path: root/open-vm-tools/lib/include/x86cpuid.h

/*********************************************************
 * Copyright (C) 1998-2015 VMware, Inc. All rights reserved.
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms of the GNU Lesser General Public License as published
 * by the Free Software Foundation version 2.1 and no later version.
 *
 * This program is distributed in the hope that it will be useful, but
 * WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
 * or FITNESS FOR A PARTICULAR PURPOSE.  See the Lesser GNU General Public
 * License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public License
 * along with this program; if not, write to the Free Software Foundation, Inc.,
 * 51 Franklin St, Fifth Floor, Boston, MA  02110-1301 USA.
 *
 *********************************************************/

/*********************************************************
 * The contents of this file are subject to the terms of the Common
 * Development and Distribution License (the "License") version 1.0
 * and no later version.  You may not use this file except in
 * compliance with the License.
 *
 * You can obtain a copy of the License at
 *         http://www.opensource.org/licenses/cddl1.php
 *
 * See the License for the specific language governing permissions
 * and limitations under the License.
 *
 *********************************************************/

#ifndef _X86CPUID_H_
#define _X86CPUID_H_

/* http://www.sandpile.org/ia32/cpuid.htm */

#define INCLUDE_ALLOW_USERLEVEL
#define INCLUDE_ALLOW_VMX

#define INCLUDE_ALLOW_VMKERNEL
#define INCLUDE_ALLOW_MODULE
#define INCLUDE_ALLOW_DISTRIBUTE
#define INCLUDE_ALLOW_VMK_MODULE
#define INCLUDE_ALLOW_VMCORE
#define INCLUDE_ALLOW_VMMON
#include "includeCheck.h"

#include "vm_basic_types.h"
#include "community_source.h"
#include "x86vendor.h"
#include "vm_assert.h"

/*
 * The linux kernel's ptrace.h stupidly defines the bare
 * EAX/EBX/ECX/EDX, which wrecks havoc with our preprocessor tricks.
 */
#undef EAX
#undef EBX
#undef ECX
#undef EDX

typedef struct CPUIDRegs {
   uint32 eax, ebx, ecx, edx;
} CPUIDRegs;

typedef union CPUIDRegsUnion {
   uint32 array[4];
   CPUIDRegs regs;
} CPUIDRegsUnion;

/*
 * Results of calling cpuid(eax, ecx) on all host logical CPU.
 */
#ifdef _MSC_VER
#pragma warning (disable :4200) // non-std extension: zero-sized array in struct
#endif

typedef
#include "vmware_pack_begin.h"
struct CPUIDReply {
   /*
    * Unique host logical CPU identifier. It does not change across queries, so
    * we use it to correlate the replies of multiple queries.
    */
   uint64 tag;                // OUT

   CPUIDRegs regs;            // OUT
}
#include "vmware_pack_end.h"
CPUIDReply;

typedef
#include "vmware_pack_begin.h"
struct CPUIDQuery {
   uint32 eax;                // IN
   uint32 ecx;                // IN
   uint32 numLogicalCPUs;     // IN/OUT
   CPUIDReply logicalCPUs[0]; // OUT
}
#include "vmware_pack_end.h"
CPUIDQuery;

/*
 * CPUID levels the monitor caches.
 *
 * The first parameter defines whether the level has its default masks
 * generated from the values in this file.  Any level which is marked
 * as FALSE here *must* have all monitor support types set to NA.  A
 * static assert in lib/cpuidcompat/cpuidcompat.c will check this.
 *
 * The fourth parameter is a "sub leaf count", where 0 means that ecx
 * is ignored, otherwise is the count of sub-leaves cached/supported.
 */

#define CPUID_CACHED_LEVELS                         \
   CPUIDLEVEL(TRUE,  0,   0,          0)            \
   CPUIDLEVEL(TRUE,  1,   1,          0)            \
   CPUIDLEVEL(FALSE, 2,   2,          0)            \
   CPUIDLEVEL(FALSE, 4,   4,          7)            \
   CPUIDLEVEL(FALSE, 5,   5,          0)            \
   CPUIDLEVEL(FALSE, 6,   6,          0)            \
   CPUIDLEVEL(TRUE,  7,   7,          1)            \
   CPUIDLEVEL(FALSE, A,   0xA,        0)            \
   CPUIDLEVEL(FALSE, B,   0xB,        2)            \
   CPUIDLEVEL(TRUE,  D,   0xD,        4)            \
   CPUIDLEVEL(FALSE, 400, 0x40000000, 0)            \
   CPUIDLEVEL(FALSE, 401, 0x40000001, 0)            \
   CPUIDLEVEL(FALSE, 402, 0x40000002, 0)            \
   CPUIDLEVEL(FALSE, 403, 0x40000003, 0)            \
   CPUIDLEVEL(FALSE, 404, 0x40000004, 0)            \
   CPUIDLEVEL(FALSE, 405, 0x40000005, 0)            \
   CPUIDLEVEL(FALSE, 406, 0x40000006, 0)            \
   CPUIDLEVEL(FALSE, 410, 0x40000010, 0)            \
   CPUIDLEVEL(FALSE, 80,  0x80000000, 0)            \
   CPUIDLEVEL(TRUE,  81,  0x80000001, 0)            \
   CPUIDLEVEL(FALSE, 82,  0x80000002, 0)            \
   CPUIDLEVEL(FALSE, 83,  0x80000003, 0)            \
   CPUIDLEVEL(FALSE, 84,  0x80000004, 0)            \
   CPUIDLEVEL(FALSE, 85,  0x80000005, 0)            \
   CPUIDLEVEL(FALSE, 86,  0x80000006, 0)            \
   CPUIDLEVEL(FALSE, 87,  0x80000007, 0)            \
   CPUIDLEVEL(FALSE, 88,  0x80000008, 0)            \
   CPUIDLEVEL(TRUE,  8A,  0x8000000A, 0)            \
   CPUIDLEVEL(FALSE, 819, 0x80000019, 0)            \
   CPUIDLEVEL(FALSE, 81A, 0x8000001A, 0)            \
   CPUIDLEVEL(FALSE, 81B, 0x8000001B, 0)            \
   CPUIDLEVEL(FALSE, 81C, 0x8000001C, 0)            \
   CPUIDLEVEL(FALSE, 81D, 0x8000001D, 5)            \
   CPUIDLEVEL(FALSE, 81E, 0x8000001E, 0)

#define CPUID_ALL_LEVELS CPUID_CACHED_LEVELS

/* Define cached CPUID levels in the form: CPUID_LEVEL_<ShortName> */
typedef enum {
#define CPUIDLEVEL(t, s, v, c) CPUID_LEVEL_##s,
   CPUID_CACHED_LEVELS
#undef CPUIDLEVEL
   CPUID_NUM_CACHED_LEVELS
} CpuidCachedLevel;

/* Enum to translate between shorthand name and actual CPUID level value. */
enum {
#define CPUIDLEVEL(t, s, v, c) CPUID_LEVEL_VAL_##s = v,
   CPUID_ALL_LEVELS
#undef CPUIDLEVEL
};


/* Named feature leaves */
#define CPUID_FEATURE_INFORMATION  0x01
#define CPUID_PROCESSOR_TOPOLOGY   4
#define CPUID_MWAIT_FEATURES       5
#define CPUID_XSAVE_FEATURES       0xd
#define CPUID_HYPERVISOR_LEVEL_0   0x40000000
#define CPUID_SVM_FEATURES         0x8000000a


/*
 * CPUID result registers
 */

#define CPUID_REGS                              \
   CPUIDREG(EAX, eax)                           \
   CPUIDREG(EBX, ebx)                           \
   CPUIDREG(ECX, ecx)                           \
   CPUIDREG(EDX, edx)

typedef enum {
#define CPUIDREG(uc, lc) CPUID_REG_##uc,
   CPUID_REGS
#undef CPUIDREG
   CPUID_NUM_REGS
} CpuidReg;

#define CPUID_INTEL_VENDOR_STRING       "GenuntelineI"
#define CPUID_AMD_VENDOR_STRING         "AuthcAMDenti"
#define CPUID_CYRIX_VENDOR_STRING       "CyriteadxIns"
#define CPUID_VIA_VENDOR_STRING         "CentaulsaurH"

#define CPUID_HYPERV_HYPERVISOR_VENDOR_STRING  "Microsoft Hv"
#define CPUID_KVM_HYPERVISOR_VENDOR_STRING     "KVMKVMKVM\0\0\0"
#define CPUID_VMWARE_HYPERVISOR_VENDOR_STRING  "VMwareVMware"
#define CPUID_XEN_HYPERVISOR_VENDOR_STRING     "XenVMMXenVMM"

#define CPUID_INTEL_VENDOR_STRING_FIXED "GenuineIntel"
#define CPUID_AMD_VENDOR_STRING_FIXED   "AuthenticAMD"
#define CPUID_CYRIX_VENDOR_STRING_FIXED "CyrixInstead"
#define CPUID_VIA_VENDOR_STRING_FIXED   "CentaurHauls"

/*
 * FIELD can be defined to process the CPUID information provided
 * in the following CPUID_FIELD_DATA macro.  The first parameter is
 * the CPUID level of the feature (must be defined in
 * CPUID_ALL_LEVELS, above.  The second parameter is the CPUID result
 * register in which the field is returned (defined in CPUID_REGS).
 * The third field is the vendor(s) this feature applies to.  "COMMON"
 * means all vendors apply.  UNKNOWN may not be used here.  The fourth
 * and fifth parameters are the bit position of the field and the
 * width, respectively.  The sixth is the text name of the field.
 *
 * The seventh parameters specifies the monitor support
 * characteristics for this field.  The value must be a valid
 * CpuidFieldSupported value (omitting CPUID_FIELD_SUPPORT_ for
 * convenience).  The meaning of those values are described below.
 *
 * The eighth parameter describes whether the feature is capable of
 * being used by usermode code (TRUE), or just CPL0 kernel code
 * (FALSE).
 *
 * FLAG is defined identically to FIELD, but its accessors are more
 * appropriate for 1-bit flags, and compile-time asserts enforce that
 * the size is 1 bit wide.
 */


/*
 * CpuidFieldSupported is made up of the following values:
 *
 *     NO: A feature/field that IS NOT SUPPORTED by the monitor.  Even
 *     if the host supports this feature, we will never expose it to
 *     the guest.
 *
 *     YES: A feature/field that IS SUPPORTED by the monitor.  If the
 *     host supports this feature, we will expose it to the guest.  If
 *     not, then we will not set the feature.
 *
 *     ANY: A feature/field that IS ALWAYS SUPPORTED by the monitor.
 *     Even if the host does not support the feature, the monitor can
 *     expose the feature to the guest. As with "YES", the guest cpuid
 *     value defaults to the host/evc cpuid value.  But usually the
 *     guest cpuid value is recomputed at power on, ignoring the default
 *     value.
 *
 *
 *     NA: Only legal for levels not masked/tested by default (see
 *     above for this definition).  Such fields must always be marked
 *     as NA.
 *
 * These distinctions, when combined with the feature's CPL3
 * properties can be translated into a common CPUID mask string as
 * follows:
 *
 *     NO + CPL3 --> "R" (Reserved).  We don't support the feature,
 *     but we can't properly hide this from applications when using
 *     direct execution or HV with apps that do try/catch/fail, so we
 *     must still perform compatibility checks.
 *
 *     NO + !CPL3 --> "0" (Masked).  We can hide this from the guest.
 *
 *     YES --> "H" (Host).  We support the feature, so show it to the
 *     guest if the host has the feature.
 *
 *     ANY/NA --> "X" (Ignore).  By default, don't perform checks for
 *     this feature bit.  Per-GOS masks may choose to set this bit in
 *     the guest.  (e.g. the APIC feature bit is always set to 1.)
 *
 *     See lib/cpuidcompat/cpuidcompat.c for any possible overrides to
 *     these defaults.
 */
typedef enum {
   CPUID_FIELD_SUPPORTED_NO,
   CPUID_FIELD_SUPPORTED_YES,
   CPUID_FIELD_SUPPORTED_ANY,
   CPUID_FIELD_SUPPORTED_NA,
   CPUID_NUM_FIELD_SUPPORTEDS
} CpuidFieldSupported;

/*    LEVEL, SUB-LEVEL, REG, POS, SIZE, NAME,                  MON SUPP, CPL3 */
#define CPUID_FIELD_DATA_LEVEL_0                                                \
FIELD(  0,  0, EAX,  0, 32, NUMLEVELS,                             ANY, FALSE) \
FIELD(  0,  0, EBX,  0, 32, VENDOR1,                               YES, TRUE)  \
FIELD(  0,  0, ECX,  0, 32, VENDOR3,                               YES, TRUE)  \
FIELD(  0,  0, EDX,  0, 32, VENDOR2,                               YES, TRUE)

/*    LEVEL, SUB-LEVEL, REG, POS, SIZE, NAME,                  MON SUPP, CPL3 */
#define CPUID_FIELD_DATA_LEVEL_1                                                \
FIELD(  1,  0, EAX,  0,  4, STEPPING,                              ANY, FALSE) \
FIELD(  1,  0, EAX,  4,  4, MODEL,                                 ANY, FALSE) \
FIELD(  1,  0, EAX,  8,  4, FAMILY,                                YES, FALSE) \
FIELD(  1,  0, EAX, 12,  2, TYPE,                                  ANY, FALSE) \
FIELD(  1,  0, EAX, 16,  4, EXTENDED_MODEL,                        ANY, FALSE) \
FIELD(  1,  0, EAX, 20,  8, EXTENDED_FAMILY,                       YES, FALSE) \
FIELD(  1,  0, EBX,  0,  8, BRAND_ID,                              ANY, FALSE) \
FIELD(  1,  0, EBX,  8,  8, CLFL_SIZE,                             ANY, FALSE) \
FIELD(  1,  0, EBX, 16,  8, LCPU_COUNT,                            ANY, FALSE) \
FIELD(  1,  0, EBX, 24,  8, APICID,                                ANY, FALSE) \
FLAG(   1,  0, ECX,  0,  1, SSE3,                                  YES, TRUE)  \
FLAG(   1,  0, ECX,  1,  1, PCLMULQDQ,                             YES, TRUE)  \
FLAG(   1,  0, ECX,  2,  1, DTES64,                                NO,  FALSE) \
FLAG(   1,  0, ECX,  3,  1, MWAIT,                                 YES, FALSE) \
FLAG(   1,  0, ECX,  4,  1, DSCPL,                                 NO,  FALSE) \
FLAG(   1,  0, ECX,  5,  1, VMX,                                   YES, FALSE) \
FLAG(   1,  0, ECX,  6,  1, SMX,                                   NO,  FALSE) \
FLAG(   1,  0, ECX,  7,  1, EIST,                                  NO,  FALSE) \
FLAG(   1,  0, ECX,  8,  1, TM2,                                   NO,  FALSE) \
FLAG(   1,  0, ECX,  9,  1, SSSE3,                                 YES, TRUE)  \
FLAG(   1,  0, ECX, 10,  1, CNXTID,                                NO,  FALSE) \
FLAG(   1,  0, ECX, 11,  1, SDBG,                                  NO,  FALSE) \
FLAG(   1,  0, ECX, 12,  1, FMA,                                   YES, TRUE)  \
FLAG(   1,  0, ECX, 13,  1, CMPXCHG16B,                            YES, TRUE)  \
FLAG(   1,  0, ECX, 14,  1, xTPR,                                  NO,  FALSE) \
FLAG(   1,  0, ECX, 15,  1, PDCM,                                  NO,  FALSE) \
FLAG(   1,  0, ECX, 17,  1, PCID,                                  YES, FALSE) \
FLAG(   1,  0, ECX, 18,  1, DCA,                                   NO,  FALSE) \
FLAG(   1,  0, ECX, 19,  1, SSE41,                                 YES, TRUE)  \
FLAG(   1,  0, ECX, 20,  1, SSE42,                                 YES, TRUE)  \
FLAG(   1,  0, ECX, 21,  1, x2APIC,                                ANY, FALSE) \
FLAG(   1,  0, ECX, 22,  1, MOVBE,                                 YES, TRUE)  \
FLAG(   1,  0, ECX, 23,  1, POPCNT,                                YES, TRUE)  \
FLAG(   1,  0, ECX, 24,  1, TSC_DEADLINE,                          ANY, FALSE) \
FLAG(   1,  0, ECX, 25,  1, AES,                                   YES, TRUE)  \
FLAG(   1,  0, ECX, 26,  1, XSAVE,                                 YES, FALSE) \
FLAG(   1,  0, ECX, 27,  1, OSXSAVE,                               ANY, FALSE) \
FLAG(   1,  0, ECX, 28,  1, AVX,                                   YES, FALSE) \
FLAG(   1,  0, ECX, 29,  1, F16C,                                  YES, TRUE)  \
FLAG(   1,  0, ECX, 30,  1, RDRAND,                                YES, TRUE)  \
FLAG(   1,  0, ECX, 31,  1, HYPERVISOR,                            ANY, TRUE)  \
FLAG(   1,  0, EDX,  0,  1, FPU,                                   YES, TRUE)  \
FLAG(   1,  0, EDX,  1,  1, VME,                                   YES, FALSE) \
FLAG(   1,  0, EDX,  2,  1, DE,                                    YES, FALSE) \
FLAG(   1,  0, EDX,  3,  1, PSE,                                   YES, FALSE) \
FLAG(   1,  0, EDX,  4,  1, TSC,                                   YES, TRUE)  \
FLAG(   1,  0, EDX,  5,  1, MSR,                                   YES, FALSE) \
FLAG(   1,  0, EDX,  6,  1, PAE,                                   YES, FALSE) \
FLAG(   1,  0, EDX,  7,  1, MCE,                                   YES, FALSE) \
FLAG(   1,  0, EDX,  8,  1, CX8,                                   YES, TRUE)  \
FLAG(   1,  0, EDX,  9,  1, APIC,                                  ANY, FALSE) \
FLAG(   1,  0, EDX, 11,  1, SEP,                                   YES, TRUE)  \
FLAG(   1,  0, EDX, 12,  1, MTRR,                                  YES, FALSE) \
FLAG(   1,  0, EDX, 13,  1, PGE,                                   YES, FALSE) \
FLAG(   1,  0, EDX, 14,  1, MCA,                                   YES, FALSE) \
FLAG(   1,  0, EDX, 15,  1, CMOV,                                  YES, TRUE)  \
FLAG(   1,  0, EDX, 16,  1, PAT,                                   YES, FALSE) \
FLAG(   1,  0, EDX, 17,  1, PSE36,                                 YES, FALSE) \
FLAG(   1,  0, EDX, 18,  1, PSN,                                   YES, FALSE) \
FLAG(   1,  0, EDX, 19,  1, CLFSH,                                 YES, TRUE)  \
FLAG(   1,  0, EDX, 21,  1, DS,                                    YES, FALSE) \
FLAG(   1,  0, EDX, 22,  1, ACPI,                                  ANY, FALSE) \
FLAG(   1,  0, EDX, 23,  1, MMX,                                   YES, TRUE)  \
FLAG(   1,  0, EDX, 24,  1, FXSR,                                  YES, TRUE)  \
FLAG(   1,  0, EDX, 25,  1, SSE,                                   YES, TRUE)  \
FLAG(   1,  0, EDX, 26,  1, SSE2,                                  YES, TRUE)  \
FLAG(   1,  0, EDX, 27,  1, SS,                                    YES, FALSE) \
FLAG(   1,  0, EDX, 28,  1, HTT,                                   ANY, FALSE) \
FLAG(   1,  0, EDX, 29,  1, TM,                                    NO,  FALSE) \
FLAG(   1,  0, EDX, 30,  1, IA64,                                  NO,  FALSE) \
FLAG(   1,  0, EDX, 31,  1, PBE,                                   NO,  FALSE)

/*    LEVEL, SUB-LEVEL, REG, POS, SIZE, NAME,                  MON SUPP, CPL3 */
#define CPUID_FIELD_DATA_LEVEL_2                                               \
FIELD(  2,  0, EAX,  0,  8, LEAF2_COUNT,                           NA, FALSE)  \
FIELD(  2,  0, EAX,  8,  8, LEAF2_CACHE1,                          NA, FALSE)  \
FIELD(  2,  0, EAX, 16,  8, LEAF2_CACHE2,                          NA, FALSE)  \
FIELD(  2,  0, EAX, 24,  8, LEAF2_CACHE3,                          NA, FALSE)  \
FIELD(  2,  0, EBX,  0,  8, LEAF2_CACHE4,                          NA, FALSE)  \
FIELD(  2,  0, EBX,  8,  8, LEAF2_CACHE5,                          NA, FALSE)  \
FIELD(  2,  0, EBX, 16,  8, LEAF2_CACHE6,                          NA, FALSE)  \
FIELD(  2,  0, EBX, 24,  8, LEAF2_CACHE7,                          NA, FALSE)  \
FIELD(  2,  0, ECX,  0,  8, LEAF2_CACHE8,                          NA, FALSE)  \
FIELD(  2,  0, ECX,  8,  8, LEAF2_CACHE9,                          NA, FALSE)  \
FIELD(  2,  0, ECX, 16,  8, LEAF2_CACHE10,                         NA, FALSE)  \
FIELD(  2,  0, ECX, 24,  8, LEAF2_CACHE11,                         NA, FALSE)  \
FIELD(  2,  0, EDX,  0,  8, LEAF2_CACHE12,                         NA, FALSE)  \
FIELD(  2,  0, EDX,  8,  8, LEAF2_CACHE13,                         NA, FALSE)  \
FIELD(  2,  0, EDX, 16,  8, LEAF2_CACHE14,                         NA, FALSE)  \
FIELD(  2,  0, EDX, 24,  8, LEAF2_CACHE15,                         NA, FALSE)  \

/*    LEVEL, SUB-LEVEL, REG, POS, SIZE, NAME,                  MON SUPP, CPL3 */
#define CPUID_FIELD_DATA_LEVEL_4                                                \
FIELD(  4,  0, EAX,  0,  5, LEAF4_CACHE_TYPE,                      NA,  FALSE) \
FIELD(  4,  0, EAX,  5,  3, LEAF4_CACHE_LEVEL,                     NA,  FALSE) \
FLAG(   4,  0, EAX,  8,  1, LEAF4_CACHE_SELF_INIT,                 NA,  FALSE) \
FLAG(   4,  0, EAX,  9,  1, LEAF4_CACHE_FULLY_ASSOC,               NA,  FALSE) \
FIELD(  4,  0, EAX, 14, 12, LEAF4_CACHE_NUMHT_SHARING,             NA,  FALSE) \
FIELD(  4,  0, EAX, 26,  6, LEAF4_CORE_COUNT,                      NA,  FALSE) \
FIELD(  4,  0, EBX,  0, 12, LEAF4_CACHE_LINE,                      NA,  FALSE) \
FIELD(  4,  0, EBX, 12, 10, LEAF4_CACHE_PART,                      NA,  FALSE) \
FIELD(  4,  0, EBX, 22, 10, LEAF4_CACHE_WAYS,                      NA,  FALSE) \
FIELD(  4,  0, ECX,  0, 32, LEAF4_CACHE_SETS,                      NA,  FALSE) \
FLAG(   4,  0, EDX,  0,  1, LEAF4_CACHE_WBINVD_NOT_GUARANTEED,     NA,  FALSE) \
FLAG(   4,  0, EDX,  1,  1, LEAF4_CACHE_IS_INCLUSIVE,              NA,  FALSE) \
FLAG(   4,  0, EDX,  2,  1, LEAF4_CACHE_COMPLEX_INDEXING,          NA,  FALSE)

/*     LEVEL, SUB-LEVEL, REG, POS, SIZE, NAME,                 MON SUPP, CPL3 */
#define CPUID_FIELD_DATA_LEVEL_5                                                \
FIELD(  5,  0, EAX,  0, 16, MWAIT_MIN_SIZE,                        NA,  FALSE) \
FIELD(  5,  0, EBX,  0, 16, MWAIT_MAX_SIZE,                        NA,  FALSE) \
FLAG(   5,  0, ECX,  0,  1, MWAIT_EXTENSIONS,                      NA,  FALSE) \
FLAG(   5,  0, ECX,  1,  1, MWAIT_INTR_BREAK,                      NA,  FALSE) \
FIELD(  5,  0, EDX,  0,  4, MWAIT_C0_SUBSTATE,                     NA,  FALSE) \
FIELD(  5,  0, EDX,  4,  4, MWAIT_C1_SUBSTATE,                     NA,  FALSE) \
FIELD(  5,  0, EDX,  8,  4, MWAIT_C2_SUBSTATE,                     NA,  FALSE) \
FIELD(  5,  0, EDX, 12,  4, MWAIT_C3_SUBSTATE,                     NA,  FALSE) \
FIELD(  5,  0, EDX, 16,  4, MWAIT_C4_SUBSTATE,                     NA,  FALSE)

/*    LEVEL, SUB-LEVEL, REG, POS, SIZE, NAME,                  MON SUPP, CPL3 */
#define CPUID_FIELD_DATA_LEVEL_6                                                \
FLAG(   6,  0, EAX,  0,  1, THERMAL_SENSOR,                        NA,  FALSE) \
FLAG(   6,  0, EAX,  1,  1, TURBO_MODE,                            NA,  FALSE) \
FLAG(   6,  0, EAX,  2,  1, APIC_INVARIANT,                        NA,  FALSE) \
FLAG(   6,  0, EAX,  4,  1, PLN,                                   NA,  FALSE) \
FLAG(   6,  0, EAX,  5,  1, ECMD,                                  NA,  FALSE) \
FLAG(   6,  0, EAX,  6,  1, PTM,                                   NA,  FALSE) \
FLAG(   6,  0, EAX,  7,  1, HWP,                                   NA,  FALSE) \
FLAG(   6,  0, EAX,  8,  1, HWP_NOTIFICATION,                      NA,  FALSE) \
FLAG(   6,  0, EAX,  9,  1, HWP_ACTIVITY_WINDOW,                   NA,  FALSE) \
FLAG(   6,  0, EAX, 10,  1, HWP_ENERGY_PERFORMANCE_PREFERENCE,     NA,  FALSE) \
FLAG(   6,  0, EAX, 11,  1, HWP_PACKAGE_LEVEL_REQUEST,             NA,  FALSE) \
FLAG(   6,  0, EAX, 13,  1, HDC,                                   NA,  FALSE) \
FIELD(  6,  0, EBX,  0,  4, NUM_INTR_THRESHOLDS,                   NA,  FALSE) \
FLAG(   6,  0, ECX,  0,  1, HW_COORD_FEEDBACK,                     NA,  FALSE) \
FLAG(   6,  0, ECX,  3,  1, ENERGY_PERF_BIAS,                      NA,  FALSE)


/*    LEVEL, SUB-LEVEL, REG, POS, SIZE, NAME,                  MON SUPP, CPL3 */
#define CPUID_FIELD_DATA_LEVEL_7                                                \
FLAG(   7,  0, EBX,  0,  1, FSGSBASE,                              YES, FALSE) \
FLAG(   7,  0, EBX,  1,  1, TSC_ADJUST,                            ANY, FALSE) \
FLAG(   7,  0, EBX,  3,  1, BMI1,                                  YES, TRUE)  \
FLAG(   7,  0, EBX,  4,  1, HLE,                                   YES, TRUE)  \
FLAG(   7,  0, EBX,  5,  1, AVX2,                                  YES, TRUE)  \
FLAG(   7,  0, EBX,  7,  1, SMEP,                                  YES, FALSE) \
FLAG(   7,  0, EBX,  8,  1, BMI2,                                  YES, TRUE)  \
FLAG(   7,  0, EBX,  9,  1, ENFSTRG,                               YES, FALSE) \
FLAG(   7,  0, EBX, 10,  1, INVPCID,                               YES, FALSE) \
FLAG(   7,  0, EBX, 11,  1, RTM,                                   YES, TRUE)  \
FLAG(   7,  0, EBX, 12,  1, PQM,                                   NO,  FALSE) \
FLAG(   7,  0, EBX, 13,  1, FP_SEGMENT_ZERO,                       ANY, TRUE)  \
FLAG(   7,  0, EBX, 15,  1, PQE,                                   NO,  FALSE) \
FLAG(   7,  0, EBX, 18,  1, RDSEED,                                YES, TRUE)  \
FLAG(   7,  0, EBX, 19,  1, ADX,                                   YES, TRUE)  \
FLAG(   7,  0, EBX, 20,  1, SMAP,                                  YES, FALSE)


/*    LEVEL, SUB-LEVEL, REG, POS, SIZE, NAME,                  MON SUPP, CPL3 */
#define CPUID_FIELD_DATA_LEVEL_A                                                \
FIELD(  A,  0, EAX,  0,  8, PMC_VERSION,                           NA,  FALSE) \
FIELD(  A,  0, EAX,  8,  8, PMC_NUM_GEN,                           NA,  FALSE) \
FIELD(  A,  0, EAX, 16,  8, PMC_WIDTH_GEN,                         NA,  FALSE) \
FIELD(  A,  0, EAX, 24,  8, PMC_EBX_LENGTH,                        NA,  FALSE) \
FLAG(   A,  0, EBX,  0,  1, PMC_CORE_CYCLES,                       NA,  FALSE) \
FLAG(   A,  0, EBX,  1,  1, PMC_INSTR_RETIRED,                     NA,  FALSE) \
FLAG(   A,  0, EBX,  2,  1, PMC_REF_CYCLES,                        NA,  FALSE) \
FLAG(   A,  0, EBX,  3,  1, PMC_LAST_LVL_CREF,                     NA,  FALSE) \
FLAG(   A,  0, EBX,  4,  1, PMC_LAST_LVL_CMISS,                    NA,  FALSE) \
FLAG(   A,  0, EBX,  5,  1, PMC_BR_INST_RETIRED,                   NA,  FALSE) \
FLAG(   A,  0, EBX,  6,  1, PMC_BR_MISS_RETIRED,                   NA,  FALSE) \
FIELD(  A,  0, EDX,  0,  5, PMC_NUM_FIXED,                         NA,  FALSE) \
FIELD(  A,  0, EDX,  5,  8, PMC_WIDTH_FIXED,                       NA,  FALSE)

/*    LEVEL, SUB-LEVEL, REG, POS, SIZE, NAME,                  MON SUPP, CPL3 */
#define CPUID_FIELD_DATA_LEVEL_B                                                \
FIELD(  B,  0, EAX,  0,  5, TOPOLOGY_MASK_WIDTH,                   NA,  FALSE) \
FIELD(  B,  0, EBX,  0, 16, TOPOLOGY_CPUS_SHARING_LEVEL,           NA,  FALSE) \
FIELD(  B,  0, ECX,  0,  8, TOPOLOGY_LEVEL_NUMBER,                 NA,  FALSE) \
FIELD(  B,  0, ECX,  8,  8, TOPOLOGY_LEVEL_TYPE,                   NA,  FALSE) \
FIELD(  B,  0, EDX,  0, 32, TOPOLOGY_X2APIC_ID,                    NA,  FALSE)

/*    LEVEL, SUB-LEVEL, REG, POS, SIZE, NAME,                  MON SUPP, CPL3 */
#define CPUID_FIELD_DATA_LEVEL_D                                                \
FLAG(   D,  0, EAX,  0,  1, XCR0_MASTER_LEGACY_FP,                 YES, FALSE) \
FLAG(   D,  0, EAX,  1,  1, XCR0_MASTER_SSE,                       YES, FALSE) \
FLAG(   D,  0, EAX,  2,  1, XCR0_MASTER_YMM_H,                     YES, FALSE) \
FIELD(  D,  0, EAX,  3, 29, XCR0_MASTER_LOWER,                     NO,  FALSE) \
FIELD(  D,  0, EBX,  0, 32, XSAVE_ENABLED_SIZE,                    ANY, FALSE) \
FIELD(  D,  0, ECX,  0, 32, XSAVE_MAX_SIZE,                        YES, FALSE) \
FIELD(  D,  0, EDX,  0, 29, XCR0_MASTER_UPPER,                     NO,  FALSE) \
FLAG(   D,  0, EDX, 30,  1, XCR0_MASTER_LWP,                       NO,  FALSE) \
FLAG(   D,  0, EDX, 31,  1, XCR0_MASTER_EXTENDED_XSAVE,            NO,  FALSE) \
FLAG(   D,  1, EAX,  0,  1, XSAVEOPT,                              YES, FALSE) \
FLAG(   D,  1, EAX,  1,  1, XSAVEC,                                NO,  FALSE) \
FLAG(   D,  1, EAX,  2,  1, XGETBV_ECX1,                           NO,  FALSE) \
FLAG(   D,  1, EAX,  3,  1, XSAVES,                                NO,  FALSE) \
FIELD(  D,  1, EBX,  0, 32, XSAVE_XSS_SIZE,                        NO,  FALSE) \
FIELD(  D,  1, ECX,  0, 32, XSS_LOWER,                             NO,  FALSE) \
FIELD(  D,  1, EDX,  0, 32, XSS_UPPER,                             NO,  FALSE) \
FIELD(  D,  2, EAX,  0, 32, XSAVE_YMM_SIZE,                        YES, FALSE) \
FIELD(  D,  2, EBX,  0, 32, XSAVE_YMM_OFFSET,                      YES, FALSE) \
FIELD(  D,  2, ECX,  0, 32, XSAVE_YMM_RSVD1,                       YES, FALSE) \
FIELD(  D,  2, EDX,  0, 32, XSAVE_YMM_RSVD2,                       YES, FALSE) \
FIELD(  D, 62, EAX,  0, 32, XSAVE_LWP_SIZE,                        NO,  FALSE) \
FIELD(  D, 62, EBX,  0, 32, XSAVE_LWP_OFFSET,                      NO,  FALSE) \
FIELD(  D, 62, ECX,  0, 32, XSAVE_LWP_RSVD1,                       NO,  FALSE) \
FIELD(  D, 62, EDX,  0, 32, XSAVE_LWP_RSVD2,                       NO,  FALSE)


/*    LEVEL, SUB-LEVEL, REG, POS, SIZE, NAME,                  MON SUPP, CPL3 */
#define CPUID_FIELD_DATA_LEVEL_400                                              \
FIELD(400,  0, EAX,  0, 32, NUM_HYP_LEVELS,                        NA,  FALSE) \
FIELD(400,  0, EBX,  0, 32, HYPERVISOR1,                           NA,  FALSE) \
FIELD(400,  0, ECX,  0, 32, HYPERVISOR2,                           NA,  FALSE) \
FIELD(400,  0, EDX,  0, 32, HYPERVISOR3,                           NA,  FALSE)

/*    LEVEL, SUB-LEVEL, REG, POS, SIZE, NAME,                  MON SUPP, CPL3 */
#define CPUID_FIELD_DATA_LEVEL_410                                              \
FIELD(410,  0, EAX,  0, 32, TSC_HZ,                                NA,  FALSE) \
FIELD(410,  0, EBX,  0, 32, ACPIBUS_HZ,                            NA,  FALSE)

/*    LEVEL, SUB-LEVEL, REG, POS, SIZE, NAME,                  MON SUPP, CPL3 */
#define CPUID_FIELD_DATA_LEVEL_80                                               \
FIELD( 80,  0, EAX,  0, 32, NUM_EXT_LEVELS,                        NA,  FALSE) \
FIELD( 80,  0, EBX,  0, 32, LEAF80_VENDOR1,                        NA,  FALSE) \
FIELD( 80,  0, ECX,  0, 32, LEAF80_VENDOR3,                        NA,  FALSE) \
FIELD( 80,  0, EDX,  0, 32, LEAF80_VENDOR2,                        NA,  FALSE)

/*    LEVEL, SUB-LEVEL, REG, POS, SIZE, NAME,                  MON SUPP, CPL3 */
#define CPUID_FIELD_DATA_LEVEL_81                                               \
FIELD( 81,  0, EAX,  0, 32, UNKNOWN81EAX,                          ANY, FALSE) \
FIELD( 81,  0, EAX,  0,  4, LEAF81_STEPPING,                       ANY, FALSE) \
FIELD( 81,  0, EAX,  4,  4, LEAF81_MODEL,                          ANY, FALSE) \
FIELD( 81,  0, EAX,  8,  4, LEAF81_FAMILY,                         ANY, FALSE) \
FIELD( 81,  0, EAX, 12,  2, LEAF81_TYPE,                           ANY, FALSE) \
FIELD( 81,  0, EAX, 16,  4, LEAF81_EXTENDED_MODEL,                 ANY, FALSE) \
FIELD( 81,  0, EAX, 20,  8, LEAF81_EXTENDED_FAMILY,                ANY, FALSE) \
FIELD( 81,  0, EBX,  0, 32, UNKNOWN81EBX,                          ANY, FALSE) \
FIELD( 81,  0, EBX,  0, 16, LEAF81_BRAND_ID,                       ANY, FALSE) \
FIELD( 81,  0, EBX, 16, 16, UNDEF,                                 ANY, FALSE) \
FLAG(  81,  0, ECX,  0,  1, LAHF64,                                YES, TRUE)  \
FLAG(  81,  0, ECX,  1,  1, CMPLEGACY,                             ANY, FALSE) \
FLAG(  81,  0, ECX,  2,  1, SVM,                                   YES, FALSE) \
FLAG(  81,  0, ECX,  3,  1, EXTAPICSPC,                            YES, FALSE) \
FLAG(  81,  0, ECX,  4,  1, CR8AVAIL,                              YES, FALSE) \
FLAG(  81,  0, ECX,  5,  1, ABM,                                   YES, TRUE)  \
FLAG(  81,  0, ECX,  6,  1, SSE4A,                                 YES, TRUE)  \
FLAG(  81,  0, ECX,  7,  1, MISALIGNED_SSE,                        YES, TRUE)  \
FLAG(  81,  0, ECX,  8,  1, 3DNPREFETCH,                           YES, TRUE)  \
FLAG(  81,  0, ECX,  9,  1, OSVW,                                  ANY, FALSE) \
FLAG(  81,  0, ECX, 10,  1, IBS,                                   NO,  FALSE) \
FLAG(  81,  0, ECX, 11,  1, XOP,                                   YES, TRUE)  \
FLAG(  81,  0, ECX, 12,  1, SKINIT,                                NO,  FALSE) \
FLAG(  81,  0, ECX, 13,  1, WATCHDOG,                              NO,  FALSE) \
FLAG(  81,  0, ECX, 15,  1, LWP,                                   NO,  FALSE) \
FLAG(  81,  0, ECX, 16,  1, FMA4,                                  YES, TRUE)  \
FLAG(  81,  0, ECX, 17,  1, TCE,                                   NO,  FALSE) \
FLAG(  81,  0, ECX, 19,  1, NODEID_MSR,                            NO,  FALSE) \
FLAG(  81,  0, ECX, 21,  1, TBM,                                   YES, TRUE)  \
FLAG(  81,  0, ECX, 22,  1, TOPOLOGY,                              NO,  FALSE) \
FLAG(  81,  0, ECX, 23,  1, PERFCORE,                              ANY, TRUE)  \
FLAG(  81,  0, EDX,  0,  1, LEAF81_FPU,                            YES, TRUE)  \
FLAG(  81,  0, EDX,  1,  1, LEAF81_VME,                            YES, FALSE) \
FLAG(  81,  0, EDX,  2,  1, LEAF81_DE,                             YES, FALSE) \
FLAG(  81,  0, EDX,  3,  1, LEAF81_PSE,                            YES, FALSE) \
FLAG(  81,  0, EDX,  4,  1, LEAF81_TSC,                            YES, TRUE)  \
FLAG(  81,  0, EDX,  5,  1, LEAF81_MSR,                            YES, FALSE) \
FLAG(  81,  0, EDX,  6,  1, LEAF81_PAE,                            YES, FALSE) \
FLAG(  81,  0, EDX,  7,  1, LEAF81_MCE,                            YES, FALSE) \
FLAG(  81,  0, EDX,  8,  1, LEAF81_CX8,                            YES, TRUE)  \
FLAG(  81,  0, EDX,  9,  1, LEAF81_APIC,                           ANY, FALSE) \
FLAG(  81,  0, EDX, 11,  1, SYSC,                                  ANY, TRUE)  \
FLAG(  81,  0, EDX, 12,  1, LEAF81_MTRR,                           YES, FALSE) \
FLAG(  81,  0, EDX, 13,  1, LEAF81_PGE,                            YES, FALSE) \
FLAG(  81,  0, EDX, 14,  1, LEAF81_MCA,                            YES, FALSE) \
FLAG(  81,  0, EDX, 15,  1, LEAF81_CMOV,                           YES, TRUE)  \
FLAG(  81,  0, EDX, 16,  1, LEAF81_PAT,                            YES, FALSE) \
FLAG(  81,  0, EDX, 17,  1, LEAF81_PSE36,                          YES, FALSE) \
FLAG(  81,  0, EDX, 20,  1, NX,                                    YES, FALSE) \
FLAG(  81,  0, EDX, 22,  1, MMXEXT,                                YES, TRUE)  \
FLAG(  81,  0, EDX, 23,  1, LEAF81_MMX,                            YES, TRUE)  \
FLAG(  81,  0, EDX, 24,  1, LEAF81_FXSR,                           YES, TRUE)  \
FLAG(  81,  0, EDX, 25,  1, FFXSR,                                 YES, FALSE) \
FLAG(  81,  0, EDX, 26,  1, PDPE1GB,                               YES, FALSE) \
FLAG(  81,  0, EDX, 27,  1, RDTSCP,                                YES, TRUE)  \
FLAG(  81,  0, EDX, 29,  1, LM,                                    YES, FALSE) \
FLAG(  81,  0, EDX, 30,  1, 3DNOWPLUS,                             YES, TRUE)  \
FLAG(  81,  0, EDX, 31,  1, 3DNOW,                                 YES, TRUE)

/*    LEVEL, SUB-LEVEL, REG, POS, SIZE, NAME,                  MON SUPP, CPL3 */
#define CPUID_FIELD_DATA_LEVEL_82                                              \
FIELD( 82,  0, EAX,  0, 32, LEAF82_BRAND_STRING_EAX,               NA,  FALSE) \
FIELD( 82,  0, EBX,  0, 32, LEAF82_BRAND_STRING_EBX,               NA,  FALSE) \
FIELD( 82,  0, ECX,  0, 32, LEAF82_BRAND_STRING_ECX,               NA,  FALSE) \
FIELD( 82,  0, EDX,  0, 32, LEAF82_BRAND_STRING_EDX,               NA,  FALSE)

/*    LEVEL, SUB-LEVEL, REG, POS, SIZE, NAME,                  MON SUPP, CPL3 */
#define CPUID_FIELD_DATA_LEVEL_83                                              \
FIELD( 83,  0, EAX,  0, 32, LEAF83_BRAND_STRING_EAX,               NA,  FALSE) \
FIELD( 83,  0, EBX,  0, 32, LEAF83_BRAND_STRING_EBX,               NA,  FALSE) \
FIELD( 83,  0, ECX,  0, 32, LEAF83_BRAND_STRING_ECX,               NA,  FALSE) \
FIELD( 83,  0, EDX,  0, 32, LEAF83_BRAND_STRING_EDX,               NA,  FALSE)

/*    LEVEL, SUB-LEVEL, REG, POS, SIZE, NAME,                  MON SUPP, CPL3 */
#define CPUID_FIELD_DATA_LEVEL_84                                              \
FIELD( 84,  0, EAX,  0, 32, LEAF84_BRAND_STRING_EAX,               NA,  FALSE) \
FIELD( 84,  0, EBX,  0, 32, LEAF84_BRAND_STRING_EBX,               NA,  FALSE) \
FIELD( 84,  0, ECX,  0, 32, LEAF84_BRAND_STRING_ECX,               NA,  FALSE) \
FIELD( 84,  0, EDX,  0, 32, LEAF84_BRAND_STRING_EDX,               NA,  FALSE)

#define CPUID_8A_EDX_11 \
FLAG(  8A,  0, EDX, 11,  1, SVMEDX_RSVD1,                          NO,  FALSE)
#define CPUID_8A_EDX_14_31 \
FIELD( 8A,  0, EDX, 14, 18, SVMEDX_RSVD2,                          NO,  FALSE)

/*    LEVEL, REG, POS, SIZE, NAME,                             MON SUPP, CPL3 */
#define CPUID_FIELD_DATA_LEVEL_8x                                               \
FIELD( 85,  0, EAX,  0,  8, ITLB_ENTRIES_2M4M_PGS,                 NA,  FALSE) \
FIELD( 85,  0, EAX,  8,  8, ITLB_ASSOC_2M4M_PGS,                   NA,  FALSE) \
FIELD( 85,  0, EAX, 16,  8, DTLB_ENTRIES_2M4M_PGS,                 NA,  FALSE) \
FIELD( 85,  0, EAX, 24,  8, DTLB_ASSOC_2M4M_PGS,                   NA,  FALSE) \
FIELD( 85,  0, EBX,  0,  8, ITLB_ENTRIES_4K_PGS,                   NA,  FALSE) \
FIELD( 85,  0, EBX,  8,  8, ITLB_ASSOC_4K_PGS,                     NA,  FALSE) \
FIELD( 85,  0, EBX, 16,  8, DTLB_ENTRIES_4K_PGS,                   NA,  FALSE) \
FIELD( 85,  0, EBX, 24,  8, DTLB_ASSOC_4K_PGS,                     NA,  FALSE) \
FIELD( 85,  0, ECX,  0,  8, L1_DCACHE_LINE_SIZE,                   NA,  FALSE) \
FIELD( 85,  0, ECX,  8,  8, L1_DCACHE_LINES_PER_TAG,               NA,  FALSE) \
FIELD( 85,  0, ECX, 16,  8, L1_DCACHE_ASSOC,                       NA,  FALSE) \
FIELD( 85,  0, ECX, 24,  8, L1_DCACHE_SIZE,                        NA,  FALSE) \
FIELD( 85,  0, EDX,  0,  8, L1_ICACHE_LINE_SIZE,                   NA,  FALSE) \
FIELD( 85,  0, EDX,  8,  8, L1_ICACHE_LINES_PER_TAG,               NA,  FALSE) \
FIELD( 85,  0, EDX, 16,  8, L1_ICACHE_ASSOC,                       NA,  FALSE) \
FIELD( 85,  0, EDX, 24,  8, L1_ICACHE_SIZE,                        NA,  FALSE) \
FIELD( 86,  0, EAX,  0, 12, L2_ITLB_ENTRIES_2M4M_PGS,              NA,  FALSE) \
FIELD( 86,  0, EAX, 12,  4, L2_ITLB_ASSOC_2M4M_PGS,                NA,  FALSE) \
FIELD( 86,  0, EAX, 16, 12, L2_DTLB_ENTRIES_2M4M_PGS,              NA,  FALSE) \
FIELD( 86,  0, EAX, 28,  4, L2_DTLB_ASSOC_2M4M_PGS,                NA,  FALSE) \
FIELD( 86,  0, EBX,  0, 12, L2_ITLB_ENTRIES_4K_PGS,                NA,  FALSE) \
FIELD( 86,  0, EBX, 12,  4, L2_ITLB_ASSOC_4K_PGS,                  NA,  FALSE) \
FIELD( 86,  0, EBX, 16, 12, L2_DTLB_ENTRIES_4K_PGS,                NA,  FALSE) \
FIELD( 86,  0, EBX, 28,  4, L2_DTLB_ASSOC_4K_PGS,                  NA,  FALSE) \
FIELD( 86,  0, ECX,  0,  8, L2CACHE_LINE,                          NA,  FALSE) \
FIELD( 86,  0, ECX,  8,  4, L2CACHE_LINE_PER_TAG,                  NA,  FALSE) \
FIELD( 86,  0, ECX, 12,  4, L2CACHE_WAYS,                          NA,  FALSE) \
FIELD( 86,  0, ECX, 16, 16, L2CACHE_SIZE,                          NA,  FALSE) \
FIELD( 86,  0, EDX,  0,  8, L3CACHE_LINE,                          NA,  FALSE) \
FIELD( 86,  0, EDX,  8,  4, L3CACHE_LINE_PER_TAG,                  NA,  FALSE) \
FIELD( 86,  0, EDX, 12,  4, L3CACHE_WAYS,                          NA,  FALSE) \
FIELD( 86,  0, EDX, 18, 14, L3CACHE_SIZE,                          NA,  FALSE) \
FLAG(  87,  0, EDX,  0,  1, TS,                                    NA,  FALSE) \
FLAG(  87,  0, EDX,  1,  1, FID,                                   NA,  FALSE) \
FLAG(  87,  0, EDX,  2,  1, VID,                                   NA,  FALSE) \
FLAG(  87,  0, EDX,  3,  1, TTP,                                   NA,  FALSE) \
FLAG(  87,  0, EDX,  4,  1, LEAF87_TM,                             NA,  FALSE) \
FLAG(  87,  0, EDX,  5,  1, STC,                                   NA,  FALSE) \
FLAG(  87,  0, EDX,  6,  1, 100MHZSTEPS,                           NA,  FALSE) \
FLAG(  87,  0, EDX,  7,  1, HWPSTATE,                              NA,  FALSE) \
FLAG(  87,  0, EDX,  8,  1, TSC_INVARIANT,                         NA,  FALSE) \
FLAG(  87,  0, EDX,  9,  1, CORE_PERF_BOOST,                       NA,  FALSE) \
FIELD( 88,  0, EAX,  0,  8, PHYS_BITS,                             NA,  FALSE) \
FIELD( 88,  0, EAX,  8,  8, VIRT_BITS,                             NA,  FALSE) \
FIELD( 88,  0, EAX, 16,  8, GUEST_PHYS_ADDR_SZ,                    NA,  FALSE) \
FIELD( 88,  0, ECX,  0,  8, LEAF88_CORE_COUNT,                     NA,  FALSE) \
FIELD( 88,  0, ECX, 12,  4, APICID_COREID_SIZE,                    NA,  FALSE) \
FIELD( 8A,  0, EAX,  0,  8, SVM_REVISION,                          YES, FALSE) \
FLAG(  8A,  0, EAX,  8,  1, SVM_HYPERVISOR,                        NO,  FALSE) \
FIELD( 8A,  0, EAX,  9, 23, SVMEAX_RSVD,                           NO,  FALSE) \
FIELD( 8A,  0, EBX,  0, 32, SVM_NUM_ASIDS,                         YES, FALSE) \
FIELD( 8A,  0, ECX,  0, 32, SVMECX_RSVD,                           NO,  FALSE) \
FLAG(  8A,  0, EDX,  0,  1, SVM_NPT,                               YES, FALSE) \
FLAG(  8A,  0, EDX,  1,  1, SVM_LBR,                               NO,  FALSE) \
FLAG(  8A,  0, EDX,  2,  1, SVM_LOCK,                              ANY, FALSE) \
FLAG(  8A,  0, EDX,  3,  1, SVM_NRIP,                              YES, FALSE) \
FLAG(  8A,  0, EDX,  4,  1, SVM_TSC_RATE_MSR,                      NO,  FALSE) \
FLAG(  8A,  0, EDX,  5,  1, SVM_VMCB_CLEAN,                        YES, FALSE) \
FLAG(  8A,  0, EDX,  6,  1, SVM_FLUSH_BY_ASID,                     YES, FALSE) \
FLAG(  8A,  0, EDX,  7,  1, SVM_DECODE_ASSISTS,                    YES, FALSE) \
FIELD( 8A,  0, EDX,  8,  2, SVMEDX_RSVD0,                          NO,  FALSE) \
FLAG(  8A,  0, EDX, 10,  1, SVM_PAUSE_FILTER,                      NO,  FALSE) \
CPUID_8A_EDX_11 \
FLAG(  8A,  0, EDX, 12,  1, SVM_PAUSE_THRESHOLD,                   NO,  FALSE) \
FLAG(  8A,  0, EDX, 13,  1, SVM_AVIC,                              NO,  FALSE) \
CPUID_8A_EDX_14_31

/*    LEVEL, SUB-LEVEL, REG, POS, SIZE, NAME,                  MON SUPP, CPL3 */
#define CPUID_FIELD_DATA_LEVEL_81x                                              \
FIELD(819,  0, EAX,  0, 12, L1_ITLB_ENTRIES_1G_PGS,                NA,  FALSE) \
FIELD(819,  0, EAX, 12,  4, L1_ITLB_ASSOC_1G_PGS,                  NA,  FALSE) \
FIELD(819,  0, EAX, 16, 12, L1_DTLB_ENTRIES_1G_PGS,                NA,  FALSE) \
FIELD(819,  0, EAX, 28,  4, L1_DTLB_ASSOC_1G_PGS,                  NA,  FALSE) \
FIELD(819,  0, EBX,  0, 12, L2_ITLB_ENTRIES_1G_PGS,                NA,  FALSE) \
FIELD(819,  0, EBX, 12,  4, L2_ITLB_ASSOC_1G_PGS,                  NA,  FALSE) \
FIELD(819,  0, EBX, 16, 12, L2_DTLB_ENTRIES_1G_PGS,                NA,  FALSE) \
FIELD(819,  0, EBX, 28,  4, L2_DTLB_ASSOC_1G_PGS,                  NA,  FALSE) \
FLAG( 81A,  0, EAX,  0,  1, FP128,                                 NA,  FALSE) \
FLAG( 81A,  0, EAX,  1,  1, MOVU,                                  NA,  FALSE) \
FLAG( 81B,  0, EAX,  0,  1, IBS_FFV,                               NA,  FALSE) \
FLAG( 81B,  0, EAX,  1,  1, IBS_FETCHSAM,                          NA,  FALSE) \
FLAG( 81B,  0, EAX,  2,  1, IBS_OPSAM,                             NA,  FALSE) \
FLAG( 81B,  0, EAX,  3,  1, RW_OPCOUNT,                            NA,  FALSE) \
FLAG( 81B,  0, EAX,  4,  1, OPCOUNT,                               NA,  FALSE) \
FLAG( 81B,  0, EAX,  5,  1, BRANCH_TARGET_ADDR,                    NA,  FALSE) \
FLAG( 81B,  0, EAX,  6,  1, OPCOUNT_EXT,                           NA,  FALSE) \
FLAG( 81B,  0, EAX,  7,  1, RIP_INVALID_CHECK,                     NA,  FALSE) \
FLAG( 81C,  0, EAX,  0,  1, LWP_AVAIL,                             NA,  FALSE) \
FLAG( 81C,  0, EAX,  1,  1, LWP_VAL_AVAIL,                         NA,  FALSE) \
FLAG( 81C,  0, EAX,  2,  1, LWP_IRE_AVAIL,                         NA,  FALSE) \
FLAG( 81C,  0, EAX,  3,  1, LWP_BRE_AVAIL,                         NA,  FALSE) \
FLAG( 81C,  0, EAX,  4,  1, LWP_DME_AVAIL,                         NA,  FALSE) \
FLAG( 81C,  0, EAX,  5,  1, LWP_CNH_AVAIL,                         NA,  FALSE) \
FLAG( 81C,  0, EAX,  6,  1, LWP_RNH_AVAIL,                         NA,  FALSE) \
FLAG( 81C,  0, EAX, 31,  1, LWP_INT_AVAIL,                         NA,  FALSE) \
FIELD(81C,  0, EBX,  0,  8, LWP_CB_SIZE,                           NA,  FALSE) \
FIELD(81C,  0, EBX,  8,  8, LWP_EVENT_SIZE,                        NA,  FALSE) \
FIELD(81C,  0, EBX, 16,  8, LWP_MAX_EVENTS,                        NA,  FALSE) \
FIELD(81C,  0, EBX, 24,  8, LWP_EVENT_OFFSET,                      NA,  FALSE) \
FIELD(81C,  0, ECX,  0,  4, LWP_LATENCY_MAX,                       NA,  FALSE) \
FLAG( 81C,  0, ECX,  5,  1, LWP_DATA_ADDR_VALID,                   NA,  FALSE) \
FIELD(81C,  0, ECX,  6,  3, LWP_LATENCY_ROUND,                     NA,  FALSE) \
FIELD(81C,  0, ECX,  9,  7, LWP_VERSION,                           NA,  FALSE) \
FIELD(81C,  0, ECX, 16,  8, LWP_MIN_BUF_SIZE,                      NA,  FALSE) \
FLAG( 81C,  0, ECX, 28,  1, LWP_BRANCH_PRED,                       NA,  FALSE) \
FLAG( 81C,  0, ECX, 29,  1, LWP_IP_FILTERING,                      NA,  FALSE) \
FLAG( 81C,  0, ECX, 30,  1, LWP_CACHE_LEVEL,                       NA,  FALSE) \
FLAG( 81C,  0, ECX, 31,  1, LWP_CACHE_LATENCY,                     NA,  FALSE) \
FLAG( 81C,  0, EDX,  0,  1, LWP_SUPPORTED,                         NA,  FALSE) \
FLAG( 81C,  0, EDX,  1,  1, LWP_VAL_SUPPORTED,                     NA,  FALSE) \
FLAG( 81C,  0, EDX,  2,  1, LWP_IRE_SUPPORTED,                     NA,  FALSE) \
FLAG( 81C,  0, EDX,  3,  1, LWP_BRE_SUPPORTED,                     NA,  FALSE) \
FLAG( 81C,  0, EDX,  4,  1, LWP_DME_SUPPORTED,                     NA,  FALSE) \
FLAG( 81C,  0, EDX,  5,  1, LWP_CNH_SUPPORTED,                     NA,  FALSE) \
FLAG( 81C,  0, EDX,  6,  1, LWP_RNH_SUPPORTED,                     NA,  FALSE) \
FLAG( 81C,  0, EDX, 31,  1, LWP_INT_SUPPORTED,                     NA,  FALSE) \
FIELD(81D,  0, EAX,  0,  5, LEAF81D_CACHE_TYPE,                    NA,  FALSE) \
FIELD(81D,  0, EAX,  5,  3, LEAF81D_CACHE_LEVEL,                   NA,  FALSE) \
FLAG( 81D,  0, EAX,  8,  1, LEAF81D_CACHE_SELF_INIT,               NA,  FALSE) \
FLAG( 81D,  0, EAX,  9,  1, LEAF81D_CACHE_FULLY_ASSOC,             NA,  FALSE) \
FIELD(81D,  0, EAX, 14, 12, LEAF81D_NUM_SHARING_CACHE,             NA,  FALSE) \
FIELD(81D,  0, EBX,  0, 12, LEAF81D_CACHE_LINE_SIZE,               NA,  FALSE) \
FIELD(81D,  0, EBX, 12, 10, LEAF81D_CACHE_PHYS_PARTITIONS,         NA,  FALSE) \
FIELD(81D,  0, EBX, 22, 10, LEAF81D_CACHE_WAYS,                    NA,  FALSE) \
FIELD(81D,  0, ECX,  0, 32, LEAF81D_CACHE_NUM_SETS,                NA,  FALSE) \
FLAG( 81D,  0, EDX,  0,  1, LEAF81D_CACHE_WBINVD,                  NA,  FALSE) \
FLAG( 81D,  0, EDX,  1,  1, LEAF81D_CACHE_INCLUSIVE,               NA,  FALSE) \
FIELD(81E,  0, EAX,  0, 32, EXTENDED_APICID,                       NA,  FALSE) \
FIELD(81E,  0, EBX,  0,  8, COMPUTE_UNIT_ID,                       NA,  FALSE) \
FIELD(81E,  0, EBX,  8,  2, CORES_PER_COMPUTE_UNIT,                NA,  FALSE) \
FIELD(81E,  0, ECX,  0,  8, NODEID_VAL,                            NA,  FALSE) \
FIELD(81E,  0, ECX,  8,  3, NODES_PER_PKG,                         NA,  FALSE)

#define INTEL_CPUID_FIELD_DATA

#define AMD_CPUID_FIELD_DATA

#define CPUID_FIELD_DATA                                              \
   CPUID_FIELD_DATA_LEVEL_0                                           \
   CPUID_FIELD_DATA_LEVEL_1                                           \
   CPUID_FIELD_DATA_LEVEL_2                                           \
   CPUID_FIELD_DATA_LEVEL_4                                           \
   CPUID_FIELD_DATA_LEVEL_5                                           \
   CPUID_FIELD_DATA_LEVEL_6                                           \
   CPUID_FIELD_DATA_LEVEL_7                                           \
   CPUID_FIELD_DATA_LEVEL_A                                           \
   CPUID_FIELD_DATA_LEVEL_B                                           \
   CPUID_FIELD_DATA_LEVEL_D                                           \
   CPUID_FIELD_DATA_LEVEL_400                                         \
   CPUID_FIELD_DATA_LEVEL_410                                         \
   CPUID_FIELD_DATA_LEVEL_80                                          \
   CPUID_FIELD_DATA_LEVEL_81                                          \
   CPUID_FIELD_DATA_LEVEL_82                                          \
   CPUID_FIELD_DATA_LEVEL_83                                          \
   CPUID_FIELD_DATA_LEVEL_84                                          \
   CPUID_FIELD_DATA_LEVEL_8x                                          \
   CPUID_FIELD_DATA_LEVEL_81x                                         \
   INTEL_CPUID_FIELD_DATA                                             \
   AMD_CPUID_FIELD_DATA

/*
 * Define all field and flag values as an enum.  The result is a full
 * set of values taken from the table above in the form:
 *
 * CPUID_<name>_MASK  == mask for feature/field
 * CPUID_<name>_SHIFT == offset of field
 *
 * e.g. - CPUID_VIRT_BITS_MASK  = 0xff00
 *      - CPUID_VIRT_BITS_SHIFT = 8
 *
 * Note: The MASK definitions must use some gymnastics to get
 * around a warning when shifting left by 32.
 */
#define VMW_BIT_MASK(shift)  (((1 << (shift - 1)) << 1) - 1)

#define FIELD(lvl, ecxIn, reg, bitpos, size, name, s, c3)      \
   CPUID_##name##_SHIFT        = bitpos,                       \
   CPUID_##name##_MASK         = VMW_BIT_MASK(size) << bitpos, \
   CPUID_INTERNAL_SHIFT_##name = bitpos,                       \
   CPUID_INTERNAL_MASK_##name  = VMW_BIT_MASK(size) << bitpos, \
   CPUID_INTERNAL_REG_##name   = CPUID_REG_##reg,              \
   CPUID_INTERNAL_EAXIN_##name = CPUID_LEVEL_VAL_##lvl,        \
   CPUID_INTERNAL_ECXIN_##name = ecxIn,

#define FLAG FIELD

enum {
   /* Define data for every CPUID field we have */
   CPUID_FIELD_DATA
};
#undef VMW_BIT_MASK
#undef FIELD
#undef FLAG

/*
 * Legal CPUID config file mask characters.  For a description of the
 * cpuid masking system, please see:
 *
 * http://vmweb.vmware.com/~mts/cgi-bin/view.cgi/Apps/CpuMigrationChecks
 */

#define CPUID_MASK_HIDE_CHR    '0'
#define CPUID_MASK_HIDE_STR    "0"
#define CPUID_MASK_FORCE_CHR   '1'
#define CPUID_MASK_FORCE_STR   "1"
#define CPUID_MASK_PASS_CHR    '-'
#define CPUID_MASK_PASS_STR    "-"
#define CPUID_MASK_TRUE_CHR    'T'
#define CPUID_MASK_TRUE_STR    "T"
#define CPUID_MASK_FALSE_CHR   'F'
#define CPUID_MASK_FALSE_STR   "F"
#define CPUID_MASK_IGNORE_CHR  'X'
#define CPUID_MASK_IGNORE_STR  "X"
#define CPUID_MASK_HOST_CHR    'H'
#define CPUID_MASK_HOST_STR    "H"
#define CPUID_MASK_RSVD_CHR    'R'
#define CPUID_MASK_RSVD_STR    "R"
#define CPUID_MASK_INSTALL_CHR 'I'
#define CPUID_MASK_INSTALL_STR "I"

/*
 * When LM is disabled, we overlay the following masks onto the
 * guest's default masks.  Any level that is not defined below should
 * be treated as all "-"s
 */

#define CPT_ID1ECX_LM_DISABLED  "----:----:----:----:--0-:----:----:----"
#define CPT_ID81EDX_LM_DISABLED "--0-:----:----:----:----:----:----:----"
#define CPT_ID81ECX_LM_DISABLED "----:----:----:----:----:----:----:---0"

#define CPT_GET_LM_DISABLED_MASK(lvl, reg)                                  \
   ((lvl == 1 && reg == CPUID_REG_ECX) ? CPT_ID1ECX_LM_DISABLED :           \
    (lvl == 0x80000001 && reg == CPUID_REG_ECX) ? CPT_ID81ECX_LM_DISABLED : \
    (lvl == 0x80000001 && reg == CPUID_REG_EDX) ? CPT_ID81EDX_LM_DISABLED : \
    NULL)

/*
 * CPUID_MASK --
 * CPUID_SHIFT --
 * CPUID_ISSET --
 * CPUID_GET --
 * CPUID_SET --
 * CPUID_CLEAR --
 * CPUID_SETTO --
 *
 * Accessor macros for all CPUID consts/fields/flags.  Level and reg are not
 * required, but are used to force compile-time asserts which help verify that
 * the flag is being used on the right CPUID input and result register.
 *
 * Note: ASSERT_ON_COMPILE is duplicated rather than factored into its own
 * macro, because token concatenation does not work as expected if an input is
 * #defined (e.g. APIC) when macros are nested.  Also, compound statements
 * within parenthes is a GCC extension, so we must use runtime asserts with
 * other compilers.
 */

#if defined(__GNUC__) && !defined(__clang__)

#define CPUID_MASK(eaxIn, reg, flag)                                    \
   ({                                                                   \
      ASSERT_ON_COMPILE(eaxIn == CPUID_INTERNAL_EAXIN_##flag &&         \
              CPUID_REG_##reg == (CpuidReg)CPUID_INTERNAL_REG_##flag);  \
      CPUID_INTERNAL_MASK_##flag;                                       \
   })

#define CPUID_SHIFT(eaxIn, reg, flag)                                   \
   ({                                                                   \
      ASSERT_ON_COMPILE(eaxIn == CPUID_INTERNAL_EAXIN_##flag &&         \
              CPUID_REG_##reg == (CpuidReg)CPUID_INTERNAL_REG_##flag);  \
      CPUID_INTERNAL_SHIFT_##flag;                                      \
   })

#define CPUID_ISSET(eaxIn, reg, flag, data)                             \
   ({                                                                   \
      ASSERT_ON_COMPILE(eaxIn == CPUID_INTERNAL_EAXIN_##flag &&         \
              CPUID_REG_##reg == (CpuidReg)CPUID_INTERNAL_REG_##flag);  \
      (((data) & CPUID_INTERNAL_MASK_##flag) != 0);                     \
   })

#define CPUID_GET(eaxIn, reg, field, data)                              \
   ({                                                                   \
      ASSERT_ON_COMPILE(eaxIn == CPUID_INTERNAL_EAXIN_##field &&        \
              CPUID_REG_##reg == (CpuidReg)CPUID_INTERNAL_REG_##field); \
      (((uint32)(data) & CPUID_INTERNAL_MASK_##field) >>                \
       CPUID_INTERNAL_SHIFT_##field);                                   \
   })

#else

/*
 * CPUIDCheck --
 *
 * Return val after verifying parameters.
 */

static INLINE uint32
CPUIDCheck(int32 eaxIn, int32 eaxInCheck,
           CpuidReg reg, CpuidReg regCheck, uint32 val)
{
   ASSERT(eaxIn == eaxInCheck && reg == regCheck);
   return val;
}

#define CPUID_MASK(eaxIn, reg, flag)                                    \
   CPUIDCheck(eaxIn, CPUID_INTERNAL_EAXIN_##flag,                       \
              CPUID_REG_##reg, (CpuidReg)CPUID_INTERNAL_REG_##flag,     \
              CPUID_INTERNAL_MASK_##flag)

#define CPUID_SHIFT(eaxIn, reg, flag)                                   \
   CPUIDCheck(eaxIn, CPUID_INTERNAL_EAXIN_##flag,                       \
              CPUID_REG_##reg, (CpuidReg)CPUID_INTERNAL_REG_##flag,     \
              CPUID_INTERNAL_SHIFT_##flag)

#define CPUID_ISSET(eaxIn, reg, flag, data)                             \
   (CPUIDCheck(eaxIn, CPUID_INTERNAL_EAXIN_##flag,                      \
               CPUID_REG_##reg, (CpuidReg)CPUID_INTERNAL_REG_##flag,    \
               CPUID_INTERNAL_MASK_##flag & (data)) != 0)

#define CPUID_GET(eaxIn, reg, field, data)                              \
   CPUIDCheck(eaxIn, CPUID_INTERNAL_EAXIN_##field,                      \
              CPUID_REG_##reg, (CpuidReg)CPUID_INTERNAL_REG_##field,    \
              ((uint32)(data) & CPUID_INTERNAL_MASK_##field) >>         \
              CPUID_INTERNAL_SHIFT_##field)

#endif


#define CPUID_SET(eaxIn, reg, flag, dataPtr)                            \
   do {                                                                 \
      ASSERT_ON_COMPILE(                                                \
         (uint32)eaxIn   == (uint32)CPUID_INTERNAL_EAXIN_##flag &&      \
         CPUID_REG_##reg == (CpuidReg)CPUID_INTERNAL_REG_##flag);       \
      *(dataPtr) |= CPUID_INTERNAL_MASK_##flag;                         \
   } while (0)

#define CPUID_CLEAR(eaxIn, reg, flag, dataPtr)                          \
   do {                                                                 \
      ASSERT_ON_COMPILE(                                                \
         (uint32)eaxIn   == (uint32)CPUID_INTERNAL_EAXIN_##flag &&      \
         CPUID_REG_##reg == (CpuidReg)CPUID_INTERNAL_REG_##flag);       \
      *(dataPtr) &= ~CPUID_INTERNAL_MASK_##flag;                        \
   } while (0)

#define CPUID_SETTO(eaxIn, reg, field, dataPtr, val)                    \
   do {                                                                 \
      uint32 _v = val;                                                  \
      uint32 *_d = dataPtr;                                             \
      ASSERT_ON_COMPILE(                                                \
         (uint32)eaxIn   == (uint32)CPUID_INTERNAL_EAXIN_##field &&     \
         CPUID_REG_##reg == (CpuidReg)CPUID_INTERNAL_REG_##field);      \
      *_d = (*_d & ~CPUID_INTERNAL_MASK_##field) |                      \
         (_v << CPUID_INTERNAL_SHIFT_##field);                          \
      ASSERT(_v == (*_d & CPUID_INTERNAL_MASK_##field) >>               \
             CPUID_INTERNAL_SHIFT_##field);                             \
   } while (0)

#define CPUID_SETTO_SAFE(eaxIn, reg, field, dataPtr, val)               \
   do {                                                                 \
      uint32 _v = val &                                                 \
         (CPUID_INTERNAL_MASK_##field >> CPUID_INTERNAL_SHIFT_##field); \
      uint32 *_d = dataPtr;                                             \
      ASSERT_ON_COMPILE(                                                \
         (uint32)eaxIn   == (uint32)CPUID_INTERNAL_EAXIN_##field &&     \
         CPUID_REG_##reg == (CpuidReg)CPUID_INTERNAL_REG_##field);      \
      *_d = (*_d & ~CPUID_INTERNAL_MASK_##field) |                      \
         (_v << CPUID_INTERNAL_SHIFT_##field);                          \
   } while (0)


/*
 * Definitions of various fields' values and more complicated
 * macros/functions for reading cpuid fields.
 */

#define CPUID_FAMILY_EXTENDED        15

/* Effective Intel CPU Families */
#define CPUID_FAMILY_486              4
#define CPUID_FAMILY_P5               5
#define CPUID_FAMILY_P6               6
#define CPUID_FAMILY_P4              15

/* Effective AMD CPU Families */
#define CPUID_FAMILY_5x86             4
#define CPUID_FAMILY_K5               5
#define CPUID_FAMILY_K6               5
#define CPUID_FAMILY_K7               6
#define CPUID_FAMILY_K8              15
#define CPUID_FAMILY_K8L             16
#define CPUID_FAMILY_K8MOBILE        17
#define CPUID_FAMILY_LLANO           18
#define CPUID_FAMILY_BOBCAT          20
#define CPUID_FAMILY_BULLDOZER       21  // Bulldozer Piledriver Steamroller
#define CPUID_FAMILY_KYOTO           22

/* Effective VIA CPU Families */
#define CPUID_FAMILY_C7               6

/* Intel model information */
#define CPUID_MODEL_PPRO              1
#define CPUID_MODEL_PII_03            3
#define CPUID_MODEL_PII_05            5
#define CPUID_MODEL_CELERON_06        6
#define CPUID_MODEL_PM_09             9
#define CPUID_MODEL_PM_0D            13
#define CPUID_MODEL_PM_0E            14  // Yonah / Sossaman
#define CPUID_MODEL_CORE_0F          15  // Conroe / Merom
#define CPUID_MODEL_CORE_17        0x17  // Penryn
#define CPUID_MODEL_NEHALEM_1A     0x1a  // Nehalem / Gainestown
#define CPUID_MODEL_ATOM_1C        0x1c  // Silverthorne / Diamondville
#define CPUID_MODEL_CORE_1D        0x1d  // Dunnington
#define CPUID_MODEL_NEHALEM_1E     0x1e  // Lynnfield
#define CPUID_MODEL_NEHALEM_1F     0x1f  // Havendale
#define CPUID_MODEL_NEHALEM_25     0x25  // Westmere / Clarkdale
#define CPUID_MODEL_ATOM_26        0x26  // Lincroft
#define CPUID_MODEL_ATOM_27        0x27  // Saltwell
#define CPUID_MODEL_SANDYBRIDGE_2A 0x2a  // Sandybridge (desktop/mobile)
#define CPUID_MODEL_SANDYBRIDGE_2D 0x2d  // Sandybridge-EP
#define CPUID_MODEL_NEHALEM_2C     0x2c  // Westmere-EP
#define CPUID_MODEL_NEHALEM_2E     0x2e  // Nehalem-EX
#define CPUID_MODEL_NEHALEM_2F     0x2f  // Westmere-EX
#define CPUID_MODEL_ATOM_35        0x35  // Cloverview
#define CPUID_MODEL_ATOM_36        0x36  // Cedarview
#define CPUID_MODEL_ATOM_37        0x37  // Bay Trail
#define CPUID_MODEL_SANDYBRIDGE_3A 0x3a  // Ivy Bridge
#define CPUID_MODEL_SANDYBRIDGE_3E 0x3e  // Ivy Bridge-EP
#define CPUID_MODEL_HASWELL_3C     0x3c  // Haswell DT
#define CPUID_MODEL_HASWELL_45     0x45  // Haswell Ultrathin
#define CPUID_MODEL_HASWELL_46     0x46  // Haswell (Crystal Well)
#define CPUID_MODEL_ATOM_4A        0x4a  // Future Silvermont
#define CPUID_MODEL_ATOM_4D        0x4d  // Avoton
#define CPUID_MODEL_ATOM_5A        0x5a  // Future Silvermont
#define CPUID_MODEL_ATOM_5D        0x5d  // Future Silvermont


#define CPUID_MODEL_PIII_07    7
#define CPUID_MODEL_PIII_08    8
#define CPUID_MODEL_PIII_0A    10

/* AMD model information */
#define CPUID_MODEL_BARCELONA_02      0x02 // Barcelona (Opteron & Phenom)
#define CPUID_MODEL_SHANGHAI_04       0x04 // Shanghai RB
#define CPUID_MODEL_SHANGHAI_05       0x05 // Shanghai BL
#define CPUID_MODEL_SHANGHAI_06       0x06 // Shanghai DA
#define CPUID_MODEL_ISTANBUL_MAGNY_08 0x08 // Istanbul (6 core) & Magny-cours (12) HY
#define CPUID_MODEL_ISTANBUL_MAGNY_09 0x09 // HY - G34 package
#define CPUID_MODEL_PHAROAH_HOUND_0A  0x0A // Pharoah Hound
#define CPUID_MODEL_PILEDRIVER_1F     0x1F // Max piledriver model defined in BKDG
#define CPUID_MODEL_PILEDRIVER_10     0x10 // family == CPUID_FAMILY_BULLDOZER
#define CPUID_MODEL_PILEDRIVER_02     0x02 // family == CPUID_FAMILY_BULLDOZER
#define CPUID_MODEL_OPTERON_REVF_41   0x41 // family == CPUID_FAMILY_K8
#define CPUID_MODEL_KYOTO_00          0x00 // family == CPUID_FAMILY_KYOTO

/* VIA model information */
#define CPUID_MODEL_NANO       15     // Isaiah

/*
 *----------------------------------------------------------------------
 *
 * CPUID_IsVendor{AMD,Intel,VIA} --
 *
 *      Determines if the vendor string in cpuid id0 is from {AMD,Intel,VIA}.
 *
 * Results:
 *      True iff vendor string is CPUID_{AMD,INTEL,VIA}_VENDOR_STRING
 *
 * Side effects:
 *      None.
 *
 *----------------------------------------------------------------------
 */
static INLINE Bool
CPUID_IsRawVendor(CPUIDRegs *id0, const char* vendor)
{
   // hard to get strcmp() in some environments, so do it in the raw
   return (id0->ebx == *(const uint32 *) (vendor + 0) &&
           id0->ecx == *(const uint32 *) (vendor + 4) &&
           id0->edx == *(const uint32 *) (vendor + 8));
}

static INLINE Bool
CPUID_IsVendorAMD(CPUIDRegs *id0)
{
   return CPUID_IsRawVendor(id0, CPUID_AMD_VENDOR_STRING);
}

static INLINE Bool
CPUID_IsVendorIntel(CPUIDRegs *id0)
{
   return CPUID_IsRawVendor(id0, CPUID_INTEL_VENDOR_STRING);
}

static INLINE Bool
CPUID_IsVendorVIA(CPUIDRegs *id0)
{
   return CPUID_IsRawVendor(id0, CPUID_VIA_VENDOR_STRING);
}

static INLINE uint32
CPUID_EFFECTIVE_FAMILY(uint32 v) /* %eax from CPUID with %eax=1. */
{
   uint32 f = CPUID_GET(1, EAX, FAMILY, v);
   return f != CPUID_FAMILY_EXTENDED ? f : f +
      CPUID_GET(1, EAX, EXTENDED_FAMILY, v);
}

/* Normally only used when FAMILY==CPUID_FAMILY_EXTENDED, but Intel is
 * now using the extended model field for FAMILY==CPUID_FAMILY_P6 to
 * refer to the newer Core2 CPUs
 */
static INLINE uint32
CPUID_EFFECTIVE_MODEL(uint32 v) /* %eax from CPUID with %eax=1. */
{
   uint32 m = CPUID_GET(1, EAX, MODEL, v);
   uint32 em = CPUID_GET(1, EAX, EXTENDED_MODEL, v);
   return m + (em << 4);
}

/*
 * Notice that CPUID families for Intel and AMD overlap. The following macros
 * should only be used AFTER the manufacturer has been established (through
 * the use of CPUID standard function 0).
 */
static INLINE Bool
CPUID_FAMILY_IS_486(uint32 eax)
{
   return CPUID_EFFECTIVE_FAMILY(eax) == CPUID_FAMILY_486;
}

static INLINE Bool
CPUID_FAMILY_IS_P5(uint32 eax)
{
   return CPUID_EFFECTIVE_FAMILY(eax) == CPUID_FAMILY_P5;
}

static INLINE Bool
CPUID_FAMILY_IS_P6(uint32 eax)
{
   return CPUID_EFFECTIVE_FAMILY(eax) == CPUID_FAMILY_P6;
}

static INLINE Bool
CPUID_FAMILY_IS_PENTIUM4(uint32 eax)
{
   return CPUID_EFFECTIVE_FAMILY(eax) == CPUID_FAMILY_P4;
}

/*
 * Intel Pentium M processors are Yonah/Sossaman or an older P-M
 */
static INLINE Bool
CPUID_UARCH_IS_PENTIUM_M(uint32 v) // IN: %eax from CPUID with %eax=1.
{
   /* Assumes the CPU manufacturer is Intel. */
   return CPUID_FAMILY_IS_P6(v) &&
          (CPUID_EFFECTIVE_MODEL(v) == CPUID_MODEL_PM_09 ||
           CPUID_EFFECTIVE_MODEL(v) == CPUID_MODEL_PM_0D ||
           CPUID_EFFECTIVE_MODEL(v) == CPUID_MODEL_PM_0E);
}

/*
 * Intel Core processors are Merom, Conroe, Woodcrest, Clovertown,
 * Penryn, Dunnington, Kentsfield, Yorktown, Harpertown, ........
 */
static INLINE Bool
CPUID_UARCH_IS_CORE(uint32 v) // IN: %eax from CPUID with %eax=1.
{
   uint32 model = CPUID_EFFECTIVE_MODEL(v);
   /* Assumes the CPU manufacturer is Intel. */
   return CPUID_FAMILY_IS_P6(v) &&
          model >= CPUID_MODEL_CORE_0F &&
          (model < CPUID_MODEL_NEHALEM_1A ||
           model == CPUID_MODEL_CORE_1D);
}

/*
 * Intel Nehalem processors are: Nehalem, Gainestown, Lynnfield, Clarkdale.
 */
static INLINE Bool
CPUID_UARCH_IS_NEHALEM(uint32 v) // IN: %eax from CPUID with %eax=1.
{
   /* Assumes the CPU manufacturer is Intel. */
   uint32 effectiveModel = CPUID_EFFECTIVE_MODEL(v);

   return CPUID_FAMILY_IS_P6(v) &&
          (effectiveModel == CPUID_MODEL_NEHALEM_1A ||
           effectiveModel == CPUID_MODEL_NEHALEM_1E ||
           effectiveModel == CPUID_MODEL_NEHALEM_1F ||
           effectiveModel == CPUID_MODEL_NEHALEM_25 ||
           effectiveModel == CPUID_MODEL_NEHALEM_2C ||
           effectiveModel == CPUID_MODEL_NEHALEM_2E ||
           effectiveModel == CPUID_MODEL_NEHALEM_2F);
}


static INLINE Bool
CPUID_UARCH_IS_SANDYBRIDGE(uint32 v) // IN: %eax from CPUID with %eax=1.
{
   /* Assumes the CPU manufacturer is Intel. */
   uint32 effectiveModel = CPUID_EFFECTIVE_MODEL(v);

   return CPUID_FAMILY_IS_P6(v) &&
          (effectiveModel == CPUID_MODEL_SANDYBRIDGE_2A ||
           effectiveModel == CPUID_MODEL_SANDYBRIDGE_2D ||
           effectiveModel == CPUID_MODEL_SANDYBRIDGE_3E ||
           effectiveModel == CPUID_MODEL_SANDYBRIDGE_3A);
}


static INLINE Bool
CPUID_UARCH_IS_HASWELL(uint32 v) // IN: %eax from CPUID with %eax=1.
{
   /* Assumes the CPU manufacturer is Intel. */
   uint32 effectiveModel = CPUID_EFFECTIVE_MODEL(v);

   return CPUID_FAMILY_IS_P6(v) &&
          (effectiveModel == CPUID_MODEL_HASWELL_3C   ||
           effectiveModel == CPUID_MODEL_HASWELL_45   ||
           effectiveModel == CPUID_MODEL_HASWELL_46);
}

static INLINE Bool
CPUID_MODEL_IS_CENTERTON(uint32 v) // IN: %eax from CPUID with %eax=1.
{
   /* Assumes the CPU manufacturer is Intel. */
   return CPUID_FAMILY_IS_P6(v) &&
          CPUID_EFFECTIVE_MODEL(v) == CPUID_MODEL_ATOM_1C;
}

static INLINE Bool
CPUID_MODEL_IS_AVOTON(uint32 v) // IN: %eax from CPUID with %eax=1.
{
   /* Assumes the CPU manufacturer is Intel. */
   return CPUID_FAMILY_IS_P6(v) &&
          CPUID_EFFECTIVE_MODEL(v) == CPUID_MODEL_ATOM_4D;
}

static INLINE Bool
CPUID_MODEL_IS_WESTMERE(uint32 v) // IN: %eax from CPUID with %eax=1.
{
   /* Assumes the CPU manufacturer is Intel. */
   uint32 effectiveModel = CPUID_EFFECTIVE_MODEL(v);

   return CPUID_FAMILY_IS_P6(v) &&
          (effectiveModel == CPUID_MODEL_NEHALEM_25 || // Clarkdale
           effectiveModel == CPUID_MODEL_NEHALEM_2C || // Westmere-EP
           effectiveModel == CPUID_MODEL_NEHALEM_2F);  // Westmere-EX
}


static INLINE Bool
CPUID_MODEL_IS_SANDYBRIDGE(uint32 v) // IN: %eax from CPUID with %eax=1.
{
   /* Assumes the CPU manufacturer is Intel. */
   uint32 effectiveModel = CPUID_EFFECTIVE_MODEL(v);

   return CPUID_FAMILY_IS_P6(v) &&
          (effectiveModel == CPUID_MODEL_SANDYBRIDGE_2A ||
           effectiveModel == CPUID_MODEL_SANDYBRIDGE_2D);
}


static INLINE Bool
CPUID_MODEL_IS_IVYBRIDGE(uint32 v) // IN: %eax from CPUID with %eax=1.
{
   /* Assumes the CPU manufacturer is Intel. */
   uint32 effectiveModel = CPUID_EFFECTIVE_MODEL(v);

   return CPUID_FAMILY_IS_P6(v) && (
       effectiveModel == CPUID_MODEL_SANDYBRIDGE_3E ||
       effectiveModel == CPUID_MODEL_SANDYBRIDGE_3A);
}


static INLINE Bool
CPUID_MODEL_IS_HASWELL(uint32 v) // IN: %eax from CPUID with %eax=1.
{
   /* Assumes the CPU manufacturer is Intel. */
   uint32 effectiveModel = CPUID_EFFECTIVE_MODEL(v);

   return CPUID_FAMILY_IS_P6(v) &&
          (effectiveModel == CPUID_MODEL_HASWELL_3C ||
           effectiveModel == CPUID_MODEL_HASWELL_45 ||
           effectiveModel == CPUID_MODEL_HASWELL_46);
}




static INLINE Bool
CPUID_FAMILY_IS_K7(uint32 eax)
{
   return CPUID_EFFECTIVE_FAMILY(eax) == CPUID_FAMILY_K7;
}

static INLINE Bool
CPUID_FAMILY_IS_K8(uint32 eax)
{
   return CPUID_EFFECTIVE_FAMILY(eax) == CPUID_FAMILY_K8;
}

static INLINE Bool
CPUID_FAMILY_IS_K8EXT(uint32 eax)
{
   /*
    * We check for this pattern often enough that it's
    * worth a separate function, for syntactic sugar.
    */
   return CPUID_FAMILY_IS_K8(eax) &&
          CPUID_GET(1, EAX, EXTENDED_MODEL, eax) != 0;
}

static INLINE Bool
CPUID_FAMILY_IS_K8L(uint32 eax)
{
   return CPUID_EFFECTIVE_FAMILY(eax) == CPUID_FAMILY_K8L ||
          CPUID_EFFECTIVE_FAMILY(eax) == CPUID_FAMILY_LLANO;
}

static INLINE Bool
CPUID_FAMILY_IS_LLANO(uint32 eax)
{
   return CPUID_EFFECTIVE_FAMILY(eax) == CPUID_FAMILY_LLANO;
}

static INLINE Bool
CPUID_FAMILY_IS_K8MOBILE(uint32 eax)
{
   /* Essentially a K8 (not K8L) part, but with mobile features. */
   return CPUID_EFFECTIVE_FAMILY(eax) == CPUID_FAMILY_K8MOBILE;
}

static INLINE Bool
CPUID_FAMILY_IS_K8STAR(uint32 eax)
{
   /*
    * Read function name as "K8*", as in wildcard.
    * Matches K8 or K8L or K8MOBILE
    */
   return CPUID_FAMILY_IS_K8(eax) || CPUID_FAMILY_IS_K8L(eax) ||
          CPUID_FAMILY_IS_K8MOBILE(eax);
}

static INLINE Bool
CPUID_FAMILY_IS_BOBCAT(uint32 eax)
{
   return CPUID_EFFECTIVE_FAMILY(eax) == CPUID_FAMILY_BOBCAT;
}

static INLINE Bool
CPUID_FAMILY_IS_BULLDOZER(uint32 eax)
{
   return CPUID_EFFECTIVE_FAMILY(eax) == CPUID_FAMILY_BULLDOZER;
}

static INLINE Bool
CPUID_FAMILY_IS_KYOTO(uint32 eax)
{
   return CPUID_EFFECTIVE_FAMILY(eax) == CPUID_FAMILY_KYOTO;
}

/*
 * AMD Barcelona (of either Opteron or Phenom kind).
 */
static INLINE Bool
CPUID_MODEL_IS_BARCELONA(uint32 v) // IN: %eax from CPUID with %eax=1.
{
   /* Assumes the CPU manufacturer is AMD. */
   return CPUID_EFFECTIVE_FAMILY(v) == CPUID_FAMILY_K8L &&
          CPUID_EFFECTIVE_MODEL(v)  == CPUID_MODEL_BARCELONA_02;
}


static INLINE Bool
CPUID_MODEL_IS_SHANGHAI(uint32 v) // IN: %eax from CPUID with %eax=1.
{
   /* Assumes the CPU manufacturer is AMD. */
   return CPUID_EFFECTIVE_FAMILY(v) == CPUID_FAMILY_K8L &&
          (CPUID_MODEL_SHANGHAI_04  <= CPUID_EFFECTIVE_MODEL(v) &&
           CPUID_EFFECTIVE_MODEL(v) <= CPUID_MODEL_SHANGHAI_06);
}


static INLINE Bool
CPUID_MODEL_IS_ISTANBUL_MAGNY(uint32 v) // IN: %eax from CPUID with %eax=1.
{
   /* Assumes the CPU manufacturer is AMD. */
   return CPUID_EFFECTIVE_FAMILY(v) == CPUID_FAMILY_K8L &&
          (CPUID_MODEL_ISTANBUL_MAGNY_08 <= CPUID_EFFECTIVE_MODEL(v) &&
           CPUID_EFFECTIVE_MODEL(v)      <= CPUID_MODEL_ISTANBUL_MAGNY_09);
}


static INLINE Bool
CPUID_MODEL_IS_PHAROAH_HOUND(uint32 v) // IN: %eax from CPUID with %eax=1.
{
   /* Assumes the CPU manufacturer is AMD. */
   return CPUID_EFFECTIVE_FAMILY(v) == CPUID_FAMILY_K8L &&
          CPUID_EFFECTIVE_MODEL(v)  == CPUID_MODEL_PHAROAH_HOUND_0A;
}


static INLINE Bool
CPUID_MODEL_IS_BULLDOZER(uint32 eax)
{
   /*
    * Bulldozer is models of family 0x15 that are below 10 excluding
    * Piledriver 02.
    */
   return CPUID_EFFECTIVE_FAMILY(eax) == CPUID_FAMILY_BULLDOZER &&
          CPUID_EFFECTIVE_MODEL(eax)  < CPUID_MODEL_PILEDRIVER_10 &&
          CPUID_EFFECTIVE_MODEL(eax) != CPUID_MODEL_PILEDRIVER_02;
}


static INLINE Bool
CPUID_MODEL_IS_PILEDRIVER(uint32 eax)
{
   /* Piledriver is models 0x02 & 0x10 of family 0x15 (so far). */
   return CPUID_EFFECTIVE_FAMILY(eax) == CPUID_FAMILY_BULLDOZER &&
          ((CPUID_EFFECTIVE_MODEL(eax) >= CPUID_MODEL_PILEDRIVER_10 &&
            CPUID_EFFECTIVE_MODEL(eax) <= CPUID_MODEL_PILEDRIVER_1F) ||
           CPUID_EFFECTIVE_MODEL(eax) == CPUID_MODEL_PILEDRIVER_02);
}




static INLINE Bool
CPUID_MODEL_IS_KYOTO(uint32 eax)
{
   /* Kyoto is models 0x00 of family 0x16 (so far). */
   return CPUID_EFFECTIVE_FAMILY(eax) == CPUID_FAMILY_KYOTO &&
          CPUID_EFFECTIVE_MODEL(eax) == CPUID_MODEL_KYOTO_00;
}

#define CPUID_TYPE_PRIMARY     0
#define CPUID_TYPE_OVERDRIVE   1
#define CPUID_TYPE_SECONDARY   2

#define CPUID_INTEL_ID4EAX_LEAF4_CACHE_TYPE_NULL      0
#define CPUID_INTEL_ID4EAX_LEAF4_CACHE_TYPE_DATA      1
#define CPUID_INTEL_ID4EAX_LEAF4_CACHE_TYPE_INST      2
#define CPUID_INTEL_ID4EAX_LEAF4_CACHE_TYPE_UNIF      3
#define CPUID_LEAF4_CACHE_TYPE_NULL      0
#define CPUID_LEAF4_CACHE_TYPE_DATA      1
#define CPUID_LEAF4_CACHE_TYPE_INST      2
#define CPUID_LEAF4_CACHE_TYPE_UNIF      3
#define CPUID_LEAF4_CACHE_INDEXING_DIRECT  0
#define CPUID_LEAF4_CACHE_INDEXING_COMPLEX 1

#define CPUID_INTEL_ID4EAX_LEAF4_CACHE_SELF_INIT      0x00000100
#define CPUID_INTEL_ID4EAX_LEAF4_CACHE_FULLY_ASSOC    0x00000200
#define CPUID_LEAF4_CACHE_SELF_INIT      0x00000100
#define CPUID_LEAF4_CACHE_FULLY_ASSOC    0x00000200

#define CPUID_INTEL_IDBECX_LEVEL_TYPE_INVALID   0
#define CPUID_INTEL_IDBECX_LEVEL_TYPE_SMT       1
#define CPUID_INTEL_IDBECX_LEVEL_TYPE_CORE      2
#define CPUID_TOPOLOGY_LEVEL_TYPE_INVALID   0
#define CPUID_TOPOLOGY_LEVEL_TYPE_SMT       1
#define CPUID_TOPOLOGY_LEVEL_TYPE_CORE      2


/*
 * For certain AMD processors, an lfence instruction is necessary at various
 * places to ensure ordering.
 */

static INLINE Bool
CPUID_VendorRequiresFence(CpuidVendor vendor)
{
   return vendor == CPUID_VENDOR_AMD;
}

static INLINE Bool
CPUID_VersionRequiresFence(uint32 version)
{
   return CPUID_EFFECTIVE_FAMILY(version) == CPUID_FAMILY_K8 &&
          CPUID_EFFECTIVE_MODEL(version) < 0x40;
}

static INLINE Bool
CPUID_ID0RequiresFence(CPUIDRegs *id0)
{
   if (id0->eax == 0) {
      return FALSE;
   }
   return CPUID_IsVendorAMD(id0);
}

static INLINE Bool
CPUID_ID1RequiresFence(CPUIDRegs *id1)
{
   return CPUID_VersionRequiresFence(id1->eax);
}

static INLINE Bool
CPUID_RequiresFence(CpuidVendor vendor, // IN
                    uint32 version)      // IN: %eax from CPUID with %eax=1.
{
   return CPUID_VendorRequiresFence(vendor) &&
          CPUID_VersionRequiresFence(version);
}


/*
 * The following low-level functions compute the number of
 * cores per cpu.  They should be used cautiously because
 * they do not necessarily work on all types of CPUs.
 * High-level functions that are correct for all CPUs are
 * available elsewhere: see lib/cpuidInfo/cpuidInfo.c.
 */

static INLINE uint32
CPUID_IntelCoresPerPackage(uint32 v) /* %eax from CPUID with %eax=4 and %ecx=0. */
{
   // Note: This is not guaranteed to work on older Intel CPUs.
   return 1 + CPUID_GET(4, EAX, LEAF4_CORE_COUNT, v);
}


static INLINE uint32
CPUID_AMDCoresPerPackage(uint32 v) /* %ecx from CPUID with %eax=0x80000008. */
{
   // Note: This is not guaranteed to work on older AMD CPUs.
   return 1 + CPUID_GET(0x80000008, ECX, LEAF88_CORE_COUNT, v);
}


/*
 * Hypervisor CPUID space is 0x400000XX.
 */
static INLINE Bool
CPUID_IsHypervisorLevel(uint32 level)
{
   return (level & 0xffffff00) == 0x40000000;
}

/*
 *----------------------------------------------------------------------
 *
 * CPUID_LevelUsesEcx --
 *
 *      Returns TRUE for leaves that support input ECX != 0 (subleaves).
 *
 *----------------------------------------------------------------------
 */

static INLINE Bool
CPUID_LevelUsesEcx(uint32 level) {
   return level == 4 || level == 7 || level == 0xb || level == 0xd ||
          level == 0x8000001d;
}

/*
 *----------------------------------------------------------------------
 *
 * CPUID_IsValid*Subleaf --
 *
 *      Functions to determine the last subleaf for the level specified
 *
 *----------------------------------------------------------------------
 */

static INLINE Bool
CPUID_IsValidBSubleaf(uint32 ebx)  // IN: %ebx = cpuid.b.sublevel.ebx
{
   return ebx != 0;
}

static INLINE Bool
CPUID_IsValid4Subleaf(uint32 eax)  // IN: %eax = cpuid.4.sublevel.eax
{
   return eax != 0;
}

static INLINE Bool
CPUID_IsValid7Subleaf(uint32 eax, uint32 subleaf)  // IN: %eax = cpuid.7.0.eax
{
   /*
    * cpuid.7.0.eax is the max ecx (subleaf) index
    */
   return subleaf <= eax;
}

/*
 *----------------------------------------------------------------------
 *
 * CPUID_IsValidDSubleaf --
 *
 *    It is the caller's repsonsibility to determine if the processor
 *    supports XSAVE and therefore has D sub-leaves.
 *
 *----------------------------------------------------------------------
 */
static INLINE Bool
CPUID_IsValidDSubleaf(uint32 subleaf)  // IN: subleaf to check
{
   return subleaf <= 63;
}

/*
 *----------------------------------------------------------------------
 *
 * CPUID_SupportsMsrPlatformInfo --
 *
 *    Uses vendor and cpuid.1.0.eax to determine if the processor
 *    supports MSR_PLATFORM_INFO.
 *
 *----------------------------------------------------------------------
 */
static INLINE Bool
CPUID_SupportsMsrPlatformInfo(CpuidVendor vendor, uint32 version)
{
   return vendor == CPUID_VENDOR_INTEL &&
          (CPUID_UARCH_IS_NEHALEM(version) ||
           CPUID_UARCH_IS_HASWELL(version) ||
           CPUID_UARCH_IS_SANDYBRIDGE(version));
}

#endif