# Nano Bots ๐Ÿ’Ž ๐Ÿค– A Ruby implementation of the [Nano Bots](https://github.com/icebaker/nano-bots) specification. ![Ruby Nano Bots](https://user-images.githubusercontent.com/113217272/237839690-7880915a-b287-4484-a75e-0b96284b8a32.png) _Image artificially created by Midjourney through a prompt generated by a Nano Bot specialized in Midjourney._ https://user-images.githubusercontent.com/113217272/238141567-c58a240c-7b67-4b3b-864a-0f49bbf6e22f.mp4 - [Setup](#setup) - [Docker](#docker) - [Usage](#usage) - [Command Line](#command-line) - [Library](#library) - [Cartridges](#cartridges) - [Tools (Functions)](#tools-functions) - [Experimental Clojure Support](#experimental-clojure-support) - [Marketplace](#marketplace) - [Security and Privacy](#security-and-privacy) - [Cryptography](#cryptography) - [End-user IDs](#end-user-ids) - [Decrypting](#decrypting) - [Providers](#providers) - [Debugging](#debugging) - [Development](#development) - [Publish to RubyGems](#publish-to-rubygems) ## Setup For a system usage: ```sh gem install nano-bots -v 1.1.1 ``` To use it in a project, add it to your `Gemfile`: ```ruby gem 'nano-bots', '~> 1.1.1' ``` ```sh bundle install ``` For credentials and configurations, relevant environment variables can be set in your `.bashrc`, `.zshrc`, or equivalent files, as well as in your Docker Container or System Environment. Example: ```sh export OPENAI_API_ADDRESS=https://api.openai.com export OPENAI_API_KEY=your-access-token export NANO_BOTS_ENCRYPTION_PASSWORD=UNSAFE export NANO_BOTS_END_USER=your-user # export NANO_BOTS_STATE_DIRECTORY=/home/user/.local/state/nano-bots # export NANO_BOTS_CARTRIDGES_DIRECTORY=/home/user/.local/share/nano-bots/cartridges ``` Alternatively, if your current directory has a `.env` file with the environment variables, they will be automatically loaded: ```sh OPENAI_API_ADDRESS=https://api.openai.com OPENAI_API_KEY=your-access-token NANO_BOTS_ENCRYPTION_PASSWORD=UNSAFE NANO_BOTS_END_USER=your-user # NANO_BOTS_STATE_DIRECTORY=/home/user/.local/state/nano-bots # NANO_BOTS_CARTRIDGES_DIRECTORY=/home/user/.local/share/nano-bots/cartridges ``` ## Docker Clone the repository and copy the Docker Compose template: ``` git clone git@github.com:icebaker/ruby-nano-bots.git cd ruby-nano-bots cp docker-compose.example.yml docker-compose.yml ``` Set your provider credentials and choose your desired directory for the cartridges files: ```yaml --- services: nano-bots: image: ruby:3.2.2-slim-bookworm command: sh -c "apt-get update && apt-get install -y --no-install-recommends build-essential libffi-dev libsodium-dev lua5.4-dev curl && curl -s https://raw.githubusercontent.com/babashka/babashka/master/install | bash && gem install nano-bots -v 1.1.1 && bash" environment: OPENAI_API_ADDRESS: https://api.openai.com OPENAI_API_KEY: your-access-token NANO_BOTS_ENCRYPTION_PASSWORD: UNSAFE NANO_BOTS_END_USER: your-user volumes: - ./your-cartridges:/root/.local/share/nano-bots/cartridges - ./your-state-path:/root/.local/state/nano-bots ``` Enter the container: ```sh docker compose run nano-bots ``` Start playing: ```sh nb - - eval "hello" nb - - repl nb assistant.yml - eval "hello" nb assistant.yml - repl ``` ## Usage ### Command Line After installing the gem, the `nb` binary command will be available for your project or system. Examples of usage: ```bash nb - - eval "hello" # => Hello! How may I assist you today? nb to-en-us-translator.yml - eval "Salut, comment รงa va?" # => Hello, how are you doing? nb midjourney.yml - eval "happy cyberpunk robot" # => A cheerful and fun-loving robot is dancing wildly amidst a # futuristic and lively cityscape. Holographic advertisements # and vibrant neon colors can be seen in the background. nb lisp.yml - eval "(+ 1 2)" # => 3 cat article.txt | nb to-en-us-translator.yml - eval | nb summarizer.yml - eval # -> LLM stands for Large Language Model, which refers to an # artificial intelligence algorithm capable of processing # and understanding vast amounts of natural language data, # allowing it to generate human-like responses and perform # a range of language-related tasks. ``` ```bash nb - - repl nb assistant.yml - repl ``` ```text ๐Ÿค–> Hi, how are you doing? As an AI language model, I do not experience emotions but I am functioning well. How can I assist you? ๐Ÿค–> | ``` All of the commands above are stateless. If you want to preserve the history of your interactions, replace the `-` with a state key: ```bash nb assistant.yml your-user eval "Salut, comment รงa va?" nb assistant.yml your-user repl nb assistant.yml 6ea6c43c42a1c076b1e3c36fa349ac2c eval "Salut, comment รงa va?" nb assistant.yml 6ea6c43c42a1c076b1e3c36fa349ac2c repl ``` You can use a simple key, such as your username, or a randomly generated one: ```ruby require 'securerandom' SecureRandom.hex # => 6ea6c43c42a1c076b1e3c36fa349ac2c ``` ### Debugging ```sh nb - - cartridge nb cartridge.yml - cartridge nb - STATE-KEY state nb cartridge.yml STATE-KEY state ``` ### Library To use it as a library: ```ruby require 'nano-bots/cli' # Equivalent to the `nb` command. ``` ```ruby require 'nano-bots' NanoBot.cli # Equivalent to the `nb` command. NanoBot.repl(cartridge: 'cartridge.yml') # Starts a new REPL. bot = NanoBot.new(cartridge: 'cartridge.yml') bot = NanoBot.new( cartridge: YAML.safe_load(File.read('cartridge.yml'), permitted_classes: [Symbol]) ) bot = NanoBot.new( cartridge: { ... } # Parsed Cartridge Hash ) bot.eval('Hello') bot.eval('Hello', as: 'eval') bot.eval('Hello', as: 'repl') # When stream is enabled and available: bot.eval('Hi!') do |content, fragment, finished, meta| print fragment unless fragment.nil? end bot.repl # Starts a new REPL. NanoBot.repl(cartridge: 'cartridge.yml', state: '6ea6c43c42a1c076b1e3c36fa349ac2c') bot = NanoBot.new(cartridge: 'cartridge.yml', state: '6ea6c43c42a1c076b1e3c36fa349ac2c') bot.prompt # => "๐Ÿค–\u001b[34m> \u001b[0m" bot.boot bot.boot(as: 'eval') bot.boot(as: 'repl') bot.boot do |content, fragment, finished, meta| print fragment unless fragment.nil? end ``` ## Cartridges Here's what a Nano Bot Cartridge looks like: ```yaml --- meta: symbol: ๐Ÿค– name: Nano Bot Name author: Your Name version: 1.0.0 license: CC0-1.0 description: A helpful assistant. behaviors: interaction: directive: You are a helpful assistant. provider: id: openai credentials: address: ENV/OPENAI_API_ADDRESS access-token: ENV/OPENAI_API_KEY settings: user: ENV/NANO_BOTS_END_USER model: gpt-3.5-turbo ``` Check the Nano Bots specification to learn more about [how to build cartridges](https://spec.nbots.io/#/README?id=cartridges). Try the [Nano Bots Clinic (Live Editor)](https://clinic.nbots.io) to learn about creating Cartridges. ### Tools (Functions) Nano Bots can also be powered by _Tools_ (Functions): ```yaml --- tools: - name: random-number description: Generates a random number between 1 and 100. fennel: | (math.random 1 100) ``` ``` ๐Ÿค–> please generate a random number random-number {} [yN] y random-number {} 59 The randomly generated number is 59. ๐Ÿค–> | ``` To successfully use Tools (Functions), you need to specify a provider and a model that support them. As of the writing of this README, the provider that supports them is [OpenAI](https://platform.openai.com/docs/models), with models `gpt-3.5-turbo-1106` and `gpt-4-1106-preview`: ```yaml --- provider: id: openai credentials: address: ENV/OPENAI_API_ADDRESS access-token: ENV/OPENAI_API_KEY settings: user: ENV/NANO_BOTS_END_USER model: gpt-4-1106-preview ``` Check the [Nano Bots specification](https://spec.nbots.io/#/README?id=tools-functions-2) to learn more about them. #### Experimental Clojure Support We are exploring the use of [Clojure](https://clojure.org) through [Babashka](https://babashka.org), powered by [GraalVM](https://www.graalvm.org). The experimental support for Clojure would be similar to Lua and Fennel, using the `clojure:` key: ```yaml --- clojure: | (-> (java.time.ZonedDateTime/now) (.format (java.time.format.DateTimeFormatter/ofPattern "yyyy-MM-dd HH:mm")) (clojure.string/trimr)) ``` Unlike Lua and Fennel, Clojure support is not _embedded_ in this implementation. It relies on having the Babashka binary (`bb`) available in your environment where the Nano Bot is running. Here's [how to install Babashka](https://github.com/babashka/babashka#quickstart): ```sh curl -s https://raw.githubusercontent.com/babashka/babashka/master/install | bash ``` This is a quick check to ensure that it is available and working: ```sh bb -e '{:hello "world"}' # => {:hello "world"} ``` We don't have sandbox support for Clojure; this means that you need to disable it to be able to run Clojure code, which you do at your own risk: ```yaml --- safety: functions: sandboxed: false ``` ### Marketplace You can explore the Nano Bots [Marketplace](https://nbots.io) to discover new Cartridges that can help you. ## Security and Privacy Each provider will have its own security and privacy policies (e.g. [OpenAI Policy](https://openai.com/policies/api-data-usage-policies)), so you must consult them to understand their implications. ### Cryptography By default, all states stored in your local disk are encrypted. To ensure that the encryption is secure, you need to define a password through the `NANO_BOTS_ENCRYPTION_PASSWORD` environment variable. Otherwise, although the content will be encrypted, anyone would be able to decrypt it without a password. It's important to note that the content shared with providers, despite being transmitted over secure connections (e.g., [HTTPS](https://en.wikipedia.org/wiki/HTTPS)), will be readable by the provider. This is because providers need to operate on the data, which would not be possible if the content was encrypted beyond HTTPS. So, the data stored locally on your system is encrypted, which does not mean that what you share with providers will not be readable by them. To ensure that your encryption and password are configured properly, you can run the following command: ```sh nb security ``` Which should return: ```text โœ… Encryption is enabled and properly working. This means that your data is stored in an encrypted format on your disk. โœ… A password is being used for the encrypted content. This means that only those who possess the password can decrypt your data. ``` Alternatively, you can check it at runtime with: ```ruby require 'nano-bots' NanoBot.security.check # => { encryption: true, password: true } ``` ### End-user IDs A common strategy for deploying Nano Bots to multiple users through APIs or automations is to assign a unique [end-user ID](https://platform.openai.com/docs/guides/safety-best-practices/end-user-ids) for each user. This can be useful if any of your users violate the provider's policy due to abusive behavior. By providing the end-user ID, you can unravel that even though the activity originated from your API Key, the actions taken were not your own. You can define custom end-user identifiers in the following way: ```ruby NanoBot.new(environment: { NANO_BOTS_END_USER: 'custom-user-a' }) NanoBot.new(environment: { NANO_BOTS_END_USER: 'custom-user-b' }) ``` Consider that you have the following end-user identifier in your environment: ```sh NANO_BOTS_END_USER=your-name ``` Or a configuration in your Cartridge: ```yml --- provider: id: openai settings: user: your-name ``` The requests will be performed as follows: ```ruby NanoBot.new(cartridge: '-') # { user: 'your-name' } NanoBot.new(cartridge: '-', environment: { NANO_BOTS_END_USER: 'custom-user-a' }) # { user: 'custom-user-a' } NanoBot.new(cartridge: '-', environment: { NANO_BOTS_END_USER: 'custom-user-b' }) # { user: 'custom-user-b' } ``` Actually, to enhance privacy, neither your user nor your users' identifiers will be shared in this way. Instead, they will be encrypted before being shared with the provider: ```ruby 'your-name' # _O7OjYUESagb46YSeUeSfSMzoO1Yg0BZqpsAkPg4j62SeNYlgwq3kn51Ob2wmIehoA== 'custom-user-a' # _O7OjYUESagb46YSeUeSfSMzoO1Yg0BZJgIXHCBHyADW-rn4IQr-s2RvP7vym8u5tnzYMIs= 'custom-user-b' # _O7OjYUESagb46YSeUeSfSMzoO1Yg0BZkjUwCcsh9sVppKvYMhd2qGRvP7vym8u5tnzYMIg= ``` In this manner, you possess identifiers if required, however, their actual content can only be decrypted by you via your secure password (`NANO_BOTS_ENCRYPTION_PASSWORD`). ### Decrypting To decrypt your encrypted data, once you have properly configured your password, you can simply run: ```ruby require 'nano-bots' NanoBot.security.decrypt('_O7OjYUESagb46YSeUeSfSMzoO1Yg0BZqpsAkPg4j62SeNYlgwq3kn51Ob2wmIehoA==') # your-name NanoBot.security.decrypt('_O7OjYUESagb46YSeUeSfSMzoO1Yg0BZJgIXHCBHyADW-rn4IQr-s2RvP7vym8u5tnzYMIs=') # custom-user-a NanoBot.security.decrypt('_O7OjYUESagb46YSeUeSfSMzoO1Yg0BZkjUwCcsh9sVppKvYMhd2qGRvP7vym8u5tnzYMIg=') # custom-user-b ``` If you lose your password, you lose your data. It is not possible to recover it at all. For real. ## Providers Currently supported providers: - [x] [FastChat (Vicuna)](https://github.com/lm-sys/FastChat) - [x] [Open AI](https://platform.openai.com/docs/api-reference) - [ ] [Google PaLM](https://developers.generativeai.google/) - [ ] [Alpaca](https://github.com/tatsu-lab/stanford_alpaca) - [ ] [LLaMA](https://github.com/facebookresearch/llama) Although only OpenAI has been officially tested, some of the open-source providers offer APIs that are compatible with OpenAI, such as [FastChat](https://github.com/lm-sys/FastChat#openai-compatible-restful-apis--sdk). Therefore, it is highly probable that they will work just fine. ## Development ```bash bundle rubocop -A rspec ``` ### Publish to RubyGems ```bash gem build nano-bots.gemspec gem signin gem push nano-bots-1.1.1.gem ```