debian-mirror-gitlab/doc/development/sec/analyzer_development_guide.md
2023-07-09 08:55:56 +05:30

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Secure Static Analysis To determine the technical writer assigned to the Stage/Group associated with this page, see https://about.gitlab.com/handbook/product/ux/technical-writing/#assignments

Sec section analyzer development

Analyzers are shipped as Docker images to execute within a CI pipeline context. This guide describes development and testing practices across analyzers.

Shared modules

There are a number of shared Go modules shared across analyzers for common behavior and interfaces:

  • The command Go package implements a CLI interface.
  • The common project provides miscellaneous shared modules for logging, certificate handling, and directory search capabilities.
  • The report Go package's Report and Finding structs marshal JSON reports.
  • The template project scaffolds new analyzers.

How to use the analyzers

Analyzers are shipped as Docker images. For example, to run the Semgrep Docker image to scan the working directory:

  1. cd into the directory of the source code you want to scan.

  2. Run docker login registry.gitlab.com and provide username plus personal or project access token with at least the read_registry scope.

  3. Run the Docker image:

    docker run \
        --interactive --tty --rm \
        --volume "$PWD":/tmp/app \
        --env CI_PROJECT_DIR=/tmp/app \
        -w /tmp/app \
        registry.gitlab.com/gitlab-org/security-products/analyzers/semgrep:latest /analyzer run
    
  4. The Docker container generates a report in the mounted project directory with a report filename corresponding to the analyzer category. For example, SAST generates a file named gl-sast-report.json.

Analyzers development

To update the analyzer:

  1. Modify the Go source code.
  2. Build a new Docker image.
  3. Run the analyzer against its test project.
  4. Compare the generated report with what's expected.

Here's how to create a Docker image named analyzer:

docker build -t analyzer .

For example, to test Secret Detection run the following:

wget https://gitlab.com/gitlab-org/security-products/ci-templates/-/raw/master/scripts/compare_reports.sh
sh ./compare_reports.sh sd test/fixtures/gl-secret-detection-report.json test/expect/gl-secret-detection-report.json \
| patch -Np1 test/expect/gl-secret-detection-report.json && Git commit -m 'Update expectation' test/expect/gl-secret-detection-report.json
rm compare_reports.sh

You can also compile the binary for your own environment and run it locally but analyze and run probably won't work since the runtime dependencies of the analyzer are missing.

Here's an example based on SpotBugs:

go build -o analyzer
./analyzer search test/fixtures
./analyzer convert test/fixtures/app/spotbugsXml.Xml > ./gl-sast-report.json

Execution criteria

Enabling SAST requires including a pre-defined template to your GitLab CI/CD configuration.

The following independent criteria determine which analyzer needs to be run on a project:

  1. The SAST template uses rules:exists to determine which analyzer will be run based on the presence of certain files. For example, the Brakeman analyzer runs when there are .rb files and a Gemfile.
  2. Each analyzer runs a customizable match interface before it performs the actual analysis. For example: Flawfinder checks for C/C++ files.
  3. For some analyzers that run on generic file extensions, there is a check based on a CI/CD variable. For example: Kubernetes manifests are written in YAML, so Kubesec runs only when SCAN_KUBERNETES_MANIFESTS is set to true.

Step 1 helps prevent wastage of CI/CD minutes that would be spent running analyzers not suitable for the project. However, due to technical limitations, it cannot be used for large projects. Therefore, step 2 acts as final check to ensure a mismatched analyzer is able to exit early.

How to test the analyzers

Video walkthrough of how Dependency Scanning analyzers are using downstream pipeline feature to test analyzers using test projects:

How Sec leverages the downstream pipeline feature of GitLab to test analyzers end to end

Testing local changes

To test local changes in the shared modules (such as command or report) for an analyzer you can use the go mod replace directive to load command with your local changes instead of using the version of command that has been tagged remotely. For example:

go mod edit -replace gitlab.com/gitlab-org/security-products/analyzers/command/v3=/local/path/to/command

Alternatively you can achieve the same result by manually updating the go.mod file:

module gitlab.com/gitlab-org/security-products/analyzers/awesome-analyzer/v2

replace gitlab.com/gitlab-org/security-products/analyzers/command/v3 => /path/to/command

require (
    ...
    gitlab.com/gitlab-org/security-products/analyzers/command/v3 v2.19.0
)

Testing local changes in Docker

To use Docker with replace in the go.mod file:

  1. Copy the contents of command into the directory of the analyzer. cp -r /path/to/command path/to/analyzer/command.
  2. Add a copy statement in the analyzer's Dockerfile: COPY command /command.
  3. Update the replace statement to make sure it matches the destination of the COPY statement in the step above: replace gitlab.com/gitlab-org/security-products/analyzers/command/v3 => /command

Analyzer scripts

The analyzer-scripts repository contains scripts that can be used to interact with most analyzers. They enable you to build, run, and debug analyzers in a GitLab CI-like environment, and are particularly useful for locally validating changes to an analyzer.

For more information, refer to the project README.

Versioning and release process

GitLab Security Products use an independent versioning system from GitLab Rails' MAJOR.MINOR. All products use a variation of Semantic Versioning and are available as Docker images.

Patch version bumps tend to correspond to a Minor version bump of the underlying tools (i.e. bandit), allowing us greater flexibility in reserving Minor bumps for more significant changes to our scanners. In case of breaking changes imposed by the wrapped scanner, creating a new analyzer on a separate repository must be considered.

The analyzers are released as Docker images following this scheme:

  • each push to the default branch will override the edge image tag
  • each push to any awesome-feature branch will generate a matching awesome-feature image tag
  • each Git tag will generate the corresponding Major.Minor.Patch image tag. A manual job allows to override the corresponding Major and the latest image tags to point to this Major.Minor.Patch.

In most circumstances it is preferred to rely on the MAJOR image, which is automatically kept up to date with the latest advisories or patches to our tools. Our included CI templates pin to major version but if preferred, users can override their version directly.

To release a new analyzer Docker image, there are two different options:

The following diagram describes the Docker tags that are created when a new analyzer version is released:

graph LR

A1[git tag v1.1.0]--> B1(run CI pipeline)
B1 -->|build and tag patch| D1[1.1.0]
B1 -->|tag minor| E1[1.1]
B1 -->|retag major| F1[1]
B1 -->|retag latest| G1[latest]

A2[git tag v1.1.1]--> B2(run CI pipeline)
B2 -->|build and tag patch| D2[1.1.1]
B2 -->|retag minor| E2[1.1]
B2 -->|retag major| F2[1]
B2 -->|retag latest| G2[latest]

A3[push to default branch]--> B3(run CI pipeline)
B3 -->|build and tag edge| D3[edge]

Per our Continuous Deployment flow, for new components that do not have a counterpart in the GitLab Rails application, the component can be released at any time. Until the components are integrated with the existing application, iteration should not be blocked by our standard release cycle and process.

Manual release process

  1. Ensure that the CHANGELOG.md entry for the new analyzer is correct.
  2. Ensure that the release source (typically the master or main branch) has a passing pipeline.
  3. Create a new release for the analyzer project by selecting the Deployments menu on the left-hand side of the project window, then selecting the Releases sub-menu.
  4. Select New release to open the New Release page.
    1. In the Tag name drop down, enter the same version used in the CHANGELOG.md, for example v2.4.2, and select the option to create the tag (Create tag v2.4.2 here).
    2. In the Release title text box enter the same version used above, for example v2.4.2.
    3. In the Release notes text box, copy and paste the notes from the corresponding version in the CHANGELOG.md.
    4. Leave all other settings as the default values.
    5. Select Create release.

After following the above process and creating a new release, a new Git tag is created with the Tag name provided above. This triggers a new pipeline with the given tag version and a new analyzer Docker image is built.

If the analyzer uses the analyzer.yml template, then the pipeline triggered as part of the New release process above automatically tags and deploys a new version of the analyzer Docker image.

If the analyzer does not use the analyzer.yml template, you'll need to manually tag and deploy a new version of the analyzer Docker image:

  1. Select the CI/CD menu on the left-hand side of the project window, then select the Pipelines sub-menu.
  2. A new pipeline should currently be running with the same tag used previously, for example v2.4.2.
  3. After the pipeline has completed, it will be in a blocked state.
  4. Select the Manual job play button on the right hand side of the window and select tag version to tag and deploy a new version of the analyzer Docker image.

Use your best judgment to decide when to create a Git tag, which will then trigger the release job. If you can't decide, then ask for other's input.

Automatic release process

The following must be performed before the automatic release process can be used:

  1. Configure CREATE_GIT_TAG: true as a CI/CD environment variable.
  2. Check the Variables in the CI/CD project settings. Unless the project already inherits the GITLAB_TOKEN environment variable from the project group, create a project access token with complete read/write access to the API and configure GITLAB_TOKEN as a CI/CD environment variable which refers to this token.

After the above steps have been completed, the automatic release process executes as follows:

  1. A project maintainer merges an MR into the default branch.
  2. The default pipeline is triggered, and the upsert git tag job is executed.
    • If the most recent version in the CHANGELOG.md matches one of the Git tags, the job is a no-op.
    • Else, this job automatically creates a new release and Git tag using the releases API. The version and message is obtained from the most recent entry in the CHANGELOG.md file for the project.
  3. A pipeline is automatically triggered for the new Git tag. This pipeline releases the latest, major, minor and patch Docker images of the analyzer.

Steps to perform after releasing an analyzer

  1. After a new version of the analyzer Docker image has been tagged and deployed, please test it with the corresponding test project.

  2. Announce the release on the relevant group Slack channel. Example message:

    FYI I've just released ANALYZER_NAME ANALYZER_VERSION. LINK_TO_RELEASE

Never delete a Git tag that has been pushed as there is a good chance that the tag will be used and/or cached by the Go package registry.

Location of Container Images

In order to restrict the number of people who have write access to the container registry, all images are to be published to the location below.

  • Group: https://gitlab.com/security-products/
  • Project path: https://gitlab.com/security-products/<NAME> (example)
  • Registry address: registry.gitlab.com/security-products/<NAME>[/<IMAGE_NAME>]:[TAG]
  • Permissions
    • Top-level group
      • Maintainer: @gitlab-org/secure/managers, @gitlab-org/govern/managers
    • Project level
  • Project Settings
    • Visibility, project features, permissions.
      • Project visibility: Public. Uncheck "Users can request access".
      • Issues: disable.
      • Repository: set to "Only Project Members". Disable: Merge requests, Forks, Git LFS, Packages, CI/CD.
      • Disable remaining items: Analytics, Requirements, Wiki, Snippets, Pages, Operations.
    • Service Desk: disable

Each group in the Sec Section is responsible for:

  1. Managing the deprecation and removal schedule for their artifacts, and creating issues for this purpose.
  2. Creating and configuring projects under the new location.
  3. Configuring builds to push release artifacts to the new location.
  4. Removing or keeping images in old locations according to their own support agreements.

Security and Build fixes of Go

The Dockerfile of the Secure analyzers implemented in Go must reference a MAJOR release of Go, and not a MINOR revision. This ensures that the version of Go used to compile the analyzer includes all the security fixes available at a given time. For example, the multi-stage Dockerfile of an analyzer must use the golang:1.15-alpine image to build the analyzer CLI, but not golang:1.15.4-alpine.

When a MINOR revision of Go is released, and when it includes security fixes, project maintainers must check whether the Secure analyzers need to be re-built. The version of Go used for the build should appear in the log of the build job corresponding to the release, and it can also be extracted from the Go binary using the strings command.

If the latest image of the analyzer was built with the affected version of Go, then it needs to be rebuilt. To rebuild the image, maintainers can either:

  • trigger a new pipeline for the Git tag that corresponds to the stable release
  • create a new Git tag where the BUILD number is incremented
  • trigger a pipeline for the default branch, and where the PUBLISH_IMAGES variable is set to a non-empty value

Either way a new Docker image is built, and it's published with the same image tags: MAJOR.MINOR.PATCH and MAJOR.

This workflow assumes full compatibility between MINOR revisions of the same MAJOR release of Go. If there's a compatibility issue, the project pipeline will fail when running the tests. In that case, it might be necessary to reference a MINOR revision of Go in the Dockerfile and document that exception until the compatibility issue has been resolved.

Since it is NOT referenced in the Dockerfile, the MINOR revision of Go is NOT mentioned in the project changelog.

There may be times where it makes sense to use a build tag as the changes made are build related and don't require a changelog entry. For example, pushing Docker images to a new registry location.

Git tag to rebuild

When creating a new Git tag to rebuild the analyzer, the new tag has the same MAJOR.MINOR.PATCH version as before, but the BUILD number (as defined in semver) is incremented.

For instance, if the latest release of the analyzer is v1.2.3, and if the corresponding Docker image was built using an affected version of Go, then maintainers create the Git tag v1.2.3+1 to rebuild the image. If the latest release is v1.2.3+1, then they create v1.2.3+2.

The build number is automatically removed from the image tag. To illustrate, creating a Git tag v1.2.3+1 in the gemnasium project makes the pipeline rebuild the image, and push it as gemnasium:1.2.3.

The Git tag created to rebuild has a simple message that explains why the new build is needed. Example: Rebuild with Go 1.15.6. The tag has no release notes, and no release is created.

To create a new Git tag to rebuild the analyzer, follow these steps:

  1. Create a new Git tag and provide a message

    git tag -a v1.2.3+1 -m "Rebuild with Go 1.15.6"
    
  2. Push the tags to the repo

    git push origin --tags
    
  3. A new pipeline for the Git tag will be triggered and a new image will be built and tagged.

  4. Run a new pipeline for the master branch in order to run the full suite of tests and generate a new vulnerability report for the newly tagged image. This is necessary because the release pipeline triggered in step 3. above runs only a subset of tests, for example, it does not perform a Container Scanning analysis.

Monthly release process

This should be done on the 18th of each month. Though, this is a soft deadline and there is no harm in doing it within a few days after.

First, create an new issue for a release with a script from this repo: ./scripts/release_issue.rb MAJOR.MINOR. This issue will guide you through the whole release process. In general, you have to perform the following tasks: