This module contains a collection of YANG definitions for Cisco IOS-XR ipsla package configuration. This YANG module augments t...
Version: 2021-02-26
module Cisco-IOS-XR-um-ipsla-cfg { yang-version 1; namespace "http://cisco.com/ns/yang/Cisco-IOS-XR-um-ipsla-cfg"; prefix um-ipsla-cfg; import Cisco-IOS-XR-types { prefix xr; } import ietf-inet-types { prefix inet; } import cisco-semver { prefix semver; } organization "Cisco Systems, Inc."; contact "Cisco Systems, Inc. Customer Service Postal: 170 West Tasman Drive San Jose, CA 95134 Tel: +1 800 553-NETS E-mail: cs-yang@cisco.com"; description "This module contains a collection of YANG definitions for Cisco IOS-XR ipsla package configuration. This YANG module augments the modules with configuration data. Copyright (c) 2021 by Cisco Systems, Inc. All rights reserved."; revision "2021-02-26" { description "Initial release"; } semver:module-version "1.0.0"; container ipsla { description "IPSLA configuration commands"; container operations { description "IPSLA operation configuration"; list operation { key "operation-number"; description "Operation number"; leaf operation-number { type uint32 { range "1..2048"; } description "Operation number"; } container type { description "Type of operation"; container icmp { description "ICMP operation types"; container echo { presence "Indicates a echo node is configured."; description "ICMP echo operation type"; leaf tag { type xr:Cisco-ios-xr-string { length "1..128"; } description "Add a tag for this operation"; } leaf frequency { type uint32 { range "1..604800"; } description "Frequency of the probing"; } container datasize { description "Protocol data size in payload of probe packets"; container request { description "Payload size in request probe packet"; leaf enter-request-datasize-in-byte { type uint32 { range "19..20"; } description "Enter request datasize in byte"; } } // container request } // container datasize leaf timeout { type uint32 { range "1..604800000"; } description "Probe timeout interval"; } container source { description "Address/port of the source device"; container address { description "IPv4/IPv6 address of the source device"; leaf ipv4-address { type inet:ipv4-address-no-zone; description "Enter IPv4 address of the source device"; } leaf ipv6-address { type inet:ipv6-address-no-zone; description "Enter IPv6 address of the source device"; } } // container address leaf port { type uint32 { range "1..65535"; } description "Port number on source device"; } } // container source leaf tos { type uint32 { range "0..255"; } description "Type of service setting in probe packet"; } leaf vrf { type xr:Cisco-ios-xr-string { length "1..32"; } description "Configure IPSLA for a VPN Routing/Forwarding instance"; } container destination { description "Address/port of the target device"; container address { description "IPv4/IPv6 address of the target device"; leaf ipv4-address { type inet:ipv4-address-no-zone; description "Enter IPv4 address of the target device"; } leaf ipv6-address { type inet:ipv6-address-no-zone; description "Enter IPv6 address of the target device"; } } // container address leaf port { type uint32 { range "1..65535"; } description "Port number on target device"; } } // container destination } // container echo container path-echo { presence "Indicates a path-echo node is configured."; description "ICMP path-echo operation type"; leaf tag { type xr:Cisco-ios-xr-string { length "1..128"; } description "Add a tag for this operation"; } leaf frequency { type uint32 { range "1..604800"; } description "Frequency of the probing"; } container datasize { description "Protocol data size in payload of probe packets"; container request { description "Payload size in request probe packet"; leaf enter-request-datasize-in-byte { type uint32 { range "19..20"; } description "Enter request datasize in byte"; } } // container request } // container datasize leaf timeout { type uint32 { range "1..604800000"; } description "Probe timeout interval"; } container source { description "Address/port of the source device"; container address { description "IPv4/IPv6 address of the source device"; leaf ipv4-address { type inet:ipv4-address-no-zone; description "Enter IPv4 address of the source device"; } leaf ipv6-address { type inet:ipv6-address-no-zone; description "Enter IPv6 address of the source device"; } } // container address leaf port { type uint32 { range "1..65535"; } description "Port number on source device"; } } // container source container lsr-path { description "Loose source routing path (up to 8 intermediate nodes)"; leaf-list ip-address { type inet:ipv4-address-no-zone; must "../ip-address"; max-elements 8; description "Enter IPv4 address of the intermediate node"; } } // container lsr-path leaf tos { type uint32 { range "0..255"; } description "Type of service setting in probe packet"; } } // container path-echo container path-jitter { presence "Indicates a path-jitter node is configured."; description "ICMP path-jitter operation type"; leaf tag { type xr:Cisco-ios-xr-string { length "1..128"; } description "Add a tag for this operation"; } leaf frequency { type uint32 { range "1..604800"; } description "Frequency of the probing"; } container datasize { description "Protocol data size in payload of probe packets"; container request { description "Payload size in request probe packet"; leaf enter-request-datasize-in-byte { type uint32 { range "19..20"; } description "Enter request datasize in byte"; } } // container request } // container datasize leaf timeout { type uint32 { range "1..604800000"; } description "Probe timeout interval"; } container source { description "Address/port of the source device"; container address { description "IPv4/IPv6 address of the source device"; leaf ipv4-address { type inet:ipv4-address-no-zone; description "Enter IPv4 address of the source device"; } leaf ipv6-address { type inet:ipv6-address-no-zone; description "Enter IPv6 address of the source device"; } } // container address leaf port { type uint32 { range "1..65535"; } description "Port number on source device"; } } // container source container packet { description "Probe packet configuration parameters"; leaf count { type uint32 { range "1..100"; } description "Number of packets to be transmitted during a probe"; } leaf interval { type uint32 { range "1..60000"; } description "Inter packet interval"; } } // container packet container lsr-path { description "Loose source routing path (up to 8 intermediate nodes)"; leaf-list ip-address { type inet:ipv4-address-no-zone; must "../ip-address"; max-elements 8; description "Enter IPv4 address of the intermediate node"; } } // container lsr-path leaf tos { type uint32 { range "0..255"; } description "Type of service setting in probe packet"; } } // container path-jitter } // container icmp container udp { description "UDP operation types"; container echo { presence "Indicates a echo node is configured."; description "UDP echo operation type"; leaf tag { type xr:Cisco-ios-xr-string { length "1..128"; } description "Add a tag for this operation"; } leaf frequency { type uint32 { range "1..604800"; } description "Frequency of the probing"; } container datasize { description "Protocol data size in payload of probe packets"; container request { description "Payload size in request probe packet"; leaf enter-request-datasize-in-byte { type uint32 { range "19..20"; } description "Enter request datasize in byte"; } } // container request } // container datasize leaf timeout { type uint32 { range "1..604800000"; } description "Probe timeout interval"; } container source { description "Address/port of the source device"; container address { description "IPv4/IPv6 address of the source device"; leaf ipv4-address { type inet:ipv4-address-no-zone; description "Enter IPv4 address of the source device"; } leaf ipv6-address { type inet:ipv6-address-no-zone; description "Enter IPv6 address of the source device"; } } // container address leaf port { type uint32 { range "1..65535"; } description "Port number on source device"; } } // container source container destination { description "Address/port of the target device"; leaf address { type inet:ipv4-address-no-zone; description "IPv4 address of the target device"; } leaf port { type uint32 { range "1..65535"; } description "Port number on target device"; } } // container destination container packet { description "Probe packet configuration parameters"; leaf count { type uint32 { range "1..100"; } description "Number of packets to be transmitted during a probe"; } leaf interval { type uint32 { range "1..60000"; } description "Inter packet interval"; } } // container packet container statistics { description "Statistics collection parameters for this operation"; container hourly { description "Statistics collection aggregated over an hour"; leaf buckets { type uint32 { range "0..25"; } description "Number of Hours for which statistics are kept"; } container distribution { description "Distribution of statistics configuration"; leaf count { type uint32 { range "1..20"; } description "Count of distribution intervals maintained"; } leaf interval { type uint32 { range "1..100"; } description "Time interval for each statistical distribution"; } } // container distribution } // container hourly container intervals { description "Statistics collection over specified time interval"; list interval { key "interval-time"; description "Statistics collection over specified time interval"; leaf interval-time { type uint32 { range "1..3600"; } description "Statistics collection over specified time interval"; } leaf buckets { type uint32 { range "1..100"; } description "Maximum number of buckets to keep"; } } // list interval } // container intervals } // container statistics container control { description "Control packets configuration"; container disable { presence "Indicates a disable node is configured."; description "Disable control packets"; } // container disable } // container control container verify-data { presence "Indicates a verify-data node is configured."; description "Check each IPSLA response for corruption"; } // container verify-data leaf vrf { type xr:Cisco-ios-xr-string { length "1..800"; } description "Configure IPSLA for a VPN Routing/Forwarding instance"; } leaf tos { type uint32 { range "0..255"; } description "Type of service setting in probe packet"; } container history { description "Configure the history parameters for this operation"; leaf buckets { type uint32 { range "1..60"; } description "Buckets of history kept"; } container filter { description "Criteria to add operation data to history"; container all { presence "Indicates an all node is configured."; description "Store history data for all operations"; } // container all container failures { presence "Indicates a failures node is configured."; description "Store data for operations that failed"; } // container failures } // container filter leaf lives { type uint32 { range "0..2"; } description "Lives of history kept"; } } // container history } // container echo container jitter { presence "Indicates a jitter node is configured."; description "UDP jitter operation type"; leaf tag { type xr:Cisco-ios-xr-string { length "1..128"; } description "Add a tag for this operation"; } leaf frequency { type uint32 { range "1..604800"; } description "Frequency of the probing"; } container datasize { description "Protocol data size in payload of probe packets"; container request { description "Payload size in request probe packet"; leaf enter-request-datasize-in-byte { type uint32 { range "19..20"; } description "Enter request datasize in byte"; } } // container request } // container datasize leaf timeout { type uint32 { range "1..604800000"; } description "Probe timeout interval"; } container source { description "Address/port of the source device"; container address { description "IPv4/IPv6 address of the source device"; leaf ipv4-address { type inet:ipv4-address-no-zone; description "Enter IPv4 address of the source device"; } leaf ipv6-address { type inet:ipv6-address-no-zone; description "Enter IPv6 address of the source device"; } } // container address leaf port { type uint32 { range "1..65535"; } description "Port number on source device"; } } // container source container destination { description "Address/port of the target device"; leaf address { type inet:ipv4-address-no-zone; description "IPv4 address of the target device"; } leaf port { type uint32 { range "1..65535"; } description "Port number on target device"; } } // container destination container packet { description "Probe packet configuration parameters"; leaf count { type uint32 { range "1..100"; } description "Number of packets to be transmitted during a probe"; } leaf interval { type uint32 { range "1..60000"; } description "Inter packet interval"; } } // container packet container statistics { description "Statistics collection parameters for this operation"; container hourly { description "Statistics collection aggregated over an hour"; leaf buckets { type uint32 { range "0..25"; } description "Number of Hours for which statistics are kept"; } container distribution { description "Distribution of statistics configuration"; leaf count { type uint32 { range "1..20"; } description "Count of distribution intervals maintained"; } leaf interval { type uint32 { range "1..100"; } description "Time interval for each statistical distribution"; } } // container distribution } // container hourly container intervals { description "Statistics collection over specified time interval"; list interval { key "interval-time"; description "Statistics collection over specified time interval"; leaf interval-time { type uint32 { range "1..3600"; } description "Statistics collection over specified time interval"; } leaf buckets { type uint32 { range "1..100"; } description "Maximum number of buckets to keep"; } } // list interval } // container intervals } // container statistics container control { description "Control packets configuration"; container disable { presence "Indicates a disable node is configured."; description "Disable control packets"; } // container disable } // container control container verify-data { presence "Indicates a verify-data node is configured."; description "Check each IPSLA response for corruption"; } // container verify-data leaf vrf { type xr:Cisco-ios-xr-string { length "1..800"; } description "Configure IPSLA for a VPN Routing/Forwarding instance"; } leaf tos { type uint32 { range "0..255"; } description "Type of service setting in probe packet"; } } // container jitter } // container udp container mpls { description "MPLS operation types"; container lsp { description "MPLS LSP operation types"; container ping { presence "Indicates a ping node is configured."; description "MPLS Echo operation type"; leaf tag { type xr:Cisco-ios-xr-string { length "1..128"; } description "Add a tag for this operation"; } leaf frequency { type uint32 { range "1..604800"; } description "Frequency of the probing"; } container datasize { description "Protocol data size in payload of probe packets"; container request { description "Payload size in request probe packet"; leaf enter-request-datasize-in-byte { type uint32 { range "19..20"; } description "Enter request datasize in byte"; } } // container request } // container datasize leaf timeout { type uint32 { range "1..604800000"; } description "Probe timeout interval"; } container source { description "Address/port of the source device"; container address { description "IPv4/IPv6 address of the source device"; leaf ipv4-address { type inet:ipv4-address-no-zone; description "Enter IPv4 address of the source device"; } leaf ipv6-address { type inet:ipv6-address-no-zone; description "Enter IPv6 address of the source device"; } } // container address leaf port { type uint32 { range "1..65535"; } description "Port number on source device"; } } // container source container target { description "Target for the MPLS LSP operation"; container ipv4 { presence "Indicates a ipv4 node is configured."; description "Target specified as an IPv4 address"; leaf address { type inet:ipv4-address-no-zone; mandatory true; description "Target FEC address with mask"; } leaf mask { type inet:ipv4-address-no-zone; mandatory true; description "Target FEC address with mask"; } } // container ipv4 container traffic-eng { description "Traffic engineering target"; leaf tunnel { type uint32 { range "0..65535"; } description "TE tunnel interface"; } } // container traffic-eng container pseudowire { presence "Indicates a pseudowire node is configured."; description "Pseudowire target"; leaf address { type inet:ipv4-address-no-zone; mandatory true; description "Pseudowire target"; } leaf virtual-circuit-id { type uint32 { range "1..4294967295"; } mandatory true; description "Virtual Circuit ID"; } } // container pseudowire } // container target } // container ping container trace { presence "Indicates a trace node is configured."; description "MPLS Trace operation type"; leaf tag { type xr:Cisco-ios-xr-string { length "1..128"; } description "Add a tag for this operation"; } leaf frequency { type uint32 { range "1..604800"; } description "Frequency of the probing"; } container datasize { description "Protocol data size in payload of probe packets"; container request { description "Payload size in request probe packet"; leaf enter-request-datasize-in-byte { type uint32 { range "19..20"; } description "Enter request datasize in byte"; } } // container request } // container datasize leaf timeout { type uint32 { range "1..604800000"; } description "Probe timeout interval"; } container source { description "Address/port of the source device"; container address { description "IPv4/IPv6 address of the source device"; leaf ipv4-address { type inet:ipv4-address-no-zone; description "Enter IPv4 address of the source device"; } leaf ipv6-address { type inet:ipv6-address-no-zone; description "Enter IPv6 address of the source device"; } } // container address leaf port { type uint32 { range "1..65535"; } description "Port number on source device"; } } // container source container target { description "Target for the MPLS LSP operation"; container ipv4 { presence "Indicates a ipv4 node is configured."; description "Target specified as an IPv4 address"; leaf address { type inet:ipv4-address-no-zone; mandatory true; description "Target FEC address with mask"; } leaf mask { type inet:ipv4-address-no-zone; mandatory true; description "Target FEC address with mask"; } } // container ipv4 container traffic-eng { description "Traffic engineering target"; leaf tunnel { type uint32 { range "0..65535"; } description "TE tunnel interface"; } } // container traffic-eng container pseudowire { presence "Indicates a pseudowire node is configured."; description "Pseudowire target"; leaf address { type inet:ipv4-address-no-zone; mandatory true; description "Pseudowire target"; } leaf virtual-circuit-id { type uint32 { range "1..4294967295"; } mandatory true; description "Virtual Circuit ID"; } } // container pseudowire } // container target } // container trace } // container lsp } // container mpls } // container type } // list operation } // container operations container schedule { description "Schedule an operation"; container operations { description "Specify an operation"; list operation { key "operation-number"; description "Specify an operation"; leaf operation-number { type uint32 { range "1..2048"; } description "Specify an operation"; } container life { description "Length of the time to execute (default 3600 seconds)"; container forever { must "not(../length-of-time)"; presence "Indicates a forever node is configured."; description "Schedule operation to run indefinitely"; } // container forever leaf length-of-time { type uint32 { range "1..2147483647"; } must "not(../forever)"; description "Life in seconds. (default 3600 seconds)"; } } // container life container start-time { description "Start time of the operation"; container time-and-date { presence "Indicates a time node is configured."; description "Start time of the operation"; leaf hour { type uint32 { range "0..23"; } mandatory true; description "Time in hh:mm:ss format"; } leaf minute { type uint32 { range "0..59"; } mandatory true; description "Time in hh:mm:ss format"; } leaf second { type uint32 { range "0..59"; } mandatory true; description "Time in hh:mm:ss format"; } leaf month { type enumeration { enum "january" { value 0; description "January"; } enum "february" { value 1; description "February"; } enum "march" { value 2; description "March"; } enum "april" { value 3; description "April"; } enum "may" { value 4; description "May"; } enum "june" { value 5; description "June"; } enum "july" { value 6; description "July"; } enum "august" { value 7; description "August"; } enum "september" { value 8; description "September"; } enum "october" { value 9; description "October"; } enum "november" { value 10; description "November"; } enum "december" { value 11; description "December"; } } must "../day-of-month"; description "Month of the year"; } leaf day-of-month { type uint32 { range "1..31"; } description "Day of the month"; } leaf year { type uint32 { range "1993..2035"; } must "../month and ../day-of-month"; description "Year"; } } // container time-and-date container pending { presence "Indicates a pending node is configured."; description "Keep operation in the pending state"; } // container pending container after { presence "Indicates a after node is configured."; description "Schedule operation after specified time"; container time { description "Time in hh:mm:ss format"; leaf hour { type uint32 { range "0..23"; } mandatory true; description "Time in hh:mm:ss format"; } leaf minute { type uint32 { range "0..59"; } mandatory true; description "Time in hh:mm:ss format"; } leaf second { type uint32 { range "0..59"; } mandatory true; description "Time in hh:mm:ss format"; } } // container time } // container after container now { presence "Indicates a now node is configured."; description "Schedule operation now"; } // container now } // container start-time container recurring { presence "Indicates a recurring node is configured."; description "probe to be scheduled automatically every day"; } // container recurring leaf ageout { type uint32 { range "0..2073600"; } description "How long to keep this entry after it becomes inactive"; } } // list operation } // container operations } // container schedule container reaction { description "IPSLA reaction configuration"; container operations { description "Reaction configuration for operation"; list operation { key "operation-number"; description "Reaction configuration for operation"; leaf operation-number { type uint32 { range "1..2048"; } description "Reaction configuration for operation"; } container react { description "Specify an element to be monitored for reaction"; container connection-loss { presence "Indicates a connection-loss node is configured."; description "Reaction on connection loss of monitored operation"; container threshold { description "Configure threshold parameters on monitored element"; container type { description "Threshold type"; container immediate { must "not(../consecutive)"; presence "Indicates a immediate node is configured."; description "Take action immediately upon threshold violation"; leaf average { type uint32 { range "1..16"; } description "Take action on average values violate threshold"; } } // container immediate leaf consecutive { type uint32 { range "1..16"; } must "not(../immediate)"; description "Take action after a number of consecutive violations"; } container xofy { presence "Indicates a xofy node is configured."; description "Take action upon X violations in Y probe operations"; leaf x-value { type uint32 { range "1..16"; } mandatory true; description "Take action upon X violations in Y probe operations"; } leaf y-value { type uint32 { range "13..16"; } mandatory true; description "Number of probes observing the violations (Y value)"; } } // container xofy } // container type } // container threshold container action { description "Type of action to be taken on threshold violation(s)"; container logging { presence "Indicates a logging node is configured."; description "Generate a syslog alarm on threshold violation"; } // container logging container trigger { presence "Indicates a trigger node is configured."; description "Generate trigger to active reaction triggered operation(s)"; } // container trigger } // container action } // container connection-loss container timeout { presence "Indicates a timeout node is configured."; description "Reaction on timeout of monitored operation"; container threshold { description "Configure threshold parameters on monitored element"; container type { description "Threshold type"; container immediate { must "not(../consecutive)"; presence "Indicates a immediate node is configured."; description "Take action immediately upon threshold violation"; leaf average { type uint32 { range "1..16"; } description "Take action on average values violate threshold"; } } // container immediate leaf consecutive { type uint32 { range "1..16"; } must "not(../immediate)"; description "Take action after a number of consecutive violations"; } container xofy { presence "Indicates a xofy node is configured."; description "Take action upon X violations in Y probe operations"; leaf x-value { type uint32 { range "1..16"; } mandatory true; description "Take action upon X violations in Y probe operations"; } leaf y-value { type uint32 { range "13..16"; } mandatory true; description "Number of probes observing the violations (Y value)"; } } // container xofy } // container type } // container threshold container action { description "Type of action to be taken on threshold violation(s)"; container logging { presence "Indicates a logging node is configured."; description "Generate a syslog alarm on threshold violation"; } // container logging container trigger { presence "Indicates a trigger node is configured."; description "Generate trigger to active reaction triggered operation(s)"; } // container trigger } // container action } // container timeout container verify-error { presence "Indicates a verify-error node is configured."; description "Reaction on error verification violation"; container threshold { description "Configure threshold parameters on monitored element"; container type { description "Threshold type"; container immediate { must "not(../consecutive)"; presence "Indicates a immediate node is configured."; description "Take action immediately upon threshold violation"; leaf average { type uint32 { range "1..16"; } description "Take action on average values violate threshold"; } } // container immediate leaf consecutive { type uint32 { range "1..16"; } must "not(../immediate)"; description "Take action after a number of consecutive violations"; } container xofy { presence "Indicates a xofy node is configured."; description "Take action upon X violations in Y probe operations"; leaf x-value { type uint32 { range "1..16"; } mandatory true; description "Take action upon X violations in Y probe operations"; } leaf y-value { type uint32 { range "13..16"; } mandatory true; description "Number of probes observing the violations (Y value)"; } } // container xofy } // container type } // container threshold container action { description "Type of action to be taken on threshold violation(s)"; container logging { presence "Indicates a logging node is configured."; description "Generate a syslog alarm on threshold violation"; } // container logging container trigger { presence "Indicates a trigger node is configured."; description "Generate trigger to active reaction triggered operation(s)"; } // container trigger } // container action } // container verify-error container jitter-average { presence "Indicates a jitter-average node is configured."; description "Reaction on round trip jitter value violation"; container dest-to-source { presence "Indicates a dest-to-source node is configured."; description "Jitter average destination to source(DS)"; container threshold { description "Configure threshold parameters on monitored element"; container type { description "Threshold type"; container immediate { must "not(../consecutive)"; presence "Indicates a immediate node is configured."; description "Take action immediately upon threshold violation"; leaf average { type uint32 { range "1..16"; } description "Take action on average values violate threshold"; } } // container immediate leaf consecutive { type uint32 { range "1..16"; } must "not(../immediate)"; description "Take action after a number of consecutive violations"; } container xofy { presence "Indicates a xofy node is configured."; description "Take action upon X violations in Y probe operations"; leaf x-value { type uint32 { range "1..16"; } mandatory true; description "Take action upon X violations in Y probe operations"; } leaf y-value { type uint32 { range "13..16"; } mandatory true; description "Number of probes observing the violations (Y value)"; } } // container xofy leaf lower-limit { type uint32 { range "1..4294967295"; } must "../upper-limit"; description "Threshold lower limit"; } leaf upper-limit { type uint32 { range "1..4294967295"; } must "../lower-limit"; description " Threshold upper limit"; } } // container type } // container threshold container action { description "Type of action to be taken on threshold violation(s)"; container logging { presence "Indicates a logging node is configured."; description "Generate a syslog alarm on threshold violation"; } // container logging container trigger { presence "Indicates a trigger node is configured."; description "Generate trigger to active reaction triggered operation(s)"; } // container trigger } // container action } // container dest-to-source container source-to-dest { presence "Indicates a source-to-dest node is configured."; description "Jitter average source to destination (SD)"; container threshold { description "Configure threshold parameters on monitored element"; container type { description "Threshold type"; container immediate { must "not(../consecutive)"; presence "Indicates a immediate node is configured."; description "Take action immediately upon threshold violation"; leaf average { type uint32 { range "1..16"; } description "Take action on average values violate threshold"; } } // container immediate leaf consecutive { type uint32 { range "1..16"; } must "not(../immediate)"; description "Take action after a number of consecutive violations"; } container xofy { presence "Indicates a xofy node is configured."; description "Take action upon X violations in Y probe operations"; leaf x-value { type uint32 { range "1..16"; } mandatory true; description "Take action upon X violations in Y probe operations"; } leaf y-value { type uint32 { range "13..16"; } mandatory true; description "Number of probes observing the violations (Y value)"; } } // container xofy leaf lower-limit { type uint32 { range "1..4294967295"; } must "../upper-limit"; description "Threshold lower limit"; } leaf upper-limit { type uint32 { range "1..4294967295"; } must "../lower-limit"; description " Threshold upper limit"; } } // container type } // container threshold container action { description "Type of action to be taken on threshold violation(s)"; container logging { presence "Indicates a logging node is configured."; description "Generate a syslog alarm on threshold violation"; } // container logging container trigger { presence "Indicates a trigger node is configured."; description "Generate trigger to active reaction triggered operation(s)"; } // container trigger } // container action } // container source-to-dest container threshold { description "Configure threshold parameters on monitored element"; container type { description "Threshold type"; container immediate { must "not(../consecutive)"; presence "Indicates a immediate node is configured."; description "Take action immediately upon threshold violation"; leaf average { type uint32 { range "1..16"; } description "Take action on average values violate threshold"; } } // container immediate leaf consecutive { type uint32 { range "1..16"; } must "not(../immediate)"; description "Take action after a number of consecutive violations"; } container xofy { presence "Indicates a xofy node is configured."; description "Take action upon X violations in Y probe operations"; leaf x-value { type uint32 { range "1..16"; } mandatory true; description "Take action upon X violations in Y probe operations"; } leaf y-value { type uint32 { range "13..16"; } mandatory true; description "Number of probes observing the violations (Y value)"; } } // container xofy leaf lower-limit { type uint32 { range "1..4294967295"; } must "../upper-limit"; description "Threshold lower limit"; } leaf upper-limit { type uint32 { range "1..4294967295"; } must "../lower-limit"; description " Threshold upper limit"; } } // container type } // container threshold container action { description "Type of action to be taken on threshold violation(s)"; container logging { presence "Indicates a logging node is configured."; description "Generate a syslog alarm on threshold violation"; } // container logging container trigger { presence "Indicates a trigger node is configured."; description "Generate trigger to active reaction triggered operation(s)"; } // container trigger } // container action } // container jitter-average container packet-loss { description "Reaction on packet loss value violation"; container dest-to-source { presence "Indicates a dest-to-source node is configured."; description "Packet loss destination to source(DS) violation"; container threshold { description "Configure threshold parameters on monitored element"; container type { description "Threshold type"; container immediate { must "not(../consecutive)"; presence "Indicates a immediate node is configured."; description "Take action immediately upon threshold violation"; leaf average { type uint32 { range "1..16"; } description "Take action on average values violate threshold"; } } // container immediate leaf consecutive { type uint32 { range "1..16"; } must "not(../immediate)"; description "Take action after a number of consecutive violations"; } container xofy { presence "Indicates a xofy node is configured."; description "Take action upon X violations in Y probe operations"; leaf x-value { type uint32 { range "1..16"; } mandatory true; description "Take action upon X violations in Y probe operations"; } leaf y-value { type uint32 { range "13..16"; } mandatory true; description "Number of probes observing the violations (Y value)"; } } // container xofy leaf lower-limit { type uint32 { range "1..4294967295"; } must "../upper-limit"; description "Threshold lower limit"; } leaf upper-limit { type uint32 { range "1..4294967295"; } must "../lower-limit"; description " Threshold upper limit"; } } // container type } // container threshold container action { description "Type of action to be taken on threshold violation(s)"; container logging { presence "Indicates a logging node is configured."; description "Generate a syslog alarm on threshold violation"; } // container logging container trigger { presence "Indicates a trigger node is configured."; description "Generate trigger to active reaction triggered operation(s)"; } // container trigger } // container action } // container dest-to-source container source-to-dest { presence "Indicates a source-to-dest node is configured."; description "Packet loss source to destination (SD) violation"; container threshold { description "Configure threshold parameters on monitored element"; container type { description "Threshold type"; container immediate { must "not(../consecutive)"; presence "Indicates a immediate node is configured."; description "Take action immediately upon threshold violation"; leaf average { type uint32 { range "1..16"; } description "Take action on average values violate threshold"; } } // container immediate leaf consecutive { type uint32 { range "1..16"; } must "not(../immediate)"; description "Take action after a number of consecutive violations"; } container xofy { presence "Indicates a xofy node is configured."; description "Take action upon X violations in Y probe operations"; leaf x-value { type uint32 { range "1..16"; } mandatory true; description "Take action upon X violations in Y probe operations"; } leaf y-value { type uint32 { range "13..16"; } mandatory true; description "Number of probes observing the violations (Y value)"; } } // container xofy leaf lower-limit { type uint32 { range "1..4294967295"; } must "../upper-limit"; description "Threshold lower limit"; } leaf upper-limit { type uint32 { range "1..4294967295"; } must "../lower-limit"; description " Threshold upper limit"; } } // container type } // container threshold container action { description "Type of action to be taken on threshold violation(s)"; container logging { presence "Indicates a logging node is configured."; description "Generate a syslog alarm on threshold violation"; } // container logging container trigger { presence "Indicates a trigger node is configured."; description "Generate trigger to active reaction triggered operation(s)"; } // container trigger } // container action } // container source-to-dest } // container packet-loss container rtt { presence "Indicates a rtt node is configured."; description "Reaction on round trip time violation"; container threshold { description "Configure threshold parameters on monitored element"; container type { description "Threshold type"; container immediate { must "not(../consecutive)"; presence "Indicates a immediate node is configured."; description "Take action immediately upon threshold violation"; leaf average { type uint32 { range "1..16"; } description "Take action on average values violate threshold"; } } // container immediate leaf consecutive { type uint32 { range "1..16"; } must "not(../immediate)"; description "Take action after a number of consecutive violations"; } container xofy { presence "Indicates a xofy node is configured."; description "Take action upon X violations in Y probe operations"; leaf x-value { type uint32 { range "1..16"; } mandatory true; description "Take action upon X violations in Y probe operations"; } leaf y-value { type uint32 { range "13..16"; } mandatory true; description "Number of probes observing the violations (Y value)"; } } // container xofy leaf lower-limit { type uint32 { range "1..4294967295"; } must "../upper-limit"; description "Threshold lower limit"; } leaf upper-limit { type uint32 { range "1..4294967295"; } must "../lower-limit"; description " Threshold upper limit"; } } // container type } // container threshold container action { description "Type of action to be taken on threshold violation(s)"; container logging { presence "Indicates a logging node is configured."; description "Generate a syslog alarm on threshold violation"; } // container logging container trigger { presence "Indicates a trigger node is configured."; description "Generate trigger to active reaction triggered operation(s)"; } // container trigger } // container action } // container rtt } // container react } // list operation } // container operations container trigger { description "IPSLA reaction trigger configuration"; container operations { description "Operation that generates a trigger"; list operation { key "operation-number"; description "Operation that generates a trigger"; leaf operation-number { type uint32 { range "1..2048"; } description "Operation that generates a trigger"; } leaf operation-to-be-triggered { type uint32 { range "1..2048"; } mandatory true; description "Operation that will be triggered"; } } // list operation } // container operations } // container trigger } // container reaction leaf low-memory { type uint32 { range "0..4294967295"; } description "Configure low memory water mark (default 20M)"; } leaf key-chain { type xr:Cisco-ios-xr-string { length "1..32"; } description "Use MD5 authentication for IPSLA control message"; } container hw-timestamp { description "Hardware timestamp configuration"; container disable { presence "Indicates a disable node is configured."; description "Disable hardware timestamp"; } // container disable } // container hw-timestamp container responder { presence "Indicates a responder node is configured."; description "IPSLA responder configuration"; container type { description "Operation type"; container udp { description "Udp operation"; container ipv4 { description "IPv4 address configuration"; list address { key "address"; description "Permanent address on responder"; leaf address { type inet:ipv4-address-no-zone; description "Permanent address on responder"; } list port { key "port-number"; description "Permanent port on responder"; leaf port-number { type uint32 { range "1..65535"; } description "Permanent port on responder"; } } // list port } // list address } // container ipv4 } // container udp } // container type container twamp { presence "Indicates a twamp node is configured."; description "Setup TWAMP responder"; leaf timeout { type uint32 { range "1..604800"; } description "Inactivity timeout period"; } } // container twamp container twamp-light { description "Setup TWAMP-LIGHT responder"; container test-session { description "Create a new test session"; list session { key "session-id"; description "Test session ID"; leaf session-id { type uint32 { range "1..65535"; } description "Test session ID"; } container local-ip { description "Local interface IPv4/IPv6 address"; container ipv4-addresses { description "Enter IPv4 address of the local interface"; list ipv4-address { key "address local-port"; description "Enter IPv4 address of the local interface"; leaf address { type inet:ipv4-address-no-zone; description "Enter IPv4 address of the local interface"; } leaf local-port { type uint32 { range "1..65535"; } description "Local UDP port"; } container remote-ip { description "Remote (client) interface IPv4/IPv6 address"; container ipv4-addresses { description "Enter IPv4 address of the remote interface"; list ipv4-address { key "address remote-port vrf"; description "Enter IPv4 address of the remote interface"; leaf address { type inet:ipv4-address-no-zone; description "Enter IPv4 address of the remote interface"; } leaf remote-port { type uint32 { range "1..65535"; } description "Remote UDP port"; } leaf vrf { type union { type xr:Cisco-ios-xr-string { pattern "default"; } type xr:Cisco-ios-xr-string { length "1..32"; } } description "VRF name for local-ip"; } } // list ipv4-address } // container ipv4-addresses container ipv6-addresses { description "Enter IPv6 address of the remote interface"; list ipv6-address { key "address remote-port vrf"; description "Enter IPv6 address of the remote interface"; leaf address { type inet:ipv6-address-no-zone; description "Enter IPv6 address of the remote interface"; } leaf remote-port { type uint32 { range "1..65535"; } description "Remote UDP port"; } leaf vrf { type union { type xr:Cisco-ios-xr-string { pattern "default"; } type xr:Cisco-ios-xr-string { length "1..32"; } } description "VRF name for local-ip"; } } // list ipv6-address } // container ipv6-addresses } // container remote-ip } // list ipv4-address } // container ipv4-addresses container ipv6-addresses { description "Enter IPv6 address of the local interface"; list ipv6-address { key "address local-port"; description "Enter IPv6 address of the local interface"; leaf address { type inet:ipv6-address-no-zone; description "Enter IPv6 address of the local interface"; } leaf local-port { type uint32 { range "1..65535"; } description "Local UDP port"; } container remote-ip { description "Remote (client) interface IPv4/IPv6 address"; container ipv4-addresses { description "Enter IPv4 address of the remote interface"; list ipv4-address { key "address remote-port vrf"; description "Enter IPv4 address of the remote interface"; leaf address { type inet:ipv4-address-no-zone; description "Enter IPv4 address of the remote interface"; } leaf remote-port { type uint32 { range "1..65535"; } description "Remote UDP port"; } leaf vrf { type union { type xr:Cisco-ios-xr-string { pattern "default"; } type xr:Cisco-ios-xr-string { length "1..32"; } } description "VRF name for local-ip"; } } // list ipv4-address } // container ipv4-addresses container ipv6-addresses { description "Enter IPv6 address of the remote interface"; list ipv6-address { key "address remote-port vrf"; description "Enter IPv6 address of the remote interface"; leaf address { type inet:ipv6-address-no-zone; description "Enter IPv6 address of the remote interface"; } leaf remote-port { type uint32 { range "1..65535"; } description "Remote UDP port"; } leaf vrf { type union { type xr:Cisco-ios-xr-string { pattern "default"; } type xr:Cisco-ios-xr-string { length "1..32"; } } description "VRF name for local-ip"; } } // list ipv6-address } // container ipv6-addresses } // container remote-ip } // list ipv6-address } // container ipv6-addresses } // container local-ip container authentication { presence "Indicates a authentication node is configured."; description "Authenticated test session"; } // container authentication container encryption { presence "Indicates a encryption node is configured."; description "Encrypted test session"; } // container encryption leaf timeout { type uint32 { range "60..86400"; } description "Duration for which session remains active (in seconds). Default is forever."; } } // list session } // container test-session } // container twamp-light } // container responder container mpls { description "IPSLA MPLS configuration"; container lsp-monitor { description "MPLS LSP Monitor(MPLSLM) configuration"; container monitors { description "MPLSLM instance to be configured"; list monitor { key "monitor-id"; description "MPLSLM instance to be configured"; leaf monitor-id { type uint32 { range "1..2048"; } description "MPLSLM instance to be configured"; } container type { description "Type of operation"; container mpls { description "MPLS operation types"; container lsp { description "MPLS LSP operation types"; container ping { presence "Indicates a ping node is configured."; description "Perform MPLS LSP Ping operation"; leaf vrf { type xr:Cisco-ios-xr-string { length "1..32"; } description "Specify a VRF instance to be monitored"; } leaf access-list { type xr:Cisco-ios-xr-string { length "1..32"; } description "Apply access list to filter PE addresses"; } container scan { description "Scanning parameters configuration"; leaf interval { type uint32 { range "1..70560"; } description "Time interval for automatic discovery"; } leaf delete-factor { type uint32 { range "0..2147483647"; } description "Number of times for automatic deletion"; } } // container scan leaf tag { type xr:Cisco-ios-xr-string { length "1..128"; } description "Add a tag for this MPLSLM"; } container datasize { description "Protocol data size in payload of probe packets"; leaf request { type uint32 { range "100..17986"; } description "Payload size in request probe packet"; } } // container datasize leaf timeout { type uint32 { range "1..604800000"; } description "Probe/Control timeout interval"; } container lsp { description "LSP parameters for the operation"; container selector { description "Attributes used for path selection during LSP load balancing"; leaf ipv4 { type inet:ipv4-address-no-zone; description "IPv4 address used as destination address in echo request"; } } // container selector } // container lsp container force { description "Forced option for the MPLS LSP operation"; container explicit-null { presence "Indicates a explicit-null node is configured."; description "Add Explicit Null label to the stack"; } // container explicit-null } // container force container reply { description "Echo reply options for the MPLS LSP operation"; leaf dscp { type union { type uint32 { range "0..63"; } type enumeration { enum "default" { value 0; description "Match packets with default dscp (000000)"; } enum "cs1" { value 8; description "Match packets with CS1(precedence 1) dscp (001000)"; } enum "af11" { value 10; description "Match packets with AF11 dscp (001010)"; } enum "af12" { value 12; description "Match packets with AF12 dscp (001100)"; } enum "af13" { value 14; description "Match packets with AF13 dscp (001110)"; } enum "cs2" { value 16; description "Match packets with CS2(precedence 2) dscp (010000)"; } enum "af21" { value 18; description "Match packets with AF21 dscp (010010)"; } enum "af22" { value 20; description "Match packets with AF22 dscp (010100)"; } enum "af23" { value 22; description "Match packets with AF23 dscp (010110)"; } enum "cs3" { value 24; description "Match packets with CS3(precedence 3) dscp (011000)"; } enum "af31" { value 26; description "Match packets with AF31 dscp (011010)"; } enum "af32" { value 28; description "Match packets with AF32 dscp (011100)"; } enum "af33" { value 30; description "Match packets with AF33 dscp (011110)"; } enum "cs4" { value 32; description "Match packets with CS4(precedence 4) dscp (100000)"; } enum "af41" { value 34; description "Match packets with AF41 dscp (100010)"; } enum "af42" { value 36; description "Match packets with AF42 dscp (100100)"; } enum "af43" { value 38; description "Match packets with AF43 dscp (100110)"; } enum "cs5" { value 40; description "Match packets with CS5(precedence 5) dscp (101000)"; } enum "ef" { value 46; description "Match packets with EF dscp (101110)"; } enum "cs6" { value 48; description "Match packets with CS6(precedence 6) dscp (110000)"; } enum "cs7" { value 56; description "Match packets with CS7(precedence 7) dscp (111000)"; } } } description "DSCP bits in the reply IP header"; } container mode { description "Configures reply mode parameters"; container router-alert { presence "Indicates a router-alert node is configured."; description "Enables use of router alert in echo reply packets"; } // container router-alert } // container mode } // container reply leaf ttl { type uint32 { range "1..255"; } description "Time to live"; } leaf exp { type uint32 { range "0..7"; } description "EXP in MPLS LSP echo request header"; } container output { description "Output options"; leaf interface { type xr:Interface-name; description "Output interface to be used for measurement"; } leaf nexthop { type inet:ipv4-address-no-zone; description "Output nexthop to be used for measurement"; } } // container output container path { description "Path discover configuration"; container discover { presence "Indicates a discover node is configured."; description "Enable MPLS LSP path discover(LPD)"; container session { description "Session parameters configuration"; leaf limit { type uint32 { range "1..15"; } description "Number of concurrent active path discovery requests at one time"; } leaf timeout { type uint32 { range "1..900"; } description "Timeout value for path discovery request"; } } // container session container scan { description "Scan parameters configuration"; leaf period { type uint32 { range "0..7200"; } description "Time period for finishing path discovery"; } } // container scan container path { description "Path parameters configuration"; leaf retry { type uint32 { range "1..16"; } description "Number of attempts before declaring the path as down"; } container secondary { description "Secondary frequency configuration"; container frequency { description "Frequency to be used if path failure condition is detected"; container both { must "not(../timeout or ../connection-loss)"; presence "Indicates a both node is configured."; description "Enable secondary frequency for timeout and connection loss"; leaf frequency-value-in-seconds { type uint32 { range "1..604800"; } mandatory true; description "Frequency value in seconds"; } } // container both container connection-loss { must "not(../both or ../timeout)"; presence "Indicates a connection-loss node is configured."; description "Enable secondary frequency for connection loss"; leaf frequency-value-in-seconds { type uint32 { range "1..604800"; } mandatory true; description "Frequency value in seconds"; } } // container connection-loss container timeout { must "not(../both or ../connection-loss)"; presence "Indicates a timeout node is configured."; description "Enable secondary frequency for timeout"; leaf frequency-value-in-seconds { type uint32 { range "1..604800"; } mandatory true; description "Frequency value in seconds"; } } // container timeout } // container frequency } // container secondary } // container path container echo { description "Echo parameters configuration"; leaf interval { type uint32 { range "0..3600000"; } description "Send interval between echo requests during path discovery"; } leaf timeout { type uint32 { range "1..3600"; } description "Timeout value for echo requests during path discovery"; } leaf retry { type uint32 { range "0..10"; } description "Number of timeout retry attempts during path discovery"; } container multipath { description "Downstream map multipath settings"; leaf bitmap-size { type uint32 { range "1..256"; } description "Multipath bit size"; } } // container multipath container maximum { description "Maximum value settings"; container lsp { description "LSP parameters for the operation"; container selector { description "Attributes used for path selection during LSP load balancing"; leaf ipv4 { type inet:ipv4-address-no-zone; description "Maximum IPv4 address used as destination in echo request"; } } // container selector } // container lsp } // container maximum } // container echo } // container discover } // container path container statistics { description "Statistics collection parameters for this operation"; container hourly { description "Statistics collection aggregated over an hour"; leaf buckets { type uint32 { range "0..2"; } description "Number of Hours for which statistics are kept"; } } // container hourly } // container statistics } // container ping container trace { presence "Indicates a trace node is configured."; description "Perform MPLS LSP Trace operation"; leaf vrf { type xr:Cisco-ios-xr-string { length "1..32"; } description "Specify a VRF instance to be monitored"; } leaf access-list { type xr:Cisco-ios-xr-string { length "1..32"; } description "Apply access list to filter PE addresses"; } container scan { description "Scanning parameters configuration"; leaf interval { type uint32 { range "1..70560"; } description "Time interval for automatic discovery"; } leaf delete-factor { type uint32 { range "0..2147483647"; } description "Number of times for automatic deletion"; } } // container scan leaf tag { type xr:Cisco-ios-xr-string { length "1..128"; } description "Add a tag for this MPLSLM"; } container datasize { description "Protocol data size in payload of probe packets"; leaf request { type uint32 { range "100..17986"; } description "Payload size in request probe packet"; } } // container datasize leaf timeout { type uint32 { range "1..604800000"; } description "Probe/Control timeout interval"; } container lsp { description "LSP parameters for the operation"; container selector { description "Attributes used for path selection during LSP load balancing"; leaf ipv4 { type inet:ipv4-address-no-zone; description "IPv4 address used as destination address in echo request"; } } // container selector } // container lsp container force { description "Forced option for the MPLS LSP operation"; container explicit-null { presence "Indicates a explicit-null node is configured."; description "Add Explicit Null label to the stack"; } // container explicit-null } // container force container reply { description "Echo reply options for the MPLS LSP operation"; leaf dscp { type union { type uint32 { range "0..63"; } type enumeration { enum "default" { value 0; description "Match packets with default dscp (000000)"; } enum "cs1" { value 8; description "Match packets with CS1(precedence 1) dscp (001000)"; } enum "af11" { value 10; description "Match packets with AF11 dscp (001010)"; } enum "af12" { value 12; description "Match packets with AF12 dscp (001100)"; } enum "af13" { value 14; description "Match packets with AF13 dscp (001110)"; } enum "cs2" { value 16; description "Match packets with CS2(precedence 2) dscp (010000)"; } enum "af21" { value 18; description "Match packets with AF21 dscp (010010)"; } enum "af22" { value 20; description "Match packets with AF22 dscp (010100)"; } enum "af23" { value 22; description "Match packets with AF23 dscp (010110)"; } enum "cs3" { value 24; description "Match packets with CS3(precedence 3) dscp (011000)"; } enum "af31" { value 26; description "Match packets with AF31 dscp (011010)"; } enum "af32" { value 28; description "Match packets with AF32 dscp (011100)"; } enum "af33" { value 30; description "Match packets with AF33 dscp (011110)"; } enum "cs4" { value 32; description "Match packets with CS4(precedence 4) dscp (100000)"; } enum "af41" { value 34; description "Match packets with AF41 dscp (100010)"; } enum "af42" { value 36; description "Match packets with AF42 dscp (100100)"; } enum "af43" { value 38; description "Match packets with AF43 dscp (100110)"; } enum "cs5" { value 40; description "Match packets with CS5(precedence 5) dscp (101000)"; } enum "ef" { value 46; description "Match packets with EF dscp (101110)"; } enum "cs6" { value 48; description "Match packets with CS6(precedence 6) dscp (110000)"; } enum "cs7" { value 56; description "Match packets with CS7(precedence 7) dscp (111000)"; } } } description "DSCP bits in the reply IP header"; } container mode { description "Configures reply mode parameters"; container router-alert { presence "Indicates a router-alert node is configured."; description "Enables use of router alert in echo reply packets"; } // container router-alert } // container mode } // container reply leaf ttl { type uint32 { range "1..255"; } description "Time to live"; } leaf exp { type uint32 { range "0..7"; } description "EXP in MPLS LSP echo request header"; } container output { description "Output options"; leaf interface { type xr:Interface-name; description "Output interface to be used for measurement"; } leaf nexthop { type inet:ipv4-address-no-zone; description "Output nexthop to be used for measurement"; } } // container output container statistics { description "Statistics collection parameters for this operation"; container hourly { description "Statistics collection aggregated over an hour"; leaf buckets { type uint32 { range "0..2"; } description "Number of Hours for which statistics are kept"; } } // container hourly } // container statistics } // container trace } // container lsp } // container mpls } // container type } // list monitor } // container monitors container schedule { description "MPLSLM schedule configuration"; container monitors { description "MPLSLM instance to be configured"; list monitor { key "monitor-id"; description "MPLSLM instance to be configured"; leaf monitor-id { type uint32 { range "1..2048"; } description "MPLSLM instance to be configured"; } container schedule { description "Schedule parameters configuration"; leaf period { type uint32 { range "1..604800"; } description "Group schedule period range"; } } // container schedule leaf frequency { type uint32 { range "1..604800"; } description "Group schedule frequency of the probing"; } container start-time { description "Start time of the operation"; container time-and-date { presence "Indicates a time node is configured."; description "Start time of the operation"; leaf hour { type uint32 { range "0..23"; } mandatory true; description "Time in hh:mm:ss format"; } leaf minute { type uint32 { range "0..59"; } mandatory true; description "Time in hh:mm:ss format"; } leaf second { type uint32 { range "0..59"; } mandatory true; description "Time in hh:mm:ss format"; } leaf month { type enumeration { enum "january" { value 0; description "January"; } enum "february" { value 1; description "February"; } enum "march" { value 2; description "March"; } enum "april" { value 3; description "April"; } enum "may" { value 4; description "May"; } enum "june" { value 5; description "June"; } enum "july" { value 6; description "July"; } enum "august" { value 7; description "August"; } enum "september" { value 8; description "September"; } enum "october" { value 9; description "October"; } enum "november" { value 10; description "November"; } enum "december" { value 11; description "December"; } } must "../day-of-month"; description "Month of the year"; } leaf day-of-month { type uint32 { range "1..31"; } description "Day of the month"; } leaf year { type uint32 { range "1993..2035"; } must "../month and ../day-of-month"; description "Year"; } } // container time-and-date container pending { presence "Indicates a pending node is configured."; description "Keep operation in the pending state"; } // container pending container after { presence "Indicates a after node is configured."; description "Schedule operation after specified time"; container time { description "Time in hh:mm:ss format"; leaf hour { type uint32 { range "0..23"; } mandatory true; description "Time in hh:mm:ss format"; } leaf minute { type uint32 { range "0..59"; } mandatory true; description "Time in hh:mm:ss format"; } leaf second { type uint32 { range "0..59"; } mandatory true; description "Time in hh:mm:ss format"; } } // container time } // container after container now { presence "Indicates a now node is configured."; description "Schedule operation now"; } // container now } // container start-time } // list monitor } // container monitors } // container schedule container reaction { description "MPLSLM reaction configuration"; container monitors { description "MPLSLM instance to be configured"; list monitor { key "monitor-id"; description "MPLSLM instance to be configured"; leaf monitor-id { type uint32 { range "1..2048"; } description "MPLSLM instance to be configured"; } container react { description "Specify an element to be monitored for reaction"; container connection-loss { presence "Indicates a connection-loss node is configured."; description "Reaction on connection loss of monitored MPLSLM"; container action { description "Type of action to be taken on threshold violation(s)"; container logging { presence "Indicates a logging node is configured."; description "Generate a syslog alarm on threshold violation"; } // container logging container threshold { description "Configure threshold parameters on monitored element"; container type { description "Threshold type"; container immediate { must "not(../consecutive)"; presence "Indicates a immediate node is configured."; description "Take action immediately upon threshold violation"; } // container immediate leaf consecutive { type uint32 { range "1..16"; } must "not(../immediate)"; description "Take action after a number of consecutive violations"; } } // container type } // container threshold } // container action } // container connection-loss container timeout { presence "Indicates a timeout node is configured."; description "Reaction on timeout of monitored MPLSLM"; container action { description "Type of action to be taken on threshold violation(s)"; container logging { presence "Indicates a logging node is configured."; description "Generate a syslog alarm on threshold violation"; } // container logging container threshold { description "Configure threshold parameters on monitored element"; container type { description "Threshold type"; container immediate { must "not(../consecutive)"; presence "Indicates a immediate node is configured."; description "Take action immediately upon threshold violation"; } // container immediate leaf consecutive { type uint32 { range "1..16"; } must "not(../immediate)"; description "Take action after a number of consecutive violations"; } } // container type } // container threshold } // container action } // container timeout container lpd { description "Reaction on LPD violation"; container tree-trace { presence "Indicates a tree-trace node is configured."; description "Tree trace violation"; container action { description "Type of action to be taken on threshold violation(s)"; container logging { presence "Indicates a logging node is configured."; description "Generate a syslog alarm on threshold violation"; } // container logging container threshold { description "Configure threshold parameters on monitored element"; container type { description "Threshold type"; container immediate { must "not(../consecutive)"; presence "Indicates a immediate node is configured."; description "Take action immediately upon threshold violation"; } // container immediate leaf consecutive { type uint32 { range "1..16"; } must "not(../immediate)"; description "Take action after a number of consecutive violations"; } } // container type } // container threshold } // container action } // container tree-trace container lpd-group { presence "Indicates a lpd-group node is configured."; description "LPD group violation"; container action { description "Type of action to be taken on threshold violation(s)"; container logging { presence "Indicates a logging node is configured."; description "Generate a syslog alarm on threshold violation"; } // container logging container threshold { description "Configure threshold parameters on monitored element"; container type { description "Threshold type"; container immediate { must "not(../consecutive)"; presence "Indicates a immediate node is configured."; description "Take action immediately upon threshold violation"; } // container immediate leaf consecutive { type uint32 { range "1..16"; } must "not(../immediate)"; description "Take action after a number of consecutive violations"; } } // container type } // container threshold } // container action } // container lpd-group } // container lpd } // container react } // list monitor } // container monitors } // container reaction } // container lsp-monitor container discovery { description "PE discovery configuration"; container vpn { description "Layer 3 VPN PE discovery configuration"; leaf interval { type uint32 { range "30..70560"; } description "Specify a discovery refresh interval"; } } // container vpn } // container discovery } // container mpls container server { description "IPSLA IPPM server configuration"; container twamp { presence "Indicates a twamp node is configured."; description "IPSLA IPPM TWAMP server configuration"; leaf port { type uint32 { range "1..65535"; } description "IPPM server port"; } container timer { description "IPPM server timer configurations"; leaf inactivity { type uint32 { range "1..6000"; } description "IPPM server inactivity timer"; } } // container timer } // container twamp } // container server } // container ipsla } // module Cisco-IOS-XR-um-ipsla-cfg
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