// Copyright 2017, OpenCensus Authors // // 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. // package view import ( "fmt" "sync" "time" "go.opencensus.io/resource" "go.opencensus.io/metric/metricdata" "go.opencensus.io/metric/metricproducer" "go.opencensus.io/stats" "go.opencensus.io/stats/internal" "go.opencensus.io/tag" ) func init() { defaultWorker = NewMeter().(*worker) go defaultWorker.start() internal.DefaultRecorder = record internal.MeasurementRecorder = recordMeasurement } type measureRef struct { measure string views map[*viewInternal]struct{} } type worker struct { measures map[string]*measureRef views map[string]*viewInternal viewStartTimes map[*viewInternal]time.Time timer *time.Ticker c chan command quit, done chan bool mu sync.RWMutex r *resource.Resource exportersMu sync.RWMutex exporters map[Exporter]struct{} } // Meter defines an interface which allows a single process to maintain // multiple sets of metrics exports (intended for the advanced case where a // single process wants to report metrics about multiple objects, such as // multiple databases or HTTP services). // // Note that this is an advanced use case, and the static functions in this // module should cover the common use cases. type Meter interface { stats.Recorder // Find returns a registered view associated with this name. // If no registered view is found, nil is returned. Find(name string) *View // Register begins collecting data for the given views. // Once a view is registered, it reports data to the registered exporters. Register(views ...*View) error // Unregister the given views. Data will not longer be exported for these views // after Unregister returns. // It is not necessary to unregister from views you expect to collect for the // duration of your program execution. Unregister(views ...*View) // SetReportingPeriod sets the interval between reporting aggregated views in // the program. If duration is less than or equal to zero, it enables the // default behavior. // // Note: each exporter makes different promises about what the lowest supported // duration is. For example, the Stackdriver exporter recommends a value no // lower than 1 minute. Consult each exporter per your needs. SetReportingPeriod(time.Duration) // RegisterExporter registers an exporter. // Collected data will be reported via all the // registered exporters. Once you no longer // want data to be exported, invoke UnregisterExporter // with the previously registered exporter. // // Binaries can register exporters, libraries shouldn't register exporters. RegisterExporter(Exporter) // UnregisterExporter unregisters an exporter. UnregisterExporter(Exporter) // SetResource may be used to set the Resource associated with this registry. // This is intended to be used in cases where a single process exports metrics // for multiple Resources, typically in a multi-tenant situation. SetResource(*resource.Resource) // Start causes the Meter to start processing Record calls and aggregating // statistics as well as exporting data. Start() // Stop causes the Meter to stop processing calls and terminate data export. Stop() // RetrieveData gets a snapshot of the data collected for the the view registered // with the given name. It is intended for testing only. RetrieveData(viewName string) ([]*Row, error) } var _ Meter = (*worker)(nil) var defaultWorker *worker var defaultReportingDuration = 10 * time.Second // Find returns a registered view associated with this name. // If no registered view is found, nil is returned. func Find(name string) (v *View) { return defaultWorker.Find(name) } // Find returns a registered view associated with this name. // If no registered view is found, nil is returned. func (w *worker) Find(name string) (v *View) { req := &getViewByNameReq{ name: name, c: make(chan *getViewByNameResp), } w.c <- req resp := <-req.c return resp.v } // Register begins collecting data for the given views. // Once a view is registered, it reports data to the registered exporters. func Register(views ...*View) error { return defaultWorker.Register(views...) } // Register begins collecting data for the given views. // Once a view is registered, it reports data to the registered exporters. func (w *worker) Register(views ...*View) error { req := ®isterViewReq{ views: views, err: make(chan error), } w.c <- req return <-req.err } // Unregister the given views. Data will not longer be exported for these views // after Unregister returns. // It is not necessary to unregister from views you expect to collect for the // duration of your program execution. func Unregister(views ...*View) { defaultWorker.Unregister(views...) } // Unregister the given views. Data will not longer be exported for these views // after Unregister returns. // It is not necessary to unregister from views you expect to collect for the // duration of your program execution. func (w *worker) Unregister(views ...*View) { names := make([]string, len(views)) for i := range views { names[i] = views[i].Name } req := &unregisterFromViewReq{ views: names, done: make(chan struct{}), } w.c <- req <-req.done } // RetrieveData gets a snapshot of the data collected for the the view registered // with the given name. It is intended for testing only. func RetrieveData(viewName string) ([]*Row, error) { return defaultWorker.RetrieveData(viewName) } // RetrieveData gets a snapshot of the data collected for the the view registered // with the given name. It is intended for testing only. func (w *worker) RetrieveData(viewName string) ([]*Row, error) { req := &retrieveDataReq{ now: time.Now(), v: viewName, c: make(chan *retrieveDataResp), } w.c <- req resp := <-req.c return resp.rows, resp.err } func record(tags *tag.Map, ms interface{}, attachments map[string]interface{}) { defaultWorker.Record(tags, ms, attachments) } func recordMeasurement(tags *tag.Map, ms []stats.Measurement, attachments map[string]interface{}) { defaultWorker.recordMeasurement(tags, ms, attachments) } // Record records a set of measurements ms associated with the given tags and attachments. func (w *worker) Record(tags *tag.Map, ms interface{}, attachments map[string]interface{}) { w.recordMeasurement(tags, ms.([]stats.Measurement), attachments) } // recordMeasurement records a set of measurements ms associated with the given tags and attachments. // This is the same as Record but without an interface{} type to avoid allocations func (w *worker) recordMeasurement(tags *tag.Map, ms []stats.Measurement, attachments map[string]interface{}) { req := &recordReq{ tm: tags, ms: ms, attachments: attachments, t: time.Now(), } w.c <- req } // SetReportingPeriod sets the interval between reporting aggregated views in // the program. If duration is less than or equal to zero, it enables the // default behavior. // // Note: each exporter makes different promises about what the lowest supported // duration is. For example, the Stackdriver exporter recommends a value no // lower than 1 minute. Consult each exporter per your needs. func SetReportingPeriod(d time.Duration) { defaultWorker.SetReportingPeriod(d) } // Stop stops the default worker. func Stop() { defaultWorker.Stop() } // SetReportingPeriod sets the interval between reporting aggregated views in // the program. If duration is less than or equal to zero, it enables the // default behavior. // // Note: each exporter makes different promises about what the lowest supported // duration is. For example, the Stackdriver exporter recommends a value no // lower than 1 minute. Consult each exporter per your needs. func (w *worker) SetReportingPeriod(d time.Duration) { // TODO(acetechnologist): ensure that the duration d is more than a certain // value. e.g. 1s req := &setReportingPeriodReq{ d: d, c: make(chan bool), } w.c <- req <-req.c // don't return until the timer is set to the new duration. } // NewMeter constructs a Meter instance. You should only need to use this if // you need to separate out Measurement recordings and View aggregations within // a single process. func NewMeter() Meter { return &worker{ measures: make(map[string]*measureRef), views: make(map[string]*viewInternal), viewStartTimes: make(map[*viewInternal]time.Time), timer: time.NewTicker(defaultReportingDuration), c: make(chan command, 1024), quit: make(chan bool), done: make(chan bool), exporters: make(map[Exporter]struct{}), } } // SetResource associates all data collected by this Meter with the specified // resource. This resource is reported when using metricexport.ReadAndExport; // it is not provided when used with ExportView/RegisterExporter, because that // interface does not provide a means for reporting the Resource. func (w *worker) SetResource(r *resource.Resource) { w.r = r } func (w *worker) Start() { go w.start() } func (w *worker) start() { prodMgr := metricproducer.GlobalManager() prodMgr.AddProducer(w) for { select { case cmd := <-w.c: cmd.handleCommand(w) case <-w.timer.C: w.reportUsage() case <-w.quit: w.timer.Stop() close(w.c) close(w.done) return } } } func (w *worker) Stop() { prodMgr := metricproducer.GlobalManager() prodMgr.DeleteProducer(w) select { case <-w.quit: default: close(w.quit) } <-w.done } func (w *worker) getMeasureRef(name string) *measureRef { if mr, ok := w.measures[name]; ok { return mr } mr := &measureRef{ measure: name, views: make(map[*viewInternal]struct{}), } w.measures[name] = mr return mr } func (w *worker) tryRegisterView(v *View) (*viewInternal, error) { w.mu.Lock() defer w.mu.Unlock() vi, err := newViewInternal(v) if err != nil { return nil, err } if x, ok := w.views[vi.view.Name]; ok { if !x.view.same(vi.view) { return nil, fmt.Errorf("cannot register view %q; a different view with the same name is already registered", v.Name) } // the view is already registered so there is nothing to do and the // command is considered successful. return x, nil } w.views[vi.view.Name] = vi w.viewStartTimes[vi] = time.Now() ref := w.getMeasureRef(vi.view.Measure.Name()) ref.views[vi] = struct{}{} return vi, nil } func (w *worker) unregisterView(v *viewInternal) { w.mu.Lock() defer w.mu.Unlock() delete(w.views, v.view.Name) delete(w.viewStartTimes, v) if measure := w.measures[v.view.Measure.Name()]; measure != nil { delete(measure.views, v) } } func (w *worker) reportView(v *viewInternal) { if !v.isSubscribed() { return } rows := v.collectedRows() viewData := &Data{ View: v.view, Start: w.viewStartTimes[v], End: time.Now(), Rows: rows, } w.exportersMu.Lock() defer w.exportersMu.Unlock() for e := range w.exporters { e.ExportView(viewData) } } func (w *worker) reportUsage() { w.mu.Lock() defer w.mu.Unlock() for _, v := range w.views { w.reportView(v) } } func (w *worker) toMetric(v *viewInternal, now time.Time) *metricdata.Metric { if !v.isSubscribed() { return nil } return viewToMetric(v, w.r, now) } // Read reads all view data and returns them as metrics. // It is typically invoked by metric reader to export stats in metric format. func (w *worker) Read() []*metricdata.Metric { w.mu.Lock() defer w.mu.Unlock() now := time.Now() metrics := make([]*metricdata.Metric, 0, len(w.views)) for _, v := range w.views { metric := w.toMetric(v, now) if metric != nil { metrics = append(metrics, metric) } } return metrics } func (w *worker) RegisterExporter(e Exporter) { w.exportersMu.Lock() defer w.exportersMu.Unlock() w.exporters[e] = struct{}{} } func (w *worker) UnregisterExporter(e Exporter) { w.exportersMu.Lock() defer w.exportersMu.Unlock() delete(w.exporters, e) }