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Test Info:
/* Any copyright is dedicated to the Public Domain.
*/
// This tests the public Telemetry API for submitting pings.
"use strict";
const { ClientID } = ChromeUtils.importESModule(
"resource://gre/modules/ClientID.sys.mjs"
);
const { TelemetryArchive } = ChromeUtils.importESModule(
"resource://gre/modules/TelemetryArchive.sys.mjs"
);
ChromeUtils.defineLazyGetter(this, "gPingsArchivePath", function () {
return PathUtils.join(PathUtils.profileDir, "datareporting", "archived");
});
/**
* Fakes the archive storage quota.
* @param {Integer} aArchiveQuota The new quota, in bytes.
*/
function fakeStorageQuota(aArchiveQuota) {
let { Policy } = ChromeUtils.importESModule(
"resource://gre/modules/TelemetryStorage.sys.mjs"
);
Policy.getArchiveQuota = () => aArchiveQuota;
}
/**
* Lists all the valid archived pings and their metadata, sorted by creation date.
*
* @return {Object[]} A list of objects with the extracted data in the form:
* { timestamp: <number>,
* id: <string>,
* type: <string>,
* size: <integer> }
*/
var getArchivedPingsInfo = async function () {
let archivedPings = [];
// Iterate through the subdirs of |gPingsArchivePath|.
for (const dir of await IOUtils.getChildren(gPingsArchivePath)) {
const { type } = await IOUtils.stat(dir);
if (type != "directory") {
continue;
}
// Then get a list of the files for the current subdir.
for (const filePath of await IOUtils.getChildren(dir)) {
const fileInfo = await IOUtils.stat(filePath);
if (fileInfo.type == "directory") {
continue;
}
let pingInfo = TelemetryStorage._testGetArchivedPingDataFromFileName(
PathUtils.filename(filePath)
);
if (!pingInfo) {
// This is not a valid archived ping, skip it.
continue;
}
// Find the size of the ping and then add the info to the array.
pingInfo.size = fileInfo.size;
archivedPings.push(pingInfo);
}
}
// Sort the list by creation date and then return it.
archivedPings.sort((a, b) => b.timestamp - a.timestamp);
return archivedPings;
};
add_task(async function test_setup() {
do_get_profile(true);
// Make sure we don't generate unexpected pings due to pref changes.
await setEmptyPrefWatchlist();
});
add_task(async function test_archivedPings() {
// TelemetryController should not be fully initialized at this point.
// Submitting pings should still work fine.
const PINGS = [
{
type: "test-ping-api-1",
payload: { foo: "bar" },
dateCreated: new Date(2010, 1, 1, 10, 0, 0),
},
{
type: "test-ping-api-2",
payload: { moo: "meh" },
dateCreated: new Date(2010, 2, 1, 10, 0, 0),
},
];
// Submit pings and check the ping list.
let expectedPingList = [];
for (let data of PINGS) {
fakeNow(data.dateCreated);
data.id = await TelemetryController.submitExternalPing(
data.type,
data.payload
);
let list = await TelemetryArchive.promiseArchivedPingList();
expectedPingList.push({
id: data.id,
type: data.type,
timestampCreated: data.dateCreated.getTime(),
});
Assert.deepEqual(
list,
expectedPingList,
"Archived ping list should contain submitted pings"
);
}
// Check loading the archived pings.
let checkLoadingPings = async function () {
for (let data of PINGS) {
let ping = await TelemetryArchive.promiseArchivedPingById(data.id);
Assert.equal(ping.id, data.id, "Archived ping should have matching id");
Assert.equal(
ping.type,
data.type,
"Archived ping should have matching type"
);
Assert.equal(
ping.creationDate,
data.dateCreated.toISOString(),
"Archived ping should have matching creation date"
);
}
};
await checkLoadingPings();
// Check that we find the archived pings again by scanning after a restart.
await TelemetryController.testReset();
let pingList = await TelemetryArchive.promiseArchivedPingList();
Assert.deepEqual(
expectedPingList,
pingList,
"Should have submitted pings in archive list after restart"
);
await checkLoadingPings();
// Write invalid pings into the archive with both valid and invalid names.
let writeToArchivedDir = async function (
dirname,
filename,
content,
compressed
) {
const dirPath = PathUtils.join(gPingsArchivePath, dirname);
await IOUtils.makeDirectory(dirPath, { ignoreExisting: true });
const filePath = PathUtils.join(dirPath, filename);
const options = { tmpPath: filePath + ".tmp", mode: "overwrite" };
if (compressed) {
options.compress = true;
}
await IOUtils.writeUTF8(filePath, content, options);
};
const FAKE_ID1 = "10000000-0123-0123-0123-0123456789a1";
const FAKE_ID2 = "20000000-0123-0123-0123-0123456789a2";
const FAKE_ID3 = "20000000-0123-0123-0123-0123456789a3";
const FAKE_TYPE = "foo";
// These should get rejected.
await writeToArchivedDir("xx", "foo.json", "{}");
await writeToArchivedDir("2010-02", "xx.xx.xx.json", "{}");
// This one should get picked up...
await writeToArchivedDir(
"2010-02",
"1." + FAKE_ID1 + "." + FAKE_TYPE + ".json",
"{}"
);
// ... but get overwritten by this one.
await writeToArchivedDir(
"2010-02",
"2." + FAKE_ID1 + "." + FAKE_TYPE + ".json",
""
);
// This should get picked up fine.
await writeToArchivedDir(
"2010-02",
"3." + FAKE_ID2 + "." + FAKE_TYPE + ".json",
""
);
// This compressed ping should get picked up fine as well.
await writeToArchivedDir(
"2010-02",
"4." + FAKE_ID3 + "." + FAKE_TYPE + ".jsonlz4",
""
);
expectedPingList.push({
id: FAKE_ID1,
type: "foo",
timestampCreated: 2,
});
expectedPingList.push({
id: FAKE_ID2,
type: "foo",
timestampCreated: 3,
});
expectedPingList.push({
id: FAKE_ID3,
type: "foo",
timestampCreated: 4,
});
expectedPingList.sort((a, b) => a.timestampCreated - b.timestampCreated);
// Reset the TelemetryArchive so we scan the archived dir again.
await TelemetryController.testReset();
// Check that we are still picking up the valid archived pings on disk,
// plus the valid ones above.
pingList = await TelemetryArchive.promiseArchivedPingList();
Assert.deepEqual(
expectedPingList,
pingList,
"Should have picked up valid archived pings"
);
await checkLoadingPings();
// Now check that we fail to load the two invalid pings from above.
Assert.ok(
await promiseRejects(TelemetryArchive.promiseArchivedPingById(FAKE_ID1)),
"Should have rejected invalid ping"
);
Assert.ok(
await promiseRejects(TelemetryArchive.promiseArchivedPingById(FAKE_ID2)),
"Should have rejected invalid ping"
);
});
add_task(async function test_archiveCleanup() {
const PING_TYPE = "foo";
// Empty the archive.
await IOUtils.remove(gPingsArchivePath, { recursive: true });
Telemetry.getHistogramById("TELEMETRY_ARCHIVE_SCAN_PING_COUNT").clear();
Telemetry.getHistogramById("TELEMETRY_ARCHIVE_DIRECTORIES_COUNT").clear();
// Also reset these histograms to make sure normal sized pings don't get counted.
Telemetry.getHistogramById("TELEMETRY_PING_SIZE_EXCEEDED_ARCHIVED").clear();
Telemetry.getHistogramById(
"TELEMETRY_DISCARDED_ARCHIVED_PINGS_SIZE_MB"
).clear();
// Build the cache. Nothing should be evicted as there's no ping directory.
await TelemetryController.testReset();
await TelemetryStorage.testCleanupTaskPromise();
await TelemetryArchive.promiseArchivedPingList();
let h = Telemetry.getHistogramById(
"TELEMETRY_ARCHIVE_SCAN_PING_COUNT"
).snapshot();
Assert.equal(
h.sum,
0,
"Telemetry must report 0 pings scanned if no archive dir exists."
);
// One directory out of four was removed as well.
h = Telemetry.getHistogramById(
"TELEMETRY_ARCHIVE_EVICTED_OLD_DIRS"
).snapshot();
Assert.equal(
h.sum,
0,
"Telemetry must report 0 evicted dirs if no archive dir exists."
);
let expectedPrunedInfo = [];
let expectedNotPrunedInfo = [];
let checkArchive = async function () {
// Check that the pruned pings are not on disk anymore.
for (let prunedInfo of expectedPrunedInfo) {
await Assert.rejects(
TelemetryArchive.promiseArchivedPingById(prunedInfo.id),
/TelemetryStorage.loadArchivedPing - no ping with id/,
"Ping " + prunedInfo.id + " should have been pruned."
);
const pingPath = TelemetryStorage._testGetArchivedPingPath(
prunedInfo.id,
prunedInfo.creationDate,
PING_TYPE
);
Assert.ok(
!(await IOUtils.exists(pingPath)),
"The ping should not be on the disk anymore."
);
}
// Check that the expected pings are there.
for (let expectedInfo of expectedNotPrunedInfo) {
Assert.ok(
await TelemetryArchive.promiseArchivedPingById(expectedInfo.id),
"Ping" + expectedInfo.id + " should be in the archive."
);
}
};
Telemetry.getHistogramById("TELEMETRY_ARCHIVE_SESSION_PING_COUNT").clear();
// Create a ping which should be pruned because it is past the retention period.
let date = fakeNow(2010, 1, 1, 1, 0, 0);
let firstDate = date;
let pingId = await TelemetryController.submitExternalPing(PING_TYPE, {}, {});
expectedPrunedInfo.push({ id: pingId, creationDate: date });
// Create a ping which should be kept because it is within the retention period.
const oldestDirectoryDate = fakeNow(2010, 2, 1, 1, 0, 0);
pingId = await TelemetryController.submitExternalPing(PING_TYPE, {}, {});
expectedNotPrunedInfo.push({ id: pingId, creationDate: oldestDirectoryDate });
// Create 20 other pings which are within the retention period, but would be affected
// by the disk quota.
for (let month of [3, 4]) {
for (let minute = 0; minute < 10; minute++) {
date = fakeNow(2010, month, 1, 1, minute, 0);
pingId = await TelemetryController.submitExternalPing(PING_TYPE, {}, {});
expectedNotPrunedInfo.push({ id: pingId, creationDate: date });
}
}
// We expect all the pings we archived to be in this histogram.
h = Telemetry.getHistogramById("TELEMETRY_ARCHIVE_SESSION_PING_COUNT");
Assert.equal(
h.snapshot().sum,
22,
"All the pings must be live-accumulated in the histogram."
);
// Reset the histogram that will be populated by the archive scan.
Telemetry.getHistogramById("TELEMETRY_ARCHIVE_EVICTED_OLD_DIRS").clear();
Telemetry.getHistogramById("TELEMETRY_ARCHIVE_OLDEST_DIRECTORY_AGE").clear();
// Move the current date 60 days ahead of the first ping.
fakeNow(futureDate(firstDate, 60 * MILLISECONDS_PER_DAY));
// Reset TelemetryArchive and TelemetryController to start the startup cleanup.
await TelemetryController.testReset();
// Wait for the cleanup to finish.
await TelemetryStorage.testCleanupTaskPromise();
// Then scan the archived dir.
await TelemetryArchive.promiseArchivedPingList();
// Check that the archive is in the correct state.
await checkArchive();
// Make sure the ping count is correct after the scan (one ping was removed).
h = Telemetry.getHistogramById(
"TELEMETRY_ARCHIVE_SCAN_PING_COUNT"
).snapshot();
Assert.equal(
h.sum,
21,
"The histogram must count all the pings in the archive."
);
// One directory out of four was removed as well.
h = Telemetry.getHistogramById(
"TELEMETRY_ARCHIVE_EVICTED_OLD_DIRS"
).snapshot();
Assert.equal(
h.sum,
1,
"Telemetry must correctly report removed archive directories."
);
// Check that the remaining directories are correctly counted.
h = Telemetry.getHistogramById(
"TELEMETRY_ARCHIVE_DIRECTORIES_COUNT"
).snapshot();
Assert.equal(
h.sum,
3,
"Telemetry must correctly report the remaining archive directories."
);
// Check that the remaining directories are correctly counted.
const oldestAgeInMonths = 1;
h = Telemetry.getHistogramById(
"TELEMETRY_ARCHIVE_OLDEST_DIRECTORY_AGE"
).snapshot();
Assert.equal(
h.sum,
oldestAgeInMonths,
"Telemetry must correctly report age of the oldest directory in the archive."
);
// We need to test the archive size before we hit the quota, otherwise a special
// value is recorded.
Telemetry.getHistogramById("TELEMETRY_ARCHIVE_SIZE_MB").clear();
Telemetry.getHistogramById("TELEMETRY_ARCHIVE_EVICTED_OVER_QUOTA").clear();
Telemetry.getHistogramById(
"TELEMETRY_ARCHIVE_EVICTING_OVER_QUOTA_MS"
).clear();
// Move the current date 60 days ahead of the second ping.
fakeNow(futureDate(oldestDirectoryDate, 60 * MILLISECONDS_PER_DAY));
// Reset TelemetryController and TelemetryArchive.
await TelemetryController.testReset();
// Wait for the cleanup to finish.
await TelemetryStorage.testCleanupTaskPromise();
// Then scan the archived dir again.
await TelemetryArchive.promiseArchivedPingList();
// Move the oldest ping to the unexpected pings list.
expectedPrunedInfo.push(expectedNotPrunedInfo.shift());
// Check that the archive is in the correct state.
await checkArchive();
// Find how much disk space the archive takes.
const archivedPingsInfo = await getArchivedPingsInfo();
let archiveSizeInBytes = archivedPingsInfo.reduce(
(lastResult, element) => lastResult + element.size,
0
);
// Check that the correct values for quota probes are reported when no quota is hit.
h = Telemetry.getHistogramById("TELEMETRY_ARCHIVE_SIZE_MB").snapshot();
Assert.equal(
h.sum,
Math.round(archiveSizeInBytes / 1024 / 1024),
"Telemetry must report the correct archive size."
);
h = Telemetry.getHistogramById(
"TELEMETRY_ARCHIVE_EVICTED_OVER_QUOTA"
).snapshot();
Assert.equal(
h.sum,
0,
"Telemetry must report 0 evictions if quota is not hit."
);
h = Telemetry.getHistogramById(
"TELEMETRY_ARCHIVE_EVICTING_OVER_QUOTA_MS"
).snapshot();
Assert.equal(
h.sum,
0,
"Telemetry must report a null elapsed time if quota is not hit."
);
// Set the quota to 80% of the space.
const testQuotaInBytes = archiveSizeInBytes * 0.8;
fakeStorageQuota(testQuotaInBytes);
// The storage prunes archived pings until we reach 90% of the requested storage quota.
// Based on that, find how many pings should be kept.
const safeQuotaSize = testQuotaInBytes * 0.9;
let sizeInBytes = 0;
let pingsWithinQuota = [];
let pingsOutsideQuota = [];
for (let pingInfo of archivedPingsInfo) {
sizeInBytes += pingInfo.size;
if (sizeInBytes >= safeQuotaSize) {
pingsOutsideQuota.push({
id: pingInfo.id,
creationDate: new Date(pingInfo.timestamp),
});
continue;
}
pingsWithinQuota.push({
id: pingInfo.id,
creationDate: new Date(pingInfo.timestamp),
});
}
expectedNotPrunedInfo = pingsWithinQuota;
expectedPrunedInfo = expectedPrunedInfo.concat(pingsOutsideQuota);
// Reset TelemetryArchive and TelemetryController to start the startup cleanup.
await TelemetryController.testReset();
await TelemetryStorage.testCleanupTaskPromise();
await TelemetryArchive.promiseArchivedPingList();
// Check that the archive is in the correct state.
await checkArchive();
h = Telemetry.getHistogramById(
"TELEMETRY_ARCHIVE_EVICTED_OVER_QUOTA"
).snapshot();
Assert.equal(
h.sum,
pingsOutsideQuota.length,
"Telemetry must correctly report the over quota pings evicted from the archive."
);
h = Telemetry.getHistogramById("TELEMETRY_ARCHIVE_SIZE_MB").snapshot();
Assert.equal(
h.sum,
300,
"Archive quota was hit, a special size must be reported."
);
// Trigger a cleanup again and make sure we're not removing anything.
await TelemetryController.testReset();
await TelemetryStorage.testCleanupTaskPromise();
await TelemetryArchive.promiseArchivedPingList();
await checkArchive();
const OVERSIZED_PING_ID = "9b21ec8f-f762-4d28-a2c1-44e1c4694f24";
// Create and archive an oversized, uncompressed, ping.
const OVERSIZED_PING = {
id: OVERSIZED_PING_ID,
type: PING_TYPE,
creationDate: new Date().toISOString(),
// Generate a ~2MB string to use as the payload.
payload: generateRandomString(2 * 1024 * 1024),
};
await TelemetryArchive.promiseArchivePing(OVERSIZED_PING);
// Get the size of the archived ping.
const oversizedPingPath =
TelemetryStorage._testGetArchivedPingPath(
OVERSIZED_PING.id,
new Date(OVERSIZED_PING.creationDate),
PING_TYPE
) + "lz4";
const archivedPingSizeMB = Math.floor(
(await IOUtils.stat(oversizedPingPath)).size / 1024 / 1024
);
// We expect the oversized ping to be pruned when scanning the archive.
expectedPrunedInfo.push({
id: OVERSIZED_PING_ID,
creationDate: new Date(OVERSIZED_PING.creationDate),
});
// Scan the archive.
await TelemetryController.testReset();
await TelemetryStorage.testCleanupTaskPromise();
await TelemetryArchive.promiseArchivedPingList();
// The following also checks that non oversized pings are not removed.
await checkArchive();
// Make sure we're correctly updating the related histograms.
h = Telemetry.getHistogramById(
"TELEMETRY_PING_SIZE_EXCEEDED_ARCHIVED"
).snapshot();
Assert.equal(
h.sum,
1,
"Telemetry must report 1 oversized ping in the archive."
);
h = Telemetry.getHistogramById(
"TELEMETRY_DISCARDED_ARCHIVED_PINGS_SIZE_MB"
).snapshot();
Assert.equal(
h.values[archivedPingSizeMB],
1,
"Telemetry must report the correct size for the oversized ping."
);
});
add_task(async function test_clientId() {
// Check that a ping submitted after the delayed telemetry initialization completed
// should get a valid client id.
await TelemetryController.testReset();
const clientId = await ClientID.getClientID();
const profileGroupId = await ClientID.getProfileGroupID();
let id = await TelemetryController.submitExternalPing(
"test-type",
{},
{ addClientId: true }
);
let ping = await TelemetryArchive.promiseArchivedPingById(id);
Assert.ok(!!ping, "Should have loaded the ping.");
Assert.ok("clientId" in ping, "Ping should have a client id.");
Assert.ok(UUID_REGEX.test(ping.clientId), "Client id is in UUID format.");
Assert.equal(
ping.clientId,
clientId,
"Ping client id should match the global client id."
);
Assert.ok("profileGroupId" in ping, "Ping should have a profile group id.");
Assert.ok(
UUID_REGEX.test(ping.profileGroupId),
"Profile group id is in UUID format."
);
Assert.equal(
ping.profileGroupId,
profileGroupId,
"Ping profile group id should match the global profile group id."
);
// We should have cached the client id now. Lets confirm that by
// checking the client id on a ping submitted before the async
// controller setup is finished.
let promiseSetup = TelemetryController.testReset();
id = await TelemetryController.submitExternalPing(
"test-type",
{},
{ addClientId: true }
);
ping = await TelemetryArchive.promiseArchivedPingById(id);
Assert.equal(ping.clientId, clientId);
// Finish setup.
await promiseSetup;
});
add_task(async function test_InvalidPingType() {
const TYPES = [
"a",
"-",
"¿€€€?",
"-foo-",
"-moo",
"zoo-",
".bar",
"asfd.asdf",
];
for (let type of TYPES) {
let histogram = Telemetry.getKeyedHistogramById(
"TELEMETRY_INVALID_PING_TYPE_SUBMITTED"
);
Assert.ok(
!(type in histogram.snapshot()),
"Should not have counted this invalid ping yet: " + type
);
Assert.ok(
promiseRejects(TelemetryController.submitExternalPing(type, {})),
"Ping type should have been rejected."
);
Assert.equal(
histogram.snapshot()[type].sum,
1,
"Should have counted this as an invalid ping type."
);
}
});
add_task(async function test_InvalidPayloadType() {
const PAYLOAD_TYPES = [19, "string", [1, 2, 3, 4], null, undefined];
let histogram = Telemetry.getHistogramById(
"TELEMETRY_INVALID_PAYLOAD_SUBMITTED"
);
for (let i = 0; i < PAYLOAD_TYPES.length; i++) {
histogram.clear();
Assert.equal(
histogram.snapshot().sum,
0,
"Should not have counted this invalid payload yet: " +
JSON.stringify(PAYLOAD_TYPES[i])
);
Assert.ok(
await promiseRejects(
TelemetryController.submitExternalPing("payload-test", PAYLOAD_TYPES[i])
),
"Payload type should have been rejected."
);
Assert.equal(
histogram.snapshot().sum,
1,
"Should have counted this as an invalid payload type."
);
}
});
add_task(async function test_currentPingData() {
await TelemetryController.testSetup();
// Setup test data.
let h = Telemetry.getHistogramById("TELEMETRY_TEST_RELEASE_OPTOUT");
h.clear();
h.add(1);
let k = Telemetry.getKeyedHistogramById(
"TELEMETRY_TEST_KEYED_RELEASE_OPTOUT"
);
k.clear();
k.add("a", 1);
// Get current ping data objects and check that their data is sane.
for (let subsession of [true, false]) {
let ping = TelemetryController.getCurrentPingData(subsession);
Assert.ok(!!ping, "Should have gotten a ping.");
Assert.equal(ping.type, "main", "Ping should have correct type.");
const expectedReason = subsession
? "gather-subsession-payload"
: "gather-payload";
Assert.equal(
ping.payload.info.reason,
expectedReason,
"Ping should have the correct reason."
);
let id = "TELEMETRY_TEST_RELEASE_OPTOUT";
Assert.ok(
id in ping.payload.histograms,
"Payload should have test count histogram."
);
Assert.equal(
ping.payload.histograms[id].sum,
1,
"Test count value should match."
);
id = "TELEMETRY_TEST_KEYED_RELEASE_OPTOUT";
Assert.ok(
id in ping.payload.keyedHistograms,
"Payload should have keyed test histogram."
);
Assert.equal(
ping.payload.keyedHistograms[id].a.sum,
1,
"Keyed test value should match."
);
}
});
add_task(async function test_shutdown() {
await TelemetryController.testShutdown();
});