rfc8803xml2.original.xml   rfc8803.xml 
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<?rfc toc="yes"?> <rfc xmlns:xi="http://www.w3.org/2001/XInclude" submissionType="IETF"
<?rfc sortrefs="yes"?> category="exp" consensus="true" docName="draft-ietf-tcpm-converters-19"
<?rfc symrefs="yes"?> number="8803" ipr="trust200902" obsoletes="" updates="" xml:lang="en"
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<front> <front>
<title abbrev="Convert Protocol">0-RTT TCP Convert Protocol</title> <title abbrev="Convert Protocol">0-RTT TCP Convert Protocol</title>
<seriesInfo name="RFC" value="8803"/>
<author fullname="Olivier Bonaventure" initials="O." role="editor" <author fullname="Olivier Bonaventure" initials="O." role="editor" surname="
surname="Bonaventure"> Bonaventure">
<organization>Tessares</organization> <organization>Tessares</organization>
<address> <address>
<postal>
<street>Avenue Jean Monnet 1</street>
<city>B-1348 Louvain-la-Neuve</city>
<region></region>
<code></code>
<country>Belgium</country>
</postal>
<email>Olivier.Bonaventure@tessares.net</email> <email>Olivier.Bonaventure@tessares.net</email>
</address> </address>
</author> </author>
<author fullname="Mohamed Boucadair" initials="M." role="editor" <author fullname="Mohamed Boucadair" initials="M." role="editor" surname="Bo
surname="Boucadair"> ucadair">
<organization>Orange</organization> <organization>Orange</organization>
<address> <address>
<postal> <postal>
<street>Clos Courtel</street> <street>Clos Courtel</street>
<city>Rennes</city> <city>Rennes</city>
<code>35000</code> <code>35000</code>
<country>France</country> <country>France</country>
</postal> </postal>
<email>mohamed.boucadair@orange.com</email> <email>mohamed.boucadair@orange.com</email>
</address> </address>
</author> </author>
<author fullname="Sri Gundavelli" initials="S." surname="Gundavelli"> <author fullname="Sri Gundavelli" initials="S." surname="Gundavelli">
<organization>Cisco</organization> <organization>Cisco</organization>
<address> <address>
<postal>
<street>170 West Tasman Drive</street>
<city>San Jose</city>
<region>CA</region>
<code>95134</code>
<country>USA</country>
</postal>
<email>sgundave@cisco.com</email> <email>sgundave@cisco.com</email>
</address> </address>
</author> </author>
<author fullname="SungHoon Seo" initials="S." surname="Seo"> <author fullname="SungHoon Seo" initials="S." surname="Seo">
<organization>Korea Telecom</organization> <organization>Korea Telecom</organization>
<address> <address>
<postal>
<street>151 Taebong-ro</street>
<city>Seocho-gu, Seoul, 06763</city>
<region></region>
<code></code>
<country>Republic of Korea</country>
</postal>
<email>sh.seo@kt.com</email> <email>sh.seo@kt.com</email>
</address> </address>
</author> </author>
<author fullname="Benjamin Hesmans" initials="B." surname="Hesmans"> <author fullname="Benjamin Hesmans" initials="B." surname="Hesmans">
<organization>Tessares</organization> <organization>Tessares</organization>
<address> <address>
<postal>
<street>Avenue Jean Monnet 1</street>
<city>B-1348 Louvain-la-Neuve</city>
<region></region>
<code></code>
<country>Belgium</country>
</postal>
<email>Benjamin.Hesmans@tessares.net</email> <email>Benjamin.Hesmans@tessares.net</email>
</address> </address>
</author> </author>
<date day="21" month="March" year="2020" /> <date month="July" year="2020"/>
<area>Transport</area> <area>Transport</area>
<workgroup>TCPM Working Group</workgroup> <workgroup>TCPM Working Group</workgroup>
<keyword>Hybrid access</keyword> <keyword>Hybrid access</keyword>
<keyword>aggregation</keyword> <keyword>aggregation</keyword>
<keyword>transport evolution</keyword> <keyword>transport evolution</keyword>
<keyword>future internet</keyword> <keyword>future internet</keyword>
<keyword>extension</keyword> <keyword>extension</keyword>
<keyword>Trafic Steering</keyword> <keyword>Trafic Steering</keyword>
<keyword>ATSSS</keyword> <keyword>ATSSS</keyword>
<keyword>Multipath TCP</keyword> <keyword>Multipath TCP</keyword>
<abstract> <abstract>
<t>This document specifies an application proxy, called Transport <t>This document specifies an application proxy, called Transport
Converter, to assist the deployment of TCP extensions such as Multipath Converter, to assist the deployment of TCP extensions such as Multipath
TCP. A Transport Converter may provide conversion service for one or TCP. A Transport Converter may provide conversion service for one or
more TCP extensions. The conversion service is provided by means of the more TCP extensions. The conversion service is provided by means of the
TCP Convert Protocol (Convert).</t> 0-RTT TCP Convert Protocol (Convert).</t>
<t>This protocol provides 0-RTT (Zero Round-Trip Time) conversion <t>This protocol provides 0-RTT (Zero Round-Trip Time) conversion
service since no extra delay is induced by the protocol compared to service since no extra delay is induced by the protocol compared to
connections that are not proxied. Also, the Convert Protocol does not connections that are not proxied. Also, the Convert Protocol does not
require any encapsulation (no tunnels, whatsoever).</t> require any encapsulation (no tunnels whatsoever).</t>
<t>This specification assumes an explicit model, where the Transport <t>This specification assumes an explicit model, where the Transport
Converter is explicitly configured on hosts. As a sample applicability Converter is explicitly configured on hosts. As a sample applicability
use case, this document specifies how the Convert Protocol applies for use case, this document specifies how the Convert Protocol applies for
Multipath TCP.</t> Multipath TCP.</t>
</abstract> </abstract>
</front> </front>
<middle> <middle>
<section anchor="intro" title="Introduction"> <section anchor="intro" numbered="true" toc="default">
<section anchor="pb" title="The Problem"> <name>Introduction</name>
<section anchor="pb" numbered="true" toc="default">
<name>The Problem</name>
<t>Transport protocols like TCP evolve regularly <xref <t>Transport protocols like TCP evolve regularly <xref
target="RFC7414"></xref>. TCP has been improved in different ways. target="RFC7414" format="default"/>. TCP has been improved in
Some improvements such as changing the initial window size <xref different ways. Some improvements such as changing the initial window
target="RFC6928"></xref> or modifying the congestion control scheme size <xref target="RFC6928" format="default"/> or modifying the
can be applied independently on clients and servers. Other congestion control scheme can be applied independently on Clients and
improvements such as Selective Acknowledgments <xref Servers. Other improvements such as Selective Acknowledgments <xref
target="RFC2018"></xref> or large windows <xref target="RFC2018" format="default"/> or large windows <xref
target="RFC7323"></xref> require a new TCP option or to change the target="RFC7323" format="default"/> require a new TCP option or
semantics of some fields in the TCP header. These modifications must changing the semantics of some fields in the TCP header. These
be deployed on both clients and servers to be actually used on the modifications must be deployed on both Clients and Servers to be
Internet. Experience with the latter class of TCP extensions reveals actually used on the Internet. Experience with the latter class of TCP
that their deployment can require many years. Fukuda reports in <xref extensions reveals that their deployment can require many
target="Fukuda2011"></xref> results of a decade of measurements years. Fukuda reports in <xref target="Fukuda2011" format="default"/>
showing the deployment of Selective Acknowledgments, Window Scale, and results of a decade of measurements showing the deployment of
TCP Timestamps. <xref target="ANRW17"></xref> describes measurements Selective Acknowledgments, Window Scale, and TCP Timestamps. <xref
showing that TCP Fast Open (TFO) <xref target="RFC7413"></xref> is target="ANRW17" format="default"/> describes measurements showing that
still not widely deployed.</t> TCP Fast Open (TFO) <xref target="RFC7413" format="default"/> is still
not widely deployed.</t>
<t>There are some situations where the transport stack used on Clients
(or Servers) can be upgraded at a faster pace than the transport stack
running on Servers (or Clients).
<t>There are some situations where the transport stack used on clients In those situations, Clients (or Servers) would typically want to benefit
(or servers) can be upgraded at a faster pace than the transport stack from the features of an improved transport protocol even if the Servers (or
running on servers (or clients). In those situations, clients would Clients) have not yet been upgraded.
typically want to benefit from the features of an improved transport
protocol even if the servers have not yet been upgraded and
conversely. Some assistance from the network to make use of these
features is valuable. For example, Performance Enhancing Proxies <xref
target="RFC3135"></xref>, and other service functions have been
deployed as solutions to improve TCP performance over links with
specific characteristics.</t>
<t>Recent examples of TCP extensions include Multipath TCP (MPTCP) Some assistance from the network to make use of these features is
<xref target="RFC6824"></xref> or TCPINC <xref valuable. For example, Performance Enhancing Proxies <xref target="RFC3135"
target="RFC8548"></xref>. Those extensions provide features that are format="default"/> and other service functions have been deployed as solutions
interesting for clients such as wireless devices. With Multipath TCP, to improve TCP performance over links with specific characteristics.</t>
those devices could seamlessly use Wireless Local Area Network (WLAN)
and cellular networks, for bonding purposes, faster hand-overs, or
better resiliency. Unfortunately, deploying those extensions on both a
wide range of clients and servers remains difficult.</t>
<t>Recent examples of TCP extensions include Multipath TCP (MPTCP)
<xref target="RFC8684" format="default"/> or tcpcrypt <xref target="RFC8
548" format="default"/>. Those extensions
provide features that are interesting for Clients such as wireless
devices. With Multipath TCP, those devices could seamlessly use
Wireless Local Area Network (WLAN) and cellular networks for bonding
purposes, faster hand-overs, or better resiliency. Unfortunately,
deploying those extensions on both a wide range of Clients and Servers
remains difficult.</t>
<t>More recently, 5G bonding experimentation has been conducted into <t>More recently, 5G bonding experimentation has been conducted into
global range of the incumbent 4G (LTE) connectivity using newly global range of the incumbent 4G (LTE) connectivity using newly
devised clients and a Multipath TCP proxy. Even if the 5G and the 4G devised Clients and a Multipath TCP proxy. Even if the 5G and 4G
bonding (that relies upon Multipath TCP) increases the bandwidth, it bonding (that relies upon Multipath TCP) increases the bandwidth, it
is as well crucial to minimize latency for all the way between is also crucial to minimize latency entirely between end hosts
endhosts regardless of whether intermediate nodes are inside or regardless of whether intermediate nodes are inside or outside of the
outside of the mobile core. In order to handle Ultra Reliable Low mobile core. In order to handle Ultra Reliable Low Latency
Latency Communication (URLLC) for the next generation mobile network, Communication (URLLC) for the next-generation mobile network,
Multipath TCP and its proxy mechanism such as the one used to provide Multipath TCP and its proxy mechanism such as the one used to provide
Access Traffic Steering, Switching, and Splitting (ATSSS) must be Access Traffic Steering, Switching, and Splitting (ATSSS) must be
optimized to reduce latency <xref target="TS23501"></xref>.</t> optimized to reduce latency <xref target="TS23501"
format="default"/>.</t>
</section> </section>
<section anchor="network-assisted-connections-the-rationale" <section anchor="network-assisted-connections-the-rationale" numbered="tru
title="Network-Assisted Connections: The Rationale"> e" toc="default">
<t>This document specifies an application proxy, called Transport <name>Network-Assisted Connections: The Rationale</name>
<t>This document specifies an application proxy called Transport
Converter. A Transport Converter is a function that is installed by a Converter. A Transport Converter is a function that is installed by a
network operator to aid the deployment of TCP extensions and to network operator to aid the deployment of TCP extensions and to
provide the benefits of such extensions to clients in particular. A provide the benefits of such extensions to Clients in particular. A
Transport Converter may provide conversion service for one or more TCP Transport Converter may provide conversion service for one or more TCP
extensions. Which TCP extensions are eligible to the conversion extensions. Which TCP extensions are eligible for the conversion
service is deployment-specific. The conversion service is provided by service is deployment specific. The conversion service is provided by
means of the 0-RTT TCP Convert Protocol (Convert), that is an means of the 0-RTT TCP Convert Protocol (Convert), which is an
application-layer protocol which uses a specific TCP port number on application-layer protocol that uses a specific TCP port number on
the Converter.</t> the Converter.</t>
<t>The Convert Protocol provides Zero Round-Trip Time (0-RTT) <t>The Convert Protocol provides Zero Round-Trip Time (0-RTT)
conversion service since no extra delay is induced by the protocol conversion service since no extra delay is induced by the protocol
compared to connections that are not proxied. Particularly, the compared to connections that are not proxied. Particularly, the
Convert Protocol does not require extra signaling setup delays before Convert Protocol does not require extra signaling setup delays before
making use of the conversion service. The Convert Protocol does not making use of the conversion service. The Convert Protocol does not
require any encapsulation (no tunnels, whatsoever).</t> require any encapsulation (no tunnels, whatsoever).</t>
<t>The Transport Converter adheres to the main steps drawn in <xref
<t>The Transport Converter adheres to the main steps drawn in Section target="RFC1919" sectionFormat="of" section="3"/>. In particular, a
3 of <xref target="RFC1919"></xref>. In particular, a Transport Transport Converter achieves the following:</t>
Converter achieves the following:</t> <ul spacing="normal">
<li>Listening for Client sessions;</li>
<t><list style="symbols"> <li>Receiving the address of the Server from the Client;</li>
<t>Listen for client sessions;</t> <li>Setting up a session to the Server;</li>
<li>Relaying control messages and data between the Client and the
<t>Receive from a client the address of the server;</t> Server;</li>
<li>Performing access controls according to local policies.</li>
<t>Setup a session to the server;</t> </ul>
<t>Relay control messages and data between the client and the
server;</t>
<t>Perform access controls according to local policies.</t>
</list></t>
<t>The main advantage of network-assisted conversion services is that <t>The main advantage of network-assisted conversion services is that
they enable new TCP extensions to be used on a subset of the path they enable new TCP extensions to be used on a subset of the path
between endpoints, which encourages the deployment of these between endpoints, which encourages the deployment of these
extensions. Furthermore, the Transport Converter allows the client and extensions. Furthermore, the Transport Converter allows the Client and
the server to directly negotiate TCP extensions for the sake of native the Server to directly negotiate TCP extensions for the sake of native
support along the full path.</t> support along the full path.</t>
<t>The Convert Protocol is a generic mechanism to provide 0-RTT <t>The Convert Protocol is a generic mechanism to provide 0-RTT
conversion service. As a sample applicability use case, this document conversion service. As a sample applicability use case, this document
specifies how the Convert Protocol applies for Multipath TCP. It is specifies how the Convert Protocol applies for Multipath TCP. It is
out of scope of this document to provide a comprehensive list of all out of scope of this document to provide a comprehensive list of all
potential conversion services. Applicability documents may be defined potential conversion services. Applicability documents may be defined
in the future.</t> in the future.</t>
<t>This document does not assume that all the traffic is eligible for
<t>This document does not assume that all the traffic is eligible to
the network-assisted conversion service. Only a subset of the traffic the network-assisted conversion service. Only a subset of the traffic
will be forwarded to a Transport Converter according to a set of will be forwarded to a Transport Converter according to a set of
policies. These policies, and how they are communicated to endpoints, policies. These policies, and how they are communicated to endpoints,
are out of scope. Furthermore, it is possible to bypass the Transport are out of scope. Furthermore, it is possible to bypass the Transport
Converter to connect directly to the servers that already support the Converter to connect directly to the Servers that already support the
required TCP extension(s).</t> required TCP extension(s).</t>
<t>This document assumes an explicit model in which a Client is
<t>This document assumes an explicit model in which a client is
configured with one or a list of Transport Converters (statically or configured with one or a list of Transport Converters (statically or
through protocols such as <xref through protocols such as <xref target="I-D.boucadair-tcpm-dhc-converter
target="I-D.boucadair-tcpm-dhc-converter"></xref>). Configuration " format="default"/>). Configuration
means are outside the scope of this document.</t> means are outside the scope of this document.</t>
<t>The use of a Transport Converter means that there is no end-to-end <t>The use of a Transport Converter means that there is no end-to-end
transport connection between the client and server. This could transport connection between the Client and Server. This could
potentially create problems in some scenarios such as those discussed potentially create problems in some scenarios such as those discussed
in Section 4 of <xref target="RFC3135"></xref>. Some of these problems in <xref target="RFC3135" sectionFormat="of" section="4"/>. Some of thes
may not be applicable, for example, a Transport Converter can inform a e problems
client by means of Network Failure (65) or Destination Unreachable may not be applicable. For example, a Transport Converter can inform a
(97) error messages (<xref target="sec-error"></xref>) that it Client by means of Network Failure (65) or Destination Unreachable
encounters a failure problem; the client can react accordingly. An (97) error messages (<xref target="sec-error" format="default"/>) that i
t
encounters a failure problem; the Client can react accordingly. An
endpoint, or its network administrator, can assess the benefit endpoint, or its network administrator, can assess the benefit
provided by the Transport Converter service versus the risk. This is provided by the Transport Converter service versus the risk. This is
one reason why the Transport Converter functionality has to be one reason why the Transport Converter functionality has to be
explicitly requested by an endpoint.</t> explicitly requested by an endpoint.</t>
<t>This document is organized as follows. First, <xref <t>
target="sec-socks"></xref> provides a brief overview of the This document is organized as follows:
differences between the well-known SOCKS protocol and the 0-RTT </t>
Convert protocol. <xref target="sec-arch"></xref> provides a brief <ul empty="true">
explanation of the operation of Transport Converters. Then, <xref <li>
target="sec-protocol"></xref> describes the Convert Protocol. <xref <xref target="sec-socks"/> provides a brief overview of the differences
target="sec-tcpoptions"></xref> discusses how Transport Converters can between the well-known SOCKS protocol and the 0-RTT TCP Convert Protocol.
be used to support different TCP extensions. <xref </li>
target="sec-middleboxes"></xref> then discusses the interactions with <li> <xref target="sec-arch"/> provides a brief explanation of the operati
middleboxes, while <xref target="sec-security"></xref> focuses on the on of Transport
security considerations. <xref target="sec-api"></xref> describes how Converters. </li>
a TCP stack would need to support the protocol described in this <li>
document.</t> <xref target="sample-examples"/> includes a set of sample examples to illus
</section> trate the overall
behavior.
</li>
<li>
<xref target="sec-protocol"/> describes the Convert Protocol.
</li>
<li> <xref target="sec-tcpoptions"/> discusses how Transport Converters can
be used to support
different TCP extensions. </li>
<li>
<xref target="sec-middleboxes"/> then discusses the interactions with middl
eboxes.
</li>
<li> <xref target="sec-security"/> focuses on security considerations. </li
>
<li> <xref target="sec-api"/> describes how a TCP stack would need to suppo
rt the
protocol described in this document.
</li>
</ul>
<section title="Applicability Scope"> </section>
<t>0-RTT TCP Convert Protocol specified in this document MUST be used <section numbered="true" toc="default">
<name>Applicability Scope</name>
<t>The 0-RTT TCP Convert Protocol specified in this document <bcp14>MUST
</bcp14> be used
in a single administrative domain deployment model. That is, the in a single administrative domain deployment model. That is, the
entity offering the connectivity service to a client is also be entity entity offering the connectivity service to a Client is also the entity
which owns and operates the Transport Converter, with no transit over that owns and operates the Transport Converter, with no transit over
a third-party network.</t> a third-party network.</t>
<t>Future deployment of Transport Converters by third parties
<t>Future deployment of Transport Converters by third parties MUST <bcp14>MUST</bcp14> adhere to the mutual authentication requirements
adhere to the mutual authentication requirements in <xref in <xref target="authorization" format="default"/> to prevent
target="authorization"></xref> to prevent illegitimate traffic illegitimate traffic interception (<xref target="traffic-theft"
interception (<xref target="traffic-theft"></xref>), in format="default"/>) in particular.</t>
particular.</t>
</section> </section>
</section> </section>
<section anchor="sec-socks" title="Differences with SOCKSv5"> <section anchor="conventions-and-definitions" numbered="true" toc="default">
<t>Several IETF protocols provide proxy services; the closest to the <name>Conventions and Definitions</name>
0-RTT Convert protocol being the SOCKSv5 protocol <xref
target="RFC1928"></xref>. This protocol is already used to deploy <t>
Multipath TCP in some cellular networks (Section 2.2 of <xref The key words "<bcp14>MUST</bcp14>", "<bcp14>MUST NOT</bcp14>", "<bcp14>REQU
target="RFC8041"></xref>).</t> IRED</bcp14>", "<bcp14>SHALL</bcp14>", "<bcp14>SHALL
NOT</bcp14>", "<bcp14>SHOULD</bcp14>", "<bcp14>SHOULD NOT</bcp14>", "<bcp14>
RECOMMENDED</bcp14>", "<bcp14>NOT RECOMMENDED</bcp14>",
"<bcp14>MAY</bcp14>", and "<bcp14>OPTIONAL</bcp14>" in this document are to
be interpreted as
described in BCP&nbsp;14 <xref target="RFC2119"/> <xref target="RFC8174"/>
when, and only when, they appear in all capitals, as shown here.
</t>
</section>
<section anchor="sec-socks" numbered="true" toc="default">
<name>Differences with SOCKSv5</name>
<t>Several IETF protocols provide proxy services, the closest to the
0-RTT TCP Convert Protocol being the SOCKSv5 protocol <xref target="RFC192
8"
format="default"/>. This protocol is already used to deploy Multipath
TCP in some cellular networks (<xref target="RFC8041" sectionFormat="of"
section="2.2"/>).</t>
<t>A SOCKS Client creates a connection to a SOCKS Proxy, exchanges <t>A SOCKS Client creates a connection to a SOCKS Proxy, exchanges
authentication information, and indicates the IP address and port number authentication information, and indicates the IP address and port number
of the target Server. At this point, the SOCKS Proxy creates a of the target Server. At this point, the SOCKS Proxy creates a
connection towards the target Server and relays all data between the two connection towards the target Server and relays all data between the two
proxied connections. The operation of an implementation based on SOCKSv5 proxied connections. The operation of an implementation based on SOCKSv5
(without authentication) is illustrated in <xref (without authentication) is illustrated in <xref target="fig-socks5" forma
target="fig-socks5"></xref>.</t> t="default"/>.</t>
<figure anchor="fig-socks5">
<figure anchor="fig-socks5" <name>Establishment of a TCP Connection through a SOCKS Proxy without Au
title="Establishment of a TCP Connection through a SOCKS Proxy Wit thentication</name>
hout Authentication"> <artwork name="" type="" align="left" alt=""><![CDATA[
<artwork><![CDATA[
Client SOCKS Proxy Server Client SOCKS Proxy Server
| | | | | |
| --------------------> | | | --------------------> | |
| SYN | | | SYN | |
| <-------------------- | | | <-------------------- | |
| SYN+ACK | | | SYN+ACK | |
| --------------------> | | | --------------------> | |
| ACK | | | ACK | |
| | | | | |
| --------------------> | | | --------------------> | |
skipping to change at line 320 skipping to change at line 342
| Data1 | | | Data1 | |
| | --------------------> | | | --------------------> |
| | Data1 | | | Data1 |
| | <-------------------- | | | <-------------------- |
| | Data2 | | | Data2 |
| <-------------------- | | | <-------------------- | |
| Data2 | | | Data2 | |
... ...
]]></artwork> ]]></artwork>
</figure> </figure>
<t>When SOCKS is used, an "end-to-end" connection between a Client and a <t>When SOCKS is used, an "end-to-end" connection between a Client and a
Server becomes a sequence of two TCP connections that are glued together Server becomes a sequence of two TCP connections that are glued together
on the SOCKS Proxy. The SOCKS Client and Server exchange control on the SOCKS Proxy. The SOCKS Client and Server exchange control
information at the beginning of the bytestream on the Client-Proxy information at the beginning of the bytestream on the Client-Proxy
connection. The SOCKS Proxy then creates the connection with the target connection. The SOCKS Proxy then creates the connection with the target
Server and then glues the two connections together so that all bytes Server and then glues the two connections together so that all bytes
sent by the application (Client) to the SOCKS Proxy are relayed to the sent by the application (Client) to the SOCKS Proxy are relayed to the
Server and vice versa.</t> Server and vice versa.</t>
<t>The Convert Protocol is also used on TCP proxies that relay data <t>The Convert Protocol is also used on TCP proxies that relay data
between an upstream and a downstream connection, but there are important between an upstream and a downstream connection, but there are important
differences with SOCKSv5. A first difference is that the 0-RTT Convert differences with SOCKSv5. A first difference is that the 0-RTT TCP
protocol exchanges all the control information during the initial RTT. Convert Protocol exchanges all the control information during the
This reduces the connection establishment delay compared to SOCKS which initial RTT. This reduces the connection establishment delay compared
requires two or more round-trip-times before the establishment of the to SOCKS, which requires two or more round-trip times before the
downstream connection towards the final destination. In today's establishment of the downstream connection towards the final
Internet, latency is an important metric and various protocols have been destination. In today's Internet, latency is an important metric, and
tuned to reduce their latency <xref various protocols have been tuned to reduce their latency <xref
target="I-D.arkko-arch-low-latency"></xref>. A recently proposed target="I-D.arkko-arch-low-latency" format="default"/>. A recently
extension to SOCKS leverages the TCP Fast Open (TFO) option <xref proposed extension to SOCKS leverages the TCP Fast Open (TFO) option
target="I-D.olteanu-intarea-socks-6"></xref> to reduce this delay.</t> <xref target="I-D.olteanu-intarea-socks-6" format="default"/> to reduce
this delay.</t>
<t>A second difference is that the Convert Protocol explicitly takes the <t>A second difference is that the Convert Protocol explicitly takes the
TCP extensions into account. By using the Convert Protocol, the Client TCP extensions into account. By using the Convert Protocol, the Client
can learn whether a given TCP extension is supported by the destination can learn whether a given TCP extension is supported by the destination
Server. This enables the Client to bypass the Transport Converter when Server. This enables the Client to bypass the Transport Converter when
the Server supports the required TCP extension(s). Neither SOCKSv5 <xref the Server supports the required TCP extension(s). Neither SOCKSv5 <xref
target="RFC1928"></xref> nor the proposed SOCKSv6 <xref target="RFC1928" format="default"/> nor the proposed SOCKSv6 <xref
target="I-D.olteanu-intarea-socks-6"></xref> provide such a feature.</t> target="I-D.olteanu-intarea-socks-6" format="default"/> provide such a
feature.</t>
<t>A third difference is that a Transport Converter will only confirm <t>A third difference is that a Transport Converter will only confirm
the establishment of the connection initiated by the Client provided the establishment of the connection initiated by the Client provided
that the downstream connection has already been accepted by the Server. that the downstream connection has already been accepted by the Server.
If the Server refuses the connection establishment attempt from the If the Server refuses the connection establishment attempt from the
Transport Converter, then the upstream connection from the Client is Transport Converter, then the upstream connection from the Client is
rejected as well. This feature is important for applications that check rejected as well. This feature is important for applications that check
the availability of a Server or use the time to connect as a hint on the the availability of a Server or use the time to connect as a hint on the
selection of a Server <xref target="RFC8305"></xref>.</t> selection of a Server <xref target="RFC8305" format="default"/>.</t>
<t>A fourth difference is that the 0-RTT TCP Convert Protocol only allows
<t>A fourth difference is that the 0-RTT Convert protocol only allows
the Client to specify the IP address/port number of the destination the Client to specify the IP address/port number of the destination
server and not a DNS name. We evaluated an alternate design that Server and not a DNS name. We evaluated an alternate design that
included the DNS name of the remote peer instead of its IP address as in included the DNS name of the remote peer instead of its IP address as in
SOCKS <xref target="RFC1928"></xref>. However, that design was not SOCKS <xref target="RFC1928" format="default"/>. However, that design
adopted because it induces both an extra load and increased delays on was not adopted because it induces both an extra load and increased
the Transport Converter to handle and manage DNS resolution requests. delays on the Transport Converter to handle and manage DNS resolution
Note that the name resolution at the Converter may fail (e.g., private requests. Note that the name resolution at the Converter may fail
names discussed in Section 2.1 of <xref target="RFC6731"></xref>) or may (e.g., private names discussed in <xref target="RFC6731"
not match the one that would be returned by a Client's resolution sectionFormat="of" section="2.1"/>) or may not match the one that would
library (e.g., Section 2.2 of <xref target="RFC6731"></xref>).</t> be returned by a Client's resolution library (e.g., <xref
</section> target="RFC6731" sectionFormat="of" section="2.2"/>).</t>
<section anchor="conventions-and-definitions"
title="Conventions and Definitions">
<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><xref target="RFC8174"></xref> when, and
only when, they appear in all capitals, as shown here.</t>
</section> </section>
<section anchor="sec-arch" title="Architecture &amp; Behaviors"> <section anchor="sec-arch" numbered="true" toc="default">
<section anchor="functional-elements" title="Functional Elements"> <name>Architecture and Behaviors</name>
<section anchor="functional-elements" numbered="true" toc="default">
<name>Functional Elements</name>
<t>The Convert Protocol considers three functional elements:</t> <t>The Convert Protocol considers three functional elements:</t>
<ul spacing="normal">
<t><list style="symbols"> <li>Clients</li>
<t>Clients;</t> <li>Transport Converters</li>
<li>Servers</li>
<t>Transport Converters;</t> </ul>
<t>Servers.</t>
</list></t>
<t>A Transport Converter is a network function that proxies all data <t>A Transport Converter is a network function that proxies all data
exchanged over one upstream connection to one downstream connection exchanged over one upstream connection to one downstream connection
and vice versa (<xref target="figtc"></xref>). The Transport and vice versa (<xref target="figtc" format="default"/>). Thus, the Tran
Converter, thus, maintains state that associates one upstream sport
Converter maintains state that associates one upstream
connection to a corresponding downstream connection.</t> connection to a corresponding downstream connection.</t>
<t>A connection can be initiated from both sides of the Transport <t>A connection can be initiated from both sides of the Transport
Converter (External realm, Internal realm).</t> Converter (External realm, Internal realm).</t>
<figure anchor="figtc">
<figure anchor="figtc" <name>A Transport Converter Proxies Data between Pairs of TCP Connecti
title="A Transport Converter Proxies Data between Pairs of TCP C ons</name>
onnections"> <artwork name="" type="" align="left" alt=""><![CDATA[
<artwork><![CDATA[
| |
: :
| |
+------------+ +------------+
Client <- upstream ->| Transport |<- downstream -> Server Client <- upstream ->| Transport |<- downstream -> Server
connection | Converter | connection connection | Converter | connection
+------------+ +------------+
| |
Internal realm : External realm Internal realm : External realm
| |
skipping to change at line 418 skipping to change at line 425
| |
+------------+ +------------+
Client <- upstream ->| Transport |<- downstream -> Server Client <- upstream ->| Transport |<- downstream -> Server
connection | Converter | connection connection | Converter | connection
+------------+ +------------+
| |
Internal realm : External realm Internal realm : External realm
| |
]]></artwork> ]]></artwork>
</figure> </figure>
<t>"Client" refers to a software instance embedded on a host that can <t>"Client" refers to a software instance embedded on a host that can
reach a Transport Converter in the internal realm. The "Client" can reach a Transport Converter in the internal realm. The "Client" can
initiate connections via a Transport Converter (referred to as initiate connections via a Transport Converter (referred to as
outgoing connections). Also, the "Client" can accept incoming outgoing connections). Also, the "Client" can accept incoming
connections via a Transport Converter (referred to as incoming connections via a Transport Converter (referred to as incoming
connections).</t> connections).</t>
<t>A Transport Converter can be embedded in a standalone device or be <t>A Transport Converter can be embedded in a standalone device or be
activated as a service on a router. How such function is enabled is activated as a service on a router. How such a function is enabled is
deployment-specific.</t> deployment specific.</t>
<t>The architecture assumes that new software will be installed on the <t>The architecture assumes that new software will be installed on the
Client hosts to interact with one or more Transport Converters. Client hosts to interact with one or more Transport Converters.
Furthermore, the architecture allows for making use of new TCP Furthermore, the architecture allows for making use of new TCP
extensions even if those are not supported by a given server.</t> extensions even if those are not supported by a given Server.</t>
<t>A Client is configured, through means that are outside the scope of <t>A Client is configured, through means that are outside the scope of
this document, with the names and/or the addresses of one or more this document, with the names and/or addresses of one or more
Transport Converters and the TCP extensions that they support. The Transport Converters and the TCP extensions that they support. The
procedure for selecting a Transport Converter among a list of procedure for selecting a Transport Converter among a list of
configured Transport Converters is outside the scope of this configured Transport Converters is outside the scope of this
document.</t> document.</t>
<t>One of the benefits of this design is that different transport <t>One of the benefits of this design is that different transport
protocol extensions can be used on the upstream and the downstream protocol extensions can be used on the upstream and the downstream
connections. This encourages the deployment of new TCP extensions connections. This encourages the deployment of new TCP extensions
until they are widely supported by servers, in particular.</t> until they are widely supported, in particular, by Servers.</t>
<t>The architecture does not mandate anything on the Server side.</t> <t>The architecture does not mandate anything on the Server side.</t>
<t>Similar to SOCKS, the architecture does not interfere with <t>Similar to SOCKS, the architecture does not interfere with
end-to-end TLS connections <xref target="RFC8446"></xref> between the end-to-end TLS connections <xref target="RFC8446" format="default"/> bet
Client and the Server (<xref target="figtls"></xref>). In other words, ween the
Client and the Server (<xref target="figtls" format="default"/>). In oth
er words,
end-to-end TLS is supported in the presence of a Converter.</t> end-to-end TLS is supported in the presence of a Converter.</t>
<figure anchor="figtls">
<figure anchor="figtls" <name>End-to-end TLS via a Transport Converter</name>
title="End-to-end TLS via a Transport Converter"> <artwork name="" type="" align="left" alt=""><![CDATA[
<artwork><![CDATA[
Client Transport Server Client Transport Server
| Converter | | Converter |
| | | | | |
/==========================================\ /==========================================\
| End-to-end TLS | | End-to-end TLS |
\==========================================/ \==========================================/
* TLS messages exchanged between the Client * TLS messages exchanged between the Client
and the Server are not shown. and the Server are not shown.
]]></artwork> ]]></artwork>
skipping to change at line 468 skipping to change at line 467
| Converter | | Converter |
| | | | | |
/==========================================\ /==========================================\
| End-to-end TLS | | End-to-end TLS |
\==========================================/ \==========================================/
* TLS messages exchanged between the Client * TLS messages exchanged between the Client
and the Server are not shown. and the Server are not shown.
]]></artwork> ]]></artwork>
</figure> </figure>
<t>It is out of scope of this document to elaborate on specific <t>It is out of scope of this document to elaborate on specific
considerations related to the use of TLS in the Client-Converter considerations related to the use of TLS in the Client-Converter
connection leg to exchange Convert messages (in addition to the connection leg to exchange Convert messages (in addition to the
end-to-end TLS connection). In particular, (1) assessment whether end-to-end TLS connection). In particular, (1) assessment of whether
0-RTT data mode discussed in Section 2.3 of <xref 0-RTT data mode discussed in <xref target="RFC8446"
target="RFC8446"></xref> is safe under replay and (2) specification of sectionFormat="of" section="2.3"/> is safe under replay and (2)
a profile for its use (Section E.5 of <xref target="RFC8446"></xref>) specification of a profile for its use (<xref target="RFC8446"
are out of scope.</t> sectionFormat="of" section="E.5"/>) are out of scope.</t>
</section> </section>
<section anchor="sec-to" numbered="true" toc="default">
<section anchor="sec-to" title="Theory of Operation"> <name>Theory of Operation</name>
<t>At a high level, the objective of the Transport Converter is to <t>At a high level, the objective of the Transport Converter is to
allow the use a specific extension, e.g., Multipath TCP, on a subset allow the use a specific extension, e.g., Multipath TCP, on a subset
of the path even if the peer does not support this extension. This is of the path even if the peer does not support this extension. This is
illustrated in <xref target="fig-highlevel"></xref> where the Client illustrated in <xref target="fig-highlevel" format="default"/> where the Client
initiates a Multipath TCP connection with the Transport Converter initiates a Multipath TCP connection with the Transport Converter
(packets belonging to the Multipath TCP connection are shown with (packets belonging to the Multipath TCP connection are shown with
"===") while the Transport Converter uses a TCP connection with the "===") while the Transport Converter uses a TCP connection with the
Server.</t> Server.</t>
<figure anchor="fig-highlevel">
<figure anchor="fig-highlevel" <name>An Example of 0-RTT Network-Assisted Outgoing MPTCP Connection</
title="An Example of 0-RTT Network-Assisted Outgoing MPTCP Conne name>
ction"> <artwork name="" type="" align="left" alt=""><![CDATA[
<artwork><![CDATA[
Client Transport Server Client Transport Server
| Converter | | Converter |
| | | | | |
|==================>|--------------------->| |==================>|--------------------->|
| | | | | |
|<==================|<---------------------| |<==================|<---------------------|
| | | | | |
Multipath TCP packets TCP packets Multipath TCP packets TCP packets
]]></artwork> ]]></artwork>
</figure> </figure>
skipping to change at line 502 skipping to change at line 499
Client Transport Server Client Transport Server
| Converter | | Converter |
| | | | | |
|==================>|--------------------->| |==================>|--------------------->|
| | | | | |
|<==================|<---------------------| |<==================|<---------------------|
| | | | | |
Multipath TCP packets TCP packets Multipath TCP packets TCP packets
]]></artwork> ]]></artwork>
</figure> </figure>
<t>The packets belonging to a connection established through a <t>The packets belonging to a connection established through a
Transport Converter may follow a different path than the packets Transport Converter may follow a different path than the packets
directly exchanged between the Client and the Server. Deployments directly exchanged between the Client and the Server. Deployments
should minimize the possible additional delay by carefully selecting should minimize the possible additional delay by carefully selecting
the location of the Transport Converter used to reach a given the location of the Transport Converter used to reach a given
destination.</t> destination.</t>
<t>When establishing a connection, the Client can, depending on local <t>When establishing a connection, the Client can, depending on local
policies, either contact the Server directly (e.g., by sending a TCP policies, either contact the Server directly (e.g., by sending a TCP
SYN towards the Server) or create the connection via a Transport SYN towards the Server) or create the connection via a Transport
Converter. In the latter case (that is, the conversion service is Converter. In the latter case (that is, the conversion service is
used), the Client initiates a connection towards the Transport used), the Client initiates a connection towards the Transport
Converter and indicates the IP address and port number of the Server Converter and indicates the IP address and port number of the Server
within the connection establishment packet. Doing so enables the within the connection establishment packet. Doing so enables the
Transport Converter to immediately initiate a connection towards that Transport Converter to immediately initiate a connection towards that
Server, without experiencing an extra delay. The Transport Converter Server without experiencing an extra delay. The Transport Converter
waits until the receipt of the confirmation that the Server agrees to waits until the receipt of the confirmation that the Server agrees to
establish the connection before confirming it to the Client.</t> establish the connection before confirming it to the Client.</t>
<t>The Client places the destination address and port number of the <t>The Client places the destination address and port number of the
Server in the payload of the SYN sent to the Transport Converter to Server in the payload of the SYN sent to the Transport Converter to
minimize connection establishment delays. The Transport Converter minimize connection establishment delays. The Transport Converter
maintains two connections that are combined together:</t> maintains two connections that are combined together:</t>
<ul spacing="normal">
<t><list style="symbols"> <li>The upstream connection is the one between the Client and the
<t>the upstream connection is the one between the Client and the Transport Converter.</li>
Transport Converter.</t> <li>The downstream connection is the one between the Transport
Converter and the Server.</li>
<t>the downstream connection is the one between the Transport </ul>
Converter and the Server.</t>
</list></t>
<t>Any user data received by the Transport Converter over the upstream <t>Any user data received by the Transport Converter over the upstream
(or downstream) connection is proxied over the downstream (or (or downstream) connection is proxied over the downstream (or
upstream) connection.</t> upstream) connection.</t>
<t><xref target="fig-estab" format="default"/> illustrates the establish
<t><xref target="fig-estab"></xref> illustrates the establishment of ment of
an outgoing TCP connection by a Client through a Transport an outgoing TCP connection by a Client through a Transport
Converter.</t> Converter.</t>
<aside><t>
Note: The information shown between brackets in <xref
target="fig-estab" format="default"/> (and other figures in the
document) refers to Convert Protocol messages described in <xref
target="sec-protocol" format="default"/>.</t></aside>
<t><list style="symbols"> <figure anchor="fig-estab">
<t>Note: The information shown between brackets in <xref <name>Establishment of an Outgoing TCP Connection through a Transport
target="fig-estab"></xref> (and other figures in the document) Converter</name>
refers to Convert Protocol messages described in <xref <artwork name="" type="" align="left" alt=""><![CDATA[
target="sec-protocol"></xref>.</t>
</list></t>
<figure anchor="fig-estab"
title="Establishment of an Outgoing TCP Connection Through a Tra
nsport Converter">
<artwork><![CDATA[
Transport Transport
Client Converter Server Client Converter Server
| | | | | |
|SYN [->Server:port]| SYN | |SYN [->Server:port]| SYN |
|------------------>|--------------------->| |------------------>|--------------------->|
|<------------------|<---------------------| |<------------------|<---------------------|
| SYN+ACK [ ] | SYN+ACK | | SYN+ACK [ ] | SYN+ACK |
| ... | ... | | ... | ... |
]]></artwork> ]]></artwork>
</figure> </figure>
skipping to change at line 575 skipping to change at line 562
payload of this SYN contains the address and port number of the payload of this SYN contains the address and port number of the
Server. The Transport Converter does not reply immediately to this Server. The Transport Converter does not reply immediately to this
SYN. It first tries to create a TCP connection towards the target SYN. It first tries to create a TCP connection towards the target
Server. If this upstream connection succeeds, the Transport Converter Server. If this upstream connection succeeds, the Transport Converter
confirms the establishment of the connection to the Client by confirms the establishment of the connection to the Client by
returning a SYN+ACK and the first bytes of the bytestream contain returning a SYN+ACK and the first bytes of the bytestream contain
information about the TCP options that were negotiated with the information about the TCP options that were negotiated with the
Server. Also, a state entry is instantiated for this connection. This Server. Also, a state entry is instantiated for this connection. This
state entry is used by the Converter to handle subsequent messages state entry is used by the Converter to handle subsequent messages
belonging to the connection.</t> belonging to the connection.</t>
<t>The connection can also be established from the Internet towards a <t>The connection can also be established from the Internet towards a
Client via a Transport Converter (<xref target="fig-estab2"></xref>). Client via a Transport Converter (<xref target="fig-estab2"
This is typically the case when the Client hosts an application server format="default"/>). This is typically the case when the Client hosts
that listens to a specific port number. When the Converter receives an an application Server that listens to a specific port number. When the
incoming SYN from a remote host, it checks if it can provide the Converter receives an incoming SYN from a remote host, it checks if it
conversion service for the destination IP address and destination port can provide the conversion service for the destination IP address and
number of that SYN. The Transport Converter receives this SYN because destination port number of that SYN. The Transport Converter receives
it is, for example, on the path between the remote host and the Client this SYN because it is, for example, on the path between the remote
or it provides address sharing service for the Client (Section 2 of host and the Client or it provides address-sharing service for the
<xref target="RFC6269"></xref>). If the check fails, the packet is Client (<xref target="RFC6269" sectionFormat="of" section="2"/>). If
silently ignored by the Converter. If the check is successful, the the check fails, the packet is silently ignored by the Converter. If
Converter tries to initiate a TCP connection towards the Client from the check is successful, the Converter tries to initiate a TCP
its own address and using its configured TCP options. In the SYN that connection towards the Client from its own address and using its
corresponds to this connection attempt, the Transport Convert inserts configured TCP options. In the SYN that corresponds to this connection
a TLV message that indicates the source address and port number of the attempt, the Transport Convert inserts a TLV message that indicates
remote host. A transport session entry is created by the Converter for the source address and port number of the remote host. A transport
this connection. SYN+ACK and ACK will be then exchanged between the session entry is created by the Converter for this connection. SYN+ACK
Client, the Converter, and remote host to confirm the establishment of and ACK will then be exchanged between the Client, the Converter, and
the connection. The Converter uses the transport session entry to remote host to confirm the establishment of the connection. The
proxy packets belonging to the connection.</t> Converter uses the transport session entry to proxy packets belonging
to the connection.</t>
<figure anchor="fig-estab2" <figure anchor="fig-estab2">
title="Establishment of an Incoming TCP Connection Through a Tra <name>Establishment of an Incoming TCP Connection through a Transport
nsport Converter"> Converter</name>
<artwork><![CDATA[ <artwork name="" type="" align="left" alt=""><![CDATA[
Transport Remote Transport Remote
Client Converter Host (RH) Client Converter Host (RH)
| | | | | |
|SYN [<-RH IP@:port]| SYN | |SYN [<-RH IP@:port]| SYN |
|<------------------|<---------------------| |<------------------|<---------------------|
|------------------>|--------------------->| |------------------>|--------------------->|
| SYN+ACK [ ] | SYN+ACK | | SYN+ACK [ ] | SYN+ACK |
| ... | ... | | ... | ... |
]]></artwork> ]]></artwork>
</figure> </figure>
<t>Standard TCP (<xref target="RFC0793" format="default" section="3.4"/>
<t>Standard TCP (<xref target="RFC0793"></xref>, Section 3.4) allows a ) allows a
SYN packet to carry data inside its payload but forbids the receiver SYN packet to carry data inside its payload but forbids the receiver
from delivering it to the application until completion of the from delivering it to the application until completion of the
three-way-handshake. To enable applications to exchange data in a TCP three-way-handshake. To enable applications to exchange data in a TCP
handshake, this specification follows an approach similar to TCP Fast handshake, this specification follows an approach similar to TCP Fast
Open <xref target="RFC7413"></xref> and thus removes the constraint by Open <xref target="RFC7413" format="default"/> and thus, removes the con straint by
allowing data in SYN packets to be delivered to the Transport allowing data in SYN packets to be delivered to the Transport
Converter application.</t> Converter application.</t>
<t>As discussed in <xref target="RFC7413" format="default"/>, such
<t>As discussed in <xref target="RFC7413"></xref>, such change to TCP change to TCP semantics raises two issues. First, duplicate SYNs can
semantic raises two issues. First, duplicate SYNs can cause problems cause problems for applications that rely on TCP; whether or not a
for applications that rely on TCP; whether or not a given application given application is affected depends on the details of that
is affected dependes on the details of that application protocol. application protocol. Second, TCP suffers from SYN flooding attacks
Second, TCP suffers from SYN flooding attacks <xref <xref target="RFC4987" format="default"/>. TFO solves these two
target="RFC4987"></xref>. TFO solves these two problems for problems for applications that can tolerate replays by using the TCP
applications that can tolerate replays by using the TCP Fast Open Fast Open option that includes a cookie. However, the utilization of
option that includes a cookie. However, the utilization of this option this option consumes space in the limited TCP header. Furthermore,
consumes space in the limited TCP header. Furthermore, there are there are situations, as noted in <xref target="RFC7413"
situations, as noted in Section 7.3 of <xref target="RFC7413"></xref> sectionFormat="of" section="7.3"/>, where it is possible to accept the
where it is possible to accept the payload of SYN packets without payload of SYN packets without creating additional security risks such
creating additional security risks such as a network where addresses as a network where addresses cannot be spoofed and the Transport
cannot be spoofed and the Transport Converter only serves a set of Converter only serves a set of hosts that are identified by these
hosts that are identified by these addresses.</t> addresses.</t>
<t>For these reasons, this specification does not mandate the use of <t>For these reasons, this specification does not mandate the use of
the TCP Fast Open option when the Client sends a connection the TCP Fast Open option when the Client sends a connection
establishment packet towards a Transport Converter. The Convert establishment packet towards a Transport Converter. The Convert
Protocol includes an optional Cookie TLV that provides similar Protocol includes an optional Cookie TLV that provides similar
protection as the TCP Fast Open option without consuming space in the protection as the TCP Fast Open option without consuming space in the
TCP header. Furthermore, this design allows for the use of longer TCP header. Furthermore, this design allows for the use of longer
cookies than <xref target="RFC7413"></xref>.</t> cookies than <xref target="RFC7413" format="default"/>.</t>
<t>If the downstream (or upstream) connection fails for some reason <t>If the downstream (or upstream) connection fails for some reason
(excessive retransmissions, reception of an RST segment, etc.), then (excessive retransmissions, reception of an RST segment, etc.), then
the Converter reacts by forcing the tear-down of the upstream (or the Converter reacts by forcing the teardown of the upstream (or
downstream) connection. In particular, if an ICMP error message that downstream) connection. In particular, if an ICMP error message that
indicates a hard error is received on the downstream connection, the indicates a hard error is received on the downstream connection, the
Converter echoes the Code field of that ICMP message in a Destination Converter echoes the Code field of that ICMP message in a Destination
Unreachable Error TLV (see <xref target="sec-error"></xref>) that it Unreachable Error TLV (see <xref target="sec-error" format="default"/>) that it
transmits to the Client. Note that if an ICMP error message that transmits to the Client. Note that if an ICMP error message that
indicates a soft error is received on the downstream connection, the indicates a soft error is received on the downstream connection, the
Converter will retransmit the corresponding data until it is Converter will retransmit the corresponding data until it is
acknowledged or the connection times out. A classification of ICMP acknowledged or the connection times out. A classification of ICMP
soft and hard errors is provided in Table 1 of <xref soft and hard errors is provided in Table 1 of <xref target="RFC5461" fo
target="RFC5461"></xref>.</t> rmat="default"/>.</t>
<t>The same reasoning applies when the upstream connection ends with <t>The same reasoning applies when the upstream connection ends with
an exchange of FIN segments. In this case, the Converter will also an exchange of FIN segments. In this case, the Converter will also
terminate the downstream connection by using FIN segments. If the terminate the downstream connection by using FIN segments. If the
downstream connection terminates with the exchange of FIN segments, downstream connection terminates with the exchange of FIN segments,
the Converter should initiate a graceful termination of the upstream the Converter should initiate a graceful termination of the upstream
connection.</t> connection.</t>
</section> </section>
<section anchor="sec-dbb" numbered="true" toc="default">
<section anchor="sec-dbb" <name>Data Processing at the Transport Converter</name>
title="Data Processing at the Transport Converter"> <t>As mentioned in <xref target="sec-to" format="default"/>, the Transpo
<t>As mentioned in <xref target="sec-to"></xref>, the Transport rt
Converter acts as a TCP proxy between the upstream connection (i.e., Converter acts as a TCP proxy between the upstream connection (i.e.,
between the Client and the Transport Converter) and the downstream between the Client and the Transport Converter) and the downstream
connection (i.e., between the Transport Converter and the Server).</t> connection (i.e., between the Transport Converter and the Server).</t>
<t>The control messages, discussed in <xref <t>The control messages (i.e., the Convert messages discussed in <xref t
target="sec-protocol"></xref>, establish state (called, transport arget="sec-protocol"
session entry) in the Transport Converter that will enable it to proxy format="default"/>) establish state (called transport session entry)
between the two TCP connections.</t> in the Transport Converter that will enable it to proxy between the
two TCP connections.</t>
<t>The Transport Converter uses the transport session entry to proxy <t>The Transport Converter uses the transport session entry to proxy
packets belonging to the connection. An implementation example of a packets belonging to the connection. An implementation example of a
transport session entry for TCP connections is shown in <xref transport session entry for TCP connections is shown in <xref target="fi
target="fig-dbt"></xref>.</t> g-dbt" format="default"/>.</t>
<figure anchor="fig-dbt">
<figure anchor="fig-dbt" title="An Example of Transport Session Entry"> <name>An Example of Transport Session Entry</name>
<artwork><![CDATA[ <artwork name="" type="" align="left" alt=""><![CDATA[
(C,c) <--> (T,t), (S,s), Lifetime (C,c) <--> (T,t), (S,s), Lifetime
Where:
* C and c are the source IP address and source port number
used by the Client for the upstream connection.
* S and s are the Server's IP address and port number.
* T and t are the source IP address and source port number
used by the Transport Converter to proxy the connection.
* Lifetime is a timer that tracks the remaining lifetime of
the entry as assigned by the Converter. When the timer
expires, the entry is deleted.
]]></artwork> ]]></artwork>
</figure> </figure>
<t>Clients send packets bound to connections eligible to the <t> Where:</t>
<ul>
<li>C and c are the source IP address and source port number used by the
Client for the upstream connection.
</li>
<li>S and s are the Server's IP address and port number.
</li>
<li>T and t are the source IP address and source port number used by the
Transport Converter to proxy the connection.
</li>
<li>Lifetime is a timer that tracks the remaining lifetime of the entry as
assigned by the Converter. When the timer expires, the entry is deleted.
</li>
</ul>
<t>Clients send packets bound to connections eligible for the
conversion service to the provisioned Transport Converter and conversion service to the provisioned Transport Converter and
destination port number. This applies for both control messages and destination port number. This applies for both control messages and
data. Additional information is supplied by Clients to the Transport data. Additional information is supplied by Clients to the Transport
Converter by means of Convert messages as detailed in <xref Converter by means of Convert messages as detailed in <xref
target="sec-protocol"></xref>. User data can be included in SYN or target="sec-protocol" format="default"/>. User data can be included in
non-SYN messages. User data is unambiguously distinguished from SYN or non-SYN messages. User data is unambiguously distinguished from
Convert TLVs by a Transport Converter owing to the Convert Fixed Convert TLVs by a Transport Converter owing to the Convert Fixed
Header in the Convert messages (<xref target="sec-header"></xref>). Header in the Convert messages (<xref target="sec-header"
These Convert TLVs are destined to the Transport Convert and are, format="default"/>). These Convert TLVs are destined to the Transport
thus, removed by the Transport Converter when proxying between the two Convert and are, thus, removed by the Transport Converter when
connections.</t> proxying between the two connections.</t>
<t>Upon receipt of a packet that belongs to an existing connection <t>Upon receipt of a packet that belongs to an existing connection
between a Client and the Transport Converter the Converter proxies the between a Client and the Transport Converter, the Converter proxies the
user data to the Server using the information stored in the user data to the Server using the information stored in the
corresponding transport session entry. For example, in reference to corresponding transport session entry. For example, in reference to
<xref target="fig-dbt"></xref>, the Transport Converter proxies the <xref target="fig-dbt" format="default"/>, the Transport Converter proxi
data received from (C, c) downstream using (T,t) as source transport es the
data received from (C,&wj;c) downstream using (T,t) as source transport
address and (S,s) as destination transport address.</t> address and (S,s) as destination transport address.</t>
<t>A similar process happens for data sent from the Server. The <t>A similar process happens for data sent from the Server. The
Converter acts as a TCP proxy and sends the data to the Client relying Converter acts as a TCP proxy and sends the data to the Client relying
upon the information stored in a transport session entry. The upon the information stored in a transport session entry. The
Converter associates a lifetime with state entries used to bind an Converter associates a lifetime with state entries used to bind an
upstream connection with its downstream connection.</t> upstream connection with its downstream connection.</t>
<t>When Multipath TCP is used between the Client and the Transport <t>When Multipath TCP is used between the Client and the Transport
Converter, the Converter maintains more state (e.g. information about Converter, the Converter maintains more state (e.g., information about
the subflows) for each Multipath TCP connection. The procedure the subflows) for each Multipath TCP connection. The procedure
described above continues to apply except that the Converter needs to described above continues to apply except that the Converter needs to
manage the establishment/termination of subflows and schedule packets manage the establishment/termination of subflows and schedule packets
among the established ones. These operations are part of the Multipath among the established ones. These operations are part of the Multipath
TCP implementation. They are independent of the Convert protocol that TCP implementation. They are independent of the Convert Protocol that
only processes the Convert messages in the beginning of the only processes the Convert messages in the beginning of the
bytestream.</t> bytestream.</t>
<t>A Transport Converter may operate in address preservation mode <t>A Transport Converter may operate in address preservation mode
(that is, the Converter does not rewrite the source IP address (i.e., (that is, the Converter does not rewrite the source IP address (i.e.,
C==T)) or address sharing mode (that is, an address pool is shared C==T)) or address-sharing mode (that is, an address pool is shared
among all Clients serviced by the Converter (i.e., C!=T)); refer to among all Clients serviced by the Converter (i.e., C!=T)); refer to
<xref target="sec-add"></xref> for more details. Which behavior to use <xref target="sec-add" format="default"/> for more details. Which
by a Transport Converter is deployment-specific. If address sharing behavior to use by a Transport Converter is deployment specific. If
mode is enabled, the Transport Converter MUST adhere to REQ-2 of <xref address-sharing mode is enabled, the Transport Converter
target="RFC6888"></xref> which implies a default "IP address pooling" <bcp14>MUST</bcp14> adhere to REQ-2 of <xref target="RFC6888"
behavior of "Paired" (as defined in Section 4.1 of <xref format="default"/>, which implies a default "IP address pooling"
target="RFC4787"></xref>) MUST be supported. This behavior is meant to behavior of "Paired" (as defined in <xref target="RFC4787"
avoid breaking applications that depend on the source address sectionFormat="of" section="4.1"/>) <bcp14>MUST</bcp14> be
remaining constant.</t> supported. This behavior is meant to avoid breaking applications that
depend on the source address remaining constant.</t>
</section> </section>
<section anchor="sec-add" <section anchor="sec-add" numbered="true" toc="default">
title="Address Preservation vs. Address Sharing"> <name>Address Preservation vs. Address Sharing</name>
<t>The Transport Converter is provided with instructions about the <t>The Transport Converter is provided with instructions about the
behavior to adopt with regards to the processing of source addresses behavior to adopt with regard to the processing of source addresses
of outgoing packets. The following sub-sections discusses two of outgoing packets. The following subsections discuss two
deployment models for illustration purposes. It is out of the scope of deployment models for illustration purposes. It is out of the scope of
this document to make a recommendation.</t> this document to make a recommendation.</t>
<section anchor="sec-addp" numbered="true" toc="default">
<section anchor="sec-addp" title="Address Preservation"> <name>Address Preservation</name>
<t>In this model, the visible source IP address of a packet proxied <t>In this model, the visible source IP address of a packet proxied
by a Transport Converter to a Server is an IP address of the end by a Transport Converter to a Server is an IP address of the end
host (Client). No dedicated IP address pool is provisioned to the host (Client). No dedicated IP address pool is provisioned to the
Transport Converter, but the Transport Converter is located on the Transport Converter, but the Transport Converter is located on the
path between the Client and the Server.</t> path between the Client and the Server.</t>
<t>For Multipath TCP, the Transport Converter preserves the source <t>For Multipath TCP, the Transport Converter preserves the source
IP address used by the Client when establishing the initial subflow. IP address used by the Client when establishing the initial subflow.
Data conveyed in secondary subflows will be proxied by the Transport Data conveyed in secondary subflows will be proxied by the Transport
Converter using the source IP address of the initial subflow. An Converter using the source IP address of the initial subflow. An
example of a proxied Multipath TCP connection with address example of a proxied Multipath TCP connection with address
preservation is shown in <xref target="fig-addp"></xref>.</t> preservation is shown in <xref target="fig-addp" format="default"/>.</
t>
<figure anchor="fig-addp" title="Example of Address Preservation"> <figure anchor="fig-addp">
<artwork><![CDATA[ <name>Example of Address Preservation</name>
Transport <artwork name="" type="" align="left" alt=""><![CDATA[
Client Converter Server Transport
Client Converter Server
@:C1,C2 @:Tc @:S @:C1,C2 @:Tc @:S
|| | | || | |
|src:C1 SYN dst:Tc|src:C1 dst:S| |src:C1 SYN dst:Tc|src:C1 dst:S|
|-------MPC [->S:port]------->|-------SYN------->| |-------MPC [->S:port]------->|-------SYN------->|
|| | | || | |
||dst:C1 src:Tc|dst:C1 src:S| ||dst:C1 src:Tc|dst:C1 src:S|
|<---------SYN/ACK------------|<-----SYN/ACK-----| |<---------SYN/ACK------------|<-----SYN/ACK-----|
|| | | || | |
|src:C1 dst:Tc|src:C1 dst:S| |src:C1 dst:Tc|src:C1 dst:S|
|------------ACK------------->|-------ACK------->| |------------ACK------------->|-------ACK------->|
| | | | | |
|src:C2 ... dst:Tc| ... | |src:C2 ... dst:Tc| ... |
||<-----Secondary Subflow---->|src:C1 dst:S| ||<-----Secondary Subflow---->|src:C1 dst:S|
|| |-------data------>| || |-------data------>|
| .. | ... | | .. | ... |
Legend: Legend:
Tc: IP address used by the Transport Converter on the internal Tc: IP address used by the Transport Converter on the internal
realm. realm.
]]></artwork> ]]></artwork>
</figure> </figure>
<t>The Transport Converter must be on the forwarding path of <t>The Transport Converter must be on the forwarding path of
incoming traffic. Because the same (destination) IP address is used incoming traffic. Because the same (destination) IP address is used
for both proxied and non-proxied connections, the Transport for both proxied and non-proxied connections, the Transport
Converter should not drop incoming packets it intercepts if no Converter should not drop incoming packets it intercepts if no
matching entry is found for the packets. Unless explicitly matching entry is found for the packets. Unless explicitly
configured otherwise, such packets are forwarded according to the configured otherwise, such packets are forwarded according to the
instructions of a local forwarding table.</t> instructions of a local forwarding table.</t>
</section> </section>
<section anchor="sec-adds" numbered="true" toc="default">
<section anchor="sec-adds" title="Address/Prefix Sharing"> <name>Address/Prefix Sharing</name>
<t>A pool of global IPv4 addresses is provisioned to the Transport <t>A pool of global IPv4 addresses is provisioned to the Transport
Converter along with possible instructions about the address sharing Converter along with possible instructions about the address-sharing
ratio to apply (see Appendix B of <xref target="RFC6269"></xref>). ratio to apply (see <xref target="RFC6269"
An address is thus shared among multiple clients.</t> sectionFormat="of" section="B"/>).
An address is thus shared among multiple Clients.</t>
<t>Likewise, rewriting the source IPv6 prefix <xref <t>Likewise, rewriting the source IPv6 prefix <xref target="RFC6296" f
target="RFC6296"></xref> may be used to ease redirection of incoming ormat="default"/> may be used to ease redirection of incoming
IPv6 traffic towards the appropriate Transport Converter. A pool of IPv6 traffic towards the appropriate Transport Converter. A pool of
IPv6 prefixes is then provisioned to the Transport Converter for IPv6 prefixes is then provisioned to the Transport Converter for
this purpose.</t> this purpose.</t>
<t>Adequate forwarding policies are enforced so that traffic <t>Adequate forwarding policies are enforced so that traffic
destined to an address of such pool is intercepted by the destined to an address of such a pool is intercepted by the
appropriate Transport Converter. Unlike <xref appropriate Transport Converter. Unlike <xref target="sec-addp"
target="sec-addp"></xref>, the Transport Converter drops incoming format="default"/>, the Transport Converter drops incoming packets
packets which do not match an active transport session entry.</t> that do not match an active transport session entry.</t>
<t>An example is shown in <xref target="fig-adds" format="default"/>.<
<t>An example is shown in <xref target="fig-adds"></xref>.</t> /t>
<figure anchor="fig-adds">
<figure anchor="fig-adds" title="Address Sharing"> <name>Address Sharing</name>
<artwork><![CDATA[ <artwork name="" type="" align="left" alt=""><![CDATA[
Transport Transport
Client Converter Server Client Converter Server
@:C @:Tc|Te @:S @:C @:Tc|Te @:S
| | | | | |
|src:C dst:Tc|src:Te dst:S| |src:C dst:Tc|src:Te dst:S|
|-------SYN [->S:port]------->|-------SYN------->| |-------SYN [->S:port]------->|-------SYN------->|
| | | | | |
|dst:C src:Tc|dst:Te src:S| |dst:C src:Tc|dst:Te src:S|
|<---------SYN/ACK------------|<-----SYN/ACK-----| |<---------SYN/ACK------------|<-----SYN/ACK-----|
| | | | | |
|src:C dst:Tc|src:Te dst:S| |src:C dst:Tc|src:Te dst:S|
|------------ACK------------->|-------ACK------->| |------------ACK------------->|-------ACK------->|
| | | | | |
| ... | ... | | ... | ... |
Legend: Legend:
Tc: IP address used by the Transport Converter on the internal Tc: IP address used by the Transport Converter on the internal
realm. realm.
Te: IP address used by the Transport Converter on the external Te: IP address used by the Transport Converter on the external
realm. realm.
]]></artwork> ]]></artwork>
</figure> </figure>
</section> </section>
</section> </section>
</section> </section>
<section anchor="sample-examples" numbered="true" toc="default">
<section anchor="sample-examples" title="Sample Examples"> <name>Sample Examples</name>
<section anchor="outgoing-converter-assisted-multipath-tcp-connections" <section anchor="outgoing-converter-assisted-multipath-tcp-connections" nu
title="Outgoing Converter-Assisted Multipath TCP Connections"> mbered="true" toc="default">
<name>Outgoing Converter-Assisted Multipath TCP Connections</name>
<t>As an example, let us consider how the Convert Protocol can help <t>As an example, let us consider how the Convert Protocol can help
the deployment of Multipath TCP. We assume that both the Client and the deployment of Multipath TCP. We assume that both the Client and
the Transport Converter support Multipath TCP, but consider two the Transport Converter support Multipath TCP but consider two
different cases depending on whether the Server supports Multipath TCP different cases depending on whether or not the Server supports Multipat
or not.</t> h TCP.</t>
<t>As a reminder, a Multipath TCP connection is created by placing the <t>As a reminder, a Multipath TCP connection is created by placing the
MP_CAPABLE (MPC) option in the SYN sent by the Client.</t> MP_CAPABLE (MPC) option in the SYN sent by the Client.</t>
<t><xref target="fig-mpestab" format="default"/> describes the operation
<t><xref target="fig-mpestab"></xref> describes the operation of the of the
Transport Converter if the Server does not support Multipath TCP.</t> Transport Converter if the Server does not support Multipath TCP.</t>
<figure anchor="fig-mpestab">
<figure anchor="fig-mpestab" <name>Establishment of a Multipath TCP Connection through a
title="Establishment of a Multipath TCP Connection through a Tra Transport Converter towards a Server That Does Not support Multipath
nsport Converter towards a Server that does not support Multipath TCP"> TCP</name>
<artwork><![CDATA[ <artwork name="" type="" align="left" alt=""><![CDATA[
Transport Transport
Client Converter Server Client Converter Server
|SYN, MPC | | |SYN, MPC | |
|[->Server:port] | SYN, MPC | |[->Server:port] | SYN, MPC |
|------------------>|--------------------->| |------------------>|--------------------->|
|<------------------|<---------------------| |<------------------|<---------------------|
| SYN+ACK,MPC [.] | SYN+ACK | | SYN+ACK,MPC [.] | SYN+ACK |
|------------------>|--------------------->| |------------------>|--------------------->|
| ACK, MPC | ACK | | ACK, MPC | ACK |
| ... | ... | | ... | ... |
skipping to change at line 887 skipping to change at line 862
|SYN, MPC | | |SYN, MPC | |
|[->Server:port] | SYN, MPC | |[->Server:port] | SYN, MPC |
|------------------>|--------------------->| |------------------>|--------------------->|
|<------------------|<---------------------| |<------------------|<---------------------|
| SYN+ACK,MPC [.] | SYN+ACK | | SYN+ACK,MPC [.] | SYN+ACK |
|------------------>|--------------------->| |------------------>|--------------------->|
| ACK, MPC | ACK | | ACK, MPC | ACK |
| ... | ... | | ... | ... |
]]></artwork> ]]></artwork>
</figure> </figure>
<t>The Client tries to initiate a Multipath TCP connection by sending <t>The Client tries to initiate a Multipath TCP connection by sending
a SYN with the MP_CAPABLE option (MPC in <xref a SYN with the MP_CAPABLE option (MPC in <xref target="fig-mpestab" form
target="fig-mpestab"></xref>). The SYN includes the address and port at="default"/>). The SYN includes the address and port
number of the target Server, that are extracted and used by the number of the target Server, that are extracted and used by the
Transport Converter to initiate a Multipath TCP connection towards Transport Converter to initiate a Multipath TCP connection towards
this Server. Since the Server does not support Multipath TCP, it this Server. Since the Server does not support Multipath TCP, it
replies with a SYN+ACK that does not contain the MP_CAPABLE option. replies with a SYN+ACK that does not contain the MP_CAPABLE option.
The Transport Converter notes that the connection with the Server does The Transport Converter notes that the connection with the Server does
not support Multipath TCP and returns the extended TCP header received not support Multipath TCP and returns the extended TCP header received
from the Server to the Client.</t> from the Server to the Client.</t>
<t>Note that, if the TCP connection is reset for some reason, the <t>Note that, if the TCP connection is reset for some reason, the
Converter tears down the Multipath TCP connection by transmitting a Converter tears down the Multipath TCP connection by transmitting an
MP_FASTCLOSE. Likewise, if the Multipath TCP connection ends with the MP_FASTCLOSE. Likewise, if the Multipath TCP connection ends with the
transmission of DATA_FINs, the Converter terminates the TCP connection transmission of DATA_FINs, the Converter terminates the TCP connection
by using FIN segments. As a side note, given that with Multipath TCP, by using FIN segments. As a side note, given that with Multipath TCP,
RST only has the scope of the subflow and will only close the RST only has the scope of the subflow and will only close the
concerned subflow but not affect the remaining subflows, the Converter concerned subflow but not affect the remaining subflows, the Converter
does not terminate the downstream TCP connection upon receipt of an does not terminate the downstream TCP connection upon receipt of an
RST over a Multipath subflow.</t> RST over a Multipath subflow.</t>
<t><xref target="fig-mpestabok" format="default"/> considers a Server th
<t><xref target="fig-mpestabok"></xref> considers a Server that at
supports Multipath TCP. In this case, it replies to the SYN sent by supports Multipath TCP. In this case, it replies to the SYN sent by
the Transport Converter with the MP_CAPABLE option. Upon reception of the Transport Converter with the MP_CAPABLE option. Upon reception of
this SYN+ACK, the Transport Converter confirms the establishment of this SYN+ACK, the Transport Converter confirms the establishment of
the connection to the Client and indicates to the Client that the the connection to the Client and indicates to the Client that the
Server supports Multipath TCP. With this information, the Client has Server supports Multipath TCP. With this information, the Client has
discovered that the Server supports Multipath TCP. This will enable discovered that the Server supports Multipath TCP. This will enable
the Client to bypass the Transport Converter for the subsequent the Client to bypass the Transport Converter for the subsequent
Multipath TCP connections that it will initiate towards this Multipath TCP connections that it will initiate towards this
Server.</t> Server.</t>
<figure anchor="fig-mpestabok">
<figure anchor="fig-mpestabok" <name>Establishment of a Multipath TCP Connection through a
title="Establishment of a Multipath TCP Connection through a Con Converter towards an MPTCP-Capable Server</name>
verter towards an MPTCP-capable Server"> <artwork name="" type="" align="left" alt=""><![CDATA[
<artwork><![CDATA[
Transport Transport
Client Converter Server Client Converter Server
|SYN, MPC | | |SYN, MPC | |
|[->Server:port] | SYN, MPC | |[->Server:port] | SYN, MPC |
|------------------>|--------------------->| |------------------>|--------------------->|
|<------------------|<---------------------| |<------------------|<---------------------|
|SYN+ACK, MPC | SYN+ACK, MPC | |SYN+ACK, MPC | SYN+ACK, MPC |
|[MPC supported] | | |[MPC supported] | |
|------------------>|--------------------->| |------------------>|--------------------->|
| ACK, MPC | ACK, MPC | | ACK, MPC | ACK, MPC |
| ... | ... | | ... | ... |
]]></artwork> ]]></artwork>
</figure> </figure>
</section> </section>
<section anchor="incoming-converter-assisted-multipath-tcp-connection" num
<section anchor="incoming-converter-assisted-multipath-tcp-connection" bered="true" toc="default">
title="Incoming Converter-Assisted Multipath TCP Connection"> <name>Incoming Converter-Assisted Multipath TCP Connection</name>
<t>An example of an incoming Converter-assisted Multipath TCP <t>An example of an incoming Converter-assisted Multipath TCP
connection is depicted in <xref target="fig-inestab"></xref>. In order connection is depicted in <xref target="fig-inestab"
to support incoming connections from remote hosts, the Client may use format="default"/>. In order to support incoming connections from
PCP <xref target="RFC6887"></xref> to instruct the Transport Converter remote hosts, the Client may use the Port Control Protocol (PCP) <xref
to create dynamic mappings. Those mappings will be used by the target="RFC6887" format="default"/> to instruct the Transport
Transport Converter to intercept an incoming TCP connection destined Converter to create dynamic mappings. Those mappings will be used by
to the Client and convert it into a Multipath TCP connection.</t> the Transport Converter to intercept an incoming TCP connection
destined to the Client and convert it into a Multipath TCP
connection.</t>
<t>Typically, the Client sends a PCP request to the Converter asking <t>Typically, the Client sends a PCP request to the Converter asking
to create an explicit TCP mapping for (internal IP address, internal to create an explicit TCP mapping for the internal IP address and
port number). The Converter accepts the request by creating a TCP internal port number. The Converter accepts the request by creating a
mapping (internal IP address, internal port number, external IP TCP mapping for the internal IP address, internal port number,
address, external port number). The external IP address, external port external IP address, and external port number. The external IP
number, and assigned lifetime are returned back the Client in the PCP address, external port number, and assigned lifetime are returned back
response. The external IP address and external port number will be to the Client in the PCP response. The external IP address and
then advertised by the Client (or the user) using an out-of-band external port number will then be advertised by the Client (or the
mechanism so that remote hosts can initiate TCP connections to the user) using an out-of-band mechanism so that remote hosts can initiate
Client via the Converter. Note that the external and internal TCP connections to the Client via the Converter. Note that the
information may be the same.</t> external and internal information may be the same.</t>
<t>Then, when the Converter receives an incoming SYN, it checks its <t>Then, when the Converter receives an incoming SYN, it checks its
mapping table to verify if there is an active mapping matching the mapping table to verify if there is an active mapping matching the
destination IP address and destination port of that SYN. If no entry destination IP address and destination port of that SYN. If no entry
is found, the Converter silently ignores the message. If an entry is is found, the Converter silently ignores the message. If an entry is
found, the Converter inserts an MP_CAPABLE option and Connect TLV in found, the Converter inserts an MP_CAPABLE option and Connect TLV in
the SYN packet, rewrites the source IP address to one of its IP the SYN packet, and rewrites the source IP address to one of its IP
addresses and, eventually, the destination IP address and port number addresses and, eventually, the destination IP address and port number
in accordance with the information stored in the mapping. SYN+ACK and in accordance with the information stored in the mapping. SYN+ACK and
ACK will be then exchanged between the Client and the Converter to ACK will then be exchanged between the Client and the Converter to
confirm the establishment of the initial subflow. The Client can add confirm the establishment of the initial subflow. The Client can add
new subflows following normal Multipath TCP procedures.</t> new subflows following normal Multipath TCP procedures.</t>
<figure anchor="fig-inestab">
<figure anchor="fig-inestab" <name>Establishment of an Incoming Multipath TCP Connection through a
title="Establishment of an Incoming Multipath TCP Connection thr Transport Converter</name>
ough a Transport Converter"> <artwork name="" type="" align="left" alt=""><![CDATA[
<artwork><![CDATA[
Transport Remote Transport Remote
Client Converter Host Client Converter Host
| | | | | |
|<--------------------|<-------------------| |<--------------------|<-------------------|
|SYN, MPC | SYN | |SYN, MPC | SYN |
|[Remote Host:port] | | |[Remote Host:port] | |
|-------------------->|------------------->| |-------------------->|------------------->|
| SYN+ACK, MPC | SYN+ACK | | SYN+ACK, MPC | SYN+ACK |
|<--------------------|<-------------------| |<--------------------|<-------------------|
| ACK, MPC | ACK | | ACK, MPC | ACK |
skipping to change at line 989 skipping to change at line 959
|<--------------------|<-------------------| |<--------------------|<-------------------|
|SYN, MPC | SYN | |SYN, MPC | SYN |
|[Remote Host:port] | | |[Remote Host:port] | |
|-------------------->|------------------->| |-------------------->|------------------->|
| SYN+ACK, MPC | SYN+ACK | | SYN+ACK, MPC | SYN+ACK |
|<--------------------|<-------------------| |<--------------------|<-------------------|
| ACK, MPC | ACK | | ACK, MPC | ACK |
| ... | ... | | ... | ... |
]]></artwork> ]]></artwork>
</figure> </figure>
<t>It is out of scope of this document to define specific Convert TLVs <t>It is out of scope of this document to define specific Convert TLVs
to manage incoming connections (that is, TLVs that mimic PCP to manage incoming connections (that is, TLVs that mimic PCP
messages). These TLVs can be defined in a separate document.</t> messages). These TLVs can be defined in a separate document.</t>
</section> </section>
</section> </section>
<section anchor="sec-protocol" numbered="true" toc="default">
<section anchor="sec-protocol" title="The Convert Protocol (Convert)"> <name>The Convert Protocol (Convert)</name>
<t>This section defines the Convert Protocol (Convert, for short) <t>This section defines the Convert Protocol (Convert, for short)
messages that are exchanged between a Client and a Transport messages that are exchanged between a Client and a Transport
Converter.</t> Converter.</t>
<t>The Transport Converter listens on a specific TCP port number for <t>The Transport Converter listens on a specific TCP port number for
Convert messages from Clients. That port number is configured by an Convert messages from Clients. That port number is configured by an
administrator. Absent any policy, the Transport Converter SHOULD administrator. Absent any policy, the Transport Converter <bcp14>SHOULD</b cp14>
silently ignore SYNs with no Convert TLVs.</t> silently ignore SYNs with no Convert TLVs.</t>
<t>Convert messages may appear only in SYN, SYN+ACK, or ACK.</t> <t>Convert messages may appear only in SYN, SYN+ACK, or ACK.</t>
<t>Convert messages <bcp14>MUST</bcp14> be included as the first bytes
<t>Convert messages MUST be included as the first bytes of the of the bytestream. All Convert messages start with a fixed header that
bytestream. All Convert messages starts with a 32 bits long fixed header is 32 bits long (<xref target="sec-header" format="default"/>) followed
(<xref target="sec-header"></xref>) followed by one or more Convert TLVs by one or more Convert TLVs (Type, Length, Value) (<xref
(Type, Length, Value) (<xref target="sec-tlv"></xref>).</t> target="sec-tlv" format="default"/>).</t>
<t>If the initial SYN message contains user data in its payload (e.g., see
<t>If the initial SYN message contains user data in its payload (e.g., <xref target="RFC7413" format="default"/>), that data <bcp14>MUST</bcp14>
<xref target="RFC7413"></xref>), that data MUST be placed right after be placed right after
the Convert TLVs when generating the SYN.</t> the Convert TLVs when generating the SYN.</t>
<t>The protocol can be extended by defining new TLVs or bumping the <t>The protocol can be extended by defining new TLVs or bumping the
version number if a different message format is needed. If a future version number if a different message format is needed. If a future
version is defined but with a different message format, the version version is defined but with a different message format, the version
negotiation procedure defined in <xref target="sec-error"></xref> (see negotiation procedure defined in <xref target="sec-error" format="default" /> (see
"Unsupported Version") is meant to agree on a version that is supported "Unsupported Version") is meant to agree on a version that is supported
by both peers.</t> by both peers.</t>
<t><list style="symbols"> <aside>
<t>Implementation note 1: Several implementers expressed concerns <t>Implementation note 1: Several implementers expressed concerns
about the use of TFO. As a reminder, the TFO Cookie protects from about the use of TFO. As a reminder, the Fast Open Cookie protects from
some attack scenarios that affect open servers like web servers. The some
Convert Protocol is different and, as discussed in RFC7413, there attack scenarios that affect open servers like web servers. The
are different ways to protect from such attacks. Instead of using a Convert Protocol is different and, as discussed in <xref
TFO cookie inside the TCP options, which consumes precious space in target="RFC7413"/>, there are different ways to protect from such
the extended TCP header, the Convert Protocol supports the attacks. Instead of using a Fast Open Cookie inside the TCP options, whi
utilization of a Cookie that is placed in the SYN payload. This ch
provides the same level of protection as a TFO Cookie in consumes precious space in the extended TCP header, the Convert
environments were such protection is required.</t> Protocol supports the utilization of a Cookie that is placed in the
SYN payload. This provides the same level of protection as a Fast Open
<t>Implementation note 2: Error messages are not included in RST but Cookie in environments were such protection is required.</t>
<t>Implementation note 2: Error messages are not included in RST but
sent in the bytestream. Implementers have indicated that processing sent in the bytestream. Implementers have indicated that processing
RST on clients was difficult on some platforms. This design RST on Clients was difficult on some platforms. This design
simplifies client implementations.</t> simplifies Client implementations.</t>
</list></t> </aside>
<section anchor="sec-header" numbered="true" toc="default">
<section anchor="sec-header" title="The Convert Fixed Header"> <name>The Convert Fixed Header</name>
<t>The Convert Protocol uses a 32 bits long fixed header that is sent <t>The Convert Protocol uses a fixed header that is 32 bits long sent
by both the Client and the Transport Converter over each established by both the Client and the Transport Converter over each established
connection. This header indicates both the version of the protocol connection. This header indicates both the version of the protocol
used and the length of the Convert message.</t> used and the length of the Convert message.</t>
<t>The Client and the Transport Converter <bcp14>MUST</bcp14> send the f
<t>The Client and the Transport Converter MUST send the fixed-sized ixed-sized
header, shown in <xref target="fig-header"></xref>, as the first four header, shown in <xref target="fig-header" format="default"/>, as the fi
rst four
bytes of the bytestream.</t> bytes of the bytestream.</t>
<figure anchor="fig-header">
<figure anchor="fig-header" title="The Convert Fixed Header"> <name>The Convert Fixed Header</name>
<artwork><![CDATA[ <artwork name="" type="" align="left" alt=""><![CDATA[
1 2 3 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+---------------+---------------+-------------------------------+ +---------------+---------------+-------------------------------+
| Version | Total Length | Magic Number | | Version | Total Length | Magic Number |
+---------------+---------------+-------------------------------+ +---------------+---------------+-------------------------------+
]]></artwork> ]]></artwork>
</figure> </figure>
<t>The version is encoded as an 8-bit unsigned integer value. This
<t>The Version is encoded as an 8 bits unsigned integer value. This
document specifies version 1. Version 0 is reserved by this document document specifies version 1. Version 0 is reserved by this document
and MUST NOT be used.<list style="empty"> and <bcp14>MUST NOT</bcp14> be used.</t>
<t>Note: Early versions of this specification don't use a
<aside>
<t>
Note: Early versions of this specification don't use a
dedicated port number but only rely upon the IP address of the dedicated port number but only rely upon the IP address of the
Converter. Having a bit set in the version field together with the Converter. Having a bit set in the Version field together with the
length field allows to avoid mis-interpreting a data in a SYN as Total Length field avoids misinterpreting data in a SYN as Convert
Convert TLVs. Since the design was updated to use a specific TLVs. Since the design was updated to use a specific
service port, that constraint was relaxed. Version 0 would work service port, that constraint was relaxed. Version 0 would work,
but given existing implementations already use Version 1, the use but given existing implementations already use Version 1, the use
of Version 0 is maintained as reserved.</t> of Version 0 is maintained as reserved.</t>
</list></t> </aside>
<t>The Total Length is the number of 32 bits word, including the <t>The Total Length is the number of 32-bit words, including the
header, of the bytestream that are consumed by the Convert messages. header, of the bytestream that are consumed by the Convert messages.
Since Total Length is also an 8 bits unsigned integer, those messages Since Total Length is also an 8-bit unsigned integer, those messages
cannot consume more than 1020 bytes of data. This limits the number of cannot consume more than 1020 bytes of data. This limits the number of
bytes that a Transport Converter needs to process. A Total Length of bytes that a Transport Converter needs to process. A Total Length of
zero is invalid and the connection MUST be reset upon reception of a zero is invalid and the connection <bcp14>MUST</bcp14> be reset upon rec
header with such total length.</t> eption of a
header with such a total length.</t>
<t>The Magic Number field MUST be set to the RFC number to be assigned <t>The Magic Number field <bcp14>MUST</bcp14> be set to 0x2263. This
to this document. This field is meant to further strengthen the field is meant to further strengthen the protocol to unambiguously
protocol to unambiguously distinguish any data supplied by an distinguish any data supplied by an application from Convert TLVs. </t>
application from Convert TLVs. <list style="symbols">
<t>Note to the RFC Editor: Please replace "the RFC number to be
assigned to this document" with the hex representation of the RFC
number assigned to this document.</t>
</list></t>
<t>The Total Length field unambiguously marks the number of 32 bits <t>The Total Length field unambiguously marks the number of 32-bit
words that carry Convert TLVs in the beginning of the bytestream.</t> words that carry Convert TLVs in the beginning of the bytestream.</t>
</section> </section>
<section anchor="sec-tlv" numbered="true" toc="default">
<section anchor="sec-tlv" title="Convert TLVs"> <name>Convert TLVs</name>
<section anchor="generic-convert-tlv-format" <section anchor="generic-convert-tlv-format" numbered="true" toc="defaul
title="Generic Convert TLV Format"> t">
<name>Generic Convert TLV Format</name>
<t>The Convert Protocol uses variable length messages that are <t>The Convert Protocol uses variable length messages that are
encoded using the generic TLV format depicted in <xref encoded using the generic TLV format depicted in <xref target="fi-gene
target="fi-generictlv"></xref>.</t> rictlv" format="default"/>.</t>
<t>The length of all TLVs used by the Convert Protocol is always a <t>The length of all TLVs used by the Convert Protocol is always a
multiple of four bytes. All TLVs are aligned on 32 bits boundaries. multiple of four bytes. All TLVs are aligned on 32-bit boundaries.
All TLV fields are encoded using the network byte order.</t> All TLV fields are encoded using the network byte order.</t>
<figure anchor="fi-generictlv">
<figure anchor="fi-generictlv" title="Convert Generic TLV Format"> <name>Convert Generic TLV Format</name>
<artwork><![CDATA[ <artwork name="" type="" align="left" alt=""><![CDATA[
1 2 3 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+---------------+---------------+-------------------------------+ +---------------+---------------+-------------------------------+
| Type | Length | Value ... | | Type | Length | Value ... |
+---------------+---------------+-------------------------------+ +---------------+---------------+-------------------------------+
// ... (optional) Value // // ... (optional) Value //
+---------------------------------------------------------------+ +---------------------------------------------------------------+
]]></artwork> ]]></artwork>
</figure> </figure>
<t>The Length field covers Type, Length, and Value fields. It is <t>The Length field covers Type, Length, and Value fields. It is
expressed in units of 32 bits words. If necessary, Value MUST be expressed in units of 32-bit words. If necessary, Value <bcp14>MUST</b cp14> be
padded with zeroes so that the length of the TLV is a multiple of 32 padded with zeroes so that the length of the TLV is a multiple of 32
bits.</t> bits.</t>
<t>A given TLV <bcp14>MUST</bcp14> only appear once on a connection. I
<t>A given TLV MUST only appear once on a connection. If a Client f a Client
receives two or more instances of the same TLV over a Convert receives two or more instances of the same TLV over a Convert
connection, it MUST reset the associated TCP connection. If a connection, it <bcp14>MUST</bcp14> reset the associated TCP connection . If a
Converter receives two or more instances of the same TLV over a Converter receives two or more instances of the same TLV over a
Convert connection, it MUST return a Malformed Message Error TLV and Convert connection, it <bcp14>MUST</bcp14> return a Malformed Message Error TLV and
close the associated TCP connection.</t> close the associated TCP connection.</t>
</section> </section>
<section anchor="summary-of-supported-convert-tlvs" numbered="true" toc=
<section anchor="summary-of-supported-convert-tlvs" "default">
title="Summary of Supported Convert TLVs"> <name>Summary of Supported Convert TLVs</name>
<t>This document specifies the following Convert TLVs:</t> <t>This document specifies the following Convert TLVs:</t>
<figure anchor="tab-converter-tlv" <table anchor="tab-converter-tlv">
title="The TLVs used by the Convert Protocol"> <name>The TLVs Used by the Convert Protocol</name>
<artwork><![CDATA[ <thead>
+------+-----+----------+------------------------------------------+ <tr>
| Type | Hex | Length | Description | <th>Type</th>
+------+-----+----------+------------------------------------------+ <th>Hex</th>
| 1 | 0x1 | 1 | Info TLV | <th>Length</th>
| 10 | 0xA | Variable | Connect TLV | <th>Description</th>
| 20 | 0x14| Variable | Extended TCP Header TLV | </tr>
| 21 | 0x15| Variable | Supported TCP Extensions TLV | </thead>
| 22 | 0x16| Variable | Cookie TLV | <tbody>
| 30 | 0x1E| Variable | Error TLV | <tr>
+------+-----+----------+------------------------------------------+ <td>1</td>
]]></artwork> <td>0x1</td>
</figure> <td>1</td>
<td>Info TLV</td>
</tr>
<tr>
<td>10</td>
<td>0xA</td>
<td>Variable</td>
<td>Connect TLV</td>
</tr>
<tr>
<td>20</td>
<td>0x14</td>
<td>Variable</td>
<td>Extended TCP Header TLV</td>
</tr>
<tr>
<td>21</td>
<td>0x15</td>
<td>Variable</td>
<td>Supported TCP Extensions TLV</td>
</tr>
<tr>
<td>22</td>
<td>0x16</td>
<td>Variable</td>
<td>Cookie TLV</td>
</tr>
<tr>
<td>30</td>
<td>0x1E</td>
<td>Variable</td>
<td>Error TLV</td>
</tr>
</tbody>
</table>
<t>Type 0x0 is a reserved value. If a Client receives a TLV of type <t>Type 0x0 is a reserved value. If a Client receives a TLV of type
0x0, it MUST reset the associated TCP connection. If a Converter 0x0, it <bcp14>MUST</bcp14> reset the associated TCP connection. If a
receives a TLV of type 0x0, it MUST return an Unsupported Message Converter
receives a TLV of type 0x0, it <bcp14>MUST</bcp14> return an Unsupport
ed Message
Error TLV and close the associated TCP connection.</t> Error TLV and close the associated TCP connection.</t>
<t>The Client typically sends, in the first connection it established
<t>The Client typically sends in the first connection it established with a Transport Converter, the Info TLV (<xref
with a Transport Converter the Info TLV (<xref target="sec-bootstrap-tlv" format="default"/>) to learn its
target="sec-bootstrap-tlv"></xref>) to learn its capabilities. capabilities. Assuming the Client is authorized to invoke the
Assuming the Client is authorized to invoke the Transport Converter, Transport Converter, the latter replies with the Supported TCP
the latter replies with the Supported TCP Extensions TLV (<xref Extensions TLV (<xref target="sec-supported"
target="sec-supported"></xref>).</t> format="default"/>).</t>
<t>The Client can request the establishment of connections to <t>The Client can request the establishment of connections to
servers by using the Connect TLV (<xref Servers by using the Connect TLV (<xref target="sec-connect"
target="sec-connect"></xref>). If the connection can be established format="default"/>). If the connection can be established with the
with the final server, the Transport Converter replies with the final Server, the Transport Converter replies with the Extended TCP
Extended TCP Header TLV (<xref target="sec-ext-header"></xref>). If Header TLV (<xref target="sec-ext-header" format="default"/>). If
not, the Transport Converter MUST return an Error TLV (<xref not, the Transport Converter <bcp14>MUST</bcp14> return an Error TLV
target="sec-error"></xref>) and then closes the connection. The (<xref target="sec-error" format="default"/>) and then close the
Transport Converter MUST NOT send an RST immediately after the connection. The Transport Converter <bcp14>MUST NOT</bcp14> send an
detection of an error to let the Error TLV reach the Client. As RST immediately after the detection of an error to let the Error TLV
explained later, the Client will anyway send an RST upon reception reach the Client. As explained later, the Client will send an RST
of the Error TLV.</t> regardless upon reception of the Error TLV.</t>
</section> </section>
<section anchor="sec-bootstrap-tlv" numbered="true" toc="default">
<section anchor="sec-bootstrap-tlv" title="The Info TLV"> <name>The Info TLV</name>
<t>The Info TLV (<xref target="fig-bootstrap"></xref>) is an <t>The Info TLV (<xref target="fig-bootstrap" format="default"/>) is
optional TLV which can be sent by a Client to request the TCP an optional TLV that can be sent by a Client to request the TCP
extensions that are supported by a Transport Converter. It is extensions that are supported by a Transport Converter. It is
typically sent on the first connection that a Client establishes typically sent on the first connection that a Client establishes
with a Transport Converter to learn its capabilities. Assuming a with a Transport Converter to learn its capabilities. Assuming a
Client is entitled to invoke the Transport Converter, the latter Client is entitled to invoke the Transport Converter, the latter
replies with the Supported TCP Extensions TLV described in <xref replies with the Supported TCP Extensions TLV described in <xref
target="sec-supported"></xref>.</t> target="sec-supported" format="default"/>.</t>
<figure anchor="fig-bootstrap">
<figure anchor="fig-bootstrap" title="The Info TLV"> <name>The Info TLV</name>
<artwork><![CDATA[ <artwork name="" type="" align="left" alt=""><![CDATA[
1 2 3 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+---------------+---------------+-------------------------------+ +---------------+---------------+-------------------------------+
| Type=0x1 | Length | Zero | | Type=0x1 | Length | Zero |
+---------------+---------------+-------------------------------+ +---------------+---------------+-------------------------------+
]]></artwork> ]]></artwork>
</figure> </figure>
</section> </section>
<section anchor="sec-supported" numbered="true" toc="default">
<section anchor="sec-supported" title="Supported TCP Extensions TLV"> <name>Supported TCP Extensions TLV</name>
<t>The Supported TCP Extensions TLV (<xref <t>The Supported TCP Extensions TLV (<xref target="fig-supported"
target="fig-supported"></xref>) is used by a Transport Converter to format="default"/>) is used by a Transport Converter to announce the
announce the TCP options for which it provides a conversion service. TCP options for which it provides a conversion service. A Transport
A Transport Converter SHOULD include in this list the TCP options Converter <bcp14>SHOULD</bcp14> include in this list the TCP options
that it supports in outgoing SYNs.</t> that it supports in outgoing SYNs.</t>
<t>Each supported TCP option is encoded with its TCP option Kind <t>Each supported TCP option is encoded with its TCP option Kind
listed in the "TCP Parameters" registry maintained by IANA. The listed in the "Transmission Control Protocol (TCP) Parameters"
Unassigned field MUST be set to zero by the Transport Converter and registry maintained by IANA <xref target="IANA-CONVERT"/>. The Unassig
ned field
<bcp14>MUST</bcp14> be set to zero by the Transport Converter and
ignored by the Client.</t> ignored by the Client.</t>
<figure anchor="fig-supported">
<figure anchor="fig-supported" <name>The Supported TCP Extensions TLV</name>
title="The Supported TCP Extensions TLV"> <artwork name="" type="" align="left" alt=""><![CDATA[
<artwork><![CDATA[
1 2 3 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+---------------+---------------+-------------------------------+ +---------------+---------------+-------------------------------+
| Type=0x15 | Length | Unassigned | | Type=0x15 | Length | Unassigned |
+---------------+---------------+-------------------------------+ +---------------+---------------+-------------------------------+
| Kind #1 | Kind #2 | ... | | Kind #1 | Kind #2 | ... |
+---------------+---------------+-------------------------------+ +---------------+---------------+-------------------------------+
/ ... / / ... /
/ / / /
+---------------------------------------------------------------+ +---------------------------------------------------------------+
]]></artwork> ]]></artwork>
</figure> </figure>
<t>TCP option Kinds 1 and 2 defined in <xref target="RFC0793"
<t>TCP option Kinds 1 and 2 defined in <xref format="default"/> are supported by all TCP implementations and
target="RFC0793"></xref> are supported by all TCP implementations thus, <bcp14>MUST NOT</bcp14> appear in this list.</t>
and thus MUST NOT appear in this list.</t>
<t>The list of Supported TCP Extensions is padded with 0 to end on a <t>The list of Supported TCP Extensions is padded with 0 to end on a
32 bits boundary.</t> 32-bit boundary.</t>
<t>For example, if the Transport Converter supports Multipath TCP, <t>For example, if the Transport Converter supports Multipath TCP,
Kind=30 will be present in the Supported TCP Extensions TLV that it Kind=30 will be present in the Supported TCP Extensions TLV that it
returns in response to Info TLV.</t> returns in response to the Info TLV.</t>
</section> </section>
<section anchor="sec-connect" numbered="true" toc="default">
<section anchor="sec-connect" title="Connect TLV"> <name>Connect TLV</name>
<t>The Connect TLV (<xref target="fig-connect"></xref>) is used to <t>The Connect TLV (<xref target="fig-connect" format="default"/>) is
used to
request the establishment of a connection via a Transport Converter. request the establishment of a connection via a Transport Converter.
This connection can be from or to a Client.</t> This connection can be from or to a Client.</t>
<t>The Remote Peer Port and Remote Peer IP Address fields
<t>The 'Remote Peer Port' and 'Remote Peer IP Address' fields
contain the destination port number and IP address of the Server, contain the destination port number and IP address of the Server,
for outgoing connections. For incoming connections destined to a for outgoing connections. For incoming connections destined to a
Client serviced via a Transport Converter, these fields convey the Client serviced via a Transport Converter, these fields convey the
source port number and IP address of the SYN packet received by the source port number and IP address of the SYN packet received by the
Transport Converter from the server.</t> Transport Converter from the Server.</t>
<t>The Remote Peer IP Address MUST be encoded as an IPv6 address.
IPv4 addresses MUST be encoded using the IPv4-Mapped IPv6 Address
format defined in <xref target="RFC4291"></xref>. Further, Remote
Peer IP address field MUST NOT include multicast, broadcast, and
host loopback addresses <xref target="RFC6890"></xref>. If a
Converter receives a Connect TLVs with such invalid addresses, it
MUST reply with a Malformed Message Error TLV and close the
associated TCP connection.</t>
<t>The Remote Peer IP Address <bcp14>MUST</bcp14> be encoded as an
IPv6 address. IPv4 addresses <bcp14>MUST</bcp14> be encoded using
the IPv4-mapped IPv6 address format defined in <xref
target="RFC4291" format="default"/>. Further, the Remote Peer IP
Address field <bcp14>MUST NOT</bcp14> include multicast, broadcast,
or host loopback addresses <xref target="RFC6890"
format="default"/>. If a Converter receives a Connect TLV with such
invalid addresses, it <bcp14>MUST</bcp14> reply with a Malformed
Message Error TLV and close the associated TCP connection.</t>
<t>We distinguish two types of Connect TLV based on their length: <t>We distinguish two types of Connect TLV based on their length:
(1) the Base Connect TLV has a length set to 5 (i.e., 20 bytes) and (1) the Base Connect TLV has a length set to 5 (i.e., 20 bytes) and
contains a remote address and a remote port (<xref contains a remote address and a remote port (<xref
target="fig-connect"></xref>), (2) the Extended Connect TLV spans target="fig-connect" format="default"/>), and (2) the Extended Connect
more than 20 bytes and also includes the optional 'TCP Options' TLV spans
field (<xref target="fig-econnect"></xref>). This field is used to more than 20 bytes and also includes the optional TCP Options
request the advertisement of specific TCP options to the server.</t> field (<xref target="fig-econnect" format="default"/>). This field is
used to
<figure anchor="fig-connect" title="The Base Connect TLV"> request the advertisement of specific TCP options to the Server.</t>
<artwork><![CDATA[ <figure anchor="fig-connect">
<name>The Base Connect TLV</name>
<artwork name="" type="" align="left" alt=""><![CDATA[
1 2 3 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+---------------+---------------+-------------------------------+ +---------------+---------------+-------------------------------+
| Type=0xA | Length | Remote Peer Port | | Type=0xA | Length | Remote Peer Port |
+---------------+---------------+-------------------------------+ +---------------+---------------+-------------------------------+
| | | |
| Remote Peer IP Address (128 bits) | | Remote Peer IP Address (128 bits) |
| | | |
| | | |
+---------------------------------------------------------------+ +---------------------------------------------------------------+
]]></artwork> ]]></artwork>
</figure> </figure>
<figure anchor="fig-econnect">
<figure anchor="fig-econnect" title="The Extended Connect TLV"> <name>The Extended Connect TLV</name>
<artwork><![CDATA[ <artwork name="" type="" align="left" alt=""><![CDATA[
1 2 3 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+---------------+---------------+-------------------------------+ +---------------+---------------+-------------------------------+
| Type=0xA | Length | Remote Peer Port | | Type=0xA | Length | Remote Peer Port |
+---------------+---------------+-------------------------------+ +---------------+---------------+-------------------------------+
| | | |
| Remote Peer IP Address (128 bits) | | Remote Peer IP Address (128 bits) |
| | | |
| | | |
+---------------------------------------------------------------+ +---------------------------------------------------------------+
/ TCP Options (Variable) / / TCP Options (Variable) /
/ ... / / ... /
+---------------------------------------------------------------+ +---------------------------------------------------------------+
]]></artwork> ]]></artwork>
</figure> </figure>
<t>The TCP Options field is a variable length field that carries a
<t>The 'TCP Options' field is a variable length field that carries a list of TCP option fields (<xref target="fig-tcpopt"
list of TCP option fields (<xref target="fig-tcpopt"></xref>). Each format="default"/>). Each TCP option field is encoded as a block of
TCP option field is encoded as a block of 2+n bytes where the first 2+n bytes where the first byte is the TCP option Kind and the second
byte is the TCP option Kind and the second byte is the length of the byte is the length of the TCP option as specified in <xref
TCP option as specified in <xref target="RFC0793"></xref>. The target="RFC0793" format="default"/>. The minimum value for the TCP
minimum value for the TCP option Length is 2. The TCP options that option Length is 2. The TCP options that do not include a length
do not include a length sub-field, i.e., option types 0 (EOL) and 1 sub-field, i.e., option types 0 (EOL) and 1 (NOP) defined in <xref
(NOP) defined in <xref target="RFC0793"></xref> MUST NOT be placed target="RFC0793" format="default"/> <bcp14>MUST NOT</bcp14> be
inside the TCP options field of the Connect TLV. The optional Value placed inside the TCP options field of the Connect TLV. The optional
field contains the variable-length part of the TCP option. A length Value field contains the variable-length part of the TCP option. A
of two indicates the absence of the Value field. The TCP options length of 2 indicates the absence of the Value field. The TCP
field always ends on a 32 bits boundary after being padded with options field always ends on a 32-bit boundary after being padded
zeros.</t> with zeros.</t>
<figure anchor="fig-tcpopt">
<figure anchor="fig-tcpopt" title="The TCP Options Field"> <name>The TCP Options Field</name>
<artwork><![CDATA[ <artwork name="" type="" align="left" alt=""><![CDATA[
1 2 3 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+---------------+---------------+---------------+---------------+ +---------------+---------------+---------------+---------------+
| TCPOpt kind | TCPOpt Length | Value (opt) | .... | | TCPOpt kind | TCPOpt Length | Value (opt) | .... |
+---------------+---------------+---------------+---------------+ +---------------+---------------+---------------+---------------+
| .... | | .... |
+---------------------------------------------------------------+ +---------------------------------------------------------------+
| ... | | ... |
+---------------------------------------------------------------+ +---------------------------------------------------------------+
]]></artwork> ]]></artwork>
skipping to change at line 1328 skipping to change at line 1313
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+---------------+---------------+---------------+---------------+ +---------------+---------------+---------------+---------------+
| TCPOpt kind | TCPOpt Length | Value (opt) | .... | | TCPOpt kind | TCPOpt Length | Value (opt) | .... |
+---------------+---------------+---------------+---------------+ +---------------+---------------+---------------+---------------+
| .... | | .... |
+---------------------------------------------------------------+ +---------------------------------------------------------------+
| ... | | ... |
+---------------------------------------------------------------+ +---------------------------------------------------------------+
]]></artwork> ]]></artwork>
</figure> </figure>
<t>Upon reception of a Base Connect TLV, and absent any policy <t>Upon reception of a Base Connect TLV, and absent any policy
(e.g., rate-limit) or resource exhaustion conditions, a Transport (e.g., rate-limit) or resource exhaustion conditions, a Transport
Converter attempts to establish a connection to the address and port Converter attempts to establish a connection to the address and port
that it contains. The Transport Converter MUST use by default the that it contains. The Transport Converter <bcp14>MUST</bcp14> use by d efault the
TCP options that correspond to its local policy to establish this TCP options that correspond to its local policy to establish this
connection. </t> connection. </t>
<t>Upon reception of an Extended Connect TLV, a Transport Converter <t>Upon reception of an Extended Connect TLV, a Transport Converter
first checks whether it supports the TCP Options listed in the 'TCP first checks whether or not it supports the TCP Options listed in the
Options' field. If not, it returns an error TLV set to "Unsupported TCP
TCP Option" (<xref target="sec-error"></xref>). If the above check Options field. If not, it returns an error TLV set to "Unsupported
succeeded and absent any rate limit policy or resource exhaustion TCP Option" (<xref target="sec-error" format="default"/>). If the abov
conditions, a Transport Converter MUST attempt to establish a e check
connection to the address and port that it contains. It MUST include succeeded, and absent any rate-limit policy or resource exhaustion
conditions, a Transport Converter <bcp14>MUST</bcp14> attempt to estab
lish a
connection to the address and port that it contains. It <bcp14>MUST</b
cp14> include
in the SYN that it sends to the Server the options listed in the in the SYN that it sends to the Server the options listed in the
'TCP Options' sub-field and the TCP options that it would have used TCP Options subfield and the TCP options that it would have used
according to its local policies. For the TCP options that are according to its local policies. For the TCP options that are
included in the TCP Options field without an optional value, the included in the TCP Options field without an optional value, the
Transport Converter MUST generate its own value. For the TCP options Transport Converter <bcp14>MUST</bcp14> generate its own value. For th
that are included in the 'TCP Options' field with an optional value, e TCP options
it MUST copy the entire option in the SYN sent to the remote server. that are included in the TCP Options field with an optional value,
it <bcp14>MUST</bcp14> copy the entire option in the SYN sent to the r
emote Server.
This procedure is designed with TFO in mind. Particularly, this This procedure is designed with TFO in mind. Particularly, this
procedure allows to successfully exchange a TFO Cookie between the procedure allows to successfully exchange a Fast Open Cookie between t
client and the server. See <xref target="sec-tcpoptions"></xref> for he
Client and the Server. See <xref target="sec-tcpoptions" format="defau
lt"/> for
a detailed discussion of the different types of TCP options.</t> a detailed discussion of the different types of TCP options.</t>
<t>The Transport Converter may refuse a Connect TLV request for <t>The Transport Converter may refuse a Connect TLV request for
various reasons (e.g., authorization failed, out of resources, various reasons (e.g., authorization failed, out of resources,
invalid address type, unsupported TCP option). An error message invalid address type, or unsupported TCP option). An error message
indicating the encountered error is returned to the requesting indicating the encountered error is returned to the requesting
Client (<xref target="sec-error"></xref>). In order to prevent Client (<xref target="sec-error" format="default"/>). In order to prev
denial-of-service attacks, error messages sent to a Client SHOULD be ent
denial-of-service attacks, error messages sent to a Client <bcp14>SHOU
LD</bcp14> be
rate-limited.</t> rate-limited.</t>
</section> </section>
<section anchor="sec-ext-header" numbered="true" toc="default">
<section anchor="sec-ext-header" title="Extended TCP Header TLV"> <name>Extended TCP Header TLV</name>
<t>The Extended TCP Header TLV (<xref <t>The Extended TCP Header TLV (<xref target="fig-tcpheader"
target="fig-tcpheader"></xref>) is used by the Transport Converter format="default"/>) is used by the Transport Converter to return to
to return to the Client the TCP options that were returned by the the Client the TCP options that were returned by the Server in the
Server in the SYN+ACK packet. A Transport Converter MUST return this SYN+ACK packet. A Transport Converter <bcp14>MUST</bcp14> return
TLV if the Client sent an Extended Connect TLV and the connection this TLV if the Client sent an Extended Connect TLV and the
was accepted by the server. </t> connection was accepted by the Server. </t>
<figure anchor="fig-tcpheader">
<figure anchor="fig-tcpheader" title="The Extended TCP Header TLV"> <name>The Extended TCP Header TLV</name>
<artwork><![CDATA[ <artwork name="" type="" align="left" alt=""><![CDATA[
1 2 3 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+---------------+---------------+-------------------------------+ +---------------+---------------+-------------------------------+
| Type=0x14 | Length | Unassigned | | Type=0x14 | Length | Unassigned |
+---------------+---------------+-------------------------------+ +---------------+---------------+-------------------------------+
/ Returned Extended TCP header / / Returned Extended TCP header /
/ ... / / ... /
+---------------------------------------------------------------+ +---------------------------------------------------------------+
]]></artwork> ]]></artwork>
</figure> </figure>
skipping to change at line 1384 skipping to change at line 1366
1 2 3 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+---------------+---------------+-------------------------------+ +---------------+---------------+-------------------------------+
| Type=0x14 | Length | Unassigned | | Type=0x14 | Length | Unassigned |
+---------------+---------------+-------------------------------+ +---------------+---------------+-------------------------------+
/ Returned Extended TCP header / / Returned Extended TCP header /
/ ... / / ... /
+---------------------------------------------------------------+ +---------------------------------------------------------------+
]]></artwork> ]]></artwork>
</figure> </figure>
<t>The Returned Extended TCP header field is a copy of the TCP <t>The Returned Extended TCP header field is a copy of the TCP
Options that were included in the SYN+ACK received by the Transport Options that were included in the SYN+ACK received by the Transport
Converter.</t> Converter.</t>
<t>The Unassigned field <bcp14>MUST</bcp14> be set to zero by the send
<t>The Unassigned field MUST be set to zero by the sender and er and
ignored by the receiver.</t> ignored by the receiver.</t>
</section> </section>
<section anchor="sec-cookie-tlv" numbered="true" toc="default">
<section anchor="sec-cookie-tlv" title="The Cookie TLV"> <name>The Cookie TLV</name>
<t>The Cookie TLV (<xref target="fig-cookie"></xref>) is an optional <t>The Cookie TLV (<xref target="fig-cookie" format="default"/>) is
TLV which is similar to the TCP Fast Open Cookie <xref an optional TLV that is similar to the TCP Fast Open Cookie <xref
target="RFC7413"></xref>. A Transport Converter may want to verify target="RFC7413" format="default"/>. A Transport Converter may want
that a Client can receive the packets that it sends to prevent to verify that a Client can receive the packets that it sends to
attacks from spoofed addresses. This verification can be done by prevent attacks from spoofed addresses. This verification can be
using a Cookie that is bound to, for example, the IP address(es) of done by using a Cookie that is bound to, for example, the IP
the Client. This Cookie can be configured on the Client by means address(es) of the Client. This Cookie can be configured on the
that are outside of this document or provided by the Transport Client by means that are outside of this document or provided by the
Converter.</t> Transport Converter.</t>
<t>A Transport Converter that has been configured to use the <t>A Transport Converter that has been configured to use the
optional Cookie TLV MUST verify the presence of this TLV in the optional Cookie TLV <bcp14>MUST</bcp14> verify the presence of this
payload of the received SYN. If this TLV is present, the Transport TLV in the payload of the received SYN. If this TLV is present, the
Converter MUST validate the Cookie by means similar to those in Transport Converter <bcp14>MUST</bcp14> validate the Cookie by means
Section 4.1.2 of <xref target="RFC7413"></xref> (i.e., similar to those in <xref target="RFC7413" sectionFormat="of"
IsCookieValid). If the Cookie is valid, the connection establishment section="4.1.2"/> (i.e., IsCookieValid). If the Cookie is valid, the
procedure can continue. Otherwise, the Transport Converter MUST connection establishment procedure can continue. Otherwise, the
return an Error TLV set to "Not Authorized" and close the Transport Converter <bcp14>MUST</bcp14> return an Error TLV set to
connection.</t> "Not Authorized" and close the connection.</t>
<t>If the received SYN did not contain a Cookie TLV, and cookie <t>If the received SYN did not contain a Cookie TLV, and cookie
validation is required, the Transport Converter MAY compute a Cookie validation is required, the Transport Converter <bcp14>MAY</bcp14> com pute a Cookie
bound to this Client address. In such case, the Transport Converter bound to this Client address. In such case, the Transport Converter
MUST return an Error TLV set to "Missing Cookie" and the computed <bcp14>MUST</bcp14> return an Error TLV set to "Missing Cookie" and th e computed
Cookie and close the connection. The Client will react to this error Cookie and close the connection. The Client will react to this error
by first issuing a reset to terminate the connection. It also stores by first issuing a reset to terminate the connection. It also stores
the received Cookie in its cache and attempts to reestablish a new the received Cookie in its cache and attempts to reestablish a new
connection to the Transport Converter that includes the Cookie connection to the Transport Converter that includes the Cookie
TLV.</t> TLV.</t>
<t>The format of the Cookie TLV is shown in <xref target="fig-cookie"
<t>The format of the Cookie TLV is shown in <xref format="default"/>.</t>
target="fig-cookie"></xref>.</t> <figure anchor="fig-cookie">
<name>The Cookie TLV</name>
<figure anchor="fig-cookie" title="The Cookie TLV"> <artwork name="" type="" align="left" alt=""><![CDATA[
<artwork><![CDATA[
1 2 3 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+---------------+---------------+-------------------------------+ +---------------+---------------+-------------------------------+
| Type=0x16 | Length | Zero | | Type=0x16 | Length | Zero |
+---------------+---------------+-------------------------------+ +---------------+---------------+-------------------------------+
/ Opaque Cookie / / Opaque Cookie /
/ ... / / ... /
+---------------------------------------------------------------+ +---------------------------------------------------------------+
]]></artwork> ]]></artwork>
</figure> </figure>
</section> </section>
<section anchor="sec-error" numbered="true" toc="default">
<section anchor="sec-error" title="Error TLV"> <name>Error TLV</name>
<t>The Error TLV (<xref target="fig-error"></xref>) is meant to <t>The Error TLV (<xref target="fig-error" format="default"/>) is mean
t to
provide information about some errors that occurred during the provide information about some errors that occurred during the
processing of a Convert message. This TLV has a variable length. processing of a Convert message. This TLV has a variable length.
Upon reception of an Error TLV, a Client MUST reset the associated Upon reception of an Error TLV, a Client <bcp14>MUST</bcp14> reset the associated
connection.</t> connection.</t>
<t>An Error TLV can be included in the SYN+ACK or an ACK.</t> <t>An Error TLV can be included in the SYN+ACK or an ACK.</t>
<figure anchor="fig-error">
<figure anchor="fig-error" title="The Error TLV"> <name>The Error TLV</name>
<artwork><![CDATA[ <artwork name="" type="" align="left" alt=""><![CDATA[
1 2 3 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+---------------+---------------+----------------+--------------+ +---------------+---------------+----------------+--------------+
| Type=0x1E | Length | Error Code | Value | | Type=0x1E | Length | Error Code | Value |
+---------------+---------------+----------------+--------------+ +---------------+---------------+----------------+--------------+
// ... (optional) Value // // ... (optional) Value //
+---------------------------------------------------------------+ +---------------------------------------------------------------+
]]></artwork> ]]></artwork>
</figure> </figure>
<t>Different types of errors can occur while processing Convert <t>Different types of errors can occur while processing Convert
messages. Each error is identified by an Error Code represented as messages. Each error is identified by an Error Code represented as
an unsigned integer. Four classes of error codes are defined:</t> an unsigned integer. Four classes of error codes are defined:</t>
<dl newline="true">
<t><list style="symbols"> <dt>Message validation and processing errors (0-31 range):</dt>
<t>Message validation and processing errors (0-31 range): <dd>Returned upon reception of an invalid message (including valid
returned upon reception of an invalid message (including valid messages but with invalid or unknown TLVs).</dd>
messages but with invalid or unknown TLVs).</t> <dt>Client-side errors (32-63 range):</dt><dd>The Client sent a requ
est
<t>Client-side errors (32-63 range): the Client sent a request
that could not be accepted by the Transport Converter (e.g., that could not be accepted by the Transport Converter (e.g.,
unsupported operation).</t> unsupported operation).</dd>
<dt>Converter-side errors (64-95 range):</dt><dd> Problems encounter
<t>Converter-side errors (64-95 range): problems encountered on ed on
the Transport Converter (e.g., lack of resources) which prevent the Transport Converter (e.g., lack of resources) that prevent
it from fulfilling the Client's request.</t> it from fulfilling the Client's request.</dd>
<dt>Errors caused by the destination Server (96-127 range):</dt><dd>
<t>Errors caused by the destination server (96-127 range): the The
final destination could not be reached or it replied with a final destination could not be reached or it replied with a
reset.</t> reset.</dd>
</list></t> </dl>
<t>The following error codes are defined in this document:</t> <t>The following error codes are defined in this document:</t>
<dl spacing="normal" newline="true">
<t><list style="symbols"> <dt>Unsupported Version (0):</dt><dd><t>The version number indicated
<t>Unsupported Version (0): The version number indicated in the in the
fixed header of a message received from a peer is not supported. fixed header of a message received from a peer is not supported.
<vspace blankLines="1" /> This error code MUST be generated by a </t>
peer (e.g. Transport Converter) when it receives a request <t> This error code <bcp14>MUST</bcp14> be generated by a
having a version number that it does not support. <vspace peer (e.g., Transport Converter) when it receives a request
blankLines="1" /> The value field MUST be set to the version having a version number that it does not support. </t>
<t> The Value field <bcp14>MUST</bcp14> be set to the version
supported by the peer. When multiple versions are supported by supported by the peer. When multiple versions are supported by
the peer, it includes the list of supported version in the value the peer, it includes the list of supported versions in the Value
field; each version is encoded in 8 bits. The list of supported field; each version is encoded in 8 bits. The list of supported
versions MUST be padded with zeros to end on a 32 bits boundary. versions <bcp14>MUST</bcp14> be padded with zeros to end on a 32-b
<vspace blankLines="1" /> Upon receipt of this error code, the it boundary.
</t>
<t> Upon receipt of this error code, the
remote peer (e.g., Client) checks whether it supports one of the remote peer (e.g., Client) checks whether it supports one of the
versions returned by the peer. The highest common supported versions returned by the peer.
version MUST be used by the remote peer in subsequent exchanges
with the peer.</t>
<t>Malformed Message (1): This error code is sent to indicate The highest commonly supported version number <bcp14>MUST</bcp14> be used by the
that a message received from a peer cannot be successfully remote
parsed and validated. <vspace blankLines="1" /> Typically, this peer in subsequent exchanges with the peer.</t>
error code is sent by the Transport Converter if it receives a </dd>
Connect TLV enclosing a multicast, broadcast, or loopback IP <dt>Malformed Message (1):</dt><dd><t>This error code is sent to
address. <vspace blankLines="1" /> To ease troubleshooting, the indicate that a message received from a peer cannot be
value field MUST echo the received message using the format successfully parsed and validated. </t>
depicted in <xref target="shift"></xref>. This format allows to <t> Typically, this error code is sent by the Transport
keep the original alignment of the message that triggered the Converter if it receives a Connect TLV enclosing a multicast,
error. <figure anchor="shift" broadcast, or loopback IP address. </t>
title="Error TLV to ease Message Correlation"> <t> To ease troubleshooting, the Value field <bcp14>MUST</bcp14>
<artwork><![CDATA[ echo the received message using the format depicted in <xref
target="shift" format="default"/>. This format allows keeping
the original alignment of the message that triggered the
error. </t>
<figure anchor="shift">
<name>Error TLV to Ease Message Correlation</name>
<artwork name="" type="" align="left" alt=""><![CDATA[
1 2 3 1 2 3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+---------------+---------------+----------------+--------------+ +---------------+---------------+----------------+--------------+
| Type=0x1E | Length | Error Code | Zeros | | Type=0x1E | Length | Error Code | Zeros |
+---------------+---------------+----------------+--------------+ +---------------+---------------+----------------+--------------+
// Echo the message which triggered the error // // Echo the message that triggered the error //
+---------------------------------------------------------------+ +---------------------------------------------------------------+
]]></artwork> ]]></artwork>
</figure></t> </figure>
</dd>
<t>Unsupported Message (2): This error code is sent to indicate <dt>Unsupported Message (2):</dt><dd><t>This error code is sent to i
that a message type received from a Client is not supported. ndicate
<vspace blankLines="1" /> To ease troubleshooting, the value that a message type received from a Client is not supported.</t>
field MUST echo the received message using the format shown in <t> To ease troubleshooting, the Value field <bcp14>MUST</bcp14>
<xref target="shift"></xref>.</t> echo the received message using the format shown in <xref
target="shift" format="default"/>.</t>
</dd>
<t>Missing Cookie (3): If a Transport Converter requires the <dt>Missing Cookie (3):</dt><dd><t>If a Transport Converter requires the
utilization of Cookies to prevent spoofing attacks and a Cookie utilization of Cookies to prevent spoofing attacks and a Cookie
TLV was not included in the Convert message, the Transport TLV was not included in the Convert message, the Transport
Converter MUST return this error to the requesting client only Converter <bcp14>MUST</bcp14> return this error to the requesting
if it computes a cookie for this client. The first byte of the Client only
value field MUST be set to zero and the remaining bytes of the if it computes a cookie for this Client. The first byte of the
Value field <bcp14>MUST</bcp14> be set to zero and the remaining b
ytes of the
Error TLV contain the Cookie computed by the Transport Converter Error TLV contain the Cookie computed by the Transport Converter
for this Client. <vspace blankLines="1" /> A Client which for this Client. </t>
receives this error code SHOULD cache the received Cookie and <t> A Client that receives this error code
include it in subsequent Convert messages sent to that Transport <bcp14>SHOULD</bcp14> cache the received Cookie and include it
in subsequent Convert messages sent to that Transport
Converter.</t> Converter.</t>
</dd>
<t>Not Authorized (32): This error code indicates that the <dt>Not Authorized (32):</dt><dd><t>This error code indicates that t
he
Transport Converter refused to create a connection because of a Transport Converter refused to create a connection because of a
lack of authorization (e.g., administratively prohibited, lack of authorization (e.g., administratively prohibited,
authorization failure, invalid Cookie TLV). The Value field MUST authorization failure, or invalid Cookie TLV). The Value field <bc
be set to zero. <vspace blankLines="1" /> This error code MUST p14>MUST</bcp14>
be set to zero. </t>
<t> This error code <bcp14>MUST</bcp14>
be sent by the Transport Converter when a request cannot be be sent by the Transport Converter when a request cannot be
successfully processed because the authorization failed.</t> successfully processed because the authorization failed.</t>
</dd>
<t>Unsupported TCP Option (33): A TCP option that the Client <dt>Unsupported TCP Option (33):</dt><dd><t>A TCP option that the Cl
ient
requested to advertise to the final Server cannot be safely requested to advertise to the final Server cannot be safely
used. <vspace blankLines="1" /> The Value field is set to the used. </t>
<t> The Value field is set to the
type of the unsupported TCP option. If several unsupported TCP type of the unsupported TCP option. If several unsupported TCP
options were specified in the Connect TLV, then the list of options were specified in the Connect TLV, then the list of
unsupported TCP options is returned. The list of unsupported TCP unsupported TCP options is returned. The list of unsupported TCP
options MUST be padded with zeros to end on a 32 bits options <bcp14>MUST</bcp14> be padded with zeros to end on a 32-bi t
boundary.</t> boundary.</t>
</dd>
<t>Resource Exceeded (64): This error indicates that the <dt>Resource Exceeded (64):</dt><dd><t>This error indicates that the
Transport Converter does not have enough resources to perform Transport Converter does not have enough resources to perform
the request. <vspace blankLines="1" /> This error MUST be sent the request. </t>
<t> This error <bcp14>MUST</bcp14> be sent
by the Transport Converter when it does not have sufficient by the Transport Converter when it does not have sufficient
resources to handle a new connection. The Transport Converter resources to handle a new connection. The Transport Converter
may indicate in the Value field the suggested delay (in seconds) may indicate in the Value field the suggested delay (in seconds)
that the Client SHOULD wait before soliciting the Transport that the Client <bcp14>SHOULD</bcp14> wait before soliciting the T ransport
Converter for a new proxied connection. A Value of zero Converter for a new proxied connection. A Value of zero
corresponds to a default delay of at least 30 seconds.</t> corresponds to a default delay of at least 30 seconds.</t>
</dd>
<t>Network Failure (65): This error indicates that the Transport <dt>Network Failure (65):</dt><dd><t>This error indicates that the T
ransport
Converter is experiencing a network failure to proxy the Converter is experiencing a network failure to proxy the
request. <vspace blankLines="1" /> The Transport Converter MUST request. </t>
<t> The Transport Converter <bcp14>MUST</bcp14>
send this error code when it experiences forwarding issues to send this error code when it experiences forwarding issues to
proxy a connection. The Transport Converter may indicate in the proxy a connection. The Transport Converter may indicate in the
Value field the suggested delay (in seconds) that the Client Value field the suggested delay (in seconds) that the Client
SHOULD wait before soliciting the Transport Converter for a new <bcp14>SHOULD</bcp14> wait before soliciting the Transport Convert er for a new
proxied connection. A Value of zero corresponds to a default proxied connection. A Value of zero corresponds to a default
delay of at least 30 seconds.</t> delay of at least 30 seconds.</t>
</dd>
<t>Connection Reset (96): This error indicates that the final <dt>Connection Reset (96):</dt><dd>This error indicates that the fin
destination responded with an RST segment. The Value field MUST al
be set to zero.</t> destination responded with an RST segment. The Value field <bcp14>
MUST</bcp14>
<t>Destination Unreachable (97): This error indicates that an be set to zero.</dd>
<dt>Destination Unreachable (97):</dt><dd><t>This error indicates th
at an
ICMP message indicating a hard error (e.g., destination ICMP message indicating a hard error (e.g., destination
unreachable, port unreachable, or network unreachable) was unreachable, port unreachable, or network unreachable) was
received by the Transport Converter. The Value field MUST echo received by the Transport Converter. The Value field <bcp14>MUST</
the Code field of the received ICMP message. <vspace bcp14> echo
blankLines="1" />As a reminder, TCP implementations are supposed the Code field of the received ICMP message. </t>
<t>As a reminder, TCP implementations are supposed
to act on an ICMP error message passed up from the IP layer, to act on an ICMP error message passed up from the IP layer,
directing it to the connection that triggered the error using directing it to the connection that triggered the error using
the demultiplexing information included in the payload of that the demultiplexing information included in the payload of that
ICMP message. Such demultiplexing issue does not apply for ICMP message. Such a demultiplexing issue does not apply for
handling the "Destination Unreachable" Error TLV because the handling the "Destination Unreachable" Error TLV because the
error is sent in-band. For this reason, the payload of the ICMP error is sent in-band. For this reason, the payload of the ICMP
message is not echoed in the Destination Unreachable Error message is not echoed in the Destination Unreachable Error
TLV.</t> TLV.</t>
</list></t> </dd>
</dl>
<t><xref target="tab-error-types"></xref> summarizes the different <t><xref target="tab-error-types" format="default"/> summarizes the di
fferent
error codes.</t> error codes.</t>
<figure anchor="tab-error-types" title="Convert Error Values"> <table anchor="tab-error-types">
<artwork><![CDATA[ <name>Convert Error Values</name>
+-------+------+-----------------------------------------------+ <thead>
| Error | Hex | Description | <tr>
+-------+------+-----------------------------------------------+ <th>Error</th>
| 0 | 0x00 | Unsupported Version | <th>Hex</th>
| 1 | 0x01 | Malformed Message | <th>Description</th>
| 2 | 0x02 | Unsupported Message | </tr>
| 3 | 0x03 | Missing Cookie | </thead>
| 32 | 0x20 | Not Authorized | <tbody>
| 33 | 0x21 | Unsupported TCP Option | <tr>
| 64 | 0x40 | Resource Exceeded | <td>0</td>
| 65 | 0x41 | Network Failure | <td>0x00</td>
| 96 | 0x60 | Connection Reset | <td>Unsupported Version</td>
| 97 | 0x61 | Destination Unreachable | </tr>
+-------+------+-----------------------------------------------+ <tr>
]]></artwork> <td>1</td>
</figure> <td>0x01</td>
<td>Malformed Message</td>
</tr>
<tr>
<td>2</td>
<td>0x02</td>
<td>Unsupported Message</td>
</tr>
<tr>
<td>3</td>
<td>0x03</td>
<td>Missing Cookie</td>
</tr>
<tr>
<td>32</td>
<td>0x20</td>
<td>Not Authorized</td>
</tr>
<tr>
<td>33</td>
<td>0x21</td>
<td>Unsupported TCP Option</td>
</tr>
<tr>
<td>64</td>
<td>0x40</td>
<td>Resource Exceeded</td>
</tr>
<tr>
<td>65</td>
<td>0x41</td>
<td>Network Failure</td>
</tr>
<tr>
<td>96</td>
<td>0x60</td>
<td>Connection Reset</td>
</tr>
<tr>
<td>97</td>
<td>0x61</td>
<td>Destination Unreachable</td>
</tr>
</tbody>
</table>
</section> </section>
</section> </section>
</section> </section>
<section anchor="sec-tcpoptions" <section anchor="sec-tcpoptions" numbered="true" toc="default">
title="Compatibility of Specific TCP Options with the Conversion Se <name>Compatibility of Specific TCP Options with the Conversion Service</n
rvice"> ame>
<t>In this section, we discuss how several deployed standard track TCP <t>In this section, we discuss how several deployed Standards Track TCP
options can be supported through the Convert Protocol. The other TCP options can be supported through the Convert Protocol. The other TCP
options will be discussed in other documents.</t> options will be discussed in other documents.</t>
<section anchor="base-tcp-options" numbered="true" toc="default">
<section anchor="base-tcp-options" title="Base TCP Options"> <name>Base TCP Options</name>
<t>Three TCP options were initially defined in <xref <t>Three TCP options were initially defined in <xref target="RFC0793"
target="RFC0793"></xref>: End-of-Option List (Kind=0), No-Operation format="default"/>: End-of-Option List (Kind=0), No-Operation (Kind=1),
(Kind=1) and Maximum Segment Size (Kind=2). The first two options are and Maximum Segment Size (Kind=2). The first two options are mainly
mainly used to pad the TCP header. There is no reason for a client to used to pad the TCP header. There is no reason for a Client to request
request a Transport Converter to specifically send these options a Transport Converter to specifically send these options towards the
towards the final destination.</t> final destination.</t>
<t>The Maximum Segment Size option (Kind=2) is used by a host to <t>The Maximum Segment Size option (Kind=2) is used by a host to
indicate the largest segment that it can receive over each connection. indicate the largest segment that it can receive over each connection.
This value is function of the stack that terminates the TCP This value is a function of the stack that terminates the TCP
connection. There is no reason for a Client to request a Transport connection. There is no reason for a Client to request a Transport
Converter to advertise a specific MSS value to a remote server.</t> Converter to advertise a specific Maximum Segment Size (MSS) value to a
remote Server.</t>
<t>A Transport Converter MUST ignore options with Kind=0, 1 or 2 if <t>A Transport Converter <bcp14>MUST</bcp14> ignore options with Kind=0,
they appear in a Connect TLV. It MUST NOT announce them in a Supported 1, or 2 if
they appear in a Connect TLV. It <bcp14>MUST NOT</bcp14> announce them i
n a Supported
TCP Extensions TLV.</t> TCP Extensions TLV.</t>
</section> </section>
<section anchor="window-scale-ws" title="Window Scale (WS)"> <section anchor="window-scale-ws" numbered="true" toc="default">
<name>Window Scale (WS)</name>
<t>The Window Scale (WS) option (Kind=3) is defined in <xref <t>The Window Scale (WS) option (Kind=3) is defined in <xref
target="RFC7323"></xref>. As for the MSS option, the window scale target="RFC7323" format="default"/>. As for the MSS option, the window
factor that is used for a connection strongly depends on the TCP stack scale factor that is used for a connection strongly depends on the TCP
that handles the connection. When a Transport Converter opens a TCP stack that handles the connection. When a Transport Converter opens a
connection towards a remote server on behalf of a Client, it SHOULD TCP connection towards a remote Server on behalf of a Client, it
use a WS option with a scaling factor that corresponds to the <bcp14>SHOULD</bcp14> use a WS option with a scaling factor that
configuration of its stack. A local configuration MAY allow for WS corresponds to the configuration of its stack. A local configuration
option in the proxied message to be function of the scaling factor of <bcp14>MAY</bcp14> allow for a WS option in the proxied message to be
the incoming connection.</t> a function of the scaling factor of the incoming connection.</t>
<t>From a deployment viewpoint, there is no benefit in enabling a
<t>There is no benefit from a deployment viewpoint in enabling a
Client of a Transport Converter to specifically request the Client of a Transport Converter to specifically request the
utilization of the WS option (Kind=3) with a specific scaling factor utilization of the WS option (Kind=3) with a specific scaling factor
towards a remote Server. For this reason, a Transport Converter MUST towards a remote Server. For this reason, a Transport Converter <bcp14>M
ignore option Kind=3 if it appears in a Connect TLV. It MUST NOT UST</bcp14>
announce it in a Supported TCP Extensions TLV.</t> ignore option Kind=3 if it appears in a Connect TLV.
The Transport Converter <bcp14>MUST NOT</bcp14> announce a WS option (Kind=3)
in a Supported TCP Extensions TLV.
</t>
</section> </section>
<section anchor="selective-acknowledgments" <section anchor="selective-acknowledgments" numbered="true" toc="default">
title="Selective Acknowledgments"> <name>Selective Acknowledgments</name>
<t>Two distinct TCP options were defined to support selective <t>Two distinct TCP options were defined to support Selective
acknowledgments in <xref target="RFC2018"></xref>. This first one, Acknowledgment (SACK) in <xref target="RFC2018" format="default"/>. This
SACK Permitted (Kind=4), is used to negotiate the utilization of first one,
selective acknowledgments during the three-way handshake. The second SACK-Permitted (Kind=4), is used to negotiate the utilization of
one, SACK (Kind=5), carries the selective acknowledgments inside Selective Acknowledgments during the three-way handshake. The second
one, SACK (Kind=5), carries the Selective Acknowledgments inside
regular segments.</t> regular segments.</t>
<t>The SACK-Permitted option (Kind=4) <bcp14>MAY</bcp14> be advertised b
<t>The SACK Permitted option (Kind=4) MAY be advertised by a Transport y a Transport
Converter in the Supported TCP Extensions TLV. Clients connected to Converter in the Supported TCP Extensions TLV. Clients connected to
this Transport Converter MAY include the SACK Permitted option in the this Transport Converter <bcp14>MAY</bcp14> include the SACK-Permitted o ption in the
Connect TLV.</t> Connect TLV.</t>
<t>The SACK option (Kind=5) cannot be used during the three-way <t>The SACK option (Kind=5) cannot be used during the three-way
handshake. For this reason, a Transport Converter MUST ignore option handshake. For this reason, a Transport Converter <bcp14>MUST</bcp14> ig
Kind=5 if it appears in a Connect TLV. It MUST NOT announce it in a nore option
Kind=5 if it appears in a Connect TLV. It <bcp14>MUST NOT</bcp14> announ
ce it in a
TCP Supported Extensions TLV.</t> TCP Supported Extensions TLV.</t>
</section> </section>
<section anchor="timestamp" numbered="true" toc="default">
<section anchor="timestamp" title="Timestamp"> <name>Timestamp</name>
<t>The Timestamp option <xref target="RFC7323"></xref> can be used <t>The Timestamp option <xref target="RFC7323" format="default"/> can be
used
during the three-way handshake to negotiate the utilization of during the three-way handshake to negotiate the utilization of
timestamps during the TCP connection. It is notably used to improve timestamps during the TCP connection. It is notably used to improve
round-trip-time estimations and to provide protection against wrapped round-trip-time estimations and to provide Protection Against Wrapped
sequence numbers (PAWS). As for the WS option, the timestamps are a Sequences (PAWS). As for the WS option, the timestamps are a
property of a connection and there is limited benefit in enabling a property of a connection and there is limited benefit in enabling a
client to request a Transport Converter to use the timestamp option Client to request a Transport Converter to use the timestamp option
when establishing a connection to a remote server. Furthermore, the when establishing a connection to a remote Server. Furthermore, the
timestamps that are used by TCP stacks are specific to each stack and timestamps that are used by TCP stacks are specific to each stack and
there is no benefit in enabling a client to specify the timestamp there is no benefit in enabling a Client to specify the timestamp
value that a Transport Converter could use to establish a connection value that a Transport Converter could use to establish a connection
to a remote server.</t> to a remote Server.</t>
<t>A Transport Converter <bcp14>MAY</bcp14> advertise the Timestamp opti
<t>A Transport Converter MAY advertise the Timestamp option (Kind=8) on (Kind=8)
in the TCP Supported Extensions TLV. The clients connected to this in the TCP Supported Extensions TLV. The Clients connected to this
Transport Converter MAY include the Timestamp option in the Connect Transport Converter <bcp14>MAY</bcp14> include the Timestamp option in t
he Connect
TLV but without any timestamp.</t> TLV but without any timestamp.</t>
</section> </section>
<section anchor="multipath-tcp" numbered="true" toc="default">
<section anchor="multipath-tcp" title="Multipath TCP"> <name>Multipath TCP</name>
<t>The Multipath TCP options are defined in <xref <t>The Multipath TCP options are defined in <xref target="RFC8684"
target="RFC6824"></xref>. <xref target="RFC6824"></xref> defines one format="default"/>, which defines one
variable length TCP option (Kind=30) that includes a sub-type field to variable length TCP option (Kind=30) that includes a sub-type field to
support several Multipath TCP options. There are several operational support several Multipath TCP options. There are several operational
use cases where clients would like to use Multipath TCP through a use cases where Clients would like to use Multipath TCP through a
Transport Converter <xref target="IETFJ16"></xref>. However, none of Transport Converter <xref target="IETFJ16" format="default"/>. However,
none of
these use cases require the Client to specify the content of the these use cases require the Client to specify the content of the
Multipath TCP option that the Transport Converter should send to a Multipath TCP option that the Transport Converter should send to a
remote server.</t> remote Server.</t>
<t>A Transport Converter that supports Multipath TCP conversion
<t>A Transport Converter which supports Multipath TCP conversion service <bcp14>MUST</bcp14> advertise the Multipath TCP option (Kind=30)
service MUST advertise the Multipath TCP option (Kind=30) in the in the
Supported TCP Extensions TLV. Clients serviced by this Transport Supported TCP Extensions TLV. Clients serviced by this Transport
Converter may include the Multipath TCP option in the Connect TLV but Converter may include the Multipath TCP option in the Connect TLV but
without any content.</t> without any content.</t>
</section> </section>
<section anchor="tcp-fast-open" numbered="true" toc="default">
<section anchor="tcp-fast-open" title="TCP Fast Open"> <name>TCP Fast Open</name>
<t>The TCP Fast Open cookie option (Kind=34) is defined in <xref <t>The TCP Fast Open Cookie option (Kind=34) is defined in <xref target=
target="RFC7413"></xref>. There are two different usages of this "RFC7413" format="default"/>. There are two different usages of this
option that need to be supported by Transport Converters. The first option that need to be supported by Transport Converters. The first
utilization of the TCP Fast Open cookie option is to request a cookie utilization of the TCP Fast Open Cookie option is to request a cookie
from the server. In this case, the option is sent with an empty cookie from the Server. In this case, the option is sent with an empty cookie
by the client and the server returns the cookie. The second by the Client, and the Server returns the cookie. The second
utilization of the TCP Fast Open cookie option is to send a cookie to utilization of the TCP Fast Open Cookie option is to send a cookie to
the server. In this case, the option contains a cookie.</t> the Server. In this case, the option contains a cookie.</t>
<t>A Transport Converter <bcp14>MAY</bcp14> advertise the TCP Fast Open
<t>A Transport Converter MAY advertise the TCP Fast Open cookie option Cookie option
(Kind=34) in the Supported TCP Extensions TLV. If a Transport (Kind=34) in the Supported TCP Extensions TLV. If a Transport
Converter has advertised the support for TCP Fast Open in its Converter has advertised the support for TCP Fast Open in its
Supported TCP Extensions TLV, it needs to be able to process two types Supported TCP Extensions TLV, it needs to be able to process two types
of Connect TLV.</t> of Connect TLV.</t>
<t>If such a Transport Converter receives a Connect TLV with the TCP <t>If such a Transport Converter receives a Connect TLV with the TCP
Fast Open cookie option that does not contain a cookie, it MUST add an Fast Open Cookie option that does not contain a cookie, it
empty TCP Fast Open cookie option in the SYN sent to the remote <bcp14>MUST</bcp14> add an empty TCP Fast Open Cookie option in the
server. If the remote server supports TFO, it responds with a SYN-ACK SYN sent to the remote Server. If the remote Server supports TFO, it
according to the procedure in Section 4.1.2 of <xref responds with a SYN-ACK according to the procedure in <xref
target="RFC7413"></xref>. This SYN-ACK may contain a Fast Open option target="RFC7413" sectionFormat="of" section="4.1.2"/>. This SYN-ACK
with a cookie. Upon receipt of the SYN-ACK by the Converter, it relays may contain a Fast Open option with a cookie. Upon receipt of the
Fast Open option with the cookie to the Client.</t> SYN-ACK by the Converter, it relays the Fast Open option with the cookie
to the Client.</t>
<t>If such a Transport Converter receives a Connect TLV with the TCP <t>If such a Transport Converter receives a Connect TLV with the TCP
Fast Open cookie option that contains a cookie, it MUST copy the TCP Fast Open Cookie option that contains a cookie, it <bcp14>MUST</bcp14> c
Fast Open cookie option in the SYN sent to the remote server.</t> opy the TCP
Fast Open Cookie option in the SYN sent to the remote Server.</t>
</section> </section>
<section anchor="tcp-ao" numbered="true" toc="default">
<section anchor="tcp-ao" title="TCP-AO"> <name>TCP-AO</name>
<t>TCP-AO <xref target="RFC5925"></xref> provides a technique to <t>The TCP Authentication Option (TCP-AO) <xref target="RFC5925"
authenticate all the packets exchanged over a TCP connection. Given format="default"/> provides a technique to authenticate all the
the nature of this extension, it is unlikely that the applications packets exchanged over a TCP connection. Given the nature of this
that require their packets to be authenticated end-to-end would want extension, it is unlikely that the applications that require their
their connections to pass through a converter. For this reason, we do packets to be authenticated end to end would want their connections to
not recommend the support of the TCP-AO option by Transport pass through a converter. For this reason, we do not recommend the
Converters. The only use cases where it could make sense to combine support of the TCP-AO by Transport Converters. The only use
TCP-AO and the solution in this document are those where the cases where it could make sense to combine TCP-AO and the solution in
TCP-AO-NAT extension <xref target="RFC6978"></xref> is in use.</t> this document are those where the TCP-AO-NAT extension <xref
target="RFC6978" format="default"/> is in use.</t>
<t>A Transport Converter MUST NOT advertise the TCP-AO option <t>A Transport Converter <bcp14>MUST NOT</bcp14> advertise the TCP-AO
(Kind=29) in the Supported TCP Extensions TLV. If a Transport (Kind=29) in the Supported TCP Extensions TLV. If a Transport
Converter receives a Connect TLV that contains the TCP-AO option, it Converter receives a Connect TLV that contains the TCP-AO, it
MUST reject the establishment of the connection with error code set to <bcp14>MUST</bcp14> reject the establishment of the connection with
"Unsupported TCP Option", except if the TCP-AO-NAT option is used. error code set to "Unsupported TCP Option", except if the TCP-AO-NAT
Nevertheless, given that TCP-AO-NAT is Experimental, its usage is not option is used. Nevertheless, given that TCP-AO-NAT is Experimental,
currently defined and must be specified by some other document before its usage is not currently defined and must be specified by some other
it can be used.</t> document before it can be used.</t>
</section> </section>
</section> </section>
<section anchor="sec-middleboxes" numbered="true" toc="default">
<section anchor="sec-middleboxes" title="Interactions with Middleboxes"> <name>Interactions with Middleboxes</name>
<t>The Convert Protocol is designed to be used in networks that do not <t>The Convert Protocol is designed to be used in networks that do not
contain middleboxes that interfere with TCP. Under such conditions, it contain middleboxes that interfere with TCP. Under such conditions, it
is assumed that the network provider ensures that all involved on-path is assumed that the network provider ensures that all involved on-path
nodes are not breaking TCP signals (e.g., strip TCP options, discard nodes are not breaking TCP signals (e.g., strip TCP options, discard
some SYNs, etc.).</t> some SYNs, etc.).</t>
<t>Nevertheless, and in order to allow for a robust service, this <t>Nevertheless, and in order to allow for a robust service, this
section describes how a Client can detect middlebox interference and section describes how a Client can detect middlebox interference and
stop using the Transport Converter affected by this interference.</t> stop using the Transport Converter affected by this interference.</t>
<t>Internet measurements <xref target="IMC11" format="default"/> have show
<t>Internet measurements <xref target="IMC11"></xref> have shown that n that
middleboxes can affect the deployment of TCP extensions. In this middleboxes can affect the deployment of TCP extensions. In this
section, we focus the middleboxes that modify the payload since the section, we focus the middleboxes that modify the payload since the
Convert Protocol places its messages at the beginning of the Convert Protocol places its messages at the beginning of the
bytestream.</t> bytestream.</t>
<t>Consider a middlebox that removes the SYN payload. The Client can <t>Consider a middlebox that removes the SYN payload. The Client can
detect this problem by looking at the acknowledgment number field of the detect this problem by looking at the acknowledgment number field of the
SYN+ACK if returned by the Transport Converter. The Client MUST stop to SYN+ACK if returned by the Transport Converter. The Client <bcp14>MUST</bc p14> stop to
use this Transport Converter given the middlebox interference.</t> use this Transport Converter given the middlebox interference.</t>
<t>Consider now a middlebox that drops SYN/ACKs with a payload. The <t>Consider now a middlebox that drops SYN/ACKs with a payload. The
Client won't be able to establish a connection via the Transport Client won't be able to establish a connection via the Transport
Converter. The case of a middlebox that removes the payload of SYN+ACKs Converter. The case of a middlebox that removes the payload of SYN+ACKs
or from the packet that follows the SYN+ACK (but not the payload of SYN) or from the packet that follows the SYN+ACK (but not the payload of SYN)
can be detected by a Client. This is hinted by the absence of a valid can be detected by a Client. This is hinted by the absence of a valid
Convert message in the response.</t> Convert message in the response.</t>
<t>As explained in <xref target="RFC7413" format="default"/>, some
<t>As explained in <xref target="RFC7413"></xref>, some CGNs (Carrier Carrier Grade NATs (CGNs) can affect the operation of TFO if they assign
Grade NATs) can affect the operation of TFO if they assign different IP different IP addresses to the same end host. Such CGNs could affect the
addresses to the same end host. Such CGNs could affect the operation of operation of the cookie validation used by the Convert Protocol. As a
the cookie validation used by the Convert Protocol. As a reminder CGNs, reminder, CGNs that are enabled on the path between a Client and a Transpo
enabled on the path between a Client and a Transport Converter, must rt
adhere to the address preservation defined in <xref Converter must adhere to the address preservation defined in <xref
target="RFC6888"></xref>. See also the discussion in Section 7.1 of target="RFC6888" format="default"/>. See also the discussion in <xref
<xref target="RFC7413"></xref>.</t> target="RFC7413" sectionFormat="of" section="7.1"/>.</t>
</section> </section>
<section anchor="sec-security" numbered="true" toc="default">
<section anchor="sec-security" title="Security Considerations"> <name>Security Considerations</name>
<t>An implementation MUST check that the Convert TLVs are properly <t>An implementation <bcp14>MUST</bcp14> check that the Convert TLVs are p
roperly
framed within the boundary indicated by the Total Length in the fixed framed within the boundary indicated by the Total Length in the fixed
header (<xref target="sec-header"></xref>).</t> header (<xref target="sec-header" format="default"/>).</t>
<t>Additional security considerations are discussed in the following <t>Additional security considerations are discussed in the following
sub-sections.</t> subsections.</t>
<section anchor="privacy-ingress-filtering" numbered="true" toc="default">
<section anchor="privacy-ingress-filtering" <name>Privacy &amp; Ingress Filtering</name>
title="Privacy &amp; Ingress Filtering">
<t>The Transport Converter may have access to privacy-related <t>The Transport Converter may have access to privacy-related
information (e.g., subscriber credentials). The Transport Converter is information (e.g., subscriber credentials). The Transport Converter is
designed to not leak such sensitive information outside a local designed to not leak such sensitive information outside a local
domain.</t> domain.</t>
<t>Given its function and location in the network, a Transport <t>Given its function and location in the network, a Transport
Converter is in a position to observe all packets that it processes, Converter is in a position to observe all packets that it processes,
to include payloads and meta-data; and has the ability to profile and to include payloads and metadata, and has the ability to profile and
conduct some traffic analysis of user behavior. The Transport conduct some traffic analysis of user behavior. The Transport
Converter MUST be as protected as a core IP router (e.g., Section 10 Converter <bcp14>MUST</bcp14> be as protected as a core IP router
of <xref target="RFC1812"></xref>).</t> (e.g., <xref target="RFC1812" sectionFormat="of"
section="10"/>).</t>
<t>Furthermore, ingress filtering policies MUST be enforced at the
network boundaries <xref target="RFC2827"></xref>.</t>
<t>Furthermore, ingress filtering policies <bcp14>MUST</bcp14> be enforc
ed at the
network boundaries <xref target="RFC2827" format="default"/>.</t>
<t>This document assumes that all network attachments are managed by <t>This document assumes that all network attachments are managed by
the same administrative entity. Therefore, enforcing anti-spoofing the same administrative entity. Therefore, enforcing anti-spoofing
filters at these network is a guard that hosts are not sending traffic filters at these networks is a guard that hosts are not sending traffic
with spoofed source IP addresses.</t> with spoofed source IP addresses.</t>
</section> </section>
<section anchor="authorization" numbered="true" toc="default">
<section anchor="authorization" <name>Authentication and Authorization Considerations</name>
title="Authentication and Authorization Considerations"> <t>The Convert Protocol is <bcp14>RECOMMENDED</bcp14> for use in a manag
<t>The Convert Protocol is RECOMMENDED to be used in a managed network ed network
where end hosts can be securely identified by their IP address. If where end hosts can be securely identified by their IP address. If
such control is not exerted and there is a more open network such control is not exerted and there is a more open network
environment, a strong mutual authentication scheme MUST be defined to environment, a strong mutual authentication scheme <bcp14>MUST</bcp14> b e defined to
use the Convert Protocol.</t> use the Convert Protocol.</t>
<t>One possibility for mutual authentication is to use TLS to perform <t>One possibility for mutual authentication is to use TLS to perform
mutual authentication between the client and the Converter. That is, mutual authentication between the Client and the Converter. That is,
use TLS when a Client retrieves a Cookie from the Converter and rely use TLS when a Client retrieves a Cookie from the Converter and rely
on certificate-based client authentication, pre-shared key based <xref on certificate-based, pre-shared key-based <xref
target="RFC4279"></xref> or raw public key based client authentication target="RFC4279" format="default"/>, or raw public key-based Client
<xref target="RFC7250"></xref> to secure this connection. If the authentication <xref target="RFC7250" format="default"/> to secure
authentication succeeds, the Converter returns a cookie to the Client. this connection. If the authentication succeeds, the Converter returns
Subsequent Connect messages will be authorized as a function of the a cookie to the Client. Subsequent Connect messages will be
content of the Cookie TLV. An attacker from within the network between authorized as a function of the content of the Cookie TLV. An attacker
a Client and a Transport Converter may intercept the Cookie and use it from within the network between a Client and a Transport Converter may
to be granted access to the conversion service. Such attack is only intercept the Cookie and use it to be granted access to the conversion
possible if the attacker spoofs the IP address of the Client and the service. Such an attack is only possible if the attacker spoofs the IP
network does not filter packets with source spoofed IP addresses. </t> address of the Client and the network does not filter packets with
source-spoofed IP addresses. </t>
<t>The operator that manages the various network attachments <t>The operator that manages the various network attachments
(including the Transport Converters) has various options for enforcing (including the Transport Converters) has various options for enforcing
authentication and authorization policies. For example, a authentication and authorization policies. For example, a
non-exhaustive list of methods to achieve authorization is provided non-exhaustive list of methods to achieve authorization is provided
hereafter:</t> hereafter:</t>
<ul spacing="normal">
<t><list style="symbols"> <li>The network provider may enforce a policy based on the
<t>The network provider may enforce a policy based on the
International Mobile Subscriber Identity (IMSI) to verify that a International Mobile Subscriber Identity (IMSI) to verify that a
user is allowed to benefit from the TCP converter service. If that user is allowed to benefit from the TCP converter service. If that
authorization fails, the Packet Data Protocol (PDP) context/bearer authorization fails, the Packet Data Protocol (PDP) context/bearer
will not be mounted. This method does not require any interaction will not be mounted. This method does not require any interaction
with the Transport Converter for authorization matters.</t> with the Transport Converter for authorization matters.</li>
<li>The network provider may enforce a policy based upon Access
<t>The network provider may enforce a policy based upon Access
Control Lists (ACLs), e.g., at a Broadband Network Gateway (BNG) Control Lists (ACLs), e.g., at a Broadband Network Gateway (BNG)
to control the hosts that are authorized to communicate with a to control the hosts that are authorized to communicate with a
Transport Converter. These ACLs may be installed as a result of Transport Converter. These ACLs may be installed as a result of
RADIUS exchanges, e.g., <xref RADIUS exchanges, e.g., <xref target="I-D.boucadair-opsawg-tcpm-conv
target="I-D.boucadair-radext-tcpm-converter"></xref>. This method erter" format="default"/>. This method
does not require any interaction with the Transport Converter for does not require any interaction with the Transport Converter for
authorization matters.</t> authorization matters.</li>
<li>A device that embeds a Transport Converter may also host a
<t>A device that embeds a Transport Converter may also host a RADIUS Client that will solicit a AAA Server to check whether or
RADIUS client that will solicit an AAA server to check whether not connections received from a given source IP address are
connections received from a given source IP address are authorized authorized <xref target="I-D.boucadair-opsawg-tcpm-converter"
or not <xref format="default"/>.</li>
target="I-D.boucadair-radext-tcpm-converter"></xref>.</t> </ul>
</list></t>
<t>A first safeguard against the misuse of Transport Converter <t>A first safeguard against the misuse of Transport Converter
resources by illegitimate users (e.g., users with access networks that resources by illegitimate users (e.g., users with access networks that
are not managed by the same provider that operates the Transport are not managed by the same provider that operates the Transport
Converter) is the Transport Converter to reject Convert connections Converter) is the Transport Converter to reject Convert connections
received in the external realm. Only Convert connections received in received in the external realm. Only Convert connections received in
the internal realm of a Transport Converter will be accepted.</t> the internal realm of a Transport Converter will be accepted.</t>
<t>In deployments where network-assisted connections are not allowed <t>In deployments where network-assisted connections are not allowed
between hosts of a domain (i.e., hairpinning), the Converter may be between hosts of a domain (i.e., hairpinning), the Converter may be
instructed to discard such connections. Hairpinned connections are instructed to discard such connections. Hairpinned connections are
thus rejected by the Transport Converter by returning an Error TLV set thus rejected by the Transport Converter by returning an Error TLV set
to "Not Authorized". Absent explicit configuration otherwise, to "Not Authorized". Otherwise, absent explicit configuration,
hairpinning is enabled by the Converter (see <xref hairpinning is enabled by the Converter (see <xref target="fig-hairp"
target="fig-hairp"></xref>.</t> format="default"/>).</t>
<figure anchor="fig-hairp">
<figure anchor="fig-hairp" title="Hairpinning Example"> <name>Hairpinning Example</name>
<artwork><![CDATA[ <artwork name="" type="" align="left" alt=""><![CDATA[
<===Network Provider===> <===Network Provider===>
+----+ from X1:x1 to X2':x2' +-----+ X1':x1' +----+ from X1:x1 to X2':x2' +-----+ X1':x1'
| C1 |>>>>>>>>>>>>>>>>>>>>>>>>>>>>>--+--- | C1 |>>>>>>>>>>>>>>>>>>>>>>>>>>>>>--+---
+----+ | v | +----+ | v |
| v | | v |
| v | | v |
| v | | v |
+----+ from X1':x1' to X2:x2 | v | X2':x2' +----+ from X1':x1' to X2:x2 | v | X2':x2'
| C2 |<<<<<<<<<<<<<<<<<<<<<<<<<<<<<--+--- | C2 |<<<<<<<<<<<<<<<<<<<<<<<<<<<<<--+---
+----+ +-----+ +----+ +-----+
Converter Converter
Note: X2':x2' may be equal to Note: X2':x2' may be equal to
X2:x2 X2:x2
]]></artwork> ]]></artwork>
</figure> </figure>
<t></t>
</section> </section>
<section anchor="denial-of-service" numbered="true" toc="default">
<section anchor="denial-of-service" title="Denial of Service"> <name>Denial of Service</name>
<t>Another possible risk is the amplification attacks since a <t>Another possible risk is amplification attacks, since a Transport
Transport Converter sends a SYN towards a remote Server upon reception Converter sends a SYN towards a remote Server upon reception of a SYN
of a SYN from a Client. This could lead to amplification attacks if from a Client. This could lead to amplification attacks if the SYN
the SYN sent by the Transport Converter were larger than the SYN sent by the Transport Converter were larger than the SYN received from
received from the Client or if the Transport Converter retransmits the the Client, or if the Transport Converter retransmits the SYN. To
SYN. To mitigate such attacks, the Transport Converter SHOULD rate mitigate such attacks, the Transport Converter <bcp14>SHOULD</bcp14>
limit the number of pending requests for a given Client. It SHOULD rate-limit the number of pending requests for a given Client. It
also avoid sending to remote Servers SYNs that are significantly <bcp14>SHOULD</bcp14> also avoid sending SYNs that are significantly
longer than the SYN received from the Client. Finally, the Transport longer than the SYN received from the Client, to remote
Converter SHOULD only retransmit a SYN to a Server after having Servers. Finally, the Transport Converter <bcp14>SHOULD</bcp14> only
received a retransmitted SYN from the corresponding Client. Means to retransmit a SYN to a Server after having received a retransmitted SYN
protect against SYN flooding attacks should also be enabled (e.g., from the corresponding Client. Means to protect against SYN flooding
Section 3 of <xref target="RFC4987"></xref>).</t> attacks should also be enabled (e.g., <xref target="RFC4987"
sectionFormat="of" section="3"/>).</t>
<t>Attacks from within the network between a Client and a Transport <t>Attacks from within the network between a Client and a Transport
Converter (including attacks that change the protocol version) are yet Converter (including attacks that change the protocol version) are yet
another threat. Means to ensure that illegitimate nodes cannot connect another threat. Means to ensure that illegitimate nodes cannot connect
to a network should be implemented.</t> to a network should be implemented.</t>
</section> </section>
<section anchor="traffic-theft" title="Traffic Theft"> <section anchor="traffic-theft" numbered="true" toc="default">
<name>Traffic Theft</name>
<t>Traffic theft is a risk if an illegitimate Converter is inserted in <t>Traffic theft is a risk if an illegitimate Converter is inserted in
the path. Indeed, inserting an illegitimate Converter in the the path. Indeed, inserting an illegitimate Converter in the
forwarding path allows traffic interception and can therefore provide forwarding path allows traffic interception and can therefore provide
access to sensitive data issued by or destined to a host. Converter access to sensitive data issued by or destined to a host. Converter
discovery and configuration are out of scope of this document.</t> discovery and configuration are out of scope of this document.</t>
</section> </section>
<section numbered="true" toc="default">
<section title="Logging"> <name>Logging</name>
<t>If the Converter is configured to behave in the address sharing <t>If the Converter is configured to behave in the address-sharing
mode (<xref target="sec-adds"></xref>), the logging recommendations mode (<xref target="sec-adds" format="default"/>), the logging recommend
discussed in Section 4 of <xref target="RFC6888"></xref> need to be ations
considered. Security-related issues encountered in address sharing discussed in <xref target="RFC6888" sectionFormat="of" section="4"/> nee
environments are documented in Section 13 of <xref d to be
target="RFC6269"></xref>.</t> considered. Security-related issues encountered in address-sharing
environments are documented in <xref target="RFC6269"
sectionFormat="of" section="13"/>.</t>
</section> </section>
</section> </section>
<section anchor="sec-iana" numbered="true" toc="default">
<name>IANA Considerations</name>
<section anchor="sec-iana" title="IANA Considerations"> <section anchor="sec-service" numbered="true" toc="default">
<t>Note to the RFC Editor: Please replace "THISRFC" in the following <name>Convert Service Name</name>
sub-sections with the RFC number to be assigned to this document.</t> <t>IANA has assigned a
service name for the Convert Protocol from the "Service Name and
<section anchor="sec-service" title="Convert Service Name"> Transport Protocol Port Number Registry" available at
<t>IANA is requested to assign a service name for the Convert Protocol &lt;<eref target="https://www.iana.org/assignments/service-names-port-nu
from the "Service Name and Transport Protocol Port Number Registry" mbers"/>&gt;.</t>
available at
https://www.iana.org/assignments/service-names-port-numbers/service-name
s-port-numbers.xhtml.</t>
<figure> <dl spacing="compact" indent="25">
<artwork><![CDATA[ <dt>Service Name:</dt><dd>convert</dd>
Service Name: convert <dt>Port Number:</dt><dd>N/A</dd>
Port Number: N/A <dt>Transport Protocol(s):</dt><dd>TCP</dd>
Transport Protocol(s): TCP <dt>Description:</dt><dd>0-RTT TCP Convert Protocol</dd>
Description: 0-RTT TCP Convert Protocol <dt>Assignee:</dt><dd>IESG &lt;iesg@ietf.org&gt;</dd>
Assignee: IESG <iesg@ietf.org> <dt>Contact:</dt><dd>IETF Chair &lt;chair@ietf.org&gt;</dd>
Contact: IETF Chair <chair@ietf.org> <dt>Reference:</dt><dd>RFC 8803</dd>
Reference: THISRFC </dl>
]]></artwork>
</figure>
<t>Clients may use this service name to fed the procedure defined in <t>Clients may use this service name to feed the procedure defined in
<xref target="RFC2782"></xref> to discover the IP address(es) and the <xref target="RFC2782" format="default"/> to discover the IP address(es)
and the
port number used by the Transport Converters of a domain.</t> port number used by the Transport Converters of a domain.</t>
</section> </section>
<section anchor="the-convert-protocol-convert-parameters" numbered="true"
<section anchor="the-convert-protocol-convert-parameters" toc="default">
title="The Convert Protocol (Convert) Parameters"> <name>The Convert Protocol (Convert) Parameters</name>
<t>IANA is requested to create a new "The TCP Convert Protocol <t>IANA has created a new "TCP Convert Protocol
(Convert) Parameters" registry.</t> (Convert) Parameters" registry.</t>
<t>The following subsections detail new registries within the "Convert
<t>The following subsections detail new registries within "The Convert
Protocol (Convert) Parameters" registry.</t> Protocol (Convert) Parameters" registry.</t>
<t>The designated expert is expected to ascertain the existence of
<t>The Designated Expert is expected to ascertain the existence of suitable documentation as described in <xref
suitable documentation as described in Section 4.6 of <xref target="RFC8126" sectionFormat="of" section="4.6"/> and to verify that th
target="RFC8126"></xref> and to verify that the document is e document is
permanently and publicly available. The Designated Expert is also permanently and publicly available. The designated expert is also
expected to check the clarity of purpose and use of the requested code expected to check the clarity of purpose and use of the requested code
points.</t> points.</t>
<t>Also, criteria that should be applied by the designated experts
includes determining whether the proposed registration
duplicates existing functionality, whether it is likely to be of
general applicability or useful only for private use, and whether
the registration description is clear.
<t>Also, criteria that should be applied by the Designated Experts All requests should be directed to the review mailing list. For both the
includes determining whether the proposed registration duplicates "Convert TLVs" and "Convert Errors" subregistries, IANA must only accept
existing functionality, whether it is likely to be of general registry updates in the 128-191 range from the designated experts. It is
applicability or whether it is useful only for a private use, and suggested that multiple designated experts be appointed.
whether the registration description is clear. IANA must only accept
registry updates to the 128-191 range (for both "Convert TLVs" and
"Convert Error Messages" sub-registries) from the Designated Experts
and should direct all requests for registration to the review mailing
list. It is suggested that multiple Designated Experts be appointed.
In cases where a registration decision could be perceived as creating
a conflict of interest for a particular Expert, that Expert should
defer to the judgment of the other Experts.</t>
<section anchor="convert-versions" title="Convert Versions">
<t>IANA is requested to create the "Convert versions" sub-registry.
New values are assigned via IETF Review (Section 4.8 of <xref
target="RFC8126"></xref>).</t>
<t>The initial values to be assigned at the creation of the registry In cases where a registration decision could be perceived as creating
a conflict of interest for a particular expert, that expert should
defer to the judgment of the other experts.</t>
<section anchor="convert-versions" numbered="true" toc="default">
<name>Convert Versions</name>
<t>IANA has created the "Convert Versions" subregistry.
New values are assigned via IETF Review (<xref target="RFC8126"
sectionFormat="of" section="4.8"/>).</t>
<t>The initial values of the registry
are as follows:</t> are as follows:</t>
<figure anchor="ver" title="Current Convert Versions"> <table anchor="ver">
<artwork><![CDATA[ +---------+-------------------------------------- <name>Current Convert Versions</name>
+-------------+ <thead>
| Version | Description | Reference | <tr>
+---------+--------------------------------------+-------------+ <th>Version</th>
| 0 | Reserved | THISRFC | <th>Description</th>
| 1 | Assigned | THISRFC | <th>Reference</th>
+---------+--------------------------------------+-------------+ </tr>
]]></artwork> </thead>
</figure> <tbody>
</section> <tr>
<td>0</td>
<section anchor="convert-tlvs" title="Convert TLVs"> <td>Reserved</td>
<t>IANA is requested to create the "Convert TLVs" sub-registry. The <td>RFC 8803</td>
procedure for assigning values from this registry is as follows:</t> </tr>
<tr>
<t><list style="symbols"> <td>1</td>
<t>The values in the range 1-127 can be assigned via IETF <td>Assigned</td>
Review.</t> <td>RFC 8803</td>
</tr>
<t>The values in the range 128-191 can be assigned via </tbody>
Specification Required.</t> </table>
<t>The values in the range 192-255 are reserved for Private
Use.</t>
</list></t>
<t>The initial values to be assigned at the creation of the registry </section>
<section anchor="convert-tlvs" numbered="true" toc="default">
<name>Convert TLVs</name>
<t>IANA has created the "Convert TLVs" subregistry. The
procedures for assigning values from this registry are as follows:</t>
<dl indent="10">
<dt>1-127:</dt><dd>IETF Review</dd>
<dt>128-191:</dt><dd>Specification Required</dd>
<dt>192-255:</dt><dd>Private Use</dd>
</dl>
<t>The initial values of the registry
are as follows:</t> are as follows:</t>
<figure anchor="tlvs" title="Initial Convert TLVs"> <table anchor="tlvs">
<artwork><![CDATA[ <name>Initial Convert TLVs</name>
+---------+--------------------------------------+-------------+ <thead>
| Code | Name | Reference | <tr>
+---------+--------------------------------------+-------------+ <th>Code</th>
| 0 | Reserved | THISRFC | <th>Name</th>
| 1 | Info TLV | THISRFC | <th>Reference</th>
| 10 | Connect TLV | THISRFC | </tr>
| 20 | Extended TCP Header TLV | THISRFC | </thead>
| 21 | Supported TCP Extension TLV | THISRFC | <tbody>
| 22 | Cookie TLV | THISRFC | <tr>
| 30 | Error TLV | THISRFC | <td>0</td>
+---------+--------------------------------------+-------------+ <td>Reserved</td>
]]></artwork> <td>RFC 8803</td>
</figure> </tr>
</section> <tr>
<td>1</td>
<td>Info TLV</td>
<td>RFC 8803</td>
</tr>
<tr>
<td>10</td>
<td>Connect TLV</td>
<td>RFC 8803</td>
</tr>
<tr>
<td>20</td>
<td>Extended TCP Header TLV</td>
<td>RFC 8803</td>
</tr>
<tr>
<td>21</td>
<td>Supported TCP Extension TLV</td>
<td>RFC 8803</td>
</tr>
<tr>
<td>22</td>
<td>Cookie TLV</td>
<td>RFC 8803</td>
</tr>
<tr>
<td>30</td>
<td>Error TLV</td>
<td>RFC 8803</td>
</tr>
</tbody>
</table>
<section anchor="convert-error-messages" </section>
title="Convert Error Messages"> <section anchor="convert-error-messages" numbered="true" toc="default">
<t>IANA is requested to create the "Convert Errors" sub-registry. <name>Convert Error Messages</name>
<t>IANA has created the "Convert Errors" subregistry.
Codes in this registry are assigned as a function of the error type. Codes in this registry are assigned as a function of the error type.
Four types are defined; the following ranges are reserved for each Four types are defined; the following ranges are reserved for each
of these types:</t> of these types:</t>
<dl indent="10">
<t><list style="symbols"> <dt>0-31:</dt><dd>Message validation and processing errors</dd>
<t>Message validation and processing errors: 0-31</t> <dt>32-63:</dt><dd>Client-side errors</dd>
<dt>64-95:</dt><dd>Transport Converter-side errors</dd>
<t>Client-side errors: 32-63</t> <dt>96-127:</dt><dd>Errors caused by destination Server</dd>
</dl>
<t>Transport Converter-side errors: 64-95</t> <t>The procedures for assigning values from this subregistry are as
<t>Errors caused by destination server: 96-127</t>
</list></t>
<t>The procedure for assigning values from this sub-registry is as
follows:</t> follows:</t>
<dl spacing="normal" indent="10">
<t><list style="symbols"> <dt>0-127:</dt><dd>IETF Review</dd>
<t>0-127: Values in this range are assigned via IETF Review.</t> <dt>128-191:</dt><dd>Specification Required</dd>
<dt>192-255:</dt><dd>Private Use</dd>
<t>128-191: Values in this range are assigned via Specification </dl>
Required.</t> <t>The initial values of the registry
<t>192-255: Values in this range are reserved for Private
Use.</t>
</list></t>
<t>The initial values to be assigned at the creation of the registry
are as follows:</t> are as follows:</t>
<figure anchor="tab-error-summary" <table anchor="tab-error-summary">
title="Initial Convert Error Codes"> <name>Initial Convert Error Codes</name>
<artwork><![CDATA[ <thead>
+-------+-----------------------------------+-----------+ <tr>
| Error | Description | Reference | <th>Error</th>
+-------+-----------------------------------+-----------+ <th>Description</th>
| 0 | Unsupported Version | THISRFC | <th>Reference</th>
| 1 | Malformed Message | THISRFC | </tr>
| 2 | Unsupported Message | THISRFC | </thead>
| 3 | Missing Cookie | THISRFC | <tbody>
| 32 | Not Authorized | THISRFC | <tr>
| 33 | Unsupported TCP Option | THISRFC | <td>0</td>
| 64 | Resource Exceeded | THISRFC | <td>Unsupported Version</td>
| 65 | Network Failure | THISRFC | <td>RFC 8803</td>
| 96 | Connection Reset | THISRFC | </tr>
| 97 | Destination Unreachable | THISRFC | <tr>
+-------+-----------------------------------+-----------+ <td>1</td>
]]></artwork> <td>Malformed Message</td>
</figure> <td>RFC 8803</td>
</tr>
<tr>
<td>2</td>
<td>Unsupported Message</td>
<td>RFC 8803</td>
</tr>
<tr>
<td>3</td>
<td>Missing Cookie</td>
<td>RFC 8803</td>
</tr>
<tr>
<td>32</td>
<td>Not Authorized</td>
<td>RFC 8803</td>
</tr>
<tr>
<td>33</td>
<td>Unsupported TCP Option</td>
<td>RFC 8803</td>
</tr>
<tr>
<td>64</td>
<td>Resource Exceeded</td>
<td>RFC 8803</td>
</tr>
<tr>
<td>65</td>
<td>Network Failure</td>
<td>RFC 8803</td>
</tr>
<tr>
<td>96</td>
<td>Connection Reset</td>
<td>RFC 8803</td>
</tr>
<tr>
<td>97</td>
<td>Destination Unreachable</td>
<td>RFC 8803</td>
</tr>
</tbody>
</table>
</section> </section>
</section> </section>
</section> </section>
</middle> </middle>
<back> <back>
<references title="Normative References">
<reference anchor="RFC0793"
target="https://www.rfc-editor.org/info/rfc793">
<front>
<title>Transmission Control Protocol</title>
<author fullname="J. Postel" initials="J." surname="Postel">
<organization></organization>
</author>
<date month="September" year="1981" />
</front>
<seriesInfo name="STD" value="7" />
<seriesInfo name="RFC" value="793" />
<seriesInfo name="DOI" value="10.17487/RFC0793" />
</reference>
<reference anchor="RFC4291"
target="https://www.rfc-editor.org/info/rfc4291">
<front>
<title>IP Version 6 Addressing Architecture</title>
<author fullname="R. Hinden" initials="R." surname="Hinden">
<organization></organization>
</author>
<author fullname="S. Deering" initials="S." surname="Deering">
<organization></organization>
</author>
<date month="February" year="2006" />
<abstract>
<t>This specification defines the addressing architecture of the
IP Version 6 (IPv6) protocol. The document includes the IPv6
addressing model, text representations of IPv6 addresses,
definition of IPv6 unicast addresses, anycast addresses, and
multicast addresses, and an IPv6 node's required addresses.</t>
<t>This document obsoletes RFC 3513, "IP Version 6 Addressing
Architecture". [STANDARDS-TRACK]</t>
</abstract>
</front>
<seriesInfo name="RFC" value="4291" />
<seriesInfo name="DOI" value="10.17487/RFC4291" />
</reference>
<reference anchor="RFC6824"
target="https://www.rfc-editor.org/info/rfc6824">
<front>
<title>TCP Extensions for Multipath Operation with Multiple
Addresses</title>
<author fullname="A. Ford" initials="A." surname="Ford">
<organization></organization>
</author>
<author fullname="C. Raiciu" initials="C." surname="Raiciu">
<organization></organization>
</author>
<author fullname="M. Handley" initials="M." surname="Handley">
<organization></organization>
</author>
<author fullname="O. Bonaventure" initials="O."
surname="Bonaventure">
<organization></organization>
</author>
<date month="January" year="2013" />
<abstract>
<t>TCP/IP communication is currently restricted to a single path
per connection, yet multiple paths often exist between peers. The
simultaneous use of these multiple paths for a TCP/IP session
would improve resource usage within the network and, thus, improve
user experience through higher throughput and improved resilience
to network failure.</t>
<t>Multipath TCP provides the ability to simultaneously use
multiple paths between peers. This document presents a set of
extensions to traditional TCP to support multipath operation. The
protocol offers the same type of service to applications as TCP
(i.e., reliable bytestream), and it provides the components
necessary to establish and use multiple TCP flows across
potentially disjoint paths. This document defines an Experimental
Protocol for the Internet community.</t>
</abstract>
</front>
<seriesInfo name="RFC" value="6824" />
<seriesInfo name="DOI" value="10.17487/RFC6824" />
</reference>
<reference anchor="RFC7413"
target="https://www.rfc-editor.org/info/rfc7413">
<front>
<title>TCP Fast Open</title>
<author fullname="Y. Cheng" initials="Y." surname="Cheng">
<organization></organization>
</author>
<author fullname="J. Chu" initials="J." surname="Chu">
<organization></organization>
</author>
<author fullname="S. Radhakrishnan" initials="S."
surname="Radhakrishnan">
<organization></organization>
</author>
<author fullname="A. Jain" initials="A." surname="Jain">
<organization></organization>
</author>
<date month="December" year="2014" />
<abstract>
<t>This document describes an experimental TCP mechanism called
TCP Fast Open (TFO). TFO allows data to be carried in the SYN and
SYN-ACK packets and consumed by the receiving end during the
initial connection handshake, and saves up to one full round-trip
time (RTT) compared to the standard TCP, which requires a
three-way handshake (3WHS) to complete before data can be
exchanged. However, TFO deviates from the standard TCP semantics,
since the data in the SYN could be replayed to an application in
some rare circumstances. Applications should not use TFO unless
they can tolerate this issue, as detailed in the Applicability
section.</t>
</abstract>
</front>
<seriesInfo name="RFC" value="7413" />
<seriesInfo name="DOI" value="10.17487/RFC7413" />
</reference>
<reference anchor="RFC4987"
target="https://www.rfc-editor.org/info/rfc4987">
<front>
<title>TCP SYN Flooding Attacks and Common Mitigations</title>
<author fullname="W. Eddy" initials="W." surname="Eddy">
<organization></organization>
</author>
<date month="August" year="2007" />
<abstract>
<t>This document describes TCP SYN flooding attacks, which have
been well-known to the community for several years. Various
countermeasures against these attacks, and the trade-offs of each,
are described. This document archives explanations of the attack
and common defense techniques for the benefit of TCP implementers
and administrators of TCP servers or networks, but does not make
any standards-level recommendations. This memo provides
information for the Internet community.</t>
</abstract>
</front>
<seriesInfo name="RFC" value="4987" />
<seriesInfo name="DOI" value="10.17487/RFC4987" />
</reference>
<reference anchor="RFC2119"
target="https://www.rfc-editor.org/info/rfc2119">
<front>
<title>Key words for use in RFCs to Indicate Requirement
Levels</title>
<author fullname="S. Bradner" initials="S." surname="Bradner">
<organization></organization>
</author>
<date month="March" year="1997" />
<abstract>
<t>In many standards track documents several words are used to
signify the requirements in the specification. These words are
often capitalized. This document defines these words as they
should be interpreted in IETF documents. This document specifies
an Internet Best Current Practices for the Internet Community, and
requests discussion and suggestions for improvements.</t>
</abstract>
</front>
<seriesInfo name="BCP" value="14" />
<seriesInfo name="RFC" value="2119" />
<seriesInfo name="DOI" value="10.17487/RFC2119" />
</reference>
<reference anchor="RFC8174"
target="https://www.rfc-editor.org/info/rfc8174">
<front>
<title>Ambiguity of Uppercase vs Lowercase in RFC 2119 Key
Words</title>
<author fullname="B. Leiba" initials="B." surname="Leiba">
<organization></organization>
</author>
<date month="May" year="2017" />
<abstract>
<t>RFC 2119 specifies common key words that may be used in
protocol specifications. This document aims to reduce the
ambiguity by clarifying that only UPPERCASE usage of the key words
have the defined special meanings.</t>
</abstract>
</front>
<seriesInfo name="BCP" value="14" />
<seriesInfo name="RFC" value="8174" />
<seriesInfo name="DOI" value="10.17487/RFC8174" />
</reference>
<reference anchor="RFC5925"
target="https://www.rfc-editor.org/info/rfc5925">
<front>
<title>The TCP Authentication Option</title>
<author fullname="J. Touch" initials="J." surname="Touch">
<organization></organization>
</author>
<author fullname="A. Mankin" initials="A." surname="Mankin">
<organization></organization>
</author>
<author fullname="R. Bonica" initials="R." surname="Bonica">
<organization></organization>
</author>
<date month="June" year="2010" />
<abstract>
<t>This document specifies the TCP Authentication Option (TCP-AO),
which obsoletes the TCP MD5 Signature option of RFC 2385 (TCP
MD5). TCP-AO specifies the use of stronger Message Authentication
Codes (MACs), protects against replays even for long-lived TCP
connections, and provides more details on the association of
security with TCP connections than TCP MD5. TCP-AO is compatible
with either a static Master Key Tuple (MKT) configuration or an
external, out-of-band MKT management mechanism; in either case,
TCP-AO also protects connections when using the same MKT across
repeated instances of a connection, using traffic keys derived
from the MKT, and coordinates MKT changes between endpoints. The
result is intended to support current infrastructure uses of TCP
MD5, such as to protect long-lived connections (as used, e.g., in
BGP and LDP), and to support a larger set of MACs with minimal
other system and operational changes. TCP-AO uses a different
option identifier than TCP MD5, even though TCP-AO and TCP MD5 are
never permitted to be used simultaneously. TCP-AO supports IPv6,
and is fully compatible with the proposed requirements for the
replacement of TCP MD5. [STANDARDS-TRACK]</t>
</abstract>
</front>
<seriesInfo name="RFC" value="5925" />
<seriesInfo name="DOI" value="10.17487/RFC5925" />
</reference>
<reference anchor="RFC8126"
target="https://www.rfc-editor.org/info/rfc8126">
<front>
<title>Guidelines for Writing an IANA Considerations Section in
RFCs</title>
<author fullname="M. Cotton" initials="M." surname="Cotton">
<organization></organization>
</author>
<author fullname="B. Leiba" initials="B." surname="Leiba">
<organization></organization>
</author>
<author fullname="T. Narten" initials="T." surname="Narten">
<organization></organization>
</author>
<date month="June" year="2017" />
<abstract>
<t>Many protocols make use of points of extensibility that use
constants to identify various protocol parameters. To ensure that
the values in these fields do not have conflicting uses and to
promote interoperability, their allocations are often coordinated
by a central record keeper. For IETF protocols, that role is
filled by the Internet Assigned Numbers Authority (IANA).</t>
<t>To make assignments in a given registry prudently, guidance
describing the conditions under which new values should be
assigned, as well as when and how modifications to existing values
can be made, is needed. This document defines a framework for the
documentation of these guidelines by specification authors, in
order to assure that the provided guidance for the IANA
Considerations is clear and addresses the various issues that are
likely in the operation of a registry.</t>
<t>This is the third edition of this document; it obsoletes RFC
5226.</t>
</abstract>
</front>
<seriesInfo name="BCP" value="26" />
<seriesInfo name="RFC" value="8126" />
<seriesInfo name="DOI" value="10.17487/RFC8126" />
</reference>
<reference anchor="RFC6890"
target="https://www.rfc-editor.org/info/rfc6890">
<front>
<title>Special-Purpose IP Address Registries</title>
<author fullname="M. Cotton" initials="M." surname="Cotton">
<organization></organization>
</author>
<author fullname="L. Vegoda" initials="L." surname="Vegoda">
<organization></organization>
</author>
<author fullname="R. Bonica" initials="R." role="editor"
surname="Bonica">
<organization></organization>
</author>
<author fullname="B. Haberman" initials="B." surname="Haberman">
<organization></organization>
</author>
<date month="April" year="2013" />
<abstract>
<t>This memo reiterates the assignment of an IPv4 address block
(192.0.0.0/24) to IANA. It also instructs IANA to restructure its
IPv4 and IPv6 Special-Purpose Address Registries. Upon
restructuring, the aforementioned registries will record all
special-purpose address blocks, maintaining a common set of
information regarding each address block.</t>
</abstract>
</front>
<seriesInfo name="BCP" value="153" />
<seriesInfo name="RFC" value="6890" />
<seriesInfo name="DOI" value="10.17487/RFC6890" />
</reference>
<reference anchor="RFC6888"
target="https://www.rfc-editor.org/info/rfc6888">
<front>
<title>Common Requirements for Carrier-Grade NATs (CGNs)</title>
<author fullname="S. Perreault" initials="S." role="editor"
surname="Perreault">
<organization></organization>
</author>
<author fullname="I. Yamagata" initials="I." surname="Yamagata">
<organization></organization>
</author>
<author fullname="S. Miyakawa" initials="S." surname="Miyakawa">
<organization></organization>
</author>
<author fullname="A. Nakagawa" initials="A." surname="Nakagawa">
<organization></organization>
</author>
<author fullname="H. Ashida" initials="H." surname="Ashida">
<organization></organization>
</author>
<date month="April" year="2013" />
<abstract>
<t>This document defines common requirements for Carrier-Grade
NATs (CGNs). It updates RFC 4787.</t>
</abstract>
</front>
<seriesInfo name="BCP" value="127" />
<seriesInfo name="RFC" value="6888" />
<seriesInfo name="DOI" value="10.17487/RFC6888" />
</reference>
<reference anchor="RFC4787"
target="https://www.rfc-editor.org/info/rfc4787">
<front>
<title>Network Address Translation (NAT) Behavioral Requirements for
Unicast UDP</title>
<author fullname="F. Audet" initials="F." role="editor"
surname="Audet">
<organization></organization>
</author>
<author fullname="C. Jennings" initials="C." surname="Jennings">
<organization></organization>
</author>
<date month="January" year="2007" />
<abstract>
<t>This document defines basic terminology for describing
different types of Network Address Translation (NAT) behavior when
handling Unicast UDP and also defines a set of requirements that
would allow many applications, such as multimedia communications
or online gaming, to work consistently. Developing NATs that meet
this set of requirements will greatly increase the likelihood that
these applications will function properly. This document specifies
an Internet Best Current Practices for the Internet Community, and
requests discussion and suggestions for improvements.</t>
</abstract>
</front>
<seriesInfo name="BCP" value="127" />
<seriesInfo name="RFC" value="4787" />
<seriesInfo name="DOI" value="10.17487/RFC4787" />
</reference>
<reference anchor="RFC7323"
target="https://www.rfc-editor.org/info/rfc7323">
<front>
<title>TCP Extensions for High Performance</title>
<author fullname="D. Borman" initials="D." surname="Borman">
<organization></organization>
</author>
<author fullname="B. Braden" initials="B." surname="Braden">
<organization></organization>
</author>
<author fullname="V. Jacobson" initials="V." surname="Jacobson">
<organization></organization>
</author>
<author fullname="R. Scheffenegger" initials="R." role="editor"
surname="Scheffenegger">
<organization></organization>
</author>
<date month="September" year="2014" />
<abstract>
<t>This document specifies a set of TCP extensions to improve
performance over paths with a large bandwidth * delay product and
to provide reliable operation over very high-speed paths. It
defines the TCP Window Scale (WS) option and the TCP Timestamps
(TS) option and their semantics. The Window Scale option is used
to support larger receive windows, while the Timestamps option can
be used for at least two distinct mechanisms, Protection Against
Wrapped Sequences (PAWS) and Round-Trip Time Measurement (RTTM),
that are also described herein.</t>
<t>This document obsoletes RFC 1323 and describes changes from
it.</t>
</abstract>
</front>
<seriesInfo name="RFC" value="7323" />
<seriesInfo name="DOI" value="10.17487/RFC7323" />
</reference>
<reference anchor="RFC2018"
target="https://www.rfc-editor.org/info/rfc2018">
<front>
<title>TCP Selective Acknowledgment Options</title>
<author fullname="M. Mathis" initials="M." surname="Mathis">
<organization></organization>
</author>
<author fullname="J. Mahdavi" initials="J." surname="Mahdavi">
<organization></organization>
</author>
<author fullname="S. Floyd" initials="S." surname="Floyd">
<organization></organization>
</author>
<author fullname="A. Romanow" initials="A." surname="Romanow">
<organization></organization>
</author>
<date month="October" year="1996" />
<abstract>
<t>This memo proposes an implementation of SACK and discusses its
performance and related issues. [STANDARDS-TRACK]</t>
</abstract>
</front>
<seriesInfo name="RFC" value="2018" />
<seriesInfo name="DOI" value="10.17487/RFC2018" />
</reference>
<reference anchor="RFC2827"
target="https://www.rfc-editor.org/info/rfc2827">
<front>
<title>Network Ingress Filtering: Defeating Denial of Service
Attacks which employ IP Source Address Spoofing</title>
<author fullname="P. Ferguson" initials="P." surname="Ferguson">
<organization></organization>
</author>
<author fullname="D. Senie" initials="D." surname="Senie">
<organization></organization>
</author>
<date month="May" year="2000" />
<abstract>
<t>This paper discusses a simple, effective, and straightforward
method for using ingress traffic filtering to prohibit DoS (Denial
of Service) attacks which use forged IP addresses to be propagated
from 'behind' an Internet Service Provider's (ISP) aggregation
point. This document specifies an Internet Best Current Practices
for the Internet Community, and requests discussion and
suggestions for improvements.</t>
</abstract>
</front>
<seriesInfo name="BCP" value="38" />
<seriesInfo name="RFC" value="2827" />
<seriesInfo name="DOI" value="10.17487/RFC2827" />
</reference>
</references>
<references title="Informative References">
<?rfc include='reference.RFC.5461'?>
<?rfc include='reference.RFC.6731'?>
<reference anchor="RFC6978"
target="https://www.rfc-editor.org/info/rfc6978">
<front>
<title>A TCP Authentication Option Extension for NAT
Traversal</title>
<author fullname="J. Touch" initials="J." surname="Touch">
<organization></organization>
</author>
<date month="July" year="2013" />
<abstract>
<t>This document describes an extension to the TCP Authentication
Option (TCP-AO) to support its use over connections that pass
through Network Address Translators and/or Network Address and
Port Translators (NATs/NAPTs). This extension changes the data
used to compute traffic keys, but it does not alter TCP-AO's
packet processing or key generation algorithms.</t>
</abstract>
</front>
<seriesInfo name="RFC" value="6978" />
<seriesInfo name="DOI" value="10.17487/RFC6978" />
</reference>
<reference anchor="RFC2782"
target="https://www.rfc-editor.org/info/rfc2782">
<front>
<title>A DNS RR for specifying the location of services (DNS
SRV)</title>
<author fullname="A. Gulbrandsen" initials="A."
surname="Gulbrandsen">
<organization></organization>
</author>
<author fullname="P. Vixie" initials="P." surname="Vixie">
<organization></organization>
</author>
<author fullname="L. Esibov" initials="L." surname="Esibov">
<organization></organization>
</author>
<date month="February" year="2000" />
<abstract>
<t>This document describes a DNS RR which specifies the location
of the server(s) for a specific protocol and domain.
[STANDARDS-TRACK]</t>
</abstract>
</front>
<seriesInfo name="RFC" value="2782" />
<seriesInfo name="DOI" value="10.17487/RFC2782" />
</reference>
<reference anchor="RFC4279"
target="https://www.rfc-editor.org/info/rfc4279">
<front>
<title>Pre-Shared Key Ciphersuites for Transport Layer Security
(TLS)</title>
<author fullname="P. Eronen" initials="P." role="editor"
surname="Eronen">
<organization></organization>
</author>
<author fullname="H. Tschofenig" initials="H." role="editor"
surname="Tschofenig">
<organization></organization>
</author>
<date month="December" year="2005" />
<abstract>
<t>This document specifies three sets of new ciphersuites for the
Transport Layer Security (TLS) protocol to support authentication
based on pre-shared keys (PSKs). These pre-shared keys are
symmetric keys, shared in advance among the communicating parties.
The first set of ciphersuites uses only symmetric key operations
for authentication. The second set uses a Diffie-Hellman exchange
authenticated with a pre-shared key, and the third set combines
public key authentication of the server with pre-shared key
authentication of the client. [STANDARDS-TRACK]</t>
</abstract>
</front>
<seriesInfo name="RFC" value="4279" />
<seriesInfo name="DOI" value="10.17487/RFC4279" />
</reference>
<reference anchor="RFC7250"
target="https://www.rfc-editor.org/info/rfc7250">
<front>
<title>Using Raw Public Keys in Transport Layer Security (TLS) and
Datagram Transport Layer Security (DTLS)</title>
<author fullname="P. Wouters" initials="P." role="editor"
surname="Wouters">
<organization></organization>
</author>
<author fullname="H. Tschofenig" initials="H." role="editor"
surname="Tschofenig">
<organization></organization>
</author>
<author fullname="J. Gilmore" initials="J." surname="Gilmore">
<organization></organization>
</author>
<author fullname="S. Weiler" initials="S." surname="Weiler">
<organization></organization>
</author>
<author fullname="T. Kivinen" initials="T." surname="Kivinen">
<organization></organization>
</author>
<date month="June" year="2014" />
<abstract>
<t>This document specifies a new certificate type and two TLS
extensions for exchanging raw public keys in Transport Layer
Security (TLS) and Datagram Transport Layer Security (DTLS). The
new certificate type allows raw public keys to be used for
authentication.</t>
</abstract>
</front>
<seriesInfo name="RFC" value="7250" />
<seriesInfo name="DOI" value="10.17487/RFC7250" />
</reference>
<reference anchor="RFC1812"
target="https://www.rfc-editor.org/info/rfc1812">
<front>
<title>Requirements for IP Version 4 Routers</title>
<author fullname="F. Baker" initials="F." role="editor"
surname="Baker">
<organization></organization>
</author>
<date month="June" year="1995" />
<abstract>
<t>This memo defines and discusses requirements for devices that
perform the network layer forwarding function of the Internet
protocol suite. [STANDARDS-TRACK]</t>
</abstract>
</front>
<seriesInfo name="RFC" value="1812" />
<seriesInfo name="DOI" value="10.17487/RFC1812" />
</reference>
<reference anchor="RFC1919"
target="https://www.rfc-editor.org/info/rfc1919">
<front>
<title>Classical versus Transparent IP Proxies</title>
<author fullname="M. Chatel" initials="M." surname="Chatel">
<organization></organization>
</author>
<date month="March" year="1996" />
<abstract>
<t>This document explains "classical" and "transparent" proxy
techniques and attempts to provide rules to help determine when
each proxy system may be used without causing problems. This memo
provides information for the Internet community. This memo does
not specify an Internet standard of any kind.</t>
</abstract>
</front>
<seriesInfo name="RFC" value="1919" />
<seriesInfo name="DOI" value="10.17487/RFC1919" />
</reference>
<reference anchor="RFC1928"
target="https://www.rfc-editor.org/info/rfc1928">
<front>
<title>SOCKS Protocol Version 5</title>
<author fullname="M. Leech" initials="M." surname="Leech">
<organization></organization>
</author>
<author fullname="M. Ganis" initials="M." surname="Ganis">
<organization></organization>
</author>
<author fullname="Y. Lee" initials="Y." surname="Lee">
<organization></organization>
</author>
<author fullname="R. Kuris" initials="R." surname="Kuris">
<organization></organization>
</author>
<author fullname="D. Koblas" initials="D." surname="Koblas">
<organization></organization>
</author>
<author fullname="L. Jones" initials="L." surname="Jones">
<organization></organization>
</author>
<date month="March" year="1996" />
<abstract>
<t>This memo describes a protocol that is an evolution of the
previous version of the protocol, version 4 [1]. This new protocol
stems from active discussions and prototype implementations.
[STANDARDS-TRACK]</t>
</abstract>
</front>
<seriesInfo name="RFC" value="1928" />
<seriesInfo name="DOI" value="10.17487/RFC1928" />
</reference>
<reference anchor="RFC3135"
target="https://www.rfc-editor.org/info/rfc3135">
<front>
<title>Performance Enhancing Proxies Intended to Mitigate
Link-Related Degradations</title>
<author fullname="J. Border" initials="J." surname="Border">
<organization></organization>
</author>
<author fullname="M. Kojo" initials="M." surname="Kojo">
<organization></organization>
</author>
<author fullname="J. Griner" initials="J." surname="Griner">
<organization></organization>
</author>
<author fullname="G. Montenegro" initials="G." surname="Montenegro">
<organization></organization>
</author>
<author fullname="Z. Shelby" initials="Z." surname="Shelby">
<organization></organization>
</author>
<date month="June" year="2001" />
<abstract>
<t>This document is a survey of Performance Enhancing Proxies
(PEPs) often employed to improve degraded TCP performance caused
by characteristics of specific link environments, for example, in
satellite, wireless WAN, and wireless LAN environments. This memo
provides information for the Internet community.</t>
</abstract>
</front>
<seriesInfo name="RFC" value="3135" />
<seriesInfo name="DOI" value="10.17487/RFC3135" />
</reference>
<reference anchor="RFC7414"
target="https://www.rfc-editor.org/info/rfc7414">
<front>
<title>A Roadmap for Transmission Control Protocol (TCP)
Specification Documents</title>
<author fullname="M. Duke" initials="M." surname="Duke">
<organization></organization>
</author>
<author fullname="R. Braden" initials="R." surname="Braden">
<organization></organization>
</author>
<author fullname="W. Eddy" initials="W." surname="Eddy">
<organization></organization>
</author>
<author fullname="E. Blanton" initials="E." surname="Blanton">
<organization></organization>
</author>
<author fullname="A. Zimmermann" initials="A." surname="Zimmermann">
<organization></organization>
</author>
<date month="February" year="2015" />
<abstract>
<t>This document contains a roadmap to the Request for Comments
(RFC) documents relating to the Internet's Transmission Control
Protocol (TCP). This roadmap provides a brief summary of the
documents defining TCP and various TCP extensions that have
accumulated in the RFC series. This serves as a guide and quick
reference for both TCP implementers and other parties who desire
information contained in the TCP-related RFCs.</t>
<t>This document obsoletes RFC 4614.</t>
</abstract>
</front>
<seriesInfo name="RFC" value="7414" />
<seriesInfo name="DOI" value="10.17487/RFC7414" />
</reference>
<reference anchor="RFC6887"
target="https://www.rfc-editor.org/info/rfc6887">
<front>
<title>Port Control Protocol (PCP)</title>
<author fullname="D. Wing" initials="D." role="editor"
surname="Wing">
<organization></organization>
</author>
<author fullname="S. Cheshire" initials="S." surname="Cheshire">
<organization></organization>
</author>
<author fullname="M. Boucadair" initials="M." surname="Boucadair">
<organization></organization>
</author>
<author fullname="R. Penno" initials="R." surname="Penno">
<organization></organization>
</author>
<author fullname="P. Selkirk" initials="P." surname="Selkirk">
<organization></organization>
</author>
<date month="April" year="2013" />
<abstract>
<t>The Port Control Protocol allows an IPv6 or IPv4 host to
control how incoming IPv6 or IPv4 packets are translated and
forwarded by a Network Address Translator (NAT) or simple
firewall, and also allows a host to optimize its outgoing NAT
keepalive messages.</t>
</abstract>
</front>
<seriesInfo name="RFC" value="6887" />
<seriesInfo name="DOI" value="10.17487/RFC6887" />
</reference>
<reference anchor="RFC6928"
target="https://www.rfc-editor.org/info/rfc6928">
<front>
<title>Increasing TCP's Initial Window</title>
<author fullname="J. Chu" initials="J." surname="Chu">
<organization></organization>
</author>
<author fullname="N. Dukkipati" initials="N." surname="Dukkipati">
<organization></organization>
</author>
<author fullname="Y. Cheng" initials="Y." surname="Cheng">
<organization></organization>
</author>
<author fullname="M. Mathis" initials="M." surname="Mathis">
<organization></organization>
</author>
<date month="April" year="2013" />
<abstract>
<t>This document proposes an experiment to increase the permitted
TCP initial window (IW) from between 2 and 4 segments, as
specified in RFC 3390, to 10 segments with a fallback to the
existing recommendation when performance issues are detected. It
discusses the motivation behind the increase, the advantages and
disadvantages of the higher initial window, and presents results
from several large-scale experiments showing that the higher
initial window improves the overall performance of many web
services without resulting in a congestion collapse. The document
closes with a discussion of usage and deployment for further
experimental purposes recommended by the IETF TCP Maintenance and
Minor Extensions (TCPM) working group.</t>
</abstract>
</front>
<seriesInfo name="RFC" value="6928" />
<seriesInfo name="DOI" value="10.17487/RFC6928" />
</reference>
<reference anchor="RFC8041"
target="https://www.rfc-editor.org/info/rfc8041">
<front>
<title>Use Cases and Operational Experience with Multipath
TCP</title>
<author fullname="O. Bonaventure" initials="O."
surname="Bonaventure">
<organization></organization>
</author>
<author fullname="C. Paasch" initials="C." surname="Paasch">
<organization></organization>
</author>
<author fullname="G. Detal" initials="G." surname="Detal">
<organization></organization>
</author>
<date month="January" year="2017" />
<abstract>
<t>This document discusses both use cases and operational
experience with Multipath TCP (MPTCP) in real networks. It lists
several prominent use cases where Multipath TCP has been
considered and is being used. It also gives insight to some
heuristics and decisions that have helped to realize these use
cases and suggests possible improvements.</t>
</abstract>
</front>
<seriesInfo name="RFC" value="8041" />
<seriesInfo name="DOI" value="10.17487/RFC8041" />
</reference>
<reference anchor="RFC8305"
target="https://www.rfc-editor.org/info/rfc8305">
<front>
<title>Happy Eyeballs Version 2: Better Connectivity Using
Concurrency</title>
<author fullname="D. Schinazi" initials="D." surname="Schinazi">
<organization></organization>
</author>
<author fullname="T. Pauly" initials="T." surname="Pauly">
<organization></organization>
</author>
<date month="December" year="2017" />
<abstract>
<t>Many communication protocols operating over the modern Internet
use hostnames. These often resolve to multiple IP addresses, each
of which may have different performance and connectivity
characteristics. Since specific addresses or address families
(IPv4 or IPv6) may be blocked, broken, or sub-optimal on a
network, clients that attempt multiple connections in parallel
have a chance of establishing a connection more quickly. This
document specifies requirements for algorithms that reduce this
user-visible delay and provides an example algorithm, referred to
as "Happy Eyeballs". This document obsoletes the original
algorithm description in RFC 6555.</t>
</abstract>
</front>
<seriesInfo name="RFC" value="8305" />
<seriesInfo name="DOI" value="10.17487/RFC8305" />
</reference>
<reference anchor="RFC8446"
target="https://www.rfc-editor.org/info/rfc8446">
<front>
<title>The Transport Layer Security (TLS) Protocol Version
1.3</title>
<author fullname="E. Rescorla" initials="E." surname="Rescorla">
<organization></organization>
</author>
<date month="August" year="2018" />
<abstract>
<t>This document specifies version 1.3 of the Transport Layer
Security (TLS) protocol. TLS allows client/server applications to
communicate over the Internet in a way that is designed to prevent
eavesdropping, tampering, and message forgery.</t>
<t>This document updates RFCs 5705 and 6066, and obsoletes RFCs
5077, 5246, and 6961. This document also specifies new
requirements for TLS 1.2 implementations.</t>
</abstract>
</front>
<seriesInfo name="RFC" value="8446" />
<seriesInfo name="DOI" value="10.17487/RFC8446" />
</reference>
<reference anchor="RFC6269"
target="https://www.rfc-editor.org/info/rfc6269">
<front>
<title>Issues with IP Address Sharing</title>
<author fullname="M. Ford" initials="M." role="editor"
surname="Ford">
<organization></organization>
</author>
<author fullname="M. Boucadair" initials="M." surname="Boucadair">
<organization></organization>
</author>
<author fullname="A. Durand" initials="A." surname="Durand"> <displayreference target="I-D.boucadair-tcpm-dhc-converter" to="DHC-CONVERTER"/>
<organization></organization> <displayreference target="I-D.olteanu-intarea-socks-6" to="INTAREA-SOCKS"/>
</author>
<author fullname="P. Levis" initials="P." surname="Levis">
<organization></organization>
</author>
<author fullname="P. Roberts" initials="P." surname="Roberts">
<organization></organization>
</author>
<date month="June" year="2011" />
<abstract>
<t>The completion of IPv4 address allocations from IANA and the
Regional Internet Registries (RIRs) is causing service providers
around the world to question how they will continue providing IPv4
connectivity service to their subscribers when there are no longer
sufficient IPv4 addresses to allocate them one per subscriber.
Several possible solutions to this problem are now emerging based
around the idea of shared IPv4 addressing. These solutions give
rise to a number of issues, and this memo identifies those common
to all such address sharing approaches. Such issues include
application failures, additional service monitoring complexity,
new security vulnerabilities, and so on. Solution-specific
discussions are out of scope.</t>
<t>Deploying IPv6 is the only perennial way to ease pressure on
the public IPv4 address pool without the need for address sharing
mechanisms that give rise to the issues identified herein. This
document is not an Internet Standards Track specification; it is
published for informational purposes.</t>
</abstract>
</front>
<seriesInfo name="RFC" value="6269" />
<seriesInfo name="DOI" value="10.17487/RFC6269" />
</reference>
<reference anchor="RFC6296"
target="https://www.rfc-editor.org/info/rfc6296">
<front>
<title>IPv6-to-IPv6 Network Prefix Translation</title>
<author fullname="M. Wasserman" initials="M." surname="Wasserman">
<organization></organization>
</author>
<author fullname="F. Baker" initials="F." surname="Baker">
<organization></organization>
</author>
<date month="June" year="2011" />
<abstract>
<t>This document describes a stateless, transport-agnostic
IPv6-to-IPv6 Network Prefix Translation (NPTv6) function that
provides the address-independence benefit associated with
IPv4-to-IPv4 NAT (NAPT44) and provides a 1:1 relationship between
addresses in the "inside" and "outside" prefixes, preserving
end-to-end reachability at the network layer. This document
defines an Experimental Protocol for the Internet community.</t>
</abstract>
</front>
<seriesInfo name="RFC" value="6296" />
<seriesInfo name="DOI" value="10.17487/RFC6296" />
</reference>
<reference anchor="I-D.boucadair-tcpm-dhc-converter">
<front>
<title>DHCP Options for 0-RTT TCP Converters</title>
<author fullname="Mohamed Boucadair" initials="M"
surname="Boucadair">
<organization></organization>
</author>
<author fullname="Christian Jacquenet" initials="C"
surname="Jacquenet">
<organization></organization>
</author>
<author fullname="Tirumaleswar Reddy.K" initials="T"
surname="Reddy.K">
<organization></organization>
</author>
<date day="7" month="October" year="2019" />
<abstract>
<t>Because of the lack of important TCP extensions, e.g.,
Multipath TCP support at the server side, some service providers
now consider a network-assisted model that relies upon the
activation of a dedicated function called Transport Converters.
For example, network-assisted Multipath TCP deployment models are
designed to facilitate the adoption of Multipath TCP for the
establishment of multi-path communications without making any
assumption about the support of Multipath TCP by the remote
servers. Transport Converters located in the network are
responsible for establishing multi-path communications on behalf
of endpoints, thereby taking advantage of Multipath TCP
capabilities to achieve different goals that include (but are not
limited to) optimization of resource usage (e.g., bandwidth
aggregation), of resiliency (e.g., primary/backup communication
paths), and traffic offload management. This document focuses on
the explicit deployment scheme where the identity of the Transport
Converters is explicitly configured on connected hosts. This
document specifies DHCP (IPv4 and IPv6) options to configure hosts
with Converters parameters.</t>
</abstract>
</front>
<seriesInfo name="Internet-Draft"
value="draft-boucadair-tcpm-dhc-converter-03" />
<format target="http://www.ietf.org/internet-drafts/draft-boucadair-tcpm
-dhc-converter-03.txt"
type="TXT" />
</reference>
<reference anchor="RFC8548"
target="https://www.rfc-editor.org/info/rfc8548">
<front>
<title>Cryptographic Protection of TCP Streams (tcpcrypt)</title>
<author fullname="A. Bittau" initials="A." surname="Bittau">
<organization></organization>
</author>
<author fullname="D. Giffin" initials="D." surname="Giffin">
<organization></organization>
</author>
<author fullname="M. Handley" initials="M." surname="Handley">
<organization></organization>
</author>
<author fullname="D. Mazieres" initials="D." surname="Mazieres">
<organization></organization>
</author>
<author fullname="Q. Slack" initials="Q." surname="Slack">
<organization></organization>
</author>
<author fullname="E. Smith" initials="E." surname="Smith">
<organization></organization>
</author>
<date month="May" year="2019" />
<abstract>
<t>This document specifies "tcpcrypt", a TCP encryption protocol
designed for use in conjunction with the TCP Encryption
Negotiation Option (TCP-ENO). Tcpcrypt coexists with middleboxes
by tolerating resegmentation, NATs, and other manipulations of the
TCP header. The protocol is self-contained and specifically
tailored to TCP implementations, which often reside in kernels or
other environments in which large external software dependencies
can be undesirable. Because the size of TCP options is limited,
the protocol requires one additional one-way message latency to
perform key exchange before application data can be transmitted.
However, the extra latency can be avoided between two hosts that
have recently established a previous tcpcrypt connection.</t>
</abstract>
</front>
<seriesInfo name="RFC" value="8548" />
<seriesInfo name="DOI" value="10.17487/RFC8548" />
</reference>
<reference anchor="I-D.olteanu-intarea-socks-6">
<front>
<title>SOCKS Protocol Version 6</title>
<author fullname="Vladimir Olteanu" initials="V" surname="Olteanu">
<organization></organization>
</author>
<author fullname="Dragos Niculescu" initials="D" surname="Niculescu">
<organization></organization>
</author>
<date day="4" month="November" year="2019" />
<abstract>
<t>The SOCKS protocol is used primarily to proxy TCP connections
to arbitrary destinations via the use of a proxy server. Under the
latest version of the protocol (version 5), it takes 2 RTTs (or 3,
if authentication is used) before data can flow between the client
and the server. This memo proposes SOCKS version 6, which reduces
the number of RTTs used, takes full advantage of TCP Fast Open,
and adds support for 0-RTT authentication.</t>
</abstract>
</front>
<seriesInfo name="Internet-Draft"
value="draft-olteanu-intarea-socks-6-08" />
<format target="http://www.ietf.org/internet-drafts/draft-olteanu-intare
a-socks-6-08.txt"
type="TXT" />
</reference>
<reference anchor="I-D.boucadair-mptcp-plain-mode">
<front>
<title>Extensions for Network-Assisted MPTCP Deployment
Models</title>
<author fullname="Mohamed Boucadair" initials="M"
surname="Boucadair">
<organization></organization>
</author>
<author fullname="Christian Jacquenet" initials="C"
surname="Jacquenet">
<organization></organization>
</author>
<author fullname="Olivier Bonaventure" initials="O"
surname="Bonaventure">
<organization></organization>
</author>
<author fullname="Denis Behaghel" initials="D" surname="Behaghel">
<organization></organization>
</author>
<author fullname="stefano.secci@lip6.fr" initials="s"
surname="stefano.secci@lip6.fr">
<organization></organization>
</author>
<author fullname="Wim Henderickx" initials="W" surname="Henderickx">
<organization></organization>
</author>
<author fullname="Robert Skog" initials="R" surname="Skog">
<organization></organization>
</author>
<author fullname="Suresh Vinapamula" initials="S"
surname="Vinapamula">
<organization></organization>
</author>
<author fullname="SungHoon Seo" initials="S" surname="Seo">
<organization></organization>
</author>
<author fullname="Wouter Cloetens" initials="W" surname="Cloetens">
<organization></organization>
</author>
<author fullname="Ullrich Meyer" initials="U" surname="Meyer">
<organization></organization>
</author>
<author fullname="Luis Contreras" initials="L" surname="Contreras">
<organization></organization>
</author>
<author fullname="Bart Peirens" initials="B" surname="Peirens">
<organization></organization>
</author>
<date day="9" month="March" year="2017" />
<abstract>
<t>Because of the lack of Multipath TCP (MPTCP) support at the
server side, some service providers now consider a
network-assisted model that relies upon the activation of a
dedicated function called MPTCP Conversion Point (MCP).
Network-Assisted MPTCP deployment models are designed to
facilitate the adoption of MPTCP for the establishment of
multi-path communications without making any assumption about the
support of MPTCP by the communicating peers. MCPs located in the
network are responsible for establishing multi-path communications
on behalf of endpoints, thereby taking advantage of MPTCP
capabilities to achieve different goals that include (but are not
limited to) optimization of resource usage (e.g., bandwidth
aggregation), of resiliency (e.g., primary/backup communication
paths), and traffic offload management. This document specifies
extensions for Network-Assisted MPTCP deployment models.</t>
</abstract>
</front>
<seriesInfo name="Internet-Draft"
value="draft-boucadair-mptcp-plain-mode-10" />
<format target="http://www.ietf.org/internet-drafts/draft-boucadair-mptc
p-plain-mode-10.txt"
type="TXT" />
</reference>
<reference anchor="I-D.peirens-mptcp-transparent">
<front>
<title>Link bonding with transparent Multipath TCP</title>
<author fullname="Bart Peirens" initials="B" surname="Peirens">
<organization></organization>
</author>
<author fullname="Gregory Detal" initials="G" surname="Detal"> <displayreference target="I-D.boucadair-mptcp-plain-mode" to="MPTCP-PLAIN"/>
<organization></organization>
</author>
<author fullname="Sebastien Barre" initials="S" surname="Barre"> <displayreference target="I-D.peirens-mptcp-transparent" to="MPTCP-TRANSPARENT"/
<organization></organization> >
</author> <displayreference target="I-D.arkko-arch-low-latency" to="LOW-LATENCY"/>
<displayreference target="I-D.boucadair-opsawg-tcpm-converter" to="TCPM-CONVERTE
R"/>
<author fullname="Olivier Bonaventure" initials="O" <references>
surname="Bonaventure"> <name>References</name>
<organization></organization> <references>
</author> <name>Normative References</name>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.0793.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.4291.xml"/>
<date day="8" month="July" year="2016" /> <xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.8684.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.7413.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.4987.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.2119.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.8174.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.5925.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.8126.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.6890.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.6888.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.4787.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.7323.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.2018.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.2827.xml"/>
</references>
<references>
<name>Informative References</name>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.5461.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.6731.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.6978.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.2782.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.4279.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.7250.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.1812.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.1919.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.1928.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.3135.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.7414.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.6887.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.6928.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.8041.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.8305.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.8446.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.6269.xml"/>
<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
FC.6296.xml"/>
<abstract> <xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml3/reference.
<t>This document describes the utilisation of the transparent I-D.boucadair-tcpm-dhc-converter.xml"/>
Multipath TCP mode to enable network operators to provide link <xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.R
bonding services in hybrid access networks.</t> FC.8548.xml"/>
</abstract> <xi:include href="https://xml2rfc.tools.ietf.org/public/rfc/bibxml3/refe
</front> rence.I-D.olteanu-intarea-socks-6.xml"/>
<seriesInfo name="Internet-Draft" <reference anchor='I-D.boucadair-mptcp-plain-mode'>
value="draft-peirens-mptcp-transparent-00" />
<format target="http://www.ietf.org/internet-drafts/draft-peirens-mptcp- <front>
transparent-00.txt" <title>Extensions for Network-Assisted MPTCP Deployment Models</title>
type="TXT" />
</reference>
<reference anchor="I-D.arkko-arch-low-latency"> <author initials='M' surname='Boucadair' fullname='Mohamed Boucadair'> <organ
<front> ization />
<title>Low Latency Applications and the Internet </author>
Architecture</title>
<author fullname="Jari Arkko" initials="J" surname="Arkko"> <author initials='C' surname='Jacquenet' fullname='Christian Jacquenet'> <org
<organization></organization> anization />
</author> </author>
<author fullname="Jeff Tantsura" initials="J" surname="Tantsura"> <author initials='O' surname='Bonaventure' fullname='Olivier Bonaventure'> <o
<organization></organization> rganization />
</author> </author>
<date day="30" month="October" year="2017" /> <author initials='D' surname='Behaghel' fullname='Denis Behaghel'> <organizat
ion />
</author>
<abstract> <author initials='S' surname='Secci' fullname='Stefano Secci'> <organization
<t>Some recent Internet technology developments relate to />
improvements in communications latency. For instance, improvements </author>
in radio communications or the recent work in IETF transport,
security, and web protocols. There are also potential applications
where latency would play a more significant role than it has
traditionally been in the Internet communications. Modern
networking systems offer many tools for building low-latency
networks, from highly optimised individual protocol components to
software controlled, virtualised and tailored network functions.
This memo views the developments from a system viewpoint, and
considers the potential future stresses that the strive for
low-latency support for applications may bring.</t>
</abstract>
</front>
<seriesInfo name="Internet-Draft" <author initials='W' surname='Henderickx' fullname='Wim Henderickx'> <organiz
value="draft-arkko-arch-low-latency-02" /> ation />
</author>
<format target="http://www.ietf.org/internet-drafts/draft-arkko-arch-low <author initials='R' surname='Skog' fullname='Robert Skog'> <organization />
-latency-02.txt" </author>
type="TXT" />
</reference>
<reference anchor="I-D.boucadair-radext-tcpm-converter"> <author initials='S' surname='Vinapamula' fullname='Suresh Vinapamula'> <orga
<front> nization />
<title>RADIUS Extensions for 0-RTT TCP Converters</title> </author>
<author fullname="Mohamed Boucadair" initials="M" <author initials='S' surname='Seo' fullname='SungHoon Seo'> <organization />
surname="Boucadair"> </author>
<organization></organization>
</author>
<author fullname="Christian Jacquenet" initials="C" <author initials='W' surname='Cloetens' fullname='Wouter Cloetens'> <organiza
surname="Jacquenet"> tion />
<organization></organization> </author>
</author>
<date day="15" month="April" year="2019" /> <author initials='U' surname='Meyer' fullname='Ullrich Meyer'> <organization
/>
</author>
<abstract> <author initials='L' surname='Contreras' fullname='Luis Contreras'> <organizat
<t>Because of the lack of Multipath TCP (MPTCP) support at the ion />
server side, some service providers now consider a </author>
network-assisted model that relies upon the activation of a
dedicated function called Converters. Network-assisted MPTCP
deployment models are designed to facilitate the adoption of MPTCP
for the establishment of multi-path communications without making
any assumption about the support of MPTCP by the communicating
peers. Converters located in the network are responsible for
establishing multi-path communications on behalf of endpoints,
thereby taking advantage of MPTCP capabilities to achieve
different goals that include (but are not limited to) optimization
of resource usage (e.g., bandwidth aggregation), of resiliency
(e.g., primary/backup communication paths), and traffic offload
management. This document specifies a new Remote Authentication
Dial-In User Service (RADIUS) attributes that carry the IP
addresses that will be returned to authorized users to reach one
or multiple Converters.</t>
</abstract>
</front>
<seriesInfo name="Internet-Draft" <author initials='B' surname='Peirens' fullname='Bart Peirens'> <organization /
value="draft-boucadair-radext-tcpm-converter-02" /> >
</author>
<format target="http://www.ietf.org/internet-drafts/draft-boucadair-rade <date month='March' year='2017' />
xt-tcpm-converter-02.txt" </front>
type="TXT" /> <seriesInfo name='Internet-Draft' value='draft-boucadair-mptcp-plain-mode-10' />
</reference> </reference>
<reference anchor="TS23501" <xi:include href="https://xml2rfc.tools.ietf.org/public/rfc/bibxml3/refe
target="https://www.3gpp.org/ftp/Specs/archive/23_series/23.501 rence.I-D.peirens-mptcp-transparent.xml"/>
/"> <xi:include href="https://xml2rfc.tools.ietf.org/public/rfc/bibxml3/refe
<front> rence.I-D.arkko-arch-low-latency.xml"/>
<title>Technical Specification Group Services and System Aspects; <xi:include href="https://xml2rfc.tools.ietf.org/public/rfc/bibxml3/refe
System Architecture for the 5G System; Stage 2 (Release 16)</title> rence.I-D.boucadair-opsawg-tcpm-converter.xml"/>
<author initials="." <reference anchor="IANA-CONVERT" target="https://www.iana.org/assignments/tcp-co
surname="3GPP (3rd Generation Partnership Project)"> nvert-protocol-parameters/tcp-convert-protocol-parameters.xhtml">
<organization></organization> <front>
</author> <title>TCP Convert Protocol (Convert) Parameters
</title>
<author>
<organization>IANA
</organization>
</author>
</front>
</reference>
<date year="2019" /> <reference anchor="TS23501" target="https://www.3gpp.org/ftp/Specs/archi
</front> ve/23_series/23.501/">
</reference> <front>
<title>Technical Specification Group Services and System Aspects;
System architecture for the 5G System; Stage 2 (Release 16)</title>
<author>
<organization>3GPP (3rd Generation Partnership Project)
</organization>
</author>
<date year="2019"/>
</front>
</reference>
<reference anchor="Fukuda2011"> <reference anchor="Fukuda2011">
<front> <front>
<title>An Analysis of Longitudinal TCP Passive Measurements (Short <title>An Analysis of Longitudinal TCP Passive Measurements (Short
Paper)</title> Paper)</title>
<author initials="K." surname="Fukuda">
<organization/>
</author>
<date year="2011"/>
</front>
<author initials="K." surname="Fukuda"> <refcontent>Traffic Monitoring and Analysis</refcontent>
<organization></organization> <refcontent>TMA 2011</refcontent>
</author> <refcontent>Lecture Notes in Computer Science, vol. 6613</refcontent>
</reference>
<date year="2011" />
</front>
<seriesInfo name="Traffic Monitoring and Analysis. TMA 2011. Lecture Not
es in Computer Science, vol 6613."
value="" />
</reference>
<reference anchor="ANRW17">
<front>
<title>Tracking transport-layer evolution with PATHspider</title>
<author initials="B." surname="Trammell">
<organization></organization>
</author>
<author initials="M." surname="Kuehlewind">
<organization></organization>
</author>
<author initials="P." surname="De Vaere">
<organization></organization>
</author>
<author initials="I." surname="Learmonth">
<organization></organization>
</author>
<author initials="G." surname="Fairhurst">
<organization></organization>
</author>
<date month="July" year="2017" />
</front>
<seriesInfo name="Applied Networking Research Workshop 2017 (ANRW17)"
value="" />
</reference>
<reference anchor="IMC11">
<front>
<title>Is it still possible to extend TCP?</title>
<author initials="K." surname="Honda">
<organization></organization>
</author>
<author initials="Y." surname="Nishida">
<organization></organization>
</author>
<author initials="C." surname="Raiciu">
<organization></organization>
</author>
<author initials="A." surname="Greenhalgh">
<organization></organization>
</author>
<author initials="M." surname="Handley">
<organization></organization>
</author>
<author initials="T." surname="Hideyuki">
<organization></organization>
</author>
<date year="2011" />
</front>
<seriesInfo name="Proceedings of the 2011 ACM SIGCOMM conference on Inte
rnet measurement conference"
value="" />
</reference>
<reference anchor="IETFJ16">
<front>
<title>Multipath TCP Deployment</title>
<author initials="O." surname="Bonaventure">
<organization></organization>
</author>
<author initials="S." surname="Seo">
<organization></organization>
</author>
<date year="n.d." />
</front>
<seriesInfo name="IETF Journal, Fall 2016" value="" />
</reference>
<reference anchor="HotMiddlebox13b"
target="http://inl.info.ucl.ac.be/publications/multipath-middle
box">
<front>
<title>Multipath in the Middle(Box)</title>
<author initials="G." surname="Detal"> <reference anchor="ANRW17">
<organization></organization> <front>
</author> <title>Tracking transport-layer evolution with PATHspider</title>
<author initials="B." surname="Trammell">
<organization/>
</author>
<author initials="M." surname="Kuehlewind">
<organization/>
</author>
<author initials="P." surname="De Vaere">
<organization/>
</author>
<author initials="I." surname="Learmonth">
<organization/>
</author>
<author initials="G." surname="Fairhurst">
<organization/>
</author>
<date month="July" year="2017"/>
</front>
<refcontent>Applied Networking Research Workshop 2017 (ANRW17)</refcontent>
</reference>
<author initials="C." surname="Paasch"> <reference anchor="IMC11">
<organization></organization> <front>
</author> <title>Is it still possible to extend TCP?</title>
<author initials="K." surname="Honda">
<organization/>
</author>
<author initials="Y." surname="Nishida">
<organization/>
</author>
<author initials="C." surname="Raiciu">
<organization/>
</author>
<author initials="A." surname="Greenhalgh">
<organization/>
</author>
<author initials="M." surname="Handley">
<organization/>
</author>
<author initials="T." surname="Hideyuki">
<organization/>
</author>
<date month="November" year="2011"/>
</front>
<seriesInfo name="DOI" value="10.1145/2068816.2068834"/>
<refcontent>Proceedings of the 2011 ACM SIGCOMM conference on
Internet measurement conference
</refcontent>
</reference>
<author initials="O." surname="Bonaventure"> <reference anchor="IETFJ16">
<organization></organization> <front>
</author> <title>Multipath TCP Deployments</title>
<date month="December" year="2013" /> <author initials="O." surname="Bonaventure">
</front> <organization/>
</author>
<author initials="S." surname="Seo">
<organization/>
</author>
<date month="November" year="2016"></date>
</front>
<refcontent>IETF Journal</refcontent>
<refcontent>Vol. 12, Issue 2</refcontent>
</reference>
<seriesInfo name="HotMiddlebox'13" value="" /> <reference anchor="HOT-MIDDLEBOX13" target="https://inl.info.ucl.ac.be/p
</reference> ublications/multipath-middlebox">
<front>
<title>Multipath in the Middle(Box)</title>
<author initials="G." surname="Detal">
<organization/>
</author>
<author initials="C." surname="Paasch">
<organization/>
</author>
<author initials="O." surname="Bonaventure">
<organization/>
</author>
<date month="December" year="2013"/>
</front>
<seriesInfo name="DOI" value="10.1145/2535828.2535829"/>
<refcontent>HotMiddlebox'13</refcontent>
</reference>
</references>
</references> </references>
<section anchor="sec-api" <section anchor="sec-api" numbered="true" toc="default">
title="Example Socket API Changes to Support the 0-RTT Convert Prot <name>Example Socket API Changes to Support the 0-RTT TCP Convert Protocol
ocol"> </name>
<section anchor="active-open-client-side" <section anchor="active-open-client-side" numbered="true" toc="default">
title="Active Open (Client Side)"> <name>Active Open (Client Side)</name>
<t>On the client side, the support of the 0-RTT Converter protocol <t>On the Client side, the support of the 0-RTT Converter protocol
does not require any other changes than those identified in Appendix A does not require any other changes than those identified in <xref
of <xref target="RFC7413"></xref>. Those modifications are already target="RFC7413" sectionFormat="of" section="A"/>. Those modifications
supported by multiple TCP stacks.</t> are already supported by multiple TCP stacks.</t>
<t>As an example, on Linux, a Client can send the 0-RTT Convert
<t>As an example, on Linux, a client can send the 0-RTT Convert
message inside a SYN by using sendto with the MSG_FASTOPEN flag as message inside a SYN by using sendto with the MSG_FASTOPEN flag as
shown in the example below:</t> shown in the example below:</t>
<figure> <artwork name="" type="" align="left" alt=""><![CDATA[
<artwork><![CDATA[
s = socket(AF_INET, SOCK_STREAM, 0); s = socket(AF_INET, SOCK_STREAM, 0);
sendto(s, buffer, buffer_len, MSG_FASTOPEN, sendto(s, buffer, buffer_len, MSG_FASTOPEN,
(struct sockaddr *) &server_addr, addr_len); (struct sockaddr *) &server_addr, addr_len);
]]></artwork> ]]></artwork>
</figure>
<t>The client side of the Linux TCP TFO can be used in two different <t>The Client side of the Linux TFO can be used in two different
modes depending on the host configuration (sysctl tcp_fastopen modes depending on the host configuration (sysctl tcp_fastopen
variable):</t> variable):</t>
<dl>
<dt>0x1:</dt><dd>(client) enables sending data in the opening SYN on t
he
Client.</dd>
<dt>0x4:</dt><dd>(client) enables sending data in the opening SYN rega
rdless of cookie
availability and without a cookie option.</dd>
</dl>
<t><list style="symbols"> <t>By setting this configuration variable to 0x5, a Linux Client using
<t>0x1: (client) enables sending data in the opening SYN on the
client.</t>
<t>0x4: (client) send data in the opening SYN regardless of cookie
availability and without a cookie option.</t>
</list></t>
<t>By setting this configuration variable to 0x5, a Linux client using
the above code would send data inside the SYN without using a TFO the above code would send data inside the SYN without using a TFO
option.</t> option.</t>
</section> </section>
<section anchor="passive-open-converter-side" numbered="true" toc="default
<section anchor="passive-open-converter-side" ">
title="Passive Open (Converter Side)"> <name>Passive Open (Converter Side)</name>
<t>The Converter needs to enable the reception of data inside the SYN <t>The Converter needs to enable the reception of data inside the SYN
independently of the utilization of the TFO option. This implies that independently of the utilization of the TFO option. This implies that
the Transport Converter application cannot rely on the TFO cookies to the Transport Converter application cannot rely on the Fast Open Cookies to
validate the reachability of the IP address that sent the SYN. It must validate the reachability of the IP address that sent the SYN. It must
rely on other techniques, such as the Cookie TLV described in this rely on other techniques, such as the Cookie TLV described in this
document, to verify this reachability.</t> document, to verify this reachability.</t>
<t><xref target="RFC7413" format="default"/> suggested the utilization o
<t><xref target="RFC7413"></xref> suggested the utilization of a f a
TCP_FASTOPEN socket option the enable the reception of SYNs containing TCP_FASTOPEN socket option to enable the reception of SYNs containing
data. Later, Appendix A of <xref target="RFC7413"></xref>, data. Later, <xref target="RFC7413" sectionFormat="of" section="A"/>
mentioned:</t> mentioned:</t>
<figure> <blockquote>
<artwork><![CDATA[
Traditionally, accept() returns only after a socket is connected. Traditionally, accept() returns only after a socket is connected.
But, for a Fast Open connection, accept() returns upon receiving But, for a Fast Open connection, accept() returns upon receiving
SYN with a valid Fast Open cookie and data, and the data is available a SYN with a valid Fast Open cookie and data, and the data is
to be read through, e.g., recvmsg(), read(). available to be read through, e.g., recvmsg(), read().
]]></artwork> </blockquote>
</figure> <t>To support the 0-RTT TCP Convert Protocol, this behavior should be
<t>To support the 0-RTT Convert Protocol, this behavior should be
modified as follows:</t> modified as follows:</t>
<blockquote>
<figure>
<artwork><![CDATA[
Traditionally, accept() returns only after a socket is connected. Traditionally, accept() returns only after a socket is connected.
But, for a Fast Open connection, accept() returns upon receiving a But, for a Fast Open connection, accept() returns upon receiving a
SYN with data, and the data is available to be read through, e.g., SYN with data, and the data is available to be read through, e.g.,
recvmsg(), read(). The application that receives such SYNs with data recvmsg(), read(). The application that receives such SYNs with
must be able to validate the reachability of the source of the SYN data must be able to validate the reachability of the source of
and also deal with replayed SYNs. the SYN and also deal with replayed SYNs.
]]></artwork> </blockquote>
</figure> <t>The Linux Server side can be configured with the following
<t>The Linux server side can be configured with the following
sysctls:</t> sysctls:</t>
<dl spacing="normal">
<t><list style="symbols"> <dt>0x2:</dt><dd>(server) enables the Server support, i.e., allowing d
<t>0x2: (server) enables the server support, i.e., allowing data ata
in a SYN packet to be accepted and passed to the application in a SYN packet to be accepted and passed to the application
before 3-way handshake finishes.</t> before a 3-way handshake finishes.</dd>
<dt>0x200:</dt><dd>(server) accepts data-in-SYN w/o any cookie option
<t>0x200: (server) accept data-in-SYN w/o any cookie option present.</dd>
present.</t> </dl>
</list></t> <t>However, this configuration is system wide. This is convenient for
<t>However, this configuration is system-wide. This is convenient for
typical Transport Converter deployments where no other applications typical Transport Converter deployments where no other applications
relying on TFO are collocated on the same device.</t> relying on TFO are collocated on the same device.</t>
<t>Recently, the TCP_FASTOPEN_NO_COOKIE socket option has been added <t>Recently, the TCP_FASTOPEN_NO_COOKIE socket option has been added
to provide the same behavior on a per socket basis. This enables a to provide the same behavior on a per-socket basis. This enables a
single host to support both servers that require the TFO cookie and single host to support both Servers that require the Fast Open Cookie an
servers that do not use it.</t> d
Servers that do not use it.</t>
</section> </section>
</section> </section>
<section anchor="acknowledgments" numbered="false" toc="default">
<section anchor="acknowledgments" numbered="no" title="Acknowledgments"> <name>Acknowledgments</name>
<t>Although they could disagree with the contents of the document, we <t>Although they could disagree with the contents of the document, we
would like to thank Joe Touch and Juliusz Chroboczek whose comments on would like to thank <contact fullname="Joe Touch"/> and <contact fullname=
the MPTCP mailing list have forced us to reconsider the design of the "Juliusz
solution several times.</t> Chroboczek"/>, whose comments on the MPTCP mailing list have forced us to
reconsider the design of the solution several times.</t>
<t>We would like to thank Raphael Bauduin, Stefano Secci, Anandatirtha <t>We would like to thank <contact fullname="Raphael Bauduin"/>,
Nandugudi and Gregory Vander Schueren for their help in preparing this <contact fullname="Stefano Secci"/>, <contact fullname="Anandatirtha
document. Nandini Ganesh provided valuable feedback about the handling Nandugudi"/>, and <contact fullname="Gregory Vander Schueren"/> for their
of TFO and the error codes. Yuchung Cheng and Praveen Balasubramanian help in preparing this
helped to clarify the discussion on supplying data in SYNs. Phil Eardley document. <contact fullname="Nandini Ganesh"/> provided valuable feedback
and Michael Scharf's helped to clarify different parts of the text. about the handling
Thanks to Eric Vyncke, Roman Danyliw, Benjamin Kaduk, and Alexey of TFO and the error codes. <contact fullname="Yuchung Cheng"/> and
Melnikov for the IESG review, and Christian Huitema for the security <contact fullname="Praveen Balasubramanian"/>
directorate review.</t> helped to clarify the discussion on supplying data in SYNs. <contact fulln
ame="Phil Eardley"/>
<t>Many thanks to Mirja Kuehlewind for the detailed AD review.</t> and <contact fullname="Michael Scharf"/> helped to clarify different parts
of the text.
Thanks to <contact fullname="Éric Vyncke"/>, <contact fullname="Roman
Danyliw"/>, <contact fullname="Benjamin Kaduk"/>, and <contact fullname="A
lexey
Melnikov"/> for the IESG review, and <contact fullname="Christian Huitema"
/> for the Security
Directorate review.</t>
<t>Many thanks to <contact fullname="Mirja Kühlewind"/> for the detailed A
D review.</t>
<t>This document builds upon earlier documents that proposed various <t>This document builds upon earlier documents that proposed various
forms of Multipath TCP proxies <xref forms of Multipath TCP proxies: <xref
target="I-D.boucadair-mptcp-plain-mode" />, <xref target="I-D.boucadair-mptcp-plain-mode" format="default"/>, <xref
target="I-D.peirens-mptcp-transparent" /> and <xref target="I-D.peirens-mptcp-transparent" format="default"/>, and <xref
target="HotMiddlebox13b" />.</t> target="HOT-MIDDLEBOX13" format="default"/>.</t>
<t>From <xref target="I-D.boucadair-mptcp-plain-mode" format="default"/>:<
<t>From <xref target="I-D.boucadair-mptcp-plain-mode" />:</t> /t>
<t>Many thanks to <contact fullname="Chi Dung Phung"/>, <contact
<t>Many thanks to Chi Dung Phung, Mingui Zhang, Rao Shoaib, Yoshifumi fullname="Mingui Zhang"/>, <contact fullname="Rao Shoaib"/>, <contact full
Nishida, and Christoph Paasch for their valuable comments.</t> name="Yoshifumi
Nishida"/>, and <contact fullname="Christoph Paasch"/> for their valuable
<t>Thanks to Ian Farrer, Mikael Abrahamsson, Alan Ford, Dan Wing, and comments.</t>
Sri Gundavelli for the fruitful discussions in IETF#95 (Buenos <t>Thanks to <contact fullname="Ian Farrer"/>, <contact fullname="Mikael
Aires).</t> Abrahamsson"/>, <contact fullname="Alan Ford"/>, <contact fullname="Dan
Wing"/>, and <contact fullname="Sri Gundavelli"/> for the fruitful
<t>Special thanks to Pierrick Seite, Yannick Le Goff, Fred Klamm, and discussions at IETF 95 (Buenos Aires).</t>
Xavier Grall for their inputs.</t> <t>Special thanks to <contact fullname="Pierrick Seite"/>, <contact
fullname="Yannick Le Goff"/>, <contact fullname="Fred Klamm"/>, and
<t>Thanks also to Olaf Schleusing, Martin Gysi, Thomas Zasowski, Andreas <contact fullname="Xavier Grall"/> for their input.</t>
Burkhard, Silka Simmen, Sandro Berger, Michael Melloul, Jean-Yves <t>Thanks also to <contact fullname="Olaf Schleusing"/>, <contact
Flahaut, Adrien Desportes, Gregory Detal, Benjamin David, Arun fullname="Martin Gysi"/>, <contact fullname="Thomas Zasowski"/>,
Srinivasan, and Raghavendra Mallya for the discussion.</t> <contact fullname="Andreas
Burkhard"/>, <contact fullname="Silka Simmen"/>, <contact
fullname="Sandro Berger"/>, <contact fullname="Michael Melloul"/>,
<contact fullname="Jean-Yves
Flahaut"/>, <contact fullname="Adrien Desportes"/>, <contact
fullname="Gregory Detal"/>, <contact fullname="Benjamin David"/>,
<contact fullname="Arun
Srinivasan"/>, and <contact fullname="Raghavendra Mallya"/> for their inpu
t.</t>
</section> </section>
<section anchor="contributors" numbered="no" title="Contributors"> <section anchor="contributors" numbered="false" toc="default">
<t>Bart Peirens contributed to an early version of the document.</t> <name>Contributors</name>
<t><contact fullname="Bart Peirens"/> contributed to an early draft versio
n of this document.</t>
<t>As noted above, this document builds on two previous documents.</t> <t>As noted above, this document builds on two previous documents.</t>
<t>The authors of <xref target="I-D.boucadair-mptcp-plain-mode" format="de
<t>The authors of <xref target="I-D.boucadair-mptcp-plain-mode" /> fault"/>
were:</t> were:</t>
<ul spacing="normal">
<t> <li><t><contact fullname="Mohamed Boucadair"/></t></li>
<list style="symbols"> <li><t><contact fullname="Christian Jacquenet"/></t></li>
<t>Mohamed Boucadair</t> <li><t><contact fullname="Olivier Bonaventure"/></t></li>
<li><t><contact fullname="Denis Behaghel"/></t></li>
<t>Christian Jacquenet</t> <li><t><contact fullname="Stefano Secci"/></t></li>
<li><t><contact fullname="Wim Henderickx"/></t></li>
<t>Olivier Bonaventure</t> <li><t><contact fullname="Robert Skog"/></t></li>
<li><t><contact fullname="Suresh Vinapamula"/></t></li>
<t>Denis Behaghel</t> <li><t><contact fullname="SungHoon Seo"/></t></li>
<li><t><contact fullname="Wouter Cloetens"/></t></li>
<t>Stefano Secci</t> <li><t><contact fullname="Ullrich Meyer"/></t></li>
<li><t><contact fullname="Luis M. Contreras"/></t></li>
<t>Wim Henderickx</t> <li><t><contact fullname="Bart Peirens"/></t></li>
</ul>
<t>Robert Skog</t> <t>The authors of <xref target="I-D.peirens-mptcp-transparent" format="def
ault"/>
<t>Suresh Vinapamula</t>
<t>SungHoon Seo</t>
<t>Wouter Cloetens</t>
<t>Ullrich Meyer</t>
<t>Luis M. Contreras</t>
<t>Bart Peirens</t>
</list>
</t>
<t>The authors of <xref target="I-D.peirens-mptcp-transparent" />
were:</t> were:</t>
<ul spacing="normal">
<t> <li><t><contact fullname="Bart Peirens"/></t></li>
<list style="symbols"> <li><t><contact fullname="Gregory Detal"/></t></li>
<t>Bart Peirens</t> <li><t><contact fullname="Sebastien Barre"/></t></li>
<li><t><contact fullname="Olivier Bonaventure"/></t></li>
<t>Gregory Detal</t> </ul>
<t>Sebastien Barre</t>
<t>Olivier Bonaventure</t>
</list>
</t>
</section> </section>
</back> </back>
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