1 / 33

Firewalls

Firewalls. 2014.04.07 Uyanga Tserengombo Email: uyanga_0956@yahoo.com. Firewall topics. The Need for Firewalls Firewall Characteristics Types of Firewalls Firewall Basing Firewall Location and Configurations. What is a Firewall?.

tejano
Download Presentation

Firewalls

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Firewalls 2014.04.07 Uyanga Tserengombo Email: uyanga_0956@yahoo.com

  2. Firewall topics • The Need for Firewalls • Firewall Characteristics • Types of Firewalls • Firewall Basing • Firewall Location and Configurations

  3. What is a Firewall? • Effective means of protecting local network of systems from network-based security threats from outer world • while providing (limited) access to the outside world (the Internet)

  4. What is a Firewall? Figure 11.1a General Model

  5. seen evolution of information systems now everyone want to be on the Internet and to interconnect networks has persistent security concerns can’t easily secure every system in org typically use a Firewall to provide perimeter defence as part of comprehensive security strategy Why do we need Firewalls?

  6. Firewall Basics • a choke point of control and monitoring • interconnects networks with differing trust • imposes restrictions on network services • only authorized traffic is allowed • auditing and controlling access • can implement alarms for abnormal behavior • provide NAT & usage monitoring • implement VPNs using IPSec • must be immune to penetration

  7. FirewallCharacteristics 1/2 • Design goals: • All traffic from inside from/to outside must pass through the firewall • Only authorized traffic (defined by the local security policy) will be allowed to pass • The firewall itself should be immune to penetration (use of trusted system with a secure operating system)

  8. Firewall Characteristics 2/2 • General techniques for access control • Service control • Determines the types of Internet services that can be accessed • Mostly using TCP/UDP port numbers • Direction control • Determines the direction in which particular service requests may be initiated and allowed to flow through the firewall. • User control • Controls access to a service according to which user is attempting to access it • need to authenticate users. This is easy for internal users, but what can be done for external ones? • Behavior control • Controls how particular services are used (e.g. filter e-mail for spam control)

  9. Firewall Limitations • cannot protect from attacks bypassing it • eg sneaker net, utility modems, trusted organisations, trusted services (eg SSL/SSH) • cannot protect against internal threats • eg disgruntled or colluding employees • cannot protect against access via WLAN • if improperly secured against external use • cannot protect against malware imported via laptop, PDA, storage infected outside

  10. Types of Firewalls • Packet-filtering routers • Stateful Inspection • Application-level gateways • Circuit-level gateways (not common, so skipped)

  11. Firewalls – Packet Filters • simplest, fastest firewall component • foundation of any firewall system • examine each IP packet (no context) and permit or deny according to rules • hence restrict access to services (ports) • possible default policies • that not expressly permitted is prohibited • that not expressly prohibited is permitted

  12. Firewalls – Packet Filters Figure 11.1b Packet filtering firewall

  13. Packet Filtering Examples Table 11.1 Packet-Filtering Examples

  14. Attacks on Packet Filters • IP address spoofing • fake source address to be trusted • add filters on router to block • source routing attacks • attacker sets a route other than default • block source routed packets • tiny fragment attacks • split header info over several tiny packets • either discard or reassemble before check

  15. traditional packet filters do not examine higher layer context ie matching return packets with outgoing flow stateful packet filters address this need they examine each IP packet in context keep track of client-server sessions check each packet validly belongs to one hence are better able to detect bogus packets out of context may even inspect limited application data Stateful Inspection

  16. Stateful Inspection Table 11.2 Stateful Inspection

  17. Firewalls - Application Level Gateway (or Proxy) • have application specific gateway / proxy • has full access to protocol • user requests service from proxy • proxy validates request as legal • then actions request and returns result to user • can log / audit traffic at application level • need separate proxies for each service • some services naturally support proxying • others are more problematic

  18. Application-level Gateway Figure 11.1c Application proxy firewall

  19. Firewalls - Circuit Level Gateway • relays two TCP connections • imposes security by limiting which such connections are allowed • once created usually relays traffic without examining contents • typically used when trust internal users by allowing general outbound connections

  20. Firewalls - Circuit Level Gateway Figure 11.1d Circuit-level proxy firewall

  21. Bastion Host • highly secure host system • runs circuit / application level gateways • or provides externally accessible services • potentially exposed to "hostile" elements • hence is secured to withstand this • hardened O/S, essential services, extra auth • proxies small, secure, independent, non-privileged • may support 2 or more net connections • may be trusted to enforce policy of trusted separation between these net connections

  22. Host-Based Firewalls • s/w module used to secure individual host • available in many operating systems • or can be provided as an add-on package • often used on servers • advantages: • can tailor filtering rules to host environment • protection is provided independent of topology • provides an additional layer of protection

  23. Personal Firewalls • controls traffic between PC/workstation and Internet or enterprise network • a software module on personal computer • or in home/office DSL/cable/ISP router • typically much less complex than other firewall types • primary role to deny unauthorized remote access to the computer • and monitor outgoing activity for malware

  24. Firewall Configurations Figure 11.3a Screened host firewall system

  25. Firewall Configurations Figure 11.3b Screened host firewall system

  26. Firewall Configurations Figure 11.3c Screened host firewall system

  27. DMZ Networks Figure 11.4 Example Firewall Configuration

  28. Virtual Private Networks Figure 11.5 A VPN Security Scenario

  29. Distributed Firewalls Figure 11.6 Example Distributed Firewall Configuration

  30. Summary of Firewall Locations and Topologies • host-resident firewall • screening router • single bastion inline • single bastion T • double bastion inline • double bastion T • distributed firewall configuration

  31. References • William Stallings, “Network Security Essential – 4th Edition” • http://mn.wikipedia.org/wiki/Firewall • http://forum.asuultserver.com/viewtopic.php?f=1&t=44687&start=26 • http://www.manageengine.com/products/firewall/proxy-server-report.html?gclid=CM6jufeCzL0CFUMRpAodnQwAhg&gclsrc=aw.ds

  32. Q&A

  33. Thank you for your attention

More Related