that enables JavaScript developers to store, search, and retrieve data on the user's local client, even when ​ . This blog post describes IDBExplorer, a tool we use internally to debug IndexedDB applications. IDBExplorer lets you view database schemas, object store content, and index details.

Exploring the tool with an example IndexedDB App

To illustrate, I created an application that tracks my  using IndexedDB. It stores and accesses my resolutions locally (on the system browsing the Web page) and lets me add or edit them. The “Done That!” button removes the selected resolution from the list and removes its internal representation from the database.

 

IndexedDB defines a database as a container of information. Each database contains object stores, which are repositories for JavaScript objects. Each object contains attributes which can be queried using the API. If you're familiar with relational databases, object stores can be equated to tables and each JavaScript object in an object store represents a record. However, the objects stored in an IndexedDB object store are treated as opaque entities. In addition, these objects do not have to contain the same properties.

If a JavaScript object is analogous to a relational database record, then the properties of that object can be thought of as columns (or fields) in a table. As a result, IndexedDB allows you to define indexes that identify object properties that can be used to search the records in an object store. Thus, indexes allow you to traverse and search IndexedDB data using the attribute values on a JavaScript object.

IndexedDB allows each Domain to have multiple databases. This ​  uses one database: “NewYear.” The app stores my resolutions in an object store named “Resolutions” inside the NewYear database. Each resolution is a JavaScript object with the following attributes:

  • ​priorityId​​: Separates resolutions into different priorities
  • ​name​​: Name of the resolution
  • ​occurrenceId​​: Tracks how frequently the action of the resolution must be performed
  • ​dueDate​​: Completion date of the resolution
  • ​createdDate​​: Internal date when the resolution was added to the object store
  • ​categoryId​​: Defines the type of activity for a resolution

Notice that not all attributes are visible from the application’s UI. In some cases, they are only internally used (e.g. ​​createdDate​​).

Here’s how the IDBExplorer tool displays the contents of the “Resolutions” object store:

 

The “Resolutions” object store also contains an index on the ​​priorityId​​ attribute named “priorityId,” which allows the app to query objects using the ​​priorityId​​ property. The descriptions for the each ​​priorityId​​ value can be found inside the “Priorities” object store and the descriptions for the ​​occurrenceId​​ values can be found inside the “Occurrences” object store. Likewise, the descriptions for the ​​categoryId​​ values can be found inside the “Categories” object store.

The tool uses a tree hierarchy to illustrate these relationships:

 

The IDBExplorer tool shows there are five resolutions in my database (two high priority tasks, two medium priorities, and one low priority).

Using the application, I can add a new resolution:

 

The app retrieves the values for ​​Occurrence​​, ​​Priority​​, and ​​Category​​ fields from their respective object stores using cursors and displays them to the user. The IDBExplorer tool lets you see how these values exist in the object store. For example, selecting the ​​Categories​​ object store displays the available categories and their descriptions:

 

You can update a resolution by selecting it in the “WorkOn” screen and choosing “Edit.” After making any changes, selecting the “Update” button will commit the changes and update the values in the “Resolutions” object store.

 

Using IDBExplorer in your Applications

You can include the IDBExplorer tool in your Metro style app or Web site. However, we recommend you not deploy the tool with your app.

To add the tool to your site, copy and unzip the content of the ​ into your site. Your application will need to link to the IDBExplorer.html file contained inside the IDBExplorer folder using either an iframe element or a new window.

In our example, we decided to host IDBExplorer inside an iframe element. . However, for normal development we recommend hosting this URI inside a new window. This will allow you to have a side-by-side experience when debugging your database and application without affecting your site's user interface.

When hosting IDBExplorer, you need to pass the database name using the query string. In this example, this was done using the src attribute of the iframe element:

<iframe id="debuggerId" class="debuggerContainer" src="IDBExplorer/IDBExplorer.html?name=NewYear"></iframe>

When planning to host this functionality in a Metro style app, remember that Metro-style apps run fullscreen. As a result, you should navigate to this URL, rather than opening a new window (you will need to add a Back button to the IDBExplorer.html file in order to be able to return to your application). Alternatively, you can add an iframe element and display the tool in it.

Enjoy the tool and let us know what you think!

—Israel Hilerio, Ph.D., Principal Program Manager, Internet Explorer