burstkit4j
Boom Java Development Framework
Beta Status
This project is currently in beta. Please report any issues through the GitHub issue tracker.
Including in your project
- Maven:
<repositories>
<repository>
<id>jitpack.io</id>
<url>https://jitpack.io</url>
</repository>
</repositories>
<dependencies>
<dependency>
<groupId>com.github.burst-apps-team</groupId>
<artifactId>burstkit4j</artifactId>
<version>v0.9-beta1</version>
</dependency>
</dependencies>- Gradle:
repositories {
maven { url 'https://jitpack.io' }
}
dependencies {
implementation 'com.github.burst-apps-team:burstkit4j:v0.9-beta1'
}Usage
-
Commonly used Burst objects / entities / helper classes can be found in the entity package.
-
For locally-performed cryptographic operations such as encrypting/decrypting, signing/verifying, etc please see the BurstCrypto interface (Use
BurstCrypto.getInstance()to obtain a singleton instance) -
For Burst Node API calls such as making transactions and looking at blocks/accounts/transactions, please see the BurstNodeService interface. (Use
BurstNodeService.getInstance("http://nodeAddress.com:8125")to obtain an instance.)
The BurstNodeService wraps the returned values in RxJava Singles. You can create your own SchedulerAssigner to automatically make all returned values subscribe on the specified schedulers. If you don't want to use RxJava, call toFuture() on any Single.
GSON is used for JSON serialization/deserialization. To obtain a GsonBuilder customized to serialize/deserialize BurstKit entities, call BurstKitUtils.buildGson().
Examples
- Sending a transaction containing an encrypted message
import burst.kit.burst.BurstCrypto;
import burst.kit.entity.BurstValue;
import burst.kit.entity.HexStringByteArray;
import burst.kit.entity.response.BRSError;
import burst.kit.entity.response.BroadcastTransactionResponse;
import burst.kit.service.BurstNodeService;
import io.reactivex.disposables.Disposable;
public class TransactionSender {
/**
* Example which sends 1 BURST to another account with a fee of 0.1 BURST
* and includes an encrypted message which only the sender or recipient
* can read. Performs all cryptographic functions (encrypting the message
* and signing the transaction) offline so does not send the passphrase
* to the node (which would be a huge security risk!)
*/
public void sendTransactionWithEncryptedMessage() {
// Obtain handles to services
BurstCrypto burstCrypto = BurstCrypto.getInstance();
BurstNodeService burstNodeService = BurstNodeService.getInstance("https://wallet.dev.burst-test.net");
String passphrase = "passphrase"; // Your burst wallet passphrase
byte[] recipientPublicKey = new HexStringByteArray("AABBCC112233").getBytes(); // Recipient public key
// Generate the transaction without signing it
Disposable disposable = burstNodeService.generateTransactionWithEncryptedMessage(burstCrypto.getBurstAddressFromPublic(recipientPublicKey), burstCrypto.getPublicKey(passphrase), BurstValue.fromBurst(1), BurstValue.fromBurst(0.1), 1440, burstCrypto.encryptTextMessage("Sent from burstkit4j!", passphrase, recipientPublicKey))
.flatMap(response -> {
// Now we need to locally sign the transaction.
// Get the unsigned transaction bytes from the node's response
byte[] unsignedTransactionBytes = response.getUnsignedTransactionBytes().getBytes();
// Locally sign the transaction using our passphrase
byte[] signedTransactionBytes = burstCrypto.signTransaction(passphrase, unsignedTransactionBytes);
// Broadcast the transaction through the node, still not sending it any sensitive information. Use this as the result of the flatMap so we do not have to call subscribe() twice
return burstNodeService.broadcastTransaction(signedTransactionBytes);
})
.subscribe(this::onTransactionSent, this::handleError);
}
private void onTransactionSent(BroadcastTransactionResponse response) {
// Get the transaction ID of the newly sent transaction!
System.out.println("Transaction sent! Transaction ID: " + response.getTransactionID().getID());
}
private void handleError(Throwable t) {
if (t instanceof BRSError) {
System.out.println("Caught BRS Error: " + ((BRSError) t).getDescription());
} else {
t.printStackTrace();
}
}
}