32位 64位 获得进程peb的方法

基于上一篇文章,大概了解了peb的获取方法,但是那个方法只能获得当前进程的PEB,不能获得其他的进程的PEB。根据那个思想,获得其他进程PEB则需要注入,得到进程信息,然后进程间通信,将信息返回来,经过考虑,这个方法太复杂。

下面介绍的方法是 用了一个未公开的函数NtQueryInformationProcess,获得进程信息,然后去读对方进程ReadProcessMemory。

结构体是使用的一个模板,从别处借鉴的

#pragma once

#include <Windows.h>
#include <Strsafe.h>
#include <wchar.h>
#include <vector>


#define NT_SUCCESS(x) ((x) >= 0)

#define ProcessBasicInformation 0
typedef
NTSTATUS(WINAPI *pfnNtWow64QueryInformationProcess64)
(HANDLE ProcessHandle, UINT32 ProcessInformationClass,
    PVOID ProcessInformation, UINT32 ProcessInformationLength,
    UINT32* ReturnLength);

typedef
NTSTATUS(WINAPI *pfnNtWow64ReadVirtualMemory64)
(HANDLE ProcessHandle, PVOID64 BaseAddress,
    PVOID BufferData, UINT64 BufferLength,
    PUINT64 ReturnLength);

typedef
NTSTATUS(WINAPI *pfnNtQueryInformationProcess)
(HANDLE ProcessHandle, ULONG ProcessInformationClass,
    PVOID ProcessInformation, UINT32 ProcessInformationLength,
    UINT32* ReturnLength);

template <typename T>
struct _UNICODE_STRING_T
{
    WORD Length;
    WORD MaximumLength;
    T Buffer;
};

template <typename T>
struct _LIST_ENTRY_T
{
    T Flink;
    T Blink;
};

template <typename T, typename NGF, int A>
struct _PEB_T
{
    typedef T type;

    union
    {
        struct
        {
            BYTE InheritedAddressSpace;
            BYTE ReadImageFileExecOptions;
            BYTE BeingDebugged;
            BYTE BitField;
        };
        T dummy01;
    };
    T Mutant;
    T ImageBaseAddress;
    T Ldr;
    T ProcessParameters;
    T SubSystemData;
    T ProcessHeap;
    T FastPebLock;
    T AtlThunkSListPtr;
    T IFEOKey;
    T CrossProcessFlags;
    T UserSharedInfoPtr;
    DWORD SystemReserved;
    DWORD AtlThunkSListPtr32;
    T ApiSetMap;
    T TlsExpansionCounter;
    T TlsBitmap;
    DWORD TlsBitmapBits[2];
    T ReadOnlySharedMemoryBase;
    T HotpatchInformation;
    T ReadOnlyStaticServerData;
    T AnsiCodePageData;
    T OemCodePageData;
    T UnicodeCaseTableData;
    DWORD NumberOfProcessors;
    union
    {
        DWORD NtGlobalFlag;
        NGF dummy02;
    };
    LARGE_INTEGER CriticalSectionTimeout;
    T HeapSegmentReserve;
    T HeapSegmentCommit;
    T HeapDeCommitTotalFreeThreshold;
    T HeapDeCommitFreeBlockThreshold;
    DWORD NumberOfHeaps;
    DWORD MaximumNumberOfHeaps;
    T ProcessHeaps;
    T GdiSharedHandleTable;
    T ProcessStarterHelper;
    T GdiDCAttributeList;
    T LoaderLock;
    DWORD OSMajorVersion;
    DWORD OSMinorVersion;
    WORD OSBuildNumber;
    WORD OSCSDVersion;
    DWORD OSPlatformId;
    DWORD ImageSubsystem;
    DWORD ImageSubsystemMajorVersion;
    T ImageSubsystemMinorVersion;
    T ActiveProcessAffinityMask;
    T GdiHandleBuffer[A];
    T PostProcessInitRoutine;
    T TlsExpansionBitmap;
    DWORD TlsExpansionBitmapBits[32];
    T SessionId;
    ULARGE_INTEGER AppCompatFlags;
    ULARGE_INTEGER AppCompatFlagsUser;
    T pShimData;
    T AppCompatInfo;
    _UNICODE_STRING_T<T> CSDVersion;
    T ActivationContextData;
    T ProcessAssemblyStorageMap;
    T SystemDefaultActivationContextData;
    T SystemAssemblyStorageMap;
    T MinimumStackCommit;
    T FlsCallback;
    _LIST_ENTRY_T<T> FlsListHead;
    T FlsBitmap;
    DWORD FlsBitmapBits[4];
    T FlsHighIndex;
    T WerRegistrationData;
    T WerShipAssertPtr;
    T pContextData;
    T pImageHeaderHash;
    T TracingFlags;
    T CsrServerReadOnlySharedMemoryBase;
};

typedef _PEB_T<DWORD, DWORD64, 34> _PEB32;
typedef _PEB_T<DWORD64, DWORD, 30> _PEB64;

typedef struct _STRING_32
{
    WORD Length;
    WORD MaximumLength;
    UINT32 Buffer;
} STRING32, *PSTRING32;

typedef struct _STRING_64
{
    WORD Length;
    WORD MaximumLength;
    UINT64 Buffer;
} STRING64, *PSTRING64;

typedef struct _RTL_DRIVE_LETTER_CURDIR_32
{
    WORD Flags;
    WORD Length;
    ULONG TimeStamp;
    STRING32 DosPath;
} RTL_DRIVE_LETTER_CURDIR32, *PRTL_DRIVE_LETTER_CURDIR32;

typedef struct _RTL_DRIVE_LETTER_CURDIR_64
{
    WORD Flags;
    WORD Length;
    ULONG TimeStamp;
    STRING64 DosPath;
} RTL_DRIVE_LETTER_CURDIR64, *PRTL_DRIVE_LETTER_CURDIR64;

typedef struct _UNICODE_STRING_32
{
    WORD Length;
    WORD MaximumLength;
    UINT32 Buffer;
} UNICODE_STRING32, *PUNICODE_STRING32;

typedef struct _UNICODE_STRING_64
{
    WORD Length;
    WORD MaximumLength;
    UINT64 Buffer;
} UNICODE_STRING64, *PUNICODE_STRING64;


typedef struct _CURDIR_32
{
    UNICODE_STRING32 DosPath;
    UINT32 Handle;
} CURDIR32, *PCURDIR32;

typedef struct _RTL_USER_PROCESS_PARAMETERS_32
{
    ULONG MaximumLength;
    ULONG Length;
    ULONG Flags;
    ULONG DebugFlags;
    UINT32 ConsoleHandle;
    ULONG ConsoleFlags;
    UINT32 StandardInput;
    UINT32 StandardOutput;
    UINT32 StandardError;
    CURDIR32 CurrentDirectory;
    UNICODE_STRING32 DllPath;
    UNICODE_STRING32 ImagePathName;
    UNICODE_STRING32 CommandLine;
    UINT32 Environment;
    ULONG StartingX;
    ULONG StartingY;
    ULONG CountX;
    ULONG CountY;
    ULONG CountCharsX;
    ULONG CountCharsY;
    ULONG FillAttribute;
    ULONG WindowFlags;
    ULONG ShowWindowFlags;
    UNICODE_STRING32 WindowTitle;
    UNICODE_STRING32 DesktopInfo;
    UNICODE_STRING32 ShellInfo;
    UNICODE_STRING32 RuntimeData;
    RTL_DRIVE_LETTER_CURDIR32 CurrentDirectores[32];
    ULONG EnvironmentSize;
} RTL_USER_PROCESS_PARAMETERS32, *PRTL_USER_PROCESS_PARAMETERS32;


typedef struct _CURDIR_64
{
    UNICODE_STRING64 DosPath;
    UINT64 Handle;
} CURDIR64, *PCURDIR64;

typedef struct _RTL_USER_PROCESS_PARAMETERS_64
{
    ULONG MaximumLength;
    ULONG Length;
    ULONG Flags;
    ULONG DebugFlags;
    UINT64 ConsoleHandle;
    ULONG ConsoleFlags;
    UINT64 StandardInput;
    UINT64 StandardOutput;
    UINT64 StandardError;
    CURDIR64 CurrentDirectory;
    UNICODE_STRING64 DllPath;
    UNICODE_STRING64 ImagePathName;
    UNICODE_STRING64 CommandLine;
    UINT64 Environment;
    ULONG StartingX;
    ULONG StartingY;
    ULONG CountX;
    ULONG CountY;
    ULONG CountCharsX;
    ULONG CountCharsY;
    ULONG FillAttribute;
    ULONG WindowFlags;
    ULONG ShowWindowFlags;
    UNICODE_STRING64 WindowTitle;
    UNICODE_STRING64 DesktopInfo;
    UNICODE_STRING64 ShellInfo;
    UNICODE_STRING64 RuntimeData;
    RTL_DRIVE_LETTER_CURDIR64 CurrentDirectores[32];
    ULONG EnvironmentSize;
} RTL_USER_PROCESS_PARAMETERS64, *PRTL_USER_PROCESS_PARAMETERS64;



typedef struct _PROCESS_BASIC_INFORMATION64 {
    NTSTATUS ExitStatus;
    UINT32 Reserved0;
    UINT64 PebBaseAddress;
    UINT64 AffinityMask;
    UINT32 BasePriority;
    UINT32 Reserved1;
    UINT64 UniqueProcessId;
    UINT64 InheritedFromUniqueProcessId;
} PROCESS_BASIC_INFORMATION64;

typedef struct _PROCESS_BASIC_INFORMATION32 {
    NTSTATUS ExitStatus;
    UINT32 PebBaseAddress;
    UINT32 AffinityMask;
    UINT32 BasePriority;
    UINT32 UniqueProcessId;
    UINT32 InheritedFromUniqueProcessId;
} PROCESS_BASIC_INFORMATION32;

实现方法:

// 枚举PEB.cpp : 定义控制台应用程序的入口点。
//

#include "stdafx.h"
#include "PEB.h"
#include <iostream>

using namespace std;





int main()
{
    HANDLE m_ProcessHandle;
    int PID;
    cout << "输入PID:";
    cin >> PID;

    m_ProcessHandle = OpenProcess(PROCESS_ALL_ACCESS, FALSE, PID);

    BOOL bSource = FALSE;
    BOOL bTarget = FALSE;
    //判断自己的位数
    IsWow64Process(GetCurrentProcess(), &bSource);
    //判断目标的位数
    IsWow64Process(m_ProcessHandle, &bTarget);

    if(bTarget == FALSE && bSource == TRUE)
    {
        HMODULE NtdllModule = GetModuleHandle(L"ntdll.dll");
        pfnNtWow64QueryInformationProcess64 NtWow64QueryInformationProcess64 = (pfnNtWow64QueryInformationProcess64)GetProcAddress(NtdllModule, "NtWow64QueryInformationProcess64");
        pfnNtWow64ReadVirtualMemory64 NtWow64ReadVirtualMemory64 = (pfnNtWow64ReadVirtualMemory64)GetProcAddress(NtdllModule, "NtWow64ReadVirtualMemory64");

        PROCESS_BASIC_INFORMATION64 pbi = { 0 };
        UINT64 ReturnLength = 0;

        NTSTATUS Status = NtWow64QueryInformationProcess64(m_ProcessHandle, ProcessBasicInformation, &pbi, (UINT32)sizeof(pbi), (UINT32*)&ReturnLength);

        if (NT_SUCCESS(Status))
        {

            _PEB64* Peb = (_PEB64*)malloc(sizeof(_PEB64));
            RTL_USER_PROCESS_PARAMETERS64* ProcessParameters = (RTL_USER_PROCESS_PARAMETERS64*)malloc(sizeof(RTL_USER_PROCESS_PARAMETERS64));
            Status = NtWow64ReadVirtualMemory64(m_ProcessHandle, (PVOID64)pbi.PebBaseAddress,
                (_PEB64*)Peb, sizeof(_PEB64), &ReturnLength);


            cout << "PebBaseAddress:" << hex << pbi.PebBaseAddress << endl;
            cout << "Ldr:" << hex << Peb->Ldr << endl;
            cout << "ImageBaseAddress:" << hex << Peb->ImageBaseAddress << endl;
        }
    }

    //自己是32  目标是32
    else if (bTarget == TRUE && bSource == TRUE)
    {
        HMODULE NtdllModule = GetModuleHandle(L"ntdll.dll");
        pfnNtQueryInformationProcess NtQueryInformationProcess = (pfnNtQueryInformationProcess)GetProcAddress(NtdllModule,
            "NtQueryInformationProcess");
        PROCESS_BASIC_INFORMATION32 pbi = { 0 };
        UINT32  ReturnLength = 0;
        NTSTATUS Status = NtQueryInformationProcess(m_ProcessHandle,
            ProcessBasicInformation, &pbi, (UINT32)sizeof(pbi), (UINT32*)&ReturnLength);
        if (NT_SUCCESS(Status))
        {
            _PEB32* Peb = (_PEB32*)malloc(sizeof(_PEB32));
            ReadProcessMemory(m_ProcessHandle, (PVOID)pbi.PebBaseAddress, (_PEB32*)Peb, sizeof(_PEB32), NULL);
            printf("PEB:%x\r\n", pbi.PebBaseAddress);
            printf("LdrAddress:%x\r\n", ((_PEB32*)Peb)->Ldr);
            printf("ImageBaseAddress:%x\r\n", ((_PEB32*)Peb)->ImageBaseAddress);
        }
    }

    
        

    return 0;
}

有了PEB 则可以获得进程的各种信息,比如:模块、完整路径、命令行、环境变量、默认堆等等,参照结构体可得。

如何对PEB结构体不是很清楚,可以用windeg调试一下,attach到进程,然后使用!peb命令。

 

posted @ 2017-02-14 22:15  HsinTsao  阅读(7959)  评论(1编辑  收藏  举报