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https://github.com/advantageous/qbit
The Java microservice lib. QBit is a reactive programming lib for building microservices - JSON, HTTP, WebSocket, and REST. QBit uses reactive programming to build elastic REST, and WebSockets based cloud friendly, web services. SOA evolved for mobile and cloud. ServiceDiscovery, Health, reactive StatService, events, Java idiomatic reactive programming for Microservices.
https://github.com/advantageous/qbit
actor aws health java microservice monitoring qbit websocket websocket-support
Last synced: 4 days ago
JSON representation
The Java microservice lib. QBit is a reactive programming lib for building microservices - JSON, HTTP, WebSocket, and REST. QBit uses reactive programming to build elastic REST, and WebSockets based cloud friendly, web services. SOA evolved for mobile and cloud. ServiceDiscovery, Health, reactive StatService, events, Java idiomatic reactive programming for Microservices.
- Host: GitHub
- URL: https://github.com/advantageous/qbit
- Owner: advantageous
- License: apache-2.0
- Created: 2014-08-26T03:56:15.000Z (over 10 years ago)
- Default Branch: master
- Last Pushed: 2018-01-18T19:02:18.000Z (almost 7 years ago)
- Last Synced: 2024-11-20T11:22:34.149Z (22 days ago)
- Topics: actor, aws, health, java, microservice, monitoring, qbit, websocket, websocket-support
- Language: Java
- Homepage: http://advantageous.github.io/qbit/
- Size: 15.8 MB
- Stars: 709
- Watchers: 94
- Forks: 140
- Open Issues: 61
-
Metadata Files:
- Readme: README.md
- License: License
Awesome Lists containing this project
- awesome-list-microservice - qbit - JSON, HTTP, WebSocket, and REST. QBit uses reactive programming to build elastic REST, and WebSockets based cloud friendly, web services. SOA evolved for mobile and cloud. ServiceDiscovery, Health, reactive StatService, events, Java idiomatic reactive programming for Microservices. (java)
- vertx-awesome - QBit - QBit works with Spring DI and Spring Boot (and of course Vert.x). Allows you to use QBit, Vert.x, Spring DI and Spring Boot in the same application. (Dependency Injection)
README
[QBit Java Micorservices lib tutorials](https://github.com/MammatusTech/qbit-microservices-examples/wiki)|
[QBit Website](http://advantageous.github.io/qbit/) | [QBit uses Reakt](http://advantageous.github.io/reakt/) | [QBit works with Vert.x](http://vertx.io/) | [Reakt Vertx](http://advantageous.github.io/reakt-vertx/)# QBit - The Microservice Lib for Java - JSON, REST, WebSocket, Speed!
[![Join the chat at https://gitter.im/advantageous/qbit](https://badges.gitter.im/Join%20Chat.svg)](https://gitter.im/advantageous/qbit?utm_source=badge&utm_medium=badge&utm_campaign=pr-badge&utm_content=badge)## Quick overview of QBit
The Java microservice lib. QBit is a reactive programming lib for building microservices - JSON, HTTP, WebSocket, and REST. QBit uses reactive programming to build elastic REST, and WebSockets based cloud friendly, web services. SOA evolved for mobile and cloud. ServiceDiscovery, Health, reactive StatService, events, Java idiomatic reactive programming for Microservices.
Got a question? Ask here: [QBit Google Group](https://groups.google.com/forum/#!forum/qbit-microservice).
Everything is a queue. You have a choice. You can embrace it and control it. You can optimize for it.
Or you can hide behind abstractions. QBit opens you up to peeking into what is going on, and allows you
to pull some levers without selling your soul.QBit is a library not a framework. You can mix and match QBit with Spring, Guice, etc.
## New and Improved!
QBit now supports [Reakt](http://advantageous.github.io/reakt/) invokable promises for local and remote client proxies.
This gives a nice fluent API for async programming.#### Invokeable promise
```java
employeeService.lookupEmployee("123")
.then((employee)-> {...}).catchError(...).invoke();
```QBit callbacks are now also Reakt Callbacks without breaking the QBit contract for Callbacks.
See [Reakt Invokable Promises for more details](https://github.com/advantageous/reakt/wiki/Invokable-Promise).
## QBit is FAST!
![QBit the microservice framework for java](https://docs.google.com/spreadsheets/d/1kd3gjyyz1MyTJvNLJ-BC0YIkzIU-8YYLLrxpjUl0TBQ/pubchart?oid=781959089&format=image)
## Getting started
#### Using from mavenQBit is published to the [maven public repo](http://search.maven.org/#search%7Cga%7C1%7Cg%3A%22io.advantageous.qbit%22%20).
```xml
io.advantageous.qbit
qbit-admin
1.10.0.RELEASEio.advantageous.qbit
qbit-vertx
1.10.0.RELEASE```
#### Using from gradle
```java
compile 'io.advantageous.qbit:qbit-admin:1.10.0.RELEASE'
compile 'io.advantageous.qbit:qbit-vertx:1.10.0.RELEASE'
```Core Features
============* Write REST based async microservices
* Write ***WebSocket*** based async microservices (fast async RPC over WebSocket)
* Actor Service Queues using micro-batching for high-speed message passing
* Strongly async typed event bus which can be distributed
* Async low overhead metrics gathering which can be queried and distributed (for doing fast lane analytics)
* Complex async call coordination (with the Reactor) for reactive programming
* Built-in support for ***health checks*** (and integration with tools like Consul)
* Built-in support for ***monitoring*** (and integration with wire protocols like StatsD)
* Built-in support for ***Service Discovery*** (with integration with health system, DNS SRV records and Consul)
* Integration with persistent queues
* [12 factor app port bindings](http://12factor.net/), health checks, KPI gathering, Logging MDC
* API Gateway support for client generation and consumption via [Swagger](http://swagger.io/).
* Our services can generate Swagger files (like idl for JSON/REST).
* Remote client proxies for WebSocket (your interface is your IDL)Status
=====
Deployed at several large fortune 100 companies.
QBit now works with Vertx (standalone or embedded).
You can also use QBit on non-QBit projects, it is just a lib.License
=====
Apache 2## Java Microservice Lib
QBit has inproc services, REST microservices and WebSocket microservices as well as an
in-proc service event bus (which can be per module or per app). It supports workers and in-memory services.Before we describe more, here are two sample services:
#### Todo Service
```java@RequestMapping("/todo-service")
public class TodoService {@RequestMapping("/todo/count")
public int size() {...@RequestMapping("/todo/")
public List list() {...
```#### Adder Service using URI params
```java@RequestMapping("/adder-service")
public class AdderService {@RequestMapping("/add/{0}/{1}")
public int add(@PathVariable int a, @PathVariable int b) {...
}
```QBit philosophy:
====
At the end of the day QBit is a simple library not a framework.
Your app is not a QBit app but a Java app that uses the QBit lib.
QBit allows you to work with Java UTIL concurrent, and does not endeavor to hide it from you.
Just trying to take the sting out of it.Does it work
=====
We have used techniques in Boon and QBit with great success in high-end, high-performance, high-scalable apps.
We helped clients handle 10x the load with 1/10th the servers of their competitors using techniques in QBit.
QBit is us being sick of hand tuning queue access and threads.Boon and QBit humility policy
=====
Ideas for Boon and QBit often come from all over the web. We make mistakes. Point them out.
As a developer of Boon and QBit, we are fellow travelers.
If you have an idea or technique you want to share, we listen.Inspiration
====A big inspiration for Boon/QBit was Vertx, Akka, Go Channels, Active Objects, Apartment Model Threading, Actor,
and the Mechanical Sympathy papers.QBit has ideas that are similar to many frameworks. We are all reading the same papers.
QBit got inspiration from the LMAX disruptor papers and this blog post about
[link transfer queue versus disruptor](http://php.sabscape.com/blog/?p=557). We had some theories about
queues that blog post inspired us to try them out. Some of these theories are deployed at some of the
biggest middleware backends and whose name brands are known around the world. And thus QBit was born.QBit also took an lot of inspiration by the great work done
by Tim Fox on Vertx. The first project using something that could actually be called QBit (albeit early QBit)
was using Vertx on an web/mobile microservice for an app that could potentially have 80 million users.
It was this
experience with Vertx and early QBit that led to QBit development and evolution. QBit is built on the
shoulders of giants (Netty/Vertx).Does QBit compete with...
====
Spring Disruptor: No. You could use QBit to write plugins for Spring Disruptor I suppose, but QBit does
not compete with Spring Disruptor.
Spring Boot/Spring MVC: No. We use the same annotations but QBit is geared for high-speed in-memory
microservices. It is more like Akka than Spring Boot. QBit has a subset of the features of Spring MVC
geared only for microservices, i.e., WebSocket RPC, REST, JSON marshaling, etc.
Akka: No. Well Maybe. Akka has similar concepts but they take a different approach. QBit is more focused
on Java, and microservices (REST, JSON, WebSocket) than Akka.
LMAX Disruptor: No. In fact, we can use disruptor as on of the queues that QBit uses underneath the covers.(Early benchmarks have been removed. They were here. QBit got a lot faster.
Benchmarking QBit is a moving target at the moment.
Links and reports will be created.)Code Examples
## Basic Queue example (REST style services is further down)
====
```java
BasicQueue queue = BasicQueue.create(Integer.class, 1000);
//Sending threads
SendQueue sendQueue = queue.sendQueue();
for (int index = 0; index < amount; index++) {
sendQueue.send(index);
}
sendQueue.flushSends();
...
sendQueue.sendAndFlush(code);
//other methods for sendQueue, writeBatch, writeMany//Receiving Threads
ReceiveQueue receiveQueue = queue.receiveQueue();
Integer item = receiveQueue.take();
//other methods poll(), pollWait(), readBatch(), readBatch(count)
```### What is QBit again?
QBit is a queuing library for microservices. It is similar to many other projects like Akka, Spring Reactor,
etc. QBit is just a library not a platform. QBit has libraries to put a service behind a queue.
You can use QBit queues directly or you can create a service. QBit services can be exposed by WebSocket,
HTTP, HTTP pipeline, and other types of remoting. A service in QBit is a Java class whose methods are
executed behind service queues. QBit implements apartment model threading and is similar to the
Actor model or a better description would be Active Objects. QBit does not use a disruptor (but could).
It uses regular Java Queues. QBit can do north of 100 million ping pong calls per second which is
an amazing speed (seen as high as 200M). QBit also supports calling services via REST, and WebSocket.
QBit is microservices in the pure Web sense: JSON, HTTP, WebSocket, etc. QBit uses micro batching to
push messages through the pipe (queue, IO, etc.) faster to reduce thread hand-off.### QBit lingo
QBit is a Java microservice lib supporting REST, JSON and WebSocket. It is written in Java but we could
one day write a version in Rust or Go or C# (but that would require a large payday).**Service**
POJO (plain old Java object) behind a queue that can receive method calls via proxy calls or events
(May have one thread managing events, method calls, and responses or two one for method calls and events
and the other for responses so response handlers do not block service. One is faster unless responses block). Services can use Spring MVC style REST annotations to expose themselves to the outside world via REST and WebSocket.**ServiceBundle**
Many POJOs behind one response queue and many receive queues. There may be one thread for all responses
or not. They also can be one receive queue.**Queue**
A thread managing a queue. It supports batching. It has events for empty, reachedLimit, startedBatch,
idle. You can listen to these events from services that sit behind a queue. You don't have to use Services.
You can use Queue's direct. In QBit, you have sender queues and receivers queues. They are separated to
support micro-batching.**ServiceEndpointServer**
ServiceBundle that is exposed to REST and WebSocket communication.**EventBus**
EventBus is a way to send a lot of messages to services that may be loosely coupled.**ClientProxy**
ClientProxy is a way to invoke service through async interface, service can be inproc (same process) or
remoted over WebSocket.**Non-blocking**
QBit is a non-blocking lib. You use CallBacks via Java 8 Lambdas. You can also send event messages and get
replies. Messaging is built into the system so you can easily coordinate complex tasks.
QBit takes an object-oriented approach to service development so services look like normal Java services
that you
already write, but the services live behind a queue/thread. This is not a new concept. Microsoft did this
with DCOM/COM and called it active objects. Akka does it with actors and called them strongly typed Actors.
The important concepts is that you get the speed of reactive and actor style messaging but you develop
in a natural OOP approach. QBit is not the first. QBit is not the only.**Speed**
QBit is VERY fast. There is a of course a lot of room for improvement. But already 200M+ TPS inproc ping pong, 10M-20M+ TPS event bus, 500K TPS RPC calls over WebSocket/JSON, etc.
More work needs to be done to improve speed, but now it is fast enough where we are focusing more on
usability.
The JSON support uses Boon by default which is up to 4x faster than other JSON parsers for the
REST/JSON, WebSocket/JSON use case.**Reactive Programming**
QBit provides a **Reactor** to manage async calls. This allows callbacks to be handled on the same thread that called them and it provides for timeout and error handling. Read [Reactor tutorial for creating reactive micro service programming](https://github.com/MammatusTech/qbit-microservices-examples/wiki/Reactor-tutorial--%7C-reactively-handling-async-calls-with-QBit-Reactive-Microservices)**Service Discovery**
Built in support for service discovery. This includes integration with Consul.**StatService**
Built in support for stats. The **StatService** can be integrated with **StatsD** (Graphite, Grafana, DataDog, etc.) to publish passive stats. Or you can query the stats engine and react to the stats (counts, timings and levels). The **StatsService** is a reactive stats system that can be clustered. The StatService is reactive in that your services can publish to it and query it and react based on the results. You can implement things like rate limiting and react to an increased rate of something. The ServiceDiscovery system integrates with the HealthSystem and Consul to roll up each of your internal services that make up you micro service and publish the composite availably of your micro service to a single HTTP endpoint or a dead mans switch in Consul (TTL).### CURLable REST services example
Talk is cheap. Let's look at some code. You can get a detailed walk through in the Wiki.
We have a lot of documentation already.We will create a service that is exposed through REST/JSON.
To query the size of the todo list:
```bash
curl localhost:8080/services/todo-service/todo/count
```To add a new TODO item.
```bash
curl -X POST -H "Content-Type: application/json" -d \
'{"name":"xyz","description":"xyz"}' \
http://localhost:8080/services/todo-service/todo
```To get a list of TODO items
```bash
curl http://localhost:8080/services/todo-service/todo/
```The TODO example will use and track Todo items.
#### Todo item POJO sans getter
```java
package io.advantageous.qbit.examples;import java.util.Date;
public class TodoItem {
private final String description;
private final String name;
private final Date due;```
The TodoService uses Spring MVC style annotations.
#### Todo Service
```java@RequestMapping("/todo-service")
public class TodoService {private List todoItemList = new ArrayList<>();
@RequestMapping("/todo/count")
public int size() {return todoItemList.size();
}@RequestMapping("/todo/")
public List list() {return todoItemList;
}@RequestMapping(value = "/todo", method = RequestMethod.POST)
public void add(TodoItem item) {todoItemList.add(item);
}}
```
#### Sending non-JSON
You can POST/PUT non-JSON and you can capture the body as a `String` or as a `byte[]`.
If the content-type is set to anything but `application/json` and your body is defined a String or byte[].
This works automatically. (The content-type has to be set.)```java
@RequestMapping(value = "/body/bytes", method = RequestMethod.POST)
public boolean bodyPostBytes( byte[] body) {
String string = new String(body, StandardCharsets.UTF_8);
return string.equals("foo");
}@RequestMapping(value = "/body/string", method = RequestMethod.POST)
public boolean bodyPostString(String body) {
return body.equals("foo");
}
```#### Sending different response codes for success
By default QBit sends a `200` (OK) for a non-void call (a call that has a return or a Callback). If the REST operation has no return or no callback then QBit sends a `202` (Accepted). There may be times when you want to send a 201 (Created) or some other code that is not an Exception. You can do that by setting `code` on `@RequestMapping`. By default the code is -1 which means use the default behavior (200 for success, 202 for one-way message, and 500 for errors).
#### Sending different response codes for success
```java@RequestMapping(value = "/helloj7", code = 221)
public void helloJSend7(Callback>> callback) {
callback.returnThis(JSendResponseBuilder.jSendResponseBuilder(Lists.list(
"hello " + System.currentTimeMillis())).build());
}```
`Callbacks` can be used for internal services as well. It is often the case that you use a [CallbackBuilder](https://github.com/advantageous/qbit/wiki/%5BDocument%5D-CallbackBuilder-and-generics-for-Reactive-Java-Microservices) or a QBit [Reactor](https://github.com/MammatusTech/qbit-microservices-examples/wiki/Reactor-tutorial--%7C-reactively-handling-async-calls-with-QBit-Reactive-Microservices) to manage service calls.
#### Working with non JSON responses
You do not have to return JSON form rest calls.
You can return any binary or any text by using `HttpBinaryResponse` and `HttpTextResponse`.#### Returning non JSON from REST call
```java
@RequestMapping(method = RequestMethod.GET)
public void ping2(Callback callback) {callback.resolve(HttpResponseBuilder.httpResponseBuilder()
.setBody("hello mom").setContentType("mom")
.setCode(777)
.buildTextResponse());
}
```#### Returning binary from REST call
```java
@RequestMapping(method = RequestMethod.GET)
public void ping2(Callback callback) {callback.resolve(HttpResponseBuilder.httpResponseBuilder()
.setBody("hello mom").setContentType("mom")
.setCode(777)
.buildBinaryResponse());
}
```#### Side note Why Spring style annotations?
Why did we pick Spring style annotations?
1) Spring is not a standard and neither is QBit. 2) We found the Spring annotations to be less verbose.
3) More people use Spring than Java EE. We wrote QBit for people to use.
We could easily support JAX-RS style annotations, and we probably will.
Since QBit focuses on JSON, we do not need all of the complexity of JAX-RS or even all the features of
the Spring MVC annotations. Also we can literally use the actual Spring annotations. QBit and Boon
use a non-type safe mechanism for annotations which means they are not tied to a particular lib.
You can define your own. We hate vendor tie-in even if it is an open source vendor.
(We also support @POST, @GET which is similar to JAX-RS).Now just start it up.
```java
public static void main(String... args) {
ServiceEndpointServer server = new EndpointServerBuilder().build();
server.initServices(new TodoService());
server.start();
}
```That is it. There is also out of the box WebSocket support with client side proxy generation so
you can call into services at the rate of millions of calls per second.## Using URI Params for QBit microservice
```java
@RequestMapping("/adder-service")
public class AdderService {@RequestMapping("/add/{0}/{1}")
public int add(@PathVariable int a, @PathVariable int b) {return a + b;
}
}```
## WebSocket
You can always invoke QBit services via a WebSocket proxy.
The advantage of a WebSocket proxy is it allows you execute 1M RPC+ a second (1 million remote calls
every second).#### Using a microservice remotely with WebSocket
```java
/* Start QBit client for WebSocket calls. */
final Client client = clientBuilder()
.setPort(7000).setRequestBatchSize(1).build();/* Create a proxy to the service. */
final AdderServiceClientInterface adderService =
client.createProxy(AdderServiceClientInterface.class,
"adder-service");client.start();
/* Call the service */
adderService.add(System.out::println, 1, 2);```
The output is 3.
```output
3
```The above uses a WebSocket proxy interface to call the service async.
```java
interface AdderServiceClientInterface {
void add(Callback callback, int a, int b);
}
```#### ServiceDiscovery aware websocket builders
Create websocket service client that is ServiceDiscovery aware.
```java
final Client client = clientBuilder.setServiceDiscovery(serviceDiscovery, "echo")
.setUri("/echo").setProtocolBatchSize(20).build().startClient();final EchoAsync echoClient = client.createProxy(EchoAsync.class, "echo");
```Currently the `clientBuilder` will load all service endpoints that are registered under the service name,
and randomly pick one.ServiceDiscovery includes Consul based, watching JSON files on disk, and DNS. It is easy to write your own service discovery as well and plug it into QBit.
In the future we can RoundRobin calls or shard calls to websocket service and/or provide auto fail over if the connection is closed. We do this for the event bus that uses service discovery but it is not baked into WebSocket based client stubs yet.
## REST call with URI params
The last client example uses WebSocket. You could also just use REST, and actually use the URI params
that we setup.
REST is nice but it is going to be slower than WebSocket support.QBit ships with a nice little HTTP client. We can use it.
You can use it to send async calls and WebSocket messages with the HTTP client.
Here we will use the http client to invoke our remote method:
#### Using a microservice remotely with REST QBit microservice client
```javaHttpClient httpClient = httpClientBuilder()
.setHost("localhost")
.setPort(7000).build();httpClient.start();
String results = httpClient
.get("/services/adder-service/add/2/2").body();
System.out.println(results);```
The output is 4.
```output
4
```## Accessing The URI Param example with CURL
You can also access the service from curl.
```bash
$ curl http://localhost:7000/services/adder-service/add/2/2
```See this full example here: [QBit microservice getting started tutorial](https://github.com/advantageous/qbit/wiki/%5BDetailed-Tutorial%5D-------------QBit-microservice-example).
[QBit URI params and WebSocket proxy client](https://github.com/advantageous/qbit/wiki/%5BRough-Cut%5D-Using-QBit-microservice-lib's-REST-support-with-URI-Params)
## Working with WebSocket, HttpClient etc.
QBit has a library for working with and writing async microservices that is lightweight and fun to use.
#### WebSocket server and client.
#### Create an HTTP server
```java/* Create an HTTP server. */
HttpServer httpServer = httpServerBuilder()
.setPort(8080).build();```
#### Setup server WebSocket support
```java
/* Setup WebSocket Server support. */
httpServer.setWebSocketOnOpenConsumer(webSocket -> {
webSocket.setTextMessageConsumer(message -> {
webSocket.sendText("ECHO " + message);
});
});```
#### Start the server
```java/* Start the server. */
httpServer.start();
```#### Setup the WebSocket client
```java/** CLIENT. */
/* Setup an httpClient. */
HttpClient httpClient = httpClientBuilder()
.setHost("localhost").setPort(8080).build();
httpClient.start();
```#### Client WebSocket
```java
/* Setup the client websocket. */
WebSocket webSocket = httpClient
.createWebSocket("/websocket/rocket");/* Setup the text consumer. */
webSocket.setTextMessageConsumer(message -> {
System.out.println(message);
});
webSocket.openAndWait();/* Send some messages. */
webSocket.sendText("Hi mom");
webSocket.sendText("Hello World!");```
#### Output
```outputECHO Hi mom
ECHO Hello World!```
Now stop the server and client. Pretty easy eh?
## High-speed HTTP client and server done microservice style
##### Starting up an HTTP server
```java
/* Create an HTTP server. */
HttpServer httpServer = httpServerBuilder()
.setPort(8080).build();/* Setting up a request Consumer with Java 8 Lambda expression. */
httpServer.setHttpRequestConsumer(httpRequest -> {Map results = new HashMap<>();
results.put("method", httpRequest.getMethod());
results.put("uri", httpRequest.getUri());
results.put("body", httpRequest.getBodyAsString());
results.put("headers", httpRequest.getHeaders());
results.put("params", httpRequest.getParams());
httpRequest.getReceiver()
.response(200, "application/json", Boon.toJson(results));
});/* Start the server. */
httpServer.start();```
The focus is on ease of use and using Java 8 Lambdas for callbacks so the code is tight and small.
[Find out more about QBit's microservice style WebSocket support here](https://github.com/advantageous/qbit/wiki/%5BDoc%5D-Using-QBit-microservice-lib's-WebSocket-support)
## Using HTTP Client lib
Now, let's try out our HTTP client.
##### Starting up an HTTP client
```java
/* Setup an httpClient. */
HttpClient httpClient = httpClientBuilder()
.setHost("localhost").setPort(8080).build();
httpClient.start();
```You just pass the URL, the port and then call start.
## Synchronous HTTP calls
Now you can start sending HTTP requests.
##### No Param HTTP GET
```java
/* Send no param get. */
HttpResponse httpResponse = httpClient.get( "/hello/mom" );
puts( httpResponse );
```An HTTP response just contains the results from the server.
##### No Param HTTP Response
```java
public interface HttpResponse {MultiMap headers();
int code();
String contentType();
String body();
}
```
There are helper methods for sync HTTP GET calls.
##### Helper methods for GET
```java/* Send one param get. */
httpResponse = httpClient.getWith1Param("/hello/singleParam",
"hi", "mom");
puts("single param", httpResponse );/* Send two param get. */
httpResponse = httpClient.getWith2Params("/hello/twoParams",
"hi", "mom", "hello", "dad");
puts("two params", httpResponse );...
/* Send five param get. */
httpResponse = httpClient.getWith5Params("/hello/5params",
"hi", "mom",
"hello", "dad",
"greetings", "kids",
"yo", "pets",
"hola", "neighbors");
puts("5 params", httpResponse );```
The puts method is a helper method it does System.out.println more or less by the way.
The first five params are covered. Beyond five, you have to use the HttpBuilder.
```java
/* Send six params with get. */
final HttpRequest httpRequest = httpRequestBuilder()
.addParam("hi", "mom")
.addParam("hello", "dad")
.addParam("greetings", "kids")
.addParam("yo", "pets")
.addParam("hola", "pets")
.addParam("salutations", "all").build();httpResponse = httpClient.sendRequestAndWait(httpRequest);
puts("6 params", httpResponse );
```## Http Async HTTP Client
There are async calls for GET as well.
#### Async calls for HTTP GET using Java 8 lambda
```java
/* Using Async support with lambda. */
httpClient.getAsync("/hi/async", (code, contentType, body) -> {
puts("Async text with lambda", body);
});Sys.sleep(100);
/* Using Async support with lambda. */
httpClient.getAsyncWith1Param("/hi/async", "hi", "mom", (code, contentType, body) -> {
puts("Async text with lambda 1 param\n", body);
});Sys.sleep(100);
/* Using Async support with lambda. */
httpClient.getAsyncWith2Params("/hi/async",
"p1", "v1",
"p2", "v2",
(code, contentType, body) -> {
puts("Async text with lambda 2 params\n", body);
});Sys.sleep(100);
...
/* Using Async support with lambda. */
httpClient.getAsyncWith5Params("/hi/async",
"p1", "v1",
"p2", "v2",
"p3", "v3",
"p4", "v4",
"p5", "v5",
(code, contentType, body) -> {
puts("Async text with lambda 5 params\n", body);
});Sys.sleep(100);
```
[Find more about the easy to use, fast microservice HTTP client here]
(https://github.com/advantageous/qbit/wiki/%5BDoc%5D-Using-QBit-microservice-lib's-HttpClient-GET,-POST,-et-al,-JSON,-Java-8-Lambda).## InProc QBit services
QBit allows for services behind queues to be run in-proc as well.
```java
/* POJO service. */
final TodoManager todoManagerImpl = new TodoManager();/*
Create the service which manages async calls to todoManagerImpl.
*/
final Service service = serviceBuilder()
.setServiceObject(todoManagerImpl)
.build().startServiceQueue();/* Create Asynchronous proxy over Synchronous service. */
final TodoManagerClientInterface todoManager =
service.createProxy(TodoManagerClientInterface.class);service.startCallBackHandler();
System.out.println("This is an async call");
/* Asynchronous method call. */
todoManager.add(new Todo("Call Mom", "Give Mom a call"));AtomicInteger countTracker = new AtomicInteger();
//Hold count from async call to service... for testing and showing it is an async callbackSystem.out.println("This is an async call to count");
todoManager.count(count -> {
System.out.println("This lambda expression is the callback " + count);countTracker.set(count);
});todoManager.clientProxyFlush(); //Flush all methods. It batches calls.
Sys.sleep(100);
System.out.printf("This is the count back from the server %d\n", countTracker.get());
```
[Detailed tutorial on in-proc services is being written.](https://github.com/advantageous/qbit/wiki/%5BDetailed-Tutorial%5D-Working-with-inproc-MicroServices-within-QBit.)
## QBit Event Bus
[QBit Event Bus more detailed example](https://github.com/advantageous/qbit/wiki/%5BRough-Cut%5D-Working-with-event-bus-for-QBit-the-microservice-engine)
QBit also has a service event bus. This example is a an employee benefits services example.
We have two channels.
```
public static final String NEW_HIRE_CHANNEL = "com.mycompnay.employee.new";public static final String PAYROLL_ADJUSTMENT_CHANNEL = "com.mycompnay.employee.payroll";
```An employee object looks like this:
```java
public static class Employee {
final String firstName;
final int employeeId;
```This example has three services: EmployeeHiringService, BenefitsService, and PayrollService.
These services are inproc services. QBit supports WebSocket, HTTP and REST remote services as well, but for now, let's focus on inproc services. If you understand inproc then you will understand remote.
The EmployeeHiringService actually fires off the events to other two services.
```java
public class EmployeeHiringService {public void hireEmployee(final Employee employee) {
int salary = 100;
System.out.printf("Hired employee %s\n", employee);//Does stuff to hire employee
//Sends events
final EventManager eventManager =
serviceContext().eventManager();
eventManager.send(NEW_HIRE_CHANNEL, employee);eventManager.sendArray(PAYROLL_ADJUSTMENT_CHANNEL,
employee, salary);}
}
```Notice that we call sendArray so we can send the employee and their salary.
The listener for PAYROLL_ADJUSTMENT_CHANNEL will have to handle both an employee and an int
that represents the new employees salary.
You can also use event bus proxies so you do not have to call into the event bus at all.The BenefitsService listens for new employees being hired so it can enroll them into the benefits system.
```java
public static class BenefitsService {@OnEvent(NEW_HIRE_CHANNEL)
public void enroll(final Employee employee) {System.out.printf("Employee enrolled into benefits system employee %s %d\n",
employee.getFirstName(), employee.getEmployeeId());}
```
Daddy needs to get paid.
```java
public static class PayrollService {@OnEvent(PAYROLL_ADJUSTMENT_CHANNEL)
public void addEmployeeToPayroll(final Employee employee, int salary) {System.out.printf("Employee added to payroll %s %d %d\n",
employee.getFirstName(), employee.getEmployeeId(), salary);}
}
```
The employee is the employee object from the EmployeeHiringService.
so you can get your benefits, and paid!
Find more details here:
[QBit Event Bus more detailed example](https://github.com/advantageous/qbit/wiki/%5BRough-Cut%5D-Working-with-event-bus-for-QBit-the-microservice-engine)
## Private event bus and event bus proxies
You can define your own interface to the event bus and you can use your own event buses with QBit.
Each module in your service can have its own internal event bus.To learn more read:
[QBit Microservice working with a private event bus](https://github.com/advantageous/qbit/wiki/%5BRough-Cut%5D-Working-with-private-event-bus-for-inproc-microservices)
and [QBit Java Microservice lib using your own interface to the event bus](https://github.com/advantageous/qbit/wiki/%5BRough-Cut%5D-Working-with-strongly-typed-event-bus-proxies-for-QBit-Java-Microservice-lib).## Queue Callbacks
To really grasp QBit, one must grasp the concepts of a CallBack.
A CallBack is a way to get an async response in QBit.
You call a service method and it calls you back.
Client proxies can have callbacks:
#### Queue Callbacks - RecommendationService client interface
```javapublic interface RecommendationServiceClient {
void recommend(final Callback> recommendationsCallback,
final String userName);
}```
Callbacks are Java 8 Consumers with some optional extra error handling.
#### Queue Callbacks - Callback
```java
public interface Callback extends java.util.function.Consumer {
default void onError(java.lang.Throwable error) { /* compiled code */ }
}```
Services that can block should use callbacks.
Thus if loadUser blocked in the following example, it should really use a callback instead of returning a value.public class RecommendationService {
#### Queue Callbacks - Simple minded implementation of RecommendationService
```javaprivate final SimpleLRUCache users =
new SimpleLRUCache<>(10_000);public List recommend(final String userName) {
User user = users.get(userName);
if (user == null) {
user = loadUser(userName);
}
return runRulesEngineAgainstUser(user);
}```
Let's pretend `loadUser` has to look in a local cache, and if the user is not found, look in an off-heap cache
and if not found it must ask for the user from the UserService which must check its caches and perhaps fallback
to loading the user data from a database or from other services.
In other words, `loadUser` can potentially block on IO.### Queue Callbacks - The first rule of Queue Club - don't block
Our client does not block, but our service does. Going back to our `RecommendationService`.
If we get a lot of cache hits for user loads, perhaps the
block will not be that long, but it will be there and every time we have to fault in a user, the whole system
is gummed up. What we want to be able to do is if we can't handle the recommendation request,
we go ahead and make an async call to the `UserDataService`. When that async callback comes back, then we
handle that request. In the mean time, we handle recommendation lists requests as quickly as we can.
We never block.So let's revisit the service. The first thing we are going to do is make the service method take
a callback. Before we do that, let's set down some rules.#### The first rule of queue club don't block.
#### The second rule of queue club if you are not ready, use a callback and continue handling stuff you are ready for#### Queue Callbacks - Adding a CallBack to the RecommendationService inproc microservice
```java
public class RecommendationService {public void recommend(final Callback> recommendationsCallback,
final String userName) {```
Now we are taking a callback and we can decide when we want to handle this recommendation generation request.
We can do it right away if there user data we need is in-memory or we can delay it.#### If the user is found, call the callback right away for RecommendationService inproc microservice
```java
public void recommend(final Callback> recommendationsCallback,
final String userName) {/** Look for user in user cache. */
User user = users.get(userName);/** If the user not found, load the user from the user service. */
if (user == null) {
...
} else {
/* Call the callback now because we can handle the callback now. */
recommendationsCallback.accept(runRulesEngineAgainstUser(user));
}}
```
Notice, if the user is found in the cache, we run our recommendation rules in-memory and call the callback right away
`recommendationsCallback.accept(runRulesEngineAgainstUser(user))`.The interesting part is what do we do if don't have the user loaded.
#### If the user was not found, load him from the user microservice, but still don't block
```java
public void recommend(final Callback> recommendationsCallback,
final String userName) {/** Look for user in users cache. */
User user = users.get(userName);/** If the user not found, load the user from the user service. */
if (user == null) {/* Load user using Callback. */
userDataService.loadUser(new Callback() {
@Override
public void accept(final User loadedUser) {
handleLoadFromUserDataService(loadedUser,
recommendationsCallback);
}
}, userName);}
...```
Here we use a CallBack to load the user, and when the user is loaded, we call `handleLoadFromUserDataService`
which adds some management about handling the callback so we can still handle this call, just not now.#### Lambda version of last example
```java
public void recommend(final Callback> recommendationsCallback,
final String userName) {/** Look for user in users cache. */
User user = users.get(userName);/** If the user not found, load the user from the user service. */
if (user == null) {/* Load user using lambda expression. */
userDataService.loadUser(
loadedUser -> {
handleLoadFromUserDataService(loadedUser,
recommendationsCallback);
}, userName);}
...```
Using lambdas like this makes the code more readable and terse, but remember don't deeply nest
lambda expressions or you will create a code maintenance nightmare. Use them judiciously.### Queue Callbacks - Doing something later
What we want is to handle the request for recommendations after the user service system loads
the user from its store.#### Handling UserServiceData callback methods once we get them.
```java
public class RecommendationService {
private final SimpleLRUCache users =
new SimpleLRUCache<>(10_000);private UserDataServiceClient userDataService;
private BlockingQueue callbacks =
new ArrayBlockingQueue(10_000);...
public void recommend(final Callback> recommendationsCallback,
final String userName) {...
}
/** Handle defered recommendations based on user loads. */
private void handleLoadFromUserDataService(final User loadedUser,
final Callback> recommendationsCallback) {/** Add a runnable to the callbacks queue. */
callbacks.add(new Runnable() {
@Override
public void run() {
List recommendations = runRulesEngineAgainstUser(loadedUser);
recommendationsCallback.accept(recommendations);
}
});
}```
#### handleLoadFromUserDataService rewritten using Lambda
```java
public class RecommendationService {
...
/** Handle defered recommendations based on user loads. */
private void handleLoadFromUserDataService(final User loadedUser,
final Callback> recommendationsCallback) {/** Add a runnable to the callbacks list. */
callbacks.add(() -> {
List recommendations = runRulesEngineAgainstUser(loadedUser);
recommendationsCallback.accept(recommendations);
});}
```
The important part there is that every time we get a callback call from `UserDataService`, we then
perform our CPU intensive recommendation rules and callback our caller. Well not exactly, what we
do is enqueue an runnable onto our callbacks queue, and later we will iterate through those but when?### Queue Callbacks Handling callbacks when our receive queue is empty, a new batch started or we hit a batch limit
The `RecommendationService` can be notified when its queue is empty, it has started a new batch and when
it has reached a batch limit. These are all good times to handle callbacks from the `UserDataService`.#### Draining our callback queue
```java@QueueCallback({
QueueCallbackType.EMPTY,
QueueCallbackType.START_BATCH,
QueueCallbackType.LIMIT})
private void handleCallbacks() {flushServiceProxy(userDataService);
Runnable runnable = callbacks.poll();while (runnable != null) {
runnable.run();
runnable = callbacks.poll();
}
}```
It is important to remember when handling callbacks from another microservice that you want to handle
callbacks from the other service before you handle more incomming requests from you clients.
Essentially you have clients that have been waiting (async waiting but still), and these clients
might represent an open TCP/IP connection like an HTTP call so it is best to close them out
before handling more requests and like we said they were already waiting around with an open connection
for users to load form the user service.To learn more about CallBacks, plesae read [QBit Java MicroService Lib CallBack fundamentals]([Rough Cut] QBit Microservice Lib Working With CallBacks).
## Workers - pools and shards
```java
public class ServiceWorkers {public static RoundRobinServiceDispatcher workers() {...
public static ShardedMethodDispatcher shardedWorkers(final ShardRule shardRule) {...
```You can compose sharded workers (for in-memory, thread safe, CPU intensive services), or workers for IO
or talking to foreign services or foreign buses.Here is an example that uses a worker pool with three service workers in it:
Let's say you have a service that does something:
```java
//Your POJO
public class MultiWorker {void doSomeWork(...) {
...
}}
```
Now this does some sort of IO and you want to have a bank of these running not just one so you can do
IO in parallel. After some performance testing, you found out that three is the magic number.You want to use your API for accessing this service:
```java
public interface MultiWorkerClient {
void doSomeWork(...);
}```
Now let's create a bank of these and use it.
First create the QBit services which add the thread/queue/microbatch.
```java
/* Create a service builder. */
final ServiceBuilder serviceBuilder = serviceBuilder();/* Create some qbit services. */
final Service service1 = serviceBuilder.setServiceObject(new MultiWorker()).build();
final Service service2 = serviceBuilder.setServiceObject(new MultiWorker()).build();
final Service service3 = serviceBuilder.setServiceObject(new MultiWorker()).build();
```Now add them to a ServiceWorkers object.
```java
ServiceWorkers dispatcher;
dispatcher = workers(); //Create a round robin service dispatcher
dispatcher.addServices(service1, service2, service3);
dispatcher.start(); // start up the workers```
You can add services, POJOs and method consumers, method dispatchers to a service bundle.
The service bundle is an integration point into QBit.Let's add our new Service workers. ServiceWorkers is a ServiceMethodDispatcher.
```Java
/* Add the dispatcher to a service bundle. */
bundle = serviceBundleBuilder().setAddress("/root").build();
bundle.addServiceConsumer("/workers", dispatcher);
bundle.start();
```We are probably going to add a helper method to the service bundle so most of this can happen in
a single call.Now you can start using your workers.
```java
/* Start using the workers. */
final MultiWorkerClient worker = bundle.createLocalProxy(MultiWorkerClient.class, "/workers");```
Now you could use Spring or Guice to configure the builders and the service bundle.
But you can just do it like the above which is good for testing and understanding QBit internals.QBit also supports the concept of sharded services which is good for sharding resources like CPU
(run a rules engine on each CPU core for a user recommendation engine).QBit does not know how to shard your services, you have to give it a hint.
You do this through a shard rule.```java
public interface ShardRule {
int shard(String methodName, Object[] args, int numWorkers);
}
```
We worked on an app where the first argument to the services was the username, and then we used that to
shard calls to a CPU intensive in-memory rules engine. This technique works. :)The ServiceWorkers class has a method for creating a sharded worker pool.
```java
public static ShardedMethodDispatcher shardedWorkers(final ShardRule shardRule) {
...
}```
To use you just pass a shard key when you create the service workers.
```java
dispatcher = shardedWorkers((methodName, methodArgs, numWorkers) -> {
String userName = methodArgs[0].toString();
int shardKey = userName.hashCode() % numWorkers;
return shardKey;
});```
Then add your services to the ServiceWorkers composition.
```java
int workerCount = Runtime.getRuntime().availableProcessors();for (int index = 0; index < workerCount; index++) {
final Service service = serviceBuilder
.setServiceObject(new ContentRulesEngine()).build();
dispatcher.addServices(service);}
```Then add it to the service bundle as before.
```javadispatcher.start();
bundle = serviceBundleBuilder().setAddress("/root").build();
bundle.addServiceConsumer("/workers", dispatcher);
bundle.start();
```Then just use it:
```java
final MultiWorkerClient worker = bundle.createLocalProxy(MultiWorkerClient.class, "/workers");for (int index = 0; index < 100; index++) {
String userName = "rickhigh" + index;
worker.pickSuggestions(userName);
}```
### Built in shard rules
```java
public class ServiceWorkers {
...
public static ShardedMethodDispatcher shardOnFirstArgumentWorkers() {
...
}...
public static ShardedMethodDispatcher shardOnFifthArgumentWorkers() {
...
}public static ShardedMethodDispatcher shardOnBeanPath(final String beanPath) {
...
}```
The shardOnBeanPath allows you to create a complex bean path navigation call and use its property to shard on.
```java
/* shard on 2nd arg which is an employee
Use the employees department's id property. */
dispatcher = shardOnBeanPath("[1].department.id");/* Same as above. */
dispatcher = shardOnBeanPath("1/department/id");```
[Read more about Service sharding and service workers here](https://github.com/advantageous/qbit/wiki/%5BRough-Cut%5D-QBit-Microservices-using-Service-Workers-and-sharded-service-workers)
You can find a lot more in the wiki. Also follow the commits.
We have been busy beavers.
[QBit the microservice lib for Java - JSON, REST, WebSocket](https://github.com/advantageous/qbit/wiki).