To display the
current redundancy status, use the
show
redundancy command in user EXEC or privileged EXEC
mode.
Cisco
uBR10012 Router
show
redundancy
[ clients | counters | history | states ]
Cisco cBR Series Converged
Broadband Router
show
redundancy
[ application | clients | config-sync | counters | domain | history | ibd-sync-history | lincecard | rii | states | switchover
history | trace
history ]
Syntax Description
application
|
(Optional on
Cisco cBR router)
Displays box to box application information
|
clients
|
(Optional) Displays the Redundancy Facility (RF) client list.
|
counters
|
(Optional) Displays RF operational counters.
|
domain
|
(Optional on
Cisco cBR router)
Specifies the RF domain.
|
history
|
(Optional) Summarizes RF history.
|
idb-sync-history
|
(Optional on
Cisco cBR router)
Displays the Redundancy Facility (RF) IDB sync history
|
states
|
(Optional) Displays RF states for active and standby modules.
|
switchover
history
|
(Optional on
Cisco cBR router)
Displays the redundancy Facility (RF) switchover history.
|
Command Modes
User EXEC (>)
Privileged EXEC (#)
Command History
Release
|
Modification
|
12.2(4)XF1
|
This
command was introduced for the Cisco uBR10012 router.
|
12.2(11)BC3
|
The
clients,
counters,
history, and
states option
were added, and the default display was enhanced to show the version of Cisco
IOS software that is running on the standby PRE module.
|
12.2(15)BC2
|
The
default display includes additional information about the history of
switchovers, as well as a stack trace from the secondary PRE module’s ROMMON
for when it last crashed, if ever.
|
12.2(33)SCA
|
This
command was integrated into Cisco IOS Release 12.2(33)SCA.
|
12.2(44)SQ
|
This
command was integrated into Cisco IOS Release 12.2(44)SQ. Support for the Cisco
RF Gateway 10 was added.
|
IOS-XE
3.15.0S
|
This
command was implemented on the
Cisco cBR Series Converged
Broadband Router. The
application,
domain,
idb-sync-history, and
switchover
keywords were added.
|
Usage Guidelines
The
show
redundancy command shows whether the PRE A slot or
PRE B slot contains the active (primary) Performance Routing Engine (PRE1)
module, the status of the standby (secondary) PRE1 module, and the values for
the standby PRE1 module’s boot variables and configuration register. In Cisco
IOS Release 12.2(13)BC1 and later releases, it also shows the version of Cisco
IOS software that is running on the standby PRE module.
Note |
The
show
redundancy command always shows the correct
location of the active PRE1 module. The other PRE slot will always be marked as
Secondary,
even if a standby PRE1 module is not installed.
|
Cisco RF Gateway 10
The
show
redundancy command shows whether the Supervisor A
slot or Supervisor B slot contains the active (primary) Supervisor card, the
status of the standby (secondary) Supervisor card, and the values for the
standby Supervisor card’s boot variables and configuration register.
Note |
The
show
redundancy command always shows the correct
location of the active Supervisor card. The other Supervisor slot will always
be marked as
secondary,
even if a standby Supervisor card is not installed.
|
Cisco cBR Series Converged
Broadband Router
The
Cisco cBR Series Converged
Broadband Router
supports redundancy of
Supervisor
card and line cards. The
show
redundancy command shows whether the
Supervisor
A slot or
Supervisor
B slot contains the active (primary)
Supervisor
card, the status of the standby (secondary)
Supervisor
card, and the values for the standby
Supervisor
card’s parameters
Examples
This section
contains examples of typical displays for each of the options that are
available for the
show
redundancy
command.
Examples
The following
example shows a typical display from the
show redundancy command in Cisco IOS Release
12.2(15)BC2 and later releases:
PRE A : Secondary
PRE B (This PRE) : Primary
Uptime since this PRE switched to active : 5 minutes
Total system uptime from reload : 37 minutes
Switchovers this system has experienced : 5
Secondary failures since this PRE active : 0
The secondary PRE has been up for : 1 minute
The reason for last switchover: ACTIVE RP CRASHED
Secondary PRE information....
Secondary is up.
Secondary has 524288K bytes of memory.
Secondary BOOT variable = slot0:ubr10k-k8p6-mz.122-11.CY,12;
Secondary CONFIG_FILE variable = bootflash:030227.config
Secondary BOOTLDR variable =
Secondary Configuration register is 0x0
Secondary version:
Cisco Internetwork Operating System Software
IOS (tm) 10000 Software (UBR10K-K8P6-M), Experimental Version 12.2(15)BC2
Copyright (c) 1986-2004 by cisco Systems, Inc.
Compiled Mon 01-Mar-04 12:01 by anxrana
Primary version:
Cisco Internetwork Operating System Software
IOS (tm) 10000 Software (UBR10K-K8P6-M), Released Version 12.2(15)BC2
Copyright (c) 1986-2004 by cisco Systems, Inc.
Compiled Mon 01-Mar-04 12:01 by anxrana
Redundant RP last failure info as reported by Standby:
bus error at PC 0x605C8B24, address 0xFF012345
10000 Software (UBR10K-K8P6-M), Experimental Version 12.3(20040211:230003) [narana-geo_cable 123]
Compiled Mon 01-Mar-04 12:01 by anxrana
Image text-base: 0x60008CB8, data-base: 0x61F80000
Stack trace from system failure:
FP: 0x7234C8C8, RA: 0x605C8B24
FP: 0x7234CA30, RA: 0x604940F4
FP: 0x7234CA90, RA: 0x60151FF0
FP: 0x7234CAB0, RA: 0x604A5554
FP: 0x7234CB40, RA: 0x6051F638
FP: 0x7234CB58, RA: 0x6051F61C
The following
example shows a typical display from the
show
redundancy command in Cisco IOS Release
12.2(15)BC1 and earlier releases. The active PRE1 module is in PRE slot A, and
the standby PRE1 module is in PRE slot B:
Router# show redundancy
PRE A (This PRE) : Primary
PRE B : Secondary
Redundancy state is REDUNDANCY_PEERSECONDARY_INITED
Secondary PRE information....
Secondary is up.
Secondary has 524288K bytes of memory.
Secondary BOOT variable = bootflash:ubr10k-k8p6-mz
Secondary CONFIG_FILE variable =
Secondary BOOTLDR variable = bootflash:c10k-eboot-mz
Secondary Configuration register is 0x2102
Secondary version:
Cisco Internetwork Operating System Software
IOS (tm) 10000 Software (UBR10K-K8P6-M), Released Version 12.2(11)BC3
Copyright (c) 1986-2003 by cisco Systems, Inc.
Compiled Mon 03-Mar-03 11:28 by texbnt
Router#
The following
example shows the same display but after a switchover has occurred. The
show
redundancy command now shows that the active
(primary) PRE has changed slots (in this case, moving from slot A to slot B):
Router# show redundancy
PRE A : Secondary
PRE B (This PRE) : Primary
Redundancy state is REDUNDANCY_PEERSECONDARY_INITED
Secondary PRE information....
Secondary is up.
Secondary BOOT variable = bootflash:ubr10k-k8p6-mz
Secondary CONFIG_FILE variable =
Secondary BOOTLDR variable = bootflash:c10k-eboot-mz
Secondary Configuration register is 0x2
Secondary version:
Cisco Internetwork Operating System Software
IOS (tm) 10000 Software (UBR10K-K8P6-M), Released Version 12.2(13)BC2
Copyright (c) 1986-2003 by cisco Systems, Inc.
Compiled 26 08-Feb-03 11:28 by texbnt
Router#
The following
example shows a typical display when the standby PRE1 module is not installed
or is not operational. The standby (secondary) PRE1 module is shown as not up,
and its boot variables and configuration register are not shown.
Router# show redundancy
PRE A (This PRE) : Primary
PRE B : Secondary
Redundancy state is REDUNDANCY_PEERSECONDARY_NONOPERATIONAL
Secondary PRE information....
Secondary PRE is not up
Router#
This example
shows the output of the
show
redundancy command on the
Cisco cBR router:
Router#show redundancy
Redundant System Information :
------------------------------
Available system uptime = 1 day, 17 hours, 50 minutes
Switchovers system experienced = 0
Standby failures = 0
Last switchover reason = none
Hardware Mode = Simplex
Configured Redundancy Mode = sso
Operating Redundancy Mode = Non-redundant
Maintenance Mode = Disabled
Communications = Down Reason: Failure
Current Processor Information :
-------------------------------
Active Location = slot 4
Current Software state = ACTIVE
Uptime in current state = 1 day, 17 hours, 50 minutes
Image Version = Cisco IOS Software, cBR Software (X86_64_LINUX_IOSD-UNIVERSALK9-M)
, Experimental Version 15.5(20150504:162424) [mcp_docsis31_ds3_ios-japatel-mcp_docsis31_ds3_ios_0504
-ds3-20 105]
Copyright (c) 1986-2015 by Cisco Systems, Inc.
Compiled Mon 04-May-15 14:24 by japatel
BOOT =
CONFIG_FILE =
Configuration register = 0x0
Peer (slot: 5) information is not available because it is in 'DISABLED' state
Router#
Examples
The following
example shows a typical display for the
show redundancy clients
command:
Router# show redundancy clients
clientID = 0 clientSeq = 0 RF_INTERNAL_MSG
clientID = 25 clientSeq = 130 CHKPT RF
clientID = 5 clientSeq = 170 RFS client
clientID = 50 clientSeq = 530 Slot RF
clientID = 65000 clientSeq = 65000 RF_LAST_CLIENT
This example
shows the output on the
Cisco cBR router:
Router#show redundancy clients
clientID = 29 group_id = 1 clientSeq = 60 Redundancy Mode RF
clientID = 139 group_id = 1 clientSeq = 61 IfIndex
clientID = 25 group_id = 1 clientSeq = 68 CHKPT RF
clientID = 3062 group_id = 1 clientSeq = 70 UBRCCE PLFM RF Client
clientID = 77 group_id = 1 clientSeq = 84 Event Manager
clientID = 1340 group_id = 1 clientSeq = 101 RP Platform RF
clientID = 1501 group_id = 1 clientSeq = 102 Cat6k CWAN HA
clientID = 78 group_id = 1 clientSeq = 106 TSPTUN HA
clientID = 305 group_id = 1 clientSeq = 107 Multicast ISSU Consolidation RF
clientID = 304 group_id = 1 clientSeq = 108 IP multicast RF Client
clientID = 22 group_id = 1 clientSeq = 109 Network RF Client
clientID = 88 group_id = 1 clientSeq = 110 HSRP
clientID = 114 group_id = 1 clientSeq = 111 GLBP
clientID = 225 group_id = 1 clientSeq = 112 VRRP
clientID = 4700 group_id = 1 clientSeq = 114 COND_DEBUG RF
clientID = 1341 group_id = 1 clientSeq = 115 IOSXE DPIDX
clientID = 1505 group_id = 1 clientSeq = 116 Cat6k SPA TSM
clientID = 75 group_id = 1 clientSeq = 126 Tableid HA
clientID = 1344 group_id = 1 clientSeq = 127 IOSXE RP SBC RF
clientID = 227 group_id = 1 clientSeq = 128 SBC-RF RF Client
clientID = 1345 group_id = 1 clientSeq = 129 VOIP RF CLIENT
clientID = 71 group_id = 1 clientSeq = 135 XDR RRP RF Client
clientID = 24 group_id = 1 clientSeq = 136 CEF RRP RF Client
clientID = 146 group_id = 1 clientSeq = 138 BFD RF Client
clientID = 301 group_id = 1 clientSeq = 142 MRIB RP RF Client
clientID = 306 group_id = 1 clientSeq = 146 MFIB RRP RF Client
clientID = 3064 group_id = 1 clientSeq = 150 UBRCCE SUP RF Client
clientID = 3065 group_id = 1 clientSeq = 151 PKTCBL RF client
clientID = 1504 group_id = 1 clientSeq = 153 Cat6k CWAN Interface Events
clientID = 401 group_id = 1 clientSeq = 155 NAT HA
clientID = 404 group_id = 1 clientSeq = 156 NAT64 HA
clientID = 402 group_id = 1 clientSeq = 157 TPM RF client
clientID = 520 group_id = 1 clientSeq = 158 RFS RF
clientID = 5 group_id = 1 clientSeq = 160 Config Sync RF client
clientID = 68 group_id = 1 clientSeq = 191 Virtual Template RF Client
clientID = 23 group_id = 1 clientSeq = 194 Frame Relay
clientID = 49 group_id = 1 clientSeq = 195 HDLC
clientID = 72 group_id = 1 clientSeq = 196 LSD HA Proc
clientID = 113 group_id = 1 clientSeq = 197 MFI STATIC HA Proc
clientID = 290 group_id = 1 clientSeq = 198 MPLS TP HA
clientID = 209 group_id = 1 clientSeq = 202 L2FIB
clientID = 199 group_id = 1 clientSeq = 205 ELB RF
Examples
The following
example shows a typical display for the
show redundancy counters command:
Router# show redundancy counters
Redundancy Facility OMs
comm link up = 1
comm link down down = 0
invalid client tx = 0
null tx by client = 0
tx failures = 0
tx msg length invalid = 0
client not rxing msgs = 0
rx peer msg routing errors = 0
null peer msg rx = 0
errored peer msg rx = 0
buffers tx = 1009
tx buffers unavailable = 0
buffers rx = 1006
buffer release errors = 0
duplicate client registers = 0
failed to register client = 0
Invalid client syncs = 0
This example
shows the output on the
Cisco cBR router:
Router#show redundancy counters
Redundancy Facility OMs
comm link up = 0
comm link down = 0
invalid client tx = 0
null tx by client = 0
tx failures = 0
tx msg length invalid = 0
client not rxing msgs = 0
rx peer msg routing errors = 0
null peer msg rx = 0
errored peer msg rx = 0
buffers tx = 0
tx buffers unavailable = 0
buffers rx = 0
buffer release errors = 0
duplicate client registers = 0
failed to register client = 0
Invalid client syncs = 0
Router#
Examples
The following
example shows a typical display for the show redundancy
history command:
Router# show redundancy history
00:00:00 client added: RF_INTERNAL_MSG(0) seq=0
00:00:00 client added: RF_LAST_CLIENT(65000) seq=65000
00:00:00 client added: CHKPT RF(25) seq=130
00:00:01 client added: Slot RF(50) seq=530
00:00:15 client added: RFS client(5) seq=170
00:00:16 *my state = INITIALIZATION(2) *peer state = DISABLED(1)
00:00:16 RF_PROG_INITIALIZATION(100) RF_INTERNAL_MSG(0) op=0 rc=11
00:00:16 RF_PROG_INITIALIZATION(100) CHKPT RF(25) op=0 rc=11
00:00:16 RF_PROG_INITIALIZATION(100) RFS client(5) op=0 rc=11
00:00:16 RF_PROG_INITIALIZATION(100) Slot RF(50) op=0 rc=11
00:00:16 RF_PROG_INITIALIZATION(100) RF_LAST_CLIENT(65000) op=0 rc=11
00:00:16 *my state = NEGOTIATION(3) peer state = DISABLED(1)
00:00:16 RF_EVENT_GO_ACTIVE(512) op=0 rc=0
00:00:16 *my state = ACTIVE-FAST(9) peer state = DISABLED(1)
00:00:16 RF_STATUS_MAINTENANCE_ENABLE(403) CHKPT RF(25) op=0 rc=0
00:00:16 RF_STATUS_MAINTENANCE_ENABLE(403) RFS client(5) op=0 rc=0
00:00:16 RF_STATUS_MAINTENANCE_ENABLE(403) Slot RF(50) op=0 rc=0
00:00:16 RF_PROG_ACTIVE_FAST(200) RF_INTERNAL_MSG(0) op=0 rc=11
00:00:16 RF_PROG_ACTIVE_FAST(200) CHKPT RF(25) op=0 rc=11
00:00:16 RF_PROG_ACTIVE_FAST(200) RFS client(5) op=0 rc=11
00:00:16 RF_PROG_ACTIVE_FAST(200) Slot RF(50) op=0 rc=11
00:00:16 RF_PROG_ACTIVE_FAST(200) RF_LAST_CLIENT(65000) op=0 rc=11
00:00:16 *my state = ACTIVE-DRAIN(10) peer state = DISABLED(1)
00:00:16 RF_PROG_ACTIVE_DRAIN(201) RF_INTERNAL_MSG(0) op=0 rc=11
00:00:16 RF_PROG_ACTIVE_DRAIN(201) CHKPT RF(25) op=0 rc=11
00:00:16 RF_PROG_ACTIVE_DRAIN(201) RFS client(5) op=0 rc=11
00:00:16 RF_PROG_ACTIVE_DRAIN(201) Slot RF(50) op=0 rc=11
This example
shows the output on the
Cisco cBR router:
Router#show redundancy history
00:00:05 client added: Redundancy Mode RF(29) seq=60
00:00:05 client added: IfIndex(139) seq=61
00:00:05 client added: CHKPT RF(25) seq=68
00:00:05 client added: Event Manager(77) seq=84
00:00:05 client added: RP Platform RF(1340) seq=101
00:00:05 client added: Cat6k CWAN HA(1501) seq=102
00:00:05 client added: Network RF Client(22) seq=109
00:00:05 client added: Cat6k SPA TSM(1505) seq=116
00:00:05 client added: IOSXE RP SBC RF(1344) seq=127
00:00:05 client added: SBC-RF RF Client(227) seq=128
00:00:05 client added: XDR RRP RF Client(71) seq=135
00:00:05 client added: CEF RRP RF Client(24) seq=136
00:00:05 client added: MFIB RRP RF Client(306) seq=146
00:00:05 client added: UBRCCE SUP RF Client(3064) seq=150
00:00:05 client added: Cat6k CWAN Interface Events(1504) seq=153
00:00:05 client added: RFS RF(520) seq=158
00:00:05 client added: Config Sync RF client(5) seq=160
00:00:05 client added: DHCPC(100) seq=225
00:00:05 client added: DHCPD(101) seq=226
00:00:05 client added: SNMP RF Client(34) seq=238
00:00:05 client added: CWAN APS HA RF Client(1502) seq=239
00:00:05 client added: History RF Client(35) seq=248
00:00:05 client added: REDSSOC(91) seq=269
00:00:05 client added: Dialer(48) seq=270
00:00:05 client added: ARP(57) seq=278
00:00:05 client added: IOSXE SpaFlow(1342) seq=297
00:00:05 client added: IOSXE IF Flow(1343) seq=298
00:00:05 client added: IOS STILE RF Client(1111) seq=299
00:00:05 client added: Call-Home RF(1510) seq=342
00:00:05 client added: IP Tunnel RF(151) seq=349
00:00:05 client added: Config Verify RF client(94) seq=350
00:00:05 client added: SISF table(515) seq=359
00:00:05 client added: IKE RF Client(135) seq=363
00:00:05 client added: IPSEC RF Client(136) seq=364
00:00:05 client added: CRYPTO RSA(130) seq=365
00:00:05 client added: PKI RF Client(131) seq=366
00:00:05 client added: GKM RF Client(157) seq=367
00:00:05 client added: DHCPv6 Relay(148) seq=372
00:00:05 client added: DHCPv6 Server(149) seq=373
00:00:05 client added: ISSU Test Client(4005) seq=381
00:00:05 client added: Network RF 2 Client(93) seq=385
00:00:05 client added: FEC Client(205) seq=387
00:00:05 client added: DATA DESCRIPTOR RF CLIENT(141) seq=395
00:00:05 client added: CTS HA(1000) seq=405
00:00:05 client added: UBRCCE DB(4040) seq=412
00:00:05 client added: VIDEO RPHA(4042) seq=413
00:00:05 client added: CBR LCHA(4044) seq=415
00:00:05 client added: IOS Config ARCHIVE(4020) seq=425
00:00:05 client added: IOS Config ROLLBACK(4021) seq=426
00:00:05 client added: ANCP(4031) seq=427
00:00:05 client added: Smart_Agent_RF_Client(1376) seq=448
00:00:05 client added: Flow Metadata(255) seq=471
00:00:07 *my state = INITIALIZATION(2) peer state = DISABLED(1)
00:00:07 RF_PROG_INITIALIZATION(100) First Slave(0) op=0 rc=11
00:00:07 RF_PROG_INITIALIZATION(100) Slave(3) op=0 rc=23
00:00:07 RF_PROG_INITIALIZATION(100) Redundancy Mode RF(29) op=0 rc=11
00:00:07 RF_PROG_INITIALIZATION(100) IfIndex(139) op=0 rc=11
00:00:07 RF_PROG_INITIALIZATION(100) CHKPT RF(25) op=0 rc=11
00:00:07 RF_PROG_INITIALIZATION(100) Event Manager(77) op=0 rc=11
00:00:07 RF_PROG_INITIALIZATION(100) RP Platform RF(1340) op=0 rc=11
00:00:07 RF_PROG_INITIALIZATION(100) Cat6k CWAN HA(1501) op=0 rc=11
00:00:07 RF_PROG_INITIALIZATION(100) Network RF Client(22) op=0 rc=11
00:00:07 RF_PROG_INITIALIZATION(100) Cat6k SPA TSM(1505) op=0 rc=11
00:00:07 RF_PROG_INITIALIZATION(100) IOSXE RP SBC RF(1344) op=0 rc=11
00:00:07 RF_PROG_INITIALIZATION(100) SBC-RF RF Client(227) op=0 rc=11
00:00:07 RF_PROG_INITIALIZATION(100) XDR RRP RF Client(71) op=0 rc=11
00:00:07 RF_PROG_INITIALIZATION(100) CEF RRP RF Client(24) op=0 rc=11
00:00:07 RF_PROG_INITIALIZATION(100) MFIB RRP RF Client(306) op=0 rc=11
Examples
The following
example shows a typical display for the show redundancy
states command:
Router# show redundancy states
my state = 13 -ACTIVE
peer state = 8 -STANDBY HOT
Mode = Duplex
Unit = Primary
Unit ID = 0
Redundancy Mode = Hot Standby Redundancy
Maintenance Mode = Disabled
Manual Swact = Enabled
Communications = Up
client count = 5
client_notification_TMR = 30000 milliseconds
RF debug mask = 0x0
This example
shows the output on the
Cisco cBR router:
Router#show redundancy states
my state = 13 -ACTIVE
peer state = 1 -DISABLED
Mode = Simplex
Unit = Primary
Unit ID = 48
Redundancy Mode (Operational) = Non-redundant
Redundancy Mode (Configured) = sso
Redundancy State = Non Redundant
Maintenance Mode = Disabled
Manual Swact = disabled (system is simplex (no peer unit))
Communications = Down Reason: Simplex mode
client count = 120
client_notification_TMR = 30000 milliseconds
RF debug mask = 0x0
Router#
Examples
Router#show redundancy
Redundant System Information :
------------------------------
Available system uptime = 3 minutes
Switchovers system experienced = 0
Standby failures = 0
Last switchover reason = none
Hardware Mode = Simplex
Configured Redundancy Mode = Stateful Switchover
Operating Redundancy Mode = Stateful Switchover
Maintenance Mode = Disabled
Communications = Down Reason: Simplex mode
Current Processor Information :
-------------------------------
Active Location = slot 1
Current Software state = ACTIVE
Uptime in current state = 2 minutes
Image Version = Cisco IOS Software, Catalyst 4500 L3 Switch So
tware (rfgw-ENTSERVICES-M), Version 12.2(FLO_RFGW_NIGHT_MON.2008-08-11) UBUILDI
Image, CISCO DEVELOPMENT TEST VERSION
Copyright (c) 1986-2008 by Cisco Systems, Inc.
Compiled Mon 11-Aug-08 04:54 by aswitzer
BOOT =
Configuration register = 0x2100
Peer (slot: 2) information is not available because it is in 'DISABLED' state
Router
Examples
The following
example shows a typical display for the
show
redundancy
clients command:
Router# show redundancy clients
clientID = 0 clientSeq = 0 RF_INTERNAL_MSG
clientID = 25 clientSeq = 130 CHKPT RF
clientID = 5 clientSeq = 170 RFS client
clientID = 50 clientSeq = 530 Slot RF
clientID = 65000 clientSeq = 65000 RF_LAST_CLIENT
Table below
describes the significant fields shown in the display.
Table 25 show
redundancy clients Field Descriptions
Field
|
Description
|
clientID
|
Displays the client ID number.
|
clientSeq
|
Displays the client notification sequence number.
|
Examples
The following
example shows a typical display for the
show
redundancy
counters command:
Router# show redundancy counters
Redundancy Facility OMs
comm link up = 1
comm link down down = 0
invalid client tx = 0
null tx by client = 0
tx failures = 0
tx msg length invalid = 0
client not rxing msgs = 0
rx peer msg routing errors = 0
null peer msg rx = 0
errored peer msg rx = 0
buffers tx = 1009
tx buffers unavailable = 0
buffers rx = 1006
buffer release errors = 0
duplicate client registers = 0
failed to register client = 0
Invalid client syncs = 0
Examples
The following
example shows a typical display for the
show
redundancy
history command:
Router# show redundancy history
00:00:00 client added: RF_INTERNAL_MSG(0) seq=0
00:00:00 client added: RF_LAST_CLIENT(65000) seq=65000
00:00:00 client added: CHKPT RF(25) seq=130
00:00:01 client added: Slot RF(50) seq=530
00:00:15 client added: RFS client(5) seq=170
00:00:16 *my state = INITIALIZATION(2) *peer state = DISABLED(1)
00:00:16 RF_PROG_INITIALIZATION(100) RF_INTERNAL_MSG(0) op=0 rc=11
00:00:16 RF_PROG_INITIALIZATION(100) CHKPT RF(25) op=0 rc=11
00:00:16 RF_PROG_INITIALIZATION(100) RFS client(5) op=0 rc=11
00:00:16 RF_PROG_INITIALIZATION(100) Slot RF(50) op=0 rc=11
00:00:16 RF_PROG_INITIALIZATION(100) RF_LAST_CLIENT(65000) op=0 rc=11
00:00:16 *my state = NEGOTIATION(3) peer state = DISABLED(1)
00:00:16 RF_EVENT_GO_ACTIVE(512) op=0 rc=0
00:00:16 *my state = ACTIVE-FAST(9) peer state = DISABLED(1)
00:00:16 RF_STATUS_MAINTENANCE_ENABLE(403) CHKPT RF(25) op=0 rc=0
00:00:16 RF_STATUS_MAINTENANCE_ENABLE(403) RFS client(5) op=0 rc=0
00:00:16 RF_STATUS_MAINTENANCE_ENABLE(403) Slot RF(50) op=0 rc=0
00:00:16 RF_PROG_ACTIVE_FAST(200) RF_INTERNAL_MSG(0) op=0 rc=11
00:00:16 RF_PROG_ACTIVE_FAST(200) CHKPT RF(25) op=0 rc=11
00:00:16 RF_PROG_ACTIVE_FAST(200) RFS client(5) op=0 rc=11
00:00:16 RF_PROG_ACTIVE_FAST(200) Slot RF(50) op=0 rc=11
00:00:16 RF_PROG_ACTIVE_FAST(200) RF_LAST_CLIENT(65000) op=0 rc=11
00:00:16 *my state = ACTIVE-DRAIN(10) peer state = DISABLED(1)
00:00:16 RF_PROG_ACTIVE_DRAIN(201) RF_INTERNAL_MSG(0) op=0 rc=11
00:00:16 RF_PROG_ACTIVE_DRAIN(201) CHKPT RF(25) op=0 rc=11
00:00:16 RF_PROG_ACTIVE_DRAIN(201) RFS client(5) op=0 rc=11
00:00:16 RF_PROG_ACTIVE_DRAIN(201) Slot RF(50) op=0 rc=11
Examples
The following
example shows a typical display for the
show
redundancy
state command:
Router# show redundancy states
my state = 13 -ACTIVE
peer state = 8 -STANDBY HOT
Mode = Duplex
Unit = Primary
Unit ID = 0
Redundancy Mode = Hot Standby Redundancy
Maintenance Mode = Disabled
Manual Swact = Enabled
Communications = Up
client count = 5
client_notification_TMR = 30000 milliseconds
RF debug mask = 0x0
Related Commands
Command
|
Description
|
associate
|
Associates two line cards for Automatic Protection Switching (APS) redundancy
protection.
|
clear
redundancy
|
Clears the counters and history information that are used by the Redundancy
Facility (RF) subsystem.
|
mode
(redundancy)
|
Configures the redundancy mode of operation.
|
redundancy
|
Enters redundancy configuration mode.
|
redundancy
force-failover
main-cpu
|
Forces a manual switchover between the active and standby PRE1 modules or
Supervisor cards.
|
redundancy
force-switchover
|
Forces the standby PRE or Supervisor card to assume the role of the active PRE
or Supervisor card.
|
show
redundancy
config-sync
|
Displays failure information generated during a bulk synchronization from the
active PRE to the standby PRE.
|
show
redundancy
platform
|
Displays active and standby PRE and software information.
|