AppFlowy Web Project

Welcome to the AppFlowy Web Project, a robust and versatile platform designed to bring the innovative features of AppFlowy to the web. This project uniquely supports running as a desktop application via Tauri, and offers web interfaces powered by WebAssembly (WASM). Dive into an exceptional development experience with high performance and extensive capabilities.
## ๐Ÿ‘ Features - **Cross-Platform Compatibility**: Seamlessly run on desktop environments with Tauri, and on any web browser through WASM. - **High Performance**: Leverage the speed and efficiency of WebAssembly for your web interfaces. - **Tauri Integration**: Build lightweight, secure, and efficient desktop applications. - **Flexible Development**: Utilize a wide range of AppFlowy's functionalities in your web or desktop projects. ## ๐Ÿš€ Getting Started ### ๐Ÿ› ๏ธ Prerequisites Before you begin, ensure you have the following installed: - Node.js (v14 or later) - Rust (latest stable version) - Tauri prerequisites for your operating system - PNPM (8.5.0) ### ๐Ÿ—๏ธ Installation #### Clone the Repository ```bash git clone https://github.com/AppFlowy-IO/AppFlowy ``` #### ๐ŸŒ Install the frontend dependencies: ```bash cd frontend/appflowy_web_app pnpm install ``` - Modify the environment file in `frontend/appflowy_web_app/.env` to add or modify environment variables ```bash # Example AF_BASE_URL=https://test.appflowy.cloud AF_GOTRUE_URL=https://test.appflowy.cloud/gotrue AF_WS_URL=wss://test.appflowy.cloud/ws/v1 ``` #### ๐Ÿ–ฅ๏ธ Desktop Application (Tauri) (Optional) > **Note**: if you want to run the web app in the browser, skip this step - Follow the instructions [here](https://tauri.app/v1/guides/getting-started/prerequisites/) to install Tauri ##### Windows and Linux Prerequisites ###### Windows only - Install the Duckscript CLI and vcpkg ```bash cargo install --force duckscript_cli vcpkg integrate install ``` ###### Linux only - Install the required dependencies ```bash sudo apt-get update sudo apt-get install -y libgtk-3-dev libwebkit2gtk-4.0-dev libappindicator3-dev librsvg2-dev patchelf ``` - **Get error**: failed to run custom build command for librocksdb-sys v6.11.4 ```bash sudo apt install clang ``` ##### Install Tauri Dependencies - Install cargo-make ```bash cargo install --force cargo-make ``` - Install AppFlowy dev tools ```bash # install development tools # make sure you are in the root directory of the project cd frontend cargo make appflowy-tauri-deps-tools ``` - Build the service/dependency ```bash # make sure you are in the root directory of the project cd frontend/appflowy_web_app mkdir dist cd src-tauri cargo build ``` ### ๐Ÿš€ Running the Application #### ๐ŸŒ Web Application - Run the web application ```bash pnpm run dev ``` - Open your browser and navigate to `http://localhost:3000`, You can now interact with the AppFlowy web application #### ๐Ÿ–ฅ๏ธ Desktop Application (Tauri) **Ensure close web application before running the desktop application** - Run the desktop application ```bash pnpm run tauri:dev ``` - The AppFlowy desktop application will open, and you can interact with it ### ๐Ÿ› ๏ธ Development #### How to add or modify i18n keys - Modify the i18n files in `frontend/resources/translations/en.json` to add or modify i18n keys - Run the following command to update the i18n keys in the application ```bash pnpm run sync:i18n ``` #### How to modify the theme Don't modify the theme file in `frontend/appflowy_web_app/src/styles/variables` directly) - Modify the theme file in `frontend/appflowy_web_app/style-dictionary/tokens/base.json( or dark.json or light.json)` to add or modify theme keys - Run the following command to update the theme in the application ```bash pnpm run css:variables ``` #### How to create symlink for the @appflowyinc/client-api-wasm in local development - Run the following command to create a symlink for the @appflowyinc/client-api-wasm ```bash # ensure you are in the frontend/appflowy_web_app directory pnpm run link:client-api $source_path $target_path # Example # pnpm run link:client-api ../../../AppFlowy-Cloud/libs/client-api-wasm/pkg ./node_modules/@appflowyinc/client-api-wasm ``` ### ๐Ÿ“ About the Project #### ๐Ÿ“ Directory Structure - `frontend/appflowy_web_app`: Contains the web application source code - `frontend/appflowy_web_app/src`: Contains the app entry point and the source code - `frontend/appflowy_web_app/src/components`: Contains the react components - `frontend/appflowy_web_app/src/styles`: Contains the styles for the application - `frontend/appflowy_web_app/src/utils`: Contains the utility functions - `frontend/appflowy_web_app/src/i18n`: Contains the i18n files - `frontend/appflowy_web_app/src/assets`: Contains the assets for the application - `frontend/appflowy_web_app/src/store`: Contains the redux store - `frontend/appflowy_web_app/src/@types`: Contains the typescript types - `frontend/appflowy_web_app/src/applications/services`: Contains the services for the application. In vite.config.ts, we have defined the alias for the services directory for different environments(Tauri/Web) ```typescript resolve: { alias: [ // ... { find: '$client-services', replacement: !!process.env.TAURI_PLATFORM ? `${__dirname}/src/application/services/tauri-services` : `${__dirname}/src/application/services/js-services`, }, ] } ``` ### ๐Ÿ“ฆ Deployment Use the AppFlowy CI/CD pipeline to deploy the application to the test and production environments. - Push the changes to the main branch - Deploy Test Environment - Automatically, the test environment will be deployed if merged to the main branch or build/test branch - Deploy Production Environment - Navigate to the Actions tab - Click on the workflow and select the Run workflow - Enter the options - Click on the Run workflow button #### ๐Ÿ“ฆ Deployment (Self-Hosted EC2) ##### Pre-requisites Please ensure you have learned about: - [Deploy Web application on AWS Cloud using EC2 Instance](https://www.youtube.com/watch?v=gWVIIU1ev0Y) - [How to Install and Use Rsync Command](https://operavps.com/docs/install-rsync-command-in-linux/) - [How to Use ssh-keygen to Generate a New SSH Key?](https://www.ssh.com/academy/ssh/keygen) - [Linux post-installation steps for Docker Engine](https://docs.docker.com/engine/install/linux-postinstall/) - [Configuring HTTPS servers](https://nginx.org/en/docs/http/configuring_https_servers.html) And then follow the steps below: 1. Ensure you have the following installed on your server: - Docker: [Install Docker](https://docs.docker.com/engine/install/) - Rsync: [Install Rsync](https://operavps.com/docs/install-rsync-command-in-linux/) 2. Create a new user for deploy, and generate an SSH key for the user ```bash sudo adduser appflowy(or any name) sudo su - appflowy mkdir ~/.ssh chmod 700 ~/.ssh ssh-keygen -t rsa chmod 600 ~/.ssh/authorized_keys # add the user to the docker group, to run docker commands without sudo sudo usermod -aG docker ${USER} ``` - visit the `~/.ssh/id_rsa` and `~/.ssh/id_rsa.pub` to get the private and public key respectively - add the public key to the `~/.ssh/authorized_keys` file - ensure the private key is kept safe - exit and login back to the server with the new user: `ssh -i your-existing-key.pem ec2-user@your-instance-public-dns` 3. Clone the AppFlowy repository 4. Set the following secrets in your repository, have to know [Using secrets in GitHub Actions](https://docs.github.com/en/actions/security-guides/using-secrets-in-github-actions) > Note: Test Environment: prefix the secret with `WEB_TEST_` and Production Environment: prefix the secret with `WEB_` > for example, `WEB_TEST_SSH_PRIVATE_KEY` and `WEB_SSH_PRIVATE_KEY` - `SSH_PRIVATE_KEY`: The private key generated in step 2: cat ~/.ssh/id_rsa - `REMOTE_HOST`: The host of the server: `your-instance-public-dns` or `your-instance-ip` - `REMOTE_USER`: The user created in step 2: `appflowy` - `SSL_CERTIFICATE`: The SSL certificate for the server - [Configuring HTTPS servers](https://nginx.org/en/docs/http/configuring_https_servers.html) - `SSL_CERTIFICATE_KEY`: The SSL certificate key for the server - [Configuring HTTPS servers](https://nginx.org/en/docs/http/configuring_https_servers.html) 5. Run the deployment workflow to deploy the application(production or test environment) > Note: the test server will **automatically** deploy if merged to the main branch or build/test branch ### ๐Ÿงช Testing > We use Cypress for end-to-end testing and component testing - [Cypress](https://www.cypress.io/) #### ๐Ÿงช End-to-End Testing > to be continued #### ๐Ÿงช Component Testing Run the following command to run the component tests ```bash pnpm run test:components ```