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Tech Guides - Networking

5 Articles
article-image-vulnerabilities-in-the-application-and-transport-layer-of-the-tcp-ip-stack
Melisha Dsouza
07 Feb 2019
15 min read
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Vulnerabilities in the Application and Transport Layer of the TCP/IP stack

Melisha Dsouza
07 Feb 2019
15 min read
The Transport layer is responsible for end-to-end data communication and acts as an interface for network applications to access the network. This layer also takes care of error checking, flow control, and verification in the TCP/IP  protocol suite. The Application Layer handles the details of a particular application and performs 3 main tasks- formatting data, presenting data and transporting data.  In this tutorial, we will explore the different types of vulnerabilities in the Application and Transport Layer. This article is an excerpt from a book written by Glen D. Singh, Rishi Latchmepersad titled CompTIA Network+ Certification Guide This book covers all CompTIA certification exam topics in an easy-to-understand manner along with plenty of self-assessment scenarios for better preparation. This book will not only prepare you conceptually but will also help you pass the N10-007 exam. Vulnerabilities in the Application Layer The following are some of the application layer protocols which we should pay close attention to in our network: File Transfer Protocol (FTP) Telnet Secure Shell (SSH) Simple Mail Transfer Protocol (SMTP) Domain Name System (DNS) Dynamic Host Configuration Protocol (DHCP) Hypertext Transfer Protocol (HTTP) Each of these protocols was designed to provide the function it was built to do and with a lesser focus on security. Malicious users and hackers are able to compromise both the application that utilizes these protocols and the network protocols themselves. Cross Site Scripting (XSS) XSS focuses on exploiting a weakness in websites. In an XSS attack, the malicious user or hacker injects client-side scripts into a web page/site that a potential victim would trust. The scripts can be JavaScript, VBScript, ActiveX, and HTML, or even Flash (ActiveX), which will be executed on the victim's system. These scripts will be masked as legitimate requests between the web server and the client's browser. XSS focuses on the following: Redirecting a victim to a malicious website/server Using hidden Iframes and pop-up messages on the victim's browser Data manipulation Data theft Session hijacking Let's take a deeper look at what happens in an XSS attack: An attacker injects malicious code into a web page/site that a potential victim trusts. A trusted site can be a favorite shopping website, social media platform, or school or university web portal. A potential victim visits the trusted site. The malicious code interacts with the victim's web browser and executes. The web browser is usually unable to determine whether the scripts are malicious or not and therefore still executes the commands. The malicious scripts can be used obtain cookie information, tokens, session information, and so on about other websites that the browser has stored information about. The acquired details (cookies, tokens, sessions ID, and so on) are sent back to the hacker, who in turn uses them to log in to the sites that the victim's browser has visited: There are two types of XSS attacks: Stored XSS (persistent) Reflected (non-persistent) Stored XSS (persistent): In this attack, the attacker injects a malicious script directly into the web application or a website. The script is stored permanently on the page, so when a potential victim visits the compromised page, the victim's web browser will parse all the code of the web page/application fine. Afterward, the script is executed in the background without the victim's knowledge. At this point, the script is able to retrieve session cookies, passwords, and any other sensitive information stored in the user's web browser, and sends the loot back to the attacker in the background. Reflective XSS (non-persistent): In this attack, the attacker usually sends an email with the malicious link to the victim. When the victim clicks the link, it is opened in the victim's web browser (reflected), and at this point, the malicious script is invoked and begins to retrieve the loot (passwords, credit card numbers, and so on) stored in the victim's web browser. SQL injection (SQLi) SQLi attacks focus on parsing SQL commands into an SQL database that does not validate the user input. The attacker attempts to gain unauthorized access to a database either by creating or retrieving information stored in the database application. Nowadays, attackers are not only interested in gaining access, but also in retrieving (stealing) information and selling it to others for financial gain. SQLi can be used to perform: Authentication bypass: Allows the attacker to log in to a system without a valid user credential Information disclosure: Retrieves confidential information from the database Compromise data integrity: The attacker is able to manipulate information stored in the database Lightweight Directory Access Protocol (LDAP) injection LDAP is designed to query and update directory services, such as a database like Microsoft Active Directory. LDAP uses both TCP and UDP port 389 and LDAP uses port 636. In an LDAP injection attack, the attacker exploits the vulnerabilities within a web application that constructs LDAP messages or statements, which are based on the user input. If the receiving application does not validate or sanitize the user input, this increases the possibility of manipulating LDAP messages. Cross-Site Request Forgery (CSRF) This attack is a bit similar to the previously mentioned XSS attack. In a CSRF attack, the victim machine/browser is forced to execute malicious actions against a website with which the victim has been authenticated (a website that trusts the actions of the user). To have a better understanding of how this attack works, let's visualize a potential victim, Bob. On a regular day, Bob visits some of his favorite websites, such as various blogs, social media platforms, and so on, where he usually logs in automatically to view the content. Once Bob logs in to a particular website, the website would automatically trust the transactions between itself and the authenticated user, Bob. One day, he receives an email from the attacker but unfortunately Bob does not realize the email is a phishing/spam message and clicks on the link within the body of the message. His web browser opens the malicious URL in a new tab: The attack would cause Bob's machine/web browser to invoke malicious actions on the trusted website; the website would see all the requests are originating from Bob. The return traffic such as the loot (passwords, credit card details, user account, and so on) would be returned to the attacker. Session hijacking When a user visits a website, a cookie is stored in the user's web browser. Cookies are used to track the user's preferences and manage the session while the user is on the site. While the user is on the website, a session ID is also set within the cookie, and this information may be persistent, which allows a user to close the web browser and then later revisit the same website and automatically log in. However, the web developer can set how long the information is persistent for, whether it expires after an hour or a week, depending on the developer's preference. In a session hijacking attack, the attacker can attempt to obtain the session ID while it is being exchanged between the potential victim and the website. The attacker can then use this session ID of the victim on the website, and this would allow the attacker to gain access to the victim's session, further allowing access to the victim's user account and so on. Cookie poisoning A cookie stores information about a user's preferences while he/she is visiting a website. Cookie poisoning is when an attacker has modified a victim's cookie, which will then be used to gain confidential information about the victim such as his/her identity. DNS Distributed Denial-of-Service (DDoS) A DDoS attack can occur against a DNS server. Attacker sometimes target Internet Service Providers (ISPs) networks, public and private Domain Name System (DNS) servers, and so on to prevent other legitimate users from accessing the service. If a DNS server is unable to handle the amount of requests coming into the server, its performance will eventually begin to degrade gradually, until it either stops responding or crashes. This would result in a Denial-of-Service (DoS) attack. Registrar hijacking Whenever a person wants to purchase a domain, the person has to complete the registration process at a domain registrar. Attackers do try to compromise users accounts on various domain registrar websites in the hope of taking control of the victim's domain names. With a domain name, multiple DNS records can be created or modified to direct incoming requests to a specific device. If a hacker modifies the A record on a domain to redirect all traffic to a compromised or malicious server, anyone who visits the compromised domain will be redirected to the malicious website. Cache poisoning Whenever a user visits a website, there's the process of resolving a host name to an IP address which occurs in the background. The resolved data is stored within the local system in a cache area. The attacker can compromise this temporary storage area and manipulate any further resolution done by the local system. Typosquatting McAfee outlined typosquatting, also known as URL hijacking, as a type of cyber-attack that allows an attacker to create a domain name very close to a company's legitimate domain name in the hope of tricking victims into visiting the fake website to either steal their personal information or distribute a malicious payload to the victim's system. Let's take a look at a simple example of this type of attack. In this scenario, we have a user, Bob, who frequently uses the Google search engine to find his way around the internet. Since Bob uses the www.google.com website often, he sets it as his homepage on the web browser so each time he opens the application or clicks the Home icon, www.google.com is loaded onto the screen. One day Bob decides to use another computer, and the first thing he does is set his favorite search engine URL as his home page. However, he typed www.gooogle.com and didn't realize it. Whenever Bob visits this website, it looks like the real website. Since the domain was able to be resolved to a website, this is an example of how typosquatting works. It's always recommended to use a trusted search engine to find a URL for the website you want to visit. Trusted internet search engine companies focus on blacklisting malicious and fake URLs in their search results to help protect internet users such as yourself. Vulnerabilities at the Transport Layer In this section, we are going to discuss various weaknesses that exist within the underlying protocols of the Transport Layer. Fingerprinting In the cybersecurity world, fingerprinting is used to discover open ports and services that are running open on the target system. From a hacker's point of view, fingerprinting is done before the exploitation phase, as the more information a hacker can obtain about a target, the hacker can then narrow its attack scope and use specific tools to increase the chances of successfully compromising the target machine. This technique is also used by system/network administrators, network security engineers, and cybersecurity professionals alike. Imagine you're a network administrator assigned to secure a server; apart from applying system hardening techniques such as patching and configuring access controls, you would also need to check for any open ports that are not being used. Let's take a look at a more practical approach to fingerprinting in the computing world. We have a target machine, 10.10.10.100, on our network. As a hacker or a network security professional, we would like to know which TCP and UDP ports are open, the services that use the open ports, and the service daemon running on the target system. In the following screenshot, we've used nmap to help us discover the information we are seeking. The NMap tools delivers specially crafted probes to a target machine: Enumeration In a cyber attack, the hacker uses enumeration techniques to extract information about the target system or network. This information will aid the attacker in identifying system attack points. The following are the various network services and ports that stand out for a hacker: Port 53: DNS zone transfer and DNS enumeration Port 135: Microsoft RPC Endpoint Mapper Port 25: Simple Mail Transfer Protocol (SMTP) DNS enumeration DNS enumeration is where an attacker is attempting to determine whether there are other servers or devices that carry the domain name of an organization. Let's take a look at how DNS enumeration works. Imagine we are trying to find out all the publicly available servers Google has on the internet. Using the host utility in Linux and specifying a hostname, host www.google.com, we can see the IP address 172.217.6.196 has been resolved successfully. This means there's a device with a host name of www.google.com active. Furthermore, if we attempt to resolve the host name, gmail.google.com, another IP address is presented but when we attempt to resolve mx.google.com, no IP address is given. This is an indication that there isn't an active device with the mx.google.com host name: DNS zone transfer DNS zone transfer allows the copying of the master file from a DNS server to another DNS server. There are times when administrators do not configure the security settings on their DNS server properly, which allows an attacker to retrieve the master file containing a list of the names and addresses of a corporate network. Microsoft RPC Endpoint Mapper Not too long ago, CVE-2015-2370 was recorded on the CVE database. This vulnerability took advantage of the authentication implementation of the Remote Procedure Call (RPC) protocol in various versions of the Microsoft Windows platform, both desktop and server operating systems. A successful exploit would allow an attacker to gain local privileges on a vulnerable system. SMTP SMTP is used in mail servers, as with the POP and the Internet Message Access Protocol (IMAP). SMTP is used for sending mail, while POP and IMAP are used to retrieve mail from an email server. SMTP supports various commands, such as EXPN and VRFY. The EXPN command can be used to verify whether a particular mailbox exists on a local system, while the VRFY command can be used to validate a username on a mail server. An attacker can establish a connection between the attacker's machine and the mail server on port 25. Once a successful connection has been established, the server will send a banner back to the attacker's machine displaying the server name and the status of the port (open). Once this occurs, the attacker can then use the VRFY command followed by a user name to check for a valid user on the mail system using the VRFY bob syntax. SYN flooding One of the protocols that exist at the Transport Layer is TCP. TCP is used to establish a connection-oriented session between two devices that want to communication or exchange data. Let's recall how TCP works. There are two devices that want to exchange some messages, Bob and Alice. Bob sends a TCP Synchronization (SYN) packet to Alice, and Alice responds to Bob with a TCP Synchronization/Acknowledgment (SYN/ACK) packet. Finally, Bob replies with a TCP Acknowledgement (ACK) packet. The following diagram shows the TCP 3-Way Handshake mechanism: For every TCP SYN packet received on a device, a TCP ACK packet must be sent back in response. One type of attack that takes advantage of this design flaw in TCP is known as a SYN Flood attack. In a SYN Flood attack, the attacker sends a continuous stream of TCP SYN packets to a target system. This would cause the target machine to process each individual packet and response accordingly; eventually, with the high influx of TCP SYN packets, the target system will become too overwhelmed and stop responding to any requests: TCP reassembly and sequencing During a TCP transmission of datagrams between two devices, each packet is tagged with a sequence number by the sender. This sequence number is used to reassemble the packets back into data. During the transmission of packets, each packet may take a different path to the destination. This may cause the packets to be received in an out-of-order fashion, or in the order they were sent over the wire by the sender. An attacker can attempt to guess the sequencing numbers of packets and inject malicious packets into the network destined for the target. When the target receives the packets, the receiver would assume they came from the real sender as they would contain the appropriate sequence numbers and a spoofed IP address. Summary In this article, we have explored the different types of vulnerabilities that exist at the Application and Transport Layer of the TCP/IP protocol suite. To understand other networking concepts like network architecture, security, network monitoring, and troubleshooting; and ace the CompTIA certification exam, check out our book CompTIA Network+ Certification Guide AWS announces more flexibility its Certification Exams, drops its exam prerequisites Top 10 IT certifications for cloud and networking professionals in 2018 What matters on an engineering resume? Hacker Rank report says skills, not certifications
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Melisha Dsouza
31 Oct 2018
3 min read
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5G - Trick or Treat?

Melisha Dsouza
31 Oct 2018
3 min read
5G - or "fifth generation" - mobile internet is coming very soon - possibly early next year. It promises much faster data download speeds - 10 to 20 times faster than we have now. With an improvement in upload speeds, wider coverage and more stable connections, 5G is something to watch out for. Why are people excited about 5G? Mobile is today the main way people use the internet. That change has come at an amazing pace. With this increase in mobile users, demand for services, like music and video streaming, has skyrocketed.. This can cause particular problems when lots of people in the same area access online mobile services at the same time, leading to a congestion of existing spectrum bands, thus resulting in service breakdowns. 5G will use the radio spectrum much more efficiently, enabling more devices to access mobile internet services at the same time. But it’s not just about mobile users. It’s also about the internet of things and smart cities. For example, as cities look to become better connected, with everything from streetlights to video cameras in some way connected to the internet, this network will support this infrastructure in a way that would have previously been impossible. From swarms of drones carrying out search and rescue missions, yo fire assessments and traffic monitoring, 5G really could transform the way we understand and interact with our environment.  It’s not just about movies downloading faster, it’s also about autonomous vehicles communicating with each other seamlessly and reading live map and traffic data to take you to your destination in a more efficient and environmentally friendly way. 5G will also go hand-in-hand with AI, propagating its progress! 5G: trick or treat? All this being said, there will be an increase in cost to employ skilled professionals to manage 5G networks. Users will also need to buy new smartphones that support this network - even some of the most up to date phones will need to be replaced. When  4G was introduced in 2009/10, compatible smartphones came onto the market before the infrastructure had been rolled out fully. That’s a possibility with 5G, but it does look like it might take a little more time.. This technology is still under development and will take some time to be fully operational without any issues. We will leave it up to you decide if the technology is a Trick or a Treat! How 5G Mobile Data will propel Artificial Intelligence (AI) progress VIAVI releases Observer 17.5, a network performance management and diagnostics tool
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Amarabha Banerjee
15 Aug 2018
3 min read
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Twilio WhatsApp API: A great tool to reach new businesses

Amarabha Banerjee
15 Aug 2018
3 min read
The trend in the last few years have indicated that businesses want to talk to their customers in the same way they communicate with their friends and family. This enables them to cater to their specific need and to create customer centric  products. Twilio, a cloud and communication based platform has been at the forefront of creating messaging solutions for businesses. Recently, Twilio has enabled developers to integrate SMSing and calling facilities into their applications using the Twilio Web Services API. Over the last decade, Twilio customers have used Programmable SMS to build innovative messaging experiences for their users, whether it is sending instant transaction notifications for money transfers, food delivery alerts, or helping millions of people with the parking tickets. This latest feature added to the Twilio API integrates WhatsApp messaging into the application and manages messages and WhatsApp contacts with a business account. Why is the Twilio Whatsapp integration so significant? WhatsApp is one of the most popular instant messaging apps in the world presently. Everyday, 30 million messages are exchanged using WhatsApp. The visualization below shows the popularity of WhatsApp across different countries. Source: Twilio Integrating WhatsApp communications in the business applications would mean greater flexibility and ability to reach to a larger segment of audience. How is it done The operational overhead of integrating directly with the WhatsApp messaging network requires hosting, managing, and scaling containers in your own cloud infrastructure. This can be a tough task for any developer or business with a different end-objective and limited budget. The Twilio API makes it easier for you. WhatsApp delivers end-to-end message encryption through containers. These containers manage encryption keys and messages between the business and users. The containers need to be hosted in multiple regions for high availability and to scale efficiently, as messaging volume grows. Twilio solves this problem for you with a simple and reliable REST API. Other failsafe messaging features like: User opt-out options from WhatsApp messages Automatic switching to sms messaging in the absence of data network Shift to another messaging service in regions where WhatsApp is absent etc; can be implemented easily using the Twilio API. Also, you do not have to use separate APIs to get connected with different messaging services like Facebook messenger, MMS, RCS, LINE etc as all of them are possible within this API. WhatsApp is taking things at a slower pace currently. It initially allows you to develop a test application using the Twilio Sandbox for WhatsApp. This lets you to test your application first, and send messages to a limited number of users only. After your app gets production ready, you can create a WhatsApp business profile and get a dedicated Twilio number to work with WhatsApp. Source: Twilio With the added feature, Twilio enables you to leave aside the maintenance aspect of creating a separate WhatsApp integration service. Twilio takes care of the cloud containers and the security aspect of the application. It gives developers an opportunity to focus on creating customer centric products to communicate with them easily and efficiently. Make phone calls and send SMS messages from your website using Twilio Securing your Twilio App Building a two-way interactive chatbot with Twilio: A step-by-step guide
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Vijin Boricha
05 Jul 2018
7 min read
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Top 10 IT certifications for cloud and networking professionals in 2018

Vijin Boricha
05 Jul 2018
7 min read
Certifications have always proven to be one of the best ways to boost one’s IT career. Irrespective of the domain you choose, you will always have an upperhand if your resume showcases some valuable IT certifications. Certified professionals attract employers as certifications are an external validation that an individual is competent in that said technical skill. Certifications enable individuals to start thinking out of the box, become more efficient in what they do, and execute goals with minimum errors. If you are looking at enhancing your skills and increasing your salary, this is a tried and tested method. Here are the top 10 IT certifications that will help you in uprising your IT career. AWS Certified Solution Architect - Associate: AWS is currently the market leader in the public cloud. Packt Skill Up Survey 2018 confirms this too. Source: Packt Skill Up Survey 2018 AWS Cloud from Amazon offers a cutting-edge platform for architecting, building, and deploying web-scale cloud applications. With rapid adaptation of cloud platform the need for cloud certifications has also increased. IT professionals with some experience of AWS Cloud, interested in designing effective Cloud solutions opt for this certification. This exam promises to scale your ability of architecting and deploying secure and robust applications on AWS technologies. Individuals who fail to pass an exam must wait 14 days before they are eligible to retake the exam. There isn’t any attempt limit for this exam. AWS Certification passing scores depend on statistical analysis and are subject to change. Exam Fee: $150 Average Salary: $119,233 per annum Number of Questions: 65 Types of Question: MCQ Available Languages: English, Japanese AWS Certified Developer - Associate: This is another role-based AWS certification that has gained enough traction for industries to keep it as a job validator. This exam helps individuals validate their software development knowledge which helps them develop cloud applications on AWS. IT professionals with hands-on experience in designing and maintaining AWS-based applications should definitely go for this certification to stand-out. Individuals who fail to pass an exam must wait 14 days before they are eligible to retake the exam. There isn’t any attempt limit for this exam. AWS Certification passing scores depend on statistical analysis and are subject to change. Exam Fee: $150 Average Salary: $116,456 per annum Number of Questions: 65 Types of Question: MCQ Available Languages: English, Simplified Chinese, and Japanese Project Management Professional (PMP) Project management Professional is one of the most valuable certifications for project managers. The beauty of this certification is that it not only teaches individuals creative methodologies but makes them proficient in any industry domain they look forward to pursuing. The techniques and knowledge one gets from this certification is applicable in any industry globally. This certification promises that PMP certified project managers are capable of completing projects on time, in a desired budget and ensure meeting the original project goal. Exam Fee: Non-PMI Members: $555/ PMI Members: $405 Average Salary: $113,000 per annum Number of Questions: 200 Type of Question: A combination of Multiple Choice and Open-end Passing Threshold: 80.6% Certified Information Systems Security Professional (CISSP) CISSP is one of the globally recognized security certifications. This cybersecurity certification is a great way to demonstrate your expertise and build industry-level security skills. On achieving this certification users will be well-versed in designing, engineering, implementing, and running an information security program. Users need at least 5 years of minimum working experience in order to be eligible for this certification. This certification will help you measure your competence in designing and maintaining a robust environment. Exam Fee: $699 Average Salary: $111,638 per annum Number of Questions: 250 (each question carries 4 marks) Type of Question: Multiple Choice Passing Threshold: 700 marks CompTIA Security+ CompTIA Security+ certification is a vendor neutral certification used to kick-start one’s career as a security professional. It helps users get acquainted to all the aspects related to IT security. If you are inclined towards systems administration, network administration, and security administration, this is something that you should definitely go for. With this certification users learn the latest trends and techniques in risk management, risk mitigation, threat management and intrusion detection. Exam Fee: $330 Average Salary: $95,829 per annum Number of Questions: 90 Type of Question: Multiple Choice Available Languages: English (Japanese, Portuguese and Simplified Chinese estimated Q2 2018) Passing Threshold: 750/900 CompTIA Network+ Another CompTIA certification! Why? CompTIA Network+ is a certification that helps individuals in developing their career and validating their skills to troubleshoot, configure, and manage both wired and wireless networks. So, if you are an entry-level IT professional interested in managing, maintaining, troubleshooting and configuring complex network infrastructures then, this one is for you. Exam Fee: $302 Average Salary: $90,280 per annum Number of Questions: 90 Type of Question: Multiple Choice Available Languages: English (In Development: Japanese, German, Spanish, Portuguese) Passing Threshold: 720 (on a scale of 100-900) VMware Certified Professional 6.5 – Data Center Virtualization (VCP6.5-DCV) Yes, even today virtualization is highly valued in a lot of industries. Data Center Virtualization Certification helps individuals develop skills and abilities to install, configure, and manage a vSphere 6.5 infrastructure. This industry-recognized certification validates users’ knowledge on implementing, managing, and troubleshooting a vSphere V6.5 infrastructure. It also helps IT professionals build a  foundation for business agility that can accelerate the transformation to cloud computing. Exam Fee: $250 Average Salary: $82,342 per annum Number of Questions: 46 Available language: English Type of Question: Single and Multiple Choice Passing Threshold: 300 (on a scale of 100-500) CompTIA A+ Yet another CompTIA certification that helps entry level IT professionals have an upper hand. This certification is specially for individuals interested in building their career in technical support or IT operational roles. If you are thinking more than just PC repair then, this one is for you. By entry level certification I mean this is a certification that one can pursue simultaneously while in college or secondary school. CompTIA A+ is a basic version of Network+ as it only touches basic network infrastructure issues while making you proficient as per industry standards. Exam Fee: $211 Average Salary:$79,390 per annum Number of Questions: 90 Type of Question: Multiple Choice Available Languages: English, German, Japanese, Portuguese, French and Spanish Passing Threshold: 72% for 220-801 exam and 75% for 220-802 exam Cisco Certified Networking Associate (CCNA) Cisco Certified Network Associate (CCNA) Routing and Switching is one of the most important IT certifications to stay up-to date with your networking skills. It is a foundational certification for individuals interested in a high level networking profession. The exam helps candidates validate their knowledge and skills in networking, LAN switching, IPv4 and IPv6 routing, WAN, infrastructure security, and infrastructure management. This certification not only validates users networking fundamentals but also helps them stay relevant with skills needed to adopt next generation technologies. Exam Fee: $325 Average Salary:$55,166-$90,642 Number of Questions: 60-70 Available Languages: English, Japanese Type of Question: Multiple Choice Passing Threshold: 825/1000 CISM (Certified Information Security Manager) Lastly, we have Certified Information Security Manager (CISM), a nonprofit certification offered by ISACA that caters to security professionals involved in information security, risk management and governance. This is an advanced-level certification for experienced individuals who develop and manage enterprise information security programs. Only users who hold five years of verified experience, out of which 3 year of experience in infosec management, are eligible for this exam. Exam Fee: $415- $595 (Cheaper for members) Average Salary: $52,402 to $243,610 Number of Questions: 200 Passing Threshold: 450  (on a scale of 200-800) Type of Question: Multiple Choice Are you confused as to which certification you should take-up? Well, leave your noisy thoughts aside and choose wisely. Pick-up an exam that is inclined to your interest. If you want to pursue IT security don’t end-up going for Cloud certifications. No career option is fun unless you want to pursue it wholeheartedly. Take a right step and make it count. Why AWS is the prefered cloud platform for developers working with big data? 5 reasons why your business should adopt cloud computing Top 5 penetration testing tools for ethical hackers  
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Vijin Boricha
03 May 2018
5 min read
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Serverless computing wars: AWS Lambdas vs Azure Functions

Vijin Boricha
03 May 2018
5 min read
In recent times, local servers and on-premises computers are counted as old school. Users and organisations have shifted their focus on Cloud to store, manage, and process data. Cloud computing has evolved in ways that DevOps teams can now focus on improving code and processes rather than focusing on provisioning, scaling, and maintaining servers. This means we have now entered the Serverless era, and the big players of this era are AWS Lambda and Azure Functions. So if you are a developer now you need not worry about low-level infrastructure decision. Coming to the bigger question. What is Serverless Computing / Function-as-a-Service? Serverless Computing / Function-as-a-Service FaaS can be described as a concept of serverless computing where applications depend on third party services to manage server-side logics. This means application developers can concentrate on building their applications rather than thinking about servers. So if you want to build any type of application or backend service, just go about with it as everything required to run and scale your application is already being handled for you. Following are popular platforms that support Faas. AWS Lambda Azure Functions Cloud Functions Iron.io Webtask.io Benefits of Serverless Computing Serverless applications and architectures are gaining momentum and are increasingly being used by companies of all sizes. Serverless technology rapidly reduces production time and minimizes your costs, while you still have the freedom to customize your code, without hindering functionalities. For good reason, the serverless-based software takes care of many of the problems developers face when running systems and servers such as fault-tolerance, centralized logging, horizontal scalability, and deployments, to name a few. Additionally, the serverless pay-per-invocation model can result in drastic cost savings. Since AWS Lambda and Azure Functions are the most popular and widely used serverless computing platforms, we will discuss these services further. AWS Lambda AWS is recognized as one of the largest market leaders for cloud computing. One of the recent services within the AWS umbrella that has gained a lot of traction is AWS Lambda. It is the part of Amazon Web Services that lets you run your code without provisioning or managing servers. AWS Lambda is a compute service that enables you to deploy applications and back-end services that operate with zero upfront cost and requires no system administration. Although seemingly simple and easy to use, Lambda is a highly effective and scalable compute service that provides developers with a powerful platform to design and develop serverless event-driven systems and applications. Pros: Supports automatic scaling Support unlimited number of functions Takes 1 million requests for free, then charges $0.20/1 million invocations, plus $0.00001667/GB per sec Cons: Limited concurrent executions (1000 executions per account) Supports lesser languages in comparison to Azure (JavaScript, Java, C#, and Python) Azure Functions Microsoft provides a solution you can use to easily run small segments of code in the Cloud: Azure Functions. It provides solutions for processing data, integrating systems, and building simple APIs and microservices. Azure Functions help you easily run small pieces of code in cloud without worrying about a whole application or the infrastructure to run it. With Azure functions, you can use triggers to execute your code and bindings to simplify the input and output of your code. Pros: Supports unlimiter concurrent executions Supports C#, JavaScript, F#, Python, Batch, PHP, PowerShell Supports unlimited number of functions Takes 1 million requests for free, then charges $0.20/1 million invocations, plus $0.000016/GB per sec Cons: Manual scaling (App Service Plan) Conclusion When compared with the traditional Client-server approach, serverless architecture saves a lot effort and proves to cost effective for many organisations, no matter its size. The most important aspect of choosing the right platform is understanding which platform benefits your organisation the best. AWS Lambda has been around for a while with infinite support to Linux-based platforms but Azure Functions is not behind in supporting Windows-based suite even after entering the serveless market recently. If you are going to adopt AWS you will be to make the most of its; availability to open source integration, pay-as-you-go model, and high performance computing environment. Azure, on the other hand is easier to use as it’s a Windows platform. It also supports a precise pricing model where they charge by the minute and it has extended support for MacOS and Linux. So if you are looking for a clear winner here you shouldn't be surprised that AWS and Azure are similar in many ways and it would be a tie if it was to choose who is better or worse than the other. This battle would always be heated and experts will be placing their bets on who wins the race. In the end, the entire discussion would drill down to what your business needs. After all the mission would always be to grow your business at a marginal cost. The Lambda programming model How to Run Code in the Cloud with AWS Lambda Download Microsoft Azure serverless computing e-book for free
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