/* 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 Services = require("Services"); const protocol = require("devtools/shared/protocol"); const { getCSSLexer } = require("devtools/shared/css/lexer"); const { LongStringActor } = require("devtools/server/actors/string"); const InspectorUtils = require("InspectorUtils"); const TrackChangeEmitter = require("devtools/server/actors/utils/track-change-emitter"); const { pageStyleSpec } = require("devtools/shared/specs/page-style"); const { style: { ELEMENT_STYLE }, } = require("devtools/shared/constants"); const { TYPES, getResourceWatcher, } = require("devtools/server/actors/resources/index"); loader.lazyRequireGetter( this, "StyleRuleActor", "devtools/server/actors/style-rule", true ); loader.lazyRequireGetter( this, "getFontPreviewData", "devtools/server/actors/utils/style-utils", true ); loader.lazyRequireGetter( this, "CssLogic", "devtools/server/actors/inspector/css-logic", true ); loader.lazyRequireGetter( this, "SharedCssLogic", "devtools/shared/inspector/css-logic" ); loader.lazyRequireGetter( this, "getDefinedGeometryProperties", "devtools/server/actors/highlighters/geometry-editor", true ); loader.lazyRequireGetter( this, "UPDATE_GENERAL", "devtools/server/actors/style-sheet", true ); loader.lazyGetter(this, "PSEUDO_ELEMENTS", () => { return InspectorUtils.getCSSPseudoElementNames(); }); loader.lazyGetter(this, "FONT_VARIATIONS_ENABLED", () => { return Services.prefs.getBoolPref("layout.css.font-variations.enabled"); }); const XHTML_NS = "http://www.w3.org/1999/xhtml"; const NORMAL_FONT_WEIGHT = 400; const BOLD_FONT_WEIGHT = 700; /** * The PageStyle actor lets the client look at the styles on a page, as * they are applied to a given node. */ var PageStyleActor = protocol.ActorClassWithSpec(pageStyleSpec, { /** * Create a PageStyleActor. * * @param inspector * The InspectorActor that owns this PageStyleActor. * * @constructor */ initialize: function(inspector) { protocol.Actor.prototype.initialize.call(this, null); this.inspector = inspector; if (!this.inspector.walker) { throw Error( "The inspector's WalkerActor must be created before " + "creating a PageStyleActor." ); } this.walker = inspector.walker; this.cssLogic = new CssLogic(); // Stores the association of DOM objects -> actors this.refMap = new Map(); // Latest node queried for its applied styles. this.selectedElement = null; // Maps document elements to style elements, used to add new rules. this.styleElements = new WeakMap(); this.onFrameUnload = this.onFrameUnload.bind(this); this.onStyleSheetAdded = this.onStyleSheetAdded.bind(this); this.inspector.targetActor.on("will-navigate", this.onFrameUnload); this.inspector.targetActor.on("stylesheet-added", this.onStyleSheetAdded); this._observedRules = []; this._styleApplied = this._styleApplied.bind(this); this._watchedSheets = new Set(); const watcher = getResourceWatcher( this.inspector.targetActor, TYPES.STYLESHEET ); if (watcher) { this.styleSheetWatcher = watcher; this.onResourceUpdated = this.onResourceUpdated.bind(this); this.inspector.targetActor.on( "resource-updated-form", this.onResourceUpdated ); } }, destroy: function() { if (!this.walker) { return; } protocol.Actor.prototype.destroy.call(this); this.inspector.targetActor.off("will-navigate", this.onFrameUnload); this.inspector.targetActor.off("stylesheet-added", this.onStyleSheetAdded); this.inspector = null; this.walker = null; this.refMap = null; this.selectedElement = null; this.cssLogic = null; this.styleElements = null; for (const sheet of this._watchedSheets) { sheet.off("style-applied", this._styleApplied); } this._observedRules = []; this._watchedSheets.clear(); }, get conn() { return this.inspector.conn; }, get ownerWindow() { return this.inspector.targetActor.window; }, form: function() { // We need to use CSS from the inspected window in order to use CSS.supports() and // detect the right platform features from there. const CSS = this.inspector.targetActor.window.CSS; return { actor: this.actorID, traits: { // Whether the page supports values of font-stretch from CSS Fonts Level 4. fontStretchLevel4: CSS.supports("font-stretch: 100%"), // Whether the page supports values of font-style from CSS Fonts Level 4. fontStyleLevel4: CSS.supports("font-style: oblique 20deg"), // Whether getAllUsedFontFaces/getUsedFontFaces accepts the includeVariations // argument. fontVariations: FONT_VARIATIONS_ENABLED, // Whether the page supports values of font-weight from CSS Fonts Level 4. // font-weight at CSS Fonts Level 4 accepts values in increments of 1 rather // than 100. However, CSS.supports() returns false positives, so we guard with the // expected support of font-stretch at CSS Fonts Level 4. fontWeightLevel4: CSS.supports("font-weight: 1") && CSS.supports("font-stretch: 100%"), }, }; }, /** * Called when a style sheet is updated. */ _styleApplied: function(kind, styleSheet) { // No matter what kind of update is done, we need to invalidate // the keyframe cache. this.cssLogic.reset(); if (kind === UPDATE_GENERAL) { this.emit("stylesheet-updated"); } }, /** * Return or create a StyleRuleActor for the given item. * @param item Either a CSSStyleRule or a DOM element. */ _styleRef: function(item) { if (this.refMap.has(item)) { return this.refMap.get(item); } const actor = StyleRuleActor(this, item); this.manage(actor); this.refMap.set(item, actor); return actor; }, /** * Update the association between a StyleRuleActor and its * corresponding item. This is used when a StyleRuleActor updates * as style sheet and starts using a new rule. * * @param oldItem The old association; either a CSSStyleRule or a * DOM element. * @param item Either a CSSStyleRule or a DOM element. * @param actor a StyleRuleActor */ updateStyleRef: function(oldItem, item, actor) { this.refMap.delete(oldItem); this.refMap.set(item, actor); }, /** * Return or create a StyleSheetActor for the given CSSStyleSheet. * @param {CSSStyleSheet} sheet * The style sheet to create an actor for. * @return {StyleSheetActor} * The actor for this style sheet */ _sheetRef: function(sheet) { if (this.styleSheetWatcher) { // We need to clean up this function in bug 1672090 when server-side stylesheet // watcher is enabled. console.warn( "This function should not be called when server-side stylesheet watcher is enabled" ); } const targetActor = this.inspector.targetActor; const actor = targetActor.createStyleSheetActor(sheet); return actor; }, /** * Get the StyleRuleActor matching the given rule id or null if no match is found. * * @param {String} ruleId * Actor ID of the StyleRuleActor * @return {StyleRuleActor|null} */ getRule: function(ruleId) { let match = null; for (const actor of this.refMap.values()) { if (actor.actorID === ruleId) { match = actor; continue; } } return match; }, /** * Get the computed style for a node. * * @param NodeActor node * @param object options * `filter`: A string filter that affects the "matched" handling. * 'user': Include properties from user style sheets. * 'ua': Include properties from user and user-agent sheets. * Default value is 'ua' * `markMatched`: true if you want the 'matched' property to be added * when a computed property has been modified by a style included * by `filter`. * `onlyMatched`: true if unmatched properties shouldn't be included. * `filterProperties`: An array of properties names that you would like * returned. * * @returns a JSON blob with the following form: * { * "property-name": { * value: "property-value", * priority: "!important" * matched: * }, * ... * } */ getComputed: function(node, options) { const ret = Object.create(null); this.cssLogic.sourceFilter = options.filter || SharedCssLogic.FILTER.UA; this.cssLogic.highlight(node.rawNode); const computed = this.cssLogic.computedStyle || []; Array.prototype.forEach.call(computed, name => { if ( Array.isArray(options.filterProperties) && !options.filterProperties.includes(name) ) { return; } ret[name] = { value: computed.getPropertyValue(name), priority: computed.getPropertyPriority(name) || undefined, }; }); if (options.markMatched || options.onlyMatched) { const matched = this.cssLogic.hasMatchedSelectors(Object.keys(ret)); for (const key in ret) { if (matched[key]) { ret[key].matched = options.markMatched ? true : undefined; } else if (options.onlyMatched) { delete ret[key]; } } } return ret; }, /** * Get all the fonts from a page. * * @param object options * `includePreviews`: Whether to also return image previews of the fonts. * `previewText`: The text to display in the previews. * `previewFontSize`: The font size of the text in the previews. * * @returns object * object with 'fontFaces', a list of fonts that apply to this node. */ getAllUsedFontFaces: function(options) { const windows = this.inspector.targetActor.windows; let fontsList = []; for (const win of windows) { // Fall back to the documentElement for XUL documents. const node = win.document.body ? win.document.body : win.document.documentElement; fontsList = [...fontsList, ...this.getUsedFontFaces(node, options)]; } return fontsList; }, /** * Get the font faces used in an element. * * @param NodeActor node / actual DOM node * The node to get fonts from. * @param object options * `includePreviews`: Whether to also return image previews of the fonts. * `previewText`: The text to display in the previews. * `previewFontSize`: The font size of the text in the previews. * * @returns object * object with 'fontFaces', a list of fonts that apply to this node. */ getUsedFontFaces: function(node, options) { // node.rawNode is defined for NodeActor objects const actualNode = node.rawNode || node; const contentDocument = actualNode.ownerDocument; // We don't get fonts for a node, but for a range const rng = contentDocument.createRange(); const isPseudoElement = Boolean( CssLogic.getBindingElementAndPseudo(actualNode).pseudo ); if (isPseudoElement) { rng.selectNodeContents(actualNode); } else { rng.selectNode(actualNode); } const fonts = InspectorUtils.getUsedFontFaces(rng); const fontsArray = []; for (let i = 0; i < fonts.length; i++) { const font = fonts[i]; const fontFace = { name: font.name, CSSFamilyName: font.CSSFamilyName, CSSGeneric: font.CSSGeneric || null, srcIndex: font.srcIndex, URI: font.URI, format: font.format, localName: font.localName, metadata: font.metadata, }; // If this font comes from a @font-face rule if (font.rule) { const styleActor = StyleRuleActor(this, font.rule); this.manage(styleActor); fontFace.rule = styleActor; fontFace.ruleText = font.rule.cssText; } // Get the weight and style of this font for the preview and sort order let weight = NORMAL_FONT_WEIGHT, style = ""; if (font.rule) { weight = font.rule.style.getPropertyValue("font-weight") || NORMAL_FONT_WEIGHT; if (weight == "bold") { weight = BOLD_FONT_WEIGHT; } else if (weight == "normal") { weight = NORMAL_FONT_WEIGHT; } style = font.rule.style.getPropertyValue("font-style") || ""; } fontFace.weight = weight; fontFace.style = style; if (options.includePreviews) { const opts = { previewText: options.previewText, previewFontSize: options.previewFontSize, fontStyle: weight + " " + style, fillStyle: options.previewFillStyle, }; const { dataURL, size } = getFontPreviewData( font.CSSFamilyName, contentDocument, opts ); fontFace.preview = { data: LongStringActor(this.conn, dataURL), size: size, }; } if (options.includeVariations && FONT_VARIATIONS_ENABLED) { fontFace.variationAxes = font.getVariationAxes(); fontFace.variationInstances = font.getVariationInstances(); } fontsArray.push(fontFace); } // @font-face fonts at the top, then alphabetically, then by weight fontsArray.sort(function(a, b) { return a.weight > b.weight ? 1 : -1; }); fontsArray.sort(function(a, b) { if (a.CSSFamilyName == b.CSSFamilyName) { return 0; } return a.CSSFamilyName > b.CSSFamilyName ? 1 : -1; }); fontsArray.sort(function(a, b) { if ((a.rule && b.rule) || (!a.rule && !b.rule)) { return 0; } return !a.rule && b.rule ? 1 : -1; }); return fontsArray; }, /** * Get a list of selectors that match a given property for a node. * * @param NodeActor node * @param string property * @param object options * `filter`: A string filter that affects the "matched" handling. * 'user': Include properties from user style sheets. * 'ua': Include properties from user and user-agent sheets. * Default value is 'ua' * * @returns a JSON object with the following form: * { * // An ordered list of rules that apply * matched: [{ * rule: , * sourceText: , // The source of the selector, relative * // to the node in question. * selector: , // the selector ID that matched * value: , // the value of the property * status: , * // The status of the match - high numbers are better placed * // to provide styling information: * // 3: Best match, was used. * // 2: Matched, but was overridden. * // 1: Rule from a parent matched. * // 0: Unmatched (never returned in this API) * }, ...], * * // The full form of any domrule referenced. * rules: [ , ... ], // The full form of any domrule referenced * * // The full form of any sheets referenced. * sheets: [ , ... ] * } */ getMatchedSelectors: function(node, property, options) { this.cssLogic.sourceFilter = options.filter || SharedCssLogic.FILTER.UA; this.cssLogic.highlight(node.rawNode); const rules = new Set(); const sheets = new Set(); const matched = []; const propInfo = this.cssLogic.getPropertyInfo(property); for (const selectorInfo of propInfo.matchedSelectors) { const cssRule = selectorInfo.selector.cssRule; const domRule = cssRule.sourceElement || cssRule.domRule; const rule = this._styleRef(domRule); rules.add(rule); matched.push({ rule: rule, sourceText: this.getSelectorSource(selectorInfo, node.rawNode), selector: selectorInfo.selector.text, name: selectorInfo.property, value: selectorInfo.value, status: selectorInfo.status, }); } this.expandSets(rules, sheets); return { matched: matched, rules: [...rules], sheets: [...sheets], }; }, // Get a selector source for a CssSelectorInfo relative to a given // node. getSelectorSource: function(selectorInfo, relativeTo) { let result = selectorInfo.selector.text; if (selectorInfo.inlineStyle) { const source = selectorInfo.sourceElement; if (source === relativeTo) { result = "this"; } else { result = CssLogic.getShortName(source); } result += ".style"; } return result; }, /** * Get the set of styles that apply to a given node. * @param NodeActor node * @param object options * `filter`: A string filter that affects the "matched" handling. * 'user': Include properties from user style sheets. * 'ua': Include properties from user and user-agent sheets. * Default value is 'ua' * `inherited`: Include styles inherited from parent nodes. * `matchedSelectors`: Include an array of specific selectors that * caused this rule to match its node. * `skipPseudo`: Exclude styles applied to pseudo elements of the provided node. */ async getApplied(node, options) { // Clear any previous references to StyleRuleActor instances for CSS rules. // Assume the consumer has switched context to a new node and no longer // interested in state changes of previous rules. this._observedRules = []; this.selectedElement = node.rawNode; if (!node) { return { entries: [], rules: [], sheets: [] }; } this.cssLogic.highlight(node.rawNode); let entries = []; entries = entries.concat( this._getAllElementRules(node, undefined, options) ); const result = this.getAppliedProps(node, entries, options); for (const rule of result.rules) { // See the comment in |form| to understand this. await rule.getAuthoredCssText(); } // Reference to instances of StyleRuleActor for CSS rules matching the node. // Assume these are used by a consumer which wants to be notified when their // state or declarations change either directly or indirectly. this._observedRules = result.rules; return result; }, _hasInheritedProps: function(style) { return Array.prototype.some.call(style, prop => { return InspectorUtils.isInheritedProperty(prop); }); }, async isPositionEditable(node) { if (!node || node.rawNode.nodeType !== node.rawNode.ELEMENT_NODE) { return false; } const props = getDefinedGeometryProperties(node.rawNode); // Elements with only `width` and `height` are currently not considered // editable. return ( props.has("top") || props.has("right") || props.has("left") || props.has("bottom") ); }, /** * Helper function for getApplied, gets all the rules from a given * element. See getApplied for documentation on parameters. * @param NodeActor node * @param bool inherited * @param object options * @return Array The rules for a given element. Each item in the * array has the following signature: * - rule RuleActor * - isSystem Boolean * - inherited Boolean * - pseudoElement String */ _getAllElementRules: function(node, inherited, options) { const { bindingElement, pseudo } = CssLogic.getBindingElementAndPseudo( node.rawNode ); const rules = []; if (!bindingElement || !bindingElement.style) { return rules; } const elementStyle = this._styleRef(bindingElement); const showElementStyles = !inherited && !pseudo; const showInheritedStyles = inherited && this._hasInheritedProps(bindingElement.style); const rule = { rule: elementStyle, pseudoElement: null, isSystem: false, inherited: false, }; // First any inline styles if (showElementStyles) { rules.push(rule); } // Now any inherited styles if (showInheritedStyles) { rule.inherited = inherited; rules.push(rule); } // Add normal rules. Typically this is passing in the node passed into the // function, unless if that node was ::before/::after. In which case, // it will pass in the parentNode along with "::before"/"::after". this._getElementRules(bindingElement, pseudo, inherited, options).forEach( oneRule => { // The only case when there would be a pseudo here is // ::before/::after, and in this case we want to tell the // view that it belongs to the element (which is a // _moz_generated_content native anonymous element). oneRule.pseudoElement = null; rules.push(oneRule); } ); // Now any pseudos. if (showElementStyles && !options.skipPseudo) { for (const readPseudo of PSEUDO_ELEMENTS) { if (this._pseudoIsRelevant(bindingElement, readPseudo)) { this._getElementRules( bindingElement, readPseudo, inherited, options ).forEach(oneRule => { rules.push(oneRule); }); } } } return rules; }, _nodeIsTextfieldLike(node) { if (node.nodeName == "TEXTAREA") { return true; } return ( node.mozIsTextField && (node.mozIsTextField(false) || node.type == "number") ); }, _nodeIsButtonLike(node) { if (node.nodeName == "BUTTON") { return true; } return ( node.nodeName == "INPUT" && ["submit", "color", "button"].includes(node.type) ); }, _nodeIsListItem(node) { const display = CssLogic.getComputedStyle(node).getPropertyValue("display"); // This is written this way to handle `inline list-item` and such. return display.split(" ").includes("list-item"); }, // eslint-disable-next-line complexity _pseudoIsRelevant(node, pseudo) { switch (pseudo) { case ":after": case ":before": case ":first-letter": case ":first-line": case ":selection": return true; case ":marker": return this._nodeIsListItem(node); case ":backdrop": return node.matches(":fullscreen"); case ":cue": return node.nodeName == "VIDEO"; case ":file-selector-button": return node.nodeName == "INPUT" && node.type == "file"; case ":placeholder": case ":-moz-placeholder": return this._nodeIsTextfieldLike(node); case ":-moz-focus-inner": return this._nodeIsButtonLike(node); case ":-moz-meter-bar": return node.nodeName == "METER"; case ":-moz-progress-bar": return node.nodeName == "PROGRESS"; case ":-moz-color-swatch": return node.nodeName == "INPUT" && node.type == "color"; case ":-moz-range-progress": case ":-moz-range-thumb": case ":-moz-range-track": return node.nodeName == "INPUT" && node.type == "range"; default: throw Error("Unhandled pseudo-element " + pseudo); } }, /** * Helper function for _getAllElementRules, returns the rules from a given * element. See getApplied for documentation on parameters. * @param DOMNode node * @param string pseudo * @param DOMNode inherited * @param object options * * @returns Array */ _getElementRules: function(node, pseudo, inherited, options) { const domRules = InspectorUtils.getCSSStyleRules( node, pseudo, CssLogic.hasVisitedState(node) ); if (!domRules) { return []; } const rules = []; // getCSSStyleRules returns ordered from least-specific to // most-specific. for (let i = domRules.length - 1; i >= 0; i--) { const domRule = domRules[i]; const isSystem = SharedCssLogic.isAgentStylesheet( domRule.parentStyleSheet ); if (isSystem && options.filter != SharedCssLogic.FILTER.UA) { continue; } if (inherited) { // Don't include inherited rules if none of its properties // are inheritable. const hasInherited = [...domRule.style].some(prop => InspectorUtils.isInheritedProperty(prop) ); if (!hasInherited) { continue; } } const ruleActor = this._styleRef(domRule); rules.push({ rule: ruleActor, inherited, isSystem, pseudoElement: pseudo, }); } return rules; }, /** * Given a node and a CSS rule, walk up the DOM looking for a * matching element rule. Return an array of all found entries, in * the form generated by _getAllElementRules. Note that this will * always return an array of either zero or one element. * * @param {NodeActor} node the node * @param {CSSStyleRule} filterRule the rule to filter for * @return {Array} array of zero or one elements; if one, the element * is the entry as returned by _getAllElementRules. */ findEntryMatchingRule: function(node, filterRule) { const options = { matchedSelectors: true, inherited: true }; let entries = []; let parent = this.walker.parentNode(node); while (parent && parent.rawNode.nodeType != Node.DOCUMENT_NODE) { entries = entries.concat( this._getAllElementRules(parent, parent, options) ); parent = this.walker.parentNode(parent); } return entries.filter(entry => entry.rule.rawRule === filterRule); }, /** * Helper function for getApplied that fetches a set of style properties that * apply to the given node and associated rules * @param NodeActor node * @param object options * `filter`: A string filter that affects the "matched" handling. * 'user': Include properties from user style sheets. * 'ua': Include properties from user and user-agent sheets. * Default value is 'ua' * `inherited`: Include styles inherited from parent nodes. * `matchedSelectors`: Include an array of specific selectors that * caused this rule to match its node. * `skipPseudo`: Exclude styles applied to pseudo elements of the provided node. * @param array entries * List of appliedstyle objects that lists the rules that apply to the * node. If adding a new rule to the stylesheet, only the new rule entry * is provided and only the style properties that apply to the new * rule is fetched. * @returns Object containing the list of rule entries, rule actors and * stylesheet actors that applies to the given node and its associated * rules. */ getAppliedProps: function(node, entries, options) { if (options.inherited) { let parent = this.walker.parentNode(node); while (parent && parent.rawNode.nodeType != Node.DOCUMENT_NODE) { entries = entries.concat( this._getAllElementRules(parent, parent, options) ); parent = this.walker.parentNode(parent); } } if (options.matchedSelectors) { for (const entry of entries) { if (entry.rule.type === ELEMENT_STYLE) { continue; } const domRule = entry.rule.rawRule; const selectors = CssLogic.getSelectors(domRule); const element = entry.inherited ? entry.inherited.rawNode : node.rawNode; const { bindingElement, pseudo } = CssLogic.getBindingElementAndPseudo( element ); const relevantLinkVisited = CssLogic.hasVisitedState(bindingElement); entry.matchedSelectors = []; for (let i = 0; i < selectors.length; i++) { if ( InspectorUtils.selectorMatchesElement( bindingElement, domRule, i, pseudo, relevantLinkVisited ) ) { entry.matchedSelectors.push(selectors[i]); } } } } // Add all the keyframes rule associated with the element const computedStyle = this.cssLogic.computedStyle; if (computedStyle) { let animationNames = computedStyle.animationName.split(","); animationNames = animationNames.map(name => name.trim()); if (animationNames) { // Traverse through all the available keyframes rule and add // the keyframes rule that matches the computed animation name for (const keyframesRule of this.cssLogic.keyframesRules) { if (animationNames.indexOf(keyframesRule.name) > -1) { for (const rule of keyframesRule.cssRules) { entries.push({ rule: this._styleRef(rule), keyframes: this._styleRef(keyframesRule), }); } } } } } const rules = new Set(); const sheets = new Set(); entries.forEach(entry => rules.add(entry.rule)); this.expandSets(rules, sheets); return { entries: entries, rules: [...rules], sheets: [...sheets], }; }, /** * Expand Sets of rules and sheets to include all parent rules and sheets. */ expandSets: function(ruleSet, sheetSet) { // Sets include new items in their iteration for (const rule of ruleSet) { if (rule.rawRule.parentRule) { const parent = this._styleRef(rule.rawRule.parentRule); if (!ruleSet.has(parent)) { ruleSet.add(parent); } } } // We need to clean up the following codes when server-side stylesheet // watcher is enabled in bug 1672090. if (this.styleSheetWatcher) { return; } for (const rule of ruleSet) { if (rule.rawRule.parentStyleSheet) { const parent = this._sheetRef(rule.rawRule.parentStyleSheet); if (!sheetSet.has(parent)) { sheetSet.add(parent); } } } for (const sheet of sheetSet) { if (sheet.rawSheet.parentStyleSheet) { const parent = this._sheetRef(sheet.rawSheet.parentStyleSheet); if (!sheetSet.has(parent)) { sheetSet.add(parent); } } } }, /** * Get layout-related information about a node. * This method returns an object with properties giving information about * the node's margin, border, padding and content region sizes, as well * as information about the type of box, its position, z-index, etc... * @param {NodeActor} node * @param {Object} options The only available option is autoMargins. * If set to true, the element's margins will receive an extra check to see * whether they are set to "auto" (knowing that the computed-style in this * case would return "0px"). * The returned object will contain an extra property (autoMargins) listing * all margins that are set to auto, e.g. {top: "auto", left: "auto"}. * @return {Object} */ getLayout: function(node, options) { this.cssLogic.highlight(node.rawNode); const layout = {}; // First, we update the first part of the box model view, with // the size of the element. const clientRect = node.rawNode.getBoundingClientRect(); layout.width = parseFloat(clientRect.width.toPrecision(6)); layout.height = parseFloat(clientRect.height.toPrecision(6)); // We compute and update the values of margins & co. const style = CssLogic.getComputedStyle(node.rawNode); for (const prop of [ "position", "top", "right", "bottom", "left", "margin-top", "margin-right", "margin-bottom", "margin-left", "padding-top", "padding-right", "padding-bottom", "padding-left", "border-top-width", "border-right-width", "border-bottom-width", "border-left-width", "z-index", "box-sizing", "display", "float", "line-height", ]) { layout[prop] = style.getPropertyValue(prop); } if (options.autoMargins) { layout.autoMargins = this.processMargins(this.cssLogic); } for (const i in this.map) { const property = this.map[i].property; this.map[i].value = parseFloat(style.getPropertyValue(property)); } return layout; }, /** * Find 'auto' margin properties. */ processMargins: function(cssLogic) { const margins = {}; for (const prop of ["top", "bottom", "left", "right"]) { const info = cssLogic.getPropertyInfo("margin-" + prop); const selectors = info.matchedSelectors; if (selectors && selectors.length > 0 && selectors[0].value == "auto") { margins[prop] = "auto"; } } return margins; }, /** * On page navigation, tidy up remaining objects. */ onFrameUnload: function() { this.styleElements = new WeakMap(); }, /** * When a stylesheet is added, handle the related StyleSheetActor to listen for changes. * @param {StyleSheetActor} actor * The actor for the added stylesheet. */ onStyleSheetAdded: function(actor) { if (!this._watchedSheets.has(actor)) { this._watchedSheets.add(actor); actor.on("style-applied", this._styleApplied); } }, onResourceUpdated(resources) { const kinds = new Set(); for (const resource of resources) { if (resource.resourceType !== TYPES.STYLESHEET) { continue; } if (resource.updateType !== "style-applied") { continue; } const kind = resource.event.kind; kinds.add(kind); for (const styleActor of [...this.refMap.values()]) { const resourceId = this.styleSheetWatcher.getResourceId( styleActor._parentSheet ); if (resource.resourceId === resourceId) { styleActor._onStyleApplied(kind); } } } for (const kind of kinds) { this._styleApplied(kind); } }, /** * Helper function to addNewRule to get or create a style tag in the provided * document. * * @param {Document} document * The document in which the style element should be appended. * @returns DOMElement of the style tag */ getStyleElement: function(document) { if (!this.styleElements.has(document)) { const style = document.createElementNS(XHTML_NS, "style"); style.setAttribute("type", "text/css"); style.setDevtoolsAsTriggeringPrincipal(); document.documentElement.appendChild(style); this.styleElements.set(document, style); } return this.styleElements.get(document); }, /** * Helper function for adding a new rule and getting its applied style * properties * @param NodeActor node * @param CSSStyleRule rule * @returns Object containing its applied style properties */ getNewAppliedProps: function(node, rule) { const ruleActor = this._styleRef(rule); return this.getAppliedProps(node, [{ rule: ruleActor }], { matchedSelectors: true, }); }, /** * Adds a new rule, and returns the new StyleRuleActor. * @param {NodeActor} node * @param {String} pseudoClasses The list of pseudo classes to append to the * new selector. * @returns {StyleRuleActor} the new rule */ async addNewRule(node, pseudoClasses) { let sheet = null; if (this.styleSheetWatcher) { const doc = node.rawNode.ownerDocument; if (this.styleElements.has(doc)) { sheet = this.styleElements.get(doc); } else { sheet = await this.styleSheetWatcher.addStyleSheet(doc); this.styleElements.set(doc, sheet); } } else { const style = this.getStyleElement(node.rawNode.ownerDocument); sheet = style.sheet; } const cssRules = sheet.cssRules; const rawNode = node.rawNode; const classes = [...rawNode.classList]; let selector; if (rawNode.id) { selector = "#" + CSS.escape(rawNode.id); } else if (classes.length > 0) { selector = "." + classes.map(c => CSS.escape(c)).join("."); } else { selector = rawNode.localName; } if (pseudoClasses && pseudoClasses.length > 0) { selector += pseudoClasses.join(""); } const index = sheet.insertRule(selector + " {}", cssRules.length); if (this.styleSheetWatcher) { const resourceId = this.styleSheetWatcher.getResourceId(sheet); let authoredText = await this.styleSheetWatcher.getText(resourceId); authoredText += "\n" + selector + " {\n" + "}"; await this.styleSheetWatcher.update(resourceId, authoredText, false); } else { // If inserting the rule succeeded, go ahead and edit the source // text if requested. const sheetActor = this._sheetRef(sheet); let { str: authoredText } = await sheetActor.getText(); authoredText += "\n" + selector + " {\n" + "}"; await sheetActor.update(authoredText, false); } const cssRule = sheet.cssRules.item(index); const ruleActor = this._styleRef(cssRule); TrackChangeEmitter.trackChange({ ...ruleActor.metadata, type: "rule-add", add: null, remove: null, selector, }); return this.getNewAppliedProps(node, cssRule); }, /** * Cause all StyleRuleActor instances of observed CSS rules to check whether the * states of their declarations have changed. * * Observed rules are the latest rules returned by a call to PageStyleActor.getApplied() * * This is necessary because changes in one rule can cause the declarations in another * to not be applicable (inactive CSS). The observers of those rules should be notified. * Rules will fire a "rule-updated" event if any of their declarations changed state. * * Call this method whenever a CSS rule is mutated: * - a CSS declaration is added/changed/disabled/removed * - a selector is added/changed/removed */ refreshObservedRules() { for (const rule of this._observedRules) { rule.refresh(); } }, /** * Get an array of existing attribute values in a node document. * * @param {String} search: A string to filter attribute value on. * @param {String} attributeType: The type of attribute we want to retrieve the values. * @param {Element} node: The element we want to get possible attributes for. This will * be used to get the document where the search is happening. * @returns {Array} An array of strings */ getAttributesInOwnerDocument(search, attributeType, node) { if (!search) { throw new Error("search is mandatory"); } // In a non-fission world, a node from an iframe shares the same `rootNode` as a node // in the top-level document. So here we need to retrieve the document from the node // in parameter in order to retrieve the right document. // This may change once we have a dedicated walker for every target in a tab, as we'll // be able to directly talk to the "right" walker actor. const targetDocument = node.rawNode.ownerDocument; // We store the result in a Set which will contain the attribute value const result = new Set(); const lcSearch = search.toLowerCase(); this._collectAttributesFromDocumentDOM( result, lcSearch, attributeType, targetDocument ); this._collectAttributesFromDocumentStyleSheets( result, lcSearch, attributeType, targetDocument ); return Array.from(result).sort(); }, /** * Collect attribute values from the document DOM tree, matching the passed filter and * type, to the result Set. * * @param {Set} result: A Set to which the results will be added. * @param {String} search: A string to filter attribute value on. * @param {String} attributeType: The type of attribute we want to retrieve the values. * @param {Document} targetDocument: The document the search occurs in. */ _collectAttributesFromDocumentDOM( result, search, attributeType, targetDocument ) { // In order to retrieve attributes from DOM elements in the document, we're going to // do a query on the root node using attributes selector, to directly get the elements // matching the attributes we're looking for. // For classes, we need something a bit different as the className we're looking // for might not be the first in the attribute value, meaning we can't use the // "attribute starts with X" selector. const attributeSelectorPositionChar = attributeType === "class" ? "*" : "^"; const selector = `[${attributeType}${attributeSelectorPositionChar}=${search} i]`; const matchingElements = targetDocument.querySelectorAll(selector); for (const element of matchingElements) { // For class attribute, we need to add the elements of the classList that match // the filter string. if (attributeType === "class") { for (const cls of element.classList) { if (!result.has(cls) && cls.toLowerCase().startsWith(search)) { result.add(cls); } } } else { const { value } = element.attributes[attributeType]; // For other attributes, we can directly use the attribute value. result.add(value); } } }, /** * Collect attribute values from the document stylesheets, matching the passed filter * and type, to the result Set. * * @param {Set} result: A Set to which the results will be added. * @param {String} search: A string to filter attribute value on. * @param {String} attributeType: The type of attribute we want to retrieve the values. * It only supports "class" and "id" at the moment. * @param {Document} targetDocument: The document the search occurs in. */ _collectAttributesFromDocumentStyleSheets( result, search, attributeType, targetDocument ) { if (attributeType !== "class" && attributeType !== "id") { return; } // We loop through all the stylesheets and their rules, and then use the lexer to only // get the attributes we're looking for. for (const styleSheet of targetDocument.styleSheets) { for (const rule of styleSheet.rules) { this._collectAttributesFromRule(result, rule, search, attributeType); } } }, /** * Collect attribute values from the rule, matching the passed filter and type, to the * result Set. * * @param {Set} result: A Set to which the results will be added. * @param {Rule} rule: The rule the search occurs in. * @param {String} search: A string to filter attribute value on. * @param {String} attributeType: The type of attribute we want to retrieve the values. * It only supports "class" and "id" at the moment. */ _collectAttributesFromRule(result, rule, search, attributeType) { const shouldRetrieveClasses = attributeType === "class"; const shouldRetrieveIds = attributeType === "id"; const { selectorText } = rule; // If there's no selectorText, or if the selectorText does not include the // filter, we can bail out. if (!selectorText || !selectorText.toLowerCase().includes(search)) { return; } // Check if we should parse the selectorText (do we need to check for class/id and // if so, does the selector contains class/id related chars). const parseForClasses = shouldRetrieveClasses && selectorText.toLowerCase().includes(`.${search}`); const parseForIds = shouldRetrieveIds && selectorText.toLowerCase().includes(`#${search}`); if (!parseForClasses && !parseForIds) { return; } const lexer = getCSSLexer(selectorText); let token; while ((token = lexer.nextToken())) { if ( token.tokenType === "symbol" && ((shouldRetrieveClasses && token.text === ".") || (shouldRetrieveIds && token.text === "#")) ) { token = lexer.nextToken(); if ( token.tokenType === "ident" && token.text.toLowerCase().startsWith(search) ) { result.add(token.text); } } } }, }); exports.PageStyleActor = PageStyleActor;