/* -*- Mode: Java; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- / /* vim: set shiftwidth=4 tabstop=8 autoindent cindent expandtab: */ /* ***** BEGIN LICENSE BLOCK ***** * Version: MPL 1.1/GPL 2.0/LGPL 2.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is Mozilla's layout acceptance tests. * * The Initial Developer of the Original Code is the Mozilla Foundation. * Portions created by the Initial Developer are Copyright (C) 2006 * the Initial Developer. All Rights Reserved. * * Contributor(s): * L. David Baron , Mozilla Corporation (original author) * * Alternatively, the contents of this file may be used under the terms of * either the GNU General Public License Version 2 or later (the "GPL"), or * the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), * in which case the provisions of the GPL or the LGPL are applicable instead * of those above. If you wish to allow use of your version of this file only * under the terms of either the GPL or the LGPL, and not to allow others to * use your version of this file under the terms of the MPL, indicate your * decision by deleting the provisions above and replace them with the notice * and other provisions required by the GPL or the LGPL. If you do not delete * the provisions above, a recipient may use your version of this file under * the terms of any one of the MPL, the GPL or the LGPL. * * ***** END LICENSE BLOCK ***** */ const CC = Components.classes; const CI = Components.interfaces; const CR = Components.results; const XHTML_NS = "http://www.w3.org/1999/xhtml"; const NS_LOCAL_FILE_CONTRACTID = "@mozilla.org/file/local;1"; const IO_SERVICE_CONTRACTID = "@mozilla.org/network/io-service;1"; const DEBUG_CONTRACTID = "@mozilla.org/xpcom/debug;1"; const NS_LOCALFILEINPUTSTREAM_CONTRACTID = "@mozilla.org/network/file-input-stream;1"; const NS_SCRIPTSECURITYMANAGER_CONTRACTID = "@mozilla.org/scriptsecuritymanager;1"; const NS_REFTESTHELPER_CONTRACTID = "@mozilla.org/reftest-helper;1"; const NS_NETWORK_PROTOCOL_CONTRACTID_PREFIX = "@mozilla.org/network/protocol;1?name="; const LOAD_FAILURE_TIMEOUT = 10000; // ms var gBrowser; var gCanvas1, gCanvas2; // gCurrentCanvas is non-null between InitCurrentCanvasWithSnapshot and the next // DocumentLoaded. var gCurrentCanvas = null; var gURLs; // Map from URI spec to the number of times it remains to be used var gURIUseCounts; // Map from URI spec to the canvas rendered for that URI var gURICanvases; var gTestResults = { // Successful... Pass: 0, LoadOnly: 0, // Unexpected... Exception: 0, FailedLoad: 0, UnexpectedFail: 0, UnexpectedPass: 0, AssertionUnexpected: 0, AssertionUnexpectedFixed: 0, // Known problems... KnownFail : 0, AssertionKnown: 0, Random : 0, Skip: 0, }; var gTotalTests = 0; var gState; var gCurrentURL; var gFailureTimeout; var gFailureReason; var gServer; var gCount = 0; var gAssertionCount = 0; var gIOService; var gDebug; var gWindowUtils; var gCurrentTestStartTime; var gSlowestTestTime = 0; var gSlowestTestURL; var gClearingForAssertionCheck = false; const EXPECTED_PASS = 0; const EXPECTED_FAIL = 1; const EXPECTED_RANDOM = 2; const EXPECTED_DEATH = 3; // test must be skipped to avoid e.g. crash/hang const EXPECTED_LOAD = 4; // test without a reference (just test that it does // not assert, crash, hang, or leak) const HTTP_SERVER_PORT = 4444; var gRecycledCanvases = new Array(); function AllocateCanvas() { var windowElem = document.documentElement; if (gRecycledCanvases.length > 0) return gRecycledCanvases.shift(); var canvas = document.createElementNS(XHTML_NS, "canvas"); canvas.setAttribute("width", windowElem.getAttribute("width")); canvas.setAttribute("height", windowElem.getAttribute("height")); return canvas; } function ReleaseCanvas(canvas) { gRecycledCanvases.push(canvas); } function OnRefTestLoad() { gBrowser = document.getElementById("browser"); gBrowser.addEventListener("load", OnDocumentLoad, true); try { gWindowUtils = window.QueryInterface(CI.nsIInterfaceRequestor).getInterface(CI.nsIDOMWindowUtils); if (gWindowUtils && !gWindowUtils.compareCanvases) gWindowUtils = null; } catch (e) { gWindowUtils = null; } var windowElem = document.documentElement; gIOService = CC[IO_SERVICE_CONTRACTID].getService(CI.nsIIOService); gDebug = CC[DEBUG_CONTRACTID].getService(CI.nsIDebug2); try { ReadTopManifest(window.arguments[0]); BuildUseCounts(); if (gServer) { gServer.registerContentType("sjs", "sjs"); gServer.start(HTTP_SERVER_PORT); } gTotalTests = gURLs.length; gURICanvases = {}; StartCurrentTest(); } catch (ex) { //gBrowser.loadURI('data:text/plain,' + ex); ++gTestResults.Exception; dump("REFTEST TEST-UNEXPECTED-FAIL | | EXCEPTION: " + ex + "\n"); DoneTests(); } } function OnRefTestUnload() { /* Clear the sRGB forcing pref to leave the profile as we found it. */ var prefs = Components.classes["@mozilla.org/preferences-service;1"]. getService(Components.interfaces.nsIPrefBranch2); prefs.clearUserPref("gfx.color_management.force_srgb"); gBrowser.removeEventListener("load", OnDocumentLoad, true); } function ReadTopManifest(aFileURL) { gURLs = new Array(); var url = gIOService.newURI(aFileURL, null, null); if (!url || !url.schemeIs("file")) throw "Expected a file URL for the manifest."; ReadManifest(url); } function ReadManifest(aURL) { var listURL = aURL.QueryInterface(CI.nsIFileURL); var secMan = CC[NS_SCRIPTSECURITYMANAGER_CONTRACTID] .getService(CI.nsIScriptSecurityManager); var fis = CC[NS_LOCALFILEINPUTSTREAM_CONTRACTID]. createInstance(CI.nsIFileInputStream); fis.init(listURL.file, -1, -1, false); var lis = fis.QueryInterface(CI.nsILineInputStream); // Build the sandbox for fails-if(), etc., condition evaluation. var sandbox = new Components.utils.Sandbox(aURL.spec); for (var prop in gAutoconfVars) sandbox[prop] = gAutoconfVars[prop]; var hh = CC[NS_NETWORK_PROTOCOL_CONTRACTID_PREFIX + "http"]. getService(CI.nsIHttpProtocolHandler); sandbox.http = {}; for each (var prop in [ "userAgent", "appName", "appVersion", "vendor", "vendorSub", "vendorComment", "product", "productSub", "productComment", "platform", "oscpu", "language", "misc" ]) sandbox.http[prop] = hh[prop]; // see if we have the test plugin available, // and set a sandox prop accordingly sandbox.haveTestPlugin = false; for (var i = 0; i < navigator.mimeTypes.length; i++) { if (navigator.mimeTypes[i].type == "application/x-test" && navigator.mimeTypes[i].enabledPlugin != null && navigator.mimeTypes[i].enabledPlugin.name == "Test Plug-in") { sandbox.haveTestPlugin = true; break; } } var line = {value:null}; var lineNo = 0; do { var more = lis.readLine(line); ++lineNo; var str = line.value; if (str.charAt(0) == "#") continue; // entire line was a comment var i = str.search(/\s+#/); if (i >= 0) str = str.substring(0, i); // strip leading and trailing whitespace str = str.replace(/^\s*/, '').replace(/\s*$/, ''); if (!str || str == "") continue; var items = str.split(/\s+/); // split on whitespace var expected_status = EXPECTED_PASS; var minAsserts = 0; var maxAsserts = 0; while (items[0].match(/^(fails|random|skip|asserts)/)) { var item = items.shift(); var stat; var cond; var m = item.match(/^(fails|random|skip)-if(\(.*\))$/); if (m) { stat = m[1]; // Note: m[2] contains the parentheses, and we want them. cond = Components.utils.evalInSandbox(m[2], sandbox); } else if (item.match(/^(fails|random|skip)$/)) { stat = item; cond = true; } else if ((m = item.match(/^asserts\((\d+)(-\d+)?\)$/))) { cond = false; minAsserts = Number(m[1]); maxAsserts = (m[2] == undefined) ? minAsserts : Number(m[2].substring(1)); } else if ((m = item.match(/^asserts-if\((.*?),(\d+)(-\d+)?\)$/))) { cond = false; if (Components.utils.evalInSandbox("(" + m[1] + ")", sandbox)) { minAsserts = Number(m[2]); maxAsserts = (m[3] == undefined) ? minAsserts : Number(m[3].substring(1)); } } else { throw "Error in manifest file " + aURL.spec + " line " + lineNo; } if (cond) { if (stat == "fails") { expected_status = EXPECTED_FAIL; } else if (stat == "random") { expected_status = EXPECTED_RANDOM; } else if (stat == "skip") { expected_status = EXPECTED_DEATH; } } } if (minAsserts > maxAsserts) { throw "Bad range in manifest file " + aURL.spec + " line " + lineNo; } var runHttp = false; var httpDepth; if (items[0] == "HTTP") { runHttp = true; httpDepth = 0; items.shift(); } else if (items[0].match(/HTTP\(\.\.(\/\.\.)*\)/)) { // Accept HTTP(..), HTTP(../..), HTTP(../../..), etc. runHttp = true; httpDepth = (items[0].length - 5) / 3; items.shift(); } if (items[0] == "include") { if (items.length != 2 || runHttp) throw "Error in manifest file " + aURL.spec + " line " + lineNo; var incURI = gIOService.newURI(items[1], null, listURL); secMan.checkLoadURI(aURL, incURI, CI.nsIScriptSecurityManager.DISALLOW_SCRIPT); ReadManifest(incURI); } else if (items[0] == "load") { if (expected_status == EXPECTED_PASS) expected_status = EXPECTED_LOAD; if (items.length != 2 || (expected_status != EXPECTED_LOAD && expected_status != EXPECTED_DEATH)) throw "Error in manifest file " + aURL.spec + " line " + lineNo; var [testURI] = runHttp ? ServeFiles(aURL, httpDepth, listURL.file.parent, [items[1]]) : [gIOService.newURI(items[1], null, listURL)]; var prettyPath = runHttp ? gIOService.newURI(items[1], null, listURL).spec : testURI.spec; secMan.checkLoadURI(aURL, testURI, CI.nsIScriptSecurityManager.DISALLOW_SCRIPT); gURLs.push( { equal: true /* meaningless */, expected: expected_status, prettyPath: prettyPath, minAsserts: minAsserts, maxAsserts: maxAsserts, url1: testURI, url2: null } ); } else if (items[0] == "==" || items[0] == "!=") { if (items.length != 3) throw "Error in manifest file " + aURL.spec + " line " + lineNo; var [testURI, refURI] = runHttp ? ServeFiles(aURL, httpDepth, listURL.file.parent, [items[1], items[2]]) : [gIOService.newURI(items[1], null, listURL), gIOService.newURI(items[2], null, listURL)]; var prettyPath = runHttp ? gIOService.newURI(items[1], null, listURL).spec : testURI.spec; secMan.checkLoadURI(aURL, testURI, CI.nsIScriptSecurityManager.DISALLOW_SCRIPT); secMan.checkLoadURI(aURL, refURI, CI.nsIScriptSecurityManager.DISALLOW_SCRIPT); gURLs.push( { equal: (items[0] == "=="), expected: expected_status, prettyPath: prettyPath, minAsserts: minAsserts, maxAsserts: maxAsserts, url1: testURI, url2: refURI } ); } else { throw "Error in manifest file " + aURL.spec + " line " + lineNo; } } while (more); } function AddURIUseCount(uri) { if (uri == null) return; var spec = uri.spec; if (spec in gURIUseCounts) { gURIUseCounts[spec]++; } else { gURIUseCounts[spec] = 1; } } function BuildUseCounts() { gURIUseCounts = {}; for (var i = 0; i < gURLs.length; ++i) { var expected = gURLs[i].expected; if (expected != EXPECTED_DEATH && expected != EXPECTED_LOAD) { AddURIUseCount(gURLs[i].url1); AddURIUseCount(gURLs[i].url2); } } } function ServeFiles(manifestURL, depth, directory, files) { if (!gServer) gServer = CC["@mozilla.org/server/jshttp;1"]. createInstance(CI.nsIHttpServer); // Allow serving a tree that's an ancestor of the directory containing // the files so that they can use resources in ../ (etc.). var dirPath = "/"; while (depth > 0) { dirPath = "/" + directory.leafName + dirPath; directory = directory.parent; --depth; } gCount++; var path = "/" + gCount; gServer.registerDirectory(path + "/", directory); var secMan = CC[NS_SCRIPTSECURITYMANAGER_CONTRACTID] .getService(CI.nsIScriptSecurityManager); var testbase = gIOService.newURI("http://localhost:" + HTTP_SERVER_PORT + path + dirPath, null, null); function FileToURI(file) { // Only serve relative URIs via the HTTP server, not absolute // ones like about:blank. var testURI = gIOService.newURI(file, null, testbase); // XXX necessary? manifestURL guaranteed to be file, others always HTTP secMan.checkLoadURI(manifestURL, testURI, CI.nsIScriptSecurityManager.DISALLOW_SCRIPT); return testURI; } return files.map(FileToURI); } function StartCurrentTest() { // make sure we don't run tests that are expected to kill the browser while (gURLs.length > 0 && gURLs[0].expected == EXPECTED_DEATH) { ++gTestResults.Skip; dump("REFTEST TEST-KNOWN-FAIL | " + gURLs[0].url1.spec + " | (SKIP)\n"); gURLs.shift(); } if (gURLs.length == 0) { DoneTests(); } else { var currentTest = gTotalTests - gURLs.length; document.title = "reftest: " + currentTest + " / " + gTotalTests + " (" + Math.floor(100 * (currentTest / gTotalTests)) + "%)"; StartCurrentURI(1); } } function StartCurrentURI(aState) { gCurrentTestStartTime = Date.now(); gFailureTimeout = setTimeout(LoadFailed, LOAD_FAILURE_TIMEOUT); gFailureReason = "timed out waiting for onload to fire"; gState = aState; gCurrentURL = gURLs[0]["url" + aState].spec; if (gURICanvases[gCurrentURL] && gURLs[0].expected != EXPECTED_LOAD && gURLs[0].maxAsserts == 0) { // Pretend the document loaded --- DocumentLoaded will notice // there's already a canvas for this URL setTimeout(DocumentLoaded, 0); } else { gBrowser.loadURI(gCurrentURL); } } function DoneTests() { dump("REFTEST FINISHED: Slowest test took " + gSlowestTestTime + "ms (" + gSlowestTestURL + ")\n"); dump("REFTEST INFO | Result summary:\n"); var count = gTestResults.Pass + gTestResults.LoadOnly; dump("REFTEST INFO | Successful: " + count + " (" + gTestResults.Pass + " pass, " + gTestResults.LoadOnly + " load only)\n"); count = gTestResults.Exception + gTestResults.FailedLoad + gTestResults.UnexpectedFail + gTestResults.UnexpectedPass + gTestResults.AssertionUnexpected + gTestResults.AssertionUnexpectedFixed; dump("REFTEST INFO | Unexpected: " + count + " (" + gTestResults.UnexpectedFail + " unexpected fail, " + gTestResults.UnexpectedPass + " unexpected pass, " + gTestResults.AssertionUnexpected + " unexpected asserts, " + gTestResults.AssertionUnexpectedFixed + " unexpected fixed asserts, " + gTestResults.FailedLoad + " failed load, " + gTestResults.Exception + " exception)\n"); count = gTestResults.KnownFail + gTestResults.AssertionKnown + gTestResults.Random + gTestResults.Skip; dump("REFTEST INFO | Known problems: " + count + " (" + gTestResults.KnownFail + " known fail, " + gTestResults.AssertionKnown + " known asserts, " + gTestResults.Random + " random, " + gTestResults.Skip + " skipped)\n"); dump("REFTEST INFO | Total canvas count = " + gRecycledCanvases.length + "\n"); if (gServer) gServer.stop(); goQuitApplication(); } function setupZoom(contentRootElement) { if (!contentRootElement.hasAttribute('reftest-zoom')) return; gBrowser.markupDocumentViewer.fullZoom = contentRootElement.getAttribute('reftest-zoom'); } function resetZoom() { gBrowser.markupDocumentViewer.fullZoom = 1.0; } function OnDocumentLoad(event) { if (event.target != gBrowser.contentDocument) // Ignore load events for subframes. return; if (gClearingForAssertionCheck) { DoAssertionCheck(); return; } if (gBrowser.contentDocument.location.href != gCurrentURL) // Ignore load events for previous documents. return; var contentRootElement = gBrowser.contentDocument.documentElement; function shouldWait() { // use getAttribute because className works differently in HTML and SVG return contentRootElement.hasAttribute('class') && contentRootElement.getAttribute('class').split(/\s+/) .indexOf("reftest-wait") != -1; } function doPrintMode() { // use getAttribute because className works differently in HTML and SVG return contentRootElement.hasAttribute('class') && contentRootElement.getAttribute('class').split(/\s+/) .indexOf("reftest-print") != -1; } function setupPrintMode() { var PSSVC = Components.classes["@mozilla.org/gfx/printsettings-service;1"] .getService(Components.interfaces.nsIPrintSettingsService); var ps = PSSVC.newPrintSettings; ps.paperWidth = 5; ps.paperHeight = 3; // Override any os-specific unwriteable margins ps.unwriteableMarginTop = 0; ps.unwriteableMarginLeft = 0; ps.unwriteableMarginBottom = 0; ps.unwriteableMarginRight = 0; ps.headerStrLeft = ""; ps.headerStrCenter = ""; ps.headerStrRight = ""; ps.footerStrLeft = ""; ps.footerStrCenter = ""; ps.footerStrRight = ""; gBrowser.docShell.contentViewer.setPageMode(true, ps); } setupZoom(contentRootElement); if (shouldWait()) { // The testcase will let us know when the test snapshot should be made. // Register a mutation listener to know when the 'reftest-wait' class // gets removed. gFailureReason = "timed out waiting for reftest-wait to be removed (after onload fired)" var stopAfterPaintReceived = false; var currentDoc = gBrowser.contentDocument; var utils = gBrowser.contentWindow.QueryInterface(CI.nsIInterfaceRequestor) .getInterface(CI.nsIDOMWindowUtils); function FlushRendering() { // Flush pending restyles and reflows contentRootElement.getBoundingClientRect(); // Flush out invalidation utils.processUpdates(); } function WhenMozAfterPaintFlushed(continuation) { if (utils.isMozAfterPaintPending) { function handler() { gBrowser.removeEventListener("MozAfterPaint", handler, false); continuation(); } gBrowser.addEventListener("MozAfterPaint", handler, false); } else { continuation(); } } function AfterPaintListener(event) { if (event.target.document != currentDoc) { // ignore paint events for subframes or old documents in the window. // Invalidation in subframes will cause invalidation in the main document anyway. return; } FlushRendering(); UpdateCurrentCanvasForEvent(event); // When stopAfteraintReceived is set, we can stop --- but we should keep going as long // as there are paint events coming (there probably shouldn't be any, but it doesn't // hurt to process them) if (stopAfterPaintReceived && !utils.isMozAfterPaintPending) { FinishWaitingForTestEnd(); } } function FinishWaitingForTestEnd() { gBrowser.removeEventListener("MozAfterPaint", AfterPaintListener, false); setTimeout(DocumentLoaded, 0); } function AttrModifiedListener() { if (shouldWait()) return; // We don't want to be notified again contentRootElement.removeEventListener("DOMAttrModified", AttrModifiedListener, false); if (doPrintMode()) setupPrintMode(); FlushRendering(); if (utils.isMozAfterPaintPending) { // Wait for the last invalidation to have happened and been snapshotted before // we stop the test stopAfterPaintReceived = true; } else { // Nothing to wait for, so stop now FinishWaitingForTestEnd(); } } function StartWaitingForTestEnd() { FlushRendering(); function continuation() { gBrowser.addEventListener("MozAfterPaint", AfterPaintListener, false); contentRootElement.addEventListener("DOMAttrModified", AttrModifiedListener, false); // Take a snapshot of the window in its current state InitCurrentCanvasWithSnapshot(); if (!shouldWait()) { // reftest-wait was already removed (during the interval between OnDocumentLoaded // calling setTimeout(StartWaitingForTestEnd,0) below, and this function // actually running), so let's fake a direct notification of the attribute // change. AttrModifiedListener(); return; } // Notify the test document that now is a good time to test some invalidation var notification = document.createEvent("Events"); notification.initEvent("MozReftestInvalidate", true, false); contentRootElement.dispatchEvent(notification); } WhenMozAfterPaintFlushed(continuation); } // After this load event has finished being dispatched, painting is normally // unsuppressed, which invalidates the entire window. So ensure // StartWaitingForTestEnd runs after that invalidation has been requested. setTimeout(StartWaitingForTestEnd, 0); } else { if (doPrintMode()) setupPrintMode(); // Since we can't use a bubbling-phase load listener from chrome, // this is a capturing phase listener. So do setTimeout twice, the // first to get us after the onload has fired in the content, and // the second to get us after any setTimeout(foo, 0) in the content. setTimeout(setTimeout, 0, DocumentLoaded, 0); } } function UpdateCanvasCache(url, canvas) { var spec = url.spec; --gURIUseCounts[spec]; if (gURIUseCounts[spec] == 0) { ReleaseCanvas(canvas); delete gURICanvases[spec]; } else if (gURIUseCounts[spec] > 0) { gURICanvases[spec] = canvas; } else { throw "Use counts were computed incorrectly"; } } function InitCurrentCanvasWithSnapshot() { gCurrentCanvas = AllocateCanvas(); /* XXX This needs to be rgb(255,255,255) because otherwise we get * black bars at the bottom of every test that are different size * for the first test and the rest (scrollbar-related??) */ var win = gBrowser.contentWindow; var ctx = gCurrentCanvas.getContext("2d"); var scale = gBrowser.markupDocumentViewer.fullZoom; ctx.save(); // drawWindow always draws one canvas pixel for each CSS pixel in the source // window, so scale the drawing to show the zoom (making each canvas pixel be one // device pixel instead) ctx.scale(scale, scale); ctx.drawWindow(win, win.scrollX, win.scrollY, Math.ceil(gCurrentCanvas.width / scale), Math.ceil(gCurrentCanvas.height / scale), "rgb(255,255,255)"); ctx.restore(); } function roundTo(x, fraction) { return Math.round(x/fraction)*fraction; } function UpdateCurrentCanvasForEvent(event) { var win = gBrowser.contentWindow; var ctx = gCurrentCanvas.getContext("2d"); var scale = gBrowser.markupDocumentViewer.fullZoom; var rectList = event.clientRects; for (var i = 0; i < rectList.length; ++i) { var r = rectList[i]; // Set left/top/right/bottom to "device pixel" boundaries var left = Math.floor(roundTo(r.left*scale, 0.001))/scale; var top = Math.floor(roundTo(r.top*scale, 0.001))/scale; var right = Math.ceil(roundTo(r.right*scale, 0.001))/scale; var bottom = Math.ceil(roundTo(r.bottom*scale, 0.001))/scale; ctx.save(); ctx.scale(scale, scale); ctx.translate(left, top); ctx.drawWindow(win, left + win.scrollX, top + win.scrollY, right - left, bottom - top, "rgb(255,255,255)"); ctx.restore(); } } function DocumentLoaded() { // Keep track of which test was slowest, and how long it took. var currentTestRunTime = Date.now() - gCurrentTestStartTime; if (currentTestRunTime > gSlowestTestTime) { gSlowestTestTime = currentTestRunTime; gSlowestTestURL = gCurrentURL; } clearTimeout(gFailureTimeout); gFailureReason = null; if (gURLs[0].expected == EXPECTED_LOAD) { ++gTestResults.LoadOnly; dump("REFTEST TEST-PASS | " + gURLs[0].prettyPath + " | (LOAD ONLY)\n"); FinishTestItem(); return; } if (gURICanvases[gCurrentURL]) { gCurrentCanvas = gURICanvases[gCurrentURL]; } else if (gCurrentCanvas == null) { InitCurrentCanvasWithSnapshot(); } if (gState == 1) { gCanvas1 = gCurrentCanvas; } else { gCanvas2 = gCurrentCanvas; } gCurrentCanvas = null; resetZoom(); switch (gState) { case 1: // First document has been loaded. // Proceed to load the second document. StartCurrentURI(2); break; case 2: // Both documents have been loaded. Compare the renderings and see // if the comparison result matches the expected result specified // in the manifest. // number of different pixels var differences; // whether the two renderings match: var equal; if (gWindowUtils) { differences = gWindowUtils.compareCanvases(gCanvas1, gCanvas2, {}); equal = (differences == 0); } else { differences = -1; var k1 = gCanvas1.toDataURL(); var k2 = gCanvas2.toDataURL(); equal = (k1 == k2); } // whether the comparison result matches what is in the manifest var test_passed = (equal == gURLs[0].equal); // what is expected on this platform (PASS, FAIL, or RANDOM) var expected = gURLs[0].expected; var outputs = {}; const randomMsg = "(EXPECTED RANDOM)"; outputs[EXPECTED_PASS] = { true: {s: "TEST-PASS" , n: "Pass"}, false: {s: "TEST-UNEXPECTED-FAIL" , n: "UnexpectedFail"} }; outputs[EXPECTED_FAIL] = { true: {s: "TEST-UNEXPECTED-PASS" , n: "UnexpectedPass"}, false: {s: "TEST-KNOWN-FAIL" , n: "KnownFail"} }; outputs[EXPECTED_RANDOM] = { true: {s: "TEST-PASS" + randomMsg , n: "Random"}, false: {s: "TEST-KNOWN-FAIL" + randomMsg, n: "Random"} }; ++gTestResults[outputs[expected][test_passed].n]; var result = "REFTEST " + outputs[expected][test_passed].s + " | " + gURLs[0].prettyPath + " | "; // the URL being tested if (!gURLs[0].equal) { result += "(!=) "; } dump(result + "\n"); if (!test_passed && expected == EXPECTED_PASS || test_passed && expected == EXPECTED_FAIL) { if (!equal) { dump("REFTEST IMAGE 1 (TEST): " + gCanvas1.toDataURL() + "\n"); dump("REFTEST IMAGE 2 (REFERENCE): " + gCanvas2.toDataURL() + "\n"); dump("REFTEST number of differing pixels: " + differences + "\n"); } else { dump("REFTEST IMAGE: " + gCanvas1.toDataURL() + "\n"); } } UpdateCanvasCache(gURLs[0].url1, gCanvas1); UpdateCanvasCache(gURLs[0].url2, gCanvas2); FinishTestItem(); break; default: throw "Unexpected state."; } } function LoadFailed() { ++gTestResults.FailedLoad; dump("REFTEST TEST-UNEXPECTED-FAIL | " + gURLs[0]["url" + gState].spec + " | " + gFailureReason + "\n"); FinishTestItem(); } function FinishTestItem() { // Replace document with about:blank in case there are // assertions when unloading. gClearingForAssertionCheck = true; gBrowser.loadURI("about:blank"); } function DoAssertionCheck() { gClearingForAssertionCheck = false; if (gDebug.isDebugBuild) { // TEMPORARILY DISABLING ASSERTION CHECKS FOR NOW. TO RE-ENABLE, // USE COMMENTED LINE TO REPLACE FOLLOWING ONE. // var newAssertionCount = gDebug.assertionCount; var newAssertionCount = 0; var numAsserts = newAssertionCount - gAssertionCount; gAssertionCount = newAssertionCount; var minAsserts = gURLs[0].minAsserts; var maxAsserts = gURLs[0].maxAsserts; var expectedAssertions = "expected " + minAsserts; if (minAsserts != maxAsserts) { expectedAssertions += " to " + maxAsserts; } expectedAssertions += " assertions"; if (numAsserts < minAsserts) { ++gTestResults.AssertionUnexpectedFixed; dump("REFTEST TEST-UNEXPECTED-PASS | " + gURLs[0].prettyPath + " | assertion count " + numAsserts + " is less than " + expectedAssertions + "\n"); } else if (numAsserts > maxAsserts) { ++gTestResults.AssertionUnexpected; dump("REFTEST TEST-UNEXPECTED-FAIL | " + gURLs[0].prettyPath + " | assertion count " + numAsserts + " is more than " + expectedAssertions + "\n"); } else if (numAsserts != 0) { ++gTestResults.AssertionKnown; dump("REFTEST TEST-KNOWN-FAIL | " + gURLs[0].prettyPath + " | assertion count " + numAsserts + " matches " + expectedAssertions + "\n"); } } // And start the next test. gURLs.shift(); StartCurrentTest(); }