Hidden Rootkit Process Detection

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Introduction to Rootkits

Rootkits are one of the advanced species in today's every changing technical world. They are known for their sophisticated techniques to hide their presence often evading their detection from top notch Antiviruses and detection tools. Antivirus solutions often hit the wall when it comes to Rootkit detection and there is a greater need for dedicated Anti-Rootkit tools. Rootkits use combination of user land and kernel level techniques to evade their detection. In this article we will throw light on how userland Rootkits work under the hood and different techniques which can be used to detect such Rootkits. Though these methods are effective only against user land Rootkits, in some cases they can even detect kernel based Rootkits unless they haven't taken proper care to remove all those traces. Rootkits use combination of user land and kernel level techniques to evade their detection. In this article we will throw light on how userland Rootkits work under the hood and different techniques which can be used to detect such Rootkits. Though these methods are effective only against user land Rootkits, in some cases they can even detect kernel based Rootkits unless they haven't taken proper care to remove all those traces.

Userland Rootkits & their Hidden Operations

Userland Rootkits use different techniques to hide their process and to prevent its termination. One such method is to hook the NtOpenProcess function (OpenProcess API internally calls NtOpenProcess) and return negative result whenever Anti-Rootkit application try to open such process. As a result Rootkit process will remain hidden from any process viewer tools. This is just one of the method and often you will find more such internal functions such as NtQuerySystemInformation being hooked to filter out their process from the list.

Hidden Userland Rootkit Process Detection Methods

Detection of hidden process is equally challenging as Rootkit can employ one or more methods to cover its presence. Here are some of the very effective methods to detect such userland Rootkit processes.

All these detection methods work on common approach. First they get the list of all running processes using standard API functions such as EnumProcesses or Process32First. Then one or more special methods mentioned below are used to enumerate the processes. Finally this new process list is compared with previously obtained list and any new process found in this new list is detected as hidden rootkit process.

HPD using Direct NT System Call Implemenation

This is very effective method to detect any hidden userland rootkit processes. One of the lesser-known methods of enumerating the processes is to use NtQuerySystemInformation function by passing first parameter as SystemProcessesAndThreadsInformation. The drawback of this method is that it can be easily circumvented by hooking the NtQuerySystemInformation function and then by tampering with the results.

The NtQuerySystemInformation is basically stub having few lines of code to transition from user to kernel land. It finally calls the NtQuerySystemInformation function within the kernel. So the trick here is to implement the NtQuerySystemInformation without directly calling the function.

Here is the sample code that shows how one can directly implement NtQuerySystemInformation on various platforms. On Windows2000, INT 2E and from XP onwards 'sysenter' instruction is used to transition from user to kernel.

__declspec(naked) NTSTATUS __stdcall DirectNTQuerySystemInformation (ULONG SystemInformationClass, PVOID SystemInformation, ULONG SystemInformationLength, PULONG ReturnLength) { //For Windows 2000 if( OSMajorVersion == 5 && OSMinorVersion == 0 ) { __asm { mov eax, 0x97 lea edx, DWORD PTR ss:[esp+4] INT 0x2E ret 0x10 } } //For Windows XP if( OSMajorVersion == 5 && OSMinorVersion == 1 ) { __asm { mov eax, 0xAD call SystemCall_XP ret 0x10 SystemCall_XP: mov edx, esp sysenter } } //For Windows Vista & Longhorn if( OSMajorVersion == 6 && OSMinorVersion == 0 ) { __asm { mov eax, 0xF8 call SystemCall_VISTA ret 0x10 SystemCall_VISTA: mov edx, esp sysenter } } //For Windows 7 if( OSMajorVersion == 6 && OSMinorVersion == 1 ) { __asm { mov eax, 0x105 call SystemCall_WIN7 ret 0x10 SystemCall_WIN7: mov edx, esp sysenter } } } }

This technique can discover any userland rootkit process and only way for rootkit process to defeat against this technique is to move into kernel. However, due to low-level implementation, there is slight risk in using this method in production code.

HPD using PIDB (Process ID Bruteforce) method

This method was first used by BlackLight and it turned out to be very effective yet simple. Here, it enumerates through process id from 0 to 0x41DC and then check if that process exist by calling OpenProcess function. Then this list of discovered processes are compared with normal process list got using standard enumeration functions (such as Process32First, EnumProcesses functions).

During the testing, it is found that some process id on server machines were more than magic number 0x41DC. So in order to be effective the magic number is doubled to take care of all possible running processes on latest operating systems.

Here is the sample code that implements PIDB method:

for(int i=0; i < 0x83B8; i+=4) { //These are system idle and system processes if( i == 0 || i==4 ) { continue; } hprocess = OpenProcess (PROCESS_QUERY_INFORMATION | PROCESS_VM_READ, FALSE, i); if( hprocess == NULL ) { if( GetLastError() != ERROR_INVALID_PARAMETER) { // If the error code is other than // ERROR_INVALID_PARAMETER that means this // process exists but we are not able to open. //check if this process is already discovered //using standard API functions. if( IsHiddenProcess(i) ) { printf("

Hidden process found %d", i); } } continue; } dwExitCode = 0; GetExitCodeProcess(hprocess, &dwExitCode); // check if this is active process... // only active process will return error // code as ERROR_NO_MORE_ITEMS if( dwExitCode == ERROR_NO_MORE_ITEMS ) { //check if this process is already discovered if( IsHiddenProcess(i) ) { printf("

Hidden process found %d", i); } } CloseHandle(hprocess); }

Though this is very effective method, rootkit can easily defeat this technique by hooking OpenProcess or its native version NTOpenProcess function and then returning NULL with error code as ERROR_INVALID_PARAMETER. To defend against such tricks anti-rootkit softwares can call NtOpenProcess using direct system call method as shown in "Detection of Hidden Process using Direct NT System Call Implemenation".

HPD with CSRSS Process Handle Enumeration

Any windows process when run will have lot of open handles realted to process, thread, named objects, file, port, registry, etc. that can be used to detect hidden process. One can use the native API function. The effective way to enumerate handles is to use NtQuerySystemInformation with first parameter as SystemHandleInformation. It lists the handles from all running processes in the system. For each enumerated handle, it provides information such as handle, handle type and process id of the owning process. Hence, by enumerating through all the handles and then using the associated process id, one can detect all possible hidden processes that are not revealed through standard API functions.

There is one interesting system process called CSRSS.EXE, which holds the handles to all running processes. So instead of going through all the different handles, one can just scroll through the process handles of CSRSS.EXE process. Interestingly this method can, not only detect userland hidden processes but also some of the rootkit processes which have used kernel land techniques without taking care of hiding process handles within CSRSS.EXE process.

Here is the code snippet, which can demonstrate this method:

PVOID bufHandleTable = malloc(dwSize); status = NtQuerySystemInformation (SystemHandleInformation, bufHandleTable, dwSize, 0); SYSTEM_HANDLE_INFORMATION *HandleInfo = (SYSTEM_HANDLE_INFORMATION *) bufHandleTable; // Process handles within CSRSS will not have handle // to following processes system idle process, system // process, smss.exe, csrss.exe. for(int i=0; i< HandleInfo->NumberOfHandles; i++) { int pid = HandleInfo->Handles[i].UniqueProcessId; // For XP & 2K3 : HANDLE_TYPE_PROCESS = 0x5 // For Vista & Longhorn : HANDLE_TYPE_PROCESS = 0x6 if( HandleInfo->Handles[i].ObjectTypeIndex == HANDLE_TYPE_PROCESS) { //check if this process id is that of CSRSS.EXE process. if( IsCSRSSProcess(pid) ) { hprocess = OpenProcess(PROCESS_DUP_HANDLE, false, pid); if( hprocess ) { if( DuplicateHandle(hprocess, (HANDLE)HandleInfo->Handles[i].Handle, GetCurrentProcess(), &tprocess, PROCESS_QUERY_INFORMATION | PROCESS_VM_READ, FALSE, 0)) { targetPid = GetProcessId(tprocess); //check if this is hidden process if( IsHiddenProcess(targetPid) ) { printf("

Found hidden process %d", targetPid); } } }// End of if( hprocess ) } // End of if( IsCSRSSProcess(pid) ) } // End of if } // End of for-loop

Since the CSRSS.EXE is not first process started when Windows boots, it does not contains handles to already started processes such as system idle process(pid=0), system process (pid=4), smss.exe and its process itself.

On Windows Vista system it is possible to more than one CSRSS.EXE process in case of multiple users logged in. Same situation arises on XP system, when more than one user is operating through 'Switch User' mechanism. In such case, one has to check if the enumerated process belongs to any of these CSRSS process ids. The function IsCSRSSProcess() above does exactly the same by comparing the discovered process id with list of all running CSRSS.EXE processes.

One more way is to enumerate all thread handles within CSRSS process instead of process handles, as most rootkits are aware of this technique. The CSRSS process not only has process handles but also thread handles for every running processes. Once the thread handle is known, one can use GetProcessIdOfThread function to get process id associated with that thread after duplicating it.

Though any rootkit process can defeat this technique by hooking NtQuerySystemInformation or NtOpenProcess function, it can easily be circumvented by using direct implementation of these native API functions as described in the "Detection of Hidden Process using Direct NT System Call Implemenation".

Other Methods of Detecting Hidden Processes

There exists several other userland methods to detect hidden rootkit processes, but they are not as effective as the ones described above. However they can be used on need basis and often to target specific rootkit.

One such method is to enumerate through all the open Windows created by the processes within the system using EnumWindows API function and then calling the GetWindowThreadProcessId function to get the process id associated with that Window.

Here is the sample code that does the same...

//Setup the callback function to enumerate through windows EnumWindows(EnumWindowsProc, NULL); //This is callback function to enumerate windows BOOL CALLBACK EnumWindowsProc(HWND hwnd, PARAM lParam) { DWORD procId; GetWindowThreadProcessId(hwnd, &procId); if( IsHiddenProcess(procId) ) { printf("Found hidden process %d", procId); } }

There exist several other ways to detect the hidden processes in user land and new ways are being discovered everyday. Though these detection techniques can be easily defeated from kernel land, they present simple and less risky mechanism to uncover the userland rootkits.

References