REST vs OData

REST vs OData

Understanding the Concept of REST APIs

Image Source: Astera Software

REST (REpresentational State Transfer) refers to a Software Architectural Style that defines the standards for exchanging information between two different systems via the HTTP Protocol. It is the most popular architecture for exchanging data on the World Wide Web.

REST defines 6 different principles for Web Services:

  • Uniform Interface: All components in a REST system must adhere to the same interface and rules so as to communicate with each other. 
  • Client-Server: REST separates Servers from Clients. The Servers store information, while the Clients retrieve information from the Servers. 
  • Stateless: All requests made via REST are stateless. They have all the necessary information needed by the Server to execute the request. 
  • Cacheable: In REST, both Clients and Servers can cache resources, which is good for reducing traffic and improving performance. 
  • Layered System: REST supports a Layered System Architecture. The Client may communicate with one Server, while the other Servers perform tasks such as Data Storage and Authentication. 
  • Code on Demand: REST requisitions may return executable code or logic when necessary (optional). 

Any API (Application Programming Interface) that follows the above principles is referred to as a REST API. In most cases, REST APIs use XML or JSON, but the REST Architecture doesn’t require anything specific as far as this is concerned. REST does not require any particular format, but it accepts any format that can be used in Content Negotiation

Understanding the Concept of OData

OData (Open Data Protocol) is a set of best practices for developing and using RESTful APIs. It helps you to focus on your Business Logic while creating RESTful APIs without the need to worry about various ways to define request and response Headers, HTTP Methods, Status Codes, Media Types, URL Conventions, Payload Formats, and more. 

Image Source: Progress Software

OData carries the following specifications:

  1. It must follow REST principles unless there is a clear reason why it should not.
  2. The OData services MUST have support for Atom encoding.
  3. OData services SHOULD have support for JSON encoding. 

REST is the most essential component technology of OData. OData 3.0 standards require OData users to follow REST principles. OData rests on HTML technology, which resolves the problem of being REST-based in a way. It supports two Protocols for Data Transfer, the XML-based Atom format and JSON. 

OData also has guidance for performing actions like defining reusable procedures, tracking changes, and sending many REST requests.  

It provides two models for Data Management which include:

  1. Entity Data Model (EDM): This is an abstract Data Model that OData users MUST use to describe the exposed data. 
  2. Service Model: It is made up of Static Resources and a set of Dynamic Resources. The work of the Static Resources is to provide a way of asking the Service about its Data Model, while the Dynamic Resources provide methods to manage the Data Model.

In the next section, we will be discussing OData vs REST APIs to know how the two compare in different core areas. 

OData vs REST APIs: What’s the Difference?

Let’s now discuss how OData and REST APIs compare to each other:

OData vs REST APIs: Function

REST Function

REST is an architecture that defines how to send messages between a Client and a Server via HTTP. It is a model that states that you can use HTTP and its verbs to perform CRUD Operations (Create, Read, Update, Delete) on the resources exposed by your Services. Thus, REST is more concerned about the architecture. 

OData Function

OData is a standard from Microsoft that relies on the REST Architecture to send specific types of messages over HTTP. It defines metadata in CSDL (Common Schema Definition Language) format to describe the Entity types supported by your Service and their Properties, Data types, and more. Thus, OData is more concerned about the content.

OData vs REST APIs: Principles

REST Principles

REST defines 6 principles, as has been listed above, to ensure the creation of efficient Web Services and REST APIs must follow these principles. These principles ensure the success of REST Projects. 

OData Principles

OData is built on top of the REST Framework, thus, it depends on REST principles. Note that even though OData recommends its users to follow REST principles every time, the requirement can be relaxed in the case of a good reason. A very basic, Compliant Service should be easy to build, with additional work necessary only to support additional capabilities. 

OData vs REST APIs: Best Use Case

REST API Best Use Case

REST is used when there is a need to interact with a Data Source, for example, to retrieve data for all Products. It is easier and faster to parse data using REST APIs. It uses URI to expose the Business Logic. 

The following operations are available on HTTP:

Image Source: Medium

OData Best Use Case

OData is best used to expose Services and APIs to Systems and Applications. It has facilities for extension to achieve the custom needs of the REST APIs. 

OData vs REST APIs: Data Transfer Format

REST Data Transfer Format

Data transfer format is an important factor to consider when comparing OData vs REST. REST supports the transfer of data in any format. Although most REST APIs use XML and JSON formats, REST is not specific in regard to this. 

OData Data Transfer Format

OData specifies that the data should be transferred in either JSON, XML, or Atom format. 

Those were the major differences between OData vs REST.  

Conclusion

This blog discussed fine differences across OData vs REST APIs. We also discussed concepts behind OData and REST APIs, their specifications and principles. 

For Businesses, extracting complex data from a diverse set of Data Sources such as REST APIs can be a challenging task. This is where Hevo saves the day by providing an efficient, reliable and fast ETL Service.

[DEMO] Synchronize Data from Business Central to Dynamics CE (Dataverse) through OData (Web API)

 Synchronize Data from Business Central to Dynamics CE (Dataverse) through OData (Web API)

Business Central Web Services: Page vs Codeunit vs Query Differences

 

Business Central Web Services

Business Central supports three types of web services: API, SOAP, and OData.

[Tutorial] Power BI Data Refresh

 Power BI Data Refresh

Reference

In this tutorial, we will see what is data refresh in Power BI and how to schedule refresh in Power BI. And also we will discuss

[TIPS] Hide date format "12/31/2001" when date filed is unselected or blank in Canvas App

 Issue: 

  In Power Apps (Canvas App), when use SharePoint as the data source, the date field always shows "12/31/2001" even this field is blank or not selected.

[TIPS] Power Apps SharePoint form setting date/time field to blank

Power Apps SharePoint form setting date/time field to blank

ISSUE: Can't clear a datetime field in SharePoint from PowerApps.

[TIPS] Add "Other" to PowerApps Canvas App Dropdown Field

 Dropdown menus allow app users to select a pre-defined value from a list of options. But sometimes you want the user to fill-in their own value using a text input their selection cannot be found in the list. In this article I will show you how to create a dropdown with an other option in Power Apps.

GroupBy and Ungroup functions in Power Apps

GroupBy and Ungroup functions in Power Apps 

Groups and ungroups records of a table.

Embed a Power BI report in a model-driven app main form

 

Embed a Power BI report in a model-driven app main form

You can use Power BI reports in Power Apps model-driven apps to bring rich reporting and analytics to your main forms and empower your users to accomplish more. This unlocks the power to aggregate data across systems, and tailor it down to the context of a single record.  

Prerequisites

Embedding Power BI content is an optional feature and is disabled on all environments by default. You must enable it before you can embed Power BI content. More information: Enable Power BI visualizations in the organization.

This feature requires exporting a solution, modifying it to add the xml snippet, and then importing back into the environment. Be sure to import the changes on your target environment via a managed solution only. See Import, update, and export solutions for guidance on installing an update to an existing managed solution.

Embed without contextual filtering

You can use Power BI reports by simply embedding them, and get the exact same report. This does not involve contextualizing them to the current model-driven form, and hence you get the same report on all records of the table. For example, the following report shows the geographic location of all accounts at once, and is useful to show summary information.

Embedded  Power BI report without contextual filtering.

You can customize a main form XML sections node so that it can host an embedded Power BI report and tile by following these steps:

  1. In your development environment, create a solution and add the table that contains the main form where you want the embedded Power BI report to display.

    • If the table already exists in the target environment where you will import the solution, choose the Select components option when you add the table to the solution. Then, add just the table’s main form.
    • If the table doesn’t exist in the target environment where you will import the solution, choose Include all components when you add the table to the solution.
  2. Export the solution as managed.

  3. Extract all files in the solution package zip file. Then, edit the customizations.xml file and add the XML code provided below inside the <sections> block that is inside the <forms type="main"> node in the customizations.xml file.

XML
<section id="{d411658c-7450-e1e3-bc80-07021a04bcc2}" locklevel="0" showlabel="true" IsUserDefined="0" name="tab_4_section_1" labelwidth="115" columns="1" layout="varwidth" showbar="false">
	<labels>
		<label languagecode="1033" description="Unfiltered Power BI embedding demo"/>
	</labels>
	<rows>
		<row>
			<cell id="{7d18b61c-c588-136c-aee7-03e5e74a09a1}" showlabel="true" rowspan="20" colspan="1" auto="false" solutionaction="Added">
				<labels>
					<label languagecode="1033" description="Accounts (Parent Account)"/>
				</labels>
				<control id="unfilteredreport" classid="{8C54228C-1B25-4909-A12A-F2B968BB0D62}">
					<parameters>
						<PowerBIGroupId>00000000-0000-0000-0000-000000000000</PowerBIGroupId>
						<PowerBIReportId>544c4162-6773-4944-900c-abfd075f6081</PowerBIReportId>
						<TileUrl>https://app.powerbi.com/reportEmbed?reportId=544c4162-6773-4944-900c-abfd075f6081</TileUrl>
					</parameters>
				</control>
			</cell>
		</row>
		<row/>
	</rows>
</section>

 Important

Be sure to use the control classid="{8C54228C-1B25-4909-A12A-F2B968BB0D62}" as indicated in the XML sample.

  1. Make the following changes to the form XML that you copied into the customizations.xml file for your Power BI report. This table describes the values you need to change to the elements in the previous XML sample.
PropertyDescription
PowerBIGroupIdThe Power BI workspace Id. If your report is in My workspace then the workspace Id is 00000000-0000-0000-0000-000000000000. Otherwise, add the workspace Id. You can find the Id of the workspace in the Power BI service URL. More information: Find the Power BI workspace and report Ids.
PowerBIReportIdThe Power BI report Id. Replace this with the report that you want to embed. You can find the Id of your report in the Power BI service URL. More information: Find the Power BI workspace and report Ids
TileUrlThe Power BI report URL that you want to embed. Be sure to use the correct Power BI subdomain name (you might need to replace app.powerbi.com with your own) and report Id (replace reportId=544c4162-6773-4944-900c-abfd075f6081 with your own). For example, https://app.powerbi.com/reportEmbed?reportId=544c4162-6773-4944-900c-abfd075f6081.
solutionaction="Added"If the table already exists in the target environment leave the solutionaction=Added parameter for the cell element as provided in the XML sample. If the table doesn’t exist in the target environment, remove the solutionaction=Added parameter.
  1. Create a zip file out of all the solution files previously extracted. Then, import the solution into the target environment.

Embed with contextual filtering

You can make Power BI reports more meaningful by applying contextual filters to the current model-driven form, so that the report is filtered based on attributes of the current row. For example, the following report shows the geographic location of an account, by filtering the Power BI report using the account name. This allows a single report to show contextualized information for all rows of the table.

Embedded Power BI report with contextual filtering.

The filtering is done by adding a <PowerBIFilter> element in the <parameter> block as shown here. You can use any attribute of the form's table to construct the filter expression. More information: Constructing Filters to understand how to create your own filters.

XML
<control id="filteredreport" classid="{8C54228C-1B25-4909-A12A-F2B968BB0D62}">
	<parameters>
		<PowerBIGroupId>00000000-0000-0000-0000-000000000000</PowerBIGroupId>
		<PowerBIReportId>544c4162-6773-4944-900c-abfd075f6081</PowerBIReportId>
		<TileUrl>https://xyz.powerbi.com/reportEmbed?reportId=544c4162-6773-4944-900c-abfd075f6081</TileUrl>
		<PowerBIFilter>{"Filter": "[{\"$schema\":\"basic\",\"target\":{\"table\":\"table_name_of_power_bi_dataset\",\"column\":\"power_bi_field\"},\"operator\":\"In\",\"values\":[$a],\"filterType\":1}]", "Alias": {"$a": "field_name_in_powerapps_to_filter"}}</PowerBIFilter>
	</parameters>
</control>

Note that this uses the same control as the unfiltered report embedding, and hence the control class id remains unchanged.

This table describes any additional properties used in the previous XML sample.

PropertyDescription
PowerBIFilterThe filter expression that contextualizes the Power BI report by passing the form attributes as parameters. To make it more readable, the filter is constructed as shown here. The filter expression can't be a comma separated list of values.
JSON
	{
	        "Filter": "[{
	                \"$schema\":\"basic\",
	                \"target\":{
	                        \"table\":\"table_name_of_power_bi_dataset\",
	                        \"column\":\"power_bi_field\"
	                },
	                \"operator\":\"In\",
	                \"values\":[$a, $b],
	                \"filterType\":1
	        }]",
	        "Alias": {
	                "$a": "field1_name_in_powerapps_to_filter",
	                "$b":"field2_name_in_powerapps_to_filter"
	        }
	}

The target part of the previous expression identifies the table and the column to apply the filters on. The operator identifies the logic and values identify the data passed from the Power Apps model-driven app. To parameterize in a generic way, the values are constructed by aliasing. In the previous expression, the value of an account's firstname and lastname are passed, and either of them is searched in the Account Name column in the Power BI report. Note that firstname and lastname are the unique names of attributes of the account table, whose value will be passed here.

You can create more complex filter expressions by looking at examples from Constructing Filters and providing the appropriate values for $schema and filterType. Be sure to escape every literal in the filter part using ", so that the JSON is generated correctly.

Remove unmodified attribute before import

Before you import the solution into the target environment, make sure the unmodified attribute isn’t included in formXml section of the customizations.xml file. If the unmodified attribute is present in the XML that includes the Power BI control XML, remove the attribute before you import the solution into the target environment. For example, replace <systemform unmodified="1"> with <systemform>.

Find the Power BI workspace and report Ids

  1. The workspace Id for this example is efc85277-2bdb-47bc-9762-363f64335108.
  2. The report Id for this example is 643ab643-7126-4a57-bd82-ca8f1fb676fc. Power BI workspace Id and report Id example

Known issues and limitations

  • This integration is available only in the Unified Interface client, on supported web browsers and mobile devices.

  • Opening this form in the Power Apps form designer will not show the control in a meaningful way. This is because the control is customized outside of the form designer.

  • Users will be authenticated into Power BI automatically with their Power Apps username and password. If a Power BI account with matching credentials doesn’t exist, a sign in prompt is displayed as illustrated here.

    Power BI sign in prompt.

    No data will display if an incorrect account is used to log into Power BI. To sign in with the correct credentials, sign out, and then sign in again.

    Sign in to Power BI service.

    User that is signed in doesn't have appropriate permission.

  • The view of the report data shown inside Power Apps is the same as that in Power BI, and Power Apps security roles and privileges don't affect the data that is displayed. Hence, the data is essentially the same as what the creator of the Power BI dataset would see. To apply data access restrictions similar to Power Apps security roles and teams, use Row-level security (RLS) with Power BI.

  • If the form doesn’t show the Power BI report after importing the solution and publishing customizations, open it in the model-driven form editor and save it, so that the form JSON is regenerated.

  • Embedding a Power BI tile on a form is only supported without contextual filtering.

Common issues

  • The group ID is not specified in the TileUrl node of the control parameters when it may need to be. This example includes a group ID.
XML
<parameters>
	<PowerBIGroupId>fd266a4c-9a02-4553-9310-80e05ee844f3</PowerBIGroupId>
	<PowerBIReportId>544c4162-6773-4944-900c-abfd075f6081</PowerBIReportId>
	<TileUrl>https://xyz.powerbi.com/reportEmbed?reportId=544c4162-6773-4944-900c-abfd075f6081&amp;groupId=fd266a4c-9a02-4553-9310-80e05ee844f3</TileUrl>
</parameters>
  • Fields have different data types in PowerBI and Dataverse. They need to be the same type, such as string in Power BI and string in Dataverse.
  • String fields don't have escaped quotes in the Power BI filter. Below, notice values has [\"$a\"] rather than [$a].
JSON
	{
	        "Filter": "[{
	                \"$schema\":\"basic\",
	                \"target\":{
	                        \"table\":\"table_name_of_power_bi_dataset\",
	                        \"column\":\"power_bi_field\"
	                },
	                \"operator\":\"In\",
	                \"values\":[\"$a\"],
	                \"filterType\":1
	        }]",
	        "Alias": {
	                "$a": "field_name_in_powerapps_to_filter",
	        }
	}