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A framework for building seamlessly scalable and interoperable rollups that can run on any blockchain

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NOTE: Early Access Program for Sovereign SDK

To protect end-users against teams launching potentially insecure rollups at this alpha stage of Sovereign SDK, we’re continuing our development in a private repo. The SDK is always free and open-source, and once we get to testnet stage and iron out potential bugs, we will bring the updates to this main repo under the Apache 2.0 license. If you want to build on the latest version, please fill out our Early Partner Program form to get access or reach out on Twitter!

What is the Sovereign SDK?

The Sovereign SDK is a free and open-source toolkit for building rollups (both ZK and optimistic) that is currently under development. Sovereign SDK consists of three logical components:

  1. The Rollup Interface, a minimal set of interfaces that defines a rollup
  2. The Module System, an opinionated framework for building a rollup with the Rollup Interface
  3. The Full Node, a client implementation capable of running any rollup which implements the Rollup Interface.

The Rollup Interface

At the heart of the Sovereign SDK is the Rollup Interface, which defines the interfaces that rollups must implement. In the Sovereign SDK, we define a rollup as the combination of three components:

  1. A State Transition Function ("STF") which defines the "business logic" of the rollup
  2. A Data Availability Layer ("DA layer") which determines the set of transactions that are fed to the state transition function
  3. A Zero Knowledge proving system (aka "Zero Knowledge Virtual Machine" or "zkVM"), which takes the compiled rollup code and produces succinct proofs that the logic has been executed correctly.

One of the primary goals of the Sovereign SDK is to enable a clean separation of concerns between these three components. Most rollup developers should not need to implement the DA layer interface - they can write their logic using the SDK, and be compatible with any DA layer - so deploying their rollup on a new chain is as simple as picking an adapter to a specific DA layer off the shelf.

Similarly, teams building DA layers shouldn't need to worry about what kinds of state transitions will be built using their chain. All they need to do is implement the DA layer interface, and they're automatically compatible with all state transition functions.

The code for the Rollup Interface lives in the rollup-interface folder. For a technical description, we recommend the overview here. If you want a less technical introduction, see this blog post.

The Module System

While the Rollup Interface defines a powerful set of abstractions, it's unopinionated about how a State Transition Function should actually work. As far as the interfaces are concerned, your state machine might have nothing to do with classic "blockchain" financial applications - so it has no built-in notion of state, accounts, tokens, and the like. This means that the Rollup Interface package on its own can't offer a "batteries included" development experience. But one of our goals at Sovereign is to make developing a rollup as easy as deploying a smart contract. So, we've built out an additional set of tools for defining your state transition function called the Module System.

At the heart of the Module System is the package sov-modules-api. This package defines a group of core traits which express how functionality implemented in separate modules can be combined into a Runtime capable of processing transactions and serving RPC requests. It also defines macros for implementing most of these traits. For many applications, defining your state transition function using the Module System should be as simple as picking some modules off the shelf and defining a struct which glues them together. To deliver this experience, the Module System relies on a set of common types and traits that are used in every module. The sov-modules-api crate defines these traits (like Context and MerkleTreeSpec) and types like Address.

On top of the module API, we provide a state storage layer backed by a Jellyfish Merkle Tree and a bunch of helpful utilities for working with stateful transactions. Finally, we provide a set of modules implementing common blockchain functionality like Accounts, and fungible Tokens.

For more information on the Module System, see its README. You can also find a tutorial on implementing and deploying a custom module here.

The Full Node

The final component of this repository is the Full Node, which is a client implementation capable of running any rollup that implements the Rollup Interface. The Full Node provides an easy way to deploy and run your rollup. With the default configuration, it can automatically store chain data in its database, serve RPC requests for chain data and application state, and interact with the DA layer to sync its state and send transactions. While the full node implementation should be compatible with custom state transition functions, it is currently only tested for rollups built with the Module System. If you encounter any difficulties running the full node, please reach out or open an issue! All of the core developers can be reached via Discord.

Getting Started

Running a demo rollup

Experience how a simple rollup works by exploring our demo-rollup tutorial.

Building a rollup

  • Using the Module System

This is the most straightforward way to create a rollup.

To construct a single module, follow our module building tutorial. To combine multiple modules into a State Transition Function (STF), see the demo-stf guide.

  • By building a custom State Transition Function

If you want even more control over your rollup's functionality, you can implement a completely custom State Transition Function without using the Module System. Our dedicated tutorial for this approach can be found here.

Adding a new Data Availability Layer

If you want to add support for a new data availability layer, the easiest way to get started is to use the DA layer adapter template.

Adapters

Adapters contain the logic integrating 3rd party codebases into the Sovereign SDK. Over time, we expect Sovereign SDK to have adapters for almost all Data Availability Layers and LLVM-compatible proof systems. Currently, we maintain adapters for Risc0 (a zkVM) and Celestia a (DA layer). The Avail project also maintains an adapter for their DA layer, which can be found here. Chainway team also maintains an open-source Bitcoin DA adapter for their Sovereign Rollup on Bitcoin, which can be found here.

Testing

An implementation of LLVM's libFUZZER is available under fuzz/README.md.

Warning

The Sovereign SDK is Alpha software. It has not been audited and should not be used in production under any circumstances. API stability and compliance with semantic versioning will be maintained on a best-effort basis.

License

Licensed under the Apache License, Version 2.0.

Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in this repository by you, as defined in the Apache-2.0 license, shall be licensed as above, without any additional terms or conditions.

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