解析PE文件

最近在自学解析PE文件，根据小辣椒（CFF Explorer）以及各论坛上大佬的帖子，做了个黑屏打印PE文件的，历时7天完成，在此想跟有相关需要的同学们分享下思路，有不足之处也希望大家不吝赐教，指点出来。谢谢。

PE文件主要有DOS头，NT头（包含PE头，可选PE头，可选PE头中又包含着一个数据目录，里面包含了其他表单的RVA和大小），节表

表单主要有导出表，导入表，重定位表，资源表。除了资源表外，其他表单的各项数据都用代码实现了打印。

首先通过CreateFile打开文件，获得文件句柄，随后调用CreateFileMapping生成内存映射对象，再调用MapViewOfFile获得文件映射基址。

DOS头RVA=（IMAGE_DOS_HEADER）映射基址；

NT头RVA=（IMAGE_NT_HEADERS)DOS头+DOS头->e_lfanew的值；

PE头RVA=&（(IMAGE_FILE_HEADER)NT头->FileHeader);

可选PE头RVA=&（(IMAGE_OPTIONAL_HEADER)NT头->OptionalHeader);

节表RVA=IMAGE_FIRST_SECTION（NT头）；//节表的位置=DOS头大小（确定）+标准PE头大小（确定）+可选PE头大小（标准PE头的成员.SizeOfOptionalHeader记录了可选PE头大小）

节表数量：PE头->NumberOfSections;

导入表、导出表、重定位表的RVA和长度分别在可选PE头的->DataDirectory的第三、第一、第六个数组当中的VirtualAddress和size成员中（注意数组索引从0开始）

下面po上代码：

#include<Windows.h>
#include<iostream>
#include<time.h>

using namespace std;

typedef struct _MAP_FILE_STRUCT
{
HANDLE hFile; //文件句柄
HANDLE hMapping; //映射文件句柄
LPVOID YXImageBase; //映像基址
} MAP_FILE_STRUCT, *PMAP_FILE_STRUCT;

/*一、加载要打开的文件
采用内存映射的方式将文件加载到内存中，内存映射函数包括：CreateFileMapping， OpenFileMapping， MapViewOfFile， UnmapViewOfFile和FlushViewOfFile。
定义一个函数，如果是一个PE文件则返回true， 否则返回false：*/
BOOL LoadFile(LPTSTR lpFileName, PMAP_FILE_STRUCT pstMapFile)//加载文件 并将文件句柄、
{
if (lpFileName == nullptr)
{
return false;
}
HANDLE hFile = NULL;
HANDLE hMapping = NULL;
LPVOID ImageBase = NULL;
memset(pstMapFile, 0, sizeof(MAP_FILE_STRUCT));

//1、只读方式打开文件，返回文件句柄
hFile = CreateFile(lpFileName, GENERIC_READ, FILE_SHARE_READ, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, 0);
if (!hFile)
{
return false;
}

//2、创建内存映射文件对象
hMapping = CreateFileMapping(hFile, NULL, PAGE_READONLY, 0, 0, 0);
if (!hMapping)
{
CloseHandle(hFile);
return false;
}

//3、创建内存映射文件的视图
ImageBase = MapViewOfFile(hMapping, FILE_MAP_READ, 0, 0, 0);
if (!ImageBase)
{
CloseHandle(hFile);
CloseHandle(hMapping);
return false;
}
pstMapFile->hFile = hFile;
pstMapFile->hMapping = hMapping;
pstMapFile->YXImageBase = ImageBase;
return true;
}

//二、程序执行完毕后，回收资源
void UnLoadFile(PMAP_FILE_STRUCT pstMapFile)
{
if (pstMapFile->hFile)
{
CloseHandle(pstMapFile->hFile);
}

if (pstMapFile->hMapping)
{
CloseHandle(pstMapFile->hMapping);
}

if (pstMapFile->YXImageBase)
{
//撤销映射并使用CloseHandle函数关闭内存映射文件对象句柄
UnmapViewOfFile(pstMapFile->YXImageBase);
}
}

//三、文件格式检测

bool IsPEFile(LPVOID ImageBase)//如果1.基地址为0 2.DOC头的e_magic不为5A4D(MZ) 3.NT头的Signature不为00004550(PE) 任一成立，则该文件不是PE文件
{
PIMAGE_DOS_HEADER pDH = nullptr;//指向空指针
PIMAGE_NT_HEADERS32 pNtH = nullptr;

if (!ImageBase)
{
return false;
}

pDH = (PIMAGE_DOS_HEADER)ImageBase;
if (pDH->e_magic != IMAGE_DOS_SIGNATURE) // 5A4D "MZ"
{
return false;
}

// pDH->e_lfanew保存PIMAGE_NT_HEADERS32的偏移地址，加上基址pDH即为MAGE_NT_HEADERS的地址
pNtH = (PIMAGE_NT_HEADERS32)((DWORD)pDH + pDH->e_lfanew); //基地址+DOS头的最后一个元素取得的值 即为下一个NT头的地址
if (pNtH->Signature != IMAGE_NT_SIGNATURE) //"PE"
{
return false;
}

return true;
}

//四、读取FileHeader和OptionalHeader的内容
PIMAGE_DOS_HEADER GetDOSHeaders(LPVOID ImageBase)//1、获取指向IMAGE_DOS_HEADERS结构的指针
{
PIMAGE_DOS_HEADER pDH = nullptr;
if (!IsPEFile(ImageBase))
{
return nullptr;
}

pDH = (PIMAGE_DOS_HEADER)ImageBase;
return pDH;
}

PIMAGE_NT_HEADERS GetNtHeader(LPVOID ImageBase)//2、获取指向IMAGE_NT_HEADERS结构的指针
{
PIMAGE_DOS_HEADER pDH = nullptr;
PIMAGE_NT_HEADERS pNtH = nullptr;
if (!IsPEFile(ImageBase))
{
return nullptr;
}

pDH = (PIMAGE_DOS_HEADER)ImageBase;
pNtH = (PIMAGE_NT_HEADERS)((DWORD)pDH + pDH->e_lfanew);
return pNtH;
}

PIMAGE_FILE_HEADER GetFileHeader(LPVOID ImageBase)//3、获取指向IMAGE_FILE_HEADER结构的指针
{
PIMAGE_NT_HEADERS pNtH = GetNtHeader(ImageBase);
if (!pNtH)
{
return nullptr;
}
return &(pNtH->FileHeader);
}

PIMAGE_OPTIONAL_HEADER GetOptionalHeader(LPVOID ImageBase)//4、获取指向IMAGE_OPTIONAL_HEADER结构的指针
{
PIMAGE_NT_HEADERS pNtH = GetNtHeader(ImageBase);
if (!pNtH)
{
return nullptr;
}
return &(pNtH->OptionalHeader);
}

PIMAGE_SECTION_HEADER GetSectionone(LPVOID ImageBase)//5、获取指向第一个节头的指针
{
PIMAGE_NT_HEADERS pNtH = GetNtHeader(ImageBase);//得到NT头
if (!pNtH)
{
return nullptr;
}
//节表的位置=DOS头大小（确定）+标准PE头大小（确定）+可选PE头大小（标准PE头的成员.SizeOfOptionalHeader记录了可选PE头大小）
return IMAGE_FIRST_SECTION(pNtH);//通过公式计算 得到SECTION的首地址
}

short GetSectionCount(LPVOID ImageBase)//6、节头的数量 通过File Hander的NumberOfSections得出
{
PIMAGE_FILE_HEADER pNtFileHeader = GetFileHeader(ImageBase);
if (pNtFileHeader != NULL)
{
return pNtFileHeader->NumberOfSections;
}
}

//五、地址转换
//1.相对虚拟地址转文件地址（文件地址=映射基址+文件偏移地址（文件偏移地址=RVA-范围内的内存偏移（起点）+范围内的文件偏移（起点）））
DWORD RVAtoFA(LPVOID ImageBase,DWORD RVA)//接受一个当前文件的映射基址和需转换的RVA
{
PIMAGE_SECTION_HEADER m_section = GetSectionone(ImageBase);//指向节表
PIMAGE_FILE_HEADER m_pe = GetFileHeader(ImageBase);//指向PE头
int sectioncount = m_pe->NumberOfSections;//获得节表数量
for (int num = 0; num < sectioncount;num++)
{
if (RVA>=m_section->VirtualAddress && RVA < (m_section->VirtualAddress + m_section->Misc.VirtualSize))//如果RVA的值落在当前节点的范围内
{
return (DWORD)ImageBase + RVA - m_section->VirtualAddress + m_section->PointerToRawData;
/*则文件地址=映射基址 + 文件偏移地址（ RVA- VirtualAddress + RawAddress）
= 映射基址 + RVA - VirtualAddress + RawAddress*/
}
m_section++;//指向下一个节表
}
return 0;
}

//2.相对虚拟地址转文件偏移地址（文件偏移地址=RVA-范围内的内存偏移（起点）+范围内的文件偏移（起点）））
DWORD RVAtoFVA(LPVOID ImageBase, DWORD RVA)//接受一个当前文件的映射基址和需转换的RVA
{
PIMAGE_SECTION_HEADER m_section = GetSectionone(ImageBase);//指向节表
PIMAGE_FILE_HEADER m_pe = GetFileHeader(ImageBase);//指向PE头
int sectioncount = m_pe->NumberOfSections;//获得节表数量
for (int num = 0; num < sectioncount; num++)
{
if (RVA >= m_section->VirtualAddress && RVA < (m_section->VirtualAddress + m_section->Misc.VirtualSize))//如果RVA的值落在当前节点的范围内
{
return RVA - m_section->VirtualAddress + m_section->PointerToRawData;
}
m_section++;//指向下一个节表
}
return 0;
}

//3.虚拟地址转文件偏移地址
DWORD VAtoFVA(LPVOID ImageBase, DWORD VA)//接受一个当前文件的映射基址和需转换的VA
{
PIMAGE_NT_HEADERS pNT = GetNtHeader(ImageBase);//获得NT头
DWORD IB = pNT->OptionalHeader.ImageBase;//获得基地址
DWORD RVA = VA - IB;//将要转换的VA先转换为RVA

PIMAGE_SECTION_HEADER m_section = GetSectionone(ImageBase);//指向节表
PIMAGE_FILE_HEADER m_pe = GetFileHeader(ImageBase);//指向PE头
int sectioncount = m_pe->NumberOfSections;//获得节表数量
for (int num = 0; num < sectioncount; num++)
{
if (RVA>m_section->VirtualAddress && RVA < (m_section->VirtualAddress + m_section->Misc.VirtualSize))//如果RVA的值落在当前节点的范围内
{
return RVA - m_section->VirtualAddress + m_section->PointerToRawData;//则文件偏移地址=RVA - VirtualAddress + RawAddress
}
m_section++;//指向下一个节表
}
return 0;
}

//4.相对虚拟地址转虚拟地址
DWORD RVAtoVA(LPVOID ImageBase, DWORD RVA)//接受一个当前文件的映射基址和需转换的RVA
{
PIMAGE_NT_HEADERS pNT = GetNtHeader(ImageBase);//获得NT头
DWORD IB = pNT->OptionalHeader.ImageBase;//获得基地址
return RVA + IB;
}

//5.虚拟地址转相对虚拟地址
DWORD VAtoRVA(LPVOID ImageBase, DWORD VA)//接受一个当前文件的映射基址和需转换的VA
{
PIMAGE_NT_HEADERS pNT = GetNtHeader(ImageBase);//获得NT头
DWORD IB = pNT->OptionalHeader.ImageBase;//获得基地址
return VA - IB;
}

//六、输出文件头信息

void ShowFileHeaderInfo(PMAP_FILE_STRUCT stMapFile)
{
char strTmp[1024] = { 0 };

PIMAGE_DOS_HEADER p_dos = nullptr;//DOS头
p_dos = GetDOSHeaders(stMapFile->YXImageBase);
if (!p_dos)
{
printf("获取DOS头失败\n");
return;
}
printf("Dos Header:\n");
printf("e_magic: %04lX\n", p_dos->e_magic);
/*省略若干个信息*/
printf("\n");

PIMAGE_NT_HEADERS m_nt = nullptr; //NT头
m_nt = GetNtHeader(stMapFile->YXImageBase);
if (!m_nt)
{
printf("获取文件头失败\n");
return;
}
printf("NT Header:\n");
printf("Signature: %08x\n", m_nt->Signature);

PIMAGE_FILE_HEADER p_file = nullptr;//PE头
//将信息按十六进制格式化
p_file = GetFileHeader(stMapFile->YXImageBase);//此时返回出来的是NT头的File结构的首地址
char *strFileHeaderFormat = "\nIMAGE_FILE_HEADER:\n\
Machine: %04lX\n\
NumberOfSections: %04lX\n\
TimeDateStamp: %04lX\n\
PointerToSymbolTable:%08X\n\
NumberOfSymbols: %08lX\n\
SizeOfOptionalHeader:%04lX\n\
Characteristics: %04lX\n\n";
sprintf(strTmp, strFileHeaderFormat, p_file->Machine, p_file->NumberOfSections, p_file->TimeDateStamp, p_file->PointerToSymbolTable, p_file->NumberOfSymbols,
p_file->SizeOfOptionalHeader, p_file->Characteristics);
printf("%s", strTmp);

memset(strTmp, 0, sizeof(strTmp));

PIMAGE_OPTIONAL_HEADER p_oh = nullptr; //可选PE头
char *strFileOptHeaderFormat = "\nIMAGE_OPTIONAL_HEADER:\n\
Entry Point: %08lX\n\
Image Base: %08lX\n\
Code Base: %08lX\n\
Data Base: %08lX\n\
Image Size: %08lX\n\
Headers Size: %08lX\n\
Section Alignment:%08lX\n\
File Alignment: %08lX\n\
Subsystem: %08lX\n\
Check Sum: %04lX\n\
Dll Flags: %04lX\n\n";
p_oh = GetOptionalHeader(stMapFile->YXImageBase);//此时返回出来的是NT头的optional结构的首地址
if (!p_oh)
{
printf("Get File Optional Header failed!\n");
return;
}
sprintf(strTmp, strFileOptHeaderFormat, p_oh->AddressOfEntryPoint, p_oh->ImageBase, p_oh->BaseOfCode, p_oh->BaseOfData,
p_oh->SizeOfImage, p_oh->SizeOfHeaders, p_oh->SectionAlignment, p_oh->FileAlignment, p_oh->Subsystem, p_oh->CheckSum, p_oh->DllCharacteristics);
printf("%s", strTmp);

PIMAGE_SECTION_HEADER p_section = nullptr; //节表
p_section = GetSectionone(stMapFile->YXImageBase);//通过基址得到NT头 再通过公式算出第一个节的地址
DWORD sectioncount = p_file->NumberOfSections;//通过PE头的NumberOfSections成员 得到节的数量
printf("name:\tVirtual Size\tVirtual Address\tRaw Size\tRaw Address\t\n");
for (DWORD num = 0; num < sectioncount; num++)
{
/*printf("name:%s,Virtual Size:%08x,Virtual Address:%08x,Raw Size:%08x,Raw Address:%08x\n",
p_section->Name, p_section->Misc.VirtualSize, p_section->VirtualAddress, p_section->SizeOfRawData, p_section->PointerToRawData);*/
printf("%s:\t%08x\t%08x\t%08x\t%08x\n", p_section->Name, p_section->Misc.VirtualSize, p_section->VirtualAddress, p_section->SizeOfRawData, p_section->PointerToRawData);
p_section++;
}
printf("\n");

/*通过可选PE头的DataDirectory数组（该数组为IMAGE_DATA_DIRECTORY结构 里面是各表的RVA和大小）*/
PIMAGE_OPTIONAL_HEADER ID_RVA = nullptr;//导入表

ID_RVA = GetOptionalHeader(stMapFile->YXImageBase);//此时返回出来的是NT头的optional结构的首地址
printf("导入表的相对偏移地址为:0x%08x\n", ID_RVA->DataDirectory[1].VirtualAddress);
printf("导入表的大小为:0x%08x\n", ID_RVA->DataDirectory[1].Size);//已对比 取值正确

int dllcount;//dll的数量
int funccount;//dll中函数的数量
long d_dRVA = ID_RVA->DataDirectory[1].VirtualAddress;
//得到第一个导入表的地址
PIMAGE_IMPORT_DESCRIPTOR pdll = (PIMAGE_IMPORT_DESCRIPTOR)((UCHAR*)RVAtoFA(stMapFile->YXImageBase, d_dRVA));
/*上下2条同理，都是通过所需地址的RVA求得在文件中的VA，上面那条求得文件的FVA后，要手动加上映像基地址；下面那条直接返回FRVA(文件地址)
VA=虚拟地址 RVA=相对虚拟地址 IB基地址 FVA=文件地址 FRVA=文件偏移地址（相对开头）FIB=映射基地址（即stMapFile->YXImageBase）*/
//PIMAGE_IMPORT_DESCRIPTOR pdll2 = (PIMAGE_IMPORT_DESCRIPTOR)ImageRvaToVa(d_nt, d_nIB, CCC->DataDirectory[1].VirtualAddress, NULL);

for (dllcount = 0; pdll->FirstThunk != NULL; dllcount++)
{
char* dllname = (char*)RVAtoFA(stMapFile->YXImageBase, pdll->Name);//将存放DLL名称的地址转换成字符指针
printf("DLL Name:%s\t INT:0x%08x，Name RVA:0x%08x，IAT:0x%08x\n",
dllname, pdll->OriginalFirstThunk, pdll->Name, pdll->FirstThunk);

//通过导入表的OriginalFirstThunk(INT的VRA) 求得dll的输入名称表的va
//PIMAGE_THUNK_DATA f_thunk = (PIMAGE_THUNK_DATA)ImageRvaToVa(d_nt, d_nIB, pdll->OriginalFirstThunk, NULL);
PIMAGE_THUNK_DATA f_thunk = (PIMAGE_THUNK_DATA)((UCHAR*)RVAtoFA(stMapFile->YXImageBase, pdll->OriginalFirstThunk));
for (funccount = 0; f_thunk->u1.Function != 0; funccount++)
{
if (f_thunk->u1.AddressOfData & 0x80000000) //如果导入表的输入名称表（INT）的最高位为1，则为按序号导入
{
printf("\t[%d]\t IAT:%04x\t 导入序号：%04x\n", funccount, f_thunk->u1.AddressOfData, f_thunk->u1.AddressOfData & 0xffff);
} //这里的f_thunk->u1.AddressOfData &0xffff是为了让32位的二进制最后以16位显示出来
else //不为1，则函数名称以字符串形式 此时变为指向PIMAGE_IMPORT_BY_NAME结构的RVA
{
PIMAGE_IMPORT_BY_NAME f_name = (PIMAGE_IMPORT_BY_NAME)RVAtoFA(stMapFile->YXImageBase, f_thunk->u1.AddressOfData);
printf("\t[%d]\t Hint:%04x\t Name:%s\n", funccount, f_name->Hint, f_name->Name);
}

f_thunk++;
}
printf("-----------------------------------------------------------------------------------------\n");
pdll++;
}
printf("该PE文件导入表共有%d个DLL\n\n", dllcount);

IMAGE_IMPORT_DESCRIPTOR ITDP; //导入表由这样的结构的数组构成，最后以一个该结构全为0作为结束标志
IMAGE_THUNK_DATA ITD2P;//上述结构中，有2个成员导入名称表（INT）和导入地址表（IAT）是该类型的结构
IMAGE_IMPORT_BY_NAME IIBN;//当ITD的最高位为1时，IAT的值变成了指向这样一个结构的RVA

/*导出表*/
PIMAGE_OPTIONAL_HEADER ED_RVA = GetOptionalHeader(stMapFile->YXImageBase);
printf("导出表的相对偏移地址：0x%08x\n", ED_RVA->DataDirectory[0].VirtualAddress);
printf("导出表长度：0x%08x\n", ED_RVA->DataDirectory[0].Size);
DWORD m_EDRva = ED_RVA->DataDirectory[0].VirtualAddress;//导出表的相对偏移地址
PIMAGE_EXPORT_DIRECTORY pEDFA = (PIMAGE_EXPORT_DIRECTORY)((UCHAR*)RVAtoFA(stMapFile->YXImageBase, m_EDRva));//求得导出表的文件地址
printf("--------------------------------------------------------------------------------\n");
printf("Member\t\t\t Offset\t Size\t\t Value\n");
printf("--------------------------------------------------------------------------------\n");
printf("Characteristics\t\t %08x\t Dword\t\t %08x\n", m_EDRva, pEDFA->Characteristics);
printf("TimeDateStamp\t\t %08x\t Dword\t\t %08x\n", m_EDRva + sizeof(DWORD), pEDFA->TimeDateStamp);
printf("MajorVersion\t\t %08x\t Word\t\t %04x\n", m_EDRva + sizeof(DWORD)* 2, pEDFA->MajorVersion);
printf("MinorVersion\t\t %08x\t Word\t\t %04x\n", m_EDRva + sizeof(DWORD)* 2 + sizeof(WORD), pEDFA->MinorVersion);
printf("Name\t\t\t %08x\t Dword\t\t %08x\n", m_EDRva + sizeof(DWORD)* 2 + sizeof(WORD)* 2, pEDFA->Name);
printf("Base\t\t\t %08x\t Dword\t\t %08x\n", m_EDRva + sizeof(DWORD)* 3 + sizeof(WORD)* 2, pEDFA->Base);
printf("NumberOfFunctions\t %08x\t Dword\t\t %08x\n", m_EDRva + sizeof(DWORD)* 4 + sizeof(WORD)* 2, pEDFA->NumberOfFunctions);
printf("NumberOfNames\t\t %08x\t Dword\t\t %08x\n", m_EDRva + sizeof(DWORD)* 5 + sizeof(WORD)* 2, pEDFA->NumberOfNames);
printf("AddressOfFunctions\t %08x\t Dword\t\t %08x\n", m_EDRva + sizeof(DWORD)* 6 + sizeof(WORD)* 2, pEDFA->AddressOfFunctions);
printf("AddressOfNames\t\t %08x\t Dword\t\t %08x\n", m_EDRva + sizeof(DWORD)* 7 + sizeof(WORD)* 2, pEDFA->AddressOfNames);
printf("AddressOfNameOrdinals\t %08x\t Dword\t\t %08x\n", m_EDRva + sizeof(DWORD)* 8 + sizeof(WORD)* 2, pEDFA->AddressOfNameOrdinals);

DWORD addressFA = 0;//用于接受函数名字RVA
char* addressName = NULL;//用于输出函数名字
for (DWORD EDcount = 0; EDcount < pEDFA->NumberOfFunctions; EDcount++) //导出序号不大于导出函数的值
{
DWORD EDB = pEDFA->Base + (EDcount * 1);//导出序号
DWORD EDAOF = pEDFA->AddressOfFunctions + (EDcount*sizeof(DWORD));//导出函数地址的rva
DWORD EDAON = pEDFA->AddressOfNames + (EDcount*sizeof(DWORD));//导出函数的名字的rva的rva
DWORD EDNB = pEDFA->AddressOfNameOrdinals + (EDcount*sizeof(WORD));//导出函数名字的序号的rva
addressFA = *(DWORD*)RVAtoFA(stMapFile->YXImageBase, EDAON);//将存放着函数名字RVA的RVA转换成文件地址 解引用获得函数名字RVA
addressName = (char*)(RVAtoFA(stMapFile->YXImageBase, addressFA));//再将函数名字RVA转换成文件地址，取得文件名字
printf("Ordinals:%08x Functions RVA:%08x Name Ordinal:%08x Name RVA:%08X Name:%s\n\n", EDB, EDAOF, EDNB, EDAON, addressName);
}

/*重定位表*/
DWORD BR_RVA = p_oh->DataDirectory[5].VirtualAddress;//重定位表rva
DWORD BR_count = p_oh->DataDirectory[5].Size;//重定位表的大小
printf("\n重定位表的相对偏移地址：0x%08x\n", p_oh->DataDirectory[5].VirtualAddress);
printf("重定位表的大小：0x%08x\n", p_oh->DataDirectory[5].Size);
if (BR_RVA == 0)
{
printf("该文件没有重定位表\n");
}
PIMAGE_BASE_RELOCATION pBR;//重定位表的文件地址
//当前位置的RVA不能大于重定位表最后一块数据的RVA（起始位置+大小）
while (BR_RVA<(p_oh->DataDirectory[5].VirtualAddress+p_oh->DataDirectory[5].Size))
{
pBR = (PIMAGE_BASE_RELOCATION)(RVAtoFA(stMapFile->YXImageBase, BR_RVA));//取得当前块文件地址
int BR_count = (pBR->SizeOfBlock - 8) / 2;//这个块中需要重定位的值的个数 （该块前8位分别是起始地址和长度）
printf("VirtualAddress:%08x\t SizeOfBlock:%08x\t ltems:%d\n", pBR->VirtualAddress, pBR->SizeOfBlock,BR_count);
for (int num = 0; num < BR_count; num++)
{
WORD pBR_Chunk = *(WORD*)RVAtoFA(stMapFile->YXImageBase, BR_RVA + 8+sizeof(WORD)*num);
if (pBR_Chunk != 0)
{
printf("ltem:%04x\t 需要重定位的数据的RVA：%08x\n", pBR_Chunk, (pBR_Chunk ^ 0x3000)+pBR->VirtualAddress);
/*重定位地址=当前块内的偏移(当前2字节的值（需要通过文件地址取出来）^ 0x3000)+当前块的基址*/

}
}
printf("--------------------------------------------------------------\n");
BR_RVA = BR_RVA + pBR->SizeOfBlock;
}

}

MAP_FILE_STRUCT stMapFile = { nullptr, nullptr, nullptr };
int main()
{
LPTSTR filePath = TEXT("C:\\Users\\Admin\\Desktop\\kkk.dll");

if (!LoadFile(filePath, &stMapFile))//载入文件内容
{
return -1;
}

if (!IsPEFile(stMapFile.YXImageBase))//检查文件是否为PE文件
{
UnLoadFile(&stMapFile);
return -1;
}

ShowFileHeaderInfo(&stMapFile);

UnLoadFile(&stMapFile);
system("pause");
}