| # Gemini CLI Execution and Deployment | |
| This document describes how to run Gemini CLI and explains the deployment architecture that Gemini CLI uses. | |
| ## Running Gemini CLI | |
| There are several ways to run Gemini CLI. The option you choose depends on how you intend to use Gemini CLI. | |
| --- | |
| ### 1. Standard installation (Recommended for typical users) | |
| This is the recommended way for end-users to install Gemini CLI. It involves downloading the Gemini CLI package from the NPM registry. | |
| - **Global install:** | |
| ```bash | |
| npm install -g @google/gemini-cli | |
| ``` | |
| Then, run the CLI from anywhere: | |
| ```bash | |
| gemini | |
| ``` | |
| - **NPX execution:** | |
| ```bash | |
| # Execute the latest version from NPM without a global install | |
| npx @google/gemini-cli | |
| ``` | |
| --- | |
| ### 2. Running in a sandbox (Docker/Podman) | |
| For security and isolation, Gemini CLI can be run inside a container. This is the default way that the CLI executes tools that might have side effects. | |
| - **Directly from the Registry:** | |
| You can run the published sandbox image directly. This is useful for environments where you only have Docker and want to run the CLI. | |
| ```bash | |
| # Run the published sandbox image | |
| docker run --rm -it us-docker.pkg.dev/gemini-code-dev/gemini-cli/sandbox:0.1.1 | |
| ``` | |
| - **Using the `--sandbox` flag:** | |
| If you have Gemini CLI installed locally (using the standard installation described above), you can instruct it to run inside the sandbox container. | |
| ```bash | |
| gemini --sandbox -y -p "your prompt here" | |
| ``` | |
| --- | |
| ### 3. Running from source (Recommended for Gemini CLI contributors) | |
| Contributors to the project will want to run the CLI directly from the source code. | |
| - **Development Mode:** | |
| This method provides hot-reloading and is useful for active development. | |
| ```bash | |
| # From the root of the repository | |
| npm run start | |
| ``` | |
| - **Production-like mode (Linked package):** | |
| This method simulates a global installation by linking your local package. It's useful for testing a local build in a production workflow. | |
| ```bash | |
| # Link the local cli package to your global node_modules | |
| npm link packages/cli | |
| # Now you can run your local version using the `gemini` command | |
| gemini | |
| ``` | |
| --- | |
| ### 4. Running the latest Gemini CLI commit from GitHub | |
| You can run the most recently committed version of Gemini CLI directly from the GitHub repository. This is useful for testing features still in development. | |
| ```bash | |
| # Execute the CLI directly from the main branch on GitHub | |
| npx https://github.com/google-gemini/gemini-cli | |
| ``` | |
| ## Deployment architecture | |
| The execution methods described above are made possible by the following architectural components and processes: | |
| **NPM packages** | |
| Gemini CLI project is a monorepo that publishes two core packages to the NPM registry: | |
| - `@google/gemini-cli-core`: The backend, handling logic and tool execution. | |
| - `@google/gemini-cli`: The user-facing frontend. | |
| These packages are used when performing the standard installation and when running Gemini CLI from the source. | |
| **Build and packaging processes** | |
| There are two distinct build processes used, depending on the distribution channel: | |
| - **NPM publication:** For publishing to the NPM registry, the TypeScript source code in `@google/gemini-cli-core` and `@google/gemini-cli` is transpiled into standard JavaScript using the TypeScript Compiler (`tsc`). The resulting `dist/` directory is what gets published in the NPM package. This is a standard approach for TypeScript libraries. | |
| - **GitHub `npx` execution:** When running the latest version of Gemini CLI directly from GitHub, a different process is triggered by the `prepare` script in `package.json`. This script uses `esbuild` to bundle the entire application and its dependencies into a single, self-contained JavaScript file. This bundle is created on-the-fly on the user's machine and is not checked into the repository. | |
| **Docker sandbox image** | |
| The Docker-based execution method is supported by the `gemini-cli-sandbox` container image. This image is published to a container registry and contains a pre-installed, global version of Gemini CLI. | |
| ## Release process | |
| The release process is automated through GitHub Actions. The release workflow performs the following actions: | |
| 1. Build the NPM packages using `tsc`. | |
| 2. Publish the NPM packages to the artifact registry. | |
| 3. Create GitHub releases with bundled assets. | |