Thursday 30 September 2021

Be Successful In Your CCNP Enterprise 300-420 ENSLD Exam Preparation

Making it viable for professionals to prefer what they want to specialize in is excellent. Cisco extends many opportunities to anyone who wants to get a qualification in a definite area of networking technology. One of the leading fields is learning how to design Cisco-based enterprise networks. With the Cisco CCNP Enterprise 300-420 ENSLD exam, the applicants can acquire skills allowing them to accomplish these tasks efficiently. You need to know more about this certification exam and what it signifies to you as an IT-based professional. This article was drafted precisely to give you guidelines for this Cisco CCNP Enterprise exam. So, keep on reading.

Why Should You Obtain Cisco Certifications?

Being the industry leader in providing Networking certifications, Cisco fetches many benefits that you can relish after passing its exams.

Above all, you will obtain knowledge and skills that will help you perceive your field far and wide. The Cisco program offers you renewed and structured practice that will help you boost confidence in your work and skills. Another benefit is adaptability, as with the gained skills, you will reinforce your current strengths and explore new interests. And this leads you to one more benefit – excellent job opportunities.


Cisco 300-420 ENSLD Exam: Your Way Towards CCNP Enterprise Certification

You will be acknowledged as a worthwhile and successful worker in the eyes of any organization. Being a responsible person who wants to flourish in their career will lead you to your career development. And ultimately, all these benefits give you two other benefits: great opportunities and higher pay packages.

Information About Cisco 300-420 ENSLD Exam

This is the app time for any professional who aspires to coordinate their skills with the networking demands of the job market. Cisco 300-420 ENSLD, also termed Designing Cisco Enterprise Networks, is the appropriate Cisco certification exam for you.

For the CCNP certification, this is the second exam you will have to take. The first one is the Cisco 350-401 ENCOR exam. It leads you through core enterprise technologies. And 300-420 ENSLD, which you can prefer from six other exams, helps you concentrate on a technology area of your preference. It is, hence, an elective exam, also called a concentration exam.

Cisco CCNP Enterprise 300-420 ENSLD Exam Preparation

To get through any exam, you have to study for it by understanding what this exam involves. Studying its topics is the best place to begin. The Cisco 300-420 ENSLD exam assesses your skills and knowledge in enterprise-based design.

The Cisco 300-420 ENSLD exam topics you need to learn to involve:

  • Advanced addressing as well as routing solutions;
  • Advanced campus networks for enterprise;
  • WAN targeting enterprise networks;
  • Network-based services;
  • Automation.

To study all the objectives thoroughly before the exam day, you require to develop a study plan that will suit you. It is all going, to begin with, your frame of mind and your prospects. Make sure you coordinate your perceptions and expectations well with the exam prerequisites. Seek to know everything that means for this explicit exam. This involves topics and what study materials to obtain. All the details about the exam structure and study materials are available on the Cisco official website. This will give an explicit idea of what to expect in an actual exam. It is also created in a way to direct you to the right way of preparation.

Moreover, before sitting for the Cisco 300-420 certification exam, you require to reach your study goals. These are the goals you established before starting the preparation process. They should cover your intention, time, and prospects. Your core task here is to pass the exam. Accomplishing it demands dedication and the use of materials that endorse your study goals.

One of the best resources to utilize for Cisco 300-420 ENSLD exam preparation is to enroll in a training course offered by Cisco itself.

Another best means for this certification exam preparation is to practice the concepts you learn practicing in labs. The hands-on method guarantees you master all the expected skills. This is how you can be qualified to get through your exam and do well in your future tasks.

Also Read: Ease Your Way Towards the CCNP Enterprise 300-420 ENSLD Exam

To reinforce your preparation, you must take 300-420 ENSLD practice tests. This method has been verified to work with most exam applicants. They help you get a comprehensive idea of the real exam and know where you require to improve or study more. This will help you improve your time management skills and gives you the vibe of an actual exam environment.

You can also avail other study resources such as study guides, online videos, online forums, and blogs. All the resources are easily available on the Internet so that you can complement your learning.

If you make the most out of the available study resources, you will get a flying score in your Cisco 300-420 ENSLD exam. The official training courses, study guides, practice tests, hands-on labs, blogs, and online forums are designed to get the most out of your preparation.

Conclusion

Achieving success in any field, together with your professional life, is what it means. The Cisco CCNP Enterprise 300-420 exam assures that you gain the necessary IT skills. Passing this certification test will draw many benefits. One of them is amazing job opportunities as an enterprise network design expert. Your outstanding skills will ensure your success in your career. Get ready to take your networking career a step further with this Cisco CCNP Enterprise exam!

Redefining the Cost Models for APAC Broadband Operators

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In a market approaching 5.7 billion mobile subscriptions in 2021, broadband can sometimes feel to play second fiddle in Asia & Oceania (Omdia). However, 670 million broadband subscriptions are nothing to be sniffed at – especially in a region with hundreds of millions more underserved or unserved at all.

More Info: 350-901: Developing Applications Using Cisco Core Platforms and APIs (DEVCOR)

The global pandemic only exacerbated the need for high-quality fixed broadband services. For consumers, this was driven by the need to access digital healthcare, education, and entertainment services – in 2020 alone Omdia calculates Asia and Oceania OTT video subscriptions rose by 22 percent to more than 550 million. For service providers, the massive rise in this video and digital content traffic means they need more scalable broadband networks to deliver the best broadband services and to better supplement mobile networks which are also under strain from rises in data-intensive video and digital services. Operators also need their infrastructure deployments to be more cost-efficient to connect the millions still to be connected in the Asia & Oceania region.

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The Asia & Oceania broadband subscribers are generally concentrated in high broadband penetration markets like China, Japan, & South Korea, but there is plenty of potential in low penetration countries like India & Indonesia with broadband penetration rates below 20%.

This pressure on operators to build out and improve the operations of their broadband networks comes at a time when they are moving towards distributed and cloud-native network architectures, as part of the latest iteration of Network Functions Virtualization (NFV) and software-defined networking (SDN). The development of these technologies was originally focused on core network functions, but are now becoming more common closer to the edge.

One such development is in Broadband Network Gateways (BNGs). Traditionally BNGs have been hardware-centric solutions, appliances with tightly coupled hardware and software. If operators needed to scale a deployment they would deploy more BNG appliances. To keep up with anticipated demand this model necessitates service providers to plan and deploy BNG nodes months or years in advance of expected demand.

Cloud-native BNG solutions promise to change these cost dynamics in two key ways:

◉ Disaggregation of hardware from software
   ◉ Provided operators have the deployed hardware infrastructure in place they can spin up BNG software licenses as required to meet demand, reducing upfront investment costs, and time to revenue for BNG solutions.
   ◉ There is the potential to re-purpose existing BNG hardware appliances or use commoditized hardware to maximize existing BNG investments, rather than having to rip & replace all existing hardware.
◉ Implementation of Control /User Plane Separation (CUPS) architecture
   ◉ This allows operators to simplify BNG configuration by only configuring a handful of BNG control plane nodes to manage the potentially 100s of BNG user plane BNG nodes that make up the network.
   ◉ This leads to greater levels of network automation, supporting streamlined OPEX, and greater levels of network optimization to provide a better quality of service for end-users.

Figure 2 shows an example of what a cloud-native BNG solution deployment could look like. From these changes in cost dynamics, Omdia believe there is scope for total cost of ownership (TCO) savings vs traditional deployment models in the region of 10-30% over a five-year period.

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Figure 2. Example of distributed deployment and a cloud-native BNG stack

To achieve these savings operators do need to prioritize investment in supporting skillsets to manage and automate cloud-native BNG solutions. These investments will in time make a clear difference to the deployments themselves and the wider business as operators look to orchestrate and automate cloud-native network solutions across network domains. Telenor is an example of an operator who is beginning to reap the benefits of broad skillset and organizational investment in the context of their network transformations. In 2019 Telenor reskilled approximately 6.4% of its employees, investing in virtualization, cloud, automation, and other adjacent technical skillsets. This supported an OpEx decrease of 7% YoY on a constant currency basis in 2020 (excluding figures from Telenor’s acquisition of Finland’s DNA).

The Omdia “Evolution of the BNG in Asia and Oceania” white paper focuses on the changing nature of BNG solutions and what they mean for operator cost models and the ability to develop services to support new revenue streams.

Tuesday 28 September 2021

Mitigating Dynamic Application Risks with Secure Firewall Application Detectors

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As part of our strategy to enhance application awareness for SecOps practitioners, our new Secure Firewall Application Detectors portal, https://appid.cisco.com, provides the latest and most comprehensive application risk information available in the cybersecurity space. This advance is important because today’s applications are not static.

Read More: 500-450: Implementing and Supporting Cisco Unified Contact Center Enterprise (UCCEIS)

In fact, applications are continuously evolving as new technologies and services emerge. This dynamic space creates new cybersecurity challenges like continuous changes to application relationships and hierarchies. This unstoppable dynamic creates blind spots that often increases risk.

Secure Firewall users are entitled with their base license to Application Visibility & Control for:

◉ Network traffic discovery with application-level insight

◉ Analyzing and report on application usage

◉ Classify and manage application sessions (including web browsing, multimedia streaming, and peer-to-peer applications)

◉ Monitor application usages and anomalies

◉ Build reporting for capacity planning and compliance

◉ Enforce quality-of-service (QoS) policies and service guarantees for latency-sensitive applications (such as voice over IP [VoIP] and interactive gaming)

◉ Implement fair-use policies and manage network congestion by optimizing application-level traffic

The unique capabilities available in Secure Firewall Application Detectors provide insight into application protocols such as:

◉ HTTP and SSH, which represent communications between hosts.

◉ Clients, like web browsers and email applications, which run on endpoints.

◉ Web applications, including MPEG video and social media, which comprise content or requested URLs for HTTP traffic.

In addition, you can leverage the relevant application data available within the portal to write and tune effective security policies based on specific application identification fields. For each application listed, the user can find the following details distributed across six fields:

◉ Application Name

◉ Description – A brief description of the application.

◉ Categories – A general classification for the application that describes its most essential function. Example categories include web services provider, e-commerce, ad portal, and social networking.

◉ Tags – Predefined tags that provide additional information about the application. Example tags include webmail, SSL protocol, file sharing/transfer, and displays ads. An application can have zero, one, or more tags.

◉ Risk – The likelihood that the application is used for purposes that might be against your organization’s security policy. The risk levels are Very High, High, Medium, Low, and Very Low.

◉ Business Relevance – The likelihood that the application is used within the context of your organization’s business operations, as opposed to recreationally. The relevance levels are Very High, High, Medium, Low, and Very Low

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Furthermore, the new Secure Firewall Application Detectors website offers web application sorting capabilities, providing insight on relationship/hierarchy between applications and an intuitive advanced searching engine using any of these existing fields, or the simplicity and flexibility provided by keyword searching.

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The new site is publicly available from any device with internet browsing capabilities, and assists users with rapid identification of web applications as key artifacts leveraged for security operations use cases such as:

◉ Detection of malicious or abusive use of applications, protocols, ports.

◉ Ability to research across applications using similar protocols, ports, or behaviors.

◉ Initial layer for a defense in depth strategy providing protection for web applications (XSS, CSRF, etc) based on network artifacts.

◉ Securing vulnerable applications whose source codes are not reviewed properly or are unpatched and may leave an open door for communication exploits.

◉ Applying hot fixes for newly discovered vulnerabilities in applications that are using unexpected communication ports, protocols.

Cisco Secure Firewall Application Visibility and Control is constantly adding application detectors through the Cisco Vulnerability Database (VDB). VDB is a central repository of known vulnerabilities, as well as fingerprints for operating systems, clients, and applications. The Secure Firewall Application Detectors website is powered by VDB and assists users in quickly determining if a particular application increases the risk of compromise.

The accuracy and maintenance of VBD is advanced by the new portal, as users can easily submit new application detector requests and add customized applications into the database, or even dispute the risk categorization of already registered applications. The submission request is easily accessible from the website.

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Saturday 25 September 2021

Automating AWS with Cisco SecureX

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The power of programmability, automation, and orchestration

Automating security operations within the public clouds takes advantage of the plethora of today’s capabilities available and can drive improvements throughout all facets of an organization. Public clouds are built on the power of programmability, automation, and orchestration. Pulling all of these together into a unified mechanism can help deliver robust, elastic, and on-demand services. Services that support the largest of enterprises, or the smallest of organizations or individuals, and everywhere in between.

Providing security AND great customer experience

The success of the major public cloud providers is a testament itself to the power of automation. Let’s face it, Cyber Security isn’t getting any easier, and attackers are only getting more sophisticated. When considering the makeup of today’s organizations, as well as those of the future, a few key points are worth consideration.

Read More: 500-173: Designing the FlexPod Solution (FPDESIGN)

First, the shift to a significantly remote workforce it here to stay. Post-pandemic there will certainly be a significant number of employees returning to the office. However, the flexibility so many have gotten used to, will likely remain a reality and must be accounted for by SecOps teams.

Secondly, physical locations, from manufacturing facilities and office space, to branch coffee shops, not everything has the ability to go virtual and we, as security practitioners, are left with a significant challenge. How do we provide comprehensive security, alongside seamless customer, and top-notch user experience?

Clearly the answer is automation

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The SecureX AWS Relay Module consolidates monitoring your AWS environment.

Leveraging the flexibility of Cisco’s SecureX is a great place to begin your organization’s cloud automation journey. Do this by deploying the SecureX AWS Relay Module. This module immediately consolidates monitoring your AWS environment, right alongside the rest of the security tools within the robust SecureX platform. Within the module are three significant components:

◉ Dashboard tiles providing high level metrics around the infrastructure, IAM, and network traffic, as a means of monitoring trends and bubbling up potential issues.

◉ Threat Response, with features that facilitate deep threat hunting capabilities by evaluating connection events between compute instances and remote hosts, while also providing enrichment on known suspicious or malicious observables such as remote IP addresses or file hashes.

◉ Response capabilities allow for the immediate segmentation of instances as a means of blocking lateral spread or data exfiltration, all from within the Threat Response console.

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The SecureX enterprise grade workflow orchestration engine offers low or no-code options for automating your AWS, environment

Customizable automaton and orchestration capabilities


The SecureX Relay Module provides some great capabilities, however there are many operations that an organization needs to perform that fall outside the scope of its native capabilities. To help manage those, and provide highly customizable automaton and orchestration capabilities, there is SecureX Orchestration. This enterprise grade workflow orchestration engine offers low or no-code options for automating your AWS, environment and many, many, more.

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SecureX Orchestration operates by leveraging workflows as automation mechanisms that simply go from start-to-end and perform tasks ranging from individual HTTP API calls, to pre-built, drag and drop, operations known as Atomic Actions. These “Atomics” allow for the consumption of certain capabilities without the need to manage the underlying operations. Simply provide the necessary inputs, and they will provide the desired output. These operations can be performed with all the same programmatic logic such as conditional statements, loops, and even parallel operations.

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Libraries of built-in Atomics (including for AWS) let you conduct custom operations in your cloud environment through simple drag and drop workflows.

Included with every SecureX Orchestration deployment are libraries of built-in Atomics including a robust one for AWS. From operations such as getting metrics, to creating security groups, or VPC’s, a multitude of custom operations can be conducted in your cloud environment through simple drag and drop workflows. Do you have a defined process for data gathering, or routine operations that needs to be performed? By creating workflows, and assigning a schedule, all of these operations can be completed with consistency and precision, freeing up time to address additional business critical operations.

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A more effective SecOps team


By combining built in SecureX Orchestration workflows with additional custom ones critical to your organizations processes, end-to-end automation of time sensitive, business critical tasks can be achieved with minimal development. Used in conjunction with the SecureX AWS Relay module, and your organization has at its disposal a fully featured, robust set of monitoring, deployment, management, and response capabilities that can drastically improve velocity, consistency, and the overall effectiveness of any organizations SecOps team.

Thursday 23 September 2021

Cisco teams up with Meshtech and launches Application Hosting for brand-new Asset Tracking IoT portfolio

Application Hosting on the Catalyst 9100 series access points allows organizations of all sizes to run IoT applications from the edge. As organizations integrate and deploy IoT services across their networks, the ability to optimize workflows, streamline IoT application changes, and simplify critical processes right out of the box, is essential. This includes having the ability to monitor IoT deployments end-to-end, as well as ongoing device and IoT network management. This is precisely why Cisco is developing integrations with vendors like Meshtech.

Cisco and Meshtech deliver seamless integration

Meshtech, based in Norway, develops IoT solutions that are used in smart buildings, healthcare, transportation, manufacturing, and more. Its portfolio includes a suite of sensors, asset monitoring, and control systems that are used for environmental monitoring, asset tracking, and usage analytics.

Read More: 300-715: Implementing and Configuring Cisco Identity Services Engine (SISE)

With Cisco’s Application Hosting capabilities, Meshtech devices communicate directly with the Cisco Catalyst access point. Application Hosting doesn’t replace the Meshtech application but rather it eliminates the need for additional hardware while adding additional device management features.

IT teams retain the same visibility into key performance indicators across Meshtech sensors including humidity levels, movement, and temperature. With Application Hosting, they gain additional visibility and control on the Cisco platform. This includes the status of IoT devices, placement of sensors, as well as the ability to push application updates. Together, the integrated solution provides advanced visibility, control, and support across the application lifecycle.

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Meshtech dashboard

How it works


As with all Application Hosting solutions on the Catalyst platform, the solution takes advantage of Docker-style containers to host the application directly on the access point. Further simplifying the solution is its use of industrial Bluetooth Low Energy (BLE). Meshtech’s BLE module makes use of the integrated USB port in the Cisco Catalyst access points to control and manage any of Meshtech’s IoT devices.

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On the Meshtech side, a containerized version of its management application is hosted on the Cisco Catalyst access point. This allows Meshtech IoT devices communicate and share valuable data while also allowing IT Teams to control actions directly from the Cisco wireless network.

The below diagram showcases the breadth of Meshtech IoT devices supported with Application Hosting on Catalyst Access Points.

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Meshtech solutions

Easy deployment and management


To summarize, Application Hosting enables the elimination of IoT overlay networks, which simplifies deployments and management while reducing costs. The Cisco Catalyst Access Point does all the heavy lifting by driving the application at the edge. With Application Hosting, there’s no need for additional IoT hardware, installation, or maintenance, everything is integrated.

Tuesday 21 September 2021

Building a Custom SecureX Orchestration Workflow for Umbrella

Improving efficiency for the Cisco team in the Black Hat USA NOC

As a proud partner of the Black Hat USA NOC, Cisco deployed multiple technologies along with the other Black Hat NOC partners to build a stable and secure network for the conference. We used Cisco Secure Malware Analytics to analyze files and monitor any potential PII leaks. We also used Meraki SM to manage over 300 iPads used around the venue for registration, as well as sales lead generation. Last but not least, we used Umbrella to add DNS level visibility, threat intelligence and protection to the entire network.

Read More: 300-620: Implementing Cisco Application Centric Infrastructure (DCACI)

Lets go over an example scenario which many customers may find themselves in. While we were in the Black Hat USA NOC, we were constantly keeping our eyes on the Umbrella security activity report, in order to recognize, investigate and work with other teams to respond to the threats.

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Continuously monitoring the activity report can be taxing, especially in our case with two Umbrella organizations – one for the conference iPad deployment and another for the conference attendee network. In comes SecureX to help make our lives simpler. Using SecureX orchestration we were able to import a pre-built Umbrella workflow and easily customize it to suite our needs. This workflow pulls the activity report for a configurable list of categories, creates an incident in SecureX, notifies the team in Webex Teams and updates a SecureX dashboard tile. Let’s jump into SecureX orchestration and take a look at the workflow.

A plethora of SecureX orchestration content is available on our GitHub repo to help you find value in our automation engine in no time. At the link above, you’ll find fully built workflows, as well as building blocks to craft your own use cases. Here is what the 0023 Umbrella: Excessive Requests To Incidents workflow looks like upon importing it (shoutout to @mavander for authoring the workflow).

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You can see in the variable section there are four variables, three strings and one integer. “Categories to Alert On” is a comma separated list of categories we want to be notified about, which makes it very easy to add or remove categories on the fly. In our case, we want to be notified if there is even one DNS request for any of the Security Categories, which is why we have set the “request threshold” to one.

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Now that our variables are set, let’s dig into the first web service call that is made to the Umbrella API. Umbrella has three API’s:

◉ The management API
◉ The Investigate API
◉ The reporting API (which is the one we need to use to pull the activity report)

There are often minute differences when authenticating to various API’s, but luckily for us, authenticating to the Umbrella API is built into the workflow. It’s as simple as copying and pasting an API key from Umbrella into orchestration and that its. You’ll notice the Umbrella API key and secret are stored as ‘Account Keys’ in orchestration this way you can reuse the same credentials in other workflows or other API calls to Umbrella.

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In this case, we are dynamically crafting the URL of /v2/organizations/<umbrella_org_id>/categories-by-timerange/dns?from=-1hours&to=now by using the Umbrella org ID from the variables above. Notice the API call is going to GET an activity report for the past hour, but it could be modified to be more or less frequently.

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Now that we have a JSON formatted version of the activity report, we can use JSON path query to parse the report and construct a table with the category names and the number of requests. Using this dictionary, we can easily determine if Umbrella has seen one or more requests for a category which we want to alert on.

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If the conditions are met, and there was activity in Umbrella, the workflow will automatically create a SecureX incident. This incident can be assigned to a team member and investigated in SecureX threat response, to gain additional context from various intelligence sources. However, our team decided that simply creating the SecureX incident was not enough and that a more active form of notification was necessary to ensure nothing got overlooked. Using the pre-built code blocks in SecureX orchestration, we customized the workflow to print a message in Webex teams this way the whole team can be notified and nothing will go unseen.

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Here is what the message looks like in Webex teams. It includes includes the name of the category and how many requests in said category were seen in the past one hour. We scheduled the workflow to run once an hour, so this way even if we needed to step away to walk the Black Hat floor or meet with a NOC partner, we can still stay abreast to the latest Umbrella detections.

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It also includes a hyperlink to the SecureX incident to make the next step of conducting an investigation easier. Using SecureX threat response we can investigate any domains detected by umbrella to get reputational data from multiple intelligence sources. In this particular example www.tqlkg[.]com showed up as ‘potentially harmful’ in the Umbrella activity report. The results of the threat response investigation show dispositions from 5 different sources including a suspicious disposition from both Talos and Cyberprotect. We can also see that the domain resolves to 6 other suspicious URLs. In a future version of this workflow this step could be automated using the SecureX API’s.

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In addition to the Webex teams alert, we created a tile for notification the SecureX dashboard, which is on display for the entire NOC floor to view.

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You can see in the dashboard high level statistics, which are provided from Secure Malware Analytics (Threat Grid) including “top behavioral indicators”, “submissions by threat score” “submissions by file type” as well as the “request summary” from Umbrella.

Also notice the “private intelligence” tile – this is where you can see if there were any new incidents created by the orchestration workflow. The SecureX dashboard keeps the entire Black Hat NOC well-informed as to how Cisco Secure’s portfolio is operating in the network. Adding tiles to create a custom dashboard can be done in just a few clicks. In the customize menu you will see all the integrated technologies that provide tiles to the dashboard.  Under the “private intelligence” section you can see the option to add the ‘Incident statuses and assignees’ tile to the dashboard – it’s that easy to create a customized dashboard!

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I hope you enjoyed this edition of SecureX at Black Hat; and stay tuned for the next version of the workflow on GitHub, that will automatically conduct an investigation of suspicious domains and provide intelligence context directly in the Webex teams message.

Thursday 16 September 2021

Wireless Catalyst 9800 troubleshooting features and improvements

The adoption of new Catalyst 9800 not only brought new ways to configure Wireless Controllers, but also several new mechanisms to troubleshoot them. It has some awesome troubleshooting features that will help to identify root causes faster spending less time and effort.

There are several new key troubleshooting differentiators compared to previous WLC models:

◉ Trace-on-failure: Summary of detected failures

◉ Always-on-tracing: Events continuously stored without having to enable debugging

◉ Radioactive-traces: More detailed debugging logs filtered per mac, or IP address

◉ Embedded Packet capture: Perform filtered packet captures in the device itself

◉ Archive logs: Collect stored logs from all processes

Let me present you the different features through a real reported wireless problem: a typical “client connectivity issue”, showing how to use them to do root cause analysis, while following a systematic approach.

Let’s start by a user reporting wireless client connectivity issue. He was kind to provide the client mac address and timestamp for the problem, so scope starts already partially delimited.

First feature that I would use to troubleshoot is the Trace-on-failure. The Catalyst 9800 can keep track of predefined failure conditions and show the number of events per each one, with details about failed events. This feature allows to be proactive and detect issues that could be occurring in our network even without clients reporting them. There is nothing required for this feature to work, it is continuously working in the background without the need of any debug command.

How to collect Trace-on-failure:

◉ show wireless stats trace-on-failure.

Show different failure conditions detected and number of events.

◉ show logging profile wireless start last 2 days trace-on-failure

Show failure conditions detected and details about event. Example:

     9800wlc# show logging profile wireless start last 2 days trace-on-failure 

     Load for five secs: 0%/0%; one minute: 1%; five minutes: 1%

     Time source is NTP, 20:50:30.872 CEST Wed Aug 4 2021

     Logging display requested on 2021/08/04 20:50:30 (CEST) for Hostname: [eWLC], Model: [C9800-CL-K9], Version: [17.03.03], SN: [9IKUJETLDLY], MD_SN: [9IKUJETLDLY]

     Displaying logs from the last 2 days, 0 hours, 0 minutes, 0 seconds

     executing cmd on chassis 1 ...

     Large message of size [32273]. Tracelog will be suppressed.

     Large message of size [32258]. Tracelog will be suppressed.

     Time                           UUID                 Log

     ----------------------------------------------------------------------------------------------------

      2021/08/04 06:32:45.763075     0x1000000e37c92     f018.985d.3d67 CLIENT_STAGE_TIMEOUT State = WEBAUTH_REQUIRED, WLAN profile = CWA-TEST2, Policy profile = flex_vlan4_cwa, AP name = ap3800i-r3-sw2-Gi1-0-35

Tip: To just focus on failures impacting our setup we can filter output by removing failures that have no events. We also can monitor statistics to check failures increasing and its pace. Following command can be used:

◉ show wireless stats trace-on-failure | ex  : 0$

With those commands we can identify which are the failure events detected in the last few day by the controller, and check if there is any reported event for client mac and timestamp provided by the user.

In case that there is no event for user reported issue or we need more details I would use the next feature, Always-on-tracing.

The Catalyst 9800 is continuously logging control plane events per process into a memory buffer, copying them to disk regularly. Each process logs can span several days, even in the case of a fully controller.

This feature allows to check events that have occurred in the past even without having any debugs enabled. This can be very useful to get context and actions that caused a client or AP disconnections, to check client roaming patterns, or the SSIDs where client had connected. This is a huge advantage if we compare with previous platforms where we had to enable “debug client” command after issue occurred and wait for next occurrence.

Always-on-tracing can be used to check past events for clients, APs or any wireless related process. We can collect all events for wireless profile or filter by concrete client or AP mac address. By default, command is showing last 10 minutes, and output is displayed in the terminal, but we can specify start/end time selecting date from where we want to have logs and we can store them into a file.

How to collect Always-on-tracing:

◉ show logging profile wireless

Show last 10minutes of all wireless involved process in WLC terminal

◉ show logging profile wireless start last 24 hours filter mac MAC-ADDRESS to-file bootflash:CLIENT_LOG.txt

Show events for specific client/AP mac address in the last 24 hours and stores results into a file.

With these commands and since we know the client mac address and timestamp for the issue, we can collect logs for the corresponding point in the past. I always try to get logs starting sometime before the issue so I can find what client was doing before problem occurred.

The Catalyst 9800 has several logging levels details. Always-on-tracing is storing at “info” level events. We can enable higher logging levels if required, like notice, debugging, or even verbose per process or for group of processes. Higher levels will generate more events and reduce the total overall period of time that can be logged for that process.

In case we couldn’t identify root cause with previously collected data and need more in-depth information of all processes and actions I would use the next feature Radioactive-traces.

This feature avoids the need to manually increase logging level per process and will increase level of logging per different processes involved when a concrete set of specified mac or ip addresses transverses the system. It will return logging level back to “info” once it is finished.

Radioactive-traces needs to be enabled before issue occur and will require we wait for next event to collect the data, behaving like the old “debug client” present in legacy controllers. This will be one “One Stop Shop” to do in-depth troubleshooting for multiple issues, like client related problems, APs, mobility, radius, etc, and avoid having to enable a list of different debug commands for each scenario. By default, it will provide logging level “notice” but the keyword “internal” can be added to provide additional logging level details intended for development to troubleshoot.

How to collect Radioactive-traces:

◉ CLI Method 1:

     show platform condition

     clear platform condition all

     debug platform condition feature wireless mac dead.beaf.dead

     debug platform condition start

Reproduce issue

     debug platform condition stop

     show logging profile wireless filter mac dead.beaf.dead to-file File.log

If needed more details for engineering

     show logging profile wireless internal filter mac dead.beaf.dead to-file File.log

◉ CLI Method 2: Script doing same steps as Method 1, automatically starting traces for next 30 minutes. Time is configurable.

      debug wireless mac MAC@ [internal]

Reproduce issue

     no debug wireless mac MAC@ [internal]

It will generate ra_trace file in bootflash with date and mac address.

     dir bootflash: | i ra_trace

◉ This can also be enabled through GUI, in the troubleshooting section:

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Or, directly from the client monitoring:

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Tip1: When I need to enable Radioactive-traces I follow these rules:

◉ If issue is consistently reproducible, I use CLI Method 2 since it is faster to type and easy to remember.

◉ If issue is not consistently reproducible, I use CLI Method 1 since it allows to start debugging and wait until issue occurs to stop and collect data.

◉ If I suspect that issue is a bug and will need to involve developers, or issue is infrequently observed I collect logs with internal keyword.

Tip2: We can have “realtime” logs in WLC terminal, similar to “debug client” in previous platforms by enabling Radioactive-traces, and using following command to print outputs in terminal:

◉ monitor log profile wireless level notice filter mac MAC-ADDRESS

The current controller terminal would be just showing outputs, and will not allow to type or execute any command until we exit from monitoring logs by executing “Control+C”.

With the information collected in Radioactive-traces it should be possible to identify root cause for most of the scenarios. Generally, we will stop at this point for our user reporting client connectivity issues.

For complex issues I usually combine Radioactive-traces with the next feature, Embedded Packet captures. This is a feature that as a “geek” I really love. It can not only be used for troubleshooting, but also to understand how a feature works, or which kind of traffic is transmitted and received by client, AP or WLC. Since I am familiar with packet capture analysis I prefer to first check packet capture, identify point where failure occurs, and then focus on that point in the logs.

The Catalyst 9800 controller can collect packet captures from itself and is able to filter by client mac address, ACL, interface, or type of traffic. Embedded Packet captures allows to capture packets in data-plane, or in control-plane allowing to check if packet is received by device but not punted to the CPU. We can easily collect and download filtered packet captures from the controller and get all details about packets transmitted and received by it for a concrete client or AP.

How to collect Embedded Packet captures:

◉ CLI Method:
    
     monitor capture MYCAP clear

     monitor capture MYCAP interface Po1 both

     monitor capture MYCAP buffer size 100

     monitor capture MYCAP match any

     monitor capture MYCAP inner mac MAC-ADDRESS

Inner filter available after 17.1.1s

     monitor capture MYCAP access-list CAP-FILTER

Apply ACL filter in case is needed

     monitor capture MYCAP start

Reproduce

     monitor capture MYCAP stop

     monitor capture export flash:|tftp:|http:…/filename.pcap

◉ This can also be enabled through GUI, in the troubleshooting section:

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Tip: If we don’t have any ftp/tftp/scp/sftp server to copy the capture it can be saved into harddisk or bootflash and retrieve it from WLC GUI using File Manager.

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For our client connectivity issue collecting the packet captures with radioactive-traces will help us to recognize if any of the fields in headers/payloads of packets collected is causing the issue, identify delays in transmission or reception of packets, or to focus in the phase where issue is seen: association, authentication, ip learning, …

In case issue could be related to interaction of different process, or different clients we can collect logs for profile wireless instead of filtering by mac address. Another available option is to collect logs for a concrete process we suspect could be causing the issue. Since 9800 is storing the logs for all processes we can gather and view the different logs saved in the WLC until they rotate. Log files are stored as binary files and WLC will decode those logs and display them on terminal or copy them into a file. Getting logs from concrete process can be done with command:

◉ show logging process PROCESS_NAME start last boot

The Catalyst 9800 has a feature called Archived logs that will archive every stored log for different processes providing details of what happened to each of the device’s processes. File generated by Archived logs has binary log files and needs to be decoded using tool to convert binary to text once exported, this is intended to be used by Cisco’s support personnel.

How to collect Archived logs:

◉ request platform software trace archive last 10 days target bootflash:DeviceLogsfrom02082021

This will generate a binary file with all logs from last 10 days.

Archived logs are last resource and intended for engineering use due to the amount of data generated. Usually is requested when complete data is needed to identify root cause, and it is used to troubleshoot issues related to WLC itself, and not to a particular client or AP.

In our case regarding client connectivity issues, I would collect profile wireless logs to check if other clients could be impacted at the same time, and if we could see error logs in a concrete process. And only collect Archived logs if requested by development.

Tuesday 14 September 2021

Cisco 64G Module: Enabling The Most Power Efficient SANs

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The need for speed and sustainability

With the ever growing amount of data every organization manages, there is an associated need for a higher data retrieval speed, as demanded by Business Intelligence and Artificial Intelligence applications. Hence, the introduction of 64G Fibre Channel support on storage networking devices appears as a no brainer, especially when used in combination with the performance-optimized NVMe/FC protocol.

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At the same time, we are living in a context where sustainability efforts are mounting and pressing for power efficient solutions that can deliver more bandwidth at a reduced wattage.

Designing a power efficient SAN

Eight years ago Cisco launched the MDS 9700 family of mission critical directors with 16G switching modules. In 2017, green initiatives and power saving efforts became front and center, as reflected in the design of the 32G switching module and its major step forward in that direction. Continuing on the same path, the recently introduced 48 ports 64G switching module can really be described as a breakthrough technological epiphany. It provides 4 times the bandwidth of the original 16G switching module and shaves power consumption by approximately 40%, making it about 7 times more power efficient than its predecessor.

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In combination with the highly efficient 80Plus platinum certified power supplies and the power-reduced chassis infrastructure elements, namely supervisor Sup-4 and crossbar fabric unit Fab-3, the new 64G switching module makes Cisco MDS 9700 directors the ideal choice for designing the most power efficient SANs.

New ASIC, new capabilities


This achievement is the result of a painstaking work to optimize both the physical footprint and power envelope of the new F64 switching ASIC, sitting inside the 64G switching module. This dual-die chipset can switch traffic for all the 48 ports at full line rate, freeing up space on the module motherboard.

The F64 ASIC incorporates numerous port counters and an efficient rate limiter, offering a combination of advanced congestion detection and mitigation techniques. This way the high-speed ports do not go underutilized due to roadblocks in the fabric.

Also, the entire switching module design was revisited to minimize latency, accommodate low energy components, and facilitate cooling.

Experiencing the full symphony


It is not unusual that the front-face of a high port count Fibre Channel switching module resembles an extra-long mouth-organ, but it is when you slide it inside an MDS 9700 chassis that you can appreciate the full symphony. Full line rate switching at 64G on all ports with no oversubscription, massive allocation of buffer to buffer credits for longer distances, traffic encryption for secure data transfer over ISLs, popular enterprise-class features like VSANs and PortChannels, hardware-assisted congestion prevention and mitigation solutions, including Dynamic Ingress Rate Limiting (DIRL) and Fabric Performance Impact Notification (FPIN) and Congestion Signals. All of that with a typical power consumption of only 300 Watts or 240W when operated at 64G or 32G respectively.

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SAN Analytics on steroids


The low power consumption appears even more impressive when you consider that the 64G switching module comes with a dedicated onboard Network Processing Unit (NPU). It complements the ASIC-assisted metric computation and adds flexibility to the widely popular SAN Analytics capability of MDS 9000 switches.

The new 64G switching module raises the bar once again in terms of deep and granular traffic visibility. It uses an improved lens for frame headers inspection. It offers the capability to recognize VM-level identifiers. It provides a more refined analysis and correlation engine.

The presence of a dedicated 1G port on the switching module for streaming the telemetry data makes sure the scalability of the SAN Analytics feature can go beyond what is possible on the 32G modules. This is unrivalled, both in terms of self-discovered I/O Fibre Channel flows and computed metrics. Specific optimizations for a better handling of NVMe/FC traffic will also see the light when the SAN Analytics feature becomes available on this linecard.

Investment Protection


Investment protection is always good news for customers and the new 64G switching module excels in this area. It is supported inside Cisco MDS 9706, MDS 9710 and MDS 9718 mission critical directors. It can coexist and interoperate with previous generation of linecards, in any of these chassis. Existing MDS 9700 customers can decide to upgrade their install base to 64G speed without any service interruption. They can even migrate old SFPs to the new switching module, for those ports that do not need to be operated at 64G. This is what we call real investment protection.

At Cisco we are very proud of what our talented engineering team has been able to realize with this new 64G switching module. We hope you will feel the same when turning up the traffic volume in your SAN.