Flowsy.Db.Sql 1.3.0

There is a newer version of this package available.
See the version list below for details.
dotnet add package Flowsy.Db.Sql --version 1.3.0                
NuGet\Install-Package Flowsy.Db.Sql -Version 1.3.0                
This command is intended to be used within the Package Manager Console in Visual Studio, as it uses the NuGet module's version of Install-Package.
<PackageReference Include="Flowsy.Db.Sql" Version="1.3.0" />                
For projects that support PackageReference, copy this XML node into the project file to reference the package.
paket add Flowsy.Db.Sql --version 1.3.0                
#r "nuget: Flowsy.Db.Sql, 1.3.0"                
#r directive can be used in F# Interactive and Polyglot Notebooks. Copy this into the interactive tool or source code of the script to reference the package.
// Install Flowsy.Db.Sql as a Cake Addin
#addin nuget:?package=Flowsy.Db.Sql&version=1.3.0

// Install Flowsy.Db.Sql as a Cake Tool
#tool nuget:?package=Flowsy.Db.Sql&version=1.3.0                

Flowsy Db Sql

This package includes implementations for interfaces defined in Flows.Db.Abstractions oriented to SQL databases.

Connection Factory

The class DbConnectionFactory implements the interface IDbConnectionFactory to create IDbConnection objects from a list of registered configurations identified by unique keys.

Repositories

The class DbRepository offers the foundation to implement the repository pattern.

Let's create an interface for a fictitious user repository:

public interface IUserRepository
{
    Task<User?> GetByIdAsync(Guid userId, CancellationToken cancellationToken);
    Task<User?> GetByEmailAsync(string email, CancellationToken cancellationToken);
}

Now we need to implement our interface:

public class UserRepository : DbRepository, IUserRepository
{
    public UserRepository(IDbConnectionFactory connectionFactory, DbExceptionHandler? exceptionHandler = null) 
        : base(connectionFactory, exceptionHandler)
    {
    }

    public UserRepository(IDbConnection connection, DbExceptionHandler? exceptionHandler = null)
        : base(connection, exceptionHandler)
    {
    }

    public UserRepository(IDbTransaction transaction, DbExceptionHandler? exceptionHandler = null)
        : base(transaction, exceptionHandler)
    {
    }

    public Task<User?> GetByIdAsync(Guid userId, CancellationToken cancellationToken)
    {
        return GetSingleOrDefaultAsync<User>(
            "UserGetById", // stored function sf_user_get_by_id(uuid) (see configuration below)
            new
            {
                UserId = userId
            },
            cancellationToken
            );
    }
  
    public Task<User?> GetByEmailAsync(string email, CancellationToken cancellationToken)
    {
        return GetSingleOrDefaultAsync<User>(
            "UserGetByEmail", // stored function sf_user_get_by_email(varchar) (see configuration below)
            new
            {
                Email = email
            },
            cancellationToken
        );
    }
}

By inheriting from DbRepository we can reuse its methods to execute SQL statements and routines without writing many lines of boilerplate code.

Dependency Injection

The following code snippet shows a recommended configuration for database connections:

{
  // ...
  "Database": { // Root for all database connections
    "Database1": { // Key to identify this connection
      "ProviderInvariantName": "Npgsql",
      "ConnectionString": "Server=pg.example.com;Port=5432;Database=db1;User Id=user1;Password=sup3rS3cr3t;Include Error Detail=True;",
      "Migration": { // Optional section to configure database migrations
        "SourceDirectory": "Some/Path/To/Migrations/Database1", // Path with migration scripts for 'Database1'
        "MetadataSchema": "public", // Schema containing the table for migration metadata
        "MetadataTable": "migration", // Table for migration metadata
        "InitializationStatement": "call public.populate_tables();" // Optional statement to execute after running migrations
      }
    },
    "Database2": { // Key to identify this connection
      "ProviderInvariantName": "MySql.Data.MySqlClient",
      "ConnectionString": "Server=mysql.example.com;Port=3306;Database=db2;User Id=user2;Password=m3gaS3cr3t;",
      "Migration": { // Optional section to configure database migrations
        "SourceDirectory": "Some/Path/To/Migrations/Database2", // Path with migration scripts for 'Database2'
        "MetadataTable": "migration", // Table for migration metadata
        "InitializationStatement": "call populate_tables();" // Optional statement to execute after running migrations
      }
    }
  },
  // ...
}

Register Services

The previous configuration will allow us to use the GetConnectionConfigurations extension method for IConfiguration to configure our DbConnectionFactory instance.

var builder = WebApplication.CreateBuilder(args);

// Register a DbConnectionFactory service with the required configurations taken from the application settings
builder.Services.AddDbConnectionFactory(serviceProvider =>
    {
      var configuration = serviceProvider.GetRequiredService<IConfiguration>();
      var connectionConfigurations = configuration.GetConnectionConfigurations("Database");
      
      return new DbConnectionFactory(dbConnectionConfigurations.ToArray());
    });

// Register repositories and configure their options
builder.Services
    .AddRepositories(options =>
    {
        // Configure default options for all repository types.
        // All settings are optional, they have default values to use if a custom value is not set.
        options.ConnectionKey = "Default";
        options.Schema = "public";
    
        options.Conventions.DateTimeOffsetFormat = DbDateTimeOffsetFormat.Utc;
    
        options.Conventions.Routines.DefaultType = DbRoutineType.StoredFunction;
        options.Conventions.Routines.Prefix = "sf_";
        options.Conventions.Routines.Casing = CaseConvention.LowerSnakeCase;
    
        options.Conventions.Parameters.Prefix = "p_";
        options.Conventions.Parameters.Casing = CaseConvention.LowerSnakeCase;
        options.Conventions.Parameters.FormatPlaceholder = (_, routineType, parameterName, _) =>
        {
            return routineType switch
            {
                DbRoutineType.StoredFunction => $"{parameterName} => @{parameterName}",
                _ => $"@{parameterName}"
            };
        };

        options.Conventions.Enums.ValueFormat = DbEnumFormat.Name;
    })
    .Using<IUserRepository, UserRepository>(options =>
    {
        options.Schema = "auth";
    })
    .WithColumnMapping(
        CaseConvention.LowerSnakeCase, // Database column names in lower_snake_case
        t => typeof(IEntity).IsAssignableFrom(t), // Apply this column mapping to entities implementing the fictitious IEntity interface
        Assembly.GetExecutingAssembly() // Scan types from the executing assembly
    )
    .WithTypeHandler(new DbDateOnlyTypeHandler()) // The fictitious DbDateOnlyTypeHandler must inherit from DbTypeHandler
    ;

// Configure more services and run the application...

Database Migrations

Optionally, you can use the DbManager class to run database migrations.

var builder = WebApplication.CreateBuilder(args);

// Configure the IDbConnectionFactory instance and other services...

builder.Services.AddSingleton<DbManager>();

// Configure more services and run the application...
public class SomeService
{
    private readonly DbManager _dbManager;
    
    public SomeService(DbManager dbManager)
    {
        // The dependency injection system will configure the DbManager instance using the previously registered IDbConnectionFactory object.
        _dbManager = dbManager;
    }
    
    public async Task RunMigrationsAsync(CancellationToken cancellationToken)
    {
        var results = await _dbManager.MigrateAsync(cancellationToken);
        // Do something with results
    }
}

Under the hood, this package uses the popular tool named Evolve, so you should follow the specifications from Evolve Concepts to create your migration files.

If you decide to take another approach or use another tool, you will need to take care of all the details to manage your database objects.

Unit Of Work

The class DbUnitOfWork implements the interface IUnitOfWork to create IDbTransaction objects from a given IDbConnection.

For example, to create an invoice, we may need to create two kinds of entities:

  • Invoice
    • InvoiceId
    • CustomerId
    • CreateDate
    • Total
    • Taxes
    • GrandTotal
  • InvoiceItem
    • InvoiceItemId
    • InvoiceId
    • ProductId
    • Quantity
    • Amount

A way of completing such operation from an application-level command handler could be:

public interface ISalesUnitOfWork : IUnitOfWork
{
    IInvoiceRepository InvoiceRepository { get; }
    IInvoiceItemRepository InvoiceItemRepository { get; }
}
public class SalesUnitOfWork : DbUnitOfWork, ISalesUnitOfWork
{
    private readonly IInvoiceRepository? _invoiceRepository;
    private readonly IInvoiceItemRepository? _invoiceItemRepository;
  
    public SalesUnitOfWork(IDbConnection connection) : base(connection)
    {
    }
  
    public IInvoiceRepository InvoiceRepository
        => _invoiceRepository ??= new InvoiceRepository(Transaction);
  
    public IInvoiceItemRepository InvoiceItemRepository
        => _invoiceItemRepository ??= new InvoiceItemRepository(Transaction);
}
public class CreateInvoiceCommandHandler
{
    private readonly IUnitOfWorkFactory _unitOfWorkFactory;
  
    public CreateInvoiceCommandHandler(IUnitOfWorkFactory unitOfWorkFactory)
    {
        _unitOfWorkFactory = unitOfWorkFactory;
    }
  
    public async Task<CreateInvoiceCommandResult> HandleAsync(CreateInvoiceCommand command, CancellationToken cancellationToken)
    {
        // Begin operation
        // IUnitOfWork inherits from IDisposable and IAsyncDisposable, if any exception is thrown, the current operation shall be rolled back
        await using var unitOfWork = _unitOfWorkFactory.Create<ISalesUnitOfWork>();

        var invoice = new Invoice();
        // Populate invoice object from properties of command object 
      
        // Create the Invoice entity
        var invoiceId = await unitOfWork.InvoiceRepository.CreateAsync(invoice, cancellationToken);
      
        // Create all the InvoiceItem entities
        foreach (var item in command.Items)
        {
            var invoiceItem = new InvoiceItem();
            // Populate invoiceItem object from properties of item object
          
            // Create each InvoiceItem entity
            await unitOfWork.InvoiceItemRepository.CreateAsync(invoiceItem, cancellationToken); 
        }

        // Commit the current operation      
        await unitOfWork.SaveAsync(cancellationToken);
      
        // Return the result of the operation
        return new CreateInvoiceCommandResult
        {
            InvoiceId = invoiceId
        };
    }
}
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Utility classes to create an interactive command line interface tool to perform database management tasks.

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4.2.0 137 5/26/2024
4.1.0 116 5/25/2024
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4.0.0 119 2/10/2024
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1.0.0 199 12/11/2023
0.8.0 150 11/29/2023
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0.4.3 139 11/10/2023
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0.3.0 131 11/10/2023
0.2.0 141 10/24/2023
0.1.0 131 10/24/2023