For all modes of deploying the bridge, it is first required to manually download a .crx or .zip file of the [LINE Chrome extension](https://chrome.google.com/webstore/detail/line/ophjlpahpchlmihnnnihgmmeilfjmjjc) (current version: 2.5.0).
The recommended way of doing this is to use the [CRX Extractor/Downloader](https://chrome.google.com/webstore/detail/crx-extractordownloader/ajkhmmldknmfjnmeedkbkkojgobmljda) extension for Chrome/Chromium:
1. Install that extension in a Chrome/Chromium instance of your choice
1. Navigate to the Web Store page for the LINE extension
1. Click the "CRX" button in the browser toolbar
1. Select "Download as CRX" or "Download as ZIP"
The downloaded .crx/.zip can then be extracted with `unzip` or with a GUI tool like GNOME File Roller.
To install updated versions of the LINE extension, simply download the .crx/.zip of the latest version of the extension, and extract it in the same location as for initial setup.
# Manual setup
These instructions describe how to install and run the bridge manually from a clone of this repository.
1. If your system's CPU architecture is not x86\_64/amd64, the version of Chromium bundled with Puppeteer will not work, and the following additional steps are required:
1. Edit `puppet/package.json` to specify the version of Puppeteer that is compatible with the version of Chrome/Chromium that you just installed, and rerun `yarn --production` (see [Puppeteer documentation](https://github.com/puppeteer/puppeteer/blob/main/docs/api.md) for a map of Puppeteer/Chromium compatibility)
*`pip install -Ur optional-requirements.txt` for [end-to-bridge](https://docs.mau.fi/bridges/general/end-to-bridge-encryption.html) encryption and metrics
* Note that end-to-bridge encryption requires some native dependencies. For details, see https://docs.mau.fi/bridges/python/optional-dependencies.html#all-python-bridges
The [systemd](systemd) directory provides sample service unit configuration files for running the bridge & Puppeteer modules:
*`matrix-puppeteer-line.service` for the bridge module
*`matrix-puppeteer-line-chrome.service` for the Puppeteer module
To use them as-is, follow these steps after [initial setup](#initial-setup):
1. Install `xfvb-run`, ideally from your distribution
1. Place/link your clone of this repository in `/opt/matrix-puppeteer-line`
* If moving your repo directory after having already created a Python virtual environment for the bridge module, re-create the virtual environment after moving to ensure its paths are up-to-date
* Alternatively, clone it to `/opt/matrix-puppeteer-line` in the first place
1. Install the services as either system or user units
* To install as system units:
1. Copy/link the service files to a directory in the system unit search path, such as `/etc/systemd/system/`
1. Create the services' configuration directory with `sudo mkdir /etc/matrix-puppeteer-line`
1. RECOMMENDED: Create the `matrix-puppeteer-line` user on your system with `adduser` or an equivalent command, then uncomment the `User` and `Group` lines in the service files
* To install as user units:
1. Copy/link the service files to a directory in the user unit search path, such as `~/.config/systemd/user`
1. Create the services' configuration directory with `mkdir $XDG_CONFIG_HOME/matrix-puppeteer-line`
1. Copy the bridge & Puppeteer module configuration files to the services' configuration directory as `config.yaml` and `puppet-config.json`, respectively
1. Start the services now and on every boot boot with `[sudo] systemd [--user] enable --now matrix-puppeteer-line{,-chrome}`
Note that stopping/restarting the bridge module service `matrix-puppeteer-line.service` does not affect the Puppeteer module service `matrix-puppeteer-line-chrome.service`, but stopping/restarting the latter will also stop/restart the former.
Thus, to shut down the bridge entirely, either stop `matrix-puppeteer-line-chrome.service`, or stop both services at once.
These instructions describe how to run the bridge with Docker containers.
## Notes
* Any `docker` commands mentioned below need to be run with `sudo` unless you have configured your system otherwise. See [Docker docs](https://docs.docker.com/engine/install/linux-postinstall/) for details.
* All configuration files created by the Docker containers will be `chown`ed to UID/GID 1337. Use `sudo` access on the host to edit them.
* The `docker` commands below mount the working directory as `/data`, so make sure you always run them in the correct directory.
## Limitations
* Images must be built manually for now. It is planned for there to be prebuilt images available to pull.
* amd64/x86\_64 is the only architecture the current Dockerfiles have been tested with. For other architectures, it is necessary to change the base image of `puppet/Dockerfile` to one that provides Chrome/Chromium for your architecture.
## Initial setup
1.`cd` to the directory where you cloned this repository
1.`cd` to the `puppet` directory, and build the image for the Puppeteer module with `docker build . -t matrix-puppeteer-line-chrome`
1. Run a container for the Puppeteer module for the first time, so it can create a config file for you: `docker run --rm -v $(pwd):/data:z matrix-puppeteer-line-chrome`
1. Update the config to your liking, but leave the `"executable_path"` setting as-is (unless you need to use a version of Chrome/Chromium from the host or another container)
1. Run a container for the bridge module for the first time, so it can create a config file for you: `docker run --rm -v $(pwd):/data:z matrix-puppeteer-line`
1. Update the config to your liking. You'll at least need to change the homeserver settings, appservice address and permissions, as well as the socket connection to the Puppeteer module
* Note that the Puppeteer module container's `/data/` directory is accessible in the bridge module's container at `/data/puppet/`
* Thus, if the Puppeteer module is configured to use a unix socket at `/data/<sock_name>`, the bridge module's config must set `puppeteer.connection.path: /data/puppet/<sockname>`
* Additionally, you should either add the bridge to the same Docker network as your homeserver and database with `--network=<name>` (when they are running in Docker), or expose the correct port(s) with `-p <port>:<port>` or `--network=host` (when they are running outside Docker).