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Version: v1.1

Cross-chain NFT Marketplace: Part II

This is the second part of a three-part series that will guide you as you build a cross-chain NFT marketplace using IOTA EVM Smart Contracts. The marketplace will allow users to trade NFTs on the ShimmerEVM Testnet and BNB Testnet.

Part I already covered the project's setup and the deployment of the NFT marketplace contract on the ShimmerEVM Testnet.

In this part, you will manually bridge NFTs from the BNB Testnet to the Shimmer EVM Testnet and list them on the marketplace.

Prerequisites

Configuration

In this part, you will add the configuration for the BNB Testnet to the hardhat.config.js file. The configuration will include the network name, the chain ID, the RPC URL, and the account private key. Update the hardhat.config.js from part 1 of the tutorial as follows:

hardhat.config.js
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Contracts

You will need the following contracts, that will send and receive NFTs across chains:

MyERC721.sol

The tutorial uses a standard ERC721-compatible contract that allows minting and transferring NFTs as an example. You should deploy this contract on the BNB Testnet, and the minted NFTs will be bridged to the ShimmerEVM Testnet.

The full contract code is as follows:

contracts/MyERC721.sol
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MyProxyONFT721.sol

An instance of ProxyONFT that you will deploy on the BNB Testnet and will be responsible for sending NFTs from the BNB Testnet to the ShimmerEVM Testnet.

The full contract code is as follows:

contracts/MyProxyONFT721.sol
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MyONFT721.sol

An instance of ONFT721 that you will deploy on the ShimmerEVM Testnet and will be responsible for receiving NFTs from the BNB Testnet.

However, for ONFT721, this ONFT721 instance will override the _nonblockingLzReceive function, in order to automatically mint the received NFTs to the receiver.

This is how it looked originally:

    function _nonblockingLzReceive(
uint16 _srcChainId,
bytes memory _srcAddress,
uint64, /*_nonce*/
bytes memory _payload
) internal virtual override {
// decode and load the toAddress
(bytes memory toAddressBytes, uint[] memory tokenIds) = abi.decode(_payload, (bytes, uint[]));

address toAddress;
assembly {
toAddress := mload(add(toAddressBytes, 20))
}

uint nextIndex = _creditTill(_srcChainId, toAddress, 0, tokenIds);
if (nextIndex < tokenIds.length) {
// not enough gas to complete transfers, store to be cleared in another tx
bytes32 hashedPayload = keccak256(_payload);
storedCredits[hashedPayload] = StoredCredit(_srcChainId, toAddress, nextIndex, true);
emit CreditStored(hashedPayload, _payload);
}

emit ReceiveFromChain(_srcChainId, _srcAddress, toAddress, tokenIds);
}

As you can notice, the function only credits the receiver with the NFTs but does not mint them. The receiver has to call the clearCredit function to mint the NFTs. clearCredit loops through the credited NFTs and mints them to the receiver.

To avoid the need for the receiver to call clearCredit, you should override the _nonblockingLzReceive function to automatically mint the NFTs to the receiver. Here is the updated function:

        function _nonblockingLzReceive(
uint16 _srcChainId,
bytes memory _srcAddress,
uint64, /*_nonce*/
bytes memory _payload
) internal virtual override {
// decode and load the toAddress
(bytes memory toAddressBytes, uint[] memory tokenIds) = abi.decode(_payload, (bytes, uint[]));

address toAddress;
assembly {
toAddress := mload(add(toAddressBytes, 20))
}

// mint the tokens
for (uint i = 0; i < tokenIds.length; i++) {
_creditTo(0, toAddress, tokenIds[i]);
}

uint nextIndex = _creditTill(_srcChainId, toAddress, 0, tokenIds);
if (nextIndex < tokenIds.length) {
// not enough gas to complete transfers, store to be cleared in another tx
bytes32 hashedPayload = keccak256(_payload);
storedCredits[hashedPayload] = StoredCredit(_srcChainId, toAddress, nextIndex, true);
emit CreditStored(hashedPayload, _payload);
}

emit ReceiveFromChain(_srcChainId, _srcAddress, toAddress, tokenIds);
}

This contract has an added loop that calls _creditTo for each NFT in the payload. _creditTo in turn calls _mint to mint the NFT to the receiver.

The full contract code after the modification is as follows:

contracts/MyONFT721.sol
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Scripts

You will add scripts that perform the following tasks in order:

  1. Deploy the MyERC721 contract to the BNB Testnet. deploy_erc721_bnb.js
  2. Mint an NFT using the MyERC721 contract. mint_nft.js
  3. Deploy the MyProxyONFT721 contract to the BNB Testnet. deploy_proxyonft_bnb.js
  4. Deploy the MyONFT721 contract, the receiver, to the ShimmerEVM Testnet. deploy_onft721_shimmer.js
  5. Configure the MyProxyONFT721 contract to send NFTs to the MyONFT721 contract. set_trusted_remote_bnb.js
  6. Configure the MyONFT721 contract to receive NFTs from the MyProxyONFT721 contract. set_trusted_remote_shimmer.js
  7. Send an NFT from the BNB Testnet to the ShimmerEVM Testnet. send_nft_bnb_to_shimmer.js
  8. List the received NFT on the NFT marketplace. list_nft_marketplace.js
note

The scripts are named according to the tasks they perform and the chain they are intended to run on. For example, the script that deploys the MyERC721 contract to the BNB Testnet is named deploy_erc721_bnb.js.

deploy_erc721_bnb.js

This script will deploy the MyERC721 contract to the BNB Tetnet, and save the contract's address to a file called MyERC721_BNB.txt.

scripts/deploy_erc721_bnb.js
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You can run this script with the following command:

npx hardhat run scripts/deploy_er721_bnb.js --network bnbTestnet

mint_nft.js

After you have deployed the MyERC721 contract, you are ready to mint an NFT using the following script:

scripts/mint_nft_bnb.js
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You can run the script by executing the following command:

npx hardhat run scripts/mint_nft.js --network bnbTestnet

deploy_proxyonft_bnb.js

Next, deploy the MyProxyONFT721 contract to the BNB Testnet and save its address in a file called MyProxyONFT721_BNB.txt using the following script:

scripts/deploy_proxyonft_bnb.js
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You can run the script by executing the following command:

npx hardhat run scripts/deploy_proxyonft_bnb.js --network bnbTestnet

deploy_onft721_shimmer.js

Deploy the MyONFT721 contract to the Shimmer EVM Testnet and save its address in a file called MyONFT721_Shimmer.txt using the following script:

scripts/deploy_onft_shimmer.js
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You can run the script by executing the following command:

npx hardhat run scripts/deploy_onft_shimmer.js --network shimmerevm-testnet

set_trusted_remote_bnb.js

On the BNB Testnet, call the MyProxyONFT721 contract to set the MyONFT721 contract as a trusted remote contract. This will allow the MyProxyONFT721 contract to send NFTs to the MyONFT721 contract.

scripts/deploy_proxyonft_bnb.js
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You can run the script by executing the following command:

npx hardhat run scripts/set_trusted_remote_bnb.js --network bnbTestnet

set_trusted_remote_shimmer.js

On the ShimmerEVM Testnet, call the MyONFT721 contract to set the MyProxyONFT721 contract as a trusted remote contract. This will allow the MyONFT721 contract to receive NFTs from the MyProxyONFT721 contract.

scripts/deploy_onft_shimmer.js
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You can run the script by executing the following command:

npx hardhat run scripts/set_trusted_remote_shimmer.js --network shimmerevm-testnet

set_min_dest_gas_bnb.js

On the BNB Testnet, call the MyProxyONFT721 contract to set the minimum gas required to send an NFT to the ShimmerEVM Testnet. This is ensures that the sender has enough gas to complete the transfer.

scripts/set_min_dest_gas_bnb.js
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You can run the script by executing the following command:

npx hardhat run scripts/set_min_dest_gas_bnb.js --network bnbTestnet

set_min_dest_gas_shimmer.js

On the ShimmerEVM Testnet, call the MyONFT721 contract to set the minimum gas required to receive an NFT from the BNB Testnet. This is necessary to ensure that the receiver has enough gas to complete the transfer.

scripts/set_min_dest_gas_shimmer.js
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You can run the script by executing the following command:

npx hardhat run scripts/set_min_dest_gas_shimmer.js --network shimmerevm-testnet

send_nft.js

Finally, call the MyProxyONFT721 contract on the BNB Testnet to send an NFT to the MyONFT721 contract on the ShimmerEVM Testnet. This script approves the MyProxyONFT721 contract to transfer the NFT and then sends the NFT to the MyONFT721 contract.

scripts/send_nft.js
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You can run the script by executing the following command:

npx hardhat run scripts/send_nft.js --network bnbTestnet
note

The script will take some time to complete, as it waits for the NFT to be received on the ShimmerEVM Testnet.

create_listing.js

After approving the NFT transfer, you list the NFT for sale on the marketplace by running the following script:

scripts/create_listing.js
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You can run the script by executing the following command:

npx hardhat run scripts/create_listing.js --network shimmerevm-testnet

buy_item.js

Finally, you can buy the NFT by running the following script:

scripts/buy_item.js
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You can run the script by executing the following command:

npx hardhat run scripts/buy_item.js --network shimmerevm-testnet

Conclusion

In the second part of this tutorial, you manually bridged an NFT from the BNB Testnet to the ShimmerEVM Testnet and listed it on the NFT marketplace. The final part of the series will explore how to create a cross-chain swap contract that allows users to trade NFTs across chains.