Adding a BASIC Authentication Policy to a Managed Service in JBoss apiman
Examine how apiman enables you to not just manage services but implement a layer of security to the services with auth in JBoss’ new API Management framework.
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In this, the fourth article in the series on apiman, JBoss’ new API Management framework, we’ll examine how apiman enables you to not just manage services, but implement a layer of security to the services by adding an authentication requirement when clients access a managed service.
Securing Client Access to your Managed Services
As we’ve seen in the previous articles in this series, apiman enables you to govern the usage of the services that it manages by defining policies in the Managament UI that are then applied at runtime by the API Gateway. The apiman API Gateway applies the policy rules that you define to requests that it proxies to the managed service:
The OOTB policies that are packaged with apiman enable you to apply a variety of types of controls, including rate limiting (where access to a service is assigned a usage threshold) and black/whitelisting by IP address (where the client’s IP address governs their access to the service).
However, managing a service with apiman does not automatically make that service secure. Happily, however, apiman provides a policy that enables you to easily set up authentication to control access to your managed service. (Note that this policy governs the clients’ authenticated access to the managed service, and not establishing a secure connection where apiman authenticates the back-end services. In other words, in this article, we’re interested in adding authentication between the blue and pink boxes in the above diagram.)
Adding a BASIC Authentication Policy to a Managed Service
apiman is packaged with multiple pre-configured policies:
Authorization - Access to services’ resources is controlled by user roles.
BASIC Authentication - A username/password is required to access a service.
Ignored Resources - Paths to services’ resources that will not be accessible. Requests to these service resource paths return a 404 (not found) error.
IP Blacklist - Clients with specific IP address will be blocked from accessing a service.
IP Whitelist - And, clients with specific IP address will not be blocked from accessing a service.
Rate Limiting - Access to a service is limited by the number of requests in a defined time period. We demonstrated an example of a rate limiting policy in the first article in this series.
We’re interested in the BASIC Authentication Policy. Let’s take a closer look. The dialog to add a BASIC authentication policy to a service looks like this:
In creating the BASIC policy, we define an Authentication Realm (think of this as an area to be protected, within which usernames and passwords exist) and an optional HTTP header. The optional HTTP header is used to optionally pass the user's principal to the back-end service through an HTTP header. This is useful if the back-end systemneeds to know the username of the user calling it (e.g. to douser-specific operation). The “Transport security required” checkbox, if enabled, will cause the policy to fail if a client tries to connect to the service over http. The Policy will only accept credentials over https.
We’ll keep the Identity Source simple and select “Static Identities” and then define a user. Note that while this static approach is fine for testing purposes, you will want use one of the other Identity Source options (JBDS or LDAP) for a production environment as they can better handle a large number of users.
It’s important to remember that, in BASIC authentication, one of the factors that makes this, well, basic in nature, is that the username/password that you define are encoded (this is unencrypted base64 encoded text) when they are sent to the server. Since the text is not encrypted, it’s at risk of being copied and then used in an attack. For this reason, it’s safer to select the transport security option to configure SSL encryption.
To illustrate, here’s Java code that can encode and then decode the username:password string:
Base64.Encoder encoder = Base64.getEncoder(); String normalString = "user1" + ":" + "password1"; String encodedString = encoder.encodeToString(normalString.getBytes(StandardCharsets.UTF_8)); System.out.println ("The encoded string is: " + encodedString); Decoder decoder = Base64.getDecoder(); byte unencodedStringArray = decoder.decode(encodedString); String unencodedString = new String (unencodedStringArray); System.out.println ("The unencoded string is: " + unencodedString); The encoded string is: dXNlcjE6cGFzc3dvcmQx The unencoded string is: user1:password1
So - unlike encrypted strings, your encoded username and password strings are not secure!
When a Request is made to the Service
It’s interesting to see step-by-step what happens when a request is made to the service and the BASIC authentication policy is applied. Let’s take a look at the request and the responses. I used the “HttpFox” http analyzer (https://addons.mozilla.org/en-us/firefox/addon/httpfox/) to “listen in” on the requests sent to the server and the responses sent back.
Here’s the first request made to the service, notice that a username/password is not included.
(Request-Line) GET /apiman-gateway/serviceProducerOrg/echossl/1.0?apikey=6f8784cd-5754-47b0-9b8b-b2eb8c5b190f HTTP/1.1 Host localhost:8443 User-Agent Mozilla/5.0 (X11; Linux x86_64; rv:24.0) Gecko/20100101 Firefox/24.0 Accept text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8 Accept-Language en-US,en;q=0.5 Accept-Encoding gzip, deflate Cookie __utma=111872281.1348865079.1409020839.1411395889.1419258109.7; __utmz=111872281.1409020839.1.1.utmcsr=(direct)|utmccn=(direct)|utmcmd=(none); s_fid=72CCAD206D09146C-233B60F47DBEA290 Connection keep-alive
The response, as we expected, shows that the request has triggered an authentication failure. This is due to the authentication requirement that we defined and is being applied by the API Gateway. Note the 401 error code and the reference to BASIC authentication:
(Status-Line) HTTP/1.1 401 Unauthorized X-Powered-By Undertow/1 Server WildFly/8 X-Policy-Failure-Type Authentication Date Wed, 03 Jun 2015 13:43:26 GMT Connection keep-alive WWW-Authenticate BASIC realm="myRealm" X-Policy-Failure-Code 10004 Content-Type application/json Content-Length 165 X-Policy-Failure-Message BASIC authentication failed.
The browser then automatically pops up a dialog for us to enter the username and password:
A request is then sent that includes the username and password encoded into a string. In this request, the encoded (but not encrypted) username and password are included:
(Request-Line) GET /apiman-gateway/serviceProducerOrg/echossl/1.0?apikey=6f8784cd-5754-47b0-9b8b-b2eb8c5b190f HTTP/1.1 Host localhost:8443 User-Agent Mozilla/5.0 (X11; Linux x86_64; rv:24.0) Gecko/20100101 Firefox/24.0 Accept text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8 Accept-Language en-US,en;q=0.5 Accept-Encoding gzip, deflate Cookie __utma=111872281.1348865079.1409020839.1411395889.1419258109.7; __utmz=111872281.1409020839.1.1.utmcsr=(direct)|utmccn=(direct)|utmcmd=(none); s_fid=72CCAD206D09146C-233B60F47DBEA290 Connection keep-alive Authorization Basic dXNlcjE6cGFzc3dvcmQx
And, then we get the successful return code of 200 in a response:
(Status-Line) HTTP/1.1 200 OK Connection keep-alive X-Powered-By Undertow/1 Server WildFly/8 Content-Length 755 Content-Type application/json Date Wed, 03 Jun 2015 13:43:34 GMT
Just because a service is managed doesn’t automatically make it secure. JBoss apiman provides you with multiple options to add an authentication requirement when clients access your managed service.
As always, the author would like to acknowledge Eric Wittmann and the apiman team for their review comments and suggestions on writing this post, and for adding new features to apiman!
Previous articles in this series:
HTTP Authentication: Basic and Digest Access Authentication
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