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play_arrow Overview
- play_arrow Introduction
  - Junos Space Platform Workspaces Overview
  - Viewing the Junos Space Platform Dashboard
play_arrow Devices
- play_arrow Device Management
- play_arrow Systems of Record
  - Systems of Record in Junos Space Overview
  - Understanding How Junos Space Automatically Resynchronizes Managed Devices
- play_arrow Device Discovery Profiles
- play_arrow Modeling Devices
- play_arrow Device Authentication in Junos Space
- play_arrow Viewing Device Inventory
- play_arrow Exporting Device Inventory
- play_arrow Configuring Juniper Networks Devices
- play_arrow Device Adapter
- play_arrow Device Configuration Management
- play_arrow Adding and Managing Non Juniper Networks Devices
  - Adding Unmanaged Devices
  - Modifying Unmanaged Device Configuration
- play_arrow Accessing Devices
- play_arrow Logical Systems (LSYS)
- play_arrow Tenant System (TSYS)
- play_arrow Device Partitions
- play_arrow Custom Labels
- play_arrow Verifying Template, Image Deployment, Script Execution, and Staged Images on Devices
- play_arrow Device Monitoring
  - Viewing Alarms from a Managed Device
  - Viewing the Performance Graphs of a Managed Device
- play_arrow Device Maintenance
play_arrow Device Templates
- play_arrow Overview
  - Device Templates Overview
- play_arrow Template Definitions
- play_arrow Configuring Devices using Device Templates
- play_arrow Configuring Devices using Quick Templates
- play_arrow Device Template Administration
play_arrow CLI Configlets
- play_arrow Overview
- play_arrow CLI Configlets
- play_arrow Configuration Views
- play_arrow XPath and Regular Expressions
- play_arrow Configuration Filters
play_arrow Images and Scripts
play_arrow Reports
- play_arrow Reports Overview
  - Reports Overview
- play_arrow Report Definitions
- play_arrow Reports
play_arrow Network Monitoring
- play_arrow Overview
  - Network Monitoring Workspace Overview
  - Working with the Network Monitoring Home Page
- play_arrow Managing Nodes
- play_arrow Searching for Nodes and Assets
  - Searching for Nodes or Nodes with Asset Information
  - Working with Node Assets
- play_arrow Managing Outages
  - Viewing and Tracking Outages
  - Configuring Scheduled Outages
- play_arrow Using the Network Monitoring Dashboard
  - Viewing the Network Monitoring Dashboard
- play_arrow Managing and Configuring Events
- play_arrow Managing and Configuring Alarms
- play_arrow Managing and Configuring Notifications
  - Viewing, Configuring, and Searching for Notifications
  - Configuring Event Notifications, Path Outages, and Destination Paths
- play_arrow Managing Reports and Charts
- play_arrow Network Monitoring Topology
- play_arrow Network Monitoring Administration
play_arrow Configuration Files
- play_arrow Overview
  - Managing Configuration Files Overview
  - Viewing Configuration File Statistics
- play_arrow Managing Configuration Files
play_arrow Jobs
- play_arrow Overview
  - Jobs Overview
- play_arrow Managing Jobs
play_arrow Role-Based Access Control
- play_arrow Overview
  - Role-Based Access Control Overview
- play_arrow Roles
- play_arrow User Accounts
- play_arrow User Groups
- play_arrow Domains
- play_arrow Remote Profiles
- play_arrow API Access Profiles
- play_arrow User Sessions
play_arrow Audit Logs
- play_arrow Overview
  - Junos Space Audit Logs Overview
- play_arrow Managing Audit Logs
play_arrow Administration
play_arrow Troubleshooting
- play_arrow Knowledge Base
  - Juniper Knowledge Base

list Table of Contents

English

Viewing and Modifying the SNMP Configuration for a Fabric Node
Starting SNMP Monitoring on Fabric Nodes
Stopping SNMP Monitoring on Fabric Nodes
Restarting SNMP Monitoring on Fabric Nodes
Adding a Third-Party SNMP V1 or V2c Manager on a Fabric Node
Adding a Third-Party SNMP V3 Manager on a Fabric Node
Deleting a Third-Party SNMP Manager from a Fabric Node
Installing StorMan RPM for Monitor RAID Functionality

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Monitoring Nodes in the Fabric

Release: Junos Space 22.2

date_range 27-Sep-22

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As an administrator or operator, you can use Junos Space to track the status of physical and logical components of deployed nodes in a fabric.

Junos Space Network Management Platform supports SNMP Monitoring by an SNMP Manager for SNMP v1, v2c, and v3.

The SNMP manager polls Junos Space to obtain information about the logical components of the nodes using an object identifier (OID) in SNMP v1 and v2, or v3 as a user. The response is provided by the Junos Space SNMP agent and the polled data is displayed in the Network Monitoring workspace.

This topic contains the following sections:

Viewing and Modifying the SNMP Configuration for a Fabric Node

To view and edit the Junos Space SNMP configuration for self-monitoring:

Select Administration > Fabric.
The Fabric page appears.
Select the node whose configuration you want to view or modify, and from the Actions menu, select SNMP Configuration.
The SNMP Configuration window appears with the title bar displaying the IP address of the selected node.

Set the SNMP configuration parameters as required, using Table 1 to guide you.

Note:

By default, the system load parameters are set to 4, which means that an alert is indicated only when all CPUs are under 100 percent load.

Table 1: SNMP Configuration
Setting	Explanation	Recommended Settings	Default Value
Enable SNMP over TCP	Enables SNMP communication over TCP Note: By default, SNMP communication occurs over UDP.	Cleared	Cleared
Monitor Web Service	Includes monitoring the performance of the Junos Space GUI Note: This parameter is enabled only for the Junos Space VIP node.	Selected	Selected
Monitor All Disks	Includes all disks on the current Junos Space server	Cleared	Cleared
Monitor RAID	Enables Net-SNMP to monitor the RAID state When a RAID controller fault is detected, a trap is sent. Note: From Junos Space Platform Release 16.1 onward, if you want to use the Monitor RAID option, you need to install StorMan-7.31-18856.x86_64.rpm . For installation instructions, see Installing StorMan RPM for Monitor RAID Functionality. Note: This field is not applicable to and is disabled for Junos Space Virtual Appliances.	Selected	Cleared
Disk Usage %	When the percentage of the disk in use exceeds the configured disk usage percentage, an alarm is triggered.	5	5
System Load (1 min)	When the average system load (over 1 minute) exceeds the configured value, an alarm is triggered.	4	4
System Load (5 min)	When the average system load (over 5 minutes) exceeds the configured value, an alarm is triggered.	4	4
System Load (15 min)	When the average system load (over 15 minutes) exceeds the configured value, an alarm is triggered.	4	4
System Location	Location of the fabric node	Actual geographical or other location	unknown
System Contact	E-mail address to which the system sends notifications	E-mail address of actual person	root <root@localhost>
Disk Mount Path	Disk mount path that is to be monitored Note: This field is disabled if the Monitor All Disks field is selected.	Actual path, if available	/
CPU Max Temp (mC)	When the temperature exceeds the configured value, an alarm is triggered.	50000	50000
CPU Min Fan (RPM)	When the CPU fan speed goes below the configured value, an alarm is triggered.	1000	1000
CPU Min Voltage (mV)	When the CPU voltage goes below the configured value, an alarm is triggered.	1000	1000

Select Confirm to apply the SNMP configuration changes to the node, or select Cancel if you do not want to make any changes to the SNMP configuration.

Table 2 shows the configuration parameters for monitoring disk usage.

Table 2: SNMP Configuration Parameters: Monitoring Disk Usage
Monitoring Disk Usage
Parameter: Disk Usage (%) Default: 5% When the free disk space is greater than the configured threshold, the trap shown in Figure 1 is generated. Figure 1: Disk Usage Threshold Is Normal Figure 2 shows the OID details for the trap generated when disk usage is normal. Figure 2: Trap Details When Disk Usage Normal When the free disk space is less than the configured threshold, the trap shown in Figure 3 is generated. Figure 3: Disk Usage Threshold Exceeds Configured Threshold Figure 4 shows the OID details for the trap generated when disk usage exceeds the configured threshold. Figure 4: Trap Details When DIsk Usage Exceeds Configured Threshold

Table 3 shows the configuration parameters for monitoring the CPU load average.

Table 3: SNMP Configuration Parameters: Monitoring the CPU Load Average
Monitoring the CPU Load Average (System Load)
Parameter: CPU Load (1 min, 5 min, 15 min) Default Threshold Value: 4 When the CPU Load Average threshold is less than or equal to the configured threshold limit, the trap shown in Figure 5 is generated: Figure 5: CPU Load Average Threshold Is Normal Figure 6 shows the OID details for the trap generated when the CPU load is normal. Figure 6: Trap Details When CPU Load Average Threshold Is Normal Figure 7 shows the traps generated when the 15 minute, 5 minute, or 1 minute CPU Load Average threshold is exceeded. Figure 7: CPU Load Average Threshold – Upper Limit Exceeded Figure 8 shows the OID details for the trap generated when the CPU load 5 minute average exceeds the threshold. Figure 8: Trap Details When CPU Load 5 Minute Average Exceeds Threshold

Table 4 shows monitoring processes for the Junos Space Network Management Platform.

Table 4: SNMP Configuration Parameters: Monitoring Processes
Monitoring Processes
Parameter: Node Management Agent (NMA) When the NMA process is up, the trap shown in Figure 9 is generated: Figure 9: NMA Is Up Figure 10 shows the OID details for the trap generated when the NMA process is up. Figure 10: Trap Details When NMA Is Up When the NMA process is down, the trap shown in Figure 11 is generated: Figure 11: NMA is Down Figure 12 shows the OID details for the trap generated when the NMA process is down. Figure 12: Trap Details When NMA is Down
Parameter: Webproxy When the WebProxy process is up, the trap shown in Figure 13 is generated: Figure 13: WebProxy Is Up Figure 14 shows the OID details for the trap generated when the WebProxy process is up. Figure 14: Trap Details When WebProxy Is Up When the WebProxy process is down, the trap shown in Figure 15 is generated: Figure 15: WebProxy Is Down Figure 16 shows the OID details for the trap generated when the WebProxy is down. Figure 16: Trap Details When WebProxy Is Down
Parameter: JBoss When the JBoss process is up, the trap shown in Figure 17 is generated: Figure 17: JBoss Is Up Figure 18 shows the OID details for the trap generated when the JBoss process is up. Figure 18: Trap Details When JBoss Is Up When the JBoss process is down, the trap shown in Figure 19 is generated: Figure 19: JBoss Is Down Figure 20 shows the OID details for the trap generated when JBoss is down. Figure 20: Trap Details When JBoss Is Down
Parameter: Mysql When the Mysql process is up, the trap shown in Figure 21 is generated: Figure 21: Mysql Is Up Figure 22 shows the OID details for the trap generated when the Mysql process is up. Figure 22: Trap Details When Mysql Is Up When the Mysql process is down, the trap shown in Figure 23 is generated: Figure 23: Mysql Is Down Figure 24 shows the OID details for the trap generated when the Mysql process is down. Figure 24: Trap Details When Mysql Is Down
Parameter: Postgresql When the Postgresql process is up, the trap shown in Figure 25 is generated: Figure 25: Postgresql Is Up Figure 26 shows the OID details for the trap generated when the Postgresql process is up. Figure 26: Trap Details When Postgresql Is Up When the Postgresql process is down, the trap shown in Figure 27 is generated: Figure 27: Postgresql Is Down Figure 28 shows the OID details for the trap generated when the Postgresql process is up. Figure 28: Trap Details When Postgresql Is Down
Parameter: Free swap memory When the free swap memory is greater than the upper threshold limit, the trap shown in Figure 29 is generated: Figure 29: Swap Memory Usage Is Normal Figure 30 shows the OID details for the trap generated when swap memory usage is normal. Figure 30: Trap Details When Swap Memory Is Normal When the free swap memory is less than the upper threshold limit, the trap shown in Figure 31 is generated: Figure 31: Swap Memory Usage Threshold Exceeds Upper Limit Figure 32 shows the OID details for the trap generated when swap memory usage is exceeds upper limit. Figure 32: Trap Details When Swap Memory Usage Exceeds Upper Limit

Table 5 shows the configuration parameters for monitoring Junos Space Network Management Platform hardware.

Table 5: SNMP Configuration Parameters: Monitoring Linux Hardware
Monitoring Linux Hardware
Note: LM-SENSORS-MIB is not supported by the Junos Space Virtual Appliance, but only by the Junos Space Appliance. Therefore the threshold settings of CPU Max Temp (mC), CPU Min Fan (RPM) and CPU Min Voltage (mV) will not trigger any traps in the virtual appliance.
Parameter: CPU min FAN (rpm) Default Threshold Value: 1500 When the CPU fan speed is greater than the configured threshold (minimum fan speed), the trap shown in Figure 33 is generated: Figure 33: CPU Fan Speed Normal Figure 34 shows the OID details for the trap generated when CPU fan speed is normal. Figure 34: Trap Details When CPU Fan Speed Is Normal When the CPU fan speed is less than the configured threshold (minimum fan speed), the trap shown in Figure 35 is generated: Figure 35: CPU Fan Speed Is Below the Configured Threshold Figure 36 shows the OID details for the trap generated when CPU fan speed lower than the configured threshold. Figure 36: Trap Details When CPU Fan Speed Is Below the Configured Threshold
Parameter: CPU min Voltage (mV) When the CPU voltage is greater than the configured value, the trap shown in Figure 37 is generated: Figure 37: CPU Voltage Normal Figure 38 shows the OID details for the trap generated when CPU voltage is normal. Figure 38: Trap Details When CPU Voltage Is Normal Default Threshold Value: 1000 When the CPU voltage is lower than the configured value, the trap shown in Figure 39 is generated: Figure 39: CPU Voltage Is Lower Than Configured Threshold Figure 40 shows the OID details for the trap generated when CPU voltage is lower than the configured threshold. Figure 40: Trap Details When CPU Voltage Is Lower Than Configured Threshold
Parameter: CPU Temperature When the CPU temperature is lower than the configured threshold, the trap shown in Figure 41 is generated: Figure 41: CPU Temperature Normal Figure 42 shows the OID details for the trap generated when CPU temperature is normal. Figure 42: Trap Details When CPU Temperature Is Normal When the CPU temperature exceeds the configured threshold, the trap shown in Figure 43 is generated: Figure 43: CPU Temperature Exceeds The Configured Threshold Figure 44 shows the OID details for the trap generated when CPU temperature is higher than the configured threshold. Figure 44: Trap Details When CPU Temperature Exceeds The Configured Threshold

Table 6 shows the configuration parameters for monitoring fabric health.

Table 6: SNMP Configuration Parameters: Monitoring Fabric Health
Monitoring Fabric Health
Parameter: Junos Space Node When a Junos Space node is up, the trap shown in Figure 45 is generated: Figure 45: Junos Space Node is Up Figure 46 shows the OID details for the trap generated when a Junos Space node is up. Figure 46: Trap Details When Junos Space Node Is Up When a Junos Space node is down, the trap shown in Figure 47 is generated: Figure 47: Junos Space Node is Down Figure 48 shows the OID details for the trap generated when a Junos Space node is down. Figure 48: Trap Details When Junos Space Node is Down
Parameter: Junos Space Node Removal When a Junos Space node is removed from the fabric, the trap shown in Figure 49 is generated: Figure 49: Junos Space Node Is Removed Figure 50 shows the OID details for the trap generated when a Junos Space node is removed.. Figure 50: Trap Details When Junos Space Node Is Removed
Parameter: JBoss Multi-Primary Detected When there is more than one JBoss AppLogic primary node detected in the cluster, the trap shown in Figure 51 is generated: Figure 51: JBoss Multi-Primary Detected Figure 52 shows the OID details for the trap generated when there is more than one JBoss AppLogic primary node detected in the cluster. Figure 52: Trap Details When JBoss Multi-Primary Is Detected
Parameter: VIP Bind Issue Detected in JBoss Node(s) When VIP Bind issue is detected in JBoss node(s), the trap shown in Figure 53 is generated: Figure 53: VIP Bind Issue Detected In JBoss Node(s) Figure 54 shows the OID details for the trap generated when VIP Bind issue is detected in JBoss node(s). Figure 54: Trap Details When VIP Bind Issue Is Detected In JBoss Node(s)
Parameter: VIP Bind Issue Detected in Database Node(s) When VIP Bind issue is detected in Database node(s), the trap shown in Figure 55 is generated: Figure 55: VIP Bind Issue Detected In Database Node(s) Figure 56 shows the OID details for the trap generated when VIP Bind issue is detected in Database node(s). Figure 56: Trap Details When VIP Bind Issue Is Detected In Database Node(s)
Parameter: VIP Bind Issue Detected in FMPM Node(s) When VIP Bind issue is detected in FMPM node(s), the trap shown in Figure 57 is generated: Figure 57: VIP Bind Issue Detected In FMPM Node(s) Figure 58 shows the OID details for the trap generated when VIP Bind issue is detected in FMPM node(s). Figure 58: Trap Details When VIP Bind Issue Is Detected In FMPM Node(s)
Parameter: Fabric Monitoring Process Inactive When fabric monitoring process is inactive, the trap shown in Figure 59 is generated: Figure 59: Fabric Monitoring Process Inactive Figure 60 shows the OID details for the trap generated when fabric monitoring process is inactive. Figure 60: Trap Details When Fabric Monitoring Process Is Inactive
Parameter: Tables Exceed Size Limit When one or more tables in the MySQL database exceed the size limit of 10 GB, the trap shown in Figure 61 is generated: Figure 61: Tables Exceed Size Limit Figure 62 shows the OID details for the trap generated when one or more tables in the MySQL database exceed the size limit of 10 GB. Figure 62: Trap Details When Tables Exceed Size Limit
Parameter: Device Session Count Exceeds Threshold Limit When the device session count exceeds the threshold limit, the trap shown in Figure 63 is generated: Figure 63: Device Session Count Exceeds Threshold Limit Figure 64 shows the OID details for the trap generated when the device session count exceeds the threshold limit. Figure 64: Trap Details When Device Session Count Exceeds Threshold Limit
Parameter: HPROF Availability When Heap and CPU Profiling Agent (HPROF) files are detected on a Junos Space node, the trap shown in Figure 65 is generated: Figure 65: HPROF Availability Figure 66 shows the OID details for the trap generated when HPROF files are detected on a Junos Space node. Figure 66: Trap Details When HPROF Files Are Available
Parameter: JGroup Membership Issue Detected When the removal of a JBoss node from JGroup is detected in the cluster, the trap shown in Figure 67 is generated: Figure 67: JGroup Membership Issue Detected Figure 68 shows the OID details for the trap generated when the removal of a JBoss node from JGroup is detected in the cluster. Figure 68: Trap Details When JGroup Membership Issue Detected
Parameter: MySQL In Out Of Sync State When a MySQL database synchronization issue is detected between nodes running the MySQL database, the trap shown in Figure 69 is generated: Figure 69: MySQL In Out Of Sync State Figure 70 shows the OID details for the trap generated when a MySQL database synchronization issue is detected between nodes running the MySQL database. Figure 70: Trap Details When MySQL Is In Out Of Sync State
Parameter: File Intrusion Detection Monitoring When changes in files or file permissions are detected, the trap shown in Figure 71 is generated. Figure 71: File Intrusion Detection Monitoring Figure 72 shows the OID details for the trap generated when file or file permission changes are detected in the system. Figure 72: Trap Details for File Intrusion Detection Monitoring
Parameter: Audit Logs Forwarding Failed When the system fails to forward audit logs to the configured system log server, the trap shown in Figure 73 is generated: Figure 73: Audit Logs Forwarding Failed Figure 74 shows the OID details for the trap generated when the system fails to forward audit logs to the configured system log server. Figure 74: Trap Details When Audit Logs Forwarding Fails
Parameter: One Or More Expected Process Are Inactive Junos Space monitors critical process like JBoss, MySQL, Apache Web Proxy, OpenNMS and PostgreSQL. If any of these expected processes are inactive, the trap shown in Figure 75 is generated: Figure 75: One or More Expected Processes Are Inactive Figure 76 shows the OID details for the trap generated when one or more expected processes are inactive. Figure 76: Trap Details When One or More Expected Processes Are Inactive
Parameter: One or More Expected Processes Are Inactive On Dedicated FMPM Nodes When one or more expected processes are inactive on dedicated FMPM nodes, the trap shown in Figure 77 is generated: Figure 77: One or More Expected Processes Are Inactive On Dedicated FMPM Nodes Figure 78 shows the OID details for the trap generated when one or more expected process are inactive on dedicated FMPM nodes. Figure 78: Trap Details When One or More Expected Processes Are Inactive On Dedicated FMPM Nodes

Note:

LM-SENSORS-MIB is not supported by the Junos Space virtual appliance, but only by the Junos Space Appliance. Therefore the threshold settings of CPU Max Temp (mC), CPU Min Fan (RPM) and CPU Min Voltage (mV) will not trigger any traps in the virtual appliance.

Note:

Junos Space supports RAID-related traps on a Junos Space appliance. The following is a sample trap:

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40948 	Normal [+] [-] 	2/4/13 09:54:14 [<] [>] 	space-node 	10.205.56.38 [+] [-] 	 
uei.opennms.org/generic/traps/EnterpriseDefault [+] [-] Edit notifications for event
Received unformatted enterprise event (enterprise:.1.3.6.1.4.1.8072.4 generic:6 specific:1001). 1 args: .1.3.6.1.4.1.795.14.1.9000.1="One or more logical devices contain a bad stripe: controller 1."

Starting SNMP Monitoring on Fabric Nodes

To start SNMP monitoring on one or more fabric nodes:

Select Network Management Platform > Administration > Fabric.
The Fabric page appears.
Select the check box for each fabric node on which you want to start SNMP monitoring.
From the Actions menu, select SNMP Start.
The Confirm Start SNMP Agent dialog box is displayed.
Click Yes.
Junos Space begins SNMP monitoring on the selected fabric nodes.

Note:
This process might take a while.
To view the status of SNMP monitoring on the selected fabric nodes, select Network Monitoring > Node List.
The Network Monitoring > Node List page appears.
Select the node on which you started the SNMP monitoring.
The Junos Space node is represented as space-<number>.

Figure 79 shows a sample view of network monitoring details for the selected fabric node.

Figure 79: Network Monitoring Details for the Selected Fabric Node

Under Notification / Recent Events on the right of the Node List page, you see the results of the SNMP monitoring operation.

Stopping SNMP Monitoring on Fabric Nodes

To stop SNMP monitoring on one or more fabric nodes:

Select Network Management Platform > Administration > Fabric.
The Fabric page appears.
Select the check box for each fabric node on which you want to stop SNMP monitoring.
From the Actions menu, select SNMP Stop.
The Confirm Stop SNMP Agent dialog box is displayed.
Click Yes.
Junos Space stops SNMP monitoring on the selected fabric nodes.

Restarting SNMP Monitoring on Fabric Nodes

To restart SNMP monitoring on one or more fabric nodes:

Select Network Management Platform > Administration > Fabric.
The Fabric page appears.
Select the check box for each fabric node on which you want to restart SNMP monitoring.
From the Actions menu, select SNMP Restart.
The Confirm Restart SNMP Agent dialog box is displayed.
Click Yes.
Junos Space restarts SNMP monitoring on the selected fabric nodes.

Adding a Third-Party SNMP V1 or V2c Manager on a Fabric Node

To add a third-party SNMP V1 or V2c manager on a fabric node:

Select Network Management Platform > Administration > Fabric > SNMP Manager.
The SNMP Manager page appears.
Click the Add SNMP Manager icon.
The Add 3rd Party SNMP Manager dialog box is displayed.
In the Manager IP field, enter the SNMP manager IP address.
Note:
Depending on whether the Junos Space fabric is configured with only IPv4 addresses or both IPv4 and IPv6 addresses, Junos Space Platform allows you to enter an IPv4 address or either an IPv4 or IPv6 address respectively for the SNMP Manager.

The IPv4 and IPv6 addresses that you use must be valid addresses. Refer to http://www.iana.org/assignments/ipv4-address-space for the list of restricted IPv4 addresses and http://www.iana.org/assignments/ipv6-address-space for the list of restricted IPv6 addresses.
In the Version field, select the SNMP version (V1 or V2c) .
In the Community field, enter the community string.
Any alphanumeric string (up to 254 characters) is acceptable, including spaces and symbols.
Click OK.
The newly added SNMP v1 or v2c Manager is displayed on the SNMP Manager page.

Adding a Third-Party SNMP V3 Manager on a Fabric Node

To add a third-party SNMP V3 manager on a fabric node:

Select Platform > Administration > Fabric > SNMP Manager.
The SNMP Manager page appears.
Click the Add icon.
The Add 3rd Party SNMP Manager dialog box displays.
In the Manager IP field, enter the SNMP manager IP address.
Note:
Depending on whether the Junos Space fabric is configured with only IPv4 addresses or both IPv4 and IPv6 addresses, Junos Space Platform allows you to enter an IPv4 address or either an IPv4 or IPv6 address respectively for the SNMP Manager.

The IPv4 and IPv6 addresses that you use must be valid addresses. Refer to http://www.iana.org/assignments/ipv4-address-space for the list of restricted IPv4 addresses and http://www.iana.org/assignments/ipv6-address-space for the list of restricted IPv6 addresses.
In the Version field, select V3.
In the User Name field, type the user name.
The user name can contain a maximum of 32 alphanumeric characters including spaces and symbols.
In the Authentication Type field, enter the authentication type (MD5 or SHA).
In the Authentication Password field, enter the authentication password.
Click the red information icon next to the Authentication Password field for information on the password rules.
In the Confirm Authentication password, enter the authentication password again to confirm the password.
From the Security Level list, select the security level:
- noAuthNoPriv—Do not specify an authentication or privacy password.
- authNoPriv—Specify only an authentication password.
- authPriv—Specify both authentication and privacy passwords.
In the Privacy Type field, enter the privacy type (AES or DES).
In the Privacy Password field, enter the privacy password.
Click the red information icon next to the Authentication Password field for information on the password rules.
In the Confirm Privacy password field, enter the privacy password again to confirm the password.
Click OK.
The newly added SNMP Manager entry is displayed on the SNMP Manager page.

Note:

The trap settings for the SNMPv3 manager are not automatically updated in Network Monitoring. Therefore, to ensure that the Network Monitoring receives the traps from Junos Space, you must add the same settings manually in the /opt/opennms/etc/trapd-configuration.xml file. Table 7 displays the mapping between the parameters in the /opt/opennms/etc/trapd-configuration.xml file and the fields in the Add 3rd Party SNMP Manager page.

The following is a sample configuration in the /opt/opennms/etc/trapd-configuration.xml file.

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<?xml version="1.0"?>
<trapd-configuration snmp-trap-port="162" new-suspect-on-trap="false">
 <snmpv3-user security-name="JunosSpace" auth-passphrase="auth-password" auth-protocol="MD5"/>
  <snmpv3-user security-name="JunosSpace" auth-passphrase="auth-password" auth-protocol="MD5"
      privacy-passphrase="privacy-password" privacy-protocol="DES"/>
</trapd-configuration>

Table 7: Mapping of SNMP V3 Settings
Parameter in trapd-configuration.xml File	Field in Add 3rd Party SNMP Manager Page
`security-name`	User Name
`auth-passphrase`	Authentication Password
`privacy-passphrase`	Privacy Password
`privacy-protocol`	Privacy Type

Deleting a Third-Party SNMP Manager from a Fabric Node

To delete a third-party SNMP manager configuration from a fabric node:

Select Platform > Administration > Fabric > SNMP Manager.
The SNMP Manager page appears.
Select the SNMP manager configuration that you want to remove.
Click the Delete SNMP Manager icon.
To confirm the deletion of the SNMP manager, click Yes.
The deleted SNMP manager is removed from the SNMP Manager page.

Installing StorMan RPM for Monitor RAID Functionality

To install StorMan RPM:

From Junos Space Platform CLI, run the following command:

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# rpm –ivh StorMan-7.31-18856.x86_64.rpm

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Workspaces User Guide

ON THIS PAGE

Monitoring Nodes in the Fabric

Viewing and Modifying the SNMP Configuration for a Fabric Node

Starting SNMP Monitoring on Fabric Nodes

Stopping SNMP Monitoring on Fabric Nodes

Restarting SNMP Monitoring on Fabric Nodes

Adding a Third-Party SNMP V1 or V2c Manager on a Fabric Node

Adding a Third-Party SNMP V3 Manager on a Fabric Node

Deleting a Third-Party SNMP Manager from a Fabric Node

Installing StorMan RPM for Monitor RAID Functionality

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Workspaces User Guide

ON THIS PAGE

Monitoring Nodes in the Fabric

Viewing and Modifying the SNMP Configuration for a Fabric Node

Starting SNMP Monitoring on Fabric Nodes

Stopping SNMP Monitoring on Fabric Nodes

Restarting SNMP Monitoring on Fabric Nodes

Adding a Third-Party SNMP V1 or V2c Manager on a Fabric Node

Adding a Third-Party SNMP V3 Manager on a Fabric Node

Deleting a Third-Party SNMP Manager from a Fabric Node

Installing StorMan RPM for Monitor RAID Functionality

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