10 Core Concepts that Every Windows Network Admin Must Know

 

Introduction

I thought that this article might be helpful for Windows Network Admins out there who need some “brush-up tips” as well as those who are interviewing for network admins jobs to come up with a list of 10 networking concepts that every network admin should know.

So, here is my list of 10 core networking concepts that every Windows Network Admin (or those interviewing for a job as one) must know:

1.     DNS Lookup

The domain naming system (DNS) is a cornerstone of every network infrastructure. DNS maps IP addresses to names and names to IP addresses (forward and reverse respectively). Thus, when you go to a web-page like www.windowsnetworking.com, without DNS, that name would not be resolved to an IP address and you would not see the web page. Thus, if DNS is not working “nothing is working” for the end users.

DNS server IP addresses are either manually configured or received via DHCP. If you do an IPCONFIG /ALL in windows, you will see your PC’s DNS server IP addresses.


Figure 1:  DNS Servers shown in IPCONFIG output

So, you should know what DNS is, how important it is, and how DNS servers must be configured and/or DNS servers must be working for “almost  anything” to work.

When you perform a ping, you can easily see that the domain name is resolved to an IP (shown in Figure 2).


Figure 2: DNS name resolved to an IP address

2.     Ethernet & ARP

Ethernet is the protocol for your local area network (LAN). You have Ethernet network interface cards (NIC) connected to Ethernet cables, running to Ethernet switches which connect everything together. Without a “link light” on the NIC and the switch, nothing is going to work.

MAC addresses (or Physical addresses) are unique strings that identify Ethernet devices. ARP (address resolution protocol) is the protocol that maps Ethernet MAC addresses to IP addresses. When you go to open a web page and get a successful DNS lookup, you know the IP address. Your computer will then perform an ARP request on the network to find out what computer (identified by their Ethernet MAC address, shown in Figure 1 as the Physical address) has that IP address.

3.     IP Addressing and Subnetting

Every computer on a network must have a unique Layer 3 address called an IP address. IP addresses are 4 numbers separated by 3 periods like 1.1.1.1.

Most computers receive their IP address, subnet mask, default gateway, and DNS servers from a DHCP server. Of course, to receive that information, your computer must first have network connectivity (a link light on the NIC and switch) and must be configured for DHCP.

You can see my computer’s IP address in Figure 1 where it says IPv4 Address 10.0.1.107. You can also see that I received it via DHCP where it says DHCP Enabled YES.

Larger blocks of IP addresses are broken down into smaller blocks of IP addresses and this is called IP subnetting. I am not going to go into how to do it and you do not need to know how to do it from memory either (unless you are sitting for a certification exam) because you can use an IP subnet calculator, downloaded from the Internet, for free.

4.     Default Gateway

The default gateway, shown in Figure 3 as 10.0.1.1, is where your computer goes to talk to another computer that is not on your local LAN network. That default gateway is your local router. A default gateway address is not required but if it is not present you would not be able to talk to computers outside your network (unless you are using a proxy server).


Figure 3: Network Connection Details

5.     NAT and Private IP Addressing

Today, almost every local LAN network is using Private IP addressing (based on RFC1918) and then translating those private IPs to public IPs with NAT (network address translation). The private IP addresses always start with 192.168.x.x or 172.16-31.x.x or 10.x.x.x (those are the blocks of private IPs defined in RFC1918).

In Figure 2, you can see that we are using private IP addresses because the IP starts with “10”. It is my integrated router/wireless/firewall/switch device that is performing NAT and translating my private IP to my public Internet IP that my router was assigned from my ISP.

6.     Firewalls

Protecting your network from malicious attackers are firewalls. You have software firewalls on your Windows PC or server and you have hardware firewalls inside your router or dedicated appliances. You can think of firewalls as traffic cops that only allow certain types of traffic in that should be in.

7.     LAN vs WAN

Your local area network (LAN) is usually contained within your building. It may or may not be just one IP subnet. Your LAN is connected by Ethernet switches and you do not need a router for the LAN to function. So, remember, your LAN is “local”.

Your wide area network (WAN) is a “big network” that your LAN is attached to. The Internet is a humongous global WAN. However, most large companies have their own private WAN. WANs span multiple cities, states, countries, and continents. WANs are connected by routers.

8.     Routers

Routers route traffic between different IP subnets. Router work at Layer 3 of the OSI model. Typically, routers route traffic from the LAN to the WAN but, in larger enterprises or campus environments, routers route traffic between multiple IP subnets on the same large LAN.

On small home networks, you can have an integrated router that also offers firewall, multi-port switch, and wireless access point.

9.     Switches

Switches work at layer 2 of the OSI model and connect all the devices on the LAN. Switches switch frames based on the destination MAC address for that frame. Switches come in all sizes from small home integrated router/switch/firewall/wireless devices, all the way to very large Cisco Catalyst 6500 series switches.

10. OSI Model encapsulation

One of the core networking concepts is the OSI Model. This is a theoretical model that defines how the various networking protocols, which work at different layers of the model, work together to accomplish communication across a network (like the Internet).

Unlike most of the other concepts above, the OSI model isn’t something that network admins use every day. The OSI model is for those seeking certifications like the Cisco CCNA or when taking some of the Microsoft networking certification tests. OR, if you have an over-zealous interviewer who really wants to quiz you.

To fulfill those wanting to quiz you, here is the OSI model:

  • Application – layer 7 – any application using the network, examples include FTP and your web browser
  • Presentation – layer 6 – how the data sent is presented, examples include JPG graphics, ASCII, and XML
  • Session – layer 5 – for applications that keep track of sessions, examples are applications that use Remote Procedure Calls (RPC) like SQL and Exchange
  • Transport – layer 4 -provides reliable communication over the network to make sure that your data actually “gets there” with TCP being the most common transport layer protocol
  • Network – layer 3 -takes care of addressing on the network that helps to route the packets with IP being the most common network layer protocol. Routers function at Layer 3.
  • Data Link – layer 2 -transfers frames over the network using protocols like Ethernet and PPP. Switches function at layer 2.
  • Physical – layer 1 -controls the actual electrical signals sent over the network and includes cables, hubs, and actual network links.

At this point, let me stop degrading the value of the OSI model because, even though it is theoretical, it is critical that network admins understand and be able to visualize how every piece of data on the network travels down, then back up this model. And how, at every layer of the OSI model, all the data from the layer above is encapsulated by the layer below with the additional data from that layer. And, in reverse, as the data travels back up the layer, the data is de-encapsulated.

By understanding this model and how the hardware and software fit together to make a network (like the Internet or your local LAN) work, you can much more efficiently troubleshoot any network.

 

Summary

I can’t stress enough that if you are interviewing for any job in IT, you should be prepared to answer networking questions. Even if you are not interviewing to be a network admin, you never know when they will send a senior network admin to ask you a few quiz questions to test your knowledge. I can tell you first hand, the questions above are going to be the go-to topics for most network admins to ask you about during a job interview. And, if you are already a windows network admin, hopefully this article serves as an excellent overview of the core networking concepts that you should know. While you may not use these every day, knowledge of these concepts is are going to help you troubleshoot networking problems faster.