gecko-dev/devtools/shared/fronts/inspector.js

536 строки
17 KiB
JavaScript

/* 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 Telemetry = require("devtools/client/shared/telemetry");
const telemetry = new Telemetry();
const { NodePicker } = require("devtools/shared/fronts/inspector/node-picker");
const TELEMETRY_EYEDROPPER_OPENED = "DEVTOOLS_EYEDROPPER_OPENED_COUNT";
const TELEMETRY_EYEDROPPER_OPENED_MENU = "DEVTOOLS_MENU_EYEDROPPER_OPENED_COUNT";
const SHOW_ALL_ANONYMOUS_CONTENT_PREF = "devtools.inspector.showAllAnonymousContent";
const SHOW_UA_SHADOW_ROOTS_PREF = "devtools.inspector.showUserAgentShadowRoots";
const {
FrontClassWithSpec,
types,
registerFront,
} = require("devtools/shared/protocol.js");
const {
inspectorSpec,
walkerSpec,
} = require("devtools/shared/specs/inspector");
const Services = require("Services");
const defer = require("devtools/shared/defer");
loader.lazyRequireGetter(this, "nodeConstants",
"devtools/shared/dom-node-constants");
loader.lazyRequireGetter(this, "Selection",
"devtools/client/framework/selection", true);
loader.lazyRequireGetter(this, "flags",
"devtools/shared/flags");
/**
* Client side of the DOM walker.
*/
class WalkerFront extends FrontClassWithSpec(walkerSpec) {
/**
* This is kept for backward-compatibility reasons with older remote target.
* Targets previous to bug 916443
*/
pick() {
return super.pick().then(response => {
return response.node;
});
}
constructor(client) {
super(client);
this._createRootNodePromise();
this._orphaned = new Set();
this._retainedOrphans = new Set();
// Set to true if cleanup should be requested after every mutation list.
this.autoCleanup = true;
this.before("new-mutations", this.onMutations.bind(this));
}
// Update the object given a form representation off the wire.
form(json) {
this.actorID = json.actor;
this.rootNode = types.getType("domnode").read(json.root, this);
this._rootNodeDeferred.resolve(this.rootNode);
// FF42+ the actor starts exposing traits
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.
*/
getRootNode() {
return this._rootNodeDeferred.promise;
}
/**
* Create the root node promise, triggering the "new-root" notification
* on resolution.
*/
_createRootNodePromise() {
this._rootNodeDeferred = defer();
this._rootNodeDeferred.promise.then(() => {
this.emit("new-root");
});
}
/**
* 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.get(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.
*/
retainNode(node) {
return super.retainNode(node).then(() => {
node.retained = true;
});
}
unretainNode(node) {
return super.unretainNode(node).then(() => {
node.retained = false;
if (this._retainedOrphans.has(node)) {
this._retainedOrphans.delete(node);
this._releaseFront(node);
}
});
}
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);
return super.releaseNode({ actorID: actorID });
}
findInspectingNode() {
return super.findInspectingNode().then(response => {
return response.node;
});
}
querySelector(queryNode, selector) {
return super.querySelector(queryNode, selector).then(response => {
return response.node;
});
}
async gripToNodeFront(grip) {
const response = await this.getNodeActorFromObjectActor(grip.actor);
const nodeFront = response ? response.node : null;
if (!nodeFront) {
throw new Error("The ValueGrip passed could not be translated to a NodeFront");
}
return nodeFront;
}
getNodeActorFromWindowID(windowID) {
return super.getNodeActorFromWindowID(windowID).then(response => {
return response ? response.node : null;
});
}
getStyleSheetOwnerNode(styleSheetActorID) {
return super.getStyleSheetOwnerNode(styleSheetActorID).then(response => {
return response ? response.node : null;
});
}
getNodeFromActor(actorID, path) {
return super.getNodeFromActor(actorID, path).then(response => {
return response ? response.node : null;
});
}
/*
* Incrementally search the document for a given string.
* For modern servers, results will be searched with using the WalkerActor
* `search` function (includes tag names, attributes, and text contents).
* Only 1 result is sent back, and calling the method again with the same
* query will send the next result. When there are no more results to be sent
* back, null is sent.
* @param {String} query
* @param {Object} options
* - "reverse": search backwards
*/
async search(query, options = { }) {
const searchData = this.searchData = this.searchData || { };
const result = await super.search(query, options);
const nodeList = result.list;
// If this is a new search, start at the beginning.
if (searchData.query !== query) {
searchData.query = query;
searchData.index = -1;
}
if (!nodeList.length) {
return null;
}
// Move search result cursor and cycle if necessary.
searchData.index = options.reverse ? searchData.index - 1 :
searchData.index + 1;
if (searchData.index >= nodeList.length) {
searchData.index = 0;
}
if (searchData.index < 0) {
searchData.index = nodeList.length - 1;
}
// Send back the single node, along with any relevant search data
const node = await nodeList.item(searchData.index);
return {
type: "search",
node: node,
resultsLength: nodeList.length,
resultsIndex: searchData.index,
};
}
_releaseFront(node, force) {
if (node.retained && !force) {
node.reparent(null);
this._retainedOrphans.add(node);
return;
}
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.
*/
getMutations(options = {}) {
/* eslint-disable complexity */
return super.getMutations(options).then(mutations => {
const emitMutations = [];
for (const change of mutations) {
// The target is only an actorID, get the associated front.
let targetID;
let targetFront;
if (change.type === "newRoot") {
// We may receive a new root without receiving any documentUnload
// beforehand. Like when opening tools in middle of a document load.
if (this.rootNode) {
this._createRootNodePromise();
}
this.rootNode = types.getType("domnode").read(change.target, this);
this._rootNodeDeferred.resolve(this.rootNode);
targetID = this.rootNode.actorID;
targetFront = this.rootNode;
} else {
targetID = change.target;
targetFront = this.get(targetID);
}
if (!targetFront) {
console.warn("Got a mutation for an unexpected actor: " + targetID +
", please file a bug on bugzilla.mozilla.org!");
console.trace();
continue;
}
const emittedMutation = Object.assign(change, { target: targetFront });
if (change.type === "childList" ||
change.type === "nativeAnonymousChildList") {
// Update the ownership tree according to the mutation record.
const addedFronts = [];
const removedFronts = [];
for (const removed of change.removed) {
const removedFront = this.get(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.get(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;
}
} else if (change.type === "frameLoad") {
// Nothing we need to do here, except verify that we don't have any
// document children, because we should have gotten a documentUnload
// first.
for (const child of targetFront.treeChildren()) {
if (child.nodeType === nodeConstants.DOCUMENT_NODE) {
console.warn("Got an unexpected frameLoad in the inspector, " +
"please file a bug on bugzilla.mozilla.org!");
console.trace();
}
}
} else if (change.type === "documentUnload") {
if (targetFront === this.rootNode) {
this._createRootNodePromise();
}
// We try to give fronts instead of actorIDs, but these fronts need
// to be destroyed now.
emittedMutation.target = targetFront.actorID;
emittedMutation.targetParent = targetFront.parentNode();
// Release the document node and all of its children, even retained.
this._releaseFront(targetFront, true);
} else if (change.type === "shadowRootAttached") {
targetFront._form.isShadowHost = true;
} else if (change.type === "customElementDefined") {
targetFront._form.customElementLocation = change.customElementLocation;
} else if (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.get(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" ||
change.type === "nativeAnonymousChildList") {
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);
});
/* eslint-enable complexity */
}
/**
* Handle the `new-mutations` notification by fetching the
* available mutation records.
*/
onMutations() {
// Fetch and process the mutations.
this.getMutations({cleanup: this.autoCleanup}).catch(() => {});
}
isLocal() {
return !!this.conn._transport._serverConnection;
}
async removeNode(node) {
const previousSibling = await this.previousSibling(node);
const nextSibling = await super.removeNode(node);
return {
previousSibling: previousSibling,
nextSibling: nextSibling,
};
}
}
exports.WalkerFront = WalkerFront;
registerFront(WalkerFront);
/**
* Client side of the inspector actor, which is used to create
* inspector-related actors, including the walker.
*/
class InspectorFront extends FrontClassWithSpec(inspectorSpec) {
constructor(client) {
super(client);
this._client = client;
this._highlighters = new Map();
// Attribute name from which to retrieve the actorID out of the target actor's form
this.formAttributeName = "inspectorActor";
}
// async initialization
async initialize() {
await Promise.all([
this._getWalker(),
this._getHighlighter(),
]);
this.selection = new Selection(this.walker);
this.nodePicker = new NodePicker(this.highlighter, this.walker, this.selection);
}
async _getWalker() {
const showAllAnonymousContent = Services.prefs.getBoolPref(
SHOW_ALL_ANONYMOUS_CONTENT_PREF);
const showUserAgentShadowRoots = Services.prefs.getBoolPref(
SHOW_UA_SHADOW_ROOTS_PREF);
this.walker = await this.getWalker({
showAllAnonymousContent,
showUserAgentShadowRoots,
});
}
async _getHighlighter() {
const autohide = !flags.testing;
this.highlighter = await this.getHighlighter(autohide);
}
hasHighlighter(type) {
return this._highlighters.has(type);
}
destroy() {
// Selection isn't a Front and so isn't managed by InspectorFront
// and has to be destroyed manually
this.selection.destroy();
// Highlighter fronts are managed by InspectorFront and so will be
// automatically destroyed. But we have to clear the `_highlighters`
// Map as well as explicitly call `finalize` request on all of them.
this.destroyHighlighters();
super.destroy();
}
destroyHighlighters() {
for (const type of this._highlighters.keys()) {
if (this._highlighters.has(type)) {
this._highlighters.get(type).finalize();
this._highlighters.delete(type);
}
}
}
async getHighlighterByType(typeName) {
let highlighter = null;
try {
highlighter = await super.getHighlighterByType(typeName);
} catch (_) {
throw new Error("The target doesn't support " +
`creating highlighters by types or ${typeName} is unknown`);
}
return highlighter;
}
getKnownHighlighter(type) {
return this._highlighters.get(type);
}
async getOrCreateHighlighterByType(type) {
let front = this._highlighters.get(type);
if (!front) {
front = await this.getHighlighterByType(type);
this._highlighters.set(type, front);
}
return front;
}
async pickColorFromPage(options) {
await super.pickColorFromPage(options);
if (options && options.fromMenu) {
telemetry.getHistogramById(TELEMETRY_EYEDROPPER_OPENED_MENU).add(true);
} else {
telemetry.getHistogramById(TELEMETRY_EYEDROPPER_OPENED).add(true);
}
}
}
exports.InspectorFront = InspectorFront;
registerFront(InspectorFront);