mirror of
https://github.com/oceanprotocol/ocean.js.git
synced 2024-11-26 20:39:05 +01:00
437 lines
15 KiB
TypeScript
437 lines
15 KiB
TypeScript
import { assert } from 'chai'
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import { deployContracts, Addresses } from '../../TestContractHandler'
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import sha256 from 'crypto-js/sha256'
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import { web3 } from '../../config'
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import { NftFactory, NftCreateData, Nft, ZERO_ADDRESS } from '../../../src'
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import { MetadataAndTokenURI } from '../../../src/@types'
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describe('NFT', () => {
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let nftOwner: string
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let user1: string
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let user2: string
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let user3: string
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let contracts: Addresses
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let nftDatatoken: Nft
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let nftFactory: NftFactory
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let nftAddress: string
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const nftData: NftCreateData = {
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name: 'NFTName',
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symbol: 'NFTSymbol',
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templateIndex: 1,
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tokenURI: 'https://oceanprotocol.com/nft/',
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transferable: true,
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owner: null
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}
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before(async () => {
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const accounts = await web3.eth.getAccounts()
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nftOwner = accounts[0]
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user1 = accounts[1]
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user2 = accounts[2]
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user3 = accounts[3]
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nftData.owner = nftOwner
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})
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it('should deploy contracts', async () => {
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contracts = await deployContracts(web3, nftOwner)
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})
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it('should initialize NFTFactory instance and create a new NFT', async () => {
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nftFactory = new NftFactory(contracts.nftFactoryAddress, web3, 8996)
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nftAddress = await nftFactory.createNFT(nftOwner, nftData)
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nftDatatoken = new Nft(web3, 8996)
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})
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it('#getTokenURI', async () => {
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const tokenURI = await nftDatatoken.getTokenURI(nftAddress, 1)
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assert(tokenURI === nftData.tokenURI)
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})
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it('#createDatatoken - should create a new ERC20 DT from NFT contract', async () => {
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const erc20Address = await nftDatatoken.createDatatoken(
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nftAddress,
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nftOwner,
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nftOwner,
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user1,
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user2,
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ZERO_ADDRESS,
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'0',
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'10000',
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nftData.name,
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nftData.symbol,
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1
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)
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assert(erc20Address !== null)
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})
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it('#createDatatoken - should fail to create a new ERC20 DT if not DatatokenDeployer', async () => {
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try {
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await nftDatatoken.createDatatoken(
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nftAddress,
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user1,
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nftOwner,
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user1,
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user2,
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ZERO_ADDRESS,
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'0',
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'10000',
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nftData.name,
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nftData.symbol,
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1
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)
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assert(false)
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} catch (e) {
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assert(e.message === 'Caller is not DatatokenDeployer')
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}
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})
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// Manager
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it('#addManager - should add a new Manager', async () => {
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assert((await nftDatatoken.getNftPermissions(nftAddress, user1)).manager === false)
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await nftDatatoken.addManager(nftAddress, nftOwner, user1)
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assert((await nftDatatoken.getNftPermissions(nftAddress, user1)).manager === true)
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})
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it('#addManager - should fail to add a new Manager, if NOT NFT Owner', async () => {
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try {
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await nftDatatoken.addManager(nftAddress, user1, user1)
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assert(false)
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} catch (e) {
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assert(e.message === 'Caller is not NFT Owner')
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}
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})
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it('#removeManager - should remove a Manager', async () => {
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assert((await nftDatatoken.getNftPermissions(nftAddress, user1)).manager === true)
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await nftDatatoken.removeManager(nftAddress, nftOwner, user1)
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assert((await nftDatatoken.getNftPermissions(nftAddress, user1)).manager === false)
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})
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it('#removeManager - should fail to remove a new Manager, if NOT NFT Owner', async () => {
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try {
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await nftDatatoken.removeManager(nftAddress, user1, nftOwner)
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assert(false)
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} catch (e) {
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assert(e.message === 'Caller is not NFT Owner')
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}
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})
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// DatatokenDeployer
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it('#addDatatokenDeployer -should add DatatokenDeployer if Manager', async () => {
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assert((await nftDatatoken.isDatatokenDeployer(nftAddress, user1)) === false)
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await nftDatatoken.addDatatokenDeployer(nftAddress, nftOwner, user1)
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assert((await nftDatatoken.isDatatokenDeployer(nftAddress, user1)) === true)
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})
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it('#addDatatokenDeployer - should fail to add DatatokenDeployer if NOT Manager', async () => {
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try {
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await nftDatatoken.addDatatokenDeployer(nftAddress, user1, user1)
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assert(false)
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} catch (e) {
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assert(e.message === 'Caller is not Manager')
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}
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})
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it('#removeDatatokenDeployer - remove DatatokenDeployer if Manager', async () => {
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assert((await nftDatatoken.isDatatokenDeployer(nftAddress, user1)) === true)
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await nftDatatoken.removeDatatokenDeployer(nftAddress, nftOwner, user1)
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assert((await nftDatatoken.isDatatokenDeployer(nftAddress, user1)) === false)
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})
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it('#removeDatatokenDeployer - should fail and remove DatatokenDeployer if NOT Manager nor himself an DatatokenDeployer', async () => {
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await nftDatatoken.addDatatokenDeployer(nftAddress, nftOwner, user1)
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assert((await nftDatatoken.isDatatokenDeployer(nftAddress, user1)) === true)
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try {
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await nftDatatoken.removeDatatokenDeployer(nftAddress, user1, user1)
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assert(false)
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} catch (e) {
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assert(e.message === 'Caller is not Manager nor DatatokenDeployer')
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}
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assert((await nftDatatoken.isDatatokenDeployer(nftAddress, user1)) === true)
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})
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it('#removeDatatokenDeployer - should fail to remove himself as an DatatokenDeployer', async () => {
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assert((await nftDatatoken.isDatatokenDeployer(nftAddress, user1)) === true)
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try {
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await nftDatatoken.removeDatatokenDeployer(nftAddress, user1, user1)
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assert(false)
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} catch (e) {
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assert(e.message === 'Caller is not Manager nor DatatokenDeployer')
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}
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assert((await nftDatatoken.isDatatokenDeployer(nftAddress, user1)) === true)
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})
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// MetadataUpdate
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it('#addMetadataUpdate - should add to remove Metadata Updater if Manager', async () => {
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assert(
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(await nftDatatoken.getNftPermissions(nftAddress, user1)).updateMetadata === false
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)
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await nftDatatoken.addMetadataUpdater(nftAddress, nftOwner, user1)
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assert(
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(await nftDatatoken.getNftPermissions(nftAddress, user1)).updateMetadata === true
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)
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})
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it('#addMetadataUpdate - should fail to add Metadata Updater if NOT Manager', async () => {
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try {
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await nftDatatoken.addMetadataUpdater(nftAddress, user1, user1)
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assert(false)
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} catch (e) {
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assert(e.message === 'Caller is not Manager')
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}
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})
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it('#removeMetadataUpdate - remove Metadata Updater if Manager', async () => {
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assert(
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(await nftDatatoken.getNftPermissions(nftAddress, user1)).updateMetadata === true
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)
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await nftDatatoken.removeMetadataUpdater(nftAddress, nftOwner, user1)
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assert(
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(await nftDatatoken.getNftPermissions(nftAddress, user1)).updateMetadata === false
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)
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})
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it('#removeMetadataUpdate - should fail to remove Metadata Updater if NOT Manager', async () => {
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try {
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await nftDatatoken.removeMetadataUpdater(nftAddress, user1, user1)
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assert(false)
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} catch (e) {
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assert(e.message === 'Caller is not Manager nor Metadata Updater')
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}
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})
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// StoreUpdater
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it('#addStoreUpdater - should add to remove Store Updater if Manager', async () => {
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assert((await nftDatatoken.getNftPermissions(nftAddress, user1)).store === false)
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await nftDatatoken.addStoreUpdater(nftAddress, nftOwner, user1)
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assert((await nftDatatoken.getNftPermissions(nftAddress, user1)).store === true)
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})
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it('#addStoreUpdater - should fail to add Store Updater if NOT Manager', async () => {
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try {
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await nftDatatoken.addStoreUpdater(nftAddress, user1, user1)
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assert(false)
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} catch (e) {
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assert(e.message === 'Caller is not Manager')
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}
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})
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it('#removeStoreUpdater - remove Metadata Updater if Manager', async () => {
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assert((await nftDatatoken.getNftPermissions(nftAddress, user1)).store === true)
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await nftDatatoken.removeStoreUpdater(nftAddress, nftOwner, user1)
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assert((await nftDatatoken.getNftPermissions(nftAddress, user1)).store === false)
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})
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it('#removeStoreUpdater - should fail to remove Metadata Updater if NOT Manager', async () => {
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try {
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await nftDatatoken.removeStoreUpdater(nftAddress, user1, user1)
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assert(false)
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} catch (e) {
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assert(e.message === `Caller is not Manager nor storeUpdater`)
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}
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})
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// Transfer test
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it('#transferNFT - should fail to transfer the NFT and clean all permissions, if NOT NFT Owner', async () => {
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assert((await nftDatatoken.getNftOwner(nftAddress)) !== user1)
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try {
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await nftDatatoken.transferNft(nftAddress, user1, user1, 1)
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assert(false)
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} catch (e) {
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assert(e.message === 'Caller is not NFT Owner')
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}
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})
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it('#transferNFT - should transfer the NFT and clean all permissions, set new owner as manager', async () => {
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await nftDatatoken.addManager(nftAddress, nftOwner, user2)
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await nftDatatoken.addDatatokenDeployer(nftAddress, user2, user1)
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assert((await nftDatatoken.isDatatokenDeployer(nftAddress, user1)) === true)
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assert((await nftDatatoken.getNftOwner(nftAddress)) === nftOwner)
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await nftDatatoken.transferNft(nftAddress, nftOwner, user1, 1)
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assert((await nftDatatoken.getNftOwner(nftAddress)) === user1)
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assert((await nftDatatoken.isDatatokenDeployer(nftAddress, nftOwner)) === false)
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assert((await nftDatatoken.isDatatokenDeployer(nftAddress, user2)) === false)
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})
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// Safe transfer test
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it('#safeTransferNft - should fail to transfer the NFT and clean all permissions, if NOT NFT Owner', async () => {
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// return the nft to nftOwner to repeat transfer tests
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await nftDatatoken.transferNft(nftAddress, user1, nftOwner, 1)
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assert((await nftDatatoken.getNftOwner(nftAddress)) !== user1)
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try {
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await nftDatatoken.safeTransferNft(nftAddress, user1, user1, 1)
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assert(false)
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} catch (e) {
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assert(e.message === 'Caller is not NFT Owner')
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}
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})
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it('#safeTransferNft - should transfer the NFT and clean all permissions, set new owner as manager', async () => {
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await nftDatatoken.addManager(nftAddress, nftOwner, user2)
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await nftDatatoken.addDatatokenDeployer(nftAddress, user2, user1)
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assert((await nftDatatoken.isDatatokenDeployer(nftAddress, user1)) === true)
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assert((await nftDatatoken.getNftOwner(nftAddress)) === nftOwner)
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await nftDatatoken.safeTransferNft(nftAddress, nftOwner, user1, 1)
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assert((await nftDatatoken.getNftOwner(nftAddress)) === user1)
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})
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// Clear permisions
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it('#cleanPermissions - should fail to cleanPermissions if NOT NFTOwner', async () => {
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try {
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await nftDatatoken.cleanPermissions(nftAddress, user2)
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assert(false)
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} catch (e) {
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assert(e.message === 'Caller is not NFT Owner')
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}
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})
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it('#cleanPermissions - should cleanPermissions if NFTOwner', async () => {
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await nftDatatoken.addManager(nftAddress, user1, user1)
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await nftDatatoken.addDatatokenDeployer(nftAddress, user1, user2)
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assert((await nftDatatoken.isDatatokenDeployer(nftAddress, user2)) === true)
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await nftDatatoken.cleanPermissions(nftAddress, user1)
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assert((await nftDatatoken.isDatatokenDeployer(nftAddress, user2)) === false)
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assert((await nftDatatoken.getNftPermissions(nftAddress, nftOwner)).manager === false)
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})
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it('#setMetaData - should succeed to update metadata if metadataUpdater', async () => {
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await nftDatatoken.addManager(nftAddress, user1, user1)
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await nftDatatoken.addMetadataUpdater(nftAddress, user1, user1)
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assert(
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(await nftDatatoken.getNftPermissions(nftAddress, user1)).updateMetadata === true
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)
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await nftDatatoken.setMetadata(
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nftAddress,
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user1,
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1,
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'http://myprovider:8030',
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'0x123',
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web3.utils.asciiToHex(user2),
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web3.utils.asciiToHex(user2),
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'0x' + sha256(web3.utils.asciiToHex(user2)).toString()
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)
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const metadata = await nftDatatoken.getMetadata(nftAddress)
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assert(metadata[0] === 'http://myprovider:8030')
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assert(metadata[1] === '0x123')
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})
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it('#setMetaData - should fail to update metadata if NOT metadataUpdater', async () => {
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assert(
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(await nftDatatoken.getNftPermissions(nftAddress, user3)).updateMetadata === false
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)
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try {
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await nftDatatoken.setMetadata(
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nftAddress,
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user3,
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1,
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'http://myprovider:8030',
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'0x123',
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web3.utils.asciiToHex(user2),
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web3.utils.asciiToHex(user2),
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'0x' + sha256(web3.utils.asciiToHex(user2)).toString()
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)
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assert(false)
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} catch (e) {
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assert(e.message === 'Caller is not Metadata updater')
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}
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assert(
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(await nftDatatoken.getNftPermissions(nftAddress, user3)).updateMetadata === false
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)
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})
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it('#setMetaDataState - should succeed to update MetadataState if metadataUpdater', async () => {
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await nftDatatoken.addManager(nftAddress, user1, user1)
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await nftDatatoken.addMetadataUpdater(nftAddress, user1, user1)
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let metadata = await nftDatatoken.getMetadata(nftAddress)
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assert(metadata[2] === '1')
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assert(
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(await nftDatatoken.getNftPermissions(nftAddress, user1)).updateMetadata === true
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)
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await nftDatatoken.setMetadataState(nftAddress, user1, 2)
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metadata = await nftDatatoken.getMetadata(nftAddress)
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assert(metadata[2] === '2')
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})
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it('#setMetaDataState - should fail to update MetadataState if NOT metadataUpdater', async () => {
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let metadata = await nftDatatoken.getMetadata(nftAddress)
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assert(metadata[2] === '2')
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assert(
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(await nftDatatoken.getNftPermissions(nftAddress, user3)).updateMetadata === false
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)
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try {
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await nftDatatoken.setMetadataState(nftAddress, user3, 1)
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assert(false)
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} catch (e) {
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assert(e.message === 'Caller is not Metadata updater')
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}
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metadata = await nftDatatoken.getMetadata(nftAddress)
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assert(metadata[2] === '2')
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})
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it('#setTokenURI - should update TokenURI', async () => {
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const tx = await nftDatatoken.setTokenURI(nftAddress, user1, 'test')
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assert(tx.events.TokenURIUpdate)
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})
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it('#setMetaDataAndTokenURI - should update tokenURI and set metadata', async () => {
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const data = web3.utils.asciiToHex(user2)
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const metadataAndTokenURI: MetadataAndTokenURI = {
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metaDataState: 1,
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metaDataDecryptorUrl: 'http://myprovider:8030',
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metaDataDecryptorAddress: '0x123',
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flags: web3.utils.asciiToHex(user1),
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data: web3.utils.asciiToHex(user1),
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metaDataHash: '0x' + sha256(data).toString(),
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tokenId: 1,
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tokenURI: 'https://anothernewurl.com/nft/',
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metadataProofs: []
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}
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assert(
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(await nftDatatoken.getNftPermissions(nftAddress, user1)).updateMetadata === true
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)
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const tx = await nftDatatoken.setMetadataAndTokenURI(
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nftAddress,
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user1,
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metadataAndTokenURI
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)
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assert(tx.events.TokenURIUpdate)
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assert(tx.events.MetadataUpdated)
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const metadata = await nftDatatoken.getMetadata(nftAddress)
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assert(metadata[0] === metadataAndTokenURI.metaDataDecryptorUrl)
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assert(metadata[1] === metadataAndTokenURI.metaDataDecryptorAddress)
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})
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})
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