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1 /** @file
2   STM API definition
3 
4   Copyright (c) 2015 - 2016, Intel Corporation. All rights reserved.<BR>
5   This program and the accompanying materials
6   are licensed and made available under the terms and conditions of the BSD License
7   which accompanies this distribution.  The full text of the license may be found at
8   http://opensource.org/licenses/bsd-license.php.
9 
10   THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
11   WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
12 
13   @par Specification Reference:
14   SMI Transfer Monitor (STM) User Guide Revision 1.00
15 
16 **/
17 
18 #ifndef _STM_API_H_
19 #define _STM_API_H_
20 
21 #include <Register/StmStatusCode.h>
22 #include <Register/StmResourceDescriptor.h>
23 #include <Register/ArchitecturalMsr.h>
24 
25 #pragma pack (1)
26 
27 /**
28   STM Header Structures
29 **/
30 
31 typedef struct {
32   UINT32  Intel64ModeSupported :1;  ///> bitfield
33   UINT32  EptSupported         :1;  ///> bitfield
34   UINT32  Reserved             :30; ///> must be 0
35 } STM_FEAT;
36 
37 #define STM_SPEC_VERSION_MAJOR  1
38 #define STM_SPEC_VERSION_MINOR  0
39 
40 typedef struct {
41   UINT8     StmSpecVerMajor;
42   UINT8     StmSpecVerMinor;
43   ///
44   /// Must be zero
45   ///
46   UINT16    Reserved;
47   UINT32    StaticImageSize;
48   UINT32    PerProcDynamicMemorySize;
49   UINT32    AdditionalDynamicMemorySize;
50   STM_FEAT  StmFeatures;
51   UINT32    NumberOfRevIDs;
52   UINT32    StmSmmRevID[1];
53   ///
54   /// The total STM_HEADER should be 4K.
55   ///
56 } SOFTWARE_STM_HEADER;
57 
58 typedef struct {
59   MSEG_HEADER          HwStmHdr;
60   SOFTWARE_STM_HEADER  SwStmHdr;
61 } STM_HEADER;
62 
63 
64 /**
65   VMCALL API Numbers
66   API number convention: BIOS facing VMCALL interfaces have bit 16 clear
67 **/
68 
69 /**
70   StmMapAddressRange enables a SMM guest to create a non-1:1 virtual to
71   physical mapping of an address range into the SMM guest's virtual
72   memory space.
73 
74   @param  EAX  #STM_API_MAP_ADDRESS_RANGE (0x00000001)
75   @param  EBX  Low 32 bits of physical address of caller allocated
76                STM_MAP_ADDRESS_RANGE_DESCRIPTOR structure.
77   @param  ECX  High 32 bits of physical address of caller allocated
78                STM_MAP_ADDRESS_RANGE_DESCRIPTOR structure. If Intel64Mode is
79                clear (0), ECX must be 0.
80 
81   @note  All fields of STM_MAP_ADDRESS_RANGE_DESCRIPTOR are inputs only. They
82          are not modified by StmMapAddressRange.
83 
84   @retval  CF   0
85                 No error, EAX set to STM_SUCCESS.
86                 The memory range was mapped as requested.
87   @retval  CF   1
88                 An error occurred, EAX holds relevant error value.
89   @retval  EAX  #ERROR_STM_SECURITY_VIOLATION
90                 The requested mapping contains a protected resource.
91   @retval  EAX  #ERROR_STM_CACHE_TYPE_NOT_SUPPORTED
92                 The requested cache type could not be satisfied.
93   @retval  EAX  #ERROR_STM_PAGE_NOT_FOUND
94                 Page count must not be zero.
95   @retval  EAX  #ERROR_STM_FUNCTION_NOT_SUPPORTED
96                 STM supports EPT and has not implemented StmMapAddressRange().
97   @retval  EAX  #ERROR_STM_UNSPECIFIED
98                 An unspecified error occurred.
99 
100   @note  All other registers unmodified.
101 **/
102 #define STM_API_MAP_ADDRESS_RANGE                  0x00000001
103 
104 /**
105   STM Map Address Range Descriptor for #STM_API_MAP_ADDRESS_RANGE VMCALL
106 **/
107 typedef struct {
108   UINT64  PhysicalAddress;
109   UINT64  VirtualAddress;
110   UINT32  PageCount;
111   UINT32  PatCacheType;
112 } STM_MAP_ADDRESS_RANGE_DESCRIPTOR;
113 
114 /**
115   Define values for PatCacheType field of #STM_MAP_ADDRESS_RANGE_DESCRIPTOR
116   @{
117 **/
118 #define STM_MAP_ADDRESS_RANGE_PAT_CACHE_TYPE_ST_UC        0x00
119 #define STM_MAP_ADDRESS_RANGE_PAT_CACHE_TYPE_WC           0x01
120 #define STM_MAP_ADDRESS_RANGE_PAT_CACHE_TYPE_WT           0x04
121 #define STM_MAP_ADDRESS_RANGE_PAT_CACHE_TYPE_WP           0x05
122 #define STM_MAP_ADDRESS_RANGE_PAT_CACHE_TYPE_WB           0x06
123 #define STM_MAP_ADDRESS_RANGE_PAT_CACHE_TYPE_UC           0x07
124 #define STM_MAP_ADDRESS_RANGE_PAT_CACHE_TYPE_FOLLOW_MTRR  0xFFFFFFFF
125 /// @}
126 
127 /**
128   StmUnmapAddressRange enables a SMM guest to remove mappings from its page
129   table.
130 
131   If TXT_PROCESSOR_SMM_DESCRIPTOR.EptEnabled bit is set by the STM, BIOS can
132   control its own page tables. In this case, the STM implementation may
133   optionally return ERROR_STM_FUNCTION_NOT_SUPPORTED.
134 
135   @param  EAX  #STM_API_UNMAP_ADDRESS_RANGE (0x00000002)
136   @param  EBX  Low 32 bits of virtual address of caller allocated
137                STM_UNMAP_ADDRESS_RANGE_DESCRIPTOR structure.
138   @param  ECX  High 32 bits of virtual address of caller allocated
139                STM_UNMAP_ADDRESS_RANGE_DESCRIPTOR structure. If Intel64Mode is
140                clear (0), ECX must be zero.
141 
142   @retval  CF   0
143                 No error, EAX set to STM_SUCCESS. The memory range was unmapped
144                 as requested.
145   @retval  CF   1
146                 An error occurred, EAX holds relevant error value.
147   @retval  EAX  #ERROR_STM_FUNCTION_NOT_SUPPORTED
148                 STM supports EPT and has not implemented StmUnmapAddressRange().
149   @retval  EAX  #ERROR_STM_UNSPECIFIED
150                 An unspecified error occurred.
151 
152   @note  All other registers unmodified.
153 **/
154 #define STM_API_UNMAP_ADDRESS_RANGE                0x00000002
155 
156 /**
157   STM Unmap Address Range Descriptor for #STM_API_UNMAP_ADDRESS_RANGE VMCALL
158 **/
159 typedef struct {
160   UINT64  VirtualAddress;
161   UINT32  Length;
162 } STM_UNMAP_ADDRESS_RANGE_DESCRIPTOR;
163 
164 
165 /**
166   Since the normal OS environment runs with a different set of page tables than
167   the SMM guest, virtual mappings will certainly be different. In order to do a
168   guest virtual to host physical translation of an address from the normal OS
169   code (EIP for example), it is necessary to walk the page tables governing the
170   OS page mappings. Since the SMM guest has no direct access to the page tables,
171   it must ask the STM to do this page table walk. This is supported via the
172   StmAddressLookup VMCALL. All OS page table formats need to be supported,
173   (e.g. PAE, PSE, Intel64, EPT, etc.)
174 
175   StmAddressLookup takes a CR3 value and a virtual address from the interrupted
176   code as input and returns the corresponding physical address. It also
177   optionally maps the physical address into the SMM guest's virtual address
178   space. This new mapping persists ONLY for the duration of the SMI and if
179   needed in subsequent SMIs it must be remapped. PAT cache types follow the
180   interrupted environment's page table.
181 
182   If EPT is enabled, OS CR3 only provides guest physical address information,
183   but the SMM guest might also need to know the host physical address. Since
184   SMM does not have direct access rights to EPT (it is protected by the STM),
185   SMM can input InterruptedEptp to let STM help to walk through it, and output
186   the host physical address.
187 
188   @param  EAX  #STM_API_ADDRESS_LOOKUP (0x00000003)
189   @param  EBX  Low 32 bits of virtual address of caller allocated
190                STM_ADDRESS_LOOKUP_DESCRIPTOR structure.
191   @param  ECX  High 32 bits of virtual address of caller allocated
192                STM_ADDRESS_LOOKUP_DESCRIPTOR structure. If Intel64Mode is
193                clear (0), ECX must be zero.
194 
195   @retval  CF   0
196                 No error, EAX set to STM_SUCCESS.  PhysicalAddress contains the
197                 host physical address determined by walking the interrupted SMM
198                 guest's page tables.  SmmGuestVirtualAddress contains the SMM
199                 guest's virtual mapping of the requested address.
200   @retval  CF   1
201                 An error occurred, EAX holds relevant error value.
202   @retval  EAX  #ERROR_STM_SECURITY_VIOLATION
203                 The requested page was a protected page.
204   @retval  EAX  #ERROR_STM_PAGE_NOT_FOUND
205                 The requested virtual address did not exist in the page given
206                 page table.
207   @retval  EAX  #ERROR_STM_BAD_CR3
208                 The CR3 input was invalid. CR3 values must be from one of the
209                 interrupted guest, or from the interrupted guest of another
210                 processor.
211   @retval  EAX  #ERROR_STM_PHYSICAL_OVER_4G
212                 The resulting physical address is greater than 4G and no virtual
213                 address was supplied. The STM could not determine what address
214                 within the SMM guest's virtual address space to do the mapping.
215                 STM_ADDRESS_LOOKUP_DESCRIPTOR field PhysicalAddress contains the
216                 physical address determined by walking the interrupted
217                 environment's page tables.
218   @retval  EAX  #ERROR_STM_VIRTUAL_SPACE_TOO_SMALL
219                 A specific virtual mapping was requested, but
220                 SmmGuestVirtualAddress + Length exceeds 4G and the SMI handler
221                 is running in 32 bit mode.
222   @retval  EAX  #ERROR_STM_UNSPECIFIED
223                 An unspecified error occurred.
224 
225   @note  All other registers unmodified.
226 **/
227 #define STM_API_ADDRESS_LOOKUP                     0x00000003
228 
229 /**
230   STM Lookup Address Range Descriptor for #STM_API_ADDRESS_LOOKUP VMCALL
231 **/
232 typedef struct {
233   UINT64  InterruptedGuestVirtualAddress;
234   UINT32  Length;
235   UINT64  InterruptedCr3;
236   UINT64  InterruptedEptp;
237   UINT32  MapToSmmGuest:2;
238   UINT32  InterruptedCr4Pae:1;
239   UINT32  InterruptedCr4Pse:1;
240   UINT32  InterruptedIa32eMode:1;
241   UINT32  Reserved1:27;
242   UINT32  Reserved2;
243   UINT64  PhysicalAddress;
244   UINT64  SmmGuestVirtualAddress;
245 } STM_ADDRESS_LOOKUP_DESCRIPTOR;
246 
247 /**
248   Define values for the MapToSmmGuest field of #STM_ADDRESS_LOOKUP_DESCRIPTOR
249   @{
250 **/
251 #define STM_ADDRESS_LOOKUP_DESCRIPTOR_DO_NOT_MAP                 0
252 #define STM_ADDRESS_LOOKUP_DESCRIPTOR_ONE_TO_ONE                 1
253 #define STM_ADDRESS_LOOKUP_DESCRIPTOR_VIRTUAL_ADDRESS_SPECIFIED  3
254 /// @}
255 
256 
257 /**
258   When returning from a protection exception (see section 6.2), the SMM guest
259   can instruct the STM to take one of two paths. It can either request a value
260   be logged to the TXT.ERRORCODE register and subsequently reset the machine
261   (indicating it couldn't resolve the problem), or it can request that the STM
262   resume the SMM guest again with the specified register state.
263 
264   Unlike other VMCALL interfaces, StmReturnFromProtectionException behaves more
265   like a jump or an IRET instruction than a "call". It does not return directly
266   to the caller, but indirectly to a different location specified on the
267   caller's stack (see section 6.2) or not at all.
268 
269   If the SMM guest STM protection exception handler itself causes a protection
270   exception (e.g. a single nested exception), or more than 100 un-nested
271   exceptions occur within the scope of a single SMI event, the STM must write
272   STM_CRASH_PROTECTION_EXCEPTION_FAILURE to the TXT.ERRORCODE register and
273   assert TXT.CMD.SYS_RESET. The reason for these restrictions is to simplify
274   the code requirements while still enabling a reasonable debugging capability.
275 
276   @param  EAX  #STM_API_RETURN_FROM_PROTECTION_EXCEPTION (0x00000004)
277   @param  EBX  If 0, resume SMM guest using register state found on exception
278                stack.  If in range 0x01..0x0F, EBX contains a BIOS error code
279                which the STM must record in the TXT.ERRORCODE register and
280                subsequently reset the system via TXT.CMD.SYS_RESET. The value
281                of the TXT.ERRORCODE register is calculated as follows:
282 
283                  TXT.ERRORCODE = (EBX & 0x0F) | STM_CRASH_BIOS_PANIC
284 
285                Values 0x10..0xFFFFFFFF are reserved, do not use.
286 
287 **/
288 #define STM_API_RETURN_FROM_PROTECTION_EXCEPTION   0x00000004
289 
290 
291 /**
292   VMCALL API Numbers
293   API number convention: MLE facing VMCALL interfaces have bit 16 set.
294 
295   The STM configuration lifecycle is as follows:
296     1. SENTER->SINIT->MLE: MLE begins execution with SMI disabled (masked).
297     2. MLE invokes #STM_API_INITIALIZE_PROTECTION VMCALL to prepare STM for
298        setup of initial protection profile. This is done on a single CPU and
299        has global effect.
300     3. MLE invokes #STM_API_PROTECT_RESOURCE VMCALL to define the initial
301        protection profile. The protection profile is global across all CPUs.
302     4. MLE invokes #STM_API_START VMCALL to enable the STM to begin receiving
303        SMI events. This must be done on every logical CPU.
304     5. MLE may invoke #STM_API_PROTECT_RESOURCE VMCALL or
305        #STM_API_UNPROTECT_RESOURCE VMCALL during runtime as many times as
306        necessary.
307     6. MLE invokes #STM_API_STOP VMCALL to disable the STM. SMI is again masked
308        following #STM_API_STOP VMCALL.
309 **/
310 
311 /**
312   StartStmVmcall() is used to configure an STM that is present in MSEG. SMIs
313   should remain disabled from the invocation of GETSEC[SENTER] until they are
314   re-enabled by StartStmVMCALL(). When StartStmVMCALL() returns, SMI is
315   enabled and the STM has been started and is active. Prior to invoking
316   StartStmVMCALL(), the MLE root should first invoke
317   InitializeProtectionVMCALL() followed by as many iterations of
318   ProtectResourceVMCALL() as necessary to establish the initial protection
319   profile.  StartStmVmcall() must be invoked on all processor threads.
320 
321   @param  EAX  #STM_API_START (0x00010001)
322   @param  EDX  STM configuration options. These provide the MLE with the
323                ability to pass configuration parameters to the STM.
324 
325   @retval  CF   0
326                 No error, EAX set to STM_SUCCESS. The STM has been configured
327                 and is now active and the guarding all requested resources.
328   @retval  CF   1
329                 An error occurred, EAX holds relevant error value.
330   @retval  EAX  #ERROR_STM_ALREADY_STARTED
331                 The STM is already configured and active. STM remains active and
332                 guarding previously enabled resource list.
333   @retval  EAX  #ERROR_STM_WITHOUT_SMX_UNSUPPORTED
334                 The StartStmVMCALL() was invoked from VMX root mode, but outside
335                 of SMX. This error code indicates the STM or platform does not
336                 support the STM outside of SMX. The SMI handler remains active
337                 and operates in legacy mode. See Appendix C
338   @retval  EAX  #ERROR_STM_UNSUPPORTED_MSR_BIT
339                 The CPU doesn't support the MSR bit. The STM is not active.
340   @retval  EAX  #ERROR_STM_UNSPECIFIED
341                 An unspecified error occurred.
342 
343   @note  All other registers unmodified.
344 **/
345 #define STM_API_START                              (BIT16 | 1)
346 
347 /**
348   Bit values for EDX input parameter to #STM_API_START VMCALL
349   @{
350 **/
351 #define STM_CONFIG_SMI_UNBLOCKING_BY_VMX_OFF  BIT0
352 /// @}
353 
354 
355 /**
356   The StopStmVMCALL() is invoked by the MLE to teardown an active STM. This is
357   normally done as part of a full teardown of the SMX environment when the
358   system is being shut down. At the time the call is invoked, SMI is enabled
359   and the STM is active.  When the call returns, the STM has been stopped and
360   all STM context is discarded and SMI is disabled.
361 
362   @param  EAX  #STM_API_STOP (0x00010002)
363 
364   @retval  CF   0
365                 No error, EAX set to STM_SUCCESS. The STM has been stopped and
366                 is no longer processing SMI events. SMI is blocked.
367   @retval  CF   1
368                 An error occurred, EAX holds relevant error value.
369   @retval  EAX  #ERROR_STM_STOPPED
370                 The STM was not active.
371   @retval  EAX  #ERROR_STM_UNSPECIFIED
372                 An unspecified error occurred.
373 
374   @note  All other registers unmodified.
375 **/
376 #define STM_API_STOP                               (BIT16 | 2)
377 
378 
379 /**
380   The ProtectResourceVMCALL() is invoked by the MLE root to request protection
381   of specific resources. The request is defined by a STM_RESOURCE_LIST, which
382   may contain more than one resource descriptor. Each resource descriptor is
383   processed separately by the STM. Whether or not protection for any specific
384   resource is granted is returned by the STM via the ReturnStatus bit in the
385   associated STM_RSC_DESC_HEADER.
386 
387   @param  EAX  #STM_API_PROTECT_RESOURCE (0x00010003)
388   @param  EBX  Low 32 bits of physical address of caller allocated
389                STM_RESOURCE_LIST. Bits 11:0 are ignored and assumed to be zero,
390                making the buffer 4K aligned.
391   @param  ECX  High 32 bits of physical address of caller allocated
392                STM_RESOURCE_LIST.
393 
394   @note  All fields of STM_RESOURCE_LIST are inputs only, except for the
395          ReturnStatus bit. On input, the ReturnStatus bit must be clear. On
396          return, the ReturnStatus bit is set for each resource request granted,
397          and clear for each resource request denied. There are no other fields
398          modified by ProtectResourceVMCALL(). The STM_RESOURCE_LIST must be
399          contained entirely within a single 4K page.
400 
401   @retval  CF   0
402                 No error, EAX set to STM_SUCCESS. The STM has successfully
403                 merged the entire protection request into the active protection
404                 profile.  There is therefore no need to check the ReturnStatus
405                 bits in the STM_RESOURCE_LIST.
406   @retval  CF   1
407                 An error occurred, EAX holds relevant error value.
408   @retval  EAX  #ERROR_STM_UNPROTECTABLE_RESOURCE
409                 At least one of the requested resource protections intersects a
410                 BIOS required resource. Therefore, the caller must walk through
411                 the STM_RESOURCE_LIST to determine which of the requested
412                 resources was not granted protection. The entire list must be
413                 traversed since there may be multiple failures.
414   @retval  EAX  #ERROR_STM_MALFORMED_RESOURCE_LIST
415                 The resource list could not be parsed correctly, or did not
416                 terminate before crossing a 4K page boundary. The caller must
417                 walk through the STM_RESOURCE_LIST to determine which of the
418                 requested resources was not granted protection. The entire list
419                 must be traversed since there may be multiple failures.
420   @retval  EAX  #ERROR_STM_OUT_OF_RESOURCES
421                 The STM has encountered an internal error and cannot complete
422                 the request.
423   @retval  EAX  #ERROR_STM_UNSPECIFIED
424                 An unspecified error occurred.
425 
426   @note  All other registers unmodified.
427 **/
428 #define STM_API_PROTECT_RESOURCE                   (BIT16 | 3)
429 
430 
431 /**
432   The UnProtectResourceVMCALL() is invoked by the MLE root to request that the
433   STM allow the SMI handler access to the specified resources.
434 
435   @param  EAX  #STM_API_UNPROTECT_RESOURCE (0x00010004)
436   @param  EBX  Low 32 bits of physical address of caller allocated
437                STM_RESOURCE_LIST. Bits 11:0 are ignored and assumed to be zero,
438                making the buffer 4K aligned.
439   @param  ECX  High 32 bits of physical address of caller allocated
440                STM_RESOURCE_LIST.
441 
442   @note  All fields of STM_RESOURCE_LIST are inputs only, except for the
443          ReturnStatus bit. On input, the ReturnStatus bit must be clear. On
444          return, the ReturnStatus bit is set for each resource processed. For
445          a properly formed STM_RESOURCE_LIST, this should be all resources
446          listed. There are no other fields modified by
447          UnProtectResourceVMCALL(). The STM_RESOURCE_LIST must be contained
448          entirely within a single 4K page.
449 
450   @retval  CF   0
451                 No error, EAX set to STM_SUCCESS. The requested resources are
452                 not being guarded by the STM.
453   @retval  CF   1
454                 An error occurred, EAX holds relevant error value.
455   @retval  EAX  #ERROR_STM_MALFORMED_RESOURCE_LIST
456                 The resource list could not be parsed correctly, or did not
457                 terminate before crossing a 4K page boundary. The caller must
458                 walk through the STM_RESOURCE_LIST to determine which of the
459                 requested resources were not able to be unprotected. The entire
460                 list must be traversed since there may be multiple failures.
461   @retval  EAX  #ERROR_STM_UNSPECIFIED
462                 An unspecified error occurred.
463 
464   @note  All other registers unmodified.
465 **/
466 #define STM_API_UNPROTECT_RESOURCE                 (BIT16 | 4)
467 
468 
469 /**
470   The GetBiosResourcesVMCALL() is invoked by the MLE root to request the list
471   of BIOS required resources from the STM.
472 
473   @param  EAX  #STM_API_GET_BIOS_RESOURCES (0x00010005)
474   @param  EBX  Low 32 bits of physical address of caller allocated destination
475                buffer. Bits 11:0 are ignored and assumed to be zero, making the
476                buffer 4K aligned.
477   @param  ECX  High 32 bits of physical address of caller allocated destination
478                buffer.
479   @param  EDX  Indicates which page of the BIOS resource list to copy into the
480                destination buffer. The first page is indicated by 0, the second
481                page by 1, etc.
482 
483   @retval  CF   0
484                 No error, EAX set to STM_SUCCESS. The destination buffer
485                 contains the BIOS required resources. If the page retrieved is
486                 the last page, EDX will be cleared to 0. If there are more pages
487                 to retrieve, EDX is incremented to the next page index. Calling
488                 software should iterate on GetBiosResourcesVMCALL() until EDX is
489                 returned cleared to 0.
490   @retval  CF   1
491                 An error occurred, EAX holds relevant error value.
492   @retval  EAX  #ERROR_STM_PAGE_NOT_FOUND
493                 The page index supplied in EDX input was out of range.
494   @retval  EAX  #ERROR_STM_UNSPECIFIED
495                 An unspecified error occurred.
496   @retval  EDX  Page index of next page to read. A return of EDX=0 signifies
497                 that the entire list has been read.
498                 @note  EDX is both an input and an output register.
499 
500   @note  All other registers unmodified.
501 **/
502 #define STM_API_GET_BIOS_RESOURCES                 (BIT16 | 5)
503 
504 
505 /**
506   The ManageVmcsDatabaseVMCALL() is invoked by the MLE root to add or remove an
507   MLE guest (including the MLE root) from the list of protected domains.
508 
509   @param  EAX  #STM_API_MANAGE_VMCS_DATABASE (0x00010006)
510   @param  EBX  Low 32 bits of physical address of caller allocated
511                STM_VMCS_DATABASE_REQUEST. Bits 11:0 are ignored and assumed to
512                be zero, making the buffer 4K aligned.
513   @param  ECX  High 32 bits of physical address of caller allocated
514                STM_VMCS_DATABASE_REQUEST.
515 
516   @note  All fields of STM_VMCS_DATABASE_REQUEST are inputs only.  They are not
517          modified by ManageVmcsDatabaseVMCALL().
518 
519   @retval  CF   0
520                 No error, EAX set to STM_SUCCESS.
521   @retval  CF   1
522                 An error occurred, EAX holds relevant error value.
523   @retval  EAX  #ERROR_STM_INVALID_VMCS
524                 Indicates a request to remove a VMCS from the database was made,
525                 but the referenced VMCS was not found in the database.
526   @retval  EAX  #ERROR_STM_VMCS_PRESENT
527                 Indicates a request to add a VMCS to the database was made, but
528                 the referenced VMCS was already present in the database.
529   @retval  EAX  #ERROR_INVALID_PARAMETER
530                 Indicates non-zero reserved field.
531   @retval  EAX  #ERROR_STM_UNSPECIFIED
532                 An unspecified error occurred
533 
534   @note  All other registers unmodified.
535 **/
536 #define STM_API_MANAGE_VMCS_DATABASE               (BIT16 | 6)
537 
538 /**
539   STM VMCS Database Request for #STM_API_MANAGE_VMCS_DATABASE VMCALL
540 **/
541 typedef struct {
542   ///
543   /// bits 11:0 are reserved and must be 0
544   ///
545   UINT64  VmcsPhysPointer;
546   UINT32  DomainType :4;
547   UINT32  XStatePolicy :2;
548   UINT32  DegradationPolicy :4;
549   ///
550   /// Must be 0
551   ///
552   UINT32  Reserved1 :22;
553   UINT32  AddOrRemove;
554 } STM_VMCS_DATABASE_REQUEST;
555 
556 /**
557   Values for the DomainType field of #STM_VMCS_DATABASE_REQUEST
558   @{
559 **/
560 #define DOMAIN_UNPROTECTED            0
561 #define DOMAIN_DISALLOWED_IO_OUT      BIT0
562 #define DOMAIN_DISALLOWED_IO_IN       BIT1
563 #define DOMAIN_INTEGRITY              BIT2
564 #define DOMAIN_CONFIDENTIALITY        BIT3
565 #define DOMAIN_INTEGRITY_PROT_OUT_IN  (DOMAIN_INTEGRITY)
566 #define DOMAIN_FULLY_PROT_OUT_IN      (DOMAIN_CONFIDENTIALITY | DOMAIN_INTEGRITY)
567 #define DOMAIN_FULLY_PROT             (DOMAIN_FULLY_PROT_OUT_IN | DOMAIN_DISALLOWED_IO_IN | DOMAIN_DISALLOWED_IO_OUT)
568 /// @}
569 
570 /**
571   Values for the XStatePolicy field of #STM_VMCS_DATABASE_REQUEST
572   @{
573 **/
574 #define XSTATE_READWRITE  0x00
575 #define XSTATE_READONLY   0x01
576 #define XSTATE_SCRUB      0x03
577 /// @}
578 
579 /**
580   Values for the AddOrRemove field of #STM_VMCS_DATABASE_REQUEST
581   @{
582 **/
583 #define STM_VMCS_DATABASE_REQUEST_ADD     1
584 #define STM_VMCS_DATABASE_REQUEST_REMOVE  0
585 /// @}
586 
587 
588 /**
589   InitializeProtectionVMCALL() prepares the STM for setup of the initial
590   protection profile which is subsequently communicated via one or more
591   invocations of ProtectResourceVMCALL(), prior to invoking StartStmVMCALL().
592   It is only necessary to invoke InitializeProtectionVMCALL() on one processor
593   thread.  InitializeProtectionVMCALL() does not alter whether SMIs are masked
594   or unmasked. The STM should return back to the MLE with "Blocking by SMI" set
595   to 1 in the GUEST_INTERRUPTIBILITY field for the VMCS the STM created for the
596   MLE guest.
597 
598   @param  EAX  #STM_API_INITIALIZE_PROTECTION (0x00010007)
599 
600   @retval  CF   0
601                 No error, EAX set to STM_SUCCESS, EBX bits set to indicate STM
602                 capabilities as defined below. The STM has set up an empty
603                 protection profile, except for the resources that it sets up to
604                 protect itself. The STM must not allow the SMI handler to map
605                 any pages from the MSEG Base to the top of TSEG. The STM must
606                 also not allow SMI handler access to those MSRs which the STM
607                 requires for its own protection.
608   @retval  CF   1
609                 An error occurred, EAX holds relevant error value.
610   @retval  EAX  #ERROR_STM_ALREADY_STARTED
611                 The STM is already configured and active. The STM remains active
612                 and guarding the previously enabled resource list.
613   @retval  EAX  #ERROR_STM_UNPROTECTABLE
614                 The STM determines that based on the platform configuration, the
615                 STM is unable to protect itself. For example, the BIOS required
616                 resource list contains memory pages in MSEG.
617   @retval  EAX  #ERROR_STM_UNSPECIFIED
618                 An unspecified error occurred.
619 
620   @note  All other registers unmodified.
621 **/
622 #define STM_API_INITIALIZE_PROTECTION              (BIT16 | 7)
623 
624 /**
625   Byte granular support bits returned in EBX from #STM_API_INITIALIZE_PROTECTION
626   @{
627 **/
628 #define STM_RSC_BGI  BIT1
629 #define STM_RSC_BGM  BIT2
630 #define STM_RSC_MSR  BIT3
631 /// @}
632 
633 
634 /**
635   The ManageEventLogVMCALL() is invoked by the MLE root to control the logging
636   feature. It consists of several sub-functions to facilitate establishment of
637   the log itself, configuring what events will be logged, and functions to
638   start, stop, and clear the log.
639 
640   @param  EAX  #STM_API_MANAGE_EVENT_LOG (0x00010008)
641   @param  EBX  Low 32 bits of physical address of caller allocated
642                STM_EVENT_LOG_MANAGEMENT_REQUEST. Bits 11:0 are ignored and
643                assumed to be zero, making the buffer 4K aligned.
644   @param  ECX  High 32 bits of physical address of caller allocated
645                STM_EVENT_LOG_MANAGEMENT_REQUEST.
646 
647   @retval  CF=0
648            No error, EAX set to STM_SUCCESS.
649   @retval  CF=1
650            An error occurred, EAX holds relevant error value. See subfunction
651            descriptions below for details.
652 
653   @note  All other registers unmodified.
654 **/
655 #define STM_API_MANAGE_EVENT_LOG                   (BIT16 | 8)
656 
657 ///
658 /// STM Event Log Management Request for #STM_API_MANAGE_EVENT_LOG VMCALL
659 ///
660 typedef struct {
661   UINT32      SubFunctionIndex;
662   union {
663     struct {
664       UINT32  PageCount;
665       //
666       // number of elements is PageCount
667       //
668       UINT64  Pages[];
669     } LogBuffer;
670     //
671     // bitmap of EVENT_TYPE
672     //
673     UINT32    EventEnableBitmap;
674   } Data;
675 } STM_EVENT_LOG_MANAGEMENT_REQUEST;
676 
677 /**
678   Defines values for the SubFunctionIndex field of
679   #STM_EVENT_LOG_MANAGEMENT_REQUEST
680   @{
681 **/
682 #define STM_EVENT_LOG_MANAGEMENT_REQUEST_NEW_LOG        1
683 #define STM_EVENT_LOG_MANAGEMENT_REQUEST_CONFIGURE_LOG  2
684 #define STM_EVENT_LOG_MANAGEMENT_REQUEST_START_LOG      3
685 #define STM_EVENT_LOG_MANAGEMENT_REQUEST_STOP_LOG       4
686 #define STM_EVENT_LOG_MANAGEMENT_REQUEST_CLEAR_LOG      5
687 #define STM_EVENT_LOG_MANAGEMENT_REQUEST_DELETE_LOG     6
688 /// @}
689 
690 /**
691   Log Entry Header
692 **/
693 typedef struct {
694   UINT32  EventSerialNumber;
695   UINT16  Type;
696   UINT16  Lock :1;
697   UINT16  Valid :1;
698   UINT16  ReadByMle :1;
699   UINT16  Wrapped :1;
700   UINT16  Reserved :12;
701 } LOG_ENTRY_HEADER;
702 
703 /**
704   Enum values for the Type field of #LOG_ENTRY_HEADER
705 **/
706 typedef enum {
707   EvtLogStarted,
708   EvtLogStopped,
709   EvtLogInvalidParameterDetected,
710   EvtHandledProtectionException,
711   ///
712   /// unhandled protection exceptions result in reset & cannot be logged
713   ///
714   EvtBiosAccessToUnclaimedResource,
715   EvtMleResourceProtectionGranted,
716   EvtMleResourceProtectionDenied,
717   EvtMleResourceUnprotect,
718   EvtMleResourceUnprotectError,
719   EvtMleDomainTypeDegraded,
720   ///
721   /// add more here
722   ///
723   EvtMleMax,
724   ///
725   /// Not used
726   ///
727   EvtInvalid = 0xFFFFFFFF,
728 } EVENT_TYPE;
729 
730 typedef struct {
731   UINT32  Reserved;
732 } ENTRY_EVT_LOG_STARTED;
733 
734 typedef struct {
735   UINT32  Reserved;
736 } ENTRY_EVT_LOG_STOPPED;
737 
738 typedef struct {
739   UINT32  VmcallApiNumber;
740 } ENTRY_EVT_LOG_INVALID_PARAM;
741 
742 typedef struct {
743   STM_RSC  Resource;
744 } ENTRY_EVT_LOG_HANDLED_PROTECTION_EXCEPTION;
745 
746 typedef struct {
747   STM_RSC  Resource;
748 } ENTRY_EVT_BIOS_ACCESS_UNCLAIMED_RSC;
749 
750 typedef struct {
751   STM_RSC  Resource;
752 } ENTRY_EVT_MLE_RSC_PROT_GRANTED;
753 
754 typedef struct {
755   STM_RSC  Resource;
756 } ENTRY_EVT_MLE_RSC_PROT_DENIED;
757 
758 typedef struct {
759   STM_RSC  Resource;
760 } ENTRY_EVT_MLE_RSC_UNPROT;
761 
762 typedef struct {
763   STM_RSC  Resource;
764 } ENTRY_EVT_MLE_RSC_UNPROT_ERROR;
765 
766 typedef struct {
767   UINT64  VmcsPhysPointer;
768   UINT8   ExpectedDomainType;
769   UINT8   DegradedDomainType;
770 } ENTRY_EVT_MLE_DOMAIN_TYPE_DEGRADED;
771 
772 typedef union {
773   ENTRY_EVT_LOG_STARTED                       Started;
774   ENTRY_EVT_LOG_STOPPED                       Stopped;
775   ENTRY_EVT_LOG_INVALID_PARAM                 InvalidParam;
776   ENTRY_EVT_LOG_HANDLED_PROTECTION_EXCEPTION  HandledProtectionException;
777   ENTRY_EVT_BIOS_ACCESS_UNCLAIMED_RSC         BiosUnclaimedRsc;
778   ENTRY_EVT_MLE_RSC_PROT_GRANTED              MleRscProtGranted;
779   ENTRY_EVT_MLE_RSC_PROT_DENIED               MleRscProtDenied;
780   ENTRY_EVT_MLE_RSC_UNPROT                    MleRscUnprot;
781   ENTRY_EVT_MLE_RSC_UNPROT_ERROR              MleRscUnprotError;
782   ENTRY_EVT_MLE_DOMAIN_TYPE_DEGRADED          MleDomainTypeDegraded;
783 } LOG_ENTRY_DATA;
784 
785 typedef struct {
786   LOG_ENTRY_HEADER  Hdr;
787   LOG_ENTRY_DATA    Data;
788 } STM_LOG_ENTRY;
789 
790 /**
791   Maximum STM Log Entry Size
792 **/
793 #define STM_LOG_ENTRY_SIZE  256
794 
795 
796 /**
797   STM Protection Exception Stack Frame Structures
798 **/
799 
800 typedef struct {
801   UINT32  Rdi;
802   UINT32  Rsi;
803   UINT32  Rbp;
804   UINT32  Rdx;
805   UINT32  Rcx;
806   UINT32  Rbx;
807   UINT32  Rax;
808   UINT32  Cr3;
809   UINT32  Cr2;
810   UINT32  Cr0;
811   UINT32  VmcsExitInstructionInfo;
812   UINT32  VmcsExitInstructionLength;
813   UINT64  VmcsExitQualification;
814   ///
815   /// An TXT_SMM_PROTECTION_EXCEPTION_TYPE num value
816   ///
817   UINT32  ErrorCode;
818   UINT32  Rip;
819   UINT32  Cs;
820   UINT32  Rflags;
821   UINT32  Rsp;
822   UINT32  Ss;
823 } STM_PROTECTION_EXCEPTION_STACK_FRAME_IA32;
824 
825 typedef struct {
826   UINT64  R15;
827   UINT64  R14;
828   UINT64  R13;
829   UINT64  R12;
830   UINT64  R11;
831   UINT64  R10;
832   UINT64  R9;
833   UINT64  R8;
834   UINT64  Rdi;
835   UINT64  Rsi;
836   UINT64  Rbp;
837   UINT64  Rdx;
838   UINT64  Rcx;
839   UINT64  Rbx;
840   UINT64  Rax;
841   UINT64  Cr8;
842   UINT64  Cr3;
843   UINT64  Cr2;
844   UINT64  Cr0;
845   UINT64  VmcsExitInstructionInfo;
846   UINT64  VmcsExitInstructionLength;
847   UINT64  VmcsExitQualification;
848   ///
849   /// An TXT_SMM_PROTECTION_EXCEPTION_TYPE num value
850   ///
851   UINT64  ErrorCode;
852   UINT64  Rip;
853   UINT64  Cs;
854   UINT64  Rflags;
855   UINT64  Rsp;
856   UINT64  Ss;
857 } STM_PROTECTION_EXCEPTION_STACK_FRAME_X64;
858 
859 typedef union {
860   STM_PROTECTION_EXCEPTION_STACK_FRAME_IA32  *Ia32StackFrame;
861   STM_PROTECTION_EXCEPTION_STACK_FRAME_X64   *X64StackFrame;
862 } STM_PROTECTION_EXCEPTION_STACK_FRAME;
863 
864 /**
865   Enum values for the ErrorCode field in
866   #STM_PROTECTION_EXCEPTION_STACK_FRAME_IA32 and
867   #STM_PROTECTION_EXCEPTION_STACK_FRAME_X64
868 **/
869 typedef enum {
870   TxtSmmPageViolation = 1,
871   TxtSmmMsrViolation,
872   TxtSmmRegisterViolation,
873   TxtSmmIoViolation,
874   TxtSmmPciViolation
875 } TXT_SMM_PROTECTION_EXCEPTION_TYPE;
876 
877 /**
878   TXT Pocessor SMM Descriptor (PSD) structures
879 **/
880 
881 typedef struct {
882   UINT64  SpeRip;
883   UINT64  SpeRsp;
884   UINT16  SpeSs;
885   UINT16  PageViolationException:1;
886   UINT16  MsrViolationException:1;
887   UINT16  RegisterViolationException:1;
888   UINT16  IoViolationException:1;
889   UINT16  PciViolationException:1;
890   UINT16  Reserved1:11;
891   UINT32  Reserved2;
892 } STM_PROTECTION_EXCEPTION_HANDLER;
893 
894 typedef struct {
895   UINT8  ExecutionDisableOutsideSmrr:1;
896   UINT8  Intel64Mode:1;
897   UINT8  Cr4Pae : 1;
898   UINT8  Cr4Pse : 1;
899   UINT8  Reserved1 : 4;
900 } STM_SMM_ENTRY_STATE;
901 
902 typedef struct {
903   UINT8  SmramToVmcsRestoreRequired : 1; ///> BIOS restore hint
904   UINT8  ReinitializeVmcsRequired : 1;   ///> BIOS request
905   UINT8  Reserved2 : 6;
906 } STM_SMM_RESUME_STATE;
907 
908 typedef struct {
909   UINT8  DomainType : 4;   ///> STM input to BIOS on each SMI
910   UINT8  XStatePolicy : 2; ///> STM input to BIOS on each SMI
911   UINT8  EptEnabled : 1;
912   UINT8  Reserved3 : 1;
913 } STM_SMM_STATE;
914 
915 #define TXT_SMM_PSD_OFFSET                          0xfb00
916 #define TXT_PROCESSOR_SMM_DESCRIPTOR_SIGNATURE      SIGNATURE_64('T', 'X', 'T', 'P', 'S', 'S', 'I', 'G')
917 #define TXT_PROCESSOR_SMM_DESCRIPTOR_VERSION_MAJOR  1
918 #define TXT_PROCESSOR_SMM_DESCRIPTOR_VERSION_MINOR  0
919 
920 typedef struct {
921   UINT64                            Signature;
922   UINT16                            Size;
923   UINT8                             SmmDescriptorVerMajor;
924   UINT8                             SmmDescriptorVerMinor;
925   UINT32                            LocalApicId;
926   STM_SMM_ENTRY_STATE               SmmEntryState;
927   STM_SMM_RESUME_STATE              SmmResumeState;
928   STM_SMM_STATE                     StmSmmState;
929   UINT8                             Reserved4;
930   UINT16                            SmmCs;
931   UINT16                            SmmDs;
932   UINT16                            SmmSs;
933   UINT16                            SmmOtherSegment;
934   UINT16                            SmmTr;
935   UINT16                            Reserved5;
936   UINT64                            SmmCr3;
937   UINT64                            SmmStmSetupRip;
938   UINT64                            SmmStmTeardownRip;
939   UINT64                            SmmSmiHandlerRip;
940   UINT64                            SmmSmiHandlerRsp;
941   UINT64                            SmmGdtPtr;
942   UINT32                            SmmGdtSize;
943   UINT32                            RequiredStmSmmRevId;
944   STM_PROTECTION_EXCEPTION_HANDLER  StmProtectionExceptionHandler;
945   UINT64                            Reserved6;
946   UINT64                            BiosHwResourceRequirementsPtr;
947   // extend area
948   UINT64                            AcpiRsdp;
949   UINT8                             PhysicalAddressBits;
950 } TXT_PROCESSOR_SMM_DESCRIPTOR;
951 
952 #pragma pack ()
953 
954 #endif
955