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A browser terminal that punches through NATs using the force of RAWRTC

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rawrtc-terminal-demo

A browser terminal that uses WebRTC to punch through NATs.

RAWRTC Terminal Demo Screenshot

The frontend uses the amazing xterm.js.

Introduction

This demo includes two tightly coupled applications and an optional signalling server:

  1. The web terminal which can be opened in any modern browser that supports WebRTC and WebRTC data channels. It represents a browser-based terminal GUI that needs to be used in combination with the RAWRTC terminal application.
  2. The RAWRTC terminal application can be used to make a terminal (or any other program that reads from stdin and outputs data to stdout) accessible by using RAWRTC's data channel implementation. IO will be relayed from/to the web terminal frontend.
  3. A very basic WebSocket signalling server written for Python 3.4+ which can be used instead of copy & pasting the signalling data from one peer to the other. Follow the signalling server's readme for instructions on how to set up the server.

In the following sections, we will describe how to build the RAWRTC terminal backend followed by usage instructions for the combination of the two applications.

Prerequisites

The following dependencies are required:

Meson (Alternative Build System)

If you want to use Meson instead of CMake, you have to install both the Meson build system and Ninja. Use CMake for now. Meson will be updated later.

Build

The following instruction will use a custom prefix to avoid installing the necessary dependencies and this library system-wide.

Package Configuration Path

Make sure you have set up the package configuration path to be able to find the RAWRTC library and its dependencies.

Compile

Meson

Will be added later. Use Cmake for now.

CMake

cd <rawrtc-terminal-demo>/c
mkdir build && cd build
cmake -DCMAKE_INSTALL_PREFIX=${PWD}/prefix ..
make install

Run

Ensure you have set up the library path (LD_LIBRARY_PATH environment variable) to be able to find the RAWRTC shared library and its dependency libraries. In addition, update the PATH environment variable to find the newly built binary:

export PATH=${PWD}/prefix/bin:${PATH}

Note: We assume that you are in the build directory.

Now you should be able to print usage information of the RAWRTC terminal application by invoking

rawrtc-terminal

which will output

Usage: rawrtc-terminal <0|1 (ice-role)> [<sctp-port>] [<shell>] [<ws-url>]
                      [<ice-candidate-type> ...]

Below is a description for the various arguments:

ice-role

Determines the ICE role to be used by the ICE transport, where 0 means controlled and 1 means controlling. For now, the web terminal will always take the controlling role, thus you must use 0 for the RAWRTC terminal application.

sctp-port

The port number the internal SCTP stack is supposed to use. Defaults to 5000.

Note: It doesn't matter which port you choose unless you want to be able to debug SCTP messages. In this case, it's easier to distinguish the peers by their port numbers.

shell

The binary the data channel's incoming messages will be piped into (stdin) and whose output (stdout) will be sent over the data channel to the other peer. Defaults to bash.

ws-uri

If supplied and set to a valid WebSocket URI, the signalling server and the WebSocket path supplied in the URI will be used to exchange signalling data. The URI is split into three parts: ws://<hostname-or-ip>/<channel>/<ice-role>

  • hostname-or-ip: The hostname or IP of the WebSocket server.
  • channel: A channel name known to both peers. The server buffers and relays data on a channel from ICE role 0 to 1 and vice versa.
  • ice-role: The chosen ICE role of the peer.

If not supplied or not a valid WebSocket URI, the copy & paste mode will be used.

ice-candidate-type

If supplied, one or more specific ICE candidate types will be enabled and all other ICE candidate types will be disabled. Can be one of the following strings:

  • host
  • srflx
  • prflx
  • relay

Note that this has no effect on the gathering policy. The candidates will be gathered but they will simply be ignored by the tool.

If not supplied, all ICE candidate types are enabled.

Usage

Before we can go ahead, we need to choose between two modes:

  • Copy & Paste mode: Signalling data will be exchanged using copy & paste. This is the default mode.
  • WebSocket mode: In this mode, the various parameters will be exchanged using a simple WebSocket-based signalling server that relays data. The mode can be activated by supplying a valid WebSocket URI which has been explained in the ws-uri argument description.
  1. Open the web terminal in a WebRTC data channel capable browser.
  2. Start the RAWRTC terminal application.
  3. Exchange the signalling data:
    • In Copy & Paste mode, copy the JSON blob after Local Parameters: from the RAWRTC terminal application into the web terminal. Copy the web terminal's JSON blob into the RAWRTC terminal application. Press Enter in the RAWRTC terminal application.
    • In WebSocket mode, supply the RAWRTC terminal's WebSocket URI as an argument when starting the application and paste the web terminal's WebSocket URI into the web terminal.
  4. Done! Enjoy your WebRTC remote terminal.

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A browser terminal that punches through NATs using the force of RAWRTC

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