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Test Info: Warnings
- This test gets skipped with pattern: os == 'linux' && ccov
- Manifest: toolkit/components/telemetry/tests/unit/xpcshell.toml
/* Any copyright is dedicated to the Public Domain.
*/
// This tests the public Telemetry API for submitting pings.
"use strict";
const { TelemetryController } = ChromeUtils.importESModule(
);
const { MockRegistrar } = ChromeUtils.importESModule(
);
const { TelemetrySend } = ChromeUtils.importESModule(
);
const { TelemetryStorage } = ChromeUtils.importESModule(
);
const { TelemetryUtils } = ChromeUtils.importESModule(
);
ChromeUtils.defineESModuleGetters(this, {
});
const MS_IN_A_MINUTE = 60 * 1000;
function countPingTypes(pings) {
let countByType = new Map();
for (let p of pings) {
countByType.set(p.type, 1 + (countByType.get(p.type) || 0));
}
return countByType;
}
function setPingLastModified(id, timestamp) {
const path = PathUtils.join(TelemetryStorage.pingDirectoryPath, id);
return IOUtils.setModificationTime(path, timestamp);
}
// Mock out the send timer activity.
function waitForTimer() {
return new Promise(resolve => {
fakePingSendTimer(
(callback, timeout) => {
resolve([callback, timeout]);
},
() => {}
);
});
}
function sendPing(aSendClientId, aSendEnvironment) {
const TEST_PING_TYPE = "test-ping-type";
if (PingServer.started) {
} else {
}
let options = {
addClientId: aSendClientId,
addEnvironment: aSendEnvironment,
};
return TelemetryController.submitExternalPing(TEST_PING_TYPE, {}, options);
}
// Allow easy faking of readable ping ids.
// This helps with debugging issues with e.g. ordering in the send logic.
function fakePingId(type, number) {
const HEAD = "93bd0011-2c8f-4e1c-bee0-";
const TAIL = "000000000000";
const N = String(number);
const id = HEAD + type + TAIL.slice(type.length, -N.length) + N;
fakeGeneratePingId(() => id);
return id;
}
var checkPingsSaved = async function (pingIds) {
let allFound = true;
for (let id of pingIds) {
const path = PathUtils.join(TelemetryStorage.pingDirectoryPath, id);
let exists = false;
try {
exists = await IOUtils.exists(path);
} catch (ex) {}
if (!exists) {
dump("checkPingsSaved - failed to find ping: " + path + "\n");
allFound = false;
}
}
return allFound;
};
function histogramValueCount(h) {
return Object.values(h.values).reduce((a, b) => a + b, 0);
}
add_task(async function test_setup() {
// Trigger a proper telemetry init.
do_get_profile(true);
// Addon manager needs a profile directory.
await 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.HealthPingEnabled,
true
);
TelemetryStopwatch.setTestModeEnabled(true);
});
// Test the ping sending logic.
add_task(async function test_sendPendingPings() {
const TYPE_PREFIX = "test-sendPendingPings-";
const TEST_TYPE_A = TYPE_PREFIX + "A";
const TEST_TYPE_B = TYPE_PREFIX + "B";
const TYPE_A_COUNT = 20;
const TYPE_B_COUNT = 5;
let histSuccess = Telemetry.getHistogramById("TELEMETRY_SUCCESS");
let histSendTimeSuccess = Telemetry.getHistogramById(
"TELEMETRY_SEND_SUCCESS"
);
let histSendTimeFail = Telemetry.getHistogramById("TELEMETRY_SEND_FAILURE");
histSuccess.clear();
histSendTimeSuccess.clear();
histSendTimeFail.clear();
// Fake a current date.
let now = TelemetryUtils.truncateToDays(new Date());
now = fakeNow(futureDate(now, 10 * 60 * MS_IN_A_MINUTE));
// Enable test-mode for TelemetrySend, otherwise we won't store pending pings
// before the module is fully initialized later.
TelemetrySend.setTestModeEnabled(true);
// Submit some pings without the server and telemetry started yet.
for (let i = 0; i < TYPE_A_COUNT; ++i) {
fakePingId("a", i);
const id = await TelemetryController.submitExternalPing(TEST_TYPE_A, {});
await setPingLastModified(id, now.getTime() + i * 1000);
}
Assert.equal(
TelemetrySend.pendingPingCount,
TYPE_A_COUNT,
"Should have correct pending ping count"
);
// Submit some more pings of a different type.
now = fakeNow(futureDate(now, 5 * MS_IN_A_MINUTE));
for (let i = 0; i < TYPE_B_COUNT; ++i) {
fakePingId("b", i);
const id = await TelemetryController.submitExternalPing(TEST_TYPE_B, {});
await setPingLastModified(id, now.getTime() + i * 1000);
}
Assert.equal(
TelemetrySend.pendingPingCount,
TYPE_A_COUNT + TYPE_B_COUNT,
"Should have correct pending ping count"
);
Assert.deepEqual(
histSuccess.snapshot().values,
{},
"Should not have recorded any sending in histograms yet."
);
Assert.equal(
histSendTimeSuccess.snapshot().sum,
0,
"Should not have recorded any sending in histograms yet."
);
Assert.equal(
histSendTimeFail.snapshot().sum,
0,
"Should not have recorded any sending in histograms yet."
);
// Now enable sending to the ping server.
now = fakeNow(futureDate(now, MS_IN_A_MINUTE));
PingServer.start();
Services.prefs.setStringPref(
TelemetryUtils.Preferences.Server,
);
let timerPromise = waitForTimer();
await TelemetryController.testReset();
let [pingSendTimerCallback, pingSendTimeout] = await timerPromise;
Assert.ok(!!pingSendTimerCallback, "Should have a timer callback");
// We should have received 10 pings from the first send batch:
// 5 of type B and 5 of type A, as sending is newest-first.
// The other pings should be delayed by the 10-pings-per-minute limit.
let pings = await PingServer.promiseNextPings(10);
Assert.equal(
TelemetrySend.pendingPingCount,
TYPE_A_COUNT - 5,
"Should have correct pending ping count"
);
PingServer.registerPingHandler(() =>
Assert.ok(false, "Should not have received any pings now")
);
let countByType = countPingTypes(pings);
Assert.equal(
countByType.get(TEST_TYPE_B),
TYPE_B_COUNT,
"Should have received the correct amount of type B pings"
);
Assert.equal(
countByType.get(TEST_TYPE_A),
10 - TYPE_B_COUNT,
"Should have received the correct amount of type A pings"
);
Assert.deepEqual(
histSuccess.snapshot().values,
{ 0: 0, 1: 10, 2: 0 },
"Should have recorded sending success in histograms."
);
Assert.equal(
histogramValueCount(histSendTimeSuccess.snapshot()),
10,
"Should have recorded successful send times in histograms."
);
Assert.equal(
histogramValueCount(histSendTimeFail.snapshot()),
0,
"Should not have recorded any failed sending in histograms yet."
);
// As we hit the ping send limit and still have pending pings, a send tick should
// be scheduled in a minute.
Assert.ok(!!pingSendTimerCallback, "Timer callback should be set");
Assert.equal(
pingSendTimeout,
MS_IN_A_MINUTE,
"Send tick timeout should be correct"
);
// Trigger the next tick - we should receive the next 10 type A pings.
PingServer.resetPingHandler();
now = fakeNow(futureDate(now, pingSendTimeout));
timerPromise = waitForTimer();
pingSendTimerCallback();
[pingSendTimerCallback, pingSendTimeout] = await timerPromise;
pings = await PingServer.promiseNextPings(10);
PingServer.registerPingHandler(() =>
Assert.ok(false, "Should not have received any pings now")
);
countByType = countPingTypes(pings);
Assert.equal(
countByType.get(TEST_TYPE_A),
10,
"Should have received the correct amount of type A pings"
);
// We hit the ping send limit again and still have pending pings, a send tick should
// be scheduled in a minute.
Assert.equal(
pingSendTimeout,
MS_IN_A_MINUTE,
"Send tick timeout should be correct"
);
// Trigger the next tick - we should receive the remaining type A pings.
PingServer.resetPingHandler();
now = fakeNow(futureDate(now, pingSendTimeout));
await pingSendTimerCallback();
pings = await PingServer.promiseNextPings(5);
PingServer.registerPingHandler(() =>
Assert.ok(false, "Should not have received any pings now")
);
countByType = countPingTypes(pings);
Assert.equal(
countByType.get(TEST_TYPE_A),
5,
"Should have received the correct amount of type A pings"
);
await TelemetrySend.testWaitOnOutgoingPings();
PingServer.resetPingHandler();
// Restore the default ping id generator.
fakeGeneratePingId(() => TelemetryUtils.generateUUID());
});
add_task(async function test_sendDateHeader() {
fakeNow(new Date(Date.UTC(2011, 1, 1, 11, 0, 0)));
await TelemetrySend.reset();
let pingId = await TelemetryController.submitExternalPing(
"test-send-date-header",
{}
);
let req = await PingServer.promiseNextRequest();
let ping = decodeRequestPayload(req);
Assert.equal(
req.getHeader("Date"),
"Tue, 01 Feb 2011 11:00:00 GMT",
"Telemetry should send the correct Date header with requests."
);
Assert.equal(ping.id, pingId, "Should have received the correct ping id.");
});
// Test the backoff timeout behavior after send failures.
add_task(async function test_backoffTimeout() {
const TYPE_PREFIX = "test-backoffTimeout-";
const TEST_TYPE_C = TYPE_PREFIX + "C";
const TEST_TYPE_D = TYPE_PREFIX + "D";
const TEST_TYPE_E = TYPE_PREFIX + "E";
let histSuccess = Telemetry.getHistogramById("TELEMETRY_SUCCESS");
let histSendTimeSuccess = Telemetry.getHistogramById(
"TELEMETRY_SEND_SUCCESS"
);
let histSendTimeFail = Telemetry.getHistogramById("TELEMETRY_SEND_FAILURE");
// Failing a ping send now should trigger backoff behavior.
let now = fakeNow(2010, 1, 1, 11, 0, 0);
await TelemetrySend.reset();
PingServer.stop();
histSuccess.clear();
histSendTimeSuccess.clear();
histSendTimeFail.clear();
fakePingId("c", 0);
now = fakeNow(futureDate(now, MS_IN_A_MINUTE));
let sendAttempts = 0;
let timerPromise = waitForTimer();
await TelemetryController.submitExternalPing(TEST_TYPE_C, {});
let [pingSendTimerCallback, pingSendTimeout] = await timerPromise;
Assert.equal(
TelemetrySend.pendingPingCount,
1,
"Should have one pending ping."
);
++sendAttempts;
const MAX_BACKOFF_TIMEOUT = 120 * MS_IN_A_MINUTE;
for (
let timeout = 2 * MS_IN_A_MINUTE;
timeout <= MAX_BACKOFF_TIMEOUT;
timeout *= 2
) {
Assert.ok(!!pingSendTimerCallback, "Should have received a timer callback");
Assert.equal(
pingSendTimeout,
timeout,
"Send tick timeout should be correct"
);
let callback = pingSendTimerCallback;
now = fakeNow(futureDate(now, pingSendTimeout));
timerPromise = waitForTimer();
await callback();
[pingSendTimerCallback, pingSendTimeout] = await timerPromise;
++sendAttempts;
}
timerPromise = waitForTimer();
await pingSendTimerCallback();
[pingSendTimerCallback, pingSendTimeout] = await timerPromise;
Assert.equal(
pingSendTimeout,
MAX_BACKOFF_TIMEOUT,
"Tick timeout should be capped"
);
++sendAttempts;
Assert.deepEqual(
histSuccess.snapshot().values,
{ 0: sendAttempts, 1: 0 },
"Should have recorded sending failure in histograms."
);
Assert.equal(
histSendTimeSuccess.snapshot().sum,
0,
"Should not have recorded any sending success in histograms yet."
);
Assert.greaterOrEqual(
histSendTimeFail.snapshot().sum,
0,
"Should have recorded send failure times in histograms."
);
Assert.equal(
histogramValueCount(histSendTimeFail.snapshot()),
sendAttempts,
"Should have recorded send failure times in histograms."
);
// Submitting a new ping should reset the backoff behavior.
fakePingId("d", 0);
now = fakeNow(futureDate(now, MS_IN_A_MINUTE));
timerPromise = waitForTimer();
await TelemetryController.submitExternalPing(TEST_TYPE_D, {});
[pingSendTimerCallback, pingSendTimeout] = await timerPromise;
Assert.equal(
pingSendTimeout,
2 * MS_IN_A_MINUTE,
"Send tick timeout should be correct"
);
sendAttempts += 2;
// With the server running again, we should send out the pending pings immediately
// when a new ping is submitted.
PingServer.start();
fakePingId("e", 0);
now = fakeNow(futureDate(now, MS_IN_A_MINUTE));
timerPromise = waitForTimer();
await TelemetryController.submitExternalPing(TEST_TYPE_E, {});
let pings = await PingServer.promiseNextPings(3);
let countByType = countPingTypes(pings);
Assert.equal(
countByType.get(TEST_TYPE_C),
1,
"Should have received the correct amount of type C pings"
);
Assert.equal(
countByType.get(TEST_TYPE_D),
1,
"Should have received the correct amount of type D pings"
);
Assert.equal(
countByType.get(TEST_TYPE_E),
1,
"Should have received the correct amount of type E pings"
);
await TelemetrySend.testWaitOnOutgoingPings();
Assert.equal(
TelemetrySend.pendingPingCount,
0,
"Should have no pending pings left"
);
Assert.deepEqual(
histSuccess.snapshot().values,
{ 0: sendAttempts, 1: 3, 2: 0 },
"Should have recorded sending failure in histograms."
);
Assert.greaterOrEqual(
histSendTimeSuccess.snapshot().sum,
0,
"Should have recorded sending success in histograms."
);
Assert.equal(
histogramValueCount(histSendTimeSuccess.snapshot()),
3,
"Should have recorded sending success in histograms."
);
Assert.equal(
histogramValueCount(histSendTimeFail.snapshot()),
sendAttempts,
"Should have recorded send failure times in histograms."
);
// Restore the default ping id generator.
fakeGeneratePingId(() => TelemetryUtils.generateUUID());
});
add_task(async function test_discardBigPings() {
const TEST_PING_TYPE = "test-ping-type";
let histSizeExceeded = Telemetry.getHistogramById(
"TELEMETRY_PING_SIZE_EXCEEDED_SEND"
);
let histDiscardedSize = Telemetry.getHistogramById(
"TELEMETRY_DISCARDED_SEND_PINGS_SIZE_MB"
);
let histSuccess = Telemetry.getHistogramById("TELEMETRY_SUCCESS");
let histSendTimeSuccess = Telemetry.getHistogramById(
"TELEMETRY_SEND_SUCCESS"
);
let histSendTimeFail = Telemetry.getHistogramById("TELEMETRY_SEND_FAILURE");
for (let h of [
histSizeExceeded,
histDiscardedSize,
histSuccess,
histSendTimeSuccess,
histSendTimeFail,
]) {
h.clear();
}
// Submit a ping of a normal size and check that we don't count it in the histogram.
await TelemetryController.submitExternalPing(TEST_PING_TYPE, {
test: "test",
});
await TelemetrySend.testWaitOnOutgoingPings();
await PingServer.promiseNextPing();
Assert.equal(
histSizeExceeded.snapshot().sum,
0,
"Telemetry must report no oversized ping submitted."
);
Assert.equal(
histDiscardedSize.snapshot().sum,
0,
"Telemetry must report no oversized pings."
);
Assert.deepEqual(
histSuccess.snapshot().values,
{ 0: 0, 1: 1, 2: 0 },
"Should have recorded sending success."
);
Assert.equal(
histogramValueCount(histSendTimeSuccess.snapshot()),
1,
"Should have recorded send success time."
);
Assert.greaterOrEqual(
histSendTimeSuccess.snapshot().sum,
0,
"Should have recorded send success time."
);
Assert.equal(
histogramValueCount(histSendTimeFail.snapshot()),
0,
"Should not have recorded send failure time."
);
// Submit an oversized ping and check that it gets discarded.
TelemetryHealthPing.testReset();
// Ensure next ping has a 2 MB gzipped payload.
fakeGzipCompressStringForNextPing(2 * 1024 * 1024);
const OVERSIZED_PAYLOAD = {
data: "empty on purpose - policy takes care of size",
};
await TelemetryController.submitExternalPing(
TEST_PING_TYPE,
OVERSIZED_PAYLOAD
);
await TelemetrySend.testWaitOnOutgoingPings();
let ping = await PingServer.promiseNextPing();
Assert.equal(
ping.type,
TelemetryHealthPing.HEALTH_PING_TYPE,
"Should have received a health ping."
);
Assert.equal(
ping.payload.reason,
TelemetryHealthPing.Reason.IMMEDIATE,
"Health ping should have the right reason."
);
Assert.deepEqual(
ping.payload[TelemetryHealthPing.FailureType.DISCARDED_FOR_SIZE],
{ [TEST_PING_TYPE]: 1 },
"Should have recorded correct type of oversized ping."
);
Assert.deepEqual(
ping.payload.os,
TelemetryHealthPing.OsInfo,
"Should have correct os info."
);
Assert.equal(
histSizeExceeded.snapshot().sum,
1,
"Telemetry must report 1 oversized ping submitted."
);
Assert.equal(
histDiscardedSize.snapshot().values[2],
1,
"Telemetry must report a 2MB, oversized, ping submitted."
);
Assert.deepEqual(
histSuccess.snapshot().values,
{ 0: 0, 1: 2, 2: 0 },
"Should have recorded sending success."
);
Assert.equal(
histogramValueCount(histSendTimeSuccess.snapshot()),
2,
"Should have recorded send success time."
);
Assert.greaterOrEqual(
histSendTimeSuccess.snapshot().sum,
0,
"Should have recorded send success time."
);
Assert.equal(
histogramValueCount(histSendTimeFail.snapshot()),
0,
"Should not have recorded send failure time."
);
});
add_task(async function test_largeButWithinLimit() {
const TEST_PING_TYPE = "test-ping-type";
let histSuccess = Telemetry.getHistogramById("TELEMETRY_SUCCESS");
histSuccess.clear();
// Next ping will have a 900KB gzip payload.
fakeGzipCompressStringForNextPing(900 * 1024);
const LARGE_PAYLOAD = {
data: "empty on purpose - policy takes care of size",
};
await TelemetryController.submitExternalPing(TEST_PING_TYPE, LARGE_PAYLOAD);
await TelemetrySend.testWaitOnOutgoingPings();
await PingServer.promiseNextRequest();
Assert.deepEqual(
histSuccess.snapshot().values,
{ 0: 0, 1: 1, 2: 0 },
"Should have sent large ping."
);
});
add_task(async function test_evictedOnServerErrors() {
const TEST_TYPE = "test-evicted";
await TelemetrySend.reset();
let histEvicted = Telemetry.getHistogramById(
"TELEMETRY_PING_EVICTED_FOR_SERVER_ERRORS"
);
let histSuccess = Telemetry.getHistogramById("TELEMETRY_SUCCESS");
let histSendTimeSuccess = Telemetry.getHistogramById(
"TELEMETRY_SEND_SUCCESS"
);
let histSendTimeFail = Telemetry.getHistogramById("TELEMETRY_SEND_FAILURE");
for (let h of [
histEvicted,
histSuccess,
histSendTimeSuccess,
histSendTimeFail,
]) {
h.clear();
}
// Write a custom ping handler which will return 403. This will trigger ping eviction
// on client side.
PingServer.registerPingHandler((req, res) => {
res.setStatusLine(null, 403, "Forbidden");
res.processAsync();
res.finish();
});
// Clear the histogram and submit a ping.
let pingId = await TelemetryController.submitExternalPing(TEST_TYPE, {});
await TelemetrySend.testWaitOnOutgoingPings();
Assert.equal(
histEvicted.snapshot().sum,
1,
"Telemetry must report a ping evicted due to server errors"
);
Assert.deepEqual(histSuccess.snapshot().values, { 0: 0, 1: 1, 2: 0 });
Assert.equal(histogramValueCount(histSendTimeSuccess.snapshot()), 1);
Assert.greaterOrEqual(histSendTimeSuccess.snapshot().sum, 0);
Assert.equal(histogramValueCount(histSendTimeFail.snapshot()), 0);
// The ping should not be persisted.
await Assert.rejects(
TelemetryStorage.loadPendingPing(pingId),
/TelemetryStorage.loadPendingPing - no ping with id/,
"The ping must not be persisted."
);
// Reset the ping handler and submit a new ping.
PingServer.resetPingHandler();
pingId = await TelemetryController.submitExternalPing(TEST_TYPE, {});
let ping = await PingServer.promiseNextPings(1);
Assert.equal(ping[0].id, pingId, "The correct ping must be received");
// We should not have updated the error histogram.
await TelemetrySend.testWaitOnOutgoingPings();
Assert.equal(
histEvicted.snapshot().sum,
1,
"Telemetry must report only one ping evicted due to server errors"
);
Assert.deepEqual(histSuccess.snapshot().values, { 0: 0, 1: 2, 2: 0 });
Assert.equal(histogramValueCount(histSendTimeSuccess.snapshot()), 2);
Assert.equal(histogramValueCount(histSendTimeFail.snapshot()), 0);
});
add_task(async function test_tooLateToSend() {
Assert.ok(true, "TEST BEGIN");
const TEST_TYPE = "test-too-late-to-send";
await TelemetrySend.reset();
PingServer.start();
PingServer.registerPingHandler(() =>
Assert.ok(false, "Should not have received any pings now")
);
Assert.equal(
TelemetrySend.pendingPingCount,
0,
"Should have no pending pings yet"
);
TelemetrySend.testTooLateToSend(true);
const id = await TelemetryController.submitExternalPing(TEST_TYPE, {});
// Triggering a shutdown should persist the pings
await TelemetrySend.shutdown();
const pendingPings = TelemetryStorage.getPendingPingList();
Assert.equal(pendingPings.length, 1, "Should have a pending ping in storage");
Assert.equal(pendingPings[0].id, id, "Should have pended our test's ping");
Assert.equal(
Telemetry.getHistogramById("TELEMETRY_SEND_FAILURE_TYPE").snapshot()
.values[7],
1,
"Should have registered the failed attempt to send"
);
Assert.equal(
Telemetry.getKeyedHistogramById(
"TELEMETRY_SEND_FAILURE_TYPE_PER_PING"
).snapshot()[TEST_TYPE].values[7],
1,
"Should have registered the failed attempt to send TEST_TYPE ping"
);
await TelemetryStorage.reset();
Assert.equal(
TelemetrySend.pendingPingCount,
0,
"Should clean up after yourself"
);
});
add_task(
{ skip_if: () => gIsAndroid },
async function test_pingSenderShutdownBatch() {
const TEST_TYPE = "test-ping-sender-batch";
await TelemetrySend.reset();
PingServer.start();
PingServer.registerPingHandler(() =>
Assert.ok(false, "Should not have received any pings at this time.")
);
Assert.equal(
TelemetrySend.pendingPingCount,
0,
"Should have no pending pings yet"
);
TelemetrySend.testTooLateToSend(true);
const id = await TelemetryController.submitExternalPing(
TEST_TYPE,
{ payload: false },
{ usePingSender: true }
);
const id2 = await TelemetryController.submitExternalPing(
TEST_TYPE,
{ payload: false },
{ usePingSender: true }
);
Assert.equal(
TelemetrySend.pendingPingCount,
2,
"Should have stored these two pings in pending land."
);
// Permit pings to be received.
PingServer.resetPingHandler();
TelemetrySend.flushPingSenderBatch();
// Pings don't have to be sent in the order they're submitted.
const ping = await PingServer.promiseNextPing();
const ping2 = await PingServer.promiseNextPing();
Assert.ok(
(ping.id == id && ping2.id == id2) || (ping.id == id2 && ping2.id == id)
);
Assert.equal(ping.type, TEST_TYPE);
Assert.equal(ping2.type, TEST_TYPE);
await TelemetryStorage.reset();
Assert.equal(
TelemetrySend.pendingPingCount,
0,
"Should clean up after yourself"
);
}
);
// Test that the current, non-persisted pending pings are properly saved on shutdown.
add_task(async function test_persistCurrentPingsOnShutdown() {
const TEST_TYPE = "test-persistCurrentPingsOnShutdown";
const PING_COUNT = 5;
await TelemetrySend.reset();
PingServer.stop();
Assert.equal(
TelemetrySend.pendingPingCount,
0,
"Should have no pending pings yet"
);
// Submit new pings that shouldn't be persisted yet.
let ids = [];
for (let i = 0; i < 5; ++i) {
ids.push(fakePingId("f", i));
TelemetryController.submitExternalPing(TEST_TYPE, {});
}
Assert.equal(
TelemetrySend.pendingPingCount,
PING_COUNT,
"Should have the correct pending ping count"
);
// Triggering a shutdown should persist the pings.
await TelemetrySend.shutdown();
Assert.ok(
await checkPingsSaved(ids),
"All pending pings should have been persisted"
);
// After a restart the pings should have been found when scanning.
await TelemetrySend.reset();
Assert.equal(
TelemetrySend.pendingPingCount,
PING_COUNT,
"Should have the correct pending ping count"
);
// Restore the default ping id generator.
fakeGeneratePingId(() => TelemetryUtils.generateUUID());
});
add_task(async function test_sendCheckOverride() {
const TEST_PING_TYPE = "test-sendCheckOverride";
// Disable "health" ping. It can sneak into the test.
Services.prefs.setBoolPref(
TelemetryUtils.Preferences.HealthPingEnabled,
false
);
// Clear any pending pings.
await TelemetryController.testShutdown();
await TelemetryStorage.testClearPendingPings();
// Enable the ping server.
PingServer.start();
Services.prefs.setStringPref(
TelemetryUtils.Preferences.Server,
);
// Start Telemetry and disable the test-mode so pings don't get
// sent unless we enable the override.
await TelemetryController.testReset();
// Submit a test ping and make sure it doesn't get sent. We only do
// that if we're on unofficial builds: pings will always get sent otherwise.
if (!Services.telemetry.isOfficialTelemetry) {
TelemetrySend.setTestModeEnabled(false);
PingServer.registerPingHandler(() =>
Assert.ok(false, "Should not have received any pings now")
);
await TelemetryController.submitExternalPing(TEST_PING_TYPE, {
test: "test",
});
Assert.equal(
TelemetrySend.pendingPingCount,
0,
"Should have no pending pings"
);
}
// Enable the override and try to send again.
Services.prefs.setBoolPref(
TelemetryUtils.Preferences.OverrideOfficialCheck,
true
);
PingServer.resetPingHandler();
await TelemetrySend.reset();
await TelemetryController.submitExternalPing(TEST_PING_TYPE, {
test: "test",
});
// Make sure we received the ping.
const ping = await PingServer.promiseNextPing();
Assert.equal(
ping.type,
TEST_PING_TYPE,
"Must receive a ping of the expected type"
);
// Restore the test mode and disable the override.
TelemetrySend.setTestModeEnabled(true);
Services.prefs.clearUserPref(
TelemetryUtils.Preferences.OverrideOfficialCheck
);
});
add_task(async function test_submissionPath() {
const PING_FORMAT_VERSION = 4;
const TEST_PING_TYPE = "test-ping-type";
await TelemetrySend.reset();
PingServer.clearRequests();
await sendPing(false, false);
// Fetch the request from the server.
let request = await PingServer.promiseNextRequest();
// Get the payload.
let ping = decodeRequestPayload(request);
checkPingFormat(ping, TEST_PING_TYPE, false, false);
let app = ping.application;
let pathComponents = [
ping.id,
ping.type,
app.name,
app.version,
app.channel,
app.buildId,
];
let urlComponents = request.path.split("/");
for (let i = 0; i < pathComponents.length; i++) {
Assert.ok(
urlComponents.includes(pathComponents[i]),
`Path should include ${pathComponents[i]}`
);
}
// Check that we have a version query parameter in the URL.
Assert.notEqual(request.queryString, "");
// Make sure the version in the query string matches the new ping format version.
let params = request.queryString.split("&");
Assert.ok(params.find(p => p == "v=" + PING_FORMAT_VERSION));
});
add_task(async function testCookies() {
const TEST_TYPE = "test-cookies";
await TelemetrySend.reset();
PingServer.clearRequests();
let channel = NetUtil.newChannel({
uri,
loadUsingSystemPrincipal: true,
contentPolicyType: Ci.nsIContentPolicy.TYPE_DOCUMENT,
});
Services.cookies.QueryInterface(Ci.nsICookieService);
Services.cookies.setCookieStringFromHttp(uri, "cookie-time=yes", channel);
const id = await TelemetryController.submitExternalPing(TEST_TYPE, {});
let foundit = false;
while (!foundit) {
var request = await PingServer.promiseNextRequest();
var ping = decodeRequestPayload(request);
foundit = id === ping.id;
}
Assert.equal(id, ping.id, "We're testing the right ping's request, right?");
Assert.equal(
false,
request.hasHeader("Cookie"),
"Request should not have Cookie header"
);
});
add_task(async function test_pref_observer() {
// This test requires the presence of the crash reporter component.
let registrar = Components.manager.QueryInterface(Ci.nsIComponentRegistrar);
if (
!registrar.isContractIDRegistered("@mozilla.org/toolkit/crash-reporter;1")
) {
return;
}
await TelemetrySend.setup(true);
const IS_UNIFIED_TELEMETRY = Services.prefs.getBoolPref(
TelemetryUtils.Preferences.Unified,
false
);
let origTelemetryEnabled = Services.prefs.getBoolPref(
TelemetryUtils.Preferences.TelemetryEnabled
);
let origFhrUploadEnabled = Services.prefs.getBoolPref(
TelemetryUtils.Preferences.FhrUploadEnabled
);
if (!IS_UNIFIED_TELEMETRY) {
Services.prefs.setBoolPref(
TelemetryUtils.Preferences.TelemetryEnabled,
true
);
}
Services.prefs.setBoolPref(TelemetryUtils.Preferences.FhrUploadEnabled, true);
function waitAnnotateCrashReport(expectedValue, trigger) {
return new Promise(function (resolve, reject) {
let keys = new Set(["TelemetryClientId", "TelemetryServerURL"]);
let crs = {
QueryInterface: ChromeUtils.generateQI(["nsICrashReporter"]),
annotateCrashReport(key, value) {
if (!keys.delete(key)) {
MockRegistrar.unregister(gMockCrs);
reject(
Error(`Crash report annotation with unexpected key: "${key}".`)
);
}
if (expectedValue && value == "") {
MockRegistrar.unregister(gMockCrs);
reject(Error("Crash report annotation without expected value."));
}
if (keys.size == 0) {
MockRegistrar.unregister(gMockCrs);
resolve();
}
},
removeCrashReportAnnotation(key) {
if (!keys.delete(key)) {
MockRegistrar.unregister(gMockCrs);
}
if (keys.size == 0) {
MockRegistrar.unregister(gMockCrs);
resolve();
}
},
UpdateCrashEventsDir() {},
};
let gMockCrs = MockRegistrar.register(
"@mozilla.org/toolkit/crash-reporter;1",
crs
);
registerCleanupFunction(function () {
MockRegistrar.unregister(gMockCrs);
});
trigger();
});
}
await waitAnnotateCrashReport(!IS_UNIFIED_TELEMETRY, () =>
Services.prefs.setBoolPref(
TelemetryUtils.Preferences.FhrUploadEnabled,
false
)
);
await waitAnnotateCrashReport(true, () =>
Services.prefs.setBoolPref(
TelemetryUtils.Preferences.FhrUploadEnabled,
true
)
);
if (!IS_UNIFIED_TELEMETRY) {
Services.prefs.setBoolPref(
TelemetryUtils.Preferences.TelemetryEnabled,
origTelemetryEnabled
);
}
Services.prefs.setBoolPref(
TelemetryUtils.Preferences.FhrUploadEnabled,
origFhrUploadEnabled
);
});
add_task(async function cleanup() {
await PingServer.stop();
});