max-306m1_v3.1
TRANSCRIPT
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ZyXEL
WiMAX IEEE802.16e MIMO CPE
Support Node
Version 3.1
Revision History Date: Version and description: Author:2008-11-13 Support Node for MIMO CPE Justin Lin
2009-02-13 Support Node for MIMO CPE Patrick Lin
2009-03-30 Support Node for MIMO CPE Poyi Yu
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Contents
1.
Introduction ........................................................................................................................ 4
1.1 Key Benefits of ZyXEL WiMAX CPE Products ............................... 41.2 Hardware Brief of Simple CPE ........................................... 4
2. Networking Features ......................................................................................................... 52.1 NAT and Router Features ................................................ 62.2 Firewall Features ...................................................... 62.3 Network Management ..................................................... 7
3. CPE Provisioning Mechanism ......................................................................................... 73.1 Pre-Provisioning ....................................................... 7 3.2 Local Provisioning ..................................................... 73.3 Remote Provisioning .................................................... 8
3.3.1 Web Interface .................................................................................................................................... 83.3.2 Telnet Interface .................................................................................................................................. 83.3.3 SNMP ................................................................................................................................................. 93.3.4 TR-069 ............................................................................................................................................... 9
4. User Authentication ......................................................................................................... 114.1 EAP-TTLS .............................................................. 114.2
EAP-TLS ............................................................... 12
5. VoIP Features ................................................................................................................... 136. Maintenance Guide.......................................................................................................... 146.1 Connection and Setup .................................................. 14
6.1.1 Start the Connection Manager ........................................................................................................146.1.2 Start Network Entry ........................................................................................................................17
6.2 Check Device Status ................................................... 196.3 Useful System CLI command ............................................. 226.4 Useful WiMAX CLI command .............................................. 246.5 Useful WiMAX Debug command ............................................ 266.6 Useful VoIP Debug command ............................................. 276.7 Useful TR069 Debug command ............................................ 276.8 Useful VPNT Command ................................................... 30
6.8.1 Use of Untagged Customer Interface in Bridge Mode .................................................................306.8.2 Use of Untagged & Tagged Customer Interface in Bridge Mode................................................326.8.3 Use of Untagged Customer Interface in Routing/NAT Mode ......................................................376.8.4 GRE Tunnel via LAN Port to Bypass Radio Link Uncertainty ...................................................38
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6.9 Software Upgrade ...................................................... 446.9.1 Download Files ................................................................................................................................446.9.2 Unzip the files ..................................................................................................................................446.9.3 Upgrade Notification .......................................................................................................................446.9.4 Upgrade SYSTEM BOARD ...........................................................................................................446.9.5 Reset to DEFAULT ROM ..............................................................................................................456.9.6 Upgrade WiMAX CARD ...............................................................................................................466.9.7 ONE STEP FW/SW Upgrade .........................................................................................................47
6.10 Hardware Reset Mechanism .............................................. 486.10.1 Normal reboot ..................................................................................................................................486.10.2 Level 1 Reset ...................................................................................................................................486.10.3 Level 2 Reset ...................................................................................................................................49
7. Troubleshooting ............................................................................................................... 507.1 What can I do when struggling in the DL_SYN and Ranging process? ...... 507.2 What can I do when struggling in the Authentication process? .......... 537.3 What can I initiate the IDLE process? ................................. 567.4 What can I do the IDLE troubleshooting? ............................... 567.5 What can I do the handover troubleshooting? ........................... 577.6 What can I do the VOIP troubleshooting? ............................... 58
7.6.1 Use WireShark software to catch the VOIP trace log. ..................................................................587.6.2 Use ZyXEL console line to catch the VOIP trace log. .................................................................59
8. Appendix ........................................................................................................................... 658.1 FAQ ................................................................... 658.2 TR-069 Parameters ..................................................... 65
8.2.1 WiMAX Specific TR-069 parameters ...........................................................................................658.2.2 InternetGatewayDevice parameter: ................................................................................................658.2.3 InternetGatewayDevice.Service.VoiceService parameters: .........................................................738.2.4 Vendor-Specific Parameter:............................................................................................................788.2.5 InternetGatewayDevice.X_WIMAXFORUM_OperatorProfile Parameter: ............................78
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1. IntroductionThis document is written for system operator to properly install the WiMAX MIMO CPE.
1.1 Key Benefits of ZyXEL WiMAX CPE ProductsWiMAX 802.16e enables mobilityZyXEL MIMO CPE is compliant to WiMAX 802.16e specifications which provides mobility
SIP Based VoIP CommunicationVoIP signaling supports standard SIP (RFC3261), suitable for IP telephony servicedeployment. Sophisticated voice compression provides toll quality voice communication.
Effective QoS ControlZyXEL MIMO CPE fully utilizes the WiMAX QoS features and provides different servicelevel based on the upper layer applications.
Built-in radio antennaThe antennas are built in with the enclosure which provides flexibility.
Easy to DeployZyXEL MIMO CPE is designed to be self-installable by end user without operators truckroll-out. LED bars which show the WiMAX radio signal strength can used to adjust thedirection and position of WM100 in order to get better connection.
Software upgrade over the air
ZyXEL MIMO CPE is fully software upgradeable over the WiMAX radio interface and can betriggered by operator.
Robust, State-of-the-Art Firewall SecurityThe ICSA certified ZyNOS operating system ensures state-of-the-art Firewallperformance and robust security from the WM100. Based on Stateful Packet Inspection(SPI) and Denial of Service (DoS), it provides the first line of defense against hackers,network intruders, and other hazardous threats.
1.2 Hardware Brief of Simple CPEInterface Status LED Color
Power
ON Solid Green
Power input low (Battery) Yellow
Modem Error Red (WiMAX card N/A oruncontrollable )
OFF OFF (No Light)
LAN
Not connected OFF (No Light)
10 or 100 Mbps (Ethernet) Solid Green
Activity Stay Solid Green
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VoIP 1 &VoIP 2 *
When the phone ports defined, SIP account foroutgoing call is registered.
Solid Green
when voice port is off hooked Flashing Green (Slowly)
When the phone ports defined SIP account foroutgoing call is registered. And there is voicemessage in the corresponding SIP account.
Solid Yellow
When voice port is off hooked, and there isvoice message in the corresponding SIPaccount.
Flashing Yellow
No Registered SIP accounts to this line, ordevice power off.
OFF
WiMAX card in MFG mode(You can type wimax debug to see whatmode is now.)
Both VoIP1/2 LED Solid Yellow
WAN
Signal Strength:
3 LED bar : 0~3 indicates RSSI (Power levelreception)
R < -90dBm = Level 0 (No LEDs ON)-90 < = R < -80dBm = Level 1 (One LED ON)-80 < = R < -70dBm = Level 2 (Two LEDs ON)-70 < = R = Level 3 (Three LEDs ON)
Green on: Show each of signal
strength level
LINK: Indication of connection status atWiMAX air interface level (network entry)- Searching for a channel- WiMAX network Entry in progress
OFF: WiMAX card not readyGreen slow blink (one second)Green fast blink (0.5 second)Solid Green: connected
* There is only one physical phone jack (PHONE 1) on the MAX-216M1 CPE and (SIP1 and
SIP2) can be associated to (PHONE 1) for Incoming and Outgoing calls.
2. Networking FeaturesThis chapter describes the networking features.
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2.1 NAT and Router FeaturesFeatures Description
IP Routing IP (RFC 791) routing is supportedUDP, TCP, ICMP, ARP, RIP and IGMPStatic routes can be programmed
NAT NAT (RFC1631) supported. Up to 2048 NAT sessionsMultiple NAT support Many-to-One, Many-to-Manyetc.Port forwarding user configurablePort Triggering user configurableMultimedia applications support: NetMeeting,CuSeeMe, ICQ, etc.
ALG support: SIP, FTP, H.323IP Management Ethernet and PPPoE encapsulation
VPN Pass through IPSec/PPTP/L2TP Pass Through
DHCP DHCP Server on LANDHCP Client on WANStatic DHCP table
DNS Auto configuration, User define or DNS Relay
RIP RIP1 and RIP2 support
IP Multicast IGMP v1 and v2
IP Alias IP Alias
UPnP UPnP supportTraffic Redirect Redirect the traffic to backup gateway
Any IP Support Any IP. End users PC can be set to any IPaddress.
2.2 Firewall FeaturesICSA certified firewall with Stateful Packet Inspection
Features Description
DoS DoS attack detection and prevention:Ping to Death, SYN flood, LAND, Smurf, SMTP attack
Stateful Packet Inspection IP Application Inspected:FTP, SMTP, HTTP, Telnet, SSL, DNS, etc
Service Blocking User selectable blocking of common TCP/IPapplications, like FTP, Telnet etc.User configurable TCP/UDP port (range) blocking
Alert and logging Real time attack alert and loggingLogging schedule control
Content Filtering Restriction of ActiveX, Java, Cookies and Web ProxyURL keyword blockingBlocking schedule controlTrusted computer (bypassing blocking)
Packet Filtering IP & Generic Packet Filtering
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2.3 Network ManagementFeatures Description
SNMP SNMP v1 & v2c with MIB II
Firmware upgrade Embedded FTP/TFTP Server for f/w upgrade andconfiguration backup and restore
Telnet Telnet for remote management
Remote ManagementControl
Telnet, FTP and Web interface can be enabled ordisabled respectively
3. CPE Provisioning MechanismContent provisioning mechanism can be split into 4 categories that do have different
impact on the deployment and operation of the end-user device.
3.1 Pre-ProvisioningPre-provisioning is done at factory according to operator instructions.
On fixed CPEs, all parameters are stored into the product HW. Provisioning consists thenin loading during production process a configuration file defined with the operator.The usual way to build this configuration file is that the operator sets all parameters usingLocal Provisioning mechanisms (see below), and backup this configuration into aconfiguration file.Some specific parameters can also be applied during this phase. The usual way is to
define, for each product, identified by its MAC address, the specific settings to be applied.
The process of backup and restore configuration fileAll configurations in CPE are stored in a single file, called ROM file. You can use FTP to getthis file, rom-0, from Simple CPE. This file can also be restored back to the CPE orduplicated to hundreds of Simple CPE and make their configuration all the same.ZyXEL can load specific ROM file during the factory process. ISP or operator canpre-configure the Simple CPE and retrieve the ROM file to ZyXEL.
Comments: Process to be further confirmed & described. How do we manage theparameters that are not accessible to the end-user, but which are operator controlled only?How do we exactly manage the specific parameters, hiw are they agreed with the
operator, is there a database with a specific format.
3.2 Local ProvisioningLocal provisioning is performed by the operator, the distribution channel or the end-user,using only local physical resources. It does not request a WiMAX connection. Severalpossibilities are offered.GUI of the CPE, i.e. the PC application running on the PC for the web server embedded inthe Fixed CPE accessed from a PC. This is documented in the User Manual.
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The user or operator can use FTP, Telnet and Web GUI to access the CPE for configuration.The activities can be done are listed as below.
Activities Interface LimitationsFTP configuration filebackup/restore
LAN Password protected
FTP software upgrade LAN Password protected
Telnet and CLI command LAN Password protectedCan use hidden commands to configureparameters which you dont wantend-user to change. The details of CLIcommands are described in user manual.
Web GUI LAN The Web GUI is designed for end users.Most configurable parameters are userspecific. The operator doesnt need tocontrol this.The Web GUI is described in usersmanual.
802.16e MAC firmware upgrade LAN Need a TFTP server running on PCNeed some configuration and proceduresto upgrade the 802.16e MAC firmware.The details are described in chapter 6.
802.16e MAC configuration LAN Need Sequans software running on PC.Need some configuration and proceduresto configure the 802.16e parameters.The details are described in chapter 6.
Comments: what about operator specific parameters that the user has no right to
change Admin password? In general, how to configure data so that they are read only forthe end user but can be changed by the operatorTelnet:Is there a manual?It consists in setting parameters using some telnetcommands to be entered from a console. Local and/or remote use of telnet can berestricted by configuration.Command Line Interface (CLI):Is there a manual?Local and/or remote use of CLI canbe restricted by configuration.
3.3 Remote ProvisioningRemote provisioning consists in having the provisioning managed from the network. Thisrequires WiMAX connection to be active, and the end-user device to be addressable bythe network. Several standard mechanisms are support by ZyXEL end-user device.
3.3.1 Web InterfaceThe Web GUI interface is normally used by end users to configure the networking featureslike NAT, firewall and DHCP. For WiMAX related setting, end user can configure the username and password of EAP-TTLS through Web GUI. This can be customized by request.
3.3.2 Telnet InterfaceThe end-user device can be provisioned by Telnet from the network, as soon as the IPaddress of the end-user device is known, and the feature has been enabled on the device.
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Note that activation of remote Telnet creates a security hole, as incoming UDP port 23remains always open. Remote Telnet can be de-activated.
3.3.3 SNMPThe end-user device can be controlled by SNMP from the network, as soon as the IPaddress of the end-user device is known, and the feature has been enabled on the device.ZyXEL Fixed CPE support SNMPv1 and SNMPv2c with MIB II. WiMAX MIB (16d/16e) is notsupported in current ZyXEL end-user device release. Note that in current WiMAX MIBdefinition, the most useful parameters on end-user device side are not settable throughSNMP.Note that activation of SNMP creates a security hole, as incoming UDP port 61 remainsalways open. SNMP can be de-activated.
3.3.4 TR-069ZyXEL Fixed CPE supports TR-069 protocol for CPE management. This feature is notavailable on PCMCIA.TR-069 allows Dynamic Services Provisioning, configuration file download / upload,firmware version identification, firmware download initiation and notification. Thefirmware upload itself is done through TFTP or HTTP(s).TR-069 relies on an Auto Configuration Server (ACS) implementation in the network. Inthe simplest case, ACS server address can simply be pre-configured in the CPE, togetherwith ACS user credentials. The CPE is master, and establish first the contact with theTR-069 server.TR-069 is based on TCP/IP. ZyXEL supports SSL3.0 and TLS1.0 for confidentiality, dataintegrity, and certificate based authentication. End-user device certifies ACS by RSAcertification whereas ACS certifies CPE by its username and password.The architecture is as following diagram.ZyXEL WiMAX CPE supports TR-069 protocol for CPE management. The architecture is asfollowing diagram.
LAN
Managed
CPE (B-NT)
Regional
BroadbandNetwork
DSLAMBRAS
ACS
Scope of
CPE WAN Management Protocol:
ACS Southbound InterfaceServiceConfiguration
Manager
ACS Northbound
Interface
Managed CPE
(LAN Device)
ACS = Auto Configuration Server
ZyXEL TR-069 feature is under IOP testing with Alcatel HDM5580. Other IOP test reportwill be available soon.Current support TR-069 features are as below.
Features Description
Auto Configuration Configuration file download / uploadDynamic Services Provisioning
ACS Discovery Manual setting of ACS URL
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Firmware Management Version identificationFile download initiation and notification
SSL3.0 / TLS1.0 Confidentiality, Data Integrity and Certificate based
authentication
Protocol Layer Summary
CPE/ACS Management Application
RPC Methods
SOAP
HTTP
SSL/TLS
TCP/IP
Following is brief description of each layer
Layer Description
RPC Methods The specific RPC methods that are defined by the CPEWAN Management Protocol. This includes the definitionof the CPE Parameters accessible by an ACS via theParameter-related RPC Methods.
SOAP A standard XML-based syntax used here to encode remoteprocedure calls.
HTTP HTTP 1.1SSL/TLS The standard Internet transport layer security protocols.
Specifically, either SSL 3.0 (Secure Socket Layer), or TLS1.0 (Transport Layer Security). Use of SSL/TLS isRECOMMENDED.
TCP/IP Standard TCP/IP.
Mutual AuthenticationsCPE certifies ACS by RSA certificationACS certifies CPE by username and password
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4. User Authentication4.1 EAP-TTLSThe User can set the TTLS mode for Authentication.
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4.2 EAP-TLSThe User can set the TLS mode for Authentication.
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5. VoIP FeaturesThis feature is only for Simple CPE and Multi-user CPE.
Features Description
SIP Protocol Standards SIP (RFC 3261) version 2SDP (RFC 2327)RTP (RFC 1889)RTCP (RFC 1890)
Echo Cancellation Echo Cancellation: G.168
Phone Features VAD (Voice activity detection)Silence suppressionCNG (Comfort noise generation)
Codec G.711 (PCM A-law or -law selectable), G.729a/b,G.723
VoIP Features SIP (RFC 3261) version 2SDP (RFC 2327)RTP (RFC 1889)RTCP (RFC 1890)Echo Cancellation: G.168VAD (Voice activity detection)Silence suppressionCNG (Comfort noise generation)QoS Supports TOS or DiffservCompression: G.711 (PCM A-law or -law selectable),G.729a/b, G.723
Loop Start and Ground Start Signaling SupportDTMF Detection
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6. Maintenance GuideThere are two kinds of software inside Simple CPE:
1. Software for Simple CPE itself, with Router, firewall, VoIP and Web GUI etc.
During the early stage of WiMAX, there are many chances to upgrade the 802.16e MACsoftware and/or change the configuration. These are performed locally through Ethernetconnection and some special tools running on PC are required. Section 6.1 will describehow to setup the Simple CPE, MAX-206M2/MAX216M1 and how to connect them. Section6.2 will describe the procedures of configuration/provisioning. Section 6.3 will describethe procedures of software download of the built-in WiMAX MAC/BB/RF card (calledWiMAX card in this document). For the remote software upgrade and configuration, theyare described in other sections.
Following table shows the difference of the WiMAX card built-in in ZyXEL MIMO CPE.
Card Type DescriptionWiMAX card 1. WiMAX MAC, Baseband and RF
2. Built-in in Simple CPE, MAX-206M2/MAX216M13. Maximum Tx Power 27 dBm
6.1 Connection and SetupSince WiMAX Card is connected with the WAN port of ZyXEL MIMO CPE itself is not a PC,some settings are required to re-connect to the PC. This setup procedure is as below.
Connect your notebook or desktop PC to the ZyXEL MIMO CPE by Ethernet (LAN). Followthe procedures to configure the ZyXEL MIMO CPE:
6.1.1 Start the Connection ManagerZyXEL MIMO CPE supports DHCP server function on LAN port. Thus, you just need to plugthe Ethernet cable to connect ZyXEL MIMO CPE and PC, and then PC will get the IPaddress from ZyXEL MIMO CPE automatically.
You can run a Window command terminal and perform the command ipconfig to checkthe IP address got from ZyXEL MIMO CPE. The default gateway IP address is the address
for ZyXEL MIMO CPE.
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Step.1 Launch your web browser and connect to URL http://192.168.1.1. Forfirst time, you can use the default User name (admin) and Password
(1234) to login.
The following page displays if you have not yet changed your password. Clink Clear tokeep using default one; alternatively enter a new password and click Apply to change it.
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Click Apply in the next screen to create a certificate using MAX-2X6s MAC address thatwill be specific to this device. This certificate is used for authentication when using asecure HTTPS connection over the Internet.
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6.1.2 Start Network EntryStep.2 Import Certificate for both device own and server side.
Click TOOLS > Certificates > My Certificatesin the navigation panel
for import device own certificate.
Click TOOLS > Certificates > Trusted CAsin the navigation panel for
import server side certificate.
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Step.3 Configure the Username, Password, and authentication method by clickADVANCED > WAN Configuration > Internet Connection in
navigation panel.
Step.4 Configure the frequency and channel bandwidth by click ADVANCED >WAN Configuration > WiMAX Frequency in navigation panel.
Current setting is
Step.5 After configure ZyXEL MIMO CPE ready, please request AAA server
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engineer to add the device MAC address into the list.
6.2Check Device StatusCheck Device Status
sys atsh
There are two MAC address on MAX-2X6; one is for LAN interface (on system board), theother is for WAN (on WiMAX card) Here the address shows on sys atsh page is the LANinterface MAC. LAN MAC + 1 is the WAN MAC address.
Take an instance, this devices LAN MAC is 00:19:CB:46:10:FB; WAN MAC is00:19:CB:46:10:FC.
Device MAC Address
ZyNOS Firmware Version
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Check WiMAX Card Statuswimax iot wcstatus
Check IP Statusip ifconfig
WiMAX CardFirmware Version
WiMAX Card Status
enif0 is the LAN interface
enif1 is the WAN (WiMAX) interface
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Show device Statuswimax cli show [parameter]
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6.3 Useful System CLI commandSet MAC addresssys atwz [MAC address]
Release and renew DHCP IP addressip dhcp enif1 client releaseip dhcp enif1 client renew
Enable/Disable the Menu Configurationsys smt on/sys smt off
After perform the command, you need to exit and re-login again. And then you will getthe menu configuration page.Exit menu configuration page by select 24 -> 8 -> type sys smt off, then exit andre-login.
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IPref testYou need to set the NAT Setup by using Menu configuration. Use Menu 15 and PortForwarding Setup to configure.
Ipref command for example:Server: ipref u s t 9999Client: ipref u c 10.10.10.1 l 1370 b 10m t 9999
Sometimes different H/W version will cause the LED behavior abnormal. When encounterthis problem, you can perform this command to sync the boot code.
sys atmb 1
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6.4 Useful WiMAX CLI commandEnable/Disable WiMAX Cardwimax start/wimax stop
Hardware reset WiMAX Cardwimax iot resetwc
Without reboot the system board, we can use this to reboot the WiMAX CARD.
Capture the Air packetwimax iot setaircopy2LAN [turn on/off]After use this command, you can use the ethereal tools to capture the packets which sentto WiMAX interface.
Show all wimax iot commandswimax iot
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Query current Frequency settingwimax net setFre 0
Configure Frequency settingwimax net setFre [0/1: show/clean and set] [DL frequency value] [bandwidth value]
Add Frequency settingwimax net setFre 2 2677000
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Get current scan Frequency setting in the WiMAX Cardwimax cli showscanner
6.5 Useful WiMAX Debug commandEnable/Disable the debug logwimax log [type] [turn on/off] [target]
Enable/Disable EAP debug logwimax eap debug
Currently, the only way to disable the log is wimax eap debug 0 4.
[SOP for testing EAP module]:1. wimax stop2. wimax log 0 13. wimax eap debug 0 14. wimax iot setaircopy2LAN on5. wimax cli enablelog PKMS6. execute Wireshark on host system7. wimax start8. Collect logs from console and sniff packet using Wireshark.
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6.6 Useful VoIP Debug command[Caller ID]:
CPE supports caller ID payload format in MDMF, SDMF and DTMF.You can perform "voice config fxs display 1" to check the current setting.
Or perform voice config fxs cidpayload to configure the format you want to adopt.Here is an example to show you how to change the format to MDMF.
"voice config fxs index 1"
"voice config fxs cidpayload 1 0"
"voice config fxs save 1"
[DNS SRV]:
You can use "voice config signal display 1" to see the setting of the DNS
SRV
(default is redundancy).
If you want change it, use
"voice config signal index 1"
"voice config signal srvServerType 1 "
"voice config signal save 1"
6.7 Useful TR069 Debug command>#############################> TR-069 DEBUG COMMAND
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informTimeyyyy-mm-ddThh:mm:ss Usage: An absolute PeriodicInformTime
[yyyy-mm-ddThh:mm:ss]
reset Trigger the inform to be sent
getRPC Get the RPC methods of the ACS server
debug[off:Disable/on:Enable][number: Level]
Usage: [off:Disable/on:Enable] [number: Level]Enable the function of debug mode
username[maxlength:15] Usage: username:xxx [maxlength:15]
The username and password used for connectingto the ACS.
password[maxlength:15] Usage: password:xxx [maxlength:15]
The username and password used for connectingto the ACS.
requsername
[maxlength:15] Usage: username:xxx [maxlength:15]Username of the connection request(The username and password used for
authenticating ACS during a connection request.)
reqpassword
[maxlength:15] Usage: username:xxx [maxlength:15]Password of the connection request(The username and password used forauthenticating ACS during a connection request.)
notificationShow the notification list saved in the flash (max.64)
For example
=======================
Copyright (c) 1994 - 2008 ZyXEL Communications Corp.
MAX-216M1> et tr di
TR069 Active: No
Auto-Configuration Server URL:
PeriodicInformEnable: Disable
PeriodicInformInterval: 0
PeriodicInformTime: 0000-00-00T00:00:00
Username:
Password:
ConnectionRequestUsername:
ConnectionRequestPassword:
TR069 Debug: Disable
MAX-216M1> ether tr load
MAX-216M1> ether tr active 1
MAX-216M1> ether tr acsUrl http://172.23.40.16/TR069
Auto-Configuration Server URL: http://172.23.40.16/TR069
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MAX-216M1> ether tr periodicEnable 1
MAX-216M1> ether tr informInterval 30
TR069 Informinterval 30MAX-216M1> ether tr informTime 2008-09-08T12:00:00
New InformTime: 2008-09-08T12:00:00
MAX-216M1> ether tr username wimax
Username: wimax
MAX-216M1> ether tr password wimax
Password: wimax
MAX-216M1> ether tr requsername wimax
ConnectionRequestUserName: wimax
MAX-216M1> ether tr reqpassword wimax
ConnectionRequestPassword: wimax
MAX-216M1> ether tr save
MAX-216M1> et tr di
TR069 Active: Yes
Auto-Configuration Server
URL: http://172.23.40.16/TR069
PeriodicInformEnable: EnabledPeriodicInformInterval: 30
PeriodicInformTime: 2008-09-08T12:00:00
Username: wimax
Password: wimax
ConnectionRequestUsername: wimax
ConnectionRequestPassword: wimax
TR069 Debug: Disable
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6.8 Useful VPNT Command6.8.1 Use of Untagged Customer Interface in Bridge ModeIn this test case, we bridge the untagged customer interface of ZyXEL
MIMO CPE (A) with the untagged customer interface ofZyXEL MIMO CPE (B)
by setting up an Ethernet pseudowire between the WAN ports of both
MAX-206M2/MAX216M1s. The combination of the two
MAX-206M2/MAX216M1s is equivalent to a two-port bridge.
The use of untagged customer interface in bridge mode
Please follow the steps below to carry out this test.
Prepare the network elements as depicted above.
Make sure that the WAN links of both MAX-206M2/MAX216M1 A and
MAX-206M2/MAX216M1 B are up and that each of the WAN interfaces
acquires an IP address. Check the WAN status of a ZyXEL MIMO CPE.
Log on to the ZyXEL MIMO CPE and go to Web > Status > Device
Information.
Turn off the firewall on each ZyXEL MIMO CPE before performing ping
check to see if ZyXEL MIMO CPE A and ZyXEL MIMO CPE B can reach each
other. By default the firewall blocks incoming ICMP packets. To turn off the
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firewall, go to Web > Security > Firewall > General.
Go to ZyXEL MIMO CPE As Command Interpreter, and execute the
following CLI command to ping ZyXEL MIMO CPE Bs WAN IP address.MAX-216M1> ip ping < ZyXEL MIMO CPE Bs WAN IP address>
If ZyXEL MIMO CPE A can reach ZyXEL MIMO CPE B, the console will
display information such as follows; otherwise it means ZyXEL MIMO CPE
B is unreachable.
sent rcvd rate rtt avg mdev max min
1 1 100 50 50 0 50 50
2 2 100 70 53 5 70 50
3 3 100 30 50 10 70 30
Perform the same check on ZyXEL MIMO CPE B. If the results show that
ZyXEL MIMO CPE A and ZyXEL MIMO CPE B can reach each other, continue
to Step 6.1.5; otherwise go back to Step 6.1.2.
You may turn on the Firewall now. To turn on the firewall, go to
Web>Security>Firewall>General.
Go to ZyXEL MIMO CPE As Command Interpreter and execute the
following CLI command to set up the L2/L3 VPN Transport feature
configuration necessary.
MAX-216M1> vpnt loadMAX-216M1> vpnt active on
MAX-216M1> vpnt gre
MAX-216M1> vpnt pw config 0 on 100 5100 "Pseudowire X"
MAX-216M1> vpnt cif config 0 on -1 B 0 000000 "Customer X"
MAX-216M1> vpnt save
To view and double-check the latest configuration, execute the following
CLI commands.
MAX-216M1> vpnt load
MAX-216M1> vpnt gre
MAX-216M1> vpnt pw list
MAX-216M1> vpnt cif list
Go to ZyXEL MIMO CPE Bs Command Interpreter and execute the
following CLI command to set up the L2/L3 VPN Transport feature
configuration necessary.
MAX-216M1> vpnt load
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MAX-216M1> vpnt active on
MAX-216M1> vpnt gre
MAX-216M1> vpnt pw config 0 on 5100 100 "Pseudowire X"MAX-216M1> vpnt cif config 0 on -1 B 0 000000 "Customer X"
MAX-216M1> vpnt save
To view and double-check the latest configuration, execute the following
CLI commands.
MAX-216M1> vpnt load
MAX-216M1> vpnt gre
MAX-216M1> vpnt pw list
MAX-216M1> vpnt cif list
Check if the PC behind ZyXEL MIMO CPE A can acquire an IP address from
the DHCP server behind ZyXEL MIMO CPE B.
After the PC has acquired an IP address, check if the PC can access the
Internet without any problem.
Check out the traffic counters of each ZyXEL MIMO CPE by executing the
following CLI commands.
MAX-216M1> vpnt pw cnt display all
MAX-216M1> vpnt cif cnt display all
6.8.2 Use of Untagged & Tagged Customer Interface in Bridge ModeIn this test case, we bridge each of the sixteen customer interfaces of
ZyXEL MIMO CPE A with one of the customer interfaces of ZyXEL MIMO
CPE by setting up an Ethernet pseudowire between the WAN ports of both
ZyXEL MIMO CPEs. The combination of the two ZyXEL MIMO CPEs and the
two VLAN switches is equivalent to sixteen two-port bridges.
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The use of tagged and untagged customer interfaces in bridge mode
Please follow the steps below to carry out this test.
Prepare the network elements as depicted above.
Make sure that the WAN links of both ZyXEL MIMO CPE A and ZyXEL MIMOCPE B are up and that each of the WAN interfaces acquires an IP address.
To check the WAN status of a ZyXEL MIMO CPE, log on to the ZyXEL MIMO
CPE and go to Web>Status>Device Information.
Turn off the firewall on each ZyXEL MIMO CPE before performing ping
check to see if ZyXEL MIMO CPE A and ZyXEL MIMO CPE B can reach each
other. By default the firewall blocks incoming ICMP packets. To turn off the
firewall, go to Web>Security>Firewall>General.
Go to ZyXEL MIMO CPE As Command Interpreter and execute the
following CLI command to ping ZyXEL MIMO CPE Bs WAN IP address.
MAX-216M1> ip ping < ZyXEL MIMO CPE Bs WAN IP address>
If ZyXEL MIMO CPE A can reach ZyXEL MIMO CPE B, the console will
display information such as follows; otherwise it means ZyXEL MIMO CPE
B is unreachable.
sent rcvd rate rtt avg mdev max min
1 1 100 50 50 0 50 50
2 2 100 70 53 5 70 50
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3 3 100 30 50 10 70 30
Perform the same check from ZyXEL MIMO CPE B. If the results show that
ZyXEL MIMO CPE A and ZyXEL MIMO CPE B can reach each other, continueto Step 6.2.5; otherwise go back to Step 6.2.2.
You may turn on the Firewall now. To turn on the firewall, go to
Web>Security>Firewall>General.
Go to ZyXEL MIMO CPE As Command Interpreter Mode and execute the
following CLI command to set up the L2/L3 VPNT feature configuration
necessary.
MAX-216M1> vpnt load
MAX-216M1> vpnt active on
MAX-216M1> vpnt gre
MAX-216M1> vpnt pw config 0 on 100 5100 "Pseudowirw 0"
MAX-216M1> vpnt pw config 1 on 101 5101 "Pseudowirw 1"
MAX-216M1> vpnt pw config 2 on 102 5102 "Pseudowirw 2"
MAX-216M1> vpnt pw config 3 on 103 5103 "Pseudowirw 3"
MAX-216M1> vpnt pw config 4 on 104 5104 "Pseudowirw 4"
MAX-216M1> vpnt pw config 5 on 105 5105 "Pseudowirw 5"
MAX-216M1> vpnt pw config 6 on 106 5106 "Pseudowirw 6"
MAX-216M1> vpnt pw config 7 on 107 5107 "Pseudowirw 7"MAX-216M1> vpnt pw config 8 on 108 5108 "Pseudowirw 8"
MAX-216M1> vpnt pw config 9 on 109 5109 "Pseudowirw 9"
MAX-216M1> vpnt pw config 10 on 110 5110 "Pseudowirw 10"
MAX-216M1> vpnt pw config 11 on 111 5111 "Pseudowirw 11"
MAX-216M1> vpnt pw config 12 on 112 5112 "Pseudowirw 12"
MAX-216M1> vpnt pw config 13 on 113 5113 "Pseudowirw 13"
MAX-216M1> vpnt pw config 14 on 114 5114 "Pseudowirw 14"
MAX-216M1> vpnt pw config 15 on 115 5115 "Pseudowirw 15"
MAX-216M1> vpnt cif config 0 on -1 B 0 000000 "Customer 0"
MAX-216M1vpnt cif config 1 on 2391 B 1 000000 "Customer 1"
MAX-216M1> vpnt cif config 2 on 2392 B 2 001000 "Customer 2"
MAX-216M1> vpnt cif config 3 on 2393 B 3 001010 "Customer 3"
MAX-216M1> vpnt cif config 4 on 2394 B 4 001100 "Customer 4"
MAX-216M1> vpnt cif config 5 on 2395 B 5 001110 "Customer 5"
MAX-216M1> vpnt cif config 6 on 2396 B 6 010000 "Customer 6"
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MAX-216M1> vpnt cif config 7 on 2397 B 7 010010 "Customer 7"
MAX-216M1> vpnt cif config 8 on 2398 B 8 010100 "Customer 8"
MAX-216M1> vpnt cif config 9 on 2399 B 9 010110 "Customer 9"MAX-216M1> vpnt cif config 10 on 2400 B 10 011000 "Customer 10"
MAX-216M1> vpnt cif config 11 on 2401 B 11 011010 "Customer 11"
MAX-216M1> vpnt cif config 12 on 2402 B 12 011110 "Customer 12"
MAX-216M1> vpnt cif config 13 on 2403 B 13 100000 "Customer 13"
MAX-216M1> vpnt cif config 14 on 2404 B 14 100010 "Customer 14"
MAX-216M1> vpnt cif config 15 on 2405 B 15 100100 "Customer 15"
MAX-216M1> vpnt save
To view and double-check the latest configuration, execute the following
CLI commands.
MAX-216M1> vpnt load
MAX-216M1> vpnt gre
MAX-216M1> vpnt pw list
MAX-216M1> vpnt cif list
Go to ZyXEL MIMO CPE Bs Command Interpreter and execute the
following CLI command to set up the L2/L3 VPNT feature configuration.
MAX-216M1> vpnt load
MAX-216M1> vpnt active onMAX-216M1> vpnt gre
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MAX-216M1> vpnt pw config 14 on 5114 114 "Pseudowirw 14"
MAX-216M1> vpnt pw config 15 on 5115 115 "Pseudowirw 15"
MAX-216M1> vpnt cif config 0 on -1 B 0 000000 "Customer 0"MAX-216M1> vpnt cif config 1 on 2391 B 1 000000 "Customer 1"
MAX-216M1> vpnt cif config 2 on 2392 B 2 001000 "Customer 2"
MAX-216M1> vpnt cif config 3 on 2393 B 3 001010 "Customer 3"
MAX-216M1> vpnt cif config 4 on 2394 B 4 001100 "Customer 4"
MAX-216M1> vpnt cif config 5 on 2395 B 5 001110 "Customer 5"
MAX-216M1> vpnt cif config 6 on 2396 B 6 010000 "Customer 6"
MAX-216M1> vpnt cif config 7 on 2397 B 7 010010 "Customer 7"
MAX-216M1> vpnt cif config 8 on 2398 B 8 010100 "Customer 8"
MAX-216M1> vpnt cif config 9 on 2399 B 9 010110 "Customer 9"
MAX-216M1> vpnt cif config 10 on 2400 B 10 011000 "Customer 10"
MAX-216M1> vpnt cif config 11 on 2401 B 11 011010 "Customer 11"
MAX-216M1> vpnt cif config 12 on 2402 B 12 011110 "Customer 12"
MAX-216M1> vpnt cif config 13 on 2403 B 13 100000 "Customer 13"
MAX-216M1> vpnt cif config 14 on 2404 B 14 100010 "Customer 14"
MAX-216M1> vpnt cif config 15 on 2405 B 15 100100 "Customer 15"
MAX-216M1> vpnt save
To view and double-check the latest configuration, execute the followingCLI commands.
MAX-216M1> vpnt load
MAX-216M1> vpnt gre
MAX-216M1> vpnt pw list
MAX-216M1> vpnt cif list
Properly configure sixteen virtual LANs (including one untagged LAN) on
each VLAN switch, and aggregate the traffic to a port connected to each
ZyXEL MIMO CPEs LAN port.
Check if the PC in each VLAN behind ZyXEL MIMO CPE A can acquire an IP
address from the DHCP server in the corresponding VLAN behind ZyXEL
MIMO CPE B.
When the PC in each VLAN behind ZyXEL MIMO CPE A are acquiring an IP
address from the DHCP server, the DSCP of each VLAN can be checked by
monitoring the packets over the air.
After the PC in each VLAN has acquired an IP address, check if the PC can
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access the Internet without any problem.
Check out the traffic counters of each ZyXEL MIMO CPE by executing the
following CLI commands.MAX-216M1> vpnt pw cnt display all
MAX-216M1> vpnt cif cnt display all
6.8.3 Use of Untagged Customer Interface in Routing/NAT ModeIn this test case, we configure one of ZyXEL MIMO CPEs customer
interfaces for Routing/NAT. The PC behind this customer interface can
acquire an IP address from the ZyXEL MIMO CPEs DHCP server and then
access the Internet.
The use of untagged customer interface in routing/NAT mode
Please follow the steps below to carry out this test.
Prepare the network elements as depicted above.
Make sure that the WAN link of ZyXEL MIMO CPE is up and its WAN
interface has acquired an IP address. To check the WAN status of ZyXELMIMO CPE, log on to ZyXEL MIMO CPE and go to Web>Status>Device
Information.
Go to ZyXEL MIMO CPEs Command Interpreter and execute the following
CLI command to check its connectivity to the Internet.
MAX-216M1> ip ping www.google.com
If ZyXEL MIMO CPE can reach www.google.com, the console will display
information such as follows; otherwise it means ZyXEL MIMO CPE has no
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Internet connectivity.
sent rcvd rate rtt avg mdev max min
1 1 100 70 70 0 70 702 2 100 70 70 0 70 70
3 3 100 70 70 0 70 70
If ZyXEL MIMO CPE has Internet connectivity, continue to Step 6.3.4;
otherwise go back to Step 6.3.2.
Go to ZyXEL MIMO CPEs Command Interpreter and execute the following
CLI command to set up an untagged customer interface for Routing/NAT.
MAX-216M1> vpnt load
MAX-216M1> vpnt active on
MAX-216M1> vpnt cif config 0 on -1 R "" "" "Customer X"
MAX-216M1> vpnt save
To view and double-check the latest configuration, execute the following
CLI commands.
MAX-216M1> vpnt load
MAX-216M1> vpnt cif list
Go to ZyXEL MIMO CPEs Web>Network>LAN>DHCP Setup and
properly configure ZyXEL MIMO CPEs DHCP server.
Connect a PC to the LAN port of ZyXEL MIMO CPE. Check if the PC canacquire an IP address from ZyXEL MIMO CPEs DHCP server.
After the PC has acquired an IP address, check if the PC can access the
Internet without any problem.
Check out the traffic counters of ZyXEL MIMO CPE by executing the
following CLI commands.
MAX-216M1> vpnt cif cnt display all
6.8.4 GRE Tunnel via LAN Port to Bypass Radio Link UncertaintyThis test case is similar to Case 2, except that the GRE tunnel is
established between the LAN ports of both ZyXEL MIMO CPEs, in order to
bypass the uncertainty of radio link. Before a GRE tunnel can be
established between the LAN ports of both ZyXEL MIMO CPE s, a customer
interface on each ZyXEL MIMO CPE must first be configured for routing.
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The establishment of a GRE tunnel between the LAN ports of two
MAX-206M2/MAX216M1s
Please follow the steps below to carry out this test.
Prepare the network elements as depicted above.Go to ZyXEL MIMO CPE As Web>Network>LAN>IP to configure its LAN
interface IP address as 192.168.1.10.
Go to ZyXEL MIMO CPE Bs Web>Network>LAN>IP to configure its LAN
interface IP address as 192.168.1.11. Now ZyXEL MIMO CPE As LAN
interface is on the same subnet as ZyXEL MIMO CPE Bs LAN interface.
Go to ZyXEL MIMO CPE As Command Interpreter and execute the
following CLI command to set up one untagged customer interface for
routing/NAT.
MAX-216M1> vpnt load
MAX-216M1> vpnt active on
MAX-216M1> vpnt cif config 0 on -1 R "" "" "for routing/NAT"
MAX-216M1> vpnt save
Go to ZyXEL MIMO CPE Bs Command Interpreter and execute the
following CLI command to also set up one untagged customer interface for
routing/NAT.
MAX-216M1> vpnt load
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MAX-216M1> vpnt active on
MAX-216M1> vpnt cif config 0 on -1 R "" "" "for routing/NAT"
MAX-216M1> vpnt saveProperly configure one untagged virtual LAN on each VLAN switch, and
forward the traffic to a port connected to each ZyXEL MIMO CPEs LAN
port.
Go to ZyXEL MIMO CPE As Command Interpreter and execute the
following CLI command to ping ZyXEL MIMO CPE Bs LAN IP address.
MAX-216M1> ip ping 192.168.1.11
If ZyXEL MIMO CPE A can reach ZyXEL MIMO CPE B, the console will
display information such as follows; otherwise it means ZyXEL MIMO CPE
B is unreachable.
sent rcvd rate rtt avg mdev max min
1 1 100 50 50 0 50 50
2 2 100 70 53 5 70 50
3 3 100 30 50 10 70 30
Perform the same check from ZyXEL MIMO CPE B. If the results show that
ZyXEL MIMO CPE A and ZyXEL MIMO CPE B can reach each.
Go to ZyXEL MIMO CPE As Command Interpreter and execute the
following CLI command to set up the L2/L3 VPNT feature configurationnecessary.
MAX-216M1> vpnt load
MAX-216M1> vpnt active on
MAX-216M1> vpnt gre 192.168.1.11
MAX-216M1> vpnt pw config 1 on 101 5101 "Pseudowirw 1"
MAX-216M1> vpnt pw config 2 on 102 5102 "Pseudowirw 2"
MAX-216M1> vpnt pw config 3 on 103 5103 "Pseudowirw 3"
MAX-216M1> vpnt pw config 4 on 104 5104 "Pseudowirw 4"
MAX-216M1> vpnt pw config 5 on 105 5105 "Pseudowirw 5"
MAX-216M1> vpnt pw config 6 on 106 5106 "Pseudowirw 6"
MAX-216M1> vpnt pw config 7 on 107 5107 "Pseudowirw 7"
MAX-216M1> vpnt pw config 8 on 108 5108 "Pseudowirw 8"
MAX-216M1> vpnt pw config 9 on 109 5109 "Pseudowirw 9"
MAX-216M1> vpnt pw config 10 on 110 5110 "Pseudowirw 10"
MAX-216M1> vpnt pw config 11 on 111 5111 "Pseudowirw 11"
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MAX-216M1> vpnt pw config 12 on 112 5112 "Pseudowirw 12"
MAX-216M1> vpnt pw config 13 on 113 5113 "Pseudowirw 13"
MAX-216M1> vpnt pw config 14 on 114 5114 "Pseudowirw 14"MAX-216M1> vpnt pw config 15 on 115 5115 "Pseudowirw 15"
MAX-216M1> vpnt cif config 1 on 2391 B 1 000000 "Customer 1"
MAX-216M1> vpnt cif config 2 on 2392 B 2 001000 "Customer 2"
MAX-216M1> vpnt cif config 3 on 2393 B 3 001010 "Customer 3"
MAX-216M1> vpnt cif config 4 on 2394 B 4 001100 "Customer 4"
MAX-216M1> vpnt cif config 5 on 2395 B 5 001110 "Customer 5"
MAX-216M1> vpnt cif config 6 on 2396 B 6 010000 "Customer 6"
MAX-216M1> vpnt cif config 7 on 2397 B 7 010010 "Customer 7"
MAX-216M1> vpnt cif config 8 on 2398 B 8 010100 "Customer 8"
MAX-216M1> vpnt cif config 9 on 2399 B 9 010110 "Customer 9"
MAX-216M1> vpnt cif config 10 on 2400 B 10 011000 "Customer 10"
MAX-216M1> vpnt cif config 11 on 2401 B 11 011010 "Customer 11"
MAX-216M1> vpnt cif config 12 on 2402 B 12 011110 "Customer 12"
MAX-216M1> vpnt cif config 13 on 2403 B 13 100000 "Customer 13"
MAX-216M1> vpnt cif config 14 on 2404 B 14 100010 "Customer 14"
MAX-216M1> vpnt cif config 15 on 2405 B 15 100100 "Customer 15"
MAX-216M1> vpnt saveTo view and double-check the latest configuration, execute the following
CLI commands.
MAX-216M1> vpnt load
MAX-216M1> vpnt gre
MAX-216M1> vpnt pw list
MAX-216M1> vpnt cif list
Go to MAX-206M2/MAX216M1 Bs Command Interpreter and execute the
following CLI command to set up the L2/L3 VPNT feature configuration.
MAX216M1> vpnt load
MAX216M1> vpnt active on
MAX216M1> vpnt gre 192.168.1.10
MAX216M1> vpnt pw config 1 on 5101 101 "Pseudowirw 1"
MAX216M1> vpnt pw config 2 on 5102 102 "Pseudowirw 2"
MAX216M1> vpnt pw config 3 on 5103 103 "Pseudowirw 3"
MAX216M1> vpnt pw config 4 on 5104 104 "Pseudowirw 4"
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MAX216M1> vpnt pw config 5 on 5105 105 "Pseudowirw 5"
MAX216M1> vpnt pw config 6 on 5106 106 "Pseudowirw 6"
MAX216M1> vpnt pw config 7 on 5107 107 "Pseudowirw 7"MAX216M1> vpnt pw config 8 on 5108 108 "Pseudowirw 8"
MAX216M1> vpnt pw config 9 on 5109 109 "Pseudowirw 9"
MAX216M1> vpnt pw config 10 on 5110 110 "Pseudowirw 10"
MAX216M1> vpnt pw config 11 on 5111 111 "Pseudowirw 11"
MAX216M1> vpnt pw config 12 on 5112 112 "Pseudowirw 12"
MAX216M1> vpnt pw config 13 on 5113 113 "Pseudowirw 13"
MAX216M1> vpnt pw config 14 on 5114 114 "Pseudowirw 14"
MAX216M1> vpnt pw config 15 on 5115 115 "Pseudowirw 15"
MAX216M1> vpnt cif config 1 on 2391 B 1 000000 "Customer 1"
MAX216M1> vpnt cif config 2 on 2392 B 2 001000 "Customer 2"
MAX216M1> vpnt cif config 3 on 2393 B 3 001010 "Customer 3"
MAX216M1> vpnt cif config 4 on 2394 B 4 001100 "Customer 4"
MAX216M1> vpnt cif config 5 on 2395 B 5 001110 "Customer 5"
MAX216M1> vpnt cif config 6 on 2396 B 6 010000 "Customer 6"
MAX216M1> vpnt cif config 7 on 2397 B 7 010010 "Customer 7"
MAX216M1> vpnt cif config 8 on 2398 B 8 010100 "Customer 8"
MAX216M1> vpnt cif config 9 on 2399 B 9 010110 "Customer 9"MAX216M1> vpnt cif config 10 on 2400 B 10 011000 "Customer 10"
MAX216M1> vpnt cif config 11 on 2401 B 11 011010 "Customer 11"
MAX216M1> vpnt cif config 12 on 2402 B 12 011110 "Customer 12"
MAX216M1> vpnt cif config 13 on 2403 B 13 100000 "Customer 13"
MAX216M1> vpnt cif config 14 on 2404 B 14 100010 "Customer 14"
MAX216M1> vpnt cif config 15 on 2405 B 15 100100 "Customer 15"
MAX216M1> vpnt save
To view and double-check the latest configuration, execute the following
CLI commands.
MAX216M1> vpnt load
MAX216M1> vpnt gre
MAX216M1> vpnt pw list
MAX216M1> vpnt cif list
Properly configure fifteen more virtual LANs (all untagged) on each VLAN
switch, and aggregate the traffic to the port connected to each ZyXEL
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MIMO CPEs LAN port.
Check if the PC in each VLAN behind ZyXEL MIMO CPE A can acquire an IP
address from the DHCP server in the corresponding VLAN behind ZyXELMIMO CPE B.
When the PC in each VLAN behind ZyXEL MIMO CPE A are acquiring an IP
address from the DHCP server, the DSCP of each VLAN can be checked by
monitoring the packets in the established GRE tunnel).
After the PC in each VLAN has acquired an IP address, check if the PC can
access the Internet without any problem.
Check out the traffic counters of each ZyXEL MIMO CPE by executing the
following CLI commands.
MAX216M1> vpnt pw cnt display all
MAX216M1> vpnt cif cnt display all
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6.9 Software Upgrade6.9.1 Download FilesPlease get the file from release FTP.There will be five files in the daily release folderMIMO CPE\MAX206M2\20080520
3.60BCC0b3_20080520.rtf is the release note.MAX206M2_readme.txt is the descript of the files.MAX206M2_b3_20080520(13506).zip is the major firmware which includes WiMAX CARDand SYSTEM BOARD firmware both. It is for the ONE STEP firmware upgrade and Web GUIfirmware upgrade.
This ONE STEP firmware upgrade only be supported after b4_20080724 version.MAX206M2_b3_20080520(13506)_SBFW.zip is the SYSTEM BOARD firmware onlyMAX206M2_b3_2008050(13506)_WCFW.zip is the WiMAX CARD firmware only.
6.9.2Unzip the files
Unzip each file your will get the folder which contact the firmware inside.
In each folder there are three files.
6.9.3 Upgrade NotificationThe One-Step Upgrade only can be supported after b4_20080724 version.The older version and other needs to do the TWO steps upgrade.Upgrade System Board first.Then Upgrade the WiMAX CARD.
6.9.4 Upgrade SYSTEM BOARDInto the MAX206M2_b3_20080520(13506)_SBFW folder
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Click the SYSTEM_BOARD_Upgrade.bat (If you change your CPE LAN IPand Admin Password, please edit the IP in the batch file to fit your option andfwupdate_max216m1.txt for the admin password.
The firmware upgrade will start.
In the upgrading, all LED will flashing.After the flashing, the system will reboot and it means upgrade complete.
6.9.5 Reset to DEFAULT ROM6.9.5.1 Reset by HWYou can use the reset button to reset the default rom.Push the reset button keep 5 sec.It will start to reset default and reboot.MAX216M1 reset Button
MAX206M2 reset Button
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6.9.5.2 Reset by commandTelnet into CPE.
Type the cli sys rom and click Y.
It will start to reset default and reboot.
6.9.6 Upgrade WiMAX CARDInto the MAX206M2_b3_20080520(13506)_WCFW folder
Click the WiMAXCARD_Upgrade.bat (If you change your CPE LAN IP andAdmin Password, please edit the IP in the batch file to fit your option and wcfw.txt forthe admin password.
The firmware upgrade will start.
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In the upgrading, all LED will flashing.After the flashing, the system will reboot and it means upgrade complete.
6.9.7 ONE STEP FW/SW Upgrade(ONLY SUPPORT AFTER b4_20080724 VERSION)
6.9.7.1 Upgrade by FTPInto the MAX206M2_b3_20080520(13506) folder
Click the MAX206M2_Upgrade.bat (If you change your CPE LAN IP andAdmin Password, please edit the IP in the batch file to fit your option and wcfw.txt forthe admin password.The firmware upgrade will start.
In the upgrading, all LED will flashing.After the flashing, the system will reboot and it means upgrade complete.
6.9.7.2 7.2 Upgrade by WebLogin to Web.Into page Advance -> System configuration -> FirmwareYou can selection the file to upgrade the firmware.
Please select MAX206M2.wcwdDuring the FW/SW upgrading, the all LED will blinking until upgrade completed,system will reboot automatically after upgrade, just wait 4~5 minutes
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6.10 Hardware Reset MechanismHere are the different mechanisms of reset button exist at the back of the
CPE.
6.10.1 Normal rebootPush the reset button for 1 second and release.
6.10.2 Level 1 ResetWhen the power of the CPE has been turn on, and make sure the PWD LED is light on
steadily. Push the reset button for more than 5 sec and release. After doing this action,the CPE will reset to the last customized parameters loaded by CROM tool or reset to
ZyXEL factory default parameters if no customization ever done.
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6.10.3 Level 2 ResetTurn off the CPE first then push on the reset button before power on the CPE. While
pushing the reset button, power on the CPE and continue push the reset button for morethan 30 seconds and release. By doing this, the CPE will reset back to ZyXEL factorydefault parameters.
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7. TroubleshootingWhen you do the IOT test, you may encounter some unexpected conditions in thenetwork entry process; this chapter is to provide the troubleshooting steps in orderto help you run the IOT test smoothly.
7.1 What can I do when struggling in the DL_SYN andRanging process?
When you encounter the conditions as diagram, you can follow the steps to solvethat problem.1. The WiMAX indicator is blinking or no blink.2. The trace log displayed the DL_SYNCHRONIZATION or RANGING.
Step1: Check the WiMAX card status. If the Power led is red, it indicates the WiMAXcard is damaged, not ready or has become unseated from the main board. You canalso perform the CLI command wimax debug to check the card is alive or not. Ifyou use the command wimax debug 18 trying to reboot the wimax card, but it stillis failed, you may send the card back to ZyXEL.
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Step2: Check scan frequency setting in the main board.
Step3: Check current frequency status in the WiMAX card. After you ran the step2,You have to check the frequency setting is using correctly in the wimax card.
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Step4: Check signal quality in the WiMAX card. The ZyXEL MIMO CPE connection
RSSI threshold value is about -90 dBi, if the RSSI value is less than -90, the rangingprocess might be failed.
Master stroke Send the trace log to ZyXELAfter you followed the steps above, the CPE is still struggling in theDL_SYNCHRONIZATION or RANGING. Please follow the steps as diagram to send thetrace log to ZyXEL.
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7.2 What can I do when struggling in theAuthentication process?
When you encounter the conditions as diagram, you can follow the steps to solvethat problem.1. The trace log displayed the AUTHORIZATION or EAP FAIL.
Step1: Check the RSSI strength. If the RSSI is less than -90, it might be caused theauthentication process failure.
Step2: Check the setting of EAP. You could have to check some EAP settings likeusername, password, authentication mode, inner authentication, anonymous ID andverify server certificate demand.
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Step3: Check the Trust CA certificate and date.
Step4: Check the Device certificate and date. If customer dont need this, we canskip this step.
Step5: Restart the network entry again.
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Master stroke Send the trace log to ZyXELAfter you followed the steps above, the CPE is still struggling in the Authenticationprocess. Please follow the steps as diagram to send the trace log to ZyXEL.
PS: If you have console line, please also peform the command wimax eap debug 01 to dump more detail log.
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7.3 What can I initiate the IDLE process?Initiate IDLE mode and the IDLE period to enter IDLE mode
7.4 What can I do the IDLE troubleshooting?If you encounter IDLE problem, please follow the steps below to send the trace log toZyXEL.Step1: Enable the handover log function
Step2: Check the handover log is enabled
Step3: Enable the wimax log and catch the trace log.
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7.5 What can I do the handover troubleshooting?If you encounter handover problem, please follow the steps below to send the trace
log to ZyXEL.Step1: Enable the handover log function
Step2: Check the handover log is enabled
Step3: Enable the wimax log and catch the trace log.
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7.6 What can I do the VOIP troubleshooting?7.6.1 Use WireShark software to catch the VOIP trace log.
Step1: Perform the command wimax iot setaircopy2LAN to dump the packet trafficfrom WAN to LAN.
Step2: Open the WireShark software to catch the VOIP trace log, type the filter rulesip to filter the VOIP packets.
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7.6.2 Use ZyXEL console line to catch the VOIP trace log.Step1: take off the device housing and plug in the console line to main board.
Step2: First make sure that the Internet is accessible from the device. Make a simpleping from CLI to do it. If the server address uses domain name, make sure thedomain name can be properly resolved and SIP server is reachable.
Step3: To generate SIP signal trace log, please type voice sip tl (tl stands for tracelog).0 is default value and stands for none.1 captures all logs (This mode is suggested to capture log for ZyXEL support.).2 only capture the outgoing sip signaling.3 only capture the incoming sip signaling.4 only captures SIP TX and RX sip signaling.5 only capture the state machines status.6 only show error.
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7 only show warning.If problem is encountered upon registration or signaling, we suggest to make a level4 trace of SIP transmit and receive signal. This will make the log more readable due
to its including only the TX and RX signal trace.Then access from console on the PCB, and in CLI mode.1. Type voice sip tl h to show all the options.2. Type voice sip tl to set the trace log level. In this example, Option 4 isused.3. Type exit to exit the CLI, but still with the console connected and terminal open.
Step4:For ZyXEL MIMO CPE ,if you want to do the test on CLI mode directly, pleaseuse CLI command voice sip sigreg to enable the SIP1/SIP2 setting;voice sip sigunreg to disable the SIP1/SIP2 setting.
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Step5:After making a registration or call attempt, you should see the signal dumpon the terminal. In it, you can check whether there are SIP error codes and checkwhat the error is.You can have a configuration change to be on the error code which you received andtry again.
Step6:In the above case, the registration failure is caused by failed authorization.Thus, error code 401 Unauthorized is received.
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Step7:The registration is successful now. If a problem can not be resolved, capturethe whole log dump from the starting of the registration or call until the problem wasencountered and send it to the support for further analysis.
Step8: If all the attempts fail, use the this command voice fsm debug all 1 to
capture a complete debug log. The procedure is as with the trace log command anddumps all the log from start until the problem occurred and sends it to us foranalysis.Phone = fxs, fxo DebugCcm = Call Control ManagementSip = Sip Protocol DebugUa = User Agent DebugSip Tx = Sip Transition DebugRtp = RTP Packet Debug
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SIP response codes reference
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8. Appendix8.1 FAQHow MAC address is managed in Simple CPE?There are two MAC addresses reserved for each Simple CPE. One for LAN, the other forWiMAX. They are consecutive numbers.When Simple CPE powers up, it will check and write the MAC address in to PCMCIA card.This address will also be saved in PCMCIA cards flash ROM.If you try to swap several PCMCIA cards in a single Simple CPE, it might cause all cardsshare same MAC addresses. Remember not to use these cards separately in notebook.
What version of EAP-TTLS is supported?Only support v0
8.2 TR-069 ParametersZyXEL WiMAX CPE supports following parameters.
8.2.1 WiMAX Specific TR-069 parameters8.2.2 InternetGatewayDevice parameter:Support list of TR069 Objects and Parameters 1 Type 2 Write 3 Description 4
InternetGatewayDevice. object - As defined in TR-098Amendment 1
DeviceSummary string - As defined in TR-098Amendment 1
LANDeviceNumberOfEntries uint - As defined in TR-098Amendment 1
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WANDeviceNumberOfEntries uint - As defined in TR-098Amendment 1
InternetGatewayDevice.DeviceInfo. object - As defined in TR-098
Amendment 1Manufacturer string - As defined in TR-098
Amendment 1
ManufacturerOUI string - As defined in TR-098Amendment 1
ModelName string - As defined in TR-098Amendment 1
Description string - As defined in TR-098Amendment 1
ProductClass string - As defined in TR-098Amendment 1
SerialNumber string - As defined in TR-098
Amendment 1HardwareVersion string - As defined in TR-098Amendment 1
SoftwareVersion string - As defined in TR-098Amendment 1
ModemFirmwareVersion string - As defined in TR-098Amendment 1
SpecVersion string - As defined in TR-098Amendment 1
ProvisioningCode string W As defined in TR-098Amendment 1
UpTime uint - As defined in TR-098Amendment 1
FirstUseDate dateTime
- As defined in TR-098Amendment 1
DeviceLog string - As defined in TR-098Amendment 1
InternetGatewayDevice.ManagementServer. object - As defined in TR-098Amendment 1
URL string W As defined in TR-098Amendment 1
Username string W As defined in TR-098Amendment 1
Password string W As defined in TR-098
Amendment 1PeriodicInformEnable boolean W As defined in TR-098
Amendment 1
PeriodicInformInterval uint [1:] W As defined in TR-098Amendment 1
PeriodicInformTime dateTime
W As defined in TR-098Amendment 1
ParameterKey string - As defined in TR-098Amendment 1
ConnectionRequestURL string - As defined in TR-098Amendment 1
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ConnectionRequestUsername string W As defined in TR-098Amendment 1
ConnectionRequestPassword string W As defined in TR-098
Amendment 1UpgradesManaged boolean - As defined in TR-098
Amendment 1
InternetGatewayDevice.Time. object - As defined in TR-098Amendment 1
NTPServer1 string W As defined in TR-098Amendment 1
NTPServer2 string - As defined in TR-098Amendment 1ps. only support 1NTPserver
NTPServer3 string - As defined in TR-098
Amendment 1ps. only support 1NTPserver
NTPServer4 string - As defined in TR-098Amendment 1ps. only support 1NTPserver
NTPServer5 string - As defined in TR-098Amendment 1ps. only support 1NTPserver
CurrentLocalTime dateTime
W As defined in TR-098Amendment 1
LocalTimeZone string W As defined in TR-098Amendment 1
LocalTimeZoneName string W As defined in TR-098Amendment 1
DaylightSavingsUsed boolean W As defined in TR-098Amendment 1
DaylightSavingsStart dateTime
W As defined in TR-098Amendment 1
DaylightSavingsEnd dateTime
W As defined in TR-098Amendment 1
InternetGatewayDevice.Layer3Forwarding. object - As defined in TR-098Amendment 1
DefaultConnectionService string - As defined in TR-098Amendment 1ps. only one WAN interface.
ForwardNumberOfEntries uint - As defined in TR-098Amendment 1
InternetGatewayDevice.Layer3Forwarding.Forwarding.{i}.
object W As defined in TR-098Amendment 1ps. Max instance number =8
Enable boolean W As defined in TR-098Amendment 1
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Status string - As defined in TR-098Amendment 1
Type string W As defined in TR-098
Amendment 1ps. only support Default
DestIPAddress string W As defined in TR-098Amendment 1
DestSubnetMask string W As defined in TR-098Amendment 1
GatewayIPAddress string W As defined in TR-098Amendment 1
Interface string - As defined in TR-098Amendment 1ps. only one WAN interface.
ForwardingMetric int [-1:] W As defined in TR-098
Amendment 1InternetGatewayDevice.LANConfigSecurity. object - As defined in TR-098Amendment 1
ConfigPassword string W As defined in TR-098Amendment 1
InternetGatewayDevice.IPPingDiagnostics object - As defined in TR-098Amendment 1
DiagnosticsState string W As defined in TR-098Amendment 1ps. support Requested andComplete
Interface string W As defined in TR-098Amendment 1
Host string W As defined in TR-098Amendment 1
NumberOfRepetitions uint [1:] W As defined in TR-098Amendment 1
Timeout uint [1:] W As defined in TR-098Amendment 1
DataBlockSize uint[1:65535]
W As defined in TR-098Amendment 1ps. support value: 8 ~41836
DSCP uint[0:63]
W As defined in TR-098Amendment 1
SuccessCount uint - As defined in TR-098Amendment 1
FailureCount uint - As defined in TR-098Amendment 1
AverageResponseTime uint - As defined in TR-098Amendment 1
MinimumResponseTmie uint - As defined in TR-098Amendment 1
MaximumResponseTime uint - As defined in TR-098Amendment 1
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InternetGatewayDevice.LANDevice.{i} object - As defined in TR-098Amendment 1ps. instance number = 1
LANEthernetInterfaceNumberOfEntries uint - As defined in TR-098Amendment 1
LANUSBInterfaceNumberOfEntries uint - As defined in TR-098Amendment 1
LANWLANConfigurationNumberOfEntries uint - As defined in TR-098Amendment 1
InternetGatewayDevice.LANDevice.{i}.LANHostConfigManagement.
object - As defined in TR-098Amendment 1
DHCPServerConfigurable boolean W As defined in TR-098Amendment 1
DHCPServerEnable boolean W As defined in TR-098Amendment 1
DHCPRelay boolean - As defined in TR-098Amendment 1
MinAddress string W As defined in TR-098Amendment 1
MaxAddress string W As defined in TR-098Amendment 1
SubnetMask string W As defined in TR-098Amendment 1
DNSServers string W As defined in TR-098Amendment 1
DomainName string W As defined in TR-098Amendment 1
IPRouters string W As defined in TR-098
Amendment 1ps. only support one Routeraddress.
DHCPLeaseTime int [-1:] W As defined in TR-098Amendment 1
IPInterfaceNumberOfEntries uint - As defined in TR-098Amendment 1
InternetGatewayDevice.LANDevice.{i}.LANHostConfigManagement. IPInterface.{i}.
object W As defined in TR-098Amendment 1ps. instance number = 1
Enable boolean - As defined in TR-098Amendment 1
ps. cant disable the onlyone LAN interface
IPInterfaceIPAddress string W As defined in TR-098Amendment 1
IPInterfaceSubnetMask string W As defined in TR-098Amendment 1
IPInterfaceAddressingType string W As defined in TR-098Amendment 1
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InternetGatewayDevice.LANDevice.{i}.LANEthernetInterfaceConfig.{i}.
object - As defined in TR-098Amendment 1ps. LAN interface can not be
disableEnable boolean - As defined in TR-098
Amendment 1
Status string - As defined in TR-098Amendment 1
MACAddress string - As defined in TR-098Amendment 1
MaxBitRate string - As defined in TR-098Amendment 1
DuplexMode string - As defined in TR-098Amendment 1
InternetGatewayDevice.LANDevice.{i}.LANEthernetInterfaceConfig.{i}.Stats. object - As defined in TR-098Amendment 1
BytesSent uint - As defined in TR-098Amendment 1
BytesReceived uint - As defined in TR-098Amendment 1
PacketsSent uint - As defined in TR-098Amendment 1
PacketsReceived uint - As defined in TR-098Amendment 1
InternetGatewayDevice.LANDevice.{i}.Hosts. object - As defined in TR-098Amendment 1
HostNumberOfEntries uint - As defined in TR-098
Amendment 1InternetGatewayDevice.LANDevice.{i}.Hosts.Host.{i}.
object - As defined in TR-098Amendment 1ps. instance number = 1.
IPAddress string - As defined in TR-098Amendment 1
AddressSource string - As defined in TR-098Amendment 1
LeaseTimeRemaining int [-1:] - As defined in TR-098Amendment 1
MACAddress string - As defined in TR-098Amendment 1
HostName string - As defined in TR-098Amendment 1
InterfaceType string - As defined in TR-098Amendment 1
Active boolean - As defined in TR-098Amendment 1
InternetGatewayDevice.WANDevice.{i}. object - As defined in TR-098Amendment 1ps. instance number = 1.
WANConnectionNumberOfEntries uint - As defined in TR-098Amendment 1
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InternetGatewayDevice.WANDevice.{i}.WANCommonInterfaceConfig.
object - As defined in TR-098Amendment 1
EnabledForInternet boolean W As defined in TR-098Amendment 1
WANAccessType string - As defined in TR-098Amendment 1
Layer1UpstreamMaxBitRate uint - As defined in TR-098Amendment 1
Layer1DownstreamMaxBitRate utin - As defined in TR-098Amendment 1
PhysicalLinkStatus string - As defined in TR-098Amendment 1
TotalBytesSent uint - As defined in TR-098Amendment 1
TotalBytesReceived uint - As defined in TR-098Amendment 1
TotalPacketsSent uint - As defined in TR-098Amendment 1
TotalPacketsReceived uint - As defined in TR-098Amendment 1
MaximumActiveConnections uint - As defined in TR-098Amendment 1
NumberOfActiveConnections uint - As defined in TR-098Amendment 1
InternetGatewayDevice.WANDevice.{i}.WANConnectionDevice.{i}.
object - As defined in TR-098Amendment 1ps. instance number = 1.
WANIPConnectionNumberOfEntries uint - As defined in TR-098Amendment 1
WANPPPConnectionNumberOfEntries uint - As defined in TR-098Amendment 1
InternetGatewayDevice.WANDevice.{i}.WANConnectionDevice.{i}.WANIPConnection.{i}.
object - As defined in TR-098Amendment 1ps. instance number = 1.
Enable boolean - As defined in TR-098Amendment 1
ConnectionStatus string - As defined in TR-098Amendment 1
PossibleConnectionTypes string - As defined in TR-098
Amendment 1ConnectionType string W As defined in TR-098
Amendment 1ps. support IP_RoutedIP_Bridged
Name string W As defined in TR-098Amendment 1ps. string length dontexceed 10 bytes
Uptime uint - As defined in TR-098Amendment 1
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LastConnectionError string - As defined in TR-098Amendment 1
IdleDisconnectTime uint - As defined in TR-098
Amendment 1RSIPAvailable boolean - As defined in TR-098
Amendment 1
NATEnabled boolean W As defined in TR-098Amendment 1
AddressingType string W As defined in TR-098Amendment 1
ExternalIPAddress string W As defined in TR-098Amendment 1
SubnetMask string W As defined in TR-098Amendment 1
DefaultGateway string W As defined in TR-098
Amendment 1DNSEnabled boolean W As defined in TR-098Amendment 1ps. unable to disable DNSserver
DNSOverrideAllowed boolean - As defined in TR-098Amendment 1
DNSServers string W As defined in TR-098Amendment 1
MACAddress string - As defined in TR-098Amendment 1
ConnectionTrigger string W As defined in TR-098Amendment 1
ps. only support AlwaysOnRouteProtocolRx string W As defined in TR-098
Amendment 1ps. support Off RIPv1RIPv2
PortMappingNumberOfEntries uint - As defined in TR-098Amendment 1
InternetGatewayDevice.WANDevice.{i}.WANConnectionDevice.{i}.WANIPConnection.{i}.PortMapping.{i}.
object W As defined in TR-098Amendment 1ps. max instance number =11.
PortMappingEnabled boolean W As defined in TR-098
Amendment 1PortMappingLeaseDuration uint W As defined in TR-098
Amendment 1
RemoteHost string W As defined in TR-098Amendment 1
ExternalPort string W As defined in TR-098Amendment 1
InternalPort string W As defined in TR-098Amendment 1
PortMappingProtocol string W As defined in TR-098Amendment 1
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InternalClient string W As defined in TR-098Amendment 1
PortMappingDescription string W As defined in TR-098
Amendment 1InternetGatewayDevice.WANDevice.{i}.WANConnectionDevice.{i}.WANIPConnection.{i}.Stats.
object - As defined in TR-098Amendment 1
EthernetBytesSent uint - As defined in TR-098Amendment 1
EthernetBytesReceived uint - As defined in TR-098Amendment 1
EthernetPacketsSent uint - As defined in TR-098Amendment 1
EthernetPacketsReceived uint - As defined in TR-098Amendment 1
8.2.3 InternetGatewayDevice.Service.VoiceService parameters:Support list of TR069 Objects and Parameters 1 Type 2 Write 3 Description 4
Services. ob - As defined in TR-104
VoiceServiceNumberOfEntries uint - As defined in TR-104
.VoiceService.{i}. object - As defined in TR-104ps. instance number = 1.
VoiceProfileNumberOfEntries uint - As defined in TR-104
.VoiceService.{i}.Capabilities. object - As defined in TR-104
MaxProfileCount uint - As defined in TR-104
MaxLineCount uint - As defined in TR-104
MaxSessionsPerLine uint - As defined in TR-104
MaxSessionCount uint - As defined in TR-104
SignalingProtocols string - As defined in TR-104
Regions string - As defined in TR-104
RTCP boolean - As defined in TR-104
SRTP boolean - As defined in TR-104
RTPRedundancy boolean - As defined in TR-104
DSCPCoupled boolean - As defined in TR-104
EthernetTaggingCoupled boolean - As defined in TR-104
PSTNSoftSwitchOver boolean - As defined in TR-104
FaxT38 boolean - As defined in TR-104
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FaxPassThrough boolean - As defined in TR-104
ModemPassThrough boolean - As defined in TR-104
ToneGeneration boolean - As defined in TR-104
RingGeneration boolean - As defined in TR-104
NumberingPlan boolean - As defined in TR-104
ButtonMap boolean - As defined in TR-104
.VoiceService.{i}.Capabilities.SIP. object - As defined in TR-104
Role string - As defined in TR-104
Extensions string - As defined in TR-104
Transports string - As defined in TR-104
URISchemes string - As defined in TR-104
EventSubscription boolean - As defined in TR-104
ResponseMap boolean - As defined in TR-104
.VoiceService.{i}.Capabilities.Codecs.{i}. object - As defined in TR-104ps. instance number = 4
EntryID uint - As defined in TR-104
Codec string - As defined in TR-104
BitRate uint - As defined in TR-104
PacketizationPeriod string - As defined in TR-104
SilenceSuppression boolean - As defined in TR-104
.VoiceService.{i}.VoiceProfile.{i}. object - As defined in TR-104ps. instance number = 2.
Enable string W As defined in TR-104ps. support DisableEnable
Reset boolean W As defined in TR-104
NumberOfLines uint As defined in TR-104
Name string W As defined in TR-104
SignalingProtocol string - As defined in TR-104
MaxSessions uint - As defined in TR-104
DTMFMethod string W As defined in TR-104
.VoiceService.{i}.VoiceProfile.{i}.ServiceProviderInfo.
As defined in TR-104
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Name string W As defined in TR-104
URL string W As defined in TR-104
ContactPhoneNumber string W As defined in TR-104
EmailAddress string W As defined in TR-104
.VoiceService.{i}.VoiceProfile.{i}.SIP. As defined in TR-104
ProxyServer string W As defined in TR-104
ProxyServerPort uint[0:65535]
W As defined in TR-104
ProxyServerTransport string W As defined in TR-104
RegistrarServer string W As defined in TR-104
RegistrarServerPort uint[0:65535]
W As defined in TR-104
RegistrarServerTransport string As defined in TR-104
UserAgentDomain string W As defined in TR-104
UserAgentPort uint[0:65535]
W As defined in TR-104
UserAgentTransport string As defined in TR-104
OutboundProxy string W As defined in TR-104
OutboundProxyPort uint[0:65535]
W As defined in TR-104
RegistrationPeriod uint [1:] W As defined in TR-104
RegisterExpires uint [1:] W As defined in TR-104
RegisterRetryInterval uint [1:] W As defined in TR-104
UseCodecPriorityInSDPResponse boolean - As defined in TR-104
.VoiceService.{i}.VoiceProfile.{i}.RTP. object - As defined in TR-104
LocalPortMin uint[0:65535]
W As defined in TR-104ps. support value: 50000 ~65535
LocalPortMax uint[0:65535]
W As defined in TR-104ps. support value: 50000 ~65535
DSCPMark uint[0:63]
W As defined in TR-104
TelephoneEventPayloadType uint - As defined in TR-104
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.VoiceService.{i}.VoiceProfile.{i}.Line.{i}. object - As defined in TR-104ps. instance number = 1
Enable string W As defined in TR-104
ps. support DisableEnable
DirectoryNumber string W As defined in TR-104ps. max string length = 127
Status string - As defined in TR-104
CallState string - As defined in TR-104
PhyReferenceList string W As defined in TR-104ps. the valid value: 0, 1, 2
.VoiceService.{i}.VoiceProfile.{i}.Line.{i}.SIP. object - As defined in TR-104
AuthUserName string W As defined in TR-104
AuthPassword string W As defined in TR-104
URI string W As defined in TR-104
.VoiceService.{i}.VoiceProfile.{i}.Line.{i}.CallingFeatures.
object - As defined in TR-104
CallerIDName string W As defined in TR-104ps. max string length = 127
.VoiceService.{i}.VoiceProfile.{i}.Line.{i}.VoiceProcessing.
object - As defined in TR-104
TransmitGain int W As defined in TR-104ps. value range: [-13: 13]
ReceiveGain int W As defined in TR-104ps. value range: [-13: 13]
EchoCancellationEnable boolean W As defined in TR-104
EchoCancellationInUse boolean - As defined in TR-104
EchoCancellationTail uint - As defined in TR-104
.VoiceService.{i}.VoiceProfile.{i}.Line.{i}.Codec.
object - As defined in TR-104
TransmitCodec string - As defined in TR-104
ReceiveCodec string - As defined in TR-104
TransmitBitRate uint - As defined in TR-104
ReceiveBitRate uint - As defined in TR-104
TransmitSilenceSuppression boolean - As defined in TR-104
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Support list of TR069 Objects and Parameters 1 Type 2 Write 3 Description 4
InternetGatewayDevice.X_ZYXEL-COM-TW_WiMAX. object - The sub-root of vendor-specifiparameters related to wimax.
CINRMean string - Mean CINR report (dB)
CINRDeviation string - Standard deviation CINR repor(dB)
RSSI string - Mean RSSI report (dBm)
ULDataRate string - Uplink Data Rate (bits/s)
DLDataRate string - Downlink Data Rate (bits/s)
TxPower string - Transmission Power (dBm)
InternetGatewayDevice.X_ZYXEL-COM-TW_WiMAX.Eap.
object - the authentication setting of thdevice
Username string W Username of device EAPconfiguration.ps. max string length = 63
Password string W Password of device EAPconfiguration.ps. max string length = 47
AuthenticationType string W The Authentication type of deviEAP configuration.ps. valid value:
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TransmitPacketizationPeriod uint - As defined in TR-104
.VoiceService.{i}.VoiceProfile.{i}.Line.{i}.Code
c.List.{i}.
object - As defined in TR-104
ps. instance number = 4EntryID uint [1:] As defined in TR-104
Codec string As defined in TR-104
BitRate uint As defined in TR-104
PacketizationPeriod string W As defined in TR-104ps. value range: forG.711: 10~30for G.729 : 10~80for G.723.1: only 30
SilenceSuppression boolean W As defined in TR-104
Enable boolean W As defined in TR-104
Priority uint [1:] W As defined in TR-104ps. value range: 1~3
.VoiceService.{i}.VoiceProfile.{i}.Line.{i}.Session.{i}.
object - As defined in TR-104
SessionStartTime dateTime
- As defined in TR-104
SessionDuration uint - As defined in TR-104
FarEndIPAddress string - As defined in TR-104
FarEndUDPPort uint[0:65535]
- As defined in TR-104
LocalUDPPort uint[0:65535]
- As defined in TR-104
.VoiceService.{i}.PhyInterface.{i}. object - As defined in TR-104ps. instance number = 2
PhyPort string - As defined in TR-104
InterfaceID uint [1:] - As defined in TR-104
Description string - As defined in TR-104
8.2.4 Vendor-Specific Parameter:8.2.5 InternetGatewayDevice.X_WIMAXFORUM_OperatorProfileParameter:
Support list of TR069 Objects and Parameters 1 Type 2 Write 3 Description 4
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InternetGatewayDevice.-X_WIMAXFORUM_OperatorProfile.{i}.
object - As defined in NWG_Rel_15_OTA_Based_On_TR-069.doc
InternetGatewayDevice.-X_WIMAXFORUM_OperatorProfile.{i}.WiMAXNetworkParameters.
object - As defined in NWG_Rel_15_OTA_Based_On_TR
ChannelPlanNumberOfEntries unsignedInt
- As defined in NWG_Rel_15_OTA_Based_On_TR
InternetGateway-Device.X_WIMAXFORUM_OperatorProfile.{i}.WiMAXNetworkParameters.DefaultChannelPlan..
object - As defined in NWG_Rel_15_OTA_Based_On_TR
Bandwidth int W As defined in NWG_Rel_15_OTA_Based_On_TRvalid range: 5000 (means5M)
8750(means 8.75M)
10000(means 10M)or 3500, 4375, 7000.
FFTSize int - As defined in NWG_Rel_15_OTA_Based_On_TRps. Valid according toBandwidth
DuplexMode int - As defined in NWG_Rel_15_OTA_Based_On_TR
ps. Only support 1: TDDInternetGatewayDevice.X_WIMAXFORUM_OperatorProfile.{i}.WiMAXNetworkParameters.ChannelPlan.{i}.
object - As defined in NWG_Rel_15_OTA_Based_On_TR
ChannelPlanIdentifier string(20)
W As defined in NWG_Rel_15_OTA_Based_On_TR
Bandwidth int W As defined in NWG_Rel_15_OTA_Based_On_TRvalid range: 5000 (means5M)
8750(means 8.75M)
10000(means 10M)or 3500, 4375, 7000.
FFTSize int - As defined in NWG_Rel_15_OTA_Based_On_TR
DuplexMode int - As defined in NWG_Rel_15_OTA_Based_On_TR
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Fi