Getting started with the F5 Distributed Cloud Web App and API Protection Demo Guide
Overview Sometimes all it takes to get started learning something new is just a little guidance, for those times when we just don't know where to begin. Providing that direction is the purpose of the F5 Distributed Cloud Web App and API Protection (XC WAAP) demo guide. The guide and accompanying demo videoswill run you through sample app deployment, as well as App, API, Bot, and DDoS Protection use cases. We provide the app, the testing tool, and the guidance, everything you need to get started and kick the tires. All you need to bring is anF5 Distributed Cloud Account (trial is sufficient for this demo guide) and a bit of time. The guide uses a representative customer app scenario: a Star Ratings application which collects user ratings and reviews/comments on various items. The app runs on Kubernetes, and can be deployed on any cloud, but for the purposes of the demo guide we will deploy it on F5 XC virtual Kubernetes (vK8s) and protect it with F5 XC WAAP. The Scenario The Guide https://github.com/f5devcentral/xcwaapdemoguide Video Series Part 1:Infrastructure Setup Video Series Part 2:WAF Configuration Video Series Part 3: API Protection Video Series Part 4: Bot & DDoS Detection and Protection "Nature is a mutable cloud, which is always and never the same." - Ralph Waldo Emerson We might not wax that philosophically around here, but our heads are in the cloud nonetheless! Join the F5 Distributed Cloud user group today and learn more with your peers and other F5 experts.
Application Programming Interface (API) Authentication types simplified
API is a critical part of most of our modern applications. In this article we will walkthrough the different authentication types, to help us in the future articles covering NGINX API Connectivity Manager authentication and NGINX Single Sign-on.
Securing APIs with BigIP
Introduction API servers respond to requests using the HTTP protocol, much like Web Servers. Therefore, API servers are susceptible to HTTP attacks in ways similar to Web Servers. Previous articles covered how to publish an API using the NGINX platform as an API management gateway. These APIs are still exposed to web attacks and defensive mechanisms are needed to defend the API against web attacks, denial of service, and Bots.The diagram below shows all the layers needed to deliver and defend APIs. BIGIP provides the protection and NGINX Plus provides API management. Picture 1. This article covers Advanced Web Application Firewall (AWAF) to protect against HTTP vulnerabilities Unified Bot Defense to protect against bots Behavioral Anomaly DoS Defense to prevent DoS attacks As shown in Picture 1, above BIG-IP goes in front of the API management gateway as an additional security gateway. The beauty of this approach is that BIG-IP can be initially deployed on the side while the API is being delivered to users through the NGINX Plus gateway directly. Once BIG-IP is configured to forward good requests to NGINX Plus and security policies are in place, BIG-IP can be brought into the traffic flow by simply changing the DNS records for "prod.httpbin.internet.lab" to point to BIG-IP instead of NGINX Plus. From this point on all calls will automatically arrive at BIG-IP for inspection and only those that pass all verifications will be forwarded to the next layer. Configuring Data Path Data path configuration for this use case is pretty common for BIG-IP which is historically a load balancer. It includes: Virtual Server (listens for API calls) SSL profile (defines SSL settings) SSL certificate and key (cryptographically identifies virtual server) Pool (destination for passed calls) Picture below shows how all of the configuration pieces work together. Picture 3. At first upload server certificate and key Setup SSL profile to use a certificate from the previous step Finally, create a virtual server and a pool to accept API calls and forward them to the backend From this point IG-IP accepts all requests which go to "prod.httpbin.secured-internet.lab" hostname and forwards them to API management gateway powered by NGINX Plus. Setting up WAF policy As you may already know every API starts from the OpenAPI file which describes all available endpoints, parameters, authentication methods, etc. This file contains all details related to API definition and it is widely used by most tools including F5's WAF for self-configuration. Imported OpenAPI file automatically configures policy with all API specific parameters as a list of allowed URLs, parameters, methods, and so on. Therefore WAF configuration narrows down to importing OpenAPI file and using policy template for API security. Create a policy Specify policy name, template, swagger file, virtual server and logging profile. API security template pre-configures WAF policy with all necessary violations and signatures to protect API backend. OpenAPI file introduces application-specific configuration to a policy as a list of allowed URLs, parameters, and methods. That is it. WAF policy is configured and assigned to the virtual server. Now we can test that only legitimate requests to allowed resources go through. For example request to URL which does not exist in the policy will be blocked: ubuntu@ip-10-1-1-7:~$ http -v https://prod.httpbin.secured-internet.lab/urldoesntexist GET /urldoesntexist HTTP/1.1 Accept: */* Accept-Encoding: gzip, deflate Connection: keep-alive Host: prod.httpbin.secured-internet.lab User-Agent: HTTPie/0.9.2 HTTP/1.1 403 Forbidden Cache-Control: no-cache Connection: close Content-Length: 38 Content-Type: application/json; charset=utf-8 Pragma: no-cache { "supportID": "1656927099224588298" } Request with SQL injection also blocked: Configuring Bot Defense Starting from BIG-IP release 14.1 proactive bot defense, web scraping, and bot detection features are combined under Bot Defense profile. Therefore current bot defense forms a unified tool to prevent all types of bots from accessing your web asset. Bot detection and mitigation mechanisms heavily rely on signatures and javascript (JS) based challenges. JS challenges run in a client browser and help to identify client type/malicious activities or apply mitigation by injecting a CAPTCHA or slowing down a client by making a browser perform a heavy calculation. Since this article is focused on protecting APIs it is important to note that JS challenges need to be used with caution in this case. Keep in mind that robots might be legitimate users for an API. However, robots similar to bots can not execute javascript. So when a robot receives JS it considers JS as API response. Such response does not align with what a robot expects and the application may break. If you know an API is serving automated processes avoid the use of JS-based challenges or test every JS-based feature in the staging environment first. Configuration to detect and handle many different types of Bots can be simplified by using any of the three pre-configured security modes: Relaxed (Challenge free, mitigates only 100% bad bots based on signatures ) Balanced (Let suspicious clients prove good behavior by executing JS challenges or solving CAPTCHA) Strict (Blocks all kinds of bots, verifies browsers, and collects device id from all clients) It is best to start with the relaxed template and tighten up the configuration as familiarity grows with the traffic that the API endpoints see. Once the profile is created assign it to the same virtual server at "Local Traffic ›› Virtual Servers : Virtual Server List ›› prod.httpbin.secured-internet.lab ›› Security" page. Such configuration performs bot detection based on data that is available in requests such as URL, user-agent, or header order. This mode is safe for all kinds of API users (browser-based or code-based robots) and you can see transaction outcome on "Security ›› Event Logs : Bot Defense : Bot Requests" page. If there are false positives you can adjust bot status or create a new trusted one for your robots through "Security ›› Bot Defense : Bot Signatures : Bot Signatures List". Setting Up DDoS Defense WAF and BOT defenses can detect requests with attack signatures or requests that are generated by malicious clients. However, attackers can send attacks composed of legitimate requests at a high scale, that can bring down an API endpoint. The following features present in the BIG-IP can be used to defeat Denial of Service attacks against API endpoints. Transaction per second (TPS) Based DoS Defense Stress Based DoS Defense Behavioral Anomaly Based DoS Defense Eviction Policies TPS-based DoS defense is the most straightforward protection mechanism. In this mode, BigIP measures requests rate for parameters such as Source IP, URL, Site, etc. In case the per minute rate becomes higher than the configured threshold then the attack gets triggered, and selected mitigation modes are applied to ‘all’ requests identified by the parameter. The stress-based mode works similarly to TPS, but instead of applying mitigation right after the threshold is crossed it only mitigates when the protected asset is under stress. This approach significantly reduces false positives. Behavioral anomaly detection (BADoS) mode offers the most advanced security and accuracy. This mode does not require the administrator to perform any configuration, other than turning the feature on. A machine learning algorithm is used to detect whether the protected asset is under attack or not. Another machine learning algorithm is used to baseline the traffic in peacetime. When the ‘attack detector algorithm’ identifies that the protected asset is under stress and non-responsive, then the second algorithm stops learning and looks for anomalies. Signatures matching these anomalies are automatically created. Anomalies discovered during attack time are likely nefarious and are eliminated from the traffic by application of dynamically discovered signatures. BADoS will automatically build a good traffic baseline, detect anomalies and stop them if the API endpoint is under stress. Conclusion F5 offers a multi-layered solution for protecting APIs, which is easy to configure.Please connect with me via comments and keep an eye on more articles in this series. Good luck!Advanced WAF v16.0 - Declarative API
Since v15.1 (in draft), F5® BIG-IP® Advanced WAF™ canimport Declarative WAF policy in JSON format. The F5® BIG-IP® Advanced Web Application Firewall (Advanced WAF) security policies can be deployed using the declarative JSON format, facilitating easy integration into a CI/CD pipeline. The declarative policies are extracted from a source control system, for example Git, and imported into the BIG-IP. Using the provided declarative policy templates, you can modify the necessary parameters, save the JSON file, and import the updated security policy into your BIG-IP devices. The declarative policy copies the content of the template and adds the adjustments and modifications on to it. The templates therefore allow you to concentrate only on the specific settings that need to be adapted for the specific application that the policy protects. ThisDeclarative WAF JSON policyis similar toNGINX App Protect policy. You can find more information on theDeclarative Policyhere : NAP :https://docs.nginx.com/nginx-app-protect/policy/ Adv. WAF :https://techdocs.f5.com/en-us/bigip-15-1-0/big-ip-declarative-security-policy.html Audience This guide is written for IT professionals who need to automate their WAF policy and are familiar with Advanced WAF configuration. These IT professionals can fill a variety of roles: SecOps deploying and maintaining WAF policy in Advanced WAF DevOps deploying applications in modern environment and willing to integrate Advanced WAF in their CI/CD pipeline F5 partners who sell technology or create implementation documentation This article covershow to PUSH/PULL a declarative WAF policy in Advanced WAF: With Postman With AS3 Table of contents Upload Policy in BIG-IP Check the import Apply the policy OpenAPI Spec File import AS3 declaration CI/CD integration Find the Policy-ID Update an existing policy Video demonstration First of all, you need aJSON WAF policy, as below : { "policy": { "name": "policy-api-arcadia", "description": "Arcadia API", "template": { "name": "POLICY_TEMPLATE_API_SECURITY" }, "enforcementMode": "blocking", "server-technologies": [ { "serverTechnologyName": "MySQL" }, { "serverTechnologyName": "Unix/Linux" }, { "serverTechnologyName": "MongoDB" } ], "signature-settings": { "signatureStaging": false }, "policy-builder": { "learnOnlyFromNonBotTraffic": false } } } 1. Upload Policy in BIG-IP There are 2 options to upload a JSON file into the BIG-IP: 1.1 Either youPUSHthe file into the BIG-IP and you IMPORT IT OR 1.2 the BIG-IPPULLthe file froma repository (and the IMPORT is included)<- BEST option 1.1PUSH JSON file into the BIG-IP The call is below. As you can notice, it requires a 'Content-Range' header. And the value is 0-(filesize-1)/filesize. In the example below, the file size is 662 bytes. This is not easy to integrate in a CICD pipeline, so we created the PULL method instead of the PUSH (in v16.0) curl --location --request POST 'https://10.1.1.12/mgmt/tm/asm/file-transfer/uploads/policy-api.json' \ --header 'Content-Range: 0-661/662' \ --header 'Authorization: Basic YWRtaW46YWRtaW4=' \ --header 'Content-Type: application/json' \ --data-binary '@/C:/Users/user/Desktop/policy-api.json' At this stage,the policy is still a filein the BIG-IP file system. We need toimportit into Adv. WAF. To do so, the next call is required. This call import the file "policy-api.json" uploaded previously. AnCREATEthe policy /Common/policy-api-arcadia curl --location --request POST 'https://10.1.1.12/mgmt/tm/asm/tasks/import-policy/' \ --header 'Content-Type: application/javascript' \ --header 'Authorization: Basic YWRtaW46YWRtaW4=' \ --data-raw '{ "filename":"policy-api.json", "policy": { "fullPath":"/Common/policy-api-arcadia" } }' 1.2PULL JSON file from a repository Here, theJSON file is hosted somewhere(in Gitlab or Github ...). And theBIG-IP will pull it. The call is below. As you can notice, the call refers to the remote repo and the body is a JSON payload. Just change the link value with your JSON policy URL. With one call, the policy isPULLEDandIMPORTED. curl --location --request POST 'https://10.1.1.12/mgmt/tm/asm/tasks/import-policy/' \ --header 'Content-Type: application/json' \ --header 'Authorization: Basic YWRtaW46YWRtaW4=' \ --data-raw '{ "fileReference": { "link": "http://10.1.20.4/root/as3-waf/-/raw/master/policy-api.json" } }' Asecond versionof this call exists, and refer to the fullPath of the policy.This will allow you to update the policy, from a second version of the JSON file, easily.One call for the creation and the update. As you can notice below, we add the"policy":"fullPath" directive. The value of the "fullPath" is thepartitionand thename of the policyset in the JSON policy file. This method is VERY USEFUL for CI/CD integrations. curl --location --request POST 'https://10.1.1.12/mgmt/tm/asm/tasks/import-policy/' \ --header 'Content-Type: application/json' \ --header 'Authorization: Basic YWRtaW46YWRtaW4=' \ --data-raw '{ "fileReference": { "link": "http://10.1.20.4/root/as3-waf/-/raw/master/policy-api.json" }, "policy": { "fullPath":"/Common/policy-api-arcadia" } }' 2. Check the IMPORT Check if the IMPORT worked. To do so, run the next call. curl --location --request GET 'https://10.1.1.12/mgmt/tm/asm/tasks/import-policy/' \ --header 'Authorization: Basic YWRtaW46YWRtaW4=' \ You should see a 200 OK, with the content below (truncated in this example). Please notice the"status":"COMPLETED". { "kind": "tm:asm:tasks:import-policy:import-policy-taskcollectionstate", "selfLink": "https://localhost/mgmt/tm/asm/tasks/import-policy?ver=16.0.0", "totalItems": 11, "items": [ { "isBase64": false, "executionStartTime": "2020-07-21T15:50:22Z", "status": "COMPLETED", "lastUpdateMicros": 1.595346627e+15, "getPolicyAttributesOnly": false, ... From now, your policy is imported and created in the BIG-IP. You can assign it to a VS as usual (Imperative Call or AS3 Call).But in the next session, I will show you how to create a Service with AS3 including the WAF policy. 3. APPLY the policy As you may know, a WAF policy needs to be applied after each change. This is the call. curl --location --request POST 'https://10.1.1.12/mgmt/tm/asm/tasks/apply-policy/' \ --header 'Content-Type: application/json' \ --header 'Authorization: Basic YWRtaW46YWRtaW4=' \ --data-raw '{"policy":{"fullPath":"/Common/policy-api-arcadia"}}' 4. OpenAPI spec file IMPORT As you know,Adv. WAF supports OpenAPI spec (2.0 and 3.0). Now, with the declarative WAF, we can import the OAS file as well. The BEST solution, is toPULL the OAS filefrom a repo. And in most of the customer' projects, it will be the case. In the example below, the OAS file is hosted in SwaggerHub(Github for Swagger files). But the file could reside in a private Gitlab repo for instance. The URL of the projectis :https://app.swaggerhub.com/apis/F5EMEASSA/Arcadia-OAS3/1.0.0-oas3 The URL of the OAS file is :https://api.swaggerhub.com/apis/F5EMEASSA/Arcadia-OAS3/1.0.0-oas3 This swagger file (OpenAPI 3.0 Spec file) includes all the application URL and parameters. What's more, it includes the documentation (for NGINX APIm Dev Portal). Now, it ispretty easy to create a WAF JSON Policy with API Security template, referring to the OAS file. Below, you can notice thenew section "open-api-files"with the link reference to SwaggerHub. And thenew templatePOLICY_TEMPLATE_API_SECURITY. Now, when I upload / import and apply the policy, Adv. WAF will download the OAS file from SwaggerHub and create the policy based on API_Security template. { "policy": { "name": "policy-api-arcadia", "description": "Arcadia API", "template": { "name": "POLICY_TEMPLATE_API_SECURITY" }, "enforcementMode": "blocking", "server-technologies": [ { "serverTechnologyName": "MySQL" }, { "serverTechnologyName": "Unix/Linux" }, { "serverTechnologyName": "MongoDB" } ], "signature-settings": { "signatureStaging": false }, "policy-builder": { "learnOnlyFromNonBotTraffic": false }, "open-api-files": [ { "link": "https://api.swaggerhub.com/apis/F5EMEASSA/Arcadia-OAS3/1.0.0-oas3" } ] } } 5. AS3 declaration Now, it is time to learn how we cando all of these steps in one call with AS3(3.18 minimum). The documentation is here :https://clouddocs.f5.com/products/extensions/f5-appsvcs-extension/latest/declarations/application-security.html?highlight=waf_policy#virtual-service-referencing-an-external-security-policy With thisAS3 declaration, we: Import the WAF policy from a external repo Import the Swagger file (if the WAF policy refers to an OAS file) from an external repo Create the service { "class": "AS3", "action": "deploy", "persist": true, "declaration": { "class": "ADC", "schemaVersion": "3.2.0", "id": "Prod_API_AS3", "API-Prod": { "class": "Tenant", "defaultRouteDomain": 0, "API": { "class": "Application", "template": "generic", "VS_API": { "class": "Service_HTTPS", "remark": "Accepts HTTPS/TLS connections on port 443", "virtualAddresses": ["10.1.10.27"], "redirect80": false, "pool": "pool_NGINX_API_AS3", "policyWAF": { "use": "Arcadia_WAF_API_policy" }, "securityLogProfiles": [{ "bigip": "/Common/Log all requests" }], "profileTCP": { "egress": "wan", "ingress": { "use": "TCP_Profile" } }, "profileHTTP": { "use": "custom_http_profile" }, "serverTLS": { "bigip": "/Common/arcadia_client_ssl" } }, "Arcadia_WAF_API_policy": { "class": "WAF_Policy", "url": "http://10.1.20.4/root/as3-waf-api/-/raw/master/policy-api.json", "ignoreChanges": true }, "pool_NGINX_API_AS3": { "class": "Pool", "monitors": ["http"], "members": [{ "servicePort": 8080, "serverAddresses": ["10.1.20.9"] }] }, "custom_http_profile": { "class": "HTTP_Profile", "xForwardedFor": true }, "TCP_Profile": { "class": "TCP_Profile", "idleTimeout": 60 } } } } } 6. CI/CID integration As you can notice, it is very easy to create a service with a WAF policy pulled from an external repo. So, it is easy to integrate these calls (or the AS3 call) into a CI/CD pipeline. Below, an Ansible playbook example. This playbook run the AS3 call above. That's it :) --- - hosts: bigip connection: local gather_facts: false vars: my_admin: "admin" my_password: "admin" bigip: "10.1.1.12" tasks: - name: Deploy AS3 WebApp uri: url: "https://{{ bigip }}/mgmt/shared/appsvcs/declare" method: POST headers: "Content-Type": "application/json" "Authorization": "Basic YWRtaW46YWRtaW4=" body: "{{ lookup('file','as3.json') }}" body_format: json validate_certs: no status_code: 200 7. FIND the Policy-ID When the policy is created, a Policy-ID is assigned. By default, this ID doesn't appearanywhere. Neither in the GUI, nor in the response after the creation. You have to calculate it or ask for it. This ID is required for several actions in a CI/CD pipeline. 7.1 Calculate the Policy-ID Wecreated this python script to calculate the Policy-ID. It is an hash from the Policy name (including the partition). For the previous created policy named"/Common/policy-api-arcadia",the policy ID is"Ar5wrwmFRroUYsMA6DuxlQ" Paste this python codein a newwaf-policy-id.pyfile, and run the commandpython waf-policy-id.py "/Common/policy-api-arcadia" Outcome will beThe Policy-ID for /Common/policy-api-arcadia is: Ar5wrwmFRroUYsMA6DuxlQ #!/usr/bin/python from hashlib import md5 import base64 import sys pname = sys.argv[1] print 'The Policy-ID for', sys.argv[1], 'is:', base64.b64encode(md5(pname.encode()).digest()).replace("=", "") 7.2 Retrieve the Policy-ID and fullPath with a REST API call Make this call below, and you will see in the response, all the policy creations. Find yours and collect thePolicyReference directive.The Policy-ID is in the link value "link": "https://localhost/mgmt/tm/asm/policies/Ar5wrwmFRroUYsMA6DuxlQ?ver=16.0.0" You can see as well, at the end of the definition, the "fileReference"referring to the JSON file pulled by the BIG-IP. And please notice the"fullPath", required if you want to update your policy curl --location --request GET 'https://10.1.1.12/mgmt/tm/asm/tasks/import-policy/' \ --header 'Content-Range: 0-601/601' \ --header 'Authorization: Basic YWRtaW46YWRtaW4=' \ { "isBase64": false, "executionStartTime": "2020-07-22T11:23:42Z", "status": "COMPLETED", "lastUpdateMicros": 1.595417027e+15, "getPolicyAttributesOnly": false, "kind": "tm:asm:tasks:import-policy:import-policy-taskstate", "selfLink": "https://localhost/mgmt/tm/asm/tasks/import-policy/B45J0ySjSJ9y9fsPZ2JNvA?ver=16.0.0", "filename": "", "policyReference": { "link": "https://localhost/mgmt/tm/asm/policies/Ar5wrwmFRroUYsMA6DuxlQ?ver=16.0.0", "fullPath": "/Common/policy-api-arcadia" }, "endTime": "2020-07-22T11:23:47Z", "startTime": "2020-07-22T11:23:42Z", "id": "B45J0ySjSJ9y9fsPZ2JNvA", "retainInheritanceSettings": false, "result": { "policyReference": { "link": "https://localhost/mgmt/tm/asm/policies/Ar5wrwmFRroUYsMA6DuxlQ?ver=16.0.0", "fullPath": "/Common/policy-api-arcadia" }, "message": "The operation was completed successfully. The security policy name is '/Common/policy-api-arcadia'. " }, "fileReference": { "link": "http://10.1.20.4/root/as3-waf/-/raw/master/policy-api.json" } }, 8 UPDATE an existing policy It is pretty easy to update the WAF policy from a new JSON file version. To do so, collect from the previous call7.2 Retrieve the Policy-ID and fullPath with a REST API callthe"Policy" and"fullPath"directive. This is the path of the Policy in the BIG-IP. Then run the call below, same as1.2 PULL JSON file from a repository,but add thePolicy and fullPath directives Don't forget to APPLY this new version of the policy3. APPLY the policy curl --location --request POST 'https://10.1.1.12/mgmt/tm/asm/tasks/import-policy/' \ --header 'Content-Type: application/json' \ --header 'Authorization: Basic YWRtaW46YWRtaW4=' \ --data-raw '{ "fileReference": { "link": "http://10.1.20.4/root/as3-waf/-/raw/master/policy-api.json" }, "policy": { "fullPath":"/Common/policy-api-arcadia" } }' TIP : this call, above, can be used in place of the FIRST call when we created the policy "1.2PULL JSON file from a repository". But be careful, the fullPath is the name set in the JSON policy file. The 2 values need to match: "name": "policy-api-arcadia" in the JSON Policy file pulled by the BIG-IP "policy":"fullPath" in the POST call 9 Video demonstration In order to help you to understand how it looks with the BIG-IP, I created this video covering 4 topics explained in this article : The JSON WAF policy Pull the policy from a remote repository Update the WAF policy with a new version of the declarative JSON file Deploy a full service with AS3 and Declarative WAF policy At the end of this video, you will be able to adapt the REST Declarative API calls to your infrastructure, in order to deploy protected services with your CI/CD pipelines. Direct link to the video on DevCentral YouTube channel : https://youtu.be/EDvVwlwEFRw
Running BASH commands via REST API
I am trying to run bash commands via the REST API but am getting an error. When trying to use the following syntax I am getting a 403 running with Admin authentication... GET: https://F5LTM/mgmt/tm/util/bash Output: {"code":403,"message":"Operation is not allowed on component /util/bash.","errorStack":[]} Does anyone know if this is possible, or have any syntax examples of how to run bash commands? I assume you need to submit a post request, but I am not sure how to structure the syntax in the body of the request and cannot find any examples.
Powershell: Invoke-RESTmethod on /mgmt/tm/sys/ucs (403) Forbidden error
I'm fairly experienced with Powershell and have used the Invoke-RestMethod cmdlet, and vendor documentation, to automate some things before. I've just inherited management of an HA pair of F5 BIG-IPs. We're not in a position to get BIG-IQ right now, and from looking at notes the previous admin was just logging in and manually creating a UCS archive and downloading it on the weekly. Of course my first thought was that I could automate this. I was able to successfully authenticate against one of the appliances with Invoke-RestMethod and do an HTTP GET to retrieve a list of current UCS files present. However, when I change the method to POST and add in the appropraite Body parameters (in JSON) I get a 403 forbidden error: {"code":403,"message":"Operation is not allowed on component /sys/ucs.","errorStack":[],"apiError":1} the documentation here seems to allude that this should be possible: K13225405 Here's more or less what I'm working with so far: $uri = "/mgmt/tm/sys/ucs" $BigIP = "192.168.1.10" $link = "https://$BigIP$uri" $headers = @{} $headers.Add("ServerHost", $Bigip) $headers.Add("Content-Type", "application/json") $Body = @{ Name = "/var/local/ucs/test_ucs.ucs" Command = "save" } $mycreds = Get-Credential $obj = Invoke-RestMethod -Method POST -Headers $headers -Body ($Body | ConvertTo-Json) -Uri $link -Credential $mycredsiControl Library For Java With Source
Included are the binary distribution of the iControl library for Java and Apache Axis. These releases coincides through version BIG-IP, version 13.0.0. iControl Assembly for Java 11.3.0 iControl Assembly for Java 11.4.0 iControl Assembly for Java 11.4.1 iControl Assembly for Java 11.5.0 iControl Assembly for Java 11.6.0 iControl Assembly for Java 12.0.0 iControl Assembly for Java 12.1.0 iControl Assembly for Java 13.0.0 iControl Assembly for Java 13.1.0 The source distribution of the iControl library for Java with Apache Axis. These releases coincide through version BIG-IP, version 12.1.0. The source code for this project is no longer maintained but available at our at f5-icontrol-library-java repository on GitHub. iControl Assembly Java Source 11.4.0 (older release not available on Github) iControl Assembly Java Source 11.4.1 iControl Assembly Java Source 11.5.0 iControl Assembly Java Source 11.6.0 iControl Assembly Java Source 12.1.0
Using a swagger file to create an ASM policy for an API in BIG IP Ver-15
Hi, I had heard that in BIG IP Ver15 that you could create an ASM policy for an API using the swagger file for the that API. Can anyone point me in the direction of the documentation on this? We have just upgraded a TEST system to Ver15 and I want to use the swagger file I have to create the policy for the API. Thank you
