| all | frequencies |
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exhibits | applications |
|---|---|---|---|---|---|
| manuals | |||||
| app s | submitted / available | |||||||
|---|---|---|---|---|---|---|---|---|
| 1 |
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User Manual (Statements) | Users Manual | 312.89 KiB | ||||
| 1 |
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User Manual | Users Manual | 5.61 MiB | ||||
| 1 | Attestation Statements | |||||||
| 1 | Cover Letter(s) | |||||||
| 1 | Cover Letter(s) | |||||||
| 1 | External Photos | |||||||
| 1 | Internal Photos | |||||||
| 1 | ID Label/Location Info | |||||||
| 1 | ID Label/Location Info | |||||||
| 1 | RF Exposure Info | |||||||
| 1 | Test Report | |||||||
| 1 | Test Setup Photos |
| 1 | User Manual (Statements) | Users Manual | 312.89 KiB |
APPENDIX F Customer Support In the event of problems that cannot be solved by using this manual, you should contact your vendor. If you cannot contact your vendor, then contact a ZyXEL office for the region in which you bought the device. Regional websites are listed below (see also http://www.zyxel.com/
about_zyxel/zyxel_worldwide.shtml). Please have the following information ready when you contact an office. Required Information Product model and serial number. Warranty Information. Date that you received your device. Brief description of the problem and the steps you took to solve it. Corporate Headquarters (Worldwide) Taiwan ZyXEL Communications Corporation http://www.zyxel.com Asia China ZyXEL Communications (Shanghai) Corp. ZyXEL Communications (Beijing) Corp. ZyXEL Communications (Tianjin) Corp. http://www.zyxel.cn India ZyXEL Technology India Pvt Ltd http://www.zyxel.in Kazakhstan ZyXEL Kazakhstan http://www.zyxel.kz NWA1000 Series Users Guide 192 Appendix F Customer Support Korea ZyXEL Korea Corp. http://www.zyxel.kr Malaysia ZyXEL Malaysia Sdn Bhd. http://www.zyxel.com.my Pakistan ZyXEL Pakistan (Pvt.) Ltd. http://www.zyxel.com.pk Philipines ZyXEL Philippines http://www.zyxel.com.ph Singapore ZyXEL Singapore Pte Ltd. http://www.zyxel.com.sg Taiwan ZyXEL Communications Corporation http://www.zyxel.com Thailand ZyXEL Thailand Co., Ltd http://www.zyxel.co.th Vietnam ZyXEL Communications Corporation-Vietnam Office http://www.zyxel.com/vn/vi Europe Austria ZyXEL Deutschland GmbH http://www.zyxel.de Belarus ZyXEL BY http://www.zyxel.by NWA1000 Series Users Guide 193 Appendix F Customer Support Belgium ZyXEL Communications B.V. http://www.zyxel.com/be/nl/
Bulgaria ZyXEL http://www.zyxel.com/bg/bg/
Czech ZyXEL Communications Czech s.r.o http://www.zyxel.cz Denmark ZyXEL Communications A/S http://www.zyxel.dk Estonia ZyXEL Estonia http://www.zyxel.com/ee/et/
Finland ZyXEL Communications http://www.zyxel.fi France ZyXEL France http://www.zyxel.fr Germany ZyXEL Deutschland GmbH http://www.zyxel.de Hungary ZyXEL Hungary & SEE http://www.zyxel.hu Latvia ZyXEL Latvia http://www.zyxel.com/lv/lv/homepage.shtml 194 NWA1000 Series Users Guide Appendix F Customer Support Lithuania ZyXEL Lithuania http://www.zyxel.com/lt/lt/homepage.shtml Netherlands ZyXEL Benelux http://www.zyxel.nl Norway ZyXEL Communications http://www.zyxel.no Poland ZyXEL Communications Poland http://www.zyxel.pl Romania ZyXEL Romania http://www.zyxel.com/ro/ro Russia ZyXEL Russia http://www.zyxel.ru Slovakia ZyXEL Communications Czech s.r.o. organizacna zlozka http://www.zyxel.sk Spain ZyXEL Spain http://www.zyxel.es Sweden ZyXEL Communications http://www.zyxel.se Switzerland Studerus AG http://www.zyxel.ch/
NWA1000 Series Users Guide 195 Appendix F Customer Support Turkey ZyXEL Turkey A.S. http://www.zyxel.com.tr UK ZyXEL Communications UK Ltd. http://www.zyxel.co.uk Ukraine ZyXEL Ukraine http://www.ua.zyxel.com Latin America Argentina ZyXEL Communication Corporation http://www.zyxel.com/ec/es/
Ecuador ZyXEL Communication Corporation http://www.zyxel.com/ec/es/
Middle East Egypt ZyXEL Communication Corporation http://www.zyxel.com/homepage.shtml Middle East ZyXEL Communication Corporation http://www.zyxel.com/homepage.shtml North America USA ZyXEL Communications, Inc. - North America Headquarters http://www.us.zyxel.com/
196 NWA1000 Series Users Guide Appendix F Customer Support Oceania Africa Australia ZyXEL Communications Corporation http://www.zyxel.com/au/en/
South Africa Nology (Pty) Ltd. http://www.zyxel.co.za NWA1000 Series Users Guide 197 APPENDIX G Legal Information Copyright Copyright 2014 by ZyXEL Communications Corporation. The contents of this publication may not be reproduced in any part or as a whole, transcribed, stored in a retrieval system, translated into any language, or transmitted in any form or by any means, electronic, mechanical, magnetic, optical, chemical, photocopying, manual, or otherwise, without the prior written permission of ZyXEL Communications Corporation. Published by ZyXEL Communications Corporation. All rights reserved. Disclaimers ZyXEL does not assume any liability arising out of the application or use of any products, or software described herein. Neither does it convey any license under its patent rights nor the patent rights of others. ZyXEL further reserves the right to make changes in any products described herein without notice. This publication is subject to change without notice. Your use of the NWA is subject to the terms and conditions of any related service providers. Trademarks Trademarks mentioned in this publication are used for identification purposes only and may be properties of their respective owners. Certifications Federal Communications Commission (FCC) Interference Statement The device complies with Part 15 of FCC rules. Operation is subject to the following two conditions:
This device may not cause harmful interference. This device must accept any interference received, including interference that may cause undesired operations. This device has been tested and found to comply with the limits for a Class B digital device pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This device generates, uses, and can radiate radio frequency energy, and if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this device does cause harmful interference to radio/television reception, which can be determined by turning the device off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
Reorient or relocate the receiving antenna. Increase the separation between the equipment and the receiver. Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help. FCC Caution: Any changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate this equipment. 1 2 3 4 FCC Radiation Exposure Statement This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter. IEEE 802.11b, 802.11g or 802.11n (20MHz) operation of this product in the U.S.A. is firmware-limited to channels 1 through 11. IEEE 802.11n (40MHz) operation of this product in the U.S.A. is firmware-limited to channels 3 through 9. To comply with FCC RF exposure compliance requirements, a separation distance of at least 20 cm must be maintained between the antenna of this device and all persons. Industry Canada Statement This device complies with RSS-210 of the Industry Canada Rules. Operation is subject to the following two conditions:
1) this device may not cause interference and 2) this device must accept any interference, including interference that may cause undesired operation of the device This device has been designed to operate with an antenna having a maximum gain of 3dBi. Antenna having a higher gain is strictly prohibited per regulations of Industry Canada. The required antenna impedance is 50 ohms. To reduce potential radio interference to other users, the antenna type and its gain should be so chosen that the EIRP is not more than required for successful communication. NWA1000 Series Users Guide 198 Appendix G Legal Information IC Radiation Exposure Statement This equipment complies with IC radiation exposure limits set forth for an uncontrolled environment. End users must follow the specific operating instructions for satisfying RF exposure compliance.
!
5.25-5.35 (GHz) MPE 1 mW/cm2 0.965 mW/cm2 Notices Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. This Class B digital apparatus complies with Canadian ICES-003. Cet appareil numrique de la classe B est conforme la norme NMB-003 du Canada. Network standby power consumption < 12W and Off mode power consumption < 0.5W. ErP (Energy-related Products) Declaration of Conformity All ZyXEL products put on the EU market in compliance with the requirement of the European Parliament and the Council published Directive 2009/125/EC establishing a framework for the setting of ecodesign requirements for energy-related products (recast), so called as "ErP Directive (Energy-related Products directive). This product has been outside the scope of Energy efficiency limitation requirement in the light of the terms of Regulation (EC) No 1275/
2008, Annex II:
2. Four years after this Regulation has come into force:
(c) Availability of off mode and/or standby mode Equipment shall, except where this is inappropriate for the intended use, provide off mode and/or standby mode, and/or another condition which does not exceed the applicable power consumption requirements for off mode and/or standby mode when the equipment is connected to the mains power source.
(d) Power management
-another condition which does not exceed the applicable power consumption requirements for off mode and/or standby mode when the equipment is connected to the mains power source. The power anagement function shall be activated before delivery. 4. Information to be provided by manufacturers:
(c) the characteristics of equipment relevant for assessing conformity with the requirements set out in point 1(c), or the requirements set out in points 2(c) and/or 2(d), as applicable, including the time taken to automatically reach standby, or off mode, or another condition which does not exceed the applicable power consumption requirements for off mode and/or standby mode. In particular, if applicable, the technical justification shall be provided that the requirements set out in point 1(c), or the requirements set out in points 2(c) and/or 2(d), are inappropriate for the intended use of equipment. EU Directive & Regulation:
ErP Directive: Directive 2009/125/EC Standby & off mode: Regulation (EC) No 1275/2008, Guidance accompanying Commission Regulation (EC) No 1275/2008, source: http://ec.europa.eu/energy/efficiency/ecodesign/eco_design_en.htm Viewing Certifications Go to http://www.zyxel.com to view this products documentation and certifications. ZyXEL Limited Warranty ZyXEL warrants to the original end user (purchaser) that this product is free from any defects in material or workmanship for a specific period (the Warranty Period) from the date of purchase. The Warranty Period varies by region. Check with your vendor and/or the authorized ZyXEL local distributor for details about the Warranty Period of this product. During the warranty period, and upon proof of purchase, should the product have indications of failure due to faulty workmanship and/or materials, ZyXEL will, at its discretion, repair or replace the defective products or components without charge for either parts or labor, and to whatever extent it shall deem necessary to restore the product or components to proper operating condition. Any replacement will consist of a new or re-manufactured functionally equivalent product of equal or higher value, and will be solely at the discretion of ZyXEL. This warranty shall not apply if the product has been modified, misused, tampered with, damaged by an act of God, or subjected to abnormal working conditions. Note Repair or replacement, as provided under this warranty, is the exclusive remedy of the purchaser. This warranty is in lieu of all other warranties, express or implied, including any implied warranty of merchantability or fitness for a particular use or purpose. ZyXEL shall in no event be held liable for indirect or consequential damages of any kind to the purchaser. To obtain the services of this warranty, contact your vendor. You may also refer to the warranty policy for the region in which you bought the device at http://www.zyxel.com/web/support_warranty_info.php. NWA1000 Series Users Guide 199 Appendix G Legal Information Registration Register your product online to receive e-mail notices of firmware upgrades and information at www.zyxel.com. Open Source Licenses This product contains in part some free software distributed under GPL license terms and/or GPL like licenses. Open source licenses are provided with the firmware package. You can download the latest firmware at www.zyxel.com. If you cannot find it there, contact your vendor or ZyXEL Technical Support at support@zyxel.com.tw. To obtain the source code covered under those Licenses, please contact your vendor or ZyXEL Technical Support at support@zyxel.com.tw. Regulatory Information European Union The following information applies if you use the product within the European Union. Declaration of Conformity with Regard to EU Directive 1999/5/EC (R&TTE Directive) Compliance Information for 2.4GHz and 5GHz Wireless Products Relevant to the EU and Other Countries Following the EU Directive 1999/5/EC
(R&TTE Directive)
[Czech]
[Danish]
[German]
[Estonian]
English
[Spanish]
[Greek]
[French]
[Italian]
[Latvian]
ZyXEL tmto prohlauje, e tento zazen je ve shod se zkladnmi poadavky a dalmi pslunmi ustanovenmi smrnice 1999/5/EC. Undertegnede ZyXEL erklrer herved, at flgende udstyr udstyr overholder de vsentlige krav og vrige relevante krav i direktiv 1999/5/EF. Hiermit erklrt ZyXEL, dass sich das Gert Ausstattung in bereinstimmung mit den grundlegenden Anforderungen und den brigen einschlgigen Bestimmungen der Richtlinie 1999/5/EU befindet. Kesolevaga kinnitab ZyXEL seadme seadmed vastavust direktiivi 1999/5/E phinuetele ja nimetatud direktiivist tulenevatele teistele asjakohastele stetele. Hereby, ZyXEL declares that this equipment is in compliance with the essential requirements and other relevant provisions of Directive 1999/5/EC. Por medio de la presente ZyXEL declara que el equipo cumple con los requisitos esenciales y cualesquiera otras disposiciones aplicables o exigibles de la Directiva 1999/5/CE. ZyXEL 1999/5/C. Par la prsente ZyXEL dclare que l'appareil quipements est conforme aux exigences essentielles et aux autres dispositions pertinentes de la directive 1999/5/EC. Ai Sensi della Direttiva 2012/19/UE del Parlamento europeo e del Consiglio, del 4 luglio 2012, sui rifiuti di apparecchiature elettriche ed elettroniche (RAEE). Ar o ZyXEL deklar, ka iekrtas atbilst Direktvas 1999/5/EK btiskajm prasbm un citiem ar to saisttajiem noteikumiem.
[Lithuanian]
iuo ZyXEL deklaruoja, kad is ranga atitinka esminius reikalavimus ir kitas 1999/5/EB Direktyvos nuostatas.
[Dutch]
[Maltese]
Hierbij verklaart ZyXEL dat het toestel uitrusting in overeenstemming is met de essentile eisen en de andere relevante bepalingen van richtlijn 1999/5/EC. Hawnhekk, ZyXEL, jiddikjara li dan tagmir jikkonforma mal-tiijiet essenzjali u ma provvedimenti orajn relevanti li hemm fid-Dirrettiva 1999/5/EC.
[Hungarian]
Alulrott, ZyXEL nyilatkozom, hogy a berendezs megfelel a vonatkoz alapvet kvetelmnyeknek s az 1999/5/EK irnyelv egyb elrsainak.
[Polish]
Niniejszym ZyXEL owiadcza, e sprzt jest zgodny z zasadniczymi wymogami oraz pozostaymi stosownymi postanowieniami Dyrektywy 1999/5/EC.
[Portuguese]
ZyXEL declara que este equipamento est conforme com os requisitos essenciais e outras disposies da Directiva 1999/5/EC.
[Slovenian]
ZyXEL izjavlja, da je ta oprema v skladu z bistvenimi zahtevami in ostalimi relevantnimi doloili direktive 1999/5/EC.
[Slovak]
[Finnish]
[Swedish]
[Bulgarian]
[Icelandic]
ZyXEL tmto vyhlasuje, e zariadenia spa zkladn poiadavky a vetky prslun ustanovenia Smernice 1999/5/EC. ZyXEL vakuuttaa tten ett laitteet tyyppinen laite on direktiivin 1999/5/EY oleellisten vaatimusten ja sit koskevien direktiivin muiden ehtojen mukainen. Hrmed intygar ZyXEL att denna utrustning str I verensstmmelse med de vsentliga egenskapskrav och vriga relevanta bestmmelser som framgr av direktiv 1999/5/EC. ZyXEL , 1999/5/C. Hr me lsir, ZyXEL v yfir a essi bnaur er samrmi vi grunnkrfur og nnur vieigandi kvi tilskipunar 1999/5/EC. 200 NWA1000 Series Users Guide Appendix G Legal Information
[Norwegian]
[Romanian]
Erklrer herved ZyXEL at dette utstyret er I samsvar med de grunnleggende kravene og andre relevante bestemmelser I direktiv 1999/5/EF. Prin prezenta, ZyXEL declar c acest echipament este n conformitate cu cerinele eseniale i alte prevederi relevante ale Directivei 1999/5/EC. National Restrictions This product may be used in all EU countries (and other countries following the EU directive 1999/5/EC) without any limitation except for the countries mentioned below:
Ce produit peut tre utilis dans tous les pays de lUE (et dans tous les pays ayant transposs la directive 1999/5/CE) sans aucune limitation, except pour les pays mentionns ci-dessous:
Questo prodotto utilizzabile in tutte i paesi EU (ed in tutti gli altri paesi che seguono le direttive EU 1999/5/EC) senza nessuna limitazione, eccetto per i paesii menzionati di seguito:
Das Produkt kann in allen EU Staaten ohne Einschrnkungen eingesetzt werden (sowie in anderen Staaten die der EU Direktive 1995/5/CE folgen) mit Aunahme der folgenden aufgefhrten Staaten:
In the majority of the EU and other European countries, the 2, 4- and 5-GHz bands have been made available for the use of wireless local area networks (LANs). Later in this document you will find an overview of countries inwhich additional restrictions or requirements or both are applicable. The requirements for any country may evolve. ZyXEL recommends that you check with the local authorities for the latest status of their national regulations for both the 2,4- and 5-GHz wireless LANs. The following countries have restrictions and/or requirements in addition to those given in the table labeled Overview of Regulatory Requirements for Wireless LANs:. Overview of Regulatory Requirements for Wireless LANs Frequency Band (MHz) Indoor ONLY Indoor and Outdoor 2400-2483.5 5150-5350 5470-5725 Max Power Level
(EIRP)1 (mW) 100 200 1000 V V V Belgium The Belgian Institute for Postal Services and Telecommunications (BIPT) must be notified of any outdoor wireless link having a range exceeding 300 meters. Please check http://www.bipt.be for more details. Draadloze verbindingen voor buitengebruik en met een reikwijdte van meer dan 300 meter dienen aangemeld te worden bij het Belgisch Instituut voor postdiensten en telecommunicatie (BIPT). Zie http://www.bipt.be voor meer gegevens. Les liaisons sans fil pour une utilisation en extrieur dune distance suprieure 300 mtres doivent tre notifies lInstitut Belge des services Postaux et des Tlcommunications (IBPT). Visitez http://www.ibpt.be pour de plus amples dtails. Denmark In Denmark, the band 5150 - 5350 MHz is also allowed for outdoor usage. I Danmark m frekvensbndet 5150 - 5350 ogs anvendes udendrs. Italy This product meets the National Radio Interface and the requirements specified in the National Frequency Allocation Table for Italy. Unless this wireless LAN product is operating within the boundaries of the owner's property, its use requires a general authorization. Please check http://www.sviluppoeconomico.gov.it/ for more details. Questo prodotto conforme alla specifiche di Interfaccia Radio Nazionali e rispetta il Piano Nazionale di ripartizione delle frequenze in Italia. Se non viene installato all 'interno del proprio fondo, l'utilizzo di prodotti Wireless LAN richiede una Autorizzazione Generale. Consultare http://www.sviluppoeconomico.gov.it/ per maggiori dettagli. Latvia The outdoor usage of the 2.4 GHz band requires an authorization from the Electronic Communications Office. Please check http://
www.esd.lv for more details. 2.4 GHz frekvenu joslas izmantoanai rpus telpm nepiecieama atauja no Elektronisko sakaru direkcijas. Vairk informcijas: http://www.esd.lv. Notes:
1. Although Norway, Switzerland and Liechtenstein are not EU member states, the EU Directive 1999/5/EC has also been implemented in those countries. 2. The regulatory limits for maximum output power are specified in EIRP. The EIRP level (in dBm) of a device can be calculated by adding the gain of the antenna used(specified in dBi) to the output power available at the connector (specified in dBm). NWA1000 Series Users Guide 201 Appendix G Legal Information List of national codes COUNTRY Austria Belgium Cyprus Czech Republic Denmark Estonia Finland France Germany Greece Hungary Ireland Italy Latvia Lithuania Luxembourg Safety Warnings ISO 3166 2 LETTER CODE COUNTRY ISO 3166 2 LETTER CODE AT BE CY CR DK EE FI FR DE GR HU IE IT LV LT LU Malta Netherlands Poland Portugal Slovakia Slovenia Spain Sweden United Kingdom Iceland Liechtenstein Norway Switzerland Bulgaria Romania Turkey MT NL PL PT SK SI ES SE GB IS LI NO CH BG RO TR Do NOT use this product near water, for example, in a wet basement or near a swimming pool. Do NOT expose your device to dampness, dust or corrosive liquids. Do NOT store things on the device. Do NOT install, use, or service this device during a thunderstorm. There is a remote risk of electric shock from lightning. Connect ONLY suitable accessories to the device. Do NOT open the device or unit. Opening or removing covers can expose you to dangerous high voltage points or other risks. ONLY qualified service personnel should service or disassemble this device. Please contact your vendor for further information. Make sure to connect the cables to the correct ports. Place connecting cables carefully so that no one will step on them or stumble over them. Always disconnect all cables from this device before servicing or disassembling. Use ONLY an appropriate power adaptor or cord for your device. Connect it to the right supply voltage (for example, 110V AC in North America or 230V AC in Europe). adaptor or cord. Do NOT allow anything to rest on the power adaptor or cord and do NOT place the product where anyone can walk on the power If the power adaptor or cord is damaged, remove it from the device and the power source. Do NOT use the device if the power adaptor or cord is damaged as it might cause electrocution. Do NOT attempt to repair the power adaptor or cord. Contact your local vendor to order a new one. Do not use the device outside, and make sure all the connections are indoors. There is a remote risk of electric shock from lightning. Do NOT obstruct the device ventilation slots, as insufficient airflow may harm your device. Antenna Warning! This device meets ETSI and FCC certification requirements when using the included antenna(s). Only use the included antenna(s). If you wall mount your device, make sure that no electrical lines, gas or water pipes will be damaged. The PoE (Power over Ethernet) devices that supply or receive power and their connected Ethernet cables must all be completely indoors. This product is for indoor use only (utilisation intrieure exclusivement). FOR COUNTRY CODE SELECTION USAGE (WLAN DEVICES) Note: The country code selection is for non-US model only and is not available to all US model. Per FCC regulation, all Wi-Fi product marketed in US must fixed to US operation channels only. Your product is marked with this symbol, which is known as the WEEE mark. WEEE stands for Waste Electronics and Electrical Equipment. It means that used electrical and electronic products should not be mixed with general waste. Used electrical and electronic equipment should be treated separately. 202 NWA1000 Series Users Guide Environmental Product Declaration Appendix G Legal Information NWA1000 Series Users Guide 203 Index A access privileges 10 Accounting Server 80 Advanced Encryption Standard See AES. AES 186 Alerts 106 Alternative subnet mask notation 164 Antenna 85 antenna directional 190 gain 190 omni-directional 190 AP (access point) 180 Applications Access Point 13 AP + Bridge 13 applications MBSSID 10 Repeater 13 ATC 72 ATC+WMM 72 B Basic Service Set 52 see BSS Basic Service Set, See BSS 178 beacon 52 Beacon Interval 59, 62, 68 BSS 10, 52, 178 C CA 185 Certificate 204 Index authentication 95 file format 95 Certificate Authority See CA. Certificates Fingerprint 104 MD5 104 public key 95 SHA1 104 Certification Authority 103 certifications 198 notices 199 viewing 199 Channel 53 channel 180 interference 180 contact information 192 Controlling network access, Ways of 9 cookies 18 copyright 198 CTS (Clear to Send) 181 customer support 192 D disclaimer 198 Distribution System 52 DNS 91, 109 documentation related 2 Domain Name Server (DNS) 109 DS 52 DTIM Interval 59, 63, 68 dynamic WEP key exchange 185 E EAP 55 NWA1000 Series Users Guide EAP Authentication 184 Encryption 55, 74 encryption 13, 186 ESS 52, 179 Ethernet device 82 Extended Service Set 52 Extended Service Set, See ESS 179 Extensible Authentication Protocol 55 F Factory Defaults 116 restoring 20 FCC interference statement 198 Firefox 18 Firmware 110 FTP 94 restrictions 94 G Generic Token Card 55 GTC 55 Guide Quick Start 2 H hidden node 180 I IANA 168 IBSS 178 IEEE 802.11g 182 IEEE 802.1x 53 Import Certificate 97 Independent Basic Service Set See IBSS 178 Index initialization vector (IV) 186 Internet Assigned Numbers Authority See IANA Internet Explorer 18 Internet Protocol version 6, see IPv6 Internet telephony 11 IP Address 87 Gateway IP address 87 IP Screen 87 DHCP 90 IPv6 88, 169 addressing 88, 169 EUI-64 171 global address 88, 170 interface ID 171 link-local address 88, 169 Neighbor Discovery Protocol 88, 169 ping 88, 169 prefix 88, 169 prefix length 88, 169 stateless autoconfiguration 171 unspecified address 170 J Java permissions 18 JavaScripts 18 K key 55, 75 L layer-2 isolation 80 example 80 MAC address 81 LEAP 55 LEDs 16, 117 Blinking 16 Flashing 16 Off 16 NWA1000 Series Users Guide 205 Index Lightweight Extensible Authentication Protocol 55 Log 46 Log Screens 105 Logs accessing logs 105 receiving logs via e-mail 106 O Operating Mode 52 other documentation 2 Output Power Management 59, 63, 65, 68 Logs Screen Mail Server 107 Mail Subject 107 Send Log to 107 Syslog 108 Logs, Uses of 105 M MAC Filter Allow Association 83 Deny Association 83 Maintenance 109 Association List 110 Backup 115 Restore 115 Management Information Base (MIB) 103 managing the device good habits 15 MBSSID 10 Media Access Control 82 message relay 56 Microsoft Challenge Handshake Authentication Protocol Version 2 55 MSCHAPv2 55 MSDU 59, 63, 69 N NAT 168 Netscape Navigator 18 Network Time Protocol (NTP) 109 NTP 109 P Pairwise Master Key (PMK) 186, 188 Passphrase 55 Password 118 PEAP 55 Personal Information Exchange Syntax Standard 95 PFX PKCS#12 95 pop-up windows 18 Preamble 84 preamble mode 181 Preamble Type 59, 63, 65, 69 Pre-Shared Key 55 priorities 85 product registration 200 Protected Extensible Authentication Protocol 55 PSK 55, 187 Q QoS 72 Quick Start Guide 2 R Radio Frequency 85 RADIUS 55, 183 Accounting 56 Authentication 56 Authorization 56 message types 184 messages 184 shared secret key 184 RADIUS Screen 206 NWA1000 Series Users Guide Index Accounting Server 80 Accounting Server IP Address 80 RADIUS server 54 Backup 80 Primary 79 Rates Configuration 59, 63, 65, 69 registration product 200 related documentation 2 Remote Authentication Dial In User Service 55 remote management 15 remote management limitations 93 Roaming 85 RootAP 13 RTS (Request To Send) 181 threshold 180, 181 RTS/CTS Threshold 59, 63, 65, 69, 84 S screen resolution 18 Security Mode, Choosing the 86 Security Modes None 54 WEP 54 WPA2 54 WPA2-MIX 54 WPA2-PSK 54 Service Set IDentifier 52 Service Set Identifier see SSID Simple Mail Transfer Protocol 106 SMTP 106, 108 SNMP MIBs 103 Spanning Tree Protocol 84 SSID 10, 52 SSID profile pre-configured 11 SSID profiles 10 Status Screens 24 802.11 Mode 47 Channel ID 47 Ethernet 24 FCS Error Count 47 Firmware Version 26 Interface Status 27 Poll Interval 47 Retry Count 47 Statistics 48 system statistics 24 WLAN 24 Subnet 161 Subnet Mask 87, 162 subnetting 164 supported browsers 18 Syslog Logging 106 System Screens General 110 Password 111 Time Time and Date Setup 112 Time Zone 112 T telnet 97 Temporal Key Integrity Protocol 55 TFTP restrictions 94 Thumbprint Algorithm 104 TKIP 55 TLS 55 trademarks 198 Transport Layer Security 55 Troubleshooting 117 connection is slow or intermittent 120 DHCP 118 factory defaults 119 firmware 119 Internet 119 LAN/ETHERNET port 119 QoS 120 Web Configurator 118 TTLS 55 Tunneled Transport Layer Security 55 Tutorial 28 NWA1000 Series Users Guide 207
| 1 | User Manual | Users Manual | 5.61 MiB |
NWA1000 Series NWA 1100-NH / 1121-NI / 1123-NI / 1123-AC WLAN PoE Access Points Version 2.00 Edition 1, 06/2014 Quick Start Guide Users Guide Default Login Details LAN IP Address User Name Password www.zyxel.com http://192.168.1.2 admin 1234 Copyright 2014 ZyXEL Communications Corporation IMPORTANT!
READ CAREFULLY BEFORE USE. KEEP THIS GUIDE FOR FUTURE REFERENCE. This is a Users Guide for a series of products. Not all products support all firmware features. Screenshots and graphics in this book may differ slightly from your product due to differences in your product firmware or your computer operating system. Every effort has been made to ensure that the information in this manual is accurate. Related Documentation Quick Start Guide. The Quick Start Guide shows how to connect the NWA and access the Web Configurator. 2 NWA1000 Series Users Guide Contents Overview Contents Overview Users Guide .........................................................................................................................................8 Introducing the NWA .................................................................................................................................9 Introducing the Web Configurator ...........................................................................................................18 Dashboard ...............................................................................................................................................24 Tutorial ....................................................................................................................................................28 Technical Reference ..........................................................................................................................45 Monitor ....................................................................................................................................................46 Wireless LAN ..........................................................................................................................................51 LAN and VLAN ........................................................................................................................................87 System ....................................................................................................................................................92 Log Settings ..........................................................................................................................................105 Maintenance ..........................................................................................................................................109 Troubleshooting .................................................................................................................................... 117 NWA1000 Series Users Guide 3 Table of Contents Table of Contents Contents Overview ..............................................................................................................................3 Table of Contents .................................................................................................................................4 Part I: Users Guide ........................................................................................... 8 Chapter 1 Introducing the NWA ............................................................................................................................9 1.1 Introducing the NWA ...........................................................................................................................9 1.1.1 Dual-Band ..................................................................................................................................9 1.2 Wireless Modes .................................................................................................................................10 1.2.1 MBSSID ...................................................................................................................................10 1.2.2 Wireless Client ......................................................................................................................... 11 1.2.3 Root AP ...................................................................................................................................13 1.2.4 Repeater ..................................................................................................................................13 1.3 Ways to Manage the NWA ................................................................................................................14 1.4 Configuring Your NWAs Security Features .......................................................................................15 1.4.1 Control Access to Your Device ................................................................................................15 1.4.2 Wireless Security .....................................................................................................................15 1.5 Good Habits for Managing the NWA .................................................................................................15 1.6 Hardware Connections ......................................................................................................................16 1.7 LED ...................................................................................................................................................16 Chapter 2 Introducing the Web Configurator ....................................................................................................18 2.1 Overview ...........................................................................................................................................18 2.2 Accessing the Web Configurator .......................................................................................................18 2.3 Resetting the NWA ............................................................................................................................20 2.3.1 Methods of Restoring Factory-Defaults ...................................................................................20 2.4 Navigating the Web Configurator ......................................................................................................21 2.4.1 Title Bar ...................................................................................................................................21 2.4.2 Navigation Panel .....................................................................................................................22 2.4.3 Main Window ...........................................................................................................................23 Chapter 3 Dashboard ...........................................................................................................................................24 3.1 The Dashboard Screen .....................................................................................................................24 4 NWA1000 Series Users Guide Table of Contents Chapter 4 Tutorial.................................................................................................................................................28 4.1 How to Configure the Wireless LAN ..................................................................................................28 4.1.1 Choosing the Wireless Mode ...................................................................................................28 4.1.2 Further Reading .......................................................................................................................28 4.2 How to Configure Multiple Wireless Networks ..................................................................................28 4.2.1 Configure the SSID Profiles .....................................................................................................30 4.2.2 Configure the Standard Network .............................................................................................32 4.2.3 Configure the VoIP Network ....................................................................................................33 4.2.4 Configure the Guest Network ..................................................................................................35 4.2.5 Testing the Wireless Networks ................................................................................................37 4.3 NWA Setup in AP and Wireless Client Modes ..................................................................................37 4.3.1 Scenario ..................................................................................................................................37 4.3.2 Configuring the NWA in MBSSID or Root AP Mode ................................................................38 4.3.3 Configuring the NWA in Wireless Client Mode ........................................................................41 4.3.4 MAC Filter Setup .....................................................................................................................43 4.3.5 Testing the Connection and Troubleshooting ..........................................................................44 Part II: Technical Reference............................................................................ 45 Chapter 5 Monitor.................................................................................................................................................46 5.1 Overview ...........................................................................................................................................46 5.2 What You Can Do .............................................................................................................................46 5.3 View Logs .........................................................................................................................................46 5.4 Statistics ............................................................................................................................................47 5.5 Association List .................................................................................................................................48 5.6 Channel Usage .................................................................................................................................49 Chapter 6 Wireless LAN.......................................................................................................................................51 6.1 Overview ...........................................................................................................................................51 6.2 What You Can Do in this Chapter .....................................................................................................51 6.3 What You Need To Know ..................................................................................................................52 6.4 Wireless Settings Screen ..................................................................................................................56 6.4.1 Root AP Mode .........................................................................................................................57 6.4.2 Repeater Mode ........................................................................................................................61 6.4.3 Wireless Client Mode ...............................................................................................................64 6.4.4 MBSSID Mode .........................................................................................................................67 6.5 SSID Screen .....................................................................................................................................70 6.5.1 Configuring SSID .....................................................................................................................71 NWA1000 Series Users Guide 5 Table of Contents 6.6 Wireless Security Screen ..................................................................................................................72 6.6.1 Security: WEP .........................................................................................................................74 6.6.2 Security: WPA2, WPA2-MIX ....................................................................................................75 6.6.3 Security: WPA2-PSK, WPA2-PSK-MIX ...................................................................................77 6.7 RADIUS Screen ................................................................................................................................78 6.8 Layer-2 Isolation ................................................................................................................................80 6.8.1 Layer-2 Isolation Screen ..........................................................................................................81 6.9 MAC Filter Screen .............................................................................................................................82 6.10 Technical Reference ........................................................................................................................84 6.10.1 Additional Wireless Terms .....................................................................................................84 6.10.2 WMM QoS .............................................................................................................................85 6.10.3 Security Mode Guideline .......................................................................................................86 Chapter 7 LAN and VLAN ....................................................................................................................................87 7.1 LAN Overview ...................................................................................................................................87 7.2 What You Can Do in the LAN IP Screen ...........................................................................................87 7.3 What You Need to Know ...................................................................................................................87 7.4 VLAN Overview .................................................................................................................................89 7.5 What You Need to Know ...................................................................................................................89 7.6 LAN IP Screen ..................................................................................................................................90 Chapter 8 System .................................................................................................................................................92 8.1 Overview ...........................................................................................................................................92 8.2 What You Can Do in this Chapter .....................................................................................................92 8.3 What You Need To Know ..................................................................................................................93 8.4 WWW Screen ....................................................................................................................................95 8.5 Certificates Screen ............................................................................................................................96 8.6 Telnet Screen ....................................................................................................................................97 8.7 SNMP Screen ...................................................................................................................................99 8.8 FTP Screen .....................................................................................................................................101 8.9 Technical Reference ........................................................................................................................102 8.9.1 MIB ........................................................................................................................................102 8.9.2 Supported MIBs .....................................................................................................................103 8.9.3 Private-Public Certificates .....................................................................................................103 8.9.4 Certification Authorities ..........................................................................................................103 8.9.5 Checking the Fingerprint of a Certificate on Your Computer .................................................104 Chapter 9 Log Settings ......................................................................................................................................105 9.1 Overview .........................................................................................................................................105 9.2 What You Can Do in this Chapter ...................................................................................................105 6 NWA1000 Series Users Guide Table of Contents 9.3 What You Need To Know ................................................................................................................106 9.4 Log Settings Screen ........................................................................................................................106 Chapter 10 Maintenance ......................................................................................................................................109 10.1 Overview .......................................................................................................................................109 10.2 What You Can Do in this Chapter .................................................................................................109 10.3 What You Need To Know .............................................................................................................. 110 10.4 General Screen ............................................................................................................................. 110 10.5 Password Screen .......................................................................................................................... 111 10.6 Time Screen .................................................................................................................................. 112 10.7 Firmware Upgrade Screen ............................................................................................................ 113 10.8 Configuration File Screen .............................................................................................................. 114 10.8.1 Backup Configuration .......................................................................................................... 115 10.8.2 Restore Configuration .......................................................................................................... 115 10.8.3 Back to Factory Defaults ..................................................................................................... 116 10.9 Restart Screen .............................................................................................................................. 116 Chapter 11 Troubleshooting................................................................................................................................ 117 11.1 Power, Hardware Connections, and LEDs .................................................................................... 117 11.2 NWA Access and Login ................................................................................................................. 118 11.3 Internet Access .............................................................................................................................. 119 11.4 Wireless LAN .................................................................................................................................120 Appendix A Setting Up Your Computers IP Address ......................................................................122 Appendix B Pop-up Windows, JavaScript and Java Permissions ...................................................150 Appendix C IP Addresses and Subnetting.......................................................................................161 Appendix D IPv6 ..............................................................................................................................169 Appendix E Wireless LANs..............................................................................................................178 Appendix F Customer Support ........................................................................................................192 Appendix G Legal Information .........................................................................................................198 Index ..................................................................................................................................................204 NWA1000 Series Users Guide 7 PART I Users Guide 8 CHAPTER 1 Introducing the NWA This chapter introduces the main applications and features of the NWA. It also discusses the ways you can manage your NWA. 1.1 Introducing the NWA This Users Guide covers the following models: NWA1100-NH, NWA1121-NI, NWA1123-NI and NWA1123-AC. Your NWA is an IPv6 wireless AP (Access Point) that can function in several wireless modes. It extends the range of your existing wired network without additional wiring, providing easy network access to mobile users. Table 1 NWA Series Comparison Table FEATURES Supported Wireless Standards Supported Frequency Bands Available Security Modes NWA1100-NH NWA1121-NI NWA1123-NI IEEE 802.11b IEEE 802.11g IEEE 802.11n IEEE 802.11b IEEE 802.11g IEEE 802.11n IEEE 802.11a IEEE 802.11b IEEE 802.11g IEEE 802.11n NWA1123-AC IEEE 802.11a IEEE 802.11ac IEEE 802.11b IEEE 802.11g IEEE 802.11n 2.4 GHz 2.4 GHz None WEP WPA2 WPA2-MIX WPA2-PSK WPA2-PSK-MIX None WEP WPA2 WPA2-MIX WPA2-PSK WPA2-PSK-MIX 2.4 GHz 5 GHz None WEP WPA2 WPA2-MIX WPA2-PSK WPA2-PSK-MIX 2.4 GHz 5 GHz None WEP WPA2 WPA2-MIX WPA2-PSK WPA2-PSK-MIX Number of SSID Profiles Layer-2 Isolation 8 Yes 8 Yes 32 Yes 32 Yes The NWA controls network access with MAC address filtering and RADIUS server authentication. It also provides a high level of network traffic security, supporting IEEE 802.1x, Wi-Fi Protected Access, WPA2 and WEP data encryption. Its Quality of Service (QoS) features allow you to prioritize time-sensitive or highly important applications such as VoIP. Your NWA is easy to install, configure and use. The embedded Web-based configurator enables simple, straightforward management and maintenance. See the Quick Start Guide for instructions on how to make hardware connections. 1.1.1 Dual-Band The NWA1123-NI or NWA1123-AC is a dual-band AP and able to function both 2.4G and 5G networks at the same time. You could use the 2.4 GHz band for regular Internet surfing and NWA1000 Series Users Guide 9 Chapter 1 Introducing the NWA downloading while using the 5 GHz band for time sensitive traffic like high-definition video, music, and gaming. Figure 1 Dual-Band Application 1.2 Wireless Modes The NWA can be configured to use the following WLAN operating modes:
OPERATING MODE NUMBER OF SUPPORTED SSID REPEATER FUNCTION AP FUNCTION MBSSID Client Root AP Repeater 8 1 5 1 No No Yes Yes Yes No Yes Yes Applications for each operating mode are shown below. 1.2.1 MBSSID A Basic Service Set (BSS) is the set of devices forming a single wireless network (usually an access point and one or more wireless clients). The Service Set IDentifier (SSID) is the name of a BSS. In Multiple BSS (MBSSID) mode, the NWA provides multiple virtual APs, each forming its own BSS and using its own individual SSID profile. You can configure multiple SSID profiles, and have all of them active at any one time. You can assign different wireless and security settings to each SSID profile. This allows you to compartmentalize groups of users, set varying access privileges, and prioritize network traffic to and from certain BSSs. 10 NWA1000 Series Users Guide Chapter 1 Introducing the NWA To the wireless clients in the network, each SSID appears to be a different access point. As in any wireless network, clients can associate only with the SSIDs for which they have the correct security settings. For example, you might want to set up a wireless network in your office where Internet telephony
(VoIP) users have priority. You also want a regular wireless network for standard users, as well as a guest wireless network for visitors. In the following figure, VoIP_SSID users have QoS priority, SSID01 is the wireless network for standard users, and Guest_SSID is the wireless network for guest users. In this example, the guest user is forbidden access to the wired Land Area Network
(LAN) behind the AP and can access only the Internet. Figure 2 Multiple BSSs 1.2.2 Wireless Client The NWA can be used as a wireless client to communicate with an existing network. Note: The NWA1123-NI or NWA1123-AC is a dual-band AP which contains two different types of wireless radios to transmit at 2.4 GHz and 5 GHz bands separately and simultaneously. If one of the NWA1123-NI wireless radio is set to work in client mode, the other radio will be disabled automatically. NWA1000 Series Users Guide 11 Chapter 1 Introducing the NWA In the figure below, the printer can receive requests from the wired computer clients A and B via the NWA in Client mode (Z) using only the 2.4 GHz band. Figure 3 Wireless Client Application 12 NWA1000 Series Users Guide Chapter 1 Introducing the NWA 1.2.3 Root AP In Root AP mode, the NWA (Z) can act as the root AP in a wireless network and also allow repeaters
(X and Y) to extend the range of its wireless network at the same time. In the figure below, both clients A, B and C can access the wired network through the root AP. Figure 4 Root AP Application On the NWA in Root AP mode, you can have multiple SSIDs active for regular wireless connections and one SSID for the connection with a repeater (repeater SSID). Wireless clients can use either SSID to associate with the NWA in Root AP mode. A repeater must use the repeater SSID to connect to the NWA in Root AP mode. When the NWA is in Root AP mode, repeater security between the NWA and other repeater is independent of the security between the wireless clients and the AP or repeater. If you do not enable repeater security, traffic between APs is not encrypted. When repeater security is enabled, both APs and repeaters must use the same pre-shared key. See Section 6.6 on page 72 for more details. Unless specified, the term security settings refers to the traffic between the wireless clients and the AP. At the time of writing, repeater security is compatible with the NWA only. 1.2.4 Repeater The NWA can act as a wireless network repeater to extend a root APs wireless network range, and also establish wireless connections with wireless clients. Using Repeater mode, your NWA can extend the range of the WLAN. In the figure below, the NWA in Repeater mode (Z) has a wireless connection to the NWA in Root AP mode (X) which is connected to a wired network and also has a wireless connection to another NWA in Repeater mode
(Y) at the same time. Z and Y act as repeaters that forward traffic between associated wireless NWA1000 Series Users Guide 13 Chapter 1 Introducing the NWA clients and the wired LAN. Clients A and B access the AP and the wired network behind the AP through repeaters Z and Y. Figure 5 Repeater Application When the NWA is in Repeater mode, repeater security between the NWA and other repeater is independent of the security between the wireless clients and the AP or repeater. If you do not enable repeater security, traffic between APs is not encrypted. When repeater security is enabled, both APs and repeaters must use the same pre-shared key. See Section 6.6 on page 72 for more details. Once the security settings of peer sides match one another, the connection between devices is made. At the time of writing, repeater security is compatible with the NWA only. 1.3 Ways to Manage the NWA Use any of the following methods to manage the NWA. Web Configurator. This is recommended for everyday management of the NWA using a
(supported) web browser. Telnet to login to the NWA using a virtual terminal connection. FTP (File Transfer Protocol) for firmware upgrades and configuration backup and restore. SNMP (Simple Network Management Protocol). The device can be monitored by an SNMP manager. 14 NWA1000 Series Users Guide 1.4 Configuring Your NWAs Security Features Your NWA comes with a variety of security features. This section summarizes these features and provides links to sections in the Users Guide to configure security settings on your NWA. Follow the suggestions below to improve security on your NWA and network. Chapter 1 Introducing the NWA 1.4.1 Control Access to Your Device Ensure only people with permission can access your NWA. Control physical access by locating devices in secure areas, such as locked rooms. Most NWAs have a reset button. If an unauthorized person has access to the reset button, they can then reset the devices password to its default password, log in and reconfigure its settings. Change any default passwords on the NWA, such as the password used for accessing the NWAs web configurator (if it has a web configurator). Use a password with a combination of letters and numbers and change your password regularly. Write down the password and put it in a safe place. See Section 10.5 on page 111 for instructions on changing your password. Configure remote management to control who can manage your NWA. See Chapter 8 on page 92 for more information. If you enable remote management, ensure you have enabled remote management only on the IP addresses, services or interfaces you intended and that other remote management settings are disabled. 1.4.2 Wireless Security Wireless devices are especially vulnerable to attack. Take the following measures to improve wireless security. Enable wireless security on your NWA. Choose the most secure encryption method that all devices on your network support. See Section 6.6 on page 72 for directions on configuring encryption. If you have a RADIUS server, enable IEEE 802.1x or WPA2 user identification on your network so users must log in. This method is more common in business environments. Hide your wireless network name (SSID). The SSID can be regularly broadcast and unauthorized users may use this information to access your network. See Section 6.5 on page 70 for directions on using the web configurator to hide the SSID. Enable the MAC filter to allow only trusted users to access your wireless network or deny unwanted users access based on their MAC address. See Section 6.9 on page 82 for directions on configuring the MAC filter. 1.5 Good Habits for Managing the NWA Do the following things regularly to make the NWA more secure and to manage it more effectively. Change the password. Use a password thats not easy to guess and that consists of different types of characters, such as numbers and letters. Write down the password and put it in a safe place. NWA1000 Series Users Guide 15 Chapter 1 Introducing the NWA Back up the configuration (and make sure you know how to restore it). Restoring an earlier working configuration may be useful if the device becomes unstable or even crashes. If you forget your password, you will have to reset the NWA to its factory default settings. If you backed up an earlier configuration file, you would not have to totally re-configure the NWA. You could simply restore your last configuration. 1.6 Hardware Connections See your Quick Start Guide for information on making hardware connections. 1.7 LED Figure 6 LED Table 2 LED LED PWR/SYS COLOR Amber/Red STATUS On Green Blinking Off On Blinking Off DESCRIPTION There is system error and the NWA cannot boot up, or the NWA doesnt have an Ethernet connection with the LAN. The NWA is starting up. The NWA is receiving power and ready for use. The NWA is receiving power. The NWA is starting up. The NWA is not receiving power. 16 NWA1000 Series Users Guide Chapter 1 Introducing the NWA Table 2 LED (continued) LED WLAN COLOR Green UPLINK Green STATUS On Blinking Off On Blinking Off DESCRIPTION The WLAN is active. The WLAN is transmitting or receiving data. The WLAN is not active. The port is connected. The NWA is sending/receiving data through the port. The port is not connected. NWA1000 Series Users Guide 17 CHAPTER 2 Introducing the Web Configurator This chapter describes how to access the NWAs web configurator and provides an overview of its screens. 2.1 Overview The NWA Web Configurator allows easy management using an Internet browser. In order to use the Web Configurator, you must:
Use Internet Explorer 7.0 and later versions, Mozilla Firefox 9.0 and later versions, Safari 4.0 and later versions, or Google Chrome 10.0 and later versions. Allow pop-up windows. Enable JavaScript (enabled by default). Enable Java permissions (enabled by default). Enable cookies. The recommended screen resolution is 1024 x 768 pixels and higher. 2.2 Accessing the Web Configurator 1 Make sure your hardware is properly connected and prepare your computer or computer network to connect to the NWA (refer to the Quick Start Guide). 2 Launch your web browser. NWA1000 Series Users Guide 18 3 Type 192.168.1.2 as the URL (default). The login screen appears. Figure 7 The Login Screen Chapter 2 Introducing the Web Configurator 4 5 Type admin as the (default) username and 1234 as the (default) password. Click Login. You should see a screen asking you to change your password (highly recommended) as shown next. Type a new password (and retype it to confirm) then click Apply. Alternatively, click Ignore. Note: If you do not change the password, the following screen appears every time you login. Figure 8 Change Password Screen You should now see the Dashboard screen. See Chapter 2 on page 18 for details about the Dashboard screen. NWA1000 Series Users Guide 19 Chapter 2 Introducing the Web Configurator 2.3 Resetting the NWA If you forget your password or cannot access the web configurator, you will need to use the RESET button at the rear panel of the NWA. This replaces the current configuration file with the factory-
default configuration file. This means that you will lose all the settings you previously configured. The password will be reset to 1234. Figure 9 The RESET Button 2.3.1 Methods of Restoring Factory-Defaults You can erase the current configuration and restore factory defaults in two ways:
Use the RESET button to upload the default configuration file. Hold this button in for about 3 seconds (the light will begin to blink). Use this method for cases when the password or IP address of the NWA is not known. Use the web configurator to restore defaults (refer to Section 10.8 on page 114). 20 NWA1000 Series Users Guide Chapter 2 Introducing the Web Configurator 2.4 Navigating the Web Configurator The following summarizes how to navigate the web configurator from the Dashboard screen. This guide uses the NWA1100-NH screens as an example. The screens may vary slightly for different models. Figure 10 Status Screen of the Web Configurator A B C As illustrated above, the Web Configurator screen is divided into these parts:
A - title bar B - navigation panel C - main window 2.4.1 Title Bar Click Logout at any time to exit the Web Configurator. Click ZAbout to open the about window, which provides information of the boot module and driver versions. NWA1000 Series Users Guide 21 Monitor Logs Statistics Association List Channel Usage Configuration Network Wireless LAN LAN Chapter 2 Introducing the Web Configurator 2.4.2 Navigation Panel Use the menu items on the navigation panel to open screens to configure NWA features. The following tables describe each menu item. Table 3 Navigation Panel Summary LINK Dashboard TAB View Log FUNCTION This screen shows the NWAs general device and network status information. Use this screen to access the statistics and client list. Use this screen to view the logs for the categories that you selected. Use this screen to view port status, packet specific statistics, the
"system up time" and so on. Use this screen to view the wireless stations that are currently associated to the NWA. Use this screen to know whether a channel is used by another wireless network or not. Wireless Settings Use this screen to configure the wireless LAN settings and NWAs operation mode. Wireless Settings - 2.4G Use this screen to configure up to eight SSID profiles for your NWA. Use this screen to configure wireless security profiles on the NWA. Use this screen to configure up to four RADIUS profiles. Wireless Settings - 5G SSID Security RADIUS Layer-2 Isolation Use this screen to configure the MAC addresses of the devices that you want to allow the associated wireless clients to have access to when layer-2 isolation is enabled Use this screen to configure MAC filtering profiles. Use this screen to configure the NWAs LAN IP address. MAC Filter IP System WWW Certificates Telnet SNMP FTP Log Settings Maintenance General Password Time Firmware Upgrade Use this screen to configure through which interface(s) and from which IP address(es) users can use HTTP to manage the NWA. Use this screen to import or remove a certificate from the NWA. Use this screen to configure through which interface(s) and from which IP address(es) users can use Telnet to manage the NWA. Use this screen to configure the NWA for SNMP management. Use this screen to configure through which interface(s) and from which IP address(es) users can use FTP to access the NWA. Use this screen to change your log settings. Use this screen to configure your devices name. Use this screen to configure your devices password. Use this screen to change your NWAs time and date. Use this screen to upload firmware to your device. 22 NWA1000 Series Users Guide Table 3 Navigation Panel Summary LINK Configuration File TAB Restart 2.4.3 Main Window Chapter 2 Introducing the Web Configurator FUNCTION Use this screen to backup and restore your devices configuration
(settings) or reset the factory default settings. Use this screen to reboot the NWA without turning the power off. The main window displays information and configuration fields. It is discussed in the rest of this document. NWA1000 Series Users Guide 23 CHAPTER 3 Dashboard The Dashboard screens display when you log into the NWA, or click Dashboard in the navigation menu. Use the Dashboard screen to look at the current status of the device, system resources, and interfaces. The Dashboard screens also provide detailed information about system statistics, associated wireless clients, and logs. 3.1 The Dashboard Screen Use this screen to get a quick view of system, Ethernet, WLAN and other information regarding your NWA. NWA1000 Series Users Guide 24 Click Dashboard. The following screen displays. Figure 11 The Dashboard Screen (NWA1100-NH) Chapter 3 Dashboard Figure 12 The Dashboard Screen (NWA1123-NI or NWA1123-AC) NWA1000 Series Users Guide 25 Chapter 3 Dashboard The following table describes the labels in this screen. Table 4 The Dashboard Screen LABEL Refresh Interval Refresh Now System Information DESCRIPTION Select how often you want the NWA to update this screen. Click this to update this screen immediately. System Name WLAN Operating Mode 2.4G 5G Firmware Version Serial Number Ethernet Information LAN MAC Address IPv4 Address Subnet Mask Gateway IP Address IPv6 Address Link Local Global WLAN Information SSID Channel Status Security Mode Summary Statistics Association List This field displays the NWA system name. It is used for identification. You can change this in the Maintenance > General screens System Name field. This field displays the current operating mode of the wireless module (Root AP, Repeater, Client, or MBSSID). You can change the operating mode in the Configuration > Wireless LAN > Wireless Settings screen. This field displays the current operating mode of the 2.4G wireless module (Root AP, Repeater, Client, or MBSSID). You can change the operating mode in the Configuration > Wireless LAN > Wireless Settings - 2.4G screen. This field displays the current operating mode of the 5G wireless module (Root AP, Repeater, Client, or MBSSID). You can change the operating mode in the Configuration > Wireless LAN > Wireless Settings - 5G screen. This field displays the current version of the firmware inside the device. It also shows the date the firmware version was created. You can change the firmware version by uploading new firmware in Maintenance > Firmware Upgrade. This field displays the serial number of the NWA. This displays the MAC (Media Access Control) address of the NWA on the LAN. Every network device has a unique MAC address which identifies it across the network. This field displays the current IPv4 address of the NWA on the network. Subnet masks determine the maximum number of possible hosts on a network. You can also use subnet masks to divide one network into multiple sub-networks. This is the IP address of the gateway. The gateway is a router or switch on the same network segment as the device's LAN port. The gateway helps forward packets to their destinations. This field displays the current IPv6 address(es) of the NWA on the network. This is the IPv6 link-local address that the NWA generates automatically. This is the NWAs IPv6 global address that you specify manually in the Configuration > LAN screen. This field displays the SSID (Service Set Identifier). This is available only when the WLAN operation mode is Client. The channel or frequency used by the NWA to send and receive information (in the 2.4G or 5G wireless network). This shows the current status of the wireless LAN. This is available only when the WLAN operation mode is Client. This displays the security mode the NWA is using. This is available only when the WLAN operation mode is Client. Click this link to view port status and packet specific statistics. See Section 5.4 on page 47. Click this to see a list of wireless clients currently associated to each of the NWAs wireless modules. See Section 5.5 on page 48. 26 NWA1000 Series Users Guide Table 4 The Dashboard Screen (continued) LABEL DESCRIPTION Click this to see a list of logs produced by the NWA. See Section 5.3 on page 46. Chapter 3 Dashboard View Log System Status System Up Time Current Date/Time System Resource CPU Usage Memory Usage Interface Status Interface Status Channel Rate SSID Status Interface SSID BSSID Security VLAN This field displays the elapsed time since the NWA was turned on. This field displays the date and time configured on the NWA. You can change this in the Maintenance > Time screen. This field displays what percentage of the NWAs processing ability is currently being used. The higher the CPU usage, the more likely the NWA is to slow down. This field displays what percentage of the NWAs volatile memory is currently in use. The higher the memory usage, the more likely the NWA is to slow down. Some memory is required just to start the NWA and to run the web configurator. This column displays each interface of the NWA. This field indicates whether or not the NWA is using the interface. For each interface, this field displays Up when the NWA is using the interface and Down when the NWA is not using the interface. This shows the channel number which the NWA is currently using over the wireless LAN. For the LAN port this displays the port speed and duplex setting. For the WLAN interface, it displays the downstream and upstream transmission rate or N/A if the interface is not in use. This section is not available when the WLAN operation mode is Client. This column displays each of the NWAs wireless interfaces. This field displays the SSID(s) currently used by each wireless module. This field displays the MAC address of the wireless module. This field displays the type of wireless security used by each SSID. This field displays the VLAN ID of each SSID in use, or Disabled if the SSID does not use VLAN. NWA1000 Series Users Guide 27 CHAPTER 4 Tutorial This chapter first provides an overview of how to configure the wireless LAN on your NWA, and then gives step-by-step guidelines showing how to configure your NWA for some example scenarios. 4.1 How to Configure the Wireless LAN This section illustrates how to choose which wireless operating mode to use on the NWA and how to set up the wireless LAN in each wireless mode. See Section 4.1.2 on page 28 for links to more information on each step. 4.1.1 Choosing the Wireless Mode Use MBSSID (Multiple Basic Service Set Identifier) operating mode if you want to use the NWA as an access point with some groups of users having different security or QoS settings from other groups of users. See Section 1.2.1 on page 10 for details. Use Client operating mode if you want to use the NWA to access a wireless network. See Section 1.2.2 on page 11 for details. Use Root AP operating mode if you want to allow wireless clients to access your wired network through the NWA and also have repeaters communicate with the NWA to expand wireless coverage. See Section 1.2.3 on page 13 for details. Use Repeater operating mode if you want to use the NWA to communicate with the root AP or other repeaters. See Section 1.2.4 on page 13 for details. 4.1.2 Further Reading Use these links to find more information on the steps:
Choosing 802.11 Mode: see Section 6.4 on page 56. Choosing a wireless Channel ID: see Section 6.4 on page 56. Choosing a Security mode: see Section 6.6 on page 72. Configuring an external RADIUS server: see Section 6.7 on page 78. Configuring MAC Filtering: see Section 6.9 on page 82. 4.2 How to Configure Multiple Wireless Networks In this example, you have been using your NWA as an access point for your office network. Now your network is expanding and you want to make use of the MBSSID feature (see Section 6.4.4 on NWA1000 Series Users Guide 28 Chapter 4 Tutorial page 67) to provide multiple wireless networks. Each wireless network will cater to a different type of user. You want to make three wireless networks: one standard office wireless network with all the same settings you already have, another wireless network with high priority QoS settings for Voice over IP (VoIP) users, and a guest network that allows visitors to access only the Internet and the network printer. To do this, you will take the following steps:
Edit the SSID profiles. Change the operating mode from Root AP to MBSSID and reactivate the standard network. Configure different security modes for the networks. Configure a wireless network for standard office use. Configure a wireless network for VoIP users. Configure a wireless network for guests to your office. The following figure shows the multiple networks you want to set up. Your NWA is marked Z, the main network router is marked A, and your network printer is marked B. 1 2 3 4 5 6 B A Z The standard network (SSID01) has access to all resources. The VoIP network (VoIP_SSID) has access to all resources and a high QoS priority. The guest network (Guest_SSID) has access to the Internet and the network printer only, and a low QoS priority. NWA1000 Series Users Guide 29 Chapter 4 Tutorial To configure these settings, you need to know the Media Access Control (MAC) addresses of the devices you want to allow users of the guest network to access. The following table shows the addresses used in this example. Table 5 Tutorial: Example Information Network router (A) MAC address Network printer (B) MAC address 00:AA:00:AA:00:AA AA:00:AA:00:AA:00 4.2.1 Configure the SSID Profiles 1 2 Log in to the NWA (see Section 2.2 on page 18). Click Wireless LAN > SSID. The SSID screen appears. Click the Edit icon next to the Profile1. 3 Rename the Profile Name and SSID as SSID01. Click Apply. 4 Repeat Step 2 and 3 to change Profile2 and Profile3 to VoIP_SSID and Guest_SSID. 30 NWA1000 Series Users Guide Chapter 4 Tutorial 4.2.1.1 MBSSID 1 Go to Wireless LAN > Wireless Settings. Select MBSSID from the Operation Mode drop-down list box. 2 3 4 SSID01 is the standard network, so select SSID01 as the first profile. It is always active. Select VoIP_SSID as the second profile, and Guest_SSID as the third profile. Select the corresponding Active check-boxes. Click Apply to save your settings. Now the three SSIDs are activated. NWA1000 Series Users Guide 31 Chapter 4 Tutorial 4.2.2 Configure the Standard Network 1 Click Wireless LAN > SSID. Click the Edit icon next to SSID01. 2 Select SecProfile1 as SSID01s security profile. Select the Hidden SSID checkbox as you want only authorized company employees to use this network, so there is no need to broadcast the SSID to wireless clients scanning the area. Also, the clients on SSID01 might need to access other clients on the same wireless network. Do not select the Intra-BSS Traffic blocking check-box. Click Apply. 32 NWA1000 Series Users Guide 3 Next, click Wireless LAN > Security. Click the Edit icon next to SecProfile1. Chapter 4 Tutorial 4 Since SSID01 is the standard network that has access to all resources, assign a more secure security mode. Select WPA2-PSK-MIX as the Security Mode, and enter the Pre-Shared Key. In this example, use ThisisSSID01PreSharedKey. Click Apply. 5 You have finished configuring the standard network, SSID01. 4.2.3 Configure the VoIP Network 1 Go to Wireless LAN > SSID. Click the Edit icon next to VoIP_SSID. 2 Select SecProfile2 as the Security Profile for the VoIP network. Select the Hidden SSID check-
box. NWA1000 Series Users Guide 33 Chapter 4 Tutorial 3 Select WMM_VOICE in the QoS field to give VoIP the highest priority in the wireless network. Click Apply. 4 Next, click Wireless LAN > Security. Click the Edit icon next to SecProfile2. 34 NWA1000 Series Users Guide 5 Select WPA2-PSK as the Security Mode, and enter the Pre-Shared Key. In this example, use ThisisVoIPPreSharedKey. Click Apply. Chapter 4 Tutorial 6 Your VoIP wireless network is now ready to use. Any traffic using the VoIP_SSID profile will be given the highest priority across the wireless network. 4.2.4 Configure the Guest Network When you are setting up the wireless network for guests to your office, your primary concern is to keep your network secure while allowing access to certain resources (such as a network printer, or the Internet). For this reason, the pre-configured Guest_SSID profile has intra-BSS traffic blocking enabled by default. Intra-BSS traffic blocking means that the client cannot access other clients on the same wireless network. 1 Click Wireless LAN > SSID. Click the Edit icon next to Guest_SSID. 2 3 Select SecProfile3 in the Security field. Do not select the Hidden SSID check-box so the guests can easily find the wireless network. Select WMM_BESTEFFORT in the QoS field to give the guest a lower QoS priority. NWA1000 Series Users Guide 35 Chapter 4 Tutorial 4 Select the check-box of Intra-BSS Traffic blocking Enabled. Click Apply. 5 Next, click Wireless LAN > Security. Click the Edit icon next to SecProfile3. 6 Select WPA2-PSK in the Security Mode field. WPA2-PSK provides strong security that is supported by most wireless clients. Even though your Guest_SSID clients do not have access to sensitive information on the network, you should not leave the network without security. An attacker could still cause damage to the network or intercept unsecured communications or use your Internet access for illegal activities. 36 NWA1000 Series Users Guide 7 Enter the PSK you want to use in your network in the Pre Shared Key field. In this example, the PSK is ThisismyGuestWPA2pre-sharedkey. Click Apply. Chapter 4 Tutorial 8 Your guest wireless network is now ready to use. 4.2.5 Testing the Wireless Networks To make sure that the three networks are correctly configured, do the following. On a computer with a wireless client, scan for access points. You should see the Guest_SSID network, but not the SSID01 and VoIP_SSID networks. If you can see the SSID01 and VoIP_SSID networks, go to its SSID Edit screen and make sure to select the Hidden SSID check-box and click Apply. Try to access each network using the correct security settings, and then using incorrect security settings, such as the WPA2-PSK for another active network. If the behavior is different from expected (for example, if you can access the SSID01 or VoIP_SSID wireless network using the security settings for the Guest_SSID wireless network) check that the SSID profile is set to use the correct security profile, and that the settings of the security profile are correct. 4.3 NWA Setup in AP and Wireless Client Modes This example shows you how to restrict wireless access to your NWA. 4.3.1 Scenario In the figure below, there are two NWAs (A and B) in the network. A is in MBSSID or root AP mode while station B is in wireless client mode. Station B is connected to a File Transfer Protocol (FTP) server. You want only specified wireless clients to be able to access station B. You also want to allow NWA1000 Series Users Guide 37 Chapter 4 Tutorial wireless traffic between B and wireless clients connected to A (W, Y and Z). Other wireless devices
(X) must not be able to connect to the FTP server. Figure 13 FTP Server Connected to a Wireless Client 4.3.2 Configuring the NWA in MBSSID or Root AP Mode Before setting up the NWA as a wireless client (B), you need to make sure there is an access point to connect to. Use the Ethernet port on NWA (A) to configure it via a wired connection. 38 NWA1000 Series Users Guide Log into the Web Configurator on NWA (A) and go to the Wireless LAN > Wireless Settings screen. Chapter 4 Tutorial 1 2 3 4 5 Set the Operation Mode to Root AP. Select the Wireless Mode. In this example, select 802.11b/g/n. Select Profile1 as the SSID Profile. Choose the Channel you want NWA (A) to use. Click Apply. NWA1000 Series Users Guide 39 Chapter 4 Tutorial 6 Go to Wireless LAN > SSID. Click the Edit icon next to Profile1. 7 8 9 Change the SSID to AP-A. Select SecProfile1 in the Security field. Select the check-box for Intra-BSS Traffic blocking Enabled so the client cannot access other clients on the same wireless network. 10 Click Apply. 40 NWA1000 Series Users Guide 11 Go to Wireless LAN > Security. Click the Edit icon next to SecProfile1. Chapter 4 Tutorial 12 Configure WPA2-PSK as the Security Mode and enter ThisisMyPreSharedKey in the Pre-
Shared Key field. 13 Click Apply to finish configuration for NWA (A). 4.3.3 Configuring the NWA in Wireless Client Mode The NWA (B) should have a wired connection before it can be set to wireless client operating mode. Connect your NWA to the FTP server. Login to NWA (B)s Web Configurator and go to the Wireless LAN > Wireless Settings screen. Follow these steps to configure station B. NWA1000 Series Users Guide 41 Chapter 4 Tutorial 1 Select Client as Operation Mode. Click Apply. Site Survey button appears next to the drop-down list. 2 3 Click on the Site Survey button. A window should pop up which contains a list of all available wireless devices within your NWAs range. Find and select NWA (A)s SSID: AP-A. 42 NWA1000 Series Users Guide 4 Go to Wireless LAN > Security to configure the NWA to use the same security mode and Pre-
Shared Key as NWA (A): WPA2-PSK/ThisisMyPreSharedKey. Click Apply. Figure 14 Chapter 4 Tutorial 4.3.4 MAC Filter Setup One way to ensure that only specified wireless clients can access the FTP server is by enabling MAC filtering on NWA (B) (See Section 6.9 on page 82 for more information on MAC Filter). 1 Go to Wireless LAN > MAC Filter. Click the Edit icon next to MacProfile1. 2 Select Allow in the Access Control Mode field. Enter the MAC addresses of the wireless clients
(W, Y and Z) you want to associate with the NWA. Click Apply. Now, only the authorized wireless clients (W, Y and Z) can access the FTP server. NWA1000 Series Users Guide 43 Chapter 4 Tutorial 4.3.5 Testing the Connection and Troubleshooting This section discusses how you can check if you have correctly configured your network setup as described in this tutorial. Try accessing the FTP server from wireless clients W, Y or Z. Test if you can send or retrieve a file. If you cannot establish a connection with the FTP server, do the following steps. 1 Make sure W, Y and Z use the same wireless security settings as A and can access A. 2 Make sure B uses the same wireless and wireless security settings as A and can access A. 3 Make sure intra-BSS traffic is enabled on A. Try accessing the FTP server from X. If you are able to access the FTP server, do the following. 1 Make sure MAC filtering is enabled. 2 Make sure Xs MAC address is not entered in the list of allowed devices. 44 NWA1000 Series Users Guide PART II Technical Reference The appendices provide general information. Some details may not apply to your NWA. 45 CHAPTER 5 Monitor 5.1 Overview This chapter discusses read-only information related to the device state of the NWA. Note: To access the Monitor screens, you can also click the links in the Summary table of the Dashboard screen to view the wireless packets sent/received as well as the status of clients connected to the NWA. 5.2 What You Can Do Use the Logs screen to see the logs for the categories that you selected in the Configuration >
Log Settings screen (see Section 5.3 on page 46). You can view logs in this page. Once the log entries are all used, the log will wrap around and the old logs will be deleted. use the Statistics screen to view 802.11 mode, channel number, wireless packet specific statistics and so on (see Section 5.4 on page 47). Use the Association List screen to view the wireless devices that are currently associated to the NWA (see Section 5.5 on page 48). Use the Channel Usage screen to view whether a channel is used by another wireless network or not. If a channel is being used, you should select a channel removed from it by five channels to completely avoid overlap (see Section 5.6 on page 49). 5.3 View Logs Use the Logs screen to see the logged messages for the NWA. Log entries in red indicate system error logs. The log wraps around and deletes the old entries after it fills. NWA1000 Series Users Guide 46 Click Monitor > Logs. Figure 15 Logs Chapter 5 Monitor The following table describes the labels in this screen. Table 6 Logs LABEL Display E-Mail Log Now Refresh Clear Log
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Time Message Source DESCRIPTION Select a category of logs to view. Select All Log to view logs from all of the log categories that you selected in the Configuration > Log Settings screen. Click E-Mail Log Now to send the log screen to the e-mail address specified in the Log Settings page (make sure that you have first filled in the E-mail Log Settings fields in Configuration > Log Settings). Click Refresh to renew the log screen. Click Clear Log to delete all the logs. This field is a sequential value and is not associated with a specific entry. This field displays the time the log was recorded. This field states the reason for the log. This field lists the source IP address and the port number of the incoming packet. 5.4 Statistics Use this screen to view read-only information, including 802.11 Mode, Channel ID, Retry Count and FCS Error Count. Also provided is the "poll interval". The Poll Interval field is configurable and is used for refreshing the screen. NWA1000 Series Users Guide 47 Chapter 5 Monitor Click Monitor > Statistics. The following screen pops up. Figure 16 Statistics The following table describes the labels in this screen. Table 7 Statistics LABEL Description 802.11 Mode Channel ID RX Pkts TX Pkts Retry Count FCS Error Count Poll Interval Set Interval Stop DESCRIPTION This is the wireless interface on the NWA. This field shows which 802.11 mode the NWA is using. This shows the channel number which the NWA is currently using over the wireless LAN. This is the number of received packets on this port. This is the number of transmitted packets on this port. This is the total number of retries for transmitted packets (TX). This is the total number of checksum error of received packets (RX). Enter the time interval for refreshing statistics. Click this button to apply the new poll interval you entered above. Click this button to stop refreshing statistics. 5.5 Association List View the wireless devices that are currently associated with the NWA in the Association List screen. Association means that a wireless client (for example, your network or computer with a wireless network card) has connected successfully to the AP (or wireless router) using the same SSID, channel and security settings. 48 NWA1000 Series Users Guide Click Monitor > Association List to display the screen as shown next. Figure 17 Association List Chapter 5 Monitor The following table describes the labels in this screen. Table 8 Association List LABEL
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MAC Address SSID Association Time Signal Strength Refresh DESCRIPTION This is the index number of an associated wireless device. This field displays the MAC address of an associated wireless device. This field displays the SSID to which the wireless device is associated. This field displays the time a wireless device first associated with the NWAs wireless network. This field displays the RSSI (Received Signal Strength Indicator) of the wireless connection. Click Refresh to reload the list. 5.6 Channel Usage Use this screen to know whether a channel is used by another wireless network or not. If a channel is being used, you should select a channel removed from it by five channels to completely avoid overlap. Click Monitor > Channel Usage to display the screen shown next. NWA1000 Series Users Guide 49 Chapter 5 Monitor Wait a moment while the NWA compiles the information. Figure 18 Channel Usage The following table describes the labels in this screen. Table 9 Channel Usage LABEL SSID Channel MAC Address Wireless Mode Signal Strength Security Refresh DESCRIPTION This is the Service Set IDentification (SSID) name of the AP in an Infrastructure wireless network or wireless station in an Ad-Hoc wireless network. For our purposes, we define an Infrastructure network as a wireless network that uses an AP and an Ad-
Hoc network (also known as Independent Basic Service Set (IBSS)) as one that doesnt. See the chapter on wireless configuration for more information on basic service sets (BSS) and extended service sets (ESS). This is the index number of the channel currently used by the associated AP in an Infrastructure wireless network or wireless station in an Ad-Hoc wireless network. This field displays the MAC address of the AP in an Infrastructure wireless network. It is randomly generated (so ignore it) in an Ad-Hoc wireless network. This is the IEEE 802.1x standard used by the wireless network. This field displays the strength of the APs signal. If you must choose a channel that is currently in use, choose one with low signal strength for minimum interference. This is the wireless security method used by the wireless network to protect wireless communication between wireless stations, access points and the wired network. Click Refresh to reload the screen. 50 NWA1000 Series Users Guide CHAPTER 6 Wireless LAN 6.1 Overview This chapter discusses the steps to configure the Wireless Settings screen on the NWA. It also introduces the wireless LAN (WLAN) and some basic scenarios. Figure 19 Wireless Mode In the figure above, the NWA allows access to another bridge device (A) and a notebook computer
(B) upon verifying their settings and credentials. It denies access to other devices (C and D) with configurations that do not match those specified in your NWA. 6.2 What You Can Do in this Chapter Use the Wireless Settings screen to configure the NWAs operation mode (see Section 6.4 on page 56). Use the SSID screen to configure up to eight SSID profiles for your NWA (see Section 6.5 on page 70). Use the Security screen to choose the wireless security mode for your NWA (see Section 6.6 on page 72). Use the RADIUS screen if you want to authenticate wireless users using a RADIUS Server and/or accounting server (see Section 6.7 on page 78). Use the Layer-2 Isolation screen to configure the MAC addresses of the devices that you want to allow the associated wireless clients to have access to when layer-2 isolation is enabled. (see Section 6.8 on page 80). NWA1000 Series Users Guide 51 Chapter 6 Wireless LAN Use the MAC Filter screen to specify which wireless station is allowed or denied access to the NWA (see Section 6.9 on page 82). 6.3 What You Need To Know BSS A Basic Service Set (BSS) exists when all communications between wireless clients or between a wireless client and a wired network client go through one access point (AP). Intra-BSS traffic is traffic between wireless clients in the BSS. ESS An Extended Service Set (ESS) consists of a series of overlapping BSSs, each containing an access point, with each access point connected together by a wired network. This wired connection between APs is called a Distribution System (DS). Operating Mode The NWA can run in four operating modes as follows:
Root AP. The NWA is a wireless access point that allows wireless communication to other devices in the network. Repeater. The NWA acts as a wireless repeater and increase a root APs wireless coverage area. Client. The NWA acts as a wireless client to access a wireless network. MBSSID. The Multiple Basic Service Set Identifier (MBSSID) mode allows you to use one access point to provide several BSSs simultaneously. Refer to Chapter 1 on page 9 for illustrations of these wireless applications. SSID The SSID (Service Set IDentifier) is the name that identifies the Service Set with which a wireless station is associated. Wireless stations associating to the access point (AP) must have the same SSID. In other words, it is the name of the wireless network that clients use to connect to it. Normally, the NWA acts like a beacon and regularly broadcasts the SSID in the area. You can hide the SSID instead, in which case the NWA does not broadcast the SSID. In addition, you should change the default SSID to something that is difficult to guess. This type of security is fairly weak, however, because there are ways for unauthorized wireless devices to get the SSID. In addition, unauthorized wireless devices can still see the information that is sent in the wireless network. 52 NWA1000 Series Users Guide Chapter 6 Wireless LAN Channel A channel is the radio frequency(ies) used by wireless devices. Channels available depend on your geographical area. You may have a choice of channels (for your region) so you should use a different channel than an adjacent AP (access point) to reduce interference. Wireless Mode The IEEE 802.1x standard was designed to extend the features of IEEE 802.11 to support extended authentication as well as providing additional accounting and control features. MBSSID Traditionally, you needed to use different APs to configure different Basic Service Sets (BSSs). As well as the cost of buying extra APs, there was also the possibility of channel interference. The NWAs MBSSID (Multiple Basic Service Set IDentifier) function allows you to use one access point to provide several BSSs simultaneously. You can then assign varying levels of privilege to different SSIDs. Wireless stations can use different BSSIDs to associate with the same AP. The following are some notes on multiple BSS. A maximum of four BSSs are allowed on one AP simultaneously. You must use different WEP keys for different BSSs. If two stations have different BSSIDs (they are in different BSSs), but have the same WEP keys, they may hear each others communications
(but not communicate with each other). MBSSID should not replace but rather be used in conjunction with 802.1x security. Wireless Security Wireless security is vital to your network. It protects communications between wireless stations, access points and the wired network. Figure 20 Securing the Wireless Network In the figure above, the NWA checks the identity of devices before giving them access to the network. In this scenario, Computer A is denied access to the network, while Computer B is granted connectivity. NWA1000 Series Users Guide 53 Chapter 6 Wireless LAN The NWA secure communications via data encryption, wireless client authentication and MAC address filtering. It can also hide its identity in the network. User Authentication Authentication is the process of verifying whether a wireless device is allowed to use the wireless network. You can make every user log in to the wireless network before they can use it. However, every device in the wireless network has to support IEEE 802.1x to do this. For wireless networks, you can store the user names and passwords for each user in a RADIUS server. This is a server used in businesses more than in homes. If you do not have a RADIUS server, you cannot set up user names and passwords for your users. Unauthorized wireless devices can still see the information that is sent in the wireless network, even if they cannot use the wireless network. Furthermore, there are ways for unauthorized wireless users to get a valid user name and password. Then, they can use that user name and password to use the wireless network. The following table shows the relative effectiveness of wireless security methods:. Table 10 Wireless Security Levels SECURITY LEVEL Least Secure SECURITY TYPE Unique SSID (Default) Unique SSID with Hide SSID Enabled MAC Address Filtering WEP Encryption IEEE802.1x EAP with RADIUS Server Authentication WPA2 Most Secure The available security modes in your NWA are as follows:
None. No data encryption. WEP. Wired Equivalent Privacy (WEP) encryption scrambles the data transmitted between the wireless stations and the access points to keep network communications private. WPA2. WPA2 (IEEE 802.11i) is a wireless security standard that defines stronger encryption, authentication and key management. WPA2-MIX. This commands the NWA to use either WPA2 depending on which security mode the wireless client uses. WPA2-PSK. This adds a pre-shared key on top of WPA2 standard. WPA2-PSK-MIX. This commands the NWA to use WPA2-PSK depending on which security mode the wireless client uses. Note: To guarantee 802.11n wireless speed, please only use WPA2 or WPA2-PSK security mode. Other security modes may degrade the wireless speed performance to 802.11g. 54 NWA1000 Series Users Guide Chapter 6 Wireless LAN Passphrase A passphrase functions like a password. In WEP security mode, it is further converted by the NWA into a complicated string that is referred to as the key. This key is requested from all devices wishing to connect to a wireless network. PSK The Pre-Shared Key (PSK) is a password shared by a wireless access point and a client during a previous secure connection. The key can then be used to establish a connection between the two parties. Encryption Wireless networks can use encryption to protect the information that is sent in the wireless network. Encryption is like a secret code. If you do not know the secret code, you cannot understand the message. Encryption is the process of converting data into unreadable text. This secures information in network communications. The intended recipient of the data can unlock it with a pre-assigned key, making the information readable only to him. The NWA when used as a wireless client employs Temporal Key Integrity Protocol (TKIP) data encryption. EAP Extensible Authentication Protocol (EAP) is a protocol used by a wireless client, an access point and an authentication server to negotiate a connection. The EAP methods employed by the NWA when in Wireless Client operating mode are Transport Layer Security (TLS), Protected Extensible Authentication Protocol (PEAP), Lightweight Extensible Authentication Protocol (LEAP) and Tunneled Transport Layer Security (TTLS). The authentication protocol may either be Microsoft Challenge Handshake Authentication Protocol Version 2
(MSCHAPv2) or Generic Token Card (GTC). Further information on these terms can be found in Appendix E on page 178. RADIUS Remote Authentication Dial In User Service (RADIUS) is a protocol that can be used to manage user access to large networks. It is based on a client-server model that supports authentication, authorization and accounting. The access point is the client and the server is the RADIUS server. Figure 21 RADIUS Server Setup NWA1000 Series Users Guide 55 Chapter 6 Wireless LAN In the figure above, wireless clients A and B are trying to access the Internet via the NWA. The NWA in turn queries the RADIUS server if the identity of clients A and U are allowed access to the Internet. In this scenario, only client Us identity is verified by the RADIUS server and allowed access to the Internet. The RADIUS server handles the following tasks:
Authentication which determines the identity of the users. Authorization which determines the network services available to authenticated users once they are connected to the network. Accounting which keeps track of the clients network activity. RADIUS is a simple package exchange in which your AP acts as a message relay between the wireless client and the network RADIUS server. You should know the IP addresses, ports and share secrets of the external RADIUS server and/or the external RADIUS accounting server you want to use with your NWA. You can configure a primary and backup RADIUS and RADIUS accounting server for your NWA. 6.4 Wireless Settings Screen Use this screen to choose the operating mode for your NWA. Click Network > Wireless LAN >
Wireless Settings, Network > Wireless LAN > Wireless Settings- 2.4G or Network >
Wireless LAN > Wireless Settings - 5G. The screen varies depending upon the operating mode you select. 56 NWA1000 Series Users Guide 6.4.1 Root AP Mode Use this screen to use your NWA as an access point. Select Root AP as the Operation Mode. The following screen displays. Figure 22 Wireless LAN > Wireless Settings: Root AP Chapter 6 Wireless LAN The following table describes the general wireless LAN labels in this screen. DESCRIPTION Table 11 Wireless LAN > Wireless Settings: Root AP LABEL Basic Settings Wireless LAN Interface Operation Mode Select Root AP from the drop-down list. Select the check box to turn on the wireless LAN on the NWA. NWA1000 Series Users Guide 57 Chapter 6 Wireless LAN Table 11 Wireless LAN > Wireless Settings: Root AP (continued) LABEL Wireless Mode DESCRIPTION If you are in the Wireless LAN > Wireless Settings or Wireless LAN > Wireless Settings- 2.4G screen, you can select from the following:
802.11b/g to allow both IEEE802.11b and IEEE802.11g compliant WLAN devices to associate with the NWA. The transmission rate of your NWA might be reduced. 802.11b/g/n to allow IEEE802.11b, IEEE802.11g and IEEE802.11n compliant WLAN devices to associate with the NWA. The transmission rate of the NWA might be reduced. 802.11n to allow only IEEE802.11n compliant WLAN devices to associate with the NWA. If you are in the Wireless LAN > Wireless Settings- 5G screen, you can select from the following:
802.11a/n to allow IEEE802.11a and IEEE802.11n compliant WLAN devices to associate with the NWA. 802.11a to allow only IEEE802.11a compliant WLAN devices to associate with the NWA. 802.11n to allow only IEEE802.11n compliant WLAN devices to associate with the NWA. 802.11a/n/ac to allow IEEE802.11a, IEEE802.11n and IEEE802.11ac compliant WLAN devices to associate with the NWA. The transmission rate of the NWA might be reduced. Channel Channel Width Select the operating frequency/channel depending on your particular region from the drop-down list box. This field displays only when you select 802.11n, 802.11a/n, 802.11b/g/n or 802.11a/n/ac in the Wireless Mode field. A standard 20MHz channel offers transfer speeds of up to 150Mbps whereas a 40MHz channel uses two standard channels and offers speeds of up to 300Mbps. However, not all devices support 40MHz channels. Select the channel bandwidth you want to use for your wireless network. It is recommended that you select 20/40MHz. This allows the NWA to adjust the channel bandwidth depending on network conditions. Select 20MHz if you want to lessen radio interference with other wireless devices in your neighborhood or the wireless clients do not support channel bonding. The SSID (Service Set IDentifier) identifies the Service Set with which a wireless station is associated. Wireless stations associating to the access point (AP) must have the same SSID. You can have up to four SSIDs active at the same time. Note: If you are configuring the NWA from a computer connected to the wireless LAN and you change the NWAs SSID or security settings, you will lose your wireless connection when you press Apply to confirm. You must then change the wireless settings of your computer to match the NWAs new settings. Select SSID Profile
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Active Profile This is the index number of each SSID profile. Select the check box to enable an SSID profile. Otherwise, clear the check box. Select an SSID Profile from the drop-down list box. Repeater Settings The repeater function allows the NWA in root AP or repeater mode to set up a wireless connection between it and another NWA in root AP or repeater mode. Note: Repeater security is independent of the security settings between the NWA and any wireless clients. Local MAC Address Local MAC Address is the MAC address of your NWA. 58 NWA1000 Series Users Guide Chapter 6 Wireless LAN Table 11 Wireless LAN > Wireless Settings: Root AP (continued) LABEL Repeater SSID Profile DESCRIPTION Select the SSID profile you want to use for repeater connections. Note: You can only configure None, or WPA2-PSK security mode for the SSID used by a repeater connection. Advanced Settings Beacon Interval DTIM Interval Output Power Preamble Type RTS/CTS Threshold When a wirelessly network device sends a beacon, it includes with it a beacon interval. This specifies the time period before the device sends the beacon again. The interval tells receiving devices on the network how long they can wait in lowpower mode before waking up to handle the beacon. A high value helps save current consumption of the access point. Delivery Traffic Indication Message (DTIM) is the time period after which broadcast and multicast packets are transmitted to mobile clients in the Active Power Management mode. A high DTIM value can cause clients to lose connectivity with the network. Set the output power of the NWA in this field. If there is a high density of APs in an area, decrease the output power of the NWA to reduce interference with other APs. Select one of the following Full (Full Power), 50%, 25%, or 12.5%. See the product specifications for more information on your NWAs output power. Select Dynamic to have the AP automatically use short preamble when wireless adapters support it, otherwise the AP uses long preamble. Select Long if you are unsure what preamble mode the wireless adapters support, and to provide more reliable communications in busy wireless networks.
(Request To Send) The threshold (number of bytes) for enabling RTS/CTS handshake. Data with its frame size larger than this value will perform the RTS/CTS handshake. Setting this attribute to be larger than the maximum MSDU (MAC service data unit) size turns off the RTS/CTS handshake. Setting this attribute to its smallest value (1) turns on the RTS/CTS handshake. Extension Channel Protection Mode A-MPDU Aggregation You can use CTS to self or RTS-CTS protection mechanism to reduce conflicts with other wireless networks or hidden wireless clients. The throughput of RTS-CTS is much lower than CTS to self. Using this mode may decrease your wireless performance. This field is available only when 802.11n, 802.11b/g/n, 802.11a/n or 802.11a/n/ac is selected as the Wireless Mode. Short GI Select to enable A-MPDU aggregation. Message Protocol Data Unit (MPDU) aggregation collects Ethernet frames along with their 802.11n headers and wraps them in a 802.11n MAC header. This method is useful for increasing bandwidth throughput in environments that are prone to high error rates. This field is available only when 802.11n, 802.11b/g/n, 802.11a/n or 802.11a/n/ac is selected as the Wireless Mode. Select Enabled to use Short GI (Guard Interval). The guard interval is the gap introduced between data transmission from users in order to reduce interference. Reducing the GI increases data transfer rates but also increases interference. Increasing the GI reduces data transfer rates but also reduces interference. NWA1000 Series Users Guide 59 Chapter 6 Wireless LAN Table 11 Wireless LAN > Wireless Settings: Root AP (continued) LABEL MCS Rate DESCRIPTION The MCS Rate table is available only when 802.11n, 802.11b/g/n, 802.11a/n or 802.11a/n/ac is selected in the Wireless Mode field. IEEE 802.11n supports many different data rates which are called MCS rates. MCS stands for Modulation and Coding Scheme. This is an 802.11n feature that increases the wireless network performance in terms of throughput. For each MCS Rate (0-15), select either Enabled to have the NWA use the data rate. Clear the Enabled check box if you do not want the NWA to use the data rate. Turn on the Auto option to have the NWA set the data rates automatically to optimize the throughput. Apply Cancel Note: You can set the NWA to use up to four MCS rates at a time. Click Apply to save your changes. Click Cancel to begin configuring this screen afresh. 60 NWA1000 Series Users Guide 6.4.2 Repeater Mode Use this screen to have the NWA act as a wireless repeater. You need to know the MAC address of the peer device, which also must be in Repeater or Root AP mode. Figure 23 Wireless LAN > Wireless Settings: Repeater Chapter 6 Wireless LAN The following table describes the bridge labels in this screen. DESCRIPTION Table 12 Wireless LAN > Wireless Settings: Repeater LABEL Basic Settings Wireless LAN Interface Operation Mode Select Repeater from the drop-down list. Select the check box to turn on the wireless LAN on the NWA. NWA1000 Series Users Guide 61 Chapter 6 Wireless LAN Table 12 Wireless LAN > Wireless Settings: Repeater (continued) LABEL Wireless Mode DESCRIPTION If you are in the Wireless LAN > Wireless Settings or Wireless LAN > Wireless Settings- 2.4G screen, you can select from the following:
802.11b/g to allow both IEEE802.11b and IEEE802.11g compliant WLAN devices to associate with the NWA. The transmission rate of your NWA might be reduced. 802.11b/g/n to allow IEEE802.11b, IEEE802.11g and IEEE802.11n compliant WLAN devices to associate with the NWA. The transmission rate of the NWA might be reduced. 802.11n to allow only IEEE802.11n compliant WLAN devices to associate with the NWA. If you are in the Wireless LAN > Wireless Settings- 5G screen, you can select from the following:
802.11a/n to allow IEEE802.11a and IEEE802.11n compliant WLAN devices to associate with the NWA. 802.11a to allow only IEEE802.11a compliant WLAN devices to associate with the NWA. 802.11n to allow only IEEE802.11n compliant WLAN devices to associate with the NWA. 802.11a/n/ac to allow IEEE802.11a, IEEE802.11n and IEEE802.11ac compliant WLAN devices to associate with the NWA. The transmission rate of the NWA might be reduced. Channel Channel Width Select the operating frequency/channel depending on your particular region from the drop-down list box. This field displays only when you select 802.11n, 802.11a/n, 802.11b/g/n or 802.11a/n/ac in the Wireless Mode field. A standard 20MHz channel offers transfer speeds of up to 150Mbps whereas a 40MHz channel uses two standard channels and offers speeds of up to 300Mbps. However, not all devices support 40MHz channels. Select the channel bandwidth you want to use for your wireless network. It is recommended that you select 20/40MHz. This allows the NWA to adjust the channel bandwidth depending on network conditions. Select 20MHz if you want to lessen radio interference with other wireless devices in your neighborhood or the wireless clients do not support channel bonding. Repeater Settings The repeater function allows the NWA in root AP or repeater mode to set up a wireless connection between it and another NWA in root AP or repeater mode. Note: Repeater security is independent of the security settings between the NWA and any wireless clients. Local MAC Address Repeater SSID Profile Select the SSID profile you want to use for repeater connections with an AP or repeater or regular wireless connections with wireless clients. Local MAC Address is the MAC address of your NWA. Root MAC Address Advanced Settings Beacon Interval Note: You can only configure None, or WPA2-PSK security mode for the SSID used by a repeater connection. Specify the peer devices MAC address. The peer device can be a NWA in either root AP mode or repeater mode. When a wirelessly network device sends a beacon, it includes with it a beacon interval. This specifies the time period before the device sends the beacon again. The interval tells receiving devices on the network how long they can wait in lowpower mode before waking up to handle the beacon. A high value helps save current consumption of the access point. 62 NWA1000 Series Users Guide Chapter 6 Wireless LAN Table 12 Wireless LAN > Wireless Settings: Repeater (continued) LABEL DTIM Interval Output Power Preamble Type RTS/CTS Threshold DESCRIPTION Delivery Traffic Indication Message (DTIM) is the time period after which broadcast and multicast packets are transmitted to mobile clients in the Active Power Management mode. A high DTIM value can cause clients to lose connectivity with the network. Set the output power of the NWA in this field. If there is a high density of APs in an area, decrease the output power of the NWA to reduce interference with other APs. Select one of the following Full (Full Power), 50%, 25% or 12.5%. See the product specifications for more information on your NWAs output power. Select Dynamic to have the AP automatically use short preamble when wireless adapters support it, otherwise the AP uses long preamble. Select Long if you are unsure what preamble mode the wireless adapters support, and to provide more reliable communications in busy wireless networks.
(Request To Send) The threshold (number of bytes) for enabling RTS/CTS handshake. Data with its frame size larger than this value will perform the RTS/CTS handshake. Setting this attribute to be larger than the maximum MSDU (MAC service data unit) size turns off the RTS/CTS handshake. Setting this attribute to its smallest value (1) turns on the RTS/CTS handshake. Extension Channel Protection Mode A-MPDU Aggregation You can use CTS to self or RTS-CTS protection mechanism to reduce conflicts with other wireless networks or hidden wireless clients. The throughput of RTS-CTS is much lower than CTS to self. Using this mode may decrease your wireless performance. This field is available only when 802.11n, 802.11b/g/n, 802.11a/n or 802.11a/n/ac is selected as the Wireless Mode. Short GI MCS Rate Select to enable A-MPDU aggregation. Message Protocol Data Unit (MPDU) aggregation collects Ethernet frames along with their 802.11n headers and wraps them in a 802.11n MAC header. This method is useful for increasing bandwidth throughput in environments that are prone to high error rates. This field is available only when 802.11n, 802.11b/g/n, 802.11a/n or 802.11a/n/ac is selected as the Wireless Mode. Select Enabled to use Short GI (Guard Interval). The guard interval is the gap introduced between data transmission from users in order to reduce interference. Reducing the GI increases data transfer rates but also increases interference. Increasing the GI reduces data transfer rates but also reduces interference. The MCS Rate table is available only when 802.11n, 802.11b/g/n, 802.11a/n or 802.11a/n/ac is selected in the Wireless Mode field. IEEE 802.11n supports many different data rates which are called MCS rates. MCS stands for Modulation and Coding Scheme. This is an 802.11n feature that increases the wireless network performance in terms of throughput. For each MCS Rate (0-15), select either Enabled to have the NWA use the data rate. Clear the Enabled check box if you do not want the NWA to use the data rate. Turn on the Auto option to have the NWA set the data rates automatically to optimize the throughput. Apply Cancel Note: You can set the NWA to use up to four MCS rates at a time. Click Apply to save your changes. Click Cancel to begin configuring this screen afresh. NWA1000 Series Users Guide 63 Chapter 6 Wireless LAN 6.4.3 Wireless Client Mode Use this screen to turn your NWA into a wireless client. Select Client as the Operation Mode. The following screen displays. Figure 24 Wireless LAN > Wireless Settings: Wireless Client The following table describes the general wireless LAN labels in this screen. DESCRIPTION Table 13 Wireless LAN > Wireless Settings: Wireless Client LABEL Basic Settings Wireless LAN Interface Operation Mode Select Client in this field. Site Survey Select the check box to turn on the wireless LAN on the NWA. Click this to view a list of available wireless access points within the range. Select the AP you want to use. Note: After selecting Client as the Operation Mode in the Basic Settings section, you must click Apply to be able to select from the AP list. 64 NWA1000 Series Users Guide Chapter 6 Wireless LAN Table 13 Wireless LAN > Wireless Settings: Wireless Client (continued) LABEL SSID Profile DESCRIPTION The SSID (Service Set IDentifier) identifies the Service Set with which a wireless station is associated. Wireless stations associating to the access point (AP) must have the same SSID. In this field, select the SSID profile of the AP you want to use. Click Apply. The SSID used in the selected SSID profile automatically changes to be the one you select in the Site Survey screen. Set the security configuration for this operating mode in the Wireless LAN > Security screen. Check the Dashboard screen to check if the settings you set show in the WLAN information. Note: If you are configuring the NWA from a computer connected to the wireless LAN and you change the NWAs SSID or security settings, you will lose your wireless connection when you press Apply to confirm. You must then change the wireless settings of your computer to match the NWAs new settings. Channel Channel Width This shows the operating frequency/channel in use. This field is read-only when you select Client as your operation mode. This field is not available in the NWA1123-NI. A standard 20MHz channel offers transfer speeds of up to 150Mbps whereas a 40MHz channel uses two standard channels and offers speeds of up to 300Mbps. However, not all devices support 40MHz channels. Select the channel bandwidth you want to use for your wireless network. It is recommended that you select 20/40MHz. This allows the NWA to adjust the channel bandwidth depending on network conditions. Select 20MHz if you want to lessen radio interference with other wireless devices in your neighborhood or the AP do not support channel bonding. Advanced Settings Output Power Preamble Type RTS/CTS Threshold Extension channel protection mode A-MPDU Aggregation Set the output power of the NWA in this field. If there is a high density of APs in an area, decrease the output power of the NWA to reduce interference with other APs. Select one of the following Full (Full Power), 50%, 25% or 12.5%. See the product specifications for more information on your NWAs output power. Select Dynamic to have the NWA automatically use short preamble when the wireless network your NWA is connected to supports it, otherwise the NWA uses long preamble. Select Long preamble if you are unsure what preamble mode the wireless device your NWA is connected to supports, and to provide more reliable communications in busy wireless networks.
(Request To Send) The threshold (number of bytes) for enabling RTS/CTS handshake. Data with its frame size larger than this value will perform the RTS/CTS handshake. Setting this attribute to be larger than the maximum MSDU (MAC service data unit) size turns off the RTS/CTS handshake. Setting this attribute to its smallest value (1) turns on the RTS/CTS handshake. You can use CTS to self or RTS-CTS protection mechanism to reduce conflicts with other wireless networks or hidden wireless clients. The throughput of RTS-CTS is much lower than CTS to self. Using this mode may decrease your wireless performance. This field is not available in the NWA1100-NH and NWA1123-NI. Select to enable A-MPDU aggregation. Message Protocol Data Unit (MPDU) aggregation collects Ethernet frames along with their 802.11n headers and wraps them in a 802.11n MAC header. This method is useful for increasing bandwidth throughput in environments that are prone to high error rates. NWA1000 Series Users Guide 65 Chapter 6 Wireless LAN Table 13 Wireless LAN > Wireless Settings: Wireless Client (continued) LABEL Short GI DESCRIPTION This field is not available in the NWA1100-NH and NWA1123-NI. Select Enabled to use Short GI (Guard Interval). The guard interval is the gap introduced between data transmission from users in order to reduce interference. Reducing the GI increases data transfer rates but also increases interference. Increasing the GI reduces data transfer rates but also reduces interference. Click Apply to save your changes. Click Cancel to begin configuring this screen afresh. Apply Cancel 66 NWA1000 Series Users Guide 6.4.4 MBSSID Mode Use this screen to have the NWA function in MBSSID mode. Select MBSSID as the Operation Mode. The following screen diplays. Figure 25 Wireless LAN > Wireless Settings: MBSSID Chapter 6 Wireless LAN The following table describes the labels in this screen. DESCRIPTION Table 14 Wireless LAN > Wireless Settings: MBSSID LABEL Basic Settings Wireless LAN Interface Operation Mode Select MBSSID from the drop-down list. Select the check box to turn on the wireless LAN on the NWA. NWA1000 Series Users Guide 67 Chapter 6 Wireless LAN Table 14 Wireless LAN > Wireless Settings: MBSSID (continued) LABEL Wireless Mode DESCRIPTION If you are in the Wireless LAN > Wireless Settings or Wireless LAN > Wireless Settings- 2.4G screen, you can select from the following:
802.11b/g to allow both IEEE802.11b and IEEE802.11g compliant WLAN devices to associate with the NWA. The transmission rate of your NWA might be reduced. 802.11b/g/n to allow IEEE802.11b, IEEE802.11g and IEEE802.11n compliant WLAN devices to associate with the NWA. The transmission rate of the NWA might be reduced. 802.11n to allow only IEEE802.11n compliant WLAN devices to associate with the NWA. If you are in the Wireless LAN > Wireless Settings- 5G screen, you can select from the following:
802.11a/n to allow IEEE802.11a and IEEE802.11n compliant WLAN devices to associate with the NWA. 802.11a to allow only IEEE802.11a compliant WLAN devices to associate with the NWA. 802.11n to allow only IEEE802.11n compliant WLAN devices to associate with the NWA. 802.11a/n/ac to allow IEEE802.11a, IEEE802.11n and IEEE802.11ac compliant WLAN devices to associate with the NWA. The transmission rate of the NWA might be reduced. Channel Channel Width Select the operating frequency/channel depending on your particular region from the drop-down list box. This field displays only when you select 802.11n, 802.11a/n, 802.11b/g/n or 802.11a/n/ac in the Wireless Mode field. Select SSID Profile A standard 20MHz channel offers transfer speeds of up to 150Mbps whereas a 40MHz channel uses two standard channels and offers speeds of up to 300Mbps. However, not all devices support 40MHz channels. Select the channel bandwidth you want to use for your wireless network. Select 20MHz if you want to lessen radio interference with other wireless devices in your neighborhood or the wireless clients do not support channel bonding. The SSID (Service Set IDentifier) identifies the Service Set with which a wireless station is associated. Wireless stations associating to the access point (AP) must have the same SSID. You can have up to eight SSIDs active at the same time. Note: If you are configuring the NWA from a computer connected to the wireless LAN and you change the NWAs SSID or security settings, you will lose your wireless connection when you press Apply to confirm. You must then change the wireless settings of your computer to match the NWAs new settings.
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Active Profile This is the index number of each SSID profile. Select the check box to enable an SSID profile. Otherwise, clear the check box. Select an SSID Profile from the drop-down list box. Advanced Settings Beacon Interval DTIM Interval Output Power When a wirelessly network device sends a beacon, it includes with it a beacon interval. This specifies the time period before the device sends the beacon again. The interval tells receiving devices on the network how long they can wait in lowpower mode before waking up to handle the beacon. A high value helps save current consumption of the access point. Delivery Traffic Indication Message (DTIM) is the time period after which broadcast and multicast packets are transmitted to mobile clients in the Active Power Management mode. A high DTIM value can cause clients to lose connectivity with the network. Set the output power of the NWA in this field. If there is a high density of APs in an area, decrease the output power of the NWA to reduce interference with other APs. Select one of the following Full (Full Power), 50%, 25% or 12.5%. See the product specifications for more information on your NWAs output power. 68 NWA1000 Series Users Guide Chapter 6 Wireless LAN Table 14 Wireless LAN > Wireless Settings: MBSSID (continued) LABEL Preamble Type DESCRIPTION Select Dynamic to have the AP automatically use short preamble when wireless adapters support it, otherwise the AP uses long preamble. RTS/CTS Threshold Extension Channel Protection Mode A-MPDU Aggregation Select Long if you are unsure what preamble mode the wireless adapters support, and to provide more reliable communications in busy wireless networks.
(Request To Send) The threshold (number of bytes) for enabling RTS/CTS handshake. Data with its frame size larger than this value will perform the RTS/CTS handshake. Setting this attribute to be larger than the maximum MSDU (MAC service data unit) size turns off the RTS/CTS handshake. Setting this attribute to its smallest value (1) turns on the RTS/CTS handshake. You can use CTS to self or RTS-CTS protection mechanism to reduce conflicts with other wireless networks or hidden wireless clients. The throughput of RTS-CTS is much lower than CTS to self. Using this mode may decrease your wireless performance. This field is available only when 802.11n, 802.11b/g/n, 802.11a/n or 802.11a/n/ac is selected as the Wireless Mode. Short GI MCS Rate Select to enable A-MPDU aggregation. Message Protocol Data Unit (MPDU) aggregation collects Ethernet frames along with their 802.11n headers and wraps them in a 802.11n MAC header. This method is useful for increasing bandwidth throughput in environments that are prone to high error rates. This field is available only when 802.11n, 802.11b/g/n, 802.11a/n or 802.11a/n/ac is selected as the Wireless Mode. Select Enabled to use Short GI (Guard Interval). The guard interval is the gap introduced between data transmission from users in order to reduce interference. Reducing the GI increases data transfer rates but also increases interference. Increasing the GI reduces data transfer rates but also reduces interference. The MCS Rate table is available only when 802.11n, 802.11b/g/n or 802.11a/n or 802.11a/n/ac is selected in the Wireless Mode field. IEEE 802.11n supports many different data rates which are called MCS rates. MCS stands for Modulation and Coding Scheme. This is an 802.11n feature that increases the wireless network performance in terms of throughput. For each MCS Rate (0-15), select either Enabled to have the NWA use the data rate. Clear the Enabled check box if you do not want the NWA to use the data rate. Turn on the Auto option to have the NWA set the data rates automatically to optimize the throughput. Apply Cancel Note: You can set the NWA to use up to four MCS rates at a time. Click Apply to save your changes. Click Cancel to begin configuring this screen afresh. NWA1000 Series Users Guide 69 Chapter 6 Wireless LAN 6.5 SSID Screen Use this screen to view and modify the settings of the SSID profiles on the NWA. Click Wireless LAN > SSID to display the screen as shown. Figure 26 Wireless LAN > SSID The following table describes the labels in this screen. DESCRIPTION Table 15 Wireless LAN > SSID LABEL Profile Settings
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Profile Name SSID This field displays the index number of each SSID profile. This field displays the identification name of each SSID profile on the NWA. This field displays the SSID (Service Set IDentifier), that is, the name of the wireless network to which a wireless client can connect. When a wireless client scans for an AP to associate with, this is the name that is broadcast and seen in the wireless client utility. This field indicates which security profile is currently associated with each SSID profile. See Section 6.6 on page 72 for more information. This field displays which RADIUS profile is currently associated with each SSID profile, if you have a RADIUS server configured. This field displays the Quality of Service setting for this profile or NONE if QoS is not configured on a profile. This field displays which MAC filter profile is currently associated with each SSID profile, or Disable if MAC filtering is not configured on an SSID profile. Click Edit to go to the SSID configuration screen where you can modify settings in an SSID profile. Security RADIUS QoS MAC Filter Edit 70 NWA1000 Series Users Guide 6.5.1 Configuring SSID Use this screen to configure an SSID profile. In the Wireless LAN > SSID screen, click Edit next to the SSID profile you want to configure to display the following screen. Figure 27 SSID: Edit Chapter 6 Wireless LAN The following table describes the labels in this screen. Table 16 SSID: Edit LABEL Profile Name SSID Security RADIUS MAC Filtering DESCRIPTION This is the name that identifying this profile. When a wireless client scans for an AP to associate with, this is the name that is broadcast and seen in the wireless client utility. Select a security profile to use with this SSID profile. See Section 6.6 on page 72 for more information. If you do not want this profile to use wireless security, select Disabled. Select a RADIUS profile from the drop-down list box, if you have a RADIUS server configured. If you do not need to use RADIUS authentication, ignore this field. See Section 6.7 on page 78 for more information. Select a MAC filter profile from the drop-down list box. If you do not want to use MAC filtering on this profile, select Disabled. NWA1000 Series Users Guide 71 Chapter 6 Wireless LAN Table 16 SSID: Edit (continued) LABEL QoS DESCRIPTION Select the Quality of Service priority for this BSSs traffic. If you select WMM from the QoS list, the priority of a data packet depends on the packets IEEE 802.1q or DSCP header. If a packet has no WMM value assigned to it, it is assigned the default priority. If you select WMM_VOICE, WMM_VIDEO, WMM_BESTEFFORT or WMM_BACKGROUND, the NWA applies that QoS setting to all of that SSIDs traffic. If you select None, the NWA applies no priority to traffic on this SSID. Note: When you configure an SSID profiles QoS settings, the NWA applies the same QoS setting to all of the profiles traffic. BSSID VLAN ID Enter a VLAN ID for the SSID profile. Number of Wireless Stations Allowed to Associate Hidden SSID Intra-BSS Traffic Blocking Enable Layer-2 Isolation Back Apply Cancel Packets coming from the WLAN using this SSID profile are tagged with the VLAN ID number by the NWA. Use this field to set a maximum number of wireless stations that may connect to the device. If you do not select the checkbox, the NWA broadcasts this SSID (a wireless client scanning for an AP will find this SSID). Alternatively, if you select the checkbox, the NWA hides this SSID (a wireless client scanning for an AP will not find this SSID). Select this to prevent wireless clients in this profiles BSS from communicating with one another. Select this to enable layer-2 isolation for this profile. Wireless clients that connect to the WLAN using this SSID can access only certain pre-defined devices. See Section 6.8 on page 80. Intra-BSS traffic blocking is enabled automatically when you enable layer-2 isolation. Click Back to return to the previous screen. Click Apply to save your changes. Click Cancel to begin configuring this screen afresh. 6.6 Wireless Security Screen Use this screen to choose the security mode for your NWA. 72 NWA1000 Series Users Guide Click Wireless LAN > Security. Select the profile that you want to configure and click Edit. Figure 28 Wireless > Security Chapter 6 Wireless LAN The Security Settings screen varies depending upon the security mode you select. Figure 29 Security: None Note that some screens display differently depending on the operating mode selected in the Wireless LAN > Wireless Settings, Network > Wireless LAN > Wireless Settings- 2.4G or Network > Wireless LAN > Wireless Settings - 5G screen. Note: You must enable the same wireless security settings on the NWA and on all wireless clients that you want to associate with it. NWA1000 Series Users Guide 73 Chapter 6 Wireless LAN 6.6.1 Security: WEP Use this screen to use WEP as the security mode for your NWA. Select WEP in the Security Mode field to display the following screen. Figure 30 Security: WEP The following table describes the labels in this screen. Table 17 Security: WEP LABEL Profile Name Security Mode Authentication Type Data Encryption Passphrase Generate DESCRIPTION This is the name that identifying this profile. Choose WEP in this field. Select Open or Shared from the drop-down list box. Select 64-bit WEP or 128-bit WEP to enable data encryption. Enter the passphrase or string of text used for automatic WEP key generation on wireless client adapters. Click this to get the keys from the Passphrase you entered. 74 NWA1000 Series Users Guide Chapter 6 Wireless LAN Table 17 Security: WEP (continued) LABEL Key 1 to DESCRIPTION The WEP keys are used to encrypt data. Both the NWA and the wireless stations must use the same WEP key for data transmission. If you chose 64-bit WEP, then enter any 5 ASCII characters or 10 hexadecimal characters ("0-9", "A-F"). If you chose 128-bit WEP, then enter 13 ASCII characters or 26 hexadecimal characters
("0-9", "A-F"). You can configure up to four keys, but only one key can be activated at any one time. Click Back to return to the previous screen. Click Apply to save your changes. Click Cancel to begin configuring this screen afresh. Key 4 Back Apply Cancel 6.6.2 Security: WPA2, WPA2-MIX This screen varies depending on the operating mode you select in the Wireless LAN > Wireless Settings screen. 6.6.2.1 Access Point Use this screen to employ WPA2 as the security mode for your NWA that is in root AP, MBSSID or repeater operating mode. Select WPA2 or WPA2-MIX in the Security Mode field to display the following screen. Figure 31 Security: WPA2-MIX for Access Point The following table describes the labels in this screen. DESCRIPTION Table 18 Security: WPA2-MIX for Access Point LABEL Security Settings Profile Name Security Mode Rekey Options This is the name that identifying this profile. Choose WPA2 or WPA2-MIX in this field. NWA1000 Series Users Guide 75 Chapter 6 Wireless LAN Table 18 Security: WPA2-MIX for Access Point (continued) LABEL Reauthentication Time DESCRIPTION Specify how often wireless stations have to resend user names and passwords in order to stay connected. Enter a time interval between 0 and 3600 seconds. Enter 0 to turn reauthentication off. Note: If wireless station authentication is done using a RADIUS server, the reauthentication timer on the RADIUS server has priority. Enable Group-Key Update Group Key Timer is the rate at which the RADIUS server sends a new group key out to all clients. Click the check box to enable the Group Key Update and type a number between 100 and 3600 for the time rate. Back Apply Cancel Click Back to return to the previous screen. Click Apply to save your changes. Click Cancel to begin configuring this screen afresh. 6.6.2.2 Wireless Client Use this screen to employ WPA2 as the security mode for your NWA that is in wireless client operating mode. Select WPA2 in the Security Mode field to display the following screen. Figure 32 Security: WPA2 for Wireless Client The following table describes the labels in this screen. Table 19 Security: WPA2 for Wireless Client LABEL Security Settings Profile Name DESCRIPTION This is the name that identifying this profile. 76 NWA1000 Series Users Guide Chapter 6 Wireless LAN Table 19 Security: WPA2 for Wireless Client (continued) LABEL Security Mode DESCRIPTION Choose the same security mode used by the AP. Rekey Option Reauthentication Time Specify how often wireless stations have to resend user names and passwords in order to stay connected. Enter a time interval between 0 and 3600 seconds. Enter 0 to turn reauthentication off. If wireless station authentication is done using a RADIUS server, the reauthentication timer on the RADIUS server has priority.Enter how often the external authentication server requires a connected wireless client to reauthenticate itself to the server again. Enable Group-key Update Group Key Timer is the rate at which the RADIUS server sends a new group key out to all clients. Click the check box to enable the Group Key Update and type a number between 100 and 3600 for the time rate. Apply Cancel Click Apply to save your changes. Click Cancel to begin configuring this screen afresh. 6.6.3 Security: WPA2-PSK, WPA2-PSK-MIX Use this screen to employ WPA2-PSK or WPA2-PSK-MIX as the security mode of your NWA. Select WPA2-PSK or WPA2-PSK-MIX in the Security Mode field to display the following screen. Figure 33 Security: WPA2-PSK or WPA2-PSK-MIX The following table describes the labels not previously discussed Table 20 Security: WPA2-PSK or WPA2-PSK-MIX LABEL Profile Name Security Mode Pre-Shared Key DESCRIPTION This is the name that identifying this profile. Choose WPA2-PSK or WPA2-PSK-MIX in this field. Type a pre-shared key from 8 to 63 case-sensitive ASCII characters (including spaces and symbols). NWA1000 Series Users Guide 77 Chapter 6 Wireless LAN Table 20 Security: WPA2-PSK or WPA2-PSK-MIX (continued) LABEL Back Apply Cancel DESCRIPTION Click Back to return to the previous screen. Click Apply to save your changes. Click Cancel to begin configuring this screen afresh. 6.7 RADIUS Screen Use this screen to set up your NWAs RADIUS server settings. Click Wireless LAN > RADIUS. The screen appears as shown. Figure 34 Wireless LAN > RADIUS 78 NWA1000 Series Users Guide Select a profile you want to configure and click Edit. Figure 35 Wireless LAN > RADIUS Chapter 6 Wireless LAN The following table describes the labels in this screen. Table 21 Wireless LAN > RADIUS LABEL Profile Name Primary RADIUS Server DESCRIPTION This is the name that identifying this RADIUS profile. Select the check box to enable user authentication through an external authentication server. Enter the IP address of the RADIUS server to be used for authentication. Primary Server IP Address Primary Server Port Primary Share Secret Enter the port number of the RADIUS server to be used for authentication. Enter a password (up to 64 alphanumeric characters) as the key to be shared between the external authentication server and the NWA. The key must be the same on the external authentication server and your NWA. The key is not sent over the network. NWA1000 Series Users Guide 79 Chapter 6 Wireless LAN Table 21 Wireless LAN > RADIUS (continued) LABEL Backup RADIUS Server DESCRIPTION If the NWA cannot communicate with the primary RADIUS server, you can have the NWA use a backup RADIUS server. Make sure the check box is selected if you want to use the backup server. The NWA will attempt to communicate three times before using the backup server. Requests can be issued from the client interface to use the backup server. The length of time for each authentication is decided by the wireless client or based on the configuration of the Reauthentication Time field in the Wireless LAN > Security screen. Enter the IP address of the RADIUS server to be used for authentication. Enter the port number of the RADIUS server to be used for authentication. Enter a password (up to 64 alphanumeric characters) as the key to be shared between the external authentication server and the NWA. The key must be the same on the external authentication server and your NWA. The key is not sent over the network. Select the check box to enable user accounting through an external authentication server. Enter the IP address of the external accounting server in dotted decimal notation. Enter the port number of the external accounting server. Enter a password (up to 64 alphanumeric characters) as the key to be shared between the external accounting server and the NWA. The key must be the same on the external accounting server and your NWA. The key is not sent over the network. If the NWA cannot communicate with the primary accounting server, you can have the NWA use a backup accounting server. Make sure the check box is selected if you want to use the backup server. The NWA will attempt to communicate three times before using the backup server. Enter the IP address of the external accounting server in dotted decimal notation. Enter the port number of the external accounting server. Enter a password (up to 64 alphanumeric characters) as the key to be shared between the external accounting server and the NWA. The key must be the same on the external accounting and your NWA. The key is not sent over the network. Click Back to return to the previous screen. Click Apply to save your changes. Click Cancel to begin configuring this screen afresh. Backup Server IP Address Backup Server Port Backup Share Secret Primary Accounting Server Primary Server IP Address Primary Server Port Primary Share Secret Backup Accounting Server Backup Server IP Address Backup Server Port Backup Share Secret Back Apply Cancel 6.8 Layer-2 Isolation Layer-2 isolation is used to prevent wireless clients associated with your NWA from communicating with other wireless clients, APs, computers or routers in a network. In the following example, layer-2 isolation is enabled on the NWA to allow a guest wireless client
(A) to access the main network router (B). The router provides access to the Internet and the network printer (C) while preventing the client from accessing other computers and servers on the 80 NWA1000 Series Users Guide Chapter 6 Wireless LAN network. The client can communicate with other wireless clients only if Intra-BSS Traffic blocking is disabled. Note: Intra-BSS Traffic Blocking is activated when you enable layer-2 isolation. Figure 36 Layer-2 Isolation Application MAC addresses that are not listed in the layer-2 isolation table are blocked from communicating with the NWAs wireless clients except for broadcast packets. Layer-2 isolation does not check the traffic between wireless clients that are associated with the same AP. Intra-BSS Traffic allows wireless clients associated with the same AP to communicate with each other. 6.8.1 Layer-2 Isolation Screen Use this screen to specify devices you want the users on your wireless networks to access. Click Wireless LAN > Layer-2 Isolation. The screen displays as shown. NWA1000 Series Users Guide 81 Chapter 6 Wireless LAN Note: You need to know the MAC address of each wireless client, AP, computer or router that you want to allow to communicate with the NWA's wireless clients. Figure 37 Wireless LAN > Layer-2 Isolation The following table describes the labels in this screen. Table 22 Wireless LAN > Layer-2 Isolation LABEL Index MAC Address DESCRIPTION This is the index number of the MAC address listed. Enter the MAC addresses of the wireless client, AP, computer or router that you want to allow the associated wireless clients to have access to in these address fields. Enter the MAC address in a valid MAC address format (six hexadecimal character pairs, for example 12:34:56:78:9a:bc). Enter a name to identify this device. Click Apply to save your changes. Click Cancel to begin configuring this screen afresh. Description Apply Cancel 6.9 MAC Filter Screen Every Ethernet device has a unique MAC (Media Access Control) address. The MAC address is assigned at the factory and consists of six pairs of hexadecimal characters, for example, 00:A0:C5:00:00:02. You need to know the MAC address of each device to configure MAC filtering on the NWA. 82 NWA1000 Series Users Guide The MAC filter function allows you to configure the NWA to grant access to the NWA from other wireless devices (Allow Association) or exclude devices from accessing the NWA (Deny Association). Figure 38 MAC Filtering Chapter 6 Wireless LAN In the figure above, wireless client U is able to connect to the Internet because its MAC address is in the allowed association list specified in the NWA. The MAC address of client A is either denied association or is not in the list of allowed wireless clients specified in the NWA. Use this screen to enable MAC address filtering in your NWA. You can specify MAC addresses to either allow or deny association with your NWA. Click Wireless LAN > MAC Filter. The screen displays as shown. Figure 39 Wireless LAN > MAC Filter Select a profile you want to configure and click Edit. Figure 40 MAC Filter: Edit NWA1000 Series Users Guide 83 Chapter 6 Wireless LAN The following table describes the labels in this screen. Table 23 Wireless LAN > MAC Filter DESCRIPTION LABEL Profile Name This is the name that identifying this profile. Access Control Mode Select Disabled if you do not want to use this feature. Select Allow to permit access to the NWA. MAC addresses not listed will be denied access to the NWA. Select Deny to block access to theNWA. MAC addresses not listed will be allowed to access the NWA. This is the index number of the MAC address listed. Enter the MAC addresses (in XX:XX:XX:XX:XX:XX format) of the wireless station to be allowed or denied access to the NWA. Click Back to return to the previous screen. Click Apply to save your changes. Click Cancel to begin configuring this screen afresh.
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MAC Address Back Apply Cancel 6.10 Technical Reference This section provides technical background information about the topics covered in this chapter. Refer to Appendix E on page 178 for further readings on Wireless LAN. 6.10.1 Additional Wireless Terms Table 24 Additional Wireless Terms TERM Intra-BSS Traffic RTS/CTS Threshold DESCRIPTION This describes direct communication (not through the NWA) between two wireless devices within a wireless network. You might disable this kind of communication to enhance security within your wireless network. In a wireless network which covers a large area, wireless devices are sometimes not aware of each others presence. This may cause them to send information to the AP at the same time and result in information colliding and not getting through. By setting this value lower than the default value, the wireless devices must sometimes get permission to send information to the NWA. The lower the value, the more often the devices must get permission. Preamble A preamble affects the timing in your wireless network. There are two preamble modes: long and short. If a device uses a different preamble mode than the NWA does, it cannot communicate with the NWA. 84 NWA1000 Series Users Guide Chapter 6 Wireless LAN TERM Roaming Antenna DESCRIPTION If you have two or more NWAs (or other wireless access points) on your wireless network, you can enable this option so that wireless devices can change locations without having to log in again. This is useful for devices, such as notebooks, that move around a lot. An antenna couples Radio Frequency (RF) signals onto air. A transmitter within a wireless device sends an RF signal to the antenna, which propagates the signal through the air. The antenna also operates in reverse by capturing RF signals from the air. Positioning the antennas properly increases the range and coverage area of a wireless LAN. 6.10.2 WMM QoS WMM (Wi-Fi MultiMedia) QoS (Quality of Service) ensures quality of service in wireless networks. It controls WLAN transmission priority on packets to be transmitted over the wireless network. WMM QoS prioritizes wireless traffic according to the delivery requirements of the individual and applications. WMM QoS is a part of the IEEE 802.11e QoS enhancement to certified Wi-Fi wireless networks. On APs without WMM QoS, all traffic streams are given the same access priority to the wireless network. If the introduction of another traffic stream creates a data transmission demand that exceeds the current network capacity, then the new traffic stream reduces the throughput of the other traffic streams. The NWA uses WMM QoS to prioritize traffic streams according to the IEEE 802.1q or DSCP information in each packets header. The NWA automatically determines the priority to use for an individual traffic stream. This prevents reductions in data transmission for applications that are sensitive to latency and jitter (variations in delay). 6.10.2.1 WMM QoS Priorities The following table describes the WMM QoS priority levels that the NWA uses. Table 25 WMM QoS Priorities Priority Level voice
(WMM_VOICE) video
(WMM_VIDEO) best effort
(WMM_BESTEFFORT) background
(WMM_BACKGROUND) description Typically used for traffic that is especially sensitive to jitter. Use this priority to reduce latency for improved voice quality. Typically used for traffic which has some tolerance for jitter but needs to be prioritized over other data traffic. Typically used for traffic from applications or devices that lack QoS capabilities. Use best effort priority for traffic that is less sensitive to latency, but is affected by long delays, such as Internet surfing. This is typically used for non-critical traffic such as bulk transfers and print jobs that are allowed but that should not affect other applications and users. Use background priority for applications that do not have strict latency and throughput requirements. NWA1000 Series Users Guide 85 Chapter 6 Wireless LAN 6.10.3 Security Mode Guideline The following is a general guideline in choosing the security mode for your NWA. Use WPA2-PSK if you have WPA2-aware wireless clients but no RADIUS server. Use WPA2 security if you have WPA2-aware wireless clients and a RADIUS server. WPA2 has user authentication and improved data encryption over WEP. If you dont have WPA2-aware wireless clients, then use WEP key encrypting. A higher bit key offers better security. You can manually enter 64-bit or 128-bit WEP keys. More information on Wireless Security can be found in Appendix E on page 178. 86 NWA1000 Series Users Guide CHAPTER 7 LAN and VLAN 7.1 LAN Overview This chapter describes how you can configure the IP address of your NWA. The Internet Protocol (IP) address identifies a device on a network. Every networking device
(including computers, servers, routers, printers, etc.) needs an IP address to communicate across the network. These networking devices are also known as hosts. Figure 41 IPv4 Setup The figure above illustrates one possible setup of your NWA. The gateway IPv4 address is 192.168.1.1 and the IPv4 address of the NWA is 192.168.1.2 (default). The gateway and the device must belong in the same subnet mask to be able to communicate with each other. 7.2 What You Can Do in the LAN IP Screen Use the LAN IP screen to configure the IP address of your NWA (see Section 7.6 on page 90). 7.3 What You Need to Know The Ethernet parameters of the NWA are preset in the factory with the following values:
1 2 IP address of 192.168.1.2 Subnet mask of 255.255.255.0 (24 bits) NWA1000 Series Users Guide 87 Chapter 7 LAN and VLAN IPv6 IPv6 (Internet Protocol version 6), is designed to enhance IP address size and features. The increase in IPv6 address size to 128 bits (from the 32-bit IPv4 address) allows up to 3.4 x 1038 IP addresses. IPv6 Addressing The 128-bit IPv6 address is written as eight 16-bit hexadecimal blocks separated by colons (:). This is an example IPv6 address 2001:0db8:1a2b:0015:0000:0000:1a2f:0000. IPv6 addresses can be abbreviated in two ways:
Leading zeros in a block can be omitted. So 2001:0db8:1a2b:0015:0000:0000:1a2f:0000 can be written as 2001:db8:1a2b:15:0:0:1a2f:0. Any number of consecutive blocks of zeros can be replaced by a double colon. A double colon can only appear once in an IPv6 address. So 2001:0db8:0000:0000:1a2f:0000:0000:0015 can be written as 2001:0db8::1a2f:0000:0000:0015, 2001:0db8:0000:0000:1a2f::0015, 2001:db8::1a2f:0:0:15 or 2001:db8:0:0:1a2f::15. Prefix and Prefix Length Similar to an IPv4 subnet mask, IPv6 uses an address prefix to represent the network address. An IPv6 prefix length specifies how many most significant bits (start from the left) in the address compose the network address. The prefix length is written as /x where x is a number. For example, 2001:db8:1a2b:15::1a2f:0/32 means that the first 32 bits (2001:db8) is the subnet prefix. Link-local Address A link-local address uniquely identifies a device on the local network (the LAN). It is similar to a private IP address in IPv4. You can have the same link-local address on multiple interfaces on a device. A link-local unicast address has a predefined prefix of fe80::/10. The link-local unicast address format is as follows. Table 26 Link-local Unicast Address Format 1111 1110 10 10 bits 0 54 bits Interface ID 64 bits Global Address A global address uniquely identifies a device on the Internet. It is similar to a public IP address in IPv4. A global unicast address starts with a 2 or 3. 88 NWA1000 Series Users Guide 7.4 VLAN Overview This section discusses how to configure the NWAs VLAN settings. Figure 42 Management VLAN Setup Chapter 7 LAN and VLAN B A In the figure above, to access and manage the NWA from computer A, the NWA and switch Bs ports to which computer A and the NWA are connected should be in the same VLAN. 7.5 What You Need to Know Introduction to VLANs A Virtual Local Area Network (VLAN) allows a physical network to be partitioned into multiple logical networks. Devices on a logical network belong to one group. A device can belong to more than one group. With VLAN, a device cannot directly talk to or hear from devices that are not in the same group(s); the traffic must first go through a router. In Multi-Tenant Unit (MTU) applications, VLAN is vital in providing isolation and security among the subscribers. When properly configured, VLAN prevents one subscriber from accessing the network resources of another on the same LAN, thus a user will not see the printers and hard disks of another user in the same building. VLAN also increases network performance by limiting broadcasts to a smaller and more manageable logical broadcast domain. In traditional switched environments, all broadcast packets go to each and every individual port. With VLAN, all broadcasts are confined to a specific broadcast domain. IEEE 802.1Q Tag The IEEE 802.1Q standard defines an explicit VLAN tag in the MAC header to identify the VLAN membership of a frame across bridges. A VLAN tag includes the 12-bit VLAN ID and 3-bit user priority. The VLAN ID associates a frame with a specific VLAN and provides the information that devices need to process the frame across the network. NWA1000 Series Users Guide 89 Chapter 7 LAN and VLAN 7.6 LAN IP Screen Use this screen to configure the IP address for your NWA. Click Network > LAN to display the following screen. Figure 43 LAN IP The following table describes the labels in this screen. Table 27 LAN IP LABEL IPv4 Address Assignment Obtain IP Address Automatically DESCRIPTION Select this option if your NWA is using a dynamically assigned IPv4 address from a DHCP server each time. Note: You must know the IP address assigned to the NWA (by the DHCP server) to access the NWA again. Use Fixed IP Address IP Address Select this option if your NWA is using a static IPv4 address. When you select this option, fill in the fields below. Enter the IP address of your NWA in dotted decimal notation. Subnet Mask Gateway IP Address Note: If you change the NWA's IP address, you must use the new IP address if you want to access the web configurator again. Type the subnet mask. Type the IPv4 address of the gateway. The gateway is an immediate neighbor of your NWA that will forward the packet to the destination. On the LAN, the gateway must be a router on the same segment as your NWA; over the WAN, the gateway must be the IP address of one of the remote nodes. 90 NWA1000 Series Users Guide Chapter 7 LAN and VLAN DESCRIPTION Table 27 LAN IP (continued) LABEL IPv6 Address Assignment Enable Stateful Address Auto-
configuration IPv6 Address/Prefix Length System DNS Servers Primary DNS Server Enter the IPv4 address of the first DNS (Domain Name Service) server, if provided. Secondary DNS Server Enter the IPv4 address of the second DNS (Domain Name Service) server address, if Select this to turn on IPv6 stateful auto-configuration to have the NWA obtain an IPv6 global address from a DHCPv6 server in your network. Enter your IPv6 address and prefix manually. provided. VLAN Settings 802.1q VLAN Management VLAN ID As Native VLAN Green Ethernet Energy Efficient Ethernet (EEE) Apply Cancel Select this to enable VLAN tagging on the NWA. Enter a number from 1 to 4094 to define the NWAs management VLAN group. Click this check box to enable As Native VLAN. If enabled, only untagged packets may access to the CPU of NWA. If disabled, only tagged packets shall be forwarded to the matched VLAN. Select this check box to treat this VLAN ID as a VLAN created on the NWA and not one assigned to it from outside the network. Click the check box to enable Energy-Efficient Ethernet (EEE). When enabled, it turns on power saving mode. If disabled, only tagged packets with matched VLAN-ID may access the NWA. Click Apply to save your changes. Click Cancel to begin configuring this screen afresh. NWA1000 Series Users Guide 91 CHAPTER 8 System 8.1 Overview This chapter shows you how to enable remote management of your NWA. It provides information on determining which services or protocols can access which of the NWAs interfaces. Remote Management allows a user to administrate the device over the network. You can manage your NWA from a remote location via the following interfaces:
WLAN LAN Both WLAN and LAN Neither (Disable) Figure 44 Remote Management Example In the figure above, the NWA (A) is being managed by a desktop computer (B) connected via LAN
(Land Area Network). It is also being accessed by a notebook (C) connected via WLAN (Wireless LAN). 8.2 What You Can Do in this Chapter Use the WWW screen to configure through which interface(s) and from which IP address(es) you can use the Web Browser to manage the NWA (see Section 8.4 on page 95). Use the Certificates screen to delete and import certificates (seen Section 8.5 on page 96). Use the Telnet screen to configure through which interface(s) and from which IP address(es) you can use Telnet to manage the NWA. A Telnet connection is prioritized by the NWA over other remote management sessions (see Section 8.6 on page 97). NWA1000 Series Users Guide 92 Use the SNMP screen to configure through which interface(s) and from which IP address(es) a network systems manager can access the NWA (see Section 8.7 on page 99). Use the FTP screen to configure through which interface(s) and from which IP address(es) you can use File Transfer Protocol (FTP) to manage the NWA. You can use FTP to upload the latest firmware for example (see Section 8.8 on page 101). Chapter 8 System 8.3 What You Need To Know WWW The World Wide Web allows you to access files hosted in a remote server. For example, you can view text files (usually referred to as pages) using your web browser via HyperText Transfer Protocol (HTTP). Telnet Telnet is short for Telecommunications Network, which is a client-side protocol that enables you to access a device over the network. FTP File Transfer Protocol (FTP) allows you to upload or download a file or several files to and from a remote location using a client or the command console. SNMP Simple Network Management Protocol (SNMP) is a member of the TCP/IP protocol suite used for exchanging management information between network devices. Your NWA supports SNMP agent functionality, which allows a manager station to manage and monitor the NWA through the network. The NWA supports SNMP version one (SNMPv1), version two (SNMPv2c) and version three (SNMPv3). NWA1000 Series Users Guide 93 Chapter 8 System The next figure illustrates an SNMP management operation. Figure 45 SNMP Management Mode A SNMP managed network consists of two main types of component: agents and a manager. An agent is a management software module that resides in a managed device (the NWA). An agent translates the local management information from the managed device into a form compatible with SNMP. The manager is the console through which network administrators perform network management functions. It executes applications that control and monitor managed devices. SNMP allows a manager and agents to communicate for the purpose of accessing information such as packets received, node port status, etc. SNMP v3 and Security SNMP v3 enhances security for SNMP management. SNMP managers can be required to authenticate with agents before conducting SNMP management sessions. Security can be further enhanced by encrypting the SNMP messages sent from the managers. Encryption protects the contents of the SNMP messages. When the contents of the SNMP messages are encrypted, only the intended recipients can read them. Remote Management Limitations Remote management over LAN or WLAN will not work when:
You have disabled that service in one of the remote management screens. The IP address in the Secured Client IP Address field does not match the client IP address. If it does not match, the NWA will disconnect the session immediately. You may only have one remote management session running at one time. The NWA automatically disconnects a remote management session of lower priority when another remote management session of higher priority starts. The priorities for the different types of remote management sessions are as follows:
94 NWA1000 Series Users Guide Chapter 8 System 1 Telnet 2 HTTP Certificate A certificate contains the certificate owners identity and public key. Certificates provide a way to exchange public keys for use in authentication. Figure 46 Certificates Example In the figure above, the NWA (Z) checks the identity of the notebook (A) using a certificate before granting access to the network. The certification authority certificate that you can import to your NWA should be in PFX PKCS#12 file format. This format referred to as the Personal Information Exchange Syntax Standard is comprised of a private key-public certificate pair that is further encrypted with a password. Before you import a certificate into the NWA, you should verify that you have the correct certificate. Key distribution is simple and very secure since you can freely distribute public keys and you never need to transmit private keys. 8.4 WWW Screen Use this screen to configure your NWA via the World Wide Web (WWW) using a Web browser. This lets you specify which IP addresses or computers are able to communicate with and access the NWA. NWA1000 Series Users Guide 95 Chapter 8 System To change your NWAs WWW settings, click System > WWW. The following screen shows. Figure 47 System > WWW The following table describes the labels in this screen. Table 28 System > WWW LABEL WWW HTTP Port DESCRIPTION HTTPS Port Secure Access Control Secured Client IP Address Secured Client MAC Address Apply Cancel You may change the server port number for a service if needed, however you must use the same port number in order to use that service for remote management. The HTTPS proxy server listens on port 443 by default. If you change the HTTPS proxy server port to a different number on the NWA, for example 8443, then you must notify people who need to access the NWA web configurator to use https://NWA IP Address:8443 as the URL. Select the interface(s) through which a computer may access the NWA using WWW and to which the IP and MAC filtering rules you specified below are applied. Otherwise, select Disable to allow any computer to access the NWA through any interface using WWW. A secured client is a trusted computer that is allowed to communicate with the NWA using this service. Select All to allow any computer to access the NWA using this service. Choose Selected to just allow the computer with the IP address that you specify to access the NWA using this service. Select All to allow any computer to access the NWA using this service. Choose Selected to just allow the computer with the MAC address that you specify to access the NWA using this service. Click Apply to save your customized settings. Click Cancel to begin configuring this screen afresh. 8.5 Certificates Screen Use this screen to delete or import certificates. 96 NWA1000 Series Users Guide Click System > Certificates. The following screen shows. Figure 48 System > Certificates Chapter 8 System The following table describes the labels in this screen. Table 29 System > Certificates LABEL Import Certificate DESCRIPTION Import Certificate Browse Import Enter the location of a previously-saved certificate to upload to the NWA. Alternatively, click the Browse button to locate a list. Click this button to locate a previously-saved certificate to upload to the NWA. Click this button to upload the previously-saved certificate displayed in the Import Certificate field to the NWA. Delete Certificate You can delete a certificate Delete Select the certificate from the list that you want to delete. Click this to delete the selected certificate. 8.6 Telnet Screen Use this screen to configure your NWA for remote Telnet access. You can use Telnet to access the NWAs Command Line Interface (CLI). Click System > Telnet. The following screen displays. Figure 49 System > Telnet NWA1000 Series Users Guide 97 Chapter 8 System The following table describes the labels in this screen. Table 30 System > Telnet LABEL TELNET Port DESCRIPTION Secure Access Control Secured Client IP Address Secured Client MAC Address Apply Cancel You can change the server port number for a service if needed, however you must use the same port number in order to use that service for remote management. Select the interface(s) through which a computer may access the NWA using Telnet and to which the IP and MAC filtering rules you specified below are applied. Otherwise, select Disable to allow any computer to access the NWA through any interface using Telnet. A secured client is a trusted computer that is allowed to communicate with the NWA using this service. Select All to allow any computer to access the NWA using this service. Choose Selected to just allow the computer with the IP address that you specify to access the NWA using this service. Select All to allow any computer to access the NWA using this service. Choose Selected to just allow the computer with the MAC address that you specify to access the NWA using this service. Click Apply to save your customized settings. Click Cancel to begin configuring this screen afresh. 98 NWA1000 Series Users Guide Chapter 8 System 8.7 SNMP Screen Use this screen to have a manager station administrate your NWA over the network and configure SNMP accounts on the SNMP v3 manager. A SNMP administrator/user is a SNMP manager. To change your NWAs SNMP settings, click System > SNMP. The following screen displays. Figure 50 System > SNMP NWA1000 Series Users Guide 99 Chapter 8 System The following table describes the labels in this screen. Table 31 System > SNMP LABEL SNMP Port DESCRIPTION Secure Access Control Secured Client IP Address Secured Client MAC Address SNMP Configuration Protocol Version Get Community Set Community Trap Community Trap Destination SNMPv3 Admin Settings SNMPv3 Admin User Name Password Confirm Password Access Type Authentication Protocol You can change the server port number for a service if needed, however you must use the same port number in order to use that service for remote management. Select the interface(s) through which a computer may access the NWA using SNMP and to which the IP and MAC filtering rules you specified below are applied. Otherwise, select Disable to allow any computer to access the NWA through any interface using SNMP. A secured client is a trusted computer that is allowed to communicate with the NWA using this service. Select All to allow any computer to access the NWA using this service. Choose Selected to just allow the computer with the IP address that you specify to access the NWA using this service. Select All to allow any computer to access the NWA using this service. Choose Selected to just allow the computer with the MAC address that you specify to access the NWA using this service. Select the SNMP version for the NWA, which you allow the SNMP manager to use to access the NWA. The SNMP version on the NWA must match the version on the SNMP manager. Enter the Get Community, which is the password for the incoming Get and GetNext requests from the management station. Enter the Set community, which is the password for incoming Set requests from the management station. Type the trap community, which is the password sent with each trap to the SNMP manager. Type the IP address of the station to send your SNMP traps to. Select the check box to enable the SNMP administrator account for authentication with SNMP managers using SNMP v3. Specify the user name of the SNMP administrator account. Enter the password for SNMP administrator authentication. Retype the password for confirmation. Specify the SNMP administrators access rights to MIBs. Read/Write - The SNMP administrator has read and write rights, meaning that the user can create and edit the MIBs on the NWA. Read Only - The SNMP administrator has read rights only, meaning the user can collect information from the NWA. Select an authentication algorithm used for SNMP communication with the SNMP administrator. MD5 (Message Digest 5) and SHA (Secure Hash Algorithm) are hash algorithms used to authenticate SNMP data. SHA authentication is generally considered stronger than MD5, but is slower. 100 NWA1000 Series Users Guide Chapter 8 System Table 31 System > SNMP (continued) LABEL Privacy Protocol DESCRIPTION Specify the encryption method used for SNMP communication with the SNMP administrator. DES - Data Encryption Standard is a widely used (but breakable) method of data encryption. It applies a 56-bit key to each 64-bit block of data. AES - Advanced Encryption Standard is another method for data encryption that also uses a secret key. AES applies a 128-bit key to 128-bit blocks of data. SNMPv3 User Settings SNMPv3 User User Name Password Confirm Password Access Type Authentication Protocol Privacy Protocol Apply Cancel Select the check box to enable the SNMP user account for authentication with SNMP managers using SNMP v3. Specify the user name of the SNMP user account. Enter the password for SNMP user authentication. Retype the password for confirmation. Specify the SNMP users access rights to MIBs. Read Only - The SNMP user has read rights only, meaning the user can collect information from the NWA. Read/Write - The SNMP user has read and write rights, meaning that the user can create and edit the MIBs on the NWA. Select an authentication algorithm used for SNMP communication with the SNMP user. MD5 (Message Digest 5) and SHA (Secure Hash Algorithm) are hash algorithms used to authenticate SNMP data. SHA authentication is generally considered stronger than MD5, but is slower. Specify the encryption method used for SNMP communication with the SNMP user. DES - Data Encryption Standard is a widely used (but breakable) method of data encryption. It applies a 56-bit key to each 64-bit block of data. AES - Advanced Encryption Standard is another method for data encryption that also uses a secret key. AES applies a 128-bit key to 128-bit blocks of data. Click Apply to save your customized settings. Click Cancel to begin configuring this screen afresh. 8.8 FTP Screen Use this screen to upload and download the NWAs firmware using FTP. To use this feature, your computer must have an FTP client. NWA1000 Series Users Guide 101 Chapter 8 System To change your NWAs FTP settings, click System > FTP. The following screen displays. Figure 51 System > FTP The following table describes the labels in this screen. Table 32 System > FTP LABEL FTP Port DESCRIPTION Secure Access Control Secured Client IP Address Secured Client MAC Address Apply Cancel You may change the server port number for a service if needed, however you must use the same port number in order to use that service for remote management. Select the interface(s) through which a computer may access the NWA using this service and to which the IP and MAC filtering rules you specified below are applied. Otherwise, select Disable to allow any computer to access the NWA through any interface using this service. A secured client is a trusted computer that is allowed to communicate with the NWA using this service. Select All to allow any computer to access the NWA using this service. Choose Selected to just allow the computer with the IP address that you specify to access the NWA using this service. Select All to allow any computer to access the NWA using this service. Choose Selected to just allow the computer with the MAC address that you specify to access the NWAe using this service. Click Apply to save your customized settings. Click Cancel to begin configuring this screen afresh. 8.9 Technical Reference This section provides some technical background information about the topics covered in this chapter. 8.9.1 MIB Managed devices in an SMNP managed network contain object variables or managed objects that define each piece of information to be collected about a device. Examples of variables include such 102 NWA1000 Series Users Guide Chapter 8 System as number of packets received, node port status etc. A Management Information Base (MIB) is a collection of managed objects.SNMP itself is a simple request/response protocol based on the manager/agent model. The manager issues a request and the agent returns responses using the following protocol operations:
Get - Allows the manager to retrieve an object variable from the agent. GetNext - Allows the manager to retrieve the next object variable from a table or list within an agent. In SNMPv1, when a manager wants to retrieve all elements of a table from an agent, it initiates a Get operation, followed by a series of GetNext operations. Set - Allows the manager to set values for object variables within an agent. Trap - Used by the agent to inform the manager of some events. 8.9.2 Supported MIBs The NWA supports MIB II that is defined in RFC-1213 and RFC-1215 as well as the proprietary ZyXEL private MIB. The purpose of the MIBs is to let administrators collect statistical data and monitor status and performance. 8.9.3 Private-Public Certificates When using public-key cryptology for authentication, each host has two keys. One key is public and can be made openly available. The other key is private and must be kept secure. These keys work like a handwritten signature (in fact, certificates are often referred to as digital signatures). Only you can write your signature exactly as it should look. When people know what your signature looks like, they can verify whether something was signed by you, or by someone else. In the same way, your private key writes your digital signature and your public key allows people to verify whether data was signed by you, or by someone else. This process works as follows. 1 2 3 4 5 Tim wants to send a message to Jenny. He needs her to be sure that it comes from him, and that the message content has not been altered by anyone else along the way. Tim generates a public key pair (one public key and one private key). Tim keeps the private key and makes the public key openly available. This means that anyone who receives a message seeming to come from Tim can read it and verify whether it is really from him or not. Tim uses his private key to sign the message and sends it to Jenny. Jenny receives the message and uses Tims public key to verify it. Jenny knows that the message is from Tim, and that although other people may have been able to read the message, no-one can have altered it (because they cannot re-sign the message with Tims private key). Additionally, Jenny uses her own private key to sign a message and Tim uses Jennys public key to verify the message. 8.9.4 Certification Authorities A Certification Authority (CA) issues certificates and guarantees the identity of each certificate owner. There are commercial certification authorities like CyberTrust or VeriSign and government NWA1000 Series Users Guide 103 Chapter 8 System certification authorities. You can use the NWA to generate certification requests that contain identifying information and public keys and then send the certification requests to a certification authority. 8.9.5 Checking the Fingerprint of a Certificate on Your Computer A certificates fingerprints are message digests calculated using the MD5 or SHA1 algorithms. The following procedure describes how to check a certificates fingerprint to verify that you have the actual certificate. 1 Browse to where you have the certificate saved on your computer. 2 Make sure that the certificate has a .cer or .crt file name extension. Figure 52 Certificates on Your Computer 3 Double-click the certificates icon to open the Certificate window. Click the Details tab and scroll down to the Thumbprint Algorithm and Thumbprint fields. Figure 53 Certificate Details 4 Use a secure method to verify that the certificate owner has the same information in the Thumbprint Algorithm and Thumbprint fields. The secure method may vary according to your situation. Possible examples would be over the telephone or through an HTTPS connection. 104 NWA1000 Series Users Guide CHAPTER 9 Log Settings 9.1 Overview This chapter provides information on viewing and generating logs on your NWA. Logs are files that contain recorded network activity over a set period. They are used by administrators to monitor the health of the system(s) they are managing. Logs enable administrators to effectively monitor events, errors, progress, etc. so that when network problems or system failures occur, the cause or origin can be traced. Logs are also essential for auditing and keeping track of changes made by users. Figure 54 Accessing Logs in the Network The figure above illustrates three ways to access logs. The user (U) can access logs directly from the NWA (A) via the Web configurator. Logs can also be located in an external log server (B). An email server (C) can also send harvested logs to the users email account. 9.2 What You Can Do in this Chapter Use the Log Settings screen to configure where and when the NWA will send the logs, and which logs it will send (Section 9.4 on page 106). Use the Monitor > Logs screen to display all logs or logs for a certain category. NWA1000 Series Users Guide 105 Chapter 9 Log Settings 9.3 What You Need To Know Alerts and Logs An alert is a type of log that warrants more serious attention. Some categories such as System Error consist of both logs and alerts. You can differentiate them by their color in the Monitor >
Logs screen. Alerts are displayed in red and logs are displayed in black. Receiving Logs via E-mail If you want to receive logs in your e-mail account, you need to have the necessary details ready, such as the Server Name or Simple Mail Transfer Protocol (SMTP) Address of your e-mail account. Ensure that you have a valid e-mail address. Enabling Syslog Logging To enable Syslog Logging, obtain your Syslog servers IP address (or server name). 9.4 Log Settings Screen Use this screen to configure to where and when the NWA is to send the logs and which logs and/or immediate alerts it is to send. 106 NWA1000 Series Users Guide To change your NWAs log settings, click Configuration > Log Settings. The screen appears as shown. Figure 55 Log Settings Chapter 9 Log Settings The following table describes the labels in this screen. Table 33 Log Settings LABEL E-mail Log Settings Mail Server Mail Subject Send Log to DESCRIPTION Enter the server name or the IP address of the mail server for the e-mail addresses specified below. If this field is left blank, logs and alert messages will not be sent via e-mail. Type a title that you want to be in the subject line of the log e-mail message that the NWA sends. Logs are sent to the e-mail address specified in this field. If this field is left blank, logs will not be sent via e-mail. NWA1000 Series Users Guide 107 Chapter 9 Log Settings Table 33 Log Settings (continued) LABEL SMTP Authentication DESCRIPTION SMTP (Simple Mail Transfer Protocol) is the message-exchange standard for the Internet. Select the check box to activate SMTP authentication. If mail server authentication is needed but this feature is disabled, you will not receive the e-mail logs. User Name Password Syslog Logging Syslog Logging Syslog Server IP Address Syslog Port Number Send Log Log Schedule Clear log after sending mail Log Category System Maintenance System Error 802.1x Wireless Email Log Now Apply Cancel If you use SMTP authentication, the mail receiver should be the owner of the SMTP account. If your e-mail account requires SMTP authentication, enter the user name here. Enter the password associated with the above user name. Syslog logging sends a log to an external syslog server used to store logs. Select the check box to enable syslog logging. Enter the IP address of the syslog server that will log the selected categories of logs. Enter the port number of the syslog server that will log the selected categories of logs. This drop-down menu is used to configure the frequency of log messages being sent as E-mail:
When Log is Full Hourly Daily Weekly None. If the Weekly or the Daily option is selected, specify a time of day when the E-mail should be sent. If the Weekly option is selected, then also specify which day of the week the E-mail should be sent. If the When Log is Full option is selected, an alert is sent when the log fills up. If you select None, no log messages are sent. Select the check box to clear all logs after logs and alert messages are sent via e-
mail. Click this to receive logs related to system maintenance. Click this to receive logs related to system errors. Click this to receive logs related to the 802.1x mode. Click this to receive logs related to the wireless function. Select the categories of alerts for which you want the NWA to immediately send e-
mail alerts. Click Apply to save your customized settings. Click Cancel to begin configuring this screen afresh. 108 NWA1000 Series Users Guide CHAPTER 10 Maintenance 10.1 Overview This chapter describes the maintenance screens. It discusses how you can upload new firmware, manage configuration and restart your NWA without turning it off and on. This chapter provides information and instructions on how to identify and manage your NWA over the network. Figure 56 NWA Setup In the figure above, the NWA connects to a Domain Name Server (DNS) server to avail of a domain name. It also connects to a Network Time Protocol (NTP) server to set the time on the device. 10.2 What You Can Do in this Chapter Use the General screen to specify the system name (see Section 10.4 on page 110). Use the Password screen to manage the password for your NWA (see Section 10.5 on page 111). Use the Time screen to change your NWAs time and date. This screen allows you to configure the NWAs time based on your local time zone (see Section 10.6 on page 112). Use the Firmware Upgrade screen to upload the latest firmware for your NWA (see Section 10.7 on page 113). Use the Configuration File screen to view information related to factory defaults, backup configuration, and restoring configuration (see Section 10.8 on page 114). Use the Restart screen to reboot the NWA without turning the power off (see Section 10.9 on page 116). NWA1000 Series Users Guide 109 Chapter 10 Maintenance 10.3 What You Need To Know You can find the firmware for your device at www.zyxel.com. It is a file that uses the system project code with a "*.bin" extension, for example "V100AAEO0.bin". The upload process uses HTTP
(Hypertext Transfer Protocol) and may take up to two minutes. After a successful upload, the system will reboot. 10.4 General Screen Use the General screen to identify your NWA over the network. Click Maintenance > General. The following screen displays. Figure 57 Maintenance > General The following table describes the labels in this screen. Table 34 Maintenance > General LABEL System Settings System Name DESCRIPTION Type a descriptive name to identify the NWA in the Ethernet network. Apply Cancel This name can be up to 15 alphanumeric characters long. Spaces are not allowed, but dashes "-" are accepted. Click Apply to save your changes. Click Cancel to reload the previous configuration for this screen. 110 NWA1000 Series Users Guide Chapter 10 Maintenance 10.5 Password Screen Use this screen to control access to your NWA by assigning a password to it. Click Maintenance >
Password. The following screen displays. Figure 58 Maintenance > Password The following table describes the labels in this screen. Table 35 Maintenance > Password LABEL Current Password New Password Retype to Confirm Apply Cancel DESCRIPTIONS Type in your existing system password. Type your new system password. Note that as you type a password, the screen displays a dot (.) for each character you type. Retype your new system password for confirmation. Click Apply to save your changes. Click Cancel to reload the previous configuration for this screen. NWA1000 Series Users Guide 111 Chapter 10 Maintenance 10.6 Time Screen Use this screen to change your NWAs time and date, click Maintenance > Time. The following screen displays. Figure 59 Maintenance > Time The following table describes the labels in this screen. Table 36 Maintenance > Time LABEL Current Time and Date Current Time DESCRIPTION This field displays the time of your NWA. Each time you reload this page, the NWA synchronizes the time with the time server
(if configured). When you disable NTP Client Update, you can manually enter the new time in this field and then click Apply. This field displays the last updated date from the time server. When you disable NTP Client Update, you can manually enter the new date in this field and then click Apply. Select this to have the NWA get the time and date from the time server you specified below. Select this option to use the predefined list of Network Time Protocol (NTP) servers. Select an NTP server from the drop-list box. Select this option to enter the IP address or URL of your time server. Check with your ISP/network administrator if you are unsure of this information. Current Date Time and Date Setup NTP Client Update NTP server Manual IP Time Zone Setup 112 NWA1000 Series Users Guide Chapter 10 Maintenance Table 36 Maintenance > Time (continued) LABEL Time Zone DESCRIPTION Choose the time zone of your location. This will set the time difference between your time zone and Greenwich Mean Time (GMT). Daylight saving is a period from late spring to early fall when many countries set their clocks ahead of normal local time by one hour to give more daytime light in the evening. Select this option if you use Daylight Saving Time. Configure the day and time when Daylight Saving Time starts if you selected Enable Daylight Saving. The at fields uses the 24 hour format. For example:
Daylight Saving Time starts in most parts of the United States on the second Sunday of March. Each time zone in the United States starts using Daylight Saving Time at 2 A.M. local time. So in the United States you would select Second, Sunday, March and type 2 in the at field. In the European Union on the last Sunday of March. All of the time zones in the European Union start using Daylight Saving at the same time (1 A.M. GMT or UTC). Therefore you should select Last, Sunday, March. The time you type in the at field depends on your time zone. In Germany for instance, you will type 2 because Germanys time zone is one hour ahead of GMT or UTC (GMT +1). Configure the day and time when Daylight Saving Time starts if you selected Enable Daylight Saving. The at fields uses the 24 hour format. For example:
Daylight Saving Time starts in most parts of the United States on the second Sunday of March. Each time zone in the United States starts using Daylight Saving Time at 2 A.M. local time. So in the United States you would select First, Sunday, November and type 2 in the at field. In the European Union on the last Sunday of March. All of the time zones in the European Union start using Daylight Saving at the same time (1 A.M. GMT or UTC). Therefore you should select Last, Sunday, October. The time you type in the at field depends on your time zone. In Germany for instance, you will type 2 because Germanys time zone is one hour ahead of GMT or UTC (GMT +1). Click Apply to save your changes. Click Cancel to reload the previous configuration for this screen. Adjust for Daylight Saving Time Start Date End Date Apply Cancel 10.7 Firmware Upgrade Screen Use this screen to upload a firmware to your NWA. Click Maintenance > Firmware Upgrade. Follow the instructions in this section to upload firmware to your NWA. Figure 60 Maintenance > Firmware Upgrade NWA1000 Series Users Guide 113 Chapter 10 Maintenance The following table describes the labels in this screen. Table 37 Maintenance > Firmware Upgrade LABEL File Path DESCRIPTION Type in the location of the file you want to upload in this field or click Browse... to find it. Click Browse... to find the .bin file you want to upload. Remember that you must decompress compressed (.zip) files before you can upload them. Click Upload to begin the upload process. This process may take up to two minutes. Browse... Upload Do not turn off the NWA while firmware upload is in progress!
Figure 61 Firmware Upload In Process The NWA automatically restarts in this time causing a temporary network disconnect. In some operating systems, you may see the following icon on your desktop. Figure 62 Network Temporarily Disconnected After the upload was finished, log in again and check your new firmware version in the Dashboard screen. 10.8 Configuration File Screen Use this screen to backup, restore and reset the configuration of your NWA. 114 NWA1000 Series Users Guide Click Maintenance > Configuration File. The screen appears as shown next. Figure 63 Maintenance > Configuration File Chapter 10 Maintenance 10.8.1 Backup Configuration Backup configuration allows you to back up (save) the NWAs current configuration to a file on your computer. Once your NWA is configured and functioning properly, it is highly recommended that you back up your configuration file before making configuration changes. The backup configuration file will be useful in case you need to return to your previous settings. Click Backup to save the NWAs current configuration to your computer. 10.8.2 Restore Configuration Restore configuration allows you to upload a new or previously saved configuration file from your computer to your NWA. Table 38 Restore Configuration LABEL File Path Browse... Upload DESCRIPTION Type in the location of the file you want to upload in this field or click Browse to find it. Click Browse... to find the file you want to upload. Remember that you must decompress compressed (.ZIP) files before you can upload them. Click Upload to begin the upload process. Do not turn off the NWA while configuration file upload is in progress. You must then wait one minute before logging into the NWA again. NWA1000 Series Users Guide 115 Chapter 10 Maintenance The NWA automatically restarts in this time causing a temporary network disconnect. In some operating systems, you may see the following icon on your desktop. Figure 64 Network Temporarily Disconnected If you uploaded the default configuration file you may need to change the IP address of your computer to be in the same subnet as that of the default NWA IP address (192.168.1.2). See Appendix A on page 122 for details on how to set up your computers IP address. 10.8.3 Back to Factory Defaults Pressing the Reset button in this section clears all user-entered configuration information and returns the NWA to its factory defaults as shown on the screen. The following screen will appear. Figure 65 Reset Message You can also press the RESET button to reset your NWA to its factory default settings. Refer to Section 2.3 on page 20 for more information. 10.9 Restart Screen Use this screen to reboot the NWA without turning the power off. Click Maintenance > Restart. The following screen displays. Figure 66 Maintenance > Restart Click Restart to have the NWA reboot. This does not affect the NWA's configuration. 116 NWA1000 Series Users Guide CHAPTER 11 Troubleshooting This chapter offers some suggestions to solve problems you might encounter. The potential problems are divided into the following categories. Power, Hardware Connections, and LEDs NWA Access and Login Internet Access Wireless LAN 11.1 Power, Hardware Connections, and LEDs The NWA does not turn on. None of the LEDs turn on. 1 Make sure you are using the power adaptor or cord included with the NWA. 2 Make sure the power adaptor or cord is connected to the NWA and plugged in to an appropriate power source. Make sure the power source is turned on. 3 Disconnect and re-connect the power adaptor or cord to the NWA. 4 If the problem continues, contact the vendor. One of the LEDs does not behave as expected. 1 Make sure you understand the normal behavior of the LED. See Section 1.7 on page 16. 2 3 Check the hardware connections. See the Quick Start Guide. Inspect your cables for damage. Contact the vendor to replace any damaged cables. 4 Disconnect and re-connect the power adaptor to the NWA. 5 If the problem continues, contact the vendor. NWA1000 Series Users Guide 117 Chapter 11 Troubleshooting 11.2 NWA Access and Login I forgot the IP address for the NWA. 1 2 3 The default IP address is 192.168.1.2. If the NWA is working as a DHCP client and receives an IP address from a DHCP server, check the DHCP server for the NWAs IP address. If you configured a static IP address and have forgotten it, you have to reset the device to its factory defaults. See Section 2.3 on page 20. I forgot the password. 1 2 The default password is 1234. If this does not work, you have to reset the device to its factory defaults. See Section 2.3 on page 20. I cannot see or access the Login screen in the web configurator. 1 Make sure you are using the correct IP address. The default IP address is 192.168.1.2. If you changed the IP address (Section 7.6 on page 90), use the new IP address. If you changed the IP address and have forgotten it, see the troubleshooting suggestions for I forgot the IP address for the NWA. 2 Check the hardware connections, and make sure the LEDs are behaving as expected. See the Quick Start Guide and Section 1.7 on page 16. 3 Make sure your Internet browser does not block pop-up windows and has JavaScript and Java enabled. See Section 11.1 on page 117. 4 Make sure your computer is in the same subnet as the NWA. (If you know that there are routers between your computer and the NWA, skip this step.) If there is no DHCP server on your network, make sure your computers IP address is in the same subnet as the NWA. 5 6 118 Reset the device to its factory defaults, and try to access the NWA with the default IP address. See Chapter 2 on page 20. If the problem continues, contact the network administrator or vendor, or try one of the advanced suggestions. NWA1000 Series Users Guide Chapter 11 Troubleshooting Advanced Suggestions Try to access the NWA using another service, such as Telnet. If you can access the NWA, check the remote management settings to find out why the NWA does not respond to HTTP. If your computer is connected wirelessly, use a computer that is connected to a LAN/Ethernet port. I can see the Login screen, but I cannot log in to the NWA. 1 Make sure you have entered the user name and password correctly. The default user name is admin and default password is 1234. This fields are case-sensitive, so make sure [Caps Lock] is not on. 2 Disconnect and re-connect the power adaptor or cord to the NWA. 3 If this does not work, you have to reset the device to its factory defaults. See Section 2.3 on page 20. I cannot use FTP to upload new firmware. See the troubleshooting suggestions for I cannot see or access the Login screen in the web configurator. Ignore the suggestions about your browser. 11.3 Internet Access I cannot access the Internet through the NWA. 1 Check the hardware connections, and make sure the LEDs are behaving as expected. See the Quick Start Guide and Section 11.1 on page 117. 2 Make sure your NWA is connected to a networking device that provides Internet access. 3 Make sure your computer is set to obtain a dynamic IP address or has an IP address which is in the same subnet as the broadband modem or router. 4 If you are trying to access the Internet wirelessly, make sure the wireless settings on the wireless client are the same as the settings on the AP. 5 Disconnect all the cables from your device, and follow the directions in the Quick Start Guide again. 6 If the problem continues, contact your ISP. NWA1000 Series Users Guide 119 Chapter 11 Troubleshooting I cannot access the Internet anymore. I had access to the Internet (with the NWA), but my Internet connection is not available anymore. 1 2 3 Check the hardware connections, and make sure the LEDs are behaving as expected. See the Quick Start Guide and Section 1.7 on page 16. Reboot the NWA. If the problem continues, contact your ISP or network administrator. The Internet connection is slow or intermittent. 1 2 3 4 There might be a lot of traffic on the network. Look at the LEDs, and check Section 1.7 on page 16. If the NWA is sending or receiving a lot of information, try closing some programs that use the Internet, especially peer-to-peer applications. Check the signal strength. If the signal is weak, try moving the NWA (in wireless client mode) closer to the AP (if possible), and look around to see if there are any devices that might be interfering with the wireless network (microwaves, other wireless networks, and so on). Reboot the NWA. If the problem continues, contact the network administrator or vendor, or try one of the advanced suggestions. Advanced Suggestions Check the settings for QoS. If it is disabled, you might consider activating it. 11.4 Wireless LAN I cannot access the NWA or ping any computer from the WLAN. 1 Make sure the wireless LAN is enabled on the NWA. 2 Make sure the wireless adapter on the wireless station is working properly. 3 Make sure the wireless adapter installed on your computer is IEEE 802.11 compatible and supports the same wireless standard as the NWA. 4 Make sure your computer (with a wireless adapter installed) is within the transmission range of the NWA. 120 NWA1000 Series Users Guide 5 Check that both the NWA and your wireless client are using the same wireless and wireless security settings. Chapter 11 Troubleshooting NWA1000 Series Users Guide 121 APPENDIX A Setting Up Your Computers IP Address Note: Your specific NWA may not support all of the operating systems described in this appendix. See the product specifications for more information about which operating systems are supported. This appendix shows you how to configure the IP settings on your computer in order for it to be able to communicate with the other devices on your network. Windows Vista/XP/2000, Mac OS 9/
OS X, and all versions of UNIX/LINUX include the software components you need to use TCP/IP on your computer. If you manually assign IP information instead of using a dynamic IP, make sure that your networks computers have IP addresses that place them in the same subnet. In this appendix, you can set up an IP address for:
Windows XP/NT/2000 on page 122 Windows Vista on page 126 Windows 7 on page 130 Mac OS X: 10.3 and 10.4 on page 134 Mac OS X: 10.5 and 10.6 on page 137 Linux: Ubuntu 8 (GNOME) on page 140 Linux: openSUSE 10.3 (KDE) on page 144 Windows XP/NT/2000 The following example uses the default Windows XP display theme but can also apply to Windows 2000 and Windows NT. NWA1000 Series Users Guide 122 1 Click Start > Control Panel. Appendix A Setting Up Your Computers IP Address 2 In the Control Panel, click the Network Connections icon. 3 Right-click Local Area Connection and then select Properties. NWA1000 Series Users Guide 123 Appendix A Setting Up Your Computers IP Address 4 On the General tab, select Internet Protocol (TCP/IP) and then click Properties. 124 NWA1000 Series Users Guide 5 The Internet Protocol TCP/IP Properties window opens. Appendix A Setting Up Your Computers IP Address 6 7 8 Select Obtain an IP address automatically if your network administrator or ISP assigns your IP address dynamically. Select Use the following IP Address and fill in the IP address, Subnet mask, and Default gateway fields if you have a static IP address that was assigned to you by your network administrator or ISP. You may also have to enter a Preferred DNS server and an Alternate DNS server, if that information was provided. Click OK to close the Internet Protocol (TCP/IP) Properties window. Click OK to close the Local Area Connection Properties window. Verifying Settings 1 2 Click Start > All Programs > Accessories > Command Prompt. In the Command Prompt window, type "ipconfig" and then press [ENTER]. You can also go to Start > Control Panel > Network Connections, right-click a network connection, click Status and then click the Support tab to view your IP address and connection information. NWA1000 Series Users Guide 125 Appendix A Setting Up Your Computers IP Address Windows Vista This section shows screens from Windows Vista Professional. 1 Click Start > Control Panel. 2 In the Control Panel, click the Network and Internet icon. 3 Click the Network and Sharing Center icon. 126 NWA1000 Series Users Guide 4 Click Manage network connections. Appendix A Setting Up Your Computers IP Address 5 Right-click Local Area Connection and then select Properties. Note: During this procedure, click Continue whenever Windows displays a screen saying that it needs your permission to continue. NWA1000 Series Users Guide 127 Appendix A Setting Up Your Computers IP Address 6 Select Internet Protocol Version 4 (TCP/IPv4) and then select Properties. 128 NWA1000 Series Users Guide 7 The Internet Protocol Version 4 (TCP/IPv4) Properties window opens. Appendix A Setting Up Your Computers IP Address 8 Select Obtain an IP address automatically if your network administrator or ISP assigns your IP address dynamically. Select Use the following IP Address and fill in the IP address, Subnet mask, and Default gateway fields if you have a static IP address that was assigned to you by your network administrator or ISP. You may also have to enter a Preferred DNS server and an Alternate DNS server, if that information was provided.Click Advanced. 9 Click OK to close the Internet Protocol (TCP/IP) Properties window. 10 Click OK to close the Local Area Connection Properties window. Verifying Settings 1 2 Click Start > All Programs > Accessories > Command Prompt. In the Command Prompt window, type "ipconfig" and then press [ENTER]. You can also go to Start > Control Panel > Network Connections, right-click a network connection, click Status and then click the Support tab to view your IP address and connection information. NWA1000 Series Users Guide 129 Appendix A Setting Up Your Computers IP Address Windows 7 This section shows screens from Windows 7 Enterprise. 1 Click Start > Control Panel. 2 In the Control Panel, click View network status and tasks under the Network and Internet category. 3 Click Change adapter settings. 130 NWA1000 Series Users Guide 4 Double click Local Area Connection and then select Properties. Appendix A Setting Up Your Computers IP Address Note: During this procedure, click Continue whenever Windows displays a screen saying that it needs your permission to continue. NWA1000 Series Users Guide 131 Appendix A Setting Up Your Computers IP Address 5 Select Internet Protocol Version 4 (TCP/IPv4) and then select Properties. 132 NWA1000 Series Users Guide 6 The Internet Protocol Version 4 (TCP/IPv4) Properties window opens. Appendix A Setting Up Your Computers IP Address 7 8 9 Select Obtain an IP address automatically if your network administrator or ISP assigns your IP address dynamically. Select Use the following IP Address and fill in the IP address, Subnet mask, and Default gateway fields if you have a static IP address that was assigned to you by your network administrator or ISP. You may also have to enter a Preferred DNS server and an Alternate DNS server, if that information was provided. Click Advanced if you want to configure advanced settings for IP, DNS and WINS. Click OK to close the Internet Protocol (TCP/IP) Properties window. Click OK to close the Local Area Connection Properties window. Verifying Settings 1 2 Click Start > All Programs > Accessories > Command Prompt. In the Command Prompt window, type "ipconfig" and then press [ENTER]. NWA1000 Series Users Guide 133 Appendix A Setting Up Your Computers IP Address 3 The IP settings are displayed as follows. Mac OS X: 10.3 and 10.4 The screens in this section are from Mac OS X 10.4 but can also apply to 10.3. 1 Click Apple > System Preferences. 134 NWA1000 Series Users Guide 2 In the System Preferences window, click the Network icon. Appendix A Setting Up Your Computers IP Address 3 When the Network preferences pane opens, select Built-in Ethernet from the network connection type list, and then click Configure. NWA1000 Series Users Guide 135 Appendix A Setting Up Your Computers IP Address 4 For dynamically assigned settings, select Using DHCP from the Configure IPv4 list in the TCP/IP tab. 5 For statically assigned settings, do the following:
From the Configure IPv4 list, select Manually. In the IP Address field, type your IP address. In the Subnet Mask field, type your subnet mask. In the Router field, type the IP address of your device. 6 Click Apply Now and close the window. 136 NWA1000 Series Users Guide Appendix A Setting Up Your Computers IP Address Verifying Settings Check your TCP/IP properties by clicking Applications > Utilities > Network Utilities, and then selecting the appropriate Network Interface from the Info tab. Figure 67 Mac OS X 10.4: Network Utility Mac OS X: 10.5 and 10.6 The screens in this section are from Mac OS X 10.5 but can also apply to 10.6. 1 Click Apple > System Preferences. NWA1000 Series Users Guide 137 Appendix A Setting Up Your Computers IP Address 2 In System Preferences, click the Network icon. 3 When the Network preferences pane opens, select Ethernet from the list of available connection types. 4 5 138 From the Configure list, select Using DHCP for dynamically assigned settings. For statically assigned settings, do the following:
NWA1000 Series Users Guide Appendix A Setting Up Your Computers IP Address From the Configure list, select Manually. In the IP Address field, enter your IP address. In the Subnet Mask field, enter your subnet mask. In the Router field, enter the IP address of your NWA. 6 Click Apply and close the window. NWA1000 Series Users Guide 139 Appendix A Setting Up Your Computers IP Address Verifying Settings Check your TCP/IP properties by clicking Applications > Utilities > Network Utilities, and then selecting the appropriate Network interface from the Info tab. Figure 68 Mac OS X 10.5: Network Utility Linux: Ubuntu 8 (GNOME) This section shows you how to configure your computers TCP/IP settings in the GNU Object Model Environment (GNOME) using the Ubuntu 8 Linux distribution. The procedure, screens and file locations may vary depending on your specific distribution, release version, and individual configuration. The following screens use the default Ubuntu 8 installation. Note: Make sure you are logged in as the root administrator. Follow the steps below to configure your computer IP address in GNOME:
1 Click System > Administration > Network. 140 NWA1000 Series Users Guide Appendix A Setting Up Your Computers IP Address 2 When the Network Settings window opens, click Unlock to open the Authenticate window. (By default, the Unlock button is greyed out until clicked.) You cannot make changes to your configuration unless you first enter your admin password. 3 In the Authenticate window, enter your admin account name and password then click the Authenticate button. NWA1000 Series Users Guide 141 Appendix A Setting Up Your Computers IP Address 4 In the Network Settings window, select the connection that you want to configure, then click Properties. 5 The Properties dialog box opens. In the Configuration list, select Automatic Configuration (DHCP) if you have a dynamic IP address. In the Configuration list, select Static IP address if you have a static IP address. Fill in the IP address, Subnet mask, and Gateway address fields. 6 Click OK to save the changes and close the Properties dialog box and return to the Network Settings screen. 142 NWA1000 Series Users Guide Appendix A Setting Up Your Computers IP Address 7 If you know your DNS server IP address(es), click the DNS tab in the Network Settings window and then enter the DNS server information in the fields provided. 8 Click the Close button to apply the changes. NWA1000 Series Users Guide 143 Appendix A Setting Up Your Computers IP Address Verifying Settings Check your TCP/IP properties by clicking System > Administration > Network Tools, and then selecting the appropriate Network device from the Devices tab. The Interface Statistics column shows data if your connection is working properly. Figure 69 Ubuntu 8: Network Tools Linux: openSUSE 10.3 (KDE) This section shows you how to configure your computers TCP/IP settings in the K Desktop Environment (KDE) using the openSUSE 10.3 Linux distribution. The procedure, screens and file locations may vary depending on your specific distribution, release version, and individual configuration. The following screens use the default openSUSE 10.3 installation. Note: Make sure you are logged in as the root administrator. Follow the steps below to configure your computer IP address in the KDE:
144 NWA1000 Series Users Guide 1 Click K Menu > Computer > Administrator Settings (YaST). Appendix A Setting Up Your Computers IP Address 2 When the Run as Root - KDE su dialog opens, enter the admin password and click OK. NWA1000 Series Users Guide 145 Appendix A Setting Up Your Computers IP Address 3 When the YaST Control Center window opens, select Network Devices and then click the Network Card icon. 4 When the Network Settings window opens, click the Overview tab, select the appropriate connection Name from the list, and then click the Configure button. 146 NWA1000 Series Users Guide Appendix A Setting Up Your Computers IP Address 5 When the Network Card Setup window opens, click the Address tab Figure 70 openSUSE 10.3: Network Card Setup 6 7 Select Dynamic Address (DHCP) if you have a dynamic IP address. Select Statically assigned IP Address if you have a static IP address. Fill in the IP address, Subnet mask, and Hostname fields. Click Next to save the changes and close the Network Card Setup window. NWA1000 Series Users Guide 147 Appendix A Setting Up Your Computers IP Address 8 If you know your DNS server IP address(es), click the Hostname/DNS tab in Network Settings and then enter the DNS server information in the fields provided. 9 Click Finish to save your settings and close the window. Verifying Settings Click the KNetwork Manager icon on the Task bar to check your TCP/IP properties. From the Options sub-menu, select Show Connection Information. Figure 71 openSUSE 10.3: KNetwork Manager 148 NWA1000 Series Users Guide Appendix A Setting Up Your Computers IP Address When the Connection Status - KNetwork Manager window opens, click the Statistics tab to see if your connection is working properly. Figure 72 openSUSE: Connection Status - KNetwork Manager NWA1000 Series Users Guide 149 APPENDIX B Pop-up Windows, JavaScript and Java Permissions In order to use the web configurator you need to allow:
Web browser pop-up windows from your device. JavaScript (enabled by default). Java permissions (enabled by default). Note: The screens used below belong to Internet Explorer version 6, 7 and 8. Screens for other Internet Explorer versions may vary. Internet Explorer Pop-up Blockers You may have to disable pop-up blocking to log into your device. Either disable pop-up blocking (enabled by default in Windows XP SP (Service Pack) 2) or allow pop-up blocking and create an exception for your devices IP address. Disable Pop-up Blockers 1 In Internet Explorer, select Tools, Pop-up Blocker and then select Turn Off Pop-up Blocker. Figure 73 Pop-up Blocker You can also check if pop-up blocking is disabled in the Pop-up Blocker section in the Privacy tab. 1 In Internet Explorer, select Tools, Internet Options, Privacy. NWA1000 Series Users Guide 150 Appendix B Pop-up Windows, JavaScript and Java Permissions 2 Clear the Block pop-ups check box in the Pop-up Blocker section of the screen. This disables any web pop-up blockers you may have enabled. Figure 74 Internet Options: Privacy 3 Click Apply to save this setting. Enable Pop-up Blockers with Exceptions Alternatively, if you only want to allow pop-up windows from your device, see the following steps. 1 In Internet Explorer, select Tools, Internet Options and then the Privacy tab. NWA1000 Series Users Guide 151 Appendix B Pop-up Windows, JavaScript and Java Permissions 2 Select Settingsto open the Pop-up Blocker Settings screen. Figure 75 Internet Options: Privacy 3 Type the IP address of your device (the web page that you do not want to have blocked) with the prefix http://. For example, http://192.168.167.1. 152 NWA1000 Series Users Guide Appendix B Pop-up Windows, JavaScript and Java Permissions 4 Click Add to move the IP address to the list of Allowed sites. Figure 76 Pop-up Blocker Settings 5 6 Click Close to return to the Privacy screen. Click Apply to save this setting. JavaScript If pages of the web configurator do not display properly in Internet Explorer, check that JavaScript are allowed. NWA1000 Series Users Guide 153 Appendix B Pop-up Windows, JavaScript and Java Permissions 1 In Internet Explorer, click Tools, Internet Options and then the Security tab. Figure 77 Internet Options: Security 2 3 Click the Custom Level... button. Scroll down to Scripting. 4 Under Active scripting make sure that Enable is selected (the default). 5 Under Scripting of Java applets make sure that Enable is selected (the default). 154 NWA1000 Series Users Guide Appendix B Pop-up Windows, JavaScript and Java Permissions 6 Click OK to close the window. Figure 78 Security Settings - Java Scripting Java Permissions 1 2 3 From Internet Explorer, click Tools, Internet Options and then the Security tab. Click the Custom Level... button. Scroll down to Microsoft VM. 4 Under Java permissions make sure that a safety level is selected. NWA1000 Series Users Guide 155 Appendix B Pop-up Windows, JavaScript and Java Permissions 5 Click OK to close the window. Figure 79 Security Settings - Java JAVA (Sun) 1 From Internet Explorer, click Tools, Internet Options and then the Advanced tab. 2 Make sure that Use Java 2 for <applet> under Java (Sun) is selected. 156 NWA1000 Series Users Guide Appendix B Pop-up Windows, JavaScript and Java Permissions 3 Click OK to close the window. Figure 80 Java (Sun) Mozilla Firefox Mozilla Firefox 2.0 screens are used here. Screens for other versions may vary slightly. The steps below apply to Mozilla Firefox 3.0 as well. You can enable Java, Javascript and pop-ups in one screen. Click Tools, then click Options in the screen that appears. Figure 81 Mozilla Firefox: TOOLS > Options NWA1000 Series Users Guide 157 Appendix B Pop-up Windows, JavaScript and Java Permissions Click Content to show the screen below. Select the check boxes as shown in the following screen. Figure 82 Mozilla Firefox Content Security Opera Opera 10 screens are used here. Screens for other versions may vary slightly. 158 NWA1000 Series Users Guide Appendix B Pop-up Windows, JavaScript and Java Permissions Allowing Pop-Ups From Opera, click Tools, then Preferences. In the General tab, go to Choose how you prefer to handle pop-ups and select Open all pop-ups. Figure 83 Opera: Allowing Pop-Ups Enabling Java From Opera, click Tools, then Preferences. In the Advanced tab, select Content from the left-
side menu. Select the check boxes as shown in the following screen. Figure 84 Opera: Enabling Java NWA1000 Series Users Guide 159 Appendix B Pop-up Windows, JavaScript and Java Permissions To customize JavaScript behavior in the Opera browser, click JavaScript Options. Figure 85 Opera: JavaScript Options Select the items you want Operas JavaScript to apply. 160 NWA1000 Series Users Guide APPENDIX C IP Addresses and Subnetting This appendix introduces IP addresses and subnet masks. IP addresses identify individual devices on a network. Every networking device (including computers, servers, routers, printers, etc.) needs an IP address to communicate across the network. These networking devices are also known as hosts. Subnet masks determine the maximum number of possible hosts on a network. You can also use subnet masks to divide one network into multiple sub-networks. Introduction to IP Addresses One part of the IP address is the network number, and the other part is the host ID. In the same way that houses on a street share a common street name, the hosts on a network share a common network number. Similarly, as each house has its own house number, each host on the network has its own unique identifying number - the host ID. Routers use the network number to send packets to the correct network, while the host ID determines to which host on the network the packets are delivered. Structure An IP address is made up of four parts, written in dotted decimal notation (for example, 192.168.1.1). Each of these four parts is known as an octet. An octet is an eight-digit binary number (for example 11000000, which is 192 in decimal notation). Therefore, each octet has a possible range of 00000000 to 11111111 in binary, or 0 to 255 in decimal. NWA1000 Series Users Guide 161 Appendix C IP Addresses and Subnetting The following figure shows an example IP address in which the first three octets (192.168.1) are the network number, and the fourth octet (16) is the host ID. Figure 86 Network Number and Host ID How much of the IP address is the network number and how much is the host ID varies according to the subnet mask. Subnet Masks A subnet mask is used to determine which bits are part of the network number, and which bits are part of the host ID (using a logical AND operation). The term subnet is short for sub-network. A subnet mask has 32 bits. If a bit in the subnet mask is a 1 then the corresponding bit in the IP address is part of the network number. If a bit in the subnet mask is 0 then the corresponding bit in the IP address is part of the host ID. The following example shows a subnet mask identifying the network number (in bold text) and host ID of an IP address (192.168.1.2 in decimal). Table 39 Subnet Masks IP Address (Binary) Subnet Mask (Binary) Network Number Host ID 1ST OCTET:
(192) 11000000 11111111 11000000 2ND OCTET:
(168) 10101000 11111111 10101000 3RD OCTET:
(1) 00000001 11111111 00000001 4TH OCTET
(2) 00000010 00000000 00000010 By convention, subnet masks always consist of a continuous sequence of ones beginning from the leftmost bit of the mask, followed by a continuous sequence of zeros, for a total number of 32 bits. 162 NWA1000 Series Users Guide Appendix C IP Addresses and Subnetting Subnet masks can be referred to by the size of the network number part (the bits with a 1 value). For example, an 8-bit mask means that the first 8 bits of the mask are ones and the remaining 24 bits are zeroes. Subnet masks are expressed in dotted decimal notation just like IP addresses. The following examples show the binary and decimal notation for 8-bit, 16-bit, 24-bit and 29-bit subnet masks. Table 40 Subnet Masks BINARY 1ST OCTET 11111111 11111111 11111111 11111111 8-bit mask 16-bit mask 24-bit mask 29-bit mask 2ND OCTET 00000000 11111111 11111111 11111111 3RD OCTET 00000000 00000000 11111111 11111111 4TH OCTET 00000000 00000000 00000000 11111000 DECIMAL 255.0.0.0 255.255.0.0 255.255.255.0 255.255.255.248 Network Size The size of the network number determines the maximum number of possible hosts you can have on your network. The larger the number of network number bits, the smaller the number of remaining host ID bits. An IP address with host IDs of all zeros is the IP address of the network (192.168.1.0 with a 24-bit subnet mask, for example). An IP address with host IDs of all ones is the broadcast address for that network (192.168.1.255 with a 24-bit subnet mask, for example). As these two IP addresses cannot be used for individual hosts, calculate the maximum number of possible hosts in a network as follows:
Table 41 Maximum Host Numbers SUBNET MASK 8 bits 16 bits 24 bits 29 bits 255.0.0.0 255.255.0.0 255.255.255.0 255.255.255.24 8 HOST ID SIZE 24 bits 16 bits 8 bits 3 bits 224 2 216 2 28 2 23 2 MAXIMUM NUMBER OF HOSTS 16777214 65534 254 6 Notation Since the mask is always a continuous number of ones beginning from the left, followed by a continuous number of zeros for the remainder of the 32 bit mask, you can simply specify the number of ones instead of writing the value of each octet. This is usually specified by writing a /
followed by the number of bits in the mask after the address. For example, 192.1.1.0 /25 is equivalent to saying 192.1.1.0 with subnet mask 255.255.255.128. NWA1000 Series Users Guide 163 Appendix C IP Addresses and Subnetting The following table shows some possible subnet masks using both notations. Table 42 Alternative Subnet Mask Notation SUBNET MASK 255.255.255.0 255.255.255.128 255.255.255.192 255.255.255.224 255.255.255.240 255.255.255.248 255.255.255.252 ALTERNATIVE NOTATION
/24
/25
/26
/27
/28
/29
/30 LAST OCTET
(BINARY) 0000 0000 1000 0000 1100 0000 1110 0000 1111 0000 1111 1000 1111 1100 LAST OCTET
(DECIMAL) 0 128 192 224 240 248 252 Subnetting You can use subnetting to divide one network into multiple sub-networks. In the following example a network administrator creates two sub-networks to isolate a group of servers from the rest of the company network for security reasons. In this example, the company network address is 192.168.1.0. The first three octets of the address
(192.168.1) are the network number, and the remaining octet is the host ID, allowing a maximum of 28 2 or 254 possible hosts. The following figure shows the company network before subnetting. Figure 87 Subnetting Example: Before Subnetting You can borrow one of the host ID bits to divide the network 192.168.1.0 into two separate sub-
networks. The subnet mask is now 25 bits (255.255.255.128 or /25). The borrowed host ID bit can have a value of either 0 or 1, allowing two subnets; 192.168.1.0 /25 and 192.168.1.128 /25. 164 NWA1000 Series Users Guide Appendix C IP Addresses and Subnetting The following figure shows the company network after subnetting. There are now two sub-
networks, A and B. Figure 88 Subnetting Example: After Subnetting In a 25-bit subnet the host ID has 7 bits, so each sub-network has a maximum of 27 2 or 126 possible hosts (a host ID of all zeroes is the subnets address itself, all ones is the subnets broadcast address). 192.168.1.0 with mask 255.255.255.128 is subnet A itself, and 192.168.1.127 with mask 255.255.255.128 is its broadcast address. Therefore, the lowest IP address that can be assigned to an actual host for subnet A is 192.168.1.1 and the highest is 192.168.1.126. Similarly, the host ID range for subnet B is 192.168.1.129 to 192.168.1.254. Example: Four Subnets The previous example illustrated using a 25-bit subnet mask to divide a 24-bit address into two subnets. Similarly, to divide a 24-bit address into four subnets, you need to borrow two host ID bits to give four possible combinations (00, 01, 10 and 11). The subnet mask is 26 bits
(11111111.11111111.11111111.11000000) or 255.255.255.192. Each subnet contains 6 host ID bits, giving 26 - 2 or 62 hosts for each subnet (a host ID of all zeroes is the subnet itself, all ones is the subnets broadcast address). Table 43 Subnet 1 IP/SUBNET MASK NETWORK NUMBER IP Address (Decimal) IP Address (Binary) Subnet Mask (Binary) 192.168.1. 11000000.10101000.00000001. 11111111.11111111.11111111. LAST OCTET BIT VALUE 0 00000000 11000000 NWA1000 Series Users Guide 165 Appendix C IP Addresses and Subnetting Table 43 Subnet 1 (continued) IP/SUBNET MASK NETWORK NUMBER LAST OCTET BIT VALUE Subnet Address:
192.168.1.0 Broadcast Address:
192.168.1.63 Table 44 Subnet 2 Lowest Host ID: 192.168.1.1 Highest Host ID: 192.168.1.62 IP/SUBNET MASK NETWORK NUMBER IP Address IP Address (Binary) Subnet Mask (Binary) Subnet Address:
192.168.1.64 Broadcast Address:
192.168.1.127 Table 45 Subnet 3 192.168.1. 11000000.10101000.00000001. 11111111.11111111.11111111. Lowest Host ID: 192.168.1.65 Highest Host ID: 192.168.1.126 IP/SUBNET MASK NETWORK NUMBER IP Address IP Address (Binary) Subnet Mask (Binary) Subnet Address:
192.168.1.128 Broadcast Address:
192.168.1.191 Table 46 Subnet 4 192.168.1. 11000000.10101000.00000001. 11111111.11111111.11111111. Lowest Host ID: 192.168.1.129 Highest Host ID: 192.168.1.190 LAST OCTET BIT VALUE 64 01000000 11000000 LAST OCTET BIT VALUE 128 10000000 11000000 IP/SUBNET MASK NETWORK NUMBER IP Address IP Address (Binary) Subnet Mask (Binary) Subnet Address:
192.168.1.192 Broadcast Address:
192.168.1.255 192.168.1. 11000000.10101000.00000001. 11111111.11111111.11111111. Lowest Host ID: 192.168.1.193 Highest Host ID: 192.168.1.254 LAST OCTET BIT VALUE 192 11000000 11000000 Example: Eight Subnets Similarly, use a 27-bit mask to create eight subnets (000, 001, 010, 011, 100, 101, 110 and 111). 166 NWA1000 Series Users Guide The following table shows IP address last octet values for each subnet. Appendix C IP Addresses and Subnetting SUBNET Table 47 Eight Subnets SUBNET ADDRESS 0 32 64 96 128 160 192 224 1 2 3 4 5 6 7 8 FIRST ADDRESS 1 33 65 97 129 161 193 225 LAST ADDRESS 30 62 94 126 158 190 222 254 BROADCAST ADDRESS 31 63 95 127 159 191 223 255 Subnet Planning The following table is a summary for subnet planning on a network with a 24-bit network number. SUBNET MASK Table 48 24-bit Network Number Subnet Planning NO. BORROWED HOST BITS 1 2 3 4 5 6 7 255.255.255.128 (/25) 255.255.255.192 (/26) 255.255.255.224 (/27) 255.255.255.240 (/28) 255.255.255.248 (/29) 255.255.255.252 (/30) 255.255.255.254 (/31) NO. SUBNETS 2 4 8 16 32 64 128 NO. HOSTS PER SUBNET 126 62 30 14 6 2 1 The following table is a summary for subnet planning on a network with a 16-bit network number. SUBNET MASK Table 49 16-bit Network Number Subnet Planning NO. BORROWED HOST BITS 1 2 3 4 5 6 7 8 9 10 11 12 255.255.128.0 (/17) 255.255.192.0 (/18) 255.255.224.0 (/19) 255.255.240.0 (/20) 255.255.248.0 (/21) 255.255.252.0 (/22) 255.255.254.0 (/23) 255.255.255.0 (/24) 255.255.255.128 (/25) 255.255.255.192 (/26) 255.255.255.224 (/27) 255.255.255.240 (/28) NO. SUBNETS 2 4 8 16 32 64 128 256 512 1024 2048 4096 NO. HOSTS PER SUBNET 32766 16382 8190 4094 2046 1022 510 254 126 62 30 14 NWA1000 Series Users Guide 167 Appendix C IP Addresses and Subnetting Table 49 16-bit Network Number Subnet Planning (continued) NO. BORROWED HOST BITS 13 14 15 255.255.255.248 (/29) 255.255.255.252 (/30) 255.255.255.254 (/31) 8192 16384 32768 SUBNET MASK NO. SUBNETS NO. HOSTS PER SUBNET 6 2 1 Configuring IP Addresses Where you obtain your network number depends on your particular situation. If the ISP or your network administrator assigns you a block of registered IP addresses, follow their instructions in selecting the IP addresses and the subnet mask. If the ISP did not explicitly give you an IP network number, then most likely you have a single user account and the ISP will assign you a dynamic IP address when the connection is established. If this is the case, it is recommended that you select a network number from 192.168.0.0 to 192.168.255.0. The Internet Assigned Number Authority (IANA) reserved this block of addresses specifically for private use; please do not use any other number unless you are told otherwise. You must also enable Network Address Translation (NAT) on the NWA. Once you have decided on the network number, pick an IP address for your NWA that is easy to remember (for instance, 192.168.1.1) but make sure that no other device on your network is using that IP address. The subnet mask specifies the network number portion of an IP address. Your NWA will compute the subnet mask automatically based on the IP address that you entered. You don't need to change the subnet mask computed by the NWA unless you are instructed to do otherwise. Private IP Addresses Every machine on the Internet must have a unique address. If your networks are isolated from the Internet (running only between two branch offices, for example) you can assign any IP addresses to the hosts without problems. However, the Internet Assigned Numbers Authority (IANA) has reserved the following three blocks of IP addresses specifically for private networks:
10.0.0.0 10.255.255.255 172.16.0.0 172.31.255.255 192.168.0.0 192.168.255.255 You can obtain your IP address from the IANA, from an ISP, or it can be assigned from a private network. If you belong to a small organization and your Internet access is through an ISP, the ISP can provide you with the Internet addresses for your local networks. On the other hand, if you are part of a much larger organization, you should consult your network administrator for the appropriate IP addresses. Regardless of your particular situation, do not create an arbitrary IP address; always follow the guidelines above. For more information on address assignment, please refer to RFC 1597, Address Allocation for Private Internets and RFC 1466, Guidelines for Management of IP Address Space. 168 NWA1000 Series Users Guide APPENDIX D IPv6 Overview IPv6 (Internet Protocol version 6), is designed to enhance IP address size and features. The increase in IPv6 address size to 128 bits (from the 32-bit IPv4 address) allows up to 3.4 x 1038 IP addresses. IPv6 Addressing The 128-bit IPv6 address is written as eight 16-bit hexadecimal blocks separated by colons (:). This is an example IPv6 address 2001:0db8:1a2b:0015:0000:0000:1a2f:0000. IPv6 addresses can be abbreviated in two ways:
Leading zeros in a block can be omitted. So 2001:0db8:1a2b:0015:0000:0000:1a2f:0000 can be written as 2001:db8:1a2b:15:0:0:1a2f:0. Any number of consecutive blocks of zeros can be replaced by a double colon. A double colon can only appear once in an IPv6 address. So 2001:0db8:0000:0000:1a2f:0000:0000:0015 can be written as 2001:0db8::1a2f:0000:0000:0015, 2001:0db8:0000:0000:1a2f::0015, 2001:db8::1a2f:0:0:15 or 2001:db8:0:0:1a2f::15. Prefix and Prefix Length Similar to an IPv4 subnet mask, IPv6 uses an address prefix to represent the network address. An IPv6 prefix length specifies how many most significant bits (start from the left) in the address compose the network address. The prefix length is written as /x where x is a number. For example, 2001:db8:1a2b:15::1a2f:0/32 means that the first 32 bits (2001:db8) is the subnet prefix. Link-local Address A link-local address uniquely identifies a device on the local network (the LAN). It is similar to a private IP address in IPv4. You can have the same link-local address on multiple interfaces on a device. A link-local unicast address has a predefined prefix of fe80::/10. The link-local unicast address format is as follows. Table 50 Link-local Unicast Address Format 1111 1110 10 10 bits 0 54 bits Interface ID 64 bits NWA1000 Series Users Guide 169 Appendix D IPv6 Global Address A global address uniquely identifies a device on the Internet. It is similar to a public IP address in IPv4. A global unicast address starts with a 2 or 3. Unspecified Address An unspecified address (0:0:0:0:0:0:0:0 or ::) is used as the source address when a device does not have its own address. It is similar to 0.0.0.0 in IPv4. Loopback Address A loopback address (0:0:0:0:0:0:0:1 or ::1) allows a host to send packets to itself. It is similar to 127.0.0.1 in IPv4. Multicast Address In IPv6, multicast addresses provide the same functionality as IPv4 broadcast addresses. Broadcasting is not supported in IPv6. A multicast address allows a host to send packets to all hosts in a multicast group. Multicast scope allows you to determine the size of the multicast group. A multicast address has a predefined prefix of ff00::/8. The following table describes some of the predefined multicast addresses. Table 51 Predefined Multicast Address MULTICAST ADDRESS FF01:0:0:0:0:0:0:1 FF01:0:0:0:0:0:0:2 FF02:0:0:0:0:0:0:1 FF02:0:0:0:0:0:0:2 FF05:0:0:0:0:0:0:2 FF05:0:0:0:0:0:1:3 DESCRIPTION All hosts on a local node. All routers on a local node. All hosts on a local connected link. All routers on a local connected link. All routers on a local site. All DHCP severs on a local site. The following table describes the multicast addresses which are reserved and can not be assigned to a multicast group. Table 52 Reserved Multicast Address MULTICAST ADDRESS FF00:0:0:0:0:0:0:0 FF01:0:0:0:0:0:0:0 FF02:0:0:0:0:0:0:0 FF03:0:0:0:0:0:0:0 FF04:0:0:0:0:0:0:0 FF05:0:0:0:0:0:0:0 FF06:0:0:0:0:0:0:0 FF07:0:0:0:0:0:0:0 FF08:0:0:0:0:0:0:0 FF09:0:0:0:0:0:0:0 170 NWA1000 Series Users Guide Appendix D IPv6 Table 52 Reserved Multicast Address (continued) MULTICAST ADDRESS FF0A:0:0:0:0:0:0:0 FF0B:0:0:0:0:0:0:0 FF0C:0:0:0:0:0:0:0 FF0D:0:0:0:0:0:0:0 FF0E:0:0:0:0:0:0:0 FF0F:0:0:0:0:0:0:0 Subnet Masking Both an IPv6 address and IPv6 subnet mask compose of 128-bit binary digits, which are divided into eight 16-bit blocks and written in hexadecimal notation. Hexadecimal uses four bits for each character (1 ~ 10, A ~ F). Each blocks 16 bits are then represented by four hexadecimal characters. For example, FFFF:FFFF:FFFF:FFFF:FC00:0000:0000:0000. Interface ID In IPv6, an interface ID is a 64-bit identifier. It identifies a physical interface (for example, an Ethernet port) or a virtual interface (for example, the management IP address for a VLAN). One interface should have a unique interface ID. EUI-64 The EUI-64 (Extended Unique Identifier) defined by the IEEE (Institute of Electrical and Electronics Engineers) is an interface ID format designed to adapt with IPv6. It is derived from the 48-bit (6-
byte) Ethernet MAC address as shown next. EUI-64 inserts the hex digits fffe between the third and fourth bytes of the MAC address and complements the seventh bit of the first byte of the MAC address. See the following example. Table 53 MAC Table 54 EUI-64 00 : 13
: 49
: 12
: 34
: 56 02 : 13
: 49
: FF
: FE
: 12
: 34
: 56 Stateless Autoconfiguration With stateless autoconfiguration in IPv6, addresses can be uniquely and automatically generated. Unlike DHCPv6 (Dynamic Host Configuration Protocol version six) which is used in IPv6 stateful autoconfiguration, the owner and status of addresses dont need to be maintained by a DHCP server. Every IPv6 device is able to generate its own and unique IP address automatically when IPv6 is initiated on its interface. It combines the prefix and the interface ID (generated from its own Ethernet MAC address, see Interface ID and EUI-64) to form a complete IPv6 address. When IPv6 is enabled on a device, its interface automatically generates a link-local address
(beginning with fe80). When the interface is connected to a network with a router and the NWA is set to automatically obtain an IPv6 network prefix from the router for the interface, it generates 1another address which NWA1000 Series Users Guide 171 Appendix D IPv6 combines its interface ID and global and subnet information advertised from the router. This is a routable global IP address. DHCPv6 The Dynamic Host Configuration Protocol for IPv6 (DHCPv6, RFC 3315) is a server-client protocol that allows a DHCP server to assign and pass IPv6 network addresses, prefixes and other configuration information to DHCP clients. DHCPv6 servers and clients exchange DHCP messages using UDP. Each DHCP client and server has a unique DHCP Unique IDentifier (DUID), which is used for identification when they are exchanging DHCPv6 messages. The DUID is generated from the MAC address, time, vendor assigned ID and/or the vendor's private enterprise number registered with the IANA. It should not change over time even after you reboot the device. Identity Association An Identity Association (IA) is a collection of addresses assigned to a DHCP client, through which the server and client can manage a set of related IP addresses. Each IA must be associated with exactly one interface. The DHCP client uses the IA assigned to an interface to obtain configuration from a DHCP server for that interface. Each IA consists of a unique IAID and associated IP information. The IA type is the type of address in the IA. Each IA holds one type of address. IA_NA means an identity association for non-temporary addresses and IA_TA is an identity association for temporary addresses. An IA_NA option contains the T1 and T2 fields, but an IA_TA option does not. The DHCPv6 server uses T1 and T2 to control the time at which the client contacts with the server to extend the lifetimes on any addresses in the IA_NA before the lifetimes expire. After T1, the client sends the server (S1) (from which the addresses in the IA_NA were obtained) a Renew message. If the time T2 is reached and the server does not respond, the client sends a Rebind message to any available server (S2). For an IA_TA, the client may send a Renew or Rebind message at the client's discretion. T1 T2 Renew to S1 Renew to S1 Renew to S1 Renew to S1 Renew to S1 Renew to S1 Rebind to S2 Rebind to S2 DHCP Relay Agent A DHCP relay agent is on the same network as the DHCP clients and helps forward messages between the DHCP server and clients. When a client cannot use its link-local address and a well-
known multicast address to locate a DHCP server on its network, it then needs a DHCP relay agent to send a message to a DHCP server that is not attached to the same network. The DHCP relay agent can add the remote identification (remote-ID) option and the interface-ID option to the Relay-Forward DHCPv6 messages. The remote-ID option carries a user-defined string, 1. In IPv6, all network interfaces can be associated with several addresses. 172 NWA1000 Series Users Guide Appendix D IPv6 such as the system name. The interface-ID option provides slot number, port information and the VLAN ID to the DHCPv6 server. The remote-ID option (if any) is stripped from the Relay-Reply messages before the relay agent sends the packets to the clients. The DHCP server copies the interface-ID option from the Relay-Forward message into the Relay-Reply message and sends it to the relay agent. The interface-ID should not change even after the relay agent restarts. Prefix Delegation Prefix delegation enables an IPv6 router to use the IPv6 prefix (network address) received from the ISP (or a connected uplink router) for its LAN. The NWA uses the received IPv6 prefix (for example, 2001:db2::/48) to generate its LAN IP address. Through sending Router Advertisements (RAs) regularly by multicast, the NWA passes the IPv6 prefix information to its LAN hosts. The hosts then can use the prefix to generate their IPv6 addresses. ICMPv6 Internet Control Message Protocol for IPv6 (ICMPv6 or ICMP for IPv6) is defined in RFC 4443. ICMPv6 has a preceding Next Header value of 58, which is different from the value used to identify ICMP for IPv4. ICMPv6 is an integral part of IPv6. IPv6 nodes use ICMPv6 to report errors encountered in packet processing and perform other diagnostic functions, such as "ping". Neighbor Discovery Protocol (NDP) The Neighbor Discovery Protocol (NDP) is a protocol used to discover other IPv6 devices and track neighbors reachability in a network. An IPv6 device uses the following ICMPv6 messages types:
Neighbor solicitation: A request from a host to determine a neighbors link-layer address (MAC address) and detect if the neighbor is still reachable. A neighbor being reachable means it responds to a neighbor solicitation message (from the host) with a neighbor advertisement message. Neighbor advertisement: A response from a node to announce its link-layer address. Router solicitation: A request from a host to locate a router that can act as the default router and forward packets. Router advertisement: A response to a router solicitation or a periodical multicast advertisement from a router to advertise its presence and other parameters. IPv6 Cache An IPv6 host is required to have a neighbor cache, destination cache, prefix list and default router list. The NWA maintains and updates its IPv6 caches constantly using the information from response messages. In IPv6, the NWA configures a link-local address automatically, and then sends a neighbor solicitation message to check if the address is unique. If there is an address to be resolved or verified, the NWA also sends out a neighbor solicitation message. When the NWA receives a neighbor advertisement in response, it stores the neighbors link-layer address in the neighbor cache. When the NWA uses a router solicitation message to query for a router and receives a router advertisement message, it adds the routers information to the neighbor cache, prefix list and destination cache. The NWA creates an entry in the default router list cache if the router can be used as a default router. When the NWA needs to send a packet, it first consults the destination cache to determine the next hop. If there is no matching entry in the destination cache, the NWA uses the prefix list to NWA1000 Series Users Guide 173 Appendix D IPv6 determine whether the destination address is on-link and can be reached directly without passing through a router. If the address is onlink, the address is considered as the next hop. Otherwise, the NWA determines the next-hop from the default router list or routing table. Once the next hop IP address is known, the NWA looks into the neighbor cache to get the link-layer address and sends the packet when the neighbor is reachable. If the NWA cannot find an entry in the neighbor cache or the state for the neighbor is not reachable, it starts the address resolution process. This helps reduce the number of IPv6 solicitation and advertisement messages. Multicast Listener Discovery The Multicast Listener Discovery (MLD) protocol (defined in RFC 2710) is derived from IPv4's Internet Group Management Protocol version 2 (IGMPv2). MLD uses ICMPv6 message types, rather than IGMP message types. MLDv1 is equivalent to IGMPv2 and MLDv2 is equivalent to IGMPv3. MLD allows an IPv6 switch or router to discover the presence of MLD listeners who wish to receive multicast packets and the IP addresses of multicast groups the hosts want to join on its network. MLD snooping and MLD proxy are analogous to IGMP snooping and IGMP proxy in IPv4. MLD filtering controls which multicast groups a port can join. MLD Messages A multicast router or switch periodically sends general queries to MLD hosts to update the multicast forwarding table. When an MLD host wants to join a multicast group, it sends an MLD Report message for that address. An MLD Done message is equivalent to an IGMP Leave message. When an MLD host wants to leave a multicast group, it can send a Done message to the router or switch. The router or switch then sends a group-specific query to the port on which the Done message is received to determine if other devices connected to this port should remain in the group. 174 NWA1000 Series Users Guide Example - Enabling IPv6 on Windows XP/2003/Vista By default, Windows XP and Windows 2003 support IPv6. This example shows you how to use the ipv6 install command on Windows XP/2003 to enable IPv6. This also displays how to use the ipconfig command to see auto-generated IP addresses. Appendix D IPv6 C:\>ipv6 install Installing... Succeeded. C:\>ipconfig Windows IP Configuration Ethernet adapter Local Area Connection:
Connection-specific DNS Suffix . :
IP Address. : 10.1.1.46 Subnet Mask . : 255.255.255.0 IP Address. : fe80::2d0:59ff:feb8:103c%4 Default Gateway . : 10.1.1.254 IPv6 is installed and enabled by default in Windows Vista. Use the ipconfig command to check your automatic configured IPv6 address as well. You should see at least one IPv6 address available for the interface on your computer. Example - Enabling DHCPv6 on Windows XP Windows XP does not support DHCPv6. If your network uses DHCPv6 for IP address assignment, you have to additionally install a DHCPv6 client software on your Windows XP. (Note: If you use static IP addresses or Router Advertisement for IPv6 address assignment in your network, ignore this section.) This example uses Dibbler as the DHCPv6 client. To enable DHCPv6 client on your computer:
1 2 3 Install Dibbler and select the DHCPv6 client option on your computer. After the installation is complete, select Start > All Programs > Dibbler-DHCPv6 > Client Install as service. Select Start > Control Panel > Administrative Tools > Services. 4 Double click Dibbler - a DHCPv6 client. NWA1000 Series Users Guide 175 Appendix D IPv6 5 Click Start and then OK. 6 Now your computer can obtain an IPv6 address from a DHCPv6 server. Example - Enabling IPv6 on Windows 7 Windows 7 supports IPv6 by default. DHCPv6 is also enabled when you enable IPv6 on a Windows 7 computer. To enable IPv6 in Windows 7:
Select Control Panel > Network and Sharing Center > Local Area Connection. Select the Internet Protocol Version 6 (TCP/IPv6) checkbox to enable it. Click OK to save the change. NWA1000 Series Users Guide 1 2 3 176 Appendix D IPv6 4 5 Click Close to exit the Local Area Connection Status screen. Select Start > All Programs > Accessories > Command Prompt. 6 Use the ipconfig command to check your dynamic IPv6 address. This example shows a global address (2001:b021:2d::1000) obtained from a DHCP server. C:\>ipconfig Windows IP Configuration Ethernet adapter Local Area Connection:
Connection-specific DNS Suffix . :
IPv6 Address. : 2001:b021:2d::1000 Link-local IPv6 Address . : fe80::25d8:dcab:c80a:5189%11 IPv4 Address. : 172.16.100.61 Subnet Mask . : 255.255.255.0 Default Gateway . : fe80::213:49ff:feaa:7125%11 172.16.100.254 NWA1000 Series Users Guide 177 APPENDIX E Wireless LANs Wireless LAN Topologies This section discusses ad-hoc and infrastructure wireless LAN topologies. Ad-hoc Wireless LAN Configuration The simplest WLAN configuration is an independent (Ad-hoc) WLAN that connects a set of computers with wireless adapters (A, B, C). Any time two or more wireless adapters are within range of each other, they can set up an independent network, which is commonly referred to as an ad-hoc network or Independent Basic Service Set (IBSS). The following diagram shows an example of notebook computers using wireless adapters to form an ad-hoc wireless LAN. Figure 89 Peer-to-Peer Communication in an Ad-hoc Network BSS A Basic Service Set (BSS) exists when all communications between wireless clients or between a wireless client and a wired network client go through one access point (AP). Intra-BSS traffic is traffic between wireless clients in the BSS. When Intra-BSS is enabled, wireless client A and B can access the wired network and communicate with each other. When Intra-BSS is NWA1000 Series Users Guide 178 disabled, wireless client A and B can still access the wired network but cannot communicate with each other. Figure 90 Basic Service Set Appendix E Wireless LANs ESS An Extended Service Set (ESS) consists of a series of overlapping BSSs, each containing an access point, with each access point connected together by a wired network. This wired connection between APs is called a Distribution System (DS). This type of wireless LAN topology is called an Infrastructure WLAN. The Access Points not only provide communication with the wired network but also mediate wireless network traffic in the immediate neighborhood. NWA1000 Series Users Guide 179 Appendix E Wireless LANs An ESSID (ESS IDentification) uniquely identifies each ESS. All access points and their associated wireless clients within the same ESS must have the same ESSID in order to communicate. Figure 91 Infrastructure WLAN Channel RTS/CTS A channel is the radio frequency(ies) used by wireless devices to transmit and receive data. Channels available depend on your geographical area. You may have a choice of channels (for your region) so you should use a channel different from an adjacent AP (access point) to reduce interference. Interference occurs when radio signals from different access points overlap causing interference and degrading performance. Adjacent channels partially overlap however. To avoid interference due to overlap, your AP should be on a channel at least five channels away from a channel that an adjacent AP is using. For example, if your region has 11 channels and an adjacent AP is using channel 1, then you need to select a channel between 6 or 11. A hidden node occurs when two stations are within range of the same access point, but are not within range of each other. The following figure illustrates a hidden node. Both stations (STA) are within range of the access point (AP) or wireless gateway, but out-of-range of each other, so they 180 NWA1000 Series Users Guide cannot "hear" each other, that is they do not know if the channel is currently being used. Therefore, they are considered hidden from each other. Figure 92 RTS/CTS Appendix E Wireless LANs When station A sends data to the AP, it might not know that the station B is already using the channel. If these two stations send data at the same time, collisions may occur when both sets of data arrive at the AP at the same time, resulting in a loss of messages for both stations. RTS/CTS is designed to prevent collisions due to hidden nodes. An RTS/CTS defines the biggest size data frame you can send before an RTS (Request To Send)/CTS (Clear to Send) handshake is invoked. When a data frame exceeds the RTS/CTS value you set (between 0 to 2432 bytes), the station that wants to transmit this frame must first send an RTS (Request To Send) message to the AP for permission to send it. The AP then responds with a CTS (Clear to Send) message to all other stations within its range to notify them to defer their transmission. It also reserves and confirms with the requesting station the time frame for the requested transmission. Stations can send frames smaller than the specified RTS/CTS directly to the AP without the RTS
(Request To Send)/CTS (Clear to Send) handshake. You should only configure RTS/CTS if the possibility of hidden nodes exists on your network and the "cost" of resending large frames is more than the extra network overhead involved in the RTS
(Request To Send)/CTS (Clear to Send) handshake. Note: Enabling the RTS Threshold causes redundant network overhead that could negatively affect the throughput performance instead of providing a remedy. Preamble Type Preamble is used to signal that data is coming to the receiver. Short and long refer to the length of the synchronization field in a packet. Short preamble increases performance as less time sending preamble means more time for sending data. All IEEE 802.11 compliant wireless adapters support long preamble, but not all support short preamble. Use long preamble if you are unsure what preamble mode other wireless devices on the network support, and to provide more reliable communications in busy wireless networks. NWA1000 Series Users Guide 181 Appendix E Wireless LANs Use short preamble if you are sure all wireless devices on the network support it, and to provide more efficient communications. Use the dynamic setting to automatically use short preamble when all wireless devices on the network support it, otherwise the NWA uses long preamble. Note: The wireless devices MUST use the same preamble mode in order to communicate. Wireless LAN Standards The IEEE 802.11b wireless access standard was first published in 1999. IEEE 802.11b has a maximum data rate of 11 Mbps and uses the 2.4 GHz band. IEEE 802.11g also works in the 2.4 GHz band and is fully compatible with the IEEE 802.11b standard. This means an IEEE 802.11b adapter can interface directly with an IEEE 802.11g access point (and vice versa) at 11 Mbps or lower depending on range. IEEE 802.11g has several intermediate rate steps between the maximum and minimum data rates (54 Mbps and 1 Mbps respectively). IEEE 802.11a has a data rate of up to 54 Mbps using the 5 GHz band. IEEE 802.11a is not interoperable with IEEE 802.11b or IEEE 802.11g. IEEE 802.11n can operate both in the 2.4 GHz and 5 GHz bands and is backward compatible with the IEEE 802.11a, IEEE 802.11b, and IEEE 802.11g standards. It improves network throughput and increases the maximum raw data rate from 54 Mbps to 300 Mbps by using multiple-input multiple-
output (MIMO), a channel width of 40 MHz, frame aggregation and short guard interval. Table 55 Wireless LAN Standards Comparison Table WIRELESS LAN STANDARD MAXIMUM NET DATA RATE FREQUENCY BAND IEEE 802.11b IEEE 802.11g IEEE 802.11a IEEE 802.11n 11 Mbps 54 Mbps 54 Mbps 2.4 GHz 2.4 GHz 5 GHz 300 Mbps 2.4 GHz, 5 GHz COMPATIBILITY IEEE 802.11g IEEE 802.11n IEEE 802.11b IEEE 802.11n IEEE 802.11n IEEE 802.11b IEEE 802.11g IEEE 802.11a Wireless Security Overview Wireless security is vital to your network to protect wireless communication between wireless clients, access points and the wired network. Wireless security methods available on the NWA are data encryption, wireless client authentication, restricting access by device MAC address and hiding the NWA identity. 182 NWA1000 Series Users Guide The following figure shows the relative effectiveness of these wireless security methods available on your NWA. Appendix E Wireless LANs Table 56 Wireless Security Levels SECURITY LEVEL Least Secure SECURITY TYPE Unique SSID (Default) Unique SSID with Hide SSID Enabled MAC Address Filtering WEP Encryption IEEE802.1x EAP with RADIUS Server Authentication Most Secure WPA2 Note: You must enable the same wireless security settings on the NWA and on all wireless clients that you want to associate with it. IEEE 802.1x In June 2001, the IEEE 802.1x standard was designed to extend the features of IEEE 802.11 to support extended authentication as well as providing additional accounting and control features. It is supported by Windows XP and a number of network devices. Some advantages of IEEE 802.1x are:
User based identification that allows for roaming. Support for RADIUS (Remote Authentication Dial In User Service, RFC 2138, 2139) for centralized user profile and accounting management on a network RADIUS server. Support for EAP (Extensible Authentication Protocol, RFC 2486) that allows additional authentication methods to be deployed with no changes to the access point or the wireless clients. RADIUS RADIUS is based on a client-server model that supports authentication, authorization and accounting. The access point is the client and the server is the RADIUS server. The RADIUS server handles the following tasks:
Authentication Determines the identity of the users. Authorization Determines the network services available to authenticated users once they are connected to the network. Accounting Keeps track of the clients network activity. RADIUS is a simple package exchange in which your AP acts as a message relay between the wireless client and the network RADIUS server. NWA1000 Series Users Guide 183 Appendix E Wireless LANs Types of RADIUS Messages The following types of RADIUS messages are exchanged between the access point and the RADIUS server for user authentication:
Access-Request Sent by an access point requesting authentication. Access-Reject Sent by a RADIUS server rejecting access. Access-Accept Sent by a RADIUS server allowing access. Access-Challenge Sent by a RADIUS server requesting more information in order to allow access. The access point sends a proper response from the user and then sends another Access-Request message. The following types of RADIUS messages are exchanged between the access point and the RADIUS server for user accounting:
Accounting-Request Sent by the access point requesting accounting. Accounting-Response Sent by the RADIUS server to indicate that it has started or stopped accounting. In order to ensure network security, the access point and the RADIUS server use a shared secret key, which is a password, they both know. The key is not sent over the network. In addition to the shared key, password information exchanged is also encrypted to protect the network from unauthorized access. Types of EAP Authentication This section discusses some popular authentication types: EAP-MD5, EAP-TLS, EAP-TTLS, PEAP and LEAP. Your wireless LAN device may not support all authentication types. EAP (Extensible Authentication Protocol) is an authentication protocol that runs on top of the IEEE 802.1x transport mechanism in order to support multiple types of user authentication. By using EAP to interact with an EAP-compatible RADIUS server, an access point helps a wireless station and a RADIUS server perform authentication. The type of authentication you use depends on the RADIUS server and an intermediary AP(s) that supports IEEE 802.1x. For EAP-TLS authentication type, you must first have a wired connection to the network and obtain the certificate(s) from a certificate authority (CA). A certificate (also called digital IDs) can be used to authenticate users and a CA issues certificates and guarantees the identity of each certificate owner. EAP-MD5 (Message-Digest Algorithm 5) MD5 authentication is the simplest one-way authentication method. The authentication server sends a challenge to the wireless client. The wireless client proves that it knows the password by 184 NWA1000 Series Users Guide Appendix E Wireless LANs encrypting the password with the challenge and sends back the information. Password is not sent in plain text. However, MD5 authentication has some weaknesses. Since the authentication server needs to get the plaintext passwords, the passwords must be stored. Thus someone other than the authentication server may access the password file. In addition, it is possible to impersonate an authentication server as MD5 authentication method does not perform mutual authentication. Finally, MD5 authentication method does not support data encryption with dynamic session key. You must configure WEP encryption keys for data encryption. EAP-TLS (Transport Layer Security) With EAP-TLS, digital certifications are needed by both the server and the wireless clients for mutual authentication. The server presents a certificate to the client. After validating the identity of the server, the client sends a different certificate to the server. The exchange of certificates is done in the open before a secured tunnel is created. This makes user identity vulnerable to passive attacks. A digital certificate is an electronic ID card that authenticates the senders identity. However, to implement EAP-TLS, you need a Certificate Authority (CA) to handle certificates, which imposes a management overhead. EAP-TTLS (Tunneled Transport Layer Service) EAP-TTLS is an extension of the EAP-TLS authentication that uses certificates for only the server-
side authentications to establish a secure connection. Client authentication is then done by sending username and password through the secure connection, thus client identity is protected. For client authentication, EAP-TTLS supports EAP methods and legacy authentication methods such as PAP, CHAP, MS-CHAP and MS-CHAP v2. PEAP (Protected EAP) Like EAP-TTLS, server-side certificate authentication is used to establish a secure connection, then use simple username and password methods through the secured connection to authenticate the clients, thus hiding client identity. However, PEAP only supports EAP methods, such as EAP-MD5, EAP-MSCHAPv2 and EAP-GTC (EAP-Generic Token Card), for client authentication. EAP-GTC is implemented only by Cisco. LEAP LEAP (Lightweight Extensible Authentication Protocol) is a Cisco implementation of IEEE 802.1x. Dynamic WEP Key Exchange The AP maps a unique key that is generated with the RADIUS server. This key expires when the wireless connection times out, disconnects or reauthentication times out. A new WEP key is generated each time reauthentication is performed. If this feature is enabled, it is not necessary to configure a default encryption key in the wireless security configuration screen. You may still configure and store keys, but they will not be used while dynamic WEP is enabled. Note: EAP-MD5 cannot be used with Dynamic WEP Key Exchange NWA1000 Series Users Guide 185 Appendix E Wireless LANs For added security, certificate-based authentications (EAP-TLS, EAP-TTLS and PEAP) use dynamic keys for data encryption. They are often deployed in corporate environments, but for public deployment, a simple user name and password pair is more practical. The following table is a comparison of the features of authentication types. Table 57 Comparison of EAP Authentication Types EAP-TLS Yes Yes Yes Yes Strong Hard No Mutual Authentication Certificate Client Certificate Server Dynamic Key Exchange Credential Integrity Deployment Difficulty Client Identity Protection EAP-MD5 No No No No None Easy No EAP-TTLS Yes Optional Yes Yes Strong Moderate Yes PEAP Yes Optional Yes Yes Strong Moderate Yes LEAP Yes No No Yes Moderate Moderate No WPA2 WPA2 (IEEE 802.11i) is a wireless security standard that defines stronger encryption, authentication and key management. Key differences between WPA2 and WEP are improved data encryption and user authentication. If both an AP and the wireless clients support WPA2 and you have an external RADIUS server, use WPA2 for stronger data encryption. If you don't have an external RADIUS server, you should use WPA2-PSK (WPA2-Pre-Shared Key) that only requires a single (identical) password entered into each access point, wireless gateway and wireless client. As long as the passwords match, a wireless client will be granted access to a WLAN. Select WEP only when the AP and/or wireless clients do not support WPA2. WEP is less secure than WPA2. Encryption WPA2 uses TKIP when required for compatibility reasons, but offers stronger encryption than TKIP with Advanced Encryption Standard (AES) in the Counter mode with Cipher block chaining Message authentication code Protocol (CCMP). TKIP uses 128-bit keys that are dynamically generated and distributed by the authentication server. AES (Advanced Encryption Standard) is a block cipher that uses a 256-bit mathematical algorithm called Rijndael. They both include a per-packet key mixing function, a Message Integrity Check
(MIC) named Michael, an extended initialization vector (IV) with sequencing rules, and a re-keying mechanism. WPA2 regularly change and rotate the encryption keys so that the same encryption key is never used twice. The RADIUS server distributes a Pairwise Master Key (PMK) key to the AP that then sets up a key hierarchy and management system, using the PMK to dynamically generate unique data encryption keys to encrypt every data packet that is wirelessly communicated between the AP and the wireless clients. This all happens in the background automatically. 186 NWA1000 Series Users Guide Appendix E Wireless LANs The Message Integrity Check (MIC) is designed to prevent an attacker from capturing data packets, altering them and resending them. The MIC provides a strong mathematical function in which the receiver and the transmitter each compute and then compare the MIC. If they do not match, it is assumed that the data has been tampered with and the packet is dropped. By generating unique data encryption keys for every data packet and by creating an integrity checking mechanism (MIC), with TKIP and AES it is more difficult to decrypt data on a Wi-Fi network than WEP and difficult for an intruder to break into the network. The encryption mechanisms used for WPA2 and WPA2-PSK are the same. The only difference between the two is that WPA2-PSK uses a simple common password, instead of user-specific credentials. The common-password approach makes WPA2-PSK susceptible to brute-force password-guessing attacks but its still an improvement over WEP as it employs a consistent, single, alphanumeric password to derive a PMK which is used to generate unique temporal encryption keys. This prevent all wireless devices sharing the same encryption keys. (a weakness of WEP) User Authentication WPA2 apply IEEE 802.1x and Extensible Authentication Protocol (EAP) to authenticate wireless clients using an external RADIUS database. WPA2 reduces the number of key exchange messages from six to four (CCMP 4-way handshake) and shortens the time required to connect to a network. These two features are optional and may not be supported in all wireless devices. Key caching allows a wireless client to store the PMK it derived through a successful authentication with an AP. The wireless client uses the PMK when it tries to connect to the same AP and does not need to go with the authentication process again. Pre-authentication enables fast roaming by allowing the wireless client (already connecting to an AP) to perform IEEE 802.1x authentication with another AP before connecting to it. Wireless Client WPA2 Supplicants A wireless client supplicant is the software that runs on an operating system instructing the wireless client how to use WPA2. At the time of writing, the most widely available supplicant is the WPA2 patch for Windows XP, Funk Software's Odyssey client. The Windows XP patch is a free download that adds WPA2 capability to Windows XP's built-in "Zero Configuration" wireless client. However, you must run Windows XP to use it. WPA2 with RADIUS Application Example To set up WPA2, you need the IP address of the RADIUS server, its port number (default is 1812), and the RADIUS shared secret. A WPA2 application example with an external RADIUS server looks as follows. "A" is the RADIUS server. "DS" is the distribution system. 1 2 3 The AP passes the wireless client's authentication request to the RADIUS server. The RADIUS server then checks the user's identification against its database and grants or denies network access accordingly. A 256-bit Pairwise Master Key (PMK) is derived from the authentication process by the RADIUS server and the client. NWA1000 Series Users Guide 187 Appendix E Wireless LANs 4 The RADIUS server distributes the PMK to the AP. The AP then sets up a key hierarchy and management system, using the PMK to dynamically generate unique data encryption keys. The keys are used to encrypt every data packet that is wirelessly communicated between the AP and the wireless clients. Figure 93 WPA2 with RADIUS Application Example WPA2-PSK Application Example A WPA2-PSK application looks as follows. 1 2 3 First enter identical passwords into the AP and all wireless clients. The Pre-Shared Key (PSK) must consist of between 8 and 63 ASCII characters or 64 hexadecimal characters (including spaces and symbols). The AP checks each wireless client's password and allows it to join the network only if the password matches. The AP and wireless clients generate a common PMK (Pairwise Master Key). The key itself is not sent over the network, but is derived from the PSK and the SSID. 188 NWA1000 Series Users Guide 4 The AP and wireless clients use the TKIP or AES encryption process, the PMK and information exchanged in a handshake to create temporal encryption keys. They use these keys to encrypt data exchanged between them. Figure 94 WPA2-PSK Authentication Appendix E Wireless LANs Security Parameters Summary Refer to this table to see what other security parameters you should configure for each authentication method or key management protocol type. MAC address filters are not dependent on how you configure these security features. Table 58 Wireless Security Relational Matrix AUTHENTICATION METHOD/ KEY MANAGEMENT PROTOCOL Open ENCRYPTIO N METHOD None No ENTER MANUAL KEY Open Shared WEP WEP No Yes Yes No Yes Yes IEEE 802.1X Disable Enable without Dynamic WEP Key Enable with Dynamic WEP Key Enable without Dynamic WEP Key Disable Enable with Dynamic WEP Key Enable without Dynamic WEP Key Disable WPA2 WPA2-PSK TKIP/AES TKIP/AES No Yes Enable Disable Antenna Overview An antenna couples RF signals onto air. A transmitter within a wireless device sends an RF signal to the antenna, which propagates the signal through the air. The antenna also operates in reverse by capturing RF signals from the air. NWA1000 Series Users Guide 189 Appendix E Wireless LANs Positioning the antennas properly increases the range and coverage area of a wireless LAN. Antenna Characteristics Frequency An antenna in the frequency of 2.4GHz or 5GHz is needed to communicate efficiently in a wireless LAN Radiation Pattern A radiation pattern is a diagram that allows you to visualize the shape of the antennas coverage area. Antenna Gain Antenna gain, measured in dB (decibel), is the increase in coverage within the RF beam width. Higher antenna gain improves the range of the signal for better communications. For an indoor site, each 1 dB increase in antenna gain results in a range increase of approximately 2.5%. For an unobstructed outdoor site, each 1dB increase in gain results in a range increase of approximately 5%. Actual results may vary depending on the network environment. Antenna gain is sometimes specified in dBi, which is how much the antenna increases the signal power compared to using an isotropic antenna. An isotropic antenna is a theoretical perfect antenna that sends out radio signals equally well in all directions. dBi represents the true gain that the antenna provides. Types of Antennas for WLAN There are two types of antennas used for wireless LAN applications. Omni-directional antennas send the RF signal out in all directions on a horizontal plane. The coverage area is torus-shaped (like a donut) which makes these antennas ideal for a room environment. With a wide coverage area, it is possible to make circular overlapping coverage areas with multiple access points. Directional antennas concentrate the RF signal in a beam, like a flashlight does with the light from its bulb. The angle of the beam determines the width of the coverage pattern. Angles typically range from 20 degrees (very directional) to 120 degrees (less directional). Directional antennas are ideal for hallways and outdoor point-to-point applications. Positioning Antennas In general, antennas should be mounted as high as practically possible and free of obstructions. In point-topoint application, position both antennas at the same height and in a direct line of sight to each other to attain the best performance. For omni-directional antennas mounted on a table, desk, and so on, point the antenna up. For omni-directional antennas mounted on a wall or ceiling, point the antenna down. For a single AP application, place omni-directional antennas as close to the center of the coverage area as possible. 190 NWA1000 Series Users Guide For directional antennas, point the antenna in the direction of the desired coverage area. Appendix E Wireless LANs NWA1000 Series Users Guide 191 Index U User Authentication 54 V Virtual Local Area Network 89 VLAN 89 introduction 89 VoIP 11, 72 W warranty 199 note 199 WDS 13 Web Configurator 18 password 19 requirements 18 supported browsers 18 WEP 54 WEP key encrypting 86 Wi-Fi Multimedia QoS 85 Wired Equivalent Privacy 54 Wireless Client 41 wireless client WPA2 supplicants 187 Wireless Distribution System (WDS) 13 Wireless Mode 53 Wireless Mode, Choosing the Access Point 28 Bridge 28 Wireless Client 28 Wireless Security 15 how to improve 15 Levels 54 wireless security 11, 182 Wireless Security Screen WEP 74 WPA2-PSK, WPA2-PSK-MIX 77 Wireless Settings Screen 51 Access Point Mode 57 Antenna 85 AP + Bridge Mode 64 Bridge Mode 61 BSS 52 Channel 53 ESS 52 Intra-BSS Traffic 84 Operating Mode 52 Preamble 84 Roaming 85 RTS/CTS Threshold 84 SSID 52 Wireless Client Mode 64 Wireless Mode 53 WMM QoS 84 WLAN interference 180 security parameters 189 WMM 72 WMM QoS 84 WPA2 54, 186 key caching 187 pre-authentication 187 user authentication 187 vs WPA2-PSK 187 wireless client supplicant 187 with RADIUS application example 187 WPA2-MIX 54 WPA2-Pre-Shared Key 186 WPA2-PSK 186 application example 188 WPA2-PSK-MIX 54 Z ZyXEL Device Ethernet parameters 87 good habits 15 Introduction 9 managing 14 resetting 20, 116 Security Features 15 208 NWA1000 Series Users Guide
| frequency | equipment class | purpose | ||
|---|---|---|---|---|
| 1 | 2014-07-16 | 2412 ~ 2462 | DTS - Digital Transmission System | Original Equipment |
| app s | Applicant Information | |||||
|---|---|---|---|---|---|---|
| 1 | Effective |
2014-07-16
|
||||
| 1 | Applicant's complete, legal business name |
ZyXEL Communications Corporation
|
||||
| 1 | FCC Registration Number (FRN) |
0021059092
|
||||
| 1 | Physical Address |
No.2, Industry East Road IX, Science Park
|
||||
| 1 |
Hsinchu, N/A
|
|||||
| 1 |
Taiwan
|
|||||
| app s | TCB Information | |||||
| 1 | TCB Application Email Address |
c******@curtis-straus.com
|
||||
| 1 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
| app s | FCC ID | |||||
| 1 | Grantee Code |
I88
|
||||
| 1 | Equipment Product Code |
NWA1100NH
|
||||
| app s | Person at the applicant's address to receive grant or for contact | |||||
| 1 | Name |
E****** B********
|
||||
| 1 | Title |
Section Manager
|
||||
| 1 | Telephone Number |
886 3******** Extension:
|
||||
| 1 | Fax Number |
886 3********
|
||||
| 1 |
E******@zyxel.com.tw
|
|||||
| app s | Technical Contact | |||||
| n/a | ||||||
| app s | Non Technical Contact | |||||
| n/a | ||||||
| app s | Confidentiality (long or short term) | |||||
| 1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
| 1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
| if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
| app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
| 1 | Is this application for software defined/cognitive radio authorization? | No | ||||
| 1 | Equipment Class | DTS - Digital Transmission System | ||||
| 1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | 802.11 b/g/n PoE Access Point | ||||
| 1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
| 1 | Modular Equipment Type | Does not apply | ||||
| 1 | Purpose / Application is for | Original Equipment | ||||
| 1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
| 1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
| 1 | Grant Comments | Power listed is the maximum combined conducted output power. End-users and responsible parties must be provided with operating and installation instructions to ensure RF exposure compliance. The antenna(s) used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons and must not be co-located or operating in conjunction with any other antenna or transmitter, except in accordance with FCC multi-transmitter product guidelines. | ||||
| 1 | Is there an equipment authorization waiver associated with this application? | No | ||||
| 1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
| app s | Test Firm Name and Contact Information | |||||
| 1 | Firm Name |
Bureau Veritas CPS (H.K.) Ltd., Taoyuan Branch
|
||||
| 1 | Name |
R**** C****
|
||||
| 1 | Telephone Number |
+886-******** Extension:
|
||||
| 1 | Fax Number |
+886-********
|
||||
| 1 |
r******@tw.bureauveritas.com
|
|||||
| Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
| 1 | 1 | 15C | MO | 2412.00000000 | 2462.00000000 | 0.6840000 | |||||||||||||||||||||||||||||||||||
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC