Table Of Contents
show atm vc
show atm vp
show ces circuit
show ces interface cbr
show ces status
show dxi map
show dxi pvc
show interface cbr
show interfaces atm
show network-clocks
show sscop
sscop cc-timer
sscop keepalive-timer
sscop max-cc
sscop poll-timer
sscop receive-window
sscop send-window
svc
ubr
ubr+
vbr-nrt
vbr-rt
vc-class atm
show atm vc
To display all ATM virtual circuits (PVCs and SVCs) and traffic information, use the show atm vc privileged EXEC command.
show atm vc [vcd | interface interface-number]
Syntax Description
vcd
|
(Optional) Specifies which virtual circuit about which to display information.
|
interface interface-number
|
(Optional) Interface number or subinterface number of the PVC or SVC. Displays all PVCs and SVCs on the specified interface or subinterface.
The interface-number uses one of the following formats, depending on what router platform you are using:
• For the AIP on Cisco 7500 series routers; For the ATM port adapter, ATM-CES port adapter, and enhanced ATM port adapter on Cisco 7200 series routers; For the 1-port ATM-25 network module on Cisco 2600 and 3600 series routers: slot/0[.subinterface-number multipoint]
•For the ATM port adapter and enhanced ATM port adapter on Cisco 7500 series routers: slot/port-adapter/0[.subinterface-number multipoint]
•For the NPM on Cisco 4500 and 4700 routers: number[.subinterface-number multipoint]
For a description of these arguments, refer to the interface atm command.
|
Command Modes
Privileged EXEC
Command History
Release
|
Modification
|
10.0
|
This command was introduced.
|
Usage Guidelines
If no vcd value is specified, the command displays information for all PVCs and SVCs. The output is in summary form (one line per virtual circuit).
Examples
The following is sample output from the show atm vc command when no vcd value is specified, displaying statistics for all PVCs for an ATM-CES port adapter on a Cisco 7200 series router. The status field is either ACTIVE or INACTIVE.
Interface Name VPI VCI Type Encaps Kbps Kbps Cells Status
ATM6/0 1 0 16 PVC AAL5-ILMI 155000 155000 94 ACTIVE
ATM6/0 2 0 5 PVC AAL5-SAAL 155000 155000 94 ACTIVE
ATM6/0.1 303 0 282 SVC LANE-LES 155000 155000 32 ACTIVE
ATM6/0.1 304 0 281 SVC LANE-LEC 155000 155000 32 ACTIVE
ATM6/0.1 307 0 286 MSVC LANE-LEC 155000 155000 32 ACTIVE
ATM6/0.1 308 0 285 MSVC LANE-LES 155000 155000 32 ACTIVE
ATM6/0.1 309 0 288 SVC LANE-BUS 155000 155000 32 ACTIVE
ATM6/0.1 310 0 287 SVC LANE-LEC 155000 155000 32 ACTIVE
ATM6/0.1 311 0 290 MSVC LANE-LEC 155000 155000 32 ACTIVE
ATM6/0.1 312 0 289 SVC LANE-BUS 155000 155000 32 ACTIVE
ATM6/0.1 314 0 292 SVC LANE-LES 155000 155000 32 ACTIVE
ATM6/0.1 315 0 293 SVC LANE-BUS 155000 155000 32 ACTIVe
The following is sample output from the show atm vc command when a vcd value is specified for a CES circuit:
ATM6/0: VCD: 2, VPI: 10, VCI: 10
PeakRate: 2310, Average Rate: 2310, Burst Cells: 94
CES-AAL1, etype:0x0, Flags: 0x20138, VCmode: 0x0
The following is sample output from the show atm vc command when a vcd value is specified, displaying statistics for that virtual circuit only:
ATM4/0: VCD: 8, VPI: 8, VCI: 8
PeakRate: 155000, Average Rate: 155000, Burst Cells: 0
AAL5-LLC/SNAP, etype:0x0, Flags: 0x30, VCmode: 0xE000
OAM frequency: 0 second(s)
InARP frequency: 1 minute(s)
InPkts: 181061, OutPkts: 570499, InBytes: 757314267, OutBytes: 2137187609
InPRoc: 181011, OutPRoc: 10, Broadcasts: 570459
InFast: 39, OutFast: 36, InAS: 11, OutAS: 6
The following is sample output from the show atm vc command when a vcd value is specified, AAL3/4 is enabled, an ATM SMDS subinterface has been defined, and a range of message identifier numbers (MIDs) has been assigned to the PVC:
ATM4/0.1: VCD: 1, VPI: 0, VCI: 1
PeakRate: 0, Average Rate: 0, Burst Cells: 0
AAL3/4-SMDS, etype:0x1, Flags: 0x35, VCmode: 0xE200
MID start: 1, MID end: 16
InPkts: 0, OutPkts: 0, InBytes: 0, OutBytes: 0
InPRoc: 0, OutPRoc: 0, Broadcasts: 0
InFast: 0, OutFast: 0, InAS: 0, OutAS: 0
The following is sample output from the show atm vc command when a vcd value is specified and generation of OAM F5 loopback cells has been enabled.
ATM4/0: VCD: 7, VPI: 7, VCI: 7
PeakRate: 0, Average Rate: 0, Burst Cells: 0
AAL5-LLC/SNAP, etype:0x0, Flags: 0x30, VCmode: 0xE000
OAM frequency: 10 second(s)
InPkts: 0, OutPkts: 0, InBytes: 0, OutBytes: 0
InPRoc: 0, OutPRoc: 0, Broadcasts: 0
InFast:0, OutFast:0, InAS:0, OutAS:0
The following is sample output from the show atm vc command when a vcd value is specified, and there is an incoming multipoint virtual circuit.
ATM2/0: VCD: 3, VPI: 0, VCI: 33
PeakRate: 0, Average Rate: 0, Burst Cells: 0
AAL5-MUX, etype:0x809B, Flags: 0x53, VCmode: 0xE000
InPkts: 6646, OutPkts: 0, InBytes: 153078, OutBytes: 0
InPRoc: 6646, OutPRoc: 0, Broadcasts: 0
InFast: 0, OutFast: 0, InAS: 0, OutAS: 0
interface = ATM2/0, call remotely initiated, call reference = 18082
vcnum = 3, vpi = 0, vci = 33, state = Active
aal5mux vc, multipoint call
Retry count: Current = 0, Max = 10
timer currently inactive, timer value = never
Root Atm Nsap address: DE.CDEF.01.234567.890A.BCDE.F012.3456.7890.1234.12
The following is sample output from the show atm vc command when a vcd value is specified, and there is an outgoing multipoint virtual circuit.
ATM2/0: VCD: 6, VPI: 0, VCI: 35
PeakRate: 0, Average Rate: 0, Burst Cells: 0
AAL5-MUX, etype:0x800, Flags: 0x53, VCmode: 0xE000
InPkts: 0, OutPkts: 818, InBytes: 0, OutBytes: 37628
InPRoc: 0, OutPRoc: 0, Broadcasts: 818
InFast: 0, OutFast: 0, InAS: 0, OutAS: 0
interface = ATM2/0, call locally initiated, call reference = 3
vcnum = 6, vpi = 0, vci = 35, state = Active
aal5mux vc, multipoint call
Retry count: Current = 0, Max = 10
timer currently inactive, timer value = never
Leaf Atm Nsap address: DE.CDEF.01.234567.890A.BCDE.F012.3456.7890.1234.12
Leaf Atm Nsap address: CD.CDEF.01.234567.890A.BCDE.F012.3456.7890.1234.12
The following is sample output from the show atm vc command when a vcd value is specified and there is a PPP-over-ATM connection:
ATM8/0.1: VCD: 1, VPI: 41, VCI: 41
PeakRate: 155000, Average Rate: 155000, Burst Cells: 96
AAL5-CISCOPPP, etype:0x9, Flags: 0xC38, VCmode: 0xE000
virtual-access: 1, virtual-template: 1
InPkts: 13, OutPkts: 10, InBytes: 198, OutBytes: 156
InPRoc: 13, OutPRoc: 10, Broadcasts: 0
InFast: 0, OutFast: 0, InAS: 0, OutAS: 0
The following is sample output from the show atm vc command for IP multicast virtual circuits. The display shows the leaf count for multipoint VCs opened by the root. VCD 3 is a root of a multipoint VC with three leaf routers. VCD 4 is a leaf of some other router's multipoint VC. VCD 12 is a root of a multipoint VC with only one leaf router.
Interface Name VPI VCI Type Encaps Kbps Kbps Cells Sts
0/0 1 0 5 PVC SAAL 155000 155000 96 UP
0/0 2 0 16 PVC ILMI 155000 155000 96 UP
0/0 3 0 124 MSVC-3 SNAP 155000 155000 96 UP
0/0 4 0 125 MSVC SNAP 155000 155000 96 UP
0/0 5 0 126 MSVC SNAP 155000 155000 96 UP
0/0 6 0 127 MSVC SNAP 155000 155000 96 UP
0/0 9 0 130 MSVC SNAP 155000 155000 96 UP
0/0 10 0 131 SVC SNAP 155000 155000 96 UP
0/0 11 0 132 MSVC-3 SNAP 155000 155000 96 UP
0/0 12 0 133 MSVC-1 SNAP 155000 155000 96 UP
0/0 13 0 134 SVC SNAP 155000 155000 96 UP
0/0 14 0 135 MSVC-2 SNAP 155000 155000 96 UP
0/0 15 0 136 MSVC-2 SNAP 155000 155000 96 UP
The following is sample output from the show atm vc command for an IP multicast virtual circuit. The display shows the owner of the VC and leafs of the multipoint VC. This VC was opened by IP multicast and the three leaf routers' ATM addresses are included in the display. The VC is associated with IP group address 224.1.1.1.
ATM0/0: VCD: 11, VPI: 0, VCI: 132
PeakRate: 155000, Average Rate: 155000, Burst Cells: 96
AAL5-LLC/SNAP, etype:0x0, Flags: 0x650, VCmode: 0xE000
InPkts: 0, OutPkts: 12, InBytes: 0, OutBytes: 496
InPRoc: 0, OutPRoc: 0, Broadcasts: 12
InFast: 0, OutFast: 0, InAS: 0, OutAS: 0
Status: ACTIVE, TTL: 2, VC owner: IP Multicast (224.1.1.1) <<<
interface = ATM0/0, call locally initiated, call reference = 2
vcnum = 11, vpi = 0, vci = 132, state = Active
aal5snap vc, multipoint call
Retry count: Current = 0, Max = 10
timer currently inactive, timer value = 00:00:00
Leaf Atm Nsap address: 47.0091810000000002BA08E101.444444444444.02 <<<
Leaf Atm Nsap address: 47.0091810000000002BA08E101.333333333333.02 <<<
Leaf Atm Nsap address: 47.0091810000000002BA08E101.222222222222.02 <<<
Table 36 describes the fields shown in the displays.
Table 36 show atm vc Field Descriptions
Field
|
Description
|
Interface
|
Interface slot and port.
|
VCD/Name
|
Virtual circuit descriptor (virtual circuit number). The connection name is displayed if the VC was configured using the pvc command and the name was specified.
|
VPI
|
Virtual path identifier.
|
VCI
|
Virtual channel identifier.
|
Type
|
Type of virtual circuit, either PVC, SVC, or MSVC (multipoint SVC).
•MSVC (with no -x ) indicates that VCD is a leaf of some other router's multipoint VC.
•MSVC-x indicates there are x leaf routers for that multipoint VC opened by the root.
Type of PVC detected from PVC discovery, either PVC-D, PVC-L, or PVC-M.
•PVC-D indicates a PVC created due to PVC discovery.
•PVC-L indicates that the corresponding peer of this PVC could not be found on the switch.
•PVC-M indicates that some or all of the QOS parameters of this PVC mismatch that of the corresponding peer on the switch.
|
Encaps
|
Type of ATM adaptation layer (AAL) and encapsulation.
|
PeakRate
|
Kilobits per second transmitted at the peak rate.
|
Average Rate
|
Kilobits per second transmitted at the average rate.
|
Burst Cells
|
Value that equals the maximum number of ATM cells the virtual circuit can transmit at peak rate.
|
Status
|
Status of the VC connection.
•UP indicates that the connection is enabled for data traffic.
•DOWN indicates that the connection is not ready for data traffic. When the Status field is DOWN, a State field is shown. See a description of the different values for this field listed later in this table.
•INACTIVE indicates that the interface is down.
|
etype
|
Encapsulation type.
|
Flags
|
Bit mask describing virtual circuit information. The flag values are summed to result in the displayed value.
0x40—SVC
0x20—PVC
0x10—ACTIVE
0x0—AAL5-SNAP
0x1—AAL5-NLPID
0x2—AAL5-FRNLPID
0x3—AAL5-MUX
0x4—AAL3/4-SMDS
0x5—QSAAL
0x6—ILMI
0x7—AAL5-LANE
0x9—AAL5-CISCOPPP
|
VCmode
|
AIP-specific or NPM-specific register describing the usage of the virtual circuit. This register contains values such as rate queue, peak rate, and AAL mode, which are also displayed in other fields.
|
virtual-access
|
Virtual access interface identifier.
|
virtual-template
|
Virtual template identifier.
|
InPkts
|
Total number of packets received on this virtual circuit. This number includes all fast-switched and process-switched packets.
|
OutPkts
|
Total number of packets sent on this virtual circuit. This number includes all fast-switched and process-switched packets.
|
InBytes
|
Total number of bytes received on this virtual circuit. This number includes all fast-switched and process-switched packets.
|
OutBytes
|
Total number of bytes sent on this virtual circuit. This number includes all fast-switched and process-switched packets.
|
InPRoc
|
Number of process-switched input packets.
|
OutPRoc
|
Number of process-switched output packets.
|
Broadcast
|
Number of process-switched broadcast packets.
|
InFast
|
Number of fast-switched input packets.
|
OutFast
|
Number of fast-switched output packets.
|
InAS
|
Number of autonomous-switched or silicon-switched input packets.
|
OutAS
|
Number of autonomous-switched or silicon-switched output packets.
|
OAM frequency: 10
|
OAM loopback cells are sent every 10 seconds.
|
OAM cells received: 0
|
Number of OAM cells received on this virtual circuit.
|
OAM cells sent: 1
|
Number of OAM cells sent on this virtual circuit.
|
TTL
|
Time-to-live in ATM hops across the VC.
|
VC owner
|
IP Multicast address of group.
|
Related Commands
Command
|
Description
|
atm nsap-address
|
Sets the NSAP address for an ATM interface using SVC mode.
|
show atm vp
To display the statistics for all virtual paths (VP) on an interface or for a specific VP, use the show atm vp privileged EXEC command.
show atm vp [vpi]
Syntax Description
vpi
|
(Optional) ATM network virtual path identifier (VPI) of the permanent virtual path. The range is 0 to 255. The VPI is an 8-bit field in the header of the ATM cell.
|
Command Modes
Privileged EXEC
Command History
Release
|
Modification
|
11.1
|
This command was introduced.
|
Examples
The following is sample output from the show atm vp command. This output shows the interface name, the status of the interface, the administrative status of the interface, the port type, and the number of channels in use on the interface. The status of the interface can be UP (in operation) or DOWN (not in operation).
ATM6/0 VPI: 1, PeakRate: 155000, CesRate: 1742, DataVCs: 1, CesVCs:1, Status: ACTIVE
VCD VCI Type InPkts OutPkts AAL/Encap Status
1 100 PVC n/a n/a CES-AAL1 ACTIVE
13 13 PVC 0 0 AAL5-SNAP ACTIVE
409 3 PVC 0 0 F4 OAM ACTIVE
410 4 PVC 0 0 F4 OAM ACTIVE
TotalInPkts: 0, TotalOutPkts: 0, TotalInFast: 0, TotalOutFast: 0, TotalBroadcasts: 0
Table 37 describes the fields shown in the display.
Table 37 show atm vp Field Descriptions
Field
|
Description
|
ATM6/0
|
Interface type, slot, and port number of the VP.
|
VPI
|
Virtual path identifier of the VP.
|
PeakRate
|
Maximum rate in kbps at which the VP can transmit data. Range is 84 kbps to line rate. The default is the line rate.
|
CesRate
|
Total CES bandwidth allocated for the VP.
|
DataVCs
|
Number of data VCs on the VP.
|
CesVCs
|
Number of CES VC on the VP.
|
Status
|
Current status of the VP. Values are ACTIVE or INACTIVE.
|
VCD
|
Virtual circuit descriptor of the VC associated with this VP.
|
VCI
|
Virtual channel identifier of the VC associated with this VP.
|
Type
|
Type of VC associated with this VP. Values are PVC or SVC.
|
InPkts
|
Number of packets received on the VP.
|
OutPkts
|
Number of packets transmitted on the VP.
|
AAL/Encap
|
Type of encapsulation used on the VC associated with this VP.
|
Status
|
Status of the VP (ACTIVE or INACTIVE).
|
TotalInPkts:
|
Total number of input packets process-switched and fast-switched on the VP.
|
TotalOutPkts:
|
Total number of output packets process-switched and fast-switched on the VP.
|
TotalInFast
|
Total number of input packets fast-switched.
|
TotalOutFast:
|
Total number of output packets fast-switched.
|
TotalBroadcasts:
|
Total number of broadcast packets fast-switched.
|
Related Commands
Command
|
Description
|
atm pvp
|
Creates a PVP used to multiplex (or bundle) one or more VCs (especially CES and data VCs).
|
show ces circuit
To display detailed circuit information for the CBR interface, use the show ces circuit privileged EXEC command.
show ces circuit [interface cbr slot/port [circuit-number]]
Syntax Description
interface cbr slot/port
|
(Optional) Slot and port number of the CBR interface.
|
circuit-number
|
(Optional) Circuit identification. For unstructured service, use 0. For T1 structure service, the range is 1 through 24. For E1 structure service, the range is 1 through 31.
|
Command Modes
Privileged EXEC
Command History
Release
|
Modification
|
11.1
|
This command was introduced.
|
Examples
The following is sample output from the show ces circuit command.
Interface Circuit Circuit-Type X-interface X-vpi X-vci Status
CBR6/0 1 HardPVC ATM6/0 0 34 UP
CBR6/1 1 HardPVC ATM6/1 0 34 UP
Table 38 describes the fields shown in the display.
Table 38 show ces circuit Field Descriptions
Field
|
Description
|
Interface
|
Type, slot, and port number of the interface.
|
Circuit
|
Circuit number assigned to the PVC.
|
Circuit-Type
|
Type of circuit.Values are HardPVC or SoftPVC. Only HardPVC is supported on the ATM-CES port adapter.
|
X-interface
|
Type, slot, and port number of the destination interface.
|
X-vpi
|
Virtual path identifier of the destination interface.
|
X-vci
|
Virtual channel identifier of the destination interface.
|
Status
|
State of the circuit. Values are Up or Down.
|
The following is sample output from the show ces circuit command for a circuit 1 on CBR interface 6/0.
Switch# show ces circuit interface cbr 6/0 1
circuit: Name CBR6/0:1, Circuit-state ADMIN_UP / Interface CBR6/0, Circuit_id 1,
Port-Type T1, Port-State UP
Port Clocking network-derived, aal1 Clocking Method CESIWF_AAL1_CLOCK_Sync
Channel in use on this port: 1
Channels used by this circuit: 1
Cell-Rate: 171, Bit-Rate 64000
cas OFF, cell-header 0X3E80 (vci = 1000)
Configured CDV 2000 usecs, Measured CDV unavailable
ErrTolerance 8, idleCircuitdetect OFF, onHookIdleCode 0x0
state: VcActive, maxQueueDepth 128, startDequeueDepth 111
Partial Fill: 47, Structured Data Transfer 24
src: CBR6/0 vpi 0, vci 16
Dst: ATM6/0 vpi0, vci 1000
Table 39 describes the fields shown in the display.
Table 39 show ces circuit interface Field Descriptions
Field
|
Description
|
circuit Name
|
Name of the circuit specified with the ces circuit interface command.
|
Circuit-state
|
Current configuration state of the circuit. Values are ADMIN_UP or ADMIN_DOWN.
|
Interface
|
Type, slot, and port number of the interface.
|
Circuit_ID
|
Circuit identification specified with the ces pvc interface command.
|
Port-Type
|
Type of interface on the ATM-CES port adapter. Values are T1 or E1.
|
Port-State
|
Current status of the port. Values are Up or Down.
|
Port Clocking
|
Clocking mode used by the interface specified with the ces dsx1 clock interface command. Values are Loop-Timed or Network-Derived Adaptive.
|
aal1 Clocking Method
|
AAL1 clocking mode used by the interface specified with the ces aal1 clock interface command. Values are Adaptive, Synchronous Residual Time Stamp (SRTS), or Synchronous.
|
Channel in use on this port
|
Number of active channels used by this interface.
|
Channels used by this circuit
|
Number of channels used by the circuit.
|
Cell-Rate
|
Number of cells transmitted or received on the interface per second.
|
Bit-Rate
|
Speed at which the cells are transmitted or received.
|
cas
|
Indicates whether channel-associated signaling (CAS) is enabled on the interface with the ces circuit interface command.
|
cell-header
|
ATM cell header VCI bytes used for debugging only.
|
Configured CDV
|
Indicates the peak-to-peak cell delay variation (CDV) requirement (CDV) in milliseconds specified with the ces circuit interface command. The range for CDV is 1 through 65535 milliseconds. The default is 2000 milliseconds.
|
Measured CDV
|
Indicates the actual cell delay variation in milliseconds.
|
ErrTolerance
|
For internal use only.
|
idleCircuitdetect
|
Indicates whether idle circuit detection is enabled (ON) or disabled (OFF).
|
onHookIdleCode
|
Indicates that the on-hook detection feature is enabled with the ces circuit interface command and the hex value (0 through F) that indicates a 2 or 4 bit AB[CD] pattern to detect on-hook. The AB[CD] bits are determined by the manufacturer of the voice/video telephony device that is generating the CBR traffic.
|
state
|
Current state of the circuit. Values are VcActive, VcInactive, VcLOC (loss of cell), or VcAlarm (alarm condition).
|
maxQueueDepth
|
Maximum queue depth in bits.
|
startDequeueDepth
|
Start dequeue depth in bits.
|
Partial Fill
|
Indicates the partial AAL1 cell fill service for structured service only specified by the ces circuit interface command. The range is 0 through 47. The default is 47.
|
Structured Data Transfer
|
Size (in bytes) of the structured data transfer frame.
|
HardPVC
|
Only hard PVC are supported by the ATM-CES port adapter.
|
src
|
Source interface type, slot, and port number and VPI and VCI for the circuit.
|
Dst
|
Destination interface interface type, slot, and port number and the VPI and VCI for the circuit.
|
Related Commands
Command
|
Description
|
show ces circuit
|
Displays detailed circuit information for the CBR interface.
|
show ces status
|
Displays the status of the ports on the ATM-CES port adapter.
|
show ces interface cbr
To display detailed CBR port information, use the show ces interface cbr privileged EXEC command.
show ces interface cbr slot/port
Syntax Description
slot
|
Backplane slot number.
|
port
|
Interface port number.
|
Command Modes
Privileged EXEC
Command History
Release
|
Modification
|
11.1
|
This command was introduced.
|
Examples
The following is sample output from the show ces interface cbr command for CBR interface 6/0.
router# show ces interface cbr 6/0
Interface: CBR6/0 Port-type:T1-DCU
IF Status: UP Admin Status: UP
Channels in use on this port: 1
LineType: ESF LineCoding: B8ZS LoopConfig: NoLoop
SignalMode: NoSignalling XmtClockSrc: network-derived
DataFormat: Structured AAL1 Clocking Mode: Synchronous LineLength: 0_110
Errors in the Current Interval:
PCVs 0 LCVs 0 ESs 0 SESs 0 SEFSs 0
UASs 0 CSSs 0 LESs 0 BESs 0 DMs 0
Errors in the last 24Hrs:
PCVs 514 LCVs 0 ESs 0 SESs 1 SEFSs 0
UASs 0 CSSs 0 LESs 0 BESs 0 DMs 0
Input Counters: 0 cells, 0 bytes
Output Counters: 0 cells, 0 bytes
Table 40 describes the fields shown in the display.
Table 40 show ces circuit interface cbr Field Descriptions
Field
|
Description
|
Interface
|
Type, slot, and port number of the interface.
|
Port-type
|
Type of port on the ATM-CES port adapter. Values are: T1-DCU or E1-DCU.
|
IF Status
|
Status of the interface. Values are Up or Down.
|
Admin Status
|
Configured status of the interface. Values are Up or Down (administratively configured down).
|
Channels in use on this port
|
Number of active channels used by this interface.
|
LineType
|
Framing used on the interface specified with the ces dsx1 framing interface command. Values are ESF or SF for T1 and E1-CRC-MFCASLT, E1-CRC-MFLT, E1-LT, or E1-MFCASLT for E1.
|
LineCoding
|
Line coding used on the interface specified with the ces dsx1 linecode interface command. Values are AMI, B8ZS (for T1), and HDB3 (for E1).
|
LoopConfig
|
Indicates whether the interface in in a loop state specified by the ces dsx1 loopback interface command. Values are line loopback, payload loopback, or noloop.
|
SignalMode
|
For T1 to use robbed bit signaling or not.
|
XmitClockSrc
|
Transmit clock source specified by the ces dsx1 clock interface command. Values are loop-timed or network-derived.
|
DataFormat
|
Type of CES services specified by the ces aal1 service interface command. Values are structured or unstructured.
|
AAL1 Clocking Mode
|
AAL1 clocking mode used by the interface specified with the ces aal1 clock interface command. Values are adaptive, synchronous residual time stamp (SRTS), or synchronous.
|
LineLength
|
Cable length specified by the ces dsx1 lbo interface command. Values are 0-110, 10-200, 220-330, 330-440, 440-550, 550-660, 660-above, and square-pulse.
|
LineState
|
Current status of the line. Values are:
•Unknown
•NoAlarm
•RcvFarEndLOF
•XmtFarEndLOF
•RcvAIS
•XmtAIS
•LossOfFrame
•LossOfSignal
•LoopbackState
•T16AIS
|
Errors in the Current Interval
|
Error statistics received during the current 15-minute interval.
|
PCVs
|
Number of Path Code Violations (PCVs). PCVs indicate a frame synchronization bit error in the D4 and E1 no-CRC formats, or a CRC error in the ESF and E1 CRC formats.
|
LCVs
|
Number of Line Code Violations (LCVs). LCVs indicate the occurrence of either a Bipolar Violation (BPV) or Excessive Zeros (EXZ) error event.
|
ESs
|
Number of errored seconds. In ESF and E1 CRC links, an Errored Second is a second in which one of the following are detected: one or more Path Code Violations, one or more Out of Frame defects, one or more Controlled Slip events, or a detected AIS defect.
For SF and E1 no-CRC links, the presence of Bipolar Violations also triggers an Errored Second.
|
SESs
|
Number of Severely Errored Seconds (SESs). A SESs is a second with 320 or more path code violation errors events, one or more Out of Frame defects, or a detected AIS defect.
|
SEFSs
|
Number of Severely Errored Framing Seconds (SEFS). SEFS is a second with one or more Out of Frame defects or a detected incoming AIS.
|
UASs
|
Number of Unavailable Seconds (UASs). UAS is a count of the total number of seconds on the interface.
|
CSSs
|
Number of Controlled Slip Second (CSS). CSS is a 1-second interval containing one or more controlled slips.
|
LESs
|
Number of Line Errored Seconds (LES). LES is a second in which one or more Line Code Violation errors are detected.
|
BESs
|
Number of Bursty Errored Seconds (BES). BES is a second with fewer than 320 and more than one Path Coding Violation error, no Severely Errored Frame defects, and no detected incoming AIS defects. Controlled slips are not included in this parameter.
|
DMs
|
Number of Degraded Minutes (DMs). A degraded minute is one in which the estimated error rate exceeds 1E-6 but does not exceed 1E-3. For more information, refer to RFC 1406.
|
Errors in the last 24Hrs
|
Error statistics received during the during the last 24 hours.
|
Input Counters
|
Number of cells and bytes received on the interface.
|
Output Counters
|
Number of cells and bytes.
|
Related Commands
Command
|
Description
|
show interface cbr
|
Displays the information about the CBR interface on the ATM-CES port adapter.
|
show ces status
To display the status of the ports on the ATM-CES port adapter, use the show ces status privileged EXEC command.
show ces status
Syntax Description
This command has no arguments or keywords.
Command Modes
Privileged EXEC
Command History
Release
|
Modification
|
11.1
|
This command was introduced.
|
Examples
The following is sample output from the show ces status command. This output shows the interface name, the status of the interface, the administrative status of the interface, the port type, and the number of channels in use on the interface. The status of the interface can be UP (in operation) or DOWN (not in operation).
Interface IF Admin Port Channels in
Name Status Status Type use
------------- -------- --------- ----------- -----------
Related Commands
Command
|
Description
|
show ces circuit
|
Displays detailed circuit information for the CBR interface.
|
show dxi map
To display all the protocol addresses mapped to a serial interface, use the show dxi map EXEC command.
show dxi map
Syntax Description
This command has no arguments or keywords.
Command Modes
EXEC
Command History
Release
|
Modification
|
10.3
|
This command was introduced.
|
Examples
The following is sample output from the show dxi map command. It displays output for several previously defined ATM-DXI maps that defined Apollo, IP, DECnet, CLNS, and AppleTalk protocol addresses, various encapsulations, and broadcast traffic.
Serial0 (administratively down): ipx 123.0000.1234.1234
DFA 69(0x45,0x1050), static, vpi = 4, vci = 5,
Serial0 (administratively down): appletalk 2000.5
DFA 52(0x34,0xC40), static, vpi = 3, vci = 4,
Serial0 (administratively down): ip 172.21.177.1
DFA 35(0x23,0x830), static,
broadcast, vpi = 2, vci = 3,
encapsulation: VC based MUX,
Table 41 explains significant fields shown in the display.
Table 41 show dxi map Field Descriptions
Field
|
Description
|
DFA
|
DXI Frame Address, similar to a DLCI for Frame Relay. The DFA is shown in decimal, hexadecimal, and DXI header format. The router computes this address value from the VPI and VCI values.
|
encapsulation:
|
Encapsulation type selected by the dxi pvc command. Displayed values can be SNAP, NLPID, or VC based MUX.
|
Linktype
|
Value used only with MUX encapsulation and therefore with only a single network protocol defined for the PVC. Maps configured on a PVC with MUX encapsulation must have the same link type.
|
show dxi pvc
To display the PVC statistics for a serial interface, use the show dxi pvc EXEC command.
show dxi pvc
Syntax Description
This command has no arguments or keywords.
Command Modes
EXEC
Command History
Release
|
Modification
|
10.3
|
This command was introduced.
|
Examples
The following is sample output from the show dxi pvc command. It displays output for ATM-DXI PVCs previously defined for serial interface 0.
PVC Statistics for interface Serial0 (ATM DXI)
DFA = 17, VPI = 1, VCI = 1, PVC STATUS = STATIC, INTERFACE = Serial0
input pkts 0 output pkts 0 in bytes 0
out bytes 0 dropped pkts 0
DFA = 34, VPI = 2, VCI = 2, PVC STATUS = STATIC, INTERFACE = Serial0
input pkts 0 output pkts 0 in bytes 0
out bytes 0 dropped pkts 0
DFA = 35, VPI = 2, VCI = 3, PVC STATUS = STATIC, INTERFACE = Serial0
input pkts 0 output pkts 0 in bytes 0
out bytes 0 dropped pkts 0
Table 42 describes significant fields shown in the display.
Table 42 show dxi pvc Field Descriptions
Field
|
Description
|
DFA
|
DXI Frame Address, similar to a DLCI for Frame Relay. The DFA is shown in decimal, hexadecimal, and DXI header format. The router computes this address value from the VPI and VCI values.
|
PVC STATUS = STATIC
|
Only static maps are supported. Maps are not created dynamically.
|
input pkts
|
Number of packets received.
|
output pkts
|
Number of packets transmitted.
|
in bytes
|
Number of bytes in all packets received.
|
out bytes
|
Number of bytes in all packets transmitted.
|
dropped pkts
|
Should display a zero (0) value. A nonzero value indicates a configuration problem, specifically that a PVC does not exist.
|
show interface cbr
To display information about the constant bit rate (CBR) interface on the ATM-CES port adapter, use the show interface cbr privileged EXEC command.
show interface cbr
Syntax Description
This command has no arguments or keywords.
Command Modes
Privileged EXEC
Command History
Release
|
Modification
|
11.1
|
This command was introduced.
|
Examples
The following is sample output from the show interface cbr command.
Switch# show interface cbr 6/0
CBR6/0 is up, line protocol is up
MTU 0 bytes, BW 1544 Kbit, DLY 0 usec, rely 255/255, load 248/255
Encapsulation ET_ATMCES_T1, loopback not set
Last input 00:00:00, output 00:00:00, output hang never
Last clearing of "show interface" counters never
Output queue 0/0, 0 drops; input queue 0/75, 0 drops
5 minute input rate 1507000 bits/sec, 3957 packets/sec
5 minute output rate 1507000 bits/sec, 3955 packets/sec
3025960 packets input, 142220120 bytes, 0 no buffer
Received 0 broadcasts, 0 runts, 0 giants
0 input errors, 0 CRC, 0 frame, 0 overrun, 0 ignored, 0 abort
3030067 packets output, 142413149 bytes, 0 underruns
0 output errors, 0 collisions, 0 interface resets
0 output buffer failures, 0 output buffers swapped out
Table 43 describes the fields shown in the display.
Table 43 show Interface cbr Field Descriptions
Field
|
Description
|
CBR6/0 is...
|
Type, slot, and port number of the interface and indicates whether the interface hardware is currently active (whether carrier detect is present), down, or if it has been taken down by an administrator.
|
line protocol is...
|
Indicates whether the software processes that handle the line protocol think the line is usable (that is, whether keepalives are successful). Values are up, down, or administratively down.
|
Hardware is...
|
Hardware type.
|
MTU
|
Maximum transmission unit of the interface.
|
BW
|
Bandwidth of the interface in kilobits per second.
|
DLY
|
Delay of the interface in microseconds.
|
rely
|
Reliability of the interface as a fraction of 255 (255/255 is 100% reliability), calculated as an exponential average over 5 minutes.
|
load
|
Load on the interface as a fraction of 255 (255/255 is completely saturated), calculated as an exponential average over 5 minutes. The calculation uses the value from the bandwidth interface configuration command.
|
Encapsulation
|
Encapsulation method assigned to interface.
|
loopback not set
|
Indicates whether or not loopback is set.
|
Last input
|
Number of hours, minutes, and seconds since the last packet was successfully received by an interface. Useful for knowing when a dead interface failed. This counter is updated only when packets are process switched, not when packets are fast switched.
|
Last output
|
Number of hours, minutes, and seconds since the last packet was successfully transmitted by an interface. This counter is updated only when packets are process switched, not when packets are fast switched.
|
output hang
|
Number of hours, minutes, and seconds (or never) since the interface was last reset because of a transmission that took too long. When the number of hours in any of the "last" fields exceeds
24 hours, the number of days and hours is printed. If that field overflows, asterisks are printed.
|
Last clearing
|
The time at which the counters that measure cumulative statistics (such as number of bytes transmitted and received) shown in this report were last reset to zero. Note that variables that might affect routing (for example, load and reliability) are not cleared when the counters are cleared.
*** indicates the elapsed time is too large to be displayed.
0:00:00 indicates the counters were cleared more than 231ms (and less than 232ms) ago.
|
Queueing strategy
|
First-in, first-out queuing strategy (other queueing strategies you might see are priority-list, custom-list, and weighted fair).
|
Output queue, drops
input queue, drops
|
Number of packets in output and input queues. Each number is followed by a slash, the maximum size of the queue, and the number of packets dropped due to a full queue.
|
5 minute input rate,
5 minute output rate
|
Average number of bits and packets transmitted per second in the last 5 minutes.
|
packets input
|
Total number of error-free packets received by the system.
|
bytes input
|
Total number of bytes, including data and MAC encapsulation, in the error free packets received by the system.
|
no buffer
|
Number of received packets discarded because there was no buffer space in the main system. Compare with ignored count. Broadcast storms on Ethernets and bursts of noise on serial lines are often responsible for no input buffer events.
|
broadcasts
|
Total number of broadcast or multicast packets received by the interface.
|
runts
|
Number of packets that are discarded because they are smaller than the medium's minimum packet size.
|
giants
|
Number of packets that are discarded because they exceed the medium's maximum packet size.
|
input errors
|
Total number of no buffer, runts, giants, CRCs, frame, overrun, ignored, and abort counts. Other input-related errors can also increment the count, so that this sum may not balance with the other counts.
|
CRC
|
Cyclic redundancy checksum generated by the originating LAN station or far end device does not match the checksum calculated from the data received. On a LAN, this usually indicates noise or transmission problems on the LAN interface or the LAN bus itself. A high number of CRCs is usually the result of collisions or a station transmitting bad data. On a serial link, CRCs usually indicate noise, gain hits or other transmission problems on the data link.
|
frame
|
Number of packets received incorrectly having a CRC error and a noninteger number of octets.
|
overrun
|
Number of times the serial receiver hardware was unable to hand received data to a hardware buffer because the input rate exceeded the receiver's ability to handle the data.
|
ignored
|
Number of received packets ignored by the interface because the interface hardware ran low on internal buffers. These buffers are different than the system buffers mentioned previously in the buffer description. Broadcast storms and bursts of noise can cause the ignored count to be incremented.
|
abort
|
Illegal sequence of one bits on the interface. This usually indicates a clocking problem between the interface and the data link equipment.
|
packets output
|
Total number of messages transmitted by the system.
|
bytes
|
Total number of bytes, including data and MAC encapsulation, transmitted by the system.
|
underruns
|
Number of times that the transmitter has been running faster than the router can handle. This may never be reported on some interfaces.
|
output errors
|
Sum of all errors that prevented the final transmission of datagrams out of the interface being examined. Note that this may not balance with the sum of the enumerated output errors, as some datagrams may have more than one error, and others may have errors that do not fall into any of the specifically tabulated categories.
|
collisions
|
Because collisions do not occur on CBR interfaces, this statistic is always zero.
|
interface resets
|
Number of times an interface has been reset. The interface may be reset by the administrator or automatically when an internal error occurs.
|
output buffer failures
|
Number of no resource errors received on the output.
|
output buffers swapped out
|
Number of packets swapped to DRAM.
|
Related Commands
show interfaces atm
Use the show interfaces atm privileged EXEC command to display information about the ATM interface.
Cisco 7500 series with AIP; Cisco 7200 series with ATM, ATM-CES, and enhanced ATM port adapter; Cisco 2600 and 3600 series with 1-port ATM-25 network module
show interfaces atm [slot/port]
Cisco 7500 series routers with the ATM port adapter and enhanced ATM port adapter
show interfaces atm [slot/port-adapter/port]
Syntax Description
slot/port
|
(Optional) ATM slot number and port number. Use this format for the following platform configurations:
•The AIP on Cisco 7500 series routers.
•The ATM port adapter, ATM-CES port adapter, or enhanced ATM port adapter on Cisco 7200 series routers.
•The 1-port ATM-25 network module on Cisco 2600 and 3600 series routers.
|
slot/port-adapter/port
|
(Optional) ATM slot, port adapter, and port numbers. Use this format for the ATM port adapter or enhanced ATM port adapter on Cisco 2600 and 3600 series routers.
|
Command Modes
Privileged EXEC
Command History
Release
|
Modification
|
10.0
|
This command was introduced.
|
Examples
The following is sample output from the show interfaces atm command:
Router# show interfaces atm 4/0
ATM4/0 is up, line protocol is up
Internet address is 131.108.97.165, subnet mask is 255.255.255.0
MTU 4470 bytes, BW 100000 Kbit, DLY 100 usec, rely 255/255, load 1/255
ATM E164 Auto Conversion Interface
Encapsulation ATM, loopback not set, keepalive set (10 sec)
Encapsulation(s): AAL5, PVC mode
256 TX buffers, 256 RX buffers, 1024 Maximum VCs, 1 Current VCs
Signalling vc = 1, vpi = 0, vci = 5
ATM NSAP address: BC.CDEF.01.234567.890A.BCDE.F012.3456.7890.1234.13
Last input 0:00:05, output 0:00:05, output hang never
Last clearing of "show interface" counters never
Output queue 0/40, 0 drops; input queue 0/75, 0 drops
Five minute input rate 0 bits/sec, 0 packets/sec
Five minute output rate 0 bits/sec, 0 packets/sec
144 packets input, 3148 bytes, 0 no buffer
Received 0 broadcasts, 0 runts, 0 giants
0 input errors, 0 CRC, 0 frame, 0 overrun, 0 ignored, 0 abort
154 packets output, 4228 bytes, 0 underruns
0 output errors, 0 collisions, 1 interface resets, 0 restarts
The following is sample output from the show interfaces atm command for the ATM port adapter on a Cisco 7500 series router:
Router# show interfaces atm 0/0/0
ATM0/0/0 is up, line protocol is up
Internet address is 1.1.1.1/24
MTU 4470 bytes, sub MTU 4470, BW 156250 Kbit, DLY 80 usec, rely 255/255, load 1/255
Encapsulation ATM, loopback not set, keepalive set (10 sec)
Encapsulation(s): AAL5, PVC mode
256 TX buffers, 256 RX buffers,
2048 maximum active VCs, 1024 VCs per VP, 1 current VCCs
VC idle disconnect time: 300 seconds
Last input never, output 00:00:05, output hang never
Last clearing of "show interface" counters never
Output queue 0/40, 0 drops; input queue 0/75, 0 drops
5 minute input rate 0 bits/sec, 1 packets/sec
5 minute output rate 0 bits/sec, 1 packets/sec
5 packets input, 560 bytes, 0 no buffer
Received 0 broadcasts, 0 runts, 0 giants
0 input errors, 0 CRC, 0 frame, 0 overrun, 0 ignored, 0 abort
5 packets output, 560 bytes, 0 underruns
0 output errors, 0 collisions, 0 interface resets
0 output buffer failures, 0 output buffers swapped out
Table 44 describes the fields shown in both the displays.
Table 44 show interfaces atm Field Descriptions
Field
|
Description
|
ATM... is {up | down}
is administratively down
|
Indicates whether the interface hardware is currently active (whether carrier detect is present) and if it has been taken down by an administrator.
|
line protocol
is {up | down |
administratively down}
|
Indicates whether the software processes that handle the line protocol think the line is usable (that is, whether keepalives are successful).
|
Hardware is
|
Hardware type.
|
Internet address is
|
Internet address and subnet mask.
|
MTU
|
Maximum Transmission Unit of the interface.
|
sub MTU
|
Maximum Transmission Unit of the subinterface.
|
BW
|
Bandwidth of the interface in kilobits per second.
|
DLY
|
Delay of the interface in microseconds.
|
rely
|
Reliability of the interface as a fraction of 255 (255/255 is 100% reliability), calculated as an exponential average over 5 minutes.
|
load
|
Load on the interface as a fraction of 255 (255/255 is completely saturated), calculated as an exponential average over 5 minutes. The calculation uses the value from the bandwidth interface configuration command.
|
ATM E164 Auto Conversion Interface
|
Indicates that ATM E164 auto conversion is enabled. When this field is not present, ATM E164 auto conversion is disabled.
|
Encapsulation
|
Encapsulation method assigned to interface.
|
loopback
|
Indicates whether the interface is configured for loopback testing.
|
keepalive
|
Indicates whether keepalives are set or not.
|
Encapsulation(s)
|
Type of encapsulation used on the interface (for example, AAL5, and either PVC or SVC mode).
|
TX buffers
|
Number of buffers configured with the atm txbuff command.
|
RX buffers
|
Number of buffers configured with the atm rxbuff command.
|
Maximum active VCs
|
Maximum number of virtual circuits.
|
VCs per VP
|
Number of virtual circuits per virtual path (the default is 1024).
|
Current VCs
|
Number of virtual circuit connections currently open.
|
VC idle disconnect time
|
Number of seconds the SVC must be idle before the SVC is disconnected.
|
Signalling vc
|
Number of the signaling PVC.
|
vpi
|
Virtual path identifier number.
|
vci
|
Virtual channel identifier number.
|
ATM NSAP address
|
NSAP address of the ATM interface.
|
Last input
|
Number of hours, minutes, and seconds since the last packet was successfully received by an interface. Useful for knowing when a dead interface failed. This counter is updated only when packets are process switched, not when packets are fast switched.
|
Last output
|
Number of hours, minutes, and seconds since the last packet was successfully transmitted by an interface. This counter is updated only when packets are process switched, not when packets are fast switched.
|
output hang
|
Number of hours, minutes, and seconds (or never) since the interface was last reset because of a transmission that took too long. When the number of hours in any of the "last" fields exceeds
24 hours, the number of days and hours is printed. If that field overflows, asterisks are printed.
|
Last clearing
|
The time at which the counters that measure cumulative statistics (such as number of bytes transmitted and received) shown in this report were last reset to zero. Note that variables that might affect routing (for example, load and reliability) are not cleared when the counters are cleared.
*** indicates the elapsed time is too large to be displayed.
0:00:00 indicates the counters were cleared more than 231ms (and less than 232ms) ago.
|
Queueing strategy
|
First-in, first-out queueing strategy (other queueing strategies you might see are priority-list, custom-list, and weighted fair).
|
Output queue, drops
input queue, drops
|
Number of packets in output and input queues. Each number is followed by a slash, the maximum size of the queue, and the number of packets dropped due to a full queue.
|
5 minute input rate,
5 minute output rate
|
Average number of bits and packets transmitted per second in the last 5 minutes.
|
packets input
|
Total number of error-free packets received by the system.
|
bytes input
|
Total number of bytes, including data and MAC encapsulation, in the error free packets received by the system.
|
no buffer
|
Number of received packets discarded because there was no buffer space in the main system. Compare with ignored count. Broadcast storms on Ethernets and bursts of noise on serial lines are often responsible for no input buffer events.
|
Received broadcasts
|
Total number of broadcast or multicast packets received by the interface.
|
runts
|
Number of packets that are discarded because they are smaller than the medium's minimum packet size.
|
giants
|
Number of packets that are discarded because they exceed the medium's maximum packet size.
|
input errors
|
Total number of no buffer, runts, giants, CRCs, frame, overrun, ignored, and abort counts. Other input-related errors can also increment the count, so that this sum may not balance with the other counts.
|
CRC
|
Cyclic redundancy checksum generated by the originating LAN station or far end device does not match the checksum calculated from the data received. On a LAN, this usually indicates noise or transmission problems on the LAN interface or the LAN bus itself. A high number of CRC's is usually the result of collisions or a station transmitting bad data. On a serial link, CRC's usually indicate noise, gain hits or other transmission problems on the data link.
|
frame
|
Number of packets received incorrectly having a CRC error and a noninteger number of octets.
|
overrun
|
Number of times the serial receiver hardware was unable to hand received data to a hardware buffer because the input rate exceeded the receiver's ability to handle the data.
|
ignored
|
Number of received packets ignored by the interface because the interface hardware ran low on internal buffers. These buffers are different than the system buffers mentioned previously in the buffer description. Broadcast storms and bursts of noise can cause the ignored count to be incremented.
|
abort
|
Illegal sequence of one bits the interface. This usually indicates a clocking problem between the interface and the data link equipment.
|
packets output
|
Total number of messages transmitted by the system.
|
bytes
|
Total number of bytes, including data and MAC encapsulation, transmitted by the system.
|
underruns
|
Number of times that the transmitter has been running faster than the router can handle. This may never be reported on some interfaces.
|
output errors
|
Sum of all errors that prevented the final transmission of datagrams out of the interface being examined. Note that this may not balance with the sum of the enumerated output errors, as some datagrams may have more than one error, and others may have errors that do not fall into any of the specifically tabulated categories.
|
collisions
|
This feature is not applicable for ATM interfaces.
|
interface resets
|
Number of times an interface has been completely reset. This can happen if packets queued for transmission were not sent within several seconds. On a serial line, this can be caused by a malfunctioning modem that is not supplying the transmit clock signal, or by a cable problem. If the system notices that the carrier detect line of a serial interface is up, but the line protocol is down, it periodically resets the interface in an effort to restart it. Interface resets can also occur when an interface is looped back or shut down.
|
output buffer failures
|
Number of times that a packet was not output from the output hold queue because of a shortage of MEMD shared memory.
|
output buffers swapped out
|
Number of packets stored in main memory when the output queue is full; swapping buffers to main memory prevents packets from being dropped when output is congested. The number is high when traffic is bursty.
|
restarts
|
Number of times the controller was restarted because of errors.
|
show network-clocks
To display the current configured and active network clock sources, use the show network-clocks privileged EXEC command.
show network-clocks
Syntax Description
This command has no arguments or keywords.
Command Modes
EXEC
Command History
Release
|
Modification
|
11.1
|
This command was introduced.
|
Usage Guidelines
This command applies to Voice over Frame Relay, Voice over ATM, and Voice over HDLC on the Cisco MC3810.
The Cisco MC3810 has a background task that verifies whether a valid clocking configuration exists every 120 seconds. If this task detects an error, you will be reminded every 120 seconds until the error is corrected. A clocking configuration error may be generated for various reasons. Using the show network-clocks command, you can display the clocking configuration status.
Examples
The following is sample output from the show network-clocks EXEC command.
Switch# show network-clocks
Priority 1 clock source: ATM3/0/0
Priority 2 clock source: System clock
Priority 3 clock source: System clock
Priority 4 clock source: System clock
Current clock source:ATM3/0/0, priority:1
The following is sample output from the show network-clocks command on the Cisco MC3810:
router# show network-clocks
Priority 1 clock source(inactive config): T1 0
Priority 1 clock source(active config) : T1 0
T1 0 is clocking system bus for 9319 seconds.
Run Priority Queue: controller0
In this display, inactive configuration is the new configuration that has been established. Active configuration is the run-time configuration. Should an error be made in the new configuration, the inactive and active configurations will be different. In the above example, the clock priority configuration is valid, and the system is being clocked as indicated.
The following is another sample output from the show network-clocks command:
router# show network-clocks
Priority 1 clock source(inactive config) : T1 0
Priority 2 clock source(inactive config) : T1 1
Priority 1 clock source(active config) : T1 0
T1 0 is clocking system bus for 9319 seconds.
Run Priority Queue: controller0
In this display, the new clocking configuration has an error for controller T1 1. This is indicated by checking differences between the last valid configuration (active) and the new proposed configuration (inactive). The error may result from hardware (the system controller board or MFT) unable to support this mode, or controller T1 1 is currently configured as "clock source internal."
Since the active and inactive configurations are different, the system will periodically display the warning message about the wrong configuration.
Related Commands
Command
|
Description
|
network-clock-select (ATM)
|
Establishes the sources and priorities of the requisite clocking signals for an ATM-CES port adapter.
|
show sscop
To show Service-Specific Connection-Oriented Protocol (SSCOP) details for all ATM interfaces, use the show sscop privileged EXEC command.
show sscop
Syntax Description
This command has no arguments or keywords.
Command Modes
Privileged EXEC
Command History
Release
|
Modification
|
10.0
|
This command was introduced.
|
Examples
The following is sample output from the show sscop command:
SSCOP details for interface ATM4/0
Current State = Data Transfer Ready
Send Sequence Number: Current = 2, Maximum = 9
Send Sequence Number Acked = 3
Rcv Sequence Number: Lower Edge = 2, Upper Edge = 2, Max = 9
Poll Sequence Number = 1876, Poll Ack Sequence Number = 2
Connection Control: timer = 1000
Current Retry Count = 0, Maximum Retry Count = 10
Pdu's Sent = 0, Pdu's Received = 0, Pdu's Ignored = 0
Begin = 0/1, Begin Ack = 1/0, Begin Reject = 0/0
Resync = 0/0, Resync Ack = 0/0
Sequenced Data = 2/0, Sequenced Poll Data = 0/0
Poll = 1591/1876, Stat = 0/1591, Unsolicited Stat = 0/0
Unassured Data = 0/0, Mgmt Data = 0/0, Unknown Pdu's = 0
Table 45 describes the fields shown in the display. Interpreting this output requires a good understanding of the SSCOP; it is usually displayed by our technicians to help diagnose network problems.
Table 45 show sscop Field Descriptions
Field
|
Description
|
SSCOP details for interface
|
Interface slot and port.
|
Current State
|
SSCOP state for the interface.
|
Send Sequence Number
|
Current and maximum send sequence number.
|
Send Sequence Number Acked
|
Sequence number of packets already acknowledged.
|
Rcv Sequence Number
|
Sequence number of packets received.
|
Poll Sequence Number
|
Current poll sequence number.
|
Poll Ack Sequence Number
|
Poll sequence number already acknowledged.
|
Vt(Pd)
|
Number of sequenced data (SD) frames sent, which triggers a sending of a Poll frame.
|
Connection Control
|
Timer used for establishing and terminating SSCOP.
|
Keep Alive Timer
|
Timer used to send keepalives on an idle link.
|
Current Retry Count
|
Current count of the retry counter.
|
Maximum Retry Count
|
Maximum value the retry counter can take.
|
Pdu's Sent
|
Total number of SSCOP frames sent.
|
Pdu's Received
|
Total number of SSCOP frames received.
|
Pdu's Ignored
|
Number of invalid SSCOP frames ignored.
|
Begin
|
Number of Begin frames sent/received.
|
Begin Ack
|
Number of Begin Ack frames sent/received.
|
Begin Reject
|
Number of Begin Reject frames sent/received.
|
End
|
Number of End frames sent/received.
|
End Ack
|
Number of End Ack frames sent/received.
|
Resync
|
Number of Resync frames sent/received.
|
Resync Ack
|
Number of Resync Ack frames sent/received.
|
Sequenced Data
|
Number of Sequenced Data frames sent/received.
|
Sequenced Poll Data
|
Number of Sequenced Poll Data frames sent/received.
|
Poll
|
Number of Poll frames sent/received.
|
Stat
|
Number of Stat frames sent/received.
|
Unsolicited Stat
|
Number of Unsolicited Stat frames sent/received.
|
Unassured Data
|
Number of Unassured Data frames sent/received.
|
Mgmt Data
|
Number of Mgmt Data frames sent/received.
|
Unknown Pdu's
|
Number of Unknown Pdu's frames sent/received.
|
sscop cc-timer
To change the connection control timer, use the sscop cc-timer interface configuration command. To restore the default value, use the no form of this command.
sscop cc-timer seconds
no sscop cc-timer
Syntax Description
seconds
|
Number of seconds between Begin messages.
|
Defaults
1 second
Command Modes
Interface configuration
Command History
Release
|
Modification
|
10.0
|
This command was introduced.
|
Usage Guidelines
The connection control timer determines the time between transmission of BGN (establishment), END (release), or RS (resynchronization) protocol data units (PDUs) as long as an acknowledgment has not been received.
Examples
The following example sets the connection control timer 15 seconds:
Related Commands
Command
|
Description
|
sscop max-cc
|
Changes the SSCOP retry count of connection control.
|
sscop keepalive-timer
To change the keepalive timer, use the sscop keepalive-timer interface configuration command. The no form of this command restores the default value.
sscop keepalive-timer seconds
no sscop keepalive-timer seconds
Syntax Description
seconds
|
Number of seconds the router waits between transmission of POLL PDUs when no sequential data (SD) or SDP PDUs are queued for transmission or are outstanding pending acknowledgments.
|
Defaults
5 seconds
Command Modes
Interface configuration
Command History
Release
|
Modification
|
10.0
|
This command was introduced.
|
Examples
The following example sets the keepalive timer to 15 seconds:
sscop max-cc
To change the retry count of connection control, use the sscop max-cc interface configuration command. The no form of this command restores the default value.
sscop max-cc retries
no sscop max-cc
Syntax Description
retries
|
Number of times that SSCOP will retry to transmit BGN (establishment), END (release), or RS (resynchronization) PDUs as long as an acknowledgment has not been received. Valid range is 1 to 6000.
|
Defaults
10 retries
Command Modes
Interface configuration
Command History
Release
|
Modification
|
10.0
|
This command was introduced.
|
Examples
The following example sets the retry count of the connection control to 20:
Related Commands
Command
|
Description
|
sscop cc-timer
|
Changes the SSCOP connection control timer.
|
sscop poll-timer
To change the poll timer, use the sscop poll-timer interface configuration command. The no form of this command restores the default value.
sscop poll-timer seconds
no sscop poll-timer
Syntax Description
seconds
|
Number of seconds the router waits between transmission of POLL PDUs.
|
Defaults
100 seconds
Command Modes
Interface configuration
Command History
Release
|
Modification
|
10.0
|
This command was introduced.
|
Usage Guidelines
The poll timer controls the maximum time between transmission of POLL PDUs when SD or SDP PDUs are queued for transmission or are outstanding pending acknowledgments.
Examples
The following example sets the poll timer to 15 seconds:
sscop receive-window
To change the receiver window, use the sscop receive-window interface configuration command. The no form of this command restores the default value.
sscop receive-window packets
no sscop receive-window
Syntax Description
packets
|
Number of packets the interface can receive before it must send an acknowledgment to the ATM switch. Valid range is 1 to 6000.
|
Defaults
7 packets
Command Modes
Interface configuration
Command History
Release
|
Modification
|
10.0
|
This command was introduced.
|
Examples
The following example sets the receiver's window to 10 packets:
sscop send-window
To change the transmitter window, use the sscop send-window interface configuration command. The no form of this command restores the default value.
sscop send-window packets
no sscop send-window
Syntax Description
packets
|
Number of packets the interface can send before it must receive an acknowledgment from the ATM switch. Valid range is 1 to 6000.
|
Defaults
7 packets
Command Modes
Interface configuration
Command History
Release
|
Modification
|
10.0
|
This command was introduced.
|
Examples
The following example sets the transmitter's window to 10 packets:
svc
To create an ATM SVC and specify the destination NSAP address on a main interface or subinterface, use the svc interface configuration command. To disable the SVC, use the no form of this command.
svc [name] nsap address
no svc [name] nsap address
Syntax Description
name
|
(Optional) The name of the SVC and map. The name can be up to 16 characters long.
|
nsap address
|
The destination ATM NSAP address. Must be exactly 40 hexadecimal digits long and in the correct format. See the "Usage Guidelines" section below.
|
Defaults
No NSAP address is defined.
Command Modes
Interface configuration
Command History
Release
|
Modification
|
11.3
|
This command was introduced.
|
Usage Guidelines
Once you specify a name for an SVC, you can reenter the interface-ATM-VC configuration mode by simply entering svc name. You can remove an NSAP address any associated parameters by entering no svc name or no svc nsap address.
Note After configuring the parameters for an ATM SVC, you must exit the interface-ATM-VC configuration mode in order to enable the SVC settings.
Examples
The following example creates an SVC with the name lion and specifies the 40-digit hexadecimal destination ATM NSAP address:
svc lion nsap 47.0091.81.000000.0040.0B0A.2501.ABC1.3333.3333.05
ubr
To select Unspecified Bit Rate (UBR) QOS and configure the output peak cell rate for an ATM PVC, SVC, or VC class, use the ubr command in the appropriate command mode. Use the no form of this command to remove the UBR parameter.
ubr output-pcr [input-pcr]
no ubr output-pcr [input-pcr]
Syntax Description
output-pcr
|
The output peak cell rate in kilobits per second.
|
input-pcr
|
(Optional for SVCs only) The input peak cell rate in kilobits per second. If this value is omitted, the input-pcr will equal the output-pcr.
|
Defaults
UBR QOS at the maximum line rate of the physical interface.
Command Modes
Interface-ATM-VC configuration (for an ATM PVC or SVC). VC-class configuration (for a VC class)
Command History
Release
|
Modification
|
11.3
|
This command was introduced.
|
Usage Guidelines
To configure ATM SVCs with an output peak cell rate and an input peak cell rate that differ from each other, you must expressly configure an output value and an input value using the output-pcr and input-pcr arguments, respectively.
Configure QOS parameters using the ubr, ubr+ or vbr-nrt command. The last command you enter will apply to the PVC or SVC you are configuring.
If the ubr command is not explicitly configured on an ATM PVC or SVC, the VC inherits the following default configuration (listed in order of next highest precedence):
•Configuration of any QOS command (ubr, ubr+, or vbr-nrt) in a VC class assigned to the PVC or SVC itself.
•Configuration of any QOS command (ubr, ubr+, or vbr-nrt) in a VC class assigned to the PVC's or SVC's ATM subinterface.
•Configuration of any QOS command (ubr, ubr+, or vbr-nrt) in a VC class assigned to the PVC's or SVC's ATM main interface.
•Global default: UBR QOS at the maximum line rate of the PVC or SVC.
Examples
The following example specifies the output-pcr for an ATM PVC to be 100,000 Kbps:
The following example specifies the output-pcr and input-pcr for an ATM SVC to be 10,000 Kbps and 9000 Kbps, respectively:
svc lion nsap 47.0091.81.000000.0040.0B0A.2501.ABC1.3333.3333.05
Related Commands
Command
|
Description
|
abr
|
Selects ABR QoS and configures output peak cell rate and output minimum guaranteed cell rate for an ATM PVC or VC class.
|
ubr+
|
Selects UBR QoS and configures the output peak cell rate and output minimum guaranteed cell rate for an ATM PVC, SVC, or VC class.
|
vbr-nrt
|
Configures the VBR-NRT QoS and specifies output peak cell rate, output sustainable cell rate, and output maximum burst cell size for an ATM PVC, SVC, or VC class.
|
ubr+
To select Unspecified Bit Rate (UBR) QOS and configure the output peak cell rate and output minimum guaranteed cell rate for an ATM PVC, SVC, or VC class, use the ubr+ command in the appropriate command mode. Use the no form of this command to remove the UBR+ parameters.
ubr+ output-pcr output-mcr [input-pcr] [input-mcr]
no ubr+ output-pcr output-mcr [input-pcr] [input-mcr]
Syntax Description
output-pcr
|
The output peak cell rate in kilobits per second.
|
output-mcr
|
The output minimum guaranteed cell rate in kilobits per second.
|
input-pcr
|
(Optional for SVCs only) The input peak cell rate in kilobits per second. If this value is omitted, the input-pcr will equal the output-pcr.
|
input-mcr
|
(Optional for SVCs only) The input minimum guaranteed cell rate in kilobits per second. If this value is omitted, the input-mcr will equal the output-mcr.
|
Defaults
UBR QOS at the maximum line rate of the physical interface.
Command Modes
Interface-ATM-VC configuration (for an ATM PVC or SVC). VC-class configuration (for a VC class)
Command History
Release
|
Modification
|
11.3
|
This command was introduced.
|
Usage Guidelines
To configure ATM SVCs with an output rate and input rates that differ from each other, you must expressly configure output values and input values using the output-pcr, output-mcr, input-pcr, and input-mcr, arguments, respectively.
Configure QOS parameters using the ubr, ubr+ or vbr-nrt command. The last command you enter will apply to the PVC or SVC you are configuring.
If the ubr+ command is not explicitly configured on an ATM PVC or SVC, the VC inherits the following default configuration (listed in order of next highest precedence):
•Configuration of any QOS command (ubr, ubr+, or vbr-nrt) in a VC class assigned to the PVC or SVC itself.
•Configuration of any QOS command (ubr, ubr+, or vbr-nrt) in a VC class assigned to the PVC's or SVC's ATM subinterface.
•Configuration of any QOS command (ubr, ubr+, or vbr-nrt) in a VC class assigned to the PVC's or SVC's ATM main interface.
•Global default value: UBR QOS at the maximum line rate of the PVC or SVC.
Examples
The following example specifies the output-pcr to be 100,000 Kbps and the output-mcr to be 3000 Kbps for an ATM PVC:
The following example specifies the output-pcr, output-mcr, input-pcr, and input-mcr for an ATM SVC to be 10,000 Kbps, 3000 Kbps, 9000 Kbps, and 1000 Kbps, respectively:
svc lion nsap 47.0091.81.000000.0040.0B0A.2501.ABC1.3333.3333.05
ubr+ 10000 3000 9000 1000
Related Commands
Command
|
Description
|
abr
|
Selects ABR QoS and configures output peak cell rate and output minimum guaranteed cell rate for an ATM PVC or VC class.
|
ubr
|
Selects UBR QoS and configures the output peak cell rate for an ATM PVC, SVC, or VC class.
|
vbr-nrt
|
Configures the VBR-NRT QoS and specifies output peak cell rate, output sustainable cell rate, and output maximum burst cell size for an ATM PVC, SVC, or VC class.
|
vbr-nrt
To configure the Variable Bit Rate-Non Real Time (VBR-NRT) QOS and specify output peak cell rate, output sustainable cell rate, and output maximum burst cell size for an ATM PVC, SVC, or VC class, use the vbr-nrt command in the appropriate command mode. Use the no form of this command to remove the VBR-NRT parameters.
vbr-nrt output-pcr output-scr output-mbs [input-pcr] [input-scr] [input-mbs]
no vbr-nrt output-pcr output-scr output-mbs [input-pcr] [input-scr] [input-mbs]
Syntax Description
output-pcr
|
The output peak cell rate in kilobits per second.
|
output-scr
|
The output sustainable cell rate in kilobits per second.
|
output-mbs
|
The output maximum burst cell size expressed in number of cells.
|
input-pcr
|
(Optional for SVCs only) The input peak cell rate in kilobits per second.
|
input-scr
|
(Optional for SVCs only) The input sustainable cell rate in kilobits per second.
|
input-mbs
|
(Optional for SVCs only) The input maximum burst cell size expressed in number of cells.
|
Defaults
UBR QOS at the maximum line rate of the physical interface.
Command Modes
Interface-ATM-VC configuration (for an ATM PVC or SVC). VC-class configuration (for a VC class)
Command History
Release
|
Modification
|
11.3
|
This command was introduced.
|
Usage Guidelines
Configure QOS parameters using the ubr, ubr+ or vbr-nrt command. The last command you enter will apply to the PVC or SVC you are configuring.
If the vbr-nrt command is not explicitly configured on an ATM PVC or SVC, the VC inherits the following default configuration (listed in order of next highest precedence):
•Configuration of any QOS command (ubr, ubr+, or vbr-nrt) in a VC class assigned to the PVC or SVC itself.
•Configuration of any QOS command (ubr, ubr+, or vbr-nrt) in a VC class assigned to the PVC's or SVC's ATM subinterface.
•Configuration of any QOS command (ubr, ubr+, or vbr-nrt) in a VC class assigned to the PVC's or SVC's ATM main interface.
•Global default: UBR QOS at the maximum line rate of the PVC or SVC.
Examples
The following example specifies the output-pcr to be 100,000 Kbps, the output-scr to be 50,000 Kbps, and the output-mbs to be 64:
The following example specifies the VBR-NRT output and input parameters for an ATM SVC:
svc lion nsap 47.0091.81.000000.0040.0B0A.2501.ABC1.3333.3333.05
vbr-nrt 10000 5000 32 20000 10000 64
Related Commands
Command
|
Description
|
abr
|
Selects ABR QoS and configures output peak cell rate and output minimum guaranteed cell rate for an ATM PVC or VC class.
|
ubr
|
Selects UBR QoS and configures the output peak cell rate for an ATM PVC, SVC, or VC class.
|
ubr+
|
Selects UBR QoS and configures the output peak cell rate and output minimum guaranteed cell rate for an ATM PVC, SVC, or VC class.
|
vbr-rt
To configure the real-time variable bit rate (VBR) for voice connections on the Cisco MC3810, use the vbr-rt interface configuration command. Use the no form of this command to restore the default value.
vbr-rt peak-rate average-rate burst
no vbr-rt peak-rate average-rate burst
Syntax Description
peak-rate
|
The Peak Information Rate (PIR) of the voice connection in Kbps. The range is from 56 to 10,000.
|
average-rate
|
The Average Information Rate (AIR) of the voice connection in Kbps. The range is from 1 to 56.
|
burst
|
Burst size in number of cells. The range is from 0 to 65536.
|
Defaults
No vbr-rt settings are configured.
Command Modes
ATM Virtual Circuit configuration
Command History
Release
|
Modification
|
12.0
|
This command was introduced.
|
Usage Guidelines
This command applies to Voice over ATM on the Cisco MC3810.
The vbr-rt command configures traffic shaping between voice and data PVCs. Traffic shaping is required so that the carrier does not discard calls. To configure voice and data traffic shaping, you must configure the peak, average, and burst options for voice traffic. Configure the burst value if the PVC will be carrying bursty traffic. The peak, average, and burst values are needed so the PVC can effectively handle the bandwidth for the number of voice calls. To calculate the minimum peak, average, and burst values for the number of voice calls, use the following calculations:
•Peak value: (2 x the maximum number of calls) x 16 kb
•Average value: (1 x the maximum number of calls) x 16 kb
•Burst value: (4 x the maximum number of calls)
Note When you configure data PVCs that will be traffic shaped with voice PVCs, use the aalsnap encapsulation and calculate the overhead as 1.13 times the voice rate.
Examples
The following example configures the traffic shaping rate for ATM PVC 20 on a Cisco MC3810. In the example, the peak, average and burst rates are calculated based on a maximum of 20 calls on the PVC.
encapsulation aal5mux voice
Related Commands
Command
|
Description
|
encapsulation aal5
|
Configures the AAL and encapsulation type for an ATM PVC, SVC, or VC class.
|
vc-class atm
To create a VC class for an ATM PVC, SVC, or ATM interface and enter vc-class configuration mode, use the vc-class atm global configuration command. Use the no form of this command to remove a VC class.
vc-class atm name
no vc-class atm name
Syntax Description
name
|
Name of your VC class.
|
Defaults
No VC class is defined.
Command Modes
Global configuration
Command History
Release
|
Modification
|
11.3 T
|
This command was introduced.
|
Usage Guidelines
The following commands can be configured once you are inside a VC class:
•broadcast
•encapsulation
•idle-timeout
•ilmi manage
•inarp
•oam-pvc
•oam retry
•oam-svc
•protocol
•ubr
•ubr+
•vbr-nrt
If an SVC command (for example, the idle-timeout or oam-svc command) is applied on a PVC, the command is ignored. This is also true if a PVC command is applied to an SVC.
Examples
The following example creates a VC class named pvc-qos:
