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Data Filtering

Volo.Abp.Data package defines services to automatically filter data on querying from a database.

Pre-Defined Filters

ABP defines some filters out of the box.

ISoftDelete

Used to mark an entity as deleted instead of actually deleting it. Implement the ISoftDelete interface to make your entity "soft delete".

Example:

using System;
using Volo.Abp;
using Volo.Abp.Domain.Entities;

namespace Acme.BookStore
{
    public class Book : AggregateRoot<Guid>, ISoftDelete
    {
        public string Name { get; set; }

        public bool IsDeleted { get; set; } //Defined by ISoftDelete
    }
}

ISoftDelete defines the IsDeleted property. When you delete a book using repositories, ABP automatically sets IsDeleted to true and protects it from actual deletion (you can also manually set the IsDeleted property to true if you need). In addition, it automatically filters deleted entities when you query the database.

ISoftDelete filter is enabled by default and you can not get deleted entities from database unless you explicitly disable it. See the IDataFilter service below.

Soft-delete entities can be hard-deleted when you use HardDeleteAsync method on the repositories.

IMultiTenant

Multi-tenancy is an efficient way of creating SaaS applications. Once you create a multi-tenant application, you typically want to isolate data between tenants. Implement IMultiTenant interface to make your entity "multi-tenant aware".

Example:

using System;
using Volo.Abp;
using Volo.Abp.Domain.Entities;
using Volo.Abp.MultiTenancy;

namespace Acme.BookStore
{
    public class Book : AggregateRoot<Guid>, ISoftDelete, IMultiTenant
    {
        public string Name { get; set; }

        public bool IsDeleted { get; set; } //Defined by ISoftDelete

        public Guid? TenantId { get; set; } //Defined by IMultiTenant
    }
}

IMultiTenant interface defines the TenantId property which is then used to automatically filter the entities for the current tenant. See the Multi-tenancy document for more.

IDataFilter Service: Enable/Disable Data Filters

You can control the filters using IDataFilter service.

Example:

using System;
using System.Collections.Generic;
using System.Threading.Tasks;
using Volo.Abp;
using Volo.Abp.Data;
using Volo.Abp.DependencyInjection;
using Volo.Abp.Domain.Repositories;

namespace Acme.BookStore
{
    public class MyBookService : ITransientDependency
    {
        private readonly IDataFilter _dataFilter;
        private readonly IRepository<Book, Guid> _bookRepository;

        public MyBookService(
            IDataFilter dataFilter,
            IRepository<Book, Guid> bookRepository)
        {
            _dataFilter = dataFilter;
            _bookRepository = bookRepository;
        }

        public async Task<List<Book>> GetAllBooksIncludingDeletedAsync()
        {
            //Temporary disable the ISoftDelete filter
            using (_dataFilter.Disable<ISoftDelete>())
            {
                return await _bookRepository.GetListAsync();
            }
        }
    }
}
  • Inject the IDataFilter service to your class.
  • Use the Disable method within a using statement to create a code block where the ISoftDelete filter is disabled inside it.

In addition to the Disable<T>() method;

  • IDataFilter.Enable<T>() method can be used to enable a filter. Enable and Disable methods can be used in a nested way to define inner scopes.

  • IDataFilter.IsEnabled<T>() can be used to check whether a filter is currently enabled or not.

Always use the Disable and Enable methods it inside a using block to guarantee that the filter is reset to its previous state.

The Generic IDataFilter Service

IDataFilter service has a generic version, IDataFilter<TFilter> that injects a more restricted and explicit data filter based on the filter type.

using System;
using System.Collections.Generic;
using System.Threading.Tasks;
using Volo.Abp;
using Volo.Abp.Data;
using Volo.Abp.DependencyInjection;
using Volo.Abp.Domain.Repositories;

namespace Acme.BookStore
{
    public class MyBookService : ITransientDependency
    {
        private readonly IDataFilter<ISoftDelete> _softDeleteFilter;
        private readonly IRepository<Book, Guid> _bookRepository;

        public MyBookService(
            IDataFilter<ISoftDelete> softDeleteFilter,
            IRepository<Book, Guid> bookRepository)
        {
            _softDeleteFilter = softDeleteFilter;
            _bookRepository = bookRepository;
        }

        public async Task<List<Book>> GetAllBooksIncludingDeletedAsync()
        {
            //Temporary disable the ISoftDelete filter
            using (_softDeleteFilter.Disable())
            {
                return await _bookRepository.GetListAsync();
            }
        }
    }
}
  • This usage determines the filter type while injecting the IDataFilter<T> service.
  • In this case you can use the Disable() and Enable() methods without specifying the filter type.

AbpDataFilterOptions

AbpDataFilterOptions can be used to set options for the data filter system.

The example code below disables the ISoftDelete filter by default which will cause to include deleted entities when you query the database unless you explicitly enable the filter:

Configure<AbpDataFilterOptions>(options =>
{
    options.DefaultStates[typeof(ISoftDelete)] = new DataFilterState(isEnabled: false);
});

Carefully change defaults for global filters, especially if you are using a pre-built module which might be developed assuming the soft delete filter is turned on by default. But you can do it for your own defined filters safely.

Defining Custom Filters

Defining and implementing a new filter highly depends on the database provider. ABP implements all pre-defined filters for all database providers.

When you need it, start by defining an interface (like ISoftDelete and IMultiTenant) for your filter and implement it for your entities.

Example:

public interface IIsActive
{
    bool IsActive { get; }
}

Such an IIsActive interface can be used to filter active/passive data and can be easily implemented by any entity:

public class Book : AggregateRoot<Guid>, IIsActive
{
    public string Name { get; set; }

    public bool IsActive { get; set; } //Defined by IIsActive
}

EntityFramework Core

ABP uses EF Core's Global Query Filters system for the EF Core Integration. So, it is well integrated to EF Core and works as expected even if you directly work with DbContext.

Best way to implement a custom filter is to override ShouldFilterEntity and CreateFilterExpression method for your DbContext. Example:

protected bool IsActiveFilterEnabled => DataFilter?.IsEnabled<IIsActive>() ?? false;

protected override bool ShouldFilterEntity<TEntity>(IMutableEntityType entityType)
{
    if (typeof(IIsActive).IsAssignableFrom(typeof(TEntity)))
    {
        return true;
    }

    return base.ShouldFilterEntity<TEntity>(entityType);
}

protected override Expression<Func<TEntity, bool>> CreateFilterExpression<TEntity>(ModelBuilder modelBuilder)
{
    var expression = base.CreateFilterExpression<TEntity>(modelBuilder);

    if (typeof(IIsActive).IsAssignableFrom(typeof(TEntity)))
    {
        Expression<Func<TEntity, bool>> isActiveFilter = e => !IsActiveFilterEnabled || EF.Property<bool>(e, "IsActive");
        expression = expression == null ? isActiveFilter : QueryFilterExpressionHelper.CombineExpressions(expression, isActiveFilter);
    }

    return expression;
}
  • Added a IsActiveFilterEnabled property to check if IIsActive is enabled or not. It internally uses the IDataFilter service introduced before.
  • Overrided the ShouldFilterEntity and CreateFilterExpression methods, checked if given entity implements the IIsActive interface and combines the expressions if necessary.

In addition you can also use HasAbpQueryFilter to set a filter for an entity. It will combine your filter with ABP EF Core builtin global query filters.

protected override void OnModelCreating(ModelBuilder modelBuilder)
{
    base.OnModelCreating(modelBuilder);
    
    modelBuilder.Entity<MyEntity>(b =>
    {
        b.HasAbpQueryFilter(e => e.Name.StartsWith("abp"));
    });
}

Using User-defined function mapping for global filters

Using User-defined function mapping for global filters will gain performance improvements.

To use this feature, you need to change your DbContext like below:

protected bool IsActiveFilterEnabled => DataFilter?.IsEnabled<IIsActive>() ?? false;

protected override bool ShouldFilterEntity<TEntity>(IMutableEntityType entityType)
{
    if (typeof(IIsActive).IsAssignableFrom(typeof(TEntity)))
    {
        return true;
    }

    return base.ShouldFilterEntity<TEntity>(entityType);
}

protected override Expression<Func<TEntity, bool>> CreateFilterExpression<TEntity>(ModelBuilder modelBuilder)
{
    var expression = base.CreateFilterExpression<TEntity>(modelBuilder);

    if (typeof(IIsActive).IsAssignableFrom(typeof(TEntity)))
    {
        Expression<Func<TEntity, bool>> isActiveFilter = e => !IsActiveFilterEnabled || EF.Property<bool>(e, "IsActive");

        if (UseDbFunction())
        {
            isActiveFilter = e => IsActiveFilter(((IIsActive)e).IsActive, true);

            var abpEfCoreCurrentDbContext = this.GetService<AbpEfCoreCurrentDbContext>();
            modelBuilder.HasDbFunction(typeof(MyProjectNameDbContext).GetMethod(nameof(IsActiveFilter))!)
                .HasTranslation(args =>
                {
                    // (bool isActive, bool boolParam)
                    var isActive = args[0];
                    var boolParam = args[1];

                    if (abpEfCoreCurrentDbContext.Context?.DataFilter.IsEnabled<IIsActive>() == true)
                    {
                        // isActive == true
                        return new SqlBinaryExpression(
                            ExpressionType.Equal,
                            isActive,
                            new SqlConstantExpression(Expression.Constant(true), boolParam.TypeMapping),
                            boolParam.Type,
                            boolParam.TypeMapping);
                    }

                    // empty where sql
                    return new SqlConstantExpression(Expression.Constant(true), boolParam.TypeMapping);
                });
        }

        expression = expression == null ? isActiveFilter : QueryFilterExpressionHelper.CombineExpressions(expression, isActiveFilter);
    }

    return expression;
}

public static bool IsActiveFilter(bool isActive, bool boolParam)
{
    throw new NotSupportedException(AbpEfCoreDataFilterDbFunctionMethods.NotSupportedExceptionMessage);
}

public override string GetCompiledQueryCacheKey()
{
    return $"{base.GetCompiledQueryCacheKey()}:{IsActiveFilterEnabled}";
}
Make User-defined function mapping compatible with DevExtreme.AspNet.Data's IAsyncAdapter

If you are using DevExtreme.AspNet.Data and User-defined function mapping, You need to create a custom adapter to compatible with IAsyncAdapter.

var adapter = new AbpDevExtremeAsyncAdapter();
CustomAsyncAdapters.RegisterAdapter(typeof(AbpEntityQueryProvider), adapter);
using System;
using System.Collections.Generic;
using System.Linq;
using System.Linq.Expressions;
using System.Reflection;
using System.Threading;
using System.Threading.Tasks;
using DevExtreme.AspNet.Data.Async;

namespace Abp.EntityFrameworkCore;

public class AbpDevExtremeAsyncAdapter : IAsyncAdapter
{
    private readonly MethodInfo _countAsyncMethod;
    private readonly MethodInfo _toListAsyncMethod;

    public AbpDevExtremeAsyncAdapter()
    {
        var extensionsType = Type.GetType("Microsoft.EntityFrameworkCore.EntityFrameworkQueryableExtensions, Microsoft.EntityFrameworkCore");
        _countAsyncMethod = FindQueryExtensionMethod(extensionsType, "CountAsync");
        _toListAsyncMethod = FindQueryExtensionMethod(extensionsType, "ToListAsync");
    }

    public Task<int> CountAsync(IQueryProvider provider, Expression expr, CancellationToken cancellationToken)
    {
        return InvokeCountAsync(_countAsyncMethod, provider, expr, cancellationToken);
    }

    public Task<IEnumerable<T>> ToEnumerableAsync<T>(IQueryProvider provider, Expression expr, CancellationToken cancellationToken)
    {
        return InvokeToListAsync<T>(_toListAsyncMethod, provider, expr, cancellationToken);
    }

    static MethodInfo FindQueryExtensionMethod(Type extensionsType, string name)
    {
        return extensionsType.GetMethods().First(m =>
        {
            if (!m.IsGenericMethod || m.Name != name)
            {
                return false;
            }
            var parameters = m.GetParameters();
            return parameters.Length == 2 && parameters[1].ParameterType == typeof(CancellationToken);
        });
    }

    static Task<int> InvokeCountAsync(MethodInfo method, IQueryProvider provider, Expression expr, CancellationToken cancellationToken)
    {
        var countArgument = ((MethodCallExpression)expr).Arguments[0];
        var query = provider.CreateQuery(countArgument);
        return (Task<int>)InvokeQueryExtensionMethod(method, query.ElementType, query, cancellationToken);
    }

    static async Task<IEnumerable<T>> InvokeToListAsync<T>(MethodInfo method, IQueryProvider provider, Expression expr, CancellationToken cancellationToken)
    {
        return await (Task<List<T>>)InvokeQueryExtensionMethod(method, typeof(T), provider.CreateQuery(expr), cancellationToken);
    }

    static object InvokeQueryExtensionMethod(MethodInfo method, Type elementType, IQueryable query, CancellationToken cancellationToken)
    {
        return method.MakeGenericMethod(elementType).Invoke(null, new object[] { query, cancellationToken });
    }
}

MongoDB

ABP abstracts the IMongoDbRepositoryFilterer interface to implement data filtering for the MongoDB Integration, it works only if you use the repositories properly. Otherwise, you should manually filter the data.

Currently, the best way to implement a data filter for the MongoDB integration is to create a derived class of MongoDbRepositoryFilterer and override FilterQueryable. Example:

[ExposeServices(typeof(IMongoDbRepositoryFilterer<Book, Guid>))]
public class BookMongoDbRepositoryFilterer : MongoDbRepositoryFilterer<Book, Guid> , ITransientDependency
{
    public BookMongoDbRepositoryFilterer(
        IDataFilter dataFilter,
        ICurrentTenant currentTenant) :
        base(dataFilter, currentTenant)
    {
    }

    public override TQueryable FilterQueryable<TQueryable>(TQueryable query)
    {
        if (DataFilter.IsEnabled<IIsActive>())
        {
            return (TQueryable)query.Where(x => x.IsActive);
        }

        return base.FilterQueryable(query);
    }
}

This example implements it only for the Book entity. If you want to implement for all entities (those implement the IIsActive interface), create your own custom MongoDB repository filterer base class and override the AddGlobalFilters as shown below:

public abstract class MyMongoRepository<TMongoDbContext, TEntity, TKey> : MongoDbRepository<TMongoDbContext, TEntity, TKey>
    where TMongoDbContext : IAbpMongoDbContext
    where TEntity : class, IEntity<TKey>
{
    protected MyMongoRepository(IMongoDbContextProvider<TMongoDbContext> dbContextProvider)
           : base(dbContextProvider)
    {

    }

    protected override void AddGlobalFilters(List<FilterDefinition<TEntity>> filters)
    {
        base.AddGlobalFilters(filters);

        if (typeof(IIsActive).IsAssignableFrom(typeof(TEntity)) 
            && DataFilter.IsEnabled<IIsActive>())
        {
            filters.Add(Builders<TEntity>.Filter.Eq(e => ((IIsActive)e).IsActive, true));
        }
    }
}


public class MyMongoDbModule : AbpModule
{
    public override void ConfigureServices(ServiceConfigurationContext context)
    {
        //.......
        context.Services
            .Replace(ServiceDescriptor.Transient(typeof(IMongoDbRepositoryFilterer<,>),typeof(MyMongoDbRepositoryFilterer<,>)));
    }
}

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Last updated: August 27, 2024 Edit this page on GitHub

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