This repository contains the Ethereum Attestation Service SDK, used to interact with the Ethereum Attestation Service Protocol.
To install the EAS SDK, run the following command within your project directory:
yarn add @ethereum-attestation-service/eas-sdk
OR
npm install @ethereum-attestation-service/eas-sdk
OR
pnpm add @ethereum-attestation-service/eas-sdk
Import and initialize the library
import { EAS, Offchain, SchemaEncoder, SchemaRegistry } from "@ethereum-attestation-service/eas-sdk";
import { ethers } from 'ethers';
export const EASContractAddress = "0xC2679fBD37d54388Ce493F1DB75320D236e1815e"; // Sepolia v0.26
// Initialize the sdk with the address of the EAS Schema contract address
const eas = new EAS(EASContractAddress);
// Gets a default provider (in production use something else like infura/alchemy)
const provider = ethers.providers.getDefaultProvider(
"sepolia"
);
// Connects an ethers style provider/signingProvider to perform read/write functions.
// MUST be a signer to do write operations!
eas.connect(provider);
The getAttestation
function allows you to retrieve an on-chain attestation for a given UID. This function returns an attestation object containing information about the attestation, such as the schema, recipient, attester, and more.
import { EAS } from "@ethereum-attestation-service/eas-sdk";
const eas = new EAS(EASContractAddress);
eas.connect(provider);
const uid = "0xff08bbf3d3e6e0992fc70ab9b9370416be59e87897c3d42b20549901d2cccc3e";
const attestation = await eas.getAttestation(uid);
console.log(attestation);
The getAttestation
function returns an attestation object with the following properties:
uid
: The unique identifier of the attestation.schema
: The schema identifier associated with the attestation.refUID
: The reference UID of the attestation, if any.time
: The Unix timestamp when the attestation was created.expirationTime
: The Unix timestamp when the attestation expires (0 for no expiration).revocationTime
: The Unix timestamp when the attestation was revoked, if applicable.recipient
: The Ethereum address of the recipient of the attestation.attester
: The Ethereum address of the attester who created the attestation.revocable
: A boolean indicating whether the attestation is revocable or not.data
: The attestation data in bytes format.
Example output:
{
uid: '0x5134f511e0533f997e569dac711952dde21daf14b316f3cce23835defc82c065',
schema: '0x27d06e3659317e9a4f8154d1e849eb53d43d91fb4f219884d1684f86d797804a',
refUID: '0x0000000000000000000000000000000000000000000000000000000000000000',
time: 1671219600,
expirationTime: 0,
revocationTime: 1671219636,
recipient: '0xFD50b031E778fAb33DfD2Fc3Ca66a1EeF0652165',
attester: '0x1e3de6aE412cA218FD2ae3379750388D414532dc',
revocable: true,
data: '0x0000000000000000000000000000000000000000000000000000000000000000'
}
The attest
function allows you to create an on-chain attestation for a specific schema. This function takes an object with the following properties:
schema
: The UID of the schema for which the attestation is being created.data
: An object containing the following properties:recipient
: The Ethereum address of the recipient of the attestation.expirationTime
: A Unix timestamp representing the expiration time of the attestation. Use0
for no expiration.revocable
: A boolean indicating whether the attestation is revocable or not.refUID
: (Optional) The UID of a referenced attestation. UseZERO_BYTES32
if there is no reference.data
: The encoded data for the attestation, which should be generated using theSchemaEncoder
class.
The function returns a Promise that resolves to the UID of the newly created attestation.
import { EAS, SchemaEncoder } from "@ethereum-attestation-service/eas-sdk";
const eas = new EAS(EASContractAddress);
eas.connect(signer);
// Initialize SchemaEncoder with the schema string
const schemaEncoder = new SchemaEncoder("uint256 eventId, uint8 voteIndex");
const encodedData = schemaEncoder.encodeData([
{ name: "eventId", value: 1, type: "uint256" },
{ name: "voteIndex", value: 1, type: "uint8" },
]);
const schemaUID = "0xb16fa048b0d597f5a821747eba64efa4762ee5143e9a80600d0005386edfc995";
const tx = await eas.attest({
schema: schemaUID,
data: {
recipient: "0xFD50b031E778fAb33DfD2Fc3Ca66a1EeF0652165",
expirationTime: 0,
revocable: true, // Be aware that if your schema is not revocable, this MUST be false
data: encodedData,
},
});
const newAttestationUID = await tx.wait();
console.log("New attestation UID:", newAttestationUID);
To create an offchain attestation, you can use the signOffchainAttestation
function provided by the Offchain class in the EAS SDK. Here's an example:
import { SchemaEncoder } from "@ethereum-attestation-service/eas-sdk";
const offchain = await eas.getOffchain();
// Initialize SchemaEncoder with the schema string
const schemaEncoder = new SchemaEncoder("uint256 eventId, uint8 voteIndex");
const encodedData = schemaEncoder.encodeData([
{ name: "eventId", value: 1, type: "uint256" },
{ name: "voteIndex", value: 1, type: "uint8" },
]);
// Signer is an ethers.js Signer instance
const signer = new ethers.Wallet(privateKey, provider);
const offchainAttestation = await offchain.signOffchainAttestation({
recipient: '0xFD50b031E778fAb33DfD2Fc3Ca66a1EeF0652165',
// Unix timestamp of when attestation expires. (0 for no expiration)
expirationTime: 0,
// Unix timestamp of current time
time: 1671219636,
revocable: true, // Be aware that if your schema is not revocable, this MUST be false
version: 1,
nonce: 0,
schema: "0xb16fa048b0d597f5a821747eba64efa4762ee5143e9a80600d0005386edfc995",
refUID: '0x0000000000000000000000000000000000000000000000000000000000000000',
data: encodedData,
}, signer);
This function will return a signed offchain attestation object containing the UID, signature, and attestation data. You can then share this object with the intended recipient or store it for future use.
Since the offchain attestation protocol is being constantly evolved and improved, we've recently added versioning to help the applications to support both older and newer types of attestation. Starting from version 1
, we have added a version
field to its typed data, which is seamlessly supported by both signOffchainAttestation
and verifyOffchainAttestationSignature
function.
Please note that using the getOffchainUID
function for the previous legacy version, requires passing { version: 0 }
explicitly.
const transaction = await eas.revoke({
uid: "0x6776de8122c352b4d671003e58ca112aedb99f34c629a1d1fe3b332504e2943a"
});
// Optional: Wait for transaction to be validated
await transaction.wait();
To create a timestamp for a single piece of data, you can use the timestamp
function provided by the EAS SDK. Here's an example:
import { EAS } from "@ethereum-attestation-service/eas-sdk";
const eas = new EAS(EASContractAddress);
eas.connect(provider);
const data = ethers.utils.formatBytes32String('0x1234');
const transaction = await eas.timestamp(data);
// Optional: Wait for transaction to be validated
await transaction.wait();
To create timestamps for multiple pieces of data, you can use the multiTimestamp
function:
import { EAS } from "@ethereum-attestation-service/eas-sdk";
const eas = new EAS(EASContractAddress);
eas.connect(provider);
const data1 = ethers.utils.formatBytes32String('0x3e23b395b2bd2d37dd0f6e4148ac6b9e7ed22f2215107958f95cc1489e4e6289');
const data2 = ethers.utils.formatBytes32String('0x6776de8122c352b4d671003e58ca112aedb99f34c629a1d1fe3b332504e2943a');
const transaction = await eas.multiTimestamp([data1, data2]);
// Optional: Wait for transaction to be validated
await transaction.wait();
To revoke an offchain attestation, you can use the revokeOffchain
function provided by the EAS SDK. Here's an example:
import { EAS } from "@ethereum-attestation-service/eas-sdk";
const eas = new EAS(EASContractAddress);
eas.connect(provider);
const data = ethers.utils.formatBytes32String('0x6776de8122c352b4d671003e58ca112aedb99f34c629a1d1fe3b332504e2943a');
const transaction = await eas.revokeOffchain(data);
// Optional: Wait for transaction to be validated
await transaction.wait();
To revoke multiple offchain attestations, you can use the multiRevokeOffchain
function:
import { EAS } from "@ethereum-attestation-service/eas-sdk";
const eas = new EAS(EASContractAddress);
eas.connect(provider);
const data1 = ethers.utils.formatBytes32String('0x6776de8122c352b4d671003e58ca112aedb99f34c629a1d1fe3b332504e2943a');
const data2 = ethers.utils.formatBytes32String('0x3e23b395b2bd2d37dd0f6e4148ac6b9e7ed22f2215107958f95cc1489e4e6289');
const transaction = await eas.multiRevokeOffchain([data1, data2]);
// Optional: Wait for transaction to be validated
await transaction.wait();
To verify an offchain attestation, you can use the verifyOffchainAttestationSignature
function provided by the EAS SDK. Here's an example:
import { OFFCHAIN_ATTESTATION_VERSION, Offchain, PartialTypedDataConfig } from "@ethereum-attestation-service/eas-sdk";
const attestation = {
// your offchain attestation
sig: {
domain: {
name: "EAS Attestation",
version: "0.26",
chainId: 1,
verifyingContract: "0xA1207F3BBa224E2c9c3c6D5aF63D0eb1582Ce587",
},
primaryType: "Attest",
types: {
Attest: [],
},
signature: {
r: "",
s: "",
v: 28,
},
uid: "0x5134f511e0533f997e569dac711952dde21daf14b316f3cce23835defc82c065",
message: {
version: 1,
schema: "0x27d06e3659317e9a4f8154d1e849eb53d43d91fb4f219884d1684f86d797804a",
refUID: "0x0000000000000000000000000000000000000000000000000000000000000000",
time: 1671219600,
expirationTime: 0,
recipient: "0xFD50b031E778fAb33DfD2Fc3Ca66a1EeF0652165",
attester: "0x1e3de6aE412cA218FD2ae3379750388D414532dc",
revocable: true,
data: "0x0000000000000000000000000000000000000000000000000000000000000000",
},
},
signer: "0x1e3de6aE412cA218FD2ae3379750388D414532dc",
};
const EAS_CONFIG: PartialTypedDataConfig = {
address: attestation.sig.domain.verifyingContract,
version: attestation.sig.domain.version,
chainId: attestation.sig.domain.chainId,
};
const offchain = new Offchain(EAS_CONFIG, OFFCHAIN_ATTESTATION_VERSION);
const isValidAttestation = offchain.verifyOffchainAttestationSignature(
attestation.signer,
attestation.sig
);
To register a new schema, you can use the register
function provided by the EAS SDK. This function takes an object with the following properties:
schema
: The schema string that defines the structure of the data to be attested.resolverAddress
: The Ethereum address of the resolver responsible for managing the schema.revocable
: A boolean value indicating whether attestations created with this schema can be revoked.
Here's an example of how to register a new schema:
import { SchemaRegistry } from "@ethereum-attestation-service/eas-sdk";
import { ethers } from 'ethers';
const schemaRegistryContractAddress = "0xYourSchemaRegistryContractAddress";
const schemaRegistry = new SchemaRegistry(schemaRegistryContractAddress);
schemaRegistry.connect(signer);
const schema = "uint256 eventId, uint8 voteIndex";
const resolverAddress = "0x0a7E2Ff54e76B8E6659aedc9103FB21c038050D0"; // Sepolia 0.26
const revocable = true;
const transaction = await schemaRegistry.register({
schema,
resolverAddress,
revocable,
});
// Optional: Wait for transaction to be validated
await transaction.wait();
After registering a schema, you can use its UID to create attestations with the specified structure.
To retrieve the schema information for a specific schema UID, you can use the getSchema
function provided by the EAS SDK. Here's an example:
import { SchemaRegistry } from "@ethereum-attestation-service/eas-sdk";
const schemaRegistryContractAddress = "0x0a7E2Ff54e76B8E6659aedc9103FB21c038050D0"; // Sepolia 0.26
const schemaRegistry = new SchemaRegistry(schemaRegistryContractAddress);
schemaRegistry.connect(provider);
const schemaUID = "0xYourSchemaUID";
const schemaRecord = await schemaRegistry.getSchema({ uid: schemaUID });
console.log(schemaRecord);
// Example Output
{
uid: '0xYourSchemaUID',
schema: 'bytes32 proposalId, bool vote',
resolver: '0xResolverAddress',
revocable: true
}
In the output, you will receive an object containing the schema UID, the schema string, the resolver address, and a boolean indicating whether the schema is revocable or not.