/* Any copyright is dedicated to the Public Domain. * http://creativecommons.org/publicdomain/zero/1.0/ */ // Test whether a machine which exactly matches the blocklist entry is // successfully blocked. // Uses test_gfxBlacklist_AllOS.json // Performs the initial setup async function run_test() { var gfxInfo = Cc["@mozilla.org/gfx/info;1"].getService(Ci.nsIGfxInfo); // We can't do anything if we can't spoof the stuff we need. if (!(gfxInfo instanceof Ci.nsIGfxInfoDebug)) { do_test_finished(); return; } gfxInfo.QueryInterface(Ci.nsIGfxInfoDebug); // Save OS in variable since createAppInfo below will change it to "xpcshell". const OS = Services.appinfo.OS; // Set the vendor/device ID, etc, to match the test file. switch (OS) { case "WINNT": gfxInfo.spoofVendorID("0xabcd"); gfxInfo.spoofDeviceID("0x1234"); gfxInfo.spoofDriverVersion("8.52.322.2201"); // Windows 7 gfxInfo.spoofOSVersion(0x60001); break; case "Linux": gfxInfo.spoofVendorID("0xabcd"); gfxInfo.spoofDeviceID("0x1234"); break; case "Darwin": gfxInfo.spoofVendorID("0xabcd"); gfxInfo.spoofDeviceID("0x1234"); gfxInfo.spoofOSVersion(0xa0900); break; case "Android": gfxInfo.spoofVendorID("0xabcd"); gfxInfo.spoofDeviceID("0x1234"); gfxInfo.spoofDriverVersion("5"); break; } do_test_pending(); createAppInfo("xpcshell@tests.mozilla.org", "XPCShell", "15.0", "8"); await promiseStartupManager(); function checkBlocklist() { var failureId = {}; var status; status = gfxInfo.getFeatureStatus( Ci.nsIGfxInfo.FEATURE_DIRECT2D, failureId ); Assert.equal(status, Ci.nsIGfxInfo.FEATURE_BLOCKED_DRIVER_VERSION); Assert.equal(failureId.value, "FEATURE_FAILURE_DL_BLOCKLIST_g1"); status = gfxInfo.getFeatureStatus( Ci.nsIGfxInfo.FEATURE_DIRECT3D_9_LAYERS, failureId ); Assert.equal(status, Ci.nsIGfxInfo.FEATURE_BLOCKED_DRIVER_VERSION); Assert.equal(failureId.value, "FEATURE_FAILURE_DL_BLOCKLIST_g2"); status = gfxInfo.getFeatureStatus( Ci.nsIGfxInfo.FEATURE_DIRECT3D_10_LAYERS, failureId ); Assert.equal(status, Ci.nsIGfxInfo.FEATURE_STATUS_OK); Assert.equal(failureId.value, ""); status = gfxInfo.getFeatureStatus( Ci.nsIGfxInfo.FEATURE_DIRECT3D_10_1_LAYERS, failureId ); Assert.equal(status, Ci.nsIGfxInfo.FEATURE_STATUS_OK); Assert.equal(failureId.value, ""); status = gfxInfo.getFeatureStatus(Ci.nsIGfxInfo.FEATURE_OPENGL_LAYERS); Assert.equal(status, Ci.nsIGfxInfo.FEATURE_BLOCKED_DRIVER_VERSION); status = gfxInfo.getFeatureStatus( Ci.nsIGfxInfo.FEATURE_WEBGL_OPENGL, failureId ); Assert.equal(status, Ci.nsIGfxInfo.FEATURE_BLOCKED_DRIVER_VERSION); Assert.equal(failureId.value, "FEATURE_FAILURE_DL_BLOCKLIST_g11"); status = gfxInfo.getFeatureStatus( Ci.nsIGfxInfo.FEATURE_WEBGL_ANGLE, failureId ); Assert.equal(status, Ci.nsIGfxInfo.FEATURE_BLOCKED_DRIVER_VERSION); Assert.equal(failureId.value, "FEATURE_FAILURE_DL_BLOCKLIST_NO_ID"); status = gfxInfo.getFeatureStatus(Ci.nsIGfxInfo.FEATURE_WEBGL2, failureId); Assert.equal(status, Ci.nsIGfxInfo.FEATURE_BLOCKED_DRIVER_VERSION); Assert.equal(failureId.value, "FEATURE_FAILURE_DL_BLOCKLIST_NO_ID"); status = gfxInfo.getFeatureStatus( Ci.nsIGfxInfo.FEATURE_STAGEFRIGHT, failureId ); Assert.equal(status, Ci.nsIGfxInfo.FEATURE_STATUS_OK); status = gfxInfo.getFeatureStatus( Ci.nsIGfxInfo.FEATURE_WEBRTC_HW_ACCELERATION_H264, failureId ); if (OS == "Android" && status != Ci.nsIGfxInfo.FEATURE_STATUS_OK) { // Hardware acceleration for H.264 varies by device. Assert.equal(status, Ci.nsIGfxInfo.FEATURE_BLOCKED_DEVICE); Assert.equal(failureId.value, "FEATURE_FAILURE_WEBRTC_H264"); } else { Assert.equal(status, Ci.nsIGfxInfo.FEATURE_STATUS_OK); } status = gfxInfo.getFeatureStatus( Ci.nsIGfxInfo.FEATURE_WEBRTC_HW_ACCELERATION_ENCODE, failureId ); if (OS == "Android" && status != Ci.nsIGfxInfo.FEATURE_STATUS_OK) { Assert.equal(status, Ci.nsIGfxInfo.FEATURE_BLOCKED_DEVICE); Assert.equal(failureId.value, "FEATURE_FAILURE_WEBRTC_ENCODE"); } else { Assert.equal(status, Ci.nsIGfxInfo.FEATURE_STATUS_OK); } status = gfxInfo.getFeatureStatus( Ci.nsIGfxInfo.FEATURE_WEBRTC_HW_ACCELERATION_DECODE, failureId ); if (OS == "Android" && status != Ci.nsIGfxInfo.FEATURE_STATUS_OK) { Assert.equal(status, Ci.nsIGfxInfo.FEATURE_BLOCKED_DEVICE); Assert.equal(failureId.value, "FEATURE_FAILURE_WEBRTC_DECODE"); } else { Assert.equal(status, Ci.nsIGfxInfo.FEATURE_STATUS_OK); } status = gfxInfo.getFeatureStatus( Ci.nsIGfxInfo.FEATURE_DIRECT3D_11_LAYERS, failureId ); Assert.equal(status, Ci.nsIGfxInfo.FEATURE_STATUS_OK); status = gfxInfo.getFeatureStatus( Ci.nsIGfxInfo.FEATURE_HARDWARE_VIDEO_DECODING, failureId ); if (OS == "Linux" && status != Ci.nsIGfxInfo.FEATURE_STATUS_OK) { // Linux test suite is running on SW OpenGL backend and we disable // HW video decoding there. Assert.equal(status, Ci.nsIGfxInfo.FEATURE_BLOCKED_PLATFORM_TEST); Assert.equal( failureId.value, "FEATURE_FAILURE_VIDEO_DECODING_TEST_FAILED" ); } else { Assert.equal(status, Ci.nsIGfxInfo.FEATURE_STATUS_OK); } status = gfxInfo.getFeatureStatus( Ci.nsIGfxInfo.FEATURE_DIRECT3D_11_ANGLE, failureId ); Assert.equal(status, Ci.nsIGfxInfo.FEATURE_STATUS_OK); status = gfxInfo.getFeatureStatus( Ci.nsIGfxInfo.FEATURE_DX_INTEROP2, failureId ); Assert.equal(status, Ci.nsIGfxInfo.FEATURE_STATUS_OK); do_test_finished(); } Services.obs.addObserver(function (aSubject, aTopic, aData) { // If we wait until after we go through the event loop, gfxInfo is sure to // have processed the gfxItems event. executeSoon(checkBlocklist); }, "blocklist-data-gfxItems"); mockGfxBlocklistItemsFromDisk("../data/test_gfxBlacklist_AllOS.json"); }