| Network Working Group | A. Clemm |
| Internet-Draft | A. Gonzalez Prieto |
| Intended status: Standards Track | E. Voit |
| Expires: September 10, 2015 | Cisco Systems |
| March 9, 2015 |
Subscribing to YANG datastore push updates
draft-clemm-netconf-yang-push-00.txt
This document defines a subscription and push mechanism for YANG datastores. This mechanism allows client applications to request updates from a YANG datastore, which are then pushed by the server to the client per a subscription policy, without requiring additional client requests.
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YANG [RFC6020] was originally designed for the Netconf protocol [RFC6241], which originally put most emphasis on configuration. However, YANG is not restricted to configuration data. YANG datastores, i.e. datastores that contain data modeled according using YANG , can contain configuration as well as contain operational data. It is therefore reasonable to expect that data in YANG datastores will increasingly be used to support applications that are not focused on managing configurations but that are, for example, related to service assurance.
Service assurance applications typically involve monitoring operational state of networks and devices; of particular interest are changes that this data undergoes over time. Likewise, there are applications in which data and objects from one datastore need to be made available both to applications in other systems and to remote datastores [peermount-req][peermount]. This requires mechanisms that allow remote systems to become quickly aware of any updates to allow to validate and maintain cross-network integrity and consistency.
Traditional approaches rely heavily on polling, in which data is periodically explicitly retrieved by a client from a server to stay up-to-date.
There are various issues associated with polling-based management:
More effective is an alternative in which an application can request to be automatically updated of current content of the datastore (such as a subtree, or data in a subtree that meets a certain filter condition), and in which the server that maintains the datastore subsequently pushes those updates. However, such a solution does not currently exist.
The need to perform polling-based management is typically considered an important shortcoming of management applications that rely on MIBs polled using SNMP [RFC1157]. However, without a provision to support a push-based alternative, there is no reason to believe that management applications that operate on YANG datastores using protocols such as NETCONF [RFC6241] or RESTconf [restconf] will be any more effective, as they would follow the same request/response pattern.
While YANG allows the definition of notifications, such notifications are generally intended to indicate the occurrence of certain well-specified event conditions, such as a the onset of an alarm condition or the occurrence of an error. A capability to subscribe to and deliver event notifications has been defined in [RFC5277]. In addition, configuration change notifications have been defined in [RFC6470]. These change notifications pertain only to configuration information, not to operational state, and convey the root of the subtree to which changes were applied along with the edits, but not the modified data nodes and their values.
Accordingly, there is a need for a service that allows client applications to subscribe to updates of a YANG datastore and that allows the server to push those updates. The requirements for such a service are documented in [pub-sub-reqs]. This document proposes a solution that addresses those requirements. The solution features the following: [RFC5277] that allow to extend notification subscriptions to subscriptions for datastore updates. It also defines a notification that can be used to carry data updates and thus serve as push mechanism.
This document specifies a YANG data model to manage subscriptions to data in YANG datastores, and to configure associated filters and data streams. It defines extensions to RPCs defined in
Data node: An instance of management information in a YANG datastore.
Data record: A record containing a set of one or more data node instances and their associated values.
Datastore: A conceptual store of instantiated management information, with individual data items represented by data nodes which are arranged in hierarchical manner.
Datastream: A continuous stream of data records, each including a set of updates, i.e. data node instances and their associated values.
Data subtree: An instantiated data node and the data nodes that are hierarchically contained within it.
NACM: NETCONF Access Control Model
NETCONF: Network Configuration Protocol
Push-update stream: A conceptual data stream of a datastore that streams the entire datastore contents continuously and perpetually.
RPC: Remote Procedure Call
SNMP: Simple Network Management Protocol
Subscription: A contract between a client ("subscriber") and a server ("publisher"), stipulating which information the client wishes to receive from the server (and which information the server has to provide to the client) without the need for further solicitation.
Subscription filter: A filter that contains evaluation criteria which are evaluated against YANG objects of a subscription. An update is only published if the object meets the specified filter criteria.
Subscription policy: A policy that specifies under what circumstances to push an update, e.g. whether updates are to be provided periodically or only whenever changes occur.
Update: A data item containing the current value of a data node.
Update trigger: A trigger, as specified by a subscription policy, that causes an update to be sent, respectively a data record to be generated. An example of a trigger is a change trigger, invoked when the value of a data node changes or a data node is created or deleted, or a time trigger, invoked after the laps of a periodic time interval.
URI: Uniform Resource Identifier
YANG: A data definition language for NETCONF
This document specifies a solution that allows clients to subscribe to information updates in a YANG datastore, which are subsequently pushed from the server to the client.
Subscriptions are initiated by clients. Servers respond to a subscription request explicitly positively or negatively. Negative responses include information about why the subscription was not accepted, in order to facilitate converging on an accepable set of subscription parameters. Once a subscription has been established, datastore push updates are pushed from the server to the subscribing client until the subscription ends.
Accordingly, the solution encompasses several components:
In addition, there are a number of additional considerations, such as the tie-in of the mechanisms with security mechanisms. Each of those aspects will be discussed in the following subsections.
Yang-push subscriptions are defined using a data model. This model is based on the subscriptions defined in [RFC-5277], which is also reused in RESTconf. The model is extended with several parameters, including a subscription type and a subscription ID.
A subscription refers to a datastream. The subscription model assumes the presence of a conceptual perpetual datastream "push-update" of continuous datastore updates of infinite time resolution. A subscription refers to this datastream and specifies filters that are to be applied to, it for example, to provide only those subsets of the information that match a filter criteria. In addition, a subscription specifies a subscription policy that defines the trigger when data records should be sent, for example at periodic intervals or whenever underlying data items change.
The complete set of subscription parameters is as follows:
It is conceivable that additional subscription parameters might be added in the future. For example, a parameter might be introduced that allows to specify which encoding method for updates to use. The list could accordingly be extended and augmented in the future.
A subscription rejection can be caused by the inability of the server to provide a stream with the requested semantics. Providing "on-change" updates for operational data can be computationally expensive and an agent may decide not to support them or supporting them for a small number of subscribers or for a limited set of data nodes.
Yang-push supports a simple negotiation between clients and servers for subscription parameters. The negotiation is limited to a single pair of subscription request and response. For negative responses, the server SHOULD include in the returned error what subscription parameters would have been accepted for the request. The returned acceptable parameters are no guarantee for subsequent requests for this client or others.
Optionally, it is possible to introduce other datastreams (beyond the datastore-push datastream) with custom semantics. Some datastreams can be custom configured. The support of this is tied to a separate feature. The configuration of a custom datastream specifies the trigger conditions under which new data records for the stream are generated, and which updates the corresponding data records contain. For example, the configuration of a datastream can specify which subsets of data nodes in a datastore the datastream should contain, which filter criteria the updates need to meet, and under what conditions to create updates - for example, periodically or whenever a data item changes.
A subscription that refers to a custom datastream can specify a set of filters, like for the "push-update" datastream. However, the policy as to when updates are triggered (periodically or on change) needs to be the same as the policy of the datastream and cannot be modified. It is not possible, for example, to define a custom datastream which creates on-change updates, yet subscribe to that datastream with periodic updates.
While conceptually similar, the choice between subscribing to datastream "push-update" or configuring and subscribing to a custom datastream can be thought of as analogous to the choice between operating a nozzle that is connected to a hose, or controlling the faucet (custom datastream). Operating the nozzle is for most uses simpler; however, the option to operate the faucet instead can provide additional flexibility in some scenarios.
Pushing data based on a subscription could be considered analogous to a response to a data retrieval request, e.g. a "get" request. However, contrary to such a request, multiple responses to the same request may get sent over a longer period of time.
A more suitable mechanism is therefore that of a notification. Contrary to notifications associated with alarms and unexpected event occurrences, push updates are solicited, i.e. tied tied to a particular subscription which triggered the notification. (An alternative conceptual model would consider a subscription an "opt-in" filter on a continuous stream of updates.)
The notification contains several parameters: [RFC5277]. Alternative transports are conceivable but outside the scope of this specification.
Notifications are sent using <notification> elements as defined in
The solution specified in this document uses notifications to communicate datastore updates. The contents of the notification includes a set of explicitly defined data nodes. For this purpose, a new generic notification is introduced, "push-update" notification. This notification is used to carry a data record with updates of datastore contents as specified by a subscription.
The update record consists of a data snippet that contains an instantiated datastore subtree with the subscribed contents. Data nodes that do not match filter criteria are removed. Likewise, in the case of a subscription with "on-change" subscription policy, data nodes that have not undergone change are omitted. The contents of the update record is equivalent to the contents that would be obtained had the same data been explicitly retrieved using e.g. a Netconf "get"-operation, with the same filters applied.
The contents of the notification conceptually represents the union of all data nodes in the yang modules supported by the server, excluding the following statements: "mandatory", "must", "min-elements", "max-elements", "when", and "default". However, in a YANG data model, it is not practical to model the precise data contained in the updates as part of the notification, because the specific data nodes supported depends on the implementing system and may even vary dynamically. Therefore, to capture this data, a single parameter that can represent any datastore contents is used, not parameters that represent data nodes one at a time.
The following is an example of push notification. It contains an update for subscription my-sub, including a subtree with root foo that contains a leaf, bar:
<?xml version="1.0" encoding="UTF-8"?>
<notification xmlns="urn:ietf:params:xml:ns:netconf:notification:1.0">
<subscription-id xmlns="urn:ietf:params:xml:ns:netconf:
datastore-push:1.0">
my-sub
</subscription-id>
<eventTime>2015-03-09T19:14:56Z</eventTime>
<datastore-contents xmlns="urn:ietf:params:xml:ns:netconf:
datastore-push:1.0">
<foo>
<bar>some_string</bar>
</foo>
</datastore-contents>
</notification>
Figure 1: Push example
There are several operations associated with subscriptions. At the most basic level, clients need to be able to create subscriptions, as well as delete subscriptions when they are no longer needed.
RFC 5277 specifies an operation to create subscriptions for event streams, <create-subscription>. This operation is leveraged and extended to create datastore-push subscriptions. Specifically, an additional parameter is added to allow for the specification of trigger policy.
To support datastore push, a server MUST support the interleave capability specified in [RFC5277]. This is required to allow for modification of what data is being subscribed to without needing to establish a separate Netconf session.
The example below illustrates a subscription for a periodic push of all data under a container called foo.
<netconf:rpc message-id="101"
xmlns:netconf="urn:ietf:params:xml:ns:netconf:base:1.0">
<create-subscription
xmlns="urn:ietf:params:xml:ns:netconf:notification:1.0">
<stream>push-update</stream>
<subscription-id xmlns="urn:ietf:params:xml:ns:netconf:
datastore-push:1.0">
my-sub
</subscription-id>
<filter netconf:type="xpath"
xmlns:ex="http://example.com/foo/1.0"
select="/ex:foo"/>
<period xmlns="urn:ietf:params:xml:ns:netconf:datastore-push:1.0">
500
</period>
</create-subscription>
</netconf:rpc>
Figure 2: Subscription example
The example below illustrates a subscription response, where an agent does not support frequent periodic updates, and suggests a different sampling rate to the client.
<rpc-reply message-id="101" xmlns="urn:ietf:params:xml:ns:netconf:base:1.0">
<rpc-error>
<error-type>application</error-type>
<error-tag>operation-not-supported</error-tag>
<error-severity>error</error-severity>
<error-info>
<supported-subscription xmlns="urn:ietf:params:xml:ns:
netconf:datastore-push:1.0">
<period>3000</period>
</supported-subscription>
</error-info>
</rpc-error>
</rpc-reply>
Figure 3: Subscription negotiation example
RFC 5277 does not specify operations to delete subscriptions. Instead, it assumes that an event subscription is associated with its own Netconf session. When the session is torn down, the subscription is implicitly deleted. Likewise, there is no operation to modify a subscription. Modifying a subscription requires tearing down a Netconf session, starting a new one, and creating a new subscription. Furthermore, each session only supports a single subscription. Establishing multiple subscriptions requires multiple concurrent Netconf sessions.
To facilitate datastore-push subscriptions, an additional RPC is introduced, <delete-subscription>.
The <delete-subscription> operation takes as parameter a subscription ID. As a result of the operation, the subscription is removed and no more data records will be sent.
<netconf:rpc message-id="102"
xmlns:netconf="urn:ietf:params:xml:ns:netconf:base:1.0">
<delete-subscription
xmlns="urn:ietf:params:xml:ns:netconf:notification:1.0">
<subscription-id xmlns="urn:ietf:params:xml:ns:netconf:
datastore-push:1.0">
my-sub
</subscription-id>
</delete-subscription>
</netconf:rpc>
Figure 4: Subscription deletion
Finally, a separate operation to modify a subscription is introduced, <modify-subscription>. This operation takes the same parameters as <create-subscription>, but refers to an existing subscription. Of course, a subscription could also be deleted and another be created. However, modify operation avoids issues regarding the synchronization of creation and deletion operations, such as potential loss or duplication of updates. Also, a modify operation allows to simply extend an existing subscription beyond the initial subscription end time.
<netconf:rpc message-id="103"
xmlns:netconf="urn:ietf:params:xml:ns:netconf:base:1.0">
<create-subscription
xmlns="urn:ietf:params:xml:ns:netconf:notification:1.0">
<stream>push-update</stream>
<subscription-id
xmlns="urn:ietf:params:xml:ns:netconf:datastore-push:1.0">
my-sub
</subscription-id>
<filter netconf:type="xpath"
xmlns:ex="http://example.com/foo/1.0"
select="/ex:foo"/>
<period xmlns="urn:ietf:params:xml:ns:netconf:
datastore-push:1.0">
3000
</period>
</create-subscription>
</netconf:rpc>
Figure 5: Modify subscription
Subscriptions as well as datastreams can be subjected to management themselves. For example, it is possible that a server may no longer be able to serve a subscription that it had previously accepted. Perhaps it has run out of resources, or internal errors may have occurred. When this is the case, a server needs to be able to temporarily suspend the subscription, or even to terminate it. More generally, the server should provide a means by which the status of subscriptions can be monitored. When custom datastreams are supported, those datastreams need to be configured and monitored as well.
For this purpose, a YANG data model is introduced, which is depicted in the following figure.
module: ietf-datastore-push
+--rw streams {custom-streams}?
| +--rw stream* [stream-name]
| +--rw stream-name string
| +--ro stream-status? identityref
| +--rw subtree-filter? subtree-filter
| +--rw xpath-filter? yang:xpath1.0
| +--rw (update-trigger)?
| +--:(periodic)
| | +--rw period? yang:timeticks
| +--:(on-change)
| +--rw dampening-period yang:timeticks
| +--rw (change-policy)?
| +--:(delta-policy)
| +--rw delta? uint32
+--rw subscriptions
+--ro datastore-push-subscription* [subscription-id]
+--ro subscription-id subscription-identifier
+--ro subscription-status? identityref
+--ro stream? string
+--ro start-time? yang:date-and-time
+--ro stop-time? yang:date-and-time
+--ro subtree-filter? subtree-filter
+--ro xpath-filter? yang:xpath1.0
+--ro (update-trigger)?
+--:(periodic)
| +--ro period? yang:timeticks
+--:(on-change)
+--ro dampening-period yang:timeticks
+--ro (change-policy)?
+--:(delta-policy)
+--ro delta? uint32
Figure 6: Model structure
Each subscription is represented as a list element "datastore-push-subscription". The associated information includes an identifier for the subscription, a subscription status, as well as the various subscription paramters. The subscription status indicates whether the subscription is currently active and healthy, or if it is degraded in some form. Subscriptions are automatically removed from the list once they expire or are terminated. Because subscriptions are managed using their own set of operation primitives, they are read-only.
An optional feature, custom-streams, is introduced to allow for the configuration of custom datastreams. Custom datastreams are represented through a separate list, consisting of information used to configure those datastreams. This information consititutes mostly configuration information, with the exception of parameters used to indicate the status and health of the datastream.
In addition, a server needs to indicate any changes in status to the subscriber through a notification. Specifically, subscribers need to be informed of the following:
Finally, a server might provide additional information about subscriptions, such as statistics about the number of data updates that were sent. However, such information is currently outside the scope of this specification.
A client may only receive updates to data that the client has proper authorization for. Normal authorization rules apply. Data that is being pushed therefore needs to be subjected to a filter that applies the corresponding rules, removing any non-authorized data as applicable.
The authorization model for data in YANG datastores is described in the Netconf Access Control Model [RFC6536].
Other possible operations include the ability to suspend and resume subscriptions. However, those operations are not viewed as essential, as it is always possible to alternatively simply remove a subscription and recreate it when needed.
Particularly in the case of on-change push updates, it is important that push updates do not get lost. However, datastore-push uses a secure and reliable transport. Notifations are not getting reordered, and in addition contain a time stamp. For those reasons, we believe that additional reliability mechanisms at the application level, such as sequence numbers for push updates, are not required.
Implementation specifics are outside the scope of this specification. That said,it should be noted that monitoring of operational state changes inside a system can be associated with significant implementation challenges.
Even periodic retrieval of operational state alone, to be able to push it, can consume considerable system resources. Configuration data may in many cases be persisted in an actual database or a configuration file, where retrieval of the database content or the file itself is reasonably straightforward and computationally inexpensive. However, retrieval of operational data may, depending on the implementation, require invocation of APIs, possibly on an object-by-object basis, possibly involving additional internal interrupts, etc.
For those reasons, if is important for an implementation to understand what subscriptions it can or cannot support. It is far preferrable to decline a subscription request, than to accept it only to result in subsequent failure later.
Whether or not a subscription can be supported will in general be determined by a combination of several factors, including the subscription policy (on-change or periodic, with on-change in general being the more challenging of the two), the period in which to report changes (1 second periods will consume more resources than 1 hour periods), the amount of data in the subtree that is being subscribed to, and the number and combination of other subscriptions that are concurrently being serviced.
<CODE BEGINS>
file "ietf-datastore-push@2014-03-09.yang"
module ietf-datastore-push {
namespace "urn:XXXX:params:xml:ns:yang:ietf-datastore-push";
prefix datastore-push;
import ietf-yang-types {
prefix yang;
}
organization "IETF";
contact
"Editor: Alexander Clemm
<mailto:alex@cisco.com>
Editor: Alberto Gonzalez Prieto
<mailto:albertgo@cisco.com>
Editor: Eric Voit
<mailto:evoit@cisco.com>";
description
"This module contains conceptual YANG specifications
for datastore push.";
revision 2014-03-09 {
description
"Initial revision.";
reference "Datastore push.";
}
feature custom-streams {
description
"This feature allows users to configure datastore update
streams in addition to the stream provided by default,
datastore-push.";
}
identity subscription-stream-status {
description
"Base identity for the status of subscriptions and
datastreams.";
}
identity active {
base subscription-stream-status;
description
"Status is active and healthy.";
}
identity inactive {
base subscription-stream-status;
description
"Status is inactive, for example outside the
interval between start time and stop time.";
}
identity in-error {
base subscription-stream-status;
description
"The status is in error or degraded, meaning that
stream and/or subscription are currently unable to provide
the negotiated updates.";
}
identity subscription-errors {
description
"Base identity for subscription errors.";
}
identity internal-error {
base subscription-errors;
description
"Subscription failures caused by server internal error.";
}
identity no-resources {
base subscription-errors;
description
"Lack of resources, e.g. CPU, memory, bandwidth";
}
identity other {
base subscription-errors;
description
"Fallback reason - any other reason";
}
typedef datastore-contents {
type string;
description
"This type is be used to represent datastore contents,
including a filtered datastore subtree per a set of
subscription parameters. ";
}
typedef subtree-filter {
type string;
description
"This type is used to define a subtree filter.
Its precise syntax is TBD.";
}
typedef subscription-identifier {
type string {
length "1 .. max";
}
description
"A client-provided identifier for the subscription.";
}
typedef subscription-term-reason {
type identityref {
base subscription-errors;
}
description
"Reason for a server to terminate a subscription.";
}
typedef subscription-susp-reason {
type identityref {
base subscription-errors;
}
description
"Reason for a server to suspend a subscription.";
}
grouping subscription-stream-policy {
description
"This grouping contains the parameters which describe
the policy which data is pushed as part of a
subscription or a data stream.";
leaf subtree-filter {
description
"Datastore subtree of interest.";
type subtree-filter;
}
leaf xpath-filter {
type yang:xpath1.0;
description
"Xpath defining the data items of interest.";
}
choice update-trigger {
description
"Defines necessary conditions for sending an event to
the subscriber.";
case periodic {
description
"The agent is requested to notify periodically the
current values of the datastore or the subset
defined by the filter.";
leaf period {
type yang:timeticks;
description
"Elapsed time between notifications.";
}
}
case on-change {
description
"The agent is requested to notify changes in
values in the datastore or a subset of it defined
by a filter.";
leaf dampening-period {
type yang:timeticks;
mandatory true;
description
"Minimum amount of time that needs to have
passed since the last time an update was
provided.";
}
choice change-policy {
description
"Policy describing necessary conditions for
sending an event to the subscriber.";
case delta-policy {
leaf delta {
type uint32;
description
"For integer, minimum difference
between current and last reports
values that can trigger an update.";
}
}
}
}
}
}
grouping subscription-info {
description
"This grouping describes basic information concerning a
subscription, without the subscription policy which is
defined separately to be shareable with the definition
of a datastream.";
leaf stream {
type string;
description
"The name of the stream subscribed to.";
}
leaf start-time {
type yang:date-and-time;
description
"Starting time for replays.";
reference "RFC 5277, Section 2.1.1";
}
leaf stop-time {
type yang:date-and-time;
description
"Time limit for events of interest.";
reference "RFC 5277, Section 2.1.1";
}
}
notification push-update {
description
"This notification contains an update from a datastore";
leaf subscription-id {
type subscription-identifier;
mandatory true;
description
"This references the subscription because of which the
notification is sent.";
}
leaf datastore-contents {
type datastore-contents;
description
"This contains datastore contents
per the subscription.";
}
}
notification subscription-suspended {
description
"This notification indicates that a suspension of the
subscription by the server has occurred. No further
datastore updates will be sent until subscription
resumes.";
leaf subscription-id {
type subscription-identifier;
mandatory true;
description
"This references the affected subscription.";
}
leaf reason {
type subscription-susp-reason;
description
"Provides a reason for why the subscription was
suspended.";
}
}
notification subscription-resumed {
description
"This notification indicates that a subscription that had
previously been suspended has resumed. Datastore updates
will once again be sent.";
leaf subscription-id {
type subscription-identifier;
mandatory true;
description
"This references the affected subscription.";
}
}
notification subscription-modified {
description
"This notification indicates that a subscription has
been modified. Datastore updates sent from this point
on will conform to the modified terms of the
subscription.";
leaf subscription-id {
type subscription-identifier;
mandatory true;
description
"This references the affected subscription.";
}
uses subscription-info;
uses subscription-stream-policy;
}
notification subscription-terminated {
description
"This notification indicates that a subscription has been
terminated.";
leaf subscription-id {
type subscription-identifier;
mandatory true;
description
"This references the affected subscription.";
}
leaf reason {
type subscription-term-reason;
description
"Provides a reason for why the subscription was
terminated.";
}
}
container streams {
if-feature custom-streams;
list stream {
key "stream-name";
description
"A user-definable stream.";
leaf stream-name {
type string;
mandatory true;
description
"The name assigned to the stream.";
}
leaf stream-status {
type identityref {
base subscription-stream-status;
}
config false;
}
uses subscription-stream-policy;
}
}
container subscriptions {
list datastore-push-subscription {
description
"Content of a yang-push subscription.
Subscriptions are created using a dedicated RPC, hence
they do not constitute configuration information.";
config false;
key "subscription-id";
leaf subscription-id {
type subscription-identifier;
description
"Identifier to use for this subscription.";
}
leaf subscription-status {
type identityref {
base subscription-stream-status;
}
description
"The status of the subscription.";
}
uses subscription-info;
uses subscription-stream-policy;
}
}
}
<CODE ENDS>
Subscriptions could be used to attempt to overload servers of YANG datastores. For this reason, it is important that the server has the ability to decline a subscription request if it would deplete its resources. In addition, a server needs to be able to suspend an existing subscription when needed. When this occur, the subscription status is updated accordingly and the clients are notified. Likewise, requests for subscriptions need to be properly authorized.
A subscription could be used to retrieve data in subtrees that a client has not authorized access to. Therefore it is important that data pushed based on subscriptions is authorized in the same way that regular data retrieval operations are. Data being pushed to a client needs therefore to be filtered accordingly, just like if the data were being retrieved on-demand. The Netconf Authorization Control Model applies.
| [RFC1157] | Case, J., Fedor, M., Schoffstall, M. and J. Davin, "Simple Network Management Protocol (SNMP)", STD 15, RFC 1157, May 1990. |
| [RFC5277] | Chisholm, S. and H. Trevino, "NETCONF Event Notifications", RFC 5277, July 2008. |
| [RFC6020] | Bjorklund, M., "YANG - A Data Modeling Language for the Network Configuration Protocol (NETCONF)", RFC 6020, October 2010. |
| [RFC6241] | Enns, R., Bjorklund, M., Schoenwaelder, J. and A. Bierman, "Network Configuration Protocol (NETCONF)", RFC 6241, June 2011. |
| [RFC6470] | Bierman, A., "Network Configuration Protocol (NETCONF) Base Notifications", RFC 5277, February 2012. |
| [RFC6536] | Bierman, A. and M. Bjorklund, "Network Configuration Protocol (NETCONF) Access Control Model", RFC 6536, March 2012. |
| [peermount] | Clemm, A., Medved, J. and E. Voit, "Mounting YANG-defined information from remote datastores", Internet-Draft draft-clemm-netmod-mount-02, October 2014. |
| [peermount-req] | Voit, E., Clemm, A., Bansal, S., Tripathy, A. and P. Yellai, "Requirements for Peer Mounting of YANG subtrees from Remote Datastores", Internet-Draft draft-voit-netmod-peer-mount-requirements-00, September 2014. |
| [pub-sub-reqs] | Voit, E., Clemm, A. and A. Gonzalez Prieto, "Requirements for Subscription to YANG Datastores", Internet-Draft draft-ietf-i2rs-pub-sub-requirements-00, March 2015. |
| [restconf] | Bierman, A., Bjorklund, M. and K. Watsen, "RESTCONF Protocol", I-D draft-ietf-netconf-restconf-03, October 2014. |