Windows - Weaponizing privileged file writes with the Update Session Orchestrator service
:warning: 2020-06-06 Update: this trick no longer works on the latest builds of Windows 10 Insider Preview. This means that, although it still works on the mainstream version of Windows 10, you should expect it to be patched in the coming months.
This PoC shows a technique that can be used to weaponize privileged file write vulnerabilities on Windows. It provides an alternative to the DiagHub DLL loading "exploit" found by James Forshaw (a.k.a. @tiraniddo), which was fixed by Microsoft starting from build version 1903.
Starting from Windows 10, Microsoft introduced the Update Session Orchestrator
service. As a regular user, you can interact with this service using COM, and start an "update scan" (i.e. check whether updates are available) or start the download of pending updates for example. There is even an undocumented built-in tool called usoclient.exe
, which serves that purpose.
From an attacker's standpoint, this service is interesting because it runs as NT AUTHORITY\System
and it tries to load a non-existent DLL (windowscoredeviceinfo.dll
) whenever an Update Session is created.
This means that, if we found a privileged file write vulnerability in Windows or in some third-party software, we could copy our own version of windowscoredeviceinfo.dll
into C:\Windows\Sytem32\
and then have it loaded by the USO service to get arbitrary code execution as NT AUTHORITY\System
.
For more information:
Part 1 - https://itm4n.github.io/usodllloader-part1/
Part 2 - https://itm4n.github.io/usodllloader-part2/
This solution is composed of two projects: WindowsCoreDeviceInfo and UsoDllLoader.
It provides a PoC DLL that will start a bind shell on port 1337 (localhost only), whenever the QueryDeviceInformation()
function is called. That's the name of the function used by the USO workers.
It's a stripped-down version of usoclient.exe
. It can be run as a regular user to interact with the USO service and have it load windowscoredeviceinfo.dll
. Then, it will try to connect to the bind shell. In case of errors, please read the "Known issues" section.
The solution is already preconfigured so compiling should be easy. I'm using Visual Studio 2019. It might not work with older versions.
Release
config and x64
architecure..\x64\Release\WindowsCoreDeviceInfo.dll
and the loader .\x64\Release\UsoDllLoader.exe
.For testing purposes, you can:
WindowsCoreDeviceInfo.dll
to C:\Windows\System32\
.NT AUTHORITY\SYSTEM
.If UsoDllLoader.exe
fails, you can do the above manually.
WindowsCoreDeviceInfo.dll
to C:\Windows\System32\
.usoclient StartInteractiveScan
as a regular user. Note that you won't get any feedback from the command.nc.exe 127.0.0.1 1337
to connect to the bindshell.This method will probably fail if one or several updates are waiting to be installed, or if updates are being installed.
Depending on the version of Windows, UsoDllLoader.exe
might fail with various error codes. I didn't investigate these issues too much. The reason for this is that it's only a PoC, which I developped for convenience. What matters the most is the DLL, not the loader. See "Usage 2" for more details.