What is the purpose of DNS Monitoring?

All types of businesses require monitoring, especially DNS Monitoring. Observing and constantly checking the processes and progress to guarantee quality and good results are necessary. Online businesses are not an exception.

What does DNS Monitoring mean?

Domain Name System (DNS) Monitoring means automated checking of the different processes that DNS involves. An effective DNS monitoring must keep you updated in detail about all DNS activity, detect issues, and alert you on time about problems or cyber threats. This way, the administrator or responsible in your team can properly react.

DNS monitoring involves different technology, techniques, and software for the surveillance of your systems and diagnosis of issues. You can build your own Domain Name System Monitoring strategy or get it as a service. There are many providers on the market offering modern solutions and support to keep your DNS running smoothly.

What is the purpose of DNS Monitoring?

There are many actors involved for your domain to be online, reachable, and working without problems. Avoiding configuration errors, software or hardware failures, cyberattacks, or downtime demands to keep everything under systematic review.

The purpose of DNS Monitoring is to help you keep DNS performance at healthy levels for your domain to be reliable, meaning to operate on the Internet without issues that can stop traffic or disappoint clients. Remember that any problem related to DNS can drop your business from the Internet. Clients and potential ones won’t have access to it, and that means financial loss or a bad reputation for you.

These are the types of tasks Domain Name System Monitoring is in charge of checking.

  • It tracks DNS queries and servers to detect performance problems.
  • It checks the DNS resolution process to be sure the domain name is correctly translated to its associated IP address.
  • In case a DNS server doesn’t answer as expected, DNS monitoring should detect and alert about the issue to be fixed.
  • It supervises the traffic (incoming and outgoing) to get statistics and helpful patterns to compare the daily activity. From there, you can distinguish normal from abnormal traffic.
  • It alerts about spikes of traffic or potential floods and cyber attacks.
  • It warns about sudden or rare changes in configurations, localized outages, and more.
  • It keeps an eye on the hardware to supervise its adequate performance, detect possible problems, and alert the right mate to fix it.

Advantages of DNS Monitoring

  • DNS Monitoring improves your DNS security while increasing the possibility of preventing all types of threats and failures.
  • It is a great ally to detecting on time and mitigating cyber attacks (DoS, DDoS).
  • It is the best workmate for your diagnosis and troubleshooting team.
  • It operates 24/7, without any breaks, to provide complete supervision.
  • It can be connected to a DNS Failover and trigger automatic actions that will perform load balancing and keep the DNS network well.

Conclusion

Briefly, the purpose of DNS Monitoring is to provide you with automated and sharp ‘extra eyes’ to keep your DNS and online business running securely and in the best technical conditions.

Domain Name System (DNS): Definition & Main components

The Domain Name System (DNS) is a huge network of nameservers that routes DNS queries and makes the Internet possible. There are many things to cover, so let’s jump right into the topic.

Domain Name System (DNS) definition.

The Domain Name System (DNS) is a decentralized, hierarchical network of servers that get questions through DNS queries about domain names (hosts) and answer with DNS records holding the answers. The most common question is where a particular domain name is, and the DNS resolves the question with the IP address where the content is hosted.

Why do we need the Domain Name System (DNS), and why is it important?

Let’s see the main DNS components. 

DNS records

The DNS records are text instructions with various functions like linking domain names to IP addresses, services to hosts, verifying services, and more. They are hosted in a so-called zone file inside DNS servers. The servers can be Primary DNS servers and Secondary DNS servers. The records can be edited only on Primary servers, while the Secondary have only a copy of the records.

DNS query

A DNS query is the question a DNS client asks a DNS server. Depending on the purpose, the client requests different types of DNS records. For example, if a DNS client wants the IP address of Google, he or she will ask for its A or AAAA records that include IP addresses.

Recursive DNS servers

When you perform a DNS query, the Recursive server will be the one that will search for your answer. It is the intermediate that asks other Recursive servers and gets an answer from them or goes to the highest level of authority, the Root servers. It will return the answer to the DNS client and create more queries if the answer is not complete. After the answer is given, it will be saved inside the cache of the Recursive server, the time the TTL of the DNS records indicates.

Authoritative nameservers

The authoritative name servers are those DNS servers that host the original zone file for a domain. They will have the answer for a particular part of the DNS. As we said, it is a hierarchical and decentralized network, so there are many authoritative servers that respond for a particular part of the domain. 

Root servers

The Root servers and Authoritative name servers from the highest level. In a DNS query, they will be the first that will start to answer your query. They will only guide your query to the right Top-Level Domain servers (TLD). There are many main DNS components, but this is the highest.

TLD servers

The TLD servers are authoritative for Top-Level Domains like .com, .de, .it, and so on. They will know where the nameservers of domains, using their TLD, are located. They will answer this part of the query and provide the answer to the Recursive servers.

Authoritative nameservers for domain names and subdomains.

Now, finally knowing the nameservers of a domain name, the Recursive server can ask for the right DNS record or records. The query will be answered, and the result will be returned to the DNS client.

If the DNS query was for a subdomain, then there will be one more level of answer searching. The final answer will come from the authoritative server of the subdomain.

Suggested article: Everything you need to know about Dynamic DNS