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FiberHome AN6000 Series Cli Configuration Manual

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AN6000 Series

Optical Line Terminal Equipment

CLI Configuration Guide

Version: B

Code: MN000004293

FiberHome Telecommunication Technologies Co., Ltd.

March 2021

Table of Contents

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Page 1 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Version: B Code: MN000004293 FiberHome Telecommunication Technologies Co., Ltd. March 2021...
Page 3 Please contact your local sales representative, service representative or distributor for any help needed at the contact information shown below. Fiberhome Telecommunication Technologies Co., Ltd. Address: No. 67, Guanggu Chuangye Jie, Wuhan, Hubei, China Zip code: 430073...
Page 5: Legal Notice
Legal Notice are trademarks of FiberHome Telecommunication Technologies Co., Ltd. (Hereinafter referred to as FiberHome) All brand names and product names used in this document are used for identification purposes only and are trademarks or registered trademarks of their respective holders.
Page 7 Contents Documentation Guide ..................1 Logging into the Device...................3 Login Through SecureCRT ...............4 Login Through Telnet ................7 Overview of Command Lines ................10 Command View ................11 Command Syntax ................12 Interaction Feature................13 Configuring Management Information............14 Configuring the IP Address for In-Band Management.......15 Configuring the IP Address for Out-of-Band Management ....17 Configuring a Static Route ..............17 Configuring the SNMP Trap Receiver Address ........18...
Page 8 Configuring OLT Slices .................32 Background Information ..............33 Configuration Rules ................33 Uplink Port Shared Mode for OLT Slices..........35 Creating OLT Slices ................36 Configuring Slice Resources ............38 Operations on Slice Objects ............40 Slice User Management..............42 Configuring the VXLAN Service ..............45 Background Information ..............46 Configuration Rules ................46 Configuring VXLAN VTEP Globally ..........47 Configuring the VXLAN VNI Tunnel ..........48...
Page 9 10.1 Configuration Example of Data Services in the Transparent Transmission Mode.................78 10.1.1 Network Scenario .............78 10.1.2 Configuring Parameters of Data Services at the ONU Ports.................78 10.1.3 Configuring the ONU QinQ Profile ........80 10.1.4 Binding the QinQ Profile to an ONU........83 10.2 Configuration Example of Data Services in the VLAN Translation Mode ....................84...
Page 10 11.4.4 Configuring the Multicast Mode ........113 11.4.5 Configuring the Multicast VLAN........113 11.4.6 Configuring the Multicast SSM IP Address Range.... 114 11.4.7 Configuring the Source IP Address of Multicast SSM- Mapping ................. 114 11.4.8 Configuring Parameters of Multicast Service at the ONU Port ................
Page 11 14.2.5 Binding the Super VLAN with the Sub VLANs....144 14.2.6 Configuring the VLAN IP Address........145 14.2.7 Configuring the DHCP Global Switch ......146 14.2.8 Configuring the DHCP Interface Working Mode ....146 14.2.9 Configuring DHCP Server ..........147 14.2.10Configuring DHCP Relay ..........148 14.2.11Configuring DHCP Snooping...........149 14.3 Configuring DHCPv6 Relay............150 14.3.1 Background Information ..........150...
Page 12 16.1.1 Background ..............186 16.1.2 Network Scenario ............187 16.1.3 Configuration Flow............188 16.1.4 Configuration Example............188 16.2 Configuring LDP LSP..............195 16.2.1 Background Information ..........195 16.2.2 Network Scenario ............196 16.2.3 Configuration Flow............196 16.2.4 Configuration Example............197 16.3 Configuring RSVP LSP ..............205 16.3.1 Background Information ..........205 16.3.2 Network Scenario ............206 16.3.3 Configuration Flow............207 16.3.4 Configuration Example............207...
Page 13 18.4 Configuring Card Working Mode ...........260 18.5 Configuring Port Properties ............261 18.6 Adding VLANs to an Ethernet Port ..........262 18.7 Configuring an OLT QinQ Domain ..........263 18.8 Binding an OLT QinQ Domain to an Ethernet Port ......267 18.9 Configuring Multicast Service Parameters ........267 18.10 Configuration Result ..............268 19 Configuring Network Protection..............269 19.1...
Page 14 19.3.5 Configuring a Tangent Ring Protection ......319 19.4 Configuring the PON Protection ............336 19.4.1 Background Knowledge ..........336 19.4.2 Configuration Rules ............337 19.4.3 Example of Configuring the PON Port Protection .....338 19.4.4 Example of Configuring the Hand-in-Hand PON Protection ...............340 19.4.5 Example of Forced Switching ..........345 20 Configuring Agile-PON................347 20.1 Configuring Agile-PON Ports............348...
Page 15 21.5 Configuration Example for Traffic Classification Based on the PON Port ....................371 21.5.1 Configuration Flow............372 21.5.2 Configuring the Traffic Classification Rules......372 21.5.3 Configuring the Traffic Policy...........374 21.5.4 Binding the Traffic Policy to a Slot Port ......377 22 Configuring Subscriber Line Identifiers ............378 22.1 Background Information ..............379 22.2...
Page 16 26.3 Viewing Optical Module Parameters of an ONU......403 27 Commands for Upgrading the Device ............404 27.1 Commands for Upgrading Cards ...........405 27.2 Commands for Upgrading the ONU..........407 27.3 Uploading the Configuration Data..........407...
Page 17: Documentation Guide
CLI Configuration Guide introduces how to start and configure services for the AN6000 Series in CLI mode. In this manual, configuration examples are given for the AN6000-17 only. Other AN6000 Series equipment has different slot distribution, and hence should be configured according to actual situations. Intended Readers...
Page 18 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Applied to Document AN6000-7 Optical Line Terminal Equipment Quick Network deployment / network Installation Guide maintenance AN6000-15 Optical Line Terminal Equipment Quick Network deployment / network Installation Guide maintenance AN6000-17 Optical Line Terminal Equipment Quick...
Page 19: Logging Into The Device
Logging into the Device This chapter introduces how to log into the AN6000 Series. Login Through SecureCRT Login Through Telnet Version: B...
Page 20 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Login Through SecureCRT This section introduces how to log into the CLI system for the AN6000 Series through the SecureCRT tool on a PC. Prerequisites The SecureCRT tool is installed on the PC.
Page 21 2 Logging into the Device Click the Connect button to access the login GUI of the CLI system. If the PC connects to the device through Telnet, do as follows: In the Quick Connect dialog box, set Protocol to Telnet and configure the following parameters.
Page 22 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Click the Connect button to access the login GUI of the CLI system. Press <Enter> and enter the username and password to log into the CLI system. Version: B...
Page 23: Login Through Telnet
Password:***** The initial password is "GEPON". Admin# After the prompt "Admin#" appears, you can type command lines to operate the AN6000 Series. Note: If the command prompt is User, you log into the system as a common user. If the command prompt is Admin#, you log into the system as an administrator.
Page 24 In the read-only mode, users can enter the management mode via the command "enable". Password:***** The initial password of the administrator account is "GEPON". Admin# After the prompt "Admin " appears, users can type command lines to operate the AN6000 Series. Version: B...
Page 25 2 Logging into the Device Note: If the command prompt is User, you log into the system as a common user. If the command prompt is Admin#, you log into the system as as administrator. The user name is case insensitive, while the password is case sensitive.
Page 26 Overview of Command Lines This chapter introduces command modes, the command syntax and some interaction characteristics of the AN6000 Series. Command View Command Syntax Interaction Feature Version: B...
Page 27 3 Overview of Command Lines Command View Command View Directory Name Prompt Example Entry Example (Directory) Common user login user user> Common user view vsvs_id Slice 1 user login vs1> Slice user view user>enable Admin-vs1#switch vs 0 (The system will check whether Privileged user view Admin# admin...
Page 28: Command Syntax
AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Command View Directory Name Prompt Example Entry Example (Directory) Ethernet view Admin(config-if-eth- Admin(config)#interface config-if-eth- (subrack/slot/port) 1/18/1)# eth 1/18/1 frame/slot/eth Fan view Admin(config-if-fan- Admin(config)#interface config-if-fan-frame/slot (subrack/slot) 1/23)# fan 1/23 Admin(config)#interface meth 1...
Page 29 3 Overview of Command Lines Interaction Feature Intelligent Match Intelligent match allows you to type only the first one or several letters of a command keyword plus the Tab key. If a unique keyword starting with the letters entered is found, the CLI network management system will replace the letters you have entered with the complete keyword and display it in the next line, with a space between the cursor and the keyword.
Page 30 Configuring Management Information This chapter introduces how to configure management information for the AN6000 Series. Configuring the IP Address for In-Band Management Configuring the IP Address for Out-of-Band Management Configuring a Static Route Configuring the SNMP Trap Receiver Address Configuring the SNMP Time System Synchronizing Time Saving Current Configuration to the Flash Version: B...
Page 31: Planning Data
4 Configuring Management Information Configuring the IP Address for In-Band Management Command Format Configure the management VLAN. manage-vlan <name> svlan <svlan> {cvlan <cvlan>}*1 Configure the management IP address. manage-vlan ipv4 <name> <A.B.C.D/M> Add the management VLAN to the uplink port. port vlan <vlanid>...
Page 32 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Procedure Parameter Attribute Mandatory <frameid/slotid> The subrack No. / slot No. 1/19 <port-list> Mandatory Port number Viewing the The management VLAN ID, with manage-vlan [<1- Mandatory management all indicating all the management 4085>|all]...
Page 33: Configuring A Static Route
4 Configuring Management Information Configuring the IP Address for Out-of-Band Management Command Format Configure the IP address for out-of-band management. ip address <A.B.C.D> mask <A.B.C.D> View the IP address for out-of-band management. show ip address Planning Data Description Example Parameter Attribute The IP address for out-of-band ip address <A.B.C.D>...
Page 34 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Planning Data Description Example Parameter Attribute Destination IP address, used to identify the destination-ip Mandatory destination IP address or destination network of 3.3.3.0 <ipaddr> the IP packets mask [<mask>|<mask- <mask>: subnet mask Mandatory 255.255.255.0...
Page 35 4 Configuring Management Information Data Planning Description Example Parameter Attribute The IP address of the SNMP Trap 10.32.154. ip <ip-address> Mandatory receiver. {security-name <securityname>} The security name. Optional public The SNMP version, including v1, v2c, and {[v1|v2c|v3]}*1 Optional Example Set the IP address of the SNMP Trap receiver to 10.32.154.11, the security name to public, and the SNMP version to v2c.
Page 36: Synchronizing Time
AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Planning Data Description Example Parameter Attribute The automatic time calibration interval Mandatory interval <0-86400> (unit: s), ranging from 0 to 86 400. The 3260 default value is 600s. servip [ipv4|ipv6|ipv4z| The IP address type for time calibration...
Page 37 4 Configuring Management Information View the time. Admin(config)#show time Current Date is 2018-08-17 Current Time is 04:12:31 System running time is 0 day 04:11:53 Admin(config)# Saving Current Configuration to the Flash Command Format save Example Save current configuration to the Flash. Admin(config)#save Trying save configuration to flash, please wait ..
Page 38 Authorizing Cards and ONUs This chapter introduces how to authorize a card and how to authenticate and authorize an ONU. Authorizing a Card Authenticating and Authorizing an ONU Modifying the Authentication Mode and Re-authorizing an ONU Deauthorizing an ONU Version: B...
Page 39 5 Authorizing Cards and ONUs Authorizing a Card Command Format Automatically authorize all the cards detected in the hardware test. card auto-auth Authorize a specified card. card auth <frameid/slotid> <cardtype> Deauthorize a card. card unauth <frameid/slotid> View the card authorization information. show card info Planning Data Description...
Page 40 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Admin(config)# View the card authorization information. Admin(config)#show card info ---------------------AN6000-17--------------------- CARD EXIST CONFIG DETECT DETAIL EX8A NO_MATCH GM8A GM8A MATCH GM8A NO_MATCH EX8A EX8A MATCH HSCA HSCA MATCH/M HSCA GPOA GPOA...
Page 41 5 Authorizing Cards and ONUs 5.2.1 Configuring the PON Port Authentication Mode Command Format port authentication-mode <frameid/slotid/portid> mode [phyid|phy-id+psw| password|log-id|log-id+psw|no-auth|phy-id/psw|phy-id/log-id/psw|phy-id/ log-id+psw/psw] Planning Data Description Example Parameter Attribute <frameid/slotid/portid> Subrack No. / slot No. / PON port No. Mandatory 1/1/1 1/1/2 Authentication mode phyid: physical identifier authentication...
Page 42 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Set no authentication for PON Port 2 of the PON interface card in Slot 1 of Subrack 1. Admin(config)#port authentication-mode 1/1/2 mode no-auth Command executes success. Admin(config)# 5.2.2 Configuring a White List Command Format Configure a white list.
Page 43 5 Authorizing Cards and ONUs Description Example Procedure Parameter Attribute White list type phy-id: physical identifier authentication [phy-id|logic- Mandatory phy-id logic-id: logical identifier id|password] authentication Viewing the white list password: password authentication {<frameid/slo- Subrack No. / slot No. / PON port No. Optional 1/1/1 tid/portid>}*1...
Page 44 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 5.3.1 Switching the PON Port Authentication Mode Command Format port authentication-mode <frameid/slotid/portid> mode [phyid|phy-id+psw| password|log-id|log-id+psw|no-auth|phy-id/psw|phy-id/log-id/psw|phy-id/ log-id+psw/psw] Planning Data Description Example Parameter Attribute <frameid/slotid/por- Subrack No. / slot No. / PON port No.
Page 45 5 Authorizing Cards and ONUs 5.3.2 Re-configuring the White List Command Format Configure the white list. whitelist add [phy-id|logic-id|password] <sn> {[checkcode] <checkcode>}*1 {[type] <onutype>}*1 {[slot] <slotno> [pon] <ponno> [onuid] <onuid>}*1 View the white list. show whitelist [phy-id|logic-id|password] {<frameid/slotid/portid>}*1 Planning Data Description Example Procedure...
Page 46 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Example Configure the white list for ONU No. 1 connected to PON Port 1 in Slot 1, setting the logical identify of the ONU to 888888888888, the logical password to 666666, and the ONU type to 5006-04.
Page 47 5 Authorizing Cards and ONUs Example De-authorize ONU 1 under PON Port 1 in Slot 1 of Subrack 1. Admin(config)#no authorize 1/1/1 1 Command executes success. Admin(config)# 5.4.2 Deleting an ONU from the Physical Identifier White List Command Format no whitelist [phy-id|logic-id|password] <slotno> <ponno> <sn> {<checkcode>} Planning Data Description Example...
Page 48 Configuring OLT Slices This chapter introduces how to configure OLT slices for the AN6000 Series. Background Information Configuration Rules Uplink Port Shared Mode for OLT Slices Creating OLT Slices Configuring Slice Resources Operations on Slice Objects Slice User Management Version: B...
Page 49: Background Information
Configuration Rules The following describes the rules for configuring OLT slices: At most seven virtual OLTs can be created for the AN6000 Series, in addition to the entity OLT. That is, there are altogether eight OLT slices. For each OLT slice, at least one service card (or service port) and one uplink card (or uplink port) should be selected.
Page 50 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Slicing based on cards, PON ports, ONUs or combination of them is supported. The smallest granularity for slicing is ONU. When OLT slices are created, the ONUs involved will be migrated to the OLT slices, and the services concerned may be interrupted for a short period of time.
Page 51 6 Configuring OLT Slices An uplink port shared based VLAN ID can be allocated to multiple slices during allocation of the OLT slice objects. In the configuration for Add vlan to port, make sure that the VLAN IDs of multiple slices added to the port are not repeated.
Page 52 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Planning Data Description Example Procedure Parameter Attribute Uplink port shared mode for OLT slices vs-sharing-mode Configuring the not-share: not shared [not-share|svlan- Mandatory uplink port shared svlan-id: shared based on svlan-id id|vnid]...
Page 53 6 Configuring OLT Slices Note: Enter the vs directory. If no slice exists, create one. View the slice information. show vs info [<vs-id>|all] Delete an OLT slice. no vs <vs-id> Configure the alarm report mode of an OLT slice. alarm-report-mode <0-1> View the alarm report mode of an OLT slice.
Page 54 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Admin(config-vs-1)# Create OLT Slice 2 and enter the slice directory. Admin(config-vs-1)#vs 2 create vs 2 success! Admin(config-vs-2)# View the information about Slice 1. Admin(config)#show vs info 1 ------------------------- Vs Information ---------------------...
Page 55 6 Configuring OLT Slices resource [mac|mc-group|vlan|terminal-user] max-count <count> View the slice resources. show resource info Planning Data Description Example Parameter Attribute mac: learning the MAC address dynamically resource [mac| mc-group: multicast termin- mc-group|vlan| Mandatory vlan address group al-user terminal-user] vlan: service VLAN terminal-user: quantity of accounts Maximum quantity...
Page 56 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Admin(config-vs-1)#resource terminal-user max-count 5 Set vs 1 resource success! Admin(config-vs-1)# View the slice resources. Admin(config-vs-1)#show resource info -------------------------- Vs Information ------------------------ cur/max(user) cur/max(ser-vlan) cur/max(mac) cur/max(mc-group) 0/3000 --/2000 --/1000 Admin(config-vs-1)# Operations on Slice Objects Command Format Assign the slice object.
Page 57 6 Configuring OLT Slices Planning Data Description Example Procedure Parameter Attribute frameid/slotid: subrack No. / [<frameid/slo- slot No. tid>| Mandatory frameid/slotid/portid: 1/4/3 1/2/1 1/18/1 <frameid/slo- Assigning the subrack No. / slot No. / port tid/portid>] slice object PON port No. or ONU {<list>}*1 Optional authorization No.
Page 58 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide View the list of ONUs assigned to Slice 1. Admin(config-vs-1)#show onu-list SLOT VSID ------- ------- ------- ------- ---------------------------------- Admin(config-vs-1)# View the information about the slice to which ONU 1 under PON Port 1 in Slot 2 of Subrack 1 is assigned.
Page 59 6 Configuring OLT Slices Disable a user. terminal user enable <username> [enable|disable] Planning Data Description Example Parameter Attribute Mandatory vs <id> Slice ID <username> Mandatory user1_vs1 Slice user name <password> Slice password Mandatory user1_vs1 User level, ranging from 0 to 15. Mandatory <level>...
Page 60 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide View the currently logged-in slice users. Admin-vs1(config)#who SessionID.- UserName -LOCATION ----UserLevel-VSId-MODE -- 5673 user1_vs1 10.32.155.11 15 CONFIG(That's me.) 5997 user_vs1 10.32.155.11 15 CONFIG Total 2 sessions in current system. Admin-vs1(config)# Disable user1_vs1.
Page 61 Configuring the VXLAN Service This chapter introduces how to configure the VXLAN service for the AN6000 Series. Background Information Configuration Rules Configuring VXLAN VTEP Globally Configuring the VXLAN VNI Tunnel VXLAN Mapping Rules Configuring the Head-End Replication Table for the VXLAN Tunnel...
Page 62: Configuration Rules
AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Background Information VXLAN is a tunnel technology using the MAC-in-UDP encapsulation. Data packets are encapsulated in the UPD via the VXLAN tunnel endpoints (VTEP); while the IP and MAC addresses used on the physical network are encapsulated in the outer header.
Page 63 7 Configuring the VXLAN Service Configuring VXLAN VTEP Globally Command Format Configure the VXLAN VTEP globally. vxlan-vtep <vtep-name> vtep-ip <vtep-ip> mask <mask-len> flood-learning [enable] View the global configuration of VXLAN VTEP. show vxlan-vtep <vtep-name> Delete the global configuration of VXLAN VTEP. no vxlan-vtep <vtep-name>...
Page 64 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Configuring the VXLAN VNI Tunnel Command Format Configure the VXLAN tunnel. vxlan-tunnel vni <vnid> type [e-lan|e-line] peer-ip <peer-ip> bum-mode <bum- mode> multicast-address <mc-addr> tunnel-vlan <outer-vlan> user-vlan- policy [untagged|tagged] View the VXLAN tunnel.
Page 65 Admin(config)#no vxlan-tunnel 1 Admin(config)# VXLAN Mapping Rules Background Information The AN6000 Series equipment supports flexible mapping of tunnels, specifically objects (including PON service cards, PON ports and ONUs) mapped into VNIs and slices mapped into VNIs. Command Format Configure the VXLAN mapping rules.
Page 66 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Parameter Attribute Optional <slot-no> Slot No. <pon-no> Optional PON No. Optional <onu-no> The VLAN ID, ranging from 0 to 4095 Optional <vlan-id> 4050 Example Configure the VNI mapping type as slices mapped into VNIs, setting the mapped tunnel VXLAN ID to 1.
Page 67 7 Configuring the VXLAN Service Delete the head-end replication table for the VXLAN tunnel. no vxlan-headend <vnid> Planning Data Description Example Parameter Attribute Mandatory <vnid> The VXLAN ID of the local end tunnel peer-ip <peer-ip> Mandatory Peer VTEP IP address 10.10.10.10 Example Configure the head-end replication table for the VXLAN tunnel.
Page 68 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Planning Data Description Example Parameter Attribute Mandatory <vnid> The VXLAN ID of the local end tunnel The service flow direction for remapping direction <qos- Mandatory 0: uplink direc> 1: downlink Remapping type 0: from 8021P to 8021P type <qos-type>...
Page 69 7 Configuring the VXLAN Service View static MAC address table entries for the VXLAN. show vxlan-mac Delete static MAC address table entries for the VXLAN. no vxlan-mac <mac-addr> vlan-id <vlan-id> vni <vn-id> peer-ip <peer-ip> Planning Data Description Example Parameter Attribute The MAC address of the opposite end Mandatory <mac-addr>...
Page 70: Basic Configurations
Basic Configurations This chapter introduces how to configure basic parameters such as the VLAN service channel for the AN6000 Series. Configuring Local End Outer VLAN Data Adding Ports to the VLAN Disabling Suppression of Multicast Packets at the Uplink Port...
Page 71 8 Basic Configurations Configuring Local End Outer VLAN Data Command Format Configure local end outer VLAN data. service-vlan <name> <vlanbegin> {[to]<vlanend>}*1 {[type]<value>}*1 View the configuration data of local end outer VLAN. show service-vlan {<name>} Planning Data Description Example Parameter Attribute The service VLAN name.
Page 72 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Admin(config)#service-vlan ngn1 300 type ngn Admin(config)# View the configuration data of local end outer VLAN. Admin(config)#show service-vlan servicevlan 101 : name : data1, type : data vlan range: 500 #####end. servicevlan 102 :...
Page 73 8 Basic Configurations Description Example Parameter Attribute Configure the tag processing mode for the uplink service VLAN. Two options are available: untag and tag. In the untag mode, the tags of the uplink packets will be stripped automatically when they pass the port and the packets will be [tag|untag] further transmitted in the untagged mode, Mandatory...
Page 74 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Planning Data Description Example Parameter Attribute <frameid/slotid/- Subrack No. / slot No. / port No. Mandatory 1/19/3 portid> broadcast: broadcast packets [broadcast| multicast: multicast service multicast|unknown| Mandatory multicast unknown: unknown unicast packets...
Page 75: Configuring Voice Services
Configuring Voice Services This chapter introduces how to configure voice services for the AN6000 Series. Configuration Example of Voice Services Optional Functions Version: B...
Page 76 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Configuration Example of Voice Services This section introduces how to configure H.248 and SIP voice services using examples. 9.1.1 Configuring the H.248 Voice Service Command Format Configure parameters of the H.248 uplink interface.
Page 77 9 Configuring Voice Services userthd <value>}*1 {[heart] [notify|change]}*1 {[tripartmode] <value>}*1 {[signaldscp] <value> rtpdscp <value> minport <value> maxport <value> portstep <value>}*1 {[portreg] [disable|enable]}*1 Bind the softswitch platform interconnection profile. (optional) onu ngn-iad-softswitch-profile <onulist> profile <profile-name> Configure voice service parameters of the ONU. onu ngn-voice-service <onuno>...
Page 78 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Procedure Parameter Attribute {[dhcp] [enable| Optional The DHCP function switch. disable]}*1 {[sip-reg-addr] The SIP registrar server address. Optional <addr>}*1 The port number of the SIP registrar, that is, the protocol port number of the...
Page 79 9 Configuring Voice Services Description Example Procedure Parameter Attribute The public network gateway IP address {[public-gate] of the ONU. Configure this item ipv4 10.90. [ipv4|ipv6] Optional according to the operator s network 1.154 <ipaddress>}*1 planning. {[pppoeuser] Optional The PPPoE user name. <name>...
Page 80 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Procedure Parameter Attribute {[user-index] The index ID, ranging from 0 to 40000. Optional <value>}*1 ngn-softswitch- The name of the NGN softswitch profile Mandatory ngn1 platform interconnection profile. <profilename> The fixed part of the RTP resource Mandatory fixed <value>...
Page 81 9 Configuring Voice Services Description Example Procedure Parameter Attribute The flash duration (ms). Mandatory flashthd <value> The RFC2833 negotiation state. 2833n [disable| disable: no auto-negotiation Mandatory disable enable] enable: auto-negotiation Mandatory 2833d <value> The default RFC2833 PT. Mandatory 2198d <value> The default RFC2198 PT.
Page 82 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Procedure Parameter Attribute minport <value> The minimum port number for RTP flow. Optional The maximum port number for RTP maxport <value> Optional flow. portstep <value> The step of the RTP flow port number.
Page 83 9 Configuring Voice Services Description Example Procedure Parameter Attribute {[dtmf] [transparent| Optional The DTMF mode. rfc2833|sip]}*1 {[heartbeat] The heartbeat function. [enable| Optional enable: Enable the function. disable]}*1 disable: Disable the function. [potsqinqstate] The SVLAN state (enabled or disabled). Optional [enable|disable] Optional svlanid <0-4085>...
Page 84 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide calleridm fsk onhkdt 600 dailtonett 60 noanstt 60 busytonett 60 rohtt 60 retrantt 25 ecm disable l chinese id 1 Admin(config)# Bind the softswitch platform interconnection profile. Admin(config-if-pon-1/2/1)#onu ngn-iad-softswitch-profile 1 profile ngn1 Admin(config-if-pon-1/2/1)# Configure voice service parameters of the ONU.
Page 85 9 Configuring Voice Services ngn-uplink-user-port phone <value> {[username] <name>}*1 {[sip-user-name] <name>}*1 {[sip-user-password] <password>}*1 {[user-index] <value>}*1 Configure voice service parameters of the ONU. onu ngn-voice-service <onuno> pots <portno> phonenum <num> {[vid] <vid>}*1 {[code-mode] [g.711m|g.711a|g.723|g.729]}*1 {[fax-mode] [transparent| t.38]}*1 {[slience] [enable|disable]}*1 {[echo-cancel] [enable|disable]}*1 {[input-gain] <num>}*1 {[voice-value] <value>}*1 {[dtmf] [transparent| rfc2833|sip]}*1 {[heartbeat] [enable|disable]}*1 {[potsqinqstate] [enable| disable] svlanid <0-4085>}*1 {[service-cos] <value>}*1 {[customer-cos]...
Page 86 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Procedure Parameter Attribute The port number of the SIP registrar, that is, the protocol port number of the {[sip-reg-port] Optional MG registered to the SIP registrar. The 5060 <0-65535>}*1 value ranges from 0 to 65535, and the default value is 5060.
Page 87 9 Configuring Voice Services Description Example Procedure Parameter Attribute {[pppoeuser] Optional The PPPoE user name. <name> }*1 {[password] The PPPoE user password. Optional <pwd>}*1 {[dhcp-option60] The DHCP Option60 state (enabled or [enable| Optional disabled). disable]}*1 {[dhcp-value] The DHCP Option60 suffix. Optional <value>}*1 The end point domain name / SIP user...
Page 88 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Procedure Parameter Attribute Mandatory <onuno> The ONU authorization number. pots <portno> The POTS port number. Mandatory phonenum <num> The telephone number. Optional 88880003 {[vid] <vid>}*1 Optional The VLAN ID.
Page 89 9 Configuring Voice Services Description Example Procedure Parameter Attribute {[service-cos] Optional The outer CoS. <value>}*1 {[customer-cos] Optional The inner CoS. <value>}*1 {[fax-control] The fax control mode. [passthrough| passthrough: voice path Optional softswitch| softswitch: softswitch full control autovbd]}*1 autovbd: auto negotiation The bill type.
Page 90: Optional Functions
AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Optional Functions This section introduces how to configure optional functions for voice services on the AN6000 Series. 9.2.1 Configuring NGN Heartbeat Parameters Command Format ngn-keepalive service <name> aliveinterval <1-65535> alivetimes <1-65535>...
Page 91: Planning Data
9 Configuring Voice Services Planning Data Description Example Parameter Attribute The end point domain name. It should be consistent with the endpoint domain name Mandatory domain <name> 10.90.60.2 configured in the NGN uplink user parameter. md5-state [enable| The MD5 state. Configure this item according to Mandatory enable disable]...
Page 92 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Planning Data Description Example Procedure Parameter Attribute The digitmap, no longer than <bitmap> Mandatory 12345677777 128 bytes Configuring the digitmap {id <index> The ID and name of the Optional 3, wang <name>}*1...
Page 93 Configuring Data Services This chapter introduces how to configure data services for the AN6000 Series. Configuration Example of Data Services in the Transparent Transmission Mode Configuration Example of Data Services in the VLAN Translation Mode Configuration Example of Data Services in the TAG Mode...
Page 94 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 10.1 Configuration Example of Data Services in the Transparent Transmission Mode This section uses an example to introduce how to configure data services in the transparent transmission mode. 10.1.1 Network Scenario Service Planning The subscribers are accessed via the ONUs.
Page 95 10 Configuring Data Services Configure the type of service at the ONU port. onu port vlan <onulist> eth <onu-port> service <serviceid> type [multicast| unicast] Note: The default service type is unicast. If multicast service is used, you need to configure it. Configure the VLAN mode for the service at the ONU port.
Page 96 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Admin(config-if-pon-1/1/1)# Configure the VLAN mode for Port 1 of ONU 1, setting the service ID to 1, service VLAN mode to transparent transmission, priority level to 7, tag protocol identifier to 33024, and VLAN ID to 100.
Page 97 10 Configuring Data Services Description Example Parameter Attribute The rule domain type. The value ranges from 0 to 0 (Src Mac): source MAC address 1 (Dst Mac): destination MAC address 2 (Src IPv4): source IP address 3 (Dst IPv4): destination IP address 4 (VID): VLAN ID 5 (Ethernet Type): Ethernet type 6 (Protocol Type): IP protocol type...
Page 98 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Parameter Attribute displayed before the brackets, while the rule domain value is inside the brackets. 0: the source MAC address (6 bytes) 1: the destination MAC address (6 bytes)
Page 99 10 Configuring Data Services Description Example Parameter Attribute The operator, which is an integer ranging from 0 to 6 0 indicates equal to (=). 1 indicates not equal to (! =). 2 indicates equal to or smaller than (< ). <operator>...
Page 100 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Parameter Attribute <qinq-classification- QinQ profile name Optional qinq profile> <service-profile> Optional Service VLAN name data1 Example Enable the QinQ function for Service 1 at Port 1 of ONU 1, setting the priority of the service to 7, the TPID to 33024, the SVLAN to 500, the QinQ profile name to qinq and the service VLAN name to data1.
Page 101 10 Configuring Data Services In the uplink direction, the data services uploaded by the two subscribers' PCs are added with different CVLAN IDs by the home gateways and uplinked to the ONU. The ONU translates the CLVAN IDs and transmits the data services to the OLT via the splitters.
Page 102 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide oltqinq-domain <name> service <1-8> classification downstream {field-id <1- 27> value <value> condition <condition>}*4 Configure the service VLAN for the QinQ domain. oltqinq-domain <name> service <1-8> {vlan <1-4> user-vlanid [<0-4085>|null] user-cos [<0-7>|null] [add|translation|transparent] tpid <tpid> cos [<cos>| null] vlanid [<vlanid>|null]}*4...
Page 103 10 Configuring Data Services Description Example Procedure Parameter Attribute The uplink rule type. Altogether 27 types are provided and the default one is 1. 1: DA (destination MAC address) 2: SA (source MAC address) 3: ethtype (Ethernet type) 4: vlan4 (Layer 4 VLAN) 5: vlan3 (Layer 3 VLAN) 6: vlan2 (Layer 2 VLAN) 7: vlan1 (Layer 1 VLAN)
Page 104 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Procedure Parameter Attribute The domain value corresponding to 000000- 000000- the uplink rule. Enter the value Mandatory value <value> 000000 000000 according to the domain type. The uplink operator. The value ranges from 0 to 7, and the default value is 5.
Page 105 10 Configuring Data Services Description Example Procedure Parameter Attribute The downlink rule type. Altogether 27 types are provided and the default one is 1. 1: DA (destination MAC address) 2: SA (source MAC address) 3: ethtype (Ethernet type) 4: vlan4 (Layer 4 VLAN) 5: vlan3 (Layer 3 VLAN) 6: vlan2 (Layer 2 VLAN) 7: vlan1 (Layer 1 VLAN)
Page 106 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Procedure Parameter Attribute The value of the selected downlink 000000- 000000- domain. Enter the value according Mandatory value <value> 000000 000000 to the domain type. The downlink operator. The value ranges from 0 to 7, and the default value is 5.
Page 107 10 Configuring Data Services Description Example Procedure Parameter Attribute vlanid The new VLAN ID. null: no [<vlanid>| Mandatory configuration. The value ranges 1000 null] from 1 to 4085. Example Create a QinQ domain named qinqdomain. Admin(config)#oltqinq-domain add qinqdomain Set the service quantity to 2 for the QinQ domain named qinqdomain. Admin(config)#oltqinq-domain modify qinqdomain service-count 2 Configure the uplink rule for the OLT QinQ domain qinqdomain.
Page 108 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Configure the downlink rule for the OLT QinQ domain qinqdomain. Configure the second service, setting the downink rule type to 1, the selected downlink domain value to the MAC address 000000000000, and the uplink operator to 5.
Page 109 10 Configuring Data Services onu port vlan <onulist> eth <onu-port> service count <service-count> Configure the type of service at the ONU port. onu port vlan <onulist> eth <onu-port> service <serviceid> type [multicast| unicast] Note: The default service type is unicast. If multicast service is used, you need to configure it.
Page 110: Service Planning
AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Example Configure the ONU with the authorization number 1 under PON Port 1 in Slot 1 of Subrack 1, adding a service to Port 1 of the ONU. Admin(config-if-pon-1/1/1)#onu port vlan 1 eth 1 service count 1...
Page 111: Network Diagram
10 Configuring Data Services The TAG mode is applied to the subscriber packets, with the outer VLAN identifying services and the inner VLAN identifying subscribers. Network Diagram The network diagram for the data service in the TAG mode is shown in the figure below.
Page 112 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide oltqinq-domain <name> service <1-8> {vlan <1-4> user-vlanid [<0-4085>|null] user-cos [<0-7>|null] [add|translation|transparent] tpid <tpid> cos [<cos>| null] vlanid [<vlanid>|null]}*4 Planning Data Description Example Procedure Parameter Attribute Creating a QinQ Mandatory qinqdomain <name>...
Page 113 10 Configuring Data Services Description Example Procedure Parameter Attribute The uplink rule type. Altogether 27 types are provided and the default one is 1. 1: DA (destination MAC address) 2: SA (source MAC address) 3: ethtype (Ethernet type) 4: vlan4 (Layer 4 VLAN) 5: vlan3 (Layer 3 VLAN) 6: vlan2 (Layer 2 VLAN) 7: vlan1 (Layer 1 VLAN)
Page 114 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Procedure Parameter Attribute The uplink operator. The value ranges from 0 to 7, and the default value is 5. 0: Never (never match) 1: = (equal to) 2: != (not equal to)
Page 115 10 Configuring Data Services Description Example Procedure Parameter Attribute The downlink rule type. Altogether 27 types are provided and the default one is 1. 1: DA (destination MAC address) 2: SA (source MAC address) 3: ethtype (Ethernet type) 4: vlan4 (Layer 4 VLAN) 5: vlan3 (Layer 3 VLAN) 6: vlan2 (Layer 2 VLAN) 7: vlan1 (Layer 1 VLAN)
Page 116 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Procedure Parameter Attribute The downlink operator. The value ranges from 0 to 7, and the default value is 5. 0: Never (never match) 1: = (equal to) 2: != (not equal to)
Page 117 10 Configuring Data Services Example Create a QinQ domain named qinqdomain. Admin(config)#oltqinq-domain add qinqdomain Set the service quantity to 1 for the QinQ domain named "qinqdomain". Admin(config)#oltqinq-domain modify qinqdomain service-count 1 Configure the uplink rule for the OLT QinQ domain "qinqdomain". Configure the first service, setting the uplink rule type to 1, the selected uplink domain value to the MAC address 000000000000, the uplink operator to 5, and the service ID to 1.
Page 118 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Example Bind the domain "qinqdomain" to ONU 1 under PON Port 1 in Slot 1 of Subrack 1. Admin(config-if-pon-1/1/1)#onu oltqinq-domain 1 qinqdomain Admin(config-if-pon-1/1/1)# 10.3.4 Configuring Parameters of Data Services at the ONU...
Page 119 10 Configuring Data Services Description Example Procedure Parameter Attribute The service VLAN mode [tag| tag: the TAG identifier Mandatory transparent] transparent: transparent transmission The CVLAN priority, ranging from 0 to 7. priority Mandatory 7 stands for the highest priority level, and <priority>...
Page 120 Configuring Multicast Services This chapter introduces how to configure multicast services for the AN6000 Series. Background Information Configuration Rules Configuration Example of Multicast Services Configuration Example of SSM Multicast Services Optional Functions Version: B...
Page 121: Background Information
The AN6000 Series support processing multicast protocol packets (including those requesting joining / leaving a multicast group and those for querying). The AN6000 Series support VLAN adding or translation for the subscriber protocol packets. The multicast mode is based on the VLAN. Different multicast modes can be set for different VLANs on the same equipment.
Page 122 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 11.3 Configuration Example of Multicast Services This section uses an example to introduce how to configure multicast services in the proxy-snooping mode. 11.3.1 Network Scenario Service Planning Two subscribers are connected to the GPON ONU, and they can use the set top boxes (STB) to watch IPTV programs.
Page 123: Configuring The Multicast Mode
11 Configuring Multicast Services 11.3.2 Configuration Flow Prerequisites The VLAN service channel has been created. Please refer to Basic Configurations for the creation method. Configuration Flow 11.3.3 Configuring the Multicast Mode Command Format igmp mode [control|proxy-proxy|snooping|proxy-snooping|disable] Data Planning Description Example Parameter Attribute The multicast mode.
Page 124 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Example Set the multicast mode to proxy-snooping mode. Admin(config-igmp)#igmp mode proxy-snooping Admin(config-igmp)# 11.3.4 Configuring the Multicast VLAN Command Format igmp vlan {[default]}*1 {<value>}*1 Planning Data Description Example Parameter Attribute igmp vlan...
Page 125 11 Configuring Multicast Services Note: The default service type is unicast. If multicast service is used, you need to configure it. Configure the VLAN mode for the service at the ONU port. onu port vlan <onulist> eth <onu-port> service <serviceid> [tag|transparent] priority <priority>...
Page 126 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Admin(config-if-pon-1/1/1)#onu port vlan 1 eth 1 service count 1 Admin(config-if-pon-1/1/1)# Set the type of Service 1 at Port 1 of ONU 1 to "multicast". The ONU is connected to PON Port 1 in Slot 1 of Subrack 1.
Page 127 11 Configuring Multicast Services In the downlink direction, the multicast SPT (Shortest Path Tree) is set up between the multicast source and the OLT equipment. The multicast source 10.90.20.1 provides the SSM service for the subscriber connected to the OLT. The ONU strips the VLAN tag from the multicast packets and then forwards the packets to the set top box on the subscriber side.
Page 128 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Configuration Flow 11.4.3 Configuring the Multicast Protocol Version Command Format igmp version [v1|v2|v3] Planning Data Description Example Parameter Attribute The multicast protocol version igmp version [v1|v2| v1: IGMP Version 1 Mandatory...
Page 129 11 Configuring Multicast Services Example Set the multicast protocol version to IGMP Version 3. Admin(config-igmp)#igmp version v3 Admin(config-igmp)# 11.4.4 Configuring the Multicast Mode Command Format igmp mode [control|proxy-proxy|snooping|proxy-snooping|disable] Data Planning Description Example Parameter Attribute The multicast mode. igmp mode [control| control: controlled mode proxy-proxy| proxy-proxy: proxy-proxy mode...
Page 130 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Example Set the multicast VLAN to 1000. Admin(config-igmp)#igmp vlan 1000 Admin(config-igmp)# 11.4.6 Configuring the Multicast SSM IP Address Range Command Format igmp-ssm ip-range <ipaddr/m> Planning Data Description Example Parameter Attribute igmp-ssm ip-range The SSM IP address range, i.e., the multicast...
Page 131 11 Configuring Multicast Services Example Set the source IP address of multicast SSM-Mapping to 10.90.20.1. Admin(config-igmp)#igmp ssm-map 10.90.20.1 Admin(config-igmp)# 11.4.8 Configuring Parameters of Multicast Service at the ONU Port Command Format Configure the quantity of services at the ONU port. onu port vlan <onulist>...
Page 132 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Procedure Parameter Attribute Type of service at the ONU port type [multicast| Mandatory multicast: multicast service multicast unicast] unicast: unicast service service The service ID, ranging from 1 to 10 Mandatory <serviceid>...
Page 133 11 Configuring Multicast Services 11.5 Optional Functions This section introduces how to configure optional functions for the multicast service on the AN6000 Series. 11.5.1 Configuring the Multicast Cascade Port Command Format igmp cascade slot <slotno> port <portno> Planning Data Description...
Page 134 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Planning Data Description Example Parameter Attribute Configuring multicast protocol parameters igmp parameters robustness: the robustness parameter [robustness|old| old: the aging time for the group member last-query- last-query-interval: the last query interval...
Page 135 11 Configuring Multicast Services Description Example Parameter Attribute {[control] [enable| Optional The controlled mode. Enable or disable the mode. disable]}*1 {[bandwidth] <0- The maximum bandwidth. The value ranges from 0 Optional 100000>}*1 to 100000. The leaving mode. {[leave] [fast|non- fast: leaving fast Optional non-fast fast]}*1...
Page 136 Configuring Wi-Fi Services This chapter introduces how to configure Wi-Fi services for the AN6000 Series. Network Scenario Configuration Flow Configuring WAN Connection Service at a TL1 Interface Configuring a Wi-Fi Service Version: B...
Page 137 12 Configuring Wi-Fi Services 12.1 Network Scenario Service Planning Use the ONU supporting the Wi-Fi function to provide the Wi-Fi connection service for fiber broadband family subscribers and access other user terminals. Network Diagram The figure below shows the network diagram for the Wi-Fi service on the AN6000 Series.
Page 138 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Configuration Flow 12.3 Configuring WAN Connection Service at a TL1 Interface Format onu wan-cfg <onuid> index <value> mode [tr069|internet|tr069-internet| other|multi|voip|voip-internet|iptv|radius|radius-internet|unicast- iptv|multicast-iptv] type [bridge|route] <vid> <cos> nat [enable|disable] qos [enable|disable] {vlanmode [tag|transparent] tvlan [enable|disable] <tvid>...
Page 139 12 Configuring Wi-Fi Services Description Example Parameter Attribute mode [tr069| internet|tr069- internet|other| multi|voip|voip- Mandatory WAN connection mode internet internet|iptv| radius|radius- internet|unicast- iptv|multicast-iptv] WAN connection type bridge: Layer 2 bridge connection type [bridge|route] Mandatory route mode route: Layer 3 route connection mode VLAN ID for the WAN connection;...
Page 140 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Parameter Attribute {[dhcp]}*1 Optional dhcp DHCP mode switch {[dhcp-remoteid] DHCP remote identifier, a character string Optional <dhcp-remoteid>}*1 no longer than 10 bytes [static] Optional Static mode switch ip <A.B.C.D>...
Page 141 12 Configuring Wi-Fi Services Description Example Parameter Attribute {[pppoe-authmode] [pap|chap|mschap| Optional PPPoE authentication mode auto]}*1} PPPoE idle timeout (specifies how long the {[pppoe-idletime] PPPoE connection remains up without Optional <value>}*1 transmitting data before disconnecting); value range: 0 to 2000 [ipv6-address] Optional IPv6 address for the WAN connection <ip/mask>...
Page 142 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 12.4 Configuring a Wi-Fi Service Format Configure a Wi-Fi service on an ONU. onu wifi attribute <onuid> {[serv-no] <servno>} wifi [enable|disable] district [etsi|fcc|thailand|philippines|indonesia|brazil|india|armenia| malaysia|pakistan|russian|china|chile|usa|myanmar|ecuador|colombia| argentina|stilanka|iran|yemen|saudiarabia|kuwait|iraq] channel <0-165> {[standard] [802.11b|802.11g|802.11b/g|802.11n|802.11bgn|802.11a| 802.11an|802.11ac]}*1 {[txpower] [<0-40>|<65535>]}*1 {[frequency][2.4ghz| 5.8ghz]}*1 {[freq-bandwidth] [20mhz|40mhz|20mhz/40mhz|80mhz]}*1...
Page 143 12 Configuring Wi-Fi Services Description Example Procedure Parameter Attribute Wireless area; default setting: etsi etsi: Europe (ETSI) fcc: North America (FCC) thailand: THAILAND district [etsi| philippines: PHILIPPINES fcc|thailand| indonesia: INDONESIA philippines| brazil: BRAZIL indonesia| india: INDIA brazil|india| armenia: ARMENIA armenia| malaysia: MALAYSIA malaysia| pakistan: PAKISTAN...
Page 144 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Procedure Parameter Attribute Tx power (unit: dBm) 4: 20% 8: 40% 12: 60% 16: 80% {[txpower] [<0- Optional 20: 100% 40>|<65535>]}*1 24: 120% 28: 140% 32: 160% 36: 180% 40: 200% {[frequency][2.
Page 145 12 Configuring Wi-Fi Services Description Example Procedure Parameter Attribute Switch for hiding or unhiding an SSID. If the SSID is hidden, the user's PC will not find it. Nevertheless, the user hide [enable| can connect the PC to the wireless Mandatory enable disable]...
Page 146 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Procedure Parameter Attribute WEP key length (unit: bit). This field is [wep-length] Optional valid only when the encryption mode [40bit|104bit] is WEP. Key index. This field is valid only when key-index <1-4>...
Page 147 12 Configuring Wi-Fi Services Admin(config-if-pon-1/1/1)# Version: B...
Page 148 Configuring CATV Services This chapter introduces how to configure CATV services for the AN6000 Series. Network Scenario Starting up the CATV Service Version: B...
Page 149 13 Configuring CATV Services 13.1 Network Scenario The CATV service uses the WDM technology. Via a multiplexer, the TV signal is multiplexed with the data signal and voice signal. The downlink data wavelength is 1490 nm, the uplink data wavelength is 1310 nm, and the CATV signal wavelength is 1550 nm.
Page 150 Configuring Layer 3 Protocols This chapter introduces how to configure Layer 3 protocols for the AN6000 Series. Configuring ARP Proxy Configuring DHCP Configuring DHCPv6 Relay Version: B...
Page 151: Configuring Arp Proxy
14 Configuring Layer 3 Protocols 14.1 Configuring ARP Proxy This section introduces how to configure the ARP proxy for the AN6000 Series. 14.1.1 Background Information The Address Resolution Protocol (ARP) is an Internet protocol to map IP addresses into MAC addresses. IP address is the network-layer address of a computer. To send the network-layer data packets to the destination computer, the sending device must also know the physical address, i.e.
Page 152: Configuration Rules
AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 14.1.2 Configuration Rules The ARP proxy can be configured flexibly according to network planning. The configuration rules are as follows: Supports binding with multiple VLANs. Supports binding crossing network segments. Supports binding with multiple VLANs crossing network segments.
Page 153 14 Configuring Layer 3 Protocols Two subscriber PCs, which belong to the same VLAN with the ID 1000, are connected to the OLT equipment via ONUs.The IP addresses of the two PCs are 10.90.10.1 and 10.90.10.2 respectively. Configure a Super VLAN and a Sub VLAN at the OLT equipment, and bind them together.
Page 154: Command Format
AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide super-vlan <svid> add sub-vlan <vid-begin> {<vid-end>}*1 Planning Data Description Example Procedure Parameter Attribute super-vlan <1 The Super VLAN ID, ranging from 1 to Creating a Super Mandatory 4095> VLAN 4095 super-vlan...
Page 155: Configuring Dhcp
Configure the ARP proxy function for Super VLAN 10: Enable route ARP and intra- Sub VLAN ARP, and disable inter-Sub VLAN ARP. Admin(config)#arp-switch 10 route enable inner-subvlan enable among-subvlan disable Admin(config)# 14.2 Configuring DHCP This section introduces how to configure the DHCP for the AN6000 Series. Version: B...
Page 156 14.2.2 Configuration Rules The rules for configuring the DHCP service for the AN6000 Series are as follows: When serving as the DHCP Relay, the OLT can either be the DHCP proxy only or be both the DHCP proxy and the gateway. Under both conditions, the Super...
Page 157 After confirming that the IP addresses are available, the OLT will allocate them to the users. 14.2.3 Network Scenario Background Information The AN6000 Series supports abundant DHCP functions, which can be deployed flexibly to meet varied service demands. Version: B...
Page 158: Network Diagram
DHCP request messages received from the DHCP client to the DHCP server, and prevents the DHCP server spoofing by filtering the response packets received from the DHCP server. Network Diagram The network diagram for the DHCP service carried by the AN6000 Series is shown in the figure below. Version: B...
Page 159 14 Configuring Layer 3 Protocols 14.2.4 Configuration Flow Prerequisites The VLAN service channel has been created. Please refer to Basic Configurations for the creation method. Version: B...
Page 160 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Configuration Flow 14.2.5 Binding the Super VLAN with the Sub VLANs Command Format Create a Super VLAN. super-vlan <1 4095> Bind the Super VLAN with the Sub VLANs. super-vlan <svid> add sub-vlan <vid-begin> {<vid-end>}*1...
Page 161 14 Configuring Layer 3 Protocols Description Example Procedure Parameter Attribute The starting value of the Sub VLAN ID sub-vlan <vid- Mandatory range. The value ranges from 1 to 2000 begin> 4085. The ending value of the Sub VLAN ID {<vid-end>}*1 Optional range.
Page 162 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 14.2.7 Configuring the DHCP Global Switch Command Format dhcp global [enable|disable] Planning Data Description Example Parameter Attribute dhcp global [enable| Enable or disable the DHCP function globally. Mandatory enable disable] Example Enable the DHCP function.
Page 163: Configuring Dhcp Server
14 Configuring Layer 3 Protocols 14.2.9 Configuring DHCP Server This section introduces how to configure the DHCP server. 14.2.9.1 Configuring the IP Address Pool Command Format dhcp server ip-pool <poolid> begin-ip <ipaddr> end-ip <ipaddr> mask [<ipaddr>|<mask-length>] gateway <ipaddr> Planning Data Description Example Parameter...
Page 164: Configuring Dhcp Relay
AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Planning Data Description Example Parameter Attribute The address pool ID. The value ranges from 1 to ip-pool <poolid> Mandatory dns-server <ipaddr> Mandatory Address of the DNS server 10.19.8.10 Example Set the DNS address of the DHCP server's global address pool 1 to 10.19.8.10.
Page 165: Configuring Dhcp Snooping
14 Configuring Layer 3 Protocols 14.2.10.2 Configuring Option 60 Information for the Port Command Format dhcp super-vlan <svlanid> relay-ip <ipaddr> option60 <str> Planning Data Description Example Parameter Attribute The configured Super VLAN ID. Configure the super-vlan <svlanid> Mandatory Layer 3 interface bound with the VLAN ID. The IP address of the Relay.
Page 166 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Example Admin(config-dhcp)#dhcp snooping enable Admin(config-dhcp)# 14.2.11.2 Configuring the DHCP Snooping Trusted Port Command Format dhcp snooping {[port] <portlist> [trust|untrust]}*1 {[serv] <ipaddr> [trust|untrust]}*1 Planning Data Description Example Parameter Attribute [port] <portlist> Uplink port No.
Page 167: Service Planning
14 Configuring Layer 3 Protocols Before configuring DHCPv6 relay on an OLT device, you need to configure a static route or IGP. This ensures that the request packets sent by subscribers are forwarded to the DHCPv6 server. 14.3.2 Network Scenario Service Planning Set the IP address pool of the DHCPv6 server to 2111::/64.
Page 168: Configuring Interfaces
AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 14.3.3 Configuration Flow 14.3.4 Configuring Interfaces Configure Layer 3 interface parameters for the PON ports and uplink ports of the OLTs. Planning Data Example Description Parameter OLT PON port OLT uplink port...
Page 169 14 Configuring Layer 3 Protocols Example Description Parameter OLT PON port OLT uplink port VLAN ID VLAN ID of the VLANIF interface 2001 3001 Enable or disable the IPv6 address of the Enable / disable enable enable interface. VLANIF interface IPv6 address of the VLANIF interface 2001::1 2111::1...
Page 170 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Planning Data Example DHCPv6 Description Parameter OLT uplink OLT PON port server port interface VLANIF interface VLAN ID of the VLANIF interface 2001 3001 server relay relay Interface mode relay client-stateless...
Page 171: Configuring Routing Protocols
Configuring Routing Protocols This chapter introduces how to configure routing protocols for the AN6000 Series. Configuring the IS-IS Routing Protocol Configuring the OSPF Routing Protocol Configuring the BGP Routing Protocol Version: B...
Page 172 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 15.1 Configuring the IS-IS Routing Protocol This section introduces the background information, network scenario, configuration flow and configuration example of the IS-IS routing protocol. 15.1.1 Background Information The intermediate system-to-intermediate system (IS-IS) protocol is a dynamic routing protocol initially designed by the international organization for standardization (ISO) for its connectionless network protocol (CLNP).
Page 173 15 Configuring Routing Protocols The IS-IS network defines routers of three levels, including Level-1, Level-2 and Level-1-2. The details are as follows: Level-1 router: A Level-1 router manages the intra-area routing. It establishes adjacencies only with Level-1 and Level-1-2 routers in the same area. It maintains a Level-1 link state database (LSDB).
Page 174 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Level-1-2 router: A router, which is both a Level-1 router and a Level-2 router, is called a Level-1-2 router. It can establish Level-1 adjacencies with Level-1 and Level-1-2 routers in the same area, or establish Level-2 adjacencies with Level- 2 and Level-1-2 routers in other areas.
Page 175 15 Configuring Routing Protocols 15.1.3 Configuration Flow 15.1.4 Configuration Example of IS-IS IPv4 This section introduces how to configure the IS-IS IPv4 routing protocol. 15.1.4.1 Configuring Interfaces Configure Layer 3 interfaces on two OLTs. Planning Data Example Description Parameter OLT1 OLT2 Start VLAN ID of the uplink interface Start VLAN ID...
Page 176 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Example Description Parameter OLT1 OLT2 untag: In this mode, tags of uplink packets are stripped automatically when they pass a port and the packets are further transmitted in untagged VLAN tag processing for...
Page 177 15 Configuring Routing Protocols Press Ctrl-c to Stop. Reply from 30.1.1.10 : bytes=56: icmp_seq=0 ttl=64 time<10 ms Reply from 30.1.1.10 : bytes=56: icmp_seq=1 ttl=64 time<10 ms Reply from 30.1.1.10 : bytes=56: icmp_seq=2 ttl=64 time<10 ms Reply from 30.1.1.10 : bytes=56: icmp_seq=3 ttl=64 time<10 ms Reply from 30.1.1.10 : bytes=56: icmp_seq=4 ttl=64 time<10 ms ----30.1.1.10 PING Statistics---- 5 packets transmitted, 5 packets received, 0% packet loss...
Page 178 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Admin(config-vlanif-2016)#isis ipv4 router 10 Configure the IS-IS protocol for OLT2. Admin(config)#router isis 10 Admin(config-isis-10)#is-type level-1-2 Admin(config-isis-10)#net 10.0000.0002.0002.00 Admin(config-isis-10)#exit Admin(config)#interface vlanif 2016 Admin(config-vlanif-2016)#isis ipv4 router 10 15.1.4.3 Verifying Configuration Results Check configuration results of OLT1 and OLT2. OLT1 and OLT2 can communicate with each other through the IS-IS IPv4 protocol configurations.
Page 179 15 Configuring Routing Protocols System Id Interface SNPA State Holdtime Type Protocol 0000.0002.0001 vlanif2016 48f9.7ce8.6de1 Up IS-IS Admin(config)#show ipv4 isis route isis ipv4 routes information : Codes: C-connected, E-external, L1-IS-IS level-1, L2-IS-IS level-2 ia-IS-IS inter area, D-discard, e-external metric Tag 10: VRF : default Destination Metric...
Page 180 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Configuration Example Description Parameter OLT1 OLT2 VLANIF interface address IPv6 address of the VLANIF interface 2014::2 2014::1 Subnet mask of the Prefix length of the IPv6 address of the VLANIF VLANIF interface address...
Page 181 15 Configuring Routing Protocols 15.1.5.2 Configuring the IS-IS Protocol Configure the IS-IS IPv6 protocol on two OLTs to enable communications on the network. Planning Data Example Description Parameter OLT1 OLT2 Name of the IS-IS route process. It can be a string of characters including upper-case or lower-case IS-IS route process name letters, digits and underscore (_).
Page 182 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 15.1.5.3 Verifying Configuration Results Check configuration results of OLT1 and OLT2. OLT1 and OLT2 can communicate with each other through the IS-IS IPv6 protocol configurations. Verify the neighbor and route information of the IS-IS route process for OLT1.
Page 183 15 Configuring Routing Protocols via ::, vlanif2014 15.2 Configuring the OSPF Routing Protocol This section introduces the background information, network scenario, configuration flow and configuration example of the OSPF routing protocol. 15.2.1 Background Information Open shortest path first (OSPF) is an interior gateway protocol (IGP) based on the link state.
Page 184 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Authentication: OSPF supports interface-based packet authentication, which ensures security of protocol packet exchange. Multicast: OSFP uses multicast addresses to send protocol packets on links supporting multicast. This minimizes the impact on other devices.
Page 185 15 Configuring Routing Protocols 15.2.3 Configuration Flow 15.2.4 Configuration Example of OSPFv2 This section introduces how to configure the OSPFv2 routing protocol. 15.2.4.1 Configuring Interfaces Configure Layer 3 interfaces on two OLTs. Planning Data Example Description Parameter OLT1 OLT2 Start VLAN ID of the uplink port Start VLAN ID End VLAN ID of the uplink port End VLAN ID...
Page 186 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Example Description Parameter OLT1 OLT2 untag: In this mode, tags of uplink packets are stripped automatically when they pass a port and the packets are further transmitted in untagged mode, while downlink untagged...
Page 187 15 Configuring Routing Protocols Reply from 120.1.1.2 : bytes=56: icmp_seq=0 ttl=64 time<10 ms Reply from 120.1.1.2 : bytes=56: icmp_seq=1 ttl=64 time<10 ms Reply from 120.1.1.2 : bytes=56: icmp_seq=2 ttl=64 time<10 ms Reply from 120.1.1.2 : bytes=56: icmp_seq=3 ttl=64 time<10 ms Reply from 120.1.1.2 : bytes=56: icmp_seq=4 ttl=64 time<10 ms ----120.1.1.2 PING Statistics---- 5 packets transmitted, 5 packets received, 0% packet loss...
Page 188 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Admin(config)#router ospf 1 Admin(config-ospf-1)#router-id 2.2.2.2 Admin(config-ospf-1)#network 120.1.1.0 0.0.0.255 area 0 Admin(config-ospf-1)#exit Admin(config)# 15.2.4.3 Verifying Configuration Results Check configuration results of OLT1 and OLT2. Verify that OLT1 and OLT2 communicate with each other through the OSPFv2 protocol configurations.
Page 189 15 Configuring Routing Protocols Example Description Parameter OLT1 OLT2 untag: In this mode, tags of uplink packets are stripped automatically when they pass a port and the packets are further transmitted in untagged mode, while downlink untagged VLAN tag processing for packets are added with corresponding tags uplink services when they pass the port.
Page 190 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Admin(config)#ping -ipv6 1200::2 PING 1200::2 : 56 data bytes. Press Ctrl-c to Stop. Reply from 1200::2 : bytes=56: icmp_seq=0 time<10 ms Reply from 1200::2 : bytes=56: icmp_seq=1 time<10 ms Reply from 1200::2 : bytes=56: icmp_seq=2 time<10 ms Reply from 1200::2 : bytes=56: icmp_seq=3 time<10 ms...
Page 191 15 Configuring Routing Protocols Admin(config)# Configure the OSPFv3 protocol for OLT2. Admin(config)#router ipv6 ospf 1 Admin(config-ospfv3-1)#router-id 22.22.22.22 Admin(config-ospfv3-1)#exit Admin(config)#interface vlanif 120 Admin(config-vlanif-120)#ipv6 router ospf area 0 tag 1 Admin(config-vlanif-120)#exit Admin(config)# 15.2.5.3 Verifying Configuration Results Check configuration results of OLT1 and OLT2. Verify that OLT1 and OLT2 communicate with each other through the OSPFv3 protocol configurations.
Page 192 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 15.3.1 Background Information The border gateway protocol (BGP) is an inter-AS dynamic routing protocol, which is used to transmit routing information among ASs. BGP is called an internal border gateway protocol (IBGP) when it runs within an AS and called an external border gateway protocol (EBGP) when it runs among ASs.
Page 193 15 Configuring Routing Protocols 15.3.2 Network Scenario Service Planning Two OLTs are interconnected through the uplink port 19:1. Create a BGP instance with AS being 100 on OLT1. Create a BGP instance with AS being 200 on OLT2. Configure the BGP IPv4/IPv6 protocol to set up an EBGP connection between OLT1 and OLT2.
Page 194 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 15.3.4 Configuration Example of BGP IPv4 This section introduces how to configure the BGP IPv4 routing protocol. 15.3.4.1 Configuring Interfaces Configure Layer 3 interfaces on two OLTs. Planning Data Example Description...
Page 195 15 Configuring Routing Protocols Admin(config)# Configure interface parameters for OLT2. Admin(config)#port vlan 2000 tag 1/19 1 Admin(config)#interface vlanif 2000 Admin(config-vlanif-2000)#ipv4 address 120.0.2.2 mask 255.255.255.0 Admin(config-vlanif-2000)#exit Admin(config)# Check configurations of interfaces between OLT1 and OLT2. Ping 120.0.2.2 on OLT1. Admin(config)#ping 120.0.2.2 PING 120.0.2.2 : 56 data bytes.
Page 196 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Example Description Parameter OLT1 OLT2 Remote AS number of the BGP peer. Value range: 1 to 4294967295 Example Configure the BGP protocol for OLT1. Admin(config)#router bgp 100 Admin(config-bgp-100)#bgp router-id 1.1.1.1 Admin(config-bgp-100)#neighbor 120.0.2.2 remote-as 200...
Page 197 15 Configuring Routing Protocols BGP table version is 2 1 BGP AS-PATH entries 0 BGP community entries Neighbor V AS MsgRcv MsgSen TblVer InQ OutQ Up/Down State/PfxRcd 120.0.2.1 4 100 00:02:07 Total number of neighbors 1 Total number of Established sessions 1 15.3.5 Configuration Example of BGP IPv6 This section introduces how to configure the BGP IPv6 routing protocol.
Page 198 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Example Description Parameter OLT1 OLT2 VLANIF interface address IPv6 address of the VLANIF interface 2020:1::1 2020:1::2 Subnet mask of the Prefix length of the IPv6 address of the VLANIF VLANIF interface address...
Page 199 15 Configuring Routing Protocols 15.3.5.2 Configuring the BGP Protocol Configure the BGP IPv6 protocol on two OLTs to set up an EBGP connection. Planning Data Example Description Parameter OLT1 OLT2 AS number. Value range: 1 to 4294967295 AS number Route ID that is manually configured, in the format BGP route ID 1.1.1.1 2.2.2.2...
Page 200 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 15.3.5.3 Verifying Configuration Results Check configuration results of OLT1 and OLT2. Verify that an EBGP connection is set up between OLT1 and OLT2 through the BGP IPv6 protocol configurations. Verify the BGP neighbor information of OLT1.
Page 201: Configuring Mpls
Configuring MPLS This section introduces how to configure the MPLS services for the AN6000 Series. Configuring a Static LSP Configuring LDP LSP Configuring RSVP LSP Version: B...
Page 202: Configuring A Static Lsp
An AN6000 Series device can serve as an LER or LSR. It can also serve as an ingress node, an intermediate node or an egress node, depending on where the device resides in the network.
Page 203: Service Planning
16 Configuring MPLS Concept Description Label switching router. It refers to a network device which can exchange and forward MPLS labels. LSR is also called an MPLS node. Label edge router. It refers to an LSR on the edge of the MPLS domain. The LER is responsible for classifying the packets that enter the MPLS domain to FECs and adding labels to these FECs for forwarding in the MPLS domain.
Page 204: Configuration Example
AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Network Diagram 16.1.3 Configuration Flow 16.1.4 Configuration Example This section introduces how to configure the static LSP. 16.1.4.1 Configuring Interfaces Configure Layer 3 interfaces on three OLTs. Version: B...
Page 205 16 Configuring MPLS Planning Data Example Description Parameter OLT1 OLT2 OLT3 Start VLAN ID of the uplink Start VLAN ID port untag: In this mode, tags of uplink packets are stripped automatically when they pass a port and the packets are further transmitted in untagged mode, while VLAN tag...
Page 206: Configuring The Ospf Protocol
AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Admin(config)#port vlan 10 tag 1/19 1 Admin(config)#interface vlanif 10 Admin(config-vlanif-10)#ipv4 address 10.1.1.1 mask 255.255.255.0 Admin(config-vlanif-10)#exit Admin(config)#interface loopback 9 Admin(config-if-loopback-9)#ipv4 address 1.1.1.1 mask 255.255.255.255 Admin(config-if-loopback-9)#exit Configure interface parameters for the transit node OLT2.
Page 207 16 Configuring MPLS Example Description Parameter OLT1 OLT2 OLT3 Router ID of the OSPF, displayed in Router ID 1.1.1.1 2.2.2.2 3.3.3.3 the format of an IP address Network IP address of the interface that needs to run the Network IP OSPF protocol.
Page 208 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide OLT1 can ping 3.3.3.3 successfully. Admin(config)#ping 3.3.3.3 PING 3.3.3.3 : 56 data bytes. Press Ctrl-c to Stop. Reply from 3.3.3.3 : bytes=56: icmp_seq=0 ttl=63 time<10 ms Reply from 3.3.3.3 : bytes=56: icmp_seq=1 ttl=63 time<10 ms Reply from 3.3.3.3 : bytes=56: icmp_seq=2 ttl=63 time<10 ms...
Page 209 16 Configuring MPLS Procedure Configure a static LSP for the ingress node OLT1. Admin(config)#interface vlanif 10 Admin(config-vlanif-10)#mpls enable Admin(config-vlanif-10)#exit Admin(config)#mpls ftn-entry 3.3.3.3/32 100 10.1.1.2 vlanif10 Configure a static LSP for the intermediate node OLT2. Admin(config)#interface vlanif 10 Admin(config-vlanif-10)#mpls enable Admin(config-vlanif-10)#exit Admin(config)#interface vlanif 20 Admin(config-vlanif-20)#mpls enable Admin(config-vlanif-20)#exit...
Page 210 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Check the configuration result of the intermediate node OLT2. Check the static LSP table entries of OLT2. Admin(config)#show static-lsp !static-lsp config ----------------------------------------- mpls ilm-entry 100 vlanif10 swap 200 vlanif20 20.1.1.2 3.3.3.3/32 !static-lsp config end!------------------------------------- Check the ILM table entries of OLT2.
Page 211: Configuring Ldp Lsp
FEC. The dynamic LSP can be created through LDP on the AN6000 Series. Concepts related to the LDP are as follows:...
Page 212 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 16.2.2 Network Scenario Service Planning Three OLT devices are interconnected through uplink ports. Each sets up an adjacency and communicates with another through the OSPF protocol. A public network tunnel is configured through LDP between OLT1 and OLT3 to carry label services, and distribute and switch labels.
Page 213 16 Configuring MPLS 16.2.4 Configuration Example This section introduces how to configure the LDP LSP. 16.2.4.1 Configuring Interfaces Configure Layer 3 interfaces on three OLTs. Planning Data Example Description Parameter OLT1 OLT2 OLT3 Start VLAN ID of the uplink Start VLAN ID port untag: In this mode, tags of uplink packets are...
Page 214 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Example Description Parameter OLT1 OLT2 OLT3 Loopback interface IPv4 address of the loopback 1.1.1.1 2.2.2.2 3.3.3.3 address interface on the device Subnet mask of the Subnet mask of the IPv4 255.255.255.
Page 215 16 Configuring MPLS 16.2.4.2 Configuring the OSPF Protocol Configure the OSPF protocol on three OLTs to enable communications between devices on the backbone network. Planning Data Example Description Parameter OLT1 OLT2 OLT3 Instance OSPF instance number number Router ID of the OSPF, displayed in Router ID 1.1.1.1...
Page 216: Configuring Ldp Sessions
AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Admin(config-ospf-1)#exit Configure the OSPF protocol for OLT3. Admin(config)#router ospf 1 Admin(config-ospf-1)#router-id 3.3.3.3 Admin(config-ospf-1)#network 20.1.1.0 0.0.0.255 area 0 Admin(config-ospf-1)#network 3.3.3.3 0.0.0.0 area 0 Admin(config-ospf-1)#exit Check the configuration result of the OSPF protocol.
Page 217 16 Configuring MPLS Example Description Parameter OLT1 OLT2 OLT3 VLAN ID of the VLANIF VLAN ID interface Interface LDP Enable the IP address format ipv4 ipv4 ipv4 enabling of the LDP for an interface IP address of the LDP remote LDP remote peer, in the format of an IPv4 3.3.3.3...
Page 218 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Admin(config-router)#exit Admin(config)#interface vlanif 20 Admin(config-vlanif-20)#mpls enable Admin(config-vlanif-20)#ldp enable ipv4 Admin(config-vlanif-20)#exit Admin(config)#router ldp Admin(config-router)#targeted-peer ipv4 1.1.1.1 Admin(config-router)#exit 16.2.4.4 Verifying Configuration Results Check LDP configuration results for three OLTs, including LDP parameters and LDP session states.
Page 219 16 Configuring MPLS show mpls ldp session : Peer IP Address IF Name My Role State KeepAlive 3.3.3.3 vlanif10 Passive OPERATIONAL 2.2.2.2 vlanif10 Passive OPERATIONAL Check the FTN table entries from OLT1 to OLT3. Check the configuration result of OLT2. Check the LDP parameters of OLT2.
Page 220 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 1.1.1.1 vlanif10 Active OPERATIONAL Check the FTN table entries of OLT2. Check the FTN table entries from OLT2 to OLT1. Check the FTN table entries from OLT2 to OLT3. Check the ILM table entries of OLT2.
Page 221 16 Configuring MPLS Targeted Hello Interval : 15 Hold time : 15 Targeted Hold time : 45 Keepalive Interval : 10 Keepalive Timeout : 30 Request retry Timeout Transport Address data Labelspace 0 : 3.3.3.3 (in use) Import BGP routes : No Check the LDP session states of OLT3, including states of local and remote sessions.
Page 222: Service Planning
MPLS RSVP sets up label switched path (LSP) tunnels along specified paths to reserve resources. This enables network traffic to avoid the node where congestion occurs to balance network traffic. Dynamic LSPs can be created through RSVP on the AN6000 Series. 16.3.2 Network Scenario Service Planning Three OLT devices are interconnected through uplink ports.
Page 223 16 Configuring MPLS 16.3.3 Configuration Flow 16.3.4 Configuration Example This section introduces how to configure the MPLS RSVP. 16.3.4.1 Configuring Interfaces Configure interfaces on PE1, P and PE2. Planning Data Example Description Parameter Start VLAN ID of the uplink Start VLAN ID port Version: B...
Page 224 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Example Description Parameter untag: In this mode, tags of uplink packets are stripped automatically when they pass a port and the packets are further transmitted in untagged mode, while VLAN tag...
Page 225 16 Configuring MPLS Admin(config)#interface loopback 9 Admin(config-if-loopback-9)#ipv4 address 11.1.1.1 mask 255.255.255.255 Admin(config-if-loopback-9)#exit Configure interface parameters for P. Admin(config)#port vlan 20 tag 1/19 1 Admin(config)#interface vlanif 20 Admin(config-vlanif-20)#ip address 20.1.1.2 mask 255.255.255.0 Admin(config-vlanif-20)#exit Admin(config)#port vlan 30 tag 1/19 2 Admin(config)#interface vlanif 30 Admin(config-vlanif-30)#ip address 30.1.1.2 mask 255.255.255.0 Admin(config-vlanif-30)#exit Admin(config)#interface loopback 9...
Page 226 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Example Description Parameter Network IP address of the interface that needs to run the Interface OSPF protocol. This network IP 20.1.1.0 11.1.1.1 20.1.1.0 30.1.1.0 22.2.2.2 30.1.1.0 33.3.3.3 network should be address...
Page 227 16 Configuring MPLS Check the configuration result of the OSPF protocol. PE1 can ping 33.3.3.3 successfully. Admin(config)#ping 33.3.3.3 PING 33.3.3.3 : 56 data bytes. Press Ctrl-c to Stop. Reply from 33.3.3.3 : bytes=56: icmp_seq=0 ttl=63 time<10 ms Reply from 33.3.3.3 : bytes=56: icmp_seq=1 ttl=63 time<10 ms Reply from 33.3.3.3 : bytes=56: icmp_seq=2 ttl=63 time<10 ms Reply from 33.3.3.3 : bytes=56: icmp_seq=3 ttl=63 time<10 ms Reply from 33.3.3.3 : bytes=56: icmp_seq=4 ttl=63 time<10 ms...
Page 228 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Admin(config-rsvp)#cspf disable Admin(config-rsvp)#exit Admin(config)#interface vlanif 20 Admin(config-vlanif-20)#mpls enable Admin(config-vlanif-20)#rsvp enable Admin(config-vlanif-20)#exit Admin(config)#rsvp-trunk test ipv4 Admin(config-rsvp-trunk-test)#to 33.3.3.3 Admin(config-rsvp-trunk-test)#from 11.1.1.1 Admin(config-rsvp-trunk-test)#exit Configure RSVP functions for P. Admin(config)#router rsvp Admin(config-rsvp)#cspf disable Admin(config-rsvp)#exit Admin(config)#interface vlanif 20...
Page 229 16 Configuring MPLS Check the RSVP session on P. Check the RSVP session on PE2. Version: B...
Page 230: Configuring Vpn
Configuring VPN This chapter introduces how to configure the VPN services for the AN6000 Series. Configuring VPWS Configuring VPLS Configuring BGP / MPLS IPv4 VPN Version: B...
Page 231: Configuring Vpws
Attachment circuit, a connection between subscribers and service providers, that is, a link between a CE and a PE. The AC interfaces supported by the AN6000 Series include uplink ports and PON ports. Pseudo wire or virtual link, a bidirectional virtual connection between two VSIs residing on two PEs.
Page 232 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide In a non-MPLS ATM or FR network, Layer 2 VPN is provided by VC. For each AC, both the provider edge device (PE) and the provider core device (P) on the network need to maintain their complete VC information.
Page 233 17 Configuring VPN Note: The AC interfaces supported by the AN6000 Series include uplink ports and PON ports. In this scenario, the devices use the uplink ports as the AC interfaces. Network Diagram Version: B...
Page 234 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 17.1.3 Configuration Flow 17.1.4 Configuration Example This section introduces how to configure the VPWS. 17.1.4.1 Configuring Interfaces Configure interfaces on PE1, P and PE2. Planning Data Example Description Parameter Start VLAN ID of the uplink...
Page 235 17 Configuring VPN Example Description Parameter untag: In this mode, tags of uplink packets are stripped automatically when they pass a port and the packets are further transmitted in untagged mode, while VLAN tag downlink untagged processing for packets are added with uplink services corresponding tags when they pass the port.
Page 236 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Admin(config)#interface loopback 1 Admin(config-if-loopback-1)#ipv4 address 1.1.1.1 mask 255.255.255.255 Admin(config-if-loopback-1)#exit Configure interface parameters for P. Admin(config)#port vlan 2000 tag 1/19 1 Admin(config)#interface vlanif 2000 Admin(config-vlanif-2000)#ipv4 address 120.0.2.2 mask 255.255.255.0 Admin(config-vlanif-2000)#exit Admin(config)#port vlan 3000 tag 1/19 2 Admin(config)#interface vlanif 3000 Admin(config-vlanif-3000)#ipv4 address 120.0.3.3 mask 255.255.255.0...
Page 237: Configuring Ldp Sessions
17 Configuring VPN Example Description Parameter Network IP address of the interface that needs to run the Network IP OSPF protocol. This 120.0.2. 120.0.2. 120.0.3. 120.0.3. 3.3.3.3 1.1.1.1 2.2.2.2 address network should be an IP network configured with VLANIF interfaces. Subnet mask of the 0.0.0.
Page 238 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Planning Data Example Description Parameter Router ID Router identifier 1.1.1.1 2.2.2.2 3.3.3.3 Source transport address in LDP transport LDP Hello messages, in the 1.1.1.1 2.2.2.2 3.3.3.3 address format of an IPv4 address...
Page 239 17 Configuring VPN Admin(config-vlanif-3000)#exit Configure LDP local and remote sessions for PE2. Admin(config)#router ldp Admin(config-router)#router-id 3.3.3.3 Admin(config-router)#transport-address ipv4 3.3.3.3 Admin(config-router)#exit Admin(config)#interface vlanif 3000 Admin(config-vlanif-3000)#mpls enable Admin(config-vlanif-3000)#ldp enable ipv4 Admin(config-vlanif-3000)#exit Admin(config)#router ldp Admin(config-router)#targeted-peer ipv4 1.1.1.1 Admin(config-router)#exit 17.1.4.4 Configuring VPWS Services Set point-to-point connections so that PE devices can communicate with each other. Planning Data Example Description...
Page 240 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Example Description Parameter Number of the AC port Port No. Packet encapsulation mode for AC AC access mode vlan: VLAN access vlan vlan ethernet: Ethernet access Procedure Configure VPWS services for PE1 and bind VPWS VC to the AC interface.
Page 241 17 Configuring VPN Check the LDP session information of PE1. The LDP sessions are set up between PE1 and PE2, and between PE1 and P. Both sessions are operational. Their adjacency relations are set up correctly. Admin(config)#show mpls ldp session show mpls ldp session : Peer IP Address IF Name...
Page 242: Configuring Vpls
AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 3.3.3.3 vlanif3000 Passive OPERATIONAL Check the FTN table of P, including the FECs of PE1 and PE2. Check the ILM table of P, including the FECs of PE1 and PE2. 17.2...
Page 243 Attachment circuit, a connection between subscribers and service providers, that is, a link between a CE and a PE. The AC interfaces supported by the AN6000 Series include uplink ports and PON ports. Virtual switch instance, an instance through which the physical access links of VPLS can be mapped to the virtual links.
Page 244: Network Diagram
VPN services. P serves as the core router on the backbone network to achieve routing and expedited forwarding. Note: The AC interfaces supported by the AN6000 Series include uplink ports and PON ports. In this scenario, the devices use the uplink ports as the AC interfaces.
Page 245 17 Configuring VPN 17.2.3 Configuration Flow 17.2.4 Configuration Example This section introduces how to configure the VPLS. 17.2.4.1 Configuring Interfaces Configure interfaces on PE1, P and PE2. Planning Data Example Description Parameter Start VLAN ID of the uplink Start VLAN ID port Version: B...
Page 246 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Example Description Parameter untag: In this mode, tags of uplink packets are stripped automatically when they pass a port and the packets are further transmitted in untagged mode, while VLAN tag...
Page 247 17 Configuring VPN Admin(config)#interface loopback 9 Admin(config-if-loopback-9)#ipv4 address 11.1.1.1 mask 255.255.255.255 Admin(config-if-loopback-9)#exit Configure interface parameters for P. Admin(config)#port vlan 20 tag 1/19 1 Admin(config)#interface vlanif 20 Admin(config-vlanif-20)#ipv4 address 20.1.1.2 mask 255.255.255.0 Admin(config-vlanif-20)#exit Admin(config)#port vlan 30 tag 1/19 2 Admin(config)#interface vlanif 30 Admin(config-vlanif-30)#ipv4 address 30.1.1.2 mask 255.255.255.0 Admin(config-vlanif-30)#exit Admin(config)#interface loopback 9...
Page 248 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Example Description Parameter Network IP address of the interface that needs to run the Network IP OSPF protocol. This 20.1.1.0 11.1.1.1 20.1.1.0 30.1.1.0 22.2.2.2 30.1.1.0 33.3.3.3 address network should be an IP network configured with VLANIF interfaces.
Page 249 17 Configuring VPN Reply from 33.3.3.3 : bytes=56: icmp_seq=0 ttl=63 time<10 ms Reply from 33.3.3.3 : bytes=56: icmp_seq=1 ttl=63 time<10 ms Reply from 33.3.3.3 : bytes=56: icmp_seq=2 ttl=63 time<10 ms Reply from 33.3.3.3 : bytes=56: icmp_seq=3 ttl=63 time<10 ms Reply from 33.3.3.3 : bytes=56: icmp_seq=4 ttl=63 time<10 ms PE2 can ping 11.1.1.1 successfully.
Page 250 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Admin(config-router)#router-id 11.1.1.1 Admin(config-router)#transport-address ipv4 11.1.1.1 Admin(config-router)#exit Admin(config)#interface vlanif 20 Admin(config-vlanif-20)#mpls enable Admin(config-vlanif-20)#ldp enable ipv4 Admin(config-vlanif-20)#exit Admin(config)#router ldp Admin(config-router)#targeted-peer ipv4 33.3.3.3 Admin(config-router)#exit Configure LDP local sessions for P. Admin(config)#router ldp Admin(config-router)#router-id 22.2.2.2 Admin(config-router)#transport-address ipv4 22.2.2.2...
Page 251 17 Configuring VPN Planning Data Example Description Parameter Instance name Name of the VPLS instance test test Instance ID ID of the VPLS instance IP address of the PW remote peer Peer IP 33.3.3.3 11.1.1.1 VLAN ID VLAN ID of the AC interface untag: In this mode, tags of uplink packets are stripped automatically when they pass a port and the packets are...
Page 252 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Admin(config-vpls-ldpsig-test)#exit Admin(config-vpls-test)#exit Admin(config)#port vlan 40 tag 1/19 1 Admin(config)#interface vlanif 40 Admin(config-vlanif-40)#mpls-vpls test vlan Admin(config-vlanif-40)#exit 17.2.4.5 Verifying Configuration Results Check VPLS configuration results of the three devices. Check the VPLS configuration results of PE1 and PE2, including the OSPF neighbor information, LDP session information, VPLS label forwarding information and FTN table.
Page 253 17 Configuring VPN Check the VPLS label forwarding information of PE1. You can view the inner label information. Check the configuration result of P, including the OSPF neighbor information, LDP session information, FTN table and ILM table. Check the OSPF neighbor information of P. Check the LDP session information of P.
Page 254 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 17.3 Configuring BGP / MPLS IPv4 VPN This section introduces the background information, network scenario, configuration flow and configuration example of the BGP / MPLS IPv4 VPN routing protocol. 17.3.1 Background Information BGP/MPLS IPv4 VPN is a type of Layer 3 virtual private networks (L3VPN).
Page 255 17 Configuring VPN 17.3.2 Network Scenario Service Planning Three OLTs serve as PE1, P and PE2, respectively. They are interconnected with each other through uplink ports. PE1 and PE2 are edge routers on the backbone network. PE1 connects to CE1 and CE2 through uplink ports. PE2 connects to CE3 and CE4 through uplink ports.
Page 256 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Network Diagram 17.3.3 Configuration Flow Version: B...
Page 257 17 Configuring VPN 17.3.4 Configuration Example This section introduces how to configure the BGP/MPLS IPv4 VPN. 17.3.4.1 Configuring the OSPF Protocol on the MPLS Backbone Network Configure interfaces and the OSPF protocol for PE1, P and PE2. In this way, devices on the backbone network communicate with each other.
Page 258 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Example Description Parameter Uplink port Uplink port number number VLAN ID of the VLANIF VLAN ID interface VLANIF IPv4 address of the interface 131.0.0.1 131.0.0.2 132.0.0.1 132.0.0.2 VLANIF interface address Subnet...
Page 259 17 Configuring VPN Admin(config-vlanif-131)#ipv4 address 131.0.0.1 mask 255.255.255.0 Admin(config-vlanif-131)#exit Admin(config)#interface loopback 1 Admin(config-if-loopback-1)#ipv4 address 26.6.6.6 mask 255.255.255.255 Admin(config-if-loopback-1)#exit Admin(config)# Configure the OSPF protocol for PE1. Admin(config)#router ospf 130 Admin(config-ospf-130)#network 131.0.0.0 0.0.0.255 area 0.0.0.0 Admin(config-ospf-130)#network 26.6.6.6 0.0.0.0 area 0.0.0.0 Admin(config-ospf-130)#exit Admin(config)# Configure interfaces and the OSPF protocol for P.
Page 260 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Admin(config-if-loopback-1)#ipv4 address 33.3.3.3 mask 255.255.255.255 Admin(config-if-loopback-1)#exit Admin(config)# Configure the OSPF protocol for PE2. Admin(config)#router ospf 130 Admin(config-ospf-130)#network 132.0.0.0 0.0.0.255 area 0.0.0.0 Admin(config-ospf-130)#network 33.3.3.3 0.0.0.0 area 0.0.0.0 Admin(config-ospf-130)#exit Admin(config)# 17.3.4.2 Enabling MPLS and Configuring MPLS LDP Enable MPLS on PE1, P and PE2 and configure MPLS LDP protocols.
Page 261 17 Configuring VPN Admin(config)# Enable MPLS and configure MPLS LDP for P. Admin(config)#interface vlanif 131 Admin(config-vlanif-131)#mpls enable Admin(config-vlanif-131)#exit Admin(config)#interface vlanif 132 Admin(config-vlanif-132)#mpls enable Admin(config-vlanif-132)#exit Admin(config)#router ldp Admin(config-router)#router-id 42.2.2.2 Admin(config-router)#transport-address ipv4 42.2.2.2 Admin(config-router)#exit Admin(config)#interface vlanif 131 Admin(config-vlanif-131)#ldp enable ipv4 Admin(config-vlanif-131)#exit Admin(config)#interface vlanif 132 Admin(config-vlanif-132)#ldp enable ipv4 Admin(config-vlanif-132)#exit Admin(config)#...
Page 262 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Planning Data Example Description Parameter VPN route Name of the VPN route vpna vpna vpnb vpnb forwarding instance forwarding instance An exclusive RD value for RD value 100:1 100:2 200:1 200:2...
Page 263 17 Configuring VPN Example Description Parameter Subrack number and slot Subrack No./slot number for the card where the 1/19 1/19 1/19 1/19 uplink port resides Uplink port number Uplink port number Procedure Configure the interface and VPN instance for PE1. Configure the interface and VPN instance for PE1, and connect CE1 to PE1.
Page 264 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Admin(config-vrf-vpna-1)#rd 200:1 Admin(config-vrf-vpna-1)#route-target import 111:1 Admin(config-vrf-vpna-1)#route-target export 111:1 Admin(config-vrf-vpna-1)#exit Admin(config)#interface vlanif 133 Admin(config-vlanif-133)#ip vrf forwarding vpna Admin(config-vlanif-133)#ipv4 address 133.0.0.1 mask 255.255.255.0 Admin(config-vlanif-133)#exit Admin(config)#port vlan 133 tag 1/19 2 Admin(config)# Configure the interface and VPN instance for PE2, and connect CE4 to PE2.
Page 265 17 Configuring VPN Example Description Parameter IP address of the BGP neighbor, in the format of an IPv6 address Remote AS number of the BGP peer. Value 65200 45200 55200 35200 65210 65210 65210 65210 range: 1 to 4294967295 Procedure Configure the BGP protocol for PE1.
Page 266 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Admin(config)# Configure the BGP protocol for CE1. Admin(config)#router bgp 65200 Admin(config-bgp-65200)#neighbor 130.0.0.1 remote-as 65210 Admin(config-bgp-65200)#address-family ipv4 Admin(config-bgp-65200-ipv4)#redistribute connected Admin(config-bgp-65200-ipv4)#exit Admin(config-bgp-65200)#exit Admin(config)# Configure the BGP protocol for CE2. Admin(config)#router bgp 45200 Admin(config-bgp-45200)#neighbor 134.0.0.1 remote-as 65210...
Page 267 17 Configuring VPN Planning Data Example Description Parameter AS number. Value range: 1 to 4294967295 AS number 65210 65210 IP address of the BGP neighbor, in the 33.3.3.3 26.6.6.6 format of an IPv4 address IP address of the BGP neighbor, in the BGP peer format of an IPv6 address Remote AS number of the BGP peer.
Page 268 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Set up OSPF adjacencies between PE1, P and PE2. The adjacency states are Full and each can learn the route of Loopback1 from one another. Admin(config)#show ipv4 ospf neighbor Total number of full neighbors: 1...
Page 269 17 Configuring VPN Set up a BGP peer relation between PE and CE. Set BGP state to Established. Admin(config)#show bgp neighbors BGP neighbor is 130.0.0.2, vrf vpna, remote AS 65200, local AS 65210, external link BGP version 4, remote router ID 192.0.0.1 BGP state = Established, up for 00:38:05 Last read 00:38:05, hold time is 90, keepalive interval is 30 seconds Neighbor capabilities:...
Page 270 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Address family VPNv4 Unicast: advertised and received Received 79 messages, 0 notifications, 0 in queue Sent 80 messages, 0 notifications, 0 in queue Route refresh request: received 0, sent 0 Minimum time between advertisement runs is 5 seconds Update source is 26.6.6.6...
Page 271 17 Configuring VPN Index 1, Offset 0, Mask 0x2 Community attribute sent to this neighbor (standard) 0 accepted prefixes 0 announced prefixes Connections established 1; dropped 0 Local host: 130.0.0.1, Local port: 63820 Foreign host: 130.0.0.2, Foreign port: 179 Nexthop: 130.0.0.1 Nexthop global: :: Nexthop local: :: BGP connection: non shared network...
Page 272 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide CEs in the same VPN can ping each other successfully. However, CEs in different VPNs fail to ping each other. In the following example, CE1 can ping CE3 successfully but fails to ping CE4.
Page 273 Configuring Ethernet P2P Services This chapter gives an example to introduce how to configure P2P Services for the AN6000 Series. Background Network Scenario Configuration Flow Configuring Card Working Mode Configuring Port Properties Adding VLANs to an Ethernet Port Configuring an OLT QinQ Domain...
Page 274: Network Scenario
Ethernet access. The AN6000 Series enable the following Ethernet access applications through the P2P service card (PXNA): A P2P service card (PXNA) can receive the P2P service directly or via cascade networking at the same time.
Page 275: Configuration Flow
18 Configuring Ethernet P2P Services 18.3 Configuration Flow Prerequisites The VLAN service channel has been created. Please refer to Basic Configurations for the creation method. Caution: The uplink service VLAN (SVLAN) has been added to the uplink ports and all slots. Version: B...
Page 276 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Configuration Flow 18.4 Configuring Card Working Mode Configure working mode of the Ethernet service card. In uplink mode, the PXNA card serves as an uplink card. Version: B...
Page 277: Configuring Port Properties
18 Configuring Ethernet P2P Services In downlink mode, the PXNA card serves as a P2P card, allowing subscriber access and cascading between devices. Caution: When the working mode of a card changes, all the card configurations will be cleared. Planning Data Description Example Parameter...
Page 278 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Procedure Configure properties of the Ethernet service port. Admin(config)#interface eth 1/16/1 Admin(config-if-eth-1/16/1)#auto-neg enable Admin(config-if-eth-1/16/1)#port type xfi 18.6 Adding VLANs to an Ethernet Port Add SVLAN and CVLAN to an Ethernet port of the OLT.
Page 279 18 Configuring Ethernet P2P Services 18.7 Configuring an OLT QinQ Domain The items to be configured for local end QinQ domain include service type, parameters related to CVLAN and SVLAN, and upstream / downstream rule clause. Configuration Rules When configuring QinQ for the PXNA card, you can add up to eight QinQ rules to each QinQ domain, that is, up to 1536 QinQ rules in total, in the following conditions: Default setting (match if present) for MAC address is used in the upstream rule clause, and both original CoS (VLAN Layer 1) and new CoS...
Page 280 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Parameter Upstream / downstream rule type. Altogether 27 options are available, and the default value is 1. 1: DA (destination MAC address) 2: SA (source MAC address) 3: ethtype (Ethernet type)
Page 281 18 Configuring Ethernet P2P Services Description Example Parameter Upstream / downstream rule operator; value range: 0 to 7; default value: 5 0: Never (never match) 1: = (equal to) 2: != (not equal to) condition 3: <= (smaller than or equal to) 4: >= (larger than or equal to) 5: Exist (match if present) 6: No exist (match if not present)
Page 282 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Configure the upstream rule for the data service. Set the rule type to 1 (destination MAC address), the condition to 5 (match if present), and the rule value to the MAC address 000000000000.
Page 283 18 Configuring Ethernet P2P Services 18.8 Binding an OLT QinQ Domain to an Ethernet Port Bind an OLT QinQ domain to an Ethernet port. Planning Data Description Example Parameter oltqinq-domain Name of the QinQ domain bound to the Ethernet port Procedure Bind domain "abc"...
Page 284 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Procedure Set the multicast protocol version to IGMPv2, multicast mode to proxy-proxy, and multicast VLAN to 2000. Admin(config)#igmp Admin(config-igmp)#igmp version v2 Admin(config-igmp)#igmp mode proxy-proxy Admin(config-igmp)#igmp vlan 2000 18.10 Configuration Result The subscribers accessing the system via the switch can access Internet and watch IPTV programs for multicast VLAN 2000 as expected.
Page 285 Configuring Network Protection Configuring MSTP Services Configuring LACP Configuring ERPS Configuring the PON Protection Version: B...
Page 286 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 19.1 Configuring MSTP Services This section introduces how to configure the MSTP services for the AN6000 Series. 19.1.1 Background Information In the Layer 2 switching network, a loop in the network will cause infinite loop and proliferation of packets, which leads to broadcast storm and occupies all bandwidth available so that the network becomes unusable.
Page 287 19 Configuring Network Protection Figure 19-1 Network Diagram for the MSTP Service A is the OLT equipment running the MSTP in the MST region; B and C are switches; and C is the root of the region. Each MST region can have multiple spanning trees (MST), and each spanning tree corresponds to a spanning tree instance.
Page 288 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Note: Default values are recommended for the optional configuration items. Version: B...
Page 289: Command Format
The MSTP region name. The value Configuring the contains 1 to 32 characters. The default region-name Mandatory fiberhome MSTP region name setting is the MAC address of the <name> current equipment. Example Enable the STP globally. Admin(config)#stp enable Enable the STP for PON Port 1 in Slot 19 of Subrack 1.
Page 290 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Admin(config)#stp link-aggregation 1 enable Set the STP protocol mode to MSTP. Admin(config)#stp mode mstp Set the MSTP region name to "fiberhome". Admin(config)#stp region-name fiberhome Admin(config)# 19.1.5 Configuring Bridge Parameters (Optional) Command Format stp timer forward-delay <time>...
Page 291 19 Configuring Network Protection Set the bridge parameter "time-factor" to 25. Admin(config)#stp time-factor 25 Admin(config)# 19.1.6 Configuring the Bridge Priority (Optional) Command Format stp priority <priority-value> Planning Data Description Example Parameter Attribute The bridge priority value. It is a multiple of 4096, priority <priority- Mandatory 8192...
Page 292 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Planning Data Description Example Procedure Parameter Attribute port <frameid/slotid/- Subrack No. / slot No. / port No. Mandatory 1/19/1 portid> Configuring the edge port of the enable: auto-negotiation current port edged-port [enable|...
Page 293: Configuring The Mst Region
19 Configuring Network Protection Admin(config)# 19.1.8 Configuring the MST Region Command Format Configure the revision level of the MSTP. stp revision-level <level> Planning Data Description Example Parameter Attribute revision-level The revision level of the MSTP. The value ranges Mandatory <level> from 0 to 65535.
Page 294 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Admin(config)#stp instance 1 vlan 100 Admin(config)# 19.1.10 Configuring Parameters for the Bridge Instance Command Format stp instance <instanceid> priority <priority-value> Planning Data Description Example Parameter Attribute instance The instance ID, ranging from 0 to 64.
Page 295 19 Configuring Network Protection Configure the priority of the Trunk group. stp link-aggregation <group-id> instance <instanceid> priority <priority> Data Planning Description Example Procedure Parameter Attribute port The subrack number / slot number / port <frameid/slo- Mandatory 1/19/1 number. tid/portid> Configuring the path instance The instance ID, ranging from 0 to 64.
Page 296: Configuring Lacp
Admin(config)#stp link-aggregation 1 instance 1 priority 160 Admin(config)# 19.2 Configuring LACP This section introduces how to configure the LACP for the AN6000 Series. 19.2.1 Background Information Link aggregation means binding two or more physical interfaces together to form a logical data link. The logical link provides higher bandwidth and more throughput with bandwidth of the physical interfaces combined.
Page 297: Configuration Rules
To delete a member from an aggregation group, manual operation of the user is required. The AN6000 Series equipment supports intra-card LACP and inter-card LACP. Multiple Ethernet ports on a card or different cards can be bound together to form link aggregation.
Page 298 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Service Planning Set three uplink ports (18:SFP+1, 18:SFP+2, and 19:SFP+1) of the OLT equipment as the member ports of the LACP protection group to enable link backup. Port 18: SFP+1 serves as the master port, and the other two the member ones.
Page 299 19 Configuring Network Protection 19.2.5 Configuring the Aggregation Mode Command Format link-aggregation <frameid/slotid/portid> {[mode] [smac|dmac|sdmac|sip| dip|sdip]}*1 {[workmode] [lacp-static]}*1 {[max-member-num] <num>}*1 Planning Data Description Example Parameter Attribute <frameid/slotid/portid> Subrack No. / slot No. / port No. Mandatory 1/18/1 The load balancing mode of the aggregation group smac: the source MAC address dmac: the destination MAC address...
Page 300 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 19.2.6 Configuring Trunk Port Link Aggregation Caution: The PXNA card supports intra-card link aggregation. When used as an uplink card, the PXNA card can be configured with link aggregation only on its uplink ports.
Page 301 19 Configuring Network Protection 19.2.7 Configuring the LACP Command Format Enable the LACP function. lacp [enable|disable] Configure the priority of the LACP system. lacp priority <value> system Configure the priority of the LACP port. lacp priority <value> port <frameid/slotid/portid> Configure the timer of the LACP port. lacp timeout [fast|slow] port <frameid/slotid/portid>...
Page 302: Configuring Erps
Admin(config)#lacp timeout fast port 1/18/1 Admin(config)# 19.3 Configuring ERPS This section introduces how to configure the ERPS for the AN6000 Series. 19.3.1 Background Information The Ethernet Ring Protection Switching (ERPS) is an Ethernet ring protection technology defined in the ITU-T G.8032 protocol. The fast switching mechanism and universality of the protocol can protect the link efficiently and guarantee the operation quality of the service.
Page 303 19 Configuring Network Protection At the logical layer, ERPS instances should be created for the equipment on the ring nodes to run the ERPS function. Besides, each ERPS ring needs to be assigned with an exclusive signaling VLAN as a channel for transmitting protocol messages (R-APS message).
Page 304 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Message Name Meaning Generation Time SF means signal failure, indicating that the link signal is lost. The message is sent by the port detecting the link fault. When R-APS (SF) When the link is faulty...
Page 305 19 Configuring Network Protection 19.3.2 Configuration Rules Only one RPL owner port needs to be configured on an ERPS ring. While configuring tangent rings, make sure the RPL owner port is configured on the equipment at a non-tangent point. 19.3.3 Configuring Single-Ring Single-Instance Protection This section uses an example to introduce how to configure a single-ring single- instance protection.
Page 306 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide When the network is normal, the service flow is forwarded in the direction of Equipment 1 Equipment 3 Equipment 2. When the network between Equipment 1 and Equipment 3 is faulty, the blocked RPL port will be unblocked, so that the service flow can be forwarded in the direction of Equipment 1 Equipment 2 Equipment 3.
Page 307 19 Configuring Network Protection 19.3.3.3 Enabling the ERPS Function for the RPL Owner in the Instance Command Format erps mode [enable|disable] Planning Data Description Example Parameter Attribute erps mode [enable| Enabling or disabling the ERPS function Mandatory enable disable] Example Enable the ERPS function.
Page 308 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Planning Data Description Example Procedure Parameter Attribute erps instance The ERPS instance ID, ranging from 1 to Mandatory <instance-id> Configuring the The starting value of the VLAN ID range Mandatory vlan-id <vlanid>...
Page 309 19 Configuring Network Protection Configure the management domain level. (Optional) erps ring <ring-id> mel <mel> Associate the ERPS ring instance with the VLAN instance. erps ring <ring-id> protect-inst <value> Configure the switching mode for the ERPS ring instance. (Optional) erps ring <ring-id> erps-mode [revertive|nonrevertive] Configure the wait-to-restore time for the ERPS ring instance.
Page 310 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Planning Data Description Example Procedure Parameter Attribute Configuring the ring <ringid> The ring ID Mandatory signaling VLAN for control-vlan the ERPS ring The signaling VLAN ID Mandatory <vlanid> instance Configuring the The maintenance entity level.
Page 311 19 Configuring Network Protection Description Example Procedure Parameter Attribute The role of the second port. It can role [common| be set to common port or RPL port. Mandatory common rpl-port] A ring instance can be configured with only one RPL port. Configuring the virtual channel virtual-vlan...
Page 312 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 19.3.3.6 Enabling the ERPS Function for Common Nodes in the Instance Command Format erps mode [enable|disable] Data Planning Description Example Parameter Attribute erps mode [enable| Mandatory Enable or disable the ERPS function.
Page 313 19 Configuring Network Protection Planning Data Description Example Procedure Parameter Attribute erps instance The ERPS instance ID, ranging from 1 to Mandatory <instance-id> Configuring the The starting value of the VLAN ID range mappings between Mandatory vlan-id <vlanid> to be mapped the VLANs and the ERPS instance {to <vlanid-...
Page 314 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide erps ring <ring-id> mel <mel> Associate the ERPS ring instance with the VLAN instance. erps ring <ring-id> protect-inst <value> Configure the switching mode for the ERPS ring instance. (Optional) erps ring <ring-id> erps-mode [revertive|nonrevertive] Configure the wait-to-restore time for the ERPS ring instance.
Page 315 19 Configuring Network Protection Description Example Procedure Parameter Attribute Configuring the The maintenance entity level. The Mandatory mel <mel> management value ranges from 0 to 7. domain level Associating the The protection instance. The value protect-inst ERPS ring instance Mandatory ranges from 1 to 64.
Page 316: Service Planning
AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Example Set the signaling VLAN ID of the ERPS ring instance to 100. Admin(config)#erps ring 1 control-vlan 100 Set the management domain level to 7. Admin(config)#erps ring 1 mel 7 Associate the ERPS ring instance with the VLAN Instance 1.
Page 317: Network Diagram
19 Configuring Network Protection Network Diagram The network for the single-ring multi-instance ERPS is shown in the figure below. The configuration in this example covers two parts: Ring Instance 1 and Ring Instance 2. Ring Instance 1 here is configured in the same way as that in the single-ring single-instance application.
Page 318 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 19.3.4.3 Enabling the ERPS Globally Command Format erps mode [enable|disable] Planning Data Description Example Parameter Attribute erps mode [enable| Enabling or disabling the ERPS function Mandatory enable disable] Example Enable the ERPS function.
Page 319 19 Configuring Network Protection 19.3.4.4 Configuring Basic Properties of the RPL Owner in Instance One Command Format Configure the mappings between the VLANs and the ERPS instance. erps instance <instance-id> vlan-id <vlanid> {to <vlanid-end>}*1 Create an ERPS ring. erps ring <ring-id> Configure the roles of the nodes in the ERPS ring instance.
Page 320 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 19.3.4.5 Configuring the RPL Owner in Instance One Note: Default values are recommended for the optional configuration items. Command Format Configure the signaling VLAN for the ERPS ring instance. erps ring <ringid> control-vlan <vlanid>...
Page 321 19 Configuring Network Protection erps ring <ring-id> second-slot <value> second-port <value> role [common| rpl-port] Configure the virtual channel VLAN for the ERPS ring instance. (Reserved function, configuration not required currently) erps ring <ring-id> virtual-vlan <value> Planning Data Description Example Procedure Parameter Attribute ring <ringid>...
Page 322 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Procedure Parameter Attribute The role of the first port. It can be role [common| set to common port or RPL port. A Mandatory rpl-port rpl-port] ring instance can be configured with only one RPL port.
Page 323 19 Configuring Network Protection Set the second port of the RPL owner device in the ERPS ring instance to common port. Admin(config)#erps ring 1 second-slot 19 second-port 4 role common 19.3.4.6 Configuring Basic Properties of Common Nodes in Instance One Command Format Configure the mappings between the VLANs and the ERPS instance.
Page 324 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Admin(config)#erps ring 1 Set Equipment 2 and Equipment 3 in Ring Instance 1 to common nodes. Admin(config)#erps ring 1 erps-role common Admin(config)# 19.3.4.7 Configuring Common Nodes in Instance One Note: Default values are recommended for the optional configuration items.
Page 325 19 Configuring Network Protection Configure properties of the first port in the ERPS ring instance. erps ring <ring-id> primary-slot <value> primary-port <value> role [common| rpl-port] Configure properties of the second port in the ERPS ring instance. erps ring <ring-id> second-slot <value> second-port <value> role [common| rpl-port] Configure the virtual channel VLAN for the ERPS ring instance.
Page 326 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Procedure Parameter Attribute primary-slot Mandatory No. of the first slot <value> primary-port Configuring The first uplink port Mandatory <value> properties of the first port in the ERPS The role of the first port. It can be...
Page 327 19 Configuring Network Protection Set the first port of the common device in the ERPS ring instance to common port. Admin(config)#erps ring 1 primary-slot 19 primary-port 3 role common Set the second port of the common device in the ERPS ring instance to common port.
Page 328 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Example Map the VLAN 300 to ERPS Instance 2. Admin(config)#erps instance 2 vlan-id 300 Create an ERPS ring. Admin(config)#erps ring 1 Set Equipment 2 in Ring Instance 2 to RPL owner.
Page 329 19 Configuring Network Protection Configure the guard time for the ERPS ring instance. (Optional) erps ring <ring-id> guard-time <value> Configure properties of the first port in the ERPS ring instance. erps ring <ring-id> primary-slot <value> primary-port <value> role [common| rpl-port] Configure properties of the second port in the ERPS ring instance.
Page 330 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Procedure Parameter Attribute Configuring the The guard timer. The value ranges guard-time guard time for the Mandatory from 10 to 2000 (unit: millisecond). <value> ERPS ring instance primary-slot Mandatory No.
Page 331 19 Configuring Network Protection Set the guard time for the ERPS ring instance to 500 ms. Admin(config)#erps ring 1 guard-time 500 Set the first port of the RPL owner device in the ERPS ring instance to RPL port. Admin(config)#erps ring 1 primary-slot 19 primary-port 3 role rpl-port Set the second port of the RPL owner device in the ERPS ring instance to common port.
Page 332 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Example Map the VLAN 300 to ERPS Instance 2. Admin(config)#erps instance 2 vlan-id 300 Create an ERPS ring. Admin(config)#erps ring 1 Set Equipment 1 and Equipment 3 in Ring Instance 2 to common nodes.
Page 333 19 Configuring Network Protection Configure the guard time for the ERPS ring instance. (Optional) erps ring <ring-id> guard-time <value> Configure properties of the first port in the ERPS ring instance. erps ring <ring-id> primary-slot <value> primary-port <value> role [common| rpl-port] Configure properties of the second port in the ERPS ring instance.
Page 334 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Procedure Parameter Attribute Configuring the The guard timer. The value ranges guard-time guard time for the Mandatory from 10 to 2000 (unit: millisecond). <value> ERPS ring instance primary-slot Mandatory No.
Page 335: Network Scenario
19 Configuring Network Protection Set the guard time for the ERPS ring instance to 500 ms. Admin(config)#erps ring 1 guard-time 500 Set the first port of the common device in the ERPS ring instance to common port. Admin(config)#erps ring 1 primary-slot 19 primary-port 3 role common Set the second port of the common device in the ERPS ring instance to common port.
Page 336: Configuration Flow
AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide The configuration in this example covers three parts: the equipment at the non- tangent points of Ring 1 (including Equipment 2 and 3), the equipment at the non- tangent points of Ring 2 (including Equipment 4 and 5), and the equipment at the tangent point (Equipment 1).
Page 337 19 Configuring Network Protection 19.3.5.3 Enabling the ERPS Globally Command Format erps mode [enable|disable] Planning Data Description Example Parameter Attribute erps mode [enable| Enabling or disabling the ERPS function Mandatory enable disable] Version: B...
Page 338 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Example Enable the ERPS function. Admin(config)#erps mode enable Admin(config)# 19.3.5.4 Configuring Basic Properties of the Equipment at Non- Tangent Points of Ring One Command Format Configure the mappings between VLANs and ERPS instances.
Page 339 19 Configuring Network Protection Command Format Create an ERPS ring. erps ring <ring-id> Configure the roles of the nodes in the ERPS ring instance. erps ring <ring-id> erps-role [common|rpl-owner] Configure the signaling VLAN for the ERPS ring instance. erps ring <ringid> control-vlan <vlanid> Configure the management domain level.
Page 340 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide erps ring <ring-id> second-slot <value> second-port <value> role [common| rpl-port] Configure the virtual channel VLAN for the ERPS ring instance. (Reserved function, configuration not required currently) erps ring <ring-id> virtual-vlan <value>...
Page 341 19 Configuring Network Protection Example Description Procedure Parameter Attribute Equipment 2 Equipment 3 Configuring the The guard timer. The guard time for the guard-time value ranges from 10 to Mandatory <value> ERPS ring 2000 (unit: millisecond). instance primary-slot Mandatory No. of the first slot <value>...
Page 342 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Set the signaling VLAN ID of the ERPS ring instance to 100. Admin(config)#erps ring 1 control-vlan 100 Set the management domain level to 7. Admin(config)#erps ring 1 mel 7 Associate the ERPS ring instance with the VLAN Instance 1.
Page 343 19 Configuring Network Protection Planning Data Description Example Parameter Attribute The ERPS instance ID, ranging from 1 to erps instance <instance-id> Mandatory The starting value of the VLAN ID range to Mandatory 200, 2000 vlan-id <vlanid> be mapped {to <vlanid-end>}*1 The ending value of the VLAN ID range Optional Example...
Page 344 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Associate the ERPS ring instance with the VLAN instance. erps ring <ring-id> protect-inst <value> Configure the switching mode for the ERPS ring instance. (Optional) erps ring <ring-id> erps-mode [revertive|nonrevertive] Configure the wait-to-restore time for the ERPS ring instance. (Optional) erps ring <ring-id>...
Page 345 19 Configuring Network Protection Example Description Procedure Parameter Attribute Equipment 4 Equipment 5 Configuring the ring <ringid> The ring ID Mandatory signaling VLAN control-vlan The signaling VLAN for the ERPS ring Mandatory <vlanid> instance The maintenance Configuring the entity level. The Mandatory mel <mel>...
Page 346 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Example Description Procedure Parameter Attribute Equipment 4 Equipment 5 second-slot No. of the second Mandatory <value> slot second-port No. of the second Mandatory port <value> Configuring properties of the The role of the second port in the second port.
Page 347 19 Configuring Network Protection Set the hold-off time for the ERPS ring instance to 1000 ms. Admin(config)#erps ring 2 holdoff-time 1000 Set the guard time for the ERPS ring instance to 500 ms. Admin(config)#erps ring 2 guard-time 500 Set the first port of Equipment 4 to RPL port and the first port of Equipment 5 to common port in the ERPS ring instance.
Page 348 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Admin(config)#erps instance 2 vlan-id 200 Admin(config)#erps instance 2 vlan-id 2000 Admin(config)# 19.3.5.9 Configuring Parameters for Equipment at the Tangent Point Note: Default values are recommended for the optional configuration items. Command Format Create an ERPS ring.
Page 349 19 Configuring Network Protection erps ring <ring-id> holdoff-time <value> Configure the guard time for the ERPS ring instance. (Optional) erps ring <ring-id> guard-time <value> Configure properties of the first port in the ERPS ring instance. erps ring <ring-id> primary-slot <value> primary-port <value> role [common| rpl-port] Configure properties of the second port in the ERPS ring instance.
Page 350 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Example Description Procedure Parameter Attribute Ring 1 Ring 2 Configuring the erps-mode Switching mode switching mode [revertive| Mandatory revertive revertive revertive for the ERPS ring nonrevertive] nonrevertive instance Configuring the The wait-to-restore timer.
Page 351 19 Configuring Network Protection Example Description Procedure Parameter Attribute Ring 1 Ring 2 second-slot Mandatory No. of the second slot <value> second-port No. of the second port Mandatory Configuring <value> properties of the The role of the second second port in the port.
Page 352: Background Knowledge
Admin(config)#erps ring 2 second-slot 19 second-port 4 role common Admin(config)# 19.4 Configuring the PON Protection This section introduces how to configure the PON protection for the AN6000 Series with examples. 19.4.1 Background Knowledge The AN6000 Series equipment supports the type B and type C PON protection schemes.
Page 353: Configuration Rules
19 Configuring Network Protection Type C protection: the redundancy protection for OLTs (in the dual-homing scenario), PON ports, backbone fibers, splitters and branch fibers. It can be a single-homing protection or a dual-homing protection. When one of the above- mentioned parts is faulty, services will be automatically switched over to another link.
Page 354: Network Scenario
AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide When configuring the hand-in-hand PON protection group, configure two PON ports (on two OLTs) as members of the protection group. The ONUs under them should have the same type and the same authorization number.
Page 355 19 Configuring Network Protection 19.4.3.2 Configuring a PON Port Protection Group Command Format Configure a PON port protection group. protect-group <group-no> master <frameid/slotid/portid> member <frameid/ slotid/portid> {mode [type-b|type-c|type-d] auto-resume [enable|disable] <auto-resume-time>}*1 View a PON port protection group. show protect-group <group-no> Delete a PON port protection group.
Page 356 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Example Configure a PON port protection group, setting port 1/1/1 as the master member and port 1/1/3 as the member port. Set the protection group mode to type B, enable automatic return for the master port and set the WTR time to 300s.
Page 357: Configuration Flow
19 Configuring Network Protection 19.4.4.1 Network Scenario Service Planning Here we use type C dual-homing protection as an example. Two uplink PON ports on ONU1 which is connected with two PON ports (port 3:1 and port 1:1) on two OLTs are configured as a PON port protection group, with PON A as the master port and PON B as the member port.
Page 358 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 19.4.4.3 Configuring the Hand-in-Hand PON Protection Group Globally Configuration Rules To delete the global configuration for a configured hand-in-hand PON protection group, delete the hand-in-hand PON protection group first. Command Format Configure the hand-in-hand PON protection group globally.
Page 359 19 Configuring Network Protection Planning Data Description Example Parameter Attribute The IP type of the hand-in-hand local OLT 1: IPv4 2: IPv6 <oltip-type> Mandatory 3: IPv4z 4: IPv6z 16: DNS The management IP address of the hand-in-hand <oltip-addr> Mandatory 10.182.24.55 local OLT The IP mask length of the hand-in-hand local OLT IPv4 and IPv4z: 0 to 32...
Page 360 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide handinhand-pp-group <group-idx> <enable-status> <protection-group-mode> <slotno> <ponno> <peer-oltip-type> <peer-oltip-addr> <peer-oltip- prefixlen> <peer-slotno> <peer-ponno> View a hand-in-hand PON protection group. show handinhand-pp-group {<groupid>}*1 Delete a hand-in-hand PON protection group. no handinhand-pp-group <groupid> Planning Data...
Page 361 19 Configuring Network Protection Admin(config)# View a hand-in-hand PON protection group. Admin(config)#show handinhand-pp-group 1 Hand in Hand Group id : 1 Enable status: Enable Protection group mode: Type C Self OLT pon is : slotno 3 ponno 1 Peer OLT IP Config is:2.2.2.2 iptype 1 prefix 4 Peer OLT pon is : slotno 1 ponno 1 Admin(config)#...
Page 362 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 19.4.5.2 Forced Switching of the ONU Command Format onu force-switch <onuid> Planning Data Description Example Parameter Attribute Mandatory <onuid> ONU authorization No. Example Configure forced switching for the services over ONU 1 under PON port 3 in slot 1 of subrack 1.
Page 363 Configuring Agile-PON This section introduces how to configure the Agile-PON function of the GFOA card on the AN6000 Series device. Configuring Agile-PON Ports Configuring Agile-PON Licenses Version: B...
Page 364 20.1.1 Background Information Agile-PON is a flexible PON solution developed by FiberHome for GPON and XG (S)-PON applications. It allows a service card to integrate multiple PON technologies by using different PON optical modules. In this way, OLT resources in the current network can be fully exploited, which facilitates smooth evolution from GPON to XG(S)-PON for operators.
Page 365 20 Configuring Agile-PON If ONUs under the PON ports of the GFOA card are authorized, the GPON XG-PON Combo or GPON XGS-PON Combo mode cannot be switched to the GPON mode. Manual configuration mode Switching among the GPON, GPON XG-PON Combo and GPON XGS- PON Combo modes is allowed.
Page 366: Result Description
AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Admin(config)# View the port mode configuration of the GFOA card in slot 3 of subrack 1. Admin(config)#show agile-mode 1/3 PONNO CFGMODE REALMODE -------------------------------------------- xg-combo xg-combo auto gpon auto gpon auto gpon...
Page 367 20 Configuring Agile-PON 20.2.1 Background Information Through Agile-PON licenses, you can define the quantity of ports working in GPON XG-PON Combo mode or GPON XGS-PON Combo mode for GFOA, the Agile-PON service card. In this manner, you can set ports in desired working modes in different phases according to service requirements.
Page 368 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Planning Data Description Example Parameter Attribute Management modes of the Agile-PON licenses local: Local management mode. In this mode, you can run a command to check license resources. The equipment manages its own...
Page 369 20 Configuring Agile-PON 20.2.3 Importing, Verifying and Validating License Files Caution: The quantity of licenses of the active and standby core switch cards should be the same. If not, for example, the standby card has fewer licenses than the licenses already used, the GFOA card will release some licenses of the PON ports after forcible switching.
Page 370 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Planning Data Description Example Procedure Parameter Attribute File types of the core switch cards system: system image file config: configuration file script: batch command line file [system|config| ver_file: version file script|ver-file|...
Page 371 20 Configuring Agile-PON Example Import a license file into the active core switch card. Set the IP address of the FTP server to 10.32.154.108, username to 1, password to 1, and file name to 10_182_24_5.bin. Admin(config)#load program license 10_182_24_5.bin ftp 10.32.154.108 1 1 Trying download config file from ftp server, please wait...
Page 372 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Example View license resources. Admin(config)#show license-source SOURCE TYPE TOTAL USED APPLY XG-PON XGS-PON Admin(config)# Result Description Description Parameter Working modes of the Agile-PON ports SOURCE TYPE XG-PON: GPON XG-PON Combo mode...
Page 373 20 Configuring Agile-PON g-pon ----- FAILED g-pon ----- FAILED g-pon ----- FAILED g-pon ----- FAILED g-pon ----- FAILED g-pon ----- FAILED g-pon ----- FAILED g-pon ----- FAILED g-pon ----- FAILED g-pon ----- FAILED g-pon ----- FAILED g-pon ----- FAILED g-pon ----- FAILED g-pon...
Page 374 Configuring Traffic Classification This chapter introduces how to configure traffic classification for the AN6000 Series. Background Information Configuration Rules Configuration Example for Traffic Classification Based on the L4 Source Port Configuration Example for Traffic Classification Based on the SVLAN Configuration Example for Traffic Classification Based on the PON Port...
Page 375 21 Configuring Traffic Classification 21.1 Background Information Traffic classification refers to classification of packets according to their features and certain rules to differentiate the services, process the services in different ways, and provide different quality of services. For example, to provide Internet, voice and IPTV services for the same user, you need to classify the service packets into three service flows.
Page 376: Configuration Flow
AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 21.3.1 Configuration Flow 21.3.2 Configuring Traffic Classification Rules Format flow-rule-profile add <name> {[id] <id>}*1 {[src-mac|dst-mac|src-ipv4- addr|dst-ipv4-addr|svlan|eth-type|ip-protocol-type|cos|tos-dscp|l4-src- port|l4-dst-port|ttl|cvlan|ip-ver|traff-class|traff-label|ipv6-next- header|src-ipv6-addr|dst-ipv6-addr|ponid|onuid] [range|value_mask|equal| not_equal|exist_match|not_exist_match] <value1> [<value2>|null]}*8 Planning Data Description Example Parameter Attribute flow-rule-profile add Mandatory...
Page 377 21 Configuring Traffic Classification Description Example Parameter Attribute Rule type. You can select one from the following list: src-mac: based on the source MAC address dst-mac: based on the destination MAC address src-ipv4-addr: based on the source IPv4 address dst-ipv4-addr: based on the destination IPv4 address svlan: based on the SVLAN eth-type: based on the Ethernet type...
Page 378 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Parameter Attribute rule matching. You can select one from the following list: equal not_equal: not equal to exist_match: match if present not_exist_match: match if not present value_mask: value plus mask...
Page 379 21 Configuring Traffic Classification Planning Data Description Example Parameter Attribute flow-policy-profile The name of the policy profile Mandatory policy5 add <name> {[id] <id>}*1 The ID of the policy profile Optional The policy priority level, ranging from 1 to 12. The {[pri] <1-12>}*1 value "1"...
Page 380 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Parameter Attribute The port re-direction function switch. The ID of the {[re-port] [enable| policy profile should be configured before this Optional disable]}*1 parameter is set. Otherwise, this function is disabled.
Page 381 21 Configuring Traffic Classification Example Configure a traffic policy profile with the name policy5, the ID 8, and the priority 3. Enable the ACL, set the forwarding flag to "enable" (forward the traffics matching the rules and discard those that do not match), and use default settings for all the other policy items.
Page 382 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 21.4.1 Configuration Flow 21.4.2 Configuring Traffic Classification Rules Format flow-rule-profile add <name> {[id] <id>}*1 {[src-mac|dst-mac|src-ipv4- addr|dst-ipv4-addr|svlan|eth-type|ip-protocol-type|cos|tos-dscp|l4-src- port|l4-dst-port|ttl|cvlan|ip-ver|traff-class|traff-label|ipv6-next- header|src-ipv6-addr|dst-ipv6-addr|ponid|onuid] [range|value_mask|equal| not_equal|exist_match|not_exist_match] <value1> [<value2>|null]}*8 Planning Data Description Example Parameter Attribute flow-rule-profile add Mandatory...
Page 383 21 Configuring Traffic Classification Description Example Parameter Attribute Rule type. You can select one from the following list: src-mac: based on the source MAC address dst-mac: based on the destination MAC address src-ipv4-addr: based on the source IPv4 address dst-ipv4-addr: based on the destination IPv4 address svlan: based on the SVLAN eth-type: based on the Ethernet type...
Page 384 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Parameter Attribute Rule value for rule matching Optional <value1> Rule value 2 for rule matching. Set it to "null [<value2>|null] for matching types other than "range" and Optional null "value_mask .
Page 385 21 Configuring Traffic Classification Description Example Parameter Attribute The forwarding flag. Configure this item according to the network planning of the operator. It cannot be configured when the ACL function is disabled. {[forward] [enable| enable: Only the traffic matching the set rule is Optional enable disable]}*1...
Page 386 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Parameter Attribute {[rate-limit] The rate limit switch. The default setting is "disable". Optional [enable|disable]}*1 The committed information rate (unit: kbit/s). The value ranges from 0 to 2147483647, and the default {[cir] <cir>}*1...
Page 387 21 Configuring Traffic Classification 21.4.4 Binding the Traffic Policy to an ONU Port Command Format onu port flow-policy <onuid> eth <portno> {upstream-profile <uppolicyprf> downstream-profile <downpolicyprf> upstream-rule-profile <upruleprf> downstream-rule-profile <downruleprf>}*8 Planning Data Description Example Parameter Attribute The ONU authorization number, Mandatory <onuid>...
Page 388 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 21.5.1 Configuration Flow 21.5.2 Configuring the Traffic Classification Rules Command Format flow-rule-profile add <name> {[id] <id>}*1 {[src-mac|dst-mac|src-ipv4- addr|dst-ipv4-addr|svlan|eth-type|ip-protocol-type|cos|tos-dscp|l4-src- port|l4-dst-port|ttl|cvlan|ip-ver|traff-class|traff-label|ipv6-next- header|src-ipv6-addr|dst-ipv6-addr|ponid|onuid] [range|value_mask|equal| not_equal|exist_match|not_exist_match] <value1> [<value2>|null]}*8 Planning Data Description Example Parameter Attribute flow-rule-profile add <name>...
Page 389 21 Configuring Traffic Classification Description Example Parameter Attribute The rule domain type. This parameter is used to set the rule type. You can select one from the following list of rule types: src-mac: based on the source MAC address dst-mac: based on the destination MAC address src-ipv4-addr: based on the source IPv4 address...
Page 390 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Parameter Attribute matching. You can select one from the following list of matching types: equal not_equal: not equal to exist_match: existing means matching not_exist_match: not existing means matching value_mask: value plus mask range <value1>...
Page 391 21 Configuring Traffic Classification Planning Data Description Example Parameter Attribute flow-policy-profile The name of the policy profile Mandatory policy5 add <name> {[id] <id>}*1 The ID of the policy profile Optional The policy priority level, ranging from 1 to 12. The {[pri] <1-12>}*1 value "1"...
Page 392 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Parameter Attribute The port re-direction function switch. The ID of the {[re-port] [enable| policy profile should be configured before this Optional disable]}*1 parameter is set. Otherwise, this function is disabled.
Page 393 21 Configuring Traffic Classification Example Configure a traffic policy profile with the name policy5, the ID 8, and the priority 3. Enable the ACL, set the forwarding flag to "enable" (forward the traffics matching the rules and discard those that do not match), and use default settings for all the other policy items.
Page 394 Configuring Subscriber Line Identifiers This chapter introduces how to configure subscriber line identifiers for the AN6000 Series. Background Information Configuration Rules Configuration Example of Subscriber Line Identifiers Version: B...
Page 395: Background Information
22 Configuring Subscriber Line Identifiers 22.1 Background Information The figure below illustrates the signal flow of subscriber line identifiers. The OLT system captures specific messages (DHCP DISCOVER, DHCP REQUEST, PADI and PADR) in the uplink direction and adds the line identifier information to the messages based on the configured format.
Page 396 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Table 22-1 Custom Identifier Variables Identifier Meaning Identifier Meaning User outer VLAN ONU authorization No. ONU type User inner VLAN Access node identifier MDU ONU slot No. Rack No. of the access node MDU ONU sub-slot No.
Page 397 22 Configuring Subscriber Line Identifiers The aforesaid delimiters are not allowed in the values of variables. 22.3 Configuration Example of Subscriber Line Identifiers This section uses an example to introduce how to configure subscriber line identifiers. 22.3.1 Configuration Flow 22.3.2 Configuring the Line Identifier Switch Command Format Enable or disable the DHCP Option 82 function.
Page 398 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Planning Data Description Example Procedure Parameter Attribute enable: Enable the Enabling or dhcp option82 [enable| function. disabling the DHCP Mandatory enable disable] disable: Disable the Option 82 function function. enable: Enable the...
Page 399 22 Configuring Subscriber Line Identifiers Data Planning Description Example Parameter Attribute circuit-id: the line identifier format [circuit-id| Mandatory remote-id: the remote end circuit-id circuit-id remote-id remote-id] identifier format <format-str>: the custom format ctc: the CTC format, which means /%a.%b.% /%a.%b.% format the standard of China Telecom [<format-str>|...
Page 400 Configuring the Remote Mirroring Function The AN6000 Series equipment supports configuring the remote mirroring function, encapsulating the mirrored data and sending them to a remote server. Enabling / Disabling the Remote Mirroring Function Configuring the Remote Mirroring Server Version: B...
Page 401 23 Configuring the Remote Mirroring Function 23.1 Enabling / Disabling the Remote Mirroring Function Command Format Enable or disable the remote mirroring function. flow-policy-profile add <name> {[id] <id>}*1 {[pri] <1-12>}*1 {[acl] [enable|disable]}*1 {[forward] [enable|disable]}*1 {[re-cos] [enable| disable]}*1 {[cos] <0-7>}*1 {[re-dscp] [enable|disable]}*1 {[dscp] <0-63>} *1 {[re-traff] [enable|disable]}*1 {[traff] <traff>}*1 {[re-queue] [enable| disable]}*1 {[queue] <0-7>}*1 {[re-port] [enable|disable]}*1 {[rdport] <port>}*1 {[flow-mirr] [enable|disable]}*1 {[mirrport] <port>}*1 {[rate-...
Page 402 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Parameter Attribute The priority label, ranging from 0 to 7. This {[cos] <0-7>}*1 parameter cannot be configured when the CoS re- Optional marking flag is set to "disable". {[re-dscp] [enable| The DSCP re-marking flag.
Page 403 23 Configuring the Remote Mirroring Function Description Example Parameter Attribute The excess burst size (unit: byte). The value ranges from 0 to 2147483647, and the default value is 0. {[ebs] <ebs>}*1 Optional This parameter cannot be configured when the rate limit is disabled.
Page 404 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 23.2 Configuring the Remote Mirroring Server Command Format mirror remote-server-config server-ip <ip-address> priority <priority> dscp <dscp> src-port <src-port> dest-port <dest-port> Planning Data Description Example Parameter Attribute server-ip <ip-address> Mandatory The IP address of the remote server.
Page 405: Configuring Tacacs
Configuring TACACS+ This chapter introduces how to configure TACACS+ for the AN6000 Series. Background Information Configuration Flow Configuring Information about the TACACS+ Server Configuring the Authentication Mode Configuring the Authorization Mode Configuring the Accounting Mode Version: B...
Page 406 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 24.1 Background Information The TACACS+ (Terminal Access Controller Access-Control System Plus) protocol is a user access control protocol based on the C-S mode. The protocol is mainly used for user authentication, authorization and accounting (i.e., the AAA function). The protocol is based on TCP for service transmission and uses Port 49 for communication.
Page 407 24 Configuring TACACS+ 24.2 Configuration Flow 24.3 Configuring Information about the TACACS+ Server Command Format tacacs-server host <A.B.C.D> [key|port|timeout] <value> Version: B...
Page 408: Configuring The Authentication Mode
AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Planning Data Description Example Parameter Attribute The destination IP address of IP 10.10.10. 10.10.10. 10.10.10. Mandatory host <A.B.C.D> messages key: the encrypted key for interaction with the server. The key contains 0 to 255 characters.
Page 409 24 Configuring TACACS+ Planning Data Description Example Parameter Attribute local: the local authentication mode [local|radius| Mandatory radius: the RADIUS authentication mode tacacs tacacs] tacacs: the TACACS authentication mode Example Set the authentication mode to TACACS. Admin(config-aaa)#aaa authentication-mode tacacs Admin(config-aaa)# 24.5 Configuring the Authorization Mode Command Format Configure the user authorization mode.
Page 410 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Admin(config-aaa)# 24.6 Configuring the Accounting Mode Command Format Configure the user accounting mode. aaa accounting-mode [none|radius|tacacs] Configure the command line accounting mode. aaa accounting-mode command [none|tacacs] Planning Data Description Example Procedure...
Page 411: Configuring Radius
Configuring RADIUS This chapter introduces how to configure RADIUS for the AN6000 Series. Background Information Configuration Flow Configuring the RADIUS Authentication Mode Configuring the RADIUS Authentication Information Version: B...
Page 412 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 25.1 Background Information The OLT equipment serves as the RADIUS client end to provide access service for remote access users and enables their interaction with the RADIUS server. The RADIUS server stores the identity and authorization information of the users and records their access operations to provide the user authentication, authorization and accounting (AAA) services.
Page 413 25 Configuring RADIUS Figure 25-1 Principle of RADIUS Protocol Interaction 25.2 Configuration Flow 25.3 Configuring the RADIUS Authentication Mode Command Format aaa authentication-mode [local|radius|tacacs] Version: B...
Page 414 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Planning Data Description Example Parameter Attribute local: the local authentication mode [local|radius| Mandatory radius: the RADIUS authentication mode radius tacacs] tacacs: the TACACS authentication mode Example Set the authentication mode to RADIUS.
Page 415 25 Configuring RADIUS Configure the IP address of the RADIUS authentication server to 10.1.1.1 and the authentication server port to 1812. Admin(config)#radius server ip-address 10.1.1.1 auth-port 1812 Configure the IP address of the RADIUS authentication server to 10.1.1.1 and the port of the accounting server to 1813. Admin(config)#radius server ip-address 10.1.1.1 acct-port 1813 Configure the IP address of the RADIUS authentication server to 10.1.1.1 and the timeout period to 10 seconds.
Page 416 Detecting Optical Power This chapter introduces how to detect optical power. Background Information Viewing the Information about the Optical Module at the PON Port Viewing Optical Module Parameters of an ONU Version: B...
Page 417 26 Detecting Optical Power 26.1 Background Information 10G EPON Optical Module Specification Item 10/1.25G-20km-10G EPON OLT 10/1.25G-20km-10G EPON OLT symmetric- Module code asymmetric-XFP (10G/1G BASE-PRX30) XFP (10G BASE-PR30) Optical module type 10/1G BASE-PRX30 10G BASE-PR30 1490 nm: 2 dBm to 7 dBm 1490 nm: 2 dBm to 7 dBm Output optical power 1577 nm: 2 dBm to 5 dBm...
Page 418: Result Description
AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide 26.2 Viewing the Information about the Optical Module at the PON Port Command Format show optical info Example View the information about the optical module at PON Port 15 in Slot 1 of Subrack 1.
Page 419 26 Detecting Optical Power 26.3 Viewing Optical Module Parameters of an Format show onu optical-info <onuid> Planning Data Description Example Parameter Attribute Mandatory <onuid> ONU authorization number Example Admin(config-if-pon-1/1/15)#show onu optical-info 1 ----- ONU OPTIC MODULE PAR INFO 1.15.1----- NAME VALUE UNIT --------------------------------------- TYPE : 20 (KM) TEMPERATURE : 40.91 ('C)
Page 420 Commands for Upgrading the Device This chapter introduces commands for upgrading the AN6000 Series. Commands for Upgrading Cards Commands for Upgrading the ONU Uploading the Configuration Data Version: B...
Page 421 27 Commands for Upgrading the Device 27.1 Commands for Upgrading Cards Command Format Upgrade the core switch card (active). load program [system|config|script|ver-file|boot|patch|cpld] <filename> [tftp|ftp|sftp] <ipaddr> {<username> <password>}*1 Upgrade the core switch card (standby). load program backup [system|patch|cpld|boot] <filename> [tftp|ftp|sftp] <ipaddr> {<username> <password>}*1 Upgrade the service card / uplink card.
Page 422 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Description Example Procedure Parameter Attribute hb_hsca_ Mandatory <filename> File name 1000_tst. [tftp|ftp|sftp] The FTP protocol type Mandatory <ipaddr> Mandatory The IP address of the FTP server 3.3.3.100 {<username> The username and password of the FTP...
Page 423 27 Commands for Upgrading the Device 27.2 Commands for Upgrading the ONU Command Format load onu-program <frameid/slotid/portid> <onulist> <filename> [tftp|ftp| sftp] <ipaddr> {<username> <password>}*1 Planning Data Description Example Parameter Attribute <frameid/slotid/- Subrack No. / slot No. / port No. Mandatory 1/1/1 portid>...
Page 424 AN6000 Series Optical Line Terminal Equipment CLI Configuration Guide Planning Data Description Example Parameter Attribute File type system: the system image file config: the configuration file [system|config|showrun| showrun: the running configuration file igmplog|syslog|ver_file| Mandatory config igmplog: the multicast log file...
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