Voice and Quality of Service Features for ADSL and G.SHDSL on Cisco 1700, Cisco 2600, and Cisco 3600 Series Routers
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Table Of Contents
Class-Based Packet Marking with Differentiated Services
Dial-Peer DSCP and IP Precedence Marking
Class-Based Weighted Fair Queueing
Class-Based WRED with DSCP (egress)
MLP with LFI - Bundling of VCs Across xDSL Interfaces
F5 OAM CC Segment Functionality
H.323 and Media Gateway Control Protocol
Supported Standards, MIBs, and RFCs
Configuring the Error Duration for Digital Subscriber Line Access Multiplexers
Differentiated Data Services over ADSL Example
Verifying the Differentiated Data Services over ADSL Configuration
VoIP and Data over ADSL Example
Verifying the VoIP and Data over ADSL Configuration
Tx Ring-Limit Tuning over ADSL Example
MLP with LFI over G.SHDSL Example
Verifying the MLP with LFI over G.SHDSL Configuration
Voice and Quality of Service Features for ADSL and G.SHDSL on Cisco 1700, Cisco 2600, and Cisco 3600 Series Routers
Feature History
This document describes the voice and quality of service (QoS) features for asymmetric digital subscriber lines (ADSL) and for single-pair high-bit-rate digital subscriber lines (G.SHDSL) on Cisco 1700 series, Cisco 2600 series, and Cisco 3600 series routers in Cisco IOS Release 12.2(13)T.
This document includes the following sections:
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Supported Standards, MIBs, and RFCs
Feature Overview
Cisco 1700 series, Cisco 2600 series, and Cisco 3600 series routers with ADSL or G.SHDSL WAN interface cards support the integration of voice and data over the same ADSL or G.SHDSL circuit using Voice over IP (VoIP). Cisco 2600 series and Cisco 3600 series routers with ADSL or G.SHDSL WAN interface cards also support the integration of voice and data over the same ADSL or G.SHDSL circuit using Voice over ATM (VoATM).
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Release 12.2(4)XL
Quality of service (QoS) features make it possible to effectively combine voice and data traffic in the same WAN connection without sacrificing quality and reliability. Service providers can increase revenue by building differentiated service options based on premium, standard, or best-effort service classes.
The following voice and QoS features are supported in the Cisco IOS Release 12.2(13)T.
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Table 1 lists the voice and QoS features for ADSL and G.SHDSL and the releases in which they are available.
Classification and Marking
The following existing Cisco IOS classification and marking features are supported on ADSL and G.SHDSL WICs:
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Class-Based Packet Marking with Differentiated Services
For information about class-based packet marking with differentiated services, refer to the following document:
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Committed Access Rate
For information about committed access rate (CAR), refer to the following document:
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Dial-Peer DSCP and IP Precedence Marking
For information about dial-peer differentiated services code points (DSCPs) and IP precedence marking, refer to the following document:
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Local Policy Routing
For information about local policy routing (LPR), refer to the following documents:
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Policy-Based Routing
For information about policy-based routing (PBR), refer to the following documents:
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Queueing and Scheduling
The following existing Cisco IOS queueing and scheduling features are supported on ADSL WICs and G.SHDSL WICs:
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Class-Based Weighted Fair Queueing
For information about class-based weighted fair queueing (CBWFQ), refer to the following document:
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Low Latency Queueing
For information about low latency queueing (LLQ), refer to the following documents:
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Per-VC Queueing
Per-virtual circuit (per-VC) queueing is supported on ADSL and G.SHDSL interfaces at the driver level, similar to VC-queueing features on other ATM interfaces. This feature underlies many of the Cisco IOS QoS queueing features, such as LLQ.
For more information about per-VC queueing, refer to the following documents:
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and 2600 RoutersCongestion Avoidance
The following existing Cisco IOS congestion avoidance feature is supported on ADSL and G.SHDSL WICs:
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Class-Based WRED with DSCP (egress)
For information about class-based weighted random early detection (WRED), refer to the following documents:
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Policing and Traffic Shaping
The following existing Cisco IOS policing and shaping features are now supported on ADSL and G.SHDSL WICs:
Class-Based Policing
For information about traffic classes and traffic policies, refer to the following document:
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VC Shaping for VBR-NRT
For information about VC shaping for variable bit rate-nonreal time (VBR-NRT), refer to the following document:
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Link Latency
The following link latency features are supported on ADSL and G.SHDSL WICs:
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MLP with LFI - Bundling of VCs Across xDSL Interfaces
For information about the Multilink PPP Link Fragmentation and Interleaving (MLP and LFI) - Bundling of VCs Across ADSL and G.SHDSL (xDSL) Interfaces feature, refer to the following document:
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Tunable Transmission Ring
The tx ring is the first-in, first-out (FIFO) buffer used to hold frames before transmission at the DSL driver level. The tx ring defines the maximum number of packets that can wait for transmission at Layer 2.
The tx ring complements the ability of LLQ to minimize jitter and latency of voice packets. For maximum voice quality, a low tx ring setting should be used. For maximum data throughput, a high tx ring setting should be used.
You can configure the size of the tx ring for each permanent virtual circuit (PVC). The default value is 60. However, the value of the setting can be changed to 2 or 3. (The only permitted values are 2, 3, or 60). A low tx ring setting, such as 2 or 3, is required for latency-critical traffic. For example, when the tx ring limit is configured as 3 and LLQ is configured on the PVC, the worst case delay for a voice packet is the time required to transmit three data packets. When the buffering is reduced by configuring the tx ring limit, the delay experienced by voice packets is reduced by a combination of the tx ring and LLQ mechanism.
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Other (IP QoS)
The following IP QoS features are supported on ADSL and G.SHDSL WICs:
Access Control Lists
For information about configuring access control lists, refer to the following document:
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IP QoS Map to ATM CoS
For information about IP QoS map to ATM class of service (CoS), refer to the following document:
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Additional Supported Features
The following existing IOS features are supported on ADSL and G.SHDSL WICs:
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F5 OAM CC Segment Functionality
For information about F5 Operation, Administration, and Maintenance Continuity Check (F5 OAM CC) segment functionality, refer to the following documents:
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H.323 and Media Gateway Control Protocol
For information about Cisco H.323 and Media Gateway Control Protocol (MGCP) features, refer to the following documents:
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ILMI
For information about Integrated Local Management Interface (ILMI) protocol implementation for Cisco digital subscriber loop access multiplexers (DSLAMs) with N1-2 cards, refer to the following document:
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Multiple PVC Support
For information about PVCs, refer to the following documents:
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RFC 1483 Routing
For information about ATM and ATM adaptation layers (AALs), refer to the following document:
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For information regarding AAL5 Subnetwork Access Protocol (AAL5SNAP) encapsulations, refer to the following document:
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Benefits
QoS provides improved and more predictable network service for ADSL and G.SHDSL by
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Restrictions
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Related Documents
Table 2 lists related documents about the Voice and QoS for ADSL and G.SHDSL features on Cisco 1700, Cisco 2600, and Cisco 3600 series routers.
Table 2 Related Documents
ADSL WAN interface card
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ATM, configuring
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Caveat information for the Cisco 1700 series, Cisco 2600 series, and Cisco 3600 series routers
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Dial-peer DSCPs and IP precedence marking
The chapter "Quality of Service for Voice over IP" in the Cisco IOS Quality of Service Solutions
F5 OAM CC segment functionality
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G.SHDSL WAN interface card
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ILMI
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IP, configuring
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Local policy routing
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Per-VC queueing
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and 2600 RoutersQoS, configuring
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QoS features on Cisco 1700 series routers
VC shaping for VBR-NRT
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Voice configuration
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WRED
Supported Platforms
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Determining Platform Support Through Feature Navigator
Cisco IOS software is packaged in feature sets that are supported on specific platforms. To get updated information regarding platform support for this feature, access Cisco Feature Navigator. Cisco Feature Navigator dynamically updates the list of supported platforms as new platform support is added for the feature.
Cisco Feature Navigator is a web-based tool that enables you to determine which Cisco IOS software images support a specific set of features and which features are supported in a specific Cisco IOS image. You can search by feature or release. Under the release section, you can compare releases side by side to display both the features unique to each software release and the features in common.
To access Cisco Feature Navigator, you must have an account on Cisco.com. If you have forgotten or lost your account information, send a blank e-mail to cco-locksmith@cisco.com. An automatic check will verify that your e-mail address is registered with Cisco.com. If the check is successful, account details with a new random password will be e-mailed to you. Qualified users can establish an account on Cisco.com by following the directions found at this URL:
Cisco Feature Navigator is updated regularly when major Cisco IOS software releases and technology releases occur. For the most current information, go to the Cisco Feature Navigator home page at the following URL:
Availability of Cisco IOS Software Images
Platform support for particular Cisco IOS software releases is dependent on the availability of the software images for those platforms. Software images for some platforms may be deferred, delayed, or changed without prior notice. For updated information about platform support and availability of software images for each Cisco IOS software release, refer to the online release notes or, if supported, Cisco Feature Navigator.
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Supported Standards, MIBs, and RFCs
Standards
No new or modified standards are supported by this feature.
MIBs
No new or modified MIBs are supported by this feature.
To locate and download MIBs for selected platforms, Cisco IOS releases, and feature sets, use Cisco MIB Locator found at the following URL:
http://tools.cisco.com/ITDIT/MIBS/servlet/index
If Cisco MIB Locator does not support the MIB information that you need, you can also obtain a list of supported MIBs and download MIBs from the Cisco MIBs page at the following URL:
http://www.cisco.com/public/sw-center/netmgmt/cmtk/mibs.shtml
To access Cisco MIB Locator, you must have an account on Cisco.com. If you have forgotten or lost your account information, send a blank e-mail to cco-locksmith@cisco.com. An automatic check will verify that your e-mail address is registered with Cisco.com. If the check is successful, account details with a new random password will be e-mailed to you. Qualified users can establish an account on Cisco.com by following the directions found at this URL:
No new or modified RFCs are supported by these features.
RFCs
No new or modified RFCs are supported by this feature.
Prerequisites
To configure the voice and QoS features, you must first install and configure the ADSL or G.SHDSL WIC on your Cisco 1700 series, Cisco 2600 series, or Cisco 3600 series router. Refer to the installation and configuration instructions in the following documents:
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Configuration Tasks
See the following section to configure voice and QoS features over ADSL and G.SHDSL:
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Configuring the Error Duration for Digital Subscriber Line Access Multiplexers
To configure the error duration for digital subscriber line access multiplexers (DSLAMs), use the following command in interface configuration mode:
Configures the DSLAMs. The seconds argument has a valid range from 15 to 30 seconds.
Configuring the Tx Ring Limit
To configure the tx ring limit, use the following commands beginning in global configuration mode:
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Verifying the TX Ring Limit
The following output examples are for a tx ring limit over ADSL configuration:
The following show policy-map interface command output is for a tx ring-limit tuning configuration on a Cisco 2600 router. The show policy-map interface command displays the policy-map setup.
Router# show policy-map interface atm 0/1.1ATM0/1.1:VC 11/201 -Service-policy output:SERVICE-PACK-640Class-map:VOICE-CLASS (match-all)5295 packets, 402420 bytes30 second offered rate 30000 bps, drop rate 0 bpsMatch:access-group 100Weighted Fair QueueingStrict PriorityOutput Queue:Conversation 72Bandwidth 160 (kbps) Burst 4000 (Bytes)(pkts matched/bytes matched) 5295/402420(total drops/bytes drops) 0/0Class-map:class-default (match-any)42365 packets, 63625280 bytes30 second offered rate 4675000 bps, drop rate 4069000 bpsMatch:anyThe following show interfaces atm command output is for a tx ring-limit tuning configuration on a Cisco 2600 router. The show interfaces atm command displays statistics for the ATM interface.
Router# show interfaces atm0/1ATM0/1 is up, line protocol is upHardware is DSLSAR (with Globespan G.SHDSL module)MTU 4470 bytes, sub MTU 4470, BW 2304 Kbit, DLY 880 usec,reliability 255/255, txload 59/255, rxload 1/255Encapsulation ATM, loopback not setEncapsulation(s):AAL5, PVC mode23 maximum active VCs, 256 VCs per VP, 1 current VCCsVC idle disconnect time:300 secondsLast input 00:01:35, output 00:00:00, output hang neverLast clearing of "show interface" counters neverqueue:0/75/0/0 (size/max/drops/flushes); Total output drops:66321Queueing strategy:Nonesecond input rate 0 bits/sec, 0 packets/sec30 second output rate 541000 bits/sec, 93 packets/sec227 packets input, 5355 bytes, 0 no bufferReceived 0 broadcasts, 0 runts, 0 giants, 0 throttles15 input errors, 0 CRC, 0 frame, 0 overrun, 0 ignored, 0 abort517351 packets output, 133910269 bytes, 0 underruns93 output errors, 0 collisions, 2 interface resets0 output buffer failures, 0 output buffers swapped outThe following show queue command output for a tx ring-limit tuning configuration on a Cisco 2600 router displays the flow of traffic that is currently being transported over the ATM interface:
Router# show queue atm 0/1Interface ATM0/1 VC 11/201Queueing strategy:weighted fairOutput queue:65/512/64/52265 (size/max total/threshold/drops)Conversations 2/3/64 (active/max active/max total)Reserved Conversations 0/0 (allocated/max allocated)Available Bandwidth 320 kilobits/sec(depth/weight/total drops/no-buffer drops/interleaves) 1/0/0/0/0Conversation 72, linktype:ip, length:76source:10.1.1.204, destination:10.10.11.254, id:0x0000, ttl:59,TOS:160 prot:17, source port 400, destination port 400(depth/weight/total drops/no-buffer drops/interleaves) 64/32384/52267/0/0Conversation 49, linktype:ip, length:1502source:10.1.1.205, destination:10.10.11.254, id:0x0000, ttl:59,TOS:0 prot:17, source port 500, destination port 500The following show atm vc command outputs are for a tx ring-limit tuning configuration on a Cisco 2600 router. The show atm vc command displays all ATM PVCs and SVCs and traffic information.
Router# show atm vcVC not configured on interface ATM0/0VCD / Peak Avg/Min BurstInterface Name VPI VCI Type Encaps SC Kbps Kbps Cells Sts0/1.1 1 11 201 PVC SNAP VBR 640 64 0 UPRouter# show atm vc 1VC 1 doesn't exist on interface ATM0/0ATM0/1.1:VCD:1, VPI:11, VCI:201VBR-NRT, PeakRate:640, Average Rate:640, Burst Cells:0AAL5-LLC/SNAP, etype:0x0, Flags:0x2000020, VCmode:0x0OAM frequency:10 second(s)InARP frequency:15 minutes(s)InPkts:5, OutPkts:14707, InBytes:560, OutBytes:10698804InPRoc:5, OutPRoc:5InFast:0, OutFast:3, InAS:0, OutAS:0InPktDrops:0, OutPktDrops:56701/0/56701 (holdq/outputq/total)CrcErrors:0, SarTimeOuts:0, OverSizedSDUs:0, LengthViolation:0, CPIErrors:0OAM cells received:46OAM cells sent:51Status:UPConfiguration Examples
This section provides the following configuration examples:
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Differentiated Data Services over ADSL Example
The following is from a Cisco 1751 router. The output displays that the router is configured for differentiated services:
access-list 102 permit udp host 16.0.0.4 host 15.0.0.5access-list 103 permit udp host 16.0.0.4 host 13.0.0.5ip cefclass-map match-all traffic-INTRAmatch access-group 102class-map match-all traffic-INTERmatch access-group 103class-map match-all traffic-dscp1match ip dscp 1class-map match-any traffic-prec3match ip dscp 24match ip dscp 25match ip dscp 26match ip dscp 27policy-map ADSL-outclass traffic-INTRAbandwidth percent 8class traffic-dscp1set ip dscp 5class traffic-prec3set ip precedence 2class traffic-INTERbandwidth percent 8class class-defaultfair-queue!interface ATM0/0no ip addressno atm ilmi-keepalive!interface ATM0/0.1 point-to-pointdescription COLLEGAMENTOmtu 576ip address 1.0.0.1 255.0.0.0pvc 99/99protocol ip 2.0.0.2 broadcastvbr-nrt 142 142 1oam-pvc 0oam retry 5 5 1encapsulation aal5snapservice-policy out ADSL-out!dial-peer voice 201 voipdestination-pattern 3640200session target ipv4:14.0.0.3playout-delay maximum 300ip qos dscp cs4 mediaip qos dscp cs4 signalingThe following is from a Cisco 2600 router. The output displays how CBWFQ, CAR, and WRED can be applied in the same configuration to provide differentiated services using QoS:
Building configuration...Current configuration: 2603 bytes!version 12.2service timestamps debug uptimeservice timestamps log uptimeno service password-encryption!hostname 2600-1!memory-size iomem 20!ip subnet-zero!ip cef!class-map match-all GOLDmatch access-group 1class-map match-all SILVERmatch access-group 2!policy-map GOLD-160-DATA-PACK-640class GOLDbandwidth 160random-detect dscp-basedrandom-detect exponential-weighting-constant 3random-detect dscp 16 2 4 10random-detect dscp 32 4 12 10class SILVERbandwidth 320random-detect dscp-basedrandom-detect exponential-weighting-constant 3random-detect dscp 0 30 60 10set ip dscp 0!interface ATM0/0no ip addressload-interval 30atm vc-per-vp 256no atm ilmi-keepalivedsl operating-mode auto!interface ATM0/0.1 point-to-pointip address 192.168.1.2 255.255.255.0pvc 0/201protocol ip 192.168.1.1 broadcastvbr-nrt 640 640tx-ring-limit 3service-policy output GOLD-160-DATA-PACK-640!interface Ethernet0/0ip address 1.3.214.9 255.255.0.0half-duplex!interface Ethernet0/1ip address 10.1.1.1 255.255.255.0rate-limit input access-group 1 160000 4470 4470 conform-action set-dscp-transmit 32 exceed-action continuerate-limit input access-group 1 80000 4470 4470 conform-action set-dscp-transmit 16 exceed-action drophalf-duplex!ip classlessip route 10.10.11.200 255.255.255.255 192.168.3.1ip route 223.255.254.254 255.255.255.255 1.3.0.1ip http server!access-list 1 permit 10.1.1.201access-list 2 permit 10.1.1.202access-list 3 permit 10.1.1.203access-list 100 permit udp any any precedence critical!snmp-server managercall rsvp-syncalias exec s sh runalias exec c conf t!line con 0exec-timeout 0 0privilege level 15line aux 0line vty 0 4loginline vty 5 15login!Verifying the Differentiated Data Services over ADSL Configuration
The following show policy-map interface command output is for the CBWFQ, CAR, and WRED configuration. The show policy-map interface command displays the policy-map setup.
Router# show policy-map interface atm0/0.1ATM0/0.1:VC 0/201 -Service-policy output:GOLD-160-DATA-PACK-640Class-map:GOLD (match-all)22738 packets, 34379856 bytes30 second offered rate 239000 bps, drop rate 50000 bpsMatch:access-group 1Weighted Fair QueueingOutput Queue:Conversation 73Bandwidth 160 (kbps)(pkts matched/bytes matched) 22738/34379856(depth/total drops/no-buffer drops) 4/4739/0exponential weight:3mean queue depth:4dscp Random drop Tail drop Minimum Maximum Markpkts/bytes pkts/bytes threshold threshold probabilityaf11 0/0 0/0 32 40 1/10af12 0/0 0/0 28 40 1/10af13 0/0 0/0 24 40 1/10af21 0/0 0/0 32 40 1/0af22 0/0 0/0 28 40 1/10af23 0/0 0/0 24 40 1/10af31 0/0 0/0 32 40 1/10af32 0/0 0/0 28 40 1/10af33 0/0 0/0 24 40 1/10af41 0/0 0/0 32 40 1/10af42 0/0 0/0 28 40 1/10af43 0/0 0/0 24 40 1/10cs1 0/0 0/0 22 40 1/10cs2 332/501984 3907/5907384 2 4 1/10cs3 0/ 0/0 26 40 1/10cs4 506/765072 0/0 4 12 1/10cs5 0/0 0/0 30 40 1/10cs6 0/0 0/0 32 40 1/10cs7 0/0 0/0 34 40 1/10ef 0/0 0/0 36 40 1/10rsvp 0/0 0/0 36 40 1/10default 0/0 0/0 20 40 1/10Class-map:SILVER (match-all)114748 packets, 173498976 bytes30 second offered rate 1212000 bps, drop rate 832000 bpsMatch:access-group 2Weighted Fair QueueingOutput Queue:Conversation 74Bandwidth 320 (kbps)(pkts matched/bytes matched) 115126/174070512(depth/total drops/no-buffer drops) 61/79012/0exponential weight:3mean queue depth:61dscp Random drop Tail drop Minimum Maximum Markpkts/bytes pkts/bytes threshold threshold probabilityaf11 0/0 0/0 32 40 1/10af12 0/0 0/0 28 40 1/10af13 0/0 0/0 24 40 1/10af21 0/0 0/0 32 40 1/10af22 0/0 0/0 28 40 1/10af23 0/0 0/0 24 40 1/10af31 0/0 0/0 32 40 1/10af32 0/0 0/0 28 40 1/10af33 0/0 0/0 24 40 1/10af41 0/0 0/0 32 40 1/10af42 0/0 0/0 28 40 1/10af43 0/0 0/0 24 40 1/10cs1 0/0 0/0 22 40 1/10cs2 0/0 0/0 24 40 1/10cs3 0/0 0/0 26 40 1/10cs4 0/0 0/0 28 40 1/10cs5 0/0 0/0 30 40 1/10cs6 0/0 0/0 32 40 1/10cs7 0/0 0/0 34 40 1/10ef 0/0 0/0 36 40 1/10rsvp 0/0 0/0 36 60 1/10default 9096/13753152 70065/105938280 30 60 1/10QoS Setip dscp 0Packets marked 115344Class-map:class-default (match-any)114747 packets, 173497464 bytes30 second offered rate 1212000 bps, drop rate 1209000 bpsMatch:anyThe following show interfaces command is from a Cisco 2600 router. The show interfaces command displays statistics for all interfaces configured on the router.
Router# show interfaces e0/1 rate-limitEthernet0/1Inputmatches:access-group 1params: 160000 bps, 4470 limit, 4470 extended limitconformed 15673 packets, 23728922 bytes; action:set-dscp-transmit 32exceeded 102965 packets, 155889010 bytes; action:continuelast packet:0ms ago, current burst:4146 byteslast cleared 00:19:46 ago, conformed 160000 bps, exceeded 1051000 bpsmatches:access-group 1params: 80000 bps, 4470 limit, 4470 extended limitconformed 7836 packets, 11863704 bytes; action:set-dscp-transmit 16exceeded 95130 packets, 144026820 bytes; action:droplast packet:4ms ago, current burst:3708 byteslast cleared 00:19:46 ago, conformed 79000 bps, exceeded 971000 bpsThe following show interfaces atm command output is from a Cisco 2600 router. The show interfaces atm command displays information about the ATM interface.
Router# show interfaces atm 0/0ATM0/0 is up, line protocol is upHardware is DSLSAR (with Alcatel ADSL Module)MTU 4470 bytes, sub MTU 4470, BW 800 Kbit, DLY 2560 usec,reliability 255/255, txload 181/255, rxload 1/255Encapsulation ATM, loopback not setEncapsulation(s):AAL5 AAL2, PVC mode23 maximum active VCs, 256 VCs per VP, 2 current VCCsVC idle disconnect time:300 secondsLast input 00:33:22, output 00:00:00, output hang neverLast clearing of "show interface" counters 00:20:09Input queue:0/75/0/0 (size/max/drops/flushes); Total output drops:208908Queueing strategy:None30 second input rate 0 bits/sec, 0 packets/sec30 second output rate 569000 bits/sec, 48 packets/sec0 packets input, 0 bytes, 0 no bufferReceived 0 broadcasts, 0 runts, 0 giants, 0 throttles0 input errors, 0 CRC, 0 frame, 0 overrun, 0 ignored, 0 abort57315 packets output, 86075268 bytes, 0 underruns0 output errors, 0 collisions, 0 interface resets0 output buffer failures, 0 output buffers swapped outThe following show queue command output from a Cisco 2600 router displays the flow of traffic that is currently being transported over the ATM interface:
Router# show queue atm0/0Interface ATM0/0 VC 0/201Queueing strategy:weighted fairOutput queue:130/512/64/214301 (size/max total/threshold/drops)Conversations 3/3/64 (active/max active/max total)Reserved Conversations 2/2 (allocated/max allocated)Available Bandwidth 0 kilobits/sec(depth/weight/total drops/no-buffer drops/random/tail/interleaves) 5/228/5124/0/0/0/0Conversation 73, linktype:ip, length:1512source:10.1.1.201, destination:10.10.11.200, id:0x0000, ttl:59,TOS:128 prot:17, source port 100, destination port 100(depth/weight/total drops/no-buffer drops/random/tail/interleaves) 61/114/85189/0/9843/75346/0Conversation 74, linktype:ip, length:1512source:10.1.1.202, destination:10.10.11.200, id:0x0000, ttl:59,TOS:0 prot:17, source port 200, destination port 200(depth/weight/total drops/no-buffer drops/interleaves) 64/32384/123990/0/0Conversation 41, linktype:ip, length:1512source:10.1.1.203, destination:10.10.11.200, id:0x0000, ttl:59,TOS:0 prot:17, source port 300, destination port 300VoIP and Data over ADSL Example
The following is sample output from a Cisco 2611 router. In this example, the customer premises equipment (CPE) is restricted to only a single PVC. Voice and data are sent over a single VC. The tx-ring-limit command and LLQ are used to give preferential treatment for voice traffic.
Building configuration...Current configuration :1861 bytes!version 12.2service timestamps debug uptimeservice timestamps log uptimeno service password-encryption!hostname CPE-2611-1!voice-card 1dspfarm!ip subnet-zero!ip cef!class-map match-all VOICEmatch access-group 100!policy-map VOICE-160-DATA-480-PACKclass VOICEpriority 160class class-defaultbandwidth 320!controller T1 1/0framing esflinecode b8zsds0-group 0 timeslots 1-24 type e&m-wink-start!controller T1 1/1framing sflinecode ami!interface ATM0/0no ip addressload-interval 30atm vc-per-vp 256no atm ilmi-keepalivedsl operating-mode auto!interface ATM0/0.1 point-to-pointip address 192.168.1.2 255.255.255.0pvc 0/201protocol ip 192.168.1.1 broadcastvbr-nrt 640 640tx-ring-limit 3service-policy output VOICE-160-DATA-480-PACK!interface Ethernet0/0ip address 1.3.214.51 255.255.0.0half-duplex!interface ATM0/1no ip addressshutdownatm vc-per-vp 256no atm ilmi-keepaliveatm voice aal2 aggregate-svc upspeed-number 0dsl equipment-type CPEdsl operating-mode GSHDSL symmetric annex Adsl linerate AUTO!interface Ethernet0/1ip address 10.1.1.1 255.255.255.0half-duplex!ip classlessip route 223.255.254.254 255.255.255.255 1.3.0.1ip http server!access-list 100 permit udp any any precedence critical!snmp-server managercall rsvp-sync!voice-port 1/0:0!mgcp profile default!dial-peer cor custom!dial-peer voice 1 potsdestination-pattern 7...port 1/0:0!dial-peer voice 2 voipdestination-pattern 8...session target ipv4:192.168.3.1ip qos dscp cs5 mediaip qos dscp cs5 signalingno vad!alias exec s sh runalias exec c conf t!line con 0exec-timeout 0 0privilege level 15line aux 0line vty 0 4loginline vty 5 15loginVerifying the VoIP and Data over ADSL Configuration
The following show policy-map interface command output from a Cisco 2600 router displays the service-policy setup:
Router# show policy-map interface atm0/0ATM0/0:VC 0/201 -Service-policy output:VOICE-160-DATA-480Class-map:class-default (match-any)27234 packets, 41109865 bytes30 second offered rate 7000 bps, drop rate 3000 bpsMatch:anyWeighted Fair QueueingQueue:Conversation 73Bandwidth 320 (kbps) Max Threshold 64 (packets)(pkts matched/bytes matched) 27231/41105329(depth/total drops/no-buffer drops) 0/14711/0ForClass-map:class-default (match-any)113187 packets, 140760375 bytes30 second offered rate 1205000 bps, drop rate 787000 bpsMatch:anyThe following show queue command output from a Cisco 2600 router displays the flow of traffic that is currently being transported over an ATM interface:
Router# show queue atm 0/0Interface ATM0/0 VC 0/201Queueing strategy:weighted fairOutput queue:70/512/64/70462 (size/max total/threshold/drops)Conversations 3/6/64 (active/max active/max total)Reserved Conversations 0/0 (allocated/max allocated)Available Bandwidth 320 kilobits/sec(depth/weight/total drops/no-buffer drops/interleaves) 3/0/0/0/0Conversation 72, linktype:ip, length:72source:192.168.1.2, destination:192.168.1.1, id:0xC77E, ttl:254,TOS:160 prot:17, source port 19406, destination port 16406(depth/weight/total drops/no-buffer drops/interleaves) 1/32384/0/0/0Conversation 23, linktype:ip, length:196source:192.168.1.2, destination:192.168.1.1, id:0x0000, ttl:255,TOS:0 prot:17, source port 18653, destination port 18691(depth/weight/total drops/no-buffer drops/interleaves) 64/32384/65793/0/0Conversation 59, linktype:ip, length:1502source:10.1.1.205, destination:10.10.11.200, id:0x0000, ttl:59,TOS:0 prot:17, source port 500, destination port 500The following show queueing interface command output from a Cisco 2600 router displays the queueing configuration of the ATM interface:
Router# show queueing interface atm0/0Interface ATM0/0 VC 0/201Queueing strategy:weighted fairOutput queue:66/512/64/61642 (size/max total/threshold/drops)Conversations 2/6/64 (active/max active/max total)Reserved Conversations 0/0 (allocated/max allocated)Available Bandwidth 320 kilobits/secThe following show interfaces atm command output from a Cisco 2600 router displays statistics for the ATM interface:
Router# show interfaces atm0/0ATM0/0 is up, line protocol is upHardware is DSLSAR (with Alcatel ADSL Module)Internet address is 192.168.1.2/24MTU 4470 bytes, sub MTU 4470, BW 800 Kbit, DLY 2560 usec,reliability 255/255, txload 166/255, rxload 21/255Encapsulation ATM, loopback not setEncapsulation(s):AAL5 AAL2, PVC mode23 maximum active VCs, 256 VCs per VP, 2 current VCCsVC idle disconnect time:300 secondsLast input 00:00:02, output 00:00:00, output hang neverLast clearing of "show interface" counters neverInput queue:0/75/0/0 (size/max/drops/flushes); Total output drops:62360Queueing strategy:None30 second input rate 66000 bits/sec, 113 packets/sec30 second output rate 523000 bits/sec, 229 packets/sec1603630 packets input, 403845485 bytes, 0 no bufferReceived 0 broadcasts, 0 runts, 0 giants, 0 throttles0 input errors, 0 CRC, 0 frame, 0 overrun, 0 ignored, 0 abort2680554 packets output, 518308502 bytes, 0 underruns0 output errors, 0 collisions, 4 interface resetsbuffer failures, 0 output buffers swapped outThe following show atm vc command output from a Cisco 2600 router displays information about the ATM virtual circuit:
Router# show atm vcVCD / Peak Avg/Min BurstInterface Name VPI VCI Type Encaps SC Kbps Kbps Cells Sts0/0 1 0 201 PVC SNAP VBR 640 640 0 UPVC not configured on interface ATM0/1The following show atm vc command output from a Cisco 2600 router displays detailed information about the virtual circuit descriptor (VCD):
Router# show atm vc 1ATM0/0:VCD:1, VPI:0, VCI:201VBR-NRT, PeakRate:640, Average Rate:640, Burst Cells:0AAL5-LLC/SNAP, etype:0x0, Flags:0x2000820, VCmode:0x0OAM frequency:10 second(s)InARP frequency:15 minutes(s)InPkts:1606861, OutPkts:2682709, InBytes:404080341, OutBytes:519701804InPRoc:108900, OutPRoc:109133, Broadcasts:1InFast:1497961, OutFast:0, InAS:0, OutAS:0InPktDrops:0, OutPktDrops:64078/0/64078 (holdq/outputq/total)CrcErrors:0, SarTimeOuts:0, OverSizedSDUs:0, LengthViolation:0, CPIErrors:0OAM cells received:4765OAM cells sent:4767Status:UPVC 1 doesn't exist on interface ATM0/1Tx Ring-Limit Tuning over ADSL Example
The following is output from a Cisco 2600 router. The output shows that tx ring-limit tuning is configured:
Note
Building configuration...Current configuration :2018 bytes!version 12.2service timestamps debug uptimeservice timestamps log uptimeno service password-encryption!hostname CPE-2600-1!voice-card 1dspfarm!ip subnet-zero!ip cef!class-map match-all VOICE-CLASSmatch access-group 100!policy-map SERVICE-PACK-640class VOICE-CLASSpriority 160!controller T1 1/0framing esflinecode b8zsds0-group 0 timeslots 1-24 type e&m-wink-start!controller T1 1/1framing sflinecode ami!interface FastEthernet0/0ip address 1.3.214.50 255.255.0.0duplex autospeed auto!interface ATM0/1no ip addressload-interval 30atm vc-per-vp 256no atm ilmi-keepaliveatm voice aal2 aggregate-svc upspeed-number 0dsl equipment-type CPEdsl operating-mode GSHDSL symmetric annex Adsl linerate AUTO!interface ATM0/1.1 point-to-pointip address 192.168.1.2 255.255.255.0pvc 11/201protocol ip 192.168.1.1 broadcastvbr-nrt 640 640tx-ring-limit 3oam-pvc manageservice-policy output SERVICE-PACK-640!interface FastEthernet0/1ip address 10.10.11.1 255.255.255.0load-interval 30duplex autospeed auto!ip classlessip route 10.10.11.254 255.255.255.255 192.168.1.1ip route 223.255.254.254 255.255.255.255 1.3.0.1ip http serverip pim bidir-enable!ip director cache time 60access-list 100 permit udp any any precedence critical!snmp-server managercall rsvp-sync!voice-port 1/0:0!mgcp profile default!dial-peer cor custom!dial-peer voice 1 potsdestination-pattern 7...!dial-peer voice 2 voipdestination-pattern 8...session target ipv4:192.168.1.1ip qos dscp cs5 mediaip qos dscp cs5 signalingno vad!alias exec s sh runalias exec c conf t!line con 0exec-timeout 0 0privilege level 15line aux 0line vty 0 4loginline vty 5 15login!MLP with LFI over G.SHDSL Example
The following output is from a Cisco 1751 router. The output shows that MLP with LFI is configured for G.SHDSL:
class-map match-all VOIPmatch ip dscp 32class-map CRITICALmatch access-group 100!policy-map 1751_DSLclass CRITICALpriority 48class VOIPpriority 64set ip precedence 6!interface ATM0/0no ip addressno atm ilmi-keepalive!interface ATM0/0.1 point-to-pointpvc 0/33vbr-rt 150 150 30protocol ppp Virtual-Template1!interface Loopback1ip address 10.0.0.10 255.255.255.255interface Virtual-Template1bandwidth 320ip unnumbered Loopback1service-policy output 1751_DSLppp multilinkppp multilink fragment-delay 4ppp multilink interleave!access-list 100 permit udp any any precedence criticaldial-peer voice 201 voipdestination-pattern 3640200session target ipv4:10.0.0.11ip qos dscp cs4 mediaip qos dscp cs4 signalling
The following output is from a Cisco 2600 router. The output shows that MLP with LFI is configured for G.SHDSL:
Building configuration...Current configuration :2107 bytes!version 12.2service timestamps debug uptimeservice timestamps log uptimeno service password-encryption!hostname CPE-2600-1!memory-size iomem 20voice-card 1dspfarm!ip subnet-zero!ip cef!class-map match-all VOICE-CLASSmatch access-group 100!policy-map SERVICE-PACK-640class VOICE-CLASSpriority 160!controller T1 1/0framing esflinecode b8zsds0-group 0 timeslots 1-24 type e&m-wink-start!controller T1 1/1framing sflinecode ami!interface FastEthernet0/0ip address 1.3.214.50 255.255.0.0duplex autospeed auto!interface ATM0/1no ip addressload-interval 30atm vc-per-vp 256no atm ilmi-keepaliveatm voice aal2 aggregate-svc upspeed-number 0dsl equipment-type CPEdsl operating-mode GSHDSL symmetric annex Adsl linerate AUTO!interface ATM0/1.1 point-to-pointpvc 11/201vbr-nrt 640 640tx-ring-limit 3oam-pvc manageprotocol ppp Virtual-Template1!interface FastEthernet0/1ip address 10.10.11.1 255.255.255.0load-interval 30duplex autospeed auto!interface Virtual-Template1bandwidth 640ip address 192.168.1.2 255.255.255.0load-interval 30service-policy output SERVICE-PACK-640ppp multilinkppp multilink fragment-delay 4ppp multilink interleave!ip classlessip route 10.10.11.254 255.255.255.255 192.168.1.1ip route 223.255.254.254 255.255.255.255 1.3.0.1ip http serverip pim bidir-enable!ip director cache time 60access-list 100 permit udp any any precedence critical!snmp-server managercall rsvp-sync!voice-port 1/0:0!mgcp profile default!dial-peer cor custom!destination-pattern 7...!dial-peer voice 2 voipdestination-pattern 8...session target ipv4:192.168.1.1ip qos dscp cs5 mediaip qos dscp cs5 signalingno vad!alias exec s sh runalias exec c conf t!line con 0exec-timeout 0 0privilege level 15line aux 0line vty 0 4loginline vty 5 15loginVerifying the MLP with LFI over G.SHDSL Configuration
The following show users command output is for the MLP with LFI configuration on a Cisco 2600 router. The show users command displays information about the active lines on the router.
Router# show usersLine User Host(s Idle Location* 0 con 0 idle 00:00:00Interface User Mode Idle Peer AddressVi1 Virtual PPP (ATM) -Vi2 Virtual PPP (Bundle) 00:14:06 192.168.1.1The following show interfaces command output is for the MLP with LFI configuration on a Cisco 2600 router. The show interfaces command displays statistics for all interfaces configured on the router.
Router# show interfaces virtual-access 2Virtual-Access2 is up, line protocol is upHardware is Virtual Access interfaceInternet address is 192.168.1.2/24MTU 1500 bytes, BW 640 Kbit, DLY 100000 usec,reliability 255/255, txload 207/255, rxload 1/255Encapsulation PPP, loopback not setDTR is pulsed for 5 seconds on resetLCP Open, multilink OpenOpen:IPCPLast input 00:14:20, output never, output hang neverLast clearing of "show interface" counters 00:26:31Input queue:0/75/0/0 (size/max/drops/flushes); Total output drops:477969Queueing strategy:weighted fairOutput queue:64/1000/64/477969 (size/max total/threshold/drops)Conversations 1/2/256 (active/max active/max total)Reserved Conversations 0/0 (allocated/max allocated)Available Bandwidth 320 kilobits/sec30 second input rate 0 bits/sec, 0 packets/sec30 second output rate 522000 bits/sec, 91 packets/sec12 packets input, 911 bytes, 0 no bufferReceived 0 broadcasts, 0 runts, 0 giants, 0 throttles0 input errors, 0 CRC, 0 frame, 0 overrun, 0 ignored, 0 abort136585 packets output, 97029054 bytes, 0 underruns0 output errors, 0 collisions, 0 interface resets0 output buffer failures, 0 output buffers swapped out0 carrier transitionsThe following show policy-map interface command is for the MLP with LFI configuration on a Cisco 2600 route. The show policy-map interface command displays the policy-map setup.
Router# show policy-map interface virtual-access 2Virtual-Access2Service-policy output:SERVICE-PACK-640Class-map:VOICE-CLASS (match-all)30887 packets, 2100316 bytes30 second offered rate 27000 bps, drop rate 0 bpsMatch:access-group 100Weighted Fair QueueingStrict PriorityOutput Queue:Conversation 264Bandwidth 160 (kbps) Burst 4000 (Bytes)(pkts matched/bytes matched) 30888/2100384(total drops/bytes drops) 0/0Class-map:class-default (match-any)247101 packets, 369168894 bytes30 second offered rate 4785000 bps, drop rate 4283000 bpsMatch:anyThe following show ppp multilink command output is for the MLP with LFI configuration on a Cisco 2600 router. The show ppp multilink command displays bundle information for the Multilink PPP bundles.
Router# show ppp multilinkVirtual-Access2, bundle name is green-gateway-3660Bundle up for 00:26:050 lost fragments, 0 reordered, 0 unassigned0 discarded, 0 lost received, 215/255 load0xC received sequence, 0x55914 sent sequenceMember links:1 (max not set, min not set)Virtual-Access1, since 00:26:05, last rcvd seq 00000B 320 weightThe following show interfaces atm command output is for the MLP with LFI configuration. The show interfaces atm command displays information about the ATM interface.
Router# show interfaces atm 0/1ATM0/1 is up, line protocol is upHardware is DSLSAR (with Globespan G.SHDSL module)MTU 4470 bytes, sub MTU 4470, BW 2304 Kbit, DLY 880 usec,reliability 255/255, txload 59/255, rxload 1/255Encapsulation ATM, loopback not setEncapsulation(s):AAL5 , PVC mode23 maximum active VCs, 256 VCs per VP, 1 current VCCsVC idle disconnect time:300 secondsLast input never, output 00:00:00, output hang neverLast clearing of "show interface" counters neverInput queue:0/75/0/0 (size/max/drops/flushes); Total output drops:75Queueing strategy:None30 second input rate 0 bits/sec, 0 packets/sec30 second output rate 539000 bits/sec, 257 packets/sec186 packets input, 3409 bytes, 0 no bufferReceived 0 broadcasts, 0 runts, 0 giants, 0 throttles0 input errors, 0 CRC, 0 frame, 0 overrun, 0 ignored, 0 abort433482 packets output, 103985075 bytes, 0 underruns0 output errors, 0 collisions, 2 interface resets0 output buffer failures, 0 output buffers swapped outCommand Reference
This section documents a modified command. All other commands used with this feature are documented in the Cisco IOS Release 12.2 command reference publications.
Modified
dsl equipment-type
To configure the DSL ATM interface to function as central office equipment or customer premises equipment, use the dsl equipment-type command in ATM interface mode. To restore the default (no equipment type), use the no form of this command.
dsl equipment-type {co | cpe} ignore-error-duration {seconds}
no dsl equipment-type
Syntax Description
Defaults
The DSL ATM interface functions as customer premises equipment.
Command Modes
ATM interface
Command History
Usage Guidelines
This configuration command applies to a specific ATM interface. You must specify the ATM interface before you enter this command.
The ATM interface must be in the shutdown state before you enter this command.
Examples
The following example shows the configuration of 20 seconds to ignore errors for a DSLAM on DSL ATM interface 1/1:
interface atm 1/1dsl equipment-type ignore-error-duration 20Related Commands
dsl linerate
Specifies a line rate for the DSL ATM interface.
dsl operating-mode (G.SHDSL)
Specifies an operating mode of the DSL ATM interface.
tx-ring-limit
To limit the number of packets that can be used on a transmission ring on the DSL WIC, use the tx-ring-limit command in ATM VC configuration mode. To not limit the number of packets that can be used on a transmission ring on a DSL WIC, use the no form of this command.
tx-ring-limit ring-limit
no tx-ring-limit ring-limit
Syntax Description
Defaults
The default value of the ring-limit argument is 60.
Command Modes
ATM VC configuration
Command History
Examples
The following example configures the transmission ring limit to three packets on an ATM interface:
interface atm 1/0/0atm pvc 32 0 32 aal5snap 10000 8000 2000 tx-ring-limit 3The following example configures the transmission ring limit to 60 packets on an ATM permanent virtual circuit (PVC) subinterface:
interface ATM1/0/0.1 point-to-pointpvc 2/200tx-ring-limit 60Related Commands(
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