Re: [edk2] [RFC v4 4/6] UefiCpuPkg/CpuExceptionHandlerLib: Add helper to valid memory addresses

[Paulo Alcantara]

"Yao, Jiewen" <jiewen....@intel.com> writes:

Hi Jiewen,

> For 7), you are right that we disable IA32 paging by default.
> However, we do support IA32 PAE in DxeIpl. Please refer to 
> MdeModulePkg\Core\DxeIplPeim\Ia32\DxeLoadFunc.c
> ======================
>     PageTables = 0;
>     BuildPageTablesIa32Pae = (BOOLEAN) (PcdGetBool (PcdSetNxForStack) && 
> IsIa32PaeSupport () && IsExecuteDisableBitAvailable ());
>     if (BuildPageTablesIa32Pae) {
>       PageTables = Create4GPageTablesIa32Pae (BaseOfStack, STACK_SIZE);
>       EnableExecuteDisableBit ();
>     }
> ======================
>
> Please notice that we only support IA32 PAE, we do not support IA32
> non-PAE mode so far. (no matter PSE is ON/OFF)

Cool! I didn't know about it.

>
> So, I suggest:
> 7.1) Please validate IA32 PAE mode. (You can enable PcdSetNxForStack)

I will. Thanks!

> 7.2) If we cannot validate the IA32 non-PAE code, please remove
> them. You can just print "IA32 non-PAE - UNSUPPORTED" and return
> invalid address. Then it can save our development time, review time,
> and validation time. The key is that we only want to check in the
> validated code.

You're right. I'll keep only the code that we were able to validate its
implementation (e.g. 4-level & 32-bit PAE).

Thanks!
Paulo

>> -----Original Message-----
>> From: edk2-devel [mailto:edk2-devel-boun...@lists.01.org] On Behalf Of Paulo
>> Alcantara
>> Sent: Thursday, January 4, 2018 9:30 PM
>> To: Yao, Jiewen <jiewen....@intel.com>; Yao, Jiewen <jiewen....@intel.com>;
>> edk2-devel@lists.01.org
>> Cc: Laszlo Ersek <ler...@redhat.com>; Dong, Eric <eric.d...@intel.com>
>> Subject: Re: [edk2] [RFC v4 4/6] UefiCpuPkg/CpuExceptionHandlerLib: Add
>> helper to valid memory addresses
>> 
>> "Yao, Jiewen" <jiewen....@intel.com> writes:
>> 
>> > 5) For CR4, please use meaning definition for BIT4/BIT5.
>> >   if ((Cr4 & BIT4) != 0 && (*PageDirEntry & BIT7) != 0) {
>> >     if (((Cr4 & BIT5) != 0 && (UINT64)LinearAddress > 0xFFFFFFFFFULL) ||
>> 
>> OK.
>> 
>> >
>> > 6) For IA32 PAE/PSE calculation, same comment for 3 and 4.
>> 
>> OK.
>> 
>> >
>> > 7) Last but not least important, would you please share the information on
>> how do you validate the 32bit PAE/PSE/normal 4K page table?
>> 
>> Since on IA32 we use 32-bit protected flat model and paging disabled
>> (OK?), I wasn't able to validate the paging modes other than 4-level
>> paging mode in X64. The memory validation code I wrote is heavily based
>> upon what I read from Intel SDM Vol 3A manual.
>> 
>> If you do have any idea on how to validate it -- whether it's a PoC or
>> test code -- please let me know, and then I validate it.
>> 
>> Thanks again for your review!
>> 
>> Paulo
>> 
>> >
>> > Thank you
>> > Yao Jiewen
>> >
>> >> -----Original Message-----
>> >> From: edk2-devel [mailto:edk2-devel-boun...@lists.01.org] On Behalf Of
>> Yao,
>> >> Jiewen
>> >> Sent: Thursday, January 4, 2018 9:36 AM
>> >> To: Paulo Alcantara <pa...@paulo.ac>; edk2-devel@lists.01.org
>> >> Cc: Laszlo Ersek <ler...@redhat.com>; Dong, Eric <eric.d...@intel.com>
>> >> Subject: Re: [edk2] [RFC v4 4/6] UefiCpuPkg/CpuExceptionHandlerLib: Add
>> >> helper to valid memory addresses
>> >>
>> >> Some suggestion:
>> >>
>> >> 1) I am not sure if it is proper to use ASSERT in an exception handler, 
>> >> because
>> we
>> >> know something is wrong.
>> >>
>> >>   ASSERT ((PhysicalAddress & (sizeof (*Pml4TableEntry) - 1)) == 0);
>> >>
>> >> I suggest we just do the check, and return FALSE, if the prerequisite is 
>> >> not
>> >> satisfied.
>> >>
>> >> 2) Can we use meaningful definition for BIT0, BIT7?
>> >>
>> >>   if ((*Pml4TableEntry & BIT0) == 0) {
>> >>   if ((*PageDirPtrTableEntry & BIT7) != 0) {
>> >>
>> >> 3) I am not sure if I understand below code.
>> >>
>> >>   PhysicalAddress = (UINT64)Cr3 & (((1ULL << MaxPhyAddrBits) - 1) << 12);
>> >>   PhysicalAddress = *Pml4TableEntry & (((1ULL << MaxPhyAddrBits) - 1) <<
>> 12);
>> >>   PhysicalAddress = *PageDirPtrTableEntry & (((1ULL << MaxPhyAddrBits) -
>> 1)
>> >> << 12);
>> >>   PhysicalAddress = *PageDirEntry & (((1ULL << MaxPhyAddrBits) - 1) <<
>> 12);
>> >>
>> >> If MaxPhyAddrBits is 48, you will get "Cr3 & 0x0FFFFFFFFFFFF000". Is that
>> what
>> >> you want? I think we need "Cr3 & 0x0000FFFFFFFFF000"
>> >> Should it be: PhysicalAddress = (UINT64)Cr3 & ((1ULL << MaxPhyAddrBits) - 
>> >> 1)
>> &
>> >> (~0xFFF);
>> >>
>> >> 4) Can we use a more readable way to below? Personally, I do not suggest
>> "<< 3",
>> >> which is just the index calculation.
>> >>
>> >>   PhysicalAddress = (UINT64)Cr3 & (((1ULL << MaxPhyAddrBits) - 1) << 12);
>> >>   PhysicalAddress |= (((UINT64)LinearAddress >> 39) & 0x1FF) << 3;
>> >>   Pml4TableEntry = (UINT64 *)(UINTN)PhysicalAddress;
>> >>   PhysicalAddress = *Pml4TableEntry & (((1ULL << MaxPhyAddrBits) - 1) <<
>> 12);
>> >>
>> >> For example:
>> >>   PhysicalAddress = (UINT64)Cr3 & ((1ULL << MaxPhyAddrBits) - 1) &
>> (~0xFFF);
>> >>   Pml4TableEntry = (UINT64 *)(UINTN)PhysicalAddress;
>> >>   Index= (UINTN)(((UINT64)LinearAddress >> 39) & 0x1FF);
>> >>   PhysicalAddress = Pml4TableEntry[Index] & ((1ULL << MaxPhyAddrBits) - 1)
>> &
>> >> (~0xFFF);
>> >>
>> >>
>> >>
>> >> Thank you
>> >> Yao Jiewen
>> >>
>> >>
>> >> > -----Original Message-----
>> >> > From: edk2-devel [mailto:edk2-devel-boun...@lists.01.org] On Behalf Of
>> >> Paulo
>> >> > Alcantara
>> >> > Sent: Friday, December 29, 2017 12:40 PM
>> >> > To: edk2-devel@lists.01.org
>> >> > Cc: Laszlo Ersek <ler...@redhat.com>; Dong, Eric <eric.d...@intel.com>
>> >> > Subject: [edk2] [RFC v4 4/6] UefiCpuPkg/CpuExceptionHandlerLib: Add
>> helper
>> >> to
>> >> > valid memory addresses
>> >> >
>> >> > Introduce IsLinearAddressValid() function that will be used for
>> >> > validating memory addresses that would get dereferenced during stack
>> >> > traces in IA32 and X64 CPU exceptions.
>> >> >
>> >> > Contributed-under: TianoCore Contribution Agreement 1.1
>> >> > Cc: Eric Dong <eric.d...@intel.com>
>> >> > Cc: Laszlo Ersek <ler...@redhat.com>
>> >> > Requested-by: Brian Johnson <brian.john...@hpe.com>
>> >> > Requested-by: Jiewen Yao <jiewen....@intel.com>
>> >> > Signed-off-by: Paulo Alcantara <pa...@paulo.ac>
>> >> > ---
>> >> >  UefiCpuPkg/Library/CpuExceptionHandlerLib/CpuExceptionCommon.c |
>> 382
>> >> > ++++++++++++++++++++
>> >> >  UefiCpuPkg/Library/CpuExceptionHandlerLib/CpuExceptionCommon.h |
>> >> 16 +
>> >> >  2 files changed, 398 insertions(+)
>> >> >
>> >> > diff --git
>> >> > a/UefiCpuPkg/Library/CpuExceptionHandlerLib/CpuExceptionCommon.c
>> >> > b/UefiCpuPkg/Library/CpuExceptionHandlerLib/CpuExceptionCommon.c
>> >> > index 867c5c01d6..52b3eb1463 100644
>> >> > --- a/UefiCpuPkg/Library/CpuExceptionHandlerLib/CpuExceptionCommon.c
>> >> > +++
>> b/UefiCpuPkg/Library/CpuExceptionHandlerLib/CpuExceptionCommon.c
>> >> > @@ -14,6 +14,9 @@
>> >> >
>> >> >  #include "CpuExceptionCommon.h"
>> >> >
>> >> > +#include <Register/Msr.h>
>> >> > +#include <Library/DebugLib.h>
>> >> > +
>> >> >  //
>> >> >  // Error code flag indicating whether or not an error code will be
>> >> >  // pushed on the stack if an exception occurs.
>> >> > @@ -194,3 +197,382 @@ GetPdbFileName (
>> >> >      }
>> >> >    }
>> >> >  }
>> >> > +
>> >> > +/**
>> >> > +  Check if a linear address is valid by walking the page tables in 
>> >> > 4-level
>> >> > +  paging mode.
>> >> > +
>> >> > +  @param[in]  Cr3             CR3 control register.
>> >> > +  @param[in]  MaxPhyAddrBits  MAXPHYADDRBITS bits.
>> >> > +  @param[in]  LinearAddress   Linear address to be checked.
>> >> > +**/
>> >> > +STATIC
>> >> > +BOOLEAN
>> >> > +Do4LevelPagingModeCheck (
>> >> > +  IN UINTN            Cr3,
>> >> > +  IN UINT8            MaxPhyAddrBits,
>> >> > +  IN UINTN            LinearAddress
>> >> > +  )
>> >> > +{
>> >> > +  UINT64 PhysicalAddress;
>> >> > +  UINT64 *Pml4TableEntry;
>> >> > +  UINT64 *PageDirPtrTableEntry;
>> >> > +  UINT64 *PageDirEntry;
>> >> > +  UINT64 *PageTableEntry;
>> >> > +
>> >> > +  //
>> >> > +  // In 4-level paging mode, linear addresses are 48 bits wide
>> >> > +  //
>> >> > +  if ((UINT64)LinearAddress > (1ULL << 48) - 1) {
>> >> > +    return FALSE;
>> >> > +  }
>> >> > +
>> >> > +  //
>> >> > +  // Calculate physical address of PML4E
>> >> > +  //
>> >> > +  PhysicalAddress = (UINT64)Cr3 & (((1ULL << MaxPhyAddrBits) - 1) <<
>> 12);
>> >> > +  PhysicalAddress |= (((UINT64)LinearAddress >> 39) & 0x1FF) << 3;
>> >> > +
>> >> > +  ASSERT ((PhysicalAddress & (sizeof (*Pml4TableEntry) - 1)) == 0);
>> >> > +
>> >> > +  Pml4TableEntry = (UINT64 *)(UINTN)PhysicalAddress;
>> >> > +
>> >> > +  //
>> >> > +  // Check if a PDPTE is present
>> >> > +  //
>> >> > +  if ((*Pml4TableEntry & BIT0) == 0) {
>> >> > +    return FALSE;
>> >> > +  }
>> >> > +
>> >> > +  //
>> >> > +  // Calculate physical address of PDPTE
>> >> > +  //
>> >> > +  PhysicalAddress = *Pml4TableEntry & (((1ULL << MaxPhyAddrBits) - 1)
>> <<
>> >> > 12);
>> >> > +  PhysicalAddress |= (((UINT64)LinearAddress >> 30) & 0x1FF) << 3;
>> >> > +
>> >> > +  ASSERT ((PhysicalAddress & (sizeof (*PageDirPtrTableEntry) - 1)) == 
>> >> > 0);
>> >> > +
>> >> > +  PageDirPtrTableEntry = (UINT64 *)(UINTN)PhysicalAddress;
>> >> > +
>> >> > +  //
>> >> > +  // Check whether a PDPTE or 1GiB page entry is present
>> >> > +  //
>> >> > +  if ((*PageDirPtrTableEntry & BIT0) == 0) {
>> >> > +    return FALSE;
>> >> > +  }
>> >> > +
>> >> > +  //
>> >> > +  // Check if PDPTE maps an 1GiB page
>> >> > +  //
>> >> > +  if ((*PageDirPtrTableEntry & BIT7) != 0) {
>> >> > +    return TRUE;
>> >> > +  }
>> >> > +
>> >> > +  //
>> >> > +  // Calculate physical address of PDE
>> >> > +  //
>> >> > +  PhysicalAddress = *PageDirPtrTableEntry & (((1ULL << MaxPhyAddrBits)
>> -
>> >> 1)
>> >> > <<
>> >> > +                                             12);
>> >> > +  PhysicalAddress |= (((UINT64)LinearAddress >> 21) & 0x1FF) << 3;
>> >> > +
>> >> > +  ASSERT ((PhysicalAddress & (sizeof (*PageDirEntry) - 1)) == 0);
>> >> > +
>> >> > +  PageDirEntry = (UINT64 *)(UINTN)PhysicalAddress;
>> >> > +
>> >> > +  //
>> >> > +  // Check whether a PDE or a 2MiB page entry is present
>> >> > +  //
>> >> > +  if ((*PageDirEntry & BIT0) == 0) {
>> >> > +    return FALSE;
>> >> > +  }
>> >> > +
>> >> > +  //
>> >> > +  // Check if PDE maps a 2MiB page
>> >> > +  //
>> >> > +  if ((*PageDirEntry & BIT7) != 0) {
>> >> > +    return TRUE;
>> >> > +  }
>> >> > +
>> >> > +  //
>> >> > +  // Calculate physical address of PTE
>> >> > +  //
>> >> > +  PhysicalAddress = *PageDirEntry & (((1ULL << MaxPhyAddrBits) - 1) <<
>> >> 12);
>> >> > +  PhysicalAddress |= (((UINT64)LinearAddress >> 12) & 0x1FF) << 3;
>> >> > +
>> >> > +  ASSERT ((PhysicalAddress & (sizeof (*PageTableEntry) - 1)) == 0);
>> >> > +
>> >> > +  PageTableEntry = (UINT64 *)(UINTN)PhysicalAddress;
>> >> > +
>> >> > +  //
>> >> > +  // Check if PTE maps a 4KiB page
>> >> > +  //
>> >> > +  if ((*PageTableEntry & BIT0) == 0) {
>> >> > +    return FALSE;
>> >> > +  }
>> >> > +
>> >> > +  return TRUE;
>> >> > +}
>> >> > +
>> >> > +/**
>> >> > +  Check if a linear address is valid by walking the page tables in 
>> >> > 32-bit
>> paging
>> >> > +  mode.
>> >> > +
>> >> > +  @param[in]  Cr3             CR3 control register.
>> >> > +  @param[in]  Cr4             CR4 control register.
>> >> > +  @param[in]  LinearAddress   Linear address to be checked.
>> >> > +**/
>> >> > +STATIC
>> >> > +BOOLEAN
>> >> > +Do32BitPagingModeCheck (
>> >> > +  IN UINTN            Cr3,
>> >> > +  IN UINTN            Cr4,
>> >> > +  IN UINTN            LinearAddress
>> >> > +  )
>> >> > +{
>> >> > +  UINT64 PhysicalAddress;
>> >> > +  UINT32 *PageDirEntry;
>> >> > +  UINT32 *PageTableEntry;
>> >> > +
>> >> > +  if (LinearAddress > MAX_UINT32) {
>> >> > +    return FALSE;
>> >> > +  }
>> >> > +
>> >> > +  //
>> >> > +  // Calculate physical address of PDE
>> >> > +  //
>> >> > +  PhysicalAddress = (UINT32)Cr3 & (((1ULL << 20) - 1) << 12);
>> >> > +  PhysicalAddress |= (((UINT32)LinearAddress >> 22) & 0x3FF) << 2;
>> >> > +
>> >> > +  ASSERT ((PhysicalAddress & (sizeof (*PageDirEntry) - 1)) == 0);
>> >> > +
>> >> > +  PageDirEntry = (UINT32 *)(UINTN)PhysicalAddress;
>> >> > +
>> >> > +  //
>> >> > +  // Check whether a PTE or a 4MiB page is present
>> >> > +  //
>> >> > +  if ((*PageDirEntry & BIT0) == 0) {
>> >> > +    return FALSE;
>> >> > +  }
>> >> > +
>> >> > +  //
>> >> > +  // Check if PDE maps a 4MiB page
>> >> > +  //
>> >> > +  if ((Cr4 & BIT4) != 0 && (*PageDirEntry & BIT7) != 0) {
>> >> > +    return TRUE;
>> >> > +  }
>> >> > +
>> >> > +  //
>> >> > +  // Calculate physical address of PTE
>> >> > +  //
>> >> > +  PhysicalAddress = *PageDirEntry & (((1ULL << 20) - 1) << 12);
>> >> > +  PhysicalAddress |= (((UINT32)LinearAddress >> 12) & 0x3FF) << 2;
>> >> > +
>> >> > +  ASSERT ((PhysicalAddress & (sizeof (*PageTableEntry) - 1)) == 0);
>> >> > +
>> >> > +  PageTableEntry = (UINT32 *)(UINTN)PhysicalAddress;
>> >> > +
>> >> > +  //
>> >> > +  // Check if PTE maps a 4KiB page
>> >> > +  //
>> >> > +  if ((*PageTableEntry & BIT0) == 0) {
>> >> > +    return FALSE;
>> >> > +  }
>> >> > +
>> >> > +  return TRUE;
>> >> > +}
>> >> > +
>> >> > +/**
>> >> > +  Check if a linear address is valid by walking the page tables in PAE 
>> >> > paging
>> >> > +  mode.
>> >> > +
>> >> > +  @param[in]  Cr3             CR3 control register.
>> >> > +  @param[in]  MaxPhyAddrBits  MAXPHYADDRBITS bits.
>> >> > +  @param[in]  LinearAddress   Linear address to be checked.
>> >> > +**/
>> >> > +STATIC
>> >> > +BOOLEAN
>> >> > +DoPAEPagingModeCheck (
>> >> > +  IN UINTN            Cr3,
>> >> > +  IN UINT8            MaxPhyAddrBits,
>> >> > +  IN UINTN            LinearAddress
>> >> > +  )
>> >> > +{
>> >> > +  UINT64 PhysicalAddress;
>> >> > +  UINT64 *PageDirPtrTableEntry;
>> >> > +  UINT64 *PageDirEntry;
>> >> > +  UINT64 *PageTableEntry;
>> >> > +
>> >> > +  if (LinearAddress > MAX_UINT32) {
>> >> > +    return FALSE;
>> >> > +  }
>> >> > +
>> >> > +  //
>> >> > +  // Calculate physical address of PDPTE
>> >> > +  //
>> >> > +  PhysicalAddress = (UINT32)Cr3 >> 5;
>> >> > +
>> >> > +  //
>> >> > +  // Select PDPTE register
>> >> > +  //
>> >> > +  PhysicalAddress +=
>> >> > +    ((UINT32)LinearAddress >> 30) * sizeof (*PageDirPtrTableEntry);
>> >> > +
>> >> > +  PageDirPtrTableEntry = (UINT64 *)(UINTN)PhysicalAddress;
>> >> > +
>> >> > +  //
>> >> > +  // Check if PDE is present
>> >> > +  //
>> >> > +  if ((*PageDirPtrTableEntry & BIT0) == 0) {
>> >> > +    return FALSE;
>> >> > +  }
>> >> > +
>> >> > +  PhysicalAddress = *PageDirPtrTableEntry & (((1ULL << MaxPhyAddrBits)
>> -
>> >> 1)
>> >> > <<
>> >> > +                                             12);
>> >> > +  PhysicalAddress |= ((LinearAddress >> 21) & 0x1FF) << 3;
>> >> > +  ASSERT ((PhysicalAddress & (sizeof (*PageDirEntry) - 1)) == 0);
>> >> > +
>> >> > +  PageDirEntry = (UINT64 *)(UINTN)PhysicalAddress;
>> >> > +
>> >> > +  //
>> >> > +  // Check whether a PTE or a 2MiB page is present
>> >> > +  //
>> >> > +  if ((*PageDirEntry & BIT0) == 0) {
>> >> > +    return FALSE;
>> >> > +  }
>> >> > +
>> >> > +  //
>> >> > +  // Check if PDE maps a 2MiB page
>> >> > +  //
>> >> > +  if ((*PageDirEntry & BIT7) != 0) {
>> >> > +    return TRUE;
>> >> > +  }
>> >> > +
>> >> > +  //
>> >> > +  // Calculate physical address of PTE
>> >> > +  //
>> >> > +  PhysicalAddress = *PageDirEntry & (((1ULL << MaxPhyAddrBits) - 1) <<
>> >> 12);
>> >> > +  PhysicalAddress |= ((LinearAddress >> 12) & 0x1FF) << 3;
>> >> > +  ASSERT ((PhysicalAddress & (sizeof (*PageTableEntry) - 1)) == 0);
>> >> > +
>> >> > +  PageTableEntry = (UINT64 *)(UINTN)PhysicalAddress;
>> >> > +
>> >> > +  //
>> >> > +  // Check if PTE maps a 4KiB page
>> >> > +  //
>> >> > +  if ((*PageTableEntry & BIT0) == 0) {
>> >> > +    return FALSE;
>> >> > +  }
>> >> > +
>> >> > +  return TRUE;
>> >> > +}
>> >> > +
>> >> > +/**
>> >> > +  Check if a linear address is valid.
>> >> > +
>> >> > +  @param[in]  Cr0            CR0 control register.
>> >> > +  @param[in]  Cr3            CR3 control register.
>> >> > +  @param[in]  Cr4            CR4 control register.
>> >> > +  @param[in]  LinearAddress  Linear address to be checked.
>> >> > +**/
>> >> > +BOOLEAN
>> >> > +IsLinearAddressValid (
>> >> > +  IN  UINTN              Cr0,
>> >> > +  IN  UINTN              Cr3,
>> >> > +  IN  UINTN              Cr4,
>> >> > +  IN  UINTN              LinearAddress
>> >> > +  )
>> >> > +{
>> >> > +  UINT32                  Eax;
>> >> > +  UINT32                  Edx;
>> >> > +  UINT8                   MaxPhyAddrBits;
>> >> > +  MSR_IA32_EFER_REGISTER  Msr;
>> >> > +  BOOLEAN                 AddressValid;
>> >> > +
>> >> > +  //
>> >> > +  // Check for valid input parameters
>> >> > +  //
>> >> > +  if (Cr0 == 0 || Cr4 == 0 || LinearAddress == 0) {
>> >> > +    return FALSE;
>> >> > +  }
>> >> > +
>> >> > +  //
>> >> > +  // Check if paging is disabled
>> >> > +  //
>> >> > +  if ((Cr0 & BIT31) == 0) {
>> >> > +    //
>> >> > +    // If CR4.PAE bit is set, then the linear (or physical) address 
>> >> > supports
>> >> > +    // only up to 36 bits.
>> >> > +    //
>> >> > +    if (((Cr4 & BIT5) != 0 && (UINT64)LinearAddress > 0xFFFFFFFFFULL)
>> ||
>> >> > +        LinearAddress > 0xFFFFFFFF) {
>> >> > +      return FALSE;
>> >> > +    }
>> >> > +
>> >> > +    return TRUE;
>> >> > +  }
>> >> > +
>> >> > +  //
>> >> > +  // Paging can be enabled only if CR0.PE bit is set
>> >> > +  //
>> >> > +  if ((Cr0 & BIT0) == 0) {
>> >> > +    return FALSE;
>> >> > +  }
>> >> > +
>> >> > +  //
>> >> > +  // CR3 register cannot be zero if paging is enabled
>> >> > +  //
>> >> > +  if (Cr3 == 0) {
>> >> > +    return FALSE;
>> >> > +  }
>> >> > +
>> >> > +  //
>> >> > +  // Get MAXPHYADDR bits
>> >> > +  //
>> >> > +  AsmCpuid (0x80000000, &Eax, NULL, NULL, NULL);
>> >> > +  if (Eax >= 0x80000008) {
>> >> > +    AsmCpuid (0x80000008, &Eax, NULL, NULL, NULL);
>> >> > +    MaxPhyAddrBits = (UINT8)Eax;
>> >> > +  } else {
>> >> > +    AsmCpuid (1, NULL, NULL, NULL, &Edx);
>> >> > +    if ((Edx & BIT6) != 0) {
>> >> > +      MaxPhyAddrBits = 36;
>> >> > +    } else {
>> >> > +      MaxPhyAddrBits = 32;
>> >> > +    }
>> >> > +  }
>> >> > +
>> >> > +  ASSERT (MaxPhyAddrBits > 0);
>> >> > +
>> >> > +  AddressValid = FALSE;
>> >> > +
>> >> > +  //
>> >> > +  // check if CR4.PAE bit is not set
>> >> > +  //
>> >> > +  if ((Cr4 & BIT5) == 0) {
>> >> > +    //
>> >> > +    // Check if linear address is valid in 32-bit paging mode
>> >> > +    //
>> >> > +    AddressValid = Do32BitPagingModeCheck (Cr3, Cr4, LinearAddress);
>> >> > +  } else {
>> >> > +    if (MaxPhyAddrBits > 52) {
>> >> > +      return FALSE;
>> >> > +    }
>> >> > +
>> >> > +    Msr.Uint64 = AsmReadMsr64 (MSR_IA32_EFER);
>> >> > +
>> >> > +    if (Msr.Bits.LME == 0) {
>> >> > +      //
>> >> > +      // Check if linear address is valid in PAE paging mode
>> >> > +      //
>> >> > +      AddressValid = DoPAEPagingModeCheck (Cr3, MaxPhyAddrBits,
>> >> > LinearAddress);
>> >> > +    } else {
>> >> > +      //
>> >> > +      // Check if linear address is valid in 4-level paging mode
>> >> > +      //
>> >> > +      AddressValid = Do4LevelPagingModeCheck (Cr3, MaxPhyAddrBits,
>> >> > +                                              LinearAddress);
>> >> > +    }
>> >> > +  }
>> >> > +
>> >> > +  return AddressValid;
>> >> > +}
>> >> > diff --git
>> >> > a/UefiCpuPkg/Library/CpuExceptionHandlerLib/CpuExceptionCommon.h
>> >> > b/UefiCpuPkg/Library/CpuExceptionHandlerLib/CpuExceptionCommon.h
>> >> > index ec46c2d9d3..1b51034c25 100644
>> >> > --- a/UefiCpuPkg/Library/CpuExceptionHandlerLib/CpuExceptionCommon.h
>> >> > +++
>> b/UefiCpuPkg/Library/CpuExceptionHandlerLib/CpuExceptionCommon.h
>> >> > @@ -330,5 +330,21 @@ GetPdbFileName (
>> >> >    OUT CHAR8    **PdbFileName
>> >> >    );
>> >> >
>> >> > +/**
>> >> > +  Check if a linear address is valid.
>> >> > +
>> >> > +  @param[in]  Cr0            CR0 control register.
>> >> > +  @param[in]  Cr3            CR3 control register.
>> >> > +  @param[in]  Cr4            CR4 control register.
>> >> > +  @param[in]  LinearAddress  Linear address to be checked.
>> >> > +**/
>> >> > +BOOLEAN
>> >> > +IsLinearAddressValid (
>> >> > +  IN  UINTN              Cr0,
>> >> > +  IN  UINTN              Cr3,
>> >> > +  IN  UINTN              Cr4,
>> >> > +  IN  UINTN              LinearAddress
>> >> > +  );
>> >> > +
>> >> >  #endif
>> >> >
>> >> > --
>> >> > 2.14.3
>> >> >
>> >> > _______________________________________________
>> >> > edk2-devel mailing list
>> >> > edk2-devel@lists.01.org
>> >> > https://lists.01.org/mailman/listinfo/edk2-devel
>> >> _______________________________________________
>> >> edk2-devel mailing list
>> >> edk2-devel@lists.01.org
>> >> https://lists.01.org/mailman/listinfo/edk2-devel
>> _______________________________________________
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>> edk2-devel@lists.01.org
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