Customizing ASP.​NET Core Part 01: Logging

Update 2021-02-01

This series is pretty much outdated!

As asked by a reader, I compiled the entire series into a book and updated the contents to the latest version of ASP.NET Core. This book is now ready to get ordered on Amazon:

Customizing ASP.NET Core

Read here to learn more about the book

In this first part of the new blog series about customizing ASP.NET Core, I will show you how to customize the logging. The default logging only writes to the console or to the debug window. This is quite good for the most cases, but maybe you need to log to a sink like a file or a database. Maybe you want to extend the logger with additional information. In that cases you need to know how to change the default logging.

The series topics

Configure logging

In previous versions of ASP.NET Core (pre 2.0) the logging was configured in the Startup.cs. Since 2.0 the Startup.cs was simplified and a lot of configurations where moved to a default WebHostBuilder, which is called in the Program.cs. Also the logging was moved to the default WebHostBuilder:

public class Program
    public static void Main(string[] args)

    public static IWebHostBuilder CreateWebHostBuilder(string[] args) =>

In ASP.NET Core you are able to override and customize almost everything. So you can with the logging. The IWebHostBuilder has a lot of extension methods to override the default behavior. To override the default settings for the logging we need to choose the ConfigureLogging method. The next snippet shows exactly the same logging as it was configured inside the CreateDefaultBuilder() method:

    .ConfigureLogging((hostingContext, logging) =>

This method needs a lambda that gets a WebHostBuilderContext that contains the hosting context and a LoggingBuilder to configure the logging.

Create a custom logger

To demonstrate a custom logger, I created a small useless logger that is able to colorize log entries with an specific log level in the console. This so called ColoredConsoleLogger will be added and created using a LoggerProvider we also need to write by our own. To specify the color and the log level to colorize, we need to add a configuration class. In the next snippet all three parts (Logger, LoggerProvider and Configuration) are shown:

public class ColoredConsoleLoggerConfiguration
    public LogLevel LogLevel { get; set; } = LogLevel.Warning;
    public int EventId { get; set; } = 0;
    public ConsoleColor Color { get; set; } = ConsoleColor.Yellow;

public class ColoredConsoleLoggerProvider : ILoggerProvider
    private readonly ColoredConsoleLoggerConfiguration _config;
    private readonly ConcurrentDictionary<string, ColoredConsoleLogger> _loggers = new ConcurrentDictionary<string, ColoredConsoleLogger>();

    public ColoredConsoleLoggerProvider(ColoredConsoleLoggerConfiguration config)
        _config = config;

    public ILogger CreateLogger(string categoryName)
        return _loggers.GetOrAdd(categoryName, name => new ColoredConsoleLogger(name, _config));

    public void Dispose()

public class ColoredConsoleLogger : ILogger
	private static object _lock = new Object();
    private readonly string _name;
    private readonly ColoredConsoleLoggerConfiguration _config;

    public ColoredConsoleLogger(string name, ColoredConsoleLoggerConfiguration config)
        _name = name;
        _config = config;

    public IDisposable BeginScope<TState>(TState state)
        return null;

    public bool IsEnabled(LogLevel logLevel)
        return logLevel == _config.LogLevel;

    public void Log<TState>(LogLevel logLevel, EventId eventId, TState state, Exception exception, Func<TState, Exception, string> formatter)
        if (!IsEnabled(logLevel))

        lock (_lock)
            if (_config.EventId == 0 || _config.EventId == eventId.Id)
                var color = Console.ForegroundColor;
                Console.ForegroundColor = _config.Color;
                Console.WriteLine($"{logLevel.ToString()} - {eventId.Id} - {_name} - {formatter(state, exception)}");
                Console.ForegroundColor = color;

We need to lock the actual console output, because we will get some race conditions where wrong log entries get colored with the wrong color, because the console itself is not really thread save.

If this is done we can start to plug in the new logger to the configuration:


var config = new ColoredConsoleLoggerConfiguration
    LogLevel = LogLevel.Information,
    Color = ConsoleColor.Red
logging.AddProvider(new ColoredConsoleLoggerProvider(config));

If needed you are able to clear all the previously added logger providers. Than we call AddProvider to add a new instance of our ColoredConsoleLoggerProvider with the specific settings. We could also add some more instances of the provider with different settings.

This shows ho to handle different log levels in a a different way. You can use this to send an emails on hard errors, to log debug messages to a different log sink than regular informational messages and so on.

In many cases it doesn't make sense to write a custom logger because there are already many good third party loggers, like elmah, log4net and NLog. In the next section I'm going to show you how to use NLog in ASP.NET Core

Plug-in an existing Third-Party logger provider

NLog was one of the very first loggers, which was available as a .NET Standard library and usable in ASP.NET Core. NLog also already provides a Logger Provider to easily plug it into ASP.NET Core.

The next snippet shows a typical NLog.Config that defines two different sinks to log all messages in one log file and custom messages only into another file:

<?xml version="1.0" encoding="utf-8" ?>
<nlog xmlns=""

  <!-- Load the ASP.NET Core plugin -->
    <add assembly="NLog.Web.AspNetCore"/>

  <!-- the targets to write to -->
     <!-- write logs to file -->
     <target xsi:type="File" name="allfile" fileName="C:\git\dotnetconf\001-logging\nlog-all-${shortdate}.log"
                 layout="${longdate}|${event-properties:item=EventId.Id}|${logger}|${uppercase:${level}}|${message} ${exception}" />

   <!-- another file log, only own logs. Uses some ASP.NET core renderers -->
     <target xsi:type="File" name="ownFile-web" fileName="C:\git\dotnetconf\001-logging\nlog-own-${shortdate}.log"
             layout="${longdate}|${event-properties:item=EventId.Id}|${logger}|${uppercase:${level}}|  ${message} ${exception}|url: ${aspnet-request-url}|action: ${aspnet-mvc-action}" />

     <!-- write to the void aka just remove -->
    <target xsi:type="Null" name="blackhole" />

  <!-- rules to map from logger name to target -->
    <!--All logs, including from Microsoft-->
    <logger name="*" minlevel="Trace" writeTo="allfile" />

    <!--Skip Microsoft logs and so log only own logs-->
    <logger name="Microsoft.*" minlevel="Trace" writeTo="blackhole" final="true" />
    <logger name="*" minlevel="Trace" writeTo="ownFile-web" />

We than need to add the NLog ASP.NET Core package from NuGet:

dotnet add package NLog.Web.AspNetCore

(Be sure you are in the project directory before you execute that command)

Now you only need to add NLog in the ConfigureLogging method in the Program.cs

logging.AddProvider(new NLogLoggerProvider());

The first line configures NLog to use the previously created NLog.Config and the second line adds the NLogLoggerProvider to the list of logging providers. Here you can add as many logger providers you need.


The good thing of hiding the basic configuration is only to clean up the newly scaffolded projects and to keep the actual start as simple as possible. The developer is able to focus on the actual features. But the more the application grows the more important is logging. The default logging configuration is easy and it works like charm, but in production you need a persisted log to see errors from the past. So you need to add a custom logging or a more flexible logger like NLog or log4net.

To learn more about ASP.NET Core configuration have a look into the next part of the series: Customizing ASP.NET Core Part 02: Configuration.''