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James_Jinwon_Lee
F5 Employee
F5 Employee

In an organization with enough maturity in cybersecurity and modern application architectures, there are two different cybersecurity teams that operate the more advanced security policies for the company. NetSecOps and DevSecOps are the two cybersecurity teams in an organization, and they typically have different security requirements. NetSecOps requires a ‘Standardized Application Security Policy'. They aim to block common attacks to the production network with a high level of confidence, resulting in a ‘low-false positive rate,’ at the network level. The OWASP Top 10 threats is a good example here. Moreover, the responsibility of NetSecOps is not limited to stopping basic attack types like the OWASP Top 10, but it also covers more advanced and complicated application-based attacks such as ‘Bot Attacks,’ ‘Fraud Attacks,’ and ‘DDoS Attacks.’ However, when it comes to the ‘Modern-App environment,’ it is not easy for the NetSecOps team to understand the details of the application traffic flow inside the Kubernetes or OpenShift cluster. For this reason, as far as modern applications are concerned, the security policies of NetSecOps often focus more on compliance and audit purposes. However, DevSecOps wants the application-specific security policies for different types of applications to be operating inside their Kubernetes or OpenShift clusters. This is possible since DevSecOps understands how their applications work and they want to apply more optimized security policies for their backend applications.

This is why it is sometimes difficult to achieve both security team’s goals with a single security solution. This is why the enterprise needs to deploy two different WAFs to meet the different requirements from both NetSecOps and DevSecOps.

This article will cover how two different security teams can achieve their goals with two separate WAF (Web Application Firewall) deployments in the network - F5 Advanced WAF for NetSecOps and NGINX App Protect for DevSecOps. 

Solution Overview

The solution includes two F5 components – F5 Advanced WAF and NGINX App Protect. From a technological point of view, NGINX App Protectutilizes s a subset of F5 Advanced WAF functionality, meaning that their underlying technologies are the same. Each of those WAF components can run with different security policies in order to achieve different goals. In F5 Advanced WAF, NetSecOps can apply the WAF policy for the ‘coarse-grained model’ of security, while DevSecOps adopts the ‘fine-grained model’ with the NAP. In other words, this means that F5 Advanced WAF can be configured with a ‘Negative Policy,’ and NGINX App Protect can be configured with a ‘Positive Policy.’

In our use-case, we assumed that NetSecOps wants to block the OWASP Top 10 threats while DevSecOps has a different 'file accessing' policy for each backend application. The brief architecture is depicted below.

0151T000003q3JAQAY.png

Combining F5 Advanced WAF and NGINX App Protect enables layered application security policies to prevent the most complicated and advanced application-based attacks efficiently. This architecture utilizes the following workflow:

1.    The F5 Advanced WAF blocks the most commonly used attack types including ‘Command Injection,’ ‘SQL Injection,’ ‘Cross-Site Scripting,’ and ‘Server Side Request Forgery’ attacks.

2.    When the attacker tries to access the different files in each application, NGINX App Protect manually specifies the file types that are allowed (or disallowed) in traffic based on the security policies configured by the DevSecOps team.

3.    All alert details from F5 Advanced WAF and NGINX App Protect are sent to the ‘Elasticsearch’ for central monitoring purposes.

Each of the above workflows will be discussed in the following sections.

·     This blog doesn’t include all the required steps to reproduce the use-case in the environment. Please refer to this link for all the required configuration steps.

NGINX App Protect provides ‘Application-Specific’ policies

NGINX App Protect can provide security protection and controls at the microservice level inside the Kubernetes or OpenShift cluster. The NGINX App Protect can be deployed in the OpenShift cluster as a container image.

The NGINX App Protect policy configuration uses the declarative format built on a pre-defined base template. The policy uses the JSON format to represent the policy details. This file can be edited to apply a unique security policy to the NGINX App Protect instance. Once the policy is created, the policy can be attached to the 'nginx.conf' file by referencing the policy file.

In this example, we used the ‘nginx_sre.conf’ file as the main configuration file for NGINX and the ‘NginxSRELabPolicy.json’ file represents the NGINX App Protect policy.

NginxSRELabPolicy.json: |
    {
      "policy": {
        "name": "SRE_DVWA01_POLICY",
        "template": { "name": "POLICY_TEMPLATE_NGINX_BASE" },
        "applicationLanguage": "utf-8",
        "enforcementMode": "blocking",
        "response-pages": [
            {
                "responseContent": "<html><head><title>SRE DevSecOps - DVWA01 - Blocking Page</title></head><body><font color=green size=10>NGINX App Protect Blocking Page - DVWA01 Server</font><br><br>Please consult with your administrator.<br><br>Your support ID is: <%TS.request.ID()%><br><br><a href='javascript:history.back();'>[Go Back]</a></body></html>",
                "responseHeader": "HTTP/1.1 302 OK\\r\\nCache-Control: no-cache\\r\\nPragma: no-cache\\r\\nConnection: close",
                "responseActionType": "custom",
                "responsePageType": "default"
            }
        ],
        "blocking-settings": {
            "violations": [
                {
                    "name": "VIOL_FILETYPE",
                    "alarm": true,
                    "block": true
                }
            ]
        },
        "filetypes": [
            {
                "name": "*",
                "type": "wildcard",
                "allowed": true,
                "checkPostDataLength": false,
                "postDataLength": 4096,
                "checkRequestLength": false,
                "requestLength": 8192,
                "checkUrlLength": true,
                "urlLength": 2048,
                "checkQueryStringLength": true,
                "queryStringLength": 2048,
                "responseCheck": false
            },
            {
                "name": "pdf",
                "allowed": false
            }
        ]
    }
    }
---

The above configuration file shows the NAP policy of application #01, where the DevSecOps team wants to disallow file access to the ‘PDF’ file format. For application #02, the NAP policy is configured to reject the access to the ‘JPG’ file.

And the ‘remote logging’ configuration needs to be applied on the NGINX to export the NGINX App Protect's alert details. The below configuration shows how we exported the NGINX App Protect logging details to an external device, Elasticsearch.

server {
       listen 8080;
       server_name dvwa02-http;
       proxy_http_version 1.1;
       
       real_ip_header X-Forwarded-For;     
       set_real_ip_from 0.0.0.0/0;
    
       app_protect_enable on;
       app_protect_security_log_enable on;
       app_protect_policy_file "/etc/nginx/NginxSRELabPolicy.json";
       app_protect_security_log "/etc/app_protect/conf/log_default.json" syslog:server=your_elk_ip_here;
 
       location / {
           client_max_body_size 0;
           default_type text/html;
           proxy_pass http://dvwa02;
           proxy_set_header Host $host;
       }

Preventing OWASP Top 10 threats in F5 Advanced WAF

F5 Advanced WAF is the next-generation WAF solution designed to prevent advanced application-based attacks. It supports 1000+ proven application-level signatures, custom signatures, Machine-Learning based DDoS prevention, Intelligence-based attack mitigation, and Behavioural-based WAF functions. But in this use-case, we focused on the prevention of the OWASP Top 10 attacks, which is only a small part of the F% Advanced WAF attack overall coverage. The important point here is how we can configure the F5 Advanced WAF to apply the WAF's efficient ‘Negative Security’ model.

In order to configure the correct F5 Advanced WAF policy, one should follow the procedures below: 

1. Go to 'Security' -> 'Application Security' -> 'Security Policies' -> 'Create'

0151T000003q3JFQAY.png

2. Click the security policy that was just created (SRE_DEVSEC_01)

0151T000003q3JKQAY.png

·     Click the 'View Learning and Blocking Settings' under the 'Enforcement Mode' menu

3. Expand 'Attack Signatures' and Click 'Change' menu

0151T000003q3JPQAY.png

4. Apply the check box.

0151T000003q3JUQAY.png

·     Click 'Close' -> click 'Save' -> click 'Apply Policy'

·     Apply the policy to the virtual server.

(Please make sure that we're on OCP partition.) 

5. 'Local Traffic' -> 'Virtual Servers' -> 'devsecops_http_vs' -> Security -> Policies

0151T000003q3JZQAY.png

Please note that the ‘virtual server’ configuration is required in the BIG-IP before proceeding to this step. 

Configuring custom blocking page for F5 Advanced WAF

1.    Click the security policy that was created (SRE_DEVSEC_01)

2.    Go to 'Response and Blocking page' -> 'Blocking page default' -> 'Custom response' -> 'Response Body'

<html><head><title>SRE DevSecOps Blocking Page</title></head><body><font color=red size=12>F5 Advanced WAF Blocking Page</font><br><br>Please consult with your administrator.<br><br>Your support ID is: <%TS.request.ID()%><br><br><a href='javascript:history.back();'>[Go Back]</a></body></html>

Simulating the Attack

The following steps show how to simulate the application-based attacks and to see how F5 Advanced WAF and NGINX App Protect can protect the applications efficiently.

Preventing OWASP Top 10 Attacks - NetSecOps

First, log in to the application through the GUI and go to the ‘Command Injection’ menu. And type the command ‘8.8.8.8 | cat /etc/passwd’ and click the ‘Submit’ button.

0151T000003q3JeQAI.png

If F5 Advanced WAF works correctly, you should be able to see the below ‘blocking page’.

0151T000003q3JjQAI.png

·     You can find the instructions from the Github link here how to simulate other attack types – SQL Injection, SSRF and XSS.

Restrict file accessing based on the application types - DevSecOps

1.    Access to application 01 on the browser with URL -> "http://your_app_domain.com/hackable/uploads/"

2.    When the ‘PDF’ file is clicked on in this directory, the following blocking screen should be shown.

Summary

In modern application architectures, security concerns are becoming more serious. WAF is the major security solution available to enterprise applications. The security policy of the WAF has to protect backend applications correctly, but at the same time, it must also ensure legitimate user traffic access to the backend resources without creating issues. This sounds straightforward, but it is not easy to configure the right security policies to achieve both goals simultaneously. When it comes to modern application architectures, it is even more difficult to achieve this goal. Since traditional security teams lack understanding about the application flow inside a Kubernetes or OpenShift environment, it is challenging to apply the required security policies in the WAF to protect the microservices. Due to the nature of their microservices, different applications spin up and down frequently, and security requirements are also changed on a regular basis. The cybersecurity team needs to have a solution that can fit these unique requirements. For NetSecOps, they would require a solution that can have enterprise-level protection features and operational-efficiency for their SOC team. 

F5 Advanced WAF is designed to efficiently prevent known and unknown types of advanced application-based attacks, while NGINX App Protect easily provides ‘application-specific’ security policies for each application inside the microservice environment. The enterprises can acquire the proper protection for their modern app environment through the combination of F5 Advanced WAF and NGINX App Protect.

Please visit the DevCentral GitHub repo and follow the guidelines to try this use-case in your environment.

Comments
saoxk
Nimbostratus
Nimbostratus

Security specialists overwhelmingly concur that perceivability issues are the greatest hindrances that hold up traffic of effective microsegmentation arrangements. The more granular fragments are separated, the better the IT association need to see precisely how information streams and how frameworks, applications, and administrations speak with each other.

192.168.100.1 192.168.1.1 jpg to pdf

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Last update:
‎10-Dec-2020 08:27
Updated by:
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