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/** @file
Provides definitions and functionality for manipulating IMAGE_PROPERTIES_RECORD.
Copyright (c) 2016 - 2018, Intel Corporation. All rights reserved.<BR>
Copyright (c) Microsoft Corporation.
SPDX-License-Identifier: BSD-2-Clause-Patent
**/
#include <PiDxe.h>
#include <Library/BaseLib.h>
#include <Library/BaseMemoryLib.h>
#include <Library/DebugLib.h>
#include <Library/ImagePropertiesRecordLib.h>
#define PREVIOUS_MEMORY_DESCRIPTOR(MemoryDescriptor, Size) \
((EFI_MEMORY_DESCRIPTOR *)((UINT8 *)(MemoryDescriptor) - (Size)))
#define NEXT_MEMORY_DESCRIPTOR(MemoryDescriptor, Size) \
((EFI_MEMORY_DESCRIPTOR *)((UINT8 *)(MemoryDescriptor) + (Size)))
/**
Converts a number of EFI_PAGEs to a size in bytes.
NOTE: Do not use EFI_PAGES_TO_SIZE because it handles UINTN only.
@param Pages The number of EFI_PAGES.
@return The number of bytes associated with the number of EFI_PAGEs specified
by Pages.
**/
STATIC
UINT64
EfiPagesToSize (
IN UINT64 Pages
)
{
return LShiftU64 (Pages, EFI_PAGE_SHIFT);
}
/**
Converts a size, in bytes, to a number of EFI_PAGESs.
NOTE: Do not use EFI_SIZE_TO_PAGES because it handles UINTN only.
@param Size A size in bytes.
@return The number of EFI_PAGESs associated with the number of bytes specified
by Size.
**/
STATIC
UINT64
EfiSizeToPages (
IN UINT64 Size
)
{
return RShiftU64 (Size, EFI_PAGE_SHIFT) + ((((UINTN)Size) & EFI_PAGE_MASK) ? 1 : 0);
}
/**
Sort memory map entries based upon PhysicalStart, from low to high.
@param MemoryMap A pointer to the buffer in which firmware places
the current memory map.
@param MemoryMapSize Size, in bytes, of the MemoryMap buffer.
@param DescriptorSize Size, in bytes, of an individual EFI_MEMORY_DESCRIPTOR.
**/
STATIC
VOID
SortMemoryMap (
IN OUT EFI_MEMORY_DESCRIPTOR *MemoryMap,
IN UINTN MemoryMapSize,
IN UINTN DescriptorSize
)
{
EFI_MEMORY_DESCRIPTOR *MemoryMapEntry;
EFI_MEMORY_DESCRIPTOR *NextMemoryMapEntry;
EFI_MEMORY_DESCRIPTOR *MemoryMapEnd;
EFI_MEMORY_DESCRIPTOR TempMemoryMap;
MemoryMapEntry = MemoryMap;
NextMemoryMapEntry = NEXT_MEMORY_DESCRIPTOR (MemoryMapEntry, DescriptorSize);
MemoryMapEnd = (EFI_MEMORY_DESCRIPTOR *)((UINT8 *)MemoryMap + MemoryMapSize);
while (MemoryMapEntry < MemoryMapEnd) {
while (NextMemoryMapEntry < MemoryMapEnd) {
if (MemoryMapEntry->PhysicalStart > NextMemoryMapEntry->PhysicalStart) {
CopyMem (&TempMemoryMap, MemoryMapEntry, sizeof (EFI_MEMORY_DESCRIPTOR));
CopyMem (MemoryMapEntry, NextMemoryMapEntry, sizeof (EFI_MEMORY_DESCRIPTOR));
CopyMem (NextMemoryMapEntry, &TempMemoryMap, sizeof (EFI_MEMORY_DESCRIPTOR));
}
NextMemoryMapEntry = NEXT_MEMORY_DESCRIPTOR (NextMemoryMapEntry, DescriptorSize);
}
MemoryMapEntry = NEXT_MEMORY_DESCRIPTOR (MemoryMapEntry, DescriptorSize);
NextMemoryMapEntry = NEXT_MEMORY_DESCRIPTOR (MemoryMapEntry, DescriptorSize);
}
return;
}
/**
Return the first image record, whose [ImageBase, ImageSize] covered by [Buffer, Length].
@param Buffer Start Address
@param Length Address length
@param ImageRecordList Image record list
@return first image record covered by [buffer, length]
**/
STATIC
IMAGE_PROPERTIES_RECORD *
GetImageRecordByAddress (
IN EFI_PHYSICAL_ADDRESS Buffer,
IN UINT64 Length,
IN LIST_ENTRY *ImageRecordList
)
{
IMAGE_PROPERTIES_RECORD *ImageRecord;
LIST_ENTRY *ImageRecordLink;
for (ImageRecordLink = ImageRecordList->ForwardLink;
ImageRecordLink != ImageRecordList;
ImageRecordLink = ImageRecordLink->ForwardLink)
{
ImageRecord = CR (
ImageRecordLink,
IMAGE_PROPERTIES_RECORD,
Link,
IMAGE_PROPERTIES_RECORD_SIGNATURE
);
if ((Buffer <= ImageRecord->ImageBase) &&
(Buffer + Length >= ImageRecord->ImageBase + ImageRecord->ImageSize))
{
return ImageRecord;
}
}
return NULL;
}
/**
Set the memory map to new entries, according to one old entry,
based upon PE code section and data section in image record
@param ImageRecord An image record whose [ImageBase, ImageSize] covered
by old memory map entry.
@param NewRecord A pointer to several new memory map entries.
The caller gurantee the buffer size be 1 +
(SplitRecordCount * DescriptorSize) calculated
below.
@param OldRecord A pointer to one old memory map entry.
@param DescriptorSize Size, in bytes, of an individual EFI_MEMORY_DESCRIPTOR.
**/
STATIC
UINTN
SetNewRecord (
IN IMAGE_PROPERTIES_RECORD *ImageRecord,
IN OUT EFI_MEMORY_DESCRIPTOR *NewRecord,
IN EFI_MEMORY_DESCRIPTOR *OldRecord,
IN UINTN DescriptorSize
)
{
EFI_MEMORY_DESCRIPTOR TempRecord;
IMAGE_PROPERTIES_RECORD_CODE_SECTION *ImageRecordCodeSection;
LIST_ENTRY *ImageRecordCodeSectionLink;
LIST_ENTRY *ImageRecordCodeSectionEndLink;
LIST_ENTRY *ImageRecordCodeSectionList;
UINTN NewRecordCount;
UINT64 PhysicalEnd;
UINT64 ImageEnd;
CopyMem (&TempRecord, OldRecord, sizeof (EFI_MEMORY_DESCRIPTOR));
PhysicalEnd = TempRecord.PhysicalStart + EfiPagesToSize (TempRecord.NumberOfPages);
NewRecordCount = 0;
ImageRecordCodeSectionList = &ImageRecord->CodeSegmentList;
ImageRecordCodeSectionLink = ImageRecordCodeSectionList->ForwardLink;
ImageRecordCodeSectionEndLink = ImageRecordCodeSectionList;
while (ImageRecordCodeSectionLink != ImageRecordCodeSectionEndLink) {
ImageRecordCodeSection = CR (
ImageRecordCodeSectionLink,
IMAGE_PROPERTIES_RECORD_CODE_SECTION,
Link,
IMAGE_PROPERTIES_RECORD_CODE_SECTION_SIGNATURE
);
ImageRecordCodeSectionLink = ImageRecordCodeSectionLink->ForwardLink;
if (TempRecord.PhysicalStart <= ImageRecordCodeSection->CodeSegmentBase) {
//
// DATA
//
NewRecord->Type = TempRecord.Type;
NewRecord->PhysicalStart = TempRecord.PhysicalStart;
NewRecord->VirtualStart = 0;
NewRecord->NumberOfPages = EfiSizeToPages (ImageRecordCodeSection->CodeSegmentBase - NewRecord->PhysicalStart);
NewRecord->Attribute = TempRecord.Attribute | EFI_MEMORY_XP;
if (NewRecord->NumberOfPages != 0) {
NewRecord = NEXT_MEMORY_DESCRIPTOR (NewRecord, DescriptorSize);
NewRecordCount++;
}
//
// CODE
//
NewRecord->Type = TempRecord.Type;
NewRecord->PhysicalStart = ImageRecordCodeSection->CodeSegmentBase;
NewRecord->VirtualStart = 0;
NewRecord->NumberOfPages = EfiSizeToPages (ImageRecordCodeSection->CodeSegmentSize);
NewRecord->Attribute = (TempRecord.Attribute & (~EFI_MEMORY_XP)) | EFI_MEMORY_RO;
if (NewRecord->NumberOfPages != 0) {
NewRecord = NEXT_MEMORY_DESCRIPTOR (NewRecord, DescriptorSize);
NewRecordCount++;
}
TempRecord.PhysicalStart = ImageRecordCodeSection->CodeSegmentBase + EfiPagesToSize (EfiSizeToPages (ImageRecordCodeSection->CodeSegmentSize));
TempRecord.NumberOfPages = EfiSizeToPages (PhysicalEnd - TempRecord.PhysicalStart);
if (TempRecord.NumberOfPages == 0) {
break;
}
}
}
ImageEnd = ImageRecord->ImageBase + ImageRecord->ImageSize;
//
// Final DATA
//
if (TempRecord.PhysicalStart < ImageEnd) {
NewRecord->Type = TempRecord.Type;
NewRecord->PhysicalStart = TempRecord.PhysicalStart;
NewRecord->VirtualStart = 0;
NewRecord->NumberOfPages = EfiSizeToPages (ImageEnd - TempRecord.PhysicalStart);
NewRecord->Attribute = TempRecord.Attribute | EFI_MEMORY_XP;
NewRecordCount++;
}
return NewRecordCount;
}
/**
Return the max number of new splitted entries, according to one old entry,
based upon PE code section and data section.
@param OldRecord A pointer to one old memory map entry.
@param ImageRecordList A list of IMAGE_PROPERTIES_RECORD entries used when searching
for an image record contained by the memory range described in
the existing EFI memory map descriptor OldRecord
@retval 0 no entry need to be splitted.
@return the max number of new splitted entries
**/
STATIC
UINTN
GetMaxSplitRecordCount (
IN EFI_MEMORY_DESCRIPTOR *OldRecord,
IN LIST_ENTRY *ImageRecordList
)
{
IMAGE_PROPERTIES_RECORD *ImageRecord;
UINTN SplitRecordCount;
UINT64 PhysicalStart;
UINT64 PhysicalEnd;
SplitRecordCount = 0;
PhysicalStart = OldRecord->PhysicalStart;
PhysicalEnd = OldRecord->PhysicalStart + EfiPagesToSize (OldRecord->NumberOfPages);
do {
ImageRecord = GetImageRecordByAddress (PhysicalStart, PhysicalEnd - PhysicalStart, ImageRecordList);
if (ImageRecord == NULL) {
break;
}
SplitRecordCount += (2 * ImageRecord->CodeSegmentCount + 3);
PhysicalStart = ImageRecord->ImageBase + ImageRecord->ImageSize;
} while ((ImageRecord != NULL) && (PhysicalStart < PhysicalEnd));
if (SplitRecordCount != 0) {
SplitRecordCount--;
}
return SplitRecordCount;
}
/**
Split the memory map to new entries, according to one old entry,
based upon PE code section and data section.
@param OldRecord A pointer to one old memory map entry.
@param NewRecord A pointer to several new memory map entries.
The caller gurantee the buffer size be 1 +
(SplitRecordCount * DescriptorSize) calculated
below.
@param MaxSplitRecordCount The max number of splitted entries
@param DescriptorSize Size, in bytes, of an individual EFI_MEMORY_DESCRIPTOR.
@param ImageRecordList A list of IMAGE_PROPERTIES_RECORD entries used when searching
for an image record contained by the memory range described in
the existing EFI memory map descriptor OldRecord
@retval 0 no entry is splitted.
@return the real number of splitted record.
**/
STATIC
UINTN
SplitRecord (
IN EFI_MEMORY_DESCRIPTOR *OldRecord,
IN OUT EFI_MEMORY_DESCRIPTOR *NewRecord,
IN UINTN MaxSplitRecordCount,
IN UINTN DescriptorSize,
IN LIST_ENTRY *ImageRecordList
)
{
EFI_MEMORY_DESCRIPTOR TempRecord;
IMAGE_PROPERTIES_RECORD *ImageRecord;
IMAGE_PROPERTIES_RECORD *NewImageRecord;
UINT64 PhysicalStart;
UINT64 PhysicalEnd;
UINTN NewRecordCount;
UINTN TotalNewRecordCount;
BOOLEAN IsLastRecordData;
if (MaxSplitRecordCount == 0) {
CopyMem (NewRecord, OldRecord, DescriptorSize);
return 0;
}
TotalNewRecordCount = 0;
//
// Override previous record
//
CopyMem (&TempRecord, OldRecord, sizeof (EFI_MEMORY_DESCRIPTOR));
PhysicalStart = TempRecord.PhysicalStart;
PhysicalEnd = TempRecord.PhysicalStart + EfiPagesToSize (TempRecord.NumberOfPages);
ImageRecord = NULL;
do {
NewImageRecord = GetImageRecordByAddress (PhysicalStart, PhysicalEnd - PhysicalStart, ImageRecordList);
if (NewImageRecord == NULL) {
//
// No more image covered by this range, stop
//
if ((PhysicalEnd > PhysicalStart) && (ImageRecord != NULL)) {
//
// If this is still address in this record, need record.
//
NewRecord = PREVIOUS_MEMORY_DESCRIPTOR (NewRecord, DescriptorSize);
IsLastRecordData = FALSE;
if ((NewRecord->Attribute & EFI_MEMORY_XP) != 0) {
IsLastRecordData = TRUE;
}
if (IsLastRecordData) {
//
// Last record is DATA, just merge it.
//
NewRecord->NumberOfPages = EfiSizeToPages (PhysicalEnd - NewRecord->PhysicalStart);
} else {
//
// Last record is CODE, create a new DATA entry.
//
NewRecord = NEXT_MEMORY_DESCRIPTOR (NewRecord, DescriptorSize);
NewRecord->Type = TempRecord.Type;
NewRecord->PhysicalStart = TempRecord.PhysicalStart;
NewRecord->VirtualStart = 0;
NewRecord->NumberOfPages = TempRecord.NumberOfPages;
NewRecord->Attribute = TempRecord.Attribute | EFI_MEMORY_XP;
TotalNewRecordCount++;
}
}
break;
}
ImageRecord = NewImageRecord;
//
// Set new record
//
NewRecordCount = SetNewRecord (ImageRecord, NewRecord, &TempRecord, DescriptorSize);
TotalNewRecordCount += NewRecordCount;
NewRecord = (EFI_MEMORY_DESCRIPTOR *)((UINT8 *)NewRecord + NewRecordCount * DescriptorSize);
//
// Update PhysicalStart, in order to exclude the image buffer already splitted.
//
PhysicalStart = ImageRecord->ImageBase + ImageRecord->ImageSize;
TempRecord.PhysicalStart = PhysicalStart;
TempRecord.NumberOfPages = EfiSizeToPages (PhysicalEnd - PhysicalStart);
} while ((ImageRecord != NULL) && (PhysicalStart < PhysicalEnd));
//
// The logic in function SplitTable() ensures that TotalNewRecordCount will not be zero if the
// code reaches here.
//
ASSERT (TotalNewRecordCount != 0);
return TotalNewRecordCount - 1;
}
/**
Split the original memory map, and add more entries to describe PE code section and data section.
This function will set EfiRuntimeServicesData to be EFI_MEMORY_XP.
This function will merge entries with same attributes finally.
NOTE: It assumes PE code/data section are page aligned.
NOTE: It assumes enough entry is prepared for new memory map.
Split table:
+---------------+
| Record X |
+---------------+
| Record RtCode |
+---------------+
| Record Y |
+---------------+
==>
+---------------+
| Record X |
+---------------+ ----
| Record RtData | |
+---------------+ |
| Record RtCode | |-> PE/COFF1
+---------------+ |
| Record RtData | |
+---------------+ ----
| Record RtData | |
+---------------+ |
| Record RtCode | |-> PE/COFF2
+---------------+ |
| Record RtData | |
+---------------+ ----
| Record Y |
+---------------+
@param MemoryMapSize A pointer to the size, in bytes, of the
MemoryMap buffer. On input, this is the size of
old MemoryMap before split. The actual buffer
size of MemoryMap is MemoryMapSize +
(AdditionalRecordCount * DescriptorSize) calculated
below. On output, it is the size of new MemoryMap
after split.
@param MemoryMap A pointer to the buffer in which firmware places
the current memory map.
@param DescriptorSize Size, in bytes, of an individual EFI_MEMORY_DESCRIPTOR.
@param ImageRecordList A list of IMAGE_PROPERTIES_RECORD entries used when searching
for an image record contained by the memory range described in
EFI memory map descriptors.
@param NumberOfAdditionalDescriptors The number of unused descriptors at the end of the input MemoryMap.
**/
VOID
EFIAPI
SplitTable (
IN OUT UINTN *MemoryMapSize,
IN OUT EFI_MEMORY_DESCRIPTOR *MemoryMap,
IN UINTN DescriptorSize,
IN LIST_ENTRY *ImageRecordList,
IN UINTN NumberOfAdditionalDescriptors
)
{
INTN IndexOld;
INTN IndexNew;
UINTN MaxSplitRecordCount;
UINTN RealSplitRecordCount;
UINTN TotalSplitRecordCount;
TotalSplitRecordCount = 0;
//
// Let old record point to end of valid MemoryMap buffer.
//
IndexOld = ((*MemoryMapSize) / DescriptorSize) - 1;
//
// Let new record point to end of full MemoryMap buffer.
//
IndexNew = ((*MemoryMapSize) / DescriptorSize) - 1 + NumberOfAdditionalDescriptors;
for ( ; IndexOld >= 0; IndexOld--) {
MaxSplitRecordCount = GetMaxSplitRecordCount ((EFI_MEMORY_DESCRIPTOR *)((UINT8 *)MemoryMap + IndexOld * DescriptorSize), ImageRecordList);
//
// Split this MemoryMap record
//
IndexNew -= MaxSplitRecordCount;
RealSplitRecordCount = SplitRecord (
(EFI_MEMORY_DESCRIPTOR *)((UINT8 *)MemoryMap + IndexOld * DescriptorSize),
(EFI_MEMORY_DESCRIPTOR *)((UINT8 *)MemoryMap + IndexNew * DescriptorSize),
MaxSplitRecordCount,
DescriptorSize,
ImageRecordList
);
//
// Adjust IndexNew according to real split.
//
CopyMem (
((UINT8 *)MemoryMap + (IndexNew + MaxSplitRecordCount - RealSplitRecordCount) * DescriptorSize),
((UINT8 *)MemoryMap + IndexNew * DescriptorSize),
RealSplitRecordCount * DescriptorSize
);
IndexNew = IndexNew + MaxSplitRecordCount - RealSplitRecordCount;
TotalSplitRecordCount += RealSplitRecordCount;
IndexNew--;
}
//
// Move all records to the beginning.
//
CopyMem (
MemoryMap,
(UINT8 *)MemoryMap + (NumberOfAdditionalDescriptors - TotalSplitRecordCount) * DescriptorSize,
(*MemoryMapSize) + TotalSplitRecordCount * DescriptorSize
);
*MemoryMapSize = (*MemoryMapSize) + DescriptorSize * TotalSplitRecordCount;
//
// Sort from low to high (Just in case)
//
SortMemoryMap (MemoryMap, *MemoryMapSize, DescriptorSize);
return;
}
/**
Swap two code sections in image record.
@param FirstImageRecordCodeSection first code section in image record
@param SecondImageRecordCodeSection second code section in image record
**/
VOID
EFIAPI
SwapImageRecordCodeSection (
IN IMAGE_PROPERTIES_RECORD_CODE_SECTION *FirstImageRecordCodeSection,
IN IMAGE_PROPERTIES_RECORD_CODE_SECTION *SecondImageRecordCodeSection
)
{
IMAGE_PROPERTIES_RECORD_CODE_SECTION TempImageRecordCodeSection;
TempImageRecordCodeSection.CodeSegmentBase = FirstImageRecordCodeSection->CodeSegmentBase;
TempImageRecordCodeSection.CodeSegmentSize = FirstImageRecordCodeSection->CodeSegmentSize;
FirstImageRecordCodeSection->CodeSegmentBase = SecondImageRecordCodeSection->CodeSegmentBase;
FirstImageRecordCodeSection->CodeSegmentSize = SecondImageRecordCodeSection->CodeSegmentSize;
SecondImageRecordCodeSection->CodeSegmentBase = TempImageRecordCodeSection.CodeSegmentBase;
SecondImageRecordCodeSection->CodeSegmentSize = TempImageRecordCodeSection.CodeSegmentSize;
}
/**
Sort code section in image record, based upon CodeSegmentBase from low to high.
@param ImageRecord image record to be sorted
**/
VOID
EFIAPI
SortImageRecordCodeSection (
IN IMAGE_PROPERTIES_RECORD *ImageRecord
)
{
IMAGE_PROPERTIES_RECORD_CODE_SECTION *ImageRecordCodeSection;
IMAGE_PROPERTIES_RECORD_CODE_SECTION *NextImageRecordCodeSection;
LIST_ENTRY *ImageRecordCodeSectionLink;
LIST_ENTRY *NextImageRecordCodeSectionLink;
LIST_ENTRY *ImageRecordCodeSectionEndLink;
LIST_ENTRY *ImageRecordCodeSectionList;
ImageRecordCodeSectionList = &ImageRecord->CodeSegmentList;
ImageRecordCodeSectionLink = ImageRecordCodeSectionList->ForwardLink;
NextImageRecordCodeSectionLink = ImageRecordCodeSectionLink->ForwardLink;
ImageRecordCodeSectionEndLink = ImageRecordCodeSectionList;
while (ImageRecordCodeSectionLink != ImageRecordCodeSectionEndLink) {
ImageRecordCodeSection = CR (
ImageRecordCodeSectionLink,
IMAGE_PROPERTIES_RECORD_CODE_SECTION,
Link,
IMAGE_PROPERTIES_RECORD_CODE_SECTION_SIGNATURE
);
while (NextImageRecordCodeSectionLink != ImageRecordCodeSectionEndLink) {
NextImageRecordCodeSection = CR (
NextImageRecordCodeSectionLink,
IMAGE_PROPERTIES_RECORD_CODE_SECTION,
Link,
IMAGE_PROPERTIES_RECORD_CODE_SECTION_SIGNATURE
);
if (ImageRecordCodeSection->CodeSegmentBase > NextImageRecordCodeSection->CodeSegmentBase) {
SwapImageRecordCodeSection (ImageRecordCodeSection, NextImageRecordCodeSection);
}
NextImageRecordCodeSectionLink = NextImageRecordCodeSectionLink->ForwardLink;
}
ImageRecordCodeSectionLink = ImageRecordCodeSectionLink->ForwardLink;
NextImageRecordCodeSectionLink = ImageRecordCodeSectionLink->ForwardLink;
}
}
/**
Check if code section in image record is valid.
@param ImageRecord image record to be checked
@retval TRUE image record is valid
@retval FALSE image record is invalid
**/
BOOLEAN
EFIAPI
IsImageRecordCodeSectionValid (
IN IMAGE_PROPERTIES_RECORD *ImageRecord
)
{
IMAGE_PROPERTIES_RECORD_CODE_SECTION *ImageRecordCodeSection;
IMAGE_PROPERTIES_RECORD_CODE_SECTION *LastImageRecordCodeSection;
LIST_ENTRY *ImageRecordCodeSectionLink;
LIST_ENTRY *ImageRecordCodeSectionEndLink;
LIST_ENTRY *ImageRecordCodeSectionList;
DEBUG ((DEBUG_VERBOSE, "ImageCode SegmentCount - 0x%x\n", ImageRecord->CodeSegmentCount));
ImageRecordCodeSectionList = &ImageRecord->CodeSegmentList;
ImageRecordCodeSectionLink = ImageRecordCodeSectionList->ForwardLink;
ImageRecordCodeSectionEndLink = ImageRecordCodeSectionList;
LastImageRecordCodeSection = NULL;
while (ImageRecordCodeSectionLink != ImageRecordCodeSectionEndLink) {
ImageRecordCodeSection = CR (
ImageRecordCodeSectionLink,
IMAGE_PROPERTIES_RECORD_CODE_SECTION,
Link,
IMAGE_PROPERTIES_RECORD_CODE_SECTION_SIGNATURE
);
if (ImageRecordCodeSection->CodeSegmentSize == 0) {
return FALSE;
}
if (ImageRecordCodeSection->CodeSegmentBase < ImageRecord->ImageBase) {
return FALSE;
}
if (ImageRecordCodeSection->CodeSegmentBase >= MAX_ADDRESS - ImageRecordCodeSection->CodeSegmentSize) {
return FALSE;
}
if ((ImageRecordCodeSection->CodeSegmentBase + ImageRecordCodeSection->CodeSegmentSize) > (ImageRecord->ImageBase + ImageRecord->ImageSize)) {
return FALSE;
}
if (LastImageRecordCodeSection != NULL) {
if ((LastImageRecordCodeSection->CodeSegmentBase + LastImageRecordCodeSection->CodeSegmentSize) > ImageRecordCodeSection->CodeSegmentBase) {
return FALSE;
}
}
LastImageRecordCodeSection = ImageRecordCodeSection;
ImageRecordCodeSectionLink = ImageRecordCodeSectionLink->ForwardLink;
}
return TRUE;
}
/**
Swap two image records.
@param FirstImageRecord first image record.
@param SecondImageRecord second image record.
**/
VOID
EFIAPI
SwapImageRecord (
IN IMAGE_PROPERTIES_RECORD *FirstImageRecord,
IN IMAGE_PROPERTIES_RECORD *SecondImageRecord
)
{
IMAGE_PROPERTIES_RECORD TempImageRecord;
TempImageRecord.ImageBase = FirstImageRecord->ImageBase;
TempImageRecord.ImageSize = FirstImageRecord->ImageSize;
TempImageRecord.CodeSegmentCount = FirstImageRecord->CodeSegmentCount;
FirstImageRecord->ImageBase = SecondImageRecord->ImageBase;
FirstImageRecord->ImageSize = SecondImageRecord->ImageSize;
FirstImageRecord->CodeSegmentCount = SecondImageRecord->CodeSegmentCount;
SecondImageRecord->ImageBase = TempImageRecord.ImageBase;
SecondImageRecord->ImageSize = TempImageRecord.ImageSize;
SecondImageRecord->CodeSegmentCount = TempImageRecord.CodeSegmentCount;
SwapListEntries (&FirstImageRecord->CodeSegmentList, &SecondImageRecord->CodeSegmentList);
}
/**
Sort image record based upon the ImageBase from low to high.
@param ImageRecordList Image record list to be sorted
**/
VOID
EFIAPI
SortImageRecord (
IN LIST_ENTRY *ImageRecordList
)
{
IMAGE_PROPERTIES_RECORD *ImageRecord;
IMAGE_PROPERTIES_RECORD *NextImageRecord;
LIST_ENTRY *ImageRecordLink;
LIST_ENTRY *NextImageRecordLink;
LIST_ENTRY *ImageRecordEndLink;
ImageRecordLink = ImageRecordList->ForwardLink;
NextImageRecordLink = ImageRecordLink->ForwardLink;
ImageRecordEndLink = ImageRecordList;
while (ImageRecordLink != ImageRecordEndLink) {
ImageRecord = CR (
ImageRecordLink,
IMAGE_PROPERTIES_RECORD,
Link,
IMAGE_PROPERTIES_RECORD_SIGNATURE
);
while (NextImageRecordLink != ImageRecordEndLink) {
NextImageRecord = CR (
NextImageRecordLink,
IMAGE_PROPERTIES_RECORD,
Link,
IMAGE_PROPERTIES_RECORD_SIGNATURE
);
if (ImageRecord->ImageBase > NextImageRecord->ImageBase) {
SwapImageRecord (ImageRecord, NextImageRecord);
}
NextImageRecordLink = NextImageRecordLink->ForwardLink;
}
ImageRecordLink = ImageRecordLink->ForwardLink;
NextImageRecordLink = ImageRecordLink->ForwardLink;
}
}
/**
Find image record according to image base and size.
@param ImageBase Base of PE image
@param ImageSize Size of PE image
@param ImageRecordList Image record list to be searched
@return image record
**/
IMAGE_PROPERTIES_RECORD *
EFIAPI
FindImageRecord (
IN EFI_PHYSICAL_ADDRESS ImageBase,
IN UINT64 ImageSize,
IN LIST_ENTRY *ImageRecordList
)
{
IMAGE_PROPERTIES_RECORD *ImageRecord;
LIST_ENTRY *ImageRecordLink;
for (ImageRecordLink = ImageRecordList->ForwardLink;
ImageRecordLink != ImageRecordList;
ImageRecordLink = ImageRecordLink->ForwardLink)
{
ImageRecord = CR (
ImageRecordLink,
IMAGE_PROPERTIES_RECORD,
Link,
IMAGE_PROPERTIES_RECORD_SIGNATURE
);
if ((ImageBase == ImageRecord->ImageBase) &&
(ImageSize == ImageRecord->ImageSize))
{
return ImageRecord;
}
}
return NULL;
}
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