// Copyright (c) 2013 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "base/json/json_reader.h" #include "gpu/config/gpu_control_list.h" #include "gpu/config/gpu_info.h" #include "testing/gtest/include/gtest/gtest.h" #define LONG_STRING_CONST(...) #__VA_ARGS__ namespace gpu { enum TestFeatureType { TEST_FEATURE_0 = 0, TEST_FEATURE_1, TEST_FEATURE_2 }; class GpuControlListEntryTest : public testing::Test { public: GpuControlListEntryTest() { } virtual ~GpuControlListEntryTest() { } const GPUInfo& gpu_info() const { return gpu_info_; } typedef GpuControlList::ScopedGpuControlListEntry ScopedEntry; static ScopedEntry GetEntryFromString( const std::string& json, bool supports_feature_type_all) { scoped_ptr root; root.reset(base::JSONReader::Read(json)); base::DictionaryValue* value = NULL; if (root.get() == NULL || !root->GetAsDictionary(&value)) return NULL; GpuControlList::FeatureMap feature_map; feature_map["test_feature_0"] = TEST_FEATURE_0; feature_map["test_feature_1"] = TEST_FEATURE_1; feature_map["test_feature_2"] = TEST_FEATURE_2; return GpuControlList::GpuControlListEntry::GetEntryFromValue( value, true, feature_map, supports_feature_type_all); } static ScopedEntry GetEntryFromString(const std::string& json) { return GetEntryFromString(json, false); } virtual void SetUp() { gpu_info_.gpu.vendor_id = 0x10de; gpu_info_.gpu.device_id = 0x0640; gpu_info_.driver_vendor = "NVIDIA"; gpu_info_.driver_version = "1.6.18"; gpu_info_.driver_date = "7-14-2009"; gpu_info_.machine_model = "MacBookPro 7.1"; gpu_info_.gl_vendor = "NVIDIA Corporation"; gpu_info_.gl_renderer = "NVIDIA GeForce GT 120 OpenGL Engine"; gpu_info_.performance_stats.graphics = 5.0; gpu_info_.performance_stats.gaming = 5.0; gpu_info_.performance_stats.overall = 5.0; } private: GPUInfo gpu_info_; }; TEST_F(GpuControlListEntryTest, DetailedEntry) { const std::string json = LONG_STRING_CONST( { "id": 5, "description": "test entry", "cr_bugs": [1024, 678], "webkit_bugs": [1950], "os": { "type": "macosx", "version": { "op": "=", "value": "10.6.4" } }, "vendor_id": "0x10de", "device_id": ["0x0640"], "driver_version": { "op": "=", "value": "1.6.18" }, "features": [ "test_feature_0" ] } ); ScopedEntry entry(GetEntryFromString(json)); EXPECT_TRUE(entry.get() != NULL); EXPECT_EQ(GpuControlList::kOsMacosx, entry->GetOsType()); EXPECT_FALSE(entry->disabled()); EXPECT_EQ(5u, entry->id()); EXPECT_STREQ("test entry", entry->description().c_str()); EXPECT_EQ(2u, entry->cr_bugs().size()); EXPECT_EQ(1024, entry->cr_bugs()[0]); EXPECT_EQ(678, entry->cr_bugs()[1]); EXPECT_EQ(1u, entry->webkit_bugs().size()); EXPECT_EQ(1950, entry->webkit_bugs()[0]); EXPECT_EQ(1u, entry->features().size()); EXPECT_EQ(1u, entry->features().count(TEST_FEATURE_0)); EXPECT_FALSE(entry->NeedsMoreInfo(gpu_info())); EXPECT_TRUE(entry->Contains( GpuControlList::kOsMacosx, "10.6.4", gpu_info())); } TEST_F(GpuControlListEntryTest, VendorOnAllOsEntry) { const std::string json = LONG_STRING_CONST( { "id": 1, "vendor_id": "0x10de", "features": [ "test_feature_0" ] } ); ScopedEntry entry(GetEntryFromString(json)); EXPECT_TRUE(entry.get() != NULL); EXPECT_EQ(GpuControlList::kOsAny, entry->GetOsType()); const GpuControlList::OsType os_type[] = { GpuControlList::kOsMacosx, GpuControlList::kOsWin, GpuControlList::kOsLinux, GpuControlList::kOsChromeOS, GpuControlList::kOsAndroid }; for (size_t i = 0; i < arraysize(os_type); ++i) EXPECT_TRUE(entry->Contains(os_type[i], "10.6", gpu_info())); } TEST_F(GpuControlListEntryTest, VendorOnLinuxEntry) { const std::string json = LONG_STRING_CONST( { "id": 1, "os": { "type": "linux" }, "vendor_id": "0x10de", "features": [ "test_feature_0" ] } ); ScopedEntry entry(GetEntryFromString(json)); EXPECT_TRUE(entry.get() != NULL); EXPECT_EQ(GpuControlList::kOsLinux, entry->GetOsType()); const GpuControlList::OsType os_type[] = { GpuControlList::kOsMacosx, GpuControlList::kOsWin, GpuControlList::kOsChromeOS, GpuControlList::kOsAndroid }; for (size_t i = 0; i < arraysize(os_type); ++i) EXPECT_FALSE(entry->Contains(os_type[i], "10.6", gpu_info())); EXPECT_TRUE(entry->Contains( GpuControlList::kOsLinux, "10.6", gpu_info())); } TEST_F(GpuControlListEntryTest, AllExceptNVidiaOnLinuxEntry) { const std::string json = LONG_STRING_CONST( { "id": 1, "os": { "type": "linux" }, "exceptions": [ { "vendor_id": "0x10de" } ], "features": [ "test_feature_0" ] } ); ScopedEntry entry(GetEntryFromString(json)); EXPECT_TRUE(entry.get() != NULL); EXPECT_EQ(GpuControlList::kOsLinux, entry->GetOsType()); const GpuControlList::OsType os_type[] = { GpuControlList::kOsMacosx, GpuControlList::kOsWin, GpuControlList::kOsLinux, GpuControlList::kOsChromeOS, GpuControlList::kOsAndroid }; for (size_t i = 0; i < arraysize(os_type); ++i) EXPECT_FALSE(entry->Contains(os_type[i], "10.6", gpu_info())); } TEST_F(GpuControlListEntryTest, AllExceptIntelOnLinuxEntry) { const std::string json = LONG_STRING_CONST( { "id": 1, "os": { "type": "linux" }, "exceptions": [ { "vendor_id": "0x8086" } ], "features": [ "test_feature_0" ] } ); ScopedEntry entry(GetEntryFromString(json)); EXPECT_TRUE(entry.get() != NULL); EXPECT_EQ(GpuControlList::kOsLinux, entry->GetOsType()); const GpuControlList::OsType os_type[] = { GpuControlList::kOsMacosx, GpuControlList::kOsWin, GpuControlList::kOsChromeOS, GpuControlList::kOsAndroid }; for (size_t i = 0; i < arraysize(os_type); ++i) EXPECT_FALSE(entry->Contains(os_type[i], "10.6", gpu_info())); EXPECT_TRUE(entry->Contains( GpuControlList::kOsLinux, "10.6", gpu_info())); } TEST_F(GpuControlListEntryTest, DateOnWindowsEntry) { const std::string json = LONG_STRING_CONST( { "id": 1, "os": { "type": "win" }, "driver_date": { "op": "<", "value": "2010.5.8" }, "features": [ "test_feature_0" ] } ); ScopedEntry entry(GetEntryFromString(json)); EXPECT_TRUE(entry.get() != NULL); EXPECT_EQ(GpuControlList::kOsWin, entry->GetOsType()); GPUInfo gpu_info; gpu_info.driver_date = "4-12-2010"; EXPECT_TRUE(entry->Contains( GpuControlList::kOsWin, "10.6", gpu_info)); gpu_info.driver_date = "5-8-2010"; EXPECT_FALSE(entry->Contains( GpuControlList::kOsWin, "10.6", gpu_info)); gpu_info.driver_date = "5-9-2010"; EXPECT_FALSE(entry->Contains( GpuControlList::kOsWin, "10.6", gpu_info)); } TEST_F(GpuControlListEntryTest, MultipleDevicesEntry) { const std::string json = LONG_STRING_CONST( { "id": 1, "vendor_id": "0x10de", "device_id": ["0x1023", "0x0640"], "features": [ "test_feature_0" ] } ); ScopedEntry entry(GetEntryFromString(json)); EXPECT_TRUE(entry.get() != NULL); EXPECT_EQ(GpuControlList::kOsAny, entry->GetOsType()); const GpuControlList::OsType os_type[] = { GpuControlList::kOsMacosx, GpuControlList::kOsWin, GpuControlList::kOsLinux, GpuControlList::kOsChromeOS, GpuControlList::kOsAndroid }; for (size_t i = 0; i < arraysize(os_type); ++i) EXPECT_TRUE(entry->Contains(os_type[i], "10.6", gpu_info())); } TEST_F(GpuControlListEntryTest, ChromeOSEntry) { const std::string json = LONG_STRING_CONST( { "id": 1, "os": { "type": "chromeos" }, "features": [ "test_feature_0" ] } ); ScopedEntry entry(GetEntryFromString(json)); EXPECT_TRUE(entry.get() != NULL); EXPECT_EQ(GpuControlList::kOsChromeOS, entry->GetOsType()); const GpuControlList::OsType os_type[] = { GpuControlList::kOsMacosx, GpuControlList::kOsWin, GpuControlList::kOsLinux, GpuControlList::kOsAndroid }; for (size_t i = 0; i < arraysize(os_type); ++i) EXPECT_FALSE(entry->Contains(os_type[i], "10.6", gpu_info())); EXPECT_TRUE(entry->Contains( GpuControlList::kOsChromeOS, "10.6", gpu_info())); } TEST_F(GpuControlListEntryTest, MalformedVendor) { const std::string json = LONG_STRING_CONST( { "id": 1, "vendor_id": "[0x10de]", "features": [ "test_feature_0" ] } ); ScopedEntry entry(GetEntryFromString(json)); EXPECT_TRUE(entry.get() == NULL); } TEST_F(GpuControlListEntryTest, UnknownFieldEntry) { const std::string json = LONG_STRING_CONST( { "id": 1, "unknown_field": 0, "features": [ "test_feature_0" ] } ); ScopedEntry entry(GetEntryFromString(json)); EXPECT_TRUE(entry.get() == NULL); } TEST_F(GpuControlListEntryTest, UnknownExceptionFieldEntry) { const std::string json = LONG_STRING_CONST( { "id": 2, "exceptions": [ { "unknown_field": 0 } ], "features": [ "test_feature_0" ] } ); ScopedEntry entry(GetEntryFromString(json)); EXPECT_TRUE(entry.get() == NULL); } TEST_F(GpuControlListEntryTest, UnknownFeatureEntry) { const std::string json = LONG_STRING_CONST( { "id": 1, "features": [ "some_unknown_feature", "test_feature_0" ] } ); ScopedEntry entry(GetEntryFromString(json)); EXPECT_TRUE(entry.get() == NULL); } TEST_F(GpuControlListEntryTest, GlVendorEntry) { const std::string json = LONG_STRING_CONST( { "id": 1, "gl_vendor": { "op": "beginwith", "value": "NVIDIA" }, "features": [ "test_feature_0" ] } ); ScopedEntry entry(GetEntryFromString(json)); EXPECT_TRUE(entry.get() != NULL); const GpuControlList::OsType os_type[] = { GpuControlList::kOsMacosx, GpuControlList::kOsWin, GpuControlList::kOsLinux, GpuControlList::kOsChromeOS, GpuControlList::kOsAndroid }; for (size_t i = 0; i < arraysize(os_type); ++i) EXPECT_TRUE(entry->Contains(os_type[i], "10.6", gpu_info())); } TEST_F(GpuControlListEntryTest, GlRendererEntry) { const std::string json = LONG_STRING_CONST( { "id": 1, "gl_renderer": { "op": "contains", "value": "GeForce" }, "features": [ "test_feature_0" ] } ); ScopedEntry entry(GetEntryFromString(json)); EXPECT_TRUE(entry.get() != NULL); const GpuControlList::OsType os_type[] = { GpuControlList::kOsMacosx, GpuControlList::kOsWin, GpuControlList::kOsLinux, GpuControlList::kOsChromeOS, GpuControlList::kOsAndroid }; for (size_t i = 0; i < arraysize(os_type); ++i) EXPECT_TRUE(entry->Contains(os_type[i], "10.6", gpu_info())); } TEST_F(GpuControlListEntryTest, PerfGraphicsEntry) { const std::string json = LONG_STRING_CONST( { "id": 1, "perf_graphics": { "op": "<", "value": "6.0" }, "features": [ "test_feature_0" ] } ); ScopedEntry entry(GetEntryFromString(json)); EXPECT_TRUE(entry.get() != NULL); EXPECT_TRUE(entry->Contains(GpuControlList::kOsWin, "10.6", gpu_info())); } TEST_F(GpuControlListEntryTest, PerfGamingEntry) { const std::string json = LONG_STRING_CONST( { "id": 1, "perf_graphics": { "op": "<=", "value": "4.0" }, "features": [ "test_feature_0" ] } ); ScopedEntry entry(GetEntryFromString(json)); EXPECT_TRUE(entry.get() != NULL); EXPECT_FALSE(entry->Contains(GpuControlList::kOsWin, "10.6", gpu_info())); } TEST_F(GpuControlListEntryTest, PerfOverallEntry) { const std::string json = LONG_STRING_CONST( { "id": 1, "perf_overall": { "op": "between", "value": "1.0", "value2": "9.0" }, "features": [ "test_feature_0" ] } ); ScopedEntry entry(GetEntryFromString(json)); EXPECT_TRUE(entry.get() != NULL); EXPECT_TRUE(entry->Contains(GpuControlList::kOsWin, "10.6", gpu_info())); } TEST_F(GpuControlListEntryTest, DisabledEntry) { const std::string json = LONG_STRING_CONST( { "id": 1, "disabled": true, "features": [ "test_feature_0" ] } ); ScopedEntry entry(GetEntryFromString(json)); EXPECT_TRUE(entry.get() != NULL); EXPECT_TRUE(entry->disabled()); } TEST_F(GpuControlListEntryTest, OptimusEntry) { const std::string json = LONG_STRING_CONST( { "id": 1, "os": { "type": "linux" }, "multi_gpu_style": "optimus", "features": [ "test_feature_0" ] } ); GPUInfo gpu_info; gpu_info.optimus = true; ScopedEntry entry(GetEntryFromString(json)); EXPECT_TRUE(entry.get() != NULL); EXPECT_EQ(GpuControlList::kOsLinux, entry->GetOsType()); EXPECT_TRUE(entry->Contains( GpuControlList::kOsLinux, "10.6", gpu_info)); } TEST_F(GpuControlListEntryTest, AMDSwitchableEntry) { const std::string json = LONG_STRING_CONST( { "id": 1, "os": { "type": "macosx" }, "multi_gpu_style": "amd_switchable", "features": [ "test_feature_0" ] } ); GPUInfo gpu_info; gpu_info.amd_switchable = true; ScopedEntry entry(GetEntryFromString(json)); EXPECT_TRUE(entry.get() != NULL); EXPECT_EQ(GpuControlList::kOsMacosx, entry->GetOsType()); EXPECT_TRUE(entry->Contains( GpuControlList::kOsMacosx, "10.6", gpu_info)); } TEST_F(GpuControlListEntryTest, LexicalDriverVersionEntry) { const std::string json = LONG_STRING_CONST( { "id": 1, "os": { "type": "linux" }, "vendor_id": "0x1002", "driver_version": { "op": "=", "style": "lexical", "value": "8.76" }, "features": [ "test_feature_0" ] } ); GPUInfo gpu_info; gpu_info.gpu.vendor_id = 0x1002; ScopedEntry entry(GetEntryFromString(json)); EXPECT_TRUE(entry.get() != NULL); EXPECT_EQ(GpuControlList::kOsLinux, entry->GetOsType()); gpu_info.driver_version = "8.76"; EXPECT_TRUE(entry->Contains( GpuControlList::kOsLinux, "10.6", gpu_info)); gpu_info.driver_version = "8.768"; EXPECT_TRUE(entry->Contains( GpuControlList::kOsLinux, "10.6", gpu_info)); gpu_info.driver_version = "8.76.8"; EXPECT_TRUE(entry->Contains( GpuControlList::kOsLinux, "10.6", gpu_info)); } TEST_F(GpuControlListEntryTest, MultipleGPUsAnyEntry) { const std::string json = LONG_STRING_CONST( { "id": 1, "os": { "type": "macosx" }, "vendor_id": "0x8086", "device_id": ["0x0166"], "multi_gpu_category": "any", "features": [ "test_feature_0" ] } ); ScopedEntry entry(GetEntryFromString(json)); EXPECT_TRUE(entry.get() != NULL); EXPECT_EQ(GpuControlList::kOsMacosx, entry->GetOsType()); GPUInfo gpu_info; gpu_info.gpu.vendor_id = 0x10de; gpu_info.gpu.device_id = 0x1976; EXPECT_FALSE(entry->Contains( GpuControlList::kOsMacosx, "10.6", gpu_info)); GPUInfo::GPUDevice gpu_device; gpu_device.vendor_id = 0x8086; gpu_device.device_id = 0x0166; gpu_info.secondary_gpus.push_back(gpu_device); EXPECT_TRUE(entry->Contains( GpuControlList::kOsMacosx, "10.6", gpu_info)); } TEST_F(GpuControlListEntryTest, MultipleGPUsSecondaryEntry) { const std::string json = LONG_STRING_CONST( { "id": 1, "os": { "type": "macosx" }, "vendor_id": "0x8086", "device_id": ["0x0166"], "multi_gpu_category": "secondary", "features": [ "test_feature_0" ] } ); ScopedEntry entry(GetEntryFromString(json)); EXPECT_TRUE(entry.get() != NULL); EXPECT_EQ(GpuControlList::kOsMacosx, entry->GetOsType()); GPUInfo gpu_info; gpu_info.gpu.vendor_id = 0x10de; gpu_info.gpu.device_id = 0x1976; EXPECT_FALSE(entry->Contains( GpuControlList::kOsMacosx, "10.6", gpu_info)); GPUInfo::GPUDevice gpu_device; gpu_device.vendor_id = 0x8086; gpu_device.device_id = 0x0166; gpu_info.secondary_gpus.push_back(gpu_device); EXPECT_TRUE(entry->Contains( GpuControlList::kOsMacosx, "10.6", gpu_info)); } TEST_F(GpuControlListEntryTest, NeedsMoreInfoEntry) { const std::string json = LONG_STRING_CONST( { "id": 1, "vendor_id": "0x8086", "driver_version": { "op": "<", "value": "10.7" }, "features": [ "test_feature_1" ] } ); ScopedEntry entry(GetEntryFromString(json)); EXPECT_TRUE(entry.get() != NULL); GPUInfo gpu_info; gpu_info.gpu.vendor_id = 0x8086; EXPECT_TRUE(entry->NeedsMoreInfo(gpu_info)); gpu_info.driver_version = "10.6"; EXPECT_FALSE(entry->NeedsMoreInfo(gpu_info)); } TEST_F(GpuControlListEntryTest, NeedsMoreInfoForExceptionsEntry) { const std::string json = LONG_STRING_CONST( { "id": 1, "vendor_id": "0x8086", "exceptions": [ { "gl_renderer": { "op": "contains", "value": "mesa" } } ], "features": [ "test_feature_1" ] } ); ScopedEntry entry(GetEntryFromString(json)); EXPECT_TRUE(entry.get() != NULL); GPUInfo gpu_info; gpu_info.gpu.vendor_id = 0x8086; EXPECT_TRUE(entry->NeedsMoreInfo(gpu_info)); gpu_info.gl_renderer = "mesa"; EXPECT_FALSE(entry->NeedsMoreInfo(gpu_info)); } TEST_F(GpuControlListEntryTest, FeatureTypeAllEntry) { const std::string json = LONG_STRING_CONST( { "id": 1, "features": [ "all" ] } ); ScopedEntry entry(GetEntryFromString(json, true)); EXPECT_TRUE(entry.get() != NULL); EXPECT_EQ(3u, entry->features().size()); EXPECT_EQ(1u, entry->features().count(TEST_FEATURE_0)); EXPECT_EQ(1u, entry->features().count(TEST_FEATURE_1)); EXPECT_EQ(1u, entry->features().count(TEST_FEATURE_2)); } } // namespace gpu