hacktricks/macos-hardening/macos-security-and-privilege-escalation/macos-proces-abuse
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macos-.net-applications-injection.md a 2024-02-08 22:36:15 +01:00
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macos-electron-applications-injection.md a 2024-02-08 22:36:15 +01:00
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macos-ruby-applications-injection.md a 2024-02-08 22:36:35 +01:00
README.md GITBOOK-4255: change request with no subject merged in GitBook 2024-02-23 15:34:31 +00:00

macOS Proces Abuse

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MacOS Process Abuse

MacOS, like any other operating system, provides a variety of methods and mechanisms for processes to interact, communicate, and share data. While these techniques are essential for efficient system functioning, they can also be abused by threat actors to perform malicious activities.

Library Injection

Library Injection is a technique wherein an attacker forces a process to load a malicious library. Once injected, the library runs in the context of the target process, providing the attacker with the same permissions and access as the process.

{% content-ref url="macos-library-injection/" %} macos-library-injection {% endcontent-ref %}

Function Hooking

Function Hooking involves intercepting function calls or messages within a software code. By hooking functions, an attacker can modify the behavior of a process, observe sensitive data, or even gain control over the execution flow.

{% content-ref url="../mac-os-architecture/macos-function-hooking.md" %} macos-function-hooking.md {% endcontent-ref %}

Inter Process Communication

Inter Process Communication (IPC) refers to different methods by which separate processes share and exchange data. While IPC is fundamental for many legitimate applications, it can also be misused to subvert process isolation, leak sensitive information, or perform unauthorized actions.

{% content-ref url="../mac-os-architecture/macos-ipc-inter-process-communication/" %} macos-ipc-inter-process-communication {% endcontent-ref %}

Electron Applications Injection

Electron applications executed with specific env variables could be vulnerable to process injection:

{% content-ref url="macos-electron-applications-injection.md" %} macos-electron-applications-injection.md {% endcontent-ref %}

Chromium Injection

It's possible to use the flags --load-extension and --use-fake-ui-for-media-stream to perform a man in the browser attack allowing to steal keystrokes, traffic, cookies, inject scripts in pages...:

{% content-ref url="macos-chromium-injection.md" %} macos-chromium-injection.md {% endcontent-ref %}

Dirty NIB

NIB files define user interface (UI) elements and their interactions within an application. However, they can execute arbitrary commands and Gatekeeper doesn't stop an already executed application from being executed if a NIB file is modified. Therefore, they could be used to make arbitrary programs execute arbitrary commands:

{% content-ref url="macos-dirty-nib.md" %} macos-dirty-nib.md {% endcontent-ref %}

Java Applications Injection

It's possible to abuse certain java capabilities (like the _JAVA_OPTS env variable) to make a java application execute arbitrary code/commands.

{% content-ref url="macos-java-apps-injection.md" %} macos-java-apps-injection.md {% endcontent-ref %}

.Net Applications Injection

It's possible to inject code into .Net applications by abusing the .Net debugging functionality (not protected by macOS protections such as runtime hardening).

{% content-ref url="macos-.net-applications-injection.md" %} macos-.net-applications-injection.md {% endcontent-ref %}

Perl Injection

Check different options to make a Perl script execute arbitrary code in:

{% content-ref url="macos-perl-applications-injection.md" %} macos-perl-applications-injection.md {% endcontent-ref %}

Ruby Injection

I't also possible to abuse ruby env variables to make arbitrary scripts execute arbitrary code:

{% content-ref url="macos-ruby-applications-injection.md" %} macos-ruby-applications-injection.md {% endcontent-ref %}

Python Injection

If the environment variable PYTHONINSPECT is set, the python process will drop into a python cli once it's finished. It's also possible to use PYTHONSTARTUP to indicate a python script to execute at the beginning of an interactive session.
However, note that PYTHONSTARTUP script won't be executed when PYTHONINSPECT creates the interactive session.

Other env variables such as PYTHONPATH and PYTHONHOME could also be useful to make a python command execute arbitrary code.

Note that executables compiled with pyinstaller won't use these environmental variables even if they are running using an embedded python.

{% hint style="danger" %} Overall I couldn't find a way to make python execute arbitrary code abusing environment variables.
However, most of the people install pyhton using Hombrew, which will install pyhton in a writable location for the default admin user. You can hijack it with something like:

mv /opt/homebrew/bin/python3 /opt/homebrew/bin/python3.old
cat > /opt/homebrew/bin/python3 <<EOF
#!/bin/bash
# Extra hijack code
/opt/homebrew/bin/python3.old "$@"
EOF
chmod +x /opt/homebrew/bin/python3

Even root will run this code when running python. {% endhint %}

Detection

Shield

Shield (Github) is an open source application that can detect and block process injection actions:

  • Using Environmental Variables: It will monitor the presence of any of the following environmental variables: DYLD_INSERT_LIBRARIES, CFNETWORK_LIBRARY_PATH, RAWCAMERA_BUNDLE_PATH and ELECTRON_RUN_AS_NODE
  • Using task_for_pid calls: To find when one process wants to get the task port of another which allows to inject code in the process.
  • Electron apps params: Someone can use --inspect, --inspect-brk and --remote-debugging-port command line argument to start an Electron app in debugging mode, and thus inject code to it.
  • Using symlinks or hardlinks: Typically the most common abuse is to place a link with our user privileges, and point it to a higher privilege location. The detection is very simple for both hardlink and symlinks. If the process creating the link has a different privilege level than the target file, we create an alert. Unfortunately in the case of symlinks blocking is not possible, as we dont have information about the destination of the link prior creation. This is a limitation of Apples EndpointSecuriy framework.

Calls made by other processes

In this blog post you can find how it's possible to use the function task_name_for_pid to get information about other processes injecting code in a process and then getting information about that other process.

Note that to call that function you need to be the same uid as the one running the process or root (and it returns info about the process, not a way to inject code).

References

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