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	<front>		<front>
	<title abbrev="What Not To Do">Path Aware Networking: Obstacles to Deploymen		<title abbrev="What Not to Do">Path Aware Networking: Obstacles to Deploymen
	t (A Bestiary of Roads Not Taken)</title>		t (A&nbsp;Bestiary&nbsp;of&nbsp;Roads&nbsp;Not&nbsp;Taken)</title>
	<seriesInfo name="Internet-Draft" value="draft-irtf-panrg-what-not-to-do-19"		<seriesInfo name="RFC" value="9049"/>
	/>
	<author initials="S." surname="Dawkins" fullname="Spencer Dawkins" role="edi tor">		<author initials="S." surname="Dawkins" fullname="Spencer Dawkins" role="edi tor">
	<organization>Tencent America</organization>		<organization>Tencent America</organization>
	<address>		<address>
			<postal>
			<country>United States of America</country>
			</postal>
	<email>spencerdawkins.ietf@gmail.com</email>		<email>spencerdawkins.ietf@gmail.com</email>
	</address>		</address>
	</author>		</author>
	<date year="2021" month="April" day="15"/>		<date year="2021" month="June"/>
	<area>IRTF</area>		<area>IRTF</area>
	<workgroup>PANRG</workgroup>		<workgroup>Path Aware Networking</workgroup>
	<keyword>PAN</keyword>		<keyword>PAN</keyword>
	<abstract>		<abstract>
	<t>At the first meeting of the Path Aware Networking Research Group, the r esearch group agreed to catalog and analyze past efforts to develop and deploy P ath Aware techniques, most of which were unsuccessful or at most partially succe ssful, in order to extract insights and lessons for path-aware networking resear chers.</t>		<t>This document is a product of the Path Aware Networking Research Group (PANRG). At the first meeting of the PANRG, the Research Group agreed to catalo g and analyze past efforts to develop and deploy Path Aware techniques, most of which were unsuccessful or at most partially successful, in order to extract ins ights and lessons for Path Aware networking researchers.</t>
	<t>This document contains that catalog and analysis.</t>		<t>This document contains that catalog and analysis.</t>
	</abstract>		</abstract>
	</front>		</front>
	<middle>		<middle>
	<section anchor="introduction" numbered="true" toc="default">		<section anchor="introduction" numbered="true" toc="default">
	<name>Introduction</name>		<name>Introduction</name>
	<t>This document describes the lessons that IETF participants have learned		<t>This document describes the lessons that IETF participants have learned
	(and learned the hard way) about Path Aware Networking over a period of several		(and learned the hard way) about Path Aware networking over a period of several
	decades, and provides an analysis of reasons why various Path Aware Networking		decades. It also provides an analysis of reasons why various Path Aware techniq
	techniques have seen limited or no deployment.</t>		ues have seen limited or no deployment.</t>
			<t>This document represents the consensus of the Path Aware Networking Research
			Group (PANRG).</t>
	<section anchor="PANdef" numbered="true" toc="default">		<section anchor="PANdef" numbered="true" toc="default">
	<name>What Do "Path" and "Path Awareness" Mean in this Document?</name>		<name>What Do "Path" and "Path Awareness" Mean in This Document?</name>
	<t>One of the first questions reviewers of this document have asked is "		<t>One of the first questions reviewers of this document have asked is "
	what's the definition of a path, and what's the definition of path awareness?" T		What's the definition of a Path, and what's the definition of Path Awareness?" T
	hat is not an easy question to answer for this document.</t>		hat is not an easy question to answer for this document.</t>
	<t>These terms have definitions in other <xref target="PANRG" format="de		<t>These terms have definitions in other PANRG documents <xref target="P
	fault"/> documents, and are still the subject of some discussion in the research		ANRG" format="default"/> and are still the subject of some discussion in the Res
	group, as of the date of this document. But because this document reflects work		earch Group, as of the date of this document. But because this document reflects
	performed over several decades, the technologies described in <xref target="Con		work performed over several decades, the technologies described in <xref target
	tributions" format="default"/> significantly predate the current definitions of		="Contributions" format="default"/> significantly predate the current definition
	"path" and "path aware" in use in the Path Aware Networking Research Group, and		s of "Path" and "Path Aware" in use in the Path Aware Networking Research Group,
	it is unlikely that all the contributors to <xref target="Contributions" format=		and it is unlikely that all the contributors to <xref target="Contributions" fo
	"default"/> would have had the same understanding of these terms. Those technolo		rmat="default"/> would have had the same understanding of these terms. Those tec
	gies were considered "path aware" in early PANRG discussions, and so are include		hnologies were considered "Path Aware" in early PANRG discussions and so are inc
	d in this retrospective document.</t>		luded in this retrospective document.</t>
	<t>It is worth noting that the definitions of "path" and "path aware" in		<t>It is worth noting that the definitions of "Path" and "Path Aware" in
	<xref target="I-D.irtf-panrg-path-properties" format="default"/> would apply to		<xref target="I-D.irtf-panrg-path-properties" format="default"/> would apply to
	path aware networking techniques at a number of levels of the Internet protocol		Path Aware techniques at a number of levels of the Internet protocol architectu
	architecture (<xref target="RFC1122" format="default"/>, plus several decades o		re (<xref target="RFC1122" format="default"/>, plus several decades of refinemen
	f refinements), but the contributions received for this document tended to targe		ts), but the contributions received for this document tended to target the trans
	t the Transport Layer, and to treat a "path" constructed by routers as a "black		port layer and to treat a "Path" constructed by routers as opaque. It would be u
	box". It would be useful to consider how applicable the Lessons Learned cataloge		seful to consider how applicable the Lessons Learned cataloged in this document
	d in this document are, at other layers, and that would be a fine topic for foll		are, at other layers, and that would be a fine topic for follow-on research.</t>
	ow-on research.</t>
	<t>The current definition of "Path" in the Path Aware Networking Researc h Group appears in Section 2 ("Terminology") in <xref target="I-D.irtf-panrg-pat h-properties" format="default"/>. That definition is included here as a convenie nce to the reader.</t>		<t>The current definition of "Path" in the Path Aware Networking Researc h Group appears in Section 2 ("Terminology") in <xref target="I-D.irtf-panrg-pat h-properties" format="default"/>. That definition is included here as a convenie nce to the reader.</t>
			<!-- DNE -->
	<blockquote>		<blockquote>
	Path: A sequence of adjacent path elements over which a packet can		Path: A sequence of adjacent path elements over which a packet can
	be transmitted, starting and ending with a node. A path is		be transmitted, starting and ending with a node. A path is
	unidirectional. Paths are time-dependent, i.e., the sequence of		unidirectional. Paths are time-dependent, i.e., the sequence of
	path elements over which packets are sent from one node to another		path elements over which packets are sent from one node to another
	may change. A path is defined between two nodes. For multicast		may change. A path is defined between two nodes. For multicast
	or broadcast, a packet may be sent by one node and received by		or broadcast, a packet may be sent by one node and received by
	multiple nodes. In this case, the packet is sent over multiple		multiple nodes. In this case, the packet is sent over multiple
	paths at once, one path for each combination of sending and		paths at once, one path for each combination of sending and
	receiving node; these paths do not have to be disjoint. Note that		receiving node; these paths do not have to be disjoint. Note that
	an entity may have only partial visibility of the path elements		an entity may have only partial visibility of the path elements
	skipping to change at line 57 ¶		skipping to change at line 65 ¶
	or broadcast, a packet may be sent by one node and received by		or broadcast, a packet may be sent by one node and received by
	multiple nodes. In this case, the packet is sent over multiple		multiple nodes. In this case, the packet is sent over multiple
	paths at once, one path for each combination of sending and		paths at once, one path for each combination of sending and
	receiving node; these paths do not have to be disjoint. Note that		receiving node; these paths do not have to be disjoint. Note that
	an entity may have only partial visibility of the path elements		an entity may have only partial visibility of the path elements
	that comprise a path and visibility may change over time.		that comprise a path and visibility may change over time.
	Different entities may have different visibility of a path and/or		Different entities may have different visibility of a path and/or
	treat path elements at different levels of abstraction.		treat path elements at different levels of abstraction.
	</blockquote>		</blockquote>
	<t>The current definition of "Path Awareness", used by the Path Aware Ne		<t>The current definition of Path Awareness, used by the Path Aware Netw
	tworking Research Group, appears in Section 1.1 ("Definition") in <xref target="		orking Research Group, appears in Section 1.1 ("Definition") in <xref target="I-
	I-D.irtf-panrg-questions" format="default"/>. That definition is included here a		D.irtf-panrg-questions" format="default"/>.
	s a convenience to the reader.</t>		That definition is included here as a convenience to the reader.</t>
			<!-- DNE; fixed. Updates reviewed and OKed by author -->
	<blockquote>		<blockquote>
	For purposes of this document, "path aware networking" describes		<t>For purposes of this document, "path aware networking" describes
	endpoint discovery of the properties of paths they use for		endpoint discovery of the properties of paths they use for
	communication, and endpoint reaction to these properties that affects		communication across an internetwork, and endpoint reaction to these
	routing and/or transmission; note that this can and already does		properties that affects routing and/or data transfer. Note that this
	happen to some extent in the current Internet architecture.		can and already does happen to some extent in the current Internet
	Expanding on this definition, a "path aware internetwork" is one in		architecture; this definition expands current techniques of path
			discovery and manipulation to cross administrative domain boundaries
			and up to the transport and application layers at the endpoints.</t>
			<t>Expanding on this definition, a "path aware internetwork" is one in
	which endpoint discovery of path properties and endpoint selection of		which endpoint discovery of path properties and endpoint selection of
	paths used by traffic exchanged by the endpoint are explicitly		paths used by traffic exchanged by the endpoint are explicitly
	supported, regardless of the specific design of the protocol features		supported, regardless of the specific design of the protocol features
	which enable this discovery and selection.		which enable this discovery and selection.</t>
	</blockquote>		</blockquote>
	</section>		</section>
	</section>		</section>
	<section anchor="perspective" numbered="true" toc="default">		<section anchor="perspective" numbered="true" toc="default">
	<name>A Perspective On This Document</name>		<name>A Perspective on This Document</name>
	<t>At the first meeting of the Path Aware Networking Research Group <xref target="PANRG" format="default"/>, at IETF 99 <xref target="PANRG-99" format="de fault"/>, Olivier Bonaventure led a discussion of "A Decade of Path Awareness" < xref target="PATH-Decade" format="default"/>, on attempts, which were mostly uns uccessful for a variety of reasons, to exploit Path Aware techniques and achieve a variety of goals over the past decade. At the end of that discussion, two thi ngs were abundantly clear.</t>		<t>At the first meeting of the Path Aware Networking Research Group <xref target="PANRG" format="default"/>, at IETF 99 <xref target="PANRG-99" format="de fault"/>, Olivier Bonaventure led a discussion of "A Decade of Path Awareness" < xref target="PATH-Decade" format="default"/>, on attempts, which were mostly uns uccessful for a variety of reasons, to exploit Path Aware techniques and achieve a variety of goals over the past decade. At the end of that discussion, two thi ngs were abundantly clear.</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>The Internet community has accumulated considerable experience with many Path Aware techniques over a long period of time, and</li>		<li>The Internet community has accumulated considerable experience with many Path Aware techniques over a long period of time, and</li>
	<li>Although some path aware techniques have been deployed (for example, Differentiated Services, or DiffServ <xref target="RFC2475" format="default"/>) , most of these techniques haven't seen widespread adoption and deplyment. Even "successful" techniques like DiffServ can face obstacles that prevents wider usa ge. The reasons for non-adoption and limited adoption and deployment are many, a nd are worthy of study.</li>		<li>Although some Path Aware techniques have been deployed (for example, Differentiated Services, or Diffserv <xref target="RFC2475" format="default"/>) , most of these techniques haven't seen widespread adoption and deployment. Even "successful" techniques like Diffserv can face obstacles that prevent wider usa ge. The reasons for non-adoption and limited adoption and deployment are many an d are worthy of study.</li>
	</ul>		</ul>
	<t>The meta-lessons from that experience were</t>		<t>The meta-lessons from that experience were as follows:</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>Path aware networking has been more Research than Engineering, so es		<li>Path Aware networking has been more Research than Engineering, so es
	tablishing an IRTF Research Group for Path Aware Networking is the right thing t		tablishing an IRTF Research Group for Path Aware networking was the right thing
	o do <xref target="RFC7418" format="default"/>.</li>		to do <xref target="RFC7418" format="default"/>.
			</li>
	<li>Analyzing a catalog of past experience to learn the reasons for non- adoption would be a great first step for the Research Group.</li>		<li>Analyzing a catalog of past experience to learn the reasons for non- adoption would be a great first step for the Research Group.</li>
	</ul>		</ul>
	<t>Allison Mankin, as IRTF Chair, officially chartered the Path Aware Netw		<t>Allison Mankin, as IRTF Chair, officially chartered the Path Aware Netw
	orking Research Group in July, 2018.</t>		orking Research Group in July 2018.</t>
	<t>This document contains the analysis performed by that research group (<		<t>This document contains the analysis performed by that Research Group (<
	xref target="LessonsLearned" format="default"/>), based on that catalog (<xref t		xref target="LessonsLearned" format="default"/>), based on that catalog (<xref t
	arget="Contributions" format="default"/>).</t>		arget="Contributions" format="default"/>).</t>
	<t>This document represents the consensus of the Path Aware Networking Res
	earch Group.</t>
	<section anchor="notes-for-the-reader" numbered="true" toc="default">		<section anchor="notes-for-the-reader" numbered="true" toc="default">
	<name>Notes for the Reader</name>		<name>Notes for the Reader</name>
	<t>This Informational document discusses Path Aware protocol mechanisms		<t>This Informational document discusses Path Aware protocol mechanisms
	considered, and in some cases standardized, by the Internet Engineering Task For		considered, and in some cases standardized, by the Internet Engineering Task For
	ce (IETF), and considers Lessons Learned from those mechanisms. The intention is		ce (IETF), and it considers Lessons Learned from those mechanisms. The intention
	to inform the work of protocol designers, whether in the IRTF, the IETF, or els		is to inform the work of protocol designers, whether in the IRTF, the IETF, or
	ewhere in the Internet ecosystem.</t>		elsewhere in the Internet ecosystem.</t>
	<t>As an Informational document published in the IRTF stream, this docum		<t>As an Informational document published in the IRTF Stream, this docum
	ent has no authority beyond the quality of the analysis it contains.</t>		ent has no authority beyond the quality of the analysis it contains.</t>
	</section>		</section>
	<section anchor="a-note-about-path-aware-techniques-included-in-this-docum ent" numbered="true" toc="default">		<section anchor="a-note-about-path-aware-techniques-included-in-this-docum ent" numbered="true" toc="default">
	<name>A Note About Path-Aware Techniques Included In This Document</name		<name>A Note about Path Aware Techniques Included in This Document</name
	>		>
	<t>This document does not catalog every proposed path aware networking t		<t>This document does not catalog every proposed Path Aware technique th
	echnique that was not adopted and deployed. Instead, we limited our focus to tec		at was not adopted and deployed. Instead, we limited our focus to technologies t
	hnologies that passed through the IETF community, and still identified enough te		hat passed through the IETF community and still identified enough techniques to
	chniques to provide background for the lessons included in <xref target="Lessons		provide background for the lessons included in <xref target="LessonsLearned" for
	Learned" format="default"/> to inform researchers and protocol engineers in thei		mat="default"/> to inform researchers and protocol engineers in their work.</t>
	r work.</t>		<t>No shame is intended for the techniques included in this document. As
	<t>No shame is intended for the techniques included in this document. As		shown in <xref target="LessonsLearned" format="default"/>, the quality of speci
	shown in <xref target="LessonsLearned" format="default"/>, the quality of speci		fic techniques had little to do with whether they were deployed or not. Based on
	fic techniques had little to do with whether they were deployed or not. Based on		the techniques cataloged in this document, it is likely that when these techniq
	the techniques cataloged in this document, it is likely that when these techniq		ues were put forward, the proponents were trying to engineer something that coul
	ues were put forward, the proponents were trying to engineer something that coul		d not be engineered without first carrying out research. Actual shame would be f
	d not be engineered without first carrying out research. Actual shame would be f		ailing to learn from experience and failing to share that experience with other
	ailing to learn from experience, and failing to share that experience with other		networking researchers and engineers.</t>
	networking researchers and engineers.</t>
	</section>
	<section anchor="venue-for-discussion-of-this-document" numbered="true" to
	c="default">
	<name>Venue for Discussion of this Document</name>
	<t>(RFC Editor: please remove this section before publication)</t>
	<t>Discussion of specific contributed experiences and this document in g
	eneral should take place on the PANRG mailing list.</t>
	</section>		</section>
	<section anchor="architectural-guidance" numbered="true" toc="default">		<section anchor="architectural-guidance" numbered="true" toc="default">
	<name>Architectural Guidance</name>		<name>Architectural Guidance</name>
	<t>As background for understanding the Lessons Learned contained in this		<t>As background for understanding the Lessons Learned contained in this
	document, the reader is encouraged to become familiar with the Internet Archite		document, the reader is encouraged to become familiar with the Internet Archite
	cture Board's documents on "What Makes for a Successful Protocol?" <xref target=		cture Board's documents on "<xref target="RFC5218" format="title"/>" <xref targe
	"RFC5218" format="default"/> and "Planning for Protocol Adoption and Subsequent		t="RFC5218" format="default"/>
	Transitions" <xref target="RFC8170" format="default"/>.</t>		and "<xref target="RFC8170" format="title"/>" <xref target="RFC8170" format="def
	<t>Although these two documents do not specifically target path-aware ne		ault"/>.</t>
	tworking protocols, they are helpful resources for readers seeking to improve th		<t>Although these two documents do not specifically target Path Aware ne
	eir understanding of considerations for successful adoption and deployment of an		tworking protocols, they are helpful resources for readers seeking to improve th
	y protocol. For example, the Basic Success Factors described in Setion 2.1 of <x		eir understanding of considerations for successful adoption and deployment of an
	ref target="RFC5218" format="default"/> are helpful for readers of this document		y protocol. For example, the basic success factors described in <xref target="RF
	.</t>		C5218" sectionFormat="of" section="2.1"/> are helpful for readers of this docume
			nt.</t>
	<t>Because there is an economic aspect to decisions about deployment, th e IAB Workshop on Internet Technology Adoption and Transition <xref target="ITAT " format="default"/> report <xref target="RFC7305" format="default"/> also provi des food for thought.</t>		<t>Because there is an economic aspect to decisions about deployment, th e IAB Workshop on Internet Technology Adoption and Transition <xref target="ITAT " format="default"/> report <xref target="RFC7305" format="default"/> also provi des food for thought.</t>
	<t>Several of the Lessons Learned in <xref target="LessonsLearned" forma t="default"/> reflect considerations described in <xref target="RFC5218" format= "default"/>, <xref target="RFC7305" format="default"/>, and <xref target="RFC817 0" format="default"/>.</t>		<t>Several of the Lessons Learned in <xref target="LessonsLearned" forma t="default"/> reflect considerations described in <xref target="RFC5218" format= "default"/>, <xref target="RFC7305" format="default"/>, and <xref target="RFC817 0" format="default"/>.</t>
	</section>		</section>
	<section anchor="terminology-used-in-this-document" numbered="true" toc="d efault">		<section anchor="terminology-used-in-this-document" numbered="true" toc="d efault">
	<name>Terminology Used in this Document</name>		<name>Terminology Used in This Document</name>
	<t>The terms Node and Element in this document have the meaning defined		<t>The terms "node" and "element" in this document have the meaning defi
	in <xref target="I-D.irtf-panrg-path-properties" format="default"/>.</t>		ned in <xref target="I-D.irtf-panrg-path-properties" format="default"/>.
			</t>
	</section>		</section>
	<section anchor="TemplateContributions" numbered="true" toc="default">		<section anchor="TemplateContributions" numbered="true" toc="default">
	<name>Methodology for Contributions</name>		<name>Methodology for Contributions</name>
	<t>This document grew out of contributions by various IETF participants		<t>This document grew out of contributions by various IETF participants
	with experience with one or more Path Aware Networking techniques.</t>		with experience with one or more Path Aware techniques.</t>
	<t>There are many things that could be said about the Path Aware network		<t>There are many things that could be said about the Path Aware techniq
	ing techniques that have been developed. For the purposes of this document, cont		ues that have been developed. For the purposes of this document, contributors we
	ributors were requested to provide</t>		re requested to provide</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>the name of a technique, including an abbreviation if one was used		<li>the name of a technique, including an abbreviation if one was used
	</li>		.</li>
	<li>if available, a long-term pointer to the best reference describing		<li>if available, a long-term pointer to the best reference describing
	the technique</li>		the technique.</li>
	<li>a short description of the problem the technique was intended to s		<li>a short description of the problem the technique was intended to s
	olve</li>		olve.</li>
	<li>a short description of the reasons why the technique wasn't adopte		<li>a short description of the reasons why the technique wasn't adopte
	d</li>		d.</li>
	<li>a short statement of the lessons that researchers can learn from o ur experience with this technique.</li>		<li>a short statement of the lessons that researchers can learn from o ur experience with this technique.</li>
	</ul>		</ul>
	</section>		</section>
	</section>		</section>
	<section anchor="applying" numbered="true" toc="default">		<section anchor="applying" numbered="true" toc="default">
	<name>Applying the Lessons We've Learned</name>		<name>Applying the Lessons We've Learned</name>
	<t>The initial scope for this document was roughly "what mistakes have we		<t>The initial scope for this document was roughly "What mistakes have we
	made in the decade prior to <xref target="PANRG-99" format="default"/>, that we		made in the decade prior to <xref target="PANRG-99" format="default"/>, that we
	shouldn't make again". Some of the contributions in <xref target="Contributions"		shouldn't make again?" Some of the contributions in <xref target="Contributions"
	format="default"/> predate the initial scope. The earliest Path-Aware Networkin		format="default"/> predate the initial scope. The earliest Path Aware technique
	g technique referred to in <xref target="Contributions" format="default"/> is <x		referred to in <xref target="Contributions" format="default"/> is <xref target=
	ref target="ST2" format="default"/>, published in the late 1970s. Given that the		"IEN-119"/>, which was published in the late 1970s; see <xref target="ST2" forma
	networking ecosystem has evolved continuously, it seems reasonable to consider		t="default"/>. Given that the networking ecosystem has evolved continuously, it
	how to apply these lessons.</t>		seems reasonable to consider how to apply these lessons.</t>
	<t>The PANRG Research Group reviewed the Lessons Learned (<xref target="Le		<t>The PANRG reviewed the Lessons Learned (<xref target="LessonsLearned" f
	ssonsLearned" format="default"/>) contained in the May 23, 2019 version of this		ormat="default"/>) contained in the May 23, 2019 draft version of this document
	document at IETF 105 <xref target="PANRG-105-Min" format="default"/>, and carrie		at IETF 105 <xref target="PANRG-105-Min" format="default"/> and carried out addi
	d out additional discussion at IETF 106 <xref target="PANRG-106-Min" format="def		tional discussion at IETF 106 <xref target="PANRG-106-Min" format="default"/>. <
	ault"/>. <xref target="thefuture" format="default"/> provides the "sense of the		xref target="thefuture" format="default"/> provides the "sense of the room" abou
	room" about each lesson after those discussions. The intention was to capture wh		t each lesson after those discussions. The intention was to capture whether a sp
	ether a specific lesson seems to be</t>		ecific lesson seems to be</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>"Invariant" - well-understood and is likely to be applicable for any		<li>"Invariant" - well-understood and is likely to be applicable for any
	proposed Path Aware Networking solution.</li>		proposed Path Aware networking solution.</li>
	<li>"Variable" - has impeded deployment in the past, but might not be ap		<li>"Variable" - has impeded deployment in the past but might not be app
	plicable in a specific technique. Engineering analysis to understand whether the		licable in a specific technique. Engineering analysis to understand whether the
	lesson is applicable is prudent.</li>		lesson is applicable is prudent.</li>
	<li>"Not Now" - this characteristic tends to turn up a minefield full of		<li>"Not Now" - a characteristic that tends to turn up a minefield full
	dragons, and prudent network engineers will wish to avoid gambling on a techniq		of dragons. Prudent network engineers will wish to avoid gambling on a technique
	ue that relies on this, until something significant changes</li>		that relies on this, until something significant changes.</li>
	</ul>		</ul>
	<t><xref target="ecn" format="default"/> on ECN was added during the revie
	w and approval process, based on a question from Martin Duke. That section, alon		<t><xref target="ecn" format="default"/> on Explicit Congestion Notificati
	g with its Lessons Learned and place in the "Invariant"/"Variable"/"Not Now" tax		on (ECN) was added during the review and approval process, based on a question f
	onomy, as contained in the March 8, 2021 version of this document, was discussed		rom Martin Duke. <xref target="ecn" format="default"/>, as contained in the Marc
	at <xref target="PANRG-110" format="default"/>.</t>		h 8, 2021 draft version of this document, was discussed at <xref target="PANRG-1
			10" format="default"/> and is summarized in <xref target="OneChance"/>, describi
			ng a new Lesson Learned.
			</t>
	<table anchor="thefuture" align="center">		<table anchor="thefuture" align="center">
	<thead>		<thead>
	<tr>		<tr>
	<th align="left">Lesson</th>		<th align="left">Lesson</th>
	<th align="left">Category</th>		<th align="left">Category</th>
	</tr>		</tr>
	</thead>		</thead>
	<tbody>		<tbody>
	<tr>		<tr>
	<td align="left">Justifying Deployment (<xref target="JustifyingDepl oyment" format="default"/>)</td>		<td align="left">Justifying Deployment (<xref target="JustifyingDepl oyment" format="default"/>)</td>
	skipping to change at line 157 ¶		skipping to change at line 173 ¶
	</tr>		</tr>
	<tr>		<tr>
	<td align="left">Providing Benefits for Early Adopters (<xref target ="EarlyAdopters" format="default"/>)</td>		<td align="left">Providing Benefits for Early Adopters (<xref target ="EarlyAdopters" format="default"/>)</td>
	<td align="left">Invariant</td>		<td align="left">Invariant</td>
	</tr>		</tr>
	<tr>		<tr>
	<td align="left">Providing Benefits during Partial Deployment (<xref target="PartialDeployment" format="default"/>)</td>		<td align="left">Providing Benefits during Partial Deployment (<xref target="PartialDeployment" format="default"/>)</td>
	<td align="left">Invariant</td>		<td align="left">Invariant</td>
	</tr>		</tr>
	<tr>		<tr>
	<td align="left">Outperforming End-to-end Protocol Mechanisms (<xref target="Outperforming" format="default"/>)</td>		<td align="left">Outperforming End-to-End Protocol Mechanisms (<xref target="Outperforming" format="default"/>)</td>
	<td align="left">Variable</td>		<td align="left">Variable</td>
	</tr>		</tr>
	<tr>		<tr>
	<td align="left">Paying for Path Aware Techniques (<xref target="Pay ing" format="default"/>)</td>		<td align="left">Paying for Path Aware Techniques (<xref target="Pay ing" format="default"/>)</td>
	<td align="left">Invariant</td>		<td align="left">Invariant</td>
	</tr>		</tr>
	<tr>		<tr>
	<td align="left">Impact on Operational Practices (<xref target="Oper ationalImpact" format="default"/>)</td>		<td align="left">Impact on Operational Practices (<xref target="Oper ationalImpact" format="default"/>)</td>
	<td align="left">Invariant</td>		<td align="left">Invariant</td>
	</tr>		</tr>
	<tr>		<tr>
	<td align="left">Per-connection State (<xref target="Per-connectionS tate" format="default"/>)</td>		<td align="left">Per-Connection State (<xref target="Per-connectionS tate" format="default"/>)</td>
	<td align="left">Variable</td>		<td align="left">Variable</td>
	</tr>		</tr>
	<tr>		<tr>
	<td align="left">Keeping Traffic on Fast-paths (<xref target="Fast-p aths" format="default"/>)</td>		<td align="left">Keeping Traffic on Fast Paths (<xref target="Fast-p aths" format="default"/>)</td>
	<td align="left">Variable</td>		<td align="left">Variable</td>
	</tr>		</tr>
	<tr>		<tr>
	<td align="left">Endpoints Trusting Intermediate Nodes (<xref target ="EndpointsTrustingIDs" format="default"/>)</td>		<td align="left">Endpoints Trusting Intermediate Nodes (<xref target ="EndpointsTrustingIDs" format="default"/>)</td>
	<td align="left">Not Now</td>		<td align="left">Not Now</td>
	</tr>		</tr>
	<tr>		<tr>
	<td align="left">Intermediate Nodes Trusting Endpoints (<xref target ="IDsTrustingEndpoints" format="default"/>)</td>		<td align="left">Intermediate Nodes Trusting Endpoints (<xref target ="IDsTrustingEndpoints" format="default"/>)</td>
	<td align="left">Not Now</td>		<td align="left">Not Now</td>
	</tr>		</tr>
	skipping to change at line 198 ¶		skipping to change at line 214 ¶
	<tr>		<tr>
	<td align="left">Support in Endpoint Protocol Stacks (<xref target=" ProtocolStackSupport" format="default"/>)</td>		<td align="left">Support in Endpoint Protocol Stacks (<xref target=" ProtocolStackSupport" format="default"/>)</td>
	<td align="left">Variable</td>		<td align="left">Variable</td>
	</tr>		</tr>
	<tr>		<tr>
	<td align="left">Planning for Failure (<xref target="OneChance" form at="default"/>)</td>		<td align="left">Planning for Failure (<xref target="OneChance" form at="default"/>)</td>
	<td align="left">Invariant</td>		<td align="left">Invariant</td>
	</tr>		</tr>
	</tbody>		</tbody>
	</table>		</table>
	<t>"Justifying Deployment", "Providing Benefits for Early Adopters", "Payi
	ng for Path Aware Techniques", "Impact on Operational Practice", and "Planning f		<t>"Justifying Deployment", "Providing Benefits for Early Adopters", "Payi
	or Failure" were considered to be invariant - the sense of the room was that the		ng for Path Aware Techniques", "Impact on Operational Practices", and "Planning
	se would always be considerations for any proposed Path Aware Technique.</t>		for Failure" were considered to be Invariant -- the sense of the room was that t
	<t>"Providing Benefits During Partial Deployment" was added after IETF 105		hese would always be considerations for any proposed Path Aware technique.</t>
	, during research group last call, and is also considered to be invariant.</t>		<t>"Providing Benefits during Partial Deployment" was added after IETF 105
	<t>For "Outperforming End-to-end Protocol Mechanisms", there is a trade-of		, during Research Group Last Call, and is also considered to be Invariant.</t>
	f between improved performance from Path Aware Techniques and additional complex		<t>For "Outperforming End-to-End Protocol Mechanisms", there is a trade-of
	ity required by some Path Aware Techniques.</t>		f between improved performance from Path Aware techniques and additional complex
			ity required by some Path Aware techniques.</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>For example, if you can obtain the same understanding of path charac teristics from measurements obtained over a few more round trips, endpoint imple menters are unlikely to be eager to add complexity, and many attributes can be m easured from an endpoint, without assistance from intermediate nodes.</li>		<li>For example, if you can obtain the same understanding of path charac teristics from measurements obtained over a few more round trips, endpoint imple menters are unlikely to be eager to add complexity, and many attributes can be m easured from an endpoint, without assistance from intermediate nodes.</li>
	</ul>		</ul>
	<t>For "Per-connection State", the key questions discussed in the research group were "how much state" and "where state is maintained".</t>		<t>For "Per-Connection State", the key questions discussed in the Research Group were "how much state" and "where state is maintained".</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>IntServ (<xref target="IntServ" format="default"/>) required state a t every intermediate node for every connection between two endpoints. As the Int ernet ecosystem has evolved, carrying many connections in a tunnel that appears to intermediate nodes as a single connection has become more common, so that add itional end-to-end connections don't add additional state to intermediate nodes between tunnel endpoints. If these tunnels are encrypted, intermediate nodes bet ween tunnel endpoints can't distinguish between connections, even if that were d esirable.</li>		<li>Integrated Services (IntServ) (<xref target="IntServ" format="defaul t"/>) required state at every participating intermediate node for every connecti on between two endpoints. As the Internet ecosystem has evolved, carrying many c onnections in a tunnel that appears to intermediate nodes as a single connection has become more common, so that additional end-to-end connections don't add add itional state to intermediate nodes between tunnel endpoints. If these tunnels a re encrypted, intermediate nodes between tunnel endpoints can't distinguish betw een connections, even if that were desirable.</li>
	</ul>		</ul>
	<t>For "Keeping Traffic on Fast-paths", we noted that this was true for ma ny platforms, but not for all.</t>		<t>For "Keeping Traffic on Fast Paths", we noted that this was true for ma ny platforms, but not for all.</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>For backbone routers, this is likely an invariant, but for platforms that rely more on general-purpose computers to make forwarding decisions, this may not be a fatal flaw for Path Aware Networking techniques.</li>		<li>For backbone routers, this is likely an Invariant, but for platforms that rely more on general-purpose computers to make forwarding decisions, this may not be a fatal flaw for Path Aware techniques.</li>
	</ul>		</ul>
	<t>For "Endpoints Trusting Intermediate Nodes" and "Intermediate Nodes Tru sting Endpoints", these lessons point to the broader need to revisit the Interne t Threat Model.</t>		<t>For "Endpoints Trusting Intermediate Nodes" and "Intermediate Nodes Tru sting Endpoints", these lessons point to the broader need to revisit the Interne t Threat Model.</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>We noted with relief that discussions about this were already underw ay in the IETF community at IETF 105 (see the Security Area Open Meeting minutes <xref target="SAAG-105-Min" format="default"/> for discussion of <xref target=" I-D.arkko-arch-internet-threat-model" format="default"/> and <xref target="I-D.f arrell-etm" format="default"/>), and the Internet Architecture Board has created a mailing list for continued discussions (<xref target="model-t" format="defaul t"/>), but we recognize that there are Path Aware Networking aspects of this eff ort, requiring research.</li>		<li>We noted with relief that discussions about this were already underw ay in the IETF community at IETF 105 (see the Security Area Open Meeting minutes <xref target="SAAG-105-Min" format="default"/> for discussion of <xref target=" I-D.arkko-arch-internet-threat-model" format="default"/> and <xref target="I-D.f arrell-etm" format="default"/>), and the Internet Architecture Board has created a mailing list for continued discussions <xref target="model-t" format="default "/>, but we recognize that there are Path Aware networking aspects of this effor t, requiring research.</li>
	</ul>		</ul>
	<t>For "Reacting to Distant Signals", we noted that not all attributes are equal.</t>		<t>For "Reacting to Distant Signals", we noted that not all attributes are equal.</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>If an attribute is stable over an extended period of time, is diffic ult to observe via end-to-end mechanisms, and is valuable, Path Aware Techniques that rely on that attribute to provide a significant benefit become more attrac tive.</li>		<li>If an attribute is stable over an extended period of time, is diffic ult to observe via end-to-end mechanisms, and is valuable, Path Aware techniques that rely on that attribute to provide a significant benefit become more attrac tive.</li>
	<li>Analysis to help identify attributes that are useful enough to justi fy deployment of Path Aware techniques that make use of those attributes would b e helpful.</li>		<li>Analysis to help identify attributes that are useful enough to justi fy deployment of Path Aware techniques that make use of those attributes would b e helpful.</li>
	</ul>		</ul>
	<t>For "Support in Endpoint Protocol Stacks", we noted that Path Aware app lications must be able to identify and communicate requirements about path chara cteristics.</t>		<t>For "Support in Endpoint Protocol Stacks", we noted that Path Aware app lications must be able to identify and communicate requirements about path chara cteristics.</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>The de-facto sockets API has no way of signaling application expecta tions for the network path to the protocol stack.</li>		<li>The de facto sockets API has no way of signaling application expecta tions for the network path to the protocol stack.</li>
	</ul>		</ul>
	</section>		</section>
	<section anchor="LessonsLearned" numbered="true" toc="default">		<section anchor="LessonsLearned" numbered="true" toc="default">
	<name>Summary of Lessons Learned</name>		<name>Summary of Lessons Learned</name>
	<t>This section summarizes the Lessons Learned from the contributed subsec tions in <xref target="Contributions" format="default"/>.</t>		<t>This section summarizes the Lessons Learned from the contributed subsec tions in <xref target="Contributions" format="default"/>.</t>
	<t>Each Lesson Learned is tagged with one or more contributions that encou ntered this obstacle as a significant impediment to deployment. Other contribute d techniques may have also encountered this obstacle, but this obstacle may not have been the biggest impediment to deployment for those techniques.</t>		<t>Each Lesson Learned is tagged with one or more contributions that encou ntered this obstacle as a significant impediment to deployment. Other contribute d techniques may have also encountered this obstacle, but this obstacle may not have been the biggest impediment to deployment for those techniques.</t>
	<t>It is useful to notice that sometimes an obstacle might impede deployme		<t>It is useful to notice that sometimes an obstacle might impede deployme
	nt, while at other times, the same obstacle might prevent adoption and deploymen		nt, while at other times, the same obstacle might prevent adoption and deploymen
	t entirely. The research group discussed distinguishing between obstacles that i		t entirely.
	mpede and obstacles that prevent, but it appears that the boundary between "impe		The Research Group discussed distinguishing between obstacles that impede and ob
	de" and "prevent" can shift over time - some of the Lessons Learned are based on		stacles that prevent, but it appears that the boundary between "impede" and
	both Path Aware techniques that were not deployed, and Path Aware techniques th		"prevent" can shift over time -- some of the Lessons Learned are based on both a
	at were deployed, but were not deployed widely or quickly. See <xref target="Shi		) Path Aware techniques that were not deployed and b) Path Aware techniques that
	m6" format="default"/> and <xref target="Addendum-MP-TCP" format="default"/> as		were deployed but were not deployed widely or quickly. See Sections&nbsp;<xref
	one example of this shifting boundary.</t>		target="Shim6" format="counter"/> and <xref target="Addendum-MP-TCP" format="cou
			nter"/> for examples of this shifting boundary.</t>
	<section anchor="JustifyingDeployment" numbered="true" toc="default">		<section anchor="JustifyingDeployment" numbered="true" toc="default">
	<name>Justifying Deployment</name>		<name>Justifying Deployment</name>
	<t>The benefit of Path Awareness must be great enough to justify making changes in an operational network. The colloquial U.S. American English expressi on, "If it ain't broke, don't fix it" is a "best current practice" on today's In ternet. (See <xref target="Quick-Start" format="default"/>, <xref target="Source -Quench" format="default"/>, <xref target="TRIGTRAN" format="default"/>, and <xr ef target="ecn" format="default"/>, in addition to <xref target="RFC5218" format ="default"/>).</t>		<t>The benefit of Path Awareness must be great enough to justify making changes in an operational network. The colloquial U.S.&nbsp;American English exp ression, "If it ain't broke, don't fix it" is a "best current practice" on today 's Internet. (See Sections&nbsp;<xref target="Quick-Start" format="counter"/>, < xref target="Source-Quench" format="counter"/>, <xref target="TRIGTRAN" format=" counter"/>, and <xref target="ecn" format="counter"/>, in addition to <xref targ et="RFC5218" format="default"/>.)</t>
	</section>		</section>
	<section anchor="EarlyAdopters" numbered="true" toc="default">		<section anchor="EarlyAdopters" numbered="true" toc="default">
	<name>Providing Benefits for Early Adopters</name>		<name>Providing Benefits for Early Adopters</name>
	<t>Providing benefits for early adopters can be key - if everyone must d eploy a technique in order for the technique to provide benefits, or even to wor k at all, the technique is unlikely to be adopted widely or quickly. (See <xref target="IntServ" format="default"/> and <xref target="Quick-Start" format="defau lt"/>, in addition to <xref target="RFC5218" format="default"/>).</t>		<t>Providing benefits for early adopters can be key -- if everyone must deploy a technique in order for the technique to provide benefits, or even to wo rk at all, the technique is unlikely to be adopted widely or quickly. (See Secti ons&nbsp;<xref target="IntServ" format="counter"/> and <xref target="Quick-Start " format="counter"/>, in addition to <xref target="RFC5218" format="default"/>.) </t>
	</section>		</section>
	<section anchor="PartialDeployment" numbered="true" toc="default">		<section anchor="PartialDeployment" numbered="true" toc="default">
	<name>Providing Benefits During Partial Deployment</name>		<name>Providing Benefits during Partial Deployment</name>
	<t>Some proposals require that all path elements along the full length o		<t>Some proposals require that all path elements along the full length o
	f the path must be upgraded to support a new technique, before any benefits can		f the path must be upgraded to support a new technique, before any benefits can
	be seen. This is likely to require coordination between operators who control a		be seen. This is likely to require coordination between operators who control a
	subset of path elements, and between operators and end users if endpoint upgrade		subset of path elements, and between operators and end users if endpoint upgrade
	s are required. If a technique provides benefits when only a part of the path ha		s are required. If a technique provides benefits when only a part of the path ha
	s been upgraded, this is likely to encourage adoption and deployment. (See <xref		s been upgraded, this is likely to encourage adoption and deployment. (See Secti
	target="IntServ" format="default"/>, <xref target="Quick-Start" format="default		ons&nbsp;<xref target="IntServ" format="counter"/>, <xref target="Quick-Start" f
	"/>, and <xref target="ecn" format="default"/>, in addition to <xref target="RFC		ormat="counter"/>, and <xref target="ecn" format="counter"/>, in addition to <xr
	5218" format="default"/>).</t>		ef target="RFC5218" format="default"/>.)</t>
	</section>		</section>
	<section anchor="Outperforming" numbered="true" toc="default">		<section anchor="Outperforming" numbered="true" toc="default">
	<name>Outperforming End-to-end Protocol Mechanisms</name>		<name>Outperforming End-to-End Protocol Mechanisms</name>
	<t>Adaptive end-to-end protocol mechanisms may respond to feedback quick		<t>Adaptive end-to-end protocol mechanisms may respond to feedback quick
	ly enough that the additional realizable benefit from a new Path Aware mechanism		ly enough that the additional realizable benefit from a new Path Aware mechanism
	that tries to manipulate nodes along a path, or observe the attributes of nodes		that tries to manipulate nodes along a path, or observe the attributes of nodes
	along a path, may be much smaller than anticipated (See <xref target="Quick-Sta		along a path, may be much smaller than anticipated. (See Sections&nbsp;<xref ta
	rt" format="default"/> and <xref target="TRIGTRAN" format="default"/>).</t>		rget="Quick-Start" format="counter"/> and <xref target="TRIGTRAN" format="counte
			r"/>.)</t>
	</section>		</section>
	<section anchor="Paying" numbered="true" toc="default">		<section anchor="Paying" numbered="true" toc="default">
	<name>Paying for Path Aware Techniques</name>		<name>Paying for Path Aware Techniques</name>
	<t>"Follow the money." If operators can't charge for a Path Aware techni que to recover the costs of deploying it, the benefits to the operator must be r eally significant. Corollary: If operators charge for a Path Aware technique, th e benefits to users of that Path Aware technique must be significant enough to j ustify the cost. (See <xref target="ST2" format="default"/>, <xref target="IntSe rv" format="default"/>, <xref target="TRIGTRAN" format="default"/>, and <xref ta rget="ecn" format="default"/>).</t>		<t>"Follow the money." If operators can't charge for a Path Aware techni que to recover the costs of deploying it, the benefits to the operator must be r eally significant. Corollary: if operators charge for a Path Aware technique, th e benefits to users of that Path Aware technique must be significant enough to j ustify the cost. (See Sections&nbsp;<xref target="ST2" format="counter"/>, <xref target="IntServ" format="counter"/>, <xref target="TRIGTRAN" format="counter"/> , and <xref target="ecn" format="counter"/>.)</t>
	</section>		</section>
	<section anchor="OperationalImpact" numbered="true" toc="default">		<section anchor="OperationalImpact" numbered="true" toc="default">
	<name>Impact on Operational Practices</name>		<name>Impact on Operational Practices</name>
	<t>Impact of a Path Aware technique requiring changes to operational pra ctices can affect how quickly or widely a promising technique is deployed. The i mpacts of these changes may make deployment more likely, but often discourage de ployment. (See <xref target="Shim6" format="default"/>, including <xref target=" Addendum-MP-TCP" format="default"/>).</t>		<t>The impact of a Path Aware technique requiring changes to operational practices can affect how quickly or widely a promising technique is deployed. T he impacts of these changes may make deployment more likely, but they often disc ourage deployment. (See <xref target="Shim6" format="default"/>, including <xref target="Addendum-MP-TCP" format="default"/>.)</t>
	</section>		</section>
	<section anchor="Per-connectionState" numbered="true" toc="default">		<section anchor="Per-connectionState" numbered="true" toc="default">
	<name>Per-connection State</name>		<name>Per-Connection State</name>
	<t>Per-connection state in intermediate nodes has been an impediment to		<t>Per-connection state in intermediate nodes has been an impediment to
	adoption and deployment in the past, because of added cost and complexity. Often		adoption and deployment in the past, because of added cost and complexity. Often
	, similar benefits can be achieved with much less finely-grained state. This is		, similar benefits can be achieved with much less finely grained state. This is
	especially true as we move from the edge of the network, further into the routin		especially true as we move from the edge of the network, further into the routin
	g core (See <xref target="ST2" format="default"/> and <xref target="IntServ" for		g core. (See Sections&nbsp;<xref target="ST2" format="counter"/> and <xref targe
	mat="default"/>).</t>		t="IntServ" format="counter"/>.)</t>
	</section>		</section>
	<section anchor="Fast-paths" numbered="true" toc="default">		<section anchor="Fast-paths" numbered="true" toc="default">
	<name>Keeping Traffic on Fast-paths</name>		<name>Keeping Traffic on Fast Paths</name>
	<t>Many modern platforms, especially high-end routers, have been designe		<t>Many modern platforms, especially high-end routers, have been designe
	d with hardware that can make simple per-packet forwarding decisions ("fast-path		d with hardware that can make simple per-packet forwarding decisions ("fast path
	s"), but have not been designed to make heavy use of in-band mechanisms such as		s") but have not been designed to make heavy use of in-band mechanisms such as I
	IPv4 and IPv6 Router Alert Options (RAO) that require more processing to make fo		Pv4 and IPv6 Router Alert Options (RAOs) that require more processing to make fo
	rwarding decisions. Packets carrying in-band mechanisms are diverted to other pr		rwarding decisions. Packets carrying in-band mechanisms are diverted to other pr
	ocessors in the router with much lower packet processing rates. Operators can be		ocessors in the router with much lower packet-processing rates. Operators can be
	reluctant to deploy techniques that rely heavily on in-band mechanisms because		reluctant to deploy techniques that rely heavily on in-band mechanisms because
	they may significantly reduce packet throughput. (See <xref target="NSIS" format		they may significantly reduce packet throughput. (See <xref target="NSIS" format
	="default"/>).</t>		="default"/>.)</t>
	</section>		</section>
	<section anchor="EndpointsTrustingIDs" numbered="true" toc="default">		<section anchor="EndpointsTrustingIDs" numbered="true" toc="default">
	<name>Endpoints Trusting Intermediate Nodes</name>		<name>Endpoints Trusting Intermediate Nodes</name>
	<t>If intermediate nodes along the path can't be trusted, it's unlikely that endpoints will rely on signals from intermediate nodes to drive changes to endpoint behaviors. We note that "trust" is not binary - one, low, level of trus t applies when a node issuing a message can confirm that it has visibility of th e packets on the path it is seeking to control <xref target="RFC8085" format="de fault"/> (e.g., an ICMP message included a quoted packet from the source). A hig her level of trust can arise when an endpoint has established a short term, or e ven long term, trust relationship with network nodes. (See <xref target="Source- Quench" format="default"/> and <xref target="TRIGTRAN" format="default"/>).</t>		<t>If intermediate nodes along the path can't be trusted, it's unlikely that endpoints will rely on signals from intermediate nodes to drive changes to endpoint behaviors. We note that "trust" is not binary -- one low level of trust applies when a node receiving a message can confirm that the sender of the mess age has visibility of the packets on the path it is seeking to control <xref tar get="RFC8085" format="default"/> (e.g., an ICMP Destination Unreachable message <xref target="RFC0792"/> that includes the Internet Header + 64 bits of Original Data Datagram payload from the source). A higher level of trust can arise when an endpoint has established a short-term, or even long-term, trust relationship with network nodes. (See Sections&nbsp;<xref target="Source-Quench" format="coun ter"/> and <xref target="TRIGTRAN" format="counter"/>.)</t>
	</section>		</section>
	<section anchor="IDsTrustingEndpoints" numbered="true" toc="default">		<section anchor="IDsTrustingEndpoints" numbered="true" toc="default">
	<name>Intermediate Nodes Trusting Endpoints</name>		<name>Intermediate Nodes Trusting Endpoints</name>
	<t>If the endpoints do not have any trust relationship with the intermed iate nodes along a path, operators have been reluctant to deploy techniques that rely on endpoints sending unauthenticated control signals to routers. (See <xre f target="IntServ" format="default"/> and <xref target="NSIS" format="default"/> ). (We also note this still remains a factor hindering deployment of DiffServ).< /t>		<t>If the endpoints do not have any trust relationship with the intermed iate nodes along a path, operators have been reluctant to deploy techniques that rely on endpoints sending unauthenticated control signals to routers. (See Sect ions&nbsp;<xref target="IntServ" format="counter"/> and <xref target="NSIS" form at="counter"/>.) (We also note that this still remains a factor hindering deploy ment of Diffserv.)</t>
	</section>		</section>
	<section anchor="ReactionTimes" numbered="true" toc="default">		<section anchor="ReactionTimes" numbered="true" toc="default">
	<name>Reacting to Distant Signals</name>		<name>Reacting to Distant Signals</name>
	<t>Because the Internet is a distributed system, if the distance that in formation from distant path elements travels to a Path Aware host is sufficientl y large, the information may no longer accurately represent the state and situat ion at the distant host or elements along the path when it is received locally. In this case, the benefit that a Path Aware technique provides will be inconsist ent, and may not always be beneficial. (See <xref target="Quick-Start" format="d efault"/>).</t>		<t>Because the Internet is a distributed system, if the distance that in formation from distant path elements travels to a Path Aware host is sufficientl y large, the information may no longer accurately represent the state and situat ion at the distant host or elements along the path when it is received locally. In this case, the benefit that a Path Aware technique provides will be inconsist ent and may not always be beneficial. (See <xref target="Quick-Start" format="de fault"/>.)</t>
	</section>		</section>
	<section anchor="ProtocolStackSupport" numbered="true" toc="default">		<section anchor="ProtocolStackSupport" numbered="true" toc="default">
	<name>Support in Endpoint Protocol Stacks</name>		<name>Support in Endpoint Protocol Stacks</name>
	<t>Just because a protocol stack provides a new feature/signal does not mean that applications will use the feature/signal. Protocol stacks may not know how to effectively utilize Path-Aware techniques, because the protocol stack ma y require information from applications to permit the technique to work effectiv ely, but applications may not a-priori know that information. Even if the applic ation does know that information, the de-facto sockets API has no way of signali ng application expectations for the network path to the protocol stack. In order for applications to provide these expectations to protocol stacks, we need an A PI that signals more than the packets to be sent. (See <xref target="ST2" format ="default"/> and <xref target="IntServ" format="default"/>).</t>		<t>Just because a protocol stack provides a new feature/signal does not mean that applications will use the feature/signal. Protocol stacks may not know how to effectively utilize Path Aware techniques, because the protocol stack ma y require information from applications to permit the technique to work effectiv ely, but applications may not a&nbsp;priori know that information. Even if the a pplication does know that information, the de facto sockets API has no way of si gnaling application expectations for the network path to the protocol stack. In order for applications to provide these expectations to protocol stacks, we need an API that signals more than the packets to be sent. (See Sections&nbsp;<xref target="ST2" format="counter"/> and <xref target="IntServ" format="counter"/>.)< /t>
	</section>		</section>
	<section anchor="OneChance" numbered="true" toc="default">		<section anchor="OneChance" numbered="true" toc="default">
	<name>Planning For Failure</name>		<name>Planning for Failure</name>
	<t>If early implementers discover severe problems with a new feature, th		<t>If early implementers discover severe problems with a new feature, th
	at feature is likely to be disabled, and convincing implementers to re-enable th		at feature is likely to be disabled, and convincing implementers to re-enable th
	at feature can be very difficult, and can require years or decades. In addition		at feature can be very difficult and can require years or decades. In addition t
	to testing, partial deployment for a subset of users, implementing instrumentati		o testing, partial deployment for a subset of users, implementing instrumentatio
	on that will detect degraded user experience, and even "failback" to a previous		n that will detect degraded user experience, and even "failback" to a previous v
	version or "failover" to an entirely different implementation are likely to be h		ersion or "failover" to an entirely different implementation are likely to be he
	elpful. (See <xref target="ecn" format="default"/>).</t>		lpful. (See <xref target="ecn" format="default"/>.)</t>
	</section>		</section>
	</section>		</section>
	<section anchor="Futures" numbered="true" toc="default">		<section anchor="Futures" numbered="true" toc="default">
	<name>Future Work</name>		<name>Future Work</name>
	<t>By its nature, this document has been retrospective. In addition to con sidering how the Lessons Learned to date apply to current and future Path Aware networking proposals, it's also worth considering whether there is deeper invest igation left to do.</t>		<t>By its nature, this document has been retrospective. In addition to con sidering how the Lessons Learned to date apply to current and future Path Aware networking proposals, it's also worth considering whether there is deeper invest igation left to do.</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>We note that this work was based on contributions from experts on va rious Path Aware networking techniques, and all of the contributed techniques in volved unicast protocols. We didn't consider how these lessons might apply to mu lticast, and, given anecdotal reports at the IETF 109 MOPS working group meeting of IP multicast offerings within data centers at one or more cloud providers (< xref target="MOPS-109-Min" format="default"/>), it might be useful to think abou t path awareness in multicast, before we have a history of unsuccessful deployme nts to document.</li>		<li>We note that this work was based on contributions from experts on va rious Path Aware techniques, and all of the contributed techniques involved unic ast protocols. We didn't consider how these lessons might apply to multicast, an d, given anecdotal reports at the IETF 109 Media Operations (MOPS) Working Group meeting of IP multicast offerings within data centers at one or more cloud prov iders <xref target="MOPS-109-Min" format="default"/>, it might be useful to thin k about Path Awareness in multicast, before we have a history of unsuccessful de ployments to document.</li>
	<li>		<li>
	<t>The question of whether a mechanism supports admission control, bas ed on either endpoints or applications, is associated with Path Awareness. One o f the motivations of IntServ and a number of other architectures (e.g. Determini stic Networking, <xref target="RFC8655" format="default"/>) is the ability to "s ay no" to an application based on resource availability on a path, before the ap plication tries to inject traffic onto that path and discovers the path does not have the capacity to sustain enough utility to meet the application's minimum n eeds. The question of whether admission control is needed comes up repeatedly, b ut we have learned a few useful lessons that, while covered implicitly in some o f the lessons learned of the document, might be explained explicitly: </t>		<t>The question of whether a mechanism supports admission control, bas ed on either endpoints or applications, is associated with Path Awareness. One o f the motivations of IntServ and a number of other architectures (e.g., Determin istic Networking <xref target="RFC8655" format="default"/>) is the ability to "s ay no" to an application based on resource availability on a path, before the ap plication tries to inject traffic onto that path and discovers the path does not have the capacity to sustain enough utility to meet the application's minimum n eeds. The question of whether admission control is needed comes up repeatedly, b ut we have learned a few useful lessons that, while covered implicitly in some o f the Lessons Learned provided in this document, might be explained explicitly:< /t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>We have gained a lot of experience with application-based adapta		<li>We have gained a lot of experience with application-based adapta
	tion since the days where applications just injected traffic in-elastically into		tion since the days where applications just injected traffic inelastically into
	the network. Such adaptations seem to work well enough that admission control i		the network. Such adaptations seem to work well enough that admission control is
	s of less value to these applications</li>		of less value to these applications.</li>
	<li>There are end-to-end measurement techniques that can steer traff		<li>There are end-to-end measurement techniques that can steer traff
	ic at the application layer (Content Distribution Networks, multi-CDNs like Conv		ic at the application layer (Content Delivery Networks (CDNs), multi-CDNs like C
	iva <xref target="Conviva" format="default"/>, etc.)</li>		onviva <xref target="Conviva" format="default"/>, etc.).</li>
	<li>We noted in <xref target="ProtocolStackSupport" format="default"		<li>We noted in <xref target="ProtocolStackSupport" format="default"
	/> that applications often don't know how to utilize Path Aware techniques. This		/> that applications often don't know how to utilize Path Aware techniques. This
	includes not knowing enough about their admission control threshold to be able		includes not knowing enough about their admission control threshold to be able
	to ask accurately for the resources they need, whether this is because the appli		to ask accurately for the resources they need, whether this is because the appli
	cation itself doesn't know, or because the application has no way to signal its		cation itself doesn't know or because the application has no way to signal its e
	expectations to the underlying protocol stack. To date, attempts to help them ha		xpectations to the underlying protocol stack. To date, attempts to help them hav
	ven't gotten anywhere (e.g. the multiple-TSPEC additions to RSVP to attempt to m		en't gotten anywhere (e.g., the multiple-TSPEC (Traffic Specification) additions
	irror codec selection by applications <xref target="I-D.ietf-tsvwg-intserv-multi		to RSVP to attempt to mirror codec selection by applications <xref target="I-D.
	ple-tspec" format="default"/> expired in 2013).</li>		ietf-tsvwg-intserv-multiple-tspec" format="default"/> expired in 2013).</li>
	</ul>		</ul>
	</li>		</li>
	<li>We note that this work took the then-current IP network architecture as given, at least at the time each technique was proposed. It might be useful to consider aspects of the now-current IP network architecture that ease, or imp ede, Path Aware networking techniques. For example, there is limited ability in IP to constrain bidirectional paths to be symmetric, and information-centric net working protocols such as Named Data Networking (NDN) and Content-Centric Networ king (CCNx) (<xref target="RFC8793" format="default"/>) must force bidirectional path symmetry using protocol-specific mechanisms.</li>		<li>We note that this work took the then-current IP network architecture as given, at least at the time each technique was proposed. It might be useful to consider aspects of the now-current IP network architecture that ease, or imp ede, Path Aware techniques. For example, there is limited ability in IP to const rain bidirectional paths to be symmetric, and information-centric networking pro tocols such as Named Data Networking (NDN) and Content-Centric Networking (CCNx) <xref target="RFC8793" format="default"/> must force bidirectional path symmetr y using protocol-specific mechanisms.</li>
	</ul>		</ul>
	</section>		</section>
	<section anchor="Contributions" numbered="true" toc="default">		<section anchor="Contributions" numbered="true" toc="default">
	<name>Contributions</name>		<name>Contributions</name>
	<t>Contributions on these Path Aware networking techniques were analyzed t o arrive at the Lessons Learned captured in <xref target="LessonsLearned" format ="default"/>.</t>		<t>Contributions on these Path Aware techniques were analyzed to arrive at the Lessons Learned captured in <xref target="LessonsLearned" format="default"/ >.</t>
	<t>Our expectation is that most readers will not need to read through this section carefully, but we wanted to record these hard-fought lessons as a servi ce to others who may revisit this document, so they'll have the details close at hand.</t>		<t>Our expectation is that most readers will not need to read through this section carefully, but we wanted to record these hard-fought lessons as a servi ce to others who may revisit this document, so they'll have the details close at hand.</t>
	<section anchor="ST2" numbered="true" toc="default">		<section anchor="ST2" numbered="true" toc="default">
	<name>Stream Transport (ST, ST2, ST2+)</name>		<name>Stream Transport (ST, ST2, ST2+)</name>
	<t>The suggested references for Stream Transport are:</t>		<t>The suggested references for Stream Transport are:</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>ST - A Proposed Internet Stream Protocol <xref target="IEN-119" fo		<li>"<xref target="IEN-119" format="title"/>" <xref target="IEN-119" f
	rmat="default"/></li>		ormat="default"/></li>
	<li>Experimental Internet Stream Protocol, Version 2 (ST-II) <xref tar		<li>"<xref target="RFC1190" format="title"/>" <xref target="RFC1190" f
	get="RFC1190" format="default"/></li>		ormat="default"/></li>
	<li>Internet Stream Protocol Version 2 (ST2) Protocol Specification -		<li>"<xref target="RFC1819" format="title"/>" <xref target="RFC1819" f
	Version ST2+ <xref target="RFC1819" format="default"/></li>		ormat="default"/></li>
	</ul>		</ul>
	<t>The first version of Stream Transport, ST <xref target="IEN-119" form at="default"/>, was published in the late 1970's and was implemented and deploye d on the ARPANET at small scale. It was used throughout the 1980's for experimen tal transmission of voice, video, and distributed simulation.</t>		<t>The first version of Stream Transport, ST <xref target="IEN-119" form at="default"/>, was published in the late 1970s and was implemented and deployed on the ARPANET at small scale. It was used throughout the 1980s for experimenta l transmission of voice, video, and distributed simulation.</t>
	<t>The second version of the ST specification (ST2) <xref target="RFC119 0" format="default"/> <xref target="RFC1819" format="default"/> was an experimen tal connection-oriented internetworking protocol that operated at the same layer as connectionless IP. ST2 packets could be distinguished by their IP header ver sion numbers (IP, at that time, used version number 4, while ST2 used version nu mber 5).</t>		<t>The second version of the ST specification (ST2) <xref target="RFC119 0" format="default"/> <xref target="RFC1819" format="default"/> was an experimen tal connection-oriented internetworking protocol that operated at the same layer as connectionless IP. ST2 packets could be distinguished by their IP header ver sion numbers (IP, at that time, used version number 4, while ST2 used version nu mber 5).</t>
	<t>ST2 used a control plane layered over IP to select routes and reserve capacity for real-time streams across a network path, based on a flow specifica tion communicated by a separate protocol. The flow specification could be associ ated with QoS state in routers, producing an experimental resource reservation p rotocol. This allowed ST2 routers along a path to offer end-to-end guarantees, p rimarily to satisfy the QoS requirements for realtime services over the Internet .</t>		<t>ST2 used a control plane layered over IP to select routes and reserve capacity for real-time streams across a network path, based on a flow specifica tion communicated by a separate protocol. The flow specification could be associ ated with QoS state in routers, producing an experimental resource reservation p rotocol. This allowed ST2 routers along a path to offer end-to-end guarantees, p rimarily to satisfy the QoS requirements for real-time services over the Interne t.</t>
	<section anchor="reasons-for-non-deployment" numbered="true" toc="defaul t">		<section anchor="reasons-for-non-deployment" numbered="true" toc="defaul t">
	<name>Reasons for Non-deployment</name>		<name>Reasons for Non-deployment</name>
	<t>Although implemented in a range of equipment, ST2 was not widely us ed after completion of the experiments. It did not offer the scalability and fa te-sharing properties that have come to be desired by the Internet community.</t >		<t>Although implemented in a range of equipment, ST2 was not widely us ed after completion of the experiments. It did not offer the scalability and fa te-sharing properties that have come to be desired by the Internet community.</t >
	<t>The ST2 protocol is no longer in use.</t>		<t>The ST2 protocol is no longer in use.</t>
	</section>		</section>
	<section anchor="lessons-learned" numbered="true" toc="default">		<section anchor="lessons-learned" numbered="true" toc="default">
	<name>Lessons Learned.</name>		<name>Lessons Learned</name>
	<t>As time passed, the trade-off between router processing and link ca		<t>As time passed, the trade-off between router processing and link ca
	pacity changed. Links became faster and the cost of router processing became com		pacity changed. Links became faster, and the cost of router processing became co
	paratively more expensive.</t>		mparatively more expensive.</t>
	<t>The ST2 control protocol used "hard state" - once a route was estab		<t>The ST2 control protocol used "hard state" -- once a route was esta
	lished, and resources were reserved, routes and resources existing until they we		blished, and resources were reserved, routes and resources existed until they we
	re explicitly released via signaling. A soft-state approach was thought superior		re explicitly released via signaling. A soft-state approach was thought superior
	to this hard-state approach, and led to development of the IntServ model descri		to this hard-state approach and led to development of the IntServ model describ
	bed in <xref target="IntServ" format="default"/>.</t>		ed in <xref target="IntServ" format="default"/>.</t>
	</section>		</section>
	</section>		</section>
	<section anchor="IntServ" numbered="true" toc="default">		<section anchor="IntServ" numbered="true" toc="default">
	<name>Integrated Services (IntServ)</name>		<name>Integrated Services (IntServ)</name>
	<t>The suggested references for IntServ are:</t>		<t>The suggested references for IntServ are:</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>RFC 1633 Integrated Services in the Internet Architecture: an Over		<li>"<xref target="RFC1633" format="title"/>" <xref target="RFC1633" f
	view <xref target="RFC1633" format="default"/></li>		ormat="default"/></li>
	<li>RFC 2211 Specification of the Controlled-Load Network Element Serv		<li>"<xref target="RFC2211" format="title"/>" <xref target="RFC2211" f
	ice <xref target="RFC2211" format="default"/></li>		ormat="default"/></li>
	<li>RFC 2212 Specification of Guaranteed Quality of Service <xref targ		<li>"<xref target="RFC2212" format="title"/>" <xref target="RFC2212" f
	et="RFC2212" format="default"/></li>		ormat="default"/></li>
	<li>RFC 2215 General Characterization Parameters for Integrated Servic		<li>"<xref target="RFC2215" format="title"/>" <xref target="RFC2215" f
	e Network Elements <xref target="RFC2215" format="default"/></li>		ormat="default"/></li>
	<li>RFC 2205 Resource ReSerVation Protocol (RSVP) <xref target="RFC220		<li>"<xref target="RFC2205" format="title"/>" <xref target="RFC2205" f
	5" format="default"/></li>		ormat="default"/></li>
	</ul>		</ul>
	<t>In 1994, when the IntServ architecture document <xref target="RFC1633		<t>In 1994, when the IntServ architecture document <xref target="RFC1633
	" format="default"/> was published, real-time traffic was first appearing on the		" format="default"/> was published, real-time traffic was first appearing on the
	Internet. At that time, bandwidth was still a scarce commodity. Internet Servic		Internet. At that time, bandwidth was still a scarce commodity. Internet Servic
	e Providers built networks over DS3 (45 Mbps) infrastructure, and sub-rate (&lt;		e Providers built networks over DS3 (45 Mbps) infrastructure, and sub-rate (&lt;
	1 Mpbs) access was common. Therefore, the IETF anticipated a need for a fine-gr		1 Mbps) access was common. Therefore, the IETF anticipated a need for a fine-gr
	ained QoS mechanism.</t>		ained QoS mechanism.</t>
	<t>In the IntServ architecture, some applications can require service g		<t>In the IntServ architecture, some applications can require service gu
	uarantees. Therefore, those applications use the Resource Reservation Protocol (		arantees. Therefore, those applications use RSVP <xref target="RFC2205" format="
	RSVP) <xref target="RFC2205" format="default"/> to signal QoS reservations acr		default"/> to signal QoS reservations across network paths. Every router in the
	oss network paths. Every router in the network that participates in IntServ mai		network that participates in IntServ maintains per-flow soft state to a) perfor
	ntains per-flow soft-state to a) perform call admission control and b) deliver g		m call admission control and b) deliver guaranteed service.</t>
	uaranteed service.</t>		<t>Applications use Flow Specifications (Flow Specs, or FLOWSPECs) <xref
	<t>Applications use Flow Specification (Flow Specs) <xref target="RFC221		target="RFC2210" format="default"/> to describe the traffic that they emit. RSV
	0" format="default"/> to describe the traffic that they emit. RSVP reserves capa		P reserves capacity for traffic on a per-Flow-Spec basis.</t>
	city for traffic on a per Flow Spec basis.</t>
	<section anchor="reasons-for-non-deployment-1" numbered="true" toc="defa ult">		<section anchor="reasons-for-non-deployment-1" numbered="true" toc="defa ult">
	<name>Reasons for Non-deployment</name>		<name>Reasons for Non-deployment</name>
	<t>Although IntServ has been used in enterprise and government network s, IntServ was never widely deployed on the Internet because of its cost. The fo llowing factors contributed to operational cost:</t>		<t>Although IntServ has been used in enterprise and government network s, IntServ was never widely deployed on the Internet because of its cost. The fo llowing factors contributed to operational cost:</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>IntServ must be deployed on every router that is on a path where		<li>IntServ must be deployed on every router that is on a path where
	IntServ is to be used. Although it is possible to include a router that does no		IntServ is to be used. Although it is possible to include a router that does no
	t participate in IntServ along the path being controlled, if that router is like		t participate in IntServ along the path being controlled, if that router is like
	ly to become a bottleneck, IntServ cannot be used to avoid that bottleneck along		ly to become a bottleneck, IntServ cannot be used to avoid that bottleneck along
	the path</li>		the path.</li>
	<li>IntServ maintained per flow state</li>		<li>IntServ maintained per-flow state.</li>
	</ul>		</ul>
	<t>As IntServ was being discussed, the following occurred:</t>		<t>As IntServ was being discussed, the following occurred:</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>For many expected uses, it became more cost effective to solve t he QoS problem by adding bandwidth. Between 1994 and 2000, Internet Service Prov iders upgraded their infrastructures from DS3 (45 Mbps) to OC-48 (2.4 Gbps). Thi s meant that even if an endpoint was using IntServ in an IntServ-enabled network , its requests would rarely, if ever, be denied, so endpoints and Internet Servi ce Providers had little reason to enable IntServ.</li>		<li>For many expected uses, it became more cost effective to solve t he QoS problem by adding bandwidth. Between 1994 and 2000, Internet Service Prov iders upgraded their infrastructures from DS3 (45 Mbps) to OC-48 (2.4 Gbps). Thi s meant that even if an endpoint was using IntServ in an IntServ-enabled network , its requests would rarely, if ever, be denied, so endpoints and Internet Servi ce Providers had little reason to enable IntServ.</li>
	<li>DiffServ <xref target="RFC2475" format="default"/> offered a mor e cost-effective, albeit less fine-grained, solution to the QoS problem.</li>		<li>Diffserv <xref target="RFC2475" format="default"/> offered a mor e cost-effective, albeit less fine-grained, solution to the QoS problem.</li>
	</ul>		</ul>
	</section>		</section>
	<section anchor="lessons-learned-1" numbered="true" toc="default">		<section anchor="lessons-learned-1" numbered="true" toc="default">
	<name>Lessons Learned.</name>		<name>Lessons Learned</name>
	<t>The following lessons were learned:</t>		<t>The following lessons were learned:</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>Any mechanism that requires every participating onpath router to maintain per-flow state is not likely to succeed, unless the additional cost fo r offering the feature can be recovered from the user.</li>		<li>Any mechanism that requires every participating on-path router t o maintain per-flow state is not likely to succeed, unless the additional cost f or offering the feature can be recovered from the user.</li>
	<li>Any mechanism that requires an operator to upgrade all of its ro uters is not likely to succeed, unless the additional cost for offering the feat ure can be recovered from the user.</li>		<li>Any mechanism that requires an operator to upgrade all of its ro uters is not likely to succeed, unless the additional cost for offering the feat ure can be recovered from the user.</li>
	</ul>		</ul>
	<t>In environments where IntServ has been deployed, trust relationship		<t>In environments where IntServ has been deployed, trust relationship
	s with endpoints are very different from trust relationships on the Internet its		s
	elf, and there are often clearly-defined hierarchies in Service Level Agreements		with endpoints are very different from trust relationships on the
	(SLAs), and well-defined transport flows operating with pre-determined capacity		Internet itself. There are often clearly defined hierarchies in
	and latency requirements over paths where capacity or other attributes are cons		Service Level Agreements (SLAs) governing well-defined transport flows
	trained.</t>		operating with predetermined capacity and latency requirements over
	<t>IntServ was never widely deployed to manage capacity across the Int		paths where capacity or other attributes are constrained.</t>
	ernet. However, the technique that it produced was deployed for reasons other th		<t>IntServ was never widely deployed to manage capacity across the Int
	an bandwidth management. RSVP is widely deployed as an MPLS signaling mechanism.		ernet. However, the technique that it produced was deployed for reasons other th
	BGP reuses the RSVP concept of Filter Specs to distribute firewall filters, alt		an bandwidth management. RSVP is widely deployed as an MPLS signaling mechanism.
	hough they are called Flow Spec Component Types in BGP <xref target="RFC5575" fo		BGP reuses the RSVP concept of Filter Specs to distribute firewall filters, alt
	rmat="default"/>.</t>		hough they are called "Flow Spec Component Types" in BGP <xref target="RFC5575"
			format="default"/>.</t>
	</section>		</section>
	</section>		</section>
	<section anchor="Quick-Start" numbered="true" toc="default">		<section anchor="Quick-Start" numbered="true" toc="default">
	<name>Quick-Start TCP</name>		<name>Quick-Start TCP</name>
	<t>The suggested references for Quick-Start TCP are:</t>		<t>The suggested references for Quick-Start TCP are:</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>Quick-Start for TCP and IP <xref target="RFC4782" format="default"		<li>"<xref target="RFC4782" format="title"/>" <xref target="RFC4782" f
	/></li>		ormat="default"/></li>
	<li>Determining an appropriate initial sending rate over an underutili		<li>"Determining an appropriate sending rate over an underutilized net
	zed network path <xref target="SAF07" format="default"/></li>		work path" <xref target="SAF07" format="default"/></li>
	<li>Fast Startup Internet Congestion Control for Broadband Interactive		<li>"Fast Startup Internet Congestion Control for Broadband Interactiv
	Applications <xref target="Sch11" format="default"/></li>		e Applications" <xref target="Sch11" format="default"/></li>
	<li>Using Quick-Start to enhance TCP-friendly rate control performance		<li>"Using Quick-Start to enhance TCP-friendly rate control performanc
	in bidirectional satellite networks <xref target="QS-SAT" format="default"/></l		e in bidirectional satellite networks" <xref target="QS-SAT" format="default"/><
	i>		/li>
	</ul>		</ul>
	<t>Quick-Start <xref target="RFC4782" format="default"/> is an Experimen tal TCP extension that leverages support from the routers on the path to determi ne an allowed initial sending rate for a path through the Internet, either at th e start of data transfers or after idle periods. Without information about the p ath, a sender cannot easily determine an appropriate initial sending rate. The d efault TCP congestion control therefore uses the safe but time-consuming slow-st art algorithm <xref target="RFC5681" format="default"/>. With Quick-Start, conne ctions are allowed to use higher initial sending rates if there is significant u nused bandwidth along the path, and if the sender and all of the routers along t he path approve the request.</t>		<t>Quick-Start is defined in an Experimental RFC <xref target="RFC4782" format="default"/> and is a TCP extension that leverages support from the router s on the path to determine an allowed initial sending rate for a path through th e Internet, either at the start of data transfers or after idle periods. Without information about the path, a sender cannot easily determine an appropriate ini tial sending rate. The default TCP congestion control therefore uses the safe bu t time-consuming slow-start algorithm <xref target="RFC5681" format="default"/>. With Quick-Start, connections are allowed to use higher initial sending rates i f there is significant unused bandwidth along the path and if the sender and all of the routers along the path approve the request.</t>
	<t>By examining the Time To Live (TTL) field in Quick-Start packets, a s ender can determine if routers on the path have approved the Quick-Start reques t. However, this method is unable to take into account the routers hidden by tun nels or other network nodes invisible at the IP layer.</t>		<t>By examining the Time To Live (TTL) field in Quick-Start packets, a s ender can determine if routers on the path have approved the Quick-Start reques t. However, this method is unable to take into account the routers hidden by tun nels or other network nodes invisible at the IP layer.</t>
	<t>The protocol also includes a nonce that provides protection against c		<t>The protocol also includes a nonce that provides protection against c
	heating routers and receivers. If the Quick-Start request is explicitly approved		heating routers and receivers. If the Quick-Start request is explicitly approved
	by all routers along the path, the TCP host can send at up to the approved rate		by all routers along the path, the TCP host can send at up to the approved rate
	; otherwise TCP would use the default congestion control. Quick-Start requires m		; otherwise, TCP would use the default congestion control. Quick-Start requires
	odifications in the involved end-systems as well in routers. Due to the resultin		modifications in the involved end systems as well as in routers. Due to the resu
	g deployment challenges, Quick-Start was only proposed in <xref target="RFC4782"		lting deployment challenges, Quick-Start was only proposed in <xref target="RFC4
	format="default"/> for controlled environments.</t>		782" format="default"/> for controlled environments.</t>
	<t>The Quick-Start mechanism is a lightweight, coarse-grained, in-band,		<t>The Quick-Start mechanism is a lightweight, coarse-grained, in-band,
	network-assisted fast startup mechanism. The benefits are studied by simulation		network-assisted fast startup mechanism. The benefits are studied by simulation
	in a research paper <xref target="SAF07" format="default"/> that complements the		in a research paper <xref target="SAF07" format="default"/> that complements the
	protocol specification. The study confirms that Quick-Start can significantly s		protocol specification. The study confirms that Quick-Start can significantly s
	peed up mid-sized data transfers. That paper also presents router algorithms tha		peed up mid-sized data transfers. That paper also presents router algorithms tha
	t do not require keeping per-flow state. Later studies <xref target="Sch11" form		t do not require keeping per-flow state. Later studies <xref target="Sch11" form
	at="default"/> comprehensively analyzes Quick-Start with a full Linux implementa		at="default"/> comprehensively analyze Quick-Start with a full Linux implementat
	tion and with a router fast path prototype using a network processor. In both ca		ion and with a router fast-path prototype using a network processor. In both cas
	ses, Quick-Start could be implemented with limited additional complexity.</t>		es, Quick-Start could be implemented with limited additional complexity.</t>
	<section anchor="reasons-for-non-deployment-2" numbered="true" toc="defa ult">		<section anchor="reasons-for-non-deployment-2" numbered="true" toc="defa ult">
	<name>Reasons for Non-deployment</name>		<name>Reasons for Non-deployment</name>
	<t>However, experiments with Quick-Start in <xref target="Sch11" forma t="default"/> revealed several challenges:</t>		<t>However, experiments with Quick-Start in <xref target="Sch11" forma t="default"/> revealed several challenges:</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>Having information from the routers along the path can reduce th		<li>Having information from the routers along the path can reduce th
	e risk of congestion, but cannot avoid it entirely. Determining whether there is		e risk of congestion but cannot avoid it entirely. Determining whether there is
	unused capacity is not trivial in actual router and host implementations. Data		unused capacity is not trivial in actual router and host implementations. Data a
	about available capacity visible at the IP layer may be imprecise, and due to th		bout available capacity visible at the IP layer may be imprecise, and due to the
	e propagation delay, information can already be outdated when it reaches a sende		propagation delay, information can already be outdated when it reaches a sender
	r. There is a trade-off between the speedup of data transfers and the risk of co		. There is a trade-off between the speedup of data transfers and the risk of con
	ngestion even with Quick-Start. This could be mitigated by only allowing Quick-S		gestion even with Quick-Start. This could be mitigated by only allowing Quick-St
	tart to access a proportion of the unused capacity along a path.</li>		art to access a proportion of the unused capacity along a path.</li>
	<li>For scalable router fast path implementation, it is important to		<li>For scalable router fast-path implementations, it is important t
	enable parallel processing of packets, as this is a widely used method e.g. in		o enable parallel processing of packets, as this is a widely used method, e.g.,
	network processors. One challenge is synchronization of information between pack		in network processors. One challenge is synchronization of information between p
	ets that are processed in parallel, which should be avoided as much as possible.		ackets that are processed in parallel, which should be avoided as much as possib
	</li>		le.</li>
	<li>Only some types of application traffic can benefit from Quick-St		<li>Only some types of application traffic can benefit from Quick-St
	art. Capacity needs to be requested and discovered. The discovered capacity need		art. Capacity needs to be requested and discovered. The discovered capacity need
	s to be utilized by the flow, or it implicitly becomes available for other flows		s to be utilized by the flow, or it implicitly becomes available for other flows
	. Failing to use the requested capacity may have already reduced the pool of Qu		. Failing to use the requested capacity may have already reduced the pool of Qu
	ick-Start capacity that was made available to other competing Quick-Start reques		ick-Start capacity that was made available to other competing Quick-Start reques
	ts. The benefit is greatest when senders use this only for bulk flows and avoid		ts. The benefit is greatest when senders use this only for bulk flows and avoid
	sending unnecessary Quick-Start requests, e.g. for flows that only send a small		sending unnecessary Quick-Start requests, e.g., for flows that only send a smal
	amount of data. Choosing an appropriate request size requires application-inter		l amount of data. Choosing an appropriate request size requires application-inte
	nal knowledge that is not commonly expressed by the transport API. How a sender		rnal knowledge that is not commonly expressed by the transport API. How a sender
	can determine the rate for an initial Quick-Start request is still a largely uns		can determine the rate for an initial Quick-Start request is still a largely un
	olved problem.</li>		solved problem.</li>
	</ul>		</ul>
	<t>There is no known deployment of Quick-Start for TCP or other IETF t ransports.</t>		<t>There is no known deployment of Quick-Start for TCP or other IETF t ransports.</t>
	</section>		</section>
	<section anchor="lessons-learned-2" numbered="true" toc="default">		<section anchor="lessons-learned-2" numbered="true" toc="default">
	<name>Lessons Learned</name>		<name>Lessons Learned</name>
	<t>Some lessons can be learned from Quick-Start. Despite being a very		<t>Some lessons can be learned from Quick-Start. Despite being a very
	light-weight protocol, Quick-Start suffers from poor incremental deployment prop		lightweight protocol, Quick-Start suffers from poor incremental deployment prope
	erties, both regarding the required modifications in network infrastructure as w		rties regarding both a) the required modifications in network infrastructure and
	ell as its interactions with applications. Except for corner cases, congestion c		b) its interactions with applications. Except for corner cases, congestion cont
	ontrol can be quite efficiently performed end-to-end in the Internet, and in mod		rol can be quite efficiently performed end to end in the Internet, and in modern
	ern stacks there is not much room for significant improvement by additional netw		stacks there is not much room for significant improvement by additional network
	ork support.</t>		support.</t>
	<t>After publication of the Quick-Start specification, there have been		<t>After publication of the Quick-Start specification, there have been
	large-scale experiments with an initial window of up to 10 MSS <xref target="RF		large-scale experiments with an initial window of up to 10 segments <xref targe
	C6928" format="default"/>. This alternative "IW10" approach can also ramp-up dat		t="RFC6928" format="default"/>. This alternative "IW10" approach can also ramp u
	a transfers faster than the standard congestion control, but it only requires se		p data transfers faster than the standard congestion control, but it only requir
	nder-side modifications. As a result, this approach can be easier and incrementa		es sender-side modifications. As a result, this approach can be easier and incre
	lly deployed in the Internet. While theoretically Quick-Start can outperform "IW		mentally deployed in the Internet. While theoretically Quick-Start can outperfor
	10", the improvement in completion time for data transfer times can, in many cas		m "IW10", the improvement in completion time for data transfer times can, in man
	es, be small. After publication of <xref target="RFC6928" format="default"/>, mo		y cases, be small. After publication of <xref target="RFC6928" format="default"/
	st modern TCP stacks have increased their default initial window.</t>		>, most modern TCP stacks have increased their default initial window.</t>
	</section>		</section>
	</section>		</section>
	<section anchor="Source-Quench" numbered="true" toc="default">		<section anchor="Source-Quench" numbered="true" toc="default">
	<name>ICMP Source Quench</name>		<name>ICMP Source Quench</name>
	<t>The suggested references for ICMP Source Quench are:</t>		<t>The suggested reference for ICMP Source Quench is:</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>INTERNET CONTROL MESSAGE PROTOCOL <xref target="RFC0792" format="d efault"/></li>		<li>"<xref target="RFC0792" format="title"/>" <xref target="RFC0792" f ormat="default"/></li>
	</ul>		</ul>
	<t>The ICMP Source Quench message <xref target="RFC0792" format="default "/> allowed an on-path router to request the source of a flow to reduce its send ing rate. This method allowed a router to provide an early indication of impendi ng congestion on a path to the sources that contribute to that congestion.</t>		<t>The ICMP Source Quench message <xref target="RFC0792" format="default "/> allowed an on-path router to request the source of a flow to reduce its send ing rate. This method allowed a router to provide an early indication of impendi ng congestion on a path to the sources that contribute to that congestion.</t>
	<section anchor="reasons-for-non-deployment-3" numbered="true" toc="defa ult">		<section anchor="reasons-for-non-deployment-3" numbered="true" toc="defa ult">
	<name>Reasons for Non-deployment</name>		<name>Reasons for Non-deployment</name>
	<t>This method was deployed in Internet routers over a period of time, the reaction of endpoints to receiving this signal has varied. For low speed li nks, with low multiplexing of flows the method could be used to regulate (moment arily reduce) the transmission rate. However, the simple signal does not scale w ith link speed, or the number of flows sharing a link.</t>		<t>This method was deployed in Internet routers over a period of time; the reaction of endpoints to receiving this signal has varied. For low-speed li nks, with low multiplexing of flows the method could be used to regulate (moment arily reduce) the transmission rate. However, the simple signal does not scale w ith link speed or with the number of flows sharing a link.</t>
	<t>The approach was overtaken by the evolution of congestion control m ethods in TCP <xref target="RFC2001" format="default"/>, and later also by other IETF transports. Because these methods were based upon measurement of the end-t o-end path and an algorithm in the endpoint, they were able to evolve and mature more rapidly than methods relying on interactions between operational routers a nd endpoint stacks.</t>		<t>The approach was overtaken by the evolution of congestion control m ethods in TCP <xref target="RFC2001" format="default"/>, and later also by other IETF transports. Because these methods were based upon measurement of the end-t o-end path and an algorithm in the endpoint, they were able to evolve and mature more rapidly than methods relying on interactions between operational routers a nd endpoint stacks.</t>
	<t>After ICMP Source Quench was specified, the IETF began to recommend that transports provide end-to-end congestion control <xref target="RFC2001" fo rmat="default"/>. The Source Quench method has been obsoleted by the IETF <xref target="RFC6633" format="default"/>, and both hosts and routers must now silentl y discard this message.</t>		<t>After ICMP Source Quench was specified, the IETF began to recommend that transports provide end-to-end congestion control <xref target="RFC2001" fo rmat="default"/>. The Source Quench method has been obsoleted by the IETF <xref target="RFC6633" format="default"/>, and both hosts and routers must now silentl y discard this message.</t>
	</section>		</section>
	<section anchor="lessons-learned-3" numbered="true" toc="default">		<section anchor="lessons-learned-3" numbered="true" toc="default">
	<name>Lessons Learned</name>		<name>Lessons Learned</name>
	<t>This method had several problems:</t>		<t>This method had several problems.</t>
	<t>First, <xref target="RFC0792" format="default"/> did not sufficient ly specify how the sender would react to the ICMP Source Quench signal from the path (e.g., <xref target="RFC1016" format="default"/>). There was ambiguity in h ow the sender should utilize this additional information. This could lead to unf airness in the way that receivers (or routers) responded to this message.</t>		<t>First, <xref target="RFC0792" format="default"/> did not sufficient ly specify how the sender would react to the ICMP Source Quench signal from the path (e.g., <xref target="RFC1016" format="default"/>). There was ambiguity in h ow the sender should utilize this additional information. This could lead to unf airness in the way that receivers (or routers) responded to this message.</t>
	<t>Second, while the message did provide additional information, the E xplicit Congestion Notification (ECN) mechanism <xref target="RFC3168" format="d efault"/> provided a more robust and informative signal for network nodes to pro vide early indication that a path has become congested.</t>		<t>Second, while the message did provide additional information, the E xplicit Congestion Notification (ECN) mechanism <xref target="RFC3168" format="d efault"/> provided a more robust and informative signal for network nodes to pro vide early indication that a path has become congested.</t>
	<t>The mechanism originated at a time when the Internet trust model wa		<t>The mechanism originated at a time when the Internet trust model wa
	s very different. Most endpoint implementations did not attempt to verify that t		s very different. Most endpoint implementations did not attempt to verify that t
	he message originated from an on-path node before they utilized the message. Thi		he message originated from an on-path node before they utilized the message. Thi
	s made it vulnerable to denial of service attacks. In theory, routers might hav		s made it vulnerable to Denial-of-Service (DoS) attacks. In theory, routers mig
	e chosen to use the quoted packet contained in the ICMP payload to validate that		ht have chosen to use the quoted packet contained in the ICMP payload to validat
	the message originated from an on-path node, but this would have increased per-		e that the message originated from an on-path node, but this would have increase
	packet processing overhead for each router along the path, would have required t		d per-packet processing overhead for each router along the path and would have r
	ransport functionality in the router to verify whether the quoted packet header		equired transport functionality in the router to verify whether the quoted packe
	corresponded to a packet the router had sent. In addition, section 5.2 of <xref		t header corresponded to a packet the router had sent. In addition, <xref target
	target="RFC4443" format="default"/> noted ICMPv6-based attacks on hosts that wou		="RFC4443" sectionFormat="of" section="5.2"/>
	ld also have threatened routers processing ICMPv6 Source Quench payloads. As tim		noted ICMPv6-based attacks on hosts that would also have threatened routers proc
	e passed, it became increasingly obvious that the lack of validation of the mess		essing ICMPv6 Source Quench payloads. As time passed, it became increasingly obv
	ages exposed receivers to a security vulnerability where the messages could be f		ious that the lack of validation of the messages exposed receivers to a security
	orged to create a tangible denial of service opportunity.</t>		vulnerability where the messages could be forged to create a tangible DoS oppor
			tunity.</t>
	</section>		</section>
	</section>		</section>
	<section anchor="TRIGTRAN" numbered="true" toc="default">		<section anchor="TRIGTRAN" numbered="true" toc="default">
	<name>Triggers for Transport (TRIGTRAN)</name>		<name>Triggers for Transport (TRIGTRAN)</name>
	<t>The suggested references for TRIGTRAN are:</t>		<t>The suggested references for TRIGTRAN are:</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>TRIGTRAN BOF at IETF 55 <xref target="TRIGTRAN-55" format="default "/></li>		<li>TRIGTRAN BOF at IETF 55 <xref target="TRIGTRAN-55" format="default "/></li>
	<li>TRIGTRAN BOF at IETF 56 <xref target="TRIGTRAN-56" format="default "/></li>		<li>TRIGTRAN BOF at IETF 56 <xref target="TRIGTRAN-56" format="default "/></li>
	</ul>		</ul>
	<t>TCP <xref target="RFC0793" format="default"/> has a well-known weakne		<t>TCP <xref target="RFC0793" format="default"/> has a well-known weakne
	ss - the end-to-end flow control mechanism has only a single signal, the loss of		ss -- the end-to-end flow control mechanism has only a single signal, the loss o
	a segment, and TCP implementations since the late 1980s have interpreted the lo		f a segment,
	ss of a segment as evidence that the path between two endpoints may have become		detected when no acknowledgment for the lost segment is received at the sender.
	congested enough to exhaust buffers on intermediate hops, so that the TCP sender		There are multiple reasons why the sender might not have received an acknowledg
	should "back off" - reduce its sending rate until it knows that its segments ar		ment for the segment. To name several, the segment could have been trapped in a
	e now being delivered without loss <xref target="RFC5681" format="default"/>. Mo		routing loop, damaged in transmission and failed checksum verification at the
	re modern TCP stacks have added a growing array of strategies about how to estab		receiver, or lost because some intermediate device discarded the packet, or any
	lish the sending rate <xref target="RFC5681" format="default"/>, but when a path		of a variety of other things could have happened to the acknowledgment on the wa
	is no longer operational, TCP would continue to retry transmissions, which woul		y back from the receiver to the sender. TCP implementations since the late 1980s
	d fail, again, and double their Retransmission Time Out (RTO) timers with each f		have made the "safe" decision and have interpreted the loss of a segment as evi
	ailed transmission, with the result that TCP would wait many seconds before retr		dence
	ying a segment, even if the path becomes operational while the sender is waiting		that the path between two endpoints may have become congested enough to exhaust
	for its next retry.</t>		buffers on intermediate hops, so that the TCP sender should "back off" -- reduce
			its sending rate until it knows that its segments are now being delivered witho
			ut loss
			<xref target="RFC5681" format="default"/>.
			</t>
	<t>The thinking behind TRIGTRAN was that if a path completely stopped wo rking because a link along the path was "down", somehow something along the path could signal TCP when that link returned to service, and the sending TCP could retry immediately, without waiting for a full retransmission timeout (RTO) perio d.</t>		<t>The thinking behind TRIGTRAN was that if a path completely stopped wo rking because a link along the path was "down", somehow something along the path could signal TCP when that link returned to service, and the sending TCP could retry immediately, without waiting for a full retransmission timeout (RTO) perio d.</t>
	<section anchor="reasons-for-non-deployment-4" numbered="true" toc="defa ult">		<section anchor="reasons-for-non-deployment-4" numbered="true" toc="defa ult">
	<name>Reasons for Non-deployment</name>		<name>Reasons for Non-deployment</name>
	<t>The early dreams for TRIGTRAN were dashed because of an assumption		<t>The early dreams for TRIGTRAN were dashed because of an assumption
	that TRIGTRAN triggers would be unauthenticated. This meant that any "safe" TRIG		that TRIGTRAN triggers would be unauthenticated. This meant that any "safe" TRIG
	TRAN mechanism would have relied on a mechanism such as setting the IPv4 TTL or		TRAN mechanism would have relied on a mechanism such as setting the IPv4 TTL or
	IPv6 Hop Count to 255 at a sender and testing that it was 254 upon receipt, so t		IPv6 Hop Count to 255 at a sender and testing that it was 254 upon receipt, so t
	hat a receiver could verify that a signal was generated by an adjacent sender kn		hat a receiver could verify that a signal was generated by an adjacent sender kn
	own to be on the path being used, and not some unknown sender which might not ev		own to be on the path being used and not some unknown sender that might not even
	en be on the path (e.g., "The Generalized TTL Security Mechanism (GTSM)" <xref t		be on the path (e.g.,
	arget="RFC5082" format="default"/>). This situation is very similar to the case		"<xref target="RFC5082" format="title"/>" <xref target="RFC5082" format="default
	for ICMP Source Quench messages as described in <xref target="Source-Quench" for		"/>). This situation is very similar to the case for ICMP Source Quench messages
	mat="default"/>, which were also unauthenticated, and could be sent by an off-pa		as described in <xref target="Source-Quench" format="default"/>, which were als
	th attacker, resulting in deprecation of ICMP Source Quench message processing <		o unauthenticated and could be sent by an off-path attacker, resulting in deprec
	xref target="RFC6633" format="default"/>.</t>		ation of ICMP Source Quench message processing <xref target="RFC6633" format="de
	<t>TRIGTRAN's scope shrunk from "the path is down" to "the first-hop l		fault"/>.</t>
	ink is down".</t>		<t>TRIGTRAN's scope shrunk from "the path is down" to "the first-hop l
			ink is down."</t>
	<t>But things got worse.</t>		<t>But things got worse.</t>
	<t>Because TRIGTRAN triggers would only be provided when the first-hop		<t>Because TRIGTRAN triggers would only be provided when the first-hop
	link was "down", TRIGTRAN triggers couldn't replace normal TCP retransmission b		link was "down", TRIGTRAN triggers couldn't replace normal TCP retransmission b
	ehavior if the path failed because some link further along the network path was		ehavior if the path failed because some link further along the network path was
	"down". So TRIGTRAN triggers added complexity to an already complex TCP state ma		"down". So TRIGTRAN triggers added complexity to an already-complex TCP state ma
	chine, and did not allow any existing complexity to be removed.</t>		chine and did not allow any existing complexity to be removed.</t>
	<t>There was also an issue that the TRIGTRAN signal was not sent in re		<t>There was also an issue that the TRIGTRAN signal was not sent in re
	sponse to a specific host that had been sending packets, and was instead a signa		sponse to a specific host that had been sending packets and was instead a signal
	l that stimulated a response by any sender on the link. This needs to scale when		that stimulated a response by any sender on the link. This needs to scale when
	there are multiple flows trying to use the same resource, yet the sender of a t		there are multiple flows trying to use the same resource, yet the sender of a tr
	rigger has no understanding how many of the potential traffic sources will respo		igger has no understanding of how many of the potential traffic sources will res
	nd by sending packets - if recipients of the signal back-off their responses to		pond by sending packets -- if recipients of the signal "back off" their response
	a trigger to improve scaling, then that immediately mitigates the benefit of the		s to a trigger to improve scaling, then that immediately mitigates the benefit o
	signal.</t>		f the signal.</t>
	<t>Finally, intermediate forwarding nodes required modification to pro vide TRIGTRAN triggers, but operators couldn't charge for TRIGTRAN triggers, so there was no way to recover the cost of modifying, testing, and deploying update d intermediate nodes.</t>		<t>Finally, intermediate forwarding nodes required modification to pro vide TRIGTRAN triggers, but operators couldn't charge for TRIGTRAN triggers, so there was no way to recover the cost of modifying, testing, and deploying update d intermediate nodes.</t>
	<t>Two TRIGTRAN BOFs were held, at IETF 55 <xref target="TRIGTRAN-55" format="default"/> and IETF 56 <xref target="TRIGTRAN-56" format="default"/>, bu t this work was not chartered, and there was no interest in deploying TRIGTRAN u nless it was chartered and standardized in the IETF.</t>		<t>Two TRIGTRAN BOFs were held, at IETF 55 <xref target="TRIGTRAN-55" format="default"/> and IETF 56 <xref target="TRIGTRAN-56" format="default"/>, bu t this work was not chartered, and there was no interest in deploying TRIGTRAN u nless it was chartered and standardized in the IETF.</t>
	</section>		</section>
	<section anchor="lessons-learned-4" numbered="true" toc="default">		<section anchor="lessons-learned-4" numbered="true" toc="default">
	<name>Lessons Learned.</name>		<name>Lessons Learned</name>
	<t>The reasons why this work was not chartered, much less deployed, pr ovide several useful lessons for researchers.</t>		<t>The reasons why this work was not chartered, much less deployed, pr ovide several useful lessons for researchers.</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>TRIGTRAN started with a plausible value proposition, but network ing realities in the early 2000s forced reductions in scope that led directly to reductions in potential benefits, but no corresponding reductions in costs and complexity.</li>		<li>TRIGTRAN started with a plausible value proposition, but network ing realities in the early 2000s forced reductions in scope that led directly to reductions in potential benefits but no corresponding reductions in costs and c omplexity.</li>
	<li>These reductions in scope were the direct result of an inability for hosts to trust or authenticate TRIGTRAN signals they received from the netw ork.</li>		<li>These reductions in scope were the direct result of an inability for hosts to trust or authenticate TRIGTRAN signals they received from the netw ork.</li>
	<li>Operators did not believe they could charge for TRIGTRAN signali ng, because first-hop links didn't fail frequently, and TRIGTRAN provided no red uction in operating expenses, so there was little incentive to purchase and depl oy TRIGTRAN-capable network equipment.</li>		<li>Operators did not believe they could charge for TRIGTRAN signali ng, because first-hop links didn't fail frequently and TRIGTRAN provided no redu ction in operating expenses, so there was little incentive to purchase and deplo y TRIGTRAN-capable network equipment.</li>
	</ul>		</ul>
	<t>It is also worth noting that the targeted environment for TRIGTRAN in the late 1990s contained links with a relatively small number of directly-con nected hosts - for instance, cellular or satellite links. The transport communit y was well aware of the dangers of sender synchronization based on multiple send ers receiving the same stimulus at the same time, but the working assumption for TRIGTRAN was that there wouldn't be enough senders for this to be a meaningful problem. In the 2010s, it is common for a single "link" to support many senders and receivers on a single link, likely requiring TRIGTRAN senders to wait some r andom amount of time before sending after receiving a TRIGTRAN signal, which wou ld have reduced the benefits of TRIGTRAN even more.</t>		<t>It is also worth noting that the targeted environment for TRIGTRAN in the late 1990s contained links with a relatively small number of directly con nected hosts -- for instance, cellular or satellite links. The transport communi ty was well aware of the dangers of sender synchronization based on multiple sen ders receiving the same stimulus at the same time, but the working assumption fo r TRIGTRAN was that there wouldn't be enough senders for this to be a meaningful problem. In the 2010s, it was common for a single "link" to support many sende rs and receivers, likely requiring TRIGTRAN senders to wait some random amount o f time before sending after receiving a TRIGTRAN signal, which would have reduce d the benefits of TRIGTRAN even more.</t>
	</section>		</section>
	</section>		</section>
	<section anchor="Shim6" numbered="true" toc="default">		<section anchor="Shim6" numbered="true" toc="default">
	<name>Shim6</name>		<name>Shim6</name>
	<t>The suggested references for Shim6 are:</t>		<t>The suggested reference for Shim6 is:</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>Shim6: Level 3 Multihoming Shim Protocol for IPv6 <xref target="RF C5533" format="default"/></li>		<li>"<xref target="RFC5533" format="title"/>" <xref target="RFC5533" for mat="default"/></li>
	</ul>		</ul>
	<t>The IPv6 routing architecture <xref target="RFC1887" format="default" /> assumed that most sites on the Internet would be identified by Provider Assig ned IPv6 prefixes, so that Default-Free Zone routers only contained routes to ot her providers, resulting in a very small IPv6 global routing table.</t>		<t>The IPv6 routing architecture <xref target="RFC1887" format="default" /> assumed that most sites on the Internet would be identified by Provider Assig ned IPv6 prefixes, so that Default-Free Zone routers only contained routes to ot her providers, resulting in a very small IPv6 global routing table.</t>
	<t>For a single-homed site, this could work well. A multihomed site with only one upstream provider could also work well, although BGP multihoming from a single upstream provider was often a premium service (costing more than twice as much as two single-homed sites), and if the single upstream provider went out of service, all of the multihomed paths could fail simultaneously.</t>		<t>For a single-homed site, this could work well. A multihomed site with only one upstream provider could also work well, although BGP multihoming from a single upstream provider was often a premium service (costing more than twice as much as two single-homed sites), and if the single upstream provider went out of service, all of the multihomed paths could fail simultaneously.</t>
	<t>IPv4 sites often multihomed by obtaining Provider Independent prefixe		<t>IPv4 sites often multihomed by obtaining Provider Independent prefixe
	s, and advertising these prefixes through multiple upstream providers. With the		s and advertising these prefixes through multiple upstream providers. With the a
	assumption that any multihomed IPv4 site would also multihome in IPv6, it seemed		ssumption that any multihomed IPv4 site would also multihome in IPv6, it seemed
	likely that IPv6 routing would be subject to the same pressures to announce Pro		likely that IPv6 routing would be subject to the same pressures to announce Prov
	vider Independent prefixes, resulting in a global IPv6 routing table that exhibi		ider Independent prefixes, resulting in an IPv6 global routing table that exhibi
	ted the same explosive growth as the global IPv4 routing table. During the early		ted the same explosive growth as the IPv4 global routing table. During the early
	2000s, work began on a protocol that would provide multihoming for IPv6 sites w		2000s, work began on a protocol that would provide multihoming for IPv6 sites w
	ithout requiring sites to advertise Provider Independent prefixes into the IPv6		ithout requiring sites to advertise Provider Independent prefixes into the IPv6
	global routing table.</t>		global routing table.</t>
	<t>This protocol, called Shim6, allowed two endpoints to exchange multip		<t>This protocol, called "Shim6", allowed two endpoints to exchange mult
	le addresses ("Locators") that all mapped to the same endpoint ("Identity"). Aft		iple addresses ("Locators") that all mapped to the same endpoint ("Identity"). A
	er an endpoint learned multiple Locators for the other endpoint, it could send t		fter an endpoint learned multiple Locators for the other endpoint, it could send
	o any of those Locators with the expectation that those packets would all be del		to any of those Locators with the expectation that those packets would all be d
	ivered to the endpoint with the same Identity. Shim6 was an example of an "Ident		elivered to the endpoint with the same Identity. Shim6 was an example of an "Ide
	ity/Locator Split" protocol.</t>		ntity/Locator Split" protocol.</t>
	<t>Shim6, as defined in <xref target="RFC5533" format="default"/> and re		<t>Shim6, as defined in <xref target="RFC5533" format="default"/> and re
	lated RFCs, provided a workable solution for IPv6 multihoming using Provider Ass		lated RFCs, provided a workable solution for IPv6 multihoming using Provider Ass
	igned prefixes, including capability discovery and negotiation, and allowing end		igned prefixes, including capability discovery and negotiation, and allowing end
	-to-end application communication to continue even in the face of path failure,		-to-end application communication to continue even in the face of path failure,
	because applications don't see Locator failures, and continue to communicate wit		because applications don't see Locator failures and continue to communicate with
	h the same Identity using a different Locator.</t>		the same Identity using a different Locator.</t>
	<section anchor="reasons-for-non-deployment-5" numbered="true" toc="defa ult">		<section anchor="reasons-for-non-deployment-5" numbered="true" toc="defa ult">
	<name>Reasons for Non-deployment</name>		<name>Reasons for Non-deployment</name>
	<t>Note that the problem being addressed was "site multihoming", but S him6 was providing "host multihoming". That meant that the decision about what p ath would be used was under host control, not under edge router control.</t>		<t>Note that the problem being addressed was "site multihoming", but S him6 was providing "host multihoming". That meant that the decision about what p ath would be used was under host control, not under edge router control.</t>
	<t>Although more work could have been done to provide a better technic al solution, the biggest impediments to Shim6 deployment were operational and bu siness considerations. These impediments were discussed at multiple network oper ator group meetings, including <xref target="Shim6-35" format="default"/> at <xr ef target="NANOG-35" format="default"/>.</t>		<t>Although more work could have been done to provide a better technic al solution, the biggest impediments to Shim6 deployment were operational and bu siness considerations. These impediments were discussed at multiple network oper ator group meetings, including <xref target="Shim6-35" format="default"/> at <xr ef target="NANOG-35" format="default"/>.</t>
	<t>The technical issues centered around concerns that Shim6 relied on the host to track all the connections, while also tracking Identity/Locator mapp ings in the kernel, and tracking failures to recognize that an available path ha s failed.</t>		<t>The technical issues centered around concerns that Shim6 relied on the host to track all the connections, while also tracking Identity/Locator mapp ings in the kernel and tracking failures to recognize that an available path has failed.</t>
	<t>The operational issues centered around concerns that operators were performing traffic engineering on traffic aggregates. With Shim6, these operato r traffic engineering policies must be pushed down to individual hosts.</t>		<t>The operational issues centered around concerns that operators were performing traffic engineering on traffic aggregates. With Shim6, these operato r traffic engineering policies must be pushed down to individual hosts.</t>
	<t>In addition, operators would have no visibility or control over the decision of hosts choosing to switch to another path. They expressed concerns t hat relying on hosts to steer traffic exposed operator networks to oscillation b ased on feedback loops, if hosts moved from path to path frequently. Given that Shim6 was intended to support multihoming across operators, operators providing only one of the paths would have even less visibility as traffic suddenly appear ed and disappeared on their networks.</t>		<t>In addition, operators would have no visibility or control over the decision of hosts choosing to switch to another path. They expressed concerns t hat relying on hosts to steer traffic exposed operator networks to oscillation b ased on feedback loops, if hosts moved from path to path frequently. Given that Shim6 was intended to support multihoming across operators, operators providing only one of the paths would have even less visibility as traffic suddenly appear ed and disappeared on their networks.</t>
	<t>In addition, firewalls that expected to find a TCP or UDP transport		<t>In addition, firewalls that expected to find a TCP or UDP transport
	-level protocol header in the IP payload would see a Shim6 Identity header inste		-level protocol header in the IP payload would see a Shim6 Identity header inste
	ad, and would not perform transport-protocol-based firewalling functions because		ad, and they would not perform transport-protocol-based firewalling functions be
	the firewall's normal processing logic would not look past the Identity header.		cause the firewall's normal processing logic would not look past the Identity he
	</t>		ader.
			The firewall would perform its default action, which would most likely be to dro
			p packets that don't match any processing rule.</t>
	<t>The business issues centered on reducing or removing the ability to sell BGP multihoming service to their own customers, which is often more expens ive than two single-homed connectivity services.</t>		<t>The business issues centered on reducing or removing the ability to sell BGP multihoming service to their own customers, which is often more expens ive than two single-homed connectivity services.</t>
	</section>		</section>
	<section anchor="lessons-learned-5" numbered="true" toc="default">		<section anchor="lessons-learned-5" numbered="true" toc="default">
	<name>Lessons Learned</name>		<name>Lessons Learned</name>
	<t>It is extremely important to take operational concerns into account when a path-aware protocol is making decisions about path selection that may co nflict with existing operational practices and business considerations.</t>		<t>It is extremely important to take operational concerns into account when a Path Aware protocol is making decisions about path selection that may co nflict with existing operational practices and business considerations.</t>
	</section>		</section>
	<section anchor="Addendum-MP-TCP" numbered="true" toc="default">		<section anchor="Addendum-MP-TCP" numbered="true" toc="default">
	<name>Addendum on MultiPath TCP</name>		<name>Addendum on Multipath TCP</name>
	<t>During discussions in the PANRG session at IETF 103 <xref target="P		<t>During discussions in the PANRG session at IETF 103 <xref target="P
	ANRG-103-Min" format="default"/>, Lars Eggert, past Transport Area Director, poi		ANRG-103-Min" format="default"/>, Lars Eggert, past Transport Area Director, poi
	nted out that during charter discussions for the Multipath TCP working group <xr		nted out that during charter discussions for the Multipath TCP Working Group <xr
	ef target="MP-TCP" format="default"/>, operators expressed concerns that custome		ef target="MP-TCP" format="default"/>, operators expressed concerns that custome
	rs could use Multipath TCP to loadshare TCP connections across operators simulta		rs could use Multipath TCP to load-share TCP connections across operators simult
	neously and compare passive performance measurements across network paths in rea		aneously and compare passive performance measurements across network paths in re
	l time, changing the balance of power in those business relationships. Although		al time, changing the balance of power in those business relationships. Although
	the Multipath TCP working group was chartered, this concern could have acted as		the Multipath TCP Working Group was chartered, this concern could have acted as
	an obstacle to deployment.</t>		an obstacle to deployment.</t>
	<t>Operator objections to Shim6 were focused on technical concerns, bu t this concern could have also been an obstacle to Shim6 deployment if the techn ical concerns had been overcome.</t>		<t>Operator objections to Shim6 were focused on technical concerns, bu t this concern could have also been an obstacle to Shim6 deployment if the techn ical concerns had been overcome.</t>
	</section>		</section>
	</section>		</section>
	<section anchor="NSIS" numbered="true" toc="default">		<section anchor="NSIS" numbered="true" toc="default">
	<name>Next Steps in Signaling (NSIS)</name>		<name>Next Steps in Signaling (NSIS)</name>
	<t>The suggested references for Next Steps in Signaling (NSIS) are:</t>		<t>The suggested references for Next Steps in Signaling (NSIS) are:</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>the concluded working group charter <xref target="NSIS-CHARTER-200 1" format="default"/></li>		<li>the concluded working group charter <xref target="NSIS-CHARTER-200 1" format="default"/></li>
	<li>GIST: General Internet Signalling Transport <xref target="RFC5971"		<li>"<xref target="RFC5971" format="title"/>" <xref target="RFC5971" f
	format="default"/></li>		ormat="default"/></li>
	<li>NAT/Firewall NSIS Signaling Layer Protocol (NSLP) <xref target="RF		<li>"<xref target="RFC5973" format="title"/>" <xref target="RFC5973" f
	C5973" format="default"/></li>		ormat="default"/></li>
	<li>NSIS Signaling Layer Protocol (NSLP) for Quality-of-Service Signal		<li>"<xref target="RFC5974" format="title"/>" <xref target="RFC5974" f
	ing <xref target="RFC5974" format="default"/></li>		ormat="default"/></li>
	<li>Authorization for NSIS Signaling Layer Protocols <xref target="RFC		<li>"<xref target="RFC5981" format="title"/>" <xref target="RFC5981" f
	5981" format="default"/></li>		ormat="default"/></li>
	</ul>		</ul>
	<t>The NSIS Working Group worked on signaling techniques for network lay		<t>The NSIS Working Group worked on signaling techniques for network-lay
	er resources (e.g., QoS resource reservations, Firewall and NAT traversal).</t>		er resources (e.g., QoS resource reservations, Firewall and NAT traversal).</t>
	<t>When RSVP <xref target="RFC2205" format="default"/> was used in deplo		<t>When RSVP <xref target="RFC2205" format="default"/> was used in deplo
	yments, a number of questions came up about its perceived limitations and potent		yments, a number of questions came up about its perceived limitations and potent
	ial missing features. The issues noted in the NSIS Working Group charter <xref t		ial missing features. The issues noted in the NSIS Working Group charter <xref t
	arget="NSIS-CHARTER-2001" format="default"/> include interworking between domain		arget="NSIS-CHARTER-2001" format="default"/> include interworking between domain
	s with different QoS architectures, mobility and roaming for IP interfaces, and		s with different QoS architectures, mobility and roaming for IP interfaces, and
	complexity. Later, the lack of security in RSVP was also recognized (<xref targe		complexity. Later, the lack of security in RSVP was also recognized <xref target
	t="RFC4094" format="default"/>).</t>		="RFC4094" format="default"/>.</t>
	<t>The NSIS Working Group was chartered to tackle those issues and initi		<t>The NSIS Working Group was chartered to tackle those issues and initi
	ally focused on QoS signaling as its primary use case. However, over time a new		ally focused on QoS signaling as its primary use case. However, over time a new
	approach evolved that introduced a modular architecture using application-speci		approach evolved that introduced a modular architecture using two application-sp
	fic signaling protocols (the NSIS Signaling Layer Protocol (NSLP)) on top of a g		ecific signaling protocols: a) the NSIS Signaling Layer Protocol (NSLP) on top o
	eneric signaling transport protocol (the NSIS Transport Layer Protocol (NTLP)).<		f b) a generic
	/t>		signaling transport protocol (the NSIS Transport Layer Protocol (NTLP)).
	<t>The NTLP is defined in <xref target="RFC5971" format="default"/>. Two
	NSLPs are defined: the NSIS Signaling Layer Protocol (NSLP) for Quality-of-Serv		</t>
	ice Signaling <xref target="RFC5974" format="default"/> as well as the NAT/Firew		<t>NTLP is defined in <xref target="RFC5971" format="default"/>. Two typ
	all NSIS Signaling Layer Protocol (NSLP) <xref target="RFC5973" format="default"		es of NSLPs are defined: an NSLP for QoS signaling <xref target="RFC5974" format
	/>.</t>		="default"/> and an NSLP for NATs/firewalls <xref target="RFC5973" format="defau
			lt"/>.</t>
	<section anchor="reasons-for-non-deployment-6" numbered="true" toc="defa ult">		<section anchor="reasons-for-non-deployment-6" numbered="true" toc="defa ult">
	<name>Reasons for Non-deployment</name>		<name>Reasons for Non-deployment</name>
	<t>The obstacles for deployment can be grouped into implementation-rel ated aspects and operational aspects.</t>		<t>The obstacles for deployment can be grouped into implementation-rel ated aspects and operational aspects.</t>
	<ul spacing="normal">
	<li>Implementation-related aspects:</li>		<ul spacing="normal">
	</ul>		<li>
			<t>Implementation-related aspects:</t>
	<t>Although NSIS provides benefits		<t>Although NSIS provides benefits
	with respect to flexibility, mobility, and security compared to		with respect to flexibility, mobility, and security compared to
	other network signaling techniques, hardware vendors were reluctant		other network signaling techniques, hardware vendors were reluctant
	to deploy this solution, because it would require additional		to deploy this solution, because it would require additional
	implementation effort and would result in additional complexity for		implementation effort and would result in additional complexity for
	router implementations.</t>		router implementations.</t>
	<t>The NTLP mainly operates as path-coupled signaling protocol, i.e,		<t>NTLP mainly operates as a path-coupled signaling protocol, i.e.,
	its messages are processed at the intermediate node's control		its messages are processed at the control plane of each intermediate node th
	plane that are also forwarding the data flows. This requires a		at is
			also forwarding the data flows. This requires a
	mechanism to intercept signaling packets while they are forwarded		mechanism to intercept signaling packets while they are forwarded
	in the same manner (especially along the same path) as data		in the same manner (especially along the same path) as data
	packets. NSIS uses		packets. NSIS uses the
	the IPv4 and IPv6 Router Alert Option (RAO) to allow for		IPv4 and IPv6 Router Alert Option (RAO) to allow for
	interception of those path-coupled signaling messages, and		interception of those path-coupled signaling messages, and
	this technique requires router implementations to correctly		this technique requires router implementations to correctly
	understand and implement the handling of RAOs, e.g., to only		understand and implement the handling of RAOs, e.g., to only
	process packet with RAOs of interest and to leave packets with		process packets with RAOs of interest and to leave packets with
	irrelevant RAOs in the fast forwarding processing path (a		irrelevant RAOs in the fast forwarding processing path (a
	comprehensive discussion of these issues can be found in		comprehensive discussion of these issues can be found in
	<xref target="RFC6398" format="default"/>). The latter was an issue with som e router		<xref target="RFC6398" format="default"/>). The latter was an issue with som e router
	implementations at the time of standardization.</t>		implementations at the time of standardization.</t>
	<t>Another reason is		<t>Another reason is
	that path-coupled signaling protocols that interact with routers		that path-coupled signaling protocols that interact with routers
	and request manipulation of state at these routers (or any		and request manipulation of state at these routers (or any
	other network element in general) are under scrutiny: a packet (or		other network element in general) are under scrutiny: a packet (or
	sequence of packets) out of the mainly untrusted data path is		sequence of packets) out of the mainly untrusted data path is
	requesting creation and manipulation of network state. This is		requesting creation and manipulation of network state. This is
	seen as potentially dangerous (e.g., opens up a Denial of Service (DoS) thre at to a		seen as potentially dangerous (e.g., opens up a DoS threat to a
	router's control plane) and difficult for an operator to control.		router's control plane) and difficult for an operator to control.
	Path-coupled signaling approaches were considered problematic (see also sect ion 3 of <xref target="RFC6398" format="default"/>). There are		Path-coupled signaling approaches were considered problematic (see also <xre f target="RFC6398" sectionFormat="of" section="3"/>). There are
	recommendations on how to secure NSIS nodes and		recommendations on how to secure NSIS nodes and
	deployments (e.g., <xref target="RFC5981" format="default"/>).</t>		deployments (e.g., <xref target="RFC5981" format="default"/>).</t>
	<ul spacing="normal">		</li>
	<li>Operational Aspects:</li>		</ul>
	</ul>		<ul spacing="normal">
	<t>NSIS not only		<li>
			<t>Operational Aspects:</t>
			<t>NSIS not only
	required trust between customers and their provider, but also among		required trust between customers and their provider, but also among
	different providers. Especially, QoS signaling techniques would		different providers. In particular, QoS signaling techniques would
	require some kind of dynamic service level agreement support that		require some kind of dynamic SLA support that
	would imply (potentially quite complex) bilateral negotiations		would imply (potentially quite complex) bilateral negotiations
	between different Internet service providers. This complexity was		between different Internet Service Providers. This complexity was
	not considered to be justified and increasing the		not considered to be justified, and increasing the
	bandwidth (and thus avoiding bottlenecks) was		bandwidth (and thus avoiding bottlenecks) was
	cheaper than actively managing network resource bottlenecks by		cheaper than actively managing network resource bottlenecks by
	using path-coupled QoS signaling techniques. Furthermore, an		using path-coupled QoS signaling techniques. Furthermore, an
	end-to-end path typically involves several provider domains and		end-to-end path typically involves several provider domains, and
	these providers need to closely cooperate in cases of failures.</t>		these providers need to closely cooperate in cases of failures.</t>
			</li>
			</ul>
	</section>		</section>
	<section anchor="lessons-learned-6" numbered="true" toc="default">		<section anchor="lessons-learned-6" numbered="true" toc="default">
	<name>Lessons Learned</name>		<name>Lessons Learned</name>
	<t>One goal of NSIS was to decrease the complexity of the signaling		<t>One goal of NSIS was to decrease the complexity of the signaling
	protocol, but a path-coupled signaling protocol comes with the		protocol, but a path-coupled signaling protocol comes with the
	intrinsic complexity of IP-based networks, beyond the complexity of the		intrinsic complexity of IP-based networks, beyond the complexity of the
	signaling protocol itself. Sources of intrinsic complexity include:</t>		signaling protocol itself. Sources of intrinsic complexity include:</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>the presence of asymmetric routes between endpoints and routers<		<li>the presence of asymmetric routes between endpoints and routers.
	/li>		</li>
	<li>the lack of security and trust at large in the Internet infrastr		<li>the lack of security and trust at large in the Internet infrastr
	ucture</li>		ucture.</li>
	<li>the presence of different trust boundaries</li>		<li>the presence of different trust boundaries.</li>
	<li>the effects of best-effort networks (e.g., robustness to packet		<li>the effects of best-effort networks (e.g., robustness to packet
	loss)</li>		loss).</li>
	<li>divergence from the fate sharing principle (e.g., state within t		<li>divergence from the fate-sharing principle (e.g., state within t
	he network).</li>		he network).</li>
	</ul>		</ul>
	<t>Any path-coupled signaling protocol has to deal with these realitie s.</t>		<t>Any path-coupled signaling protocol has to deal with these realitie s.</t>
	<t>Operators view the use of IPv4 and IPv6 Router Alert Option (RAO) t o signal routers along the path from end systems with suspicion, because these e nd systems are usually not authenticated and heavy use of RAOs can easily increa se the CPU load on routers that are designed to process most packets using a har dware "fast path" and diverting packets containing RAO to a slower, more capable processor.</t>		<t>Operators view the use of IPv4 and IPv6 Router Alert Options (RAOs) to signal routers along the path from end systems with suspicion, because these end systems are usually not authenticated and heavy use of RAOs can easily incr ease the CPU load on routers that are designed to process most packets using a h ardware "fast path" and diverting packets containing RAOs to a slower, more capa ble processor.</t>
	</section>		</section>
	</section>		</section>
	<section anchor="FL" numbered="true" toc="default">		<section anchor="FL" numbered="true" toc="default">
	<name>IPv6 Flow Label</name>		<name>IPv6 Flow Labels</name>
	<t>The suggested references for IPv6 Flow Label are:</t>		<t>The suggested reference for IPv6 Flow Labels is:</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>IPv6 Flow Label Specification <xref target="RFC6437" format="defau lt"/></li>		<li>"<xref target="RFC6437" format="title"/>" <xref target="RFC6437" for mat="default"/></li>
	</ul>		</ul>
	<t>IPv6 specifies a 20-bit field Flow Label field <xref target="RFC6437"		<t>IPv6 specifies a 20-bit Flow Label field <xref target="RFC6437" forma
	format="default"/>, included in the fixed part of the IPv6 header and hence pre		t="default"/>, included in the fixed part of the IPv6 header and hence present i
	sent in every IPv6 packet. An endpoint sets the value in this field to one of a		n every IPv6 packet. An endpoint sets the value in this field to one of a set o
	set of pseudo-randomly assigned values. If a packet is not part of any flow, th		f pseudorandomly assigned values. If a packet is not part of any flow, the flow
	e flow label value is set to zero <xref target="RFC3697" format="default"/>. A n		label value is set to zero <xref target="RFC3697" format="default"/>. A number o
	umber of Standards Track and Best Current Practice RFCs (e.g., <xref target="RFC		f Standards Track and Best Current Practice RFCs (e.g., <xref target="RFC8085" f
	8085" format="default"/>, <xref target="RFC6437" format="default"/>, <xref targe		ormat="default"/>, <xref target="RFC6437" format="default"/>, <xref target="RFC6
	t="RFC6438" format="default"/>) encourage IPv6 endpoints to set a non-zero value		438" format="default"/>) encourage IPv6 endpoints to set a non-zero value in thi
	in this field. A multiplexing transport could choose to use multiple flow labe		s field. A multiplexing transport could choose to use multiple flow labels to al
	ls to allow the network to independently forward its subflows, or to use one com		low the network to either independently forward its subflows or use one common v
	mon value for the traffic aggregate. The flow label is present in all fragments		alue for the traffic aggregate. The flow label is present in all fragments. IPse
	. IPsec was originally put forward as one important use-case for this mechanism		c was originally put forward as one important use case for this mechanism and do
	and does encrypt the field <xref target="RFC6438" format="default"/>.</t>		es encrypt the field <xref target="RFC6438" format="default"/>.</t>
	<t>Once set, the flow label can provide information that can help inform		<t>Once set, the flow label can provide information that can help inform
	network nodes about subflows present at the transport layer, without needing to		network nodes about subflows present at the transport layer, without needing to
	interpret the setting of upper layer protocol fields <xref target="RFC6294" for		interpret the setting of upper-layer protocol fields <xref target="RFC6294" for
	mat="default"/>. This information can also be used to coordinate how aggregates		mat="default"/>. This information can also be used to coordinate how aggregates
	of transport subflows are grouped when queued in the network and to select appr		of transport subflows are grouped when queued in the network and to select appr
	opriate per-flow forwarding when choosing between alternate paths <xref target="		opriate per-flow forwarding when choosing between alternate paths <xref target="
	RFC6438" format="default"/> (e.g. for Equal Cost Multipath Routing (ECMP) and Li		RFC6438" format="default"/> (e.g., for Equal-Cost Multipath (ECMP) routing and L
	nk Aggregation (LAG)).</t>		ink Aggregation Groups (LAGs)).</t>
	<section anchor="reasons-for-non-deployment-7" numbered="true" toc="defa ult">		<section anchor="reasons-for-non-deployment-7" numbered="true" toc="defa ult">
	<name>Reasons for Non-deployment</name>		<name>Reasons for Non-deployment</name>
	<t>Despite the field being present in every IPv6 packet, the mechanism did not receive as much use as originally envisioned. One reason is that to be useful it requires engagement by two different stakeholders:</t>		<t>Despite the field being present in every IPv6 packet, the mechanism did not receive as much use as originally envisioned. One reason is that to be useful it requires engagement by two different stakeholders:</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>Endpoint Implementation:</li>		<li>
	</ul>		<t>Endpoint Implementation:</t>
	<t>For network nodes along a path to utilize the flow label there need		<t>For network nodes along a path to utilize the flow label, there nee
	s to be a non-zero value inserted in the field <xref target="RFC6437" format="de		ds to be a non-zero value inserted in the field <xref target="RFC6437" format="d
	fault"/> at the sending endpoint.		efault"/> at the sending endpoint.
	There needs to be an incentive for an endpoint to set an appropriate non-zero va lue.		There needs to be an incentive for an endpoint to set an appropriate non-zero va lue.
	The value should appropriately reflect the level of aggregation the traffic expe		The value should appropriately reflect the level of aggregation the traffic expe
	cts to be provided by the network. However, this requires the stack to know gra		cts to be provided by the network. However, this requires the stack to know gra
	nularity at which flows should be identified (or conversely which flows should r		nularity at which flows should be identified (or, conversely, which flows should
	eceive aggregated treatment), i.e., which packets carry the same flow label. The		receive aggregated treatment), i.e., which packets carry the same flow label. T
	refore, setting a non-zero value may result in additional choices that need to b		herefore, setting a non-zero value may result in additional choices that need to
	e made by an application developer.</t>		be made by an application developer.</t>
	<t>Although the standard <xref target="RFC3697" format="default"/> for		<t>Although the original flow label standard <xref target="RFC3697" fo
	bids any encoding of meaning into the flow label value, the opportunity to use t		rmat="default"/> forbids any encoding of meaning into the flow label value, the
	he flow label as a covert channel or to signal other meta-information may have r		opportunity to use the flow label as a covert channel or to signal other meta-in
	aised concerns about setting a non-zero value <xref target="RFC6437" format="def		formation may have raised concerns about setting a non-zero value <xref target="
	ault"/>.</t>		RFC6437" format="default"/>.</t>
	<t>Before methods are widely deployed to use this method, there could be no incentive for an endpoint to set the field.</t>		<t>Before methods are widely deployed to use this method, there could be no incentive for an endpoint to set the field.</t>
			</li>
			</ul>
	<ul spacing="normal">		<ul spacing="normal">
	<li>Operational support in network nodes:</li>		<li>
	</ul>		<t>Operational support in network nodes:</t>
	<t>A benefit can only be realized when a network node along the path a		<t>A benefit can only be realized when a network node along the path a
	lso uses this information to inform its decisions. Network equipment (routers a		lso uses this information to inform its decisions. Network equipment (routers an
	nd/or middleboxes) need to include appropriate support so they can utilize the f		d/or middleboxes) need to include appropriate support in order to utilize the fi
	ield when making decisions about how to classify flows, or to inform forwarding		eld when making decisions about how to classify flows or forward packets. The us
	choices. Use of any optional feature in a network node also requires correspondi		e of any optional feature in a network node also requires corresponding updates
	ng updates to operational procedures, and therefore is normally only introduced		to operational procedures and therefore is normally only introduced when the cos
	when the cost can be justified.</t>		t can be justified.</t>
	<t>A benefit from utilizing the flow label is expected to be increased		<t>A benefit from utilizing the flow label is expected to be increased
	quality of experience for applications - but this comes at some operational cos		quality of experience for applications -- but this comes at some operational co
	t to an operator, and requires endpoints to set the field.</t>		st to an operator and requires endpoints to set the field.</t>
			</li>
			</ul>
	</section>		</section>
	<section anchor="lessons-learned-7" numbered="true" toc="default">		<section anchor="lessons-learned-7" numbered="true" toc="default">
	<name>Lessons Learned</name>		<name>Lessons Learned</name>
	<t>The flow label is a general purpose header field for use by the pat		<t>The flow label is a general-purpose header field for use by the pat
	h. Multiple uses have been proposed. One candidate use was to reduce the comple		h. Multiple uses have been proposed. One candidate use was to reduce the comple
	xity of forwarding decisions. However, modern routers can use a "fast path", of		xity of forwarding decisions. However, modern routers can use a "fast path", of
	ten taking advantage of hardware to accelerate processing. The method can assist		ten taking advantage of hardware to accelerate processing. The method can assist
	in more complex forwarding, such as ECMP and load balancing.</t>		in more complex forwarding, such as ECMP routing and load balancing.</t>
	<t>Although <xref target="RFC6437" format="default"/> recommended that		<t>Although <xref target="RFC6437" format="default"/> recommended that
	endpoints should by default choose uniformly-distributed labels for their traff		endpoints should by default choose uniformly distributed labels for their traff
	ic, the specification permitted an endpoint to choose to set a zero value. This		ic, the specification permitted an endpoint to choose to set a zero value. This
	ability of endpoints to choose to set a flow label of zero has had consequences		ability of endpoints to choose to set a flow label of zero has had consequences
	on deployability:</t>		on deployability:</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>Before wide-scale support by endpoints, it would be impossible t o rely on a non-zero flow label being set. Network nodes therefore would need to also employ other techniques to realize equivalent functions. An example of a m ethod is one assuming semantics of the source port field to provide entropy inpu t to a network-layer hash. This use of a 5-tuple to classify a packet represents a layering violation <xref target="RFC6294" format="default"/>. When other meth ods have been deployed, they increase the cost of deploying standards-based meth ods, even though they may offer less control to endpoints and result in potenti al interaction with other uses/interpretation of the field.</li>		<li>Before wide-scale support by endpoints, it would be impossible t o rely on a non-zero flow label being set. Network nodes therefore would need to also employ other techniques to realize equivalent functions. An example of a m ethod is one assuming semantics of the source port field to provide entropy inpu t to a network-layer hash. This use of a 5-tuple to classify a packet represents a layering violation <xref target="RFC6294" format="default"/>. When other meth ods have been deployed, they increase the cost of deploying standards-based meth ods, even though they may offer less control to endpoints and result in potenti al interaction with other uses/interpretation of the field.</li>
	<li>Even though the flow label is specified as an end-to-end field, some network paths have been observed to not transparently forward the flow labe l. This could result from non-conformant equipment, or could indicate that some operational networks have chosen to re-use the protocol field for other (e.g. in ternal purposes). This results in lack of transparency, and a deployment hurdle to endpoints expecting that they can set a flow label that is utilized by the ne twork. The more recent practice of "greasing" <xref target="GREASE" format="def ault"/> would suggest that a different outcome could have been achieved if endpo ints were always required to set a non-zero value.</li>		<li>Even though the flow label is specified as an end-to-end field, some network paths have been observed to not transparently forward the flow labe l. This could result from non-conformant equipment or could indicate that some o perational networks have chosen to reuse the protocol field for other (e.g., int ernal) purposes. This results in lack of transparency, and a deployment hurdle t o endpoints expecting that they can set a flow label that is utilized by the net work. The more recent practice of "greasing" <xref target="I-D.iab-use-it-or-lo se-it" format="default"/> would suggest that a different outcome could have been achieved if endpoints were always required to set a non-zero value.</li>
	<li>		<li>
	<xref target="RFC1809" format="default"/> noted that setting the c hoice of the flow label value can depend on the expectations of the traffic gene rated by an application, which suggests an API should be presented to control th e setting or policy that is used. However, many currently available APIs do not have this support.</li>		<xref target="RFC1809" format="default"/> noted that setting the c hoice of the flow label value can depend on the expectations of the traffic gene rated by an application, which suggests that an API should be presented to contr ol the setting or policy that is used. However, many currently available APIs do not have this support.</li>
	</ul>		</ul>
	<t>A growth in the use of encrypted transports, (e.g. QUIC <xref targe		<t>A growth in the use of encrypted transports (e.g., QUIC <xref targe
	t="QUIC-WG" format="default"/>) seems likely to raise similar issues to those di		t="RFC9000"/>) seems likely to raise issues similar to those discussed above and
	scussed above and could motivate renewed interest in utilizing the flow label.</		could motivate renewed interest in utilizing the flow label.
	t>		</t>
	</section>		</section>
	</section>		</section>
	<section anchor="ecn" numbered="true" toc="default">		<section anchor="ecn" numbered="true" toc="default">
	<name>Explicit Congestion Notification (ECN)</name>		<name>Explicit Congestion Notification (ECN)</name>
	<t>The suggested references for Explicit Congestion Notification (ECN) a re:</t>		<t>The suggested references for Explicit Congestion Notification (ECN) a re:</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>Recommendations on Queue Management and Congestion Avoidance in th		<li>"<xref target="RFC2309" format="title"/>" <xref target="RFC2309" f
	e Internet <xref target="RFC2309" format="default"/></li>		ormat="default"/></li>
	<li>A Proposal to add Explicit Congestion Notification (ECN) to IP <xr		<li>"<xref target="RFC2481" format="title"/>" <xref target="RFC2481" f
	ef target="RFC2481" format="default"/></li>		ormat="default"/></li>
	<li>The Addition of Explicit Congestion Notification (ECN) to IP <xref		<li>"<xref target="RFC3168" format="title"/>" <xref target="RFC3168" f
	target="RFC3168" format="default"/></li>		ormat="default"/></li>
	<li>Implementation Report on Experiences with Various TCP RFCs <xref t		<li>"Implementation Report on Experiences with Various TCP RFCs" <xref
	arget="vista-impl" format="default"/>, slides 6 and 7</li>		target="vista-impl" format="default"/>, slides 6 and 7</li>
	<li>Implementation and Deployment of ECN <xref target="SallyFloyd" for		<li>"Implementation and Deployment of ECN" (at <xref target="SallyFloy
	mat="default"/></li>		d" format="default"/>)</li>
	</ul>		</ul>
	<t>In the early 1990s, the large majority of Internet traffic used TCP a		<t>In the early 1990s, the large majority of Internet traffic used TCP a
	s its transport protocol, but TCP had no way to detect path congestion before th		s its transport protocol, but TCP had no way to detect path congestion before th
	e path was so congested that packets were being dropped, and these congestion ev		e path was so congested that packets were being dropped. These congestion events
	ents could affect all senders using a path, either by "lockout", where long-live		could affect all senders using a path, either by "lockout", where long-lived fl
	d flows monopolized the queues along a path, or by "full queues", where queues r		ows monopolized the queues along a path, or by "full queues", where queues remai
	emain full, or almost full, for a long period of time.</t>		n full, or almost full, for a long period of time.</t>
	<t>In response to this situation, "Active Queue Management" (AQM) was de		<t>In response to this situation, "Active Queue Management" (AQM) was de
	ployed in the network. A number of AQM disciplines have been deployed, but one c		ployed in the network. A number of AQM disciplines have been deployed, but one c
	ommon approach was that routers dropped packets when a threshold buffer length w		ommon approach was that routers dropped packets when a threshold buffer length w
	as reached, so that transport protocols like TCP that were responsive to loss wo		as reached, so that transport protocols like TCP that were responsive to loss wo
	uld detect this loss and reduce their sending rates. Random Early Detection (RED		uld detect this loss and reduce their sending rates. Random Early Detection (RED
	) was one such proposal in the IETF. As the name suggests, a router using RED as		) was one such proposal in the IETF. As the name suggests, a router using RED as
	its AQM discipline that detected time-averaged queue lengths passing a threshol		its AQM discipline that detected time-averaged queue lengths passing a threshol
	d would choose incoming packets probabilistically to be dropped <xref target="RF		d would choose incoming packets probabilistically to be dropped <xref target="RF
	C2309" format="default"/>.		C2309" format="default"/>.</t>
	In response to this situation, "Active Queue Management" (AQM) was deployed in t		<t>Researchers suggested providing "explicit congestion notifications" t
	he network. A number of AQM disciplines have been deployed, but one common appro		o senders when routers along the path detected that their queues were building,
	ach was that routers dropped packets when a threshold buffer length was reached,		giving senders an opportunity to "slow down" as if a loss had occurred, giving p
	so that transport protocols like TCP that were responsive to loss would detect		ath queues time to drain, while the path still had sufficient buffer capacity to
	this loss and reduce their sending rates. Random Early Detection (RED) was one s		accommodate bursty arrivals of packets from other senders. This was proposed as
	uch proposal in the IETF. As the name suggests, a router using RED as its AQM di		an experiment in <xref target="RFC2481" format="default"/> and standardized in
	scipline that detected time-averaged queue lengths passing a threshold would cho		<xref target="RFC3168" format="default"/>.</t>
	ose incoming packets probabilistically to be dropped <xref target="RFC2309" form
	at="default"/>.</t>
	<t>Researchers suggested that providing "explicit congestion notificatio
	ns" to senders when routers along the path detected their queues were building,
	so that some senders would "slow down" as if a loss had occurred, so that the pa
	th queues had time to drain, and the path still had sufficient buffer capacity t
	o accommodate bursty arrivals of packets from other senders. This was proposed a
	s an Experiment in <xref target="RFC2481" format="default"/>, and standardized i
	n <xref target="RFC3168" format="default"/>.</t>
	<t>A key aspect of ECN was the use of IP header fields rather than IP op tions to carry explicit congestion notifications, since the proponents recognize d that</t>		<t>A key aspect of ECN was the use of IP header fields rather than IP op tions to carry explicit congestion notifications, since the proponents recognize d that</t>
	<ul empty="true" spacing="normal">		<!-- DNE (too short for blockquote) -->
	<li>Many routers process the "regular" headers in IP packets more		<t indent="3">
			Many routers process the "regular" headers in IP packets more
	efficiently than they process the header information in IP		efficiently than they process the header information in IP
	options.</li>		options.</t>
	</ul>		<t>Unlike most of the Path Aware technologies included in this document,
	<t>Unlike most of the Path Aware technologies included in this document,		the story of ECN continues to the present day and encountered a large number of
	the story of ECN continues to the present day, and encountered a large number o		Lessons Learned during that time. The early history of ECN (non-)deployment pro
	f Lessons Learned during that time. The early history of ECN (non-)deployment pr		vides Lessons Learned that were not captured by other contributions in <xref tar
	ovides Lessons Learned that were not captured by other contributions in <xref ta		get="Contributions" format="default"/>, so that is the emphasis in this section
	rget="Contributions" format="default"/>, so that is the emphasis in this section		of the document.</t>
	of the document.</t>
	<section anchor="reasons-for-non-deployment-8" numbered="true" toc="defa ult">		<section anchor="reasons-for-non-deployment-8" numbered="true" toc="defa ult">
	<name>Reasons for Non-deployment</name>		<name>Reasons for Non-deployment</name>
	<t>There are at least three sub-stories - ECN deployment in clients, E		<t>ECN deployment relied on three factors -- support in client impleme
	CN deployment in routers, and AQM deployment in operational networks. All three		ntations, support in router implementations, and deployment decisions in operati
	sub-stories mattered.</t>		onal networks.</t>
	<t>The proponents of ECN did so much right, anticipating many of the L		<t>The proponents of ECN did so much right, anticipating many of the L
	essons Learned now recognized in <xref target="LessonsLearned" format="default"/		essons Learned now recognized in <xref target="LessonsLearned" format="default"/
	>. They recognized the need to support incremental deployment (<xref target="Ear		>. They recognized the need to support incremental deployment (<xref target="Ear
	lyAdopters" format="default"/>). They considered the impact on router throughput		lyAdopters" format="default"/>). They considered the impact on router throughput
	(<xref target="Fast-paths" format="default"/>). They even considered trust issu		(<xref target="Fast-paths" format="default"/>). They even considered trust issu
	es between end nodes and the network, both for non-compliant end nodes (<xref ta		es between end nodes and the network, for both non-compliant end nodes (<xref ta
	rget="IDsTrustingEndpoints" format="default"/>) and non-compliant routers (<xref		rget="IDsTrustingEndpoints" format="default"/>) and non-compliant routers (<xref
	target="EndpointsTrustingIDs" format="default"/>).</t>		target="EndpointsTrustingIDs" format="default"/>).</t>
	<t>They were rewarded with ECN being implemented in major operating sy		<t>They were rewarded with ECN being implemented in major operating sy
	stems, both for end nodes and for routers. A number of implementations are liste		stems, for both end nodes and routers. A number of implementations are listed un
	d under "Implementation and Deployment of ECN" at <xref target="SallyFloyd" form		der "Implementation and Deployment of ECN" at <xref target="SallyFloyd" format="
	at="default"/>.</t>		default"/>.</t>
	<t>What they did not anticipate, was routers that would crash, when th		<t>What they did not anticipate was routers that would crash when they
	ey saw bits 6 and 7 in the IPv4 TOS octet <xref target="RFC0791" format="default		saw bits 6 and 7 in the IPv4 Type of Service (TOS) octet <xref target="RFC0791"
	"/>/IPv6 Traffic Class field <xref target="RFC2460" format="default"/>, which <x		format="default"/> / IPv6 Traffic Class field <xref target="RFC2460" format="de
	ref target="RFC2481" format="default"/> redefined to be "currently unused", bein		fault"/>, which <xref target="RFC2481" format="default"/> redefined to be "Curre
	g set to a non-zero value.</t>		ntly Unused", being set to a non-zero value.</t>
	<t>As described in <xref target="vista-impl" format="default"/>,</t>		<t>As described in <xref target="vista-impl" format="default"/> ("IGD"
	<ul empty="true" spacing="normal">		stands for "Intermediate Gateway Device"),</t>
	<li>Intermediate Gateway Device problem #1: one of the most popular		<!-- DNE -->
	versions from one of the most popular vendors.		<blockquote>
			IGD problem #1: one of the most popular versions from one of the most
			popular vendors.
	When a data packet arrives with either ECT(0) or ECT(1) (indicating successful E CN capability negotiation) indicated, router crashed.		When a data packet arrives with either ECT(0) or ECT(1) (indicating successful E CN capability negotiation) indicated, router crashed.
	Cannot be recovered at TCP layer (sic)</li>		Cannot be recovered at TCP layer [sic]
	</ul>		</blockquote>
	<t>This implementation, which would be run on a significant percentage		<t>This implementation, which would be run on a significant percentage
	of Internet end nodes, was shipped with ECN disabled, as was true for several o		of Internet end nodes, was shipped with ECN disabled, as was true for several o
	f the other implementations listed under "Implementation and Deployment of ECN"		f the other implementations listed under "Implementation and Deployment of ECN"
	at <xref target="SallyFloyd" format="default"/>. Even if subsequent router vendo		at <xref target="SallyFloyd" format="default"/>. Even if subsequent router vendo
	rs fixed these implementations, ECN was still disabled on end nodes, and given t		rs fixed these implementations, ECN was still disabled on end nodes, and given t
	he tradeoff between the benefits of enabling ECN (somewhat better behavior durin		he trade-off between the benefits of enabling ECN (somewhat better behavior duri
	g congestion) and the risks of enabling ECN (possibly crashing a router somewher		ng congestion) and the risks of enabling ECN (possibly crashing a router somewhe
	e along the path), ECN tended to stay disabled on implementations that supported		re along the path), ECN tended to stay disabled on implementations that supporte
	ECN for decades afterwards.</t>		d ECN for decades afterwards.</t>
	</section>		</section>
	<section anchor="lessons-learned-8" numbered="true" toc="default">		<section anchor="lessons-learned-8" numbered="true" toc="default">
	<name>Lessons Learned</name>		<name>Lessons Learned</name>
	<t>Of the contributions included in <xref target="Contributions" forma t="default"/>, ECN may be unique in providing these lessons:</t>		<t>Of the contributions included in <xref target="Contributions" forma t="default"/>, ECN may be unique in providing these lessons:</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>Even if you do everything right, you may trip over implementatio n bugs in devices you know nothing about, that will cause severe problems that p revent successful deployment of your path aware technology.</li>		<li>Even if you do everything right, you may trip over implementatio n bugs in devices you know nothing about, that will cause severe problems that p revent successful deployment of your Path Aware technology.</li>
	<li>After implementations disable your Path Aware technology, it may take years, or even decades, to convince implementers to re-enable it by defaul t.</li>		<li>After implementations disable your Path Aware technology, it may take years, or even decades, to convince implementers to re-enable it by defaul t.</li>
	</ul>		</ul>
	<t>These two lessons, taken together, could be summarized as "you get		<t>These two lessons, taken together, could be summarized as "you get
	one chance to get it right".</t>		one chance to get it right."</t>
	<t>During discussion of ECN at <xref target="PANRG-110" format="defaul		<t>During discussion of ECN at <xref target="PANRG-110" format="defaul
	t"/>, we noted that "you get one chance to get it right" isn't quite correct tod		t"/>, we noted that "you get one chance to get it right" isn't quite correct tod
	ay, because operating systems on so many host systems are frequently updated, an		ay, because operating systems on so many host systems are frequently updated, an
	d transport protocols like QUIC <xref target="I-D.ietf-quic-transport" format="d		d transport protocols like QUIC <xref target="RFC9000" format="default"/> are be
	efault"/> are being implemented in user space, and can be updated without touchi		ing implemented in user space and can be updated without touching installed oper
	ng installed operating systems. Neither of these factors were true in the early		ating systems. Neither of these factors were true in the early 2000s.</t>
	2000s.</t>
	<t>We think that these restatements of the ECN Lessons Learned are mor e useful for current implementers:</t>		<t>We think that these restatements of the ECN Lessons Learned are mor e useful for current implementers:</t>
	<ul spacing="normal">		<ul spacing="normal">
	<li>Even if you do everything right, you may trip over implementatio		<li>Even if you do everything right, you may trip over implementatio
	n bugs in devices you know nothing about, that will cause severe problems that p		n bugs in devices you know nothing about, that will cause severe problems that p
	revent successful deployment of your path aware technology. Testing before deplo		revent successful deployment of your Path Aware technology. Testing before deplo
	yment isn't enough to ensure successful deployment. It is also necessary to "dep		yment isn't enough to ensure successful deployment. It is also necessary to "dep
	loy gently", which often means deploying for a small subset of users to gain exp		loy gently", which often means deploying for a small subset of users to gain exp
	erience, and implementing feedback mechanisms to detect that user experience is		erience and implementing feedback mechanisms to detect that user experience is b
	being degraded.</li>		eing degraded.</li>
	<li>After implementations disable your Path Aware technology, it may		<li>After implementations disable your Path Aware technology, it may
	take years, or even decades, to convince implementers to re-enable it by defaul		take years, or even decades, to convince implementers to re-enable it by defaul
	t. This might be based on the difficulty of distributing implementations that en		t. This might be based on the difficulty of distributing implementations that en
	able it by default, but are just as likely to be based on the "bad taste in the		able it by default, but it is just as likely to be based on the "bad taste in th
	mouth" that implementers have after an unsuccessful deployment attempt that degr		e mouth" that implementers have after an unsuccessful deployment attempt that de
	aded user experience.</li>		graded user experience.</li>
	</ul>		</ul>
	<t>With these expansions, the two lessons, taken together, could be mo re helpfully summarized as "plan for failure" - anticipate what your next step w ill be, if initial deployment is unsuccessful.</t>		<t>With these expansions, the two lessons, taken together, could be mo re helpfully summarized as "plan for failure" -- anticipate what your next step will be, if initial deployment is unsuccessful.</t>
	<t>ECN deployment was also hindered by non-deployment of AQM in many d evices, because of operator interest in QoS features provided in the network, ra ther than using the network to assist end systems in providing for themselves. B ut that's another story, and the AQM Lessons Learned are already covered in othe r contributions in <xref target="Contributions" format="default"/>.</t>		<t>ECN deployment was also hindered by non-deployment of AQM in many d evices, because of operator interest in QoS features provided in the network, ra ther than using the network to assist end systems in providing for themselves. B ut that's another story, and the AQM Lessons Learned are already covered in othe r contributions in <xref target="Contributions" format="default"/>.</t>
	</section>		</section>
	</section>		</section>
	</section>		</section>
	<section anchor="security-considerations" numbered="true" toc="default">		<section anchor="security-considerations" numbered="true" toc="default">
	<name>Security Considerations</name>		<name>Security Considerations</name>
	<t>This document describes Path Aware techniques that were not adopted and widely deployed on the Internet, so it doesn't affect the security of the Inter net.</t>		<t>This document describes Path Aware techniques that were not adopted and widely deployed on the Internet, so it doesn't affect the security of the Inter net.</t>
	<t>If this document meets its goals, we may develop new techniques for Pat h Aware Networking that would affect the security of the Internet, but security considerations for those techniques will be described in the corresponding RFCs that specify them.</t>		<t>If this document meets its goals, we may develop new techniques for Pat h Aware networking that would affect the security of the Internet, but security considerations for those techniques will be described in the corresponding RFCs that specify them.</t>
	</section>		</section>
	<section anchor="iana-considerations" numbered="true" toc="default">		<section anchor="iana-considerations" numbered="true" toc="default">
	<name>IANA Considerations</name>		<name>IANA Considerations</name>
	<t>This document makes no requests of IANA.</t>		<t>This document has no IANA actions.</t>
	</section>
	<section anchor="acknowledgments" numbered="true" toc="default">
	<name>Acknowledgments</name>
	<t>Initial material for <xref target="ST2" format="default"/> on ST2 was p
	rovided by Gorry Fairhurst.</t>
	<t>Initial material for <xref target="IntServ" format="default"/> on IntSe
	rv was provided by Ron Bonica.</t>
	<t>Initial material for <xref target="Quick-Start" format="default"/> on Q
	uick-Start TCP was provided by Michael Scharf, who also provided suggestions to
	improve this section after it was edited.</t>
	<t>Initial material for <xref target="Source-Quench" format="default"/> on
	ICMP Source Quench was provided by Gorry Fairhurst.</t>
	<t>Initial material for <xref target="TRIGTRAN" format="default"/> on Trig
	gers for Transport (TRIGTRAN) was provided by Spencer Dawkins.</t>
	<t><xref target="Shim6" format="default"/> on Shim6 builds on initial mate
	rial describing obstacles provided by Erik Nordmark, with background added by Sp
	encer Dawkins.</t>
	<t>Initial material for <xref target="NSIS" format="default"/> on Next Ste
	ps In Signaling (NSIS) was provided by Roland Bless and Martin Stiemerling.</t>
	<t>Initial material for <xref target="FL" format="default"/> on IPv6 Flow
	Labels was provided by Gorry Fairhurst.</t>
	<t>Initial material for <xref target="ecn" format="default"/> on Explicit
	Congestion Notification was provided by Spencer Dawkins.</t>
	<t>Our thanks to Adrian Farrel, Bob Briscoe, C.M. Heard, David Black, Eric
	Kinnear, Erik Auerswald, Gorry Fairhurst, Jake Holland, Joe Touch, Joeri de Rui
	ter, Kireeti Kompella, Mohamed Boucadair, Roland Bless, Ruediger Geib, Theresa E
	nghardt, and Wes Eddy, who provided review comments on this document as a "work
	in process".</t>
	<t>Mallory Knodel reviewed this document for the Internet Research Steerin
	g Group, and provided many helpful suggestions.</t>
	<t>David Oran also provided helpful comments and text suggestions on this
	document during Internet Research Steering Group balloting. In particular, <xref
	target="Futures" format="default"/> reflects his review.</t>
	<t>Benjamin Kaduk and Rob Wilton provided helpful comments during Internet
	Engineering Steering Group conflict review.</t>
	<t>Special thanks to Adrian Farrel for helping Spencer navigate the twisty
	little passages of Flow Specs and Filter Specs in IntServ, RSVP, MPLS, and BGP.
	They are all alike, except when they are different <xref target="Colossal-Cave"
	format="default"/>.</t>
	</section>		</section>
	</middle>		</middle>
	<back>		<back>
			<displayreference target="I-D.irtf-panrg-questions" to="PANRG-QUESTIONS"/>
			<displayreference target="I-D.irtf-panrg-path-properties" to="PANRG-PATH-PROPERT
			IES"/>
			<displayreference target="I-D.ietf-tsvwg-intserv-multiple-tspec" to="INTSERV-MUL
			TIPLE-TSPEC"/>
			<displayreference target="I-D.arkko-arch-internet-threat-model" to="INTERNET-THR
			EAT-MODEL"/>
			<displayreference target="I-D.farrell-etm" to="FARRELL-ETM"/>
			<displayreference target="I-D.iab-use-it-or-lose-it" to="GREASE"/>
	<references>		<references>
	<name>Informative References</name>		<name>Informative References</name>
	<reference anchor="I-D.irtf-panrg-questions" target="http://www.ietf.org/i
	nternet-drafts/draft-irtf-panrg-questions-08.txt">		<!-- draft-irtf-panrg-questions (I-D Exists) -->
	<front>		<xi:include href="https://datatracker.ietf.org/doc/bibxml3/reference.I-D.irtf-pa
	<title>Current Open Questions in Path Aware Networking</title>		nrg-questions.xml"/>
	<seriesInfo name="Internet-Draft" value="draft-irtf-panrg-questions-08
	"/>		<!-- draft-irtf-panrg-path-properties (I-D Exists) -->
	<author initials="B" surname="Trammell" fullname="Brian Trammell">		<xi:include href="https://datatracker.ietf.org/doc/bibxml3/reference.I-D.irtf-pa
	<organization/>		nrg-path-properties.xml"/>
	</author>
	<date month="December" day="23" year="2020"/>		<!-- draft-ietf-tsvwg-intserv-multiple-tspec (Expired) -->
	<abstract>		<xi:include href="https://datatracker.ietf.org/doc/bibxml3/reference.I-D.ietf-ts
	<t>In contrast to the present Internet architecture, a path-aware in		vwg-intserv-multiple-tspec.xml"/>
	ternetworking architecture has two important properties: it exposes the properti
	es of available Internet paths to endpoints, and provides for endpoints and appl		<!-- draft-arkko-arch-internet-threat-model (Expired) -->
	ications to use these properties to select paths through the Internet for their		<xi:include href="https://datatracker.ietf.org/doc/bibxml3/reference.I-D.arkko-a
	traffic. While this property of "path awareness" already exists in many Interne		rch-internet-threat-model.xml"/>
	t-connected networks within single domains and via administrative interfaces to
	the network layer, a fully path-aware internetwork expands these concepts across		<!-- draft-farrell-etm (Replaced by draft-arkko-farrell-arch-model-t) (Expired)
	layers and across the Internet. This document poses questions in path-aware ne		HOWEVER - draft-farrell-etm is cited by [SAAG-105-Min] (Section 3), so we
	tworking open as of 2021, that must be answered in the design, development, and		have to keep the old listing -->
	deployment of path-aware internetworks. It was originally written to frame disc		<xi:include href="https://datatracker.ietf.org/doc/bibxml3/reference.I-D.farrell
	ussions in the Path Aware Networking proposed Research Group (PANRG), and has be		-etm.xml"/>
	en published to snapshot current thinking in this space.</t>
	</abstract>		<!-- draft-ietf-quic-transport (RFC 9000 / Published May 2021) -->
	</front>		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.9000.
	</reference>		xml"/>
	<reference anchor="I-D.irtf-panrg-path-properties" target="http://www.ietf
	.org/internet-drafts/draft-irtf-panrg-path-properties-01.txt">		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.0791.
	<front>		xml"/>
	<title>A Vocabulary of Path Properties</title>		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.0792.
	<seriesInfo name="Internet-Draft" value="draft-irtf-panrg-path-propert		xml"/>
	ies-01"/>		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.0793.
	<author initials="T" surname="Enghardt" fullname="Theresa Enghardt">		xml"/>
	<organization/>		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.1016.
	</author>		xml"/>
	<author initials="C" surname="Krahenbuhl" fullname="Cyrill Krahenbuhl"		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.1122.
	>		xml"/>
	<organization/>		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.1190.
	</author>		xml"/>
	<date month="September" day="7" year="2020"/>		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.1633.
	<abstract>		xml"/>
	<t>Path properties express information about paths across a network		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.1809.
	and the services provided via such paths. In a path-aware network, path propert		xml"/>
	ies may be fully or partially available to entities such as hosts. This documen		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.1819.
	t defines and categorizes path properties. Furthermore, the document specifies s		xml"/>
	everal path properties which might be useful to hosts or other entities, e.g., f		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.1887.
	or selecting between paths or for invoking some of the provided services.</t>		xml"/>
	</abstract>		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.2001.
	</front>		xml"/>
	</reference>		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.2205.
	<reference anchor="I-D.ietf-tsvwg-intserv-multiple-tspec" target="http://w		xml"/>
	ww.ietf.org/internet-drafts/draft-ietf-tsvwg-intserv-multiple-tspec-02.txt">		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.2210.
	<front>		xml"/>
	<title>Integrated Services (IntServ) Extension to Allow Signaling of M		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.2211.
	ultiple Traffic Specifications and Multiple Flow Specifications in RSVPv1</title		xml"/>
	>		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.2212.
	<seriesInfo name="Internet-Draft" value="draft-ietf-tsvwg-intserv-mult		xml"/>
	iple-tspec-02"/>		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.2215.
	<author initials="J" surname="Polk" fullname="James Polk">		xml"/>
	<organization/>		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.2309.
	</author>		xml"/>
	<author initials="S" surname="Dhesikan" fullname="Subha Dhesikan">		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.2481.
	<organization/>		xml"/>
	</author>		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.2460.
	<date month="February" day="25" year="2013"/>		xml"/>
	<abstract>		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.2475.
	<t>This document defines extensions to Integrated Services (IntServ)		xml"/>
	allowing multiple traffic specifications and multiple flow specifications to b		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.3168.
	e conveyed in the same Resource Reservation Protocol (RSVPv1) reservation messag		xml"/>
	e exchange. This ability helps optimize an agreeable bandwidth through a network		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.3697.
	between endpoints in a single round trip.</t>		xml"/>
	</abstract>		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.4094.
	</front>		xml"/>
	</reference>		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.4443.
	<reference anchor="I-D.arkko-arch-internet-threat-model" target="http://ww		xml"/>
	w.ietf.org/internet-drafts/draft-arkko-arch-internet-threat-model-01.txt">		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.4782.
	<front>		xml"/>
	<title>Changes in the Internet Threat Model</title>		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.5082.
	<seriesInfo name="Internet-Draft" value="draft-arkko-arch-internet-thr		xml"/>
	eat-model-01"/>		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.5218.
	<author initials="J" surname="Arkko" fullname="Jari Arkko">		xml"/>
	<organization/>		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.5533.
	</author>		xml"/>
	<date month="July" day="8" year="2019"/>		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.5575.
	<abstract>		xml"/>
	<t>Communications security has been at the center of many security i		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.5681.
	mprovements in the Internet. The goal has been to ensure that communications ar		xml"/>
	e protected against outside observers and attackers. This memo suggests that th		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.5971.
	e existing threat model, while important and still valid, is no longer alone suf		xml"/>
	ficient to cater for the pressing security issues in the Internet. For instance		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.5973.
	, it is also necessary to protect systems against endpoints that are compromised		xml"/>
	, malicious, or whose interests simply do not align with the interests of the us		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.5974.
	ers. While such protection is difficult, there are some measures that can be ta		xml"/>
	ken. It is particularly important to ensure that as we continue to develop Inte		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.5981.
	rnet technology, non-communications security related threats are properly unders		xml"/>
	tood. While the consideration of these issues is relatively new in the IETF, th		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.6294.
	is memo provides some initial ideas about potential broader threat models to con		xml"/>
	sider when designing protocols for the Internet or when trying to defend against		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.6398.
	pervasive monitoring. Further down the road, updated threat models could resul		xml"/>
	t in changes in RFC 3552 (guidelines for writing security considerations) and RF		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.6437.
	C 7258 (pervasive monitoring), to include proper consideration of non-communicat		xml"/>
	ions security threats. It may also be necessary to have dedicated guidance on h		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.6438.
	ow systems design and architecture affects security.</t>		xml"/>
	</abstract>		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.6633.
	</front>		xml"/>
	</reference>		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.6928.
	<reference anchor="I-D.farrell-etm" target="http://www.ietf.org/internet-d		xml"/>
	rafts/draft-farrell-etm-03.txt">		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.7305.
	<front>		xml"/>
	<title>We're gonna need a bigger threat model</title>		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.7418.
	<seriesInfo name="Internet-Draft" value="draft-farrell-etm-03"/>		xml"/>
	<author initials="S" surname="Farrell" fullname="Stephen Farrell">		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.8085.
	<organization/>		xml"/>
	</author>		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.8170.
	<date month="July" day="6" year="2019"/>		xml"/>
	<abstract>		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.8655.
	<t>We argue that an expanded threat model is needed for Internet pro		xml"/>
	tocol development as protocol endpoints can no longer be considered to be genera		<xi:include href="https://xml2rfc.ietf.org/public/rfc/bibxml/reference.RFC.8793.
	lly trustworthy for any general definition of "trustworthy."</t>		xml"/>
	</abstract>
	</front>
	</reference>
	<reference anchor="I-D.ietf-quic-transport" target="http://www.ietf.org/in
	ternet-drafts/draft-ietf-quic-transport-34.txt">
	<front>
	<title>QUIC: A UDP-Based Multiplexed and Secure Transport</title>
	<seriesInfo name="Internet-Draft" value="draft-ietf-quic-transport-34"
	/>
	<author initials="J" surname="Iyengar" fullname="Jana Iyengar">
	<organization/>
	</author>
	<author initials="M" surname="Thomson" fullname="Martin Thomson">
	<organization/>
	</author>
	<date month="January" day="14" year="2021"/>
	<abstract>
	<t>This document defines the core of the QUIC transport protocol. Q
	UIC provides applications with flow-controlled streams for structured communicat
	ion, low-latency connection establishment, and network path migration. QUIC inc
	ludes security measures that ensure confidentiality, integrity, and availability
	in a range of deployment circumstances. Accompanying documents describe the in
	tegration of TLS for key negotiation, loss detection, and an exemplary congestio
	n control algorithm. DO NOT DEPLOY THIS VERSION OF QUIC DO NOT DEPLOY THIS VER
	SION OF QUIC UNTIL IT IS IN AN RFC. This version is still a work in progress.
	For trial deployments, please use earlier versions. Note to Readers Discussion
	of this draft takes place on the QUIC working group mailing list (quic@ietf.org
	(mailto:quic@ietf.org)), which is archived at https://mailarchive.ietf.org/arch
	/search/?email_list=quic Working Group information can be found at https://gith
	ub.com/quicwg; source code and issues list for this draft can be found at https:
	//github.com/quicwg/base-drafts/labels/-transport.</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC0791" target="https://www.rfc-editor.org/info/rfc791
	">
	<front>
	<title>Internet Protocol</title>
	<seriesInfo name="DOI" value="10.17487/RFC0791"/>
	<seriesInfo name="RFC" value="791"/>
	<seriesInfo name="STD" value="5"/>
	<author initials="J." surname="Postel" fullname="J. Postel">
	<organization/>
	</author>
	<date year="1981" month="September"/>
	</front>
	</reference>
	<reference anchor="RFC0792" target="https://www.rfc-editor.org/info/rfc792
	">
	<front>
	<title>Internet Control Message Protocol</title>
	<seriesInfo name="DOI" value="10.17487/RFC0792"/>
	<seriesInfo name="RFC" value="792"/>
	<seriesInfo name="STD" value="5"/>
	<author initials="J." surname="Postel" fullname="J. Postel">
	<organization/>
	</author>
	<date year="1981" month="September"/>
	</front>
	</reference>
	<reference anchor="RFC0793" target="https://www.rfc-editor.org/info/rfc793
	">
	<front>
	<title>Transmission Control Protocol</title>
	<seriesInfo name="DOI" value="10.17487/RFC0793"/>
	<seriesInfo name="RFC" value="793"/>
	<seriesInfo name="STD" value="7"/>
	<author initials="J." surname="Postel" fullname="J. Postel">
	<organization/>
	</author>
	<date year="1981" month="September"/>
	</front>
	</reference>
	<reference anchor="RFC1016" target="https://www.rfc-editor.org/info/rfc101
	6">
	<front>
	<title>Something a Host Could Do with Source Quench: The Source Quench
	Introduced Delay (SQuID)</title>
	<seriesInfo name="DOI" value="10.17487/RFC1016"/>
	<seriesInfo name="RFC" value="1016"/>
	<author initials="W." surname="Prue" fullname="W. Prue">
	<organization/>
	</author>
	<author initials="J." surname="Postel" fullname="J. Postel">
	<organization/>
	</author>
	<date year="1987" month="July"/>
	<abstract>
	<t>The memo is intended to explore the issue of what a host could do
	with a source quench. The proposal is for each source host IP module to introd
	uce some delay between datagrams sent to the same destination host. This is a "
	crazy idea paper" and discussion is essential.</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC1122" target="https://www.rfc-editor.org/info/rfc112
	2">
	<front>
	<title>Requirements for Internet Hosts - Communication Layers</title>
	<seriesInfo name="DOI" value="10.17487/RFC1122"/>
	<seriesInfo name="RFC" value="1122"/>
	<seriesInfo name="STD" value="3"/>
	<author initials="R." surname="Braden" fullname="R. Braden" role="edit
	or">
	<organization/>
	</author>
	<date year="1989" month="October"/>
	<abstract>
	<t>This RFC is an official specification for the Internet community.
	It incorporates by reference, amends, corrects, and supplements the primary pr
	otocol standards documents relating to hosts. [STANDARDS-TRACK]</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC1190" target="https://www.rfc-editor.org/info/rfc119
	0">
	<front>
	<title>Experimental Internet Stream Protocol: Version 2 (ST-II)</title
	>
	<seriesInfo name="DOI" value="10.17487/RFC1190"/>
	<seriesInfo name="RFC" value="1190"/>
	<author initials="C." surname="Topolcic" fullname="C. Topolcic">
	<organization/>
	</author>
	<date year="1990" month="October"/>
	<abstract>
	<t>This memo defines a revised version of the Internet Stream Protoc
	ol, originally defined in IEN-119 [8], based on results from experiments with th
	e original version, and subsequent requests, discussion, and suggestions for imp
	rovements. This is a Limited-Use Experimental Protocol. Please refer to the cu
	rrent edition of the "IAB Official Protocol Standards" for the standardization s
	tate and status of this protocol.</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC1633" target="https://www.rfc-editor.org/info/rfc163
	3">
	<front>
	<title>Integrated Services in the Internet Architecture: an Overview</
	title>
	<seriesInfo name="DOI" value="10.17487/RFC1633"/>
	<seriesInfo name="RFC" value="1633"/>
	<author initials="R." surname="Braden" fullname="R. Braden">
	<organization/>
	</author>
	<author initials="D." surname="Clark" fullname="D. Clark">
	<organization/>
	</author>
	<author initials="S." surname="Shenker" fullname="S. Shenker">
	<organization/>
	</author>
	<date year="1994" month="June"/>
	<abstract>
	<t>This memo discusses a proposed extension to the Internet architec
	ture and protocols to provide integrated services, i.e., to support real-time as
	well as the current non-real-time service of IP. This memo provides informatio
	n for the Internet community. This memo does not specify an Internet standard o
	f any kind.</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC1809" target="https://www.rfc-editor.org/info/rfc180
	9">
	<front>
	<title>Using the Flow Label Field in IPv6</title>
	<seriesInfo name="DOI" value="10.17487/RFC1809"/>
	<seriesInfo name="RFC" value="1809"/>
	<author initials="C." surname="Partridge" fullname="C. Partridge">
	<organization/>
	</author>
	<date year="1995" month="June"/>
	<abstract>
	<t>The purpose of this memo is to distill various opinions and sugge
	stions of the End-to-End Research Group regarding the handling of Flow Labels in
	to a set of suggestions for IPv6. This memo provides information for the Intern
	et community. This memo does not specify an Internet standard of any kind.</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC1819" target="https://www.rfc-editor.org/info/rfc181
	9">
	<front>
	<title>Internet Stream Protocol Version 2 (ST2) Protocol Specification
	- Version ST2+</title>
	<seriesInfo name="DOI" value="10.17487/RFC1819"/>
	<seriesInfo name="RFC" value="1819"/>
	<author initials="L." surname="Delgrossi" fullname="L. Delgrossi" role
	="editor">
	<organization/>
	</author>
	<author initials="L." surname="Berger" fullname="L. Berger" role="edit
	or">
	<organization/>
	</author>
	<date year="1995" month="August"/>
	<abstract>
	<t>This memo contains a revised specification of the Internet STream
	Protocol Version 2 (ST2). This memo defines an Experimental Protocol for the I
	nternet community.</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC1887" target="https://www.rfc-editor.org/info/rfc188
	7">
	<front>
	<title>An Architecture for IPv6 Unicast Address Allocation</title>
	<seriesInfo name="DOI" value="10.17487/RFC1887"/>
	<seriesInfo name="RFC" value="1887"/>
	<author initials="Y." surname="Rekhter" fullname="Y. Rekhter" role="ed
	itor">
	<organization/>
	</author>
	<author initials="T." surname="Li" fullname="T. Li" role="editor">
	<organization/>
	</author>
	<date year="1995" month="December"/>
	<abstract>
	<t>This document provides an architecture for allocating IPv6 [1] un
	icast addresses in the Internet. This document provides information for the Int
	ernet community. This memo does not specify an Internet standard of any kind.</
	t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC2001" target="https://www.rfc-editor.org/info/rfc200
	1">
	<front>
	<title>TCP Slow Start, Congestion Avoidance, Fast Retransmit, and Fast
	Recovery Algorithms</title>
	<seriesInfo name="DOI" value="10.17487/RFC2001"/>
	<seriesInfo name="RFC" value="2001"/>
	<author initials="W." surname="Stevens" fullname="W. Stevens">
	<organization/>
	</author>
	<date year="1997" month="January"/>
	<abstract>
	<t>Modern implementations of TCP contain four intertwined algorithms
	that have never been fully documented as Internet standards: slow start, conges
	tion avoidance, fast retransmit, and fast recovery. [STANDARDS-TRACK]</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC2205" target="https://www.rfc-editor.org/info/rfc220
	5">
	<front>
	<title>Resource ReSerVation Protocol (RSVP) -- Version 1 Functional Sp
	ecification</title>
	<seriesInfo name="DOI" value="10.17487/RFC2205"/>
	<seriesInfo name="RFC" value="2205"/>
	<author initials="R." surname="Braden" fullname="R. Braden" role="edit
	or">
	<organization/>
	</author>
	<author initials="L." surname="Zhang" fullname="L. Zhang">
	<organization/>
	</author>
	<author initials="S." surname="Berson" fullname="S. Berson">
	<organization/>
	</author>
	<author initials="S." surname="Herzog" fullname="S. Herzog">
	<organization/>
	</author>
	<author initials="S." surname="Jamin" fullname="S. Jamin">
	<organization/>
	</author>
	<date year="1997" month="September"/>
	<abstract>
	<t>This memo describes version 1 of RSVP, a resource reservation set
	up protocol designed for an integrated services Internet. RSVP provides receive
	r-initiated setup of resource reservations for multicast or unicast data flows,
	with good scaling and robustness properties. [STANDARDS-TRACK]</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC2210" target="https://www.rfc-editor.org/info/rfc221
	0">
	<front>
	<title>The Use of RSVP with IETF Integrated Services</title>
	<seriesInfo name="DOI" value="10.17487/RFC2210"/>
	<seriesInfo name="RFC" value="2210"/>
	<author initials="J." surname="Wroclawski" fullname="J. Wroclawski">
	<organization/>
	</author>
	<date year="1997" month="September"/>
	<abstract>
	<t>This note describes the use of the RSVP resource reservation prot
	ocol with the Controlled-Load and Guaranteed QoS control services. [STANDARDS-TR
	ACK]</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC2211" target="https://www.rfc-editor.org/info/rfc221
	1">
	<front>
	<title>Specification of the Controlled-Load Network Element Service</t
	itle>
	<seriesInfo name="DOI" value="10.17487/RFC2211"/>
	<seriesInfo name="RFC" value="2211"/>
	<author initials="J." surname="Wroclawski" fullname="J. Wroclawski">
	<organization/>
	</author>
	<date year="1997" month="September"/>
	<abstract>
	<t>This memo specifies the network element behavior required to deli
	ver Controlled-Load service in the Internet. [STANDARDS-TRACK]</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC2212" target="https://www.rfc-editor.org/info/rfc221
	2">
	<front>
	<title>Specification of Guaranteed Quality of Service</title>
	<seriesInfo name="DOI" value="10.17487/RFC2212"/>
	<seriesInfo name="RFC" value="2212"/>
	<author initials="S." surname="Shenker" fullname="S. Shenker">
	<organization/>
	</author>
	<author initials="C." surname="Partridge" fullname="C. Partridge">
	<organization/>
	</author>
	<author initials="R." surname="Guerin" fullname="R. Guerin">
	<organization/>
	</author>
	<date year="1997" month="September"/>
	<abstract>
	<t>This memo describes the network element behavior required to deli
	ver a guaranteed service (guaranteed delay and bandwidth) in the Internet. [STAN
	DARDS-TRACK]</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC2215" target="https://www.rfc-editor.org/info/rfc221
	5">
	<front>
	<title>General Characterization Parameters for Integrated Service Netw
	ork Elements</title>
	<seriesInfo name="DOI" value="10.17487/RFC2215"/>
	<seriesInfo name="RFC" value="2215"/>
	<author initials="S." surname="Shenker" fullname="S. Shenker">
	<organization/>
	</author>
	<author initials="J." surname="Wroclawski" fullname="J. Wroclawski">
	<organization/>
	</author>
	<date year="1997" month="September"/>
	<abstract>
	<t>This memo defines a set of general control and characterization p
	arameters for network elements supporting the IETF integrated services QoS contr
	ol framework. [STANDARDS-TRACK]</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC2309" target="https://www.rfc-editor.org/info/rfc230
	9">
	<front>
	<title>Recommendations on Queue Management and Congestion Avoidance in
	the Internet</title>
	<seriesInfo name="DOI" value="10.17487/RFC2309"/>
	<seriesInfo name="RFC" value="2309"/>
	<author initials="B." surname="Braden" fullname="B. Braden">
	<organization/>
	</author>
	<author initials="D." surname="Clark" fullname="D. Clark">
	<organization/>
	</author>
	<author initials="J." surname="Crowcroft" fullname="J. Crowcroft">
	<organization/>
	</author>
	<author initials="B." surname="Davie" fullname="B. Davie">
	<organization/>
	</author>
	<author initials="S." surname="Deering" fullname="S. Deering">
	<organization/>
	</author>
	<author initials="D." surname="Estrin" fullname="D. Estrin">
	<organization/>
	</author>
	<author initials="S." surname="Floyd" fullname="S. Floyd">
	<organization/>
	</author>
	<author initials="V." surname="Jacobson" fullname="V. Jacobson">
	<organization/>
	</author>
	<author initials="G." surname="Minshall" fullname="G. Minshall">
	<organization/>
	</author>
	<author initials="C." surname="Partridge" fullname="C. Partridge">
	<organization/>
	</author>
	<author initials="L." surname="Peterson" fullname="L. Peterson">
	<organization/>
	</author>
	<author initials="K." surname="Ramakrishnan" fullname="K. Ramakrishnan
	">
	<organization/>
	</author>
	<author initials="S." surname="Shenker" fullname="S. Shenker">
	<organization/>
	</author>
	<author initials="J." surname="Wroclawski" fullname="J. Wroclawski">
	<organization/>
	</author>
	<author initials="L." surname="Zhang" fullname="L. Zhang">
	<organization/>
	</author>
	<date year="1998" month="April"/>
	<abstract>
	<t>This memo presents two recommendations to the Internet community
	concerning measures to improve and preserve Internet performance. It presents a
	strong recommendation for testing, standardization, and widespread deployment o
	f active queue management in routers, to improve the performance of today's Inte
	rnet. It also urges a concerted effort of research, measurement, and ultimate d
	eployment of router mechanisms to protect the Internet from flows that are not s
	ufficiently responsive to congestion notification. This memo provides informati
	on for the Internet community. It does not specify an Internet standard of any
	kind.</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC2481" target="https://www.rfc-editor.org/info/rfc248
	1">
	<front>
	<title>A Proposal to add Explicit Congestion Notification (ECN) to IP<
	/title>
	<seriesInfo name="DOI" value="10.17487/RFC2481"/>
	<seriesInfo name="RFC" value="2481"/>
	<author initials="K." surname="Ramakrishnan" fullname="K. Ramakrishnan
	">
	<organization/>
	</author>
	<author initials="S." surname="Floyd" fullname="S. Floyd">
	<organization/>
	</author>
	<date year="1999" month="January"/>
	<abstract>
	<t>This note describes a proposed addition of ECN (Explicit Congesti
	on Notification) to IP. This memo defines an Experimental Protocol for the Inte
	rnet community.</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC2460" target="https://www.rfc-editor.org/info/rfc246
	0">
	<front>
	<title>Internet Protocol, Version 6 (IPv6) Specification</title>
	<seriesInfo name="DOI" value="10.17487/RFC2460"/>
	<seriesInfo name="RFC" value="2460"/>
	<author initials="S." surname="Deering" fullname="S. Deering">
	<organization/>
	</author>
	<author initials="R." surname="Hinden" fullname="R. Hinden">
	<organization/>
	</author>
	<date year="1998" month="December"/>
	<abstract>
	<t>This document specifies version 6 of the Internet Protocol (IPv6)
	, also sometimes referred to as IP Next Generation or IPng. [STANDARDS-TRACK]</
	t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC2475" target="https://www.rfc-editor.org/info/rfc247
	5">
	<front>
	<title>An Architecture for Differentiated Services</title>
	<seriesInfo name="DOI" value="10.17487/RFC2475"/>
	<seriesInfo name="RFC" value="2475"/>
	<author initials="S." surname="Blake" fullname="S. Blake">
	<organization/>
	</author>
	<author initials="D." surname="Black" fullname="D. Black">
	<organization/>
	</author>
	<author initials="M." surname="Carlson" fullname="M. Carlson">
	<organization/>
	</author>
	<author initials="E." surname="Davies" fullname="E. Davies">
	<organization/>
	</author>
	<author initials="Z." surname="Wang" fullname="Z. Wang">
	<organization/>
	</author>
	<author initials="W." surname="Weiss" fullname="W. Weiss">
	<organization/>
	</author>
	<date year="1998" month="December"/>
	<abstract>
	<t>This document defines an architecture for implementing scalable s
	ervice differentiation in the Internet. This memo provides information for the
	Internet community.</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC3168" target="https://www.rfc-editor.org/info/rfc316
	8">
	<front>
	<title>The Addition of Explicit Congestion Notification (ECN) to IP</t
	itle>
	<seriesInfo name="DOI" value="10.17487/RFC3168"/>
	<seriesInfo name="RFC" value="3168"/>
	<author initials="K." surname="Ramakrishnan" fullname="K. Ramakrishnan
	">
	<organization/>
	</author>
	<author initials="S." surname="Floyd" fullname="S. Floyd">
	<organization/>
	</author>
	<author initials="D." surname="Black" fullname="D. Black">
	<organization/>
	</author>
	<date year="2001" month="September"/>
	<abstract>
	<t>This memo specifies the incorporation of ECN (Explicit Congestion
	Notification) to TCP and IP, including ECN's use of two bits in the IP header.
	[STANDARDS-TRACK]</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC3697" target="https://www.rfc-editor.org/info/rfc369
	7">
	<front>
	<title>IPv6 Flow Label Specification</title>
	<seriesInfo name="DOI" value="10.17487/RFC3697"/>
	<seriesInfo name="RFC" value="3697"/>
	<author initials="J." surname="Rajahalme" fullname="J. Rajahalme">
	<organization/>
	</author>
	<author initials="A." surname="Conta" fullname="A. Conta">
	<organization/>
	</author>
	<author initials="B." surname="Carpenter" fullname="B. Carpenter">
	<organization/>
	</author>
	<author initials="S." surname="Deering" fullname="S. Deering">
	<organization/>
	</author>
	<date year="2004" month="March"/>
	<abstract>
	<t>This document specifies the IPv6 Flow Label field and the minimum
	requirements for IPv6 source nodes labeling flows, IPv6 nodes forwarding labele
	d packets, and flow state establishment methods. Even when mentioned as example
	s of possible uses of the flow labeling, more detailed requirements for specific
	use cases are out of scope for this document. The usage of the Flow Label fiel
	d enables efficient IPv6 flow classification based only on IPv6 main header fiel
	ds in fixed positions. [STANDARDS-TRACK]</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC4094" target="https://www.rfc-editor.org/info/rfc409
	4">
	<front>
	<title>Analysis of Existing Quality-of-Service Signaling Protocols</ti
	tle>
	<seriesInfo name="DOI" value="10.17487/RFC4094"/>
	<seriesInfo name="RFC" value="4094"/>
	<author initials="J." surname="Manner" fullname="J. Manner">
	<organization/>
	</author>
	<author initials="X." surname="Fu" fullname="X. Fu">
	<organization/>
	</author>
	<date year="2005" month="May"/>
	<abstract>
	<t>This document reviews some of the existing Quality of Service (Qo
	S) signaling protocols for an IP network. The goal here is to learn from them a
	nd to avoid common misconceptions. Further, we need to avoid mistakes during th
	e design and implementation of any new protocol in this area. This memo provides
	information for the Internet community.</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC4443" target="https://www.rfc-editor.org/info/rfc444
	3">
	<front>
	<title>Internet Control Message Protocol (ICMPv6) for the Internet Pro
	tocol Version 6 (IPv6) Specification</title>
	<seriesInfo name="DOI" value="10.17487/RFC4443"/>
	<seriesInfo name="RFC" value="4443"/>
	<seriesInfo name="STD" value="89"/>
	<author initials="A." surname="Conta" fullname="A. Conta">
	<organization/>
	</author>
	<author initials="S." surname="Deering" fullname="S. Deering">
	<organization/>
	</author>
	<author initials="M." surname="Gupta" fullname="M. Gupta" role="editor
	">
	<organization/>
	</author>
	<date year="2006" month="March"/>
	<abstract>
	<t>This document describes the format of a set of control messages u
	sed in ICMPv6 (Internet Control Message Protocol). ICMPv6 is the Internet Contr
	ol Message Protocol for Internet Protocol version 6 (IPv6). [STANDARDS-TRACK]</
	t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC4782" target="https://www.rfc-editor.org/info/rfc478
	2">
	<front>
	<title>Quick-Start for TCP and IP</title>
	<seriesInfo name="DOI" value="10.17487/RFC4782"/>
	<seriesInfo name="RFC" value="4782"/>
	<author initials="S." surname="Floyd" fullname="S. Floyd">
	<organization/>
	</author>
	<author initials="M." surname="Allman" fullname="M. Allman">
	<organization/>
	</author>
	<author initials="A." surname="Jain" fullname="A. Jain">
	<organization/>
	</author>
	<author initials="P." surname="Sarolahti" fullname="P. Sarolahti">
	<organization/>
	</author>
	<date year="2007" month="January"/>
	<abstract>
	<t>This document specifies an optional Quick-Start mechanism for tra
	nsport protocols, in cooperation with routers, to determine an allowed sending r
	ate at the start and, at times, in the middle of a data transfer (e.g., after an
	idle period). While Quick-Start is designed to be used by a range of transport
	protocols, in this document we only specify its use with TCP. Quick-Start is d
	esigned to allow connections to use higher sending rates when there is significa
	nt unused bandwidth along the path, and the sender and all of the routers along
	the path approve the Quick-Start Request.</t>
	<t>This document describes many paths where Quick-Start Requests wou
	ld not be approved. These paths include all paths containing routers, IP tunnel
	s, MPLS paths, and the like that do not support Quick- Start. These paths also
	include paths with routers or middleboxes that drop packets containing IP option
	s. Quick-Start Requests could be difficult to approve over paths that include m
	ulti-access layer- two networks. This document also describes environments wher
	e the Quick-Start process could fail with false positives, with the sender incor
	rectly assuming that the Quick-Start Request had been approved by all of the rou
	ters along the path. As a result of these concerns, and as a result of the diff
	iculties and seeming absence of motivation for routers, such as core routers to
	deploy Quick-Start, Quick-Start is being proposed as a mechanism that could be o
	f use in controlled environments, and not as a mechanism that would be intended
	or appropriate for ubiquitous deployment in the global Internet. This memo defi
	nes an Experimental Protocol for the Internet community.</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC5082" target="https://www.rfc-editor.org/info/rfc508
	2">
	<front>
	<title>The Generalized TTL Security Mechanism (GTSM)</title>
	<seriesInfo name="DOI" value="10.17487/RFC5082"/>
	<seriesInfo name="RFC" value="5082"/>
	<author initials="V." surname="Gill" fullname="V. Gill">
	<organization/>
	</author>
	<author initials="J." surname="Heasley" fullname="J. Heasley">
	<organization/>
	</author>
	<author initials="D." surname="Meyer" fullname="D. Meyer">
	<organization/>
	</author>
	<author initials="P." surname="Savola" fullname="P. Savola" role="edit
	or">
	<organization/>
	</author>
	<author initials="C." surname="Pignataro" fullname="C. Pignataro">
	<organization/>
	</author>
	<date year="2007" month="October"/>
	<abstract>
	<t>The use of a packet's Time to Live (TTL) (IPv4) or Hop Limit (IPv
	6) to verify whether the packet was originated by an adjacent node on a connecte
	d link has been used in many recent protocols. This document generalizes this t
	echnique. This document obsoletes Experimental RFC 3682. [STANDARDS-TRACK]</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC5218" target="https://www.rfc-editor.org/info/rfc521
	8">
	<front>
	<title>What Makes for a Successful Protocol?</title>
	<seriesInfo name="DOI" value="10.17487/RFC5218"/>
	<seriesInfo name="RFC" value="5218"/>
	<author initials="D." surname="Thaler" fullname="D. Thaler">
	<organization/>
	</author>
	<author initials="B." surname="Aboba" fullname="B. Aboba">
	<organization/>
	</author>
	<date year="2008" month="July"/>
	<abstract>
	<t>The Internet community has specified a large number of protocols
	to date, and these protocols have achieved varying degrees of success. Based on
	case studies, this document attempts to ascertain factors that contribute to or
	hinder a protocol's success. It is hoped that these observations can serve as g
	uidance for future protocol work. This memo provides information for the Inter
	net community.</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC5533" target="https://www.rfc-editor.org/info/rfc553
	3">
	<front>
	<title>Shim6: Level 3 Multihoming Shim Protocol for IPv6</title>
	<seriesInfo name="DOI" value="10.17487/RFC5533"/>
	<seriesInfo name="RFC" value="5533"/>
	<author initials="E." surname="Nordmark" fullname="E. Nordmark">
	<organization/>
	</author>
	<author initials="M." surname="Bagnulo" fullname="M. Bagnulo">
	<organization/>
	</author>
	<date year="2009" month="June"/>
	<abstract>
	<t>This document defines the Shim6 protocol, a layer 3 shim for prov
	iding locator agility below the transport protocols, so that multihoming can be
	provided for IPv6 with failover and load-sharing properties, without assuming th
	at a multihomed site will have a provider-independent IPv6 address prefix announ
	ced in the global IPv6 routing table. The hosts in a site that has multiple pro
	vider- allocated IPv6 address prefixes will use the Shim6 protocol specified in
	this document to set up state with peer hosts so that the state can later be use
	d to failover to a different locator pair, should the original one stop working.
	[STANDARDS-TRACK]</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC5575" target="https://www.rfc-editor.org/info/rfc557
	5">
	<front>
	<title>Dissemination of Flow Specification Rules</title>
	<seriesInfo name="DOI" value="10.17487/RFC5575"/>
	<seriesInfo name="RFC" value="5575"/>
	<author initials="P." surname="Marques" fullname="P. Marques">
	<organization/>
	</author>
	<author initials="N." surname="Sheth" fullname="N. Sheth">
	<organization/>
	</author>
	<author initials="R." surname="Raszuk" fullname="R. Raszuk">
	<organization/>
	</author>
	<author initials="B." surname="Greene" fullname="B. Greene">
	<organization/>
	</author>
	<author initials="J." surname="Mauch" fullname="J. Mauch">
	<organization/>
	</author>
	<author initials="D." surname="McPherson" fullname="D. McPherson">
	<organization/>
	</author>
	<date year="2009" month="August"/>
	<abstract>
	<t>This document defines a new Border Gateway Protocol Network Layer
	Reachability Information (BGP NLRI) encoding format that can be used to distrib
	ute traffic flow specifications. This allows the routing system to propagate in
	formation regarding more specific components of the traffic aggregate defined by
	an IP destination prefix.</t>
	<t>Additionally, it defines two applications of that encoding format
	: one that can be used to automate inter-domain coordination of traffic filterin
	g, such as what is required in order to mitigate (distributed) denial-of-service
	attacks, and a second application to provide traffic filtering in the context o
	f a BGP/MPLS VPN service.</t>
	<t>The information is carried via the BGP, thereby reusing protocol
	algorithms, operational experience, and administrative processes such as inter-p
	rovider peering agreements. [STANDARDS-TRACK]</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC5681" target="https://www.rfc-editor.org/info/rfc568
	1">
	<front>
	<title>TCP Congestion Control</title>
	<seriesInfo name="DOI" value="10.17487/RFC5681"/>
	<seriesInfo name="RFC" value="5681"/>
	<author initials="M." surname="Allman" fullname="M. Allman">
	<organization/>
	</author>
	<author initials="V." surname="Paxson" fullname="V. Paxson">
	<organization/>
	</author>
	<author initials="E." surname="Blanton" fullname="E. Blanton">
	<organization/>
	</author>
	<date year="2009" month="September"/>
	<abstract>
	<t>This document defines TCP's four intertwined congestion control a
	lgorithms: slow start, congestion avoidance, fast retransmit, and fast recovery.
	In addition, the document specifies how TCP should begin transmission after a
	relatively long idle period, as well as discussing various acknowledgment genera
	tion methods. This document obsoletes RFC 2581. [STANDARDS-TRACK]</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC5971" target="https://www.rfc-editor.org/info/rfc597
	1">
	<front>
	<title>GIST: General Internet Signalling Transport</title>
	<seriesInfo name="DOI" value="10.17487/RFC5971"/>
	<seriesInfo name="RFC" value="5971"/>
	<author initials="H." surname="Schulzrinne" fullname="H. Schulzrinne">
	<organization/>
	</author>
	<author initials="R." surname="Hancock" fullname="R. Hancock">
	<organization/>
	</author>
	<date year="2010" month="October"/>
	<abstract>
	<t>This document specifies protocol stacks for the routing and trans
	port of per-flow signalling messages along the path taken by that flow through t
	he network. The design uses existing transport and security protocols under a c
	ommon messaging layer, the General Internet Signalling Transport (GIST), which p
	rovides a common service for diverse signalling applications. GIST does not han
	dle signalling application state itself, but manages its own internal state and
	the configuration of the underlying transport and security protocols to enable t
	he transfer of messages in both directions along the flow path. The combination
	of GIST and the lower layer transport and security protocols provides a solutio
	n for the base protocol component of the "Next Steps in Signalling" (NSIS) frame
	work. This document defines an Experimental Protocol for the Internet communit
	y.</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC5973" target="https://www.rfc-editor.org/info/rfc597
	3">
	<front>
	<title>NAT/Firewall NSIS Signaling Layer Protocol (NSLP)</title>
	<seriesInfo name="DOI" value="10.17487/RFC5973"/>
	<seriesInfo name="RFC" value="5973"/>
	<author initials="M." surname="Stiemerling" fullname="M. Stiemerling">
	<organization/>
	</author>
	<author initials="H." surname="Tschofenig" fullname="H. Tschofenig">
	<organization/>
	</author>
	<author initials="C." surname="Aoun" fullname="C. Aoun">
	<organization/>
	</author>
	<author initials="E." surname="Davies" fullname="E. Davies">
	<organization/>
	</author>
	<date year="2010" month="October"/>
	<abstract>
	<t>This memo defines the NSIS Signaling Layer Protocol (NSLP) for Ne
	twork Address Translators (NATs) and firewalls. This NSLP allows hosts to signa
	l on the data path for NATs and firewalls to be configured according to the need
	s of the application data flows. For instance, it enables hosts behind NATs to
	obtain a publicly reachable address and hosts behind firewalls to receive data t
	raffic. The overall architecture is given by the framework and requirements def
	ined by the Next Steps in Signaling (NSIS) working group. The network scenarios
	, the protocol itself, and examples for path-coupled signaling are given in this
	memo. This document defines an Experimental Protocol for the Internet communi
	ty.</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC5974" target="https://www.rfc-editor.org/info/rfc597
	4">
	<front>
	<title>NSIS Signaling Layer Protocol (NSLP) for Quality-of-Service Sig
	naling</title>
	<seriesInfo name="DOI" value="10.17487/RFC5974"/>
	<seriesInfo name="RFC" value="5974"/>
	<author initials="J." surname="Manner" fullname="J. Manner">
	<organization/>
	</author>
	<author initials="G." surname="Karagiannis" fullname="G. Karagiannis">
	<organization/>
	</author>
	<author initials="A." surname="McDonald" fullname="A. McDonald">
	<organization/>
	</author>
	<date year="2010" month="October"/>
	<abstract>
	<t>This specification describes the NSIS Signaling Layer Protocol (N
	SLP) for signaling Quality of Service (QoS) reservations in the Internet. It is
	in accordance with the framework and requirements developed in NSIS. Together w
	ith General Internet Signaling Transport (GIST), it provides functionality simil
	ar to RSVP and extends it. The QoS NSLP is independent of the underlying QoS sp
	ecification or architecture and provides support for different reservation model
	s. It is simplified by the elimination of support for multicast flows. This sp
	ecification explains the overall protocol approach, describes the design decisio
	ns made, and provides examples. It specifies object, message formats, and proce
	ssing rules. This document defines an Experimental Protocol for the Internet c
	ommunity.</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC5981" target="https://www.rfc-editor.org/info/rfc598
	1">
	<front>
	<title>Authorization for NSIS Signaling Layer Protocols</title>
	<seriesInfo name="DOI" value="10.17487/RFC5981"/>
	<seriesInfo name="RFC" value="5981"/>
	<author initials="J." surname="Manner" fullname="J. Manner">
	<organization/>
	</author>
	<author initials="M." surname="Stiemerling" fullname="M. Stiemerling">
	<organization/>
	</author>
	<author initials="H." surname="Tschofenig" fullname="H. Tschofenig">
	<organization/>
	</author>
	<author initials="R." surname="Bless" fullname="R. Bless" role="editor
	">
	<organization/>
	</author>
	<date year="2011" month="February"/>
	<abstract>
	<t>Signaling layer protocols specified within the Next Steps in Sign
	aling (NSIS) framework may rely on the General Internet Signaling Transport (GIS
	T) protocol to handle authorization. Still, the signaling layer protocol above
	GIST itself may require separate authorization to be performed when a node recei
	ves a request for a certain kind of service or resources. This document present
	s a generic model and object formats for session authorization within the NSIS s
	ignaling layer protocols. The goal of session authorization is to allow the exc
	hange of information between network elements in order to authorize the use of r
	esources for a service and to coordinate actions between the signaling and trans
	port planes. This document defines an Experimental Protocol for the Internet com
	munity.</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC6294" target="https://www.rfc-editor.org/info/rfc629
	4">
	<front>
	<title>Survey of Proposed Use Cases for the IPv6 Flow Label</title>
	<seriesInfo name="DOI" value="10.17487/RFC6294"/>
	<seriesInfo name="RFC" value="6294"/>
	<author initials="Q." surname="Hu" fullname="Q. Hu">
	<organization/>
	</author>
	<author initials="B." surname="Carpenter" fullname="B. Carpenter">
	<organization/>
	</author>
	<date year="2011" month="June"/>
	<abstract>
	<t>The IPv6 protocol includes a flow label in every packet header, b
	ut this field is not used in practice. This paper describes the flow label stan
	dard and discusses the implementation issues that it raises. It then describes
	various published proposals for using the flow label and shows that most of them
	are inconsistent with the standard. Methods to address this problem are briefl
	y reviewed. We also question whether the standard should be revised. This docu
	ment is not an Internet Standards Track specification; it is published for info
	rmational purposes.</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC6398" target="https://www.rfc-editor.org/info/rfc639
	8">
	<front>
	<title>IP Router Alert Considerations and Usage</title>
	<seriesInfo name="DOI" value="10.17487/RFC6398"/>
	<seriesInfo name="RFC" value="6398"/>
	<seriesInfo name="BCP" value="168"/>
	<author initials="F." surname="Le Faucheur" fullname="F. Le Faucheur"
	role="editor">
	<organization/>
	</author>
	<date year="2011" month="October"/>
	<abstract>
	<t>The IP Router Alert Option is an IP option that alerts transit ro
	uters to more closely examine the contents of an IP packet. The Resource reSerV
	ation Protocol (RSVP), Pragmatic General Multicast (PGM), the Internet Group Man
	agement Protocol (IGMP), Multicast Listener Discovery (MLD), Multicast Router Di
	scovery (MRD), and General Internet Signaling Transport (GIST) are some of the p
	rotocols that make use of the IP Router Alert Option. This document discusses s
	ecurity aspects and usage guidelines around the use of the current IP Router Ale
	rt Option, thereby updating RFC 2113 and RFC 2711. Specifically, it provides rec
	ommendations against using the Router Alert in the end-to-end open Internet and
	identifies controlled environments where protocols depending on Router Alert can
	be used safely. It also provides recommendations about protection approaches f
	or service providers. Finally, it provides brief guidelines for Router Alert im
	plementation on routers. This memo documents an Internet Best Current Practice
	.</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC6437" target="https://www.rfc-editor.org/info/rfc643
	7">
	<front>
	<title>IPv6 Flow Label Specification</title>
	<seriesInfo name="DOI" value="10.17487/RFC6437"/>
	<seriesInfo name="RFC" value="6437"/>
	<author initials="S." surname="Amante" fullname="S. Amante">
	<organization/>
	</author>
	<author initials="B." surname="Carpenter" fullname="B. Carpenter">
	<organization/>
	</author>
	<author initials="S." surname="Jiang" fullname="S. Jiang">
	<organization/>
	</author>
	<author initials="J." surname="Rajahalme" fullname="J. Rajahalme">
	<organization/>
	</author>
	<date year="2011" month="November"/>
	<abstract>
	<t>This document specifies the IPv6 Flow Label field and the minimum
	requirements for IPv6 nodes labeling flows, IPv6 nodes forwarding labeled packe
	ts, and flow state establishment methods. Even when mentioned as examples of po
	ssible uses of the flow labeling, more detailed requirements for specific use ca
	ses are out of the scope for this document.</t>
	<t>The usage of the Flow Label field enables efficient IPv6 flow cla
	ssification based only on IPv6 main header fields in fixed positions. [STANDARD
	S-TRACK]</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC6438" target="https://www.rfc-editor.org/info/rfc643
	8">
	<front>
	<title>Using the IPv6 Flow Label for Equal Cost Multipath Routing and
	Link Aggregation in Tunnels</title>
	<seriesInfo name="DOI" value="10.17487/RFC6438"/>
	<seriesInfo name="RFC" value="6438"/>
	<author initials="B." surname="Carpenter" fullname="B. Carpenter">
	<organization/>
	</author>
	<author initials="S." surname="Amante" fullname="S. Amante">
	<organization/>
	</author>
	<date year="2011" month="November"/>
	<abstract>
	<t>The IPv6 flow label has certain restrictions on its use. This do
	cument describes how those restrictions apply when using the flow label for load
	balancing by equal cost multipath routing and for link aggregation, particularl
	y for IP-in-IPv6 tunneled traffic. [STANDARDS-TRACK]</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC6633" target="https://www.rfc-editor.org/info/rfc663
	3">
	<front>
	<title>Deprecation of ICMP Source Quench Messages</title>
	<seriesInfo name="DOI" value="10.17487/RFC6633"/>
	<seriesInfo name="RFC" value="6633"/>
	<author initials="F." surname="Gont" fullname="F. Gont">
	<organization/>
	</author>
	<date year="2012" month="May"/>
	<abstract>
	<t>This document formally deprecates the use of ICMP Source Quench m
	essages by transport protocols, formally updating RFC 792, RFC 1122, and RFC 181
	2. [STANDARDS-TRACK]</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC6928" target="https://www.rfc-editor.org/info/rfc692
	8">
	<front>
	<title>Increasing TCP's Initial Window</title>
	<seriesInfo name="DOI" value="10.17487/RFC6928"/>
	<seriesInfo name="RFC" value="6928"/>
	<author initials="J." surname="Chu" fullname="J. Chu">
	<organization/>
	</author>
	<author initials="N." surname="Dukkipati" fullname="N. Dukkipati">
	<organization/>
	</author>
	<author initials="Y." surname="Cheng" fullname="Y. Cheng">
	<organization/>
	</author>
	<author initials="M." surname="Mathis" fullname="M. Mathis">
	<organization/>
	</author>
	<date year="2013" month="April"/>
	<abstract>
	<t>This document proposes an experiment to increase the permitted TC
	P initial window (IW) from between 2 and 4 segments, as specified in RFC 3390, t
	o 10 segments with a fallback to the existing recommendation when performance is
	sues are detected. It discusses the motivation behind the increase, the advanta
	ges and disadvantages of the higher initial window, and presents results from se
	veral large-scale experiments showing that the higher initial window improves th
	e overall performance of many web services without resulting in a congestion col
	lapse. The document closes with a discussion of usage and deployment for furthe
	r experimental purposes recommended by the IETF TCP Maintenance and Minor Extens
	ions (TCPM) working group.</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC7305" target="https://www.rfc-editor.org/info/rfc730
	5">
	<front>
	<title>Report from the IAB Workshop on Internet Technology Adoption an
	d Transition (ITAT)</title>
	<seriesInfo name="DOI" value="10.17487/RFC7305"/>
	<seriesInfo name="RFC" value="7305"/>
	<author initials="E." surname="Lear" fullname="E. Lear" role="editor">
	<organization/>
	</author>
	<date year="2014" month="July"/>
	<abstract>
	<t>This document provides an overview of a workshop held by the Inte
	rnet Architecture Board (IAB) on Internet Technology Adoption and Transition (IT
	AT). The workshop was hosted by the University of Cambridge on December 4th and
	5th of 2013 in Cambridge, UK. The goal of the workshop was to facilitate adopt
	ion of Internet protocols, through examination of a variety of economic models,
	with particular emphasis at the waist of the hourglass (e.g., the middle of the
	protocol stack). This report summarizes contributions and discussions. As the
	topics were wide ranging, there is no single set of recommendations for IETF par
	ticipants to pursue at this time. Instead, in the classic sense of early researc
	h, the workshop noted areas that deserve further exploration.</t>
	<t>Note that this document is a report on the proceedings of the wor
	kshop. The views and positions documented in this report are those of the works
	hop participants and do not necessarily reflect IAB views and positions.</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC7418" target="https://www.rfc-editor.org/info/rfc741
	8">
	<front>
	<title>An IRTF Primer for IETF Participants</title>
	<seriesInfo name="DOI" value="10.17487/RFC7418"/>
	<seriesInfo name="RFC" value="7418"/>
	<author initials="S." surname="Dawkins" fullname="S. Dawkins" role="ed
	itor">
	<organization/>
	</author>
	<date year="2014" month="December"/>
	<abstract>
	<t>This document provides a high-level description of things for Int
	ernet Engineering Task Force (IETF) participants to consider when bringing propo
	sals for new research groups (RGs) into the Internet Research Task Force (IRTF).
	This document emphasizes differences in expectations between the two organizat
	ions.</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC8085" target="https://www.rfc-editor.org/info/rfc808
	5">
	<front>
	<title>UDP Usage Guidelines</title>
	<seriesInfo name="DOI" value="10.17487/RFC8085"/>
	<seriesInfo name="RFC" value="8085"/>
	<seriesInfo name="BCP" value="145"/>
	<author initials="L." surname="Eggert" fullname="L. Eggert">
	<organization/>
	</author>
	<author initials="G." surname="Fairhurst" fullname="G. Fairhurst">
	<organization/>
	</author>
	<author initials="G." surname="Shepherd" fullname="G. Shepherd">
	<organization/>
	</author>
	<date year="2017" month="March"/>
	<abstract>
	<t>The User Datagram Protocol (UDP) provides a minimal message-passi
	ng transport that has no inherent congestion control mechanisms. This document
	provides guidelines on the use of UDP for the designers of applications, tunnels
	, and other protocols that use UDP. Congestion control guidelines are a primary
	focus, but the document also provides guidance on other topics, including messa
	ge sizes, reliability, checksums, middlebox traversal, the use of Explicit Conge
	stion Notification (ECN), Differentiated Services Code Points (DSCPs), and ports
	.</t>
	<t>Because congestion control is critical to the stable operation of
	the Internet, applications and other protocols that choose to use UDP as an Int
	ernet transport must employ mechanisms to prevent congestion collapse and to est
	ablish some degree of fairness with concurrent traffic. They may also need to i
	mplement additional mechanisms, depending on how they use UDP.</t>
	<t>Some guidance is also applicable to the design of other protocols
	(e.g., protocols layered directly on IP or via IP-based tunnels), especially wh
	en these protocols do not themselves provide congestion control.</t>
	<t>This document obsoletes RFC 5405 and adds guidelines for multicas
	t UDP usage.</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC8170" target="https://www.rfc-editor.org/info/rfc817
	0">
	<front>
	<title>Planning for Protocol Adoption and Subsequent Transitions</titl
	e>
	<seriesInfo name="DOI" value="10.17487/RFC8170"/>
	<seriesInfo name="RFC" value="8170"/>
	<author initials="D." surname="Thaler" fullname="D. Thaler" role="edit
	or">
	<organization/>
	</author>
	<date year="2017" month="May"/>
	<abstract>
	<t>Over the many years since the introduction of the Internet Protoc
	ol, we have seen a number of transitions throughout the protocol stack, such as
	deploying a new protocol, or updating or replacing an existing protocol. Many p
	rotocols and technologies were not designed to enable smooth transition to alter
	natives or to easily deploy extensions; thus, some transitions, such as the intr
	oduction of IPv6, have been difficult. This document attempts to summarize some
	basic principles to enable future transitions, and it also summarizes what make
	s for a good transition plan.</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC8655" target="https://www.rfc-editor.org/info/rfc865
	5">
	<front>
	<title>Deterministic Networking Architecture</title>
	<seriesInfo name="DOI" value="10.17487/RFC8655"/>
	<seriesInfo name="RFC" value="8655"/>
	<author initials="N." surname="Finn" fullname="N. Finn">
	<organization/>
	</author>
	<author initials="P." surname="Thubert" fullname="P. Thubert">
	<organization/>
	</author>
	<author initials="B." surname="Varga" fullname="B. Varga">
	<organization/>
	</author>
	<author initials="J." surname="Farkas" fullname="J. Farkas">
	<organization/>
	</author>
	<date year="2019" month="October"/>
	<abstract>
	<t>This document provides the overall architecture for Deterministic
	Networking (DetNet), which provides a capability to carry specified unicast or
	multicast data flows for real-time applications with extremely low data loss rat
	es and bounded latency within a network domain. Techniques used include 1) rese
	rving data-plane resources for individual (or aggregated) DetNet flows in some o
	r all of the intermediate nodes along the path of the flow, 2) providing explici
	t routes for DetNet flows that do not immediately change with the network topolo
	gy, and 3) distributing data from DetNet flow packets over time and/or space to
	ensure delivery of each packet's data in spite of the loss of a path. DetNet op
	erates at the IP layer and delivers service over lower-layer technologies such a
	s MPLS and Time- Sensitive Networking (TSN) as defined by IEEE 802.1.</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="RFC8793" target="https://www.rfc-editor.org/info/rfc879
	3">
	<front>
	<title>Information-Centric Networking (ICN): Content-Centric Networkin
	g (CCNx) and Named Data Networking (NDN) Terminology</title>
	<seriesInfo name="DOI" value="10.17487/RFC8793"/>
	<seriesInfo name="RFC" value="8793"/>
	<author initials="B." surname="Wissingh" fullname="B. Wissingh">
	<organization/>
	</author>
	<author initials="C." surname="Wood" fullname="C. Wood">
	<organization/>
	</author>
	<author initials="A." surname="Afanasyev" fullname="A. Afanasyev">
	<organization/>
	</author>
	<author initials="L." surname="Zhang" fullname="L. Zhang">
	<organization/>
	</author>
	<author initials="D." surname="Oran" fullname="D. Oran">
	<organization/>
	</author>
	<author initials="C." surname="Tschudin" fullname="C. Tschudin">
	<organization/>
	</author>
	<date year="2020" month="June"/>
	<abstract>
	<t>Information-Centric Networking (ICN) is a novel paradigm where ne
	twork communications are accomplished by requesting named content instead of sen
	ding packets to destination addresses. Named Data Networking (NDN) and Content-C
	entric Networking (CCNx) are two prominent ICN architectures. This document prov
	ides an overview of the terminology and definitions that have been used in descr
	ibing concepts in these two implementations of ICN. While there are other ICN ar
	chitectures, they are not part of the NDN and CCNx concepts and as such are out
	of scope for this document. This document is a product of the Information-Centri
	c Networking Research Group (ICNRG).</t>
	</abstract>
	</front>
	</reference>
	<reference anchor="Colossal-Cave" target="https://en.wikipedia.org/wiki/Co lossal_Cave_Adventure">		<reference anchor="Colossal-Cave" target="https://en.wikipedia.org/wiki/Co lossal_Cave_Adventure">
	<front>		<front>
	<title>Wikipedia Page for Colossal Cave Adventure</title>		<title>Colossal Cave Adventure</title>
	<author>		<author><organization>Wikipedia</organization></author>
	<organization/>		<date year="2021" month="June"/>
	</author>
	<date year="2019" month="January"/>
	</front>		</front>
	</reference>		</reference>
			<!-- [Conviva] Keep space before colon; this is how it appears on page -->
	<reference anchor="Conviva" target="https://www.conviva.com/datasheets/pre cision-delivery-intelligence/">		<reference anchor="Conviva" target="https://www.conviva.com/datasheets/pre cision-delivery-intelligence/">
	<front>		<front>
	<title>Conviva Precision : Data Sheet</title>		<title>Conviva Precision : Data Sheet</title>
	<author>		<author>
	<organization/>		<organization/>
	</author>		</author>
	<date year="2020" month="December"/>		<date year="2021" month="January"/>
	</front>		</front>
	</reference>		</reference>
	<reference anchor="IEN-119" target="https://www.rfc-editor.org/ien/ien119. txt">		<reference anchor="IEN-119" target="https://www.rfc-editor.org/ien/ien119. txt">
	<front>		<front>
	<title>ST - A Proposed Internet Stream Protocol</title>		<title>ST - A Proposed Internet Stream Protocol</title>
	<author initials="J." surname="Forgie" fullname="James W. Forgie">		<author initials="J." surname="Forgie" fullname="James W. Forgie">
	<organization/>		<organization/>
	</author>		</author>
	<date year="1979" month="September"/>		<date year="1979" month="September"/>
	</front>		</front>
	</reference>		</reference>
	<reference anchor="GREASE" target="https://tools.ietf.org/html/draft-iab-u
	se-it-or-lose-it-00">		<!-- draft-iab-use-it-or-lose-it (Expired) -->
	<front>		<xi:include href="https://datatracker.ietf.org/doc/bibxml3/reference.I-D.iab-use
	<title>Long-term Viability of Protocol Extension Mechanisms</title>		-it-or-lose-it.xml"/>
	<author initials="M." surname="Thomson" fullname="Martin Thomson">
	<organization/>
	</author>
	<date year="2019" month="July"/>
	</front>
	</reference>
	<reference anchor="ITAT" target="https://www.iab.org/activities/workshops/ itat/">		<reference anchor="ITAT" target="https://www.iab.org/activities/workshops/ itat/">
	<front>		<front>
	<title>IAB Workshop on Internet Technology Adoption and Transition (IT AT)</title>		<title>IAB Workshop on Internet Technology Adoption and Transition (IT AT) 2013</title>
	<author>		<author>
	<organization/>		<organization/>
	</author>		</author>
	<date year="2013" month="December"/>		<date year="2013" month="December"/>
	</front>		</front>
	</reference>		</reference>
	<reference anchor="MP-TCP" target="https://datatracker.ietf.org/wg/mptcp/a
	bout/">		<reference anchor="MP-TCP" target="https://datatracker.ietf.org/wg/mptcp/"
			>
	<front>		<front>
	<title>Multipath TCP Working Group Home Page</title>		<title>Multipath TCP Working Group Home Page</title>
	<author>		<author>
	<organization/>		<organization/>
	</author>		</author>
	<date>n.d.</date>
	</front>		</front>
	</reference>		</reference>
	<reference anchor="MOPS-109-Min" target="https://datatracker.ietf.org/meet ing/109/materials/minutes-109-mops-00">		<reference anchor="MOPS-109-Min" target="https://datatracker.ietf.org/meet ing/109/materials/minutes-109-mops-00">
	<front>		<front>
	<title>Media Operations Working Group - IETF-109 Minutes</title>		<title>Media Operations Working Group - IETF 109 Minutes</title>
	<author>		<author>
	<organization/>		<organization/>
	</author>		</author>
	<date year="2020" month="November"/>		<date year="2020" month="November"/>
	</front>		</front>
	</reference>		</reference>
	<reference anchor="model-t" target="https://www.iab.org/mailman/listinfo/m odel-t">		<reference anchor="model-t" target="https://www.iab.org/mailman/listinfo/m odel-t">
	<front>		<front>
	<title>Model-t -- Discussions of changes in Internet deployment patter ns and their impact on the Internet threat model</title>		<title>Model-t -- Discussions of changes in Internet deployment patter ns and their impact on the Internet threat model</title>
	<author>		<author>
	<organization/>		<organization/>
	</author>		</author>
	<date>n.d.</date>
	</front>		</front>
			<refcontent>model-t mailing list</refcontent>
	</reference>		</reference>
	<reference anchor="NANOG-35" target="https://www.nanog.org/meetings/nanog3
	5/agenda">		<reference anchor="NANOG-35" target="https://archive.nanog.org/meetings/na
			nog35/agenda">
	<front>		<front>
	<title>North American Network Operators Group NANOG-35 Agenda</title>		<title>NANOG 35 Agenda</title>
	<author>		<author>
	<organization/>		<organization/>
	</author>		</author>
	<date year="2005" month="October"/>		<date year="2005" month="October"/>
	</front>		</front>
			<refcontent>North American Network Operators' Group (NANOG)</refcontent>
	</reference>		</reference>
	<reference anchor="NSIS-CHARTER-2001" target="https://datatracker.ietf.org /doc/charter-ietf-nsis/">		<reference anchor="NSIS-CHARTER-2001" target="https://datatracker.ietf.org /doc/charter-ietf-nsis/">
	<front>		<front>
	<title>Next Steps In Signaling Working Group Charter</title>		<title>Next Steps In Signaling Working Group Charter</title>
	<author>		<author>
	<organization/>		<organization/>
	</author>		</author>
	<date year="2011" month="March"/>		<date year="2011" month="March"/>
	</front>		</front>
	</reference>		</reference>
	<reference anchor="PANRG-99" target="https://datatracker.ietf.org/meeting/
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	<front>		<front>
	<title>Path Aware Networking Research Group - IETF-99</title>		<title>Path Aware Networking Research Group - IETF 99</title>
	<author>		<author>
	<organization/>		<organization/>
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	<date year="2017" month="July"/>		<date year="2017" month="July"/>
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	<reference anchor="PANRG-103-Min" target="https://datatracker.ietf.org/doc /minutes-103-panrg/">		<reference anchor="PANRG-103-Min" target="https://datatracker.ietf.org/doc /minutes-103-panrg/">
	<front>		<front>
	<title>Path Aware Networking Research Group - IETF-103 Minutes</title>		<title>Path Aware Networking Research Group - IETF 103 Minutes</title>
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	<front>		<front>
	<title>Path Aware Networking Research Group - IETF-105 Minutes</title>		<title>Path Aware Networking Research Group - IETF 105 Minutes</title>
	<author>		<author>
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	<front>		<front>
	<title>Path Aware Networking Research Group - IETF-106 Minutes</title>		<title>Path Aware Networking Research Group - IETF 106 Minutes</title>
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	<title>Path Aware Networking Research Group - IETF-110</title>		<title>Path Aware Networking Research Group - IETF 110</title>
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	<date year="2017" month="July"/>		<date year="2021" month="March"/>
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	</reference>		</reference>
	<reference anchor="PATH-Decade" target="https://datatracker.ietf.org/doc/s lides-99-panrg-a-decade-of-path-awareness/">		<reference anchor="PATH-Decade" target="https://datatracker.ietf.org/doc/s lides-99-panrg-a-decade-of-path-awareness/">
	<front>		<front>
	<title>A Decade of Path Awareness</title>		<title>A Decade of Path Awareness</title>
	<author initials="O." surname="Bonaventure" fullname="Olivier Bonavent ure">		<author initials="O." surname="Bonaventure" fullname="Olivier Bonavent ure">
	<organization/>		<organization/>
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	<date year="2017" month="July"/>		<date year="2017" month="July"/>
	</front>		</front>
	</reference>		</reference>
	<reference anchor="PANRG" target="https://irtf.org/panrg">		<reference anchor="PANRG" target="https://irtf.org/panrg">
	<front>		<front>
	<title>Path Aware Networking Research Group (Home Page)</title>		<title>Path Aware Networking Research Group Home Page</title>
	<author>		<author>
	<organization/>		<organization/>
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	<date>n.d.</date>
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	<title>Using Quick-Start to enhance TCP-friendly rate control performa nce in bidirectional satellite networks</title>		<title>Using Quick-Start to enhance TCP-friendly rate control performa nce in bidirectional satellite networks</title>
	<author initials="R." surname="Secchi" fullname="Raffaello Secchi">		<author initials="R." surname="Secchi" fullname="Raffaello Secchi">
	<organization/>		<organization/>
	</author>		</author>
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	<author initials="F." surname="Potorti" fullname="Francesco Potorti">		<author initials="F." surname="Potortì" fullname="Francesco Potortì">
	<organization/>		<organization/>
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	<author initials="A." surname="Gotta" fullname="Alberto Gotta">		<author initials="A." surname="Gotta" fullname="Alberto Gotta">
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	</front>
	</reference>
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	bout/">
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	<title>QUIC Working Group Home Page</title>
	<author>
	<organization/>
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	<date>n.d.</date>
	</front>		</front>
			<seriesInfo name="DOI" value="10.1002/sat.929"/>
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	<front>		<front>
	<title>Security Area Open Meeting - IETF-105 Minutes</title>		<title>Security Area Open Meeting - IETF 105 Minutes</title>
	<author>		<author>
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			2006.11.006">
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	<title>Determining an appropriate sending rate over an underutilized n etwork path</title>		<title>Determining an appropriate sending rate over an underutilized n etwork path</title>
	<seriesInfo name="Computer Networking" value="Volume 51, Number 7"/>
	<author initials="P." surname="Sarolahti" fullname="Pasi Sarolahti">		<author initials="P." surname="Sarolahti" fullname="Pasi Sarolahti">
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			<seriesInfo name="DOI" value="10.1016/j.comnet.2006.11.006"/>
			<refcontent>Computer Networks: The International Journal of Computer and
			Telecommunications Networking, Volume 51, Number 7</refcontent>
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	<front>		<front>
	<title>ECN (Explicit Congestion Notification) in TCP/IP</title>		<title>ECN (Explicit Congestion Notification) in TCP/IP</title>
	<author initials="S." surname="Floyd" fullname="Sally Floyd">		<author initials="S." surname="Floyd" fullname="Sally Floyd">
	<organization/>		<organization/>
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	<seriesInfo name="Ph.D." value="Thesis, University of Stuttgart"/>
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	</front>		</front>
			<refcontent>Ph.D. Thesis, University of Stuttgart</refcontent>
	</reference>		</reference>
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	<front>		<front>
	<title>IAB IPv6 Multihoming Panel at NANOG 35</title>		<title>IAB IPv6 Multihoming Panel at NANOG 35</title>
	<seriesInfo name="NANOG" value="North American Network Operator Group" />
	<author initials="D." surname="Meyer" fullname="David Meyer">		<author initials="D." surname="Meyer" fullname="David Meyer">
	<organization/>		<organization/>
	</author>		</author>
	<author initials="G." surname="Huston" fullname="Geoff Huston">		<author initials="G." surname="Huston" fullname="Geoff Huston">
	<organization/>		<organization/>
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	<author initials="J." surname="Schiller" fullname="Jason Schiller">		<author initials="J." surname="Schiller" fullname="Jason Schiller">
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	<author initials="V." surname="Gill" fullname="Vijay Gill">		<author initials="V." surname="Gill" fullname="Vijay Gill">
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	</front>		</front>
			<refcontent>North American Network Operators' Group (NANOG)</refcontent>
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	<front>		<front>
	<title>Triggers for Transport BOF at IETF 55</title>		<title>Triggers for Transport BOF at IETF 55</title>
	<author>		<author>
	<organization/>		<organization/>
	</author>		</author>
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	<front>		<front>
	<title>Triggers for Transport BOF at IETF 56</title>		<title>Triggers for Transport BOF at IETF 56</title>
	<author>		<author>
	<organization/>		<organization/>
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	<date year="2003" month="November"/>		<date year="2003" month="March"/>
	</front>		</front>
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	<front>		<front>
	<title>Implementation Report on Experiences with Various TCP RFCs</tit le>		<title>Implementation Report on Experiences with Various TCP RFCs</tit le>
	<author initials="M." surname="Sridharan" fullname="Murari Sridharan">		<author initials="M." surname="Sridharan" fullname="Murari Sridharan">
	<organization/>		<organization/>
	</author>		</author>
	<author initials="D." surname="Bansal" fullname="Deepak Bansal">		<author initials="D." surname="Bansal" fullname="Deepak Bansal">
	<organization/>		<organization/>
	</author>		</author>
	<author initials="D." surname="Thaler" fullname="Dave Thaler">		<author initials="D." surname="Thaler" fullname="Dave Thaler">
	skipping to change at line 1946 ¶		skipping to change at line 1071 ¶
	<title>Implementation Report on Experiences with Various TCP RFCs</tit le>		<title>Implementation Report on Experiences with Various TCP RFCs</tit le>
	<author initials="M." surname="Sridharan" fullname="Murari Sridharan">		<author initials="M." surname="Sridharan" fullname="Murari Sridharan">
	<organization/>		<organization/>
	</author>		</author>
	<author initials="D." surname="Bansal" fullname="Deepak Bansal">		<author initials="D." surname="Bansal" fullname="Deepak Bansal">
	<organization/>		<organization/>
	</author>		</author>
	<author initials="D." surname="Thaler" fullname="Dave Thaler">		<author initials="D." surname="Thaler" fullname="Dave Thaler">
	<organization/>		<organization/>
	</author>		</author>
	<date year="2003" month="November"/>		<date year="2007" month="March"/>
	</front>		</front>
	</reference>		</reference>
	</references>		</references>
			<section anchor="acknowledgments" numbered="false" toc="default">
			<name>Acknowledgments</name>
			<t>Initial material for <xref target="ST2" format="default"/> on ST2 was p
			rovided by <contact fullname="Gorry Fairhurst"/>.</t>
			<t>Initial material for <xref target="IntServ" format="default"/> on IntSe
			rv was provided by <contact fullname="Ron Bonica"/>.</t>
			<t>Initial material for <xref target="Quick-Start" format="default"/> on Q
			uick-Start TCP was provided by <contact fullname="Michael Scharf"/>, who also pr
			ovided suggestions to improve this section after it was edited.</t>
			<t>Initial material for <xref target="Source-Quench" format="default"/> on
			ICMP Source Quench was provided by <contact fullname="Gorry Fairhurst"/>.</t>
			<t>Initial material for <xref target="TRIGTRAN" format="default"/> on Trig
			gers for Transport (TRIGTRAN) was provided by <contact fullname="Spencer Dawkins
			"/>.</t>
			<t><xref target="Shim6" format="default"/> on Shim6 builds on initial mate
			rial describing obstacles, which was provided by <contact fullname="Erik Nordmar
			k"/>, with background added by <contact fullname="Spencer Dawkins"/>.</t>
			<t>Initial material for <xref target="NSIS" format="default"/> on Next Ste
			ps in Signaling (NSIS) was provided by <contact fullname="Roland Bless"/> and <c
			ontact fullname="Martin Stiemerling"/>.</t>
			<t>Initial material for <xref target="FL" format="default"/> on IPv6 Flow
			Labels was provided by <contact fullname="Gorry Fairhurst"/>.</t>
			<t>Initial material for <xref target="ecn" format="default"/> on Explicit
			Congestion Notification was provided by <contact fullname="Spencer Dawkins"/>.</
			t>
			<t>Our thanks to <contact fullname="Adrian Farrel"/>, <contact fullname="B
			ob Briscoe"/>, <contact fullname="C.M. Heard"/>, <contact fullname="David Black"
			/>, <contact fullname="Eric Kinnear"/>, <contact fullname="Erik Auerswald"/>, <c
			ontact fullname="Gorry Fairhurst"/>, <contact fullname="Jake Holland"/>, <contac
			t fullname="
			Joe Touch"/>, <contact fullname="Joeri de Ruiter"/>, <contact fullname="Kireeti
			Kompella"/>, <contact fullname="Mohamed Boucadair"/>, <contact fullname="Randy P
			resuhn"/>,
			<contact fullname="Roland Bless"/>, <contact fullname="Ruediger Geib"/>, <contac
			t fullname="Theresa Enghardt"/>, and <contact fullname="Wes Eddy"/>, who provide
			d review comments on this document as a "work in process".</t>
			<t><contact fullname="Mallory Knodel"/> reviewed this document for the Int
			ernet Research Steering Group and provided many helpful suggestions.</t>
			<t><contact fullname="David Oran"/> also provided helpful comments and tex
			t suggestions on this document during Internet Research Steering Group balloting
			. In particular, <xref target="Futures" format="default"/> reflects his review.<
			/t>
			<t><contact fullname="Benjamin Kaduk"/>, <contact fullname="Martin Duke"/>
			,
			and <contact fullname="Rob Wilton"/> provided helpful comments during Internet
			Engineering Steering Group conflict review.</t>
			<t>Special thanks to <contact fullname="Adrian Farrel"/> for helping <cont
			act fullname="Spencer"/> navigate the twisty little passages of Flow Specs and F
			ilter Specs in IntServ, RSVP, MPLS, and BGP. They are all alike, except when the
			y are different <xref target="Colossal-Cave" format="default"/>.</t>
			</section>
	</back>		</back>
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