stage | group | info | type |
---|---|---|---|
Secure |
Fuzz Testing |
To determine the technical writer assigned to the Stage/Group associated with this page, see https://about.gitlab.com/handbook/engineering/ux/technical-writing/#assignments |
reference, howto |
You can add web API fuzzing to your GitLab CI/CD pipelines. This helps you discover bugs and potential security issues that other QA processes may miss. API fuzzing performs fuzz testing of API operation parameters. Fuzz testing sets operation parameters to unexpected values in an effort to cause unexpected behavior and errors in the API backend.
We recommend that you use fuzz testing in addition to GitLab Secure's other security scanners and your own test processes. If you're using GitLab CI/CD, you can run fuzz tests as part your CI/CD workflow.
- One of the following web API types:
- REST API
- SOAP
- GraphQL
- Form bodies, JSON, or XML
- One of the following assets to provide APIs to test:
- OpenAPI v2 API definition
- HTTP Archive (HAR) of API requests to test
- Postman Collection v2.0 or v2.1
When using the API-Fuzzing.gitlab-ci.yml
template, the fuzz
job runs last, as shown here. To
ensure API fuzzing scans the latest code, your CI pipeline should deploy changes to a test
environment in one of the jobs preceding the fuzz
job:
stages:
- build
- test
- deploy
- fuzz
Note that if your pipeline is configured to deploy to the same web server on each run, running a pipeline while another is still running could cause a race condition in which one pipeline overwrites the code from another. The API to scan should be excluded from changes for the duration of a fuzzing scan. The only changes to the API should be from the fuzzing scanner. Be aware that any changes made to the API (for example, by users, scheduled tasks, database changes, code changes, other pipelines, or other scanners) during a scan could cause inaccurate results.
There are three ways to perform scans. See the configuration section for the one you wish to use:
Examples of both configurations can be found here:
- Example OpenAPI v2 specification project
- Example HTTP Archive (HAR) project
- Example Postman Collection project
The OpenAPI Specification (formerly the Swagger Specification) is an API description format for REST APIs. This section shows you how to configure API fuzzing by using an OpenAPI specification to provide information about the target API to test. OpenAPI specifications are provided as a filesystem resource or URL.
Follow these steps to configure API fuzzing in GitLab with an OpenAPI specification:
-
To use API fuzzing, you must include the
API-Fuzzing.gitlab-ci.yml
template that's provided as part of your GitLab installation. To do so, add the following to your.gitlab-ci.yml
file:include: - template: API-Fuzzing.gitlab-ci.yml
-
Add the configuration file
gitlab-api-fuzzing-config.yml
to your repository's root as.gitlab-api-fuzzing.yml
. -
The configuration file has several testing profiles defined with varying amounts of fuzzing. We recommend that you start with the
Quick-10
profile. Testing with this profile completes quickly, allowing for easier configuration validation.Provide the profile by adding the
FUZZAPI_PROFILE
variable to your.gitlab-ci.yml
file, substitutingQuick-10
for the profile you choose:include: - template: API-Fuzzing.gitlab-ci.yml variables: FUZZAPI_PROFILE: Quick-10
-
Provide the location of the OpenAPI v2 specification. You can provide the specification as a file or URL. Specify the location by adding the
FUZZAPI_OPENAPI
variable:include: - template: API-Fuzzing.gitlab-ci.yml variables: FUZZAPI_PROFILE: Quick-10 FUZZAPI_OPENAPI: test-api-specification.json
-
The target API instance's base URL is also required. Provide it by using the
FUZZAPI_TARGET_URL
variable or anenvironment_url.txt
file.Adding the URL in an
environment_url.txt
file at your project's root is great for testing in dynamic environments. To run API fuzzing against an app dynamically created during a GitLab CI/CD pipeline, have the app persist its domain in anenvironment_url.txt
file. API fuzzing automatically parses that file to find its scan target. You can see an example of this in our Auto DevOps CI YAML.Here's an example of using
FUZZAPI_TARGET_URL
:include: - template: API-Fuzzing.gitlab-ci.yml variables: FUZZAPI_PROFILE: Quick-10 FUZZAPI_OPENAPI: test-api-specification.json FUZZAPI_TARGET_URL: http://test-deployment/
This is a minimal configuration for API Fuzzing. From here you can:
- Run your first scan.
- Add authentication.
- Learn how to handle false positives.
DANGER: Warning: NEVER run fuzz testing against a production server. Not only can it perform any function that the API can, it may also trigger bugs in the API. This includes actions like modifying and deleting data. Only run fuzzing against a test server.
The HTTP Archive format (HAR) is an archive file format for logging HTTP transactions. When used with GitLab's API fuzzer, HAR must contain records of calling the web API to test. The API fuzzer extracts all the requests and uses them to perform testing.
You can use various tools to generate HAR files:
- Fiddler: Web debugging proxy
- Insomnia Core: API client
- Chrome: Browser
- Firefox: Browser
DANGER: Warning: HAR files may contain sensitive information such as authentication tokens, API keys, and session cookies. We recommend that you review the HAR file contents before adding them to a repository.
Follow these steps to configure API fuzzing to use a HAR file that provides information about the target API to test:
-
To use API fuzzing, you must include the
API-Fuzzing.gitlab-ci.yml
template that's provided as part of your GitLab installation. To do so, add the following to your.gitlab-ci.yml
file:include: - template: API-Fuzzing.gitlab-ci.yml
-
Add the configuration file
gitlab-api-fuzzing-config.yml
to your repository's root as.gitlab-api-fuzzing.yml
. -
The configuration file has several testing profiles defined with varying amounts of fuzzing. We recommend that you start with the
Quick-10
profile. Testing with this profile completes quickly, allowing for easier configuration validation.Provide the profile by adding the
FUZZAPI_PROFILE
variable to your.gitlab-ci.yml
file, substitutingQuick-10
for the profile you choose:include: - template: API-Fuzzing.gitlab-ci.yml variables: FUZZAPI_PROFILE: Quick-10
-
Add the
FUZZAPI_HAR
variable and set it to the HAR file's location:include: - template: API-Fuzzing.gitlab-ci.yml variables: FUZZAPI_PROFILE: Quick-10 FUZZAPI_HAR: test-api-recording.har
-
The target API instance's base URL is also required. Provide it by using the
FUZZAPI_TARGET_URL
variable or anenvironment_url.txt
file.Adding the URL in an
environment_url.txt
file at your project's root is great for testing in dynamic environments. To run API fuzzing against an app dynamically created during a GitLab CI/CD pipeline, have the app persist its domain in anenvironment_url.txt
file. API fuzzing automatically parses that file to find its scan target. You can see an example of this in our Auto DevOps CI YAML.Here's an example of using
FUZZAPI_TARGET_URL
:include: - template: API-Fuzzing.gitlab-ci.yml variables: FUZZAPI_PROFILE: Quick-10 FUZZAPI_HAR: test-api-recording.har FUZZAPI_TARGET_URL: http://test-deployment/
This is a minimal configuration for API Fuzzing. From here you can:
- Run your first scan.
- Add authentication.
- Learn how to handle false positives.
DANGER: Warning: NEVER run fuzz testing against a production server. Not only can it perform any function that the API can, it may also trigger bugs in the API. This includes actions like modifying and deleting data. Only run fuzzing against a test server.
The Postman API Client is a popular tool that developers and testers use to call various types of APIs. The API definitions can be exported as a Postman Collection file for use with API Fuzzing. When exporting, make sure to select a supported version of Postman Collection: v2.0 or v2.1.
When used with GitLab's API fuzzer, Postman Collections must contain definitions of the web API to test with valid data. The API fuzzer extracts all the API definitions and uses them to perform testing.
DANGER: Warning: Postman Collection files may contain sensitive information such as authentication tokens, API keys, and session cookies. We recommend that you review the Postman Collection file contents before adding them to a repository.
Follow these steps to configure API fuzzing to use a Postman Collection file that provides information about the target API to test:
-
To use API fuzzing, you must include the
API-Fuzzing.gitlab-ci.yml
template that's provided as part of your GitLab installation. To do so, add the following to your.gitlab-ci.yml
file:include: - template: API-Fuzzing.gitlab-ci.yml
-
Add the configuration file
gitlab-api-fuzzing-config.yml
to your repository's root as.gitlab-api-fuzzing.yml
. -
The configuration file has several testing profiles defined with varying amounts of fuzzing. We recommend that you start with the
Quick-10
profile. Testing with this profile completes quickly, allowing for easier configuration validation.Provide the profile by adding the
FUZZAPI_PROFILE
variable to your.gitlab-ci.yml
file, substitutingQuick-10
for the profile you choose:include: - template: API-Fuzzing.gitlab-ci.yml variables: FUZZAPI_PROFILE: Quick-10
-
Add the
FUZZAPI_POSTMAN_COLLECTION
variable and set it to the Postman Collection's location:include: - template: API-Fuzzing.gitlab-ci.yml variables: FUZZAPI_PROFILE: Quick-10 FUZZAPI_POSTMAN_COLLECTION: postman-collection_serviceA.json
-
The target API instance's base URL is also required. Provide it by using the
FUZZAPI_TARGET_URL
variable or anenvironment_url.txt
file.Adding the URL in an
environment_url.txt
file at your project's root is great for testing in dynamic environments. To run API fuzzing against an app dynamically created during a GitLab CI/CD pipeline, have the app persist its domain in anenvironment_url.txt
file. API fuzzing automatically parses that file to find its scan target. You can see an example of this in our Auto DevOps CI YAML.Here's an example of using
FUZZAPI_TARGET_URL
:include: - template: API-Fuzzing.gitlab-ci.yml variables: FUZZAPI_PROFILE: Quick-10 FUZZAPI_POSTMAN_COLLECTION: postman-collection_serviceA.json FUZZAPI_TARGET_URL: http://test-deployment/
This is a minimal configuration for API Fuzzing. From here you can:
- Run your first scan.
- Add authentication.
- Learn how to handle false positives.
DANGER: Warning: NEVER run fuzz testing against a production server. Not only can it perform any function that the API can, it may also trigger bugs in the API. This includes actions like modifying and deleting data. Only run fuzzing against a test server.
Authentication is handled by providing the authentication token as a header or cookie. You can provide a script that performs an authentication flow or calculates the token.
HTTP basic authentication
is an authentication method built into the HTTP protocol and used in-conjunction with
transport layer security (TLS).
To use HTTP basic authentication, two variables are added to your .gitlab-ci.yml
file:
FUZZAPI_HTTP_USERNAME
: The username for authentication.FUZZAPI_HTTP_PASSWORD
: The password for authentication.
For the password, we recommended that you create a CI/CD variable
(for example, TEST_API_PASSWORD
) set to the password. You can create CI/CD variables from the
GitLab projects page at Settings > CI/CD, in the Variables section.
include:
- template: API-Fuzzing.gitlab-ci.yml
variables:
FUZZAPI_PROFILE: Quick-10
FUZZAPI_HAR: test-api-recording.har
FUZZAPI_TARGET_URL: http://test-deployment/
FUZZAPI_HTTP_USERNAME: testuser
FUZZAPI_HTTP_PASSWORD: $TEST_API_PASSWORD
Bearer tokens are used by several different authentication mechanisms, including OAuth2 and JSON Web
Tokens (JWT). Bearer tokens are transmitted using the Authorization
HTTP header. To use bearer
tokens with API fuzzing, you need one of the following:
- A token that doesn't expire
- A way to generate a token that lasts the length of testing
- A Python script that API fuzzing can call to generate the token
If the bearer token doesn't expire, you can provide it using the FUZZAPI_OVERRIDES_ENV
variable.
The FUZZAPI_OVERRIDES_ENV
content is a JSON snippet that provides headers and cookies that should
be added to outgoing HTTP requests made by API fuzzing.
Create a CI/CD variable, for example TEST_API_BEARERAUTH
, with the value
{"headers":{"Authorization":"Bearer dXNlcm5hbWU6cGFzc3dvcmQ="}}
(substitute your token). You can
create CI/CD variables from the GitLab projects page at Settings > CI/CD in the Variables
section.
Set FUZZAPI_OVERRIDES_ENV
in your .gitlab-ci.yml
file:
include:
- template: API-Fuzzing.gitlab-ci.yml
variables:
FUZZAPI_PROFILE: Quick-10
FUZZAPI_OPENAPI: test-api-specification.json
FUZZAPI_TARGET_URL: http://test-deployment/
FUZZAPI_OVERRIDES_ENV: $TEST_API_BEARERAUTH
To validate that authentication is working, run an API fuzzing test and review the fuzzing logs and the test API's application logs.
If the bearer token must be generated, and the resulting token doesn't expire during testing, you can provide to API fuzzing a file containing the token. This file can be generated by a prior stage and job, or as part of the API fuzzing job.
API fuzzing expects to receive a JSON file with the following structure:
{
"headers" : {
"Authorization" : "Bearer dXNlcm5hbWU6cGFzc3dvcmQ="
}
}
This file can be generated by a prior stage and provided to API fuzzing through the
FUZZAPI_OVERRIDES_FILE
variable.
Set FUZZAPI_OVERRIDES_FILE
in your .gitlab-ci.yml
file:
include:
- template: API-Fuzzing.gitlab-ci.yml
variables:
FUZZAPI_PROFILE: Quick
FUZZAPI_OPENAPI: test-api-specification.json
FUZZAPI_TARGET_URL: http://test-deployment/
FUZZAPI_OVERRIDES_FILE: output/api-fuzzing-overrides.json
To validate that authentication is working, run an API fuzzing test and review the fuzzing logs and the test API's application logs.
If the bearer token must be generated and expires prior to the scan's completion, you can provide a program or script for the API fuzzer to execute on a provided interval. The provided script runs in an Alpine Linux container that has Python 3 and Bash installed. If the Python script requires additional packages, it must detect this and install the packages at runtime.
The script must create a JSON file containing the bearer token in a specific format:
{
"headers" : {
"Authorization" : "Bearer dXNlcm5hbWU6cGFzc3dvcmQ="
}
}
You must provide three variables, each set for correct operation:
FUZZAPI_OVERRIDES_FILE
: File generated by the provided command.FUZZAPI_OVERRIDES_CMD
: Command to generate JSON file.FUZZAPI_OVERRIDES_INTERVAL
: Interval in seconds to run command.
include:
- template: API-Fuzzing.gitlab-ci.yml
variables:
FUZZAPI_PROFILE: Quick-10
FUZZAPI_OPENAPI: test-api-specification.json
FUZZAPI_TARGET_URL: http://test-deployment/
FUZZAPI_OVERRIDES_FILE: output/api-fuzzing-overrides.json
FUZZAPI_OVERRIDES_CMD: renew_token.py
FUZZAPI_OVERRIDES_INTERVAL: 300
To validate that authentication is working, run an API fuzzing test and review the fuzzing logs and the test API's application logs.
To get started quickly, GitLab provides you with the configuration file
gitlab-api-fuzzing-config.yml
.
This file has several testing profiles that perform various amounts of testing. The run time of each
increases as the numbers go up. To use a configuration file, add it to your repository's root as
.gitlab-api-fuzzing.yml
.
Profile | Scan Type |
---|---|
Quick-10 | Fuzzing 10 times per parameter |
Medium-20 | Fuzzing 20 times per parameter |
Medium-50 | Fuzzing 50 times per parameter |
Long-100 | Fuzzing 100 times per parameter |
Environment variable | Description |
---|---|
FUZZAPI_VERSION |
Specify API Fuzzing container version. Defaults to latest . |
FUZZAPI_TARGET_URL |
Base URL of API testing target. |
FUZZAPI_CONFIG |
API Fuzzing configuration file. Defaults to .gitlab-apifuzzer.yml . |
FUZZAPI_PROFILE |
Configuration profile to use during testing. Defaults to Quick . |
FUZZAPI_REPORT |
Scan report filename. Defaults to gl-api_fuzzing-report.xml . |
FUZZAPI_OPENAPI |
OpenAPI specification file or URL. |
FUZZAPI_HAR |
HTTP Archive (HAR) file. |
FUZZAPI_POSTMAN_COLLECTION |
Postman Collection file. |
FUZZAPI_OVERRIDES_FILE |
Path to a JSON file containing overrides. |
FUZZAPI_OVERRIDES_ENV |
JSON string containing headers to override. |
FUZZAPI_OVERRIDES_CMD |
Overrides command. |
FUZZAPI_OVERRIDES_INTERVAL |
How often to run overrides command in seconds. Defaults to 0 (once). |
FUZZAPI_HTTP_USERNAME |
Username for HTTP authentication. |
FUZZAPI_HTTP_PASSWORD |
Password for HTTP authentication. |
API Fuzzing provides a method to add or override headers and cookies for all outbound HTTP requests made. You can use this to inject semver headers, authentication, and so on. The authentication section includes examples of using overrides for that purpose.
Overrides uses a JSON document to define the headers and cookies:
{
"headers": {
"header1": "value",
"header2": "value"
},
"cookies": {
"cookie1": "value",
"cookie2": "value"
}
}
Example usage for setting a single header:
{
"headers": {
"Authorization": "Bearer dXNlcm5hbWU6cGFzc3dvcmQ="
}
}
Example usage for setting both a header and cookie:
{
"headers": {
"Authorization": "Bearer dXNlcm5hbWU6cGFzc3dvcmQ="
},
"cookies": {
"flags": "677"
}
}
You can provide this JSON document as a file or environment variable. You may also provide a command to generate the JSON document. The command can run at intervals to support values that expire.
To provide the overrides JSON as a file, the FUZZAPI_OVERRIDES_FILE
environment variable is set. The path is relative to the job current working directory.
Example .gitlab-ci.yml
:
include:
- template: API-Fuzzing.gitlab-ci.yml
variables:
FUZZAPI_PROFILE: Quick
FUZZAPI_OPENAPI: test-api-specification.json
FUZZAPI_TARGET_URL: http://test-deployment/
FUZZAPI_OVERRIDES_FILE: output/api-fuzzing-overrides.json
To provide the overrides JSON as an environment variable, use the FUZZAPI_OVERRIDES_ENV
variable.
This allows you to place the JSON as CI/CD variables that can be masked and protected.
In this example .gitlab-ci.yml
, the JSON is provided directly:
include:
- template: API-Fuzzing.gitlab-ci.yml
variables:
FUZZAPI_PROFILE: Quick
FUZZAPI_OPENAPI: test-api-specification.json
FUZZAPI_TARGET_URL: http://test-deployment/
FUZZAPI_OVERRIDES_ENV: '{"headers":{"X-API-Version":"2"}}'
In this example .gitlab-ci.yml
, the CI/CD variable SECRET_OVERRIDES
provides the JSON. This is a
group or instance level environment variable defined in the UI:
include:
- template: API-Fuzzing.gitlab-ci.yml
variables:
FUZZAPI_PROFILE: Quick
FUZZAPI_OPENAPI: test-api-specification.json
FUZZAPI_TARGET_URL: http://test-deployment/
FUZZAPI_OVERRIDES_ENV: $SECRET_OVERRIDES
If the value must be generated or regenerated on expiration, you can provide a program or script for the API fuzzer to execute on a specified interval. The provided script runs in an Alpine Linux container that has Python 3 and Bash installed. If the Python script requires additional packages, it must detect this and install the packages at runtime. The script creates the overrides JSON file as defined above.
You must provide three variables, each set for correct operation:
FUZZAPI_OVERRIDES_FILE
: File generated by the provided command.FUZZAPI_OVERRIDES_CMD
: Command to generate JSON file.FUZZAPI_OVERRIDES_INTERVAL
: Interval in seconds to run command.
include:
- template: API-Fuzzing.gitlab-ci.yml
variables:
FUZZAPI_PROFILE: Quick
FUZZAPI_OPENAPI: test-api-specification.json
FUZZAPI_TARGET_URL: http://test-deployment/
FUZZAPI_OVERRIDES_FILE: output/api-fuzzing-overrides.json
FUZZAPI_OVERRIDES_CMD: renew_token.py
FUZZAPI_OVERRIDES_INTERVAL: 300
Header fuzzing is disabled by default due to the high number of false positives that occur with many technology stacks. When header fuzzing is enabled, you must specify a list of headers to include in fuzzing.
Each profile in the default configuration file has an entry for GeneralFuzzingCheck
. This check
performs header fuzzing. Under the Configuration
section, you must change the HeaderFuzzing
and
Headers
settings to enable header fuzzing.
This snippet shows the Quick-10
profile's default configuration with header fuzzing disabled:
- Name: Quick-10
DefaultProfile: Empty
Routes:
- Route: *Route0
Checks:
- Name: FormBodyFuzzingCheck
Configuration:
FuzzingCount: 10
UnicodeFuzzing: true
- Name: GeneralFuzzingCheck
Configuration:
FuzzingCount: 10
UnicodeFuzzing: true
HeaderFuzzing: false
Headers:
- Name: JsonFuzzingCheck
Configuration:
FuzzingCount: 10
UnicodeFuzzing: true
- Name: XmlFuzzingCheck
Configuration:
FuzzingCount: 10
UnicodeFuzzing: true
HeaderFuzzing
is a boolean that turns header fuzzing on and off. The default setting is false
for off. To turn header fuzzing on, change this setting to true
:
- Name: GeneralFuzzingCheck
Configuration:
FuzzingCount: 10
UnicodeFuzzing: true
HeaderFuzzing: true
Headers:
Headers
is a list of headers to fuzz. Only headers listed are fuzzed. For example, to fuzz a
custom header X-Custom
used by your APIs, add an entry for it using the syntax
- Name: HeaderName
, substituting HeaderName
with the header to fuzz:
- Name: GeneralFuzzingCheck
Configuration:
FuzzingCount: 10
UnicodeFuzzing: true
HeaderFuzzing: true
Headers:
- Name: X-Custom
You now have a configuration to fuzz the header X-Custom
. Use the same notation to list additional
headers:
- Name: GeneralFuzzingCheck
Configuration:
FuzzingCount: 10
UnicodeFuzzing: true
HeaderFuzzing: true
Headers:
- Name: X-Custom
- Name: X-AnotherHeader
Repeat this configuration for each profile as needed.
When configured correctly, a CI/CD pipeline contains a Fuzz
stage and a apifuzzer_fuzz
job. The
job only fails when an invalid configuration is provided. During normal operation, the job always
succeeds even if faults are identified during fuzz testing.
Faults are displayed on the Tests pipeline tab with the suite name API-Fuzzing. The Name field on the Tests page includes the fuzz-tested operation and parameter. The Trace field contains a writeup of the identified fault. This writeup contains information on what the fuzzer tested and how it detected something wrong.
To prevent an excessive number of reported faults, the API fuzzing scanner limits the number of faults it reports to one per parameter.
The faults that API fuzzing finds aren't associated with a specific vulnerability type. They require investigation to determine what type of issue they are and if they should be fixed. See handling false positives for information about configuration changes you can make to limit the number of false positives reported.
This table contains a description of fields in an API fuzzing fault writeup.
Writeup Item | Description |
---|---|
Operation | The operation tested. |
Parameter | The field modified. This can be a path segment, header, query string, or body element. |
Endpoint | The endpoint being tested. |
Check | Check module producing the test. Checks can be turned on and off. |
Assert | Assert module that detected a failure. Assertions can be configured and turned on and off. |
CWE | Fuzzing faults always have the same CWE. |
OWASP | Fuzzing faults always have the same OWASP ID. |
Exploitability | Fuzzing faults always have an unknown exploitability. |
Impact | Fuzzing faults always have an unknown risk impact. |
Description | Verbose description of what the check did. Includes the original parameter value and the modified (mutated) value. |
Detection | Why a failure was detected and reported. This is related to the Assert that was used. |
Original Request | The original, unmodified HTTP request. Useful when reviewing the actual request to see what changes were made. |
Actual Request | The request that produced the failure. This request has been modified in some way by the Check logic. |
Actual Response | The response to the actual request. |
Recorded Request | An unmodified request. |
Recorded Response | The response to the unmodified request. You can compare this with the actual request when triaging this fault. |
False positives can be handled in two ways:
- Turn off the Check producing the false positive. This prevents the check from generating any faults. Example checks are the JSON Fuzzing Check, and Form Body Fuzzing Check.
- Fuzzing checks have several methods of detecting when a fault is identified, called Asserts. Asserts can also be turned off and configured. For example, the API fuzzer by default uses HTTP status codes to help identify when something is a real issue. If an API returns a 500 error during testing, this creates a fault. This isn't always desired, as some frameworks return 500 errors often.
Checks perform testing of a specific type and can be turned on and off for specific configuration
profiles. The provided configuration files define several profiles that you
can use. The profile definition in the configuration file lists all the checks that are active
during a scan. To turn off a specific check, simply remove it from the profile definition in the
configuration file. The profiles are defined in the Profiles
section of the configuration file.
Example profile definition:
Profiles:
- Name: Quick-10
DefaultProfile: Quick
Routes:
- Route: *Route0
Checks:
- Name: FormBodyFuzzingCheck
Configuration:
FuzzingCount: 10
UnicodeFuzzing: true
- Name: GeneralFuzzingCheck
Configuration:
FuzzingCount: 10
UnicodeFuzzing: true
- Name: JsonFuzzingCheck
Configuration:
FuzzingCount: 10
UnicodeFuzzing: true
- Name: XmlFuzzingCheck
Configuration:
FuzzingCount: 10
UnicodeFuzzing: true
To turn off the General Fuzzing Check you can remove these lines:
- Name: GeneralFuzzingCheck
Configuration:
FuzzingCount: 10
UnicodeFuzzing: true
This results in the following YAML:
- Name: Quick-10
DefaultProfile: Quick
Routes:
- Route: *Route0
Checks:
- Name: FormBodyFuzzingCheck
Configuration:
FuzzingCount: 10
UnicodeFuzzing: true
- Name: JsonFuzzingCheck
Configuration:
FuzzingCount: 10
UnicodeFuzzing: true
- Name: XmlFuzzingCheck
Configuration:
FuzzingCount: 10
UnicodeFuzzing: true
Assertions detect faults in tests produced by checks. Many checks support multiple Assertions such
as Log Analysis, Response Analysis, and Status Code. When a fault is found, the Assertion used is
provided. To identify which Assertions are on by default, see the Checks default configuration in
the configuration file. The section is called Checks
.
This example shows the FormBody Fuzzing Check:
Checks:
- Name: FormBodyFuzzingCheck
Configuration:
FuzzingCount: 30
UnicodeFuzzing: true
Assertions:
- Name: LogAnalysisAssertion
- Name: ResponseAnalysisAssertion
- Name: StatusCodeAssertion
Here you can see three Assertions are on by default. A common source of false positives is
StatusCodeAssertion
. To turn it off, modify its configuration in the Profiles
section. This
example provides only the other two Assertions (LogAnalysisAssertion
,
ResponseAnalysisAssertion
). This prevents FormBodyFuzzingCheck
from using StatusCodeAssertion
:
Profiles:
- Name: Quick-10
DefaultProfile: Quick
Routes:
- Route: *Route0
Checks:
- Name: FormBodyFuzzingCheck
Configuration:
FuzzingCount: 10
UnicodeFuzzing: true
Assertions:
- Name: LogAnalysisAssertion
- Name: ResponseAnalysisAssertion
- Name: GeneralFuzzingCheck
Configuration:
FuzzingCount: 10
UnicodeFuzzing: true
- Name: JsonFuzzingCheck
Configuration:
FuzzingCount: 10
UnicodeFuzzing: true
- Name: XmlInjectionCheck
Configuration:
FuzzingCount: 10
UnicodeFuzzing: true
- Assert: Assertions are detection modules used by checks to trigger a fault. Many assertions have configurations. A check can use multiple Assertions. For example, Log Analysis, Response Analysis, and Status Code are common Assertions used together by checks. Checks with multiple Assertions allow them to be turned on and off.
- Check: Performs a specific type of test, or performed a check for a type of vulnerability. For example, the JSON Fuzzing Check performs fuzz testing of JSON payloads. The API fuzzer is comprised of several checks. Checks can be turned on and off in a profile.
- Fault: During fuzzing, a failure identified by an Assert is called a fault. Faults are investigated to determine if they are a security vulnerability, a non-security issue, or a false positive. Faults don't have a known vulnerability type until they are investigated. Example vulnerability types are SQL Injection and Denial of Service.
- Profile: A configuration file has one or more testing profiles, or sub-configurations. You may have a profile for feature branches and another with extra testing for a main branch.