xeps/xep-0220.xml

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<xep>
<header>
  <title>Server Dialback</title>
  <abstract>This specification defines the Server Dialback protocol, which is used between XMPP servers to provide identity verification. Server Dialback uses the Domain Name System (DNS) as the basis for verifying identity; the basic approach is that when a receiving server receives a server-to-server connection request from an originating server, it does not accept the request until it has verified a key with an authoritative server for the domain asserted by the originating server. Although Server Dialback does not provide strong authentication or trusted federation and although it is subject to DNS poisoning attacks, since its development in the year 2000 it has effectively prevented most instances of address spoofing on the XMPP network.</abstract>
  &LEGALNOTICE;
  <number>0220</number>
  <status>Experimental</status>
  <type>Standards Track</type>
  <sig>Standards</sig>
  <approver>Council</approver>
  <dependencies>
    <spec>XMPP Core</spec>
  </dependencies>
  <supersedes/>
  <supersededby/>
  <shortname>dialback</shortname>
  &stpeter;
  &jer;
  <revision>
    <version>0.2</version>
    <date>2008-06-18</date>
    <initials>psa</initials>
    <remark>
      <ul>
        <li>Rewrote introduction.</li>
        <li>Provided motivating text about why dialback is used.</li>
        <li>Added text about different federation models.</li>
        <li>More clearly described what dialback accomplishes and what it does not accomplish.</li>
        <li>Added explanatory text about scenarios in which Server Dialback is used and not used.</li>
        <li>Clarified basic description of how dialback works.</li>
        <li>Clarified discovery of dialback support.</li>
        <li>Separated sections into subsections, as has been done for rfc3920bis and rfc3921bis.</li>
        <li>Described the protocol flows in much greater detail.</li>
        <li>Explained and illustrated failure cases more completely.</li>
        <li>Clarified reuse of negotiated connections, a.k.a. piggybacking.</li>
      </ul>
    </remark>
  </revision>
  <revision>
    <version>0.1</version>
    <date>2007-07-11</date>
    <initials>psa</initials>
    <remark><p>Initial published version.</p></remark>
  </revision>
  <revision>
    <version>0.0.1</version>
    <date>2007-06-22</date>
    <initials>psa</initials>
    <remark><p>Content moved from rfc3920bis.</p></remark>
  </revision>
</header>

<section1 topic="Introduction" anchor="intro">

  <section2 topic="Why Dialback?" anchor="intro-why">
    <p>When Jabber technologies were first developed in 1998, they were conceived of as a client-server system similar to email, wherein a client would connect to a server in order to communicate with other clients. Similarly, servers would connect with peer servers to provide inter-domain communication (often called "federation"). In a system that allows federation, it is important for a server to be able to determine the identity of a peer server; accepting a connection from any peer without determining its identity would result in the use of merely asserted identities and a completely uncontrolled approach to federation, which would rapidly devolve into chaos on the open Internet. Clearly such a state of affairs would be unsustainable for a network protocol aiming for widespread deployment.</p>
    <p>Unfortunately, that was the state of affairs on the Jabber network during the earliest releases of the original &jabberd; server codebase (up through the 1.0 release in May 2000). Therefore the open-source developer community designed a protocol ("Server Dialback") for weak identity verification based on the Domain Name System (DNS), built support for that protocol into the jabberd 1.2 server (released in October 2000), and mandated support for that protocol on the emerging Jabber server network.</p>
    <p>When the core Jabber protocols were formalized by the XMPP Working Group of the &IETF; in 2002-2004, support for strong identity verification was added. That support takes the form of Transport Layer Security (TLS) for encryption of server-to-server XML streams and the Simple Authentication and Security Layer (SASL) for authentication of such streams, using digital certificates issued by trusted root certification authorities (CAs). Documentation of TLS and SASL within XMPP is provided in &xmppcore;. However, the Server Dialback protocol is still in wide use, and probably will be for the foreseeable future given the difficulty (real or perceived) of obtaining digital certificates issued by common certification authorities (CAs). Therefore it is important to maintain accurate documentation of the Server Dialback protocol. Such documentation was originally provided in &rfc3920;. Although that documentation was removed from &rfc3920bis;, it is still provided in this specification for the sake of interoperability.</p>
  </section2>

  <section2 topic="Federation Models" anchor="intro-models">
    <p>There are at least four levels of server-to-server federation in Jabber/XMPP networks:</p>
    <ol start='1'>
      <li><p>Permissive Federation -- a server accepts a connection from any other peer on the network, even without verifiying the identity of the peer based on DNS lookups. The lack of peer verification or authentication means that domains can be spoofed.</p></li>
      <li><p>Verified Federation -- a server accepts a connection from a peer only after the identity of the peer has been weakly verified via based on information obtained via the Domain Name System (DNS). However, the connection is not encrypted or authenticated. The use of identity verification effectively prevents domain spoofing, but federation requires proper DNS setup and is still subject to DNS poisoning attacks.</p></li>
      <li><p>Encrypted Federation -- a server accepts a connection from a peer only if the peer supports Transport Layer Security (TLS) as defined for XMPP in &rfc3920; and the peer presents a digital certificate. However, the certificate may be self-signed, in which case mutual authentication is typically not possible. Therefore, after STARTTLS negotiation the parties proceed to weakly verify identity based on DNS information as under Verified Federation. This combination results in an encrypted connection with weak identity verification.</p></li>
      <li><p>Trusted Federation -- a server accepts a connection from a peer only if the peer supports Transport Layer Security (TLS) and the peer presents a digital certificate issued by a trusted root certification authority (CA). The list of trusted root CAs is determined by local service policy, as is the level of trust accorded to various types of certificates (i.e., Class 1, Class 2, or Class 3). The use of trusted domain certificates effectively prevents DNS poisoning attacks and results in mutual authentication.</p></li>
    </ol>
    <p>This specification documents the technology that enabled the Jabber server network to advance beyond Permissive Federation to Verified Federation. Combined with the use of TLS, Server Dialback can also result in Encrypted Federation. However, Trusted Federation is not possible with Server Dialback.</p>
    <p>Note: For detailed examples showing the protocol flows and outcomes of dialback negotiation for a wide variety of federation scenarios, refer to &xep0238;.</p>
  </section2>

  <section2 topic="What Dialback Accomplishes" anchor="intro-what">
    <p>Server Dialback is a method for weak identify verification. Such verification depends on the Domain Name System (DNS) and the use of keys based on a shared secret known to all XMPP servers within a given trust domain (e.g., the trust domain associated with a given second-level DNS domain such as "example.com" and all of its subdomains).</p>
    <p>Since October 2000, the use of Server Dialback has made it more difficult to spoof the hostnames of servers (and therefore the addresses of sent messages) on the XMPP network. However, Server Dialback does not provide authentication between servers and is not a security mechanism. Domains requiring high security are advised to use TLS and SASL with certificates issued by trusted roots.</p>
    <p>Server Dialback is uni-directional, and results in weak identity verification for one XML stream in one direction. Because Server Dialback is not an authentication mechanism, mutual authentication is not possible via dialback. Therefore, Server Dialback must be completed in each direction in order to enable bi-directional communication between two domains.</p>
  </section2>

  <section2 topic="When Dialback Is Used" anchor="intro-when">
    <p>Server Dialback is typically used in two scenarios:</p>
    <ol start='1'>
      <li><p>When a peer service does not support XMPP 1.0 as defined in <cite>RFC 3920</cite> or, more generally, does not offer negotiation of TLS.</p></li>
      <li><p>When STARTTLS negotiation succeeds with a peer service but the peer's certificate is not strong enough to result in mutual authentication via SASL (e.g., because the certificate presented by the peer service during TLS negotiation is self-signed and and local service policies stipulate that it is preferable to weakly identify the peer service via Server Dialback rather than depend on the self-signed certificate for identity verification).</p></li>
    </ol>
    <p>Both of these scenarios result in an untrusted connection (verified federation in the first scenario and encrypted federation in the second scenario). However, depending on local security policies, a server may accept such an untrusted connection if the use of Server Dialback results in weak identity verification.</p>
    <p>Dialback is not used if SASL is used for server-to-server authentication, since SASL provides strong authentication using certificates, pre-established passwords, or other credentials.</p>
    <p>A service cannot begin negotiation of Server Dialback unless its peer advertises support for the Server Dialback protocol. As described under <link url='o2r-processinitial'>Receiving Server Processes Initial Stream Header</link>, a peer advertises support through inclusion of the Server Dialback namespace declaration in its response stream header and (for XMPP 1.0 servers) through inclusion of the Server Dialback stream feature.</p>
  </section2>

  <section2 topic="How Dialback Works" anchor="intro-howitworks">
    <p>The basic idea behind Server Dialback is that a receiving server does not accept XMPP traffic from a sending server until it has "called back" the authoritative server for the domain asserted by the sending server, and verified that the sending server is truly authorized to generate XMPP traffic for that domain.</p>
    <p>A helpful analogy might be the following telephone scenario:</p>
    <ol start='1'>
      <li>A customer service representative from your bank calls you on the phone.</li>
      <li>Rather than immediately accepting the phone call, you ask for his employee ID number and put him on hold.</li>
      <li>You open the phone book, find the authoritative phone number for the bank's headquarters, and give them a call.</li>
      <li>After being transferred to the customer service department, you ask if a rep with that particular ID number is authorized to be calling your number.</li>
      <li>The bank tells you that the rep is authorized, so you thank them and hang up.</li>
      <li>You then take the rep off hold and continue the conversation.</li>
    </ol>
    <p>In Server Dialback, the equivalent of the customer service representative is the ORIGINATING SERVER, i.e., the machine that wants to send a message to an entity at a destination domain and thus is attempting to establish a connection between the two servers. The equivalent of the person being called is the RECEIVING SERVER, i.e., the machine to which the originating server has opened a connection for the purpose of sending the message and thus is trying to authenticate that the Originating Server represents the domain which it claims to be. And the equivalent of the bank is the AUTHORITATIVE SERVER, i.e., the machine that answers to a DNS lookup for the domain asserted by the originating server (which is not necessarily the machine associated with the originating server); for basic environments this will be the Originating Server, but it could be a separate machine in the Originating Server's network (where "network" is defined by knowledge of a shared secret for verification of dialback keys).</p>
    <p>The basic flow of events in Server Dialback is as follows:</p>
    <ol start='1'>
      <li>The Originating Server performs a DNS lookup on the hostname of the Receiving Server, opens a TCP connection to the discovered IP address and port, and establishes an XML stream with the Receiving Server.</li>
      <li>The Originating Server generates a dialback key and sends that value over its XML stream with the Receiving Server.</li>
      <li>The Receiving Server does not immediately accept the connection but instead performs a DNS lookup on the hostname of the Authoritative Server, opens a TCP connection to the discovered IP address and port, and establishes an XML stream with the Authoritative Server.</li>
      <li>The Receiving Server sends the same dialback key over its XML stream with the Authoritative Server for verification.</li>
      <li>The Authoritative Server replies that key is valid or invalid.</li>
      <li>The Receiving Server informs the Originating Server whether its identify has been verified or not.</li>
    </ol>
    <p>We can represent this flow of events graphically as follows.</p>
    <code><![CDATA[
Originating               Receiving
  Server                    Server
-----------               ---------
    |                         |
    |   perform DNS lookup,   |
    |   open TCP connection,  |
    |   and establish stream  |
    | ----------------------> |
    |                         |                   Authoritative
    |   send dialback key     |                       Server
    | ----------------------> |                   -------------
    |                         |                         |
    |                         |   perform DNS lookup,   |
    |                         |   open TCP connection,  |
    |                         |   and establish stream  |
    |                         | ----------------------> |
    |                         |                         |
    |                         |   send verify request   |
    |                         | ----------------------> |
    |                         |                         |
    |                         |   send verify response  |
    |                         | <---------------------- |
    |                         |
    |  report dialback result |
    | <---------------------- |
    |                         |
    ]]></code>
    <p>Note: In Steps 1 and 3, it is not always necessary to open a new TCP connection and establish a new stream; for details, see the section on <link url='#piggybacking'>Reuse of Negotiated Connections (Piggybacking)</link>.</p>
  </section2>

</section1>

<section1 topic="Protocol" anchor="protocol">

  <p>This section describes the detailed protocol interaction between the Originating Server, the Receiving Server, and the Authoritative Server.</p>
  <p>The examples in this section use the following domain names, IP addresses, stream IDs, and shared secret:</p>
  <ul>
    <li>The Originating Server is "example.org" (there is no IP address associated with this domain since it is merely asserted by the Originating Server).</li>
    <li>The Receiving Server is "xmpp.example.com" and the discovered IP address for the XMPP service at that domain is "192.0.2.1" or "192.0.2.2" (see below).</li>
    <li>The Authoritative Server is "example.org" and the discovered IP address for the XMPP service at that domain is "192.0.2.23".</li>
    <li>The stream ID of the stream from the Originating Server to the Receiving Server is "D60000229F".</li>
    <li>The shared secret known by the Authoritative Server's network is "s3cr3tf0rd14lb4ck".</li>
  </ul>
  <p>To assist the reader, the following conventions are used to clarify the flow of packets:</p>
  <ul>
    <li>"O2R:" -- packets sent from the Originating Server to the Receiving Server.</li>
    <li>"R2O:" -- packets sent from the Receiving Server to the Originating Server.</li>
    <li>"R2A:" -- packets sent from the Receiving Server to the Authoritative Server.</li>
    <li>"A2R:" -- packets sent from the Authoritative Server to the Receiving Server.</li>
  </ul>
  <p>Note: Any error that occurs during dialback negotiation MUST be considered a stream error, resulting in termination of the stream and potentially of the underlying TCP connection. The possible error conditions are specified in the protocol description below.</p>
  <p>The flow of events is as follows.</p>

  <section2 topic='Stream Setup Between Originating Server and Receiving Server' anchor='o2r'>

    <section3 topic='Originating Server Resolves Receiving Server' anchor='o2r-resolve'>
      <p>Before opening a TCP connection to the Receiving Server, the Originating Server must first determine the appropriate IP address and port at which to connect. This is done by resolving the Receiving Server's hostname ("xmpp.example.com") using the Domain Name System. As described in <cite>XMPP Core</cite>, the Originating Server shall first attempt to resolve a TCP service of _xmpp-server for that hostname using DNS SRV records. Here we assume that example.com has the following records in its DNS configuration:</p>
      <example caption="DNS SRV Record for Receiving Server"><![CDATA[
_xmpp-server._tcp.xmpp.example.com. 86400 IN SRV 10 0 5269 x1.example.com
_xmpp-server._tcp.xmpp.example.com. 86400 IN SRV 20 0 9625 x2.example.com
      ]]></example>
      <p>These records show that server-to-server connections for the XMPP service "xmpp.example.com" are serviced by two machines: x1.example.com at port 5269 and x2.example.com at port 9625.</p>
      <p>The Originating Server would then choose one of these machines to resolve further. Here we assume that the Originating Server chooses x2.example.com and that a standard A lookup for x2.example.com yields an IP address of "192.0.2.2".</p>
      <p>Note: As described in <cite>XMPP Core</cite>, if the Receiving Server does not provide appropriate DNS SRV records then in order to resolve the hostname of the Receiving Server the Originating Server may fall back to normal IPv4/IPv6 address record resolution to determine the IP address and assume a port of 5269 as registered with the IANA.</p>
    </section3>

    <section3 topic='Originating Server Opens TCP Connection' anchor='o2r-connect'>
      <p>Once the Originating Server has resolved "xmpp.example.com" to an IP address of 192.0.2.2 and port of 9625, it opens a TCP connection to that IP and port.</p>
      <p>Note: Instead of opening a new TCP connection to the Receiving Server, the Originating Server MAY reuse an existing TCP connnection; for details, see the <link url='piggybacking'>Reuse of Negotiated Connections (Piggybacking)</link> section of this document.</p>
    </section3>

    <section3 topic='Originating Server Sends Initial Stream Header' anchor='o2r-sendinitial'>
      <p>Once the Originating Server has opened a TCP connection to the resolved IP address and port of the Receiving Server, it sends an initial stream header to the Receiving Server as described in <cite>XMPP Core</cite>.</p>
      <example caption="Initial Stream Header"><![CDATA[
O2R: <stream:stream
          xmlns='jabber:server'
          xmlns:db='jabber:server:dialback'
          xmlns:stream='http://etherx.jabber.org/streams'
          from='example.org'
          to='xmpp.example.com'
          version='1.0'>
      ]]></example>
      <p>In addition to the core XMPP rules regarding initial stream headers, the following dialback-related rules apply to the initial stream header:</p>
      <ol start='1'>
        <li>It MUST include a declaration for the Server Dialback namespace.</li>
        <li>The Server Dialback namespace MUST be 'jabber:server:dialback'.</li>
        <li>The prefix for the Server Dialback namespace SHOULD be 'db:'.</li>
      </ol>
      <p>Until the initial stream has been validated, the Originating Server MUST NOT send any further XML data to the Receiving Server over that stream.</p>
    </section3>

    <section3 topic='Receiving Server Processes Initial Stream Header' anchor='o2r-processinitial'>
      <p>When the Receiving Server receives the initial stream header from the Originating Server, it MUST proceed as follows.</p>
      <section4 topic='Success Case' anchor='o2r-processinitial-success'>
        <p>If the Receiving Server can successfully process the initial stream header, it MUST return a response stream header to the Originating Server over the same TCP connection.</p>
        <example caption="Response Stream Header"><![CDATA[
R2O: <stream:stream
         xmlns='jabber:server'
         xmlns:db='jabber:server:dialback'
         xmlns:stream='http://etherx.jabber.org/streams'
         from='xmpp.example.com'
         id='D60000229F'
         to='example.org'
         version='1.0'>
        ]]></example>
        <p>In addition to the core XMPP rules regarding response stream headers, the following dialback-related rules apply to the response stream header:</p>
        <ol start='1'>
          <li>If the initial stream header included a Server Dialback namespace declaration and the Receiving Server supports the Server Dialback protocol, the response stream header also MUST include a declaration for the Server Dialback namespace.</li>
          <li>If the initial stream header did not include a Server Dialback namespace declaration and the Receiving Server supports the Server Dialback protocol, the response stream header MAY include a Server Dialback namespace declaration.</li>
          <li>If the response stream header includes a Server Dialback namespace declaration, the Server Dialback namespace MUST be 'jabber:server:dialback' and the prefix for the Server Dialback namespace SHOULD be 'db:'.</li>
        </ol>
        <p>After sending the response stream header, the Receiving Server shall also send stream features to the Originating Server. The Receiving Server SHOULD include the dialback feature in its initial stream features advertisement, including an indication of whether Server Dialback negotiation is optional or required.</p>
        <example caption="Stream Features"><![CDATA[
R2O: <stream:features>
       <dialback xmlns='urn:xmpp:features:dialback'>
         <required/>
       </dialback>
     </stream:features>
        ]]></example>
        <p>Note: If the Receiving Server receives any XML stanzas from the Originating Server before the initial stream has been validated, the Receiving Server MUST silently drop those stanzas.</p>
      </section4>
      <section4 topic='Error Cases' anchor='o2r-processinitial-error'>
        <p>There are several reasons why processing of the initial stream header might fail:</p>
        <ol start='1'>
          <li>The Server Dialback namespace name provided by the Originating Server is incorrect.</li>
          <li>The Server Dialback namespace prefix provided by the Originating Server is not supported by the Receiving Server (note: an implementation MAY accept only the 'db:' namespace prefix).</li>
          <li>The value of the 'to' address provided by the Originating Server does not match a hostname serviced by the Receiving Server.</li>
          <li>The Receiving Server does not accept communication with the hostname of the 'from' address provided by the Originating Server.</li>
        </ol>
        <p>These error cases are described more fully in the rest of this section.</p>
        <p>If the Server Dialback namespace name is incorrect, then the Receiving Server SHOULD generate an &lt;invalid-namespace/&gt; stream error condition and terminate both the XML stream and the underlying TCP connection.</p>
        <example caption="Invalid Namespace"><![CDATA[
R2O: <stream:error>
       <invalid-namespace
           xmlns='urn:ietf:params:xml:ns:xmpp-streams'/>
     </stream:error>

R2O: </stream:stream>
        ]]></example>
        <p>If the Server Dialback namespace prefix is not supported by the Receiving Server, then the Receiving Server SHOULD generate a &lt;bad-namespace-prefix/&gt; stream error condition and terminate both the XML stream and the underlying TCP connection.</p>
        <example caption="Bad Namespace Prefix"><![CDATA[
R2O: <stream:error>
       <bad-namespace-prefix
           xmlns='urn:ietf:params:xml:ns:xmpp-streams'/>
     </stream:error>

R2O: </stream:stream>
        ]]></example>
        <p>If the value of the 'to' address provided by the Originating Server does not match a hostname serviced by the Receiving Server, then the Receiving Server SHOULD generate a &lt;host-unknown/&gt; or &lt;host-gone/&gt; stream error condition (as appropriate) and terminate both the XML stream and the underlying TCP connection.</p>
        <example caption="Host Unknown"><![CDATA[
R2O: <stream:error>
       <host-unknown
           xmlns='urn:ietf:params:xml:ns:xmpp-streams'/>
     </stream:error>

R2O: </stream:stream>
        ]]></example>
        <p>If the Receiving Server does not allow communication with the hostname of the 'from' address provided by the Originating Server, then the Receiving Server SHOULD generate a &lt;not-authorized/&gt; stream error condition and terminate both the XML stream and the underlying TCP connection.</p>
        <example caption="Not Authorized"><![CDATA[
R2O: <stream:error>
       <not-authorized
           xmlns='urn:ietf:params:xml:ns:xmpp-streams'/>
     </stream:error>

R2O: </stream:stream>
        ]]></example>
        <p>Note: The foregoing error flows specify that the Receiving Server SHOULD return a stream error. However, depending on local security policies, the Receiving Server MAY silently terminate the XML stream and underlying TCP connection instead of returning a stream error (e.g., to prevent certain denial of service attacks).</p>
      </section4>
    </section3>

    <section3 topic='Originating Server Processes Response Stream Header' anchor='o2r-processresponse'>

      <p>When the Originating Server receives the response stream header from the Receiving Server, it MUST proceed as follows.</p>

      <section4 topic='Success Case' anchor='o2r-processresponse-success'>
        <p>If the response stream header can be successfully processed, the Originating Server MUST generate and send a dialback key as described under <link url='key'>Generation and Exchange of Dialback Key</link>.</p>
      </section4>

      <section4 topic='Error Cases' anchor='o2r-response-error'>
        <p>There are several reasons why processing of the response stream header and stream features might fail:</p>
        <ol start='1'>
          <li>The Server Dialback namespace name provided by the Receiving Server is incorrect.</li>
          <li>The Server Dialback namespace prefix provided by the Receiving Server is not supported by the Originating Server (note: an implementation MAY accept only the 'db:' namespace prefix).</li>
          <li>The value of the 'to' address provided by the Receiving Server does not match a hostname serviced by the Originating Server.</li>
          <li>The Originating Server does not accept communication with the hostname of the 'from' address provided by the Receiving Server.</li>
          <li>The Receiving Server does not advertise support for Server Dialback via a Server Dialback namespace declaration or stream feature.</li>
        </ol>
        <p>These error cases are described more fully in the rest of this section.</p>
        <p>If the Server Dialback namespace name is incorrect, then the Originating Server SHOULD generate an &lt;invalid-namespace/&gt; stream error condition and terminate both the XML stream and the underlying TCP connection.</p>
        <example caption="Invalid Namespace"><![CDATA[
O2R: <stream:error>
       <invalid-namespace
           xmlns='urn:ietf:params:xml:ns:xmpp-streams'/>
     </stream:error>

O2R: </stream:stream>
        ]]></example>
        <p>If the Server Dialback namespace prefix is not supported by the Originating Server, then the Originating Server SHOULD generate a &lt;bad-namespace-prefix/&gt; stream error condition and terminate both the XML stream and the underlying TCP connection.</p>
        <example caption="Bad Namespace Prefix"><![CDATA[
O2R: <stream:error>
       <bad-namespace-prefix
           xmlns='urn:ietf:params:xml:ns:xmpp-streams'/>
     </stream:error>

O2R: </stream:stream>
        ]]></example>
        <p>If the value of the 'to' address provided by the Receiving Server does not match a hostname serviced by the Originating Server, then the Originating Server SHOULD generate a &lt;host-unknown/&gt; or &lt;host-gone/&gt; stream error condition (as appropriate) and terminate both the XML stream and the underlying TCP connection.</p>
        <example caption="Host Unknown"><![CDATA[
O2R: <stream:error>
       <host-unknown
           xmlns='urn:ietf:params:xml:ns:xmpp-streams'/>
     </stream:error>

O2R: </stream:stream>
        ]]></example>
        <p>If the Originating Server does not allow communication with the hostname of the 'from' address provided by the Receiving Server, then the Originating Server SHOULD generate a &lt;not-authorized/&gt; stream error condition and terminate both the XML stream and the underlying TCP connection.</p>
        <example caption="Not Authorized"><![CDATA[
O2R: <stream:error>
       <not-authorized
           xmlns='urn:ietf:params:xml:ns:xmpp-streams'/>
     </stream:error>

O2R: </stream:stream>
        ]]></example>
        <p>Note: The foregoing error flows specify that the Originating Server SHOULD return a stream error. However, depending on local security policies, the Originating Server MAY silently terminate the XML stream and underlying TCP connection instead of returning a stream error (e.g., to prevent certain denial of service attacks).</p>
        <p>If the Receiving Server does not advertise support for Server Dialback via a Server Dialback namespace declaration or stream feature, then the Originating Server's attempt to negotiate Server Dialback fails and the Originating Server SHOULD return a &timeout; stanza error to the local entity that generated the stanza that triggered the Server Dialback attempt in the first place (if any).</p>
      </section4>

    </section3>

  </section2>

  <section2 topic='Generation and Exchange of Dialback Key' anchor='key'>

    <section3 topic='Originating Server Generates Dialback Key' anchor='key-gen'>
      <p>Once the Originating Server has established an XML stream with the Receiving Server, it MUST generate a dialback key for verification by the Authoritative Server.</p>
      <p>The method for generating (and verifying) the keys used in Server Dialback MUST take into account the following pieces of information:</p>
      <ul>
        <li>the hostname of the Originating Server</li>
        <li>the hostname of the Receiving Server</li>
        <li>the Stream ID</li>
        <li>a shared secret known by the Authoritative Server's network</li>
      </ul>
      <p>The stream ID is security-critical in Server Dialback and therefore MUST be both unpredictable and non-repeating (see &rfc4086; for recommendations regarding randomness for security purposes).</p>
      <p>It is RECOMMENDED for the dialback key to be the hexadecimal representation of a Keyed-Hash Message Authentication Code (see &nistfips198a;) generated using the SHA256 hashing algorithm (see &nistfips180-2;), as follows.</p>
      <example caption="HMAC"><![CDATA[
HMAC-SHA256
( 
  SHA256(secret), 
  {Receiving Server, ' ', Originating Server, ' ', Stream ID} 
)
      ]]></example>
      <p>The shared secret SHOULD either be set up in a configuration option for each host or process within the Authoritative Server's network or generated as a random string when starting each host or process. The secret's length SHOULD be at least 128 bits or 16 characters long.</p>
      <p>Consider the following scenario:</p>
      <ul>
        <li>The Originating Server is "example.org"</li>
        <li>The Receiving Server is "xmpp.example.com"</li>
        <li>The Stream ID is "D60000229F"</li>
        <li>The secret is "s3cr3tf0rd14lb4ck"</li>
      </ul>
      <p>The resulting dialback key would be:</p>
      <example caption="A Key"><![CDATA[
HMAC-SHA256
( 
  SHA256(secret), 
  {Receiving Server, ' ', Originating Server, ' ', Stream ID} 
)

that is,

HMAC-SHA256
(SHA256('s3cr3tf0rd14lb4ck'),
{'xmpp.example.net',' ','example.org',' ','D60000229F'})

that is,

HMAC-SHA256
('a7136eb1f46c9ef18c5e78c36ca257067c69b3d518285f0b18a96c33beae9acc',
{'xmpp.example.com chat.example.org D60000229F'})

that is,

37c69b1cf07a3f67c04a5ef5902fa5114f2c76fe4a2686482ba5b89323075643
      ]]></example>
    </section3>

    <section3 topic='Originating Server Sends Dialback Key' anchor='key-send'>
      <p>Once the Originating Server has processed the response stream header from the Receiving Server and has generated a dialback key for verification by the Receiving Server, it MUST then send that key to the Receiving Server. This is done by creating a &lt;db:result/&gt; element whose XML character data is the dialback key; the element MUST possess a 'from' attribute whose value is the hostname of the Originating Server and MUST possess a 'to' attribute whose value is the hostname of the Receiving Server.</p>
      <p>Note: All XML elements qualified by the Server Dialback namespace MUST be prefixed with the namespace prefix advertised on the stream header originally sent by the entity sending the element.</p>
      <example caption="Originating Server Sends Dialback Key"><![CDATA[
O2R: <db:result
         from='example.org'
         to='xmpp.example.com'>
       37c69b1cf07a3f67c04a5ef5902fa5114f2c76fe4a2686482ba5b89323075643
     </db:result>
      ]]></example>
    </section3>

    <section3 topic='Receiving Server Processes Dialback Key' anchor='key-process'>
      <p>When the Receiving Server receives the dialback key, it MUST proceed as follows.</p>
      <p>If the Server Dialback namespace prefix is not supported by the Originating Server, then the Originating Server SHOULD generate a &lt;bad-namespace-prefix/&gt; stream error condition and terminate both the XML stream and the underlying TCP connection.</p>
      <example caption="Bad Namespace Prefix"><![CDATA[
O2R: <stream:error>
       <bad-namespace-prefix
           xmlns='urn:ietf:params:xml:ns:xmpp-streams'/>
     </stream:error>

O2R: </stream:stream>
      ]]></example>
      <p>If the value of the 'to' address provided by the Originating Server does not match a hostname serviced by the Receiving Server, then the Receiving Server SHOULD generate a &lt;host-unknown/&gt; or &lt;host-gone/&gt; stream error condition (as appropriate) and terminate both the XML stream and the underlying TCP connection.</p>
      <example caption="Host Unknown"><![CDATA[
O2R: <stream:error>
       <host-unknown
           xmlns='urn:ietf:params:xml:ns:xmpp-streams'/>
     </stream:error>

O2R: </stream:stream>
      ]]></example>
      <p>If the Originating Server does not allow communication with the hostname of the 'from' address provided by the Receiving Server, then the Originating Server SHOULD generate a &lt;not-authorized/&gt; stream error condition and terminate both the XML stream and the underlying TCP connection.</p>
      <example caption="Not Authorized"><![CDATA[
O2R: <stream:error>
       <not-authorized
           xmlns='urn:ietf:params:xml:ns:xmpp-streams'/>
     </stream:error>

O2R: </stream:stream>
      ]]></example>
      <p>Otherwise, the Receiving Server MUST attempt to open a connection to the Authoritative Server and then ask the Authoritative Server to validate the key provided by the Originating Server, as described in the following sections.</p>
      <p>Note: The dialback key is not examined by the Receiving Server, since the key is validated by the Authoritative Server.</p>
    </section3>

  </section2>

  <section2 topic='Stream Setup Between Receiving Server and Authoritative Server' anchor='r2a'>

    <section3 topic='Receiving Server Resolves Authoritative Server' anchor='r2a-resolve'>
      <p>Before opening a TCP connection to the Authoritative Server, the Receiving Server must first determine the appropriate IP address and port at which to connect. This is done by resolving the Authoritative Server's hostname ("example.org") using the Domain Name System. As described in <cite>XMPP Core</cite>, the Receiving Server shall first attempt to resolve a TCP service of _xmpp-server for that hostname using DNS SRV records. Here we assume that example.org has the following records in its DNS configuration:</p>
      <example caption="DNS SRV Record for Authoritative Server"><![CDATA[
_xmpp-server._tcp.example.org. 86400 IN SRV 10 0 5269 foo.example.org
      ]]></example>
      <p>These records show that server-to-server connections for the XMPP service "example.org" are serviced by the physical machine foo.example.org at port 5269.</p>
      <p>The Receiving Server would then resolve that machine to an IP address, in this case "192.0.2.23".</p>
      <p>Note: As described in <cite>XMPP Core</cite>, if the Authoritative Server does not provide appropriate DNS SRV records then in order to resolve the hostname of the Authoritative Server the Receiving Server may fall back to normal IPv4/IPv6 address record resolution to determine the IP address and assume a port of 5269 as registered with the IANA.</p>
    </section3>

    <section3 topic='Receiving Server Opens TCP Connection' anchor='r2a-connect'>
      <p>Once the Receiving Server has resolved "example.org" to an IP address of 192.0.2.23 and port of 5269, it opens a TCP connection to that IP and port.</p>
      <p>Note: Instead of opening a new TCP connection to the Authoritative Server, the Receiving Server MAY reuse an existing TCP connnection; for details, see the <link url='piggybacking'>Reuse of Negotiated Connections (Piggybacking)</link> section of this document.</p>
    </section3>

    <section3 topic='Receiving Server Sends Initial Stream Header' anchor='r2a-sendinitial'>
      <p>Once the Receiving Server has opened a TCP connection to the resolved IP address and port of the Authoritative Server, it sends an initial stream header to the Authoritative Server as described in <cite>XMPP Core</cite>.</p>
      <example caption="Initial Stream Header"><![CDATA[
R2A: <stream:stream
          xmlns='jabber:server'
          xmlns:db='jabber:server:dialback'
          xmlns:stream='http://etherx.jabber.org/streams'
          from='xmpp.example.com'
          to='example.org'
          version='1.0'>
      ]]></example>
      <p>In addition to the core XMPP rules regarding initial stream headers, the following dialback-related rules apply to the initial stream header:</p>
      <ol start='1'>
        <li>It MUST include a declaration for the Server Dialback namespace.</li>
        <li>The Server Dialback namespace MUST be 'jabber:server:dialback'.</li>
        <li>The prefix for the Server Dialback namespace SHOULD be 'db:'.</li>
      </ol>
      <p>Note: An implementation MAY accept only the 'db:' namespace prefix.</p>
    </section3>

    <section3 topic='Authoritative Server Processes Initial Stream Header' anchor='r2a-processinitial'>
      <p>When the Authoritative Server receives the initial stream header from the Receiving Server, it MUST proceed as follows.</p>
      <section4 topic='Success Case' anchor='r2a-processinitial-success'>
        <p>If the Authoritative Server can successfully process the initial stream header, it MUST return a response stream header to the Receiving Server over the same TCP connection.</p>
        <example caption="Response Stream Header"><![CDATA[
A2R: <stream:stream
         xmlns='jabber:server'
         xmlns:db='jabber:server:dialback'
         xmlns:stream='http://etherx.jabber.org/streams'
         from='example.org'
         id='D60000229F'
         to='xmpp.example.com'
         version='1.0'>
        ]]></example>
        <p>In addition to the core XMPP rules regarding response stream headers, the following dialback-related rules apply to the response stream header:</p>
        <ol start='1'>
          <li>If the initial stream header included a Server Dialback namespace declaration and the Authoritative Server supports the Server Dialback protocol, the response stream header also MUST include a declaration for the Server Dialback namespace.</li>
          <li>If the initial stream header did not include a Server Dialback namespace declaration and the Authoritative Server supports the Server Dialback protocol, the response stream header MAY include a Server Dialback namespace declaration.</li>
          <li>If the response stream header includes a Server Dialback namespace declaration, the Server Dialback namespace MUST be 'jabber:server:dialback' and the prefix for the Server Dialback namespace SHOULD be 'db:'.</li>
        </ol>
        <p>After sending the response stream header, the Authoritative Server shall also send stream features to the Receiving Server. The Authoritative Server SHOULD include the dialback feature in its initial stream features advertisement, including an indication of whether Server Dialback negotiation is optional or required.</p>
        <example caption="Stream Features"><![CDATA[
A2R: <stream:features>
       <dialback xmlns='urn:xmpp:features:dialback'>
         <optional/>
       </dialback>
     </stream:features>
        ]]></example>
      </section4>
      <section4 topic='Error Cases' anchor='r2a-processinitial-error'>
        <p>There are several reasons why processing of the initial stream header might fail:</p>
        <ol start='1'>
          <li>The Server Dialback namespace name provided by the Receiving Server is incorrect.</li>
          <li>The Server Dialback namespace prefix provided by the Receiving Server is not supported by the Authoritative Server (note: an implementation MAY accept only the 'db:' namespace prefix).</li>
          <li>The value of the 'to' address provided by the Receiving Server does not match a hostname serviced by the Authoritative Server.</li>
          <li>The Authoritative Server does not accept communication with the hostname of the 'from' address provided by the Receiving Server.</li>
        </ol>
        <p>These error cases are described more fully in the remainder of this section.</p>
        <p>If the Server Dialback namespace name is incorrect, then the Authoritative Server SHOULD generate an &lt;invalid-namespace/&gt; stream error condition and terminate both the XML stream and the underlying TCP connection.</p>
        <example caption="Invalid Namespace"><![CDATA[
A2R: <stream:error>
       <invalid-namespace
           xmlns='urn:ietf:params:xml:ns:xmpp-streams'/>
     </stream:error>

A2R: </stream:stream>
        ]]></example>
        <p>If the Server Dialback namespace prefix is not supported by the Authoritative Server, then the Authoritative Server SHOULD generate a &lt;bad-namespace-prefix/&gt; stream error condition and terminate both the XML stream and the underlying TCP connection.</p>
        <example caption="Bad Namespace Prefix"><![CDATA[
A2R: <stream:error>
       <bad-namespace-prefix
           xmlns='urn:ietf:params:xml:ns:xmpp-streams'/>
     </stream:error>

A2R: </stream:stream>
        ]]></example>
        <p>If the value of the 'to' address provided by the Receiving Server does not match a hostname serviced by the Authoritative Server, then the Authoritative Server SHOULD generate a &lt;host-unknown/&gt; or &lt;host-gone/&gt; stream error condition (as appropriate) and terminate both the XML stream and the underlying TCP connection.</p>
        <example caption="Host Unknown"><![CDATA[
A2R: <stream:error>
       <host-unknown
           xmlns='urn:ietf:params:xml:ns:xmpp-streams'/>
     </stream:error>

A2R: </stream:stream>
        ]]></example>
        <p>If the Authoritative Server does not allow communication with the hostname of the 'from' address provided by the Receiving Server, then the Authoritative Server SHOULD generate a &lt;not-authorized/&gt; stream error condition and terminate both the XML stream and the underlying TCP connection.</p>
        <example caption="Not Authorized"><![CDATA[
A2R: <stream:error>
       <not-authorized
           xmlns='urn:ietf:params:xml:ns:xmpp-streams'/>
     </stream:error>

A2R: </stream:stream>
        ]]></example>
        <p>Note: The foregoing error flows specify that the Authoritative Server SHOULD return a stream error. However, depending on local security policies, the Authoritative Server MAY silently terminate the XML stream and underlying TCP connection instead of returning a stream error (e.g., to prevent certain denial of service attacks).</p>
      </section4>
    </section3>

    <section3 topic='Receiving Server Processes Response Stream Header' anchor='r2a-processresponse'>

      <p>When the Receiving Server receives the response stream header from the Authoritative Server, it MUST proceed as follows.</p>

      <section4 topic='Success Case' anchor='r2a-processresponse-success'>
        <p>If the response stream header can be successfully processed, the Receiving Server MUST send the dialback key it received from the Originating Server as described under <link url='verify'>Exchange of Verification Request between Receiving Server and Authoritative Server</link>.</p>
      </section4>

      <section4 topic='Error Cases' anchor='r2a-response-error'>
        <p>There are several reasons why processing of the response stream header and stream features might fail:</p>
        <ol start='1'>
          <li>The Server Dialback namespace name provided by the Authoritative Server is incorrect.</li>
          <li>The Server Dialback namespace prefix provided by the Authoritative Server is not supported by the Receiving Server (note: an implementation MAY accept only the 'db:' namespace prefix).</li>
          <li>The value of the 'to' address provided by the Authoritative Server does not match a hostname serviced by the Receiving Server.</li>
          <li>The Receiving Server does not accept communication with the hostname of the 'from' address provided by the Authoritative Server.</li>
          <li>The Authoritative Server does not advertise support for Server Dialback via a Server Dialback namespace declaration or stream feature.</li>
        </ol>
        <p>These error cases are described more fully in the remainder of this section.</p>
        <p>If the Server Dialback namespace name is incorrect, then the Receiving Server SHOULD generate an &lt;invalid-namespace/&gt; stream error condition and terminate both the XML stream and the underlying TCP connection.</p>
        <example caption="Invalid Namespace"><![CDATA[
R2A: <stream:error>
       <invalid-namespace
           xmlns='urn:ietf:params:xml:ns:xmpp-streams'/>
     </stream:error>

R2A: </stream:stream>
        ]]></example>
        <p>If the Server Dialback namespace prefix is not supported by the Receiving Server, then the Receiving Server SHOULD generate a &lt;bad-namespace-prefix/&gt; stream error condition and terminate both the XML stream and the underlying TCP connection.</p>
        <example caption="Bad Namespace Prefix"><![CDATA[
R2A: <stream:error>
       <bad-namespace-prefix
           xmlns='urn:ietf:params:xml:ns:xmpp-streams'/>
     </stream:error>

R2A: </stream:stream>
        ]]></example>
        <p>If the value of the 'to' address provided by the Authoritative Server does not match a hostname serviced by the Receiving Server, then the Receiving Server SHOULD generate a &lt;host-unknown/&gt; or &lt;host-gone/&gt; stream error condition (as appropriate) and terminate both the XML stream and the underlying TCP connection.</p>
        <example caption="Host Unknown"><![CDATA[
R2A: <stream:error>
       <host-unknown
           xmlns='urn:ietf:params:xml:ns:xmpp-streams'/>
     </stream:error>

R2A: </stream:stream>
        ]]></example>
        <p>If the Receiving Server does not allow communication with the hostname of the 'from' address provided by the Authoritative Server, then the Receiving Server SHOULD generate a &lt;not-authorized/&gt; stream error condition and terminate both the XML stream and the underlying TCP connection.</p>
        <example caption="Not Authorized"><![CDATA[
R2A: <stream:error>
       <not-authorized
           xmlns='urn:ietf:params:xml:ns:xmpp-streams'/>
     </stream:error>

R2A: </stream:stream>
        ]]></example>
        <p>Note: The foregoing error flows specify that the Receiving Server SHOULD return a stream error. However, depending on local security policies, the Receiving Server MAY silently terminate the XML stream and underlying TCP connection instead of returning a stream error (e.g., to prevent certain denial of service attacks).</p>
        <p>If the Authoritative Server does not advertise support for Server Dialback via a Server Dialback namespace declaration or stream feature, then the Receiving Server's attempt to request verification of the Originating Server's dialback key fails and the Receiving Server MUST return a &remoteconnection; stream error to the Originating Server.</p>
      </section4>

    </section3>

  </section2>

  <section2 topic='Exchange of Verification Request' anchor='verify'>
    <section3 topic='Receiving Server Sends Verification Request' anchor='verify-send'>
      <p>Once the Receiving Server has established an XML stream with the Authoritative Server, it MUST send to the Authoritative Server the dialback key it received from the Originating Server. This is done by creating a &lt;db:verify/&gt; element whose XML character data is the dialback key; the element MUST possess a 'from' attribute whose value is the hostname of the Receiving Server, MUST possess a 'to' attribute whose value is the hostname of the Originating Server, and MUST possess an 'id' attribute whose value is the stream identifier from the Receiving Server's response stream header to the Originating Server.</p>
      <p>Note: All XML elements qualified by the Server Dialback namespace MUST be prefixed with the namespace prefix advertised on the stream header originally sent by the entity sending the element.</p>
      <example caption="Receiving Server Sends Verification Request"><![CDATA[
R2A: <db:verify
         from='xmpp.example.com'
         id='D60000229F'
         to='example.org'>
       37c69b1cf07a3f67c04a5ef5902fa5114f2c76fe4a2686482ba5b89323075643
     </db:verify>
      ]]></example>
    </section3>

    <section3 topic='Authoritative Server Processes Verification Request' anchor='verify-process'>

      <section4 topic='Success Case' anchor='verify-process-success'>
        <p>If the verification request can be successfully processed, the Authoritative Server MUST validate the dialback key it received from the Receiving Server as described under <link url='validate'>Validation of Dialback Key by Authoritative Server</link>.</p>
      </section4>

      <section4 topic='Error Cases' anchor='verify-process-error'>
        <p>There are several reasons why processing of the verification request might fail:</p>
        <ol start='1'>
          <li>The value of the 'to' address provided by the Receiving Server does not match a hostname serviced by the Authoritative Server's network.</li>
          <li>The value of the 'from' address provided by the Receiving Server does not match the hostname sent by the Receiving Server in the 'from' address of the initial stream header it sent to the Authoritative Server.</li>
        </ol>
        <p>These error cases are described more fully in the remainder of this section.</p>
        <p>If the value of the 'to' address provided by the Receiving Server does not match a hostname serviced by the Authoritative Server's network, then the Authoritative Server MUST generate a &lt;host-unknown/&gt; or &lt;host-gone/&gt; stream error condition (as appropriate) and terminate both the XML stream and the underlying TCP connection.</p>
        <example caption="Host Unknown"><![CDATA[
R2A: <stream:error>
       <host-unknown
           xmlns='urn:ietf:params:xml:ns:xmpp-streams'/>
     </stream:error>

R2A: </stream:stream>
        ]]></example>
        <p>If the value of the 'from' address provided by the Receiving Server does not match the hostname sent by the Receiving Server in the 'from' address of the initial stream header it sent to the Authoritative Server, then the Authoritative Server MUST generate an &lt;invalid-from/&gt; stream error condition and terminate both the XML stream and the underlying TCP connection.</p>
        <example caption="Invalid From"><![CDATA[
R2A: <stream:error>
       <invalid-from
           xmlns='urn:ietf:params:xml:ns:xmpp-streams'/>
     </stream:error>

R2A: </stream:stream>
        ]]></example>
      </section4>

    </section3>

  </section2>

  <section2 topic='Validation of Dialback Key and Exchange of Validation Result' anchor='validate'>

    <section3 topic='Authoritative Server Determines Validity of Dialback Key' anchor='validate-determine'>
      <p>If the Authoritative Server can successfully process the verification request, it MUST determine whether the key is valid or invalid.</p>
    <p>The key shall be considered <em>valid</em> if the Authoritative Server determines that the key matches the output it would have produced using its key generation algorithm with the inputs specified in the XML attributes of the verification request along with its shared secret.</p>
      <p>The key shall be considered <em>invalid</em> if the Authoritative Server determines that the key does not match the output it would have produced using its key generation algorithm with the inputs specified in the XML attributes of the verification request along with its shared secret.</p>
    </section3>

    <section3 topic='Authoritative Server Sends Validation Result' anchor='validate-send'>
      <p>Once the Authoritative Server determines whether the key is valid or invalid, it MUST inform the Receiving Server of its determination. This is done by creating a &lt;db:verify/&gt; element whose XML character data is the dialback key; the element MUST possess a 'from' attribute whose value is the hostname of the Originating Server, MUST possess a 'to' attribute whose value is the hostname of the Receiving Server, MUST possess an 'id' attribute whose value is the stream identifier from the Receiving Server's response stream header to the Originating Server as communicated in the verification request, and MUST possess a 'type' attribute whose value is either "valid" or "invalid".</p>
      <example caption="Key is Valid"><![CDATA[
A2R: <db:verify
         from='example.org'
         id='D60000229F'
         to='xmpp.example.com'
         type='valid'>
       37c69b1cf07a3f67c04a5ef5902fa5114f2c76fe4a2686482ba5b89323075643
     </db:verify>
      ]]></example>
      <p>Or:</p>
      <example caption="Key is Invalid"><![CDATA[
A2R: <db:verify
         from='example.org'
         id='D60000229F'
         to='xmpp.example.com'
         type='invalid'>
       37c69b1cf07a3f67c04a5ef5902fa5114f2c76fe4a2686482ba5b89323075643
     </db:verify>
      ]]></example>
    </section3>

    <section3 topic='Receiving Server Processes Validation Result' anchor='validate-process'>

      <section4 topic='Success Case' anchor='validate-process-success'>
        <p>If the validation result can be successfully processed, the Receiving Server MUST inform the Originating Server of the Server Dialback results described under <link url='result'>Communication of Result from Receiving Server to Originating Server</link>. The Receiving Server then SHOULD also terminate the XML stream and the underlying TCP connection between the Receiving Server and the Authoritative Server.</p>
      </section4>

      <section4 topic='Error Cases' anchor='validate-process-error'>
        <p>There are several reasons why processing of the validation result might fail:</p>
        <ol start='1'>
          <li>The value of the 'id' attribute does not match that provided by the Receiving Server in the verification request.</li>
          <li>The value of the 'from' address does not match the hostname represented by the Originating Server in the 'from' address of the initial stream header it sent to the Receiving Server.</li>
          <li>The value of the 'to' address does not match a hostname serviced by the Receiving Server.</li>
        </ol>
        <p>These error cases are described more fully in the remainder of this section.</p>
        <p>If the value of the 'id' attribute does not match that provided by the Receiving Server in the verification request, then the Receiving Server MUST generate an &lt;invalid-id/&gt; stream error condition and terminate both the XML stream and the underlying TCP connection between it and the Authoritative Server.</p>
        <example caption="Invalid ID"><![CDATA[
R2A: <stream:error>
       <invalid-id
           xmlns='urn:ietf:params:xml:ns:xmpp-streams'/>
     </stream:error>

R2A: </stream:stream>
        ]]></example>
        <p>The value of the 'from' address does not match the hostname represented by the Originating Server in the 'from' address of the initial stream header it sent to the Receiving Server, then the Receiving Server MUST generate an &lt;invalid-from/&gt; stream error condition and terminate both the XML stream and the underlying TCP connection.</p>
        <example caption="Invalid From"><![CDATA[
R2A: <stream:error>
       <invalid-from
           xmlns='urn:ietf:params:xml:ns:xmpp-streams'/>
     </stream:error>

R2A: </stream:stream>
        ]]></example>
        <p>If the value of the 'to' address does not match a hostname serviced by the Receiving Server, then the Receiving Server MUST generate a &lt;host-unknown/&gt; or &lt;host-gone/&gt; stream error condition (as appropriate) and terminate both the XML stream and the underlying TCP connection.</p>
        <example caption="Host Unknown"><![CDATA[
R2A: <stream:error>
       <host-unknown
           xmlns='urn:ietf:params:xml:ns:xmpp-streams'/>
     </stream:error>

R2A: </stream:stream>
        ]]></example>
      </section4>

    </section3>

  </section2>

  <section2 topic='Communication and Handling of Verification Result' anchor='result'>

    <section3 topic='Receiving Server Communicates Verification Result' anchor='result-communicate'>
      <p>Once the Receiving Server successfully processes the validation result it received from the Authoritative Server, it informs the Originating Server of the result. This is done by creating a &lt;db:result/&gt; element whose XML character data is the dialback key; the element MUST possess a 'from' attribute whose value is the hostname of the Receiving Server, MUST possess a 'to' attribute whose value is the hostname of the Originating Server, MUST possess an 'id' attribute whose value is the stream identifier from the Receiving Server's response stream header to the Originating Server, and MUST possess a 'type' attribute whose value is either "valid" or "invalid".</p>
      <example caption="Receiving Server Sends Verification Result"><![CDATA[
R2O: <db:result
         from='xmpp.example.com'
         to='example.org'
         type='valid'>
       37c69b1cf07a3f67c04a5ef5902fa5114f2c76fe4a2686482ba5b89323075643
     </db:result>
      ]]></example>
    </section3>

    <section3 topic='Receiving Server Handles Verification Result' anchor='result-handle'>

      <section4 topic='Invalid Connection' anchor='result-handle-invalid'>
        <p>If the Authoritative Server reported the dialback key as invalid, then the Receiving Server MUST terminate both the XML stream and the underlying TCP connection between itself and the Originating Server.</p>
      </section4>

      <section4 topic='Valid Connection' anchor='result-handle-valid'>
        <p>If the Authoritative Server reported the dialback key as valid, the Receiving Server has verified the identity of the Originating Server. As a result, the Receiving Server may now accept XML stanzas from the Originating Server over the validated connection (i.e., over the "initial stream" from the Originating Server to the Receiving Server). However, in accordance with <cite>XMPP Core</cite>, the Receiving Server MUST follow the rules specified therein regarding inclusion and checking of 'from' and 'to' attributes on all XML stanzas it receives from the Originating Server. These checks help to prevent address spoofing.</p>
        <p>Note: If the Receiving Server receives any XML stanzas from the Originating Server before the initial stream has been validated, the Receiving Server MUST silently drop those stanzas.</p>
        <p>As mentioned, Server Dialback results in weak identity verification in one direction only (in the foregoing text, verification of the Originating Server by the Receiving Server). In order to proceed with bi-directional communication so that the Receiving Server may send XML stanzas to the Originating Server, the Receiving Server MUST now also initiate a dialback negotiation with the Originating Server (i.e., assume the role of an originating server in a new dialback negotiation).</p>
      </section4>

    </section3>

  </section2>

</section1>

<section1 topic="Reuse of Negotiated Connections (Piggybacking)" anchor="piggybacking">
  <p>After the Receiving Server has validated a connection from the Originating Server, the Originating Server may wish to reuse that connection for validation of additional domains. This feature is called PIGGYBACKING. Support for piggybacking is OPTIONAL.</p>
  <p>One common motivation for such reuse is the existence of additional services associated with the Originating Server but hosted at subdomains of the Originating Server (the use of subdomains helps to ensure proper routing of XML stanzas to the hosted services). For example, the "example.org" XMPP server may host a groupchat service at "chat.example.org". In order to accept XML stanzas from rooms at "chat.example.org" intended for addresses at "xmpp.example.com", the "xmpp.example.com" domain will need to validate the "chat.example.org" domain (just as it already did for the "example.org" domain). Thus the "example.org" server would now initiate a dialback negotiation with "xmpp.example.com" but specify the Originating Server as "chat.example.org".</p>
  <p>However, because the "example.org" server already has a validated connection open to the Receiving Server ("xmpp.example.com"), it MAY send a &lt;db:result/&gt; element with the key to be validated for the new Originating Server ("chat.example.org") over the XML stream that has already been negotiated, rather than opening a new TCP connection and XML stream.</p>
  <example caption="Piggybacked Key"><![CDATA[
O2R: <db:result
         from='chat.example.org'
         to='xmpp.example.com'>
       88a96894060d5f4258c37cd51b772e5a483430d8203f71d3782cac72a0866458
     </db:result>
  ]]></example>
  <p>The Receiving Server SHOULD accept this &lt;db:result/&gt; element (as it did for the first &lt;db:result/&gt; element) and process it according to the rules already specified. If that process is successful, it would eventually result in sending of a &lt;db:result/&gt; element from the Receiving Server to the Originating Server.</p>
  <example caption="Piggybacked Result"><![CDATA[
R2O: <db:result
         from='xmpp.example.com'
         to='chat.example.org'
         type='valid'>
       88a96894060d5f4258c37cd51b772e5a483430d8203f71d3782cac72a0866458
     </db:result>
  ]]></example>
  <p>However, if the Receiving Server does not allow reuse of the existing connection, it MUST return an error of the following form to the Originating Server.</p>
  <example caption="Piggybacking Not Supported"><![CDATA[
R2O: <db:result
         from='xmpp.example.com'
         to='chat.example.org'
         type='error'>
       88a96894060d5f4258c37cd51b772e5a483430d8203f71d3782cac72a0866458
     </db:result>
  ]]></example>
  <p>Note: a &lt;db:result/&gt; element of type "error" MUST NOT be considered a stream error and therefore MUST NOT result in termination of the stream and the underlying TCP connection, which presumably is being used for sending XML stanzas from the Originating Server to the Receiving Server.</p>
</section1>

<section1 topic='Security Considerations' anchor='security'>
  <p>Server Dialback helps protect against domain spoofing, thus making it more difficult to spoof XML stanzas. It is not a mechanism for authenticating, securing, or encrypting streams between servers as is done via SASL and TLS, and results in weak verification of server identities only. Furthermore, it is susceptible to DNS poisoning attacks unless DNSSEC (see &rfc4033;) is used. Even if the DNS information is accurate, Server Dialback cannot protect against attacks where the attacker is capable of hijacking the IP address of the remote domain. Domains requiring robust security SHOULD use TLS and SASL. If SASL is used for server-to-server authentication, Server Dialback SHOULD NOT be used since it is unnecessary.</p>
</section1>

<section1 topic='IANA Considerations' anchor='iana'>
  <p>This document requires no interaction with &IANA;.</p> 
</section1>

<section1 topic='XMPP Registrar Considerations' anchor='registrar'>
  <section2 topic='Protocol Namespaces' anchor='registrar-ns'>
    <p>The &REGISTRAR; includes 'jabber:server:dialback' in its registry of protocol namespaces (see &NAMESPACES;).</p>
  </section2>
  <section2 topic='Stream Features' anchor='registrar-stream'>
    <p>The XMPP Registrar includes 'urn:xmpp:features:dialback' in its registry of stream features (see &STREAMFEATURES;).</p>
  </section2>
</section1>

<section1 topic='XML Schema' anchor='schema'>
  <section2 topic="Dialback" anchor="schema-dialback">
    <code><![CDATA[
<?xml version='1.0' encoding='UTF-8'?>

<xs:schema
    xmlns:xs='http://www.w3.org/2001/XMLSchema'
    targetNamespace='jabber:server:dialback'
    xmlns='jabber:server:dialback'
    elementFormDefault='qualified'>

  <xs:element name='result'>
    <xs:complexType>
      <xs:simpleContent>
        <xs:extension base='xs:NMTOKEN'>
          <xs:attribute name='from' type='xs:string' use='required'/>
          <xs:attribute name='to' type='xs:string' use='required'/>
          <xs:attribute name='type' use='optional'>
            <xs:simpleType>
              <xs:restriction base='xs:NCName'>
                <xs:enumeration value='error'/>
                <xs:enumeration value='invalid'/>
                <xs:enumeration value='valid'/>
              </xs:restriction>
            </xs:simpleType>
          </xs:attribute>
        </xs:extension>
      </xs:simpleContent>
    </xs:complexType>
  </xs:element>

  <xs:element name='verify'>
    <xs:complexType>
      <xs:simpleContent>
        <xs:extension base='xs:NMTOKEN'>
          <xs:attribute name='from' type='xs:string' use='required'/>
          <xs:attribute name='id' type='xs:NMTOKEN' use='required'/>
          <xs:attribute name='to' type='xs:string' use='required'/>
          <xs:attribute name='type' use='optional'>
            <xs:simpleType>
              <xs:restriction base='xs:NCName'>
                <xs:enumeration value='error'/>
                <xs:enumeration value='invalid'/>
                <xs:enumeration value='valid'/>
              </xs:restriction>
            </xs:simpleType>
          </xs:attribute>
        </xs:extension>
      </xs:simpleContent>
    </xs:complexType>
  </xs:element>

</xs:schema>
    ]]></code>
  </section2>
  <section2 topic="Stream Feature" anchor="schema-dialbackfeature">
    <code><![CDATA[
<?xml version='1.0' encoding='UTF-8'?>

<xs:schema
    xmlns:xs='http://www.w3.org/2001/XMLSchema'
    targetNamespace='urn:xmpp:features:dialback'
    xmlns='urn:xmpp:features:dialback'
    elementFormDefault='qualified'>

  <xs:element name='dialback'>
    <xs:complexType>
      <xs:choice minOccurs='1' maxOccurs='1'>
        <xs:element name='optional' type='empty'/>
        <xs:element name='required' type='empty'/>
      </xs:choice>
    </xs:complexType>

  <xs:simpleType name='empty'>
    <xs:restriction base='xs:string'>
      <xs:enumeration value=''/>
    </xs:restriction>
  </xs:simpleType>

</xs:schema>
    ]]></code>
  </section2>
</section1>
</xep>