A Android client for the NATS messaging system.
This is version 2.4.6 of the Android API 21 port to the java-nats library.
It has no external dependencies. I replaced some JDK classes not available in Android API 21 with implementations based on available JDK classes.
The NATS server renamed itself from gnatsd to nats-server around 2.4.6. This and other files try to use the new names, but some underlying code may change over several versions. If you are building yourself, please keep an eye out for issues and report them.
This is version 2.4.6 of the Android port to the java-nats library. This version is a ground up rewrite of the original library. Part of the goal of this re-write was to address the excessive use of threads, we created a Dispatcher construct to allow applications to control thread creation more intentionally. This version also removes all non-JDK runtime dependencies.
The API is simple to use and highly performant.
Version 2+ uses a simplified versioning scheme. Any issues will be fixed in the incremental version number. As a major release, the major version has been updated to 2 to allow clients to limit there use of this new API. With the addition of drain() we updated to 2.1, NKey support moved us to 2.2.
Previous versions are still available in the repo.
The client protocol spec doesn't explicitly state the encoding on subjects. Some clients use ASCII and some use UTF-8 which matches ASCII for a-Z and 0-9. Until 2.1.2 the 2.0+ version of the Java client used ASCII for performance reasons. As of 2.1.2 you can choose to support UTF-8 subjects via the Options. Keep in mind that there is a small performance penalty for UTF-8 encoding and decoding in benchmarks, but depending on your application this cost may be negligible. Also, keep in mind that not all clients support UTF-8 and test accordingly.
The nats-android client is provided in a single jar file, with a single external dependency for the encryption in NKey support. See Building From Source for details on building the library.
You can download the latest jar at https://search.maven.org/remotecontent?filepath=com/spoton/nats-android/2.4.2/nats-android-2.4.6.jar.
implementation 'com.spoton:nats-android:2.4.6'Sending and receiving with NATS is as simple as connecting to the nats-server and publishing or subscribing for messages. There is an example Android app provided in this repo as described in examples.md.
There are four different ways to connect using the Java library:
-
Connect to a local server on the default port:
Connection nc = Nats.connect();
-
Connect to a server using a URL:
Connection nc = Nats.connect("nats://myhost:4222");
-
Connect to one or more servers with a custom configuration:
Options o = new Options.Builder().server("nats://serverone:4222").server("nats://servertwo:4222").maxReconnects(-1).build(); Connection nc = Nats.connect(o);
See the javadoc for a complete list of configuration options.
-
Connect asynchronously, this requires a callback to tell the application when the client is connected:
Options options = new Options.Builder().server(Options.DEFAULT_URL).connectionListener(handler).build(); Nats.connectAsynchronously(options, true);
This feature is experimental, please let us know if you like it.
Once connected, publishing is accomplished via one of three methods:
-
With a subject and message body:
nc.publish("subject", "hello world".getBytes(StandardCharsets.UTF_8));
-
With a subject and message body, as well as a subject for the receiver to reply to:
nc.publish("subject", "replyto", "hello world".getBytes(StandardCharsets.UTF_8));
-
As a request that expects a reply. This method uses a Future to allow the application code to wait for the response. Under the covers a request/reply pair is the same as a publish/subscribe only the library manages the subscription for you.
Future<Message> incoming = nc.request("subject", "hello world".getBytes(StandardCharsets.UTF_8)); Message msg = incoming.get(500, TimeUnit.MILLISECONDS); String response = new String(msg.getData(), StandardCharsets.UTF_8);
All of these methods, as well as the incoming message code use byte arrays for maximum flexibility. Applications can send JSON, Strings, YAML, Protocol Buffers, or any other format through NATS to applications written in a wide range of languages.
The Java NATS library provides two mechanisms to listen for messages, three if you include the request/reply discussed above.
-
Synchronous subscriptions where the application code manually asks for messages and blocks until they arrive. Each subscription is associated with a single subject, although that subject can be a wildcard.
Subscription sub = nc.subscribe("subject"); Message msg = sub.nextMessage(Duration.ofMillis(500)); String response = new String(msg.getData(), StandardCharsets.UTF_8);
-
A Dispatcher that will call application code in a background thread. Dispatchers can manage multiple subjects with a single thread and single callback.
Dispatcher d = nc.createDispatcher((msg) -> { String response = new String(msg.getData(), StandardCharsets.UTF_8); ... }); d.subscribe("subject");
NATS supports TLS 1.2. The server can be configured to verify client certificates or not. Depending on this setting the client has several options.
You can include a truststore in your application assets as opposed to system truststore. To initiate an SSL context for your NATS Connection
val truststore = KeyStore.getInstance("BKS")
assetManager.open(KEYSTORE_FILE).use {
truststore.load(it, KEYSTORE_PASSWORD.toCharArray())
}
val tmf = TrustManagerFactory.getInstance(TrustManagerFactory.getDefaultAlgorithm())
tmf.init(truststore)
val sc = SSLContext.getInstance("TLS")
sc.init(null, tmf.trustManagers, java.security.SecureRandom())
return Options.Builder()
.server(NATS_SERVER)
.userInfo(NATS_USER, NATS_PASSWORD)
.sslContext(sc)The Java client will automatically reconnect if it loses its connection the nats-server. If given a single server, the client will keep trying that one. If given a list of servers, the client will rotate between them. When the nats servers are in a cluster, they will tell the client about the other servers, so that in the simplest case a client could connect to one server, learn about the cluster and reconnect to another server if its initial one goes down.
To tell the connection about multiple servers for the initial connection, use the servers() method on the options builder, or call server() multiple times.
String[] serverUrls = {"nats://serverOne:4222", "nats://serverTwo:4222"};
Options o = new Options.Builder().servers(serverUrls).build();Reconnection behavior is controlled via a few options, see the javadoc for the Options.Builder class for specifics on reconnect limits, delays and buffers.
The build depends on Gradle, and contains gradlew to simplify the process. After cloning, you can build the repository and run the tests with a single command:
> git clone https://github.com/SpotOnInc/nats-android.git
> cd java-nats
> ./gradlew buildThis will place the class files in a new build folder. To just build the jar:
> ./gradlew jarThe jar will be placed in build/libs.
You can also build the java doc, and the samples jar using:
> ./gradlew javadoc
> ./gradlew exampleJarThe java doc is located in build/docs and the example jar is in build/libs. Finally, to run the tests with the coverage report:
> ./gradlew test jacocoTestReportwhich will create a folder called build/reports/jacoco containing the file index.html you can open and use to browse the coverage. Keep in mind we have focused on library test coverage, not coverage for the examples.
Many of the tests run nats-server on a custom port. If nats-server is in your path they should just work, but in cases where it is not, or an IDE running tests has issues with the path you can specify the nats-server location with the environment variable nats_-_server_path.
Unless otherwise noted, the NATS source files are distributed under the Apache Version 2.0 license found in the LICENSE file.