APC注入(Ring3层)
/*
步骤:
1.提权(GrantDebugPrivileges)
(1)获得令牌token,OpenThreadToken(),OpenProcessToken ()
WINADVAPI
BOOL
WINAPI
OpenThreadToken(
_In_ HANDLE ThreadHandle,
_In_ DWORD DesiredAccess,
_In_ BOOL OpenAsSelf,
_Outptr_ PHANDLE TokenHandle
);
OpenAsSelf参数
[in] true 指定应使用调用线程的进程安全上下文执行访问检查;
false 指定应使用调用线程本身的安全上下文执行访问检查。
如果线程正在模拟客户端,则此安全上下文可以是一个客户端进程的安全上下文。
WINADVAPI
BOOL
WINAPI
OpenProcessToken(
_In_ HANDLE ProcessHandle,
_In_ DWORD DesiredAccess,
_Outptr_ PHANDLE TokenHandle
);
(2)将提升的权限放到TokenPrivileges结构中
WINADVAPI
BOOL
WINAPI
AdjustTokenPrivileges(
_In_ HANDLE TokenHandle,
_In_ BOOL DisableAllPrivileges, 标志这个函数是否禁用该令牌的所有特权.如果为TRUE,这个函数禁用所有特权,NewState参数无效.
如果为假,以NewState参数指针的信息为基础来修改特权.
_In_opt_ PTOKEN_PRIVILEGES NewState,
_In_ DWORD BufferLength,
_Out_writes_bytes_to_opt_(BufferLength, *ReturnLength) PTOKEN_PRIVILEGES PreviousState,
_Out_opt_ PDWORD ReturnLength
);
(3)将获取的令牌TokenHandle与TokenPrivileges结构关联
2.通过进程ImageName获取进程ID(GetProcessIDByProcessImageName)
(1)给系统的所有进程快照ProcessSnapshotHandle
函数原型:
HANDLE WINAPI CreateToolhelp32Snapshot(
DWORD dwFlags, //用来指定“快照”中需要返回的对象,可以是TH32CS_SNAPPROCESS等
DWORD th32ProcessID //一个进程ID号,用来指定要获取哪一个进程的快照,当获取系统进程列表或获取 当前进程快照时可以设为0
);
指定快照中包含的系统内容,dwFlags这个参数能够使用下列数值(常量)中的一个或多个。
TH32CS_INHERIT - 声明快照句柄是可继承的。
TH32CS_SNAPALL - 在快照中包含系统中所有的进程和线程。
TH32CS_SNAPHEAPLIST - 在快照中包含在th32ProcessID中指定的进程的所有的堆。
TH32CS_SNAPMODULE - 在快照中包含在th32ProcessID中指定的进程的所有的模块。
TH32CS_SNAPPROCESS - 在快照中包含系统中所有的进程。
TH32CS_SNAPTHREAD - 在快照中包含系统中所有的线程。
#define TH32CS_SNAPHEAPLIST 0x00000001
#define TH32CS_SNAPPROCESS 0x00000002
#define TH32CS_SNAPTHREAD 0x00000004
#define TH32CS_SNAPMODULE 0x00000008
#define TH32CS_SNAPMODULE32 0x00000010
#define TH32CS_SNAPALL (TH32CS_SNAPHEAPLIST | TH32CS_SNAPPROCESS | TH32CS_SNAPTHREAD | TH32CS_SNAPMODULE)
#define TH32CS_INHERIT 0x80000000
(2)通过PROCESSENTRY32结构得到ProcessID
PROCESSENTRY32,用来存放快照进程信息的一个结构体。(存放进程信息和调用成员输出进程信息)
用来 Process32First指向第一个进程信息,并将进程信息抽取到PROCESSENTRY32中。
用Process32Next指向下一条进程信息。
typedef struct tagPROCESSENTRY32
{
DWORD dwSize;
DWORD cntUsage;
DWORD th32ProcessID; // this process
ULONG_PTR th32DefaultHeapID;
DWORD th32ModuleID; // associated exe
DWORD cntThreads;
DWORD th32ParentProcessID; // this process's parent process
LONG pcPriClassBase; // Base priority of process's threads
DWORD dwFlags;
CHAR szExeFile[MAX_PATH]; // Path
} PROCESSENTRY32;
process32First,Process32Next是两个个进程获取函数,当我们利用函数CreateToolhelp32Snapshot()获得当前运行进程的快照后,
我们可以利用process32First函数来获得第一个进程的句柄,利用Process32Next函数来获得下一个进程的句柄。
3.通过进程ID获取线程ID(GetThreadIDByProcessID) 触发异常,分配出物理内存
4.注入
(1)在对方进程空间申请内存,
LPVOID
WINAPI
VirtualAllocEx(
_In_ HANDLE hProcess,
_In_opt_ LPVOID lpAddress,
_In_ SIZE_T dwSize,
_In_ DWORD flAllocationType,
_In_ DWORD flProtect
);
flAllocationType参数设置:MEM_COMMIT | MEM_RESERVE
(如果物理内存申请失败,将保留进程的虚拟地址空间,到真正执行时,会触发异常,进行物理内存分配)
MEM_COMMIT:为特定的页面区域分配内存中或磁盘的页面文件中的物理存储
MEM_RESERVE:保留进程的虚拟地址空间,而不分配任何物理存储。保留页面可通过继续调用VirtualAlloc()而被占用
(2)将DllFullPath写入内存当中
WriteProcessMemory()函数能写入某一进程的内存区域。入口区必须可以访问,否则操作将失败。
BOOL
WINAPI
WriteProcessMemory(
_In_ HANDLE hProcess,
_In_ LPVOID lpBaseAddress,
_In_reads_bytes_(nSize) LPCVOID lpBuffer,
_In_ SIZE_T nSize,
_Out_opt_ SIZE_T * lpNumberOfBytesWritten
);
(3)加载dll文件
LoadLibraryWAddress = (UINT_PTR)GetProcAddress(GetModuleHandle(L"kernel32.dll"), "LoadLibraryW");
//从当前进程中获得导入模块kernel32.dll的基地址,从kernel32.dll模块中的导出表中获得函数LoadLibraryW
//目的 1.防止IAT HOOK(ImportAddressTable) 2.确保地址正确(不同虚拟地址映射到同一物理地址)
*/
#include "stdafx.h"
#include<Windows.h>
#include<ntstatus.h>
#include<iostream>
#include<vector>
#include<TlHelp32.h>
using namespace std;
BOOL GrantPriviledge(IN PWCHAR PriviledgeName);
BOOL GetProcessIDByProcessImageName(IN PWCHAR wzProcessImageName, OUT PUINT32 TargetProcessID);
BOOL GetThreadIDByProcessID(IN UINT32 ProcessID, OUT vector<UINT32>&ThreadIDVector);
BOOL InjectByAPC(IN UINT32 ProcessID,OUT UINT32 ThreadID);
WCHAR DllFullPath[MAX_PATH] = { 0 }; //MAX_PATH 260
PVOID DllFullPathBufferData = NULL;
UINT_PTR LoadLibraryWAddress = 0;
int main()
{
//1.提权
if (GrantPriviledge(SE_DEBUG_NAME) == false)
{
printf("GrantPriviledge Error.\n");
}
//2.Dll路径
GetCurrentDirectoryW(MAX_PATH, DllFullPath);
//#ifdef _WIN64
wcscat(DllFullPath, L"\\Dll.dll");
//#else
// wcscat(DllFullPath, L"\\Dll.dll");
//#endif
// LoadLibrary(DllFullPath);
//3.获取进程ID
UINT32 ProcessID = -1; //idol进程ID为0
GetProcessIDByProcessImageName(L"explorer.exe",&ProcessID);
//4.获取线程ID_Vector
vector<UINT32> ThreadIDVector;
if (GetThreadIDByProcessID(ProcessID,ThreadIDVector) == false)
{
return 0;
}
//5.注入
size_t ThreadCount = ThreadIDVector.size();
for (INT_PTR i = ThreadCount - 1; i >= 0; i--) //INT_PTR
{
UINT32 ThreadID = ThreadIDVector[i];
InjectByAPC(ProcessID,ThreadID);
}
}
BOOL GrantPriviledge(PWCHAR PriviledgeName)
{
TOKEN_PRIVILEGES TokenPrivileges, Oldprivileges;
DWORD dwReturnLength = sizeof(Oldprivileges);
HANDLE TokenHandle = INVALID_HANDLE_VALUE;
LUID uID; //LUID 64位
//打开权限令牌
if (!OpenThreadToken(GetCurrentThread(), TOKEN_ADJUST_PRIVILEGES | TOKEN_QUERY, false, &TokenHandle))
{
if (GetLastError() != ERROR_NO_TOKEN)
{
return false;
}
if (!OpenProcessToken(GetCurrentProcess(), TOKEN_ADJUST_PRIVILEGES | TOKEN_QUERY, &TokenHandle))
{
return false;
}
}
//LookupPrivilegeValue()函数查看系统权限的特权值,返回信息到一个LUID结构体里
if (!LookupPrivilegeValue(NULL,PriviledgeName,&uID))
{
CloseHandle(TokenHandle);
return false;
}
TokenPrivileges.PrivilegeCount = 1; //要提升的权限个数
TokenPrivileges.Privileges[0].Attributes = SE_PRIVILEGE_ENABLED;
TokenPrivileges.Privileges[0].Luid = uID;
//调整权限
if (!AdjustTokenPrivileges(TokenHandle, false, &TokenPrivileges, sizeof(TOKEN_PRIVILEGES), &Oldprivileges, &dwReturnLength))
{
CloseHandle(TokenHandle);
return false;
}
CloseHandle(TokenHandle);
return true;
}
BOOL GetProcessIDByProcessImageName(IN PWCHAR wzProcessImageName, OUT PUINT32 ProcessID)
{
HANDLE ProcessSnapshotHandle = INVALID_HANDLE_VALUE;
ProcessSnapshotHandle = CreateToolhelp32Snapshot(TH32CS_SNAPPROCESS, 0); //给系统的所有进程快照
if (ProcessSnapshotHandle == INVALID_HANDLE_VALUE)
{
return false;
}
PROCESSENTRY32 ProcessEntry32 = { 0 };
ProcessEntry32.dwSize = sizeof(PROCESSENTRY32); //初始化PROCESSENTRY32结构
Process32First(ProcessSnapshotHandle, &ProcessEntry32);
do
{
if (lstrcmpi(ProcessEntry32.szExeFile, wzProcessImageName) == 0) //不区分大小写 双字
{
*ProcessID = ProcessEntry32.th32ProcessID;
break;
}
} while (Process32Next(ProcessSnapshotHandle, &ProcessEntry32)); //BOOL型返回值
CloseHandle(ProcessSnapshotHandle);
ProcessSnapshotHandle = INVALID_HANDLE_VALUE;
return true;
}
//枚举指定进程ID的所有线程,压入模板中,返回线程模板集合
BOOL GetThreadIDByProcessID(IN UINT32 ProcessID, OUT vector<UINT32>&ThreadIDVector)
{
HANDLE ThreadSnapshotHandle = INVALID_HANDLE_VALUE;
THREADENTRY32 ThreadEntry32 = { 0 };
ThreadEntry32.dwSize = sizeof(THREADENTRY32);
ThreadSnapshotHandle = CreateToolhelp32Snapshot(TH32CS_SNAPTHREAD, 0);
if (ThreadSnapshotHandle == INVALID_HANDLE_VALUE)
{
return false;
}
Thread32First(ThreadSnapshotHandle, &ThreadEntry32);
do
{
if (ThreadEntry32.th32OwnerProcessID == ProcessID)
{
ThreadIDVector.emplace_back(ThreadEntry32.th32ThreadID); //将线程ID压入模板
}
} while (Thread32Next(ThreadSnapshotHandle, &ThreadEntry32));
CloseHandle(ThreadSnapshotHandle);
ThreadSnapshotHandle = NULL;
return true;
}
BOOL InjectByAPC(UINT32 ProcessID, UINT32 ThreadID)
{
HANDLE ProcessHandle = OpenProcess(PROCESS_ALL_ACCESS, false, ProcessID);
HANDLE ThreadHandle = INVALID_HANDLE_VALUE;
SIZE_T DllFullPathLength = (wcslen(DllFullPath) + 1) * 2;
//SIZE_T DllFullPathSize = DllFullPathLength
SIZE_T ReturnLength = 0;
BOOL bOK = false;
//在对方进程空间申请内存
if (DllFullPathBufferData == NULL)
{
DllFullPathBufferData = VirtualAllocEx(ProcessHandle, NULL, DllFullPathLength, MEM_COMMIT | MEM_RESERVE, PAGE_EXECUTE_READWRITE);
if (DllFullPathBufferData == NULL)
{
CloseHandle(ProcessHandle);
return false;
}
//将DllFullPath写入内存当中
BOOL bOK = WriteProcessMemory(ProcessHandle, DllFullPathBufferData, DllFullPath, (wcslen(DllFullPath) + 1)*2, &ReturnLength);
if (bOK == false)
{
VirtualFree(DllFullPathBufferData, DllFullPathLength,MEM_RELEASE);
CloseHandle(ProcessHandle);
return false;
}
}
//从当前进程中获得导入模块kernel32.dll的基地址,从kernel32.dll模块中的导出表中获得函数LoadLibraryW
//目的 1.防止IAT HOOK(ImportAddressTable) 2.确保地址正确(不同虚拟地址映射到同一物理地址)
LoadLibraryWAddress = (UINT_PTR)GetProcAddress(GetModuleHandle(L"kernel32.dll"), "LoadLibraryW");
if (LoadLibraryWAddress == NULL)
{
VirtualFree(DllFullPathBufferData, DllFullPathLength, MEM_RELEASE);
CloseHandle(ProcessHandle);
return false;
}
__try
{
ThreadHandle = OpenThread(THREAD_ALL_ACCESS, false, ThreadID);
QueueUserAPC((PAPCFUNC)LoadLibraryWAddress, ThreadHandle, (UINT_PTR)DllFullPathBufferData);
//可执行IO?
}
__except(EXCEPTION_CONTINUE_EXECUTION)
{
}
CloseHandle(ProcessHandle);
CloseHandle(ThreadHandle);
return true;
}