// Copyright 2017 Google LLC // // 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 "cpuinfo_aarch64.h" #include #include "filesystem_for_testing.h" #include "gtest/gtest.h" #include "hwcaps_for_testing.h" #if defined(CPU_FEATURES_OS_WINDOWS) #include "internal/windows_utils.h" #endif // CPU_FEATURES_OS_WINDOWS namespace cpu_features { class FakeCpuAarch64 { public: #if defined(CPU_FEATURES_OS_WINDOWS) bool GetWindowsIsProcessorFeaturePresent(DWORD dwProcessorFeature) { return windows_isprocessorfeaturepresent_.count(dwProcessorFeature); } void SetWindowsIsProcessorFeaturePresent(DWORD dwProcessorFeature) { windows_isprocessorfeaturepresent_.insert(dwProcessorFeature); } WORD GetWindowsNativeSystemInfoProcessorRevision() const { return processor_revision_; } void SetWindowsNativeSystemInfoProcessorRevision(WORD wProcessorRevision) { processor_revision_ = wProcessorRevision; } private: std::set windows_isprocessorfeaturepresent_; WORD processor_revision_{}; #endif // CPU_FEATURES_OS_WINDOWS }; static FakeCpuAarch64* g_fake_cpu_instance = nullptr; static FakeCpuAarch64& cpu() { assert(g_fake_cpu_instance != nullptr); return *g_fake_cpu_instance; } #if defined(CPU_FEATURES_OS_WINDOWS) extern "C" bool GetWindowsIsProcessorFeaturePresent(DWORD dwProcessorFeature) { return cpu().GetWindowsIsProcessorFeaturePresent(dwProcessorFeature); } extern "C" WORD GetWindowsNativeSystemInfoProcessorRevision() { return cpu().GetWindowsNativeSystemInfoProcessorRevision(); } #endif // CPU_FEATURES_OS_WINDOWS namespace { class CpuidAarch64Test : public ::testing::Test { protected: void SetUp() override { assert(g_fake_cpu_instance == nullptr); g_fake_cpu_instance = new FakeCpuAarch64(); } void TearDown() override { delete g_fake_cpu_instance; g_fake_cpu_instance = nullptr; } }; TEST(CpuinfoAarch64Test, Aarch64FeaturesEnum) { const char* last_name = GetAarch64FeaturesEnumName(AARCH64_LAST_); EXPECT_STREQ(last_name, "unknown_feature"); for (int i = static_cast(AARCH64_FP); i != static_cast(AARCH64_LAST_); ++i) { const auto feature = static_cast(i); const char* name = GetAarch64FeaturesEnumName(feature); ASSERT_FALSE(name == nullptr); EXPECT_STRNE(name, ""); EXPECT_STRNE(name, last_name); } } #if defined(CPU_FEATURES_OS_LINUX) void DisableHardwareCapabilities() { SetHardwareCapabilities(0, 0); } TEST(CpuinfoAarch64Test, FromHardwareCap) { ResetHwcaps(); SetHardwareCapabilities(AARCH64_HWCAP_FP | AARCH64_HWCAP_AES, 0); GetEmptyFilesystem(); // disabling /proc/cpuinfo const auto info = GetAarch64Info(); EXPECT_TRUE(info.features.fp); EXPECT_FALSE(info.features.asimd); EXPECT_FALSE(info.features.evtstrm); EXPECT_TRUE(info.features.aes); EXPECT_FALSE(info.features.pmull); EXPECT_FALSE(info.features.sha1); EXPECT_FALSE(info.features.sha2); EXPECT_FALSE(info.features.crc32); EXPECT_FALSE(info.features.atomics); EXPECT_FALSE(info.features.fphp); EXPECT_FALSE(info.features.asimdhp); EXPECT_FALSE(info.features.cpuid); EXPECT_FALSE(info.features.asimdrdm); EXPECT_FALSE(info.features.jscvt); EXPECT_FALSE(info.features.fcma); EXPECT_FALSE(info.features.lrcpc); EXPECT_FALSE(info.features.dcpop); EXPECT_FALSE(info.features.sha3); EXPECT_FALSE(info.features.sm3); EXPECT_FALSE(info.features.sm4); EXPECT_FALSE(info.features.asimddp); EXPECT_FALSE(info.features.sha512); EXPECT_FALSE(info.features.sve); EXPECT_FALSE(info.features.asimdfhm); EXPECT_FALSE(info.features.dit); EXPECT_FALSE(info.features.uscat); EXPECT_FALSE(info.features.ilrcpc); EXPECT_FALSE(info.features.flagm); EXPECT_FALSE(info.features.ssbs); EXPECT_FALSE(info.features.sb); EXPECT_FALSE(info.features.paca); EXPECT_FALSE(info.features.pacg); } TEST(CpuinfoAarch64Test, FromHardwareCap2) { ResetHwcaps(); SetHardwareCapabilities(AARCH64_HWCAP_FP, AARCH64_HWCAP2_SVE2 | AARCH64_HWCAP2_BTI); GetEmptyFilesystem(); // disabling /proc/cpuinfo const auto info = GetAarch64Info(); EXPECT_TRUE(info.features.fp); EXPECT_TRUE(info.features.sve2); EXPECT_TRUE(info.features.bti); EXPECT_FALSE(info.features.dcpodp); EXPECT_FALSE(info.features.sveaes); EXPECT_FALSE(info.features.svepmull); EXPECT_FALSE(info.features.svebitperm); EXPECT_FALSE(info.features.svesha3); EXPECT_FALSE(info.features.svesm4); EXPECT_FALSE(info.features.flagm2); EXPECT_FALSE(info.features.frint); EXPECT_FALSE(info.features.svei8mm); EXPECT_FALSE(info.features.svef32mm); EXPECT_FALSE(info.features.svef64mm); EXPECT_FALSE(info.features.svebf16); EXPECT_FALSE(info.features.i8mm); EXPECT_FALSE(info.features.bf16); EXPECT_FALSE(info.features.dgh); EXPECT_FALSE(info.features.rng); } TEST(CpuinfoAarch64Test, ARMCortexA53) { ResetHwcaps(); auto& fs = GetEmptyFilesystem(); fs.CreateFile("/proc/cpuinfo", R"(Processor : AArch64 Processor rev 3 (aarch64) processor : 0 processor : 1 processor : 2 processor : 3 processor : 4 processor : 5 processor : 6 processor : 7 Features : fp asimd evtstrm aes pmull sha1 sha2 crc32 CPU implementer : 0x41 CPU architecture: AArch64 CPU variant : 0x0 CPU part : 0xd03 CPU revision : 3)"); const auto info = GetAarch64Info(); EXPECT_EQ(info.implementer, 0x41); EXPECT_EQ(info.variant, 0x0); EXPECT_EQ(info.part, 0xd03); EXPECT_EQ(info.revision, 3); EXPECT_TRUE(info.features.fp); EXPECT_TRUE(info.features.asimd); EXPECT_TRUE(info.features.evtstrm); EXPECT_TRUE(info.features.aes); EXPECT_TRUE(info.features.pmull); EXPECT_TRUE(info.features.sha1); EXPECT_TRUE(info.features.sha2); EXPECT_TRUE(info.features.crc32); EXPECT_FALSE(info.features.atomics); EXPECT_FALSE(info.features.fphp); EXPECT_FALSE(info.features.asimdhp); EXPECT_FALSE(info.features.cpuid); EXPECT_FALSE(info.features.asimdrdm); EXPECT_FALSE(info.features.jscvt); EXPECT_FALSE(info.features.fcma); EXPECT_FALSE(info.features.lrcpc); EXPECT_FALSE(info.features.dcpop); EXPECT_FALSE(info.features.sha3); EXPECT_FALSE(info.features.sm3); EXPECT_FALSE(info.features.sm4); EXPECT_FALSE(info.features.asimddp); EXPECT_FALSE(info.features.sha512); EXPECT_FALSE(info.features.sve); EXPECT_FALSE(info.features.asimdfhm); EXPECT_FALSE(info.features.dit); EXPECT_FALSE(info.features.uscat); EXPECT_FALSE(info.features.ilrcpc); EXPECT_FALSE(info.features.flagm); EXPECT_FALSE(info.features.ssbs); EXPECT_FALSE(info.features.sb); EXPECT_FALSE(info.features.paca); EXPECT_FALSE(info.features.pacg); EXPECT_FALSE(info.features.dcpodp); EXPECT_FALSE(info.features.sve2); EXPECT_FALSE(info.features.sveaes); EXPECT_FALSE(info.features.svepmull); EXPECT_FALSE(info.features.svebitperm); EXPECT_FALSE(info.features.svesha3); EXPECT_FALSE(info.features.svesm4); EXPECT_FALSE(info.features.flagm2); EXPECT_FALSE(info.features.frint); EXPECT_FALSE(info.features.svei8mm); EXPECT_FALSE(info.features.svef32mm); EXPECT_FALSE(info.features.svef64mm); EXPECT_FALSE(info.features.svebf16); EXPECT_FALSE(info.features.i8mm); EXPECT_FALSE(info.features.bf16); EXPECT_FALSE(info.features.dgh); EXPECT_FALSE(info.features.rng); EXPECT_FALSE(info.features.bti); EXPECT_FALSE(info.features.mte); EXPECT_FALSE(info.features.ecv); EXPECT_FALSE(info.features.afp); EXPECT_FALSE(info.features.rpres); } #endif // CPU_FEATURES_OS_LINUX #if defined(CPU_FEATURES_OS_WINDOWS) TEST_F(CpuidAarch64Test, WINDOWS_AARCH64_RPI4) { cpu().SetWindowsNativeSystemInfoProcessorRevision(0x03); cpu().SetWindowsIsProcessorFeaturePresent(PF_ARM_VFP_32_REGISTERS_AVAILABLE); cpu().SetWindowsIsProcessorFeaturePresent(PF_ARM_NEON_INSTRUCTIONS_AVAILABLE); cpu().SetWindowsIsProcessorFeaturePresent( PF_ARM_V8_CRC32_INSTRUCTIONS_AVAILABLE); const auto info = GetAarch64Info(); EXPECT_EQ(info.revision, 0x03); EXPECT_TRUE(info.features.fp); EXPECT_TRUE(info.features.asimd); EXPECT_TRUE(info.features.crc32); EXPECT_FALSE(info.features.aes); EXPECT_FALSE(info.features.sha1); EXPECT_FALSE(info.features.sha2); EXPECT_FALSE(info.features.pmull); EXPECT_FALSE(info.features.atomics); EXPECT_FALSE(info.features.asimddp); EXPECT_FALSE(info.features.jscvt); EXPECT_FALSE(info.features.lrcpc); } #endif // CPU_FEATURES_OS_WINDOWS } // namespace } // namespace cpu_features