Spalanie tokenów

Co robi spalanie?

Spalanie tokenów trwale zmniejsza saldo konta tokenowego i redukuje całkowitą podaż minta o tę samą wartość.

Jak spalać tokeny

Spalanie tokenów wykorzystuje instrukcję Burn lub BurnChecked Token Program.

Poniższe przykłady używają BurnChecked, która wymaga od wywołującego podania dziesiętnych minta, aby instrukcja mogła zweryfikować oczekiwaną precyzję tokena przed spaleniem.

Native mint nie obsługuje spalania. Zamiast tego użyj CloseAccount.

Właściciel konta tokenowego lub zatwierdzony delegat podpisuje transakcję. W Token Extension Program stały delegat minta może również autoryzować spalanie, jeśli mint ma włączone rozszerzenie stałego delegata.

Źródła referencyjne

Element	Opis	Token Program	Token Extension Program
`Mint`	Stan minta przechowuje całkowitą podaż tokenów.	Źródło	Źródło
`Account`	Stan konta tokenowego przechowuje saldo tokenów zmniejszone przez spalanie.	Źródło	Źródło
`Burn`	Instrukcja spalania, która zmniejsza saldo konta tokenowego i podaż minta bez wymagania od wywołującego podania dziesiętnych minta.	Źródło	Źródło
`BurnChecked`	Instrukcja spalania, która wymaga od wywołującego podania dziesiętnych minta i sprawdza tę wartość przed zmniejszeniem salda konta tokenowego i podaży minta.	Źródło	Źródło
`process_burn`	Współdzielona logika procesora dla spalania tokenów.	Źródło	Źródło

Typescript

Poniższe przykłady Kit przedstawiają zalecane podejście z wykorzystaniem @solana/kit. Przykłady starszej wersji używające @solana/web3.js zostały dołączone w celach informacyjnych.

Kit

import { generateKeyPairSigner } from "@solana/kit";
import { createLocalClient } from "@solana/kit-client-rpc";
import {
  findAssociatedTokenPda,
  tokenProgram,
  TOKEN_PROGRAM_ADDRESS
} from "@solana-program/token";

const client = await createLocalClient()
  .use(tokenProgram());

const mint = await generateKeyPairSigner();

const [tokenAccount] = await findAssociatedTokenPda({
  mint: mint.address,
  owner: client.payer.address,
  tokenProgram: TOKEN_PROGRAM_ADDRESS
});


const result = await client.token.instructions
  .burnChecked({
    account: tokenAccount, // Token account holding the tokens to burn.
    mint: mint.address, // Mint for the token being burned.
    authority: client.payer, // Owner or delegate approving the burn.
    amount: 25n, // Token amount in base units.
    decimals: 2 // Decimals defined on the mint account.
  })
  .sendTransaction();

const mintAccount = await client.token.accounts.mint.fetch(mint.address);
const tokenAccountData = await client.token.accounts.token.fetch(tokenAccount);

console.log("Mint Address:", mint.address);
console.log("Mint Account:", mintAccount.data);
console.log("\nToken Account Address:", tokenAccount);
console.log("Token Account:", tokenAccountData.data);
console.log("\nTransaction Signature:", result.context.signature);

Console

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import { generateKeyPairSigner } from "@solana/kit";
import { createLocalClient } from "@solana/kit-client-rpc";
import {
  findAssociatedTokenPda,
  tokenProgram,
  TOKEN_PROGRAM_ADDRESS
} from "@solana-program/token";

const client = await createLocalClient()
  .use(tokenProgram());

const mint = await generateKeyPairSigner();

const [tokenAccount] = await findAssociatedTokenPda({
  mint: mint.address,
  owner: client.payer.address,
  tokenProgram: TOKEN_PROGRAM_ADDRESS
});


const result = await client.token.instructions
  .burnChecked({
    account: tokenAccount, // Token account holding the tokens to burn.
    mint: mint.address, // Mint for the token being burned.
    authority: client.payer, // Owner or delegate approving the burn.
    amount: 25n, // Token amount in base units.
    decimals: 2 // Decimals defined on the mint account.
  })
  .sendTransaction();

const mintAccount = await client.token.accounts.mint.fetch(mint.address);
const tokenAccountData = await client.token.accounts.token.fetch(tokenAccount);

console.log("Mint Address:", mint.address);
console.log("Mint Account:", mintAccount.data);
console.log("\nToken Account Address:", tokenAccount);
console.log("Token Account:", tokenAccountData.data);
console.log("\nTransaction Signature:", result.context.signature);

Console

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Web3.js

import { Connection, Keypair, LAMPORTS_PER_SOL } from "@solana/web3.js";
import {
  createAssociatedTokenAccount,
  burnChecked,
  createMint,
  getAccount,
  getMint,
  mintToChecked,
  TOKEN_PROGRAM_ID
} from "@solana/spl-token";


const result = await burnChecked(
  connection, // Connection to the local validator.
  feePayer, // Account paying transaction fees.
  associatedTokenAccount, // Token account holding the tokens to burn.
  mintPubkey, // Mint for the token being burned.
  feePayer, // Owner or delegate approving the burn.
  25, // Token amount in base units.
  2, // Decimals defined on the mint account.
  [], // Additional multisig signers.
  {
    commitment: "confirmed" // Confirmation options for the transaction.
  },
  TOKEN_PROGRAM_ID // Token program to invoke.
);

const mintAccount = await getMint(
  connection,
  mintPubkey,
  "confirmed",
  TOKEN_PROGRAM_ID
);
const tokenAccountData = await getAccount(
  connection,
  associatedTokenAccount,
  "confirmed",
  TOKEN_PROGRAM_ID
);

console.log("Mint Address:", mintPubkey.toBase58());
console.log("Mint Account:", mintAccount);
console.log(
  "\nAssociated Token Account Address:",
  associatedTokenAccount.toBase58()
);
console.log("Associated Token Account:", tokenAccountData);
console.log("\nTransaction Signature:", result);

Console

Click to execute the code.

import { Connection, Keypair, LAMPORTS_PER_SOL } from "@solana/web3.js";
import {
  createAssociatedTokenAccount,
  burnChecked,
  createMint,
  getAccount,
  getMint,
  mintToChecked,
  TOKEN_PROGRAM_ID
} from "@solana/spl-token";


const result = await burnChecked(
  connection, // Connection to the local validator.
  feePayer, // Account paying transaction fees.
  associatedTokenAccount, // Token account holding the tokens to burn.
  mintPubkey, // Mint for the token being burned.
  feePayer, // Owner or delegate approving the burn.
  25, // Token amount in base units.
  2, // Decimals defined on the mint account.
  [], // Additional multisig signers.
  {
    commitment: "confirmed" // Confirmation options for the transaction.
  },
  TOKEN_PROGRAM_ID // Token program to invoke.
);

const mintAccount = await getMint(
  connection,
  mintPubkey,
  "confirmed",
  TOKEN_PROGRAM_ID
);
const tokenAccountData = await getAccount(
  connection,
  associatedTokenAccount,
  "confirmed",
  TOKEN_PROGRAM_ID
);

console.log("Mint Address:", mintPubkey.toBase58());
console.log("Mint Account:", mintAccount);
console.log(
  "\nAssociated Token Account Address:",
  associatedTokenAccount.toBase58()
);
console.log("Associated Token Account:", tokenAccountData);
console.log("\nTransaction Signature:", result);

Console

Click to execute the code.

Rust

use anyhow::Result;
use solana_client::nonblocking::rpc_client::RpcClient;
use solana_commitment_config::CommitmentConfig;
use solana_sdk::{
    program_pack::Pack,
    signature::{Keypair, Signer},
    transaction::Transaction,
};
use solana_system_interface::instruction::create_account;
use spl_associated_token_account_interface::{
    address::get_associated_token_address, instruction::create_associated_token_account,
};
use spl_token_interface::{
    id as token_program_id,
    instruction::{burn_checked, initialize_mint, mint_to_checked},
    state::{Account, Mint},
};

#[tokio::main]
async fn main() -> Result<()> {
    let client = RpcClient::new_with_commitment(
        String::from("http://localhost:8899"),
        CommitmentConfig::confirmed(),
    );


    let burn_amount = 25;
    let transaction = Transaction::new_signed_with_payer(
        &[
            burn_checked(
                &token_program_id(), // Token program to invoke.
                &associated_token_address, // Token account holding the tokens to burn.
                &mint.pubkey(), // Mint for the token being burned.
                &fee_payer.pubkey(), // Owner or delegate approving the burn.
                &[], // Additional multisig signers.
                burn_amount, // Token amount in base units.
                decimals, // Decimals defined on the mint account.
            )?,
        ],
        Some(&fee_payer.pubkey()),
        &[&fee_payer],
        latest_blockhash,
    );

    let transaction_signature = client.send_and_confirm_transaction(&transaction).await?;
    let mint_account = client.get_account(&mint.pubkey()).await?;
    let mint_data = Mint::unpack(&mint_account.data)?;
    let token_account = client.get_account(&associated_token_address).await?;
    let token_data = Account::unpack(&token_account.data)?;

    println!("Mint Address: {}", mint.pubkey());
    println!("Mint Account: {:#?}", mint_data);
    println!(
        "\nAssociated Token Account Address: {}",
        associated_token_address
    );
    println!("Associated Token Account: {:#?}", token_data);
    println!("\nTransaction Signature: {}", transaction_signature);

    Ok(())
}

Console

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Rust

use anyhow::Result;
use solana_client::nonblocking::rpc_client::RpcClient;
use solana_commitment_config::CommitmentConfig;
use solana_sdk::{
    program_pack::Pack,
    signature::{Keypair, Signer},
    transaction::Transaction,
};
use solana_system_interface::instruction::create_account;
use spl_associated_token_account_interface::{
    address::get_associated_token_address, instruction::create_associated_token_account,
};
use spl_token_interface::{
    id as token_program_id,
    instruction::{burn_checked, initialize_mint, mint_to_checked},
    state::{Account, Mint},
};

#[tokio::main]
async fn main() -> Result<()> {
    let client = RpcClient::new_with_commitment(
        String::from("http://localhost:8899"),
        CommitmentConfig::confirmed(),
    );


    let burn_amount = 25;
    let transaction = Transaction::new_signed_with_payer(
        &[
            burn_checked(
                &token_program_id(), // Token program to invoke.
                &associated_token_address, // Token account holding the tokens to burn.
                &mint.pubkey(), // Mint for the token being burned.
                &fee_payer.pubkey(), // Owner or delegate approving the burn.
                &[], // Additional multisig signers.
                burn_amount, // Token amount in base units.
                decimals, // Decimals defined on the mint account.
            )?,
        ],
        Some(&fee_payer.pubkey()),
        &[&fee_payer],
        latest_blockhash,
    );

    let transaction_signature = client.send_and_confirm_transaction(&transaction).await?;
    let mint_account = client.get_account(&mint.pubkey()).await?;
    let mint_data = Mint::unpack(&mint_account.data)?;
    let token_account = client.get_account(&associated_token_address).await?;
    let token_data = Account::unpack(&token_account.data)?;

    println!("Mint Address: {}", mint.pubkey());
    println!("Mint Account: {:#?}", mint_data);
    println!(
        "\nAssociated Token Account Address: {}",
        associated_token_address
    );
    println!("Associated Token Account: {:#?}", token_data);
    println!("\nTransaction Signature: {}", transaction_signature);

    Ok(())
}

Console

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Python

#!/usr/bin/env python3

import asyncio
import json
from solana.rpc.async_api import AsyncClient
from solders.keypair import Keypair
from solders.message import Message
from solders.pubkey import Pubkey
from solders.system_program import create_account, CreateAccountParams
from solders.transaction import Transaction
from spl.token.async_client import AsyncToken
from spl.token.instructions import (
    burn_checked,
    BurnCheckedParams,
    create_associated_token_account,
    get_associated_token_address,
    initialize_mint,
    InitializeMintParams,
    mint_to_checked,
    MintToCheckedParams,
)
from spl.token.constants import MINT_LEN, TOKEN_PROGRAM_ID

DECIMALS = 2
AMOUNT_TO_MINT = 100
AMOUNT_TO_BURN = 25

async def main():
    rpc = AsyncClient("http://localhost:8899")

    async with rpc:

        burn_tokens_instruction = burn_checked(
            BurnCheckedParams(
                program_id=TOKEN_PROGRAM_ID,  # Token program to invoke.
                mint=mint.pubkey(),  # Mint for the token being burned.
                account=token_account_address,  # Token account whose balance decreases.
                owner=fee_payer.pubkey(),  # Account that owns the token account and signs the transaction.
                amount=AMOUNT_TO_BURN,  # Token amount in base units.
                decimals=DECIMALS,  # Decimals defined on the mint account.
            )
        )
        latest_blockhash = await rpc.get_latest_blockhash()
        transaction = Transaction(
            [fee_payer],
            Message([burn_tokens_instruction], fee_payer.pubkey()),
            latest_blockhash.value.blockhash,
        )
        result = await rpc.send_transaction(transaction)

        mint_info = await token.get_mint_info()
        token_account_info = await token.get_account_info(token_account_address)
        mint_account = {
            key: str(value) if isinstance(value, Pubkey) else value
            for key, value in mint_info._asdict().items()
        }
        token_account = {
            key: str(value) if isinstance(value, Pubkey) else value
            for key, value in token_account_info._asdict().items()
        }

        print("Mint Address:", mint.pubkey())
        print("Mint Account:")
        print(json.dumps(mint_account, indent=2))
        print("\nToken Account Address:", token_account_address)
        print("Token Account:")
        print(json.dumps(token_account, indent=2))
        print("\nTransaction Signature:", result.value)

if __name__ == "__main__":
    asyncio.run(main())

Console

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Python

#!/usr/bin/env python3

import asyncio
import json
from solana.rpc.async_api import AsyncClient
from solders.keypair import Keypair
from solders.message import Message
from solders.pubkey import Pubkey
from solders.system_program import create_account, CreateAccountParams
from solders.transaction import Transaction
from spl.token.async_client import AsyncToken
from spl.token.instructions import (
    burn_checked,
    BurnCheckedParams,
    create_associated_token_account,
    get_associated_token_address,
    initialize_mint,
    InitializeMintParams,
    mint_to_checked,
    MintToCheckedParams,
)
from spl.token.constants import MINT_LEN, TOKEN_PROGRAM_ID

DECIMALS = 2
AMOUNT_TO_MINT = 100
AMOUNT_TO_BURN = 25

async def main():
    rpc = AsyncClient("http://localhost:8899")

    async with rpc:

        burn_tokens_instruction = burn_checked(
            BurnCheckedParams(
                program_id=TOKEN_PROGRAM_ID,  # Token program to invoke.
                mint=mint.pubkey(),  # Mint for the token being burned.
                account=token_account_address,  # Token account whose balance decreases.
                owner=fee_payer.pubkey(),  # Account that owns the token account and signs the transaction.
                amount=AMOUNT_TO_BURN,  # Token amount in base units.
                decimals=DECIMALS,  # Decimals defined on the mint account.
            )
        )
        latest_blockhash = await rpc.get_latest_blockhash()
        transaction = Transaction(
            [fee_payer],
            Message([burn_tokens_instruction], fee_payer.pubkey()),
            latest_blockhash.value.blockhash,
        )
        result = await rpc.send_transaction(transaction)

        mint_info = await token.get_mint_info()
        token_account_info = await token.get_account_info(token_account_address)
        mint_account = {
            key: str(value) if isinstance(value, Pubkey) else value
            for key, value in mint_info._asdict().items()
        }
        token_account = {
            key: str(value) if isinstance(value, Pubkey) else value
            for key, value in token_account_info._asdict().items()
        }

        print("Mint Address:", mint.pubkey())
        print("Mint Account:")
        print(json.dumps(mint_account, indent=2))
        print("\nToken Account Address:", token_account_address)
        print("Token Account:")
        print(json.dumps(token_account, indent=2))
        print("\nTransaction Signature:", result.value)

if __name__ == "__main__":
    asyncio.run(main())

Console

Click to execute the code.

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