From 8e0c7007906730fe4547b0265a895ad8a322a7dc Mon Sep 17 00:00:00 2001 From: Maros Marsalek Date: Thu, 10 Nov 2016 12:22:28 +0100 Subject: Remove hc2vpp codebase Moved to a dedicated hc2vpp project in fd.io Change-Id: I03dc3b3029f21b127a00c69a86bcd8e467896241 Signed-off-by: Maros Marsalek --- .../routing-api/src/main/yang/ietf-routing.yang | 1030 -------------------- 1 file changed, 1030 deletions(-) delete mode 100644 routing/routing-api/src/main/yang/ietf-routing.yang (limited to 'routing/routing-api/src/main/yang/ietf-routing.yang') diff --git a/routing/routing-api/src/main/yang/ietf-routing.yang b/routing/routing-api/src/main/yang/ietf-routing.yang deleted file mode 100644 index 6902cd0bf..000000000 --- a/routing/routing-api/src/main/yang/ietf-routing.yang +++ /dev/null @@ -1,1030 +0,0 @@ -module ietf-routing{ - - namespace "urn:ietf:params:xml:ns:yang:ietf-routing"; - - prefix "rt"; - - import ietf-yang-types { - prefix "yang"; - } - - import ietf-interfaces { - prefix "if"; - } - - organization - "IETF NETMOD (NETCONF Data Modeling Language) Working Group"; - - contact - "WG Web: - WG List: - - WG Chair: Thomas Nadeau - - - WG Chair: Juergen Schoenwaelder - - - Editor: Ladislav Lhotka - "; - - description - "This YANG module defines essential components for the management - of a routing subsystem. - - Copyright (c) 2014 IETF Trust and the persons identified as - authors of the code. All rights reserved. - - Redistribution and use in source and binary forms, with or - without modification, is permitted pursuant to, and subject to - the license terms contained in, the Simplified BSD License set - forth in Section 4.c of the IETF Trust's Legal Provisions - Relating to IETF Documents - (http://trustee.ietf.org/license-info). - - This version of this YANG module is part of RFC XXXX; see the - RFC itself for full legal notices."; - - revision 2014-05-24 { - description - "Initial revision."; - reference - "RFC XXXX: A YANG Data Model for Routing Management"; - } - - /* Features */ - - feature multiple-ribs { - description - "This feature indicates that the device supports multiple RIBS - per address family, and the framework for passing routes - between RIBs. - - Devices that do not support this feature MUST provide exactly - one system-controlled RIB per supported address family. These - RIBs then appear as entries of the list - /routing-state/ribs/rib."; - } - - feature multipath-routes { - description - "This feature indicates that the device supports multipath - routes that have a list of next-hops."; - } - - /* Identities */ - - identity address-family { - description - "Base identity from which identities describing address - families are derived."; - } - - identity ipv4 { - base address-family; - description - "This identity represents IPv4 address family."; - } - - identity ipv6 { - base address-family; - description - "This identity represents IPv6 address family."; - } - - identity routing-instance-type { - description - "Base identity from which identities describing routing - instance types are derived. - - It is primarily intended for discriminating among different - types of logical routers or router virtualization."; - } - - identity standard-routing-instance { - base routing-instance-type; - description - "This identity represents a default routing instance."; - } - - identity routing-protocol { - description - "Base identity from which routing protocol identities are - derived."; - } - - identity direct { - base routing-protocol; - description - "Routing pseudo-protocol which provides routes to directly - connected networks."; - } - - identity static { - base routing-protocol; - description - "Static routing pseudo-protocol."; - } - - identity route-filter { - description - "Base identity from which all route filters are derived."; - } - - identity deny-all-route-filter { - base route-filter; - description - "Route filter that blocks all routes."; - } - - identity allow-all-route-filter { - base route-filter; - description - "Route filter that permits all routes."; - } - - /* Type Definitions */ - - typedef routing-instance-ref { - type leafref { - path "/rt:routing/rt:routing-instance/rt:name"; - } - description - "This type is used for leafs that reference a routing instance - configuration."; - } - - typedef routing-instance-state-ref { - type leafref { - path "/rt:routing-state/rt:routing-instance/rt:name"; - } - description - "This type is used for leafs that reference state data of a - routing instance."; - } - - typedef rib-ref { - type leafref { - path "/rt:routing/rt:ribs/rt:rib/rt:name"; - } - description - "This type is used for leafs that reference a RIB - configuration."; - } - - typedef rib-state-ref { - type leafref { - path "/rt:routing-state/rt:ribs/rt:rib/rt:name"; - } - description - "This type is used for leafs that reference a RIB in state - data."; - } - - typedef route-filter-ref { - type leafref { - path "/rt:routing/rt:route-filters/rt:route-filter/rt:name"; - } - description - "This type is used for leafs that reference a route filter - configuration."; - } - - typedef route-filter-state-ref { - type leafref { - path "/rt:routing-state/rt:route-filters/rt:route-filter/" - + "rt:name"; - } - description - "This type is used for leafs that reference a route filter in - state data."; - } - - /* Groupings */ - - grouping address-family-grouping { - description - "This grouping provides a leaf identifying an address - family."; - leaf address-family { - type identityref { - base address-family; - } - mandatory "true"; - description - "Address family."; - } - } - - grouping state-entry-id { - description - "This grouping defines a unique identifier for entries in - several operational state lists."; - leaf id { - type uint64; - description - "Unique numerical identifier of a list entry in operational - state. It may be used by protocols or tools that inspect - and/or manipulate operational state data and prefer - fixed-size integers as list entry handles. - - These identifiers are always ephemeral, i.e., they may - change after a reboot."; - } - } - - grouping router-id { - description - "This grouping provides the definition of router ID."; - leaf router-id { - type yang:dotted-quad; - description - "Router ID - 32-bit number in the form of a dotted quad. Some - protocols use this parameter for identifying a router to its - neighbors."; - } - } - - grouping outgoing-interface { - description - "This grouping defines the outgoing interface for use in - next-hops."; - leaf outgoing-interface { - type leafref { - path "/rt:routing-state/rt:routing-instance/rt:interfaces/" - + "rt:interface/rt:name"; - } - description - "Name of the outgoing interface."; - } - } - - // WARNING - renamed due to yang sources generation problem(having same name for grouping and it's leaf ends up in error against Java Language Specification) - grouping special-next-hop-grouping { - description - "This grouping provides the leaf for specifying special - next-hop options."; - leaf special-next-hop { - type enumeration { - enum blackhole { - description - "Silently discard the packet."; - } - enum unreachable { - description - "Discard the packet and notify the sender with an error - message indicating that the destination host is - unreachable."; - } - enum prohibit { - description - "Discard the packet and notify the sender with an error - message indicating that the communication is - administratively prohibited."; - } - enum receive { - description - "The packet will be received by the local network - device."; - } - } - description - "Special next-hop options."; - } - } - - grouping next-hop-classifiers { - description - "This grouping provides two next-hop classifiers."; - leaf priority { - type enumeration { - enum primary { - value "1"; - description - "Primary next-hop."; - } - enum backup { - value "2"; - description - "Backup next-hop."; - } - } - description - "Simple priority for distinguishing between primary and - backup next-hops. - - Backup next-hops are used if and only if no primary - next-hops are reachable."; - } - leaf weight { - type uint8; - must ". = 0 or not(../../next-hop/weight = 0)" { - error-message "Illegal combination of zero and non-zero " - + "next-hop weights."; - description - "Next-hop weights must be either all zero (equal - load-balancing) or all non-zero."; - } - description - "This parameter specifies the weight of the next-hop for load - balancing. The number specifies the relative fraction of the - traffic that will use the corresponding next-hop. - - A value of 0 represents equal load-balancing. - - If both primary and backup next-hops are present, then the - weights for each priority level are used separately."; - } - } - - grouping next-hop-content { - description - "Generic parameters of next-hops in routes."; - choice next-hop-options { - mandatory "true"; - description - "Options for expressing the next-hop in routes."; - case special-next-hop { - uses special-next-hop-grouping; - } - case simple-next-hop { - uses outgoing-interface; - } - case next-hop-list { - if-feature multipath-routes; - container next-hop-list { - description - "Container for multiple next-hops."; - list next-hop { - key "id"; - description - "An entry of a next-hop list."; - uses state-entry-id; - uses outgoing-interface; - uses next-hop-classifiers; - } - } - } - } - } - - grouping route-metadata { - description - "Route metadata."; - leaf source-protocol { - type identityref { - base routing-protocol; - } - mandatory "true"; - description - "Type of the routing protocol from which the route - originated."; - } - leaf last-updated { - type yang:date-and-time; - description - "Time stamp of the last modification of the route. If the - route was never modified, it is the time when the route was - inserted into the RIB."; - } - } - - /* Operational state data */ - - container routing-state { - config "false"; - description - "Operational state of the routing subsystem."; - list routing-instance { - key "name"; - unique "id"; - description - "Each list entry is a container for operational state data of - a routing instance. - - An implementation MAY create one or more system-controlled - instances, other user-controlled instances MAY be created by - configuration."; - leaf name { - type string; - description - "The name of the routing instance. - - For system-controlled instances the name is persistent, - i.e., it SHOULD NOT change across reboots."; - } - uses state-entry-id { - refine "id" { - mandatory "true"; - } - } - leaf type { - type identityref { - base routing-instance-type; - } - description - "The routing instance type, primarily intended for - discriminating among different types of logical routers, - route virtualization, master-slave arrangements etc., - while keeping all routing instances in the same flat - list."; - } - uses router-id { - description - "Global router ID. - - An implementation may choose a value if none is - configured. - - Routing protocols that use router ID MAY override this - global parameter."; - } - container default-ribs { - description - "Default RIBs used by the routing instance."; - list default-rib { - key "address-family"; - description - "Each list entry specifies the default RIB for one - address family. - - The default RIB is operationally connected to all - routing protocols for which a connected RIB has not been - explicitly configured. - - The 'direct' pseudo-protocol is always connected to the - default RIBs."; - uses address-family-grouping; - leaf rib-name { - type rib-state-ref; - mandatory "true"; - description - "Name of an existing RIB to be used as the default RIB - for the given routing instance and address family."; - } - } - } - container interfaces { - description - "Network layer interfaces belonging to the routing - instance."; - list interface { - key "name"; - description - "List of network layer interfaces assigned to the routing - instance."; - leaf name { - type if:interface-state-ref; - description - "A reference to the name of a configured network layer - interface."; - } - } - } - container routing-protocols { - description - "Container for the list of routing protocol instances."; - list routing-protocol { - key "name"; - description - "Operational state of a routing protocol instance. - - An implementation MUST provide exactly one - system-controlled instance of the type 'direct'. Other - instances MAY be created by configuration."; - leaf name { - type string; - description - "The name of the routing protocol instance. - - For system-controlled instances this name is - persistent, i.e., it SHOULD NOT change across - reboots."; - } - leaf type { - type identityref { - base routing-protocol; - } - mandatory "true"; - description - "Type of the routing protocol."; - } - container connected-ribs { - description - "Container for connected RIBs."; - list connected-rib { - key "rib-name"; - description - "List of RIBs to which the routing protocol instance - is connected (at most one RIB per address - family)."; - leaf rib-name { - type rib-state-ref; - description - "Name of an existing RIB."; - } - leaf import-filter { - type route-filter-state-ref; - description - "Reference to a route filter that is used for - filtering routes passed from this routing protocol - instance to the RIB specified by the 'rib-name' - sibling node. - - If this leaf is not present, the behavior is - protocol-specific, but typically it means that all - routes are accepted."; - } - leaf export-filter { - type route-filter-state-ref; - description - "Reference to a route filter that is used for - filtering routes passed from the RIB specified by - the 'rib-name' sibling node to this routing - protocol instance. - - If this leaf is not present, the behavior is - protocol-specific - typically it means that all - routes are accepted. - - The 'direct' and 'static' pseudo-protocols accept - no routes from any RIB."; - } - } - } - - //NOTE -added to allow operational state for static-routes - container static-routes { - when "../type='rt:static'" { - description - "This container is only valid for the 'static' - routing protocol."; - } - description - "Configuration of the 'static' pseudo-protocol. - - Address family specific modules augment this node with - their lists of routes."; - } - } - } - } - container ribs { - description - "Container for RIBs."; - list rib { - key "name"; - unique "id"; - description - "Each entry represents a RIB identified by the 'name' key. - All routes in a RIB MUST belong to the same address - family. - - The server MUST provide a system-controlled default RIB - for each address family, and MAY provide other - system-controlled RIBs. Additional RIBs MAY be created in - the configuration."; - leaf name { - type string; - description - "The name of the RIB."; - } - uses state-entry-id { - refine "id" { - mandatory "true"; - } - } - uses address-family-grouping; - container routes { - description - "Current contents of the RIB."; - list route { - key "id"; - description - "A RIB route entry. This data node MUST be augmented - with information specific for routes of each address - family."; - uses state-entry-id; - uses next-hop-content; - uses route-metadata; - } - } - container recipient-ribs { - if-feature multiple-ribs; - description - "Container for recipient RIBs."; - list recipient-rib { - key "rib-name"; - description - "List of RIBs that receive routes from this RIB."; - leaf rib-name { - type rib-state-ref; - description - "The name of the recipient RIB."; - } - leaf filter { - type route-filter-state-ref; - description - "A route filter which is applied to the routes passed - to the recipient RIB."; - } - } - } - } - } - container route-filters { - description - "Container for route filters."; - list route-filter { - key "name"; - description - "Route filters are used for filtering and/or manipulating - routes that are passed between a routing protocol and a - RIB and vice versa, or between two RIBs. - - It is expected that other modules augment this list with - contents specific for a particular route filter type."; - leaf name { - type string; - description - "The name of the route filter."; - } - leaf type { - type identityref { - base route-filter; - } - mandatory "true"; - description - "Type of the route-filter - an identity derived from the - 'route-filter' base identity."; - } - } - } - } - - /* Configuration Data */ - - container routing { - description - "Configuration parameters for the routing subsystem."; - list routing-instance { - key "name"; - description - "Configuration of a routing instance."; - leaf name { - type string; - description - "The name of the routing instance. - - For system-controlled entries, the value of this leaf must - be the same as the name of the corresponding entry in - state data. - - For user-controlled entries, an arbitrary name can be - used."; - } - leaf type { - type identityref { - base routing-instance-type; - } - default "rt:standard-routing-instance"; - description - "The type of the routing instance."; - } - leaf enabled { - type boolean; - default "true"; - description - "Enable/disable the routing instance. - - If this parameter is false, the parent routing instance is - disabled and does not appear in operational state data, - despite any other configuration that might be present."; - } - uses router-id { - description - "Configuration of the global router ID."; - } - leaf description { - type string; - description - "Textual description of the routing instance."; - } - container default-ribs { - if-feature multiple-ribs; - description - "Configuration of the default RIBs used by the routing - instance. - - The default RIB for an addressed family if by default - connected to all routing protocol instances supporting - that address family, and always receives direct routes."; - list default-rib { - must "address-family=/routing/ribs/rib[name=current()/" - + "rib-name]/address-family" { - error-message "Address family mismatch."; - description - "The entry's address family MUST match that of the - referenced RIB."; - } - key "address-family"; - description - "Each list entry configures the default RIB for one - address family."; - uses address-family-grouping; - leaf rib-name { - type string; - mandatory "true"; - description - "Name of an existing RIB to be used as the default RIB - for the given routing instance and address family."; - } - } - } - container interfaces { - description - "Configuration of the routing instance's interfaces."; - list interface { - key "name"; - description - "List of network layer interfaces assigned to the routing - instance."; - leaf name { - type if:interface-ref; - description - "A reference to the name of a configured network layer - interface."; - } - } - } - container routing-protocols { - description - "Configuration of routing protocol instances."; - list routing-protocol { - key "name"; - description - "Each entry contains configuration of a routing protocol - instance."; - leaf name { - type string; - description - "An arbitrary name of the routing protocol instance."; - } - leaf description { - type string; - description - "Textual description of the routing protocol - instance."; - } - leaf enabled { - type boolean; - default "true"; - description - "Enable/disable the routing protocol instance. - - If this parameter is false, the parent routing - protocol instance is disabled and does not appear in - operational state data, despite any other - configuration that might be present."; - } - leaf type { - type identityref { - base routing-protocol; - } - mandatory "true"; - description - "Type of the routing protocol - an identity derived - from the 'routing-protocol' base identity."; - } - container connected-ribs { - description - "Configuration of connected RIBs."; - list connected-rib { - must "not(/routing/ribs/rib[name=current()/" - + "preceding-sibling::connected-rib/" - + "rib-name and address-family=/routing/ribs/" - + "rib[name=current()/rib-name]/address-family])" { - error-message - "Duplicate address family for connected RIBs."; - description - "For each address family, there MUST NOT be more - than one connected RIB."; - } - key "rib-name"; - description - "List of RIBs to which the routing protocol instance - is connected (at most one RIB per address family). - - If no connected RIB is configured for an address - family, the routing protocol is connected to the - default RIB for that address family."; - leaf rib-name { - type rib-ref; - must "../../../type != 'rt:direct' or " - + "../../../../../default-ribs/ " - + "default-rib/rib-name=." { - error-message "The 'direct' protocol can be " - + "connected only to a default RIB."; - description - "For the 'direct' pseudo-protocol, the connected - RIB must always be a default RIB."; - } - description - "Name of an existing RIB."; - } - leaf import-filter { - type route-filter-ref; - description - "Configuration of import filter."; - } - leaf export-filter { - type route-filter-ref; - description - "Configuration of export filter."; - } - } - } - container static-routes { - when "../type='rt:static'" { - description - "This container is only valid for the 'static' - routing protocol."; - } - description - "Configuration of the 'static' pseudo-protocol. - - Address family specific modules augment this node with - their lists of routes."; - } - } - } - } - container ribs { - description - "Configured RIBs."; - list rib { - key "name"; - description - "Each entry represents a configured RIB identified by the - 'name' key. - - Entries having the same key as a system-controlled entry - of the list /routing-state/ribs/rib are used for - configuring parameters of that entry. Other entries define - additional user-controlled RIBs."; - leaf name { - type string; - description - "The name of the RIB. - - For system-controlled entries, the value of this leaf - must be the same as the name of the corresponding entry - in state data. - - For user-controlled entries, an arbitrary name can be - used."; - } - uses address-family-grouping; - leaf description { - type string; - description - "Textual description of the RIB."; - } - container recipient-ribs { - if-feature multiple-ribs; - description - "Configuration of recipient RIBs."; - list recipient-rib { - must "rib-name != ../../name" { - error-message - "Source and recipient RIBs are identical."; - description - "A RIB MUST NOT appear among its recipient RIBs."; - } - must "/routing/ribs/rib[name=current()/rib-name]/" - + "address-family=../../address-family" { - error-message "Address family mismatch."; - description - "Address family of the recipient RIB MUST match that - of the source RIB."; - } - key "rib-name"; - description - "Each entry configures a recipient RIB."; - leaf rib-name { - type rib-ref; - description - "The name of the recipient RIB."; - } - leaf filter { - type route-filter-ref; - description - "A route filter which is applied to the routes passed - to the recipient RIB."; - } - } - } - } - } - container route-filters { - description - "Configuration of route filters."; - list route-filter { - key "name"; - description - "Each entry configures a named route filter."; - leaf name { - type string; - description - "The name of the route filter."; - } - leaf description { - type string; - description - "Textual description of the route filter."; - } - leaf type { - type identityref { - base route-filter; - } - mandatory "true"; - description - "Type of the route filter.."; - } - } - } - } - - /* RPC methods */ - - rpc active-route { - description - "Return the active route that a routing-instance uses for - sending packets to a destination address."; - input { - leaf routing-instance-name { - type routing-instance-state-ref; - mandatory "true"; - description - "Name of the routing instance whose forwarding information - base is being queried. - - If the routing instance with name equal to the value of - this parameter doesn't exist, then this operation SHALL - fail with error-tag 'data-missing' and error-app-tag - 'routing-instance-not-found'."; - } - container destination-address { - description - "Network layer destination address. - - Address family specific modules MUST augment this - container with a leaf named 'address'."; - uses address-family-grouping; - } - } - output { - container route { - description - "The active route for the specified destination. - - If the routing instance has no active route for the - destination address, no output is returned - the server - SHALL send an containing a single element - . - - Address family specific modules MUST augment this list - with appropriate route contents."; - uses address-family-grouping; - uses next-hop-content; - uses route-metadata; - } - } - } - - rpc route-count { - description - "Return the current number of routes in a RIB."; - input { - leaf rib-name { - type rib-state-ref; - mandatory "true"; - description - "Name of the RIB. - - If the RIB with name equal to the value of this parameter - doesn't exist, then this operation SHALL fail with - error-tag 'data-missing' and error-app-tag - 'rib-not-found'."; - } - } - output { - leaf number-of-routes { - type uint64; - mandatory "true"; - description - "Number of routes in the RIB."; - } - } - } -} \ No newline at end of file -- cgit 1.2.3-korg