Buildkit build-time container teardown arbitrary delete (CVE-2024-23652)
January 31, 2024
0 mins readSnyk has discovered a vulnerability in all versions of Docker Buildkit <=v0.12.4, as used by the Docker engine. Exploitation of this issue can result in arbitrary file and directory deletion in the underlying host OS when building an image using a malicious Dockerfile or upstream image (i.e, when using FROM
). This issue has been assigned CVE-2024-23652.
How does CVE-2024-23652 work?
The vulnerability occurs due to attempts by Buildkit to clean up temporarily added directories after their use. When using RUN --mount
inside a Dockerfile, if the target directory for the mount is not present in the container filesystem, it will be created for the mount point and removed again after use. If the parent of this target directory is replaced with a symbolic link during the container lifetime, the cleanup operations during container teardown will traverse this symbolic link.
In a successful attack, an arbitrary Dockerfile-defined target file inside the host filesystem will be deleted. As Buildkit is generally running with root privileges, this can allow for the deletion of any file in the host filesystem.
How to mitigate CVE-2024-23652
Buildkit mitigated this vulnerability by ensuring that the to-be-cleaned target directory is present inside the container filesystem, and is not a link to a directory elsewhere.
Synk recommends taking immediate action following the Buildkit advisory to mitigate this security vulnerability. The Buildkit v0.12.5 release includes patches for this issue. Technologies that bundle Buildkit (such as Docker Engine and Docker Desktop) should also be updated to their respective patched versions.
Evaluating risk
This vulnerability depends on a malicious container running or building within a vulnerable infrastructure. Due to the nature of this vulnerability, detection is difficult and requires runtime for the most accurate detection. As our existing Snyk products don’t operate on the application runtime, we built two tools to make the detection of this vulnerability feasible.
Runtime detection
The new Helios team at Snyk has built an an eBPF-based runtime detection tool for this vulnerability, which can be found at leaky-vessels-runtime-detector, released under the Apache-2.0 license. eBPF is a commonly used instrumentation mechanism built into many modern Linux kernels.
This tool can identify a running container attempting to exercise this vulnerability on underlying infrastructure, placing the underlying host at risk. Note that this tool cannot prevent the exploitation of this vulnerability, only warn of exposure.
While updating your container infrastructure is our strong recommendation, you may be able to evaluate your risk or exposure using this tooling when updating is not immediately possible. Organizations should check with their container infrastructure provider to understand whether its infrastructure has been patched.
Installation and usage
To install and use our static detection tool, please do the following:
Clone the repository at https://github.com/snyk/leaky-vessels-dynamic-detector
Build the Go binary with
go build
.Run the detector in your CI environment with:
sudo ./ebpf-detector
For additional details, please check the README.md file.
Static analysis
In case you prefer not to run an external binary on your host or CI/CD pipeline, we’ve also built a static analysis detector, found at https://github.com/snyk/leaky-vessels-static-detector, that analyzes Dockerfiles and flags potential exploit attempts.
This tool can also examine images by parsing the FROM
instruction or directly querying the local Docker daemon or public container registries like Dockerhub or GCR. Although the image history doesn’t include all the instructions a full Dockerfile would, it can show the WORKDIR
and ONBUILD
instructions of the parent image, which can indicate potentially nefarious images.
This is useful to protect against cases where a 3rd party base image has been compromised and tries to exploit the run
or build
commands of the child image. The static approach has a higher false positive (noise) rate, especially for exploits using the —mount flag
, but can find images worthy of further investigation.
The Snyk team has performed ad hoc checks of Dockerfiles from public registries based on the images we see being used most frequently. While not exhaustive, our research did not find evidence suggesting that these vulnerabilities have been exploited. Snyk recommends that you continue monitoring your own environment and check your containers until patches are made available and deployed.
As always, using well-maintained parent images from trusted sources and staying up-to-date with the latest versions — including clearing out build caches and verifying the provenance of parent images — is a good best practice.
Installation and usage
To install and use our static detection tool, please do the following:
Clone the repository at https://github.com/snyk/leaky-vessels-static-detector
Build the Go binary with
go build
.Run the detector with:
./static-detector dockerfile -f [PATH_TO_DOCKERFILE].
For additional execution options, please check the README.md file.
CVE-2024-23652 summary and advice
This container breakout vulnerability is severe and has the potential to cause damage to any underlying host infrastructure that is building containers.
Snyk recommends you update any instances of Buildkit to version v0.12.5 or later, as well as any software that depends on Buildkit.
Snyk has also disclosed several other Docker vulnerabilities in our research, assigned CVEs: CVE-2024-21626, CVE-2024-23651, and CVE-2024-23653. You can read the summary of our findings across all the CVEs here.
This article is provided for informational purposes only. Snyk is not responsible for any errors or omissions, or for the results obtained from the use of this information.