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Monitoring the System
This section provides basic system commands that allow you to display information about the router’s state. The show configuration command, for example, allows you to display the router’s entire configuration.
baseline show-delta-counts
- Use to configure the system to always display statistics relative to the most recent appropriate baseline.
- The system collects many statistics during its operation. Various show commands are available to display these statistics. Baselining allows the user to identify a point in time relative to which such statistics can be reported.
- Typically, the optional delta keyword is used with show commands to specify that baselined statistics are to be shown. This command applies the “ delta” function implicitly.
- Examplehost1#baseline show-delta-counts
- Use the no version to have access to the total statistics.
- See baseline show-delta-counts.
show configuration
- Use to display the current (running) configuration of the router, a specified virtual router, a specified interface, or a specified category of router settings.
- See full description and examples in show configuration on show configuration.
- See show configuration.
show environment
- Use to display information about the router’s physical environment, such as voltage or temperature.
- Optionally, specify the all keyword to view both the system environment information and the detailed temperature status table, or specify the table keyword to view only the temperature status table.
- The system displays a message if the voltage or temperature exceeds normal operating limits.
- The system enters thermal protection mode if the temperature exceeds maximum operating limits or if the fan system on the E120 and E320 routers reports a critical error. For information about thermal protection mode on ERX7xx models, ERX14xx models, and the ERX310 router, see ERX Hardware Guide, Chapter 9, Troubleshooting. For information about thermal protection mode on the E120 and E320 routers, see E120 and E320 Hardware Guide, Chapter 9, Troubleshooting.
- Field descriptions
- chassis—Number of slots, midplane identifier, and
hardware revision number
- 14Slot—5 Gbps, 14 slot midplane
- midplaneId7Slot—5 Gbps, 7 slot midplane
- midplaneIdRx1400—10 Gbps ASIC compatible, 12 line module slots, 2 SRP module slots for ERX14xx models
- midplaneIdRx700—10 Gbps ASIC compatible, 5 line module slots, 2 SRP module slots for ERX7xx models
- 17 slot—100 or 320 Gbps, 17-slot midplane for the E120 router
- 11 slot—320 Gbps, 11-slot midplane for the E120 router
- fabric—Capacity and hardware revision of the fabric
- fans—Status of fans
- nvs—Status and capacity of NVS and amount of space used
- power—States of power feeds
- AC power—For ERX310 router only; states of power feeds
- srp redundancy—Availability of a redundant SRP module
- slots: cards missing or offline—Status of each slot
- online
- standby
- offline
- empty
- line redundancy—Number of redundancy groups installed
- width—Number of slots the redundant midplane covers
- spare—Slot that contains a spare line module
- primary—Slot that contains the primary line module
- fabric redundancy—Status of redundancy on the switch
fabric on the E120 and E320 routers
- ok
- none
- temperature—Status of the system temperature
- timing—Source of the timing signal
- primary—Type and status of the primary timing signal
- secondary—Type and status of the secondary timing signal
- tertiary—Type and status of the tertiary timing signal
- auto-upgrade—Status of the auto-upgrade parameter, which enables the system to revert to a higher-priority timing source after switching to a lower-priority timing source.
- system operational—Status of the system
- slot—Number of the slot in which the module resides
- type—Type of module in the slot on the E120 and E320 routers
- temperature—Temperature of the line module, SRP module, or SFM on the E120 and E320 routers
- processor temperature—Temperature of the line module or SRP module
- processor temperature status—Temperature condition
of the line module
- normal—Temperature is in normal range
- too hot—Module is too hot; system will go into thermal protection mode if the temperature of any module exceeds 80° C
- too cold—Module is too cold; system will go into thermal protection mode if the temperature of any module drops below –5° C
- IOA temperature—Temperature of the corresponding I/O module or IOA
- IOA temperature status—Temperature condition of
the corresponding I/O module or IOA
- normal—Temperature is in normal range
- too hot—Module is too hot; system will go into thermal protection mode if the temperature of any module exceeds 80° C
- too cold—Module is too cold; system will go into thermal protection mode if the temperature of any module drops below –5° C
- processor temperature ranges—Displays the temperature ranges for the line modules and SRP modules
- chassis—Number of slots, midplane identifier, and
hardware revision number
- IOA temperature ranges—Displays the temperature ranges for the I/O modules on ERX7xx models, ERX14xx models, and the ERX310 router or IOAs on the E120 and E320 routers
- fabric temperature ranges—Displays the temperature ranges for the SRP modules and SFMs on the E120 and E320 routers
- Example 1—Displays the environment of an ERX7xx
model
host1#show environment all chassis: 14 slot (id 0x3, rev. 0x0) fabric: 5 Gbps (rev. 1) fans: ok nvs: ok (81MB flash disk, 54% full) power: A ok, B not present AC power: A not present, B not present srp redundancy: none *** slots: cards missing or offline online: 6 9 standby: 8 offline: 2 empty: 0 1 3 4 5 7 10 11 12 13 line redundancy: 1 redundancy group(s) width 6, spare 8, primary 9 temperature: ok timing: primary primary: internal SC oscillator (ok) secondary: internal SC oscillator (ok) tertiary: internal SC oscillator (ok) auto-upgrade enabled *** system operational: noprocessor processor IOA IOA temperature temperature temperature temperature slot (10C - 70C) status (10C - 70C) status ---- ----------- ----------- ----------- ----------- 0 31 normal 30 normal 3 31 normal 30 normal 5 31 normal 30 normal 7 31 normal 30 normal processor temperature ranges below -5C is too cold above 80C is too hot low temperature warning below 10C high temperature warning above 70C IOA temperature ranges below -5C is too cold above 80C is too hot low temperature warning below 10C high temperature warning above 70C - Example 2—Displays the environment of an E320 router
host1#show environment all
chassis: 17 slot (id 0x3, rev. 0x0) fabric: 100 Gbps (rev. 1) fans: fanSubsystemOk nvs: ok (977MB flash disk, 29% full), matches running config power: A ok, B not present srp redundancy: mode is file-system-synchronization auto-sync enabled, switch-on-error enabled status unknown *** slots: cards missing or offline online: 0 6 13 offline: 7 empty: 1 2 3 4 5 11 12 14 15 16 fabric slots: ok online: 6 7 8 9 10 line redundancy: none temperature: ok timing: primary primary: internal SC oscillator (ok) secondary: internal SC oscillator (ok) tertiary: internal SC oscillator (ok) auto-upgrade enabled fabric redundancy: ok*** system operational: no
temperature temperature slot type (10C - 70C) status ---- ------------------ ----------- ----------- 0 LM-4 42 normal 0/1 GE-4 IOA 23 normal 6 SRP-100 32 normal 6 SFM-100 32 normal 6/0 SRP IOA 25 normal 7 SFM-100 30 normal 8 SFM-100 23 normal 9 SFM-100 25 normal 10 SFM-100 24 normal 13 LM-4 24 normal 13/0 GE-4 IOA 23 normal
fabric temperature ranges below -5C is too cold above 79C is too hot low temperature warning below 10C high temperature warning above 70C processor temperature ranges below -5C is too cold above 79C is too hot low temperature warning below 10C high temperature warning above 70C IOA temperature ranges below -5C is too cold above 79C is too hot low temperature warning below 10C high temperature warning above 70C - Example 3—Displays the environment on an E120 router
host1#show environment all chassis: 11 slot (id 0x8, rev. 0x0) fabric: 120 Gbps (rev. 1) fans: fanSubsystemOk nvs: ok (998MB flash disk, 14% full), matches running config power: A ok, B not present srp redundancy: mode is file-system-synchronization auto-sync enabled, switch-on-error enabled in sync slots: ok online: 1 2 6 standby: 7 empty: 0 3 5 fabric slots: ok online: 6 7 8 9 10 line redundancy: none temperature: ok timing: primary primary: internal SC oscillator (ok) secondary: internal SC oscillator (ok) tertiary: internal SC oscillator (ok) auto-upgrade enabled fabric redundancy: oksystem operational: yes
temperature temperature slot type (10C - 56C) status ---- -------- ----------- ----------- 1 LM-10 37 normal 1/1 GE-8 IOA 35 normal 2 LM-10 37 normal 2/1 GE-8 IOA 39 normal 4 LM-10A-ADV 37 normal 6 SRP-120 40 normal 6 SFM-120 40 normal 6/0 SRP IOA 30 normal 7 SRP-120 41 normal 7 SFM-120 41 normal 8 SFM-120 31 normal 9 SFM-120 32 normal 10 SFM-120 32 normal
fabric temperature ranges below -5C is too cold above 79C is too hot low temperature warning below 10C high temperature warning above 56C processor temperature ranges below -5C is too cold above 79C is too hot low temperature warning below 10C high temperature warning above 51C IOA temperature ranges below -5C is too cold above 79C is too hot low temperature warning below 10C high temperature warning above 56C - Example 4—Displays the temperature status table
on an E120 router
host1#show environment table
temperature temperature slot type (10C - 56C) status ---- -------- ----------- ----------- 1 LM-10 37 normal 1/1 GE-8 IOA 35 normal 2 LM-10 37 normal 2/1 GE-8 IOA 39 normal 4 LM-10A-ADV 37 normal 6 SRP-120 40 normal 6 SFM-120 40 normal 6/0 SRP IOA 30 normal 7 SRP-120 41 normal 7 SFM-120 41 normal 8 SFM-120 31 normal 9 SFM-120 32 normal 10 SFM-120 32 normal
fabric temperature ranges below -5C is too cold above 79C is too hot low temperature warning below 10C high temperature warning above 56C processor temperature ranges below -5C is too cold above 79C is too hot low temperature warning below 10C high temperature warning above 51C IOA temperature ranges below -5C is too cold above 79C is too hot low temperature warning below 10C high temperature warning above 56C - See show environment.
show fabric weights
- Use to display multicast-to-unicast ratio for the router switch fabric.
- Field descriptions
- multicast—Ratio value of multicast bandwidth
- unicast—Ratio value of unicast bandwidth
- Example
host1#show fabric weights
Fabric scheduler weights: multicast = 1 , unicast = 8
- See show fabric weights.
show hosts
- Use to display a list of configured network servers.
- Field descriptions
- Static Host Table—Information about the connected
static hosts
- name—Name of the host
- ip address—IPv4 or IPv6 address of the host
- type of host—Type of host; for example, ftp means an FTP server
- NFS Host Table—Information about connected NFS servers
- name—Name of the NFS server
- userid—Identity for the user
- groupid—Identity for the group
- Static Host Table—Information about the connected
static hosts
- Example
host1#show hosts Static Host Table ----------------- name ip address type ---- ----------- ---- host1 10.2.0.124 ftp hFtp 10.5.6.7 ftp hTftp 10.5.6.7 tftp Static Host Table ----------------- name ip address type ----- ------------------------------------- ---- george 1111:2222:3333:4444:5555:6666:7777:8888 ftp dsw 10.10.121.42 ftp deab 10.6.128.12 ftp mFtp 10.10.121.11 ftp mTftp 10.10.121.11 tftp mary 10.10.121.11 ftp sd 10.10.121.80 ftpNFS Host Table -------------- name userid groupid ---- ------ ------- deab 2001 100 - See show hosts.
show memory-management protection
- Use to display information about memory management protection of the router.
- You can use this command only in the support mode and it is not user configurable.
- Field descriptions
- Mgr summary—Information about the OS Memory Manager
memory protection mode. There are four modes of this protection:
- 0 (disable)—Disable all memory protection
- 1 (basic)—no app-level protection
- 2 (audit)—violations are logged but non-fatal
- 3 (fault)—violations are fatal
- stacks excluded—States if the stacks are excluded
- allowed faults—States the different faults allowed for this mode (applicable only for mode 2 and 3)
- error conditions—Information about the several error counters and their values
- Mmu driver summary—Information about the page size, total memory mapped, and the highest mapped address
- Page table summary—Information about the page table size along with the address and entry errors if any.
- Context stats—Information about the memory utilization of context switching stack (applicable only for mode 2 and 3)
- Fault summary—Information about the fault counters (applicable only for mode 2 and 3)
- Rule stats—Statistics related to the access policies of the memory area
- Mgr summary—Information about the OS Memory Manager
memory protection mode. There are four modes of this protection:
- Example
host1#show memory-management protection Mgr summary: memory protection mode: 2 (app-level protection, audit only) stacks excluded: true allowed faults: interrupt: yes kernel: yes shell: yes vxWorks: yes OsTask: yes error conditions: fault ring full 0 reversion queue full 0 memProtLock count: 1 maxReversionQueueDepth: 0 context switch stack: 0xaa2646c Mmu driver summary: page size: 4096 total memory mapped: 0x80436000 (2052MB, 525366 pages) highest mapped address: 0xffffffff Page table summary: size: 8388608 (2^23) bytes 1048576 entries 131072 groups address: 0x2c000000 findEntry errors: 0 Context stats: current 145 high-water 149 accum 244 (0 Hz) Fault summary: faulter counts: interrupt 0 kernel 0 shell 0 vxWorks 0 OsTask 0 normal 0 Rule stats: current 256 high-water 258 accum 28 (0 Hz) partialPagesIgnored 0 partialPagesExtended 0 - See show memory-management protection.
show processes cpu
- Use to display the CPU use.
- Field descriptions
- task name—Name of the process
- times invoked—Number of times the process has been invoked
- invocations per second—Frequency of the process invocation
- total running time (msec)—Time the process has been running
- percent running time—Percentage of the total running time attributable to this process
- average time per invocation (usec)—Average number of microseconds per invocation of this process
- 5 second utilization (%)—CPU use by the process for the last 5 seconds
- 1 minute utilization (%)—CPU use by the process for the last minute
- 5 minute utilization (%)—CPU use by the process for the last 5 minutes
- Example
host1# show processes cpu Process Statistics ------------------ total invocations running percent times per time running task name invoked second (msec) time --------------------- ------- ----------- -------- ------- aaaAtm1483Config 1 0 0 0% aaaServer 52 0 260 0% agent1 399 0 3600 0% ar1EthHelp 362856 4 590 0% . . . templateMgr 48 0 540 0% timerd 2346566 32 0 0% ~GONE~ 405202 5 184700 0% ~IDLE~ 0 0 360 0% ~INTERRUPT~ 8840490 121 51050 0% average time 5 1 5 per second minute minute invocation utilization utilization utilization task name (usec) (%) (%) (%) ------------------- ---------- ----------- ----------- ----------- aaaAtm1483Config 0 0 0 0 aaaServer 5000 0 0 0 agent1 9022 0 0 0 ar1EthHelp 1 0 0 0 ar1InternalNetwork 19 0 0 0 . . . ~IDLE~ --- 0 0 0 ~INTERRUPT~ 5 0 0 0 - See show processes cpu.
show processes memory
- Use to display the amount of memory-related resources used by system processes. Because the router allocates memory to system processes in chunks, issuing this command performs a cleanup process to gather unused, available memory for reallocation.
- You can display different output variations by using the application, slot, and virtual-router keywords. In addition, you can combine these keywords in specific ways to display information combinations of application, slot, and virtual router.
- The appearance of parentheses in the output is significant. The parentheses indicate “ partial accountability” of the current memory size. In other words, the values are accurate for the row in which they appear, but the memory value used for calculating the sum total for the column may be smaller than the value displayed. This can result in the sum total for the “ current size” column not matching the sum of the values that appear within the column. This disparity can occur under shared memory conditions where a portion of the memory size for one or more of the virtual routers may be accounted for elsewhere, resulting in a lower column total.
- Field descriptions
- Memory usage summary—Statistical information about the memory usage information being displayed
- application—Name of the application being viewed (if applicable); asterisk (*) if no application is specified
- router—Name of the virtual router being viewed (if applicable); asterisk (*) if no virtual router is specified
- app—Application to which the statistics information applies
- rtr—Virtual router to which the statistics information applies
- vrf—Virtual routing and forwarding instance to which the statistics information applies
- _unassoc_—Special virtual router output category that summarizes all memory that is not currently associated with any particular virtual router
- current size—Amount of memory reserved by the listed application or virtual router
- utilization—Percentage of reserved memory currently used for the listed application or router
- headroom—Amount of memory overage available to each listed application or virtual router (if needed); 100% indicates an unlimited headroom (that is, no memory limits are set for the application or virtual router)
- Example 1
host1#show processes memory application
*** Memory usage summary (by application, 37 total) *** application: * router: *current app size utilization headroom ---------- ------- ----------- -------- aaa 98K 3% 100% bgp 90K 28% 100% bridge 1M 4% 100% cli 3K 8% 100% dcm 64K 7% 100% dhcp 644K 0% 100% dns 4K 6% 100% dvmrp 36K 0% 100% ethernet 3K 75% 100% forwarding 20K 50% 100% gplaan 52K 0% 100% igmp 1K 0% 100% . .
- Example 2
host1#show processes memory virtual-router
*** Memory usage summary (by router, 4 total) *** application: * router: *current rtr size utilization headroom --------- ------- ----------- -------- _unassoc_ (40M) 7% 99% default (339K) 23% 100% test (366K) 23% 100% vr5 (327K) 18% 100% --------- ------- ----------- -------- Total: 41M 7% 99%
- Example 3
host1#show processes memory virtual-router vr5 application ip
*** Memory usage summary (by VRF) *** application: ip router: vr5current vrf size utilization headroom --- ------- ----------- -------- vr5 (19K) 48% 100%
- See show processes memory.
show reboot-history
- Use to display the history of system and module resets.
- You can display the current reboot.hty file or a saved reboot history file.
- If you have a redundant router, it can be convenient to copy the redundant module’s reboot.hty file to another filename for viewing with this command.
- Field descriptions
- Entry—Number of entry in the reboot history; numbers range from lowest (most recent reset) to highest (oldest reset)
- time of reset—Timestamp for reset
- run state—State of system at reset
- image type—Type of image running when the record
is written
- boot—Module is running the boot file
- diagnostics—Module is running the diagnostics file
- application—Module is running the software file
- location—Slot that reset; location is offset by two slots at slot 7 and above (the SRP module in slot 6 shows location as slot 7, the SRP module in slot 7 shows location as slot 9, and slots 8-13 show location as 10-15, respectively).
- build date—Build date of software version
- reset type—Cause of reset
- Example
host1#show reboot-history *** Entry 1 *** time of reset: TUE APR 10 2001 20:25:59 UTC run state: unknown image type: diagnostics location: slot (7) build date: 0x3abf4337 MON MAR 26 2001 13:25:11 UTC reset type: user reboot, task "scheduler", reason "not specified" *** Entry 2 *** time of reset: TUE APR 10 2001 20:25:44 UTC run state: unknown image type: diagnostics location: slot (8) build date: 0x3abf5d5f MON MAR 26 2001 15:16:47 UTC reset type: user reboot, task "scheduler", reason "not specified" *** Entry 3 *** time of reset: TUE APR 10 2001 20:25:03 UTC run state: unknown image type: diagnostics location: slot (4) build date: 0x3abf3ee0 MON MAR 26 2001 13:06:40 UTC reset type: user reboot, task "scheduler", reason "not specified"
- See show reboot-history.
show running-configuration
- Use to display the configuration currently running on the router, a specified virtual router, a specified interface, or a specified category of router settings.
- See full description and examples in show running-configuration.
- See show running-configuration.
show version
- Use to display the armed and running releases for every slot in the router and the operational status of the SRP module and line modules for all E Series routers.
- Use the all keyword with the E120 and E320 routers to display the operational status of the IOAs.
- Field descriptions
- Model identification
- Copyright—Copyright details for the system software
- System Release—Filename, version, and date of the system software currently running on the router
- System running for—How long the router has been running (time elapsed since the last boot of the router), date and time of last boot; does not reflect the uptime of a particular SRP module
- slot—Physical slot that contains the line module
- state—Status of the line module
- booting—Line module is booting
- disabled (assessing)—Router is evaluating the status of this line module
- disabled (admin)—Line module disabled by slot disable command
- disabled (cfg error)—Use of the line module in this slot violates the permitted configuration for the router. For example, the fabric cannot supply sufficient bandwidth to the line module in this position.
- disabled (image error)—Software for this line module is missing or corrupted
- disabled (mismatch)—Line module in this slot is a different type from that specified in the software. Correct the condition by inserting the original module, or use the slot accept command to find information about the new module.
- hardware error—Line module has a hardware fault
- inactive—On ERX routers, either the I/O module is not present or the primary line module is fully booted and ready to resume operation. In the latter case, the standby is currently providing services. On E120 and E320 routers, one of the following conditions exists: the primary line module has no IOAs; or the primary line module has IOAs, but they have failed diagnostics; or the standby line module has taken over for the primary line module, and has control of the IOAs.
- initializing—Transitional state before the line module proceeds to the online, standby, or inactive state; diagnostics are complete, module is initializing software
- online—Line module is operating
- not present—Line module configured for this slot is missing
- not responding—Line module has a hardware or ROM problem
- standby—Spare line module or SRP module is fully booted and ready to operate if the primary line module or active SRP module fails
- unknown—Transitional state while the SRP is initializing
- type—Kind of module; an “ e” at the end of an SRP module type (for example, SRP-5Ge) indicates that the module includes error checking code (ECC)
- admin—Status of the slot in the software
- enabled—Slot is enabled
- disabled—Slot is disabled
- spare—Line module is a spare for line module redundancy
- running release—Software that is running on the line module
- slot uptime—Length of time for which the module has been operational; a value of --- indicates that the module is not available.
- The following symbols and notices may be displayed at
the end of the report:
- # This release is a result of a subsystem override
- * This release is a result of a “ boot slot” override
- # The running or armed release on the slot is the same as the armed release for a subsystem. A subsystem is all the line modules of one type, such as OC3.
- * This release reflects whichever release the router is armed with at startup.
- Example 1—Displays the version of an ERX7xx model
host1#show version
Juniper Edge Routing Switch ERX-700 Copyright (c) 1999-2005 Juniper Networks, Inc. All rights reserved. System Release: erx_7-1-0.rel Partial Version: 7.1.0 [BuildId 4518] (December 21, 2005 11:23) System running for: 25 days, 3 hours, 31 minutes, 5 seconds (since THU DEC 22 2005 11:36:41 UTC)slot state type admin spare running release slot uptime ---- ------- ---------- ------- ----- ------------------ -------------- 0 standby SRP-10Ge enabled --- erx_7-1-0.rel --- 1 online SRP-10Ge enabled --- erx_7-1-0.rel 25d03h:28m:49s 2 --- --- --- --- --- --- 3 --- --- --- --- --- --- 4 online CT3-12 enabled --- erx_7-1-0.rel 25d03h:24m:46s 5 online OC3-4A-APS enabled --- erx_7-1-0.rel 25d03h:24m:22s 6 online GE enabled --- erx_7-1-0.rel 25d03h:24m:44s
- Example 2—Displays the version of an E320 router
host1# show version Juniper Edge Routing Switch E320 Copyright (c) 1999-2005 Juniper Networks, Inc. All rights reserved. System Release: 7b12.rel Version: 7.0.0 [BuildId 3468] (April 29, 2005 10:46) System running for: 2 days, 19 hours, 16 minutes, 17 seconds (since FRI MAY 13 2005 15:10:54 UTC) running slot state type admin spare release slot uptime ---- ------- ------- ------- ----- --------- ------------- 0 online LM-4 enabled --- 7b12.rel 2d19h:13m:24s 1 --- --- --- --- --- --- 2 online LM-4 enabled --- 7b12.rel 2d19h:13m:19s 3 --- --- --- --- --- --- 4 --- --- --- --- --- --- 5 --- --- --- --- --- --- 6 online SRP-100 enabled --- 7b12.rel 2d19h:14m:48s 6 online SFM-100 enabled --- --- 2d19h:14m:47s 7 standby SRP-100 enabled --- 7b12.rel --- 7 online SFM-100 enabled --- --- 2d19h:14m:42s 8 online SFM-100 enabled --- --- 2d19h:14m:44s 9 online SFM-100 enabled --- --- 2d19h:14m:39s 10 online SFM-100 enabled --- --- 2d19h:14m:40s 11 --- --- --- --- --- --- 12 online LM-4 enabled --- 7b12.rel 2d19h:13m:13s 13 --- --- --- --- --- --- 14 online LM-4 enabled --- 7b12.rel 2d19h:13m:08s 15 --- --- --- --- --- --- 16 --- --- --- --- --- --- - Example 3—Displays the version of an E320 router
using the all keyword
host1# show version all Juniper Edge Routing Switch E320 Copyright (c) 1999-2006 Juniper Networks, Inc. All rights reserved. System Release: 7-3-0.rel Version: 7.3.0 [BuildId 5759] (July 27, 2006 10:40) System running for: 3 days, 1 hour, 37 minutes, 4 seconds (since FRI JUL 28 2006 09:08:14 UTC) running slot state type admin spare release slot uptime ---- ------- ------------------- ------- ----- ------------- ------------- 0 online LM-4 enabled --- 7-3-0.rel 3d01h:29m:01s 0/0 present 10GE IOA enabled --- --- 0/1 --- --- --- --- --- --- 1 online LM-4 enabled --- 7-3-0b.rel 3d01h:26m:36s 1/0 present OC12/STM4-2 POS IOA enabled --- --- 1/1 --- --- --- --- --- --- 2 online LM-10 Uplink enabled --- 7-3-0.rel 2d18h:27m:46s 2/0 present 10GE PR IOA enabled --- --- 2/1 --- --- --- --- --- --- 3 online LM-4 enabled --- 7-3-0.rel 2d19h:03m:53s 3/0 present 10GE IOA enabled --- --- 3/1 --- --- --- --- --- --- 4 online LM-10 Uplink enabled --- 7-3-0.rel 3d01h:24m:39s 4/0 present 10GE PR IOA enabled --- --- running slot state type admin spare release slot uptime ---- ------- ------------------- ------- ----- ------------- ------------- 4/1 --- --- --- --- --- --- 5 --- --- --- --- --- --- 5/0 --- --- --- --- --- --- 5/1 --- --- --- --- --- --- 6 standby SRP-320 enabled --- 7-3-0.rel --- 6 online SFM-320 enabled --- --- 3d01h:33m:48s 7 online SRP-320 enabled --- 7-3-0.rel 3d01h:34m:04s 7 online SFM-320 enabled --- --- 3d01h:33m:59s 7/0 present SRP IOA enabled --- --- 8 online SFM-320 enabled --- --- 3d01h:34m:03s 9 online SFM-320 enabled --- --- 3d01h:33m:50s 10 online SFM-320 enabled --- --- 3d01h:33m:53s 11 online LM-4 enabled --- 7-3-0.rel 3d01h:26m:43s 11/0 present OC12/STM4-2 ATM IOA enabled --- --- 11/1 --- --- --- --- --- --- 12 online LM-4 enabled --- 7-3-0.rel 2d18h:26m:59s 12/0 present GE-8 IOA enabled --- --- 12/1 present GE-8 IOA enabled --- --- 13 online LM-4 enabled --- 7-3-0.rel 2d18h:17m:34s 13/0 present GE-4 IOA enabled --- --- 13/1 --- --- --- --- --- --- 14 online LM-4 enabled --- 7-3-0.rel 3d01h:27m:06s 14/0 --- --- --- --- --- --- 14/1 present OC12/STM4-2 POS IOA enabled --- --- 15 online LM-4 enabled --- 7-3-0.rel 3d01h:26m:28s 15/0 --- --- --- --- --- --- 15/1 present OC12/STM4-2 ATM IOA enabled --- --- 16 online LM-4 enabled --- 7-3-0.rel 3d01h:25m:17s 16/0 present OC3/STM1-8 ATM IOA enabled --- --- 16/1 present OC3/STM1-8 ATM IOA enabled --- --- - Example 4—Displays the version of an E120 router
host1# show version Juniper Edge Routing Switch E120 Copyright (c) 1999-2007 Juniper Networks, Inc. All rights reserved. System Release: 8-2-0b0-9.rel Version: 8.2.0 beta-0.9 [BuildId 7030] (April 2, 2007 13:04) System running for: 1 day, 8 hours, 38 minutes, 0 seconds (since MON APR 09 2007 05:57:30 UTC) running slot state type admin spare release slot uptime ---- ------- ------- ------- ----- ------------- ------------- 0 --- --- --- --- --- --- 1 online LM-10 enabled --- 8-2-0b0-9.rel 1d08h:32m:29s 2 online LM-10 enabled --- 8-2-0b0-9.rel 1d08h:32m:24s 3 --- --- --- --- --- --- 4 --- --- --- --- --- --- 5 --- --- --- --- --- --- 6 online SRP-120 enabled --- 8-2-0b0-9.rel 1d08h:34m:46s 6 online SFM-120 enabled --- --- 1d08h:34m:45s 7 standby SRP-120 enabled --- 8-2-0b0-9.rel --- 7 online SFM-120 enabled --- --- 1d08h:34m:35s 8 online SFM-120 enabled --- --- 1d07h:31m:04s 9 online SFM-120 enabled --- --- 1d08h:34m:26s 10 online SFM-120 enabled --- --- 1d08h:34m:30s - Example 5—Displays the version of an E120 router
using the all keyword
host1# show version all Juniper Edge Routing Switch E120 Copyright (c) 1999-2007 Juniper Networks, Inc. All rights reserved. System Release: 8-2-0b0-9.rel Version: 8.2.0 beta-0.9 [BuildId 7030] (April 2, 2007 13:04) System running for: 1 day, 8 hours, 38 minutes, 6 seconds (since MON APR 09 2007 05:57:30 UTC) running slot state type admin spare release slot uptime ---- ------- -------- ------- ----- ------------- ------------- 0 --- --- --- --- --- --- 0/0 --- --- --- --- --- --- 0/1 --- --- --- --- --- --- 1 online LM-10 enabled --- 8-2-0b0-9.rel 1d08h:32m:35s 1/0 --- --- --- --- --- --- 1/1 present GE-8 IOA enabled --- --- 2 online LM-10 enabled --- 8-2-0b0-9.rel 1d08h:32m:29s 2/0 --- --- --- --- --- --- 2/1 present GE-8 IOA enabled --- --- 3 --- --- --- --- --- --- 3/0 --- --- --- --- --- --- 3/1 --- --- --- --- --- --- 4 online LM—10S enabled --- 10-1-0b1-6-A.rel 2d19h:29m:47s 4/0 --- --- --- --- --- --- 4/1 present GE-8 IOA enabled --- --- --- 5 --- --- --- --- --- --- 5/0 --- --- --- --- --- --- 5/1 --- --- --- --- --- --- 6 online SRP-120 enabled --- 8-2-0b0-9.rel 1d08h:34m:51s 6 online SFM-120 enabled --- --- 1d08h:34m:51s 6/0 present SRP IOA enabled --- --- 7 standby SRP-120 enabled --- 8-2-0b0-9.rel --- 7 online SFM-120 enabled --- --- 1d08h:34m:41s 8 online SFM-120 enabled --- --- 1d07h:31m:09s 9 online SFM-120 enabled --- --- 1d08h:34m:32s 10 online SFM-120 enabled --- --- 1d08h:34m:36s - See show version.
