# Deployment Notes The easiest way to get PairDrop up and running is by using Docker. ## Deployment with Docker from Docker Hub ```bash docker run -d --restart=unless-stopped --name=pairdrop -p 127.0.0.1:3000:3000 lscr.io/linuxserver/pairdrop ``` > You must use a server proxy to set the X-Forwarded-For to prevent all clients from discovering each other (See [#HTTP-Server](#http-server)). > > To prevent bypassing the proxy and reach the docker container directly, `127.0.0.1` is specified in the run command. ### Options / Flags Set options by using the following flags in the `docker run` command: #### Port ``` -p 127.0.0.1:8080:3000 ``` > Specify the port used by the docker image > - 3000 -> `-p 127.0.0.1:3000:3000` > - 8080 -> `-p 127.0.0.1:8080:3000` #### Rate limiting requests ``` -e RATE_LIMIT=true ``` > Limits clients to 100 requests per 5 min #### Websocket Fallback (for VPN) ``` -e WS_FALLBACK=true ``` > Provides PairDrop to clients with an included websocket fallback if the peer to peer WebRTC connection is not available to the client. > > This is not used on the official https://pairdrop.net, but you can activate it on your self-hosted instance. > This is especially useful if you connect to your instance via a VPN as most VPN services block WebRTC completely in order to hide your real IP address ([read more](https://privacysavvy.com/security/safe-browsing/disable-webrtc-chrome-firefox-safari-opera-edge/)). > > **Warning:** All traffic sent between devices using this fallback is routed through the server and therefor not peer to peer! > Beware that the traffic routed via this fallback is readable by the server. Only ever use this on instances you can trust. > Additionally, beware that all traffic using this fallback debits the servers data plan.
## Deployment with Docker Compose Here's an example docker-compose file: ```yaml version: "2" services: pairdrop: image: lscr.io/linuxserver/pairdrop:latest container_name: pairdrop restart: unless-stopped environment: - PUID=1000 # UID to run the application as - PGID=1000 # GID to run the application as - WS_FALLBACK=false # Set to true to enable websocket fallback if the peer to peer WebRTC connection is not available to the client. - RATE_LIMIT=false # Set to true to limit clients to 100 requests per 5 min. - TZ=Etc/UTC # Time Zone ports: - 3000:3000 # Web UI ``` Run the compose file with `docker compose up -d`.
## Deployment with Docker with self-built image ### Build the image ```bash docker build --pull . -f Dockerfile -t pairdrop ``` > A GitHub action is set up to do this step automatically. > > `--pull` ensures always the latest node image is used. ### Run the image ```bash docker run -d --restart=unless-stopped --name=pairdrop -p 127.0.0.1:3000:3000 -it pairdrop npm run start:prod ``` > You must use a server proxy to set the X-Forwarded-For to prevent all clients from discovering each other (See [#HTTP-Server](#http-server)). > > To prevent bypassing the proxy and reach the docker container directly, `127.0.0.1` is specified in the run command. > > To specify options replace `npm run start:prod` according to [the documentation above.](#options--flags) ## Deployment with node ```bash git clone https://github.com/schlagmichdoch/PairDrop.git && cd PairDrop ``` Install all dependencies with NPM: ```bash npm install ``` Start the server with: ```bash node index.js ``` or ```bash npm start ``` > Remember to check your IP Address using your OS command to see where you can access the server. > By default, the node server listens on port 3000.
### Environment variables #### Port On Unix based systems ```bash PORT=3010 npm start ``` On Windows ```bash $env:PORT=3010; npm start ``` > Specify the port PairDrop is running on. (Default: 3000) ### Options / Flags #### Local Run ```bash npm start -- --localhost-only ``` > Only allow connections from localhost. > > You must use a server proxy to set the X-Forwarded-For to prevent all clients from discovering each other (See [#HTTP-Server](#http-server)). > > Use this when deploying PairDrop with node to prevent bypassing the proxy and reach the docker container directly. #### Automatic restart on error ```bash npm start -- --auto-restart ``` > Restarts server automatically on error
#### Rate limiting requests ```bash npm start -- --rate-limit ``` > Limits clients to 100 requests per 5 min
#### Websocket Fallback (for VPN) ```bash npm start -- --include-ws-fallback ``` > Provides PairDrop to clients with an included websocket fallback if the peer to peer WebRTC connection is not available to the client. > > This is not used on the official https://pairdrop.net, but you can activate it on your self-hosted instance. > This is especially useful if you connect to your instance via a VPN as most VPN services block WebRTC completely in order to hide your real IP address ([read more](https://privacysavvy.com/security/safe-browsing/disable-webrtc-chrome-firefox-safari-opera-edge/)). > > **Warning:** All traffic sent between devices using this fallback is routed through the server and therefor not peer to peer! > Beware that the traffic routed via this fallback is readable by the server. Only ever use this on instances you can trust. > Additionally, beware that all traffic using this fallback debits the servers data plan.
#### Production (autostart and rate-limit) ```bash npm run start:prod ``` #### Production (autostart, rate-limit, localhost-only and websocket fallback for VPN) ```bash npm run start:prod -- --localhost-only --include-ws-fallback ``` > To prevent connections to the node server from bypassing the proxy server you should always use "--localhost-only" on production. ## HTTP-Server When running PairDrop, the `X-Forwarded-For` header has to be set by a proxy. Otherwise, all clients will be mutually visible. ### Using nginx #### Allow http and https requests ``` server { listen 80; expires epoch; location / { proxy_connect_timeout 300; proxy_pass http://127.0.0.1:3000; proxy_set_header Connection "upgrade"; proxy_set_header Upgrade $http_upgrade; proxy_set_header X-Forwarded-for $remote_addr; } } server { listen 443 ssl http2; ssl_certificate /etc/ssl/certs/pairdrop-dev.crt; ssl_certificate_key /etc/ssl/certs/pairdrop-dev.key; expires epoch; location / { proxy_connect_timeout 300; proxy_pass http://127.0.0.1:3000; proxy_set_header Connection "upgrade"; proxy_set_header Upgrade $http_upgrade; proxy_set_header X-Forwarded-for $remote_addr; } } ``` #### Automatic http to https redirect: ``` server { listen 80; expires epoch; location / { return 301 https://$host:3000$request_uri; } } server { listen 443 ssl http2; ssl_certificate /etc/ssl/certs/pairdrop-dev.crt; ssl_certificate_key /etc/ssl/certs/pairdrop-dev.key; expires epoch; location / { proxy_connect_timeout 300; proxy_pass http://127.0.0.1:3000; proxy_set_header Connection "upgrade"; proxy_set_header Upgrade $http_upgrade; proxy_set_header X-Forwarded-for $remote_addr; } } ``` ### Using Apache install modules `proxy`, `proxy_http`, `mod_proxy_wstunnel` ```shell a2enmod proxy ``` ```shell a2enmod proxy_http ``` ```shell a2enmod proxy_wstunnel ```
Create a new configuration file under `/etc/apache2/sites-available` (on debian) **pairdrop.conf** #### Allow http and https requests ``` ProxyPass / http://127.0.0.1:3000/ RewriteEngine on RewriteCond %{HTTP:Upgrade} websocket [NC] RewriteCond %{HTTP:Connection} upgrade [NC] RewriteRule ^/?(.*) "ws://127.0.0.1:3000/$1" [P,L] ProxyPass / https://127.0.0.1:3000/ RewriteEngine on RewriteCond %{HTTP:Upgrade} websocket [NC] RewriteCond %{HTTP:Connection} upgrade [NC] RewriteRule ^/?(.*) "wws://127.0.0.1:3000/$1" [P,L] ``` #### Automatic http to https redirect: ``` Redirect permanent / https://127.0.0.1:3000/ ProxyPass / https://127.0.0.1:3000/ RewriteEngine on RewriteCond %{HTTP:Upgrade} websocket [NC] RewriteCond %{HTTP:Connection} upgrade [NC] RewriteRule ^/?(.*) "wws://127.0.0.1:3000/$1" [P,L] ``` Activate the new virtual host and reload apache: ```shell a2ensite pairdrop ``` ```shell service apache2 reload ``` # Local Development ## Install All files needed for developing are available on the branch `dev`. First, [Install docker with docker-compose.](https://docs.docker.com/compose/install/) Then, clone the repository and run docker-compose: ```shell git clone https://github.com/schlagmichdoch/PairDrop.git cd PairDrop git checkout dev docker-compose up -d ``` Now point your browser to `http://localhost:8080`. - To restart the containers run `docker-compose restart`. - To stop the containers run `docker-compose stop`. - To debug the NodeJS server run `docker logs pairdrop_node_1`.
## Testing PWA related features PWAs require that the app is served under a correctly set up and trusted TLS endpoint. The nginx container creates a CA certificate and a website certificate for you. To correctly set the common name of the certificate, you need to change the FQDN environment variable in `docker/fqdn.env` to the fully qualified domain name of your workstation. If you want to test PWA features, you need to trust the CA of the certificate for your local deployment. For your convenience, you can download the crt file from `http://:8080/ca.crt`. Install that certificate to the trust store of your operating system. - On Windows, make sure to install it to the `Trusted Root Certification Authorities` store. - On MacOS, double click the installed CA certificate in `Keychain Access`, expand `Trust`, and select `Always Trust` for SSL. - Firefox uses its own trust store. To install the CA, point Firefox at `http://:8080/ca.crt`. When prompted, select `Trust this CA to identify websites` and click OK. - When using Chrome, you need to restart Chrome so it reloads the trust store (`chrome://restart`). Additionally, after installing a new cert, you need to clear the Storage (DevTools -> Application -> Clear storage -> Clear site data). Please note that the certificates (CA and webserver cert) expire after a day. Also, whenever you restart the nginx docker, container new certificates are created. The site is served on `https://:8443`. [< Back](/README.md)