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* [PATCH] UefiCpuPkg/MicrocodeUpdate: enhance flash write logic
@ 2016-12-26 15:40 Jiewen Yao
  0 siblings, 0 replies; only message in thread
From: Jiewen Yao @ 2016-12-26 15:40 UTC (permalink / raw)
  To: edk2-devel; +Cc: Jeff Fan, Star Zeng

The patch updated MicrocodeWrite() to move the Microcode replacement logic
to a standalone function -  UpdateMicrocodeFlashRegion().
More detail description is added in UpdateMicrocodeFlashRegion()
to improve readability.

The Microcode information is collected in InitializeMicrocodeDescriptor(),
so that FmpGetImage() can get the info directly.
MicrocodeRead() is not needed any more.

Cc: Jeff Fan <jeff.fan@intel.com>
Cc: Star Zeng <star.zeng@intel.com>
Contributed-under: TianoCore Contribution Agreement 1.0
Signed-off-by: Jiewen Yao <jiewen.yao@intel.com>
---
 UefiCpuPkg/Feature/Capsule/MicrocodeUpdateDxe/MicrocodeFmp.c    |  40 +-
 UefiCpuPkg/Feature/Capsule/MicrocodeUpdateDxe/MicrocodeUpdate.c | 614 ++++++++++++++------
 UefiCpuPkg/Feature/Capsule/MicrocodeUpdateDxe/MicrocodeUpdate.h |  79 +--
 3 files changed, 502 insertions(+), 231 deletions(-)

diff --git a/UefiCpuPkg/Feature/Capsule/MicrocodeUpdateDxe/MicrocodeFmp.c b/UefiCpuPkg/Feature/Capsule/MicrocodeUpdateDxe/MicrocodeFmp.c
index df3563d..36ba39f 100644
--- a/UefiCpuPkg/Feature/Capsule/MicrocodeUpdateDxe/MicrocodeFmp.c
+++ b/UefiCpuPkg/Feature/Capsule/MicrocodeUpdateDxe/MicrocodeFmp.c
@@ -174,7 +174,7 @@ FmpGetImage (
   )
 {
   MICROCODE_FMP_PRIVATE_DATA *MicrocodeFmpPrivate;
-  EFI_STATUS                 Status;
+  MICROCODE_INFO             *MicrocodeInfo;
 
   if (Image == NULL || ImageSize == NULL) {
     return EFI_INVALID_PARAMETER;
@@ -186,8 +186,16 @@ FmpGetImage (
     return EFI_INVALID_PARAMETER;
   }
 
-  Status = MicrocodeRead(ImageIndex, (VOID *)Image, ImageSize);
-  return Status;
+  MicrocodeInfo = &MicrocodeFmpPrivate->MicrocodeInfo[ImageIndex - 1];
+
+  if (*ImageSize < MicrocodeInfo->TotalSize) {
+    *ImageSize = MicrocodeInfo->TotalSize;
+    return EFI_BUFFER_TOO_SMALL;
+  }
+
+  *ImageSize = MicrocodeInfo->TotalSize;
+  CopyMem (Image, MicrocodeInfo->MicrocodeEntryPoint, MicrocodeInfo->TotalSize);
+  return EFI_SUCCESS;
 }
 
 /**
@@ -263,7 +271,7 @@ FmpSetImage (
     return EFI_INVALID_PARAMETER;
   }
 
-  Status = MicrocodeWrite(ImageIndex, (VOID *)Image, ImageSize, &MicrocodeFmpPrivate->LastAttempt.LastAttemptVersion, &MicrocodeFmpPrivate->LastAttempt.LastAttemptStatus, AbortReason);
+  Status = MicrocodeWrite(MicrocodeFmpPrivate, (VOID *)Image, ImageSize, &MicrocodeFmpPrivate->LastAttempt.LastAttemptVersion, &MicrocodeFmpPrivate->LastAttempt.LastAttemptStatus, AbortReason);
   DEBUG((DEBUG_INFO, "SetImage - LastAttemp Version - 0x%x, State - 0x%x\n", MicrocodeFmpPrivate->LastAttempt.LastAttemptVersion, MicrocodeFmpPrivate->LastAttempt.LastAttemptStatus));
   VarStatus = gRT->SetVariable(
                      MICROCODE_FMP_LAST_ATTEMPT_VARIABLE_NAME,
@@ -417,17 +425,29 @@ InitializeMicrocodeDescriptor (
   IN MICROCODE_FMP_PRIVATE_DATA *MicrocodeFmpPrivate
   )
 {
-  UINT8  CurrentMicrocodeCount;
+  UINT8    CurrentMicrocodeCount;
+  BOOLEAN  Result;
 
-  CurrentMicrocodeCount = (UINT8)GetMicrocodeInfo(NULL, 0);
+  Result = GetMicrocodeRegion(&MicrocodeFmpPrivate->MicrocodePatchAddress, &MicrocodeFmpPrivate->MicrocodePatchRegionSize);
+  if (!Result) {
+    DEBUG((DEBUG_ERROR, "Fail to get Microcode Region\n"));
+    return EFI_NOT_FOUND;
+  }
+
+  CurrentMicrocodeCount = (UINT8)GetMicrocodeInfo(0, NULL, NULL);
 
   if (CurrentMicrocodeCount > MicrocodeFmpPrivate->DescriptorCount) {
     if (MicrocodeFmpPrivate->ImageDescriptor != NULL) {
       FreePool(MicrocodeFmpPrivate->ImageDescriptor);
       MicrocodeFmpPrivate->ImageDescriptor = NULL;
     }
+    if (MicrocodeFmpPrivate->MicrocodeInfo != NULL) {
+      FreePool(MicrocodeFmpPrivate->MicrocodeInfo);
+      MicrocodeFmpPrivate->MicrocodeInfo = NULL;
+    }
   } else {
     ZeroMem(MicrocodeFmpPrivate->ImageDescriptor, MicrocodeFmpPrivate->DescriptorCount * sizeof(EFI_FIRMWARE_IMAGE_DESCRIPTOR));
+    ZeroMem(MicrocodeFmpPrivate->MicrocodeInfo, MicrocodeFmpPrivate->DescriptorCount * sizeof(MICROCODE_INFO));
   }
 
   MicrocodeFmpPrivate->DescriptorCount = CurrentMicrocodeCount;
@@ -438,8 +458,14 @@ InitializeMicrocodeDescriptor (
       return EFI_OUT_OF_RESOURCES;
     }
   }
+  if (MicrocodeFmpPrivate->MicrocodeInfo == NULL) {
+    MicrocodeFmpPrivate->MicrocodeInfo = AllocateZeroPool(MicrocodeFmpPrivate->DescriptorCount * sizeof(MICROCODE_INFO));
+    if (MicrocodeFmpPrivate->MicrocodeInfo == NULL) {
+      return EFI_OUT_OF_RESOURCES;
+    }
+  }
 
-  CurrentMicrocodeCount = (UINT8)GetMicrocodeInfo(MicrocodeFmpPrivate->ImageDescriptor, MicrocodeFmpPrivate->DescriptorCount);
+  CurrentMicrocodeCount = (UINT8)GetMicrocodeInfo(MicrocodeFmpPrivate->DescriptorCount, MicrocodeFmpPrivate->ImageDescriptor, MicrocodeFmpPrivate->MicrocodeInfo);
   ASSERT(CurrentMicrocodeCount == MicrocodeFmpPrivate->DescriptorCount);
 
   return EFI_SUCCESS;
diff --git a/UefiCpuPkg/Feature/Capsule/MicrocodeUpdateDxe/MicrocodeUpdate.c b/UefiCpuPkg/Feature/Capsule/MicrocodeUpdateDxe/MicrocodeUpdate.c
index 2eb4ae4..c470925 100644
--- a/UefiCpuPkg/Feature/Capsule/MicrocodeUpdateDxe/MicrocodeUpdate.c
+++ b/UefiCpuPkg/Feature/Capsule/MicrocodeUpdateDxe/MicrocodeUpdate.c
@@ -21,6 +21,36 @@
 
 #include "MicrocodeUpdate.h"
 
+
+/**
+  Verify Microcode.
+
+  Caution: This function may receive untrusted input.
+
+  @param[in]  Image              The Microcode image buffer.
+  @param[in]  ImageSize          The size of Microcode image buffer in bytes.
+  @param[in]  TryLoad            Try to load Microcode or not.
+  @param[out] LastAttemptStatus  The last attempt status, which will be recorded in ESRT and FMP EFI_FIRMWARE_IMAGE_DESCRIPTOR.
+  @param[out] AbortReason        A pointer to a pointer to a null-terminated string providing more
+                                 details for the aborted operation. The buffer is allocated by this function
+                                 with AllocatePool(), and it is the caller's responsibility to free it with a
+                                 call to FreePool().
+
+  @retval EFI_SUCCESS               The Microcode image passes verification.
+  @retval EFI_VOLUME_CORRUPTED      The Microcode image is corrupt.
+  @retval EFI_INCOMPATIBLE_VERSION  The Microcode image version is incorrect.
+  @retval EFI_UNSUPPORTED           The Microcode ProcessorSignature or ProcessorFlags is incorrect.
+  @retval EFI_SECURITY_VIOLATION    The Microcode image fails to load.
+**/
+EFI_STATUS
+VerifyMicrocode (
+  IN VOID    *Image,
+  IN UINTN   ImageSize,
+  IN BOOLEAN TryLoad,
+  OUT UINT32 *LastAttemptStatus,
+  OUT CHAR16 **AbortReason
+  );
+
 /**
   Get Microcode Region.
 
@@ -32,14 +62,14 @@
 **/
 BOOLEAN
 GetMicrocodeRegion (
-  OUT UINT64   *MicrocodePatchAddress,
-  OUT UINT64   *MicrocodePatchRegionSize
+  OUT VOID     **MicrocodePatchAddress,
+  OUT UINTN    *MicrocodePatchRegionSize
   )
 {
-  *MicrocodePatchAddress = PcdGet64(PcdCpuMicrocodePatchAddress);
-  *MicrocodePatchRegionSize = PcdGet64(PcdCpuMicrocodePatchRegionSize);
+  *MicrocodePatchAddress = (VOID *)(UINTN)PcdGet64(PcdCpuMicrocodePatchAddress);
+  *MicrocodePatchRegionSize = (UINTN)PcdGet64(PcdCpuMicrocodePatchRegionSize);
 
-  if ((*MicrocodePatchAddress == 0) || (*MicrocodePatchRegionSize == 0)) {
+  if ((*MicrocodePatchAddress == NULL) || (*MicrocodePatchRegionSize == 0)) {
     return FALSE;
   }
 
@@ -114,40 +144,77 @@ LoadMicrocode (
 }
 
 /**
+  If the Microcode is used by current processor.
+
+  @param[in]  MicrocodeEntryPoint  The Microcode buffer
+
+  @retval TRUE  The Microcode is used by current processor.
+  @retval FALSE The Microcode is NOT used by current processor.
+**/
+BOOLEAN
+IsMicrocodeInUse (
+  IN CPU_MICROCODE_HEADER                    *MicrocodeEntryPoint
+  )
+{
+  UINT32      AttemptStatus;
+  UINTN       TotalSize;
+  EFI_STATUS  Status;
+
+  if (MicrocodeEntryPoint->HeaderVersion == 0x1 && MicrocodeEntryPoint->LoaderRevision == 0x1) {
+    //
+    // It is the microcode header. It is not the padding data between microcode patches
+    // becasue the padding data should not include 0x00000001 and it should be the repeated
+    // byte format (like 0xXYXYXYXY....).
+    //
+    if (MicrocodeEntryPoint->DataSize == 0) {
+      TotalSize = 2048;
+    } else {
+      TotalSize = MicrocodeEntryPoint->TotalSize;
+    }
+    Status = VerifyMicrocode(MicrocodeEntryPoint, TotalSize, FALSE, &AttemptStatus, NULL);
+    if (!EFI_ERROR(Status)) {
+      return TRUE;
+    }
+  }
+  return FALSE;
+}
+
+/**
   Get current Microcode information.
 
-  @param[out]  ImageDescriptor  Microcode ImageDescriptor
   @param[in]   DescriptorCount  The count of Microcode ImageDescriptor allocated.
+  @param[out]  ImageDescriptor  Microcode ImageDescriptor
+  @param[out]  MicrocodeInfo    Microcode information
 
   @return Microcode count
 **/
 UINTN
 GetMicrocodeInfo (
+  IN  UINTN                          DescriptorCount,  OPTIONAL
   OUT EFI_FIRMWARE_IMAGE_DESCRIPTOR  *ImageDescriptor, OPTIONAL
-  IN  UINTN                          DescriptorCount   OPTIONAL
+  OUT MICROCODE_INFO                 *MicrocodeInfo    OPTIONAL
   )
 {
   BOOLEAN                                 Result;
-  UINT64                                  MicrocodePatchAddress;
-  UINT64                                  MicrocodePatchRegionSize;
+  VOID                                    *MicrocodePatchAddress;
+  UINTN                                   MicrocodePatchRegionSize;
   CPU_MICROCODE_HEADER                    *MicrocodeEntryPoint;
   UINTN                                   MicrocodeEnd;
   UINTN                                   TotalSize;
   UINTN                                   Count;
   UINT64                                  ImageAttributes;
-  UINT32                                  CurrentRevision;
+  BOOLEAN                                 IsInUse;
 
   Result = GetMicrocodeRegion(&MicrocodePatchAddress, &MicrocodePatchRegionSize);
   if (!Result) {
     DEBUG((DEBUG_ERROR, "Fail to get Microcode Region\n"));
     return 0;
   }
-  DEBUG((DEBUG_INFO, "Microcode Region - 0x%lx - 0x%lx\n", MicrocodePatchAddress, MicrocodePatchRegionSize));
+  DEBUG((DEBUG_INFO, "Microcode Region - 0x%x - 0x%x\n", MicrocodePatchAddress, MicrocodePatchRegionSize));
 
   Count = 0;
-  CurrentRevision = GetCurrentMicrocodeSignature();
 
-  MicrocodeEnd = (UINTN)(MicrocodePatchAddress + MicrocodePatchRegionSize);
+  MicrocodeEnd = (UINTN)MicrocodePatchAddress + MicrocodePatchRegionSize;
   MicrocodeEntryPoint = (CPU_MICROCODE_HEADER *) (UINTN) MicrocodePatchAddress;
   do {
     if (MicrocodeEntryPoint->HeaderVersion == 0x1 && MicrocodeEntryPoint->LoaderRevision == 0x1) {
@@ -162,6 +229,8 @@ GetMicrocodeInfo (
         TotalSize = MicrocodeEntryPoint->TotalSize;
       }
 
+      IsInUse = IsMicrocodeInUse (MicrocodeEntryPoint);
+
       if (ImageDescriptor != NULL && DescriptorCount > Count) {
         ImageDescriptor[Count].ImageIndex = (UINT8)(Count + 1);
         CopyGuid (&ImageDescriptor[Count].ImageTypeId, &gMicrocodeFmpImageTypeIdGuid);
@@ -171,7 +240,7 @@ GetMicrocodeInfo (
         ImageDescriptor[Count].VersionName = NULL;
         ImageDescriptor[Count].Size = TotalSize;
         ImageAttributes = IMAGE_ATTRIBUTE_IMAGE_UPDATABLE | IMAGE_ATTRIBUTE_RESET_REQUIRED;
-        if (CurrentRevision == MicrocodeEntryPoint->UpdateRevision) {
+        if (IsInUse) {
           ImageAttributes |= IMAGE_ATTRIBUTE_IN_USE;
         }
         ImageDescriptor[Count].AttributesSupported = ImageAttributes | IMAGE_ATTRIBUTE_IN_USE;
@@ -182,6 +251,11 @@ GetMicrocodeInfo (
         ImageDescriptor[Count].LastAttemptStatus = 0;
         ImageDescriptor[Count].HardwareInstance = 0;
       }
+      if (MicrocodeInfo != NULL && DescriptorCount > Count) {
+        MicrocodeInfo[Count].MicrocodeEntryPoint = MicrocodeEntryPoint;
+        MicrocodeInfo[Count].TotalSize = TotalSize;
+        MicrocodeInfo[Count].InUse = IsInUse;
+      }
     } else {
       //
       // It is the padding data between the microcode patches for microcode patches alignment.
@@ -207,89 +281,6 @@ GetMicrocodeInfo (
 }
 
 /**
-  Read Microcode.
-
-  @param[in]       ImageIndex The index of Microcode image.
-  @param[in, out]  Image      The Microcode image buffer.
-  @param[in, out]  ImageSize  The size of Microcode image buffer in bytes.
-
-  @retval EFI_SUCCESS    The Microcode image is read.
-  @retval EFI_NOT_FOUND  The Microcode image is not found.
-**/
-EFI_STATUS
-MicrocodeRead (
-  IN UINTN      ImageIndex,
-  IN OUT VOID   *Image,
-  IN OUT UINTN  *ImageSize
-  )
-{
-  BOOLEAN                                 Result;
-  UINT64                                  MicrocodePatchAddress;
-  UINT64                                  MicrocodePatchRegionSize;
-  CPU_MICROCODE_HEADER                    *MicrocodeEntryPoint;
-  UINTN                                   MicrocodeEnd;
-  UINTN                                   TotalSize;
-  UINTN                                   Count;
-
-  Result = GetMicrocodeRegion(&MicrocodePatchAddress, &MicrocodePatchRegionSize);
-  if (!Result) {
-    DEBUG((DEBUG_ERROR, "Fail to get Microcode Region\n"));
-    return EFI_NOT_FOUND;
-  }
-  DEBUG((DEBUG_INFO, "Microcode Region - 0x%lx - 0x%lx\n", MicrocodePatchAddress, MicrocodePatchRegionSize));
-
-  Count = 0;
-
-  MicrocodeEnd = (UINTN)(MicrocodePatchAddress + MicrocodePatchRegionSize);
-  MicrocodeEntryPoint = (CPU_MICROCODE_HEADER *)(UINTN)MicrocodePatchAddress;
-  do {
-    if (MicrocodeEntryPoint->HeaderVersion == 0x1 && MicrocodeEntryPoint->LoaderRevision == 0x1) {
-      //
-      // It is the microcode header. It is not the padding data between microcode patches
-      // becasue the padding data should not include 0x00000001 and it should be the repeated
-      // byte format (like 0xXYXYXYXY....).
-      //
-      if (MicrocodeEntryPoint->DataSize == 0) {
-        TotalSize = 2048;
-      } else {
-        TotalSize = MicrocodeEntryPoint->TotalSize;
-      }
-
-      if (ImageIndex == Count + 1) {
-        if (*ImageSize < TotalSize) {
-          *ImageSize = TotalSize;
-          return EFI_BUFFER_TOO_SMALL;
-        }
-        *ImageSize = TotalSize;
-        CopyMem (Image, MicrocodeEntryPoint, TotalSize);
-        return EFI_SUCCESS;
-      }
-
-    } 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 = (CPU_MICROCODE_HEADER *)(((UINTN)MicrocodeEntryPoint) + SIZE_1KB);
-      continue;
-    }
-
-    Count++;
-    ASSERT(Count < 0xFF);
-
-    //
-    // Get the next patch.
-    //
-    MicrocodeEntryPoint = (CPU_MICROCODE_HEADER *)(((UINTN)MicrocodeEntryPoint) + TotalSize);
-  } while (((UINTN)MicrocodeEntryPoint < MicrocodeEnd));
-
-  return EFI_NOT_FOUND;
-}
-
-/**
   Verify Microcode.
 
   Caution: This function may receive untrusted input.
@@ -461,7 +452,9 @@ VerifyMicrocode (
       }
     }
     if (!CorrectMicrocode) {
-      DEBUG((DEBUG_ERROR, "VerifyMicrocode - fail on CurrentProcessorSignature/ProcessorFlags\n"));
+      if (TryLoad) {
+        DEBUG((DEBUG_ERROR, "VerifyMicrocode - fail on CurrentProcessorSignature/ProcessorFlags\n"));
+      }
       *LastAttemptStatus = LAST_ATTEMPT_STATUS_ERROR_INCORRECT_VERSION;
       if (AbortReason != NULL) {
         if (MicrocodeEntryPoint->ProcessorSignature.Uint32 != CurrentProcessorSignature) {
@@ -479,7 +472,9 @@ VerifyMicrocode (
   //
   CurrentRevision = GetCurrentMicrocodeSignature();
   if (MicrocodeEntryPoint->UpdateRevision < CurrentRevision) {
-    DEBUG((DEBUG_ERROR, "VerifyMicrocode - fail on UpdateRevision\n"));
+    if (TryLoad) {
+      DEBUG((DEBUG_ERROR, "VerifyMicrocode - fail on UpdateRevision\n"));
+    }
     *LastAttemptStatus = LAST_ATTEMPT_STATUS_ERROR_INCORRECT_VERSION;
     if (AbortReason != NULL) {
       *AbortReason = AllocateCopyPool(sizeof(L"IncorrectRevision"), L"IncorrectRevision");
@@ -508,33 +503,25 @@ VerifyMicrocode (
 /**
   Get current Microcode in used.
 
+  @param[in]  MicrocodePatchAddress      The address of Microcode
+  @param[in]  MicrocodePatchRegionSize   The region size of Microcode
+
   @return current Microcode in used.
 **/
 VOID *
 GetCurrentMicrocodeInUse (
-  VOID
+  IN VOID   *MicrocodePatchAddress,
+  IN UINTN  MicrocodePatchRegionSize
   )
 {
-  BOOLEAN                                 Result;
-  EFI_STATUS                              Status;
-  UINT64                                  MicrocodePatchAddress;
-  UINT64                                  MicrocodePatchRegionSize;
   CPU_MICROCODE_HEADER                    *MicrocodeEntryPoint;
   UINTN                                   MicrocodeEnd;
   UINTN                                   TotalSize;
   UINTN                                   Count;
-  UINT32                                  AttemptStatus;
-
-  Result = GetMicrocodeRegion(&MicrocodePatchAddress, &MicrocodePatchRegionSize);
-  if (!Result) {
-    DEBUG((DEBUG_ERROR, "Fail to get Microcode Region\n"));
-    return NULL;
-  }
-  DEBUG((DEBUG_INFO, "Microcode Region - 0x%lx - 0x%lx\n", MicrocodePatchAddress, MicrocodePatchRegionSize));
 
   Count = 0;
 
-  MicrocodeEnd = (UINTN)(MicrocodePatchAddress + MicrocodePatchRegionSize);
+  MicrocodeEnd = (UINTN)MicrocodePatchAddress + MicrocodePatchRegionSize;
   MicrocodeEntryPoint = (CPU_MICROCODE_HEADER *)(UINTN)MicrocodePatchAddress;
   do {
     if (MicrocodeEntryPoint->HeaderVersion == 0x1 && MicrocodeEntryPoint->LoaderRevision == 0x1) {
@@ -548,8 +535,7 @@ GetCurrentMicrocodeInUse (
       } else {
         TotalSize = MicrocodeEntryPoint->TotalSize;
       }
-      Status = VerifyMicrocode(MicrocodeEntryPoint, TotalSize, FALSE, &AttemptStatus, NULL);
-      if (!EFI_ERROR(Status)) {
+      if (IsMicrocodeInUse (MicrocodeEntryPoint)) {
         return MicrocodeEntryPoint;
       }
 
@@ -578,35 +564,83 @@ GetCurrentMicrocodeInUse (
 }
 
 /**
+  Get next Microcode entrypoint.
+
+  @param[in]  MicrocodePatchAddress      The address of Microcode
+  @param[in]  MicrocodePatchRegionSize   The region size of Microcode
+  @param[in]  MicrocodeEntryPoint        Current Microcode entrypoint
+
+  @return next Microcode entrypoint.
+**/
+CPU_MICROCODE_HEADER *
+GetNextMicrocode (
+  IN VOID                  *MicrocodePatchAddress,
+  IN UINTN                 MicrocodePatchRegionSize,
+  IN CPU_MICROCODE_HEADER  *MicrocodeEntryPoint
+  )
+{
+  UINTN                                   MicrocodeEnd;
+  UINTN                                   TotalSize;
+
+  MicrocodeEnd = (UINTN)MicrocodePatchAddress + MicrocodePatchRegionSize;
+
+  if (MicrocodeEntryPoint->HeaderVersion == 0x1 && MicrocodeEntryPoint->LoaderRevision == 0x1) {
+    //
+    // It is the microcode header. It is not the padding data between microcode patches
+    // becasue the padding data should not include 0x00000001 and it should be the repeated
+    // byte format (like 0xXYXYXYXY....).
+    //
+    if (MicrocodeEntryPoint->DataSize == 0) {
+      TotalSize = 2048;
+    } else {
+      TotalSize = MicrocodeEntryPoint->TotalSize;
+    }
+    MicrocodeEntryPoint = (CPU_MICROCODE_HEADER *)(((UINTN)MicrocodeEntryPoint) + TotalSize);
+  }
+
+  do {
+    if (MicrocodeEntryPoint->HeaderVersion == 0x1 && MicrocodeEntryPoint->LoaderRevision == 0x1) {
+      return MicrocodeEntryPoint;
+    } 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 = (CPU_MICROCODE_HEADER *)(((UINTN)MicrocodeEntryPoint) + SIZE_1KB);
+      continue;
+    }
+  } while (((UINTN)MicrocodeEntryPoint < MicrocodeEnd));
+
+  return NULL;
+}
+
+/**
   Get current Microcode used region size.
 
+  @param[in] MicrocodePatchAddress      The address of Microcode
+  @param[in] MicrocodePatchRegionSize   The region size of Microcode
+
   @return current Microcode used region size.
 **/
 UINTN
 GetCurrentMicrocodeUsedRegionSize (
-  VOID
+  IN VOID   *MicrocodePatchAddress,
+  IN UINTN  MicrocodePatchRegionSize
   )
 {
-  BOOLEAN                                 Result;
-  UINT64                                  MicrocodePatchAddress;
-  UINT64                                  MicrocodePatchRegionSize;
   CPU_MICROCODE_HEADER                    *MicrocodeEntryPoint;
   UINTN                                   MicrocodeEnd;
   UINTN                                   TotalSize;
   UINTN                                   Count;
   UINTN                                   MicrocodeUsedEnd;
 
-  Result = GetMicrocodeRegion(&MicrocodePatchAddress, &MicrocodePatchRegionSize);
-  if (!Result) {
-    DEBUG((DEBUG_ERROR, "Fail to get Microcode Region\n"));
-    return 0;
-  }
-  DEBUG((DEBUG_INFO, "Microcode Region - 0x%lx - 0x%lx\n", MicrocodePatchAddress, MicrocodePatchRegionSize));
-
   MicrocodeUsedEnd = (UINTN)MicrocodePatchAddress;
   Count = 0;
 
-  MicrocodeEnd = (UINTN)(MicrocodePatchAddress + MicrocodePatchRegionSize);
+  MicrocodeEnd = (UINTN)MicrocodePatchAddress + MicrocodePatchRegionSize;
   MicrocodeEntryPoint = (CPU_MICROCODE_HEADER *)(UINTN)MicrocodePatchAddress;
   do {
     if (MicrocodeEntryPoint->HeaderVersion == 0x1 && MicrocodeEntryPoint->LoaderRevision == 0x1) {
@@ -635,12 +669,12 @@ GetCurrentMicrocodeUsedRegionSize (
 
     Count++;
     ASSERT(Count < 0xFF);
-    MicrocodeUsedEnd = (UINTN)MicrocodeEntryPoint;
 
     //
     // Get the next patch.
     //
     MicrocodeEntryPoint = (CPU_MICROCODE_HEADER *)(((UINTN)MicrocodeEntryPoint) + TotalSize);
+    MicrocodeUsedEnd = (UINTN)MicrocodeEntryPoint;
   } while (((UINTN)MicrocodeEntryPoint < MicrocodeEnd));
 
   return MicrocodeUsedEnd - (UINTN)MicrocodePatchAddress;
@@ -685,62 +719,283 @@ UpdateMicrocode (
 }
 
 /**
-  Write Microcode.
+  Update Microcode flash region.
 
-  Caution: This function may receive untrusted input.
+  @param[in]  MicrocodeFmpPrivate        The Microcode driver private data
+  @param[in]  CurrentMicrocodeEntryPoint Current Microcode entrypoint
+  @param[in]  Image                      The Microcode image buffer.
+  @param[in]  ImageSize                  The size of Microcode image buffer in bytes.
+  @param[out] LastAttemptStatus          The last attempt status, which will be recorded in ESRT and FMP EFI_FIRMWARE_IMAGE_DESCRIPTOR.
 
-  @param[in]   ImageIndex         The index of Microcode image.
-  @param[in]   Image              The Microcode image buffer.
-  @param[in]   ImageSize          The size of Microcode image buffer in bytes.
-  @param[out]  LastAttemptVersion The last attempt version, which will be recorded in ESRT and FMP EFI_FIRMWARE_IMAGE_DESCRIPTOR.
-  @param[out]  LastAttemptStatus  The last attempt status, which will be recorded in ESRT and FMP EFI_FIRMWARE_IMAGE_DESCRIPTOR.
-  @param[out]  AbortReason        A pointer to a pointer to a null-terminated string providing more
-                             details for the aborted operation. The buffer is allocated by this function
-                             with AllocatePool(), and it is the caller's responsibility to free it with a
-                             call to FreePool().
-
-  @retval EFI_SUCCESS               The Microcode image is written.
-  @retval EFI_VOLUME_CORRUPTED      The Microcode image is corrupt.
-  @retval EFI_INCOMPATIBLE_VERSION  The Microcode image version is incorrect.
-  @retval EFI_SECURITY_VIOLATION    The Microcode image fails to load.
-  @retval EFI_WRITE_PROTECTED   The flash device is read only.
+  @retval EFI_SUCCESS             The Microcode image is written.
+  @retval EFI_WRITE_PROTECTED     The flash device is read only.
 **/
 EFI_STATUS
-MicrocodeWrite (
-  IN  UINTN   ImageIndex,
-  IN  VOID    *Image,
-  IN  UINTN   ImageSize,
-  OUT UINT32  *LastAttemptVersion,
-  OUT UINT32  *LastAttemptStatus,
-  OUT CHAR16  **AbortReason
+UpdateMicrocodeFlashRegion (
+  IN  MICROCODE_FMP_PRIVATE_DATA              *MicrocodeFmpPrivate,
+  IN  CPU_MICROCODE_HEADER                    *CurrentMicrocodeEntryPoint,
+  IN  VOID                                    *Image,
+  IN  UINTN                                   ImageSize,
+  OUT UINT32                                  *LastAttemptStatus
   )
 {
-  BOOLEAN                                 Result;
-  EFI_STATUS                              Status;
-  UINT64                                  MicrocodePatchAddress;
-  UINT64                                  MicrocodePatchRegionSize;
-  CPU_MICROCODE_HEADER                    *CurrentMicrocodeEntryPoint;
+  VOID                                    *MicrocodePatchAddress;
+  UINTN                                   MicrocodePatchRegionSize;
   UINTN                                   CurrentTotalSize;
   UINTN                                   UsedRegionSize;
-  VOID                                    *AlignedImage;
+  EFI_STATUS                              Status;
+  VOID                                    *MicrocodePatchScratchBuffer;
+  UINT8                                   *ScratchBufferPtr;
+  UINTN                                   ScratchBufferSize;
+  UINTN                                   RestSize;
+  UINTN                                   AvailableSize;
+  VOID                                    *NextMicrocodeEntryPoint;
+  MICROCODE_INFO                          *MicrocodeInfo;
+  UINTN                                   MicrocodeCount;
+  UINTN                                   Index;
 
-  Result = GetMicrocodeRegion(&MicrocodePatchAddress, &MicrocodePatchRegionSize);
-  if (!Result) {
-    DEBUG((DEBUG_ERROR, "Fail to get Microcode Region\n"));
-    return EFI_NOT_FOUND;
+  DEBUG((DEBUG_INFO, "UpdateMicrocodeFlashRegion: Image - 0x%x, size - 0x%x\n", Image, ImageSize));
+
+  MicrocodePatchAddress = MicrocodeFmpPrivate->MicrocodePatchAddress;
+  MicrocodePatchRegionSize = MicrocodeFmpPrivate->MicrocodePatchRegionSize;
+
+  MicrocodePatchScratchBuffer = AllocateZeroPool (MicrocodePatchRegionSize);
+  if (MicrocodePatchScratchBuffer == NULL) {
+    DEBUG((DEBUG_ERROR, "Fail to allocate Microcode Scratch buffer\n"));
+    *LastAttemptStatus = LAST_ATTEMPT_STATUS_ERROR_INSUFFICIENT_RESOURCES;
+    return EFI_OUT_OF_RESOURCES;
   }
+  ScratchBufferPtr = MicrocodePatchScratchBuffer;
+  ScratchBufferSize = 0;
 
+  //
+  // Current data collection
+  //
   CurrentTotalSize = 0;
-  CurrentMicrocodeEntryPoint = GetCurrentMicrocodeInUse();
+  AvailableSize = 0;
+  NextMicrocodeEntryPoint = NULL;
   if (CurrentMicrocodeEntryPoint != NULL) {
     if (CurrentMicrocodeEntryPoint->DataSize == 0) {
       CurrentTotalSize = 2048;
     } else {
       CurrentTotalSize = CurrentMicrocodeEntryPoint->TotalSize;
     }
+    DEBUG((DEBUG_INFO, "  CurrentTotalSize - 0x%x\n", CurrentTotalSize));
+    NextMicrocodeEntryPoint = GetNextMicrocode(MicrocodePatchAddress, MicrocodePatchRegionSize, CurrentMicrocodeEntryPoint);
+    DEBUG((DEBUG_INFO, "  NextMicrocodeEntryPoint - 0x%x\n", NextMicrocodeEntryPoint));
+    if (NextMicrocodeEntryPoint != NULL) {
+      ASSERT ((UINTN)NextMicrocodeEntryPoint >= ((UINTN)CurrentMicrocodeEntryPoint + CurrentTotalSize));
+      AvailableSize = (UINTN)NextMicrocodeEntryPoint - (UINTN)CurrentMicrocodeEntryPoint;
+    } else {
+      AvailableSize = (UINTN)MicrocodePatchAddress + MicrocodePatchRegionSize - (UINTN)CurrentMicrocodeEntryPoint;
+    }
+    DEBUG((DEBUG_INFO, "  AvailableSize - 0x%x\n", AvailableSize));
+  }
+  ASSERT (AvailableSize >= CurrentTotalSize);
+  UsedRegionSize = GetCurrentMicrocodeUsedRegionSize(MicrocodePatchAddress, MicrocodePatchRegionSize);
+  DEBUG((DEBUG_INFO, "  UsedRegionSize - 0x%x\n", UsedRegionSize));
+  ASSERT (UsedRegionSize >= CurrentTotalSize);
+  if (CurrentMicrocodeEntryPoint != NULL) {
+    ASSERT ((UINTN)MicrocodePatchAddress + UsedRegionSize >= ((UINTN)CurrentMicrocodeEntryPoint + CurrentTotalSize));
+  }
+  //
+  // Total Size means the Microcode data size.
+  // Available Size means the Microcode data size plus the pad till next (1) Microcode or (2) the end.
+  //
+  // (1)
+  // +------+-----------+-----+------+===================+
+  // | MCU1 | Microcode | PAD | MCU2 |      Empty        |
+  // +------+-----------+-----+------+===================+
+  //        | TotalSize |
+  //        |<-AvailableSize->|
+  // |<-        UsedRegionSize     ->|
+  //
+  // (2)
+  // +------+-----------+===================+
+  // | MCU  | Microcode |      Empty        |
+  // +------+-----------+===================+
+  //        | TotalSize |
+  //        |<-      AvailableSize        ->|
+  // |<-UsedRegionSize->|
+  //
+
+  //
+  // Update based on policy
+  //
+
+  //
+  // 1. If there is enough space to update old one in situ, replace old microcode in situ.
+  //
+  if (AvailableSize >= ImageSize) {
+    DEBUG((DEBUG_INFO, "Replace old microcode in situ\n"));
+    //
+    // +------+------------+------+===================+
+    // |Other1| Old Image  |Other2|      Empty        |
+    // +------+------------+------+===================+
+    //
+    // +------+---------+--+------+===================+
+    // |Other1|New Image|FF|Other2|      Empty        |
+    // +------+---------+--+------+===================+
+    //
+    // 1.1. Copy new image
+    CopyMem (ScratchBufferPtr, Image, ImageSize);
+    ScratchBufferSize += ImageSize;
+    ScratchBufferPtr = (UINT8 *)ScratchBufferPtr + ScratchBufferSize;
+    // 1.2. Pad 0xFF
+    RestSize = AvailableSize - ImageSize;
+    if (RestSize > 0) {
+      SetMem (ScratchBufferPtr, RestSize, 0xFF);
+      ScratchBufferSize += RestSize;
+      ScratchBufferPtr = (UINT8 *)ScratchBufferPtr + ScratchBufferSize;
+    }
+    Status = UpdateMicrocode((UINTN)CurrentMicrocodeEntryPoint, MicrocodePatchScratchBuffer, ScratchBufferSize, LastAttemptStatus);
+    return Status;
+  }
+
+  //
+  // 2. If there is enough space to remove old one and add new one, reorg and replace old microcode.
+  //
+  if (MicrocodePatchRegionSize - (UsedRegionSize - CurrentTotalSize) >= ImageSize) {
+    if (CurrentMicrocodeEntryPoint == NULL) {
+      DEBUG((DEBUG_INFO, "Append new microcode\n"));
+      //
+      // +------+------------+------+===================+
+      // |Other1|   Other    |Other2|      Empty        |
+      // +------+------------+------+===================+
+      //
+      // +------+------------+------+-----------+=======+
+      // |Other1|   Other    |Other2| New Image | Empty |
+      // +------+------------+------+-----------+=======+
+      //
+      Status = UpdateMicrocode((UINTN)MicrocodePatchAddress + UsedRegionSize, Image, ImageSize, LastAttemptStatus);
+    } else {
+      DEBUG((DEBUG_INFO, "Reorg and replace old microcode\n"));
+      //
+      // +------+------------+------+===================+
+      // |Other1| Old Image  |Other2|      Empty        |
+      // +------+------------+------+===================+
+      //
+      // +------+---------------+------+================+
+      // |Other1|   New Image   |Other2|      Empty     |
+      // +------+---------------+------+================+
+      //
+      // 2.1. Copy new image
+      CopyMem (MicrocodePatchScratchBuffer, Image, ImageSize);
+      ScratchBufferSize += ImageSize;
+      ScratchBufferPtr = (UINT8 *)ScratchBufferPtr + ScratchBufferSize;
+      // 2.2. Copy rest images after the old image.
+      if (NextMicrocodeEntryPoint != 0) {
+        RestSize = (UINTN)MicrocodePatchAddress + UsedRegionSize - ((UINTN)NextMicrocodeEntryPoint);
+        CopyMem (ScratchBufferPtr, (UINT8 *)CurrentMicrocodeEntryPoint + CurrentTotalSize, RestSize);
+        ScratchBufferSize += RestSize;
+        ScratchBufferPtr = (UINT8 *)ScratchBufferPtr + ScratchBufferSize;
+      }
+      Status = UpdateMicrocode((UINTN)CurrentMicrocodeEntryPoint, MicrocodePatchScratchBuffer, ScratchBufferSize, LastAttemptStatus);
+    }
+    return Status;
+  }
+
+  //
+  // 3. The new image can be put in MCU region, but not all others can be put.
+  //    So all the unused MCU is removed.
+  //
+  if (MicrocodePatchRegionSize >= ImageSize) {
+    //
+    // +------+------------+------+===================+
+    // |Other1| Old Image  |Other2|      Empty        |
+    // +------+------------+------+===================+
+    //
+    // +-------------------------------------+--------+
+    // |        New Image                    | Other  |
+    // +-------------------------------------+--------+
+    //
+    DEBUG((DEBUG_INFO, "Add new microcode from beginning\n"));
+
+    MicrocodeCount = MicrocodeFmpPrivate->DescriptorCount;
+    MicrocodeInfo = MicrocodeFmpPrivate->MicrocodeInfo;
+
+    // 3.1. Copy new image
+    CopyMem (MicrocodePatchScratchBuffer, Image, ImageSize);
+    ScratchBufferSize += ImageSize;
+    ScratchBufferPtr = (UINT8 *)ScratchBufferPtr + ScratchBufferSize;
+    // 3.2. Copy some others to rest buffer
+    for (Index = 0; Index < MicrocodeCount; Index++) {
+      if (!MicrocodeInfo[Index].InUse) {
+        continue;
+      }
+      if (MicrocodeInfo[Index].MicrocodeEntryPoint == CurrentMicrocodeEntryPoint) {
+        continue;
+      }
+      if (MicrocodeInfo[Index].TotalSize <= MicrocodePatchRegionSize - ScratchBufferSize) {
+        CopyMem (ScratchBufferPtr, MicrocodeInfo[Index].MicrocodeEntryPoint, MicrocodeInfo[Index].TotalSize);
+        ScratchBufferSize += MicrocodeInfo[Index].TotalSize;
+        ScratchBufferPtr = (UINT8 *)ScratchBufferPtr + ScratchBufferSize;
+      }
+    }
+    // 3.3. Pad 0xFF
+    RestSize = MicrocodePatchRegionSize - ScratchBufferSize;
+    if (RestSize > 0) {
+      SetMem (ScratchBufferPtr, RestSize, 0xFF);
+      ScratchBufferSize += RestSize;
+      ScratchBufferPtr = (UINT8 *)ScratchBufferPtr + ScratchBufferSize;
+    }
+    Status = UpdateMicrocode((UINTN)MicrocodePatchAddress, MicrocodePatchScratchBuffer, ScratchBufferSize, LastAttemptStatus);
+    return Status;
   }
 
   //
+  // 4. The new image size is bigger than the whole MCU region.
+  //
+  DEBUG((DEBUG_ERROR, "Microcode too big\n"));
+  *LastAttemptStatus = LAST_ATTEMPT_STATUS_ERROR_INSUFFICIENT_RESOURCES;
+  Status = EFI_OUT_OF_RESOURCES;
+
+  return Status;
+}
+
+/**
+  Write Microcode.
+
+  Caution: This function may receive untrusted input.
+
+  @param[in]   MicrocodeFmpPrivate The Microcode driver private data
+  @param[in]   Image               The Microcode image buffer.
+  @param[in]   ImageSize           The size of Microcode image buffer in bytes.
+  @param[out]  LastAttemptVersion  The last attempt version, which will be recorded in ESRT and FMP EFI_FIRMWARE_IMAGE_DESCRIPTOR.
+  @param[out]  LastAttemptStatus   The last attempt status, which will be recorded in ESRT and FMP EFI_FIRMWARE_IMAGE_DESCRIPTOR.
+  @param[out]  AbortReason         A pointer to a pointer to a null-terminated string providing more
+                                   details for the aborted operation. The buffer is allocated by this function
+                                   with AllocatePool(), and it is the caller's responsibility to free it with a
+                                   call to FreePool().
+
+  @retval EFI_SUCCESS               The Microcode image is written.
+  @retval EFI_VOLUME_CORRUPTED      The Microcode image is corrupt.
+  @retval EFI_INCOMPATIBLE_VERSION  The Microcode image version is incorrect.
+  @retval EFI_SECURITY_VIOLATION    The Microcode image fails to load.
+  @retval EFI_WRITE_PROTECTED       The flash device is read only.
+**/
+EFI_STATUS
+MicrocodeWrite (
+  IN  MICROCODE_FMP_PRIVATE_DATA   *MicrocodeFmpPrivate,
+  IN  VOID                         *Image,
+  IN  UINTN                        ImageSize,
+  OUT UINT32                       *LastAttemptVersion,
+  OUT UINT32                       *LastAttemptStatus,
+  OUT CHAR16                       **AbortReason
+  )
+{
+  EFI_STATUS                              Status;
+  VOID                                    *AlignedImage;
+  CPU_MICROCODE_HEADER                    *CurrentMicrocodeEntryPoint;
+
+  //
+  // We must get Current MicrocodeEntrypoint *before* VerifyMicrocode,
+  // because the MicrocodeSignature might be updated in VerifyMicrocode.
+  //
+  CurrentMicrocodeEntryPoint = GetCurrentMicrocodeInUse(MicrocodeFmpPrivate->MicrocodePatchAddress, MicrocodeFmpPrivate->MicrocodePatchRegionSize);
+  DEBUG((DEBUG_INFO, "  CurrentMicrocodeEntryPoint - 0x%x\n", CurrentMicrocodeEntryPoint));
+
+  //
   // MCU must be 16 bytes aligned
   //
   AlignedImage = AllocateCopyPool(ImageSize, Image);
@@ -759,32 +1014,13 @@ MicrocodeWrite (
   }
   DEBUG((DEBUG_INFO, "Pass VerifyMicrocode\n"));
 
-  if (CurrentTotalSize < ImageSize) {
-    UsedRegionSize = GetCurrentMicrocodeUsedRegionSize();
-    if (MicrocodePatchRegionSize - UsedRegionSize >= ImageSize) {
-      //
-      // Append
-      //
-      DEBUG((DEBUG_INFO, "Append new microcode\n"));
-      Status = UpdateMicrocode(MicrocodePatchAddress + UsedRegionSize, AlignedImage, ImageSize, LastAttemptStatus);
-    } else if (MicrocodePatchRegionSize >= ImageSize) {
-      //
-      // Ignor all others and just add this one from beginning.
-      //
-      DEBUG((DEBUG_INFO, "Add new microcode from beginning\n"));
-      Status = UpdateMicrocode(MicrocodePatchAddress, AlignedImage, ImageSize, LastAttemptStatus);
-    } else {
-      DEBUG((DEBUG_ERROR, "Microcode too big\n"));
-      *LastAttemptStatus = LAST_ATTEMPT_STATUS_ERROR_INSUFFICIENT_RESOURCES;
-      Status = EFI_OUT_OF_RESOURCES;
-    }
-  } else {
-    //
-    // Replace
-    //
-    DEBUG((DEBUG_INFO, "Replace old microcode\n"));
-    Status = UpdateMicrocode((UINTN)CurrentMicrocodeEntryPoint, AlignedImage, ImageSize, LastAttemptStatus);
-  }
+  Status = UpdateMicrocodeFlashRegion(
+             MicrocodeFmpPrivate,
+             CurrentMicrocodeEntryPoint,
+             AlignedImage,
+             ImageSize,
+             LastAttemptStatus
+             );
 
   FreePool(AlignedImage);
 
diff --git a/UefiCpuPkg/Feature/Capsule/MicrocodeUpdateDxe/MicrocodeUpdate.h b/UefiCpuPkg/Feature/Capsule/MicrocodeUpdateDxe/MicrocodeUpdate.h
index 77e8441..1bbf2bd 100644
--- a/UefiCpuPkg/Feature/Capsule/MicrocodeUpdateDxe/MicrocodeUpdate.h
+++ b/UefiCpuPkg/Feature/Capsule/MicrocodeUpdateDxe/MicrocodeUpdate.h
@@ -50,12 +50,21 @@ typedef struct {
   UINT32 LastAttemptStatus;
 } MICROCODE_FMP_LAST_ATTEMPT_VARIABLE;
 
+typedef struct {
+  CPU_MICROCODE_HEADER   *MicrocodeEntryPoint;
+  UINTN                  TotalSize;
+  BOOLEAN                InUse;
+} MICROCODE_INFO;
+
 struct _MICROCODE_FMP_PRIVATE_DATA {
   UINT32                               Signature;
   EFI_FIRMWARE_MANAGEMENT_PROTOCOL     Fmp;
   EFI_HANDLE                           Handle;
+  VOID                                 *MicrocodePatchAddress;
+  UINTN                                MicrocodePatchRegionSize;
   UINT8                                DescriptorCount;
   EFI_FIRMWARE_IMAGE_DESCRIPTOR        *ImageDescriptor;
+  MICROCODE_INFO                       *MicrocodeInfo;
   UINT32                               PackageVersion;
   CHAR16                               *PackageVersionName;
   MICROCODE_FMP_LAST_ATTEMPT_VARIABLE  LastAttempt;
@@ -84,63 +93,63 @@ typedef struct _MICROCODE_FMP_PRIVATE_DATA  MICROCODE_FMP_PRIVATE_DATA;
   )
 
 /**
-  Get current Microcode information.
+  Get Microcode Region.
 
-  @param[out]  ImageDescriptor  Microcode ImageDescriptor
-  @param[in]   DescriptorCount  The count of Microcode ImageDescriptor allocated.
+  @param[out] MicrocodePatchAddress      The address of Microcode
+  @param[out] MicrocodePatchRegionSize   The region size of Microcode
 
-  @return Microcode count
+  @retval TRUE   The Microcode region is returned.
+  @retval FALSE  No Microcode region.
 **/
-UINTN
-GetMicrocodeInfo (
-  OUT EFI_FIRMWARE_IMAGE_DESCRIPTOR  *ImageDescriptor, OPTIONAL
-  IN  UINTN                          DescriptorCount   OPTIONAL
+BOOLEAN
+GetMicrocodeRegion (
+  OUT VOID     **MicrocodePatchAddress,
+  OUT UINTN    *MicrocodePatchRegionSize
   );
 
 /**
-  Read Microcode.
+  Get current Microcode information.
 
-  @param[in]       ImageIndex The index of Microcode image.
-  @param[in, out]  Image      The Microcode image buffer.
-  @param[in, out]  ImageSize  The size of Microcode image buffer in bytes.
+  @param[in]   DescriptorCount  The count of Microcode ImageDescriptor allocated.
+  @param[out]  ImageDescriptor  Microcode ImageDescriptor
+  @param[out]  MicrocodeInfo    Microcode information
 
-  @retval EFI_SUCCESS    The Microcode image is read.
-  @retval EFI_NOT_FOUND  The Microcode image is not found.
+  @return Microcode count
 **/
-EFI_STATUS
-MicrocodeRead (
-  IN UINTN      ImageIndex,
-  IN OUT VOID   *Image,
-  IN OUT UINTN  *ImageSize
+UINTN
+GetMicrocodeInfo (
+  IN  UINTN                          DescriptorCount,  OPTIONAL
+  OUT EFI_FIRMWARE_IMAGE_DESCRIPTOR  *ImageDescriptor, OPTIONAL
+  OUT MICROCODE_INFO                 *MicrocodeInfo    OPTIONAL
   );
 
 /**
   Write Microcode.
 
-  @param[in]   ImageIndex         The index of Microcode image.
-  @param[in]   Image              The Microcode image buffer.
-  @param[in]   ImageSize          The size of Microcode image buffer in bytes.
-  @param[out]  LastAttemptVersion The last attempt version, which will be recorded in ESRT and FMP EFI_FIRMWARE_IMAGE_DESCRIPTOR.
-  @param[out]  LastAttemptStatus  The last attempt status, which will be recorded in ESRT and FMP EFI_FIRMWARE_IMAGE_DESCRIPTOR.
-  @param[out]  AbortReason        A pointer to a pointer to a null-terminated string providing more
-                                  details for the aborted operation. The buffer is allocated by this function
-                                  with AllocatePool(), and it is the caller's responsibility to free it with a
-                                  call to FreePool().
+  @param[in]   MicrocodeFmpPrivate The Microcode driver private data
+  @param[in]   Image               The Microcode image buffer.
+  @param[in]   ImageSize           The size of Microcode image buffer in bytes.
+  @param[out]  LastAttemptVersion  The last attempt version, which will be recorded in ESRT and FMP EFI_FIRMWARE_IMAGE_DESCRIPTOR.
+  @param[out]  LastAttemptStatus   The last attempt status, which will be recorded in ESRT and FMP EFI_FIRMWARE_IMAGE_DESCRIPTOR.
+  @param[out]  AbortReason         A pointer to a pointer to a null-terminated string providing more
+                                   details for the aborted operation. The buffer is allocated by this function
+                                   with AllocatePool(), and it is the caller's responsibility to free it with a
+                                   call to FreePool().
 
   @retval EFI_SUCCESS               The Microcode image is written.
   @retval EFI_VOLUME_CORRUPTED      The Microcode image is corrupt.
   @retval EFI_INCOMPATIBLE_VERSION  The Microcode image version is incorrect.
   @retval EFI_SECURITY_VIOLATION    The Microcode image fails to load.
-  @retval EFI_WRITE_PROTECTED   The flash device is read only.
+  @retval EFI_WRITE_PROTECTED       The flash device is read only.
 **/
 EFI_STATUS
 MicrocodeWrite (
-  IN UINTN    ImageIndex,
-  IN VOID     *Image,
-  IN UINTN    ImageSize,
-  OUT UINT32  *LastAttemptVersion,
-  OUT UINT32  *LastAttemptStatus,
-  OUT CHAR16  **AbortReason
+  IN MICROCODE_FMP_PRIVATE_DATA    *MicrocodeFmpPrivate,
+  IN VOID                          *Image,
+  IN UINTN                         ImageSize,
+  OUT UINT32                       *LastAttemptVersion,
+  OUT UINT32                       *LastAttemptStatus,
+  OUT CHAR16                       **AbortReason
   );
 
 /**
-- 
2.7.4.windows.1



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2016-12-26 15:40 [PATCH] UefiCpuPkg/MicrocodeUpdate: enhance flash write logic Jiewen Yao

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