/* * Copyright (C) 2017 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (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.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include <android-base/logging.h> #include <gmock/gmock.h> #include <gtest/gtest.h> #include <stdio.h> #include <unistd.h> #include <android-base/strings.h> #include <vintf/VintfObject.h> #include <vintf/parse_string.h> #include "utils-fake.h" #include <hidl-util/FQName.h> using namespace ::testing; using namespace ::android::vintf; using namespace ::android::vintf::details; using android::FqInstance; static AssertionResult In(const std::string& sub, const std::string& str) { return (str.find(sub) != std::string::npos ? AssertionSuccess() : AssertionFailure()) << "Value is " << str; } #define EXPECT_IN(sub, str) EXPECT_TRUE(In((sub), (str))) #define EXPECT_NOT_IN(sub, str) EXPECT_FALSE(In((sub), (str))) // // Set of Xml1 metadata compatible with each other. // const std::string systemMatrixXml1 = "<compatibility-matrix version=\"1.0\" type=\"framework\">\n" " <hal format=\"hidl\" optional=\"false\">\n" " <name>android.hardware.camera</name>\n" " <version>2.0-5</version>\n" " <version>3.4-16</version>\n" " </hal>\n" " <hal format=\"hidl\" optional=\"false\">\n" " <name>android.hardware.nfc</name>\n" " <version>1.0</version>\n" " <version>2.0</version>\n" " </hal>\n" " <hal format=\"hidl\" optional=\"true\">\n" " <name>android.hardware.foo</name>\n" " <version>1.0</version>\n" " </hal>\n" " <kernel version=\"3.18.31\"></kernel>\n" " <sepolicy>\n" " <kernel-sepolicy-version>30</kernel-sepolicy-version>\n" " <sepolicy-version>25.5</sepolicy-version>\n" " <sepolicy-version>26.0-3</sepolicy-version>\n" " </sepolicy>\n" " <avb>\n" " <vbmeta-version>0.0</vbmeta-version>\n" " </avb>\n" "</compatibility-matrix>\n"; const std::string vendorManifestXml1 = "<manifest version=\"1.0\" type=\"device\">\n" " <hal format=\"hidl\">\n" " <name>android.hardware.camera</name>\n" " <transport>hwbinder</transport>\n" " <version>3.5</version>\n" " <interface>\n" " <name>IBetterCamera</name>\n" " <instance>camera</instance>\n" " </interface>\n" " <interface>\n" " <name>ICamera</name>\n" " <instance>default</instance>\n" " <instance>legacy/0</instance>\n" " </interface>\n" " </hal>\n" " <hal format=\"hidl\">\n" " <name>android.hardware.nfc</name>\n" " <transport>hwbinder</transport>\n" " <version>1.0</version>\n" " <interface>\n" " <name>INfc</name>\n" " <instance>nfc_nci</instance>\n" " </interface>\n" " </hal>\n" " <hal format=\"hidl\">\n" " <name>android.hardware.nfc</name>\n" " <transport>hwbinder</transport>\n" " <version>2.0</version>\n" " <interface>\n" " <name>INfc</name>\n" " <instance>default</instance>\n" " <instance>nfc_nci</instance>\n" " </interface>\n" " </hal>\n" " <sepolicy>\n" " <version>25.5</version>\n" " </sepolicy>\n" "</manifest>\n"; const std::string systemManifestXml1 = "<manifest version=\"1.0\" type=\"framework\">\n" " <hal format=\"hidl\">\n" " <name>android.hidl.manager</name>\n" " <transport>hwbinder</transport>\n" " <version>1.0</version>\n" " <interface>\n" " <name>IServiceManager</name>\n" " <instance>default</instance>\n" " </interface>\n" " </hal>\n" " <vndk>\n" " <version>25.0.5</version>\n" " <library>libbase.so</library>\n" " <library>libjpeg.so</library>\n" " </vndk>\n" "</manifest>\n"; const std::string vendorMatrixXml1 = "<compatibility-matrix version=\"1.0\" type=\"device\">\n" " <hal format=\"hidl\" optional=\"false\">\n" " <name>android.hidl.manager</name>\n" " <version>1.0</version>\n" " </hal>\n" " <vndk>\n" " <version>25.0.1-5</version>\n" " <library>libbase.so</library>\n" " <library>libjpeg.so</library>\n" " </vndk>\n" "</compatibility-matrix>\n"; // // Set of Xml2 metadata compatible with each other. // const std::string systemMatrixXml2 = "<compatibility-matrix version=\"1.0\" type=\"framework\">\n" " <hal format=\"hidl\">\n" " <name>android.hardware.foo</name>\n" " <version>1.0</version>\n" " </hal>\n" " <kernel version=\"3.18.31\"></kernel>\n" " <sepolicy>\n" " <kernel-sepolicy-version>30</kernel-sepolicy-version>\n" " <sepolicy-version>25.5</sepolicy-version>\n" " <sepolicy-version>26.0-3</sepolicy-version>\n" " </sepolicy>\n" " <avb>\n" " <vbmeta-version>0.0</vbmeta-version>\n" " </avb>\n" "</compatibility-matrix>\n"; const std::string vendorManifestXml2 = "<manifest version=\"1.0\" type=\"device\">" " <hal>" " <name>android.hardware.foo</name>" " <transport>hwbinder</transport>" " <version>1.0</version>" " </hal>" " <sepolicy>\n" " <version>25.5</version>\n" " </sepolicy>\n" "</manifest>"; // // Set of framework matrices of different FCM version. // const std::string systemMatrixLevel1 = "<compatibility-matrix version=\"1.0\" type=\"framework\" level=\"1\">\n" " <hal format=\"hidl\" optional=\"true\">\n" " <name>android.hardware.major</name>\n" " <version>1.0</version>\n" " <interface>\n" " <name>IMajor</name>\n" " <instance>default</instance>\n" " </interface>\n" " </hal>\n" " <hal format=\"hidl\" optional=\"true\">\n" " <name>android.hardware.removed</name>\n" " <version>1.0</version>\n" " <interface>\n" " <name>IRemoved</name>\n" " <instance>default</instance>\n" " </interface>\n" " </hal>\n" " <hal format=\"hidl\" optional=\"true\">\n" " <name>android.hardware.minor</name>\n" " <version>1.0</version>\n" " <interface>\n" " <name>IMinor</name>\n" " <instance>default</instance>\n" " <instance>legacy</instance>\n" " </interface>\n" " </hal>\n" "</compatibility-matrix>\n"; const std::string systemMatrixLevel2 = "<compatibility-matrix version=\"1.0\" type=\"framework\" level=\"2\">\n" " <hal format=\"hidl\" optional=\"true\">\n" " <name>android.hardware.major</name>\n" " <version>2.0</version>\n" " <interface>\n" " <name>IMajor</name>\n" " <instance>default</instance>\n" " </interface>\n" " </hal>\n" " <hal format=\"hidl\" optional=\"true\">\n" " <name>android.hardware.minor</name>\n" " <version>1.1</version>\n" " <interface>\n" " <name>IMinor</name>\n" " <instance>default</instance>\n" " </interface>\n" " </hal>\n" "</compatibility-matrix>\n"; // // Set of framework matrices of different FCM version with regex. // const static std::vector<std::string> systemMatrixRegexXmls = { // 1.xml "<compatibility-matrix version=\"1.0\" type=\"framework\" level=\"1\">\n" " <hal format=\"hidl\" optional=\"false\">\n" " <name>android.hardware.regex</name>\n" " <version>1.0-1</version>\n" " <interface>\n" " <name>IRegex</name>\n" " <instance>default</instance>\n" " <instance>special/1.0</instance>\n" " <regex-instance>regex/1.0/[0-9]+</regex-instance>\n" " <regex-instance>regex_common/[0-9]+</regex-instance>\n" " </interface>\n" " </hal>\n" "</compatibility-matrix>\n", // 2.xml "<compatibility-matrix version=\"1.0\" type=\"framework\" level=\"2\">\n" " <hal format=\"hidl\" optional=\"false\">\n" " <name>android.hardware.regex</name>\n" " <version>1.1-2</version>\n" " <interface>\n" " <name>IRegex</name>\n" " <instance>default</instance>\n" " <instance>special/1.1</instance>\n" " <regex-instance>regex/1.1/[0-9]+</regex-instance>\n" " <regex-instance>[a-z]+_[a-z]+/[0-9]+</regex-instance>\n" " </interface>\n" " </hal>\n" "</compatibility-matrix>\n", // 3.xml "<compatibility-matrix version=\"1.0\" type=\"framework\" level=\"3\">\n" " <hal format=\"hidl\" optional=\"false\">\n" " <name>android.hardware.regex</name>\n" " <version>2.0</version>\n" " <interface>\n" " <name>IRegex</name>\n" " <instance>default</instance>\n" " <instance>special/2.0</instance>\n" " <regex-instance>regex/2.0/[0-9]+</regex-instance>\n" " <regex-instance>regex_[a-z]+/[0-9]+</regex-instance>\n" " </interface>\n" " </hal>\n" "</compatibility-matrix>\n"}; // Setup the MockFileFetcher used by the fetchAllInformation template // so it returns the given metadata info instead of fetching from device. void setupMockFetcher(const std::string& vendorManifestXml, const std::string& systemMatrixXml, const std::string& systemManifestXml, const std::string& vendorMatrixXml, const std::string& productModel) { MockFileFetcher* fetcher = static_cast<MockFileFetcher*>(gFetcher); if (!productModel.empty()) { ON_CALL(*fetcher, fetch(StrEq(kOdmLegacyVintfDir + "manifest_" + productModel + ".xml"), _)) .WillByDefault(Return(::android::NAME_NOT_FOUND)); ON_CALL(*fetcher, fetch(StrEq(kOdmVintfDir + "manifest_" + productModel + ".xml"), _)) .WillByDefault(Return(::android::NAME_NOT_FOUND)); } ON_CALL(*fetcher, fetch(StrEq(kOdmLegacyManifest), _)) .WillByDefault(Return(::android::NAME_NOT_FOUND)); ON_CALL(*fetcher, fetch(StrEq(kOdmManifest), _)) .WillByDefault(Return(::android::NAME_NOT_FOUND)); ON_CALL(*fetcher, fetch(StrEq(kVendorManifest), _)) .WillByDefault(Return(::android::NAME_NOT_FOUND)); ON_CALL(*fetcher, fetch(StrEq(kVendorLegacyManifest), _)) .WillByDefault(Invoke([vendorManifestXml](const std::string& path, std::string& fetched) { (void)path; fetched = vendorManifestXml; return 0; })); ON_CALL(*fetcher, fetch(StrEq(kSystemManifest), _)) .WillByDefault(Invoke([systemManifestXml](const std::string& path, std::string& fetched) { (void)path; fetched = systemManifestXml; return 0; })); ON_CALL(*fetcher, fetch(StrEq(kVendorMatrix), _)) .WillByDefault(Return(::android::NAME_NOT_FOUND)); ON_CALL(*fetcher, fetch(StrEq(kVendorLegacyMatrix), _)) .WillByDefault(Invoke([vendorMatrixXml](const std::string& path, std::string& fetched) { (void)path; fetched = vendorMatrixXml; return 0; })); ON_CALL(*fetcher, fetch(StrEq(kSystemLegacyMatrix), _)) .WillByDefault(Invoke([systemMatrixXml](const std::string& path, std::string& fetched) { (void)path; fetched = systemMatrixXml; return 0; })); // Don't list /system/etc/vintf unless otherwise specified. ON_CALL(*fetcher, listFiles(StrEq(kSystemVintfDir), _, _)).WillByDefault(Return(::android::OK)); } static MockPartitionMounter &mounter() { return *static_cast<MockPartitionMounter *>(gPartitionMounter); } static MockFileFetcher &fetcher() { return *static_cast<MockFileFetcher*>(gFetcher); } class VintfObjectTestBase : public testing::Test { protected: virtual void SetUp() { productModel = "fake_sku"; ON_CALL(*gPropertyFetcher, getProperty("ro.boot.product.hardware.sku", _)) .WillByDefault(Return(productModel)); } virtual void TearDown() { Mock::VerifyAndClear(&mounter()); Mock::VerifyAndClear(&fetcher()); } void expectVendorManifest(size_t times = 1) { EXPECT_CALL(fetcher(), fetch(StrEq(kVendorManifest), _)).Times(times); if (!productModel.empty()) { EXPECT_CALL(fetcher(), fetch(StrEq(kOdmLegacyVintfDir + "manifest_" + productModel + ".xml"), _)) .Times(times); EXPECT_CALL(fetcher(), fetch(StrEq(kOdmVintfDir + "manifest_" + productModel + ".xml"), _)) .Times(times); } EXPECT_CALL(fetcher(), fetch(StrEq(kOdmLegacyManifest), _)).Times(times); EXPECT_CALL(fetcher(), fetch(StrEq(kOdmManifest), _)).Times(times); EXPECT_CALL(fetcher(), fetch(StrEq(kVendorLegacyManifest), _)).Times(times); } void expectSystemManifest(size_t times = 1) { EXPECT_CALL(fetcher(), fetch(StrEq(kSystemManifest), _)).Times(times); } void expectVendorMatrix(size_t times = 1) { EXPECT_CALL(fetcher(), fetch(StrEq(kVendorMatrix), _)).Times(times); EXPECT_CALL(fetcher(), fetch(StrEq(kVendorLegacyMatrix), _)).Times(times); } void expectSystemMatrix(size_t times = 1) { EXPECT_CALL(fetcher(), fetch(StrEq(kSystemLegacyMatrix), _)).Times(times); } // Expect that a file exist and should be fetched once. void expectFetch(const std::string& path, const std::string& content) { EXPECT_CALL(fetcher(), fetch(StrEq(path), _)) .WillOnce(Invoke([content](const auto&, auto& out) { out = content; return ::android::OK; })); } // Expect that a file exist and can be fetched 0 or more times. void expectFetchRepeatedly(const std::string& path, const std::string& content) { EXPECT_CALL(fetcher(), fetch(StrEq(path), _)) .Times(AnyNumber()) .WillRepeatedly(Invoke([content](const auto&, auto& out) { out = content; return ::android::OK; })); } // Expect that the file should never be fetched (whether it exists or not). void expectNeverFetch(const std::string& path) { EXPECT_CALL(fetcher(), fetch(StrEq(path), _)).Times(0); } // Expect that the file does not exist, and can be fetched 0 or more times. template <typename Matcher> void expectFileNotExist(const Matcher& matcher) { EXPECT_CALL(fetcher(), fetch(matcher, _)) .Times(AnyNumber()) .WillRepeatedly(Return(::android::NAME_NOT_FOUND)); } std::string productModel; }; // Test fixture that provides compatible metadata from the mock device. class VintfObjectCompatibleTest : public VintfObjectTestBase { protected: virtual void SetUp() { VintfObjectTestBase::SetUp(); mounter().reset(); setupMockFetcher(vendorManifestXml1, systemMatrixXml1, systemManifestXml1, vendorMatrixXml1, productModel); } }; // Tests that local info is checked. TEST_F(VintfObjectCompatibleTest, TestDeviceCompatibility) { std::string error; std::vector<std::string> packageInfo; expectVendorManifest(); expectSystemManifest(); expectVendorMatrix(); expectSystemMatrix(); EXPECT_CALL(mounter(), mountSystem()).Times(0); EXPECT_CALL(mounter(), umountSystem()).Times(0); EXPECT_CALL(mounter(), mountVendor()).Times(0); EXPECT_CALL(mounter(), umountVendor()).Times(0); int result = VintfObject::CheckCompatibility(packageInfo, &error); ASSERT_EQ(result, 0) << "Fail message:" << error.c_str(); // Check that nothing was ignored. ASSERT_STREQ(error.c_str(), ""); EXPECT_FALSE(mounter().systemMounted()); EXPECT_FALSE(mounter().vendorMounted()); } TEST_F(VintfObjectCompatibleTest, TestDeviceCompatibilityMount) { std::string error; std::vector<std::string> packageInfo; EXPECT_CALL(mounter(), mountSystem()).Times(2); EXPECT_CALL(mounter(), umountSystem()).Times(1); // Should only umount once EXPECT_CALL(mounter(), mountVendor()).Times(2); EXPECT_CALL(mounter(), umountVendor()).Times(1); int result = details::checkCompatibility(packageInfo, true /* mount */, mounter(), &error); ASSERT_EQ(result, 0) << "Fail message:" << error.c_str(); EXPECT_FALSE(mounter().systemMounted()); EXPECT_FALSE(mounter().vendorMounted()); } // Tests that input info is checked against device and passes. TEST_F(VintfObjectCompatibleTest, TestInputVsDeviceSuccess) { std::string error; std::vector<std::string> packageInfo = {systemMatrixXml1}; expectVendorManifest(); expectSystemManifest(); expectVendorMatrix(); expectSystemMatrix(0); EXPECT_CALL(mounter(), mountSystem()).Times(0); EXPECT_CALL(mounter(), umountSystem()).Times(0); EXPECT_CALL(mounter(), mountVendor()).Times(0); EXPECT_CALL(mounter(), umountVendor()).Times(0); int result = VintfObject::CheckCompatibility(packageInfo, &error); ASSERT_EQ(result, 0) << "Fail message:" << error.c_str(); ASSERT_STREQ(error.c_str(), ""); EXPECT_FALSE(mounter().systemMounted()); EXPECT_FALSE(mounter().vendorMounted()); } TEST_F(VintfObjectCompatibleTest, TestInputVsDeviceSuccessMount) { std::string error; std::vector<std::string> packageInfo = {systemMatrixXml1}; EXPECT_CALL(mounter(), mountSystem()).Times(1); // Should only mount once for manifest EXPECT_CALL(mounter(), umountSystem()).Times(1); EXPECT_CALL(mounter(), mountVendor()).Times(2); EXPECT_CALL(mounter(), umountVendor()).Times(1); int result = details::checkCompatibility(packageInfo, true /* mount */, mounter(), &error); ASSERT_EQ(result, 0) << "Fail message:" << error.c_str(); EXPECT_FALSE(mounter().systemMounted()); EXPECT_FALSE(mounter().vendorMounted()); } // Tests that input info is checked against device and fails. TEST_F(VintfObjectCompatibleTest, TestInputVsDeviceFail) { std::string error; std::vector<std::string> packageInfo = {systemMatrixXml2}; int result = VintfObject::CheckCompatibility(packageInfo, &error); ASSERT_EQ(result, 1) << "Should have failed:" << error.c_str(); EXPECT_IN( "Device manifest and framework compatibility matrix are incompatible: HALs " "incompatible.", error); EXPECT_IN("android.hardware.foo", error); } // Tests that complementary info is checked against itself. TEST_F(VintfObjectCompatibleTest, TestInputSuccess) { std::string error; std::vector<std::string> packageInfo = {systemMatrixXml2, vendorManifestXml2}; int result = VintfObject::CheckCompatibility(packageInfo, &error); ASSERT_EQ(result, 0) << "Failed message:" << error.c_str(); ASSERT_STREQ(error.c_str(), ""); } TEST_F(VintfObjectCompatibleTest, TestFrameworkOnlyOta) { std::string error; std::vector<std::string> packageInfo = {systemMatrixXml1, systemManifestXml1}; expectVendorManifest(); expectSystemManifest(0); expectVendorMatrix(); expectSystemMatrix(0); EXPECT_CALL(mounter(), mountSystem()).Times(0); EXPECT_CALL(mounter(), umountSystem()).Times(0); EXPECT_CALL(mounter(), mountVendor()).Times(0); EXPECT_CALL(mounter(), umountVendor()).Times(0); int result = VintfObject::CheckCompatibility(packageInfo, &error); ASSERT_EQ(result, 0) << "Fail message:" << error.c_str(); ASSERT_STREQ(error.c_str(), ""); EXPECT_FALSE(mounter().systemMounted()); EXPECT_FALSE(mounter().vendorMounted()); } TEST_F(VintfObjectCompatibleTest, TestFrameworkOnlyOtaMount) { std::string error; std::vector<std::string> packageInfo = {systemMatrixXml1, systemManifestXml1}; EXPECT_CALL(mounter(), mountSystem()).Times(0); EXPECT_CALL(mounter(), umountSystem()).Times(1); EXPECT_CALL(mounter(), mountVendor()).Times(2); EXPECT_CALL(mounter(), umountVendor()).Times(1); int result = details::checkCompatibility(packageInfo, true /* mount */, mounter(), &error); ASSERT_EQ(result, 0) << "Fail message:" << error.c_str(); EXPECT_FALSE(mounter().systemMounted()); EXPECT_FALSE(mounter().vendorMounted()); } TEST_F(VintfObjectCompatibleTest, TestFullOta) { std::string error; std::vector<std::string> packageInfo = {systemMatrixXml1, systemManifestXml1, vendorMatrixXml1, vendorManifestXml1}; expectVendorManifest(0); expectSystemManifest(0); expectVendorMatrix(0); expectSystemMatrix(0); EXPECT_CALL(mounter(), mountSystem()).Times(0); EXPECT_CALL(mounter(), umountSystem()).Times(0); EXPECT_CALL(mounter(), mountVendor()).Times(0); EXPECT_CALL(mounter(), umountVendor()).Times(0); int result = VintfObject::CheckCompatibility(packageInfo, &error); ASSERT_EQ(result, 0) << "Fail message:" << error.c_str(); ASSERT_STREQ(error.c_str(), ""); EXPECT_FALSE(mounter().systemMounted()); EXPECT_FALSE(mounter().vendorMounted()); } TEST_F(VintfObjectCompatibleTest, TestFullOnlyOtaMount) { std::string error; std::vector<std::string> packageInfo = {systemMatrixXml1, systemManifestXml1, vendorMatrixXml1, vendorManifestXml1}; EXPECT_CALL(mounter(), mountSystem()).Times(0); EXPECT_CALL(mounter(), umountSystem()).Times(1); EXPECT_CALL(mounter(), mountVendor()).Times(0); EXPECT_CALL(mounter(), umountVendor()).Times(1); int result = details::checkCompatibility(packageInfo, true /* mount */, mounter(), &error); ASSERT_EQ(result, 0) << "Fail message:" << error.c_str(); EXPECT_FALSE(mounter().systemMounted()); EXPECT_FALSE(mounter().vendorMounted()); } // Test fixture that provides incompatible metadata from the mock device. class VintfObjectIncompatibleTest : public VintfObjectTestBase { protected: virtual void SetUp() { VintfObjectTestBase::SetUp(); mounter().reset(); setupMockFetcher(vendorManifestXml1, systemMatrixXml2, systemManifestXml1, vendorMatrixXml1, productModel); } }; // Fetch all metadata from device and ensure that it fails. TEST_F(VintfObjectIncompatibleTest, TestDeviceCompatibility) { std::string error; std::vector<std::string> packageInfo; expectVendorManifest(); expectSystemManifest(); expectVendorMatrix(); expectSystemMatrix(); int result = VintfObject::CheckCompatibility(packageInfo, &error); ASSERT_EQ(result, 1) << "Should have failed:" << error.c_str(); } // Pass in new metadata that fixes the incompatibility. TEST_F(VintfObjectIncompatibleTest, TestInputVsDeviceSuccess) { std::string error; std::vector<std::string> packageInfo = {systemMatrixXml1}; expectVendorManifest(); expectSystemManifest(); expectVendorMatrix(); expectSystemMatrix(0); int result = VintfObject::CheckCompatibility(packageInfo, &error); ASSERT_EQ(result, 0) << "Failed message:" << error.c_str(); ASSERT_STREQ(error.c_str(), ""); } static MockRuntimeInfoFactory& runtimeInfoFactory() { return *static_cast<MockRuntimeInfoFactory*>(gRuntimeInfoFactory); } // Test fixture that provides compatible metadata from the mock device. class VintfObjectRuntimeInfoTest : public testing::Test { protected: virtual void SetUp() { // clear fetch flags runtimeInfoFactory().getInfo()->failNextFetch(); VintfObject::GetRuntimeInfo(true /* skipCache */, RuntimeInfo::FetchFlag::ALL); } virtual void TearDown() { Mock::VerifyAndClear(&runtimeInfoFactory()); Mock::VerifyAndClear(runtimeInfoFactory().getInfo().get()); } }; TEST_F(VintfObjectRuntimeInfoTest, GetRuntimeInfo) { InSequence s; EXPECT_CALL(*runtimeInfoFactory().getInfo(), fetchAllInformation(RuntimeInfo::FetchFlag::CPU_VERSION)); EXPECT_CALL(*runtimeInfoFactory().getInfo(), fetchAllInformation(RuntimeInfo::FetchFlag::NONE)); EXPECT_CALL(*runtimeInfoFactory().getInfo(), fetchAllInformation(RuntimeInfo::FetchFlag::CPU_VERSION)); EXPECT_CALL( *runtimeInfoFactory().getInfo(), fetchAllInformation(RuntimeInfo::FetchFlag::ALL & ~RuntimeInfo::FetchFlag::CPU_VERSION)); EXPECT_CALL(*runtimeInfoFactory().getInfo(), fetchAllInformation(RuntimeInfo::FetchFlag::ALL)); EXPECT_CALL(*runtimeInfoFactory().getInfo(), fetchAllInformation(RuntimeInfo::FetchFlag::NONE)); VintfObject::GetRuntimeInfo(false /* skipCache */, RuntimeInfo::FetchFlag::CPU_VERSION); VintfObject::GetRuntimeInfo(false /* skipCache */, RuntimeInfo::FetchFlag::CPU_VERSION); VintfObject::GetRuntimeInfo(true /* skipCache */, RuntimeInfo::FetchFlag::CPU_VERSION); VintfObject::GetRuntimeInfo(false /* skipCache */, RuntimeInfo::FetchFlag::ALL); VintfObject::GetRuntimeInfo(true /* skipCache */, RuntimeInfo::FetchFlag::ALL); VintfObject::GetRuntimeInfo(false /* skipCache */, RuntimeInfo::FetchFlag::ALL); } // Test fixture that provides incompatible metadata from the mock device. class VintfObjectTest : public VintfObjectTestBase { protected: virtual void SetUp() {} }; // Test framework compatibility matrix is combined at runtime TEST_F(VintfObjectTest, FrameworkCompatibilityMatrixCombine) { EXPECT_CALL(fetcher(), listFiles(StrEq(kSystemVintfDir), _, _)) .WillOnce(Invoke([](const auto&, auto* out, auto*) { *out = { "compatibility_matrix.1.xml", "compatibility_matrix.empty.xml", }; return ::android::OK; })); expectFetch(kSystemVintfDir + "compatibility_matrix.1.xml", "<compatibility-matrix version=\"1.0\" type=\"framework\" level=\"1\"/>"); expectFetch(kSystemVintfDir + "compatibility_matrix.empty.xml", "<compatibility-matrix version=\"1.0\" type=\"framework\"/>"); expectSystemMatrix(0); EXPECT_NE(nullptr, VintfObject::GetFrameworkCompatibilityMatrix(true /* skipCache */)); } const std::string vendorEtcManifest = "<manifest version=\"1.0\" type=\"device\">\n" " <hal format=\"hidl\">\n" " <name>android.hardware.foo</name>\n" " <transport>hwbinder</transport>\n" " <version>1.0</version>\n" " <version>2.0</version>\n" " <interface>\n" " <name>IVendorEtc</name>\n" " <instance>default</instance>\n" " </interface>\n" " </hal>\n" "</manifest>\n"; const std::string vendorManifest = "<manifest version=\"1.0\" type=\"device\">\n" " <hal format=\"hidl\">\n" " <name>android.hardware.foo</name>\n" " <transport>hwbinder</transport>\n" " <version>1.0</version>\n" " <interface>\n" " <name>IVendor</name>\n" " <instance>default</instance>\n" " </interface>\n" " </hal>\n" "</manifest>\n"; const std::string odmProductManifest = "<manifest version=\"1.0\" type=\"device\">\n" " <hal format=\"hidl\" override=\"true\">\n" " <name>android.hardware.foo</name>\n" " <transport>hwbinder</transport>\n" " <version>1.1</version>\n" " <interface>\n" " <name>IOdmProduct</name>\n" " <instance>default</instance>\n" " </interface>\n" " </hal>\n" "</manifest>\n"; const std::string odmManifest = "<manifest version=\"1.0\" type=\"device\">\n" " <hal format=\"hidl\" override=\"true\">\n" " <name>android.hardware.foo</name>\n" " <transport>hwbinder</transport>\n" " <version>1.1</version>\n" " <interface>\n" " <name>IOdm</name>\n" " <instance>default</instance>\n" " </interface>\n" " </hal>\n" "</manifest>\n"; bool containsVendorManifest(const std::shared_ptr<const HalManifest>& p) { return !p->getInstances("android.hardware.foo", {1, 0}, "IVendor").empty(); } bool containsVendorEtcManifest(const std::shared_ptr<const HalManifest>& p) { return !p->getInstances("android.hardware.foo", {2, 0}, "IVendorEtc").empty(); } bool vendorEtcManifestOverridden(const std::shared_ptr<const HalManifest>& p) { return p->getInstances("android.hardware.foo", {1, 0}, "IVendorEtc").empty(); } bool containsOdmManifest(const std::shared_ptr<const HalManifest>& p) { return !p->getInstances("android.hardware.foo", {1, 1}, "IOdm").empty(); } bool containsOdmProductManifest(const std::shared_ptr<const HalManifest>& p) { return !p->getInstances("android.hardware.foo", {1, 1}, "IOdmProduct").empty(); } class DeviceManifestTest : public VintfObjectTestBase { protected: // Expect that /vendor/etc/vintf/manifest.xml is fetched. void expectVendorManifest() { expectFetch(kVendorManifest, vendorEtcManifest); } // /vendor/etc/vintf/manifest.xml does not exist. void noVendorManifest() { expectFileNotExist(StrEq(kVendorManifest)); } // Expect some ODM manifest is fetched. void expectOdmManifest() { if (!productModel.empty()) { expectFileNotExist(StrEq(kOdmVintfDir + "manifest_" + productModel + ".xml")); } expectFetch(kOdmManifest, odmManifest); } void noOdmManifest() { expectFileNotExist(StartsWith("/odm/")); } std::shared_ptr<const HalManifest> get() { return VintfObject::GetDeviceHalManifest(true /* skipCache */); } }; // Test /vendor/etc/vintf/manifest.xml + ODM manifest TEST_F(DeviceManifestTest, Combine1) { expectVendorManifest(); expectOdmManifest(); auto p = get(); ASSERT_NE(nullptr, p); EXPECT_TRUE(containsVendorEtcManifest(p)); EXPECT_TRUE(vendorEtcManifestOverridden(p)); EXPECT_TRUE(containsOdmManifest(p)); EXPECT_FALSE(containsVendorManifest(p)); } // Test /vendor/etc/vintf/manifest.xml TEST_F(DeviceManifestTest, Combine2) { expectVendorManifest(); noOdmManifest(); auto p = get(); ASSERT_NE(nullptr, p); EXPECT_TRUE(containsVendorEtcManifest(p)); EXPECT_FALSE(vendorEtcManifestOverridden(p)); EXPECT_FALSE(containsOdmManifest(p)); EXPECT_FALSE(containsVendorManifest(p)); } // Test ODM manifest TEST_F(DeviceManifestTest, Combine3) { noVendorManifest(); expectOdmManifest(); auto p = get(); ASSERT_NE(nullptr, p); EXPECT_FALSE(containsVendorEtcManifest(p)); EXPECT_TRUE(vendorEtcManifestOverridden(p)); EXPECT_TRUE(containsOdmManifest(p)); EXPECT_FALSE(containsVendorManifest(p)); } // Test /vendor/manifest.xml TEST_F(DeviceManifestTest, Combine4) { noVendorManifest(); noOdmManifest(); expectFetch(kVendorLegacyManifest, vendorManifest); auto p = get(); ASSERT_NE(nullptr, p); EXPECT_FALSE(containsVendorEtcManifest(p)); EXPECT_TRUE(vendorEtcManifestOverridden(p)); EXPECT_FALSE(containsOdmManifest(p)); EXPECT_TRUE(containsVendorManifest(p)); } class OdmManifestTest : public VintfObjectTestBase { protected: virtual void SetUp() override { // Assume /vendor/etc/vintf/manifest.xml does not exist to simplify // testing logic. expectFileNotExist(StrEq(kVendorManifest)); // Expect that the legacy /vendor/manifest.xml is never fetched. expectNeverFetch(kVendorLegacyManifest); // Assume no files exist under /odm/ unless otherwise specified. expectFileNotExist(StartsWith("/odm/")); } std::shared_ptr<const HalManifest> get() { return VintfObject::GetDeviceHalManifest(true /* skipCache */); } }; TEST_F(OdmManifestTest, OdmProductManifest) { if (productModel.empty()) return; expectFetch(kOdmVintfDir + "manifest_" + productModel + ".xml", odmProductManifest); // /odm/etc/vintf/manifest.xml should not be fetched when the product variant exists. expectNeverFetch(kOdmManifest); auto p = get(); ASSERT_NE(nullptr, p); EXPECT_TRUE(containsOdmProductManifest(p)); } TEST_F(OdmManifestTest, OdmManifest) { expectFetch(kOdmManifest, odmManifest); auto p = get(); ASSERT_NE(nullptr, p); EXPECT_TRUE(containsOdmManifest(p)); } TEST_F(OdmManifestTest, OdmLegacyProductManifest) { if (productModel.empty()) return; expectFetch(kOdmLegacyVintfDir + "manifest_" + productModel + ".xml", odmProductManifest); // /odm/manifest.xml should not be fetched when the product variant exists. expectNeverFetch(kOdmLegacyManifest); auto p = get(); ASSERT_NE(nullptr, p); EXPECT_TRUE(containsOdmProductManifest(p)); } TEST_F(OdmManifestTest, OdmLegacyManifest) { expectFetch(kOdmLegacyManifest, odmManifest); auto p = get(); ASSERT_NE(nullptr, p); EXPECT_TRUE(containsOdmManifest(p)); } struct CheckedFqInstance : FqInstance { CheckedFqInstance(const char* s) : CheckedFqInstance(std::string(s)) {} CheckedFqInstance(const std::string& s) { CHECK(setTo(s)) << s; } Version getVersion() const { return FqInstance::getVersion(); } }; static VintfObject::ListInstances getInstanceListFunc( const std::vector<CheckedFqInstance>& instances) { return [instances](const std::string& package, Version version, const std::string& interface, const auto& /* instanceHint */) { std::vector<std::pair<std::string, Version>> ret; for (auto&& existing : instances) { if (existing.getPackage() == package && existing.getVersion().minorAtLeast(version) && existing.getInterface() == interface) { ret.push_back(std::make_pair(existing.getInstance(), existing.getVersion())); } } return ret; }; } class DeprecateTest : public VintfObjectTestBase { protected: virtual void SetUp() override { EXPECT_CALL(fetcher(), listFiles(StrEq(kSystemVintfDir), _, _)) .WillRepeatedly(Invoke([](const auto&, auto* out, auto*) { *out = { "compatibility_matrix.1.xml", "compatibility_matrix.2.xml", }; return ::android::OK; })); expectFetch(kSystemVintfDir + "compatibility_matrix.1.xml", systemMatrixLevel1); expectFetch(kSystemVintfDir + "compatibility_matrix.2.xml", systemMatrixLevel2); expectSystemMatrix(0); expectFetch(kVendorManifest, "<manifest version=\"1.0\" type=\"device\" target-level=\"2\"/>"); expectFileNotExist(StartsWith("/odm/")); // Update the device manifest cache because CheckDeprecate does not fetch // device manifest again if cache exist. VintfObject::GetDeviceHalManifest(true /* skipCache */); } }; TEST_F(DeprecateTest, CheckNoDeprecate) { auto pred = getInstanceListFunc({ "android.hardware.minor@1.1::IMinor/default", "android.hardware.major@2.0::IMajor/default", }); std::string error; EXPECT_EQ(NO_DEPRECATED_HALS, VintfObject::CheckDeprecation(pred, &error)) << error; } TEST_F(DeprecateTest, CheckRemoved) { auto pred = getInstanceListFunc({ "android.hardware.removed@1.0::IRemoved/default", "android.hardware.minor@1.1::IMinor/default", "android.hardware.major@2.0::IMajor/default", }); std::string error; EXPECT_EQ(DEPRECATED, VintfObject::CheckDeprecation(pred, &error)) << "removed@1.0 should be deprecated. " << error; } TEST_F(DeprecateTest, CheckMinor) { auto pred = getInstanceListFunc({ "android.hardware.minor@1.0::IMinor/default", "android.hardware.major@2.0::IMajor/default", }); std::string error; EXPECT_EQ(DEPRECATED, VintfObject::CheckDeprecation(pred, &error)) << "minor@1.0 should be deprecated. " << error; } TEST_F(DeprecateTest, CheckMinorDeprecatedInstance1) { auto pred = getInstanceListFunc({ "android.hardware.minor@1.0::IMinor/legacy", "android.hardware.minor@1.1::IMinor/default", "android.hardware.major@2.0::IMajor/default", }); std::string error; EXPECT_EQ(DEPRECATED, VintfObject::CheckDeprecation(pred, &error)) << "minor@1.0::IMinor/legacy should be deprecated. " << error; } TEST_F(DeprecateTest, CheckMinorDeprecatedInstance2) { auto pred = getInstanceListFunc({ "android.hardware.minor@1.1::IMinor/default", "android.hardware.minor@1.1::IMinor/legacy", "android.hardware.major@2.0::IMajor/default", }); std::string error; EXPECT_EQ(DEPRECATED, VintfObject::CheckDeprecation(pred, &error)) << "minor@1.1::IMinor/legacy should be deprecated. " << error; } TEST_F(DeprecateTest, CheckMajor1) { auto pred = getInstanceListFunc({ "android.hardware.minor@1.1::IMinor/default", "android.hardware.major@1.0::IMajor/default", "android.hardware.major@2.0::IMajor/default", }); std::string error; EXPECT_EQ(DEPRECATED, VintfObject::CheckDeprecation(pred, &error)) << "major@1.0 should be deprecated. " << error; } TEST_F(DeprecateTest, CheckMajor2) { auto pred = getInstanceListFunc({ "android.hardware.minor@1.1::IMinor/default", "android.hardware.major@1.0::IMajor/default", }); std::string error; EXPECT_EQ(DEPRECATED, VintfObject::CheckDeprecation(pred, &error)) << "major@1.0 should be deprecated. " << error; } class MultiMatrixTest : public VintfObjectTestBase { protected: static std::string getFileName(size_t i) { return "compatibility_matrix." + std::to_string(static_cast<Level>(i)) + ".xml"; } void SetUpMockSystemMatrices(const std::vector<std::string>& xmls) { EXPECT_CALL(fetcher(), listFiles(StrEq(kSystemVintfDir), _, _)) .WillRepeatedly(Invoke([=](const auto&, auto* out, auto*) { size_t i = 1; for (const auto& content : xmls) { (void)content; out->push_back(getFileName(i)); ++i; } return ::android::OK; })); size_t i = 1; for (const auto& content : xmls) { expectFetchRepeatedly(kSystemVintfDir + getFileName(i), content); ++i; } expectSystemMatrix(0); expectFileNotExist(StartsWith("/odm/")); } void expectTargetFcmVersion(size_t level) { expectFetch(kVendorManifest, "<manifest version=\"1.0\" type=\"device\" target-level=\"" + to_string(static_cast<Level>(level)) + "\"/>"); VintfObject::GetDeviceHalManifest(true /* skipCache */); } }; class RegexTest : public MultiMatrixTest { protected: virtual void SetUp() { SetUpMockSystemMatrices(systemMatrixRegexXmls); } }; TEST_F(RegexTest, CombineLevel1) { expectTargetFcmVersion(1); auto matrix = VintfObject::GetFrameworkCompatibilityMatrix(true /* skipCache */); ASSERT_NE(nullptr, matrix); std::string xml = gCompatibilityMatrixConverter(*matrix); EXPECT_IN( " <hal format=\"hidl\" optional=\"false\">\n" " <name>android.hardware.regex</name>\n" " <version>1.0-2</version>\n" " <version>2.0</version>\n" " <interface>\n" " <name>IRegex</name>\n" " <instance>default</instance>\n" " </interface>\n" " </hal>\n", xml); EXPECT_IN( " <hal format=\"hidl\" optional=\"false\">\n" " <name>android.hardware.regex</name>\n" " <version>1.0-1</version>\n" " <interface>\n" " <name>IRegex</name>\n" " <instance>special/1.0</instance>\n" " <regex-instance>regex/1.0/[0-9]+</regex-instance>\n" " <regex-instance>regex_common/[0-9]+</regex-instance>\n" " </interface>\n" " </hal>\n", xml); EXPECT_IN( " <hal format=\"hidl\" optional=\"true\">\n" " <name>android.hardware.regex</name>\n" " <version>1.1-2</version>\n" " <interface>\n" " <name>IRegex</name>\n" " <instance>special/1.1</instance>\n" " <regex-instance>[a-z]+_[a-z]+/[0-9]+</regex-instance>\n" " <regex-instance>regex/1.1/[0-9]+</regex-instance>\n" " </interface>\n" " </hal>\n", xml); EXPECT_IN( " <hal format=\"hidl\" optional=\"true\">\n" " <name>android.hardware.regex</name>\n" " <version>2.0</version>\n" " <interface>\n" " <name>IRegex</name>\n" " <instance>special/2.0</instance>\n" " <regex-instance>regex/2.0/[0-9]+</regex-instance>\n" " <regex-instance>regex_[a-z]+/[0-9]+</regex-instance>\n" " </interface>\n" " </hal>\n", xml); } TEST_F(RegexTest, CombineLevel2) { expectTargetFcmVersion(2); auto matrix = VintfObject::GetFrameworkCompatibilityMatrix(true /* skipCache */); ASSERT_NE(nullptr, matrix); std::string xml = gCompatibilityMatrixConverter(*matrix); EXPECT_IN( " <hal format=\"hidl\" optional=\"false\">\n" " <name>android.hardware.regex</name>\n" " <version>1.1-2</version>\n" " <version>2.0</version>\n" " <interface>\n" " <name>IRegex</name>\n" " <instance>default</instance>\n" " </interface>\n" " </hal>\n", xml); EXPECT_IN( " <hal format=\"hidl\" optional=\"false\">\n" " <name>android.hardware.regex</name>\n" " <version>1.1-2</version>\n" " <interface>\n" " <name>IRegex</name>\n" " <instance>special/1.1</instance>\n" " <regex-instance>[a-z]+_[a-z]+/[0-9]+</regex-instance>\n" " <regex-instance>regex/1.1/[0-9]+</regex-instance>\n" " </interface>\n" " </hal>\n", xml); EXPECT_IN( " <hal format=\"hidl\" optional=\"true\">\n" " <name>android.hardware.regex</name>\n" " <version>2.0</version>\n" " <interface>\n" " <name>IRegex</name>\n" " <instance>special/2.0</instance>\n" " <regex-instance>regex/2.0/[0-9]+</regex-instance>\n" " <regex-instance>regex_[a-z]+/[0-9]+</regex-instance>\n" " </interface>\n" " </hal>\n", xml); } TEST_F(RegexTest, DeprecateLevel2) { std::string error; expectTargetFcmVersion(2); auto pred = getInstanceListFunc({ "android.hardware.regex@1.1::IRegex/default", "android.hardware.regex@1.1::IRegex/special/1.1", "android.hardware.regex@1.1::IRegex/regex/1.1/1", "android.hardware.regex@1.1::IRegex/regex_common/0", "android.hardware.regex@2.0::IRegex/default", }); EXPECT_EQ(NO_DEPRECATED_HALS, VintfObject::CheckDeprecation(pred, &error)) << error; for (const auto& deprecated : { "android.hardware.regex@1.0::IRegex/default", "android.hardware.regex@1.0::IRegex/special/1.0", "android.hardware.regex@1.0::IRegex/regex/1.0/1", "android.hardware.regex@1.0::IRegex/regex_common/0", "android.hardware.regex@1.1::IRegex/special/1.0", "android.hardware.regex@1.1::IRegex/regex/1.0/1", }) { // 2.0/default ensures compatibility. pred = getInstanceListFunc({ deprecated, "android.hardware.regex@2.0::IRegex/default", }); error.clear(); EXPECT_EQ(DEPRECATED, VintfObject::CheckDeprecation(pred, &error)) << deprecated << " should be deprecated. " << error; } } TEST_F(RegexTest, DeprecateLevel3) { std::string error; expectTargetFcmVersion(3); auto pred = getInstanceListFunc({ "android.hardware.regex@2.0::IRegex/special/2.0", "android.hardware.regex@2.0::IRegex/regex/2.0/1", "android.hardware.regex@2.0::IRegex/default", }); EXPECT_EQ(NO_DEPRECATED_HALS, VintfObject::CheckDeprecation(pred, &error)) << error; for (const auto& deprecated : { "android.hardware.regex@1.0::IRegex/default", "android.hardware.regex@1.0::IRegex/special/1.0", "android.hardware.regex@1.0::IRegex/regex/1.0/1", "android.hardware.regex@1.0::IRegex/regex_common/0", "android.hardware.regex@1.1::IRegex/special/1.0", "android.hardware.regex@1.1::IRegex/regex/1.0/1", "android.hardware.regex@1.1::IRegex/special/1.1", "android.hardware.regex@1.1::IRegex/regex/1.1/1", "android.hardware.regex@1.1::IRegex/regex_common/0", }) { // 2.0/default ensures compatibility. pred = getInstanceListFunc({ deprecated, "android.hardware.regex@2.0::IRegex/default", }); error.clear(); EXPECT_EQ(DEPRECATED, VintfObject::CheckDeprecation(pred, &error)) << deprecated << " should be deprecated."; } } // // Set of framework matrices of different FCM version with <kernel>. // #define FAKE_KERNEL(__version__, __key__) \ " <kernel version=\"" __version__ "\">\n" \ " <config>\n" \ " <key>CONFIG_" __key__ "</key>\n" \ " <value type=\"tristate\">y</value>\n" \ " </config>\n" \ " </kernel>\n" const static std::vector<std::string> systemMatrixKernelXmls = { // 1.xml "<compatibility-matrix version=\"1.0\" type=\"framework\" level=\"1\">\n" FAKE_KERNEL("1.0.0", "A1") FAKE_KERNEL("2.0.0", "B1") "</compatibility-matrix>\n", // 2.xml "<compatibility-matrix version=\"1.0\" type=\"framework\" level=\"2\">\n" FAKE_KERNEL("2.0.0", "B2") FAKE_KERNEL("3.0.0", "C2") FAKE_KERNEL("4.0.0", "D2") "</compatibility-matrix>\n", // 3.xml "<compatibility-matrix version=\"1.0\" type=\"framework\" level=\"3\">\n" FAKE_KERNEL("4.0.0", "D3") FAKE_KERNEL("5.0.0", "E3") "</compatibility-matrix>\n", }; class KernelTest : public MultiMatrixTest {}; // Assume that we are developing level 2. Test that old <kernel> requirements should // not change and new <kernel> versions are added. TEST_F(KernelTest, Level1AndLevel2) { SetUpMockSystemMatrices({systemMatrixKernelXmls[0], systemMatrixKernelXmls[1]}); expectTargetFcmVersion(1); auto matrix = VintfObject::GetFrameworkCompatibilityMatrix(true /* skipCache */); ASSERT_NE(nullptr, matrix); std::string xml = gCompatibilityMatrixConverter(*matrix); EXPECT_IN(FAKE_KERNEL("1.0.0", "A1"), xml) << "\nOld requirements must not change."; EXPECT_IN(FAKE_KERNEL("2.0.0", "B1"), xml) << "\nOld requirements must not change."; EXPECT_IN(FAKE_KERNEL("3.0.0", "C2"), xml) << "\nShould see <kernel> from new matrices"; EXPECT_IN(FAKE_KERNEL("4.0.0", "D2"), xml) << "\nShould see <kernel> from new matrices"; EXPECT_NOT_IN(FAKE_KERNEL("2.0.0", "B2"), xml) << "\nOld requirements must not change"; } // Assume that we are developing level 3. Test that old <kernel> requirements should // not change and new <kernel> versions are added. TEST_F(KernelTest, Level1AndMore) { SetUpMockSystemMatrices({systemMatrixKernelXmls}); expectTargetFcmVersion(1); auto matrix = VintfObject::GetFrameworkCompatibilityMatrix(true /* skipCache */); ASSERT_NE(nullptr, matrix); std::string xml = gCompatibilityMatrixConverter(*matrix); EXPECT_IN(FAKE_KERNEL("1.0.0", "A1"), xml) << "\nOld requirements must not change."; EXPECT_IN(FAKE_KERNEL("2.0.0", "B1"), xml) << "\nOld requirements must not change."; EXPECT_IN(FAKE_KERNEL("3.0.0", "C2"), xml) << "\nOld requirements must not change."; EXPECT_IN(FAKE_KERNEL("4.0.0", "D2"), xml) << "\nOld requirements must not change."; EXPECT_IN(FAKE_KERNEL("5.0.0", "E3"), xml) << "\nShould see <kernel> from new matrices"; EXPECT_NOT_IN(FAKE_KERNEL("2.0.0", "B2"), xml) << "\nOld requirements must not change"; EXPECT_NOT_IN(FAKE_KERNEL("4.0.0", "D3"), xml) << "\nOld requirements must not change"; } int main(int argc, char** argv) { ::testing::InitGoogleMock(&argc, argv); NiceMock<MockFileFetcher> fetcher; gFetcher = &fetcher; NiceMock<MockPartitionMounter> mounter; gPartitionMounter = &mounter; NiceMock<MockRuntimeInfoFactory> runtimeInfoFactory( std::make_shared<NiceMock<MockRuntimeInfo>>()); gRuntimeInfoFactory = &runtimeInfoFactory; NiceMock<MockPropertyFetcher> properties; gPropertyFetcher = &properties; return RUN_ALL_TESTS(); }