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IdentityServer3Okta.md

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Using AuthServices with IdentityServer3 and Okta

Kentor AuthServices can be used very effectively to extend the functionality of IdentityServer3 by adding support for SAML-based identity providers, such as Okta and OneLogin. This example will show how to add Okta as an identity provider to IdentityServer3 using the Kentor AuthServices package.

Step 0 - Establish your own identity server using IdentityServer3

This article assumes that you already have your own identity server project set up and that it uses IdentityServer3. If you haven't, check out the documentation and samples for that project and then come back here when you have a working identity server.

Step 1 - Add the NuGet package to your identity server

The package you need is Kentor.AuthServices.Owin. Install that to the project where you have IdentityServer3 established.

We'll add the necessary configuration to establish the Okta identity provider in identity server later, after we've set up the application within Okta.

Step 2 - Configure an Application within Okta

If you don't already have an instance of Okta (or don't have access to one with admin / configuration privileges), you can create a developer instance. Ultimately, you will want to add an "Application" to this instance. Add one, and give it some kind of name, and you will get to the important part of configuring the application. I've included a screenshot below with its "Show Advanced Settings" selected, and highlighted the 6 important parts of the configuration. I'll explain each one in turn.

Okta options

Item Explanation
Single sign-on URL (A) This is the Assertion Consumer Service (ACS) endpoint within the application. In our case, this is the core endpoint of the app, plus “/AuthServices/Acs”. So if your Identity Server is at https://id.local/identity, then your value here would be “https://id.local/identity/AuthServices/Acs”.
Audience URI (B) This should be the metadata URL of the audience (in this case, your identity server's SAML metadata), so use the ACS endpoint minus the ACS. Carrying forward the example, this would be https://id.local/identity/AuthServices.
Name ID Format (C) This will be the Okta username for any of your users. I chose the X509SubjectName with Okta UserName. I’m assuming that you’ve probably got some kind of custom user service within Identity Server to get your own claims – or even if you don’t, you have the “Users” object defined with some hard coded users or something. What you need to be able to do is determine YOUR username from something that Okta can pass back to you for THEIR username. Choose from the available options, knowing that you may need to translate it a bit to get to your username.
Request Compression (E) Change this to Compressed. If you don't, you'll get a "Bad Request" error from within Okta. Working with their support team provided this resolution.
SAML Issuer ID (F) This has a default value of http://www.okta.com/${org.externalKey} and ${org.externalKey} is the application id that Okta creates for you. I left this alone, which means that the Issuer ID will be in the form http://www.okta.com/. You can see what your app id is by saving your configuration, and then choosing the “View Setup Instructions” option and reviewing the Identity Provider Issuer value. We will need that later.

Step 3 - Configure your identity server with the new identity provider

Most of what you need to do is pretty easily seen by just looking at the code below along with the comments that simply refer back to the Okta configuration points in Step 2.

Metadata: You will need to provide the "metadata URL" in the code below. To get this, you can look at the "Sign On" tab within the Okta application configuration area, and right-click the "Identity Provider metadata" link and copy the URL.

public class Startup
    {
        public void Configuration(IAppBuilder app)
        {
            var options = Helpers.GetIdentityServerOptions(); // this is just a helper function where we specify our IdSrv3 options
            options.AuthenticationOptions = new AuthenticationOptions
            {
                IdentityProviders = ConfigureIdentityProviders
            };

            app.UseCookieAuthentication(new CookieAuthenticationOptions());
            app.SetDefaultSignInAsAuthenticationType(CookieAuthenticationDefaults.AuthenticationType);
            app.Map("/identity", idsrvApp =>
            {
                idsrvApp.UseIdentityServer(options);
            });
        }

        public static void ConfigureIdentityProviders(IAppBuilder app, string signInAsType)
        {                  
            var authServicesOptions = new KentorAuthServicesAuthenticationOptions(false)
            {
                SPOptions = new SPOptions
                {
				    AuthenticateRequestSigningBehavior = SigningBehavior.Never // or add a signing certificate
                    EntityId = new EntityId("<okta Audience URI>") // from (B) above
                },
                SignInAsAuthenticationType = signInAsType,
                AuthenticationType = "okta", // this is the "idp" - identity provider - that you can refer to throughout identity server
                Caption = "Okta",  // this is the caption for the button or option that a user might see to prompt them for this login option             
            };
            
            authServicesOptions.IdentityProviders.Add(new IdentityProvider(
                new EntityId("<OktaIssuerUri>"), authServicesOptions.SPOptions)  // from (F) above
            {
                LoadMetadata = true,
                MetadataUrl = new Uri("https://<OktaInstance>/app/<OktaAppId>/sso/saml/metadata") // see Metadata note above
            });
            
            app.UseKentorAuthServicesAuthentication(authServicesOptions);            
        }
    }

NOTE regarding the "AuthenticateRequestSigningBehavior" above: Okta sets a value in their metadata that specifies WantAuthnRequestsSigned="true", which means that AuthServices will try to sign outgoing AuthN requests. The code above does work -- the "Want" doesn't imply "Require". To actually honor the request, though and enable signing, you need to go a step further:

To enable signing, call authServicesOptions.ServiceCertificates.Add(new ServiceCertificate { ... }) to configure the certificate AuthServices should use for signing. That certificate should be something that you have generated on your end, where you have a private key. If you don't have that already, I'd suggest going with the SigningBehavior.Never option.

Step 4 - Try it out!

Logging in with Okta through your identity server should work at this point. Cheers!

Step 5 - Set up IdP-Initiated support

This is an optional but very nice and (I think) important step that will enable Okta users to login to your site by clicking on the "app" icon on their Okta Dashboard. The process involves setting up the Kentor options to "allow unsolicited response", setting up a redirect page on your target site (not identity server), and specifying that in the Kentor settings. Explanations follow.

The first step is to configure the AuthServices/Acs endpoint to allow for unsolicited responses. To do this, modify the code snippet where you are adding IdentityProviders to include the AllowUnsolictedAuthnResponse = true line shown below.

			authServicesOptions.IdentityProviders.Add(new IdentityProvider(
                new EntityId(oktaEntityId), authServicesOptions.SPOptions)
            {
                LoadMetadata = true,
                MetadataUrl = new Uri(oktaMetadataUrl),
                AllowUnsolicitedAuthnResponse = true
            });

Now you need to set up your target website (not IdentityServer3) to have a page that will simply turn around and redirect to your identity server with an authorize request.

I set up a new page in my webforms site call "IdP_InitiatedRedirect" and required an "idp" query string value in case I want to use other SAML IdP's. Then in the SPOptions setup, you add the URL for the "ReturnUrl" property as shown below:

				SPOptions = new SPOptions
                {
                    EntityId = new EntityId(serviceProviderEntityId),
                    ReturnUrl = new Uri("https://yoursite.com/Idp_InitiatedRedirect.aspx?idp=okta")
                }, 

The only thing left is to code the logic on your redirect page to make an authorize request to your identity server. You should already have a reference to the IdentityModel.Client package, so then you can write some code that looks like this:

		protected void Page_Load(object sender, EventArgs e)
        {
            var idp = Request.QueryString["idp"];
            if (string.IsNullOrEmpty(idp))
                throw new Exception("No idp included in redirect querystring!!");

            var scopesForAuth = "<the scopes for your application>";
            var state = Guid.NewGuid().ToString("N");
            var nonce = Guid.NewGuid().ToString("N");
            var client = new OAuth2Client(new Uri("https://<youridentityserver>" + "/connect/authorize"));

            var returnUrlForOkta = client.CreateAuthorizeUrl("<youridserverclientid", "id_token token", scopesForAuth, 
                "https://yoursite.com/yourreallogintarget"), 
                state, nonce, acrValues: string.Format("idp:{0}", idp), responseMode: "form_post");

            Response.Redirect(returnUrlForOkta, false);
        }

Once you have all of that in place, you should be able to click the app button on the Okta dashboard and successfully log in to your website through IdentityServer3!

Step 6 - Enable multiple Okta instances (multi-tenant / multiple independent Okta IdPs)

If you only have a single Okta instance to enable, you don't need to perform this step. But often, implementations of IdSrv3 find themselves wanting to provide SSO services to multiple Okta instances. Doing this tweaks our approach a little, so read on...

By way of background, when an AuthN request comes in to the IdentityServer3/Kentor pipeline, the package middleware needs to determine where to forward the request -- this amounts to an EXACT URL -- which is not only different for each Okta client, but also different for each application within Okta. And this logic needs to be applied for both standard AuthN requests from your website, AND for the IdP-Initiated Redirect process described above.

Whether the above fully makes sense to you or not, the net effect is that you really should be setting up new instances of the AuthServices middleware for each Okta tenant you have. This approach led me to a little refactoring of the above code -- other appproaches are definitely valid, but shown below is some code that works.

There is both Okta configuration that needs to be done for each instance of Okta, and then a follow-up set of config within your IdentityServer that will need to be done.

The basic steps in the process for setting up each instance (including editing your single instance) are as follows:

  • Identify the idpName and description you will use for the instance in question
  • Configure the app within Okta with the single-sign-on URL based on the instance name and the other Okta config options laid out in step 2 above
  • Get the entity id and metadata URL that were generated by the Okta configuration step above
  • Configure a new instance of AuthServices middleware within IdSrv3 based on all of the above info

1. Identify the idpName and description you will use for the instance in question

For this, just consider your instance and make up two values that make sense. By way of example, to be "Okta Verified", you need to support their "Okta Application Network" testing instance. To set up an IdP name and description for this, I just chose "okta-oan" for the idp name, and "Okta-OAN" for the description. It could be anything -- it just needs to be unique to that instance within your setup. We'll see in both the Okta and middleware configuration how this is important.

2. Configure the app within Okta with the single-sign-on URL based on the instance name and

the other Okta config options laid out in step 2 above All of the Okta configuration options in Step 2 above are still valid - with the one exception being the Single Sign On URL. This is because there is no longer a single "Kentor" endpoint within your identity server -- there will be multiple: one for each Okta instance you have.

So this value will use the idpName you came up with in the previous step. The idpname replaces "Kentor" from version 1 of this configruation: https://id.local/identity/{idpName}/Acs. If we continue our example of "okta-oan" as an idp name, we would have: https://id.local/identity/okta-oan/Acs.

3. Get the entity id and metadata URL that were generated by the Okta configuration step above

This will be the same way you got the entity id and metadata URL from Step 2 above, but may involve you requesting it from an Okta administrator of the instance you are trying to set up. The values look something like this:

entity id: http://www.okta.com/exk4yxtgy7ZzSDp8e0h7

metadata URL: https://dev-490944.oktapreview.com/app/exk4yxtgy7ZzSDp8e0h7/sso/saml/metadata

Note that even though the entity id does NOT refer to the okta instance you are setting up, the app id inside it (exk...) is unique to the okta instance, so the entity id will indeed be different for each instance.

4. Configure a new instance of AuthServices middleware within IdSrv3 based on all of the above info

The 4 basic code components in the approach are (feel free to edit -- but at least you can see the approach):

  • a GetOkta{instance}Options method for each instance (where you place the configuration unique to each instance)
  • a single GetOktaIdentityProvider method (configures entity id and metadata url based on inputs)
  • a single GetCoreOktaOptions method (sets up the options common to each instance, and sets the module path based on input param)
  • an app.UseKentorAuthServicesAuthentication() call for each of your supported Okta instances (make sure you actually add the instance to the pipeline)

The following code I put in a static class called Helpers-Okta and shows the first three code components above:

internal static KentorAuthServicesAuthenticationOptions GetOktaOanOptions(string signInAsType)
{
	var authServicesOptions = GetCoreOktaOptions(signInAsType, "okta-oan", "Okta-OAN");

	const string oktaEntityId = "http://www.okta.com/exk16268xbsV0A213sa23";  // got this from an Okta OAN support / admin
	const string oktaMetadataUrl = "https://okta-coe-test.okta.com/app/exk16268xbsV0A213sa23/sso/saml/metadata";  // got this from an Okta OAN support / admin

	var oanInstance = GetOktaIdentityProvider(authServicesOptions.SPOptions, oktaEntityId, oktaMetadataUrl);
	authServicesOptions.IdentityProviders.Add(oanInstance);

	return authServicesOptions;
}

private static KentorAuthServicesAuthenticationOptions GetCoreOktaOptions(string signInAsType, string idpName, string idpLabel)
{
	string serviceProviderEntityId;
	string oktaRelyingPartyRedirectUrl;

	switch (GetEnvironment())  // determine if you are in dev, test, or production here....
	{
		case "PRD":
			serviceProviderEntityId = "https://{productionIdentityServerRoot}/identity/saml";
			oktaRelyingPartyRedirectUrl = string.Format("https://{productionAppWebSiteRoot}/Portal/Pages/IdP_InitiatedRedirect.aspx?idp={0}", idpName);
			break;
		case "TEST":
			serviceProviderEntityId = "https://{testIdentityServerRoot}/identity/saml";
			oktaRelyingPartyRedirectUrl = string.Format("https://{testAppWebSiteRoot}/Portal/Pages/IdP_InitiatedRedirect.aspx?idp={0}", idpName);
			break;
		default:
			serviceProviderEntityId = "https://{devIdentityServerRoot}/identity/saml";
			oktaRelyingPartyRedirectUrl = string.Format("https://{devAppWebSiteRoot}/Portal/Pages/IdP_InitiatedRedirect.aspx?idp={0}", idpName);
			break;
	}

	var authServicesOptions = new KentorAuthServicesAuthenticationOptions(false)
	{
		SPOptions = new SPOptions
		{
			EntityId = new EntityId(serviceProviderEntityId),
			ReturnUrl = new Uri(oktaRelyingPartyRedirectUrl),
			ModulePath = string.Format("/{0}", idpName)   // this is important -- it is what drives the separate instances
		},
		SignInAsAuthenticationType = signInAsType,
		AuthenticationType = idpName,
		Caption = idpLabel,
	};            

	return authServicesOptions;
}

private static IdentityProvider GetOktaIdentityProvider(ISPOptions options, string oktaEntityId, string oktaMetadataUrl)
{            
	var idp = new IdentityProvider(new EntityId(oktaEntityId), options)
	{
		LoadMetadata = true,
		MetadataUrl = new Uri(oktaMetadataUrl),
		AllowUnsolicitedAuthnResponse = true
	};
	return idp;
}

For the Startup code, it becomes pretty simple to add the instances:

// Okta Application Network (OAN) instance            
app.UseKentorAuthServicesAuthentication(Helpers.GetOktaOanOptions(signInAsType));

The code above just calls our new method for the instance we have configured.

Now it should all work and is repeatable for other instances!

NOTE: The above approach does require code changes for each new instance of Okta you want to add / configure. If you wanted, you could pretty easily put the configuration into a database table and read it that way -- the four data points you need for each instance are:

  • idp Name
  • idp Description
  • entity Id
  • metadata URL

You could create a table with those entries, then read them and loop through each, creating an instance for them. Note also that making changes to this would likely require at least restarting the application pool for your identity server or something similar to force the running instance to recognize the new configuration.