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Cross-Chain ACL with Lit Protocol

Continuing from the previous example, we can take the relayers one step further with Lit Protocol. Using threshold cryptography, Lit enables us to build access control logic using states from multiple blockchains combined, and encrypt data so only certain addresses that satisfy the access control rules can decrypt it.

For this example, we will build a messaging dapp where you can send encrypted messages to only specified NFT holders. And only the holders of specified tokenIDs will be able to decrypt your messages.

  1. A relayer job can be preset on the WeaveDB instance with jobId, allowed_relayers, extra data schema. All the conditions must be met before relayed queries go through.
  2. The sender #1 and the receiver #3 mint NFTs.
  3. The sender encrypt a message to the receiver with the condition that receiver = owner of #3 token using Lit Protocol. To be specific, the sender specifies multiple tokenIDs including one of his/her own (e.g. 1,3), so he/she can also decrypt and view the message.
  4. The sender packages the received data (encryptedString, encryptedSymmetricKey) and the access condition(evmContractConditions) into an object, and we call it Lit Object for now.
  5. The sender signs initial data (date) with eip712 and sends it to the relayer with jobID. The signer address can be later obtained by verifying the eip712 signatrue.
  6. The relayer checks the sender is an owner of one of the receiver tokenIDs and add extra data (isOwner, lit, tokenIds) to the signed query, then signs it with eip712 and send the transaction to the WeaveDB contract on Warp.
  7. The WeaveDB contract verifies the eip712 signatures and validates jobID, allowed relayers and extra data schema.
  8. The initial query data can be modified with access control rules on the collection. We will check if isOwner is true and if block.timestamp is equal to the date, and if so, add tokenIds, lit and owner to the initial data to make it { date, tokenIDs, lit : { encryptedString, evmContractConditions, encryptedSymmetricKey } , owner }. This data schema is preset on the collection, so the data gets rejected unless it satisfies this schema.
  9. The receiver fetch the doc including the Lit Object, which contains the encrypted message and send the evmContractConditions and encryptedSymmetricKey to Lit Protocol.
  10. Lit Protocol verifies the decryptor meets the access conditions(decryptor = one of the owners of the specified tokenIDs), and if so, it sends back the decrypted symmetricKey.
  11. The receiver uses the symmetricKey to decrypt the encryptedString to get the message from the sender.
caution

In practice, the relayer could/should be decentralized. But we are going to set up a centralized relayer for this demo.

A demo dapp with a test NFT contract on Goerli testnet is deployed at relayer-one.vercel.app/lit-protocol where you can free-mint NFTs and send encrypted messages to arbitrary tokenID owners via WeaveDB and Lit Protocol.

We are also going to use a subgraph from The Graph Protocol and a simple Solidity contract for on-chain ACL with Lit Protocol.

Frontend Dapp

Prerequisites

We assume you have followed the previous tutorial. If not, please do the following 3 steps and come back here.

  1. Clone the Repo
  2. Deploy NFT
  3. Deploy WeaveDB Contract
  4. Set up Local gRPC Node

Create a Subgraph

We'd like to get user owned tokenIDs from the NFT contract at once.

Subgraph is the perfect solution to quickly get indexed data from other blockchains.

Go to your hosted-service dashboard and Add Subgraph.

Install Graph CLI

yarn global add @graphprotocol/graph-cli

Deploy Subgraph

Initialize the subgraph with the following options.

graph init --product hosted-service username/your-subgraph-name
  • Protocol : ethereum
  • Subgraph Name : username/your-subgraph-name
  • Directory to create the subgraph in : your-subgraph-name
  • Ethereum network : goerli
  • Contract address : 0xYourNFTContractAddress
  • Contract name : NFT
  • Index contract events as entities : false
  • Add another contarct? : false

Set your deploy key for the subgraph. You can get the deploy key from your subgraph page.

cd your-subgraph-name
graph auth

Open subgraph.yaml and replace dataSources.source.address with your NFT contract address and dataSources.source.startBlock with the contract creation block number.

specVersion: 0.0.5
schema:
file: ./schema.graphql
dataSources:
- kind: ethereum
name: NFT
network: goerli
source:
address: "0xfF2914F36A25B5E1732F4F62C840b1534Cc3cD68"
abi: NFT
startBlock: 8198452
mapping:
kind: ethereum/events
apiVersion: 0.0.7
language: wasm/assemblyscript
entities:
- Approval
- ApprovalForAll
- Transfer
abis:
- name: NFT
file: ./abis/NFT.json
eventHandlers:
- event: Approval(indexed address,indexed address,indexed uint256)
handler: handleApproval
- event: ApprovalForAll(indexed address,indexed address,bool)
handler: handleApprovalForAll
- event: Transfer(indexed address,indexed address,indexed uint256)
handler: handleTransfer
file: ./src/nft.ts

Open schema.graphql and relpace the content with the following.

type Token @entity {
id: ID!
tokenID: BigInt!
owner: User!
}

type User @entity {
id: ID!
tokens: [Token!]! @derivedFrom(field: "owner")
}

Then generate code.

graph codegen

Replace src/nft.ts with the following code.

import { BigInt } from "@graphprotocol/graph-ts"
import { NFT, Approval, ApprovalForAll, Transfer } from "../generated/NFT/NFT"
import { Token, User } from "../generated/schema"

export function handleApproval(event: Approval): void {}

export function handleApprovalForAll(event: ApprovalForAll): void {}

export function handleTransfer(event: Transfer): void {
let token = Token.load(event.params.tokenId.toString())
if (!token){
let token = new Token(event.params.tokenId.toString())
token.tokenID = event.params.tokenId
token.owner = event.params.to.toHexString()
token.save()
}

let user = User.load(event.params.to.toHexString())
if (!user) {
user = new User(event.params.to.toHexString())
user.save()
}
}

Then, build and deploy.

graph build && yarn deploy

Now you can query the subgraph at https://api.thegraph.com/subgraphs/name/username/your-subgraph-name.

For example, a query to get the tokenIDs of 0x078694d69426112c7df330732e28F5117B02727A is the following.

{
user (id: "0x078694d69426112c7df330732e28f5117b02727a"){
tokens{
id
}
}
}

Deploy ACL Contract on EVM

You can set up complex access control conditions with Lit Protocol using multiple smart contract functions.

But you can also make it easiler by deploying a simple real-only ACL contract and using only one aggregator function.

We will deploy an ACL contract with isOwner function that checks if the addr is the owner of any one of the given tokenIds.

// SPDX-License-Identifier: MIT
pragma solidity ^0.8.0;

interface IERC721 {
function ownerOf(uint256 tokenId) external view returns (address owner);
}

contract ACL {
address public contract_address;

constructor(address addr) {
contract_address = addr;
}

function isOwner(address addr, uint [] memory tokenIds) public view returns (bool) {
IERC721 nft = IERC721(contract_address);
bool is_owner = false;
for(uint i = 0; i < tokenIds.length; i++){
try nft.ownerOf(tokenIds[i]) returns (address owner) {
if(addr == owner){
is_owner = true;
break;
}
} catch {}
}
return is_owner;
}
}

Go to the nft-contract folder and compile the contract.

cd examples/relayer-nft/nft-contract
yarn
npx hardhat compile

Create .env file with the following variables.

EVM_RPC="https://goerli.infura.io/v3/yourapikey"
ETHERSCAN_API_KEY="yourapikey"
PRIVATEKEY="yourprivatekey"

Then deploy the contract to the Goerli testnet.

npx hardhat run scripts/deployACL.js 0xNFTContractAddress --network goerli

Now you should receive yoru contract address. To verify the contract on Etherscan, run the following.

npx hardhat verify --network goerli 0xACLContractAddress 0xNFTContractAddress

Configure DB Instance

We will show you one command script to set up everything in the end, but these are what needs to be set up.

Set up Data Schema

We are going to set up only 1 collection.

  • lit_messages : encrypted messages with Lit Protocol
const schema = {
type: "object",
required: ["tokenIDs", "date", "lit", "owner"],
properties: {
owner: {
type: "string",
},
tokenIDs: {
type: "array",
items: {
type: "number",
},
},
lit: {
encryptedData: { type: "string" },
encryptedSymmetricKey: { type: "array", items: { type: "number" } },
evmContractConditions: { type: "object" },
},
date: {
type: "number",
},
},
}

await db.setSchema(schema, "lit_messages", { ar: wallet })
  • tokenIDs : tokenIDs the message is sent to, only the owners of those tokenIDs can decrypt the message
  • owner : sender address
  • lit : lit object with encrypted message, encrypted key, and access conditions
  • date : date the messege is sent

Set up Relayer Job

Set a simple relayer job.

  • relayerAddress : an EVM address of the relayer to check the Ethereum blockchain and relay WeaveDB queries.
  • schema : JSON schema for the additional data to be attached by the relayer. The relayer will attach 3 pieces of extra data, tokenIDs, lit, and isOwner.
  • jobID : our arbitrary jobID will be lit.
const job = {
relayers: [relayerAddress],
schema: {
type: "object",
required: ["tokenIDs", "lit", "isOwner"],
properties: {
tokenIDs: {
type: "array",
items: {
type: "number",
},
},
lit: {
encryptedData: { type: "string" },
encryptedSymmetricKey: { type: "array", items: { type: "number" } },
evmContractConditions: { type: "object" },
},
isOwner: {
type: "boolean",
},
},
},
}

await sdk.addRelayerJob("lit", job, {
ar: wallet,
})

With these simple settings, we expect the relayer to receive a post date and a lit object, then verify the signer is one of the owners of the specified tokenIDs. tokenIDs can be extracted from evmContractConditions.

Finally, it attaches 3 pieces of extra data(lit, tokenIDs, isOwner) to the originally signed query.

Set up Access Control Rules

tokenIds and lit will be set from the extra data and the signer will be set as owner. It checks isOwner is true and block.timestamp is date.

The date will always evaluate to block.timestamp if the sender specifies db.ts() to the date field.

const rules = {
let: {
"resource.newData.tokenIDs": { var: "request.auth.extra.tokenIDs" },
"resource.newData.lit": { var: "request.auth.extra.lit" },
"resource.newData.owner": { var: "request.auth.signer" },
},
"allow create": {
and: [
{ "==": [{ var: "request.auth.extra.isOwner" }, true] },
{
"==": [
{ var: "request.block.timestamp" },
{ var: "resource.newData.date" },
],
},
],
},
}

await sdk.setRules(rules, "lit_messages", {
ar: wallet,
})

Set up Everything with Script

To set up everything with one command, run the following.

node scripts/lit-setup.js mainnet mainnet YOUR_CONTRACT_TX_ID RELAYER_EVM_ADDRESS

NextJS Frontend Dapp

If you followed the previous tutorial, you should have a frontend dapp set up alreasy.

If not, you should follow the first two sections now.

  1. Create NextJS Project
  2. Install Dependencies

Copy ACL ABI

Copy and save the minimum ABI for the NFT contract to /lib/ACL.json.

The relayer needs this ABI to access the Ethereum blockchain.

[
{
"inputs": [
{
"internalType": "address",
"name": "addr",
"type": "address"
}
],
"stateMutability": "nonpayable",
"type": "constructor"
},
{
"inputs": [],
"name": "contract_address",
"outputs": [
{
"internalType": "address",
"name": "",
"type": "address"
}
],
"stateMutability": "view",
"type": "function"
},
{
"inputs": [
{
"internalType": "address",
"name": "addr",
"type": "address"
},
{
"internalType": "uint256[]",
"name": "tokens",
"type": "uint256[]"
}
],
"name": "isOwner",
"outputs": [
{
"internalType": "bool",
"name": "",
"type": "bool"
}
],
"stateMutability": "view",
"type": "function"
}
]

You need to make /lib directory, if it doesn't exist yet.

mkdir lib
touch lib/ACL.json

Then copy the content above to ACL.json.

Set up Environment Variables

Create .env.local file and set the following variables.

EVM_RPC="https://goerli.infura.io/v3/your_api_key"
WEAVEDB_RPC_NODE="localhost:8080"
RELAYER_PRIVATEKEY="Relayer_EOA_Privatekey"

NEXT_PUBLIC_WEAVEDB_CONTRACT_TX_ID="Your_Contract_Tx_Id"
NEXT_PUBLIC_NFT_CONTRACT_ADDR="Goerli_NFT_Contract_Address"
NEXT_PUBLIC_ACL_CONTRACT_ADDR="Goerli_ACL_Contract_Address"
NEXT_PUBLIC_WEAVEDB_RPC_WEB="http://localhost:8080"

Set up Relayer

We will set up the relayer as NextJS serverless api located at /pages/api/isOwner.

The relayer receives signed parameters and a lit object from frontend users and checks if the signer is one of the owner of the specified tokenIDs extractable from the lit object.

It then relays the DB query with an additional data of isOwner, lit and tokenIDs attached to the query.

const { Contract, providers } = require("ethers")
const provider = new providers.JsonRpcProvider(process.env.EVM_RPC)
const contractTxId = process.env.NEXT_PUBLIC_WEAVEDB_CONTRACT_TX_ID
const aclContractAddr = process.env.NEXT_PUBLIC_ACL_CONTRACT_ADDR
const SDK = require("weavedb-node-client")
const abi = require("../../lib/ACL.json")

export default async (req, res) => {
const { lit, params } = JSON.parse(req.body)
const tokenIDs = JSON.parse(lit.evmContractConditions[0].functionParams[1])
let isOwner = false
try {
isOwner = await new Contract(aclContractAddr, abi, provider).isOwner(
params.caller,
tokenIDs
)
} catch (e) {
res.status(200).json({
success: false,
})
return
}

const sdk = new SDK({
contractTxId,
rpc: process.env.WEAVEDB_RPC_NODE,
})
const tx = await sdk.relay(
params.jobID,
params,
{ isOwner, lit, tokenIDs },
{
jobID: params.jobID,
privateKey: process.env.RELAYER_PRIVATEKEY,
}
)
res.status(200).json(tx)
}

The App Page

The app page resides at /pages/lit-protocol.js. We put a bit better UI design than the previous tutorial.

Import Libraries

Import necessary libraries. We are going to use a bunch of RamdaJS functions for utilities and Chakra for UI.

We will also use localforage to manage login states with Lit Protocol, and dayjs for date display.

For nicer looks, Jdenticon provides on-the-fly geometric avatars for evm addresses.

import SDK from "weavedb-client"
import Jdenticon from "react-jdenticon"
import { ethers } from "ethers"
import { useEffect, useState } from "react"
import {
intersection,
append,
pluck,
trim,
reverse,
compose,
sortBy,
values,
assoc,
map,
indexBy,
prop,
isNil,
} from "ramda"
import {
Spinner,
Box,
Flex,
Textarea,
Input,
ChakraProvider,
} from "@chakra-ui/react"
import lf from "localforage"
import LitJsSdk from "@lit-protocol/sdk-browser"
import dayjs from "dayjs"
dayjs.extend(require("dayjs/plugin/relativeTime"))

Define Variables

let sdk, lit
const contractTxId = process.env.NEXT_PUBLIC_WEAVEDB_CONTRACT_TX_ID
const nftContractAddr = process.env.NEXT_PUBLIC_NFT_CONTRACT_ADDR

export default function Home() {
const [messages, setMessages] = useState([])
const [authSig, setAuthSig] = useState(null)
const [userTokenIDs, setUserTokenIDs] = useState([])
const [posting, setPosting] = useState(false)
const [initSDK, setInitSDK] = useState(false)
}
  • messages : decrypted messages to your address
  • posting : to set a flag when message posting is ongoing
  • authSig : a signature credential required for Lit Protocol
  • userTokenIDs : a list of tokenIDs owned by connected account
  • initSDK : a flag for the WeaveDB client SDK initialization

Set up Reactive Effect

Check if authSig is previously stored, initialize the SDK, and set the initSDK flag when SDK is ready.

  useEffect(() => {
;(async () => {
// check if authSig exists from the previous session
setAuthSig(await lf.getItem("lit-authSig"))

// initialize client SDK
const _sdk = new SDK({
contractTxId,
rpc: process.env.NEXT_PUBLIC_WEAVEDB_RPC_WEB,
})
sdk = _sdk

// set the initSDK flag
setInitSDK(true)
})()
}, [])

When the connected account has changed, get user owned tokenIDs via subgraph.

Then subsequently get messages for the tokenIDs from WeaveDB, and decrypt them using Lit Protocol.

  useEffect(() => {
;(async () => {
if (!isNil(authSig) && initSDK) {

// a subgraph query to get the connected user with tokens
const query = `
{
user (id: "${authSig.address}"){
tokens{
id
}
}
}`
// query subgraph for tokenIDs
const data = await fetch(
"https://api.thegraph.com/subgraphs/name/ocrybit/weavedb-relayer-nft-demo",
{
method: "POST",
headers: {
"Content-Type": "application/json",
Accept: "application/json",
},
body: JSON.stringify({ query }),
}
).then(r => r.json())
const tokenIDs = compose(
map(v => +v),
pluck("id")
)(data.data.user.tokens)
setUserTokenIDs(tokenIDs)

// get messages sent to the tokenIDs from WeaveDB
const res = await sdk.get(
"lit_messages",
["tokenIDs", "array-contains-any", tokenIDs],
["date", "desc"]
)

// decrypt the messages using Lit Protocol
lit = new LitJsSdk.LitNodeClient()
await lit.connect()
let _messages = []
for (const msg of res) {
const {
evmContractConditions,
encryptedSymmetricKey,
encryptedData,
} = msg.lit
const symmetricKey = await lit.getEncryptionKey({
evmContractConditions,
toDecrypt: LitJsSdk.uint8arrayToString(
new Uint8Array(encryptedSymmetricKey),
"base16"
),
chain: "goerli",
authSig,
})
const dataURItoBlob = dataURI => {
var byteString = window.atob(dataURI.split(",")[1])
var mimeString = dataURI.split(",")[0].split(":")[1].split(";")[0]
var ab = new ArrayBuffer(byteString.length)
var ia = new Uint8Array(ab)
for (var i = 0; i < byteString.length; i++) {
ia[i] = byteString.charCodeAt(i)
}

var blob = new Blob([ab], { type: mimeString })

return blob
}
const decryptedString = await LitJsSdk.decryptString(
dataURItoBlob(encryptedData),
symmetricKey
)
_messages.push(assoc("text", decryptedString, msg))
}
setMessages(_messages)
}
})()
}, [authSig, initSDK])
Header View

The Header has a Connect with Lit Protocol / Disconnect button, which prompts the user to connect with Metamask/Wallet Connect.

It also has a link to the NFT contract on Etherscan and shows posting status when posting a message.

    <>
<Flex justify="center" width="600px" py={3} align="center">
{!isNil(authSig) ? (
<>
<Flex
flex={1}
align="center"
as="a"
target="_blank"
href={`https://goerli.etherscan.io/address/${authSig.address}`}
sx={{ ":hover": { opacity: 0.75 } }}
>
<Box mr={3}>
<Jdenticon size="30px" value={authSig.address} />
</Box>
<Box flex={1}>{isNil(authSig) ? "" : authSig.address}</Box>
</Flex>
<Flex
bg="#1E1930"
color="#F893F6"
p={3}
sx={{
borderRadius: "5px",
cursor: "pointer",
":hover": { opacity: 0.75 },
boxShadow: "10px 10px 14px 1px rgb(0 0 0 / 20%)",
}}
onClick={async () => {

// disconnect from Lit Protocol
LitJsSdk.disconnectWeb3()

// clear stored states
setAuthSig(null)
await lf.removeItem("lit-authSig")
setUserTokenIDs([])
}}
>
Disconnect
</Flex>
</>
) : (
<>
<Box flex={1} />
<Box
bg="#1E1930"
color="#F893F6"
p={3}
sx={{
borderRadius: "5px",
cursor: "pointer",
":hover": { opacity: 0.75 },
boxShadow: "10px 10px 14px 1px rgb(0 0 0 / 20%)",
}}
onClick={async () => {

// connect with Lit Protocol
lit = new LitJsSdk.LitNodeClient()
await lit.connect()
const authSig = await LitJsSdk.checkAndSignAuthMessage({
chain: "goerli",
})

// store authSig to a react state and persistent storage for the next session
setAuthSig(authSig)
await lf.setItem("lit-authSig", authSig)
}}
>
Connect with Lit Protocol
</Box>
</>
)}
</Flex>

<Flex justify="center" width="600px" py={3}>
<Box flex={1}>
{posting ? (
<Flex align="center">
<Spinner boxSize="18px" mr={3} />
posting...
</Flex>
) : (
"Mint NFT and post encrypted group messages to tokenIDs! (e.g. 1,2,3)"
)}
</Box>
<Box
as="a"
target="_blank"
sx={{ textDecoration: "underline" }}
href={`https://goerli.etherscan.io/token/${nftContractAddr}#writeContract`}
>
Mint NFT
</Box>
</Flex>
</>
Footer View

The Footer is just a link to the Warp contract page on Sonar. So users can view transactions. Nothing special.

  const Footer = () => (
<Flex w="100%" justify="center" p={4} bg="#1E1930" color="#F893F6">
<Flex>
<Box
as="a"
target="_blank"
href={`https://sonar.warp.cc/?#/app/contract/${contractTxId}`}
>
Contract Transactions
</Box>
</Flex>
</Flex>
)

Post

Post View

The Post component lets you post a message with your tokenIDs, and this is where the business takes place.

  const Post = () => {
const [message, setMessage] = useState("")
const [tokenIDs, setTokenIDs] = useState("")
return (
<Flex width="600px">
<Flex
width="100%"
bg="rgba(255,255,255,0.25)"
direction="column"
p={4}
mb={5}
sx={{
boxShadow: "10px 10px 14px 1px rgb(0 0 0 / 20%)",
borderRadius: "10px",
}}
>
<Textarea
mb={3}
height="200px"
bg="white"
color="#1E1930"
disabled={posting}
flex={1}
placeholder="Message"
sx={{ borderRadius: "3px" }}
value={message}
onChange={e => {
setMessage(e.target.value)
}}
/>

<Flex justify="center" width="100%" align="center">
<Input
bg="white"
color="#1E1930"
disabled={posting}
w="150px"
placeholder="tokenIDs"
sx={{ borderRadius: "3px" }}
value={tokenIDs}
onChange={e => setTokenIDs(e.target.value)}
/>
<Box ml={3}>
Your Token: {userTokenIDs.join(",")} (include at least one)
</Box>
<Box flex={1} />
<Flex
px={14}
align="center"
justify="center"
width="75px"
height="40px"
bg="#1E1930"
color="#F893F6"
fontSize="16px"
sx={{
borderRadius: "3px",
cursor: "pointer",
":hover": { opacity: 0.75 },
}}
onClick={async () => {
if (!posting) {
setPosting(true)

// data validation
if (tokenIDs === "") {
alert("enter your tokenID")
setPosting(false)
return
}
if (/^\s*$/.test(message)) {
alert("enter message")
setPosting(false)
return
}

let isNaN = false
let packaged = null
const _tokenIDs = map(v => {
if (Number.isNaN(+trim(v))) isNaN = true
return +trim(v)
})(tokenIDs.split(","))
if (intersection(_tokenIDs, userTokenIDs).length === 0) {
alert("include at least one of your tokens")
setPosting(false)
return
}
if (isNaN) {
alert("Enter numbers")
setPosting(false)
return
}

// a custom EVM access condition for Lit Protocol
// isOwner(addr, tokenIDs) has to return true to decrypt the message
let evmContractConditions = [
{
contractAddress:
process.env.NEXT_PUBLIC_ACL_CONTRACT_ADDR,
functionName: "isOwner",
functionParams: [
":userAddress",
JSON.stringify(_tokenIDs),
],
functionAbi: {
inputs: [
{
internalType: "address",
name: "addr",
type: "address",
},
{
internalType: "uint256[]",
name: "tokens",
type: "uint256[]",
},
],
name: "isOwner",
outputs: [
{
internalType: "bool",
name: "",
type: "bool",
},
],
stateMutability: "view",
type: "function",
},
chain: "goerli",
returnValueTest: {
key: "",
comparator: "=",
value: "true",
},
},
]

// encrypt the message with Lit Protocol
try {
lit = new LitJsSdk.LitNodeClient()
await lit.connect()
const authSig = await LitJsSdk.checkAndSignAuthMessage({
chain: "goerli",
})
await lf.setItem("lit-authSig", authSig)
const { encryptedString, symmetricKey } =
await LitJsSdk.encryptString(message)
const encryptedSymmetricKey = await lit.saveEncryptionKey({
evmContractConditions,
symmetricKey,
authSig,
chain: "goerli",
})
const blobToDataURI = blob => {
return new Promise((resolve, reject) => {
var reader = new FileReader()

reader.onload = e => {
var data = e.target.result
resolve(data)
}
reader.readAsDataURL(blob)
})
}
const encryptedData = await blobToDataURI(encryptedString)

// create package data into an object (we call it a lit object)
packaged = {
encryptedData,
encryptedSymmetricKey: Array.from(encryptedSymmetricKey),
evmContractConditions,
}
} catch (e) {
alert("something went wrong")
}

// sign the query and send it to the relayer
try {
const provider = new ethers.providers.Web3Provider(
window.ethereum,
"any"
)
await provider.send("eth_requestAccounts", [])
const addr = await provider.getSigner().getAddress()

const params = await sdk.sign(
"add",
{ date: sdk.ts() },
"lit_messages",
{
wallet: addr,
jobID: "lit",
}
)

// send the signed params and the lit object to the relayer
const res = await fetch("/api/isOwner", {
method: "POST",
body: JSON.stringify({ params, lit: packaged }),
}).then(v => v.json())
if (res.success === false) {
alert("Something went wrong")
} else {

// if successful, clear forms and update the message list
setMessage("")
setTokenIDs("")
setMessages(
compose(
reverse,
sortBy(prop("date")),
append({
tokenIDs: _tokenIDs,
date: Math.round(Date.now() / 1000),
text: message,
owner: authSig.address,
})
)(messages)
)
}
} catch (e) {
alert("something went wrong")
}
setPosting(false)
}
}}
>
Post
</Flex>
</Flex>
</Flex>
</Flex>
)
}

Messages

Messages View

The Messages component loops through and displays the messages.

  const Messages = () => (
<Box>
{map(v => (
<Flex
p={2}
bg="#4C2471"
color="white"
m={4}
sx={{
borderRadius: "10px",
boxShadow: "10px 10px 14px 1px rgb(0 0 0 / 20%)",
}}
w="600px"
>
<Flex justify="center" py={2} px={4}>
<Flex direction="column">
<Flex bg="white" sx={{ borderRadius: "50%" }} p={2}>
<Jdenticon size="30px" value={v.owner} />
</Flex>
<Flex justify="center" mt={2} fontSize="12px">
{v.owner.slice(0, 7)}
</Flex>
</Flex>
</Flex>
<Flex p={2} flex={1} mx={2} fontSize="16px" direction="column">
<Box flex={1}>{v.text}</Box>
<Flex fontSize="12px" color="#F893F6">
<Box>To: {v.tokenIDs.join(", ")}</Box>
<Box flex={1} />
<Box>{dayjs(v.date * 1000).fromNow()}</Box>
</Flex>
</Flex>
</Flex>
))(messages)}
</Box>
)

Return Components

Now return all the components wrapped by <ChakraProvider> tag for UI.

  return (
<ChakraProvider>
<style jsx global>{`
html,
#__next,
body {
height: 100%;
}
body {
color: white;
background-image: radial-gradient(
circle,
#b51da6,
#94259a,
#75288c,
#58277b,
#3e2368
);
}
`}</style>
<Flex direction="column" minHeight="100%" justify="center" align="center">
<Flex direction="column" align="center" fontSize="12px" flex={1}>
<Header />
{isNil(authSig) ? null : (
<>
<Post />
<Messages />
</>
)}
</Flex>
<Footer />
</Flex>
</ChakraProvider>
)

The Complete Code

You can also access the entire code on Github.

import SDK from "weavedb-client"
import Jdenticon from "react-jdenticon"
import { ethers } from "ethers"
import { useEffect, useState } from "react"
import {
intersection,
append,
pluck,
trim,
reverse,
compose,
sortBy,
values,
assoc,
map,
indexBy,
prop,
isNil,
} from "ramda"
import {
Spinner,
Box,
Flex,
Textarea,
Input,
ChakraProvider,
} from "@chakra-ui/react"
import lf from "localforage"
import LitJsSdk from "@lit-protocol/sdk-browser"
import dayjs from "dayjs"
dayjs.extend(require("dayjs/plugin/relativeTime"))

let sdk, lit
const contractTxId = process.env.NEXT_PUBLIC_WEAVEDB_CONTRACT_TX_ID
const nftContractAddr = process.env.NEXT_PUBLIC_NFT_CONTRACT_ADDR

export default function Home() {
const [messages, setMessages] = useState([])
const [authSig, setAuthSig] = useState(null)
const [userTokenIDs, setUserTokenIDs] = useState([])
const [posting, setPosting] = useState(false)
const [initSDK, setInitSDK] = useState(false)

useEffect(() => {
;(async () => {
setAuthSig(await lf.getItem("lit-authSig"))
const _sdk = new SDK({
contractTxId,
rpc: process.env.NEXT_PUBLIC_WEAVEDB_RPC_WEB,
})
sdk = _sdk
setInitSDK(true)
})()
}, [])

useEffect(() => {
;(async () => {
if (!isNil(authSig) && initSDK) {
const query = `
{
user (id: "${authSig.address}"){
tokens{
id
}
}
}`

const data = await fetch(
"https://api.thegraph.com/subgraphs/name/ocrybit/weavedb-relayer-nft-demo",
{
method: "POST",
headers: {
"Content-Type": "application/json",
Accept: "application/json",
},
body: JSON.stringify({ query }),
}
).then(r => r.json())
const tokenIDs = compose(
map(v => +v),
pluck("id")
)(data.data.user.tokens)
setUserTokenIDs(tokenIDs)
const res = await sdk.get(
"lit_messages",
["tokenIDs", "array-contains-any", tokenIDs],
["date", "desc"]
)
lit = new LitJsSdk.LitNodeClient()
await lit.connect()
let _messages = []
for (const msg of res) {
const {
evmContractConditions,
encryptedSymmetricKey,
encryptedData,
} = msg.lit
const symmetricKey = await lit.getEncryptionKey({
evmContractConditions,
toDecrypt: LitJsSdk.uint8arrayToString(
new Uint8Array(encryptedSymmetricKey),
"base16"
),
chain: "goerli",
authSig,
})
const dataURItoBlob = dataURI => {
var byteString = window.atob(dataURI.split(",")[1])
var mimeString = dataURI.split(",")[0].split(":")[1].split(";")[0]
var ab = new ArrayBuffer(byteString.length)
var ia = new Uint8Array(ab)
for (var i = 0; i < byteString.length; i++) {
ia[i] = byteString.charCodeAt(i)
}

var blob = new Blob([ab], { type: mimeString })

return blob
}
const decryptedString = await LitJsSdk.decryptString(
dataURItoBlob(encryptedData),
symmetricKey
)
_messages.push(assoc("text", decryptedString, msg))
}
setMessages(_messages)
}
})()
}, [authSig, initSDK])

const Header = () => (
<>
<Flex justify="center" width="600px" py={3} align="center">
{!isNil(authSig) ? (
<>
<Flex
flex={1}
align="center"
as="a"
target="_blank"
href={`https://goerli.etherscan.io/address/${authSig.address}`}
sx={{ ":hover": { opacity: 0.75 } }}
>
<Box mr={3}>
<Jdenticon size="30px" value={authSig.address} />
</Box>
<Box flex={1}>{isNil(authSig) ? "" : authSig.address}</Box>
</Flex>
<Flex
bg="#1E1930"
color="#F893F6"
p={3}
sx={{
borderRadius: "5px",
cursor: "pointer",
":hover": { opacity: 0.75 },
boxShadow: "10px 10px 14px 1px rgb(0 0 0 / 20%)",
}}
onClick={async () => {
LitJsSdk.disconnectWeb3()
setAuthSig(null)
await lf.removeItem("lit-authSig")
setUserTokenIDs([])
}}
>
Disconnect
</Flex>
</>
) : (
<>
<Box flex={1} />
<Box
bg="#1E1930"
color="#F893F6"
p={3}
sx={{
borderRadius: "5px",
cursor: "pointer",
":hover": { opacity: 0.75 },
boxShadow: "10px 10px 14px 1px rgb(0 0 0 / 20%)",
}}
onClick={async () => {
lit = new LitJsSdk.LitNodeClient()
await lit.connect()
const authSig = await LitJsSdk.checkAndSignAuthMessage({
chain: "goerli",
})
setAuthSig(authSig)
await lf.setItem("lit-authSig", authSig)
}}
>
Connect with Lit Protocol
</Box>
</>
)}
</Flex>

<Flex justify="center" width="600px" py={3}>
<Box flex={1}>
{posting ? (
<Flex align="center">
<Spinner boxSize="18px" mr={3} />
posting...
</Flex>
) : (
"Mint NFT and post encrypted group messages to tokenIDs! (e.g. 1,2,3)"
)}
</Box>
<Box
as="a"
target="_blank"
sx={{ textDecoration: "underline" }}
href={`https://goerli.etherscan.io/token/${nftContractAddr}#writeContract`}
>
Mint NFT
</Box>
</Flex>
</>
)

const Footer = () => (
<Flex w="100%" justify="center" p={4} bg="#1E1930" color="#F893F6">
<Flex>
<Box
as="a"
target="_blank"
href={`https://sonar.warp.cc/?#/app/contract/${contractTxId}`}
>
Contract Transactions
</Box>
</Flex>
</Flex>
)

const Post = () => {
const [message, setMessage] = useState("")
const [tokenIDs, setTokenIDs] = useState("")
return (
<Flex width="600px">
<Flex
width="100%"
bg="rgba(255,255,255,0.25)"
direction="column"
p={4}
mb={5}
sx={{
boxShadow: "10px 10px 14px 1px rgb(0 0 0 / 20%)",
borderRadius: "10px",
}}
>
<Textarea
mb={3}
height="200px"
bg="white"
color="#1E1930"
disabled={posting}
flex={1}
placeholder="Message"
sx={{ borderRadius: "3px" }}
value={message}
onChange={e => {
setMessage(e.target.value)
}}
/>

<Flex justify="center" width="100%" align="center">
<Input
bg="white"
color="#1E1930"
disabled={posting}
w="150px"
placeholder="tokenIDs"
sx={{ borderRadius: "3px" }}
value={tokenIDs}
onChange={e => setTokenIDs(e.target.value)}
/>
<Box ml={3}>
Your Token: {userTokenIDs.join(",")} (include at least one)
</Box>
<Box flex={1} />
<Flex
px={14}
align="center"
justify="center"
width="75px"
height="40px"
bg="#1E1930"
color="#F893F6"
fontSize="16px"
sx={{
borderRadius: "3px",
cursor: "pointer",
":hover": { opacity: 0.75 },
}}
onClick={async () => {
if (!posting) {
setPosting(true)
if (tokenIDs === "") {
alert("enter your tokenID")
setPosting(false)
return
}
if (/^\s*$/.test(message)) {
alert("enter message")
setPosting(false)
return
}

let isNaN = false
let packaged = null
const _tokenIDs = map(v => {
if (Number.isNaN(+trim(v))) isNaN = true
return +trim(v)
})(tokenIDs.split(","))
if (intersection(_tokenIDs, userTokenIDs).length === 0) {
alert("include at least one of your tokens")
setPosting(false)
return
}
if (isNaN) {
alert("Enter numbers")
setPosting(false)
return
}
let evmContractConditions = [
{
contractAddress:
process.env.NEXT_PUBLIC_ACL_CONTRACT_ADDR,
functionName: "isOwner",
functionParams: [
":userAddress",
JSON.stringify(_tokenIDs),
],
functionAbi: {
inputs: [
{
internalType: "address",
name: "addr",
type: "address",
},
{
internalType: "uint256[]",
name: "tokens",
type: "uint256[]",
},
],
name: "isOwner",
outputs: [
{
internalType: "bool",
name: "",
type: "bool",
},
],
stateMutability: "view",
type: "function",
},
chain: "goerli",
returnValueTest: {
key: "",
comparator: "=",
value: "true",
},
},
]
try {
lit = new LitJsSdk.LitNodeClient()
await lit.connect()
const authSig = await LitJsSdk.checkAndSignAuthMessage({
chain: "goerli",
})
await lf.setItem("lit-authSig", authSig)
const { encryptedString, symmetricKey } =
await LitJsSdk.encryptString(message)
const encryptedSymmetricKey = await lit.saveEncryptionKey({
evmContractConditions,
symmetricKey,
authSig,
chain: "goerli",
})
const blobToDataURI = blob => {
return new Promise((resolve, reject) => {
var reader = new FileReader()

reader.onload = e => {
var data = e.target.result
resolve(data)
}
reader.readAsDataURL(blob)
})
}
const encryptedData = await blobToDataURI(encryptedString)
packaged = {
encryptedData,
encryptedSymmetricKey: Array.from(encryptedSymmetricKey),
evmContractConditions,
}
} catch (e) {
alert("something went wrong")
}
try {
const provider = new ethers.providers.Web3Provider(
window.ethereum,
"any"
)
await provider.send("eth_requestAccounts", [])
const addr = await provider.getSigner().getAddress()

const params = await sdk.sign(
"add",
{ date: sdk.ts() },
"lit_messages",
{
wallet: addr,
jobID: "lit",
}
)
const res = await fetch("/api/isOwner", {
method: "POST",
body: JSON.stringify({ params, lit: packaged }),
}).then(v => v.json())
if (res.success === false) {
alert("Something went wrong")
} else {
setMessage("")
setTokenIDs("")
setMessages(
compose(
reverse,
sortBy(prop("date")),
append({
tokenIDs: _tokenIDs,
date: Math.round(Date.now() / 1000),
text: message,
owner: authSig.address,
})
)(messages)
)
}
} catch (e) {
alert("something went wrong")
}
setPosting(false)
}
}}
>
Post
</Flex>
</Flex>
</Flex>
</Flex>
)
}

const Messages = () => (
<Box>
{map(v => (
<Flex
p={2}
bg="#4C2471"
color="white"
m={4}
sx={{
borderRadius: "10px",
boxShadow: "10px 10px 14px 1px rgb(0 0 0 / 20%)",
}}
w="600px"
>
<Flex justify="center" py={2} px={4}>
<Flex direction="column">
<Flex bg="white" sx={{ borderRadius: "50%" }} p={2}>
<Jdenticon size="30px" value={v.owner} />
</Flex>
<Flex justify="center" mt={2} fontSize="12px">
{v.owner.slice(0, 7)}
</Flex>
</Flex>
</Flex>
<Flex p={2} flex={1} mx={2} fontSize="16px" direction="column">
<Box flex={1}>{v.text}</Box>
<Flex fontSize="12px" color="#F893F6">
<Box>To: {v.tokenIDs.join(", ")}</Box>
<Box flex={1} />
<Box>{dayjs(v.date * 1000).fromNow()}</Box>
</Flex>
</Flex>
</Flex>
))(messages)}
</Box>
)

return (
<ChakraProvider>
<style jsx global>{`
html,
#__next,
body {
height: 100%;
}
body {
color: white;
background-image: radial-gradient(
circle,
#b51da6,
#94259a,
#75288c,
#58277b,
#3e2368
);
}
`}</style>
<Flex direction="column" minHeight="100%" justify="center" align="center">
<Flex direction="column" align="center" fontSize="12px" flex={1}>
<Header />
{isNil(authSig) ? null : (
<>
<Post />
<Messages />
</>
)}
</Flex>
<Footer />
</Flex>
</ChakraProvider>
)
}