- Features
- Requirements
- Supported languages and frameworks
- End of supported analyzers
- Advanced vulnerability tracking
- Automatic vulnerability resolution
- Supported distributions
- Output
- View SAST results
- Contribute your scanner
-
Configuration
- Configure SAST in your CI/CD YAML
- Stable vs latest SAST templates
- Configure SAST by using the UI
- Overriding SAST jobs
- Pinning to minor image version
- Using CI/CD variables to pass credentials for private repositories
- Enabling Kubesec analyzer
- Scanning Rust applications
- Pre-compilation
- Running jobs in merge request pipelines
- Available CI/CD variables
- Exclude code from analysis
- Running SAST in an offline environment
- Running SAST in SELinux
Static Application Security Testing (SAST)
If you’re using GitLab CI/CD, you can use Static Application Security Testing (SAST) to check your source code for known vulnerabilities. You can run SAST analyzers in any GitLab tier. The analyzers output JSON-formatted reports as job artifacts.
With GitLab Ultimate, SAST results are also processed so you can:
- Use them in approval workflows.
- Review them in the security dashboard.
For more information, see Features.
Features
The following table lists the GitLab tiers in which each feature is available.
Feature | In Free & Premium | In Ultimate |
---|---|---|
Basic scanning with open-source analyzers | Yes | Yes |
Downloadable SAST JSON report | Yes | Yes |
Cross-file, cross-function scanning with GitLab Advanced SAST | No | Yes |
New findings in merge request widget | No | Yes |
New findings in merge request changes view | No | Yes |
Vulnerability Management | No | Yes |
UI-based scanner configuration | No | Yes |
Ruleset customization | No | Yes |
Advanced Vulnerability Tracking | No | Yes |
Requirements
Before you run a SAST analyzer in your instance, make sure you have the following:
- Linux-based GitLab Runner with the
docker
orkubernetes
executor. If you’re using the shared runners on GitLab.com, this is enabled by default.- Windows Runners are not supported.
- CPU architectures other than amd64 are not supported.
- GitLab CI/CD configuration (
.gitlab-ci.yml
) must include thetest
stage, which is included by default. If you redefine the stages in the.gitlab-ci.yml
file, thetest
stage is required.
Supported languages and frameworks
GitLab SAST supports scanning a variety of programming languages and frameworks. After you enable SAST, the right set of analyzers runs automatically even if your project uses more than one language.
For more information about our plans for language support in SAST, see the category direction page.
Language / framework | Analyzer used for scanning | Minimum supported GitLab version |
---|---|---|
.NET (all versions, C# only) | Semgrep with GitLab-managed rules | 15.4 |
.NET (all versions, C# only) | Advanced SAST | 17.3 |
Apex (Salesforce) | PMD | 12.1 |
C | Semgrep with GitLab-managed rules | 14.2 |
C/C++ | Semgrep with GitLab-managed rules | 16.11 |
Elixir (Phoenix) | Sobelow | 11.1 |
Go | Semgrep with GitLab-managed rules | 14.4 |
Go | Advanced SAST | 17.3 |
Groovy1 | SpotBugs with the find-sec-bugs plugin | 11.3 (Gradle) & 11.9 (Maven, SBT) |
Helm Charts | Kubesec | 13.1 |
Java (any build system) | Semgrep with GitLab-managed rules | 14.10 |
Java (Android) | Semgrep with GitLab-managed rules | 16.11 |
Java (any build system) | Advanced SAST | 17.3 |
JavaScript | Semgrep with GitLab-managed rules | 13.10 |
JavaScript | Advanced SAST | 17.3 |
Kotlin (Android) | Semgrep with GitLab-managed rules | 16.11 |
Kotlin (General)1 | Semgrep with GitLab-managed rules | 16.11 |
Kubernetes manifests | Kubesec | 12.6 |
Node.js | Semgrep with GitLab-managed rules | 16.11 |
Node.js | Advanced SAST | 17.3 |
Objective-C (iOS) | Semgrep with GitLab-managed rules | 16.11 |
PHP | Semgrep with GitLab-managed rules | 16.11 |
Python | Semgrep with GitLab-managed rules | 13.9 |
Python | Advanced SAST | 17.3 |
React | Semgrep with GitLab-managed rules | 13.10 |
Ruby | Semgrep with GitLab-managed rules | 16.11 |
Ruby | Advanced SAST | 17.5 |
Ruby on Rails | Semgrep with GitLab-managed rules | 16.11 |
Rust 2 | Semgrep with user-provided Custom rules | 17.1 |
Scala (any build system) | Semgrep with GitLab-managed rules | 16.0 |
Scala 1 | SpotBugs with the find-sec-bugs plugin | 11.0 (SBT) & 11.9 (Gradle, Maven) |
Swift (iOS) | Semgrep with GitLab-managed rules | 16.11 |
TypeScript | Semgrep with GitLab-managed rules | 13.10 |
TypeScript | Advanced SAST | 17.3 |
- The SpotBugs-based analyzer supports Gradle, Maven, and SBT. It can also be used with variants like the Gradle wrapper, Grails, and the Maven wrapper. However, SpotBugs has limitations when used against Ant-based projects. You should use the Advanced SAST or Semgrep-based analyzer for Ant-based Java or Scala projects.
- Requires a custom ruleset and an override to the semgrep-sast CI job. See Scanning Rust applications for an example.
End of supported analyzers
The following GitLab analyzers have reached End of Support status and do not receive updates. They were replaced by the Semgrep-based analyzer with GitLab-managed rules.
After you upgrade to GitLab 17.3.1, a one-time data migration automatically resolves findings from the analyzers that reached End of Support. This includes all of the analyzers listed below except for SpotBugs, because SpotBugs still scans Groovy code. The migration only resolves vulnerabilities that you haven’t confirmed or dismissed, and it doesn’t affect vulnerabilities that were automatically translated to Semgrep-based scanning. For details, see issue 444926.
Language / framework | Analyzer used for scanning | Minimum supported GitLab version | End Of Support GitLab version |
---|---|---|---|
.NET Core | Security Code Scan | 11.0 | 16.0 |
.NET Framework | Security Code Scan | 13.0 | 16.0 |
Go | Gosec | 10.7 | 15.4 |
Java | SpotBugs with the find-sec-bugs plugin | 10.6 (Maven), 10.8 (Gradle) & 11.9 (SBT) | 15.4 |
Python | bandit | 10.3 | 15.4 |
React | ESLint react plugin | 12.5 | 15.4 |
JavaScript | ESLint security plugin | 11.8 | 15.4 |
TypeScript | ESLint security plugin | 11.9, with ESLint in 13.2 | 15.4 |
Ruby | brakeman | 13.9 | 17.0 |
Ruby on Rails | brakeman | 13.9 | 17.0 |
Node.js | NodeJsScan | 11.1 | 17.0 |
Kotlin (General) | SpotBugs | 13.11 | 17.0 |
Kotlin (Android) | MobSF | 13.5 | 17.0 |
Java (Android) | MobSF | 13.5 | 17.0 |
Objective-C (iOS) | MobSF | 13.5 | 17.0 |
PHP | phpcs-security-audit | 10.8 | 17.0 |
C++ | Flawfinder | 10.7 | 17.0 |
Advanced vulnerability tracking
Source code is volatile; as developers make changes, source code may move within files or between files. Security analyzers may have already reported vulnerabilities that are being tracked in the Vulnerability Report. These vulnerabilities are linked to specific problematic code fragments so that they can be found and fixed. If the code fragments are not tracked reliably as they move, vulnerability management is harder because the same vulnerability could be reported again.
GitLab SAST uses an advanced vulnerability tracking algorithm to more accurately identify when the same vulnerability has moved within a file due to refactoring or unrelated changes.
Advanced vulnerability tracking is available in a subset of the supported languages and analyzers:
- C, in the Semgrep-based only
- C++, in the Semgrep-based only
- C#, in the Advanced SAST and Semgrep-based analyzer only
- Go, in the Advanced SAST and Semgrep-based analyzer only
- Java, in the Advanced SAST and Semgrep-based analyzer only
- JavaScript, in the Advanced SAST and Semgrep-based analyzer only
- PHP, in the Semgrep-based analyzer only
- Python, in the Advanced SAST and Semgrep-based analyzer only
- Ruby, in the Semgrep-based analyzer only
Support for more languages and analyzers is tracked in this epic.
For more information, see the confidential project https://gitlab.com/gitlab-org/security-products/post-analyzers/tracking-calculator
. The content of this project is available only to GitLab team members.
Automatic vulnerability resolution
-
Introduced in GitLab 15.9 with a project-level flag named
sec_mark_dropped_findings_as_resolved
. - Enabled by default in GitLab 15.10. On GitLab.com, contact Support if you need to disable the flag for your project.
- Feature flag removed in GitLab 16.2.
To help you focus on the vulnerabilities that are still relevant, GitLab SAST automatically resolves vulnerabilities when:
- You disable a predefined rule.
- We remove a rule from the default ruleset.
Automatic resolution is available only for findings from the Semgrep-based analyzer. The Vulnerability Management system leaves a comment on automatically-resolved vulnerabilities so you still have a historical record of the vulnerability.
If you re-enable the rule later, the findings are reopened for triage.
Supported distributions
The default scanner images are built on a base Alpine image for size and maintainability.
FIPS-enabled images
GitLab offers an image version, based on the Red Hat UBI base image, that uses a FIPS 140-validated cryptographic module. To use the FIPS-enabled image, you can either:
- Set the
SAST_IMAGE_SUFFIX
to-fips
. - Add the
-fips
extension to the default image name.
For example:
variables:
SAST_IMAGE_SUFFIX: '-fips'
include:
- template: Jobs/SAST.gitlab-ci.yml
A FIPS-compliant image is only available for the Advanced SAST and Semgrep-based analyzer.
run_as_user
attribute under runners.kubernetes.pod_security_context
to use the ID of gitlab
user created by the image, which is 1000
.Output
SAST outputs the file gl-sast-report.json
as a job artifact. The file contains details of all
detected vulnerabilities. You can
download the file for processing
outside GitLab.
For more information, see:
View SAST results
The SAST report file is processed by GitLab and the details are shown in the UI:
- Merge request widget
- Merge request changes view
- Vulnerability report
A pipeline consists of multiple jobs, including SAST and DAST scanning. If any job fails to finish for any reason, the security dashboard does not show SAST scanner output. For example, if the SAST job finishes but the DAST job fails, the security dashboard does not show SAST results. On failure, the analyzer outputs an exit code.
Merge request widget
SAST results display in the merge request widget area if a report from the target branch is available for comparison. The merge request widget displays SAST results and resolutions that were introduced by the changes made in the merge request.
Merge request changes view
-
Introduced in GitLab 16.6 with a flag named
sast_reports_in_inline_diff
. Disabled by default. - Enabled by default in GitLab 16.8.
- Feature flag removed in GitLab 16.9.
SAST results display in the merge request Changes view. Lines containing SAST issues are marked by a symbol beside the gutter. Select the symbol to see the list of issues, then select an issue to see its details.
Contribute your scanner
The Security Scanner Integration documentation explains how to integrate other security scanners into GitLab.
Configuration
SAST scanning runs in your CI/CD pipeline. When you add the GitLab-managed CI/CD template to your pipeline, the right SAST analyzers automatically scan your code and save results as SAST report artifacts.
To configure SAST for a project you can:
- Use Auto SAST, provided by Auto DevOps.
- Configure SAST in your CI/CD YAML.
- Configure SAST by using the UI.
You can enable SAST across many projects by enforcing scan execution.
To configure Advanced SAST (available in GitLab Ultimate only), follow these instructions.
Configure SAST in your CI/CD YAML
To enable SAST, you include
the SAST.gitlab-ci.yml
template.
The template is provided as a part of your GitLab installation.
Copy and paste the following to the bottom of the .gitlab-ci.yml
file. If an include
line
already exists, add only the template
line below it.
include:
- template: Jobs/SAST.gitlab-ci.yml
The included template creates SAST jobs in your CI/CD pipeline and scans your project’s source code for possible vulnerabilities.
The results are saved as a SAST report artifact that you can later download and analyze. When downloading, you always receive the most recent SAST artifact available.
Stable vs latest SAST templates
SAST provides two templates for incorporating security testing into your CI/CD pipelines:
-
SAST.gitlab-ci.yml
(recommended)The stable template offers a reliable and consistent SAST experience. You should use the stable template for most users and projects that require stability and predictable behavior in their CI/CD pipelines.
-
This template is for those who want to access and test cutting-edge features. It is not considered stable and may include breaking changes that are planned for the next major release. This template allows you to try new features and updates before they become part of the stable release, making it ideal for those comfortable with potential instability and eager to provide feedback on new functionality.
Configure SAST by using the UI
You can enable and configure SAST by using the UI, either with the default settings or with customizations. The method you can use depends on your GitLab license tier.
Configure SAST with customizations
Removed individual SAST analyzers configuration options from the UI in GitLab 16.2.
.gitlab-ci.yml
file, or with a minimal
configuration file. If you have a complex GitLab configuration file it may not be parsed
successfully, and an error may occur.To enable and configure SAST with customizations:
- On the left sidebar, select Search or go to and find your project.
- Select Secure > Security configuration.
- If the latest pipeline for the default branch of the project has completed
and produced valid
SAST
artifacts, select Configure SAST, otherwise select Enable SAST in the Static Application Security Testing (SAST) row. -
Enter the custom SAST values.
Custom values are stored in the
.gitlab-ci.yml
file. For CI/CD variables not in the SAST Configuration page, their values are inherited from the GitLab SAST template. - Select Create Merge Request.
- Review and merge the merge request.
Pipelines now include a SAST job.
Configure SAST with default settings only
.gitlab-ci.yml
file, or with a minimal
configuration file. If you have a complex GitLab configuration file it may not be parsed
successfully, and an error may occur.To enable and configure SAST with default settings:
- On the left sidebar, select Search or go to and find your project.
- Select Secure > Security configuration.
- In the SAST section, select Configure with a merge request.
- Review and merge the merge request to enable SAST.
Pipelines now include a SAST job.
Overriding SAST jobs
To override a job definition, (for example, change properties like variables
, dependencies
, or rules
),
declare a job with the same name as the SAST job to override. Place this new job after the template
inclusion and specify any additional keys under it. For example, this enables FAIL_NEVER
for the
spotbugs
analyzer:
include:
- template: Jobs/SAST.gitlab-ci.yml
spotbugs-sast:
variables:
FAIL_NEVER: 1
Pinning to minor image version
The GitLab-managed CI/CD template specifies a major version and automatically pulls the latest analyzer release within that major version.
In some cases, you may need to use a specific version. For example, you might need to avoid a regression in a later release.
To override the automatic update behavior, set the SAST_ANALYZER_IMAGE_TAG
CI/CD variable
in your CI/CD configuration file after you include the SAST.gitlab-ci.yml
template.
Only set this variable within a specific job. If you set it at the top level, the version you set is used for other SAST analyzers.
You can set the tag to:
- A major version, like
3
. Your pipelines use any minor or patch updates that are released within this major version. - A minor version, like
3.7
. Your pipelines use any patch updates that are released within this minor version. - A patch version, like
3.7.0
. Your pipelines don’t receive any updates.
This example uses a specific minor version of the semgrep
analyzer and a specific patch version of the brakeman
analyzer:
include:
- template: Jobs/SAST.gitlab-ci.yml
semgrep-sast:
variables:
SAST_ANALYZER_IMAGE_TAG: "3.7"
brakeman-sast:
variables:
SAST_ANALYZER_IMAGE_TAG: "3.1.1"
Using CI/CD variables to pass credentials for private repositories
Some analyzers require downloading the project’s dependencies to perform the analysis. In turn, such dependencies may live in private Git repositories and thus require credentials like username and password to download them. Depending on the analyzer, such credentials can be provided to it via custom CI/CD variables.
Using a CI/CD variable to pass username and password to a private Maven repository
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.
Enabling Kubesec analyzer
You need to set SCAN_KUBERNETES_MANIFESTS
to "true"
to enable the
Kubesec analyzer. In .gitlab-ci.yml
, define:
include:
- template: Jobs/SAST.gitlab-ci.yml
variables:
SCAN_KUBERNETES_MANIFESTS: "true"
Scanning Rust applications
To scan Rust applications, you must:
-
Provide a custom ruleset for Rust. Create a file named
sast-ruleset.toml
in a.gitlab/
directory at the root of your repository. Add the following contents:[semgrep] description = "Rust ruleset for Semgrep" targetdir = "/sgrules" timeout = 60 [[semgrep.passthrough]] type = "url" value = "https://semgrep.dev/c/p/rust" target = "rust.yml"
This configuration uses the open-source Semgrep ruleset. Read more on customizing rulesets.
-
Override the
semgrep-sast
job to add a rule that detects Rust (.rs
) files. Define the following in the.gitlab-ci.yml
file:include: - template: Jobs/SAST.gitlab-ci.yml semgrep-sast: rules: - if: $CI_COMMIT_BRANCH exists: - '**/*.rs' # include any other file extensions you need to scan from the semgrep-sast template: Jobs/SAST.gitlab-ci.yml
Pre-compilation
Most GitLab SAST analyzers directly scan your source code without compiling it first. However, for technical reasons, the SpotBugs-based analyzer scans compiled bytecode.
By default, the SpotBugs-based analyzer automatically attempts to fetch dependencies and compile your code so it can be scanned. Automatic compilation can fail if:
- your project requires custom build configurations.
- you use language versions that aren’t built into the analyzer.
To resolve these issues, you can skip the analyzer’s compilation step and directly provide artifacts from an earlier stage in your pipeline instead. This strategy is called pre-compilation.
To use pre-compilation:
- Output your project’s dependencies to a directory in the project’s working directory, then save that directory as an artifact by setting the
artifacts: paths
configuration. - Provide the
COMPILE: "false"
CI/CD variable to the analyzer job to disable automatic compilation. - Add your compilation stage as a dependency for the analyzer job.
To allow the analyzer to recognize the compiled artifacts, you must explicitly specify the path to
the vendored directory.
This configuration can vary depending on how the project is set up.
For Maven projects, you can use MAVEN_REPO_PATH
.
See Analyzer settings for the complete list of available options.
The following example pre-compiles a Maven project and provides it to the SpotBugs-based SAST analyzer:
stages:
- build
- test
include:
- template: Jobs/SAST.gitlab-ci.yml
build:
image: maven:3.6-jdk-8-slim
stage: build
script:
- mvn package -Dmaven.repo.local=./.m2/repository
artifacts:
paths:
- .m2/
- target/
spotbugs-sast:
dependencies:
- build
variables:
MAVEN_REPO_PATH: $CI_PROJECT_DIR/.m2/repository
COMPILE: "false"
artifacts:
reports:
sast: gl-sast-report.json
Running jobs in merge request pipelines
See Use security scanning tools with merge request pipelines.
Available CI/CD variables
SAST can be configured using the variables
parameter in
.gitlab-ci.yml
.
The following example includes the SAST template to override the SEARCH_MAX_DEPTH
variable to 10
in all jobs. The template is evaluated before the pipeline
configuration, so the last mention of the variable takes precedence.
include:
- template: Jobs/SAST.gitlab-ci.yml
variables:
SEARCH_MAX_DEPTH: 10
Custom Certificate Authority
To trust a custom Certificate Authority, set the ADDITIONAL_CA_CERT_BUNDLE
variable to the bundle
of CA certs that you want to trust in the SAST environment. The ADDITIONAL_CA_CERT_BUNDLE
value should contain the text representation of the X.509 PEM public-key certificate. For example, to configure this value in the .gitlab-ci.yml
file, use the following:
variables:
ADDITIONAL_CA_CERT_BUNDLE: |
-----BEGIN CERTIFICATE-----
MIIGqTCCBJGgAwIBAgIQI7AVxxVwg2kch4d56XNdDjANBgkqhkiG9w0BAQsFADCB
...
jWgmPqF3vUbZE0EyScetPJquRFRKIesyJuBFMAs=
-----END CERTIFICATE-----
The ADDITIONAL_CA_CERT_BUNDLE
value can also be configured as a custom variable in the UI, either as a file
, which requires the path to the certificate, or as a variable, which requires the text representation of the certificate.
Docker images
The following are Docker image-related CI/CD variables.
CI/CD variable | Description |
---|---|
SECURE_ANALYZERS_PREFIX
|
Override the name of the Docker registry providing the default images (proxy). Read more about customizing analyzers. |
SAST_EXCLUDED_ANALYZERS
|
Names of default images that should never run. Read more about customizing analyzers. |
SAST_ANALYZER_IMAGE_TAG
|
Override the default version of analyzer image. Read more about pinning the analyzer image version. |
SAST_IMAGE_SUFFIX
|
Suffix added to the image name. If set to -fips , FIPS-enabled images are used for scan. See FIPS-enabled images for more details.
|
Vulnerability filters
CI/CD variable | Description | Default Value | Analyzer |
---|---|---|---|
SAST_EXCLUDED_PATHS
|
Comma-separated list of paths for excluding vulnerabilities. The exact handling of this variable depends on which analyzer is used.1 |
spec, test, tests, tmp
|
Semgrep2,3 |
GitLab Advanced SAST2,3 | |||
All other SAST analyzers3 | |||
SAST_SPOTBUGS_EXCLUDED_BUILD_PATHS
|
Comma-separated list of paths for excluding directories from being built and scanned. | None | SpotBugs4 |
SEARCH_MAX_DEPTH
|
The number of directory levels the analyzer will descend into when searching for matching files to scan.5 |
20
|
Semgrep |
GitLab Advanced SAST | |||
4
|
All other SAST analyzers |
Footnotes:
-
You might need to exclude temporary directories used by your build tool as these can generate false positives. To exclude paths, copy and paste the default excluded paths, then add your own paths to be excluded. If you don’t specify the default excluded paths, the defaults are overridden and only the paths you specify are excluded from SAST scans.
-
For these analyzers,
SAST_EXCLUDED_PATHS
is implemented as a pre-filter, which is applied before the scan is executed.The analyzer skips any files or directories whose path matches one of the comma-separated patterns.
For example, if
SAST_EXCLUDED_PATHS
is set to*.py,tests
:-
*.py
ignores the following:-
foo.py
-
src/foo.py
-
foo.py/bar.sh
-
-
tests
ignores:-
tests/foo.py
-
a/b/tests/c/foo.py
-
Each pattern is a glob-style pattern that uses the same syntax as gitignore.
-
-
For these analyzers,
SAST_EXCLUDED_PATHS
is implemented as a post-filter, which is applied after the scan is executed.Patterns can be globs (see
doublestar.Match
for supported patterns), or file or folder paths (for example,doc,spec
). Parent directories also match patterns.The post-filter implementation of
SAST_EXCLUDED_PATHS
is available for all SAST analyzers. Some SAST analyzers such as those with superscript 2 implementSAST_EXCLUDED_PATHS
as both a pre-filter and post-filter. A pre-filter is more efficient because it reduces the number of files to be scanned.For analyzers that support
SAST_EXCLUDED_PATHS
as both a pre-filter and post-filter, the pre-filter is applied first, then the post-filter is applied to any vulnerabilities that remain. -
For this variable, Path patterns can be globs (see
doublestar.Match
for supported patterns). Directories are excluded from the build process if the path pattern matches a supported build file:-
build.sbt
-
grailsw
-
gradlew
-
build.gradle
-
mvnw
-
pom.xml
-
build.xml
For example, to exclude building and scanning a
maven
project containing a build file with the pathproject/subdir/pom.xml
, pass a glob pattern that explicitly matches the build file, such asproject/*/*.xml
or**/*.xml
, or an exact match such asproject/subdir/pom.xml
.Passing a parent directory for the pattern, such as
project
orproject/subdir
, does not exclude the directory from being built, because in this case, the build file is not explicitly matched by the pattern. -
-
The SAST CI/CD template searches the repository to detect the programming languages used, and selects the matching analyzers. Then, each analyzer searches the codebase to find the specific files or directories it should scan. Set the value of
SEARCH_MAX_DEPTH
to specify how many directory levels the analyzer’s search phase should span.
Analyzer settings
Some analyzers can be customized with CI/CD variables.
CI/CD variable | Analyzer | Description |
---|---|---|
GITLAB_ADVANCED_SAST_ENABLED
|
GitLab Advanced SAST | Set to true to enable Advanced SAST scanning (available in GitLab Ultimate only). Default: false .
|
SCAN_KUBERNETES_MANIFESTS
|
Kubesec | Set to "true" to scan Kubernetes manifests.
|
KUBESEC_HELM_CHARTS_PATH
|
Kubesec | Optional path to Helm charts that helm uses to generate a Kubernetes manifest that kubesec scans. If dependencies are defined, helm dependency build should be ran in a before_script to fetch the necessary dependencies.
|
KUBESEC_HELM_OPTIONS
|
Kubesec | Additional arguments for the helm executable.
|
COMPILE
|
SpotBugs | Set to false to disable project compilation and dependency fetching.
|
ANT_HOME
|
SpotBugs | The ANT_HOME variable.
|
ANT_PATH
|
SpotBugs | Path to the ant executable.
|
GRADLE_PATH
|
SpotBugs | Path to the gradle executable.
|
JAVA_OPTS
|
SpotBugs | Additional arguments for the java executable.
|
JAVA_PATH
|
SpotBugs | Path to the java executable.
|
SAST_JAVA_VERSION
|
SpotBugs | Which Java version to use. Starting in GitLab 15.0, supported versions are 11 and 17 (default). Before GitLab 15.0, supported versions are 8 (default) and 11 .
|
MAVEN_CLI_OPTS
|
SpotBugs | Additional arguments for the mvn or mvnw executable.
|
MAVEN_PATH
|
SpotBugs | Path to the mvn executable.
|
MAVEN_REPO_PATH
|
SpotBugs | Path to the Maven local repository (shortcut for the maven.repo.local property).
|
SBT_PATH
|
SpotBugs | Path to the sbt executable.
|
FAIL_NEVER
|
SpotBugs | Set to 1 to ignore compilation failure.
|
SAST_SEMGREP_METRICS
|
Semgrep | Set to "false" to disable sending anonymized scan metrics to r2c. Default: true .
|
SAST_SCANNER_ALLOWED_CLI_OPTS
|
Semgrep | CLI options (arguments with value, or flags) that are passed to the underlying security scanner when running scan operation. Only a limited set of options are accepted. Separate a CLI option and its value using either a blank space or equals (= ) character. For example: name1 value1 or name1=value1 . Multiple options must be separated by blank spaces. For example: name1 value1 name2 value2 . Introduced in GitLab 15.3.
|
SAST_RULESET_GIT_REFERENCE
|
All | Defines a path to a custom ruleset configuration. If a project has a .gitlab/sast-ruleset.toml file committed, that local configuration takes precedence and the file from SAST_RULESET_GIT_REFERENCE isn’t used. This variable is available for the Ultimate tier only.
|
SECURE_ENABLE_LOCAL_CONFIGURATION
|
All | Enables the option to use custom ruleset configuration. If SECURE_ENABLE_LOCAL_CONFIGURATION is set to false , the project’s custom ruleset configuration file at .gitlab/sast-ruleset.toml is ignored and the file from SAST_RULESET_GIT_REFERENCE or the default configuration takes precedence.
|
Security scanner configuration
SAST analyzers internally use OSS security scanners to perform the analysis. We set the recommended configuration for the security scanner so that you need not to worry about tuning them. However, there can be some rare cases where our default scanner configuration does not suit your requirements.
To allow some customization of scanner behavior, you can add a limited set of flags to the
underlying scanner. Specify the flags in the SAST_SCANNER_ALLOWED_CLI_OPTS
CI/CD variable. These
flags are added to the scanner’s CLI options.
Analyzer | CLI option | Description |
---|---|---|
Semgrep |
--max-memory
|
Sets the maximum system memory in MB to use when running a rule on a single file. |
--max-target-bytes
|
Maximum size for a file to be scanned. Any input program larger than this is ignored.
Set to
Note:
You should keep this flag set to the default value. Also, avoid changing this flag to scan minified
JavaScript, which is unlikely to work well, |
|
--timeout
|
Maximum time in seconds to spend running a rule on a single file. Set to 0 to have no time limit.
Timeout value must be an integer, for example: 10 or 15 . Defaults to 5 .
|
|
SpotBugs |
-effort
|
Sets the analysis effort level. Valid values are, in increasing order of precision and ability to detect more vulnerabilities
min , less , more and max . Default value is set to
max which may require more memory and time to complete the scan, depending on the project's size. If you
face memory or performance issues, you can reduce the analysis effort level to a lower value. For example:
-effort less .
|
Custom CI/CD variables
In addition to the aforementioned SAST configuration CI/CD variables, all custom variables are propagated to the underlying SAST analyzer images if the SAST vendored template is used.
Exclude code from analysis
You can mark individual lines, or blocks, of code to be excluded from being analyzed for
vulnerabilities. You should manage all vulnerabilities through Vulnerability Management, or adjust the scanned file paths
using SAST_EXCLUDED_PATHS
before using this method of finding-by-finding comment annotation.
When using the Semgrep-based analyzer, the following options are also available:
-
Ignore a line of code - add
// nosemgrep:
comment to the end of the line (the prefix is according to the development language).Java example:
vuln_func(); // nosemgrep
Python example:
vuln_func(); # nosemgrep
-
Ignore a line of code for specific rule - add
// nosemgrep: RULE_ID
comment at the end of the line (the prefix is according to the development language). -
Ignore a file or directory - create a
.semgrepignore
file in your repository’s root directory or your project’s working directory and add patterns for files and folders there.
For more details see Semgrep documentation.
Running SAST 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 SAST job to run successfully. For more information, see Offline environments.
Requirements for offline SAST
To use SAST in an offline environment, you need:
- GitLab Runner with the
docker
orkubernetes
executor. - A Docker container registry with locally available copies of SAST analyzer images.
- Configure certificate checking of packages (optional).
GitLab Runner has a default pull_policy
of always
,
meaning the runner tries to pull Docker images from the GitLab container registry even if a local
copy is available. The GitLab Runner pull_policy
can be set to if-not-present
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 SAST analyzer images available inside your Docker registry
For SAST with all supported languages and frameworks,
import the following default SAST analyzer images from registry.gitlab.com
into your
local Docker container registry:
registry.gitlab.com/security-products/gitlab-advanced-sast:1
registry.gitlab.com/security-products/kubesec:5
registry.gitlab.com/security-products/pmd-apex:5
registry.gitlab.com/security-products/semgrep:5
registry.gitlab.com/security-products/sobelow:5
registry.gitlab.com/security-products/spotbugs:5
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 be able to make occasional updates on your own.
For details on saving and transporting Docker images as a file, see the Docker documentation on
docker save
, docker load
,
docker export
, and docker import
.
If support for Custom Certificate Authorities are needed
Support for custom certificate authorities was introduced in the following versions.
Analyzer | Version |
---|---|
kubesec
|
v2.1.0 |
pmd-apex
|
v2.1.0 |
semgrep
|
v0.0.1 |
sobelow
|
v2.2.0 |
spotbugs
|
v2.7.1 |
Set SAST CI/CD variables to use local SAST analyzers
Add the following configuration to your .gitlab-ci.yml
file. You must replace
SECURE_ANALYZERS_PREFIX
to refer to your local Docker container registry:
include:
- template: Jobs/SAST.gitlab-ci.yml
variables:
SECURE_ANALYZERS_PREFIX: "localhost:5000/analyzers"
The SAST job should now use local copies of the SAST analyzers to scan your code and generate security reports without requiring internet access.
Configure certificate checking of packages
If a SAST job invokes a package manager, you must configure its certificate verification. In an offline environment, certificate verification with an external source is not possible. Either use a self-signed certificate or disable certificate verification. Refer to the package manager’s documentation for instructions.
Running SAST in SELinux
By default SAST analyzers are supported in GitLab instances hosted on SELinux. Adding a before_script
in an overridden SAST job may not work as runners hosted on SELinux have restricted permissions.