--- type: reference, howto --- # Container Scanning **(ULTIMATE)** > [Introduced](https://gitlab.com/gitlab-org/gitlab/-/merge_requests/3672) in [GitLab Ultimate](https://about.gitlab.com/pricing/) 10.4. ## Overview If you are using [GitLab CI/CD](../../../ci/README.md), you can check your Docker images (or more precisely the containers) for known vulnerabilities by using [Clair](https://github.com/quay/clair) and [klar](https://github.com/optiopay/klar), two open source tools for Vulnerability Static Analysis for containers. You can take advantage of Container Scanning by either [including the CI job](#configuration) in your existing `.gitlab-ci.yml` file or by implicitly using [Auto Container Scanning](../../../topics/autodevops/stages.md#auto-container-scanning-ultimate) that is provided by [Auto DevOps](../../../topics/autodevops/index.md). GitLab checks the Container Scanning report, compares the found vulnerabilities between the source and target branches, and shows the information right on the merge request. ![Container Scanning Widget](img/container_scanning_v13_0.png) ## Contribute your scanner The [Security Scanner Integration](../../../development/integrations/secure.md) documentation explains how to integrate other security scanners into GitLab. ## Use cases If you distribute your application with Docker, then there's a great chance that your image is based on other Docker images that may in turn contain some known vulnerabilities that could be exploited. Having an extra job in your pipeline that checks for those vulnerabilities, and the fact that they are displayed inside a merge request, makes it very easy to perform audits for your Docker-based apps. ## Requirements To enable Container Scanning in your pipeline, you need: - A GitLab Runner with the [`docker`](https://docs.gitlab.com/runner/executors/docker.html) or [`kubernetes`](https://docs.gitlab.com/runner/install/kubernetes.html) executor. - Docker `18.09.03` or higher installed on the machine where the Runners are running. If you're using the shared Runners on GitLab.com, this is already the case. - To [build and push](../../packages/container_registry/index.md#container-registry-examples-with-gitlab-cicd) your Docker image to your project's Container Registry. The name of the Docker image should use the following [predefined environment variables](../../../ci/variables/predefined_variables.md) as defined below: ```plaintext $CI_REGISTRY_IMAGE/$CI_COMMIT_REF_SLUG:$CI_COMMIT_SHA ``` These can be used directly in your `.gitlab-ci.yml` file: ```yaml build: image: docker:19.03.8 stage: build services: - docker:19.03.8-dind variables: IMAGE_TAG: $CI_REGISTRY_IMAGE/$CI_COMMIT_REF_SLUG:$CI_COMMIT_SHA script: - docker login -u $CI_REGISTRY_USER -p $CI_REGISTRY_PASSWORD $CI_REGISTRY - docker build -t $IMAGE_TAG . - docker push $IMAGE_TAG ``` ## Configuration For GitLab 11.9 and later, to enable Container Scanning, you must [include](../../../ci/yaml/README.md#includetemplate) the [`Container-Scanning.gitlab-ci.yml` template](https://gitlab.com/gitlab-org/gitlab/blob/master/lib/gitlab/ci/templates/Security/Container-Scanning.gitlab-ci.yml) that's provided as a part of your GitLab installation. For GitLab versions earlier than 11.9, you can copy and use the job as defined in that template. Add the following to your `.gitlab-ci.yml` file: ```yaml include: - template: Container-Scanning.gitlab-ci.yml ``` The included template will: 1. Create a `container_scanning` job in your CI/CD pipeline. 1. Pull the already built Docker image from your project's [Container Registry](../../packages/container_registry/index.md) (see [requirements](#requirements)) and scan it for possible vulnerabilities. The results will be saved as a [Container Scanning report artifact](../../../ci/pipelines/job_artifacts.md#artifactsreportscontainer_scanning-ultimate) that you can later download and analyze. Due to implementation limitations, we always take the latest Container Scanning artifact available. Behind the scenes, the [GitLab Klar analyzer](https://gitlab.com/gitlab-org/security-products/analyzers/klar/) is used and runs the scans. The following is a sample `.gitlab-ci.yml` that will build your Docker image, push it to the Container Registry, and run Container Scanning: ```yaml variables: DOCKER_DRIVER: overlay2 services: - docker:19.03.8-dind stages: - build - test build: image: docker:stable stage: build variables: IMAGE: $CI_REGISTRY_IMAGE/$CI_COMMIT_REF_SLUG:$CI_COMMIT_SHA script: - docker info - docker login -u gitlab-ci-token -p $CI_JOB_TOKEN $CI_REGISTRY - docker build -t $IMAGE . - docker push $IMAGE include: - template: Container-Scanning.gitlab-ci.yml ``` ### Customizing the Container Scanning settings You can change container scanning settings by using the [`variables`](../../../ci/yaml/README.md#variables) parameter in your `.gitlab-ci.yml` to change [environment variables](#available-variables). In the following example, we [include](../../../ci/yaml/README.md#include) the template and also set the `CLAIR_OUTPUT` variable to `High`: ```yaml include: template: Container-Scanning.gitlab-ci.yml variables: CLAIR_OUTPUT: High ``` The `CLAIR_OUTPUT` variable defined in the main `gitlab-ci.yml` will overwrite what's defined in `Container-Scanning.gitlab-ci.yml`, changing the Container Scanning behavior. #### Available variables Container Scanning can be [configured](#customizing-the-container-scanning-settings) using environment variables. | Environment Variable | Description | Default | | ------ | ------ | ------ | | `SECURE_ANALYZERS_PREFIX` | Set the Docker registry base address from which to download the analyzer. | `"registry.gitlab.com/gitlab-org/security-products/analyzers"` | | `KLAR_TRACE` | Set to true to enable more verbose output from klar. | `"false"` | | `CLAIR_TRACE` | Set to true to enable more verbose output from the clair server process. | `"false"` | | `DOCKER_USER` | Username for accessing a Docker registry requiring authentication. | `$CI_REGISTRY_USER` | | `DOCKER_PASSWORD` | Password for accessing a Docker registry requiring authentication. | `$CI_REGISTRY_PASSWORD` | | `CLAIR_OUTPUT` | Severity level threshold. Vulnerabilities with severity level higher than or equal to this threshold will be outputted. Supported levels are `Unknown`, `Negligible`, `Low`, `Medium`, `High`, `Critical` and `Defcon1`. | `Unknown` | | `REGISTRY_INSECURE` | Allow [Klar](https://github.com/optiopay/klar) to access insecure registries (HTTP only). Should only be set to `true` when testing the image locally. | `"false"` | | `DOCKER_INSECURE` | Allow [Klar](https://github.com/optiopay/klar) to access secure Docker registries using HTTPS with bad (or self-signed) SSL certificates. | `"false"` | | `CLAIR_VULNERABILITIES_DB_URL` | (**DEPRECATED - use `CLAIR_DB_CONNECTION_STRING` instead**) This variable is explicitly set in the [services section](https://gitlab.com/gitlab-org/gitlab/-/blob/898c5da43504eba87b749625da50098d345b60d6/lib/gitlab/ci/templates/Security/Container-Scanning.gitlab-ci.yml#L23) of the `Container-Scanning.gitlab-ci.yml` file and defaults to `clair-vulnerabilities-db`. This value represents the address that the [PostgreSQL server hosting the vulnerabilities definitions](https://hub.docker.com/r/arminc/clair-db) is running on and **shouldn't be changed** unless you're running the image locally as described in the [Running the standalone Container Scanning Tool](#running-the-standalone-container-scanning-tool) section. | `clair-vulnerabilities-db` | | `CLAIR_DB_CONNECTION_STRING` | This variable represents the [connection string](https://www.postgresql.org/docs/9.3/libpq-connect.html#AEN39692) to the [PostgreSQL server hosting the vulnerabilities definitions](https://hub.docker.com/r/arminc/clair-db) database and **shouldn't be changed** unless you're running the image locally as described in the [Running the standalone Container Scanning Tool](#running-the-standalone-container-scanning-tool) section. The host value for the connection string must match the [alias](https://gitlab.com/gitlab-org/gitlab/-/blob/898c5da43504eba87b749625da50098d345b60d6/lib/gitlab/ci/templates/Security/Container-Scanning.gitlab-ci.yml#L23) value of the `Container-Scanning.gitlab-ci.yml` template file, which defaults to `clair-vulnerabilities-db`. | `postgresql://postgres:password@clair-vulnerabilities-db:5432/postgres?sslmode=disable&statement_timeout=60000` | | `CI_APPLICATION_REPOSITORY` | Docker repository URL for the image to be scanned. | `$CI_REGISTRY_IMAGE/$CI_COMMIT_REF_SLUG` | | `CI_APPLICATION_TAG` | Docker repository tag for the image to be scanned. | `$CI_COMMIT_SHA` | | `CLAIR_DB_IMAGE` | The Docker image name and tag for the [PostgreSQL server hosting the vulnerabilities definitions](https://hub.docker.com/r/arminc/clair-db). It can be useful to override this value with a specific version, for example, to provide a consistent set of vulnerabilities for integration testing purposes, or to refer to a locally hosted vulnerabilities database for an on-premise offline installation. | `arminc/clair-db:latest` | | `CLAIR_DB_IMAGE_TAG` | (**DEPRECATED - use `CLAIR_DB_IMAGE` instead**) The Docker image tag for the [PostgreSQL server hosting the vulnerabilities definitions](https://hub.docker.com/r/arminc/clair-db). It can be useful to override this value with a specific version, for example, to provide a consistent set of vulnerabilities for integration testing purposes. | `latest` | | `DOCKERFILE_PATH` | The path to the `Dockerfile` to be used for generating remediations. By default, the scanner will look for a file named `Dockerfile` in the root directory of the project, so this variable should only be configured if your `Dockerfile` is in a non-standard location, such as a subdirectory. See [Solutions for vulnerabilities](#solutions-for-vulnerabilities-auto-remediation) for more details. | `Dockerfile` | | `ADDITIONAL_CA_CERT_BUNDLE` | Bundle of CA certs that you want to trust. | "" | ### Overriding the Container Scanning template CAUTION: **Deprecation:** Beginning in GitLab 13.0, the use of [`only` and `except`](../../../ci/yaml/README.md#onlyexcept-basic) is no longer supported. When overriding the template, you must use [`rules`](../../../ci/yaml/README.md#rules) instead. If you want to override the job definition (for example, change properties like `variables`), you need to declare a `container_scanning` job after the template inclusion and specify any additional keys under it. For example: ```yaml include: template: Container-Scanning.gitlab-ci.yml container_scanning: variables: GIT_STRATEGY: fetch ``` ### Vulnerability whitelisting If you want to whitelist specific vulnerabilities, you'll need to: 1. Set `GIT_STRATEGY: fetch` in your `.gitlab-ci.yml` file by following the instructions described in the [overriding the Container Scanning template](#overriding-the-container-scanning-template) section of this document. 1. Define the whitelisted vulnerabilities in a YAML file named `clair-whitelist.yml` which must use the format described in the [whitelist example file](https://github.com/arminc/clair-scanner/blob/v12/example-whitelist.yaml). 1. Add the `clair-whitelist.yml` file to the Git repository of your project. ### Running Container Scanning in an offline environment For self-managed GitLab instances in an environment with limited, restricted, or intermittent access to external resources through the internet, some adjustments are required for the Container Scanning job to successfully run. For more information, see [Offline environments](../offline_deployments/index.md). #### Requirements for offline Container Scanning To use Container Scanning in an offline environment, you need: - GitLab Runner with the [`docker` or `kubernetes` executor](#requirements). - To configure a local Docker Container Registry with copies of the Container Scanning [analyzer](https://gitlab.com/gitlab-org/security-products/analyzers/klar) images, found in the [Container Scanning container registry](https://gitlab.com/gitlab-org/security-products/analyzers/klar/container_registry). NOTE: **Note:** GitLab Runner has a [default `pull policy` of `always`](https://docs.gitlab.com/runner/executors/docker.html#using-the-always-pull-policy), meaning the Runner tries to pull Docker images from the GitLab container registry even if a local copy is available. GitLab Runner's [`pull_policy` can be set to `if-not-present`](https://docs.gitlab.com/runner/executors/docker.html#using-the-if-not-present-pull-policy) in an offline environment if you prefer using only locally available Docker images. However, we recommend keeping the pull policy setting to `always` if not in an offline environment, as this enables the use of updated scanners in your CI/CD pipelines. #### Make GitLab Container Scanning analyzer images available inside your Docker registry For Container Scanning, import the following default images from `registry.gitlab.com` into your [local Docker container registry](../../packages/container_registry/index.md): ```plaintext registry.gitlab.com/gitlab-org/security-products/analyzers/klar https://hub.docker.com/r/arminc/clair-db ``` The process for importing Docker images into a local offline Docker registry depends on **your network security policy**. Please consult your IT staff to find an accepted and approved process by which you can import or temporarily access external resources. Note that these scanners are [updated periodically](../index.md#maintenance-and-update-of-the-vulnerabilities-database) with new definitions, so consider if you are able to make periodic updates yourself. For more information, see [the specific steps on how to update an image with a pipeline](#automating-container-scanning-vulnerability-database-updates-with-a-pipeline). For details on saving and transporting Docker images as a file, see Docker's documentation on [`docker save`](https://docs.docker.com/engine/reference/commandline/save/), [`docker load`](https://docs.docker.com/engine/reference/commandline/load/), [`docker export`](https://docs.docker.com/engine/reference/commandline/export/), and [`docker import`](https://docs.docker.com/engine/reference/commandline/import/). #### Set Container Scanning CI job variables to use local Container Scanner analyzers 1. [Override the container scanning template](#overriding-the-container-scanning-template) in your `.gitlab-ci.yml` file to refer to the Docker images hosted on your local Docker container registry: ```yaml include: - template: Container-Scanning.gitlab-ci.yml container_scanning: image: $CI_REGISTRY/namespace/gitlab-klar-analyzer variables: CLAIR_DB_IMAGE: $CI_REGISTRY/namespace/clair-vulnerabilities-db ``` 1. If your local Docker container registry is running securely over `HTTPS`, but you're using a self-signed certificate, then you must set `DOCKER_INSECURE: "true"` in the above `container_scanning` section of your `.gitlab-ci.yml`. #### Automating Container Scanning vulnerability database updates with a pipeline It can be worthwhile to set up a [scheduled pipeline](../../../ci/pipelines/schedules.md) to automatically build a new version of the vulnerabilities database on a preset schedule. Automating this with a pipeline means you won't have to do it manually each time. You can use the following `.gitlab-yml.ci` as a template: ```yaml image: docker:stable services: - docker:19.03.8-dind stages: - build build_latest_vulnerabilities: stage: build script: - docker pull arminc/clair-db:latest - docker tag arminc/clair-db:latest $CI_REGISTRY/namespace/clair-vulnerabilities-db - docker login -u gitlab-ci-token -p $CI_JOB_TOKEN $CI_REGISTRY - docker push $CI_REGISTRY/namespace/clair-vulnerabilities-db ``` The above template will work for a GitLab Docker registry running on a local installation, however, if you're using a non-GitLab Docker registry, you'll need to change the `$CI_REGISTRY` value and the `docker login` credentials to match the details of your local registry. ## Running the standalone Container Scanning Tool It's possible to run the [GitLab Container Scanning Tool](https://gitlab.com/gitlab-org/security-products/analyzers/klar) against a Docker container without needing to run it within the context of a CI job. To scan an image directly, follow these steps: 1. Run [Docker Desktop](https://www.docker.com/products/docker-desktop) or [Docker Machine](https://github.com/docker/machine). 1. Run the latest [prefilled vulnerabilities database](https://hub.docker.com/repository/docker/arminc/clair-db) Docker image: ```shell docker run -p 5432:5432 -d --name clair-db arminc/clair-db:latest ``` 1. Configure an environment variable to point to your local machine's IP address (or insert your IP address instead of the `LOCAL_MACHINE_IP_ADDRESS` variable in the `CLAIR_DB_CONNECTION_STRING` in the next step): ```shell export LOCAL_MACHINE_IP_ADDRESS=your.local.ip.address ``` 1. Run the analyzer's Docker image, passing the image and tag you want to analyze in the `CI_APPLICATION_REPOSITORY` and `CI_APPLICATION_TAG` environment variables: ```shell docker run \ --interactive --rm \ --volume "$PWD":/tmp/app \ -e CI_PROJECT_DIR=/tmp/app \ -e CLAIR_DB_CONNECTION_STRING="postgresql://postgres:password@${LOCAL_MACHINE_IP_ADDRESS}:5432/postgres?sslmode=disable&statement_timeout=60000" \ -e CI_APPLICATION_REPOSITORY=registry.gitlab.com/gitlab-org/security-products/dast/webgoat-8.0@sha256 \ -e CI_APPLICATION_TAG=bc09fe2e0721dfaeee79364115aeedf2174cce0947b9ae5fe7c33312ee019a4e \ registry.gitlab.com/gitlab-org/security-products/analyzers/klar ``` The results are stored in `gl-container-scanning-report.json`. ## Reports JSON format CAUTION: **Caution:** The JSON report artifacts are not a public API of Container Scanning and their format may change in the future. The Container Scanning tool emits a JSON report file. Here is an example of the report structure with all important parts of it highlighted: ```json-doc { "version": "2.3", "vulnerabilities": [ { "id": "ac0997ad-1006-4c81-81fb-ee2bbe6e78e3", "category": "container_scanning", "message": "CVE-2019-3462 in apt", "description": "Incorrect sanitation of the 302 redirect field in HTTP transport method of apt versions 1.4.8 and earlier can lead to content injection by a MITM attacker, potentially leading to remote code execution on the target machine.", "severity": "High", "confidence": "Unknown", "solution": "Upgrade apt from 1.4.8 to 1.4.9", "scanner": { "id": "klar", "name": "klar" }, "location": { "dependency": { "package": { "name": "apt" }, "version": "1.4.8" }, "operating_system": "debian:9", "image": "registry.gitlab.com/gitlab-org/security-products/dast/webgoat-8.0@sha256:bc09fe2e0721dfaeee79364115aeedf2174cce0947b9ae5fe7c33312ee019a4e" }, "identifiers": [ { "type": "cve", "name": "CVE-2019-3462", "value": "CVE-2019-3462", "url": "https://security-tracker.debian.org/tracker/CVE-2019-3462" } ], "links": [ { "url": "https://security-tracker.debian.org/tracker/CVE-2019-3462" } ] } ], "remediations": [ { "fixes": [ { "id": "c0997ad-1006-4c81-81fb-ee2bbe6e78e3" } ], "summary": "Upgrade apt from 1.4.8 to 1.4.9", "diff": "YXB0LWdldCB1cGRhdGUgJiYgYXB0LWdldCB1cGdyYWRlIC15IGFwdA==" } ] } ``` CAUTION: **Deprecation:** Beginning with GitLab 12.9, container scanning no longer reports `undefined` severity and confidence levels. Here is the description of the report file structure nodes and their meaning. All fields are mandatory to be present in the report JSON unless stated otherwise. Presence of optional fields depends on the underlying analyzers being used. | Report JSON node | Description | |------------------------------------------------------|--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------| | `version` | Report syntax version used to generate this JSON. | | `vulnerabilities` | Array of vulnerability objects. | | `vulnerabilities[].id` | Unique identifier of the vulnerability. | | `vulnerabilities[].category` | Where this vulnerability belongs (for example, SAST or Container Scanning). For Container Scanning, it will always be `container_scanning`. | | `vulnerabilities[].message` | A short text that describes the vulnerability, it may include occurrence's specific information. Optional. | | `vulnerabilities[].description` | A long text that describes the vulnerability. Optional. | | `vulnerabilities[].cve` | (**DEPRECATED - use `vulnerabilities[].id` instead**) A fingerprint string value that represents a concrete occurrence of the vulnerability. It's used to determine whether two vulnerability occurrences are same or different. May not be 100% accurate. **This is NOT a [CVE](https://cve.mitre.org/)**. | | `vulnerabilities[].severity` | How much the vulnerability impacts the software. Possible values: `Info`, `Unknown`, `Low`, `Medium`, `High`, `Critical`. **Note:** Our current container scanning tool based on [klar](https://github.com/optiopay/klar) only provides the following levels: `Unknown`, `Low`, `Medium`, `High`, `Critical`. | | `vulnerabilities[].confidence` | How reliable the vulnerability's assessment is. Possible values: `Ignore`, `Unknown`, `Experimental`, `Low`, `Medium`, `High`, `Confirmed`. **Note:** Our current container scanning tool based on [klar](https://github.com/optiopay/klar) does not provide a confidence level, so this value is currently hardcoded to `Unknown`. | | `vulnerabilities[].solution` | Explanation of how to fix the vulnerability. Optional. | | `vulnerabilities[].scanner` | A node that describes the analyzer used to find this vulnerability. | | `vulnerabilities[].scanner.id` | ID of the scanner as a snake_case string. | | `vulnerabilities[].scanner.name` | Name of the scanner, for display purposes. | | `vulnerabilities[].location` | A node that tells where the vulnerability is located. | | `vulnerabilities[].location.dependency` | A node that describes the dependency of a project where the vulnerability is located. | | `vulnerabilities[].location.dependency.package` | A node that provides the information on the package where the vulnerability is located. | | `vulnerabilities[].location.dependency.package.name` | Name of the package where the vulnerability is located. | | `vulnerabilities[].location.dependency.version` | Version of the vulnerable package. Optional. | | `vulnerabilities[].location.operating_system` | The operating system that contains the vulnerable package. | | `vulnerabilities[].location.image` | The Docker image that was analyzed. | | `vulnerabilities[].identifiers` | An ordered array of references that identify a vulnerability on internal or external DBs. | | `vulnerabilities[].identifiers[].type` | Type of the identifier. Possible values: common identifier types (among `cve`, `cwe`, `osvdb`, and `usn`). | | `vulnerabilities[].identifiers[].name` | Name of the identifier for display purpose. | | `vulnerabilities[].identifiers[].value` | Value of the identifier for matching purpose. | | `vulnerabilities[].identifiers[].url` | URL to identifier's documentation. Optional. | | `vulnerabilities[].links` | An array of references to external documentation pieces or articles that describe the vulnerability further. Optional. | | `vulnerabilities[].links[].name` | Name of the vulnerability details link. Optional. | | `vulnerabilities[].links[].url` | URL of the vulnerability details document. Optional. | | `remediations` | An array of objects containing information on cured vulnerabilities along with patch diffs to apply. Empty if no remediations provided by an underlying analyzer. | | `remediations[].fixes` | An array of strings that represent references to vulnerabilities fixed by this particular remediation. | | `remediations[].fixes[].id` | The ID of a fixed vulnerability. | | `remediations[].fixes[].cve` | (**DEPRECATED - use `remediations[].fixes[].id` instead**) A string value that describes a fixed vulnerability in the same format as `vulnerabilities[].cve`. | | `remediations[].summary` | Overview of how the vulnerabilities have been fixed. | | `remediations[].diff` | base64-encoded remediation code diff, compatible with [`git apply`](https://git-scm.com/docs/git-format-patch#_discussion). | ## Security Dashboard The [Security Dashboard](../security_dashboard/index.md) shows you an overview of all the security vulnerabilities in your groups, projects and pipelines. ## Vulnerabilities database update For more information about the vulnerabilities database update, check the [maintenance table](../index.md#maintenance-and-update-of-the-vulnerabilities-database). ## Interacting with the vulnerabilities Once a vulnerability is found, you can [interact with it](../index.md#interacting-with-the-vulnerabilities). ## Solutions for vulnerabilities (auto-remediation) Some vulnerabilities can be fixed by applying the solution that GitLab automatically generates. To enable remediation support, the scanning tool _must_ have access to the `Dockerfile` specified by the [`DOCKERFILE_PATH`](#available-variables) environment variable. To ensure that the scanning tool has access to this file, it's necessary to set [`GIT_STRATEGY: fetch`](../../../ci/yaml/README.md#git-strategy) in your `.gitlab-ci.yml` file by following the instructions described in this document's [overriding the Container Scanning template](#overriding-the-container-scanning-template) section. Read more about the [solutions for vulnerabilities](../index.md#solutions-for-vulnerabilities-auto-remediation). ## Troubleshooting ### docker: Error response from daemon: failed to copy xattrs When the GitLab Runner uses the Docker executor and NFS is used (for example, `/var/lib/docker` is on an NFS mount), Container Scanning might fail with an error like the following: ```plaintext docker: Error response from daemon: failed to copy xattrs: failed to set xattr "security.selinux" on /path/to/file: operation not supported. ``` This is a result of a bug in Docker which is now [fixed](https://github.com/containerd/continuity/pull/138 "fs: add WithAllowXAttrErrors CopyOpt"). To prevent the error, ensure the Docker version that the Runner is using is `18.09.03` or higher. For more information, see [issue #10241](https://gitlab.com/gitlab-org/gitlab/issues/10241 "Investigate why Container Scanning is not working with NFS mounts").