debian-mirror-gitlab/doc/development/sec/analyzer_development_guide.md
2022-11-25 23:54:43 +05:30

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---
stage: Secure
group: Static Analysis
info: 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`](https://gitlab.com/gitlab-org/security-products/analyzers/command#how-to-use-the-library) Go package implements a CLI interface.
- The [`common`](https://gitlab.com/gitlab-org/security-products/analyzers/common) project provides miscellaneous shared modules for logging, certificate handling, and directory search capabilities.
- The [`report`](https://gitlab.com/gitlab-org/security-products/analyzers/report) Go package's `Report` and `Finding` structs marshal JSON reports.
- The [`template`](https://gitlab.com/gitlab-org/security-products/analyzers/template) project scaffolds new analyzers.
## How to use the analyzers
Analyzers are shipped as Docker images. For example, to run the
[semgrep](https://gitlab.com/gitlab-org/security-products/analyzers/semgrep) Docker image to scan the working directory:
1. `cd` into the directory of the source code you want to scan.
1. Run `docker login registry.gitlab.com` and provide username plus
[personal](../../user/profile/personal_access_tokens.md#create-a-personal-access-token)
or [project](../../user/project/settings/project_access_tokens.md#create-a-project-access-token)
access token with at least the `read_registry` scope.
1. Run the Docker image:
```shell
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
```
1. The Docker container generates a report in the mounted project directory with a report filename corresponding to the analyzer category. For example, [SAST](../../user/application_security/sast) generates a file named `gl-sast-report.json`.
## Analyzers development
To update the analyzer:
1. Modify the Go source code.
1. Build a new Docker image.
1. Run the analyzer against its test project.
1. Compare the generated report with what's expected.
Here's how to create a Docker image named `analyzer`:
```shell
docker build -t analyzer .
```
For example, to test Secret Detection run the following:
```shell
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](https://gitlab.com/gitlab-org/security-products/analyzers/spotbugs):
```shell
go build -o analyzer
./analyzer search test/fixtures
./analyzer convert test/fixtures/app/spotbugsXml.Xml > ./gl-sast-report.json
```
## How to test the analyzers
Video walkthrough of how Dependency Scanning analyzers are using [downstream pipeline](../../ci/pipelines/downstream_pipelines.md) feature to test analyzers using test projects:
[![How Sec leverages the downstream pipeline feature of GitLab to test analyzers end to end](http://img.youtube.com/vi/KauRBlfUbDE/0.jpg)](http://www.youtube.com/watch?v=KauRBlfUbDE)
### 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`](https://github.com/golang/go/wiki/Modules#when-should-i-use-the-replace-directive)
directive to load `command` with your local changes instead of using the version of command that has been
tagged remotely. For example:
```shell
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:
```plaintext
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`.
1. Add a copy statement in the analyzer's `Dockerfile`: `COPY command /command`.
1. 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`
## Versioning and release process
Analyzers are independent projects that follow their own versioning. `Patch` version bumps tend to correspond to a `Minor` version bump of the underlying tools (i.e. [`bandit`](https://wiki.openstack.org/wiki/Security/Projects/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 `master` 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`.
To release a new analyzer Docker image, there are two different options:
- Manual release process
- Automatic release process
### Manual release process
1. Ensure that the `CHANGELOG.md` entry for the new analyzer is correct.
1. Ensure that the release source (typically the `master` or `main` branch) has a passing pipeline.
1. 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.
1. 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).
1. In the **Release title** text box enter the same version used above, for example `v2.4.2`.
1. In the `Release notes` text box, copy and paste the notes from the corresponding version in the `CHANGELOG.md`.
1. Leave all other settings as the default values.
1. 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](https://gitlab.com/gitlab-org/security-products/ci-templates/blob/b446fd3/includes-dev/analyzer.yml#L209-217), 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.
1. A new pipeline should currently be running with the same tag used previously, for example `v2.4.2`.
1. After the pipeline has completed, it will be in a `blocked` state.
1. 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](../../ci/variables/index.md).
1. 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](../../user/project/settings/project_access_tokens.md) with `complete read/write access to the API` and configure `GITLAB_TOKEN` as a [`CI/CD` environment variable](../../ci/variables/index.md) 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.
1. 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](../../api/releases/index.md#create-a-release). The version and message is obtained from the most recent entry in the `CHANGELOG.md` file for the project.
1. 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.
1. 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.