6 releases (3 breaking)
new 0.21.1 | Nov 27, 2024 |
---|---|
0.20.3 | Oct 30, 2024 |
0.19.4 | Oct 24, 2024 |
0.19.2 |
|
0.18.1 | Sep 18, 2024 |
#512 in Magic Beans
664 downloads per month
540KB
13K
SLoC
Rust client for The Open Network
Rust client for The Open Network
Features
- Rust client for The Open Network
- Using
tonlibjson
as data provider - Support jetton functions: getting of jetton data and wallet address for jetton
- Support internal and external jetton metadata loading
- Connection pooling & retries support for better server-level interaction
- Support of IPFS jetton metadata
Feature flags
state_cache
- Enables caching of ton contract states. This feature is recommended to use if the contract state received from blockchain is reused multiple times.emulate_get_method
- Enables the usage of emulator to run get_methods locally.no_avx512
- Forces dependent tonlib-sys to be built without avx512 instruction set.with_debug_info
- Enables debug information and stack-trace received from underlying tonlibjson C++ code.
Dependencies
tonlib-sys
- https://github.com/ston-fi/tonlib-sys
tonlib-core
- https://github.com/ston-fi/tonlib-rs
Prerequisites
For Linux:
sudo apt install build-essential cmake libsodium-dev libsecp256k1-dev lz4 liblz4-dev
For macOS:
brew install readline secp256k1 ccache pkgconfig cmake libsodium
Usage
To use this library in your Rust application, add the following to your Cargo.toml file:
[dependencies]
tonlib-client = "version"
Then, in your Rust code, you can import the library with:
use tonlib_client;
TON blockchain client
To call methods, create a client:
use tonlib_client::client::TonClient;
use tonlib_client::client::TonClientBuilder;
async fn create_client()-> anyhow::Result<()>{
TonClient::set_log_verbosity_level(2); //setup of logging level
let client = TonClientBuilder::new()
.with_pool_size(10)
.with_keystore_dir(String::from("/tmp"))
.build()
.await?;
Ok(())
}
TonClient::set_log_verbosity_level(2);
sets the logging level.
By default, the connection is made to mainnet. But you can also specify a test network when creating the client:
use tonlib_client::config::TESTNET_CONFIG;
use tonlib_client::client::TonConnectionParams;
use tonlib_client::client::TonClientBuilder;
async fn create_client_with_conn_params()-> anyhow::Result<()>{
let client = TonClientBuilder::new()
.with_connection_params(&TonConnectionParams {
config: TESTNET_CONFIG.to_string(),
blockchain_name: None,
use_callbacks_for_network: false,
ignore_cache: false,
keystore_dir: None,
..Default::default()
})
.with_pool_size(10)
.build()
.await?;
Ok(())
}
After creating the client, you can call methods on the TON blockchain:
use tonlib_core::TonAddress;
use tonlib_client::tl::InternalTransactionId;
use tonlib_core::types::ZERO_HASH;
use tonlib_client::tl::NULL_BLOCKS_ACCOUNT_TRANSACTION_ID;
use tonlib_client::tl::BlocksTransactions;
use tonlib_client::tl::BlocksShards;
use tonlib_client::tl::BlockId;
use tonlib_client::tl::BlocksMasterchainInfo;
use tonlib_client::client::TonClient;
use tonlib_client::client::TonClientInterface;
use tonlib_core::TonHash;
async fn call_blockchain_methods()-> anyhow::Result<()>{
let client = TonClient::builder().build().await?;
let (_, info) = client.get_masterchain_info().await?;
println!("MasterchainInfo: {:?}", &info);
let block_id = BlockId {
workchain: info.last.workchain,
shard: info.last.shard,
seqno: info.last.seqno,
};
let block_id_ext = client.lookup_block(1, &block_id, 0, 0).await?;
println!("BlockIdExt: {:?}", &block_id_ext);
let block_shards: BlocksShards = client.get_block_shards(&info.last).await?;
let mut shards = block_shards.shards.clone();
println!("Shards: {:?}", &block_shards);
shards.insert(0, info.last.clone());
for shard in &shards {
println!("Processing shard: {:?}", shard);
let workchain = shard.workchain;
let txs: BlocksTransactions = client
.get_block_transactions(&shard, 7, 1024, &NULL_BLOCKS_ACCOUNT_TRANSACTION_ID)
.await?;
println!(
"Number of transactions: {}, incomplete: {}",
txs.transactions.len(),
txs.incomplete
);
for tx_id in txs.transactions {
let mut t: TonHash = ZERO_HASH;
t.clone_from_slice(tx_id.account.as_slice());
let addr = TonAddress::new(workchain, &t);
let id = InternalTransactionId {
hash: tx_id.hash.clone(),
lt: tx_id.lt,
};
let tx = client
.get_raw_transactions_v2(&addr, &id, 1, false)
.await?;
println!("Tx: {:?}", tx.transactions[0])
}
}
Ok(())
}
You can get the account state for any contract:
use tonlib_core::TonAddress;
use tonlib_client::client::TonClient;
use crate::tonlib_client::client::TonClientInterface;
async fn get_state()-> anyhow::Result<()>{
let client = TonClient::builder().build().await?;
let address = TonAddress::from_base64_url(
"EQB3ncyBUTjZUA5EnFKR5_EnOMI9V1tTEAAPaiU71gc4TiUt-",
)?;
let r = client
.get_account_state(&address)
.await;
Ok(())
}
Working with contracts and jettons
Methods for working with tokens and wallets:
use tonlib_client::client::TonClient;
use tonlib_client::contract::TonContractFactory;
use tonlib_client::contract::JettonMasterContract;
use tonlib_client::contract::JettonWalletContract;
async fn method_call() -> anyhow::Result<()> {
let client = TonClient::builder().build().await?;
let contract_factory = TonContractFactory::builder(&client).build().await?;
let master_contract = contract_factory.get_contract(
&"EQDk2VTvn04SUKJrW7rXahzdF8_Qi6utb0wj43InCu9vdjrR".parse()?,
);
let jetton_data = master_contract.get_jetton_data().await?;
let wallet_contract = contract_factory.get_contract(
&"EQCGY3OVLtD9KRcOsP2ldQDtuY0FMzV7wPoxjrFbayBXc23c".parse()?,
);
let wallet_data = wallet_contract.get_wallet_data().await?;
Ok(())
}
To load the metadata of the token, one may use generic MetaLoader
and it type aliases: JettonMetaLoader, NftItemMetaLoader NftColletionMetaLoader
:
use tonlib_client::client::TonClient;
use tonlib_client::contract::TonContractFactory;
use tonlib_client::contract::JettonMasterContract;
use tonlib_client::meta::JettonMetaLoader;
use tonlib_client::meta::LoadMeta;
async fn load_meta() -> anyhow::Result<()> {
let client = TonClient::builder().build().await?;
let contract_factory = TonContractFactory::builder(&client).build().await?;
let contract =
contract_factory.get_contract(&"EQB-MPwrd1G6WKNkLz_VnV6WqBDd142KMQv-g1O-8QUA3728".parse()?);
let jetton_data = contract.get_jetton_data().await?;
let loader = JettonMetaLoader::default()?;
let content_res = loader.load(&jetton_data.content).await?;
Ok(())
}
Get the wallet address for the token:
use tonlib_core::TonAddress;
use tonlib_client::client::TonClient;
use tonlib_client::contract::TonContractFactory;
use tonlib_client::contract::JettonMasterContract;
async fn get_wallet_address() -> anyhow::Result<()> {
let client = TonClient::default().await?;
let contract_factory = TonContractFactory::builder(&client).build().await?;
let contract =
contract_factory.get_contract(&"EQDk2VTvn04SUKJrW7rXahzdF8_Qi6utb0wj43InCu9vdjrR".parse()?,
);
let owner_address = TonAddress::from_base64_url(
"EQB2BtXDXaQuIcMYW7JEWhHmwHfPPwa-eoCdefiAxOhU3pQg",
)?;
let wallet_address = contract.get_wallet_address(&owner_address).await?;
Ok(())
}
Send message to TON
Create key pair from secret phrase ( )
use tonlib_core::mnemonic::Mnemonic;
use tonlib_core::mnemonic::KeyPair;
async fn create_key_pair() -> anyhow::Result<()> {
let mnemonic = Mnemonic::new(
vec![
"dose", "ice", "enrich", "trigger", "test", "dove", "century", "still", "betray",
"gas", "diet", "dune",
],
&None,
)?;
let key_pair = mnemonic.to_key_pair();
Ok(())
}
And now you are ready to send transfer messages to TON blockchain.
Create a jetton transfer:
use num_bigint::BigUint;
use std::time::SystemTime;
use std::sync::Arc;
use tonlib_core::TonAddress;
use tonlib_core::cell::BagOfCells;
use tonlib_client::client::TonClient;
use tonlib_client::client::TonClientInterface;
use tonlib_client::contract::TonContractFactory;
use tonlib_client::contract::JettonMasterContract;
use tonlib_core::message::JettonTransferMessage;
use tonlib_core::message::TransferMessage;
use tonlib_core::message::TonMessage;
use tonlib_core::message::HasOpcode;
use tonlib_core::mnemonic::KeyPair;
use tonlib_core::mnemonic::Mnemonic;
use tonlib_core::wallet::TonWallet;
use tonlib_core::wallet::WalletVersion;
use tonlib_core::message::CommonMsgInfo;
use tonlib_core::message::ExternalIncomingMessage;
async fn create_jetton_transfer() -> anyhow::Result<()> {
let seqno:i32 = 30000000;
let self_address: TonAddress = "EQB2BtXDXaQuIcMYW7JEWhHmwHfPPwa-eoCdefiAxOhU3pQg "
.parse()
.unwrap();
let mnemonic_str = "mnemonic mnemonic mnemonic mnemonic mnemonic mnemonic mnemonic mnemonic mnemonic mnemonic mnemonic mnemonic mnemonic mnemonic mnemonic mnemonic mnemonic mnemonic mnemonic mnemonic mnemonic mnemonic mnemonic mnemonic";
let mnemonic: Mnemonic = Mnemonic::from_str(mnemonic_str, &None).unwrap();
let key_pair: KeyPair = mnemonic.to_key_pair().unwrap();
let jetton_master_address: TonAddress = "EQDCJL0iQHofcBBvFBHdVG233Ri2V4kCNFgfRT-gqAd3Oc86"
.parse()
.unwrap();
let client = TonClient::default().await?;
let contract_factory = TonContractFactory::builder(&client).build().await?;
let jetton_master =
contract_factory.get_contract(&jetton_master_address);
let self_jetton_wallet_addr = jetton_master.get_wallet_address(&self_address).await?;
let wallet = TonWallet::derive_default(WalletVersion::V4R2, &key_pair)?;
let dest: TonAddress = "<destination wallet address>".parse()?;
let src: TonAddress = "<source wallet address>".parse()?;
let jetton_amount = BigUint::from(1000000u64);
let jetton_transfer = JettonTransferMessage::new(&dest, &jetton_amount)
.with_query_id(100500)
.with_response_destination(&self_address)
.build()?;
let ton_amount = BigUint::from(200000000u64); // 0.2 TON
let external_msg_info = ExternalIncomingMessage{
src,
dest,
import_fee: ton_amount,
};
let common_msg_info = CommonMsgInfo::ExternalIncomingMessage(external_msg_info);
let transfer = TransferMessage::new(common_msg_info)
.with_data(jetton_transfer.into())
.build()?;
let now = SystemTime::now()
.duration_since(SystemTime::UNIX_EPOCH)?
.as_secs() as u32;
let body = wallet.create_external_body(now + 60, seqno.try_into().unwrap(), vec![Arc::new(transfer)])?;
let signed = wallet.sign_external_body(&body)?;
let wrapped = wallet.wrap_signed_body(signed, true)?;
let boc = BagOfCells::from_root(wrapped);
let tx = boc.serialize(true)?;
let hash = client.send_raw_message_return_hash(tx.as_slice()).await?;
Ok(())
}
Create a simple transfer:
use anyhow::anyhow;
use num_bigint::BigUint;
use std::time::SystemTime;
use std::sync::Arc;
use tonlib_core::TonAddress;
use tonlib_core::cell::BagOfCells;
use tonlib_core::message::TransferMessage;
use tonlib_core::wallet::TonWallet;
use tonlib_client::client::TonClient;
use tonlib_client::client::TonClientInterface;
use tonlib_core::mnemonic::KeyPair;
use tonlib_core::mnemonic::Mnemonic;
use tonlib_core::wallet::WalletVersion;
use tonlib_core::message::TonMessage;
use tonlib_core::message::CommonMsgInfo;
use tonlib_core::message::ExternalIncomingMessage;
async fn create_simple_transfer() -> anyhow::Result<()> {
let mnemonic = Mnemonic::new(
vec![
"dose", "ice", "enrich", "trigger", "test", "dove", "century", "still", "betray",
"gas", "diet", "dune",
],
&None,
)?;
let key_pair = mnemonic.to_key_pair()?;
let seqno = 30000000;
let client = TonClient::default().await?;
let wallet = TonWallet::derive_default(WalletVersion::V4R2, &key_pair)?;
let src: TonAddress = "<source wallet address>".parse()?;
let dest: TonAddress = "<destination wallet address>".parse()?;
let value = BigUint::from(10000000u64); // 0.01 TON
let external_msg_info = ExternalIncomingMessage{
src,
dest,
import_fee: value,
};
let common_msg_info = CommonMsgInfo::ExternalIncomingMessage(external_msg_info);
let transfer = TransferMessage::new(common_msg_info).build()?;
let now = SystemTime::now()
.duration_since(SystemTime::UNIX_EPOCH)?
.as_secs() as u32;
let body = wallet.create_external_body(now + 60, seqno, vec![Arc::new(transfer)])?;
let signed = wallet.sign_external_body(&body)?;
let wrapped = wallet.wrap_signed_body(signed, true)?;
let boc = BagOfCells::from_root(wrapped);
let tx = boc.serialize(true)?;
let hash = client.send_raw_message_return_hash(tx.as_slice()).await?;
Ok(())
}
Contributing
If you want to contribute to this library, please feel free to open a pull request on GitHub.
License
This library is licensed under the MIT license. See the LICENSE file for details. -->
Dependencies
~18–31MB
~456K SLoC