Documentation ¶
Index ¶
- Constants
- Variables
- func AddDispatch(ctx context.Context, priorityLevel, flowSchema string)
- func AddDispatchWithNoAccommodation(priorityLevel, flowSchema string)
- func AddEpochAdvance(ctx context.Context, priorityLevel string, success bool)
- func AddReject(ctx context.Context, priorityLevel, flowSchema, reason string)
- func AddRequestConcurrencyInUse(priorityLevel, flowSchema string, delta int)
- func AddRequestsExecuting(ctx context.Context, priorityLevel, flowSchema string, delta int)
- func AddRequestsInQueues(ctx context.Context, priorityLevel, flowSchema string, delta int)
- func GatherAndCompare(expected string, metricNames ...string) error
- func ObserveExecutionDuration(ctx context.Context, priorityLevel, flowSchema string, ...)
- func ObserveQueueLength(ctx context.Context, priorityLevel, flowSchema string, length int)
- func ObserveWaitingDuration(ctx context.Context, priorityLevel, flowSchema, execute string, ...)
- func ObserveWatchCount(ctx context.Context, priorityLevel, flowSchema string, count int)
- func ObserveWorkEstimatedSeats(priorityLevel, flowSchema string, seats int)
- func Register()
- func Reset()
- func SetCurrentR(priorityLevel string, r float64)
- func SetDispatchMetrics(priorityLevel string, r, s, sMin, sMax, discountedSMin, discountedSMax float64)
- func UpdateSharedConcurrencyLimit(priorityLevel string, limit int)
- type Gauge
- type RatioedGauge
- type RatioedGaugePair
- type RatioedGaugeVec
- type Registerables
- type TimingRatioHistogram
- func (trh *TimingRatioHistogram) Add(deltaNumerator float64)
- func (trh *TimingRatioHistogram) Dec()
- func (trh *TimingRatioHistogram) Inc()
- func (trh *TimingRatioHistogram) Set(numerator float64)
- func (trh *TimingRatioHistogram) SetDenominator(denominator float64)
- func (trh *TimingRatioHistogram) SetToCurrentTime()
- func (trh *TimingRatioHistogram) Sub(deltaNumerator float64)
- func (trh *TimingRatioHistogram) WithContext(ctx context.Context) RatioedGauge
- type TimingRatioHistogramOpts
- type TimingRatioHistogramVec
- func (v *TimingRatioHistogramVec) NewForLabelValuesChecked(initialNumerator, initialDenominator float64, labelValues []string) (RatioedGauge, error)
- func (v *TimingRatioHistogramVec) NewForLabelValuesSafe(initialNumerator, initialDenominator float64, labelValues []string) RatioedGauge
- func (v *TimingRatioHistogramVec) Reset()
Constants ¶
const ( LabelNamePhase = "phase" LabelValueWaiting = "waiting" LabelValueExecuting = "executing" )
Variables ¶
var ( // PriorityLevelExecutionSeatsGaugeVec creates observers of seats occupied throughout execution for priority levels PriorityLevelExecutionSeatsGaugeVec = NewTimingRatioHistogramVec( &compbasemetrics.TimingHistogramOpts{ Namespace: namespace, Subsystem: subsystem, Name: "priority_level_seat_utilization", Help: "Observations, at the end of every nanosecond, of utilization of seats for any stage of execution (but only initial stage for WATCHes)", Buckets: []float64{0, 0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 0.95, 0.99, 1}, ConstLabels: map[string]string{phase: "executing"}, StabilityLevel: compbasemetrics.ALPHA, }, priorityLevel, ) // PriorityLevelConcurrencyGaugeVec creates gauges of concurrency broken down by phase, priority level PriorityLevelConcurrencyGaugeVec = NewTimingRatioHistogramVec( &compbasemetrics.TimingHistogramOpts{ Namespace: namespace, Subsystem: subsystem, Name: "priority_level_request_utilization", Help: "Observations, at the end of every nanosecond, of number of requests (as a fraction of the relevant limit) waiting or in any stage of execution (but only initial stage for WATCHes)", Buckets: []float64{0, 0.001, 0.003, 0.01, 0.03, 0.1, 0.25, 0.5, 0.75, 1}, StabilityLevel: compbasemetrics.ALPHA, }, LabelNamePhase, priorityLevel, ) )
var GetExecutingMutatingConcurrency = executingMutating.getGauge
GetExecutingMutatingConcurrency returns the gauge of number of executing mutating requests / limit on those.
var GetExecutingReadonlyConcurrency = executingReadonly.getGauge
GetExecutingReadonlyConcurrency returns the gauge of number of executing readonly requests / limit on those.
var GetWaitingMutatingConcurrency = waitingMutating.getGauge
GetWaitingMutatingConcurrency returns the gauge of number of mutating requests waiting / limit on those.
var GetWaitingReadonlyConcurrency = waitingReadonly.getGauge
GetWaitingReadonlyConcurrency returns the gauge of number of readonly requests waiting / limit on those.
Functions ¶
func AddDispatch ¶ added in v0.18.0
AddDispatch increments the # of dispatched requests for flow control
func AddDispatchWithNoAccommodation ¶ added in v0.24.0
func AddDispatchWithNoAccommodation(priorityLevel, flowSchema string)
AddDispatchWithNoAccommodation keeps track of number of times dispatch attempt results in a non accommodation due to lack of available seats.
func AddEpochAdvance ¶ added in v0.23.0
AddEpochAdvance notes an advance of the progress meter baseline for a given priority level
func AddRequestConcurrencyInUse ¶ added in v0.22.0
AddRequestConcurrencyInUse adds the given delta to the gauge of concurrency in use by the currently executing requests of the given flowSchema and priorityLevel
func AddRequestsExecuting ¶ added in v0.18.0
AddRequestsExecuting adds the given delta to the gauge of executing requests of the given flowSchema and priorityLevel
func AddRequestsInQueues ¶ added in v0.18.0
AddRequestsInQueues adds the given delta to the gauge of the # of requests in the queues of the specified flowSchema and priorityLevel
func GatherAndCompare ¶ added in v0.18.0
GatherAndCompare the given metrics with the given Prometheus syntax expected value
func ObserveExecutionDuration ¶
func ObserveExecutionDuration(ctx context.Context, priorityLevel, flowSchema string, executionTime time.Duration)
ObserveExecutionDuration observes the execution duration for flow control
func ObserveQueueLength ¶
ObserveQueueLength observes the queue length for flow control
func ObserveWaitingDuration ¶
func ObserveWaitingDuration(ctx context.Context, priorityLevel, flowSchema, execute string, waitTime time.Duration)
ObserveWaitingDuration observes the queue length for flow control
func ObserveWatchCount ¶ added in v0.23.0
ObserveWatchCount notes a sampling of a watch count
func ObserveWorkEstimatedSeats ¶ added in v0.24.0
ObserveWorkEstimatedSeats notes a sampling of estimated seats associated with a request
func SetCurrentR ¶ added in v0.22.0
SetCurrentR sets the current-R (virtualTime) gauge for the given priority level
func SetDispatchMetrics ¶ added in v0.22.0
func SetDispatchMetrics(priorityLevel string, r, s, sMin, sMax, discountedSMin, discountedSMax float64)
SetLatestS sets the latest-S (virtual time of dispatched request) gauge for the given priority level
func UpdateSharedConcurrencyLimit ¶
UpdateSharedConcurrencyLimit updates the value for the concurrency limit in flow control
Types ¶
type RatioedGauge ¶ added in v0.25.0
type RatioedGauge interface { Gauge // SetDenominator sets the denominator to use until it is changed again SetDenominator(float64) }
RatioedGauge tracks ratios. The numerator is set/changed through the Gauge methods, and the denominator can be updated through the SetDenominator method. A ratio is tracked whenever the numerator or denominator is set/changed.
type RatioedGaugePair ¶ added in v0.25.0
type RatioedGaugePair struct { // RequestsWaiting is given observations of the number of currently queued requests RequestsWaiting RatioedGauge // RequestsExecuting is given observations of the number of requests currently executing RequestsExecuting RatioedGauge }
RatioedGaugePair is a corresponding pair of gauges, one for the number of requests waiting in queue(s) and one for the number of requests being executed.
func RatioedGaugeVecPhasedElementPair ¶ added in v0.25.0
func RatioedGaugeVecPhasedElementPair(vec RatioedGaugeVec, initialWaitingDenominator, initialExecutingDenominator float64, labelValues []string) RatioedGaugePair
RatioedGaugeVecPhasedElementPair extracts a pair of elements that differ in handling phase
type RatioedGaugeVec ¶ added in v0.25.0
type RatioedGaugeVec interface { // NewForLabelValuesSafe makes a new vector member for the given tuple of label values, // initialized with the given numerator and denominator. // Unlike the usual Vec WithLabelValues method, this is intended to be called only // once per vector member (at the start of its lifecycle). // The "Safe" part is saying that the returned object will function properly after metric registration // even if this method is called before registration. NewForLabelValuesSafe(initialNumerator, initialDenominator float64, labelValues []string) RatioedGauge }
RatioedGaugeVec creates related observers that are differentiated by a series of label values
type Registerables ¶ added in v0.19.0
type Registerables []compbasemetrics.Registerable
Registerables is a slice of Registerable
func (Registerables) Append ¶ added in v0.19.0
func (rs Registerables) Append(more ...compbasemetrics.Registerable) Registerables
Append adds more
type TimingRatioHistogram ¶ added in v0.25.0
type TimingRatioHistogram struct { // Registerable is the registerable aspect. // That is the registerable aspect of the underlying TimingHistogram. compbasemetrics.Registerable // contains filtered or unexported fields }
TimingRatioHistogram is essentially a gauge for a ratio where the client independently controls the numerator and denominator. When scraped it produces a histogram of samples of the ratio taken at the end of every nanosecond. `*TimingRatioHistogram` implements both Registerable and RatioedGauge.
func NewTestableTimingRatioHistogram ¶ added in v0.25.0
func NewTestableTimingRatioHistogram(nowFunc func() time.Time, opts *TimingRatioHistogramOpts) *TimingRatioHistogram
NewTestableTimingHistogram adds injection of the clock
func NewTimingRatioHistogram ¶ added in v0.25.0
func NewTimingRatioHistogram(opts *TimingRatioHistogramOpts) *TimingRatioHistogram
NewTimingHistogram returns an object which is TimingHistogram-like. However, nothing will be measured until the histogram is registered in at least one registry.
func (*TimingRatioHistogram) Add ¶ added in v0.25.0
func (trh *TimingRatioHistogram) Add(deltaNumerator float64)
func (*TimingRatioHistogram) Set ¶ added in v0.25.0
func (trh *TimingRatioHistogram) Set(numerator float64)
func (*TimingRatioHistogram) SetDenominator ¶ added in v0.25.0
func (trh *TimingRatioHistogram) SetDenominator(denominator float64)
func (*TimingRatioHistogram) SetToCurrentTime ¶ added in v0.25.0
func (trh *TimingRatioHistogram) SetToCurrentTime()
func (*TimingRatioHistogram) Sub ¶ added in v0.25.0
func (trh *TimingRatioHistogram) Sub(deltaNumerator float64)
func (*TimingRatioHistogram) WithContext ¶ added in v0.25.0
func (trh *TimingRatioHistogram) WithContext(ctx context.Context) RatioedGauge
WithContext allows the normal TimingHistogram metric to pass in context. The context is no-op at the current level of development.
type TimingRatioHistogramOpts ¶ added in v0.25.0
type TimingRatioHistogramOpts struct { compbasemetrics.TimingHistogramOpts InitialDenominator float64 }
TimingRatioHistogramOpts is the constructor parameters of a TimingRatioHistogram. The `TimingHistogramOpts.InitialValue` is the initial numerator.
type TimingRatioHistogramVec ¶ added in v0.25.0
type TimingRatioHistogramVec struct { // promote only the Registerable methods compbasemetrics.Registerable // contains filtered or unexported fields }
TimingRatioHistogramVec is a collection of TimingRatioHistograms that differ only in label values. `*TimingRatioHistogramVec` implements both Registerable and RatioedGaugeVec.
func NewTestableTimingRatioHistogramVec ¶ added in v0.25.0
func NewTestableTimingRatioHistogramVec(nowFunc func() time.Time, opts *compbasemetrics.TimingHistogramOpts, labelNames ...string) *TimingRatioHistogramVec
NewTestableTimingHistogramVec adds injection of the clock.
func NewTimingRatioHistogramVec ¶ added in v0.25.0
func NewTimingRatioHistogramVec(opts *compbasemetrics.TimingHistogramOpts, labelNames ...string) *TimingRatioHistogramVec
NewTimingHistogramVec constructs a new vector. `opts.InitialValue` is the initial ratio, but this applies only for the tiny period of time until NewForLabelValuesSafe sets the ratio based on the given initial numerator and denominator. Thus there is a tiny splinter of time during member construction when its underlying TimingHistogram is given the initial numerator rather than the initial ratio (which is obviously a non-issue when both are zero). Note the difficulties associated with extracting a member before registering the vector.
func (*TimingRatioHistogramVec) NewForLabelValuesChecked ¶ added in v0.25.0
func (v *TimingRatioHistogramVec) NewForLabelValuesChecked(initialNumerator, initialDenominator float64, labelValues []string) (RatioedGauge, error)
NewForLabelValuesChecked will return an error if this vec is not hidden and not yet registered or there is a syntactic problem with the labelValues.
func (*TimingRatioHistogramVec) NewForLabelValuesSafe ¶ added in v0.25.0
func (v *TimingRatioHistogramVec) NewForLabelValuesSafe(initialNumerator, initialDenominator float64, labelValues []string) RatioedGauge
NewForLabelValuesSafe is the same as NewForLabelValuesChecked in cases where that does not return an error. When the unsafe version returns an error due to the vector not being registered yet, the safe version returns an object that implements its methods by looking up the relevant vector member in each call (thus getting a non-noop after registration). In the other error cases the object returned here is a noop.
func (*TimingRatioHistogramVec) Reset ¶ added in v0.25.0
func (v *TimingRatioHistogramVec) Reset()