Envoyer des Transactions

Comment envoyer des SOL

Pour envoyer des SOL, vous devez interagir avec le SystemProgramopen in new window.

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import {
  Connection,
  Keypair,
  SystemProgram,
  LAMPORTS_PER_SOL,
  Transaction,
  sendAndConfirmTransaction,
} from "@solana/web3.js";

(async () => {
  const fromKeypair = Keypair.generate();
  const toKeypair = Keypair.generate();

  const connection = new Connection(
    "https://api.devnet.solana.com",
    "confirmed"
  );

  const airdropSignature = await connection.requestAirdrop(
    fromKeypair.publicKey,
    LAMPORTS_PER_SOL
  );

  await connection.confirmTransaction(airdropSignature);

  const lamportsToSend = 1_000_000;

  const transferTransaction = new Transaction().add(
    SystemProgram.transfer({
      fromPubkey: fromKeypair.publicKey,
      toPubkey: toKeypair.publicKey,
      lamports: lamportsToSend,
    })
  );

  await sendAndConfirmTransaction(connection, transferTransaction, [
    fromKeypair,
  ]);
})();
from solana.rpc.api import Client
from solders.keypair import Keypair
from solana.transaction import Transaction
from solders.system_program import TransferParams, transfer

LAMPORT_PER_SOL = 1000000000

client: Client = Client("https://api.devnet.solana.com")

sender = Keypair()
receiver = Keypair()

airdrop = client.request_airdrop(sender.pubkey(), 1 * LAMPORT_PER_SOL)
airdrop_signature = airdrop.value
client.confirm_transaction(airdrop_signature)

transaction = Transaction().add(transfer(TransferParams(
    from_pubkey=sender.pubkey(),
    to_pubkey=receiver.pubkey(),
    lamports=1_000_000)
))

client.send_transaction(transaction, sender)
import { WalletNotConnectedError } from "@solana/wallet-adapter-base";
import { useConnection, useWallet } from "@solana/wallet-adapter-react";
import { Keypair, SystemProgram, Transaction } from "@solana/web3.js";
import React, { FC, useCallback } from "react";

export const SendTenLamportToRandomAddress: FC = () => {
  const { connection } = useConnection();
  const { publicKey, sendTransaction } = useWallet();

  const onClick = useCallback(async () => {
    if (!publicKey) throw new WalletNotConnectedError();

    const transaction = new Transaction().add(
      SystemProgram.transfer({
        fromPubkey: publicKey,
        toPubkey: Keypair.generate().publicKey,
        lamports: 1_000_000,
      })
    );

    const signature = await sendTransaction(transaction, connection);

    await connection.confirmTransaction(signature, "processed");
  }, [publicKey, sendTransaction, connection]);

  return (
    <button onClick={onClick} disabled={!publicKey}>
      Send 1 lamport to a random address!
    </button>
  );
};
use solana_client::rpc_client::RpcClient;
use solana_program::system_instruction;
use solana_sdk::commitment_config::CommitmentConfig;
use solana_sdk::native_token::LAMPORTS_PER_SOL;
use solana_sdk::signature::{Keypair, Signer};
use solana_sdk::transaction::Transaction;

fn main() {
    let from = Keypair::new();
    let frompubkey = Signer::pubkey(&from);

    let to = Keypair::new();
    let topubkey = Signer::pubkey(&to);

    let lamports_to_send = 1_000_000;

    let rpc_url = String::from("https://api.devnet.solana.com");
    let connection = RpcClient::new_with_commitment(rpc_url, CommitmentConfig::confirmed());

    ///Airdropping some Sol to the 'from' account
    match connection.request_airdrop(&frompubkey, LAMPORTS_PER_SOL) {
        Ok(sig) => loop {
            if let Ok(confirmed) = connection.confirm_transaction(&sig) {
                if confirmed {
                    println!("Transaction: {} Status: {}", sig, confirmed);
                    break;
                }
            }
        },
        Err(_) => println!("Error requesting airdrop"),
    };

    ///Creating the transfer sol instruction
    let ix = system_instruction::transfer(&frompubkey, &topubkey, lamports_to_send);

    ///Putting the transfer sol instruction into a transaction
    let recent_blockhash = connection.get_latest_blockhash().expect("Failed to get latest blockhash.");
    let txn = Transaction::new_signed_with_payer(&[ix], Some(&frompubkey), &[&from], recent_blockhash);

    ///Sending the transfer sol transaction
    match connection.send_and_confirm_transaction(&txn){
        Ok(sig) => loop {
            if let Ok(confirmed) = connection.confirm_transaction(&sig) {
                if confirmed {
                    println!("Transaction: {} Status: {}", sig, confirmed);
                    break;
                }
            }
        },
        Err(e) => println!("Error transferring Sol:, {}", e),
    }

}
solana transfer --from <KEYPAIR> <RECIPIENT_ACCOUNT_ADDRESS> 0.001 --allow-unfunded-recipient --url https://api.devnet.solana.com --fee-payer <KEYPAIR>

Comment envoyer des jetons SPL

Utilisez le Programme de Jetons (Token Program)open in new window pour transférer des jetons SPL. Pour envoyer un jeton SPL, vous devez connaître son adresse de compte de jeton SPL. Vous pouvez à la fois obtenir l'adresse et envoyer des jetons avec l'exemple suivant.

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import {
  Connection,
  clusterApiUrl,
  Keypair,
  LAMPORTS_PER_SOL,
  Transaction,
  sendAndConfirmTransaction,
} from "@solana/web3.js";
import {
  createMint,
  getOrCreateAssociatedTokenAccount,
  mintTo,
  createTransferInstruction,
} from "@solana/spl-token";

(async () => {
  // Connect to cluster
  const connection = new Connection(clusterApiUrl("devnet"), "confirmed");

  // Generate a new wallet keypair and airdrop SOL
  const fromWallet = Keypair.generate();
  const fromAirdropSignature = await connection.requestAirdrop(
    fromWallet.publicKey,
    LAMPORTS_PER_SOL
  );
  // Wait for airdrop confirmation
  await connection.confirmTransaction(fromAirdropSignature);

  // Generate a new wallet to receive newly minted token
  const toWallet = Keypair.generate();

  // Create new token mint
  const mint = await createMint(
    connection,
    fromWallet,
    fromWallet.publicKey,
    null,
    9
  );

  // Get the token account of the fromWallet Solana address, if it does not exist, create it
  const fromTokenAccount = await getOrCreateAssociatedTokenAccount(
    connection,
    fromWallet,
    mint,
    fromWallet.publicKey
  );

  //get the token account of the toWallet Solana address, if it does not exist, create it
  const toTokenAccount = await getOrCreateAssociatedTokenAccount(
    connection,
    fromWallet,
    mint,
    toWallet.publicKey
  );

  // Minting 1 new token to the "fromTokenAccount" account we just returned/created
  await mintTo(
    connection,
    fromWallet,
    mint,
    fromTokenAccount.address,
    fromWallet.publicKey,
    1000000000, // it's 1 token, but in lamports
    []
  );

  // Add token transfer instructions to transaction
  const transaction = new Transaction().add(
    createTransferInstruction(
      fromTokenAccount.address,
      toTokenAccount.address,
      fromWallet.publicKey,
      1
    )
  );

  // Sign transaction, broadcast, and confirm
  await sendAndConfirmTransaction(connection, transaction, [fromWallet]);
})();
import { WalletNotConnectedError } from "@solana/wallet-adapter-base";
import { useConnection, useWallet } from "@solana/wallet-adapter-react";
import { Keypair, SystemProgram, Transaction } from "@solana/web3.js";
import { TOKEN_PROGRAM_ID, createTransferInstruction } from "@solana/spl-token";
import React, { FC, useCallback } from "react";

export const SendSPLTokenToAddress: FC = (
  fromTokenAccount,
  toTokenAccount,
  fromWallet
) => {
  const { connection } = useConnection();
  const { publicKey, sendTransaction } = useWallet();

  const onClick = useCallback(async () => {
    if (!publicKey) throw new WalletNotConnectedError();

    const transaction = new Transaction().add(
      createTransferInstruction(
        fromTokenAccount.address,
        toTokenAccount.address,
        fromWallet.publicKey,
        1,
        [],
        TOKEN_PROGRAM_ID
      )
    );

    const signature = await sendTransaction(transaction, connection);

    await connection.confirmTransaction(signature, "processed");
  }, [publicKey, sendTransaction, connection]);

  return (
    <button onClick={onClick} disabled={!publicKey}>
      Send 1 lamport to a random address!
    </button>
  );
};
$ spl-token transfer AQoKYV7tYpTrFZN6P5oUufbQKAUr9mNYGe1TTJC9wajM 50 vines1vzrYbzLMRdu58ou5XTby4qAqVRLmqo36NKPTg
Transfer 50 tokens
  Sender: 7UX2i7SucgLMQcfZ75s3VXmZZY4YRUyJN9X1RgfMoDUi
  Recipient: vines1vzrYbzLMRdu58ou5XTby4qAqVRLmqo36NKPTg
  Recipient associated token account: F59618aQB8r6asXeMcB9jWuY6NEx1VduT9yFo1GTi1ks

Signature: 5a3qbvoJQnTAxGPHCugibZTbSu7xuTgkxvF4EJupRjRXGgZZrnWFmKzfEzcqKF2ogCaF4QKVbAtuFx7xGwrDUcGd

Comment calculer les coûts de transaction

Le nombre de signatures requises pour une transaction est utilisé pour calculer le le coût de la transaction. Tant que vous ne créez pas de compte, ce sera le coût final de la transaction. Pour en savoir plus sur les coûts de création d'un compte, consultez calcul de l'exemption de la rente

Les deux exemples ci-dessous montrent les deux manières actuellement disponibles pour calculer le coût estimé de la transaction.

Le premier exemple utilise getEstimatedFee, qui est une nouvelle méthode de la classe Transaction, tandis que le second exemple utilise getFeeForMessage qui remplace getFeeCalculatorForBlockhash de la classe Connection.

getEstimatedFee

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import {
  clusterApiUrl,
  Connection,
  Keypair,
  SystemProgram,
  Transaction,
} from "@solana/web3.js";

(async () => {
  // Connect to cluster
  const connection = new Connection(clusterApiUrl("devnet"), "confirmed");

  const payer = Keypair.generate();
  const payee = Keypair.generate();

  const recentBlockhash = await connection.getLatestBlockhash();

  const transaction = new Transaction({
    recentBlockhash: recentBlockhash.blockhash, 
    feePayer: payer.publicKey
  }).add(
    SystemProgram.transfer({
      fromPubkey: payer.publicKey,
      toPubkey: payee.publicKey,
      lamports: 10,
    })
  );

  const fees = await transaction.getEstimatedFee(connection);
  console.log(`Estimated SOL transfer cost: ${fees} lamports`);
  // Estimated SOL transfer cost: 5000 lamports
})();

getFeeForMessage

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import {
  clusterApiUrl,
  Connection,
  Keypair,
  Message,
  SystemProgram,
  SYSTEM_INSTRUCTION_LAYOUTS,
  Transaction,
} from "@solana/web3.js";
import bs58 from "bs58";

(async () => {
  // Connect to cluster
  const connection = new Connection(clusterApiUrl("devnet"), "confirmed");

  const payer = Keypair.generate();
  const payee = Keypair.generate();

  const type = SYSTEM_INSTRUCTION_LAYOUTS.Transfer;
  const data = Buffer.alloc(type.layout.span);
  const layoutFields = Object.assign({ instruction: type.index });
  type.layout.encode(layoutFields, data);

  const recentBlockhash = await connection.getLatestBlockhash();

  const messageParams = {
    accountKeys: [
      payer.publicKey.toString(),
      payee.publicKey.toString(),
      SystemProgram.programId.toString(),
    ],
    header: {
      numReadonlySignedAccounts: 0,
      numReadonlyUnsignedAccounts: 1,
      numRequiredSignatures: 1,
    },
    instructions: [
      {
        accounts: [0, 1],
        data: bs58.encode(data),
        programIdIndex: 2,
      },
    ],
    recentBlockhash: recentBlockhash.blockhash,
  };

  const message = new Message(messageParams);

  const fees = await connection.getFeeForMessage(message);
  console.log(`Estimated SOL transfer cost: ${fees.value} lamports`);
  // Estimated SOL transfer cost: 5000 lamports
})();

Comment ajouter un mémo à une transaction

Toute transaction peut ajouter un message en utilisant le programme mémoopen in new window. Actuellement le programID du Programme Mémo doit être ajouté manuellement MemoSq4gqABAXKb96qnH8TysNcWxMyWCqXgDLGmfcHr.

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import {
  Connection,
  Keypair,
  SystemProgram,
  LAMPORTS_PER_SOL,
  PublicKey,
  Transaction,
  TransactionInstruction,
  sendAndConfirmTransaction,
} from "@solana/web3.js";

(async () => {
  const fromKeypair = Keypair.generate();
  const toKeypair = Keypair.generate();

  const connection = new Connection(
    "https://api.devnet.solana.com",
    "confirmed"
  );

  const airdropSignature = await connection.requestAirdrop(
    fromKeypair.publicKey,
    LAMPORTS_PER_SOL
  );

  await connection.confirmTransaction(airdropSignature);

  const lamportsToSend = 10;

  const transferTransaction = new Transaction().add(
    SystemProgram.transfer({
      fromPubkey: fromKeypair.publicKey,
      toPubkey: toKeypair.publicKey,
      lamports: lamportsToSend,
    })
  );

  await transferTransaction.add(
    new TransactionInstruction({
      keys: [
        { pubkey: fromKeypair.publicKey, isSigner: true, isWritable: true },
      ],
      data: Buffer.from("Data to send in transaction", "utf-8"),
      programId: new PublicKey("MemoSq4gqABAXKb96qnH8TysNcWxMyWCqXgDLGmfcHr"),
    })
  );

  await sendAndConfirmTransaction(connection, transferTransaction, [
    fromKeypair,
  ]);
})();
import { WalletNotConnectedError } from "@solana/wallet-adapter-base";
import { useConnection, useWallet } from "@solana/wallet-adapter-react";
import {
  Keypair,
  PublicKey,
  SystemProgram,
  Transaction,
  TransactionInstruction,
} from "@solana/web3.js";
import React, { FC, useCallback } from "react";

export const SendTenLamportToRandomAddress: FC = () => {
  const { connection } = useConnection();
  const { publicKey, sendTransaction } = useWallet();

  const onClick = useCallback(async () => {
    if (!publicKey) throw new WalletNotConnectedError();

    const transaction = new Transaction().add(
      SystemProgram.transfer({
        fromPubkey: publicKey,
        toPubkey: Keypair.generate().publicKey,
        lamports: 10,
      })
    );

    await transaction.add(
      new TransactionInstruction({
        keys: [{ pubkey: publicKey, isSigner: true, isWritable: true }],
        data: Buffer.from("Data to send in transaction", "utf-8"),
        programId: new PublicKey("MemoSq4gqABAXKb96qnH8TysNcWxMyWCqXgDLGmfcHr"),
      })
    );

    const signature = await sendTransaction(transaction, connection);

    await connection.confirmTransaction(signature, "processed");
  }, [publicKey, sendTransaction, connection]);

  return (
    <button onClick={onClick} disabled={!publicKey}>
      Send 1 lamport to a random address!
    </button>
  );
};
solana transfer --from <KEYPAIR> <RECIPIENT_ACCOUNT_ADDRESS> 0.5 --allow-unfunded-recipient --url https://api.devnet.solana.com --fee-payer <KEYPAIR> --with-memo <MEMO>

Comment changer le budget de calcul, les frais, & la priorisation d'une transaction

La priorisation d'une transaction (TX) est obtenue en payant des Frais de Priorisation en plus des Frais de Base. Par défaut, le budget de calcul est le produit de 200 000 unités de calcul (UC) * le nombre d'instructions, avec un maximum de 1,4 million d'UC. Les Frais de Base sont de 5 000 Lamports. Un microLamport est 0.000001 Lamports.

Le budget total de calcul ou les Frais de Priorisation pour une seule TX peuvent être modifiés en ajoutant des instructions du programme ComputeBudgetProgram.

ComputeBudgetProgram.setComputeUnitPrice({ microLamports: number }) ajoutera des Frais de Priorisation en plus des Frais de Base (5 000 Lamports). La valeur fournie en microLamports sera multipliée par le budget de l'UC pour déterminer les Frais de Priorisation en Lamports. Par exemple, si votre budget de l'UC est de 1M d'UC, et que vous ajoutez 1 microLamport/UC, les Frais de Priorisation seront de 1 Lamport (1M * 0,000001). Les frais totaux seront alors de 5001 Lamports.

Utilisez ComputeBudgetProgram.setComputeUnitLimit({ units: number }) pour définir le nouveau budget de calcul. La valeur fournie remplacera la valeur par défaut. Les transactions doivent demander la quantité minimale d'UC nécessaire à l'exécution afin de maximiser le débit ou de minimiser les frais.

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import { BN } from "@project-serum/anchor";
import {
  Keypair,
  Connection,
  LAMPORTS_PER_SOL,
  sendAndConfirmTransaction,
  ComputeBudgetProgram,
  SystemProgram,
  Transaction,
} from "@solana/web3.js";

(async () => {
  const payer = Keypair.generate();
  const toAccount = Keypair.generate().publicKey;

  const connection = new Connection("http://127.0.0.1:8899", "confirmed");

  const airdropSignature = await connection.requestAirdrop(
    payer.publicKey,
    LAMPORTS_PER_SOL
  );

  await connection.confirmTransaction(airdropSignature);

  const modifyComputeUnits = ComputeBudgetProgram.setComputeUnitLimit({ 
    units: 1000000 
  });

  const addPriorityFee = ComputeBudgetProgram.setComputeUnitPrice({ 
    microLamports: 1 
  });

  // Total fee will be 5,001 Lamports for 1M CU
  const transaction = new Transaction()
    .add(modifyComputeUnits)
    .add(addPriorityFee)
    .add(
      SystemProgram.transfer({
        fromPubkey: payer.publicKey,
        toPubkey: toAccount,
        lamports: 10000000,
      })
    );

  const signature = await sendAndConfirmTransaction(connection, transaction, [
    payer,
  ]);
  console.log(signature);
  const result = await connection.getParsedTransaction(signature);
  console.log(result);
})();
//! @brief Example Budget Management

use solana_client::rpc_client::RpcClient;
use solana_program::{instruction::Instruction, message::Message, pubkey::Pubkey};
use solana_sdk::{
    compute_budget::ComputeBudgetInstruction,
    pubkey,
    signature::{Keypair, Signature},
    signer::Signer,
    transaction::Transaction,
};

/// Submits the program instruction as per the instruction definition
fn submit_transaction(
    rpc_client: &RpcClient,
    wallet_signer: &dyn Signer,
    instructions: Vec<Instruction>,
) -> Result<Signature, Box<dyn std::error::Error>> {
    let mut transaction =
        Transaction::new_unsigned(Message::new(&instructions, Some(&wallet_signer.pubkey())));
    let recent_blockhash = rpc_client
        .get_latest_blockhash()
        .map_err(|err| format!("error: unable to get recent blockhash: {}", err))?;
    transaction
        .try_sign(&vec![wallet_signer], recent_blockhash)
        .map_err(|err| format!("error: failed to sign transaction: {}", err))?;
    let signature = rpc_client
        .send_and_confirm_transaction(&transaction)
        .map_err(|err| format!("error: send transaction: {}", err))?;
    Ok(signature)
}

const PROG_KEY: Pubkey = pubkey!("PWDnx8LkjJUn9bAVzG6Fp6BuvB41x7DkBZdo9YLMGcc");

/// Increase the Transaction Budget and call normal instruction(s)
/// Here we send redundant transactions to witness Compute Budget drawdown
fn send_instructions_demo(
    rpc_client: &RpcClient,
    wallet_signer: &dyn Signer,
) -> Result<(), Box<dyn std::error::Error>> {{
    let accounts = &[];
    let txn = submit_transaction(
        &connection,
        &wallet_signer,
        // Array of instructions: 0: Set Compute Unit Limt, 1: Set Prioritization Fee, 
        // 2: Do something, 3: Do something else
        [ComputeBudgetInstruction::set_compute_unit_limit(1_000_000u32),
        ComputeBudgetInstruction::set_compute_unit_price(1u32),
        Instruction::new_with_borsh(PROG_KEY, &0u8, accounts.to_vec()),
        Instruction::new_with_borsh(PROG_KEY, &0u8, accounts.to_vec())].to_vec(),
    )?;
    println!("{:?}", txn);
    Ok(())
}

Exemple de journal de programme (Exploreropen in new window ):

[ 1] Program ComputeBudget111111111111111111111111111111 invoke [1]
[ 2] Program ComputeBudget111111111111111111111111111111 success
[ 3]
[ 4] Program ComputeBudget111111111111111111111111111111 invoke [1]
[ 5] Program ComputeBudget111111111111111111111111111111 success
Last Updated:
Contributors: cryptoloutre