Adding upstream version 124.0.1.upstream/124.0.1

Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>

1 files changed, 1167 insertions, 0 deletions

diff --git a/devtools/shared/commands/target/target-command.js b/devtools/shared/commands/target/target-command.js
new file mode 100644
index 0000000000..81b791f724
--- /dev/null
+++ b/devtools/shared/commands/target/target-command.js
@@ -0,0 +1,1167 @@
+/* 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/. */
+
+"use strict";
+
+const EventEmitter = require("resource://devtools/shared/event-emitter.js");
+
+const BROWSERTOOLBOX_SCOPE_PREF = "devtools.browsertoolbox.scope";
+// Possible values of the previous pref:
+const BROWSERTOOLBOX_SCOPE_EVERYTHING = "everything";
+const BROWSERTOOLBOX_SCOPE_PARENTPROCESS = "parent-process";
+
+// eslint-disable-next-line mozilla/reject-some-requires
+const createStore = require("resource://devtools/client/shared/redux/create-store.js");
+const reducer = require("resource://devtools/shared/commands/target/reducers/targets.js");
+
+loader.lazyRequireGetter(
+  this,
+  ["refreshTargets", "registerTarget", "unregisterTarget"],
+  "resource://devtools/shared/commands/target/actions/targets.js",
+  true
+);
+
+class TargetCommand extends EventEmitter {
+  #selectedTargetFront;
+  /**
+   * This class helps managing, iterating over and listening for Targets.
+   *
+   * It exposes:
+   *  - the top level target, typically the main process target for the browser toolbox
+   *    or the browsing context target for a regular web toolbox
+   *  - target of remoted iframe, in case Fission is enabled and some <iframe>
+   *    are running in a distinct process
+   *  - target switching. If the top level target changes for a new one,
+   *    all the targets are going to be declared as destroyed and the new ones
+   *    will be notified to the user of this API.
+   *
+   * @fires target-tread-wrong-order-on-resume : An event that is emitted when resuming
+   *        the thread throws with the "wrongOrder" error.
+   *
+   * @param {DescriptorFront} descriptorFront
+   *        The context to inspector identified by this descriptor.
+   * @param {WatcherFront} watcherFront
+   *        If available, a reference to the related Watcher Front.
+   * @param {Object} commands
+   *        The commands object with all interfaces defined from devtools/shared/commands/
+   */
+  constructor({ descriptorFront, watcherFront, commands }) {
+    super();
+
+    this.commands = commands;
+    this.descriptorFront = descriptorFront;
+    this.watcherFront = watcherFront;
+    this.rootFront = descriptorFront.client.mainRoot;
+
+    this.store = createStore(reducer);
+    // Name of the store used when calling createProvider.
+    this.storeId = "target-store";
+
+    this._updateBrowserToolboxScope =
+      this._updateBrowserToolboxScope.bind(this);
+
+    Services.prefs.addObserver(
+      BROWSERTOOLBOX_SCOPE_PREF,
+      this._updateBrowserToolboxScope
+    );
+    // Until Watcher actor notify about new top level target when navigating to another process
+    // we have to manually switch to a new target from the client side
+    this.onLocalTabRemotenessChange =
+      this.onLocalTabRemotenessChange.bind(this);
+    if (this.descriptorFront.isTabDescriptor) {
+      this.descriptorFront.on(
+        "remoteness-change",
+        this.onLocalTabRemotenessChange
+      );
+    }
+
+    if (this.isServerTargetSwitchingEnabled()) {
+      // XXX: Will only be used for local tab server side target switching if
+      // the first target is generated from the server.
+      this._onFirstTarget = new Promise(r => (this._resolveOnFirstTarget = r));
+    }
+
+    // Reports if we have at least one listener for the given target type
+    this._listenersStarted = new Set();
+
+    // List of all the target fronts
+    this._targets = new Set();
+    // {Map<Function, Set<targetFront>>} A Map keyed by `onAvailable` function passed to
+    // `watchTargets`, whose initial value is a Set of the existing target fronts at the
+    // time watchTargets is called.
+    this._pendingWatchTargetInitialization = new Map();
+
+    // Listeners for target creation, destruction and selection
+    this._createListeners = new EventEmitter();
+    this._destroyListeners = new EventEmitter();
+    this._selectListeners = new EventEmitter();
+
+    this._onTargetAvailable = this._onTargetAvailable.bind(this);
+    this._onTargetDestroyed = this._onTargetDestroyed.bind(this);
+    this._onTargetSelected = this._onTargetSelected.bind(this);
+    // Bug 1675763: Watcher actor is not available in all situations yet.
+    if (this.watcherFront) {
+      this.watcherFront.on("target-available", this._onTargetAvailable);
+      this.watcherFront.on("target-destroyed", this._onTargetDestroyed);
+    }
+
+    this.legacyImplementation = {};
+
+    // Public flag to allow listening for workers even if the fission pref is off
+    // This allows listening for workers in the content toolbox outside of fission contexts
+    // For now, this is only toggled by tests.
+    this.listenForWorkers =
+      this.rootFront.traits.workerConsoleApiMessagesDispatchedToMainThread ===
+      false;
+    this.listenForServiceWorkers = false;
+
+    // Tells us if we received the first top level target.
+    // If target switching is done on:
+    // * client side, this is done from startListening => _createFirstTarget
+    //                and pull from the Descriptor front.
+    // * server side, this is also done from startListening,
+    //                but we wait for the watcher actor to notify us about it
+    //                via target-available-form avent.
+    this._gotFirstTopLevelTarget = false;
+    this._onResourceAvailable = this._onResourceAvailable.bind(this);
+  }
+
+  get selectedTargetFront() {
+    return this.#selectedTargetFront || this.targetFront;
+  }
+
+  /**
+   * Called fired when BROWSERTOOLBOX_SCOPE_PREF pref changes.
+   * This will enable/disable the full multiprocess debugging.
+   * When enabled we will watch for content process targets and debug all the processes.
+   * When disabled we will only watch for FRAME and WORKER and restrict ourself to parent process resources.
+   */
+  _updateBrowserToolboxScope() {
+    const browserToolboxScope = Services.prefs.getCharPref(
+      BROWSERTOOLBOX_SCOPE_PREF
+    );
+    if (browserToolboxScope == BROWSERTOOLBOX_SCOPE_EVERYTHING) {
+      // Force listening to new additional target types
+      this.startListening();
+    } else if (browserToolboxScope == BROWSERTOOLBOX_SCOPE_PARENTPROCESS) {
+      const disabledTargetTypes = [
+        TargetCommand.TYPES.FRAME,
+        TargetCommand.TYPES.PROCESS,
+      ];
+      // Force unwatching for additional targets types
+      // (we keep listening to workers)
+      // The related targets will be destroyed by the server
+      // and reported as destroyed to the frontend.
+      for (const type of disabledTargetTypes) {
+        this.stopListeningForType(type, {
+          isTargetSwitching: false,
+          isModeSwitching: true,
+        });
+      }
+    }
+  }
+
+  // Called whenever a new Target front is available.
+  // Either because a target was already available as we started calling startListening
+  // or if it has just been created
+  async _onTargetAvailable(targetFront) {
+    // We put the `commands` on the targetFront so it can be retrieved from any front easily.
+    // Without this, protocol.js fronts won't have any easy access to it.
+    // Ideally, Fronts would all be migrated to commands and we would no longer need this hack.
+    targetFront.commands = this.commands;
+
+    // If the new target is a top level target, we are target switching.
+    // Target-switching is only triggered for "local-tab" browsing-context
+    // targets which should always have the topLevelTarget flag initialized
+    // on the server.
+    const isTargetSwitching = targetFront.isTopLevel;
+    const isFirstTarget =
+      targetFront.isTopLevel && !this._gotFirstTopLevelTarget;
+
+    if (this._targets.has(targetFront)) {
+      // The top level target front can be reported via listProcesses in the
+      // case of the BrowserToolbox. For any other target, log an error if it is
+      // already registered.
+      if (targetFront != this.targetFront) {
+        console.error(
+          "Target is already registered in the TargetCommand",
+          targetFront.actorID
+        );
+      }
+      return;
+    }
+
+    if (this.isDestroyed() || targetFront.isDestroyedOrBeingDestroyed()) {
+      return;
+    }
+
+    // Handle top level target switching
+    // Note that, for now, `_onTargetAvailable` isn't called for the *initial* top level target.
+    // i.e. the one that is passed to TargetCommand constructor.
+    if (targetFront.isTopLevel) {
+      // First report that all existing targets are destroyed
+      if (!isFirstTarget) {
+        this._destroyExistingTargetsOnTargetSwitching();
+      }
+
+      // Update the reference to the memoized top level target
+      this.targetFront = targetFront;
+      this.descriptorFront.setTarget(targetFront);
+      this.#selectedTargetFront = null;
+
+      if (isFirstTarget && this.isServerTargetSwitchingEnabled()) {
+        this._gotFirstTopLevelTarget = true;
+        this._resolveOnFirstTarget();
+      }
+    }
+
+    // Map the descriptor typeName to a target type.
+    const targetType = this.getTargetType(targetFront);
+    targetFront.setTargetType(targetType);
+
+    this._targets.add(targetFront);
+    try {
+      await targetFront.attachAndInitThread(this);
+    } catch (e) {
+      console.error("Error when attaching target:", e);
+      this._targets.delete(targetFront);
+      return;
+    }
+
+    for (const targetFrontsSet of this._pendingWatchTargetInitialization.values()) {
+      targetFrontsSet.delete(targetFront);
+    }
+
+    if (this.isDestroyed() || targetFront.isDestroyedOrBeingDestroyed()) {
+      return;
+    }
+
+    this.store.dispatch(registerTarget(targetFront));
+
+    // Then, once the target is attached, notify the target front creation listeners
+    await this._createListeners.emitAsync(targetType, {
+      targetFront,
+      isTargetSwitching,
+    });
+
+    // Re-register the listeners as the top level target changed
+    // and some targets are fetched from it
+    if (targetFront.isTopLevel && !isFirstTarget) {
+      await this.startListening({ isTargetSwitching: true });
+    }
+
+    // These two events are used by tests using the production codepath (i.e. disabling flags.testing)
+    // To be consumed by tests triggering frame navigations, spawning workers...
+    this.emit("processed-available-target", targetFront);
+
+    if (isTargetSwitching) {
+      this.emit("switched-target", targetFront);
+    }
+  }
+
+  _destroyExistingTargetsOnTargetSwitching() {
+    const destroyedTargets = [];
+    for (const target of this._targets) {
+      // We only consider the top level target to be switched
+      const isDestroyedTargetSwitching = target == this.targetFront;
+      const isServiceWorker = target.targetType === this.TYPES.SERVICE_WORKER;
+      const isPopup = target.targetForm.isPopup;
+
+      // Never destroy the popup targets when the top level target is destroyed
+      // as the popup follow a different lifecycle.
+      // Also avoid destroying service worker targets for similar reason.
+      if (!isPopup && !isServiceWorker) {
+        this._onTargetDestroyed(target, {
+          isTargetSwitching: isDestroyedTargetSwitching,
+          // Do not destroy service worker front as we may want to keep using it.
+          shouldDestroyTargetFront: !isServiceWorker,
+        });
+        destroyedTargets.push(target);
+      }
+    }
+
+    // Stop listening to legacy listeners as we now have to listen
+    // on the new target.
+    this.stopListening({ isTargetSwitching: true });
+
+    // Remove destroyed target from the cached target list. We don't simply clear the
+    // Map as SW targets might not have been destroyed.
+    for (const target of destroyedTargets) {
+      this._targets.delete(target);
+    }
+  }
+
+  /**
+   * Function fired everytime a target is destroyed.
+   *
+   * This is called either:
+   * - via target-destroyed event fired by the WatcherFront,
+   *   event which is a simple translation of the target-destroyed-form emitted by the WatcherActor.
+   *   Watcher Actor emits this is various condition when the debugged target is meant to be destroyed:
+   *   - the related target context is destroyed (tab closed, worker shut down, content process destroyed, ...),
+   *   - when the DevToolsServerConnection used on the server side to communicate to the client is closed.
+
+   * - by TargetCommand._onTargetAvailable, when a top level target switching happens and all previously
+   *   registered target fronts should be destroyed.
+
+   * - by the legacy Targets listeners, calling this method directly.
+   *   This usecase is meant to be removed someday when all target targets are supported by the Watcher.
+   *   (bug 1687459)
+   *
+   * @param {TargetFront} targetFront
+   *        The target that just got destroyed.
+   * @param {Object} options
+   * @param {Boolean} [options.isTargetSwitching]
+   *        To be set to true when this is about the top level target which is being replaced
+   *        by a new one.
+   *        The passed target should be still the one store in TargetCommand.targetFront
+   *        and will be replaced via a call to onTargetAvailable with a new target front.
+   * @param {Boolean} [options.isModeSwitching]
+   *        To be set to true when the target was destroyed was called as the result of a
+   *        change to the devtools.browsertoolbox.scope pref.
+   * @param {Boolean} [options.shouldDestroyTargetFront]
+   *        By default, the passed target front will be destroyed. But in some cases like
+   *        legacy listeners for service workers we want to keep the front alive.
+   */
+  _onTargetDestroyed(
+    targetFront,
+    {
+      isModeSwitching = false,
+      isTargetSwitching = false,
+      shouldDestroyTargetFront = true,
+    } = {}
+  ) {
+    // The watcher actor may notify us about the destruction of the top level target.
+    // But second argument to this method, isTargetSwitching is only passed from the frontend.
+    // So automatically toggle the isTargetSwitching flag for server side destructions
+    // only if that's about the existing top level target.
+    if (targetFront == this.targetFront) {
+      isTargetSwitching = true;
+    }
+    this._destroyListeners.emit(targetFront.targetType, {
+      targetFront,
+      isTargetSwitching,
+      isModeSwitching,
+    });
+    this._targets.delete(targetFront);
+
+    this.store.dispatch(unregisterTarget(targetFront));
+
+    // If the destroyed target was the selected one, we need to do some cleanup
+    if (this.#selectedTargetFront == targetFront) {
+      // If we're doing a targetSwitch, simply nullify #selectedTargetFront
+      if (isTargetSwitching) {
+        this.#selectedTargetFront = null;
+      } else {
+        // Otherwise we want to select the top level target
+        this.selectTarget(this.targetFront);
+      }
+    }
+
+    if (shouldDestroyTargetFront) {
+      // When calling targetFront.destroy(), we will first call TargetFrontMixin.destroy,
+      // which will try to call `detach` RDP method.
+      // Unfortunately, this request will never complete in some cases like bfcache navigations.
+      // Because of that, the target front will never be completely destroy as it will prevent
+      // calling super.destroy and Front.destroy.
+      // Workaround that by manually calling Front class destroy method:
+      targetFront.baseFrontClassDestroy();
+
+      targetFront.destroy();
+
+      // Delete the attribute we set from _onTargetAvailable so that we avoid leaking commands
+      // if any target front is leaked.
+      delete targetFront.commands;
+    }
+  }
+
+  /**
+   *
+   * @param {TargetFront} targetFront
+   */
+  async _onTargetSelected(targetFront) {
+    if (this.#selectedTargetFront == targetFront) {
+      // Target is already selected, we can bail out.
+      return;
+    }
+
+    this.#selectedTargetFront = targetFront;
+    const targetType = this.getTargetType(targetFront);
+    await this._selectListeners.emitAsync(targetType, {
+      targetFront,
+    });
+  }
+
+  _setListening(type, value) {
+    if (value) {
+      this._listenersStarted.add(type);
+    } else {
+      this._listenersStarted.delete(type);
+    }
+  }
+
+  _isListening(type) {
+    return this._listenersStarted.has(type);
+  }
+
+  /**
+   * Check if the watcher is currently supported.
+   *
+   * When no typeOrTrait is provided, we will only check that the watcher is
+   * available.
+   *
+   * When a typeOrTrait is provided, we will check for an explicit trait on the
+   * watcherFront that indicates either that:
+   *   - a target type is supported
+   *   - or that a custom trait is true
+   *
+   * @param {String} [targetTypeOrTrait]
+   *        Optional target type or trait.
+   * @return {Boolean} true if the watcher is available and supports the
+   *          optional targetTypeOrTrait
+   */
+  hasTargetWatcherSupport(targetTypeOrTrait) {
+    if (targetTypeOrTrait) {
+      // Target types are also exposed as traits, where resource types are
+      // exposed under traits.resources (cf hasResourceWatcherSupport
+      // implementation).
+      return !!this.watcherFront?.traits[targetTypeOrTrait];
+    }
+
+    return !!this.watcherFront;
+  }
+
+  /**
+   * Start listening for targets from the server
+   *
+   * Interact with the actors in order to start listening for new types of targets.
+   * This will fire the _onTargetAvailable function for all already-existing targets,
+   * as well as the next one to be created. It will also call _onTargetDestroyed
+   * everytime a target is reported as destroyed by the actors.
+   * By the time this function resolves, all the already-existing targets will be
+   * reported to _onTargetAvailable.
+   *
+   * @param Object options
+   * @param Boolean options.isTargetSwitching
+   *        Set to true when this is called while a target switching happens. In such case,
+   *        we won't register listener set on the Watcher Actor, but still register listeners
+   *        set via Legacy Listeners.
+   */
+  async startListening({ isTargetSwitching = false } = {}) {
+    // The first time we call this method, we pull the current top level target from the descriptor
+    if (
+      !this.isServerTargetSwitchingEnabled() &&
+      !this._gotFirstTopLevelTarget
+    ) {
+      await this._createFirstTarget();
+    }
+
+    // If no pref are set to true, nor is listenForWorkers set to true,
+    // we won't listen for any additional target. Only the top level target
+    // will be managed. We may still do target-switching.
+    const types = this._computeTargetTypes();
+
+    for (const type of types) {
+      if (this._isListening(type)) {
+        continue;
+      }
+      this._setListening(type, true);
+
+      // Only a few top level targets support the watcher actor at the moment (see WatcherActor
+      // traits in the _form method). Bug 1675763 tracks watcher actor support for all targets.
+      if (this.hasTargetWatcherSupport(type)) {
+        // When we switch to a new top level target, we don't have to stop and restart
+        // Watcher listener as it is independant from the top level target.
+        // This isn't the case for some Legacy Listeners, which fetch targets from the top level target
+        if (!isTargetSwitching) {
+          await this.watcherFront.watchTargets(type);
+        }
+      } else if (LegacyTargetWatchers[type]) {
+        // Instantiate the legacy listener only once for each TargetCommand, and reuse it if we stop and restart listening
+        if (!this.legacyImplementation[type]) {
+          this.legacyImplementation[type] = new LegacyTargetWatchers[type](
+            this,
+            this._onTargetAvailable,
+            this._onTargetDestroyed,
+            this.commands
+          );
+        }
+        await this.legacyImplementation[type].listen();
+      } else {
+        throw new Error(`Unsupported target type '${type}'`);
+      }
+    }
+
+    if (!this._watchingDocumentEvent && !this.isDestroyed()) {
+      // We want to watch DOCUMENT_EVENT in order to update the url and title of target fronts,
+      // as the initial value that is set in them might be erroneous (if the target was
+      // created so early that the document url is still pointing to about:blank and the
+      // html hasn't be parsed yet, so we can't know the <title> content).
+
+      this._watchingDocumentEvent = true;
+      await this.commands.resourceCommand.watchResources(
+        [this.commands.resourceCommand.TYPES.DOCUMENT_EVENT],
+        {
+          onAvailable: this._onResourceAvailable,
+        }
+      );
+    }
+
+    if (this.isServerTargetSwitchingEnabled()) {
+      await this._onFirstTarget;
+    }
+  }
+
+  async _createFirstTarget() {
+    // Note that this is a public attribute, used outside of this class
+    // and helps knowing what is the current top level target we debug.
+    this.targetFront = await this.descriptorFront.getTarget();
+    this.targetFront.setTargetType(this.getTargetType(this.targetFront));
+    this.targetFront.setIsTopLevel(true);
+    this._gotFirstTopLevelTarget = true;
+
+    // See _onTargetAvailable. As this target isn't going through that method
+    // we have to replicate doing that here.
+    this.targetFront.commands = this.commands;
+
+    // Add the top-level target to the list of targets.
+    this._targets.add(this.targetFront);
+    this.store.dispatch(registerTarget(this.targetFront));
+  }
+
+  _computeTargetTypes() {
+    let types = [];
+
+    // We also check for watcher support as some xpcshell tests uses legacy APIs and don't support frames.
+    if (
+      this.descriptorFront.isTabDescriptor &&
+      this.hasTargetWatcherSupport(TargetCommand.TYPES.FRAME)
+    ) {
+      types = [TargetCommand.TYPES.FRAME];
+    } else if (this.descriptorFront.isBrowserProcessDescriptor) {
+      const browserToolboxScope = Services.prefs.getCharPref(
+        BROWSERTOOLBOX_SCOPE_PREF
+      );
+      if (browserToolboxScope == BROWSERTOOLBOX_SCOPE_EVERYTHING) {
+        types = TargetCommand.ALL_TYPES;
+      }
+    }
+    if (this.listenForWorkers && !types.includes(TargetCommand.TYPES.WORKER)) {
+      types.push(TargetCommand.TYPES.WORKER);
+    }
+    if (
+      this.listenForWorkers &&
+      !types.includes(TargetCommand.TYPES.SHARED_WORKER)
+    ) {
+      types.push(TargetCommand.TYPES.SHARED_WORKER);
+    }
+    if (
+      this.listenForServiceWorkers &&
+      !types.includes(TargetCommand.TYPES.SERVICE_WORKER)
+    ) {
+      types.push(TargetCommand.TYPES.SERVICE_WORKER);
+    }
+
+    return types;
+  }
+
+  /**
+   * Stop listening for targets from the server
+   *
+   * @param Object options
+   * @param Boolean options.isTargetSwitching
+   *        Set to true when this is called while a target switching happens. In such case,
+   *        we won't unregister listener set on the Watcher Actor, but still unregister
+   *        listeners set via Legacy Listeners.
+   */
+  stopListening({ isTargetSwitching = false } = {}) {
+    // As DOCUMENT_EVENT isn't using legacy listener,
+    // there is no need to stop and restart it in case of target switching.
+    if (this._watchingDocumentEvent && !isTargetSwitching) {
+      this.commands.resourceCommand.unwatchResources(
+        [this.commands.resourceCommand.TYPES.DOCUMENT_EVENT],
+        {
+          onAvailable: this._onResourceAvailable,
+        }
+      );
+      this._watchingDocumentEvent = false;
+    }
+
+    for (const type of TargetCommand.ALL_TYPES) {
+      this.stopListeningForType(type, { isTargetSwitching });
+    }
+  }
+
+  /**
+   * Stop listening for targets of a given type from the server
+   *
+   * @param String type
+   *        target type we want to stop listening for
+   * @param Object options
+   * @param Boolean options.isTargetSwitching
+   *        Set to true when this is called while a target switching happens. In such case,
+   *        we won't unregister listener set on the Watcher Actor, but still unregister
+   *        listeners set via Legacy Listeners.
+   * @param Boolean options.isModeSwitching
+   *        Set to true when this is called as the result of a change to the
+   *        devtools.browsertoolbox.scope pref.
+   */
+  stopListeningForType(type, { isTargetSwitching, isModeSwitching }) {
+    if (!this._isListening(type)) {
+      return;
+    }
+    this._setListening(type, false);
+
+    // Only a few top level targets support the watcher actor at the moment (see WatcherActor
+    // traits in the _form method). Bug 1675763 tracks watcher actor support for all targets.
+    if (this.hasTargetWatcherSupport(type)) {
+      // When we switch to a new top level target, we don't have to stop and restart
+      // Watcher listener as it is independant from the top level target.
+      // This isn't the case for some Legacy Listeners, which fetch targets from the top level target
+      // Also, TargetCommand.destroy may be called after the client is closed.
+      // So avoid calling the RDP method in that situation.
+      if (!isTargetSwitching && !this.watcherFront.isDestroyed()) {
+        this.watcherFront.unwatchTargets(type, { isModeSwitching });
+      }
+    } else if (this.legacyImplementation[type]) {
+      this.legacyImplementation[type].unlisten({
+        isTargetSwitching,
+        isModeSwitching,
+      });
+    } else {
+      throw new Error(`Unsupported target type '${type}'`);
+    }
+  }
+
+  getTargetType(target) {
+    const { typeName } = target;
+    if (typeName == "windowGlobalTarget") {
+      return TargetCommand.TYPES.FRAME;
+    }
+
+    if (
+      typeName == "contentProcessTarget" ||
+      typeName == "parentProcessTarget"
+    ) {
+      return TargetCommand.TYPES.PROCESS;
+    }
+
+    if (typeName == "workerDescriptor" || typeName == "workerTarget") {
+      if (target.isSharedWorker) {
+        return TargetCommand.TYPES.SHARED_WORKER;
+      }
+
+      if (target.isServiceWorker) {
+        return TargetCommand.TYPES.SERVICE_WORKER;
+      }
+
+      return TargetCommand.TYPES.WORKER;
+    }
+
+    throw new Error("Unsupported target typeName: " + typeName);
+  }
+
+  _matchTargetType(type, target) {
+    return type === target.targetType;
+  }
+
+  _onResourceAvailable(resources) {
+    for (const resource of resources) {
+      if (
+        resource.resourceType ===
+        this.commands.resourceCommand.TYPES.DOCUMENT_EVENT
+      ) {
+        const { targetFront } = resource;
+        if (resource.title !== undefined && targetFront?.setTitle) {
+          targetFront.setTitle(resource.title);
+        }
+        if (resource.url !== undefined && targetFront?.setUrl) {
+          targetFront.setUrl(resource.url);
+        }
+        if (
+          !resource.isFrameSwitching &&
+          // `url` is set on the targetFront when we receive dom-loading, and `title` when
+          // `dom-interactive` is received. Here we're only updating the window title in
+          // the "newer" event.
+          resource.name === "dom-interactive"
+        ) {
+          // We just updated the targetFront title and url, force a refresh
+          // so that the EvaluationContext selector update them.
+          this.store.dispatch(refreshTargets());
+        }
+      }
+    }
+  }
+
+  /**
+   * Listen for the creation and/or destruction of target fronts matching one of the provided types.
+   *
+   * @param {Object} options
+   * @param {Array<String>} options.types
+   *        The type of target to listen for. Constant of TargetCommand.TYPES.
+   * @param {Function} options.onAvailable
+   *        Mandatory callback fired when a target has been just created or was already available.
+   *        The function is called with a single object argument containing the following properties:
+   *        - {TargetFront} targetFront: The target Front
+   *        - {Boolean} isTargetSwitching: Is this target relates to a navigation and
+   *                    this replaced a previously available target, this flag will be true
+   * @param {Function} options.onDestroyed
+   *        Optional callback fired in case of target front destruction.
+   *        The function is called with the same arguments than onAvailable.
+   * @param {Function} options.onSelected
+   *        Optional callback fired when a given target is selected from the iframe picker
+   *        The function is called with a single object argument containing the following properties:
+   *        - {TargetFront} targetFront: The target Front
+   */
+  async watchTargets(options = {}) {
+    const availableOptions = [
+      "types",
+      "onAvailable",
+      "onDestroyed",
+      "onSelected",
+    ];
+    const unsupportedKeys = Object.keys(options).filter(
+      key => !availableOptions.includes(key)
+    );
+    if (unsupportedKeys.length) {
+      throw new Error(
+        `TargetCommand.watchTargets does not expect the following options: ${unsupportedKeys.join(
+          ", "
+        )}`
+      );
+    }
+
+    const { types, onAvailable, onDestroyed, onSelected } = options;
+    if (typeof onAvailable != "function") {
+      throw new Error(
+        "TargetCommand.watchTargets expects a function for the onAvailable option"
+      );
+    }
+
+    for (const type of types) {
+      if (!this._isValidTargetType(type)) {
+        throw new Error(
+          `TargetCommand.watchTargets invoked with an unknown type: "${type}"`
+        );
+      }
+    }
+
+    // Notify about already existing target of these types
+    const targetFronts = [...this._targets].filter(targetFront =>
+      types.includes(targetFront.targetType)
+    );
+    this._pendingWatchTargetInitialization.set(
+      onAvailable,
+      new Set(targetFronts)
+    );
+    const promises = targetFronts.map(async targetFront => {
+      // Attach the targets that aren't attached yet (e.g. the initial top-level target),
+      // and wait for the other ones to be fully attached.
+      try {
+        await targetFront.attachAndInitThread(this);
+      } catch (e) {
+        console.error("Error when attaching target:", e);
+        return;
+      }
+
+      // It can happen that onAvailable was already called with this targetFront at
+      // this time (via _onTargetAvailable). If that's the case, we don't want to call
+      // onAvailable a second time.
+      if (
+        this._pendingWatchTargetInitialization &&
+        this._pendingWatchTargetInitialization.has(onAvailable) &&
+        !this._pendingWatchTargetInitialization
+          .get(onAvailable)
+          .has(targetFront)
+      ) {
+        return;
+      }
+
+      try {
+        // Ensure waiting for eventual async create listeners
+        // which may setup things regarding the existing targets
+        // and listen callsite may care about the full initialization
+        await onAvailable({
+          targetFront,
+          isTargetSwitching: false,
+        });
+      } catch (e) {
+        // Prevent throwing when onAvailable handler throws on one target
+        // so that it can try to register the other targets
+        console.error(
+          "Exception when calling onAvailable handler",
+          e.message,
+          e
+        );
+      }
+    });
+
+    for (const type of types) {
+      this._createListeners.on(type, onAvailable);
+      if (onDestroyed) {
+        this._destroyListeners.on(type, onDestroyed);
+      }
+      if (onSelected) {
+        this._selectListeners.on(type, onSelected);
+      }
+    }
+
+    await Promise.all(promises);
+    this._pendingWatchTargetInitialization.delete(onAvailable);
+  }
+
+  /**
+   * Stop listening for the creation and/or destruction of a given type of target fronts.
+   * See `watchTargets()` for documentation of the arguments.
+   */
+  unwatchTargets(options = {}) {
+    const availableOptions = [
+      "types",
+      "onAvailable",
+      "onDestroyed",
+      "onSelected",
+    ];
+    const unsupportedKeys = Object.keys(options).filter(
+      key => !availableOptions.includes(key)
+    );
+    if (unsupportedKeys.length) {
+      throw new Error(
+        `TargetCommand.unwatchTargets does not expect the following options: ${unsupportedKeys.join(
+          ", "
+        )}`
+      );
+    }
+
+    const { types, onAvailable, onDestroyed, onSelected } = options;
+    if (typeof onAvailable != "function") {
+      throw new Error(
+        "TargetCommand.unwatchTargets expects a function for the onAvailable option"
+      );
+    }
+
+    for (const type of types) {
+      if (!this._isValidTargetType(type)) {
+        throw new Error(
+          `TargetCommand.unwatchTargets invoked with an unknown type: "${type}"`
+        );
+      }
+
+      this._createListeners.off(type, onAvailable);
+      if (onDestroyed) {
+        this._destroyListeners.off(type, onDestroyed);
+      }
+      if (onSelected) {
+        this._selectListeners.off(type, onSelected);
+      }
+    }
+    this._pendingWatchTargetInitialization.delete(onAvailable);
+  }
+
+  /**
+   * Retrieve all the current target fronts of a given type.
+   *
+   * @param {Array<String>} types
+   *        The types of target to retrieve. Array of TargetCommand.TYPES
+   * @return {Array<TargetFront>} Array of target fronts matching any of the
+   *         provided types.
+   */
+  getAllTargets(types) {
+    if (!types?.length) {
+      throw new Error("getAllTargets expects a non-empty array of types");
+    }
+
+    const targets = [...this._targets].filter(target =>
+      types.some(type => this._matchTargetType(type, target))
+    );
+
+    return targets;
+  }
+
+  /**
+   * Retrieve all the target fronts in the selected target tree (including the selected
+   * target itself).
+   *
+   * @param {Array<String>} types
+   *        The types of target to retrieve. Array of TargetCommand.TYPES
+   * @return {Promise<Array<TargetFront>>} Promise that resolves to an array of target fronts.
+   */
+  async getAllTargetsInSelectedTargetTree(types) {
+    const allTargets = this.getAllTargets(types);
+    if (this.isTopLevelTargetSelected()) {
+      return allTargets;
+    }
+
+    const targets = [this.selectedTargetFront];
+    for (const target of allTargets) {
+      const isInSelectedTree = await target.isTargetAnAncestor(
+        this.selectedTargetFront
+      );
+
+      if (isInSelectedTree) {
+        targets.push(target);
+      }
+    }
+    return targets;
+  }
+
+  /**
+   * For all the target fronts of given types, retrieve all the target-scoped fronts of the given types.
+   *
+   * @param {Array<String>} targetTypes
+   *        The types of target to iterate over. Constant of TargetCommand.TYPES.
+   * @param {String} frontType
+   *        The type of target-scoped front to retrieve. It can be "inspector", "console", "thread",...
+   * @param {Object} options
+   * @param {Boolean} options.onlyInSelectedTargetTree
+   *        Set to true to only get the fronts for targets who are in the "targets tree"
+   *        of the selected target.
+   */
+  async getAllFronts(
+    targetTypes,
+    frontType,
+    { onlyInSelectedTargetTree = false } = {}
+  ) {
+    if (!Array.isArray(targetTypes) || !targetTypes?.length) {
+      throw new Error("getAllFronts expects a non-empty array of target types");
+    }
+    const promises = [];
+    const targets = !onlyInSelectedTargetTree
+      ? this.getAllTargets(targetTypes)
+      : await this.getAllTargetsInSelectedTargetTree(targetTypes);
+    for (const target of targets) {
+      // For still-attaching worker targets, the thread or console front may not yet be available,
+      // whereas TargetMixin.getFront will throw if the actorID isn't available in targetForm.
+      // Also ignore destroyed targets. For some reason the previous methods fetching targets
+      // can sometime return destroyed targets.
+      if (
+        (frontType == "thread" && !target.targetForm.threadActor) ||
+        (frontType == "console" && !target.targetForm.consoleActor) ||
+        target.isDestroyed()
+      ) {
+        continue;
+      }
+
+      promises.push(target.getFront(frontType));
+    }
+    return Promise.all(promises);
+  }
+
+  /**
+   * This function is triggered by an event sent by the TabDescriptor when
+   * the tab navigates to a distinct process.
+   *
+   * @param TargetFront targetFront
+   *        The WindowGlobalTargetFront instance that navigated to another process
+   */
+  async onLocalTabRemotenessChange(targetFront) {
+    if (this.isServerTargetSwitchingEnabled()) {
+      // For server-side target switching, everything will be handled by the
+      // _onTargetAvailable callback.
+      return;
+    }
+
+    // TabDescriptor may emit the event with a null targetFront, interpret that as if the previous target
+    // has already been destroyed
+    if (targetFront) {
+      // Wait for the target to be destroyed so that LocalTabCommandsFactory clears its memoized target for this tab
+      await targetFront.once("target-destroyed");
+    }
+
+    // Fetch the new target from the descriptor.
+    const newTarget = await this.descriptorFront.getTarget();
+
+    // If a navigation happens while we try to get the target for the page that triggered
+    // the remoteness change, `getTarget` will return null. In such case, we'll get the
+    // "next" target through onTargetAvailable so it's safe to bail here.
+    if (!newTarget) {
+      console.warn(
+        `Couldn't get the target for descriptor ${this.descriptorFront.actorID}`
+      );
+      return;
+    }
+
+    this.switchToTarget(newTarget);
+  }
+
+  /**
+   * Reload the current top level target.
+   * This only works for targets inheriting from WindowGlobalTarget.
+   *
+   * @param {Boolean} bypassCache
+   *        If true, the reload will be forced to bypass any cache.
+   */
+  async reloadTopLevelTarget(bypassCache = false) {
+    if (!this.descriptorFront.traits.supportsReloadDescriptor) {
+      throw new Error("The top level target doesn't support being reloaded");
+    }
+
+    // Wait for the next DOCUMENT_EVENT's dom-complete event
+    // Wait for waitForNextResource completion before reloading, otherwise we might miss the dom-complete event.
+    // This can happen if `ResourceCommand.watchResources` made by `waitForNextResource` is still pending
+    // while the reload already started and finished loading the document early.
+    const { onResource: onReloaded } =
+      await this.commands.resourceCommand.waitForNextResource(
+        this.commands.resourceCommand.TYPES.DOCUMENT_EVENT,
+        {
+          ignoreExistingResources: true,
+          predicate(resource) {
+            return resource.name == "dom-complete";
+          },
+        }
+      );
+
+    await this.descriptorFront.reloadDescriptor({ bypassCache });
+
+    await onReloaded;
+  }
+
+  /**
+   * Called when the top level target is replaced by a new one.
+   * Typically when we navigate to another domain which requires to be loaded in a distinct process.
+   *
+   * @param {TargetFront} newTarget
+   *        The new top level target to debug.
+   */
+  async switchToTarget(newTarget) {
+    // Notify about this new target to creation listeners
+    // _onTargetAvailable will also destroy all previous target before notifying about this new one.
+    await this._onTargetAvailable(newTarget);
+  }
+
+  /**
+   * Called when the user selects a frame in the iframe picker.
+   *
+   * @param {WindowGlobalTargetFront} targetFront
+   *        The target front we want the toolbox to focus on.
+   */
+  selectTarget(targetFront) {
+    return this._onTargetSelected(targetFront);
+  }
+
+  /**
+   * Returns true if the top-level frame is the selected one
+   *
+   * @returns {Boolean}
+   */
+  isTopLevelTargetSelected() {
+    return this.selectedTargetFront === this.targetFront;
+  }
+
+  /**
+   * Returns true if a non top-level frame is the selected one in the iframe picker.
+   *
+   * @returns {Boolean}
+   */
+  isNonTopLevelTargetSelected() {
+    return this.selectedTargetFront !== this.targetFront;
+  }
+
+  isTargetRegistered(targetFront) {
+    return this._targets.has(targetFront);
+  }
+
+  getParentTarget(targetFront) {
+    // Note that there are edgecases:
+    // * Until bug 1741927 is fixed and we remove non-EFT codepath entirely,
+    //   we may receive a `parentInnerWindowId` that doesn't relate to any target.
+    //   This happens when the parent document of the targetFront is a document loaded in the
+    //   same process as its parent document. In such scenario, and only when EFT is disabled,
+    //   we won't instantiate a target for the parent document of the targetFront.
+    // * `parentInnerWindowId` could be null in some case like for tabs in the MBT
+    //   we should report the top level target as parent. That's what `getParentWindowGlobalTarget` does.
+    //   Once we can stop using getParentWindowGlobalTarget for the other edgecase we will be able to
+    //   replace it with such fallback: `return this.targetFront;`.
+    //   browser_target_command_frames.js will help you get things right.
+    const { parentInnerWindowId } = targetFront.targetForm;
+    if (parentInnerWindowId) {
+      const targets = this.getAllTargets([TargetCommand.TYPES.FRAME]);
+      const parent = targets.find(
+        target => target.innerWindowId == parentInnerWindowId
+      );
+      // Until EFT is the only codepath supported (bug 1741927), we will fallback to `getParentWindowGlobalTarget`
+      // as we may not have a target if the parent is an iframe running in the same process as its parent.
+      if (parent) {
+        return parent;
+      }
+    }
+
+    // Note that all callsites which care about FRAME additional target
+    // should all have a toolbox using the watcher actor.
+    // It should be: MBT, regular tab toolbox and web extension.
+    // The others which still don't support watcher don't spawn FRAME targets:
+    // browser content toolbox and service workers.
+
+    return this.watcherFront.getParentWindowGlobalTarget(
+      targetFront.browsingContextID
+    );
+  }
+
+  isDestroyed() {
+    return this._isDestroyed;
+  }
+
+  isServerTargetSwitchingEnabled() {
+    if (this.descriptorFront.isServerTargetSwitchingEnabled) {
+      return this.descriptorFront.isServerTargetSwitchingEnabled();
+    }
+    return false;
+  }
+
+  _isValidTargetType(type) {
+    return this.ALL_TYPES.includes(type);
+  }
+
+  destroy() {
+    this.stopListening();
+    this._createListeners.off();
+    this._destroyListeners.off();
+    this._selectListeners.off();
+
+    this.#selectedTargetFront = null;
+    this._isDestroyed = true;
+
+    Services.prefs.removeObserver(
+      BROWSERTOOLBOX_SCOPE_PREF,
+      this._updateBrowserToolboxScope
+    );
+  }
+}
+
+/**
+ * All types of target:
+ */
+TargetCommand.TYPES = TargetCommand.prototype.TYPES = {
+  PROCESS: "process",
+  FRAME: "frame",
+  WORKER: "worker",
+  SHARED_WORKER: "shared_worker",
+  SERVICE_WORKER: "service_worker",
+};
+TargetCommand.ALL_TYPES = TargetCommand.prototype.ALL_TYPES = Object.values(
+  TargetCommand.TYPES
+);
+
+const LegacyTargetWatchers = {};
+loader.lazyRequireGetter(
+  LegacyTargetWatchers,
+  TargetCommand.TYPES.PROCESS,
+  "resource://devtools/shared/commands/target/legacy-target-watchers/legacy-processes-watcher.js"
+);
+loader.lazyRequireGetter(
+  LegacyTargetWatchers,
+  TargetCommand.TYPES.WORKER,
+  "resource://devtools/shared/commands/target/legacy-target-watchers/legacy-workers-watcher.js"
+);
+loader.lazyRequireGetter(
+  LegacyTargetWatchers,
+  TargetCommand.TYPES.SHARED_WORKER,
+  "resource://devtools/shared/commands/target/legacy-target-watchers/legacy-sharedworkers-watcher.js"
+);
+loader.lazyRequireGetter(
+  LegacyTargetWatchers,
+  TargetCommand.TYPES.SERVICE_WORKER,
+  "resource://devtools/shared/commands/target/legacy-target-watchers/legacy-serviceworkers-watcher.js"
+);
+
+module.exports = TargetCommand;