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1 /** @file
2   MSR Definitions for Pentium M Processors.
3 
4   Provides defines for Machine Specific Registers(MSR) indexes. Data structures
5   are provided for MSRs that contain one or more bit fields.  If the MSR value
6   returned is a single 32-bit or 64-bit value, then a data structure is not
7   provided for that MSR.
8 
9   Copyright (c) 2016, Intel Corporation. All rights reserved.<BR>
10   This program and the accompanying materials
11   are licensed and made available under the terms and conditions of the BSD License
12   which accompanies this distribution.  The full text of the license may be found at
13   http://opensource.org/licenses/bsd-license.php
14 
15   THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
16   WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
17 
18   @par Specification Reference:
19   Intel(R) 64 and IA-32 Architectures Software Developer's Manual, Volume 3,
20   September 2016, Chapter 35 Model-Specific-Registers (MSR), Section 35.20.
21 
22 **/
23 
24 #ifndef __PENTIUM_M_MSR_H__
25 #define __PENTIUM_M_MSR_H__
26 
27 #include <Register/ArchitecturalMsr.h>
28 
29 /**
30   See Section 35.22, "MSRs in Pentium Processors.".
31 
32   @param  ECX  MSR_PENTIUM_M_P5_MC_ADDR (0x00000000)
33   @param  EAX  Lower 32-bits of MSR value.
34   @param  EDX  Upper 32-bits of MSR value.
35 
36   <b>Example usage</b>
37   @code
38   UINT64  Msr;
39 
40   Msr = AsmReadMsr64 (MSR_PENTIUM_M_P5_MC_ADDR);
41   AsmWriteMsr64 (MSR_PENTIUM_M_P5_MC_ADDR, Msr);
42   @endcode
43   @note MSR_PENTIUM_M_P5_MC_ADDR is defined as P5_MC_ADDR in SDM.
44 **/
45 #define MSR_PENTIUM_M_P5_MC_ADDR                 0x00000000
46 
47 
48 /**
49   See Section 35.22, "MSRs in Pentium Processors.".
50 
51   @param  ECX  MSR_PENTIUM_M_P5_MC_TYPE (0x00000001)
52   @param  EAX  Lower 32-bits of MSR value.
53   @param  EDX  Upper 32-bits of MSR value.
54 
55   <b>Example usage</b>
56   @code
57   UINT64  Msr;
58 
59   Msr = AsmReadMsr64 (MSR_PENTIUM_M_P5_MC_TYPE);
60   AsmWriteMsr64 (MSR_PENTIUM_M_P5_MC_TYPE, Msr);
61   @endcode
62   @note MSR_PENTIUM_M_P5_MC_TYPE is defined as P5_MC_TYPE in SDM.
63 **/
64 #define MSR_PENTIUM_M_P5_MC_TYPE                 0x00000001
65 
66 
67 /**
68   Processor Hard Power-On Configuration (R/W) Enables and disables processor
69   features. (R) Indicates current processor configuration.
70 
71   @param  ECX  MSR_PENTIUM_M_EBL_CR_POWERON (0x0000002A)
72   @param  EAX  Lower 32-bits of MSR value.
73                Described by the type MSR_PENTIUM_M_EBL_CR_POWERON_REGISTER.
74   @param  EDX  Upper 32-bits of MSR value.
75                Described by the type MSR_PENTIUM_M_EBL_CR_POWERON_REGISTER.
76 
77   <b>Example usage</b>
78   @code
79   MSR_PENTIUM_M_EBL_CR_POWERON_REGISTER  Msr;
80 
81   Msr.Uint64 = AsmReadMsr64 (MSR_PENTIUM_M_EBL_CR_POWERON);
82   AsmWriteMsr64 (MSR_PENTIUM_M_EBL_CR_POWERON, Msr.Uint64);
83   @endcode
84   @note MSR_PENTIUM_M_EBL_CR_POWERON is defined as MSR_EBL_CR_POWERON in SDM.
85 **/
86 #define MSR_PENTIUM_M_EBL_CR_POWERON             0x0000002A
87 
88 /**
89   MSR information returned for MSR index #MSR_PENTIUM_M_EBL_CR_POWERON
90 **/
91 typedef union {
92   ///
93   /// Individual bit fields
94   ///
95   struct {
96     UINT32  Reserved1:1;
97     ///
98     /// [Bit 1] Data Error Checking Enable (R) 0 = Disabled Always 0 on the
99     /// Pentium M processor.
100     ///
101     UINT32  DataErrorCheckingEnable:1;
102     ///
103     /// [Bit 2] Response Error Checking Enable (R) 0 = Disabled Always 0 on
104     /// the Pentium M processor.
105     ///
106     UINT32  ResponseErrorCheckingEnable:1;
107     ///
108     /// [Bit 3] MCERR# Drive Enable (R)  0 = Disabled Always 0 on the Pentium
109     /// M processor.
110     ///
111     UINT32  MCERR_DriveEnable:1;
112     ///
113     /// [Bit 4] Address Parity Enable (R) 0 = Disabled Always 0 on the Pentium
114     /// M processor.
115     ///
116     UINT32  AddressParityEnable:1;
117     UINT32  Reserved2:2;
118     ///
119     /// [Bit 7] BINIT# Driver Enable (R) 1 = Enabled; 0 = Disabled Always 0 on
120     /// the Pentium M processor.
121     ///
122     UINT32  BINIT_DriverEnable:1;
123     ///
124     /// [Bit 8] Output Tri-state Enabled (R/O) 1 = Enabled; 0 = Disabled.
125     ///
126     UINT32  OutputTriStateEnable:1;
127     ///
128     /// [Bit 9] Execute BIST (R/O) 1 = Enabled; 0 = Disabled.
129     ///
130     UINT32  ExecuteBIST:1;
131     ///
132     /// [Bit 10] MCERR# Observation Enabled (R/O) 1 = Enabled; 0 = Disabled
133     /// Always 0 on the Pentium M processor.
134     ///
135     UINT32  MCERR_ObservationEnabled:1;
136     UINT32  Reserved3:1;
137     ///
138     /// [Bit 12] BINIT# Observation Enabled (R/O) 1 = Enabled; 0 = Disabled
139     /// Always 0 on the Pentium M processor.
140     ///
141     UINT32  BINIT_ObservationEnabled:1;
142     UINT32  Reserved4:1;
143     ///
144     /// [Bit 14] 1 MByte Power on Reset Vector (R/O) 1 = 1 MByte; 0 = 4 GBytes
145     /// Always 0 on the Pentium M processor.
146     ///
147     UINT32  ResetVector:1;
148     UINT32  Reserved5:1;
149     ///
150     /// [Bits 17:16] APIC Cluster ID (R/O) Always 00B on the Pentium M
151     /// processor.
152     ///
153     UINT32  APICClusterID:2;
154     ///
155     /// [Bit 18] System Bus Frequency (R/O) 1. = 100 MHz 2. = Reserved Always
156     /// 0 on the Pentium M processor.
157     ///
158     UINT32  SystemBusFrequency:1;
159     UINT32  Reserved6:1;
160     ///
161     /// [Bits 21:20] Symmetric Arbitration ID (R/O) Always 00B on the Pentium
162     /// M processor.
163     ///
164     UINT32  SymmetricArbitrationID:2;
165     ///
166     /// [Bits 26:22] Clock Frequency Ratio (R/O).
167     ///
168     UINT32  ClockFrequencyRatio:5;
169     UINT32  Reserved7:5;
170     UINT32  Reserved8:32;
171   } Bits;
172   ///
173   /// All bit fields as a 32-bit value
174   ///
175   UINT32  Uint32;
176   ///
177   /// All bit fields as a 64-bit value
178   ///
179   UINT64  Uint64;
180 } MSR_PENTIUM_M_EBL_CR_POWERON_REGISTER;
181 
182 
183 /**
184   Last Branch Record n (R/W) One of 8 last branch record registers on the last
185   branch record stack: bits 31-0 hold the 'from' address and bits 63-32 hold
186   the to address. See also: -  Last Branch Record Stack TOS at 1C9H -  Section
187   17.13, "Last Branch, Interrupt, and Exception Recording (Pentium M
188   Processors)".
189 
190   @param  ECX  MSR_PENTIUM_M_LASTBRANCH_n
191   @param  EAX  Lower 32-bits of MSR value.
192   @param  EDX  Upper 32-bits of MSR value.
193 
194   <b>Example usage</b>
195   @code
196   UINT64  Msr;
197 
198   Msr = AsmReadMsr64 (MSR_PENTIUM_M_LASTBRANCH_0);
199   AsmWriteMsr64 (MSR_PENTIUM_M_LASTBRANCH_0, Msr);
200   @endcode
201   @note MSR_PENTIUM_M_LASTBRANCH_0 is defined as MSR_LASTBRANCH_0 in SDM.
202         MSR_PENTIUM_M_LASTBRANCH_1 is defined as MSR_LASTBRANCH_1 in SDM.
203         MSR_PENTIUM_M_LASTBRANCH_2 is defined as MSR_LASTBRANCH_2 in SDM.
204         MSR_PENTIUM_M_LASTBRANCH_3 is defined as MSR_LASTBRANCH_3 in SDM.
205         MSR_PENTIUM_M_LASTBRANCH_4 is defined as MSR_LASTBRANCH_4 in SDM.
206         MSR_PENTIUM_M_LASTBRANCH_5 is defined as MSR_LASTBRANCH_5 in SDM.
207         MSR_PENTIUM_M_LASTBRANCH_6 is defined as MSR_LASTBRANCH_6 in SDM.
208         MSR_PENTIUM_M_LASTBRANCH_7 is defined as MSR_LASTBRANCH_7 in SDM.
209   @{
210 **/
211 #define MSR_PENTIUM_M_LASTBRANCH_0               0x00000040
212 #define MSR_PENTIUM_M_LASTBRANCH_1               0x00000041
213 #define MSR_PENTIUM_M_LASTBRANCH_2               0x00000042
214 #define MSR_PENTIUM_M_LASTBRANCH_3               0x00000043
215 #define MSR_PENTIUM_M_LASTBRANCH_4               0x00000044
216 #define MSR_PENTIUM_M_LASTBRANCH_5               0x00000045
217 #define MSR_PENTIUM_M_LASTBRANCH_6               0x00000046
218 #define MSR_PENTIUM_M_LASTBRANCH_7               0x00000047
219 /// @}
220 
221 
222 /**
223   Reserved.
224 
225   @param  ECX  MSR_PENTIUM_M_BBL_CR_CTL (0x00000119)
226   @param  EAX  Lower 32-bits of MSR value.
227   @param  EDX  Upper 32-bits of MSR value.
228 
229   <b>Example usage</b>
230   @code
231   UINT64  Msr;
232 
233   Msr = AsmReadMsr64 (MSR_PENTIUM_M_BBL_CR_CTL);
234   AsmWriteMsr64 (MSR_PENTIUM_M_BBL_CR_CTL, Msr);
235   @endcode
236   @note MSR_PENTIUM_M_BBL_CR_CTL is defined as MSR_BBL_CR_CTL in SDM.
237 **/
238 #define MSR_PENTIUM_M_BBL_CR_CTL                 0x00000119
239 
240 
241 /**
242 
243 
244   @param  ECX  MSR_PENTIUM_M_BBL_CR_CTL3 (0x0000011E)
245   @param  EAX  Lower 32-bits of MSR value.
246                Described by the type MSR_PENTIUM_M_BBL_CR_CTL3_REGISTER.
247   @param  EDX  Upper 32-bits of MSR value.
248                Described by the type MSR_PENTIUM_M_BBL_CR_CTL3_REGISTER.
249 
250   <b>Example usage</b>
251   @code
252   MSR_PENTIUM_M_BBL_CR_CTL3_REGISTER  Msr;
253 
254   Msr.Uint64 = AsmReadMsr64 (MSR_PENTIUM_M_BBL_CR_CTL3);
255   AsmWriteMsr64 (MSR_PENTIUM_M_BBL_CR_CTL3, Msr.Uint64);
256   @endcode
257   @note MSR_PENTIUM_M_BBL_CR_CTL3 is defined as MSR_BBL_CR_CTL3 in SDM.
258 **/
259 #define MSR_PENTIUM_M_BBL_CR_CTL3                0x0000011E
260 
261 /**
262   MSR information returned for MSR index #MSR_PENTIUM_M_BBL_CR_CTL3
263 **/
264 typedef union {
265   ///
266   /// Individual bit fields
267   ///
268   struct {
269     ///
270     /// [Bit 0] L2 Hardware Enabled (RO) 1 = If the L2 is hardware-enabled 0 =
271     /// Indicates if the L2 is hardware-disabled.
272     ///
273     UINT32  L2HardwareEnabled:1;
274     UINT32  Reserved1:4;
275     ///
276     /// [Bit 5] ECC Check Enable (RO) This bit enables ECC checking on the
277     /// cache data bus. ECC is always generated on write cycles. 1. = Disabled
278     /// (default) 2. = Enabled For the Pentium M processor, ECC checking on
279     /// the cache data bus is always enabled.
280     ///
281     UINT32  ECCCheckEnable:1;
282     UINT32  Reserved2:2;
283     ///
284     /// [Bit 8] L2 Enabled (R/W)  1 = L2 cache has been initialized 0 =
285     /// Disabled (default) Until this bit is set the processor will not
286     /// respond to the WBINVD instruction or the assertion of the FLUSH# input.
287     ///
288     UINT32  L2Enabled:1;
289     UINT32  Reserved3:14;
290     ///
291     /// [Bit 23] L2 Not Present (RO)  1. = L2 Present 2. = L2 Not Present.
292     ///
293     UINT32  L2NotPresent:1;
294     UINT32  Reserved4:8;
295     UINT32  Reserved5:32;
296   } Bits;
297   ///
298   /// All bit fields as a 32-bit value
299   ///
300   UINT32  Uint32;
301   ///
302   /// All bit fields as a 64-bit value
303   ///
304   UINT64  Uint64;
305 } MSR_PENTIUM_M_BBL_CR_CTL3_REGISTER;
306 
307 
308 /**
309 
310 
311   @param  ECX  MSR_PENTIUM_M_THERM2_CTL (0x0000019D)
312   @param  EAX  Lower 32-bits of MSR value.
313                Described by the type MSR_PENTIUM_M_THERM2_CTL_REGISTER.
314   @param  EDX  Upper 32-bits of MSR value.
315                Described by the type MSR_PENTIUM_M_THERM2_CTL_REGISTER.
316 
317   <b>Example usage</b>
318   @code
319   MSR_PENTIUM_M_THERM2_CTL_REGISTER  Msr;
320 
321   Msr.Uint64 = AsmReadMsr64 (MSR_PENTIUM_M_THERM2_CTL);
322   AsmWriteMsr64 (MSR_PENTIUM_M_THERM2_CTL, Msr.Uint64);
323   @endcode
324   @note MSR_PENTIUM_M_THERM2_CTL is defined as MSR_THERM2_CTL in SDM.
325 **/
326 #define MSR_PENTIUM_M_THERM2_CTL                 0x0000019D
327 
328 /**
329   MSR information returned for MSR index #MSR_PENTIUM_M_THERM2_CTL
330 **/
331 typedef union {
332   ///
333   /// Individual bit fields
334   ///
335   struct {
336     UINT32  Reserved1:16;
337     ///
338     /// [Bit 16] TM_SELECT (R/W)  Mode of automatic thermal monitor: 1. =
339     /// Thermal Monitor 1 (thermally-initiated on-die modulation of the
340     /// stop-clock duty cycle) 2. = Thermal Monitor 2 (thermally-initiated
341     /// frequency transitions) If bit 3 of the IA32_MISC_ENABLE register is
342     /// cleared, TM_SELECT has no effect. Neither TM1 nor TM2 will be enabled.
343     ///
344     UINT32  TM_SELECT:1;
345     UINT32  Reserved2:15;
346     UINT32  Reserved3:32;
347   } Bits;
348   ///
349   /// All bit fields as a 32-bit value
350   ///
351   UINT32  Uint32;
352   ///
353   /// All bit fields as a 64-bit value
354   ///
355   UINT64  Uint64;
356 } MSR_PENTIUM_M_THERM2_CTL_REGISTER;
357 
358 
359 /**
360   Enable Miscellaneous Processor Features (R/W) Allows a variety of processor
361   functions to be enabled and disabled.
362 
363   @param  ECX  MSR_PENTIUM_M_IA32_MISC_ENABLE (0x000001A0)
364   @param  EAX  Lower 32-bits of MSR value.
365                Described by the type MSR_PENTIUM_M_IA32_MISC_ENABLE_REGISTER.
366   @param  EDX  Upper 32-bits of MSR value.
367                Described by the type MSR_PENTIUM_M_IA32_MISC_ENABLE_REGISTER.
368 
369   <b>Example usage</b>
370   @code
371   MSR_PENTIUM_M_IA32_MISC_ENABLE_REGISTER  Msr;
372 
373   Msr.Uint64 = AsmReadMsr64 (MSR_PENTIUM_M_IA32_MISC_ENABLE);
374   AsmWriteMsr64 (MSR_PENTIUM_M_IA32_MISC_ENABLE, Msr.Uint64);
375   @endcode
376   @note MSR_PENTIUM_M_IA32_MISC_ENABLE is defined as IA32_MISC_ENABLE in SDM.
377 **/
378 #define MSR_PENTIUM_M_IA32_MISC_ENABLE           0x000001A0
379 
380 /**
381   MSR information returned for MSR index #MSR_PENTIUM_M_IA32_MISC_ENABLE
382 **/
383 typedef union {
384   ///
385   /// Individual bit fields
386   ///
387   struct {
388     UINT32  Reserved1:3;
389     ///
390     /// [Bit 3] Automatic Thermal Control Circuit Enable (R/W)  1 = Setting
391     /// this bit enables the thermal control circuit (TCC) portion of the
392     /// Intel Thermal Monitor feature. This allows processor clocks to be
393     /// automatically modulated based on the processor's thermal sensor
394     /// operation. 0 = Disabled (default). The automatic thermal control
395     /// circuit enable bit determines if the thermal control circuit (TCC)
396     /// will be activated when the processor's internal thermal sensor
397     /// determines the processor is about to exceed its maximum operating
398     /// temperature. When the TCC is activated and TM1 is enabled, the
399     /// processors clocks will be forced to a 50% duty cycle. BIOS must enable
400     /// this feature. The bit should not be confused with the on-demand
401     /// thermal control circuit enable bit.
402     ///
403     UINT32  AutomaticThermalControlCircuit:1;
404     UINT32  Reserved2:3;
405     ///
406     /// [Bit 7] Performance Monitoring Available (R)  1 = Performance
407     /// monitoring enabled 0 = Performance monitoring disabled.
408     ///
409     UINT32  PerformanceMonitoring:1;
410     UINT32  Reserved3:2;
411     ///
412     /// [Bit 10] FERR# Multiplexing Enable (R/W) 1 = FERR# asserted by the
413     /// processor to indicate a pending break event within the processor 0 =
414     /// Indicates compatible FERR# signaling behavior This bit must be set to
415     /// 1 to support XAPIC interrupt model usage.
416     ///   **Branch Trace Storage Unavailable (RO)** 1 = Processor doesn't
417     ///   support branch trace storage (BTS) 0 = BTS is supported
418     ///
419     UINT32  FERR:1;
420     ///
421     /// [Bit 11] Branch Trace Storage Unavailable (RO)
422     /// 1 = Processor doesn't support branch trace storage (BTS)
423     /// 0 = BTS is supported
424     ///
425     UINT32  BTS:1;
426     ///
427     /// [Bit 12] Processor Event Based Sampling Unavailable (RO)  1 =
428     /// Processor does not support processor event based sampling (PEBS); 0 =
429     /// PEBS is supported. The Pentium M processor does not support PEBS.
430     ///
431     UINT32  PEBS:1;
432     UINT32  Reserved5:3;
433     ///
434     /// [Bit 16] Enhanced Intel SpeedStep Technology Enable (R/W)  1 =
435     /// Enhanced Intel SpeedStep Technology enabled. On the Pentium M
436     /// processor, this bit may be configured to be read-only.
437     ///
438     UINT32  EIST:1;
439     UINT32  Reserved6:6;
440     ///
441     /// [Bit 23] xTPR Message Disable (R/W) When set to 1, xTPR messages are
442     /// disabled. xTPR messages are optional messages that allow the processor
443     /// to inform the chipset of its priority. The default is processor
444     /// specific.
445     ///
446     UINT32  xTPR_Message_Disable:1;
447     UINT32  Reserved7:8;
448     UINT32  Reserved8:32;
449   } Bits;
450   ///
451   /// All bit fields as a 32-bit value
452   ///
453   UINT32  Uint32;
454   ///
455   /// All bit fields as a 64-bit value
456   ///
457   UINT64  Uint64;
458 } MSR_PENTIUM_M_IA32_MISC_ENABLE_REGISTER;
459 
460 
461 /**
462   Last Branch Record Stack TOS (R/W)  Contains an index (bits 0-3) that points
463   to the MSR containing the most recent branch record. See also: -
464   MSR_LASTBRANCH_0_FROM_IP (at 40H) -  Section 17.13, "Last Branch, Interrupt,
465   and Exception Recording (Pentium M Processors)".
466 
467   @param  ECX  MSR_PENTIUM_M_LASTBRANCH_TOS (0x000001C9)
468   @param  EAX  Lower 32-bits of MSR value.
469   @param  EDX  Upper 32-bits of MSR value.
470 
471   <b>Example usage</b>
472   @code
473   UINT64  Msr;
474 
475   Msr = AsmReadMsr64 (MSR_PENTIUM_M_LASTBRANCH_TOS);
476   AsmWriteMsr64 (MSR_PENTIUM_M_LASTBRANCH_TOS, Msr);
477   @endcode
478   @note MSR_PENTIUM_M_LASTBRANCH_TOS is defined as MSR_LASTBRANCH_TOS in SDM.
479 **/
480 #define MSR_PENTIUM_M_LASTBRANCH_TOS             0x000001C9
481 
482 
483 /**
484   Debug Control (R/W)  Controls how several debug features are used. Bit
485   definitions are discussed in the referenced section. See Section 17.13,
486   "Last Branch, Interrupt, and Exception Recording (Pentium M Processors).".
487 
488   @param  ECX  MSR_PENTIUM_M_DEBUGCTLB (0x000001D9)
489   @param  EAX  Lower 32-bits of MSR value.
490   @param  EDX  Upper 32-bits of MSR value.
491 
492   <b>Example usage</b>
493   @code
494   UINT64  Msr;
495 
496   Msr = AsmReadMsr64 (MSR_PENTIUM_M_DEBUGCTLB);
497   AsmWriteMsr64 (MSR_PENTIUM_M_DEBUGCTLB, Msr);
498   @endcode
499   @note MSR_PENTIUM_M_DEBUGCTLB is defined as MSR_DEBUGCTLB in SDM.
500 **/
501 #define MSR_PENTIUM_M_DEBUGCTLB                  0x000001D9
502 
503 
504 /**
505   Last Exception Record To Linear IP (R)  This area contains a pointer to the
506   target of the last branch instruction that the processor executed prior to
507   the last exception that was generated or the last interrupt that was
508   handled. See Section 17.13, "Last Branch, Interrupt, and Exception Recording
509   (Pentium M Processors)" and Section 17.14.2, "Last Branch and Last Exception
510   MSRs.".
511 
512   @param  ECX  MSR_PENTIUM_M_LER_TO_LIP (0x000001DD)
513   @param  EAX  Lower 32-bits of MSR value.
514   @param  EDX  Upper 32-bits of MSR value.
515 
516   <b>Example usage</b>
517   @code
518   UINT64  Msr;
519 
520   Msr = AsmReadMsr64 (MSR_PENTIUM_M_LER_TO_LIP);
521   @endcode
522   @note MSR_PENTIUM_M_LER_TO_LIP is defined as MSR_LER_TO_LIP in SDM.
523 **/
524 #define MSR_PENTIUM_M_LER_TO_LIP                 0x000001DD
525 
526 
527 /**
528   Last Exception Record From Linear IP (R)  Contains a pointer to the last
529   branch instruction that the processor executed prior to the last exception
530   that was generated or the last interrupt that was handled. See Section
531   17.13, "Last Branch, Interrupt, and Exception Recording (Pentium M
532   Processors)" and Section 17.14.2, "Last Branch and Last Exception MSRs.".
533 
534   @param  ECX  MSR_PENTIUM_M_LER_FROM_LIP (0x000001DE)
535   @param  EAX  Lower 32-bits of MSR value.
536   @param  EDX  Upper 32-bits of MSR value.
537 
538   <b>Example usage</b>
539   @code
540   UINT64  Msr;
541 
542   Msr = AsmReadMsr64 (MSR_PENTIUM_M_LER_FROM_LIP);
543   @endcode
544   @note MSR_PENTIUM_M_LER_FROM_LIP is defined as MSR_LER_FROM_LIP in SDM.
545 **/
546 #define MSR_PENTIUM_M_LER_FROM_LIP               0x000001DE
547 
548 
549 /**
550   See Section 15.3.2.1, "IA32_MCi_CTL MSRs.".
551 
552   @param  ECX  MSR_PENTIUM_M_MC4_CTL (0x0000040C)
553   @param  EAX  Lower 32-bits of MSR value.
554   @param  EDX  Upper 32-bits of MSR value.
555 
556   <b>Example usage</b>
557   @code
558   UINT64  Msr;
559 
560   Msr = AsmReadMsr64 (MSR_PENTIUM_M_MC4_CTL);
561   AsmWriteMsr64 (MSR_PENTIUM_M_MC4_CTL, Msr);
562   @endcode
563   @note MSR_PENTIUM_M_MC4_CTL is defined as MSR_MC4_CTL in SDM.
564 **/
565 #define MSR_PENTIUM_M_MC4_CTL                    0x0000040C
566 
567 
568 /**
569   See Section 15.3.2.2, "IA32_MCi_STATUS MSRS.".
570 
571   @param  ECX  MSR_PENTIUM_M_MC4_STATUS (0x0000040D)
572   @param  EAX  Lower 32-bits of MSR value.
573   @param  EDX  Upper 32-bits of MSR value.
574 
575   <b>Example usage</b>
576   @code
577   UINT64  Msr;
578 
579   Msr = AsmReadMsr64 (MSR_PENTIUM_M_MC4_STATUS);
580   AsmWriteMsr64 (MSR_PENTIUM_M_MC4_STATUS, Msr);
581   @endcode
582   @note MSR_PENTIUM_M_MC4_STATUS is defined as MSR_MC4_STATUS in SDM.
583 **/
584 #define MSR_PENTIUM_M_MC4_STATUS                 0x0000040D
585 
586 
587 /**
588   See Section 15.3.2.3, "IA32_MCi_ADDR MSRs." The MSR_MC4_ADDR register is
589   either not implemented or contains no address if the ADDRV flag in the
590   MSR_MC4_STATUS register is clear. When not implemented in the processor, all
591   reads and writes to this MSR will cause a general-protection exception.
592 
593   @param  ECX  MSR_PENTIUM_M_MC4_ADDR (0x0000040E)
594   @param  EAX  Lower 32-bits of MSR value.
595   @param  EDX  Upper 32-bits of MSR value.
596 
597   <b>Example usage</b>
598   @code
599   UINT64  Msr;
600 
601   Msr = AsmReadMsr64 (MSR_PENTIUM_M_MC4_ADDR);
602   AsmWriteMsr64 (MSR_PENTIUM_M_MC4_ADDR, Msr);
603   @endcode
604   @note MSR_PENTIUM_M_MC4_ADDR is defined as MSR_MC4_ADDR in SDM.
605 **/
606 #define MSR_PENTIUM_M_MC4_ADDR                   0x0000040E
607 
608 
609 /**
610   See Section 15.3.2.1, "IA32_MCi_CTL MSRs.".
611 
612   @param  ECX  MSR_PENTIUM_M_MC3_CTL (0x00000410)
613   @param  EAX  Lower 32-bits of MSR value.
614   @param  EDX  Upper 32-bits of MSR value.
615 
616   <b>Example usage</b>
617   @code
618   UINT64  Msr;
619 
620   Msr = AsmReadMsr64 (MSR_PENTIUM_M_MC3_CTL);
621   AsmWriteMsr64 (MSR_PENTIUM_M_MC3_CTL, Msr);
622   @endcode
623   @note MSR_PENTIUM_M_MC3_CTL is defined as MSR_MC3_CTL in SDM.
624 **/
625 #define MSR_PENTIUM_M_MC3_CTL                    0x00000410
626 
627 
628 /**
629   See Section 15.3.2.2, "IA32_MCi_STATUS MSRS.".
630 
631   @param  ECX  MSR_PENTIUM_M_MC3_STATUS (0x00000411)
632   @param  EAX  Lower 32-bits of MSR value.
633   @param  EDX  Upper 32-bits of MSR value.
634 
635   <b>Example usage</b>
636   @code
637   UINT64  Msr;
638 
639   Msr = AsmReadMsr64 (MSR_PENTIUM_M_MC3_STATUS);
640   AsmWriteMsr64 (MSR_PENTIUM_M_MC3_STATUS, Msr);
641   @endcode
642   @note MSR_PENTIUM_M_MC3_STATUS is defined as MSR_MC3_STATUS in SDM.
643 **/
644 #define MSR_PENTIUM_M_MC3_STATUS                 0x00000411
645 
646 
647 /**
648   See Section 15.3.2.3, "IA32_MCi_ADDR MSRs." The MSR_MC3_ADDR register is
649   either not implemented or contains no address if the ADDRV flag in the
650   MSR_MC3_STATUS register is clear. When not implemented in the processor, all
651   reads and writes to this MSR will cause a general-protection exception.
652 
653   @param  ECX  MSR_PENTIUM_M_MC3_ADDR (0x00000412)
654   @param  EAX  Lower 32-bits of MSR value.
655   @param  EDX  Upper 32-bits of MSR value.
656 
657   <b>Example usage</b>
658   @code
659   UINT64  Msr;
660 
661   Msr = AsmReadMsr64 (MSR_PENTIUM_M_MC3_ADDR);
662   AsmWriteMsr64 (MSR_PENTIUM_M_MC3_ADDR, Msr);
663   @endcode
664   @note MSR_PENTIUM_M_MC3_ADDR is defined as MSR_MC3_ADDR in SDM.
665 **/
666 #define MSR_PENTIUM_M_MC3_ADDR                   0x00000412
667 
668 #endif
669