/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this file, * You can obtain one at http://mozilla.org/MPL/2.0/. */ "use strict"; const { classes: Cc, interfaces: Ci, utils: Cu, results: Cr } = Components; Cu.import("resource://gre/modules/Task.jsm"); Cu.import("resource://gre/modules/devtools/Loader.jsm"); Cu.import("resource://gre/modules/devtools/Console.jsm"); Cu.import("resource:///modules/devtools/ViewHelpers.jsm"); devtools.lazyRequireGetter(this, "Services"); devtools.lazyRequireGetter(this, "promise"); devtools.lazyRequireGetter(this, "EventEmitter", "devtools/toolkit/event-emitter"); devtools.lazyRequireGetter(this, "DevToolsUtils", "devtools/toolkit/DevToolsUtils"); devtools.lazyRequireGetter(this, "TIMELINE_BLUEPRINT", "devtools/shared/timeline/global", true); devtools.lazyRequireGetter(this, "L10N", "devtools/shared/profiler/global", true); devtools.lazyRequireGetter(this, "RecordingUtils", "devtools/performance/recording-utils", true); devtools.lazyRequireGetter(this, "RecordingModel", "devtools/performance/recording-model", true); devtools.lazyRequireGetter(this, "MarkersOverview", "devtools/shared/timeline/markers-overview", true); devtools.lazyRequireGetter(this, "MemoryOverview", "devtools/shared/timeline/memory-overview", true); devtools.lazyRequireGetter(this, "Waterfall", "devtools/shared/timeline/waterfall", true); devtools.lazyRequireGetter(this, "MarkerDetails", "devtools/shared/timeline/marker-details", true); devtools.lazyRequireGetter(this, "CallView", "devtools/shared/profiler/tree-view", true); devtools.lazyRequireGetter(this, "ThreadNode", "devtools/shared/profiler/tree-model", true); devtools.lazyRequireGetter(this, "FrameNode", "devtools/shared/profiler/tree-model", true); devtools.lazyRequireGetter(this, "OptionsView", "devtools/shared/options-view", true); devtools.lazyImporter(this, "CanvasGraphUtils", "resource:///modules/devtools/Graphs.jsm"); devtools.lazyImporter(this, "LineGraphWidget", "resource:///modules/devtools/Graphs.jsm"); devtools.lazyImporter(this, "FlameGraphUtils", "resource:///modules/devtools/FlameGraph.jsm"); devtools.lazyImporter(this, "FlameGraph", "resource:///modules/devtools/FlameGraph.jsm"); devtools.lazyImporter(this, "SideMenuWidget", "resource:///modules/devtools/SideMenuWidget.jsm"); const BRANCH_NAME = "devtools.performance.ui."; // Events emitted by various objects in the panel. const EVENTS = { // Fired by the PerformanceController and OptionsView when a pref changes. PREF_CHANGED: "Performance:PrefChanged", // Emitted by the PerformanceView when the state (display mode) changes, // for example when switching between "empty", "recording" or "recorded". // This causes certain panels to be hidden or visible. UI_STATE_CHANGED: "Performance:UI:StateChanged", // Emitted by the PerformanceView on clear button click UI_CLEAR_RECORDINGS: "Performance:UI:ClearRecordings", // Emitted by the PerformanceView on record button click UI_START_RECORDING: "Performance:UI:StartRecording", UI_STOP_RECORDING: "Performance:UI:StopRecording", // Emitted by the PerformanceView on import button click UI_IMPORT_RECORDING: "Performance:UI:ImportRecording", // Emitted by the RecordingsView on export button click UI_EXPORT_RECORDING: "Performance:UI:ExportRecording", // When a recording is started or stopped via the PerformanceController RECORDING_STARTED: "Performance:RecordingStarted", RECORDING_STOPPED: "Performance:RecordingStopped", RECORDING_WILL_START: "Performance:RecordingWillStart", RECORDING_WILL_STOP: "Performance:RecordingWillStop", // Emitted by the PerformanceController or RecordingView // when a recording model is selected RECORDING_SELECTED: "Performance:RecordingSelected", // When recordings have been cleared out RECORDINGS_CLEARED: "Performance:RecordingsCleared", // When a recording is imported or exported via the PerformanceController RECORDING_IMPORTED: "Performance:RecordingImported", RECORDING_EXPORTED: "Performance:RecordingExported", // When the PerformanceController has new recording data TIMELINE_DATA: "Performance:TimelineData", // Emitted by the OverviewView when more data has been rendered OVERVIEW_RENDERED: "Performance:UI:OverviewRendered", FRAMERATE_GRAPH_RENDERED: "Performance:UI:OverviewFramerateRendered", MARKERS_GRAPH_RENDERED: "Performance:UI:OverviewMarkersRendered", MEMORY_GRAPH_RENDERED: "Performance:UI:OverviewMemoryRendered", // Emitted by the OverviewView when a range has been selected in the graphs OVERVIEW_RANGE_SELECTED: "Performance:UI:OverviewRangeSelected", // Emitted by the OverviewView when a selection range has been removed OVERVIEW_RANGE_CLEARED: "Performance:UI:OverviewRangeCleared", // Emitted by the DetailsView when a subview is selected DETAILS_VIEW_SELECTED: "Performance:UI:DetailsViewSelected", // Emitted by the WaterfallView when it has been rendered WATERFALL_RENDERED: "Performance:UI:WaterfallRendered", // Emitted by the JsCallTreeView when a call tree has been rendered JS_CALL_TREE_RENDERED: "Performance:UI:JsCallTreeRendered", // Emitted by the JsFlameGraphView when it has been rendered JS_FLAMEGRAPH_RENDERED: "Performance:UI:JsFlameGraphRendered", // Emitted by the MemoryCallTreeView when a call tree has been rendered MEMORY_CALL_TREE_RENDERED: "Performance:UI:MemoryCallTreeRendered", // Emitted by the MemoryFlameGraphView when it has been rendered MEMORY_FLAMEGRAPH_RENDERED: "Performance:UI:MemoryFlameGraphRendered", // When a source is shown in the JavaScript Debugger at a specific location. SOURCE_SHOWN_IN_JS_DEBUGGER: "Performance:UI:SourceShownInJsDebugger", SOURCE_NOT_FOUND_IN_JS_DEBUGGER: "Performance:UI:SourceNotFoundInJsDebugger" }; /** * The current target and the profiler connection, set by this tool's host. */ let gToolbox, gTarget, gFront; /** * Initializes the profiler controller and views. */ let startupPerformance = Task.async(function*() { yield promise.all([ PerformanceController.initialize(), PerformanceView.initialize() ]); }); /** * Destroys the profiler controller and views. */ let shutdownPerformance = Task.async(function*() { yield promise.all([ PerformanceController.destroy(), PerformanceView.destroy() ]); }); /** * Functions handling target-related lifetime events and * UI interaction. */ let PerformanceController = { _recordings: [], _currentRecording: null, /** * Listen for events emitted by the current tab target and * main UI events. */ initialize: Task.async(function* () { this.startRecording = this.startRecording.bind(this); this.stopRecording = this.stopRecording.bind(this); this.importRecording = this.importRecording.bind(this); this.exportRecording = this.exportRecording.bind(this); this.clearRecordings = this.clearRecordings.bind(this); this._onTimelineData = this._onTimelineData.bind(this); this._onRecordingSelectFromView = this._onRecordingSelectFromView.bind(this); this._onPrefChanged = this._onPrefChanged.bind(this); // All boolean prefs should be handled via the OptionsView in the // ToolbarView, so that they may be accessible via the "gear" menu. // Every other pref should be registered here. this._nonBooleanPrefs = new ViewHelpers.Prefs("devtools.performance", { "hidden-markers": ["Json", "timeline.hidden-markers"], "memory-sample-probability": ["Float", "memory.sample-probability"], "memory-max-log-length": ["Int", "memory.max-log-length"] }); this._nonBooleanPrefs.registerObserver(); this._nonBooleanPrefs.on("pref-changed", this._onPrefChanged); ToolbarView.on(EVENTS.PREF_CHANGED, this._onPrefChanged); PerformanceView.on(EVENTS.UI_START_RECORDING, this.startRecording); PerformanceView.on(EVENTS.UI_STOP_RECORDING, this.stopRecording); PerformanceView.on(EVENTS.UI_IMPORT_RECORDING, this.importRecording); PerformanceView.on(EVENTS.UI_CLEAR_RECORDINGS, this.clearRecordings); RecordingsView.on(EVENTS.UI_EXPORT_RECORDING, this.exportRecording); RecordingsView.on(EVENTS.RECORDING_SELECTED, this._onRecordingSelectFromView); gFront.on("markers", this._onTimelineData); // timeline markers gFront.on("frames", this._onTimelineData); // stack frames gFront.on("memory", this._onTimelineData); // memory measurements gFront.on("ticks", this._onTimelineData); // framerate gFront.on("allocations", this._onTimelineData); // memory allocations }), /** * Remove events handled by the PerformanceController */ destroy: function() { this._nonBooleanPrefs.unregisterObserver(); this._nonBooleanPrefs.off("pref-changed", this._onPrefChanged); ToolbarView.off(EVENTS.PREF_CHANGED, this._onPrefChanged); PerformanceView.off(EVENTS.UI_START_RECORDING, this.startRecording); PerformanceView.off(EVENTS.UI_STOP_RECORDING, this.stopRecording); PerformanceView.off(EVENTS.UI_IMPORT_RECORDING, this.importRecording); PerformanceView.off(EVENTS.UI_CLEAR_RECORDINGS, this.clearRecordings); RecordingsView.off(EVENTS.UI_EXPORT_RECORDING, this.exportRecording); RecordingsView.off(EVENTS.RECORDING_SELECTED, this._onRecordingSelectFromView); gFront.off("markers", this._onTimelineData); gFront.off("frames", this._onTimelineData); gFront.off("memory", this._onTimelineData); gFront.off("ticks", this._onTimelineData); gFront.off("allocations", this._onTimelineData); }, /** * Get a boolean preference setting from `prefName` via the underlying * OptionsView in the ToolbarView. * * @param string prefName * @return boolean */ getOption: function (prefName) { return ToolbarView.optionsView.getPref(prefName); }, /** * Get a preference setting from `prefName`. * @param string prefName * @return object */ getPref: function (prefName) { return this._nonBooleanPrefs[prefName]; }, /** * Set a preference setting from `prefName`. * @param string prefName * @param object prefValue */ setPref: function (prefName, prefValue) { this._nonBooleanPrefs[prefName] = prefValue; }, /** * Starts recording with the PerformanceFront. Emits `EVENTS.RECORDING_STARTED` * when the front has started to record. */ startRecording: Task.async(function *() { let recording = this._createRecording({ withMemory: this.getOption("enable-memory"), withTicks: this.getOption("enable-framerate"), withAllocations: this.getOption("enable-memory"), allocationsSampleProbability: this.getPref("memory-sample-probability"), allocationsMaxLogLength: this.getPref("memory-max-log-length") }); this.emit(EVENTS.RECORDING_WILL_START, recording); yield recording.startRecording(); this.emit(EVENTS.RECORDING_STARTED, recording); this.setCurrentRecording(recording); }), /** * Stops recording with the PerformanceFront. Emits `EVENTS.RECORDING_STOPPED` * when the front has stopped recording. */ stopRecording: Task.async(function *() { let recording = this.getLatestRecording(); this.emit(EVENTS.RECORDING_WILL_STOP, recording); yield recording.stopRecording(); this.emit(EVENTS.RECORDING_STOPPED, recording); }), /** * Saves the given recording to a file. Emits `EVENTS.RECORDING_EXPORTED` * when the file was saved. * * @param RecordingModel recording * The model that holds the recording data. * @param nsILocalFile file * The file to stream the data into. */ exportRecording: Task.async(function*(_, recording, file) { yield recording.exportRecording(file); this.emit(EVENTS.RECORDING_EXPORTED, recording); }), /** * Clears all recordings from the list as well as the current recording. * Emits `EVENTS.RECORDINGS_CLEARED` when complete so other components can clean up. */ clearRecordings: Task.async(function* () { let latest = this.getLatestRecording(); if (latest && latest.isRecording()) { yield this.stopRecording(); } this._recordings.length = 0; this.setCurrentRecording(null); this.emit(EVENTS.RECORDINGS_CLEARED); }), /** * Loads a recording from a file, adding it to the recordings list. Emits * `EVENTS.RECORDING_IMPORTED` when the file was loaded. * * @param nsILocalFile file * The file to import the data from. */ importRecording: Task.async(function*(_, file) { let recording = this._createRecording(); yield recording.importRecording(file); this.emit(EVENTS.RECORDING_IMPORTED, recording); }), /** * Creates a new RecordingModel, fires events and stores it * internally in the controller. * * @param object options * @see PerformanceFront.prototype.startRecording * @return RecordingModel * The newly created recording model. */ _createRecording: function (options={}) { let recording = new RecordingModel(Heritage.extend(options, { front: gFront, performance: window.performance })); this._recordings.push(recording); return recording; }, /** * Sets the currently active RecordingModel. * @param RecordingModel recording */ setCurrentRecording: function (recording) { if (this._currentRecording !== recording) { this._currentRecording = recording; this.emit(EVENTS.RECORDING_SELECTED, recording); } }, /** * Gets the currently active RecordingModel. * @return RecordingModel */ getCurrentRecording: function () { return this._currentRecording; }, /** * Get most recently added recording that was triggered manually (via UI). * @return RecordingModel */ getLatestRecording: function () { for (let i = this._recordings.length - 1; i >= 0; i--) { return this._recordings[i]; } return null; }, /** * Gets the current timeline blueprint without the hidden markers. * @return object */ getTimelineBlueprint: function() { let blueprint = TIMELINE_BLUEPRINT; let hiddenMarkers = this.getPref("hidden-markers"); return RecordingUtils.getFilteredBlueprint({ blueprint, hiddenMarkers }); }, /** * Fired whenever the PerformanceFront emits markers, memory or ticks. */ _onTimelineData: function (...data) { this._recordings.forEach(e => e.addTimelineData.apply(e, data)); this.emit(EVENTS.TIMELINE_DATA, ...data); }, /** * Fired from RecordingsView, we listen on the PerformanceController so we can * set it here and re-emit on the controller, where all views can listen. */ _onRecordingSelectFromView: function (_, recording) { this.setCurrentRecording(recording); }, /** * Fired when the ToolbarView fires a PREF_CHANGED event. * with the value. */ _onPrefChanged: function (_, prefName, prefValue) { this.emit(EVENTS.PREF_CHANGED, prefName, prefValue); }, toString: () => "[object PerformanceController]" }; /** * Convenient way of emitting events from the controller. */ EventEmitter.decorate(PerformanceController); /** * DOM query helpers. */ function $(selector, target = document) { return target.querySelector(selector); } function $$(selector, target = document) { return target.querySelectorAll(selector); }