12 Most Important Protocols to Learn for Networking
A strong networking foundation is the bedrock of any successful IT career. Learning networking basics requires absorbing and retaining a lot of information. The terminology alone is mind-boggling. As a result, networking can be challenging to pick up, especially if you are new to IT. To that end, let's explore 12 important networking protocols every IT professional needs to know — and why they matter.
1. Address Resolution Protocol (ARP)
ARP is a protocol used in the TCP/IP stack to assist in mapping Layer 2 MAC addresses into IP addresses. This protocol is important to understand because ARP lookups get cached. That cache can corrupt or just become stale and provide incorrect results. Often, this can be corrected simply by clearing the cache on the appropriate devices.
2. Spanning Tree Protocol (STP)
Spanning Tree is an extremely important protocol. In enterprise switches, it is typically enabled by default. STP has a few flavors, depending on the OEM, but they all do a very important thing: prevent network loops from happening.
Network loops can sometimes occur when redundant connections between switches are established without the proper configuration of LACP (Link Aggregation Control Protocol). It can also occur when end users try to sneak a hub or switch in under their desk to connect more devices and want to connect multiple ports for more bandwidth.
On the flip side, leaving STP enabled on ports connected to workstations can prevent protocols like DHCP from working. The port will block traffic for a set period to try to detect the loop before traffic occurs. Some STP implementations do this longer than a standard DHCP attempt.
3. IEEE 802.1Q
IEEE 802.1Q is more of a standard than a protocol but is just as important. Often referred to as simply dot1Q, this is the standard for VLAN tagging. It allows for a multiplexing of different VLANs over the same wire by prepending a VLAN header. Prior to this, OEMs had proprietary standards, which were not interoperable.
Dot1Q allows multiple VLANs to be multiplexed over a single or set of uplinks. Without it, each VLAN would need its own uplink to the next switch. Routers would also need separate uplinks to each VLAN.
4. TCP/IP
TCP/IP is a suite of related protocols. At Layer 3, the Internet Protocol (IP) operates, allowing for routing. At Layer 4, TCP and UDP operate, giving you a stateful and stateless option. ICMP falls under this suite of protocols but does not transport data and is typically used for diagnostics.
Most networking uses this stack. It is important to understand so you know which protocols to use for troubleshooting. ICMP is great for testing latency, but sometimes you need to use UDP-based tools when ICMP is blocked. For bandwidth and latency testing, UDP is probably better at latency, while TCP is great for overall bandwidth.
At Layer 3, understanding how IP addresses and subnets work, along with the routing of this traffic, can help you troubleshoot issues with traffic reaching its destination.
5. HTTP
Hypertext Transfer Protocol (HTTP) is a higher-layer protocol used by applications and is important because of its wide usage. Not only do web pages and web services use it, but VPN tunnels and web sockets may use it as well.
If there are performance issues or errors, it can be helpful to understand HTTP, especially if you have to resort to using a browser debugger to determine an error. Sometimes HTTP error codes are buried or hidden in the HTTP results, such that a browser doesn't show them, but they are still present.
6. FTP
File Transfer Protocol (FTP) is a legacy protocol that has been around for quite some time. It is still in use, although other mechanisms or protocols are usually preferred when possible. Usually, it is a highly reliable protocol that allows for sending and receiving files.
This protocol has a few different methods and flavors, so understanding those nuances is very helpful. Legacy FTP has a control channel and a data channel. The data channel has two modes: active and passive. One uses the control channel to set up a server on the client for the data transfer, while the other allows the server to specify TCP ports to initiate the data connection.
On top of that is FTP over SSL/TLS. This is broken down into explicit and implicit. The difference is that one explicitly indicates a TLS connection should start via the STARTTLS command, while the other implies TLS simply by connecting to a specific TLS port. FTP is one of the more complex protocols to understand because of all the nuances that have been added over the years.
7. Network Time Protocol (NTP)
Network Time Protocol is extremely important, particularly for network security. It helps ensure system and device times are accurate. Many newer authentication protocols depend on accurate time to work, while security appliances require accurate timestamps to work effectively.
Many highly secured environments have a set of internal authoritative time servers. These time servers connect to a specific set of configured external time servers. Typically, all internal machines are only allowed to connect to the internal authoritative servers. This helps ensure the environment is completely in sync with a trust hierarchy of time.
8. Internet Group Management Protocol (IGMP)
IGMP is an extremely important protocol as it relates to IP multicast. It allows nodes to indicate their multicast memberships to routers so routers can send only those nodes the multicast streams they have subscribed to.
Real-time video is a prime use case of this protocol. In an intranet, many users may want to watch a real-time corporate video, but if the company is very large, sending it individually to every end user's machine could saturate the network. IGMP helps with that by sending it downstream to the switches, at which point they split it out and deliver it to the individual machines connected to those switches.
9. Simple Mail Transfer Protocol (SMTP)
SMTP is a mail transmission protocol that has been around since the early 1980s and has been updated over the years. It is still the standardized method for mail servers to communicate with each other when transmitting emails.
If you use Exchange (On-Prem or Online), G-Suite, Gmail, or any other email provider, SMTP is the protocol their edge mail servers use to send mail from one organization to another. Often, the protocol is used internally as well, but not always. Being able to understand SMTP can help you manually inject mail for testing, as well as understand SMTP headers to detect bottlenecks in the delivery.
10. Secure Shell (SSH)
SSH has been around since the mid-1990s and has been replacing legacy protocols like telnet ever since. SSH is an encrypted, remote connection and file transfer protocol that continually receives security updates as new encryption technology emerges.
Many UNIX, Linux, and network administrators are in SSH sessions regularly. These are command line sessions into remote machines. It is similar to RDP sessions on Windows servers, except imagine if those RDP sessions only opened to a command prompt. On Windows, PuTTY is the most widely used terminal, but on UNIX workstations, an SSH executable is native to the operating systems.
11. Border Gateway Protocol (BGP)
BGP is typically used for internet routing, but often, internal MPLS circuits will use it as well. It is important to understand this protocol if you encounter it within a network. The most common use case for this protocol is the internet. The backbone of the internet's routing is determined by data interchanged by BGP between internet routers.
It is possible to have an internet router without BGP, but typically, the routers upstream from you are handling BGP. Understanding BGP can help you learn to set up redundant internet connections properly. You can also set up BGP peering so that physical connections can be brought on to help the latency of specific users.
12. Open Shortest Path First (OSPF)
OSPF is a fairly common interior routing protocol. While it is usually a matter of just turning it on, more complex environments do have configurations for the protocol. A common use case for OSPF is a scenario where multiple data centers change over time.
When you bring online new subnets in one data center, OSPF and protocols like it help avoid needing static routes on all of the equipment at each data center when a new subnet is brought online.
Final Thoughts
Having a strong understanding of networking is essential to any IT career. Networking is where it all starts. As this list demonstrates, though, there are a lot of concepts and terminology to understand.
As networking continues to evolve, it will be important for IT pros to expand their knowledge base. At CBT Nuggets, we believe that making learning a lifelong habit isn't just a choice — it's the key to thriving in IT.
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