CandyPay SDK lets you effortlessly create NFT minting functions for Candy Machine v2 collections. Simulate minting transactions for multiple use-cases like NFT collection launch, gasless mint and many more on Solana Blockchain!
npm install @candypay/sdk @project-serum/anchor
The entry point to the SDK is a CandyPay
instance that will give you access to its API.
import { CandyPay } from "@candypay/sdk";
const candypay = new CandyPay();
The candyMachine
module can be accessed via candypay.candyMachine()
and provides the following methods:
The mint
method returns the transaction object with the all the required instructions for minting a Candy Machine v2 in the default way, where the end-user would pay the gas fees.
Parameters:
network
: The cluster where the transaction would take place i.e eithermainnet-beta
ordevnet
candyMachineId
: The address of the Candy Machineuser
: The public key of the end-userrpc_url
(optional): Custom RPC URL
Response:
transaction
: The transaction object containing all the required instructionsblockhash
: Blockhash which is being used in the transactionlastValidBlockHeight
: The last valid block height after which the transaction is declared expiredsigners
: Array of signers which should be passed while sending the transaction to the networkmint
: The mint keypair which is used to sign the transaction
Example:
import { CandyPay } from "@candypay/sdk";
import * as anchor from "@project-serum/anchor";
import dotenv from "dotenv";
import base58 from "bs58";
dotenv.config();
const sdk = new CandyPay();
const connection = new anchor.web3.Connection(
"https://metaplex.devnet.rpcpool.com"
);
const CANDY_MACHINE_ID = new anchor.web3.PublicKey(
"GrVSy3ZRbuw5ACbwSEMsj9gULk9MW7QPK1TUYcP6nLM"
);
const PAYER = anchor.web3.Keypair.fromSecretKey(
base58.decode(process.env.PAYER_SECRET_KEY!)
);
const { transaction, mint } = await sdk.candyMachine.mint({
candyMachineId: CANDY_MACHINE_ID,
network: "devnet",
user: PAYER.publicKey,
});
const signature = await anchor.web3.sendAndConfirmTransaction(
connection,
transaction,
[PAYER, mint]
);
console.log(`Signature - ${signature}`);
The gasless
method returns the transaction object with the all the required instructions for minting a Candy Machine v2 in the gasless way, where the end-user doesn't need pay the gas fees.
Parameters:
network
: The cluster where the transaction would take place i.e eithermainnet-beta
ordevnet
candyMachineId
: The address of the Candy Machine from which the NFT would to be mintedpayer
: The public key of the wallet which would pay the gas fees of the transactionuser
: The public key of the end-userrpc_url
(optional): Custom RPC URL
Response:
transaction
: The transaction object containing all the required instructionsblockhash
: The blockhash which is being used in the transactionlastValidBlockHeight
: The last valid block height after which the transaction is declared expiredsigners
: Array of signers which should be passed while sending the transaction to the networkmint
: The mint keypair which is used to sign the transaction
Example:
import { CandyPay } from "@candypay/sdk";
import * as anchor from "@project-serum/anchor";
import dotenv from "dotenv";
import base58 from "bs58";
dotenv.config();
const sdk = new CandyPay();
const connection = new anchor.web3.Connection(
"https://metaplex.devnet.rpcpool.com"
);
const CANDY_MACHINE_ID = new anchor.web3.PublicKey(
"GrVSy3ZRbuw5ACbwSEMsj9gULk9MW7QPK1TUYcP6nLM"
);
const PAYER = anchor.web3.Keypair.fromSecretKey(
base58.decode(process.env.PAYER_SECRET_KEY!)
);
const USER = new anchor.web3.PublicKey(
"2S9jKJEGKoVxR3xkEfFyGVrLwJj1H8xYjqtSP5LAX97x"
);
const { transaction, mint } = await sdk.candyMachine.gasless({
candyMachineId: CANDY_MACHINE_ID,
network: "devnet",
payer: PAYER.publicKey,
user: USER,
});
const signature = await anchor.web3.sendAndConfirmTransaction(
connection,
transaction,
[PAYER, mint]
);
console.log(`Signature - ${signature}`);
The nft
module can be accessed via candypay.nft()
and provides the following methods:
The airdrop
method allows you to airdrop certain NFT without having to create an NFT beforehand.
Parameters:
payer
: The public key of the wallet which would pay gas fees of the transactionowner
: The public key of user to whom the NFT would be airdroppednetwork
: The cluster where the transaction would take place i.e eithermainnet-beta
,devnet
ortestnet
metadata
: The metadata regarding the NFTrpc_url
: Custom RPC URL
Response:
signature
: The signature of the NFT airdrop transactionaccounts
: The accounts related to the NFT airdrop transaction i.e mint account, metadata account, master edition account and token accountblockhash
: The blockhash which is being used in the transaction
Example:
import { CandyPay } from "@candypay/sdk";
import * as anchor from "@project-serum/anchor";
import dotenv from "dotenv";
import base58 from "bs58";
dotenv.config();
const PAYER = anchor.web3.Keypair.fromSecretKey(
base58.decode(process.env.PAYER_SECRET_KEY!)
);
const USER = new anchor.web3.PublicKey(
"2S9jKJEGKoVxR3xkEfFyGVrLwJj1H8xYjqtSP5LAX97x"
);
const sdk = new CandyPay();
const { signature } = await sdk.nft.airdrop({
metadata: {
name: "DeGod",
uri: "https://metadata.degods.com/g/4924.json",
symbol: "DEGOD",
collection: null,
sellerFeeBasisPoints: 1000,
creators: [
{
address: PAYER.publicKey,
share: 100,
},
],
uses: null,
},
network: "devnet",
owner: USER,
payer: PAYER,
});
console.log(`Signature - ${signature}`);
Using our SDK with Next.js can sometimes run in build time error cause of Anchor library using the node native "fs" module. We highly recommend adding this export in next.config.js
file before deployment:
module.exports = {
webpack: (config, { isServer }) => {
if (!isServer) {
config.resolve.fallback.fs = false;
}
return config;
},
};
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