/* 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 EXPORTED_SYMBOLS = ["capture"]; const { XPCOMUtils } = ChromeUtils.import( "resource://gre/modules/XPCOMUtils.jsm" ); XPCOMUtils.defineLazyModuleGetters(this, { Log: "chrome://marionette/content/log.js", }); XPCOMUtils.defineLazyGetter(this, "logger", () => Log.get()); XPCOMUtils.defineLazyGlobalGetters(this, ["crypto"]); const CONTEXT_2D = "2d"; const BG_COLOUR = "rgb(255,255,255)"; const MAX_CANVAS_DIMENSION = 32767; const MAX_CANVAS_AREA = 472907776; const PNG_MIME = "image/png"; const XHTML_NS = "http://www.w3.org/1999/xhtml"; /** * Provides primitives to capture screenshots. * * @namespace */ this.capture = {}; capture.Format = { Base64: 0, Hash: 1, }; /** * Draw a rectangle off the framebuffer. * * @param {DOMWindow} win * The DOM window used for the framebuffer, and providing the interfaces * for creating an HTMLCanvasElement. * @param {number} left * The left, X axis offset of the rectangle. * @param {number} top * The top, Y axis offset of the rectangle. * @param {number} width * The width dimension of the rectangle to paint. * @param {number} height * The height dimension of the rectangle to paint. * @param {HTMLCanvasElement=} canvas * Optional canvas to reuse for the screenshot. * @param {number=} flags * Optional integer representing flags to pass to drawWindow; these * are defined on CanvasRenderingContext2D. * @param {number=} dX * Horizontal offset between the browser window and content area. Defaults to 0. * @param {number=} dY * Vertical offset between the browser window and content area. Defaults to 0. * @param {boolean=} readback * If true, read back a snapshot of the pixel data currently in the * compositor/window. Defaults to false. * * @return {HTMLCanvasElement} * The canvas on which the selection from the window's framebuffer * has been painted on. */ capture.canvas = async function( win, browsingContext, left, top, width, height, { canvas = null, flags = null, dX = 0, dY = 0, readback = false } = {} ) { const scale = win.devicePixelRatio; let canvasHeight = height * scale; let canvasWidth = width * scale; // Cap the screenshot size for width and height at 2^16 pixels, // which is the maximum allowed canvas size. Higher dimensions will // trigger exceptions in Gecko. if (canvasWidth > MAX_CANVAS_DIMENSION) { logger.warn( "Limiting screen capture width to maximum allowed " + MAX_CANVAS_DIMENSION + " pixels" ); width = Math.floor(MAX_CANVAS_DIMENSION / scale); canvasWidth = width * scale; } if (canvasHeight > MAX_CANVAS_DIMENSION) { logger.warn( "Limiting screen capture height to maximum allowed " + MAX_CANVAS_DIMENSION + " pixels" ); height = Math.floor(MAX_CANVAS_DIMENSION / scale); canvasHeight = height * scale; } // If the area is larger, reduce the height to keep the full width. if (canvasWidth * canvasHeight > MAX_CANVAS_AREA) { logger.warn( "Limiting screen capture area to maximum allowed " + MAX_CANVAS_AREA + " pixels" ); height = Math.floor(MAX_CANVAS_AREA / (canvasWidth * scale)); canvasHeight = height * scale; } if (canvas === null) { canvas = win.document.createElementNS(XHTML_NS, "canvas"); canvas.width = canvasWidth; canvas.height = canvasHeight; } const ctx = canvas.getContext(CONTEXT_2D); if (readback) { if (flags === null) { flags = ctx.DRAWWINDOW_DRAW_CARET | ctx.DRAWWINDOW_DRAW_VIEW | ctx.DRAWWINDOW_USE_WIDGET_LAYERS; } // drawWindow doesn't take scaling into account. ctx.scale(scale, scale); ctx.drawWindow(win, left + dX, top + dY, width, height, BG_COLOUR, flags); } else { let rect = new DOMRect(left, top, width, height); let snapshot = await browsingContext.currentWindowGlobal.drawSnapshot( rect, scale, BG_COLOUR ); ctx.drawImage(snapshot, 0, 0); // Bug 1574935 - Huge dimensions can trigger an OOM because multiple copies // of the bitmap will exist in memory. Force the removal of the snapshot // because it is no longer needed. snapshot.close(); } return canvas; }; /** * Encode the contents of an HTMLCanvasElement to a Base64 encoded string. * * @param {HTMLCanvasElement} canvas * The canvas to encode. * * @return {string} * A Base64 encoded string. */ capture.toBase64 = function(canvas) { let u = canvas.toDataURL(PNG_MIME); return u.substring(u.indexOf(",") + 1); }; /** * Hash the contents of an HTMLCanvasElement to a SHA-256 hex digest. * * @param {HTMLCanvasElement} canvas * The canvas to encode. * * @return {string} * A hex digest of the SHA-256 hash of the base64 encoded string. */ capture.toHash = function(canvas) { let u = capture.toBase64(canvas); let buffer = new TextEncoder("utf-8").encode(u); return crypto.subtle.digest("SHA-256", buffer).then(hash => hex(hash)); }; /** * Convert buffer into to hex. * * @param {ArrayBuffer} buffer * The buffer containing the data to convert to hex. * * @return {string} * A hex digest of the input buffer. */ function hex(buffer) { let hexCodes = []; let view = new DataView(buffer); for (let i = 0; i < view.byteLength; i += 4) { let value = view.getUint32(i); let stringValue = value.toString(16); let padding = "00000000"; let paddedValue = (padding + stringValue).slice(-padding.length); hexCodes.push(paddedValue); } return hexCodes.join(""); }