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https://github.com/c64scene-ar/llvm-6502.git
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1c8183df7f
git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@93913 91177308-0d34-0410-b5e6-96231b3b80d8
306 lines
11 KiB
C++
306 lines
11 KiB
C++
//===-- Host.cpp - Implement OS Host Concept --------------------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This header file implements the operating system Host concept.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/System/Host.h"
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#include "llvm/Config/config.h"
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#include <string.h>
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// Include the platform-specific parts of this class.
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#ifdef LLVM_ON_UNIX
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#include "Unix/Host.inc"
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#endif
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#ifdef LLVM_ON_WIN32
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#include "Win32/Host.inc"
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#endif
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#ifdef _MSC_VER
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#include <intrin.h>
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#endif
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//===----------------------------------------------------------------------===//
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//
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// Implementations of the CPU detection routines
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//
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//===----------------------------------------------------------------------===//
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using namespace llvm;
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#if defined(i386) || defined(__i386__) || defined(__x86__) || defined(_M_IX86)\
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|| defined(__x86_64__) || defined(_M_AMD64) || defined (_M_X64)
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/// GetX86CpuIDAndInfo - Execute the specified cpuid and return the 4 values in the
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/// specified arguments. If we can't run cpuid on the host, return true.
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static bool GetX86CpuIDAndInfo(unsigned value, unsigned *rEAX,
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unsigned *rEBX, unsigned *rECX, unsigned *rEDX) {
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#if defined(__x86_64__) || defined(_M_AMD64) || defined (_M_X64)
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#if defined(__GNUC__)
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// gcc doesn't know cpuid would clobber ebx/rbx. Preseve it manually.
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asm ("movq\t%%rbx, %%rsi\n\t"
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"cpuid\n\t"
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"xchgq\t%%rbx, %%rsi\n\t"
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: "=a" (*rEAX),
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"=S" (*rEBX),
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"=c" (*rECX),
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"=d" (*rEDX)
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: "a" (value));
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return false;
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#elif defined(_MSC_VER)
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int registers[4];
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__cpuid(registers, value);
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*rEAX = registers[0];
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*rEBX = registers[1];
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*rECX = registers[2];
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*rEDX = registers[3];
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return false;
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#endif
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#elif defined(i386) || defined(__i386__) || defined(__x86__) || defined(_M_IX86)
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#if defined(__GNUC__)
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asm ("movl\t%%ebx, %%esi\n\t"
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"cpuid\n\t"
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"xchgl\t%%ebx, %%esi\n\t"
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: "=a" (*rEAX),
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"=S" (*rEBX),
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"=c" (*rECX),
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"=d" (*rEDX)
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: "a" (value));
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return false;
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#elif defined(_MSC_VER)
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__asm {
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mov eax,value
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cpuid
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mov esi,rEAX
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mov dword ptr [esi],eax
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mov esi,rEBX
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mov dword ptr [esi],ebx
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mov esi,rECX
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mov dword ptr [esi],ecx
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mov esi,rEDX
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mov dword ptr [esi],edx
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}
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return false;
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#endif
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#endif
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return true;
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}
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static void DetectX86FamilyModel(unsigned EAX, unsigned &Family, unsigned &Model) {
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Family = (EAX >> 8) & 0xf; // Bits 8 - 11
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Model = (EAX >> 4) & 0xf; // Bits 4 - 7
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if (Family == 6 || Family == 0xf) {
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if (Family == 0xf)
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// Examine extended family ID if family ID is F.
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Family += (EAX >> 20) & 0xff; // Bits 20 - 27
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// Examine extended model ID if family ID is 6 or F.
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Model += ((EAX >> 16) & 0xf) << 4; // Bits 16 - 19
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}
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}
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std::string sys::getHostCPUName() {
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unsigned EAX = 0, EBX = 0, ECX = 0, EDX = 0;
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if (GetX86CpuIDAndInfo(0x1, &EAX, &EBX, &ECX, &EDX))
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return "generic";
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unsigned Family = 0;
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unsigned Model = 0;
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DetectX86FamilyModel(EAX, Family, Model);
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GetX86CpuIDAndInfo(0x80000001, &EAX, &EBX, &ECX, &EDX);
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bool Em64T = (EDX >> 29) & 0x1;
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bool HasSSE3 = (ECX & 0x1);
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union {
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unsigned u[3];
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char c[12];
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} text;
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GetX86CpuIDAndInfo(0, &EAX, text.u+0, text.u+2, text.u+1);
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if (memcmp(text.c, "GenuineIntel", 12) == 0) {
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switch (Family) {
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case 3:
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return "i386";
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case 4:
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switch (Model) {
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case 0: // Intel486TM DX processors
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case 1: // Intel486TM DX processors
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case 2: // Intel486 SX processors
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case 3: // Intel487TM processors, IntelDX2 OverDrive® processors,
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// IntelDX2TM processors
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case 4: // Intel486 SL processor
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case 5: // IntelSX2TM processors
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case 7: // Write-Back Enhanced IntelDX2 processors
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case 8: // IntelDX4 OverDrive processors, IntelDX4TM processors
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default: return "i486";
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}
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case 5:
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switch (Model) {
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case 1: // Pentium OverDrive processor for Pentium processor (60, 66),
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// Pentium® processors (60, 66)
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case 2: // Pentium OverDrive processor for Pentium processor (75, 90,
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// 100, 120, 133), Pentium processors (75, 90, 100, 120, 133,
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// 150, 166, 200)
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case 3: // Pentium OverDrive processors for Intel486 processor-based
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// systems
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return "pentium";
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case 4: // Pentium OverDrive processor with MMXTM technology for Pentium
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// processor (75, 90, 100, 120, 133), Pentium processor with
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// MMXTM technology (166, 200)
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return "pentium-mmx";
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default: return "pentium";
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}
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case 6:
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switch (Model) {
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case 1: // Pentium Pro processor
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return "pentiumpro";
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case 3: // Intel Pentium II OverDrive processor, Pentium II processor,
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// model 03
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case 5: // Pentium II processor, model 05, Pentium II Xeon processor,
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// model 05, and Intel® Celeron® processor, model 05
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case 6: // Celeron processor, model 06
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return "pentium2";
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case 7: // Pentium III processor, model 07, and Pentium III Xeon
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// processor, model 07
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case 8: // Pentium III processor, model 08, Pentium III Xeon processor,
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// model 08, and Celeron processor, model 08
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case 10: // Pentium III Xeon processor, model 0Ah
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case 11: // Pentium III processor, model 0Bh
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return "pentium3";
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case 9: // Intel Pentium M processor, Intel Celeron M processor model 09.
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case 13: // Intel Pentium M processor, Intel Celeron M processor, model
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// 0Dh. All processors are manufactured using the 90 nm process.
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return "pentium-m";
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case 14: // Intel CoreTM Duo processor, Intel CoreTM Solo processor, model
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// 0Eh. All processors are manufactured using the 65 nm process.
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return "yonah";
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case 15: // Intel CoreTM2 Duo processor, Intel CoreTM2 Duo mobile
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// processor, Intel CoreTM2 Quad processor, Intel CoreTM2 Quad
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// mobile processor, Intel CoreTM2 Extreme processor, Intel
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// Pentium Dual-Core processor, Intel Xeon processor, model
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// 0Fh. All processors are manufactured using the 65 nm process.
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case 22: // Intel Celeron processor model 16h. All processors are
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// manufactured using the 65 nm process
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return "core2";
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case 21: // Intel EP80579 Integrated Processor and Intel EP80579
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// Integrated Processor with Intel QuickAssist Technology
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return "i686"; // FIXME: ???
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case 23: // Intel CoreTM2 Extreme processor, Intel Xeon processor, model
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// 17h. All processors are manufactured using the 45 nm process.
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//
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// 45nm: Penryn , Wolfdale, Yorkfield (XE)
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return "penryn";
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case 26: // Intel Core i7 processor and Intel Xeon processor. All
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// processors are manufactured using the 45 nm process.
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case 29: // Intel Xeon processor MP. All processors are manufactured using
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// the 45 nm process.
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return "corei7";
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case 28: // Intel Atom processor. All processors are manufactured using
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// the 45 nm process
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return "atom";
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default: return "i686";
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}
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case 15: {
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switch (Model) {
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case 0: // Pentium 4 processor, Intel Xeon processor. All processors are
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// model 00h and manufactured using the 0.18 micron process.
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case 1: // Pentium 4 processor, Intel Xeon processor, Intel Xeon
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// processor MP, and Intel Celeron processor. All processors are
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// model 01h and manufactured using the 0.18 micron process.
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case 2: // Pentium 4 processor, Mobile Intel Pentium 4 processor – M,
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// Intel Xeon processor, Intel Xeon processor MP, Intel Celeron
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// processor, and Mobile Intel Celeron processor. All processors
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// are model 02h and manufactured using the 0.13 micron process.
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return (Em64T) ? "x86-64" : "pentium4";
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case 3: // Pentium 4 processor, Intel Xeon processor, Intel Celeron D
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// processor. All processors are model 03h and manufactured using
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// the 90 nm process.
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case 4: // Pentium 4 processor, Pentium 4 processor Extreme Edition,
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// Pentium D processor, Intel Xeon processor, Intel Xeon
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// processor MP, Intel Celeron D processor. All processors are
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// model 04h and manufactured using the 90 nm process.
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case 6: // Pentium 4 processor, Pentium D processor, Pentium processor
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// Extreme Edition, Intel Xeon processor, Intel Xeon processor
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// MP, Intel Celeron D processor. All processors are model 06h
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// and manufactured using the 65 nm process.
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return (Em64T) ? "nocona" : "prescott";
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default:
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return (Em64T) ? "x86-64" : "pentium4";
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}
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}
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default:
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return "generic";
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}
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} else if (memcmp(text.c, "AuthenticAMD", 12) == 0) {
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// FIXME: this poorly matches the generated SubtargetFeatureKV table. There
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// appears to be no way to generate the wide variety of AMD-specific targets
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// from the information returned from CPUID.
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switch (Family) {
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case 4:
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return "i486";
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case 5:
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switch (Model) {
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case 6:
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case 7: return "k6";
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case 8: return "k6-2";
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case 9:
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case 13: return "k6-3";
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default: return "pentium";
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}
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case 6:
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switch (Model) {
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case 4: return "athlon-tbird";
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case 6:
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case 7:
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case 8: return "athlon-mp";
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case 10: return "athlon-xp";
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default: return "athlon";
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}
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case 15:
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if (HasSSE3) {
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return "k8-sse3";
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} else {
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switch (Model) {
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case 1: return "opteron";
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case 5: return "athlon-fx"; // also opteron
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default: return "athlon64";
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}
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}
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case 16:
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return "amdfam10";
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default:
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return "generic";
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}
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}
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return "generic";
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}
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#else
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std::string sys::getHostCPUName() {
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return "generic";
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}
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#endif
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bool sys::getHostCPUFeatures(StringMap<bool> &Features){
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return false;
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}
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