Authorization Testing Automation



{| style="padding: 0;margin:0;margin-top:10px;text-align:left;" |- Last revision (mm/dd/yy): //
 * valign="top" style="border-right: 1px dotted gray;padding-right:25px;" |

= Introduction =

Authorizations definition and implementation is one of the important protection measure of an application. They are defined in the creation phase of the project and, even if authorization issues are found when the application is initially released and submitted to a security audit before to go live, the most signicant number of issues related to authorization came in the maintenance lifetime of the application.

This situation is often explained by the fact that features are added/modified and no review of the authorizations was performed on the application before the publishing of the new release, for cost or time issue reason.

= Context =

In order to try to address this situation, it's can be interesting to automate the evaluation of the authorizations definition and implementation on the application. This, to constantly ensure that implementation of the authorizations in the application is consistent with the authorizations definition.

An authorization is often composed by 2 elements (also named dimensions): The Feature and the Logical Role that can access it (sometime a third dimension named Data is added in order to define a access that include a filtering at business data level).

The representation of the different combinations of these 2 dimensions is often named an Authorization matrix and is often formalized in an Microsoft Excel file.

During a test of an authorization, a Logical Role is also called a Point Of View.

= Objective =

This article describe a proposition of implementation in order to automate the tests of an authorization matrix.

This article use the assumption that 2 dimensions are used to represents an authorization for the technical proposition decribed and take as example a application exposing REST services.

The objective is to provide starting ideas/hints in order to create a tailored way of testing of the authorization matrix for the target application.

= Proposition =

In order to achieve the full automation of the evaluation of the authorization matrix, the folowing actions has been performed:


 * 1) Formalize the authorization matrix in a pivot format file allowing:
 * 2) The processing by a program in a easy way.
 * 3) To be read and updated by a human for the follow-up of the authorization combinations.
 * 4) Hierarchy in the information in order to easily materialize the different combinations.
 * 5) The maximum possible of independence from the technology and design used to implements the application exposing the features.
 * 6) Create a set of integration tests that fully use the authorization matrix pivot file as input source in order to evaluate the different combinations with:
 * 7) The minimum possible of maintenance when the authorization matrix pivot file is updated.
 * 8) A clear indication, in case of failed test, of the source authorization combination that do not respect the authorization matrix.

Authorization matrix pivot file
The XML format has been used to formalize the authorization matrix.

The XML structure contains 3 main sections:


 * Node roles: This node describe the possible logical roles used in the system, is used to provide a list and the explanation of the different roles (authorization level).
 * Node services: This node list and describe the available services exposed by the system and the associated logical role(s) that can call them.
 * Node services-testing: This node provide a test payload for each service if the service use input data other than coming from url or path.

This is an example of the XML used to represents the authorization:

Placeholders (values between {}) are used to mark location where test value must be placed by the integration tests if needed

 

  

          <role name="ADMIN"/> <service name="DeleteMessage" uri="/{messageId}" http-method="DELETE" http-response-code-for-access-allowed="200" http-response-code-for-access-denied="403"> <role name="ADMIN"/>

<services-testing> <service name="ReadSingleMessage"> <service name="ReadAllMessages"> <service name="CreateMessage"> <payload content-type="application/json"> {"content":"test"} <service name="DeleteMessage"> </services-testing>

</authorization-matrix>

Integration tests
Integration tests are implemented using a maximum of factorized code and one test case by Point Of View (POV) has been created in order to group the verifications by profile of access level (logical role) and faciliate the rendering/identification of the errors.

Parsing, object mapping and access to the authorization matrix information has been implemented using XML marshalling/unmarshalling built-in features provided by the technology used to implements the tests (JAXB here) in order to limit the code to the one in charge of performing the tests.

This the implementation of the integration tests case class:

import org.owasp.pocauthztesting.enumeration.SecurityRole; import org.owasp.pocauthztesting.service.AuthService; import org.owasp.pocauthztesting.vo.AuthorizationMatrix; import org.apache.http.client.methods.CloseableHttpResponse; import org.apache.http.client.methods.HttpDelete; import org.apache.http.client.methods.HttpGet; import org.apache.http.client.methods.HttpPut; import org.apache.http.client.methods.HttpRequestBase; import org.apache.http.entity.StringEntity; import org.apache.http.impl.client.CloseableHttpClient; import org.apache.http.impl.client.HttpClients; import org.junit.Assert; import org.junit.BeforeClass; import org.junit.Test; import org.xml.sax.InputSource; import javax.xml.bind.JAXBContext; import javax.xml.parsers.SAXParserFactory; import javax.xml.transform.Source; import javax.xml.transform.sax.SAXSource; import java.io.File; import java.io.FileInputStream; import java.util.ArrayList; import java.util.List; import java.util.Optional;

/**  * Integration Test cases in charge of validate the correct implementation of the authorization matrix. * Create on test case by logical role that will test access on all services exposed by the system. * Implements here focus on readability */ public class AuthorizationMatrixIT {

/**      * Object representation of the authorization matrix */     private static AuthorizationMatrix AUTHZ_MATRIX;

private static final String BASE_URL = "http://localhost:8080";

/**      * Load the authorization matrix in objects tree *      * @throws Exception If any error occurs */     @BeforeClass public static void globalInit throws Exception { try (FileInputStream fis = new FileInputStream(new File("authorization-matrix.xml"))) { //See https://www.owasp.org/index.php/XML_External_Entity_(XXE)_Prevention_Cheat_Sheet#Unmarshaller SAXParserFactory spf = SAXParserFactory.newInstance; spf.setFeature("http://xml.org/sax/features/external-general-entities", false); spf.setFeature("http://xml.org/sax/features/external-parameter-entities", false); spf.setFeature("http://apache.org/xml/features/nonvalidating/load-external-dtd", false); Source xmlSource = new SAXSource(spf.newSAXParser.getXMLReader, new InputSource(fis)); JAXBContext jc = JAXBContext.newInstance(AuthorizationMatrix.class); AUTHZ_MATRIX = (AuthorizationMatrix) jc.createUnmarshaller.unmarshal(xmlSource); }     }

/**      * Test access to the services from a anonymous user. *      * @throws Exception */     @Test public void testAccessUsingAnonymousUserPointOfView throws Exception { //Run the tests - No access token here List<String> errors = executeTestWithPointOfView(SecurityRole.ANONYMOUS, null); //Verify the test results Assert.assertEquals("Access issues detected using the ANONYMOUS USER point of view:\n" + formatErrorsList(errors), 0, errors.size); }

/**      * Test access to the services from a basic user. *      * @throws Exception */     @Test public void testAccessUsingBasicUserPointOfView throws Exception { //Get access token representing the authorization for the associated point of view String accessToken = generateTestCaseAccessToken("basic", SecurityRole.BASIC); //Run the tests List<String> errors = executeTestWithPointOfView(SecurityRole.BASIC, accessToken); //Verify the test results Assert.assertEquals("Access issues detected using the BASIC USER point of view:\n " + formatErrorsList(errors), 0, errors.size); }

/**      * Test access to the services from a administrator user. *      * @throws Exception */     @Test public void testAccessUsingAdministratorUserPointOfView throws Exception { //Get access token representing the authorization for the associated point of view String accessToken = generateTestCaseAccessToken("admin", SecurityRole.ADMIN); //Run the tests List<String> errors = executeTestWithPointOfView(SecurityRole.ADMIN, accessToken); //Verify the test results Assert.assertEquals("Access issues detected using the ADMIN USER point of view:\n" + formatErrorsList(errors), 0, errors.size); }

/**      * Evaluate the access to all service using the point of view (POV) specified. *      * @param pointOfView Point of view to use * @param accessToken Access token that is linked to the point of view in terms of authorization. * @return List of errors detected * @throws Exception If any error occurs */     private List<String> executeTestWithPointOfView(SecurityRole pointOfView, String accessToken) throws Exception { List<String> errors = new ArrayList<>; String errorMessageTplForUnexpectedReturnCode = "The service '%s' when called with POV '%s' return a response code %s that is not the expected one in allowed or denied case."; String errorMessageTplForIncorrectReturnCode = "The service '%s' when called with POV '%s' return a response code %s that is not the expected one (%s expected)."; String fatalErrorMessageTpl = "The service '%s' when called with POV %s meet the error: %s";

//Get the list of services to call List<AuthorizationMatrix.Services.Service> services = AUTHZ_MATRIX.getServices.getService;

//Get the list of services test payload to use List<AuthorizationMatrix.ServicesTesting.Service> servicesTestPayload = AUTHZ_MATRIX.getServicesTesting.getService;

//Call all services sequentially (no special focus on performance here) services.forEach(service -> {             //Get the service test payload for the current service              String payload = null;              String payloadContentType = null;              Optional<AuthorizationMatrix.ServicesTesting.Service> serviceTesting = servicesTestPayload.stream.filter(srvPld -> srvPld.getName.equals(service.getName)).findFirst;              if (serviceTesting.isPresent) {                  payload = serviceTesting.get.getPayload.getValue;                  payloadContentType = serviceTesting.get.getPayload.getContentType;              }              //Call the service and verify if the response is consistent              try {                  //Call the service                  int serviceResponseCode = callService(service.getUri, payload, payloadContentType, service.getHttpMethod, accessToken);                  //Check if the role represented by the specified point of view is defined for the current service Optional<AuthorizationMatrix.Services.Service.Role> role = service.getRole.stream.filter(r -> r.getName.equals(pointOfView.name)).findFirst; boolean accessIsGrantedInAuthorizationMatrix = role.isPresent; //Verify behavior consistency according to the response code returned and the authorization configured in the matrix if (serviceResponseCode == service.getHttpResponseCodeForAccessAllowed) { //Roles is not in the list of role allowed to access to the service so it's an error if (!accessIsGrantedInAuthorizationMatrix) { errors.add(String.format(errorMessageTplForIncorrectReturnCode, service.getName, pointOfView.name, serviceResponseCode, service.getHttpResponseCodeForAccessDenied)); }                 } else if (serviceResponseCode == service.getHttpResponseCodeForAccessDenied) { //Roles is in the list of role allowed to access to the service so it's an error if (accessIsGrantedInAuthorizationMatrix) { errors.add(String.format(errorMessageTplForIncorrectReturnCode, service.getName, pointOfView.name, serviceResponseCode, service.getHttpResponseCodeForAccessAllowed)); }                 } else { errors.add(String.format(errorMessageTplForUnexpectedReturnCode, service.getName, pointOfView.name, serviceResponseCode)); }             } catch (Exception e) { errors.add(String.format(fatalErrorMessageTpl, service.getName, pointOfView.name, e.getMessage)); }

});

return errors; }

/**      * Call a service with a specific payload and return the HTTP response code received. * Delegate this step in order to made the test cases more easy to maintain. *      * @param uri                URI of the target service * @param payloadContentType Content type of the payload to send * @param payload           Payload to send * @param httpMethod        HTTP method to use * @param accessToken       Access token to specify to represent the identity of the caller * @return The HTTP response code received * @throws Exception If any error occurs */     private int callService(String uri, String payload, String payloadContentType, String httpMethod, String accessToken) throws Exception { int rc;

//Build the request - Use Apache HTTP Client in order to be more flexible in the combination HttpRequestBase request; String url = (BASE_URL + uri).replaceAll("\\{messageId\\}", "1"); switch (httpMethod) { case "GET": request = new HttpGet(url); break; case "DELETE": request = new HttpDelete(url); break; case "PUT": request = new HttpPut(url); if (payload != null) { request.setHeader("Content-Type", payloadContentType); ((HttpPut) request).setEntity(new StringEntity(payload.trim)); }                 break; default: throw new UnsupportedOperationException(httpMethod + " not supported !"); }         request.setHeader("Authorization", (accessToken != null) ? accessToken : "");

//Send the request and get the HTTP response code try (CloseableHttpClient httpClient = HttpClients.createDefault) { try (CloseableHttpResponse httpResponse = httpClient.execute(request)) { //Don't care here about the response content... rc = httpResponse.getStatusLine.getStatusCode; }         }

return rc; }

/**      * Generate a JWT token the user and role specified. *      * @param login User login * @param role Authorization logical role * @return The JWT token * @throws Exception If any error occurs during the creation */     private String generateTestCaseAccessToken(String login, SecurityRole role) throws Exception { return new AuthService.issueAccessToken(login, role); }

/**      * Format a list of errors to a printable string *      * @param errors Error list * @return Printable string */     private String formatErrorsList(List<String> errors) { StringBuilder buffer = new StringBuilder; errors.forEach(e -> buffer.append(e).append("\n")); return buffer.toString; } }

In case of detection of a authorization issue(s) the output is the following: testAccessUsingAnonymousUserPointOfView(org.owasp.pocauthztesting.AuthorizationMatrixIT) Time elapsed: 1.009 s  ### FAILURE java.lang.AssertionError: Access issues detected using the ANONYMOUS USER point of view: The service 'DeleteMessage' when called with POV 'ANONYMOUS' return a response code 200 that is not the expected one (403 expected). The service 'CreateMessage' when called with POV 'ANONYMOUS' return a response code 200 that is not the expected one (403 expected).

testAccessUsingBasicUserPointOfView(org.owasp.pocauthztesting.AuthorizationMatrixIT) Time elapsed: 0.05 s  ### FAILURE! java.lang.AssertionError: Access issues detected using the BASIC USER point of view: The service 'DeleteMessage' when called with POV 'BASIC' return a response code 200 that is not the expected one (403 expected).

= Rendering of the authorization matrix for audit / review =

Even if the authorization matrix is stored in a human readable format (XML), it can be interesting to provide an on-the-fly rendering representation of the XML file in order to facilitate the review, audit and discution about the authorization matrix in order to spot potential inconsistencies.

The Following XSL stylesheet can be used:

<?xml version="1.0" encoding="UTF-8"?> <xsl:stylesheet xmlns:xsl="http://www.w3.org/1999/XSL/Transform" version="1.0"> <xsl:template match="/"> Authorization Matrix <link rel="stylesheet" href="https://maxcdn.bootstrapcdn.com/bootstrap/4.0.0-alpha.6/css/bootstrap.min.css" integrity="sha384-rwoIResjU2yc3z8GV/NPeZWAv56rSmLldC3R/AZzGRnGxQQKnKkoFVhFQhNUwEyJ" crossorigin="anonymous" /> Roles <ul> <xsl:for-each select="authorization-matrix/roles/role"> <xsl:choose> <xsl:when test="@name = 'ADMIN'"> <xsl:value-of select="@name" /> :                 <xsl:value-of select="@description" /> </xsl:when> <xsl:when test="@name = 'BASIC'"> <xsl:value-of select="@name" /> :                 <xsl:value-of select="@description" /> </xsl:when> <xsl:otherwise> <xsl:value-of select="@name" /> :                 <xsl:value-of select="@description" /> </xsl:otherwise> </xsl:choose> </xsl:for-each> </ul> Authorizations </xsl:template> </xsl:stylesheet>

Example of the rendering:



= Sources of the prototype =

Github repository: https://github.com/righettod/poc-authz-testing.

= Authors and Primary Editors =

Dominique Righetto - dominique.righetto@owasp.org

= Other Cheatsheets =


 * }