# matrix-dicebot This is a fork of the [axfive-matrix-dicebot](https://gitlab.com/Taywee/axfive-matrix-dicebot) with basic support for the Chronicles of Darkness 2E Storytelling System, with future plans to extend the codebase further to support variables and perhaps character sheet management. ## Features `matrix-dicebot` is a basic dice rolling bot. It currently has the following features: * Rolling arbitrary dice expressions (e.g. 1d4, 1d20+5, 1d8+1d6, etc). * Rolling dice pools for the Chronicles of Darkness 2E Storytelling System. * Works in encrypted or unencrypted Matrix rooms. ## Building and Installation The easiest way to install matrix-dicebot is to clone this repository and run `cargo install`. Precompiled executables are not yet available. Building the project requires: * Rust 1.45.0 or higher. * OpenSSL/LibreSSL development headers installed. * glibc (probably) ### Why doesn't it build on musl libc? As far as I can tell, the project doesn't build on musl libc. It certainly doesn't build a static binary out of the box using the rust-musl-builder. This appears to be due to a transitive dependency of the Rust Matrix SDK. Any PRs to get the project or Matrix SDK to properly be built into a static binary using musl would be very useful. ## Usage To use it, you can invite the bot to any room you want, and it will automatically jump in. Then you can simply give a dice expressions for either the Storytelling System or more traditional RPG dice rolls. The commands `!roll` and `!r` can handle arbitrary dice roll expressions. ``` !roll 4d6 !r 4d7 + 3 !r 3d12 - 5d2 + 3 - 7d3 + 20d20 ``` The commands `!pool` (or `!rp`) and `!chance` are for the Storytelling System, and they use a specific syntax to support the dice system. The simplest version of the command is `!pool ` to roll a pool of the given size using the most common type of roll. The type of roll can be controlled by adding `n`, `e`, or `r` after the number, for 9-again, 8-again, and rote quality rolls. The number of successes required for an exceptional success can be controlled by `s`, e.g. `s3` to only need 3 successes for an exceptional success. Examples: ``` !pool 8 //regular pool of 8 dice !pool 8n //roll 8 dice, 9-again !pool 8ns3 //roll 8 dice, 9-again with only 3 successes for exceptional !pool 5rs2 //5 dice, rote quality, 2 successes for exceptional ``` ## Running the Bot You can run the bot by creating a Matrix account for it, building the application, and creating a config file that looks like this: ```ini [matrix] home_server = https://'matrix.org' username = 'thisismyusername' password = 'thisismypassword' ``` Make sure to replace the information with your own. Then you can run the "dicebot" binary. It takes the path to the configuration file as its single argument. You can also run it on the command line with the `dicebot-cmd` command, which expects you to feed it one of the command expressions as shown above, and will give you the plaintext response. ## Docker Image The dice bot can run in a minimal Docker image based on [Void Linux](https://voidlinux.org/). To create the Docker image, run `docker build -t chronicle-dicebot .` in the root of the repository. A typical docker run command should look something like this: ``` VERSION="0.3.0" docker run --rm -d --name dicebot \ -v /path/to/dicebot-config.toml:/config/dicebot-config.toml:ro \ -v /path/to/cache/:/cache \ chronicle-dicebot:$VERSION ``` The Docker image requires two volume mounts: the location of the config file, which should be mounted at `/config/dicebot-config.toml`, and a cache directory to store client state after initial sync. That should be mounted at `/cache/`in the container. Properly automated docker builds are forthcoming. ## Future plans The most basic plans are: * To add support for simple per-user variable management, e.g. setting a name to a value (`gnosis = 3`) and then using those in dice rolls. * Perhaps some sort of character sheet integration. But for that, we would need a sheet service. * Automation of Docker builds and precompiled binaries. * Use environment variables instead of config file in Docker image.