I am working to get my .net core 1.1 application working behind a load balancer and enforcing https. I have the following setup in my Startup.cs

public void Configure(IApplicationBuilder app, IHostingEnvironment env, ILoggerFactory loggerFactory, IServiceProvider serviceProvider, IOptions<Auth0Settings> auth0Settings)

    var startupLogger = loggerFactory.CreateLogger<Startup>();

    if (env.IsDevelopment())
        startupLogger.LogInformation("In Development");
        startupLogger.LogInformation("NOT in development");

    app.UseForwardedHeaders(new ForwardedHeadersOptions
        ForwardedHeaders = ForwardedHeaders.XForwardedFor | ForwardedHeaders.XForwardedProto
        app.UseCookieAuthentication(new CookieAuthenticationOptions
            AuthenticationScheme= CookieAuthenticationDefaults.AuthenticationScheme,
            AutomaticAuthenticate = true,
            AutomaticChallenge = true,
            CookieHttpOnly = true,
            SlidingExpiration = true

The HttpsRedirectMiddleware is for validating the LB has the X-Forwarded-Proto set, it does, and comes back as https as the only value. When I go to the site (https://myapp.somedomain.net), it knows I am not authenticated and redirects me to (http://myapp.somedomain.net/Account/Logon?ReturnUrl=%2f). It loses the SSL connection and switched back over to port 80 on me. The .net core documentation says to use "UseForwardedHeaders" like below, which does not work in my case. The console logger does not have any error or warnings from the middleware when this switch happens.

For a short term fix, I have put this below "UseForwardedHeaders"

    app.Use(async (context, next) =>
        var xproto = context.Request.Headers["X-Forwarded-Proto"].ToString();
        if (xproto!=null && xproto.StartsWith("https", StringComparison.OrdinalIgnoreCase)){
            startupLogger.LogInformation("Switched to https");
            context.Request.Scheme = "https";
        await next();


The above works perfect, but is a hack. I would like to do it the correct way.

  • I do not fully understand the implication of clearing the networks, but after banging my head against the desk for a day trying to get a sample application running with SSL on AppHarbor this did the trick. I imagine there is a way to check the network behind the load balancer and use that as the known network when the application starts, but at least I know it has the potential to work. Thanks! – Vale Trujillo Jun 7 '17 at 23:14
  • 1
    Clearing the networks tells your application that you are ok with anyone connecting over port 80 and using the xforwarded headers which would mean it is not encrypted and could be used to force a MiTM(Main in the Middle) attack. If your firewalls are setup to only allow https(433) traffic, you should be fine, but security minded people always like extra layers of protection. Software now is being required to be secure out of the box to prevent default configuration setup attacks, thus the default in .net core. – Josh Jun 8 '17 at 14:29
up vote 23 down vote accepted

.net Core has a default set for the forwarded headers. It defaults to, for IIS integration. After tracking down the source code, you can clear the Known Networks and Known Proxies to accept any forwarded requests. Still best to have a firewall setup or lock the known networks down to a private subnet.

var forwardingOptions = new ForwardedHeadersOptions()
    ForwardedHeaders = ForwardedHeaders.XForwardedFor | ForwardedHeaders.XForwardedProto
forwardingOptions.KnownNetworks.Clear(); //its loopback by default
  • +1000 for digging in the source code. Thank you! Your answer helped me a lot! – Mohammed Noureldin Jan 7 at 3:45
  • Absolutely. Those Clear() lines made the difference for us. – mrblewog May 22 at 14:28
  • @SunilBuddala You would still need to setup the KnownNetworks or KnownProxies unless you followed the NGinx tutorial which would make the site appear to be hosted similar to the IISIntegration option. – Josh Nov 8 at 13:30

If you are using a load balancer, it is common to have the load balance terminate the SSL connection and send the request to your application over HTTP.

This worked for me. I am using SSL termination on AWS Load Balancer.

app.UseForwardedHeaders(new ForwardedHeadersOptions
    ForwardedHeaders = ForwardedHeaders.XForwardedProto

What this does is updates the Request.Scheme with the X-Forwarded-Proto header so that all redirects link generation uses the correct scheme.

X-Forwarded-Proto: The scheme from the original client and proxies.

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