- About this Guide
- Ultra Services Platform Overview
- Introduction to UGP
- System Operation and Configuration
- Getting Started
- System Settings
- Config Mode Lock Mechanisms
- Management Settings
- Verifying and Saving Your Configuration
- System Interfaces and Ports
- System Security
- Secure System Configuration File
- Software Management Operations
- Smart Licensing
- Monitoring the System
- Bulk Statistics
- System Logs
- Troubleshooting
- Packet Capture (PCAP) Trace
- System Recovery
- Access Control Lists
- Congestion Control
- Routing
- VLANs
- BGP MPLS VPNs
- Content Service Steering
- Session Recovery
- Interchassis Session Recovery
- Support Data Collector
- Engineering Rules
- StarOS Tasks
- NETCONF and ConfD
- ICSR Checkpointing
- UGP SDR CLI Command Strings
- VPC Commands
- KPI Descriptions
Troubleshooting
This chapter provides information and instructions for using the system command line interface (CLI) for troubleshooting any issues that may arise during system operation.
- Verifying Network Connectivity
- Using the System Diagnostic Utilities
- Generating an SSD
- Configuring and Using the Support Data Collector
Verifying Network Connectivity
There are multiple commands supported by the system to verify and/or troubleshoot network connectivity. Note that network connectivity can only be tested once system interfaces and ports have been configured and bound.
The commands specified in this section should be issued on a context-by-context basis. Contexts act like virtual private networks (VPNs) that operate independently of other contexts. Ports, interfaces, and routes configured in one context cannot be tested from another context without additional configuration.
[local]host_name# context context_name
[context_name]host_name#
- Using the ping or ping6 Command
- Using the traceroute or traceroute6 Command
- Viewing IP Routes
- Viewing the Address Resolution Protocol Table
Using the ping or ping6 Command
The ping or ping6 command verifies the system's ability to communicate with a remote node in the network by passing data packets between and measuring the response. This command is useful in verifying network routing and if a remote node is able to respond at the IP layer.
For VPC-DI deployments, use the Exec mode command system ping to verify the internal network (DI-network) connectivity between the VPC-DI VMs. Refer to the Command Line Interface Reference for more details.
Syntax
The ping command has the following syntax:
ping host_ipv4_address [ count num_packets ] [ flood ] [ pattern packet_pattern ] [ size octet_count ] [ src { src_host_name | src_host_ipv4_address } ] [ vrf vrf_nam ]
ping6 host_ipv6_address [ count num_packets ] [ flood ][ pattern packet_pattern ] [ size octet_count ] [ src { src_host_name | src_host_ipv6_address } ] [ vrf vrf_nam ]
For complete information on the above commands, see the Exec Mode Commands chapter of the Command Line Interface Reference.
The following displays a sample of a successful ping (IPV4) response.
PING 192.168.250.1 (192.168.250.1): 56 data bytes 64 bytes from 192.168.250.1: icmp_seq=0 ttl=255 time=0.4 ms 64 bytes from 192.168.250.1: icmp_seq=1 ttl=255 time=0.2 ms 64 bytes from 192.168.250.1: icmp_seq=2 ttl=255 time=0.2 ms 64 bytes from 192.168.250.1: icmp_seq=3 ttl=255 time=0.2 ms 64 bytes from 192.168.250.1: icmp_seq=4 ttl=255 time=0.2 ms --- 192.168.250.1 ping statistics --- 5 packets transmitted, 5 packets received, 0% packet loss round-trip min/avg/max = 0.2/0.2/0.4 ms
Troubleshooting
Verify that the correct IP address was entered.
Attempt to ping a different device on the same network. If the ping was successful then it is likely that your system configuration is correct. Verify that the device you are attempting to ping is powered and functioning properly.
Verify the port is operational.
Verify that the configuration of the ports and interfaces within the context are correct.
If the configuration is correct and you have access to the device that you're attempting to ping, ping the system from that device.
If there is still no response, it is likely that the packets are getting discarded by a network device. Use the traceroute or traceroute6 and show ip static-route commands discussed in this chapter to further troubleshoot the issue.
Using the traceroute or traceroute6 Command
The traceroute or traceroute6 command collects information on the route data will take to a specified host. This is a useful troubleshooting command that can be used to identify the source of significant packet delays or packet loss on the network. This command can also be used to identify bottle necks in the routing of data over the network.
traceroute – IPv4
The traceroute command has the following syntax:
traceroute { host_name | host_ipv4_address } [ count packets ] [ df ] [ maxttl max_ttl ] [ minttl min_ttl ] [ port port_number ] [ size octet_count ] [ src { src_host_name | src_host_ipv4_address } ] [ timeout seconds ] [ vrf vrf_nam ]
For complete information on the above command, see the Exec Mode Commands chapter of the Command Line Interface Reference.
The following displays a sample output.
traceroute to 192.168.250.1 (192.168.250.1), 30 hops max, 40 byte packets 1 192.168.250.1 (192.168.250.1) 0.446 ms 0.235 ms 0.178 ms
traceroute6 – IPv6
The traceroute6 command has the following syntax:
traceroute6 { host_name | host_ipv6_address } [ count packets ] [ maxttl max_ttl ] [ port port_number ] [ size octet_count ] [ src { src_host_name | src_host_ipv6_address } ] [ timeout seconds ] [ vrf vrf_nam ]
For complete information on the above commands, see the Exec Mode Commands chapter of the Command Line Interface Reference.
The following displays a sample output.
traceroute6 to 2001:4A2B::1f3F (2001:4A2B::1f3F), 30 hops max, 40 byte packets 1 2001:4A2B::1f3F (2001:4A2B::1f3F) 0.446 ms 0.235 ms 0.178 ms
Viewing IP Routes
The system provides a mechanism for viewing route information to a specific node or for an entire context. This information can be used to verify network connectivity and to ensure the efficiency of the network connection. The command has the following syntax:
show ip route [ route_ip_address ] show ipv6 route [ route_ipv6_address ] ]
For complete information on the above commands, see the Exec Mode show Commands chapter of the Command Line Interface Reference.
If no keywords are specified, all IP routes within the context's routing table are displayed.
The following displays a sample of this command's output showing a context IPv4 routing table.
"*" indicates the Best or Used route. Destination Nexthop Protocol Prec Cost Interface *0.0.0.0/0 10.0.4.1 static 0 0 SPIO1 *10.0.4.0/24 0.0.0.0 kernel 0 0 SPIO1 *10.0.4.0/32 0.0.0.0 kernel 0 0 SPIO1 *10.0.4.3/32 0.0.0.0 kernel 0 0 SPIO1 *10.0.4.255/32 0.0.0.0 kernel 0 0 SPIO1
Viewing the Address Resolution Protocol Table
The system provides a mechanism for viewing Address Resolution Protocol (ARP) table information to a specific node or for an entire context. This information can be used to verify that when the system sends an ARP packet, it receives valid responses from other network nodes.
[local]host_name# show ip arp [ arp_ip_address ]
arp_ip_address specifies a specific network node for which to display ARP information. The address can be entered in IPv4 dotted-decimal or IPv6 colon-separated-hexadecimal notation. If this keyword is not specified, all entries within the context's ARP table are displayed.
Restarting the VPN Manager removes all interfaces from the kernel which in turn removes all ARP entries. However, the NPU still retains all of the ARP entries so that there is no traffic disruption. From a user point of view, show ip arp is broken since this command gathers information from the kernel and not the NPU.
The following displays a sample of this command's output showing a context's ARP table.
Flags codes: C - Completed, M - Permanent, P - Published, ! - Not answered T - has requested trailers Address Link Type Link Address Flags Mask Interface 10.0.4.240 ether 00:05:47:02:20:20 C MIO1 10.0.4.7 ether 00:05:47:02:03:36 C MIO1 10.0.4.1 ether 00:01:30:F2:7F:00 C MIO1
Using the System Diagnostic Utilities
The system provides protocol monitor and test utilities that are useful when troubleshooting or verifying configurations. The information generated by these utilities can help identify the root cause of a software or network configuration issue.
This section describes how to use these utilities.
Only an administrator with Operator or higher privilege can run the diagnostic utilities described in this section.
Using the Monitor Utility
For troubleshooting purposes, the system provides a protocol monitoring utility. This tool displays protocol information for a particular subscriber session or for every session being processed.
Caution | The monitor tool may cause session processing delays and/or data loss. Therefore, it should be used only when troubleshooting. |
Using the Protocol Monitor
The protocol monitor displays information for every session that is currently being processed. Depending on the number of protocols monitored, and the number of sessions in progress, a significant amount of data is generated. It is highly recommended that logging be enabled on your terminal client in order to capture all of the information that is generated.
Refer also to Packet Capture (PCAP) Trace to enable PCAP functionality for the monitor protocol and monitor subscriber commands.
Follow the instructions below to invoke and configure the protocol monitoring tool.
The monitor remains active until disabled. To quit the protocol monitor and return to the prompt, press q.
Using the Protocol Monitor for a Specific Subscriber
The protocol monitor can be used to display information for a specific subscriber session that is currently being processed. Depending on the number of protocols monitored, and the number of sessions in progress, a significant amount of data is generated. It is highly recommended that logging be enabled on your terminal client in order to capture all of the information that is generated.
Follow the instructions in this section to invoke and configure the protocol monitoring tool for a specific subscriber session.
Generating an SSD
An SSD is an instance of the output when the Exec mode show support details command is run. It displays a comprehensive list of system information that is useful for troubleshooting purposes. In most cases, the output of this command is requested by the Technical Assistance Center (TAC).
An SSD output .tar file can redirected to a local or remote location (URL).
-
support_summary - An ASCII text file that contains the support detail information.
-
information.minicores.tar - A .tar file that contains any minicore files found on the system. Minicore files contain memory core dumps that are captured during some events. These core dumps provide specific memory locations and other information about the event. This information is useful to the technical support team in identifying where and when an event occurred along with its probably cause.
The show support details command includes information that is not otherwise accessible to users but that is helpful in the swift resolution of issues by TAC.
Platforms with large configuration files can take up to 30 minutes to complete an SSD. Executing the show support details command consumes system resources and may reduce traffic throughput.
For releases prior to 20.0, an operator could initiate another SSD while an SSD was already running. In a large configuration, the SSD request often timed out while waiting for the first one to complete. The operator was not aware of the failure until the entire timeout expired. An operator could have more than one SSD running simultaneously.
For release 20.0 and higher, if an SSD is in progress when the operator enters the show support details command, StarOS responds with a warning message stating that an SSD is already in progress and the user should try again later. The operator is restricted to running only one SSD instance at a time.
There are optional keywords to the show support details command that can target the SSD to only report specific type of information. These keywords can reduce the amount of time required to generate the SSD/
For additional information about the show support details command, see the Exec Mode show Commands (Q-S) chapter in the Command Line Interface Reference.
Configuring and Using the Support Data Collector
The task of collecting the support data is performed by a background CLI task called the record collector. The administrator configures the Support Data Collector (SDC) via the CLI with the commands to be executed on a periodic basis. The record collector always runs in the background and checks if there are records to be collected.
When it is time to collect support data, the scheduler executes the configured sequence of CLI commands and stores the results in a gunzipped (.gz) file on the hard-disk. This file is called an SDR (Support Data Record), and represents a snapshot of the overall state of the system at that time.
Technical Assistance Center (TAC) personnel and local administrators can review the SDRs on-line or by transferring them off the system. They may also wish to investigate the collector state information.
Refer to the Support Data Collector chapter for a complete description of SDC functionality.