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1 /** @file
2
3 Copyright (c) 2004 - 2015, Intel Corporation. All rights reserved.<BR>
4
5
6 This program and the accompanying materials are licensed and made available under
7
8 the terms and conditions of the BSD License that accompanies this distribution.
9
10 The full text of the license may be found at
11
12 http://opensource.org/licenses/bsd-license.php.
13
14
15
16 THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
17
18 WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
19
20
21
22
23
24
25 Module Name:
26
27 AcpiPlatform.c
28
29 Abstract:
30
31 ACPI Platform Driver
32
33
34 **/
35
36 #include <PiDxe.h>
37 #include <Protocol/TcgService.h>
38 #include <Protocol/FirmwareVolume.h>
39 #include "AcpiPlatform.h"
40 #include "AcpiPlatformHooks.h"
41 #include "AcpiPlatformHooksLib.h"
42 #include "Platform.h"
43 #include <Hpet.h>
44 #include <Mcfg.h>
45 #include "Osfr.h"
46 #include <Guid/GlobalVariable.h>
47 #include <Guid/SetupVariable.h>
48 #include <Guid/PlatformInfo.h>
49 #include <Protocol/CpuIo.h>
50 #include <Guid/BoardFeatures.h>
51 #include <Protocol/AcpiSupport.h>
52 #include <Protocol/AcpiS3Save.h>
53 #include <Protocol/Ps2Policy.h>
54 #include <Library/CpuIA32.h>
55 #include <SetupMode.h>
56 #include <Guid/AcpiTableStorage.h>
57 #include <Guid/EfiVpdData.h>
58 #include <PchAccess.h>
59 #include <Guid/Vlv2Variable.h>
60 #include <Guid/PlatformCpuInfo.h>
61
62
63 CHAR16 EfiPlatformCpuInfoVariable[] = L"PlatformCpuInfo";
64 CHAR16 gACPIOSFRModelStringVariableName[] = ACPI_OSFR_MODEL_STRING_VARIABLE_NAME;
65 CHAR16 gACPIOSFRRefDataBlockVariableName[] = ACPI_OSFR_REF_DATA_BLOCK_VARIABLE_NAME;
66 CHAR16 gACPIOSFRMfgStringVariableName[] = ACPI_OSFR_MFG_STRING_VARIABLE_NAME;
67
68 EFI_CPU_IO_PROTOCOL *mCpuIo;
69 #ifndef __GNUC__
70 #pragma optimize("", off)
71 #endif
72 BOOLEAN mFirstNotify;
73 EFI_PLATFORM_INFO_HOB *mPlatformInfo;
74 EFI_GUID mSystemConfigurationGuid = SYSTEM_CONFIGURATION_GUID;
75 SYSTEM_CONFIGURATION mSystemConfiguration;
76 SYSTEM_CONFIGURATION mSystemConfig;
77
78 UINT8 mSmbusRsvdAddresses[] = PLATFORM_SMBUS_RSVD_ADDRESSES;
79 UINT8 mNumberSmbusAddress = sizeof( mSmbusRsvdAddresses ) / sizeof( mSmbusRsvdAddresses[0] );
80
81 /**
82 Locate the first instance of a protocol. If the protocol requested is an
83 FV protocol, then it will return the first FV that contains the ACPI table
84 storage file.
85
86 @param[in] Protocol The protocol to find.
87 @param[in] Instance Return pointer to the first instance of the protocol.
88 @param[in] Type The type of protocol to locate.
89
90 @retval EFI_SUCCESS The function completed successfully.
91 @retval EFI_NOT_FOUND The protocol could not be located.
92 @retval EFI_OUT_OF_RESOURCES There are not enough resources to find the protocol.
93
94 **/
95 EFI_STATUS
96 LocateSupportProtocol (
97 IN EFI_GUID *Protocol,
98 OUT VOID **Instance,
99 IN UINT32 Type
100 )
101 {
102 EFI_STATUS Status;
103 EFI_HANDLE *HandleBuffer;
104 UINTN NumberOfHandles;
105 EFI_FV_FILETYPE FileType;
106 UINT32 FvStatus;
107 EFI_FV_FILE_ATTRIBUTES Attributes;
108 UINTN Size;
109 UINTN Index;
110
111 FvStatus = 0;
112
113 //
114 // Locate protocol.
115 //
116 Status = gBS->LocateHandleBuffer (
117 ByProtocol,
118 Protocol,
119 NULL,
120 &NumberOfHandles,
121 &HandleBuffer
122 );
123 if (EFI_ERROR (Status)) {
124 //
125 // Defined errors at this time are not found and out of resources.
126 //
127 return Status;
128 }
129
130 //
131 // Looking for FV with ACPI storage file.
132 //
133 for (Index = 0; Index < NumberOfHandles; Index++) {
134 //
135 // Get the protocol on this handle.
136 // This should not fail because of LocateHandleBuffer.
137 //
138 Status = gBS->HandleProtocol (
139 HandleBuffer[Index],
140 Protocol,
141 Instance
142 );
143 ASSERT (!EFI_ERROR (Status));
144
145 if (!Type) {
146 //
147 // Not looking for the FV protocol, so find the first instance of the
148 // protocol. There should not be any errors because our handle buffer
149 // should always contain at least one or LocateHandleBuffer would have
150 // returned not found.
151 //
152 break;
153 }
154
155 //
156 // See if it has the ACPI storage file.
157 //
158 Status = ((EFI_FIRMWARE_VOLUME_PROTOCOL *) (*Instance))->ReadFile (
159 *Instance,
160 &gEfiAcpiTableStorageGuid,
161 NULL,
162 &Size,
163 &FileType,
164 &Attributes,
165 &FvStatus
166 );
167
168 //
169 // If we found it, then we are done.
170 //
171 if (!EFI_ERROR (Status)) {
172 break;
173 }
174 }
175
176 //
177 // Our exit status is determined by the success of the previous operations.
178 // If the protocol was found, Instance already points to it.
179 //
180 //
181 // Free any allocated buffers.
182 //
183 gBS->FreePool (HandleBuffer);
184
185 return Status;
186 }
187
188 /**
189 This function will update any runtime platform specific information.
190 This currently includes:
191 Setting OEM table values, ID, table ID, creator ID and creator revision.
192 Enabling the proper processor entries in the APIC tables.
193
194 @param[in] Table The table to update.
195
196 @retval EFI_SUCCESS The function completed successfully.
197
198 **/
199 EFI_STATUS
200 PlatformUpdateTables (
201 IN OUT EFI_ACPI_COMMON_HEADER *Table
202 )
203 {
204 EFI_ACPI_DESCRIPTION_HEADER *TableHeader;
205 UINT8 *CurrPtr;
206 UINT8 *EndPtr;
207 ACPI_APIC_STRUCTURE_PTR *ApicPtr;
208 UINT8 CurrProcessor;
209 EFI_STATUS Status;
210 EFI_MP_SERVICES_PROTOCOL *MpService;
211 UINTN MaximumNumberOfCPUs;
212 UINTN NumberOfEnabledCPUs;
213 UINTN BufferSize;
214 ACPI_APIC_STRUCTURE_PTR *ProcessorLocalApicEntry;
215 UINTN BspIndex;
216 EFI_ACPI_1_0_ASF_DESCRIPTION_TABLE *AsfEntry;
217 EFI_ACPI_HIGH_PRECISION_EVENT_TIMER_TABLE_HEADER *HpetTbl;
218 UINT64 OemIdValue;
219 UINT8 Index;
220 EFI_ACPI_3_0_FIXED_ACPI_DESCRIPTION_TABLE *Facp;
221 EFI_ACPI_OSFR_TABLE *OsfrTable;
222 EFI_ACPI_OSFR_OCUR_OBJECT *pOcurObject;
223 EFI_ACPI_OSFR_OCUR_OBJECT OcurObject = {{0xB46F133D, 0x235F, 0x4634, 0x9F, 0x03, 0xB1, 0xC0, 0x1C, 0x54, 0x78, 0x5B}, 0, 0, 0, 0, 0};
224 CHAR16 *OcurMfgStringBuffer = NULL;
225 CHAR16 *OcurModelStringBuffer = NULL;
226 UINT8 *OcurRefDataBlockBuffer = NULL;
227 UINTN OcurMfgStringBufferSize;
228 UINTN OcurModelStringBufferSize;
229 UINTN OcurRefDataBlockBufferSize;
230 #if defined (IDCC2_SUPPORTED) && IDCC2_SUPPORTED
231 EFI_ACPI_ASPT_TABLE *pSpttTable;
232 #endif
233 UINT16 NumberOfHpets;
234 UINT16 HpetCapIdValue;
235 UINT32 HpetBlockID;
236 UINTN LocalApicCounter;
237 EFI_PROCESSOR_INFORMATION ProcessorInfoBuffer;
238 UINT8 TempVal;
239 EFI_ACPI_3_0_IO_APIC_STRUCTURE *IOApicType;
240 EFI_ACPI_3_0_MULTIPLE_APIC_DESCRIPTION_TABLE_HEADER *APICTableHeader;
241
242 CurrPtr = NULL;
243 EndPtr = NULL;
244 ApicPtr = NULL;
245 LocalApicCounter = 0;
246 CurrProcessor = 0;
247 ProcessorLocalApicEntry = NULL;
248
249
250 if (Table->Signature != EFI_ACPI_1_0_FIRMWARE_ACPI_CONTROL_STRUCTURE_SIGNATURE) {
251 TableHeader = (EFI_ACPI_DESCRIPTION_HEADER *) Table;
252 //
253 // Update the OEMID.
254 //
255 OemIdValue = mPlatformInfo->AcpiOemId;
256
257 *(UINT32 *)(TableHeader->OemId) = (UINT32)OemIdValue;
258 *(UINT16 *)(TableHeader->OemId + 4) = *(UINT16*)(((UINT8 *)&OemIdValue) + 4);
259
260 if ((Table->Signature != EFI_ACPI_2_0_SECONDARY_SYSTEM_DESCRIPTION_TABLE_SIGNATURE)) {
261 //
262 // Update the OEM Table ID.
263 //
264 TableHeader->OemTableId = mPlatformInfo->AcpiOemTableId;
265 }
266
267 //
268 // Update the OEM Table ID.
269 //
270 TableHeader->OemRevision = EFI_ACPI_OEM_REVISION;
271
272 //
273 // Update the creator ID.
274 //
275 TableHeader->CreatorId = EFI_ACPI_CREATOR_ID;
276
277 //
278 // Update the creator revision.
279 //
280 TableHeader->CreatorRevision = EFI_ACPI_CREATOR_REVISION;
281 }
282
283 //
284 // Complete this function.
285 //
286 //
287 // Locate the MP services protocol.
288 //
289 //
290 // Find the MP Protocol. This is an MP platform, so MP protocol must be
291 // there.
292 //
293 Status = gBS->LocateProtocol (
294 &gEfiMpServiceProtocolGuid,
295 NULL,
296 (VOID **) &MpService
297 );
298 if (EFI_ERROR (Status)) {
299 return Status;
300 }
301
302 //
303 // Determine the number of processors.
304 //
305 MpService->GetNumberOfProcessors (
306 MpService,
307 &MaximumNumberOfCPUs,
308 &NumberOfEnabledCPUs
309 );
310
311 ASSERT (MaximumNumberOfCPUs <= MAX_CPU_NUM && NumberOfEnabledCPUs >= 1);
312
313
314 //
315 // Assign a invalid intial value for update.
316 //
317 //
318 // Update the processors in the APIC table.
319 //
320 switch (Table->Signature) {
321 case EFI_ACPI_1_0_ASF_DESCRIPTION_TABLE_SIGNATURE:
322 //
323 // Update the table if ASF is enabled. Otherwise, return error so caller will not install.
324 //
325 if (mSystemConfig.Asf == 1) {
326 return EFI_UNSUPPORTED;
327 }
328 AsfEntry = (EFI_ACPI_1_0_ASF_DESCRIPTION_TABLE *) Table;
329 TempVal = (mNumberSmbusAddress < ASF_ADDR_DEVICE_ARRAY_LENGTH)? mNumberSmbusAddress : ASF_ADDR_DEVICE_ARRAY_LENGTH;
330 for (Index = 0; Index < TempVal; Index++) {
331 AsfEntry->AsfAddr.FixedSmbusAddresses[Index] = mSmbusRsvdAddresses[Index];
332 }
333 break;
334
335 case EFI_ACPI_3_0_MULTIPLE_APIC_DESCRIPTION_TABLE_SIGNATURE:
336
337 Status = MpService->WhoAmI (
338 MpService,
339 &BspIndex
340 );
341
342 //
343 // PCAT_COMPAT Set to 1 indicate 8259 vectors should be disabled.
344 //
345 APICTableHeader = (EFI_ACPI_3_0_MULTIPLE_APIC_DESCRIPTION_TABLE_HEADER *)Table;
346 APICTableHeader->Flags |= EFI_ACPI_3_0_PCAT_COMPAT;
347
348 CurrPtr = (UINT8 *) &((EFI_ACPI_DESCRIPTION_HEADER *) Table)[1];
349 CurrPtr = CurrPtr + 8;
350
351 //
352 // Size of Local APIC Address & Flag.
353 //
354 EndPtr = (UINT8 *) Table;
355 EndPtr = EndPtr + Table->Length;
356 while (CurrPtr < EndPtr) {
357 ApicPtr = (ACPI_APIC_STRUCTURE_PTR *) CurrPtr;
358 switch (ApicPtr->AcpiApicCommon.Type) {
359 case EFI_ACPI_3_0_PROCESSOR_LOCAL_APIC:
360 //
361 // ESS override
362 // Fix for Ordering of MADT to be maintained as it is in MADT table.
363 //
364 // Update processor enabled or disabled and keep the local APIC
365 // order in MADT intact.
366 //
367 // Sanity check to make sure proc-id is not arbitrary.
368 //
369 DEBUG ((EFI_D_ERROR, "ApicPtr->AcpiLocalApic.AcpiProcessorId = %x, MaximumNumberOfCPUs = %x\n", \
370 ApicPtr->AcpiLocalApic.AcpiProcessorId, MaximumNumberOfCPUs));
371 if(ApicPtr->AcpiLocalApic.AcpiProcessorId > MaximumNumberOfCPUs) {
372 ApicPtr->AcpiLocalApic.AcpiProcessorId = (UINT8)MaximumNumberOfCPUs;
373 }
374
375 BufferSize = 0;
376 ApicPtr->AcpiLocalApic.Flags = 0;
377
378 for (CurrProcessor = 0; CurrProcessor < MaximumNumberOfCPUs; CurrProcessor++) {
379 Status = MpService->GetProcessorInfo (
380 MpService,
381 CurrProcessor,
382 &ProcessorInfoBuffer
383 );
384
385 if (Status == EFI_SUCCESS && ProcessorInfoBuffer.ProcessorId == ApicPtr->AcpiLocalApic.ApicId) {
386 //
387 // Check to see whether or not a processor (or thread) is enabled.
388 //
389 if ((BspIndex == CurrProcessor) || ((ProcessorInfoBuffer.StatusFlag & PROCESSOR_ENABLED_BIT) != 0)) {
390 //
391 // Go on and check if Hyper Threading is enabled. If HT not enabled
392 // hide this thread from OS by not setting the flag to 1. This is the
393 // software way to disable Hyper Threading. Basically we just hide it
394 // from the OS.
395 //
396 ApicPtr->AcpiLocalApic.Flags = EFI_ACPI_1_0_LOCAL_APIC_ENABLED;
397
398
399 if(ProcessorInfoBuffer.Location.Thread != 0) {
400 ApicPtr->AcpiLocalApic.Flags = 0;
401 }
402
403 AppendCpuMapTableEntry (&(ApicPtr->AcpiLocalApic));
404 }
405 break;
406 }
407 }
408
409 //
410 // If no APIC-ID match, the cpu may not be populated.
411 //
412 break;
413
414 case EFI_ACPI_3_0_IO_APIC:
415
416 IOApicType = (EFI_ACPI_3_0_IO_APIC_STRUCTURE *)CurrPtr;
417 IOApicType->IoApicId = 0x02;
418 //
419 // IO APIC entries can be patched here.
420 //
421 break;
422 }
423
424 CurrPtr = CurrPtr + ApicPtr->AcpiApicCommon.Length;
425 }
426 break;
427
428 case EFI_ACPI_3_0_FIXED_ACPI_DESCRIPTION_TABLE_SIGNATURE:
429
430 Facp = (EFI_ACPI_3_0_FIXED_ACPI_DESCRIPTION_TABLE *) Table;
431 Facp->Flags &= (UINT32)(~(3<<2));
432
433 break;
434
435 case EFI_ACPI_3_0_DIFFERENTIATED_SYSTEM_DESCRIPTION_TABLE_SIGNATURE:
436 //
437 // Patch the memory resource.
438 //
439 PatchDsdtTable ((EFI_ACPI_DESCRIPTION_HEADER *) Table);
440 break;
441
442 case EFI_ACPI_3_0_SECONDARY_SYSTEM_DESCRIPTION_TABLE_SIGNATURE:
443 //
444 // Gv3 support
445 //
446 // TBD: Need re-design based on the ValleyTrail platform.
447 //
448 break;
449
450 case EFI_ACPI_3_0_HIGH_PRECISION_EVENT_TIMER_TABLE_SIGNATURE:
451 //
452 // Adjust HPET Table to correct the Base Address.
453 //
454 // Enable HPET always as Hpet.asi always indicates that Hpet is enabled.
455 //
456 MmioOr8 (R_PCH_PCH_HPET + R_PCH_PCH_HPET_GCFG, B_PCH_PCH_HPET_GCFG_EN);
457
458
459 HpetTbl = (EFI_ACPI_HIGH_PRECISION_EVENT_TIMER_TABLE_HEADER *) Table;
460 HpetTbl->BaseAddressLower32Bit.Address = HPET_BASE_ADDRESS;
461 HpetTbl->EventTimerBlockId = *((UINT32*)(UINTN)HPET_BASE_ADDRESS);
462
463 HpetCapIdValue = *(UINT16 *)(UINTN)(HPET_BASE_ADDRESS);
464 NumberOfHpets = HpetCapIdValue & B_PCH_PCH_HPET_GCID_NT; // Bits [8:12] contains the number of Hpets
465 HpetBlockID = EFI_ACPI_EVENT_TIMER_BLOCK_ID;
466
467 if((NumberOfHpets) && (NumberOfHpets & B_PCH_PCH_HPET_GCID_NT)) {
468 HpetBlockID |= (NumberOfHpets);
469 }
470 HpetTbl->EventTimerBlockId = HpetBlockID;
471
472 break;
473
474 case EFI_ACPI_3_0_PCI_EXPRESS_MEMORY_MAPPED_CONFIGURATION_SPACE_BASE_ADDRESS_DESCRIPTION_TABLE_SIGNATURE:
475 //
476 // Update MCFG base and end bus number.
477 //
478 ((EFI_ACPI_MEMORY_MAPPED_CONFIGURATION_BASE_ADDRESS_TABLE *) Table)->Segment[0].BaseAddress
479 = mPlatformInfo->PciData.PciExpressBase;
480 ((EFI_ACPI_MEMORY_MAPPED_CONFIGURATION_BASE_ADDRESS_TABLE *) Table)->Segment[0].EndBusNumber
481 = (UINT8)RShiftU64 (mPlatformInfo->PciData.PciExpressSize, 20) - 1;
482 break;
483
484
485 case EFI_ACPI_OSFR_TABLE_SIGNATURE:
486 //
487 // Get size of OSFR variable.
488 //
489 OcurMfgStringBufferSize = 0;
490 Status = gRT->GetVariable (
491 gACPIOSFRMfgStringVariableName,
492 &gACPIOSFRMfgStringVariableGuid,
493 NULL,
494 &OcurMfgStringBufferSize,
495 NULL
496 );
497 if (Status != EFI_BUFFER_TOO_SMALL) {
498 //
499 // Variable must not be present on the system.
500 //
501 return EFI_UNSUPPORTED;
502 }
503
504 //
505 // Allocate memory for variable data.
506 //
507 OcurMfgStringBuffer = AllocatePool (OcurMfgStringBufferSize);
508 Status = gRT->GetVariable (
509 gACPIOSFRMfgStringVariableName,
510 &gACPIOSFRMfgStringVariableGuid,
511 NULL,
512 &OcurMfgStringBufferSize,
513 OcurMfgStringBuffer
514 );
515 if (!EFI_ERROR (Status)) {
516 OcurModelStringBufferSize = 0;
517 Status = gRT->GetVariable (
518 gACPIOSFRModelStringVariableName,
519 &gACPIOSFRModelStringVariableGuid,
520 NULL,
521 &OcurModelStringBufferSize,
522 NULL
523 );
524 if (Status != EFI_BUFFER_TOO_SMALL) {
525 //
526 // Variable must not be present on the system.
527 //
528 return EFI_UNSUPPORTED;
529 }
530
531 //
532 // Allocate memory for variable data.
533 //
534 OcurModelStringBuffer = AllocatePool (OcurModelStringBufferSize);
535 Status = gRT->GetVariable (
536 gACPIOSFRModelStringVariableName,
537 &gACPIOSFRModelStringVariableGuid,
538 NULL,
539 &OcurModelStringBufferSize,
540 OcurModelStringBuffer
541 );
542 if (!EFI_ERROR (Status)) {
543 OcurRefDataBlockBufferSize = 0;
544 Status = gRT->GetVariable (
545 gACPIOSFRRefDataBlockVariableName,
546 &gACPIOSFRRefDataBlockVariableGuid,
547 NULL,
548 &OcurRefDataBlockBufferSize,
549 NULL
550 );
551 if (Status == EFI_BUFFER_TOO_SMALL) {
552 //
553 // Allocate memory for variable data.
554 //
555 OcurRefDataBlockBuffer = AllocatePool (OcurRefDataBlockBufferSize);
556 Status = gRT->GetVariable (
557 gACPIOSFRRefDataBlockVariableName,
558 &gACPIOSFRRefDataBlockVariableGuid,
559 NULL,
560 &OcurRefDataBlockBufferSize,
561 OcurRefDataBlockBuffer
562 );
563 }
564 OsfrTable = (EFI_ACPI_OSFR_TABLE *) Table;
565 //
566 // Currently only one object is defined: OCUR_OSFR_TABLE.
567 //
568 OsfrTable->ObjectCount = 1;
569 //
570 // Initialize table length to fixed portion of the ACPI OSFR table.
571 //
572 OsfrTable->Header.Length = sizeof (EFI_ACPI_OSFR_TABLE_FIXED_PORTION);
573 *(UINT32 *)((UINTN) OsfrTable + sizeof (EFI_ACPI_OSFR_TABLE_FIXED_PORTION)) = \
574 (UINT32) (sizeof (EFI_ACPI_OSFR_TABLE_FIXED_PORTION) + sizeof (UINT32));
575 pOcurObject = (EFI_ACPI_OSFR_OCUR_OBJECT *)((UINTN) OsfrTable + sizeof (EFI_ACPI_OSFR_TABLE_FIXED_PORTION) + \
576 sizeof (UINT32));
577 CopyMem (pOcurObject, &OcurObject, sizeof (EFI_ACPI_OSFR_OCUR_OBJECT));
578 pOcurObject->ManufacturerNameStringOffset = (UINT32)((UINTN) pOcurObject - (UINTN) OsfrTable + \
579 sizeof (EFI_ACPI_OSFR_OCUR_OBJECT));
580 pOcurObject->ModelNameStringOffset = (UINT32)((UINTN) pOcurObject - (UINTN) OsfrTable + \
581 sizeof (EFI_ACPI_OSFR_OCUR_OBJECT) + OcurMfgStringBufferSize);
582 if (OcurRefDataBlockBufferSize > 0) {
583 pOcurObject->MicrosoftReferenceOffset = (UINT32)((UINTN) pOcurObject - (UINTN) OsfrTable + \
584 sizeof (EFI_ACPI_OSFR_OCUR_OBJECT) + OcurMfgStringBufferSize + OcurModelStringBufferSize);
585 }
586 CopyMem ((UINTN *)((UINTN) pOcurObject + sizeof (EFI_ACPI_OSFR_OCUR_OBJECT)), OcurMfgStringBuffer, \
587 OcurMfgStringBufferSize);
588 CopyMem ((UINTN *)((UINTN) pOcurObject + sizeof (EFI_ACPI_OSFR_OCUR_OBJECT) + OcurMfgStringBufferSize), \
589 OcurModelStringBuffer, OcurModelStringBufferSize);
590 if (OcurRefDataBlockBufferSize > 0) {
591 CopyMem ((UINTN *)((UINTN) pOcurObject + sizeof (EFI_ACPI_OSFR_OCUR_OBJECT) + OcurMfgStringBufferSize + \
592 OcurModelStringBufferSize),OcurRefDataBlockBuffer, OcurRefDataBlockBufferSize);
593 }
594 OsfrTable->Header.Length += (UINT32)(OcurMfgStringBufferSize + OcurModelStringBufferSize + OcurRefDataBlockBufferSize);
595 OsfrTable->Header.Length += sizeof (EFI_ACPI_OSFR_OCUR_OBJECT) + sizeof (UINT32);
596 }
597 }
598 gBS->FreePool (OcurMfgStringBuffer);
599 gBS->FreePool (OcurModelStringBuffer);
600 gBS->FreePool (OcurRefDataBlockBuffer);
601 break;
602 default:
603 break;
604 }
605
606 //
607 //
608 // Update the hardware signature in the FACS structure.
609 //
610 //
611 // Locate the SPCR table and update based on current settings.
612 // The user may change CR settings via setup or other methods.
613 // The SPCR table must match.
614 //
615 return EFI_SUCCESS;
616 }
617
618 /**
619
620 Routine Description:
621
622 GC_TODO: Add function description.
623
624 Arguments:
625
626 Event - GC_TODO: add argument description
627 Context - GC_TODO: add argument description
628
629 Returns:
630
631 GC_TODO: add return values
632
633 **/
634 STATIC
635 VOID
636 EFIAPI
637 OnReadyToBoot (
638 IN EFI_EVENT Event,
639 IN VOID *Context
640 )
641 {
642 EFI_STATUS Status;
643 EFI_ACPI_TABLE_VERSION TableVersion;
644 EFI_ACPI_SUPPORT_PROTOCOL *AcpiSupport;
645 EFI_ACPI_S3_SAVE_PROTOCOL *AcpiS3Save;
646 SYSTEM_CONFIGURATION SetupVarBuffer;
647 UINTN VariableSize;
648 EFI_PLATFORM_CPU_INFO *PlatformCpuInfoPtr = NULL;
649 EFI_PLATFORM_CPU_INFO PlatformCpuInfo;
650 EFI_PEI_HOB_POINTERS GuidHob;
651
652 if (mFirstNotify) {
653 return;
654 }
655
656 mFirstNotify = TRUE;
657
658 //
659 // To avoid compiler warning of "C4701: potentially uninitialized local variable 'PlatformCpuInfo' used".
660 //
661 PlatformCpuInfo.CpuVersion.FullCpuId = 0;
662
663 //
664 // Get Platform CPU Info HOB.
665 //
666 PlatformCpuInfoPtr = NULL;
667 ZeroMem (&PlatformCpuInfo, sizeof(EFI_PLATFORM_CPU_INFO));
668 VariableSize = sizeof(EFI_PLATFORM_CPU_INFO);
669 Status = gRT->GetVariable(
670 EfiPlatformCpuInfoVariable,
671 &gEfiVlv2VariableGuid,
672 NULL,
673 &VariableSize,
674 PlatformCpuInfoPtr
675 );
676 if (EFI_ERROR(Status)) {
677 GuidHob.Raw = GetHobList ();
678 if (GuidHob.Raw != NULL) {
679 if ((GuidHob.Raw = GetNextGuidHob (&gEfiPlatformCpuInfoGuid, GuidHob.Raw)) != NULL) {
680 PlatformCpuInfoPtr = GET_GUID_HOB_DATA (GuidHob.Guid);
681 }
682 }
683 }
684
685 if ((PlatformCpuInfoPtr != NULL)) {
686 CopyMem(&PlatformCpuInfo, PlatformCpuInfoPtr, sizeof(EFI_PLATFORM_CPU_INFO));
687 }
688
689 //
690 // Update the ACPI parameter blocks finally.
691 //
692 VariableSize = sizeof (SYSTEM_CONFIGURATION);
693 Status = gRT->GetVariable (
694 L"Setup",
695 &mSystemConfigurationGuid,
696 NULL,
697 &VariableSize,
698 &SetupVarBuffer
699 );
700 if (EFI_ERROR (Status) || VariableSize != sizeof(SYSTEM_CONFIGURATION)) {
701 //The setup variable is corrupted
702 VariableSize = sizeof(SYSTEM_CONFIGURATION);
703 Status = gRT->GetVariable(
704 L"SetupRecovery",
705 &mSystemConfigurationGuid,
706 NULL,
707 &VariableSize,
708 &SetupVarBuffer
709 );
710 ASSERT_EFI_ERROR (Status);
711 }
712
713 //
714 // Find the AcpiSupport protocol.
715 //
716 Status = LocateSupportProtocol (&gEfiAcpiSupportProtocolGuid, (VOID **) &AcpiSupport, 0);
717 ASSERT_EFI_ERROR (Status);
718
719 TableVersion = EFI_ACPI_TABLE_VERSION_2_0;
720
721 //
722 // Publish ACPI 1.0 or 2.0 Tables.
723 //
724 Status = AcpiSupport->PublishTables (
725 AcpiSupport,
726 TableVersion
727 );
728 ASSERT_EFI_ERROR (Status);
729
730 //
731 // S3 script save.
732 //
733 Status = gBS->LocateProtocol (&gEfiAcpiS3SaveProtocolGuid, NULL, (VOID **) &AcpiS3Save);
734 if (!EFI_ERROR (Status)) {
735 AcpiS3Save->S3Save (AcpiS3Save, NULL);
736 }
737
738 }
739
740 VOID
741 PR1FSASetting (
742 IN VOID
743 )
744 {
745 //
746 // for FSA on PR1.
747 //
748 if (mPlatformInfo->BoardId == BOARD_ID_BL_FFRD && mPlatformInfo->BoardRev >= PR1) {
749 DEBUG((EFI_D_ERROR, "Set FSA status = 1 for FFRD PR1\n"));
750 mGlobalNvsArea.Area->FsaStatus = mSystemConfiguration.PchFSAOn;
751 }
752 if (mPlatformInfo->BoardId == BOARD_ID_BL_FFRD8) {
753 DEBUG((EFI_D_ERROR, "Set FSA status = 1 for FFRD8\n"));
754 mGlobalNvsArea.Area->FsaStatus = mSystemConfiguration.PchFSAOn;
755 }
756
757 }
758
759 /**
760 Entry point for Acpi platform driver.
761
762 @param[in] ImageHandle A handle for the image that is initializing this driver.
763 @param[in] SystemTable A pointer to the EFI system table.
764
765 @retval EFI_SUCCESS Driver initialized successfully.
766 @retval EFI_LOAD_ERROR Failed to Initialize or has been loaded.
767 @retval EFI_OUT_OF_RESOURCES Could not allocate needed resources.
768
769 **/
770 EFI_STATUS
771 EFIAPI
772 AcpiPlatformEntryPoint (
773 IN EFI_HANDLE ImageHandle,
774 IN EFI_SYSTEM_TABLE *SystemTable
775 )
776 {
777 EFI_STATUS Status;
778 EFI_STATUS AcpiStatus;
779 EFI_ACPI_SUPPORT_PROTOCOL *AcpiSupport;
780 EFI_FIRMWARE_VOLUME_PROTOCOL *FwVol;
781 INTN Instance;
782 EFI_ACPI_COMMON_HEADER *CurrentTable;
783 UINTN TableHandle;
784 UINT32 FvStatus;
785 UINT32 Size;
786 EFI_EVENT Event;
787 EFI_ACPI_TABLE_VERSION TableVersion;
788 UINTN VarSize;
789 UINTN SysCfgSize;
790 EFI_HANDLE Handle;
791 EFI_PS2_POLICY_PROTOCOL *Ps2Policy;
792 EFI_PEI_HOB_POINTERS GuidHob;
793 UINT8 PortData;
794 EFI_MP_SERVICES_PROTOCOL *MpService;
795 UINTN MaximumNumberOfCPUs;
796 UINTN NumberOfEnabledCPUs;
797 UINT32 Data32;
798 PCH_STEPPING pchStepping;
799
800 mFirstNotify = FALSE;
801
802 TableVersion = EFI_ACPI_TABLE_VERSION_2_0;
803 Instance = 0;
804 CurrentTable = NULL;
805 TableHandle = 0;
806 Data32 = 0;
807
808 //
809 // Update HOB variable for PCI resource information.
810 // Get the HOB list. If it is not present, then ASSERT.
811 //
812 GuidHob.Raw = GetHobList ();
813 if (GuidHob.Raw != NULL) {
814 if ((GuidHob.Raw = GetNextGuidHob (&gEfiPlatformInfoGuid, GuidHob.Raw)) != NULL) {
815 mPlatformInfo = GET_GUID_HOB_DATA (GuidHob.Guid);
816 }
817 }
818
819 //
820 // Search for the Memory Configuration GUID HOB. If it is not present, then
821 // there's nothing we can do. It may not exist on the update path.
822 //
823 VarSize = sizeof(SYSTEM_CONFIGURATION);
824 Status = gRT->GetVariable(
825 L"Setup",
826 &mSystemConfigurationGuid,
827 NULL,
828 &VarSize,
829 &mSystemConfiguration
830 );
831 if (EFI_ERROR (Status) || VarSize != sizeof(SYSTEM_CONFIGURATION)) {
832 //The setup variable is corrupted
833 VarSize = sizeof(SYSTEM_CONFIGURATION);
834 Status = gRT->GetVariable(
835 L"SetupRecovery",
836 &mSystemConfigurationGuid,
837 NULL,
838 &VarSize,
839 &mSystemConfiguration
840 );
841 ASSERT_EFI_ERROR (Status);
842 }
843
844 //
845 // Find the AcpiSupport protocol.
846 //
847 Status = LocateSupportProtocol (&gEfiAcpiSupportProtocolGuid, (VOID **) &AcpiSupport, 0);
848 ASSERT_EFI_ERROR (Status);
849
850 //
851 // Locate the firmware volume protocol.
852 //
853 Status = LocateSupportProtocol (&gEfiFirmwareVolumeProtocolGuid, (VOID **) &FwVol, 1);
854 ASSERT_EFI_ERROR (Status);
855
856 //
857 // Read the current system configuration variable store.
858 //
859 SysCfgSize = sizeof(SYSTEM_CONFIGURATION);
860 Status = gRT->GetVariable (
861 L"Setup",
862 &gEfiNormalSetupGuid,
863 NULL,
864 &SysCfgSize,
865 &mSystemConfig
866 );
867 if (EFI_ERROR (Status) || SysCfgSize != sizeof(SYSTEM_CONFIGURATION)) {
868 //The setup variable is corrupted
869 SysCfgSize = sizeof(SYSTEM_CONFIGURATION);
870 Status = gRT->GetVariable(
871 L"SetupRecovery",
872 &gEfiNormalSetupGuid,
873 NULL,
874 &SysCfgSize,
875 &mSystemConfig
876 );
877 ASSERT_EFI_ERROR (Status);
878 }
879
880
881 Status = EFI_SUCCESS;
882 Instance = 0;
883
884 //
885 // TBD: Need re-design based on the ValleyTrail platform.
886 //
887 Status = gBS->LocateProtocol (
888 &gEfiMpServiceProtocolGuid,
889 NULL,
890 (VOID **) &MpService
891 );
892 if (EFI_ERROR (Status)) {
893 return Status;
894 }
895
896 //
897 // Determine the number of processors.
898 //
899 MpService->GetNumberOfProcessors (
900 MpService,
901 &MaximumNumberOfCPUs,
902 &NumberOfEnabledCPUs
903 );
904
905 //
906 // Allocate and initialize the NVS area for SMM and ASL communication.
907 //
908 Status = gBS->AllocatePool (
909 EfiACPIMemoryNVS,
910 sizeof (EFI_GLOBAL_NVS_AREA),
911 (void **)&mGlobalNvsArea.Area
912 );
913 ASSERT_EFI_ERROR (Status);
914 gBS->SetMem (
915 mGlobalNvsArea.Area,
916 sizeof (EFI_GLOBAL_NVS_AREA),
917 0
918 );
919 DEBUG((EFI_D_ERROR, "mGlobalNvsArea.Area is at 0x%X\n", mGlobalNvsArea.Area));
920
921 //
922 // Update global NVS area for ASL and SMM init code to use.
923 //
924 mGlobalNvsArea.Area->ApicEnable = 1;
925 mGlobalNvsArea.Area->EmaEnable = 0;
926
927 mGlobalNvsArea.Area->NumberOfBatteries = 1;
928 mGlobalNvsArea.Area->BatteryCapacity0 = 100;
929 mGlobalNvsArea.Area->BatteryStatus0 = 84;
930 mGlobalNvsArea.Area->OnboardCom = 1;
931 mGlobalNvsArea.Area->IdeMode = 0;
932 mGlobalNvsArea.Area->PowerState = 0;
933
934 mGlobalNvsArea.Area->LogicalProcessorCount = (UINT8)NumberOfEnabledCPUs;
935
936 mGlobalNvsArea.Area->PassiveThermalTripPoint = mSystemConfiguration.PassiveThermalTripPoint;
937 mGlobalNvsArea.Area->PassiveTc1Value = mSystemConfiguration.PassiveTc1Value;
938 mGlobalNvsArea.Area->PassiveTc2Value = mSystemConfiguration.PassiveTc2Value;
939 mGlobalNvsArea.Area->PassiveTspValue = mSystemConfiguration.PassiveTspValue;
940 mGlobalNvsArea.Area->CriticalThermalTripPoint = mSystemConfiguration.CriticalThermalTripPoint;
941
942 mGlobalNvsArea.Area->IgdPanelType = mSystemConfiguration.IgdFlatPanel;
943 mGlobalNvsArea.Area->IgdPanelScaling = mSystemConfiguration.PanelScaling;
944 mGlobalNvsArea.Area->IgdSciSmiMode = 0;
945 mGlobalNvsArea.Area->IgdTvFormat = 0;
946 mGlobalNvsArea.Area->IgdTvMinor = 0;
947 mGlobalNvsArea.Area->IgdSscConfig = 1;
948 mGlobalNvsArea.Area->IgdBiaConfig = mSystemConfiguration.IgdLcdIBia;
949 mGlobalNvsArea.Area->IgdBlcConfig = mSystemConfiguration.IgdLcdIGmchBlc;
950 mGlobalNvsArea.Area->IgdDvmtMemSize = mSystemConfiguration.IgdDvmt50TotalAlloc;
951 mGlobalNvsArea.Area->IgdPAVP = mSystemConfiguration.PavpMode;
952
953 mGlobalNvsArea.Area->AlsEnable = mSystemConfiguration.AlsEnable;
954 mGlobalNvsArea.Area->BacklightControlSupport = 2;
955 mGlobalNvsArea.Area->BrightnessPercentage = 100;
956 mGlobalNvsArea.Area->IgdState = 1;
957 mGlobalNvsArea.Area->LidState = 1;
958
959 mGlobalNvsArea.Area->DeviceId1 = 0x80000100 ;
960 mGlobalNvsArea.Area->DeviceId2 = 0x80000400 ;
961 mGlobalNvsArea.Area->DeviceId3 = 0x80000200 ;
962 mGlobalNvsArea.Area->DeviceId4 = 0x04;
963 mGlobalNvsArea.Area->DeviceId5 = 0x05;
964 mGlobalNvsArea.Area->NumberOfValidDeviceId = 4 ;
965 mGlobalNvsArea.Area->CurrentDeviceList = 0x0F ;
966 mGlobalNvsArea.Area->PreviousDeviceList = 0x0F ;
967
968 mGlobalNvsArea.Area->UartSelection = mSystemConfiguration.UartInterface;
969 mGlobalNvsArea.Area->PcuUart1Enable = mSystemConfiguration.PcuUart1;
970 mGlobalNvsArea.Area->NativePCIESupport = 1;
971 mGlobalNvsArea.Area->RtcBattery = mSystemConfiguration.RtcBattery;
972
973
974
975
976
977 //
978 // Update BootMode: 0:ACPI mode; 1:PCI mode
979 //
980 mGlobalNvsArea.Area->LpssSccMode = mSystemConfiguration.LpssPciModeEnabled;
981 if (mSystemConfiguration.LpssMipiHsi == 0) {
982 mGlobalNvsArea.Area->MipiHsiAddr = 0;
983 mGlobalNvsArea.Area->MipiHsiLen = 0;
984 mGlobalNvsArea.Area->MipiHsi1Addr = 0;
985 mGlobalNvsArea.Area->MipiHsi1Len = 0;
986 }
987
988 //
989 // Platform Flavor
990 //
991 mGlobalNvsArea.Area->PlatformFlavor = mPlatformInfo->PlatformFlavor;
992
993 //
994 // Update the Platform id
995 //
996 mGlobalNvsArea.Area->BoardID = mPlatformInfo->BoardId;
997
998 //
999 // Update the Board Revision
1000 //
1001 mGlobalNvsArea.Area->FabID = mPlatformInfo->BoardRev;
1002
1003 //
1004 // Update SOC Stepping
1005 //
1006 mGlobalNvsArea.Area->SocStepping = (UINT8)(PchStepping());
1007
1008 mGlobalNvsArea.Area->OtgMode = mSystemConfiguration.PchUsbOtg;
1009
1010 pchStepping = PchStepping();
1011 if (mSystemConfiguration.UsbAutoMode == 1) {
1012 //
1013 // Auto mode is enabled.
1014 //
1015 if (PchA0 == pchStepping) {
1016 //
1017 // For A0, EHCI is enabled as default.
1018 //
1019 mSystemConfiguration.PchUsb20 = 1;
1020 mSystemConfiguration.PchUsb30Mode = 0;
1021 mSystemConfiguration.UsbXhciSupport = 0;
1022 DEBUG ((EFI_D_INFO, "EHCI is enabled as default. SOC 0x%x\n", pchStepping));
1023 } else {
1024 //
1025 // For A1 and later, XHCI is enabled as default.
1026 //
1027 mSystemConfiguration.PchUsb20 = 0;
1028 mSystemConfiguration.PchUsb30Mode = 1;
1029 mSystemConfiguration.UsbXhciSupport = 1;
1030 DEBUG ((EFI_D_INFO, "XHCI is enabled as default. SOC 0x%x\n", pchStepping));
1031 }
1032 }
1033
1034 mGlobalNvsArea.Area->XhciMode = mSystemConfiguration.PchUsb30Mode;
1035
1036 mGlobalNvsArea.Area->Stepping = mPlatformInfo->IchRevision;
1037
1038 //
1039 // Override invalid Pre-Boot Driver and XhciMode combination.
1040 //
1041 if ((mSystemConfiguration.UsbXhciSupport == 0) && (mSystemConfiguration.PchUsb30Mode == 3)) {
1042 mGlobalNvsArea.Area->XhciMode = 2;
1043 }
1044 if ((mSystemConfiguration.UsbXhciSupport == 1) && (mSystemConfiguration.PchUsb30Mode == 2)) {
1045 mGlobalNvsArea.Area->XhciMode = 3;
1046 }
1047
1048 DEBUG ((EFI_D_ERROR, "ACPI NVS XHCI:0x%x\n", mGlobalNvsArea.Area->XhciMode));
1049
1050 mGlobalNvsArea.Area->PmicEnable = GLOBAL_NVS_DEVICE_DISABLE;
1051 mGlobalNvsArea.Area->BatteryChargingSolution = GLOBAL_NVS_DEVICE_DISABLE;
1052 mGlobalNvsArea.Area->ISPDevSel = mSystemConfiguration.ISPDevSel;
1053 mGlobalNvsArea.Area->LpeEnable = mSystemConfiguration.Lpe;
1054
1055 if (mSystemConfiguration.ISPEn == 0) {
1056 mGlobalNvsArea.Area->ISPDevSel = GLOBAL_NVS_DEVICE_DISABLE;
1057 }
1058
1059 mGlobalNvsArea.Area->WittEnable = mSystemConfiguration.WittEnable;
1060 mGlobalNvsArea.Area->UtsEnable = mSystemConfiguration.UtsEnable;
1061 mGlobalNvsArea.Area->SarEnable = mSystemConfiguration.SAR1;
1062
1063
1064 mGlobalNvsArea.Area->ReservedO = 1;
1065
1066 SettingI2CTouchAddress();
1067 mGlobalNvsArea.Area->IdleReserve= mSystemConfiguration.IdleReserve;
1068 //
1069 // Read BMBOUND and store it in GlobalNVS to pass into ASL.
1070 //
1071 // BUGBUG: code was moved into silicon reference code.
1072 //
1073 if (mSystemConfiguration.eMMCBootMode== 1) {
1074 //
1075 // Auto detect mode.
1076 //
1077 DEBUG ((EFI_D_ERROR, "Auto detect mode------------start\n"));
1078
1079 //
1080 // Silicon Steppings.
1081 //
1082 switch (PchStepping()) {
1083 case PchA0: // A0/A1
1084 case PchA1:
1085 DEBUG ((EFI_D_ERROR, "SOC A0/A1: eMMC 4.41 Configuration\n"));
1086 mSystemConfiguration.LpsseMMCEnabled = 1;
1087 mSystemConfiguration.LpsseMMC45Enabled = 0;
1088 break;
1089
1090 case PchB0: // B0 and later.
1091 default:
1092 DEBUG ((EFI_D_ERROR, "SOC B0 and later: eMMC 4.5 Configuration\n"));
1093 mSystemConfiguration.LpsseMMCEnabled = 0;
1094 mSystemConfiguration.LpsseMMC45Enabled = 1;
1095 break;
1096 }
1097 } else if (mSystemConfiguration.eMMCBootMode == 2) {
1098 //
1099 // eMMC 4.41
1100 //
1101 DEBUG ((EFI_D_ERROR, "Force to eMMC 4.41 Configuration\n"));
1102 mSystemConfiguration.LpsseMMCEnabled = 1;
1103 mSystemConfiguration.LpsseMMC45Enabled = 0;
1104 } else if (mSystemConfiguration.eMMCBootMode == 3) {
1105 //
1106 // eMMC 4.5
1107 //
1108 DEBUG ((EFI_D_ERROR, "Force to eMMC 4.5 Configuration\n"));
1109 mSystemConfiguration.LpsseMMCEnabled = 0;
1110 mSystemConfiguration.LpsseMMC45Enabled = 1;
1111
1112 } else {
1113 //
1114 // Disable eMMC controllers.
1115 //
1116 DEBUG ((EFI_D_ERROR, "Disable eMMC controllers\n"));
1117 mSystemConfiguration.LpsseMMCEnabled = 0;
1118 mSystemConfiguration.LpsseMMC45Enabled = 0;
1119 }
1120
1121 mGlobalNvsArea.Area->emmcVersion = 0;
1122 if (mSystemConfiguration.LpsseMMCEnabled) {
1123 DEBUG ((EFI_D_ERROR, "mGlobalNvsArea.Area->emmcVersion = 0\n"));
1124 mGlobalNvsArea.Area->emmcVersion = 0;
1125 }
1126
1127 if (mSystemConfiguration.LpsseMMC45Enabled) {
1128 DEBUG ((EFI_D_ERROR, "mGlobalNvsArea.Area->emmcVersion = 1\n"));
1129 mGlobalNvsArea.Area->emmcVersion = 1;
1130 }
1131
1132 mGlobalNvsArea.Area->SdCardRemovable = mSystemConfiguration.SdCardRemovable;
1133
1134 //
1135 // Microsoft IOT
1136 //
1137 if ((mSystemConfiguration.LpssHsuart0FlowControlEnabled == 1) && \
1138 (mSystemConfiguration.LpssPwm0Enabled == 0) && \
1139 (mSystemConfiguration.LpssPwm1Enabled == 0)) {
1140 mGlobalNvsArea.Area->MicrosoftIoT = GLOBAL_NVS_DEVICE_ENABLE;
1141 DEBUG ((EFI_D_ERROR, "JP1 is set to be MSFT IOT configuration.\n"));
1142 } else {
1143 mGlobalNvsArea.Area->MicrosoftIoT = GLOBAL_NVS_DEVICE_DISABLE;
1144 DEBUG ((EFI_D_ERROR, "JP1 is not set to be MSFT IOT configuration.\n"));
1145 }
1146
1147 //
1148 // SIO related option.
1149 //
1150 Status = gBS->LocateProtocol (&gEfiCpuIoProtocolGuid, NULL, (void **)&mCpuIo);
1151 ASSERT_EFI_ERROR (Status);
1152
1153 mGlobalNvsArea.Area->WPCN381U = GLOBAL_NVS_DEVICE_DISABLE;
1154
1155 mGlobalNvsArea.Area->DockedSioPresent = GLOBAL_NVS_DEVICE_DISABLE;
1156
1157 if (mGlobalNvsArea.Area->DockedSioPresent != GLOBAL_NVS_DEVICE_ENABLE) {
1158 //
1159 // Check ID for SIO WPCN381U.
1160 //
1161 Status = mCpuIo->Io.Read (
1162 mCpuIo,
1163 EfiCpuIoWidthUint8,
1164 WPCN381U_CONFIG_INDEX,
1165 1,
1166 &PortData
1167 );
1168 ASSERT_EFI_ERROR (Status);
1169 if (PortData != 0xFF) {
1170 PortData = 0x20;
1171 Status = mCpuIo->Io.Write (
1172 mCpuIo,
1173 EfiCpuIoWidthUint8,
1174 WPCN381U_CONFIG_INDEX,
1175 1,
1176 &PortData
1177 );
1178 ASSERT_EFI_ERROR (Status);
1179 Status = mCpuIo->Io.Read (
1180 mCpuIo,
1181 EfiCpuIoWidthUint8,
1182 WPCN381U_CONFIG_DATA,
1183 1,
1184 &PortData
1185 );
1186 ASSERT_EFI_ERROR (Status);
1187 if ((PortData == WPCN381U_CHIP_ID) || (PortData == WDCP376_CHIP_ID)) {
1188 mGlobalNvsArea.Area->WPCN381U = GLOBAL_NVS_DEVICE_ENABLE;
1189 mGlobalNvsArea.Area->OnboardCom = GLOBAL_NVS_DEVICE_ENABLE;
1190 mGlobalNvsArea.Area->OnboardComCir = GLOBAL_NVS_DEVICE_DISABLE;
1191 }
1192 }
1193 }
1194
1195
1196
1197 //
1198 // Get Ps2 policy to set. Will be use if present.
1199 //
1200 Status = gBS->LocateProtocol (
1201 &gEfiPs2PolicyProtocolGuid,
1202 NULL,
1203 (VOID **)&Ps2Policy
1204 );
1205 if (!EFI_ERROR (Status)) {
1206 Status = Ps2Policy->Ps2InitHardware (ImageHandle);
1207 }
1208
1209 mGlobalNvsArea.Area->SDIOMode = mSystemConfiguration.LpssSdioMode;
1210
1211 Handle = NULL;
1212 Status = gBS->InstallMultipleProtocolInterfaces (
1213 &Handle,
1214 &gEfiGlobalNvsAreaProtocolGuid,
1215 &mGlobalNvsArea,
1216 NULL
1217 );
1218
1219 //
1220 // Read tables from the storage file.
1221 //
1222 while (!EFI_ERROR (Status)) {
1223 CurrentTable = NULL;
1224
1225 Status = FwVol->ReadSection (
1226 FwVol,
1227 &gEfiAcpiTableStorageGuid,
1228 EFI_SECTION_RAW,
1229 Instance,
1230 (VOID **) &CurrentTable,
1231 (UINTN *) &Size,
1232 &FvStatus
1233 );
1234
1235 if (!EFI_ERROR (Status)) {
1236 //
1237 // Allow platform specific code to reject the table or update it.
1238 //
1239 AcpiStatus = AcpiPlatformHooksIsActiveTable (CurrentTable);
1240
1241 if (!EFI_ERROR (AcpiStatus)) {
1242 //
1243 // Perform any table specific updates.
1244 //
1245 AcpiStatus = PlatformUpdateTables (CurrentTable);
1246 if (!EFI_ERROR (AcpiStatus)) {
1247 //
1248 // Add the table.
1249 //
1250 TableHandle = 0;
1251 AcpiStatus = AcpiSupport->SetAcpiTable (
1252 AcpiSupport,
1253 CurrentTable,
1254 TRUE,
1255 TableVersion,
1256 &TableHandle
1257 );
1258 ASSERT_EFI_ERROR (AcpiStatus);
1259 }
1260 }
1261
1262 //
1263 // Increment the instance.
1264 //
1265 Instance++;
1266 }
1267 }
1268
1269 Status = EfiCreateEventReadyToBootEx (
1270 TPL_NOTIFY,
1271 OnReadyToBoot,
1272 NULL,
1273 &Event
1274 );
1275
1276 //
1277 // Finished.
1278 //
1279 return EFI_SUCCESS;
1280 }
1281
1282 UINT8
1283 ReadCmosBank1Byte (
1284 IN UINT8 Index
1285 )
1286 {
1287 UINT8 Data;
1288
1289 IoWrite8(0x72, Index);
1290 Data = IoRead8 (0x73);
1291 return Data;
1292 }
1293
1294 VOID
1295 WriteCmosBank1Byte (
1296 IN UINT8 Index,
1297 IN UINT8 Data
1298 )
1299 {
1300 IoWrite8 (0x72, Index);
1301 IoWrite8 (0x73, Data);
1302 }
1303
1304
1305
1306 VOID
1307 SettingI2CTouchAddress (
1308 IN VOID
1309 )
1310 {
1311 if (mSystemConfiguration.I2CTouchAd == 0) {
1312 //
1313 // If setup menu select auto set I2C Touch Address base on board id.
1314 //
1315 if (mPlatformInfo->BoardId == BOARD_ID_BL_RVP ||
1316 mPlatformInfo->BoardId == BOARD_ID_BL_STHI ||
1317 mPlatformInfo->BoardId == BOARD_ID_BL_RVP_DDR3L ) {
1318 //
1319 //RVP
1320 //
1321 mGlobalNvsArea.Area->I2CTouchAddress = 0x4B;
1322 } else if (mPlatformInfo->BoardId == BOARD_ID_BL_FFRD) {
1323 //
1324 //FFRD
1325 //
1326 mGlobalNvsArea.Area->I2CTouchAddress = 0x4A;
1327 } else if (mPlatformInfo->BoardId == BOARD_ID_BB_RVP) {
1328 mGlobalNvsArea.Area->I2CTouchAddress = 0x4C;
1329 } else if (mPlatformInfo->BoardId == BOARD_ID_CVH) {
1330 mGlobalNvsArea.Area->I2CTouchAddress = 0x4C;
1331 } else if (mPlatformInfo->BoardId == BOARD_ID_BL_FFRD8) {
1332 //
1333 //FFRD8 uses 0x4A.
1334 //
1335 mGlobalNvsArea.Area->I2CTouchAddress = 0x4A;
1336 }
1337 } else {
1338 mGlobalNvsArea.Area->I2CTouchAddress = mSystemConfiguration.I2CTouchAd;
1339 }
1340 DEBUG((EFI_D_ERROR, "GlobalNvsArea.Area->I2CTouchAddress: [%02x]\n", mGlobalNvsArea.Area->I2CTouchAddress));
1341 }
1342
1343
EFI Development Kit II mirror for PVE