UefiCpuPkg/PiSmmCpuDxeSmm/Ia32/SmmFuncsArch.c - edk2 - Git at Google

 /** @file
   SMM CPU misc functions for Ia32 arch specific.

 Copyright (c) 2015 - 2019, Intel Corporation. All rights reserved.<BR>
 SPDX-License-Identifier: BSD-2-Clause-Patent

 **/

 #include "PiSmmCpuDxeSmm.h"

 extern UINT64  gTaskGateDescriptor;

 EFI_PHYSICAL_ADDRESS  mGdtBuffer;
 UINTN                 mGdtBufferSize;

 extern BOOLEAN  mCetSupported;
 extern UINTN    mSmmShadowStackSize;

 X86_ASSEMBLY_PATCH_LABEL  mPatchCetPl0Ssp;
 X86_ASSEMBLY_PATCH_LABEL  mPatchCetInterruptSsp;
 UINT32                    mCetPl0Ssp;
 UINT32                    mCetInterruptSsp;

 /**
   Initialize IDT for SMM Stack Guard.

 **/
 VOID
 EFIAPI
 InitializeIDTSmmStackGuard (
   VOID
   )
 {
   IA32_IDT_GATE_DESCRIPTOR  *IdtGate;

   //
   // If SMM Stack Guard feature is enabled, the Page Fault Exception entry in IDT
   // is a Task Gate Descriptor so that when a Page Fault Exception occurs,
   // the processors can use a known good stack in case stack is ran out.
   //
   IdtGate         = (IA32_IDT_GATE_DESCRIPTOR *)gcSmiIdtr.Base;
   IdtGate        += EXCEPT_IA32_PAGE_FAULT;
   IdtGate->Uint64 = gTaskGateDescriptor;
 }

 /**
   Initialize Gdt for all processors.

   @param[in]   Cr3          CR3 value.
   @param[out]  GdtStepSize  The step size for GDT table.

   @return GdtBase for processor 0.
           GdtBase for processor X is: GdtBase + (GdtStepSize * X)
 **/
 VOID *
 InitGdt (
   IN  UINTN  Cr3,
   OUT UINTN  *GdtStepSize
   )
 {
   UINTN                    Index;
   IA32_SEGMENT_DESCRIPTOR  *GdtDescriptor;
   UINTN                    TssBase;
   UINTN                    GdtTssTableSize;
   UINT8                    *GdtTssTables;
   UINTN                    GdtTableStepSize;
   UINTN                    InterruptShadowStack;

   if (FeaturePcdGet (PcdCpuSmmStackGuard)) {
     //
     // For IA32 SMM, if SMM Stack Guard feature is enabled, we use 2 TSS.
     // in this case, we allocate separate GDT/TSS for each CPUs to avoid TSS load contention
     // on each SMI entry.
     //

     //
     // Enlarge GDT to contain 2 TSS descriptors
     //
     gcSmiGdtr.Limit += (UINT16)(2 * sizeof (IA32_SEGMENT_DESCRIPTOR));

     GdtTssTableSize = (gcSmiGdtr.Limit + 1 + TSS_SIZE + EXCEPTION_TSS_SIZE + 7) & ~7; // 8 bytes aligned
     mGdtBufferSize  = GdtTssTableSize * gSmmCpuPrivate->SmmCoreEntryContext.NumberOfCpus;
     //
     // IA32 Stack Guard need use task switch to switch stack that need
     // write GDT and TSS, so AllocateCodePages() could not be used here
     // as code pages will be set to RO.
     //
     GdtTssTables = (UINT8 *)AllocatePages (EFI_SIZE_TO_PAGES (mGdtBufferSize));
     ASSERT (GdtTssTables != NULL);
     mGdtBuffer       = (UINTN)GdtTssTables;
     GdtTableStepSize = GdtTssTableSize;

     for (Index = 0; Index < gSmmCpuPrivate->SmmCoreEntryContext.NumberOfCpus; Index++) {
       CopyMem (GdtTssTables + GdtTableStepSize * Index, (VOID *)(UINTN)gcSmiGdtr.Base, gcSmiGdtr.Limit + 1 + TSS_SIZE + EXCEPTION_TSS_SIZE);
       //
       // Fixup TSS descriptors
       //
       TssBase                      = (UINTN)(GdtTssTables + GdtTableStepSize * Index + gcSmiGdtr.Limit + 1);
       GdtDescriptor                = (IA32_SEGMENT_DESCRIPTOR *)(TssBase) - 2;
       GdtDescriptor->Bits.BaseLow  = (UINT16)TssBase;
       GdtDescriptor->Bits.BaseMid  = (UINT8)(TssBase >> 16);
       GdtDescriptor->Bits.BaseHigh = (UINT8)(TssBase >> 24);

       TssBase += TSS_SIZE;
       GdtDescriptor++;
       GdtDescriptor->Bits.BaseLow  = (UINT16)TssBase;
       GdtDescriptor->Bits.BaseMid  = (UINT8)(TssBase >> 16);
       GdtDescriptor->Bits.BaseHigh = (UINT8)(TssBase >> 24);
       //
       // Fixup TSS segments
       //
       // ESP as known good stack
       //
       *(UINTN *)(TssBase + TSS_IA32_ESP_OFFSET)  =  mSmmStackArrayBase + EFI_PAGE_SIZE + Index * mSmmStackSize;
       *(UINT32 *)(TssBase + TSS_IA32_CR3_OFFSET) = Cr3;

       //
       // Setup ShadowStack for stack switch
       //
       if ((PcdGet32 (PcdControlFlowEnforcementPropertyMask) != 0) && mCetSupported) {
         InterruptShadowStack                       = (UINTN)(mSmmStackArrayBase + mSmmStackSize + EFI_PAGES_TO_SIZE (1) - sizeof (UINT64) + (mSmmStackSize + mSmmShadowStackSize) * Index);
         *(UINT32 *)(TssBase + TSS_IA32_SSP_OFFSET) = (UINT32)InterruptShadowStack;
       }
     }
   } else {
     //
     // Just use original table, AllocatePage and copy them here to make sure GDTs are covered in page memory.
     //
     GdtTssTableSize = gcSmiGdtr.Limit + 1;
     mGdtBufferSize  = GdtTssTableSize * gSmmCpuPrivate->SmmCoreEntryContext.NumberOfCpus;
     GdtTssTables    = (UINT8 *)AllocateCodePages (EFI_SIZE_TO_PAGES (mGdtBufferSize));
     ASSERT (GdtTssTables != NULL);
     mGdtBuffer       = (UINTN)GdtTssTables;
     GdtTableStepSize = GdtTssTableSize;

     for (Index = 0; Index < gSmmCpuPrivate->SmmCoreEntryContext.NumberOfCpus; Index++) {
       CopyMem (GdtTssTables + GdtTableStepSize * Index, (VOID *)(UINTN)gcSmiGdtr.Base, gcSmiGdtr.Limit + 1);
     }
   }

   *GdtStepSize = GdtTableStepSize;
   return GdtTssTables;
 }

 /**
   Transfer AP to safe hlt-loop after it finished restore CPU features on S3 patch.

   @param[in] ApHltLoopCode          The address of the safe hlt-loop function.
   @param[in] TopOfStack             A pointer to the new stack to use for the ApHltLoopCode.
   @param[in] NumberToFinishAddress  Address of Semaphore of APs finish count.

 **/
 VOID
 TransferApToSafeState (
   IN UINTN  ApHltLoopCode,
   IN UINTN  TopOfStack,
   IN UINTN  NumberToFinishAddress
   )
 {
   SwitchStack (
     (SWITCH_STACK_ENTRY_POINT)ApHltLoopCode,
     (VOID *)NumberToFinishAddress,
     NULL,
     (VOID *)TopOfStack
     );
   //
   // It should never reach here
   //
   ASSERT (FALSE);
 }

 /**
   Initialize the shadow stack related data structure.

   @param CpuIndex     The index of CPU.
   @param ShadowStack  The bottom of the shadow stack for this CPU.
 **/
 VOID
 InitShadowStack (
   IN UINTN  CpuIndex,
   IN VOID   *ShadowStack
   )
 {
   UINTN  SmmShadowStackSize;

   if ((PcdGet32 (PcdControlFlowEnforcementPropertyMask) != 0) && mCetSupported) {
     SmmShadowStackSize = EFI_PAGES_TO_SIZE (EFI_SIZE_TO_PAGES (PcdGet32 (PcdCpuSmmShadowStackSize)));
     if (FeaturePcdGet (PcdCpuSmmStackGuard)) {
       SmmShadowStackSize += EFI_PAGES_TO_SIZE (2);
     }

     mCetPl0Ssp = (UINT32)((UINTN)ShadowStack + SmmShadowStackSize - sizeof (UINT64));
     PatchInstructionX86 (mPatchCetPl0Ssp, mCetPl0Ssp, 4);
     DEBUG ((DEBUG_INFO, "mCetPl0Ssp - 0x%x\n", mCetPl0Ssp));
     DEBUG ((DEBUG_INFO, "ShadowStack - 0x%x\n", ShadowStack));
     DEBUG ((DEBUG_INFO, "  SmmShadowStackSize - 0x%x\n", SmmShadowStackSize));

     if (FeaturePcdGet (PcdCpuSmmStackGuard)) {
       mCetInterruptSsp = (UINT32)((UINTN)ShadowStack + EFI_PAGES_TO_SIZE (1) - sizeof (UINT64));
       PatchInstructionX86 (mPatchCetInterruptSsp, mCetInterruptSsp, 4);
       DEBUG ((DEBUG_INFO, "mCetInterruptSsp - 0x%x\n", mCetInterruptSsp));
     }
   }
 }
	/** @file
	SMM CPU misc functions for Ia32 arch specific.

	Copyright (c) 2015 - 2019, Intel Corporation. All rights reserved.<BR>
	SPDX-License-Identifier: BSD-2-Clause-Patent

	**/

	#include "PiSmmCpuDxeSmm.h"

	extern UINT64 gTaskGateDescriptor;

	EFI_PHYSICAL_ADDRESS mGdtBuffer;
	UINTN mGdtBufferSize;

	extern BOOLEAN mCetSupported;
	extern UINTN mSmmShadowStackSize;

	X86_ASSEMBLY_PATCH_LABEL mPatchCetPl0Ssp;
	X86_ASSEMBLY_PATCH_LABEL mPatchCetInterruptSsp;
	UINT32 mCetPl0Ssp;
	UINT32 mCetInterruptSsp;

	/**
	Initialize IDT for SMM Stack Guard.

	**/
	VOID
	EFIAPI
	InitializeIDTSmmStackGuard (
	VOID
	)
	{
	IA32_IDT_GATE_DESCRIPTOR *IdtGate;

	//
	// If SMM Stack Guard feature is enabled, the Page Fault Exception entry in IDT
	// is a Task Gate Descriptor so that when a Page Fault Exception occurs,
	// the processors can use a known good stack in case stack is ran out.
	//
	IdtGate = (IA32_IDT_GATE_DESCRIPTOR *)gcSmiIdtr.Base;
	IdtGate += EXCEPT_IA32_PAGE_FAULT;
	IdtGate->Uint64 = gTaskGateDescriptor;
	}

	/**
	Initialize Gdt for all processors.

	@param[in] Cr3 CR3 value.
	@param[out] GdtStepSize The step size for GDT table.

	@return GdtBase for processor 0.
	GdtBase for processor X is: GdtBase + (GdtStepSize * X)
	**/
	VOID *
	InitGdt (
	IN UINTN Cr3,
	OUT UINTN *GdtStepSize
	)
	{
	UINTN Index;
	IA32_SEGMENT_DESCRIPTOR *GdtDescriptor;
	UINTN TssBase;
	UINTN GdtTssTableSize;
	UINT8 *GdtTssTables;
	UINTN GdtTableStepSize;
	UINTN InterruptShadowStack;

	if (FeaturePcdGet (PcdCpuSmmStackGuard)) {
	//
	// For IA32 SMM, if SMM Stack Guard feature is enabled, we use 2 TSS.
	// in this case, we allocate separate GDT/TSS for each CPUs to avoid TSS load contention
	// on each SMI entry.
	//

	//
	// Enlarge GDT to contain 2 TSS descriptors
	//
	gcSmiGdtr.Limit += (UINT16)(2 * sizeof (IA32_SEGMENT_DESCRIPTOR));

	GdtTssTableSize = (gcSmiGdtr.Limit + 1 + TSS_SIZE + EXCEPTION_TSS_SIZE + 7) & ~7; // 8 bytes aligned
	mGdtBufferSize = GdtTssTableSize * gSmmCpuPrivate->SmmCoreEntryContext.NumberOfCpus;
	//
	// IA32 Stack Guard need use task switch to switch stack that need
	// write GDT and TSS, so AllocateCodePages() could not be used here
	// as code pages will be set to RO.
	//
	GdtTssTables = (UINT8 *)AllocatePages (EFI_SIZE_TO_PAGES (mGdtBufferSize));
	ASSERT (GdtTssTables != NULL);
	mGdtBuffer = (UINTN)GdtTssTables;
	GdtTableStepSize = GdtTssTableSize;

	for (Index = 0; Index < gSmmCpuPrivate->SmmCoreEntryContext.NumberOfCpus; Index++) {
	CopyMem (GdtTssTables + GdtTableStepSize * Index, (VOID *)(UINTN)gcSmiGdtr.Base, gcSmiGdtr.Limit + 1 + TSS_SIZE + EXCEPTION_TSS_SIZE);
	//
	// Fixup TSS descriptors
	//
	TssBase = (UINTN)(GdtTssTables + GdtTableStepSize * Index + gcSmiGdtr.Limit + 1);
	GdtDescriptor = (IA32_SEGMENT_DESCRIPTOR *)(TssBase) - 2;
	GdtDescriptor->Bits.BaseLow = (UINT16)TssBase;
	GdtDescriptor->Bits.BaseMid = (UINT8)(TssBase >> 16);
	GdtDescriptor->Bits.BaseHigh = (UINT8)(TssBase >> 24);

	TssBase += TSS_SIZE;
	GdtDescriptor++;
	GdtDescriptor->Bits.BaseLow = (UINT16)TssBase;
	GdtDescriptor->Bits.BaseMid = (UINT8)(TssBase >> 16);
	GdtDescriptor->Bits.BaseHigh = (UINT8)(TssBase >> 24);
	//
	// Fixup TSS segments
	//
	// ESP as known good stack
	//
	(UINTN )(TssBase + TSS_IA32_ESP_OFFSET) = mSmmStackArrayBase + EFI_PAGE_SIZE + Index * mSmmStackSize;
	(UINT32 )(TssBase + TSS_IA32_CR3_OFFSET) = Cr3;

	//
	// Setup ShadowStack for stack switch
	//
	if ((PcdGet32 (PcdControlFlowEnforcementPropertyMask) != 0) && mCetSupported) {
	InterruptShadowStack = (UINTN)(mSmmStackArrayBase + mSmmStackSize + EFI_PAGES_TO_SIZE (1) - sizeof (UINT64) + (mSmmStackSize + mSmmShadowStackSize) * Index);
	(UINT32 )(TssBase + TSS_IA32_SSP_OFFSET) = (UINT32)InterruptShadowStack;
	}
	}
	} else {
	//
	// Just use original table, AllocatePage and copy them here to make sure GDTs are covered in page memory.
	//
	GdtTssTableSize = gcSmiGdtr.Limit + 1;
	mGdtBufferSize = GdtTssTableSize * gSmmCpuPrivate->SmmCoreEntryContext.NumberOfCpus;
	GdtTssTables = (UINT8 *)AllocateCodePages (EFI_SIZE_TO_PAGES (mGdtBufferSize));
	ASSERT (GdtTssTables != NULL);
	mGdtBuffer = (UINTN)GdtTssTables;
	GdtTableStepSize = GdtTssTableSize;

	for (Index = 0; Index < gSmmCpuPrivate->SmmCoreEntryContext.NumberOfCpus; Index++) {
	CopyMem (GdtTssTables + GdtTableStepSize * Index, (VOID *)(UINTN)gcSmiGdtr.Base, gcSmiGdtr.Limit + 1);
	}
	}

	*GdtStepSize = GdtTableStepSize;
	return GdtTssTables;
	}

	/**
	Transfer AP to safe hlt-loop after it finished restore CPU features on S3 patch.

	@param[in] ApHltLoopCode The address of the safe hlt-loop function.
	@param[in] TopOfStack A pointer to the new stack to use for the ApHltLoopCode.
	@param[in] NumberToFinishAddress Address of Semaphore of APs finish count.

	**/
	VOID
	TransferApToSafeState (
	IN UINTN ApHltLoopCode,
	IN UINTN TopOfStack,
	IN UINTN NumberToFinishAddress
	)
	{
	SwitchStack (
	(SWITCH_STACK_ENTRY_POINT)ApHltLoopCode,
	(VOID *)NumberToFinishAddress,
	NULL,
	(VOID *)TopOfStack
	);
	//
	// It should never reach here
	//
	ASSERT (FALSE);
	}

	/**
	Initialize the shadow stack related data structure.

	@param CpuIndex The index of CPU.
	@param ShadowStack The bottom of the shadow stack for this CPU.
	**/
	VOID
	InitShadowStack (
	IN UINTN CpuIndex,
	IN VOID *ShadowStack
	)
	{
	UINTN SmmShadowStackSize;

	if ((PcdGet32 (PcdControlFlowEnforcementPropertyMask) != 0) && mCetSupported) {
	SmmShadowStackSize = EFI_PAGES_TO_SIZE (EFI_SIZE_TO_PAGES (PcdGet32 (PcdCpuSmmShadowStackSize)));
	if (FeaturePcdGet (PcdCpuSmmStackGuard)) {
	SmmShadowStackSize += EFI_PAGES_TO_SIZE (2);
	}

	mCetPl0Ssp = (UINT32)((UINTN)ShadowStack + SmmShadowStackSize - sizeof (UINT64));
	PatchInstructionX86 (mPatchCetPl0Ssp, mCetPl0Ssp, 4);
	DEBUG ((DEBUG_INFO, "mCetPl0Ssp - 0x%x\n", mCetPl0Ssp));
	DEBUG ((DEBUG_INFO, "ShadowStack - 0x%x\n", ShadowStack));
	DEBUG ((DEBUG_INFO, " SmmShadowStackSize - 0x%x\n", SmmShadowStackSize));

	if (FeaturePcdGet (PcdCpuSmmStackGuard)) {
	mCetInterruptSsp = (UINT32)((UINTN)ShadowStack + EFI_PAGES_TO_SIZE (1) - sizeof (UINT64));
	PatchInstructionX86 (mPatchCetInterruptSsp, mCetInterruptSsp, 4);
	DEBUG ((DEBUG_INFO, "mCetInterruptSsp - 0x%x\n", mCetInterruptSsp));
	}
	}
	}