Documentation SolanaTokens sur SolanaPrincipes de base

Brûler des jetons

Que fait la brûlure ?

Brûler des jetons diminue de manière permanente le solde d'un token account et réduit l'offre totale du mint du même montant.

Comment brûler des jetons

La brûlure de jetons utilise l'instruction Burn ou BurnChecked du Token Program.

Les exemples ci-dessous utilisent BurnChecked, qui exige que l'appelant fournisse les décimales du mint afin que l'instruction puisse vérifier la précision attendue du jeton avant de le brûler.

Le mint natif ne prend pas en charge la brûlure. Utilisez plutôt CloseAccount.

Le propriétaire du token account ou un délégué approuvé signe la transaction. Dans le Token Extensions Program, un délégué permanent du mint peut également autoriser la brûlure si le mint a l'extension de délégué permanent activée.

Référence source

ÉlémentDescriptionToken ProgramToken Extensions Program
MintL'état du mint stocke l'offre totale de jetons.SourceSource
AccountL'état du token account stocke le solde de jetons réduit par une brûlure.SourceSource
BurnUne instruction de brûlure qui diminue le solde d'un token account et l'offre du mint sans exiger que l'appelant fournisse les décimales du mint.SourceSource
BurnCheckedUne instruction de brûlure qui exige que l'appelant fournisse les décimales du mint et vérifie cette valeur avant de diminuer le solde d'un token account et l'offre du mint.SourceSource
process_burnLogique de traitement partagée pour les brûlures de jetons.SourceSource

Typescript

Les exemples Kit ci-dessous montrent l'approche recommandée utilisant @solana/kit. Les exemples historiques utilisant @solana/web3.js sont inclus à titre de référence.

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
Click to execute the code.

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.

Rust

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
Click to execute the code.

Python

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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