Jenkins MCP Server

# mcp_jenkins A Jenkins MCP server. Model Context Protocol (MCP) lets AI tools (like chatbots) talk to and control your Jenkins setup, i. e. retrieve information and modify settings. **Note:** This is a minimal experimental version of the MCP Jenkins server and is currently in early development. ## Description This project provides a Model Context Protocol (MCP) server for interacting with Jenkins. It allows users to trigger Jenkins jobs, get build statuses, and perform other Jenkins-related operations through the MCP interface. ## Components * [`server.py`](src/mcp_jenkins/server.py): The core MCP Jenkins server application. * [`functions_schema.md`](src/mcp_jenkins/functions_schema.md): Defines the schema for the functions exposed by the MCP Jenkins server. * [`client.py`](src/mcp_jenkins/client.py): An example client demonstrating how to interact with the MCP Jenkins server (provided for reference only). * [`functional tests`](src/mcp_jenkins/tests/functional/test_server.py): Contains functional tests for the MCP Jenkins server. ## Installation To install the package, run: ```bash pip install . ``` ## Usage ### Common Workflows #### Running the Server To run the MCP server: ```bash ./docker/run.server ``` #### Running the Example Client To run the example client: ```bash ./docker/run.client ``` For example, to list builds for a job named "backups" using a specific model, you can run: ```bash ./docker/run.client --model gemini-2.0-flash-001 "list builds backups" ``` Note: If the package is installed via `pip install .`, the `mcp_jenkins_client` console script is also available. This might produce output similar to: ``` Query: list builds backups Result: Recent builds for backups: - Build #1086: FAILURE (http://myjenkins:8080/job/backups/1086/) ``` #### Building and Testing with Docker A common workflow for development and testing is to first build the Docker image and then execute the tests: 1. **Build the Docker image:** This step prepares the environment needed for testing. ```bash ./docker/build ``` 2. **Run tests:** After the build is complete, execute the tests. ```bash ./docker/run.tests ``` This sequence ensures that tests are performed against the latest build in a consistent Dockerized environment. #### Deploying a Test Environment To deploy a local Jenkins testing instance (without authentication, for functional tests only): ```bash ./docker/deploy.test.environment ``` ### Connecting to an Existing Jenkins Instance To use the MCP Jenkins server with an existing Jenkins instance, you need to configure the following environment variables: * `JENKINS_URL`: The full URL of your Jenkins instance (e.g., `http://your-jenkins-host:8080`). This is **required**. * `JENKINS_USER`: (Optional) Your Jenkins username if authentication is required. * `JENKINS_API_TOKEN`: (Optional) Your Jenkins API token. This must be provided along with `JENKINS_USER` if authentication is used. You can generate an API token in your Jenkins user's configuration page (`<Jenkins URL>/me/configure`). * `MCP_API_KEY`: A secret API key to secure this MCP server. Requests to the MCP server will need to include this key in the `X-API-Key` header. This is **required** unless `DEBUG_MODE` is set to `true`. * `DEBUG_MODE`: Set to `true` to run the MCP server in debug mode, which bypasses the `MCP_API_KEY` requirement and provides more verbose logging. **Do not use in production.** **Example Configuration (Bash):** ```bash export JENKINS_URL="http://your-jenkins-host:8080" export JENKINS_USER="your_jenkins_username" export JENKINS_API_TOKEN="your_jenkins_api_token" export MCP_API_KEY="your_mcp_secret_key" # export DEBUG_MODE="true" # Uncomment for development/testing without MCP_API_KEY ``` Once these environment variables are set, you can run the MCP server using the Docker script: ```bash ./docker/run.server ``` The MCP server will then attempt to connect to your specified Jenkins instance. ## OpenWebUI Integration The file `open-webui/open_webui_interface.py` provides an example of how to integrate this MCP Jenkins server with an OpenWebUI instance. To use it: 1. In your OpenWebUI interface, navigate to the section for adding or configuring tools. 2. Create a new tool. 3. Copy the entire content of the `open-webui/open_webui_interface.py` file and paste it into the tool configuration in OpenWebUI. 4. **Important**: You will need to adjust the connection parameters within the pasted code, specifically: - `MCP_JENKINS_SERVER_URL`: Set this environment variable in your OpenWebUI environment to the URL of your running MCP Jenkins server (e.g., `http://localhost:5000`). The script defaults to `http://localhost:5000` if the variable is not set. - `MCP_API_KEY`: If your MCP Jenkins server is configured to require an API key, ensure this environment variable is set in your OpenWebUI environment. The script will print a warning if it's not found but will still attempt to make requests. Once configured, the tools defined in `open_webui_interface.py` (e.g., `list_jobs`, `trigger_build`, `get_build_status`) should become available for use within your OpenWebUI chat interface. ## License This project is licensed under the MIT License.