A Java library for graphene blockchains such as Hive and Bitshares. This is the core of the PalmPay Point of Sale systems. GrapheneJ can also be used for your mobile apps, embedded systems, etc.

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Nelson R. Perez bf346f25bf Introducing the CreateHtlcOperation & supporting classes - HtlcHashType class enumerates all supported HTLC hash functions. - The HtlcHash class is used to represent all possible HTLC hash results. - The CreateHtlcOperation class itself is used to represent the operation that creates an HTLC - A simple test class was introduced in order to test hash functions and subsequently also test the HTLC operation serialization		2019-07-11 13:25:38 -05:00
graphenej	Introducing the CreateHtlcOperation & supporting classes	2019-07-11 13:25:38 -05:00
sample	Renamed method and changed its functionality	2019-06-24 16:07:11 -05:00
.gitattributes	Trying to remove \r\n from files	2016-11-21 23:15:11 -05:00
.gitignore	- Added back the files for the sample project to the repository	2018-06-12 13:56:59 -05:00
LICENSE	Update LICENSE	2018-05-23 11:20:28 -05:00
README.md	Updating repo references	2017-05-20 19:31:57 -05:00
build.gradle	Updated gradle version	2019-05-06 16:02:40 -05:00
gradle.properties	Fixed a remaining issue with the deserialization of the BitAssetData 'get_object' response	2018-02-22 17:38:20 -05:00
gradlew	Renamed HistoricalTransfer to OperationHistory	2018-05-31 15:52:26 -05:00
settings.gradle	Initial tests in order to introduce a centralized broker architecture	2018-05-31 15:52:26 -05:00

README.md

graphenej

A Java library for mobile app Developers; Graphene/Bitshares blockchain.

Usage

In your root build.gradle, add this if you don't already have it.

allprojects {
    repositories {
        jcenter()
    }
}

In yout app module, add the following dependency:

dependencies {
    compile 'com.github.bilthon:graphenej:0.4.2'
}

Example

Very simple funds transfer

This is a simple transfer operation of 1 BTS from account bilthon-15 to bilthon-5

// Creating a transfer operation
TransferOperation transferOperation = new TransferOperationBuilder()
        .setTransferAmount(new AssetAmount(UnsignedLong.valueOf(100000), new Asset("1.3.0")))
        .setSource(new UserAccount("1.2.143563"))       // bilthon-15
        .setDestination(new UserAccount("1.2.139313"))  // bilthon-5
        .setFee(new AssetAmount(UnsignedLong.valueOf(264174), new Asset("1.3.0")))
        .build();
        
// Adding operations to the operation list
ArrayList<BaseOperation> operationList = new ArrayList<>();
operationList.add(transferOperation);

// Creating a transaction instance
Transaction transaction = new Transaction(sourcePrivateKey, null, operationList);

From here on, it is just a matter of creating a websocket connection and using a custom handler called TransactionBroadcastSequence in order to broadcast it to the witness node.

// Setting up a secure websocket connection.
SSLContext context = null;
context = NaiveSSLContext.getInstance("TLS");
WebSocketFactory factory = new WebSocketFactory();
factory.setSSLContext(context);

WebSocket mWebSocket = factory.createSocket(FULL_NODE_URL);

mWebSocket.addListener(new TransactionBroadcastSequence(transaction, new Asset("1.3.0"), listener));
mWebSocket.connect();

The provided listener is an instance of the class WitnessResponseListener.