Navigation
Table of Contents
Guide That Contains This Content
[+] Expand All
[-] Collapse All
- Monitoring, Sampling, and Collection Services Interfaces User Guide - TechLibrary - Juniper Networks
- Flow Monitoring and Flow Collection Services
- Understanding Flow Monitoring
- Monitoring Traffic Using Active Flow Monitoring
- Configuring Active Flow Monitoring
- Active Flow Monitoring System Requirements
- Active Flow Monitoring Applications
- Active Flow Monitoring PIC Specifications
- Active Flow Monitoring Overview
- Active Flow Monitoring Overview
- Example: Configuring Active Monitoring on an M, MX or T Series Router’s Logical System
- Example: Configuring Flow Monitoring on an MX Series Router with MS-MIC and MS-MPC
- Configuring Services Interface Redundancy with Flow Monitoring
- Configuring Inline Active Flow Monitoring Using Routers, Switches or NFX250
- Configuring Flow Offloading on MX Series Routers
- Configuring Active Flow Monitoring on PTX Series Packet Transport Routers
- Configuring Actively Monitored Interfaces on M, MX and T Series Routers
- Collecting Flow Records
- Configuring M, MX and T Series Routers for Discard Accounting with an Accounting Group
- Configuring M, MX and T Series Routers for Discard Accounting with a Sampling Group
- Configuring M, MX and T Series Routers for Discard Accounting with a Template
- Defining a Firewall Filter on M, MX and T Series Routers to Select Traffic for Active Flow Monitoring
- Processing IPv4 traffic on an M, MX or T Series Router Using Monitoring services, Adaptive services or Multiservices Interfaces
- Replicating M, MX and T Series Routing Engine-Based Sampling to Multiple Flow Servers
- Replicating Version 9 Flow Aggregation From M, MX and T Series Routers to Multiple Flow Servers
- Configuring Routing Engine-Based Sampling on M, MX and T Series Routers for Export to Multiple Flow Servers
- Example: Copying Traffic to a PIC While an M, MX or T Series Router Forwards the Packet to the Original Destination
- Configuring an Aggregate Export Timer on M, MX and T Series Routers for Version 8 Records
- Example: Sampling Configuration for M, MX and T Series Routers
- Associating Sampling Instances for Active Flow Monitoring with a Specific FPC, MPC, or DPC
- Example: Sampling Instance Configuration
- Example: Sampling and Discard Accounting Configuration on M, MX and T Series Routers
- Monitoring Traffic Using Passive Flow Monitoring
- Passive Flow Monitoring Overview
- Passive Flow Monitoring System Requirements for T Series, M Series and MX Series Routers
- Passive Flow Monitoring Router and Software Considerations for T Series, M Series and MX Series Routers
- Understanding Passive Flow Monitoring on T Series, M Series and MX Series Routers
- Enabling Passive Flow Monitoring on M Series, MX Series or T Series Routers
- Configuring Passive Flow Monitoring
- Example: Passive Flow Monitoring Configuration on M, MX and T Series Routers
- Configuring a Routing Table Group on an M, MX or T Series Router to Add Interface Routes into the Forwarding Instance
- Using IPSec and an ES PIC on an M, MX or T Series Router to Send Encrypted Traffic to a Packet Analyzer
- Applying a Firewall Filter Output Interface on an M, MX or T Series Router to Port-mirror Traffic to PICs or Flow Collection Services
- Monitoring Traffic on a Router with a VRF Instance and a Monitoring Group
- Specifying a Firewall Filter on an M, MX or T Series Router to Select Traffic to Monitor
- Configuring Input Interfaces, Monitoring Services Interfaces and Export Interfaces on M, MX or T Series Routers
- Establishing a VRF Instance on an M, MX or T Series Router for Monitored Traffic
- Configuring a Monitoring Group on an M, MX or T Series Router to Send Traffic to the Flow Server
- Configuring Policy Options on M, MX or T Series Routers
- Stripping MPLS Labels on ATM, Ethernet-Based and SONET/SDH Router Interfaces
- Using an M, MX or T Series Router Flow Collector Interface to Process and Export Multiple Flow Records
- Example: Configuring a Flow Collector Interface on an M, MX or T Series Router
- Processing and Exporting Multiple Records Using Flow Collection
- Logging Flow Monitoring Records with Version 9 and IPFIX Templates for NAT Events
- Understanding NAT Event Logging in Flow Monitoring Format on an MX Series Router or NFX250
- Configuring Log Generation of NAT Events in Flow Monitoring Record Format on an MX Series Router or NFX250
- Exporting Syslog Messages to an External Host Without Flow Monitoring Formats Using an MX Series Router or NFX250
- Exporting Version 9 Flow Data Records to a Log Collector Overview Using an MX Series Router or NFX250
- Understanding Exporting IPFIX Flow Data Records to a Log Collector Using an MX Series Router or NFX250
- Mapping Between Field Values for Version 9 Flow Templates and Logs Exported From an MX-Series Router or NFX250
- Mapping Between Field Values for IPFIX Flow Templates and Logs Exported From an MX Series Router or NFX250
- Monitoring NAT Events on MX Series Routers by Logging NAT Operations in Flow Template Formats
- Example: Configuring Logs in Flow Monitoring Format for NAT Events on MX Series Routers for Troubleshooting
- Flow Capture Services
- Dynamically Capturing Packet Flows Using Junos Capture Vision
- Detecting Threats and Intercepting Flows Using Junos Packet Vision
- Understanding Junos Packet Vision
- Configuring Junos Packet Vision on MX, M and T Series Routers
- Examples: Configuring Junos Packet Vision on M, T, and MX Series Routers
- Sending Packets to a Mediation Device on MX, M and T Series Routers
- Example: Configuring IPv6 Support for FlowTapLite on an M120 Router With Enhanced III FPCs
- Using Flow-Tap to Monitor Packet Flow
- Understanding Flow-Tap Architecture
- Configuring a Flow-Tap Interface on MX, M and T Series Routers
- Configuring Flow-Tap Security Properties on MX, M and T Series Routers
- Flow-Tap Application Restrictions
- Example: Flow-Tap Configuration on T and M Series Routers
- Configuring FlowTapLite on MX Series Routers and M320 Routers with FPCs
- Inline Monitoring Services
- Configuring Inline Monitoring Services
- Sampling and Discard Accounting Services
- Sampling Data Using Traffic Sampling and Discard Accounting
- Sampling Data Using Inline Sampling
- Understanding Inline Active Flow Monitoring
- Configuring Inline Active Flow Monitoring Using Routers, Switches or NFX250
- Configuring Inline Active Flow Monitoring on MX80 and MX104 Routers
- Configuring Inline Active Flow Monitoring on PTX Series Routers
- Inline Active Flow Monitoring of MPLS-over-UDP Flows on PTX Series Routers
- Inline Active Flow Monitoring on IRB Interfaces
- Example: Configuring Inline Active Flow Monitoring on MX Series and T4000 Routers
- Sampling Data Using Flow Aggregation
- Understanding Flow Aggregation
- Enabling Flow Aggregation
- Configuring Flow Aggregation on MX, M and T Series Routers and NFX250 to Use Version 5 or Version 8 cflowd
- Configuring Flow Aggregation on MX, M, vMX and T Series Routers and NFX250 to Use Version 9 Flow Templates
- Configuring Flow Aggregation on PTX Series Routers to Use Version 9 Flow Templates
- Configuring Inline J-Flow to Use IPFIX Flow Templates on MX, vMX and T Series Routers, EX Series Switches, NFX Series Devices, and SRX Devices
- Configuring Flow Aggregation to Use IPFIX Flow Templates on PTX Series Routers
- Configuring Observation Domain ID and Source ID for Version 9 and IPFIX Flows
- Configuring Template ID and Options Template ID for Version 9 and IPFIX Flows
- Including Fragmentation Identifier and IPv6 Extension Header Elements in IPFIX Templates on MX Series Routers
- Directing Replicated Flows from M and T Series Routers to Multiple Flow Servers
- Logging cflowd Flows on M and T Series Routers Before Export
- Configuring Next-Hop Address Learning on MX Series and PTX Series Routers for Destinations Accessible Over Multiple Paths
- Real-Time Performance Monitoring and Video Monitoring Services
- Monitoring Traffic Using Real-Time Performance Monitoring
- Understanding Using Probes for Real-Time Performance Monitoring on M, T, PTX, and MX Series Routers
- Configuring RPM Probes on M, MX and T Series Routers and EX Series Switches
- Configuring RPM Receiver Servers
- Limiting the Number of Concurrent RPM Probes on M, MX, T and PTX Routers and EX Series Switches
- Configuring RPM Timestamping on MX, M, T, and PTX Series Routers and EX Series Switches
- Analyzing Network Efficiency in IPv6 Networks on MX Series Routers Using RPM Probes
- Configuring BGP Neighbor Discovery Through RPM
- Examples: Configuring BGP Neighbor Discovery on MX, M, T and PTX Series Routers With RPM
- Real-Time Performance Monitoring on ACX Series
- Tracing RPM Operations on MX, M, T and ACX Series Routers
- Examples: Configuring Real-Time Performance Monitoring on MX, M, T and PTX Series Routers
- Enabling RPM on MX, M and T Series Routers and SRX Firewalls for the Services SDK
- Understanding Two-Way Active Measurement Protocol on Routers
- Configuring TWAMP on MX, M, T, and PTX Series Routers and EX4300 Series Switches
- Example: Configuring TWAMP Client and Server on MX Series Routers
- Two-Way Active Measurement Protocol on ACX Series
- Understanding TWAMP Auto-Restart
- Configuring TWAMP Client and TWAMP Server to Reconnect Automatically After TWAMP Server Unavailability
- Managing License Server for Throughput Data Export
- Testing the Performance of Network Devices Using RFC 2544-Based Benchmarking
- Understanding RFC 2544-Based Benchmarking Tests on MX Series Routers
- Understanding RFC2544-Based Benchmarking Tests for E-LAN and E-Line Services on MX Series Routers
- Supported RFC 2544-Based Benchmarking Statements on MX Series Routers
- Configuring an RFC 2544-Based Benchmarking Test
- Enabling Support for RFC2544-Based Benchmarking Tests on MX Series Routers
- Example: Configuring an RFC 2544-Based Benchmarking Test on an MX104 Router for Layer 3 IPv4 Services
- Example: Configuring an RFC 2544-Based Benchmarking Test on an MX104 Router for UNI Direction of Ethernet Pseudowires
- Example: Configuring an RFC 2544-Based Benchmarking Test on an MX104 Router for NNI Direction of Ethernet Pseudowires
- Example: Configuring RFC2544-Based Benchmarking Tests on an MX104 Router for Layer 2 E-LAN Services in Bridge Domains
- Example: Configuring Benchmarking Tests to Measure SLA Parameters for E-LAN Services on an MX104 Router Using VPLS
- Configuring RFC 2544-Based Benchmarking Tests on ACX Series
- RFC 2544-Based Benchmarking Tests Overview
- Layer 2 and Layer 3 RFC 2544-Based Benchmarking Test Overview
- Configuring RFC 2544-Based Benchmarking Tests
- Configuring Ethernet Loopback for RFC 2544-Based Benchmarking Tests
- RFC 2544-Based Benchmarking Test States
- Example: Configuring an RFC 2544-Based Benchmarking Test for Layer 3 IPv4 Services
- Example: Configuring an RFC 2544-Based Benchmarking Test for NNI Direction of Ethernet Pseudowires
- Example: Configuring an RFC 2544-Based Benchmarking Test for UNI Direction of Ethernet Pseudowires
- Configuring a Service Package to be Used in Conjunction with PTP
- Tracking Streaming Media Traffic Using Inline Video Monitoring
- Understanding Inline Video Monitoring on MX Series Routers
- Configuring Inline Video Monitoring on MX Series Routers
- Inline Video Monitoring Syslog Messages on MX Series Routers
- Generation of SNMP Traps and Alarms for Inline Video Monitoring on MX Series Routers
- SNMP Traps for Inline Video Monitoring Statistics on MX Series Routers
- Processing SNMP GET Requests for MDI Metrics on MX Series Routers
- Monitoring Traffic Using Real-Time Performance Monitoring
- Configuration Statements and Operational Commands
- Configuration Statements
- accounting
- address (Interfaces)
- address (Services Dynamic Flow Capture)
- aggregate-export-interval
- aggregation
- alarms
- alarm-mode
- allowed-destinations
- analyzer-address
- analyzer-id
- archive-sites
- authentication-mode
- authentication-key-chain
- autonomous-system-type
- bandwidth-kbps (RFC 2544 Benchmarking)
- bgp
- bridge-template
- capture-group
- cflowd (Discard Accounting)
- cflowd (Flow Monitoring)
- client
- client-delegate-probes
- client-list
- collector
- collector
- collector (Flow Monitoring Logs for NAT)
- collector (Flow Template Profiles for NAT)
- collector-group (Flow Template Profiles for NAT)
- collector-group (Flow Monitoring Logs for NAT)
- content-destination
- control-connection (Junos OS)
- control-connection (Junos OS Evolved)
- control-source
- core-dump
- data-fill
- data-fill-with zeros
- data-format
- data-size
- delay-factor
- delegate-probes
- destination
- destination-address (Flow Monitoring Logs for NAT)
- destination-interface
- destination-ipv4-address
- destination-mac-address (RFC2544 Benchmarking)
- destination-port
- destination-port (Flow Monitoring Logs for NAT)
- destination-udp-port (RFC 2544 Benchmarking)
- destinations
- direction
- disable
- disable-signature-check
- dscp (flow-server)
- dscp-code-points (RPM)
- dscp-code-points (RFC 2544 Benchmarking)
- dump-on-flow-control
- duplicates-dropped-periodicity
- dynamic-flow-capture
- engine-id
- engine-type
- export-format
- family (Monitoring)
- family (RFC2544 Benchmarking)
- family (Sampling)
- file (Sampling)
- file (Trace Options)
- file-specification (File Format)
- file-specification (Interface Mapping)
- filename
- filename-prefix
- files
- filter
- flex-flow-sizing
- flow-active-timeout
- flow-collector
- flow-control-options
- flow-export-destination
- flow-export-rate
- flow-inactive-timeout
- flow-key (Flow Monitoring)
- flow-monitoring
- flow-server
- flow-table-size
- flow-table-size (Chassis)
- flow-tap
- forwarding-class (RFC 2544 Benchmarking)
- forwarding-class (Sampling)
- ftp (Flow Collector Files)
- ftp (Transfer Log Files)
- g-duplicates-dropped-periodicity
- g-max-duplicates
- generate-snmp-traps
- halt-on-prefix-down
- hard-limit
- hard-limit-target
- hardware-timestamp
- history-size
- host-outbound media-interface
- icmp
- in-service (RFC2544 Benchmarking)
- inactivity-timeout
- inet6-options
- inline-jflow
- inline-monitoring
- instance
- input (Sampling)
- input-interface-index
- input-packet-rate-threshold
- instance (Sampling)
- interface (Accounting or Sampling)
- interfaces
- interface (Services Flow Tap)
- interface-map
- interfaces (Services Dynamic Flow Capture)
- interfaces (Video Monitoring)
- inet6-options
- ip-swap (RFC 2544 Benchmarking)
- ipv4-flow-table-size
- ipv4-template
- ipv6-flow-table-size
- ipv6-extended-attrib
- ipv6-template
- ivlan-cfi
- ivlan-id
- ivlan-priority
- jflow-log (Interfaces)
- jflow-log (Services)
- label-position
- license-server
- light
- local-dump
- logical-system
- managed
- match
- max-connection-duration
- max-duplicates
- max-packets-per-second
- maximum-age
- maximum-connections
- maximum-connections-per-client
- maximum-packet-length
- maximum-sessions
- maximum-sessions-per-connection
- media-loss-rate
- media-rate-variation
- message-rate-limit
- minimum-priority
- mode
- monitoring (Forwarding Options)
- monitoring
- moving-average-size
- mpls-flow-table-size
- mpls-ipv4-template
- mpls-ipvx-template
- mpls-template
- multiservice-options
- name-format
- next-hop
- next-hop
- next-hop-group (Forwarding Options)
- nexthop-learning
- no-remote-trace (Trace Options)
- no-syslog
- no-syslog-generation
- notification-targets
- observation-domain-id
- offload-type
- one-way-hardware-timestamp
- option-refresh-rate
- options-template-id
- outer-tag-protocol-id
- output (Accounting)
- output (Monitoring)
- output (Sampling)
- output-interface-index
- ovlan-cfi
- ovlan-id
- ovlan-priority
- owner
- packet-loss-priority
- packet-size (RFC 2544 Benchmarking)
- passive-monitor-mode
- password (Flow Collector File Servers)
- password (Transfer Log File Servers)
- peer-as-billing-template
- persistent-results
- pic-memory-threshold
- pop-all-labels
- port (Flow Monitoring)
- port (RPM)
- port (TWAMP)
- post-cli-implicit-firewall
- pre-rewrite-tos
- probe
- probe-count
- probe-interval
- probe-limit
- probe-server
- probe-type
- profiles (RFC 2544 Benchmarking)
- rate
- rate (Forwarding Options)
- receive-failure-threshold
- receive-options-packets
- receive-ttl-exceeded
- reflect-etype
- reflect-mode
- refresh-rate
- reflect-mode (RFC2544 Benchmarking)
- reflect-etype
- required-depth
- retry
- retry-delay
- rfc2544-benchmarking
- rfc6514-compliant-safi129 (Protocols BGP)
- routing-instance (RPM)
- routing-instance (cflowd)
- routing-instance-list
- routing-instances
- rpm (Interfaces)
- rpm (Services)
- rpm-scale
- run-length
- sample-once
- sampling (Forwarding Options)
- sampling (Interfaces)
- sampling-instance
- server (Junos OS)
- server (Junos OS Evolved)
- server-inactivity-timeout
- service-port
- service-type (RFC2544 Benchmarking)
- services-options
- shared-key
- size
- skip-arp-iteration
- slamon-services
- soft-limit
- soft-limit-clear
- source-address (Forwarding Options)
- source-address (Services)
- source-addresses
- source-id
- source-ip
- source-ipv4-address (RFC 2544 Benchmarking)
- source-mac-address (RFC2544 Benchmarking)
- source-udp-port
- stamp
- step-percent
- storm-control
- syslog
- target
- tcp
- tcp-keepcnt
- tcp-keepidle
- tcp-keepintvl
- template (Flow Monitoring IPFIX Version)
- template (Flow Monitoring Version 9)
- template (Forwarding Options)
- template (Forwarding Options Version IPFIX)
- template
- template-id
- template-profile (Flow Monitoring Logs for NAT)
- template-refresh-rate
- template-type
- templates
- test
- tests
- test-count
- test-finish-wait-duration
- test-interface
- test-interval
- test-iterator-duration
- test-iterator-pass-threshold
- test-name
- test-profile (RFC 2544 Benchmarking)
- test-session (Junos OS)
- test-session (Junos OS Evolved)
- test-type (RFC 2544 Benchmarking)
- thresholds (Junos OS)
- thresholds (Junos OS Evolved)
- timestamp-format
- traceoptions (Dynamic Flow Capture)
- traceoptions (Forwarding Options)
- traceoptions
- traceoptions (RPM)
- transfer
- transfer-log-archive
- transmit-failure-threshold
- traps
- ttl
- ttl (RPM probe)
- tunnel-observation
- twamp
- twamp-server
- trio-flow-offload
- udp
- udp-tcp-port-swap (RFC 2544 Benchmarking)
- unit
- use-extended-flow-memory
- username
- variant
- version
- version (Flow Monitoring Logs for NAT)
- version9
- version9 (Flow Monitoring)
- version-ipfix (Forwarding Options)
- version-ipfix (Services)
- video-monitoring
- vpls-flow-table-size
- vpls-template
- world-readable
- Operational Commands
- clear passive-monitoring statistics
- clear services accounting statistics inline-jflow
- clear services dynamic-flow-capture
- clear services flow-collector statistics
- clear services inline-monitoring statistics
- clear services monitoring twamp server control-connection
- clear services rpm twamp server connection
- clear services service-sets statistics jflow-log
- clear services video-monitoring mdi errors fpc-slot
- clear services video-monitoring mdi statistics fpc-slot
- request services flow-collector change-destination primary interface
- request services flow-collector change-destination secondary interface
- request services flow-collector test-file-transfer
- request services monitoring twamp client
- request services rpm twamp
- show forwarding-options next-hop-group
- show forwarding-options port-mirroring
- show interfaces (Dynamic Flow Capture)
- show interfaces (Flow Collector)
- show interfaces (Flow Monitoring)
- show passive-monitoring error
- show passive-monitoring flow
- show passive-monitoring memory
- show passive-monitoring status
- show passive-monitoring usage
- show services accounting aggregation
- show services accounting aggregation template
- show services accounting errors
- show services accounting flow
- show services accounting flow-detail
- show services accounting memory
- show services accounting packet-size-distribution
- show services accounting status
- show services accounting usage
- show services dynamic-flow-capture content-destination
- show services dynamic-flow-capture control-source
- show services dynamic-flow-capture statistics
- show services flow-collector file interface
- show services flow-collector input interface
- show services flow-collector interface
- show services inline-monitoring statistics fpc-slot
- show services monitoring rpm history-results
- show services monitoring rpm probe-results
- show services monitoring twamp client control-info
- show services monitoring twamp client history-results
- show services monitoring twamp client probe-results
- show services monitoring twamp client test-info
- show services monitoring twamp server control-info
- show services monitoring twamp server test-info
- show services rpm active-servers
- show services rpm history-results
- show services rpm probe-results
- show services rpm rfc2544-benchmarking
- show services rpm rfc2544-benchmarking test-id
- show services rpm twamp client connection
- show services rpm twamp client history-results
- show services rpm twamp client probe-results
- show services rpm twamp client session
- show services rpm twamp server connection
- show services rpm twamp server session
- show services service-sets statistics jflow-log
- show services video-monitoring mdi errors fpc-slot
- show services video-monitoring mdi flows fpc-slot
- show services video-monitoring mdi stats fpc-slot
- test services rpm rfc2544-benchmarking
- Configuration Statements
- Downloads
- Flow Monitoring and Flow Collection Services
Download This Guide
Related Documentation
- ACX Series
- Using the Junos OS CLI Comment Character # for Operational Mode Commands
- EX Series
- Using the Junos OS CLI Comment Character # for Operational Mode Commands
- J Series
- Using the Junos OS CLI Comment Character # for Operational Mode Commands
- M Series
- Using the Junos OS CLI Comment Character # for Operational Mode Commands
- MX Series
- Using the Junos OS CLI Comment Character # for Operational Mode Commands
- PTX Series
- Using the Junos OS CLI Comment Character # for Operational Mode Commands
- T Series
- Using the Junos OS CLI Comment Character # for Operational Mode Commands
- ACX, EX, J, M, MX, PTX, T Series
- Using the Junos OS CLI Comment Character # for Operational Mode Commands
This site is protected by hCaptcha and its Privacy Policy and Terms of Service apply.
English
English
Example: Using Comments in Junos OS Operational Mode Commands
The following example shows how to use comments in a file:
#Command 1: Show the router versionshow version#Command 2: Show all router interfacesshow interfaces terse
The following example shows how to copy and paste contents of a file into the CLI:
user@host> #Command 1: Show the router version user@host> show versionHostname: myhostModel: m5Junos Base OS boot [6.4-20040511.0]Junos Base OS Software Suite [6.4-20040511.0]Junos Kernel Software Suite [6.4-20040511.0]Junos Packet Forwarding Engine Support (M5/M10) [6.4-20040511.0] Junos Routing Software Suite [6.4-20040511.0] Junos Online Documentation [6.4-20040511.0] Junos Crypto Software Suite [6.4-20040511.0]user@host> # Command 2: Show all router interfaces user@host> show interfaces terseInterface Admin Link Proto Local Remotefe-0/0/0 up upfe-0/0/1 up downfe-0/0/2 up downmo-0/1/0 upmo-0/1/0.16383 up up inet 10.0.0.1 --> 10.0.0.17so-0/2/0 up upso-0/2/1 up updsc up upfxp0 up upfxp0.0 up up inet 192.168.70.62/21fxp1 up upfxp1.0 up up tnp 4gre up upipip up uplo0 up uplo0.0 up up inet 127.0.0.1 --> 0/0lo0.16385 up up inet
Related Documentation
- ACX Series
- Using the Junos OS CLI Comment Character # for Operational Mode Commands
- EX Series
- Using the Junos OS CLI Comment Character # for Operational Mode Commands
- J Series
- Using the Junos OS CLI Comment Character # for Operational Mode Commands
- M Series
- Using the Junos OS CLI Comment Character # for Operational Mode Commands
- MX Series
- Using the Junos OS CLI Comment Character # for Operational Mode Commands
- PTX Series
- Using the Junos OS CLI Comment Character # for Operational Mode Commands
- T Series
- Using the Junos OS CLI Comment Character # for Operational Mode Commands
- ACX, EX, J, M, MX, PTX, T Series
- Using the Junos OS CLI Comment Character # for Operational Mode Commands
Published: 2013-06-26
Download This Guide
Supported Platforms
Related Documentation
- ACX Series
- Using the Junos OS CLI Comment Character # for Operational Mode Commands
- EX Series
- Using the Junos OS CLI Comment Character # for Operational Mode Commands
- J Series
- Using the Junos OS CLI Comment Character # for Operational Mode Commands
- M Series
- Using the Junos OS CLI Comment Character # for Operational Mode Commands
- MX Series
- Using the Junos OS CLI Comment Character # for Operational Mode Commands
- PTX Series
- Using the Junos OS CLI Comment Character # for Operational Mode Commands
- T Series
- Using the Junos OS CLI Comment Character # for Operational Mode Commands
- ACX, EX, J, M, MX, PTX, T Series
- Using the Junos OS CLI Comment Character # for Operational Mode Commands
