IntelFsp2Pkg/FspSecCore/SecFsp.c - third_party/edk2 - Git at Google

 /** @file

   Copyright (c) 2014 - 2020, Intel Corporation. All rights reserved.<BR>
   SPDX-License-Identifier: BSD-2-Clause-Patent

 **/

 #include "SecFsp.h"

 /**

   Calculate the FSP IDT gate descriptor.

   @param[in] IdtEntryTemplate     IDT gate descriptor template.

   @return                     FSP specific IDT gate descriptor.

 **/
 UINT64
 FspGetExceptionHandler(
   IN  UINT64  IdtEntryTemplate
   )
 {
   UINT32                    Entry;
   UINT64                    ExceptionHandler;
   IA32_IDT_GATE_DESCRIPTOR *IdtGateDescriptor;
   FSP_INFO_HEADER          *FspInfoHeader;

   FspInfoHeader     = (FSP_INFO_HEADER *)AsmGetFspInfoHeader();
   ExceptionHandler  = IdtEntryTemplate;
   IdtGateDescriptor = (IA32_IDT_GATE_DESCRIPTOR *)&ExceptionHandler;
   Entry = (IdtGateDescriptor->Bits.OffsetHigh << 16) | IdtGateDescriptor->Bits.OffsetLow;
   Entry = FspInfoHeader->ImageBase + FspInfoHeader->ImageSize - (~Entry + 1);
   IdtGateDescriptor->Bits.OffsetHigh = (UINT16)(Entry >> 16);
   IdtGateDescriptor->Bits.OffsetLow  = (UINT16)Entry;

   return ExceptionHandler;
 }

 /**
   This interface fills platform specific data.

   @param[in,out]  FspData           Pointer to the FSP global data.

 **/
 VOID
 EFIAPI
 SecGetPlatformData (
   IN OUT  FSP_GLOBAL_DATA    *FspData
   )
 {
   FSP_PLAT_DATA    *FspPlatformData;
   UINT32            TopOfCar;
   UINT32           *StackPtr;
   UINT32            DwordSize;

   FspPlatformData = &FspData->PlatformData;

   //
   // The entries of platform information, together with the number of them,
   // reside in the bottom of stack, left untouched by normal stack operation.
   //

   FspPlatformData->DataPtr   = NULL;
   FspPlatformData->MicrocodeRegionBase = 0;
   FspPlatformData->MicrocodeRegionSize = 0;
   FspPlatformData->CodeRegionBase      = 0;
   FspPlatformData->CodeRegionSize      = 0;

   //
   // Pointer to the size field
   //
   TopOfCar = PcdGet32(PcdTemporaryRamBase) + PcdGet32(PcdTemporaryRamSize);
   StackPtr = (UINT32 *)(TopOfCar - sizeof (UINT32));

   if (*(StackPtr - 1) == FSP_MCUD_SIGNATURE) {
     while (*StackPtr != 0) {
       if (*(StackPtr - 1) == FSP_MCUD_SIGNATURE) {
         //
         // This following data was pushed onto stack after TempRamInit API
         //
         DwordSize = 4;
         StackPtr  = StackPtr - 1 - DwordSize;
         CopyMem (&(FspPlatformData->MicrocodeRegionBase), StackPtr, (DwordSize << 2));
         StackPtr--;
       } else if (*(StackPtr - 1) == FSP_PER0_SIGNATURE) {
         //
         // This is the performance data for InitTempMemory API entry/exit
         //
         DwordSize = 4;
         StackPtr  = StackPtr - 1 - DwordSize;
         CopyMem (FspData->PerfData, StackPtr, (DwordSize << 2));

         ((UINT8 *)(&FspData->PerfData[0]))[7] = FSP_PERF_ID_API_TEMP_RAM_INIT_ENTRY;
         ((UINT8 *)(&FspData->PerfData[1]))[7] = FSP_PERF_ID_API_TEMP_RAM_INIT_EXIT;

         StackPtr--;
       } else {
         StackPtr -= (*StackPtr);
       }
     }
   }
 }

 /**

   Initialize the FSP global data region.
   It needs to be done as soon as possible after the stack is setup.

   @param[in,out] PeiFspData             Pointer of the FSP global data.
   @param[in]     BootLoaderStack        BootLoader stack.
   @param[in]     ApiIdx                 The index of the FSP API.

 **/
 VOID
 FspGlobalDataInit (
   IN OUT  FSP_GLOBAL_DATA    *PeiFspData,
   IN UINT32                   BootLoaderStack,
   IN UINT8                    ApiIdx
   )
 {
   VOID              *FspmUpdDataPtr;
   CHAR8              ImageId[9];
   UINTN              Idx;

   //
   // Set FSP Global Data pointer
   //
   SetFspGlobalDataPointer    (PeiFspData);
   ZeroMem  ((VOID *)PeiFspData, sizeof(FSP_GLOBAL_DATA));

   PeiFspData->Signature            = FSP_GLOBAL_DATA_SIGNATURE;
   PeiFspData->Version              = 0;
   PeiFspData->CoreStack            = BootLoaderStack;
   PeiFspData->PerfIdx              = 2;
   PeiFspData->PerfSig              = FSP_PERFORMANCE_DATA_SIGNATURE;

   SetFspMeasurePoint (FSP_PERF_ID_API_FSP_MEMORY_INIT_ENTRY);

   //
   // Get FSP Header offset
   // It may have multiple FVs, so look into the last one for FSP header
   //
   PeiFspData->FspInfoHeader      = (FSP_INFO_HEADER *)AsmGetFspInfoHeader();
   SecGetPlatformData (PeiFspData);

   //
   // Set API calling mode
   //
   SetFspApiCallingIndex (ApiIdx);

   //
   // Set UPD pointer
   //
   FspmUpdDataPtr = (VOID *) GetFspApiParameter ();
   if (FspmUpdDataPtr == NULL) {
     FspmUpdDataPtr = (VOID *)(PeiFspData->FspInfoHeader->ImageBase + PeiFspData->FspInfoHeader->CfgRegionOffset);
   }
   SetFspUpdDataPointer (FspmUpdDataPtr);
   SetFspMemoryInitUpdDataPointer (FspmUpdDataPtr);
   SetFspSiliconInitUpdDataPointer (NULL);

   //
   // Initialize OnSeparateStack value.
   //
   if (PcdGet8 (PcdFspHeapSizePercentage) != 0) {
     //
     // FSP is running on its own stack and may need switching stack when calling bootloader functions.
     //
     GetFspGlobalDataPointer ()->OnSeparateStack = 1;
   }

   //
   // Initialize serial port
   // It might have been done in ProcessLibraryConstructorList(), however,
   // the FSP global data is not initialized at that time. So do it again
   // for safe.
   //
   SerialPortInitialize ();

   //
   // Ensure the global data pointer is valid
   //
   ASSERT (GetFspGlobalDataPointer () == PeiFspData);

   for (Idx = 0; Idx < 8; Idx++) {
     ImageId[Idx] = PeiFspData->FspInfoHeader->ImageId[Idx];
   }
   ImageId[Idx] = 0;

   DEBUG ((DEBUG_INFO | DEBUG_INIT, "\n============= FSP Spec v%d.%d Header Revision v%x (%a v%x.%x.%x.%x) =============\n", \
          (PeiFspData->FspInfoHeader->SpecVersion >> 4) & 0xF, \
          PeiFspData->FspInfoHeader->SpecVersion & 0xF, \
          PeiFspData->FspInfoHeader->HeaderRevision, \
          ImageId, \
          (PeiFspData->FspInfoHeader->ImageRevision >> 24) & 0xFF, \
          (PeiFspData->FspInfoHeader->ImageRevision >> 16) & 0xFF, \
          (PeiFspData->FspInfoHeader->ImageRevision >> 8) & 0xFF, \
          PeiFspData->FspInfoHeader->ImageRevision & 0xFF));
 }

 /**

   Adjust the FSP data pointers after the stack is migrated to memory.

   @param[in] OffsetGap             The offset gap between the old stack and the new stack.

 **/
 VOID
 FspDataPointerFixUp (
   IN UINT32   OffsetGap
   )
 {
   FSP_GLOBAL_DATA  *NewFspData;

   NewFspData = (FSP_GLOBAL_DATA *)((UINTN)GetFspGlobalDataPointer() + (UINTN)OffsetGap);
   SetFspGlobalDataPointer (NewFspData);
 }
	/** @file

	Copyright (c) 2014 - 2020, Intel Corporation. All rights reserved.<BR>
	SPDX-License-Identifier: BSD-2-Clause-Patent

	**/

	#include "SecFsp.h"

	/**

	Calculate the FSP IDT gate descriptor.

	@param[in] IdtEntryTemplate IDT gate descriptor template.

	@return FSP specific IDT gate descriptor.

	**/
	UINT64
	FspGetExceptionHandler(
	IN UINT64 IdtEntryTemplate
	)
	{
	UINT32 Entry;
	UINT64 ExceptionHandler;
	IA32_IDT_GATE_DESCRIPTOR *IdtGateDescriptor;
	FSP_INFO_HEADER *FspInfoHeader;

	FspInfoHeader = (FSP_INFO_HEADER *)AsmGetFspInfoHeader();
	ExceptionHandler = IdtEntryTemplate;
	IdtGateDescriptor = (IA32_IDT_GATE_DESCRIPTOR *)&ExceptionHandler;
	Entry = (IdtGateDescriptor->Bits.OffsetHigh << 16) \| IdtGateDescriptor->Bits.OffsetLow;
	Entry = FspInfoHeader->ImageBase + FspInfoHeader->ImageSize - (~Entry + 1);
	IdtGateDescriptor->Bits.OffsetHigh = (UINT16)(Entry >> 16);
	IdtGateDescriptor->Bits.OffsetLow = (UINT16)Entry;

	return ExceptionHandler;
	}

	/**
	This interface fills platform specific data.

	@param[in,out] FspData Pointer to the FSP global data.

	**/
	VOID
	EFIAPI
	SecGetPlatformData (
	IN OUT FSP_GLOBAL_DATA *FspData
	)
	{
	FSP_PLAT_DATA *FspPlatformData;
	UINT32 TopOfCar;
	UINT32 *StackPtr;
	UINT32 DwordSize;

	FspPlatformData = &FspData->PlatformData;

	//
	// The entries of platform information, together with the number of them,
	// reside in the bottom of stack, left untouched by normal stack operation.
	//

	FspPlatformData->DataPtr = NULL;
	FspPlatformData->MicrocodeRegionBase = 0;
	FspPlatformData->MicrocodeRegionSize = 0;
	FspPlatformData->CodeRegionBase = 0;
	FspPlatformData->CodeRegionSize = 0;

	//
	// Pointer to the size field
	//
	TopOfCar = PcdGet32(PcdTemporaryRamBase) + PcdGet32(PcdTemporaryRamSize);
	StackPtr = (UINT32 *)(TopOfCar - sizeof (UINT32));

	if (*(StackPtr - 1) == FSP_MCUD_SIGNATURE) {
	while (*StackPtr != 0) {
	if (*(StackPtr - 1) == FSP_MCUD_SIGNATURE) {
	//
	// This following data was pushed onto stack after TempRamInit API
	//
	DwordSize = 4;
	StackPtr = StackPtr - 1 - DwordSize;
	CopyMem (&(FspPlatformData->MicrocodeRegionBase), StackPtr, (DwordSize << 2));
	StackPtr--;
	} else if (*(StackPtr - 1) == FSP_PER0_SIGNATURE) {
	//
	// This is the performance data for InitTempMemory API entry/exit
	//
	DwordSize = 4;
	StackPtr = StackPtr - 1 - DwordSize;
	CopyMem (FspData->PerfData, StackPtr, (DwordSize << 2));

	((UINT8 *)(&FspData->PerfData[0]))[7] = FSP_PERF_ID_API_TEMP_RAM_INIT_ENTRY;
	((UINT8 *)(&FspData->PerfData[1]))[7] = FSP_PERF_ID_API_TEMP_RAM_INIT_EXIT;

	StackPtr--;
	} else {
	StackPtr -= (*StackPtr);
	}
	}
	}
	}

	/**

	Initialize the FSP global data region.
	It needs to be done as soon as possible after the stack is setup.

	@param[in,out] PeiFspData Pointer of the FSP global data.
	@param[in] BootLoaderStack BootLoader stack.
	@param[in] ApiIdx The index of the FSP API.

	**/
	VOID
	FspGlobalDataInit (
	IN OUT FSP_GLOBAL_DATA *PeiFspData,
	IN UINT32 BootLoaderStack,
	IN UINT8 ApiIdx
	)
	{
	VOID *FspmUpdDataPtr;
	CHAR8 ImageId[9];
	UINTN Idx;

	//
	// Set FSP Global Data pointer
	//
	SetFspGlobalDataPointer (PeiFspData);
	ZeroMem ((VOID *)PeiFspData, sizeof(FSP_GLOBAL_DATA));

	PeiFspData->Signature = FSP_GLOBAL_DATA_SIGNATURE;
	PeiFspData->Version = 0;
	PeiFspData->CoreStack = BootLoaderStack;
	PeiFspData->PerfIdx = 2;
	PeiFspData->PerfSig = FSP_PERFORMANCE_DATA_SIGNATURE;

	SetFspMeasurePoint (FSP_PERF_ID_API_FSP_MEMORY_INIT_ENTRY);

	//
	// Get FSP Header offset
	// It may have multiple FVs, so look into the last one for FSP header
	//
	PeiFspData->FspInfoHeader = (FSP_INFO_HEADER *)AsmGetFspInfoHeader();
	SecGetPlatformData (PeiFspData);

	//
	// Set API calling mode
	//
	SetFspApiCallingIndex (ApiIdx);

	//
	// Set UPD pointer
	//
	FspmUpdDataPtr = (VOID *) GetFspApiParameter ();
	if (FspmUpdDataPtr == NULL) {
	FspmUpdDataPtr = (VOID *)(PeiFspData->FspInfoHeader->ImageBase + PeiFspData->FspInfoHeader->CfgRegionOffset);
	}
	SetFspUpdDataPointer (FspmUpdDataPtr);
	SetFspMemoryInitUpdDataPointer (FspmUpdDataPtr);
	SetFspSiliconInitUpdDataPointer (NULL);

	//
	// Initialize OnSeparateStack value.
	//
	if (PcdGet8 (PcdFspHeapSizePercentage) != 0) {
	//
	// FSP is running on its own stack and may need switching stack when calling bootloader functions.
	//
	GetFspGlobalDataPointer ()->OnSeparateStack = 1;
	}

	//
	// Initialize serial port
	// It might have been done in ProcessLibraryConstructorList(), however,
	// the FSP global data is not initialized at that time. So do it again
	// for safe.
	//
	SerialPortInitialize ();

	//
	// Ensure the global data pointer is valid
	//
	ASSERT (GetFspGlobalDataPointer () == PeiFspData);

	for (Idx = 0; Idx < 8; Idx++) {
	ImageId[Idx] = PeiFspData->FspInfoHeader->ImageId[Idx];
	}
	ImageId[Idx] = 0;

	DEBUG ((DEBUG_INFO \| DEBUG_INIT, "\n============= FSP Spec v%d.%d Header Revision v%x (%a v%x.%x.%x.%x) =============\n", \
	(PeiFspData->FspInfoHeader->SpecVersion >> 4) & 0xF, \
	PeiFspData->FspInfoHeader->SpecVersion & 0xF, \
	PeiFspData->FspInfoHeader->HeaderRevision, \
	ImageId, \
	(PeiFspData->FspInfoHeader->ImageRevision >> 24) & 0xFF, \
	(PeiFspData->FspInfoHeader->ImageRevision >> 16) & 0xFF, \
	(PeiFspData->FspInfoHeader->ImageRevision >> 8) & 0xFF, \
	PeiFspData->FspInfoHeader->ImageRevision & 0xFF));
	}

	/**

	Adjust the FSP data pointers after the stack is migrated to memory.

	@param[in] OffsetGap The offset gap between the old stack and the new stack.

	**/
	VOID
	FspDataPointerFixUp (
	IN UINT32 OffsetGap
	)
	{
	FSP_GLOBAL_DATA *NewFspData;

	NewFspData = (FSP_GLOBAL_DATA *)((UINTN)GetFspGlobalDataPointer() + (UINTN)OffsetGap);
	SetFspGlobalDataPointer (NewFspData);
	}