UefiCpuPkg/CpuMpPei/Microcode.c - device/linaro/bootloader/edk2 - Git at Google

 /** @file
   Implementation of loading microcode on processors.

   Copyright (c) 2015 - 2016, Intel Corporation. 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 "CpuMpPei.h"

 /**
   Get microcode update signature of currently loaded microcode update.

   @return  Microcode signature.

 **/
 UINT32
 GetCurrentMicrocodeSignature (
   VOID
   )
 {
   UINT64 Signature;

   AsmWriteMsr64 (EFI_MSR_IA32_BIOS_SIGN_ID, 0);
   AsmCpuid (CPUID_VERSION_INFO, NULL, NULL, NULL, NULL);
   Signature = AsmReadMsr64 (EFI_MSR_IA32_BIOS_SIGN_ID);
   return (UINT32) RShiftU64 (Signature, 32);
 }

 /**
   Detect whether specified processor can find matching microcode patch and load it.

   @param PeiCpuMpData        Pointer to PEI CPU MP Data
 **/
 VOID
 MicrocodeDetect (
   IN PEI_CPU_MP_DATA            *PeiCpuMpData
   )
 {
   UINT64                                  MicrocodePatchAddress;
   UINT64                                  MicrocodePatchRegionSize;
   UINT32                                  ExtendedTableLength;
   UINT32                                  ExtendedTableCount;
   EFI_CPU_MICROCODE_EXTENDED_TABLE        *ExtendedTable;
   EFI_CPU_MICROCODE_EXTENDED_TABLE_HEADER *ExtendedTableHeader;
   EFI_CPU_MICROCODE_HEADER                *MicrocodeEntryPoint;
   UINTN                                   MicrocodeEnd;
   UINTN                                   Index;
   UINT8                                   PlatformId;
   UINT32                                  RegEax;
   UINT32                                  CurrentRevision;
   UINT32                                  LatestRevision;
   UINTN                                   TotalSize;
   UINT32                                  CheckSum32;
   BOOLEAN                                 CorrectMicrocode;
   MICROCODE_INFO                          MicrocodeInfo;

   ZeroMem (&MicrocodeInfo, sizeof (MICROCODE_INFO));
   MicrocodePatchAddress    = PcdGet64 (PcdCpuMicrocodePatchAddress);
   MicrocodePatchRegionSize = PcdGet64 (PcdCpuMicrocodePatchRegionSize);
   if (MicrocodePatchRegionSize == 0) {
     //
     // There is no microcode patches
     //
     return;
   }

   CurrentRevision = GetCurrentMicrocodeSignature ();
   if (CurrentRevision != 0) {
     //
     // Skip loading microcode if it has been loaded successfully
     //
     return;
   }

   ExtendedTableLength = 0;
   //
   // Here data of CPUID leafs have not been collected into context buffer, so
   // GetProcessorCpuid() cannot be used here to retrieve CPUID data.
   //
   AsmCpuid (CPUID_VERSION_INFO, &RegEax, NULL, NULL, NULL);

   //
   // The index of platform information resides in bits 50:52 of MSR IA32_PLATFORM_ID
   //
   PlatformId = (UINT8) AsmMsrBitFieldRead64 (EFI_MSR_IA32_PLATFORM_ID, 50, 52);

   LatestRevision = 0;
   MicrocodeEnd = (UINTN) (MicrocodePatchAddress + MicrocodePatchRegionSize);
   MicrocodeEntryPoint = (EFI_CPU_MICROCODE_HEADER *) (UINTN) MicrocodePatchAddress;
   do {
     //
     // Check if the microcode is for the Cpu and the version is newer
     // and the update can be processed on the platform
     //
     CorrectMicrocode = FALSE;
     if (MicrocodeEntryPoint->HeaderVersion == 0x1) {
       //
       // It is the microcode header. It is not the padding data between microcode patches
       // because the padding data should not include 0x00000001 and it should be the repeated
       // byte format (like 0xXYXYXYXY....).
       //
       if (MicrocodeEntryPoint->ProcessorId == RegEax &&
           MicrocodeEntryPoint->UpdateRevision > LatestRevision &&
           (MicrocodeEntryPoint->ProcessorFlags & (1 << PlatformId))
           ) {
         if (MicrocodeEntryPoint->DataSize == 0) {
           CheckSum32 = CalculateSum32 ((UINT32 *)MicrocodeEntryPoint, 2048);
         } else {
           CheckSum32 = CalculateSum32 ((UINT32 *)MicrocodeEntryPoint, MicrocodeEntryPoint->DataSize + sizeof(EFI_CPU_MICROCODE_HEADER));
         }
         if (CheckSum32 == 0) {
           CorrectMicrocode = TRUE;
         }
       } else if ((MicrocodeEntryPoint->DataSize != 0) &&
                  (MicrocodeEntryPoint->UpdateRevision > LatestRevision)) {
         ExtendedTableLength = MicrocodeEntryPoint->TotalSize - (MicrocodeEntryPoint->DataSize + sizeof (EFI_CPU_MICROCODE_HEADER));
         if (ExtendedTableLength != 0) {
           //
           // Extended Table exist, check if the CPU in support list
           //
           ExtendedTableHeader = (EFI_CPU_MICROCODE_EXTENDED_TABLE_HEADER *)((UINT8 *)(MicrocodeEntryPoint) + MicrocodeEntryPoint->DataSize + sizeof (EFI_CPU_MICROCODE_HEADER));
           //
           // Calculate Extended Checksum
           //
           if ((ExtendedTableLength % 4) == 0) {
             CheckSum32 = CalculateSum32 ((UINT32 *)ExtendedTableHeader, ExtendedTableLength);
             if (CheckSum32 == 0) {
               //
               // Checksum correct
               //
               ExtendedTableCount = ExtendedTableHeader->ExtendedSignatureCount;
               ExtendedTable      = (EFI_CPU_MICROCODE_EXTENDED_TABLE *)(ExtendedTableHeader + 1);
               for (Index = 0; Index < ExtendedTableCount; Index ++) {
                 CheckSum32 = CalculateSum32 ((UINT32 *)ExtendedTable, sizeof(EFI_CPU_MICROCODE_EXTENDED_TABLE));
                 if (CheckSum32 == 0) {
                   //
                   // Verify Header
                   //
                   if ((ExtendedTable->ProcessorSignature == RegEax) &&
                       (ExtendedTable->ProcessorFlag & (1 << PlatformId)) ) {
                     //
                     // Find one
                     //
                     CorrectMicrocode = TRUE;
                     break;
                   }
                 }
                 ExtendedTable ++;
               }
             }
           }
         }
       }
     } else {
       //
       // It is the padding data between the microcode patches for microcode patches alignment.
       // Because the microcode patch is the multiple of 1-KByte, the padding data should not
       // exist if the microcode patch alignment value is not larger than 1-KByte. So, the microcode
       // alignment value should be larger than 1-KByte. We could skip SIZE_1KB padding data to
       // find the next possible microcode patch header.
       //
       MicrocodeEntryPoint = (EFI_CPU_MICROCODE_HEADER *) (((UINTN) MicrocodeEntryPoint) + SIZE_1KB);
       continue;
     }
     //
     // Get the next patch.
     //
     if (MicrocodeEntryPoint->DataSize == 0) {
       TotalSize = 2048;
     } else {
       TotalSize = MicrocodeEntryPoint->TotalSize;
     }

     if (CorrectMicrocode) {
       LatestRevision = MicrocodeEntryPoint->UpdateRevision;
       MicrocodeInfo.MicrocodeData = (VOID *)((UINTN)MicrocodeEntryPoint + sizeof (EFI_CPU_MICROCODE_HEADER));
       MicrocodeInfo.MicrocodeSize = TotalSize;
       MicrocodeInfo.ProcessorId = RegEax;
     }

     MicrocodeEntryPoint = (EFI_CPU_MICROCODE_HEADER *) (((UINTN) MicrocodeEntryPoint) + TotalSize);
   } while (((UINTN) MicrocodeEntryPoint < MicrocodeEnd));

   if (LatestRevision > CurrentRevision) {
     //
     // BIOS only authenticate updates that contain a numerically larger revision
     // than the currently loaded revision, where Current Signature < New Update
     // Revision. A processor with no loaded update is considered to have a
     // revision equal to zero.
     //
     AsmWriteMsr64 (
       EFI_MSR_IA32_BIOS_UPDT_TRIG,
       (UINT64) (UINTN) MicrocodeInfo.MicrocodeData
       );
     //
     // Get and check new microcode signature
     //
     CurrentRevision = GetCurrentMicrocodeSignature ();
     if (CurrentRevision != LatestRevision) {
       AcquireSpinLock(&PeiCpuMpData->MpLock);
       DEBUG ((EFI_D_ERROR, "Updated microcode signature [0x%08x] does not match \
                 loaded microcode signature [0x%08x]\n", CurrentRevision, LatestRevision));
       ReleaseSpinLock(&PeiCpuMpData->MpLock);
     }
   }
 }
	/** @file
	Implementation of loading microcode on processors.

	Copyright (c) 2015 - 2016, Intel Corporation. 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 "CpuMpPei.h"

	/**
	Get microcode update signature of currently loaded microcode update.

	@return Microcode signature.

	**/
	UINT32
	GetCurrentMicrocodeSignature (
	VOID
	)
	{
	UINT64 Signature;

	AsmWriteMsr64 (EFI_MSR_IA32_BIOS_SIGN_ID, 0);
	AsmCpuid (CPUID_VERSION_INFO, NULL, NULL, NULL, NULL);
	Signature = AsmReadMsr64 (EFI_MSR_IA32_BIOS_SIGN_ID);
	return (UINT32) RShiftU64 (Signature, 32);
	}

	/**
	Detect whether specified processor can find matching microcode patch and load it.

	@param PeiCpuMpData Pointer to PEI CPU MP Data
	**/
	VOID
	MicrocodeDetect (
	IN PEI_CPU_MP_DATA *PeiCpuMpData
	)
	{
	UINT64 MicrocodePatchAddress;
	UINT64 MicrocodePatchRegionSize;
	UINT32 ExtendedTableLength;
	UINT32 ExtendedTableCount;
	EFI_CPU_MICROCODE_EXTENDED_TABLE *ExtendedTable;
	EFI_CPU_MICROCODE_EXTENDED_TABLE_HEADER *ExtendedTableHeader;
	EFI_CPU_MICROCODE_HEADER *MicrocodeEntryPoint;
	UINTN MicrocodeEnd;
	UINTN Index;
	UINT8 PlatformId;
	UINT32 RegEax;
	UINT32 CurrentRevision;
	UINT32 LatestRevision;
	UINTN TotalSize;
	UINT32 CheckSum32;
	BOOLEAN CorrectMicrocode;
	MICROCODE_INFO MicrocodeInfo;

	ZeroMem (&MicrocodeInfo, sizeof (MICROCODE_INFO));
	MicrocodePatchAddress = PcdGet64 (PcdCpuMicrocodePatchAddress);
	MicrocodePatchRegionSize = PcdGet64 (PcdCpuMicrocodePatchRegionSize);
	if (MicrocodePatchRegionSize == 0) {
	//
	// There is no microcode patches
	//
	return;
	}

	CurrentRevision = GetCurrentMicrocodeSignature ();
	if (CurrentRevision != 0) {
	//
	// Skip loading microcode if it has been loaded successfully
	//
	return;
	}

	ExtendedTableLength = 0;
	//
	// Here data of CPUID leafs have not been collected into context buffer, so
	// GetProcessorCpuid() cannot be used here to retrieve CPUID data.
	//
	AsmCpuid (CPUID_VERSION_INFO, &RegEax, NULL, NULL, NULL);

	//
	// The index of platform information resides in bits 50:52 of MSR IA32_PLATFORM_ID
	//
	PlatformId = (UINT8) AsmMsrBitFieldRead64 (EFI_MSR_IA32_PLATFORM_ID, 50, 52);

	LatestRevision = 0;
	MicrocodeEnd = (UINTN) (MicrocodePatchAddress + MicrocodePatchRegionSize);
	MicrocodeEntryPoint = (EFI_CPU_MICROCODE_HEADER *) (UINTN) MicrocodePatchAddress;
	do {
	//
	// Check if the microcode is for the Cpu and the version is newer
	// and the update can be processed on the platform
	//
	CorrectMicrocode = FALSE;
	if (MicrocodeEntryPoint->HeaderVersion == 0x1) {
	//
	// It is the microcode header. It is not the padding data between microcode patches
	// because the padding data should not include 0x00000001 and it should be the repeated
	// byte format (like 0xXYXYXYXY....).
	//
	if (MicrocodeEntryPoint->ProcessorId == RegEax &&
	MicrocodeEntryPoint->UpdateRevision > LatestRevision &&
	(MicrocodeEntryPoint->ProcessorFlags & (1 << PlatformId))
	) {
	if (MicrocodeEntryPoint->DataSize == 0) {
	CheckSum32 = CalculateSum32 ((UINT32 *)MicrocodeEntryPoint, 2048);
	} else {
	CheckSum32 = CalculateSum32 ((UINT32 *)MicrocodeEntryPoint, MicrocodeEntryPoint->DataSize + sizeof(EFI_CPU_MICROCODE_HEADER));
	}
	if (CheckSum32 == 0) {
	CorrectMicrocode = TRUE;
	}
	} else if ((MicrocodeEntryPoint->DataSize != 0) &&
	(MicrocodeEntryPoint->UpdateRevision > LatestRevision)) {
	ExtendedTableLength = MicrocodeEntryPoint->TotalSize - (MicrocodeEntryPoint->DataSize + sizeof (EFI_CPU_MICROCODE_HEADER));
	if (ExtendedTableLength != 0) {
	//
	// Extended Table exist, check if the CPU in support list
	//
	ExtendedTableHeader = (EFI_CPU_MICROCODE_EXTENDED_TABLE_HEADER )((UINT8 )(MicrocodeEntryPoint) + MicrocodeEntryPoint->DataSize + sizeof (EFI_CPU_MICROCODE_HEADER));
	//
	// Calculate Extended Checksum
	//
	if ((ExtendedTableLength % 4) == 0) {
	CheckSum32 = CalculateSum32 ((UINT32 *)ExtendedTableHeader, ExtendedTableLength);
	if (CheckSum32 == 0) {
	//
	// Checksum correct
	//
	ExtendedTableCount = ExtendedTableHeader->ExtendedSignatureCount;
	ExtendedTable = (EFI_CPU_MICROCODE_EXTENDED_TABLE *)(ExtendedTableHeader + 1);
	for (Index = 0; Index < ExtendedTableCount; Index ++) {
	CheckSum32 = CalculateSum32 ((UINT32 *)ExtendedTable, sizeof(EFI_CPU_MICROCODE_EXTENDED_TABLE));
	if (CheckSum32 == 0) {
	//
	// Verify Header
	//
	if ((ExtendedTable->ProcessorSignature == RegEax) &&
	(ExtendedTable->ProcessorFlag & (1 << PlatformId)) ) {
	//
	// Find one
	//
	CorrectMicrocode = TRUE;
	break;
	}
	}
	ExtendedTable ++;
	}
	}
	}
	}
	}
	} else {
	//
	// It is the padding data between the microcode patches for microcode patches alignment.
	// Because the microcode patch is the multiple of 1-KByte, the padding data should not
	// exist if the microcode patch alignment value is not larger than 1-KByte. So, the microcode
	// alignment value should be larger than 1-KByte. We could skip SIZE_1KB padding data to
	// find the next possible microcode patch header.
	//
	MicrocodeEntryPoint = (EFI_CPU_MICROCODE_HEADER *) (((UINTN) MicrocodeEntryPoint) + SIZE_1KB);
	continue;
	}
	//
	// Get the next patch.
	//
	if (MicrocodeEntryPoint->DataSize == 0) {
	TotalSize = 2048;
	} else {
	TotalSize = MicrocodeEntryPoint->TotalSize;
	}

	if (CorrectMicrocode) {
	LatestRevision = MicrocodeEntryPoint->UpdateRevision;
	MicrocodeInfo.MicrocodeData = (VOID *)((UINTN)MicrocodeEntryPoint + sizeof (EFI_CPU_MICROCODE_HEADER));
	MicrocodeInfo.MicrocodeSize = TotalSize;
	MicrocodeInfo.ProcessorId = RegEax;
	}

	MicrocodeEntryPoint = (EFI_CPU_MICROCODE_HEADER *) (((UINTN) MicrocodeEntryPoint) + TotalSize);
	} while (((UINTN) MicrocodeEntryPoint < MicrocodeEnd));

	if (LatestRevision > CurrentRevision) {
	//
	// BIOS only authenticate updates that contain a numerically larger revision
	// than the currently loaded revision, where Current Signature < New Update
	// Revision. A processor with no loaded update is considered to have a
	// revision equal to zero.
	//
	AsmWriteMsr64 (
	EFI_MSR_IA32_BIOS_UPDT_TRIG,
	(UINT64) (UINTN) MicrocodeInfo.MicrocodeData
	);
	//
	// Get and check new microcode signature
	//
	CurrentRevision = GetCurrentMicrocodeSignature ();
	if (CurrentRevision != LatestRevision) {
	AcquireSpinLock(&PeiCpuMpData->MpLock);
	DEBUG ((EFI_D_ERROR, "Updated microcode signature [0x%08x] does not match \
	loaded microcode signature [0x%08x]\n", CurrentRevision, LatestRevision));
	ReleaseSpinLock(&PeiCpuMpData->MpLock);
	}
	}
	}