/* * Runtime CPU detection * (C) 2009-2010,2013 Jack Lloyd * * Botan is released under the Simplified BSD License (see license.txt) */ #ifndef BOTAN_CPUID_H__ #define BOTAN_CPUID_H__ #include #include namespace Botan { /** * A class handling runtime CPU feature detection */ class BOTAN_DLL CPUID { public: /** * Probe the CPU and see what extensions are supported */ static void initialize(); /** * Return a best guess of the cache line size */ static size_t cache_line_size() { initialize(); return g_cache_line_size; } /** * Check if the processor supports AltiVec/VMX */ static bool has_altivec() { initialize(); return g_altivec_capable; } /** * Check if the processor supports RDTSC */ static bool has_rdtsc() { return x86_processor_flags_has(CPUID_RDTSC_BIT); } /** * Check if the processor supports SSE2 */ static bool has_sse2() { return x86_processor_flags_has(CPUID_SSE2_BIT); } /** * Check if the processor supports SSSE3 */ static bool has_ssse3() { return x86_processor_flags_has(CPUID_SSSE3_BIT); } /** * Check if the processor supports SSE4.1 */ static bool has_sse41() { return x86_processor_flags_has(CPUID_SSE41_BIT); } /** * Check if the processor supports SSE4.2 */ static bool has_sse42() { return x86_processor_flags_has(CPUID_SSE42_BIT); } /** * Check if the processor supports AVX2 */ static bool has_avx2() { return x86_processor_flags_has(CPUID_AVX2_BIT); } /** * Check if the processor supports AVX-512F */ static bool has_avx512f() { return x86_processor_flags_has(CPUID_AVX512F_BIT); } /** * Check if the processor supports BMI2 */ static bool has_bmi2() { return x86_processor_flags_has(CPUID_BMI2_BIT); } /** * Check if the processor supports AES-NI */ static bool has_aes_ni() { return x86_processor_flags_has(CPUID_AESNI_BIT); } /** * Check if the processor supports CLMUL */ static bool has_clmul() { return x86_processor_flags_has(CPUID_CLMUL_BIT); } /** * Check if the processor supports Intel SHA extension */ static bool has_intel_sha() { return x86_processor_flags_has(CPUID_SHA_BIT); } /** * Check if the processor supports ADX extension */ static bool has_adx() { return x86_processor_flags_has(CPUID_ADX_BIT); } /** * Check if the processor supports RDRAND */ static bool has_rdrand() { return x86_processor_flags_has(CPUID_RDRAND_BIT); } /** * Check if the processor supports RDSEED */ static bool has_rdseed() { return x86_processor_flags_has(CPUID_RDSEED_BIT); } static bool has_simd_32(); static void print(std::ostream& o); private: enum CPUID_bits { CPUID_RDTSC_BIT = 4, CPUID_SSE2_BIT = 26, CPUID_CLMUL_BIT = 33, CPUID_SSSE3_BIT = 41, CPUID_SSE41_BIT = 51, CPUID_SSE42_BIT = 52, CPUID_AESNI_BIT = 57, CPUID_RDRAND_BIT = 62, CPUID_AVX2_BIT = 64+5, CPUID_BMI2_BIT = 64+8, CPUID_AVX512F_BIT = 64+16, CPUID_RDSEED_BIT = 64+18, CPUID_ADX_BIT = 64+19, CPUID_SHA_BIT = 64+29, }; static bool x86_processor_flags_has(u64bit bit) { if(!g_initialized) initialize(); return ((g_x86_processor_flags[bit/64] >> (bit % 64)) & 1); } static bool g_initialized; static u64bit g_x86_processor_flags[2]; static size_t g_cache_line_size; static bool g_altivec_capable; }; } #endif