gecko-dev/browser/modules/ContentSearch.jsm

565 строки
19 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/. */
/* globals XPCOMUtils, Services, Task, Promise, SearchSuggestionController, FormHistory, PrivateBrowsingUtils */
"use strict";
this.EXPORTED_SYMBOLS = [
"ContentSearch",
];
const { classes: Cc, interfaces: Ci, utils: Cu } = Components;
Cu.import("resource://gre/modules/Services.jsm");
Cu.import("resource://gre/modules/Promise.jsm");
Cu.import("resource://gre/modules/Task.jsm");
Cu.import("resource://gre/modules/XPCOMUtils.jsm");
XPCOMUtils.defineLazyModuleGetter(this, "FormHistory",
"resource://gre/modules/FormHistory.jsm");
XPCOMUtils.defineLazyModuleGetter(this, "PrivateBrowsingUtils",
"resource://gre/modules/PrivateBrowsingUtils.jsm");
XPCOMUtils.defineLazyModuleGetter(this, "SearchSuggestionController",
"resource://gre/modules/SearchSuggestionController.jsm");
const INBOUND_MESSAGE = "ContentSearch";
const OUTBOUND_MESSAGE = INBOUND_MESSAGE;
const MAX_LOCAL_SUGGESTIONS = 3;
const MAX_SUGGESTIONS = 6;
/**
* ContentSearch receives messages named INBOUND_MESSAGE and sends messages
* named OUTBOUND_MESSAGE. The data of each message is expected to look like
* { type, data }. type is the message's type (or subtype if you consider the
* type of the message itself to be INBOUND_MESSAGE), and data is data that is
* specific to the type.
*
* Inbound messages have the following types:
*
* AddFormHistoryEntry
* Adds an entry to the search form history.
* data: the entry, a string
* GetSuggestions
* Retrieves an array of search suggestions given a search string.
* data: { engineName, searchString, [remoteTimeout] }
* GetState
* Retrieves the current search engine state.
* data: null
* GetStrings
* Retrieves localized search UI strings.
* data: null
* ManageEngines
* Opens the search engine management window.
* data: null
* RemoveFormHistoryEntry
* Removes an entry from the search form history.
* data: the entry, a string
* Search
* Performs a search.
* Any GetSuggestions messages in the queue from the same target will be
* cancelled.
* data: { engineName, searchString, healthReportKey, searchPurpose }
* SetCurrentEngine
* Sets the current engine.
* data: the name of the engine
* SpeculativeConnect
* Speculatively connects to an engine.
* data: the name of the engine
*
* Outbound messages have the following types:
*
* CurrentEngine
* Broadcast when the current engine changes.
* data: see _currentEngineObj
* CurrentState
* Broadcast when the current search state changes.
* data: see currentStateObj
* State
* Sent in reply to GetState.
* data: see currentStateObj
* Strings
* Sent in reply to GetStrings
* data: Object containing string names and values for the current locale.
* Suggestions
* Sent in reply to GetSuggestions.
* data: see _onMessageGetSuggestions
* SuggestionsCancelled
* Sent in reply to GetSuggestions when pending GetSuggestions events are
* cancelled.
* data: null
*/
this.ContentSearch = {
// Inbound events are queued and processed in FIFO order instead of handling
// them immediately, which would result in non-FIFO responses due to the
// asynchrononicity added by converting image data URIs to ArrayBuffers.
_eventQueue: [],
_currentEventPromise: null,
// This is used to handle search suggestions. It maps xul:browsers to objects
// { controller, previousFormHistoryResult }. See _onMessageGetSuggestions.
_suggestionMap: new WeakMap(),
// Resolved when we finish shutting down.
_destroyedPromise: null,
// The current controller and browser in _onMessageGetSuggestions. Allows
// fetch cancellation from _cancelSuggestions.
_currentSuggestion: null,
init: function () {
Cc["@mozilla.org/globalmessagemanager;1"].
getService(Ci.nsIMessageListenerManager).
addMessageListener(INBOUND_MESSAGE, this);
Services.obs.addObserver(this, "browser-search-engine-modified", false);
Services.obs.addObserver(this, "shutdown-leaks-before-check", false);
Services.prefs.addObserver("browser.search.hiddenOneOffs", this, false);
this._stringBundle = Services.strings.createBundle("chrome://global/locale/autocomplete.properties");
},
get searchSuggestionUIStrings() {
if (this._searchSuggestionUIStrings) {
return this._searchSuggestionUIStrings;
}
this._searchSuggestionUIStrings = {};
let searchBundle = Services.strings.createBundle("chrome://browser/locale/search.properties");
let stringNames = ["searchHeader", "searchPlaceholder", "searchForSomethingWith",
"searchWithHeader", "searchSettings"];
for (let name of stringNames) {
this._searchSuggestionUIStrings[name] = searchBundle.GetStringFromName(name);
}
return this._searchSuggestionUIStrings;
},
destroy: function () {
if (this._destroyedPromise) {
return this._destroyedPromise;
}
Cc["@mozilla.org/globalmessagemanager;1"].
getService(Ci.nsIMessageListenerManager).
removeMessageListener(INBOUND_MESSAGE, this);
Services.obs.removeObserver(this, "browser-search-engine-modified");
Services.obs.removeObserver(this, "shutdown-leaks-before-check");
this._eventQueue.length = 0;
this._destroyedPromise = Promise.resolve(this._currentEventPromise);
return this._destroyedPromise;
},
/**
* Focuses the search input in the page with the given message manager.
* @param messageManager
* The MessageManager object of the selected browser.
*/
focusInput: function (messageManager) {
messageManager.sendAsyncMessage(OUTBOUND_MESSAGE, {
type: "FocusInput"
});
},
receiveMessage: function (msg) {
// Add a temporary event handler that exists only while the message is in
// the event queue. If the message's source docshell changes browsers in
// the meantime, then we need to update msg.target. event.detail will be
// the docshell's new parent <xul:browser> element.
msg.handleEvent = event => {
let browserData = this._suggestionMap.get(msg.target);
if (browserData) {
this._suggestionMap.delete(msg.target);
this._suggestionMap.set(event.detail, browserData);
}
msg.target.removeEventListener("SwapDocShells", msg, true);
msg.target = event.detail;
msg.target.addEventListener("SwapDocShells", msg, true);
};
msg.target.addEventListener("SwapDocShells", msg, true);
// Search requests cause cancellation of all Suggestion requests from the
// same browser.
if (msg.data.type === "Search") {
this._cancelSuggestions(msg);
}
this._eventQueue.push({
type: "Message",
data: msg,
});
this._processEventQueue();
},
observe: function (subj, topic, data) {
switch (topic) {
case "nsPref:changed":
case "browser-search-engine-modified":
this._eventQueue.push({
type: "Observe",
data: data,
});
this._processEventQueue();
break;
case "shutdown-leaks-before-check":
subj.wrappedJSObject.client.addBlocker(
"ContentSearch: Wait until the service is destroyed", () => this.destroy());
break;
}
},
removeFormHistoryEntry: function (msg, entry) {
let browserData = this._suggestionDataForBrowser(msg.target);
if (browserData && browserData.previousFormHistoryResult) {
let { previousFormHistoryResult } = browserData;
for (let i = 0; i < previousFormHistoryResult.matchCount; i++) {
if (previousFormHistoryResult.getValueAt(i) === entry) {
previousFormHistoryResult.removeValueAt(i, true);
break;
}
}
}
},
performSearch: function (msg, data) {
this._ensureDataHasProperties(data, [
"engineName",
"searchString",
"healthReportKey",
"searchPurpose",
]);
let engine = Services.search.getEngineByName(data.engineName);
let submission = engine.getSubmission(data.searchString, "", data.searchPurpose);
let browser = msg.target;
let win = browser.ownerGlobal;
if (!win) {
// The browser may have been closed between the time its content sent the
// message and the time we handle it.
return;
}
let where = win.whereToOpenLink(data.originalEvent);
// There is a chance that by the time we receive the search message, the user
// has switched away from the tab that triggered the search. If, based on the
// event, we need to load the search in the same tab that triggered it (i.e.
// where === "current"), openUILinkIn will not work because that tab is no
// longer the current one. For this case we manually load the URI.
if (where === "current") {
browser.loadURIWithFlags(submission.uri.spec,
Ci.nsIWebNavigation.LOAD_FLAGS_NONE, null, null,
submission.postData);
} else {
let params = {
postData: submission.postData,
inBackground: Services.prefs.getBoolPref("browser.tabs.loadInBackground"),
};
win.openUILinkIn(submission.uri.spec, where, params);
}
win.BrowserSearch.recordSearchInTelemetry(engine, data.healthReportKey,
data.selection || null);
return;
},
getSuggestions: Task.async(function* (engineName, searchString, browser, remoteTimeout=null) {
let engine = Services.search.getEngineByName(engineName);
if (!engine) {
throw new Error("Unknown engine name: " + engineName);
}
let browserData = this._suggestionDataForBrowser(browser, true);
let { controller } = browserData;
let ok = SearchSuggestionController.engineOffersSuggestions(engine);
controller.maxLocalResults = ok ? MAX_LOCAL_SUGGESTIONS : MAX_SUGGESTIONS;
controller.maxRemoteResults = ok ? MAX_SUGGESTIONS : 0;
controller.remoteTimeout = remoteTimeout || undefined;
let priv = PrivateBrowsingUtils.isBrowserPrivate(browser);
// fetch() rejects its promise if there's a pending request, but since we
// process our event queue serially, there's never a pending request.
this._currentSuggestion = { controller: controller, target: browser };
let suggestions = yield controller.fetch(searchString, priv, engine);
this._currentSuggestion = null;
// suggestions will be null if the request was cancelled
let result = {};
if (!suggestions) {
return result;
}
// Keep the form history result so RemoveFormHistoryEntry can remove entries
// from it. Keeping only one result isn't foolproof because the client may
// try to remove an entry from one set of suggestions after it has requested
// more but before it's received them. In that case, the entry may not
// appear in the new suggestions. But that should happen rarely.
browserData.previousFormHistoryResult = suggestions.formHistoryResult;
result = {
engineName,
term: suggestions.term,
local: suggestions.local,
remote: suggestions.remote,
};
return result;
}),
addFormHistoryEntry: Task.async(function* (browser, entry="") {
let isPrivate = false;
try {
// isBrowserPrivate assumes that the passed-in browser has all the normal
// properties, which won't be true if the browser has been destroyed.
// That may be the case here due to the asynchronous nature of messaging.
isPrivate = PrivateBrowsingUtils.isBrowserPrivate(browser.target);
} catch (err) {
return false;
}
if (isPrivate || entry === "") {
return false;
}
let browserData = this._suggestionDataForBrowser(browser.target, true);
FormHistory.update({
op: "bump",
fieldname: browserData.controller.formHistoryParam,
value: entry,
}, {
handleCompletion: () => {},
handleError: err => {
Cu.reportError("Error adding form history entry: " + err);
},
});
return true;
}),
currentStateObj: Task.async(function* (uriFlag=false) {
let state = {
engines: [],
currentEngine: yield this._currentEngineObj(),
};
if (uriFlag) {
state.currentEngine.iconBuffer = Services.search.currentEngine.getIconURLBySize(16, 16);
}
let pref = Services.prefs.getCharPref("browser.search.hiddenOneOffs");
let hiddenList = pref ? pref.split(",") : [];
for (let engine of Services.search.getVisibleEngines()) {
let uri = engine.getIconURLBySize(16, 16);
let iconBuffer = uri;
if (!uriFlag) {
iconBuffer = yield this._arrayBufferFromDataURI(uri);
}
state.engines.push({
name: engine.name,
iconBuffer,
hidden: hiddenList.indexOf(engine.name) !== -1,
});
}
return state;
}),
_processEventQueue: function () {
if (this._currentEventPromise || !this._eventQueue.length) {
return;
}
let event = this._eventQueue.shift();
this._currentEventPromise = Task.spawn(function* () {
try {
yield this["_on" + event.type](event.data);
} catch (err) {
Cu.reportError(err);
} finally {
this._currentEventPromise = null;
this._processEventQueue();
}
}.bind(this));
},
_cancelSuggestions: function (msg) {
let cancelled = false;
// cancel active suggestion request
if (this._currentSuggestion && this._currentSuggestion.target === msg.target) {
this._currentSuggestion.controller.stop();
cancelled = true;
}
// cancel queued suggestion requests
for (let i = 0; i < this._eventQueue.length; i++) {
let m = this._eventQueue[i].data;
if (msg.target === m.target && m.data.type === "GetSuggestions") {
this._eventQueue.splice(i, 1);
cancelled = true;
i--;
}
}
if (cancelled) {
this._reply(msg, "SuggestionsCancelled");
}
},
_onMessage: Task.async(function* (msg) {
let methodName = "_onMessage" + msg.data.type;
if (methodName in this) {
yield this._initService();
yield this[methodName](msg, msg.data.data);
msg.target.removeEventListener("SwapDocShells", msg, true);
}
}),
_onMessageGetState: function (msg, data) {
return this.currentStateObj().then(state => {
this._reply(msg, "State", state);
});
},
_onMessageGetStrings: function (msg, data) {
this._reply(msg, "Strings", this.searchSuggestionUIStrings);
},
_onMessageSearch: function (msg, data) {
this.performSearch(msg, data);
},
_onMessageSetCurrentEngine: function (msg, data) {
Services.search.currentEngine = Services.search.getEngineByName(data);
},
_onMessageManageEngines: function (msg, data) {
let browserWin = msg.target.ownerGlobal;
browserWin.openPreferences("paneSearch");
},
_onMessageGetSuggestions: Task.async(function* (msg, data) {
this._ensureDataHasProperties(data, [
"engineName",
"searchString",
]);
let {engineName, searchString} = data;
let suggestions = yield this.getSuggestions(engineName, searchString, msg.target);
this._reply(msg, "Suggestions", {
engineName: data.engineName,
searchString: suggestions.term,
formHistory: suggestions.local,
remote: suggestions.remote,
});
}),
_onMessageAddFormHistoryEntry: Task.async(function* (msg, entry) {
yield this.addFormHistoryEntry(msg, entry);
}),
_onMessageRemoveFormHistoryEntry: function (msg, entry) {
this.removeFormHistoryEntry(msg, entry);
},
_onMessageSpeculativeConnect: function (msg, engineName) {
let engine = Services.search.getEngineByName(engineName);
if (!engine) {
throw new Error("Unknown engine name: " + engineName);
}
if (msg.target.contentWindow) {
engine.speculativeConnect({
window: msg.target.contentWindow,
});
}
},
_onObserve: Task.async(function* (data) {
if (data === "engine-current") {
let engine = yield this._currentEngineObj();
this._broadcast("CurrentEngine", engine);
}
else if (data !== "engine-default") {
// engine-default is always sent with engine-current and isn't otherwise
// relevant to content searches.
let state = yield this.currentStateObj();
this._broadcast("CurrentState", state);
}
}),
_suggestionDataForBrowser: function (browser, create=false) {
let data = this._suggestionMap.get(browser);
if (!data && create) {
// Since one SearchSuggestionController instance is meant to be used per
// autocomplete widget, this means that we assume each xul:browser has at
// most one such widget.
data = {
controller: new SearchSuggestionController(),
};
this._suggestionMap.set(browser, data);
}
return data;
},
_reply: function (msg, type, data) {
// We reply asyncly to messages, and by the time we reply the browser we're
// responding to may have been destroyed. messageManager is null then.
if (msg.target.messageManager) {
msg.target.messageManager.sendAsyncMessage(...this._msgArgs(type, data));
}
},
_broadcast: function (type, data) {
Cc["@mozilla.org/globalmessagemanager;1"].
getService(Ci.nsIMessageListenerManager).
broadcastAsyncMessage(...this._msgArgs(type, data));
},
_msgArgs: function (type, data) {
return [OUTBOUND_MESSAGE, {
type: type,
data: data,
}];
},
_currentEngineObj: Task.async(function* () {
let engine = Services.search.currentEngine;
let favicon = engine.getIconURLBySize(16, 16);
let placeholder = this._stringBundle.formatStringFromName(
"searchWithEngine", [engine.name], 1);
let obj = {
name: engine.name,
placeholder: placeholder,
iconBuffer: yield this._arrayBufferFromDataURI(favicon),
};
return obj;
}),
_arrayBufferFromDataURI: function (uri) {
if (!uri) {
return Promise.resolve(null);
}
let deferred = Promise.defer();
let xhr = Cc["@mozilla.org/xmlextras/xmlhttprequest;1"].
createInstance(Ci.nsIXMLHttpRequest);
xhr.open("GET", uri, true);
xhr.responseType = "arraybuffer";
xhr.onload = () => {
deferred.resolve(xhr.response);
};
xhr.onerror = xhr.onabort = xhr.ontimeout = () => {
deferred.resolve(null);
};
try {
// This throws if the URI is erroneously encoded.
xhr.send();
}
catch (err) {
return Promise.resolve(null);
}
return deferred.promise;
},
_ensureDataHasProperties: function (data, requiredProperties) {
for (let prop of requiredProperties) {
if (!(prop in data)) {
throw new Error("Message data missing required property: " + prop);
}
}
},
_initService: function () {
if (!this._initServicePromise) {
let deferred = Promise.defer();
this._initServicePromise = deferred.promise;
Services.search.init(() => deferred.resolve());
}
return this._initServicePromise;
},
};