/* -*- mode: js; indent-tabs-mode: nil; js-indent-level: 2 -*- */ /* 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/. */ import { XPCOMUtils } from "resource://gre/modules/XPCOMUtils.sys.mjs"; const lazy = {}; XPCOMUtils.defineLazyPreferenceGetter( lazy, "trimHttps", "browser.urlbar.trimHttps" ); export var BrowserUIUtils = { /** * Check whether a page can be considered as 'empty', that its URI * reflects its origin, and that if it's loaded in a tab, that tab * could be considered 'empty' (e.g. like the result of opening * a 'blank' new tab). * * We have to do more than just check the URI, because especially * for things like about:blank, it is possible that the opener or * some other page has control over the contents of the page. * * @param {Browser} browser * The browser whose page we're checking. * @param {nsIURI} [uri] * The URI against which we're checking (the browser's currentURI * if omitted). * * @return {boolean} false if the page was opened by or is controlled by * arbitrary web content, unless that content corresponds with the URI. * true if the page is blank and controlled by a principal matching * that URI (or the system principal if the principal has no URI) */ checkEmptyPageOrigin(browser, uri = browser.currentURI) { // If another page opened this page with e.g. window.open, this page might // be controlled by its opener. if (browser.hasContentOpener) { return false; } let contentPrincipal = browser.contentPrincipal; // Not all principals have URIs... // There are two special-cases involving about:blank. One is where // the user has manually loaded it and it got created with a null // principal. The other involves the case where we load // some other empty page in a browser and the current page is the // initial about:blank page (which has that as its principal, not // just URI in which case it could be web-based). Especially in // e10s, we need to tackle that case specifically to avoid race // conditions when updating the URL bar. // // Note that we check the documentURI here, since the currentURI on // the browser might have been set by SessionStore in order to // support switch-to-tab without having actually loaded the content // yet. let uriToCheck = browser.documentURI || uri; if ( (uriToCheck.spec == "about:blank" && contentPrincipal.isNullPrincipal) || contentPrincipal.spec == "about:blank" ) { return true; } if (contentPrincipal.isContentPrincipal) { return contentPrincipal.equalsURI(uri); } // ... so for those that don't have them, enforce that the page has the // system principal (this matches e.g. on about:newtab). return contentPrincipal.isSystemPrincipal; }, /** * Generate a document fragment for a localized string that has DOM * node replacements. This avoids using getFormattedString followed * by assigning to innerHTML. Fluent can probably replace this when * it is in use everywhere. * * @param {Document} doc * @param {String} msg * The string to put replacements in. Fetch from * a stringbundle using getString or GetStringFromName, * or even an inserted dtd string. * @param {Node|String} nodesOrStrings * The replacement items. Can be a mix of Nodes * and Strings. However, for correct behaviour, the * number of items provided needs to exactly match * the number of replacement strings in the l10n string. * @returns {DocumentFragment} * A document fragment. In the trivial case (no * replacements), this will simply be a fragment with 1 * child, a text node containing the localized string. */ getLocalizedFragment(doc, msg, ...nodesOrStrings) { // Ensure replacement points are indexed: for (let i = 1; i <= nodesOrStrings.length; i++) { if (!msg.includes("%" + i + "$S")) { msg = msg.replace(/%S/, "%" + i + "$S"); } } let numberOfInsertionPoints = msg.match(/%\d+\$S/g).length; if (numberOfInsertionPoints != nodesOrStrings.length) { console.error( `Message has ${numberOfInsertionPoints} insertion points, ` + `but got ${nodesOrStrings.length} replacement parameters!` ); } let fragment = doc.createDocumentFragment(); let parts = [msg]; let insertionPoint = 1; for (let replacement of nodesOrStrings) { let insertionString = "%" + insertionPoint++ + "$S"; let partIndex = parts.findIndex( part => typeof part == "string" && part.includes(insertionString) ); if (partIndex == -1) { fragment.appendChild(doc.createTextNode(msg)); return fragment; } if (typeof replacement == "string") { parts[partIndex] = parts[partIndex].replace( insertionString, replacement ); } else { let [firstBit, lastBit] = parts[partIndex].split(insertionString); parts.splice(partIndex, 1, firstBit, replacement, lastBit); } } // Put everything in a document fragment: for (let part of parts) { if (typeof part == "string") { if (part) { fragment.appendChild(doc.createTextNode(part)); } } else { fragment.appendChild(part); } } return fragment; }, removeSingleTrailingSlashFromURL(aURL) { // remove single trailing slash for http/https/ftp URLs return aURL.replace(/^((?:http|https|ftp):\/\/[^/]+)\/$/, "$1"); }, get trimURLProtocol() { return lazy.trimHttps ? "https://" : "http://"; }, /** * Returns a URL which has been trimmed by removing 'http://' or 'https://', * when the pref 'trimHttps' is set to true, and any trailing slash * (in http/https/ftp urls). Note that a trimmed url may not load the same * page as the original url, so before loading it, it must be passed through * URIFixup, to check trimming doesn't change its destination. We don't run * the URIFixup check here, because trimURL is in the page load path * (see onLocationChange), so it must be fast and simple. * * @param {string} aURL The URL to trim. * @returns {string} The trimmed string. */ trimURL(aURL) { let url = this.removeSingleTrailingSlashFromURL(aURL); return url.startsWith(this.trimURLProtocol) ? url.substring(this.trimURLProtocol.length) : url; }, }; XPCOMUtils.defineLazyPreferenceGetter( BrowserUIUtils, "quitShortcutDisabled", "browser.quitShortcut.disabled", false );