models/openconfig/src/main/yang/segment-routing/openconfig-rsvp-sr-ext.yang - onos - Gitiles

 module openconfig-rsvp-sr-ext {
   yang-version "1";

   namespace "http://openconfig.net/yang/rsvp-sr-ext";
   prefix "oc-sr-rsvp-ext";

   import openconfig-extensions { prefix "oc-ext"; }
   import openconfig-types { prefix "oc-types"; }
   import openconfig-network-instance { prefix "oc-ni"; }

   organization
     "OpenConfig working group";

   contact
     "OpenConfig working group
     www.openconfig.net";

   description
     "This module adds extensions to the OpenConfig MPLS models to
     provide extensions which allow the coexistence of RSVP-TE and
     Segment Routing (SR) within the same network. It augments the
     existing OpenConfig segment routing (SR) and RSVP-TE models
     where required.";

   oc-ext:openconfig-version "0.1.0";

   revision 2017-03-06 {
     description
       "Initial revision.";
     reference "0.1.0";
   }

   grouping bandwidth-measurement-global-state {
     description
       "Operational state parameters for bandwidth measurement which
       apply globally to the device.";

     leaf effective-adjustment-interval {
       type uint32;
       units "seconds";
       description
         "The effective adjustment interval that is being used by
         the system. In the case that the adjustment-interval leaf
         is set to a non-integer multiple of the collection-interval,
         and the system does not support this, the value of this leaf
         should reflect the effective value of the adjustment interval
         that it has selected. In the case where no rounding of the
         adjustment interval has occurred, this value should have the
         same value as the adjustment-inerval leaf.";
     }
   }

   grouping bandwidth-measurement-global-config {
     description
       "Configuration parameters for bandwidth measurement which apply
       globally to the device.";

     leaf measure-sr-traffic {
       type boolean;
       description
         "When this leaf is set to true, the local system should
         measure the bandwidth utilisation of SR traffic on interfaces
         for which TED entries are being generated.

         In the case that this functionality is enabled, traffic
         forwarded using LFIB entries that correspond to MPLS
         labels which correspond to SR SIDs should be accounted
         for.";
       reference
         "draft-sitaraman-sr-rsvp-coexistence-rec-01";
     }

     // TODO(robjs): For future extension, traffic accounting for
     // non-SR, non-RSVP traffic could be added here. e.g., LDP,
     // BGP-LU etc.

     leaf collection-interval {
       type uint32;
       units "seconds";
       description
         "The interval at which the collection of interface
         statistics relating to non-RSVP-TE traffic should be
         performed";
       reference
         "draft-sitaraman-sr-rsvp-coexistence-rec-01";
     }

     leaf adjustment-interval {
       type uint32;
       units "seconds";
       description
         "The interval after which an adjustment to the utilised
         bandwidth on the interface is made. This value must be
         greater than, or equal to, the collection interval for
         statistics.  This value is referred to as N in
         draft-sitaraman-sr-rsvp-coexistence-rec-01.

         After N seconds have expired, the
         arithmetic mean of the samples is taken, and this is
         considered as the non-RSVP-TE utilisation of the
         interface. In the case that the adjustment interval is
         an integer >1 multiple of the collection interval, this
         serves to provide smoothing of the collected bandwidth
         statistics.";
       reference
         "draft-sitaraman-sr-rsvp-coexistence-rec-01";
     }

     leaf bandwidth-multiplier {
       type decimal64 {
         fraction-digits 4;
       }
       default 1.0000;
       description
         "A multiplier applied to the sampled bandwidth which
         determines the value that is propagated to the IGP TED.
         By default this value is 1.0000, and hence the actual
         sampled value is flooded.";
     }
   }

   grouping bandwidth-measurement-update-config {
     description
       "Configuration parameters related to when the bandwidth
       measurement information is used to update the IGP TED.";

     leaf update-trigger {
       type enumeration {
         enum ADJUSTED_MAX_RESERVABLE_PCT {
           description
             "Update of a new maximum reservable bandwidth IGP
             TLV is based on the value changing >= X% of
             the currently flooded adjusted-absolute-subscription-bw.
             The percentage of this value that is used is specified
             by the adjusted-max-reservable-bw-pct leaf.";
         }
         enum SR_TRAFFIC_PCT {
           description
             "Update of the new maximum reservable bandwidth IGP
             TLV is based on the value changing >= X% of the last
             calculated segment routing traffic utilisation for the
             interface. The percentage delta of this value is
             specified by the sr-traffic-pct leaf.";
         }
       }
       description
         "The trigger that should be used to determine when the IGP
         TED is updated with new information as to the effective
         maximum reservable bandwidth
         (adjusted-absolute-subscription-bw)";
     }

     leaf adjusted-max-reservable-bw-pct {
       when "../update-trigger = 'ADJUSTED_MAX_RESERVABLE_PCT'" {
         description
           "Only allow the adjusted-max-reservable-bw update trigger
           to be specified when the update-trigger mode is specified
           to be a percentage of the currently flooded value.";
       }
       type oc-types:percentage;
       description
         "The delta in the adjusted-max-reservable-bandwidth that
         should trigger an update in the value which is flooded
         through the IGP TED.
         The delta is measured as a percentage of the
         current adjusted value of the maximum reservable bandwidth
         of the interface, as specified by the
         adjusted-absolute-subscription-bw RSVP-TE leaf.";
       reference
         "draft-sitaraman-sr-rsvp-coexistence-rec-01";
     }

     leaf sr-traffic-pct {
       when "../update-trigger = 'SR_TRAFFIC_PCT'" {
         description
           "Only allow the SR traffic percentage trigger to be
           specified when the update trigger is defined to be a
           percentage of the last calculated SR traffic value.";
       }
       type oc-types:percentage;
       description
         "The change in the calculated SR traffic on the interface
         that should trigger an update in the value of the
         maximum reservable bandwidth flooded through the IGP TED.
         The value is specified as a percentage of the
         last-calculated-sr-traffic state leaf.";
     }
   }

   grouping bandwidth-measurement-global-structural {
     description
       "Structural grouping for the measurement of segment routing
       traffic, and its advertisement into the IGP TED.";

     container bandwidth-measurement {
       description
         "Configuration and operational state parameters related to
         how bandwidth utilisation is measured and flooded into the
         IGP.";

       container config {
         description
           "Configuration parameters relating to bandwidth
           measurement.";

         uses bandwidth-measurement-global-config;
       }

       container state {
         config false;
         description
           "Operational state parameters relating to bandwidth
           measurement";

         uses bandwidth-measurement-global-config;
         uses bandwidth-measurement-global-state;
       }

       container update-trigger {
         description
           "Configuration and operational state parameters related
           to the update trigger for flooding new bandwidth
           information into the IGP.";

         container config {
           description
             "Configuration parameters related to the bandwidth
             measurement update trigger.";

           uses bandwidth-measurement-update-config;
         }

         container state {
           config false;
           description
             "Operational state parameters related to the bandwidth
             measurement update trigger.";

           uses bandwidth-measurement-update-config;
         }
       }
     }
   }

   augment "/oc-ni:network-instances/oc-ni:network-instance/" +
           "oc-ni:mpls/oc-ni:te-global-attributes" {
     description
       "Add the bandwidth measurement parameters to MPLS global
       traffic engineering hierarchy.";

     uses bandwidth-measurement-global-structural;
   }

   grouping bandwidth-measurement-rsvp-te-adjusted-state {
     description
       "Logical grouping augmented into the RSVP-TE hierarchy to
       provide an operational state value which reflects the
       adjusted RSVP-TE available bandwidth.";

     leaf adjusted-absolute-subscription-bw {
       type uint64;
       units "kbps";
       description
         "The adjusted absolute value (in kbps) of the
         bandwidth which is reservable to RSVP-TE on the
         local system. In the case that the bandwidth-measurement
         configuration does not account for non-RSVP-TE traffic
         then this value is equal to the
         calculated-absolute-subscription-bw, in the case that
         non-RSVP-TE traffic is being accounted for, it is lower
         such that calculated-absolute-subscription-bw -
         adjusted-absolute-subscription-bw = the current calculated
         non-RSVP-TE traffic.

         This value reflects the last flooded value of the maximum
         reservable bandwidth, or subscription.";
     }
   }

   augment "/oc-ni:network-instances/oc-ni:network-instance/" +
     "oc-ni:mpls/oc-ni:signaling-protocols/oc-ni:rsvp-te/" +
     "oc-ni:interface-attributes/oc-ni:interface/" +
     "oc-ni:subscription/oc-ni:state" {

     description
       "Augmentation to add the adjusted RSVP-TE available bandwidth
       state to the RSVP-TE signaling protocol.";

     uses bandwidth-measurement-rsvp-te-adjusted-state;
   }

   grouping bandwidth-measurement-intf-structural {
     description
       "Structural grouping containing interface bandwidth
       measurement configuration and operational state
       parameters.";

     container bandwidth-measurement {
       description
         "Configuration and operational state parameters relating to
         per-interface bandwidth measurement. These parameters are
         used in the case that RSVP-TE coexists with other MPLS
         signaling protocols on an interface.";

       container state {
         config false;
         description
           "Operational state parameters relating to the containing
           interface's bandwidth measurement.";

         uses bandwidth-measurement-intf-state;
       }
     }
   }

   grouping bandwidth-measurement-intf-state {
     description
       "Operational state parameters per-interface for the measured
       bandwidth on an interface";

     leaf last-sample-time {
       type oc-types:timeticks64;
       description
         "The time at which the last sample of bandwidth utilisation
         for both RSVP-TE and non-RSVP-TE traffic was taken. This value
         is represented in nanoseconds since the Unix epoch.";
     }

     leaf last-sample-measured-rsvp-util {
       type uint64;
       units "kbps";
       description
         "The measured RSVP-TE bandwidth utilisation at the last sample
         (whose time is indicated in last-sample-time). This value is
         expressed as a 64-bit unsigned integer representing the number
         of kilobits per second that RSVP-TE traffic is consuming on
         the interface.";
     }

     leaf last-sample-measured-sr-util {
       type uint64;
       units "kbps";
       description
         "The measured Segment Routing bandwidth utilisation at the
         last sample (whose time is indicated in last-sample-time).
         This value is expressed as a 64-bit unsigned integer
         representing the number of kilobits per second that Segment
         Routing traffic is consuming on the interface.";
     }

     leaf last-calculated-time {
       type oc-types:timeticks64;
       description
         "The time at which the last calculated value for bandwidth
         utilisation was performed.";
     }

     leaf last-calculated-sr-utilisation {
       type uint64;
       description
         "The last calculated value of the Segment Routing  utilisation
         (taken post any averaging or adjustment that occurs). This
         value is updated regardless of whether the value was flooded
         or not.";
     }

     leaf last-flooded-time {
       type oc-types:timeticks64;
       description
         "The time, expressed in nanoseconds since the epoch, at which
         the bandwidth utilisation of non-RSVP-TE traffic resulted in
         the value being flooded in the IGP. If the configuration of the
         local system specifies a 0% change requires flooding, this leaf
         will always reflect the value of the last-calculated-time. In
         systems that have suppression due to a >0% delta being required
         then it indicates the last time that the percentage threshold
         was exceeded.";
     }
   }

   augment "/oc-ni:network-instances/oc-ni:network-instance/oc-ni:mpls" +
           "/oc-ni:te-interface-attributes/oc-ni:interface" {
     description
       "Augment the per-interface bandwidth measurement parameters into the
       MPLS hierarchy of network instance.";

     uses bandwidth-measurement-intf-structural;
   }
 }
	module openconfig-rsvp-sr-ext {
	yang-version "1";

	namespace "http://openconfig.net/yang/rsvp-sr-ext";
	prefix "oc-sr-rsvp-ext";

	import openconfig-extensions { prefix "oc-ext"; }
	import openconfig-types { prefix "oc-types"; }
	import openconfig-network-instance { prefix "oc-ni"; }

	organization
	"OpenConfig working group";

	contact
	"OpenConfig working group
	www.openconfig.net";

	description
	"This module adds extensions to the OpenConfig MPLS models to
	provide extensions which allow the coexistence of RSVP-TE and
	Segment Routing (SR) within the same network. It augments the
	existing OpenConfig segment routing (SR) and RSVP-TE models
	where required.";

	oc-ext:openconfig-version "0.1.0";

	revision 2017-03-06 {
	description
	"Initial revision.";
	reference "0.1.0";
	}

	grouping bandwidth-measurement-global-state {
	description
	"Operational state parameters for bandwidth measurement which
	apply globally to the device.";

	leaf effective-adjustment-interval {
	type uint32;
	units "seconds";
	description
	"The effective adjustment interval that is being used by
	the system. In the case that the adjustment-interval leaf
	is set to a non-integer multiple of the collection-interval,
	and the system does not support this, the value of this leaf
	should reflect the effective value of the adjustment interval
	that it has selected. In the case where no rounding of the
	adjustment interval has occurred, this value should have the
	same value as the adjustment-inerval leaf.";
	}
	}

	grouping bandwidth-measurement-global-config {
	description
	"Configuration parameters for bandwidth measurement which apply
	globally to the device.";

	leaf measure-sr-traffic {
	type boolean;
	description
	"When this leaf is set to true, the local system should
	measure the bandwidth utilisation of SR traffic on interfaces
	for which TED entries are being generated.

	In the case that this functionality is enabled, traffic
	forwarded using LFIB entries that correspond to MPLS
	labels which correspond to SR SIDs should be accounted
	for.";
	reference
	"draft-sitaraman-sr-rsvp-coexistence-rec-01";
	}

	// TODO(robjs): For future extension, traffic accounting for
	// non-SR, non-RSVP traffic could be added here. e.g., LDP,
	// BGP-LU etc.

	leaf collection-interval {
	type uint32;
	units "seconds";
	description
	"The interval at which the collection of interface
	statistics relating to non-RSVP-TE traffic should be
	performed";
	reference
	"draft-sitaraman-sr-rsvp-coexistence-rec-01";
	}

	leaf adjustment-interval {
	type uint32;
	units "seconds";
	description
	"The interval after which an adjustment to the utilised
	bandwidth on the interface is made. This value must be
	greater than, or equal to, the collection interval for
	statistics. This value is referred to as N in
	draft-sitaraman-sr-rsvp-coexistence-rec-01.

	After N seconds have expired, the
	arithmetic mean of the samples is taken, and this is
	considered as the non-RSVP-TE utilisation of the
	interface. In the case that the adjustment interval is
	an integer >1 multiple of the collection interval, this
	serves to provide smoothing of the collected bandwidth
	statistics.";
	reference
	"draft-sitaraman-sr-rsvp-coexistence-rec-01";
	}

	leaf bandwidth-multiplier {
	type decimal64 {
	fraction-digits 4;
	}
	default 1.0000;
	description
	"A multiplier applied to the sampled bandwidth which
	determines the value that is propagated to the IGP TED.
	By default this value is 1.0000, and hence the actual
	sampled value is flooded.";
	}
	}

	grouping bandwidth-measurement-update-config {
	description
	"Configuration parameters related to when the bandwidth
	measurement information is used to update the IGP TED.";

	leaf update-trigger {
	type enumeration {
	enum ADJUSTED_MAX_RESERVABLE_PCT {
	description
	"Update of a new maximum reservable bandwidth IGP
	TLV is based on the value changing >= X% of
	the currently flooded adjusted-absolute-subscription-bw.
	The percentage of this value that is used is specified
	by the adjusted-max-reservable-bw-pct leaf.";
	}
	enum SR_TRAFFIC_PCT {
	description
	"Update of the new maximum reservable bandwidth IGP
	TLV is based on the value changing >= X% of the last
	calculated segment routing traffic utilisation for the
	interface. The percentage delta of this value is
	specified by the sr-traffic-pct leaf.";
	}
	}
	description
	"The trigger that should be used to determine when the IGP
	TED is updated with new information as to the effective
	maximum reservable bandwidth
	(adjusted-absolute-subscription-bw)";
	}

	leaf adjusted-max-reservable-bw-pct {
	when "../update-trigger = 'ADJUSTED_MAX_RESERVABLE_PCT'" {
	description
	"Only allow the adjusted-max-reservable-bw update trigger
	to be specified when the update-trigger mode is specified
	to be a percentage of the currently flooded value.";
	}
	type oc-types:percentage;
	description
	"The delta in the adjusted-max-reservable-bandwidth that
	should trigger an update in the value which is flooded
	through the IGP TED.
	The delta is measured as a percentage of the
	current adjusted value of the maximum reservable bandwidth
	of the interface, as specified by the
	adjusted-absolute-subscription-bw RSVP-TE leaf.";
	reference
	"draft-sitaraman-sr-rsvp-coexistence-rec-01";
	}

	leaf sr-traffic-pct {
	when "../update-trigger = 'SR_TRAFFIC_PCT'" {
	description
	"Only allow the SR traffic percentage trigger to be
	specified when the update trigger is defined to be a
	percentage of the last calculated SR traffic value.";
	}
	type oc-types:percentage;
	description
	"The change in the calculated SR traffic on the interface
	that should trigger an update in the value of the
	maximum reservable bandwidth flooded through the IGP TED.
	The value is specified as a percentage of the
	last-calculated-sr-traffic state leaf.";
	}
	}

	grouping bandwidth-measurement-global-structural {
	description
	"Structural grouping for the measurement of segment routing
	traffic, and its advertisement into the IGP TED.";

	container bandwidth-measurement {
	description
	"Configuration and operational state parameters related to
	how bandwidth utilisation is measured and flooded into the
	IGP.";

	container config {
	description
	"Configuration parameters relating to bandwidth
	measurement.";

	uses bandwidth-measurement-global-config;
	}

	container state {
	config false;
	description
	"Operational state parameters relating to bandwidth
	measurement";

	uses bandwidth-measurement-global-config;
	uses bandwidth-measurement-global-state;
	}

	container update-trigger {
	description
	"Configuration and operational state parameters related
	to the update trigger for flooding new bandwidth
	information into the IGP.";

	container config {
	description
	"Configuration parameters related to the bandwidth
	measurement update trigger.";

	uses bandwidth-measurement-update-config;
	}

	container state {
	config false;
	description
	"Operational state parameters related to the bandwidth
	measurement update trigger.";

	uses bandwidth-measurement-update-config;
	}
	}
	}
	}

	augment "/oc-ni:network-instances/oc-ni:network-instance/" +
	"oc-ni:mpls/oc-ni:te-global-attributes" {
	description
	"Add the bandwidth measurement parameters to MPLS global
	traffic engineering hierarchy.";

	uses bandwidth-measurement-global-structural;
	}

	grouping bandwidth-measurement-rsvp-te-adjusted-state {
	description
	"Logical grouping augmented into the RSVP-TE hierarchy to
	provide an operational state value which reflects the
	adjusted RSVP-TE available bandwidth.";

	leaf adjusted-absolute-subscription-bw {
	type uint64;
	units "kbps";
	description
	"The adjusted absolute value (in kbps) of the
	bandwidth which is reservable to RSVP-TE on the
	local system. In the case that the bandwidth-measurement
	configuration does not account for non-RSVP-TE traffic
	then this value is equal to the
	calculated-absolute-subscription-bw, in the case that
	non-RSVP-TE traffic is being accounted for, it is lower
	such that calculated-absolute-subscription-bw -
	adjusted-absolute-subscription-bw = the current calculated
	non-RSVP-TE traffic.

	This value reflects the last flooded value of the maximum
	reservable bandwidth, or subscription.";
	}
	}

	augment "/oc-ni:network-instances/oc-ni:network-instance/" +
	"oc-ni:mpls/oc-ni:signaling-protocols/oc-ni:rsvp-te/" +
	"oc-ni:interface-attributes/oc-ni:interface/" +
	"oc-ni:subscription/oc-ni:state" {

	description
	"Augmentation to add the adjusted RSVP-TE available bandwidth
	state to the RSVP-TE signaling protocol.";

	uses bandwidth-measurement-rsvp-te-adjusted-state;
	}

	grouping bandwidth-measurement-intf-structural {
	description
	"Structural grouping containing interface bandwidth
	measurement configuration and operational state
	parameters.";

	container bandwidth-measurement {
	description
	"Configuration and operational state parameters relating to
	per-interface bandwidth measurement. These parameters are
	used in the case that RSVP-TE coexists with other MPLS
	signaling protocols on an interface.";

	container state {
	config false;
	description
	"Operational state parameters relating to the containing
	interface's bandwidth measurement.";

	uses bandwidth-measurement-intf-state;
	}
	}
	}

	grouping bandwidth-measurement-intf-state {
	description
	"Operational state parameters per-interface for the measured
	bandwidth on an interface";

	leaf last-sample-time {
	type oc-types:timeticks64;
	description
	"The time at which the last sample of bandwidth utilisation
	for both RSVP-TE and non-RSVP-TE traffic was taken. This value
	is represented in nanoseconds since the Unix epoch.";
	}

	leaf last-sample-measured-rsvp-util {
	type uint64;
	units "kbps";
	description
	"The measured RSVP-TE bandwidth utilisation at the last sample
	(whose time is indicated in last-sample-time). This value is
	expressed as a 64-bit unsigned integer representing the number
	of kilobits per second that RSVP-TE traffic is consuming on
	the interface.";
	}

	leaf last-sample-measured-sr-util {
	type uint64;
	units "kbps";
	description
	"The measured Segment Routing bandwidth utilisation at the
	last sample (whose time is indicated in last-sample-time).
	This value is expressed as a 64-bit unsigned integer
	representing the number of kilobits per second that Segment
	Routing traffic is consuming on the interface.";
	}

	leaf last-calculated-time {
	type oc-types:timeticks64;
	description
	"The time at which the last calculated value for bandwidth
	utilisation was performed.";
	}

	leaf last-calculated-sr-utilisation {
	type uint64;
	description
	"The last calculated value of the Segment Routing utilisation
	(taken post any averaging or adjustment that occurs). This
	value is updated regardless of whether the value was flooded
	or not.";
	}

	leaf last-flooded-time {
	type oc-types:timeticks64;
	description
	"The time, expressed in nanoseconds since the epoch, at which
	the bandwidth utilisation of non-RSVP-TE traffic resulted in
	the value being flooded in the IGP. If the configuration of the
	local system specifies a 0% change requires flooding, this leaf
	will always reflect the value of the last-calculated-time. In
	systems that have suppression due to a >0% delta being required
	then it indicates the last time that the percentage threshold
	was exceeded.";
	}
	}

	augment "/oc-ni:network-instances/oc-ni:network-instance/oc-ni:mpls" +
	"/oc-ni:te-interface-attributes/oc-ni:interface" {
	description
	"Augment the per-interface bandwidth measurement parameters into the
	MPLS hierarchy of network instance.";

	uses bandwidth-measurement-intf-structural;
	}
	}