draft-ietf-netconf-privcand-00.xml

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<rfc xmlns:xi="http://www.w3.org/2001/XInclude" 
      category="std" 
      docName="draft-ietf-netconf-privcand-00" 
      ipr="trust200902" 
      obsoletes="" 
      updates="" 
      submissionType="IETF" 
      xml:lang="en" 
      version="3"
      consensus="true">
  <front>
    <title abbrev="NETCONF Private Candidates">NETCONF Private Candidates</title>
    <seriesInfo name="Internet-Draft" value="draft-ietf-netconf-privcand-00"/>
    <author fullname="James Cumming" initials="JG" surname="Cumming">
      <organization>Nokia</organization>
      <address>
        <email>james.cumming@nokia.com</email>
      </address>
    </author>
    <author fullname="Robert Wills" initials="R" surname="Wills">
      <organization>Cisco Systems</organization>
      <address>
        <email>rowills@cisco.com</email>
      </address>
    </author>
    <date year="2023" month="3" day="22"/>
    <!-- On draft subbmission:
         * If only the current year is specified, the current day and month will be used.
         * If the month and year are both specified and are the current ones, the current day will
           be used
         * If the year is not the current one, it is necessary to specify at least a month and day="1" will be used.
    -->
    <area>General</area>
    <workgroup>Internet Engineering Task Force</workgroup>
    <!-- "Internet Engineering Task Force" is fine for individual submissions.  If this element is 
          not present, the default is "Network Working Group", which is used by the RFC Editor as 
          a nod to the history of the RFC Series. -->
    <keyword>NETCONF</keyword>
    <abstract>
      <t>This document provides a mechanism to extend the Network Configuration Protocol 
	     (NETCONF) and RESTCONF protocol to support multiple clients making configuration changes simultaneously and
         ensuring that they commit only those changes that they defined.</t>
      <t>This document addresses two specific aspects: The interaction with a private candidate
        over the NETCONF and RESTCONF protocols and the methods to identify and resolve conflicts between
        clients.</t>
    </abstract>
  </front>
  <middle>
    <section>
      <name>Introduction</name>
      <t><xref target="RFC6241">NETCONF</xref> and <xref target="RFC8040">RESTCONF</xref>
	 both provide a mechanism for one or more
         clients to make configuration changes to a device running as a NETCONF/RESTCONF
         server.  Each client has the ability to make one or more
         configuration change to the servers shared candidate configuration.<br/><br/>
		 
		 As the name shared candidate suggests, all clients have access to the same candidate
		 configuration.  This means that multiple clients may make changes to the shared
		 candidate prior to the configuration being committed.  This behavior may be
		 undesirable as one client may unwittingly commit the configuration changes made
		 by another client.  <br/><br/>
		 
		 NETCONF provides a way to mitigate this behavior by allowing clients
		 to place a lock on the shared candidate.  The placing of this lock means that
		 no other client may make any changes until that lock is released.  This behavior
		 is, in many situations, also undesirable.  <br/><br/>

		 Many network devices already support private candidates configurations,
		 where a user (machine or otherwise) is able to edit a personal copy of a devices
		 configuration without blocking other users from doing so.<br/><br/>
	 
	     This document details the extensions to the NETCONF protocol in order to support
	     the use of private candidates.  It also describes how the RESTCONF protocol can be
	     used on a system that implements private candidates.</t>
      <section>
        <name>Requirements Language</name>
        <t>The key words "MUST", "MUST NOT", "REQUIRED", "SHALL",
          "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT
          RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be
          interpreted as described in BCP 14 <xref target="RFC2119"/>
          <xref target="RFC8174"/> when, and only when, they appear in
          all capitals, as shown here.</t>
      </section>
    </section>
    <section>
      <name>Definitions and terminology</name>
      <section>
        <name>Session specific datastore</name>
        <t>A session specific datastore is a configuration datastore that,
          unlike the candidate and running configuration datastores which
          have only one per system, is bound to the specific NETCONF session.
        </t>
      </section>
      <section>
        <name>Shared candidate configuration</name>
        <t>The candidate configuration datastore defined in
          <xref target="RFC6241"/> is referenced as the shared candidate
          configuration in this document.</t>
      </section>
      <section>
        <name>Private candidate configuration</name>
        <t>A private candidate configuration is a session specific candidate
          configuration datastore.</t>
        <t>When a private candidate is used by NETCONF, the specific session
	  (and user) that created the private
          candidate configuration is the only session (user) that has access
          to it over NETCONF.  Devices may expose this to other users through
          other interfaces but this is out of scope for this document.</t>
	<t>When a private candidate is used by RESTCONF, it exists only for the
	  duration of the RESTCONF request.</t>
        <t>The private candidate configuration contains a full copy of the running
          configuration when it is created (in the same way as a branch does in
          a source control management system and in the same way as the candidate
          configuration datastore as defined in <xref target="RFC6241"/>).
          Any changes made to it, for example, through the use of operations such
          as &lt;edit-config&gt; and &lt;edit-data&gt;, are made in this private
          candidate configuration.</t>
        <t>Obtaining this private candidate over NETCONF will display the entire
          configuration, including all changes made to it.  Performing a &lt;commit&gt;
          operation will merge the changes from the private candidate into the
          running configuration (the same as a merge in source code management systems).
          A &lt;discard-changes&gt; operation will revert the private candidate to the
          branch's initial state.</t>
        <t>All changes made to this private candidate configuration are held
           separately from any other candidate configuration changes, whether
           made by other users to the shared candidate or any other private candidate,
           and are not visible to or accessible by anyone else.</t>
      </section>
    </section>
    <section>
      <name>Limitations using the shared candidate configuration for multiple clients</name>
      <t>The following sections describe some limitations and mitigation factors in
      more detail for the use of the shared candidate configuration during multi-client
      configuration over NETCONF or RESTCONF.</t>
      <section>
        <name>Issues</name>
        <section>
          <name>Unintended deployment of alternate users configuration changes</name>
          <t>Consider the following scenario:</t>
          <ol>
            <li>Client 1 modifies item A in the shared candidate configuration</li>
            <li>Client 2 then modifies item B in the shared candidate configuration</li>
            <li>Client 2 then issues a &lt;commit&gt; RPC</li>
          </ol>
          <t>In this situation, both client 1 and client 2 configurations will be committed by
            client 2.  In a machine-to-machine environment client 2 may not have been aware of
            the change to item A and, if they had been aware, may have decided not to proceed.
          </t>
        </section>
      </section>
      <section>
        <name>Current mitigation strategies</name>
        <section>
          <name>Locking the shared candidate configuration datastore</name>
          <t>
            In order to resolve unintended deployment of alternate users configuration changes
            as described above NETCONF provides the ability to lock a datastore in order to
            restrict other users from editing and committed changes.
          </t>
          <t>This does resolve the specific issue above, however, it introduces another issue.
             Whilst one of the clients holds a lock, no other client may edit the configuration.
             This will result in the client failing and having to retry.  Whilst this may be a
             desirable consequence when two clients are editing the same section of the configuration,
             where they are editing different sections this behavior may hold up valid operational
             activity.</t>
          <t>Additionally, a lock placed on the shared candidate configuration must also lock the
          running configuration, otherwise changes committed directly into the running datastore
          may conflict.</t>
	  <t>Finally, this locking mechanism isn't available to RESTCONF clients.</t>
        </section>
        <section>
          <name>Always use the running configuration datastore</name>
          <t>The use of the running configuration datastore as the target for all configuration
          changes does not resolve any issues regarding blocking of system access in the case a
          lock is taken, nor does it provide a solution for multiple NETCONF and RESTCONF clients as each
          configuration change is applied immediately and the client has no knowledge of the
          current configuration at the point in time that they commenced the editing activity nor
          at the point they commit the activity.</t>
        </section>
        <section>
          <name>Fine-grained locking</name>
          <t><xref target="RFC5717"/> describes a partial lock mechanism that
            can be used on specific portions of the shared candidate datastore.</t>
          <t>Partial locking does not solve the issues of staging a set of
             configuration changes such that only those changes get committed in a
             commit operation, nor does it solve the issue of multiple clients
             editing the same parts of the configuration at the same time.</t>
          <t>Partial locking additionally requires that the client is aware of
          any interdependencies within the servers YANG models in order to lock all
          parts of the tree.</t>
        </section>
      </section>
    </section>
    <section>
      <name>Private candidates solution</name>
      <t>The use of private candidates resolves the issues
        detailed earlier in this document.</t>
      <t>NETCONF sessions and RESTCONF requests are able to utilize the concept of private candidates
         in order to streamline network operations, particularly for
         machine-to-machine communication.</t>
      <t>Using this approach clients may improve their performance and reduce the
        likelihood of blocking other clients from continuing with valid operational
        activities.</t>
      <t>One or more private candidates may exist at any one time, however, a
        private candidate SHOULD:</t>
      <ul>
        <li>Be accessible by one client only</li>
        <li>Be visible by one client only</li>
      </ul>
      <t>Additionally, the choice of using a shared candidate configuration
         datastore or a private candidate configuration datastore MUST be for
         the entire duration of the NETCONF session.</t>
      <section>
        <name>What is a private candidate</name>
        <t>A private candidate is defined earlier in the definitions and terminology
          section of this document.</t>
      </section>
      <section>
        <name>When is a private candidate created</name>
        <t>A private candidate datastore is created when the first RPC that requires access
        to it is sent to the server.  This could be, for example, an &lt;edit-config&gt;.</t>
        <t>When the private candidate is created a copy of the running configuration is
        made and stored in it.  This can be considered the same as creating a branch in a
        source code repository.</t>
        <artwork>
          +----------------------------&gt; private candidate
         /
        /
+------+-------------------------------&gt; running configuration
       ^
     Private candidate created
        </artwork>
        <t>Closing a session that is operating using a private candidate will
          discard all changes in that session's private candidate and destroy
          the private candidate.</t>
      </section>
      <section>
        <name>How to signal the use of private candidates</name>
        <section>
          <name>Server</name>
          <t>The server MUST signal its support for private candidates.  The server
          does this by advertising the :candidate capability as defined in
          <xref target="RFC6241"/> and a new :private-candidate capability:</t>
          <sourcecode>
urn:ietf:params:netconf:capability:private-candidate:1.0
          </sourcecode>
          <t>If the server has not signalled these capabilities, or has signalled the
            support for :candidate but not :private-candidate, or :private-candidate
            but not :candidate the session MUST be terminated when a client attempts
            to interact with a private candidate (for example, by explicitly
            targeting the private-candidate NMDA datastore).</t>
        </section>
        <section>
          <name>NETCONF client</name>
          <t>In order to utilise a private candidate configuration within a NETCONF
	    session, the client must inform the server that it wishes to do this.</t>
          <t>Two approaches are available for a NETCONF client to signal that it wants
            to use a private candidate:</t>
          <section>
            <name>Client capability declaration</name>
            <t>When a NETCONF client connects with a server it sends a list of client
            capabilities including one of the :base NETCONF version capabilties.</t>
            <t>In order to enable private candidate mode for the duration of the NETCONF
            client session the NETCONF client sends the following capability:</t>
            <sourcecode>
urn:ietf:params:netconf:capability:private-candidate:1.0
            </sourcecode>
            <t>In order for the use of private candidates to be established both the
            NETCONF server and the NETCONF client MUST advertise this capability.
          </t>
            <t>When a server receives the client capability its mode of operation
             will be set to private candidate mode for the duration of the NETCONF
             session.</t>
            <t>All RPC requests that target the candidate configuration datastore
            will operate in exactly the same way as they would do when using the
            shared candidate configuration datastore, however, when the server
            receives a request to act upon the candidate configuration datastore it
            instead uses the session's private candidate configuration datastore.</t>
            <t>Using this method, the use of private candidates can be made available to NMDA
          and non-NMDA capable servers.</t>
            <t>No protocol extensions are required for the transitioning of candidates between
            the shared mode and the private mode and no extensions are required for any
            RPCs (including &lt;lock&gt;)</t>
          </section>
          <section>
            <name>Private candidate datastore</name>
            <t>The private candidate configuration datastore is exposed as its
             own datastore similar to other <xref target="RFC8342">NMDA</xref>
             capable datastores.  This datastore is called private-candidate.</t>
            <t>All NMDA operations that support candidate NMDA datastore SHOULD
            support the private-candidate datastore.</t>
            <t>Any non-NMDA aware NETCONF operations that take a source or target
             (destination) may be extended to accept the new datastore.</t>
            <t>The ability for the server to support private candidates is optional
            and SHOULD be signalled in NMDA supporting servers as a datastore in addition
            to the server capabilities described earlier in this document.</t>
            <t>The first datastore referenced (either candidate or private-candidate) in
             any NETCONF operation will define which mode that NETCONF session will
             operate in for its duration.  As an example, performing a &lt;get-data&gt;
             operation on the private-candidate datastore will switch the session into
             private candidate configuration mode and subsequent &lt;edit-config&gt;
             operations that reference the candidate configuration datastore will fail.</t>
          </section>
        </section>
        <section>
          <name>RESTCONF client</name>
	  <t>RESTCONF doesn't provide a mechanism for the client to advertise a capability.
	   Therefore when a RESTCONF server advertises the :private-candidate capability, the
	   decision of whether to use a private candidate depends on whether a datastore is
           explicitly referenced in the request using the
	   <xref target="RFC8527">RESTCONF extensions for NMDA</xref>.</t>
	  <t>When the server advertises the :private-candidate capability and the client does
	   not explicitly reference a datastore in their request, all edits are made to a new
	   private candidate, and the private candidate is committed.  This is analagous to
	   the behavior of RESTCONF when the :candidate capability is specified by the server.</t>
	  <t>When the private-candidate datastore is explicitly referenced, edits are made to
	   a new private candidate and the private candidate is committed.</t>
	</section>
      </section>
      <section>
        <name>Interaction between running and private-candidate(s)</name>
        <t>Multiple NETCONF operations may be performed on the private candidate in order
        to stage changes ready for a commit.</t>
        <t>In the simplest example, a session may create a private candidate configuration,
        perform multiple NETCONF operations (such as &lt;edit-config&gt;) on it and then
        perform a &lt;commit&gt; operation to merge the private candidate configuration
        into the running configuration in line with semantics in <xref target="RFC6241"/>.
        </t>
        <artwork>
                               commit
       +--------------------------+--------&gt; private candidate
      /   ^             ^          \
     /   edit-config   edit-config  ⌄
+---+-------------------------------+------&gt; running configuration
    ^
  edit-config
  (Private candidate created)

        </artwork>
        <t>More complex scenarios need to be considered, when multiple private candidate
        sessions are working on their own configuration (branches) and they make commits
        into the running configuration.</t>
        <artwork>
                           commit
       +---------------------+----------------&gt; private candidate 1
      /                       \
     /         edit-config     ⌄
+---+------------+-------------+--------------&gt; running configuration
  edit-config     \
                   \
                    +-------------------------&gt; private candidate 2

        </artwork>
        <t>In this situation, if, how and when private candidate 2 is updated with the
        information that the running configuration has changed must be considered.</t>
        <t>As described earlier, the client MUST be aware of changes to the running
        configuration so it can be assured that it is only committing its own
          modifications.</t>
        <t>It is possible, during an update, for conflicts to occur and the
          detection and resolution of these is discussed later in this document.</t>
        <t>Two modes of operation are provided.  Both modes may be supported by a
        system, however, only one mode MUST be supported per session.</t>
        <t>The server MUST advertise which mode is being used by the session by providing
        the mode parameter to the :private-candidate capability.</t>
        <section>
          <name>Static branch mode: Independent private candidate branch</name>
          <t>The private candidate is treated as a separate branch and changes made to
            the running configuration are not placed into the private candidate datastore
            except in one of the following situations:</t>
          <ul>
            <li>The client requests that the private candidate be refreshed using a
              new &lt;update&gt; operation</li>
            <li>&lt;commit&gt; is issued (which SHOULD automatically issue an &lt;update&gt;
            operation)</li>
          </ul>
          <t>This approach is similar to the standard approach for source code management
            systems.</t>
          <t>In this model of operation it is possible for the private candidate
          configuration to become significantly out of sync with the running configuration
          should the private candidate be open for a long time without an operation
          being sent that causes a resync (rebase in source code control terminology).</t>
          <t>A &lt;compare&gt; operation may be performed against the initial starting
          point (head) of the private candidates branch or against the running configuration.</t>
          <t>Conflict detection and resolution is discussed later in this document.</t>
          <t>The server signals this mode by setting the mode parameter to the :private-candidate
          capability to static-branch as follows:</t>
          <sourcecode>
urn:ietf:params:netconf:capability:private-candidate:1.0
              ?mode=static-branch
          </sourcecode>
        </section>
        <section>
          <name>Continuous rebase mode: Continually updating private candidate</name>
          <t>The private candidate is treated as a separate branch, however, when changes
          are made to the running configuration the update operation will automatically
            be run on all open private candidate branches.</t>
          <t>This is equivalent to all currently open private candidate branches being
            rebased onto the running configuration every time a change is made to it
            by any session.</t>
          <t>In this model of operation the following should be considered:</t>
          <ul>
            <li>Because the private candidate is automatically re-synchronized (rebased)
            with the running configuration each time a change is made in the running
            configuration, the NETCONF session is unaware that their private
            candidate configuration has changed unless they perform one of the
            get operations on the private candidate and analyse it for changes.</li>
            <li>A &lt;compare&gt; operation may be performed against the initial starting
              point (head) of the private candidates branch or against the running
              configuration but these will both report the same results as the starting
              point is continually reset.</li>
            <li>The output of the &lt;compare&gt; operation may not match the set
              of changes made to the session's private candidate but may include
              different output due to the changes in the running configuration
              made by other sessions.</li>
            <li>A conflict may occur in the automatic update process pushing changes from
              the running configuration into the private candidate.</li>
          </ul>
          <t>The server signals this mode by setting the mode parameter to the :private-candidate
          capability to continuous-rebase as follows:</t>
          <sourcecode>
urn:ietf:params:netconf:capability:private-candidate:1.0
              ?mode=continuous-rebase
          </sourcecode>
          <t>Conflict detection and resolution is discussed later in this document.</t>
        </section>
      </section>
      <section>
        <name>Detecting and resolving conflicts</name>
        <section>
          <name>What is a conflict?</name>
          <t>A conflict is when the intent of the NETCONF client may have
            been different had it had a different starting point.  In configuration
            terms, a conflict occurs when the same set of nodes in a configuration being
            altered by one user are changed between the start of the configuration
            preparation (the first &lt;edit-config&gt;/&lt;edit-data&gt; operation)
            and the conclusion of this configuration session (terminated by a
            &lt;commit&gt; operation).</t>
          <t>The situation where conflicts have the potential of occurring are when
              multiple configuration sessions are in progress and one session commits
              changes into the running configuration after the private candidate
              (branch) was created. </t>
          <t>When this happens a conflict occurs if the nodes modified in the running
              configuration are the same nodes that are modified in the private candidate
              configuration.</t>
          <t>Examples of conflicts include:</t>
          <ul>
            <li>An interface has been deleted in the running configuration that existed
              when the private candidate was created.  A change to a child node of this specific
                interface is made in the private candidate using the default merge operation
                would, instead of changing the child node, both recreate the interface and then
                set the child node.</li>
            <li>A leaf has been modified in the running configuration from the value that
              it had when the private candidate was created.  The private candidate configuration
              changes that leaf to another value.</li>
          </ul>
        </section>
        <section>
          <name>Detecting and reporting conflicts</name>
          <t>A conflict can occur when an &lt;update&gt; operation is triggered.  This
            can occur in a number of ways:</t>
          <ul>
            <li>Manually triggered by the &lt;update&gt; NETCONF operation</li>
            <li>Automatically triggered by the NETCONF server running an &lt;update&gt;
              operation upon a &lt;commit&gt; being issued by the client in the
              private candidate session.</li>
            <li>Automatically triggered by the NETCONF server running an &lt;update&gt;
              operation upon a &lt;commit&gt; being issued by any other configuration
            session (or user).  This occurs in continual rebase mode only.</li>
          </ul>
          <t>When a conflict occurs the client MUST be given the opportunity
              to re-evaluate its intent based on the new information.  The resolution
          of the conflict may be manual or automatic depending on the server and
          client decision (discussed later in this document).</t>
          <t>When a conflict occurs, a &lt;commit&gt; or &lt;update&gt; operation
              MUST fail. It MUST inform the client of the conflict and SHOULD detail
              the location of the conflict(s).</t>
          <t>In continuous rebase mode, it is possible for the automated
          &lt;update&gt; operation to fail.  In this instance, the next NETCONF
          operation (of any type) MUST fail.  It MUST inform the client of the conflict
              and SHOULD detail the location of the conflict(s).</t>
          <t>The location of the conflict(s) should be reported as a list of
          xpaths and values.</t>
        </section>
        <section>
          <name>Conflict resolution</name>
          <t>Conflict resolution defines which configuration elements are retained 
          when a conflict is resolved; those from the running configuration or 
          those from the private candidate configuration.</t>
          <t>When a conflict is detected, the client MUST be informed.  The client then
          has a number of options available to resolve the conflict.</t>
          <t>It is worth noting that in the case of continuous rebase mode
          automated &lt;update&gt; operations may be performed against multiple
          private candidate configurations at once.</t>
          <t>The resolution method SHOULD be provided as an input to the &lt;update&gt;
          operation described later in this document.  This input may be through
          a default selection, a specific input or a configuration element.</t>
          <t>The following configuration data is used below to describe the behavior
          of each resolution method:</t>
          <sourcecode type="xml">
&lt;configure&gt;
  &lt;interfaces&gt;
    &lt;interface&gt;
      &lt;name&gt;intf_one&lt;/name&gt;
      &lt;description&gt;Link to London&lt;description&gt;
    &lt;/interface&gt;
    &lt;interface&gt;
      &lt;name&gt;intf_two&lt;/name&gt;
      &lt;description&gt;Link to Tokyo&lt;description&gt;
    &lt;/interface&gt;
  &lt;/interfaces&gt;
&lt;/configure&gt;
          </sourcecode>
          <t>The following workflow diagram is used and the outcome is
          the same regardless of whether static branch mode or continuous
          rebase mode is being used.  For the purpose of the examples
          below assume the update operation is manually provided by a
          client.</t>
          <artwork>
                        update commit
       +--------------------+---+------&gt; private candidate 1
      /                    /     \
     /  edit-config       /       ⌄
+---+--------+--------+--+--------+----&gt; running configuration
 edit-config  \       ^
               \     /
                +---+------------------&gt; private candidate 2
                 commit
          </artwork>
          <t>There are three defined resolution methods:</t>
          <section>
            <name>Ignore</name>
            <t>When using the ignore resolution method items in the running
            configuration that are not in conflict with the private candidate
            configuration are merged from the running configuration
            into the private candidate configuration.  Nodes that are in conflict
            are ignored and not merged.  The outcome of this is that the private
            candidate configuration reflects changes in the running that were not
            being worked on and those that are being worked on in the private
            candidate remain in the private candidate.  Issuing a &lt;commit&gt;
            operation at this point will overwrite the running configuration with
            the conflicted items from the private candidate configuration.</t>
            <t>Example:</t>
            <t>Session 1 edits the configuration by submitting the following</t>
            <sourcecode type="xml">
&lt;rpc message-id="config"
        xmlns="urn:ietf:params:xml:ns:netconf:base:1.0"&gt;
  &lt;edit-config&gt;
    &lt;target&gt;&lt;candidate/&gt;&lt;target&gt;
    &lt;config&gt;
      &lt;configure&gt;
        &lt;interfaces&gt;
          &lt;interface&gt;
            &lt;name&gt;intf_one&lt;/name&gt;
            &lt;description&gt;Link to San Francisco&lt;description&gt;
          &lt;/interface&gt;
        &lt;/interfaces&gt;
      &lt;/configure&gt;
    &lt;/config&gt;
  &lt;/edit-config&gt;
&lt;/rpc&gt;
            </sourcecode>
            <t>Session 2 then edits the configuration deleting the
            interface intf_one, updating the description on interface
            intf_two and committing the configuration to the running
            configuration datastore.</t>
            <sourcecode type="xml">
&lt;rpc message-id="config"
        xmlns="urn:ietf:params:xml:ns:netconf:base:1.0"&gt;
  &lt;edit-config&gt;
    &lt;target&gt;&lt;candidate/&gt;&lt;target&gt;
    &lt;config&gt;
      &lt;configure&gt;
        &lt;interfaces&gt;
          &lt;interface&gt;
            &lt;name operation="delete"&gt;intf_one&lt;/name&gt;
          &lt;/interface&gt;
          &lt;interface&gt;
            &lt;name&gt;intf_two&lt;/name&gt;
            &lt;description&gt;Link moved to Paris&lt;/description&gt;
          &lt;/interface&gt;
        &lt;/interfaces&gt;
      &lt;/configure&gt;
    &lt;/config&gt;
  &lt;/edit-config&gt;
&lt;/rpc&gt;
            </sourcecode>
            <t>Session 1 then sends an &lt;update&gt; NETCONF operation.</t>
            <sourcecode type="xml">
&lt;rpc message-id="update"
        xmlns="urn:ietf:params:xml:ns:netconf:base:1.0"&gt;
  &lt;update&gt;
    &lt;resolution-mode&gt;ignore&lt;/resolution-mode&gt;
  &lt;/update&gt;
&lt;/rpc&gt;
            </sourcecode>
            <t>The un-conflicting changes are merged and the conflicting
            ones are ignored (and not merged from the running into
            private candidate 1).</t>
            <t>The resulting data in private candidate 1 is:</t>
            <sourcecode type="xml">
&lt;configure&gt;
  &lt;interfaces&gt;
    &lt;interface&gt;
      &lt;name&gt;intf_one&lt;/name&gt;
      &lt;description&gt;Link to San Francisco&lt;description&gt;
    &lt;/interface&gt;
    &lt;interface&gt;
      &lt;name&gt;intf_two&lt;/name&gt;
      &lt;description&gt;Link moved to Paris&lt;description&gt;
    &lt;/interface&gt;
  &lt;/interfaces&gt;
&lt;/configure&gt;
            </sourcecode>
          </section>
          <section>
            <name>Overwrite</name>
            <t>When using the overwrite resolution method items in the running
            configuration that are not in conflict with the private candidate
            configuration are merged from the running configuration into the
            private candidate configuration.  Nodes that are in conflict are
            pushed from the running configuration into the private candidate
            configuration, overwriting any previous changes in the private
            candidate configuration.  The outcome of this is that the private
            candidate configuration reflects the changes in the running
            configuration that were not being worked on as well as changing
            those being worked on in the private candidate to new values.</t>
            <t>Example:</t>
            <t>Session 1 edits the configuration by submitting the following</t>
            <sourcecode type="xml">
&lt;rpc message-id="config"
        xmlns="urn:ietf:params:xml:ns:netconf:base:1.0"&gt;
  &lt;edit-config&gt;
    &lt;target&gt;&lt;candidate/&gt;&lt;target&gt;
    &lt;config&gt;
      &lt;configure&gt;
        &lt;interfaces&gt;
          &lt;interface&gt;
            &lt;name&gt;intf_one&lt;/name&gt;
            &lt;description&gt;Link to San Francisco&lt;description&gt;
          &lt;/interface&gt;
        &lt;/interfaces&gt;
      &lt;/configure&gt;
    &lt;/config&gt;
  &lt;/edit-config&gt;
&lt;/rpc&gt;
            </sourcecode>
            <t>Session 2 then edits the configuration deleting the
            interface intf_one, updating the description on interface
            intf_two and committing the configuration to the running
            configuration datastore.</t>
            <sourcecode type="xml">
&lt;rpc message-id="config"
        xmlns="urn:ietf:params:xml:ns:netconf:base:1.0"&gt;
  &lt;edit-config&gt;
    &lt;target&gt;&lt;candidate/&gt;&lt;target&gt;
    &lt;config&gt;
      &lt;configure&gt;
        &lt;interfaces&gt;
          &lt;interface&gt;
            &lt;name operation="delete"&gt;intf_one&lt;/name&gt;
          &lt;/interface&gt;
          &lt;interface&gt;
            &lt;name&gt;intf_two&lt;/name&gt;
            &lt;description&gt;Link moved to Paris&lt;/description&gt;
          &lt;/interface&gt;
        &lt;/interfaces&gt;
      &lt;/configure&gt;
    &lt;/config&gt;
  &lt;/edit-config&gt;
&lt;/rpc&gt;
            </sourcecode>
            <t>Session 1 then sends an &lt;update&gt; NETCONF operation.</t>
            <sourcecode type="xml">
&lt;rpc message-id="update"
        xmlns="urn:ietf:params:xml:ns:netconf:base:1.0"&gt;
  &lt;update&gt;
    &lt;resolution-mode&gt;overwrite&lt;/resolution-mode&gt;
  &lt;/update&gt;
&lt;/rpc&gt;
            </sourcecode>
            <t>The un-conflicting changes are merged and the conflicting
            ones are pushed into the private candidate 1 overwriting the
            existing changes.</t>
            <t>The resulting data in private candidate 1 is:</t>
            <sourcecode type="xml">
&lt;configure&gt;
  &lt;interfaces&gt;
    &lt;interface&gt;
      &lt;name&gt;intf_two&lt;/name&gt;
      &lt;description&gt;Link moved to Paris&lt;description&gt;
    &lt;/interface&gt;
  &lt;/interfaces&gt;
&lt;/configure&gt;
            </sourcecode>
          </section>
          <section>
            <name>Revert-on-conflict</name>
            <t>When using the revert-on-conflict resolution method items and update
            will fail to complete when any conflicting node is found.  The
            session issuing the update will be informed of the failure.</t>
            <t>No changes, whether conflicting or un-conflicting are merged into
            the private candidate configuration.</t>
            <t>The owner of the private candidate session must then take deliberate
            and specific action to adjust the private candidate configuration to
            rectify the conflict.  This may be by issuing further &lt;edit-config&gt;
            or &lt;edit-data&gt; operations, by issuing a &lt;discard-changes&gt;
            operation or by issuing an &lt;update&gt; operation with a
            different resolution method.</t>
            <t>This resolution method is the default resolution method as it
            provides for the highest level of visibility and control to ensure
            operational stability.</t>
            <t>This resolution method may not be selected by a system operating
            in continuous rebase mode when performing automatic &lt;update&gt;
            operations.  Clients operating in continuous rebase mode may use
            this resolution mode in their &lt;update&gt; operation.</t>
            <t>Example:</t>
            <t>Session 1 edits the configuration by submitting the following</t>
            <sourcecode type="xml">
&lt;rpc message-id="config"
        xmlns="urn:ietf:params:xml:ns:netconf:base:1.0"&gt;
  &lt;edit-config&gt;
    &lt;target&gt;&lt;candidate/&gt;&lt;target&gt;
    &lt;config&gt;
      &lt;configure&gt;
        &lt;interfaces&gt;
          &lt;interface&gt;
            &lt;name&gt;intf_one&lt;/name&gt;
            &lt;description&gt;Link to San Francisco&lt;description&gt;
          &lt;/interface&gt;
        &lt;/interfaces&gt;
      &lt;/configure&gt;
    &lt;/config&gt;
  &lt;/edit-config&gt;
&lt;/rpc&gt;
            </sourcecode>
            <t>Session 2 then edits the configuration deleting the
            interface intf_one, updating the description on interface
            intf_two and committing the configuration to the running
            configuration datastore.</t>
            <sourcecode type="xml">
&lt;rpc message-id="config"
        xmlns="urn:ietf:params:xml:ns:netconf:base:1.0"&gt;
  &lt;edit-config&gt;
    &lt;target&gt;&lt;candidate/&gt;&lt;target&gt;
    &lt;config&gt;
      &lt;configure&gt;
        &lt;interfaces&gt;
          &lt;interface&gt;
            &lt;name operation="delete"&gt;intf_one&lt;/name&gt;
          &lt;/interface&gt;
          &lt;interface&gt;
            &lt;name&gt;intf_two&lt;/name&gt;
            &lt;description&gt;Link moved to Paris&lt;/description&gt;
          &lt;/interface&gt;
        &lt;/interfaces&gt;
      &lt;/configure&gt;
    &lt;/config&gt;
  &lt;/edit-config&gt;
&lt;/rpc&gt;
            </sourcecode>
            <t>Session 1 then sends an &lt;update&gt; NETCONF operation.</t>
            <sourcecode type="xml">
&lt;rpc message-id="update"
        xmlns="urn:ietf:params:xml:ns:netconf:base:1.0"&gt;
  &lt;update&gt;
    &lt;resolution-mode&gt;revert-on-conflict&lt;/resolution-mode&gt;
  &lt;/update&gt;
&lt;/rpc&gt;
            </sourcecode>
            <t>A conflict is detected and no merges/overwrite
            operations happen.</t>
            <t>The resulting data in private candidate 1 is:</t>
            <sourcecode type="xml">
&lt;configure&gt;
  &lt;interfaces&gt;
    &lt;interface&gt;
      &lt;name&gt;intf_one&lt;/name&gt;
      &lt;description&gt;Link to San Francisco&lt;description&gt;
    &lt;/interface&gt;
    &lt;interface&gt;
      &lt;name&gt;intf_two&lt;/name&gt;
      &lt;description&gt;Link to Tokyo&lt;description&gt;
    &lt;/interface&gt;
  &lt;/interfaces&gt;
&lt;/configure&gt;
            </sourcecode>
          </section>
        </section>
        <section>
          <name>Default resolution mode and advertisement of this mode</name>
          <t>The default resolution mode is revert-on-conflict, however, a system MAY
          choose to select a different default resolution mode.</t>
          
          <t>The default resolution mode MAY be advertised in the :private-candidate
          capability by adding the resolution-mode parameter.  If the system default
          is revert-on-conflict then this is optional.</t>
          <t>If a server does not support revert-on-conflict it MUST report the 
          default resolution mode.</t>
          <t>If the system default is chosen to be anything other than revert-on-conflict
          then this MUST be signalled using the resolution-mode parameter, for example:</t>
          <sourcecode>
urn:ietf:params:netconf:capability:private-candidate:1.0
              ?mode=static-branch&amp;default-resolution-mode=overwrite
          </sourcecode>
        </section>
        <section>
          <name>Supported resolution modes</name>
          <t>A server SHOULD support all three resolution modes, however, if the server
          does not support all three modes, the server MUST report the supported modes 
          in the :private-candidate capability using the supported-resolution-modes, 
          for example:</t>
          <sourcecode>
urn:ietf:params:netconf:capability:private-candidate:1.0
              ?mode=static-branch
              &amp;supported-resolution-modes=revert-on-conflict,ignore
          </sourcecode>
        </section>
      </section>
      <section>
        <name>NETCONF operations</name>
        <section>
          <name>New NETCONF operations</name>
          <section>
            <name>&lt;update&gt;</name>
            <t>The &lt;update&gt; operation is provided to allow NETCONF clients
                (or servers) to trigger a rebase of the private candidate configuration
                    against the running configuration.</t>
            <t>The &lt;update&gt; operation may be triggered manually by the
                client or automatically by the server.</t>
            <t>The &lt;update&gt; operation MUST be triggered by a &lt;commit&gt;
                operation being executed in any candidate configuration on the device
                    if the device is operating in continuous rebase mode.</t>
            <t>The &lt;update&gt; operation SHOULD be triggered by a specific
                NETCONF session issuing a &lt;commit&gt; operation.</t>
            <section>
              <name>&lt;resolution-mode&gt; parameter</name>
              <t>The &lt;update&gt; operation takes the
                        &lt;resolution-mode&gt; parameter</t>
              <t>The resolution modes are described earlier in this document
                    and the accepted inputs are:</t>
              <ul>
                <li>revert-on-conflict (default)</li>
                <li>ignore</li>
                <li>overwrite</li>
              </ul>
            </section>
          </section>
        </section>
        <section>
          <name>Updated NETCONF operations</name>
          <t>Specific NETCONF operations altered by this document are listed in this section.
            Any notable behavior with existing unaltered NETCONF operations is noted in the
            appendix.</t>
          <section>
            <name>&lt;edit-config&gt;</name>
            <t>The &lt;edit-config&gt; operation is updated to accept
                    private-candidate as valid input to the &lt;target&gt; field.</t>
            <t>The use of &lt;edit-config&gt; will create a private candidate
                  configuration if one does not already exist for that NETCONF
                  session.</t>
            <t>Sending an &lt;edit-config&gt; request to private-candidate
                  after one has been sent to the shared candidate datastore
                  in the same session will fail (and visa-versa).</t>
            <t>Multiple &lt;edit-config&gt; requests may be sent to the
                  private-candidate datastore in a single session.</t>
          </section>
          <section>
            <name>&lt;lock&gt; and &lt;unlock&gt;</name>
            <t>Performing a &lt;lock&gt; on the private-candidate datastore is a valid operation and
                will also lock the running configuration.</t>
            <t>Taking a lock on this datastore will stop other session from committing any
              configuration changes, regardless of the datastore.</t>
            <t>Other NETCONF sessions are still able to create a new private-candidate
                configurations.</t>
            <t>Performing an &lt;unlock&gt; on the private-candidate datastore is a valid operation.
              This will also unlock the running configuration. Unlocking the private-candidate
                datastore allows other sessions to resume &lt;commit&gt; functions. </t>
            <t>Changes in the private-candidate datastore are not lost when the
              lock is released.</t>
            <t>Attempting to perform a &lt;lock&gt; or &lt;unlock&gt; on any other datastore while the
              private-candidate datastore is locked will fail.  Attempting to perform a &lt;lock&gt;
              or &lt;unlock&gt; on any other sessions private-candidate datastore will also fail.</t>
          </section>
          <section>
            <name>&lt;compare&gt;</name>
            <t>Performing a <xref target="RFC9144">&lt;compare&gt;</xref>
                with the private-candidate datastore as either the &lt;source&gt;
                or &lt;target&gt; is a valid operation.</t>
            <t>If &lt;compare&gt; is performed prior to a private candidate configuration
              being created, one will be created at that point.</t>
            <t>The &lt;compare&gt; operation is extended by this document to allow the ability to
            compare the private-candidate datastore (at its current point in time) with the
            same private-candidate datastore at an earlier point in time.  This document adds 
            the optional &lt;reference-point&gt; node to the input of the &lt;compare&gt;
            operation that accepts the values of last-update or creation-point.</t>
            <t>Servers MAY support this functionality but are not required to by this document.</t>
            <t>The last-update selection of &lt;reference-point&gt; will provide an output
            comparing the current private-candidate configuration datastore with the same
            private-candidate datastore at the time it was last updated using the &lt;update&gt; 
            NETCONF operation described in this document (whether automatically or manually triggered).</t>
            <t>The creation-point selection of &lt;reference-point&gt; will provide an output
            comparing the current private-candidate configuration datastore with the same
            private-candidate datastore at the time this private-candidate was initially created.</t>
          </section>
          <section>
            <name>&lt;get-config&gt;</name>
            <t>The &lt;get-config&gt; operation is updated to accept private-candidate as
              valid input to the &lt;source&gt; field.</t>
            <t>The use of &lt;get-config&gt; will create a private candidate configuration
              if one does not already exist for that NETCONF session.</t>
            <t>Sending an &lt;get-config&gt; request to private-candidate
                  after one has been sent to the shared candidate datastore
                  in the same session will fail (and visa-versa).</t>
          </section>
          <section>
            <name>&lt;get-data&gt;</name>
            <t>The &lt;get-data&gt; operation accepts the private-candidate as a valid datastore.</t>
            <t>The use of &lt;get-data&gt; will create a private candidate configuration
              if one does not already exist for that NETCONF session.</t>
            <t>Sending an &lt;get-data&gt; request to private-candidate
                  after one has been sent to the shared candidate datastore
                  in the same session will fail (and visa-versa).</t>
          </section>
          <section>
            <name>&lt;copy-config&gt;</name>
            <t>The &lt;copy-config&gt; operation is updated to accept private-candidate as
          a valid input to the &lt;source&gt; or &lt;target&gt; fields.</t>
          </section>
          <section>
            <name>&lt;delete-config&gt;</name>
            <t>The &lt;delete-config&gt; operation is updated to accept private-candidate as
          a valid input to the &lt;target&gt; field.</t>
          </section>
          <section>
            <name>&lt;commit&gt;</name>
            <t>The &lt;commit&gt; operation SHOULD trigger an &lt;update&gt; operation.</t>
            <t>Nothing in this document alters the standard behavior of the &lt;persist&gt; or 
            &lt;persist-id&gt; options and these SHOULD work when using the private-candidate
            configuration datastore.</t>
          </section>
        </section>
      </section>
    </section>
    <section anchor="IANA">
      <!-- All drafts are required to have an IANA considerations section. See RFC 8126 for a guide.-->
      <name>IANA Considerations</name>
      <t>This memo includes no request to IANA.</t>
    </section>
    <section anchor="Security">
      <!-- All drafts are required to have a security considerations section. See RFC 3552 for a guide. -->
      <name>Security Considerations</name>
      <t>This document should not affect the security of the Internet.</t>
    </section>
    <!-- NOTE: The Acknowledgements and Contributors sections are at the end of this template -->
  </middle>
  <back>
    <references>
      <name>References</name>
      <references>
        <name>Normative References</name>
        <xi:include href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.2119.xml"/>
        <xi:include href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.8174.xml"/>
        <xi:include href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.6241.xml"/>
        <xi:include href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.8342.xml"/>
        <xi:include href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.9144.xml"/>
        <xi:include href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.5717.xml"/>
        <xi:include href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.8040.xml"/>
        <xi:include href="https://www.rfc-editor.org/refs/bibxml/reference.RFC.8527.xml"/>
        <!-- The recommended and simplest way to include a well known reference -->
      </references>
      <references>
        <name>Informative References</name>
      </references>
    </references>
    <section>
      <name>Behavior with unaltered NETCONF operations</name>
      <section>
        <name>&lt;get&gt;</name>
        <t>The &lt;get&gt; operation does not accept a datastore value and therefore
          this document is not applicable to this operation.  The use of the
          get operation will not create a private candidate configuration.</t>
      </section>
    </section>
    <section anchor="Contributors" numbered="false">
      <name>Contributors</name>
      <t>The authors would like to thank Jan Lindblad, Lori-Ann McGrath, Jason Sterne and 
      Rob Wilton for their contributions and reviews.</t>
    </section>
  </back>
</rfc>