// Not using some slow features of ES6, see http://kpdecker.github.io/six-speed/ // like destructring, classes, defaults, spread, calculated key names /* eslint no-var: 0 */ 'use strict'; var ID_PREFIX = 'stylus-'; var ROOT = document.documentElement; var isOwnPage = location.href.startsWith('chrome-extension:'); var disableAll = false; var styleElements = new Map(); var disabledElements = new Map(); var retiredStyleTimers = new Map(); var docRewriteObserver; requestStyles(); chrome.runtime.onMessage.addListener(applyOnMessage); if (!isOwnPage) { window.dispatchEvent(new CustomEvent(chrome.runtime.id)); window.addEventListener(chrome.runtime.id, orphanCheck, true); } function requestStyles(options, callback = applyStyles) { 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: 'getStyles', matchUrl, enabled: true, asHash: true, }, options); // If this is a Stylish page (Edit Style or Manage Styles), // we'll request the styles directly to minimize delay and flicker, // unless Chrome is still starting up and the background page isn't fully loaded. // (Note: in this case the function may be invoked again from applyStyles.) if (typeof getStylesSafe !== 'undefined') { getStylesSafe(request).then(callback); } else { chrome.runtime.sendMessage(request, callback); } } 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; } 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 'prefChanged': if ('disableAll' in request.prefs) { doDisableAll(request.prefs.disableAll); } break; case 'ping': sendResponse(true); break; } } function doDisableAll(disable) { 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 applyStyleState({id, enabled}) { const inCache = disabledElements.get(id) || styleElements.get(id); const inDoc = document.getElementById(ID_PREFIX + id); if (enabled && inDoc || !enabled && !inDoc) { return; } if (enabled && !inDoc && !inCache) { requestStyles({id}); return; } if (enabled && inCache) { addStyleElement(inCache); disabledElements.delete(id); return; } if (!enabled && inDoc) { disabledElements.set(id, inDoc); inDoc.remove(); if (document.location.href == 'about:srcdoc') { const original = document.getElementById(ID_PREFIX + id); if (original) { original.remove(); } } return; } } 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 = 'ghost-' + id; 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 { 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 ('disableAll' in styles) { doDisableAll(styles.disableAll); delete styles.disableAll; } if (document.head && document.head.firstChild && document.head.firstChild.id == 'xml-viewer-style') { // when site response is application/xml Chrome displays our style elements // under document.documentElement as plain text so we need to move them into HEAD // which is already autogenerated at this moment ROOT = document.head; } for (const id in styles) { applySections(id, styles[id]); } initDocRewriteObserver(); if (retiredStyleTimers.size) { setTimeout(() => { for (const [id, timer] of retiredStyleTimers.entries()) { removeStyle({id}); clearTimeout(timer); } }); } } function applySections(styleId, sections) { let el = document.getElementById(ID_PREFIX + styleId); if (el) { return; } if (document.documentElement instanceof SVGSVGElement) { // SVG document, make an SVG style element. el = document.createElementNS('http://www.w3.org/2000/svg', 'style'); } else if (document instanceof XMLDocument) { el = document.createElementNS('http://www.w3.org/1999/xhtml', 'style'); } else { // This will make an HTML style element. If there's SVG embedded in an HTML document, this works on the SVG too. el = document.createElement('style'); } Object.assign(el, { id: ID_PREFIX + styleId, className: 'stylus', type: 'text/css', textContent: sections.map(section => section.code).join('\n'), }); addStyleElement(el); styleElements.set(el.id, el); disabledElements.delete(styleId); } function addStyleElement(el) { if (ROOT && !document.getElementById(el.id)) { ROOT.appendChild(el); el.disabled = disableAll; } } function replaceAll(newStyles) { const oldStyles = Array.prototype.slice.call( document.querySelectorAll(`STYLE.stylus[id^="${ID_PREFIX}"]`)); oldStyles.forEach(el => (el.id += '-ghost')); styleElements.clear(); disabledElements.clear(); retiredStyleTimers.clear(); applyStyles(newStyles); oldStyles.forEach(el => el.remove()); } function initDocRewriteObserver() { if (isOwnPage || docRewriteObserver || !styleElements.size) { return; } // re-add styles if we detect documentElement being recreated const reinjectStyles = () => { ROOT = document.documentElement; for (const el of styleElements.values()) { addStyleElement(document.importNode(el, true)); } }; // detect documentElement being rewritten from inside the script docRewriteObserver = new MutationObserver(mutations => { for (const mutation of mutations) { for (const node of mutation.addedNodes) { if (node.localName == 'html') { reinjectStyles(); return; } } } }); docRewriteObserver.observe(document, {childList: true}); // detect dynamic iframes rewritten after creation by the embedder i.e. externally setTimeout(() => document.documentElement != ROOT && reinjectStyles()); } function orphanCheck() { const port = chrome.runtime.connect(); if (port) { port.disconnect(); return; } // we're orphaned due to an extension update // we can detach the mutation observer if (docRewriteObserver) { docRewriteObserver.disconnect(); } // we can detach event listeners window.removeEventListener(chrome.runtime.id, orphanCheck, true); // we can't detach chrome.runtime.onMessage because it's no longer connected internally // we can destroy our globals in this context to free up memory [ // functions 'addStyleElement', 'applyOnMessage', 'applySections', 'applyStyles', 'applyStyleState', 'doDisableAll', 'initDocRewriteObserver', 'orphanCheck', 'removeStyle', 'replaceAll', 'requestStyles', // variables 'ROOT', 'disabledElements', 'retiredStyleTimers', 'styleElements', 'docRewriteObserver', ].forEach(fn => (window[fn] = null)); }