Network security: Difference between revisions
FrankTobia (talk | contribs) →What makes networks secured?: make section heading a noun phrase, per WP:MOS; maybe this isn't the best, but a title shouldn't be a question |
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Securing network infrastructure is like securing possible entry points of attacks on a country by deploying appropriate [[Defence (military)|defense]]. Computer security is more like providing means of [[self-defense]] to each individual citizen of the country. The former is better and practical to protect the civilians from getting exposed to the attacks. The preventive measures attempt to secure the access to individual computers--the network itself--thereby protecting the computers and other shared resources such as printers, [[network-attached storage]] connected by the network. Attacks could be stopped at their entry points before they spread. As opposed to this, in computer security the measures taken are focused on securing individual computer hosts. A computer host whose security is compromised is likely to infect other hosts connected to a potentially unsecured network. A computer host's security is vulnerable to users with higher access privileges to those hosts. |
Securing network infrastructure is like securing possible entry points of attacks on a country by deploying appropriate [[Defence (military)|defense]]. Computer security is more like providing means of [[self-defense]] to each individual citizen of the country. The former is better and practical to protect the civilians from getting exposed to the attacks. The preventive measures attempt to secure the access to individual computers--the network itself--thereby protecting the computers and other shared resources such as printers, [[network-attached storage]] connected by the network. Attacks could be stopped at their entry points before they spread. As opposed to this, in computer security the measures taken are focused on securing individual computer hosts. A computer host whose security is compromised is likely to infect other hosts connected to a potentially unsecured network. A computer host's security is vulnerable to users with higher access privileges to those hosts. |
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== |
==Attributes of secured networks== |
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Network security starts from [[Authentication|authenticating]] any user. Once authenticated, [[Firewall (networking)|firewall]] enforces access policies such as what services are allowed to be accessed by the network users. Though effective to prevent unauthorized access, this component fails to check potentially harmful contents such as [[computer worm]]s being transmitted over the network. An [[intrusion prevention system]] (IPS)<ref>Dave Dittrich, [http://staff.washington.edu/dittrich/network.html ''Network monitoring/Intrusion Detection Systems (IDS)''], University of Washington.</ref> helps detect and prevent such [[malware]]. IPS also [[Deep packet inspection|monitors for suspicious network traffic]] for contents, volume and [[Anomaly-based intrusion detection system|anomalies]] to protect the network from attacks such as [[denial of service]]. Communication between two hosts using the network could be encrypted to [[Virtual private network|maintain privacy]]. Individual events occurring on the network could be tracked for audit purposes and for a later high level analysis. |
Network security starts from [[Authentication|authenticating]] any user. Once authenticated, [[Firewall (networking)|firewall]] enforces access policies such as what services are allowed to be accessed by the network users.<ref>A Role-Based Trusted Network Provides [http://newsroom.cisco.com/dlls/2008/ts_010208b.html?sid=BAC-NewsWire Pervasive Security and Compliance] - interview with [[Jayshree Ullal]], senior VP of [[Cisco]]</ref> Though effective to prevent unauthorized access, this component fails to check potentially harmful contents such as [[computer worm]]s being transmitted over the network. An [[intrusion prevention system]] (IPS)<ref>Dave Dittrich, [http://staff.washington.edu/dittrich/network.html ''Network monitoring/Intrusion Detection Systems (IDS)''], University of Washington.</ref> helps detect and prevent such [[malware]]. IPS also [[Deep packet inspection|monitors for suspicious network traffic]] for contents, volume and [[Anomaly-based intrusion detection system|anomalies]] to protect the network from attacks such as [[denial of service]]. Communication between two hosts using the network could be encrypted to [[Virtual private network|maintain privacy]]. Individual events occurring on the network could be tracked for audit purposes and for a later high level analysis. |
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[[Honeypot (computing)|''Honeypots'']], essentially [[decoy]] network-accessible resources, could be deployed in a network as surveillance and early-warning tools. Techniques used by the attackers that attempt to compromise these decoy resources are studied during and after an attack to keep an eye on new [[Exploit (computer security)|exploitation]] techniques. Such analysis could be used to further tighten security of the actual network being protected by the honeypot.<ref>[http://www.honeypots.net ''Honeypots, Honeynets'']</ref> |
[[Honeypot (computing)|''Honeypots'']], essentially [[decoy]] network-accessible resources, could be deployed in a network as surveillance and early-warning tools. Techniques used by the attackers that attempt to compromise these decoy resources are studied during and after an attack to keep an eye on new [[Exploit (computer security)|exploitation]] techniques. Such analysis could be used to further tighten security of the actual network being protected by the honeypot.<ref>[http://www.honeypots.net ''Honeypots, Honeynets'']</ref> |
Revision as of 16:44, 12 January 2008
Network security consists of the provisions made in an underlying computer network infrastructure, policies adopted by the network administrator to protect the network and the network-accessible resources from unauthorized access and the effectiveness (or lack) of these measures combined together.
Comparison with computer security
Securing network infrastructure is like securing possible entry points of attacks on a country by deploying appropriate defense. Computer security is more like providing means of self-defense to each individual citizen of the country. The former is better and practical to protect the civilians from getting exposed to the attacks. The preventive measures attempt to secure the access to individual computers--the network itself--thereby protecting the computers and other shared resources such as printers, network-attached storage connected by the network. Attacks could be stopped at their entry points before they spread. As opposed to this, in computer security the measures taken are focused on securing individual computer hosts. A computer host whose security is compromised is likely to infect other hosts connected to a potentially unsecured network. A computer host's security is vulnerable to users with higher access privileges to those hosts.
Attributes of secured networks
Network security starts from authenticating any user. Once authenticated, firewall enforces access policies such as what services are allowed to be accessed by the network users.[1] Though effective to prevent unauthorized access, this component fails to check potentially harmful contents such as computer worms being transmitted over the network. An intrusion prevention system (IPS)[2] helps detect and prevent such malware. IPS also monitors for suspicious network traffic for contents, volume and anomalies to protect the network from attacks such as denial of service. Communication between two hosts using the network could be encrypted to maintain privacy. Individual events occurring on the network could be tracked for audit purposes and for a later high level analysis.
Honeypots, essentially decoy network-accessible resources, could be deployed in a network as surveillance and early-warning tools. Techniques used by the attackers that attempt to compromise these decoy resources are studied during and after an attack to keep an eye on new exploitation techniques. Such analysis could be used to further tighten security of the actual network being protected by the honeypot.[3]
References
- ^ A Role-Based Trusted Network Provides Pervasive Security and Compliance - interview with Jayshree Ullal, senior VP of Cisco
- ^ Dave Dittrich, Network monitoring/Intrusion Detection Systems (IDS), University of Washington.
- ^ Honeypots, Honeynets
- Security of the Internet (The Froehlich/Kent Encyclopedia of Telecommunications vol. 15. Marcel Dekker, New York, 1997, pp. 231-255.)
- Introduction to Network Security, Matt Curtin.
Books about Network Security
- Self-Defending Networks: The Next Generation of Network Security, Duane DeCapite, Cisco Press, Sep. 8, 2006. ISBN
- Security Threat Mitigation and Response: Understanding CS-MARS, Dale Tesch/Greg Abelar, Cisco Press, Sep. 26, 2006. ISBN
- Deploying Zone-Based Firewalls, Ivan Pepelnjak, Cisco Press, Oct. 5, 2006. ISBN
- Network Security: PRIVATE Communication in a PUBLIC World, Charlie Kaufman | Radia Perlman | Mike Speciner, Prentice-Hall, 2002. ISBN .