- Supported languages and package managers
- Dependency detection
- Configuration
- Output
- Contributing to the vulnerability database
- Offline environment
- Using a proxy with Gradle projects
- Using a proxy with Maven projects
- Specific settings for languages and package managers
- Warnings
- Build Swift projects
- Build CocoaPods projects
Dependency Scanning
Dependency Scanning analyzes your application’s dependencies for known vulnerabilities. All dependencies are scanned, including transitive dependencies, also known as nested dependencies.
Dependency Scanning is often considered part of Software Composition Analysis (SCA). SCA can contain aspects of inspecting the items your code uses. These items typically include application and system dependencies that are almost always imported from external sources, rather than sourced from items you wrote yourself.
Dependency Scanning can run in the development phase of your application’s life cycle. Every time a pipeline runs, vulnerabilities are identified and compared between the source and target branches. Vulnerabilities and their severity are listed in the merge request, enabling you to proactively address the risk to your application, before the code change is committed. Vulnerabilities can also be identified outside a pipeline by Continuous Vulnerability Scanning.
GitLab offers both Dependency Scanning and Container Scanning to ensure coverage for all of these dependency types. To cover as much of your risk area as possible, we encourage you to use all of our security scanners. For a comparison of these features, see Dependency Scanning compared to Container Scanning.
- For an overview, see Dependency Scanning
- For an interactive reading and how-to demo of this Dependency Scanning documentation, see How to use dependency scanning tutorial hands-on GitLab Application Security part 3
- For other interactive reading and how-to demos, see Get Started With GitLab Application Security Playlist
Supported languages and package managers
The following languages and dependency managers are supported by Dependency Scanning:
Language | Language versions | Package manager | Supported files | Processes multiple files? |
---|---|---|---|---|
.NET | All versions | NuGet | packages.lock.json
| Y |
C# | ||||
C | All versions | Conan | conan.lock
| Y |
C++ | ||||
Go | All versions | Go |
| Y |
Java and Kotlin | 8 LTS, 11 LTS, 17 LTS, or 21 LTS1 | Gradle2 |
| N |
Maven6 | pom.xml
| N | ||
JavaScript and TypeScript | All versions | npm |
| Y |
yarn | yarn.lock
| Y | ||
pnpm3 | pnpm-lock.yaml
| Y | ||
PHP | All versions | Composer | composer.lock
| Y |
Python | 3.117 | setuptools8 | setup.py
| N |
pip |
| N | ||
Pipenv | N | |||
Poetry4 | poetry.lock
| N | ||
Ruby | All versions | Bundler |
| Y |
Scala | All versions | sbt5 | build.sbt
| N |
Swift | All versions | Swift Package Manager | Package.resolved
| N |
Cocoapods9 | All versions | CocoaPods | Podfile.lock
| N |
-
Java 21 LTS for sbt is limited to version 1.9.7. Support for more sbt versions can be tracked in issue 430335. It is not supported when FIPS mode is enabled.
-
Gradle is not supported when FIPS mode is enabled.
-
Support for
pnpm
lockfiles was introduced in GitLab 15.11.pnpm
lockfiles do not store bundled dependencies, so the reported dependencies may differ fromnpm
oryarn
. -
Support for Poetry projects with a
poetry.lock
file was added in GitLab 15.0. Support for projects without apoetry.lock
file is tracked in issue: Poetry's pyproject.toml support for dependency scanning. -
Support for sbt 1.0.x was deprecated in GitLab 16.8 and removed in GitLab 17.0.
-
Support for Maven below 3.8.8 was deprecated in GitLab 16.9 and will be removed in GitLab 17.0.
-
Support for prior Python versions was deprecated in GitLab 16.9 and removed in GitLab 17.0.
-
Excludes both
pip
andsetuptools
from the report as they are required by the installer. -
Only SBOM, without advisories. See spike on CocoaPods advisories research.
Dependency detection
Dependency Scanning automatically detects the languages used in the repository. All analyzers
matching the detected languages are run. There is usually no need to customize the selection of
analyzers. We recommend not specifying the analyzers so you automatically use the full selection for
best coverage, avoiding the need to make adjustments when there are deprecations or removals.
However, you can override the selection using the variable DS_EXCLUDED_ANALYZERS
.
The language detection relies on CI job rules
and searches a
maximum of two directory levels from the repository’s root. For example, the
gemnasium-dependency_scanning
job is enabled if a repository contains either Gemfile
,
api/Gemfile
, or api/client/Gemfile
, but not if the only supported dependency file is
api/v1/client/Gemfile
.
For Java and Python, when a supported dependency file is detected, Dependency Scanning attempts to build the project and execute some Java or Python commands to get the list of dependencies. For all other projects, the lock file is parsed to obtain the list of dependencies without needing to build the project first.
When a supported dependency file is detected, all dependencies, including transitive dependencies are analyzed. There is no limit to the depth of nested or transitive dependencies that are analyzed.
Analyzers
Dependency Scanning supports the following official Gemnasium-based analyzers:
gemnasium
gemnasium-maven
gemnasium-python
The analyzers are published as Docker images, which Dependency Scanning uses to launch dedicated containers for each analysis. You can also integrate a custom security scanner.
Each analyzer is updated as new versions of Gemnasium are released. For more information, see the analyzer Release Process documentation.
How analyzers obtain dependency information
GitLab analyzers obtain dependency information using one of the following two methods:
- Parsing lockfiles directly.
- Running a package manager or build tool to generate a dependency information file which is then parsed.
Obtaining dependency information by parsing lockfiles
The following package managers use lockfiles that GitLab analyzers are capable of parsing directly:
Package Manager | Supported File Format Versions | Tested Package Manager Versions |
---|---|---|
Bundler | Not applicable | 1.17.3, 2.1.4 |
Composer | Not applicable | 1.x |
Conan | 0.4 | 1.x |
Go | Not applicable | 1.x |
NuGet | v1, v21 | 4.9 |
npm | v1, v2, v32 | 6.x, 7.x, 9.x |
pnpm | v5, v6, v9 | 7.x, 8.x 9.x |
yarn | versions 1, 2, 3, 43 | 1.x, 2.x, 3.x |
Poetry | v1 | 1.x |
-
Support for NuGet version 2 lock files was introduced in GitLab 16.2.
-
Support for
lockfileVersion = 3
was introduced in GitLab 15.7. -
Support for Yarn version 4 was introduced in GitLab 16.11.
The following features are not supported for Yarn Berry:
Yarn files that contain a patch, a workspace, or both, are still processed, but these features are ignored.
Obtaining dependency information by running a package manager to generate a parsable file
To support the following package managers, the GitLab analyzers proceed in two steps:
- Execute the package manager or a specific task, to export the dependency information.
- Parse the exported dependency information.
Package Manager | Pre-installed Versions | Tested Versions |
---|---|---|
sbt | 1.6.2 | 1.1.6, 1.2.8, 1.3.12, 1.4.6, 1.5.8, 1.6.2, 1.7.3, 1.8.3, 1.9.6, 1.9.7 |
maven | 3.9.8 | 3.9.81 |
Gradle | 6.7.12, 7.6.42, 8.82 | 5.6, 6.7, 6.9, 7.6, 8.8 |
setuptools | 70.3.0 | >= 70.3.0 |
pip | 24 | 24 |
Pipenv | 2023.11.15 | 2023.11.153, 2023.11.15 |
Go | 1.21 | 1.214 |
-
This test uses the default version of
maven
specified by the.tool-versions
file. -
Different versions of Java require different versions of Gradle. The versions of Gradle listed in the above table are pre-installed in the analyzer image. The version of Gradle used by the analyzer depends on whether your project uses a
gradlew
(Gradle wrapper) file or not:-
If your project does not use a
gradlew
file, then the analyzer automatically switches to one of the pre-installed Gradle versions, based on the version of Java specified by theDS_JAVA_VERSION
variable (default version is17
).For Java versions
8
and11
, Gradle6.7.1
is automatically selected, Java17
uses Gradle7.6.4
, and Java21
uses Gradle8.8
. -
If your project does use a
gradlew
file, then the version of Gradle pre-installed in the analyzer image is ignored, and the version specified in yourgradlew
file is used instead.
-
-
This test confirms that if a
Pipfile.lock
file is found, it is used by Gemnasium to scan the exact package versions listed in this file. -
Because of the implementation of
go build
, the Go build process requires network access, a pre-loaded mod cache viago mod download
, or vendored dependencies. For more information, refer to the Go documentation on compiling packages and dependencies.
How analyzers are triggered
GitLab relies on rules:exists
to start the relevant analyzers for the languages detected by the presence of the
Supported files
in the repository as shown in the table above.
The current detection logic limits the maximum search depth to two levels. For example, the gemnasium-dependency_scanning
job is enabled if
a repository contains either a Gemfile.lock
, api/Gemfile.lock
, or api/client/Gemfile.lock
, but not if the only supported dependency file is api/v1/client/Gemfile.lock
.
When a supported dependency file is detected, all dependencies, including transitive dependencies are analyzed. There is no limit to the depth of nested or transitive dependencies that are analyzed.
How multiple files are processed
Python
We only execute one installation in the directory where either a requirements file or a lock file has been detected. Dependencies are only analyzed by gemnasium-python
for the first file that is detected. Files are searched for in the following order:
-
requirements.txt
,requirements.pip
, orrequires.txt
for projects using Pip. -
Pipfile
orPipfile.lock
for projects using Pipenv. -
poetry.lock
for projects using Poetry. -
setup.py
for project using Setuptools.
The search begins with the root directory and then continues with subdirectories if no builds are found in the root directory. Consequently a Poetry lock file in the root directory would be detected before a Pipenv file in a subdirectory.
Java and Scala
We only execute one build in the directory where a build file has been detected. For large projects that include
multiple Gradle, Maven, or sbt builds, or any combination of these, gemnasium-maven
only analyzes dependencies for the first build file
that is detected. Build files are searched for in the following order:
-
pom.xml
for single or multi-module Maven projects. -
build.gradle
orbuild.gradle.kts
for single or multi-project Gradle builds. -
build.sbt
for single or multi-project sbt builds.
The search begins with the root directory and then continues with subdirectories if no builds are found in the root directory. Consequently an sbt build file in the root directory would be detected before a Gradle build file in a subdirectory.
JavaScript
The following analyzers are executed, each of which have different behavior when processing multiple files:
-
Supports multiple lockfiles
-
Does not support multiple lockfiles. When multiple lockfiles exist,
Retire.js
analyzes the first lockfile discovered while traversing the directory tree in alphabetical order.
The gemnasium
analyzer scans supports JavaScript projects for vendored libraries
(that is, those checked into the project but not managed by the package manager).
Go
Multiple files are supported. When a go.mod
file is detected, the analyzer attempts to generate a build list using
Minimal Version Selection. If this fails, the analyzer instead attempts to parse the dependencies within the go.mod
file.
As a requirement, the go.mod
file should be cleaned up using the command go mod tidy
to ensure proper management of dependencies. The process is repeated for every detected go.mod
file.
PHP, C, C++, .NET, C#, Ruby, JavaScript
The analyzer for these languages supports multiple lockfiles.
Support for additional languages
Support for additional languages, dependency managers, and dependency files are tracked in the following issues:
Package Managers | Languages | Supported files | Scan tools | Issue |
---|---|---|---|---|
Poetry | Python | pyproject.toml
| Gemnasium | GitLab#32774 |
Configuration
Enable the dependency scanning analyzer to ensure it scans your application’s dependencies for known vulnerabilities. You can then adjust its behavior by using CI/CD variables.
Enabling the analyzer
Prerequisites:
- The
test
stage is required in the.gitlab-ci.yml
file. - With self-managed runners you need a GitLab Runner with the
docker
orkubernetes
executor. - If you’re using SaaS runners on GitLab.com, this is enabled by default.
To enable the analyzer, either:
- Enable Auto DevOps, which includes dependency scanning.
- Use a preconfigured merge request.
- Create a scan execution policy that enforces dependency scanning.
- Edit the
.gitlab-ci.yml
file manually. - Use CI/CD components
Use a preconfigured merge request
This method automatically prepares a merge request that includes the Dependency Scanning template
in the .gitlab-ci.yml
file. You then merge the merge request to enable Dependency Scanning.
.gitlab-ci.yml
file, or with a minimal configuration file.
If you have a complex GitLab configuration file it might not be parsed successfully, and an error
might occur. In that case, use the manual method instead.To enable Dependency Scanning:
- On the left sidebar, select Search or go to and find your project.
- Select Secure > Security configuration.
- In the Dependency Scanning row, select Configure with a merge request.
- Select Create merge request.
- Review the merge request, then select Merge.
Pipelines now include a Dependency Scanning job.
Edit the .gitlab-ci.yml
file manually
This method requires you to manually edit the existing .gitlab-ci.yml
file. Use this method if
your GitLab CI/CD configuration file is complex.
To enable Dependency Scanning:
- On the left sidebar, select Search or go to and find your project.
- Select Build > Pipeline editor.
- If no
.gitlab-ci.yml
file exists, select Configure pipeline, then delete the example content. -
Copy and paste the following to the bottom of the
.gitlab-ci.yml
file. If aninclude
line already exists, add only thetemplate
line below it.include: - template: Jobs/Dependency-Scanning.gitlab-ci.yml
-
Select the Validate tab, then select Validate pipeline.
The message Simulation completed successfully confirms the file is valid.
- Select the Edit tab.
- Complete the fields. Do not use the default branch for the Branch field.
- Select the Start a new merge request with these changes checkbox, then select Commit changes.
- Complete the fields according to your standard workflow, then select Create merge request.
- Review and edit the merge request according to your standard workflow, then select Merge.
Pipelines now include a Dependency Scanning job.
Use CI/CD components
- Introduced in GitLab 17.0. This feature is an experiment.
- The dependency scanning CI/CD component only supports Android projects.
Use CI/CD components to perform Dependency Scanning of your application. For instructions, see the respective component’s README file.
Available CI/CD components
See https://gitlab.com/explore/catalog/components/dependency-scanning
Running jobs in merge request pipelines
See Use security scanning tools with merge request pipelines
Customizing analyzer behavior
To customize Dependency Scanning, use CI/CD variables.
Overriding dependency scanning jobs
To override a job definition (for example, to change properties like variables
or dependencies
),
declare a new job with the same name as the one to override. Place this new job after the template
inclusion and specify any additional keys under it. For example, this disables DS_REMEDIATE
for
the gemnasium
analyzer:
include:
- template: Jobs/Dependency-Scanning.gitlab-ci.yml
gemnasium-dependency_scanning:
variables:
DS_REMEDIATE: "false"
To override the dependencies: []
attribute, add an override job as above, targeting this attribute:
include:
- template: Jobs/Dependency-Scanning.gitlab-ci.yml
gemnasium-dependency_scanning:
dependencies: ["build"]
Available CI/CD variables
You can use CI/CD variables to customize dependency scanning behavior.
Global analyzer settings
The following variables allow configuration of global dependency scanning settings.
CI/CD variables | Description |
---|---|
ADDITIONAL_CA_CERT_BUNDLE
| Bundle of CA certificates to trust. The bundle of certificates provided here is also used by other tools during the scanning process, such as git , yarn , or npm . For more details, see Custom TLS certificate authority.
|
DS_EXCLUDED_ANALYZERS
| Specify the analyzers (by name) to exclude from Dependency Scanning. For more information, see Analyzers. |
DS_EXCLUDED_PATHS
| Exclude files and directories from the scan based on the paths. A comma-separated list of patterns. Patterns can be globs (see doublestar.Match for supported patterns), or file or folder paths (for example, doc,spec ). Parent directories also match patterns. This is a pre-filter which is applied before the scan is executed. Default: "spec, test, tests, tmp" .
|
DS_IMAGE_SUFFIX
| Suffix added to the image name. (GitLab team members can view more information in this confidential issue: https://gitlab.com/gitlab-org/gitlab/-/issues/354796 ). Automatically set to "-fips" when FIPS mode is enabled.
|
DS_MAX_DEPTH
| Defines how many directory levels deep that the analyzer should search for supported files to scan. A value of -1 scans all directories regardless of depth. Default: 2 .
|
SECURE_ANALYZERS_PREFIX
| Override the name of the Docker registry providing the official default images (proxy). |
Analyzer-specific settings
The following variables configure the behavior of specific dependency scanning analyzers.
CI/CD variable | Analyzer | Default | Description |
---|---|---|---|
GEMNASIUM_DB_LOCAL_PATH
| gemnasium
| /gemnasium-db
| Path to local Gemnasium database. |
GEMNASIUM_DB_UPDATE_DISABLED
| gemnasium
| "false"
| Disable automatic updates for the gemnasium-db advisory database. For usage see Access to the GitLab Advisory Database.
|
GEMNASIUM_DB_REMOTE_URL
| gemnasium
| https://gitlab.com/gitlab-org/security-products/gemnasium-db.git
| Repository URL for fetching the GitLab Advisory Database. |
GEMNASIUM_DB_REF_NAME
| gemnasium
| master
| Branch name for remote repository database. GEMNASIUM_DB_REMOTE_URL is required.
|
DS_REMEDIATE
| gemnasium
|
"true" , "false" in FIPS mode
| Enable automatic remediation of vulnerable dependencies. Not supported in FIPS mode. |
DS_REMEDIATE_TIMEOUT
| gemnasium
| 5m
| Timeout for auto-remediation. |
GEMNASIUM_LIBRARY_SCAN_ENABLED
| gemnasium
| "true"
| Enable detecting vulnerabilities in vendored JavaScript libraries (libraries which are not managed by a package manager). This functionality requires a JavaScript lockfile to be present in a commit, otherwise Dependency Scanning is not executed and vendored files are not scanned. Dependency scanning uses the Retire.js scanner to detect a limited set of vulnerabilities. For details of which vulnerabilities are detected, see the Retire.js repository. |
DS_INCLUDE_DEV_DEPENDENCIES
| gemnasium
| "true"
| When set to "false" , development dependencies and their vulnerabilities are not reported. Only projects using Composer, Maven, npm, pnpm, Pipenv or Poetry are supported. Introduced in GitLab 15.1.
|
GOOS
| gemnasium
| "linux"
| The operating system for which to compile Go code. |
GOARCH
| gemnasium
| "amd64"
| The architecture of the processor for which to compile Go code. |
GOFLAGS
| gemnasium
| The flags passed to the go build tool.
| |
GOPRIVATE
| gemnasium
| A list of glob patterns and prefixes to be fetched from source. For more information, see the Go private modules documentation. | |
DS_JAVA_VERSION
| gemnasium-maven
| 17
| Version of Java. Available versions: 8 , 11 , 17 , 21 .
|
MAVEN_CLI_OPTS
| gemnasium-maven
| "-DskipTests --batch-mode"
| List of command line arguments that are passed to maven by the analyzer. See an example for using private repositories.
|
GRADLE_CLI_OPTS
| gemnasium-maven
| List of command line arguments that are passed to gradle by the analyzer.
| |
GRADLE_PLUGIN_INIT_PATH
| gemnasium-maven
| "gemnasium-init.gradle"
| Specifies the path to the Gradle initialization script. The init script must include allprojects { apply plugin: 'project-report' } to ensure compatibility.
|
DS_GRADLE_RESOLUTION_POLICY
| gemnasium-maven
| "failed"
| Controls Gradle dependency resolution strictness. Accepts "none" to allow partial results, or "failed" to fail the scan when any dependencies fail to resolve.
|
SBT_CLI_OPTS
| gemnasium-maven
| List of command-line arguments that the analyzer passes to sbt .
| |
PIP_INDEX_URL
| gemnasium-python
| https://pypi.org/simple
| Base URL of Python Package Index. |
PIP_EXTRA_INDEX_URL
| gemnasium-python
| Array of extra URLs of package indexes to use in addition to PIP_INDEX_URL . Comma-separated. Warning: Read the following security consideration when using this environment variable.
| |
PIP_REQUIREMENTS_FILE
| gemnasium-python
| Pip requirements file to be scanned. This is a filename and not a path. When this environment variable is set only the specified file is scanned. | |
PIPENV_PYPI_MIRROR
| gemnasium-python
| If set, overrides the PyPi index used by Pipenv with a mirror. | |
DS_PIP_VERSION
| gemnasium-python
| Force the install of a specific pip version (example: "19.3" ), otherwise the pip installed in the Docker image is used.
| |
DS_PIP_DEPENDENCY_PATH
| gemnasium-python
| Path to load Python pip dependencies from. |
Other variables
The previous tables are not an exhaustive list of all variables that can be used. They contain all specific GitLab and analyzer variables we support and test. There are many variables, such as environment variables, that you can pass in and they do work. This is a large list, many of which we may be unaware of, and as such is not documented.
For example, to pass the non-GitLab environment variable HTTPS_PROXY
to all Dependency Scanning jobs,
set it as a CI/CD variable in your .gitlab-ci.yml
file like this:
variables:
HTTPS_PROXY: "https://squid-proxy:3128"
Alternatively we may use it in specific jobs, like Dependency Scanning:
dependency_scanning:
variables:
HTTPS_PROXY: $HTTPS_PROXY
As we have not tested all variables you may find some do work and others do not. If one does not work and you need it we suggest submitting a feature request or contributing to the code to enable it to be used.
Custom TLS certificate authority
Dependency Scanning allows for use of custom TLS certificates for SSL/TLS connections instead of the default shipped with the analyzer container image.
Support for custom certificate authorities was introduced in the following versions.
Analyzer | Version |
---|---|
gemnasium
| v2.8.0 |
gemnasium-maven
| v2.9.0 |
gemnasium-python
| v2.7.0 |
Using a custom TLS certificate authority
To use a custom TLS certificate authority, assign the
text representation of the X.509 PEM public-key certificate
to the CI/CD variable ADDITIONAL_CA_CERT_BUNDLE
.
For example, to configure the certificate in the .gitlab-ci.yml
file:
variables:
ADDITIONAL_CA_CERT_BUNDLE: |
-----BEGIN CERTIFICATE-----
MIIGqTCCBJGgAwIBAgIQI7AVxxVwg2kch4d56XNdDjANBgkqhkiG9w0BAQsFADCB
...
jWgmPqF3vUbZE0EyScetPJquRFRKIesyJuBFMAs=
-----END CERTIFICATE-----
Using private Maven repositories
If your private Maven repository requires login credentials,
you can use the MAVEN_CLI_OPTS
CI/CD variable.
Read more on how to use private Maven repositories.
FIPS-enabled images
- Introduced in GitLab 15.0 - Gemnasium uses FIPS-enabled images when FIPS mode is enabled.
GitLab also offers FIPS-enabled Red Hat UBI
versions of the Gemnasium images. When FIPS mode is enabled in the GitLab instance, Gemnasium
scanning jobs automatically use the FIPS-enabled images. To manually switch to FIPS-enabled images,
set the variable DS_IMAGE_SUFFIX
to "-fips"
.
Dependency scanning for Gradle projects and auto-remediation for Yarn projects are not supported in FIPS mode.
FIPS-enabled images are based on RedHat’s UBI micro.
They don’t have package managers such as dnf
or microdnf
so it’s not possible to install system packages at runtime.
Output
Dependency Scanning produces the following output:
- Dependency scanning report: Contains details of all vulnerabilities detected in dependencies.
- CycloneDX Software Bill of Materials: Software Bill of Materials (SBOM) for each supported lock or build file detected.
Dependency scanning report
Dependency scanning outputs a report containing details of all vulnerabilities. The report is
processed internally and the results are shown in the UI. The report is also output as an artifact
of the dependency scanning job, named gl-dependency-scanning-report.json
.
For more details of the dependency scanning report, see:
CycloneDX Software Bill of Materials
- Generally available in GitLab 15.7.
Dependency Scanning outputs a CycloneDX Software Bill of Materials (SBOM) for each supported lock or build file it detects.
The CycloneDX SBOMs are:
- Named
gl-sbom-<package-type>-<package-manager>.cdx.json
. - Available as job artifacts of the dependency scanning job.
- Saved in the same directory as the detected lock or build files.
For example, if your project has the following structure:
.
├── ruby-project/
│ └── Gemfile.lock
├── ruby-project-2/
│ └── Gemfile.lock
├── php-project/
│ └── composer.lock
└── go-project/
└── go.sum
Then the Gemnasium scanner generates the following CycloneDX SBOMs:
.
├── ruby-project/
│ ├── Gemfile.lock
│ └── gl-sbom-gem-bundler.cdx.json
├── ruby-project-2/
│ ├── Gemfile.lock
│ └── gl-sbom-gem-bundler.cdx.json
├── php-project/
│ ├── composer.lock
│ └── gl-sbom-packagist-composer.cdx.json
└── go-project/
├── go.sum
└── gl-sbom-go-go.cdx.json
Merging multiple CycloneDX SBOMs
You can use a CI/CD job to merge the multiple CycloneDX SBOMs into a single SBOM. GitLab uses CycloneDX Properties to store implementation-specific details in the metadata of each CycloneDX SBOM, such as the location of build and lock files. If multiple CycloneDX SBOMs are merged together, this information is removed from the resulting merged file.
For example, the following .gitlab-ci.yml
extract demonstrates how the Cyclone SBOM files can be
merged, and the resulting file validated.
stages:
- test
- merge-cyclonedx-sboms
include:
- template: Jobs/Dependency-Scanning.gitlab-ci.yml
merge cyclonedx sboms:
stage: merge-cyclonedx-sboms
image:
name: cyclonedx/cyclonedx-cli:0.25.1
entrypoint: [""]
script:
- find . -name "gl-sbom-*.cdx.json" -exec cyclonedx merge --output-file gl-sbom-all.cdx.json --input-files "{}" +
# optional: validate the merged sbom
- cyclonedx validate --input-version v1_4 --input-file gl-sbom-all.cdx.json
artifacts:
paths:
- gl-sbom-all.cdx.json
Contributing to the vulnerability database
To find a vulnerability, you can search the GitLab Advisory Database
.
You can also submit new vulnerabilities.
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 dependency scanning jobs to run successfully. For more information, see Offline environments.
Requirements
To run dependency scanning in an offline environment you must have:
- A GitLab Runner with the
docker
orkubernetes
executor - Local copies of the dependency scanning analyzer images
- Access to the GitLab Advisory Database
Local copies of analyzer images
To use dependency scanning with all supported languages and frameworks:
-
Import the following default dependency scanning analyzer images from
registry.gitlab.com
into your local Docker container registry:registry.gitlab.com/security-products/gemnasium:5 registry.gitlab.com/security-products/gemnasium:5-fips registry.gitlab.com/security-products/gemnasium-maven:5 registry.gitlab.com/security-products/gemnasium-maven:5-fips registry.gitlab.com/security-products/gemnasium-python:5 registry.gitlab.com/security-products/gemnasium-python:5-fips
The process for importing Docker images into a local offline Docker registry depends on your network security policy. Consult your IT staff to find an accepted and approved process by which external resources can be imported or temporarily accessed. These scanners are periodically updated with new definitions, and you may want to download them regularly.
-
Configure GitLab CI/CD to use the local analyzers.
Set the value of the CI/CD variable
SECURE_ANALYZERS_PREFIX
to your local Docker registry - in this example,docker-registry.example.com
.include: - template: Security/Dependency-Scanning.gitlab-ci.yml variables: SECURE_ANALYZERS_PREFIX: "docker-registry.example.com/analyzers"
Access to the GitLab Advisory Database
The GitLab Advisory Database is the
source of vulnerability data used by the gemnasium
, gemnasium-maven
, and gemnasium-python
analyzers. The Docker images of these analyzers include a clone of the database.
The clone is synchronized with the database before starting a scan,
to ensure the analyzers have the latest vulnerability data.
In an offline environment, the default host of the GitLab Advisory Database can’t be accessed. Instead, you must host the database somewhere that it is accessible to the GitLab runners. You must also update the database manually at your own schedule.
Available options for hosting the database are:
Use a clone of the GitLab Advisory Database
Using a clone of the GitLab Advisory Database is recommended because it is the most efficient method.
To host a clone of the GitLab Advisory Database:
- Clone the GitLab Advisory Database to a host that is accessible by HTTP from the GitLab runners.
- In your
.gitlab-ci.yml
file, set the value of the CI/CD variableGEMNASIUM_DB_REMOTE_URL
to the URL of the Git repository.
For example:
variables:
GEMNASIUM_DB_REMOTE_URL: https://users-own-copy.example.com/gemnasium-db.git
Use a copy of the GitLab Advisory Database
Using a copy of the GitLab Advisory Database requires you to host an archive file which is downloaded by the analyzers.
To use a copy of the GitLab Advisory Database:
- Download an archive of the GitLab Advisory Database to a host that is accessible by HTTP from the
GitLab runners. The archive is located at
https://gitlab.com/gitlab-org/security-products/gemnasium-db/-/archive/master/gemnasium-db-master.tar.gz
. -
Update your
.gitlab-ci.yml
file.- Set CI/CD variable
GEMNASIUM_DB_LOCAL_PATH
to use the local copy of the database. - Set CI/CD variable
GEMNASIUM_DB_UPDATE_DISABLED
to disable the database update. - Download and extract the advisory database before the scan begins.
variables: GEMNASIUM_DB_LOCAL_PATH: ./gemnasium-db-local GEMNASIUM_DB_UPDATE_DISABLED: "true" dependency_scanning: before_script: - wget https://local.example.com/gemnasium_db.tar.gz - mkdir -p $GEMNASIUM_DB_LOCAL_PATH - tar -xzvf gemnasium_db.tar.gz --strip-components=1 -C $GEMNASIUM_DB_LOCAL_PATH
- Set CI/CD variable
Using a proxy with Gradle projects
The Gradle wrapper script does not read the HTTP(S)_PROXY
environment variables. See this upstream issue.
To make the Gradle wrapper script use a proxy, you can specify the options using the GRADLE_CLI_OPTS
CI/CD variable:
variables:
GRADLE_CLI_OPTS: "-Dhttps.proxyHost=squid-proxy -Dhttps.proxyPort=3128 -Dhttp.proxyHost=squid-proxy -Dhttp.proxyPort=3128 -Dhttp.nonProxyHosts=localhost"
Using a proxy with Maven projects
Maven does not read the HTTP(S)_PROXY
environment variables.
To make the Maven dependency scanner use a proxy, you can configure it using a settings.xml
file (see Maven documentation) and instruct Maven to use this configuration by using the MAVEN_CLI_OPTS
CI/CD variable:
variables:
MAVEN_CLI_OPTS: "--settings mysettings.xml"
Specific settings for languages and package managers
See the following sections for configuring specific languages and package managers.
Python (pip)
If you need to install Python packages before the analyzer runs, you should use pip install --user
in the before_script
of the scanning job. The --user
flag causes project dependencies to be installed in the user directory. If you do not pass the --user
option, packages are installed globally, and they are not scanned and don’t show up when listing project dependencies.
Python (setuptools)
If you need to install Python packages before the analyzer runs, you should use python setup.py install --user
in the before_script
of the scanning job. The --user
flag causes project dependencies to be installed in the user directory. If you do not pass the --user
option, packages are installed globally, and they are not scanned and don’t show up when listing project dependencies.
When using self-signed certificates for your private PyPi repository, no extra job configuration (aside
from the template .gitlab-ci.yml
above) is needed. However, you must update your setup.py
to
ensure that it can reach your private repository. Here is an example configuration:
-
Update
setup.py
to create adependency_links
attribute pointing at your private repository for each dependency in theinstall_requires
list:install_requires=['pyparsing>=2.0.3'], dependency_links=['https://pypi.example.com/simple/pyparsing'],
-
Fetch the certificate from your repository URL and add it to the project:
printf "\n" | openssl s_client -connect pypi.example.com:443 -servername pypi.example.com | sed -ne '/-BEGIN CERTIFICATE-/,/-END CERTIFICATE-/p' > internal.crt
-
Point
setup.py
at the newly downloaded certificate:import setuptools.ssl_support setuptools.ssl_support.cert_paths = ['internal.crt']
Python (Pipenv)
If running in a limited network connectivity environment, you must configure the PIPENV_PYPI_MIRROR
variable to use a private PyPi mirror. This mirror must contain both default and development dependencies.
variables:
PIPENV_PYPI_MIRROR: https://pypi.example.com/simple
Alternatively, if it’s not possible to use a private registry, you can load the required packages
into the Pipenv virtual environment cache. For this option, the project must check in the
Pipfile.lock
into the repository, and load both default and development packages into the cache.
See the example python-pipenv
project for an example of how this can be done.
Warnings
We recommend that you use the most recent version of all containers, and the most recent supported version of all package managers and languages. Using previous versions carries an increased security risk because unsupported versions may no longer benefit from active security reporting and backporting of security fixes.
Gradle projects
Do not override the reports.html.destination
or reports.html.outputLocation
properties when generating an HTML dependency report for Gradle projects. Doing so prevents Dependency Scanning from functioning correctly.
Maven Projects
In isolated networks, if the central repository is a private registry (explicitly set with the <mirror>
directive), Maven builds may fail to find the gemnasium-maven-plugin
dependency. This issue occurs because Maven doesn’t search the local repository (/root/.m2
) by default and attempts to fetch from the central repository. The result is an error about the missing dependency.
Workaround
To resolve this issue, add a <pluginRepositories>
section to your settings.xml
file. This allows Maven to find plugins in the local repository.
Before you begin, consider the following:
- This workaround is only for environments where the default Maven central repository is mirrored to a private registry.
- After applying this workaround, Maven searches the local repository for plugins, which may have security implications in some environments. Make sure this aligns with your organization’s security policies.
Follow these steps to modify the settings.xml
file:
-
Locate your Maven
settings.xml
file. This file is typically found in one of these locations:-
/root/.m2/settings.xml
for the root user. -
~/.m2/settings.xml
for a regular user. -
${maven.home}/conf/settings.xml
global settings.
-
-
Check if there’s an existing
<pluginRepositories>
section in the file. -
If a
<pluginRepositories>
section already exists, add only the following<pluginRepository>
element inside it. Otherwise, add the entire<pluginRepositories>
section:<pluginRepositories> <pluginRepository> <id>local2</id> <name>local repository</name> <url>file:///root/.m2/repository/</url> </pluginRepository> </pluginRepositories>
-
Run your Maven build or dependency scanning process again.
Python projects
Extra care needs to be taken when using the PIP_EXTRA_INDEX_URL
environment variable due to a possible exploit documented by CVE-2018-20225:
An issue was discovered in pip (all versions) because it installs the version with the highest version number, even if the user had intended to obtain a private package from a private index. This only affects use of the
PIP_EXTRA_INDEX_URL
option, and exploitation requires that the package does not already exist in the public index (and thus the attacker can put the package there with an arbitrary version number).
Version number parsing
In some cases it’s not possible to determine if the version of a project dependency is in the affected range of a security advisory.
For example:
- The version is unknown.
- The version is invalid.
- Parsing the version or comparing it to the range fails.
- The version is a branch, like
dev-master
or1.5.x
. - The compared versions are ambiguous. For example,
1.0.0-20241502
can’t be compared to1.0.0-2
because one version contains a timestamp while the other does not.
In these cases, the analyzer skips the dependency and outputs a message to the log.
The GitLab analyzers do not make assumptions as they could result in a false positive or false negative. For a discussion, see issue 442027.
Build Swift projects
Swift Package Manager (SPM) is the official tool for managing the distribution of Swift code. It’s integrated with the Swift build system to automate the process of downloading, compiling, and linking dependencies.
Follow these best practices when you build a Swift project with SPM.
-
Include a
Package.resolved
file.The
Package.resolved
file locks your dependencies to specific versions. Always commit this file to your repository to ensure consistency across different environments.git add Package.resolved git commit -m "Add Package.resolved to lock dependencies"
-
To build your Swift project, use the following commands:
# Update dependencies swift package update # Build the project swift build
-
To configure CI/CD, add these steps to your
.gitlab-ci.yml
file:swift-build: stage: build script: - swift package update - swift build
-
Optional. If you use private Swift package repositories with self-signed certificates, you might need to add the certificate to your project and configure Swift to trust it:
-
Fetch the certificate:
echo | openssl s_client -servername your.repo.url -connect your.repo.url:443 | sed -ne '/-BEGIN CERTIFICATE-/,/-END CERTIFICATE-/p' > repo-cert.crt
-
Add these lines to your Swift package manifest (
Package.swift
):import Foundation #if canImport(Security) import Security #endif extension Package { public static func addCustomCertificate() { guard let certPath = Bundle.module.path(forResource: "repo-cert", ofType: "crt") else { fatalError("Certificate not found") } SecCertificateAddToSystemStore(SecCertificateCreateWithData(nil, try! Data(contentsOf: URL(fileURLWithPath: certPath)) as CFData)!) } } // Call this before defining your package Package.addCustomCertificate()
-
Always test your build process in a clean environment to ensure your dependencies are correctly specified and resolve automatically.
Build CocoaPods projects
CocoaPods is a popular dependency manager for Swift and Objective-C Cocoa projects. It provides a standard format for managing external libraries in iOS, macOS, watchOS, and tvOS projects.
Follow these best practices when you build projects that use CocoaPods for dependency management.
-
Include a
Podfile.lock
file.The
Podfile.lock
file is crucial for locking your dependencies to specific versions. Always commit this file to your repository to ensure consistency across different environments.git add Podfile.lock git commit -m "Add Podfile.lock to lock CocoaPods dependencies"
-
You can build your project with one of the following:
-
The
xcodebuild
command-line tool:# Install CocoaPods dependencies pod install # Build the project xcodebuild -workspace YourWorkspace.xcworkspace -scheme YourScheme build
-
The Xcode IDE:
- Open your
.xcworkspace
file in Xcode. - Select your target scheme.
- Select Product > Build. You can also press ⌘+B.
- Open your
-
fastlane, a tool for automating builds and releases for iOS and Android apps:
-
Install
fastlane
:sudo gem install fastlane
-
In your project, configure
fastlane
:fastlane init
-
Add a lane to your
fastfile
:lane :build do cocoapods gym(scheme: "YourScheme") end
-
Run the build:
fastlane build
-
-
If your project uses both CocoaPods and Carthage, you can use Carthage to build your dependencies:
- Create a
Cartfile
that includes your CocoaPods dependencies. -
Run the following:
carthage update --platform iOS
- Create a
-
-
Configure CI/CD to build the project according to your preferred method.
For example, using
xcodebuild
:cocoapods-build: stage: build script: - pod install - xcodebuild -workspace YourWorkspace.xcworkspace -scheme YourScheme build
-
Optional. If you use private CocoaPods repositories, you might need to configure your project to access them:
-
Add the private spec repo:
pod repo add REPO_NAME SOURCE_URL
-
In your Podfile, specify the source:
source 'https://github.com/CocoaPods/Specs.git' source 'SOURCE_URL'
-
-
Optional. If your private CocoaPods repository uses SSL, ensure the SSL certificate is properly configured:
-
If you use a self-signed certificate, add it to your system’s trusted certificates. You can also specify the SSL configuration in your
.netrc
file:machine your.private.repo.url login your_username password your_password
-
-
After you update your Podfile, run
pod install
to install dependencies and update your workspace.
Remember to always run pod install
after updating your Podfile to ensure all dependencies are properly installed and the workspace is updated.