The dig command is a strong instrument for troubleshooting queries and responses obtained from the Area Title Service (DNS). It’s put in by default on many working programs, together with Linux® and Mac OS X. It may be put in on Microsoft Home windows as a part of Cygwin.
One of many many issues dig can do is to carry out recursive DNS decision and show the entire steps that it took in your terminal. That is extraordinarily helpful for understanding not solely how the DNS works, however for figuring out if there is a matter someplace throughout the decision chain that trigger decision failures to your zones or domains.
First, let’s briefly evaluation how a question recursive receives a response in a typical recursive DNS decision situation:
You because the DNS shopper (or stub resolver) question your recursive resolver for www.instance.com.
Your recursive resolver queries the foundation nameserver for NS data for “com.”
The foundation nameserver refers your recursive resolver to the .com High-Stage Area (TLD) authoritative nameserver.
Your recursive resolver queries the .com TLD authoritative server for NS data of “instance.com.”
The .com TLD authoritative nameserver refers your recursive server to the authoritative servers for instance.com.
Your recursive resolver queries the authoritative nameservers for instance.com for the A document for “www.instance.com” and receives 1.2.3.4 as the reply.
Your recursive resolver caches the reply at some point of the time-to-live (TTL) specified on the document and returns it to you.
The above course of principally seems to be like this:
Step 1
Step 2
Step 3
Step 4
Step 5
This course of happens each time you kind a URL into your internet browser or hearth up your electronic mail shopper. This illustrates why DNS reply velocity and accuracy are so essential: if the reply is inaccurate, you could must repeat this course of a number of instances; and if the velocity with which you obtain a solution is sluggish, then it would make every thing you do on-line appear to take longer than it ought to.
Driving each DNS reply velocity and accuracy is on the core of the IBM® NS1 Join® worth proposition.
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