Secure your DNS, Protect your network

DNS is mission-critical to access apps dynamically, if the DNS server experiences an outage, a firm can’t access any vital app or services. DNS data and servers have become paramount targets and entry points for data espionage. Businesses are making enterprise network security a major priority, they experienced DNS assaults and suffered irreparable losses such as huge business losses, application outages, and data theft. Traditional network security solutions have become unsuccessful when focusing on DNS protection. They are ineffective in response to copious DNS attacks, and are incapable of identifying DNS tunneling or attempts at data exfiltration.

DNS attacks are shifting from actual brute-force attacks to more intricated attacks within the internal network. It forces enterprises to employ smart mitigation solutions to easily cope with evolving threats. To manage DNS security, enterprises must inspect DNS traffic departing from their network and ensure access limits and proper hygiene for DNS-related accounts in order to remain vigilant, plug security holes, and patrol for potential breaches around the clock.

Nearly 90% of organizations hit by DNS attacks actively.

76% of DNS attacks resulted in application outage and the average DNS attack took more than five and half hours to mitigate.

Ransom DDoS attacks surged by 175% quarter by quarter and by 29 percent year by year.

Total Control on DNS Assets with Cloud4C: Cloud-based DNS Security

DNS attacks have severe impacts causing significant disruptions. To counter this, DNS security solutions provide proactive monitoring capabilities to pin down unauthorized or malicious bots disrupting server performance, service availability, and network connectivity.

At Cloud4C, DNS security solutions provide better accuracy, detection of malicious activity and compromised systems, augment security visibility and network protection, and boasts incredible resilience. We ensure business continuity, 100% uptime, reduce TCO and deliver Fast ROI while shielding threats spreading using feeding threat intelligence to enterprise network ecosystem.

DNS Security Solutions: Key Benefits

Protect against all DNS attacks
Protect against all DNS attacks
Unique attack detection capabilities
Adaptive security for better service continuity
Easy to deploy and cost-effective
Simple integration inside network security ecosystem
Protection against DNS Attacks

Purpose-built DNS security comes up with an effective layer of defense in response to distinct DNS attacks such as DDoS, zero-day, DNS tunneling, and DNS hijacking.

DNS Attack Detection

Behavioral attack detection coupling with threat intelligence over domain reputation furnishes unmatched end-to-end protection capabilities to detect advanced DNS attacks from the source to the destination of requests

Advanced Security

Patented innovations ensure adapted (tailored) defense and assure DNS service continuity even when attack sources are unidentifiable.

Cost Effective Security Services

An intuitive interface alongside policy-driven employment and an adaptive DNS security offers effortless and straightforward configurations

Network Security Services

The reach plug-in library and flexible APIs are deployed to make the network defense deployment and security response automation simpler.

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Types of DNS Security Threats

With the continually changing structure of the digital ecosystem, DNS security risks are also getting more sophisticated and challenging to detect. Here're some DNS security risks that DNS servers are susceptible to:

Typo squatting

Typo squatting is a method of registering a domain name that is extremely similar to an already-existing domain or a well-known brand. This is viewed as a security problem since it poses a serious threat to company confidentiality. Cybercriminals may use typosquatting as a means of information theft. Information about freshly registered domain registrations can easily be obtained, it is possible to register a domain that is quite close to a well-known brand or domain and nearly duplicate it for harmful intentions.

Distributed Denial of Service Attacks (DDoS)

Despite not being specifically malicious, distributed denial of service (DDoS) attacks hinder access to the website server. DDoS is a logical traffic bottleneck for websites and frequently occurs when businesses overlook their network’s capacity planning. For the servers to function successfully, the quantity of incoming requests must be carefully considered. Employing a DNS provider is crucial here to combating such threats.

DNS Cache Poisoning

A certain amount of data is cached on the server whenever a user accesses the internet. By lessening the burden on the DNS, caching primarily aims to improve internet performance. When a malicious website or domain is cached on the server, cache poisoning occurs.

DNS Amplification

DNS servers are frequently set up insecurely or with recursive configuration. The domain resolution process (converting the text information input to a machine language) is made more reliable by the DNS recursion scheme. Although the goal of DNS amplification is to secure DNS, open recursive DNS servers are more vulnerable to cyberattacks and can be used to intensify DDoS attacks.

Domain Hijacking

Domain hijacking involves altering DNS servers and domain registrar configuration to manage direct traffic away from the original servers and to new locations. When attackers have hijacked the domain name, they will use it to launch malicious operations like setting up a counterfeit page for payment processors like PayPal, Visa, or banking systems. Attackers will create an exact replica of the legitimate website reading sensitive personal data including email addresses, usernames, and passwords.

DNS Tunnelling

Organizations permit DNS traffic to freely access and exit their networks as it is a trustworthy protocol. Cybercriminals exploit DNS for data exfiltration by using malware whose DNS requests contain data being exfiltrated. As the target DNS server is controlled by the website’s owner, the attackers make certain that data reaches a server where attackers can process it and send a response to the DNS response packet.

Best Practices for DNS Security

DNS Security Extensions or DNSSEC

Implementing DNSSEC is recommendable to validate DNS information. DNCCEC employs public-key cryptography to verify the process. The root domain is validated using certificate-based authentication. An effective DNSSEC system confirms that the DNS server responding to a request is legitimate.

Data Encryption

The data provided in DNS requests and responses can be encrypted to provide the server with an additional layer of protection. Data encryption adds an extra degree of security by preventing hackers from stealing the data for malicious use. If the information is intercepted, even if it is encrypted, it cannot be replicated or used maliciously.

Deploying Secure DNS Configurations

DNS servers can be operated independently within an organization. It keeps DNS servers isolated and prevents relationships between them. Consequently, if one server is compromised, the effect will be limited and won't spread to the wider ecosystem. Secure DNS configuration can also restrict the amount of data each server stores to prevent the compromise of a larger collection of data.

Conducting System Updates Steadily

DNS servers follow a cadence for routine changes. It is crucial to regularly run these updates. Noval security protocols included in these upgrades allow the servers to identify any vulnerabilities and patch them before they affect the larger ecosystem.

Strengthening Detection Protocols

A strong detection protocol is critical to monitor and prevent malware attacks beforehand, for instance, increasing DNS activity from one source and about a particular domain. When attackers attempt to gain access to the DNS server for spoofing, there is an increase in malicious activities from one source with multiple domain names.

Security Training

IT security training is mandatory to ensure robust security maintenance for DNS servers. When users understand potential risks, they can use safe practices while accessing the internet. For example, verifying security certificates for websites they access, avoiding clicking unrecognized links, and performing security checks when required.

Cloud4C Full-scale Cloud-based DNS Security and Threat Management Services

Ensures 24/7 deep threat monitoring over end-to-end IT stack- users, devices, applications, networks, servers, and end-point environments, etc.

Gain automated alert management and optimization (to reduce alert fatigue) including universal organizational risk posture visibility.

Integrate threat intelligence to predict and find threats lurking under the most primitive, perimeter layers.

Analyze seemingly non-harmful codes to determine whether they can cause bigger attacks in near time.

Safeguard IT infra end-to-end: systems, devices, computing infra, networks, servers, and more and obtain global threat monitoring and deep intelligent threat detection capabilities.

Analyze risks and initiate mitigations automatically and anticipate security gaps and threat patterns via advanced analytics.

Avial next-gen firewalls, web application firewalls, DNS Security, and Breach Preventions

Take benefits from Web Application Security Testing service utilizes DAST and SAST (black box and white box techniques) to detect developing security issues.

Scan external and internal websites and sub-domains of web to conduct website analysis for vulnerable and/or erroneous code.

Monitor malicious activity upon users’ request, on-demand scans for quick review after malware removal, and detailed report on malicious content and web pages.

Avail best-in-class network security to ensure fortify the workloads, and mitigate any breach attempts into the servers.

Audit the network process against industry best practices covering areas such as incident management, backup, network monitoring, and security reviews.

Get active monitoring of databases for potential misuse and data extra filtration incidents.

Use management activities include DAM Agent provisioning, deployment, tuning and policy-based changes.

Take advantages of monitoring activities include collection, storage, reporting, and customer notification of Detected DAM security events.

Leverage web antivirus and web antispyware services to detect viruses and spyware against requests for web pages and attachments issued by users.

Web URL Filtering services to access certain Web pages or attachments.

  • Cyber Threat Monitoring

    Ensures 24/7 deep threat monitoring over end-to-end IT stack- users, devices, applications, networks, servers, and end-point environments, etc.

    Gain automated alert management and optimization (to reduce alert fatigue) including universal organizational risk posture visibility.

  • DNS-based Intelligent Threat detection

    Integrate threat intelligence to predict and find threats lurking under the most primitive, perimeter layers.

    Analyze seemingly non-harmful codes to determine whether they can cause bigger attacks in near time.

  • IT and Cyber Infra Security

    Safeguard IT infra end-to-end: systems, devices, computing infra, networks, servers, and more and obtain global threat monitoring and deep intelligent threat detection capabilities.

    Analyze risks and initiate mitigations automatically and anticipate security gaps and threat patterns via advanced analytics.

    Avial next-gen firewalls, web application firewalls, DNS Security, and Breach Preventions

  • Web Application Security Testing Services

    Take benefits from Web Application Security Testing service utilizes DAST and SAST (black box and white box techniques) to detect developing security issues.

  • Malware Detection Scanning Services

    Scan external and internal websites and sub-domains of web to conduct website analysis for vulnerable and/or erroneous code.

    Monitor malicious activity upon users’ request, on-demand scans for quick review after malware removal, and detailed report on malicious content and web pages.

  • Network Security Services

    Avail best-in-class network security to ensure fortify the workloads, and mitigate any breach attempts into the servers.

    Audit the network process against industry best practices covering areas such as incident management, backup, network monitoring, and security reviews.

  • Database Activity Monitoring (DAM)

    Get active monitoring of databases for potential misuse and data extra filtration incidents.

    Use management activities include DAM Agent provisioning, deployment, tuning and policy-based changes.

    Take advantages of monitoring activities include collection, storage, reporting, and customer notification of Detected DAM security events.

  • MSS for Web Security

    Leverage web antivirus and web antispyware services to detect viruses and spyware against requests for web pages and attachments issued by users.

    Web URL Filtering services to access certain Web pages or attachments.

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Why Choose Cloud4C for Your DNS Security Management?

Incorporates web-based application filtering and supports user-wise whitelists and blacklists.

Take advantage of fully compliant, automated, and AIOps platforms to leverage the best DNS security services.

Gain maximum cloud security benefits at minimal costs, and integrate unique threat management frameworks.

Get 24*7 automated monitoring, DNS security, and cybersecurity consulting services and support.

URL filtering using pre-defined categories and content blocking with the option for time-based rules.

Accomplish uncompromised security, uninterrupted continuity, and unstoppable transformative growth with 360-degree DNS server protection.

Gain deeper, end-to-end security for your infra-assets including data, networks, workloads, traffic, devices with ease.

Embrace the built-in security control for application networks, monitoring & logging, identity management, data protection, and configuration management.

Secure advanced protection for websites and critical business apps via DNS security best practices.

An Impact with Difference: Glimpse of Cloud4C Global Expertise

Cloud Managed Services Provider

World’s largest application-focused managed service provider with dedicated Managed Security Services and AI-driven advanced Managed Detection and Response Services

Global Customers

12+ years expertise, 4000 transformation stories across 26 nations and 26 Centers of Excellence

Advanced Cybersecurity Controls

80000 EPS, 13000 HBSS, 3200 UTMs, 7 Reg-tech Frameworks, 40+ Security Controls.

Industry Cloud Experts

2000+ cloud experts with industry-leading certifications: Hyperscaler Security, Hyperscaler Platform, CISSP, OSCP, CEH, CHFI, Comp TIA Security.

Intelligent Threat Automation

Integration of proprietary, intelligent automation powered cybersecurity tools such as the Cloud4C Self-Healing Operations Platform.

Specialized Compliance Management Expertise

Specialized compliance management expertise ensuring stringent, fail-proof governance and compliance with local, national, and international regulations.

Advanced Threat Detection

Advanced threat detection, proactive threat hunting capabilities with best of breed toolset and processes.

Threat Investigation Platforms

Comprehensive Threat Investigation and Verification with advanced Threat Intelligence powered by Industry-leading platforms such as Microsoft, OSINT, STIX&TAXI, MISP, etc. and Cloud4C Threat experts.

Cloud Native Security Services

Cloud-native security with multi-cloud support for leading cloud platforms: AWS, Azure, GCP, Oracle, IBM Cloud, etc.

Cloud SIEM Solutions

Experience in deploying and managing robust SIEM on AWS Cloud – helping enterprises to proactively assess vulnerabilities and automate and accelerate incident response on the AWS Cloud.

DNS Security Services - FAQs

  • What is DNS security?

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    The Domain Name System (DNS) security is the technique of defending DNS infrastructure from cyberattacks to support it operating fast and reliably. Establishing redundant DNS servers, using security technologies like DNSSEC, and mandating stringent DNS logging are all components of a good DNS security plan.

  • Why is DNS security important?

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    The DNS system has a number of architectural flaws. Due to these restrictions and technological advancements, DNS servers are susceptible to a variety of attacks, such as spoofing, amplification, DoS or the collection of sensitive personal data. Additionally, because DNS is a necessary component of the majority of Internet queries, it may be a target for attacks.

  • What is DNSSEC?

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    DNSSEC is the suite of extensions to the DNS standard. It uses digital signatures to authenticate the DNS responses. Several attacks like DNS spoofing, cache poisoning, and man-in-the-middle attacks etc. are prevented by DNSSEC from injecting incorrect information into DNS resolvers.

    When DNSSEC is enabled, resolvers scan the DNS record provided by authoritative DNS servers for a legitimate digital signature. This signature cannot be faked by attackers, preventing users from being misdirected to harmful websites.

  • What is a DNS firewall?

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    A DNS firewall offers DNS servers several security and performance benefits. It sits between the user’s recursive resolver and the authoritative nameserver of the website or service. To stop attackers from overwhelming the server, the firewall offers rate-limiting services.

    The DNS firewall can maintain the operator's website or service if the server goes offline due to an attack or for any other reason by providing DNS responses from cache. A DNS firewall can offer speed improvements like quicker DNS lookups and lower bandwidth costs for the DNS operator to its security capabilities.

  • Explaining DNS as a security tool

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    DNS resolvers offer security solutions to their end users who are browsing the Internet. Certain DNS resolvers offer capabilities such as content filtering preventing access to websites known to host malware and spam, and botnet prevention blocking contact with recognized botnets. A user can switch to one of these recursive DNS services by altering a single setting on their local router.

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