gecko-dev/toolkit/components/telemetry/TelemetryPing.jsm
Benjamin Smedberg fbb11389d3 Bug 1007710 - Add information about the currently-active experiment to the telemetry ping, r=gfritzsche+vladan
--HG--
extra : rebase_source : a6bde09d91162d9a77fa2d121442e2397e6c9526
2014-05-15 09:11:01 -04:00

1128 lines
38 KiB
JavaScript

/* -*- js-indent-level: 2; indent-tabs-mode: nil -*- */
/* 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 Cc = Components.classes;
const Ci = Components.interfaces;
const Cr = Components.results;
const Cu = Components.utils;
Cu.import("resource://gre/modules/debug.js", this);
Cu.import("resource://gre/modules/Services.jsm", this);
Cu.import("resource://gre/modules/XPCOMUtils.jsm", this);
#ifndef MOZ_WIDGET_GONK
Cu.import("resource://gre/modules/LightweightThemeManager.jsm", this);
#endif
Cu.import("resource://gre/modules/ThirdPartyCookieProbe.jsm", this);
Cu.import("resource://gre/modules/Promise.jsm", this);
Cu.import("resource://gre/modules/Task.jsm", this);
Cu.import("resource://gre/modules/AsyncShutdown.jsm", this);
// When modifying the payload in incompatible ways, please bump this version number
const PAYLOAD_VERSION = 1;
// This is the HG changeset of the Histogram.json file, used to associate
// submitted ping data with its histogram definition (bug 832007)
#expand const HISTOGRAMS_FILE_VERSION = "__HISTOGRAMS_FILE_VERSION__";
const PREF_BRANCH = "toolkit.telemetry.";
const PREF_SERVER = PREF_BRANCH + "server";
const PREF_ENABLED = PREF_BRANCH + "enabled";
const PREF_PREVIOUS_BUILDID = PREF_BRANCH + "previousBuildID";
// Do not gather data more than once a minute
const TELEMETRY_INTERVAL = 60000;
// Delay before intializing telemetry (ms)
const TELEMETRY_DELAY = 60000;
// Delay before initializing telemetry if we're testing (ms)
const TELEMETRY_TEST_DELAY = 100;
// Seconds of idle time before pinging.
// On idle-daily a gather-telemetry notification is fired, during it probes can
// start asynchronous tasks to gather data. On the next idle the data is sent.
const IDLE_TIMEOUT_SECONDS = 5 * 60;
var gLastMemoryPoll = null;
let gWasDebuggerAttached = false;
function getLocale() {
return Cc["@mozilla.org/chrome/chrome-registry;1"].
getService(Ci.nsIXULChromeRegistry).
getSelectedLocale('global');
}
XPCOMUtils.defineLazyServiceGetter(this, "Telemetry",
"@mozilla.org/base/telemetry;1",
"nsITelemetry");
XPCOMUtils.defineLazyServiceGetter(this, "idleService",
"@mozilla.org/widget/idleservice;1",
"nsIIdleService");
XPCOMUtils.defineLazyModuleGetter(this, "UpdateChannel",
"resource://gre/modules/UpdateChannel.jsm");
XPCOMUtils.defineLazyModuleGetter(this, "AddonManagerPrivate",
"resource://gre/modules/AddonManager.jsm");
XPCOMUtils.defineLazyModuleGetter(this, "TelemetryFile",
"resource://gre/modules/TelemetryFile.jsm");
XPCOMUtils.defineLazyModuleGetter(this, "UITelemetry",
"resource://gre/modules/UITelemetry.jsm");
XPCOMUtils.defineLazyModuleGetter(this, "TelemetryLog",
"resource://gre/modules/TelemetryLog.jsm");
function generateUUID() {
let str = Cc["@mozilla.org/uuid-generator;1"].getService(Ci.nsIUUIDGenerator).generateUUID().toString();
// strip {}
return str.substring(1, str.length - 1);
}
/**
* Read current process I/O counters.
*/
let processInfo = {
_initialized: false,
_IO_COUNTERS: null,
_kernel32: null,
_GetProcessIoCounters: null,
_GetCurrentProcess: null,
getCounters: function() {
let isWindows = ("@mozilla.org/windows-registry-key;1" in Components.classes);
if (isWindows)
return this.getCounters_Windows();
return null;
},
getCounters_Windows: function() {
if (!this._initialized){
Cu.import("resource://gre/modules/ctypes.jsm");
this._IO_COUNTERS = new ctypes.StructType("IO_COUNTERS", [
{'readOps': ctypes.unsigned_long_long},
{'writeOps': ctypes.unsigned_long_long},
{'otherOps': ctypes.unsigned_long_long},
{'readBytes': ctypes.unsigned_long_long},
{'writeBytes': ctypes.unsigned_long_long},
{'otherBytes': ctypes.unsigned_long_long} ]);
try {
this._kernel32 = ctypes.open("Kernel32.dll");
this._GetProcessIoCounters = this._kernel32.declare("GetProcessIoCounters",
ctypes.winapi_abi,
ctypes.bool, // return
ctypes.voidptr_t, // hProcess
this._IO_COUNTERS.ptr); // lpIoCounters
this._GetCurrentProcess = this._kernel32.declare("GetCurrentProcess",
ctypes.winapi_abi,
ctypes.voidptr_t); // return
this._initialized = true;
} catch (err) {
return null;
}
}
let io = new this._IO_COUNTERS();
if(!this._GetProcessIoCounters(this._GetCurrentProcess(), io.address()))
return null;
return [parseInt(io.readBytes), parseInt(io.writeBytes)];
}
};
this.EXPORTED_SYMBOLS = ["TelemetryPing"];
this.TelemetryPing = Object.freeze({
/**
* Returns the current telemetry payload.
* @returns Object
*/
getPayload: function() {
return Impl.getPayload();
},
/**
* Save histograms to a file.
* Used only for testing purposes.
*
* @param {nsIFile} aFile The file to load from.
*/
testSaveHistograms: function(aFile) {
return Impl.testSaveHistograms(aFile);
},
/**
* Collect and store information about startup.
*/
gatherStartup: function() {
return Impl.gatherStartup();
},
/**
* Inform the ping which AddOns are installed.
*
* @param aAddOns - The AddOns.
*/
setAddOns: function(aAddOns) {
return Impl.setAddOns(aAddOns);
},
/**
* Send a ping to a test server. Used only for testing.
*
* @param aServer - The server.
*/
testPing: function(aServer) {
return Impl.testPing(aServer);
},
/**
* Load histograms from a file.
* Used only for testing purposes.
*
* @param aFile - File to load from.
*/
testLoadHistograms: function(aFile) {
return Impl.testLoadHistograms(aFile);
},
/**
* Returns the path component of the current submission URL.
* @returns String
*/
submissionPath: function() {
return Impl.submissionPath();
},
Constants: Object.freeze({
PREF_ENABLED: PREF_ENABLED,
PREF_SERVER: PREF_SERVER,
PREF_PREVIOUS_BUILDID: PREF_PREVIOUS_BUILDID,
}),
/**
* Used only for testing purposes.
*/
reset: function() {
this.uninstall();
return this.setup();
},
/**
* Used only for testing purposes.
*/
setup: function() {
return Impl.setup(true);
},
/**
* Used only for testing purposes.
*/
uninstall: function() {
try {
Impl.uninstall();
} catch (ex) {
// Ignore errors
}
},
/**
* Descriptive metadata
*
* @param reason
* The reason for the telemetry ping, this will be included in the
* returned metadata,
* @return The metadata as a JS object
*/
getMetadata: function(reason) {
return Impl.getMetadata(reason);
},
/**
* Send a notification.
*/
observe: function (aSubject, aTopic, aData) {
return Impl.observe(aSubject, aTopic, aData);
}
});
let Impl = {
_histograms: {},
_initialized: false,
_prevValues: {},
// Generate a unique id once per session so the server can cope with
// duplicate submissions.
_uuid: generateUUID(),
// Regex that matches histograms we care about during startup.
// Keep this in sync with gen-histogram-bucket-ranges.py.
_startupHistogramRegex: /SQLITE|HTTP|SPDY|CACHE|DNS/,
_slowSQLStartup: {},
_prevSession: null,
_hasWindowRestoredObserver: false,
_hasXulWindowVisibleObserver: false,
_startupIO : {},
// The previous build ID, if this is the first run with a new build.
// Undefined if this is not the first run, or the previous build ID is unknown.
_previousBuildID: undefined,
/**
* Gets a series of simple measurements (counters). At the moment, this
* only returns startup data from nsIAppStartup.getStartupInfo().
*
* @return simple measurements as a dictionary.
*/
getSimpleMeasurements: function getSimpleMeasurements(forSavedSession) {
let si = Services.startup.getStartupInfo();
var ret = {
// uptime in minutes
uptime: Math.round((new Date() - si.process) / 60000)
}
// Look for app-specific timestamps
var appTimestamps = {};
try {
let o = {};
Cu.import("resource://gre/modules/TelemetryTimestamps.jsm", o);
appTimestamps = o.TelemetryTimestamps.get();
} catch (ex) {}
try {
ret.addonManager = AddonManagerPrivate.getSimpleMeasures();
} catch (ex) {}
try {
ret.UITelemetry = UITelemetry.getSimpleMeasures();
} catch (ex) {}
if (si.process) {
for each (let field in Object.keys(si)) {
if (field == "process")
continue;
ret[field] = si[field] - si.process
}
for (let p in appTimestamps) {
if (!(p in ret) && appTimestamps[p])
ret[p] = appTimestamps[p] - si.process;
}
}
ret.startupInterrupted = Number(Services.startup.interrupted);
// Update debuggerAttached flag
let debugService = Cc["@mozilla.org/xpcom/debug;1"].getService(Ci.nsIDebug2);
let isDebuggerAttached = debugService.isDebuggerAttached;
gWasDebuggerAttached = gWasDebuggerAttached || isDebuggerAttached;
ret.debuggerAttached = Number(gWasDebuggerAttached);
ret.js = Cu.getJSEngineTelemetryValue();
let shutdownDuration = Telemetry.lastShutdownDuration;
if (shutdownDuration)
ret.shutdownDuration = shutdownDuration;
let failedProfileLockCount = Telemetry.failedProfileLockCount;
if (failedProfileLockCount)
ret.failedProfileLockCount = failedProfileLockCount;
let maximalNumberOfConcurrentThreads = Telemetry.maximalNumberOfConcurrentThreads;
if (maximalNumberOfConcurrentThreads)
ret.maximalNumberOfConcurrentThreads = maximalNumberOfConcurrentThreads;
for (let ioCounter in this._startupIO)
ret[ioCounter] = this._startupIO[ioCounter];
let hasPingBeenSent = false;
try {
hasPingBeenSent = Telemetry.getHistogramById("TELEMETRY_SUCCESS").snapshot().sum > 0;
} catch(e) {
}
if (!forSavedSession || hasPingBeenSent) {
ret.savedPings = TelemetryFile.pingsLoaded;
}
ret.pingsOverdue = TelemetryFile.pingsOverdue;
ret.pingsDiscarded = TelemetryFile.pingsDiscarded;
return ret;
},
/**
* When reflecting a histogram into JS, Telemetry hands us an object
* with the following properties:
*
* - min, max, histogram_type, sum, sum_squares_{lo,hi}: simple integers;
* - log_sum, log_sum_squares: doubles;
* - counts: array of counts for histogram buckets;
* - ranges: array of calculated bucket sizes.
*
* This format is not straightforward to read and potentially bulky
* with lots of zeros in the counts array. Packing histograms makes
* raw histograms easier to read and compresses the data a little bit.
*
* Returns an object:
* { range: [min, max], bucket_count: <number of buckets>,
* histogram_type: <histogram_type>, sum: <sum>,
* sum_squares_lo: <sum_squares_lo>,
* sum_squares_hi: <sum_squares_hi>,
* log_sum: <log_sum>, log_sum_squares: <log_sum_squares>,
* values: { bucket1: count1, bucket2: count2, ... } }
*/
packHistogram: function packHistogram(hgram) {
let r = hgram.ranges;;
let c = hgram.counts;
let retgram = {
range: [r[1], r[r.length - 1]],
bucket_count: r.length,
histogram_type: hgram.histogram_type,
values: {},
sum: hgram.sum
};
if (hgram.histogram_type == Telemetry.HISTOGRAM_EXPONENTIAL) {
retgram.log_sum = hgram.log_sum;
retgram.log_sum_squares = hgram.log_sum_squares;
} else {
retgram.sum_squares_lo = hgram.sum_squares_lo;
retgram.sum_squares_hi = hgram.sum_squares_hi;
}
let first = true;
let last = 0;
for (let i = 0; i < c.length; i++) {
let value = c[i];
if (!value)
continue;
// add a lower bound
if (i && first) {
retgram.values[r[i - 1]] = 0;
}
first = false;
last = i + 1;
retgram.values[r[i]] = value;
}
// add an upper bound
if (last && last < c.length)
retgram.values[r[last]] = 0;
return retgram;
},
getHistograms: function getHistograms(hls) {
let registered = Telemetry.registeredHistograms([]);
let ret = {};
for (let name of registered) {
for (let n of [name, "STARTUP_" + name]) {
if (n in hls) {
ret[n] = this.packHistogram(hls[n]);
}
}
}
return ret;
},
getAddonHistograms: function getAddonHistograms() {
let ahs = Telemetry.addonHistogramSnapshots;
let ret = {};
for (let addonName in ahs) {
let addonHistograms = ahs[addonName];
let packedHistograms = {};
for (let name in addonHistograms) {
packedHistograms[name] = this.packHistogram(addonHistograms[name]);
}
if (Object.keys(packedHistograms).length != 0)
ret[addonName] = packedHistograms;
}
return ret;
},
getThreadHangStats: function getThreadHangStats(stats) {
stats.forEach((thread) => {
thread.activity = this.packHistogram(thread.activity);
thread.hangs.forEach((hang) => {
hang.histogram = this.packHistogram(hang.histogram);
});
});
return stats;
},
/**
* Descriptive metadata
*
* @param reason
* The reason for the telemetry ping, this will be included in the
* returned metadata,
* @return The metadata as a JS object
*/
getMetadata: function getMetadata(reason) {
let ai = Services.appinfo;
let ret = {
reason: reason,
OS: ai.OS,
appID: ai.ID,
appVersion: ai.version,
appName: ai.name,
appBuildID: ai.appBuildID,
appUpdateChannel: UpdateChannel.get(),
platformBuildID: ai.platformBuildID,
revision: HISTOGRAMS_FILE_VERSION,
locale: getLocale()
};
// In order to share profile data, the appName used for Metro Firefox is "Firefox",
// (the same as desktop Firefox). We set it to "MetroFirefox" here in order to
// differentiate telemetry pings sent by desktop vs. metro Firefox.
if(Services.metro && Services.metro.immersive) {
ret.appName = "MetroFirefox";
}
if (this._previousBuildID) {
ret.previousBuildID = this._previousBuildID;
}
// sysinfo fields are not always available, get what we can.
let sysInfo = Cc["@mozilla.org/system-info;1"].getService(Ci.nsIPropertyBag2);
let fields = ["cpucount", "memsize", "arch", "version", "kernel_version",
"device", "manufacturer", "hardware", "tablet",
"hasMMX", "hasSSE", "hasSSE2", "hasSSE3",
"hasSSSE3", "hasSSE4A", "hasSSE4_1", "hasSSE4_2",
"hasEDSP", "hasARMv6", "hasARMv7", "hasNEON", "isWow64",
"profileHDDModel", "profileHDDRevision", "binHDDModel",
"binHDDRevision", "winHDDModel", "winHDDRevision"];
for each (let field in fields) {
let value;
try {
value = sysInfo.getProperty(field);
} catch (e) {
continue;
}
if (field == "memsize") {
// Send RAM size in megabytes. Rounding because sysinfo doesn't
// always provide RAM in multiples of 1024.
value = Math.round(value / 1024 / 1024);
}
ret[field] = value;
}
// gfxInfo fields are not always available, get what we can.
let gfxInfo = Cc["@mozilla.org/gfx/info;1"].getService(Ci.nsIGfxInfo);
let gfxfields = ["adapterDescription", "adapterVendorID", "adapterDeviceID",
"adapterRAM", "adapterDriver", "adapterDriverVersion",
"adapterDriverDate", "adapterDescription2",
"adapterVendorID2", "adapterDeviceID2", "adapterRAM2",
"adapterDriver2", "adapterDriverVersion2",
"adapterDriverDate2", "isGPU2Active", "D2DEnabled",
"DWriteEnabled", "DWriteVersion"
];
if (gfxInfo) {
for each (let field in gfxfields) {
try {
let value = gfxInfo[field];
// bug 940806: We need to do a strict equality comparison here,
// otherwise a type conversion will occur and boolean false values
// will get filtered out
if (value !== "") {
ret[field] = value;
}
} catch (e) {
continue
}
}
}
#ifndef MOZ_WIDGET_GONK
let theme = LightweightThemeManager.currentTheme;
if (theme)
ret.persona = theme.id;
#endif
if (this._addons)
ret.addons = this._addons;
let flashVersion = this.getFlashVersion();
if (flashVersion)
ret.flashVersion = flashVersion;
try {
let scope = {};
Cu.import("resource:///modules/experiments/Experiments.jsm", scope);
let activeExperiment = scope.Experiments.instance().getActiveExperimentID();
if (activeExperiment) {
ret.activeExperiment = activeExperiment;
}
} catch(e) {
// If this is not Firefox, the import will fail.
}
return ret;
},
/**
* Pull values from about:memory into corresponding histograms
*/
gatherMemory: function gatherMemory() {
let mgr;
try {
mgr = Cc["@mozilla.org/memory-reporter-manager;1"].
getService(Ci.nsIMemoryReporterManager);
} catch (e) {
// OK to skip memory reporters in xpcshell
return;
}
let histogram = Telemetry.getHistogramById("TELEMETRY_MEMORY_REPORTER_MS");
let startTime = new Date();
// Get memory measurements from distinguished amount attributes. We used
// to measure "explicit" too, but it could cause hangs, and the data was
// always really noisy anyway. See bug 859657.
//
// test_TelemetryPing.js relies on some of these histograms being
// here. If you remove any of the following histograms from here, you'll
// have to modify test_TelemetryPing.js:
//
// * MEMORY_JS_GC_HEAP, and
// * MEMORY_JS_COMPARTMENTS_SYSTEM.
//
// The distinguished amount attribute names don't match the telemetry id
// names in some cases due to a combination of (a) historical reasons, and
// (b) the fact that we can't change telemetry id names without breaking
// data continuity.
//
let boundHandleMemoryReport = this.handleMemoryReport.bind(this);
function h(id, units, amountName) {
try {
// If mgr[amountName] throws an exception, just move on -- some amounts
// aren't available on all platforms. But if the attribute simply
// isn't present, that indicates the distinguished amounts have changed
// and this file hasn't been updated appropriately.
let amount = mgr[amountName];
NS_ASSERT(amount !== undefined,
"telemetry accessed an unknown distinguished amount");
boundHandleMemoryReport(id, units, amount);
} catch (e) {
};
}
let b = (id, n) => h(id, Ci.nsIMemoryReporter.UNITS_BYTES, n);
let c = (id, n) => h(id, Ci.nsIMemoryReporter.UNITS_COUNT, n);
let cc= (id, n) => h(id, Ci.nsIMemoryReporter.UNITS_COUNT_CUMULATIVE, n);
let p = (id, n) => h(id, Ci.nsIMemoryReporter.UNITS_PERCENTAGE, n);
b("MEMORY_VSIZE", "vsize");
b("MEMORY_VSIZE_MAX_CONTIGUOUS", "vsizeMaxContiguous");
b("MEMORY_RESIDENT", "residentFast");
b("MEMORY_HEAP_ALLOCATED", "heapAllocated");
p("MEMORY_HEAP_COMMITTED_UNUSED_RATIO", "heapOverheadRatio");
b("MEMORY_JS_GC_HEAP", "JSMainRuntimeGCHeap");
b("MEMORY_JS_MAIN_RUNTIME_TEMPORARY_PEAK", "JSMainRuntimeTemporaryPeak");
c("MEMORY_JS_COMPARTMENTS_SYSTEM", "JSMainRuntimeCompartmentsSystem");
c("MEMORY_JS_COMPARTMENTS_USER", "JSMainRuntimeCompartmentsUser");
b("MEMORY_IMAGES_CONTENT_USED_UNCOMPRESSED", "imagesContentUsedUncompressed");
b("MEMORY_STORAGE_SQLITE", "storageSQLite");
cc("MEMORY_EVENTS_VIRTUAL", "lowMemoryEventsVirtual");
cc("MEMORY_EVENTS_PHYSICAL", "lowMemoryEventsPhysical");
c("GHOST_WINDOWS", "ghostWindows");
cc("PAGE_FAULTS_HARD", "pageFaultsHard");
histogram.add(new Date() - startTime);
},
handleMemoryReport: function(id, units, amount) {
let val;
if (units == Ci.nsIMemoryReporter.UNITS_BYTES) {
val = Math.floor(amount / 1024);
}
else if (units == Ci.nsIMemoryReporter.UNITS_PERCENTAGE) {
// UNITS_PERCENTAGE amounts are 100x greater than their raw value.
val = Math.floor(amount / 100);
}
else if (units == Ci.nsIMemoryReporter.UNITS_COUNT) {
val = amount;
}
else if (units == Ci.nsIMemoryReporter.UNITS_COUNT_CUMULATIVE) {
// If the reporter gives us a cumulative count, we'll report the
// difference in its value between now and our previous ping.
if (!(id in this._prevValues)) {
// If this is the first time we're reading this reporter, store its
// current value but don't report it in the telemetry ping, so we
// ignore the effect startup had on the reporter.
this._prevValues[id] = amount;
return;
}
val = amount - this._prevValues[id];
this._prevValues[id] = amount;
}
else {
NS_ASSERT(false, "Can't handle memory reporter with units " + units);
return;
}
let h = this._histograms[id];
if (!h) {
h = Telemetry.getHistogramById(id);
this._histograms[id] = h;
}
h.add(val);
},
/**
* Return true if we're interested in having a STARTUP_* histogram for
* the given histogram name.
*/
isInterestingStartupHistogram: function isInterestingStartupHistogram(name) {
return this._startupHistogramRegex.test(name);
},
/**
* Make a copy of interesting histograms at startup.
*/
gatherStartupHistograms: function gatherStartupHistograms() {
let info = Telemetry.registeredHistograms([]);
let snapshots = Telemetry.histogramSnapshots;
for (let name of info) {
// Only duplicate histograms with actual data.
if (this.isInterestingStartupHistogram(name) && name in snapshots) {
Telemetry.histogramFrom("STARTUP_" + name, name);
}
}
},
/**
* Get the current session's payload using the provided
* simpleMeasurements and info, which are typically obtained by a call
* to |this.getSimpleMeasurements| and |this.getMetadata|,
* respectively.
*/
assemblePayloadWithMeasurements: function assemblePayloadWithMeasurements(simpleMeasurements, info) {
let payloadObj = {
ver: PAYLOAD_VERSION,
simpleMeasurements: simpleMeasurements,
histograms: this.getHistograms(Telemetry.histogramSnapshots),
slowSQL: Telemetry.slowSQL,
fileIOReports: Telemetry.fileIOReports,
chromeHangs: Telemetry.chromeHangs,
threadHangStats: this.getThreadHangStats(Telemetry.threadHangStats),
lateWrites: Telemetry.lateWrites,
addonHistograms: this.getAddonHistograms(),
addonDetails: AddonManagerPrivate.getTelemetryDetails(),
UIMeasurements: UITelemetry.getUIMeasurements(),
log: TelemetryLog.entries(),
info: info
};
if (Object.keys(this._slowSQLStartup).length != 0 &&
(Object.keys(this._slowSQLStartup.mainThread).length ||
Object.keys(this._slowSQLStartup.otherThreads).length)) {
payloadObj.slowSQLStartup = this._slowSQLStartup;
}
return payloadObj;
},
getSessionPayload: function getSessionPayload(reason) {
let measurements = this.getSimpleMeasurements(reason == "saved-session");
let info = this.getMetadata(reason);
return this.assemblePayloadWithMeasurements(measurements, info);
},
assemblePing: function assemblePing(payloadObj, reason) {
let slug = this._uuid;
return { slug: slug, reason: reason, payload: payloadObj };
},
getSessionPayloadAndSlug: function getSessionPayloadAndSlug(reason) {
return this.assemblePing(this.getSessionPayload(reason), reason);
},
popPayloads: function popPayloads(reason) {
function payloadIter() {
if (reason != "overdue-flush") {
yield this.getSessionPayloadAndSlug(reason);
}
let iterator = TelemetryFile.popPendingPings(reason);
for (let data of iterator) {
yield data;
}
}
let payloadIterWithThis = payloadIter.bind(this);
return { __iterator__: payloadIterWithThis };
},
/**
* Send data to the server. Record success/send-time in histograms
*/
send: function send(reason, server) {
// populate histograms one last time
this.gatherMemory();
return this.sendPingsFromIterator(server, reason,
Iterator(this.popPayloads(reason)));
},
sendPingsFromIterator: function sendPingsFromIterator(server, reason, i) {
let p = [data for (data in i)].map((data) =>
this.doPing(server, data).then(null, () => TelemetryFile.savePing(data, true)));
return Promise.all(p);
},
finishPingRequest: function finishPingRequest(success, startTime, ping) {
let hping = Telemetry.getHistogramById("TELEMETRY_PING");
let hsuccess = Telemetry.getHistogramById("TELEMETRY_SUCCESS");
hsuccess.add(success);
hping.add(new Date() - startTime);
if (success) {
return TelemetryFile.cleanupPingFile(ping);
} else {
return Promise.resolve();
}
},
submissionPath: function submissionPath(ping) {
let slug;
if (!ping) {
slug = this._uuid;
} else {
let info = ping.payload.info;
let pathComponents = [ping.slug, info.reason, info.appName,
info.appVersion, info.appUpdateChannel,
info.appBuildID];
slug = pathComponents.join("/");
}
return "/submit/telemetry/" + slug;
},
doPing: function doPing(server, ping) {
let deferred = Promise.defer();
let url = server + this.submissionPath(ping);
let request = Cc["@mozilla.org/xmlextras/xmlhttprequest;1"]
.createInstance(Ci.nsIXMLHttpRequest);
request.mozBackgroundRequest = true;
request.open("POST", url, true);
request.overrideMimeType("text/plain");
request.setRequestHeader("Content-Type", "application/json; charset=UTF-8");
let startTime = new Date();
function handler(success) {
return function(event) {
this.finishPingRequest(success, startTime, ping).then(() => {
if (success) {
deferred.resolve();
} else {
deferred.reject(event);
}
});
};
}
request.addEventListener("error", handler(false).bind(this), false);
request.addEventListener("load", handler(true).bind(this), false);
request.setRequestHeader("Content-Encoding", "gzip");
let converter = Cc["@mozilla.org/intl/scriptableunicodeconverter"]
.createInstance(Ci.nsIScriptableUnicodeConverter);
converter.charset = "UTF-8";
let utf8Payload = converter.ConvertFromUnicode(JSON.stringify(ping.payload));
utf8Payload += converter.Finish();
let payloadStream = Cc["@mozilla.org/io/string-input-stream;1"]
.createInstance(Ci.nsIStringInputStream);
payloadStream.data = this.gzipCompressString(utf8Payload);
request.send(payloadStream);
return deferred.promise;
},
gzipCompressString: function gzipCompressString(string) {
let observer = {
buffer: "",
onStreamComplete: function(loader, context, status, length, result) {
this.buffer = String.fromCharCode.apply(this, result);
}
};
let scs = Cc["@mozilla.org/streamConverters;1"]
.getService(Ci.nsIStreamConverterService);
let listener = Cc["@mozilla.org/network/stream-loader;1"]
.createInstance(Ci.nsIStreamLoader);
listener.init(observer);
let converter = scs.asyncConvertData("uncompressed", "gzip",
listener, null);
let stringStream = Cc["@mozilla.org/io/string-input-stream;1"]
.createInstance(Ci.nsIStringInputStream);
stringStream.data = string;
converter.onStartRequest(null, null);
converter.onDataAvailable(null, null, stringStream, 0, string.length);
converter.onStopRequest(null, null, null);
return observer.buffer;
},
attachObservers: function attachObservers() {
if (!this._initialized)
return;
Services.obs.addObserver(this, "cycle-collector-begin", false);
Services.obs.addObserver(this, "idle-daily", false);
},
detachObservers: function detachObservers() {
if (!this._initialized)
return;
Services.obs.removeObserver(this, "idle-daily");
Services.obs.removeObserver(this, "cycle-collector-begin");
if (this._isIdleObserver) {
idleService.removeIdleObserver(this, IDLE_TIMEOUT_SECONDS);
this._isIdleObserver = false;
}
},
/**
* Initializes telemetry within a timer. If there is no PREF_SERVER set, don't turn on telemetry.
*/
setup: function setup(aTesting) {
// Initialize some probes that are kept in their own modules
this._thirdPartyCookies = new ThirdPartyCookieProbe();
this._thirdPartyCookies.init();
// Record old value and update build ID preference if this is the first
// run with a new build ID.
let previousBuildID = undefined;
try {
previousBuildID = Services.prefs.getCharPref(PREF_PREVIOUS_BUILDID);
} catch (e) {
// Preference was not set.
}
let thisBuildID = Services.appinfo.appBuildID;
// If there is no previousBuildID preference, this._previousBuildID remains
// undefined so no value is sent in the telemetry metadata.
if (previousBuildID != thisBuildID) {
this._previousBuildID = previousBuildID;
Services.prefs.setCharPref(PREF_PREVIOUS_BUILDID, thisBuildID);
}
#ifdef MOZILLA_OFFICIAL
if (!Telemetry.canSend) {
// We can't send data; no point in initializing observers etc.
// Only do this for official builds so that e.g. developer builds
// still enable Telemetry based on prefs.
Telemetry.canRecord = false;
return;
}
#endif
let enabled = false;
try {
enabled = Services.prefs.getBoolPref(PREF_ENABLED);
this._server = Services.prefs.getCharPref(PREF_SERVER);
} catch (e) {
// Prerequesite prefs aren't set
}
if (!enabled) {
// Turn off local telemetry if telemetry is disabled.
// This may change once about:telemetry is added.
Telemetry.canRecord = false;
return;
}
AsyncShutdown.sendTelemetry.addBlocker(
"Telemetry: shutting down",
function condition(){
this.uninstall();
if (Telemetry.canSend) {
return this.savePendingPings();
}
}.bind(this));
Services.obs.addObserver(this, "sessionstore-windows-restored", false);
Services.obs.addObserver(this, "quit-application-granted", false);
#ifdef MOZ_WIDGET_ANDROID
Services.obs.addObserver(this, "application-background", false);
#endif
Services.obs.addObserver(this, "xul-window-visible", false);
this._hasWindowRestoredObserver = true;
this._hasXulWindowVisibleObserver = true;
// Delay full telemetry initialization to give the browser time to
// run various late initializers. Otherwise our gathered memory
// footprint and other numbers would be too optimistic.
this._timer = Cc["@mozilla.org/timer;1"].createInstance(Ci.nsITimer);
let deferred = Promise.defer();
function timerCallback() {
Task.spawn(function*(){
this._initialized = true;
yield TelemetryFile.loadSavedPings();
// If we have any TelemetryPings lying around, we'll be aggressive
// and try to send them all off ASAP.
if (TelemetryFile.pingsOverdue > 0) {
// It doesn't really matter what we pass to this.send as a reason,
// since it's never sent to the server. All that this.send does with
// the reason is check to make sure it's not a test-ping.
yield this.send("overdue-flush", this._server);
}
this.attachObservers();
this.gatherMemory();
Telemetry.asyncFetchTelemetryData(function () {});
delete this._timer;
deferred.resolve();
}.bind(this));
}
this._timer.initWithCallback(timerCallback.bind(this),
aTesting ? TELEMETRY_TEST_DELAY : TELEMETRY_DELAY,
Ci.nsITimer.TYPE_ONE_SHOT);
return deferred.promise;
},
testLoadHistograms: function testLoadHistograms(file) {
return TelemetryFile.testLoadHistograms(file);
},
getFlashVersion: function getFlashVersion() {
let host = Cc["@mozilla.org/plugin/host;1"].getService(Ci.nsIPluginHost);
let tags = host.getPluginTags();
for (let i = 0; i < tags.length; i++) {
if (tags[i].name == "Shockwave Flash")
return tags[i].version;
}
return null;
},
savePendingPings: function savePendingPings() {
let sessionPing = this.getSessionPayloadAndSlug("saved-session");
return TelemetryFile.savePendingPings(sessionPing);
},
testSaveHistograms: function testSaveHistograms(file) {
return TelemetryFile.savePingToFile(this.getSessionPayloadAndSlug("saved-session"),
file.path, true);
},
/**
* Remove observers to avoid leaks
*/
uninstall: function uninstall() {
this.detachObservers();
if (this._hasWindowRestoredObserver) {
Services.obs.removeObserver(this, "sessionstore-windows-restored");
this._hasWindowRestoredObserver = false;
}
if (this._hasXulWindowVisibleObserver) {
Services.obs.removeObserver(this, "xul-window-visible");
this._hasXulWindowVisibleObserver = false;
}
Services.obs.removeObserver(this, "quit-application-granted");
#ifdef MOZ_WIDGET_ANDROID
Services.obs.removeObserver(this, "application-background", false);
#endif
},
getPayload: function getPayload() {
// This function returns the current Telemetry payload to the caller.
// We only gather startup info once.
if (Object.keys(this._slowSQLStartup).length == 0) {
this.gatherStartupHistograms();
this._slowSQLStartup = Telemetry.slowSQL;
}
this.gatherMemory();
return this.getSessionPayload("gather-payload");
},
gatherStartup: function gatherStartup() {
let counters = processInfo.getCounters();
if (counters) {
[this._startupIO.startupSessionRestoreReadBytes,
this._startupIO.startupSessionRestoreWriteBytes] = counters;
}
this.gatherStartupHistograms();
this._slowSQLStartup = Telemetry.slowSQL;
},
setAddOns: function setAddOns(aAddOns) {
this._addons = aAddOns;
},
sendIdlePing: function sendIdlePing(aTest, aServer) {
if (this._isIdleObserver) {
idleService.removeIdleObserver(this, IDLE_TIMEOUT_SECONDS);
this._isIdleObserver = false;
}
if (aTest) {
return this.send("test-ping", aServer);
} else if (Telemetry.canSend) {
return this.send("idle-daily", aServer);
}
},
testPing: function testPing(server) {
return this.sendIdlePing(true, server);
},
/**
* This observer drives telemetry.
*/
observe: function (aSubject, aTopic, aData) {
switch (aTopic) {
case "profile-after-change":
return this.setup();
case "cycle-collector-begin":
let now = new Date();
if (!gLastMemoryPoll
|| (TELEMETRY_INTERVAL <= now - gLastMemoryPoll)) {
gLastMemoryPoll = now;
this.gatherMemory();
}
break;
case "xul-window-visible":
Services.obs.removeObserver(this, "xul-window-visible");
this._hasXulWindowVisibleObserver = false;
var counters = processInfo.getCounters();
if (counters) {
[this._startupIO.startupWindowVisibleReadBytes,
this._startupIO.startupWindowVisibleWriteBytes] = counters;
}
break;
case "sessionstore-windows-restored":
Services.obs.removeObserver(this, "sessionstore-windows-restored");
this._hasWindowRestoredObserver = false;
// Check whether debugger was attached during startup
let debugService = Cc["@mozilla.org/xpcom/debug;1"].getService(Ci.nsIDebug2);
gWasDebuggerAttached = debugService.isDebuggerAttached;
this.gatherStartup();
break;
case "idle-daily":
// Enqueue to main-thread, otherwise components may be inited by the
// idle-daily category and miss the gather-telemetry notification.
Services.tm.mainThread.dispatch((function() {
// Notify that data should be gathered now, since ping will happen soon.
Services.obs.notifyObservers(null, "gather-telemetry", null);
// The ping happens at the first idle of length IDLE_TIMEOUT_SECONDS.
idleService.addIdleObserver(this, IDLE_TIMEOUT_SECONDS);
this._isIdleObserver = true;
}).bind(this), Ci.nsIThread.DISPATCH_NORMAL);
break;
case "idle":
this.sendIdlePing(false, this._server);
break;
#ifdef MOZ_WIDGET_ANDROID
// On Android, we can get killed without warning once we are in the background,
// but we may also submit data and/or come back into the foreground without getting
// killed. To deal with this, we save the current session data to file when we are
// put into the background. This handles the following post-backgrounding scenarios:
// 1) We are killed immediately. In this case the current session data (which we
// save to a file) will be loaded and submitted on a future run.
// 2) We submit the data while in the background, and then are killed. In this case
// the file that we saved will be deleted by the usual process in
// finishPingRequest after it is submitted.
// 3) We submit the data, and then come back into the foreground. Same as case (2).
// 4) We do not submit the data, but come back into the foreground. In this case
// we have the option of either deleting the file that we saved (since we will either
// send the live data while in the foreground, or create the file again on the next
// backgrounding), or not (in which case we will delete it on submit, or overwrite
// it on the next backgrounding). Not deleting it is faster, so that's what we do.
case "application-background":
if (Telemetry.canSend) {
let ping = this.getSessionPayloadAndSlug("saved-session");
TelemetryFile.savePing(ping, true);
}
break;
#endif
}
},
};