An offline-first shared data library for creating p2p apps that work in the browser (and now also NodeJs).
This library helps you create distributed data structures, mostly for p2p applications. It works like an object store, where objects have to follow some conventions to enable secure remote sync. You can see an example here. More info (including how to run the example) below.
In the same way in which the Internet bridges networks together, the Hyper Hyper Space attempts to create a cryptographically secure append-only distributed data layer that makes information universally accessible. We follow two guiding principles:
- Make all data local: always read and modify data locally
- Communicate only through data sync: do not use APIs or any form of remoting
You can read our White Paper to find out more about how this works.
This project is experimental. All APIs may change, bugs exist and the crypto has not been audited.
You can play with the library, using it to synchronize a plain javascript object from your browser's console, in this playground page.
To create datatypes that can be shared using HHS, you need to extend the HashedObject and MutableObject classes. You can learn more on the Data Model section below,
or jump to a few examples in this repo.
To run the example chat app, clone the examples repo and do
yarn build
yarn start
If you're using windows, replace start by winstart above.
Enable the creation of p2p apps that work in-browser, without requiring any infrastructure, and that are as practical and functional as centralized apps. Find abstractions and algorithms that make creating and reasoning about these apps intuitive and predictable. Explore new models for online collaboration platforms that follow the p2p model yet are frictionless to use for the general public, and are
- respectful of everyone's privacy and data ownership rights
- transparent in their handling of information
by default.
HHS uses an immutable typed-objects local storage model. Objects are both retreived and cross-referenced using a structural hash of their contents as their id (a form of content-based addressing).
Mutability is implemented using CRDTs. Identities and data authentication are cryptographic.
Objects and their references form an immutable DAG, a fact that is used for data replication in HHS p2p mesh.
You can read more about HHS data model, including code samples, here.
A peer in the HHS mesh network is a pair containing an identity (i.e. a typed identity object per the data model above) and an endpoint (URL). The in-browser networking used by HHS is based on WebRTC. While this allows direct browser-to-browser data streams, WebRTC connection establishment needs the two parties to exchange a few messages out-of-band, using a signalling server. We have developed a tiny service (77 lines of python at the moment). While everyone can run their own, we are providing a public instance running at the URL wss://mypeer.net:443. To listen for peer connections, the browser will form an endpoint using the signalling server URL and some arbitrary information (usually involving its identity hash, but that is determined by the app), and connect to the signalling server over a websocket. To connect to another peer, the browser will open a websocket to the other peer's signalling server. Two peers don't need to use the same signalling server to be able to connect.
Peer groups use simple randomized algorithms to choose how peers interconnect to each other within the group, epidemic gossip to discover any new state, and cryptographically secured deltas to send missing operations back and forth.
Apps will configure groups of peers, and the HHS mesh provides primitives for effortlessly synchronizing objects within each peer group (this boils down to syncrhonizing their sets of CRDT operations for each shared object).
A space is a data unit that can be shared and discovered easily. It has root object that can be used to bootstrap and synchronize the space.
There is a demo of a simple fully in-browser p2p chat app running here. However, the library has been fully rewritten since that demo was created.
Re-wiring the demo to use the current version of the library is currently WIP. Check out the Account library in the next section.
If you need to use this library directly in NodeJs, outside of a web browser, you need to import @hyper-hyper-space/node-env.