Mellon-MultiTenant-ConfigServer 1.1.46-alpha

This is a prerelease version of Mellon-MultiTenant-ConfigServer.
There is a newer version of this package available.
See the version list below for details.
dotnet add package Mellon-MultiTenant-ConfigServer --version 1.1.46-alpha                
NuGet\Install-Package Mellon-MultiTenant-ConfigServer -Version 1.1.46-alpha                
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="Mellon-MultiTenant-ConfigServer" Version="1.1.46-alpha" />                
For projects that support PackageReference, copy this XML node into the project file to reference the package.
paket add Mellon-MultiTenant-ConfigServer --version 1.1.46-alpha                
#r "nuget: Mellon-MultiTenant-ConfigServer, 1.1.46-alpha"                
#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 Mellon-MultiTenant-ConfigServer as a Cake Addin
#addin nuget:?package=Mellon-MultiTenant-ConfigServer&version=1.1.46-alpha&prerelease

// Install Mellon-MultiTenant-ConfigServer as a Cake Tool
#tool nuget:?package=Mellon-MultiTenant-ConfigServer&version=1.1.46-alpha&prerelease                

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Mellon.MultiTenant by @PubDev

Package Version Alpha
Mellon.MultiTenant Nuget Nuget
Mellon.MultiTenant.Base Nuget Nuget
Mellon.MultiTenant.ConfigServer Nuget Nuget
Mellon.MultiTenant.Azure Nuget Nuget
Mellon.MultiTenant.Hangfire Nuget Nuget

Downloads GitHublicense CI

Why Mellon, mellon is the Sindarin (and Noldorin) word for "friend", yes I'm a big fan of LoR, so let's be friends?

About The Project

This library was created to supply a set of tools to enable the creation of multi-tenant applications using .net.

Built With

Getting Started

Installation

With package Manager:

Install-Package Mellon.MultiTenant

With .NET CLI:

dotnet add package Mellon.MultiTenant

Configurations

There are two ways to configure the settings, via config and through the api

Settings
"MultiTenant": {
    "ApplicationName": "customer-api",
    "HttpHeaderKey": "x-tenant-name",
    "CookieKey": "tenant-name",
    "QueryStringKey": "tenant-name",
    "TenantSource": "Settings",
    "SkipTenantCheckPaths": ["^/swagger.*"],
    "Tenants": [
      "client-a",
      "client-b",
      "client-c"
    ]
}
Property Description Default
ApplicationName Application name IHostEnvironment.ApplicationName
HttpHeaderKey HTTP Header key, where the tenant name will be passed null
CookieKey HTTP Cookie key, where the tenant name will be passed null
QueryStringKey HTTP Query String key, where the tenant name will be passed null
TenantSource Where the list of possible tenants will be stored, it can be from two sources: Settings or EnvironmentVariables Settings
Tenants When the property TenantSource is set to Settings this property must contain the list of tenants null
WithDefaultTenant When the tenant is not defined by the caller the lib will set the tenant as the tenant defined within this property, use it just when actually needed ๐Ÿ˜‰๐Ÿ‘ null
SkipTenantCheckPaths Endpoints which the tenant do not need to be identified, for example: Swagger endpoints, you can use a regex string ^/swagger.* null

When TenantSource is set to EnvironmentVariables it will get the tenant list from the environment variable MULTITENANT_TENANTS, this environment variable must contain the list of possible tenants in a single string, separating the tenants using , for example:

$Env:MULTITENANT_TENANTS = 'client-a,client-b,client-c'

Using the API

You can also set the settings using these options while you are adding the services

builder.Services
        .AddMultiTenant(options =>
            options
                .WithApplicationName("customer-api")
                .WithHttpHeader("x-tenant-name")
                .WithCookie("tenant-name")
                .WithQueryString("tenant-name")
                .WithDefaultTenant("client-a")
                .LoadFromSettings()
        );
WithApplicationName(string)
  • Set the application name
WithHttpHeader(string)
  • Set the HTTP Header key, where the tenant name will be passed
WithCookie(string)
  • Set the HTTP Cookie key, where the tenant name will be passed
WithQueryString(string)
  • Set the HTTP Query String key, where the tenant name will be passed
WithDefaultTenant(string)
  • Set for when the tenant is not defined by the caller the lib will set the tenant as the tenant defined within this property, use it just when needed ๐Ÿ˜‰๐Ÿ‘

WithSkipTenantCheckPaths(string)

  • Add a path that will be skipped during the tenant identification

WithSkipTenantCheckPaths(params string[])

  • Add paths that will be skipped during the tenant identification
LoadFromSettings
  • Set for when the tenant list will be loaded from the settings MultiTenant:Tenants
LoadFromEnvironmentVariable
  • Set for when the tenant list will be loaded from the environment variable MULTITENANT_TENANTS
LoadFromEndpoint(Func<EndpointSettings, IConfiguration, string[]> func) and LoadFromEndpoint<T>(Func<T, string> func)
  • Define a Func or pass a type to define how the tenant list will be loaded from a http endpoint, to make it work you need to pass a new set of properties on the app settings
"MultiTenant": {
    // other settings...
    "Endpoint": {
      "Url": "[endpoint]",
      "Method": "GET",
      "Authorization": "Basic $user $password"
    },
    // other settings...
}

If the endpoint has authorization you can set the credencials on the property Authorization

You can pass the Func and do what you see fit when getting the list of tenants

Example:

services
    .AddMultiTenant(options => options.LoadFromEndpoint((endpointOptions, configuration) =>
        {
            var request = new HttpRequestMessage()
            {
                RequestUri = new Uri(endpointOptions.Url),
                Method = new HttpMethod(endpointOptions.Method),
            };

            if (!string.IsNullOrEmpty(endpointOptions.Authorization))
            {
                request.Headers.Add("Authorization", endpointOptions.Authorization);
            }

            using (var client = new HttpClient())
            {
                var result = client.Send(request);

                if (result.IsSuccessStatusCode)
                {
                    var data = result.Content.ReadFromJsonAsync<IEnumerable<Tenant>>().GetAwaiter().GetResult();

                    return data!.Select(x => x.Id).ToArray();
                }
                else
                {
                    var statusCode = result.StatusCode;

                    var reason = result.ReasonPhrase;

                    var content = result.Content.ReadAsStringAsync().GetAwaiter().GetResult();

                    throw new Exception($@"Error to load tenants from the url {endpointOptions.Url} StatusCode: {statusCode} Reason: {reason} Content: {content}");
                }
            }
        }));

Or if your use case does not require customization you can just call the other method, Which behind the scene does basically a http request to the endpoint set on the Endpoint settings, respecting the Url, Method and Authorization

Example:

services
    .AddMultiTenant(options => options.LoadFromEndpoint<Tenant>(x => x.TenantId));
WithHttpContextLoad(Func<HttpContext, string> func)
  • When all the possibilities above do not meet your need you can create a custom "Middleware" to identify the tenant based on a HttpContext
WithCustomTenantConfigurationSource<T>()
  • T must be an implementation of the interface ITenantConfigurationSource use it to define new a source of configurations for the tenants, for example, if the tenant settings are stored on XML files you could create something like this:
public class LocalXmlTenantSource : ITenantConfigurationSource
{
    private readonly IHostEnvironment _hostEnvironment;

    public LocalTenantSource(
        IHostEnvironment hostEnvironment)
    {
        _hostEnvironment = hostEnvironment;
    }

    public IConfigurationBuilder AddSource(
        string tenant,
        IConfigurationBuilder builder)
    {
        builder.AddXmlFile($"appsettings.{tenant}.xml", true);
        builder.AddXmlFile($"appsettings.{tenant}.{_hostEnvironment.EnvironmentName}.xml", true);

        return builder;
    }
}

Local

This is the default source of settings for the tenants, there is no need to enable it, it will search for the settings on the application following this pattern:

  • appsettings.{tenant}.json
  • appsettings.{tenant}.{_hostEnvironment.EnvironmentName}.json

It is also worth mentioning that the configurations will also contain:

  • appsettings.json
  • appsettings.[environment].json
  • environment variables

Spring Cloud Config

You can also load the settings from a Spring Cloud Config Server!

To enable the usage you need to install an extra package:

With package Manager:

Install-Package Mellon.MultiTenant.ConfigServer

With .NET CLI:

dotnet add package Mellon.MultiTenant.ConfigServer

Once the package is installed you need to configure its services

builder.Services
        .AddMultiTenant()
        .AddMultiTenantSpringCloudConfig();

To setup Spring Cloud Config on your environment check this reporitory DotNet-ConfigServer

The application name for spring cloud config will be based on the settings MultiTenant.ApplicationName and the label will be tenant name.

Example: customer-api-client-a.yaml

being:

  • customer-api the application name
  • client-a the tenant name

Moreover, it is worth mentioning that the settings for each customer will also have the settings of the current files:

  • appsettings.json
  • appsettings.[environment].json
  • environment variables

Azure App Configuration

You can also use it as a source of configuration the Azure App Configuration

With package Manager:

Install-Package Mellon.MultiTenant.Azure

With .NET CLI:

dotnet add package Mellon.MultiTenant.Azure

Once the package is installed you need to configure its services

builder.Services
        .AddMultiTenant()
        .AddMultiTenantAzureAppConfiguration();
AddMultiTenantAzureAppConfiguration(Action<AzureMultiTenantOptions> action = null)

if the action is not passed, the connection string used to connect on azure will be loaded from AzureAppConfigurationConnectionString

if you want to elaborate more, on how you are going to connect on Azure, you can use the AzureMultiTenantOptions, there is a property, which is a Func<IServiceProvider, string, Action<AzureAppConfigurationOptions>>, where the first parameter is the ServiceProvider, where you can extract the services; a string, being the tenant name; and the return of this Func must be an Action<AzureAppConfigurationOptions>. For example:

builder.Services
        .AddMultiTenant()
        .AddMultiTenantAzureAppConfiguration(options =>
            options.AzureAppConfigurationOptions = (serviceProvider, tenant) =>
            {
                var configuration = serviceProvider.GetRequiredService<IConfiguration>();

                return azureOptions => azureOptions
                    .Connect(configuration["AzureAppConfigurationConnectionString"])
                    .Select("*", tenant);
            }
        );

Hangfire

If you need to work with jobs with the concept of multi-tenant using Hangfire

To enable the usage you need to install an extra package:

With package Manager:

Install-Package Mellon.MultiTenant.Hangfire

With .NET CLI:

dotnet add package Mellon.MultiTenant.Hangfire

Once the package is installed you need to configure its services

builder.Services
        .AddMultiTenant()
        .AddMultiTenantHangfire();

And when adding the Service AddHangfire you need to call the method UseMultiTenant passing the IServiceProvider

builder.Services.AddHangfire((serviceProvider, config) =>
{
    // some code
    config.UseMultiTenant(serviceProvider);
    // some code
});

To create the Worker, you need to pass the queues with the tenant names

builder.Services.AddHangfireServer((serviceProvider, config) =>
{
    var multiTenantSettings = serviceProvider.GetRequiredService<MultiTenantSettings>();

    var queues = new List<string>(multiTenantSettings.Tenants);

    // if you want to add more queues
    queues.Add("cron");
    queues.Add("default");
    config.Queues = tenants.ToArray();

    // some code
});

For ScheduleJobs and BackgroundJob the queue name will be the tenant name

For RecurringJobs the default queue could vary from job to job

RecurringJobs ๐Ÿ—“๏ธ

To create Recurring Jobs you just need to use the interface IMultiTenantRecurringJobManager, this interface will have the following methods and extension methods:

AddOrUpdateForAllTenants<T>(string recurringJobId,Expression<Func<T, Task>> methodCall, string cronExpression, TimeZoneInfo timeZone = null,string queue = "default")

It will create a recurring job from the type T.Method for all the tenants

AddOrUpdateForAllTenants(string recurringJobId, Job job, string cronExpression, TimeZoneInfo timeZone)

It will create a recurring job for all the tenants

AddOrUpdate<T>(string recurringJobId,Expression<Func<T, Task>> methodCall, string cronExpression, TimeZoneInfo timeZone = null,string queue = "default")

It will create a recurring job from the type T.Method for the current tenant

AddOrUpdate(string recurringJobId, Job job, string cronExpression, TimeZoneInfo timeZone)

It will create a recurring job for the current tenant

RemoveIfExistsForAllTenants(string recurringJobId)

It will remove the recurring job for all the tenants

RemoveIfExists(string recurringJobId)

It will remove the recurring job for the current tenants

TriggerForAllTenants(string recurringJobId)

It will enqueue the recurring job for all the tenants

Trigger(string recurringJobId)

It will enqueue the recurring job for the current tenants

Background Jobs โš™๏ธ

To create Background Jobs you just need to use the interface IMultiTenantBackgroundJobManager, this interface will have the following methods and extension methods:

EnqueueForAllTenants(Expression<Action> methodCall)

It will enqueue a job execution for all the tenant, sending the jobs for a queue with the tenant's name, the return object with consist in a list containing the tenant and the JobId created for that tenant

EnqueueForAllTenants(Expression<Func<Task>> methodCall)

It will enqueue a job execution for all the tenant, sending the jobs for a queue with the tenant's name, the return object with consist in a list containing the tenant and the JobId created for that tenant

EnqueueForAllTenants<T>(Expression<Action<T>> methodCall)

It will enqueue a job execution of type T.Method for all the tenant, sending the jobs for a queue with the tenant's name, the return object with consist in a list containing the tenant and the JobId created for that tenant

EnqueueForAllTenants<T>(Expression<Func<T, Task>> methodCall)

It will enqueue a job execution of type T.Task<Method> for all the tenant, sending the jobs for a queue with the tenant's name, the return object with consist in a list containing the tenant and the JobId created for that tenant

Enqueue(Expression<Action> methodCall)

It will enqueue a job execution for the current tenant, sending the job for a queue with the tenant's name, the return the jobId

Enqueue(Expression<Func<Task>> methodCall)

It will enqueue a job execution for the current tenant, sending the job for a queue with the tenant's name, the return the jobId

Enqueue<T>(Expression<Action<T>> methodCall)

It will enqueue a job execution of type T.Method for the current tenant, sending the job for a queue with the tenant's name, the return the jobId

Enqueue<T>(Expression<Func<T, Task>> methodCall)

It will enqueue a job execution of type T.Task<Method> for the current tenant, sending the job for a queue with the tenant's name, the return the jobId

Schedule Jobs โŒš

To Schedule Jobs you just need to use the interface IMultiTenantBackgroundJobManager, this interface will have the following methods and extension methods:

ScheduleForAllTenants(Expression<Action> methodCall, TimeSpan delay)

It will Schedule a job execution for all the tenant, sending the jobs for a queue with the tenant's name, the return object with consist in a list containing the tenant and the JobId Scheduled for that tenant

ScheduleForAllTenants((Expression<Func<Task>> methodCall, TimeSpan delay)

It will Schedule a job execution for all the tenant, sending the jobs for a queue with the tenant's name, the return object with consist in a list containing the tenant and the JobId Scheduled for that tenant

ScheduleForAllTenants<T>(Expression<Action<T>> methodCall, TimeSpan delay)

It will Schedule a job execution of type T.Method for all the tenant, sending the jobs for a queue with the tenant's name, the return object with consist in a list containing the tenant and the JobId Scheduled for that tenant

ScheduleForAllTenants<T>(Expression<Func<T, Task>> methodCall, TimeSpan delay)

It will Schedule a job execution of type T.Task<Method> for all the tenant, sending the jobs for a queue with the tenant's name, the return object with consist in a list containing the tenant and the JobId Scheduled for that tenant

Schedule(Expression<Action> methodCall, TimeSpan delay)

It will Schedule a job execution for the current tenant, sending the job for a queue with the tenant's name, returning the Scheduled JobId

Schedule(Expression<Func<Task>> methodCall, TimeSpan delay)

It will enqueue a job execution for the current tenant, sending the job for a queue with the tenant's name, returning the Scheduled JobId

Schedule<T>(Expression<Action<T>> methodCall, TimeSpan delay)

It will enqueue a job execution of type T.Method for the current tenant, sending the job for a queue with the tenant's name, returning the Scheduled JobId

Schedule<T>(Expression<Func<T, Task>> methodCall, TimeSpan delay)

It will enqueue a job execution of type T.Task<Method> for the current tenant, sending the job for a queue with the tenant's name, returning the Scheduled JobId

Usage / Samples

You can find some examples of how to use this library in the folder /samples with WebApi and Hangfire examples

Web API

To enable it on your api you first need to add the services:

builder.Services.AddMultiTenant();

then you need also to register the middleware used to identify the tenant based on the HttpContext

app.UseMultiTenant();

Once that is done you will be able to use the interface IMultiTenantConfiguration, this interface will behave the same as the IConfiguration interface, but contain only the current tenant settings:

Example:

app.MapGet("/", (IMultiTenantConfiguration configuration) =>
{
    return new
    {
        Tenant = configuration.Tenant,
        Message = configuration["Message"],
    };
});

EF Core Migrations:

To use it with EF Core is quite simple, you need to use the interface IMultiTenantConfiguration as mentioned above to setup your EF Context

Setup
builder.Services.AddDbContext<DataBaseContext>(
    (IServiceProvider serviceProvider, DbContextOptionsBuilder options) =>
    {
        var configuration = serviceProvider.GetRequiredService<IMultiTenantConfiguration>();

        options.UseSqlServer(configuration?["ConnectionStrings:DefaultConnection"]);
    });
Migrations

To apply the migrations, you only need to do this:

var tenants = app.Services.GetRequiredService<MultiTenantSettings>();

foreach (var tenant in tenants.Tenants)
{
    using (var scope = app.Services.CreateScope())
    {
        var tenantSettings = scope.ServiceProvider.GetRequiredService<TenantSettings>();

        tenantSettings.SetCurrentTenant(tenant);

        var db = scope.ServiceProvider.GetRequiredService<DataBaseContext>();

        await db.Database.MigrateAsync();
    }
}

app.Run();

Extras

We know that settings can be changed all the time, but to get our applications running on with the latest settings we need to restart the application, it caused downtime and it's not very practical. Keeping that in mind, we added also an endpoint that when called will refresh all the settings for all the tenants or a specific tenant:

  • /refresh-settings
  • /refresh-settings/{tenantName}

PS: this will work only with AzureAppConfiguration and SpringCloudConfig

Roadmap

  • Add unit tests ๐Ÿงช
  • Add new Config Source
  • Load the Tenants from a web-api request
  • Enable the usage with HangFire
  • Update documentation with new features

See the open issues for a full list of proposed features (and known issues).

Contributing

Contributions are what make the open source community such an amazing place to learn, inspire, and create. Any contributions you make are greatly appreciated.

If you have a suggestion that would make this better, please fork the repo and create a pull request. You can also simply open an issue with the tag "enhancement". Don't forget to give the project a star! Thanks again!

  1. Fork the Project
  2. Create your Feature Branch (git checkout -b feature/AmazingFeature)
  3. Commit your Changes (git commit -m 'Add some AmazingFeature')
  4. Push to the Branch (git push origin feature/AmazingFeature)
  5. Open a Pull Request

Contact

  • Humberto Rodrigues - @1bberto - humberto_henrique1@live.com
  • Rafael Nagai - @naganaga - rafakenji23@gmail.com

Project Page: https://pub-dev.github.io/Mellon.MultiTenant

Product Compatible and additional computed target framework versions.
.NET net7.0 is compatible.  net7.0-android was computed.  net7.0-ios was computed.  net7.0-maccatalyst was computed.  net7.0-macos was computed.  net7.0-tvos was computed.  net7.0-windows was computed.  net8.0 was computed.  net8.0-android was computed.  net8.0-browser was computed.  net8.0-ios was computed.  net8.0-maccatalyst was computed.  net8.0-macos was computed.  net8.0-tvos was computed.  net8.0-windows was computed. 
Compatible target framework(s)
Included target framework(s) (in package)
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