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system76-edk2/UefiCpuPkg/PiSmmCpuDxeSmm/Ia32/PageTbl.c
Jian J Wang af4f4b3468 UefiCpuPkg/PiSmmCpuDxeSmm: Add SmmMemoryAttribute protocol 
Heap guard makes use of paging mechanism to implement its functionality. But
there's no protocol or library available to change page attribute in SMM mode.
A new protocol gEdkiiSmmMemoryAttributeProtocolGuid is introduced to make it
happen. This protocol provide three interfaces

struct _EDKII_SMM_MEMORY_ATTRIBUTE_PROTOCOL {
  EDKII_SMM_GET_MEMORY_ATTRIBUTES       GetMemoryAttributes;
  EDKII_SMM_SET_MEMORY_ATTRIBUTES       SetMemoryAttributes;
  EDKII_SMM_CLEAR_MEMORY_ATTRIBUTES     ClearMemoryAttributes;
};

Since heap guard feature need to update page attributes. The page table
should not set to be read-only if heap guard feature is enabled for SMM
mode. Otherwise this feature cannot work.

Cc: Eric Dong <eric.dong@intel.com>
Cc: Jiewen Yao <jiewen.yao@intel.com>
Cc: Laszlo Ersek <lersek@redhat.com>
Cc: Ruiyu Ni <ruiyu.ni@intel.com>
Suggested-by: Ayellet Wolman <ayellet.wolman@intel.com>
Contributed-under: TianoCore Contribution Agreement 1.1
Signed-off-by: Jian J Wang <jian.j.wang@intel.com>
Reviewed-by: Jiewen Yao <jiewen.yao@intel.com>
Regression-tested-by: Laszlo Ersek <lersek@redhat.com>
2017-11-17 11:03:18 +08:00

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/** @file
Page table manipulation functions for IA-32 processors
Copyright (c) 2009 - 2017, Intel Corporation. All rights reserved.<BR>
Copyright (c) 2017, AMD Incorporated. All rights reserved.<BR>
This program and the accompanying materials
are licensed and made available under the terms and conditions of the BSD License
which accompanies this distribution. The full text of the license may be found at
http://opensource.org/licenses/bsd-license.php
THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
**/
#include "PiSmmCpuDxeSmm.h"
/**
Create PageTable for SMM use.
@return PageTable Address
**/
UINT32
SmmInitPageTable (
VOID
)
{
UINTN PageFaultHandlerHookAddress;
IA32_IDT_GATE_DESCRIPTOR *IdtEntry;
EFI_STATUS Status;
//
// Initialize spin lock
//
InitializeSpinLock (mPFLock);
mPhysicalAddressBits = 32;
if (FeaturePcdGet (PcdCpuSmmProfileEnable)) {
//
// Set own Page Fault entry instead of the default one, because SMM Profile
// feature depends on IRET instruction to do Single Step
//
PageFaultHandlerHookAddress = (UINTN)PageFaultIdtHandlerSmmProfile;
IdtEntry = (IA32_IDT_GATE_DESCRIPTOR *) gcSmiIdtr.Base;
IdtEntry += EXCEPT_IA32_PAGE_FAULT;
IdtEntry->Bits.OffsetLow = (UINT16)PageFaultHandlerHookAddress;
IdtEntry->Bits.Reserved_0 = 0;
IdtEntry->Bits.GateType = IA32_IDT_GATE_TYPE_INTERRUPT_32;
IdtEntry->Bits.OffsetHigh = (UINT16)(PageFaultHandlerHookAddress >> 16);
} else {
//
// Register SMM Page Fault Handler
//
Status = SmmRegisterExceptionHandler (&mSmmCpuService, EXCEPT_IA32_PAGE_FAULT, SmiPFHandler);
ASSERT_EFI_ERROR (Status);
}
//
// Additional SMM IDT initialization for SMM stack guard
//
if (FeaturePcdGet (PcdCpuSmmStackGuard)) {
InitializeIDTSmmStackGuard ();
}
return Gen4GPageTable (TRUE);
}
/**
Page Fault handler for SMM use.
**/
VOID
SmiDefaultPFHandler (
VOID
)
{
CpuDeadLoop ();
}
/**
ThePage Fault handler wrapper for SMM use.
@param InterruptType Defines the type of interrupt or exception that
occurred on the processor.This parameter is processor architecture specific.
@param SystemContext A pointer to the processor context when
the interrupt occurred on the processor.
**/
VOID
EFIAPI
SmiPFHandler (
IN EFI_EXCEPTION_TYPE InterruptType,
IN EFI_SYSTEM_CONTEXT SystemContext
)
{
UINTN PFAddress;
UINTN GuardPageAddress;
UINTN CpuIndex;
ASSERT (InterruptType == EXCEPT_IA32_PAGE_FAULT);
AcquireSpinLock (mPFLock);
PFAddress = AsmReadCr2 ();
//
// If a page fault occurs in SMRAM range, it might be in a SMM stack guard page,
// or SMM page protection violation.
//
if ((PFAddress >= mCpuHotPlugData.SmrrBase) &&
(PFAddress < (mCpuHotPlugData.SmrrBase + mCpuHotPlugData.SmrrSize))) {
DumpCpuContext (InterruptType, SystemContext);
CpuIndex = GetCpuIndex ();
GuardPageAddress = (mSmmStackArrayBase + EFI_PAGE_SIZE + CpuIndex * mSmmStackSize);
if ((FeaturePcdGet (PcdCpuSmmStackGuard)) &&
(PFAddress >= GuardPageAddress) &&
(PFAddress < (GuardPageAddress + EFI_PAGE_SIZE))) {
DEBUG ((DEBUG_ERROR, "SMM stack overflow!\n"));
} else {
if ((SystemContext.SystemContextIa32->ExceptionData & IA32_PF_EC_ID) != 0) {
DEBUG ((DEBUG_ERROR, "SMM exception at execution (0x%x)\n", PFAddress));
DEBUG_CODE (
DumpModuleInfoByIp (*(UINTN *)(UINTN)SystemContext.SystemContextIa32->Esp);
);
} else {
DEBUG ((DEBUG_ERROR, "SMM exception at access (0x%x)\n", PFAddress));
DEBUG_CODE (
DumpModuleInfoByIp ((UINTN)SystemContext.SystemContextIa32->Eip);
);
}
}
CpuDeadLoop ();
}
//
// If a page fault occurs in SMM range
//
if ((PFAddress < mCpuHotPlugData.SmrrBase) ||
(PFAddress >= mCpuHotPlugData.SmrrBase + mCpuHotPlugData.SmrrSize)) {
DumpCpuContext (InterruptType, SystemContext);
if ((SystemContext.SystemContextIa32->ExceptionData & IA32_PF_EC_ID) != 0) {
DEBUG ((DEBUG_ERROR, "Code executed on IP(0x%x) out of SMM range after SMM is locked!\n", PFAddress));
DEBUG_CODE (
DumpModuleInfoByIp (*(UINTN *)(UINTN)SystemContext.SystemContextIa32->Esp);
);
CpuDeadLoop ();
}
if (IsSmmCommBufferForbiddenAddress (PFAddress)) {
DEBUG ((DEBUG_ERROR, "Access SMM communication forbidden address (0x%x)!\n", PFAddress));
DEBUG_CODE (
DumpModuleInfoByIp ((UINTN)SystemContext.SystemContextIa32->Eip);
);
CpuDeadLoop ();
}
}
//
// If NULL pointer was just accessed
//
if ((PcdGet8 (PcdNullPointerDetectionPropertyMask) & BIT1) != 0 &&
(PFAddress < EFI_PAGE_SIZE)) {
DEBUG ((DEBUG_ERROR, "!!! NULL pointer access !!!\n"));
DEBUG_CODE (
DumpModuleInfoByIp ((UINTN)SystemContext.SystemContextIa32->Eip);
);
CpuDeadLoop ();
}
if (FeaturePcdGet (PcdCpuSmmProfileEnable)) {
SmmProfilePFHandler (
SystemContext.SystemContextIa32->Eip,
SystemContext.SystemContextIa32->ExceptionData
);
} else {
DumpCpuContext (InterruptType, SystemContext);
SmiDefaultPFHandler ();
}
ReleaseSpinLock (mPFLock);
}
/**
This function sets memory attribute for page table.
**/
VOID
SetPageTableAttributes (
VOID
)
{
UINTN Index2;
UINTN Index3;
UINT64 *L1PageTable;
UINT64 *L2PageTable;
UINT64 *L3PageTable;
BOOLEAN IsSplitted;
BOOLEAN PageTableSplitted;
//
// Don't mark page table as read-only if heap guard is enabled.
//
// BIT2: SMM page guard enabled
// BIT3: SMM pool guard enabled
//
if ((PcdGet8 (PcdHeapGuardPropertyMask) & (BIT3 | BIT2)) != 0) {
return ;
}
DEBUG ((DEBUG_INFO, "SetPageTableAttributes\n"));
//
// Disable write protection, because we need mark page table to be write protected.
// We need *write* page table memory, to mark itself to be *read only*.
//
AsmWriteCr0 (AsmReadCr0() & ~CR0_WP);
do {
DEBUG ((DEBUG_INFO, "Start...\n"));
PageTableSplitted = FALSE;
L3PageTable = (UINT64 *)GetPageTableBase ();
SmmSetMemoryAttributesEx ((EFI_PHYSICAL_ADDRESS)(UINTN)L3PageTable, SIZE_4KB, EFI_MEMORY_RO, &IsSplitted);
PageTableSplitted = (PageTableSplitted || IsSplitted);
for (Index3 = 0; Index3 < 4; Index3++) {
L2PageTable = (UINT64 *)(UINTN)(L3PageTable[Index3] & ~mAddressEncMask & PAGING_4K_ADDRESS_MASK_64);
if (L2PageTable == NULL) {
continue;
}
SmmSetMemoryAttributesEx ((EFI_PHYSICAL_ADDRESS)(UINTN)L2PageTable, SIZE_4KB, EFI_MEMORY_RO, &IsSplitted);
PageTableSplitted = (PageTableSplitted || IsSplitted);
for (Index2 = 0; Index2 < SIZE_4KB/sizeof(UINT64); Index2++) {
if ((L2PageTable[Index2] & IA32_PG_PS) != 0) {
// 2M
continue;
}
L1PageTable = (UINT64 *)(UINTN)(L2PageTable[Index2] & ~mAddressEncMask & PAGING_4K_ADDRESS_MASK_64);
if (L1PageTable == NULL) {
continue;
}
SmmSetMemoryAttributesEx ((EFI_PHYSICAL_ADDRESS)(UINTN)L1PageTable, SIZE_4KB, EFI_MEMORY_RO, &IsSplitted);
PageTableSplitted = (PageTableSplitted || IsSplitted);
}
}
} while (PageTableSplitted);
//
// Enable write protection, after page table updated.
//
AsmWriteCr0 (AsmReadCr0() | CR0_WP);
return ;
}
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