/* eslint no-var: 0 */ 'use strict'; (() => { if (typeof window.applyOnMessage === 'function') { // some weird bug in new Chrome: the content script gets injected multiple times return; } const CHROME = chrome.app ? parseInt(navigator.userAgent.match(/Chrom\w+\/(?:\d+\.){2}(\d+)|$/)[1]) : NaN; var ID_PREFIX = 'stylus-'; var ROOT = document.documentElement; var isOwnPage = location.protocol.endsWith('-extension:'); var disableAll = false; var exposeIframes = false; var styleElements = new Map(); var disabledElements = new Map(); var retiredStyleTimers = new Map(); var docRewriteObserver; var docRootObserver; // FF59+ bug workaround // See https://github.com/openstyles/stylus/issues/461 // Since it's easy to spoof the browser version in pre-Quantum FF we're checking // for getPreventDefault which got removed in FF59 https://bugzil.la/691151 const FF_BUG461 = !CHROME && !isOwnPage && !Event.prototype.getPreventDefault; const pageContextQueue = []; requestStyles(); chrome.runtime.onMessage.addListener(applyOnMessage); window.applyOnMessage = applyOnMessage; if (!isOwnPage) { window.dispatchEvent(new CustomEvent(chrome.runtime.id)); window.addEventListener(chrome.runtime.id, orphanCheck, true); } // FIXME: does it work with styleViaAPI? prefs.subscribe(['disableAll'], (key, value) => doDisableAll(value)); prefs.subscribe(['exposeIframes'], (key, value) => doExposeIframes(value)); function requestStyles(options, callback = applyStyles) { if (!chrome.app && document instanceof XMLDocument) { chrome.runtime.sendMessage({method: 'styleViaAPI', action: 'styleApply'}); return; } var matchUrl = location.href; if (!matchUrl.match(/^(http|file|chrome|ftp)/)) { // dynamic about: and javascript: iframes don't have an URL yet // so we'll try the parent frame which is guaranteed to have a real URL try { if (window !== parent) { matchUrl = parent.location.href; } } catch (e) {} } const request = Object.assign({ method: 'getStylesForFrame', asHash: true, matchUrl, }, options); // On own pages we request the styles directly to minimize delay and flicker if (typeof API === 'function') { API.getStyles(request).then(callback); } else if (!CHROME && getStylesFallback(request)) { // NOP } else { chrome.runtime.sendMessage(request, callback); } } /** * TODO: remove when FF fixes the bug. * Firefox borks sendMessage in same-origin iframes that have 'src' with a real path on the site. * We implement a workaround for the initial styleApply case only. * Everything else (like toggling of styles) is still buggy. * @param {Object} msg * @param {Function} callback * @returns {Boolean|undefined} */ function getStylesFallback(msg) { if (window !== parent && location.href !== 'about:blank') { try { if (parent.location.origin === location.origin && parent.location.href !== location.href) { chrome.runtime.connect({name: 'getStyles:' + JSON.stringify(msg)}); return true; } } catch (e) {} } } function applyOnMessage(request, sender, sendResponse) { if (request.styles === 'DIY') { // Do-It-Yourself tells our built-in pages to fetch the styles directly // which is faster because IPC messaging JSON-ifies everything internally requestStyles({}, styles => { request.styles = styles; applyOnMessage(request); }); return; } if (!chrome.app && document instanceof XMLDocument && request.method !== 'ping') { request.action = request.method; request.method = 'styleViaAPI'; request.styles = null; if (request.style) { request.style.sections = null; } chrome.runtime.sendMessage(request); return; } switch (request.method) { case 'styleDeleted': removeStyle(request); break; case 'styleUpdated': if (request.codeIsUpdated === false) { applyStyleState(request.style); break; } if (request.style.enabled) { removeStyle({id: request.style.id, retire: true}); requestStyles({id: request.style.id}); } else { removeStyle(request.style); } break; case 'styleAdded': if (request.style.enabled) { requestStyles({id: request.style.id}); } break; case 'styleApply': applyStyles(request.styles); break; case 'styleReplaceAll': replaceAll(request.styles); break; case 'ping': sendResponse(true); break; } } function doDisableAll(disable = disableAll) { if (!disable === !disableAll) { return; } disableAll = disable; Array.prototype.forEach.call(document.styleSheets, stylesheet => { if (stylesheet.ownerNode.matches(`style.stylus[id^="${ID_PREFIX}"]`) && stylesheet.disabled !== disable) { stylesheet.disabled = disable; } }); } function doExposeIframes(state = exposeIframes) { if (state === exposeIframes || state === true && typeof exposeIframes === 'string' || window === parent) { return; } exposeIframes = state; const attr = document.documentElement.getAttribute('stylus-iframe'); if (state && state !== attr) { document.documentElement.setAttribute('stylus-iframe', state); } else if (!state && attr !== undefined) { document.documentElement.removeAttribute('stylus-iframe'); } } function applyStyleState({id, enabled}) { const inCache = disabledElements.get(id) || styleElements.get(id); const inDoc = document.getElementById(ID_PREFIX + id); if (enabled) { if (inDoc) { return; } else if (inCache) { addStyleElement(inCache); disabledElements.delete(id); } else { requestStyles({id}); } } else { if (inDoc) { disabledElements.set(id, inDoc); docRootObserver.evade(() => inDoc.remove()); } } } function removeStyle({id, retire = false}) { const el = document.getElementById(ID_PREFIX + id); if (el) { if (retire) { // to avoid page flicker when the style is updated // instead of removing it immediately we rename its ID and queue it // to be deleted in applyStyles after a new version is fetched and applied const deadID = id + '-ghost'; el.id = ID_PREFIX + deadID; // in case something went wrong and new style was never applied retiredStyleTimers.set(deadID, setTimeout(removeStyle, 1000, {id: deadID})); } else { docRootObserver.evade(() => el.remove()); } } styleElements.delete(ID_PREFIX + id); disabledElements.delete(id); retiredStyleTimers.delete(id); } function applyStyles(styles) { if (!styles) { // Chrome is starting up requestStyles(); return; } if (!document.documentElement) { new MutationObserver((mutations, observer) => { if (document.documentElement) { observer.disconnect(); applyStyles(styles); } }).observe(document, {childList: true}); return; } if ('disableAll' in styles) { doDisableAll(styles.disableAll); } if ('exposeIframes' in styles) { doExposeIframes(styles.exposeIframes); } const gotNewStyles = styles.length || styles.needTransitionPatch; if (gotNewStyles) { if (docRootObserver) { docRootObserver.stop(); } else { initDocRootObserver(); } } if (styles.needTransitionPatch) { applyTransitionPatch(); } if (gotNewStyles) { for (const id in styles) { const sections = styles[id]; if (!Array.isArray(sections)) continue; applySections(id, sections.map(({code}) => code).join('\n')); } docRootObserver.firstStart(); } if (FF_BUG461 && (gotNewStyles || styles.needTransitionPatch)) { setContentsInPageContext(); } if (!isOwnPage && !docRewriteObserver && styleElements.size) { initDocRewriteObserver(); } if (retiredStyleTimers.size) { setTimeout(() => { for (const [id, timer] of retiredStyleTimers.entries()) { removeStyle({id}); clearTimeout(timer); } }); } } function applySections(styleId, code) { const id = ID_PREFIX + styleId; let el = styleElements.get(id) || document.getElementById(id); if (el && el.textContent !== code) { if (CHROME < 3321) { // workaround for Chrome devtools bug fixed in v65 el.remove(); el = null; } else if (FF_BUG461) { pageContextQueue.push({id: el.id, el, code}); } else { el.textContent = code; } } if (!el) { if (document.documentElement instanceof SVGSVGElement) { // SVG document style el = document.createElementNS('http://www.w3.org/2000/svg', 'style'); } else if (document instanceof XMLDocument) { // XML document style el = document.createElementNS('http://www.w3.org/1999/xhtml', 'style'); } else { // HTML document style; also works on HTML-embedded SVG el = document.createElement('style'); } el.id = id; el.type = 'text/css'; // SVG className is not a string, but an instance of SVGAnimatedString el.classList.add('stylus'); if (FF_BUG461) { pageContextQueue.push({id: el.id, el, code}); } else { el.textContent = code; } addStyleElement(el); } styleElements.set(id, el); disabledElements.delete(Number(styleId)); return el; } function setContentsInPageContext() { try { (document.head || ROOT).appendChild(document.createElement('script')).text = `(${queue => { document.currentScript.remove(); for (const {id, code} of queue) { const el = document.getElementById(id) || document.querySelector('style.stylus[id="' + id + '"]'); if (!el) continue; const {disabled} = el.sheet; el.textContent = code; el.sheet.disabled = disabled; } }})(${JSON.stringify(pageContextQueue)})`; } catch (e) {} let failedSome; for (const {el, code} of pageContextQueue) { if (el.textContent !== code) { el.textContent = code; failedSome = true; } } if (failedSome) { console.debug('Could not set code of some styles in page context, ' + 'see https://github.com/openstyles/stylus/issues/461'); } pageContextQueue.length = 0; } function addStyleElement(newElement) { if (!ROOT) { return; } let next; const newStyleId = getStyleId(newElement); for (const el of styleElements.values()) { if (el.parentNode && !el.id.endsWith('-ghost') && getStyleId(el) > newStyleId) { next = el.parentNode === ROOT ? el : null; break; } } if (next === newElement.nextElementSibling) { return; } docRootObserver.evade(() => { ROOT.insertBefore(newElement, next || null); if (disableAll) { newElement.disabled = true; } }); } function replaceAll(newStyles) { if ('disableAll' in newStyles && disableAll === newStyles.disableAll && styleElements.size === countStylesInHash(newStyles) && [...styleElements.values()].every(el => el.disabled === disableAll && el.parentNode === ROOT && el.textContent === (newStyles[getStyleId(el)] || []).map(({code}) => code).join('\n'))) { return; } const oldStyles = Array.prototype.slice.call( document.querySelectorAll(`style.stylus[id^="${ID_PREFIX}"]`)); oldStyles.forEach(el => (el.id += '-ghost')); styleElements.clear(); disabledElements.clear(); [...retiredStyleTimers.values()].forEach(clearTimeout); retiredStyleTimers.clear(); applyStyles(newStyles); docRootObserver.evade(() => oldStyles.forEach(el => el.remove())); } function applyTransitionPatch() { // CSS transition bug workaround: since we insert styles asynchronously, // the browsers, especially Firefox, may apply all transitions on page load const className = chrome.runtime.id + '-transition-bug-fix'; const docId = document.documentElement.id ? '#' + document.documentElement.id : ''; document.documentElement.classList.add(className); applySections(0, ` ${docId}.${className}:root * { transition: none !important; } `); setTimeout(() => { removeStyle({id: 0}); document.documentElement.classList.remove(className); }); } function getStyleId(el) { return parseInt(el.id.substr(ID_PREFIX.length)); } function countStylesInHash(styleHash) { let num = 0; for (const k in styleHash) { num += !isNaN(parseInt(k)) ? 1 : 0; } return num; } function orphanCheck() { if (chrome.i18n && chrome.i18n.getUILanguage()) { return true; } // In Chrome content script is orphaned on an extension update/reload // so we need to detach event listeners [docRewriteObserver, docRootObserver].forEach(ob => ob && ob.disconnect()); window.removeEventListener(chrome.runtime.id, orphanCheck, true); try { chrome.runtime.onMessage.removeListener(applyOnMessage); } catch (e) {} } function initDocRewriteObserver() { // detect documentElement being rewritten from inside the script docRewriteObserver = new MutationObserver(mutations => { for (let m = mutations.length; --m >= 0;) { const added = mutations[m].addedNodes; for (let n = added.length; --n >= 0;) { if (added[n].localName === 'html') { reinjectStyles(); return; } } } }); docRewriteObserver.observe(document, {childList: true}); // detect dynamic iframes rewritten after creation by the embedder i.e. externally setTimeout(() => { if (document.documentElement !== ROOT) { reinjectStyles(); } }); // re-add styles if we detect documentElement being recreated function reinjectStyles() { if (!styleElements) { orphanCheck(); return; } ROOT = document.documentElement; docRootObserver.stop(); const imported = []; for (const [id, el] of styleElements.entries()) { const copy = document.importNode(el, true); el.textContent += ' '; // invalidate CSSOM cache imported.push([id, copy]); addStyleElement(copy); } docRootObserver.start(); styleElements = new Map(imported); } } function initDocRootObserver() { let lastRestorationTime = 0; let restorationCounter = 0; let observing = false; let sorting = false; let observer; // allow any types of elements between ours, except for the following: const ORDERED_TAGS = ['head', 'body', 'frameset', 'style', 'link']; init(); return; function init() { observer = new MutationObserver(sortStyleElements); docRootObserver = {firstStart, start, stop, evade, disconnect: stop}; setTimeout(sortStyleElements); } function firstStart() { if (sortStyleMap()) { sortStyleElements(); } start(); } function start() { if (!observing && ROOT && observer) { observer.observe(ROOT, {childList: true}); observing = true; } } function stop() { if (observing) { observer.takeRecords(); observer.disconnect(); observing = false; } } function evade(fn) { const wasObserving = observing; if (observing) { stop(); } fn(); if (wasObserving) { start(); } } function sortStyleMap() { const list = []; let prevStyleId = 0; let needsSorting = false; for (const entry of styleElements.entries()) { list.push(entry); const el = entry[1]; const styleId = getStyleId(el); el.styleId = styleId; needsSorting |= styleId < prevStyleId; prevStyleId = styleId; } if (needsSorting) { styleElements = new Map(list.sort((a, b) => a[1].styleId - b[1].styleId)); return true; } } function sortStyleElements() { if (!observing) return; let prevExpected = document.documentElement.lastElementChild; while (prevExpected && isSkippable(prevExpected, true)) { prevExpected = prevExpected.previousElementSibling; } if (!prevExpected) return; for (const el of styleElements.values()) { if (!isMovable(el)) { continue; } while (true) { const next = prevExpected.nextElementSibling; if (next && isSkippable(next)) { prevExpected = next; } else if ( next === el || next === el.previousElementSibling && next || moveAfter(el, next || prevExpected)) { prevExpected = el; break; } else { return; } } } if (sorting) { sorting = false; if (observer) observer.takeRecords(); if (!restorationLimitExceeded()) { start(); } else { setTimeout(start, 1000); } } } function isMovable(el) { return el.parentNode || !disabledElements.has(getStyleId(el)); } function isSkippable(el, skipOwnStyles) { return !ORDERED_TAGS.includes(el.localName) || el.id.startsWith(ID_PREFIX) && (skipOwnStyles || el.id.endsWith('-ghost')) && el.localName === 'style' && el.className === 'stylus'; } function moveAfter(el, expected) { if (!sorting) { sorting = true; stop(); } expected.insertAdjacentElement('afterend', el); if (el.disabled !== disableAll) { // moving an element resets its 'disabled' state el.disabled = disableAll; } return true; } function restorationLimitExceeded() { const t = performance.now(); if (t - lastRestorationTime > 1000) { restorationCounter = 0; } lastRestorationTime = t; return ++restorationCounter > 5; } } })();