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/* -*- 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
import { AppConstants } from "resource://gre/modules/AppConstants.sys.mjs";
import { Log } from "resource://gre/modules/Log.sys.mjs";
import { TelemetryUtils } from "resource://gre/modules/TelemetryUtils.sys.mjs";
const LOGGER_NAME = "Toolkit.Telemetry";
const LOGGER_PREFIX = "TelemetryStorage::";
const Telemetry = Services.telemetry;
const Utils = TelemetryUtils;
// Compute the path of the pings archive on the first use.
const DATAREPORTING_DIR = "datareporting";
const PINGS_ARCHIVE_DIR = "archived";
const ABORTED_SESSION_FILE_NAME = "aborted-session-ping";
const SESSION_STATE_FILE_NAME = "session-state.json";
const lazy = {};
ChromeUtils.defineLazyGetter(lazy, "gDataReportingDir", function () {
return PathUtils.join(PathUtils.profileDir, DATAREPORTING_DIR);
});
ChromeUtils.defineLazyGetter(lazy, "gPingsArchivePath", function () {
return PathUtils.join(lazy.gDataReportingDir, PINGS_ARCHIVE_DIR);
});
ChromeUtils.defineLazyGetter(lazy, "gAbortedSessionFilePath", function () {
return PathUtils.join(lazy.gDataReportingDir, ABORTED_SESSION_FILE_NAME);
});
ChromeUtils.defineESModuleGetters(lazy, {
TelemetryHealthPing: "resource://gre/modules/HealthPing.sys.mjs",
});
// Maxmimum time, in milliseconds, archive pings should be retained.
const MAX_ARCHIVED_PINGS_RETENTION_MS = 60 * 24 * 60 * 60 * 1000; // 60 days
// Maximum space the archive can take on disk (in Bytes).
const ARCHIVE_QUOTA_BYTES = 120 * 1024 * 1024; // 120 MB
// Maximum space the outgoing pings can take on disk, for Desktop (in Bytes).
const PENDING_PINGS_QUOTA_BYTES_DESKTOP = 15 * 1024 * 1024; // 15 MB
// Maximum space the outgoing pings can take on disk, for Mobile (in Bytes).
const PENDING_PINGS_QUOTA_BYTES_MOBILE = 1024 * 1024; // 1 MB
// The maximum size a pending/archived ping can take on disk.
const PING_FILE_MAXIMUM_SIZE_BYTES = 1024 * 1024; // 1 MB
// This special value is submitted when the archive is outside of the quota.
const ARCHIVE_SIZE_PROBE_SPECIAL_VALUE = 300;
// This special value is submitted when the pending pings is outside of the quota, as
// we don't know the size of the pings above the quota.
const PENDING_PINGS_SIZE_PROBE_SPECIAL_VALUE = 17;
const UUID_REGEX =
/^[0-9a-f]{8}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{12}$/i;
/**
* This is thrown by |TelemetryStorage.loadPingFile| when reading the ping
* from the disk fails.
*/
function PingReadError(
message = "Error reading the ping file",
becauseNoSuchFile = false
) {
Error.call(this, message);
let error = new Error();
this.name = "PingReadError";
this.message = message;
this.stack = error.stack;
this.becauseNoSuchFile = becauseNoSuchFile;
}
PingReadError.prototype = Object.create(Error.prototype);
PingReadError.prototype.constructor = PingReadError;
/**
* This is thrown by |TelemetryStorage.loadPingFile| when parsing the ping JSON
* content fails.
*/
function PingParseError(message = "Error parsing ping content") {
Error.call(this, message);
let error = new Error();
this.name = "PingParseError";
this.message = message;
this.stack = error.stack;
}
PingParseError.prototype = Object.create(Error.prototype);
PingParseError.prototype.constructor = PingParseError;
/**
* This is a policy object used to override behavior for testing.
*/
export var Policy = {
now: () => new Date(),
getArchiveQuota: () => ARCHIVE_QUOTA_BYTES,
getPendingPingsQuota: () =>
AppConstants.platform == "android"
? PENDING_PINGS_QUOTA_BYTES_MOBILE
: PENDING_PINGS_QUOTA_BYTES_DESKTOP,
/**
* @param {string} id The ID of the ping that will be written into the file. Can be "*" to
* make a pattern to find all pings for this installation.
* @return
* {
* directory: <nsIFile>, // Directory to save pings
* file: <string>, // File name for this ping (or pattern for all pings)
* }
*/
getUninstallPingPath: id => {
// UpdRootD is e.g. C:\ProgramData\Mozilla\updates\<PATH HASH>
const updateDirectory = Services.dirsvc.get("UpdRootD", Ci.nsIFile);
const installPathHash = updateDirectory.leafName;
return {
// e.g. C:\ProgramData\Mozilla
directory: updateDirectory.parent.parent.clone(),
file: `uninstall_ping_${installPathHash}_${id}.json`,
};
},
};
/**
* Wait for all promises in iterable to resolve or reject. This function
* always resolves its promise with undefined, and never rejects.
*/
function waitForAll(it) {
let dummy = () => {};
let promises = Array.from(it, p => p.catch(dummy));
return Promise.all(promises);
}
/**
* Permanently intern the given string. This is mainly used for the ping.type
* strings that can be excessively duplicated in the _archivedPings map. Do not
* pass large or temporary strings to this function.
*/
function internString(str) {
return Symbol.keyFor(Symbol.for(str));
}
export var TelemetryStorage = {
get pingDirectoryPath() {
return PathUtils.join(PathUtils.profileDir, "saved-telemetry-pings");
},
/**
* The maximum size a ping can have, in bytes.
*/
get MAXIMUM_PING_SIZE() {
return PING_FILE_MAXIMUM_SIZE_BYTES;
},
/**
* Shutdown & block on any outstanding async activity in this module.
*
* @return {Promise} Promise that is resolved when shutdown is complete.
*/
shutdown() {
return TelemetryStorageImpl.shutdown();
},
/**
* Save an archived ping to disk.
*
* @param {object} ping The ping data to archive.
* @return {promise} Promise that is resolved when the ping is successfully archived.
*/
saveArchivedPing(ping) {
return TelemetryStorageImpl.saveArchivedPing(ping);
},
/**
* Load an archived ping from disk.
*
* @param {string} id The pings id.
* @return {promise<object>} Promise that is resolved with the ping data.
*/
loadArchivedPing(id) {
return TelemetryStorageImpl.loadArchivedPing(id);
},
/**
* Get a list of info on the archived pings.
* This will scan the archive directory and grab basic data about the existing
* pings out of their filename.
*
* @return {promise<sequence<object>>}
*/
loadArchivedPingList() {
return TelemetryStorageImpl.loadArchivedPingList();
},
/**
* Clean the pings archive by removing old pings.
* This will scan the archive directory.
*
* @return {Promise} Resolved when the cleanup task completes.
*/
runCleanPingArchiveTask() {
return TelemetryStorageImpl.runCleanPingArchiveTask();
},
/**
* Run the task to enforce the pending pings quota.
*
* @return {Promise} Resolved when the cleanup task completes.
*/
runEnforcePendingPingsQuotaTask() {
return TelemetryStorageImpl.runEnforcePendingPingsQuotaTask();
},
/**
* Run the task to remove all the pending pings
*
* @return {Promise} Resolved when the pings are removed.
*/
runRemovePendingPingsTask() {
return TelemetryStorageImpl.runRemovePendingPingsTask();
},
/**
* Remove all pings that are stored in the userApplicationDataDir
* under the "Pending Pings" sub-directory.
*/
removeAppDataPings() {
return TelemetryStorageImpl.removeAppDataPings();
},
/**
* Reset the storage state in tests.
*/
reset() {
return TelemetryStorageImpl.reset();
},
/**
* Test method that allows waiting on the archive clean task to finish.
*/
testCleanupTaskPromise() {
return TelemetryStorageImpl._cleanArchiveTask || Promise.resolve();
},
/**
* Test method that allows waiting on the pending pings quota task to finish.
*/
testPendingQuotaTaskPromise() {
return (
TelemetryStorageImpl._enforcePendingPingsQuotaTask || Promise.resolve()
);
},
/**
* Save a pending - outgoing - ping to disk and track it.
*
* @param {Object} ping The ping data.
* @return {Promise} Resolved when the ping was saved.
*/
savePendingPing(ping) {
return TelemetryStorageImpl.savePendingPing(ping);
},
/**
* Saves session data to disk.
* @param {Object} sessionData The session data.
* @return {Promise} Resolved when the data was saved.
*/
saveSessionData(sessionData) {
return TelemetryStorageImpl.saveSessionData(sessionData);
},
/**
* Loads session data from a session data file.
* @return {Promise<object>} Resolved with the session data in object form.
*/
loadSessionData() {
return TelemetryStorageImpl.loadSessionData();
},
/**
* Load a pending ping from disk by id.
*
* @param {String} id The pings id.
* @return {Promise} Resolved with the loaded ping data.
*/
loadPendingPing(id) {
return TelemetryStorageImpl.loadPendingPing(id);
},
/**
* Remove a pending ping from disk by id.
*
* @param {String} id The pings id.
* @return {Promise} Resolved when the ping was removed.
*/
removePendingPing(id) {
return TelemetryStorageImpl.removePendingPing(id);
},
/**
* Returns a list of the currently pending pings in the format:
* {
* id: <string>, // The pings UUID.
* lastModified: <number>, // Timestamp of the pings last modification.
* }
* This populates the list by scanning the disk.
*
* @return {Promise<sequence>} Resolved with the ping list.
*/
loadPendingPingList() {
return TelemetryStorageImpl.loadPendingPingList();
},
/**
* Returns a list of the currently pending pings in the format:
* {
* id: <string>, // The pings UUID.
* lastModified: <number>, // Timestamp of the pings last modification.
* }
* This does not scan pending pings on disk.
*
* @return {sequence} The current pending ping list.
*/
getPendingPingList() {
return TelemetryStorageImpl.getPendingPingList();
},
/**
* Save an aborted-session ping to disk. This goes to a special location so
* it is not picked up as a pending ping.
*
* @param {object} ping The ping data to save.
* @return {promise} Promise that is resolved when the ping is successfully saved.
*/
saveAbortedSessionPing(ping) {
return TelemetryStorageImpl.saveAbortedSessionPing(ping);
},
/**
* Load the aborted-session ping from disk if present.
*
* @return {promise<object>} Promise that is resolved with the ping data if found.
* Otherwise returns null.
*/
loadAbortedSessionPing() {
return TelemetryStorageImpl.loadAbortedSessionPing();
},
/**
* Remove the aborted-session ping if present.
*
* @return {promise} Promise that is resolved once the ping is removed.
*/
removeAbortedSessionPing() {
return TelemetryStorageImpl.removeAbortedSessionPing();
},
/**
* Save an uninstall ping to disk, removing any old ones from this
* installation first.
* This is stored independently from other pings, and only read by
* the Windows uninstaller.
*
* WINDOWS ONLY, does nothing and resolves immediately on other platforms.
*
* @return {promise} Promise that is resolved when the ping has been saved.
*/
saveUninstallPing(ping) {
return TelemetryStorageImpl.saveUninstallPing(ping);
},
/**
* Remove all uninstall pings from this installation.
*
* WINDOWS ONLY, does nothing and resolves immediately on other platforms.
*
* @return {promise} Promise that is resolved when the pings have been removed.
*/
removeUninstallPings() {
return TelemetryStorageImpl.removeUninstallPings();
},
/**
* Save a single ping to a file.
*
* @param {object} ping The content of the ping to save.
* @param {string} file The destination file.
* @param {bool} overwrite If |true|, the file will be overwritten if it exists,
* if |false| the file will not be overwritten and no error will be reported if
* the file exists.
* @returns {promise}
*/
savePingToFile(ping, file, overwrite) {
return TelemetryStorageImpl.savePingToFile(ping, file, overwrite);
},
/**
* Save a ping to its file.
*
* @param {object} ping The content of the ping to save.
* @param {bool} overwrite If |true|, the file will be overwritten
* if it exists.
* @returns {promise}
*/
savePing(ping, overwrite) {
return TelemetryStorageImpl.savePing(ping, overwrite);
},
/**
* Remove the file for a ping
*
* @param {object} ping The ping.
* @returns {promise}
*/
cleanupPingFile(ping) {
return TelemetryStorageImpl.cleanupPingFile(ping);
},
/**
* Loads a ping file.
* @param {String} aFilePath The path of the ping file.
* @return {Promise<Object>} A promise resolved with the ping content or rejected if the
* ping contains invalid data.
*/
async loadPingFile(aFilePath) {
return TelemetryStorageImpl.loadPingFile(aFilePath);
},
/**
* Remove FHR database files. This is temporary and will be dropped in
* the future.
* @return {Promise} Resolved when the database files are deleted.
*/
removeFHRDatabase() {
return TelemetryStorageImpl.removeFHRDatabase();
},
/**
* Only used in tests, builds an archived ping path from the ping metadata.
* @param {String} aPingId The ping id.
* @param {Object} aDate The ping creation date.
* @param {String} aType The ping type.
* @return {String} The full path to the archived ping.
*/
_testGetArchivedPingPath(aPingId, aDate, aType) {
return getArchivedPingPath(aPingId, aDate, aType);
},
/**
* Only used in tests, this helper extracts ping metadata from a given filename.
*
* @param fileName {String} The filename.
* @return {Object} Null if the filename didn't match the expected form.
* Otherwise an object with the extracted data in the form:
* { timestamp: <number>,
* id: <string>,
* type: <string> }
*/
_testGetArchivedPingDataFromFileName(aFileName) {
return TelemetryStorageImpl._getArchivedPingDataFromFileName(aFileName);
},
/**
* Only used in tests, this helper allows cleaning up the pending ping storage.
*/
testClearPendingPings() {
return TelemetryStorageImpl.runRemovePendingPingsTask();
},
};
/**
* This object allows the serialisation of asynchronous tasks. This is particularly
* useful to serialise write access to the disk in order to prevent race conditions
* to corrupt the data being written.
* We are using this to synchronize saving to the file that TelemetrySession persists
* its state in.
*/
function SaveSerializer() {
this._queuedOperations = [];
this._queuedInProgress = false;
this._log = Log.repository.getLoggerWithMessagePrefix(
LOGGER_NAME,
LOGGER_PREFIX
);
}
SaveSerializer.prototype = {
/**
* Enqueues an operation to a list to serialise their execution in order to prevent race
* conditions. Useful to serialise access to disk.
*
* @param {Function} aFunction The task function to enqueue. It must return a promise.
* @return {Promise} A promise resolved when the enqueued task completes.
*/
enqueueTask(aFunction) {
let promise = new Promise((resolve, reject) =>
this._queuedOperations.push([aFunction, resolve, reject])
);
if (this._queuedOperations.length == 1) {
this._popAndPerformQueuedOperation();
}
return promise;
},
/**
* Make sure to flush all the pending operations.
* @return {Promise} A promise resolved when all the pending operations have completed.
*/
flushTasks() {
let dummyTask = () => new Promise(resolve => resolve());
return this.enqueueTask(dummyTask);
},
/**
* Pop a task from the queue, executes it and continue to the next one.
* This function recursively pops all the tasks.
*/
_popAndPerformQueuedOperation() {
if (!this._queuedOperations.length || this._queuedInProgress) {
return;
}
this._log.trace(
"_popAndPerformQueuedOperation - Performing queued operation."
);
let [func, resolve, reject] = this._queuedOperations.shift();
let promise;
try {
this._queuedInProgress = true;
promise = func();
} catch (ex) {
this._log.warn(
"_popAndPerformQueuedOperation - Queued operation threw during execution. ",
ex
);
this._queuedInProgress = false;
reject(ex);
this._popAndPerformQueuedOperation();
return;
}
if (!promise || typeof promise.then != "function") {
let msg = "Queued operation did not return a promise: " + func;
this._log.warn("_popAndPerformQueuedOperation - " + msg);
this._queuedInProgress = false;
reject(new Error(msg));
this._popAndPerformQueuedOperation();
return;
}
promise.then(
result => {
this._queuedInProgress = false;
resolve(result);
this._popAndPerformQueuedOperation();
},
error => {
this._log.warn(
"_popAndPerformQueuedOperation - Failure when performing queued operation.",
error
);
this._queuedInProgress = false;
reject(error);
this._popAndPerformQueuedOperation();
}
);
},
};
var TelemetryStorageImpl = {
_logger: null,
// Used to serialize aborted session ping writes to disk.
_abortedSessionSerializer: new SaveSerializer(),
// Used to serialize session state writes to disk.
_stateSaveSerializer: new SaveSerializer(),
// Tracks the archived pings in a Map of (id -> {timestampCreated, type}).
// We use this to cache info on archived pings to avoid scanning the disk more than once.
_archivedPings: new Map(),
// A set of promises for pings currently being archived
_activelyArchiving: new Set(),
// Track the archive loading task to prevent multiple tasks from being executed.
_scanArchiveTask: null,
// Track the archive cleanup task.
_cleanArchiveTask: null,
// Whether we already scanned the archived pings on disk.
_scannedArchiveDirectory: false,
// Track the pending ping removal task.
_removePendingPingsTask: null,
// This tracks all the pending async ping save activity.
_activePendingPingSaves: new Set(),
// Tracks the pending pings in a Map of (id -> {timestampCreated, type}).
// We use this to cache info on pending pings to avoid scanning the disk more than once.
_pendingPings: new Map(),
// Track the pending pings enforce quota task.
_enforcePendingPingsQuotaTask: null,
// Track the shutdown process to bail out of the clean up task quickly.
_shutdown: false,
get _log() {
if (!this._logger) {
this._logger = Log.repository.getLoggerWithMessagePrefix(
LOGGER_NAME,
LOGGER_PREFIX
);
}
return this._logger;
},
/**
* Shutdown & block on any outstanding async activity in this module.
*
* @return {Promise} Promise that is resolved when shutdown is complete.
*/
async shutdown() {
this._shutdown = true;
// If the following tasks are still running, block on them. They will bail out as soon
// as possible.
await this._abortedSessionSerializer.flushTasks().catch(ex => {
this._log.error("shutdown - failed to flush aborted-session writes", ex);
});
if (this._cleanArchiveTask) {
await this._cleanArchiveTask.catch(ex => {
this._log.error("shutdown - the archive cleaning task failed", ex);
});
}
if (this._enforcePendingPingsQuotaTask) {
await this._enforcePendingPingsQuotaTask.catch(ex => {
this._log.error("shutdown - the pending pings quota task failed", ex);
});
}
if (this._removePendingPingsTask) {
await this._removePendingPingsTask.catch(ex => {
this._log.error("shutdown - the pending pings removal task failed", ex);
});
}
// Wait on pending pings still being saved. While IOUtils should have shutdown
// blockers in place, we a) have seen weird errors being reported that might
// indicate a bad shutdown path and b) might have completion handlers hanging
// off the save operations that don't expect to be late in shutdown.
await this.promisePendingPingSaves();
},
/**
* Save an archived ping to disk.
*
* @param {object} ping The ping data to archive.
* @return {promise} Promise that is resolved when the ping is successfully archived.
*/
saveArchivedPing(ping) {
let promise = this._saveArchivedPingTask(ping);
this._activelyArchiving.add(promise);
promise.then(
() => {
this._activelyArchiving.delete(promise);
},
() => {
this._activelyArchiving.delete(promise);
}
);
return promise;
},
async _saveArchivedPingTask(ping) {
const creationDate = new Date(ping.creationDate);
if (this._archivedPings.has(ping.id)) {
const data = this._archivedPings.get(ping.id);
if (data.timestampCreated > creationDate.getTime()) {
this._log.error(
"saveArchivedPing - trying to overwrite newer ping with the same id"
);
return Promise.reject(
new Error("trying to overwrite newer ping with the same id")
);
}
this._log.warn(
"saveArchivedPing - overwriting older ping with the same id"
);
}
// Get the archived ping path and append the lz4 suffix to it (so we have 'jsonlz4').
const filePath =
getArchivedPingPath(ping.id, creationDate, ping.type) + "lz4";
await IOUtils.makeDirectory(PathUtils.parent(filePath));
await this.savePingToFile(
ping,
filePath,
/* overwrite*/ true,
/* compressed*/ true
);
this._archivedPings.set(ping.id, {
timestampCreated: creationDate.getTime(),
type: internString(ping.type),
});
Telemetry.getHistogramById("TELEMETRY_ARCHIVE_SESSION_PING_COUNT").add();
return undefined;
},
/**
* Load an archived ping from disk.
*
* @param {string} id The pings id.
* @return {promise<object>} Promise that is resolved with the ping data.
*/
async loadArchivedPing(id) {
const data = this._archivedPings.get(id);
if (!data) {
this._log.trace("loadArchivedPing - no ping with id: " + id);
return Promise.reject(
new Error("TelemetryStorage.loadArchivedPing - no ping with id " + id)
);
}
const path = getArchivedPingPath(
id,
new Date(data.timestampCreated),
data.type
);
const pathCompressed = path + "lz4";
// Purge pings which are too big.
let checkSize = async function (path) {
const fileSize = await IOUtils.stat(path).then(info => info.size);
if (fileSize > PING_FILE_MAXIMUM_SIZE_BYTES) {
Telemetry.getHistogramById(
"TELEMETRY_DISCARDED_ARCHIVED_PINGS_SIZE_MB"
).add(Math.floor(fileSize / 1024 / 1024));
Telemetry.getHistogramById(
"TELEMETRY_PING_SIZE_EXCEEDED_ARCHIVED"
).add();
await IOUtils.remove(path, { ignoreAbsent: true });
throw new Error(
`loadArchivedPing - exceeded the maximum ping size: ${fileSize}`
);
}
};
let ping;
try {
// Try to load a compressed version of the archived ping first.
this._log.trace(
"loadArchivedPing - loading ping from: " + pathCompressed
);
await checkSize(pathCompressed);
ping = await this.loadPingFile(pathCompressed, /* compressed*/ true);
} catch (ex) {
if (!ex.becauseNoSuchFile) {
throw ex;
}
// If that fails, look for the uncompressed version.
this._log.trace(
"loadArchivedPing - compressed ping not found, loading: " + path
);
await checkSize(path);
ping = await this.loadPingFile(path, /* compressed*/ false);
}
return ping;
},
/**
* Saves session data to disk.
*/
saveSessionData(sessionData) {
return this._stateSaveSerializer.enqueueTask(() =>
this._saveSessionData(sessionData)
);
},
async _saveSessionData(sessionData) {
await IOUtils.makeDirectory(lazy.gDataReportingDir, {
createAncestors: false,
});
let filePath = PathUtils.join(
lazy.gDataReportingDir,
SESSION_STATE_FILE_NAME
);
try {
await IOUtils.writeJSON(filePath, sessionData);
} catch (e) {
this._log.error(
`_saveSessionData - Failed to write session data to ${filePath}`,
e
);
Telemetry.getHistogramById("TELEMETRY_SESSIONDATA_FAILED_SAVE").add(1);
}
},
/**
* Loads session data from the session data file.
* @return {Promise<Object>} A promise resolved with an object on success,
* with null otherwise.
*/
loadSessionData() {
return this._stateSaveSerializer.enqueueTask(() => this._loadSessionData());
},
async _loadSessionData() {
const dataFile = PathUtils.join(
PathUtils.profileDir,
DATAREPORTING_DIR,
SESSION_STATE_FILE_NAME
);
let content;
try {
content = await IOUtils.readUTF8(dataFile);
} catch (ex) {
this._log.info("_loadSessionData - can not load session data file", ex);
Telemetry.getHistogramById("TELEMETRY_SESSIONDATA_FAILED_LOAD").add(1);
return null;
}
let data;
try {
data = JSON.parse(content);
} catch (ex) {
this._log.error("_loadSessionData - failed to parse session data", ex);
Telemetry.getHistogramById("TELEMETRY_SESSIONDATA_FAILED_PARSE").add(1);
return null;
}
return data;
},
/**
* Remove an archived ping from disk.
*
* @param {string} id The pings id.
* @param {number} timestampCreated The pings creation timestamp.
* @param {string} type The pings type.
* @return {promise<object>} Promise that is resolved when the pings is removed.
*/
async _removeArchivedPing(id, timestampCreated, type) {
this._log.trace(
"_removeArchivedPing - id: " +
id +
", timestampCreated: " +
timestampCreated +
", type: " +
type
);
const path = getArchivedPingPath(id, new Date(timestampCreated), type);
const pathCompressed = path + "lz4";
this._log.trace("_removeArchivedPing - removing ping from: " + path);
await IOUtils.remove(path);
await IOUtils.remove(pathCompressed);
// Remove the ping from the cache.
this._archivedPings.delete(id);
},
/**
* Clean the pings archive by removing old pings.
*
* @return {Promise} Resolved when the cleanup task completes.
*/
runCleanPingArchiveTask() {
// If there's an archive cleaning task already running, return it.
if (this._cleanArchiveTask) {
return this._cleanArchiveTask;
}
// Make sure to clear |_cleanArchiveTask| once done.
let clear = () => (this._cleanArchiveTask = null);
// Since there's no archive cleaning task running, start it.
this._cleanArchiveTask = this._cleanArchive().then(clear, clear);
return this._cleanArchiveTask;
},
/**
* Removes pings which are too old from the pings archive.
* @return {Promise} Resolved when the ping age check is complete.
*/
async _purgeOldPings() {
this._log.trace("_purgeOldPings");
const nowDate = Policy.now();
const startTimeStamp = nowDate.getTime();
// Keep track of the newest removed month to update the cache, if needed.
let newestRemovedMonthTimestamp = null;
let evictedDirsCount = 0;
let maxDirAgeInMonths = 0;
// Walk through the monthly subdirs of the form <YYYY-MM>/
for (const path of await IOUtils.getChildren(lazy.gPingsArchivePath)) {
const info = await IOUtils.stat(path);
if (info.type !== "directory") {
continue;
}
const name = PathUtils.filename(path);
if (this._shutdown) {
this._log.trace(
"_purgeOldPings - Terminating the clean up task due to shutdown"
);
return;
}
if (!isValidArchiveDir(name)) {
this._log.warn(
`_purgeOldPings - skipping invalidly named subdirectory ${path}`
);
continue;
}
const archiveDate = getDateFromArchiveDir(name);
if (!archiveDate) {
this._log.warn(
`_purgeOldPings - skipping invalid subdirectory date ${path}`
);
continue;
}
// If this archive directory is older than allowed, remove it.
if (
startTimeStamp - archiveDate.getTime() >
MAX_ARCHIVED_PINGS_RETENTION_MS
) {
try {
await IOUtils.remove(path, { recursive: true });
evictedDirsCount++;
// Update the newest removed month.
newestRemovedMonthTimestamp = Math.max(
archiveDate,
newestRemovedMonthTimestamp
);
} catch (ex) {
this._log.error(`_purgeOldPings - Unable to remove ${path}`, ex);
}
} else {
// We're not removing this directory, so record the age for the oldest directory.
const dirAgeInMonths = Utils.getElapsedTimeInMonths(
archiveDate,
nowDate
);
maxDirAgeInMonths = Math.max(dirAgeInMonths, maxDirAgeInMonths);
}
}
// Trigger scanning of the archived pings.
await this.loadArchivedPingList();
// Refresh the cache: we could still skip this, but it's cheap enough to keep it
// to avoid introducing task dependencies.
if (newestRemovedMonthTimestamp) {
// Scan the archive cache for pings older than the newest directory pruned above.
for (let [id, info] of this._archivedPings) {
const timestampCreated = new Date(info.timestampCreated);
if (timestampCreated.getTime() > newestRemovedMonthTimestamp) {
continue;
}
// Remove outdated pings from the cache.
this._archivedPings.delete(id);
}
}
const endTimeStamp = Policy.now().getTime();
// Save the time it takes to evict old directories and the eviction count.
Telemetry.getHistogramById("TELEMETRY_ARCHIVE_EVICTED_OLD_DIRS").add(
evictedDirsCount
);
Telemetry.getHistogramById("TELEMETRY_ARCHIVE_EVICTING_DIRS_MS").add(
Math.ceil(endTimeStamp - startTimeStamp)
);
Telemetry.getHistogramById("TELEMETRY_ARCHIVE_OLDEST_DIRECTORY_AGE").add(
maxDirAgeInMonths
);
},
/**
* Enforce a disk quota for the pings archive.
* @return {Promise} Resolved when the quota check is complete.
*/
async _enforceArchiveQuota() {
this._log.trace("_enforceArchiveQuota");
let startTimeStamp = Policy.now().getTime();
// Build an ordered list, from newer to older, of archived pings.
let pingList = Array.from(this._archivedPings, p => ({
id: p[0],
timestampCreated: p[1].timestampCreated,
type: p[1].type,
}));
pingList.sort((a, b) => b.timestampCreated - a.timestampCreated);
// If our archive is too big, we should reduce it to reach 90% of the quota.
const SAFE_QUOTA = Policy.getArchiveQuota() * 0.9;
// The index of the last ping to keep. Pings older than this one will be deleted if
// the archive exceeds the quota.
let lastPingIndexToKeep = null;
let archiveSizeInBytes = 0;
// Find the disk size of the archive.
for (let i = 0; i < pingList.length; i++) {
if (this._shutdown) {
this._log.trace(
"_enforceArchiveQuota - Terminating the clean up task due to shutdown"
);
return;
}
let ping = pingList[i];
// Get the size for this ping.
const fileSize = await getArchivedPingSize(
ping.id,
new Date(ping.timestampCreated),
ping.type
);
if (!fileSize) {
this._log.warn(
"_enforceArchiveQuota - Unable to find the size of ping " + ping.id
);
continue;
}
// Enforce a maximum file size limit on archived pings.
if (fileSize > PING_FILE_MAXIMUM_SIZE_BYTES) {
this._log.error(
"_enforceArchiveQuota - removing file exceeding size limit, size: " +
fileSize
);
// We just remove the ping from the disk, we don't bother removing it from pingList
// since it won't contribute to the quota.
await this._removeArchivedPing(
ping.id,
ping.timestampCreated,
ping.type
).catch(() =>
this._log.error(
"_enforceArchiveQuota - failed to remove archived ping" + ping.id
)
);
Telemetry.getHistogramById(
"TELEMETRY_DISCARDED_ARCHIVED_PINGS_SIZE_MB"
).add(Math.floor(fileSize / 1024 / 1024));
Telemetry.getHistogramById(
"TELEMETRY_PING_SIZE_EXCEEDED_ARCHIVED"
).add();
continue;
}
archiveSizeInBytes += fileSize;
if (archiveSizeInBytes < SAFE_QUOTA) {
// We save the index of the last ping which is ok to keep in order to speed up ping
// pruning.
lastPingIndexToKeep = i;
} else if (archiveSizeInBytes > Policy.getArchiveQuota()) {
// Ouch, our ping archive is too big. Bail out and start pruning!
break;
}
}
// Save the time it takes to check if the archive is over-quota.
Telemetry.getHistogramById("TELEMETRY_ARCHIVE_CHECKING_OVER_QUOTA_MS").add(
Math.round(Policy.now().getTime() - startTimeStamp)
);
let submitProbes = (sizeInMB, evictedPings, elapsedMs) => {
Telemetry.getHistogramById("TELEMETRY_ARCHIVE_SIZE_MB").add(sizeInMB);
Telemetry.getHistogramById("TELEMETRY_ARCHIVE_EVICTED_OVER_QUOTA").add(
evictedPings
);
Telemetry.getHistogramById(
"TELEMETRY_ARCHIVE_EVICTING_OVER_QUOTA_MS"
).add(elapsedMs);
};
// Check if we're using too much space. If not, submit the archive size and bail out.
if (archiveSizeInBytes < Policy.getArchiveQuota()) {
submitProbes(Math.round(archiveSizeInBytes / 1024 / 1024), 0, 0);
return;
}
this._log.info(
"_enforceArchiveQuota - archive size: " +
archiveSizeInBytes +
"bytes" +
", safety quota: " +
SAFE_QUOTA +
"bytes"
);
startTimeStamp = Policy.now().getTime();
let pingsToPurge = pingList.slice(lastPingIndexToKeep + 1);
// Remove all the pings older than the last one which we are safe to keep.
for (let ping of pingsToPurge) {
if (this._shutdown) {
this._log.trace(
"_enforceArchiveQuota - Terminating the clean up task due to shutdown"
);
return;
}
// This list is guaranteed to be in order, so remove the pings at its
// beginning (oldest).
await this._removeArchivedPing(ping.id, ping.timestampCreated, ping.type);
}
const endTimeStamp = Policy.now().getTime();
submitProbes(
ARCHIVE_SIZE_PROBE_SPECIAL_VALUE,
pingsToPurge.length,
Math.ceil(endTimeStamp - startTimeStamp)
);
},
async _cleanArchive() {
this._log.trace("cleanArchiveTask");
if (!(await IOUtils.exists(lazy.gPingsArchivePath))) {
return;
}
// Remove pings older than allowed.
try {
await this._purgeOldPings();
} catch (ex) {
this._log.error(
"_cleanArchive - There was an error removing old directories",
ex
);
}
// Make sure we respect the archive disk quota.
await this._enforceArchiveQuota();
},
/**
* Run the task to enforce the pending pings quota.
*
* @return {Promise} Resolved when the cleanup task completes.
*/
async runEnforcePendingPingsQuotaTask() {
// If there's a cleaning task already running, return it.
if (this._enforcePendingPingsQuotaTask) {
return this._enforcePendingPingsQuotaTask;
}
// Since there's no quota enforcing task running, start it.
try {
this._enforcePendingPingsQuotaTask = this._enforcePendingPingsQuota();
await this._enforcePendingPingsQuotaTask;
} finally {
this._enforcePendingPingsQuotaTask = null;
}
return undefined;
},
/**
* Enforce a disk quota for the pending pings.
* @return {Promise} Resolved when the quota check is complete.
*/
async _enforcePendingPingsQuota() {
this._log.trace("_enforcePendingPingsQuota");
let startTimeStamp = Policy.now().getTime();
// Build an ordered list, from newer to older, of pending pings.
let pingList = Array.from(this._pendingPings, p => ({
id: p[0],
lastModified: p[1].lastModified,
}));
pingList.sort((a, b) => b.lastModified - a.lastModified);
// If our pending pings directory is too big, we should reduce it to reach 90% of the quota.
const SAFE_QUOTA = Policy.getPendingPingsQuota() * 0.9;
// The index of the last ping to keep. Pings older than this one will be deleted if
// the pending pings directory size exceeds the quota.
let lastPingIndexToKeep = null;
let pendingPingsSizeInBytes = 0;
// Find the disk size of the pending pings directory.
for (let i = 0; i < pingList.length; i++) {
if (this._shutdown) {
this._log.trace(
"_enforcePendingPingsQuota - Terminating the clean up task due to shutdown"
);
return;
}
let ping = pingList[i];
// Get the size for this ping.
const fileSize = await getPendingPingSize(ping.id);
if (!fileSize) {
this._log.warn(
"_enforcePendingPingsQuota - Unable to find the size of ping " +
ping.id
);
continue;
}
pendingPingsSizeInBytes += fileSize;
if (pendingPingsSizeInBytes < SAFE_QUOTA) {
// We save the index of the last ping which is ok to keep in order to speed up ping
// pruning.
lastPingIndexToKeep = i;
} else if (pendingPingsSizeInBytes > Policy.getPendingPingsQuota()) {
// Ouch, our pending pings directory size is too big. Bail out and start pruning!
break;
}
}
// Save the time it takes to check if the pending pings are over-quota.
Telemetry.getHistogramById("TELEMETRY_PENDING_CHECKING_OVER_QUOTA_MS").add(
Math.round(Policy.now().getTime() - startTimeStamp)
);
let recordHistograms = (sizeInMB, evictedPings, elapsedMs) => {
Telemetry.getHistogramById("TELEMETRY_PENDING_PINGS_SIZE_MB").add(
sizeInMB
);
Telemetry.getHistogramById(
"TELEMETRY_PENDING_PINGS_EVICTED_OVER_QUOTA"
).add(evictedPings);
Telemetry.getHistogramById(
"TELEMETRY_PENDING_EVICTING_OVER_QUOTA_MS"
).add(elapsedMs);
};
// Check if we're using too much space. If not, bail out.
if (pendingPingsSizeInBytes < Policy.getPendingPingsQuota()) {
recordHistograms(Math.round(pendingPingsSizeInBytes / 1024 / 1024), 0, 0);
return;
}
this._log.info(
"_enforcePendingPingsQuota - size: " +
pendingPingsSizeInBytes +
"bytes" +
", safety quota: " +
SAFE_QUOTA +
"bytes"
);
startTimeStamp = Policy.now().getTime();
let pingsToPurge = pingList.slice(lastPingIndexToKeep + 1);
// Remove all the pings older than the last one which we are safe to keep.
for (let ping of pingsToPurge) {
if (this._shutdown) {
this._log.trace(
"_enforcePendingPingsQuota - Terminating the clean up task due to shutdown"
);
return;
}
// This list is guaranteed to be in order, so remove the pings at its
// beginning (oldest).
await this.removePendingPing(ping.id);
}
const endTimeStamp = Policy.now().getTime();
// We don't know the size of the pending pings directory if we are above the quota,
// since we stop scanning once we reach the quota. We use a special value to show
// this condition.
recordHistograms(
PENDING_PINGS_SIZE_PROBE_SPECIAL_VALUE,
pingsToPurge.length,
Math.ceil(endTimeStamp - startTimeStamp)
);
},
/**
* Reset the storage state in tests.
*/
reset() {
this._shutdown = false;
this._scannedArchiveDirectory = false;
this._archivedPings = new Map();
this._scannedPendingDirectory = false;
this._pendingPings = new Map();
},
/**
* Get a list of info on the archived pings.
* This will scan the archive directory and grab basic data about the existing
* pings out of their filename.
*
* @return {promise<sequence<object>>}
*/
async loadArchivedPingList() {
// If there's an archive loading task already running, return it.
if (this._scanArchiveTask) {
return this._scanArchiveTask;
}
await waitForAll(this._activelyArchiving);
if (this._scannedArchiveDirectory) {
this._log.trace(
"loadArchivedPingList - Archive already scanned, hitting cache."
);
return this._archivedPings;
}
// Since there's no archive loading task running, start it.
let result;
try {
this._scanArchiveTask = this._scanArchive();
result = await this._scanArchiveTask;
} finally {
this._scanArchiveTask = null;
}
return result;
},
async _scanArchive() {
this._log.trace("_scanArchive");
let submitProbes = (pingCount, dirCount) => {
Telemetry.getHistogramById("TELEMETRY_ARCHIVE_SCAN_PING_COUNT").add(
pingCount
);
Telemetry.getHistogramById("TELEMETRY_ARCHIVE_DIRECTORIES_COUNT").add(
dirCount
);
};
if (!(await IOUtils.exists(lazy.gPingsArchivePath))) {
submitProbes(0, 0);
return new Map();
}
let subDirCount = 0;
// Walk through the monthly subdirs of the form <YYYY-MM>/
for (const path of await IOUtils.getChildren(lazy.gPingsArchivePath)) {
const info = await IOUtils.stat(path);
if (info.type !== "directory") {
continue;
}
const name = PathUtils.filename(path);
if (!isValidArchiveDir(name)) {
continue;
}
subDirCount++;
this._log.trace(`_scanArchive - checking in subdir: ${path}`);
const pingPaths = [];
for (const ping of await IOUtils.getChildren(path)) {
const info = await IOUtils.stat(ping);
if (info.type !== "directory") {
pingPaths.push(ping);
}
}
// Now process any ping files of the form "<timestamp>.<uuid>.<type>.[json|jsonlz4]".
for (const path of pingPaths) {
const filename = PathUtils.filename(path);
// data may be null if the filename doesn't match the above format.
let data = this._getArchivedPingDataFromFileName(filename);
if (!data) {
continue;
}
// In case of conflicts, overwrite only with newer pings.
if (this._archivedPings.has(data.id)) {
const overwrite =
data.timestamp > this._archivedPings.get(data.id).timestampCreated;
this._log.warn(
`_scanArchive - have seen this id before: ${data.id}, overwrite: ${overwrite}`
);
if (!overwrite) {
continue;
}
await this._removeArchivedPing(
data.id,
data.timestampCreated,
data.type
).catch(e =>
this._log.warn("_scanArchive - failed to remove ping", e)
);
}
this._archivedPings.set(data.id, {
timestampCreated: data.timestamp,
type: internString(data.type),
});
}
}
// Mark the archive as scanned, so we no longer hit the disk.
this._scannedArchiveDirectory = true;
// Update the ping and directories count histograms.
submitProbes(this._archivedPings.size, subDirCount);
return this._archivedPings;
},
/**
* Save a single ping to a file.
*
* @param {object} ping The content of the ping to save.
* @param {string} file The destination file.
* @param {bool} overwrite If |true|, the file will be overwritten if it exists,
* if |false| the file will not be overwritten and no error will be reported if
* the file exists.
* @param {bool} [compress=false] If |true|, the file will use lz4 compression. Otherwise no
* compression will be used.
* @returns {promise}
*/
async savePingToFile(ping, filePath, overwrite, compress = false) {
try {
this._log.trace("savePingToFile - path: " + filePath);
await IOUtils.writeJSON(filePath, ping, {
compress,
mode: overwrite ? "overwrite" : "create",
tmpPath: `${filePath}.tmp`,
});
} catch (e) {
if (
!DOMException.isInstance(e) ||
e.name !== "NoModificationAllowedError"
) {
throw e;
}
}
},
/**
* Save a ping to its file.
*
* @param {object} ping The content of the ping to save.
* @param {bool} overwrite If |true|, the file will be overwritten
* if it exists.
* @returns {promise}
*/
async savePing(ping, overwrite) {
await getPingDirectory();
let file = pingFilePath(ping);
await this.savePingToFile(ping, file, overwrite);
return file;
},
/**
* Remove the file for a ping
*
* @param {object} ping The ping.
* @returns {promise}
*/
cleanupPingFile(ping) {
return IOUtils.remove(pingFilePath(ping));
},
savePendingPing(ping) {
let p = this.savePing(ping, true).then(path => {
this._pendingPings.set(ping.id, {
path,
lastModified: Policy.now().getTime(),
});
this._log.trace("savePendingPing - saved ping with id " + ping.id);
});
this._trackPendingPingSaveTask(p);
return p;
},
async loadPendingPing(id) {
this._log.trace("loadPendingPing - id: " + id);
let info = this._pendingPings.get(id);
if (!info) {
this._log.trace("loadPendingPing - unknown id " + id);
throw new Error(
"TelemetryStorage.loadPendingPing - no ping with id " + id
);
}
// Try to get the dimension of the ping. If that fails, update the histograms.
let fileSize = 0;
try {
fileSize = await IOUtils.stat(info.path).then(stat => stat.size);
} catch (e) {
if (!DOMException.isInstance(e) || e.name !== "NotFoundError") {
throw e;
}
// Fall through and let |loadPingFile| report the error.
}
// Purge pings which are too big.
if (fileSize > PING_FILE_MAXIMUM_SIZE_BYTES) {
await this.removePendingPing(id);
Telemetry.getHistogramById(
"TELEMETRY_DISCARDED_PENDING_PINGS_SIZE_MB"
).add(Math.floor(fileSize / 1024 / 1024));
Telemetry.getHistogramById("TELEMETRY_PING_SIZE_EXCEEDED_PENDING").add();
// Currently we don't have the ping type available without loading the ping from disk.
lazy.TelemetryHealthPing.recordDiscardedPing("<unknown>");
throw new Error(
"loadPendingPing - exceeded the maximum ping size: " + fileSize
);
}
// Try to load the ping file. Update the related histograms on failure.
let ping;
try {
ping = await this.loadPingFile(info.path, false);
} catch (e) {
// If we failed to load the ping, check what happened and update the histogram.
if (e instanceof PingReadError) {
Telemetry.getHistogramById("TELEMETRY_PENDING_LOAD_FAILURE_READ").add();
} else if (e instanceof PingParseError) {
Telemetry.getHistogramById(
"TELEMETRY_PENDING_LOAD_FAILURE_PARSE"
).add();
}
// Remove the ping from the cache, so we don't try to load it again.
this._pendingPings.delete(id);
// Then propagate the rejection.
throw e;
}
return ping;
},
removePendingPing(id) {
let info = this._pendingPings.get(id);
if (!info) {
this._log.trace("removePendingPing - unknown id " + id);
return Promise.resolve();
}
this._log.trace(
"removePendingPing - deleting ping with id: " +
id +
", path: " +
info.path
);
this._pendingPings.delete(id);
return IOUtils.remove(info.path).catch(ex =>
this._log.error("removePendingPing - failed to remove ping", ex)
);
},
/**
* Track any pending ping save tasks through the promise passed here.
* This is needed to block on any outstanding ping save activity.
*
* @param {Object<Promise>} The save promise to track.
*/
_trackPendingPingSaveTask(promise) {
let clear = () => this._activePendingPingSaves.delete(promise);
promise.then(clear, clear);
this._activePendingPingSaves.add(promise);
},
/**
* Return a promise that allows to wait on pending pings being saved.
* @return {Object<Promise>} A promise resolved when all the pending pings save promises
* are resolved.
*/
promisePendingPingSaves() {
// Make sure to wait for all the promises, even if they reject. We don't need to log
// the failures here, as they are already logged elsewhere.
return waitForAll(this._activePendingPingSaves);
},
/**
* Run the task to remove all the pending pings
*
* @return {Promise} Resolved when the pings are removed.
*/
async runRemovePendingPingsTask() {
// If we already have a pending pings removal task active, return that.
if (this._removePendingPingsTask) {
return this._removePendingPingsTask;
}
// Start the task to remove all pending pings. Also make sure to clear the task once done.
try {
this._removePendingPingsTask = this.removePendingPings();
await this._removePendingPingsTask;
} finally {
this._removePendingPingsTask = null;
}
return undefined;
},
async removePendingPings() {
this._log.trace("removePendingPings - removing all pending pings");
// Wait on pending pings still being saved, so so we don't miss removing them.
await this.promisePendingPingSaves();
// Individually remove existing pings, so we don't interfere with operations expecting
// the pending pings directory to exist.
const directory = TelemetryStorage.pingDirectoryPath;
if (!(await IOUtils.exists(directory))) {
this._log.trace(
"removePendingPings - the pending pings directory doesn't exist"
);
return;
}
for (const path of await IOUtils.getChildren(directory)) {
let info;
try {
info = await IOUtils.stat(path);
} catch (ex) {
// It is possible there is another task removing a ping in between
// reading the directory and calling stat.
//
// On Windows, attempting to call GetFileAttributesEx() on a file
// pending deletion will result in ERROR_ACCESS_DENIED, which will
// propagate to here as a NotAllowedError.
if (
DOMException.isInstance(ex) &&
(ex.name === "NotFoundError" || ex.name === "NotAllowedError")
) {
continue;
}
throw ex;
}
if (info.type === "directory") {
continue;
}
try {
await IOUtils.remove(path);
} catch (ex) {
this._log.error(
`removePendingPings - failed to remove file ${path}`,
ex
);
continue;
}
}
},
/**
* Iterate through all pings in the userApplicationDataDir under the "Pending Pings" sub-directory
* and yield each file.
*/
async *_iterateAppDataPings() {
this._log.trace("_iterateAppDataPings");
let uAppDataDir;
try {
uAppDataDir = Services.dirsvc.get("UAppData", Ci.nsIFile);
} catch (ex) {
// The test suites might not create and define the "UAppData" directory.
// We account for that here instead of manually going through each test using
// telemetry to manually create the directory and define the constant.
this._log.trace(
"_iterateAppDataPings - userApplicationDataDir is not defined. Is this a test?"
);
return;
}
const appDataPendingPings = PathUtils.join(
uAppDataDir.path,
"Pending Pings"
);
// Check if appDataPendingPings exists and bail out if it doesn't.
if (!(await IOUtils.exists(appDataPendingPings))) {
this._log.trace(
"_iterateAppDataPings - the AppData pending pings directory doesn't exist."
);
return;
}
// Iterate through the pending ping files.
for (const path of await IOUtils.getChildren(appDataPendingPings)) {
const info = await IOUtils.stat(path);
if (info.type !== "directory") {
yield path;
}
}
},
/**
* Remove all pings that are stored in the userApplicationDataDir
* under the "Pending Pings" sub-directory.
*/
async removeAppDataPings() {
this._log.trace("removeAppDataPings");
for await (const path of this._iterateAppDataPings()) {
try {
await IOUtils.remove(path);
} catch (ex) {
this._log.error(
`removeAppDataPings - failed to remove file ${path}`,
ex
);
}
}
},
/**
* Migrate pings that are stored in the userApplicationDataDir
* under the "Pending Pings" sub-directory.
*/
async _migrateAppDataPings() {
this._log.trace("_migrateAppDataPings");
for await (const path of this._iterateAppDataPings()) {
try {
// Load the ping data from the original file.
const pingData = await this.loadPingFile(path);
// Save it among the pending pings in the user profile, overwrite on
// ping id collision.
await TelemetryStorage.savePing(pingData, true);
} catch (ex) {
this._log.error(
`_migrateAppDataPings - failed to load or migrate file. Removing ${path}`,
ex
);
}
try {
// Finally remove the file.
await IOUtils.remove(path);
} catch (ex) {
this._log.error(
`_migrateAppDataPings - failed to remove file ${path}`,
ex
);
}
}
},
loadPendingPingList() {
// If we already have a pending scanning task active, return that.
if (this._scanPendingPingsTask) {
return this._scanPendingPingsTask;
}
if (this._scannedPendingDirectory) {
this._log.trace(
"loadPendingPingList - Pending already scanned, hitting cache."
);
return Promise.resolve(this._buildPingList());
}
// Since there's no pending pings scan task running, start it.
// Also make sure to clear the task once done.
this._scanPendingPingsTask = this._scanPendingPings().then(
pings => {
this._scanPendingPingsTask = null;
return pings;
},
ex => {
this._scanPendingPingsTask = null;
throw ex;
}
);
return this._scanPendingPingsTask;
},
getPendingPingList() {
return this._buildPingList();
},
async _scanPendingPings() {
this._log.trace("_scanPendingPings");
// Before pruning the pending pings, migrate over the ones from the user
// application data directory (mainly crash pings that failed to be sent).
await this._migrateAppDataPings();
const directory = TelemetryStorage.pingDirectoryPath;
if (!(await IOUtils.exists(directory))) {
return [];
}
const files = [];
for (const path of await IOUtils.getChildren(directory)) {
if (this._shutdown) {
return [];
}
try {
const info = await IOUtils.stat(path);
if (info.type !== "directory") {
files.push({ path, info });
}
} catch (ex) {
this._log.error(`_scanPendingPings - failed to stat file ${path}`, ex);
continue;
}
}
for (const { path, info } of files) {
if (this._shutdown) {
return [];
}
// Enforce a maximum file size limit on pending pings.
if (info.size > PING_FILE_MAXIMUM_SIZE_BYTES) {
this._log.error(
`_scanPendingPings - removing file exceeding size limit ${path}`
);
try {
await IOUtils.remove(path);
} catch (ex) {
this._log.error(
`_scanPendingPings - failed to remove file ${path}`,
ex
);
} finally {
Telemetry.getHistogramById(
"TELEMETRY_DISCARDED_PENDING_PINGS_SIZE_MB"
).add(Math.floor(info.size / 1024 / 1024));
Telemetry.getHistogramById(
"TELEMETRY_PING_SIZE_EXCEEDED_PENDING"
).add();
// Currently we don't have the ping type available without loading the ping from disk.
lazy.TelemetryHealthPing.recordDiscardedPing("<unknown>");
}
continue;
}
let id = PathUtils.filename(path);
if (!UUID_REGEX.test(id)) {
this._log.trace(`_scanPendingPings - filename is not a UUID: ${id}`);
id = Utils.generateUUID();
}
this._pendingPings.set(id, {
path,
lastModified: info.lastModified,
});
}
this._scannedPendingDirectory = true;
return this._buildPingList();
},
_buildPingList() {
const list = Array.from(this._pendingPings, p => ({
id: p[0],
lastModified: p[1].lastModified,
}));
list.sort((a, b) => b.lastModified - a.lastModified);
return list;
},
/**
* Loads a ping file.
* @param {String} aFilePath The path of the ping file.
* @param {Boolean} [aCompressed=false] If |true|, expects the file to be compressed using lz4.
* @return {Promise<Object>} A promise resolved with the ping content or rejected if the
* ping contains invalid data.
* @throws {PingReadError} There was an error while reading the ping file from the disk.
* @throws {PingParseError} There was an error while parsing the JSON content of the ping file.
*/
async loadPingFile(aFilePath, aCompressed = false) {
let rawPing;
try {
rawPing = await IOUtils.readUTF8(aFilePath, { decompress: aCompressed });
} catch (e) {
this._log.trace(`loadPingfile - unreadable ping ${aFilePath}`, e);
throw new PingReadError(
e.message,
DOMException.isInstance(e) && e.name === "NotFoundError"
);
}
let ping;
try {
ping = JSON.parse(rawPing);
} catch (e) {
this._log.trace(`loadPingfile - unparseable ping ${aFilePath}`, e);
await IOUtils.remove(aFilePath).catch(ex => {
this._log.error(
`loadPingFile - failed removing unparseable ping file ${aFilePath}`,
ex
);
});
throw new PingParseError(e.message);
}
return ping;
},
/**
* Archived pings are saved with file names of the form:
* "<timestamp>.<uuid>.<type>.[json|jsonlz4]"
* This helper extracts that data from a given filename.
*
* @param fileName {String} The filename.
* @return {Object} Null if the filename didn't match the expected form.
* Otherwise an object with the extracted data in the form:
* { timestamp: <number>,
* id: <string>,
* type: <string> }
*/
_getArchivedPingDataFromFileName(fileName) {
// Extract the parts.
let parts = fileName.split(".");
if (parts.length != 4) {
this._log.trace("_getArchivedPingDataFromFileName - should have 4 parts");
return null;
}
let [timestamp, uuid, type, extension] = parts;
if (extension != "json" && extension != "jsonlz4") {
this._log.trace(
"_getArchivedPingDataFromFileName - should have 'json' or 'jsonlz4' extension"
);
return null;
}
// Check for a valid timestamp.
timestamp = parseInt(timestamp);
if (Number.isNaN(timestamp)) {
this._log.trace(
"_getArchivedPingDataFromFileName - should have a valid timestamp"
);
return null;
}
// Check for a valid UUID.
if (!UUID_REGEX.test(uuid)) {
this._log.trace(
"_getArchivedPingDataFromFileName - should have a valid id"
);
return null;
}
// Check for a valid type string.
const typeRegex = /^[a-z0-9][a-z0-9-]+[a-z0-9]$/i;
if (!typeRegex.test(type)) {
this._log.trace(
"_getArchivedPingDataFromFileName - should have a valid type"
);
return null;
}
return {
timestamp,
id: uuid,
type,
};
},
async saveAbortedSessionPing(ping) {
this._log.trace(
"saveAbortedSessionPing - ping path: " + lazy.gAbortedSessionFilePath
);
await IOUtils.makeDirectory(lazy.gDataReportingDir);
return this._abortedSessionSerializer.enqueueTask(() =>
this.savePingToFile(ping, lazy.gAbortedSessionFilePath, true)
);
},
async loadAbortedSessionPing() {
let ping = null;
try {
ping = await this.loadPingFile(lazy.gAbortedSessionFilePath);
} catch (ex) {
if (ex.becauseNoSuchFile) {
this._log.trace("loadAbortedSessionPing - no such file");
} else {
this._log.error("loadAbortedSessionPing - error loading ping", ex);
}
}
return ping;
},
removeAbortedSessionPing() {
return this._abortedSessionSerializer.enqueueTask(async () => {
try {
await IOUtils.remove(lazy.gAbortedSessionFilePath, {
ignoreAbsent: false,
});
this._log.trace("removeAbortedSessionPing - success");
} catch (ex) {
if (DOMException.isInstance(ex) && ex.name === "NotFoundError") {
this._log.trace("removeAbortedSessionPing - no such file");
} else {
this._log.error("removeAbortedSessionPing - error removing ping", ex);
}
}
});
},
async saveUninstallPing(ping) {
if (AppConstants.platform != "win") {
return;
}
// Remove any old pings from this install first.
await this.removeUninstallPings();
let { directory: pingFile, file } = Policy.getUninstallPingPath(ping.id);
pingFile.append(file);
await this.savePingToFile(ping, pingFile.path, /* overwrite */ true);
},
async removeUninstallPings() {
if (AppConstants.platform != "win") {
return;
}
const { directory, file } = Policy.getUninstallPingPath("*");
const [prefix, suffix] = file.split("*");
for (const path of await IOUtils.getChildren(directory.path)) {
const filename = PathUtils.filename(path);
if (!filename.startsWith(prefix) || !filename.endsWith(suffix)) {
continue;
}
this._log.trace("removeUninstallPings - removing", path);
try {
await IOUtils.remove(path);
this._log.trace("removeUninstallPings - success");
} catch (ex) {
if (DOMException.isInstance(ex) && ex.name === "NotFoundError") {
this._log.trace("removeUninstallPings - no such file");
} else {
this._log.error("removeUninstallPings - error removing ping", ex);
}
}
}
},
/**
* Remove FHR database files. This is temporary and will be dropped in
* the future.
* @return {Promise} Resolved when the database files are deleted.
*/
async removeFHRDatabase() {
this._log.trace("removeFHRDatabase");
// Let's try to remove the FHR DB with the default filename first.
const FHR_DB_DEFAULT_FILENAME = "healthreport.sqlite";
// Even if it's uncommon, there may be 2 additional files: - a "write ahead log"
// (-wal) file and a "shared memory file" (-shm). We need to remove them as well.
let FILES_TO_REMOVE = [
PathUtils.join(PathUtils.profileDir, FHR_DB_DEFAULT_FILENAME),
PathUtils.join(PathUtils.profileDir, FHR_DB_DEFAULT_FILENAME + "-wal"),
PathUtils.join(PathUtils.profileDir, FHR_DB_DEFAULT_FILENAME + "-shm"),
];
// FHR could have used either the default DB file name or a custom one
// through this preference.
const FHR_DB_CUSTOM_FILENAME = Services.prefs.getStringPref(
"datareporting.healthreport.dbName",
undefined
);
if (FHR_DB_CUSTOM_FILENAME) {
FILES_TO_REMOVE.push(
PathUtils.join(PathUtils.profileDir, FHR_DB_CUSTOM_FILENAME),
PathUtils.join(PathUtils.profileDir, FHR_DB_CUSTOM_FILENAME + "-wal"),
PathUtils.join(PathUtils.profileDir, FHR_DB_CUSTOM_FILENAME + "-shm")
);
}
for (let f of FILES_TO_REMOVE) {
await IOUtils.remove(f).catch(e =>
this._log.error(`removeFHRDatabase - failed to remove ${f}`, e)
);
}
},
};
// Utility functions
function pingFilePath(ping) {
// Support legacy ping formats, who don't have an "id" field, but a "slug" field.
let pingIdentifier = ping.slug ? ping.slug : ping.id;
if (typeof pingIdentifier === "undefined" || pingIdentifier === null) {
throw new Error(
"Incompatible ping format -- ping has no slug or id attribute"
);
}
return PathUtils.join(TelemetryStorage.pingDirectoryPath, pingIdentifier);
}
function getPingDirectory() {
return (async function () {
let directory = TelemetryStorage.pingDirectoryPath;
if (!(await IOUtils.exists(directory))) {
await IOUtils.makeDirectory(directory, { permissions: 0o700 });
}
return directory;
})();
}
/**
* Build the path to the archived ping.
* @param {String} aPingId The ping id.
* @param {Object} aDate The ping creation date.
* @param {String} aType The ping type.
* @return {String} The full path to the archived ping.
*/
function getArchivedPingPath(aPingId, aDate, aType) {
// Get the ping creation date and generate the archive directory to hold it. Note
// that getMonth returns a 0-based month, so we need to add an offset.
let month = String(aDate.getMonth() + 1);
let archivedPingDir = PathUtils.join(
lazy.gPingsArchivePath,
aDate.getFullYear() + "-" + month.padStart(2, "0")
);
// Generate the archived ping file path as YYYY-MM/<TIMESTAMP>.UUID.type.json
let fileName = [aDate.getTime(), aPingId, aType, "json"].join(".");
return PathUtils.join(archivedPingDir, fileName);
}
/**
* Get the size of the ping file on the disk.
* @return {Integer} The file size, in bytes, of the ping file or 0 on errors.
*/
var getArchivedPingSize = async function (aPingId, aDate, aType) {
const path = getArchivedPingPath(aPingId, aDate, aType);
let filePaths = [path + "lz4", path];
for (let path of filePaths) {
try {
return (await IOUtils.stat(path)).size;
} catch (e) {}
}
// That's odd, this ping doesn't seem to exist.
return 0;
};
/**
* Get the size of the pending ping file on the disk.
* @return {Integer} The file size, in bytes, of the ping file or 0 on errors.
*/
var getPendingPingSize = async function (aPingId) {
const path = PathUtils.join(TelemetryStorage.pingDirectoryPath, aPingId);
try {
return (await IOUtils.stat(path)).size;
} catch (e) {}
// That's odd, this ping doesn't seem to exist.
return 0;
};
/**
* Check if a directory name is in the "YYYY-MM" format.
* @param {String} aDirName The name of the pings archive directory.
* @return {Boolean} True if the directory name is in the right format, false otherwise.
*/
function isValidArchiveDir(aDirName) {
const dirRegEx = /^[0-9]{4}-[0-9]{2}$/;
return dirRegEx.test(aDirName);
}
/**
* Gets a date object from an archive directory name.
* @param {String} aDirName The name of the pings archive directory. Must be in the YYYY-MM
* format.
* @return {Object} A Date object or null if the dir name is not valid.
*/
function getDateFromArchiveDir(aDirName) {
let [year, month] = aDirName.split("-");
year = parseInt(year);
month = parseInt(month);
// Make sure to have sane numbers.
if (
!Number.isFinite(month) ||
!Number.isFinite(year) ||
month < 1 ||
month > 12
) {
return null;
}
return new Date(year, month - 1, 1, 0, 0, 0);
}