A network-based firewall is a crucial component of network security that protects private networks by blocking unauthorized traffic and giving organizations granular control over their infrastructure.
It examines network packets, applies predefined rules, and acts as a barrier between internal and external networks. A network firewall empowers individual and corporate users to enhance security and mitigate the risks of cyber attacks.
When properly configured, a network-based firewall secures sensitive data by allowing users to safely access the resources they need while keeping out hackers or malicious programs trying to get into the protected network. Additionally, administrators can set up rules to restrict access within the network, preventing users from running specific programs or reaching certain websites.
This article will explore what a network firewall is and its role in safeguarding against cyber threats. We’ll delve into different firewall types, their features, and deployment options so you can make informed decisions in taking proactive measures to protect your network from potential threats.
Table of Contents
How do network-based firewalls work?
Network-based firewalls are an integral part of securing modern network infrastructures. These tools enforce firewall policies to control and monitor network traffic. They examine data within the Transmission Control Protocol/Internet Protocol (TCP/IP) communication layers, namely:
- Hardware/data link
These layers guide data movement from its origin to its destination.
Network firewalls create a border between the private and external network, or the internet. They inspect incoming and outgoing packets to distinguish between normal and malicious traffic.
The operation of a network firewall also relies on Access Control Lists (ACLs). ACLs ensure precise control over traffic by authorizing or denying packets based on predefined criteria such as IP addresses, port numbers, and specific protocols.
In simple terms, incoming traffic goes through a firewall, which authenticates and evaluates it based on firewall policies and ACL rules. If a packet meets the allowed rules, it can pass through to the intended destination. If it matches a deny rule, the firewall blocks it from entering the network.
Here is a visual representation illustrating how a network-based firewall works:
Understanding how network firewalls work and following best practices for setting up firewalls are essential in building an effective security infrastructure. By implementing the appropriate firewall rules, conducting regular audits, and collaborating with network professionals, organizations can amplify their cybersecurity defenses.
Different types of network firewalls
There are various types of network firewalls catering to different network security needs, such as application-layer, packet-filtering, and circuit-level firewalls. Here are some of the most commonly used ones, along with their key features.
Application-layer firewalls, also known as application-layer gateways (ALGs), offer upgraded security mechanisms tailored to individual applications.
Instead of relying solely on IP and port information, these firewalls operate at the application layer of the OSI network stack, performing deep inspection and filtering for specific application protocols.
By providing granular control and deep inspection capabilities, ALGs increase the overall security posture of networks and applications.
- Deep packet inspection (DPI): This firewall can go beyond IP and port analysis and examine the payload of network packets to detect and prevent specific types of attacks.
- Protocol awareness: It executes protocol-specific security policies and identifies any anomalies or violations in application-layer traffic.
- User authentication and authorization: It authorizes users based on their application-level credentials, such as usernames and passwords. Organizations can apply fine-grained access control and prevent illegal access to sensitive resources.
- Content filtering: It scans the content of network traffic and administers predefined rules to allow application-specific activities or block data related to web browsing, file transfers, and email communications.
Packet-filtering firewalls analyze individual packets of data and make decisions based on preset rules. They primarily focus on information like source and destination IP addresses, port numbers, and protocols.
This type of network firewall is known for its simplicity, scalability, and efficiency in handling large volumes of network traffic. However, it lacks advanced insight into packet content and may not offer granular control over specific applications or user activities. It is also vulnerable to IP spoofing attacks.
- Basic filtering at network layer: It functions at the network layer and filters packets based on source/destination IP addresses, ports, and protocols.
- Efficiency: It has fast processing speeds, making it suitable for high-speed network environments.
Also referred to as a circuit-level gateway or transparent proxy firewall, this type of firewall gives control over network traffic at the session level. It applies security measures once a connection between devices is established. It monitors the handshake process and makes sure that the connection follows the firewall’s rules and policies.
The circuit-level firewall does not modify the data beyond what is necessary for authentication and identification. It facilitates secure communication between trusted devices and untrusted networks.
- Session-level filtering: It operates at the session layer of the OSI model and validates the establishment of sessions between source and destination.
- Transparent connectivity: It creates a virtual circuit between the internal and external networks, supporting communication while hiding internal network details.
- Accelerated performance: It provides faster processing speeds compared to proxies or application-layer firewalls.
Proxy server firewall
Proxy firewalls act as intermediaries between internal clients and external sources. They extend an additional layer of security by shielding the internal network from direct contact with external entities.
This type of network firewall enables deep inspections of application-layer traffic and supports user authentication.
On the downside, a proxy firewall comes with a performance overhead due to the processing and forwarding of network requests. Moreover, it has more complex configurations compared to other firewall types.
- Application-layer inspection: It functions as a middleman between clients and servers and carefully examines network traffic at the application layer.
- Higher application security: It shows deep visibility into application protocols, improving the detection and prevention of malicious activities.
- Granular control: Application-specific security policies allow for intricate manipulation of security protocols on the network.
- Additional protection layer: It adds an extra layer of security by hiding internal network details.
Next-generation firewall (NGFW)
NGFWs combine the capabilities of traditional firewalls with advanced network security features to spot and block threats like malware, intrusion attempts, and suspicious activities. They incorporate deep packet inspection, intrusion prevention systems (IPS), and application awareness.
An NGFW also delivers application visibility and control and applies policies based on user identities, enabling precise access control.
However, configuring and maintaining NGFWs can be complicated and require additional performance resources.
- Integrated security: It unifies security features such as intrusion prevention, application awareness, DPI, and threat intelligence.
- Application visibility and control: It boosts control and security policies based on applications, users, and content.
- Advanced threat detection: NGFWs can flag and prevent sophisticated attacks and advanced persistent threats (APTs).
- Real-time protection: Integration with threat intelligence feeds results in real-time protection against emerging threats.
Stateful inspection firewall
A stateful inspection firewall does more than packet filtering; it also keeps track of network connections. It makes intelligent decisions about allowing or blocking packets by remembering established connections like source and destination IP addresses, port numbers, and connection status.
In addition, it is compatible with different network protocols and applications. One of the drawbacks of this firewall type, though, is understanding particular applications. It can be vulnerable to elaborate attacks that exploit protocol weaknesses or manipulate the firewall’s settings.
- Context-aware filtering: It scans the complete context of network traffic, including source, destination, and connection status.
- Enhanced security: It maintains a state table to check the state of network connections, ensuring that incoming packets match existing outbound connections.
- Malicious traffic detection: Stateful inspection firewalls can be efficient at uncovering malicious or unauthorized traffic.
Network-based firewall deployment types
Organizations have several deployment options — including hardware, software, and service-based — to consider in choosing the best firewall to secure their network. These choices enable them to adapt their firewall strategies to meet unique requirements and network architectures.
A hardware-based firewall uses a physical device as a dedicated security appliance, protecting the internal network from external threats and filtering network traffic.
This device connects to different network segments and implements security policies. By placing it between the external network and the server, it works as a barrier against intrusions and evaluates incoming traffic for threats.
Hardware firewalls inspect all traffic, granting or denying access based on predefined rules. They have features like packet filtering, stateful inspection, intrusion prevention, and VPN support for more network security. They can handle high volumes of network traffic and reliably facilitate secure communication within the network.
Software-based firewalls are computer programs that inspect data going in and out. They track and control data on individual computers.
This firewall type offers similar features as physical firewalls and is customizable to detect suspicious activity. It protects against external threats and prevents attacks on other networks.
Some advantages of using software-based firewalls include lower costs, scalability, and remote deployment.
A Firewall-as-a-Service (FWaaS) is a cloud-based firewall solution that delivers advanced security capabilities from the cloud. It has access controls, threat prevention, and IPS features.
An FWaaS eliminates the need for on-premises hardware or software firewalls, as the service provider takes care of infrastructure maintenance and updates. As a result, businesses can focus on their core operations.
Why are network firewalls important?
In the current technological landscape, network firewalls are an imperative element of a solid cybersecurity strategy, acting as the first line of defense against hackers and malware. These tools can deal with modern threats and expanding networks like cloud solutions. They safeguard networks, data, and resources from diverse vulnerabilities.
Without firewalls, networks become exposed to attacks and data breaches. Threat actors can steal sensitive information or disrupt operations.
To ensure full security, organizations should place firewalls between networks and the internet and establish clear policies and strategies.
Network firewall benefits
Implementing a network-based firewall brings numerous advantages to an organization’s cybersecurity posture, including monitoring and logging, access control, and segmentation capabilities. Here are some of the key benefits of using network firewalls.
Security is the primary purpose of having a network firewall. Network-based firewalls bring a constant barrier against unwanted access and malicious activities.
Through monitoring and controlling incoming and outgoing network traffic, firewalls help prevent unauthorized individuals or software from accessing sensitive data and resources within a network.
Monitoring and logging network activities
Network firewalls maintain detailed logs of network activities like connection attempts, traffic patterns, and security events.
By continuously monitoring traffic and logs, firewalls deliver advanced network analysis, giving administrators a deeper understanding of network health and conditions.
Firewalls equip organizations with the means to define and administer access control policies, effectively managing who can access their networks and resources.
By preventing unauthorized entry attempts, firewalls bolster security, protect valuable assets, and minimize the risk of breaches.
Using intrusion detection and prevention systems, firewalls build up security by uncovering and stopping suspicious activities and known attack patterns. They also control system entry points, blocking virus attacks and keyloggers.
Firewalls can divide a network into smaller subnetworks or segments, known as network segmentation. This allows organizations to control traffic between different areas of the network, limiting the impact of potential security breaches.
Network segmentation also strengthens monitoring capabilities, boosts performance by reducing congestion, localizes technical issues, and increases security.
Application control lets organizations track and manage specific applications on their networks. Network administrators can block unapproved applications, apply acceptable use policies, and reduce the risks associated with potentially harmful apps.
This leads to an improvement in network stability and a decrease in malware-related risks and costs.
Bottom line: Using network firewalls in the enterprise
With the rising prevalence of cybercrime, network-based firewalls are nonnegotiable in today’s enterprise, regardless of the size of the organization. They provide more than just protection against hackers by offering features such as collecting security data, automating protections, and resolving networking issues that impact productivity. On top of that, a reliable network firewall restricts access to unsafe sites, taking overall network security to the next level.
By investing in reputable firewall solutions, organizations can safeguard their digital assets, uphold data privacy, and protect their reputation in the modern digital environment.
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