mirror of https://github.com/acidanthera/audk.git
609 lines
21 KiB
C
609 lines
21 KiB
C
/** @file
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This is a simple fault tolerant write driver that is intended to use in the SMM environment.
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This boot service protocol only provides fault tolerant write capability for
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block devices. The protocol has internal non-volatile intermediate storage
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of the data and private information. It should be able to recover
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automatically from a critical fault, such as power failure.
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The implementation uses an FTW (Fault Tolerant Write) Work Space.
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This work space is a memory copy of the work space on the Working Block,
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the size of the work space is the FTW_WORK_SPACE_SIZE bytes.
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The work space stores each write record as EFI_FTW_RECORD structure.
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The spare block stores the write buffer before write to the target block.
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The write record has three states to specify the different phase of write operation.
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1) WRITE_ALLOCATED is that the record is allocated in write space.
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The information of write operation is stored in write record structure.
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2) SPARE_COMPLETED is that the data from write buffer is writed into the spare block as the backup.
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3) WRITE_COMPLETED is that the data is copied from the spare block to the target block.
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This driver operates the data as the whole size of spare block.
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It first read the SpareAreaLength data from the target block into the spare memory buffer.
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Then copy the write buffer data into the spare memory buffer.
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Then write the spare memory buffer into the spare block.
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Final copy the data from the spare block to the target block.
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To make this drive work well, the following conditions must be satisfied:
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1. The write NumBytes data must be fit within Spare area.
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Offset + NumBytes <= SpareAreaLength
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2. The whole flash range has the same block size.
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3. Working block is an area which contains working space in its last block and has the same size as spare block.
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4. Working Block area must be in the single one Firmware Volume Block range which FVB protocol is produced on.
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5. Spare area must be in the single one Firmware Volume Block range which FVB protocol is produced on.
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6. Any write data area (SpareAreaLength Area) which the data will be written into must be
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in the single one Firmware Volume Block range which FVB protocol is produced on.
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7. If write data area (such as Variable range) is enlarged, the spare area range must be enlarged.
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The spare area must be enough large to store the write data before write them into the target range.
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If one of them is not satisfied, FtwWrite may fail.
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Usually, Spare area only takes one block. That's SpareAreaLength = BlockSize, NumberOfSpareBlock = 1.
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Caution: This module requires additional review when modified.
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This driver need to make sure the CommBuffer is not in the SMRAM range.
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Copyright (c) 2010 - 2012, Intel Corporation. All rights reserved.<BR>
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This program and the accompanying materials
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are licensed and made available under the terms and conditions of the BSD License
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which accompanies this distribution. The full text of the license may be found at
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http://opensource.org/licenses/bsd-license.php
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THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
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WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
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**/
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#include <PiSmm.h>
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#include <Library/SmmServicesTableLib.h>
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#include <Protocol/SmmSwapAddressRange.h>
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#include "FaultTolerantWrite.h"
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#include "FaultTolerantWriteSmmCommon.h"
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#include <Protocol/SmmAccess2.h>
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EFI_EVENT mFvbRegistration = NULL;
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EFI_FTW_DEVICE *mFtwDevice = NULL;
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EFI_SMRAM_DESCRIPTOR *mSmramRanges;
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UINTN mSmramRangeCount;
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/**
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This function check if the address is in SMRAM.
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@param Buffer the buffer address to be checked.
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@param Length the buffer length to be checked.
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@retval TRUE this address is in SMRAM.
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@retval FALSE this address is NOT in SMRAM.
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**/
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BOOLEAN
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InternalIsAddressInSmram (
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IN EFI_PHYSICAL_ADDRESS Buffer,
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IN UINT64 Length
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)
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{
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UINTN Index;
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for (Index = 0; Index < mSmramRangeCount; Index ++) {
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if (((Buffer >= mSmramRanges[Index].CpuStart) && (Buffer < mSmramRanges[Index].CpuStart + mSmramRanges[Index].PhysicalSize)) ||
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((mSmramRanges[Index].CpuStart >= Buffer) && (mSmramRanges[Index].CpuStart < Buffer + Length))) {
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return TRUE;
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}
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}
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return FALSE;
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}
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/**
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Retrive the SMM FVB protocol interface by HANDLE.
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@param[in] FvBlockHandle The handle of SMM FVB protocol that provides services for
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reading, writing, and erasing the target block.
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@param[out] FvBlock The interface of SMM FVB protocol
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@retval EFI_SUCCESS The interface information for the specified protocol was returned.
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@retval EFI_UNSUPPORTED The device does not support the SMM FVB protocol.
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@retval EFI_INVALID_PARAMETER FvBlockHandle is not a valid EFI_HANDLE or FvBlock is NULL.
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**/
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EFI_STATUS
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FtwGetFvbByHandle (
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IN EFI_HANDLE FvBlockHandle,
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OUT EFI_FIRMWARE_VOLUME_BLOCK_PROTOCOL **FvBlock
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)
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{
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//
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// To get the SMM FVB protocol interface on the handle
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//
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return gSmst->SmmHandleProtocol (
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FvBlockHandle,
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&gEfiSmmFirmwareVolumeBlockProtocolGuid,
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(VOID **) FvBlock
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);
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}
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/**
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Retrive the SMM Swap Address Range protocol interface.
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@param[out] SarProtocol The interface of SMM SAR protocol
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@retval EFI_SUCCESS The SMM SAR protocol instance was found and returned in SarProtocol.
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@retval EFI_NOT_FOUND The SMM SAR protocol instance was not found.
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@retval EFI_INVALID_PARAMETER SarProtocol is NULL.
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**/
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EFI_STATUS
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FtwGetSarProtocol (
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OUT VOID **SarProtocol
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)
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{
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EFI_STATUS Status;
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//
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// Locate Smm Swap Address Range protocol
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//
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Status = gSmst->SmmLocateProtocol (
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&gEfiSmmSwapAddressRangeProtocolGuid,
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NULL,
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SarProtocol
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);
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return Status;
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}
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/**
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Function returns an array of handles that support the SMM FVB protocol
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in a buffer allocated from pool.
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@param[out] NumberHandles The number of handles returned in Buffer.
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@param[out] Buffer A pointer to the buffer to return the requested
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array of handles that support SMM FVB protocol.
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@retval EFI_SUCCESS The array of handles was returned in Buffer, and the number of
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handles in Buffer was returned in NumberHandles.
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@retval EFI_NOT_FOUND No SMM FVB handle was found.
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@retval EFI_OUT_OF_RESOURCES There is not enough pool memory to store the matching results.
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@retval EFI_INVALID_PARAMETER NumberHandles is NULL or Buffer is NULL.
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**/
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EFI_STATUS
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GetFvbCountAndBuffer (
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OUT UINTN *NumberHandles,
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OUT EFI_HANDLE **Buffer
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)
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{
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EFI_STATUS Status;
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UINTN BufferSize;
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if ((NumberHandles == NULL) || (Buffer == NULL)) {
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return EFI_INVALID_PARAMETER;
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}
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BufferSize = 0;
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*NumberHandles = 0;
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*Buffer = NULL;
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Status = gSmst->SmmLocateHandle (
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ByProtocol,
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&gEfiSmmFirmwareVolumeBlockProtocolGuid,
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NULL,
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&BufferSize,
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*Buffer
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);
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if (EFI_ERROR(Status) && Status != EFI_BUFFER_TOO_SMALL) {
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return EFI_NOT_FOUND;
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}
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*Buffer = AllocatePool (BufferSize);
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if (*Buffer == NULL) {
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return EFI_OUT_OF_RESOURCES;
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}
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Status = gSmst->SmmLocateHandle (
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ByProtocol,
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&gEfiSmmFirmwareVolumeBlockProtocolGuid,
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NULL,
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&BufferSize,
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*Buffer
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);
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*NumberHandles = BufferSize / sizeof(EFI_HANDLE);
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if (EFI_ERROR(Status)) {
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*NumberHandles = 0;
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FreePool (*Buffer);
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*Buffer = NULL;
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}
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return Status;
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}
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/**
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Get the handle of the SMM FVB protocol by the FVB base address and attributes.
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@param[in] Address The base address of SMM FVB protocol.
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@param[in] Attributes The attributes of the SMM FVB protocol.
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@param[out] SmmFvbHandle The handle of the SMM FVB protocol.
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@retval EFI_SUCCESS The FVB handle is found.
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@retval EFI_ABORTED The FVB protocol is not found.
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**/
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EFI_STATUS
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GetFvbByAddressAndAttribute (
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IN EFI_PHYSICAL_ADDRESS Address,
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IN EFI_FVB_ATTRIBUTES_2 Attributes,
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OUT EFI_HANDLE *SmmFvbHandle
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)
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{
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EFI_STATUS Status;
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EFI_HANDLE *HandleBuffer;
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UINTN HandleCount;
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UINTN Index;
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EFI_PHYSICAL_ADDRESS FvbBaseAddress;
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EFI_FVB_ATTRIBUTES_2 FvbAttributes;
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EFI_FIRMWARE_VOLUME_BLOCK_PROTOCOL *Fvb;
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//
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// Locate all handles of SMM Fvb protocol.
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//
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Status = GetFvbCountAndBuffer (&HandleCount, &HandleBuffer);
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if (EFI_ERROR (Status)) {
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return EFI_ABORTED;
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}
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//
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// Find the proper SMM Fvb handle by the address and attributes.
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//
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for (Index = 0; Index < HandleCount; Index++) {
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Status = FtwGetFvbByHandle (HandleBuffer[Index], &Fvb);
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if (EFI_ERROR (Status)) {
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break;
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}
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//
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// Compare the address.
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//
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Status = Fvb->GetPhysicalAddress (Fvb, &FvbBaseAddress);
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if (EFI_ERROR (Status)) {
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continue;
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}
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if (Address != FvbBaseAddress) {
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continue;
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}
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//
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// Compare the attribute.
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//
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Status = Fvb->GetAttributes (Fvb, &FvbAttributes);
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if (EFI_ERROR (Status)) {
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continue;
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}
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if (Attributes != FvbAttributes) {
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continue;
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}
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//
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// Found the proper FVB handle.
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//
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*SmmFvbHandle = HandleBuffer[Index];
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FreePool (HandleBuffer);
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return EFI_SUCCESS;
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}
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FreePool (HandleBuffer);
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return EFI_ABORTED;
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}
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/**
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Communication service SMI Handler entry.
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This SMI handler provides services for the fault tolerant write wrapper driver.
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Caution: This function requires additional review when modified.
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This driver need to make sure the CommBuffer is not in the SMRAM range.
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Also in FTW_FUNCTION_GET_LAST_WRITE case, check SmmFtwGetLastWriteHeader->Data +
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SmmFtwGetLastWriteHeader->PrivateDataSize within communication buffer.
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@param[in] DispatchHandle The unique handle assigned to this handler by SmiHandlerRegister().
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@param[in] RegisterContext Points to an optional handler context which was specified when the
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handler was registered.
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@param[in, out] CommBuffer A pointer to a collection of data in memory that will be conveyed
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from a non-SMM environment into an SMM environment.
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@param[in, out] CommBufferSize The size of the CommBuffer.
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@retval EFI_SUCCESS The interrupt was handled and quiesced. No other handlers
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should still be called.
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@retval EFI_WARN_INTERRUPT_SOURCE_QUIESCED The interrupt has been quiesced but other handlers should
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still be called.
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@retval EFI_WARN_INTERRUPT_SOURCE_PENDING The interrupt is still pending and other handlers should still
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be called.
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@retval EFI_INTERRUPT_PENDING The interrupt could not be quiesced.
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**/
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EFI_STATUS
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EFIAPI
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SmmFaultTolerantWriteHandler (
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IN EFI_HANDLE DispatchHandle,
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IN CONST VOID *RegisterContext,
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IN OUT VOID *CommBuffer,
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IN OUT UINTN *CommBufferSize
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)
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{
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EFI_STATUS Status;
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SMM_FTW_COMMUNICATE_FUNCTION_HEADER *SmmFtwFunctionHeader;
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SMM_FTW_GET_MAX_BLOCK_SIZE_HEADER *SmmGetMaxBlockSizeHeader;
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SMM_FTW_ALLOCATE_HEADER *SmmFtwAllocateHeader;
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SMM_FTW_WRITE_HEADER *SmmFtwWriteHeader;
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SMM_FTW_RESTART_HEADER *SmmFtwRestartHeader;
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SMM_FTW_GET_LAST_WRITE_HEADER *SmmFtwGetLastWriteHeader;
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VOID *PrivateData;
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EFI_HANDLE SmmFvbHandle;
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UINTN InfoSize;
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//
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// If input is invalid, stop processing this SMI
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//
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if (CommBuffer == NULL || CommBufferSize == NULL) {
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return EFI_SUCCESS;
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}
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if (*CommBufferSize < SMM_FTW_COMMUNICATE_HEADER_SIZE) {
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return EFI_SUCCESS;
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}
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if (InternalIsAddressInSmram ((EFI_PHYSICAL_ADDRESS)(UINTN)CommBuffer, *CommBufferSize)) {
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DEBUG ((EFI_D_ERROR, "SMM communication buffer size is in SMRAM!\n"));
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return EFI_SUCCESS;
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}
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SmmFtwFunctionHeader = (SMM_FTW_COMMUNICATE_FUNCTION_HEADER *)CommBuffer;
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switch (SmmFtwFunctionHeader->Function) {
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case FTW_FUNCTION_GET_MAX_BLOCK_SIZE:
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SmmGetMaxBlockSizeHeader = (SMM_FTW_GET_MAX_BLOCK_SIZE_HEADER *) SmmFtwFunctionHeader->Data;
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InfoSize = sizeof (SMM_FTW_GET_MAX_BLOCK_SIZE_HEADER);
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//
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// SMRAM range check already covered before
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//
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if (InfoSize > *CommBufferSize - SMM_FTW_COMMUNICATE_HEADER_SIZE) {
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DEBUG ((EFI_D_ERROR, "Data size exceed communication buffer size limit!\n"));
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Status = EFI_ACCESS_DENIED;
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break;
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}
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Status = FtwGetMaxBlockSize (
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&mFtwDevice->FtwInstance,
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&SmmGetMaxBlockSizeHeader->BlockSize
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);
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break;
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case FTW_FUNCTION_ALLOCATE:
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SmmFtwAllocateHeader = (SMM_FTW_ALLOCATE_HEADER *) SmmFtwFunctionHeader->Data;
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Status = FtwAllocate (
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&mFtwDevice->FtwInstance,
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&SmmFtwAllocateHeader->CallerId,
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SmmFtwAllocateHeader->PrivateDataSize,
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SmmFtwAllocateHeader->NumberOfWrites
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);
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break;
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case FTW_FUNCTION_WRITE:
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SmmFtwWriteHeader = (SMM_FTW_WRITE_HEADER *) SmmFtwFunctionHeader->Data;
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if (SmmFtwWriteHeader->PrivateDataSize == 0) {
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PrivateData = NULL;
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} else {
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PrivateData = (VOID *)&SmmFtwWriteHeader->Data[SmmFtwWriteHeader->Length];
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}
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Status = GetFvbByAddressAndAttribute (
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SmmFtwWriteHeader->FvbBaseAddress,
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SmmFtwWriteHeader->FvbAttributes,
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&SmmFvbHandle
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);
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if (!EFI_ERROR (Status)) {
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Status = FtwWrite(
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&mFtwDevice->FtwInstance,
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SmmFtwWriteHeader->Lba,
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SmmFtwWriteHeader->Offset,
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SmmFtwWriteHeader->Length,
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PrivateData,
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SmmFvbHandle,
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SmmFtwWriteHeader->Data
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);
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}
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break;
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case FTW_FUNCTION_RESTART:
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SmmFtwRestartHeader = (SMM_FTW_RESTART_HEADER *) SmmFtwFunctionHeader->Data;
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Status = GetFvbByAddressAndAttribute (
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SmmFtwRestartHeader->FvbBaseAddress,
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SmmFtwRestartHeader->FvbAttributes,
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&SmmFvbHandle
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);
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if (!EFI_ERROR (Status)) {
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Status = FtwRestart (&mFtwDevice->FtwInstance, SmmFvbHandle);
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}
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break;
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case FTW_FUNCTION_ABORT:
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Status = FtwAbort (&mFtwDevice->FtwInstance);
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break;
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case FTW_FUNCTION_GET_LAST_WRITE:
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SmmFtwGetLastWriteHeader = (SMM_FTW_GET_LAST_WRITE_HEADER *) SmmFtwFunctionHeader->Data;
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InfoSize = OFFSET_OF (SMM_FTW_GET_LAST_WRITE_HEADER, Data) + SmmFtwGetLastWriteHeader->PrivateDataSize;
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//
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// SMRAM range check already covered before
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//
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if (InfoSize > *CommBufferSize - SMM_FTW_COMMUNICATE_HEADER_SIZE) {
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DEBUG ((EFI_D_ERROR, "Data size exceed communication buffer size limit!\n"));
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Status = EFI_ACCESS_DENIED;
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break;
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}
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Status = FtwGetLastWrite (
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&mFtwDevice->FtwInstance,
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&SmmFtwGetLastWriteHeader->CallerId,
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&SmmFtwGetLastWriteHeader->Lba,
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&SmmFtwGetLastWriteHeader->Offset,
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&SmmFtwGetLastWriteHeader->Length,
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&SmmFtwGetLastWriteHeader->PrivateDataSize,
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(VOID *)SmmFtwGetLastWriteHeader->Data,
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&SmmFtwGetLastWriteHeader->Complete
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);
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break;
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default:
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Status = EFI_UNSUPPORTED;
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}
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SmmFtwFunctionHeader->ReturnStatus = Status;
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return EFI_SUCCESS;
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}
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/**
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SMM Firmware Volume Block Protocol notification event handler.
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@param[in] Protocol Points to the protocol's unique identifier
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@param[in] Interface Points to the interface instance
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@param[in] Handle The handle on which the interface was installed
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@retval EFI_SUCCESS SmmEventCallback runs successfully
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**/
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EFI_STATUS
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EFIAPI
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FvbNotificationEvent (
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IN CONST EFI_GUID *Protocol,
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IN VOID *Interface,
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IN EFI_HANDLE Handle
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)
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{
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EFI_STATUS Status;
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EFI_SMM_FAULT_TOLERANT_WRITE_PROTOCOL *FtwProtocol;
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EFI_HANDLE SmmFtwHandle;
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//
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// Just return to avoid install SMM FaultTolerantWriteProtocol again
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// if SMM Fault Tolerant Write protocol had been installed.
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//
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Status = gSmst->SmmLocateProtocol (
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&gEfiSmmFaultTolerantWriteProtocolGuid,
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NULL,
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(VOID **) &FtwProtocol
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);
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if (!EFI_ERROR (Status)) {
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return EFI_SUCCESS;
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}
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//
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// Found proper FVB protocol and initialize FtwDevice for protocol installation
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//
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Status = InitFtwProtocol (mFtwDevice);
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if (EFI_ERROR(Status)) {
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return Status;
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}
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//
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// Install protocol interface
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//
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Status = gSmst->SmmInstallProtocolInterface (
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&mFtwDevice->Handle,
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&gEfiSmmFaultTolerantWriteProtocolGuid,
|
|
EFI_NATIVE_INTERFACE,
|
|
&mFtwDevice->FtwInstance
|
|
);
|
|
ASSERT_EFI_ERROR (Status);
|
|
|
|
//
|
|
// Notify the Ftw wrapper driver SMM Ftw is ready
|
|
//
|
|
SmmFtwHandle = NULL;
|
|
Status = gBS->InstallProtocolInterface (
|
|
&SmmFtwHandle,
|
|
&gEfiSmmFaultTolerantWriteProtocolGuid,
|
|
EFI_NATIVE_INTERFACE,
|
|
NULL
|
|
);
|
|
ASSERT_EFI_ERROR (Status);
|
|
|
|
return EFI_SUCCESS;
|
|
}
|
|
|
|
|
|
/**
|
|
This function is the entry point of the Fault Tolerant Write driver.
|
|
|
|
@param[in] ImageHandle A handle for the image that is initializing this driver
|
|
@param[in] SystemTable A pointer to the EFI system table
|
|
|
|
@retval EFI_SUCCESS The initialization finished successfully.
|
|
@retval EFI_OUT_OF_RESOURCES Allocate memory error
|
|
@retval EFI_INVALID_PARAMETER Workspace or Spare block does not exist
|
|
|
|
**/
|
|
EFI_STATUS
|
|
EFIAPI
|
|
SmmFaultTolerantWriteInitialize (
|
|
IN EFI_HANDLE ImageHandle,
|
|
IN EFI_SYSTEM_TABLE *SystemTable
|
|
)
|
|
{
|
|
EFI_STATUS Status;
|
|
EFI_HANDLE FtwHandle;
|
|
EFI_SMM_ACCESS2_PROTOCOL *SmmAccess;
|
|
UINTN Size;
|
|
|
|
//
|
|
// Allocate private data structure for SMM FTW protocol and do some initialization
|
|
//
|
|
Status = InitFtwDevice (&mFtwDevice);
|
|
if (EFI_ERROR(Status)) {
|
|
return Status;
|
|
}
|
|
|
|
//
|
|
// Get SMRAM information
|
|
//
|
|
Status = gBS->LocateProtocol (&gEfiSmmAccess2ProtocolGuid, NULL, (VOID **)&SmmAccess);
|
|
ASSERT_EFI_ERROR (Status);
|
|
|
|
Size = 0;
|
|
Status = SmmAccess->GetCapabilities (SmmAccess, &Size, NULL);
|
|
ASSERT (Status == EFI_BUFFER_TOO_SMALL);
|
|
|
|
Status = gSmst->SmmAllocatePool (
|
|
EfiRuntimeServicesData,
|
|
Size,
|
|
(VOID **)&mSmramRanges
|
|
);
|
|
ASSERT_EFI_ERROR (Status);
|
|
|
|
Status = SmmAccess->GetCapabilities (SmmAccess, &Size, mSmramRanges);
|
|
ASSERT_EFI_ERROR (Status);
|
|
|
|
mSmramRangeCount = Size / sizeof (EFI_SMRAM_DESCRIPTOR);
|
|
|
|
//
|
|
// Register FvbNotificationEvent () notify function.
|
|
//
|
|
Status = gSmst->SmmRegisterProtocolNotify (
|
|
&gEfiSmmFirmwareVolumeBlockProtocolGuid,
|
|
FvbNotificationEvent,
|
|
&mFvbRegistration
|
|
);
|
|
ASSERT_EFI_ERROR (Status);
|
|
|
|
FvbNotificationEvent (NULL, NULL, NULL);
|
|
|
|
///
|
|
/// Register SMM FTW SMI handler
|
|
///
|
|
Status = gSmst->SmiHandlerRegister (SmmFaultTolerantWriteHandler, &gEfiSmmFaultTolerantWriteProtocolGuid, &FtwHandle);
|
|
ASSERT_EFI_ERROR (Status);
|
|
|
|
return EFI_SUCCESS;
|
|
}
|