订阅内容

When you build a Docker image, a series of layers get cached to speed up subsequent builds. However, this caching can have adverse effects if an image layer contains secrets, such as credentials. A malicious person or process could find the layer containing your secrets and discover its contents.

Luckily, when performing Docker builds in OpenShift, you can quickly destroy secret layers by setting imageOptimizationPolicy to SkipLayers in your BuildConfig.

Let’s first consider the following Dockerfile:

  1. FROM registry.redhat.io/ubi8/ubi:8.2
  2. # Comes from an OCP secret also called ‘nexus-creds’
  3. COPY nexus-creds nexus-creds
  4. RUN curl -u $(cat nexus-creds/username):$(cat nexus-creds/password) -O http://example-nexusrepo-sonatype-nexus-demo.apps-crc.testing/repository/example-artifacts/jq && \
  5. chown :0 jq && \
  6. chmod 010 jq && \
  7. mv jq /usr/local/bin && \
  8. rm -rf nexus-creds

This Dockerfile installs jq to a UBI8-based image. However, rather than download jq from their releases page, it instead downloads from a local Nexus instance. It is common in the enterprise to download tools from a repository within the corporate network rather than from an upstream repository. However, to download from the corporate repository, you must first authenticate by providing your credentials. Credentials are provided in the example Dockerfile by copying them from a file in the build context (nexus-creds).

Here’s the million-dollar question: How do you remove these credentials from the image to not be revealed? If you think the answer is to remove the credentials in a RUN command (rm -rf nexus-creds), you are partially correct. That is a necessary step and will remove the credentials from the final container. However, it will not remove the credentials from the COPY layer. The COPY layer and the credentials it contains will still remain in the container registry. As a result, an attacker could steal your credentials by accessing this layer.

Below is partial output of the “oc start-build” command that builds the example Dockerfile. Here, you will see each of the layers pushed to the internal registry, one of them being the COPY layer, highlighted below.

  1. Pushing image image-registry.openshift-image-registry.svc:5000/demo/example-image:latest ...
  2. Getting image source signatures
  3. Copying blob sha256:264aaa453271eaaf6bc92b521f62e38cbda4f01e1a3fbf50abdb8b466be58a64
  4. Copying blob sha256:7f24bdb73d536337c7d82dee9c11e09acd3bacb0e1a76e98c6e82a8208e82284
  5. Copying blob sha256:1c808c9ef8fef442a30a026190afef3c609840a0d53214d9054649394d26ba60
  6. Copying blob sha256:1d1edefff77e9c0fd0518961b3e80aaffaab14e4b44b54b7a0b97cb0661cd39c

So, if removing the credentials in a RUN statement is only partially correct, what else can you do to prevent credentials from being stolen? Luckily, Red Hat addresses this by allowing you to provide a BuildConfig setting called imageOptimizationPolicy. When setting this to SkipLayers, the OpenShift build will squash each of the layers added to the base image (in other words, it will squash everything down to the FROM command). Since running “rm -rf nexus-creds” after the COPY command removes the credentials from the final layer, you can rest assured that the credentials will be removed entirely from both the image and the registry itself by squashing the layers with imageOptimizationPolicy.

Below is an example of a BuildConfig that uses the imageOptimizationPolicy: SkipLayers setting.

  1. apiVersion: build.openshift.io/v1
  2. kind: BuildConfig
  3. metadata:
  4. name: example-image
  5. spec:
  6. output:
  7. to:
  8. kind: ImageStream
  9. name: example-image
  10. source:
  11. binary: {}
  12. type: Binary
  13. secrets:
  14. - destinationDir: nexus-creds
  15. secret:
  16. name: nexus-creds
  17. strategy:
  18. dockerStrategy:
  19. imageOptimizationPolicy: SkipLayers
  20. pullSecret:
  21. name: pull-secret
  22. dockerfilePath: Dockerfile
  23. type: Docker

When this BuildConfig is applied, the resulting image will have only three layers (two from the base image and one from the image we are building off that base). Below is the ending output of “oc start-build” after the imageOptimizationPolicy setting is applied:

  1. Pushing image image-registry.openshift-image-registry.svc:5000/demo/example-image:latest ...
  2. Getting image source signatures
  3. Copying blob sha256:7f24bdb73d536337c7d82dee9c11e09acd3bacb0e1a76e98c6e82a8208e82284
  4. Copying blob sha256:264aaa453271eaaf6bc92b521f62e38cbda4f01e1a3fbf50abdb8b466be58a64
  5. Copying blob sha256:9e60edd0480d9cd1c51f682a2978582a42951172f507f57da0b18656f71df037

Only three layers this time instead of four. If you were to access your image registry or pull this image down from outside the cluster, there would be no trace of the COPY layer or your credentials for this given image and tag.

Thanks For Reading

Hopefully, this helps you prevent secrets from being exposed within intermediate layers stored in your image registry. For more information, be sure to check out Red Hat’s documentation on imageOptimizationPolicy and squashing layers in Docker builds.


关于作者

UI_Icon-Red_Hat-Close-A-Black-RGB

按频道浏览

automation icon

自动化

有关技术、团队和环境 IT 自动化的最新信息

AI icon

人工智能

平台更新使客户可以在任何地方运行人工智能工作负载

open hybrid cloud icon

开放混合云

了解我们如何利用混合云构建更灵活的未来

security icon

安全防护

有关我们如何跨环境和技术减少风险的最新信息

edge icon

边缘计算

简化边缘运维的平台更新

Infrastructure icon

基础架构

全球领先企业 Linux 平台的最新动态

application development icon

应用领域

我们针对最严峻的应用挑战的解决方案

Original series icon

原创节目

关于企业技术领域的创客和领导者们有趣的故事