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qemu / edk2 / be38c01da2dd949e0a6f8bceeb88d2e19c8c65f7 / . / MdeModulePkg / Library / ImagePropertiesRecordLib / UnitTest / ImagePropertiesRecordLibUnitTestHost.c
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/** @file
Unit tests the SplitTable() ImagePropertiesRecordLib Logic
Copyright (C) Microsoft Corporation.
SPDX-License-Identifier: BSD-2-Clause-Patent
**/
#include <stdio.h>
#include <string.h>
#include <stdarg.h>
#include <stddef.h>
#include <setjmp.h>
#include <cmocka.h>
#include <Uefi.h>
#include <Library/BaseLib.h>
#include <Library/BaseMemoryLib.h>
#include <Library/DebugLib.h>
#include <Library/MemoryAllocationLib.h>
#include <Library/UnitTestLib.h>
#include <Library/ImagePropertiesRecordLib.h>
#define UNIT_TEST_APP_NAME "Image Properties Record Lib Unit Test"
#define UNIT_TEST_APP_VERSION "1.0"
#define NEXT_MEMORY_DESCRIPTOR(MemoryDescriptor, Size) \
((EFI_MEMORY_DESCRIPTOR *)((UINT8 *)(MemoryDescriptor) + (Size)))
// The starting memory map will contain 6 entries
#define NUMBER_OF_MEMORY_MAP_DESCRIPTORS 6
// Each memory map descriptor will be the sizeof(EFI_MEMORY_DESCRIPTOR) instead of a nonstandard size
// to catch pointer math issues
#define DESCRIPTOR_SIZE sizeof(EFI_MEMORY_DESCRIPTOR)
// Each memory map descriptor will describe 12 pages
#define BASE_DESCRIPTOR_NUMBER_OF_PAGES 0x0C
// The size, in bytes, of each memory map descriptor range
#define BASE_DESCRIPTOR_ENTRY_SIZE (EFI_PAGES_TO_SIZE(BASE_DESCRIPTOR_NUMBER_OF_PAGES))
// MACRO to get the starting address of a descriptor's described range based on the index of that descriptor
#define BASE_DESCRIPTOR_START_ADDRESS(DescriptorNumber) (DescriptorNumber * BASE_DESCRIPTOR_ENTRY_SIZE)
// Virtual start must be zero
#define BASE_DESCRIPTOR_VIRTUAL_START 0x0
// Size of the default memory map
#define BASE_MEMORY_MAP_SIZE (NUMBER_OF_MEMORY_MAP_DESCRIPTORS * DESCRIPTOR_SIZE)
// Number of images in each test case
#define NUMBER_OF_IMAGES_TO_SPLIT 3
// Maximum number of descriptors required for each image (None->Data->Code->Data->Code->Data->None)
#define MAX_DESCRIPTORS_PER_IMAGE 7
// Number of unused additional descriptors in the starting memory map buffer which is used by the
// SplitTable() logic
#define NUMBER_OF_ADDITIONAL_DESCRIPTORS (NUMBER_OF_IMAGES_TO_SPLIT * MAX_DESCRIPTORS_PER_IMAGE)
// Size of the memory map with enough space for the starting descriptors and the split descriptors
#define SPLIT_MEMORY_MAP_SIZE (BASE_MEMORY_MAP_SIZE + (NUMBER_OF_ADDITIONAL_DESCRIPTORS * DESCRIPTOR_SIZE))
typedef enum {
SectionTypeCode,
SectionTypeData,
SectionTypeNotFound
} SECTION_TYPE;
typedef struct {
EFI_MEMORY_DESCRIPTOR *MemoryMap;
LIST_ENTRY ImageList;
} IMAGE_PROPERTIES_RECORD_HOST_TEST_CONTEXT;
EFI_MEMORY_DESCRIPTOR BaseMemoryMap[] = {
{
EfiConventionalMemory, // Type
BASE_DESCRIPTOR_START_ADDRESS (0), // PhysicalStart
BASE_DESCRIPTOR_VIRTUAL_START, // VirtualStart
BASE_DESCRIPTOR_NUMBER_OF_PAGES, // Number of Pages
0 // Attribute
},
{
EfiConventionalMemory, // Type
BASE_DESCRIPTOR_START_ADDRESS (1), // PhysicalStart
BASE_DESCRIPTOR_VIRTUAL_START, // VirtualStart
BASE_DESCRIPTOR_NUMBER_OF_PAGES, // Number of Pages
0 // Attribute
},
{
EfiConventionalMemory, // Type
BASE_DESCRIPTOR_START_ADDRESS (2), // PhysicalStart
BASE_DESCRIPTOR_VIRTUAL_START, // VirtualStart
BASE_DESCRIPTOR_NUMBER_OF_PAGES, // Number of Pages
0 // Attribute
},
{
EfiConventionalMemory, // Type
BASE_DESCRIPTOR_START_ADDRESS (3), // PhysicalStart
BASE_DESCRIPTOR_VIRTUAL_START, // VirtualStart
BASE_DESCRIPTOR_NUMBER_OF_PAGES, // Number of Pages
0 // Attribute
},
{
EfiConventionalMemory, // Type
BASE_DESCRIPTOR_START_ADDRESS (4), // PhysicalStart
BASE_DESCRIPTOR_VIRTUAL_START, // VirtualStart
BASE_DESCRIPTOR_NUMBER_OF_PAGES, // Number of Pages
0 // Attribute
},
{
EfiConventionalMemory, // Type
BASE_DESCRIPTOR_START_ADDRESS (5), // PhysicalStart
BASE_DESCRIPTOR_VIRTUAL_START, // VirtualStart
BASE_DESCRIPTOR_NUMBER_OF_PAGES, // Number of Pages
0 // Attribute
}
};
/**
Returns a bitmap where one bit is set for each section in the image list. For example, if
there are 3 images and each image 3 sections the returned bitmap will be 111111111.
@param[in] ImageRecordList A list of IMAGE_PROPERTIES_RECORD entries
@retval A bitmap such that the most significant bit is the number of sections
in all images and every bit between 0 -> MSB is set
**/
STATIC
UINT64
GetImageSectionBitmap (
IN LIST_ENTRY *ImageRecordList
)
{
IMAGE_PROPERTIES_RECORD *ImageRecord;
IMAGE_PROPERTIES_RECORD_CODE_SECTION *ImageRecordCodeSection;
LIST_ENTRY *ImageRecordLink;
LIST_ENTRY *ImageRecordCodeSectionLink;
EFI_PHYSICAL_ADDRESS SectionBase;
UINT64 ReturnBitmap;
UINT64 Shift;
if (ImageRecordList == NULL) {
return 0;
}
ReturnBitmap = 0;
Shift = 0;
// Walk through each image record
for (ImageRecordLink = ImageRecordList->ForwardLink;
ImageRecordLink != ImageRecordList;
ImageRecordLink = ImageRecordLink->ForwardLink)
{
ImageRecord = CR (
ImageRecordLink,
IMAGE_PROPERTIES_RECORD,
Link,
IMAGE_PROPERTIES_RECORD_SIGNATURE
);
SectionBase = ImageRecord->ImageBase;
// Walk through each code entry
for (ImageRecordCodeSectionLink = ImageRecord->CodeSegmentList.ForwardLink;
ImageRecordCodeSectionLink != &ImageRecord->CodeSegmentList;
ImageRecordCodeSectionLink = ImageRecordCodeSectionLink->ForwardLink)
{
ImageRecordCodeSection = CR (
ImageRecordCodeSectionLink,
IMAGE_PROPERTIES_RECORD_CODE_SECTION,
Link,
IMAGE_PROPERTIES_RECORD_CODE_SECTION_SIGNATURE
);
// Check for data region before the code section base
if (SectionBase < ImageRecordCodeSection->CodeSegmentBase) {
ReturnBitmap |= LShiftU64 (1, Shift++);
}
// Code section
ReturnBitmap |= LShiftU64 (1, Shift++);
SectionBase = ImageRecordCodeSection->CodeSegmentBase + ImageRecordCodeSection->CodeSegmentSize;
}
// Check for data region after the previous code section
if (SectionBase < (ImageRecord->ImageBase + ImageRecord->ImageSize)) {
ReturnBitmap |= LShiftU64 (1, Shift++);
}
}
return ReturnBitmap;
}
/**
Searches the input image list for a section which exactly matches the memory range Buffer -> Buffer + Length.
@param[in] Buffer Start Address to check
@param[in] Length Length to check
@param[out] Type The type of the section which corresponds with the memory
range Buffer -> Buffer + Length (Code or Data) or SectionTypeNotFound
if no image section matches the memory range
@param[in] ImageRecordList A list of IMAGE_PROPERTIES_RECORD entries to check against
the memory range Buffer -> Buffer + Length
@retval A bitmap with a single bit set (1 << Shift) where Shift corresponds with the number of sections inspected
in the image list before arriving at the section matching the memory range Buffer -> Buffer + Length
**/
STATIC
UINT64
MatchDescriptorToImageSection (
IN EFI_PHYSICAL_ADDRESS Buffer,
IN UINT64 Length,
OUT SECTION_TYPE *Type,
IN LIST_ENTRY *ImageRecordList
)
{
IMAGE_PROPERTIES_RECORD *ImageRecord;
IMAGE_PROPERTIES_RECORD_CODE_SECTION *ImageRecordCodeSection;
LIST_ENTRY *ImageRecordLink;
LIST_ENTRY *ImageRecordCodeSectionLink;
EFI_PHYSICAL_ADDRESS SectionBase;
UINT8 Shift;
Shift = 0;
if (ImageRecordList == NULL) {
return 1;
}
// Walk through each image record
for (ImageRecordLink = ImageRecordList->ForwardLink;
ImageRecordLink != ImageRecordList;
ImageRecordLink = ImageRecordLink->ForwardLink)
{
ImageRecord = CR (
ImageRecordLink,
IMAGE_PROPERTIES_RECORD,
Link,
IMAGE_PROPERTIES_RECORD_SIGNATURE
);
SectionBase = ImageRecord->ImageBase;
// Walk through each code entry
for (ImageRecordCodeSectionLink = ImageRecord->CodeSegmentList.ForwardLink;
ImageRecordCodeSectionLink != &ImageRecord->CodeSegmentList;
ImageRecordCodeSectionLink = ImageRecordCodeSectionLink->ForwardLink)
{
ImageRecordCodeSection = CR (
ImageRecordCodeSectionLink,
IMAGE_PROPERTIES_RECORD_CODE_SECTION,
Link,
IMAGE_PROPERTIES_RECORD_CODE_SECTION_SIGNATURE
);
if (SectionBase < ImageRecordCodeSection->CodeSegmentBase) {
// Check the data region before the code section base
if ((Buffer == SectionBase) &&
(Length == ImageRecordCodeSection->CodeSegmentBase - SectionBase))
{
*Type = SectionTypeData;
return LShiftU64 (1, Shift);
}
Shift++;
}
// Check the code region
if ((Buffer == ImageRecordCodeSection->CodeSegmentBase) &&
(Length == ImageRecordCodeSection->CodeSegmentSize))
{
*Type = SectionTypeCode;
return LShiftU64 (1, Shift);
}
Shift++;
SectionBase = ImageRecordCodeSection->CodeSegmentBase + ImageRecordCodeSection->CodeSegmentSize;
}
// Check the data region after the code section
if (SectionBase < (ImageRecord->ImageBase + ImageRecord->ImageSize)) {
if ((Buffer == SectionBase) &&
(Length == (ImageRecord->ImageBase + ImageRecord->ImageSize) - SectionBase))
{
*Type = SectionTypeData;
return LShiftU64 (1, Shift);
}
Shift++;
}
}
// No image sections match
*Type = SectionTypeNotFound;
return 0;
}
/**
Walks through the input memory map and checks that every memory descriptor with an attribute matches
an image in ImageRecordList.
@param[in] MemoryMapSize The size, in bytes, of the memory map
@param[in] MemoryMap A pointer to the buffer containing the memory map
@param[in] ImageRecordList A list of IMAGE_PROPERTIES_RECORD entries
@retval TRUE if all memory descriptors with attributes match an image section and have the correct attributes
**/
STATIC
BOOLEAN
IsMemoryMapValid (
IN UINTN MemoryMapSize,
IN EFI_MEMORY_DESCRIPTOR *MemoryMap,
IN LIST_ENTRY *ImageRecordList
)
{
UINT64 ImageSectionsBitmap;
UINT64 ReturnSectionBitmask;
UINT64 NumberOfDescriptors;
UINT8 Index;
SECTION_TYPE Type;
Index = 0;
NumberOfDescriptors = MemoryMapSize / DESCRIPTOR_SIZE;
UT_ASSERT_EQUAL (MemoryMapSize % DESCRIPTOR_SIZE, 0);
UT_ASSERT_NOT_NULL (MemoryMap);
UT_ASSERT_NOT_NULL (ImageRecordList);
// The returned bitmap will have one bit is set for each section in the image list.
// If there are 3 images and 3 sections each image, the resulting bitmap will
// be 0000000000000000000000000000000000000000000000000000000111111111. Flipping that bitmap
// results in 1111111111111111111111111111111111111111111111111111111000000000. The return value
// of each iteration through MatchDescriptorToImageSection() is one set bit corrosponding to the number
// of sections before finding the section which matched the descriptor memory range which we
// OR with ImageSectionsBitmap. If, at the end of the loop, every bit in ImageSectionsBitmap is set,
// we must have matched every image in ImageRecordList with a descriptor in the memory map which has
// nonzero attributes.
ImageSectionsBitmap = ~GetImageSectionBitmap (ImageRecordList);
// For each descriptor in the memory map
for ( ; Index < NumberOfDescriptors; Index++) {
if (MemoryMap[Index].Attribute != 0) {
ReturnSectionBitmask = MatchDescriptorToImageSection (
MemoryMap[Index].PhysicalStart,
EFI_PAGES_TO_SIZE (MemoryMap[Index].NumberOfPages),
&Type,
ImageRecordList
);
// Make sure the attributes of the descriptor match the returned section type.
// DATA sections should have execution protection and CODE sections should have
// write protection.
if ((Type == SectionTypeNotFound) ||
((Type == SectionTypeData) && (MemoryMap[Index].Attribute == EFI_MEMORY_RP)) ||
((Type == SectionTypeCode) && (MemoryMap[Index].Attribute == EFI_MEMORY_XP)))
{
return FALSE;
}
// If the bit associated with image found has already been set, then there must be a duplicate
// in the memory map meaning it is invalid.
UT_ASSERT_EQUAL (ImageSectionsBitmap & ReturnSectionBitmask, 0);
ImageSectionsBitmap |= ReturnSectionBitmask;
}
}
// If every bit in ImageSectionsBitmap is set, the return value will be TRUE
return !(~ImageSectionsBitmap);
}
/**
Separate the image sections in the memory map and run a check to ensure the output is valid.
@param[in] Context Context containing the memory map and image record pointers
@retval TRUE if the memory map is split correctly
**/
STATIC
BOOLEAN
SeparateAndCheck (
IN IMAGE_PROPERTIES_RECORD_HOST_TEST_CONTEXT *Context
)
{
UINTN MemoryMapSize;
MemoryMapSize = BASE_MEMORY_MAP_SIZE;
// Separate the memory map so each image section has its own descriptor
SplitTable (
&MemoryMapSize,
Context->MemoryMap,
DESCRIPTOR_SIZE,
&Context->ImageList,
NUMBER_OF_ADDITIONAL_DESCRIPTORS
);
// Ensure the updated memory map is valid
return IsMemoryMapValid (MemoryMapSize, Context->MemoryMap, &Context->ImageList);
}
/**
Test the case where the image range contains multiple code sections and does not perfectly align with
the existing memory descriptor.
@param[in] Context Context containing the memory map and image record pointers
@retval UNIT_TEST_PASSED The Unit test has completed and the test
case was successful.
@retval UNIT_TEST_ERROR_TEST_FAILED A test case assertion has failed.
**/
UNIT_TEST_STATUS
EFIAPI
MaxOutAdditionalDescriptors (
IN UNIT_TEST_CONTEXT Context
)
{
IMAGE_PROPERTIES_RECORD *Image1;
IMAGE_PROPERTIES_RECORD *Image2;
IMAGE_PROPERTIES_RECORD *Image3;
IMAGE_PROPERTIES_RECORD_CODE_SECTION *CodeSectionInImage1;
IMAGE_PROPERTIES_RECORD_CODE_SECTION *CodeSectionInImage2;
IMAGE_PROPERTIES_RECORD_CODE_SECTION *CodeSectionInImage3;
IMAGE_PROPERTIES_RECORD_CODE_SECTION *AddCodeSectionInImage1;
IMAGE_PROPERTIES_RECORD_CODE_SECTION *AddCodeSectionInImage2;
IMAGE_PROPERTIES_RECORD_CODE_SECTION *AddCodeSectionInImage3;
IMAGE_PROPERTIES_RECORD_HOST_TEST_CONTEXT *TestContext;
TestContext = (IMAGE_PROPERTIES_RECORD_HOST_TEST_CONTEXT *)Context;
Image1 = CR (TestContext->ImageList.ForwardLink, IMAGE_PROPERTIES_RECORD, Link, IMAGE_PROPERTIES_RECORD_SIGNATURE);
Image2 = CR (Image1->Link.ForwardLink, IMAGE_PROPERTIES_RECORD, Link, IMAGE_PROPERTIES_RECORD_SIGNATURE);
Image3 = CR (Image2->Link.ForwardLink, IMAGE_PROPERTIES_RECORD, Link, IMAGE_PROPERTIES_RECORD_SIGNATURE);
CodeSectionInImage1 = CR (Image1->CodeSegmentList.ForwardLink, IMAGE_PROPERTIES_RECORD_CODE_SECTION, Link, IMAGE_PROPERTIES_RECORD_CODE_SECTION_SIGNATURE);
CodeSectionInImage2 = CR (Image2->CodeSegmentList.ForwardLink, IMAGE_PROPERTIES_RECORD_CODE_SECTION, Link, IMAGE_PROPERTIES_RECORD_CODE_SECTION_SIGNATURE);
CodeSectionInImage3 = CR (Image3->CodeSegmentList.ForwardLink, IMAGE_PROPERTIES_RECORD_CODE_SECTION, Link, IMAGE_PROPERTIES_RECORD_CODE_SECTION_SIGNATURE);
///////////////
// Descriptor 1
///////////////
// | | | | | | | |
// | 4K PAGE | DATA | CODE | DATA | CODE | DATA | 4K PAGE * 5 |
// | | | | | | | |
Image1->ImageBase = BASE_DESCRIPTOR_START_ADDRESS (1) + EFI_PAGE_SIZE;
Image1->ImageSize = BASE_DESCRIPTOR_ENTRY_SIZE - EFI_PAGE_SIZE - EFI_PAGE_SIZE;
Image1->CodeSegmentCount = 2;
CodeSectionInImage1->CodeSegmentBase = Image1->ImageBase + EFI_PAGE_SIZE;
CodeSectionInImage1->CodeSegmentSize = EFI_PAGE_SIZE;
TestContext->MemoryMap[1].Type = EfiBootServicesCode;
AddCodeSectionInImage1 = AllocateZeroPool (sizeof (IMAGE_PROPERTIES_RECORD_CODE_SECTION));
AddCodeSectionInImage1->Signature = IMAGE_PROPERTIES_RECORD_CODE_SECTION_SIGNATURE;
AddCodeSectionInImage1->CodeSegmentBase = CodeSectionInImage1->CodeSegmentBase + CodeSectionInImage1->CodeSegmentSize + EFI_PAGE_SIZE;
AddCodeSectionInImage1->CodeSegmentSize = EFI_PAGE_SIZE;
InsertTailList (&Image1->CodeSegmentList, &AddCodeSectionInImage1->Link);
///////////////
// Descriptor 2
///////////////
// | | | | | | | |
// | 4K PAGE | DATA | CODE | DATA | CODE | DATA | 4K PAGE * 5 |
// | | | | | | | |
Image2->ImageBase = BASE_DESCRIPTOR_START_ADDRESS (2) + EFI_PAGE_SIZE;
Image2->ImageSize = BASE_DESCRIPTOR_ENTRY_SIZE - EFI_PAGE_SIZE - EFI_PAGE_SIZE;
Image2->CodeSegmentCount = 2;
CodeSectionInImage2->CodeSegmentBase = Image2->ImageBase + EFI_PAGE_SIZE;
CodeSectionInImage2->CodeSegmentSize = EFI_PAGE_SIZE;
TestContext->MemoryMap[2].Type = EfiLoaderCode;
AddCodeSectionInImage2 = AllocateZeroPool (sizeof (IMAGE_PROPERTIES_RECORD_CODE_SECTION));
AddCodeSectionInImage2->Signature = IMAGE_PROPERTIES_RECORD_CODE_SECTION_SIGNATURE;
AddCodeSectionInImage2->CodeSegmentBase = CodeSectionInImage2->CodeSegmentBase + CodeSectionInImage2->CodeSegmentSize + EFI_PAGE_SIZE;
AddCodeSectionInImage2->CodeSegmentSize = EFI_PAGE_SIZE;
InsertTailList (&Image2->CodeSegmentList, &AddCodeSectionInImage2->Link);
///////////////
// Descriptor 3
///////////////
// | | | | | | | |
// | 4K PAGE | DATA | CODE | DATA | CODE | DATA | 4K PAGE * 5 |
// | | | | | | | |
Image3->ImageBase = BASE_DESCRIPTOR_START_ADDRESS (3) + EFI_PAGE_SIZE;
Image3->ImageSize = BASE_DESCRIPTOR_ENTRY_SIZE - EFI_PAGE_SIZE - EFI_PAGE_SIZE;
Image3->CodeSegmentCount = 2;
CodeSectionInImage3->CodeSegmentBase = Image3->ImageBase + EFI_PAGE_SIZE;
CodeSectionInImage3->CodeSegmentSize = EFI_PAGE_SIZE;
TestContext->MemoryMap[3].Type = EfiRuntimeServicesCode;
AddCodeSectionInImage3 = AllocateZeroPool (sizeof (IMAGE_PROPERTIES_RECORD_CODE_SECTION));
AddCodeSectionInImage3->Signature = IMAGE_PROPERTIES_RECORD_CODE_SECTION_SIGNATURE;
AddCodeSectionInImage3->CodeSegmentBase = CodeSectionInImage3->CodeSegmentBase + CodeSectionInImage3->CodeSegmentSize + EFI_PAGE_SIZE;
AddCodeSectionInImage3->CodeSegmentSize = EFI_PAGE_SIZE;
InsertTailList (&Image3->CodeSegmentList, &AddCodeSectionInImage3->Link);
UT_ASSERT_TRUE (SeparateAndCheck (TestContext));
return UNIT_TEST_PASSED;
}
/**
Test the case where multiple image ranges lie within an existing memory descriptor.
@param[in] Context Context containing the memory map and image record pointers
@retval UNIT_TEST_PASSED The Unit test has completed and the test
case was successful.
@retval UNIT_TEST_ERROR_TEST_FAILED A test case assertion has failed.
**/
UNIT_TEST_STATUS
EFIAPI
MultipleImagesInOneDescriptor (
IN UNIT_TEST_CONTEXT Context
)
{
IMAGE_PROPERTIES_RECORD *Image1;
IMAGE_PROPERTIES_RECORD *Image2;
IMAGE_PROPERTIES_RECORD *Image3;
IMAGE_PROPERTIES_RECORD_CODE_SECTION *CodeSectionInImage1;
IMAGE_PROPERTIES_RECORD_CODE_SECTION *CodeSectionInImage2;
IMAGE_PROPERTIES_RECORD_CODE_SECTION *CodeSectionInImage3;
IMAGE_PROPERTIES_RECORD_HOST_TEST_CONTEXT *TestContext;
TestContext = (IMAGE_PROPERTIES_RECORD_HOST_TEST_CONTEXT *)Context;
Image1 = CR (TestContext->ImageList.ForwardLink, IMAGE_PROPERTIES_RECORD, Link, IMAGE_PROPERTIES_RECORD_SIGNATURE);
Image2 = CR (Image1->Link.ForwardLink, IMAGE_PROPERTIES_RECORD, Link, IMAGE_PROPERTIES_RECORD_SIGNATURE);
Image3 = CR (Image2->Link.ForwardLink, IMAGE_PROPERTIES_RECORD, Link, IMAGE_PROPERTIES_RECORD_SIGNATURE);
CodeSectionInImage1 = CR (Image1->CodeSegmentList.ForwardLink, IMAGE_PROPERTIES_RECORD_CODE_SECTION, Link, IMAGE_PROPERTIES_RECORD_CODE_SECTION_SIGNATURE);
CodeSectionInImage2 = CR (Image2->CodeSegmentList.ForwardLink, IMAGE_PROPERTIES_RECORD_CODE_SECTION, Link, IMAGE_PROPERTIES_RECORD_CODE_SECTION_SIGNATURE);
CodeSectionInImage3 = CR (Image3->CodeSegmentList.ForwardLink, IMAGE_PROPERTIES_RECORD_CODE_SECTION, Link, IMAGE_PROPERTIES_RECORD_CODE_SECTION_SIGNATURE);
///////////////
// Descriptor 1
///////////////
// | | | | | | | | | | | | |
// | 4K PAGE | DATA | CODE | DATA | 4K PAGE | DATA | CODE | DATA | DATA | CODE | DATA | 4K PAGE |
// | | | | | | | | | | | | |
Image1->ImageBase = BASE_DESCRIPTOR_START_ADDRESS (1) + EFI_PAGE_SIZE;
Image1->ImageSize = EFI_PAGES_TO_SIZE (3);
Image1->CodeSegmentCount = 1;
CodeSectionInImage1->CodeSegmentBase = Image1->ImageBase + EFI_PAGE_SIZE;
CodeSectionInImage1->CodeSegmentSize = EFI_PAGE_SIZE;
TestContext->MemoryMap[1].Type = EfiBootServicesCode;
Image2->ImageBase = Image1->ImageBase + Image1->ImageSize + EFI_PAGE_SIZE;
Image2->ImageSize = EFI_PAGES_TO_SIZE (3);
Image2->CodeSegmentCount = 1;
CodeSectionInImage2->CodeSegmentBase = Image2->ImageBase + EFI_PAGE_SIZE;
CodeSectionInImage2->CodeSegmentSize = EFI_PAGE_SIZE;
Image3->ImageBase = Image2->ImageBase + Image2->ImageSize;
Image3->ImageSize = EFI_PAGES_TO_SIZE (3);
Image3->CodeSegmentCount = 1;
CodeSectionInImage3->CodeSegmentBase = Image3->ImageBase + EFI_PAGE_SIZE;
CodeSectionInImage3->CodeSegmentSize = EFI_PAGE_SIZE;
UT_ASSERT_TRUE (SeparateAndCheck (TestContext));
return UNIT_TEST_PASSED;
}
/**
Test the case where all image ranges do not fit perfectly within an existing memory descriptor.
@param[in] Context Context containing the memory map and image record pointers
@retval UNIT_TEST_PASSED The Unit test has completed and the test
case was successful.
@retval UNIT_TEST_ERROR_TEST_FAILED A test case assertion has failed.
**/
UNIT_TEST_STATUS
EFIAPI
ImagesDontFitDescriptors (
IN UNIT_TEST_CONTEXT Context
)
{
IMAGE_PROPERTIES_RECORD *Image1;
IMAGE_PROPERTIES_RECORD *Image2;
IMAGE_PROPERTIES_RECORD *Image3;
IMAGE_PROPERTIES_RECORD_CODE_SECTION *CodeSectionInImage1;
IMAGE_PROPERTIES_RECORD_CODE_SECTION *CodeSectionInImage2;
IMAGE_PROPERTIES_RECORD_CODE_SECTION *CodeSectionInImage3;
IMAGE_PROPERTIES_RECORD_HOST_TEST_CONTEXT *TestContext;
TestContext = (IMAGE_PROPERTIES_RECORD_HOST_TEST_CONTEXT *)Context;
Image1 = CR (TestContext->ImageList.ForwardLink, IMAGE_PROPERTIES_RECORD, Link, IMAGE_PROPERTIES_RECORD_SIGNATURE);
Image2 = CR (Image1->Link.ForwardLink, IMAGE_PROPERTIES_RECORD, Link, IMAGE_PROPERTIES_RECORD_SIGNATURE);
Image3 = CR (Image2->Link.ForwardLink, IMAGE_PROPERTIES_RECORD, Link, IMAGE_PROPERTIES_RECORD_SIGNATURE);
CodeSectionInImage1 = CR (Image1->CodeSegmentList.ForwardLink, IMAGE_PROPERTIES_RECORD_CODE_SECTION, Link, IMAGE_PROPERTIES_RECORD_CODE_SECTION_SIGNATURE);
CodeSectionInImage2 = CR (Image2->CodeSegmentList.ForwardLink, IMAGE_PROPERTIES_RECORD_CODE_SECTION, Link, IMAGE_PROPERTIES_RECORD_CODE_SECTION_SIGNATURE);
CodeSectionInImage3 = CR (Image3->CodeSegmentList.ForwardLink, IMAGE_PROPERTIES_RECORD_CODE_SECTION, Link, IMAGE_PROPERTIES_RECORD_CODE_SECTION_SIGNATURE);
///////////////
// Descriptor 1
///////////////
// | | | | |
// | 4K PAGE | DATA | CODE * 2 | DATA * 8 |
// | | | | |
Image1->ImageBase = BASE_DESCRIPTOR_START_ADDRESS (1) + EFI_PAGE_SIZE;
Image1->ImageSize = BASE_DESCRIPTOR_ENTRY_SIZE - EFI_PAGE_SIZE;
Image1->CodeSegmentCount = 1;
CodeSectionInImage1->CodeSegmentBase = Image1->ImageBase + EFI_PAGE_SIZE;
CodeSectionInImage1->CodeSegmentSize = EFI_PAGES_TO_SIZE (2);
TestContext->MemoryMap[1].Type = EfiBootServicesCode;
///////////////
// Descriptor 3
///////////////
// | | | | |
// | DATA | CODE * 3 | DATA * 7 | 4K PAGE |
// | | | | |
Image2->ImageBase = BASE_DESCRIPTOR_START_ADDRESS (3);
Image2->ImageSize = BASE_DESCRIPTOR_ENTRY_SIZE - EFI_PAGE_SIZE;
Image2->CodeSegmentCount = 1;
CodeSectionInImage2->CodeSegmentBase = Image2->ImageBase + EFI_PAGE_SIZE;
CodeSectionInImage2->CodeSegmentSize = EFI_PAGES_TO_SIZE (3);
TestContext->MemoryMap[3].Type = EfiLoaderCode;
///////////////
// Descriptor 4
///////////////
// | | | | | |
// | 4K PAGE | DATA | CODE * 2 | DATA * 7 | 4K PAGE |
// | | | | | |
Image3->ImageBase = BASE_DESCRIPTOR_START_ADDRESS (4) + EFI_PAGE_SIZE;
Image3->ImageSize = BASE_DESCRIPTOR_ENTRY_SIZE - EFI_PAGE_SIZE - EFI_PAGE_SIZE;
Image3->CodeSegmentCount = 1;
CodeSectionInImage3->CodeSegmentBase = Image3->ImageBase + EFI_PAGE_SIZE;
CodeSectionInImage3->CodeSegmentSize = EFI_PAGES_TO_SIZE (2);
TestContext->MemoryMap[4].Type = EfiRuntimeServicesCode;
UT_ASSERT_TRUE (SeparateAndCheck (TestContext));
return UNIT_TEST_PASSED;
}
/**
Test the case where all image ranges fit perfectly within an existing memory descriptor.
@param[in] Context Context containing the memory map and image record pointers
@retval UNIT_TEST_PASSED The Unit test has completed and the test
case was successful.
@retval UNIT_TEST_ERROR_TEST_FAILED A test case assertion has failed.
**/
UNIT_TEST_STATUS
EFIAPI
ImagesFitDescriptors (
IN UNIT_TEST_CONTEXT Context
)
{
IMAGE_PROPERTIES_RECORD *Image1;
IMAGE_PROPERTIES_RECORD *Image2;
IMAGE_PROPERTIES_RECORD *Image3;
IMAGE_PROPERTIES_RECORD_CODE_SECTION *CodeSectionInImage1;
IMAGE_PROPERTIES_RECORD_CODE_SECTION *CodeSectionInImage2;
IMAGE_PROPERTIES_RECORD_CODE_SECTION *CodeSectionInImage3;
IMAGE_PROPERTIES_RECORD_HOST_TEST_CONTEXT *TestContext;
TestContext = (IMAGE_PROPERTIES_RECORD_HOST_TEST_CONTEXT *)Context;
Image1 = CR (TestContext->ImageList.ForwardLink, IMAGE_PROPERTIES_RECORD, Link, IMAGE_PROPERTIES_RECORD_SIGNATURE);
Image2 = CR (Image1->Link.ForwardLink, IMAGE_PROPERTIES_RECORD, Link, IMAGE_PROPERTIES_RECORD_SIGNATURE);
Image3 = CR (Image2->Link.ForwardLink, IMAGE_PROPERTIES_RECORD, Link, IMAGE_PROPERTIES_RECORD_SIGNATURE);
CodeSectionInImage1 = CR (Image1->CodeSegmentList.ForwardLink, IMAGE_PROPERTIES_RECORD_CODE_SECTION, Link, IMAGE_PROPERTIES_RECORD_CODE_SECTION_SIGNATURE);
CodeSectionInImage2 = CR (Image2->CodeSegmentList.ForwardLink, IMAGE_PROPERTIES_RECORD_CODE_SECTION, Link, IMAGE_PROPERTIES_RECORD_CODE_SECTION_SIGNATURE);
CodeSectionInImage3 = CR (Image3->CodeSegmentList.ForwardLink, IMAGE_PROPERTIES_RECORD_CODE_SECTION, Link, IMAGE_PROPERTIES_RECORD_CODE_SECTION_SIGNATURE);
///////////////
// Descriptor 1
///////////////
// | | | |
// | DATA | CODE * 3 | DATA * 8 |
// | | | |
Image1->ImageBase = BASE_DESCRIPTOR_START_ADDRESS (1);
Image1->ImageSize = BASE_DESCRIPTOR_ENTRY_SIZE;
Image1->CodeSegmentCount = 1;
CodeSectionInImage1->CodeSegmentBase = Image1->ImageBase + EFI_PAGE_SIZE;
CodeSectionInImage1->CodeSegmentSize = EFI_PAGES_TO_SIZE (3);
TestContext->MemoryMap[1].Type = EfiBootServicesCode;
///////////////
// Descriptor 2
///////////////
// | | | |
// | DATA | CODE * 4 | DATA * 7 |
// | | | |
Image2->ImageBase = BASE_DESCRIPTOR_START_ADDRESS (2);
Image2->ImageSize = BASE_DESCRIPTOR_ENTRY_SIZE;
Image2->CodeSegmentCount = 1;
CodeSectionInImage2->CodeSegmentBase = Image2->ImageBase + EFI_PAGE_SIZE;
CodeSectionInImage2->CodeSegmentSize = EFI_PAGES_TO_SIZE (4);
TestContext->MemoryMap[2].Type = EfiLoaderCode;
///////////////
// Descriptor 3
///////////////
// | | | |
// | DATA | CODE * 3 | DATA * 8 |
// | | | |
Image3->ImageBase = BASE_DESCRIPTOR_START_ADDRESS (3);
Image3->ImageSize = BASE_DESCRIPTOR_ENTRY_SIZE;
Image3->CodeSegmentCount = 1;
CodeSectionInImage3->CodeSegmentBase = Image3->ImageBase + EFI_PAGE_SIZE;
CodeSectionInImage3->CodeSegmentSize = EFI_PAGES_TO_SIZE (3);
TestContext->MemoryMap[3].Type = EfiRuntimeServicesCode;
UT_ASSERT_TRUE (SeparateAndCheck (TestContext));
return UNIT_TEST_PASSED;
}
/**
Free all allocated memory.
@param[in] Context Context containing the memory map and image record pointers
**/
VOID
EFIAPI
TestCleanup (
IN UNIT_TEST_CONTEXT Context
)
{
IMAGE_PROPERTIES_RECORD *ImageRecord;
IMAGE_PROPERTIES_RECORD_CODE_SECTION *ImageRecordCodeSection;
LIST_ENTRY *ImageRecordLink;
LIST_ENTRY *CodeSegmentListHead;
IMAGE_PROPERTIES_RECORD_HOST_TEST_CONTEXT *TestContext;
TestContext = (IMAGE_PROPERTIES_RECORD_HOST_TEST_CONTEXT *)Context;
ImageRecordLink = &TestContext->ImageList;
while (!IsListEmpty (ImageRecordLink)) {
ImageRecord = CR (
ImageRecordLink->ForwardLink,
IMAGE_PROPERTIES_RECORD,
Link,
IMAGE_PROPERTIES_RECORD_SIGNATURE
);
CodeSegmentListHead = &ImageRecord->CodeSegmentList;
while (!IsListEmpty (CodeSegmentListHead)) {
ImageRecordCodeSection = CR (
CodeSegmentListHead->ForwardLink,
IMAGE_PROPERTIES_RECORD_CODE_SECTION,
Link,
IMAGE_PROPERTIES_RECORD_CODE_SECTION_SIGNATURE
);
RemoveEntryList (&ImageRecordCodeSection->Link);
FreePool (ImageRecordCodeSection);
}
RemoveEntryList (&ImageRecord->Link);
FreePool (ImageRecord);
}
if (TestContext->MemoryMap != NULL) {
FreePool (TestContext->MemoryMap);
}
}
/**
Create a generic image list with the proper signatures which will be customized for each test
and allocate the default memory map.
@param[out] TestContext Context which will be passed to the test cases
**/
STATIC
VOID
CreateBaseContextEntry (
OUT IMAGE_PROPERTIES_RECORD_HOST_TEST_CONTEXT *TestContext
)
{
IMAGE_PROPERTIES_RECORD *Image1;
IMAGE_PROPERTIES_RECORD *Image2;
IMAGE_PROPERTIES_RECORD *Image3;
IMAGE_PROPERTIES_RECORD_CODE_SECTION *CodeSectionInImage1;
IMAGE_PROPERTIES_RECORD_CODE_SECTION *CodeSectionInImage2;
IMAGE_PROPERTIES_RECORD_CODE_SECTION *CodeSectionInImage3;
InitializeListHead (&TestContext->ImageList);
Image1 = AllocateZeroPool (sizeof (IMAGE_PROPERTIES_RECORD));
CodeSectionInImage1 = AllocateZeroPool (sizeof (IMAGE_PROPERTIES_RECORD_CODE_SECTION));
Image1->Signature = IMAGE_PROPERTIES_RECORD_SIGNATURE;
CodeSectionInImage1->Signature = IMAGE_PROPERTIES_RECORD_CODE_SECTION_SIGNATURE;
InitializeListHead (&Image1->CodeSegmentList);
InsertTailList (&TestContext->ImageList, &Image1->Link);
InsertTailList (&Image1->CodeSegmentList, &CodeSectionInImage1->Link);
Image2 = AllocateZeroPool (sizeof (IMAGE_PROPERTIES_RECORD));
CodeSectionInImage2 = AllocateZeroPool (sizeof (IMAGE_PROPERTIES_RECORD_CODE_SECTION));
Image2->Signature = IMAGE_PROPERTIES_RECORD_SIGNATURE;
CodeSectionInImage2->Signature = IMAGE_PROPERTIES_RECORD_CODE_SECTION_SIGNATURE;
InitializeListHead (&Image2->CodeSegmentList);
InsertTailList (&TestContext->ImageList, &Image2->Link);
InsertTailList (&Image2->CodeSegmentList, &CodeSectionInImage2->Link);
Image3 = AllocateZeroPool (sizeof (IMAGE_PROPERTIES_RECORD));
CodeSectionInImage3 = AllocateZeroPool (sizeof (IMAGE_PROPERTIES_RECORD_CODE_SECTION));
Image3->Signature = IMAGE_PROPERTIES_RECORD_SIGNATURE;
CodeSectionInImage3->Signature = IMAGE_PROPERTIES_RECORD_CODE_SECTION_SIGNATURE;
InitializeListHead (&Image3->CodeSegmentList);
InsertTailList (&TestContext->ImageList, &Image3->Link);
InsertTailList (&Image3->CodeSegmentList, &CodeSectionInImage3->Link);
TestContext->MemoryMap = AllocateZeroPool (SPLIT_MEMORY_MAP_SIZE);
CopyMem (TestContext->MemoryMap, &BaseMemoryMap, BASE_MEMORY_MAP_SIZE);
return;
}
/**
Initialze the unit test framework, suite, and unit tests.
@retval EFI_SUCCESS All test cases were dispatched.
@retval EFI_OUT_OF_RESOURCES There are not enough resources available to
initialize the unit tests.
**/
STATIC
EFI_STATUS
EFIAPI
UnitTestingEntry (
VOID
)
{
EFI_STATUS Status;
UNIT_TEST_FRAMEWORK_HANDLE Framework;
UNIT_TEST_SUITE_HANDLE ImagePropertiesRecordTests;
IMAGE_PROPERTIES_RECORD_HOST_TEST_CONTEXT *Context1;
IMAGE_PROPERTIES_RECORD_HOST_TEST_CONTEXT *Context2;
IMAGE_PROPERTIES_RECORD_HOST_TEST_CONTEXT *Context3;
IMAGE_PROPERTIES_RECORD_HOST_TEST_CONTEXT *Context4;
DEBUG ((DEBUG_INFO, "%a v%a\n", UNIT_TEST_APP_NAME, UNIT_TEST_APP_VERSION));
Framework = NULL;
Context1 = (IMAGE_PROPERTIES_RECORD_HOST_TEST_CONTEXT *)AllocateZeroPool (sizeof (IMAGE_PROPERTIES_RECORD_HOST_TEST_CONTEXT));
Context2 = (IMAGE_PROPERTIES_RECORD_HOST_TEST_CONTEXT *)AllocateZeroPool (sizeof (IMAGE_PROPERTIES_RECORD_HOST_TEST_CONTEXT));
Context3 = (IMAGE_PROPERTIES_RECORD_HOST_TEST_CONTEXT *)AllocateZeroPool (sizeof (IMAGE_PROPERTIES_RECORD_HOST_TEST_CONTEXT));
Context4 = (IMAGE_PROPERTIES_RECORD_HOST_TEST_CONTEXT *)AllocateZeroPool (sizeof (IMAGE_PROPERTIES_RECORD_HOST_TEST_CONTEXT));
CreateBaseContextEntry (Context1);
CreateBaseContextEntry (Context2);
CreateBaseContextEntry (Context3);
CreateBaseContextEntry (Context4);
//
// Start setting up the test framework for running the tests.
//
Status = InitUnitTestFramework (&Framework, UNIT_TEST_APP_NAME, gEfiCallerBaseName, UNIT_TEST_APP_VERSION);
if (EFI_ERROR (Status)) {
DEBUG ((DEBUG_ERROR, "Failed in InitUnitTestFramework. Status = %r\n", Status));
goto EXIT;
}
//
// Populate the Unit Test Suite.
//
Status = CreateUnitTestSuite (&ImagePropertiesRecordTests, Framework, "Image Properties Record Tests", "ImagePropertiesRecordLib.SplitTable", NULL, NULL);
if (EFI_ERROR (Status)) {
DEBUG ((DEBUG_ERROR, "Failed in CreateUnitTestSuite for the Image Properties Record Tests\n"));
Status = EFI_OUT_OF_RESOURCES;
goto EXIT;
}
//
// --------------Suite-----------Description--------------Name----------Function--------Pre---Post-------------------Context-----------
//
AddTestCase (ImagePropertiesRecordTests, "All images fit perfectly into existing descriptors", "ImagesFitDescriptors", ImagesFitDescriptors, NULL, TestCleanup, Context1);
AddTestCase (ImagePropertiesRecordTests, "All images don't fit perfectly into existing descriptors", "ImagesDontFitDescriptors", ImagesDontFitDescriptors, NULL, TestCleanup, Context2);
AddTestCase (ImagePropertiesRecordTests, "All Images are contined In single descriptor", "MultipleImagesInOneDescriptor", MultipleImagesInOneDescriptor, NULL, TestCleanup, Context3);
AddTestCase (ImagePropertiesRecordTests, "Multiple code sections each image", "MaxOutAdditionalDescriptors", MaxOutAdditionalDescriptors, NULL, TestCleanup, Context4);
//
// Execute the tests.
//
Status = RunAllTestSuites (Framework);
EXIT:
if (Framework) {
FreeUnitTestFramework (Framework);
}
return Status;
}
///
/// Avoid ECC error for function name that starts with lower case letter
///
#define ImagePropertiesRecordLibUnitTestMain main
/**
Standard POSIX C entry point for host based unit test execution.
@param[in] Argc Number of arguments
@param[in] Argv Array of pointers to arguments
@retval 0 Success
@retval other Error
**/
INT32
ImagePropertiesRecordLibUnitTestMain (
IN INT32 Argc,
IN CHAR8 *Argv[]
)
{
return UnitTestingEntry ();
}