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Chainlink CCIP Starter Kit

Note

This repository represents an example of using a Chainlink product or service. It is provided to help you understand how to interact with Chainlink’s systems so that you can integrate them into your own. This template is provided "AS IS" without warranties of any kind, has not been audited, and may be missing key checks or error handling to make the usage of the product more clear. Take everything in this repository as an example and not something to be copy pasted into a production ready service.

This project demonstrates a couple of basic Chainlink CCIP use cases.

Prerequisites

Getting Started

  1. Install packages
forge install

and

npm install
  1. Compile contracts
forge build

What is Chainlink CCIP?

Chainlink Cross-Chain Interoperability Protocol (CCIP) provides a single, simple, and elegant interface through which dApps and web3 entrepreneurs can securely meet all their cross-chain needs, including token transfers and arbitrary messaging.

basic-architecture

With Chainlink CCIP, one can:

  • Transfer supported tokens
  • Send messages (any data)
  • Send messages and tokens

CCIP receiver can be:

  • Smart contract that implements CCIPReceiver.sol
  • EOA

Note: If you send a message and token(s) to EOA, only tokens will arrive

To use this project, you can consider CCIP as a "black-box" component and be aware of the Router contract only. If you want to dive deep into it, check the Official Chainlink Documentation.

Usage

In the next section you can see a couple of basic Chainlink CCIP use case examples. But before that, you need to set up some environment variables.

Create a new file by copying the .env.example file, and name it .env. Fill in your wallet's PRIVATE_KEY, and RPC URLs for at least two blockchains

PRIVATE_KEY=""
ETHEREUM_SEPOLIA_RPC_URL=""
OPTIMISM_GOERLI_RPC_URL=""
AVALANCHE_FUJI_RPC_URL=""
ARBITRUM_TESTNET_RPC_URL=""
POLYGON_MUMBAI_RPC_URL=""

Once that is done, to load the variables in the .env file, run the following command:

source .env

Make yourself familiar with the Helper.sol smart contract. It contains all the necessary Chainlink CCIP config. If you ever need to adjust any of those parameters, go to the Helper contract.

This contract also contains some enums, like SupportedNetworks:

enum SupportedNetworks {
    ETHEREUM_SEPOLIA,   // 0
    OPTIMISM_GOERLI,    // 1
    AVALANCHE_FUJI,     // 2
    ARBITRUM_GOERLI,    // 3
    POLYGON_MUMBAI      // 4
}

This means that if you want to perform some action from AVALANCHE_FUJI blockchain to ETHEREUM_SEPOLIA blockchain, for example, you will need to pass 2 (uint8) as a source blockchain flag and 0 (uint8) as a destination blockchain flag.

Similarly, there is an PayFeesIn enum:

enum PayFeesIn {
    Native,  // 0
    LINK     // 1
}

So, if you want to pay for Chainlink CCIP fees in LINK token, you will pass 1 (uint8) as a function argument.

Faucet

You will need test tokens for some of the examples in this Starter Kit. Public faucets sometimes limit how many tokens a user can create and token pools might not have enough liquidity. To resolve these issues, CCIP supports two test tokens that you can mint permissionlessly so you don't run out of tokens while testing different scenarios.

To get 10**18 units of each of these tokens, use the script/Faucet.s.sol smart contract. Keep in mind that the CCIP-BnM test token you can mint on all testnets, while CCIP-LnM you can mint only on Ethereum Sepolia. On other testnets, the CCIP-LnM token representation is a wrapped/synthetic asset called clCCIP-LnM.

function run(SupportedNetworks network) external;

For example, to mint 10**18 units of both CCIP-BnM and CCIP-LnM test tokens on Ethereum Sepolia, run:

forge script ./script/Faucet.s.sol -vvv --broadcast --rpc-url ethereumSepolia --sig "run(uint8)" -- 0

Or if you want to mint 10**18 units of CCIP-BnM test token on Avalanche Fuji, run:

forge script ./script/Faucet.s.sol -vvv --broadcast --rpc-url avalancheFuji --sig "run(uint8)" -- 2

Example 1 - Transfer Tokens from EOA to EOA

To transfer tokens from one EOA on one blockchain to another EOA on another blockchain you can use the script/Example01.s.sol smart contract:

function run(
    SupportedNetworks source,
    SupportedNetworks destination,
    address receiver,
    address tokenToSend,
    uint256 amount,
    PayFeesIn payFeesIn
) external returns (bytes32 messageId);

For example, if you want to send 0.0000000000000001 LINK from Avalanche Fuji to Ethereum Sepolia and to pay for CCIP fees in native coin (Test AVAX), run:

forge script ./script/Example01.s.sol -vvv --broadcast --rpc-url avalancheFuji --sig "run(uint8,uint8,address,address,uint256,uint8)" -- 2 0 <RECEIVER_ADDRESS> 0x0b9d5D9136855f6FEc3c0993feE6E9CE8a297846 100 0

Example 2 - Transfer Tokens from EOA to Smart Contract

To transfer tokens from EOA from the source blockchain to the smart contract on the destination blockchain, follow the next steps:

  1. Deploy BasicMessageReceiver.sol to the destination blockchain, using the script/Example02.s.sol:DeployBasicMessageReceiver smart contract:
function run(SupportedNetworks destination) external;

For example, to deploy it to Ethereum Sepolia, run:

forge script ./script/Example02.s.sol:DeployBasicMessageReceiver -vvv --broadcast --rpc-url ethereumSepolia --sig "run(uint8)" -- 0
  1. Transfer tokens, from the source blockchain to the deployed BasicMessageReceiver smart contract using the script/Example02.s.sol:CCIPTokenTransfer smart contract:
function run(
    SupportedNetworks source,
    SupportedNetworks destination,
    address basicMessageReceiver,
    address tokenToSend,
    uint256 amount,
    PayFeesIn payFeesIn
) external returns (bytes32 messageId);

For example, if you want to send 0.0000000000000001 LINK from Avalanche Fuji to Ethereum Sepolia and to pay for CCIP fees in native coin (Test AVAX), run:

forge script ./script/Example02.s.sol:CCIPTokenTransfer -vvv --broadcast --rpc-url avalancheFuji --sig "run(uint8,uint8,address,address,uint256,uint8)" -- 2 0 <BASIC_MESSAGE_RECEIVER_ADDRESS> 0x0b9d5D9136855f6FEc3c0993feE6E9CE8a297846 100 0
  1. Once the CCIP message is finalized on the destination blockchain, you can see the details about the latest message using the script/Example02.s.sol:GetLatestMessageDetails smart contract:
function run(address basicMessageReceiver) external view;

For example,

forge script ./script/Example02.s.sol:GetLatestMessageDetails -vvv --broadcast --rpc-url ethereumSepolia --sig "run(address)" -- <BASIC_MESSAGE_RECEIVER_ADDRESS>
  1. Finally, you can always withdraw received tokens from the BasicMessageReceiver.sol smart contract using the cast send command.

For example, to withdraw 100 units of LINK previously sent, run:

cast send <BASIC_MESSAGE_RECEIVER_ADDRESS> --rpc-url ethereumSepolia --private-key=$PRIVATE_KEY "withdrawToken(address,address)" <BENEFICIARY_ADDRESS> 0x779877A7B0D9E8603169DdbD7836e478b4624789

Example 3 - Transfer Token(s) from Smart Contract to any destination

To transfer a token or batch of tokens from a single, universal, smart contract to any address on the destination blockchain follow the next steps:

  1. Deploy BasicTokenSender.sol to the source blockchain, using the script/Example03.s.sol:DeployBasicTokenSender smart contract:
function run(SupportedNetworks source) external;

For example, if you want to send tokens from Avalanche Fuji to Ethereum Sepolia, run:

forge script ./script/Example03.s.sol:DeployBasicTokenSender -vvv --broadcast --rpc-url avalancheFuji --sig "run(uint8)" -- 2
  1. [OPTIONAL] If you want to send tokens to the smart contract, instead of EOA, you will need to deploy BasicMessageReceiver.sol to the destination blockchain. For this purpose, you can reuse the script/Example02.s.sol:DeployBasicMessageReceiver smart contract from the previous example:
function run(SupportedNetworks destination) external;

For example, to deploy it to Ethereum Sepolia, run:

forge script ./script/Example02.s.sol:DeployBasicMessageReceiver -vvv --broadcast --rpc-url ethereumSepolia --sig "run(uint8)" -- 0
  1. Fill the BasicTokenSender.sol with tokens/coins for fees (you can always withdraw it later). You can do it manually from your wallet or by using the cast send command.

For example, if you want to pay for Chainlink CCIP Fees in LINK tokens, you can fill the BasicTokenSender.sol smart contract with 0.01 Avalanche Fuji LINK by running:

cast send 0x0b9d5D9136855f6FEc3c0993feE6E9CE8a297846 "transfer(address,uint256)" <BASIC_TOKEN_SENDER_ADDRESS> 10000000000000000 --rpc-url avalancheFuji --private-key=$PRIVATE_KEY

Or, if you want to pay for Chainlink CCIP Fees in Native coins, you can fill the BasicTokenSender.sol smart contract with 0.1 Avalanche Fuji AVAX by running:

cast send <BASIC_TOKEN_SENDER_ADDRESS> --rpc-url avalancheFuji --private-key=$PRIVATE_KEY --value 0.1ether
  1. For each token you want to send, you will need to approve the BasicTokenSender.sol to spend it on your behalf, by using the cast send command.

For example, if you want to send 0.0000000000000001 CCIP-BnM using the BasicTokenSender.sol you will first need to approve that amount:

cast send 0xD21341536c5cF5EB1bcb58f6723cE26e8D8E90e4 "approve(address,uint256)" <BASIC_TOKEN_SENDER_ADDRESS> 100 --rpc-url avalancheFuji --private-key=$PRIVATE_KEY

Or, if you want to send 0.0000000000000001 LINK using the BasicTokenSender.sol you will first need to approve that amount:

cast send 0x0b9d5D9136855f6FEc3c0993feE6E9CE8a297846 "approve(address,uint256)" <BASIC_TOKEN_SENDER_ADDRESS> 100 --rpc-url avalancheFuji --private-key=$PRIVATE_KEY
  1. Finally, send tokens by providing the array of Client.EVMTokenAmount {address token; uint256 amount;} objects, using the script/Example03.s.sol:SendBatch smart contract:
function run(
    SupportedNetworks destination,
    address payable basicTokenSenderAddres,
    address receiver,
    Client.EVMTokenAmount[] memory tokensToSendDetails,
    BasicTokenSender.PayFeesIn payFeesIn
) external;

For example, to send CCIP-BnM and LINK token amounts you previously approved from Avalanche Fuji to Ethereum Sepolia, and pay for Chainlink CCIP fees in LINK tokens, run:

forge script ./script/Example03.s.sol:SendBatch -vvv --broadcast --rpc-url avalancheFuji --sig "run(uint8,address,address,(address,uint256)[],uint8)" -- 0 <BASIC_TOKEN_SENDER_ADDRESS> <RECEIVER> "[(0xD21341536c5cF5EB1bcb58f6723cE26e8D8E90e4,100),(0x0b9d5D9136855f6FEc3c0993feE6E9CE8a297846,100)]" 1
  1. Of course, you can always withdraw tokens you sent to the BasicTokenSender.sol for fees, or from BasicMessageReceiver.sol if you received them there.

For example, to withdraw ERC20 tokens, run:

cast send <CONTRACT_WITH_FUNDS_ADDRESS> --rpc-url <RPC_ENDPOINT> --private-key=$PRIVATE_KEY "withdrawToken(address,address)" <BENEFICIARY_ADDRESS> <TOKEN_TO_WITHDRAW_ADDRESS>

And to withdraw Native coins, run:

cast send <CONTRACT_WITH_FUNDS_ADDRESS> --rpc-url <RPC_ENDPOINT> --private-key=$PRIVATE_KEY "withdraw(address)" <BENEFICIARY_ADDRESS>

Example 4 - Send & Receive Tokens and Data

To transfer tokens and data across multiple chains, follow the next steps:

  1. Deploy the ProgrammableTokenTransfers.sol smart contract to the source blockchain, using the script/Example04.s.sol:DeployProgrammableTokenTransfers smart contract:
function run(SupportedNetworks network) external;

For example, if you want to send a message from Avalanche Fuji to Ethereum Sepolia type:

forge script ./script/Example04.s.sol:DeployProgrammableTokenTransfers -vvv --broadcast --rpc-url avalancheFuji --sig "run(uint8)" -- 2
  1. Open Metamask and fund your contract with Native tokens. For example, if you want to send a message from Avalanche Fuji to Ethereum Sepolia, you can send 0.01 Fuji AVAX to your contract. You can also do the same thing using the cast send command:
cast send <PROGRAMMABLE_TOKEN_TRANSFERS_ADDRESS> --rpc-url avalancheFuji --private-key=$PRIVATE_KEY --value 0.1ether
  1. Open Metamask and fund your contract with LINK tokens. For example, if you want to send a message from Avalanche Fuji to Ethereum Sepolia, you can send a 0.001 Fuji LINK to your contract. You can also do the same thing using the cast send command:
cast send 0x0b9d5D9136855f6FEc3c0993feE6E9CE8a297846 "transfer(address,uint256)" <PROGRAMMABLE_TOKEN_TRANSFERS_ADDRESS> 10000000000000000 --rpc-url avalancheFuji --private-key=$PRIVATE_KEY
  1. Deploy the ProgrammableTokenTransfers.sol smart contract to the destination blockchain, using the script/Example04.s.sol:DeployProgrammableTokenTransfers smart contract, as you did in step number one.

For example, if you want to receive a message from Avalanche Fuji on Ethereum Sepolia type:

forge script ./script/Example04.s.sol:DeployProgrammableTokenTransfers -vvv --broadcast --rpc-url ethereumSepolia --sig "run(uint8)" -- 0

At this point, you have one sender contract on the source blockchain, and one receiver contract on the destination blockchain. Please note that ProgrammableTokenTransfers.sol can both send & receive tokens and data, hence we have two identical instances on both source and destination blockchains.

  1. Send a message, using the script/Example04.s.sol:SendTokensAndData smart contract:
function run(
    address payable sender,
    SupportedNetworks destination,
    address receiver,
    string memory message,
    address token,
    uint256 amount
) external;

For example, if you want to send a "Hello World" message alongside 100 units of Fuji LINK from Avalanche Fuji to Ethereum Sepolia, type:

forge script ./script/Example04.s.sol:SendTokensAndData -vvv --broadcast --rpc-url avalancheFuji --sig "run(address,uint8,address,string,address,uint256)" -- <PROGRAMMABLE_TOKEN_TRANSFERS_ADDRESS_ON_SOURCE_BLOCKCHAIN> 0 <PROGRAMMABLE_TOKEN_TRANSFERS_ADDRESS_ON_DESTINATION_BLOCKCHAIN> "Hello World" 0x0b9d5D9136855f6FEc3c0993feE6E9CE8a297846 100
  1. Once the CCIP message is finalized on the destination blockchain, you can see the details of the latest CCIP message received, by running the following command:
cast call <PROGRAMMABLE_TOKEN_TRANSFERS_ADDRESS_ON_DESTINATION_BLOCKCHAIN> "getLastReceivedMessageDetails()" --rpc-url ethereumSepolia

Example 5 - Send & Receive Cross-Chain Messages and Pay with Native Coins

To send simple Text Cross-Chain Messages and pay for CCIP fees in Native Tokens, follow the next steps:

  1. Deploy the BasicMessageSender.sol smart contract on the source blockchain, using the script/Example05.s.sol:DeployBasicMessageSender smart contract:
function run(SupportedNetworks source) external;

For example, if you want to send a simple cross-chain message from Avalanche Fuji, run:

forge script ./script/Example05.s.sol:DeployBasicMessageSender -vvv --broadcast --rpc-url avalancheFuji --sig "run(uint8)" -- 2
  1. Fund the BasicMessageSender.sol smart contract with Native Coins, either manually using your wallet or by using the cast send command. For example, if you want to send 0.1 Fuji AVAX, run:
cast send <BASIC_MESSAGE_SENDER_ADDRESS> --rpc-url avalancheFuji --private-key=$PRIVATE_KEY --value 0.1ether
  1. Deploy the BasicMessageReceiver.sol smart contract to the destination blockchain. For this purpose, you can reuse the script/Example02.s.sol:DeployBasicMessageReceiver smart contract from the second example:
function run(SupportedNetworks destination) external;

For example, to deploy it to Ethereum Sepolia, run:

forge script ./script/Example02.s.sol:DeployBasicMessageReceiver -vvv --broadcast --rpc-url ethereumSepolia --sig "run(uint8)" -- 0
  1. Finally, send a cross-chain message using the script/Example05.s.sol:SendMessage smart contract:
function run(
    address payable sender,
    SupportedNetworks destination,
    address receiver,
    string memory message,
    BasicMessageSender.PayFeesIn payFeesIn
) external;

For example, if you want to send a "Hello World" message type:

forge script ./script/Example05.s.sol:SendMessage -vvv --broadcast --rpc-url avalancheFuji --sig "ru
n(address,uint8,address,string,uint8)" -- <BASIC_MESSAGE_SENDER_ADDRESS> 0 <BASIC_MESSAGE_RECEIVER_ADDRESS> "Hello World"
0
  1. Once the CCIP message is finalized on the destination blockchain, you can see the details about the latest message using the script/Example02.s.sol:GetLatestMessageDetails smart contract:
function run(address basicMessageReceiver) external view;

For example,

forge script ./script/Example02.s.sol:GetLatestMessageDetails -vvv --broadcast --rpc-url ethereumSepolia --sig "run(address)" -- <BASIC_MESSAGE_RECEIVER_ADDRESS>
  1. You can always withdraw tokens for Chainlink CCIP fees from the BasicMessageSender.sol smart contract using the cast send command:
cast send <BASIC_MESSAGE_SENDER_ADDRESS> --rpc-url avalancheFuji --private-key=$PRIVATE_KEY "withdraw(address)" <BENEFICIARY_ADDRESS>

Example 6 - Send & Receive Cross-Chain Messages and Pay with LINK Tokens

To send simple Text Cross-Chain Messages and pay for CCIP fees in LINK Tokens, follow the next steps:

  1. Deploy the BasicMessageSender.sol smart contract on the source blockchain, using the script/Example05.s.sol:DeployBasicMessageSender smart contract:
function run(SupportedNetworks source) external;

For example, if you want to send a simple cross-chain message from Avalanche Fuji, run:

forge script ./script/Example05.s.sol:DeployBasicMessageSender -vvv --broadcast --rpc-url avalancheFuji --sig "run(uint8)" -- 2
  1. Fund the BasicMessageSender.sol smart contract with Testnet LINKs, either manually using your wallet or by using the cast send command. For example, if you want to send 0.01 Fuji LINK, run:
cast send 0x0b9d5D9136855f6FEc3c0993feE6E9CE8a297846 "transfer(address,uint256)" <BASIC_MESSAGE_SENDER_ADDRESS> 10000000000000000 --rpc-url avalancheFuji --private-key=$PRIVATE_KEY
  1. Deploy the BasicMessageReceiver.sol smart contract to the destination blockchain. For this purpose, you can reuse the script/Example02.s.sol:DeployBasicMessageReceiver smart contract from the second example:
function run(SupportedNetworks destination) external;

For example, to deploy it to Ethereum Sepolia, run:

forge script ./script/Example02.s.sol:DeployBasicMessageReceiver -vvv --broadcast --rpc-url ethereumSepolia --sig "run(uint8)" -- 0
  1. Finally, send a cross-chain message using the script/Example05.s.sol:SendMessage smart contract:
function run(
    address payable sender,
    SupportedNetworks destination,
    address receiver,
    string memory message,
    BasicMessageSender.PayFeesIn payFeesIn
) external;

For example, if you want to send a "Hello World" message type:

forge script ./script/Example05.s.sol:SendMessage -vvv --broadcast --rpc-url avalancheFuji --sig "ru
n(address,uint8,address,string,uint8)" -- <BASIC_MESSAGE_SENDER_ADDRESS> 0 <BASIC_MESSAGE_RECEIVER_ADDRESS> "Hello World"
1
  1. Once the CCIP message is finalized on the destination blockchain, you can see the details about the latest message using the script/Example02.s.sol:GetLatestMessageDetails smart contract:
function run(address basicMessageReceiver) external view;

For example,

forge script ./script/Example02.s.sol:GetLatestMessageDetails -vvv --broadcast --rpc-url ethereumSepolia --sig "run(address)" -- <BASIC_MESSAGE_RECEIVER_ADDRESS>
  1. You can always withdraw tokens for Chainlink CCIP fees from the BasicMessageSender.sol smart contract using the cast send command:
cast send <BASIC_MESSAGE_SENDER_ADDRESS> --rpc-url avalancheFuji --private-key=$PRIVATE_KEY "withdrawToken(address,address)" <BENEFICIARY_ADDRESS> 0x0b9d5D9136855f6FEc3c0993feE6E9CE8a297846

Example 7 - Execute Received Message as a Function Call

Our goal for this example is to mint an NFT on the destination blockchain by sending the to address from the source blockchain. It is extremely simple so we can understand the basic concepts, but you can expand it to accept payment for minting on the source blockchain, add extra features, etc.

The basic architecture diagram of what we want to accomplish looks like this:

flowchart LR
subgraph "Source Blockchain"
a("SourceMinter.sol") -- "`send abi.encodeWithSignature('mint(address)', msg.sender);`" --> b("Source Router")
end

b("Source Router") --> c("CCIP")

c("CCIP") --> d("Destination Router")

subgraph "Destination Blockchain"
d("Destination Router") -- "`receive abi.encodeWithSignature('mint(address)', msg.sender);`" --> e("DestinationMinter.sol")
e("DestinationMinter.sol") -- "`call mint(to)`" --> f("MyNFT.sol")
end
Loading
  1. Deploy the MyNFT.sol and DestinationMinter.sol smart contracts from the ./src/cross-chain-nft-minter folder on the destination blockchain, by using the script/CrossChainNFT.s.sol:DeployDestination smart contract:
function run(SupportedNetworks destination) external;

For example, if you want to have an NFT collection on Ethereum Sepolia, run:

forge script ./script/CrossChainNFT.s.sol:DeployDestination -vvv --broadcast --rpc-url ethereumSepolia --sig "run(uint8)" -- 0
  1. Deploy the SourceMinter.sol smart contract on the source blockchain, by using the script/CrossChainNFT.s.sol:DeploySource smart contract:
function run(SupportedNetworks source) external;

For example, if you want to mint NFTs on Ethereum Sepolia from Avalanche Fuji, run:

forge script ./script/CrossChainNFT.s.sol:DeploySource -vvv --broadcast --rpc-url avalancheFuji --sig "run(uint8)" -- 2
  1. Fund the SourceMinter.sol smart contract with tokens for CCIP fees.
  • If you want to pay for CCIP fees in Native tokens:

    Open Metamask and fund your contract with Native tokens. For example, if you want to mint from Avalanche Fuji to Ethereum Sepolia, you can send 0.1 Fuji AVAX to the SourceMinter.sol smart contract.

    Or, you can use the cast send command:

    cast send <SOURCE_MINTER_ADDRESS> --rpc-url avalancheFuji --private-key=$PRIVATE_KEY --value 0.1ether
  • If you want to pay for CCIP fees in LINK tokens:

    Open Metamask and fund your contract with LINK tokens. For example, if you want to mint from Avalanche Fuji to Ethereum Sepolia, you can send 0.01 Fuji LINK to the SourceMinter.sol smart contract.

    Or, you can use the cast send command:

    cast send 0x0b9d5D9136855f6FEc3c0993feE6E9CE8a297846 "transfer(address,uint256)" <SOURCE_MINTER_ADDRESS> 10000000000000000 --rpc-url avalancheFuji --private-key=$PRIVATE_KEY
  1. Mint NFTs by calling the mint() function of the SourceMinter.sol smart contract on the source blockchain. It will send the CCIP Cross-Chain Message with the ABI-encoded mint function signature from the MyNFT.sol smart contract. The DestinationMinter.sol smart contracts will receive the CCIP Cross-Chain Message with the ABI-encoded mint function signature as a payload and call the MyNFT.sol smart contract using it. The MyNFT.sol smart contract will then mint the new NFT to the msg.sender account from the mint() function of the SourceMinter.sol smart contract, a.k.a to the account from which you will call the following command:
function run(
    address payable sourceMinterAddress,
    SupportedNetworks destination,
    address destinationMinterAddress,
    SourceMinter.PayFeesIn payFeesIn
) external;

For example, if you want to mint NFTs on Ethereum Sepolia by sending requests from Avalanche Fuji, run:

forge script ./script/CrossChainNFT.s.sol:Mint -vvv --broadcast --rpc-url avalancheFuji --sig "run(a
ddress,uint8,address,uint8)" -- <SOURCE_MINTER_ADDRESS> 0 <DESTINATION_MINTER_ADDRESS> 0
  1. Once the CCIP message is finalized on the destination blockchain, you can query the MyNFTs balance of your account, using the cast call command.

ccip-explorer

For example, to verify that the new MyNFT was minted, type:

cast call <MY_NFT_ADDRESS> "balanceOf(address)" <PUT_YOUR_ADDRESS_HERE> --rpc-url ethereumSepolia

Of course, you can see your newly minted NFT on popular NFT Marketplaces, like OpenSea for instance:

opensea

  1. You can always withdraw tokens for Chainlink CCIP fees from the SourceMinter.sol smart contract using the cast send command.

For example, to withdraw tokens previously sent for Chainlink CCIP fees, run:

cast send <SOURCE_MINTER_ADDRESS> --rpc-url avalancheFuji --private-key=$PRIVATE_KEY "withdraw(address)" <BENEFICIARY_ADDRESS>

or

cast send <SOURCE_MINTER_ADDRESS> --rpc-url avalancheFuji --private-key=$PRIVATE_KEY "withdrawToken(address,address)" <BENEFICIARY_ADDRESS> 0x0b9d5D9136855f6FEc3c0993feE6E9CE8a297846

depending on whether you filled the SourceMinter.sol contract with Native (0) or LINK (1) in step number 3.

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