WebClient client = WebClient.create(vertx);
HttpRequest request = client.get("/resource");
request.send(ar -> {
if (ar.succeeded()) {
HttpResponse response = ar.result();
} else {
Throwable error = ar.cause();
}
});
Migrate from Vert.x 3 to 4
This guide describes the updates in Eclipse Vert.x 4 release. Use the information to upgrade your Vert.x 3.x applications to Vert.x 4. It provides information about the new, deprecated and unsupported features in this release.
Depending on the modules used in your application, you can read the relevant section to know more about the changes in Vert.x 4.
About Vert.x
Vert.x is a toolkit used for creating reactive, non-blocking, and asynchronous applications that run on Java Virtual Machine. (JVM). It contains several components that help you create reactive applications. It is designed to be cloud-native.
Since Vert.x supports asynchronous applications it can be used to create applications with high volume of messages, large event processing, HTTP interactions, and so on.
What’s changed in Vert.x 4
This section explains the fundamental differences between Vert.x 4 and 3.x releases.
Use future methods for asynchronous operations
Vert.x 4 uses futures for asynchronous operations. Every callback method has a corresponding future method. Futures can be used to compose asynchronous operations. You can use a combination of callback and future methods to migrate callback-based applications to Vert.x 4. However, you can also continue using callbacks for asynchronous operations.
The following example shows how a callback was used for asynchronous operations in Vert.x 3.x releases.
The following example shows how to use callback and future methods together for asynchronous operations in Vert.x 4.
WebClient client = WebClient.create(vertx);
HttpRequest request = client.get("/resource");
Future<HttpResponse> response = request.send();
response.onComplete(ar -> {
if (ar.succeeded()) {
HttpResponse response = ar.result();
} else {
Throwable failure = ar.cause();
}
});
Error handling is better with futures. In callbacks, you have to handle failures at every stage of the composition, whereas in futures you can handle the failure once in the end. In basic applications, you may not notice distinct difference between using callbacks and futures.
The following example shows how callbacks can be used to compose two asynchronous operations. You can see that the error is handled at every composition.
client.get("/resource1").send(ar1 -> {
if (ar1.succeeded()) {
HttpResponse response = ar.result();
JsonObject json = response.body();
client.put("/resource2").sendJsonObject(ar2 -> {
if (ar2.succeeded()) {
// Handle final result
} else {
Throwable failure2 = ar.cause();
}
});
} else {
Throwable failure1 = ar.cause();
}
});
The following example shows how callbacks and futures can be used to compose two asynchronous operations in Vert.x 4. The error is handled only once in the end.
Future<HttpResponse> fut1 = client.get("/resource1").send();
Future<HttpResponse> fut2 = fut1.compose(response -> client.put("/resource2").sendJsonObject(response.body()));
fut2.onComplete(ar -> {
if (ar.succeeded()) {
// Handle final result
} else {
Throwable failure = ar.cause();
}
});
No dependency on the Jackson Databind library
The JSON features in Vert.x depend on Jackson library. Jackson Databind library enables object mapping of JSON.
In Vert.x 4, Jackson Databind is an optional Maven dependency. If you want to use this dependency, you must explicitly add it in the classpath.
-
If you are object mapping JSON, then you must explicitly add the dependency in your project descriptor in the
com.fasterxml.jackson.core:jackson-databind
jar.<dependencies> ... <dependency> <groupId>com.fasterxml.jackson.core</groupId> <artifactId>jackson-databind</artifactId> </dependency> ... </dependencies>
In the future, if you decide not to use object mapping of JSON, you can remove this dependency.
-
If you are not object mapping JSON, the Jackson Databind library is not required. You can run your applications without this jar.
Handling deprecations and removals
Some features and functions have been deprecated or removed in Vert.x 4. Before you migrate your applications to Vert.x 4, check for deprecations and removals.
-
Some APIs were deprecated in an Vert.x 3.x release and new equivalent APIs were provided in that release.
-
The deprecated APIs have been removed in Vert.x 4.
If your application uses a deprecated API, you should update your application to use the new API. This helps in migrating applications to the latest version of the product.
The Java compiler generates warnings when deprecated APIs are used. You can use the compiler to check for deprecated methods while migrating applications to Vert.x 4.
The following example shows an EventBus method that was deprecated in an Vert.x 3.x releases.
// Send was deprecated in Vert.x 3.x release
vertx.eventBus().send("some-address", "hello world", ar -> {
// Handle response here
});
The method send(String,String,Handler<AsyncResult<Message>>)
has been replaced in Vert.x 4 with the method request(String,String,Handler<AsyncResult<Message>>
).
The following example shows how to update your application to use the new method.
// New method can be used in Vert.x 3.x and Vert.x 4.x releases
vertx.eventBus().request("some-address", "hello world", ar -> {
// Handle response here
});
Changes in common components
This section explains the changes in basic Vert.x components.
Changes in messaging
This section explains the changes in the messaging methods.
Write and end methods in write streams are no longer fluent
The WriteStream<T>.write()
and WriteStream<T>.end()
methods are no longer fluent.
-
Write and end callback methods return
void
. -
Other write and end methods return
Future<Void>
.
This is a breaking change. Update your applications if you have used the fluent aspect for write streams.
MessageProducer
does not extend WriteStream
The MessageProducer
interface does not extend the WriteStream
interface.
In the previous releases of Vert.x, the MessageProducer
interface extended the WriteStream
interface. The MessageProducer
interface provided limited support for message back-pressure. Credit leaks would result in a reduction of credits in the message producer. If these leaks used all the credits, messages would not be sent.
However, MessageConsumer
will continue to extend ReadStream
. When MessageConsumer
is paused and the pending message queue is full, the messages are dropped. This continues the integration with Rx generators to build message consuming pipelines.
Changes in EventBus
The following section describes the changes in EventBus.
Removed the request-response send methods in EventBus
The EventBus.send(…, Handler<AsyncResult<Message<T>>>)
and Message.reply(…, Handler<AsyncResult<Message<T>>>)
methods have been removed. These methods would have caused overloading issues in Vert.x 4. The version of the method returning Future<Message<T>>
would collide with the fire and forget version.
The request-response messaging pattern should use the new request
and replyAndRequest
methods.
-
Use the method
EventBus.request(…, Handler<AsyncResult<Message<T>>>)
instead ofEventBus.send(…, Handler<AsyncResult<Message<T>>>)
to send a message. -
Use the method
Message.replyAndRequest(…, Handler<AsyncResult<Message<T>>>)
instead ofMessage.reply(…, Handler<AsyncResult<Message<T>>>)
to reply to the message.
The following example shows the request and reply to a message in Vert.x 3.x releases.
- Request
eventBus.send("the-address", body, ar -> ...);
- Reply
eventBus.consumer("the-address", message -> {
message.reply(body, ar -> ...);
});
The following example shows the request and reply to a message in Vert.x 4.
- Request
eventBus.request("the-address", body, ar -> ...);
- Reply
eventBus.consumer("the-address", message -> {
message.replyAndRequest(body, ar -> ...);
});
Changes in future
This section explains the changes in future.
Support for multiple handlers for futures
From Vert.x 4 onward, multiple handlers are supported for a future. The Future<T>.setHandler()
method used to set a single handler and has been removed. Use Future<T>.onComplete()
, Future<T>.onSuccess()
, and Future<T>.onFailure()
methods instead to call handlers on completion, success, and failure results of an action.
The following example shows how to call a handler in Vert.x 3.x releases.
Future<String> fut = getSomeFuture();
fut.setHandler(ar -> ...);
The following example shows how to call the new Future<T>.onComplete()
method in Vert.x 4.
Future<String> fut = getSomeFuture();
fut.onComplete(ar -> ...);
Removed the completer()
method in future
In earlier releases of Vert.x, you would use the Future.completer()
method to access Handler<AsyncResult<T>>
, which was associated with the Future
.
In Vert.x 4, the Future<T>.completer()
method has been removed. Future<T>
directly extends Handler<AsyncResult<T>>
. You can access all the handler methods using the Future
object. The Future
object is also a handler.
Removed the connection handler method in HTTP client request
The HttpClientRequest.connectionHandler()
method has been removed. Use HttpClient.connectionHandler()
method instead to call connection handlers for client requests in your application.
The following example shows how the HttpClientRequest.connectionHandler()
method was used in Vert.x 3.x releases.
client.request().connectionHandler(conn -> {
// Connection related code
}).end();
The following example shows you how to use the new HttpClient.connectionHandler()
method in Vert.x 4.
client.connectionHandler(conn -> {
// Connection related code
});
Changes in verticles
This section explains the changes in the verticles.
Updates in the create verticle method
In earlier releases of Vert.x, VerticleFactory.createVerticle()
method synchronously instantiated a verticle. From Vert.x 4 onward, the method asynchronously instantiates the verticle and returns the callback Callable<Verticle>
instead of the single verticle instance. This improvement enables the application to call this method once and invoke the returned callable multiple times for creating multiple instances.
The following code shows how verticles were instantiated in Vert.x 3.x releases.
Verticle createVerticle(String verticleName, ClassLoader classLoader) throws Exception;
The following code shows how verticles are instantiated in Vert.x 4.
void createVerticle(String verticleName, ClassLoader classLoader, Promise<Callable<Verticle>> promise);
Updates in the factory class and methods
The VerticleFactory
class has been simplified. The class does not require initial resolution of an identifier because the factory can instead use nested deployment to deploy the verticle.
If your existing applications use factories, in Vert.x 4 you can update the code to use a callable when a promise completes or fails. The callable can be called several times.
The following example shows existing factories in an Vert.x 3.x application.
return new MyVerticle();
The following example shows how to update existing factories to use promise in Vert.x 4.
promise.complete(() -> new MyVerticle());
Use the Vertx.executeBlocking()
method, if you want the factory to block code. When the factory receives the blocking code, it should resolve the promise and get the verticle instances from the promise.
Removed the multithreaded worker verticles
Multi-threaded worker verticle deployment option has been removed. This feature could only be used with Vert.x event-bus. Other Vert.x components such as HTTP did not support the feature.
Use the unordered Vertx.executeBlocking()
method to achieve the same functionality as multi-threaded worker deployment.
Changes in threads
This section explains the changes in threads.
Context affinity for non Vert.x thread
The Vertx.getOrCreateContext()
method creates a single context for each non Vert.x thread. The non Vert.x threads are associated with a context the first time a context is created. In earlier releases, a new context was created each time the method was called from a non Vert.x thread.
new Thread(() -> {
assertSame(vertx.getOrCreateContext(), vertx.getOrCreateContext());
}).start();
This change does not affect your applications, unless your application implicitly relies on a new context to be created with each invocation.
In the following example the n blocks run concurrently as each blocking code is called on a different context.
for (int i = 0;i < n;i++) {
vertx.executeBlocking(block, handler);
}
To get the same results in Vert.x 4, you must update the code:
for (int i = 0;i < n;i++) {
vertx.executeBlocking(block, false, handler);
}
Changes in HTTP
This section explains the changes in HTTP methods.
Generic updates in Vert.x HTTP methods
The following section describes the miscellaneous updates in Vert.x HTTP methods.
Updates in HTTP Methods for WebSocket
The changes in WebSocket
are:
-
The usage of the term
WebSocket
in method names was inconsistent. The method names had incorrect capitalization, for example,Websocket
, instead ofWebSocket
. The methods that had inconsistent usage ofWebSocket
in the following classes have been removed. Use the new methods that have correct capitalization instead.-
The following methods in
HttpServerOptions
class have been removed.Removed methods New methods getMaxWebsocketFrameSize()
getMaxWebSocketFrameSize()
setMaxWebsocketFrameSize()
setMaxWebSocketFrameSize()
getMaxWebsocketMessageSize()
getMaxWebSocketMessageSize()
setMaxWebsocketMessageSize()
setMaxWebSocketMessageSize()
getPerFrameWebsocketCompressionSupported()
getPerFrameWebSocketCompressionSupported()
setPerFrameWebsocketCompressionSupported()
setPerFrameWebSocketCompressionSupported()
getPerMessageWebsocketCompressionSupported()
getPerMessageWebSocketCompressionSupported()
setPerMessageWebsocketCompressionSupported()
setPerMessageWebSocketCompressionSupported()
getWebsocketAllowServerNoContext()
getWebSocketAllowServerNoContext()
setWebsocketAllowServerNoContext()
setWebSocketAllowServerNoContext()
getWebsocketCompressionLevel()
getWebSocketCompressionLevel()
setWebsocketCompressionLevel()
setWebSocketCompressionLevel()
getWebsocketPreferredClientNoContext()
getWebSocketPreferredClientNoContext()
setWebsocketPreferredClientNoContext()
setWebSocketPreferredClientNoContext()
getWebsocketSubProtocols()
getWebSocketSubProtocols()
setWebsocketSubProtocols()
setWebSocketSubProtocols()
The new methods for
WebSocket
subprotocols useList<String>
data type instead of a comma separated string to store items. -
The following methods in
HttpClientOptions
class have been removed.Removed Methods Replacing Methods getTryUsePerMessageWebsocketCompression()
getTryUsePerMessageWebSocketCompression()
setTryUsePerMessageWebsocketCompression()
setTryUsePerMessageWebSocketCompression()
getTryWebsocketDeflateFrameCompression()
getTryWebSocketDeflateFrameCompression()
getWebsocketCompressionAllowClientNoContext()
getWebSocketCompressionAllowClientNoContext()
setWebsocketCompressionAllowClientNoContext()
setWebSocketCompressionAllowClientNoContext()
getWebsocketCompressionLevel()
getWebSocketCompressionLevel()
setWebsocketCompressionLevel()
setWebSocketCompressionLevel()
getWebsocketCompressionRequestServerNoContext()
getWebSocketCompressionRequestServerNoContext()
setWebsocketCompressionRequestServerNoContext()
setWebSocketCompressionRequestServerNoContext()
-
The following handler methods in
HttpServer
class have been removed.Deprecated Methods New Methods websocketHandler()
webSocketHandler()
websocketStream()
webSocketStream()
-
-
WebsocketRejectedException
is deprecated. The methods throwUpgradeRejectedException
instead. -
The
HttpClient
webSocket()
methods useHandler<AsyncResult<WebSocket>>
instead ofHandler
orHandler<Throwable>
. -
The number of overloaded methods to connect an HTTP client to a WebSocket has also been reduced by using the methods in
WebSocketConnectOptions
class. -
The
HttpServerRequest.upgrade()
method has been removed. This method was synchronous.Use the new method
HttpServerRequest.toWebSocket()
instead. This new method is asynchronous.The following example shows the use of synchronous method in Vert.x 3.x.
// 3.x server.requestHandler(req -> { WebSocket ws = req.upgrade(); });
The following example shows the use of asynchronous method in Vert.x 4.
// 4.0 server.requestHandler(req -> { Future<WebSocket> fut = req.toWebSocket(); fut.onSuccess(ws -> { }); });
Setting the number of WebSocket connections
In Vert.x 3.x, you could use the the HTTP client pool size to define the maximum number of WebSocket connections in an application. The value accessor methods HttpClientOptions.maxPoolSize()
were used to get and set the WebSocket connections. The default number of connections was set to 4 for each endpoint.
The following example shows how WebSocket connections are set in Vert.x 3.x.
// 3.x
options.setMaxPoolSize(30); // Maximum connection is set to 30 for each endpoint
However, in Vert.x 4, there is no pooling of WebSocket TCP connections, because the connections are closed after use. The applications use a different pool for HTTP requests. Use the value accessor methods HttpClientOptions.maxWebSockets()
to get and set the WebSocket connections. The default number of connections is set to 50 for each endpoint.
The following example shows how to set WebSocket connections in Vert.x 4.
// 4.0
options.setMaxWebSockets(30); // Maximum connection is set to 30 for each endpoint
HttpMethod
is available as a interface
HttpMethod
is available as a new interface.
In earlier releases of Vert.x, HttpMethod
was declared as an enumerated data type. As an enumeration, it limited the extensibility of HTTP. Further, it prevented serving other HTTP methods with this type directly. You had to use the HttpMethod.OTHER
value along with the rawMethod
attribute during server and client HTTP requests.
If you are using HttpMethod
enumerated data type in a switch block, you can use the following code to migrate your applications to Vert.x 4.
The following example shows a switch block in Vert.x 3.x releases.
switch (method) {
case GET:
...
break;
case OTHER:
String s = request.getRawMethod();
if (s.equals("PROPFIND") {
...
} else ...
}
The following example shows a switch block in Vert.x 4.
switch (method.name()) {
case "GET":
...
break;
case "PROPFIND";
...
break;
}
You can also use the following code in Vert.x 4.
HttpMethod PROPFIND = HttpMethod.valueOf("PROPFIND");
if (method == HttpMethod.GET) {
...
} else if (method.equals(PROPFIND)) {
...
} else {
...
}
If you are using HttpMethod.OTHER
value in your applications, use the following code to migrate the application to Vert.x 4.
The following example shows you the code in Vert.x 3.x releases.
client.request(HttpMethod.OTHER, ...).setRawName("PROPFIND");
The following example shows you the code in Vert.x 4.
client.request(HttpMethod.valueOf("PROPFIND"), ...);
Changes in HTTP client
This section describes the changes in HTTP client.
The following types of Vert.x clients are available:
- Vert.x web client
-
Use the Vert.x web client when your applications are web oriented. For example, REST, encoding and decoding HTTP payloads, interpreting the HTTP status response code, and so on.
- Vert.x HTTP client
-
Use the Vert.x HTTP client when your applications are used as HTTP proxy. For example, as an API gateway. The HTTP client has been updated and improved in Vert.x 4.
Vert.x web client is based on Vert.x HTTP client. |
Migrating applications to Vert.x web client
The web client was available from Vert.x 3.4.0 release. There is no change in the web client in Vert.x 4.
The client provides simplified HTTP interactions and some additional features, such as HTTP session, JSON encoding and decoding, response predicates, which are not available in the Vert.x HTTP Client.
The following example shows how to use HTTP client in Vert.x 3.x releases.
HttpClientRequest request = client.get(80, "example.com", "/", response -> {
int statusCode = response.statusCode();
response.exceptionHandler(err -> {
// Handle connection error, for example, connection closed
});
response.bodyHandler(body -> {
// Handle body entirely
});
});
request.exceptionHandler(err -> {
// Handle connection error OR response error
});
request.end();
The following example shows how to migrate an application to web client in Vert.x 3.x and Vert.x 4 releases.
client.get(80, "example.com", "/some-uri")
.send(ar -> {
if (ar.suceeded()) {
HttpResponse<Buffer> response = ar.result();
// Handle response
} else {
// Handle error
}
});
Migrating applications to Vert.x HTTP client
The HTTP client has fine grained control over HTTP interactions and focuses on the HTTP protocol.
The HTTP client has been updated and improved in Vert.x 4:
-
Simplified APIs with fewer interactions
-
Robust error handling
-
Support for connection reset for HTTP/1
The updates in HTTP client APIs are:
-
The methods in
HttpClientRequest
such as,get()
,delete()
,put()
have been removed. Use the methodHttpClientRequest> request(HttpMethod method, …)
instead. -
HttpClientRequest
instance is created when a request or response is possible. For example, anHttpClientRequest
instance is created when the client connects to the server or a connection is reused from the pool.
Sending a simple request
The following example shows how to send a GET request in Vert.x 3.x releases.
HttpClientRequest request = client.get(80, "example.com", "/", response -> {
int statusCode = response.statusCode();
response.exceptionHandler(err -> {
// Handle connection error, for example, connection closed
});
response.bodyHandler(body -> {
// Handle body entirely
});
});
request.exceptionHandler(err -> {
// Handle connection error OR response error
});
request.end();
The following example shows how to send a GET request in Vert.x 4.
client.request(HttpMethod.GET, 80, "example.com", "/", ar -> {
if (ar.succeeded()) {
HttpClientRequest = ar.result();
request.send(ar2 -> {
if (ar2.succeeded()) {
HttpClientResponse = ar2.result();
int statusCode = response.statusCode();
response.body(ar3 -> {
if (ar3.succeeded()) {
Buffer body = ar3.result();
// Handle body entirely
} else {
// Handle server error, for example, connection closed
}
});
} else {
// Handle server error, for example, connection closed
}
});
} else {
// Connection error, for example, invalid server or invalid SSL certificate
}
});
You can see that error handling is better in the new HTTP client.
The following example shows how to use future composition in a GET operation in Vert.x 4.
Future<Buffer> fut = client.request(HttpMethod.GET, 80, "example.com", "/")
.compose(request -> request.send().compose(response -> {
int statusCode = response.statusCode();
if (statusCode == 200) {
return response.body();
} else {
return Future.failedFuture("Unexpectd status code");
}
})
});
fut.onComplete(ar -> {
if (ar.succeeded()) {
Buffer body = ar.result();
// Handle body entirely
} else {
// Handle error
}
});
Future composition improves exception handling. The example checks if the status code is 200, otherwise it returns an error.
When you use the HTTP client with futures, the HttpClientResponse() method starts emitting buffers as soon as it receives a response. To avoid this, ensure that the future composition occurs either on the event-loop (as shown in the example) or it should pause and resume the response. |
Sending requests
In Vert.x 3.x releases, you could use the end()
method to send requests.
request.end();
You could also send a body in the request.
request.end(Buffer.buffer("hello world));
Since HttpClientRequest
is a Writestream<Buffer>
, you could also use a pipe to stream the request.
writeStream.pipeTo(request, ar -> {
if (ar.succeeded()) {
// Sent the stream
}
});
In Vert.x 4, you can perform all the operations shown in the examples using the get()
method. You can also use the new send()
method to perform these operations. You can pass a buffer, a string, or a ReadStream
as input to the send()
method. The method returns an HttpClientResponse
instance.
// Send a request and process the response
request.onComplete(ar -> {
if (ar.succeeded()) {
HttpClientResponse response = ar.result();
// Handle the response
}
})
request.end();
// The new send method combines all the operations
request.send(ar -> {
if (ar.succeeded()) {
HttpClientResponse response = ar.result();
// Handle the response
}
}));
Handling responses
The HttpClientResponse
interface has been updated and improved with the following methods:
body()
method-
The
body()
method returns an asynchronous buffer. Use thebody()
method instead ofbodyHandler()
.The following example shows how to use the
bodyHandler()
method to get the request body.response.bodyHandler(body -> { // Process the request body }); response.exceptionHandler(err -> { // Could not get the request body });
The following example shows how to use the
body()
method to get the request body.response.body(ar -> { if (ar.succeeded()) { // Process the request body } else { // Could not get the request body } });
end()
method-
The
end()
method returns a future when a response is fully received successfully or failed. The method removes the response body. Use this method instead ofendHandler()
method.The following example shows how to use the
endHandler()
method.response.endHandler(v -> { // Response ended }); response.exceptionHandler(err -> { // Response failed, something went wrong });
The following example shows how to use the
end()
method.response.end(ar -> { if (ar.succeeded()) { // Response ended } else { // Response failed, something went wrong } });
You can also handle the response with methods such as, onSucces()
, compose()
, bodyHandler()
and so on. The following examples demonstrate handling responses using the onSuccess()
method.
The following example shows how to use HTTP client with the result()
method in Vert.x 3.x releases.
HttpClient client = vertx.createHttpClient(options);
client.request(HttpMethod.GET, 8443, "localhost", "/")
.onSuccess(request -> {
request.onSuccess(resp -> {
//Code to handle HTTP response
});
});
The following example shows how to use HTTP client with the result()
method in Vert.x 4.
HttpClient client = vertx.createHttpClient(options);
client.request(HttpMethod.GET, 8443, "localhost", "/")
.onSuccess(request -> {
request.response().onSuccess(resp -> {
//Code to handle HTTP response
});
});
Improvements in the Vert.x HTTP client
This section describes the improvements in HTTP client.
HTTP client request and response methods take an asynchronous handler as input argument
The HttpClient
and HttpClientRequest
methods have been updated to use asynchronous handlers. The methods take Handler<AsyncResult<HttpClientResponse>>
as input instead of Handler<HttpClientResponse>
.
In earlier releases of Vert.x, the HttpClient
methods getNow()
, optionsNow()
and headNow()
used to return HttpClientRequest
, that you had to further send to perform a request. The getNow()
, optionsNow()
and headNow()
methods have been removed. In Vert.x 4, you can directly send a request with the required information using Handler<AsyncResult<HttpClientResponse>>
.
The following examples show how to send a request in Vert.x 3.x.
-
To perform a GET operation:
Future<HttpClientResponse> f1 = client.get(8080, "localhost", "/uri", HttpHeaders.set("foo", "bar"));
-
To POST with a buffer body:
Future<HttpClientResponse> f2 = client.post(8080, "localhost", "/uri", HttpHeaders.set("foo", "bar"), Buffer.buffer("some-data"));
-
To POST with a streaming body:
Future<HttpClientResponse> f3 = client.post(8080, "localhost", "/uri", HttpHeaders.set("foo", "bar"), asyncFile);
In Vert.x 4, you can use the requests
methods to create an HttpClientRequest
instance. These methods can be used in basic interactions such as:
-
Sending the request headers
-
HTTP/2 specific operations such as setting a push handler, setting stream priority, pings, and so on.
-
Creating a NetSocket tunnel
-
Providing fine grained write control
-
Resetting a stream
-
Handling 100 continue headers manually
The following example shows you how to create an HTTPClientRequest
in Vert.x 4.
client.request(HttpMethod.GET, 8080, "example.com", "/resource", ar -> {
if (ar.succeeded()) {
HttpClientRequest request = ar.result();
request.putHeader("content-type", "application/json")
request.send(new JsonObject().put("hello", "world"))
.onSuccess(response -> {
//
}).onFailure(err -> {
//
});
}
})
Removed the connection handler method from HTTP client request
The HttpClientRequest.connectionHandler()
method has been removed. Use HttpClient.connectionHandler()
method instead to call connection handlers for client requests in your application.
The following example shows how the HttpClientRequest.connectionHandler()
method was used in Vert.x 3.x releases.
client.request().connectionHandler(conn -> {
// Connection related code
}).end();
The following example shows you how to use the new HttpClient.connectionHandler()
method.
client.connectionHandler(conn -> {
// Connection related code
});
HTTP client tunneling using the net socket method
HTTP tunnels can be created using the HttpClientResponse.netSocket()
method. In Vert.x 4 this method has been updated.
To get a net socket for the connection of the request, send a socket handler in the request. The handler is called when the HTTP response header is received. The socket is ready for tunneling and can send and receive buffers.
The following example shows how to get net socket for a connection in Vert.x 3.x releases.
client.request(HttpMethod.CONNECT, uri, ar -> {
if (ar.succeeded()) {
HttpClientResponse response = ar.result();
if (response.statusCode() == 200) {
NetSocket so = response.netSocket();
}
}
}).end();
The following example shows how to get net socket for a connection in Vert.x 4.
client.request(HttpMethod.CONNECT, uri, ar -> {
}).netSocket(ar -> {
if (ar.succeeded()) {
// Got a response with a 200 status code
NetSocket so = ar.result();
// Go for tunneling
}
}).end();
New send()
method in HttpClient
class
A new send()
method is available in the HttpClient
class.
The following code shows how to send a request in Vert.x 4.
Future<HttpClientResponse> f1 = client.send(HttpMethod.GET, 8080, "localhost", "/uri", HttpHeaders.set("foo", "bar"));
HttpHeaders is an interface and contains MultiMap
methods
In Vert.x 4, HttpHeaders
is an interface. In earlier releases of Vert.x, HttpHeaders
was a class.
The following new MultiMap
methods have been added in the HttpHeaders
interface. Use these methods to create MultiMap
instances.
-
MultiMap.headers()
-
MultiMap.set(CharSequence name, CharSequence value)
-
MultiMap.set(String name, String value)
The following example shows how MultiMap
instances were created in Vert.x 3.x releases.
MultiMap headers = MultiMap.caseInsensitiveMultiMap();
The following examples show how to create MultiMap
instances in Vert.x 4.
MultiMap headers = HttpHeaders.headers();
MultiMap headers = HttpHeaders.set("content-type", "application.data");
CaseInsensitiveHeaders
class is no longer public
The CaseInsensitiveHeaders
class is no longer public. Use the MultiMap.caseInsensitiveMultiMap()
method to create a multi-map implementation with case insensitive keys.
The following example shows how CaseInsensitiveHeaders
method was used in Vert.x 3.x releases.
CaseInsensitiveHeaders headers = new CaseInsensitiveHeaders();
The following examples show how MultiMap
method is used in Vert.x 4.
MultiMap multiMap = MultiMap#caseInsensitiveMultiMap();
OR
MultiMap headers = HttpHeaders.headers();
Checking the version of HTTP running on the server
In earlier releases of Vert.x, the version of HTTP running on a server was checked only if the application explicitly called the HttpServerRequest.version()
method. If the HTTP version was HTTP/1.x, the method would return the 501 HTTP status, and close the connection.
From Vert.x 4 onward, before a request is sent to the server, the HTTP version on the server is automatically checked by calling the HttpServerRequest.version()
method. The method returns the HTTP version instead of throwing an exception when an invalid HTTP version is found.
New methods in request options
In Vert.x 4, the following new methods are available in the RequestOptions
class:
-
Header
-
FollowRedirects
-
Timeout
The following example shows how to use the new methods.
client.request(HttpMethod.GET, 8080, "example.com", "/resource", ar -> {
if (ar.succeeded()) {
HttpClientRequest request = ar.result();
request.putHeader("content-type", "application/json")
request.send(new JsonObject().put("hello", "world"))
.onSuccess(response -> {
//
}).onFailure(err -> {
//
});
}
})
Changes in connection methods
This section explains the changes in connection methods.
Checking if authentication is required for client
The NetServerOptions.isClientAuthRequired()
method has been removed. Use the getClientAuth() == ClientAuth.REQUIRED
enumerated type to check if client authentication is required.
The following example shows how to use a switch statement to check if authentication of the client is required.
switch (options.getClientAuth()) {
case REQUIRED:
// ... behavior same as in releases prior to {VertX} {v4}
break;
default:
// fallback statement...
}
The following example shows how to use the check if authentication of the client is required in Vert.x 4.
if (options.getClientAuth() == ClientAuth.REQUIRED) {
// behavior in releases prior to {VertX} {v4}
Changes in logging
This section explains the changes in logging.
Changes in Vert.x Reactive Extensions (Rx)
This section describes the changes in Reactive Extensions (Rx) in Vert.x. Vert.x uses the RxJava library.
Support for RxJava 3
From Vert.x 4.1.0, RxJava 3 is supported.
-
A new rxified API is available in the
io.vertx.rxjava3
package. -
Integration with Vert.x JUnit5 is provided by the
vertx-junit5-rx-java3
binding.
To upgrade to RxJava 3, you must make the following changes:
-
In the
pom.xml
file, under<dependency>
change the RxJava 1 and 2 bindings fromvertx-rx-java
orvertx-rx-java2
tovertx-rx-java3
. -
In your application, update the imports from
io.vertx.reactivex.*
toio.vertx.rxjava3.*
. -
In your application, update the imports for RxJava 3 types also. For more information, see What’s new section in RxJava 3 documentation.
Removed onComplete
callback from write stream
The WriteStreamSubscriber.onComplete()
callback has been removed. This callback was invoked if WriteStream
had pending streams of data to be written.
In Vert.x 4, use the callbacks WriteStreamSubscriber.onWriteStreamEnd()
and WriteStreamSubscriber.onWriteStreamError()
instead. These callbacks are called after WriteStream.end()
is complete.
WriteStreamSubscriber<Buffer> subscriber = writeStream.toSubscriber();
The following example shows how to create the adapter from a WriteStream
in Vert.x 3.x releases.
subscriber.onComplete(() -> {
// Called after writeStream.end() is invoked, even if operation has not completed
});
The following examples show how to create the adapter from a WriteStream using the new callback methods in Vert.x 4 release:
subscriber.onWriteStreamEnd(() -> {
// Called after writeStream.end() is invoked and completes successfully
});
subscriber.onWriteStreamError(() -> {
// Called after writeStream.end() is invoked and fails
});
Changes in Vert.x configuration
The following section describes the changes in Vert.x configuration.
New method to retrieve configuration
The method ConfigRetriever.getConfigAsFuture()
has been removed. Use the method retriever.getConfig()
instead.
The following example shows how configuration was retrieved in Vert.x 3.x releases.
Future<JsonObject> fut = ConfigRetriever. getConfigAsFuture(retriever);
The following example shows how to retrieve configuration in Vert.x 4.
fut = retriever.getConfig();
Changes in JSON
This section describes changes in JSON.
Encapsulation of Jackson
All the methods in the JSON class that implement Jackson types have been removed. Use the following methods instead:
Removed Fields/Methods | New methods |
---|---|
|
|
|
|
|
|
|
|
For example, use the following code:
-
When using Jackson
TypeReference
:-
In Vert.x 3.x releases:
List<Foo> foo1 = Json.decodeValue(json, new TypeReference<List<Foo>>() {});
-
In Vert.x 4 release:
List<Foo> foo2 = io.vertx.core.json.jackson.JacksonCodec.decodeValue(json, new TypeReference<List<Foo>>() {});
-
-
Referencing an
ObjectMapper
:-
In Vert.x 3.x releases:
ObjectMapper mapper = Json.mapper;
-
In Vert.x 4 release:
mapper = io.vertx.core.json.jackson.DatabindCodec.mapper();
-
-
Setting an
ObjectMapper
:-
In Vert.x 3.x releases:
Json.mapper = someMapper;
-
From Vert.x 4 onward, you cannot write a mapper instance. You should use your own static mapper or configure the
Databind.mapper()
instance.
-
Object mapping
In earlier releases, the Jackson core and Jackson databind dependencies were required at runtime.
From Vert.x 4 onward, only the Jackson core dependency is required.
You will require the Jackson databind dependency only if you are object mapping JSON. In this case, you must explicitly add the dependency in your project descriptor in the com.fasterxml.jackson.core:jackson-databind
jar.
The following methods are supported for the mentioned types.
-
Methods
-
JsonObject.mapFrom(Object)
-
JsonObject.mapTo(Class)
-
Json.decodeValue(Buffer, Class)
-
Json.decodeValue(String, Class)
-
Json.encode(Object)
-
Json.encodePrettily(Object)
-
Json.encodeToBuffer(Object)
-
-
Type
-
JsonObject
andJsonArray
-
Map
andList
-
Number
-
Boolean
-
Enum
-
byte[]
andBuffer
-
Instant
-
The following methods are supported only with Jackson bind:
-
JsonObject.mapTo(Object)
-
JsonObject.mapFrom(Object)
Base64 encoder updated to Base64URL for JSON objects and arrays
The Vert.x JSON types implement RFC-7493. In earlier releases of Vert.x, the implementation incorrectly used Base64 encoder instead of Base64URL. This has been fixed in Vert.x 4, and Base64URL encoder is used in the JSON types.
If you want to continue using the Base64 encoder in Vert.x 4, you can use the configuration flag legacy
. The following example shows how to set the configuration flag in Vert.x 4.
java -Dvertx.json.base64=legacy ...
During your migration from Vert.x 3.x and Vert.x 4 if you have partially migrated your applications, then you will have applications on both version 3 and 4. In such cases where you have two versions of Vert.x you can use the following utility to convert the Base64 string to Base64URL.
public String toBase64(String base64Url) {
return base64Url
.replace('+', '-')
.replace('/', '_');
}
public String toBase64Url(String base64) {
return base64
.replace('-', '+')
.replace('_', '/');
}
You must use the utility methods in the following scenarios:
-
Handling integration while migrating from Vert.x 3.x releases to Vert.x 4.
-
Handling interoperability with other systems that use Base64 strings.
Use the following example code to convert a Base64URL to Base64 encoder.
String base64url = someJsonObject.getString("base64encodedElement")
String base64 = toBase64(base64url);
The helper functions {toBase64} and {toBase64Url} enable only JSON migrations. If you use object mapping to automatically map JSON objects to a {Java} POJO in your applications, then you must create a custom object mapper to convert the Base64 string to Base64URL.
The following example shows you how to create a object mapper with custom Base64 decoder.
// simple deserializer from Base64 to byte[]
class ByteArrayDeserializer extends JsonDeserializer<byte[]> {
ByteArrayDeserializer() {
}
public byte[] deserialize(JsonParser p, DeserializationContext ctxt) {
String text = p.getText();
return Base64.getDecoder()
.decode(text);
}
}
// ...
ObjectMapper mapper = new ObjectMapper();
// create a custom module to address the Base64 decoding
SimpleModule module = new SimpleModule();
module.addDeserializer(byte[].class, new ByteArrayDeserializer());
mapper.registerModule(module);
// JSON to POJO with custom deserializer
mapper.readValue(json, MyClass.class);
Changes in Vert.x web
The following section describes the changes in Vert.x web.
Combined the functionality of user session handler in session handler
In earlier releases of Vert.x, you had to specify both the UserSessionHandler
and SessionHandler
handlers when working in a session.
To simplify the process, in Vert.x 4, the UserSessionHandler
class has been removed and its functionality has been added in the SessionHandler
class. In Vert.x 4, to work with sessions you must specify only one handler.
Removed the cookie interfaces
The following cookie interfaces have been removed:
-
io.vertx.ext.web.Cookie
-
io.vertx.ext.web.handler.CookieHandler
Use the io.vertx.core.http.Cookie
interface instead.
Favicon and error handlers use Vertx
file system
The create methods in FaviconHandler
and ErrorHandler
have been updated. You must pass a Vertx
instance object in the create methods. These methods access file system. Passing the Vertx
object ensures consistent access to files using the 'Vertx' file system.
The following example shows how create methods were used in Vert.x 3.x releases.
FaviconHandler.create();
ErrorHandler.create();
The following example shows how create methods should be used in Vert.x 4.
FaviconHandler.create(vertx);
ErrorHandler.create(vertx);
Accessing the template engine
Use the method TemplateEngine.unwrap()
to access the template engine. You can then apply customizations and configurations to the template.
The following methods that are used to get and set the engine configurations have been deprecated. Use the TemplateEngine.unwrap()
method instead.
-
HandlebarsTemplateEngine.getHandlebars()
-
HandlebarsTemplateEngine.getResolvers()
-
HandlebarsTemplateEngine.setResolvers()
-
JadeTemplateEngine.getJadeConfiguration()
-
ThymeleafTemplateEngine.getThymeleafTemplateEngine()
-
ThymeleafTemplateEngine.setMode()
Removed the locale interface
The io.vertx.ext.web.Locale
interface has been removed. Use the io.vertx.ext.web.LanguageHeader
interface instead.
Removed the acceptable locales method
The RoutingContext.acceptableLocales()
method has been removed. Use the RoutingContext.acceptableLanguages()
method instead.
Updated the method for mounting sub routers
In earlier releases of Vert.x, the Router.mountSubRouter()
method incorrectly returned a Router
. This has been fixed, and the method now returns a Route
.
Removed the create method with excluded strings for JWT authentication handling
The JWTAuthHandler.create(JWTAuth authProvider, String skip)
method has been removed. Use the JWTAuthHandler.create(JWTAuth authProvider)
method instead.
The following example shows how JWT authentication handler was created in Vert.x 3.x releases.
router
// protect everything but "/excluded/path"
.route().handler(JWTAuthHandler(jwtAuth, "/excluded/path")
The following example shows how JWT authentication handler was created in Vert.x 4.
router
.route("/excluded/path").handler(/* public access to "/excluded/path" */)
// protect everything
.route().handler(JWTAuthHandler(jwtAuth)
Removed the create handler method that was used in OSGi environments
In Vert.x 4, OSGi environment is no longer supported. The StaticHandler.create(String, ClassLoader)
method has been removed because the method was used in the OSGi environment.
If you have used this method in your applications, then in Vert.x 4 you can either add the resources to the application classpath or serve resources from the file system.
Removed the bridge options class
The sockjs.BridgeOptions
class has been removed. Use the new sockjs.SockJSBridgeOptions
class instead. The sockjs.SockJSBridgeOptions
class contains all the options that are required to configure the event bus bridge.
There is no change in the behavior of the new class, except that the name of the data object class has changed.
In previous releases, when you used sockjs.BridgeOptions
class to add new bridges, there were a lot of duplicate configurations. The new class contains all the possible common configurations, and removes duplicate configurations.
SockJS socket event bus does not register a clustered event by default
SockJSSocket
no longer registers a clustered event bus consumer by default. If you want to write to the socket using the event bus, you must enable the writeHandler
in SockJSHandlerOptions
. When you enable the writeHandler
, the event bus consumer is set to local by default.
Router router = Router.router(vertx);
SockJSHandlerOptions options = new SockJSHandlerOptions()
.setRegisterWriteHandler(true); // enable the event bus consumer registration
SockJSHandler sockJSHandler = SockJSHandler.create(vertx, options);
router.mountSubRouter("/myapp", sockJSHandler.socketHandler(sockJSSocket -> {
// Retrieve the writeHandlerID and store it (For example, in a local map)
String writeHandlerID = sockJSSocket.writeHandlerID();
}));
You can configure the event bus consumer to a cluster.
SockJSHandlerOptions options = new SockJSHandlerOptions()
.setRegisterWriteHandler(true) // enable the event bus consumer registration
.setLocalWriteHandler(false) // register a clustered event bus consumer
New method for adding authentication provider
The SessionHandler.setAuthProvider(AuthProvider)
method has been deprecated. Use the SessionHandler.addAuthProvider()
method instead. The new method allows an application to work with multiple authentication providers and link the session objects to these authentication providers.
OAuth2 authentication provider create methods require vertx
as constructor argument
From Vert.x 4, OAuth2Auth.create(Vertx vertx)
method requires vertx
as a constructor argument. The vertx
argument uses a secure non-blocking random number generator to generate nonce which ensures better security for applications.
Changes in Vert.x Web GraphQL
The following section describes the changes in Vert.x Web GraphQL.
Updated methods to be supported on multiple language (polyglot) environments
The following methods have been updated and are now supported on polyglot environments: * UploadScalar
is now a factory, use the method UploadScalar.create()
instead.
-
VertxBatchLoader
is now a factory, use the methodio.vertx.ext.web.handler.graphql.dataloader.VertxBatchLoader.create()
instead. -
VertxDataFetcher
is now a factory, use the methodio.vertx.ext.web.handler.graphql.schema.VertxDataFetcher.create()
instead. -
VertxPropertyDataFetcher
is now a factory, use the methodio.vertx.ext.web.handler.graphql.schema.VertxPropertyDataFetcher.create()
instead.
Handling POST requests in Vert.x Web GraphQL
In prior releases, the Vert.x Web GraphQL handler could process its own POST requests. It did not need Vert.x Web BodyHandler
to process the requests. However, this implementation was susceptible to DDoS attacks.
From Vert.x 4 onward, to process POST requests BodyHandler
is required. You must install BodyHandler
before installing Vert.x Web GraphQL handler.
Changes in Micrometer metrics
The following section describes the changes in Micrometer metrics.
TCP sent and received bytes are recorded as counters with equivalent HTTP request and response summaries
In prior releases, the following metrics were recorded as distribution summaries for sockets. From Vert.x 4 onward, these metrics are logged as counter, which report the amount of data exchanged.
-
Net client
-
vertx_net_client_bytes_read
-
vertx_net_client_bytes_written
-
-
Net server
-
vertx_net_server_bytes_read
-
vertx_net_server_bytes_written
-
For these counters, equivalent distribution summaries have been introduced for HTTP. These summaries are used to collect information about the request and response sizes.
-
HTTP client
-
vertx_http_client_request_bytes
-
vertx_http_client_response_bytes
-
-
HTTP server
-
vertx_http_server_request_bytes
-
vertx_http_server_response_bytes
-
Renamed the metrics
The following metrics have been renamed.
Old metrics name | New metrics name | Updated in components |
---|---|---|
|
| Net client and server HTTP client and server |
|
| Datagram Net client and server HTTP client and server |
|
| Datagram Net client and server HTTP client and server |
|
| HTTP client HTTP server |
|
| HTTP client HTTP server |
|
| HTTP client HTTP server |
|
| HTTP client HTTP server |
|
| HTTP client HTTP server |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
| |
|
|
Changes in Vert.x OpenAPI
In Vert.x 4, a new module vertx-web-openapi
is available. Use this module alone with vertx-web
to develop contract-driven applications.
The new module works well with Vert.x Web Router
. The new module requires the following Vert.x dependencies:
-
vertx-json-schema
-
vertx-web-validation
The new module is available in the package io.vertx.ext.web.openapi
.
In Vert.x 4, the older OpenAPI module vertx-web-api-contract
is supported to facilitate the migration to the new module. It is recommended that you move to the new module vertx-web-openapi
to take advantage of the new functionality.
New module uses router builder
The vertx-web-openapi
module uses RouterBuilder
to build the Vert.x Web router. This router builder is similar to the router builer OpenAPI3RouterFactory
in vertx-web-api-contract
module.
To start working with the vertx-web-openapi
module, instantiate the RouterBuilder
.
RouterBuilder.create(vertx, "petstore.yaml").onComplete(ar -> {
if (ar.succeeded()) {
// Spec loaded with success
RouterBuilder routerBuilder = ar.result();
} else {
// Something went wrong during router builder initialization
Throwable exception = ar.cause();
}
});
You can also instantiate the RouterBuilder
using futures.
RouterBuilder.create(vertx, "petstore.yaml")
.onSuccess(routerBuilder -> {
// Spec loaded with success
})
.onFailure(exception -> {
// Something went wrong during router builder initialization
});
The vertx-web-openapi module uses the Vert.x file system APIs to load the files. Therefore, you do not have to specify / for the classpath resources. For example, you can specify petstore.yaml in your application. The RouterBuilder can identify the contract from your classpath resources. |
New router builder methods
In most cases, you can search and replace usages of old OpenAPI3RouterFactory
methods with the new RouterBuilder
methods. The following table lists a few examples of old and new methods.
Old OpenAPI3RouterFactory methods | New RouterBuilder methods |
---|---|
|
|
|
|
|
|
|
|
|
|
|
|
Use the following syntax to access the parsed request parameters:
RequestParameters parameters = routingContext.get(io.vertx.ext.web.validation.ValidationHandler.REQUEST_CONTEXT_KEY);
int aParam = parameters.queryParameter("aParam").getInteger();
Handling security
In Vert.x 4, the methods RouterFactory.addSecurityHandler()
and OpenAPI3RouterFactory.addSecuritySchemaScopeValidator()
are no longer available.
Use the RouterBuilder.securityHandler()
method instead. This method accepts io.vertx.ext.web.handler.AuthenticationHandler
as an handler. The method automatically recognizes OAuth2Handler
and sets up the security schema.
The new security handlers also implement the operations defined in the OpenAPI specification.
Handling common failures
In vertx-web-openapi
module, the following failure handlers are not available. You must set up failure handlers using the Router.errorHandler(int, Handler)
method.
Old methods in`vertx-web-api-contract` module | New methods in vertx-web-openapi module |
---|---|
|
|
|
|
Accessing the OpenAPI contract model
In Vert.x 4, the OpenAPI contract is not mapped to plain old Java object (POJO). So, the additional swagger-parser dependency is no longer required. You can use the getters and resolvers to retrieve specific components of the contract.
The following example shows how to retrieve a specific component using a single operation.
JsonObject model = routerBuilder.operation("getPets").getOperationModel();
The following example shows how to retrieve the full contract.
JsonObject contract = routerBuilder.getOpenAPI().getOpenAPI();
The following example shows you how to resolve parts of the contract.
JsonObject petModel = routerBuilder.getOpenAPI().getCached(JsonPointer.from("/components/schemas/Pet"));
Validating web requests without OpenAPI
In the vertx-web-api-contract
module, you could validate HTTP requests using HTTPRequestValidationHandler
. You did not have to use OpenAPI for validations.
In Vert.x 4, to validate HTTP requests use vertx-web-validation
module. You can import this module and validate requests without using OpenAPI. Use ValidationHandler
to validate requests.
Updates in the Vert.x web API service
The vertx-web-api-service
module has been updated and can be used with the vertx-web-validation
module. If you are working with vertx-web-openapi
module, there is no change in the web service functionality.
However, if you do not use OpenAPI, then to use the web service module with vertx-web-validation
module you must use the RouteToEBServiceHandler
class.
router.get("/api/transactions")
.handler(
ValidationHandlerBuilder.create(schemaParser)
.queryParameter(optionalParam("from", stringSchema()))
.queryParameter(optionalParam("to", stringSchema()))
.build()
).handler(
RouteToEBServiceHandler.build(eventBus, "transactions.myapplication", "getTransactionsList")
);
The vertx-web-api-service
module does not support vertx-web-api-contract
. So, when you upgrade to Vert.x 4, you must migrate your Vert.x OpenAPI applications to vertx-web-openapi
module.
Changes in microservices patterns
This section explains the changes in microservices patterns.
Changes in Vert.x circuit breaker
The following section describes the changes in Vert.x circuit breaker.
Removed execute command methods in circuit breaker
The following methods have been removed from the CircuitBreaker
class because they cannot be used with futures.
Removed methods | Replacing methods |
---|---|
|
|
|
|
Changes in Vert.x service discovery
The following section describes the changes in Vert.x service discovery.
Removed create methods from service discovery that contain ServiceDiscovery
argument
The following create methods in service discovery that have Handler<ServiceDiscovery>
as an argument have been removed. These methods cannot be used with futures.
Removed methods | Replacing methods |
---|---|
|
|
|
|
Service importer and exporter methods are no longer fluent
The ServiceDiscovery.registerServiceImporter()
and ServiceDiscovery.registerServiceExporter()
methods are no longer fluent. The methods return Future<Void>
.
Kubernetes service importer is no longer registered automatically
The vertx-service-discovery-bridge-kubernetes
adds the KubernetesServiceImporter
discovery bridge. The bridge imports services from Kubernetes or Openshift into the Eclipse Vert.x service discovery.
From Vert.x 4, this bridge is no longer registered automatically. Even if you have added the bridge in the classpath of your project, it will not be automatically registered.
You must manually register the bridge after creating the ServiceDiscovery
instance.
The following example shows you how to manually register the bridge.
JsonObject defaultConf = new JsonObject();
serviceDiscovery.registerServiceImporter(new KubernetesServiceImporter(), defaultConf);
Changes in Vert.x authentication and authorization
The following sections describe the changes in Vert.x authentication and authorization.
The Vert.x authentication module has major updates in Vert.x 4. The io.vertx.ext.auth.AuthProvider
interface has been split into two new interfaces:
-
io.vertx.ext.auth.authentication.AuthenticationProvider
-
io.vertx.ext.auth.authorization.AuthorizationProvider
This update enables any provider to independently perform either authentication and authorization.
Migrating the authentication applications
The authentication mechanism has changed at the result level. In earlier releases, the result was a User
object, which was provider specific. In Vert.x 4, the result is a common implementation of io.vertx.ext.auth.User
.
The following example shows how a user was authenticated in Vert.x 3.x releases.
JsonObject authInfo = new JsonObject()
.put("username", "john")
.put("password", "super$ecret");
// omitting the error handling for brevity
provider.authenticate(authInfo, res -> {
if (res.succeeded()) {
// may require type casting for example on Oauth2
User user = res.result();
}
});
The following example shows how to authenticate a user in Vert.x 4.
JsonObject authInfo = new JsonObject()
.put("username", "john")
.put("password", "super$ecret");
// omitting the error handling for brevity
provider.authenticate(authInfo, res -> {
if (res.succeeded()) {
// Never needs type casting
User user = res.result();
}
});
Migrating the authorization applications
Authorization is a new feature in Vert.x 4. In earlier releases, you could only check if a user was authorized to perform the tasks on the User
object. This meant that the provider was responsible for both authentication and authorization of the user.
In Vert.x 4, the User
object instances are not associated with a particular authentication provider. So you can authenticate and authorize a user using different providers. For example, you can authenticate a user using OAuth2 and perform authorization checks against MongoDB or SQL database.
The following example shows how an application checks if a user can use Printer #1234 in Vert.x 3.x releases.
// omitting the error handling for brevity
user.isAuthorized("printers:printer1234", res -> {
if (res.succeeded()) {
boolean hasAuthority = res.result();
if (hasAuthority) {
System.out.println("User can use the printer");
} else {
System.out.println("User cannot use the printer");
}
}
});
This authorization worked for JDBC and MongoDB. However it did not work for providers such as OAuth2, because the provider did not perform authorization checks. From Vert.x 4, it is possible to perform such authorization checks by using different providers.
// omitting the error handling for brevity
provider.getAuthorizations(user, res -> {
if (res.succeeded()) {
if (PermissionBasedAuthorization.create("printer1234").match(user)) {
System.out.println("User can use the printer");
} else {
System.out.println("User cannot use the printer");
}
}
});
You can check authorizations on roles, permissions, logic operations, wildcards and any other implementation you add.
Changes in key management
In Vert.x 4, there are major updates in handling keys. The most important change is that when a key loads, there is no distinction between public buffer and private buffer.
The following classes have been updated:
-
io.vertx.ext.auth.KeyStoreOptions
used to work withjce
keystores -
io.vertx.ext.auth.SecretOptions
used to handle symmetric secrets -
io.vertx.ext.auth.PubSecKeyOptions
used to handle public secret keys
The following section describes the changes in key management.
Secret options class is no longer available
The SecretOptions
class is no longer available. Use the new PubSecKeyOptions
class instead to work with a cryptographic key.
The following example shows how methods of SecretOptions
class were used in Vert.x 3.x releases.
new SecretOptions()
.setType("HS256")
.setSecret("password")
The following example shows how methods of PubSecKeyOptions
class should be used in Vert.x 4.
new PubSecKeyOptions()
.setAlgorithm("HS256")
.setBuffer("password")
Updates in public secret keys management
In Vert.x 3.x, the configuration object in public secret key management assumed that:
-
Keys are configured as key-pairs.
-
Key data is a PKCS8 encoded string without standard delimiters.
The following example shows how to configure key pair in Vert.x 3.x.
new PubSecKeyOptions()
.setPublicKey(
// remove the PEM boundaries
pubPemString
.replaceAll("-----BEGIN PUBLIC KEY----")
.replaceAll("-----END PUBLIC KEY----"))
.setSecretKey(
// remove the PEM boundaries
secPemString
.replaceAll("-----BEGIN PUBLIC KEY----")
.replaceAll("-----END PUBLIC KEY----"));
In Vert.x 4, you must specify both the public and private key.
The following example shows how to configure key pair in Vert.x 4.
PubSecKeyOptions pubKey =
new PubSecKeyOptions()
// the buffer is the exact contents of the PEM file and had boundaries included in it
.setBuffer(pubPemString);
PubSecKeyOptions secKey =
new PubSecKeyOptions()
// the buffer is the exact contents of the PEM file and had boundaries included in it
.setBuffer(secPemString);
You can now handle X509 certificates using PubSecKeyOptions
.
PubSecKeyOptions x509Certificate =
new PubSecKeyOptions()
// the buffer is the exact contents of the PEM file and had boundaries included in it
.setBuffer(x509PemString);
Changes in keystore management
In Vert.x 3.x, KeyStoreOptions
assumes that the keystore format is jceks
, and the stored password is the same as the password of the key. As jceks
is a proprietary format, it is recommended to use a standard format, such as JDK, instead.
When you use KeyStoreOptions
in Vert.x 4, you can specify a store type. For example, store types such as PKCS11, PKCS12, and so on can be set. The default store type is jceks
.
In Vert.x 3.x, all keystore entries would share the same password, that is, the keystore password. In Vert.x 4, each keystore entry can have a dedicated password. If you do not want to set password for each keystore entry, you can configure the keystore password as the default password for all entries.
The following example shows how to load a jceks
keystore in Vert.x 3.x.
new KeyStoreOptions()
.setPath("path/to/keystore.jks")
.setPassword("keystore-password");
In Vert.x 4, the default format is assumed to be the default format configured by JDK. The format is PKCS12
in Java 9 and above.
The following example shows how to load a jceks
keystore in Vert.x 4.
new KeyStoreOptions()
.setPath("path/to/keystore.jks")
// Modern JDKs use `jceks` keystore. But this type is not the default
// If the type is not set to `jceks` then probably `pkcs12` will be used
.setType("jceks")
.setPassword("keystore-password")
// optionally if your keys have different passwords
// and if a key specific id is not provided it defaults to
// the keystore password
.putPasswordProtection("key-id", "key-specific-password");
Deprecated and removed authentication and authorization methods
The following sections list methods deprecated and removed for authentication and authorization.
List of removed authentication and authorization methods
The following methods have been removed:
Removed methods | Replacing methods |
---|---|
|
|
|
|
|
|
|
|
| No replacing method |
|
|
|
|
| No replacing method |
| No replacing method |
List of deprecated authentication and authorization methods
The following methods have been deprecated:
Deprecated methods | Replacing methods |
---|---|
|
|
|
|
| No replacing method |
|
|
| No replacing method |
List of deprecated authentication and authorization classes
The following classes have been deprecated:
Deprecated class | Replacing class |
---|---|
| Create user objects using the ` User.create(JsonObject)` method. |
| No replacing class |
|
|
| No replacing class |
|
|
| Recommended to use |
| No replacing class |
Changes in protocols
This section explains the changes in networking protocols.
Changes in Vert.x gRPC
The following section describes the changes in Vert.x gRPC.
New gRPC compiler plugin
In Vert.x 4, the module protoc-gen-grpc-java
is no longer available. This module was a fork of the official gRPC compiler. In earlier releases of Vert.x, you had to work with this fork. This fork is maintained by the Eclipse project. Working with the fork was complex.
In previous releases, to work with gRPC, the following details were added to pom.xml
file.
<!-- Vert.x 3.x -->
<plugin>
<groupId>org.xolstice.maven.plugins</groupId>
<artifactId>protobuf-maven-plugin</artifactId>
<configuration>
<protocArtifact>com.google.protobuf:protoc:3.2.0:exe:${os.detected.classifier}</protocArtifact>
<pluginId>grpc-java</pluginId>
<!-- NOTE: the gav coordinates point to the 3.x only compiler fork -->
<pluginArtifact>io.vertx:protoc-gen-grpc-java:${vertx.grpc.version}:exe:${os.detected.classifier}</pluginArtifact>
</configuration>
...
</plugin>
In Vert.x 4, a new gRPC compiler plugin is available. This plugin uses the official gRPC compiler instead of the fork. To work with the new gRPC plugin, add the following details to pom.xml
file.
<!-- Vert.x 4.0 -->
<plugin>
<groupId>org.xolstice.maven.plugins</groupId>
<artifactId>protobuf-maven-plugin</artifactId>
<configuration>
<protocArtifact>com.google.protobuf:protoc:3.2.0:exe:${os.detected.classifier}</protocArtifact>
<pluginId>grpc-java</pluginId>
<!-- NOTE: the gav coordinates point to the official compiler -->
<pluginArtifact>io.grpc:protoc-gen-grpc-java:${vertx.grpc.version}:exe:${os.detected.classifier}</pluginArtifact>
<protocPlugins>
<!-- NEW: a plugin is added to generate the Vert.x specific code -->
<protocPlugin>
<id>vertx-grpc-protoc-plugin</id>
<groupId>io.vertx</groupId>
<artifactId>vertx-grpc-protoc-plugin</artifactId>
<version>${vertx.version}</version>
<mainClass>io.vertx.grpc.protoc.plugin.VertxGrpcGenerator</mainClass>
</protocPlugin>
</protocPlugins>
</configuration>
...
</plugin>
Migrating the generated code
In Vert.x 4, the new compiler is used. When the new gRPC plugin is used, the generated code is not written in the same source file. This is because the compiler does not allow custom code generation on its base class. The plugins must generate a new class with a different name to save the code.
In earlier releases of Vert.x, the older gRPC plugin would write the generated code in the same source file.
For example, if you have the following descriptor:
service Greeter {
rpc SayHello (HelloRequest) returns (HelloReply) {}
}
In Vert.x 3.x, the code would be generated in the GreeterGrpc
class.
// 3.x
GreeterGrpc.GreeterVertxImplBase service =
new GreeterGrpc.GreeterVertxImplBase() {
...
}
In Vert.x 4, the code is generated in the VertxGreeterGrpc
class.
// 4.x
VertxGreeterGrpc.GreeterVertxImplBase service =
new VertxGreeterGrpc.GreeterVertxImplBase() {
...
}
gRPC APIs support futures
In Vert.x 4, the gRPC APIs support futures. The gRPC plugin generates promisified APIs. These APIs use the standard Vert.x input and output arguments, which makes it easier to create standard Vert.x applications.
The following example shows the use of promise in Vert.x 3.x.
// 3.x
GreeterGrpc.GreeterVertxImplBase service =
new GreeterGrpc.GreeterVertxImplBase() {
@Override
public void sayHello(HelloRequest request, Promise<HelloReply> future) {
future.complete(
HelloReply.newBuilder().setMessage(request.getName()).build());
}
}
The following example shows the use of futures in Vert.x 4.
// 4.x
VertxGreeterGrpc.GreeterVertxImplBase service =
new VertxGreeterGrpc.GreeterVertxImplBase() {
@Override
public Future<HelloReply> sayHello(HelloRequest request) {
return Future.succeededFuture(
HelloReply.newBuilder()
.setMessage(request.getName())
.build());
}
}
Changes in Vert.x MQTT
The following section describes the changes in Vert.x MQTT.
Some fluent methods in MQTT clients return future
Some fluent methods in MqttClient
class return Future
instead of being fluent. For example, methods such as, MqttClient.connect()
, MqttClient.disconnect()
, MqttClient.publish()
return future in Vert.x 4.
The following example shows the use of publish()
method in Vert.x 3.x releases.
client
.publish("hello", Buffer.buffer("hello"), MqttQoS.EXACTLY_ONCE, false, false)
.publish("hello", Buffer.buffer("hello"), MqttQoS.AT_LEAST_ONCE, false, false);
The following example shows the use of publish()
method in Vert.x 4 release.
client.publish("hello", Buffer.buffer("hello"), MqttQoS.EXACTLY_ONCE, false, false);
client.publish("hello", Buffer.buffer("hello"), MqttQoS.AT_LEAST_ONCE, false, false);
MqttWill
messages return buffer
The MqttWill
data object wraps a string message as an Vert.x buffer instead of a byte array.
Removed the deprecated MqttWill
and authorization methods from MQTT
The following MQTT methods have been removed:
Removed methods | Replacing methods |
|
|
|
|
|
|
|
|
|
|
|
|
Changes in Vert.x Service Proxy
The following section describes the changes in service proxy.
Using service proxy code generator
The ServiceProxyProcessor
class has been removed.
To use the service proxy code generator, you must import vertx-codegen
with processor classifier in your classpath:
<dependencies>
<dependency>
<groupId>io.vertx</groupId>
<artifactId>vertx-codegen</artifactId>
<classifier>processor</classifier>
</dependency>
<dependency>
<groupId>io.vertx</groupId>
<artifactId>vertx-service-proxy</artifactId>
</dependency>
</dependencies>
Service proxy reuses io.vertx.codegen.CodeGenProcessor
from vertx-codegen
to start the code generation of service proxy and handler.
Changes in client components
This section explains the changes in Vert.x clients.
Changes in Vert.x Kafka client
The following section describes the changes in Vert.x Kafka client.
Changes in Vert.x JDBC client
From Vert.x 4, the JDBC client supports SQL client. The SQL common module has also been merged in JDBC client, that is, io.vertx:vertx-sql-common
merged in io.vertx:vertx-jdbc-client
module. You will have to remove the io.vertx:vertx-sql-common
dependency file because io.vertx:vertx-jdbc-client
will include it. With the merging of SQL common client, all the database APIs have been consolidated into the JDBC client.
In Vert.x 4, the SQL client has been updated to include the following clients:
-
Reactive PostgreSQL client. In earlier releases, it included a reactive PostgreSQL client.
-
Reactive MySQL client
-
Reactive DB2 client
-
Continues to include reactive PostgreSQL client. This client was available in Vert.x 3.x releases as well.
-
Existing JDBC client now includes both the JDBC client API and the SQL client API
The reactive implementations use the database network protocols. This makes them resource-efficient.
JDBC calls to database are blocking calls. The JDBC client uses worker threads to make these calls non-blocking.
The following section describes the changes in Vert.x JDBC client.
Creating a pool
In Vert.x 4, you can create a pool using the JDBC client APIs. In earlier releases, you could create only clients. You could not create pools.
The following example shows how to create a client in Vert.x 3.x.
// 3.x
SQLClient client = JDBCClient.create(vertx, jsonConfig);
The following example shows how to create a pool in Vert.x 4.
// 4.x
JDBCPool pool = JDBCPool.pool(vertx, jsonConfig);
Though the Vert.x 3.x APIs are supported in Vert.x 4, it is recommended that you use the new JDBC client APIs in your applications. |
A pool enables you to perform simple queries. You do not need to manage connections for simple queries. However, for complex queries or multiple queries, you must manage your connections.
The following example shows how to manage connections for queries in Vert.x 3.x.
// 3.x
client.getConnection(res -> {
if (res.succeeded()) {
SQLConnection connection = res.result();
// Important, do not forget to return the connection
connection.close();
} else {
// Failed to get connection
}
});
The following example shows how to manage connections for queries in Vert.x 4.
// 4.x
pool
.getConnection()
.onFailure(e -> {
// Failed to get a connection
})
.onSuccess(conn -> {
// Important, do not forget to return the connection
conn.close();
});
Support for Typsesafe Config
You can use jsonConfig
for configurations. However, using the jsonConfig
may sometimes result in errors. To avoid these errors, the JDBC client introduces Typesafe Config.
The following example shows the basic structure of a Typesafe Config.
// 4.x ONLY!!!
JDBCPool pool = JDBCPool.pool(
vertx,
// configure the connection
new JDBCConnectOptions()
// H2 connection string
.setJdbcUrl("jdbc:h2:~/test")
// username
.setUser("sa")
// password
.setPassword(""),
// configure the pool
new PoolOptions()
.setMaxSize(16)
);
To use Typesafe Config, you must include the agroal connection pool in your project. The pool does not expose many configuration options and makes the configuration easy to use. |
Running SQL queries
This section shows you how to run queries in the JDBC client.
Running one shot queries
The following example shows how to run queries without managing the connection in Vert.x 3.x.
// 3.x
client.query("SELECT * FROM user WHERE emp_id > ?", new JsonArray().add(1000), res -> {
if (res.succeeded()) {
ResultSet rs = res2.result();
// You can use these results in your application
}
});
The following example shows how to run queries without managing the connection in Vert.x 4.
// 4.x
pool
.preparedQuery("SELECT * FROM user WHERE emp_id > ?")
// the emp id to look up
.execute(Tuple.of(1000))
.onSuccess(rows -> {
for (Row row : rows) {
System.out.println(row.getString("FIRST_NAME"));
}
});
Running queries on managed connections
The following example shows how to run queries on managed connections in Vert.x 4.
pool
.getConnection()
.onFailure(e -> {
// Failed to get a connection
})
.onSuccess(conn -> {
conn
.query("SELECT * FROM user")
.execute()
.onFailure(e -> {
// Handle the failure
// Important, do not forget to return the connection
conn.close();
})
.onSuccess(rows -> {
for (Row row : rows) {
System.out.println(row.getString("FIRST_NAME"));
}
// Important, do not forget to return the connection
conn.close();
});
});
Support for stored procedures
Stored procedures are supported in the JDBC client.
The following example shows how to pass IN
arguments in Vert.x 3.x.
// 3.x
connection.callWithParams(
"{ call new_customer(?, ?) }",
new JsonArray().add("John").add("Doe"),
null,
res -> {
if (res.succeeded()) {
// Success!
} else {
// Failed!
}
});
The following example shows how to pass IN
arguments in Vert.x 4.
// 4.0
client
.preparedQuery("{call new_customer(?, ?)}")
.execute(Tuple.of("Paulo", "Lopes"))
.onSuccess(rows -> {
...
});
In Vert.x 3.x, the support for combining the IN
and OUT
arguments was very limited due to the available types. In Vert.x 4, the pool is type safe and can handle the combination of IN
and OUT
arguments. You can also use INOUT
parameters in your applications.
The following example shows handling of arguments in Vert.x 3.x.
// 3.x
connection.callWithParams(
"{ call customer_lastname(?, ?) }",
new JsonArray().add("John"),
new JsonArray().addNull().add("VARCHAR"),
res -> {
if (res.succeeded()) {
ResultSet result = res.result();
} else {
// Failed!
}
});
The following example shows handling of arguments in Vert.x 4.
// 4.x
client
.preparedQuery("{call customer_lastname(?, ?)}")
.execute(Tuple.of("John", SqlOutParam.OUT(JDBCType.VARCHAR)))
.onSuccess(rows -> {
...
});
In the JDBC client, the data types have been updated.
-
For an argument of type
OUT
, you can specify its return type. In the example, theOUT
argument is specified as typeVARCHAR
which is a JDBC constant. -
The types are not bound by JSON limitations. You can now use database specific types instead of text constants for the type name.
Changes in Vert.x mail client
The following section describes the changes in Vert.x mail client.
MailAttachment
is available as an interface
From Vert.x 4 onwards, MailAttachment
is available as an interface. It enables you to use the mail attachment functionality in a stream. In earlier releases of Vert.x, MailAttachment
was available as a class and attachment for mails was represented as a data object.
Changes in Vert.x AMQP client
The following section describes the changes in Vert.x AMQP client.
Removed methods in AMQP client that contain AmqpMessage
argument
The AMQP client methods that had Handler<AmqpMessage>
as an argument have been removed. In earlier releases, you could set this handler on ReadStream<AmqpMessage>
. However, if you migrate your applications to use futures, such methods cannot be used.
Removed methods | Replacing methods |
|
|
|
|
|
|
Changes in Vert.x MongoDB client
The following section describes the changes in Vert.x MongoDB client.
Methods removed from MongoDB client
The following methods have been removed from MongoClient
class.
Removed methods | Replacing methods |
---|---|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Changes in EventBus JavaScript client
In Vert.x 4, the EventBus JavaScript client module is available in a new location. You will have to update your build systems to use the module from the new location.
In Vert.x 3.x, the event bus JavaScript client was available in various locations, for example:
In Vert.x 4, the JavaScript client is available only in npm. The EventBus JavaScript client module can be accessed from the following locations:
-
Use the following code in your build scripts to access the module.
-
JSON scripts
{ "devDependencies": { "@vertx/eventbus-bridge-client.js": "1.0.0-1" } }
-
XML scripts
<dependency> <groupId>org.webjars.npm</groupId> <artifactId>vertx__eventbus-bridge-client.js</artifactId> <version>1.0.0-1</version> </dependency>
-
Versioning of JavaScript client
Before Vert.x 4, every Vert.x release included a new release of the JavaScript client.
However, from Vert.x 4 onward, a new version of JavaScript client will be available in npm only if there changes in the client. You do not need to update your client application for every Vert.x release, unless there is a version change.
Changes in Vert.x Redis client
In Vert.x 4, use the Redis
class to work with Redis client. The class RedisClient
is no longer available.
- NOTE
-
To help you migrate your applications from
RedisClient
toRedis
class, a helper classRedisAPI
is available.RedisAPI
enables you to replicate the functionality similar toRedisClient
class.
The new class contains all the enhancements in protocols and Redis server features. Use the new class to:
-
Work with all Redis commands
-
Connect to single servers
-
Connect to high availability servers where Redis Sentinel is enabled
-
Connect to cluster configurations of Redis
-
Execute requests in Redis extensions
-
Communicate with both RESP2 and RESP3 server protocol servers
Migrating existing Redis client applications to new client
You can migrate your existing applications to new Redis
client directly or use the helper class RedisAPI
to migrate your applications in two steps.
Before migrating the applications you must create the client.
Creating the client
The following example shows how a Redis client was created in Vert.x 3.x releases.
// Create the redis client (3.x)
RedisClient client = RedisClient
.create(vertx, new RedisOptions().setHost(host));
The following example shows how to create a Redis client in Vert.x 4.
// Create the redis client (4.x)
Redis client = Redis
.createClient(
vertx,
"redis://server.address:port");
In Vert.x 4, the client uses the following standard connection string syntax:
redis[s]://[[user]:password@]server[:port]/[database]
Migrating applications to RedisAPI
Using the 'RedisAPI` you can now decide how to manage the connection:
-
You can let the client manage the connection for you using a pool.
Or
-
You can control the connection by requesting a new connection. You must ensure to close or return the connection when done.
You must create the client and then update the applications to handle requests.
The following example shows how to handle requests after creating the client in Vert.x 3.x releases.
// Using 3.x
// omitting the error handling for brevity
client.set("key", "value", s -> {
if (s.succeeded()) {
System.out.println("key stored");
client.get("key", g -> {
if (s.succeeded()) {
System.out.println("Retrieved value: " + s.result());
}
});
}
});
The following example shows how to handle requests after creating the client in Vert.x 4. The example uses a list for setting the key-value pairs instead of hard coding options. See Redis SET command for more information on arguments available for the command.
// Using 4.x
// omitting the error handling for brevity
// 1. Wrap the client into a RedisAPI
api = RedisAPI.api(client);
// 2. Use the typed API
api.set(
Arrays.asList("key", "value"), s -> {
if (s.succeeded()) {
System.out.println("key stored");
client.get("key", g -> {
if (s.succeeded()) {
System.out.println("Retrieved value: " + s.result());
}
});
}
});
Migrating applications directly to Redis
client
When you migrate to the new Redis
client directly:
-
You can use all the new Redis commands.
-
You can use extensions.
-
You may reduce a few conversions from helper class to new client, which might improve the performance of your application.
You must create the client and then update the applications to handle requests.
The following example shows how to set and get requests after creating the client in Vert.x 3.x releases.
// Using 3.x
// omitting the error handling for brevity
client.set("key", "value", s -> {
if (s.succeeded()) {
System.out.println("key stored");
client.get("key", g -> {
if (s.succeeded()) {
System.out.println("Retrieved value: " + s.result());
}
});
}
});
The following example shows how to handle requests after creating the client in Vert.x 4.
// Using 4.x
// omitting the error handling for brevity
import static io.vertx.redis.client.Request.cmd;
import static io.vertx.redis.client.Command.*;
client.send(cmd(SET).arg("key").arg("value"), s -> {
if (s.succeeded()) {
System.out.println("key stored");
client.send(cmd(GET).arg("key"), g -> {
if (s.succeeded()) {
System.out.println("Retrieved value: " + s.result());
}
});
}
});
In Vert.x 4, all the interactions use the send(Request)
method.
Migrating responses
In Vert.x 3.x, the client used to hardcode all known commands till Redis 5, and the responses were also typed according to the command.
In the new client, the commands are not hardcoded. The responses are of the type Response
. The new wire protocol has more range of types.
In older client, a response would be of following types:
-
null
-
Long
-
String
-
JsonArray
-
JsonObject
(ForINFO
andHMGET
array responses)
In the new client, the response is of following types:
-
null
-
Response
The Response
object has type converters. For example, converters such as:
-
toString()
-
toInteger()
-
toBoolean()
-
toBuffer()
If the received data is not of the requested type, then the type converters convert it to the closet possible data type. When the conversion to a particular type is not possible, the UnsupportedOperationException
is thrown. For example, conversion from String
to List
or Map
is not possible.
You can also handle collections, because the Response
object implements the Iterable
interface.
The following example shows how to perform a MGET request.
// Using 4.x
// omitting the error handling for brevity
import static io.vertx.redis.client.Request.cmd;
import static io.vertx.redis.client.Command.*;
client.send(cmd(MGET).arg("key1").arg("key2").arg("key3"), mget -> {
mget.result()
.forEach(value -> {
// Use the single value
Updates in Vert.x Redis client
This section describes changes in Redis client.
Removed deprecated term "slave" from Redis roles and node options
The deprecated term "slave" has been replaced with "replica" in Redis roles and node options.
- Roles
-
The following example shows you usage of
SLAVE
role in Vert.x 3.x releases.
// Before (3.x)
Redis.createClient(
rule.vertx(),
new RedisOptions()
.setType(RedisClientType.SENTINEL)
.addConnectionString("redis://localhost:5000")
.setMasterName("sentinel7000")
.setRole(RedisRole.SLAVE));
The following example shows you usage of REPLICA
role in Vert.x 4.
// After (4.0)
Redis.createClient(
rule.vertx(),
new RedisOptions()
.setType(RedisClientType.SENTINEL)
.addConnectionString("redis://localhost:5000")
.setMasterName("sentinel7000")
.setRole(RedisRole.REPLICA));
- Node options
-
The following example shows you usage of node type
RedisSlaves
in Vert.x 3.x releases.
// Before (3.9)
options.setUseSlaves(RedisSlaves);
The following example shows you usage of node type RedisReplicas
in Vert.x 4.
// After (4.0)
options.setUseReplicas(RedisReplicas);
Changes in Vert.x Cassandra client
The Vert.x Cassandra client enables applications to interact with an Apache Cassandra service.
The following section describes the changes in Vert.x Cassandra client.
Changes in driver versions
In Vert.x 4, the Cassandra client uses Datastax Java driver with version 4.x. This driver version is not backward compatible. You will have to migrate your Vert.x 3.x applications to Vert.x 4. As a part of the migration process, you should import new Datastax driver classes and change the way you create statements.
The following example shows Datastax Java driver classes and create statements in Vert.x 3.x releases.
import com.datastax.driver.core.ResultSet;
import com.datastax.driver.core.Row;
import com.datastax.driver.core.SimpleStatement;
import io.vertx.cassandra.CassandraClient;
SimpleStatement statement =
new SimpleStatement("SELECT release_version FROM system.local");
cassandraClient.execute(statement, done -> {
ResultSet results = done.result();
Row row = resultSet.one();
System.out.println(row.getString("release_version"));
});
The following example shows Datastax Java driver classes and create statements in Vert.x 4.
import com.datastax.oss.driver.api.core.cql.ResultSet;
import com.datastax.oss.driver.api.core.cql.Row;
import com.datastax.oss.driver.api.core.cql.SimpleStatement;
import io.vertx.cassandra.CassandraClient;
SimpleStatement statement =
SimpleStatement.newInstance("SELECT release_version FROM system.local");
cassandraClient.execute(statement, done -> {
ResultSet results = done.result();
Row row = resultSet.one();
System.out.println(row.getString("release_version"));
});
Objects mappers are not supported
Object mappers are no longer supported because of changes in Datastax Java driver 4.x.
The following mapping construction is not supported in Vert.x 4 release:
@Table(keyspace = "test", name = "names")
public class MappedClass {
@PartitionKey
private String name;
...
}
Updates in Cassandra client options
The CassandraClientOptions.setPort()
, CassandraClientOptions.getContactPoints()
, and CassandraClientOptions.setContactPoints()
methods have been removed. Use the CassandraClientOptions.addContactPoint()
method instead.
The following example shows the use of older methods in Vert.x 3.x releases.
import io.vertx.cassandra.CassandraClient;
import io.vertx.cassandra.CassandraClientOptions;
CassandraClientOptions options = new CassandraClientOptions()
.setContactPoints(List.of("node1.address", "node2.address", "node3.address"))
.setPort(9142)
.setKeyspace("my_keyspace");
CassandraClient client = CassandraClient.create(vertx, options);
The following example shows how to use `CassandraClientOptions.addContactPoint()`method in Vert.x 4.
import io.vertx.cassandra.CassandraClient;
import io.vertx.cassandra.CassandraClientOptions;
CassandraClientOptions options = new CassandraClientOptions()
.addContactPoint("node1.address", 9142)
.addContactPoint("node2.address", 9142)
.addContactPoint("node3.address", 9142)
.setKeyspace("my_keyspace");
CassandraClient client = CassandraClient.create(vertx, options);
RabbitMQ Client
RabbitMQOptions changes
In Vert.x 4 The RabbitMQ options inherits from NetClientOptions to leverage common connection options including SSL. Two options have been removed in favor for their base class equivalent, hence they have been renamed.
// Vert.x RabbitMQOptions 3.x:
RabbitMQOptions options = new RabbitMQOptions()
.setConnectionRetries(42)
.setConnectionRetryDelay(500);
// Vert.x RabbitMQOptions 4.x:
RabbitMQOptions options = new RabbitMQOptions()
.setReconnectAttempts(42)
.setReconnectInterval(500);
Changes in clustering
This section explains the changes in clustering.
Clustered flag removed from options classes
The methods and boolean value that were used to specify, get, and set clustering in Vert.x applications have been removed from VertxOptions
and EventBusOptions
classes.
Changes in Hazelcast cluster manager
The following section describes the changes in the Hazelcast cluster manager.
Updates in custom configurations
The Hazelcast cluster manager is based on Hazelcast 4.
In Vert.x 4, the clustering SPI has been redesigned. The subscription data model has changed. As a result of this, Vert.x 3.x nodes and Vert.x 4 nodes cannot be added together in the same Hazelcast cluster.
The Vert.x applications are not impacted by this change as the EventBus and SharedData APIs remain the same.
If you had a custom Hazelcast configuration file in your Vert.x 3.x application:
-
Add the map
__vertx.nodeInfo
.
<map name="__vertx.nodeInfo">
<backup-count>1</backup-count>
</map>
Changes in Infinispan cluster manager
The following section describes the changes in the Infinispan cluster manager.
Updates in custom configurations
The Infinispan cluster manager is based on Infinispan 12.
In Vert.x 4, the clustering SPI has been redesigned. The subscription data model has changed. As a result of this, Vert.x 3.x nodes and Vert.x 4 nodes cannot be added together in the same Infinispan cluster.
The Vert.x applications are not impacted by this change as the EventBus and SharedData APIs remain the same.
If you had a custom Infinispan configuration file in your Vert.x 3.x application:
-
Change the
__vertx.subs
cache type to replicated instead of distributed. -
Add the replicated cache
__vertx.nodeInfo
.
<cache-container default-cache="distributed-cache">
<distributed-cache name="distributed-cache"/>
<replicated-cache name="__vertx.subs"/>
<replicated-cache name="__vertx.haInfo"/>
<replicated-cache name="__vertx.nodeInfo"/>
<distributed-cache-configuration name="__vertx.distributed.cache.configuration"/>
</cache-container>
If you run an Vert.x cluster on Openshift, the infinispan-cloud
JAR is no longer needed. The JAR has been removed from the dependencies section of the build file. The configuration files that were bundled in this JAR are now included in the infinispan-core
JAR.
Changes in Apache Ignite cluster manager
The Vert.x Ignite cluster manager has been rewritten to support the new Clustering SPI in Vert.x 4. This should not have any notable difference for the developer.
The second change was about the configuration. The reason for doing so was to reduce the transient dependencies introduced by the ignite-spring
extension which was used to parse XML configurations. This change removes more than 10MB of assets from the dependencies.
If the cluster manager is used without any configuration changes there is no migration required but if there was a custom ignite.xml
used, it can be either switched to the new ignite.json
format or the ignite-spring
dependency can be added back to you classpath.
Migrate to custom ignite.json
To overide the default-ignite.json
you can simply add ignite.json
to your classpath. The json format supports customizing ignite options, cache options, discovery options and ssl options. For further customization you need to fall back to the old XML format.
In the example below the default config is extended to activate TLS for cluster communication.
{
"cacheConfiguration": [{
"name": "__vertx.*",
"cacheMode": "REPLICATED",
"readFromBackup": false,
"atomicityMode": "ATOMIC",
"writeSynchronizationMode": "FULL_SYNC"
}, {
"name": "*",
"cacheMode": "PARTITIONED",
"backups": 1,
"readFromBackup": false,
"atomicityMode": "ATOMIC",
"writeSynchronizationMode": "FULL_SYNC"
}],
"sslContextFactory": {
"protocol": "TLSv1.2",
"keyStoreFilePath": "server.jks",
"keyStorePassword": "changeme",
"trustStoreFilePath": "server.jks",
"trustStorePassword": "changeme",
"trustAll": false
},
"includeEventTypes": ["EVT_CACHE_OBJECT_PUT", "EVT_CACHE_OBJECT_REMOVED"],
"metricsLogFrequency": 0
}
Migrate back to ignite.xml with ignite-spring
Add the ignite-spring
dependency and provide the ignite.xml
configuration to your classpath.
-
Maven (in your
pom.xml
):
<dependency>
<groupId>org.apache.ignite</groupId>
<artifactId>ignite-spring</artifactId>
<version>${ignite.version}</version>
</dependency>
-
Gradle (in your
build.gradle
file):
compile 'org.apache.ignite:ignite-spring:${ignite.version}'
Example from the original default-ignite.xml
for this ClusterManager:
<?xml version="1.0" encoding="UTF-8"?>
<beans xmlns="http://www.springframework.org/schema/beans"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xmlns:util="http://www.springframework.org/schema/util"
xsi:schemaLocation="http://www.springframework.org/schema/beans
http://www.springframework.org/schema/beans/spring-beans.xsd
http://www.springframework.org/schema/util
http://www.springframework.org/schema/util/spring-util.xsd">
<bean class="org.apache.ignite.configuration.IgniteConfiguration">
<property name="discoverySpi">
<bean class="org.apache.ignite.spi.discovery.tcp.TcpDiscoverySpi">
<property name="ipFinder">
<bean class="org.apache.ignite.spi.discovery.tcp.ipfinder.multicast.TcpDiscoveryMulticastIpFinder"/>
</property>
</bean>
</property>
<property name="cacheConfiguration">
<list>
<bean class="org.apache.ignite.configuration.CacheConfiguration">
<property name="name" value="__vertx.*"/>
<property name="cacheMode" value="REPLICATED"/>
<property name="readFromBackup" value="false"/>
<property name="atomicityMode" value="ATOMIC"/>
<property name="writeSynchronizationMode" value="FULL_SYNC"/>
</bean>
<bean class="org.apache.ignite.configuration.CacheConfiguration">
<property name="name" value="*"/>
<property name="cacheMode" value="PARTITIONED"/>
<property name="backups" value="1"/>
<property name="readFromBackup" value="false"/>
<property name="atomicityMode" value="ATOMIC"/>
<property name="affinity">
<bean class="org.apache.ignite.cache.affinity.rendezvous.RendezvousAffinityFunction">
<property name="partitions" value="128"/>
</bean>
</property>
<property name="writeSynchronizationMode" value="FULL_SYNC"/>
</bean>
</list>
</property>
<property name="includeEventTypes">
<list>
<util:constant static-field="org.apache.ignite.events.EventType.EVT_CACHE_OBJECT_PUT"/>
<util:constant static-field="org.apache.ignite.events.EventType.EVT_CACHE_OBJECT_REMOVED"/>
</list>
</property>
<property name="gridLogger">
<bean class="io.vertx.spi.cluster.ignite.impl.VertxLogger"/>
</property>
<property name="metricsLogFrequency" value="0"/>
</bean>
</beans>
Migrating clusters
It is important to decide the migration strategy for your codebase. This is because you cannot add Vert.x 3.x nodes and Vert.x 4 nodes together in a single cluster for the following reasons:
-
Cluster manager upgrades - Major version upgrades in cluster managers prevent backward compatibility.
-
Subscription data changes - Vert.x has changed the format of the EventBus subscription data stored in cluster managers.
-
Transport protocol changes - Vert.x has changed some fields in the message transport protocol in the cluster.
If you have an Vert.x cluster for a single application or for some closely related microservices, you can migrate the entire codebase to the new cluster at one time.
However, if you cannot migrate the codebase at one time, use the recommendations in this section to migrate an Vert.x 3.x codebase to Vert.x 4.
Splitting the cluster
If you have a cluster where different teams have deployed verticles for their applications, you can consider splitting the Vert.x 3.x cluster into smaller ones. Note that after splitting the cluster, the separated components will not be able to communicate using the clustering features. You can split the cluster using the following components:
-
EventBus request and reply - HTTP or RESTful web services, gRPC
-
EventBus send and publish - Messaging systems, Postgres
LISTEN
andNOTIFY
, Redis Pub and Sub -
Shared Data - Redis, Infinispan
After you split the cluster, each team can move to Vert.x 4 when they are ready or if required.
Using Vert.x EventBus Link
If you cannot split your cluster, then use Vert.x EventBus Link to migrate your codebase incrementally.
Vert.x EventBus Link is a tool that connects an Vert.x 3.x clustered EventBus to an Vert.x 4 clustered EventBus.
The migration of shared data API, that is, maps, counters and locks is not supported. |
The tool creates an EventBusLink
object that implements the EventBus
interface. An instance of EventBusLink
is created on at least one node of each cluster. The instance is created by providing a set of addresses and its behavior depends on the message paradigm:
-
fire and forget and request and reply - The message is sent to the remote cluster.
-
publish - The message is sent to both this cluster and the remote cluster.
The Vert.x EventBus Link creates a WebSocket server to receive messages and uses a WebSocket client to send them.
See the sections get started and using for more details.
Miscellaneous changes in Vert.x
The following section describes miscellaneous changes in Vert.x 4.
Removed the Starter
class
The Starter
class has been removed. Use the Launcher
class instead to start your Vert.x applications without the main()
method.
Isolated deployment for Java 8
Vert.x 4 supports Java 11. This Java version does not support isolated class loading. In Vert.x 4, isolated class loading will be supported for Java 8.
Removed hook methods from Vert.x context
The methods Context.addCloseHook()
and Context.removeCloseHook()
methods have been removed from the Context
class. These methods have been moved to the internal interface InternalContext
.
Removed the clone methods from options
The methods KeyCertOptions.clone()
, TrustOptions.clone()
, and SSLEngineOptions.clone()
have been removed. Use the methods KeyCertOptions.copy()
, TrustOptions.copy()
, and SSLEngineOptions.copy()
instead.
Removed equals and hashcode methods from options
The VertxOptions.equals()
and VertxOptions.hashCode()
methods have been removed.
New method to check file caching
The VertxOptions.fileResolverCachingEnabled()
method has been removed. Use FileSystemOptions.isFileCachingEnabled()
method instead to check if file caching has been enabled to resolve classpaths.
Service Provider Interface (SPI) metrics
The Metrics.isEnabled()
method has been removed. The Service Provider Interface (SPI) metrics will return a null object to indicate that metrics are not enabled.
Removed the pooled buffer methods
The pooled buffer methods TCPSSLOptions.isUsePooledBuffers()
and TCPSSLOptions.setUsePooledBuffers()
have been removed.
Methods to create clients that have no shared data sources
Use the following new methods to create clients that do not have shared data sources with other clients. These methods maintain their own data sources.
Deprecated Methods | New Methods |
---|---|
|
|
|
|
|
|
|
|
Changes in Vert.x JUnit5
The following section describes the changes in Vert.x JUnit5.
Support vertx-core
module and updates in extensions
The vertx-core
module has been updated to use a service provider interface for parameter injection. This change resulted in following updates in JUnit5:
-
You must call the
Vertx
parameter before any parameter that requires it for creation. For example, when injecting aWebClient
. -
vertx-junit5
module supports only thevertx-core
module. -
reactiverse-junit5-extensions
module hosts extensions that contain extra parameter types, such as,WebClient
. -
RxJava 1 and 2 bindings are now available as
vertx-junit5-rx-java
andvertx-junit5-rx-java2
modules in thevertx-junit5-extensions
repository.From Eclipse Vert.x 4.1.0, the RxJava 3 binding
vertx-junit5-rx-java3
is available.
Kotlin changes
Generated coroutine extension methods
Vert.x 3 generates extension suspending extension methods, e.g get(Handler<AsyncResult<Result>>
generates getAwait()
extension method.
// getSomethingAwait() is a generated extension method
// and is deprecated
var result = getSomethingAwait();
Vert.x 4 provides a future based model and the Vert.x Future
has an await()
extension methods that does the same. The code above can simply be rewritten as
var result = getSomething().await();
Script compiler
Vert.x 3 provides a Kotlin Script compiler based on Kotlin Compiler API.
The API often breaks and creates friction for upgrading Kotlin versions.
This is removed in Vert.x 4.0.
Such scripts should now be handled by Kotlin tools, e.g the Kotlin compiler has options to compile these scripts.
Testing Mongo DB Code
The vertx-embedded-mongo-db module is no longer supported in Vert.x 4. An alternative can be vertx-wiremongo although it takes a different approach. While vertx-embedded-mongo-db spun up a full blown mongo server, vertx-wiremongo is an alternative in-memory implementation of Vert.x' MongoClient
interface that allows specific mocking.
Let’s assume we want to test our persistence layer’s findApples
method to make sure it creates the correct mongo query. Here’s what such a test may look like with vertx-wiremongo:
@Test
public void testFindApples(TestContext ctx) {
wiremongo.find()
.inCollection("warehouse")
.withQuery(q -> q.getString("type").equals("apple"))
.returns(List.of(new JsonObject()
.put("type", "apple")
.put("mass", 161)
.put("expiration", new JsonObject()
.put("$date", Instant.now().plus(7, DAYS)))));
db.findApples()
.onSuccess(l -> {
ctx.assertEquals(1, l.size());
ctx.assertEquals(161, l.get(0).getInteger("mass"));
})
.onComplete(ctx.asyncAssertSuccess());
}
A complete documentation can be found here.