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Wireless Networking

Wireless Networking. Outline. Wireless Network Communications Background Security Issues WEP / WPA. Hardening Wireless Local Area Networks (WLAN). By 2007, >98% of all notebooks will be wireless-enabled Serious security vulnerabilities have also been created by wireless data technology:

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Wireless Networking

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  1. Wireless Networking

  2. Outline Wireless Network Communications Background Security Issues WEP / WPA

  3. Hardening Wireless Local Area Networks (WLAN) By 2007, >98% of all notebooks will be wireless-enabled Serious security vulnerabilities have also been created by wireless data technology: Unauthorized users can access the wireless signal from outside a building and connect to the network Attackers can capture and view transmitted data Employees in the office can install personal wireless equipment and defeat perimeter security measures Attackers can crack wireless security with kiddie scripts

  4. IEEE 802.11 Standards A WLAN shares same characteristics as a standard data-based LAN with the exception that network devices do not use cables to connect to the network RF is used to send and receive packets In September 1999, a new 802.11b High Rate was amended to the 802.11 standard. It added two higher speeds, 5.5 and 11 Mbps to original speeds of 1, 2 Mbps Communications distance varies with bandwidth to a maximum range of up to 300 ft. With faster data rates, 802.11b quickly became the standard for WLANs

  5. IEEE 802.11 Standards At same time, the 802.11a standard was released 802.11a has a maximum rated speed of 54 Mbps and also supports 48, 36, 24, 18, 12, 9, and 6 Mbps transmissions at 5 GHz 802.11g added in 2003. It adds transmission rates of 18, 36, and 54 Mbps to the rates available under 802.11b. 802.11n draft product in 2007, standardized in 2009. Added rates up to 600 mbps

  6. Data Rates / Range 802.11b 1 Mbps / 90+ m. 2 Mbps / 75 m. 5.5 Mbps / 60 m. 11 Mbps / 50 m. 802.11g All of 802.11b 18 Mbps / 50 m. 36 Mbps / 35 m. 54 Mbps / 20 m. 802.11n – per stream (4 streams max) 20 MHz band 7.2, 14.4 … 72.2 Mbps 40 MHz band 15, 30 … 150 Mbps “Twice the distance of 802.11g” Typical configurations 2 transmit / receive streams Can transmit on 2.4 or 5 GHz

  7. WLAN Components Each network device must have a wireless network interface card installed Wireless NICs are available in a variety of formats: Type II PC card – Mini PCI CompactFlash (CF) card – USB device USB stick

  8. WLAN Components (cont) An access point (AP) consists of three major parts: An antenna and a radio transmitter/receiver to send and receive signals An RJ-45 wired network interface that allows it to connect by cable to a standard wired network Special bridging software

  9. Basic WLAN Security Two areas: Basic WLAN security Enterprise WLAN security Basic WLAN security uses two new wireless tools and one tool from the wired world: Service Set Identifier (SSID) beaconing MAC address filtering Wired Equivalent Privacy (WEP)

  10. Service Set Identifier (SSID) Beaconing A service set is a technical term used to describe a WLAN network Three types of service sets: Independent Basic Service Set (IBSS) Basic Service Set (BSS) Extended Service Set (ESS) Each WLAN is given a unique SSID

  11. MAC Address Filtering Another way to harden a WLAN is to filter MAC addresses The MAC address of approved wireless devices is entered on the AP A MAC address can be spoofed When wireless device and AP first exchange packets, the MAC address of the wireless device is sent in plaintext, allowing an attacker with a sniffer to see the MAC address of an approved device

  12. MAC Address Filtering

  13. Wired Equivalent Privacy (WEP) Optional configuration for WLANs that encrypts packets during transmission to prevent attackers from viewing their contents Uses shared keys―the same key for encryption and decryption must be installed on the AP, as well as each wireless device Keys: 40 bit (5 byte) key + 24 bit IV = 64 bits 104 bit (13 byte) key + 24 bit IV = 128 bit No data integrity function

  14. WEP - Shared Key Authentication Access Point Client Authentication Request Challenge Text Encrypt Challenge w/key Compare Authentication Frame

  15. IV Ciphertext WEP Encryption 1 Text CRC = Text ICV 2 Secret Key PRNG = Keystream IV + 3 4 XOR 5 ICV = Integrity Check Value IV = initialization Vector

  16. WEP Frame layout encrypted IV Data >=1 ICV 4 bytes Inititialization Vector Key ID 3 bytes 1 byte ICV = Integrity check value (CRC)

  17. (WEP) (cont)

  18. WEP Weaknesses • IV sent as cleartext. Since key never changes, once we know two packets share the same IV, we know their keys are identical • XOR the two ciphertext messages • XOR of plaintext will have same value as XOR of ciphertext! • We will know some of the transmitted data • ARP requests • DNS • Etc.

  19. Untrusted Network The basic WLAN security of SSID beaconing, MAC address filtering, and WEP encryption is not secure enough for an organization to use One approach to securing a WLAN is to treat it as an untrusted and unsecure network Requires that the WLAN be placed outside the secure perimeter of the trusted network

  20. Untrusted Network (continued)

  21. Trusted Network It is still possible to provide security for a WLAN and treat it as a trusted network Wi-Fi Protected Access (WPA) Developed by WECA in 2002 as interim solution Intended to be a software upgrade for WEP (use RC4) WPA-2 – 802.11 standard Has two Domains: Personal Wireless Security Enterprise Wireless Security

  22. Personal Wireless SecurityWPA -1 • Authentication – Based on Pre-Shared Key • Encryption – Temporal Key Integrity Protocol • Mixes IV and Extended IV with secret key • EIV includes sequence counter • Adds 8 byte Message Integrity Check • Uses RC4 as encryption mechanism • Includes ICV for backward compatibility encrypted MAC h. IV EIV Data >=1 MIC ICV FCS

  23. Personal Wireless SecurityWPA -2 • Authentication – Based on Pre-Shared Key • Encryption – AES – CCMP • Counter mode-CBC MAC Protocol • Mixes IV and Extended IV with secret key • EIV includes sequence counter • Adds Message Integrity Check • Uses AES as encryption mechanism encrypted MAC h. IV EIV Data >=1 MIC FCS

  24. Enterprise Wireless Security Network supporting the 802.1x protocol consists of three elements: Supplicant: client device, such as a desktop computer or personal digital assistant (PDA), which requires secure network access Authenticator: serves as an intermediary device between supplicant and authentication server Authentication server: receives request from supplicant through authenticator

  25. IEEE 802.1x

  26. Enterprise Authentication • Extensible Authentication Protocol • Used to pass information from supplicant to AS WN AP AS Security Capabilities Discovery Authentication Key management Key Distribution Data protection

  27. IEEE 802.1x (cont) Several variations of EAP can be used with 802.1x: EAP-Transport Layer Security (EAP-TLS) Lightweight EAP (LEAP) EAP-Tunneled TLS (EAP-TTLS) Protected EAP (PEAP) Flexible Authentication via Secure Tunneling (FAST)

  28. Enterprise Wireless Security • Data Encryption – WPA 1 • TKIP • Data Encryption – WPA 2 • AES - CCMP

  29. Wireless Security Summary Broadcast nature of Wireless LAN makes communication more vulnerable than wired networks Several mechanisms can be used to limit access Encryption used to protect data transmission (and access).

  30. References: Wireless Security 802.1x - tldp.org/HOWTO/802.1X-HOWTO IPSec – tldp.org/IPSec-HOWTO

  31. Summary Wireless Network Communications Background Security Issues WEP / WPA

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