CSC/ECE 517 Fall 2017/M1752 Implement the Microdata API: Difference between revisions

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If a machine (web parses etc) were to read this block as it is, it would not be able to directly interpret what part of the sentence is a Name or an Address.  
If a machine (web parses etc) were to read this block as it is, it would not be able to directly interpret what part of the sentence is a Name or an Address.  


This is where Microdata comes in. It defines attributes to different parts of the HTML block
This is where Microdata shines. It defines attributes to different parts of the HTML block. Below is the same information with Microdata -  
 
Below is the same information with Microdata -  


<big>
<big>
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</pre></big>
</pre></big>


As it is clear, the attributes itemprop and itemtype are used to enrich data -


The attribute 'title' has been assigned to the word 'student'
The attribute 'title' has been assigned to the word 'student'

Revision as of 19:43, 2 November 2017

Introduction

HTML Specification

The WHATWG Microdata HTML specification allows web data to be enriched in that it allows machines to learn more about the data in a web page. A typical example of real-world using of Microdata is illustrated below

Here is a simple HTML block that has some information about a student.

  My name is <span>Grad Student</span>, and I am a <span>student</span> at <span>NC State</span>
  I live in  <span><span>Raleigh</span>,<span>NC</span> </span>

If a machine (web parses etc) were to read this block as it is, it would not be able to directly interpret what part of the sentence is a Name or an Address.

This is where Microdata shines. It defines attributes to different parts of the HTML block. Below is the same information with Microdata -

<div itemscope itemtype="http://data-vocabulary.org/Person">
  My name is <span itemprop="name">Grad Student</span>, and I am a <span itemprop="title">student</span> for
  <a href="http://net.tutsplus.com" itemprop="affliation">Nettuts+</a>.
  I live in <span itemprop="address" itemscope itemtype="http://data-vocabulary.org/Address"><span itemprop="locality">Raleigh</span>,<span itemprop="region">NC</span>
  </span>
</div>

As it is clear, the attributes itemprop and itemtype are used to enrich data -

The attribute 'title' has been assigned to the word 'student'

The attribute 'locality' has been assigned to the state.

This way any machine that accesses this HTML can understand the content better.

More information about the Microdata specification is available here

Some popular websites like Google, Skype and Microsoft use the Microdata. The number of websites that use Microdata is growing; currently about 13% of websites use Microdata (statistics courtesy w3techs.com)

Servo

Servo is a modern, high-performance browser engine designed for both application and embedded use and written in the Rust programming language. It is currently developed on 64bit OS X, 64bit Linux, and Android.

Rust

Rust is a systems programming language focuses on memory safety and concurrency. It is similar to C++ but ensures memory safetely and high performance.

More information about the Rust programming language is available here

Scope

The scope of this project is to implement initial support for Microdata API specification by allowing the Servo engine to read Microdata API tags from web pages and interpret them in the DOM. This should lay a groundwork for future improvements to implement features to created vCard and JSON data from Microdata on the ServoShell. Additional project information is available here

Design

As for the initial stage of this project, the scope did not require any major changes to the engine design. We implemented a DOM method to handle appropriate attributes in the Microdata API. The below diagram shows an overview of components involved in the design. The highlighted blocks have been modified.

Build

We have opened our pull request and are working on getting it merged based on the reviews received. Please use our forked repository till the pull request is merged.

Forked repository: https://github.com/CJ8664/servo

Clone command using git: git clone https://github.com/CJ8664/servo.git

Once you have the forked repo, please follow steps here to do a build.

Note that build may take up to 30 minutes, based on your system configuration. You can build on Janitor to reduce the build time.

Building on the cloud

This is the simplest and the fastest way to deploy and test an instance of servo. No configuration is required on your machine.

1. Go to http://janitor.technology

2. Click on 'New Container' for Servo

3. Enter your email address to gain access to your container

4. Once logged in, go 'Containers' on the top right.

5. You will now see a container - Click on the IDE button to open your online IDE environment.

6. Change directory to /home/user and create a new directory, say 'servo_test'

7. Go to this new directory and clone our repository as mentioned above

8. Upon cloning you should see a /servo directory within 'servo_test'

9. Go to /servo

10. It is now time to build - run the following command:

./mach build --dev

If all goes well you will see a success message - 'Build Completed'

Building locally

Local build instructions for various environments are available here

Verifying a build

We can quickly verify if the servo build is working by running the command

./mach run http://www.google.com

This will open a browser instance rendering the Google homepage.

This should be straightforward on any environment that has rendering support - Linus, Windows, MacOS, Android

If you are on Janitor environment, it's IDE will not provide rendering support. You might receive an error along the lines of 'No renderer found' upon executing the command.

Workaround: On the'Container' page on janitor.technology click on VNC for your container. Click 'Connect' on the new tab that opens up.

You should now have remote access to a UI with a command line. Simply run the above command and the webpage should render.

Implementation

The implementation involved updates to the Web Interface Definition Language (webidl) files and its Rust implementation.

HTMLElement.WebIDL

Path - /servo/components/script/dom/webidls/HTMLElement.WebIDLs

Method Name Return Type Description
propertyNames() String Method definition only. The implementation is done in htmlelement.rs

htmlelement.rs

Path - /servo/components/script/dom/htmlelement.rs

Method Name Return Type Description Location
parse_plain_attributes() AttrValue This method returns a value of an attribute associated to an the HTML Element. traits Virtual_Methods
propertyNames() Option<Vec<DOMString>> This method parses the space-separated values of the 'item-type' attributes' struct HTMLElement

Configuration

The preference [Pref="dom.microdata.testing.enabled"] was added to resources.pref preferences list to toggle the experimental microdata methods during development.

Test Plan

Testing Approach

Since our implementation adds the Microdata tags into the DOM, the approach used for testing is to directly query the DOM tree using JavaScript to detect the presence of Microdata in an HTML tag within the DOM. This will confirm if the engine was able to parse these tags and add them to the DOM. Also, as per the microdata specifications, the tags can be contained in any HTML tag. Therefore, the test data consists of several HTML tags like 'div', 'ul', 'li', 'span' etc. each with a microdata ('itemprop' and 'itemtype') attribute.

Test Framework

We have used the 'web-platform-tests' (WPT) suite for testing. It is an existing test suite used in the Servo project. It generally consists of two test types: JavaScript tests (to test DOM features, for example) written using the testharness.js library and reference tests (to test rendered output with what's expected to ensure that the rendering is done properly) written using the W3C reftest format. Since the microdata tags do not render anything on the page, only DOM testing is in scope.

testharness.js has been used to write the tests; it complements our testing approach as it can be called directly via JS within an HTML page. It provides a convenient API for making common assertions, and to work both for testing synchronous and asynchronous DOM features in a way that promotes clear, robust, tests.

testharness.js returns the result of the test directly from the html page which is then used by WPT to interpret the result of the test.

Test Cases

In order to test our implementation, the following scenarios have been evaluated.

Attribute with a single value should be stored properly

Input Data

Expected Result


Space separated values in the attributes should be stored as different values

Input Data

Expected Result

Duplicate occurrence of attributes should be ignored

Input Data

Expected Result

Extra whitespace in the attribute list should be ignored

Input Data

Expected Result


Attribute has not been set (null or empty)

Input Data

Expected Result


Testing Steps

Please read and perform the actions on the Build and Verification sections properly before testing.

1) Run the command ./mach tests-wpt /tests/wpt/mozilla/tests/mozilla/microdata/

2) A webpage should render showing the status of the test.


Here is the output of test-wpt after the tests have been run successfully.

Dependencies

html5ever - HTML attribute names are fetched in Servo from a lookup file in the html5ever module. The html5ever module was augmented with the 'itemprop' and 'itemtype' attributes for use in Servo.

Pull Request

The pull request used to incorporate our changes upstream is available here

References

http://html5doctor.com/microdata/

http://web-platform-tests.org/writing-tests/testharness-api.html

https://html.spec.whatwg.org/multipage/microdata.html

https://code.tutsplus.com/tutorials/html5-microdata-welcome-to-the-machine--net-12356

http://www.servo.org