Aqua Blog

Threat Alert: Attackers Building Malicious Images Directly on Your Host

Threat Alert: Attackers Building Malicious Images Directly on Your Host

We at Team Nautilus – Aqua’s cyber security research team – discovered a new type of attack against container infrastructure. The attacker exploits a misconfigured Docker API port in order to build and run a malicious container image on the host. As far as we know, this is the first time that an attack in which the attacker builds an image rather than pulling it from a public registry is observed in the wild.

In previously observed attack scenarios, the attackers usually try to hijack resources from the host by running a cryptocurrency miner, launch a network denial-of-service attack against other hosts, or worse, escaping from the container and expanding onto the host’s network. A defender, on the other hand, can scan the images and react based on the results, or restrict communication with a suspicious source or registry. In this case, the attacker did not pull an image from a remote source but built it directly on the targeted host in order to bypass these defense mechanisms. Additionally, the attacker can thus increase the persistency of his infrastructure by building it directly on the host. Since the image is not stored anywhere, no one will take it down. In addition, the name of the image and possibly its ID are randomly generated and probably unique to each host. This makes it hard for defenders to add the image to a restricted list. Therefore, in this case, having preliminary intelligence on a malicious image or source would be ineffectual. Using a Dynamic Threat Analysis (DTA) scanner that looks for behavior patterns, however, can help the defenders to detect these kinds of attacks. Moreover, this technique emphasizes the importance of an ongoing dynamic scanning cadence in cloud-native environments.

The Observed Attack in Detail

Normally, attacks against misconfigured Docker API are initiated by pulling an image from a public registry (i.e. Docker Hub) and spinning up the container on the targeted host environment. The image is usually one of 3 categories:

  1. A dedicated image built by a 3rd party – this image is designed for a specific purpose. For example xmrig/xmrig:latest or douglasslow/slowhttptest:latest, which are designed to mine cryptocurrency or conduct Denial of Service tests in the application layer. Attackers then nefariously use these images to hijack resources on the host or to launch a Network Denial of Service against a 3rd party target from the targeted host.
  2. A dedicated image built by the attacker – usually the attacker hides the main purpose of the image by using various techniques to conceal the malicious elements, or alternatively the attacker is doesn’t hide the main purpose but designs the attack according to his needs.
  3. A vanilla image – the attacker uses a legitimate vanilla image, such as Alpine or Ubuntu and downloads the malicious elements during runtime.

In this case, however, the adversary used a Docker SDK for Python package to send commands to a misconfigured Docker API. The attack sequence is as described below:

  1. Sending a ping GET request to the Docker server in order to check if the API server is indeed exposed.
  2. Sending a GET request to receive the list of containers that are running on the host.
  3. Sending a POST request with a Docker Build command in order to build an image on the targeted host- Image": "zbrtgwlxz:latest. The Dockerfile contains the following commands:
    • Pulling a lightweight alpine image.
    • A WGET command aimed to download the script main.sh from a remote source (http[:]//185[.]10[.]68[.]147/dock/main[.]sh).
  4. Sending a GET request to verify that the image was successfully built on the targeted host.
  5. Sending a POST request to create a container based on the new image that the attacker just built.
  6. Sending a GET request to receive the list of containers that are running on the host.
  7. Sending a POST request to run the container.

Build_on_image

The container is initiated with a command aimed to run a shell script, which was downloaded from a remote source during the build: /bin/sh -c ash /main.sh

The Shell script main.sh was designed to download and run an ELF file named XMRIG.

XMRIG shell script

This file is classified as malicious by Virus Total and is designed to hijack resources from the host by mining cryptocurrency.

Virus total classification of cryptocurrency mining malware

Summary

In this blog we reported about an adversary who used a new technique to attack a misconfigured Docker API. The image was built directly on the target host and executed a resource-hijacking attack by using a cryptominer. This is yet another step in the super-fast evolution of attacks against cloud-native environments in just the past couple of years. These new and daring attacks emphasize the importance of putting better and stronger solutions in the defenders’ toolbox.

In this case, preliminary threat intel on a malicious container image is useless because the image is not pulled from a remote source. A static scanner will not return the desired results, since the image is built upon a standard Alpine base image and would most probably be marked as benign. A network-level detection/prevention security scanning might actually block the communication with the C2 of the attacker (185[.]10[.]68[.]147) and prevent downloading the script main.sh and the malicious binary.

We believe that the best solution for these kinds of threats lies in an on-going Dynamic Threat Analysis scanning cadence. Dynamically scanning all your images in Docker Hub and on the organization’s servers would shine a bright light on any hidden threats lurking in the cloud.

Assaf Morag
Assaf is a Lead Data Analyst at Aqua Nautilus research team, he focuses on supporting the data needs of the team, obtaining threat intelligence and helping Aqua and the industry stay at the forefront of new threats and methodologies for protection. His work has been published in leading info security publications and journals across the globe, and most recently he contributed to the new MITRE ATT&CK Container Framework.