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An application whitelist is a list of approved software applications or executables that are allowed to be present and run on a system. The goal is to protect the environment from harmful malware and unapproved software that does not align with the specific business needs of an organization.
[AppLocker](https://docs.microsoft.com/en-us/windows/security/threat-protection/windows-defender-application-control/applocker/what-is-applocker) is Microsoft's **application whitelisting solution** and gives system administrators control over **which applications and files users can run**. It provides **granular control** over executables, scripts, Windows installer files, DLLs, packaged apps, and packed app installers.\
This registry path contains the configurations and policies applied by AppLocker, providing a way to review the current set of rules enforced on the system:
* Useful **Writable folders** to bypass AppLocker Policy: If AppLocker is allowing to execute anything inside `C:\Windows\System32` or `C:\Windows` there are **writable folders** you can use to **bypass this**.
* Commonly **trusted** [**"LOLBAS's"**](https://lolbas-project.github.io/) binaries can be also useful to bypass AppLocker.
* **Poorly written rules could also be bypassed**
* For example, **`<FilePathCondition Path="%OSDRIVE%*\allowed*"/>`**, you can create a **folder called `allowed`** anywhere and it will be allowed.
* Organizations also often focus on **blocking the `%System32%\WindowsPowerShell\v1.0\powershell.exe` executable**, but forget about the **other** [**PowerShell executable locations**](https://www.powershelladmin.com/wiki/PowerShell\_Executables\_File\_System\_Locations) such as `%SystemRoot%\SysWOW64\WindowsPowerShell\v1.0\powershell.exe` or `PowerShell_ISE.exe`.
* **DLL enforcement very rarely enabled** due to the additional load it can put on a system, and the amount of testing required to ensure nothing will break. So using **DLLs as backdoors will help bypassing AppLocker**.
* You can use [**ReflectivePick**](https://github.com/PowerShellEmpire/PowerTools/tree/master/PowerPick) or [**SharpPick**](https://github.com/PowerShellEmpire/PowerTools/tree/master/PowerPick) to **execute Powershell** code in any process and bypass AppLocker. For more info check: [https://hunter2.gitbook.io/darthsidious/defense-evasion/bypassing-applocker-and-powershell-contstrained-language-mode](https://hunter2.gitbook.io/darthsidious/defense-evasion/bypassing-applocker-and-powershell-contstrained-language-mode).
## Credentials Storage
### Security Accounts Manager (SAM)
Local credentials are present in this file, the passwords are hashed.
### Local Security Authority (LSA) - LSASS
The **credentials** (hashed) are **saved** in the **memory** of this subsystem for Single Sign-On reasons.\
**LSA** administrates the local **security policy** (password policy, users permissions...), **authentication**, **access tokens**...\
LSA will be the one that will **check** for provided credentials inside the **SAM** file (for a local login) and **talk** with the **domain controller** to authenticate a domain user.
The **credentials** are **saved** inside the **process LSASS**: Kerberos tickets, hashes NT and LM, easily decrypted passwords.
### LSA secrets
LSA could save in disk some credentials:
* Password of the computer account of the Active Directory (unreachable domain controller).
* Passwords of the accounts of Windows services
* Passwords for scheduled tasks
* More (password of IIS applications...)
### NTDS.dit
It is the database of the Active Directory. It is only present in Domain Controllers.
[**Microsoft Defender**](https://en.wikipedia.org/wiki/Microsoft\_Defender) is an Antivirus that is available in Windows 10 and Windows 11, and in versions of Windows Server. It **blocks** common pentesting tools such as **`WinPEAS`**. However, there are ways to **bypass these protections**.
To check the **status** of **Defender** you can execute the PS cmdlet **`Get-MpComputerStatus`** (check the value of **`RealTimeProtectionEnabled`** to know if it's active):
EFS secures files through encryption, utilizing a **symmetric key** known as the **File Encryption Key (FEK)**. This key is encrypted with the user's **public key** and stored within the encrypted file's $EFS **alternative data stream**. When decryption is needed, the corresponding **private key** of the user's digital certificate is used to decrypt the FEK from the $EFS stream. More details can be found [here](https://en.wikipedia.org/wiki/Encrypting_File_System).
- When files or folders are moved to a non-EFS file system, like [FAT32](https://en.wikipedia.org/wiki/File_Allocation_Table), they are automatically decrypted.
- Encrypted files sent over the network via SMB/CIFS protocol are decrypted prior to transmission.
This encryption method allows **transparent access** to encrypted files for the owner. However, simply changing the owner's password and logging in will not permit decryption.
Check if a **user** has **used** this **service** checking if this path exists:`C:\users\<username>\appdata\roaming\Microsoft\Protect`
Check **who** has **access** to the file using cipher /c \<file>\
You can also use `cipher /e` and `cipher /d` inside a folder to **encrypt** and **decrypt** all the files
### Decrypting EFS files
#### Being Authority System
This way requires the **victim user** to be **running** a **process** inside the host. If that is the case, using a `meterpreter` sessions you can impersonate the token of the process of the user (`impersonate_token` from `incognito`). Or you could just `migrate` to process of the user.
Microsoft developed **Group Managed Service Accounts (gMSA)** to simplify the management of service accounts in IT infrastructures. Unlike traditional service accounts that often have the "**Password never expire**" setting enabled, gMSAs offer a more secure and manageable solution:
- **Automatic Password Management**: gMSAs use a complex, 240-character password that automatically changes according to domain or computer policy. This process is handled by Microsoft's Key Distribution Service (KDC), eliminating the need for manual password updates.
- **Enhanced Security**: These accounts are immune to lockouts and cannot be used for interactive logins, enhancing their security.
- **Multiple Host Support**: gMSAs can be shared across multiple hosts, making them ideal for services running on multiple servers.
- **Scheduled Task Capability**: Unlike managed service accounts, gMSAs support running scheduled tasks.
- **Simplified SPN Management**: The system automatically updates the Service Principal Name (SPN) when there are changes to the computer's sAMaccount details or DNS name, simplifying SPN management.
The passwords for gMSAs are stored in the LDAP property _**msDS-ManagedPassword**_ and are automatically reset every 30 days by Domain Controllers (DCs). This password, an encrypted data blob known as [MSDS-MANAGEDPASSWORD_BLOB](https://docs.microsoft.com/en-us/openspecs/windows_protocols/ms-adts/a9019740-3d73-46ef-a9ae-3ea8eb86ac2e), can only be retrieved by authorized administrators and the servers on which the gMSAs are installed, ensuring a secure environment. To access this information, a secured connection such as LDAPS is required, or the connection must be authenticated with 'Sealing & Secure'.
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**.
The **Local Administrator Password Solution (LAPS)**, available for download from [Microsoft](https://www.microsoft.com/en-us/download/details.aspx?id=46899), enables the management of local Administrator passwords. These passwords, which are **randomized**, unique, and **regularly changed**, are stored centrally in Active Directory. Access to these passwords is restricted through ACLs to authorized users. With sufficient permissions granted, the ability to read local admin passwords is provided.
PowerShell [**Constrained Language Mode**](https://devblogs.microsoft.com/powershell/powershell-constrained-language-mode/) **locks down many of the features** needed to use PowerShell effectively, such as blocking COM objects, only allowing approved .NET types, XAML-based workflows, PowerShell classes, and more.
**To compile it you may need** **to**_**Add a Reference**_ -> _Browse_ ->_Browse_ -> add `C:\Windows\Microsoft.NET\assembly\GAC_MSIL\System.Management.Automation\v4.0_3.0.0.0\31bf3856ad364e35\System.Management.Automation.dll` and **change the project to .Net4.5**.
You can use [**ReflectivePick**](https://github.com/PowerShellEmpire/PowerTools/tree/master/PowerPick) or [**SharpPick**](https://github.com/PowerShellEmpire/PowerTools/tree/master/PowerPick) to **execute Powershell** code in any process and bypass the constrained mode. For more info check: [https://hunter2.gitbook.io/darthsidious/defense-evasion/bypassing-applocker-and-powershell-contstrained-language-mode](https://hunter2.gitbook.io/darthsidious/defense-evasion/bypassing-applocker-and-powershell-contstrained-language-mode).
The SSPI will be in charge of finding the adequate protocol for two machines that want to communicate. The preferred method for this is Kerberos. Then the SSPI will negotiate which authentication protocol will be used, these authentication protocols are called Security Support Provider (SSP), are located inside each Windows machine in the form of a DLL and both machines must support the same to be able to communicate.
### Main SSPs
* **Kerberos**: The preferred one
* %windir%\Windows\System32\kerberos.dll
* **NTLMv1** and **NTLMv2**: Compatibility reasons
* %windir%\Windows\System32\msv1\_0.dll
* **Digest**: Web servers and LDAP, password in form of a MD5 hash
* %windir%\Windows\System32\Wdigest.dll
* **Schannel**: SSL and TLS
* %windir%\Windows\System32\Schannel.dll
* **Negotiate**: It is used to negotiate the protocol to use (Kerberos or NTLM being Kerberos the default one)
* %windir%\Windows\System32\lsasrv.dll
#### The negotiation could offer several methods or only one.
[User Account Control (UAC)](https://docs.microsoft.com/en-us/windows/security/identity-protection/user-account-control/how-user-account-control-works) is a feature that enables a **consent prompt for elevated activities**.
Use [**Trickest**](https://trickest.com/?utm\_campaign=hacktrics\&utm\_medium=banner\&utm\_source=hacktricks) to easily build and **automate workflows** powered by the world's **most advanced** community tools.\
<summary><strong>Learn AWS hacking from zero to hero with</strong><ahref="https://training.hacktricks.xyz/courses/arte"><strong>htARTE (HackTricks AWS Red Team Expert)</strong></a><strong>!</strong></summary>
* If you want to see your **company advertised in HackTricks** or **download HackTricks in PDF** Check the [**SUBSCRIPTION PLANS**](https://github.com/sponsors/carlospolop)!
* **Join the** 💬 [**Discord group**](https://discord.gg/hRep4RUj7f) or the [**telegram group**](https://t.me/peass) or **follow** us on **Twitter** 🐦 [**@carlospolopm**](https://twitter.com/hacktricks_live)**.**
* **Share your hacking tricks by submitting PRs to the** [**HackTricks**](https://github.com/carlospolop/hacktricks) and [**HackTricks Cloud**](https://github.com/carlospolop/hacktricks-cloud) github repos.