- Disable predefined rules
- Override predefined rules
- Build a custom configuration
- Create the configuration file
- Specify a remote configuration file
- Schema
-
Examples
- Disable predefined rules of SAST analyzers
- Override predefined rules of SAST analyzers
-
Build a custom configuration using a file passthrough for
semgrep
-
Build a custom configuration using a passthrough chain for
semgrep
- Configure the mode for passthroughs in a chain
- Specify a private remote configuration
- Demo Projects
Customize rulesets
- Enabled support for specifying ambiguous passthrough refs in GitLab 16.2.
You can customize the behavior of our SAST analyzers by defining a ruleset configuration file in the repository being scanned. There are two kinds of customization:
- Modifying the behavior of predefined rules. This includes:
- Disabling predefined rules. Available for all analyzers.
- Overriding predefined rules. Available for all analyzers.
- Replacing predefined rules by building a custom configuration using passthroughs. Available only for the Semgrep-based analyzer.
Advanced SAST supports only modifying the behavior of predefined rules, not replacing predefined rules.
Disable predefined rules
You can disable predefined rules for any SAST analyzer.
When you disable a rule:
- Most analyzers still scan for the vulnerability. The results are removed as a processing step after the scan completes, and they don’t appear in the
gl-sast-report.json
artifact. - Findings for the disabled rule no longer appear in the pipeline security tab.
- Existing findings for the disabled rule on the default branch are marked as
No longer detected
in the vulnerability report.
The Semgrep-based analyzer handles disabled rules differently:
- To improve performance, the Semgrep-based analyzer doesn’t scan for disabled rules at all.
- If you disable a rule in the Semgrep-based analyzer, existing vulnerability findings for that rule are automatically resolved after you merge the
sast-ruleset.toml
file to the default branch.
See the Schema and Examples sections for information on how to configure this behavior.
Override predefined rules
Certain attributes of predefined rules can be overridden for any SAST analyzer. This can be useful when adapting SAST to your existing workflow or tools. For example, you might want to override the severity of a vulnerability based on organizational policy, or choose a different message to display in the Vulnerability Report.
See the Schema and Examples sections for information on how to configure this behavior.
Build a custom configuration
You can replace the GitLab-maintained ruleset for the Semgrep-based analyzer with your own rules.
You provide your customizations via passthroughs, which are composed into a passthrough chain at runtime and evaluated to produce a complete configuration. The underlying scanner is then executed against this new configuration.
There are multiple passthrough types that let you provide configuration in different ways, such as using a file committed to your repository or inline in the ruleset configuration file. You can also choose how subsequent passthroughs in the chain are handled; they can overwrite or append to previous configuration.
See the Schema and Examples sections for information on how to configure this behavior.
Create the configuration file
To create the ruleset configuration file:
- Create a
.gitlab
directory at the root of your project, if one doesn’t already exist. - Create a file named
sast-ruleset.toml
in the.gitlab
directory.
Specify a remote configuration file
- Introduced in 16.1.
You can set a CI/CD variable to use a ruleset configuration file that’s stored outside of the current repository. This can help you apply the same rules across multiple projects.
The SAST_RULESET_GIT_REFERENCE
variable uses a format similar to
Git URLs for specifying a project URI,
optional authentication, and optional Git SHA. The variable uses the following format:
[<AUTH_USER>[:<AUTH_PASSWORD>]@]<PROJECT_PATH>[@<GIT_SHA>]
.gitlab/sast-ruleset.toml
file committed, that local configuration takes precedence and the file from SAST_RULESET_GIT_REFERENCE
isn’t used.The following example enables SAST and uses a shared ruleset customization file.
In this example, the file is committed on the default branch of example-ruleset-project
at the path .gitlab/sast-ruleset.toml
.
include:
- template: Jobs/SAST.gitlab-ci.yml
variables:
SAST_RULESET_GIT_REFERENCE: "gitlab.com/example-group/example-ruleset-project"
See specify a private remote configuration example for advanced usage.
Troubleshooting remote configuration files
If remote configuration file doesn’t seem to be applying customizations correctly, the causes can be:
- Your repository has a local
.gitlab/sast-ruleset.toml
file.- By default, a local file is used if it’s present, even if a remote configuration is set as a variable.
- You can set the SECURE_ENABLE_LOCAL_CONFIGURATION CI/CD variable to
false
to ignore the local configuration file.
- There is a problem with authentication.
- To check whether this is the cause of the problem, try referencing a configuration file from a repository location that doesn’t require authentication.
Schema
The top-level section
The top-level section contains one or more configuration sections, defined as TOML tables.
Setting | Description |
---|---|
[$analyzer]
|
Declares a configuration section for an analyzer. The name follows the snake-case names defined in the list of SAST analyzers. |
Configuration example:
[semgrep]
...
Avoid creating configuration sections that modify existing rules and build a custom ruleset, as the latter replaces predefined rules completely.
The [$analyzer]
configuration section
The [$analyzer]
section lets you customize the behavior of an analyzer. Valid properties
differ based on the kind of configuration you’re making.
Setting | Applies to | Description |
---|---|---|
[[$analyzer.ruleset]]
|
Predefined rules | Defines modifications to an existing rule. |
interpolate
|
All | If set to true , you can use $VAR in the configuration to evaluate environment variables. Use this feature with caution, so you don’t leak secrets or tokens. (Default: false )
|
description
|
Passthroughs | Description of the custom ruleset. |
targetdir
|
Passthroughs | The directory where the final configuration should be persisted. If empty, a directory with a random name is created. The directory can contain up to 100 MB of files. |
validate
|
Passthroughs | If set to true , the content of each passthrough is validated. The validation works for yaml , xml , json and toml content. The proper validator is identified based on the extension used in the target parameter of the [[$analyzer.passthrough]] section. (Default: false )
|
timeout
|
Passthroughs | The maximum time to spend to evaluate the passthrough chain, before timing out. The timeout cannot exceed 300 seconds. (Default: 60) |
interpolate
The example below shows a configuration that uses the $GITURL
environment variable to access a
private repository. The variable contains a username and token (for example https://user:token@url
), so
they’re not explicitly stored in the configuration file.
[semgrep]
description = "My private Semgrep ruleset"
interpolate = true
[[semgrep.passthrough]]
type = "git"
value = "$GITURL"
ref = "main"
The [[$analyzer.ruleset]]
section
The [[$analyzer.ruleset]]
section targets and modifies a single predefined rule. You can define
one to many of these sections per analyzer.
Setting | Description |
---|---|
disable
|
Whether the rule should be disabled. (Default: false )
|
[$analyzer.ruleset.identifier]
|
Selects the predefined rule to be modified. |
[$analyzer.ruleset.override]
|
Defines the overrides for the rule. |
Configuration example:
[semgrep]
[[semgrep.ruleset]]
disable = true
...
The [$analyzer.ruleset.identifier]
section
The [$analyzer.ruleset.identifier]
section defines the identifiers of the predefined
rule that you wish to modify.
Setting | Description |
---|---|
type
|
The type of identifier used by the predefined rule. |
value
|
The value of the identifier used by the predefined rule. |
You can look up the correct values for type
and value
by viewing the
gl-sast-report.json
produced by the analyzer.
You can download this file as a job artifact from the analyzer’s CI job.
For example, the snippet below shows a finding from a semgrep
rule with three
identifiers. The type
and value
keys in the JSON object correspond to the
values you should provide in this section.
...
"vulnerabilities": [
{
"id": "7331a4b7093875f6eb9f6eb1755b30cc792e9fb3a08c9ce673fb0d2207d7c9c9",
"category": "sast",
"message": "Key Exchange without Entity Authentication",
"description": "Audit the use of ssh.InsecureIgnoreHostKey\n",
...
"identifiers": [
{
"type": "semgrep_id",
"name": "gosec.G106-1",
"value": "gosec.G106-1"
},
{
"type": "cwe",
"name": "CWE-322",
"value": "322",
"url": "https://cwe.mitre.org/data/definitions/322.html"
},
{
"type": "gosec_rule_id",
"name": "Gosec Rule ID G106",
"value": "G106"
}
]
}
...
]
...
Configuration example:
[semgrep]
[[semgrep.ruleset]]
[semgrep.ruleset.identifier]
type = "semgrep_id"
value = "gosec.G106-1
...
The [$analyzer.ruleset.override]
section
The [$analyzer.ruleset.override]
section allows you to override attributes of a predefined rule.
Setting | Description |
---|---|
description
|
A detailed description of the issue. |
message
|
(Deprecated) A description of the issue. |
name
|
The name of the rule. |
severity
|
The severity of the rule. Valid options are: Critical , High , Medium , Low , Unknown , Info )
|
message
is populated by the analyzers, it has been deprecated
in favor of name
and description
.Configuration example:
[semgrep]
[[semgrep.ruleset]]
[semgrep.ruleset.override]
severity = "Critical"
name = "Command injection"
...
The [[$analyzer.passthrough]]
section
The [[$analyzer.passthrough]]
section allows you to build a custom configuration for an analyzer. You
can define up to 20 of these sections per analyzer. Passthroughs are composed into a passthrough chain
that evaluates into a complete configuration that replaces the predefined rules of the analyzer.
Passthroughs are evaluated in order. Passthroughs listed later in the chain have
a higher precedence and can overwrite or append to data yielded by previous
passthroughs (depending on the mode
). This is useful for cases where you need
to use or modify an existing configuration.
The size of the configuration generated by a single passthrough is limited to 10 MB.
Setting | Applies to | Description |
---|---|---|
type
|
All | One of file , raw , git or url .
|
target
|
All | The target file to contain the data written by the passthrough evaluation. If empty, a random filename is used. |
mode
|
All | If overwrite , the target file is overwritten. If append , new content is appended to the target file. The git type only supports overwrite . (Default: overwrite )
|
ref
|
type = "git"
|
Contains the name of the branch, tag, or the SHA to pull |
subdir
|
type = "git"
|
Used to select a subdirectory of the Git repository as the configuration source. |
value
|
All | For the file , url , and git types, defines the location of the file or Git repository. For the raw type, contains the inline configuration.
|
validator
|
All | Used to explicitly invoke validators (xml , yaml , json , toml ) on the target file after the evaluation of a passthrough.
|
Passthrough types
Type | Description |
---|---|
file
|
Use a file that is present in the Git repository. |
raw
|
Provide the configuration inline. |
git
|
Pull the configuration from a remote Git repository. |
url
|
Fetch the configuration using HTTP. |
raw
passthrough with a YAML snippet, it’s recommended to format all indentation
in the sast-ruleset.toml
file as spaces. The YAML specification mandates spaces over tabs, and the
analyzer fails to parse your custom ruleset unless the indentation is represented accordingly.Examples
Disable predefined rules of SAST analyzers
With the following custom ruleset configuration, the following rules are omitted from the report:
-
semgrep
rules with asemgrep_id
ofgosec.G106-1
or acwe
of322
. -
sobelow
rules with asobelow_rule_id
ofsql_injection
. -
flawfinder
rules with aflawfinder_func_name
ofmemcpy
.
[semgrep]
[[semgrep.ruleset]]
disable = true
[semgrep.ruleset.identifier]
type = "semgrep_id"
value = "gosec.G106-1"
[[semgrep.ruleset]]
disable = true
[semgrep.ruleset.identifier]
type = "cwe"
value = "322"
[sobelow]
[[sobelow.ruleset]]
disable = true
[sobelow.ruleset.identifier]
type = "sobelow_rule_id"
value = "sql_injection"
[flawfinder]
[[flawfinder.ruleset]]
disable = true
[flawfinder.ruleset.identifier]
type = "flawfinder_func_name"
value = "memcpy"
Override predefined rules of SAST analyzers
With the following custom ruleset configuration, vulnerabilities found with
semgrep
with a type CWE
and a value 322
have their severity overridden to Critical
.
[semgrep]
[[semgrep.ruleset]]
[semgrep.ruleset.identifier]
type = "cwe"
value = "322"
[semgrep.ruleset.override]
severity = "Critical"
Build a custom configuration using a file passthrough for semgrep
With the following custom ruleset configuration, the predefined ruleset
of the semgrep
analyzer is replaced with a custom ruleset contained in
a file called my-semgrep-rules.yaml
in the repository being scanned.
# my-semgrep-rules.yml
---
rules:
- id: my-custom-rule
pattern: print("Hello World")
message: |
Unauthorized use of Hello World.
severity: ERROR
languages:
- python
[semgrep]
description = "My custom ruleset for Semgrep"
[[semgrep.passthrough]]
type = "file"
value = "my-semgrep-rules.yml"
Build a custom configuration using a passthrough chain for semgrep
With the following custom ruleset configuration, the predefined ruleset
of the semgrep
analyzer is replaced with a custom ruleset produced by
evaluating a chain of four passthroughs. Each passthrough produces a file
that’s written to the /sgrules
directory within the container. A
timeout
of 60 seconds is set in case any Git remotes are unresponsive.
Different passthrough types are demonstrated in this example:
- Two
git
passthroughs, the first pullingdevelop
branch from themyrules
Git repository, and the second pulling revision97f7686
from thesast-rules
repository, and considering only files in thego
subdirectory.- The
sast-rules
entry has a higher precedence because it appears later in the configuration. - If there’s a filename collision between the two checkouts, files
from the
sast-rules
repository overwrite files from themyrules
repository.
- The
- A
raw
passthrough, which writes itsvalue
to/sgrules/insecure.yml
. - A
url
passthrough, which fetches a configuration hosted at a URL and writes it to/sgrules/gosec.yml
.
Afterwards, Semgrep is invoked with the final configuration located under
/sgrules
.
[semgrep]
description = "My custom ruleset for Semgrep"
targetdir = "/sgrules"
timeout = 60
[[semgrep.passthrough]]
type = "git"
value = "https://gitlab.com/user/myrules.git"
ref = "develop"
[[semgrep.passthrough]]
type = "git"
value = "https://gitlab.com/gitlab-org/secure/gsoc-sast-vulnerability-rules/playground/sast-rules.git"
ref = "97f7686db058e2141c0806a477c1e04835c4f395"
subdir = "go"
[[semgrep.passthrough]]
type = "raw"
target = "insecure.yml"
value = """
rules:
- id: "insecure"
patterns:
- pattern: "func insecure() {...}"
message: |
Insecure function insecure detected
metadata:
cwe: "CWE-200: Exposure of Sensitive Information to an Unauthorized Actor"
severity: "ERROR"
languages:
- "go"
"""
[[semgrep.passthrough]]
type = "url"
value = "https://semgrep.dev/c/p/gosec"
target = "gosec.yml"
Configure the mode for passthroughs in a chain
You can choose how to handle filename conflicts that occur between
passthroughs in a chain. The default behavior is to overwrite
existing files with the same name, but you can choose mode = append
instead to append the content of later files onto earlier ones.
You can use the append
mode for the file
, url
, and raw
passthrough types only.
With the following custom ruleset configuration, two raw
passthroughs
are used to iteratively assemble the /sgrules/my-rules.yml
file, which
is then provided to Semgrep as the ruleset. Each passthrough appends a
single rule to the ruleset. The first passthrough is responsible for
initialising the top-level rules
object, according to the
Semgrep rule syntax.
[semgrep]
description = "My custom ruleset for Semgrep"
targetdir = "/sgrules"
validate = true
[[semgrep.passthrough]]
type = "raw"
target = "my-rules.yml"
value = """
rules:
- id: "insecure"
patterns:
- pattern: "func insecure() {...}"
message: |
Insecure function 'insecure' detected
metadata:
cwe: "..."
severity: "ERROR"
languages:
- "go"
"""
[[semgrep.passthrough]]
type = "raw"
mode = "append"
target = "my-rules.yml"
value = """
- id: "secret"
patterns:
- pattern-either:
- pattern: '$MASK = "..."'
- metavariable-regex:
metavariable: "$MASK"
regex: "(password|pass|passwd|pwd|secret|token)"
message: |
Use of hard-coded password
metadata:
cwe: "..."
severity: "ERROR"
languages:
- "go"
"""
# /sgrules/my-rules.yml
rules:
- id: "insecure"
patterns:
- pattern: "func insecure() {...}"
message: |
Insecure function 'insecure' detected
metadata:
cwe: "..."
severity: "ERROR"
languages:
- "go"
- id: "secret"
patterns:
- pattern-either:
- pattern: '$MASK = "..."'
- metavariable-regex:
metavariable: "$MASK"
regex: "(password|pass|passwd|pwd|secret|token)"
message: |
Use of hard-coded password
metadata:
cwe: "..."
severity: "ERROR"
languages:
- "go"
Specify a private remote configuration
The following example enables SAST and uses a shared ruleset customization file. The file is:
- Downloaded from a private project that requires authentication, by using a Group Access Token securely stored within a CI variable.
- Checked out at a specific Git commit SHA instead of the default branch.
See group access tokens for how to find the username associated with a group token.
include:
- template: Jobs/SAST.gitlab-ci.yml
variables:
SAST_RULESET_GIT_REFERENCE: "group_2504721_bot_7c9311ffb83f2850e794d478ccee36f5:$PERSONAL_ACCESS_TOKEN@gitlab.com/example-group/example-ruleset-project@c8ea7e3ff126987fb4819cc35f2310755511c2ab"
Demo Projects
There are demonstration projects that illustrate some of these configuration options.
Many of these projects illustrate using remote rulesets to override or disable rules and are grouped together by which analyzer they are for.
There are also some video demonstrations walking through setting up remote rulesets: