/* 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/. */
/** * Client side of the DOM walker.
*/ class WalkerFront extends FrontClassWithSpec(walkerSpec) {
constructor(client, targetFront, parentFront) { super(client, targetFront, parentFront); this._isPicking = false; this._orphaned = new Set(); this._retainedOrphans = new Set();
// Set to true if cleanup should be requested after every mutation list. this.autoCleanup = true;
this._rootNodePromise = new Promise(
r => (this._rootNodePromiseResolve = r)
);
// pick/cancelPick requests can be triggered while the Walker is being destroyed. this.pick = safeAsyncMethod(this.pick.bind(this), () => this.isDestroyed()); this.cancelPick = safeAsyncMethod(this.cancelPick.bind(this), () => this.isDestroyed()
);
// Those events will be emitted if watchRootNode was called on the // corresponding WalkerActor, which should be handled by the ResourceCommand // as long as a consumer is watching for root-node resources. // This should be fixed by using watchResources directly from the walker // front, either with the ROOT_NODE resource, or with the DOCUMENT_EVENT // resource. See Bug 1663973. this.on("root-available", this._onRootNodeAvailable); this.on("root-destroyed", this._onRootNodeDestroyed);
}
// Update the object given a form representation off the wire.
form(json) { this.actorID = json.actor;
// The rootNode property should usually be provided via watchRootNode. // However tests are currently using the walker front without explicitly // calling watchRootNode, so we keep this assignment as a fallback. this.rootNode = types.getType("domnode").read(json.root, this);
// Bug 1861328: boolean set to true when color scheme can't be changed (happens when `privacy.resistFingerprinting` is set to true) this.rfpCSSColorScheme = json.rfpCSSColorScheme;
this.traits = json.traits;
}
/** * Clients can use walker.rootNode to get the current root node of the * walker, but during a reload the root node might be null. This * method returns a promise that will resolve to the root node when it is * set.
*/
async getRootNode() {
let rootNode = this.rootNode; if (!rootNode) {
rootNode = await this._rootNodePromise;
}
return rootNode;
}
/** * When reading an actor form off the wire, we want to hook it up to its * parent or host front. The protocol guarantees that the parent will * be seen by the client in either a previous or the current request. * So if we've already seen this parent return it, otherwise create * a bare-bones stand-in node. The stand-in node will be updated * with a real form by the end of the deserialization.
*/
ensureDOMNodeFront(id) { const front = this.getActorByID(id); if (front) { return front;
}
return types.getType("domnode").read({ actor: id }, this, "standin");
}
/** * See the documentation for WalkerActor.prototype.retainNode for * information on retained nodes. * * From the client's perspective, `retainNode` can fail if the node in * question is removed from the ownership tree before the `retainNode` * request reaches the server. This can only happen if the client has * asked the server to release nodes but hasn't gotten a response * yet: Either a `releaseNode` request or a `getMutations` with `cleanup` * set is outstanding. * * If either of those requests is outstanding AND releases the retained * node, this request will fail with noSuchActor, but the ownership tree * will stay in a consistent state. * * Because the protocol guarantees that requests will be processed and * responses received in the order they were sent, we get the right * semantics by setting our local retained flag on the node only AFTER * a SUCCESSFUL retainNode call.
*/
async retainNode(node) {
await super.retainNode(node);
node.retained = true;
}
releaseNode(node, options = {}) { // NodeFront.destroy will destroy children in the ownership tree too, // mimicking what the server will do here. const actorID = node.actorID; this._releaseFront(node, !!options.force); returnsuper.releaseNode({ actorID });
}
if (node.retained) { // Forcing a removal. this._retainedOrphans.delete(node);
}
// Release any children for (const child of node.treeChildren()) { this._releaseFront(child, force);
}
// All children will have been removed from the node by this point.
node.reparent(null);
node.destroy();
}
/** * Get any unprocessed mutation records and process them.
*/ // eslint-disable-next-line complexity
async getMutations(options = {}) { const mutations = await super.getMutations(options); const emitMutations = []; for (const change of mutations) { // The target is only an actorID, get the associated front. const targetID = change.target; const targetFront = this.getActorByID(targetID);
if (!targetFront) {
console.warn( "Got a mutation for an unexpected actor: " +
targetID + ", please file a bug on bugzilla.mozilla.org!"
);
console.trace(); continue;
}
if (change.type === "childList") { // Update the ownership tree according to the mutation record. const addedFronts = []; const removedFronts = []; for (const removed of change.removed) { const removedFront = this.getActorByID(removed); if (!removedFront) {
console.error( "Got a removal of an actor we didn't know about: " + removed
); continue;
} // Remove from the ownership tree
removedFront.reparent(null);
// This node is orphaned unless we get it in the 'added' list // eventually. this._orphaned.add(removedFront);
removedFronts.push(removedFront);
} for (const added of change.added) { const addedFront = this.getActorByID(added); if (!addedFront) {
console.error( "Got an addition of an actor we didn't know " + "about: " + added
); continue;
}
addedFront.reparent(targetFront);
// The actor is reconnected to the ownership tree, unorphan // it. this._orphaned.delete(addedFront);
addedFronts.push(addedFront);
}
// Before passing to users, replace the added and removed actor // ids with front in the mutation record.
emittedMutation.added = addedFronts;
emittedMutation.removed = removedFronts;
// If this is coming from a DOM mutation, the actor's numChildren // was passed in. Otherwise, it is simulated from a frame load or // unload, so don't change the front's form. if ("numChildren" in change) {
targetFront._form.numChildren = change.numChildren;
}
} elseif (change.type === "shadowRootAttached") {
targetFront._form.isShadowHost = true;
} elseif (change.type === "customElementDefined") {
targetFront._form.customElementLocation = change.customElementLocation;
} elseif (change.type === "unretained") { // Retained orphans were force-released without the intervention of // client (probably a navigated frame). for (const released of change.nodes) { const releasedFront = this.getActorByID(released); this._retainedOrphans.delete(released); this._releaseFront(releasedFront, true);
}
} else {
targetFront.updateMutation(change);
}
// Update the inlineTextChild property of the target for a selected list of // mutation types. if (
change.type === "inlineTextChild" ||
change.type === "childList" ||
change.type === "shadowRootAttached"
) { if (change.inlineTextChild) {
targetFront.inlineTextChild = types
.getType("domnode")
.read(change.inlineTextChild, this);
} else {
targetFront.inlineTextChild = undefined;
}
}
emitMutations.push(emittedMutation);
}
if (options.cleanup) { for (const node of this._orphaned) { // This will move retained nodes to this._retainedOrphans. this._releaseFront(node);
} this._orphaned = new Set();
}
this.emit("mutations", emitMutations);
}
/** * Handle the `new-mutations` notification by fetching the * available mutation records.
*/
onMutations() { // Fetch and process the mutations. this.getMutations({ cleanup: this.autoCleanup }).catch(() => {});
}
// We had several issues in the past where `connectToFrame` was returning the same // target as the owner document one, which led to the inspector being broken. // Ultimately, we shouldn't get to this point (fix should happen in connectToFrame or // on the server, e.g. for Bug 1752342), but at least this will serve as a safe guard // so we don't freeze/crash the inspector. if (
target == this.targetFront &&
Services.prefs.getBoolPref( "devtools.testing.bypass-walker-children-iframe-guard", false
) !== true
) {
console.warn("connectToFrame returned an unexpected target"); return {
nodes: [],
hasFirst: true,
hasLast: true,
};
}
// Finally retrieve the NodeFront of the remote frame's document const documentNode = await walker.getRootNode();
// Force reparenting through the remote frame boundary.
documentNode.reparent(node);
// And return the same kind of response `walker.children` returns return {
nodes: [documentNode],
hasFirst: true,
hasLast: true,
};
}
/** * Ensure that the RootNode of this Walker has the right parent NodeFront. * * This method does nothing if we are on the top level target's WalkerFront, * as the RootNode won't have any parent. * * Otherwise, if we are in an iframe's WalkerFront, we would expect the parent * of the RootNode (i.e. the NodeFront for the document loaded within the iframe) * to be the <iframe>'s NodeFront. Because of fission, the two NodeFront may refer * to DOM Element running in distinct processes and so the NodeFront comes from * two distinct Targets and two distinct WalkerFront. * This is why we need this manual "reparent" code to do the glue between the * two documents.
*/
async reparentRemoteFrame() { const parentTarget = await this.targetFront.getParentTarget(); if (!parentTarget) { return;
} // Don't reparent if we are on the top target if (parentTarget == this.targetFront) { return;
} // Get the NodeFront for the embedder element // i.e. the <iframe> element which is hosting the document that const parentWalker = (await parentTarget.getFront("inspector")).walker; // As this <iframe> most likely runs in another process, we have to get it through the parent // target's WalkerFront. const parentNode = (
await parentWalker.getEmbedderElement(this.targetFront.browsingContextID)
).node;
// Finally, set this embedder element's node front as the const documentNode = await this.getRootNode();
documentNode.reparent(parentNode);
}
_onRootNodeDestroyed(rootNode) { if (rootNode.isTopLevelDocument) { this._rootNodePromise = new Promise(
r => (this._rootNodePromiseResolve = r)
); this.rootNode = null;
}
}
/** * Start the element picker on the debuggee target. * @param {Boolean} doFocus - Optionally focus the content area once the picker is * activated.
*/
pick(doFocus) { if (this._isPicking) { return Promise.resolve();
}
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