Introduction of Firewall in Computer Network

A firewall is a network security device either hardware or software-based which monitors all incoming and outgoing traffic and based on a defined set of security rules it accepts, rejects, or drops that specific traffic. It acts like a security guard that helps keep your digital world safe from unwanted visitors and potential threats.

• Accept: allow the traffic
• Reject: block the traffic but reply with an “unreachable error”
• Drop: block the traffic with no reply

A firewall is a type of network security device that filters incoming and outgoing network traffic with security policies that have previously been set up inside an organization. A firewall is essentially the wall that separates a private internal network from the open Internet at its very basic level.

Need For Firewall

Before Firewalls, network security was performed by Access Control Lists (ACLs) residing on routers. ACLs are rules that determine whether network access should be granted or denied to specific IP address. But ACLs cannot determine the nature of the packet it is blocking. Also, ACL alone does not have the capacity to keep threats out of the network. Hence, the Firewall was introduced. Connectivity to the Internet is no longer optional for organizations. However, accessing the Internet provides benefits to the organization; it also enables the outside world to interact with the internal network of the organization. This creates a threat to the organization. In order to secure the internal network from unauthorized traffic, we need a Firewall.

History of Firewalls

• Late 1980s: Jeff Mogul, Brian Reid, and Paul Vixie at Digital Equipment Corp (DEC) developed packet-filtering technology, laying the groundwork for firewalls by checking external connections before they reached internal networks.
• Late 1980s – Early 1990s: AT&T Bell Labs researchers, including Presotto, Sharma, and Nigam, developed the circuit-level gateway, a firewall that vetted ongoing connections without reauthorizing each data packet, paving the way for more efficient security.
• 1991-1992: Marcus Ranum introduced security proxies at DEC, leading to the creation of the Secure External Access Link (SEAL), the first commercially available application-layer firewall, based on earlier DEC work.
• 1993-1994: At Check Point, Gil Shwed pioneered stateful inspection technology, filing a patent in 1993. Nir Zuk developed a graphical interface for Firewall-1, making firewalls accessible and widely adopted by businesses and homes

Working of Firewall

• Firewall match the network traffic against the rule set defined in its table. Once the rule is matched, associate action is applied to the network traffic. For example, Rules are defined as any employee from Human Resources department cannot access the data from code server and at the same time another rule is defined like system administrator can access the data from both Human Resource and technical department.
• Rules can be defined on the firewall based on the necessity and security policies of the organization.
• From the perspective of a server, network traffic can be either outgoing or incoming. Firewall maintains a distinct set of rules for both the cases. Mostly the outgoing traffic, originated from the server itself, allowed to pass. Still, setting a rule on outgoing traffic is always better in order to achieve more security and prevent unwanted communication. Incoming traffic is treated differently.
• Most traffic which reaches on the firewall is one of these three major Transport Layer protocols- TCP, UDP or ICMP. All these types have a source address and destination address. Also, TCP and UDP have port numbers. ICMP uses type code instead of port number which identifies purpose of that packet.

Default policy: It is very difficult to explicitly cover every possible rule on the firewall. For this reason, the firewall must always have a default policy. Default policy only consists of action (accept, reject or drop). Suppose no rule is defined about SSH connection to the server on the firewall. So, it will follow the default policy. If default policy on the firewall is set to accept, then any computer outside of your office can establish an SSH connection to the server. Therefore, setting default policy as drop (or reject) is always a good practice.

Types of Firewall

Firewalls can be categorized based on their generation.

1. Packet Filtering Firewall

Packet filtering firewall is used to control network access by monitoring outgoing and incoming packets and allowing them to pass or stop based on source and destination IP address, protocols, and ports. It analyses traffic at the transport protocol layer (but mainly uses first 3 layers). Packet firewalls treat each packet in isolation. They have no ability to tell whether a packet is part of an existing stream of traffic. Only It can allow or deny the packets based on unique packet headers. Packet filtering firewall maintains a filtering table that decides whether the packet will be forwarded or discarded. From the given filtering table, the packets will be filtered according to the following rules: 

• Incoming packets from network 192.168.21.0 are blocked.
• Incoming packets destined for the internal TELNET server (port 23) are blocked.
• Incoming packets destined for host 192.168.21.3 are blocked.
• All well-known services to the network 192.168.21.0 are allowed.

2. Stateful Inspection Firewall

Stateful firewalls (performs Stateful Packet Inspection) are able to determine the connection state of packet, unlike Packet filtering firewall, which makes it more efficient. It keeps track of the state of networks connection travelling across it, such as TCP streams. So the filtering decisions would not only be based on defined rules, but also on packet’s history in the state table.

3. Application Layer Firewall

Application layer firewall can inspect and filter the packets on any OSI layer, up to the application layer. It has the ability to block specific content, also recognize when certain application and protocols (like HTTP, FTP) are being misused. In other words, Application layer firewalls are hosts that run proxy servers. A proxy firewall prevents the direct connection between either side of the firewall, each packet has to pass through the proxy.

4. Next Generation Firewalls (NGFW)

NGFW consists of Deep Packet Inspection, Application Inspection, SSL/SSH inspection and many functionalities to protect the network from these modern threats.

5. Circuit Level Gateway Firewall

This works as the Sessions layer of the OSI Model’s . This allows for the simultaneous setup of two Transmission Control Protocol (TCP) connections. It can effortlessly allow data packets to flow without using quite a lot of computing power. These firewalls are ineffective because they do not inspect data packets; if malware is found in a data packet, they will permit it to pass provided that TCP connections are established properly.

6.  Software Firewall

A software firewall is any firewall that is set up locally or on a cloud server. When it comes to controlling the inflow and outflow of data packets and limiting the number of networks that can be linked to a single device, they may be the most advantageous. But the problem with software firewall is they are time-consuming.

7. Hardware Firewall

They also go by the name “firewalls based on physical appliances.” It guarantees that the malicious data is halted before it reaches the network endpoint that is in danger.

8. Cloud Firewall

These are software-based, cloud-deployed network devices. This cloud-based firewall protects a private network from any unwanted access. Unlike traditional firewalls, a cloud firewall filters data at the cloud level.

Importance of Firewalls

So, what does a firewall do and why is it important? Without protection, networks are vulnerable to any traffic trying to access your systems, whether it’s harmful or not. That’s why it’s crucial to check all network traffic.

When you connect personal computers to other IT systems or the internet, it opens up many benefits like collaboration, resource sharing, and creativity. But it also exposes your network and devices to risks like hacking, identity theft, malware, and online fraud.

Once a malicious person finds your network, they can easily access and threaten it, especially with constant internet connections.

Using a firewall is essential for proactive protection against these risks. It helps users shield their networks from the worst dangers.

What Does Firewall Security Do?

A firewall serves as a security barrier for a network, narrowing the attack surface to a single point of contact. Instead of every device on a network being exposed to the internet, all traffic must first go through the firewall. This way, the firewall can filter and block non-permitted traffic, whether it’s coming in or going out. Additionally, firewalls help create a record of attempted connections, improving security awareness.

What Can Firewalls Protect Against?

• Infiltration by Malicious Actors: Firewalls can block suspicious connections, preventing eavesdropping and advanced persistent threats (APTs).
• Parental Controls: Parents can use firewalls to block their children from accessing explicit web content.
• Workplace Web Browsing Restrictions: Employers can restrict employees from using the company network to access certain services and websites, like social media.
• Nationally Controlled Intranet: Governments can block access to certain web content and services that conflict with national policies or values.

By allowing network owners to set specific rules, firewalls offer customizable protection for various scenarios, enhancing overall network security.

Advantages of Using Firewall

• Protection From Unauthorized Access: Firewalls can be set up to restrict incoming traffic from particular IP addresses or networks, preventing hackers or other malicious actors from easily accessing a network or system. Protection from unwanted access.
• Prevention of Malware and Other Threats: Malware and other threat prevention: Firewalls can be set up to block traffic linked to known malware or other security concerns, assisting in the defense against these kinds of attacks.
• Control of Network Access: By limiting access to specified individuals or groups for particular servers or applications, firewalls can be used to restrict access to particular network resources or services. 
• Monitoring of Network Activity: Firewalls can be set up to record and keep track of all network activity.
• Regulation Compliance: Many industries are bound by rules that demand the usage of firewalls or other security measures.
• Network Segmentation: By using firewalls to split up a bigger network into smaller subnets, the attack surface is reduced and the security level is raised. 

Disadvantages of Using Firewall

• Complexity: Setting up and keeping up a firewall can be time-consuming and difficult, especially for bigger networks or companies with a wide variety of users and devices.
• Limited Visibility: Firewalls may not be able to identify or stop security risks that operate at other levels, such as the application or endpoint level, because they can only observe and manage traffic at the network level.
• False Sense of Security: Some businesses may place an excessive amount of reliance on their firewall and disregard other crucial security measures like endpoint security or intrusion detection systems.
• Limited adaptability: Because firewalls are frequently rule-based, they might not be able to respond to fresh security threats. 
• Performance Impact: Network performance can be significantly impacted by firewalls, particularly if they are set up to analyze or manage a lot of traffic.
• Limited Scalability: Because firewalls are only able to secure one network, businesses that have several networks must deploy many firewalls, which can be expensive.
• Limited VPN support: Some firewalls might not allow complex VPN features like split tunneling, which could restrict the experience of a remote worker.
• Cost: Purchasing many devices or add-on features for a firewall system can be expensive, especially for businesses.

Question: A packet filtering firewall can [ISRO CS 2013]

(A) Deny certain users from accessing a service

(B) Block worms and viruses from entering the network

(C) Disallow some files from being accessed through FTP

(D) Block some hosts from accessing the network

Answer: Option (D)

For more details you can refer ISRO | ISRO CS 2013 | Question 44 published quiz.

Frequently Asked Questions on Firewall – FAQs

Can Network Speeds Be Slowed Down by a Firewall?

Yes, Network speeds can be slowed down by a firewall.

How do firewall stop traffic?

The firewall acts as a constant filter, analyzing incoming data and blocking anything that appears suspicious from entering your network to protect system.

Can Firewalls Stop Worms?

Yes, Installing a firewall helps prevent worms and malicious software from infecting a computer in addition to blocking unwanted traffic.

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