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1 /****************************************************************************
2 * Copyright (C) 2014-2015 Intel Corporation.   All Rights Reserved.
3 *
4 * Permission is hereby granted, free of charge, to any person obtaining a
5 * copy of this software and associated documentation files (the "Software"),
6 * to deal in the Software without restriction, including without limitation
7 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
8 * and/or sell copies of the Software, and to permit persons to whom the
9 * Software is furnished to do so, subject to the following conditions:
10 *
11 * The above copyright notice and this permission notice (including the next
12 * paragraph) shall be included in all copies or substantial portions of the
13 * Software.
14 *
15 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
16 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
17 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL
18 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
19 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
20 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
21 * IN THE SOFTWARE.
22 ****************************************************************************/
23 
24 #pragma once
25 
26 #include <iostream>
27 #include <vector>
28 #include <bitset>
29 #include <array>
30 #include <string>
31 #include <algorithm>
32 
33 // Clang for Windows does supply an intrin.h with __cpuid intrinsics, however...
34 // It seems to not realize that a write to "b" (ebx) will kill the value in rbx.
35 // This attempts to use the "native" clang / gcc intrinsics instead of the windows
36 // compatible ones.
37 #if defined(_MSC_VER) && !defined(__clang__)
38 #include <intrin.h>
39 #else
40 #include <string.h>
41 #include <cpuid.h>
42 #endif
43 
44 class InstructionSet
45 {
46 public:
InstructionSet()47     InstructionSet() : CPU_Rep() {};
48 
49     // getters
Vendor(void)50     std::string Vendor(void) { return CPU_Rep.vendor_; }
Brand(void)51     std::string Brand(void) { return CPU_Rep.brand_; }
52 
SSE3(void)53     bool SSE3(void) { return CPU_Rep.f_1_ECX_[0]; }
PCLMULQDQ(void)54     bool PCLMULQDQ(void) { return CPU_Rep.f_1_ECX_[1]; }
MONITOR(void)55     bool MONITOR(void) { return CPU_Rep.f_1_ECX_[3]; }
SSSE3(void)56     bool SSSE3(void) { return CPU_Rep.f_1_ECX_[9]; }
FMA(void)57     bool FMA(void) { return CPU_Rep.f_1_ECX_[12]; }
CMPXCHG16B(void)58     bool CMPXCHG16B(void) { return CPU_Rep.f_1_ECX_[13]; }
SSE41(void)59     bool SSE41(void) { return CPU_Rep.f_1_ECX_[19]; }
SSE42(void)60     bool SSE42(void) { return CPU_Rep.f_1_ECX_[20]; }
MOVBE(void)61     bool MOVBE(void) { return CPU_Rep.f_1_ECX_[22]; }
POPCNT(void)62     bool POPCNT(void) { return CPU_Rep.f_1_ECX_[23]; }
AES(void)63     bool AES(void) { return CPU_Rep.f_1_ECX_[25]; }
XSAVE(void)64     bool XSAVE(void) { return CPU_Rep.f_1_ECX_[26]; }
OSXSAVE(void)65     bool OSXSAVE(void) { return CPU_Rep.f_1_ECX_[27]; }
RDRAND(void)66     bool RDRAND(void) { return CPU_Rep.f_1_ECX_[30]; }
67 
MSR(void)68     bool MSR(void) { return CPU_Rep.f_1_EDX_[5]; }
CX8(void)69     bool CX8(void) { return CPU_Rep.f_1_EDX_[8]; }
SEP(void)70     bool SEP(void) { return CPU_Rep.f_1_EDX_[11]; }
CMOV(void)71     bool CMOV(void) { return CPU_Rep.f_1_EDX_[15]; }
CLFSH(void)72     bool CLFSH(void) { return CPU_Rep.f_1_EDX_[19]; }
MMX(void)73     bool MMX(void) { return CPU_Rep.f_1_EDX_[23]; }
FXSR(void)74     bool FXSR(void) { return CPU_Rep.f_1_EDX_[24]; }
SSE(void)75     bool SSE(void) { return CPU_Rep.f_1_EDX_[25]; }
SSE2(void)76     bool SSE2(void) { return CPU_Rep.f_1_EDX_[26]; }
77 
FSGSBASE(void)78     bool FSGSBASE(void) { return CPU_Rep.f_7_EBX_[0]; }
BMI1(void)79     bool BMI1(void) { return CPU_Rep.f_7_EBX_[3]; }
HLE(void)80     bool HLE(void) { return CPU_Rep.isIntel_ && CPU_Rep.f_7_EBX_[4]; }
BMI2(void)81     bool BMI2(void) { return CPU_Rep.f_7_EBX_[8]; }
ERMS(void)82     bool ERMS(void) { return CPU_Rep.f_7_EBX_[9]; }
INVPCID(void)83     bool INVPCID(void) { return CPU_Rep.f_7_EBX_[10]; }
RTM(void)84     bool RTM(void) { return CPU_Rep.isIntel_ && CPU_Rep.f_7_EBX_[11]; }
RDSEED(void)85     bool RDSEED(void) { return CPU_Rep.f_7_EBX_[18]; }
ADX(void)86     bool ADX(void) { return CPU_Rep.f_7_EBX_[19]; }
SHA(void)87     bool SHA(void) { return CPU_Rep.f_7_EBX_[29]; }
88 
PREFETCHWT1(void)89     bool PREFETCHWT1(void) { return CPU_Rep.f_7_ECX_[0]; }
90 
LAHF(void)91     bool LAHF(void) { return CPU_Rep.f_81_ECX_[0]; }
LZCNT(void)92     bool LZCNT(void) { return CPU_Rep.isIntel_ && CPU_Rep.f_81_ECX_[5]; }
ABM(void)93     bool ABM(void) { return CPU_Rep.isAMD_ && CPU_Rep.f_81_ECX_[5]; }
SSE4a(void)94     bool SSE4a(void) { return CPU_Rep.isAMD_ && CPU_Rep.f_81_ECX_[6]; }
XOP(void)95     bool XOP(void) { return CPU_Rep.isAMD_ && CPU_Rep.f_81_ECX_[11]; }
TBM(void)96     bool TBM(void) { return CPU_Rep.isAMD_ && CPU_Rep.f_81_ECX_[21]; }
97 
SYSCALL(void)98     bool SYSCALL(void) { return CPU_Rep.isIntel_ && CPU_Rep.f_81_EDX_[11]; }
MMXEXT(void)99     bool MMXEXT(void) { return CPU_Rep.isAMD_ && CPU_Rep.f_81_EDX_[22]; }
RDTSCP(void)100     bool RDTSCP(void) { return CPU_Rep.isIntel_ && CPU_Rep.f_81_EDX_[27]; }
_3DNOWEXT(void)101     bool _3DNOWEXT(void) { return CPU_Rep.isAMD_ && CPU_Rep.f_81_EDX_[30]; }
_3DNOW(void)102     bool _3DNOW(void) { return CPU_Rep.isAMD_ && CPU_Rep.f_81_EDX_[31]; }
103 
AVX(void)104     bool AVX(void) { return CPU_Rep.f_1_ECX_[28]; }
F16C(void)105     bool F16C(void) { return CPU_Rep.f_1_ECX_[29]; }
AVX2(void)106     bool AVX2(void) { return CPU_Rep.f_7_EBX_[5]; }
AVX512F(void)107     bool AVX512F(void) { return CPU_Rep.f_7_EBX_[16]; }
AVX512PF(void)108     bool AVX512PF(void) { return CPU_Rep.f_7_EBX_[26]; }
AVX512ER(void)109     bool AVX512ER(void) { return CPU_Rep.f_7_EBX_[27]; }
AVX512CD(void)110     bool AVX512CD(void) { return CPU_Rep.f_7_EBX_[28]; }
111 
112 private:
113     class InstructionSet_Internal
114     {
115     public:
InstructionSet_Internal()116         InstructionSet_Internal()
117             : nIds_{ 0 },
118             nExIds_{ 0 },
119             isIntel_{ false },
120             isAMD_{ false },
121             f_1_ECX_{ 0 },
122             f_1_EDX_{ 0 },
123             f_7_EBX_{ 0 },
124             f_7_ECX_{ 0 },
125             f_81_ECX_{ 0 },
126             f_81_EDX_{ 0 },
127             data_{},
128             extdata_{}
129         {
130             //int cpuInfo[4] = {-1};
131             std::array<int, 4> cpui;
132 
133             // Calling __cpuid with 0x0 as the function_id argument
134             // gets the number of the highest valid function ID.
135 #if defined(_MSC_VER) && !defined(__clang__)
136             __cpuid(cpui.data(), 0);
137             nIds_ = cpui[0];
138 #else
139             nIds_ = __get_cpuid_max(0, NULL);
140 #endif
141 
142             for (int i = 0; i <= nIds_; ++i)
143             {
144 #if defined(_MSC_VER) && !defined(__clang__)
145                 __cpuidex(cpui.data(), i, 0);
146 #else
147                 int *data = cpui.data();
148                 __cpuid_count(i, 0, data[0], data[1], data[2], data[3]);
149 #endif
150                 data_.push_back(cpui);
151             }
152 
153             // Capture vendor string
154             char vendor[0x20];
155             memset(vendor, 0, sizeof(vendor));
156             *reinterpret_cast<int*>(vendor) = data_[0][1];
157             *reinterpret_cast<int*>(vendor + 4) = data_[0][3];
158             *reinterpret_cast<int*>(vendor + 8) = data_[0][2];
159             vendor_ = vendor;
160             if (vendor_ == "GenuineIntel")
161             {
162                 isIntel_ = true;
163             }
164             else if (vendor_ == "AuthenticAMD")
165             {
166                 isAMD_ = true;
167             }
168 
169             // load bitset with flags for function 0x00000001
170             if (nIds_ >= 1)
171             {
172                 f_1_ECX_ = data_[1][2];
173                 f_1_EDX_ = data_[1][3];
174             }
175 
176             // load bitset with flags for function 0x00000007
177             if (nIds_ >= 7)
178             {
179                 f_7_EBX_ = data_[7][1];
180                 f_7_ECX_ = data_[7][2];
181             }
182 
183             // Calling __cpuid with 0x80000000 as the function_id argument
184             // gets the number of the highest valid extended ID.
185 #if defined(_MSC_VER) && !defined(__clang__)
186             __cpuid(cpui.data(), 0x80000000);
187             nExIds_ = cpui[0];
188 #else
189             nExIds_ = __get_cpuid_max(0x80000000, NULL);
190 #endif
191 
192             char brand[0x40];
193             memset(brand, 0, sizeof(brand));
194 
195             for (unsigned i = 0x80000000; i <= nExIds_; ++i)
196             {
197 #if defined(_MSC_VER) && !defined(__clang__)
198                 __cpuidex(cpui.data(), i, 0);
199 #else
200                 int *data = cpui.data();
201                 __cpuid_count(i, 0, data[0], data[1], data[2], data[3]);
202 #endif
203                 extdata_.push_back(cpui);
204             }
205 
206             // load bitset with flags for function 0x80000001
207             if (nExIds_ >= 0x80000001)
208             {
209                 f_81_ECX_ = extdata_[1][2];
210                 f_81_EDX_ = extdata_[1][3];
211             }
212 
213             // Interpret CPU brand string if reported
214             if (nExIds_ >= 0x80000004)
215             {
216                 memcpy(brand, extdata_[2].data(), sizeof(cpui));
217                 memcpy(brand + 16, extdata_[3].data(), sizeof(cpui));
218                 memcpy(brand + 32, extdata_[4].data(), sizeof(cpui));
219                 brand_ = brand;
220             }
221         };
222 
223         int nIds_;
224         unsigned nExIds_;
225         std::string vendor_;
226         std::string brand_;
227         bool isIntel_;
228         bool isAMD_;
229         std::bitset<32> f_1_ECX_;
230         std::bitset<32> f_1_EDX_;
231         std::bitset<32> f_7_EBX_;
232         std::bitset<32> f_7_ECX_;
233         std::bitset<32> f_81_ECX_;
234         std::bitset<32> f_81_EDX_;
235         std::vector<std::array<int, 4>> data_;
236         std::vector<std::array<int, 4>> extdata_;
237     };
238     const InstructionSet_Internal CPU_Rep;
239 };
240