chow-blaze-prov-test
v1.0.0
Published
An UTxO RPC provider for the Blaze transaction builder
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Blaze UTxO RPC Provider 🚀
This project provides a UTxO RPC (u5c) provider for use with the Blaze transaction-building library. The provider allows JavaScript/TypeScript applications to interact with UTxO-based blockchains, such as Cardano, using the standardized UTxO RPC interface.
🌟 Overview
Blaze is a powerful library that simplifies the process of creating Cardano transactions and interacting with Cardano smart contracts using JavaScript/TypeScript. However, Blaze requires access to the blockchain's current state (UTxOs, protocol parameters, etc.) to build and sign transactions.
The UTxO RPC (u5c) provider enables Blaze to access this state in a standardized and efficient way via gRPC, using a compact and high-performance binary format.
✨ Features
- 🔗 Standardized Interface: Uses the UTxO RPC specification to ensure compatibility and interoperability across UTxO-based blockchains.
- ⚡️ Performance Optimized: Utilizes gRPC for efficient communication with blockchain nodes, reducing network overhead and message size.
- 🔧 Flexible Provider Options: Can be used with hosted services, local nodes like Dolos, or any UTxO RPC-compliant service.
📦 Installation
To install the UTxO RPC provider, use npm:
npm install @utxorpc/blaze-provider
You also need to install the Blaze SDK if you haven’t already:
npm install @blaze-cardano/sdk
💡 Basic Usage
Below is an example of how to use the UTxO RPC provider with Blaze to build and submit a transaction.
// Step #1
// Import Blaze SDK and UTxO RPC provider
import {
Bip32PrivateKey,
mnemonicToEntropy,
wordlist,
} from "@blaze-cardano/core";
import {
HotWallet,
Core,
Blaze,
} from "@blaze-cardano/sdk";
import { U5C } from "@utxorpc/blaze-provider";
async function main() {
// Step #2
// Create a new U5C provider
const provider = new U5C({
url: "http://localhost:50051",
headers: {
"dmtr-api-key": "<api-key>",
},
});
// Step #3
// Create a new wallet from a mnemonic
const mnemonic =
"your 24-word mnemonic here";
const entropy = mnemonicToEntropy(mnemonic, wordlist);
const masterkey = Bip32PrivateKey.fromBip39Entropy(Buffer.from(entropy), "");
const wallet = await HotWallet.fromMasterkey(masterkey.hex(), provider);
// Step #4
// Create a Blaze instance from the wallet and provider
const blaze = await Blaze.from(provider, wallet);
// Optional: Print the wallet address
console.log("Wallet address", wallet.address.toBech32());
// Optional: Print the wallet balance
console.log("Wallet balance", (await wallet.getBalance()).toCore());
// Step #5
// Create an example transaction that sends 5 ADA to an address
const tx = await blaze
.newTransaction()
.payLovelace(
Core.Address.fromBech32(
"addr_test1qrnrqg4s73skqfyyj69mzr7clpe8s7ux9t8z6l55x2f2xuqra34p9pswlrq86nq63hna7p4vkrcrxznqslkta9eqs2nsmlqvnk",
),
5_000_000n,
)
.complete();
// Step #6
// Sign the transaction
const signexTx = await blaze.signTransaction(tx);
// Step #7
// Submit the transaction to the blockchain network
const txId = await blaze.provider.postTransactionToChain(signexTx);
// Optional: Print the transaction ID
console.log("Transaction ID", txId);
}
main().catch(console.error);
👥 Join the Conversation
If you want to discuss UTxO RPC or get involved in the community, join the TxPipe Discord! There's a dedicated channel for UTxO RPC where you can connect with other developers, share ideas, and get support.
👉 Join the TxPipe Discord here! 💬
📜 License
This project is licensed under the MIT License. See the LICENSE file for details.