DDevelopment & Design

Formatting Java Time with Spring Boot using JSON

stf0-banner The aim of this post is to summarize and review ways of formatting Java Time objects using Spring Boot and Jackson library.

This post is organized into five steps. Each step represents one aspect of the issue and it is also related to one commit in the example project repository.

Step 0 – Prerequirements

Versions and dependencies

This tutorial is based on Spring Boot version 1.3.1.RELEASE with spring-boot-starter-web. It uses jackson-datatype-jsr310 from com.fasterxml.jackson.datatype in version 2.6.4, which is a default version of Spring Boot. All of these is based on Java 8.

The Code

In the example code repository, you can find one HTTP service made with Spring Boot. This service is a GET operation, which returns a class with Java Time objects. You can also find the integration test that deserializes the response.

Step 1 – The goal

I would like to return class Clock, containing LocalDate,LocalTime and LocalDateTime, preinitialized in constructor.

public final class Clock {
    private final LocalDate localDate;
    private final LocalTime localTime;
    private final LocalDateTime localDateTime;
    ...
}

Response class is serialized to JSON Map, which is a default behaviour. To some extent it is correct, but ISO-formatted Strings in response are preferable.

{  
    "localDate":{  
        "year":2016,
        "month":"JANUARY",
        "era":"CE",
        "dayOfYear":1,
        "dayOfWeek":"FRIDAY",
        "leapYear":true,
        "dayOfMonth":1,
        "monthValue":1,
        "chronology":{  
            "id":"ISO",
            "calendarType":"iso8601"
        }
    }
}

Integration testing is an appropriate way to test our functionality.

ResponseEntity resp = sut.getForEntity("http://localhost:8080/clock", Clock.class);

assertEquals(OK, resp.getStatusCode());
assertEquals(c.getLocalDate(), resp.getBody().getLocalDate());
assertEquals(c.getLocalTime(), resp.getBody().getLocalTime());
assertEquals(c.getLocalDateTime(), resp.getBody().getLocalDateTime());

Unfortunately, tests are not passing, because of deserialization problems. The exception with message is thrown can not instantiate from JSON object.

Step 2 – Adds serialization

First things first. We have to add JSR-310 module. It is a datatype module to make Jackson recognize Java 8 Date & Time API data types.

Note that in this example jackson-datatype-jsr310 version is inherited from spring-boot-dependencies dependency management.

com.fasterxml.jackson.datatype
      jackson-datatype-jsr310

Response is now consistent but still, not perfect. Dates are serialized as numbers:

{  
    "version":2,
    "localDate":[  
        2016,
        1,
        1
    ],
    "localTime":[  
        10,
        24
    ],
    "localDateTime":[  
        2016,
        1,
        1,
        10,
        24
    ],
    "zonedDateTime":1451640240.000000000
}

We are one step closer to our goal. Tests are passing now because this format can be deserialized without any additional deserializers. How do I know? Start an application server on commit Step 2 - Adds Object Mapper, then checkout to Step 1 - Introduce types and problems, and run integration tests without @WebIntegrationTest annotation.

Step 3 – Enables ISO formatting

ISO 8601 formatting is a standard. I’ve found it in many projects. We are going to enable and use it. Edit spring boot properties file application.properties and add the following line:

spring.jackson.serialization.WRITE_DATES_AS_TIMESTAMPS = false

Now, the response is something that I’ve expected:

{  
    "version":2,
    "localDate":"2016-01-01",
    "localTime":"10:24",
    "localDateTime":"2016-01-01T10:24",
    "zonedDateTime":"2016-01-01T10:24:00+01:00"
}

Step 4 – Adds on-demand formatting pattern

Imagine one of your client systems does not have the capability of formatting time. It may be a primitive device or microservice that treats this date as a collection of characters. That is why special formatting is required.

We can change formatting in response class by adding JsonFormat annotation with pattern parameter. Standard SimpleDateFormat rules apply.

@JsonFormat(pattern = "dd::MM::yyyy")
private final LocalDate localDate;
    
@JsonFormat(pattern = "KK:mm a")
private final LocalTime localTime;

Below there is a service response using custom @JsonFormat pattern:

{  
    "version":2,
    "localDate":"01::01::2016",
    "localTime":"10:24 AM",
    "localDateTime":"2016-01-01T10:24",
    "zonedDateTime":"2016-01-01T10:24:00+01:00"
}

Our tests are still passing. It means that this pattern is used for serialization in service and deserialization in tests.

Step 5 – Globally changes formatting

There are situations where you have to resign from ISO 8601 formatting in your whole application, and apply custom-made standards.

In this part, we will redefine the format pattern for LocalDate. This will change formatting of LocalDate in every endpoint of your API.

We have to define: – DateTimeFormatter with our pattern. – Serializer using defined pattern. – Deserializer using defined pattern. – ObjectMapper bean with custom serializer and deserializer. – RestTemplate that uses our ObjectMapper.

Bean ObjectMapper is defined with annotation @Primary, to override default configuration. My custom pattern for LocalDate is dd::MM::yyyy

public static final DateTimeFormatter FORMATTER = ofPattern("dd::MM::yyyy");
    
@Bean
@Primary
public ObjectMapper serializingObjectMapper() {
    ObjectMapper objectMapper = new ObjectMapper();
    JavaTimeModule javaTimeModule = new JavaTimeModule();
    javaTimeModule.addSerializer(LocalDate.class, new LocalDateSerializer());
    javaTimeModule.addDeserializer(LocalDate.class, new LocalDateDeserializer());
    objectMapper.registerModule(javaTimeModule);
    return objectMapper;
}

Definitions of serializer and deserializer for all LocalDate classes:

public class LocalDateSerializer extends JsonSerializer {
    
    @Override
    public void serialize(LocalDate value, JsonGenerator gen, SerializerProvider serializers) throws IOException {
        gen.writeString(value.format(FORMATTER));
    }
}
    
public class LocalDateDeserializer extends JsonDeserializer {
    
    @Override
    public LocalDate deserialize(JsonParser p, DeserializationContext ctxt) throws IOException {
        return LocalDate.parse(p.getValueAsString(), FORMATTER);
    }
}

Now, the response is formatted with our custom pattern:

{  
    "localDate":"01::01::2016"
}

Tests

When we define a custom serializer, our tests start to fail. It is because RestTemplate knows nothing about our deserializer. We have to create a custom RestTemplateFactory that creates RestTemplate with object mapper containing our deserializer.

@Configuration
public class RestTemplateFactory {
    
    @Autowired
    private ObjectMapper objectMapper;
    
    @Bean
    public RestTemplate createRestTemplate() {
        RestTemplate restTemplate = new RestTemplate();
        List converters = new ArrayList();
        MappingJackson2HttpMessageConverter jsonConverter = new MappingJackson2HttpMessageConverter();
        jsonConverter.setObjectMapper(objectMapper);
        converters.add(jsonConverter);
        restTemplate.setMessageConverters(converters);
        return restTemplate;
    }
}

Conclusion

Custom formatting Dates is relatively simple, but you have to know how to set up it. Luckily, Jackson works smoothly with Spring. If you know other ways of solving this problem or you have other observations, please comment or let me know.

Blog from Michał Lewandowski personal blog. Photo Credit.

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DDevelopment & Design

CasperJS for Java developers

Why CasperJS

Being a Java developer is kinda hard these days. Java may not be dead yet, but when keeping in sync with all the hipster JavaScript frameworks could make us feel a bit outside the playground. It’s even hard to list JavaScript frameworks with latest releases on one website.

In my current project, we are using AngularJS. It’a a nice abstraction of MV* pattern in frontend layer of any web application (we use Grails underneath). Here is a nice article with an 8-point Win List of Angular way of handling AJAX calls and updating the view. So it’s not only a funny new framework but a truly helper of keeping your code clean and neat.

But there is also another area when you can put helpful JS framework in place of plan-old-java one - functional tests. Especially when you are dealing with one page app with lots of asynchronous REST/JSON communication.

Selenium and Geb

In Java/JVM project the typical is to use Selenium with some wrapper like Geb. So you start your project, setup your CI-functional testing pipeline and… after 1 month of coding your tests stop working and being maintainable. The frameworks itselves are not bad, but the typical setup is so heavy and has so many points of failure that keeping it working in a real life project is really hard.

Here is my list of common myths about Selenium: * It allows you to record test scripts via handy GUI - maybe some static request/response sites. In modern web applications with asynchronous REST/JSON communication your tests must contain a lot of “waitFor” statements and you cannot automate where these should be included. * It allows you to test your web app against many browsers - don’t try to automate IE tests! You have to manually open your app in IE to see how it actually bahaves! * It integrates well with continuous integration servers like Jenkins - you have to setup Selenium Grid on server with X installed to run tests on Chrome or Firefox and a Windows server for IE. And the headless HtmlUnit driver lacks a lot of JS support.

So I decided to try something different and introduce a bit of JavaScript tooling in our project by using CasperJS.

Introduction

CasperJS is simple but powerful navigation scripting & testing utility for PhantomJS - scritable headless WebKit (which is an rendering engine used by Safari and Chrome). In short - CasperJS allows you to navigate and make assertions about web pages as they’d been rendered in Google Chrome. It is enough for me to automate the functional tests of my application.

If you want a gentle introduction to the world of CasperJS I suggest you to read: * Official website, especially installation guide and API * Introductionary article from CasperJS creator Nicolas Perriault * Highlevel testing with CasperJS by Kevin van Zonneveld * grails-angular-scaffolding plugin by Rob Fletcher with some working CasperJS tests

Full example

I run my test suite via following script:

casperjs test --direct --log-level=debug --testhost=localhost:8080 --includes=test/casper/includes/casper-angular.coffee,test/casper/includes/pages.coffee test/casper/specs/

casper-angular.coffe

casper.test.on "fail", (failure) ->
    casper.capture(screenshot)

testhost   = casper.cli.get "testhost"
screenshot = 'test-fail.png'

casper
    .log("Using testhost: #{testhost}", "info")
    .log("Using screenshot: #{screenshot}", "info")

casper.waitUntilVisible = (selector, message, callback) ->
    @waitFor ->
        @visible selector
    , callback, (timeout) ->
        @log("Selector [#{selector}] not visible, failing")
        withParentSelector selector, (parent) ->
            casper.log("Output of parent selector [#{parent}]")
            casper.debugHTML(parent)
        @echo message, "RED_BAR"
        @capture(screenshot)
        @test.fail(f("Wait timeout occured (%dms)", timeout))

withParentSelector = (selector, callback) ->
    if selector.lastIndexOf(" ") > 0
       parent = selector[0..selector.lastIndexOf(" ")-1]
       callback(parent)

Sample pages.coffee:

x = require('casper').selectXPath

class EditDocumentPage

    assertAt: ->
        casper.test.assertSelectorExists("div.customerAccountInfo", 'at EditDocumentPage')

    templatesTreeFirstCategory: 'ul.tree li label'
    templatesTreeFirstTemplate: 'ul.tree li a'
    closePreview: '.closePreview a'
    smallPreview: '.smallPreviewContent img'
    bigPreview: 'img.previewImage'
    confirmDelete: x("//div[@class='modal-footer']/a[1]")

casper.editDocument = new EditDocumentPage()

End a test script:

testhost = casper.cli.get "testhost" or 'localhost:8080'

casper.start "http://#{testhost}/app", ->
    @test.assertHttpStatus 302
    @test.assertUrlMatch /\/fakeLogin/, 'auto login'
    @test.assert @visible('input#Create'), 'mock login button'
    @click 'input#Create'

casper.then ->
    @test.assertUrlMatch /document#\/edit/, 'new document'
    @editDocument.assertAt()
    @waitUntilVisible @editDocument.templatesTreeFirstCategory, 'template categories not visible', ->
        @click @editDocument.templatesTreeFirstCategory
        @waitUntilVisible @editDocument.templatesTreeFirstTemplate, 'template not visible', ->
            @click @editDocument.templatesTreeFirstTemplate

casper.then ->
    @waitUntilVisible @editDocument.smallPreview, 'small preview not visible', ->
        # could be dblclick / whatever
        @mouseEvent('click', @editDocument.smallPreview)

casper.then ->
    @waitUntilVisible @editDocument.bigPreview, 'big preview should be visible', ->
        @test.assertEvalEquals ->
            $('.pageCounter').text()
        , '1/1', 'page counter should be visible'
        @click @editDocument.closePreview

casper.then ->
    @click 'button.cancel'
    @waitUntilVisible '.modal-footer', 'delete confirmation not visible', ->
        @click @editDocument.confirmDelete

casper.run ->
    @test.done()

Here is a list of CasperJS features/caveats used here:

  • Using CoffeeScript is a huge win for your test code to look neat
  • When using casper test command, beware of different (than above articles) logging setup. You can pass --direct --log-level=debug from commandline for best results. Logging is essential here since Phantom often exists without any error and you do want to know what just happened.
  • Extract your helper code into separate files and include them by using --includes switch.
  • When passing server URL as a commandline switch remember that in CoffeeScript variables are not visible between multiple source files (unless getting them via window object)
  • It’s good to override standard waitUntilVisible with capting a screenshot and making a proper log statement. In my version I also look for a parent selector and debugHTML the content of it - great for debugging what is actually rendered by the browser.
  • Selenium and Geb have a nice concept of Page Objects - an abstract models of pages rendered by your application. Using CoffeeScript you can write your own classes, bind selectors to properties and use then in your code script. Assigning the objects to casper instance will end up with quite nice syntax like @editDocument.assertAt().
  • There is some issue with CSS :first and :last selectors. I cannot get them working (but maybe I’m doing something wrong?). But in CasperJS you can also use XPath selectors which are fine for matching n-th child of some element (x("//div[@class='modal-footer']/a[1]")).
    Update: :first and :last are not CSS3 selectors, but JQuery ones. Here is a list of CSS3 selectors, all of these are supported by CasperJS. So you can use nth-child(1) is this case. Thanks Andy and Nicolas for the comments!

Working with CasperJS can lead you to a few hour stall, but after getting things working you have a new, cool tool in your box!

DDevelopment & Design

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