/* 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/. */ const FRAME_SCRIPT_URL = "chrome://gfxsanity/content/gfxFrameScript.js"; const TEST_DISABLED_PREF = "media.sanity-test.disabled"; const PAGE_WIDTH = 160; const PAGE_HEIGHT = 234; const LEFT_EDGE = 8; const TOP_EDGE = 8; const CANVAS_WIDTH = 32; const CANVAS_HEIGHT = 64; // If those values are ever changed, make sure to update // WMFVideoMFTManager::CanUseDXVA accordingly. const VIDEO_WIDTH = 132; const VIDEO_HEIGHT = 132; const DRIVER_PREF = "sanity-test.driver-version"; const DEVICE_PREF = "sanity-test.device-id"; const VERSION_PREF = "sanity-test.version"; const DISABLE_VIDEO_PREF = "media.hardware-video-decoding.failed"; const RUNNING_PREF = "sanity-test.running"; const TIMEOUT_SEC = 20; const MEDIA_ENGINE_PREF = "media.wmf.media-engine.enabled"; // GRAPHICS_SANITY_TEST histogram enumeration values const TEST_PASSED = 0; const TEST_FAILED_RENDER = 1; const TEST_FAILED_VIDEO = 2; const TEST_CRASHED = 3; const TEST_TIMEOUT = 4; // GRAPHICS_SANITY_TEST_REASON enumeration values. const REASON_FIRST_RUN = 0; const REASON_FIREFOX_CHANGED = 1; const REASON_DEVICE_CHANGED = 2; const REASON_DRIVER_CHANGED = 3; function testPixel(ctx, x, y, r, g, b, a, fuzz) { var data = ctx.getImageData(x, y, 1, 1); if ( Math.abs(data.data[0] - r) <= fuzz && Math.abs(data.data[1] - g) <= fuzz && Math.abs(data.data[2] - b) <= fuzz && Math.abs(data.data[3] - a) <= fuzz ) { return true; } return false; } function reportResult(val) { try { let histogram = Services.telemetry.getHistogramById("GRAPHICS_SANITY_TEST"); histogram.add(val); } catch (e) {} Services.prefs.setBoolPref(RUNNING_PREF, false); Services.prefs.savePrefFile(null); } function reportTestReason(val) { let histogram = Services.telemetry.getHistogramById( "GRAPHICS_SANITY_TEST_REASON" ); histogram.add(val); } function annotateCrashReport() { try { Services.appinfo.annotateCrashReport("TestKey", "1"); } catch (e) {} } function removeCrashReportAnnotation() { try { Services.appinfo.removeCrashReportAnnotation("TestKey"); } catch (e) {} } function setTimeout(aMs, aCallback) { var timer = Cc["@mozilla.org/timer;1"].createInstance(Ci.nsITimer); timer.initWithCallback(aCallback, aMs, Ci.nsITimer.TYPE_ONE_SHOT); } function takeWindowSnapshot(win, ctx) { // TODO: drawWindow reads back from the gpu's backbuffer, which won't catch issues with presenting // the front buffer via the window manager. Ideally we'd use an OS level API for reading back // from the desktop itself to get a more accurate test. var flags = ctx.DRAWWINDOW_DRAW_CARET | ctx.DRAWWINDOW_DRAW_VIEW | ctx.DRAWWINDOW_USE_WIDGET_LAYERS; ctx.drawWindow( win.ownerGlobal, 0, 0, PAGE_WIDTH, PAGE_HEIGHT, "rgb(255,255,255)", flags ); } // Verify that all the 4 coloured squares of the video // render as expected (with a tolerance of 64 to allow for // yuv->rgb differences between platforms). // // The video is VIDEO_WIDTH*VIDEO_HEIGHT, and is split into quadrants of // different colours. The top left of the video is LEFT_EDGE,TOP_EDGE+CANVAS_HEIGHT // and we test a pixel into the middle of each quadrant to avoid // blending differences at the edges. // // We allow massive amounts of fuzz for the colours since // it can depend hugely on the yuv -> rgb conversion, and // we don't want to fail unnecessarily. function verifyVideoRendering(ctx) { return ( testPixel( ctx, LEFT_EDGE + VIDEO_WIDTH / 4, TOP_EDGE + CANVAS_HEIGHT + VIDEO_HEIGHT / 4, 255, 255, 255, 255, 64 ) && testPixel( ctx, LEFT_EDGE + (3 * VIDEO_WIDTH) / 4, TOP_EDGE + CANVAS_HEIGHT + VIDEO_HEIGHT / 4, 0, 255, 0, 255, 64 ) && testPixel( ctx, LEFT_EDGE + VIDEO_WIDTH / 4, TOP_EDGE + CANVAS_HEIGHT + (3 * VIDEO_HEIGHT) / 4, 0, 0, 255, 255, 64 ) && testPixel( ctx, LEFT_EDGE + (3 * VIDEO_WIDTH) / 4, TOP_EDGE + CANVAS_HEIGHT + (3 * VIDEO_HEIGHT) / 4, 255, 0, 0, 255, 64 ) ); } // Verify that the middle of the layers test is the color we expect. // It's a red CANVAS_WIDTHxCANVAS_HEIGHT square, test a pixel deep into the // square to prevent fuzzing, and another outside the expected limit of the // square to check that scaling occurred properly. The square is drawn LEFT_EDGE // pixels from the window's left edge and TOP_EDGE from the window's top edge. function verifyLayersRendering(ctx) { return ( testPixel( ctx, LEFT_EDGE + CANVAS_WIDTH / 2, TOP_EDGE + CANVAS_HEIGHT / 2, 255, 0, 0, 255, 64 ) && testPixel( ctx, LEFT_EDGE + CANVAS_WIDTH, TOP_EDGE + CANVAS_HEIGHT / 2, 255, 255, 255, 255, 64 ) ); } function testCompositor(test, win, ctx) { takeWindowSnapshot(win, ctx); var testPassed = true; if (!verifyLayersRendering(ctx)) { reportResult(TEST_FAILED_RENDER); testPassed = false; } else if (!verifyVideoRendering(ctx)) { reportResult(TEST_FAILED_VIDEO); Services.prefs.setBoolPref(DISABLE_VIDEO_PREF, true); testPassed = false; } if (testPassed) { reportResult(TEST_PASSED); } return testPassed; } var listener = { win: null, utils: null, canvas: null, ctx: null, mm: null, disabledPrefs: [], messages: ["gfxSanity:ContentLoaded"], scheduleTest(win) { this.win = win; this.win.onload = this.onWindowLoaded.bind(this); this.utils = this.win.windowUtils; setTimeout(TIMEOUT_SEC * 1000, () => { if (this.win) { reportResult(TEST_TIMEOUT); this.endTest(); } }); }, runSanityTest() { this.canvas = this.win.document.createElementNS( "http://www.w3.org/1999/xhtml", "canvas" ); this.canvas.setAttribute("width", PAGE_WIDTH); this.canvas.setAttribute("height", PAGE_HEIGHT); this.ctx = this.canvas.getContext("2d"); // Perform the compositor backbuffer test, which currently we use for // actually deciding whether to enable hardware media decoding. testCompositor(this, this.win, this.ctx); this.endTest(); }, receiveMessage(message) { switch (message.name) { case "gfxSanity:ContentLoaded": this.runSanityTest(); break; } }, onWindowLoaded() { // Disable media engine pref if it's enabled because it doesn't support // capturing image to canvas. if (Services.prefs.getBoolPref(MEDIA_ENGINE_PREF, false)) { Services.prefs.setBoolPref(MEDIA_ENGINE_PREF, false); this.disabledPrefs.push(MEDIA_ENGINE_PREF); } let browser = this.win.document.createXULElement("browser"); browser.setAttribute("type", "content"); browser.setAttribute("disableglobalhistory", "true"); let remoteBrowser = Services.appinfo.browserTabsRemoteAutostart; browser.setAttribute("remote", remoteBrowser); browser.style.width = PAGE_WIDTH + "px"; browser.style.height = PAGE_HEIGHT + "px"; this.win.document.documentElement.appendChild(browser); // Have to set the mm after we append the child this.mm = browser.messageManager; this.messages.forEach(msgName => { this.mm.addMessageListener(msgName, this); }); this.mm.loadFrameScript(FRAME_SCRIPT_URL, false); }, endTest() { if (!this.win) { return; } this.win.ownerGlobal.close(); this.win = null; this.utils = null; this.canvas = null; this.ctx = null; if (this.mm) { // We don't have a MessageManager if onWindowLoaded never fired. this.messages.forEach(msgName => { this.mm.removeMessageListener(msgName, this); }); this.mm = null; } for (let pref of this.disabledPrefs) { Services.prefs.setBoolPref(pref, true); } this.disabledPrefs = null; // Remove the annotation after we've cleaned everything up, to catch any // incidental crashes from having performed the sanity test. removeCrashReportAnnotation(); }, }; export function SanityTest() {} SanityTest.prototype = { classID: Components.ID("{f3a8ca4d-4c83-456b-aee2-6a2cbf11e9bd}"), QueryInterface: ChromeUtils.generateQI([ "nsIObserver", "nsISupportsWeakReference", ]), shouldRunTest() { // Only test gfx features if firefox has updated, or if the user has a new // gpu or drivers. var buildId = Services.appinfo.platformBuildID; var gfxinfo = Cc["@mozilla.org/gfx/info;1"].getService(Ci.nsIGfxInfo); if (Services.prefs.getBoolPref(RUNNING_PREF, false)) { Services.prefs.setBoolPref(DISABLE_VIDEO_PREF, true); reportResult(TEST_CRASHED); return false; } function checkPref(pref, value, reason) { let prefValue; let prefType = Services.prefs.getPrefType(pref); switch (prefType) { case Ci.nsIPrefBranch.PREF_INVALID: reportTestReason(REASON_FIRST_RUN); return false; case Ci.nsIPrefBranch.PREF_STRING: prefValue = Services.prefs.getStringPref(pref); break; case Ci.nsIPrefBranch.PREF_BOOL: prefValue = Services.prefs.getBoolPref(pref); break; case Ci.nsIPrefBranch.PREF_INT: prefValue = Services.prefs.getIntPref(pref); break; default: throw new Error("Unexpected preference type."); } if (prefValue != value) { reportTestReason(reason); return false; } return true; } // TODO: Handle dual GPU setups if ( checkPref( DRIVER_PREF, gfxinfo.adapterDriverVersion, REASON_DRIVER_CHANGED ) && checkPref(DEVICE_PREF, gfxinfo.adapterDeviceID, REASON_DEVICE_CHANGED) && checkPref(VERSION_PREF, buildId, REASON_FIREFOX_CHANGED) ) { return false; } // Enable hardware decoding so we can test again // and record the driver version to detect if the driver changes. Services.prefs.setBoolPref(DISABLE_VIDEO_PREF, false); Services.prefs.setStringPref(DRIVER_PREF, gfxinfo.adapterDriverVersion); Services.prefs.setStringPref(DEVICE_PREF, gfxinfo.adapterDeviceID); Services.prefs.setStringPref(VERSION_PREF, buildId); // Update the prefs so that this test doesn't run again until the next update. Services.prefs.setBoolPref(RUNNING_PREF, true); Services.prefs.savePrefFile(null); return true; }, observe(subject, topic, data) { if (topic != "profile-after-change") { return; } if (Services.prefs.getBoolPref(TEST_DISABLED_PREF, false)) { return; } // profile-after-change fires only at startup, so we won't need // to use the listener again. let tester = listener; listener = null; if (!this.shouldRunTest()) { return; } annotateCrashReport(); // Open a tiny window to render our test page, and notify us when it's loaded var sanityTest = Services.ww.openWindow( null, "chrome://gfxsanity/content/sanityparent.html", "Test Page", "width=" + PAGE_WIDTH + ",height=" + PAGE_HEIGHT + ",chrome,titlebar=0,scrollbars=0,popup=1", null ); let appWin = sanityTest.docShell.treeOwner .QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIAppWindow); // Request fast snapshot at RenderCompositor of WebRender. // Since readback of Windows DirectComposition is very slow. appWin.needFastSnaphot(); // There's no clean way to have an invisible window and ensure it's always painted. // Instead, move the window far offscreen so it doesn't show up during launch. sanityTest.moveTo(100000000, 1000000000); // In multi-screens with different dpi setup, the window may have been // incorrectly resized. sanityTest.resizeTo(PAGE_WIDTH, PAGE_HEIGHT); tester.scheduleTest(sanityTest); }, };