based on Chapter 15 of CompTIA Network+ Exam Guide, 4th ed., Mike Meyers
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1 Wireless Networking based on Chapter 15 of CompTIA Network+ Exam Guide, 4th ed., Mike Meyers topics History Standards Technical Concepts Implementation Troubleshooting 1
2 HISTORY AND STANDARDS History 1971: ALOHAnet connects four islands for the University of Hawaii ham radios used for communication precursor to Ethernet protocols! 1980s: packet radio adds a 9600bps wireless modem to amateur radio installations 1991: IEEE working group starts developing Wireless LAN WLAN standards alternative to (Ethernet), (Token Ring), etc. 2002: WI-FI Alliance certifies equipment compatibility with versions 2
3 Standards 1997: specifies overall characteristics of wireless networks 2Mbps maximum operating speed 1999: b operation at up to 11Mbps Frequency contention w/ microwave ovens, Bluetooth, baby monitors, cordless phones : a up to 54Mbps incompatible with b, more expensive 2003: g 54Mbps top speed compatible with b Same frequency-contention issues Standards 2009: n 100Mbps-600Mbps top speeds Multiple-In, Multiple Out (MIMO) uses 2 4 antennas a/b-compatible dual-band implementations Transmit beamforming APs can adjust transmitted signals to optimize reception by clients 2014 (January): ac top speed 1Gbps Multi-user MIMO (MU-MIMO) uses 8 antennas 5GHz frequency band 80MHz, 160Mhz bandwidth per channel versus 40MHz for n, 20-22MHz for a/b/g Not backwards compatible 3
4 timeline source: Anandtech Versions version frequency band spectrum usage speed * range * compatibility GHz DSSS, FHSS 2Mbps, 11Mbps 300' b 2.4GHz DSSS 11Mbps 300' b a 5GHz OFDM 54Mbps 150' a g 2.4GHz OFDM, DSSS 54Mbps 300' b/g n 2.4GHz, 5GHz OFDM 100/300 /600Mbps 300' g/n, a/g/n ac 5Ghz OFDM 3.6(1.73) Gbps? ac * speed and range values are maximum values speed decreases rapidly with distance 4
5 Hardware Wireless NIC compatible w/ LLC sublayer MAC sublayer puts bits onto radio spectrum instead of wires n uses 2 4 antennas Most portable gear includes built-in antenna Wireless Access Point Wireless hub operates at OSI physical layer and Datalink layer Provides connection to wired Ethernet LAN Often packaged with router, Ethernet switch, software to form a SOHO Wireless router Also called Access Point, WAP, or just AP 5
6 Software Host Configuration Software WAP Configuration 6
7 WAP Configuration choosing the version Network Modes How do multiple computers communicate with each other? directly: peer-to-peer via intermediary node: managed Peer-to-peer mode known as Ad Hoc Mode Managed mode known as Infrastructure Mode Shared radio frequency band results in physical bus topology protocol needed to share medium 7
8 Infrastructure Mode Most common mode of WLAN operation Logical star topology Access Point manages connections in the star AP plus connected nodes form a Basic Service Set or BSS Multiple APs can connect multiple stars, and form an Extended Basic Service Set, or EBSS (or just ESS) APs connect over a Distribution System, or DS BSS, ESS (EBSS), and DS 8
9 Roaming Roaming occurs when a wireless client moves about within a wireless network Client connects to different APs as they come into / go out of range Each AP has its own BSS Roaming occurs within a single ESS Roaming from 9
10 Ad Hoc Mode Nodes advertise presence, send transmissions directly point-to-point Nodes form an Independent Basic Service Set, or IBSS comparable to a Windows Workgroup one participant needs to run Internet Connection Sharing to enable Internet access Logical Mesh topology Nodes must be in range of each other BSSIDs, SSIDs, ESSIDs The Service Set Identifier (SSID) acts as a network name BSSID (Basic Service Set Identifier) can be arbitrary often chosen to be the MAC address of the managing AP of the BSS IBSS ad hoc node generate their own BSSIDs shared SSID must be defined for nodes to connect distinct from BSSID(s) ESSID, Extended Service Set Identifier for multiple APs/nodes in an EBSS (ESS) SSID often refers to the ESSID 10
11 RADIO FREQUENCIES Carrying Data On Radio Waves AM and FM Radio Amplitude Modulation: Uses single frequency in channel Intensity represents data Frequency Modulation: Uses all frequencies in channel Frequency change represents data 11
12 Carrying Data On Radio Waves Spread Spectrum Data in binary form modulates pseudorandom bit sequence Pseudorandom bit sequence uses all frequencies in channel Spread Spectrum Wifi NIC broadcasts over all frequencies in a channel Use of multiple frequencies improves throughput and noise tolerance noise spread spectrum narrowband 12
13 Spread Spectrum Broadcasting Direct-Sequence Spread Spectrum DSSS each transmission is spread over entire bandwidth of frequencies, simultaneously high throughput but susceptible to interference Frequency-Hopping Spread Spectrum FHSS transmissions hop from one frequency to another, avoid interference better than DSSS Orthogonal Frequency-Division Multiplexing OFDM combination of DSSS and FHSS multiple DSSSlike behavior over sub-bands robust but complex; used in newer gear Historical note A form of spread spectrum was patented during World War II, as a means of covert and unjammable communication Patented by German Jewish refugee and movie star Hedy Lamarr and her agent, George Antheil 13
14 Hedy Lamarr - actress, patent holder Transmission Bands uses frequency bands 2.4 GHz ISM band (Industrial, Scientific, and Medical) 84.5 MHz wide 5 GHz U-NII band (Unlicensed National Info. Infrastructure) ~340 MHz wide 60GHz for high-speed standard ad 14
15 Transmission Frequencies Each band is divided into channels Adjacent 2.4GHz channels overlap Each channel spans a range of frequencies b 22MHz-wide channels g 20MHz used out of each 22MHz channel n 20MHz, 40MHz wide (channel-bonding of two g channels) Nearby WAPs need non-overlapping channels to avoid interfering with each other e.g. channels 1, 6, 11 for a 3-WAP ESS using g b Channels Overlap 15
16 Channel Widths Frequency Bands and Standards b/g/n use frequencies in 2.4GHz band US: 11 usable channels Europe: 12 usable channels a/n use frequencies in 5GHz band n is dual-band ac uses frequencies in 5GHz band 16
17 5GHz Sub-bands and Channels U-NII-2 is for combined indoor/outdoor use Not all equipment uses U-NII-2 Extra channels are also used by military, weather radars Wi-fi must not interfere Radio frequencies, for exam purposes: Know what spread spectrum is Know what kind of spread spectrum - DSSS, OFDM - each standard uses Know what band each standard uses Know how wide channels are Know what to do about overlapping channels 17
18 Managed Access and Collision Avoidance the Hidden Node problem: Sharing the Bus Topology: Ethernet versus Wireless Carrier-Sense Multiple Access (CSMA) Both technologies depend on listening for quiet medium before transmission Ethernet: CSMA/CD Collision Detection (CD) causes transmitting nodes to back off, retry transmission Exponential backoff employed Wireless: CSMA/CA Collision Avoidance (CA) acts to avoid collisions before they happen Waiting before transmissions 18
19 CSMA/CA: Collision Avoidance Distributed Coordination Function (DCF) is used to avoid data collisions The DCF of choice is CSMA/CA Collision Avoidance (CA) Node first listens for busy medium (prior transmission) If busy medium detected, keep listening until quiet Then wait for random time, check whether medium stays quiet If medium stays quiet, transmit Receiver sends ACK frame if transmission is successful Collision Avoidance (CA) algorithm - simplified Listen for channelidle for DIFS time If idle, transmit If not idle, wait a random contention time plus another DIFS time, try again optional RTS/CTS sequence for heavilyused networks 19
20 CSMA/CA timing - details DIFS -Distributed Interframe Space required time preceding a transmission SIFS - Short Interframe Space time between transmission and acknowledgeme nt Backoff - random contention time CSMA/CA full Flow Chart This flow chart shows the sequence for sending the data packet, without RTS/CTS Backoff count avoids contention with other attempts Retry Count provides exponential backoff for transmission attempts 20
21 Collision Avoidance RTS/CTS Algorithm Node with data to send must 1. listen for quiet media 2. send short Request To Send (RTS) packet, wait for a Clear To Send (CTS) response if no response, keep waiting and sending RTS 3. After receiving CTS, send Data and wait for ACK if no ACK, repeat sending Data and waiting for ACK RTS, CTS include data-length information other nodes can learn how long to wait for a turn at transmitting RTS/CTS Timing DIFS Distributed Inter-Frame Spacing SIFS Short Inter-Frame Spacing NAV Network Allocation Vector 21
22 CSMA/CA, for exam purposes: Know what the acronym stands for Know how collision avoidance works What DIFS, SIFS, Ack are used for Know what RTS, CTS are Aspects of Wireless Security MAC address filtering Limit what hosts can associate with the AP Wireless authentication Control who can connect to and access network resources Data Encryption Protect data from eavesdropping 22
23 MAC Address Filtering AP can be set to accept associations only from "accepted users", based on MAC addresses Clumsy for large and transient networks Can be defeated by MAC spoofing Can be eavesdropped This permits accepted MAC addresses to be discovered and then spoofed Security - Authentication Open authentication Just specify the correct SSID Not secure at all Pre-Shared Key authentication Client has a secret key WEP, WPA, WPAv2 EAP authentication Centralized security database contains authorizeduser credentials e.g., Active Directory 23
24 Pre-Shared Key (PSK) authentication WEP - Wired Equivalent Privacy Client must know the key Poor RC4 encryption allows key to be cracked WPA - Wi-Fi Protected Access TKIP with RC4 encryption is stronger than WEP WPA2-Personal IEEE i standard AES (AES-CCMP) encryption, stronger than TKIP Authentication - IEEE 802.1X WPA/WPA2 Enterprise Defines authentication via RADIUS server Supplicant a node wanting access contacts a Network Access Server (a wireless access point) NAS looks for supplicant in Radius server's database, checks user name and password Connection protected by IPsec Passwords encrypted with Extensible Authentication Protocol (EAP) Radius server returns Access-Accept code with Authenticator section 24
25 RADIUS-EAP from: 02/18/ Security Encryption Wireless traffic can be sniffed by software on wireless hosts Kismet Open Source sniffer for Linux, OSX, Windows, BSD Data encryption needed for transmissions WEP (Wired Equivalent Privacy) weak implementation of RC4 cipher outdated, should not be used WPA (Wi-Fi Protected Access) improved WEP WPA2 (Wi-Fi Protected Access 2) per 802.1X WPA2 plus RADIUS-EAP server is WPA2-Enterprise 25
26 WEP Wired Equivalent Privacy first wireless encryption in use 64-bit or 128-bit RC4 encryption algorithm Single encryption key, shared by all users Can be cracked in < 1 minute not so good WPA, WPA2 Wi-Fi Protected Access (WPA) meant to replace WEP Dynamic encryption keys generated for each user and session TKIP (Temporal Key Integrity Protocol) added to WEP algorithm WPA2 replaced WEP s RC4 with AES (Advanced Encryption Standard) 128-bit block cipher Much harder algorithm to crack than RC4 PSK Pre-shared Key 26
27 DETAILS FRAME FORMATS Wireless Network Frames Three kinds of frame Management frame Control frame Data frame Control frames used for CSMA/CA Management frames used to advertise network, join STAs (hosts) to network, etc. Can be the most common frame type 27
28 Management Frame Types and Wireshark Display Filters wlan.fc.type == 0 Management frames wlan.fc.type == 1 Control frames wlan.fc.type == 2 Data frames wlan.fc.type_subtype == 0 Association request wlan.fc.type_subtype == 1 Association response wlan.fc.type_subtype == 2 Reassociation request wlan.fc.type_subtype == 3 Reassociation response wlan.fc.type_subtype == 4 Probe request wlan.fc.type_subtype == 5 Probe response wlan.fc.type_subtype == 8 Beacon wlan.addr = 12:34:56:AB:CD:EF Select frames where any of the address fields match 12:34:56:ab:cd:ef MAC Management Frame Formats Some fields are in all frames Other fields depend on the frame s use 28
29 Control Frames RTS Request To Send STA wishes to transmit CTS Clear To Send AP gives permission Only some WLANs use these ACK Acknowledgement Data received Control Frame RTS 29
30 Data Frame Headers http frame in PPI showing LLC, IPv4, TCP, HTTP contents 30
31 IMPLEMENTING, TROUBLESHOOTING Implementation Considerations obstacles site survey to locate interference, identify pre-existing (and conflicting) APs Eliminate dead spots choose different standard n versus g? 5GHz versus 2.4GHz? Multiple APs? 31
32 Power Over Ethernet (PoE) IEEE 802.3af-2003, IEEE 802.3at-2005 Provides up to 25W over Ethernet cable Good for awkward AP installations ceilings, roofs, etc. A typical 8-port, 10/100Mbps PoE switch costs $50 - $100 Twisted-Pair Wiring for PoE 32
33 Ad Hoc Setup Issues Choose a shared SSID Select suitable channel Use APIPA or other scheme to generate IP addresses Enable file and printer sharing Infrastructure Setup Issues AP placement Omni-directional antenna? Centered location? High-gain antenna? APs near each other must not use overlapping channels Example: Use channels 1, 6, 11 within ESS to avoid interference between APs 33
34 Infrastructure Setup Issues AP configuration (often a webpage interface) ESSID to broadcast or not to broadcast? whether tis nobler in the mind s eye Beacon timing tradeoff between overhead traffic and client synchronization default is 100ms, not always settable MAC address filtering? Can you change your wireless router s beacon interval? Does it offer MAC filtering? Encryption use WPA2 if available example AP configuration DD-WRT 34
35 Extending the WLAN Add another AP connect via Ethernet (wired) connection for good performance Configure new AP for same ESSID, encryption as first AP Choose non-overlapping channel Access Points as Wireless Bridges Wireless bridge connects multiple Network segments / ESSIDs point-to-point Connects between two or more wireless networks (ESSIDs) 35
36 DD-WRT can be reconfigured as an AP, a Bridge, or a Repeater Troubleshooting Problems First determine the scope of your problem: Who is affected? What sort of problem is it? What service(s), etc. When did it start? Was something changed? Hardware look for the usual signs of hardware failure, e.g. Windows Device Manager Software make sure firmware and drivers are up to date 36
37 Initial-Installation Issues Is the radio enabled on both the access point and client for the correct RF (2.4 GHz ISM or 5 GHz UNII)? ISM Industrial, Scientific, Medical band Is an external antenna connected and facing the correct direction (straight upward for dipole)? Is the antenna location too high or too low relative to wireless clients (within 20 vertical feet)? Is the AP the client is attempting to reach at too great of a distance? From Signal Reflections Are there walls, or metal objects in the room, that reflect RF and diminish performance? Some MIMO APs can compensate for reflections 37
38 Configuration Problems Check things like SSID Channel Authentication type Encryption type MAC filtering Connectivity Problems Signal strength and interference Most wireless-network utilities report signal strength Host AP distance may be too great Relocate AP, or add another AP to network Walls, other devices may be causing interference Relocate host to a different position? Add another AP? Overlapping signals from multiple APs Configure APs to use different channels Make sure host uses correct SSID 38
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