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+/** @file
+ MSR Definitions for Intel Core Solo and Intel Core Duo Processors.
+
+ Provides defines for Machine Specific Registers(MSR) indexes. Data structures
+ are provided for MSRs that contain one or more bit fields. If the MSR value
+ returned is a single 32-bit or 64-bit value, then a data structure is not
+ provided for that MSR.
+
+ Copyright (c) 2016 - 2019, Intel Corporation. All rights reserved.<BR>
+ SPDX-License-Identifier: BSD-2-Clause-Patent
+
+ @par Specification Reference:
+ Intel(R) 64 and IA-32 Architectures Software Developer's Manual, Volume 4,
+ May 2018, Volume 4: Model-Specific-Registers (MSR)
+
+**/
+
+#ifndef __CORE_MSR_H__
+#define __CORE_MSR_H__
+
+#include <Register/Intel/ArchitecturalMsr.h>
+
+/**
+ Is Intel Core Solo and Intel Core Duo Processors?
+
+ @param DisplayFamily Display Family ID
+ @param DisplayModel Display Model ID
+
+ @retval TRUE Yes, it is.
+ @retval FALSE No, it isn't.
+**/
+#define IS_CORE_PROCESSOR(DisplayFamily, DisplayModel) \
+ (DisplayFamily == 0x06 && \
+ ( \
+ DisplayModel == 0x0E \
+ ) \
+ )
+
+/**
+ Unique. See Section 2.22, "MSRs in Pentium Processors," and see Table 2-2.
+
+ @param ECX MSR_CORE_P5_MC_ADDR (0x00000000)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_P5_MC_ADDR);
+ AsmWriteMsr64 (MSR_CORE_P5_MC_ADDR, Msr);
+ @endcode
+ @note MSR_CORE_P5_MC_ADDR is defined as P5_MC_ADDR in SDM.
+**/
+#define MSR_CORE_P5_MC_ADDR 0x00000000
+
+
+/**
+ Unique. See Section 2.22, "MSRs in Pentium Processors," and see Table 2-2.
+
+ @param ECX MSR_CORE_P5_MC_TYPE (0x00000001)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_P5_MC_TYPE);
+ AsmWriteMsr64 (MSR_CORE_P5_MC_TYPE, Msr);
+ @endcode
+ @note MSR_CORE_P5_MC_TYPE is defined as P5_MC_TYPE in SDM.
+**/
+#define MSR_CORE_P5_MC_TYPE 0x00000001
+
+
+/**
+ Shared. Processor Hard Power-On Configuration (R/W) Enables and disables
+ processor features; (R) indicates current processor configuration.
+
+ @param ECX MSR_CORE_EBL_CR_POWERON (0x0000002A)
+ @param EAX Lower 32-bits of MSR value.
+ Described by the type MSR_CORE_EBL_CR_POWERON_REGISTER.
+ @param EDX Upper 32-bits of MSR value.
+ Described by the type MSR_CORE_EBL_CR_POWERON_REGISTER.
+
+ <b>Example usage</b>
+ @code
+ MSR_CORE_EBL_CR_POWERON_REGISTER Msr;
+
+ Msr.Uint64 = AsmReadMsr64 (MSR_CORE_EBL_CR_POWERON);
+ AsmWriteMsr64 (MSR_CORE_EBL_CR_POWERON, Msr.Uint64);
+ @endcode
+ @note MSR_CORE_EBL_CR_POWERON is defined as MSR_EBL_CR_POWERON in SDM.
+**/
+#define MSR_CORE_EBL_CR_POWERON 0x0000002A
+
+/**
+ MSR information returned for MSR index #MSR_CORE_EBL_CR_POWERON
+**/
+typedef union {
+ ///
+ /// Individual bit fields
+ ///
+ struct {
+ UINT32 Reserved1:1;
+ ///
+ /// [Bit 1] Data Error Checking Enable (R/W) 1 = Enabled; 0 = Disabled
+ /// Note: Not all processor implements R/W.
+ ///
+ UINT32 DataErrorCheckingEnable:1;
+ ///
+ /// [Bit 2] Response Error Checking Enable (R/W) 1 = Enabled; 0 = Disabled
+ /// Note: Not all processor implements R/W.
+ ///
+ UINT32 ResponseErrorCheckingEnable:1;
+ ///
+ /// [Bit 3] MCERR# Drive Enable (R/W) 1 = Enabled; 0 = Disabled Note: Not
+ /// all processor implements R/W.
+ ///
+ UINT32 MCERR_DriveEnable:1;
+ ///
+ /// [Bit 4] Address Parity Enable (R/W) 1 = Enabled; 0 = Disabled Note:
+ /// Not all processor implements R/W.
+ ///
+ UINT32 AddressParityEnable:1;
+ UINT32 Reserved2:2;
+ ///
+ /// [Bit 7] BINIT# Driver Enable (R/W) 1 = Enabled; 0 = Disabled Note: Not
+ /// all processor implements R/W.
+ ///
+ UINT32 BINIT_DriverEnable:1;
+ ///
+ /// [Bit 8] Output Tri-state Enabled (R/O) 1 = Enabled; 0 = Disabled.
+ ///
+ UINT32 OutputTriStateEnable:1;
+ ///
+ /// [Bit 9] Execute BIST (R/O) 1 = Enabled; 0 = Disabled.
+ ///
+ UINT32 ExecuteBIST:1;
+ ///
+ /// [Bit 10] MCERR# Observation Enabled (R/O) 1 = Enabled; 0 = Disabled.
+ ///
+ UINT32 MCERR_ObservationEnabled:1;
+ UINT32 Reserved3:1;
+ ///
+ /// [Bit 12] BINIT# Observation Enabled (R/O) 1 = Enabled; 0 = Disabled.
+ ///
+ UINT32 BINIT_ObservationEnabled:1;
+ UINT32 Reserved4:1;
+ ///
+ /// [Bit 14] 1 MByte Power on Reset Vector (R/O) 1 = 1 MByte; 0 = 4 GBytes.
+ ///
+ UINT32 ResetVector:1;
+ UINT32 Reserved5:1;
+ ///
+ /// [Bits 17:16] APIC Cluster ID (R/O).
+ ///
+ UINT32 APICClusterID:2;
+ ///
+ /// [Bit 18] System Bus Frequency (R/O) 1. = 100 MHz 2. = Reserved.
+ ///
+ UINT32 SystemBusFrequency:1;
+ UINT32 Reserved6:1;
+ ///
+ /// [Bits 21:20] Symmetric Arbitration ID (R/O).
+ ///
+ UINT32 SymmetricArbitrationID:2;
+ ///
+ /// [Bits 26:22] Clock Frequency Ratio (R/O).
+ ///
+ UINT32 ClockFrequencyRatio:5;
+ UINT32 Reserved7:5;
+ UINT32 Reserved8:32;
+ } Bits;
+ ///
+ /// All bit fields as a 32-bit value
+ ///
+ UINT32 Uint32;
+ ///
+ /// All bit fields as a 64-bit value
+ ///
+ UINT64 Uint64;
+} MSR_CORE_EBL_CR_POWERON_REGISTER;
+
+
+/**
+ Unique. Last Branch Record n (R/W) One of 8 last branch record registers on
+ the last branch record stack: bits 31-0 hold the 'from' address and bits
+ 63-32 hold the 'to' address. See also: - Last Branch Record Stack TOS at
+ 1C9H - Section 17.15, "Last Branch, Interrupt, and Exception Recording
+ (Pentium M Processors).".
+
+ @param ECX MSR_CORE_LASTBRANCH_n
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_LASTBRANCH_0);
+ AsmWriteMsr64 (MSR_CORE_LASTBRANCH_0, Msr);
+ @endcode
+ @note MSR_CORE_LASTBRANCH_0 is defined as MSR_LASTBRANCH_0 in SDM.
+ MSR_CORE_LASTBRANCH_1 is defined as MSR_LASTBRANCH_1 in SDM.
+ MSR_CORE_LASTBRANCH_2 is defined as MSR_LASTBRANCH_2 in SDM.
+ MSR_CORE_LASTBRANCH_3 is defined as MSR_LASTBRANCH_3 in SDM.
+ MSR_CORE_LASTBRANCH_4 is defined as MSR_LASTBRANCH_4 in SDM.
+ MSR_CORE_LASTBRANCH_5 is defined as MSR_LASTBRANCH_5 in SDM.
+ MSR_CORE_LASTBRANCH_6 is defined as MSR_LASTBRANCH_6 in SDM.
+ MSR_CORE_LASTBRANCH_7 is defined as MSR_LASTBRANCH_7 in SDM.
+ @{
+**/
+#define MSR_CORE_LASTBRANCH_0 0x00000040
+#define MSR_CORE_LASTBRANCH_1 0x00000041
+#define MSR_CORE_LASTBRANCH_2 0x00000042
+#define MSR_CORE_LASTBRANCH_3 0x00000043
+#define MSR_CORE_LASTBRANCH_4 0x00000044
+#define MSR_CORE_LASTBRANCH_5 0x00000045
+#define MSR_CORE_LASTBRANCH_6 0x00000046
+#define MSR_CORE_LASTBRANCH_7 0x00000047
+/// @}
+
+
+/**
+ Shared. Scalable Bus Speed (RO) This field indicates the scalable bus
+ clock speed:.
+
+ @param ECX MSR_CORE_FSB_FREQ (0x000000CD)
+ @param EAX Lower 32-bits of MSR value.
+ Described by the type MSR_CORE_FSB_FREQ_REGISTER.
+ @param EDX Upper 32-bits of MSR value.
+ Described by the type MSR_CORE_FSB_FREQ_REGISTER.
+
+ <b>Example usage</b>
+ @code
+ MSR_CORE_FSB_FREQ_REGISTER Msr;
+
+ Msr.Uint64 = AsmReadMsr64 (MSR_CORE_FSB_FREQ);
+ @endcode
+ @note MSR_CORE_FSB_FREQ is defined as MSR_FSB_FREQ in SDM.
+**/
+#define MSR_CORE_FSB_FREQ 0x000000CD
+
+/**
+ MSR information returned for MSR index #MSR_CORE_FSB_FREQ
+**/
+typedef union {
+ ///
+ /// Individual bit fields
+ ///
+ struct {
+ ///
+ /// [Bits 2:0] - Scalable Bus Speed
+ /// 101B: 100 MHz (FSB 400)
+ /// 001B: 133 MHz (FSB 533)
+ /// 011B: 167 MHz (FSB 667)
+ ///
+ /// 133.33 MHz should be utilized if performing calculation with System Bus
+ /// Speed when encoding is 101B. 166.67 MHz should be utilized if
+ /// performing calculation with System Bus Speed when encoding is 001B.
+ ///
+ UINT32 ScalableBusSpeed:3;
+ UINT32 Reserved1:29;
+ UINT32 Reserved2:32;
+ } Bits;
+ ///
+ /// All bit fields as a 32-bit value
+ ///
+ UINT32 Uint32;
+ ///
+ /// All bit fields as a 64-bit value
+ ///
+ UINT64 Uint64;
+} MSR_CORE_FSB_FREQ_REGISTER;
+
+
+/**
+ Shared.
+
+ @param ECX MSR_CORE_BBL_CR_CTL3 (0x0000011E)
+ @param EAX Lower 32-bits of MSR value.
+ Described by the type MSR_CORE_BBL_CR_CTL3_REGISTER.
+ @param EDX Upper 32-bits of MSR value.
+ Described by the type MSR_CORE_BBL_CR_CTL3_REGISTER.
+
+ <b>Example usage</b>
+ @code
+ MSR_CORE_BBL_CR_CTL3_REGISTER Msr;
+
+ Msr.Uint64 = AsmReadMsr64 (MSR_CORE_BBL_CR_CTL3);
+ AsmWriteMsr64 (MSR_CORE_BBL_CR_CTL3, Msr.Uint64);
+ @endcode
+ @note MSR_CORE_BBL_CR_CTL3 is defined as MSR_BBL_CR_CTL3 in SDM.
+**/
+#define MSR_CORE_BBL_CR_CTL3 0x0000011E
+
+/**
+ MSR information returned for MSR index #MSR_CORE_BBL_CR_CTL3
+**/
+typedef union {
+ ///
+ /// Individual bit fields
+ ///
+ struct {
+ ///
+ /// [Bit 0] L2 Hardware Enabled (RO) 1 = If the L2 is hardware-enabled 0 =
+ /// Indicates if the L2 is hardware-disabled.
+ ///
+ UINT32 L2HardwareEnabled:1;
+ UINT32 Reserved1:7;
+ ///
+ /// [Bit 8] L2 Enabled (R/W) 1 = L2 cache has been initialized 0 =
+ /// Disabled (default) Until this bit is set the processor will not
+ /// respond to the WBINVD instruction or the assertion of the FLUSH# input.
+ ///
+ UINT32 L2Enabled:1;
+ UINT32 Reserved2:14;
+ ///
+ /// [Bit 23] L2 Not Present (RO) 1. = L2 Present 2. = L2 Not Present.
+ ///
+ UINT32 L2NotPresent:1;
+ UINT32 Reserved3:8;
+ UINT32 Reserved4:32;
+ } Bits;
+ ///
+ /// All bit fields as a 32-bit value
+ ///
+ UINT32 Uint32;
+ ///
+ /// All bit fields as a 64-bit value
+ ///
+ UINT64 Uint64;
+} MSR_CORE_BBL_CR_CTL3_REGISTER;
+
+
+/**
+ Unique.
+
+ @param ECX MSR_CORE_THERM2_CTL (0x0000019D)
+ @param EAX Lower 32-bits of MSR value.
+ Described by the type MSR_CORE_THERM2_CTL_REGISTER.
+ @param EDX Upper 32-bits of MSR value.
+ Described by the type MSR_CORE_THERM2_CTL_REGISTER.
+
+ <b>Example usage</b>
+ @code
+ MSR_CORE_THERM2_CTL_REGISTER Msr;
+
+ Msr.Uint64 = AsmReadMsr64 (MSR_CORE_THERM2_CTL);
+ AsmWriteMsr64 (MSR_CORE_THERM2_CTL, Msr.Uint64);
+ @endcode
+ @note MSR_CORE_THERM2_CTL is defined as MSR_THERM2_CTL in SDM.
+**/
+#define MSR_CORE_THERM2_CTL 0x0000019D
+
+/**
+ MSR information returned for MSR index #MSR_CORE_THERM2_CTL
+**/
+typedef union {
+ ///
+ /// Individual bit fields
+ ///
+ struct {
+ UINT32 Reserved1:16;
+ ///
+ /// [Bit 16] TM_SELECT (R/W) Mode of automatic thermal monitor: 1. =
+ /// Thermal Monitor 1 (thermally-initiated on-die modulation of the
+ /// stop-clock duty cycle) 2. = Thermal Monitor 2 (thermally-initiated
+ /// frequency transitions) If bit 3 of the IA32_MISC_ENABLE register is
+ /// cleared, TM_SELECT has no effect. Neither TM1 nor TM2 will be enabled.
+ ///
+ UINT32 TM_SELECT:1;
+ UINT32 Reserved2:15;
+ UINT32 Reserved3:32;
+ } Bits;
+ ///
+ /// All bit fields as a 32-bit value
+ ///
+ UINT32 Uint32;
+ ///
+ /// All bit fields as a 64-bit value
+ ///
+ UINT64 Uint64;
+} MSR_CORE_THERM2_CTL_REGISTER;
+
+
+/**
+ Enable Miscellaneous Processor Features (R/W) Allows a variety of processor
+ functions to be enabled and disabled.
+
+ @param ECX MSR_CORE_IA32_MISC_ENABLE (0x000001A0)
+ @param EAX Lower 32-bits of MSR value.
+ Described by the type MSR_CORE_IA32_MISC_ENABLE_REGISTER.
+ @param EDX Upper 32-bits of MSR value.
+ Described by the type MSR_CORE_IA32_MISC_ENABLE_REGISTER.
+
+ <b>Example usage</b>
+ @code
+ MSR_CORE_IA32_MISC_ENABLE_REGISTER Msr;
+
+ Msr.Uint64 = AsmReadMsr64 (MSR_CORE_IA32_MISC_ENABLE);
+ AsmWriteMsr64 (MSR_CORE_IA32_MISC_ENABLE, Msr.Uint64);
+ @endcode
+ @note MSR_CORE_IA32_MISC_ENABLE is defined as IA32_MISC_ENABLE in SDM.
+**/
+#define MSR_CORE_IA32_MISC_ENABLE 0x000001A0
+
+/**
+ MSR information returned for MSR index #MSR_CORE_IA32_MISC_ENABLE
+**/
+typedef union {
+ ///
+ /// Individual bit fields
+ ///
+ struct {
+ UINT32 Reserved1:3;
+ ///
+ /// [Bit 3] Unique. Automatic Thermal Control Circuit Enable (R/W) See
+ /// Table 2-2.
+ ///
+ UINT32 AutomaticThermalControlCircuit:1;
+ UINT32 Reserved2:3;
+ ///
+ /// [Bit 7] Shared. Performance Monitoring Available (R) See Table 2-2.
+ ///
+ UINT32 PerformanceMonitoring:1;
+ UINT32 Reserved3:2;
+ ///
+ /// [Bit 10] Shared. FERR# Multiplexing Enable (R/W) 1 = FERR# asserted by
+ /// the processor to indicate a pending break event within the processor 0
+ /// = Indicates compatible FERR# signaling behavior This bit must be set
+ /// to 1 to support XAPIC interrupt model usage.
+ ///
+ UINT32 FERR:1;
+ ///
+ /// [Bit 11] Shared. Branch Trace Storage Unavailable (RO) See Table 2-2.
+ ///
+ UINT32 BTS:1;
+ UINT32 Reserved4:1;
+ ///
+ /// [Bit 13] Shared. TM2 Enable (R/W) When this bit is set (1) and the
+ /// thermal sensor indicates that the die temperature is at the
+ /// pre-determined threshold, the Thermal Monitor 2 mechanism is engaged.
+ /// TM2 will reduce the bus to core ratio and voltage according to the
+ /// value last written to MSR_THERM2_CTL bits 15:0. When this bit is clear
+ /// (0, default), the processor does not change the VID signals or the bus
+ /// to core ratio when the processor enters a thermal managed state. If
+ /// the TM2 feature flag (ECX[8]) is not set to 1 after executing CPUID
+ /// with EAX = 1, then this feature is not supported and BIOS must not
+ /// alter the contents of this bit location. The processor is operating
+ /// out of spec if both this bit and the TM1 bit are set to disabled
+ /// states.
+ ///
+ UINT32 TM2:1;
+ UINT32 Reserved5:2;
+ ///
+ /// [Bit 16] Shared. Enhanced Intel SpeedStep Technology Enable (R/W) 1 =
+ /// Enhanced Intel SpeedStep Technology enabled.
+ ///
+ UINT32 EIST:1;
+ UINT32 Reserved6:1;
+ ///
+ /// [Bit 18] Shared. ENABLE MONITOR FSM (R/W) See Table 2-2.
+ ///
+ UINT32 MONITOR:1;
+ UINT32 Reserved7:1;
+ UINT32 Reserved8:2;
+ ///
+ /// [Bit 22] Shared. Limit CPUID Maxval (R/W) See Table 2-2. Setting this
+ /// bit may cause behavior in software that depends on the availability of
+ /// CPUID leaves greater than 2.
+ ///
+ UINT32 LimitCpuidMaxval:1;
+ UINT32 Reserved9:9;
+ UINT32 Reserved10:2;
+ ///
+ /// [Bit 34] Shared. XD Bit Disable (R/W) See Table 2-2.
+ ///
+ UINT32 XD:1;
+ UINT32 Reserved11:29;
+ } Bits;
+ ///
+ /// All bit fields as a 64-bit value
+ ///
+ UINT64 Uint64;
+} MSR_CORE_IA32_MISC_ENABLE_REGISTER;
+
+
+/**
+ Unique. Last Branch Record Stack TOS (R/W) Contains an index (bits 0-3)
+ that points to the MSR containing the most recent branch record. See
+ MSR_LASTBRANCH_0_FROM_IP (at 40H).
+
+ @param ECX MSR_CORE_LASTBRANCH_TOS (0x000001C9)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_LASTBRANCH_TOS);
+ AsmWriteMsr64 (MSR_CORE_LASTBRANCH_TOS, Msr);
+ @endcode
+ @note MSR_CORE_LASTBRANCH_TOS is defined as MSR_LASTBRANCH_TOS in SDM.
+**/
+#define MSR_CORE_LASTBRANCH_TOS 0x000001C9
+
+
+/**
+ Unique. Last Exception Record From Linear IP (R) Contains a pointer to the
+ last branch instruction that the processor executed prior to the last
+ exception that was generated or the last interrupt that was handled.
+
+ @param ECX MSR_CORE_LER_FROM_LIP (0x000001DD)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_LER_FROM_LIP);
+ @endcode
+ @note MSR_CORE_LER_FROM_LIP is defined as MSR_LER_FROM_LIP in SDM.
+**/
+#define MSR_CORE_LER_FROM_LIP 0x000001DD
+
+
+/**
+ Unique. Last Exception Record To Linear IP (R) This area contains a pointer
+ to the target of the last branch instruction that the processor executed
+ prior to the last exception that was generated or the last interrupt that
+ was handled.
+
+ @param ECX MSR_CORE_LER_TO_LIP (0x000001DE)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_LER_TO_LIP);
+ @endcode
+ @note MSR_CORE_LER_TO_LIP is defined as MSR_LER_TO_LIP in SDM.
+**/
+#define MSR_CORE_LER_TO_LIP 0x000001DE
+
+/**
+ Unique.
+
+ @param ECX MSR_CORE_MTRRPHYSBASEn
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_MTRRPHYSBASE0);
+ AsmWriteMsr64 (MSR_CORE_MTRRPHYSBASE0, Msr);
+ @endcode
+ @note MSR_CORE_MTRRPHYSBASE0 is defined as MTRRPHYSBASE0 in SDM.
+ MSR_CORE_MTRRPHYSBASE1 is defined as MTRRPHYSBASE1 in SDM.
+ MSR_CORE_MTRRPHYSBASE2 is defined as MTRRPHYSBASE2 in SDM.
+ MSR_CORE_MTRRPHYSBASE3 is defined as MTRRPHYSBASE3 in SDM.
+ MSR_CORE_MTRRPHYSBASE4 is defined as MTRRPHYSBASE4 in SDM.
+ MSR_CORE_MTRRPHYSBASE5 is defined as MTRRPHYSBASE5 in SDM.
+ MSR_CORE_MTRRPHYSMASK6 is defined as MTRRPHYSMASK6 in SDM.
+ MSR_CORE_MTRRPHYSMASK7 is defined as MTRRPHYSMASK7 in SDM.
+ @{
+**/
+#define MSR_CORE_MTRRPHYSBASE0 0x00000200
+#define MSR_CORE_MTRRPHYSBASE1 0x00000202
+#define MSR_CORE_MTRRPHYSBASE2 0x00000204
+#define MSR_CORE_MTRRPHYSBASE3 0x00000206
+#define MSR_CORE_MTRRPHYSBASE4 0x00000208
+#define MSR_CORE_MTRRPHYSBASE5 0x0000020A
+#define MSR_CORE_MTRRPHYSMASK6 0x0000020D
+#define MSR_CORE_MTRRPHYSMASK7 0x0000020F
+/// @}
+
+
+/**
+ Unique.
+
+ @param ECX MSR_CORE_MTRRPHYSMASKn (0x00000201)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_MTRRPHYSMASK0);
+ AsmWriteMsr64 (MSR_CORE_MTRRPHYSMASK0, Msr);
+ @endcode
+ @note MSR_CORE_MTRRPHYSMASK0 is defined as MTRRPHYSMASK0 in SDM.
+ MSR_CORE_MTRRPHYSMASK1 is defined as MTRRPHYSMASK1 in SDM.
+ MSR_CORE_MTRRPHYSMASK2 is defined as MTRRPHYSMASK2 in SDM.
+ MSR_CORE_MTRRPHYSMASK3 is defined as MTRRPHYSMASK3 in SDM.
+ MSR_CORE_MTRRPHYSMASK4 is defined as MTRRPHYSMASK4 in SDM.
+ MSR_CORE_MTRRPHYSMASK5 is defined as MTRRPHYSMASK5 in SDM.
+ MSR_CORE_MTRRPHYSBASE6 is defined as MTRRPHYSBASE6 in SDM.
+ MSR_CORE_MTRRPHYSBASE7 is defined as MTRRPHYSBASE7 in SDM.
+ @{
+**/
+#define MSR_CORE_MTRRPHYSMASK0 0x00000201
+#define MSR_CORE_MTRRPHYSMASK1 0x00000203
+#define MSR_CORE_MTRRPHYSMASK2 0x00000205
+#define MSR_CORE_MTRRPHYSMASK3 0x00000207
+#define MSR_CORE_MTRRPHYSMASK4 0x00000209
+#define MSR_CORE_MTRRPHYSMASK5 0x0000020B
+#define MSR_CORE_MTRRPHYSBASE6 0x0000020C
+#define MSR_CORE_MTRRPHYSBASE7 0x0000020E
+/// @}
+
+
+/**
+ Unique.
+
+ @param ECX MSR_CORE_MTRRFIX64K_00000 (0x00000250)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_MTRRFIX64K_00000);
+ AsmWriteMsr64 (MSR_CORE_MTRRFIX64K_00000, Msr);
+ @endcode
+ @note MSR_CORE_MTRRFIX64K_00000 is defined as MTRRFIX64K_00000 in SDM.
+**/
+#define MSR_CORE_MTRRFIX64K_00000 0x00000250
+
+
+/**
+ Unique.
+
+ @param ECX MSR_CORE_MTRRFIX16K_80000 (0x00000258)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_MTRRFIX16K_80000);
+ AsmWriteMsr64 (MSR_CORE_MTRRFIX16K_80000, Msr);
+ @endcode
+ @note MSR_CORE_MTRRFIX16K_80000 is defined as MTRRFIX16K_80000 in SDM.
+**/
+#define MSR_CORE_MTRRFIX16K_80000 0x00000258
+
+
+/**
+ Unique.
+
+ @param ECX MSR_CORE_MTRRFIX16K_A0000 (0x00000259)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_MTRRFIX16K_A0000);
+ AsmWriteMsr64 (MSR_CORE_MTRRFIX16K_A0000, Msr);
+ @endcode
+ @note MSR_CORE_MTRRFIX16K_A0000 is defined as MTRRFIX16K_A0000 in SDM.
+**/
+#define MSR_CORE_MTRRFIX16K_A0000 0x00000259
+
+
+/**
+ Unique.
+
+ @param ECX MSR_CORE_MTRRFIX4K_C0000 (0x00000268)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_MTRRFIX4K_C0000);
+ AsmWriteMsr64 (MSR_CORE_MTRRFIX4K_C0000, Msr);
+ @endcode
+ @note MSR_CORE_MTRRFIX4K_C0000 is defined as MTRRFIX4K_C0000 in SDM.
+**/
+#define MSR_CORE_MTRRFIX4K_C0000 0x00000268
+
+
+/**
+ Unique.
+
+ @param ECX MSR_CORE_MTRRFIX4K_C8000 (0x00000269)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_MTRRFIX4K_C8000);
+ AsmWriteMsr64 (MSR_CORE_MTRRFIX4K_C8000, Msr);
+ @endcode
+ @note MSR_CORE_MTRRFIX4K_C8000 is defined as MTRRFIX4K_C8000 in SDM.
+**/
+#define MSR_CORE_MTRRFIX4K_C8000 0x00000269
+
+
+/**
+ Unique.
+
+ @param ECX MSR_CORE_MTRRFIX4K_D0000 (0x0000026A)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_MTRRFIX4K_D0000);
+ AsmWriteMsr64 (MSR_CORE_MTRRFIX4K_D0000, Msr);
+ @endcode
+ @note MSR_CORE_MTRRFIX4K_D0000 is defined as MTRRFIX4K_D0000 in SDM.
+**/
+#define MSR_CORE_MTRRFIX4K_D0000 0x0000026A
+
+
+/**
+ Unique.
+
+ @param ECX MSR_CORE_MTRRFIX4K_D8000 (0x0000026B)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_MTRRFIX4K_D8000);
+ AsmWriteMsr64 (MSR_CORE_MTRRFIX4K_D8000, Msr);
+ @endcode
+ @note MSR_CORE_MTRRFIX4K_D8000 is defined as MTRRFIX4K_D8000 in SDM.
+**/
+#define MSR_CORE_MTRRFIX4K_D8000 0x0000026B
+
+
+/**
+ Unique.
+
+ @param ECX MSR_CORE_MTRRFIX4K_E0000 (0x0000026C)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_MTRRFIX4K_E0000);
+ AsmWriteMsr64 (MSR_CORE_MTRRFIX4K_E0000, Msr);
+ @endcode
+ @note MSR_CORE_MTRRFIX4K_E0000 is defined as MTRRFIX4K_E0000 in SDM.
+**/
+#define MSR_CORE_MTRRFIX4K_E0000 0x0000026C
+
+
+/**
+ Unique.
+
+ @param ECX MSR_CORE_MTRRFIX4K_E8000 (0x0000026D)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_MTRRFIX4K_E8000);
+ AsmWriteMsr64 (MSR_CORE_MTRRFIX4K_E8000, Msr);
+ @endcode
+ @note MSR_CORE_MTRRFIX4K_E8000 is defined as MTRRFIX4K_E8000 in SDM.
+**/
+#define MSR_CORE_MTRRFIX4K_E8000 0x0000026D
+
+
+/**
+ Unique.
+
+ @param ECX MSR_CORE_MTRRFIX4K_F0000 (0x0000026E)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_MTRRFIX4K_F0000);
+ AsmWriteMsr64 (MSR_CORE_MTRRFIX4K_F0000, Msr);
+ @endcode
+ @note MSR_CORE_MTRRFIX4K_F0000 is defined as MTRRFIX4K_F0000 in SDM.
+**/
+#define MSR_CORE_MTRRFIX4K_F0000 0x0000026E
+
+
+/**
+ Unique.
+
+ @param ECX MSR_CORE_MTRRFIX4K_F8000 (0x0000026F)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_MTRRFIX4K_F8000);
+ AsmWriteMsr64 (MSR_CORE_MTRRFIX4K_F8000, Msr);
+ @endcode
+ @note MSR_CORE_MTRRFIX4K_F8000 is defined as MTRRFIX4K_F8000 in SDM.
+**/
+#define MSR_CORE_MTRRFIX4K_F8000 0x0000026F
+
+
+/**
+ Unique. See Section 15.3.2.1, "IA32_MCi_CTL MSRs.".
+
+ @param ECX MSR_CORE_MC4_CTL (0x0000040C)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_MC4_CTL);
+ AsmWriteMsr64 (MSR_CORE_MC4_CTL, Msr);
+ @endcode
+ @note MSR_CORE_MC4_CTL is defined as MSR_MC4_CTL in SDM.
+**/
+#define MSR_CORE_MC4_CTL 0x0000040C
+
+
+/**
+ Unique. See Section 15.3.2.2, "IA32_MCi_STATUS MSRS.".
+
+ @param ECX MSR_CORE_MC4_STATUS (0x0000040D)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_MC4_STATUS);
+ AsmWriteMsr64 (MSR_CORE_MC4_STATUS, Msr);
+ @endcode
+ @note MSR_CORE_MC4_STATUS is defined as MSR_MC4_STATUS in SDM.
+**/
+#define MSR_CORE_MC4_STATUS 0x0000040D
+
+
+/**
+ Unique. See Section 15.3.2.3, "IA32_MCi_ADDR MSRs." The MSR_MC4_ADDR
+ register is either not implemented or contains no address if the ADDRV flag
+ in the MSR_MC4_STATUS register is clear. When not implemented in the
+ processor, all reads and writes to this MSR will cause a general-protection
+ exception.
+
+ @param ECX MSR_CORE_MC4_ADDR (0x0000040E)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_MC4_ADDR);
+ AsmWriteMsr64 (MSR_CORE_MC4_ADDR, Msr);
+ @endcode
+ @note MSR_CORE_MC4_ADDR is defined as MSR_MC4_ADDR in SDM.
+**/
+#define MSR_CORE_MC4_ADDR 0x0000040E
+
+
+/**
+ Unique. See Section 15.3.2.3, "IA32_MCi_ADDR MSRs." The MSR_MC3_ADDR
+ register is either not implemented or contains no address if the ADDRV flag
+ in the MSR_MC3_STATUS register is clear. When not implemented in the
+ processor, all reads and writes to this MSR will cause a general-protection
+ exception.
+
+ @param ECX MSR_CORE_MC3_ADDR (0x00000412)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_MC3_ADDR);
+ AsmWriteMsr64 (MSR_CORE_MC3_ADDR, Msr);
+ @endcode
+ @note MSR_CORE_MC3_ADDR is defined as MSR_MC3_ADDR in SDM.
+**/
+#define MSR_CORE_MC3_ADDR 0x00000412
+
+
+/**
+ Unique.
+
+ @param ECX MSR_CORE_MC3_MISC (0x00000413)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_MC3_MISC);
+ AsmWriteMsr64 (MSR_CORE_MC3_MISC, Msr);
+ @endcode
+ @note MSR_CORE_MC3_MISC is defined as MSR_MC3_MISC in SDM.
+**/
+#define MSR_CORE_MC3_MISC 0x00000413
+
+
+/**
+ Unique.
+
+ @param ECX MSR_CORE_MC5_CTL (0x00000414)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_MC5_CTL);
+ AsmWriteMsr64 (MSR_CORE_MC5_CTL, Msr);
+ @endcode
+ @note MSR_CORE_MC5_CTL is defined as MSR_MC5_CTL in SDM.
+**/
+#define MSR_CORE_MC5_CTL 0x00000414
+
+
+/**
+ Unique.
+
+ @param ECX MSR_CORE_MC5_STATUS (0x00000415)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_MC5_STATUS);
+ AsmWriteMsr64 (MSR_CORE_MC5_STATUS, Msr);
+ @endcode
+ @note MSR_CORE_MC5_STATUS is defined as MSR_MC5_STATUS in SDM.
+**/
+#define MSR_CORE_MC5_STATUS 0x00000415
+
+
+/**
+ Unique.
+
+ @param ECX MSR_CORE_MC5_ADDR (0x00000416)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_MC5_ADDR);
+ AsmWriteMsr64 (MSR_CORE_MC5_ADDR, Msr);
+ @endcode
+ @note MSR_CORE_MC5_ADDR is defined as MSR_MC5_ADDR in SDM.
+**/
+#define MSR_CORE_MC5_ADDR 0x00000416
+
+
+/**
+ Unique.
+
+ @param ECX MSR_CORE_MC5_MISC (0x00000417)
+ @param EAX Lower 32-bits of MSR value.
+ @param EDX Upper 32-bits of MSR value.
+
+ <b>Example usage</b>
+ @code
+ UINT64 Msr;
+
+ Msr = AsmReadMsr64 (MSR_CORE_MC5_MISC);
+ AsmWriteMsr64 (MSR_CORE_MC5_MISC, Msr);
+ @endcode
+ @note MSR_CORE_MC5_MISC is defined as MSR_MC5_MISC in SDM.
+**/
+#define MSR_CORE_MC5_MISC 0x00000417
+
+
+/**
+ Unique. See Table 2-2.
+
+ @param ECX MSR_CORE_IA32_EFER (0xC0000080)
+ @param EAX Lower 32-bits of MSR value.
+ Described by the type MSR_CORE_IA32_EFER_REGISTER.
+ @param EDX Upper 32-bits of MSR value.
+ Described by the type MSR_CORE_IA32_EFER_REGISTER.
+
+ <b>Example usage</b>
+ @code
+ MSR_CORE_IA32_EFER_REGISTER Msr;
+
+ Msr.Uint64 = AsmReadMsr64 (MSR_CORE_IA32_EFER);
+ AsmWriteMsr64 (MSR_CORE_IA32_EFER, Msr.Uint64);
+ @endcode
+ @note MSR_CORE_IA32_EFER is defined as IA32_EFER in SDM.
+**/
+#define MSR_CORE_IA32_EFER 0xC0000080
+
+/**
+ MSR information returned for MSR index #MSR_CORE_IA32_EFER
+**/
+typedef union {
+ ///
+ /// Individual bit fields
+ ///
+ struct {
+ UINT32 Reserved1:11;
+ ///
+ /// [Bit 11] Execute Disable Bit Enable.
+ ///
+ UINT32 NXE:1;
+ UINT32 Reserved2:20;
+ UINT32 Reserved3:32;
+ } Bits;
+ ///
+ /// All bit fields as a 32-bit value
+ ///
+ UINT32 Uint32;
+ ///
+ /// All bit fields as a 64-bit value
+ ///
+ UINT64 Uint64;
+} MSR_CORE_IA32_EFER_REGISTER;
+
+#endif