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|
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/*
* This module runs the automated heuristics to enable/disable DoH on different
* networks. Heuristics are run at startup and upon network changes.
* Heuristics are disabled if the user sets their DoH provider or mode manually.
*/
import { XPCOMUtils } from "resource://gre/modules/XPCOMUtils.sys.mjs";
const lazy = {};
ChromeUtils.defineESModuleGetters(lazy, {
AsyncShutdown: "resource://gre/modules/AsyncShutdown.sys.mjs",
ClientID: "resource://gre/modules/ClientID.sys.mjs",
DoHConfigController: "resource:///modules/DoHConfig.sys.mjs",
ExperimentAPI: "resource://nimbus/ExperimentAPI.sys.mjs",
Heuristics: "resource:///modules/DoHHeuristics.sys.mjs",
NimbusFeatures: "resource://nimbus/ExperimentAPI.sys.mjs",
Preferences: "resource://gre/modules/Preferences.sys.mjs",
clearTimeout: "resource://gre/modules/Timer.sys.mjs",
setTimeout: "resource://gre/modules/Timer.sys.mjs",
});
// When this is set we suppress automatic TRR selection beyond dry-run as well
// as sending observer notifications during heuristics throttling.
XPCOMUtils.defineLazyPreferenceGetter(
lazy,
"kIsInAutomation",
"doh-rollout._testing",
false
);
// We wait until the network has been stably up for this many milliseconds
// before triggering a heuristics run.
XPCOMUtils.defineLazyPreferenceGetter(
lazy,
"kNetworkDebounceTimeout",
"doh-rollout.network-debounce-timeout",
1000
);
// If consecutive heuristics runs are attempted within this period after a first,
// we suppress them for this duration, at the end of which point we decide whether
// to do one coalesced run or to extend the timer if the rate limit was exceeded.
// Note that the very first run is allowed, after which we start the timer.
// This throttling is necessary due to evidence of clients that experience
// network volatility leading to thousands of runs per hour. See bug 1626083.
XPCOMUtils.defineLazyPreferenceGetter(
lazy,
"kHeuristicsThrottleTimeout",
"doh-rollout.heuristics-throttle-timeout",
15000
);
// After the throttle timeout described above, if there are more than this many
// heuristics attempts during the timeout, we restart the timer without running
// heuristics. Thus, heuristics are suppressed completely as long as the rate
// exceeds this limit.
XPCOMUtils.defineLazyPreferenceGetter(
lazy,
"kHeuristicsRateLimit",
"doh-rollout.heuristics-throttle-rate-limit",
2
);
XPCOMUtils.defineLazyServiceGetter(
lazy,
"gCaptivePortalService",
"@mozilla.org/network/captive-portal-service;1",
"nsICaptivePortalService"
);
XPCOMUtils.defineLazyServiceGetter(
lazy,
"gNetworkLinkService",
"@mozilla.org/network/network-link-service;1",
"nsINetworkLinkService"
);
// Stores whether we've done first-run.
const FIRST_RUN_PREF = "doh-rollout.doneFirstRun";
// Set when we detect that the user set their DoH provider or mode manually.
// If set, we don't run heuristics.
const DISABLED_PREF = "doh-rollout.disable-heuristics";
// Set when we detect either a non-DoH enterprise policy, or a DoH policy that
// tells us to disable it. This pref's effect is to suppress the opt-out CFR.
const SKIP_HEURISTICS_PREF = "doh-rollout.skipHeuristicsCheck";
// Whether to clear doh-rollout.mode on shutdown. When false, the mode value
// that exists at shutdown will be used at startup until heuristics re-run.
const CLEAR_ON_SHUTDOWN_PREF = "doh-rollout.clearModeOnShutdown";
const BREADCRUMB_PREF = "doh-rollout.self-enabled";
// Necko TRR prefs to watch for user-set values.
const NETWORK_TRR_MODE_PREF = "network.trr.mode";
const NETWORK_TRR_URI_PREF = "network.trr.uri";
const ROLLOUT_MODE_PREF = "doh-rollout.mode";
const ROLLOUT_URI_PREF = "doh-rollout.uri";
const TRR_SELECT_DRY_RUN_RESULT_PREF =
"doh-rollout.trr-selection.dry-run-result";
const NATIVE_FALLBACK_WARNING_PREF = "network.trr.display_fallback_warning";
const NATIVE_FALLBACK_WARNING_HEURISTIC_LIST_PREF =
"network.trr.fallback_warning_heuristic_list";
const HEURISTICS_TELEMETRY_CATEGORY = "doh";
const TRRSELECT_TELEMETRY_CATEGORY = "security.doh.trrPerformance";
const kLinkStatusChangedTopic = "network:link-status-changed";
const kConnectivityTopic = "network:captive-portal-connectivity-changed";
const kPrefChangedTopic = "nsPref:changed";
// Helper function to hash the network ID concatenated with telemetry client ID.
// This prevents us from being able to tell if 2 clients are on the same network.
function getHashedNetworkID() {
let currentNetworkID = lazy.gNetworkLinkService.networkID;
if (!currentNetworkID) {
return "";
}
let hasher = Cc["@mozilla.org/security/hash;1"].createInstance(
Ci.nsICryptoHash
);
hasher.init(Ci.nsICryptoHash.SHA256);
// Concat the client ID with the network ID before hashing.
let clientNetworkID = lazy.ClientID.getClientID() + currentNetworkID;
hasher.update(
clientNetworkID.split("").map(c => c.charCodeAt(0)),
clientNetworkID.length
);
return hasher.finish(true);
}
export const DoHController = {
_heuristicsAreEnabled: false,
async init() {
Services.telemetry.setEventRecordingEnabled(
HEURISTICS_TELEMETRY_CATEGORY,
true
);
Services.telemetry.setEventRecordingEnabled(
TRRSELECT_TELEMETRY_CATEGORY,
true
);
await lazy.DoHConfigController.initComplete;
Services.obs.addObserver(this, lazy.DoHConfigController.kConfigUpdateTopic);
lazy.Preferences.observe(NETWORK_TRR_MODE_PREF, this);
lazy.Preferences.observe(NETWORK_TRR_URI_PREF, this);
lazy.Preferences.observe(NATIVE_FALLBACK_WARNING_PREF, this);
lazy.Preferences.observe(NATIVE_FALLBACK_WARNING_HEURISTIC_LIST_PREF, this);
if (lazy.DoHConfigController.currentConfig.enabled) {
await this.maybeEnableHeuristics();
} else if (lazy.Preferences.get(FIRST_RUN_PREF, false)) {
await this.rollback();
}
this._asyncShutdownBlocker = async () => {
await this.disableHeuristics("shutdown");
};
lazy.AsyncShutdown.profileBeforeChange.addBlocker(
"DoHController: clear state and remove observers",
this._asyncShutdownBlocker
);
lazy.Preferences.set(FIRST_RUN_PREF, true);
},
// Also used by tests to reset DoHController state (prefs are not cleared
// here - tests do that when needed between _uninit and init).
async _uninit() {
Services.obs.removeObserver(
this,
lazy.DoHConfigController.kConfigUpdateTopic
);
lazy.Preferences.ignore(NETWORK_TRR_MODE_PREF, this);
lazy.Preferences.ignore(NETWORK_TRR_URI_PREF, this);
lazy.AsyncShutdown.profileBeforeChange.removeBlocker(
this._asyncShutdownBlocker
);
await this.disableHeuristics("shutdown");
},
// Called to reset state when a new config is available.
resetPromise: Promise.resolve(),
async reset() {
this.resetPromise = this.resetPromise.then(async () => {
await this._uninit();
await this.init();
Services.obs.notifyObservers(null, "doh:controller-reloaded");
});
return this.resetPromise;
},
// The "maybe" is because there are two cases when we don't enable heuristics:
// 1. If we detect that TRR mode or URI have user values, or we previously
// detected this (i.e. DISABLED_PREF is true)
// 2. If there are any non-DoH enterprise policies active
async maybeEnableHeuristics() {
if (lazy.Preferences.get(DISABLED_PREF)) {
return;
}
let policyResult = await lazy.Heuristics.checkEnterprisePolicy();
if (["policy_without_doh", "disable_doh"].includes(policyResult)) {
await this.setState("policyDisabled");
lazy.Preferences.set(SKIP_HEURISTICS_PREF, true);
return;
}
lazy.Preferences.reset(SKIP_HEURISTICS_PREF);
if (
lazy.Preferences.isSet(NETWORK_TRR_MODE_PREF) ||
lazy.Preferences.isSet(NETWORK_TRR_URI_PREF)
) {
await this.setState("manuallyDisabled");
lazy.Preferences.set(DISABLED_PREF, true);
return;
}
await this.runTRRSelection();
// If we enter this branch it means that no automatic selection was possible.
// In this case, we try to set a fallback (as defined by DoHConfigController).
if (!lazy.Preferences.isSet(ROLLOUT_URI_PREF)) {
let uri = lazy.DoHConfigController.currentConfig.fallbackProviderURI;
// If part of the treatment branch use the URL from the experiment.
try {
let ohttpURI = lazy.NimbusFeatures.dooh.getVariable("ohttpUri");
if (ohttpURI) {
uri = ohttpURI;
}
} catch (e) {
console.error(`Error getting dooh.ohttpURI: ${e.message}`);
}
lazy.Preferences.set(ROLLOUT_URI_PREF, uri || "");
}
this.runHeuristicsThrottled("startup");
Services.obs.addObserver(this, kLinkStatusChangedTopic);
Services.obs.addObserver(this, kConnectivityTopic);
this._heuristicsAreEnabled = true;
},
_runsWhileThrottling: 0,
_wasThrottleExtended: false,
_throttleHeuristics() {
if (lazy.kHeuristicsThrottleTimeout < 0) {
// Skip throttling in tests that set timeout to a negative value.
return false;
}
if (this._throttleTimer) {
// Already throttling - nothing to do.
this._runsWhileThrottling++;
return true;
}
this._runsWhileThrottling = 0;
this._throttleTimer = lazy.setTimeout(
this._handleThrottleTimeout.bind(this),
lazy.kHeuristicsThrottleTimeout
);
return false;
},
_handleThrottleTimeout() {
delete this._throttleTimer;
if (this._runsWhileThrottling > lazy.kHeuristicsRateLimit) {
// During the throttle period, we saw that the rate limit was exceeded.
// We extend the throttle period, and don't bother running heuristics yet.
this._wasThrottleExtended = true;
// Restart the throttle timer.
this._throttleHeuristics();
if (lazy.kIsInAutomation) {
Services.obs.notifyObservers(null, "doh:heuristics-throttle-extend");
}
return;
}
// If this was an extended throttle and there were no runs during the
// extended period, we still want to run heuristics, since the extended
// throttle implies we had a non-zero number of attempts before extension.
if (this._runsWhileThrottling > 0 || this._wasThrottleExtended) {
this.runHeuristicsThrottled("throttled");
}
this._wasThrottleExtended = false;
if (lazy.kIsInAutomation) {
Services.obs.notifyObservers(null, "doh:heuristics-throttle-done");
}
},
runHeuristicsThrottled(evaluateReason) {
// _throttleHeuristics returns true if we've already witnessed a run and the
// timeout period hasn't lapsed yet. If it does so, we suppress this run.
if (this._throttleHeuristics()) {
return;
}
// _throttleHeuristics returned false - we're good to run heuristics.
// At this point the timer has been started and subsequent calls will be
// suppressed if it hasn't fired yet.
this.runHeuristics(evaluateReason);
},
async runHeuristics(evaluateReason) {
let start = Date.now();
let results = await lazy.Heuristics.run();
if (
!lazy.gNetworkLinkService.isLinkUp ||
this._lastDebounceTimestamp > start ||
lazy.gCaptivePortalService.state ==
lazy.gCaptivePortalService.LOCKED_PORTAL
) {
// If the network is currently down or there was a debounce triggered
// while we were running heuristics, it means the network fluctuated
// during this heuristics run. We simply discard the results in this case.
// Same thing if there was another heuristics run triggered or if we have
// detected a locked captive portal while this one was ongoing.
return;
}
let decision = Object.values(results).includes(lazy.Heuristics.DISABLE_DOH)
? lazy.Heuristics.DISABLE_DOH
: lazy.Heuristics.ENABLE_DOH;
let getCaptiveStateString = () => {
switch (lazy.gCaptivePortalService.state) {
case lazy.gCaptivePortalService.NOT_CAPTIVE:
return "not_captive";
case lazy.gCaptivePortalService.UNLOCKED_PORTAL:
return "unlocked";
case lazy.gCaptivePortalService.LOCKED_PORTAL:
return "locked";
default:
return "unknown";
}
};
let resultsForTelemetry = {
evaluateReason,
steeredProvider: "",
captiveState: getCaptiveStateString(),
// NOTE: This might not yet be available after a network change. We mainly
// care about the startup case though - we want to look at whether the
// heuristics result is consistent for networkIDs often seen at startup.
// TODO: Use this data to implement cached results to use early at startup.
networkID: getHashedNetworkID(),
};
const oHTTPexperiment = lazy.ExperimentAPI.getExperimentMetaData({
featureId: "dooh",
});
// When the OHTTP experiment is active we don't want to enable steering.
if (results.steeredProvider && !oHTTPexperiment) {
Services.dns.setDetectedTrrURI(results.steeredProvider.uri);
resultsForTelemetry.steeredProvider = results.steeredProvider.id;
}
this.setHeuristicResult(Ci.nsITRRSkipReason.TRR_UNSET);
if (decision === lazy.Heuristics.DISABLE_DOH) {
let fallbackHeuristicTripped = undefined;
if (lazy.Preferences.get(NATIVE_FALLBACK_WARNING_PREF, false)) {
let heuristics = lazy.Preferences.get(
NATIVE_FALLBACK_WARNING_HEURISTIC_LIST_PREF,
""
).split(",");
for (let [heuristicName, result] of Object.entries(results)) {
if (result !== lazy.Heuristics.DISABLE_DOH) {
continue;
}
if (heuristics.includes(heuristicName)) {
fallbackHeuristicTripped = heuristicName;
break;
}
}
}
// If none of the fallback heuristics failed, the detection result will be TRR_OK
// Otherwise it will be the skip reason for the failed heuristic.
let heuristicSkipReason = Ci.nsITRRSkipReason.TRR_OK;
if (fallbackHeuristicTripped != undefined) {
heuristicSkipReason = lazy.Heuristics.heuristicNameToSkipReason(
fallbackHeuristicTripped
);
}
this.setHeuristicResult(heuristicSkipReason);
await this.setState("disabled");
} else {
await this.setState("enabled");
}
// For telemetry, we group the heuristics results into three categories.
// Only heuristics with a DISABLE_DOH result are included.
// Each category is finally included in the event as a comma-separated list.
let canaries = [];
let filtering = [];
let enterprise = [];
let platform = [];
for (let [heuristicName, result] of Object.entries(results)) {
if (result !== lazy.Heuristics.DISABLE_DOH) {
continue;
}
if (["canary", "zscalerCanary"].includes(heuristicName)) {
canaries.push(heuristicName);
} else if (
["browserParent", "google", "youtube"].includes(heuristicName)
) {
filtering.push(heuristicName);
} else if (
["policy", "modifiedRoots", "thirdPartyRoots"].includes(heuristicName)
) {
enterprise.push(heuristicName);
} else if (["vpn", "proxy", "nrpt"].includes(heuristicName)) {
platform.push(heuristicName);
}
}
resultsForTelemetry.canaries = canaries.join(",");
resultsForTelemetry.filtering = filtering.join(",");
resultsForTelemetry.enterprise = enterprise.join(",");
resultsForTelemetry.platform = platform.join(",");
Services.telemetry.recordEvent(
HEURISTICS_TELEMETRY_CATEGORY,
"evaluate_v2",
"heuristics",
decision,
resultsForTelemetry
);
},
async setState(state) {
switch (state) {
case "disabled":
lazy.Preferences.set(ROLLOUT_MODE_PREF, 0);
break;
case "UIOk":
lazy.Preferences.set(BREADCRUMB_PREF, true);
break;
case "enabled":
lazy.Preferences.set(ROLLOUT_MODE_PREF, 2);
lazy.Preferences.set(BREADCRUMB_PREF, true);
break;
case "policyDisabled":
case "manuallyDisabled":
case "UIDisabled":
lazy.Preferences.reset(BREADCRUMB_PREF);
// Fall through.
case "rollback":
this.setHeuristicResult(Ci.nsITRRSkipReason.TRR_UNSET);
lazy.Preferences.reset(ROLLOUT_MODE_PREF);
break;
case "shutdown":
this.setHeuristicResult(Ci.nsITRRSkipReason.TRR_UNSET);
if (lazy.Preferences.get(CLEAR_ON_SHUTDOWN_PREF, true)) {
lazy.Preferences.reset(ROLLOUT_MODE_PREF);
}
break;
}
Services.telemetry.recordEvent(
HEURISTICS_TELEMETRY_CATEGORY,
"state",
state,
"null"
);
},
async disableHeuristics(state) {
await this.setState(state);
if (!this._heuristicsAreEnabled) {
return;
}
Services.obs.removeObserver(this, kLinkStatusChangedTopic);
Services.obs.removeObserver(this, kConnectivityTopic);
if (this._debounceTimer) {
lazy.clearTimeout(this._debounceTimer);
delete this._debounceTimer;
}
if (this._throttleTimer) {
lazy.clearTimeout(this._throttleTimer);
delete this._throttleTimer;
}
this._heuristicsAreEnabled = false;
},
async rollback() {
await this.disableHeuristics("rollback");
},
async runTRRSelection() {
// If persisting the selection is disabled, clear the existing
// selection.
if (!lazy.DoHConfigController.currentConfig.trrSelection.commitResult) {
lazy.Preferences.reset(ROLLOUT_URI_PREF);
}
if (!lazy.DoHConfigController.currentConfig.trrSelection.enabled) {
return;
}
if (
lazy.Preferences.isSet(ROLLOUT_URI_PREF) &&
lazy.Preferences.get(ROLLOUT_URI_PREF) ==
lazy.Preferences.get(TRR_SELECT_DRY_RUN_RESULT_PREF)
) {
return;
}
await this.runTRRSelectionDryRun();
// If persisting the selection is disabled, don't commit the value.
if (!lazy.DoHConfigController.currentConfig.trrSelection.commitResult) {
return;
}
lazy.Preferences.set(
ROLLOUT_URI_PREF,
lazy.Preferences.get(TRR_SELECT_DRY_RUN_RESULT_PREF)
);
},
async runTRRSelectionDryRun() {
if (lazy.Preferences.isSet(TRR_SELECT_DRY_RUN_RESULT_PREF)) {
// Check whether the existing dry-run-result is in the default
// list of TRRs. If it is, all good. Else, run the dry run again.
let dryRunResult = lazy.Preferences.get(TRR_SELECT_DRY_RUN_RESULT_PREF);
let dryRunResultIsValid =
lazy.DoHConfigController.currentConfig.providerList.some(
trr => trr.uri == dryRunResult
);
if (dryRunResultIsValid) {
return;
}
}
let setDryRunResultAndRecordTelemetry = trrUri => {
lazy.Preferences.set(TRR_SELECT_DRY_RUN_RESULT_PREF, trrUri);
Services.telemetry.recordEvent(
TRRSELECT_TELEMETRY_CATEGORY,
"trrselect",
"dryrunresult",
trrUri.substring(0, 40) // Telemetry payload max length
);
};
if (lazy.kIsInAutomation) {
// For mochitests, just record telemetry with a dummy result.
// TRRPerformance.sys.mjs is tested in xpcshell.
setDryRunResultAndRecordTelemetry("https://example.com/dns-query");
return;
}
// Importing the module here saves us from having to do it at startup, and
// ensures tests have time to set prefs before the module initializes.
let { TRRRacer } = ChromeUtils.importESModule(
"resource:///modules/TRRPerformance.sys.mjs"
);
await new Promise(resolve => {
let trrList =
lazy.DoHConfigController.currentConfig.trrSelection.providerList.map(
trr => trr.uri
);
let racer = new TRRRacer(() => {
setDryRunResultAndRecordTelemetry(racer.getFastestTRR(true));
resolve();
}, trrList);
racer.run();
});
},
observe(subject, topic, data) {
switch (topic) {
case kLinkStatusChangedTopic:
this.onConnectionChanged();
break;
case kConnectivityTopic:
this.onConnectivityAvailable();
break;
case kPrefChangedTopic:
this.onPrefChanged(data);
break;
case lazy.DoHConfigController.kConfigUpdateTopic:
this.reset();
break;
}
},
setHeuristicResult(skipReason) {
try {
Services.dns.setHeuristicDetectionResult(skipReason);
} catch (e) {}
},
async onPrefChanged(pref) {
switch (pref) {
case NETWORK_TRR_URI_PREF:
case NETWORK_TRR_MODE_PREF:
lazy.Preferences.set(DISABLED_PREF, true);
await this.disableHeuristics("manuallyDisabled");
break;
case NATIVE_FALLBACK_WARNING_PREF:
case NATIVE_FALLBACK_WARNING_HEURISTIC_LIST_PREF:
if (this._heuristicsAreEnabled) {
await this.runHeuristics("native-fallback-warning-pref-changed");
} else {
this.setHeuristicResult(Ci.nsITRRSkipReason.TRR_UNSET);
}
break;
}
},
// Connection change events are debounced to allow the network to settle.
// We wait for the network to be up for a period of kDebounceTimeout before
// handling the change. The timer is canceled when the network goes down and
// restarted the first time we learn that it went back up.
_debounceTimer: null,
_cancelDebounce() {
if (!this._debounceTimer) {
return;
}
lazy.clearTimeout(this._debounceTimer);
this._debounceTimer = null;
},
_lastDebounceTimestamp: 0,
onConnectionChanged() {
if (!lazy.gNetworkLinkService.isLinkUp) {
// Network is down - reset debounce timer.
this._cancelDebounce();
return;
}
if (this._debounceTimer) {
// Already debouncing - nothing to do.
return;
}
if (lazy.kNetworkDebounceTimeout < 0) {
// Skip debouncing in tests that set timeout to a negative value.
this.onConnectionChangedDebounced();
return;
}
this._lastDebounceTimestamp = Date.now();
this._debounceTimer = lazy.setTimeout(() => {
this._cancelDebounce();
this.onConnectionChangedDebounced();
}, lazy.kNetworkDebounceTimeout);
},
onConnectionChangedDebounced() {
if (!lazy.gNetworkLinkService.isLinkUp) {
return;
}
if (
lazy.gCaptivePortalService.state ==
lazy.gCaptivePortalService.LOCKED_PORTAL
) {
return;
}
// The network is up and we don't know that we're in a locked portal.
// Run heuristics. If we detect a portal later, we'll run heuristics again
// when it's unlocked. In that case, this run will likely have failed.
this.runHeuristicsThrottled("netchange");
},
onConnectivityAvailable() {
if (this._debounceTimer) {
// Already debouncing - nothing to do.
return;
}
this.runHeuristicsThrottled("connectivity");
},
};
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