Commerce runtime (CRT) extensibility
This article describes various ways that you can extend the commerce runtime (CRT). It explains the concept of extension properties, and shows how to add them to a CRT entity so that they are persistent and so that they aren't persistent.
CRT contains the core business logic. If you want to add or modify any business logic, you should customize CRT. All the CRT code is developed by using C#, and then it's compiled and released as class libraries (.NET assemblies). Point of sale (POS) is a thin client. All the business logic is done in CRT. POS calls CRT to perform any business logic, and then CRT processes the information and sends it back to POS.
Every CRT service consists of a group of one or more requests and responses. POS sends a request to Retail Server, and Retail Server calls CRT. CRT then processes the request and sends back the response.
For example, the Product service in CRT contains all the product-related requests and responses, each of which is run in a different flow. Likewise, the Customer service in CRT contains all the customer-related requests and responses. The following table shows the requests in the Customer service.
Request | Purpose |
---|---|
SaveCustomerServiceRequest | This request is called when you save a customer from POS. |
GetCustomersServiceRequest | This request is used to get the details of the selected customer. |
CustomersSearchServiceRequest | This request is run when you do a customer search from POS. |
GetCustomerGroupsServiceRequest | This request is used to get the details of the customer group. |
InitiateLinkToExistingCustomerServiceRequest | This internal request is for backward compatibility. |
FinalizeLinkToExistingCustomerServiceRequest | This internal request is for backward compatibility. |
UnlinkFromExistingCustomerServiceRequest | This internal request is for backward compatibility. |
GetCustomerBalanceServiceRequest | This request gets the balance for the customer account. |
GetOrderHistoryServiceRequest | This request gets the customer's order history. |
GetPurchaseHistoryServiceRequest | This request gets the history of the customer's recent purchases. |
CustomerSearchByFieldsServiceRequest | This request is run when you search for customers by using fields (hint search). |
GetCustomerSearchFieldsServiceRequest | This request gets the list of customer search fields (hint fields). |
CRT extension patterns
Before you learn about the CRT extension patterns, you should understand how a CRT extension can be created. CRT is just a collection of C# class libraries (.NET assemblies). You can create a class library project in C# and do all the CRT extension by using the patterns that are shown in the following subsections. Always use the samples that Microsoft provides as templates for your extension, because these samples have the correct assembly references, Microsoft .NET Framework version, output type, and build parameters. Additionally, all the other required parameters are preconfigured. You can find the CRT sample extension in the Retail software development kit (SDK), at …\RetailSDK\SampleExtensions\CommerceRuntime.
Note
As of version 10.0.19, all class libraries for CRT extension projects must use .NET Standard 2.0 as the target framework.
Create a new CRT service
You can create new functionality or a new feature.
Override the existing service
You can completely override existing functionality or customize it according to your business flow. Here are some examples:
- You want to override the search functionality to search from an external system instead of using the out-of-box search functionality.
You should not override the handler, unless it’s necessary. Instead, implement the CRT extension scenarios by using pre-triggers or post-triggers.
Executing the Next CRT handler - Chain of handlers
With platform update version 10.0.19 and later, the CRT framework supports ExecuteNextAsync and GetNextAsyncRequestHandler. Use these methods to execute the base request and handler in the overridden extension code. The CRT framework also supports executing the same handler multiple times based on the order listed in the CommerceRuntime.Ext.config file.
ExecuteNextAsync
You can override the request and call the base request using the ExecuteNextAsync method. In the override, you can add custom logic, for example, to set extension properties. For example, override the Customer save request, call the base customer request first using ExecuteNextAsync and then add additional logic to save the customer extension properties.
GetNextAsyncRequestHandler
If you want to override the handler and call the base handler to execute the out-of-box logic and then modify the results of base handler with custom logic, then use the GetNextAsyncRequestHandler.
For example, you can search for a Product using the out-of-box Azure Search handler and add additional logic to modify the result based on inventory. You could include custom search results or filter the results.
NotHandledResponse.Instance
If in the overridden handler, you want to run the base handler and return the base response instead of custom logic, then return NotHandledResponse.Instance. If NotHandledResponse.Instance is returned, the CRT framework will run the out-of-box handler. NotHandledResponse.Instance can be used in scenarios where you want to run custom logic only on certain conditions (otherwise, run the base handler logic).
CRT data service and data service with entities
You can use the CRT data service to read data or entities from the channel database.
Note
CRT extension code should not refer to or use any of the CRT business logic classes, methods, or handlers (such as classes from Runtime.Workflow, Runtime.Services, or Runtime.DataServices). Because these classes aren't backward compatible, extensions could be broken during an upgrade. Extensions should use only request, response, and entity classes from Runtime.*.Messages, Runtime.Framework, Runtime.Data, and Runtime.Entities.
Triggers
You can run additional logic before or after any request.
In the pre-trigger, you can do some validation, custom logic, and so on.
In the post-trigger, you can add some custom information to the request and send it to POS. Alternatively, you can modify the result that is returned from the standard functionality or do some additional business logic.
For information about how to create CRT trigger extensions, see Commerce runtime (CRT) triggers extension.
Extension properties
You can add custom properties to any CRT entity and send it to POS. Extension properties are key-value pairs. If you set an extension property in POS, it will be available in CRT. Likewise, if you set an extension property in CRT, it will be available in POS. You can also set extension properties at the level of the request, the response, or the request context. By default, extension properties aren't stored in and read from the database. To read or set extension properties, you must write custom code. However, that custom code is automatically sent between POS and CRT.
For example, you want to capture and show some additional information to the Customer entity in POS. In this case, you can add a post-trigger to fetch all your custom properties for customers, add them to the Customer entity as extension properties, and then send those extension properties to POS.
You can also send extension properties from POS to CRT and store them in your custom table. Alternatively, you can do some custom logic based on those properties, or send it to Commerce headquarters.
All CRT entities, such as products, customers, transactions, and parameters, support extension properties.
Note
Attributes are also supported (configuration-driven development). For extension properties, you must create a custom table and store the data. However, attributes are configuration driven and aren't required to create table fields. Therefore, no code is required for read and update operations.
For details about the attributes, see the following articles:
Extend Commerce Data Exchange - Real-time Service classes
You can do synchronous calls from CRT to Commerce headquarters.
For information about how to extend Commerce Data Exchange - Real-time service, see Extend Commerce Data Exchange - Real-time Service.
Retail Server extension
For information about how to create new Retail Server APIs, see Create a new Retail Server extension API.
Exception handling
You can add a try...catch
statement to your extension code to handle an exception and log it to Application Insights or propagate it to the client application. Don’t return an aggregated exception from CRT or Retail Server if you want to propagate the error message to the client. Instead, catch the exception at the individual task level and rethrow it. For more information, see these articles:
- Exception handling (Task Parallel Library).
- Log extension events to Application Insights
- Localize Commerce extension resources and label files, for logging and showing CRT exception in the client application.
Register the CRT extension
Online
For online mode (that is, when POS is connected to Retail Server), after you've finished extending CRT, put the extension library in the \RetailServer\webroot\bin\Ext folder. In the CommerceRuntime.Ext.config file, update the composition section with the information about the custom library, as shown in the following example.
<add source="assembly" value="your custom library name" />
For example, if the name of your custom library is Contoso.Commerce.Runtime.CustomerSearchSample, add the following line in the composition section.
<add source="assembly" value="Contoso.Commerce.Runtime.CustomerSearchSample" />
Offline
For offline mode, after you've finished extending CRT, put the custom library in the \Program Files (x86)\Microsoft Dynamics 365\70\Retail Modern POS\ClientBroker\ext folder. In the CommerceRuntime.MPOSOffline.ext.config file, update the composition section with the information about the custom library, as shown in the following example.
<add source="assembly" value="your custom library name" />.
Register the extension configuration in the CommerceRuntime.Ext.config file
Your extension can register key-value configurations in the CommerceRuntime.Ext.config file in the <settings> node.
The <settings> node is a collection of key-value pairs that is used to configure the CommerceRuntime components. The convention is to prefix the keys for settings with a representation of the functional area that the keys are configuring, and to use a period (.) as the separator between prefixes and keys. Extension configuration values must be prefixed with ext, because the CRT initialization enforces this convention. Any extension that doesn't have that prefix won't be loaded. More prefixes can be added to represent the subarea that the keys are configuring. The following example shows a key-value pair.
<add name="ext.SalesTransaction.Storage.CartSerializationFormat" value="XML" />
For HTTP binding time-outs on calls to Commerce Data Exchange - Real-time Service, configure the time-out in seconds per method. This time-out value is limited by the maxExtensionTimeoutInSeconds value, which is set in the CommerceRuntime.config file.
<add name="ext.RealTimeServiceClient.TimeoutInSeconds.InvokeExtensionMethod.ContosoRetailStoreHours_UpdateStoreHours" value="300" />
To read the key value from the CRT extension configuration, use RequestContext.Runtime.Configuration. The following example shows how to retrieve a value.
string key = context.Runtime.Configuration.GetSettingValue("ext.SalesTransaction.Storage.CartSerializationFormat") ?? string.Empty;
The preceding steps are used for manual deployment and testing on your development box. To package the extension and deploy it to production or user acceptance testing (UAT), use the information in the packaging document.
Debug CRT
Attach the CRT extension project online
To debug CRT from POS, attach the CRT extension project to the w3wp.exe process (the Internet Information Services [IIS] process for Retail Server) when POS is connected to Retail Server.
Attach the CRT extension project offline
For offline debugging, attach the CRT extension project to the dllhost.exe process.
Note
CRT extension code should not refer to or use any of the CRT business logic classes, methods, or handlers (such as classes from Runtime.Workflow, Runtime.Services, or Runtime.DataServices). Because these classes aren't backward compatible, extensions could be broken during an upgrade. Extensions should use only request, response, and entity classes from Runtime.*.Messages, Runtime.Framework, Runtime.Data, and Runtime.Entities.
Sample to create a new CRT service class
You can create a new service class, and implement one or more requests and responses. Use this approach to create a new feature.
Implement the following classes for a new CRT service:
- Request class – This class is the POS, Retail Server, e-commerce, or CRT workflow class that is the request to do something.
- Response class – This class returns the response, based on the request to the caller.
- Handler class – This class contains the core logic for the request. In the handler class, you can call other requests, do custom logic, and perform other tasks.
For serialization to work, the new request type must implement the [DataContract] and [DataMember] attributes.
Note
- We recommend that for the extension code, you use ConfigureAwait(false) when executing the request.
- Using Microsoft Distributed Transaction Coordinator (MSDTC) in a CRT database extension is not supported.
- Avoid wrapping the existing CRT request and response with a TransactionScope because doing so may cause a database exception due to multiple database connections being opened within a same transaction. Also, to improve performance, avoid using TransactionScope for read scenarios. Instead, specify TransactionScopeAsyncFlowOption.Enabled to allow for correctly asynchronous calls.
Request class
using System.Runtime.Serialization;
using Microsoft.Dynamics.Commerce.Runtime.Messages;
[DataContract]
public sealed class GetStoreHoursDataRequest : Request
{
public GetStoreHoursDataRequest(string storeNumber)
{
this.StoreNumber = storeNumber;
}
[DataMember]
public string StoreNumber { get; private set; }
}
Response class
The new response type resembles the request type.
[DataContract]
public sealed class GetStoreHoursDataResponse : Response
{
public GetStoreHoursDataResponse(PagedResult dayHours)
{
this.DayHours = dayHours;
}
[DataMember]
public PagedResult DayHours { get; private set; }
}
Next, you must create a new CRT service that uses the request and response types.
Create a new CRT service class
Implement the new service.
public class StoreHoursDataService : IRequestHandlerAsync
Implement two members of the interface. The SupportedRequestTypes member returns a list of all requests that this service can handle. The execute method is the method that CRT calls if a request for this service is run.
public IEnumerable<Type> SupportedRequestTypes { get { return new[] { typeof(GetStoreHoursDataRequest), typeof(UpdateStoreDayHoursDataRequest), }; } } public async Task<Response> Execute(Request request) { if (request == null) { throw new ArgumentNullException("request"); } Type reqType = request.GetType(); if (reqType == typeof(GetStoreHoursDataRequest)) { return await this.GetStoreDayHoursAsync((GetStoreHoursDataRequest)request).ConfigureAwait(false); } else if (reqType == typeof(UpdateStoreDayHoursDataRequest)) { return await this.UpdateStoreDayHoursAsync((UpdateStoreDayHoursDataRequest)request).ConfigureAwait(false); } else { string message = string.Format(CultureInfo.InvariantCulture, "Request '{0}' is not supported.", reqType); Console.WriteLine(message); throw new NotSupportedException(message); } } private async Task<Response> GetStoreDayHoursAsync(GetStoreHoursDataRequest request) { ThrowIf.Null(request, "request"); using (DatabaseContext databaseContext = new DatabaseContext(request.RequestContext)) { var query = new SqlPagedQuery(request.QueryResultSettings) { DatabaseSchema = "ext", Select = new ColumnSet("DAY", "OPENTIME", "CLOSINGTIME", "RECID"), From = "CONTOSORETAILSTOREHOURSVIEW", Where = "STORENUMBER = @storeNumber", }; query.Parameters["@storeNumber"] = request.StoreNumber; return new GetStoreHoursDataResponse(await databaseContext.ReadEntityAsync<DataModel.StoreDayHours>(query).ConfigureAwait(false)); } } private async Task<Response> UpdateStoreDayHoursAsync(UpdateStoreDayHoursDataRequest request) { ThrowIf.Null(request, "request"); ThrowIf.Null(request.StoreDayHours, "request.StoreDayHours"); if (request.StoreDayHours.DayOfWeek < 1 || request.StoreDayHours.DayOfWeek > 7) { throw new DataValidationException(DataValidationErrors.Microsoft_Dynamics_Commerce_Runtime_ValueOutOfRange); } InvokeExtensionMethodRealtimeRequest extensionRequest = new InvokeExtensionMethodRealtimeRequest( "ContosoRetailStoreHours_UpdateStoreHours", request.StoreDayHours.Id, request.StoreDayHours.DayOfWeek, request.StoreDayHours.OpenTime, request.StoreDayHours.CloseTime); InvokeExtensionMethodRealtimeResponse response = await request.RequestContext.ExecuteAsync<InvokeExtensionMethodRealtimeResponse>(extensionRequest).ConfigureAwait(false); ReadOnlyCollection<object> results = response.Result; long recId = Convert.ToInt64(results[0]); using (var databaseContext = new DatabaseContext(request.RequestContext)) { ParameterSet parameters = new ParameterSet(); parameters["@bi_Id"] = recId; parameters["@i_Day"] = request.StoreDayHours.DayOfWeek; parameters["@i_OpenTime"] = request.StoreDayHours.OpenTime; parameters["@i_ClosingTime"] = request.StoreDayHours.CloseTime; await databaseContext.ExecuteStoredProcedureNonQueryAsync("[ext].UPDATESTOREDAYHOURS", parameters, resultSettings: null).ConfigureAwait(false); } return new UpdateStoreDayHoursDataResponse(request.StoreDayHours); }
Register the CRT extension as described earlier in this article.
The preceding sample code is missing the implementation of UpdateStoreDayHoursDataRequest and UpdateStoreDayHoursDataResponse. The full sample code is available in the Retail SDK, at RetailSDK\SampleExtensions\CommerceRuntime\Extensions.StoreHoursSample.
Implement a new CRT service that handles a single new request
It's slightly easier to create a single-request service.
namespace Contoso
{
namespace Commerce.Runtime.CrossLoyaltySample
{
using System;
using System.Threading.Tasks;
using Messages;
using Microsoft.Dynamics.Commerce.Runtime;
using Microsoft.Dynamics.Commerce.Runtime.Messages;
/// <summary>
/// Service class responsible executing the service requests.
/// </summary>
public class CrossLoyaltyCardService : SingleAsyncRequestHandler<GetCrossLoyaltyCardRequest>
{
/// <summary>
/// Process method.
/// </summary>
/// <param name="request">The request with the loyalty number.</param>
/// <returns>The discount value.</returns>
protected override async Task<Response> Process(GetCrossLoyaltyCardRequest request)
{
if (request == null)
{
throw new ArgumentNullException("request");
}
var serviceResponse = new GetCrossLoyaltyCardResponse(0);
//Business logic
return await Task.FromResult(serviceResponse);
}
}
}
}
Implement a CRT service that overrides the functionality of an existing request
In some cases, the request and response types are sufficient, but you must change the out-of-box service implementation logic to perform different logic, or you must integrate with an external service to perform that logic. An override of the default implementation must be done only when you want to completely replace the logic. For example, if you don't want to use the out-of-box tax implementation but want to use third-party tax logic instead, override the tax service request. Most other scenarios can be achieved by adding a pre-trigger or post-trigger to the request. Try to avoid overriding the request. When you override the request, the custom logic will be run, and you might not get the future enhancements that are done in this overridden request.
Additionally, registration in the commerceRuntime.ext.Config file must precede registration of the service that should be overridden. This registration order is important because of the way that the Managed Extensibility Framework (MEF) loads the extension dynamic-link libraries (DLLs). The types that are higher in the file take precedence.
To override the handler, implement the SingleAsyncRequestHandler<TRequest>
or INamedRequestHandlerAsync if the handler is executed based on the handler name.
Sample code that shows how to override CreateOrUpdateCustomerDataRequest using the SingleAsyncRequestHandler
namespace Contoso
{
namespace Commerce.Runtime.EmailPreferenceSample
{
using System.Threading.Tasks;
using System.Transactions;
using Microsoft.Dynamics.Commerce.Runtime;
using Microsoft.Dynamics.Commerce.Runtime.Data;
using Microsoft.Dynamics.Commerce.Runtime.DataModel;
using Microsoft.Dynamics.Commerce.Runtime.DataServices.Messages;
using Microsoft.Dynamics.Commerce.Runtime.Messages;
/// <summary>
/// Create or update customer data request handler.
/// </summary>
public sealed class CreateOrUpdateCustomerDataRequestHandler : SingleAsyncRequestHandler<CreateOrUpdateCustomerDataRequest>
{
/// <summary>
/// Executes the workflow to create or update a customer.
/// </summary>
/// <param name="request">The request.</param>
/// <returns>The response.</returns>
protected override async Task<Response> Process(CreateOrUpdateCustomerDataRequest request)
{
ThrowIf.Null(request, "request");
return new SingleEntityDataServiceResponse<Customer>(customer);
}
}
}
}
Sample code on how to Override the handlers which are implemented based on handler name, implement the INamedRequestHandlerAsync:
public class SampleGetProductSearchResultshandler : INamedRequestHandlerAsync
{
/// <summary>
/// Gets the supported requests types.
/// </summary>
public IEnumerable<Type> SupportedRequestTypes
{
get
{
return new[] { typeof(GetProductSearchResultsServiceRequest), };
}
}
public string HandlerName
{
get
{
return "CommerceProductSearch";
}
}
public async Task<Response> Execute(Request request)
{
ThrowIf.Null(request, nameof(request));
Type requestType = request.GetType();
Response response = null;
if (requestType == typeof(GetProductSearchResultsServiceRequest))
{
//Implement the logic here
}
return response;
}
}
Run the base handler in the extension
Executing the Next CRT handler - Chain of handlers
ExecuteNextAsync
You can override the request and call the base request using the ExecuteNextAsync method and add custom logic to set extension properties. For example, you can override the Customer save request, call the base customer request first using ExecuteNextAsync, and then add additional logic to save customer extension properties.
/// <summary>
/// Create or update customer data request handler.
/// </summary>
public sealed class CreateOrUpdateCustomerDataRequestHandler : SingleAsyncRequestHandler<CreateOrUpdateCustomerDataRequest>
{
/// <summary>
/// Executes the workflow to create or update a customer.
/// </summary>
/// <param name="request">The request.</param>
/// <returns>The response.</returns>
protected override async Task<Response> Process(CreateOrUpdateCustomerDataRequest request)
{
ThrowIf.Null(request, "request");
using (var databaseContext = new DatabaseContext(request.RequestContext))
{
// Execute original functionality to save the customer.
var response = await this.ExecuteNextAsync<SingleEntityDataServiceResponse<Customer>>(request).ConfigureAwait(false);
// Execute additional functionality to save the customer's extension properties.
if (!request.Customer.ExtensionProperties.IsNullOrEmpty())
{
// The stored procedure will determine which extension properties are saved to which tables.
ParameterSet parameters = new ParameterSet();
parameters["@TVP_EXTENSIONPROPERTIESTABLETYPE"] = new ExtensionPropertiesExtTableType(request.Customer.RecordId, request.Customer.ExtensionProperties).DataTable;
await databaseContext.ExecuteStoredProcedureNonQueryAsync("[ext].UPDATECUSTOMEREXTENSIONPROPERTIES", parameters, resultSettings: null).ConfigureAwait(false);
}
return response;
}
}
}
GetNextAsyncRequestHandler
If you want to override the handler and call the base handler to execute the OOB logic and then modify the results of base handler with custom logic, then use the GetNextAsyncRequestHandler. For example, you could search for a product using the out-of-box Azure Search handler and add additional logic to modify the result based on inventory, including custom search results or filter the results.
protected override async Task<Response> Process(SaveSalesTransactionDataRequest request)
{
ThrowIf.Null(request, "request");
// The extension should do nothing If fiscal registration is enabled and legacy extension were used to run registration process.
if (!string.IsNullOrEmpty(request.RequestContext.GetChannelConfiguration().FiscalRegistrationProcessId))
{
return NotHandledResponse.Instance;
}
NullResponse response;
using (var databaseContext = new DatabaseContext(request.RequestContext))
{
// Execute original logic.
var requestHandler = request.RequestContext.Runtime.GetNextAsyncRequestHandler(request.GetType(), this);
response = await request.RequestContext.Runtime.ExecuteAsync<NullResponse>(request, request.RequestContext, requestHandler, false).ConfigureAwait(false);
// Extension logic.
if (request.RequestContext.GetChannelConfiguration().CountryRegionISOCode == CountryRegionISOCode.FR)
{
response = await SaveSalesTransactionExtAsync(request).ConfigureAwait(false);
}
}
return response;
}
NotHandledResponse.Instance
If the overridden logic runs the base handler for some scenarios, execution of the base handler can be achieved by returning NotHandledResponse.Instance. If NotHandledResponse.Instance is returned, the CRT framework will use the extension that is requesting to run the base or out-of-band logic, and will run the out-of-band handler.
private Response GetCustomReceiptFieldForSalesTransactionReceipts(GetLocalizationCustomReceiptFieldServiceRequest request)
{
ThrowIf.Null(request.SalesOrder, nameof(request.SalesOrder));
string receiptFieldName = request.CustomReceiptField;
string receiptFieldValue = string.Empty;
if (request.SalesOrder.TaxCalculationType == TaxCalculationType.GTE)
{
switch (receiptFieldName)
{
case "Sample":
receiptFieldValue = this.GetGstRegistrationNumber(request);
break;
default:
return NotHandledResponse.Instance;
}
}
else
{
return NotHandledResponse.Instance;
}
int receiptFieldLength = request.ReceiptItemInfo == null ? 0 : request.ReceiptItemInfo.Length;
var returnValue = ReceiptStringUtils.WrapString(receiptFieldValue, receiptFieldLength);
return new GetCustomReceiptFieldServiceResponse(returnValue);
}
Run an extension request for a channel type
Sometimes, an extension request must be run only for a specific channel type. For example, the request might have to be run for the online channel but not for the retail channel (physical store). In these cases, before you run the request, check the channel type. Then run the custom logic, or run the base logic by calling NotHandledResponse.Instance.
if (requestContext.GetChannel().OrgUnitType == RetailChannelType.RetailStore)
{
// run your extension code here.
}
else
{
return NotHandledResponse.Instance;
}
Implement a new CRT entity and use it in the new CRT service
Any new entity must inherit from the CommerceEntity type. When you use this type, lots of low-level functionality is automatically handled for you. The following example is taken from the StoreHours sample. It shows how to create an entity that is bound to the database table. This scenario is common.
public class StoreDayHours : CommerceEntity
{
private const string DayColumn = "DAY";
private const string OpenTimeColumn = "OPENTIME";
private const string CloseTimeColumn = "CLOSINGTIME";
private const string IdColumn = "RECID";
public StoreDayHours()
: base("StoreDayHours")
{
}
[DataMember]
[Column(DayColumn)]
public int DayOfWeek
{
get { return (int)this[DayColumn]; }
set { this[DayColumn] = value; }
}
[DataMember]
[Column(OpenTimeColumn)]
public int OpenTime
{
get { return (int)this[OpenTimeColumn]; }
set { this[OpenTimeColumn] = value; }
}
[DataMember]
[Column(CloseTimeColumn)]
public int CloseTime
{
get { return (int)this[CloseTimeColumn]; }
set { this[CloseTimeColumn] = value; }
}
[Key]
[DataMember]
[Column(IdColumn)]
public long Id
{
get { return (long)this[IdColumn]; }
set { this[IdColumn] = value; }
}
}
When you want to use the new entity in a service, the process is straightforward. As was described earlier in this article, you create a new service that is derived from IRequestHandler. You then either use or return the new entity. The following example shows how to read the entity from the database and return it as part of the response.
private async Task<Response> GetStoreDayHoursAsync(GetStoreHoursDataRequest request)
{
ThrowIf.Null(request, "request");
using (DatabaseContext databaseContext = new DatabaseContext(request.RequestContext))
{
var query = new SqlPagedQuery(request.QueryResultSettings)
{
DatabaseSchema = "ext",
Select = new ColumnSet("DAY", "OPENTIME", "CLOSINGTIME", "RECID"),
From = "CONTOSORETAILSTOREHOURSVIEW",
Where = "STORENUMBER = @storeNumber",
};
query.Parameters["@storeNumber"] = request.StoreNumber;
return new GetStoreHoursDataResponse(await databaseContext.ReadEntityAsync<DataModel.StoreDayHours>(query).ConfigureAwait(false));
}
}
Note
Commerce entities aren't thread safe. Therefore, the same object should not be read or modified when another thread is writing to it. This restriction applies to custom entities and out-of-box entities in the extension code. You should avoid having two different threads when you do synchronous read or write activities for the same shared object.
In the preceding example, the CRT runtime engine automatically makes a query to the channel database via the registered data adapter. It queries a type that has the name crt.ISVRetailStoreHoursView, and generates a where clause and columns as specified in the code. The customizer is responsible for providing the SQL objects as part of the customization.
Using extension properties on CRT entities, requests, and responses
One way to add new data to an existing CRT entity is to use extension properties. Extension properties are key-value pairs on the entity. By default, these key-value pairs don't persist in the database. To make an extension property persist, you must write custom code.
Using extension properties on CRT entities with persistence
Any extension property that you add to an entity stays in memory for POS and CRT for the lifetime of either the object or the transaction, depending on the scenario. The extension property also travels across application boundaries. For example, if you add an extension property in Retail Modern POS and then call Retail Server or CRT, the key-value pair is available during the whole flow. Additionally, if that entity is sent during a call to Commerce Data Exchange - Real-time Service, the key-value pair is available during the process.
Note
For Commerce headquarters, extension properties are sent only for customers and orders.
However, as was mentioned earlier, the extension property doesn't persist by default. If you want an extension property to persist, you must do data modeling to ensure that you make the correct design choices about where the data should reside. We recommend that you use a new table and a join. This approach fits most requirements well. The EmailPreference sample in the Retail SDK provides a good end-to-end example.
Location of the sample code in the Retail SDK
…\RetailSDK\SampleExtensions\CommerceRuntime\Extensions.EmailPreferenceSample
Location of the scripts
…\RetailSDK\Documents\SampleExtensionsInstructions\EmailPreference
Syntax to set an extension property on an entity
public virtual void SetProperty(string key, object value);
entity.SetProperty("key", value);
Example
Scenario
A new extension table and fields that were created for the Customer entity and extension must read those fields from the extension table and send them to POS.
When you extend the channel database, it's always a good idea to include the primary key from the main table in the extension table. That is, don't have a direct relation, and then read the data from the extension table by using the primary key.
Steps
Create the extension table for the Customer entity in the channel database extension schema that has the primary key of the main table.
Identify the CRT data request that reads the Customer entity.
Add a post-trigger for the data request. You will then be able to use the primary key of the Customer table to query your extension table to read the custom fields.
Note
You can get the primary key for the entity in the post-trigger request. That request will have the entity object, and that entity object will have all the required fields.
Add the custom fields as extension properties to the shared parameters entity in the CRT post-trigger, and send it to POS.
Reading extension properties in triggers
The request that reads the data from the Customer table is GetCustomerDataRequest. The following example shows how you can add a post-trigger for this request.
namespace Contoso
{
namespace Commerce.Runtime.EmailPreferenceSample
{
using System;
using System.Collections.Generic;
using System.Threading.Tasks;
using Microsoft.Dynamics.Commerce.Runtime;
using Microsoft.Dynamics.Commerce.Runtime.Data;
using Microsoft.Dynamics.Commerce.Runtime.DataModel;
using Microsoft.Dynamics.Commerce.Runtime.DataServices.Messages;
using Microsoft.Dynamics.Commerce.Runtime.Messages;
/// <summary>
/// Class that implements a post trigger for the GetCustomerDataRequest request type.
/// </summary>
public class GetCustomerTriggers : IRequestTriggerAsync
{
/// <summary>
/// Gets the supported requests for this trigger.
/// </summary>
public IEnumerable<Type> SupportedRequestTypes
{
get
{
return new[] { typeof(GetCustomerDataRequest) };
}
}
/// <summary>
/// Post trigger code to retrieve extension properties.
/// </summary>
/// <param name="request">The request.</param>
/// <param name="response">The response.</param>
public async Task OnExecuted(Request request, Response response)
{
ThrowIf.Null(request, "request");
ThrowIf.Null(response, "response");
var customer = ((SingleEntityDataServiceResponse<Customer>)response).Entity;
if (customer == null)
{
return;
}
var query = new SqlPagedQuery(QueryResultSettings.SingleRecord)
{
DatabaseSchema = "ext",
Select = new ColumnSet(new string[] { "EMAILOPTIN" }),
From = "CUSTOMEREXTENSIONVIEW",
Where = "ACCOUNTNUM = @accountNum AND DATAAREAID = @dataAreaId"
};
query.Parameters["@accountNum"] = customer.AccountNumber;
query.Parameters["@dataAreaId"] = request.RequestContext.GetChannelConfiguration().InventLocationDataAreaId;
using (var databaseContext = new DatabaseContext(request.RequestContext))
{
var extensionsResponse = await databaseContext.ReadEntityAsync<ExtensionsEntity>(query).ConfigureAwait(false);
ExtensionsEntity extensions = extensionsResponse.FirstOrDefault();
var emailOptIn = extensions != null ? extensions.GetProperty("EMAILOPTIN") : null;
if (emailOptIn != null)
{
customer.SetProperty("EMAILOPTIN", emailOptIn);
}
}
}
/// <summary>
/// Pre trigger code.
/// </summary>
/// <param name="request">The request.</param>
public async Task OnExecuting(Request request)
{
// It's only stub to handle async signature.
await Task.CompletedTask;
}
}
}
}
Note
You must change this query, based on your new field and table, or whatever condition you're using. When you design the table, make sure that you have the primary key field from the parent table, so that you can query it by using the CRT entity. Most CRT entities should have the primary key field in them, such as the RecId field or another relevant unique field that is used to select the record.
Saving extension properties by overriding the handler
Scenario
You created a new extension table for Customer. When values for the extension field for Customer come from POS or CRT, you want to store the values in your custom table.
Note
You can set extension properties either in a trigger or by overriding the handler. If you just set some extension properties by reading from your extension table, you can use triggers.
Steps
- Create your extension table for Customer in the channel table that has the primary key relation to the main table. (In this case, the main table is CustTable.)
- Identify the CRT data request that sets data in CustTable.
- Override the handler, and call the base request to set values in the main table (CustTable) and then in the extension table.
Note
Extension code can pass additional properties that are required for the extension procedure or view. Extension properties can be saved in the CRT pre-triggers or post-triggers. You don't have to override the CRT handler. You should avoid overriding the handler, because most of the CRT extension scenarios can be achieved in pre-triggers or post-triggers.
The example that follows doesn't have the SQL scripts that are used. You can find the full sample code and scripts in the following locations in the Retail SDK.
Location of the sample code in the Retail SDK
…\RetailSDK\SampleExtensions\CommerceRuntime\Extensions.EmailPreferenceSample
Location of the scripts
…\RetailSDK\Documents\SampleExtensionsInstructions\EmailPreference
Example
namespace Contoso
{
namespace Commerce.Runtime.EmailPreferenceSample
{
using System.Threading.Tasks;
using System.Transactions;
using Microsoft.Dynamics.Commerce.Runtime;
using Microsoft.Dynamics.Commerce.Runtime.Data;
using Microsoft.Dynamics.Commerce.Runtime.DataModel;
using Microsoft.Dynamics.Commerce.Runtime.DataServices.Messages;
using Microsoft.Dynamics.Commerce.Runtime.Messages;
/// <summary>
/// Create or update customer data request handler.
/// </summary>
public sealed class CreateOrUpdateCustomerDataRequestHandler : SingleAsyncRequestHandler<CreateOrUpdateCustomerDataRequest>
{
/// <summary>
/// Executes the workflow to create or update a customer.
/// </summary>
/// <param name="request">The request.</param>
/// <returns>The response.</returns>
protected override async Task<Response> Process(CreateOrUpdateCustomerDataRequest request)
{
ThrowIf.Null(request, "request");
using (var databaseContext = new DatabaseContext(request.RequestContext))
{
// Execute original functionality to save the customer.
var requestHandler = new Microsoft.Dynamics.Commerce.Runtime.DataServices.SqlServer.CustomerSqlServerDataService();
var response = (SingleEntityDataServiceResponse<Customer>)requestHandler.Execute(request);
// Execute additional functionality to save the customer's extension properties.
if (!request.Customer.ExtensionProperties.IsNullOrEmpty())
{
// The stored procedure will determine which extension properties are saved to which tables.
ParameterSet parameters = new ParameterSet();
parameters["@TVP_EXTENSIONPROPERTIESTABLETYPE"] = new ExtensionPropertiesExtTableType(request.Customer.RecordId, request.Customer.ExtensionProperties).DataTable;
await databaseContext.ExecuteStoredProcedureNonQueryAsync("[ext].UPDATECUSTOMEREXTENSIONPROPERTIES", parameters, resultSettings: null).ConfigureAwait(false);
}
return response;
}
}
}
}
}
Syntax to enable the property to be read later
var property = entity.GetProperty("EXTENSION_PROPERTY_ADDED");
Using extension properties on CRT request and response types
Like entities, request and response types can be extended to set and get extension properties. However, they persist only for the lifecycle of the request and won't be available in POS. If you want to save them to the database, you must write custom code.
request.SetProperty("PropertyName", true);
response.SetProperty("PropertyName2", true);
var PropertyName = request.GetProperty("PropertyName");
var BoolPropertyName2 = response.GetProperty("PropertyName2");
Setting or reading extension properties in POS
You can set extension properties in POS and send them to CRT by using the POS APIs. Alternatively, you can send extension properties at the entity level.
To set an extension property on the cart line, you use SaveExtensionPropertiesOnCartLinesClientRequest. Likewise, for the cart header, you use SaveExtensionPropertiesOnCartClientRequest.
Here is an example.
let sampleExtensionProperty = <ProxyEntities.CommerceProperty>{
Key: "sampleExtensionProperty",
Value: <ProxyEntities.CommercePropertyValue>{
BooleanValue: false
}
};
this.context.runtime.executeAsync(new SaveExtensionPropertiesOnCartClientRequest([sampleExtensionProperty]));
Reading the extension property from the cart in POS
let getCartRequest: GetCurrentCartClientRequest<GetCurrentCartClientResponse> = new GetCurrentCartClientRequest<GetCurrentCartClientResponse>();
return this.context.runtime.executeAsync(getCartRequest).then((value: ICancelableDataResult<GetCurrentCartClientResponse>) => {
let cart: Commerce.Proxy.Entities.Cart = (<GetCurrentCartClientResponse>value.data).result;
// Gets the extension property from the cart.
let sampleExtensionPropertyValue: boolean;
if (!ObjectExtensions.isNullOrUndefined(cart) && !ObjectExtensions.isNullOrUndefined(cart.ExtensionProperties)) {
let SampleCommerceProperties: ProxyEntities.CommerceProperty[] = cart.ExtensionProperties.filter((extensionProperty: ProxyEntities.CommerceProperty) => {
return extensionProperty.Key === "sampleExtensionProperty";
});
sampleExtensionPropertyValue = SampleCommerceProperties.length > 0 ? SampleCommerceProperties[0].Value.BooleanValue : false;
} else {
sampleExtensionPropertyValue = false;
}
//Resolve the promise according to your scenario and method.
return Promise.resolve({ canceled: false });
});
Likewise, you can read the extension property from all the other entities, such as products, customers, and addresses.