Binance Futures Public API connector Java

This is a lightweight library that works as a connector to the Binance Futures API

• Supported APIs:
  • /fapi/*
  • /dapi/*
  • /futures/*
  • USD-M Futures Websocket Market Stream
  • COIN-M Futures Websocket Market Stream
  • USD-M Futures User Data Stream
  • COIN-M Futures User Data Stream
• Test cases and examples

Installation

Replace LATEST_VERSION with the latest version number and paste the snippet below in pom.xml

<dependency>
    <groupId>io.github.binance</groupId>
    <artifactId>binance-futures-connector-java</artifactId>
    <version>LATEST_VERSION</version>
</dependency>

Run mvn install where pom.xml is located to install the dependency.

Run Example

The examples are located under src/test/java/examples. Before running the examples, set up your API_KEY and SECRET_KEY in PrivateConfig.java. This configuration file is only used for examples, you should reconfigure the API_KEY and SECRET_KEY when using the library.

RESTful APIs

The endpoints are categorized according to the following API documentations:

• Binance USDⓈ-M Futures
• Binance COIN-M Futures

Each object corresponds to its category which will be used to call its respective endpoints.

Category	Object
Account/Trades	account
Market Data	market
User Data	userData
Portfolio Margin	portfolioMargin

Market Endpoint: Exchange Information

// UM-Futures
UMFuturesClientImpl client = new UMFuturesClientImpl();
String result = client.market().exchangeInfo();

// CM-Futures
CMFuturesClientImpl client = new CMFuturesClientImpl();
String result = client.market().exchangeInfo();

Trade Endpoint: Testing a new order

LinkedHashMap<String,Object> parameters = new LinkedHashMap<String,Object>();

UMFuturesClientImpl client = new UMFuturesClientImpl(PrivateConfig.API_KEY, PrivateConfig.SECRET_KEY);

parameters.put("symbol","BTCUSDT");
parameters.put("side", "SELL");
parameters.put("type", "LIMIT");
parameters.put("timeInForce", "GTC");
parameters.put("quantity", 0.01);
parameters.put("price", 9500);

String result = client.trade().testNewOrder(parameters);

Testnet

/fapi/* and /dapi/* endpoints can be tested in Futures Testnet. You can use it by changing the base URL:

LinkedHashMap<String,Object> parameters = new LinkedHashMap<>();

UMFuturesClientImpl client = new UMFuturesClientImpl(PrivateConfig.TESTNET_API_KEY, PrivateConfig.TESTNET_SECRET_KEY);
String result = client.market().time();

Base URL

It's recommended to pass in the baseUrl parameter. If not provided, the default baseUrl for USD-M Futures is https://fapi.binance.com
If not provided, the default baseUrl for COIN-M Futures is https://dapi.binance.com

Optional parameters

All parameters are read from a LinkedHashMap<String,Object> object where String is the name of the parameter and Object is the value of the parameter. The parameters should follow their exact naming as in the API documentation.

LinkedHashMap<String,Object> parameters = new LinkedHashMap<String,Object>();

parameters.put("symbol","BTCUSDT");
parameters.put("side", "SELL");
parameters.put("type", "LIMIT");
parameters.put("timeInForce", "GTC");
parameters.put("quantity", 0.01);
parameters.put("price", 9500);

Response MetaData

The Binance API server provides weight usages in the headers of each response. This value can be return by calling setShowLimitUsage and setting it to true.

UMFuturesClientImpl client = new UMFuturesClientImpl();
client.setShowLimitUsage(true);
String result = client.market().time();
logger.info(result);

output:

INFO: {"data":"{"serverTime":1633434339494}","x-mbx-used-weight":"1","x-mbx-used-weight-1m":"1"}

Proxy

HTTP Proxy is supported.

To set it up, call setProxy() with ProxyAuth and before submitting requests to binance:

CMFuturesClientImpl client = new CMFuturesClientImpl();
Proxy proxyConn = new Proxy(Proxy.Type.HTTP, new InetSocketAddress("127.0.0.1", 8080));
ProxyAuth proxy = new ProxyAuth(proxyConn, null);

client.setProxy(proxy);
logger.info(client.market().time());

For authenticated Proxy, define ProxyAuth with Authenticator from okhttp3:

CMFuturesClientImpl client = new CMFuturesClientImpl();
Proxy proxyConn = new Proxy(Proxy.Type.HTTP, new InetSocketAddress("127.0.0.1", 8080));
    Authenticator auth = new Authenticator() {
    public Request authenticate(Route route, Response response) throws IOException {
        if (response.request().header("Proxy-Authorization") != null) {
            return null; // Give up, we've already failed to authenticate.
          }
      
        String credential = Credentials.basic("username", "password");
        return response.request().newBuilder().header("Proxy-Authorization", credential).build();
        
    }
};
ProxyAuth proxy = new ProxyAuth(proxyConn, auth);

client.setProxy(proxy);
logger.info(client.market().time());

To undo Proxy, use unsetProxy() before submitting requests to binance:

client.unsetProxy();
logger.info(client.market().time());

Complete examples are available to the following folders:

• test/java/examples/cm_futures/proxy
• test/java/examples/um_futures/proxy

Logging

ch.qos.logback is used for logging in this connector. The configuration xml file can be found under src/main/resources.

Error

There are 3 types of error which may be thrown by this library.

• BinanceConnectorException
  • This is thrown when there is a validation error for parameters.For instance, mandatory parameter not sent. This error will be thrown before the request is sent to the server.
• BinanceClientException
  • This is thrown when server returns 4XX, it's an issue from client side.
  • The error consists of these 3 objects which will help in debugging the error:
    • httpStatusCode - HTTP status code
    • errorCode - API Server's error code, e.g. -1102
    • errMsg - API Server's error message, e.g. Unknown order sent.
• BinanceServerException
  • This is thrown when server returns 5XX, it's an issue from server side.

try {
      String result = client.trade().newOrder(parameters);
      logger.info(result);
    } catch (BinanceConnectorException e) {
      logger.error("fullErrMessage: {}", e.getMessage(), e);
    } catch (BinanceClientException e) {
      logger.error("fullErrMessage: {} \nerrMessage: {} \nerrCode: {} \nHTTPStatusCode: {}",
      e.getMessage(), e.getErrMsg(), e.getErrorCode(), e.getHttpStatusCode(), e);
    }

Websocket

UMWebsocketClientImpl client = new UMWebsocketClientImpl(); // defaults to production websocket URL unless stated
int streamID1 = client.aggTradeStream("btcusdt",((event) -> {
    System.out.println(event);
}));

//Combining Streams
ArrayList<String> streams = new ArrayList<>();
streams.add("btcusdt@trade");
streams.add("bnbusdt@trade");

int streamID2 = client.combineStreams(streams, ((event) -> {
    System.out.println(event);
}));

//Listening to User Data Stream
int streamID3 = client.listenUserStream(listenKey, ((event) -> {
  System.out.println(event);
}));

//Closing a single stream
client.closeConnection(streamID1); //closes aggTradeStream-btcusdt

//Closing all streams
client.closeAllConnections();

More websocket examples are available in the test/examples folder

Test

mvn clean test

Contributing

Contributions are welcome.
If you've found a bug within this project, please open an issue to discuss what you would like to change.
If it's an issue with the API, please open a topic at Binance Developer Community