gecko-dev/jsgc-study.js

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JavaScript
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// chrome://testpilot/content/debug.html
/*
* JS GC study: a TestPilot study to monitor GC frequency and duration.
* This will work on any operating system where ctypes can find the symbols it
* requires in the shared objects/DLLs.
*
* The JS runtime has a gcInfoEnabled value that is initialized to false when
* the runtime is initialized (i.e. on browser startup). Installing the
* GCObserver enables it, and uninstalling disables it. In the event of a
* crash, the next startup will proceed in the usual fashion: if this study
* gets loaded and the GCObserver gets installed, then the value will be set to
* true and data will start being collected.
*/
BaseClasses = require("study_base_classes.js");
// experimentInfo is an obect providing metadata about the study.
exports.experimentInfo = {
testName: "JavaScript memory usage",
testId: 1717,
testInfoUrl: "https://", // URL of page explaining your study
summary: "This study aims to explore how well JavaScript manages memory over time. " +
"It will periodically collect data on the browser's JavaScript memory " +
"reclamation performance.",
thumbnail: "http://", // URL of image representing your study
// (will be displayed at 90px by 90px)
versionNumber: 1, // update this when changing your study
// so you can identify results submitted from different versions
duration: 1, // a number of days - fractions OK.
minTPVersion: "1.0", // Test Pilot versions older than this
// will not run the study.
minFXVersion: "4.0b1", // Firefox versions older than this will
// not run the study.
// For studies that automatically recur:
recursAutomatically: false,
recurrenceInterval: 60, // also in days
// When the study starts:
startDate: null, // null means "start immediately".
optInRequired: false // opt-in studies not yet implemented
};
var GCInfoStructFields = [
{name: 'appTime', kind: 'double', desc: 'Elapsed application time'},
{name: 'gcTime', kind: 'double', desc: 'Total time to perform garbage collection'},
{name: 'waitTime', kind: 'double', desc: 'GC start wait time'},
{name: 'markTime', kind: 'double', desc: 'JS entity traversal time'},
{name: 'sweepTime', kind: 'double', desc: 'JS entity destruction time'},
{name: 'sweepObjTime', kind: 'double', desc: 'JS object destruction time'},
{name: 'sweepStringTime', kind: 'double', desc: 'JS string destruction time'},
{name: 'sweepShapeTime', kind: 'double', desc: 'JS shape destruction time'},
{name: 'destroyTime', kind: 'double', desc: 'Heap arena destruction time'},
{name: 'endTime', kind: 'double', desc: 'GC end wait time'},
{name: 'isCompartmental', kind: 'bool', desc: 'GC is compartmental'},
];
const GCInfoStructFieldNames = [field.name for each (field in GCInfoStructFields)]
function makeCTypeProps(ctypes, fields) {
const kindToCType = {
double: ctypes.float64_t,
bool: ctypes.bool,
};
let attrs = [];
for each (field in fields) {
let record = {};
record[field.name] = kindToCType[field.kind];
attrs.push(record);
}
return attrs;
}
function makeColumns(fields) {
const kindToType = {
double: BaseClasses.TYPE_DOUBLE,
bool: BaseClasses.TYPE_INT_32,
};
let columns = [];
for each (field in fields)
columns.push({property: field.name, type: kindToType[field.kind], displayName: field.desc});
return columns;
}
function zipObj(names, values) {
let o = {};
for (let i in names)
o[names[i]] = values[i];
return o;
}
exports.dataStoreInfo = {
fileName: "testpilot_jsgc_results.sqlite",
tableName: "jsgc_info",
columns: makeColumns(GCInfoStructFields),
};
function GCGlobalObserver() {
GCGlobalObserver.baseConstructor.call(this);
}
BaseClasses.extend(GCGlobalObserver, BaseClasses.GenericGlobalObserver);
GCGlobalObserver.prototype.onExperimentStartup = function(store) {
GCGlobalObserver.superClass.onExperimentStartup.call(this, store);
dump('Installing GC observer\n');
try {
this.gcObserver = GCObserver.install(store);
} catch (e) {
this.console.debug('Exception during install: ' + e);
}
dump('Done installing GC observer\n');
};
GCGlobalObserver.prototype.getStudyMetadata = function() {
return [{droppedGCInfoCount: this.gcObserver.dropCount}];
};
GCGlobalObserver.prototype.onExperimentShutdown = function(store) {
GCGlobalObserver.superClass.onExperimentShutdown.call(this, store);
if (this.gcObserver)
this.gcObserver.uninstall();
};
// Called when the study is over or has been cancelled.
GCGlobalObserver.prototype.doExperimentCleanup = function() {
// Nothing to do.
};
// Instantiate and export the global observer (required!)
exports.handlers = new GCGlobalObserver();
// Defines what will show up on the study detail view page.
function JSGCWebContent() {
JSGCWebContent.baseConstructor.call(this, exports.experimentInfo);
}
BaseClasses.extend(JSGCWebContent, BaseClasses.GenericWebContent);
JSGCWebContent.prototype.__defineGetter__("dataCanvas",
function() {
return '<div class="dataBox"><h3>View Your Data:</h3>' +
this.dataViewExplanation +
this.rawDataLink +
'<div id="data-plot-div" style="width:480x;height:480px"></div>' +
this.saveButtons + '</div>';
});
JSGCWebContent.prototype.__defineGetter__("dataViewExplanation",
function() {
return "This plot shows the garbage collection duration during the course of the application's lifetime.";
});
// This function is called when the experiment page load is done
JSGCWebContent.prototype.onPageLoad = function(experiment,
document,
graphUtils) {
experiment.getDataStoreAsJSON(function(rawData) {
let compartmental = [];
let full = [];
for each (row in rawData) {
let series = row.isCompartmental ? compartmental : full;
series.push([row.appTime, row.gcTime]);
}
let div = document.getElementById('data-plot-div');
graphUtils.plot(div,
[
{label: 'Compartmental GCs (ms)',
data: compartmental,
points: {show: true}},
{label: 'Full GCs (ms)',
data: full,
points: {show: true}},
]
);
});
};
// Instantiate and export the web content (required!)
exports.webContent = new JSGCWebContent();
const GCINFO_READ_INTERVAL_SECONDS = 30;
var GCObserver = {
alreadyInstalled : false,
selfPingInterval: GCINFO_READ_INTERVAL_SECONDS * 1000,
ctypes: null,
libxul: null,
runtime: null,
GCInfoStruct: null,
getGCInfo: null,
droppedGCInfo: null,
setGCInfoEnabled: null,
wasGCInfoEnabled: null,
store: null,
dropCount: 0,
install: function GCObserver__install(store) {
this.debug('Installing GCObserver');
if (this.alreadyInstalled)
return;
this.debug('Adding GCObserver');
try {
this.createCTypes();
} catch (e) {
this.debug('Failed to create ctypes: ' + e);
return;
}
this.store = store;
this.wasGCInfoEnabled = this.getGCInfoEnabled(this.runtime);
this.setGCInfoEnabled(this.runtime, true);
if (!this.getGCInfoEnabled(this.runtime)) {
throw new Error('GC info could not be enabled');
}
/* Once GC info has been successfully enabled, we are able to uninstall. */
this.debug('Successfully enabled');
this.alreadyInstalled = true;
this.debug('Initiating self-ping');
this.selfPingTimer = Cc['@mozilla.org/timer;1'].createInstance(Ci.nsITimer);
this.pingSelf();
this.debug('Finished installing');
},
uninstall: function GCObserver__uninstall() {
if (!this.alreadyInstalled)
return;
if (this.selfPingTimer)
this.selfPingTimer.cancel();
this.selfPingTimer = null;
this.setGCInfoEnabled(this.wasGCInfoEnabled);
this.alreadyInstalled = false;
},
debug: function GCObserver__debug(msg) {
dump('//// ' + msg + '\n');
},
recordGCInfo: function GCObserver__alwaysRecord(fieldContents) {
this.debug('Fields: ' + fieldContents.join(' '));
this.store.storeEvent(zipObj(GCInfoStructFieldNames, fieldContents));
},
tryFindLibXUL: function GCObserver__tryFindLibXUL(ctypes) {
try { return ctypes.open(ctypes.libraryName('xul')); } catch (e) {}
try { return ctypes.open(ctypes.libraryName('mozjs')); } catch (e) {}
throw new Error('could not find SpiderMonkey dll');
},
createCTypes: function GCObserver__createCTypes() {
Components.utils.import('resource://gre/modules/ctypes.jsm');
this.ctypes = ctypes;
let libxul = this.tryFindLibXUL(ctypes);
this.libxul = libxul;
this.runtime = ctypes.getRuntime(ctypes.voidptr_t);
let GCInfo = this.createGCInfoStruct();
this.getGCInfo = libxul.declare('JS_GCInfoFront', ctypes.default_abi, GCInfo.ptr, ctypes.voidptr_t);
this.popGCInfo = libxul.declare('JS_GCInfoPopFront', ctypes.default_abi, ctypes.bool, ctypes.voidptr_t);
this.setGCInfoEnabled = libxul.declare('JS_SetGCInfoEnabled', ctypes.default_abi, ctypes.void_t, ctypes.voidptr_t, ctypes.bool);
this.getGCInfoEnabled = libxul.declare('JS_GetGCInfoEnabled', ctypes.default_abi, ctypes.bool, ctypes.voidptr_t);
},
createGCInfoStruct: function GCObserver__createGCInfoStruct() {
let ctypes = this.ctypes;
let GCInfoStruct = this.GCInfoStruct = new ctypes.StructType('GCInfo', makeCTypeProps(ctypes, GCInfoStructFields));
GCInfoStruct.ptr = new ctypes.PointerType(GCInfoStruct);
return GCInfoStruct;
},
pingSelf: function GCObserver__pingSelf() {
let self = this;
const TYPE_ONE_SHOT = 0;
const TYPE_REPEATING_SLACK = 1;
this.selfPingTimer.initWithCallback(function dumpAndRepeat() {
self.dumpGCInfos();
self.pingSelf();
}, this.selfPingInterval, TYPE_ONE_SHOT);
},
dumpGCInfos: function GCObserver__dumpGCInfos() {
let self = this;
let debug = this.debug;
let rt = this.runtime;
debug('Dumping GC infos');
for (var i = 0;; i++) {
debug('Getting GCInfo');
let info = this.getGCInfo(rt);
debug('GCInfo: ' + info);
if (info.isNull()) {
debug('Breaking due to null');
break;
}
/* Copy info contents into a temporary object so we can pop the info as quickly as possible. */
let c = info.contents;
let data = [c[name] for each (name in GCInfoStructFieldNames)]
let dropped = this.popGCInfo(rt);
if (dropped) {
debug('Dropped!');
++this.dropCount;
break;
}
self.recordGCInfo(data);
}
debug ('Saw ' + i + ' entries');
}
};