Horizon COMPACT PlusTM Wireless Ethernet Release 1.0.1 Product Manual - Volume 2 Advanced Configuration Features Version 1.
NOTICE This document contains confidential information, which is proprietary to DragonWave. No part of its contents can be used, copied, disclosed, or conveyed to any party in any manner whatsoever without prior written permission from DragonWave Inc. Copyright © 2000 - 2012 DragonWave Inc. Horizon Compact Plus Release 1.0.
DragonWave Inc. ii Table of Contents 1.0 USER MANUAL STRUCTURE ....................................................................... 1 2.0 ADVANCED CONFIGURATION FEATURES ................................................. 3 2.1 ....... DYNAMIC CONFIGURATION CHANGE .................................................................................... 3 3.0 UPGRADE/DOWNGRADE LICENSED FEATURES ....................................... 5 3.1 ....... UPGRADE/DOWNGRADE FEATURE GROUP..........................
Table of Contents iii 10.2 ..... ASYMMETRIC THROUGHPUT SPEED................................................................................... 53 10.3 ..... THROUGHPUT (BANDWIDTH) LOGGING .............................................................................. 55 11.0 ADAPTIVE TRANSMIT POWER CONTROL (ATPC) ................................... 60 11.1 ..... NORMAL LINK................................................................................................................... 60 11.2 .....
DragonWave Inc. iv 17.5.7 WEB PAGE TREE DIAGRAM ........................................................................................................111 17.6 ..... SECURE SOCKETS LAYER (SSL) W EB SERVER ............................................................... 111 17.6.1 WHAT IS SSL? ..........................................................................................................................112 17.6.2 GENERATING A CERTIFICATE ...........................................................
Table of Contents v List of Figures Figure 7-1 CoS Queues can be allocated a CIR and a Committed Burst Size (CBS). ........................ 33 Figure 7-2 Weighted Fair Queuing Concept. .......................................................................................... 34 Figure 16-1 Web Interface - Login Screen ............................................................................................ 107 Figure 16-2 Web Interface - Home Screen ......................................................
1.0 User Manual Structure This user manual is divided into three volumes: Volume 1 – Contains an overview of the product, basic configuration, installation and the alignment procedures that are sufficient to set up a link and have it passing traffic. Also, a list of the advanced configuration features. Volume 2 (this volume) – includes step-by-step configuration details for the advanced configuration features that are listed in Volume 1.
DragonWave Inc. 2 This page left blank intentionally Horizon Compact Plus Release 1.0.
2.0 Advanced Configuration Features Volume 1 describes the configuration of the basic features that allow the Horizon Compact Plus to provide a wireless Ethernet link, with a throughput of up to 400 Mbps. A number of advanced configuration features provide enhanced throughput, system access and management security, link protection, quality of service and alarm management. Each advanced feature is described in detail in the following sections.
DragonWave Inc. 4 This page is left blank intentionally Horizon Compact Plus Release 1.0.
3.0 Upgrade/Downgrade Licensed Features Some of the features described in this manual are only available if a license for the feature(s) is obtained from DragonWave Inc. These are as follows: 1. 2. 3. RLS - Rapid Link Shutdown EOAM, ECFM(802.1ag/Y.1731) – EOAM and ECFM support HAAM – Hitless Automatic Adaptive Modulation To enable/disable any of these features there are CLI commands that provide information about your system that DragonWave Inc.
DragonWave Inc. 6 Required Action Steps List the indexed licensed feature upgrade information. This command lists the licensed features available for the Horizon Compact Plus and also indicates if they are licensed for this sytem. Sequence: get feature group upgrade information [group index 1 to 3] press Enter Note that this information needs to be sent to DragonWave Inc. before an upgrade key can be issued. Fees apply to upgrade licenses.
Upgrade/Downgrade Licensed Feature 7 Required Action Steps Downgrade an indexed feature Use this command to downgrade, or unlicense, a feature. Note, once downgraded you will need another license key from DragonWave in order to re-license a group. Sequence: downgrade feature group Example: downgrade feature group 3 press Enter The system responds: This operation will unlicense this feature group.
DragonWave Inc. 8 3.2 Upgrade System License Speed Upgrading the system licensed speed requires an upgrade license key obtainable from DragonWave. Upgrading the licensed speed does not cause you to lose the ability to reduce the speed and then return to the new licensed speed at a later time. Note that the throughput of a system (current speed) can be configured to be less than, or equal to, the licensed speed.
Upgrade/Downgrade Licensed Feature 9 Required Action Steps View the information required by DragonWave Inc. in order to process a licensed speed upgrade request. Returns the information requested by DragonWave for licensed speed upgrade purposes.
DragonWave Inc. 10 3.3 Downgrade System License Speed Downgrading the system license speed to a value lower than previously purchased is supported. Information presented by the system, when downgraded, needs to be sent to DragonWave in order to confirm the status of your license. NOTE: Once the system license speed has been downgraded, a new license key is required if you wish to return to a higher licensed speed.
Upgrade/Downgrade Licensed Feature 11 Required Action Steps Downgrade system licensed speed Downgrades the system licensed speed to operate at a lower maximum speed. Warning: Once you issue this command your current license speed key will be lost and you will not be able to return to your original licensed speed without acquiring another license key from DragonWave. Sequence: downgrade system licensed speed [speed] press Enter Where [speed] is the new lower licensed speed in Mbps.
DragonWave Inc. 12 Required Action Steps Licensed speed downgrade information This command returns the licensed speed downgrade information that was presented during the downgrade process. This is the same information, along with the licensed speed count, that DragonWave needs in order to verify the status of your license.
4.0 Configuring Ethernet Ports 1 and 2 The option is available to independently configure the two physical Data ports, Port 1 and Port 2 as two 100/10 Base-t (Fast Ethernet) ports, or as single 1000/100/10 Base-t (Gigabit) ports. A cable splitter is required at the hardware input to Port 1 or Port 2 to provide the physical Fast Ethernet connections. When configured as two Fast Ethenet ports, Port 1 supports ports p1 and p4 and Port 2 supports ports p2 and p3.
DragonWave Inc. 14 Procedure 4-1 Ethernet Port Configuration To configure the Ethernet ports use the following procedure: Required Action Steps login Log in using the Super user or a NOC account. View current port configuration This command displays the current configuration of the ports.
Configuring Ethernet Ports 1 and 2 15 Required Action Steps Configure Ports This command will allow you to configure any of the four possible ports The first example configures Port 1 (p1) as a Gigabit port. Port p4, the second port associated with Port 1, cannot be enabled if p1 is to operate at Gigabit speed. Ports p3 and p4 have been previously disabled in this example. Port p2 cannot be disabled. Note that the information shown in brackets ( ) at the end of each line shows the current configuration.
DragonWave Inc. 16 Required Action Steps Configure ports The second example configures physical Port 2 with two 100/10 Base-t circuits p2 and p3. Note that p1 has already been configured as a GigE port as per the first example, which leaves p4 disabled. After configuring p2, repeat the procedure for p3.
5.0 Synchronous Ethernet (SyncE) Ethernet has rapidly overtaken legacy communication technologies such as TDM, ATM and SONET/SDH within the carrier infrastructure. Ethernet is a packet based technology, which, originally, was incapable of carrying technologies requiring the transfer of accurate synchronization and clock distribution such as that required for the legacy technologies noted above.
DragonWave Inc. 18 5.3 Configuring SyncE Procedure 5-1 Configuring syncE All the commands in the following procedure are immediately invoked. There is no need to perform a save mib or reset system to make the feature active. Required Action Steps login Log in using the Super user, NAC or an Admin account.
RADIUS Server Authentication 19 Required Action Steps Select the port that will be the primary (master) synchronization clock source This command allows you to select which port is to be the primary clock source. Note that in order to configure the primary clock source port, the port must first be made part of the member port group and be configured as GigE (1000 Mbps), or 100BaseT (100 Mbps). Note, also, that if port p1 is an SFP port it cannot be used as a clock source.
DragonWave Inc. 20 Required Action Steps Enable or disable the revertive mode This command allows you to enable or disable the revertive mode. On a primary clock source failure and provided that the SyncE mode is configured for auto, when revertive mode is enabled (on), it allows the system to automatically revert back from the secondary to the primary clock source, once the primary clock source has recovered and remains stable for a selected time in seconds. Time range is 30 to 300 seconds.
RADIUS Server Authentication 21 Required Action Steps View current SyncE configuration Use this command to return the current SyncE configursation settings. Sequence: get synce config press Enter The system responds: Synce mode : auto Primary clock source : wp1 Secondary clock source: p4 Synce members : p4,wp1,freerun Revertive mode : on Wander filter option :option2 Required for troubleshooting only.
6.0 RADIUS Server User Authentication The DragonWave Remote Authentication Dial In User Service (RADIUS) server option enables users to be centrally authenticated before being allowed access to a modem. This adds another layer of security by removing user access control away from individual modems and moving it to a central server. Up to five (5) RADIUS servers can be configured.
RADIUS Server Authentication 23 Required Action Steps Configure radius server host This command sets up a RADIUS server host. Note that once the RADIUS server host details have been entered, the server key has to be entered before the server becomes active (see next command). Sequence: set radius server host [index] [ip address] press Enter Where [index] is the server index 1…5 and [ip address] is the ip address of the RADIUS server concerned The system responds: Host set.
DragonWave Inc. 24 Required Action Steps Configure radius super user authentication This commands enables or disables the Super user from accessing a modem, when the RADIUS server does not respond, or is not available. If set to “off” the Super user is allowed to log in using the name and password set in the modem. The default setting is “off”.
RADIUS Server Authentication 25 6.1 Configuring the RADIUS Server To support the DragonWave RADIUS application, each RADIUS server on the network must be provided with a Vendor Specific Attribute (VSA) file. The VSA file contains the definition of the DragonWave user privilege level (Admin, NOC, Super-User) allocated to users. User definitions can use the DragonWave-Privilege-Level attribute to assign access privileges. If the VSA is missing, then the RADIUS logs the user in at an Admin level only.
7.0 Management VLAN Tagging Note: The configuration of Horizon Compact Plus VLAN tagging is only necessary if you wish to restrict Horizon Compact Plus management communications to a specific management VLAN. The Horizon Compact Plus system will pass user VLAN traffic transparently, independent of the Horizon Compact Plus Management VLAN settings. The VLAN settings are for Horizon Compact Plus management purposes and do not affect user data traffic. 7.
Management VLAN Tagging 27 7.4 Horizon Compact Plus VLAN Settings The following tables describe the behavior of Horizon Compact Plus management packets with respect to VLAN settings on the Horizon Compact Plus system. Table 7-1 VLAN tagging is OFF In this configuration VLAN tagging is OFF, therefore no Horizon Compact Plus packets contain VLAN tags.
DragonWave Inc. 28 Procedure 7-1 Enable VLAN tagging Perform this procedure to enable VLAN tagging for the Horizon Compact. Note: To perform this procedure, you must have NOC user rights. Required Action Steps login Log in as a NOC user. View vlan tagging Displays the VLAN tagging operational state for the system. Sequence: get vlan tagging press Enter The system responds: VLAN tagging: [off | on] Configure vlan tagging Sets the VLAN tagging operational state for the system.
Management VLAN Tagging 29 Required Action Steps Reset system A system reset is required to activate this feature. Sequence reset system press Enter The system responds: Are you sure you want to reset? Y(yes) or N(no) press Y The system will proceed to reset. You will have to log on again to regain access. This concludes the steps to enable VLAN tagging for the Horizon Compact Plus system using the CLI manager. Horizon Compact Plus Release 1.0.
8.0 Quality of Service (QoS) QoS implementation is best done on the ingress and egress portions of the transport network. As such, QoS should be implemented on the Ethernet switches. Once that implementation is in place, the Horizon Compact Plus can be configured for QoS, should the potential for congestion exist. The Horizon Compact Plus has two physical GigE ports (10/100/1000 Base-T). Each port can also be independently reconfigured as two fast Ethernet ports (10/100 Base-T).
Quality of Service (QoS) 31 8.4 Operation with QoS Enabled In Horizon Compact Plus, when QoS is enabled, a configurable packet filter directs user data packets to any one of eight QoS queues based on the CoS (priority) levels assigned to each packet. The eight QoS queues are labeled Q1 to Q8. Slow bridge protocol frames, by default, are directed to the highest priority queue Q8, however, if QoS is enabled, these frames can be directed to any one of the eight QoS queues.
DragonWave Inc. 32 8.4.3 Committed Information Rate (CIR) The Horizon Compact Plus system allows the user to assign a percentage of the maximum bandwidth available to the data in each of the eight QoS queues (set cos queue cir [0-100 0-100 0-100 1-100 0100 0-100 0-100 1-100]). The default is 100% for each queue. The behavior of the CIR is different for the two scheduling policies (Priority Queuing or Weighted Fair Queuing - see Section 8.5).
Quality of Service (QoS) 33 8.5.1 Cut Through Any traffic assigned to a Cut Through queue is serviced at the highest priorty (regardless of the order of that particular queue among other priority queues) by stopping the in-transition frames from other queues. If a frame is being forwarded over the air from another queue and traffic arrives on the Cut-Through queue, the transmission of the traffic from the other queue is stopped, and the frames from the Cut through Queue are inserted for transmission.
DragonWave Inc. 34 8.5.3 Weighted Fair Queuing (WFQ) Priority Queuing scheduling has the drawback of wasting bandwidth when any of the bandwidth requirements of the queues are below the set CIR for that queue. Any unused bandwidth allocated to a queue cannot be redistributed to the other queues. Also, there is a possibility of starving the lower priority queues when the higher priority queues are over subscribed. WFQ helps in solving these problems.
Quality of Service (QoS) 35 The user sets the CIR and the weight (set cos wfq weight [w1 w2 w3 w4 w5 w6 w7 w8] for each queue and the scheduler processes each queue based on those parameters. Up to four expedite queues (Q8 to Q5) can be configured (see Section 8.5.4). The queues are serviced in a round-robin fashion (in order Q8, Q7, Q6, Q5, Q4, Q3, Q2, Q1) except for the expedite queue(s) (if enabled) which are serviced with highest priority.
DragonWave Inc. 36 8.5.4 Weighted Fair Queuing – Expedite Mode In the WFQ policy, between one and four queues (default is two) (Q8 to Q5 only) can be configured as expedite (priority) queues. This is achieved by enabling the expedite function (set cos expedite queue [on|off]) and selecting the required number of priority queues.
Quality of Service (QoS) 37 Required Action Select the priority bits type to use Steps Sets the QoS system to use priority bits provided by standard VLAN frames, Super VLAN (Q-in-Q) inner or outer tags, mpls exp, or dscp priority bits. This applies to all configured ports.
DragonWave Inc. 38 Required Action Assign the CoS priority bits to a queue Steps Maps each of the incoming 802.1P CoS levels on any enabled port, to any of the eight Horizon Compact Plus QoS Queues. The Horizon Compact Plus system supports all eight 802.1P CoS levels (0-7).
Quality of Service (QoS) 39 Required Action Steps Select the QoS policy Selects the Priority Queuing or Weighted Fair Queuing policy. Sequence: set qos policy [strict_priority | wfq] press Enter where strict_priority selects Prority Queuing and wfg selects Weighted Fair Queuing.
DragonWave Inc. 40 Required Action **For Weighted Queuing Only** Steps Fair Set the queue CIR Sets the Committed Information Rate (CIR) for each of the 8 QoS queues. The CIR defines the minimum amount of bandwidth allocated for that queue. Sequence: set cos queue cir [%1 %2 %3 %4 %5 %6 %7 %8] press Enter where %1 %2 %3 %4 %5 %6 %7 %8 is the percentage of the available bandwidth to be allocated to CoS Queues 1 through 8 respectively. The total cannot exceed 100% , but can be less than 100% if desired.
Quality of Service (QoS) 41 Required Action **For Weighted Queuing Only** Steps Fair If wfq policy is selected, then apply weights to each queue and allocate an expedite queue if required. Applies weights to each of the four priority queues. The higher the weighting value, the greater the share of surplus bandwidth is allocated to that queue.
DragonWave Inc. 42 Required Action **For Weighted Queuing Only** Steps Fair Enable the expedite queue function Enables or disables the expedite queue function. When this option is enabled, the user also selects the desired number of expedite queues. Up to four expedite queues can be configured. The expedite queues will always be selected from Q8 through Q5. Example: if the number of expedite queues is to be 4, Q8, Q7, Q6, and Q5 will be the expedite queues and the rest will be WFQ.
Quality of Service (QoS) 43 Required Action Steps Set the committed burst size for each queue Sets the committed burst size for each of the eight QoS queues (and QC if ecfm or control flow mapping is enabled**), as a percentage of the total queue memory available. There is a total of 100 msec worth (16MB) of memory space allocated to QoS queues. A percentage of this space is allocated to each of the eight queues.
DragonWave Inc. 44 Required Action Steps set the default CoS level for packets not having a level already assigned. Assigns packets that do not have CoS levels to any one of the eight 802.1p CoS levels (0-7). Sequence: set cos default value [port name p1-p4] [n] press Enter where “port name” is any port p1, p2, p3, or p4 and “n” is any number 0 through 7. Example: set cos default value p1 0 press Enter On port p1, packets without a vlan tag are treated as a CoS value 0.
Quality of Service (QoS) 45 Procedure 8-2 User flow mapping Use the following procedure to set up User Flow Maping. Required Action Steps login Log in as a SuperUser or NOC user. View the current status of User Flow Mapping This command returns the current status of User Flow Mapping.
DragonWave Inc. 46 Required Action Steps Configure User Flow Mapping This command enables you to configure any of the three predefined flows.
Quality of Service (QoS) 47 This page is left blank intentionally Horizon Compact Plus Release 1.0.
9.0 Pause Frames Pause frames are generated by the weaker (slower) link when its forward pipe gets full. Pause frames inform the upstream device to “pause and stop sending traffic for a period of a specific ‘quanta’” (refer to ieee 802.3 standard for the definition of ‘quanta’). When the Pause Frame feature is enabled, Horizon Compact Plus generates pause frames to the Ethernet switch when the Horizon Compact Plus receiving buffer hits the internally set threshold.
Quality of Service (QoS) 49 This page is left blank intentionally Horizon Compact Plus Release 1.0.
10.0 Bandwidth Management When you purchase a Horizon Compact Plus system you receive a unit capable of giving a throughput speed of up to 400 Mbps. However, the actual throughput speed achievable for any given system depends on the specific licensed speed key that you purchased with the system You can upgrade your system to a higher licensed speed (see Section 3.2) by purchasing an upgrade key and reprogramming your system.
Bandwidth Management 51 Procedure 10-1 Configure Horizon Compact Plus Throughput Speed (Symmetrical Throughput) Required Action Steps login Log in as a NOC user. View system speed Returns the licensed speed key value, the current set system speed and the set mode.
DragonWave Inc. 52 Required Action Steps Configure system mode Sets the system mode (channel bandwidth, maximum throughput speed and modulation scheme). You can only select any one of the modes shown as available when the get system mode command is used. Sequence: set system mode < hy[bandwidth]_[throughput]_[modulation]> Where [bandwidth] is the channel bandwidth of the configured radio band; [throughput] is the maximum throughput capability in Mbps; [modulation] is the modulation scheme.
Bandwidth Management 53 10.2 Asymmetric Throughput Speed Asymmetric throughput can be achieved by installing the same Horizon Compact Plus hardware type at each end of the link, and configuring one end with a different system speed. Note, that the System Mode, must be identical at each end of the link for this to work. The variable will be the system speed figure. Procedure 10-2 Configure Horizon Compact Plus Throughput Speed (Asymmetric) Required Action Steps login Log in as a NOC user.
DragonWave Inc. 54 Required Action Steps Configure system speed Sets the system speed. (Cannot exceed the speed key purchased with your system). Sequence: set system current speed 50 press Enter System responds: System speed set to 50 Mbps Note: For asymmetric speeds the speed at the other end of the link would be set to a different value.
Bandwidth Management 55 10.3 Throughput (Bandwidth) Logging As discussed earlier, the maximum throughput speed, or bandwidth, of a system is determined by the purchased licensed speed key. This allows a service provider to provide a limited bandwidth and to bill for it accordingly. Another billing method is to use Bandwidth Logging. This feature monitors bandwidth consumption over time and the customer would be billed for the actual bandwidth consumed and not for a preset maximum bandwidth.
DragonWave Inc. 56 Required Action Steps View bandwidth record thresholds This command returns the bandwidth record settings. Sequence: get bandwidth record thresholds press Enter The system responds: Bandwidth Utilization Thresholds: 10 20 30 40 50 60 70 80 90 95 Start bandwidth logging This command turns logging on or off. Note that reports are saved to flash memory irresepective of whether this is on or off.
Bandwidth Management 57 Required Action Steps Save changes to mib Saves the MIB to RAM. Perform this command to save setting changes to non-volatile memory. Sequence: save mib press Enter The system responds: MIB saved successfully. View bandwidth records in brief Up to 60 records are maintained in flash memory. A brief view of all records can be obtained using the following CLI command.
DragonWave Inc. 58 Required Action Steps View a specific bandwidth record in detail A specified record (0 – 59) can be viewed in detail by using the following command.
Bandwidth Management 59 Required Action Steps View the current record This command returns the values currently being accrued, but not yet written to a record. It shows the time left in the sampling period (1319 seconds in the example below) before the running average is valid (the running average period must elapse before the running average is valid). The record will be written to flash in 86400s – 2281s = 84119s.
11.0 Adaptive Transmit Power Control (ATPC) Adaptive Transmit Power Control (ATPC) allows a Horizon Compact Plus system to adjust its transmit power to compensate for far end signal loss caused by changes in atmospheric conditions e.g. heavy rain. ATPC maintains the RSL at the ATPC threshold, which is system mode dependant, and adjusts the transmit power as necessary in order to maintain the ATPC threshold during fade conditions.
Adaptive Transmit Power Control (ATPC) 61 Required Action Steps Return the current atpc configuration This command displays the current atpc configuration. Sequence: get atpc config press Enter The system responds: Configure atpc ATPC CONFIGURATION --------------------------------Status LOCAL -----------: Disabled PEER -----------Disabled Coordinated Power Offset : 5.
DragonWave Inc. 62 Required Action Steps Review the atpc log This command returns the list of events from the atpc log.
Adaptive Transmit Power Control (ATPC) 63 11.2 Saturated Link Procedure 11-2 Configure Horizon Compact Plus Adaptive Transmit Power Control – Saturated Installation Use this procedure to set up ATPC for a link engineered for receiver saturation (short range). This procedure assumes that the link has been properly aligned at a low transmit power, with ATPC turned off, before the following steps are performed. Required Action Steps login Log in as a NOC user.
DragonWave Inc. 64 Required Action Steps Save changes to mib Saves the MIB to RAM. Perform this command to save setting changes to non-volatile memory. Sequence: save mib press Enter The system responds: MIB saved successfully. 11.3 Coordinated Power Alarm The coordinated power alarm will get triggered when ATPC is on and the system is transmitting at full power (i.e. no atpc attenuation) for the last 5 minutes.
Adaptive Transmit Power Control (ATPC) 65 This page is left blank intentionally Horizon Compact Plus Release 1.0.
12.0 Authentication This feature is only necessary if you wish to restrict forwarding the user payload from a Horizon Compact Plus unit to a specific peer or to a group of Horizon Compact Plus units. Authentication is generally used as a security measure. It is not recommended to enable Authentication prior to alignment of the radios.
Authentication 67 A group of Horizon Compact Plus nodes uses a group ID to establish inter-node communication. Administrators create a group ID string consisting of up to eight characters. You must program the group ID string on each node. The group ID string can consist of the characters 0 to 9, a to z, and A to Z. Illegal characters that cannot be used are {! @ # $ % ^ &* (,) ; : ’ ” + - ~}. 12.
DragonWave Inc. 68 12.5 Configure Authentication Should you require more security than offered by the default authentication mode of No Authentication, you will need to configure the authentication key to suit your requirements. Follow the steps in the following procedure. Procedure 12-1 Setting Unique Authentication Perform this procedure to set system authentication to unique. Note: You must perform the authentication procedures in the sequence that they appear in this manual.
Authentication 69 Required Action Steps Configure unique peer authentication key Sets the unique peer authentication key of the peer node with which you wish to authenticate, generally the far-end unit. Sequence: set peer authentication unique key press Enter where is the Unit Serial Number of the far-end unit determined from the get hw inventory command performed earlier.
DragonWave Inc. 70 Procedure 12-2 Setting Group authentication Perform this procedure to set group authentication using the CLI manager. Required Action Steps login Log in as a NOC user. Configure air interface authentication type Sets the authentication type. This needs to be set to group. The default type is none. Sequence: set peer authentication type [none, unique, group] press Enter where [none, unique, group] identifies the authentication type. Use group on this occasion.
Authentication 71 Procedure 12-3 Verify Authentication status Use this procedure to verify the authentication action for the system. Note: To perform this procedure, you must be logged into the system as an NOC user. Required Action Steps login Log in using a NOC account. View authentication status Displays the authentication status between two corresponding Horizon Compact Plus systems.
13.0 Threshold Alarms Horizon Compact Plus provides Threshold Alarms to assist in managing the performance of the system.
Threshold Alarms 73 Required Action Steps View RSL threshold alarm settings Displays the current settings for the Threshold Alarm for the Receive Signal Level (RSL). Once the RSL Value Threshold is reached and continues for the Time Limit duration then an alarm is raised. Sequence: get rsl threshold press Enter The system responds: RSL threshold set to : dbm RSL timelimit set to : secs Where is the current RSL value in integers, given in dBm.
DragonWave Inc. 74 Required Action Steps Configure snr threshold Sets the SNR level below which a threshold alarm will be raised. Sequence: set snr threshold press Enter Where is in dB and between 0 and 30 The system responds: SNR threshold set to : n Where n is the new SNR threshold setting View bandwidth utilization threshold alarm settings Displays the current settings for the Bandwidth Utilization Threshold Alarm.
Threshold Alarms 75 Required Action Steps View dropped frames threshold alarm settings Displays the current settings for the Dropped Ethernet Frames Threshold Alarm. Note that the values for all CoS queues, as well as the total for the system, are displayed.
DragonWave Inc. 76 Required Action Steps Configure per queue dropped frames threshold alarm settings Sets the values for the per queue Dropped Ethernet Frames Threshold Alarm. As the Horizon traffic rate from the LAN side exceeds the programmed limit, frames are dropped in order to maintain the limit.
Threshold Alarms 77 Required Action Steps Configure the queue utilization threshold for each queue This command enables you to set the queue utilization threshold for each of the five QoS queues in the system. Sequence: set queue utilization threshold <%> press Enter Where is the queue number (1 to 5), <%> is the percent of utilization threshold desired and is the desired time limit (in seconds) over which the condition must occur before the alarm is raised.
14.0 Rapid Link Shutdown (RLS) Networks containing alternate or redundant routing paths will typically rely on protocols such as Rapid Spanning Tree Protocol (RSTP) to invoke a reroute when communications to the far end unit fail or experience high data error rates. The protocols are implemented on the Ethernet switch and rely on polling or messaging to determine that communications to the far end has been disrupted.
Rapid Link Shutdown 79 A “hard failure” mode triggers on a percentage of erred packets on a link. This mode is applicable to link outages or severely degraded data transfer. o The default value of error threshold is a loss of 50% of Rx Blocks (packets) over a default sample time of 50 mS. The sample time and error threshold are userconfigurable.
DragonWave Inc. 80 Example: Configuring 50% error rate over the link for a 100 mS time period will invoke RLS if the error rate equals, or exceeds, 50% over a period of 100 mS. 2. “Soft” failure. This mode monitors the link for data errors either as a steady state error rate or bursts of data errors. a. The RLS signal degrade settings correspond to “soft” failure mode. b. Minor modem block errors can be corrected by the modem. This correction is invisible to the user and is not traffic affecting.
Rapid Link Shutdown 81 set rls link monitor parameters [dn2up block errors per sample] [up2dn block errors per sample] [dn2up # of samples] [up2dn # of samples] [dn2up sample time in msec] [up2dn sample time in msec] [quick sample time] Example: set rls link monitor parameters 2 4 5 2 1000 100 10 • If there are 4 or more block errors in 100 mS for 2 consecutive samples then invoke RLS (“break”) • If the 4 or more block errors occur within the first 10 mS (quick sample time) of the 100 mS period, count i
DragonWave Inc. 82 set rls link enable [on/off] When rls link control is set to on, the data Ethernet port remains in a shutdown state after the RLS condition has been cleared. The Ethernet port is manually re-enabled by issuing the set rls link enable on command. The set rls link enable off command disables the Ethernet port. Procedure 14-1 Configure Rapid Link Shutdown Options Perform this procedure to configure the Rapid Link Shutdown Options for the Horizon Compact Plus system.
Rapid Link Shutdown 83 Required Action Steps Configure rls [on/off] [basic/advanced] Turns the Rapid Link Shutdown (RLS) feature on or off. Turning RLS on, with the optional "advanced" feature, enables use of the signal fault monitor as well as the signal degrade monitor. Setting RLS on without issuing the basic or advanced command defaults to RLS on, basic. RLS provides the ability to shut down the Horizon Compact Plus Ethernet ports (Port 1 on both endpoints) during system outages.
DragonWave Inc. 84 Required Action Steps Configure rls link control [on/off] Determines whether RLS link control performs automatic recovery or requires manual recovery of the Ethernet port. RLS provides the ability to shut down the Horizon Compact Plus Ethernet ports (Port 1 on both endpoints) during system outages. The user can manually recover the Ethernet ports through the use of the "set rls link enable on" command. The default is "off".
Rapid Link Shutdown 85 Required Action Steps Configure Port Groups This command determines what combination of port failures will invoke RLS. Sequence: get rls port group press Enter The system responds: Rls port group configuration Ports :P1 P2 P3 P4 Combination :any The above response indicates that any one port P1 through P4 needs to fail and RLS will be invoked.
DragonWave Inc. 86 Required Action Steps Configure rls link monitor parameters This is a custom method for the configuration of the “soft error” monitor. The method directly configures the sampling period, required repeated consecutive samples and the errored block thresholds per period of the “soft error” monitor. This method allows additional lowlevel tuning of the “soft error” monitor.
Rapid Link Shutdown 87 Required Action Steps Configure rls signal fault parameters [fault period msec] [fault threshold] Sets the RLS signal fault monitor parameters. The RLS signal fault settings are designed to detect and react to brief bursts of extreme Rx Block error rates. The RLS signal fault detection and reaction time is the quickest of the two RLS fault detection methods. RLS signal fault detection works with the RLS signal degrade settings in Advanced mode.
DragonWave Inc. 88 Required Action Steps reset system Resets the system to save the settings to FLASH and restart the system with the new settings taking effect. Sequence: reset system press Enter The system responds: Are you sure you want to reset? Y(yes) or N(no) press Y Once the system reboots, login and continue with the RLS configuration. This concludes the steps to configure Rapid Link Shutdown for the Horizon Compact Plus system using the CLI manager. Horizon Compact Plus Release 1.0.
Rapid Link Shutdown 89 This page is left blank intentionally Horizon Compact Plus Release 1.0.
15.0 Configuring the Time Source (SNTP) The time and date can be entered into the Horizon system. This is maintained for as long as power is applied to the system. If power fails, then all timing information is lost. An accurate clock is necessary for time stamping entries in the events and performance logs. To maintain the time and date in the system, five network sources of timing information are configurable. Either an Internet time source or an NTP server on your network may be used.
Configuring the Time Source (SNTP) 91 Procedure 15-1 Configuring the Horizon Time and Date Required Action Steps login Log in as a NOC user. View date time Returns the current date and time on the system. Sequence: get date time press Enter The system responds: Date and Time : 28/09/2011 14:17:42 Configure date time Sets the system date and time if SNTP is not enabled.
DragonWave Inc. 92 Procedure 15-2 Configuring the Time Source Required Action Steps login Log in as a NOC user. View sntp settings Displays the current time settings. This example shows the Horizon Compact Plus system default settings. Sequence : get sntp press Enter The system responds : SNTP feature is turned on. Current system time: 12/10/2005 15:36:54. Last SNTP synch: 12/10/2005 15:27:41. Index | Status | Stratum | Name 1 Good 2 199.212.17.15 2 Good 2 199.212.17.20 3 Good 1 192.5.41.
Configuring the Time Source (SNTP) 93 Required Action Configure sntp server Steps Allows a new time source server to be entered. Sequence : set sntp server [index] [ip address] press Enter Where [index] is a number 1 to 5 corresponding to the desired time source index to be changed, and [ip address] is the ip address of the server providing the new time source. The system responds : Success: SNTP server information accepted.
16.0 Adaptive Modulation The two principal modulation schemes used on the Horizon Compact Plus system are QPSK and xQAM. QPSK (the lowest modulation scheme) is ideal for long distance, but has the lowest throughput capability. Higher throughputs are achieved by using more complex modulation schemes e.g. 16-QAM, 32-QAM, 64-QAM, 128-QAM, 256-QAM. The higher numbers indicate a progressively more complex scheme and a higher bandwidth (throughput) capability e.g.
Adaptive Modulation 95 By default, the transmit power will remain the same as that allowed for the 256QAM modulation scheme, regardless of the modulation scheme currently operating. However, a maximum power can be configured so that power levels will not exceed this figure, regardless of the modulation scheme operating. As conditions improve the SNR will increase. When the “Up SNR” thresholds are exceeded, then modulation upshift will occur.
DragonWave Inc. 96 Required Action Steps View haam status Displays the current status of the HAAM setting. Note that HAAM cannot be invoked if RLS is enabled. Sequence : get haam status press Enter The system responds : HAAM set to :off Configured HAAM modes: hy50_91_qpsk hy50_159_16qam hy50_205_32qam hy50_250_64qam hy50_296_128qam hy50_364_256qam Current running HAAM mode is :hy50_364_256qam HAAM manual mode set to :off Peer HAAM set to :on.
Adaptive Modulation 97 Required Action Steps Configure the “wait to restore” time (wtr) This command allows you to enter a time, in seconds, that the system will wait before upshifting the modulation scheme after the link improves. It is only applied when the system has downshifted to the lower available modulation scheme.
DragonWave Inc. 98 Required Action Steps Manually change the modulation scheme for operational checking or troubleshooting. Use this command to switch the modulation scheme up or down manually one modulation step at a time. The command set haam manual mode on must be invoked before this will work. Use the command set haam manual mode off once diagnostics have been completed.
Adaptive Modulation 99 This page is left blank intentionally Horizon Compact Plus Release 1.0.
17.0 System Management The Horizon Compact Plus system can be fully managed locally or remotely. Horizon Compact Plus supports Telnet access, SNMP management and a Web interface accessible through the IP network. Refer to Volume 1 of this manual for details of enabling Telnet access to the system. The entire Command Line Interface (CLI) command set is available through Telnet. The entire list of system parameters is available through SNMP access.
System Management 101 To configure the management interface use the following procedure: Procedure 17-1 Configuring Network Management Interface Required Action Steps login Log in as the Super User. Configure network management interface This command sets the port on which management traffic will be carried and also the type of network management – in-band, or out-of-band. Select either dp1 through dp4 for in-band management, or p1 through p4 for out-of-band management.
DragonWave Inc. 102 The CLI command set network management interface p3 (could be p2, p1, or p4 if the management is connected to corresponding port) configures the Horizon Compact Plus to only accept management traffic on p3 of the system connected through the network to the management station (PC). Full management of the near end is possible. Management of the far end unit over the radio link is not possible.
System Management 103 17.2 Telnet Access Once correctly configured, the Horizon Compact Plus is accessible through a Telnet session using Super User, NOC and Admin level user accounts. Refer to Volume 1 for details of CLI commands. The Horizon Compact Plus system can be completely configured, tested and managed through a Telnet session. The Telnet function is enabled by default but can be disabled within the Horizon Compact Plus system.
DragonWave Inc. 104 17.3 Secure Shell Access Security Telnet sessions over a network such as the Internet are not secure. User names and passwords, as well as commands and system responses, are transmitted in clear text during a Telnet session. A secure shell (SSH) protocol can be enabled in the Horizon Compact Plus system to ensure that access to the units is restricted to authorized clients.
System Management 105 Required Action Steps View ssh server fingerprint Retrieves the fingerprint of the server Sequence : get ssh server fingerprint The system respond : Save changes to mib Saves the MIB to RAM. Perform this command to save setting changes to non-volatile memory. Sequence: save mib press Enter The system responds: MIB saved successfully. Reset system A system reset is required to activate this feature.
DragonWave Inc. 106 Password protected. SSL Web server - provides encryption for the Web session and verifies that the Web browser is indeed connecting to a Horizon Compact Plus system. Real-time view of the network - the auto-refresh capability allows real-time monitoring of the Horizon Compact Plus link. 17.5.
System Management 107 17.5.3 Exiting the Application To exit the Horizon Compact Plus Web interface application, close the Web browser window. Closing the window will cause the user to be logged out of the system. 17.5.4 Login The login page appears whenever you connect to the Horizon Compact Plus Web interface. The session will remain active for as long as your browser stays connected to the Horizon Compact.
DragonWave Inc. 108 17.5.5 Home Screen The Horizon Compact Plus Web interface runs in a standard Web browser. Figure 17-2 Web Interface - Home Screen The Link View Bar Managed Node buttons switch management access between the Peer or Local Horizon Compact Plus nodes. In addition, a graphic view of the radio link and a real time status table for both ends of the link can be selected for viewing. The Information Pane displays information related to the node being managed.
System Management 109 17.5.6 Graphics and Table View On the Link View Bar are the Link View buttons. A real time table of system status is displayed when you click on the Table button. The number of rows in the table will reflect the number of systems involved in the link (e.g. 2 rows for a basic link, 4 rows for a fully redundant link). All of the fields in the table are updated dynamically. When a field value changes the text colour changes to blue for a one second period.
DragonWave Inc. 110 Hovering the mouse cursor over a port icon (red, or green, square, or “handle”) on the graphic reveals information about that port. A green handle depicts a connected port and a red handle a disconnected port. Both Ethernet and wireless port handles are displayed. Click on a handle while hovering to pin, or un-pin, the information bubble to/from the screen.
System Management 111 17.5.7 Web Page Tree Diagram Figure 17-6 maps the information and configurable features available via the Web interface. Figure 17-6 Web Interface – Tree Diagram Clicking on any of the features listed in the Tree Diagram results in a feature dedicated display to appear in place of the Information Pane. The features relate to the current node being managed.
DragonWave Inc. 112 17.6.1 What is SSL? SSL stands for Secure Sockets Layer. The SSL protocol, developed by Netscape, is supported by all popular Web browsers such as Internet Explorer, Netscape, AOL and Opera. An SSL certificate, issued by a Certification Authority (CA), must be installed on the Web server in order for SSL to work. SSL can then be used to encrypt the data transmitted (secure SSL transactions) between a browser and Web server.
System Management 113 Required Action Steps View ssl certificate status Displays the status of the modem's SSL certificate.
DragonWave Inc. 114 Required Action Steps View ssl certificate status Perform this step to verify the certificate is active. Displays the status of the modem's SSL certificate.
System Management 115 Procedure 17-6 Install SSL Certificates on Your Web Browser Perform this procedure to install the DragonWave SSL certificate on your Web browser. 1. See Note 1 above before proceding. Sign on Download the DragonWave SSL certificate with Super User rights from CLI with the command “save certificate ftp:dwicacert.pem” to a trusted location on a trusted ftp server. 2.
DragonWave Inc. 116 17.6.4 Enabling SSL per User Group Web interface access for each user group may be configured so that SSL use is mandatory. If the use of SSL is not mandatory for a user group then that group can choose between standard HTTP access and HTTPS (SSL) access. For example, SSL may be made mandatory for all Noc and Admin level users, but not required for the Super User.
System Management 117 This page is left blank intentionally Horizon Compact Plus Release 1.0.
18.0 Event and Performance Logging The Horizon Compact Plus system supports two logs, the Events Log and the Performance Log. Each can be used to track the behaviour of the system over time. In addition, a “Syslog” feature can be invoked that sends information stored in the event and performance logs to a remote syslog server, for further analysis. 18.1 Events Log The Events Log is invoked or disabled by issuing the CLI command set logging [on/off]. This log records alarm and reset events.
Event and Performance Logging 119 Required Action Steps save log Saves the events log to a specified ftp server. Sequence : save log ftp:[mylogfile] press Enter Note: The maximum system log file size for ftp to a server holds about 1200 events (100KB). If more than 1200 events are stored on the system, then multiple files will be created and named as "mylogfile1", "mylogfile2" etc. The system responds (example): Enter the IP address of FTP server followed by 'Enter' Key :[ip address] 220 ProFTPD 1.2.
DragonWave Inc. 120 Procedure 18-2 Performance Log Required Action login using NOC account Steps Log in as a NOC account View performance logging Returns the status of performance logging Sequence : get performance logging press Enter The system responds : Performance Logging has been :[enabled/disabled.
Event and Performance Logging 121 Table 18-1 Performance Log Durations Logging Interval Log Duration 15 secs (minimum) ~ 29 hours 1 minute ~ 116 hours (~ 4.8 days) 15 minutes (default) ~ 73 days months) (~ 2.4 1 hour ~ 292 days months) (~ 9.7 24 hours (maximum) 7000 days years) (~ 19.2 18.3 Syslog Feature Note that events and performance data are always being collected and stored, but only made available for viewing by the user when the logs are enabled.
DragonWave Inc. 122 Required Action Steps Changing the IP address of a Syslog Server If you want to change a Syslog Server IP address and the current Syslog Server is already running, first turn off syslog forwarding. Sequence : set syslog forwarding host [new ip address] press Enter The system responds : Error : Could not update syslog server IP address because it is currently turned ‘on’. Please turn ‘off’ and then change the IP Address.
Event and Performance Logging 123 This page is left blank intentionally Horizon Compact Plus Release 1.0.
19.0 Radio and Network Loopback Horizon supports three types of loopback: 1. Radio 2. Network 3. EOAM – see Volume 4 for more details Only one of any type can be applied at any one time on any Horizon Compact Plus node. Note that there is a traffic hit when entering or leaving a loopback mode. Figure 19-1 shows a graphical representation of the Radio Loopback and the Network Loopback Network Loopback Straight Radio Loopback Figure 19-1 Radio/Network Loopback 19.
Radio and Network Loopback 125 Required Action Steps MUTE FAR END TRANSMITTER This command mutes and unmutes the radio transmitter Sequence: set radio transmitter state off [yyy] Where yyy is the time in seconds after which the radio will automatically turn back on. Omitting the yyy will maintain the radio off indefinitely untill a set radio transmitter on command is issued.
DragonWave Inc. 126 19.2 Network Loopback The network loopback feature allows network troubleshooting between a Horizon Compact Plus and another network device. The MAC address of the target device is included in the CLI command to invoke the loopback. The source and destination MAC addresses are swapped so that loopback packets may legally navigate a switched Ethernet network. Loopback packets may be directed into any one of the five user QoS queues. The queue and the timeout parameters are optional.
Radio and Network Loopback 127 Required Action Steps Invoke a network loopback Use this command to invoke a near-end or far-end network loopback to a specific MAC address. The system responses are the same for both near-end and far-end loopbacks. Sequence: set network loopback nearend|farend xx:xx:xx:xx:xx:xx [queue ] [
20.0 Network Management This section describes how to use network management to manage the Horizon Compact Plus units. 20.1 Simple Network Management Protocol (SNMP) Simple Network Management Protocol (SNMP) is an application-layer protocol used to exchange management information between network devices. Network management systems contain two primary elements: a manager and an agent. The manager resides on a Network Management Station (NMS).
Network Management 129 Procedure 20-1 Setting up SNMP Perform this procedure to set up SNMP for the Horizon Compact Plus system. Required Action Steps login Log in as a NOC account for SNMP v1 and v2c, or Super user for SNMP v1, v2c and v3 Configure snmp access mode [v1/v2c/v3/off] Selects a SNMP access mode. The default mode is SNMP mode v1.
DragonWave Inc. 130 Required Action Steps FOR SNMP v1 or v2c ONLY View snmp managers Displays a list of managers that can access the system via SNMP v1 and v2c only. Sequence: get snmp managers press Enter The system responds: Mgr # IpAddress 1 2 CommunityString 192.168.1.133 192.168.1.100 example text1 example text2 If there are no managers specified, the system responds: No managers configured for the system.
Network Management 131 Required Action Steps FOR SNMPv3 ONLY Configure snmpv3 manager {1..5} This specifies an snmpv3 external user. This command requires the following prompts to be answered. There may be up to 5 external SNMP managers configured in the system. Each user should have unique name. The default security level for the system is noAuthNoPriv. user username securityLevel [noAuthNoPriv The user is prompted with the current value for each option.
DragonWave Inc.
Network Management 133 Required Action Steps View snmpv3 trap hosts Displays a list of configured SNMPv3 trap hosts Note that only the Super user can view the ip addresses of trap hosts. Sequence: get snmpv3 trap hosts press Enter The system responds: # IpAddress UserName Auth Auth Priv Priv TrapHost Proto Passwd Proto Passwd Enabled = =============== =============== ===== =============== 1 192.168.4.254 guest None None y 2 0.0.0.0 None None n 3 0.0.0.0 None None n 4 0.0.0.0 None None n 5 0.0.0.
DragonWave Inc. 134 Required Action Steps Configure snmpv3 trap host enable To enable a trap host. NOTE: Individual traps need to be enabed before they will be received by an enabled trap host. Only Super user is allowed to set these parameters. Sequence: set snmpv3 trap host enable press Enter Where is the trap host index you wish to enable in the range 1 to 5 The system responds: Save mib and reboot Horizon Compact Plus for changes to take effect.
Network Management 135 Required Action Save changes to mib Steps Saves the MIB to RAM. Perform this command save setting changes to non-volatile memory. Sequence: save mib press Enter The system responds: MIB saved successfully. reset system Resets the system to save the settings to FLASH and restart the system with the new settings taking effect. Sequence: reset system press Enter The system responds: Are you sure you want to reset? Y(yes) or N(no) press Y The system will proceed to reset.
DragonWave Inc. 136 20.3 Enterprise Management Information Base (MIB) A Management Information Base (MIB) contains information about a network device that is managed by SNMP. Horizon Compact Plus supports industry standards MIB I and MIB II. In addition, DragonWave provides an enterprise MIB for Horizon Compact. For a list of objects and their definitions, refer to the Horizon Compact Plus MIB definition file included with the DragonWave Toolkit CD-ROM.
Network Management 137 Required Action Steps Configure snmp trap host [host #] [ipAddress] [enable/disable] [communityString] Adds an SNMP trap host to the list of receivers of SNMP traps. Specify the IP address where the system sends traps. Sequence: set snmp trap host [host #] [ipAddress] [enable/disable] [communityString] press Enter The system responds: Host# IpAddress 1 0.0.0.0 2 0.0.0.0 3 3.3.3.3 4 0.0.0.0 5 0.0.0.
DragonWave Inc. 138 Required Action Steps View snmp traps Displays the list of traps available in the system and which are enabled/disabled. Sequence: get snmp traps press Enter The system responds: Trap# 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 41 42 43 Horizon Compact Plus Release 1.0.
Network Management 139 Required Action Steps Configure snmp trap [trapIndex] [enable/disable] Enables or disables SNMP traps. DragonWave recommends enabling trap 16. This trap indicates loss of communication with the peer Horizon Compact Plus node. Sequence: set snmp trap [trapIndex] [enable/disable] Example (enabling trap 16): set snmp trap 16 enable press Enter The system responds: Trap# Horizon Compact Plus Release 1.0.
DragonWave Inc. 140 Required Action Save changes to mib Steps Saves the MIB to RAM. Perform this command save setting changes to non-volatile memory. Sequence: save mib press Enter The system responds: MIB saved successfully reset system Resets the system to save the settings to FLASH and restart the system with the new settings taking effect. Sequence: reset system press Enter The system responds: Are you sure you want to reset? Y(yes) or N(no) press Y The system will proceed to reset.
Network Management 141 This page left blank intentionally Horizon Compact Plus Release 1.0.
21.0 Editing System Configuration Files Volume 1 of this manual describes how to upload and download system configuration files to an ftp server. Downloading a configuration file to a system will allow that system to take on an identical configuration as that of the system from which the configuration file was uploaded. The configuration file is a text file written in SNMP OID=value format. This file can be edited in order to make changes to the configuration of a system to which the file may be downloaded.
Detailed CLI Command List 143 This page is left blank intentionally Horizon Compact Plus Release 1.0.
Appendix A – Detailed CLI Command List CLI Command Description ? display all commands with their short description. change password change current user password. clear ecfm errors [domain | levelid ][switchname ] Clear continuity check error conditions logged on a device.
Detailed CLI Command List 145 CLI Command Description diagnose haam [up/down] enable Hitless Adaptive Modulation(HAAM) diagnostic mode [up|down] downgrade system licensed speed downgrade system licensed speed [speed decrement] ecfm frame delay [start | stop] type {oneway | two-way }level [vlan ] [port ] [direction {inward | outward}]{mepid | mac } [count] [interval ] [deadlin
DragonWave Inc. 146 CLI Command Description get aam eoam option displays eoam msg option for aam. get aam link monitor parameters aam link monitor parameters get aam status returns Automated Adaptive Modulation(aam) status either on or off. Default is 'off'. get alarms returns alarms present in the system. get alarms counter returns timestamped alarms present in the system. get alignment returns the Horizon alignment status(On|Off). get antenna diameter returns the antenna's diameter.
Detailed CLI Command List 147 CLI Command Description get cos qinq itag returns the protocol id of dot1q Q_in_Q inner tag. get cos qinq otag returns the protocol id of dot1q Q_in_Q outer tag. get cos queue cbs returns the committed burst size of the cos queues. get cos queue cir displays the CIR(Committed Information Rate) for user traffic queues get cos queue mapping the table in the response to this command indicates the assignment of dot1p cos value to user queue.
DragonWave Inc. 148 CLI Command Description get ecfm maintenance-point local [mep | mip] [interface [] | domain | level] Displays the brief information about maintenance points configured on a device.
Detailed CLI Command List 149 CLI Command get eoam information Description fault-management global Displays fault-management global information. get eoam global information Displays ethernet OAM global information. get frequency bank displays Frequency Banks available in the System. get frequency file status displays the status of the frequency file. get haam get haam eoam option returns the configured Modulation(HAAM) on/off status.
DragonWave Inc. 150 CLI Command Description get peer authentication failure action returns action taken by the system on peer authentication failure. get peer authentication group key returns group authentication key. get peer authentication status returns status of Authentication in the system. get peer authentication type returns the type of authentication used to authenticate the peer.
Detailed CLI Command List 151 CLI Command get radio transmitter state Description returns the state of the radio transmitter. get radius server deadtime display how long we will try talking to an unresponsive Radius Server before declaring it dead. get radius server retransmit display maximum number of time the Radius Client will retransmit per server. get radius server timeout display Radius Client timeout period when talking to server.
DragonWave Inc. 152 CLI Command Description get snmp set request specifies whether SNMP 'v1' and 'v2c' 'Set' requests are enabled. get snmp trap hosts returns the list of receivers of snmp traps. get snmp traps returns list of traps that are available in the system. get snmpv3 managers returns a list of managers that may access the system via SNMP Version 3. get snmpv3 trap hosts returns the list of receivers of snmp traps in V3 mode. get snr threshold returns the SNR threshold.
Detailed CLI Command List 153 CLI Command Description get vlan tag gets the vlan tag set in the system. get vlan tagging gets the state of vlan tagging. get web server gets the web server on or off. kill ssh sessions terminates all the active ssh sessions. displays list of files/directories residing in the FTP Server. If no parameters are specified, displays the user's default/current working directory contents. list [ftp:file/directory/empty] lo terminates the user's session with the system.
DragonWave Inc. 154 CLI Command Description set atpc[on|off] [on|off] [0-10] sets the atpc(on/off) coordinated power option(on/off) and coordinated power offset value set bandwidth record logging[on | off] Set bandwidth logging to both flash and syslog 'on' or 'off' set bandwidth record thresholds[thresh] [thresh] [thresh] [thresh] [thresh] [thresh] [thresh] [thresh] [thresh] [thresh] set the integer percent utilization thresholds for ten bandwidth utilization counters.
Detailed CLI Command List 155 CLI Command Description set ecfm [on | off | start] on / off : Enables or disables connectivity fault management (CFM) processing globally on this device. Start : Start the Ethernet CFM Module globally on the ODU. set ecfm associate vlan-id {vlan-id | vlanlist} primary-vlan-id Associate a list of Vlan-Ids to a Primary Vlan.
DragonWave Inc. 156 CLI Command Description set ecfm mep crosscheck {on | off} levelid [vlan ] [switchname ] ON/OFF - Enables/Disables the cross-checking functionality between the MEPs configured in the crosscheck list. defaults to ON.
Detailed CLI Command List 157 CLI Command Description set ecfm service <{[config] [{icc umc ] [vlan ] [mip-creation-criteria {none | default | explicit | defer}] [sender-id-permission {none | chassis | manage | chassis-mgtaddress | defer}]}>| <{delete Configures the provided Service (Maintenance Association) at the specified vlan. User can configure ICC and UMC when Y.1731 is enabled.
DragonWave Inc. 158 CLI Command Description set ip config Leads you through the steps to configure the ip parameters set lo nulling [on/off] sets LO nulling params [on|off ,delay, step size, loop size]. set logging [on/off] sets logging on [enabled] or off [disabled]. set maximum frame size [1600-9600] sets the size of the maximum frame, range from 1600 to 9600 set network loopback [nearend | farend | off] mac-address sets the network loop back to near-end, far-end or off.
Detailed CLI Command List 159 CLI Command Description set port eoam fault-management mibvariable count [port <1-2>] Sets the maximum MIB variables that can be sent in one OAM variable request pdu. set port eoam fault-management remoteloopback [port <1-2>] [test] [count ] [packet ] [pattern ] [wait-time ] Specify number of packets and packet size for EOAM loopback test. This command also triggers the loop back test.
DragonWave Inc. 160 CLI Command Description set radio loopback [on | off] sets the radio loop back[on|off]. If the user doesn't supply the optional parameter [network], then the modem data path will be disabled. set radio transmitter state [on | off] [mute time (seconds)] allows user to mute/unmute the radio transmitter. [transmitter state] is enabled or disabled. set radius server host [index] [server addr] sets the host address for server specified by [index].
Detailed CLI Command List 161 CLI Command Description set rls shutdown policy [port-down/eoammsg] sets the RLS shutdown notification policy to either EOAM messages or port shutdown. set rls signal fault parameters [fault period msec] [fault threshold] sets the RLS signal fault monitor parameters, where [fault sample period msec] : sample period to apply Fault Threshold ratio [fault threshold percentage]: ratio of 'fault sample period' faulted before link is shut down.
DragonWave Inc. 162 CLI Command Description set super user allows the user to change the Super Username and Password. Username and Password cannot be empty. set synce forced holdover This is a user troubleshooting command which forces the system into holdover mode for a configurable timeout value (time) in seconds. The default timout is 30 seconds. Values can be 0 to 300 seconds. 0 keeps the holdover on indefinitely.
Detailed CLI Command List 163 CLI Command Description set transmit power [powerLevel] sets the transmit power level for the system. set vlan tag [vlan ID(0 - 4095)] [vlan priority(0 - 7)] sets the vlan tag in the system. set vlan tagging [on|off] sets the state of vlan tagging. set web server [on|off] upgrade system licensed speed [speed increment] [key] Horizon Compact Plus Release 1.0.1 set the embedded web server on or off. both HTTP and SSL.
DragonWave Inc. 164 This page is left blank intentionally Horizon Compact Plus Release 1.0.
Appendix B – System Configuration OID Indices Frequency File Version: 1.00.00 Diplexer Type: 74-000291-01 Radio Band: fcc18_1_10_R5 (Index 1) Frequency Low Program Index Channel 0 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 9 9 10 10 11 11 12 12 13 13 14 14 15 15 16 16 17 17 18 18 19 19 20 20 21 21 22 22 23 23 24 24 25 25 26 26 27 27 28 28 29 29 30 30 31 31 32 32 33 33 34 34 35 35 36 36 37 37 38 38 39 39 40 Horizon Compact Plus Release 1.0.
DragonWave Inc.
Appendix B – System Configuratio OID Indices 167 Radio Band: fcc18_1_20_R5 (Index 2) Frequency Low Program Index Channel 0 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 9 9 10 10 11 11 12 12 13 13 14 14 15 15 16 16 17 17 18 18 19 19 20 Frequency High Program Index Channel 0 1' 1 2' 2 3 3 4' 4 5' 5 6' 6 7' 7 8' 8 9' 9 10' 10 11' 11 12' 12 13' 13 14' 14 15' 15 16' 16 17' 17 18' 18 19' 19 20' Normal Mode Index 0 1 2 3 4 5 6 7 System Mode cw_test hy20_26_qpsk hy20_60_16qam hy20_77_32qam hy20_94_64qam hy20_112_128qam hy20_
DragonWave Inc.
Appendix B – System Configuratio OID Indices 169 Horizon Compact Plus Release 1.0.
DragonWave Inc.
Appendix B – System Configuratio OID Indices 171 HAAM Mode Index 0 1 2 3 4 5 Radio Band: System Mode hy50_66_qpsk hy50_154_16qam hy50_198_32qam hy50_241_64qam hy50_285_128qam hy50_351_256qam test18_1_7_R5 (Index 6) Frequency Low Program Index Channel 0 1 1 30 2 31 3 32 4 62 Frequency High Program Index Channel 0 1' 1 30' 2 31' 3 32' 4 62' Normal Mode Index 0 1 2 3 4 5 6 7 System Mode cw_test hy7_9_qpsk hy7_22_16qam hy7_28_32qam hy7_34_64qam hy7_40_128qam hy7_47_256qam hy7_50_256qam HAAM Mode Index 0 1
DragonWave Inc.
Appendix B – System Configuratio OID Indices 173 Radio Band: braz18_1_28_R5 (Index 8) Frequency Low Program Index Channel 0 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 9 9 10 10 11 11 12 12 13 13 14 14 15 Frequency High Program Index Channel 0 1' 1 2' 2 3' 3 4' 4 5' 5 6' 6 7' 7 8' 8 9' 9 10' 10 11' 11 12' 12 13' 13 14' 14 15' Normal Mode Index 0 1 2 3 4 5 6 7 System Mode cw_test hy28_38_qpsk hy28_88_16qam hy28_113_32qam hy28_138_64qam hy28_163_128qam hy28_188_256qam hy28_201_256qam HAAM Mode Index 0 1 2 3 4 5 Syst
DragonWave Inc.
Appendix B – System Configuratio OID Indices 175 Horizon Compact Plus Release 1.0.
DragonWave Inc.
Appendix B – System Configuratio OID Indices 177 Normal Mode Index 0 1 2 3 4 5 6 7 System Mode cw_test hy56_71_qpsk hy56_166_16qam hy56_214_32qam hy56_261_64qam hy56_308_128qam hy56_356_256qam hy56_380_256qam HAAM Mode Index 0 1 2 3 4 5 System Mode hy56_71_qpsk hy56_166_16qam hy56_214_32qam hy56_261_64qam hy56_308_128qam hy56_380_256qam Radio Band: esp13_1_28_R5 (Index 2) Frequency Low Program Index Channel 0 1 1 2 2 3 Frequency High Program Index Channel 0 1' 1 2' 2 3' Normal Mode Index 0 1 2 3 4 5 6
DragonWave Inc. 178 Horizon Compact Plus Release 1.0.
Appendix B – System Configuratio OID Indices 179 Normal Mode Index 0 1 2 3 4 5 6 7 System Mode cw_test hy28_38_qpsk hy28_88_16qam hy28_113_32qam hy28_138_64qam hy28_163_128qam hy28_188_256qam hy28_201_256qam HAAM Mode Index 0 1 2 3 4 5 System Mode hy28_38_qpsk hy28_88_16qam hy28_113_32qam hy28_138_64qam hy28_163_128qam hy28_201_256qam Radio Band: etsi13_1_14_R5 (Index 4) Frequency Low Program Index Channel 0 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 Frequency High Program Index Channel 0 1' 1 2' 2 3' 3 4' 4 5' 5
DragonWave Inc.
Appendix B – System Configuratio OID Indices 181 Frequency High Program Index Channel 0 6' 1 7' 2 8' 3 9' 4 10' Normal Mode Index 0 1 2 3 4 5 6 7 System Mode cw_test hy56_71_qpsk hy56_166_16qam hy56_214_32qam hy56_261_64qam hy56_308_128qam hy56_356_256qam hy56_380_256qam HAAM Mode Index 0 1 2 3 4 5 System Mode hy56_71_qpsk hy56_166_16qam hy56_214_32qam hy56_261_64qam hy56_308_128qam hy56_380_256qam Radio Band: esp13_2_28_R5 (Index 2) Frequency Low Program Index Channel 0 4 1 5 2 6 Frequency High Progr
DragonWave Inc.
Appendix B – System Configuratio OID Indices 183 Radio Band: etsi13_2_7_R5 (Index 5) Frequency Low Program Index Channel 0 17 1 18 2 19 3 20 4 21 5 22 6 23 7 24 8 25 9 26 10 27 11 28 12 29 13 30 14 31 15 32 Frequency High Program Index Channel 0 17' 1 18' 2 19' 3 20' 4 21' 5 22' 6 23' 7 24' 8 25' 9 26' 10 27' 11 28' 12 29' 13 30' 14 31' 15 32' Normal Mode Index 0 1 2 3 4 5 6 7 System Mode cw_test hy7_9_qpsk hy7_22_16qam hy7_28_32qam hy7_34_64qam hy7_40_128qam hy7_47_256qam hy7_50_256qam HAAM Mode Index
DragonWave Inc.
Appendix B – System Configuratio OID Indices 185 Diplexer Type: 74-000306-03 Radio Band: etsi56_1_56_R5 (Index 1) Frequency Low Program Index Channel 0 C1 1 C2 2 C3 3 C4 Frequency High Program Index Channel 0 C1' 1 C2' 2 C3' 3 C4' Normal Mode Index 0 1 2 3 4 5 6 7 System Mode cw_test hy56_71_qpsk hy56_166_16qam hy56_214_32qam hy56_261_64qam hy56_308_128qam hy56_356_256qam hy56_380_256qam HAAM Mode Index 0 1 2 3 4 5 System Mode hy56_71_qpsk hy56_166_16qam hy56_214_32qam hy56_261_64qam hy56_308_128qam hy
DragonWave Inc.
Appendix B – System Configuratio OID Indices 187 Radio Band: etsi56_2_28_R5 (Index 2) Frequency Low Program Index Channel 0 C9 1 C10 2 C11 3 C12 4 C13 5 C14 6 C15 7 C16 8 C17 9 C18 Frequency High Program Index Channel 0 C9' 1 C10' 2 C11' 3 C12' 4 C13' 5 C14' 6 C15' 7 C16' 8 C17' 9 C18' Normal Mode Index 0 1 2 3 4 5 6 7 System Mode cw_test hy28_38_qpsk hy28_88_16qam hy28_113_32qam hy28_138_64qam hy28_163_128qam hy28_188_256qam hy28_201_256qam HAAM Mode Index 0 1 2 3 4 5 System Mode hy28_38_qpsk hy28_88_
DragonWave Inc. 188 This page is left blank intentionally Horizon Compact Plus Release 1.0.
Appendix C – Site Survey Information Planning When installing a microwave link, proper planning is required.
DragonWave Inc. 190 Site Preparation When you visit the site, be sure to record all installation requirements. You will need to determine the following: Other equipment in the area which can potentially interfere with the DragonWave Radios Ability to install the Horizon Compact Plus units.
Appendix E - 802.1P Priority Tagging Overview IEEE 802.1P The Institute of Electrical and Electronics Engineering (IEEE) 802.1P signaling method is used for traffic prioritization at OSI Reference Model Layer 2. 802.1p is a spin-off of the 802.1Q (Vlans) standard. Network adapters and switches route traffic based on the priority level for best-effort Quality of Service (QoS). The 802.1Q VLAN standard specifies a VLAN tag that appends to a MAC frame.
DragonWave Inc. 192 Copyright © 2000-2012 DragonWave Inc. Printed in Canada. All rights reserved. Horizon Compact Plus™ Product Manual, 83-000095-01-01-01 Visit us on the Internet at: http://www.dragonwaveinc.com/ Horizon Compact Plus Release 1.0.
