/* 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/. */ (function(){ "use strict"; const scope = ((typeof exports) !== "undefined")? exports: require.register("./modifiedCanvasAPI"); const colorStatistics = require("./colorStatistics"); const logging = require("./logging"); const extension = require("./extension"); const webgl = require("./webgl"); const {checkerWrapper} = require("./modifiedAPIFunctions"); let randomSupply = null; function getContext(window, canvas){ return window.HTMLCanvasElement.prototype.getContext.call(canvas, "2d") || window.HTMLCanvasElement.prototype.getContext.call(canvas, "webgl") || window.HTMLCanvasElement.prototype.getContext.call(canvas, "experimental-webgl") || window.HTMLCanvasElement.prototype.getContext.call(canvas, "webgl2") || window.HTMLCanvasElement.prototype.getContext.call(canvas, "experimental-webgl2"); } function getImageData(window, context){ let imageData; let source; if ((context.canvas.width || 0) * (context.canvas.height || 0) === 0){ imageData = new (extension.getWrapped(window).ImageData)(0, 0); source = new (extension.getWrapped(window).ImageData)(0, 0); } else if (context instanceof window.CanvasRenderingContext2D){ imageData = window.CanvasRenderingContext2D.prototype.getImageData.call( context, 0, 0, context.canvas.width, context.canvas.height ); source = imageData.data; } else { imageData = new (extension.getWrapped(window).ImageData)(context.canvas.width, context.canvas.height); source = new Uint8Array(imageData.data.length); ( context instanceof window.WebGLRenderingContext? window.WebGLRenderingContext: window.WebGL2RenderingContext ).prototype.readPixels.call( context, 0, 0, context.canvas.width, context.canvas.height, context.RGBA, context.UNSIGNED_BYTE, source ); } return { imageData, source }; } const canvasCache = Object.create(null); function getFakeCanvas(window, original, prefs){ try { let originalDataURL; if (prefs("useCanvasCache")){ originalDataURL = original.toDataURL(); const cached = canvasCache[originalDataURL]; if (cached){ return cached; } } // original may not be a canvas -> we must not leak an error let context = getContext(window, original); const {imageData, source} = getImageData(window, context); const desc = imageData.data; const l = desc.length; let ignoredColors = {}; let statistic; if (prefs("ignoreFrequentColors")){ statistic = colorStatistics.compute(source); ignoredColors = statistic.getMaxColors(prefs("ignoreFrequentColors")); } if (prefs("minColors")){ if (!colorStatistics.hasMoreColors(source, prefs("minColors"), statistic)){ return original; } } const rng = randomSupply.getPixelRng(l, window, ignoredColors); const fakeAlphaChannel = prefs("fakeAlphaChannel"); for (let i = 0; i < l; i += 4){ const [r, g, b, a] = rng( source[i + 0], source[i + 1], source[i + 2], source[i + 3], i / 4 ); desc[i + 0] = r; desc[i + 1] = g; desc[i + 2] = b; desc[i + 3] = fakeAlphaChannel? a: source[i + 3]; } const canvas = original.cloneNode(true); context = window.HTMLCanvasElement.prototype.getContext.call(canvas, "2d"); context.putImageData(imageData, 0, 0); if (prefs("useCanvasCache")){ canvasCache[originalDataURL] = canvas; canvasCache[canvas.toDataURL()] = canvas; } return canvas; } catch (error){ logging.warning("Error while faking:", error); return original; } } function randomMixImageData(window, imageData1, imageData2){ const data1 = imageData1.data; const data2 = imageData2.data; const l = data1.length; if (l === data2.length){ const rng = randomSupply.getPixelRng(l, window, {}); for (let i = 0; i < l; i += 4){ const signR = data1[i + 0] > data2[i + 0]? -1: 1; const signG = data1[i + 1] > data2[i + 1]? -1: 1; const signB = data1[i + 2] > data2[i + 2]? -1: 1; const signA = data1[i + 3] > data2[i + 3]? -1: 1; const [deltaR, deltaG, deltaB, deltaA] = rng( signR * (data2[i + 0] - data1[i + 0]), signG * (data2[i + 1] - data1[i + 1]), signB * (data2[i + 2] - data1[i + 2]), signA * (data2[i + 3] - data1[i + 3]), i / 4 ); data2[i + 0] = data1[i + 0] + signR * deltaR; data2[i + 1] = data1[i + 1] + signG * deltaG; data2[i + 2] = data1[i + 2] + signB * deltaB; data2[i + 3] = data1[i + 3] + signA * deltaA; } } return imageData2; } function canvasSizeShouldBeFaked(canvas, prefs){ if (canvas){ const size = canvas.height * canvas.width; const maxSize = prefs("maxFakeSize") || Number.POSITIVE_INFINITY; const minSize = prefs("minFakeSize") || 0; return size > minSize && size <= maxSize; } else { return true; } } function getProtectedPartChecker(pref, url){ const protectedPart = pref("protectedCanvasPart", url); if (protectedPart === "everything"){ return function(){ return true; }; } else if (protectedPart === "nothing"){ return function(){ return false; }; } else { return function(parts){ if (Array.isArray(parts)){ return parts.some(function(part){ return part === protectedPart; }); } else { return parts === protectedPart; } }; } } scope.setRandomSupply = function(supply){ randomSupply = supply; webgl.setRandomSupply(supply); }; const canvasContextType = new WeakMap(); function createGetStatus(protectedPart){ if (protectedPart === "readout+"){ return function(obj, status, prefs){ const protectedPartChecker = getProtectedPartChecker(prefs, status.url); status = Object.create(status); status.active = protectedPartChecker("readout"); if (!status.active && protectedPartChecker("input")){ const contextType = canvasContextType.get(obj); status.active = contextType !== "2d"; } return status; }; } return function getStatus(obj, status, prefs){ const protectedPartChecker = getProtectedPartChecker(prefs, status.url); status = Object.create(status); status.active = protectedPartChecker(protectedPart); return status; }; } function useFakeCanvasCallback(args, check){ const {prefs, notify, window, original} = check; if (canvasSizeShouldBeFaked(this, prefs)){ const fakeCanvas = getFakeCanvas(window, this, prefs); if (fakeCanvas !== this){ notify("fakedReadout"); } return original.call(fakeCanvas, ...args); } else { return original.call(this, ...args); } } function mixOnInputCallback(args, check){ const {prefs, notify, window, original} = check; if (!this || canvasSizeShouldBeFaked(this.canvas, prefs)){ notify("fakedInput"); let oldImageData; let x, y, width, height; const getImageData = window.CanvasRenderingContext2D.prototype.getImageData; const border = 4; try { // "this" is not trustable - it may be not a context const measurement = window.CanvasRenderingContext2D.prototype.measureText.call(this, args[0]); const left = Math.max(0, measurement.actualBoundingBoxLeft); const top = Math.max(0, measurement.actualBoundingBoxAscent); width = Math.ceil(measurement.actualBoundingBoxRight + left) + 2 * border; height = Math.ceil(measurement.actualBoundingBoxDescent + top) + 2 * border; x = args[1] - border - left; y = args[2] - border - top; oldImageData = getImageData.call(this, x, y, width, height); } catch (error){ // nothing to do here } // if "this" is not a correct context the next line will throw an error const ret = original.call(this, ...args); const newImageData = getImageData.call(this, x, y, width, height); this.putImageData(randomMixImageData(window, oldImageData, newImageData), x, y); return ret; } else { return original.call(this, ...args); } } function offscreenToBlobCallback(args, check){ const {prefs, notify, window, original} = check; if (canvasSizeShouldBeFaked(this, prefs)){ try { const options = args[0]; const canvas = window.document.createElement("canvas"); canvas.width = this.width; canvas.height = this.height; const context = canvas.getContext("2d"); context.drawImage(this.transferToImageBitmap(), 0, 0); const fakeCanvas = getFakeCanvas(window, canvas, prefs); if (fakeCanvas !== canvas){ notify("fakedReadout"); } return new window.Promise(function(resolve){ fakeCanvas.toBlob(resolve, options && options.type, options && options.quality); }); } catch (error){ logging.warning("Error while faking:", error); return original.call(this, ...args); } } else { return original.call(this, ...args); } } const isPointCache = Object.create(null); function getIsPointCacheIndex(x, y, values){ return String.fromCodePoint(...values, x, y); } function getIsPointValue({func, x, y, index, originalValue, window, prefs}){ const useCanvasCache = prefs("useCanvasCache"); let cacheIndex; const values = [originalValue, func(x^1, y), func(x, y^1), func(x^1, y^1)]; if (useCanvasCache){ cacheIndex = getIsPointCacheIndex(x, y, values); const cached = isPointCache[cacheIndex]; if ((typeof cached) === "boolean"){ return cached; } } const rng = randomSupply.getIndexRng(1, 4, window); const res = values[rng(index)]; if (useCanvasCache){ isPointCache[cacheIndex] = res; } return res; } // changed functions and their fakes scope.changedFunctions = { getContext: { type: "context", getStatus: function(obj, status, prefs){ if (status.internal){ return { mode: "allow", type: status.type, active: false }; } else if (getProtectedPartChecker(prefs, status.url)("input")){ return { mode: status.mode, type: status.type, active: true }; } else { status = Object.create(status); status.active = false; return status; } }, object: "HTMLCanvasElement", fakeGenerator: function(checker){ return function getContext(context, contextAttributes){ return checkerWrapper(checker, this, arguments, function(args, check){ const {original} = check; canvasContextType.set(this, context); return original.call(this, ...args); }); }; } }, toDataURL: { type: "readout", getStatus: createGetStatus("readout+"), object: "HTMLCanvasElement", fakeGenerator: function(checker){ return function toDataURL(){ return checkerWrapper(checker, this, arguments, useFakeCanvasCallback); }; } }, toBlob: { type: "readout", getStatus: createGetStatus("readout+"), object: "HTMLCanvasElement", fakeGenerator: function(checker){ return function toBlob(callback){ return checkerWrapper(checker, this, arguments, useFakeCanvasCallback); }; }, exportOptions: {allowCallbacks: true} }, mozGetAsFile: { type: "readout", getStatus: createGetStatus("readout+"), object: "HTMLCanvasElement", fakeGenerator: function(checker){ return function mozGetAsFile(callback){ return checkerWrapper(checker, this, arguments, useFakeCanvasCallback); }; }, exportOptions: {allowCallbacks: true} }, getImageData: { type: "readout", getStatus: createGetStatus("readout"), object: "CanvasRenderingContext2D", fakeGenerator: function(checker){ return function getImageData(sx, sy, sw, sh){ return checkerWrapper(checker, this, arguments, function(args, check){ const {prefs, notify, window, original} = check; if (!this || canvasSizeShouldBeFaked(this.canvas, prefs)){ let fakeCanvas; let context = this; if (this && this.canvas) { fakeCanvas = getFakeCanvas(window, this.canvas, prefs); } if (fakeCanvas && fakeCanvas !== this.canvas){ notify("fakedReadout"); context = window.HTMLCanvasElement.prototype.getContext.call( fakeCanvas, "2d" ); } return original.call(context, ...args); } else { return original.call(this, ...args); } }); }; } }, isPointInPath: { type: "readout", getStatus: createGetStatus("readout"), object: "CanvasRenderingContext2D", fakeGenerator: function(checker){ return function isPointInPath(x, y){ return checkerWrapper(checker, this, arguments, function(args, check){ const {prefs, notify, window, original} = check; const originalValue = original.call(this, ...args); if ((typeof originalValue) === "boolean"){ notify("fakedReadout"); return getIsPointValue({ func: (x, y) => original.call(this, x, y, args[2]), x, y, index: x + this.width * y, originalValue, window, prefs }); } else { return originalValue; } }); }; } }, isPointInStroke: { type: "readout", getStatus: createGetStatus("readout"), object: "CanvasRenderingContext2D", fakeGenerator: function(checker){ return function isPointInStroke(x, y){ return checkerWrapper(checker, this, arguments, function(args, check){ const {prefs, notify, window, original} = check; const originalValue = original.call(this, ...args); if ((typeof originalValue) === "boolean"){ notify("fakedReadout"); let func; if (x instanceof window.Path2D){ let path = x; x = y; y = args[2]; func = (x, y) => original.call(this, path, x, y); } else { func = (x, y) => original.call(this, x, y); } return getIsPointValue({ func, x, y, index: x + this.width * y, originalValue, window, prefs }); } else { return originalValue; } }); }; } }, fillText: { type: "input", getStatus: createGetStatus("input"), object: "CanvasRenderingContext2D", fakeGenerator: function(checker){ return function fillText(str, x, y){ return checkerWrapper(checker, this, arguments, mixOnInputCallback); }; } }, strokeText: { type: "input", getStatus: createGetStatus("input"), object: "CanvasRenderingContext2D", fakeGenerator: function(checker){ return function strokeText(str, x, y){ return checkerWrapper(checker, this, arguments, mixOnInputCallback); }; } }, readPixels: { type: "readout", getStatus: createGetStatus(["readout", "input"]), object: ["WebGLRenderingContext", "WebGL2RenderingContext"], fakeGenerator: function(checker){ // eslint-disable-next-line max-params return function readPixels(x, y, width, height, format, type, pixels){ return checkerWrapper(checker, this, arguments, function(args, check){ const {prefs, notify, window, original} = check; if (!this || canvasSizeShouldBeFaked(this.canvas, prefs)){ notify("fakedReadout"); const fakeCanvas = getFakeCanvas(window, this.canvas, prefs); const {context} = webgl.copyCanvasToWebgl( window, fakeCanvas, this instanceof window.WebGLRenderingContext? "webgl": "webgl2" ); return original.call(context, ...args); } else { return original.call(this, ...args); } }); }; } }, getParameter: { type: "readout", getStatus: createGetStatus(["readout", "input"]), object: ["WebGLRenderingContext", "WebGL2RenderingContext"], fakeGenerator: function(checker){ webgl.initializeParameterDefinitions(); return function getParameter(pname){ return checkerWrapper(checker, this, arguments, function(args, check){ const {prefs, notify, window, original} = check; const originalValue = original.call(this, ...args); if (webgl.parameterChangeDefinition[pname]){ const definition = webgl.parameterChangeDefinition[pname]; const {value, faked} = definition.fake(originalValue, window, prefs); if (faked){ notify("fakedReadout"); } return value; } else { return originalValue; } }); }; } }, getExtension: { type: "readout", getStatus: createGetStatus(["readout", "input"]), object: ["WebGLRenderingContext", "WebGL2RenderingContext"], fakeGenerator: function(checker){ return function getExtension(extensionName){ return checkerWrapper(checker, this, arguments, function(args, check){ const {prefs, notify, window, original} = check; const originalValue = original.call(this, ...args); if ( extensionName === "WEBGL_debug_renderer_info" && originalValue && webgl.parameterChangeDefinition[originalValue.UNMASKED_VENDOR_WEBGL] && webgl.parameterChangeDefinition[originalValue.UNMASKED_RENDERER_WEBGL] ){ const {value: vendorValue, faked: vendorFaked} = webgl .parameterChangeDefinition[originalValue.UNMASKED_VENDOR_WEBGL] .fake(this.getParameter(originalValue.UNMASKED_VENDOR_WEBGL), window, prefs); const {value: rendererValue, faked: rendererFaked} = webgl .parameterChangeDefinition[originalValue.UNMASKED_RENDERER_WEBGL] .fake(this.getParameter(originalValue.UNMASKED_RENDERER_WEBGL), window, prefs); if ( vendorFaked && vendorValue === null && rendererFaked && rendererValue === null ){ const value = null; if (originalValue !== value){ notify("fakedReadout"); } return value; } else { return originalValue; } } else { return originalValue; } }); }; } }, convertToBlob: { type: "readout", getStatus: createGetStatus("readout"), object: ["OffscreenCanvas"], fakeGenerator: function(checker){ return function convertToBlob(){ return checkerWrapper(checker, this, arguments, offscreenToBlobCallback); }; } }, offscreenToBlob: { name: "toBlob", type: "readout", getStatus: createGetStatus("readout"), object: ["OffscreenCanvas"], fakeGenerator: function(checker){ return function toBlob(){ return checkerWrapper(checker, this, arguments, offscreenToBlobCallback); }; } }, }; Object.keys(scope.changedFunctions).forEach(function(key){ scope.changedFunctions[key].api = "canvas"; }); }());