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ERC-6662

AA Account Metadata For Authentication

An ERC-4337 extension to define a new authentication model
DraftStandards Track: ERC
创建时间: 2023-03-09
关联 EIP: EIP-4337, EIP-4804
Shu Dong (@dongshu2013), Zihao Chen (@zihaoccc), Peter Chen (@pette1999)
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Abstract

This ERC proposes a new IAccountMetadata interface as an extension for ERC-4337 to store authentication data on-chain to support a more user-friendly authentication model.

Motivation

In this proposal, we propose a new IAccountMetadata interface as an extension for ERC-4337 IAccount interface. With this new interface, users can store authentication data on-chain through one-time publishing, allowing dApps to proactively fetch it from the chain to support a more flexible and user-friendly authentication model. This will serve as an alternative to the current authentication model where users need to log in with a wallet every time and push account-related information to dApps by connecting the wallet in advance.

Specification

The key words “MUST”, “MUST NOT”, “REQUIRED”, “SHALL”, “SHALL NOT”, “SHOULD”, “SHOULD NOT”, “RECOMMENDED”, “MAY”, and “OPTIONAL” in this document are to be interpreted as described in RFC 2119.

Authentication Flow

Authentication Flow

In the new authentication workflow, users use AA compatible smart contract accounts as their wallet addresses. Authenticator could be anything but holding the private key to sign users' operations. For example, it can be an offline authenticator mobile app or an online cloud service. Relay is an online service responsible for forwarding requests from dApps to the Authenticator. If the authenticator is online, it can play the role of Relay service and listen to dApps directly.

Interface

To support the new authentication workflow, this ERC proposes a new IAccountMetadata interface as an extension of IAccount interface defined by ERC-4337.

interface IAccountMetadata {
  struct AuthenticatorInfo {
    // a list of service URIs to relay message from dApps to authenticators
    string[] relayURI;
    // a JSON string or URI pointing to a JSON file describing the
    // schema of AuthenticationRequest. The URI should follow ERC-4804
    // if the schema file is stored on-chain
    string schema;
  }

  function getAuthenticationInfo() external view returns(AuthenticatorInfo[] memory);
}

The relay endpoint should accept an AuthenticationRequest object as input. The format of the AuthenticationRequest object is defined by the schema field at AuthenticationInfo.

Following is a schema example which supports end to end encryption, where we pack all encrypted fields into an encryptedData field. Here we only list basic fields but there may be more fields per schema definition. A special symbol, such as "$e2ee", could be used to indicate the field is encrypted.

{ "title": "AuthenticationRequest", "type": "object", "properties": { "entrypoint": { "type": "string", "description": "the entrypoint contract address", }, "chainId": { "type": "string", "description": "the chain id represented as hex string, e.g. 0x5 for goerli testnet", }, "userOp": { "type": "object", "description": "UserOp struct defined by ERC-4337 without signature", }, "encryptedData": { "type": "string", "description": "contains all encrypted fields" }, } }

Rationale

To enable the new authentication workflow we described above, dApp needs to know two things:

  1. Where is the authenticator? This is solved by the relayURI field in struct AuthenticationInfo. Users can publish the uri as the account metadata which will be pulled by dApp to do service discovery.

  2. What’s the format of AuthenticationRequest? This is solved by the schema field in struct AuthenticationInfo. The schema defines the structure of the AuthenticationRequest object which is consumed by the authenticator. It can also be used to define extra fields for the relay service to enable flexible access control.

Relay Service Selection

Each authenticator can provide a list of relay services. dApp should pull through the list of relay services in order to find the first workable one. All relay services under each authenticator must follow the same schema.

Signature Aggregation

Multisig authentication could be enabled if multiple AuthenticatorInfos are provided under each smart contract account. Each authenticator can sign and submit signed user operations to bundler independently. These signatures will be aggregated by the Aggregator defined in ERC-4337.

Future Extension

The IAccountMetadata interface could be extended per different requirements. For example, a new alias or avatar field could be defined for profile displaying.

Backwards Compatibility

The new interface is fully backward compatible with ERC-4337.

Security Considerations

End to End Encryption

To protect the user’s privacy and prevent front-running attacks, it's better to keep the data from dApps to authenticators encrypted during transmission. This could be done by adopting the JWE (JSON Web Encryption, RFC-7516) method. Before sending out AuthenticationRequest, a symmetric CEK(Content Encryption Key) is generated to encrypt fields with end to end encryption enabled, then the CEK is encrypted with the signer's public key. dApp will pack the request into a JWE object and send it to the authenticator through the relay service. Relay service has no access to the end to end encrypted data since only the authenticator has the key to decrypt the CEK.

Copyright and related rights waived via CC0.

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