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Red Teaming Experiments
  • What is this iRed.team?
  • Pinned
    • Pentesting Cheatsheets
      • SQL Injection & XSS Playground
    • Active Directory & Kerberos Abuse
      • From Domain Admin to Enterprise Admin
      • Kerberoasting
      • Kerberos: Golden Tickets
      • Kerberos: Silver Tickets
      • AS-REP Roasting
      • Kerberoasting: Requesting RC4 Encrypted TGS when AES is Enabled
      • Kerberos Unconstrained Delegation
      • Kerberos Constrained Delegation
      • Kerberos Resource-based Constrained Delegation: Computer Object Take Over
      • Domain Compromise via DC Print Server and Kerberos Delegation
      • DCShadow - Becoming a Rogue Domain Controller
      • DCSync: Dump Password Hashes from Domain Controller
      • PowerView: Active Directory Enumeration
      • Abusing Active Directory ACLs/ACEs
      • Privileged Accounts and Token Privileges
      • From DnsAdmins to SYSTEM to Domain Compromise
      • Pass the Hash with Machine$ Accounts
      • BloodHound with Kali Linux: 101
      • Backdooring AdminSDHolder for Persistence
      • Active Directory Enumeration with AD Module without RSAT or Admin Privileges
      • Enumerating AD Object Permissions with dsacls
      • Active Directory Password Spraying
  • offensive security
    • Red Team Infrastructure
      • HTTP Forwarders / Relays
      • SMTP Forwarders / Relays
      • Phishing with Modlishka Reverse HTTP Proxy
      • Automating Red Team Infrastructure with Terraform
      • Cobalt Strike 101
      • Powershell Empire 101
      • Spiderfoot 101 with Kali using Docker
    • Initial Access
      • Password Spraying Outlook Web Access: Remote Shell
      • Phishing with MS Office
        • Phishing: XLM / Macro 4.0
        • T1173: Phishing - DDE
        • T1137: Phishing - Office Macros
        • Phishing: OLE + LNK
        • Phishing: Embedded Internet Explorer
        • Phishing: .SLK Excel
        • Phishing: Replacing Embedded Video with Bogus Payload
        • Inject Macros from a Remote Dotm Template
        • Bypassing Parent Child / Ancestry Detections
        • Phishing: Embedded HTML Forms
      • Phishing with GoPhish and DigitalOcean
      • Forced Authentication
      • NetNTLMv2 hash stealing using Outlook
    • Code Execution
      • T1117: regsvr32
      • T1170: MSHTA
      • T1196: Control Panel Item
      • Executing Code as a Control Panel Item through an Exported Cplapplet Function
      • Code Execution through Control Panel Add-ins
      • T1191: CMSTP
      • T1118: InstallUtil
      • Using MSBuild to Execute Shellcode in C#
      • T1202: Forfiles Indirect Command Execution
      • Application Whitelisting Bypass with WMIC and XSL
      • Powershell Without Powershell.exe
      • Powershell Constrained Language Mode ByPass
      • Forcing Iexplore.exe to Load a Malicious DLL via COM Abuse
      • T1216: pubprn.vbs Signed Script Code Execution
    • Code & Process Injection
      • CreateRemoteThread Shellcode Injection
      • DLL Injection
      • Reflective DLL Injection
      • Shellcode Reflective DLL Injection
      • Process Doppelganging
      • Loading and Executing Shellcode From PE Resources
      • Process Hollowing and Portable Executable Relocations
      • APC Queue Code Injection
      • Early Bird APC Queue Code Injection
      • Shellcode Execution in a Local Process with QueueUserAPC and NtTestAlert
      • Shellcode Execution through Fibers
      • Shellcode Execution via CreateThreadpoolWait
      • Local Shellcode Execution without Windows APIs
      • Injecting to Remote Process via Thread Hijacking
      • SetWindowHookEx Code Injection
      • Finding Kernel32 Base and Function Addresses in Shellcode
      • Executing Shellcode with Inline Assembly in C/C++
      • Writing Custom Shellcode Encoders and Decoders
      • Backdooring PE Files with Shellcode
      • NtCreateSection + NtMapViewOfSection Code Injection
      • AddressOfEntryPoint Code Injection without VirtualAllocEx RWX
      • Module Stomping for Shellcode Injection
      • PE Injection: Executing PEs inside Remote Processes
      • API Monitoring and Hooking for Offensive Tooling
      • Windows API Hooking
      • Import Adress Table (IAT) Hooking
      • DLL Injection via a Custom .NET Garbage Collector
      • Writing and Compiling Shellcode in C
      • Injecting .NET Assembly to an Unmanaged Process
    • Defense Evasion
      • AV Bypass with Metasploit Templates and Custom Binaries
      • Evading Windows Defender with 1 Byte Change
      • Bypassing Windows Defender: One TCP Socket Away From Meterpreter and Beacon Sessions
      • Bypassing Cylance and other AVs/EDRs by Unhooking Windows APIs
      • Windows API Hashing in Malware
      • Detecting Hooked Syscalls
      • Calling Syscalls Directly from Visual Studio to Bypass AVs/EDRs
      • Retrieving ntdll Syscall Stubs from Disk at Run-time
      • Full DLL Unhooking with C++
      • Enumerating RWX Protected Memory Regions for Code Injection
      • Disabling Windows Event Logs by Suspending EventLog Service Threads
      • T1027: Obfuscated Powershell Invocations
      • Masquerading Processes in Userland via _PEB
      • Commandline Obfusaction
      • File Smuggling with HTML and JavaScript
      • T1099: Timestomping
      • T1096: Alternate Data Streams
      • T1158: Hidden Files
      • T1140: Encode/Decode Data with Certutil
      • Downloading Files with Certutil
      • T1045: Packed Binaries
      • Unloading Sysmon Driver
      • Bypassing IDS Signatures with Simple Reverse Shells
      • Preventing 3rd Party DLLs from Injecting into your Malware
      • ProcessDynamicCodePolicy: Arbitrary Code Guard (ACG)
      • Parent Process ID (PPID) Spoofing
      • Executing C# Assemblies from Jscript and wscript with DotNetToJscript
    • Enumeration and Discovery
      • Windows Event IDs and Others for Situational Awareness
      • Enumerating COM Objects and their Methods
      • Enumerating Users without net, Services without sc and Scheduled Tasks without schtasks
      • Enumerating Windows Domains with rpcclient through SocksProxy == Bypassing Command Line Logging
      • Dump GAL from OWA
      • T1010: Application Window Discovery
      • T1087: Account Discovery & Enumeration
      • Using COM to Enumerate Hostname, Username, Domain, Network Drives
      • Detecting Sysmon on the Victim Host
    • Privilege Escalation
      • T1134: Primary Access Token Manipulation
      • Windows NamedPipes 101 + Privilege Escalation
      • T1038: DLL Hijacking
      • T1108: WebShells
      • T1183: Image File Execution Options Injection
      • Unquoted Service Paths
      • Pass The Hash: Privilege Escalation with Invoke-WMIExec
      • Environment Variable $Path Interception
      • Weak Service Permissions
    • Credential Access & Dumping
      • Dumping Credentials from Lsass Process Memory with Mimikatz
      • Dumping Lsass Without Mimikatz
      • Dumping Lsass without Mimikatz with MiniDumpWriteDump
      • Dumping Hashes from SAM via Registry
      • Dumping SAM via esentutl.exe
      • Dumping LSA Secrets
      • Dumping and Cracking mscash - Cached Domain Credentials
      • Dumping Domain Controller Hashes Locally and Remotely
      • Dumping Domain Controller Hashes via wmic and Vssadmin Shadow Copy
      • Network vs Interactive Logons
      • Reading DPAPI Encrypted Secrets with Mimikatz and C++
      • T1214: Credentials in Registry
      • T1174: Password Filter
      • Forcing WDigest to Store Credentials in Plaintext
      • Dumping Delegated Default Kerberos and NTLM Credentials w/o Touching Lsass
      • Intercepting Logon Credentials via Custom Security Support Provider and Authentication Packages
      • Pulling Web Application Passwords by Hooking HTML Input Fields
      • Intercepting Logon Credentials by Hooking msv1_0!SpAcceptCredentials
      • Credentials Collection via CredUIPromptForCredentials
    • Lateral Movement
      • T1028: WinRM for Lateral Movement
      • WinRS for Lateral Movement
      • T1047: WMI for Lateral Movement
      • T1076: RDP Hijacking for Lateral Movement with tscon
      • T1051: Shared Webroot
      • T1175: Lateral Movement via DCOM
      • WMI + MSI Lateral Movement
      • Lateral Movement via Service Configuration Manager
      • Lateral Movement via SMB Relaying
      • WMI + NewScheduledTaskAction Lateral Movement
      • WMI + PowerShell Desired State Configuration Lateral Movement
      • Simple TCP Relaying with NetCat
      • Empire Shells with NetNLTMv2 Relaying
      • Lateral Movement with Psexec
      • From Beacon to Interactive RDP Session
      • SSH Tunnelling / Port Forwarding
      • Lateral Movement via WMI Event Subscription
      • Lateral Movement via DLL Hijacking
      • Lateral Movement over headless RDP with SharpRDP
      • ShadowMove: Lateral Movement by Duplicating Existing Sockets
    • Persistence
      • DLL Proxying for Persistence
      • T1053: Schtask
      • T1035: Service Execution
      • T1015: Sticky Keys
      • T1136: Create Account
      • T1013: AddMonitor()
      • T1128: NetSh Helper DLL
      • T1084: Abusing Windows Managent Instrumentation
        • WMI as a Data Storage
      • Windows Logon Helper
      • Hijacking Default File Extension
      • Persisting in svchost.exe with a Service DLL
      • Modifying .lnk Shortcuts
      • T1180: Screensaver Hijack
      • T1138: Application Shimming
      • T1197: BITS Jobs
      • T1122: COM Hijacking
      • T1198: SIP & Trust Provider Hijacking
      • T1209: Hijacking Time Providers
      • T1130: Installing Root Certificate
      • Powershell Profile Persistence
      • RID Hijacking
      • Word Library Add-Ins
      • Office Templates
    • Exfiltration
      • Powershell Payload Delivery via DNS using Invoke-PowerCloud
  • reversing, forensics & misc
    • Windows Internals
      • Configuring Kernel Debugging Environment with kdnet and WinDBG Preview
      • Compiling a Simple Kernel Driver, DbgPrint, DbgView
      • Loading Windows Kernel Driver for Debugging
      • Subscribing to Process Creation, Thread Creation and Image Load Notifications from a Kernel Driver
      • Listing Open Handles and Finding Kernel Object Addresses
      • Sending Commands From Your Userland Program to Your Kernel Driver using IOCTL
      • Windows Kernel Drivers 101
      • x64 Calling Convention: Stack Frame
      • System Service Descriptor Table - SSDT
      • Interrupt Descriptor Table - IDT
      • Token Abuse for Privilege Escalation in Kernel
      • Manipulating ActiveProcessLinks to Hide Processes in Userland
      • ETW: Event Tracing for Windows 101
      • Exploring Injected Threads
      • Parsing PE File Headers with C++
      • Instrumenting Windows APIs with Frida
      • Exploring Process Environment Block
    • Cloud
      • AWS Accounts, Users, Groups, Roles, Policies
    • Neo4j
    • Dump Virtual Box Memory
    • AES Encryption Using Crypto++ .lib in Visual Studio C++
    • Reversing Password Checking Routine
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On this page
  • Injecting Shellcode
  • Detecting Injection
  • Cross-checking Shellcode
  • Inspecting with WinDBG
  • How Get-InjectedThreads detects code injection?
  • References

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  1. reversing, forensics & misc
  2. Windows Internals

Exploring Injected Threads

A short exploration of injected threads with Get-InjectedThreads.ps1 and WinDBG

PreviousETW: Event Tracing for Windows 101NextParsing PE File Headers with C++

Last updated 4 years ago

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Injecting Shellcode

Firstly, let's use an program we wrote earlier to inject some shellcode into a process that will give us a reverse shell. In this case, we are injecting the shellcode into explorer.exe:

Detecting Injection

$a = Get-InjectedThread; $a

Looks like the injected thread was successfully detected:

Cross-checking Shellcode

Lets check the payload found in the injected thread:

($a.Bytes | ForEach-Object tostring x2) -join "\x"

and cross-verify it with the shellcode specified in our injector binary. We see they match as expected:

Inspecting with WinDBG

In order to inspect the newly created thread that executes the above shellcode with WinDBG, we need to know the injected thread id. For this, we use Process Explorer and note the newly created thread's ID which is 2112. Note the ThreadId is also shown in the output of Get-InjectedThread powershell script:

We can get all the threads for a process being debugged in WinDBG with ~ command:

Additionally, in order to inspect the bytes stored/executed in the injected thread, we need to get the thread's StartAddress which can be retrieved with ~. command when in the context of the thread of interest.

Below graphic shows the injected thread's contents with WinDBG:

The above also highlights the thread 0x1494 = 5268 ID. That thread is then inspected for its StartAddress, which happened to be 0x03730000 = 57868288.

For reference, the original shellcode bytes are displayed in the upper right corner. Bottom right corner shows the output of the Get-InjectedThreads indicating ThreadId and StartAddress in decimal.

How Get-InjectedThreads detects code injection?

One of the things Get-InjectedThreads does in order to detect code injection is:

  • it enumerates all the threads in each running process on the system

  • performs the following checks on memory regions holding those threads: MemoryType == MEM_IMAGE && MemoryState == MEM_COMMIT

  • If the condition is not met, it means that the code, running from the thread being inspected, does not have a corresponding image file on the disk, suggesting the code may be injected directly to memory.

Below graphic shows details of the memory region containing the injected thread using WinDBG and Get-InjectedThreads. Note the Type/MemoryType and State/MemoryState in WinDBG/Get-InjectedThreads outputs respectively:

References

Now that we have injected the code into a new thread of the explorer.exe process, let's scan all the running processes for any injected threads using :

Get-InjectedThreads.ps1
injector
Defenders Think in Graphs Too! Part 1Medium
@_xpn_ - Understanding and Evading Get-InjectedThreadXPN InfoSec Blog
https://docs.microsoft.com/en-us/windows/desktop/api/winnt/ns-winnt-_memory_basic_informationdocs.microsoft.com
Logo
Injected thread id + StartAddress + content bytes