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State bridge between the WorldID Ethereum mainnet deployment and WorldID supported networks

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world-id-state-bridge

spec

Description

State bridge between the WorldID Ethereum mainnet deployment and WorldID supported networks. The spec can be found in docs/spec.md.

Deployments

The addresses of the contract deployments for production and staging can be found in docs/deployments.md.

Supported networks

Currently, the supported networks are Polygon PoS (for backwards compatibility), Optimism and Base. The next iteration of the bridge will most-likely be based on storage proofs and will support most EVM networks off the get-go, with other networks pending storage proof verifier and Semaphore verifier implementations and deployments.

Future integrations

If you want to support World ID on your network, please reach out to us by opening a GitHub issue. To support World ID the current requirements are:

  • have a native L1<>L2 bridge with Ethereum mainnet and Ethereum Goerli/Sepolia (for testnet integration tests)
  • your network needs to have an EVM execution environment (like Optimism, Arbitrum, Scroll, Polygon zkEVM, zkSync Era, etc)

If your network meets these requirements, please reach out to us and we will work with you to integrate World ID. In the mid-term future we plan on supporting storage proof solutions like Axiom and Herodotus to bridge World ID state to other networks more seamlessly and with better UX and for cheaper costs. Currently each bridge incurs the cost of each cross-chain message sent by calling the propagateRoot() function. Subsidizing these costs on your end would make the integration process very simple.

If your network is not EVM-compatible/equivalent, a new implementation of the World ID contracts will need to be done for your execution environment. Requirements are:

  • Have a way to implement the SemaphoreVerifier and semaphore-mtb circuits verifier contracts which verify Groth16 proofs over the BN254 curve.
  • Have the capabilities to support all cryptographic primitives that will be implemented in future versions of World ID as time goes on.
  • Support the primitives needed to verify Axiom or Herodotus storage proofs.

For L1 to L1 bridges, there are solutions like Succinct's Telepathy which have weaker security guarantees than storage proofs or native L1<>L2 bridges, but possibly allow for a World ID integration, provided that the reqirements above are met.

Documentation

Run make doc to build and deploy a simple documentation webpage on localhost:3000. Uses forge doc under the hood and sources information from the world-id-state-bridge contracts NatSpec documentation.

Usage

Install Dependencies

make install

Build

Build the contracts:

make build

Clean

Delete the build artifacts and cache directories:

make clean

Coverage

Get a test coverage report:

make coverage

Format

Format the contracts with forge fmt and the rest of the files (.js, .md) with Prettier:

make format

Gas Usage

Get a gas report:

make snapshot
make bench

Lint

Lint the contracts:

make lint

Test

Run the tests:

make test

Deploy

Deploy the WorldID state bridge and all its components to Ethereum mainnet using the CLI tool. For a more detailed description of the deployment process and production and staging (testnet) contract addresses, see deployments.md .

Integration with full system:

  1. Deploy world-id-contracts
  2. Get deployment address for WorldIDIdentityManager
  3. (optional) you can also use the WorldIDIdentityManager address that can be found in docs/deployments.md to bridge existing roots.
  4. Deploy world-id-state-bridge by running make deploy-testnet (requires 2.)
  5. Start inserting identities into the WorldIDIdentityManager
  6. Propagate roots from each StateBridge contract (OpStateBridge on Optimism and Base and PolygonStateBridge) to their bridged World ID counterparts (OpWorldID on Base and Optimism and PolygonWorldID) by individually calling propagateRoot() on each bridge contract using state-bridge-relay or any other method of calling the public propagateRoot() functions on the respective state bridges. You can monitor PolygonWorldID and OpWorldID (Optimism/Base) for root updates either using a block explorer or some other monitoring service (Tenderly, OpenZeppelin Sentinel, DataDog, ...).
  7. Try and create a proof and call verifyProof on OpWorldID (Optimism/Base) or PolygonWorldID to check whether everything works.

Note: Remember to call all functions that change state on these contracts via the owner address, which is the deployer address by default.

Testnet

Deploy the WorldID state bridge and all its components to the Goerli testnet.

Integration with full system:

  1. Deploy world-id-contracts
  2. Get deployment address for WorldIDIdentityManager
  3. (optional) you can also use the WorldIDIdentityManager address that can be found in docs/deployments.md to bridge existing roots.
  4. Deploy world-id-state-bridge by running make deploy-testnet (requires 2.)
  5. Start inserting identities into the WorldIDIdentityManager
  6. Propagate roots from each StateBridge contract (OpStateBridge on Optimism and Base and PolygonStateBridge) to their bridged World ID counterparts (OpWorldID on Base and Optimism and PolygonWorldID) by individually calling propagateRoot() on each bridge contract using state-bridge-relay or any other method of calling the public propagateRoot() functions on the respective state bridges. You can monitor PolygonWorldID and OpWorldID (Optimism/Base) for root updates either using a block explorer or some other monitoring service (Tenderly, OpenZeppelin Sentinel, DataDog, ...).
  7. Try and create a proof and call verifyProof on OpWorldID (Optimism/Base) or PolygonWorldID to check whether everything works.

Note: Remember to call all functions that change state on these contracts via the owner address, which is the deployer address by default.

Mock

Deploy the WorldID state bridge and a mock WorldID identity manager to the Goerli testnet for integration tests.

# to do a mock of WorlIDIdentityManager and test bridge contracts on Goerli
make mock

Local Mock

For local mock tests use localhost:8545 as the RPC URL (or just hit enter to use it by default) and use any non-empty string as the Etherscan API key (or just hit enter to use a placeholder by default).

Run a local anvil instance to deploy the contracts locally:

anvil --mnemonic <MNEMONIC> --network goerli --deploy
# meant for local testing, deploys mock contracts to localhost
make local-mock

Credits

This repo uses Paul Razvan Berg's foundry template: A Foundry-based template for developing Solidity smart contracts, with sensible defaults.

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  • Solidity 85.3%
  • JavaScript 13.9%
  • Makefile 0.8%