トークンの預け入れ

トークンを秘密保留残高に預け入れる方法

トークンを秘密裏に送金する前に、公開トークン残高を秘密残高に変換する必要があります。この変換は2段階で行われます:

  1. 秘密保留残高:最初に、トークンは公開残高から「保留中」の秘密残高に「預け入れ」されます。
  2. 秘密利用可能残高:保留残高はその後、利用可能残高に「適用」され、トークンが秘密送金に利用できるようになります。

このセクションでは最初の段階について説明します:公開トークン残高を秘密保留残高に預け入れる方法です。

以下の図は、公開残高から秘密保留残高にトークンを預け入れる際の手順を示しています:

Deposit Tokens

必要な命令

公開残高を秘密保留残高に変換するには、ConfidentialTransferInstruction::Deposit命令を呼び出します。預け入れ命令ごとの最大金額は2^48に制限されています。

spl_token_client クレートは confidential_transfer_deposit メソッドを提供しており、これは以下の例で示すように Deposit 命令を含むトランザクションを構築して送信します。

サンプルコード

以下の例は、公開トークン残高を秘密保留残高に預け入れる方法を示しています。

この例を実行するには、以下のコマンドを使用して、メインネットからクローンしたToken Extension Programでローカルvalidatorを起動します。ローカルvalidatorを起動するにはSolana CLIがインストールされている必要があります。

Terminal
$
solana-test-validator --clone-upgradeable-program TokenzQdBNbLqP5VEhdkAS6EPFLC1PHnBqCXEpPxuEb --url https://api.mainnet-beta.solana.com -r

執筆時点では、秘密送金機能はデフォルトのローカルvalidatorでは有効になっていません。サンプルコードを実行するには、メインネットのToken Extension Programをクローンする必要があります。

use anyhow::{Context, Result};
use solana_client::nonblocking::rpc_client::RpcClient;
use solana_sdk::{
commitment_config::CommitmentConfig,
signature::{Keypair, Signer},
transaction::Transaction,
};
use spl_associated_token_account::{
get_associated_token_address_with_program_id, instruction::create_associated_token_account,
};
use spl_token_client::{
client::{ProgramRpcClient, ProgramRpcClientSendTransaction},
spl_token_2022::{
extension::{
confidential_transfer::instruction::{configure_account, PubkeyValidityProofData},
ExtensionType,
},
id as token_2022_program_id,
instruction::reallocate,
solana_zk_sdk::encryption::{auth_encryption::*, elgamal::*},
},
token::{ExtensionInitializationParams, Token},
};
use spl_token_confidential_transfer_proof_extraction::instruction::{ProofData, ProofLocation};
use std::sync::Arc;
#[tokio::main]
async fn main() -> Result<()> {
// Create connection to local test validator
let rpc_client = Arc::new(RpcClient::new_with_commitment(
String::from("http://localhost:8899"),
CommitmentConfig::confirmed(),
));
// Load the default Solana CLI keypair to use as the fee payer
// This will be the wallet paying for the transaction fees
// Use Arc to prevent multiple clones of the keypair
let payer = Arc::new(load_keypair()?);
println!("Using payer: {}", payer.pubkey());
// Generate a new keypair to use as the address of the token mint
let mint = Keypair::new();
println!("Mint keypair generated: {}", mint.pubkey());
// Set up program client for Token client
let program_client = ProgramRpcClient::new(rpc_client.clone(), ProgramRpcClientSendTransaction);
// Number of decimals for the mint
let decimals = 9;
// Create a token client for the Token-2022 program
// This provides high-level methods for token operations
let token = Token::new(
Arc::new(program_client),
&token_2022_program_id(), // Use the Token-2022 program (newer version with extensions)
&mint.pubkey(), // Address of the new token mint
Some(decimals), // Number of decimal places
payer.clone(), // Fee payer for transactions
);
// Create extension initialization parameters for the mint
// The ConfidentialTransferMint extension enables confidential (private) transfers of tokens
let extension_initialization_params =
vec![ExtensionInitializationParams::ConfidentialTransferMint {
authority: Some(payer.pubkey()), // Authority that can modify confidential transfer settings
auto_approve_new_accounts: true, // Automatically approve new confidential accounts
auditor_elgamal_pubkey: None, // Optional auditor ElGamal public key
}];
// Create and initialize the mint with the ConfidentialTransferMint extension
// This sends a transaction to create the new token mint
let transaction_signature = token
.create_mint(
&payer.pubkey(), // Mint authority - can mint new tokens
Some(&payer.pubkey()), // Freeze authority - can freeze token accounts
extension_initialization_params, // Add the ConfidentialTransferMint extension
&[&mint], // Mint keypair needed as signer
)
.await?;
// Print results for user verification
println!("Mint Address: {}", mint.pubkey());
println!(
"Mint Creation Transaction Signature: {}",
transaction_signature
);
// ===== Create and configure token account for confidential transfers =====
println!("\nCreate and configure token account for confidential transfers");
// Get the associated token account address for the owner
let token_account_pubkey = get_associated_token_address_with_program_id(
&payer.pubkey(), // Token account owner
&mint.pubkey(), // Mint
&token_2022_program_id(), // Token program ID
);
println!("Token Account Address: {}", token_account_pubkey);
// Step 1: Create the associated token account
let create_associated_token_account_instruction = create_associated_token_account(
&payer.pubkey(), // Funding account
&payer.pubkey(), // Token account owner
&mint.pubkey(), // Mint
&token_2022_program_id(), // Token program ID
);
// Step 2: Reallocate the token account to include space for the ConfidentialTransferAccount extension
let reallocate_instruction = reallocate(
&token_2022_program_id(), // Token program ID
&token_account_pubkey, // Token account
&payer.pubkey(), // Payer
&payer.pubkey(), // Token account owner
&[&payer.pubkey()], // Signers
&[ExtensionType::ConfidentialTransferAccount], // Extension to reallocate space for
)?;
// Step 3: Generate the ElGamal keypair and AES key for token account
let elgamal_keypair = ElGamalKeypair::new_from_signer(&payer, &token_account_pubkey.to_bytes())
.expect("Failed to create ElGamal keypair");
let aes_key = AeKey::new_from_signer(&payer, &token_account_pubkey.to_bytes())
.expect("Failed to create AES key");
// The maximum number of Deposit and Transfer instructions that can
// credit pending_balance before the ApplyPendingBalance instruction is executed
let maximum_pending_balance_credit_counter = 65536;
// Initial token balance is 0
let decryptable_balance = aes_key.encrypt(0);
// Generate the proof data client-side
let proof_data = PubkeyValidityProofData::new(&elgamal_keypair)
.map_err(|_| anyhow::anyhow!("Failed to generate proof data"))?;
// Indicate that proof is included in the same transaction
let proof_location =
ProofLocation::InstructionOffset(1.try_into()?, ProofData::InstructionData(&proof_data));
// Step 4: Create instructions to configure the account for confidential transfers
let configure_account_instructions = configure_account(
&token_2022_program_id(), // Program ID
&token_account_pubkey, // Token account
&mint.pubkey(), // Mint
&decryptable_balance.into(), // Initial balance
maximum_pending_balance_credit_counter, // Maximum pending balance credit counter
&payer.pubkey(), // Token Account Owner
&[], // Additional signers
proof_location, // Proof location
)?;
// Combine all instructions
let mut instructions = vec![
create_associated_token_account_instruction,
reallocate_instruction,
];
instructions.extend(configure_account_instructions);
// Create and send the transaction
let recent_blockhash = rpc_client.get_latest_blockhash().await?;
let transaction = Transaction::new_signed_with_payer(
&instructions,
Some(&payer.pubkey()),
&[&*payer],
recent_blockhash,
);
let setup_signature = rpc_client
.send_and_confirm_transaction(&transaction)
.await?;
println!(
"Create Token Account Transaction Signature: {}",
setup_signature
);
// Mint some tokens to the newly created token account
// This gives the account some tokens to work with
let mint_signature = token
.mint_to(
&token_account_pubkey, // Destination account
&payer.pubkey(), // Mint authority
100 * 10u64.pow(decimals as u32), // Amount (100 tokens with decimal precision)
&[&payer], // Signers
)
.await?;
println!("Mint Tokens Transaction Signature: {}", mint_signature);
// Deposit the tokens to confidential state
// This converts regular tokens to confidential tokens
println!("Deposit tokens to confidential state pending balance");
let deposit_signature = token
.confidential_transfer_deposit(
&token_account_pubkey, // The token account
&payer.pubkey(), // Authority (owner) of the account
100 * 10u64.pow(decimals as u32), // Amount to deposit (100 tokens)
decimals, // Decimals of the token
&[&payer], // Signers (owner must sign)
)
.await?;
println!(
"Confidential Transfer Deposit Signature: {}",
deposit_signature
);
Ok(())
}
// Load the keypair from the default Solana CLI keypair path (~/.config/solana/id.json)
// This enables using the same wallet as the Solana CLI tools
fn load_keypair() -> Result<Keypair> {
// Get the default keypair path
let keypair_path = dirs::home_dir()
.context("Could not find home directory")?
.join(".config/solana/id.json");
// Read the keypair file directly into bytes using serde_json
// The keypair file is a JSON array of bytes
let file = std::fs::File::open(&keypair_path)?;
let keypair_bytes: Vec<u8> = serde_json::from_reader(file)?;
// Create keypair from the loaded bytes
// This converts the byte array into a keypair
let keypair = Keypair::from_bytes(&keypair_bytes)?;
Ok(keypair)
}
Click to execute the code.

Is this page helpful?

目次

ページを編集