/* Any copyright is dedicated to the Public Domain. http://creativecommons.org/publicdomain/zero/1.0/ */ /* This testcase triggers two telemetry pings. * * Telemetry code keeps histograms of past telemetry pings. The first * ping populates these histograms. One of those histograms is then * checked in the second request. */ const {CommonUtils} = ChromeUtils.import("resource://services-common/utils.js"); const {ClientID} = ChromeUtils.import("resource://gre/modules/ClientID.jsm"); const {Services} = ChromeUtils.import("resource://gre/modules/Services.jsm"); ChromeUtils.import("resource://gre/modules/XPCOMUtils.jsm", this); ChromeUtils.import("resource://gre/modules/TelemetryController.jsm", this); ChromeUtils.import("resource://gre/modules/TelemetryStorage.jsm", this); ChromeUtils.import("resource://gre/modules/TelemetrySend.jsm", this); ChromeUtils.import("resource://gre/modules/TelemetryArchive.jsm", this); ChromeUtils.import("resource://gre/modules/TelemetryUtils.jsm", this); const {Preferences} = ChromeUtils.import("resource://gre/modules/Preferences.jsm"); ChromeUtils.import("resource://testing-common/ContentTaskUtils.jsm", this); const PING_FORMAT_VERSION = 4; const OPTOUT_PING_TYPE = "optout"; const TEST_PING_TYPE = "test-ping-type"; const PLATFORM_VERSION = "1.9.2"; const APP_VERSION = "1"; const APP_NAME = "XPCShell"; var gClientID = null; XPCOMUtils.defineLazyGetter(this, "DATAREPORTING_PATH", function() { return OS.Path.join(OS.Constants.Path.profileDir, "datareporting"); }); function sendPing(aSendClientId, aSendEnvironment) { if (PingServer.started) { TelemetrySend.setServer("http://localhost:" + PingServer.port); } else { TelemetrySend.setServer("http://doesnotexist"); } let options = { addClientId: aSendClientId, addEnvironment: aSendEnvironment, }; return TelemetryController.submitExternalPing(TEST_PING_TYPE, {}, options); } function checkPingFormat(aPing, aType, aHasClientId, aHasEnvironment) { const MANDATORY_PING_FIELDS = [ "type", "id", "creationDate", "version", "application", "payload", ]; const APPLICATION_TEST_DATA = { buildId: gAppInfo.appBuildID, name: APP_NAME, version: APP_VERSION, displayVersion: AppConstants.MOZ_APP_VERSION_DISPLAY, vendor: "Mozilla", platformVersion: PLATFORM_VERSION, xpcomAbi: "noarch-spidermonkey", }; // Check that the ping contains all the mandatory fields. for (let f of MANDATORY_PING_FIELDS) { Assert.ok(f in aPing, f + " must be available."); } Assert.equal(aPing.type, aType, "The ping must have the correct type."); Assert.equal(aPing.version, PING_FORMAT_VERSION, "The ping must have the correct version."); // Test the application section. for (let f in APPLICATION_TEST_DATA) { Assert.equal(aPing.application[f], APPLICATION_TEST_DATA[f], f + " must have the correct value."); } // We can't check the values for channel and architecture. Just make // sure they are in. Assert.ok("architecture" in aPing.application, "The application section must have an architecture field."); Assert.ok("channel" in aPing.application, "The application section must have a channel field."); // Check the clientId and environment fields, as needed. Assert.equal("clientId" in aPing, aHasClientId); Assert.equal("environment" in aPing, aHasEnvironment); } add_task(async function test_setup() { // Addon manager needs a profile directory do_get_profile(); loadAddonManager("xpcshell@tests.mozilla.org", "XPCShell", "1", "1.9.2"); finishAddonManagerStartup(); fakeIntlReady(); // Make sure we don't generate unexpected pings due to pref changes. await setEmptyPrefWatchlist(); Services.prefs.setBoolPref(TelemetryUtils.Preferences.FhrUploadEnabled, true); await new Promise(resolve => Telemetry.asyncFetchTelemetryData(wrapWithExceptionHandler(resolve))); }); add_task(async function asyncSetup() { await TelemetryController.testSetup(); }); // Ensure that not overwriting an existing file fails silently add_task(async function test_overwritePing() { let ping = {id: "foo"}; await TelemetryStorage.savePing(ping, true); await TelemetryStorage.savePing(ping, false); await TelemetryStorage.cleanupPingFile(ping); }); // Checks that a sent ping is correctly received by a dummy http server. add_task(async function test_simplePing() { PingServer.start(); // Update the Telemetry Server preference with the address of the local server. // Otherwise we might end up sending stuff to a non-existing server after // |TelemetryController.testReset| is called. Preferences.set(TelemetryUtils.Preferences.Server, "http://localhost:" + PingServer.port); await sendPing(false, false); let request = await PingServer.promiseNextRequest(); let ping = decodeRequestPayload(request); checkPingFormat(ping, TEST_PING_TYPE, false, false); }); add_task(async function test_disableDataUpload() { const OPTIN_PROBE = "telemetry.data_upload_optin"; const isUnified = Preferences.get(TelemetryUtils.Preferences.Unified, false); if (!isUnified) { // Skipping the test if unified telemetry is off, as no optout ping will // be generated. return; } // Check that the optin probe is not set, there should be other data in the snapshot though let snapshot = Telemetry.getSnapshotForScalars("main", false).parent; Assert.ok(!(OPTIN_PROBE in snapshot), "Data optin scalar should not be set at start"); // Send a first ping to get the current used client id await sendPing(true, false); let ping = await PingServer.promiseNextPing(); checkPingFormat(ping, TEST_PING_TYPE, true, false); let firstClientId = ping.clientId; Assert.ok(firstClientId, "Test ping needs a client ID"); Assert.notEqual(TelemetryUtils.knownClientID, firstClientId, "Client ID should be valid and random"); // Disable FHR upload: this should trigger a optout ping. Preferences.set(TelemetryUtils.Preferences.FhrUploadEnabled, false); ping = await PingServer.promiseNextPing(); checkPingFormat(ping, OPTOUT_PING_TYPE, false, false); // Wait on ping activity to settle. await TelemetrySend.testWaitOnOutgoingPings(); snapshot = Telemetry.getSnapshotForScalars("main", false).parent; Assert.ok(!(OPTIN_PROBE in snapshot), "Data optin scalar should not be set after optout"); // Restore FHR Upload. Preferences.set(TelemetryUtils.Preferences.FhrUploadEnabled, true); // We need to wait until the scalar is set await ContentTaskUtils.waitForCondition(() => { const scalarSnapshot = Telemetry.getSnapshotForScalars("main", false); return Object.keys(scalarSnapshot).includes("parent") && OPTIN_PROBE in scalarSnapshot.parent; }); snapshot = Telemetry.getSnapshotForScalars("main", false).parent; Assert.ok(snapshot[OPTIN_PROBE], "Enabling data upload should set optin probe"); // Simulate a failure in sending the optout ping by disabling the HTTP server. await PingServer.stop(); // Try to send a ping. It will be saved as pending and get deleted when disabling upload. TelemetryController.submitExternalPing(TEST_PING_TYPE, {}); // Disable FHR upload to send a optout ping again. Preferences.set(TelemetryUtils.Preferences.FhrUploadEnabled, false); // Wait on sending activity to settle, as |TelemetryController.testReset()| doesn't do that. await TelemetrySend.testWaitOnOutgoingPings(); // Wait for the pending pings to be deleted. Resetting TelemetryController doesn't // trigger the shutdown, so we need to call it ourselves. await TelemetryStorage.shutdown(); // Simulate a restart, and spin the send task. await TelemetryController.testReset(); // Disabling Telemetry upload must clear out all the pending pings. let pendingPings = await TelemetryStorage.loadPendingPingList(); Assert.equal(pendingPings.length, 0, "All the pending pings should have been deleted, including the optout ping"); // Enable the ping server again. PingServer.start(); // We set the new server using the pref, otherwise it would get reset with // |TelemetryController.testReset|. Preferences.set(TelemetryUtils.Preferences.Server, "http://localhost:" + PingServer.port); // Stop the sending task and then start it again. await TelemetrySend.shutdown(); // Reset the controller to spin the ping sending task. await TelemetryController.testReset(); // Re-enable Telemetry Preferences.set(TelemetryUtils.Preferences.FhrUploadEnabled, true); // Send a test ping await sendPing(true, false); // We should have only received the test ping ping = await PingServer.promiseNextPing(); checkPingFormat(ping, TEST_PING_TYPE, true, false); // The data in the test ping should be different than before Assert.notEqual(TelemetryUtils.knownClientID, ping.clientId, "Client ID should be reset to a random value"); Assert.notEqual(firstClientId, ping.clientId, "Client ID should be different from the previous value"); // Wait on ping activity to settle before moving on to the next test. If we were // to shut down telemetry, even though the PingServer caught the expected pings, // TelemetrySend could still be processing them (clearing pings would happen in // a couple of ticks). Shutting down would cancel the request and save them as // pending pings. await TelemetrySend.testWaitOnOutgoingPings(); }); add_task(async function test_pingHasClientId() { // Make sure we have no cached client ID for this test: we'll try to send // a ping with it while Telemetry is being initialized. Preferences.reset(TelemetryUtils.Preferences.CachedClientId); await TelemetryController.testShutdown(); await ClientID._reset(); await TelemetryStorage.testClearPendingPings(); // And also clear the counter histogram since we're here. let h = Telemetry.getHistogramById("TELEMETRY_PING_SUBMISSION_WAITING_CLIENTID"); h.clear(); // Init telemetry and try to send a ping with a client ID. let promisePingSetup = TelemetryController.testReset(); await sendPing(true, false); Assert.equal(h.snapshot().sum, 1, "We must have a ping waiting for the clientId early during startup."); // Wait until we are fully initialized. Pings will be assembled but won't get // sent before then. await promisePingSetup; let ping = await PingServer.promiseNextPing(); // Fetch the client ID after initializing and fetching the the ping, so we // don't unintentionally trigger its loading. We'll still need the client ID // to see if the ping looks sane. gClientID = await ClientID.getClientID(); checkPingFormat(ping, TEST_PING_TYPE, true, false); Assert.equal(ping.clientId, gClientID, "The correct clientId must be reported."); // Shutdown Telemetry so we can safely restart it. await TelemetryController.testShutdown(); await TelemetryStorage.testClearPendingPings(); // We should have cached the client ID now. Lets confirm that by checking it before // the async ping setup is finished. h.clear(); promisePingSetup = TelemetryController.testReset(); await sendPing(true, false); await promisePingSetup; // Check that we received the cached client id. Assert.equal(h.snapshot().sum, 0, "We must have used the cached clientId."); ping = await PingServer.promiseNextPing(); checkPingFormat(ping, TEST_PING_TYPE, true, false); Assert.equal(ping.clientId, gClientID, "Telemetry should report the correct cached clientId."); // Check that sending a ping without relying on the cache, after the // initialization, still works. Preferences.reset(TelemetryUtils.Preferences.CachedClientId); await TelemetryController.testShutdown(); await TelemetryStorage.testClearPendingPings(); await TelemetryController.testReset(); await sendPing(true, false); ping = await PingServer.promiseNextPing(); checkPingFormat(ping, TEST_PING_TYPE, true, false); Assert.equal(ping.clientId, gClientID, "The correct clientId must be reported."); Assert.equal(h.snapshot().sum, 0, "No ping should have been waiting for a clientId."); }); add_task(async function test_pingHasEnvironment() { // Send a ping with the environment data. await sendPing(false, true); let ping = await PingServer.promiseNextPing(); checkPingFormat(ping, TEST_PING_TYPE, false, true); // Test a field in the environment build section. Assert.equal(ping.application.buildId, ping.environment.build.buildId); }); add_task(async function test_pingHasEnvironmentAndClientId() { // Send a ping with the environment data and client id. await sendPing(true, true); let ping = await PingServer.promiseNextPing(); checkPingFormat(ping, TEST_PING_TYPE, true, true); // Test a field in the environment build section. Assert.equal(ping.application.buildId, ping.environment.build.buildId); // Test that we have the correct clientId. Assert.equal(ping.clientId, gClientID, "The correct clientId must be reported."); }); add_task(async function test_archivePings() { let now = new Date(2009, 10, 18, 12, 0, 0); fakeNow(now); // Disable ping upload so that pings don't get sent. // With unified telemetry the FHR upload pref controls this, // with non-unified telemetry the Telemetry enabled pref. const isUnified = Preferences.get(TelemetryUtils.Preferences.Unified, false); const uploadPref = isUnified ? TelemetryUtils.Preferences.FhrUploadEnabled : TelemetryUtils.Preferences.TelemetryEnabled; Preferences.set(uploadPref, false); // If we're using unified telemetry, disabling ping upload will generate a "optout" // ping. Catch it. if (isUnified) { let ping = await PingServer.promiseNextPing(); checkPingFormat(ping, OPTOUT_PING_TYPE, false, false); } // Register a new Ping Handler that asserts if a ping is received, then send a ping. PingServer.registerPingHandler(() => Assert.ok(false, "Telemetry must not send pings if not allowed to.")); let pingId = await sendPing(true, true); // Check that the ping was archived, even with upload disabled. let ping = await TelemetryArchive.promiseArchivedPingById(pingId); Assert.equal(ping.id, pingId, "TelemetryController should still archive pings."); // Check that pings don't get archived if not allowed to. now = new Date(2010, 10, 18, 12, 0, 0); fakeNow(now); Preferences.set(TelemetryUtils.Preferences.ArchiveEnabled, false); pingId = await sendPing(true, true); let promise = TelemetryArchive.promiseArchivedPingById(pingId); Assert.ok((await promiseRejects(promise)), "TelemetryController should not archive pings if the archive pref is disabled."); // Enable archiving and the upload so that pings get sent and archived again. Preferences.set(uploadPref, true); Preferences.set(TelemetryUtils.Preferences.ArchiveEnabled, true); now = new Date(2014, 6, 18, 22, 0, 0); fakeNow(now); // Restore the non asserting ping handler. PingServer.resetPingHandler(); pingId = await sendPing(true, true); // Check that we archive pings when successfully sending them. await PingServer.promiseNextPing(); ping = await TelemetryArchive.promiseArchivedPingById(pingId); Assert.equal(ping.id, pingId, "TelemetryController should still archive pings if ping upload is enabled."); }); // Test that we fuzz the submission time around midnight properly // to avoid overloading the telemetry servers. add_task(async function test_midnightPingSendFuzzing() { const fuzzingDelay = 60 * 60 * 1000; fakeMidnightPingFuzzingDelay(fuzzingDelay); let now = new Date(2030, 5, 1, 11, 0, 0); fakeNow(now); let waitForTimer = () => new Promise(resolve => { fakePingSendTimer((callback, timeout) => { resolve([callback, timeout]); }, () => {}); }); PingServer.clearRequests(); await TelemetryController.testReset(); // A ping after midnight within the fuzzing delay should not get sent. now = new Date(2030, 5, 2, 0, 40, 0); fakeNow(now); PingServer.registerPingHandler((req, res) => { Assert.ok(false, "No ping should be received yet."); }); let timerPromise = waitForTimer(); await sendPing(true, true); let [timerCallback, timerTimeout] = await timerPromise; Assert.ok(!!timerCallback); Assert.deepEqual(futureDate(now, timerTimeout), new Date(2030, 5, 2, 1, 0, 0)); // A ping just before the end of the fuzzing delay should not get sent. now = new Date(2030, 5, 2, 0, 59, 59); fakeNow(now); timerPromise = waitForTimer(); await sendPing(true, true); [timerCallback, timerTimeout] = await timerPromise; Assert.deepEqual(timerTimeout, 1 * 1000); // Restore the previous ping handler. PingServer.resetPingHandler(); // Setting the clock to after the fuzzing delay, we should trigger the two ping sends // with the timer callback. now = futureDate(now, timerTimeout); fakeNow(now); await timerCallback(); const pings = await PingServer.promiseNextPings(2); for (let ping of pings) { checkPingFormat(ping, TEST_PING_TYPE, true, true); } await TelemetrySend.testWaitOnOutgoingPings(); // Moving the clock further we should still send pings immediately. now = futureDate(now, 5 * 60 * 1000); await sendPing(true, true); let ping = await PingServer.promiseNextPing(); checkPingFormat(ping, TEST_PING_TYPE, true, true); await TelemetrySend.testWaitOnOutgoingPings(); // Check that pings shortly before midnight are immediately sent. now = fakeNow(2030, 5, 3, 23, 59, 0); await sendPing(true, true); ping = await PingServer.promiseNextPing(); checkPingFormat(ping, TEST_PING_TYPE, true, true); await TelemetrySend.testWaitOnOutgoingPings(); // Clean-up. fakeMidnightPingFuzzingDelay(0); fakePingSendTimer(() => {}, () => {}); }); add_task(async function test_changePingAfterSubmission() { // Submit a ping with a custom payload. let payload = { canary: "test" }; let pingPromise = TelemetryController.submitExternalPing(TEST_PING_TYPE, payload); // Change the payload with a predefined value. payload.canary = "changed"; // Wait for the ping to be archived. const pingId = await pingPromise; // Make sure our changes didn't affect the submitted payload. let archivedCopy = await TelemetryArchive.promiseArchivedPingById(pingId); Assert.equal(archivedCopy.payload.canary, "test", "The payload must not be changed after being submitted."); }); add_task({ skip_if: () => Services.prefs.getBoolPref(TelemetryUtils.Preferences.Unified, false)}, async function test_telemetryEnabledUnexpectedValue() { // Remove the default value for toolkit.telemetry.enabled from the default prefs. // Otherwise, we wouldn't be able to set the pref to a string. let defaultPrefBranch = Services.prefs.getDefaultBranch(null); defaultPrefBranch.deleteBranch(TelemetryUtils.Preferences.TelemetryEnabled); // Set the preferences controlling the Telemetry status to a string. Preferences.set(TelemetryUtils.Preferences.TelemetryEnabled, "false"); // Check that Telemetry is not enabled. await TelemetryController.testReset(); Assert.equal(Telemetry.canRecordExtended, false, "Invalid values must not enable Telemetry recording."); // Delete the pref again. defaultPrefBranch.deleteBranch(TelemetryUtils.Preferences.TelemetryEnabled); // Make sure that flipping it to true works. Preferences.set(TelemetryUtils.Preferences.TelemetryEnabled, true); await TelemetryController.testReset(); Assert.equal(Telemetry.canRecordExtended, true, "True must enable Telemetry recording."); // Also check that the false works as well. Preferences.set(TelemetryUtils.Preferences.TelemetryEnabled, false); await TelemetryController.testReset(); Assert.equal(Telemetry.canRecordExtended, false, "False must disable Telemetry recording."); // Restore the state of the pref. Preferences.set(TelemetryUtils.Preferences.TelemetryEnabled, true); }); add_task(async function test_telemetryCleanFHRDatabase() { const FHR_DBNAME_PREF = "datareporting.healthreport.dbName"; const CUSTOM_DB_NAME = "unlikely.to.be.used.sqlite"; const DEFAULT_DB_NAME = "healthreport.sqlite"; // Check that we're able to remove a FHR DB with a custom name. const CUSTOM_DB_PATHS = [ OS.Path.join(OS.Constants.Path.profileDir, CUSTOM_DB_NAME), OS.Path.join(OS.Constants.Path.profileDir, CUSTOM_DB_NAME + "-wal"), OS.Path.join(OS.Constants.Path.profileDir, CUSTOM_DB_NAME + "-shm"), ]; Preferences.set(FHR_DBNAME_PREF, CUSTOM_DB_NAME); // Write fake DB files to the profile directory. for (let dbFilePath of CUSTOM_DB_PATHS) { await OS.File.writeAtomic(dbFilePath, "some data"); } // Trigger the cleanup and check that the files were removed. await TelemetryStorage.removeFHRDatabase(); for (let dbFilePath of CUSTOM_DB_PATHS) { Assert.ok(!(await OS.File.exists(dbFilePath)), "The DB must not be on the disk anymore: " + dbFilePath); } // We should not break anything if there's no DB file. await TelemetryStorage.removeFHRDatabase(); // Check that we're able to remove a FHR DB with the default name. Preferences.reset(FHR_DBNAME_PREF); const DEFAULT_DB_PATHS = [ OS.Path.join(OS.Constants.Path.profileDir, DEFAULT_DB_NAME), OS.Path.join(OS.Constants.Path.profileDir, DEFAULT_DB_NAME + "-wal"), OS.Path.join(OS.Constants.Path.profileDir, DEFAULT_DB_NAME + "-shm"), ]; // Write fake DB files to the profile directory. for (let dbFilePath of DEFAULT_DB_PATHS) { await OS.File.writeAtomic(dbFilePath, "some data"); } // Trigger the cleanup and check that the files were removed. await TelemetryStorage.removeFHRDatabase(); for (let dbFilePath of DEFAULT_DB_PATHS) { Assert.ok(!(await OS.File.exists(dbFilePath)), "The DB must not be on the disk anymore: " + dbFilePath); } }); add_task(async function test_sendNewProfile() { if (gIsAndroid || (AppConstants.platform == "linux" && OS.Constants.Sys.bits == 32)) { // We don't support the pingsender on Android, yet, see bug 1335917. // We also don't suppor the pingsender testing on Treeherder for // Linux 32 bit (due to missing libraries). So skip it there too. // See bug 1310703 comment 78. return; } const NEWPROFILE_PING_TYPE = "new-profile"; const PREF_NEWPROFILE_ENABLED = "toolkit.telemetry.newProfilePing.enabled"; const PREF_NEWPROFILE_DELAY = "toolkit.telemetry.newProfilePing.delay"; // Make sure Telemetry is shut down before beginning and that we have // no pending pings. let resetTest = async function() { await TelemetryController.testShutdown(); await TelemetryStorage.testClearPendingPings(); PingServer.clearRequests(); }; await resetTest(); // Make sure to reset all the new-profile ping prefs. const stateFilePath = OS.Path.join(DATAREPORTING_PATH, "session-state.json"); await OS.File.remove(stateFilePath, { ignoreAbsent: true }); Preferences.set(PREF_NEWPROFILE_DELAY, 1); Preferences.set(PREF_NEWPROFILE_ENABLED, true); // Check that a new-profile ping is sent on the first session. let nextReq = PingServer.promiseNextRequest(); await TelemetryController.testReset(); let req = await nextReq; let ping = decodeRequestPayload(req); checkPingFormat(ping, NEWPROFILE_PING_TYPE, true, true); Assert.equal(ping.payload.reason, "startup", "The new-profile ping generated after startup must have the correct reason"); // Check that is not sent with the pingsender during startup. Assert.throws(() => req.getHeader("X-PingSender-Version"), /NS_ERROR_NOT_AVAILABLE/, "Should not have used the pingsender."); // Make sure that the new-profile ping is sent at shutdown if it wasn't sent before. await resetTest(); await OS.File.remove(stateFilePath, { ignoreAbsent: true }); Preferences.reset(PREF_NEWPROFILE_DELAY); nextReq = PingServer.promiseNextRequest(); await TelemetryController.testReset(); await TelemetryController.testShutdown(); req = await nextReq; ping = decodeRequestPayload(req); checkPingFormat(ping, NEWPROFILE_PING_TYPE, true, true); Assert.equal(ping.payload.reason, "shutdown", "The new-profile ping generated at shutdown must have the correct reason"); // Check that the new-profile ping is sent at shutdown using the pingsender. Assert.equal(req.getHeader("User-Agent"), "pingsender/1.0", "Should have received the correct user agent string."); Assert.equal(req.getHeader("X-PingSender-Version"), "1.0", "Should have received the correct PingSender version string."); // Check that no new-profile ping is sent on second sessions, not at startup // nor at shutdown. await resetTest(); PingServer.registerPingHandler( () => Assert.ok(false, "The new-profile ping must be sent only on new profiles.")); await TelemetryController.testReset(); await TelemetryController.testShutdown(); // Check that we don't send the new-profile ping if the profile already contains // a state file (but no "newProfilePingSent" property). await resetTest(); await OS.File.remove(stateFilePath, { ignoreAbsent: true }); const sessionState = { sessionId: null, subsessionId: null, profileSubsessionCounter: 3785, }; await CommonUtils.writeJSON(sessionState, stateFilePath); await TelemetryController.testReset(); await TelemetryController.testShutdown(); // Reset the pref and restart Telemetry. Preferences.reset(PREF_NEWPROFILE_ENABLED); PingServer.resetPingHandler(); }); // Testing shutdown and checking that pings sent afterwards are rejected. add_task(async function test_pingRejection() { await TelemetryController.testReset(); await TelemetryController.testShutdown(); await sendPing(false, false) .then(() => Assert.ok(false, "Pings submitted after shutdown must be rejected."), () => Assert.ok(true, "Ping submitted after shutdown correctly rejected.")); }); add_task(async function test_newCanRecordsMatchTheOld() { Assert.equal(Telemetry.canRecordBase, Telemetry.canRecordReleaseData, "Release Data is the new way to say Base Collection"); Assert.equal(Telemetry.canRecordExtended, Telemetry.canRecordPrereleaseData, "Prerelease Data is the new way to say Extended Collection"); }); add_task(function test_histogram_filtering() { const COUNT_ID = "TELEMETRY_TEST_COUNT"; const KEYED_ID = "TELEMETRY_TEST_KEYED_COUNT"; const count = Telemetry.getHistogramById(COUNT_ID); const keyed = Telemetry.getKeyedHistogramById(KEYED_ID); count.add(1); keyed.add("a", 1); let snapshot = Telemetry.getSnapshotForHistograms("main", false, /* filter */ false).parent; let keyedSnapshot = Telemetry.getSnapshotForKeyedHistograms("main", false, /* filter */ false).parent; Assert.ok(COUNT_ID in snapshot, "test histogram should be snapshotted"); Assert.ok(KEYED_ID in keyedSnapshot, "test keyed histogram should be snapshotted"); snapshot = Telemetry.getSnapshotForHistograms("main", false, /* filter */ true).parent; keyedSnapshot = Telemetry.getSnapshotForKeyedHistograms("main", false, /* filter */ true).parent; Assert.ok(!(COUNT_ID in snapshot), "test histogram should not be snapshotted"); Assert.ok(!(KEYED_ID in keyedSnapshot), "test keyed histogram should not be snapshotted"); }); add_task(function test_scalar_filtering() { const COUNT_ID = "telemetry.test.unsigned_int_kind"; const KEYED_ID = "telemetry.test.keyed_unsigned_int"; Telemetry.scalarSet(COUNT_ID, 2); Telemetry.keyedScalarSet(KEYED_ID, "a", 2); let snapshot = Telemetry.getSnapshotForScalars("main", false, /* filter */ false).parent; let keyedSnapshot = Telemetry.getSnapshotForKeyedScalars("main", false, /* filter */ false).parent; Assert.ok(COUNT_ID in snapshot, "test scalars should be snapshotted"); Assert.ok(KEYED_ID in keyedSnapshot, "test keyed scalars should be snapshotted"); snapshot = Telemetry.getSnapshotForScalars("main", false, /* filter */ true).parent; keyedSnapshot = Telemetry.getSnapshotForKeyedScalars("main", false, /* filter */ true).parent; Assert.ok(!(COUNT_ID in snapshot), "test scalars should not be snapshotted"); Assert.ok(!(KEYED_ID in keyedSnapshot), "test keyed scalars should not be snapshotted"); }); add_task(async function stopServer() { await PingServer.stop(); });