProjectsService struct {
s *Service
Dashboards *ProjectsDashboardsService
}
func NewProjectsDashboardsService(s *Service) *ProjectsDashboardsService {
rs := &ProjectsDashboardsService{s: s}
return rs
}
type ProjectsDashboardsService struct {
s *Service
}
// Aggregation: Describes how to combine multiple time series to provide
// different views of the data. Aggregation consists of an alignment
// step on individual time series (alignment_period and
// per_series_aligner) followed by an optional reduction step of the
// data across the aligned time series (cross_series_reducer and
// group_by_fields). For more details, see Aggregation.
type Aggregation struct {
// AlignmentPeriod: The alignment period for per-time series alignment.
// If present, alignmentPeriod must be at least 60 seconds. After
// per-time series alignment, each time series will contain data points
// only on the period boundaries. If perSeriesAligner is not specified
// or equals ALIGN_NONE, then this field is ignored. If perSeriesAligner
// is specified and does not equal ALIGN_NONE, then this field must be
// defined; otherwise an error is returned.
AlignmentPeriod string `json:"alignmentPeriod,omitempty"`
// CrossSeriesReducer: The approach to be used to combine time series.
// Not all reducer functions may be applied to all time series,
// depending on the metric type and the value type of the original time
// series. Reduction may change the metric type of value type of the
// time series.Time series data must be aligned in order to perform
// cross-time series reduction. If crossSeriesReducer is specified, then
// perSeriesAligner must be specified and not equal ALIGN_NONE and
// alignmentPeriod must be specified; otherwise, an error is returned.
//
// Possible values:
// "REDUCE_NONE" - No cross-time series reduction. The output of the
// aligner is returned.
// "REDUCE_MEAN" - Reduce by computing the mean across time series for
// each alignment period. This reducer is valid for delta and gauge
// metrics with numeric or distribution values. The value type of the
// output is DOUBLE.
// "REDUCE_MIN" - Reduce by computing the minimum across time series
// for each alignment period. This reducer is valid for delta and gauge
// metrics with numeric values. The value type of the output is the same
// as the value type of the input.
// "REDUCE_MAX" - Reduce by computing the maximum across time series
// for each alignment period. This reducer is valid for delta and gauge
// metrics with numeric values. The value type of the output is the same
// as the value type of the input.
// "REDUCE_SUM" - Reduce by computing the sum across time series for
// each alignment period. This reducer is valid for delta and gauge
// metrics with numeric and distribution values. The value type of the
// output is the same as the value type of the input.
// "REDUCE_STDDEV" - Reduce by computing the standard deviation across
// time series for each alignment period. This reducer is valid for
// delta and gauge metrics with numeric or distribution values. The
// value type of the output is DOUBLE.
// "REDUCE_COUNT" - Reduce by computing the count of data points
// across time series for each alignment period. This reducer is valid
// for delta and gauge metrics of numeric, Boolean, distribution, and
// string value type. The value type of the output is INT64.
// "REDUCE_COUNT_TRUE" - Reduce by computing the count of True-valued
// data points across time series for each alignment period. This
// reducer is valid for delta and gauge metrics of Boolean value type.
// The value type of the output is INT64.
// "REDUCE_COUNT_FALSE" - Reduce by computing the count of
// False-valued data points across time series for each alignment
// period. This reducer is valid for delta and gauge metrics of Boolean
// value type. The value type of the output is INT64.
// "REDUCE_FRACTION_TRUE" - Reduce by computing the fraction of
// True-valued data points across time series for each alignment period.
// This reducer is valid for delta and gauge metrics of Boolean value
// type. The output value is in the range 0, 1 and has value type
// DOUBLE.
// "REDUCE_PERCENTILE_99" - Reduce by computing 99th percentile of
// data points across time series for each alignment period. This
// reducer is valid for gauge and delta metrics of numeric and
// distribution type. The value of the output is DOUBLE
// "REDUCE_PERCENTILE_95" - Reduce by computing 95th percentile of
// data points across time series for each alignment period. This
// reducer is valid for gauge and delta metrics of numeric and
// distribution type. The value of the output is DOUBLE
// "REDUCE_PERCENTILE_50" - Reduce by computing 50th percentile of
// data points across time series for each alignment period. This
// reducer is valid for gauge and delta metrics of numeric and
// distribution type. The value of the output is DOUBLE
// "REDUCE_PERCENTILE_05" - Reduce by computing 5th percentile of data
// points across time series for each alignment period. This reducer is
// valid for gauge and delta metrics of numeric and distribution type.
// The value of the output is DOUBLE
CrossSeriesReducer string `json:"crossSeriesReducer,omitempty"`
// GroupByFields: The set of fields to preserve when crossSeriesReducer
// is specified. The groupByFields determine how the time series are
// partitioned into subsets prior to applying the aggregation function.
// Each subset contains time series that have the same value for each of
// the grouping fields. Each individual time series is a member of
// exactly one subset. The crossSeriesReducer is applied to each subset
// of time series. It is not possible to reduce across different
// resource types, so this field implicitly contains resource.type.
// Fields not specified in groupByFields are aggregated away. If
// groupByFields is not specified and all the time series have the same
// resource type, then the time series are aggregated into a single
// output time series. If crossSeriesReducer is not defined, this field
// is ignored.
GroupByFields []string `json:"groupByFields,omitempty"`
// PerSeriesAligner: The approach to be used to align individual time
// series. Not all alignment functions may be applied to all time
// series, depending on the metric type and value type of the original
// time series. Alignment may change the metric type or the value type
// of the time series.Time series data must be aligned in order to
// perform cross-time series reduction. If crossSeriesReducer is
// specified, then perSeriesAligner must be specified and not equal
// ALIGN_NONE and alignmentPeriod must be specified; otherwise, an error
// is returned.
//
// Possible values:
// "ALIGN_NONE" - No alignment. Raw data is returned. Not valid if
// cross-time series reduction is requested. The value type of the
// result is the same as the value type of the input.
// "ALIGN_DELTA" - Align and convert to delta metric type. This
// alignment is valid for cumulative metrics and delta metrics. Aligning
// an existing delta metric to a delta metric requires that the
// alignment period be increased. The value type of the result is the
// same as the value type of the input.One can think of this aligner as
// a rate but without time units; that is, the output is conceptually
// (second_point - first_point).
// "ALIGN_RATE" - Align and convert to a rate. This alignment is valid
// for cumulative metrics and delta metrics with numeric values. The
// output is a gauge metric with value type DOUBLE.One can think of this
// aligner as conceptually providing the slope of the line that passes
// through the value at the start and end of the window. In other words,
// this is conceptually ((y1 - y0)/(t1 - t0)), and the output unit is
// one that has a "/time" dimension.If, by rate, you are looking for
// percentage change, see the ALIGN_PERCENT_CHANGE aligner option.
// "ALIGN_INTERPOLATE" - Align by interpolating between adjacent
// points around the period boundary. This alignment is valid for gauge
// metrics with numeric values. The value type of the result is the same
// as the value type of the input.
// "ALIGN_NEXT_OLDER" - Align by shifting the oldest data point before
// the period boundary to the boundary. This alignment is valid for
// gauge metrics. The value type of the result is the same as the value
// type of the input.
// "ALIGN_MIN" - Align time series via aggregation. The resulting data
// point in the alignment period is the minimum of all data points in
// the period. This alignment is valid for gauge and delta metrics with
// numeric values. The value type of the result is the same as the value
// type of the input.
// "ALIGN_MAX" - Align time series via aggregation. The resulting data
// point in the alignment period is the maximum of all data points in
// the period. This alignment is valid for gauge and delta metrics with
// numeric values. The value type of the result is the same as the value
// type of the input.
// "ALIGN_MEAN" - Align time series via aggregation. The resulting
// data point in the alignment period is the average or arithmetic mean
// of all data points in the period. This alignment is valid for gauge
// and delta metrics with numeric values. The value type of the output
// is DOUBLE.
// "ALIGN_COUNT" - Align time series via aggregation. The resulting
// data point in the alignment period is the count of all data points in
// the period. This alignment is valid for gauge and delta metrics with
// numeric or Boolean values. The value type of the output is INT64.
// "ALIGN_SUM" - Align time series via aggregation. The resulting data
// point in the alignment period is the sum of all data points in the
// period. This alignment is valid for gauge and delta metrics with
// numeric and distribution values. The value type of the output is the
// same as the value type of the input.
// "ALIGN_STDDEV" - Align time series via aggregation. The resulting
// data point in the alignment period is the standard deviation of all
// data points in the period. This alignment is valid for gauge and
// delta metrics with numeric values. The value type of the output is
// DOUBLE.
// "ALIGN_COUNT_TRUE" - Align time series via aggregation. The
// resulting data point in the alignment period is the count of
// True-valued data points in the period. This alignment is valid for
// gauge metrics with Boolean values. The value type of the output is
// INT64.
// "ALIGN_COUNT_FALSE" - Align time series via aggregation. The
// resulting data point in the alignment period is the count of
// False-valued data points in the period. This alignment is valid for
// gauge metrics with Boolean values. The value type of the output is
// INT64.
// "ALIGN_FRACTION_TRUE" - Align time series via aggregation. The
// resulting data point in the alignment period is the fraction of
// True-valued data points in the period. This alignment is valid for
// gauge metrics with Boolean values. The output value is in the range
// 0, 1 and has value type DOUBLE.
// "ALIGN_PERCENTILE_99" - Align time series via aggregation. The
// resulting data point in the alignment period is the 99th percentile
// of all data points in the period. This alignment is valid for gauge
// and delta metrics with distribution values. The output is a gauge
// metric with value type DOUBLE.
// "ALIGN_PERCENTILE_95" - Align time series via aggregation. The
// resulting data point in the alignment period is the 95th percentile
// of all data points in the period. This alignment is valid for gauge
// and delta metrics with distribution values. The output is a gauge
// metric with value type DOUBLE.
// "ALIGN_PERCENTILE_50" - Align time series via aggregation. The
// resulting data point in the alignment period is the 50th percentile
// of all data points in the period. This alignment is valid for gauge
// and delta metrics with distribution values. The output is a gauge
// metric with value type DOUBLE.
// "ALIGN_PERCENTILE_05" - Align time series via aggregation. The
// resulting data point in the alignment period is the 5th percentile of
// all data points in the period. This alignment is valid for gauge and
// delta metrics with distribution values. The output is a gauge metric
// with value type DOUBLE.
// "ALIGN_PERCENT_CHANGE" - Align and convert to a percentage change.
// This alignment is valid for gauge and delta metrics with numeric
// values. This alignment conceptually computes the equivalent of
// "((current - previous)/previous)*100" where previous value is
// determined based on the alignmentPeriod. In the event that previous
// is 0 the calculated value is infinity with the exception that if both
// (current - previous) and previous are 0 the calculated value is 0. A
// 10 minute moving mean is computed at each point of the time window
// prior to the above calculation to smooth the metric and prevent false
// positives from very short lived spikes. Only applicable for data that
// is >= 0. Any values < 0 are treated as no data. While delta metrics
// are accepted by this alignment special care should be taken that the
// values for the metric will always be positive. The output is a gauge
// metric with value type DOUBLE.
PerSeriesAligner string `json:"perSeriesAligner,omitempty"`
// ForceSendFields is a list of field names (e.g. "AlignmentPeriod") to
// unconditionally include in API requests. By default, fields with
// empty values are omitted from API requests. However, any non-pointer,
// non-interface field appearing in ForceSendFields will be sent to the
// server regardless of whether the field is empty or not. This may be
// used to include empty fields in Patch requests.
ForceSendFields []string `json:"-"`
// NullFields is a list of field names (e.g. "AlignmentPeriod") to
// include in API requests with the JSON null value. By default, fields
// with empty values are omitted from API requests. However, any field
// with an empty value appearing in NullFields will be sent to the
// server as null. It is an error if a field in this list has a
// non-empty value. This may be used to include null fields in Patch
// requests.
NullFields []string `json:"-"`
}
func (s *Aggregation) MarshalJSON() ([]byte, error) {
type NoMethod Aggregation
raw := NoMethod(*s)
return gensupport.MarshalJSON(raw, s.ForceSendFields, s.NullFields)
}
// Axis: A chart axis.
type Axis struct {
// Label: The label of the axis.
Label string `json:"label,omitempty"`
// Scale: The axis scale. By default, a linear scale is used.
//
// Possible values:
// "SCALE_UNSPECIFIED" - Scale is unspecified. The view will default
// to LINEAR.
// "LINEAR" - Linear scale.
// "LOG10" - Logarithmic scale (base 10).
Scale string `json:"scale,omitempty"`
// ForceSendFields is a list of field names (e.g. "Label") to
// unconditionally include in API requests. By default, fields with
// empty values are omitted from API requests. However, any non-pointer,
// non-interface field appearing in ForceSendFields will be sent to the
// server regardless of whether the field is empty or not. This may be
// used to include empty fields in Patch requests.
ForceSendFields []string `json:"-"`
// NullFields is a list of field names (e.g. "Label") to include in API
// requests with the JSON null value. By default, fields with empty
// values are omitted from API requests. However, any field with an
// empty value appearing in NullFields will be sent to the server as
// null. It is an error if a field in this list has a non-empty value.
// This may be used to include null fields in Patch requests.
NullFields []string `json:"-"`
}
func (s *Axis) MarshalJSON() ([]byte, error) {
type NoMethod Axis
raw := NoMethod(*s)
return gensupport.MarshalJSON(raw, s.ForceSendFields, s.NullFields)
}
// ChartOptions: Options to control visual rendering of a chart.
type ChartOptions struct {
// Mode: The chart mode.
//
// Possible values:
// "MODE_UNSPECIFIED" - Mode is unspecified. The view will default to
// COLOR.
// "COLOR" - The chart distinguishes data series using different
// color. Line colors may get reused when there are many lines in the
// chart.
// "X_RAY" - The chart uses the Stackdriver x-ray mode, in which each
// data set is plotted using the same semi-transparent color.
// "STATS" - The chart displays statistics such as average, median,
// 95th percentile, and more.
Mode string `json:"mode,omitempty"`
// ForceSendFields is a list of field names (e.g. "Mode") to
// unconditionally include in API requests. By default, fields with
// empty values are omitted from API requests. However, any non-pointer,
// non-interface field appearing in ForceSendFields will be sent to the
// server regardless of whether the field is empty or not. This may be
// used to include empty fields in Patch requests.
ForceSendFields []string `json:"-"`
// NullFields is a list of field names (e.g. "Mode") to include in API
// requests with the JSON null value. By default, fields with empty
// values are omitted from API requests. However, any field with an
// empty value appearing in NullFields will be sent to the server as
// null. It is an error if a field in this list has a non-empty value.
// This may be used to include null fields in Patch requests.
NullFields []string `json:"-"`
}
func (s *ChartOptions) MarshalJSON() ([]byte, error) {
type NoMethod ChartOptions
raw := NoMethod(*s)
return gensupport.MarshalJSON(raw, s.ForceSendFields, s.NullFields)
}
// Column: Defines the layout properties and content for a column.
type Column struct {
// Weight: The relative weight of this column. The column weight is used
// to adjust the width of columns on the screen (relative to peers).
// Greater the weight, greater the width of the column on the screen. If
// omitted, a value of 1 is used while rendering.
Weight int64 `json:"weight,omitempty,string"`
// Widgets: The display widgets arranged vertically in this column.
Widgets []*Widget `json:"widgets,omitempty"`
// ForceSendFields is a list of field names (e.g. "Weight") to
// unconditionally include in API requests. By default, fields with
// empty values are omitted from API requests. However, any non-pointer,
// non-interface field appearing in ForceSendFields will be sent to the
// server regardless of whether the field is empty or not. This may be
// used to include empty fields in Patch requests.
ForceSendFields []string `json:"-"`
// NullFields is a list of field names (e.g. "Weight") to include in API
// requests with the JSON null value. By default, fields with empty
// values are omitted from API requests. However, any field with an
// empty value appearing in NullFields will be sent to the server as
// null. It is an error if a field in this list has a non-empty value.
// This may be used to include null fields in Patch requests.
NullFields []string `json:"-"`
}
func (s *Column) MarshalJSON() ([]byte, error) {
type NoMethod Column
raw := NoMethod(*s)
return gensupport.MarshalJSON(raw, s.ForceSendFields, s.NullFields)
}
// ColumnLayout: A simplified layout that divides the available space
// into vertical columns and arranges a set of widgets vertically in
// each column.
type ColumnLayout struct {
// Columns: The columns of content to display.
Columns []*Column `json:"columns,omitempty"`
// ForceSendFields is a list of field names (e.g. "Columns") to
// unconditionally include in API requests. By default, fields with
// empty values are omitted from API requests. However, any non-pointer,
// non-interface field appearing in ForceSendFields will be sent to the
// server regardless of whether the field is empty or not. This may be
// used to include empty fields in Patch requests.
ForceSendFields []string `json:"-"`
// NullFields is a list of field names (e.g. "Columns") to include in
// API requests with the JSON null value. By default, fields with empty
// values are omitted from API requests. However, any field with an
// empty value appearing in NullFields will be sent to the server as
// null. It is an error if a field in this list has a non-empty value.
// This may be used to include null fields in Patch requests.
NullFields []string `json:"-"`
}
func (s *ColumnLayout) MarshalJSON() ([]byte, error) {
type NoMethod ColumnLayout
raw := NoMethod(*s)
return gensupport.MarshalJSON(raw, s.ForceSendFields, s.NullFields)
}
// Dashboard: A Google Stackdriver dashboard. Dashboards define the
// content and layout of pages in the Stackdriver web application.
type Dashboard struct {
// ColumnLayout: The content is divided into equally spaced columns and
// the widgets are arranged vertically.
ColumnLayout *ColumnLayout `json:"columnLayout,omitempty"`
// DisplayName: The mutable, human-readable name.
DisplayName string `json:"displayName,omitempty"`
// Etag: etag is used for optimistic concurrency control as a way to
// help prevent simultaneous updates of a policy from overwriting each
// other. An etag is returned in the response to GetDashboard, and users
// are expected to put that etag in the request to UpdateDashboard to
// ensure that their change will be applied to the same version of the
// Dashboard configuration. The field should not be passed during
// dashboard creation.
Etag string `json:"etag,omitempty"`
// GridLayout: Content is arranged with a basic layout that re-flows a
// simple list of informational elements like widgets or tiles.
GridLayout *GridLayout `json:"gridLayout,omitempty"`
// Name: The resource name of the dashboard.
Name string `json:"name,omitempty"`
// RowLayout: The content is divided into equally spaced rows and the
// widgets are arranged horizontally.
RowLayout *RowLayout `json:"rowLayout,omitempty"`
// ServerResponse contains the HTTP response code and headers from the
// server.
googleapi.ServerResponse `json:"-"`
// ForceSendFields is a list of field names (e.g. "ColumnLayout") to
// unconditionally include in API requests. By default, fields with
// empty values are omitted from API requests. However, any non-pointer,
// non-interface field appearing in ForceSendFields will be sent to the
// server regardless of whether the field is empty or not. This may be
// used to include empty fields in Patch requests.
ForceSendFields []string `json:"-"`
// NullFields is a list of field names (e.g. "ColumnLayout") to include
// in API requests with the JSON null value. By default, fields with
// empty values are omitted from API requests. However, any field with
// an empty value appearing in NullFields will be sent to the server as
// null. It is an error if a field in this list has a non-empty value.
// This may be used to include null fields in Patch requests.
NullFields []string `json:"-"`
}
func (s *Dashboard) MarshalJSON() ([]byte, error) {
type NoMethod Dashboard
raw := NoMethod(*s)
return gensupport.MarshalJSON(raw, s.ForceSendFields, s.NullFields)
}
// DataSet: Groups a time series query definition with charting options.
type DataSet struct {
// LegendTemplate: A template string for naming TimeSeries in the
// resulting data set. This should be a string with interpolations of
// the form ${label_name}, which will resolve to the label's value.
LegendTemplate string `json:"legendTemplate,omitempty"`
// MinAlignmentPeriod: Optional. The lower bound on data point frequency
// for this data set, implemented by specifying the minimum alignment
// period to use in a time series query For example, if the data is
// published once every 10 minutes, the min_alignment_period should be
// at least 10 minutes. It would not make sense to fetch and align data
// at one minute intervals.
MinAlignmentPeriod string `json:"minAlignmentPeriod,omitempty"`
// PlotType: How this data should be plotted on the chart.
//
// Possible values:
// "PLOT_TYPE_UNSPECIFIED" - Plot type is unspecified. The view will
// default to LINE.
// "LINE" - The data is plotted as a set of lines (one line per
// series).
// "STACKED_AREA" - The data is plotted as a set of filled areas (one
// area per series), with the areas stacked vertically (the base of each
// area is the top of its predecessor, and the base of the first area is
// the X axis). Since the areas do not overlap, each is filled with a
// different opaque color.
// "STACKED_BAR" - The data is plotted as a set of rectangular boxes
// (one box per series), with the boxes stacked vertically (the base of
// each box is the top of its predecessor, and the base of the first box
// is the X axis). Since the boxes do not overlap, each is filled with a
// different opaque color.
// "HEATMAP" - The data is plotted as a heatmap. The series being
// plotted must have a DISTRIBUTION value type. The value of each bucket
// in the distribution is displayed as a color. This type is not
// currently available in the Stackdriver Monitoring application.
PlotType string `json:"plotType,omitempty"`
// TimeSeriesQuery: Fields for querying time series data from the
// Stackdriver metrics API.
TimeSeriesQuery *TimeSeriesQuery `json:"timeSeriesQuery,omitempty"`
// ForceSendFields is a list of field names (e.g. "LegendTemplate") to
// unconditionally include in API requests. By default, fields with
// empty values are omitted from API requests. However, any non-pointer,
// non-interface field appearing in ForceSendFields will be sent to the
// server regardless of whether the field is empty or not. This may be
// used to include empty fields in Patch requests.
ForceSendFields []string `json:"-"`
// NullFields is a list of field names (e.g. "LegendTemplate") to
// include in API requests with the JSON null value. By default, fields
// with empty values are omitted from API requests. However, any field
// with an empty value appearing in NullFields will be sent to the
// server as null. It is an error if a field in this list has a
// non-empty value. This may be used to include null fields in Patch
// requests.
NullFields []string `json:"-"`
}
func (s *DataSet) MarshalJSON() ([]byte, error) {
type NoMethod DataSet
raw := NoMethod(*s)
return gensupport.MarshalJSON(raw, s.ForceSendFields, s.NullFields)
}
// DroppedLabels: A set of (label, value) pairs which were dropped
// during aggregation, attached to google.api.Distribution.Exemplars in
// google.api.Distribution values during aggregation.These values are
// used in combination with the label values that remain on the
// aggregated Distribution timeseries to construct the full label set
// for the exemplar values. The resulting full label set may be used to
// identify the specific task/job/instance (for example) which may be
// contributing to a long-tail, while allowing the storage savings of
// only storing aggregated distribution values for a large group.Note
// that there are no guarantees on ordering of the labels from
// exemplar-to-exemplar and from distribution-to-distribution in the
// same stream, and there may be duplicates. It is up to clients to
// resolve any ambiguities.
type DroppedLabels struct {
// Label: Map from label to its value, for all labels dropped in any
// aggregation.
Label map[string]string `json:"label,omitempty"`
// ForceSendFields is a list of field names (e.g. "Label") to
// unconditionally include in API requests. By default, fields with
// empty values are omitted from API requests. However, any non-pointer,
// non-interface field appearing in ForceSendFields will be sent to the
// server regardless of whether the field is empty or not. This may be
// used to include empty fields in Patch requests.
ForceSendFields []string `json:"-"`
// NullFields is a list of field names (e.g. "Label") to include in API
// requests with the JSON null value. By default, fields with empty
// values are omitted from API requests. However, any field with an
// empty value appearing in NullFields will be sent to the server as
// null. It is an error if a field in this list has a non-empty value.
// This may be used to include null fields in Patch requests.
NullFields []string `json:"-"`
}
func (s *DroppedLabels) MarshalJSON() ([]byte, error) {
type NoMethod DroppedLabels
raw := NoMethod(*s)
return gensupport.MarshalJSON(raw, s.ForceSendFields, s.NullFields)
}
// Empty: A generic empty message that you can re-use to avoid defining
// duplicated empty messages in your APIs. A typical example is to use
// it as the request or the response type of an API method. For
// instance:
// service Foo {
// rpc Bar(google.protobuf.Empty) returns
// (google.protobuf.Empty);
// }
// The JSON representation for Empty is empty JSON object {}.
type Empty struct {
// ServerResponse contains the HTTP response code and headers from the
// server.
googleapi.ServerResponse `json:"-"`
}
// Field: A single field of a message type.
type Field struct {
// Cardinality: The field cardinality.
//
// Possible values:
// "CARDINALITY_UNKNOWN" - For fields with unknown cardinality.
// "CARDINALITY_OPTIONAL" - For optional fields.
// "CARDINALITY_REQUIRED" - For required fields. Proto2 syntax only.
// "CARDINALITY_REPEATED" - For repeated fields.
Cardinality string `json:"cardinality,omitempty"`
// DefaultValue: The string value of the default value of this field.
// Proto2 syntax only.
DefaultValue string `json:"defaultValue,omitempty"`
// JsonName: The field JSON name.
JsonName string `json:"jsonName,omitempty"`
// Kind: The field type.
//
// Possible values:
// "TYPE_UNKNOWN" - Field type unknown.
// "TYPE_DOUBLE" - Field type double.
// "TYPE_FLOAT" - Field type float.
// "TYPE_INT64" - Field type int64.
// "TYPE_UINT64" - Field type uint64.
// "TYPE_INT32" - Field type int32.
// "TYPE_FIXED64" - Field type fixed64.
// "TYPE_FIXED32" - Field type fixed32.
// "TYPE_BOOL" - Field type bool.
// "TYPE_STRING" - Field type string.
// "TYPE_GROUP" - Field type group. Proto2 syntax only, and
// deprecated.
// "TYPE_MESSAGE" - Field type message.
// "TYPE_BYTES" - Field type bytes.
// "TYPE_UINT32" - Field type uint32.
// "TYPE_ENUM" - Field type enum.
// "TYPE_SFIXED32" - Field type sfixed32.
// "TYPE_SFIXED64" - Field type sfixed64.
// "TYPE_SINT32" - Field type sint32.
// "TYPE_SINT64" - Field type sint64.
Kind string `json:"kind,omitempty"`
// Name: The field name.
Name string `json:"name,omitempty"`
// Number: The field number.
Number int64 `json:"number,omitempty"`
// OneofIndex: The index of the field type in Type.oneofs, for message
// or enumeration types. The first type has index 1; zero means the type
// is not in the list.
OneofIndex int64 `json:"oneofIndex,omitempty"`
// Options: The protocol buffer options.
Options []*Option `json:"options,omitempty"`
// Packed: Whether to use alternative packed wire representation.
Packed bool `json:"packed,omitempty"`
// TypeUrl: The field type URL, without the scheme, for message or
// enumeration types. Example:
// "type.googleapis.com/google.protobuf.Timestamp".
TypeUrl string `json:"typeUrl,omitempty"`
// ForceSendFields is a list of field names (e.g. "Cardinality") to
// unconditionally include in API requests. By default, fields with
// empty values are omitted from API requests. However, any non-pointer,
// non-interface field appearing in ForceSendFields will be sent to the
// server regardless of whether the field is empty or not. This may be
// used to include empty fields in Patch requests.
ForceSendFields []string `json:"-"`
// NullFields is a list of field names (e.g. "Cardinality") to include
// in API requests with the JSON null value. By default, fields with
// empty values are omitted from API requests. However, any field with
// an empty value appearing in NullFields will be sent to the server as
// null. It is an error if a field in this list has a non-empty value.
// This may be used to include null fields in Patch requests.
NullFields []string `json:"-"`
}
func (s *Field) MarshalJSON() ([]byte, error) {
type NoMethod Field
raw := NoMethod(*s)
return gensupport.MarshalJSON(raw, s.ForceSendFields, s.NullFields)
}
// GaugeView: A gauge chart shows where the current value sits within a
// pre-defined range. The upper and lower bounds should define the
// possible range of values for the scorecard's query (inclusive).
type GaugeView struct {
// LowerBound: The lower bound for this gauge chart. The value of the
// chart should always be greater than or equal to this.
LowerBound float64 `json:"lowerBound,omitempty"`
// UpperBound: The upper bound for this gauge chart. The value of the
// chart should always be less than or equal to this.
UpperBound float64 `json:"upperBound,omitempty"`
// ForceSendFields is a list of field names (e.g. "LowerBound") to
// unconditionally include in API requests. By default, fields with
// empty values are omitted from API requests. However, any non-pointer,
// non-interface field appearing in ForceSendFields will be sent to the
// server regardless of whether the field is empty or not. This may be
// used to include empty fields in Patch requests.
ForceSendFields []string `json:"-"`
// NullFields is a list of field names (e.g. "LowerBound") to include in
// API requests with the JSON null value. By default, fields with empty
// values are omitted from API requests. However, any field with an
// empty value appearing in NullFields will be sent to the server as
// null. It is an error if a field in this list has a non-empty value.
// This may be used to include null fields in Patch requests.
NullFields []string `json:"-"`
}
func (s *GaugeView) MarshalJSON() ([]byte, error) {
type NoMethod GaugeView
raw := NoMethod(*s)
return gensupport.MarshalJSON(raw, s.ForceSendFields, s.NullFields)
}
func (s *GaugeView) UnmarshalJSON(data []byte) error {
type NoMethod GaugeView
var s1 struct {
LowerBound gensupport.JSONFloat64 `json:"lowerBound"`
UpperBound gensupport.JSONFloat64 `json:"upperBound"`
*NoMethod
}
s1.NoMethod = (*NoMethod)(s)
if err := json.Unmarshal(data, &s1); err != nil {
return err
}
s.LowerBound = float64(s1.LowerBound)
s.UpperBound = float64(s1.UpperBound)
return nil
}
// GridLayout: A basic layout divides the available space into vertical
// columns of equal width and arranges a list of widgets using a
// row-first strategy.
type GridLayout struct {
// Columns: The number of columns into which the view's width is
// divided. If omitted or set to zero, a system default will be used
// while rendering.
Columns int64 `json:"columns,omitempty,string"`
// Widgets: The informational elements that are arranged into the
// columns row-first.
Widgets []*Widget `json:"widgets,omitempty"`
// ForceSendFields is a list of field names (e.g. "Columns") to
// unconditionally include in API requests. By default, fields with
// empty values are omitted from API requests. However, any non-pointer,
// non-interface field appearing in ForceSendFields will be sent to the
// server regardless of whether the field is empty or not. This may be
// used to include empty fields in Patch requests.
ForceSendFields []string `json:"-"`
// NullFields is a list of field names (e.g. "Columns") to include in
// API requests with the JSON null value. By default, fields with empty
// values are omitted from API requests. However, any field with an
// empty value appearing in NullFields will be sent to the server as
// null. It is an error if a field in this list has a non-empty value.
// This may be used to include null fields in Patch requests.
NullFields []string `json:"-"`
}
func (s *GridLayout) MarshalJSON() ([]byte, error) {
type NoMethod GridLayout
raw := NoMethod(*s)
return gensupport.MarshalJSON(raw, s.ForceSendFields, s.NullFields)
}
// ListDashboardsResponse: The ListDashboards request.
type ListDashboardsResponse struct {
// Dashboards: The list of requested dashboards.
Dashboards []*Dashboard `json:"dashboards,omitempty"`
// NextPageToken: If there are more results than have been returned,
// then this field is set to a non-empty value. To see the additional
// results, use that value as pageToken in the next call to this method.
NextPageToken string `json:"nextPageToken,omitempty"`
// ServerResponse contains the HTTP response code and headers from the
// server.
googleapi.ServerResponse `json:"-"`
// ForceSendFields is a list of field names (e.g. "Dashboards") to
// unconditionally include in API requests. By default, fields with
// empty values are omitted from API requests. However, any non-pointer,
// non-interface field appearing in ForceSendFields will be sent to the
// server regardless of whether the field is empty or not. This may be
// used to include empty fields in Patch requests.
ForceSendFields []string `json:"-"`
// NullFields is a list of field names (e.g. "Dashboards") to include in
// API requests with the JSON null value. By default, fields with empty
// values are omitted from API requests. However, any field with an
// empty value appearing in NullFields will be sent to the server as
// null. It is an error if a field in this list has a non-empty value.
// This may be used to include null fields in Patch requests.
NullFields []string `json:"-"`
}
func (s *ListDashboardsResponse) MarshalJSON() ([]byte, error) {
type NoMethod ListDashboardsResponse
raw := NoMethod(*s)
return gensupport.MarshalJSON(raw, s.ForceSendFields, s.NullFields)
}
// Option: A protocol buffer option, which can be attached to a message,
// field, enumeration, etc.
type Option struct {
// Name: The option's name. For protobuf built-in options (options
// defined in descriptor.proto), this is the short name. For example,
// "map_entry". For custom options, it should be the fully-qualified
// name. For example, "google.api.http".
Name string `json:"name,omitempty"`
// Value: The option's value packed in an Any message. If the value is a
// primitive, the corresponding wrapper type defined in
// google/protobuf/wrappers.proto should be used. If the value is an
// enum, it should be stored as an int32 value using the
// google.protobuf.Int32Value type.
Value googleapi.RawMessage `json:"value,omitempty"`
// ForceSendFields is a list of field names (e.g. "Name") to
// unconditionally include in API requests. By default, fields with
// empty values are omitted from API requests. However, any non-pointer,
// non-interface field appearing in ForceSendFields will be sent to the
// server regardless of whether the field is empty or not. This may be
// used to include empty fields in Patch requests.
ForceSendFields []string `json:"-"`
// NullFields is a list of field names (e.g. "Name") to include in API
// requests with the JSON null value. By default, fields with empty
// values are omitted from API requests. However, any field with an
// empty value appearing in NullFields will be sent to the server as
// null. It is an error if a field in this list has a non-empty value.
// This may be used to include null fields in Patch requests.
NullFields []string `json:"-"`
}
func (s *Option) MarshalJSON() ([]byte, error) {
type NoMethod Option
raw := NoMethod(*s)
return gensupport.MarshalJSON(raw, s.ForceSendFields, s.NullFields)
}
// PickTimeSeriesFilter: Describes a ranking-based time series filter.
// Each input time series is ranked with an aligner. The filter lets
// through up to num_time_series time series, selecting them based on
// the relative ranking.
type PickTimeSeriesFilter struct {
// Direction: How to use the ranking to select time series that pass
// through the filter.
//
// Possible values:
// "DIRECTION_UNSPECIFIED" - Not allowed in well-formed requests.
// "TOP" - Pass the highest ranking inputs.
// "BOTTOM" - Pass the lowest ranking inputs.
Direction string `json:"direction,omitempty"`
// NumTimeSeries: How many time series to return.
NumTimeSeries int64 `json:"numTimeSeries,omitempty"`
// RankingMethod: rankingMethod is applied to each time series