EF Core 10.0: Global Query Filter Improvements

In this post, let's have a look at some nice improvements in Global Query Filters in EF Core 10.0.

We can use Global Query Filters at an entity level to attach an additional LINQ where operator whenever the entity type is queried.

Consider the following DbContext.

public class Customer
{
    public int Id { get; set; }
 
    public string TenantId { get; init; }
 
    public string Name { get; init; }
 
    public bool IsDeleted { get; set; }
}

public class MyDbContext(string tenantId) : DbContext
{
    public DbSet<Customer> Customers { get; set; }
 
    override protected void OnModelCreating(ModelBuilder modelBuilder)
    {
        modelBuilder.Entity<Customer>()
            .HasQueryFilter(x => x.TenantId == tenantId);
    }
}

And we can do something like this.

string tenantId = "Tenant1";
 
using var context = new MyDbContext(tenantId);
 
await context.Customers.AddRangeAsync(
    [
        new Customer
        {
            TenantId = tenantId,
            Name = "John Doe"
        },
        new Customer
        {
            TenantId = tenantId,
            Name = "Jane Doe",
            IsDeleted = true
        },
        new Customer
        {
            TenantId = "Tenant2",
            Name = "Jim Doe"
        }
    ]);
 
await context.SaveChangesAsync();
 
foreach (Customer? customer in await context.Customers.ToListAsync())
{
    Console.WriteLine($"Customer: {customer.Name}, Tenant: {customer.TenantId}");
}

When we run above code, the executed query is something below.

SELECT [c].[Id], [c].[IsDeleted], [c].[Name], [c].[TenantId]
FROM [Customers] AS [c]
WHERE [c].[TenantId] = @__P_0

As you can see, Query Filter was attached and we are getting the expected result.

Now prior to EF Core 10.0, if for some reason, we add another Query Filter by doing something like below;

modelBuilder.Entity<Customer>()
    .HasQueryFilter(x => x.TenantId == tenantId);
 
modelBuilder.Entity<Customer>()
    .HasQueryFilter(x => !x.IsDeleted);

And now if we run the above code, note following executed query.

SELECT [c].[Id], [c].[IsDeleted], [c].[Name], [c].[TenantId]
FROM [Customers] AS [c]
WHERE [c].[IsDeleted] = CAST(0 AS bit)

Only the last Query Filter was used.

This would not be the desired output. Prior to EF Core 10, when multiple filters are configured, prior filters are overridden.

The workaround is, 

modelBuilder.Entity<Customer>()
    .HasQueryFilter(x => x.TenantId == tenantId && !x.IsDeleted);

With EF Core 10.0, we can now define multiple Query Filters, but each filter has to be given a name.

modelBuilder.Entity<Customer>()
    .HasQueryFilter("TenantFilter", x => x.TenantId == tenantId)
    .HasQueryFilter("SoftDeletionFilter", x => !x.IsDeleted);

And this would generate the following query for the above code.

SELECT [c].[Id], [c].[IsDeleted], [c].[Name], [c].[TenantId]
FROM [Customers] AS [c]
WHERE [c].[TenantId] = @P AND [c].[IsDeleted] = CAST(0 AS bit)

And also we can ignore Query Filters by doing something like below.

// Query counts with a specific Query Filter ignored
int tenantCustomersCountIncludingDeleted = await context.Customers
    .IgnoreQueryFilters(["SoftDeletionFilter"])
    .CountAsync(); // 2
 
// Query counts with all Query Filters ignored
int allCustomersCount = await context.Customers
    .IgnoreQueryFilters()
    .CountAsync(); // 3

More read:

   What's New in EF Core 10

   Global Query Filters

Hope this helps.

Happy Coding.

Regards,
Jaliya

EF Core 10.0: Support for Partially Updating JSON Columns with ExecuteUpdate/ExecuteUpdateAsync

In this post, let’s explore a great new enhancement available in EF Core 10.0. EF Core 10.0 now supports partially updating JSON columns with ExecuteUpdate/ExecuteUpdateAsync.

Let's consider the following DbContext.

public class Customer
{
    public int Id { get; set; }
 
    public string Name { get; set; }
 
    public required Contact Contact { get; set; }
}
 
public class Contact
{
    public required Address Address { get; set; } 
}
 
public class Address
{
    public required string Street { get; set; }
 
    public required string City { get; set; }
 
    public required string State { get; set; }
 
    public required string PostalCode { get; set; }
}

public class MyDbContext : DbContext
{
    public DbSet<Customer> Customers { get; set; }
 
    protected override void OnConfiguring(DbContextOptionsBuilder optionsBuilder)
    {
        optionsBuilder
            .UseSqlServer("<ConnectionString>", x =>
            {
                x.UseCompatibilityLevel(170); // Microsoft SQL Server 2025
            });
    }
 
    override protected void OnModelCreating(ModelBuilder modelBuilder)
    {
        modelBuilder
            .Entity<Customer>(x =>
            {
                x.ComplexProperty(x => x.Contact, x => x.ToJson());
            });
    }
}

With above code Customer.Contact column will get created as a json data type (EF Core 10.0: Support for JSON Data Type in Microsoft SQL Server)

Now let's say we need to do a partial update on Customer.Contact.PostalCode.

await context.Customers
    .Where(x => x.Name == "John Doe")
    .ExecuteUpdateAsync(setters =>
        setters
            .SetProperty(c => c.Contact.Address.PostalCode, "98102")
    );

Above will create the following SQL query.

UPDATE [c]
SET [Contact].modify('$.Address.PostalCode', @p)
FROM [Customers] AS [c]
WHERE [c].[Name] = N'John Doe'

Note the partial update on PostalCode using the  modify method. The modify method is currently in preview and only available in Microsoft SQL Server 2025 Preview.

This even works with older versions of Microsoft SQL Server, where the JSON data is stored as nvarchar(max) column.

For example,

optionsBuilder
    .UseSqlServer("<ConnectionString>", x =>
    {
        x.UseCompatibilityLevel(160); // Microsoft SQL Server 2022
    });

This would create the Customer.Contact column as  nvarchar(max) and above ExecuteUpdateAsync would still work. In this case, generated query would be something like following.

UPDATE [c]
SET [c].[Contact] = JSON_MODIFY([c].[Contact], '$.Address.PostalCode', @p)
FROM [Customers] AS [c]
WHERE [c].[Name] = N'John Doe'

Note: this only works when mapping JSON data with ComplexProperty and not with owned entities.

More read:
   What's New in EF Core 10
   JSON Data Type

Hope this helps.

Happy Coding.

Regards,

Jaliya

.NET Isolated Azure Functions: Missing Worker Logs

I recently seen this issue in a .NET Isolated Azure Function App, it was writing custom logs at Information level to Application Insights, but the logs aren't there.

It was configured correctly with Application Insights in the Program.cs. And there was no logging filters configured.

using Microsoft.Azure.Functions.Worker.Builder;
using Microsoft.Extensions.DependencyInjection;
 
FunctionsApplicationBuilder builder = FunctionsApplication.CreateBuilder(args);
 
builder.Services
    .AddApplicationInsightsTelemetryWorkerService()
    .ConfigureFunctionsApplicationInsights();

To reproduce the issue locally, created a simple .NET isolated Azure Function App with a HTTP trigger that logs something like this.

using Microsoft.AspNetCore.Http;
using Microsoft.AspNetCore.Mvc;
using Microsoft.Azure.Functions.Worker;
using Microsoft.Extensions.Logging;
 
namespace FunctionApp1;
 
public class Function1
{
    private readonly ILogger<Function1> _logger;
 
    public Function1(ILogger<Function1> logger)
    {
        _logger = logger;
    }
 
    [Function("Function1")]
    public IActionResult Run([HttpTrigger(AuthorizationLevel.Function, "get", "post")] HttpRequest req)
    {
        _logger.LogInformation("C# HTTP trigger function processed a request.");
        return new OkObjectResult("Welcome to Azure Functions!");
    }
}

When triggered the HTTP Function,

Output

Custom log is not being written. Reproducing the issue locally is a one step closer to resolving the issue.

After spending some time, noticed this.

Guide for running C# Azure Functions in the isolated worker model: Managing log levels

However, by default, the Application Insights SDK adds a logging filter that instructs the logger to capture only warnings and more severe logs

And to disable the behavior, we can do this.

builder.Logging.Services.Configure<LoggerFilterOptions>(options =>
{
    LoggerFilterRule defaultRule =
        options.Rules.FirstOrDefault(rule => rule.ProviderName == "Microsoft.Extensions.Logging.ApplicationInsights.ApplicationInsightsLoggerProvider");
 
    if (defaultRule is not null)
    {
        options.Rules.Remove(defaultRule);
    }
});

And now when triggered the HTTP Function,

Output

The logs now started to being written.

Hope this helps.

Happy Coding.

Regards,
Jaliya

.NET Isolated Azure Functions: Enabling Open API Support

In this post let's see how to enable Open API Support in .NET Isolated Azure Functions. Long time ago I blogged about Introducing In-Process Azure Functions OpenAPI Extension. And that's for .NET In-Process functions.

A lot has changed since then.

I have created a simple .NET Isolated Azure Function with a Http Trigger targeting .NET 9.

.NET Isolated Http Trigger

Now let's add the Open API support.

First step is installing the following NuGet package.

Install-Package Microsoft.Azure.Functions.Worker.Extensions.OpenApi -Version 1.6.0

This version is the latest as of today, it will change as we go on.

Now if you run the project (note: you don't have to do any changes in Program.cs), you will see the new endpoints for Open API.

Console

If you open up the Swagger UI URL in a browser, you can see something like following.

Swagger UI

Now let's decorate the HTTP Function with Open API attributes.

[Function(nameof(Function1))]
[OpenApiOperation(operationId: nameof(Function1))]
[OpenApiResponseWithBody(statusCode: HttpStatusCode.OK,
    contentType: "application/json",
    bodyType: typeof(object),
    Description = "The OK response message.")]
public IActionResult Run([HttpTrigger(AuthorizationLevel.Anonymous, "get")] HttpRequest req)
{
    return new OkObjectResult(new
    {
        message = "Welcome to Azure Functions!"
    });
}

And to make the Open API spec looks nice, override DefaultOpenApiConfigurationOptions with something like this:

internal class OpenApiConfigurationOptions : DefaultOpenApiConfigurationOptions
{
    public override OpenApiInfo Info { get; set; } = new OpenApiInfo
    {
        Version = "1.0.0",
        Title = "Hello World",
        Description = "A sample API for my Azure Function.",
        License = new OpenApiLicense
        {
            Name = "MIT",
            Url = new Uri("http://opensource.org/licenses/MIT"),
        }
    };
    public override OpenApiVersionType OpenApiVersion { get; set; } = OpenApiVersionType.V3;
}

And now after doing these changes and if you look at the Swagger UI, 

Swagger UI

Open API Spec:

{
  "openapi": "3.0.1",
  "info": {
    "title": "Hello World",
    "description": "A sample API for my Azure Function.",
    "license": {
      "name": "MIT",
      "url": "http://opensource.org/licenses/MIT"
    },
    "version": "1.0.0"
  },
  "servers": [
    {
      "url": "http://localhost:7154/api"
    }
  ],
  "paths": {
    "/Function1": {
      "get": {
        "operationId": "Function1",
        "responses": {
          "200": {
            "description": "The OK response message.",
            "content": {
              "application/json": {
                "schema": {
                  "type": "object"
                }
              }
            }
          }
        }
      }
    }
  },
  "components": {}
}

Hope this helps.

Happy Coding.

Regards,
Jaliya

EF Core 10.0: Support for JSON Data Type in Microsoft SQL Server

From Microsoft SQL Server 2025 (17.x) which is already available in Preview, we now have a new Data Type: json. 

EF Core 10.0 now fully supports the json data type.

Consider the following Model.

public class Customer
{
    public int Id { get; set; }
 
    public string Name { get; set; }
 
    public required Contact Contact { get; set; }
}
 
public class Contact
{
    public required Address Address { get; set; }
 
    public List<PhoneNumber> PhoneNumbers { get; set; } = [];
}
 
public class Address
{
    public required string Street { get; set; }
 
    public required string City { get; set; }
 
    public required string State { get; set; }
 
    public required string PostalCode { get; set; }
}
 
public class PhoneNumber
{
    public PhoneNumberType Type { get; set; }
 
    public string Number { get; set; }
 
    public PhoneNumber(PhoneNumberType type, string number)
    {
        Type = type;
        Number = number;
    }
}
 
public enum PhoneNumberType
{
    Mobile,
    Home
}

And I have configured the MyDbContext as follows.

public class MyDbContext : DbContext
{
    public DbSet<Customer> Customers { get; set; }
 
    protected override void OnConfiguring(DbContextOptionsBuilder optionsBuilder)
    {
        optionsBuilder
            .UseSqlServer("<SqlServer2025_ConnectionString>", x =>
            {
                x.UseCompatibilityLevel(170); // Microsoft SQL Server 2025
            });
    }
 
    override protected void OnModelCreating(ModelBuilder modelBuilder)
    {
        modelBuilder
            .Entity<Customer>(x =>
            {
                x.ComplexProperty(x => x.Contact, x => x.ToJson());
            });
    }
}

Note the ComplexProperty(). For more information on ComplexProperty(), read a previous post: EF Core 10.0: Support for Complex Types without using Owned Entities for more information.

When configured to target Microsoft SQL Server 2025, EF Core 10.0 creates the following table for the above.

CREATE TABLE [Customers] (
    [Id] int NOT NULL IDENTITY,
    [Name] nvarchar(max) NOT NULL,
    [Contact] json NOT NULL,
    CONSTRAINT [PK_Customers] PRIMARY KEY ([Id])
);

Data Type: json

Querying

We can do queries on JSON data, for example, consider the following.

List<Customer> customersInWA = await context.Customers
    .Where(x => x.Contact.Address.State == "WA")
    .ToListAsync();

The generated SQL statements will be as follows.

SELECT [c].[Id], [c].[Name], [c].[Contact]
FROM [Customers] AS [c]
WHERE JSON_VALUE([c].[Contact], '$.Address.State' RETURNING nvarchar(max)) = N'WA'

Projection

List<string> distinctStates = await context.Customers
    .Select(x => x.Contact.Address.State)
    .Distinct()
    .ToListAsync();

The generated SQL statement:

SELECT DISTINCT JSON_VALUE([c].[Contact], '$.Address.State' RETURNING nvarchar(max))
FROM [Customers] AS [c]

Update

Customer customerToUpdate = await context.Customers.SingleAsync(x => x.Name == "Jane Doe");
customerToUpdate.Contact.Address.PostalCode = "97202";
await context.SaveChangesAsync();

Here the generated SQL statement:

SET IMPLICIT_TRANSACTIONS OFF;
SET NOCOUNT ON;
UPDATE [Customers] SET [Contact] = @p0
OUTPUT 1
WHERE [Id] = @p1;

However, I'd expect it be something like below:

SET IMPLICIT_TRANSACTIONS OFF;
SET NOCOUNT ON;
UPDATE [Customers] SET [Contact] = JSON_MODIFY([Contact], 'strict $.Address.PostalCode', JSON_VALUE(@p0, '$[0]'))
OUTPUT 1
WHERE [Id] = @p1;

Created an issue: dotnet/efcore/issues/36732

It's getting nicer and exciting everyday.

Read more:
   What's New in EF Core 10

Happy Coding.

Regards,
Jaliya

EF Core 10.0: Support for Complex Types without using Owned Entities

EF Core 10.0 introduces a new approach for mapping complex types in a Entity. Prior to EF Core 10.0, we can manage complex types using Owned Entities.

With EF Core 10.0, we now have a new method ComplexProperty() and in this post let's have a look at the newer approach and possibly do a comparison.

Consider the following.

public class Customer
{
    public int Id { get; set; }
 
    public string Name { get; set; }
 
    public required Address ShippingAddress { get; set; }
 
    public required Address BillingAddress { get; set; }
}
 
public class Address
{
    public required string Street { get; set; }
 
    public required string City { get; set; }
 
    public required string State { get; set; }
 
    public required string PostalCode { get; set; }
}

Now let's see how we can map ShippingAddress and BillingAddress, using Owned Entities vs ComplexProperty.

public class MyDbContext : DbContext
{
    public DbSet<Customer> Customers { get; set; }
 
    protected override void OnConfiguring(DbContextOptionsBuilder optionsBuilder)
    {
        optionsBuilder
            .UseSqlServer("<ConnectionString>");
    }
 
    override protected void OnModelCreating(ModelBuilder modelBuilder)
    {
        modelBuilder
            .Entity<Customer>(x =>
            {
                // Using Owned Entity Types
                x.OwnsOne(x => x.ShippingAddress);
 
                // Using Complex Types (new in EF Core 10)
                x.ComplexProperty(x => x.BillingAddress);
            });
    }
}

Owned Entity vs ComplexProperty

You can basically do all the customizations as we used to do in Owned Entities. 

For an example, map the properties to different column names, I can do this.

override protected void OnModelCreating(ModelBuilder modelBuilder)
{
    modelBuilder
        .Entity<Customer>(x =>
        {
            // Using Owned Entity Types
            x.OwnsOne(x => x.ShippingAddress, y =>
            {
                // Map the properties to different column names
                y.Property(p => p.Street).HasColumnName("ShippingStreet");
            });
 
            // Using Complex Types(new in EF Core 10)
            x.ComplexProperty(x => x.BillingAddress, y =>
            {
                // Map the properties to different column names
                y.Property(p => p.Street).HasColumnName("BillingStreet");
            });
        });
}

From EF Core 10.0 onwards, ComplexProperty() would be more recommended approach for managing complex types.

Read more:
   EF Core 10.0: Complex Types

Hope this helps.

Happy Coding.

Regards,

Jaliya

Announcing Visual Studio 2026: Insiders

Just a few hours ago, the first Public Preview of the next version of Visual Studio is announced along with .NET 10 RC 1. It's Visual Studio 2026 or Visual Studio 18 under the classic versioning system. 

Visual Studio 2026: Insiders

This new release brings significant performance improvements and of course a host of exciting new features.

One of the standout updates is the introduction of the Insiders channel, which replaces the traditional Preview channel from earlier versions of Visual Studio.

There's a lot to explore, and it's available now. Try it out today!

Read more:
   Visual Studio 2026 Insiders is here!

   Visual Studio Insiders release notes

   Announcing .NET 10 Release Candidate 1

Happy Coding.

Regards,

Jaliya

ASP.NET Core 10.0: Custom Validation Support for Minimal APIs

In a previous post, I wrote about ASP.NET Core 10.0: Validation Support for Minimal APIs. In this post, let's go a bit further and see how we can implement custom validations using both ValidationAttribute implementations and implementing the IValidatableObject interface.

ValidationAttribute 

With ValidationAttribute, we can create a Custom attribute with our own custom logic.

public class CustomEmptyValidationAttribute : ValidationAttribute
{
    protected override ValidationResult? IsValid(object? value, ValidationContext _)
    {
        if (value is string str && string.IsNullOrEmpty(str))
        {
            return new ValidationResult("Value cannot be null or empty.");
        }
 
        return ValidationResult.Success;
    }
}

And then we can apply the attribute, something like below for an example.

internal record Employee([CustomEmptyValidation] string Name);

IValidatableObject 

A class/record can implement IValidatableObject and add the validation logic. The validation will kick in as part of model binding.

internal record Employee : IValidatableObject
{
    [Range(1, int.MaxValue)]
    public int Id { get; set; }
 
    public string Name { get; set; }
 
    public IEnumerable<ValidationResult> Validate(ValidationContext _)
    {
        if (string.IsNullOrEmpty(Name))
        {
            yield return new ValidationResult("Name cannot be null or empty.", [nameof(Name)]);
        }
    }
}

Note: Currently there is a bug where IValidatableObject wouldn't trigger validation when there is no validation attribute on a property. (aspnetcore/issues/63394: ASP.NET Core 10.0: Built-in Validation with IValidatableObject)

Hope this helps.

Happy Coding.

Regards,

Jaliya

ASP.NET Core 10.0: Validation Support for Minimal APIs

With ASP.NET Core 10.0, we now have built in validation support for Minimal APIs for request data in following.

• Route parameters, Query Strings
• Header
• Request body

If any validation fails, the runtime returns a 400 Bad Request response with details of the validation errors.

Validations are defined using attributes in the System.ComponentModel.DataAnnotations namespace. We can even create our own validators using,

• Creating custom  ValidationAttribute implementations.
• Implementing the IValidatableObject interface

To register validation services and enable validation, we need to call the following method in the Program.cs.

builder.Services.AddValidation();

Now we can do something like below to validate route parameters.

app.MapGet("/employees/{employeeId}", ([Range(1, int.MaxValue)] int employeeId) =>
{
    // Omitted
});

And if we try the endpoint with an incorrect route parameter, we will get an validation error.

GET {{WebApplication1_HostAddress}}/employees/0
Accept: application/json

Route parameter validation

We can use the similar concept with record types as well.

Say I have the following Employee record that has a annotated property.

internal record Employee([Required] string Name);

And now If I try to make a request to the following endpoint,

app.MapPost("/employees", (Employee employee) =>
{
    // Omitted 
});

With a empty value for name,

POST {{WebApplication1_HostAddress}}/employees
Content-Type: application/json
{
    "name": ""
}

I am getting the following 400 Bad Request.

Request Body Validation

You can disable the validation at the endpoint by calling DisableValidation(), something like below:

app.MapPost("/employees", (Employee employee) =>
    {
        // Omitted
    })
    .DisableValidation();

Hope this helps.

Happy Coding.

Regards,

Jaliya