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|
/** @file NorFlashFvbDxe.c
Copyright (c) 2011 - 2014, ARM Ltd. All rights reserved.<BR>
Copyright (c) 2017, Socionext Inc. All rights reserved.<BR>
Copyright (c) 2017, Linaro, Ltd. 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 <PiDxe.h>
#include <Guid/VariableFormat.h>
#include <Guid/SystemNvDataGuid.h>
#include <Library/BaseLib.h>
#include <Library/BaseMemoryLib.h>
#include <Library/HobLib.h>
#include <Library/MemoryAllocationLib.h>
#include <Library/PcdLib.h>
#include <Library/UefiBootServicesTableLib.h>
#include <Library/UefiLib.h>
#include "NorFlashDxe.h"
STATIC EFI_EVENT mFvbVirtualAddrChangeEvent;
STATIC UINTN mFlashNvStorageVariableBase;
///
/// The Firmware Volume Block Protocol is the low-level interface
/// to a firmware volume. File-level access to a firmware volume
/// should not be done using the Firmware Volume Block Protocol.
/// Normal access to a firmware volume must use the Firmware
/// Volume Protocol. Typically, only the file system driver that
/// produces the Firmware Volume Protocol will bind to the
/// Firmware Volume Block Protocol.
///
/**
Initialises the FV Header and Variable Store Header
to support variable operations.
@param[in] Ptr - Location to initialise the headers
**/
STATIC
EFI_STATUS
InitializeFvAndVariableStoreHeaders (
IN NOR_FLASH_INSTANCE *Instance
)
{
EFI_STATUS Status;
VOID* Headers;
UINTN HeadersLength;
EFI_FIRMWARE_VOLUME_HEADER *FirmwareVolumeHeader;
VARIABLE_STORE_HEADER *VariableStoreHeader;
if (!Instance->Initialized && Instance->Initialize) {
Instance->Initialize (Instance);
}
HeadersLength = sizeof(EFI_FIRMWARE_VOLUME_HEADER) +
sizeof(EFI_FV_BLOCK_MAP_ENTRY) +
sizeof(VARIABLE_STORE_HEADER);
Headers = AllocateZeroPool(HeadersLength);
//
// EFI_FIRMWARE_VOLUME_HEADER
//
FirmwareVolumeHeader = (EFI_FIRMWARE_VOLUME_HEADER*)Headers;
CopyGuid (&FirmwareVolumeHeader->FileSystemGuid, &gEfiSystemNvDataFvGuid);
FirmwareVolumeHeader->FvLength =
PcdGet32(PcdFlashNvStorageVariableSize) +
PcdGet32(PcdFlashNvStorageFtwWorkingSize) +
PcdGet32(PcdFlashNvStorageFtwSpareSize);
FirmwareVolumeHeader->Signature = EFI_FVH_SIGNATURE;
FirmwareVolumeHeader->Attributes = EFI_FVB2_READ_ENABLED_CAP |
EFI_FVB2_READ_STATUS |
EFI_FVB2_STICKY_WRITE |
EFI_FVB2_MEMORY_MAPPED |
EFI_FVB2_ERASE_POLARITY |
EFI_FVB2_WRITE_STATUS |
EFI_FVB2_WRITE_ENABLED_CAP;
FirmwareVolumeHeader->HeaderLength = sizeof(EFI_FIRMWARE_VOLUME_HEADER) +
sizeof(EFI_FV_BLOCK_MAP_ENTRY);
FirmwareVolumeHeader->Revision = EFI_FVH_REVISION;
FirmwareVolumeHeader->BlockMap[0].NumBlocks = Instance->Media.LastBlock + 1;
FirmwareVolumeHeader->BlockMap[0].Length = Instance->Media.BlockSize;
FirmwareVolumeHeader->BlockMap[1].NumBlocks = 0;
FirmwareVolumeHeader->BlockMap[1].Length = 0;
FirmwareVolumeHeader->Checksum = CalculateCheckSum16 (
(UINT16*)FirmwareVolumeHeader,
FirmwareVolumeHeader->HeaderLength);
//
// VARIABLE_STORE_HEADER
//
VariableStoreHeader = (VOID *)((UINTN)Headers +
FirmwareVolumeHeader->HeaderLength);
CopyGuid (&VariableStoreHeader->Signature, &gEfiAuthenticatedVariableGuid);
VariableStoreHeader->Size = PcdGet32(PcdFlashNvStorageVariableSize) -
FirmwareVolumeHeader->HeaderLength;
VariableStoreHeader->Format = VARIABLE_STORE_FORMATTED;
VariableStoreHeader->State = VARIABLE_STORE_HEALTHY;
// Install the combined super-header in the NorFlash
Status = FvbWrite (&Instance->FvbProtocol, 0, 0, &HeadersLength, Headers);
FreePool (Headers);
return Status;
}
/**
Check the integrity of firmware volume header.
@param[in] FwVolHeader - A pointer to a firmware volume header
@retval EFI_SUCCESS - The firmware volume is consistent
@retval EFI_NOT_FOUND - The firmware volume has been corrupted.
**/
EFI_STATUS
ValidateFvHeader (
IN NOR_FLASH_INSTANCE *Instance
)
{
UINT16 Checksum;
EFI_FIRMWARE_VOLUME_HEADER *FwVolHeader;
VARIABLE_STORE_HEADER *VariableStoreHeader;
UINTN VariableStoreLength;
UINTN FvLength;
FwVolHeader = (EFI_FIRMWARE_VOLUME_HEADER*)Instance->RegionBaseAddress;
FvLength = PcdGet32(PcdFlashNvStorageVariableSize) +
PcdGet32(PcdFlashNvStorageFtwWorkingSize) +
PcdGet32(PcdFlashNvStorageFtwSpareSize);
//
// Verify the header revision, header signature, length
// Length of FvBlock cannot be 2**64-1
// HeaderLength cannot be an odd number
//
if ( (FwVolHeader->Revision != EFI_FVH_REVISION)
|| (FwVolHeader->Signature != EFI_FVH_SIGNATURE)
|| (FwVolHeader->FvLength != FvLength)
)
{
DEBUG ((DEBUG_INFO, "%a: No Firmware Volume header present\n",
__FUNCTION__));
return EFI_NOT_FOUND;
}
// Check the Firmware Volume Guid
if (!CompareGuid (&FwVolHeader->FileSystemGuid, &gEfiSystemNvDataFvGuid)) {
DEBUG ((DEBUG_INFO, "%a: Firmware Volume Guid non-compatible\n",
__FUNCTION__));
return EFI_NOT_FOUND;
}
// Verify the header checksum
Checksum = CalculateSum16((UINT16*)FwVolHeader, FwVolHeader->HeaderLength);
if (Checksum != 0) {
DEBUG ((DEBUG_INFO, "%a: FV checksum is invalid (Checksum:0x%X)\n",
__FUNCTION__, Checksum));
return EFI_NOT_FOUND;
}
VariableStoreHeader = (VOID *)((UINTN)FwVolHeader +
FwVolHeader->HeaderLength);
// Check the Variable Store Guid
if (!CompareGuid (&VariableStoreHeader->Signature, &gEfiVariableGuid) &&
!CompareGuid (&VariableStoreHeader->Signature,
&gEfiAuthenticatedVariableGuid)) {
DEBUG ((DEBUG_INFO, "%a: Variable Store Guid non-compatible\n",
__FUNCTION__));
return EFI_NOT_FOUND;
}
VariableStoreLength = PcdGet32 (PcdFlashNvStorageVariableSize) -
FwVolHeader->HeaderLength;
if (VariableStoreHeader->Size != VariableStoreLength) {
DEBUG ((DEBUG_INFO, "%a: Variable Store Length does not match\n",
__FUNCTION__));
return EFI_NOT_FOUND;
}
return EFI_SUCCESS;
}
/**
The GetAttributes() function retrieves the attributes and
current settings of the block.
@param This Indicates the EFI_FIRMWARE_VOLUME_BLOCK2_PROTOCOL instance.
@param Attributes Pointer to EFI_FVB_ATTRIBUTES_2 in which the attributes and
current settings are returned.
Type EFI_FVB_ATTRIBUTES_2 is defined in
EFI_FIRMWARE_VOLUME_HEADER.
@retval EFI_SUCCESS The firmware volume attributes were returned.
**/
EFI_STATUS
EFIAPI
FvbGetAttributes(
IN CONST EFI_FIRMWARE_VOLUME_BLOCK2_PROTOCOL *This,
OUT EFI_FVB_ATTRIBUTES_2 *Attributes
)
{
EFI_FVB_ATTRIBUTES_2 FlashFvbAttributes;
NOR_FLASH_INSTANCE *Instance;
Instance = INSTANCE_FROM_FVB_THIS(This);
FlashFvbAttributes = EFI_FVB2_READ_ENABLED_CAP | EFI_FVB2_READ_STATUS |
EFI_FVB2_STICKY_WRITE | EFI_FVB2_MEMORY_MAPPED |
EFI_FVB2_ERASE_POLARITY;
// Check if it is write protected
if (!Instance->Media.ReadOnly) {
FlashFvbAttributes |= EFI_FVB2_WRITE_STATUS | EFI_FVB2_WRITE_ENABLED_CAP;
}
*Attributes = FlashFvbAttributes;
DEBUG ((DEBUG_BLKIO, "FvbGetAttributes(0x%X)\n", *Attributes));
return EFI_SUCCESS;
}
/**
The SetAttributes() function sets configurable firmware volume attributes
and returns the new settings of the firmware volume.
@param This EFI_FIRMWARE_VOLUME_BLOCK2_PROTOCOL instance.
@param Attributes On input, Attributes is a pointer to
EFI_FVB_ATTRIBUTES_2 that contains the desired
firmware volume settings.
On successful return, it contains the new
settings of the firmware volume.
@retval EFI_SUCCESS The firmware volume attributes were returned.
@retval EFI_INVALID_PARAMETER The attributes requested are in conflict with
the capabilities as declared in the firmware
volume header.
**/
EFI_STATUS
EFIAPI
FvbSetAttributes(
IN CONST EFI_FIRMWARE_VOLUME_BLOCK2_PROTOCOL *This,
IN OUT EFI_FVB_ATTRIBUTES_2 *Attributes
)
{
DEBUG ((DEBUG_BLKIO, "FvbSetAttributes(0x%X) is not supported\n",
*Attributes));
return EFI_UNSUPPORTED;
}
/**
The GetPhysicalAddress() function retrieves the base address of
a memory-mapped firmware volume. This function should be called
only for memory-mapped firmware volumes.
@param This EFI_FIRMWARE_VOLUME_BLOCK2_PROTOCOL instance.
@param Address Pointer to a caller-allocated
EFI_PHYSICAL_ADDRESS that, on successful
return from GetPhysicalAddress(), contains the
base address of the firmware volume.
@retval EFI_SUCCESS The firmware volume base address was returned.
@retval EFI_NOT_SUPPORTED The firmware volume is not memory mapped.
**/
EFI_STATUS
EFIAPI
FvbGetPhysicalAddress (
IN CONST EFI_FIRMWARE_VOLUME_BLOCK2_PROTOCOL *This,
OUT EFI_PHYSICAL_ADDRESS *Address
)
{
NOR_FLASH_INSTANCE *Instance;
Instance = INSTANCE_FROM_FVB_THIS(This);
DEBUG ((DEBUG_BLKIO, "FvbGetPhysicalAddress(BaseAddress=0x%08x)\n",
Instance->RegionBaseAddress));
ASSERT(Address != NULL);
*Address = Instance->RegionBaseAddress;
return EFI_SUCCESS;
}
/**
The GetBlockSize() function retrieves the size of the requested
block. It also returns the number of additional blocks with
the identical size. The GetBlockSize() function is used to
retrieve the block map (see EFI_FIRMWARE_VOLUME_HEADER).
@param This EFI_FIRMWARE_VOLUME_BLOCK2_PROTOCOL instance.
@param Lba Indicates the block whose size to return
@param BlockSize Pointer to a caller-allocated UINTN in which
the size of the block is returned.
@param NumberOfBlocks Pointer to a caller-allocated UINTN in
which the number of consecutive blocks,
starting with Lba, is returned. All
blocks in this range have a size of
BlockSize.
@retval EFI_SUCCESS The firmware volume base address was returned.
@retval EFI_INVALID_PARAMETER The requested LBA is out of range.
**/
EFI_STATUS
EFIAPI
FvbGetBlockSize (
IN CONST EFI_FIRMWARE_VOLUME_BLOCK2_PROTOCOL *This,
IN EFI_LBA Lba,
OUT UINTN *BlockSize,
OUT UINTN *NumberOfBlocks
)
{
EFI_STATUS Status;
NOR_FLASH_INSTANCE *Instance;
Instance = INSTANCE_FROM_FVB_THIS(This);
DEBUG ((DEBUG_BLKIO,
"FvbGetBlockSize(Lba=%ld, BlockSize=0x%x, LastBlock=%ld)\n", Lba,
Instance->Media.BlockSize, Instance->Media.LastBlock));
if (Lba > Instance->Media.LastBlock) {
DEBUG ((DEBUG_ERROR,
"FvbGetBlockSize: ERROR - Parameter LBA %ld is beyond the last Lba (%ld).\n",
Lba, Instance->Media.LastBlock));
Status = EFI_INVALID_PARAMETER;
} else {
// This is easy because in this platform each NorFlash device has equal sized blocks.
*BlockSize = (UINTN) Instance->Media.BlockSize;
*NumberOfBlocks = (UINTN) (Instance->Media.LastBlock - Lba + 1);
DEBUG ((DEBUG_BLKIO,
"FvbGetBlockSize: *BlockSize=0x%x, *NumberOfBlocks=0x%x.\n", *BlockSize,
*NumberOfBlocks));
Status = EFI_SUCCESS;
}
return Status;
}
/**
Reads the specified number of bytes into a buffer from the specified block.
The Read() function reads the requested number of bytes from the
requested block and stores them in the provided buffer.
Implementations should be mindful that the firmware volume
might be in the ReadDisabled state. If it is in this state,
the Read() function must return the status code
EFI_ACCESS_DENIED without modifying the contents of the
buffer. The Read() function must also prevent spanning block
boundaries. If a read is requested that would span a block
boundary, the read must read up to the boundary but not
beyond. The output parameter NumBytes must be set to correctly
indicate the number of bytes actually read. The caller must be
aware that a read may be partially completed.
@param This EFI_FIRMWARE_VOLUME_BLOCK2_PROTOCOL instance.
@param Lba The starting logical block index from which to read
@param Offset Offset into the block at which to begin reading.
@param NumBytes Pointer to a UINTN.
At entry, *NumBytes contains the total size of the
buffer.
At exit, *NumBytes contains the total number of
bytes read.
@param Buffer Pointer to a caller-allocated buffer that will be
used to hold the data that is read.
@retval EFI_SUCCESS The firmware volume was read successfully, and
contents are in Buffer.
@retval EFI_BAD_BUFFER_SIZE Read attempted across an LBA boundary.
On output, NumBytes contains the total number of
bytes returned in Buffer.
@retval EFI_ACCESS_DENIED The firmware volume is in the ReadDisabled state.
@retval EFI_DEVICE_ERROR The block device is not functioning correctly and
could not be read.
**/
EFI_STATUS
EFIAPI
FvbRead (
IN CONST EFI_FIRMWARE_VOLUME_BLOCK2_PROTOCOL *This,
IN EFI_LBA Lba,
IN UINTN Offset,
IN OUT UINTN *NumBytes,
IN OUT UINT8 *Buffer
)
{
EFI_STATUS TempStatus;
UINTN BlockSize;
NOR_FLASH_INSTANCE *Instance;
Instance = INSTANCE_FROM_FVB_THIS(This);
DEBUG ((DEBUG_BLKIO,
"FvbRead(Parameters: Lba=%ld, Offset=0x%x, *NumBytes=0x%x, Buffer @ 0x%08x)\n",
Instance->StartLba + Lba, Offset, *NumBytes, Buffer));
if (!Instance->Initialized && Instance->Initialize) {
Instance->Initialize(Instance);
}
TempStatus = EFI_SUCCESS;
// Cache the block size to avoid de-referencing pointers all the time
BlockSize = Instance->Media.BlockSize;
DEBUG ((DEBUG_BLKIO,
"FvbRead: Check if (Offset=0x%x + NumBytes=0x%x) <= BlockSize=0x%x\n",
Offset, *NumBytes, BlockSize ));
// The read must not span block boundaries.
// We need to check each variable individually because adding two large
// values together overflows.
if (Offset >= BlockSize ||
*NumBytes > BlockSize ||
(Offset + *NumBytes) > BlockSize) {
DEBUG ((DEBUG_ERROR,
"FvbRead: ERROR - EFI_BAD_BUFFER_SIZE: (Offset=0x%x + NumBytes=0x%x) > BlockSize=0x%x\n",
Offset, *NumBytes, BlockSize ));
return EFI_BAD_BUFFER_SIZE;
}
// We must have some bytes to read
if (*NumBytes == 0) {
return EFI_BAD_BUFFER_SIZE;
}
// Decide if we are doing full block reads or not.
if (*NumBytes % BlockSize != 0) {
TempStatus = NorFlashRead (Instance, Instance->StartLba + Lba, Offset,
*NumBytes, Buffer);
if (EFI_ERROR (TempStatus)) {
return EFI_DEVICE_ERROR;
}
} else {
// Read NOR Flash data into shadow buffer
TempStatus = NorFlashReadBlocks (Instance, Instance->StartLba + Lba,
BlockSize, Buffer);
if (EFI_ERROR (TempStatus)) {
// Return one of the pre-approved error statuses
return EFI_DEVICE_ERROR;
}
}
return EFI_SUCCESS;
}
/**
Writes the specified number of bytes from the input buffer to the block.
The Write() function writes the specified number of bytes from
the provided buffer to the specified block and offset. If the
firmware volume is sticky write, the caller must ensure that
all the bits of the specified range to write are in the
EFI_FVB_ERASE_POLARITY state before calling the Write()
function, or else the result will be unpredictable. This
unpredictability arises because, for a sticky-write firmware
volume, a write may negate a bit in the EFI_FVB_ERASE_POLARITY
state but cannot flip it back again. Before calling the
Write() function, it is recommended for the caller to first call
the EraseBlocks() function to erase the specified block to
write. A block erase cycle will transition bits from the
(NOT)EFI_FVB_ERASE_POLARITY state back to the
EFI_FVB_ERASE_POLARITY state. Implementations should be
mindful that the firmware volume might be in the WriteDisabled
state. If it is in this state, the Write() function must
return the status code EFI_ACCESS_DENIED without modifying the
contents of the firmware volume. The Write() function must
also prevent spanning block boundaries. If a write is
requested that spans a block boundary, the write must store up
to the boundary but not beyond. The output parameter NumBytes
must be set to correctly indicate the number of bytes actually
written. The caller must be aware that a write may be
partially completed. All writes, partial or otherwise, must be
fully flushed to the hardware before the Write() service
returns.
@param This EFI_FIRMWARE_VOLUME_BLOCK2_PROTOCOL instance.
@param Lba The starting logical block index to write to.
@param Offset Offset into the block at which to begin writing.
@param NumBytes The pointer to a UINTN.
At entry, *NumBytes contains the total size of the
buffer.
At exit, *NumBytes contains the total number of
bytes actually written.
@param Buffer The pointer to a caller-allocated buffer that
contains the source for the write.
@retval EFI_SUCCESS The firmware volume was written successfully.
@retval EFI_BAD_BUFFER_SIZE The write was attempted across an LBA boundary.
On output, NumBytes contains the total number of
bytes actually written.
@retval EFI_ACCESS_DENIED The firmware volume is in the WriteDisabled state.
@retval EFI_DEVICE_ERROR The block device is malfunctioning and could not be
written.
**/
EFI_STATUS
EFIAPI
FvbWrite (
IN CONST EFI_FIRMWARE_VOLUME_BLOCK2_PROTOCOL *This,
IN EFI_LBA Lba,
IN UINTN Offset,
IN OUT UINTN *NumBytes,
IN UINT8 *Buffer
)
{
NOR_FLASH_INSTANCE *Instance;
Instance = INSTANCE_FROM_FVB_THIS (This);
return NorFlashWriteSingleBlock (Instance, Instance->StartLba + Lba, Offset,
NumBytes, Buffer);
}
/**
Erases and initialises a firmware volume block.
The EraseBlocks() function erases one or more blocks as denoted
by the variable argument list. The entire parameter list of
blocks must be verified before erasing any blocks. If a block is
requested that does not exist within the associated firmware
volume (it has a larger index than the last block of the
firmware volume), the EraseBlocks() function must return the
status code EFI_INVALID_PARAMETER without modifying the contents
of the firmware volume. Implementations should be mindful that
the firmware volume might be in the WriteDisabled state. If it
is in this state, the EraseBlocks() function must return the
status code EFI_ACCESS_DENIED without modifying the contents of
the firmware volume. All calls to EraseBlocks() must be fully
flushed to the hardware before the EraseBlocks() service
returns.
@param This EFI_FIRMWARE_VOLUME_BLOCK2_PROTOCOL
instance.
@param ... The variable argument list is a list of tuples.
Each tuple describes a range of LBAs to erase
and consists of the following:
- An EFI_LBA that indicates the starting LBA
- A UINTN that indicates the number of blocks
to erase.
The list is terminated with an
EFI_LBA_LIST_TERMINATOR.
@retval EFI_SUCCESS The erase request successfully completed.
@retval EFI_ACCESS_DENIED The firmware volume is in the WriteDisabled
state.
@retval EFI_DEVICE_ERROR The block device is not functioning correctly
and could not be written.
The firmware device may have been partially
erased.
@retval EFI_INVALID_PARAMETER One or more of the LBAs listed in the variable
argument list do not exist in the firmware
volume.
**/
EFI_STATUS
EFIAPI
FvbEraseBlocks (
IN CONST EFI_FIRMWARE_VOLUME_BLOCK2_PROTOCOL *This,
...
)
{
EFI_STATUS Status;
VA_LIST Args;
UINTN BlockAddress; // Physical address of Lba to erase
EFI_LBA StartingLba; // Lba from which we start erasing
UINTN NumOfLba; // Number of Lba blocks to erase
NOR_FLASH_INSTANCE *Instance;
Instance = INSTANCE_FROM_FVB_THIS(This);
DEBUG ((DEBUG_BLKIO, "FvbEraseBlocks()\n"));
Status = EFI_SUCCESS;
// Detect WriteDisabled state
if (Instance->Media.ReadOnly) {
// Firmware volume is in WriteDisabled state
DEBUG ((DEBUG_ERROR,
"FvbEraseBlocks: ERROR - Device is in WriteDisabled state.\n"));
return EFI_ACCESS_DENIED;
}
// Before erasing, check the entire list of parameters to ensure
// all specified blocks are valid
VA_START (Args, This);
do {
// Get the Lba from which we start erasing
StartingLba = VA_ARG (Args, EFI_LBA);
// Have we reached the end of the list?
if (StartingLba == EFI_LBA_LIST_TERMINATOR) {
//Exit the while loop
break;
}
// How many Lba blocks are we requested to erase?
NumOfLba = VA_ARG (Args, UINT32);
// All blocks must be within range
DEBUG ((DEBUG_BLKIO,
"FvbEraseBlocks: Check if: ( StartingLba=%ld + NumOfLba=%d - 1 ) > LastBlock=%ld.\n",
Instance->StartLba + StartingLba, NumOfLba, Instance->Media.LastBlock));
if (NumOfLba == 0 ||
(Instance->StartLba + StartingLba + NumOfLba - 1) >
Instance->Media.LastBlock) {
VA_END (Args);
DEBUG ((DEBUG_ERROR,
"FvbEraseBlocks: ERROR - Lba range goes past the last Lba.\n"));
Status = EFI_INVALID_PARAMETER;
goto EXIT;
}
} while (TRUE);
VA_END (Args);
//
// To get here, all must be ok, so start erasing
//
VA_START (Args, This);
do {
// Get the Lba from which we start erasing
StartingLba = VA_ARG (Args, EFI_LBA);
// Have we reached the end of the list?
if (StartingLba == EFI_LBA_LIST_TERMINATOR) {
// Exit the while loop
break;
}
// How many Lba blocks are we requested to erase?
NumOfLba = VA_ARG (Args, UINT32);
// Go through each one and erase it
while (NumOfLba > 0) {
// Get the physical address of Lba to erase
BlockAddress = GET_NOR_BLOCK_ADDRESS (Instance->RegionBaseAddress,
Instance->StartLba + StartingLba,
Instance->Media.BlockSize);
// Erase it
DEBUG ((DEBUG_BLKIO, "FvbEraseBlocks: Erasing Lba=%ld @ 0x%08x.\n",
Instance->StartLba + StartingLba, BlockAddress));
Status = NorFlashUnlockAndEraseSingleBlock (Instance, BlockAddress);
if (EFI_ERROR(Status)) {
VA_END (Args);
Status = EFI_DEVICE_ERROR;
goto EXIT;
}
// Move to the next Lba
StartingLba++;
NumOfLba--;
}
} while (TRUE);
VA_END (Args);
EXIT:
return Status;
}
/**
Fixup internal data so that EFI can be call in virtual mode.
Call the passed in Child Notify event and convert any pointers in
lib to virtual mode.
@param[in] Event The Event that is being processed
@param[in] Context Event Context
**/
STATIC
VOID
EFIAPI
FvbVirtualNotifyEvent (
IN EFI_EVENT Event,
IN VOID *Context
)
{
EfiConvertPointer (0x0, (VOID**)&mFlashNvStorageVariableBase);
return;
}
EFI_STATUS
EFIAPI
NorFlashFvbInitialize (
IN NOR_FLASH_INSTANCE* Instance
)
{
EFI_STATUS Status;
UINT32 FvbNumLba;
EFI_BOOT_MODE BootMode;
UINTN RuntimeMmioRegionSize;
UINTN BlockSize;
DEBUG ((DEBUG_BLKIO,"NorFlashFvbInitialize\n"));
BlockSize = Instance->Media.BlockSize;
// FirmwareVolumeHeader->FvLength is declared to have the Variable area
// AND the FTW working area AND the FTW Spare contiguous.
ASSERT(PcdGet32(PcdFlashNvStorageVariableBase) +
PcdGet32(PcdFlashNvStorageVariableSize) ==
PcdGet32(PcdFlashNvStorageFtwWorkingBase));
ASSERT(PcdGet32(PcdFlashNvStorageFtwWorkingBase) +
PcdGet32(PcdFlashNvStorageFtwWorkingSize) ==
PcdGet32(PcdFlashNvStorageFtwSpareBase));
// Check if the size of the area is at least one block size
ASSERT((PcdGet32(PcdFlashNvStorageVariableSize) > 0) &&
(PcdGet32(PcdFlashNvStorageVariableSize) / BlockSize > 0));
ASSERT((PcdGet32(PcdFlashNvStorageFtwWorkingSize) > 0) &&
(PcdGet32(PcdFlashNvStorageFtwWorkingSize) / BlockSize > 0));
ASSERT((PcdGet32(PcdFlashNvStorageFtwSpareSize) > 0) &&
(PcdGet32(PcdFlashNvStorageFtwSpareSize) / BlockSize > 0));
// Ensure the Variable areas are aligned on block size boundaries
ASSERT((PcdGet32(PcdFlashNvStorageVariableBase) % BlockSize) == 0);
ASSERT((PcdGet32(PcdFlashNvStorageFtwWorkingBase) % BlockSize) == 0);
ASSERT((PcdGet32(PcdFlashNvStorageFtwSpareBase) % BlockSize) == 0);
Instance->Initialized = TRUE;
mFlashNvStorageVariableBase = FixedPcdGet32 (PcdFlashNvStorageVariableBase);
// Set the index of the first LBA for the FVB
Instance->StartLba = (PcdGet32 (PcdFlashNvStorageVariableBase) -
Instance->RegionBaseAddress) / BlockSize;
BootMode = GetBootModeHob ();
if (BootMode == BOOT_WITH_DEFAULT_SETTINGS) {
Status = EFI_INVALID_PARAMETER;
} else {
// Determine if there is a valid header at the beginning of the NorFlash
Status = ValidateFvHeader (Instance);
}
// Install the Default FVB header if required
if (EFI_ERROR(Status)) {
// There is no valid header, so time to install one.
DEBUG ((DEBUG_INFO, "%a: The FVB Header is not valid.\n", __FUNCTION__));
DEBUG ((DEBUG_INFO, "%a: Installing a correct one for this volume.\n",
__FUNCTION__));
// Erase all the NorFlash that is reserved for variable storage
FvbNumLba = (PcdGet32(PcdFlashNvStorageVariableSize) +
PcdGet32(PcdFlashNvStorageFtwWorkingSize) +
PcdGet32(PcdFlashNvStorageFtwSpareSize)) /
Instance->Media.BlockSize;
Status = FvbEraseBlocks (&Instance->FvbProtocol, (EFI_LBA)0, FvbNumLba,
EFI_LBA_LIST_TERMINATOR);
if (EFI_ERROR(Status)) {
return Status;
}
// Install all appropriate headers
Status = InitializeFvAndVariableStoreHeaders (Instance);
if (EFI_ERROR(Status)) {
return Status;
}
}
//
// Declare the Non-Volatile storage as EFI_MEMORY_RUNTIME
//
RuntimeMmioRegionSize = Instance->Size;
Status = gDS->AddMemorySpace (EfiGcdMemoryTypeMemoryMappedIo,
Instance->RegionBaseAddress, RuntimeMmioRegionSize,
EFI_MEMORY_UC | EFI_MEMORY_RUNTIME);
ASSERT_EFI_ERROR (Status);
Status = gDS->AddMemorySpace (EfiGcdMemoryTypeMemoryMappedIo,
Instance->DeviceBaseAddress, SIZE_4KB,
EFI_MEMORY_UC | EFI_MEMORY_RUNTIME);
ASSERT_EFI_ERROR (Status);
Status = gDS->SetMemorySpaceAttributes (Instance->RegionBaseAddress,
RuntimeMmioRegionSize, EFI_MEMORY_UC | EFI_MEMORY_RUNTIME);
ASSERT_EFI_ERROR (Status);
Status = gDS->SetMemorySpaceAttributes (Instance->DeviceBaseAddress,
SIZE_4KB, EFI_MEMORY_UC | EFI_MEMORY_RUNTIME);
ASSERT_EFI_ERROR (Status);
//
// Register for the virtual address change event
//
Status = gBS->CreateEventEx (
EVT_NOTIFY_SIGNAL,
TPL_NOTIFY,
FvbVirtualNotifyEvent,
NULL,
&gEfiEventVirtualAddressChangeGuid,
&mFvbVirtualAddrChangeEvent
);
ASSERT_EFI_ERROR (Status);
return Status;
}
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